Merge pull request #537 from Ana06/master-py2-1_6_3

changelog: v1.6.3
- Add v1.6.3 to changelog - Remove capa rules from v1.6.2 (there were no changes). I'll remove the tag in capa-rules once this is merged. - Remove master (unreleased) section. This only makes sense in master and we are only using this branch for backporting bug fixes.
2025-12-16 09:30:46 -08:00 · 2021-04-29 14:13:20 +02:00 · 2021-04-29 11:56:50 +02:00 · 2021-04-29 11:56:50 +02:00 · 2021-04-29 11:56:50 +02:00 · 2021-04-29 11:38:14 +02:00
225 changed files with 8333 additions and 67788 deletions
--- a/.devcontainer/Dockerfile
+++ b/.devcontainer/Dockerfile
@@ -1,21 +0,0 @@
 # See here for image contents: https://github.com/microsoft/vscode-dev-containers/tree/v0.233.0/containers/python-3/.devcontainer/base.Dockerfile
 # [Choice] Python version (use -bullseye variants on local arm64/Apple Silicon): 3, 3.10, 3.9, 3.8, 3.7, 3.6, 3-bullseye, 3.10-bullseye, 3.9-bullseye, 3.8-bullseye, 3.7-bullseye, 3.6-bullseye, 3-buster, 3.10-buster, 3.9-buster, 3.8-buster, 3.7-buster, 3.6-buster
 ARG VARIANT="3.10-bullseye"
 FROM mcr.microsoft.com/vscode/devcontainers/python:0-${VARIANT}
 # [Choice] Node.js version: none, lts/*, 16, 14, 12, 10
 ARG NODE_VERSION="none"
 RUN if [ "${NODE_VERSION}" != "none" ]; then su vscode -c "umask 0002 && . /usr/local/share/nvm/nvm.sh && nvm install ${NODE_VERSION} 2>&1"; fi
 # [Optional] If your pip requirements rarely change, uncomment this section to add them to the image.
 # COPY requirements.txt /tmp/pip-tmp/
 # RUN pip3 --disable-pip-version-check --no-cache-dir install -r /tmp/pip-tmp/requirements.txt \
 #    && rm -rf /tmp/pip-tmp
 # [Optional] Uncomment this section to install additional OS packages.
 # RUN apt-get update && export DEBIAN_FRONTEND=noninteractive \
 #     && apt-get -y install --no-install-recommends <your-package-list-here>
 # [Optional] Uncomment this line to install global node packages.
 # RUN su vscode -c "source /usr/local/share/nvm/nvm.sh && npm install -g <your-package-here>" 2>&1
--- a/.devcontainer/devcontainer.json
+++ b/.devcontainer/devcontainer.json
@@ -1,51 +0,0 @@
 // For format details, see https://aka.ms/devcontainer.json. For config options, see the README at:
 // https://github.com/microsoft/vscode-dev-containers/tree/v0.233.0/containers/python-3
 {
 	"name": "Python 3",
 	"build": {
 		"dockerfile": "Dockerfile",
 		"context": "..",
 		"args": { 
 			// Update 'VARIANT' to pick a Python version: 3, 3.10, 3.9, 3.8, 3.7, 3.6
 			// Append -bullseye or -buster to pin to an OS version.
 			// Use -bullseye variants on local on arm64/Apple Silicon.
 			"VARIANT": "3.10",
 			// Options
 			"NODE_VERSION": "none"
 		}
 	},
 	// Set *default* container specific settings.json values on container create.
 	"settings": { 
 		"python.defaultInterpreterPath": "/usr/local/bin/python",
 		"python.linting.enabled": true,
 		"python.linting.pylintEnabled": true,
 		"python.formatting.autopep8Path": "/usr/local/py-utils/bin/autopep8",
 		"python.formatting.blackPath": "/usr/local/py-utils/bin/black",
 		"python.formatting.yapfPath": "/usr/local/py-utils/bin/yapf",
 		"python.linting.banditPath": "/usr/local/py-utils/bin/bandit",
 		"python.linting.flake8Path": "/usr/local/py-utils/bin/flake8",
 		"python.linting.mypyPath": "/usr/local/py-utils/bin/mypy",
 		"python.linting.pycodestylePath": "/usr/local/py-utils/bin/pycodestyle",
 		"python.linting.pydocstylePath": "/usr/local/py-utils/bin/pydocstyle",
 		"python.linting.pylintPath": "/usr/local/py-utils/bin/pylint"
 	},
 	// Add the IDs of extensions you want installed when the container is created.
 	"extensions": [
 		"ms-python.python",
 		"ms-python.vscode-pylance"
 	],
 	// Use 'forwardPorts' to make a list of ports inside the container available locally.
 	// "forwardPorts": [],
 	// Use 'postCreateCommand' to run commands after the container is created.
 	"postCreateCommand": "git submodule update --init && pip3 install --user -e .[dev] && pre-commit install",
 	// Comment out to connect as root instead. More info: https://aka.ms/vscode-remote/containers/non-root.
 	"remoteUser": "vscode",
 	"features": {
 		"git": "latest"
 	}
 }
--- a/.github/CONTRIBUTING.md
+++ b/.github/CONTRIBUTING.md
@@ -2,7 +2,7 @@
 First off, thanks for taking the time to contribute!
-The following is a set of guidelines for contributing to capa and its packages, which are hosted in the [Mandiant Organization](https://github.com/mandiant) on GitHub. These are mostly guidelines, not rules. Use your best judgment, and feel free to propose changes to this document in a pull request.
+The following is a set of guidelines for contributing to capa and its packages, which are hosted in the [FireEye Organization](https://github.com/fireeye) on GitHub. These are mostly guidelines, not rules. Use your best judgment, and feel free to propose changes to this document in a pull request.
 #### Table Of Contents
@@ -31,10 +31,10 @@ This project and everyone participating in it is governed by the [Capa Code of C
 ### Capa and its repositories
-We host the capa project as three GitHub repositories:
+We host the capa project as three Github repositories:
-  - [capa](https://github.com/mandiant/capa)
+  - [capa](https://github.com/fireeye/capa)
-  - [capa-rules](https://github.com/mandiant/capa-rules)
+  - [capa-rules](https://github.com/fireeye/capa-rules)
-  - [capa-testfiles](https://github.com/mandiant/capa-testfiles)
+  - [capa-testfiles](https://github.com/fireeye/capa-testfiles)
 The command line tools, logic engine, and other Python source code are found in the `capa` repository.
 This is the repository to fork when you want to enhance the features, performance, or user interface of capa.
@@ -54,7 +54,7 @@ These are files you'll need in order to run the linter (in `--thorough` mode) an
 ### Design Decisions
 When we make a significant decision in how we maintain the project and what we can or cannot support,
- we will document it in the [capa issues tracker](https://github.com/mandiant/capa/issues).
+ we will document it in the [capa issues tracker](https://github.com/fireeye/capa/issues).
 This is the best place review our discussions about what/how/why we do things in the project.
 If you have a question, check to see if it is documented there.
 If it is *not* documented there, or you can't find an answer, please open a issue.
@@ -78,7 +78,7 @@ Fill out [the required template](./ISSUE_TEMPLATE/bug_report.md),
 #### Before Submitting A Bug Report
 * **Determine [which repository the problem should be reported in](#capa-and-its-repositories)**.
-* **Perform a [cursory search](https://github.com/mandiant/capa/issues?q=is%3Aissue)** to see if the problem has already been reported. If it has **and the issue is still open**, add a comment to the existing issue instead of opening a new one.
+* **Perform a [cursory search](https://github.com/fireeye/capa/issues?q=is%3Aissue)** to see if the problem has already been reported. If it has **and the issue is still open**, add a comment to the existing issue instead of opening a new one.
 #### How Do I Submit A (Good) Bug Report?
@@ -101,7 +101,7 @@ Explain the problem and include additional details to help maintainers reproduce
 Provide more context by answering these questions:
 * **Did the problem start happening recently** (e.g. after updating to a new version of capa) or was this always a problem?
-* If the problem started happening recently, **can you reproduce the problem in an older version of capa?** What's the most recent version in which the problem doesn't happen? You can download older versions of capa from [the releases page](https://github.com/mandiant/capa/releases).
+* If the problem started happening recently, **can you reproduce the problem in an older version of capa?** What's the most recent version in which the problem doesn't happen? You can download older versions of capa from [the releases page](https://github.com/fireeye/capa/releases).
 * **Can you reliably reproduce the issue?** If not, provide details about how often the problem happens and under which conditions it normally happens.
 * If the problem is related to working with files (e.g. opening and editing files), **does the problem happen for all files and projects or only some?** Does the problem happen only when working with local or remote files (e.g. on network drives), with files of a specific type (e.g. only JavaScript or Python files), with large files or files with very long lines, or with files in a specific encoding? Is there anything else special about the files you are using?
@@ -119,7 +119,7 @@ Before creating enhancement suggestions, please check [this list](#before-submit
 #### Before Submitting An Enhancement Suggestion
 * **Determine [which repository the enhancement should be suggested in](#capa-and-its-repositories).**
-* **Perform a [cursory search](https://github.com/mandiant/capa/issues?q=is%3Aissue)** to see if the enhancement has already been suggested. If it has, add a comment to the existing issue instead of opening a new one.
+* **Perform a [cursory search](https://github.com/fireeye/capa/issues?q=is%3Aissue)** to see if the enhancement has already been suggested. If it has, add a comment to the existing issue instead of opening a new one.
 #### How Do I Submit A (Good) Enhancement Suggestion?
@@ -138,15 +138,15 @@ Enhancement suggestions are tracked as [GitHub issues](https://guides.github.com
 Unsure where to begin contributing to capa? You can start by looking through these `good-first-issue` and `rule-idea` issues:
-* [good-first-issue](https://github.com/mandiant/capa/issues?q=is%3Aissue+is%3Aopen+label%3A%22good+first+issue%22) - issues which should only require a few lines of code, and a test or two.
+* [good-first-issue](https://github.com/fireeye/capa/issues?q=is%3Aissue+is%3Aopen+label%3A%22good+first+issue%22) - issues which should only require a few lines of code, and a test or two.
-* [rule-idea](https://github.com/mandiant/capa-rules/issues?q=is%3Aissue+is%3Aopen+label%3A%22rule+idea%22) - issues that describe potential new rule ideas.
+* [rule-idea](https://github.com/fireeye/capa-rules/issues?q=is%3Aissue+is%3Aopen+label%3A%22rule+idea%22) - issues that describe potential new rule ideas.
 Both issue lists are sorted by total number of comments. While not perfect, number of comments is a reasonable proxy for impact a given change will have.
 #### Local development
 capa and all its resources can be developed locally. 
-For instructions on how to do this, see the "Method 3" section of the [installation guide](https://github.com/mandiant/capa/blob/master/doc/installation.md).
+For instructions on how to do this, see the "Method 3" section of the [installation guide](https://github.com/fireeye/capa/blob/master/doc/installation.md).
 ### Pull Requests
@@ -159,25 +159,12 @@ The process described here has several goals:
 Please follow these steps to have your contribution considered by the maintainers:
-0. Sign the [Contributor License Agreement](#contributor-license-agreement)
+1. Follow all instructions in [the template](PULL_REQUEST_TEMPLATE.md)
-1. Follow the [styleguides](#styleguides)
+2. Follow the [styleguides](#styleguides)
 2. Update the CHANGELOG and add tests and documentation. In case they are not needed, indicate it in [the PR template](pull_request_template.md).
 3. After you submit your pull request, verify that all [status checks](https://help.github.com/articles/about-status-checks/) are passing <details><summary>What if the status checks are failing? </summary>If a status check is failing, and you believe that the failure is unrelated to your change, please leave a comment on the pull request explaining why you believe the failure is unrelated. A maintainer will re-run the status check for you. If we conclude that the failure was a false positive, then we will open an issue to track that problem with our status check suite.</details>
 While the prerequisites above must be satisfied prior to having your pull request reviewed, the reviewer(s) may ask you to complete additional design work, tests, or other changes before your pull request can be ultimately accepted.
 ### Contributor License Agreement
 Contributions to this project must be accompanied by a Contributor License
 Agreement. You (or your employer) retain the copyright to your contribution,
 this simply gives us permission to use and redistribute your contributions as
 part of the project. Head over to <https://cla.developers.google.com/> to see
 your current agreements on file or to sign a new one.
 You generally only need to submit a CLA once, so if you've already submitted one
 (even if it was for a different project), you probably don't need to do it
 again.
 ## Styleguides
 ### Git Commit Messages
@@ -203,8 +190,8 @@ Our CI pipeline will reformat and enforce the Python styleguide.
 All (non-nursery) capa rules must:
-  1. pass the [linter](https://github.com/mandiant/capa/blob/master/scripts/lint.py), and
+  1. pass the [linter](https://github.com/fireeye/capa/blob/master/scripts/lint.py), and
-  2. be formatted with [capafmt](https://github.com/mandiant/capa/blob/master/scripts/capafmt.py)
+  2. be formatted with [capafmt](https://github.com/fireeye/capa/blob/master/scripts/capafmt.py)
 This ensures that all rules meet the same minimum level of quality and are structured in a consistent way.
 Our CI pipeline will reformat and enforce the capa rules styleguide.
--- a/.github/ISSUE_TEMPLATE/bug_report.md
+++ b/.github/ISSUE_TEMPLATE/bug_report.md
@@ -5,16 +5,16 @@ about: Create a report to help us improve
 ---
 <!--
 # Is your bug report related to capa rules (for example a false positive)?
-We use submodules to separate code, rules and test data. If your issue is related to capa rules, please report it at https://github.com/mandiant/capa-rules/issues.
+We use submodules to separate code, rules and test data. If your issue is related to capa rules, please report it at https://github.com/fireeye/capa-rules/issues.
 # Have you checked that your issue isn't already filed?
-Please search if there is a similar issue at https://github.com/mandiant/capa/issues. If there is already a similar issue, please add more details there instead of opening a new one.
+Please search if there is a similar issue at https://github.com/fireeye/capa/issues. If there is already a similar issue, please add more details there instead of opening a new one.
 # Have you read capa's Code of Conduct?
-By filing an Issue, you are expected to comply with it, including treating everyone with respect: https://github.com/mandiant/capa/blob/master/.github/CODE_OF_CONDUCT.md
+By filing an Issue, you are expected to comply with it, including treating everyone with respect: https://github.com/fireeye/capa/blob/master/.github/CODE_OF_CONDUCT.md
 # Have you read capa's CONTRIBUTING guide?
-It contains helpful information about how to contribute to capa. Check https://github.com/mandiant/capa/blob/master/.github/CONTRIBUTING.md#reporting-bugs
+It contains helpful information about how to contribute to capa. Check https://github.com/fireeye/capa/blob/master/.github/CONTRIBUTING.md#reporting-bugs
 -->
 ### Description
--- a/.github/ISSUE_TEMPLATE/feature_request.md
+++ b/.github/ISSUE_TEMPLATE/feature_request.md
@@ -5,16 +5,16 @@ about: Suggest an idea for capa
 ---
 <!--
 # Is your issue related to capa rules (for example an idea for a new rule)?
-We use submodules to separate code, rules and test data. If your issue is related to capa rules, please report it at https://github.com/mandiant/capa-rules/issues.
+We use submodules to separate code, rules and test data. If your issue is related to capa rules, please report it at https://github.com/fireeye/capa-rules/issues.
 # Have you checked that your issue isn't already filed?
-Please search if there is a similar issue at https://github.com/mandiant/capa/issues. If there is already a similar issue, please add more details there instead of opening a new one.
+Please search if there is a similar issue at https://github.com/fireeye/capa/issues. If there is already a similar issue, please add more details there instead of opening a new one.
 # Have you read capa's Code of Conduct?
-By filing an Issue, you are expected to comply with it, including treating everyone with respect: https://github.com/mandiant/capa/blob/master/.github/CODE_OF_CONDUCT.md
+By filing an Issue, you are expected to comply with it, including treating everyone with respect: https://github.com/fireeye/capa/blob/master/.github/CODE_OF_CONDUCT.md
 # Have you read capa's CONTRIBUTING guide?
-It contains helpful information about how to contribute to capa. Check https://github.com/mandiant/capa/blob/master/.github/CONTRIBUTING.md#suggesting-enhancements
+It contains helpful information about how to contribute to capa. Check https://github.com/fireeye/capa/blob/master/.github/CONTRIBUTING.md#suggesting-enhancements
 -->
 ### Summary
--- a/.github/flake8.ini
+++ b/.github/flake8.ini
@@ -1,43 +0,0 @@
 [flake8]
 max-line-length = 120
 extend-ignore =
    # E203: whitespace before ':'  (black does this)
    E203,
    # F401: `foo` imported but unused  (prefer ruff)
    F401,
    # F811 Redefinition of unused `foo`  (prefer ruff)
    F811,
    # E501 line too long  (prefer black)
    E501,
    # E701 multiple statements on one line (colon)  (prefer black, see https://github.com/psf/black/issues/4173)
    E701,
    # B010 Do not call setattr with a constant attribute value
    B010,
    # G200 Logging statement uses exception in arguments
    G200,
    # SIM102 Use a single if-statement instead of nested if-statements
    # doesn't provide a space for commenting or logical separation of conditions
    SIM102,
    # SIM114 Use logical or and a single body
    # makes logic trees too complex
    SIM114,
    # SIM117 Use 'with Foo, Bar:' instead of multiple with statements
    # makes lines too long
    SIM117
 per-file-ignores =
    # T201 print found.
    #
    # scripts are meant to print output
    scripts/*: T201
    # capa.exe is meant to print output
    capa/main.py: T201
    # IDA tests emit results to output window so need to print
    tests/test_ida_features.py: T201
    # utility used to find the Binary Ninja API via invoking python.exe
    capa/features/extractors/binja/find_binja_api.py: T201
 copyright-check = True
 copyright-min-file-size = 1 
 copyright-regexp = Copyright \(C\) 2023 Mandiant, Inc. All Rights Reserved.
--- a/.github/mypy/mypy.ini
+++ b/.github/mypy/mypy.ini
@@ -1,91 +0,0 @@
 [mypy]
 [mypy-halo.*]
 ignore_missing_imports = True
 [mypy-tqdm.*]
 ignore_missing_imports = True
 [mypy-ruamel.*]
 ignore_missing_imports = True
 [mypy-networkx.*]
 ignore_missing_imports = True
 [mypy-pefile.*]
 ignore_missing_imports = True
 [mypy-viv_utils.*]
 ignore_missing_imports = True
 [mypy-flirt.*]
 ignore_missing_imports = True
 [mypy-lief.*]
 ignore_missing_imports = True
 [mypy-idc.*]
 ignore_missing_imports = True
 [mypy-vivisect.*]
 ignore_missing_imports = True
 [mypy-envi.*]
 ignore_missing_imports = True
 [mypy-PE.*]
 ignore_missing_imports = True
 [mypy-idaapi.*]
 ignore_missing_imports = True
 [mypy-idautils.*]
 ignore_missing_imports = True
 [mypy-ida_auto.*]
 ignore_missing_imports = True
 [mypy-ida_bytes.*]
 ignore_missing_imports = True
 [mypy-ida_nalt.*]
 ignore_missing_imports = True
 [mypy-ida_kernwin.*]
 ignore_missing_imports = True
 [mypy-ida_settings.*]
 ignore_missing_imports = True
 [mypy-ida_funcs.*]
 ignore_missing_imports = True
 [mypy-ida_loader.*]
 ignore_missing_imports = True
 [mypy-ida_segment.*]
 ignore_missing_imports = True
 [mypy-PyQt5.*]
 ignore_missing_imports = True
 [mypy-binaryninja.*]
 ignore_missing_imports = True
 [mypy-pytest.*]
 ignore_missing_imports = True
 [mypy-devtools.*]
 ignore_missing_imports = True
 [mypy-elftools.*]
 ignore_missing_imports = True
 [mypy-dncil.*]
 ignore_missing_imports = True
 [mypy-netnode.*]
 ignore_missing_imports = True
 [mypy-ghidra.*]
 ignore_missing_imports = True
--- a/.github/pull_request_template.md
+++ b/.github/pull_request_template.md
@@ -1,22 +1,32 @@
 <!--
-Thank you for contributing to capa! <3
+Thank you for contributing to capa! :heart:
 IMPORTANT NOTE
 It's most important that you submit your improvements. So even if you don't use this complete template we look forward to collaborating!
 Please read capa's CONTRIBUTING guide if you haven't done so already.
-It contains helpful information about how to contribute to capa. Check https://github.com/mandiant/capa/blob/master/.github/CONTRIBUTING.md
+It contains helpful information about how to contribute to capa. Check https://github.com/fireeye/capa/blob/master/.github/CONTRIBUTING.md
-Please describe the changes in this pull request (PR). Include your motivation and context to help us review.
+PR template based on https://embeddedartistry.com/blog/2017/08/04/a-github-pull-request-template-for-your-projects/
 Please mention the issue your PR addresses (if any):
 closes #issue_number
 -->
 ### Description
-### Checklist
+<!-- Please describe the changes in this PR. Including your motivation and context helps us to review. -->
-<!-- CHANGELOG.md has a `master (unreleased)` section. Please add bug fixes, new features, breaking changes and anything else you think is worthwhile mentioning in the release notes to this file. -->
+closes # (issue)
- [ ] No CHANGELOG update needed
+
-<!-- Tests prove that your fix/work as expected and ensure it doesn't break on the feature. -->
+### Type of change
 Please update the [CHANGELOG.md](/CHANGELOG.md)
 - [ ] Bug fix (non-breaking change which fixes an issue)
 - [ ] New feature (non-breaking change which adds functionality)
 - [ ] Breaking change (fix or feature that would cause existing functionality to not work as expected)
 - [ ] This change requires a documentation update
  - [ ] I have made the corresponding changes to the documentation
 ### Tests
 - [ ] I have added tests that prove my fix is effective or that my feature works
 - [ ] No new tests needed
 <!-- Please help us keeping capa documentation up-to-date -->
 - [ ] No documentation update needed
--- a/.github/pyinstaller/hooks/hook-smda.py
+++ b/.github/pyinstaller/hooks/hook-smda.py
@@ -0,0 +1,5 @@
 # Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 import PyInstaller.utils.hooks
 # ref: https://groups.google.com/g/pyinstaller/c/amWi0-66uZI/m/miPoKfWjBAAJ
 binaries = PyInstaller.utils.hooks.collect_dynamic_libs("capstone")
--- a/.github/pyinstaller/hooks/hook-vivisect.py
+++ b/.github/pyinstaller/hooks/hook-vivisect.py
@@ -1,4 +1,4 @@
-# Copyright (C) 2020 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 from PyInstaller.utils.hooks import copy_metadata
@@ -38,36 +38,39 @@ hiddenimports = [
    "vivisect",
    "vivisect.analysis",
    "vivisect.analysis.amd64",
    "vivisect.analysis.amd64",
    "vivisect.analysis.amd64.emulation",
    "vivisect.analysis.amd64.golang",
    "vivisect.analysis.crypto",
    "vivisect.analysis.crypto",
    "vivisect.analysis.crypto.constants",
    "vivisect.analysis.elf",
    "vivisect.analysis.elf",
    "vivisect.analysis.elf.elfplt",
    "vivisect.analysis.elf.elfplt_late",
    "vivisect.analysis.elf.libc_start_main",
    "vivisect.analysis.generic",
    "vivisect.analysis.generic",
    "vivisect.analysis.generic.codeblocks",
    "vivisect.analysis.generic.emucode",
    "vivisect.analysis.generic.entrypoints",
    "vivisect.analysis.generic.funcentries",
    "vivisect.analysis.generic.impapi",
    "vivisect.analysis.generic.linker",
    "vivisect.analysis.generic.mkpointers",
    "vivisect.analysis.generic.noret",
    "vivisect.analysis.generic.pointers",
    "vivisect.analysis.generic.pointertables",
    "vivisect.analysis.generic.relocations",
    "vivisect.analysis.generic.strconst",
    "vivisect.analysis.generic.switchcase",
    "vivisect.analysis.generic.symswitchcase",
    "vivisect.analysis.generic.thunks",
    "vivisect.analysis.generic.noret",
    "vivisect.analysis.i386",
    "vivisect.analysis.i386",
    "vivisect.analysis.i386.calling",
    "vivisect.analysis.i386.golang",
    "vivisect.analysis.i386.importcalls",
    "vivisect.analysis.i386.instrhook",
-    "vivisect.analysis.i386.thunk_reg",
+    "vivisect.analysis.i386.thunk_bx",
    "vivisect.analysis.ms",
    "vivisect.analysis.ms",
    "vivisect.analysis.ms.hotpatch",
    "vivisect.analysis.ms.localhints",
@@ -78,40 +81,8 @@ hiddenimports = [
    "vivisect.impapi.posix.amd64",
    "vivisect.impapi.posix.i386",
    "vivisect.impapi.windows",
    "vivisect.impapi.windows.advapi_32",
    "vivisect.impapi.windows.advapi_64",
    "vivisect.impapi.windows.amd64",
    "vivisect.impapi.windows.gdi_32",
    "vivisect.impapi.windows.gdi_64",
    "vivisect.impapi.windows.i386",
    "vivisect.impapi.windows.kernel_32",
    "vivisect.impapi.windows.kernel_64",
    "vivisect.impapi.windows.msvcr100_32",
    "vivisect.impapi.windows.msvcr100_64",
    "vivisect.impapi.windows.msvcr110_32",
    "vivisect.impapi.windows.msvcr110_64",
    "vivisect.impapi.windows.msvcr120_32",
    "vivisect.impapi.windows.msvcr120_64",
    "vivisect.impapi.windows.msvcr71_32",
    "vivisect.impapi.windows.msvcr80_32",
    "vivisect.impapi.windows.msvcr80_64",
    "vivisect.impapi.windows.msvcr90_32",
    "vivisect.impapi.windows.msvcr90_64",
    "vivisect.impapi.windows.msvcrt_32",
    "vivisect.impapi.windows.msvcrt_64",
    "vivisect.impapi.windows.ntdll_32",
    "vivisect.impapi.windows.ntdll_64",
    "vivisect.impapi.windows.ole_32",
    "vivisect.impapi.windows.ole_64",
    "vivisect.impapi.windows.rpcrt4_32",
    "vivisect.impapi.windows.rpcrt4_64",
    "vivisect.impapi.windows.shell_32",
    "vivisect.impapi.windows.shell_64",
    "vivisect.impapi.windows.user_32",
    "vivisect.impapi.windows.user_64",
    "vivisect.impapi.windows.ws2plus_32",
    "vivisect.impapi.windows.ws2plus_64",
    "vivisect.impapi.winkern",
    "vivisect.impapi.winkern.i386",
    "vivisect.impapi.winkern.amd64",
    "vivisect.parsers.blob",
--- a/.github/pyinstaller/pyinstaller.spec
+++ b/.github/pyinstaller/pyinstaller.spec
@@ -1,40 +1,55 @@
 # -*- mode: python -*-
-# Copyright (C) 2020 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 import os.path
 import subprocess
 import wcwidth
 # when invoking pyinstaller from the project root,
 # this gets run from the project root.
 with open('./capa/version.py', 'wb') as f:
    # git output will look like:
    #
    #     tags/v1.0.0-0-g3af38dc
    #         ------- tag
    #                 - commits since
    #                   g------- git hash fragment
    version = (subprocess.check_output(["git", "describe", "--always", "--tags", "--long"])
               .decode("utf-8")
               .strip()
               .replace("tags/", ""))
    f.write(("__version__ = '%s'" % version).encode("utf-8"))
 a = Analysis(
    # when invoking pyinstaller from the project root,
    # this gets invoked from the directory of the spec file,
    # i.e. ./.github/pyinstaller
-    ["../../capa/main.py"],
+    ['../../capa/main.py'],
-    pathex=["capa"],
+    pathex=['capa'],
    binaries=None,
    datas=[
        # when invoking pyinstaller from the project root,
        # this gets invoked from the directory of the spec file,
        # i.e. ./.github/pyinstaller
-        ("../../rules", "rules"),
+        ('../../rules', 'rules'),
-        ("../../sigs", "sigs"),
+
        ("../../cache", "cache"),
        # capa.render.default uses tabulate that depends on wcwidth.
        # it seems wcwidth uses a json file `version.json`
        # and this doesn't get picked up by pyinstaller automatically.
        # so we manually embed the wcwidth resources here.
        #
        # ref: https://stackoverflow.com/a/62278462/87207
-        (os.path.dirname(wcwidth.__file__), "wcwidth"),
+        (os.path.dirname(wcwidth.__file__), 'wcwidth')
    ],
    # when invoking pyinstaller from the project root,
    # this gets run from the project root.
-    hookspath=[".github/pyinstaller/hooks"],
+    hookspath=['.github/pyinstaller/hooks'],
    runtime_hooks=None,
    excludes=[
        # ignore packages that would otherwise be bundled with the .exe.
        # review: build/pyinstaller/xref-pyinstaller.html
        # we don't do any GUI stuff, so ignore these modules
        "tkinter",
        "_tkinter",
@@ -44,6 +59,7 @@ a = Analysis(
        # since we don't spawn a notebook, we can safely remove these.
        "IPython",
        "ipywidgets",
        # these are pulled in by networkx
        # but we don't need to compute the strongly connected components.
        "numpy",
@@ -51,6 +67,7 @@ a = Analysis(
        "matplotlib",
        "pandas",
        "pytest",
        # deps from viv that we don't use.
        # this duplicates the entries in `hook-vivisect`,
        # but works better this way.
@@ -60,36 +77,36 @@ a = Analysis(
        "PyQt5",
        "qt5",
        "pyqtwebengine",
-        "pyasn1",
+        "pyasn1"
-        "binaryninja",
+    ])
    ],
 )
-a.binaries = a.binaries - TOC([("tcl85.dll", None, None), ("tk85.dll", None, None), ("_tkinter", None, None)])
+a.binaries = a.binaries - TOC([
 ('tcl85.dll', None, None),
 ('tk85.dll', None, None),
 ('_tkinter', None, None)])
 pyz = PYZ(a.pure, a.zipped_data)
-exe = EXE(
+exe = EXE(pyz,
-    pyz,
+          a.scripts,
-    a.scripts,
+          a.binaries,
-    a.binaries,
+          a.zipfiles,
-    a.zipfiles,
+          a.datas,
-    a.datas,
+          exclude_binaries=False,
-    exclude_binaries=False,
+          name='capa',
-    name="capa",
+          icon='logo.ico',
-    icon="logo.ico",
+          debug=False,
-    debug=False,
+          strip=None,
-    strip=False,
+          upx=True,
-    upx=True,
+          console=True )
    console=True,
 )
 # enable the following to debug the contents of the .exe
 #
-# coll = COLLECT(exe,
+#coll = COLLECT(exe,
 #               a.binaries,
 #               a.zipfiles,
 #               a.datas,
 #               strip=None,
 #               upx=True,
 #               name='capa-dat')
--- a/.github/ruff.toml
+++ b/.github/ruff.toml
@@ -1,43 +0,0 @@
 # Enable the pycodestyle (`E`) and Pyflakes (`F`) rules by default.
 # Unlike Flake8, Ruff doesn't enable pycodestyle warnings (`W`) or
 # McCabe complexity (`C901`) by default.
 select = ["E", "F"]
 # Allow autofix for all enabled rules (when `--fix`) is provided.
 fixable = ["ALL"]
 unfixable = []
 # E402 module level import not at top of file
 # E722 do not use bare 'except'
 # E501 line too long
 ignore = ["E402", "E722", "E501"]
 line-length = 120
 exclude = [
    # Exclude a variety of commonly ignored directories.
    ".bzr",
    ".direnv",
    ".eggs",
    ".git",
    ".git-rewrite",
    ".hg",
    ".mypy_cache",
    ".nox",
    ".pants.d",
    ".pytype",
    ".ruff_cache",
    ".svn",
    ".tox",
    ".venv",
    "__pypackages__",
    "_build",
    "buck-out",
    "build",
    "dist",
    "node_modules",
    "venv",
    # protobuf generated files
    "*_pb2.py", 
    "*_pb2.pyi"
 ]
--- a/.github/tox.ini
+++ b/.github/tox.ini
@@ -0,0 +1,10 @@
 [pycodestyle]
 ; E402: module level import not at top of file
 ; W503: line break before binary operator
 ; E231 missing whitespace after ',' (emitted by black)
 ; E203 whitespace before ':' (emitted by black)
 ignore = E402,W503,E203,E231
 max-line-length = 160
 statistics = True
 count = True
 exclude = .*
--- a/.github/workflows/build.yml
+++ b/.github/workflows/build.yml
@@ -1,124 +1,66 @@
 name: build
 on:
  pull_request:
    branches: [ master ]
  release:
    types: [edited, published]
 permissions:
  contents: write
 jobs:
  build:
-    name: PyInstaller for ${{ matrix.os }} / Py ${{ matrix.python_version }}
+    name: PyInstaller for ${{ matrix.os }}
    runs-on: ${{ matrix.os }}
    strategy:
      # set to false for debugging
      fail-fast: true
      matrix:
        # using Python 3.8 to support running across multiple operating systems including Windows 7
        include:
-          - os: ubuntu-20.04
+          - os: ubuntu-16.04
            # use old linux so that the shared library versioning is more portable
            artifact_name: capa
            asset_name: linux
            python_version: 3.8
          - os: ubuntu-20.04
            artifact_name: capa
            asset_name: linux-py311
            python_version: 3.11
          - os: windows-2019
            artifact_name: capa.exe
            asset_name: windows
-            python_version: 3.8
+          - os: macos-10.15
          - os: macos-11
            # use older macOS for assumed better portability
            artifact_name: capa
            asset_name: macos
            python_version: 3.8
    steps:
      - name: Checkout capa
-        uses: actions/checkout@ac593985615ec2ede58e132d2e21d2b1cbd6127c # v3.3.0
+        uses: actions/checkout@v2
        with:
          submodules: true
-      - name: Set up Python ${{ matrix.python_version }}
+      - name: Set up Python 3.8
-        uses: actions/setup-python@d27e3f3d7c64b4bbf8e4abfb9b63b83e846e0435 # v4.5.0
+        uses: actions/setup-python@v2
        with:
-          python-version: ${{ matrix.python_version }}
+          python-version: 3.8
-      - if: matrix.os == 'ubuntu-20.04'
+      - if: matrix.os == 'ubuntu-16.04'
        run: sudo apt-get install -y libyaml-dev
-      - name: Upgrade pip, setuptools
+      - name: Install PyInstaller
-        run: python -m pip install --upgrade pip setuptools
+        run: pip install 'pyinstaller==4.2'
-      - name: Install capa with build requirements
+      - name: Install capa
-        run: pip install -e .[build]
+        run: pip install -e .
      - name: Cache the rule set
        run: python ./scripts/cache-ruleset.py ./rules/ ./cache/
      - name: Build standalone executable
-        run: pyinstaller --log-level DEBUG .github/pyinstaller/pyinstaller.spec
+        run: pyinstaller .github/pyinstaller/pyinstaller.spec
-      - name: Does it run (PE)?
+      - name: Does it run?
-        run: dist/capa -d "tests/data/Practical Malware Analysis Lab 01-01.dll_"
+        run: dist/capa "tests/data/Practical Malware Analysis Lab 01-01.dll_"
-      - name: Does it run (Shellcode)?
+      - uses: actions/upload-artifact@v2
        run: dist/capa -d "tests/data/499c2a85f6e8142c3f48d4251c9c7cd6.raw32"
      - name: Does it run (ELF)?
        run: dist/capa -d "tests/data/7351f8a40c5450557b24622417fc478d.elf_"
      - name: Does it run (CAPE)?
        run: |
          7z e "tests/data/dynamic/cape/v2.2/d46900384c78863420fb3e297d0a2f743cd2b6b3f7f82bf64059a168e07aceb7.json.gz"
          dist/capa -d "d46900384c78863420fb3e297d0a2f743cd2b6b3f7f82bf64059a168e07aceb7.json"
      - uses: actions/upload-artifact@0b7f8abb1508181956e8e162db84b466c27e18ce # v3.1.2
        with:
          name: ${{ matrix.asset_name }}
          path: dist/${{ matrix.artifact_name }}
-  test_run:
+  zip:
-    name: Test run on ${{ matrix.os }} / ${{ matrix.asset_name }}
+    name: zip ${{ matrix.asset_name }}
    runs-on: ${{ matrix.os }}
    needs: [build]
    strategy:
      matrix:
        include:
          # OSs not already tested above
          - os: ubuntu-22.04
            artifact_name: capa
            asset_name: linux
          - os: ubuntu-22.04
            artifact_name: capa
            asset_name: linux-py311
          - os: windows-2022
            artifact_name: capa.exe
            asset_name: windows
    steps:
      - name: Download ${{ matrix.asset_name }}
        uses: actions/download-artifact@9bc31d5ccc31df68ecc42ccf4149144866c47d8a # v3.0.2
        with:
          name: ${{ matrix.asset_name }}
      - name: Set executable flag
        if: matrix.os != 'windows-2022'
        run: chmod +x ${{ matrix.artifact_name }}
      - name: Run capa
        run: ./${{ matrix.artifact_name }} -h
  zip_and_upload:
    # upload zipped binaries to Release page
    if: github.event_name == 'release'
    name: zip and upload ${{ matrix.asset_name }}
    runs-on: ubuntu-20.04
-    needs: [build]
+    needs: build
    strategy:
      matrix:
        include:
          - asset_name: linux
            artifact_name: capa
          - asset_name: linux-py311
            artifact_name: capa
          - asset_name: windows
            artifact_name: capa.exe
          - asset_name: macos
            artifact_name: capa
    steps:
      - name: Download ${{ matrix.asset_name }}
-        uses: actions/download-artifact@9bc31d5ccc31df68ecc42ccf4149144866c47d8a # v3.0.2
+        uses: actions/download-artifact@v2
        with:
          name: ${{ matrix.asset_name }}
      - name: Set executable flag
@@ -128,7 +70,7 @@ jobs:
      - name: Zip ${{ matrix.artifact_name }} into ${{ env.zip_name }}
        run: zip ${{ env.zip_name }} ${{ matrix.artifact_name }}
      - name: Upload ${{ env.zip_name }} to GH Release
-        uses: svenstaro/upload-release-action@2728235f7dc9ff598bd86ce3c274b74f802d2208 # v2
+        uses: svenstaro/upload-release-action@v2
        with:
          repo_token: ${{ secrets.GITHUB_TOKEN}}
          file: ${{ env.zip_name }}
--- a/.github/workflows/changelog.yml
+++ b/.github/workflows/changelog.yml
@@ -1,43 +0,0 @@
 name: changelog
 on:
  # We need pull_request_target instead of pull_request because a write
  # repository token is needed to add a review to a PR. DO NOT BUILD
  # OR RUN UNTRUSTED CODE FROM PRs IN THIS ACTION
  pull_request_target:
    types: [opened, edited, synchronize]
 permissions: read-all
 jobs:
  check_changelog:
    # no need to check for dependency updates via dependabot
    if: github.actor != 'dependabot[bot]' && github.actor != 'dependabot-preview[bot]'
    runs-on: ubuntu-20.04
    env:
      NO_CHANGELOG: '[x] No CHANGELOG update needed'
    steps:
    - name: Get changed files
      id: files
      uses: Ana06/get-changed-files@e0c398b7065a8d84700c471b6afc4116d1ba4e96 # v2.2.0
    - name: check changelog updated
      id: changelog_updated
      env:
        PR_BODY: ${{ github.event.pull_request.body }}
        FILES: ${{ steps.files.outputs.modified }}
      run: |
        echo $FILES | grep -qF 'CHANGELOG.md' || echo $PR_BODY | grep -qiF "$NO_CHANGELOG"
    - name: Reject pull request if no CHANGELOG update
      if: ${{ always() && steps.changelog_updated.outcome == 'failure' }}
      uses: Ana06/automatic-pull-request-review@0cf4e8a17ba79344ed3fdd7fed6dd0311d08a9d4 # v0.1.0
      with:
        repo-token: ${{ secrets.GITHUB_TOKEN }}
        event: REQUEST_CHANGES
        body: "Please add bug fixes, new features, breaking changes and anything else you think is worthwhile mentioning to the `master (unreleased)` section of CHANGELOG.md. If no CHANGELOG update is needed add the following to the PR description: `${{ env.NO_CHANGELOG }}`"
        allow_duplicate: false
    - name: Dismiss previous review if CHANGELOG update
      uses: Ana06/automatic-pull-request-review@0cf4e8a17ba79344ed3fdd7fed6dd0311d08a9d4 # v0.1.0
      with:
        repo-token: ${{ secrets.GITHUB_TOKEN }}
        event: DISMISS
        body: "CHANGELOG updated or no update needed, thanks! :smile:"
--- a/.github/workflows/pip-audit.yml
+++ b/.github/workflows/pip-audit.yml
@@ -1,21 +0,0 @@
 name: PIP audit
 on:
  schedule:
  - cron: '0 8 * * 1'
 jobs:
  test:
    runs-on: ubuntu-latest
    timeout-minutes: 20
    strategy:
      matrix:
        python-version: ["3.11"]
    steps:
      - name: Check out repository code
        uses: actions/checkout@v4
      - uses: pypa/gh-action-pip-audit@v1.0.8
        with:
          inputs: .
--- a/.github/workflows/publish.yml
+++ b/.github/workflows/publish.yml
@@ -1,41 +1,29 @@
-# use PyPI trusted publishing, as described here: 
+# This workflows will upload a Python Package using Twine when a release is created
-# https://blog.trailofbits.com/2023/05/23/trusted-publishing-a-new-benchmark-for-packaging-security/
+# For more information see: https://help.github.com/en/actions/language-and-framework-guides/using-python-with-github-actions#publishing-to-package-registries
 name: publish to pypi
 on:
  release:
    types: [published]
 permissions:
  contents: write
 jobs:
-  pypi-publish:
+  deploy:
-    runs-on: ubuntu-latest
+    runs-on: ubuntu-20.04
    environment:
      name: release
    permissions:
      id-token: write
    steps:
-      - uses: actions/checkout@ac593985615ec2ede58e132d2e21d2b1cbd6127c # v3.3.0
+      - uses: actions/checkout@v2
      - name: Set up Python
-        uses: actions/setup-python@d27e3f3d7c64b4bbf8e4abfb9b63b83e846e0435 # v4.5.0
+        uses: actions/setup-python@v2
        with:
-          python-version: '3.8'
+          python-version: '2.7'
      - name: Install dependencies
        run: |
          python -m pip install --upgrade pip
-          pip install -e .[build]
+          pip install setuptools wheel twine
-      - name: build package
+      - name: Build and publish
        env:
          TWINE_USERNAME: ${{ secrets.PYPI_USERNAME }}
          TWINE_PASSWORD: ${{ secrets.PYPI_PASSWORD }}
        run: |
-          python -m build
+          python setup.py sdist bdist_wheel
-      - name: upload package artifacts
+          twine upload --skip-existing dist/*
        uses: actions/upload-artifact@0b7f8abb1508181956e8e162db84b466c27e18ce # v3.1.2
        with:
          path: dist/*
      - name: publish package
        uses: pypa/gh-action-pypi-publish@f5622bde02b04381239da3573277701ceca8f6a0  # release/v1
        with:
          skip-existing: true
          verbose: true
          print-hash: true
--- a/.github/workflows/scorecard.yml
+++ b/.github/workflows/scorecard.yml
@@ -1,72 +0,0 @@
 # This workflow uses actions that are not certified by GitHub. They are provided
 # by a third-party and are governed by separate terms of service, privacy
 # policy, and support documentation.
 name: Scorecard supply-chain security
 on:
  # For Branch-Protection check. Only the default branch is supported. See
  # https://github.com/ossf/scorecard/blob/main/docs/checks.md#branch-protection
  branch_protection_rule:
  # To guarantee Maintained check is occasionally updated. See
  # https://github.com/ossf/scorecard/blob/main/docs/checks.md#maintained
  schedule:
    - cron: '43 4 * * 3'
  push:
    branches: [ "master" ]
 # Declare default permissions as read only.
 permissions: read-all
 jobs:
  analysis:
    name: Scorecard analysis
    runs-on: ubuntu-latest
    permissions:
      # Needed to upload the results to code-scanning dashboard.
      security-events: write
      # Needed to publish results and get a badge (see publish_results below).
      id-token: write
      # Uncomment the permissions below if installing in a private repository.
      # contents: read
      # actions: read
    steps:
      - name: "Checkout code"
        uses: actions/checkout@93ea575cb5d8a053eaa0ac8fa3b40d7e05a33cc8 # v3.1.0
        with:
          persist-credentials: false
      - name: "Run analysis"
        uses: ossf/scorecard-action@99c53751e09b9529366343771cc321ec74e9bd3d # v2.0.6
        with:
          results_file: results.sarif
          results_format: sarif
          # (Optional) "write" PAT token. Uncomment the `repo_token` line below if:
          # - you want to enable the Branch-Protection check on a *public* repository, or
          # - you are installing Scorecard on a *private* repository
          # To create the PAT, follow the steps in https://github.com/ossf/scorecard-action#authentication-with-pat.
          # repo_token: ${{ secrets.SCORECARD_TOKEN }}
          # Public repositories:
          #   - Publish results to OpenSSF REST API for easy access by consumers
          #   - Allows the repository to include the Scorecard badge.
          #   - See https://github.com/ossf/scorecard-action#publishing-results.
          # For private repositories:
          #   - `publish_results` will always be set to `false`, regardless
          #     of the value entered here.
          publish_results: true
      # Upload the results as artifacts (optional). Commenting out will disable uploads of run results in SARIF
      # format to the repository Actions tab.
      - name: "Upload artifact"
        uses: actions/upload-artifact@3cea5372237819ed00197afe530f5a7ea3e805c8 # v3.1.0
        with:
          name: SARIF file
          path: results.sarif
          retention-days: 5
      # Upload the results to GitHub's code scanning dashboard.
      - name: "Upload to code-scanning"
        uses: github/codeql-action/upload-sarif@807578363a7869ca324a79039e6db9c843e0e100 # v2.1.27
        with:
          sarif_file: results.sarif
--- a/.github/workflows/tag.yml
+++ b/.github/workflows/tag.yml
@@ -4,29 +4,21 @@ on:
  release:
    types: [published]
 permissions: read-all
 jobs:
  tag:
    name: Tag capa rules
    runs-on: ubuntu-20.04
    steps:
    - name: Checkout capa-rules
-      uses: actions/checkout@ac593985615ec2ede58e132d2e21d2b1cbd6127c # v3.3.0
+      uses: actions/checkout@v2
      with:
-        repository: mandiant/capa-rules
+        repository: fireeye/capa-rules
        token: ${{ secrets.CAPA_TOKEN }}
    - name: Tag capa-rules
-      run: |
+      run: git tag ${{ github.event.release.tag_name }}
        # user information is needed to create annotated tags (with a message)
        git config user.email 'capa-dev@mandiant.com'
        git config user.name 'Capa Bot'
        name=${{ github.event.release.tag_name }}
        git tag $name -m "https://github.com/mandiant/capa/releases/$name"
        # TODO update branch name-major=${name%%.*}
    - name: Push tag to capa-rules
-      uses: ad-m/github-push-action@0fafdd62b84042d49ec0cb92d9cac7f7ce4ec79e # master
+      uses: ad-m/github-push-action@master
      with:
-        repository: mandiant/capa-rules
+        repository: fireeye/capa-rules
        github_token: ${{ secrets.CAPA_TOKEN }}
        tags: true
--- a/.github/workflows/tests.yml
+++ b/.github/workflows/tests.yml
@@ -2,64 +2,40 @@ name: CI
 on:
  push:
-    branches: [ master ]
+    branches: [ master, master-py2 ]
  pull_request:
-    branches: [ master ]
+    branches: [ master, master-py2 ]
 permissions: read-all
 # save workspaces to speed up testing
 env:
  CAPA_SAVE_WORKSPACE: "True"
 jobs:
  changelog_format:
    runs-on: ubuntu-20.04
    steps:
    - name: Checkout capa
      uses: actions/checkout@ac593985615ec2ede58e132d2e21d2b1cbd6127c # v3.3.0
    # The sync GH action in capa-rules relies on a single '- *$' in the CHANGELOG file
    - name: Ensure CHANGELOG has '- *$'
      run: |
        number=$(grep '\- *$' CHANGELOG.md | wc -l)
        if [ $number != 1 ]; then exit 1; fi
  code_style:
    runs-on: ubuntu-20.04
    steps:
    - name: Checkout capa
-      uses: actions/checkout@ac593985615ec2ede58e132d2e21d2b1cbd6127c # v3.3.0
+      uses: actions/checkout@v2
-    # use latest available python to take advantage of best performance
+    - name: Set up Python 3.8
-    - name: Set up Python 3.11
+      uses: actions/setup-python@v2
      uses: actions/setup-python@d27e3f3d7c64b4bbf8e4abfb9b63b83e846e0435 # v4.5.0
      with:
-        python-version: "3.11"
+        python-version: 3.8
    - name: Install dependencies
      run: pip install -e .[dev]
    - name: Lint with ruff
      run: pre-commit run ruff
    - name: Lint with isort
-      run: pre-commit run isort --show-diff-on-failure
+      run: isort --profile black --length-sort --line-width 120 -c .
    - name: Lint with black
-      run: pre-commit run black --show-diff-on-failure
+      run: black -l 120 --check .
    - name: Lint with flake8
      run: pre-commit run flake8 --hook-stage manual
    - name: Check types with mypy
      run:  pre-commit run mypy --hook-stage manual
  rule_linter:
    runs-on: ubuntu-20.04
    steps:
-    - name: Checkout capa with submodules
+    - name: Checkout capa with rules submodule
-      uses: actions/checkout@ac593985615ec2ede58e132d2e21d2b1cbd6127c # v3.3.0
+      uses: actions/checkout@v2
      with:
-        submodules: recursive
+        submodules: true
-    - name: Set up Python 3.11
+    - name: Set up Python 3.8
-      uses: actions/setup-python@d27e3f3d7c64b4bbf8e4abfb9b63b83e846e0435 # v4.5.0
+      uses: actions/setup-python@v2
      with:
-        python-version: "3.11"
+        python-version: 3.8
    - name: Install capa
-      run: pip install -e .[dev]
+      run: pip install -e .
    - name: Run rule linter
      run: python scripts/lint.py rules/
@@ -70,135 +46,33 @@ jobs:
    strategy:
      fail-fast: false
      matrix:
-        os: [ubuntu-20.04, windows-2019, macos-11]
+        os: [ubuntu-20.04, windows-2019, macos-10.15]
        # across all operating systems
-        python-version: ["3.8", "3.11"]
+        python-version: [3.6, 3.9]
        include:
          # on Ubuntu run these as well
          - os: ubuntu-20.04
-            python-version: "3.8"
+            python-version: 2.7
          - os: ubuntu-20.04
-            python-version: "3.9"
+            python-version: 3.7
          - os: ubuntu-20.04
-            python-version: "3.10"
+            python-version: 3.8
    steps:
    - name: Checkout capa with submodules
-      uses: actions/checkout@ac593985615ec2ede58e132d2e21d2b1cbd6127c # v3.3.0
+      uses: actions/checkout@v2
      with:
-        submodules: recursive
+        submodules: true
    - name: Set up Python ${{ matrix.python-version }}
-      uses: actions/setup-python@d27e3f3d7c64b4bbf8e4abfb9b63b83e846e0435 # v4.5.0
+      uses: actions/setup-python@v2
      with:
        python-version: ${{ matrix.python-version }}
    - name: Install pyyaml
      if: matrix.os == 'ubuntu-20.04'
      run: sudo apt-get install -y libyaml-dev
    - name: Install Microsoft Visual C++ 9.0
      if: matrix.os == 'windows-2019' && matrix.python-version == '2.7'
      run: choco install vcpython27
    - name: Install capa
      run: pip install -e .[dev]
    - name: Run tests (fast)
      # this set of tests runs about 80% of the cases in 20% of the time,
      # and should catch most errors quickly.
      run:  pre-commit run pytest-fast --all-files --hook-stage manual
    - name: Run tests
-      run: pytest -v tests/
+      run: pytest tests/
  binja-tests:
    name: Binary Ninja tests for ${{ matrix.python-version }}
    env:
      BN_SERIAL: ${{ secrets.BN_SERIAL }}
    runs-on: ubuntu-20.04
    needs: [tests]
    strategy:
      fail-fast: false
      matrix:
        python-version: ["3.8", "3.11"]
    steps:
    - name: Checkout capa with submodules
      # do only run if BN_SERIAL is available, have to do this in every step, see https://github.com/orgs/community/discussions/26726#discussioncomment-3253118
      if: ${{ env.BN_SERIAL != 0 }}
      uses: actions/checkout@ac593985615ec2ede58e132d2e21d2b1cbd6127c # v3.3.0
      with:
        submodules: recursive
    - name: Set up Python ${{ matrix.python-version }}
      if: ${{ env.BN_SERIAL != 0 }}
      uses: actions/setup-python@d27e3f3d7c64b4bbf8e4abfb9b63b83e846e0435 # v4.5.0
      with:
        python-version: ${{ matrix.python-version }}
    - name: Install pyyaml
      if: ${{ env.BN_SERIAL != 0 }}
      run: sudo apt-get install -y libyaml-dev
    - name: Install capa
      if: ${{ env.BN_SERIAL != 0 }}
      run: pip install -e .[dev]
    - name: install Binary Ninja
      if: ${{ env.BN_SERIAL != 0 }}
      run: |
        mkdir ./.github/binja
        curl "https://raw.githubusercontent.com/Vector35/binaryninja-api/6812c97/scripts/download_headless.py" -o ./.github/binja/download_headless.py
        python ./.github/binja/download_headless.py --serial ${{ env.BN_SERIAL }} --output .github/binja/BinaryNinja-headless.zip
        unzip .github/binja/BinaryNinja-headless.zip -d .github/binja/
        python .github/binja/binaryninja/scripts/install_api.py --install-on-root --silent
    - name: Run tests
      if: ${{ env.BN_SERIAL != 0 }}
      env:
        BN_LICENSE: ${{ secrets.BN_LICENSE }}
      run: pytest -v tests/test_binja_features.py  # explicitly refer to the binja tests for performance. other tests run above.
  ghidra-tests:
    name: Ghidra tests for ${{ matrix.python-version }}
    runs-on: ubuntu-20.04
    needs: [tests]
    strategy:
      fail-fast: false
      matrix:
        python-version: ["3.8", "3.11"]
        java-version: ["17"]
        gradle-version: ["7.3"]
        ghidra-version: ["10.3"]
        public-version: ["PUBLIC_20230510"] # for ghidra releases
        jep-version: ["4.1.1"]
        ghidrathon-version: ["3.0.0"]
    steps:
    - name: Checkout capa with submodules
      uses: actions/checkout@ac593985615ec2ede58e132d2e21d2b1cbd6127c # v3.3.0
      with:
        submodules: true
    - name: Set up Python ${{ matrix.python-version }}
      uses: actions/setup-python@d27e3f3d7c64b4bbf8e4abfb9b63b83e846e0435 # v4.5.0
      with:
        python-version: ${{ matrix.python-version }}
    - name: Set up Java ${{ matrix.java-version }}
      uses: actions/setup-java@5ffc13f4174014e2d4d4572b3d74c3fa61aeb2c2 # v3
      with:
        distribution: 'temurin'
        java-version: ${{ matrix.java-version }}
    - name: Set up Gradle ${{ matrix.gradle-version }} 
      uses: gradle/gradle-build-action@40b6781dcdec2762ad36556682ac74e31030cfe2 # v2.5.1
      with:
        gradle-version: ${{ matrix.gradle-version }}
    - name: Install Jep ${{ matrix.jep-version }} 
      run : pip install jep==${{ matrix.jep-version }}
    - name: Install Ghidra ${{ matrix.ghidra-version }} 
      run: |
        mkdir ./.github/ghidra
        wget "https://github.com/NationalSecurityAgency/ghidra/releases/download/Ghidra_${{ matrix.ghidra-version }}_build/ghidra_${{ matrix.ghidra-version }}_${{ matrix.public-version }}.zip" -O ./.github/ghidra/ghidra_${{ matrix.ghidra-version }}_PUBLIC.zip
        unzip .github/ghidra/ghidra_${{ matrix.ghidra-version }}_PUBLIC.zip -d .github/ghidra/
    - name: Install Ghidrathon
      run : |
        mkdir ./.github/ghidrathon
        curl -o ./.github/ghidrathon/ghidrathon-${{ matrix.ghidrathon-version }}.zip "https://codeload.github.com/mandiant/Ghidrathon/zip/refs/tags/v${{ matrix.ghidrathon-version }}"
        unzip .github/ghidrathon/ghidrathon-${{ matrix.ghidrathon-version }}.zip -d .github/ghidrathon/
        gradle -p ./.github/ghidrathon/Ghidrathon-${{ matrix.ghidrathon-version }}/ -PGHIDRA_INSTALL_DIR=$(pwd)/.github/ghidra/ghidra_${{ matrix.ghidra-version }}_PUBLIC
        unzip .github/ghidrathon/Ghidrathon-${{ matrix.ghidrathon-version }}/dist/*.zip -d .github/ghidra/ghidra_${{ matrix.ghidra-version }}_PUBLIC/Ghidra/Extensions
    - name: Install pyyaml
      run: sudo apt-get install -y libyaml-dev
    - name: Install capa
      run: pip install -e .[dev] 
    - name: Run tests
      run: | 
        mkdir ./.github/ghidra/project
        .github/ghidra/ghidra_${{ matrix.ghidra-version }}_PUBLIC/support/analyzeHeadless .github/ghidra/project ghidra_test -Import ./tests/data/mimikatz.exe_ -ScriptPath ./tests/ -PostScript test_ghidra_features.py > ../output.log
        cat ../output.log
        exit_code=$(cat ../output.log | grep exit | awk '{print $NF}')
        exit $exit_code
--- a/.gitignore
+++ b/.gitignore
@@ -108,21 +108,9 @@ venv.bak/
 *.viv
 *.idb
 *.i64
 .vscode
 !rules/lib
-scripts/perf/*.txt
+# hooks/ci.sh output
-scripts/perf/*.svg
+isort-output.log
-scripts/perf/*.zip
+black-output.log
-
+rule-linter-output.log
 .direnv
 .envrc
 .DS_Store
 */.DS_Store
 Pipfile
 Pipfile.lock
 /cache/
 .github/binja/binaryninja
 .github/binja/download_headless.py
 .github/binja/BinaryNinja-headless.zip
--- a/.gitmodules
+++ b/.gitmodules
@@ -1,8 +1,6 @@
 [submodule "rules"]
 	path = rules
 	url = ../capa-rules.git
 	branch = dynamic-syntax
 [submodule "tests/data"]
 	path = tests/data
 	url = ../capa-testfiles.git
 	branch = dynamic-feature-extractor
--- a/.pre-commit-config.yaml
+++ b/.pre-commit-config.yaml
@@ -1,129 +0,0 @@
 # install the pre-commit hooks:
 #
 #    ❯ pre-commit install --hook-type pre-commit
 #    pre-commit installed at .git/hooks/pre-commit
 #
 #    ❯ pre-commit install --hook-type pre-push
 #    pre-commit installed at .git/hooks/pre-push
 #
 # run all linters liks:
 #
 #    ❯ pre-commit run --all-files
 #    isort....................................................................Passed
 #    black....................................................................Passed
 #    ruff.....................................................................Passed
 #    flake8...................................................................Passed
 #    mypy.....................................................................Passed
 #
 # run a single linter like:
 #
 #    ❯ pre-commit run --all-files isort
 #    isort....................................................................Passed
 repos:
 -   repo: local
    hooks:
    -   id: isort
        name: isort
        stages: [commit, push, manual]
        language: system
        entry: isort
        args: 
        -   "--length-sort"
        -   "--profile"
        -   "black"
        -   "--line-length=120"
        -   "--skip-glob"
        -   "*_pb2.py"
        -   "capa/"
        -   "scripts/"
        -   "tests/"
        always_run: true
        pass_filenames: false
 -   repo: local
    hooks:
    -   id: black
        name: black
        stages: [commit, push, manual]
        language: system
        entry: black
        args: 
        -   "--line-length=120"
        -   "--extend-exclude"
        -   ".*_pb2.py"
        -   "capa/"
        -   "scripts/"
        -   "tests/"
        always_run: true
        pass_filenames: false
 -   repo: local
    hooks:
    -   id: ruff
        name: ruff
        stages: [commit, push, manual]
        language: system
        entry: ruff
        args: 
        -   "check"
        -   "--config"
        -   ".github/ruff.toml"
        -   "capa/"
        -   "scripts/"
        -   "tests/"
        always_run: true
        pass_filenames: false
 -   repo: local
    hooks:
    -   id: flake8
        name: flake8
        stages: [push, manual]
        language: system
        entry: flake8
        args: 
        -   "--config"
        -   ".github/flake8.ini"
        -   "--extend-exclude"
        -   "capa/render/proto/capa_pb2.py"
        -   "capa/"
        -   "scripts/"
        -   "tests/"
        always_run: true
        pass_filenames: false
 -   repo: local
    hooks:
    -   id: mypy
        name: mypy
        stages: [push, manual]
        language: system
        entry: mypy
        args: 
        -   "--check-untyped-defs"
        -   "--ignore-missing-imports"
        -   "--config-file=.github/mypy/mypy.ini"
        -   "capa/"
        -   "scripts/"
        -   "tests/"
        always_run: true
        pass_filenames: false
 -   repo: local
    hooks:
    -   id: pytest-fast
        name: pytest (fast)
        stages: [manual]
        language: system
        entry: pytest
        args: 
        -   "tests/"
        -   "--ignore=tests/test_binja_features.py"
        -   "--ignore=tests/test_ghidra_features.py"
        -   "--ignore=tests/test_ida_features.py"
        -   "--ignore=tests/test_viv_features.py"
        -   "--ignore=tests/test_main.py"
        -   "--ignore=tests/test_scripts.py"
        always_run: true
        pass_filenames: false
--- a/CHANGELOG.md
+++ b/CHANGELOG.md
--- a/LICENSE.txt
+++ b/LICENSE.txt
@@ -187,7 +187,7 @@
      same "printed page" as the copyright notice for easier
      identification within third-party archives.
-   Copyright (C) 2023 Mandiant, Inc.
+   Copyright (C) 2020 FireEye, Inc.
   Licensed under the Apache License, Version 2.0 (the "License");
   you may not use this file except in compliance with the License.
--- a/README.md
+++ b/README.md
@@ -1,21 +1,17 @@
-![capa](https://github.com/mandiant/capa/blob/master/.github/logo.png)
+![capa](.github/logo.png)
 [![PyPI - Python Version](https://img.shields.io/pypi/pyversions/flare-capa)](https://pypi.org/project/flare-capa)
-[![Last release](https://img.shields.io/github/v/release/mandiant/capa)](https://github.com/mandiant/capa/releases)
+[![Last release](https://img.shields.io/github/v/release/fireeye/capa)](https://github.com/fireeye/capa/releases)
-[![Number of rules](https://img.shields.io/badge/rules-866-blue.svg)](https://github.com/mandiant/capa-rules)
+[![Number of rules](https://img.shields.io/badge/rules-485-blue.svg)](https://github.com/fireeye/capa-rules)
-[![CI status](https://github.com/mandiant/capa/workflows/CI/badge.svg)](https://github.com/mandiant/capa/actions?query=workflow%3ACI+event%3Apush+branch%3Amaster)
+[![CI status](https://github.com/fireeye/capa/workflows/CI/badge.svg)](https://github.com/fireeye/capa/actions?query=workflow%3ACI+event%3Apush+branch%3Amaster)
-[![Downloads](https://img.shields.io/github/downloads/mandiant/capa/total)](https://github.com/mandiant/capa/releases)
+[![Downloads](https://img.shields.io/github/downloads/fireeye/capa/total)](https://github.com/fireeye/capa/releases)
 [![License](https://img.shields.io/badge/license-Apache--2.0-green.svg)](LICENSE.txt)
 capa detects capabilities in executable files.
-You run it against a PE, ELF, .NET module, shellcode file, or a sandbox report and it tells you what it thinks the program can do.
+You run it against a PE file or shellcode and it tells you what it thinks the program can do.
 For example, it might suggest that the file is a backdoor, is capable of installing services, or relies on HTTP to communicate.
-Check out:
+Check out the overview in our first [capa blog post](https://www.fireeye.com/blog/threat-research/2020/07/capa-automatically-identify-malware-capabilities.html).
 - the overview in our first [capa blog post](https://www.mandiant.com/resources/capa-automatically-identify-malware-capabilities)
 - the major version 2.0 updates described in our [second blog post](https://www.mandiant.com/resources/capa-2-better-stronger-faster)
 - the major version 3.0 (ELF support) described in the [third blog post](https://www.mandiant.com/resources/elfant-in-the-room-capa-v3)
 - the major version 4.0 (.NET support) described in the [fourth blog post](https://www.mandiant.com/resources/blog/capa-v4-casting-wider-net)
 ```
 $ capa.exe suspicious.exe
@@ -67,11 +63,18 @@ $ capa.exe suspicious.exe
 # download and usage
-Download stable releases of the standalone capa binaries [here](https://github.com/mandiant/capa/releases). You can run the standalone binaries without installation. capa is a command line tool that should be run from the terminal.
+Download stable releases of the standalone capa binaries [here](https://github.com/fireeye/capa/releases). You can run the standalone binaries without installation. capa is a command line tool that should be run from the terminal.
-To use capa as a library or integrate with another tool, see [doc/installation.md](https://github.com/mandiant/capa/blob/master/doc/installation.md) for further setup instructions.
+<!--
 Alternatively, you can fetch a nightly build of a standalone binary from one of the following links. These are built using the latest development branch.
 - Windows 64bit: TODO
 - Linux: TODO
 - OSX: TODO
 -->
-For more information about how to use capa, see [doc/usage.md](https://github.com/mandiant/capa/blob/master/doc/usage.md).
+To use capa as a library or integrate with another tool, see [doc/installation.md](doc/installation.md) for further setup instructions.
 For more information about how to use capa, see [doc/usage.md](doc/usage.md).
 # example
@@ -88,133 +91,34 @@ This is useful for at least two reasons:
  - it shows where within the binary an experienced analyst might study with IDA Pro
 ```
-$ capa.exe suspicious.exe -vv
+λ capa.exe suspicious.exe -vv
 ...
 execute shell command and capture output
 namespace   c2/shell
-author      matthew.williams@mandiant.com
+author      matthew.williams@fireeye.com
 scope       function
 att&ck      Execution::Command and Scripting Interpreter::Windows Command Shell [T1059.003]
 references  https://docs.microsoft.com/en-us/windows/win32/api/processthreadsapi/ns-processthreadsapi-startupinfoa
-function @ 0x4011C0
+examples    Practical Malware Analysis Lab 14-02.exe_:0x4011C0
 function @ 0x10003A13
  and:
-    match: create a process with modified I/O handles and window @ 0x4011C0
+    match: create a process with modified I/O handles and window @ 0x10003A13
      and:
        number: 257 = STARTF_USESTDHANDLES | STARTF_USESHOWWINDOW @ 0x4012B8
        or:
-          number: 68 = StartupInfo.cb (size) @ 0x401282
+          api: kernel32.CreateProcess @ 0x10003D6D
-        or: = API functions that accept a pointer to a STARTUPINFO structure
+        number: 0x101 @ 0x10003B03
-          api: kernel32.CreateProcess @ 0x401343
+        or:
-    match: create pipe @ 0x4011C0
+          number: 0x44 @ 0x10003ADC
        optional:
          api: kernel32.GetStartupInfo @ 0x10003AE4
    match: create pipe @ 0x10003A13
      or:
-        api: kernel32.CreatePipe @ 0x40126F, 0x401280
+        api: kernel32.CreatePipe @ 0x10003ACB
    optional:
      match: create thread @ 0x40136A, 0x4013BA
        or:
          and:
            os: windows
            or:
              api: kernel32.CreateThread @ 0x4013D7
        or:
          and:
            os: windows
            or:
              api: kernel32.CreateThread @ 0x401395
    or:
-      string: "cmd.exe" @ 0x4012FD
+      string: cmd.exe /c  @ 0x10003AED
 ...
 ```
 Additionally, capa also supports analyzing [CAPE](https://github.com/kevoreilly/CAPEv2) sandbox reports for dynamic capabilty extraction.
 In order to use this, you first submit your sample to CAPE for analysis, and then run capa against the generated report (JSON).
 Here's an example of running capa against a packed binary, and then running capa against the CAPE report of that binary:
 ```yaml
 $ capa 05be49819139a3fdcdbddbdefd298398779521f3d68daa25275cc77508e42310.exe
 WARNING:capa.capabilities.common:--------------------------------------------------------------------------------
 WARNING:capa.capabilities.common: This sample appears to be packed.
 WARNING:capa.capabilities.common: 
 WARNING:capa.capabilities.common: Packed samples have often been obfuscated to hide their logic.
 WARNING:capa.capabilities.common: capa cannot handle obfuscation well using static analysis. This means the results may be misleading or incomplete.
 WARNING:capa.capabilities.common: If possible, you should try to unpack this input file before analyzing it with capa.
 WARNING:capa.capabilities.common: Alternatively, run the sample in a supported sandbox and invoke capa against the report to obtain dynamic analysis results.
 WARNING:capa.capabilities.common: 
 WARNING:capa.capabilities.common: Identified via rule: (internal) packer file limitation
 WARNING:capa.capabilities.common: 
 WARNING:capa.capabilities.common: Use -v or -vv if you really want to see the capabilities identified by capa.
 WARNING:capa.capabilities.common:--------------------------------------------------------------------------------
 $ capa 05be49819139a3fdcdbddbdefd298398779521f3d68daa25275cc77508e42310.json
 ┍━━━━━━━━━━━━━━━━━━━━━━━━┯━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┑
 │ ATT&CK Tactic          │ ATT&CK Technique                                                                   │
 ┝━━━━━━━━━━━━━━━━━━━━━━━━┿━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┥
 │ CREDENTIAL ACCESS      │ Credentials from Password Stores T1555                                             │
 ├────────────────────────┼────────────────────────────────────────────────────────────────────────────────────┤
 │ DEFENSE EVASION        │ File and Directory Permissions Modification T1222                                  │
 │                        │ Modify Registry T1112                                                              │
 │                        │ Obfuscated Files or Information T1027                                              │
 │                        │ Virtualization/Sandbox Evasion::User Activity Based Checks T1497.002               │
 ├────────────────────────┼────────────────────────────────────────────────────────────────────────────────────┤
 │ DISCOVERY              │ Account Discovery T1087                                                            │
 │                        │ Application Window Discovery T1010                                                 │
 │                        │ File and Directory Discovery T1083                                                 │
 │                        │ Query Registry T1012                                                               │
 │                        │ System Information Discovery T1082                                                 │
 │                        │ System Location Discovery::System Language Discovery T1614.001                     │
 │                        │ System Owner/User Discovery T1033                                                  │
 ├────────────────────────┼────────────────────────────────────────────────────────────────────────────────────┤
 │ EXECUTION              │ System Services::Service Execution T1569.002                                       │
 ├────────────────────────┼────────────────────────────────────────────────────────────────────────────────────┤
 │ PERSISTENCE            │ Boot or Logon Autostart Execution::Registry Run Keys / Startup Folder T1547.001    │
 │                        │ Boot or Logon Autostart Execution::Winlogon Helper DLL T1547.004                   │
 │                        │ Create or Modify System Process::Windows Service T1543.003                         │
 ┕━━━━━━━━━━━━━━━━━━━━━━━━┷━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┙
 ┍━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┯━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┑
 │ Capability                                           │ Namespace                                            │
 ┝━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┿━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┥
 │ check for unmoving mouse cursor (3 matches)          │ anti-analysis/anti-vm/vm-detection                   │
 │ gather bitkinex information                          │ collection/file-managers                             │
 │ gather classicftp information                        │ collection/file-managers                             │
 │ gather filezilla information                         │ collection/file-managers                             │
 │ gather total-commander information                   │ collection/file-managers                             │
 │ gather ultrafxp information                          │ collection/file-managers                             │
 │ resolve DNS (23 matches)                             │ communication/dns                                    │
 │ initialize Winsock library (7 matches)               │ communication/socket                                 │
 │ act as TCP client (3 matches)                        │ communication/tcp/client                             │
 │ create new key via CryptAcquireContext               │ data-manipulation/encryption                         │
 │ encrypt or decrypt via WinCrypt                      │ data-manipulation/encryption                         │
 │ hash data via WinCrypt                               │ data-manipulation/hashing                            │
 │ initialize hashing via WinCrypt                      │ data-manipulation/hashing                            │
 │ hash data with MD5                                   │ data-manipulation/hashing/md5                        │
 │ generate random numbers via WinAPI                   │ data-manipulation/prng                               │
 │ extract resource via kernel32 functions (2 matches)  │ executable/resource                                  │
 │ interact with driver via control codes (2 matches)   │ host-interaction/driver                              │
 │ get Program Files directory (18 matches)             │ host-interaction/file-system                         │
 │ get common file path (575 matches)                   │ host-interaction/file-system                         │
 │ create directory (2 matches)                         │ host-interaction/file-system/create                  │
 │ delete file                                          │ host-interaction/file-system/delete                  │
 │ get file attributes (122 matches)                    │ host-interaction/file-system/meta                    │
 │ set file attributes (8 matches)                      │ host-interaction/file-system/meta                    │
 │ move file                                            │ host-interaction/file-system/move                    │
 │ find taskbar (3 matches)                             │ host-interaction/gui/taskbar/find                    │
 │ get keyboard layout (12 matches)                     │ host-interaction/hardware/keyboard                   │
 │ get disk size                                        │ host-interaction/hardware/storage                    │
 │ get hostname (4 matches)                             │ host-interaction/os/hostname                         │
 │ allocate or change RWX memory (3 matches)            │ host-interaction/process/inject                      │
 │ query or enumerate registry key (3 matches)          │ host-interaction/registry                            │
 │ query or enumerate registry value (8 matches)        │ host-interaction/registry                            │
 │ delete registry key                                  │ host-interaction/registry/delete                     │
 │ start service                                        │ host-interaction/service/start                       │
 │ get session user name                                │ host-interaction/session                             │
 │ persist via Run registry key                         │ persistence/registry/run                             │
 │ persist via Winlogon Helper DLL registry key         │ persistence/registry/winlogon-helper                 │
 │ persist via Windows service (2 matches)              │ persistence/service                                  │
 ┕━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┷━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┙
 ```
 capa uses a collection of rules to identify capabilities within a program.
 These rules are easy to write, even for those new to reverse engineering.
 By authoring rules, you can extend the capabilities that capa recognizes.
@@ -225,52 +129,38 @@ Here's an example rule used by capa:
 ```yaml
 rule:
  meta:
-    name: create TCP socket
+    name: hash data with CRC32
-    namespace: communication/socket/tcp
+    namespace: data-manipulation/checksum/crc32
-    authors:
+    author: moritz.raabe@fireeye.com
-      - william.ballenthin@mandiant.com
+    scope: function
      - joakim@intezer.com
      - anushka.virgaonkar@mandiant.com
    scopes:
      static: basic block
      dynamic: call
    mbc:
      - Communication::Socket Communication::Create TCP Socket [C0001.011]
    examples:
-      - Practical Malware Analysis Lab 01-01.dll_:0x10001010
+      - 2D3EDC218A90F03089CC01715A9F047F:0x403CBD
      - 7D28CB106CB54876B2A5C111724A07CD:0x402350  # RtlComputeCrc32
  features:
    - or:
      - and:
-        - number: 6 = IPPROTO_TCP
+        - mnemonic: shr
-        - number: 1 = SOCK_STREAM
+        - number: 0xEDB88320
-        - number: 2 = AF_INET
+        - number: 8
-        - or:
+        - characteristic: nzxor
-          - api: ws2_32.socket
+      - api: RtlComputeCrc32
          - api: ws2_32.WSASocket
          - api: socket
      - property/read: System.Net.Sockets.TcpClient::Client
 ```
-The [github.com/mandiant/capa-rules](https://github.com/mandiant/capa-rules) repository contains hundreds of standard library rules that are distributed with capa.
+The [github.com/fireeye/capa-rules](https://github.com/fireeye/capa-rules) repository contains hundreds of standard library rules that are distributed with capa.
 Please learn to write rules and contribute new entries as you find interesting techniques in malware.
-If you use IDA Pro, then you can use the [capa explorer](https://github.com/mandiant/capa/tree/master/capa/ida/plugin) plugin.
+If you use IDA Pro, then you can use the [capa explorer](capa/ida/plugin/) plugin.
 capa explorer helps you identify interesting areas of a program and build new capa rules using features extracted directly from your IDA Pro database.
-![capa + IDA Pro integration](https://github.com/mandiant/capa/blob/master/doc/img/explorer_expanded.png)
+![capa + IDA Pro integration](doc/img/explorer_expanded.png)
 If you use Ghidra, you can use the Python 3 [Ghidra feature extractor](/capa/ghidra/). This integration enables capa to extract features directly from your Ghidra database, which can help you identify capabilities in programs that you analyze using Ghidra.
 # further information
 ## capa
- [Installation](https://github.com/mandiant/capa/blob/master/doc/installation.md)
+- [doc/installation](doc/installation.md)
- [Usage](https://github.com/mandiant/capa/blob/master/doc/usage.md)
+- [doc/usage](doc/usage.md)
- [Limitations](https://github.com/mandiant/capa/blob/master/doc/limitations.md)
+- [doc/limitations](doc/limitations.md)
- [Contributing Guide](https://github.com/mandiant/capa/blob/master/.github/CONTRIBUTING.md)
+- [Contributing Guide](.github/CONTRIBUTING.md)
 ## capa rules
- [capa-rules repository](https://github.com/mandiant/capa-rules)
+- [capa-rules repository](https://github.com/fireeye/capa-rules)
- [capa-rules rule format](https://github.com/mandiant/capa-rules/blob/master/doc/format.md)
+- [capa-rules rule format](https://github.com/fireeye/capa-rules/blob/master/doc/format.md)
 ## capa testfiles
 The [capa-testfiles repository](https://github.com/mandiant/capa-testfiles) contains the data we use to test capa's code and rules
--- a/capa/capabilities/init.py
+++ b/capa/capabilities/init.py
--- a/capa/capabilities/common.py
+++ b/capa/capabilities/common.py
@@ -1,79 +0,0 @@
 # -*- coding: utf-8 -*-
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 import itertools
 import collections
 from typing import Any, Tuple
 from capa.rules import Scope, RuleSet
 from capa.engine import FeatureSet, MatchResults
 from capa.features.address import NO_ADDRESS
 from capa.features.extractors.base_extractor import FeatureExtractor, StaticFeatureExtractor, DynamicFeatureExtractor
 logger = logging.getLogger(__name__)
 def find_file_capabilities(ruleset: RuleSet, extractor: FeatureExtractor, function_features: FeatureSet):
    file_features: FeatureSet = collections.defaultdict(set)
    for feature, va in itertools.chain(extractor.extract_file_features(), extractor.extract_global_features()):
        # not all file features may have virtual addresses.
        # if not, then at least ensure the feature shows up in the index.
        # the set of addresses will still be empty.
        if va:
            file_features[feature].add(va)
        else:
            if feature not in file_features:
                file_features[feature] = set()
    logger.debug("analyzed file and extracted %d features", len(file_features))
    file_features.update(function_features)
    _, matches = ruleset.match(Scope.FILE, file_features, NO_ADDRESS)
    return matches, len(file_features)
 def has_file_limitation(rules: RuleSet, capabilities: MatchResults, is_standalone=True) -> bool:
    file_limitation_rules = list(filter(lambda r: r.is_file_limitation_rule(), rules.rules.values()))
    for file_limitation_rule in file_limitation_rules:
        if file_limitation_rule.name not in capabilities:
            continue
        logger.warning("-" * 80)
        for line in file_limitation_rule.meta.get("description", "").split("\n"):
            logger.warning(" %s", line)
        logger.warning(" Identified via rule: %s", file_limitation_rule.name)
        if is_standalone:
            logger.warning(" ")
            logger.warning(" Use -v or -vv if you really want to see the capabilities identified by capa.")
        logger.warning("-" * 80)
        # bail on first file limitation
        return True
    return False
 def find_capabilities(
    ruleset: RuleSet, extractor: FeatureExtractor, disable_progress=None, **kwargs
 ) -> Tuple[MatchResults, Any]:
    from capa.capabilities.static import find_static_capabilities
    from capa.capabilities.dynamic import find_dynamic_capabilities
    if isinstance(extractor, StaticFeatureExtractor):
        # for the time being, extractors are either static or dynamic.
        # Remove this assertion once that has changed
        assert not isinstance(extractor, DynamicFeatureExtractor)
        return find_static_capabilities(ruleset, extractor, disable_progress=disable_progress, **kwargs)
    if isinstance(extractor, DynamicFeatureExtractor):
        return find_dynamic_capabilities(ruleset, extractor, disable_progress=disable_progress, **kwargs)
    raise ValueError(f"unexpected extractor type: {extractor.__class__.__name__}")
--- a/capa/capabilities/dynamic.py
+++ b/capa/capabilities/dynamic.py
@@ -1,198 +0,0 @@
 # -*- coding: utf-8 -*-
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 import itertools
 import collections
 from typing import Any, Tuple
 import tqdm
 import capa.perf
 import capa.features.freeze as frz
 import capa.render.result_document as rdoc
 from capa.rules import Scope, RuleSet
 from capa.engine import FeatureSet, MatchResults
 from capa.helpers import redirecting_print_to_tqdm
 from capa.capabilities.common import find_file_capabilities
 from capa.features.extractors.base_extractor import CallHandle, ThreadHandle, ProcessHandle, DynamicFeatureExtractor
 logger = logging.getLogger(__name__)
 def find_call_capabilities(
    ruleset: RuleSet, extractor: DynamicFeatureExtractor, ph: ProcessHandle, th: ThreadHandle, ch: CallHandle
 ) -> Tuple[FeatureSet, MatchResults]:
    """
    find matches for the given rules for the given call.
    returns: tuple containing (features for call, match results for call)
    """
    # all features found for the call.
    features: FeatureSet = collections.defaultdict(set)
    for feature, addr in itertools.chain(
        extractor.extract_call_features(ph, th, ch), extractor.extract_global_features()
    ):
        features[feature].add(addr)
    # matches found at this thread.
    _, matches = ruleset.match(Scope.CALL, features, ch.address)
    for rule_name, res in matches.items():
        rule = ruleset[rule_name]
        for addr, _ in res:
            capa.engine.index_rule_matches(features, rule, [addr])
    return features, matches
 def find_thread_capabilities(
    ruleset: RuleSet, extractor: DynamicFeatureExtractor, ph: ProcessHandle, th: ThreadHandle
 ) -> Tuple[FeatureSet, MatchResults, MatchResults]:
    """
    find matches for the given rules within the given thread.
    returns: tuple containing (features for thread, match results for thread, match results for calls)
    """
    # all features found within this thread,
    # includes features found within calls.
    features: FeatureSet = collections.defaultdict(set)
    # matches found at the call scope.
    # might be found at different calls, thats ok.
    call_matches: MatchResults = collections.defaultdict(list)
    for ch in extractor.get_calls(ph, th):
        ifeatures, imatches = find_call_capabilities(ruleset, extractor, ph, th, ch)
        for feature, vas in ifeatures.items():
            features[feature].update(vas)
        for rule_name, res in imatches.items():
            call_matches[rule_name].extend(res)
    for feature, va in itertools.chain(extractor.extract_thread_features(ph, th), extractor.extract_global_features()):
        features[feature].add(va)
    # matches found within this thread.
    _, matches = ruleset.match(Scope.THREAD, features, th.address)
    for rule_name, res in matches.items():
        rule = ruleset[rule_name]
        for va, _ in res:
            capa.engine.index_rule_matches(features, rule, [va])
    return features, matches, call_matches
 def find_process_capabilities(
    ruleset: RuleSet, extractor: DynamicFeatureExtractor, ph: ProcessHandle
 ) -> Tuple[MatchResults, MatchResults, MatchResults, int]:
    """
    find matches for the given rules within the given process.
    returns: tuple containing (match results for process, match results for threads, match results for calls, number of features)
    """
    # all features found within this process,
    # includes features found within threads (and calls).
    process_features: FeatureSet = collections.defaultdict(set)
    # matches found at the basic threads.
    # might be found at different threads, thats ok.
    thread_matches: MatchResults = collections.defaultdict(list)
    # matches found at the call scope.
    # might be found at different calls, thats ok.
    call_matches: MatchResults = collections.defaultdict(list)
    for th in extractor.get_threads(ph):
        features, tmatches, cmatches = find_thread_capabilities(ruleset, extractor, ph, th)
        for feature, vas in features.items():
            process_features[feature].update(vas)
        for rule_name, res in tmatches.items():
            thread_matches[rule_name].extend(res)
        for rule_name, res in cmatches.items():
            call_matches[rule_name].extend(res)
    for feature, va in itertools.chain(extractor.extract_process_features(ph), extractor.extract_global_features()):
        process_features[feature].add(va)
    _, process_matches = ruleset.match(Scope.PROCESS, process_features, ph.address)
    return process_matches, thread_matches, call_matches, len(process_features)
 def find_dynamic_capabilities(
    ruleset: RuleSet, extractor: DynamicFeatureExtractor, disable_progress=None
 ) -> Tuple[MatchResults, Any]:
    all_process_matches: MatchResults = collections.defaultdict(list)
    all_thread_matches: MatchResults = collections.defaultdict(list)
    all_call_matches: MatchResults = collections.defaultdict(list)
    feature_counts = rdoc.DynamicFeatureCounts(file=0, processes=())
    assert isinstance(extractor, DynamicFeatureExtractor)
    with redirecting_print_to_tqdm(disable_progress):
        with tqdm.contrib.logging.logging_redirect_tqdm():
            pbar = tqdm.tqdm
            if disable_progress:
                # do not use tqdm to avoid unnecessary side effects when caller intends
                # to disable progress completely
                def pbar(s, *args, **kwargs):
                    return s
            processes = list(extractor.get_processes())
            pb = pbar(processes, desc="matching", unit=" processes", leave=False)
            for p in pb:
                process_matches, thread_matches, call_matches, feature_count = find_process_capabilities(
                    ruleset, extractor, p
                )
                feature_counts.processes += (
                    rdoc.ProcessFeatureCount(address=frz.Address.from_capa(p.address), count=feature_count),
                )
                logger.debug("analyzed %s and extracted %d features", p.address, feature_count)
                for rule_name, res in process_matches.items():
                    all_process_matches[rule_name].extend(res)
                for rule_name, res in thread_matches.items():
                    all_thread_matches[rule_name].extend(res)
                for rule_name, res in call_matches.items():
                    all_call_matches[rule_name].extend(res)
    # collection of features that captures the rule matches within process and thread scopes.
    # mapping from feature (matched rule) to set of addresses at which it matched.
    process_and_lower_features: FeatureSet = collections.defaultdict(set)
    for rule_name, results in itertools.chain(
        all_process_matches.items(), all_thread_matches.items(), all_call_matches.items()
    ):
        locations = {p[0] for p in results}
        rule = ruleset[rule_name]
        capa.engine.index_rule_matches(process_and_lower_features, rule, locations)
    all_file_matches, feature_count = find_file_capabilities(ruleset, extractor, process_and_lower_features)
    feature_counts.file = feature_count
    matches = dict(
        itertools.chain(
            # each rule exists in exactly one scope,
            # so there won't be any overlap among these following MatchResults,
            # and we can merge the dictionaries naively.
            all_thread_matches.items(),
            all_process_matches.items(),
            all_call_matches.items(),
            all_file_matches.items(),
        )
    )
    meta = {
        "feature_counts": feature_counts,
    }
    return matches, meta
--- a/capa/capabilities/static.py
+++ b/capa/capabilities/static.py
@@ -1,233 +0,0 @@
 # -*- coding: utf-8 -*-
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import time
 import logging
 import itertools
 import collections
 from typing import Any, Tuple
 import tqdm.contrib.logging
 import capa.perf
 import capa.features.freeze as frz
 import capa.render.result_document as rdoc
 from capa.rules import Scope, RuleSet
 from capa.engine import FeatureSet, MatchResults
 from capa.helpers import redirecting_print_to_tqdm
 from capa.capabilities.common import find_file_capabilities
 from capa.features.extractors.base_extractor import BBHandle, InsnHandle, FunctionHandle, StaticFeatureExtractor
 logger = logging.getLogger(__name__)
 def find_instruction_capabilities(
    ruleset: RuleSet, extractor: StaticFeatureExtractor, f: FunctionHandle, bb: BBHandle, insn: InsnHandle
 ) -> Tuple[FeatureSet, MatchResults]:
    """
    find matches for the given rules for the given instruction.
    returns: tuple containing (features for instruction, match results for instruction)
    """
    # all features found for the instruction.
    features: FeatureSet = collections.defaultdict(set)
    for feature, addr in itertools.chain(
        extractor.extract_insn_features(f, bb, insn), extractor.extract_global_features()
    ):
        features[feature].add(addr)
    # matches found at this instruction.
    _, matches = ruleset.match(Scope.INSTRUCTION, features, insn.address)
    for rule_name, res in matches.items():
        rule = ruleset[rule_name]
        for addr, _ in res:
            capa.engine.index_rule_matches(features, rule, [addr])
    return features, matches
 def find_basic_block_capabilities(
    ruleset: RuleSet, extractor: StaticFeatureExtractor, f: FunctionHandle, bb: BBHandle
 ) -> Tuple[FeatureSet, MatchResults, MatchResults]:
    """
    find matches for the given rules within the given basic block.
    returns: tuple containing (features for basic block, match results for basic block, match results for instructions)
    """
    # all features found within this basic block,
    # includes features found within instructions.
    features: FeatureSet = collections.defaultdict(set)
    # matches found at the instruction scope.
    # might be found at different instructions, thats ok.
    insn_matches: MatchResults = collections.defaultdict(list)
    for insn in extractor.get_instructions(f, bb):
        ifeatures, imatches = find_instruction_capabilities(ruleset, extractor, f, bb, insn)
        for feature, vas in ifeatures.items():
            features[feature].update(vas)
        for rule_name, res in imatches.items():
            insn_matches[rule_name].extend(res)
    for feature, va in itertools.chain(
        extractor.extract_basic_block_features(f, bb), extractor.extract_global_features()
    ):
        features[feature].add(va)
    # matches found within this basic block.
    _, matches = ruleset.match(Scope.BASIC_BLOCK, features, bb.address)
    for rule_name, res in matches.items():
        rule = ruleset[rule_name]
        for va, _ in res:
            capa.engine.index_rule_matches(features, rule, [va])
    return features, matches, insn_matches
 def find_code_capabilities(
    ruleset: RuleSet, extractor: StaticFeatureExtractor, fh: FunctionHandle
 ) -> Tuple[MatchResults, MatchResults, MatchResults, int]:
    """
    find matches for the given rules within the given function.
    returns: tuple containing (match results for function, match results for basic blocks, match results for instructions, number of features)
    """
    # all features found within this function,
    # includes features found within basic blocks (and instructions).
    function_features: FeatureSet = collections.defaultdict(set)
    # matches found at the basic block scope.
    # might be found at different basic blocks, thats ok.
    bb_matches: MatchResults = collections.defaultdict(list)
    # matches found at the instruction scope.
    # might be found at different instructions, thats ok.
    insn_matches: MatchResults = collections.defaultdict(list)
    for bb in extractor.get_basic_blocks(fh):
        features, bmatches, imatches = find_basic_block_capabilities(ruleset, extractor, fh, bb)
        for feature, vas in features.items():
            function_features[feature].update(vas)
        for rule_name, res in bmatches.items():
            bb_matches[rule_name].extend(res)
        for rule_name, res in imatches.items():
            insn_matches[rule_name].extend(res)
    for feature, va in itertools.chain(extractor.extract_function_features(fh), extractor.extract_global_features()):
        function_features[feature].add(va)
    _, function_matches = ruleset.match(Scope.FUNCTION, function_features, fh.address)
    return function_matches, bb_matches, insn_matches, len(function_features)
 def find_static_capabilities(
    ruleset: RuleSet, extractor: StaticFeatureExtractor, disable_progress=None
 ) -> Tuple[MatchResults, Any]:
    all_function_matches: MatchResults = collections.defaultdict(list)
    all_bb_matches: MatchResults = collections.defaultdict(list)
    all_insn_matches: MatchResults = collections.defaultdict(list)
    feature_counts = rdoc.StaticFeatureCounts(file=0, functions=())
    library_functions: Tuple[rdoc.LibraryFunction, ...] = ()
    assert isinstance(extractor, StaticFeatureExtractor)
    with redirecting_print_to_tqdm(disable_progress):
        with tqdm.contrib.logging.logging_redirect_tqdm():
            pbar = tqdm.tqdm
            if capa.helpers.is_runtime_ghidra():
                # Ghidrathon interpreter cannot properly handle
                # the TMonitor thread that is created via a monitor_interval
                # > 0
                pbar.monitor_interval = 0
            if disable_progress:
                # do not use tqdm to avoid unnecessary side effects when caller intends
                # to disable progress completely
                def pbar(s, *args, **kwargs):
                    return s
            functions = list(extractor.get_functions())
            n_funcs = len(functions)
            pb = pbar(functions, desc="matching", unit=" functions", postfix="skipped 0 library functions", leave=False)
            for f in pb:
                t0 = time.time()
                if extractor.is_library_function(f.address):
                    function_name = extractor.get_function_name(f.address)
                    logger.debug("skipping library function 0x%x (%s)", f.address, function_name)
                    library_functions += (
                        rdoc.LibraryFunction(address=frz.Address.from_capa(f.address), name=function_name),
                    )
                    n_libs = len(library_functions)
                    percentage = round(100 * (n_libs / n_funcs))
                    if isinstance(pb, tqdm.tqdm):
                        pb.set_postfix_str(f"skipped {n_libs} library functions ({percentage}%)")
                    continue
                function_matches, bb_matches, insn_matches, feature_count = find_code_capabilities(
                    ruleset, extractor, f
                )
                feature_counts.functions += (
                    rdoc.FunctionFeatureCount(address=frz.Address.from_capa(f.address), count=feature_count),
                )
                t1 = time.time()
                match_count = sum(len(res) for res in function_matches.values())
                match_count += sum(len(res) for res in bb_matches.values())
                match_count += sum(len(res) for res in insn_matches.values())
                logger.debug(
                    "analyzed function 0x%x and extracted %d features, %d matches in %0.02fs",
                    f.address,
                    feature_count,
                    match_count,
                    t1 - t0,
                )
                for rule_name, res in function_matches.items():
                    all_function_matches[rule_name].extend(res)
                for rule_name, res in bb_matches.items():
                    all_bb_matches[rule_name].extend(res)
                for rule_name, res in insn_matches.items():
                    all_insn_matches[rule_name].extend(res)
    # collection of features that captures the rule matches within function, BB, and instruction scopes.
    # mapping from feature (matched rule) to set of addresses at which it matched.
    function_and_lower_features: FeatureSet = collections.defaultdict(set)
    for rule_name, results in itertools.chain(
        all_function_matches.items(), all_bb_matches.items(), all_insn_matches.items()
    ):
        locations = {p[0] for p in results}
        rule = ruleset[rule_name]
        capa.engine.index_rule_matches(function_and_lower_features, rule, locations)
    all_file_matches, feature_count = find_file_capabilities(ruleset, extractor, function_and_lower_features)
    feature_counts.file = feature_count
    matches = dict(
        itertools.chain(
            # each rule exists in exactly one scope,
            # so there won't be any overlap among these following MatchResults,
            # and we can merge the dictionaries naively.
            all_insn_matches.items(),
            all_bb_matches.items(),
            all_function_matches.items(),
            all_file_matches.items(),
        )
    )
    meta = {
        "feature_counts": feature_counts,
        "library_functions": library_functions,
    }
    return matches, meta
--- a/capa/engine.py
+++ b/capa/engine.py
@@ -1,4 +1,4 @@
-# Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
@@ -8,29 +8,11 @@
 import copy
 import collections
 from typing import TYPE_CHECKING, Set, Dict, List, Tuple, Union, Mapping, Iterable, Iterator
-import capa.perf
+import capa.features
 import capa.features.common
 from capa.features.common import Result, Feature
 from capa.features.address import Address
 if TYPE_CHECKING:
    # circular import, otherwise
    import capa.rules
-# a collection of features and the locations at which they are found.
+class Statement(object):
 #
 # used throughout matching as the context in which features are searched:
 # to check if a feature exists, do: `Number(0x10) in features`.
 # to collect the locations of a feature, do: `features[Number(0x10)]`
 #
 # aliased here so that the type can be documented and xref'd.
 FeatureSet = Dict[Feature, Set[Address]]
 class Statement:
    """
    superclass for structural nodes, such as and/or/not.
    this exists to provide a default impl for `__str__` and `__repr__`,
@@ -38,194 +20,157 @@ class Statement:
    """
    def __init__(self, description=None):
-        super().__init__()
+        super(Statement, self).__init__()
        self.name = self.__class__.__name__
        self.description = description
    def __str__(self):
        name = self.name.lower()
        children = ",".join(map(str, self.get_children()))
        if self.description:
-            return f"{name}({children} = {self.description})"
+            return "%s(%s = %s)" % (self.name.lower(), ",".join(map(str, self.get_children())), self.description)
        else:
-            return f"{name}({children})"
+            return "%s(%s)" % (self.name.lower(), ",".join(map(str, self.get_children())))
    def __repr__(self):
        return str(self)
-    def evaluate(self, features: FeatureSet, short_circuit=True) -> Result:
+    def evaluate(self, ctx):
        """
        classes that inherit `Statement` must implement `evaluate`
        args:
-            short_circuit (bool): if true, then statements like and/or/some may short circuit.
+          ctx (defaultdict[Feature, set[VA]])
        returns:
          Result
        """
        raise NotImplementedError()
-    def get_children(self) -> Iterator[Union["Statement", Feature]]:
+    def get_children(self):
        if hasattr(self, "child"):
-            # this really confuses mypy because the property may not exist
+            yield self.child
            # since its defined in the subclasses.
            child = self.child  # type: ignore
            assert isinstance(child, (Statement, Feature))
            yield child
        if hasattr(self, "children"):
            for child in self.children:
                assert isinstance(child, (Statement, Feature))
                yield child
    def replace_child(self, existing, new):
        if hasattr(self, "child"):
-            # this really confuses mypy because the property may not exist
+            if self.child is existing:
            # since its defined in the subclasses.
            if self.child is existing:  # type: ignore
                self.child = new
        if hasattr(self, "children"):
-            children = self.children
+            for i, child in enumerate(self.children):
            for i, child in enumerate(children):
                if child is existing:
-                    children[i] = new
+                    self.children[i] = new
 class Result(object):
    """
    represents the results of an evaluation of statements against features.
    instances of this class should behave like a bool,
    e.g. `assert Result(True, ...) == True`
    instances track additional metadata about evaluation results.
    they contain references to the statement node (e.g. an And statement),
     as well as the children Result instances.
    we need this so that we can render the tree of expressions and their results.
    """
    def __init__(self, success, statement, children, locations=None):
        """
        args:
          success (bool)
          statement (capa.engine.Statement or capa.features.Feature)
          children (list[Result])
          locations (iterable[VA])
        """
        super(Result, self).__init__()
        self.success = success
        self.statement = statement
        self.children = children
        self.locations = locations if locations is not None else ()
    def __eq__(self, other):
        if isinstance(other, bool):
            return self.success == other
        return False
    def __bool__(self):
        return self.success
    def __nonzero__(self):
        return self.success
 class And(Statement):
-    """
+    """match if all of the children evaluate to True."""
    match if all of the children evaluate to True.
    the order of evaluation is dictated by the property
    `And.children` (type: List[Statement|Feature]).
    a query optimizer may safely manipulate the order of these children.
    """
    def __init__(self, children, description=None):
-        super().__init__(description=description)
+        super(And, self).__init__(description=description)
        self.children = children
-    def evaluate(self, ctx, short_circuit=True):
+    def evaluate(self, ctx):
-        capa.perf.counters["evaluate.feature"] += 1
+        results = [child.evaluate(ctx) for child in self.children]
-        capa.perf.counters["evaluate.feature.and"] += 1
+        success = all(results)
-
+        return Result(success, self, results)
        if short_circuit:
            results = []
            for child in self.children:
                result = child.evaluate(ctx, short_circuit=short_circuit)
                results.append(result)
                if not result:
                    # short circuit
                    return Result(False, self, results)
            return Result(True, self, results)
        else:
            results = [child.evaluate(ctx, short_circuit=short_circuit) for child in self.children]
            success = all(results)
            return Result(success, self, results)
 class Or(Statement):
-    """
+    """match if any of the children evaluate to True."""
    match if any of the children evaluate to True.
    the order of evaluation is dictated by the property
    `Or.children` (type: List[Statement|Feature]).
    a query optimizer may safely manipulate the order of these children.
    """
    def __init__(self, children, description=None):
-        super().__init__(description=description)
+        super(Or, self).__init__(description=description)
        self.children = children
-    def evaluate(self, ctx, short_circuit=True):
+    def evaluate(self, ctx):
-        capa.perf.counters["evaluate.feature"] += 1
+        results = [child.evaluate(ctx) for child in self.children]
-        capa.perf.counters["evaluate.feature.or"] += 1
+        success = any(results)
-
+        return Result(success, self, results)
        if short_circuit:
            results = []
            for child in self.children:
                result = child.evaluate(ctx, short_circuit=short_circuit)
                results.append(result)
                if result:
                    # short circuit as soon as we hit one match
                    return Result(True, self, results)
            return Result(False, self, results)
        else:
            results = [child.evaluate(ctx, short_circuit=short_circuit) for child in self.children]
            success = any(results)
            return Result(success, self, results)
 class Not(Statement):
    """match only if the child evaluates to False."""
    def __init__(self, child, description=None):
-        super().__init__(description=description)
+        super(Not, self).__init__(description=description)
        self.child = child
-    def evaluate(self, ctx, short_circuit=True):
+    def evaluate(self, ctx):
-        capa.perf.counters["evaluate.feature"] += 1
+        results = [self.child.evaluate(ctx)]
        capa.perf.counters["evaluate.feature.not"] += 1
        results = [self.child.evaluate(ctx, short_circuit=short_circuit)]
        success = not results[0]
        return Result(success, self, results)
 class Some(Statement):
-    """
+    """match if at least N of the children evaluate to True."""
    match if at least N of the children evaluate to True.
    the order of evaluation is dictated by the property
    `Some.children` (type: List[Statement|Feature]).
    a query optimizer may safely manipulate the order of these children.
    """
    def __init__(self, count, children, description=None):
-        super().__init__(description=description)
+        super(Some, self).__init__(description=description)
        self.count = count
        self.children = children
-    def evaluate(self, ctx, short_circuit=True):
+    def evaluate(self, ctx):
-        capa.perf.counters["evaluate.feature"] += 1
+        results = [child.evaluate(ctx) for child in self.children]
-        capa.perf.counters["evaluate.feature.some"] += 1
+        # note that here we cast the child result as a bool
-
+        # because we've overridden `__bool__` above.
-        if short_circuit:
+        #
-            results = []
+        # we can't use `if child is True` because the instance is not True.
-            satisfied_children_count = 0
+        success = sum([1 for child in results if bool(child) is True]) >= self.count
-            for child in self.children:
+        return Result(success, self, results)
                result = child.evaluate(ctx, short_circuit=short_circuit)
                results.append(result)
                if result:
                    satisfied_children_count += 1
                if satisfied_children_count >= self.count:
                    # short circuit as soon as we hit the threshold
                    return Result(True, self, results)
            return Result(False, self, results)
        else:
            results = [child.evaluate(ctx, short_circuit=short_circuit) for child in self.children]
            # note that here we cast the child result as a bool
            # because we've overridden `__bool__` above.
            #
            # we can't use `if child is True` because the instance is not True.
            success = sum([1 for child in results if bool(child) is True]) >= self.count
            return Result(success, self, results)
 class Range(Statement):
    """match if the child is contained in the ctx set with a count in the given range."""
    def __init__(self, child, min=None, max=None, description=None):
-        super().__init__(description=description)
+        super(Range, self).__init__(description=description)
        self.child = child
        self.min = min if min is not None else 0
        self.max = max if max is not None else (1 << 64 - 1)
-    def evaluate(self, ctx, **kwargs):
+    def evaluate(self, ctx):
        capa.perf.counters["evaluate.feature"] += 1
        capa.perf.counters["evaluate.feature.range"] += 1
        count = len(ctx.get(self.child, []))
        if self.min == 0 and count == 0:
            return Result(True, self, [])
@@ -234,9 +179,9 @@ class Range(Statement):
    def __str__(self):
        if self.max == (1 << 64 - 1):
-            return f"range({str(self.child)}, min={self.min}, max=infinity)"
+            return "range(%s, min=%d, max=infinity)" % (str(self.child), self.min)
        else:
-            return f"range({str(self.child)}, min={self.min}, max={self.max})"
+            return "range(%s, min=%d, max=%d)" % (str(self.child), self.min, self.max)
 class Subscope(Statement):
@@ -245,66 +190,59 @@ class Subscope(Statement):
    the engine should preprocess rules to extract subscope statements into their own rules.
    """
-    def __init__(self, scope, child, description=None):
+    def __init__(self, scope, child):
-        super().__init__(description=description)
+        super(Subscope, self).__init__()
        self.scope = scope
        self.child = child
-    def evaluate(self, ctx, **kwargs):
+    def evaluate(self, ctx):
        raise ValueError("cannot evaluate a subscope directly!")
-# mapping from rule name to list of: (location of match, result object)
+def topologically_order_rules(rules):
 #
 # used throughout matching and rendering to collection the results
 #  of statement evaluation and their locations.
 #
 # to check if a rule matched, do: `"TCP client" in matches`.
 # to find where a rule matched, do: `map(first, matches["TCP client"])`
 # to see how a rule matched, do:
 #
 #     for address, match_details in matches["TCP client"]:
 #         inspect(match_details)
 #
 # aliased here so that the type can be documented and xref'd.
 MatchResults = Mapping[str, List[Tuple[Address, Result]]]
 def index_rule_matches(features: FeatureSet, rule: "capa.rules.Rule", locations: Iterable[Address]):
    """
-    record into the given featureset that the given rule matched at the given locations.
+    order the given rules such that dependencies show up before dependents.
    this means that as we match rules, we can add features for the matches, and these
     will be matched by subsequent rules if they follow this order.
-    naively, this is just adding a MatchedRule feature;
+    assumes that the rule dependency graph is a DAG.
    however, we also want to record matches for the rule's namespaces.
    updates `features` in-place. doesn't modify the remaining arguments.
    """
-    features[capa.features.common.MatchedRule(rule.name)].update(locations)
+    # we evaluate `rules` multiple times, so if its a generator, realize it into a list.
-    namespace = rule.meta.get("namespace")
+    rules = list(rules)
-    if namespace:
+    namespaces = capa.rules.index_rules_by_namespace(rules)
-        while namespace:
+    rules = {rule.name: rule for rule in rules}
-            features[capa.features.common.MatchedRule(namespace)].update(locations)
+    seen = set([])
-            namespace, _, _ = namespace.rpartition("/")
+    ret = []
    def rec(rule):
        if rule.name in seen:
            return
        for dep in rule.get_dependencies(namespaces):
            rec(rules[dep])
        ret.append(rule)
        seen.add(rule.name)
    for rule in rules.values():
        rec(rule)
    return ret
-def match(rules: List["capa.rules.Rule"], features: FeatureSet, addr: Address) -> Tuple[FeatureSet, MatchResults]:
+def match(rules, features, va):
    """
-    match the given rules against the given features,
+    Args:
-    returning an updated set of features and the matches.
+      rules (List[capa.rules.Rule]): these must already be ordered topologically by dependency.
      features (Mapping[capa.features.Feature, int]):
      va (int): location of the features
-    the updated features are just like the input,
+    Returns:
-    but extended to include the match features (e.g. names of rules that matched).
+      Tuple[List[capa.features.Feature], Dict[str, Tuple[int, capa.engine.Result]]]: two-tuple with entries:
-    the given feature set is not modified; an updated copy is returned.
+        - list of features used for matching (which may be greater than argument, due to rule match features), and
-
+        - mapping from rule name to (location of match, result object)
    the given list of rules must be ordered topologically by dependency,
    or else `match` statements will not be handled correctly.
    this routine should be fairly optimized, but is not guaranteed to be the fastest matcher possible.
    it has a particularly convenient signature: (rules, features) -> matches
    other strategies can be imagined that match differently; implement these elsewhere.
    specifically, this routine does "top down" matching of the given rules against the feature set.
    """
-    results: MatchResults = collections.defaultdict(list)
+    results = collections.defaultdict(list)
    # copy features so that we can modify it
    # without affecting the caller (keep this function pure)
@@ -313,22 +251,15 @@ def match(rules: List["capa.rules.Rule"], features: FeatureSet, addr: Address) -
    features = collections.defaultdict(set, copy.copy(features))
    for rule in rules:
-        res = rule.evaluate(features, short_circuit=True)
+        res = rule.evaluate(features)
        if res:
-            # we first matched the rule with short circuiting enabled.
+            results[rule.name].append((va, res))
-            # this is much faster than without short circuiting.
+            features[capa.features.MatchedRule(rule.name)].add(va)
            # however, we want to collect all results thoroughly,
            # so once we've found a match quickly,
            # go back and capture results without short circuiting.
            res = rule.evaluate(features, short_circuit=False)
-            # sanity check
+            namespace = rule.meta.get("namespace")
-            assert bool(res) is True
+            if namespace:
-
+                while namespace:
-            results[rule.name].append((addr, res))
+                    features[capa.features.MatchedRule(namespace)].add(va)
-            # we need to update the current `features`
+                    namespace, _, _ = namespace.rpartition("/")
            # because subsequent iterations of this loop may use newly added features,
            # such as rule or namespace matches.
            index_rule_matches(features, rule, [addr])
    return (features, results)
--- a/capa/exceptions.py
+++ b/capa/exceptions.py
@@ -1,25 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 class UnsupportedRuntimeError(RuntimeError):
    pass
 class UnsupportedFormatError(ValueError):
    pass
 class UnsupportedArchError(ValueError):
    pass
 class UnsupportedOSError(ValueError):
    pass
 class EmptyReportError(ValueError):
    pass
--- a/capa/features/init.py
+++ b/capa/features/init.py
@@ -0,0 +1,236 @@
 # Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import re
 import sys
 import codecs
 import logging
 import capa.engine
 logger = logging.getLogger(__name__)
 MAX_BYTES_FEATURE_SIZE = 0x100
 # thunks may be chained so we specify a delta to control the depth to which these chains are explored
 THUNK_CHAIN_DEPTH_DELTA = 5
 # identifiers for supported architectures names that tweak a feature
 # for example, offset/x32
 ARCH_X32 = "x32"
 ARCH_X64 = "x64"
 VALID_ARCH = (ARCH_X32, ARCH_X64)
 def bytes_to_str(b):
    if sys.version_info[0] >= 3:
        return str(codecs.encode(b, "hex").decode("utf-8"))
    else:
        return codecs.encode(b, "hex")
 def hex_string(h):
    """ render hex string e.g. "0a40b1" as "0A 40 B1" """
    return " ".join(h[i : i + 2] for i in range(0, len(h), 2)).upper()
 def escape_string(s):
    """escape special characters"""
    s = repr(s)
    if not s.startswith(('"', "'")):
        # u'hello\r\nworld' -> hello\\r\\nworld
        s = s[2:-1]
    else:
        # 'hello\r\nworld' -> hello\\r\\nworld
        s = s[1:-1]
    s = s.replace("\\'", "'")  # repr() may escape "'" in some edge cases, remove
    s = s.replace('"', '\\"')  # repr() does not escape '"', add
    return s
 class Feature(object):
    def __init__(self, value, arch=None, description=None):
        """
        Args:
          value (any): the value of the feature, such as the number or string.
          arch (str): one of the VALID_ARCH values, or None.
            When None, then the feature applies to any architecture.
            Modifies the feature name from `feature` to `feature/arch`, like `offset/x32`.
          description (str): a human-readable description that explains the feature value.
        """
        super(Feature, self).__init__()
        if arch is not None:
            if arch not in VALID_ARCH:
                raise ValueError("arch '%s' must be one of %s" % (arch, VALID_ARCH))
            self.name = self.__class__.__name__.lower() + "/" + arch
        else:
            self.name = self.__class__.__name__.lower()
        self.value = value
        self.arch = arch
        self.description = description
    def __hash__(self):
        return hash((self.name, self.value, self.arch))
    def __eq__(self, other):
        return self.name == other.name and self.value == other.value and self.arch == other.arch
    def get_value_str(self):
        """
        render the value of this feature, for use by `__str__` and friends.
        subclasses should override to customize the rendering.
        Returns: any
        """
        return self.value
    def __str__(self):
        if self.value is not None:
            if self.description:
                return "%s(%s = %s)" % (self.name, self.get_value_str(), self.description)
            else:
                return "%s(%s)" % (self.name, self.get_value_str())
        else:
            return "%s" % self.name
    def __repr__(self):
        return str(self)
    def evaluate(self, ctx):
        return capa.engine.Result(self in ctx, self, [], locations=ctx.get(self, []))
    def freeze_serialize(self):
        if self.arch is not None:
            return (self.__class__.__name__, [self.value, {"arch": self.arch}])
        else:
            return (self.__class__.__name__, [self.value])
    @classmethod
    def freeze_deserialize(cls, args):
        # as you can see below in code,
        # if the last argument is a dictionary,
        # consider it to be kwargs passed to the feature constructor.
        if len(args) == 1:
            return cls(*args)
        elif isinstance(args[-1], dict):
            kwargs = args[-1]
            args = args[:-1]
            return cls(*args, **kwargs)
 class MatchedRule(Feature):
    def __init__(self, value, description=None):
        super(MatchedRule, self).__init__(value, description=description)
        self.name = "match"
 class Characteristic(Feature):
    def __init__(self, value, description=None):
        super(Characteristic, self).__init__(value, description=description)
 class String(Feature):
    def __init__(self, value, description=None):
        super(String, self).__init__(value, description=description)
 class Regex(String):
    def __init__(self, value, description=None):
        super(Regex, self).__init__(value, description=description)
        pat = self.value[len("/") : -len("/")]
        flags = re.DOTALL
        if value.endswith("/i"):
            pat = self.value[len("/") : -len("/i")]
            flags |= re.IGNORECASE
        try:
            self.re = re.compile(pat, flags)
        except re.error:
            if value.endswith("/i"):
                value = value[: -len("i")]
            raise ValueError(
                "invalid regular expression: %s it should use Python syntax, try it at https://pythex.org" % value
            )
    def evaluate(self, ctx):
        for feature, locations in ctx.items():
            if not isinstance(feature, (capa.features.String,)):
                continue
            # `re.search` finds a match anywhere in the given string
            # which implies leading and/or trailing whitespace.
            # using this mode cleans is more convenient for rule authors,
            # so that they don't have to prefix/suffix their terms like: /.*foo.*/.
            if self.re.search(feature.value):
                # unlike other features, we cannot return put a reference to `self` directly in a `Result`.
                # this is because `self` may match on many strings, so we can't stuff the matched value into it.
                # instead, return a new instance that has a reference to both the regex and the matched value.
                # see #262.
                return capa.engine.Result(True, _MatchedRegex(self, feature.value), [], locations=locations)
        return capa.engine.Result(False, _MatchedRegex(self, None), [])
    def __str__(self):
        return "regex(string =~ %s)" % self.value
 class _MatchedRegex(Regex):
    """
    this represents a specific instance of a regular expression feature match.
    treat it the same as a `Regex` except it has the `match` field that contains the complete string that matched.
    note: this type should only ever be constructed by `Regex.evaluate()`. it is not part of the public API.
    """
    def __init__(self, regex, match):
        """
        args:
          regex (Regex): the regex feature that matches
          match (string|None): the matching string or None if it doesn't match
        """
        super(_MatchedRegex, self).__init__(regex.value, description=regex.description)
        # we want this to collide with the name of `Regex` above,
        # so that it works nicely with the renderers.
        self.name = "regex"
        # this may be None if the regex doesn't match
        self.match = match
    def __str__(self):
        return 'regex(string =~ %s, matched = "%s")' % (self.value, self.match)
 class StringFactory(object):
    def __new__(self, value, description=None):
        if value.startswith("/") and (value.endswith("/") or value.endswith("/i")):
            return Regex(value, description=description)
        return String(value, description=description)
 class Bytes(Feature):
    def __init__(self, value, description=None):
        super(Bytes, self).__init__(value, description=description)
    def evaluate(self, ctx):
        for feature, locations in ctx.items():
            if not isinstance(feature, (capa.features.Bytes,)):
                continue
            if feature.value.startswith(self.value):
                return capa.engine.Result(True, self, [], locations=locations)
        return capa.engine.Result(False, self, [])
    def get_value_str(self):
        return hex_string(bytes_to_str(self.value))
    def freeze_serialize(self):
        return (self.__class__.__name__, [bytes_to_str(self.value).upper()])
    @classmethod
    def freeze_deserialize(cls, args):
        return cls(*[codecs.decode(x, "hex") for x in args])
--- a/capa/features/address.py
+++ b/capa/features/address.py
@@ -1,193 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import abc
 class Address(abc.ABC):
    @abc.abstractmethod
    def __eq__(self, other): ...
    @abc.abstractmethod
    def __lt__(self, other):
        # implement < so that addresses can be sorted from low to high
        ...
    @abc.abstractmethod
    def __hash__(self):
        # implement hash so that addresses can be used in sets and dicts
        ...
    @abc.abstractmethod
    def __repr__(self):
        # implement repr to help during debugging
        ...
 class AbsoluteVirtualAddress(int, Address):
    """an absolute memory address"""
    def __new__(cls, v):
        assert v >= 0
        return int.__new__(cls, v)
    def __repr__(self):
        return f"absolute(0x{self:x})"
    def __hash__(self):
        return int.__hash__(self)
 class ProcessAddress(Address):
    """an address of a process in a dynamic execution trace"""
    def __init__(self, pid: int, ppid: int = 0):
        assert ppid >= 0
        assert pid > 0
        self.ppid = ppid
        self.pid = pid
    def __repr__(self):
        return "process(%s%s)" % (
            f"ppid: {self.ppid}, " if self.ppid > 0 else "",
            f"pid: {self.pid}",
        )
    def __hash__(self):
        return hash((self.ppid, self.pid))
    def __eq__(self, other):
        assert isinstance(other, ProcessAddress)
        return (self.ppid, self.pid) == (other.ppid, other.pid)
    def __lt__(self, other):
        assert isinstance(other, ProcessAddress)
        return (self.ppid, self.pid) < (other.ppid, other.pid)
 class ThreadAddress(Address):
    """addresses a thread in a dynamic execution trace"""
    def __init__(self, process: ProcessAddress, tid: int):
        assert tid >= 0
        self.process = process
        self.tid = tid
    def __repr__(self):
        return f"{self.process}, thread(tid: {self.tid})"
    def __hash__(self):
        return hash((self.process, self.tid))
    def __eq__(self, other):
        assert isinstance(other, ThreadAddress)
        return (self.process, self.tid) == (other.process, other.tid)
    def __lt__(self, other):
        assert isinstance(other, ThreadAddress)
        return (self.process, self.tid) < (other.process, other.tid)
 class DynamicCallAddress(Address):
    """addesses a call in a dynamic execution trace"""
    def __init__(self, thread: ThreadAddress, id: int):
        assert id >= 0
        self.thread = thread
        self.id = id
    def __repr__(self):
        return f"{self.thread}, call(id: {self.id})"
    def __hash__(self):
        return hash((self.thread, self.id))
    def __eq__(self, other):
        assert isinstance(other, DynamicCallAddress)
        return (self.thread, self.id) == (other.thread, other.id)
    def __lt__(self, other):
        assert isinstance(other, DynamicCallAddress)
        return (self.thread, self.id) < (other.thread, other.id)
 class RelativeVirtualAddress(int, Address):
    """a memory address relative to a base address"""
    def __repr__(self):
        return f"relative(0x{self:x})"
    def __hash__(self):
        return int.__hash__(self)
 class FileOffsetAddress(int, Address):
    """an address relative to the start of a file"""
    def __new__(cls, v):
        assert v >= 0
        return int.__new__(cls, v)
    def __repr__(self):
        return f"file(0x{self:x})"
    def __hash__(self):
        return int.__hash__(self)
 class DNTokenAddress(int, Address):
    """a .NET token"""
    def __new__(cls, token: int):
        return int.__new__(cls, token)
    def __repr__(self):
        return f"token(0x{self:x})"
    def __hash__(self):
        return int.__hash__(self)
 class DNTokenOffsetAddress(Address):
    """an offset into an object specified by a .NET token"""
    def __init__(self, token: int, offset: int):
        assert offset >= 0
        self.token = token
        self.offset = offset
    def __eq__(self, other):
        return (self.token, self.offset) == (other.token, other.offset)
    def __lt__(self, other):
        return (self.token, self.offset) < (other.token, other.offset)
    def __hash__(self):
        return hash((self.token, self.offset))
    def __repr__(self):
        return f"token(0x{self.token:x})+(0x{self.offset:x})"
    def __index__(self):
        return self.token + self.offset
 class _NoAddress(Address):
    def __eq__(self, other):
        return True
    def __lt__(self, other):
        return False
    def __hash__(self):
        return hash(0)
    def __repr__(self):
        return "no address"
 NO_ADDRESS = _NoAddress()
--- a/capa/features/basicblock.py
+++ b/capa/features/basicblock.py
@@ -1,4 +1,4 @@
-# Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
@@ -6,15 +6,22 @@
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
-from capa.features.common import Feature
+from capa.features import Feature
 class BasicBlock(Feature):
-    def __init__(self, description=None):
+    def __init__(self):
-        super().__init__(0, description=description)
+        super(BasicBlock, self).__init__(None)
    def __str__(self):
        return "basic block"
    def get_value_str(self):
        return ""
    def freeze_serialize(self):
        return (self.__class__.__name__, [])
    @classmethod
    def freeze_deserialize(cls, args):
        return cls()
--- a/capa/features/com/init.py
+++ b/capa/features/com/init.py
@@ -1,36 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from enum import Enum
 from typing import Dict, List
 from capa.helpers import assert_never
 class ComType(Enum):
    CLASS = "class"
    INTERFACE = "interface"
 COM_PREFIXES = {
    ComType.CLASS: "CLSID_",
    ComType.INTERFACE: "IID_",
 }
 def load_com_database(com_type: ComType) -> Dict[str, List[str]]:
    # lazy load these python files since they are so large.
    # that is, don't load them unless a COM feature is being handled.
    import capa.features.com.classes
    import capa.features.com.interfaces
    if com_type == ComType.CLASS:
        return capa.features.com.classes.COM_CLASSES
    elif com_type == ComType.INTERFACE:
        return capa.features.com.interfaces.COM_INTERFACES
    else:
        assert_never(com_type)
--- a/capa/features/com/classes.py
+++ b/capa/features/com/classes.py
--- a/capa/features/com/interfaces.py
+++ b/capa/features/com/interfaces.py
--- a/capa/features/common.py
+++ b/capa/features/common.py
@@ -1,491 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import re
 import abc
 import codecs
 import typing
 import logging
 import collections
 from typing import TYPE_CHECKING, Set, Dict, List, Union, Optional
 if TYPE_CHECKING:
    # circular import, otherwise
    import capa.engine
 import capa.perf
 import capa.features
 import capa.features.extractors.elf
 from capa.features.address import Address
 logger = logging.getLogger(__name__)
 MAX_BYTES_FEATURE_SIZE = 0x100
 # thunks may be chained so we specify a delta to control the depth to which these chains are explored
 THUNK_CHAIN_DEPTH_DELTA = 5
 class FeatureAccess:
    READ = "read"
    WRITE = "write"
 VALID_FEATURE_ACCESS = (FeatureAccess.READ, FeatureAccess.WRITE)
 def bytes_to_str(b: bytes) -> str:
    return str(codecs.encode(b, "hex").decode("utf-8"))
 def hex_string(h: str) -> str:
    """render hex string e.g. "0a40b1" as "0A 40 B1" """
    return " ".join(h[i : i + 2] for i in range(0, len(h), 2)).upper()
 def escape_string(s: str) -> str:
    """escape special characters"""
    s = repr(s)
    if not s.startswith(('"', "'")):
        # u'hello\r\nworld' -> hello\\r\\nworld
        s = s[2:-1]
    else:
        # 'hello\r\nworld' -> hello\\r\\nworld
        s = s[1:-1]
    s = s.replace("\\'", "'")  # repr() may escape "'" in some edge cases, remove
    s = s.replace('"', '\\"')  # repr() does not escape '"', add
    return s
 class Result:
    """
    represents the results of an evaluation of statements against features.
    instances of this class should behave like a bool,
    e.g. `assert Result(True, ...) == True`
    instances track additional metadata about evaluation results.
    they contain references to the statement node (e.g. an And statement),
     as well as the children Result instances.
    we need this so that we can render the tree of expressions and their results.
    """
    def __init__(
        self,
        success: bool,
        statement: Union["capa.engine.Statement", "Feature"],
        children: List["Result"],
        locations: Optional[Set[Address]] = None,
    ):
        super().__init__()
        self.success = success
        self.statement = statement
        self.children = children
        self.locations = locations if locations is not None else set()
    def __eq__(self, other):
        if isinstance(other, bool):
            return self.success == other
        return False
    def __bool__(self):
        return self.success
    def __nonzero__(self):
        return self.success
 class Feature(abc.ABC):  # noqa: B024
    # this is an abstract class, since we don't want anyone to instantiate it directly,
    # but it doesn't have any abstract methods.
    def __init__(
        self,
        value: Union[str, int, float, bytes],
        description: Optional[str] = None,
    ):
        """
        Args:
          value (any): the value of the feature, such as the number or string.
          description (str): a human-readable description that explains the feature value.
        """
        super().__init__()
        self.name = self.__class__.__name__.lower()
        self.value = value
        self.description = description
    def __hash__(self):
        return hash((self.name, self.value))
    def __eq__(self, other):
        return self.name == other.name and self.value == other.value
    def __lt__(self, other):
        # implementing sorting by serializing to JSON is a huge hack.
        # its slow, inelegant, and probably doesn't work intuitively;
        # however, we only use it for deterministic output, so it's good enough for now.
        # circular import
        # we should fix if this wasn't already a huge hack.
        import capa.features.freeze.features
        return (
            capa.features.freeze.features.feature_from_capa(self).model_dump_json()
            < capa.features.freeze.features.feature_from_capa(other).model_dump_json()
        )
    def get_name_str(self) -> str:
        """
        render the name of this feature, for use by `__str__` and friends.
        subclasses should override to customize the rendering.
        """
        return self.name
    def get_value_str(self) -> str:
        """
        render the value of this feature, for use by `__str__` and friends.
        subclasses should override to customize the rendering.
        """
        return str(self.value)
    def __str__(self):
        if self.value is not None:
            if self.description:
                return f"{self.get_name_str()}({self.get_value_str()} = {self.description})"
            else:
                return f"{self.get_name_str()}({self.get_value_str()})"
        else:
            return f"{self.get_name_str()}"
    def __repr__(self):
        return str(self)
    def evaluate(self, ctx: Dict["Feature", Set[Address]], **kwargs) -> Result:
        capa.perf.counters["evaluate.feature"] += 1
        capa.perf.counters["evaluate.feature." + self.name] += 1
        return Result(self in ctx, self, [], locations=ctx.get(self, set()))
 class MatchedRule(Feature):
    def __init__(self, value: str, description=None):
        super().__init__(value, description=description)
        self.name = "match"
 class Characteristic(Feature):
    def __init__(self, value: str, description=None):
        super().__init__(value, description=description)
 class String(Feature):
    def __init__(self, value: str, description=None):
        super().__init__(value, description=description)
    def get_value_str(self) -> str:
        assert isinstance(self.value, str)
        return escape_string(self.value)
 class Class(Feature):
    def __init__(self, value: str, description=None):
        super().__init__(value, description=description)
 class Namespace(Feature):
    def __init__(self, value: str, description=None):
        super().__init__(value, description=description)
 class Substring(String):
    def __init__(self, value: str, description=None):
        super().__init__(value, description=description)
        self.value = value
    def evaluate(self, ctx, short_circuit=True):
        capa.perf.counters["evaluate.feature"] += 1
        capa.perf.counters["evaluate.feature.substring"] += 1
        # mapping from string value to list of locations.
        # will unique the locations later on.
        matches: typing.DefaultDict[str, Set[Address]] = collections.defaultdict(set)
        assert isinstance(self.value, str)
        for feature, locations in ctx.items():
            if not isinstance(feature, (String,)):
                continue
            if not isinstance(feature.value, str):
                # this is a programming error: String should only contain str
                raise ValueError("unexpected feature value type")
            if self.value in feature.value:
                matches[feature.value].update(locations)
                if short_circuit:
                    # we found one matching string, thats sufficient to match.
                    # don't collect other matching strings in this mode.
                    break
        if matches:
            # collect all locations
            locations = set()
            for locs in matches.values():
                locations.update(locs)
            # unlike other features, we cannot return put a reference to `self` directly in a `Result`.
            # this is because `self` may match on many strings, so we can't stuff the matched value into it.
            # instead, return a new instance that has a reference to both the substring and the matched values.
            return Result(True, _MatchedSubstring(self, dict(matches)), [], locations=locations)
        else:
            return Result(False, _MatchedSubstring(self, {}), [])
    def get_value_str(self) -> str:
        assert isinstance(self.value, str)
        return escape_string(self.value)
    def __str__(self):
        assert isinstance(self.value, str)
        return f"substring({escape_string(self.value)})"
 class _MatchedSubstring(Substring):
    """
    this represents specific match instances of a substring feature.
    treat it the same as a `Substring` except it has the `matches` field that contains the complete strings that matched.
    note: this type should only ever be constructed by `Substring.evaluate()`. it is not part of the public API.
    """
    def __init__(self, substring: Substring, matches: Dict[str, Set[Address]]):
        """
        args:
          substring: the substring feature that matches.
          match: mapping from matching string to its locations.
        """
        super().__init__(str(substring.value), description=substring.description)
        # we want this to collide with the name of `Substring` above,
        # so that it works nicely with the renderers.
        self.name = "substring"
        # this may be None if the substring doesn't match
        self.matches = matches
    def __str__(self):
        matches = ", ".join(f'"{s}"' for s in (self.matches or {}).keys())
        assert isinstance(self.value, str)
        return f'substring("{self.value}", matches = {matches})'
 class Regex(String):
    def __init__(self, value: str, description=None):
        super().__init__(value, description=description)
        self.value = value
        pat = self.value[len("/") : -len("/")]
        flags = re.DOTALL
        if value.endswith("/i"):
            pat = self.value[len("/") : -len("/i")]
            flags |= re.IGNORECASE
        try:
            self.re = re.compile(pat, flags)
        except re.error as exc:
            if value.endswith("/i"):
                value = value[: -len("i")]
            raise ValueError(
                f"invalid regular expression: {value} it should use Python syntax, try it at https://pythex.org"
            ) from exc
    def evaluate(self, ctx, short_circuit=True):
        capa.perf.counters["evaluate.feature"] += 1
        capa.perf.counters["evaluate.feature.regex"] += 1
        # mapping from string value to list of locations.
        # will unique the locations later on.
        matches: typing.DefaultDict[str, Set[Address]] = collections.defaultdict(set)
        for feature, locations in ctx.items():
            if not isinstance(feature, (String,)):
                continue
            if not isinstance(feature.value, str):
                # this is a programming error: String should only contain str
                raise ValueError("unexpected feature value type")
            # `re.search` finds a match anywhere in the given string
            # which implies leading and/or trailing whitespace.
            # using this mode cleans is more convenient for rule authors,
            # so that they don't have to prefix/suffix their terms like: /.*foo.*/.
            if self.re.search(feature.value):
                matches[feature.value].update(locations)
                if short_circuit:
                    # we found one matching string, thats sufficient to match.
                    # don't collect other matching strings in this mode.
                    break
        if matches:
            # collect all locations
            locations = set()
            for locs in matches.values():
                locations.update(locs)
            # unlike other features, we cannot return put a reference to `self` directly in a `Result`.
            # this is because `self` may match on many strings, so we can't stuff the matched value into it.
            # instead, return a new instance that has a reference to both the regex and the matched values.
            # see #262.
            return Result(True, _MatchedRegex(self, dict(matches)), [], locations=locations)
        else:
            return Result(False, _MatchedRegex(self, {}), [])
    def __str__(self):
        assert isinstance(self.value, str)
        return f"regex(string =~ {self.value})"
 class _MatchedRegex(Regex):
    """
    this represents specific match instances of a regular expression feature.
    treat it the same as a `Regex` except it has the `matches` field that contains the complete strings that matched.
    note: this type should only ever be constructed by `Regex.evaluate()`. it is not part of the public API.
    """
    def __init__(self, regex: Regex, matches: Dict[str, Set[Address]]):
        """
        args:
          regex: the regex feature that matches.
          matches: mapping from matching string to its locations.
        """
        super().__init__(str(regex.value), description=regex.description)
        # we want this to collide with the name of `Regex` above,
        # so that it works nicely with the renderers.
        self.name = "regex"
        # this may be None if the regex doesn't match
        self.matches = matches
    def __str__(self):
        matches = ", ".join(f'"{s}"' for s in (self.matches or {}).keys())
        assert isinstance(self.value, str)
        return f"regex(string =~ {self.value}, matches = {matches})"
 class StringFactory:
    def __new__(cls, value: str, description=None):
        if value.startswith("/") and (value.endswith("/") or value.endswith("/i")):
            return Regex(value, description=description)
        return String(value, description=description)
 class Bytes(Feature):
    def __init__(self, value: bytes, description=None):
        super().__init__(value, description=description)
        self.value = value
    def evaluate(self, ctx, **kwargs):
        capa.perf.counters["evaluate.feature"] += 1
        capa.perf.counters["evaluate.feature.bytes"] += 1
        assert isinstance(self.value, bytes)
        for feature, locations in ctx.items():
            if not isinstance(feature, (Bytes,)):
                continue
            assert isinstance(feature.value, bytes)
            if feature.value.startswith(self.value):
                return Result(True, self, [], locations=locations)
        return Result(False, self, [])
    def get_value_str(self):
        assert isinstance(self.value, bytes)
        return hex_string(bytes_to_str(self.value))
 # other candidates here: https://docs.microsoft.com/en-us/windows/win32/debug/pe-format#machine-types
 ARCH_I386 = "i386"
 ARCH_AMD64 = "amd64"
 # dotnet
 ARCH_ANY = "any"
 VALID_ARCH = (ARCH_I386, ARCH_AMD64, ARCH_ANY)
 class Arch(Feature):
    def __init__(self, value: str, description=None):
        super().__init__(value, description=description)
        self.name = "arch"
 OS_WINDOWS = "windows"
 OS_LINUX = "linux"
 OS_MACOS = "macos"
 # dotnet
 OS_ANY = "any"
 VALID_OS = {os.value for os in capa.features.extractors.elf.OS}
 VALID_OS.update({OS_WINDOWS, OS_LINUX, OS_MACOS, OS_ANY})
 # internal only, not to be used in rules
 OS_AUTO = "auto"
 class OS(Feature):
    def __init__(self, value: str, description=None):
        super().__init__(value, description=description)
        self.name = "os"
    def evaluate(self, ctx, **kwargs):
        capa.perf.counters["evaluate.feature"] += 1
        capa.perf.counters["evaluate.feature." + self.name] += 1
        for feature, locations in ctx.items():
            if not isinstance(feature, (OS,)):
                continue
            assert isinstance(feature.value, str)
            if OS_ANY in (self.value, feature.value) or self.value == feature.value:
                return Result(True, self, [], locations=locations)
        return Result(False, self, [])
 FORMAT_PE = "pe"
 FORMAT_ELF = "elf"
 FORMAT_DOTNET = "dotnet"
 VALID_FORMAT = (FORMAT_PE, FORMAT_ELF, FORMAT_DOTNET)
 # internal only, not to be used in rules
 FORMAT_AUTO = "auto"
 FORMAT_SC32 = "sc32"
 FORMAT_SC64 = "sc64"
 FORMAT_CAPE = "cape"
 FORMAT_FREEZE = "freeze"
 FORMAT_RESULT = "result"
 STATIC_FORMATS = {
    FORMAT_SC32,
    FORMAT_SC64,
    FORMAT_PE,
    FORMAT_ELF,
    FORMAT_DOTNET,
    FORMAT_FREEZE,
    FORMAT_RESULT,
 }
 DYNAMIC_FORMATS = {
    FORMAT_CAPE,
    FORMAT_FREEZE,
    FORMAT_RESULT,
 }
 FORMAT_UNKNOWN = "unknown"
 class Format(Feature):
    def __init__(self, value: str, description=None):
        super().__init__(value, description=description)
        self.name = "format"
 def is_global_feature(feature):
    """
    is this a feature that is extracted at every scope?
    today, these are OS and arch features.
    """
    return isinstance(feature, (OS, Arch))
--- a/capa/features/extractors/init.py
+++ b/capa/features/extractors/init.py
@@ -0,0 +1,286 @@
 # Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import abc
 class FeatureExtractor(object):
    """
    FeatureExtractor defines the interface for fetching features from a sample.
    There may be multiple backends that support fetching features for capa.
    For example, we use vivisect by default, but also want to support saving
     and restoring features from a JSON file.
    When we restore the features, we'd like to use exactly the same matching logic
     to find matching rules.
    Therefore, we can define a FeatureExtractor that provides features from the
     serialized JSON file and do matching without a binary analysis pass.
    Also, this provides a way to hook in an IDA backend.
    This class is not instantiated directly; it is the base class for other implementations.
    """
    __metaclass__ = abc.ABCMeta
    def __init__(self):
        #
        # note: a subclass should define ctor parameters for its own use.
        #  for example, the Vivisect feature extract might require the vw and/or path.
        # this base class doesn't know what to do with that info, though.
        #
        super(FeatureExtractor, self).__init__()
    @abc.abstractmethod
    def get_base_address(self):
        """
        fetch the preferred load address at which the sample was analyzed.
        returns: int
        """
        raise NotImplemented
    @abc.abstractmethod
    def extract_file_features(self):
        """
        extract file-scope features.
        example::
            extractor = VivisectFeatureExtractor(vw, path)
            for feature, va in extractor.get_file_features():
                print('0x%x: %s', va, feature)
        yields:
          Tuple[capa.features.Feature, int]: feature and its location
        """
        raise NotImplemented
    @abc.abstractmethod
    def get_functions(self):
        """
        enumerate the functions and provide opaque values that will
         subsequently be provided to `.extract_function_features()`, etc.
        by "opaque value", we mean that this can be any object, as long as it
         provides enough context to `.extract_function_features()`.
        the opaque value should support casting to int (`__int__`) for the function start address.
        yields:
          any: the opaque function value.
        """
        raise NotImplemented
    @abc.abstractmethod
    def extract_function_features(self, f):
        """
        extract function-scope features.
        the arguments are opaque values previously provided by `.get_functions()`, etc.
        example::
            extractor = VivisectFeatureExtractor(vw, path)
            for function in extractor.get_functions():
                for feature, va in extractor.extract_function_features(function):
                    print('0x%x: %s', va, feature)
        args:
          f [any]: an opaque value previously fetched from `.get_functions()`.
        yields:
          Tuple[capa.features.Feature, int]: feature and its location
        """
        raise NotImplemented
    @abc.abstractmethod
    def get_basic_blocks(self, f):
        """
        enumerate the basic blocks in the given function and provide opaque values that will
         subsequently be provided to `.extract_basic_block_features()`, etc.
        by "opaque value", we mean that this can be any object, as long as it
         provides enough context to `.extract_basic_block_features()`.
        the opaque value should support casting to int (`__int__`) for the basic block start address.
        yields:
          any: the opaque basic block value.
        """
        raise NotImplemented
    @abc.abstractmethod
    def extract_basic_block_features(self, f, bb):
        """
        extract basic block-scope features.
        the arguments are opaque values previously provided by `.get_functions()`, etc.
        example::
            extractor = VivisectFeatureExtractor(vw, path)
            for function in extractor.get_functions():
                for bb in extractor.get_basic_blocks(function):
                    for feature, va in extractor.extract_basic_block_features(function, bb):
                        print('0x%x: %s', va, feature)
        args:
          f [any]: an opaque value previously fetched from `.get_functions()`.
          bb [any]: an opaque value previously fetched from `.get_basic_blocks()`.
        yields:
          Tuple[capa.features.Feature, int]: feature and its location
        """
        raise NotImplemented
    @abc.abstractmethod
    def get_instructions(self, f, bb):
        """
        enumerate the instructions in the given basic block and provide opaque values that will
         subsequently be provided to `.extract_insn_features()`, etc.
        by "opaque value", we mean that this can be any object, as long as it
         provides enough context to `.extract_insn_features()`.
        the opaque value should support casting to int (`__int__`) for the instruction address.
        yields:
          any: the opaque function value.
        """
        raise NotImplemented
    @abc.abstractmethod
    def extract_insn_features(self, f, bb, insn):
        """
        extract instruction-scope features.
        the arguments are opaque values previously provided by `.get_functions()`, etc.
        example::
            extractor = VivisectFeatureExtractor(vw, path)
            for function in extractor.get_functions():
                for bb in extractor.get_basic_blocks(function):
                    for insn in extractor.get_instructions(function, bb):
                        for feature, va in extractor.extract_insn_features(function, bb, insn):
                            print('0x%x: %s', va, feature)
        args:
          f [any]: an opaque value previously fetched from `.get_functions()`.
          bb [any]: an opaque value previously fetched from `.get_basic_blocks()`.
          insn [any]: an opaque value previously fetched from `.get_instructions()`.
        yields:
          Tuple[capa.features.Feature, int]: feature and its location
        """
        raise NotImplemented
 class NullFeatureExtractor(FeatureExtractor):
    """
    An extractor that extracts some user-provided features.
    The structure of the single parameter is demonstrated in the example below.
    This is useful for testing, as we can provide expected values and see if matching works.
    Also, this is how we represent features deserialized from a freeze file.
    example::
        extractor = NullFeatureExtractor({
            'base address: 0x401000,
            'file features': [
                (0x402345, capa.features.Characteristic('embedded pe')),
            ],
            'functions': {
                0x401000: {
                    'features': [
                        (0x401000, capa.features.Characteristic('nzxor')),
                    ],
                    'basic blocks': {
                        0x401000: {
                            'features': [
                                (0x401000, capa.features.Characteristic('tight-loop')),
                            ],
                            'instructions': {
                                0x401000: {
                                    'features': [
                                        (0x401000, capa.features.Characteristic('nzxor')),
                                    ],
                                },
                                0x401002: ...
                            }
                        },
                        0x401005: ...
                    }
                },
                0x40200: ...
            }
        )
    """
    def __init__(self, features):
        super(NullFeatureExtractor, self).__init__()
        self.features = features
    def get_base_address(self):
        return self.features["base address"]
    def extract_file_features(self):
        for p in self.features.get("file features", []):
            va, feature = p
            yield feature, va
    def get_functions(self):
        for va in sorted(self.features["functions"].keys()):
            yield va
    def extract_function_features(self, f):
        for p in self.features.get("functions", {}).get(f, {}).get("features", []):  # noqa: E127 line over-indented
            va, feature = p
            yield feature, va
    def get_basic_blocks(self, f):
        for va in sorted(
            self.features.get("functions", {})  # noqa: E127 line over-indented
            .get(f, {})
            .get("basic blocks", {})
            .keys()
        ):
            yield va
    def extract_basic_block_features(self, f, bb):
        for p in (
            self.features.get("functions", {})  # noqa: E127 line over-indented
            .get(f, {})
            .get("basic blocks", {})
            .get(bb, {})
            .get("features", [])
        ):
            va, feature = p
            yield feature, va
    def get_instructions(self, f, bb):
        for va in sorted(
            self.features.get("functions", {})  # noqa: E127 line over-indented
            .get(f, {})
            .get("basic blocks", {})
            .get(bb, {})
            .get("instructions", {})
            .keys()
        ):
            yield va
    def extract_insn_features(self, f, bb, insn):
        for p in (
            self.features.get("functions", {})  # noqa: E127 line over-indented
            .get(f, {})
            .get("basic blocks", {})
            .get(bb, {})
            .get("instructions", {})
            .get(insn, {})
            .get("features", [])
        ):
            va, feature = p
            yield feature, va
--- a/capa/features/extractors/base_extractor.py
+++ b/capa/features/extractors/base_extractor.py
@@ -1,470 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import abc
 import hashlib
 import dataclasses
 from typing import Any, Dict, Tuple, Union, Iterator
 from dataclasses import dataclass
 # TODO(williballenthin): use typing.TypeAlias directly when Python 3.9 is deprecated
 # https://github.com/mandiant/capa/issues/1699
 from typing_extensions import TypeAlias
 import capa.features.address
 from capa.features.common import Feature
 from capa.features.address import Address, ThreadAddress, ProcessAddress, DynamicCallAddress, AbsoluteVirtualAddress
 # feature extractors may reference functions, BBs, insns by opaque handle values.
 # you can use the `.address` property to get and render the address of the feature.
 #
 # these handles are only consumed by routines on
 # the feature extractor from which they were created.
@dataclass
 class SampleHashes:
    md5: str
    sha1: str
    sha256: str
    @classmethod
    def from_bytes(cls, buf: bytes) -> "SampleHashes":
        md5 = hashlib.md5()
        sha1 = hashlib.sha1()
        sha256 = hashlib.sha256()
        md5.update(buf)
        sha1.update(buf)
        sha256.update(buf)
        return cls(md5=md5.hexdigest(), sha1=sha1.hexdigest(), sha256=sha256.hexdigest())
@dataclass
 class FunctionHandle:
    """reference to a function recognized by a feature extractor.
    Attributes:
        address: the address of the function.
        inner: extractor-specific data.
        ctx: a context object for the extractor.
    """
    address: Address
    inner: Any
    ctx: Dict[str, Any] = dataclasses.field(default_factory=dict)
@dataclass
 class BBHandle:
    """reference to a basic block recognized by a feature extractor.
    Attributes:
        address: the address of the basic block start address.
        inner: extractor-specific data.
    """
    address: Address
    inner: Any
@dataclass
 class InsnHandle:
    """reference to a instruction recognized by a feature extractor.
    Attributes:
        address: the address of the instruction address.
        inner: extractor-specific data.
    """
    address: Address
    inner: Any
 class StaticFeatureExtractor:
    """
    StaticFeatureExtractor defines the interface for fetching features from a
    sample without running it; extractors that rely on the execution trace of
    a sample must implement the other sibling class, DynamicFeatureExtracor.
    There may be multiple backends that support fetching features for capa.
    For example, we use vivisect by default, but also want to support saving
     and restoring features from a JSON file.
    When we restore the features, we'd like to use exactly the same matching logic
     to find matching rules.
    Therefore, we can define a StaticFeatureExtractor that provides features from the
     serialized JSON file and do matching without a binary analysis pass.
    Also, this provides a way to hook in an IDA backend.
    This class is not instantiated directly; it is the base class for other implementations.
    """
    __metaclass__ = abc.ABCMeta
    def __init__(self, hashes: SampleHashes):
        #
        # note: a subclass should define ctor parameters for its own use.
        #  for example, the Vivisect feature extract might require the vw and/or path.
        # this base class doesn't know what to do with that info, though.
        #
        super().__init__()
        self._sample_hashes = hashes
    @abc.abstractmethod
    def get_base_address(self) -> Union[AbsoluteVirtualAddress, capa.features.address._NoAddress]:
        """
        fetch the preferred load address at which the sample was analyzed.
        when the base address is `NO_ADDRESS`, then the loader has no concept of a preferred load address.
        such as: shellcode, .NET modules, etc.
        in these scenarios, RelativeVirtualAddresses aren't used.
        """
        raise NotImplementedError()
    def get_sample_hashes(self) -> SampleHashes:
        """
        fetch the hashes for the sample contained within the extractor.
        """
        return self._sample_hashes
    @abc.abstractmethod
    def extract_global_features(self) -> Iterator[Tuple[Feature, Address]]:
        """
        extract features found at every scope ("global").
        example::
            extractor = VivisectFeatureExtractor(vw, path)
            for feature, va in extractor.get_global_features():
                print('0x%x: %s', va, feature)
        yields:
          Tuple[Feature, Address]: feature and its location
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def extract_file_features(self) -> Iterator[Tuple[Feature, Address]]:
        """
        extract file-scope features.
        example::
            extractor = VivisectFeatureExtractor(vw, path)
            for feature, va in extractor.get_file_features():
                print('0x%x: %s', va, feature)
        yields:
          Tuple[Feature, Address]: feature and its location
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def get_functions(self) -> Iterator[FunctionHandle]:
        """
        enumerate the functions and provide opaque values that will
         subsequently be provided to `.extract_function_features()`, etc.
        """
        raise NotImplementedError()
    def is_library_function(self, addr: Address) -> bool:
        """
        is the given address a library function?
        the backend may implement its own function matching algorithm, or none at all.
        we accept an address here, rather than function object,
         to handle addresses identified in instructions.
        this information is used to:
          - filter out matches in library functions (by default), and
          - recognize when to fetch symbol names for called (non-API) functions
        args:
          addr (Address): the address of a function.
        returns:
          bool: True if the given address is the start of a library function.
        """
        return False
    def get_function_name(self, addr: Address) -> str:
        """
        fetch any recognized name for the given address.
        this is only guaranteed to return a value when the given function is a recognized library function.
        we accept a VA here, rather than function object, to handle addresses identified in instructions.
        args:
          addr (Address): the address of a function.
        returns:
          str: the function name
        raises:
          KeyError: when the given function does not have a name.
        """
        raise KeyError(addr)
    @abc.abstractmethod
    def extract_function_features(self, f: FunctionHandle) -> Iterator[Tuple[Feature, Address]]:
        """
        extract function-scope features.
        the arguments are opaque values previously provided by `.get_functions()`, etc.
        example::
            extractor = VivisectFeatureExtractor(vw, path)
            for function in extractor.get_functions():
                for feature, address in extractor.extract_function_features(function):
                    print('0x%x: %s', address, feature)
        args:
          f [FunctionHandle]: an opaque value previously fetched from `.get_functions()`.
        yields:
          Tuple[Feature, Address]: feature and its location
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def get_basic_blocks(self, f: FunctionHandle) -> Iterator[BBHandle]:
        """
        enumerate the basic blocks in the given function and provide opaque values that will
         subsequently be provided to `.extract_basic_block_features()`, etc.
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def extract_basic_block_features(self, f: FunctionHandle, bb: BBHandle) -> Iterator[Tuple[Feature, Address]]:
        """
        extract basic block-scope features.
        the arguments are opaque values previously provided by `.get_functions()`, etc.
        example::
            extractor = VivisectFeatureExtractor(vw, path)
            for function in extractor.get_functions():
                for bb in extractor.get_basic_blocks(function):
                    for feature, address in extractor.extract_basic_block_features(function, bb):
                        print('0x%x: %s', address, feature)
        args:
          f [FunctionHandle]: an opaque value previously fetched from `.get_functions()`.
          bb [BBHandle]: an opaque value previously fetched from `.get_basic_blocks()`.
        yields:
          Tuple[Feature, Address]: feature and its location
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def get_instructions(self, f: FunctionHandle, bb: BBHandle) -> Iterator[InsnHandle]:
        """
        enumerate the instructions in the given basic block and provide opaque values that will
         subsequently be provided to `.extract_insn_features()`, etc.
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def extract_insn_features(
        self, f: FunctionHandle, bb: BBHandle, insn: InsnHandle
    ) -> Iterator[Tuple[Feature, Address]]:
        """
        extract instruction-scope features.
        the arguments are opaque values previously provided by `.get_functions()`, etc.
        example::
            extractor = VivisectFeatureExtractor(vw, path)
            for function in extractor.get_functions():
                for bb in extractor.get_basic_blocks(function):
                    for insn in extractor.get_instructions(function, bb):
                        for feature, address in extractor.extract_insn_features(function, bb, insn):
                            print('0x%x: %s', address, feature)
        args:
          f [FunctionHandle]: an opaque value previously fetched from `.get_functions()`.
          bb [BBHandle]: an opaque value previously fetched from `.get_basic_blocks()`.
          insn [InsnHandle]: an opaque value previously fetched from `.get_instructions()`.
        yields:
          Tuple[Feature, Address]: feature and its location
        """
        raise NotImplementedError()
@dataclass
 class ProcessHandle:
    """
    reference to a process extracted by the sandbox.
    Attributes:
        address: process's address (pid)
        inner: sandbox-specific data
    """
    address: ProcessAddress
    inner: Any
@dataclass
 class ThreadHandle:
    """
    reference to a thread extracted by the sandbox.
    Attributes:
        address: thread's address (tid)
        inner: sandbox-specific data
    """
    address: ThreadAddress
    inner: Any
@dataclass
 class CallHandle:
    """
    reference to an api call extracted by the sandbox.
    Attributes:
        address: call's address, such as event index or id
        inner: sandbox-specific data
    """
    address: DynamicCallAddress
    inner: Any
 class DynamicFeatureExtractor:
    """
    DynamicFeatureExtractor defines the interface for fetching features from a
    sandbox' analysis of a sample; extractors that rely on statically analyzing
    a sample must implement the sibling extractor, StaticFeatureExtractor.
    Features are grouped mainly into threads that alongside their meta-features are also grouped into
    processes (that also have their own features). Other scopes (such as function and file) may also apply
    for a specific sandbox.
    This class is not instantiated directly; it is the base class for other implementations.
    """
    __metaclass__ = abc.ABCMeta
    def __init__(self, hashes: SampleHashes):
        #
        # note: a subclass should define ctor parameters for its own use.
        #  for example, the Vivisect feature extract might require the vw and/or path.
        # this base class doesn't know what to do with that info, though.
        #
        super().__init__()
        self._sample_hashes = hashes
    def get_sample_hashes(self) -> SampleHashes:
        """
        fetch the hashes for the sample contained within the extractor.
        """
        return self._sample_hashes
    @abc.abstractmethod
    def extract_global_features(self) -> Iterator[Tuple[Feature, Address]]:
        """
        extract features found at every scope ("global").
        example::
            extractor = CapeFeatureExtractor.from_report(json.loads(buf))
            for feature, addr in extractor.get_global_features():
                print(addr, feature)
        yields:
          Tuple[Feature, Address]: feature and its location
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def extract_file_features(self) -> Iterator[Tuple[Feature, Address]]:
        """
        extract file-scope features.
        example::
            extractor = CapeFeatureExtractor.from_report(json.loads(buf))
            for feature, addr in extractor.get_file_features():
                print(addr, feature)
        yields:
          Tuple[Feature, Address]: feature and its location
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def get_processes(self) -> Iterator[ProcessHandle]:
        """
        Enumerate processes in the trace.
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def extract_process_features(self, ph: ProcessHandle) -> Iterator[Tuple[Feature, Address]]:
        """
        Yields all the features of a process. These include:
        - file features of the process' image
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def get_process_name(self, ph: ProcessHandle) -> str:
        """
        Returns the human-readable name for the given process,
        such as the filename.
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def get_threads(self, ph: ProcessHandle) -> Iterator[ThreadHandle]:
        """
        Enumerate threads in the given process.
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def extract_thread_features(self, ph: ProcessHandle, th: ThreadHandle) -> Iterator[Tuple[Feature, Address]]:
        """
        Yields all the features of a thread. These include:
        - sequenced api traces
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def get_calls(self, ph: ProcessHandle, th: ThreadHandle) -> Iterator[CallHandle]:
        """
        Enumerate calls in the given thread
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def extract_call_features(
        self, ph: ProcessHandle, th: ThreadHandle, ch: CallHandle
    ) -> Iterator[Tuple[Feature, Address]]:
        """
        Yields all features of a call. These include:
        - api name
        - bytes/strings/numbers extracted from arguments
        """
        raise NotImplementedError()
    @abc.abstractmethod
    def get_call_name(self, ph: ProcessHandle, th: ThreadHandle, ch: CallHandle) -> str:
        """
        Returns the human-readable name for the given call,
        such as as rendered API log entry, like:
            Foo(1, "two", b"\x00\x11") -> -1
        """
        raise NotImplementedError()
 FeatureExtractor: TypeAlias = Union[StaticFeatureExtractor, DynamicFeatureExtractor]
--- a/capa/features/extractors/binja/init.py
+++ b/capa/features/extractors/binja/init.py
--- a/capa/features/extractors/binja/basicblock.py
+++ b/capa/features/extractors/binja/basicblock.py
@@ -1,184 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import string
 import struct
 from typing import Tuple, Iterator
 from binaryninja import Function, Settings
 from binaryninja import BasicBlock as BinjaBasicBlock
 from binaryninja import (
    BinaryView,
    SymbolType,
    RegisterValueType,
    VariableSourceType,
    MediumLevelILSetVar,
    MediumLevelILOperation,
    MediumLevelILBasicBlock,
    MediumLevelILInstruction,
 )
 from capa.features.common import Feature, Characteristic
 from capa.features.address import Address
 from capa.features.basicblock import BasicBlock
 from capa.features.extractors.helpers import MIN_STACKSTRING_LEN
 from capa.features.extractors.base_extractor import BBHandle, FunctionHandle
 use_const_outline: bool = False
 settings: Settings = Settings()
 if settings.contains("analysis.outlining.builtins") and settings.get_bool("analysis.outlining.builtins"):
    use_const_outline = True
 def get_printable_len_ascii(s: bytes) -> int:
    """Return string length if all operand bytes are ascii or utf16-le printable"""
    count = 0
    for c in s:
        if c == 0:
            return count
        if c < 127 and chr(c) in string.printable:
            count += 1
    return count
 def get_printable_len_wide(s: bytes) -> int:
    """Return string length if all operand bytes are ascii or utf16-le printable"""
    if all(c == 0x00 for c in s[1::2]):
        return get_printable_len_ascii(s[::2])
    return 0
 def get_stack_string_len(f: Function, il: MediumLevelILInstruction) -> int:
    bv: BinaryView = f.view
    if il.operation != MediumLevelILOperation.MLIL_CALL:
        return 0
    target = il.dest
    if target.operation not in [MediumLevelILOperation.MLIL_CONST, MediumLevelILOperation.MLIL_CONST_PTR]:
        return 0
    addr = target.value.value
    sym = bv.get_symbol_at(addr)
    if not sym or sym.type != SymbolType.LibraryFunctionSymbol:
        return 0
    if sym.name not in ["__builtin_strncpy", "__builtin_strcpy", "__builtin_wcscpy"]:
        return 0
    if len(il.params) < 2:
        return 0
    dest = il.params[0]
    if dest.operation in [MediumLevelILOperation.MLIL_ADDRESS_OF, MediumLevelILOperation.MLIL_VAR]:
        var = dest.src
    else:
        return 0
    if var.source_type != VariableSourceType.StackVariableSourceType:
        return 0
    src = il.params[1]
    if src.value.type != RegisterValueType.ConstantDataAggregateValue:
        return 0
    s = f.get_constant_data(RegisterValueType.ConstantDataAggregateValue, src.value.value)
    return max(get_printable_len_ascii(bytes(s)), get_printable_len_wide(bytes(s)))
 def get_printable_len(il: MediumLevelILSetVar) -> int:
    """Return string length if all operand bytes are ascii or utf16-le printable"""
    width = il.dest.type.width
    value = il.src.value.value
    if width == 1:
        chars = struct.pack("<B", value & 0xFF)
    elif width == 2:
        chars = struct.pack("<H", value & 0xFFFF)
    elif width == 4:
        chars = struct.pack("<I", value & 0xFFFFFFFF)
    elif width == 8:
        chars = struct.pack("<Q", value & 0xFFFFFFFFFFFFFFFF)
    else:
        return 0
    def is_printable_ascii(chars_: bytes):
        return all(c < 127 and chr(c) in string.printable for c in chars_)
    def is_printable_utf16le(chars_: bytes):
        if all(c == 0x00 for c in chars_[1::2]):
            return is_printable_ascii(chars_[::2])
    if is_printable_ascii(chars):
        return width
    if is_printable_utf16le(chars):
        return width // 2
    return 0
 def is_mov_imm_to_stack(il: MediumLevelILInstruction) -> bool:
    """verify instruction moves immediate onto stack"""
    if il.operation != MediumLevelILOperation.MLIL_SET_VAR:
        return False
    if il.src.operation != MediumLevelILOperation.MLIL_CONST:
        return False
    if il.dest.source_type != VariableSourceType.StackVariableSourceType:
        return False
    return True
 def bb_contains_stackstring(f: Function, bb: MediumLevelILBasicBlock) -> bool:
    """check basic block for stackstring indicators
    true if basic block contains enough moves of constant bytes to the stack
    """
    count = 0
    for il in bb:
        if use_const_outline:
            count += get_stack_string_len(f, il)
        else:
            if is_mov_imm_to_stack(il):
                count += get_printable_len(il)
    if count > MIN_STACKSTRING_LEN:
        return True
    return False
 def extract_bb_stackstring(fh: FunctionHandle, bbh: BBHandle) -> Iterator[Tuple[Feature, Address]]:
    """extract stackstring indicators from basic block"""
    bb: Tuple[BinjaBasicBlock, MediumLevelILBasicBlock] = bbh.inner
    if bb[1] is not None and bb_contains_stackstring(fh.inner, bb[1]):
        yield Characteristic("stack string"), bbh.address
 def extract_bb_tight_loop(fh: FunctionHandle, bbh: BBHandle) -> Iterator[Tuple[Feature, Address]]:
    """extract tight loop indicators from a basic block"""
    bb: Tuple[BinjaBasicBlock, MediumLevelILBasicBlock] = bbh.inner
    for edge in bb[0].outgoing_edges:
        if edge.target.start == bb[0].start:
            yield Characteristic("tight loop"), bbh.address
 def extract_features(fh: FunctionHandle, bbh: BBHandle) -> Iterator[Tuple[Feature, Address]]:
    """extract basic block features"""
    for bb_handler in BASIC_BLOCK_HANDLERS:
        for feature, addr in bb_handler(fh, bbh):
            yield feature, addr
    yield BasicBlock(), bbh.address
 BASIC_BLOCK_HANDLERS = (
    extract_bb_tight_loop,
    extract_bb_stackstring,
 )
--- a/capa/features/extractors/binja/extractor.py
+++ b/capa/features/extractors/binja/extractor.py
@@ -1,81 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import List, Tuple, Iterator
 import binaryninja as binja
 import capa.features.extractors.elf
 import capa.features.extractors.binja.file
 import capa.features.extractors.binja.insn
 import capa.features.extractors.binja.global_
 import capa.features.extractors.binja.function
 import capa.features.extractors.binja.basicblock
 from capa.features.common import Feature
 from capa.features.address import Address, AbsoluteVirtualAddress
 from capa.features.extractors.base_extractor import (
    BBHandle,
    InsnHandle,
    SampleHashes,
    FunctionHandle,
    StaticFeatureExtractor,
 )
 class BinjaFeatureExtractor(StaticFeatureExtractor):
    def __init__(self, bv: binja.BinaryView):
        super().__init__(hashes=SampleHashes.from_bytes(bv.file.raw.read(0, len(bv.file.raw))))
        self.bv = bv
        self.global_features: List[Tuple[Feature, Address]] = []
        self.global_features.extend(capa.features.extractors.binja.file.extract_file_format(self.bv))
        self.global_features.extend(capa.features.extractors.binja.global_.extract_os(self.bv))
        self.global_features.extend(capa.features.extractors.binja.global_.extract_arch(self.bv))
    def get_base_address(self):
        return AbsoluteVirtualAddress(self.bv.start)
    def extract_global_features(self):
        yield from self.global_features
    def extract_file_features(self):
        yield from capa.features.extractors.binja.file.extract_features(self.bv)
    def get_functions(self) -> Iterator[FunctionHandle]:
        for f in self.bv.functions:
            yield FunctionHandle(address=AbsoluteVirtualAddress(f.start), inner=f)
    def extract_function_features(self, fh: FunctionHandle) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.binja.function.extract_features(fh)
    def get_basic_blocks(self, fh: FunctionHandle) -> Iterator[BBHandle]:
        f: binja.Function = fh.inner
        # Set up a MLIL basic block dict look up to associate the disassembly basic block with its MLIL basic block
        mlil_lookup = {}
        for mlil_bb in f.mlil.basic_blocks:
            mlil_lookup[mlil_bb.source_block.start] = mlil_bb
        for bb in f.basic_blocks:
            mlil_bb = mlil_lookup.get(bb.start)
            yield BBHandle(address=AbsoluteVirtualAddress(bb.start), inner=(bb, mlil_bb))
    def extract_basic_block_features(self, fh: FunctionHandle, bbh: BBHandle) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.binja.basicblock.extract_features(fh, bbh)
    def get_instructions(self, fh: FunctionHandle, bbh: BBHandle) -> Iterator[InsnHandle]:
        import capa.features.extractors.binja.helpers as binja_helpers
        bb: Tuple[binja.BasicBlock, binja.MediumLevelILBasicBlock] = bbh.inner
        addr = bb[0].start
        for text, length in bb[0]:
            insn = binja_helpers.DisassemblyInstruction(addr, length, text)
            yield InsnHandle(address=AbsoluteVirtualAddress(addr), inner=insn)
            addr += length
    def extract_insn_features(self, fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle):
        yield from capa.features.extractors.binja.insn.extract_features(fh, bbh, ih)
--- a/capa/features/extractors/binja/file.py
+++ b/capa/features/extractors/binja/file.py
@@ -1,187 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import struct
 from typing import Tuple, Iterator
 from binaryninja import Segment, BinaryView, SymbolType, SymbolBinding
 import capa.features.extractors.common
 import capa.features.extractors.helpers
 import capa.features.extractors.strings
 from capa.features.file import Export, Import, Section, FunctionName
 from capa.features.common import FORMAT_PE, FORMAT_ELF, Format, String, Feature, Characteristic
 from capa.features.address import NO_ADDRESS, Address, FileOffsetAddress, AbsoluteVirtualAddress
 from capa.features.extractors.binja.helpers import read_c_string, unmangle_c_name
 def check_segment_for_pe(bv: BinaryView, seg: Segment) -> Iterator[Tuple[int, int]]:
    """check segment for embedded PE
    adapted for binja from:
    https://github.com/vivisect/vivisect/blob/7be4037b1cecc4551b397f840405a1fc606f9b53/PE/carve.py#L19
    """
    mz_xor = [
        (
            capa.features.extractors.helpers.xor_static(b"MZ", i),
            capa.features.extractors.helpers.xor_static(b"PE", i),
            i,
        )
        for i in range(256)
    ]
    todo = []
    # If this is the first segment of the binary, skip the first bytes. Otherwise, there will always be a matched
    # PE at the start of the binaryview.
    start = seg.start
    if bv.view_type == "PE" and start == bv.start:
        start += 1
    for mzx, pex, i in mz_xor:
        for off, _ in bv.find_all_data(start, seg.end, mzx):
            todo.append((off, mzx, pex, i))
    while len(todo):
        off, mzx, pex, i = todo.pop()
        # The MZ header has one field we will check e_lfanew is at 0x3c
        e_lfanew = off + 0x3C
        if seg.end < (e_lfanew + 4):
            continue
        newoff = struct.unpack("<I", capa.features.extractors.helpers.xor_static(bv.read(e_lfanew, 4), i))[0]
        peoff = off + newoff
        if seg.end < (peoff + 2):
            continue
        if bv.read(peoff, 2) == pex:
            yield off, i
 def extract_file_embedded_pe(bv: BinaryView) -> Iterator[Tuple[Feature, Address]]:
    """extract embedded PE features"""
    for seg in bv.segments:
        for ea, _ in check_segment_for_pe(bv, seg):
            yield Characteristic("embedded pe"), FileOffsetAddress(ea)
 def extract_file_export_names(bv: BinaryView) -> Iterator[Tuple[Feature, Address]]:
    """extract function exports"""
    for sym in bv.get_symbols_of_type(SymbolType.FunctionSymbol):
        if sym.binding in [SymbolBinding.GlobalBinding, SymbolBinding.WeakBinding]:
            name = sym.short_name
            yield Export(name), AbsoluteVirtualAddress(sym.address)
            unmangled_name = unmangle_c_name(name)
            if name != unmangled_name:
                yield Export(unmangled_name), AbsoluteVirtualAddress(sym.address)
    for sym in bv.get_symbols_of_type(SymbolType.DataSymbol):
        if sym.binding not in [SymbolBinding.GlobalBinding]:
            continue
        name = sym.short_name
        if not name.startswith("__forwarder_name"):
            continue
        # Due to https://github.com/Vector35/binaryninja-api/issues/4641, in binja version 3.5, the symbol's name
        # does not contain the DLL name. As a workaround, we read the C string at the symbol's address, which contains
        # both the DLL name and the function name.
        # Once the above issue is closed in the next binjs stable release, we can update the code here to use the
        # symbol name directly.
        name = read_c_string(bv, sym.address, 1024)
        forwarded_name = capa.features.extractors.helpers.reformat_forwarded_export_name(name)
        yield Export(forwarded_name), AbsoluteVirtualAddress(sym.address)
        yield Characteristic("forwarded export"), AbsoluteVirtualAddress(sym.address)
 def extract_file_import_names(bv: BinaryView) -> Iterator[Tuple[Feature, Address]]:
    """extract function imports
    1. imports by ordinal:
     - modulename.#ordinal
    2. imports by name, results in two features to support importname-only
       matching:
     - modulename.importname
     - importname
    """
    for sym in bv.get_symbols_of_type(SymbolType.ImportAddressSymbol):
        lib_name = str(sym.namespace)
        addr = AbsoluteVirtualAddress(sym.address)
        for name in capa.features.extractors.helpers.generate_symbols(lib_name, sym.short_name, include_dll=True):
            yield Import(name), addr
        ordinal = sym.ordinal
        if ordinal != 0 and (lib_name != ""):
            ordinal_name = f"#{ordinal}"
            for name in capa.features.extractors.helpers.generate_symbols(lib_name, ordinal_name, include_dll=True):
                yield Import(name), addr
 def extract_file_section_names(bv: BinaryView) -> Iterator[Tuple[Feature, Address]]:
    """extract section names"""
    for name, section in bv.sections.items():
        yield Section(name), AbsoluteVirtualAddress(section.start)
 def extract_file_strings(bv: BinaryView) -> Iterator[Tuple[Feature, Address]]:
    """extract ASCII and UTF-16 LE strings"""
    for s in bv.strings:
        yield String(s.value), FileOffsetAddress(s.start)
 def extract_file_function_names(bv: BinaryView) -> Iterator[Tuple[Feature, Address]]:
    """
    extract the names of statically-linked library functions.
    """
    for sym_name in bv.symbols:
        for sym in bv.symbols[sym_name]:
            if sym.type not in [SymbolType.LibraryFunctionSymbol, SymbolType.FunctionSymbol]:
                continue
            name = sym.short_name
            yield FunctionName(name), sym.address
            if name.startswith("_"):
                # some linkers may prefix linked routines with a `_` to avoid name collisions.
                # extract features for both the mangled and un-mangled representations.
                # e.g. `_fwrite` -> `fwrite`
                # see: https://stackoverflow.com/a/2628384/87207
                yield FunctionName(name[1:]), sym.address
 def extract_file_format(bv: BinaryView) -> Iterator[Tuple[Feature, Address]]:
    view_type = bv.view_type
    if view_type in ["PE", "COFF"]:
        yield Format(FORMAT_PE), NO_ADDRESS
    elif view_type == "ELF":
        yield Format(FORMAT_ELF), NO_ADDRESS
    elif view_type == "Raw":
        # no file type to return when processing a binary file, but we want to continue processing
        return
    else:
        raise NotImplementedError(f"unexpected file format: {view_type}")
 def extract_features(bv: BinaryView) -> Iterator[Tuple[Feature, Address]]:
    """extract file features"""
    for file_handler in FILE_HANDLERS:
        for feature, addr in file_handler(bv):
            yield feature, addr
 FILE_HANDLERS = (
    extract_file_export_names,
    extract_file_import_names,
    extract_file_strings,
    extract_file_section_names,
    extract_file_embedded_pe,
    extract_file_function_names,
    extract_file_format,
 )
--- a/capa/features/extractors/binja/find_binja_api.py
+++ b/capa/features/extractors/binja/find_binja_api.py
@@ -1,35 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import subprocess
 from pathlib import Path
 # When the script gets executed as a standalone executable (via PyInstaller), `import binaryninja` does not work because
 # we have excluded the binaryninja module in `pyinstaller.spec`. The trick here is to call the system Python and try
 # to find out the path of the binaryninja module that has been installed.
 # Note, including the binaryninja module in the `pyintaller.spec` would not work, since the binaryninja module tries to
 # find the binaryninja core e.g., `libbinaryninjacore.dylib`, using a relative path. And this does not work when the
 # binaryninja module is extracted by the PyInstaller.
 code = r"""
 from pathlib import Path
 from importlib import util
 spec = util.find_spec('binaryninja')
 if spec is not None:
    if len(spec.submodule_search_locations) > 0:
            path = Path(spec.submodule_search_locations[0])
            # encode the path with utf8 then convert to hex, make sure it can be read and restored properly
            print(str(path.parent).encode('utf8').hex())
 """
 def find_binja_path() -> Path:
    raw_output = subprocess.check_output(["python", "-c", code]).decode("ascii").strip()
    return Path(bytes.fromhex(raw_output).decode("utf8"))
 if __name__ == "__main__":
    print(find_binja_path())
--- a/capa/features/extractors/binja/function.py
+++ b/capa/features/extractors/binja/function.py
@@ -1,104 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import Tuple, Iterator
 from binaryninja import Function, BinaryView, SymbolType, RegisterValueType, LowLevelILOperation
 from capa.features.file import FunctionName
 from capa.features.common import Feature, Characteristic
 from capa.features.address import Address, AbsoluteVirtualAddress
 from capa.features.extractors import loops
 from capa.features.extractors.base_extractor import FunctionHandle
 def extract_function_calls_to(fh: FunctionHandle):
    """extract callers to a function"""
    func: Function = fh.inner
    for caller in func.caller_sites:
        # Everything that is a code reference to the current function is considered a caller, which actually includes
        # many other references that are NOT a caller. For example, an instruction `push function_start` will also be
        # considered a caller to the function
        llil = caller.llil
        if (llil is None) or llil.operation not in [
            LowLevelILOperation.LLIL_CALL,
            LowLevelILOperation.LLIL_CALL_STACK_ADJUST,
            LowLevelILOperation.LLIL_JUMP,
            LowLevelILOperation.LLIL_TAILCALL,
        ]:
            continue
        if llil.dest.value.type not in [
            RegisterValueType.ImportedAddressValue,
            RegisterValueType.ConstantValue,
            RegisterValueType.ConstantPointerValue,
        ]:
            continue
        address = llil.dest.value.value
        if address != func.start:
            continue
        yield Characteristic("calls to"), AbsoluteVirtualAddress(caller.address)
 def extract_function_loop(fh: FunctionHandle):
    """extract loop indicators from a function"""
    func: Function = fh.inner
    edges = []
    # construct control flow graph
    for bb in func.basic_blocks:
        for edge in bb.outgoing_edges:
            edges.append((bb.start, edge.target.start))
    if loops.has_loop(edges):
        yield Characteristic("loop"), fh.address
 def extract_recursive_call(fh: FunctionHandle):
    """extract recursive function call"""
    func: Function = fh.inner
    bv: BinaryView = func.view
    if bv is None:
        return
    for ref in bv.get_code_refs(func.start):
        if ref.function == func:
            yield Characteristic("recursive call"), fh.address
 def extract_function_name(fh: FunctionHandle):
    """extract function names (e.g., symtab names)"""
    func: Function = fh.inner
    bv: BinaryView = func.view
    if bv is None:
        return
    for sym in bv.get_symbols(func.start):
        if sym.type not in [SymbolType.LibraryFunctionSymbol, SymbolType.FunctionSymbol]:
            continue
        name = sym.short_name
        yield FunctionName(name), sym.address
        if name.startswith("_"):
            # some linkers may prefix linked routines with a `_` to avoid name collisions.
            # extract features for both the mangled and un-mangled representations.
            # e.g. `_fwrite` -> `fwrite`
            # see: https://stackoverflow.com/a/2628384/87207
            yield FunctionName(name[1:]), sym.address
 def extract_features(fh: FunctionHandle) -> Iterator[Tuple[Feature, Address]]:
    for func_handler in FUNCTION_HANDLERS:
        for feature, addr in func_handler(fh):
            yield feature, addr
 FUNCTION_HANDLERS = (extract_function_calls_to, extract_function_loop, extract_recursive_call, extract_function_name)
--- a/capa/features/extractors/binja/global_.py
+++ b/capa/features/extractors/binja/global_.py
@@ -1,60 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 from typing import Tuple, Iterator
 from binaryninja import BinaryView
 from capa.features.common import OS, OS_MACOS, ARCH_I386, ARCH_AMD64, OS_WINDOWS, Arch, Feature
 from capa.features.address import NO_ADDRESS, Address
 logger = logging.getLogger(__name__)
 def extract_os(bv: BinaryView) -> Iterator[Tuple[Feature, Address]]:
    name = bv.platform.name
    if "-" in name:
        name = name.split("-")[0]
    if name == "windows":
        yield OS(OS_WINDOWS), NO_ADDRESS
    elif name == "macos":
        yield OS(OS_MACOS), NO_ADDRESS
    elif name in ["linux", "freebsd", "decree"]:
        yield OS(name), NO_ADDRESS
    else:
        # we likely end up here:
        #  1. handling shellcode, or
        #  2. handling a new file format (e.g. macho)
        #
        # for (1) we can't do much - its shellcode and all bets are off.
        # we could maybe accept a further CLI argument to specify the OS,
        # but i think this would be rarely used.
        # rules that rely on OS conditions will fail to match on shellcode.
        #
        # for (2), this logic will need to be updated as the format is implemented.
        logger.debug("unsupported file format: %s, will not guess OS", name)
        return
 def extract_arch(bv: BinaryView) -> Iterator[Tuple[Feature, Address]]:
    arch = bv.arch.name
    if arch == "x86_64":
        yield Arch(ARCH_AMD64), NO_ADDRESS
    elif arch == "x86":
        yield Arch(ARCH_I386), NO_ADDRESS
    else:
        # we likely end up here:
        #  1. handling a new architecture (e.g. aarch64)
        #
        # for (1), this logic will need to be updated as the format is implemented.
        logger.debug("unsupported architecture: %s", arch)
        return
--- a/capa/features/extractors/binja/helpers.py
+++ b/capa/features/extractors/binja/helpers.py
@@ -1,69 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import re
 from typing import List, Callable
 from dataclasses import dataclass
 from binaryninja import BinaryView, LowLevelILInstruction
 from binaryninja.architecture import InstructionTextToken
@dataclass
 class DisassemblyInstruction:
    address: int
    length: int
    text: List[InstructionTextToken]
 LLIL_VISITOR = Callable[[LowLevelILInstruction, LowLevelILInstruction, int], bool]
 def visit_llil_exprs(il: LowLevelILInstruction, func: LLIL_VISITOR):
    # BN does not really support operand index at the disassembly level, so use the LLIL operand index as a substitute.
    # Note, this is NOT always guaranteed to be the same as disassembly operand.
    for i, op in enumerate(il.operands):
        if isinstance(op, LowLevelILInstruction) and func(op, il, i):
            visit_llil_exprs(op, func)
 def unmangle_c_name(name: str) -> str:
    # https://learn.microsoft.com/en-us/cpp/build/reference/decorated-names?view=msvc-170#FormatC
    # Possible variations for BaseThreadInitThunk:
    # @BaseThreadInitThunk@12
    # _BaseThreadInitThunk
    # _BaseThreadInitThunk@12
    # It is also possible for a function to have a `Stub` appended to its name:
    # _lstrlenWStub@4
    # A small optimization to avoid running the regex too many times
    # this still increases the unit test execution time from 170s to 200s, should be able to accelerate it
    #
    # TODO(xusheng): performance optimizations to improve test execution time
    # https://github.com/mandiant/capa/issues/1610
    if name[0] in ["@", "_"]:
        match = re.match(r"^[@|_](.*?)(Stub)?(@\d+)?$", name)
        if match:
            return match.group(1)
    return name
 def read_c_string(bv: BinaryView, offset: int, max_len: int) -> str:
    s: List[str] = []
    while len(s) < max_len:
        try:
            c = bv.read(offset + len(s), 1)[0]
        except Exception:
            break
        if c == 0:
            break
        s.append(chr(c))
    return "".join(s)
--- a/capa/features/extractors/binja/insn.py
+++ b/capa/features/extractors/binja/insn.py
@@ -1,586 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import Any, List, Tuple, Iterator, Optional
 from binaryninja import Function
 from binaryninja import BasicBlock as BinjaBasicBlock
 from binaryninja import (
    BinaryView,
    ILRegister,
    SymbolType,
    BinaryReader,
    RegisterValueType,
    LowLevelILOperation,
    LowLevelILInstruction,
 )
 import capa.features.extractors.helpers
 from capa.features.insn import API, MAX_STRUCTURE_SIZE, Number, Offset, Mnemonic, OperandNumber, OperandOffset
 from capa.features.common import MAX_BYTES_FEATURE_SIZE, Bytes, String, Feature, Characteristic
 from capa.features.address import Address, AbsoluteVirtualAddress
 from capa.features.extractors.binja.helpers import DisassemblyInstruction, visit_llil_exprs
 from capa.features.extractors.base_extractor import BBHandle, InsnHandle, FunctionHandle
 # security cookie checks may perform non-zeroing XORs, these are expected within a certain
 # byte range within the first and returning basic blocks, this helps to reduce FP features
 SECURITY_COOKIE_BYTES_DELTA = 0x40
 # check if a function is a stub function to another function/symbol. The criteria is:
 # 1. The function must only have one basic block
 # 2. The function must only make one call/jump to another address
 # If the function being checked is a stub function, returns the target address. Otherwise, return None.
 def is_stub_function(bv: BinaryView, addr: int) -> Optional[int]:
    funcs = bv.get_functions_at(addr)
    for func in funcs:
        if len(func.basic_blocks) != 1:
            continue
        call_count = 0
        call_target = None
        for il in func.llil.instructions:
            if il.operation in [
                LowLevelILOperation.LLIL_CALL,
                LowLevelILOperation.LLIL_CALL_STACK_ADJUST,
                LowLevelILOperation.LLIL_JUMP,
                LowLevelILOperation.LLIL_TAILCALL,
            ]:
                call_count += 1
                if il.dest.value.type in [
                    RegisterValueType.ImportedAddressValue,
                    RegisterValueType.ConstantValue,
                    RegisterValueType.ConstantPointerValue,
                ]:
                    call_target = il.dest.value.value
        if call_count == 1 and call_target is not None:
            return call_target
    return None
 def extract_insn_api_features(fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """
    parse instruction API features
    example:
       call dword [0x00473038]
    """
    func: Function = fh.inner
    bv: BinaryView = func.view
    for llil in func.get_llils_at(ih.address):
        if llil.operation in [
            LowLevelILOperation.LLIL_CALL,
            LowLevelILOperation.LLIL_CALL_STACK_ADJUST,
            LowLevelILOperation.LLIL_JUMP,
            LowLevelILOperation.LLIL_TAILCALL,
        ]:
            if llil.dest.value.type not in [
                RegisterValueType.ImportedAddressValue,
                RegisterValueType.ConstantValue,
                RegisterValueType.ConstantPointerValue,
            ]:
                continue
            address = llil.dest.value.value
            candidate_addrs = [address]
            stub_addr = is_stub_function(bv, address)
            if stub_addr is not None:
                candidate_addrs.append(stub_addr)
            for address in candidate_addrs:
                for sym in func.view.get_symbols(address):
                    if sym is None or sym.type not in [
                        SymbolType.ImportAddressSymbol,
                        SymbolType.ImportedFunctionSymbol,
                        SymbolType.FunctionSymbol,
                    ]:
                        continue
                    sym_name = sym.short_name
                    lib_name = ""
                    import_lib = bv.lookup_imported_object_library(sym.address)
                    if import_lib is not None:
                        lib_name = import_lib[0].name
                        if lib_name.endswith(".dll"):
                            lib_name = lib_name[:-4]
                        elif lib_name.endswith(".so"):
                            lib_name = lib_name[:-3]
                    for name in capa.features.extractors.helpers.generate_symbols(lib_name, sym_name):
                        yield API(name), ih.address
                    if sym_name.startswith("_"):
                        for name in capa.features.extractors.helpers.generate_symbols(lib_name, sym_name[1:]):
                            yield API(name), ih.address
 def extract_insn_number_features(
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """
    parse instruction number features
    example:
        push    3136B0h         ; dwControlCode
    """
    func: Function = fh.inner
    results: List[Tuple[Any[Number, OperandNumber], Address]] = []
    def llil_checker(il: LowLevelILInstruction, parent: LowLevelILInstruction, index: int) -> bool:
        if il.operation == LowLevelILOperation.LLIL_LOAD:
            return False
        if il.operation not in [LowLevelILOperation.LLIL_CONST, LowLevelILOperation.LLIL_CONST_PTR]:
            return True
        for op in parent.operands:
            if isinstance(op, ILRegister) and op.name in ["esp", "ebp", "rsp", "rbp", "sp"]:
                return False
            elif isinstance(op, LowLevelILInstruction) and op.operation == LowLevelILOperation.LLIL_REG:
                if op.src.name in ["esp", "ebp", "rsp", "rbp", "sp"]:
                    return False
        raw_value = il.value.value
        if parent.operation == LowLevelILOperation.LLIL_SUB:
            raw_value = -raw_value
        results.append((Number(raw_value), ih.address))
        results.append((OperandNumber(index, raw_value), ih.address))
        return False
    for llil in func.get_llils_at(ih.address):
        visit_llil_exprs(llil, llil_checker)
    yield from results
 def extract_insn_bytes_features(fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """
    parse referenced byte sequences
    example:
        push    offset iid_004118d4_IShellLinkA ; riid
    """
    func: Function = fh.inner
    bv: BinaryView = func.view
    candidate_addrs = set()
    llil = func.get_llil_at(ih.address)
    if llil is None or llil.operation in [LowLevelILOperation.LLIL_CALL, LowLevelILOperation.LLIL_CALL_STACK_ADJUST]:
        return
    for ref in bv.get_code_refs_from(ih.address):
        if ref == ih.address:
            continue
        if len(bv.get_functions_containing(ref)) > 0:
            continue
        candidate_addrs.add(ref)
    # collect candidate address by enumerating all integers, https://github.com/Vector35/binaryninja-api/issues/3966
    def llil_checker(il: LowLevelILInstruction, parent: LowLevelILInstruction, index: int) -> bool:
        if il.operation in [LowLevelILOperation.LLIL_CONST, LowLevelILOperation.LLIL_CONST_PTR]:
            value = il.value.value
            if value > 0:
                candidate_addrs.add(value)
            return False
        return True
    for llil in func.get_llils_at(ih.address):
        visit_llil_exprs(llil, llil_checker)
    for addr in candidate_addrs:
        extracted_bytes = bv.read(addr, MAX_BYTES_FEATURE_SIZE)
        if extracted_bytes and not capa.features.extractors.helpers.all_zeros(extracted_bytes):
            if bv.get_string_at(addr) is None:
                # don't extract byte features for obvious strings
                yield Bytes(extracted_bytes), ih.address
 def extract_insn_string_features(
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """
    parse instruction string features
    example:
        push offset aAcr     ; "ACR  > "
    """
    func: Function = fh.inner
    bv: BinaryView = func.view
    candidate_addrs = set()
    # collect candidate address from code refs directly
    for ref in bv.get_code_refs_from(ih.address):
        if ref == ih.address:
            continue
        if len(bv.get_functions_containing(ref)) > 0:
            continue
        candidate_addrs.add(ref)
    # collect candidate address by enumerating all integers, https://github.com/Vector35/binaryninja-api/issues/3966
    def llil_checker(il: LowLevelILInstruction, parent: LowLevelILInstruction, index: int) -> bool:
        if il.operation in [LowLevelILOperation.LLIL_CONST, LowLevelILOperation.LLIL_CONST_PTR]:
            value = il.value.value
            if value > 0:
                candidate_addrs.add(value)
            return False
        return True
    for llil in func.get_llils_at(ih.address):
        visit_llil_exprs(llil, llil_checker)
    # Now we have all the candidate address, check them for string or pointer to string
    br = BinaryReader(bv)
    for addr in candidate_addrs:
        found = bv.get_string_at(addr)
        if found:
            yield String(found.value), ih.address
        br.seek(addr)
        pointer = None
        if bv.arch.address_size == 4:
            pointer = br.read32()
        elif bv.arch.address_size == 8:
            pointer = br.read64()
        if pointer is not None:
            found = bv.get_string_at(pointer)
            if found:
                yield String(found.value), ih.address
 def extract_insn_offset_features(
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """
    parse instruction structure offset features
    example:
        .text:0040112F cmp [esi+4], ebx
    """
    func: Function = fh.inner
    results: List[Tuple[Any[Offset, OperandOffset], Address]] = []
    address_size = func.view.arch.address_size * 8
    def llil_checker(il: LowLevelILInstruction, parent: LowLevelILInstruction, index: int) -> bool:
        #  The most common case, read/write dereference to something like `dword [eax+0x28]`
        if il.operation in [LowLevelILOperation.LLIL_ADD, LowLevelILOperation.LLIL_SUB]:
            left = il.left
            right = il.right
            # Exclude offsets based on stack/franme pointers
            if left.operation == LowLevelILOperation.LLIL_REG and left.src.name in ["esp", "ebp", "rsp", "rbp", "sp"]:
                return True
            if right.operation != LowLevelILOperation.LLIL_CONST:
                return True
            raw_value = right.value.value
            # If this is not a dereference, then this must be an add and the offset must be in the range \
            # [0, MAX_STRUCTURE_SIZE]. For example,
            # add eax, 0x10,
            # lea ebx, [eax + 1]
            if parent.operation not in [LowLevelILOperation.LLIL_LOAD, LowLevelILOperation.LLIL_STORE]:
                if il.operation != LowLevelILOperation.LLIL_ADD or (not 0 < raw_value < MAX_STRUCTURE_SIZE):
                    return False
            if address_size > 0:
                # BN also encodes the constant value as two's complement, we need to restore its original value
                value = capa.features.extractors.helpers.twos_complement(raw_value, address_size)
            else:
                value = raw_value
            results.append((Offset(value), ih.address))
            results.append((OperandOffset(index, value), ih.address))
            return False
        # An edge case: for code like `push dword [esi]`, we need to generate a feature for offset 0x0
        elif il.operation in [LowLevelILOperation.LLIL_LOAD, LowLevelILOperation.LLIL_STORE]:
            if il.operands[0].operation == LowLevelILOperation.LLIL_REG:
                results.append((Offset(0), ih.address))
                results.append((OperandOffset(index, 0), ih.address))
                return False
        return True
    for llil in func.get_llils_at(ih.address):
        visit_llil_exprs(llil, llil_checker)
    yield from results
 def is_nzxor_stack_cookie(f: Function, bb: BinjaBasicBlock, llil: LowLevelILInstruction) -> bool:
    """check if nzxor exists within stack cookie delta"""
    # TODO(xusheng): use LLIL SSA to do more accurate analysis
    # https://github.com/mandiant/capa/issues/1609
    reg_names = []
    if llil.left.operation == LowLevelILOperation.LLIL_REG:
        reg_names.append(llil.left.src.name)
    if llil.right.operation == LowLevelILOperation.LLIL_REG:
        reg_names.append(llil.right.src.name)
    # stack cookie reg should be stack/frame pointer
    if not any(reg in ["ebp", "esp", "rbp", "rsp", "sp"] for reg in reg_names):
        return False
    # expect security cookie init in first basic block within first bytes (instructions)
    if len(bb.incoming_edges) == 0 and llil.address < (bb.start + SECURITY_COOKIE_BYTES_DELTA):
        return True
    # ... or within last bytes (instructions) before a return
    if len(bb.outgoing_edges) == 0 and llil.address > (bb.end - SECURITY_COOKIE_BYTES_DELTA):
        return True
    return False
 def extract_insn_nzxor_characteristic_features(
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """
    parse instruction non-zeroing XOR instruction
    ignore expected non-zeroing XORs, e.g. security cookies
    """
    func: Function = fh.inner
    results = []
    def llil_checker(il: LowLevelILInstruction, parent: LowLevelILInstruction, index: int) -> bool:
        # If the two operands of the xor instruction are the same, the LLIL will be translated to other instructions,
        # e.g., <llil: eax = 0>, (LLIL_SET_REG). So we do not need to check whether the two operands are the same.
        if il.operation == LowLevelILOperation.LLIL_XOR:
            # Exclude cases related to the stack cookie
            if is_nzxor_stack_cookie(fh.inner, bbh.inner[0], il):
                return False
            results.append((Characteristic("nzxor"), ih.address))
            return False
        else:
            return True
    for llil in func.get_llils_at(ih.address):
        visit_llil_exprs(llil, llil_checker)
    yield from results
 def extract_insn_mnemonic_features(
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction mnemonic features"""
    insn: DisassemblyInstruction = ih.inner
    yield Mnemonic(insn.text[0].text), ih.address
 def extract_insn_obfs_call_plus_5_characteristic_features(
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """
    parse call $+5 instruction from the given instruction.
    """
    insn: DisassemblyInstruction = ih.inner
    if insn.text[0].text == "call" and insn.text[2].text == "$+5" and insn.length == 5:
        yield Characteristic("call $+5"), ih.address
 def extract_insn_peb_access_characteristic_features(
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction peb access
    fs:[0x30] on x86, gs:[0x60] on x64
    """
    func: Function = fh.inner
    results = []
    def llil_checker(il: LowLevelILInstruction, parent: LowLevelILOperation, index: int) -> bool:
        if il.operation != LowLevelILOperation.LLIL_LOAD:
            return True
        src = il.src
        if src.operation != LowLevelILOperation.LLIL_ADD:
            return True
        left = src.left
        right = src.right
        if left.operation != LowLevelILOperation.LLIL_REG:
            return True
        reg = left.src.name
        if right.operation != LowLevelILOperation.LLIL_CONST:
            return True
        value = right.value.value
        if (reg, value) not in (("fsbase", 0x30), ("gsbase", 0x60)):
            return True
        results.append((Characteristic("peb access"), ih.address))
        return False
    for llil in func.get_llils_at(ih.address):
        visit_llil_exprs(llil, llil_checker)
    yield from results
 def extract_insn_segment_access_features(
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction fs or gs access"""
    func: Function = fh.inner
    results = []
    def llil_checker(il: LowLevelILInstruction, parent: LowLevelILInstruction, index: int) -> bool:
        if il.operation == LowLevelILOperation.LLIL_REG:
            reg = il.src.name
            if reg == "fsbase":
                results.append((Characteristic("fs access"), ih.address))
                return False
            elif reg == "gsbase":
                results.append((Characteristic("gs access"), ih.address))
                return False
            return False
        return True
    for llil in func.get_llils_at(ih.address):
        visit_llil_exprs(llil, llil_checker)
    yield from results
 def extract_insn_cross_section_cflow(
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """inspect the instruction for a CALL or JMP that crosses section boundaries"""
    func: Function = fh.inner
    bv: BinaryView = func.view
    if bv is None:
        return
    seg1 = bv.get_segment_at(ih.address)
    sections1 = bv.get_sections_at(ih.address)
    for ref in bv.get_code_refs_from(ih.address):
        if len(bv.get_functions_at(ref)) == 0:
            continue
        seg2 = bv.get_segment_at(ref)
        sections2 = bv.get_sections_at(ref)
        if seg1 != seg2 or sections1 != sections2:
            yield Characteristic("cross section flow"), ih.address
 def extract_function_calls_from(fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """extract functions calls from features
    most relevant at the function scope, however, its most efficient to extract at the instruction scope
    """
    func: Function = fh.inner
    bv: BinaryView = func.view
    if bv is None:
        return
    for il in func.get_llils_at(ih.address):
        if il.operation not in [
            LowLevelILOperation.LLIL_CALL,
            LowLevelILOperation.LLIL_CALL_STACK_ADJUST,
            LowLevelILOperation.LLIL_TAILCALL,
        ]:
            continue
        dest = il.dest
        if dest.operation == LowLevelILOperation.LLIL_CONST_PTR:
            value = dest.value.value
            yield Characteristic("calls from"), AbsoluteVirtualAddress(value)
        elif dest.operation == LowLevelILOperation.LLIL_CONST:
            yield Characteristic("calls from"), AbsoluteVirtualAddress(dest.value)
        elif dest.operation == LowLevelILOperation.LLIL_LOAD:
            indirect_src = dest.src
            if indirect_src.operation == LowLevelILOperation.LLIL_CONST_PTR:
                value = indirect_src.value.value
                yield Characteristic("calls from"), AbsoluteVirtualAddress(value)
            elif indirect_src.operation == LowLevelILOperation.LLIL_CONST:
                yield Characteristic("calls from"), AbsoluteVirtualAddress(indirect_src.value)
        elif dest.operation == LowLevelILOperation.LLIL_REG:
            if dest.value.type in [
                RegisterValueType.ImportedAddressValue,
                RegisterValueType.ConstantValue,
                RegisterValueType.ConstantPointerValue,
            ]:
                yield Characteristic("calls from"), AbsoluteVirtualAddress(dest.value.value)
 def extract_function_indirect_call_characteristic_features(
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """extract indirect function calls (e.g., call eax or call dword ptr [edx+4])
    does not include calls like => call ds:dword_ABD4974
    most relevant at the function or basic block scope;
    however, its most efficient to extract at the instruction scope
    """
    func: Function = fh.inner
    llil = func.get_llil_at(ih.address)
    if llil is None or llil.operation not in [
        LowLevelILOperation.LLIL_CALL,
        LowLevelILOperation.LLIL_CALL_STACK_ADJUST,
        LowLevelILOperation.LLIL_TAILCALL,
    ]:
        return
    if llil.dest.operation in [LowLevelILOperation.LLIL_CONST, LowLevelILOperation.LLIL_CONST_PTR]:
        return
    if llil.dest.operation == LowLevelILOperation.LLIL_LOAD:
        src = llil.dest.src
        if src.operation in [LowLevelILOperation.LLIL_CONST, LowLevelILOperation.LLIL_CONST_PTR]:
            return
    yield Characteristic("indirect call"), ih.address
 def extract_features(f: FunctionHandle, bbh: BBHandle, insn: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """extract instruction features"""
    for inst_handler in INSTRUCTION_HANDLERS:
        for feature, ea in inst_handler(f, bbh, insn):
            yield feature, ea
 INSTRUCTION_HANDLERS = (
    extract_insn_api_features,
    extract_insn_number_features,
    extract_insn_bytes_features,
    extract_insn_string_features,
    extract_insn_offset_features,
    extract_insn_nzxor_characteristic_features,
    extract_insn_mnemonic_features,
    extract_insn_obfs_call_plus_5_characteristic_features,
    extract_insn_peb_access_characteristic_features,
    extract_insn_cross_section_cflow,
    extract_insn_segment_access_features,
    extract_function_calls_from,
    extract_function_indirect_call_characteristic_features,
 )
--- a/capa/features/extractors/cape/init.py
+++ b/capa/features/extractors/cape/init.py
--- a/capa/features/extractors/cape/call.py
+++ b/capa/features/extractors/cape/call.py
@@ -1,62 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 from typing import Tuple, Iterator
 from capa.helpers import assert_never
 from capa.features.insn import API, Number
 from capa.features.common import String, Feature
 from capa.features.address import Address
 from capa.features.extractors.cape.models import Call
 from capa.features.extractors.base_extractor import CallHandle, ThreadHandle, ProcessHandle
 logger = logging.getLogger(__name__)
 def extract_call_features(ph: ProcessHandle, th: ThreadHandle, ch: CallHandle) -> Iterator[Tuple[Feature, Address]]:
    """
    this method extracts the given call's features (such as API name and arguments),
    and returns them as API, Number, and String features.
    args:
      ph: process handle (for defining the extraction scope)
      th: thread handle (for defining the extraction scope)
      ch: call handle (for defining the extraction scope)
    yields:
      Feature, address; where Feature is either: API, Number, or String.
    """
    call: Call = ch.inner
    # list similar to disassembly: arguments right-to-left, call
    for arg in reversed(call.arguments):
        value = arg.value
        if isinstance(value, list) and len(value) == 0:
            # unsure why CAPE captures arguments as empty lists?
            continue
        elif isinstance(value, str):
            yield String(value), ch.address
        elif isinstance(value, int):
            yield Number(value), ch.address
        else:
            assert_never(value)
    yield API(call.api), ch.address
 def extract_features(ph: ProcessHandle, th: ThreadHandle, ch: CallHandle) -> Iterator[Tuple[Feature, Address]]:
    for handler in CALL_HANDLERS:
        for feature, addr in handler(ph, th, ch):
            yield feature, addr
 CALL_HANDLERS = (extract_call_features,)
--- a/capa/features/extractors/cape/extractor.py
+++ b/capa/features/extractors/cape/extractor.py
@@ -1,153 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 from typing import Dict, Tuple, Union, Iterator
 import capa.features.extractors.cape.call
 import capa.features.extractors.cape.file
 import capa.features.extractors.cape.thread
 import capa.features.extractors.cape.global_
 import capa.features.extractors.cape.process
 from capa.exceptions import EmptyReportError, UnsupportedFormatError
 from capa.features.common import Feature, Characteristic
 from capa.features.address import NO_ADDRESS, Address, AbsoluteVirtualAddress, _NoAddress
 from capa.features.extractors.cape.models import Call, Static, Process, CapeReport
 from capa.features.extractors.base_extractor import (
    CallHandle,
    SampleHashes,
    ThreadHandle,
    ProcessHandle,
    DynamicFeatureExtractor,
 )
 logger = logging.getLogger(__name__)
 TESTED_VERSIONS = {"2.2-CAPE", "2.4-CAPE"}
 class CapeExtractor(DynamicFeatureExtractor):
    def __init__(self, report: CapeReport):
        super().__init__(
            hashes=SampleHashes(
                md5=report.target.file.md5.lower(),
                sha1=report.target.file.sha1.lower(),
                sha256=report.target.file.sha256.lower(),
            )
        )
        self.report: CapeReport = report
        # pre-compute these because we'll yield them at *every* scope.
        self.global_features = list(capa.features.extractors.cape.global_.extract_features(self.report))
    def get_base_address(self) -> Union[AbsoluteVirtualAddress, _NoAddress, None]:
        # value according to the PE header, the actual trace may use a different imagebase
        assert self.report.static is not None and self.report.static.pe is not None
        return AbsoluteVirtualAddress(self.report.static.pe.imagebase)
    def extract_global_features(self) -> Iterator[Tuple[Feature, Address]]:
        yield from self.global_features
    def extract_file_features(self) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.cape.file.extract_features(self.report)
    def get_processes(self) -> Iterator[ProcessHandle]:
        yield from capa.features.extractors.cape.file.get_processes(self.report)
    def extract_process_features(self, ph: ProcessHandle) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.cape.process.extract_features(ph)
    def get_process_name(self, ph) -> str:
        process: Process = ph.inner
        return process.process_name
    def get_threads(self, ph: ProcessHandle) -> Iterator[ThreadHandle]:
        yield from capa.features.extractors.cape.process.get_threads(ph)
    def extract_thread_features(self, ph: ProcessHandle, th: ThreadHandle) -> Iterator[Tuple[Feature, Address]]:
        if False:
            # force this routine to be a generator,
            # but we don't actually have any elements to generate.
            yield Characteristic("never"), NO_ADDRESS
        return
    def get_calls(self, ph: ProcessHandle, th: ThreadHandle) -> Iterator[CallHandle]:
        yield from capa.features.extractors.cape.thread.get_calls(ph, th)
    def extract_call_features(
        self, ph: ProcessHandle, th: ThreadHandle, ch: CallHandle
    ) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.cape.call.extract_features(ph, th, ch)
    def get_call_name(self, ph, th, ch) -> str:
        call: Call = ch.inner
        parts = []
        parts.append(call.api)
        parts.append("(")
        for argument in call.arguments:
            parts.append(argument.name)
            parts.append("=")
            if argument.pretty_value:
                parts.append(argument.pretty_value)
            else:
                if isinstance(argument.value, int):
                    parts.append(hex(argument.value))
                elif isinstance(argument.value, str):
                    parts.append('"')
                    parts.append(argument.value)
                    parts.append('"')
                elif isinstance(argument.value, list):
                    pass
                else:
                    capa.helpers.assert_never(argument.value)
            parts.append(", ")
        if call.arguments:
            # remove the trailing comma
            parts.pop()
        parts.append(")")
        parts.append(" -> ")
        if call.pretty_return:
            parts.append(call.pretty_return)
        else:
            parts.append(hex(call.return_))
        return "".join(parts)
    @classmethod
    def from_report(cls, report: Dict) -> "CapeExtractor":
        cr = CapeReport.model_validate(report)
        if cr.info.version not in TESTED_VERSIONS:
            logger.warning("CAPE version '%s' not tested/supported yet", cr.info.version)
        # TODO(mr-tz): support more file types
        # https://github.com/mandiant/capa/issues/1933
        if "PE" not in cr.target.file.type:
            logger.error(
                "capa currently only supports PE target files, this target file's type is: '%s'.\nPlease report this at: https://github.com/mandiant/capa/issues/1933",
                cr.target.file.type,
            )
        # observed in 2.4-CAPE reports from capesandbox.com
        if cr.static is None and cr.target.file.pe is not None:
            cr.static = Static()
            cr.static.pe = cr.target.file.pe
        if cr.static is None:
            raise UnsupportedFormatError("CAPE report missing static analysis")
        if cr.static.pe is None:
            raise UnsupportedFormatError("CAPE report missing PE analysis")
        if len(cr.behavior.processes) == 0:
            raise EmptyReportError("CAPE did not capture any processes")
        return cls(cr)
--- a/capa/features/extractors/cape/file.py
+++ b/capa/features/extractors/cape/file.py
@@ -1,132 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 from typing import Tuple, Iterator
 from capa.features.file import Export, Import, Section
 from capa.features.common import String, Feature
 from capa.features.address import NO_ADDRESS, Address, ProcessAddress, AbsoluteVirtualAddress
 from capa.features.extractors.helpers import generate_symbols
 from capa.features.extractors.cape.models import CapeReport
 from capa.features.extractors.base_extractor import ProcessHandle
 logger = logging.getLogger(__name__)
 def get_processes(report: CapeReport) -> Iterator[ProcessHandle]:
    """
    get all the created processes for a sample
    """
    seen_processes = {}
    for process in report.behavior.processes:
        addr = ProcessAddress(pid=process.process_id, ppid=process.parent_id)
        yield ProcessHandle(address=addr, inner=process)
        # check for pid and ppid reuse
        if addr not in seen_processes:
            seen_processes[addr] = [process]
        else:
            logger.warning(
                "pid and ppid reuse detected between process %s and process%s: %s",
                process,
                "es" if len(seen_processes[addr]) > 1 else "",
                seen_processes[addr],
            )
            seen_processes[addr].append(process)
 def extract_import_names(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    """
    extract imported function names
    """
    assert report.static is not None and report.static.pe is not None
    imports = report.static.pe.imports
    if isinstance(imports, dict):
        imports = list(imports.values())
    assert isinstance(imports, list)
    for library in imports:
        for function in library.imports:
            if not function.name:
                continue
            for name in generate_symbols(library.dll, function.name, include_dll=True):
                yield Import(name), AbsoluteVirtualAddress(function.address)
 def extract_export_names(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    assert report.static is not None and report.static.pe is not None
    for function in report.static.pe.exports:
        yield Export(function.name), AbsoluteVirtualAddress(function.address)
 def extract_section_names(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    assert report.static is not None and report.static.pe is not None
    for section in report.static.pe.sections:
        yield Section(section.name), AbsoluteVirtualAddress(section.virtual_address)
 def extract_file_strings(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    if report.strings is not None:
        for string in report.strings:
            yield String(string), NO_ADDRESS
 def extract_used_regkeys(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    for regkey in report.behavior.summary.keys:
        yield String(regkey), NO_ADDRESS
 def extract_used_files(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    for file in report.behavior.summary.files:
        yield String(file), NO_ADDRESS
 def extract_used_mutexes(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    for mutex in report.behavior.summary.mutexes:
        yield String(mutex), NO_ADDRESS
 def extract_used_commands(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    for cmd in report.behavior.summary.executed_commands:
        yield String(cmd), NO_ADDRESS
 def extract_used_apis(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    for symbol in report.behavior.summary.resolved_apis:
        yield String(symbol), NO_ADDRESS
 def extract_used_services(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    for svc in report.behavior.summary.created_services:
        yield String(svc), NO_ADDRESS
    for svc in report.behavior.summary.started_services:
        yield String(svc), NO_ADDRESS
 def extract_features(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    for handler in FILE_HANDLERS:
        for feature, addr in handler(report):
            yield feature, addr
 FILE_HANDLERS = (
    extract_import_names,
    extract_export_names,
    extract_section_names,
    extract_file_strings,
    extract_used_regkeys,
    extract_used_files,
    extract_used_mutexes,
    extract_used_commands,
    extract_used_apis,
    extract_used_services,
 )
--- a/capa/features/extractors/cape/global_.py
+++ b/capa/features/extractors/cape/global_.py
@@ -1,93 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 from typing import Tuple, Iterator
 from capa.features.common import (
    OS,
    OS_ANY,
    OS_LINUX,
    ARCH_I386,
    FORMAT_PE,
    ARCH_AMD64,
    FORMAT_ELF,
    OS_WINDOWS,
    Arch,
    Format,
    Feature,
 )
 from capa.features.address import NO_ADDRESS, Address
 from capa.features.extractors.cape.models import CapeReport
 logger = logging.getLogger(__name__)
 def extract_arch(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    if "Intel 80386" in report.target.file.type:
        yield Arch(ARCH_I386), NO_ADDRESS
    elif "x86-64" in report.target.file.type:
        yield Arch(ARCH_AMD64), NO_ADDRESS
    else:
        logger.warning("unrecognized Architecture: %s", report.target.file.type)
        raise ValueError(
            f"unrecognized Architecture from the CAPE report; output of file command: {report.target.file.type}"
        )
 def extract_format(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    if "PE" in report.target.file.type:
        yield Format(FORMAT_PE), NO_ADDRESS
    elif "ELF" in report.target.file.type:
        yield Format(FORMAT_ELF), NO_ADDRESS
    else:
        logger.warning("unknown file format, file command output: %s", report.target.file.type)
        raise ValueError(
            "unrecognized file format from the CAPE report; output of file command: {report.target.file.type}"
        )
 def extract_os(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    # this variable contains the output of the file command
    file_output = report.target.file.type
    if "windows" in file_output.lower():
        yield OS(OS_WINDOWS), NO_ADDRESS
    elif "elf" in file_output.lower():
        # operating systems recognized by the file command: https://github.com/file/file/blob/master/src/readelf.c#L609
        if "Linux" in file_output:
            yield OS(OS_LINUX), NO_ADDRESS
        elif "Hurd" in file_output:
            yield OS("hurd"), NO_ADDRESS
        elif "Solaris" in file_output:
            yield OS("solaris"), NO_ADDRESS
        elif "kFreeBSD" in file_output:
            yield OS("freebsd"), NO_ADDRESS
        elif "kNetBSD" in file_output:
            yield OS("netbsd"), NO_ADDRESS
        else:
            # if the operating system information is missing from the cape report, it's likely a bug
            logger.warning("unrecognized OS: %s", file_output)
            raise ValueError("unrecognized OS from the CAPE report; output of file command: {file_output}")
    else:
        # the sample is shellcode
        logger.debug("unsupported file format, file command output: %s", file_output)
        yield OS(OS_ANY), NO_ADDRESS
 def extract_features(report: CapeReport) -> Iterator[Tuple[Feature, Address]]:
    for global_handler in GLOBAL_HANDLER:
        for feature, addr in global_handler(report):
            yield feature, addr
 GLOBAL_HANDLER = (
    extract_format,
    extract_os,
    extract_arch,
 )
--- a/capa/features/extractors/cape/helpers.py
+++ b/capa/features/extractors/cape/helpers.py
@@ -1,29 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import Any, Dict, List
 from capa.features.extractors.base_extractor import ProcessHandle
 def find_process(processes: List[Dict[str, Any]], ph: ProcessHandle) -> Dict[str, Any]:
    """
    find a specific process identified by a process handler.
    args:
      processes: a list of processes extracted by CAPE
      ph: handle of the sought process
    return:
      a CAPE-defined dictionary for the sought process' information
    """
    for process in processes:
        if ph.address.ppid == process["parent_id"] and ph.address.pid == process["process_id"]:
            return process
    return {}
--- a/capa/features/extractors/cape/models.py
+++ b/capa/features/extractors/cape/models.py
@@ -1,446 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import binascii
 from typing import Any, Dict, List, Union, Literal, Optional
 from pydantic import Field, BaseModel, ConfigDict
 from typing_extensions import Annotated, TypeAlias
 from pydantic.functional_validators import BeforeValidator
 def validate_hex_int(value):
    if isinstance(value, str):
        return int(value, 16) if value.startswith("0x") else int(value, 10)
    else:
        return value
 def validate_hex_bytes(value):
    return binascii.unhexlify(value) if isinstance(value, str) else value
 HexInt = Annotated[int, BeforeValidator(validate_hex_int)]
 HexBytes = Annotated[bytes, BeforeValidator(validate_hex_bytes)]
 # a model that *cannot* have extra fields
 # if they do, pydantic raises an exception.
 # use this for models we rely upon and cannot change.
 #
 # for things that may be extended and we don't care,
 # use FlexibleModel.
 class ExactModel(BaseModel):
    model_config = ConfigDict(extra="forbid")
 # a model that can have extra fields that we ignore.
 # use this if we don't want to raise an exception for extra
 # data fields that we didn't expect.
 class FlexibleModel(BaseModel):
    pass
 # use this type to indicate that we won't model this data.
 # because its not relevant to our use in capa.
 #
 # while its nice to have full coverage of the data shape,
 # it can easily change and break our parsing.
 # so we really only want to describe what we'll use.
 Skip: TypeAlias = Optional[Any]
 # mark fields that we haven't seen yet and need to model.
 # pydantic should raise an error when encountering data
 # in a field with this type.
 # then we can update the model with the discovered shape.
 TODO: TypeAlias = None
 ListTODO: TypeAlias = List[None]
 DictTODO: TypeAlias = ExactModel
 EmptyDict: TypeAlias = BaseModel
 EmptyList: TypeAlias = List[Any]
 class Info(FlexibleModel):
    version: str
 class ImportedSymbol(ExactModel):
    address: HexInt
    name: Optional[str] = None
 class ImportedDll(ExactModel):
    dll: str
    imports: List[ImportedSymbol]
 class DirectoryEntry(ExactModel):
    name: str
    virtual_address: HexInt
    size: HexInt
 class Section(ExactModel):
    name: str
    raw_address: HexInt
    virtual_address: HexInt
    virtual_size: HexInt
    size_of_data: HexInt
    characteristics: str
    characteristics_raw: HexInt
    entropy: float
 class Resource(ExactModel):
    name: str
    language: Optional[str] = None
    sublanguage: str
    filetype: Optional[str]
    offset: HexInt
    size: HexInt
    entropy: float
 class DigitalSigner(FlexibleModel):
    md5_fingerprint: str
    not_after: str
    not_before: str
    serial_number: str
    sha1_fingerprint: str
    sha256_fingerprint: str
    issuer_commonName: Optional[str] = None
    issuer_countryName: Optional[str] = None
    issuer_localityName: Optional[str] = None
    issuer_organizationName: Optional[str] = None
    issuer_stateOrProvinceName: Optional[str] = None
    subject_commonName: Optional[str] = None
    subject_countryName: Optional[str] = None
    subject_localityName: Optional[str] = None
    subject_organizationName: Optional[str] = None
    subject_stateOrProvinceName: Optional[str] = None
    extensions_authorityInfoAccess_caIssuers: Optional[str] = None
    extensions_authorityKeyIdentifier: Optional[str] = None
    extensions_cRLDistributionPoints_0: Optional[str] = None
    extensions_certificatePolicies_0: Optional[str] = None
    extensions_subjectAltName_0: Optional[str] = None
    extensions_subjectKeyIdentifier: Optional[str] = None
 class AuxSigner(ExactModel):
    name: str
    issued_to: str = Field(alias="Issued to")
    issued_by: str = Field(alias="Issued by")
    expires: str = Field(alias="Expires")
    sha1_hash: str = Field(alias="SHA1 hash")
 class Signer(ExactModel):
    aux_sha1: Optional[str] = None
    aux_timestamp: Optional[str] = None
    aux_valid: Optional[bool] = None
    aux_error: Optional[bool] = None
    aux_error_desc: Optional[str] = None
    aux_signers: Optional[List[AuxSigner]] = None
 class Overlay(ExactModel):
    offset: HexInt
    size: HexInt
 class KV(ExactModel):
    name: str
    value: str
 class ExportedSymbol(ExactModel):
    address: HexInt
    name: str
    ordinal: int
 class PE(ExactModel):
    peid_signatures: TODO
    imagebase: HexInt
    entrypoint: HexInt
    reported_checksum: HexInt
    actual_checksum: HexInt
    osversion: str
    pdbpath: Optional[str] = None
    timestamp: str
    # List[ImportedDll], or Dict[basename(dll), ImportedDll]
    imports: Union[List[ImportedDll], Dict[str, ImportedDll]]
    imported_dll_count: Optional[int] = None
    imphash: str
    exported_dll_name: Optional[str] = None
    exports: List[ExportedSymbol]
    dirents: List[DirectoryEntry]
    sections: List[Section]
    ep_bytes: Optional[HexBytes] = None
    overlay: Optional[Overlay] = None
    resources: List[Resource]
    versioninfo: List[KV]
    # base64 encoded data
    icon: Optional[str] = None
    # MD5-like hash
    icon_hash: Optional[str] = None
    # MD5-like hash
    icon_fuzzy: Optional[str] = None
    # short hex string
    icon_dhash: Optional[str] = None
    digital_signers: List[DigitalSigner]
    guest_signers: Signer
 # TODO(mr-tz): target.file.dotnet, target.file.extracted_files, target.file.extracted_files_tool,
 #  target.file.extracted_files_time
 # https://github.com/mandiant/capa/issues/1814
 class File(FlexibleModel):
    type: str
    cape_type_code: Optional[int] = None
    cape_type: Optional[str] = None
    pid: Optional[Union[int, Literal[""]]] = None
    name: Union[List[str], str]
    path: str
    guest_paths: Union[List[str], str, None]
    timestamp: Optional[str] = None
    #
    # hashes
    #
    crc32: str
    md5: str
    sha1: str
    sha256: str
    sha512: str
    sha3_384: str
    ssdeep: str
    # unsure why this would ever be "False"
    tlsh: Optional[Union[str, bool]] = None
    rh_hash: Optional[str] = None
    #
    # other metadata, static analysis
    #
    size: int
    pe: Optional[PE] = None
    ep_bytes: Optional[HexBytes] = None
    entrypoint: Optional[int] = None
    data: Optional[str] = None
    strings: Optional[List[str]] = None
    #
    # detections (skip)
    #
    yara: Skip = None
    cape_yara: Skip = None
    clamav: Skip = None
    virustotal: Skip = None
 class ProcessFile(File):
    #
    # like a File, but also has dynamic analysis results
    #
    pid: Optional[int] = None
    process_path: Optional[str] = None
    process_name: Optional[str] = None
    module_path: Optional[str] = None
    virtual_address: Optional[HexInt] = None
    target_pid: Optional[Union[int, str]] = None
    target_path: Optional[str] = None
    target_process: Optional[str] = None
 class Argument(ExactModel):
    name: str
    # unsure why empty list is provided here
    value: Union[HexInt, int, str, EmptyList]
    pretty_value: Optional[str] = None
 class Call(ExactModel):
    timestamp: str
    thread_id: int
    category: str
    api: str
    arguments: List[Argument]
    status: bool
    return_: HexInt = Field(alias="return")
    pretty_return: Optional[str] = None
    repeated: int
    # virtual addresses
    caller: HexInt
    parentcaller: HexInt
    # index into calls array
    id: int
 class Process(ExactModel):
    process_id: int
    process_name: str
    parent_id: int
    module_path: str
    first_seen: str
    calls: List[Call]
    threads: List[int]
    environ: Dict[str, str]
 class ProcessTree(ExactModel):
    name: str
    pid: int
    parent_id: int
    module_path: str
    threads: List[int]
    environ: Dict[str, str]
    children: List["ProcessTree"]
 class Summary(ExactModel):
    files: List[str]
    read_files: List[str]
    write_files: List[str]
    delete_files: List[str]
    keys: List[str]
    read_keys: List[str]
    write_keys: List[str]
    delete_keys: List[str]
    executed_commands: List[str]
    resolved_apis: List[str]
    mutexes: List[str]
    created_services: List[str]
    started_services: List[str]
 class EncryptedBuffer(ExactModel):
    process_name: str
    pid: int
    api_call: str
    buffer: str
    buffer_size: Optional[int] = None
    crypt_key: Optional[Union[HexInt, str]] = None
 class Behavior(ExactModel):
    summary: Summary
    # list of processes, of threads, of calls
    processes: List[Process]
    # tree of processes
    processtree: List[ProcessTree]
    anomaly: List[str]
    encryptedbuffers: List[EncryptedBuffer]
    # these are small objects that describe atomic events,
    # like file move, registery access.
    # we'll detect the same with our API call analyis.
    enhanced: Skip = None
 class Target(ExactModel):
    category: str
    file: File
    pe: Optional[PE] = None
 class Static(ExactModel):
    pe: Optional[PE] = None
    flare_capa: Skip = None
 class Cape(ExactModel):
    payloads: List[ProcessFile]
    configs: Skip = None
 # flexible because there may be more sorts of analysis
 # but we only care about the ones described here.
 class CapeReport(FlexibleModel):
    # the input file, I think
    target: Target
    # info about the processing job, like machine and distributed metadata.
    info: Info
    #
    # static analysis results
    #
    static: Optional[Static] = None
    strings: Optional[List[str]] = None
    #
    # dynamic analysis results
    #
    # post-processed results: process tree, anomalies, etc
    behavior: Behavior
    # post-processed results: payloads and extracted configs
    CAPE: Optional[Cape] = None
    dropped: Optional[List[File]] = None
    procdump: Optional[List[ProcessFile]] = None
    procmemory: ListTODO
    # =========================================================================
    # information we won't use in capa
    #
    #
    # NBIs and HBIs
    # these are super interesting, but they don't enable use to detect behaviors.
    # they take a lot of code to model and details to maintain.
    #
    # if we come up with a future use for this, go ahead and re-enable!
    #
    network: Skip = None
    suricata: Skip = None
    curtain: Skip = None
    sysmon: Skip = None
    url_analysis: Skip = None
    # screenshot hash values
    deduplicated_shots: Skip = None
    # k-v pairs describing the time it took to run each stage.
    statistics: Skip = None
    # k-v pairs of ATT&CK ID to signature name or similar.
    ttps: Skip = None
    # debug log messages
    debug: Skip = None
    # various signature matches
    # we could potentially extend capa to use this info one day,
    # though it would be quite sandbox-specific,
    # and more detection-oriented than capability detection.
    signatures: Skip = None
    malfamily_tag: Optional[str] = None
    malscore: float
    detections: Skip = None
    detections2pid: Optional[Dict[int, List[str]]] = None
    # AV detections for the sample.
    virustotal: Skip = None
    @classmethod
    def from_buf(cls, buf: bytes) -> "CapeReport":
        return cls.model_validate_json(buf)
--- a/capa/features/extractors/cape/process.py
+++ b/capa/features/extractors/cape/process.py
@@ -1,48 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 from typing import List, Tuple, Iterator
 from capa.features.common import String, Feature
 from capa.features.address import Address, ThreadAddress
 from capa.features.extractors.cape.models import Process
 from capa.features.extractors.base_extractor import ThreadHandle, ProcessHandle
 logger = logging.getLogger(__name__)
 def get_threads(ph: ProcessHandle) -> Iterator[ThreadHandle]:
    """
    get the threads associated with a given process
    """
    process: Process = ph.inner
    threads: List[int] = process.threads
    for thread in threads:
        address: ThreadAddress = ThreadAddress(process=ph.address, tid=thread)
        yield ThreadHandle(address=address, inner={})
 def extract_environ_strings(ph: ProcessHandle) -> Iterator[Tuple[Feature, Address]]:
    """
    extract strings from a process' provided environment variables.
    """
    process: Process = ph.inner
    for value in (value for value in process.environ.values() if value):
        yield String(value), ph.address
 def extract_features(ph: ProcessHandle) -> Iterator[Tuple[Feature, Address]]:
    for handler in PROCESS_HANDLERS:
        for feature, addr in handler(ph):
            yield feature, addr
 PROCESS_HANDLERS = (extract_environ_strings,)
--- a/capa/features/extractors/cape/thread.py
+++ b/capa/features/extractors/cape/thread.py
@@ -1,32 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 from typing import Iterator
 from capa.features.address import DynamicCallAddress
 from capa.features.extractors.helpers import generate_symbols
 from capa.features.extractors.cape.models import Process
 from capa.features.extractors.base_extractor import CallHandle, ThreadHandle, ProcessHandle
 logger = logging.getLogger(__name__)
 def get_calls(ph: ProcessHandle, th: ThreadHandle) -> Iterator[CallHandle]:
    process: Process = ph.inner
    tid = th.address.tid
    for call_index, call in enumerate(process.calls):
        if call.thread_id != tid:
            continue
        for symbol in generate_symbols("", call.api):
            call.api = symbol
            addr = DynamicCallAddress(thread=th.address, id=call_index)
            yield CallHandle(address=addr, inner=call)
--- a/capa/features/extractors/common.py
+++ b/capa/features/extractors/common.py
@@ -1,142 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import io
 import re
 import logging
 import binascii
 import contextlib
 from typing import Tuple, Iterator
 import pefile
 import capa.features
 import capa.features.extractors.elf
 import capa.features.extractors.pefile
 import capa.features.extractors.strings
 from capa.features.common import (
    OS,
    OS_ANY,
    OS_AUTO,
    ARCH_ANY,
    FORMAT_PE,
    FORMAT_ELF,
    OS_WINDOWS,
    FORMAT_FREEZE,
    FORMAT_RESULT,
    Arch,
    Format,
    String,
    Feature,
 )
 from capa.features.freeze import is_freeze
 from capa.features.address import NO_ADDRESS, Address, FileOffsetAddress
 logger = logging.getLogger(__name__)
 # match strings for formats
 MATCH_PE = b"MZ"
 MATCH_ELF = b"\x7fELF"
 MATCH_RESULT = b'{"meta":'
 MATCH_JSON_OBJECT = b'{"'
 def extract_file_strings(buf: bytes, **kwargs) -> Iterator[Tuple[String, Address]]:
    """
    extract ASCII and UTF-16 LE strings from file
    """
    for s in capa.features.extractors.strings.extract_ascii_strings(buf):
        yield String(s.s), FileOffsetAddress(s.offset)
    for s in capa.features.extractors.strings.extract_unicode_strings(buf):
        yield String(s.s), FileOffsetAddress(s.offset)
 def extract_format(buf: bytes) -> Iterator[Tuple[Feature, Address]]:
    if buf.startswith(MATCH_PE):
        yield Format(FORMAT_PE), NO_ADDRESS
    elif buf.startswith(MATCH_ELF):
        yield Format(FORMAT_ELF), NO_ADDRESS
    elif is_freeze(buf):
        yield Format(FORMAT_FREEZE), NO_ADDRESS
    elif buf.startswith(MATCH_RESULT):
        yield Format(FORMAT_RESULT), NO_ADDRESS
    elif re.sub(rb"\s", b"", buf[:20]).startswith(MATCH_JSON_OBJECT):
        # potential start of JSON object data without whitespace
        # we don't know what it is exactly, but may support it (e.g. a dynamic CAPE sandbox report)
        # skip verdict here and let subsequent code analyze this further
        return
    else:
        # we likely end up here:
        #  1. handling a file format (e.g. macho)
        #
        # for (1), this logic will need to be updated as the format is implemented.
        logger.debug("unsupported file format: %s", binascii.hexlify(buf[:4]).decode("ascii"))
        return
 def extract_arch(buf) -> Iterator[Tuple[Feature, Address]]:
    if buf.startswith(MATCH_PE):
        yield from capa.features.extractors.pefile.extract_file_arch(pe=pefile.PE(data=buf))
    elif buf.startswith(MATCH_RESULT):
        yield Arch(ARCH_ANY), NO_ADDRESS
    elif buf.startswith(MATCH_ELF):
        with contextlib.closing(io.BytesIO(buf)) as f:
            arch = capa.features.extractors.elf.detect_elf_arch(f)
        if arch not in capa.features.common.VALID_ARCH:
            logger.debug("unsupported arch: %s", arch)
            return
        yield Arch(arch), NO_ADDRESS
    else:
        # we likely end up here:
        #  1. handling shellcode, or
        #  2. handling a new file format (e.g. macho)
        #
        # for (1) we can't do much - its shellcode and all bets are off.
        # we could maybe accept a further CLI argument to specify the arch,
        # but i think this would be rarely used.
        # rules that rely on arch conditions will fail to match on shellcode.
        #
        # for (2), this logic will need to be updated as the format is implemented.
        logger.debug("unsupported file format: %s, will not guess Arch", binascii.hexlify(buf[:4]).decode("ascii"))
        return
 def extract_os(buf, os=OS_AUTO) -> Iterator[Tuple[Feature, Address]]:
    if os != OS_AUTO:
        yield OS(os), NO_ADDRESS
    if buf.startswith(MATCH_PE):
        yield OS(OS_WINDOWS), NO_ADDRESS
    elif buf.startswith(MATCH_RESULT):
        yield OS(OS_ANY), NO_ADDRESS
    elif buf.startswith(MATCH_ELF):
        with contextlib.closing(io.BytesIO(buf)) as f:
            os = capa.features.extractors.elf.detect_elf_os(f)
        if os not in capa.features.common.VALID_OS:
            logger.debug("unsupported os: %s", os)
            return
        yield OS(os), NO_ADDRESS
    else:
        # we likely end up here:
        #  1. handling shellcode, or
        #  2. handling a new file format (e.g. macho)
        #
        # for (1) we can't do much - its shellcode and all bets are off.
        # rules that rely on OS conditions will fail to match on shellcode.
        #
        # for (2), this logic will need to be updated as the format is implemented.
        logger.debug("unsupported file format: %s, will not guess OS", binascii.hexlify(buf[:4]).decode("ascii"))
        return
--- a/capa/features/extractors/dnfile/init.py
+++ b/capa/features/extractors/dnfile/init.py
--- a/capa/features/extractors/dnfile/extractor.py
+++ b/capa/features/extractors/dnfile/extractor.py
@@ -1,161 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from __future__ import annotations
 from typing import Dict, List, Tuple, Union, Iterator, Optional
 from pathlib import Path
 import dnfile
 from dncil.cil.opcode import OpCodes
 import capa.features.extractors
 import capa.features.extractors.dotnetfile
 import capa.features.extractors.dnfile.file
 import capa.features.extractors.dnfile.insn
 import capa.features.extractors.dnfile.function
 from capa.features.common import Feature
 from capa.features.address import NO_ADDRESS, Address, DNTokenAddress, DNTokenOffsetAddress
 from capa.features.extractors.dnfile.types import DnType, DnUnmanagedMethod
 from capa.features.extractors.base_extractor import (
    BBHandle,
    InsnHandle,
    SampleHashes,
    FunctionHandle,
    StaticFeatureExtractor,
 )
 from capa.features.extractors.dnfile.helpers import (
    get_dotnet_types,
    get_dotnet_fields,
    get_dotnet_managed_imports,
    get_dotnet_managed_methods,
    get_dotnet_unmanaged_imports,
    get_dotnet_managed_method_bodies,
 )
 class DnFileFeatureExtractorCache:
    def __init__(self, pe: dnfile.dnPE):
        self.imports: Dict[int, Union[DnType, DnUnmanagedMethod]] = {}
        self.native_imports: Dict[int, Union[DnType, DnUnmanagedMethod]] = {}
        self.methods: Dict[int, Union[DnType, DnUnmanagedMethod]] = {}
        self.fields: Dict[int, Union[DnType, DnUnmanagedMethod]] = {}
        self.types: Dict[int, Union[DnType, DnUnmanagedMethod]] = {}
        for import_ in get_dotnet_managed_imports(pe):
            self.imports[import_.token] = import_
        for native_import in get_dotnet_unmanaged_imports(pe):
            self.native_imports[native_import.token] = native_import
        for method in get_dotnet_managed_methods(pe):
            self.methods[method.token] = method
        for field in get_dotnet_fields(pe):
            self.fields[field.token] = field
        for type_ in get_dotnet_types(pe):
            self.types[type_.token] = type_
    def get_import(self, token: int) -> Optional[Union[DnType, DnUnmanagedMethod]]:
        return self.imports.get(token)
    def get_native_import(self, token: int) -> Optional[Union[DnType, DnUnmanagedMethod]]:
        return self.native_imports.get(token)
    def get_method(self, token: int) -> Optional[Union[DnType, DnUnmanagedMethod]]:
        return self.methods.get(token)
    def get_field(self, token: int) -> Optional[Union[DnType, DnUnmanagedMethod]]:
        return self.fields.get(token)
    def get_type(self, token: int) -> Optional[Union[DnType, DnUnmanagedMethod]]:
        return self.types.get(token)
 class DnfileFeatureExtractor(StaticFeatureExtractor):
    def __init__(self, path: Path):
        self.pe: dnfile.dnPE = dnfile.dnPE(str(path))
        super().__init__(hashes=SampleHashes.from_bytes(path.read_bytes()))
        # pre-compute .NET token lookup tables; each .NET method has access to this cache for feature extraction
        # most relevant at instruction scope
        self.token_cache: DnFileFeatureExtractorCache = DnFileFeatureExtractorCache(self.pe)
        # pre-compute these because we'll yield them at *every* scope.
        self.global_features: List[Tuple[Feature, Address]] = []
        self.global_features.extend(capa.features.extractors.dotnetfile.extract_file_format())
        self.global_features.extend(capa.features.extractors.dotnetfile.extract_file_os(pe=self.pe))
        self.global_features.extend(capa.features.extractors.dotnetfile.extract_file_arch(pe=self.pe))
    def get_base_address(self):
        return NO_ADDRESS
    def extract_global_features(self):
        yield from self.global_features
    def extract_file_features(self):
        yield from capa.features.extractors.dnfile.file.extract_features(self.pe)
    def get_functions(self) -> Iterator[FunctionHandle]:
        # create a method lookup table
        methods: Dict[Address, FunctionHandle] = {}
        for token, method in get_dotnet_managed_method_bodies(self.pe):
            fh: FunctionHandle = FunctionHandle(
                address=DNTokenAddress(token),
                inner=method,
                ctx={"pe": self.pe, "calls_from": set(), "calls_to": set(), "cache": self.token_cache},
            )
            # method tokens should be unique
            assert fh.address not in methods.keys()
            methods[fh.address] = fh
        # calculate unique calls to/from each method
        for fh in methods.values():
            for insn in fh.inner.instructions:
                if insn.opcode not in (
                    OpCodes.Call,
                    OpCodes.Callvirt,
                    OpCodes.Jmp,
                    OpCodes.Newobj,
                ):
                    continue
                address: DNTokenAddress = DNTokenAddress(insn.operand.value)
                # record call to destination method; note: we only consider MethodDef methods for destinations
                dest: Optional[FunctionHandle] = methods.get(address)
                if dest is not None:
                    dest.ctx["calls_to"].add(fh.address)
                # record call from source method; note: we record all unique calls from a MethodDef method, not just
                # those calls to other MethodDef methods e.g. calls to imported MemberRef methods
                fh.ctx["calls_from"].add(address)
        yield from methods.values()
    def extract_function_features(self, fh) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.dnfile.function.extract_features(fh)
    def get_basic_blocks(self, f) -> Iterator[BBHandle]:
        # each dotnet method is considered 1 basic block
        yield BBHandle(
            address=f.address,
            inner=f.inner,
        )
    def extract_basic_block_features(self, fh, bbh):
        # we don't support basic block features
        yield from []
    def get_instructions(self, fh, bbh):
        for insn in bbh.inner.instructions:
            yield InsnHandle(
                address=DNTokenOffsetAddress(bbh.address, insn.offset - (fh.inner.offset + fh.inner.header_size)),
                inner=insn,
            )
    def extract_insn_features(self, fh, bbh, ih) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.dnfile.insn.extract_features(fh, bbh, ih)
--- a/capa/features/extractors/dnfile/file.py
+++ b/capa/features/extractors/dnfile/file.py
@@ -1,63 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from __future__ import annotations
 from typing import Tuple, Iterator
 import dnfile
 import capa.features.extractors.dotnetfile
 from capa.features.file import Import, FunctionName
 from capa.features.common import Class, Format, String, Feature, Namespace, Characteristic
 from capa.features.address import Address
 def extract_file_import_names(pe: dnfile.dnPE) -> Iterator[Tuple[Import, Address]]:
    yield from capa.features.extractors.dotnetfile.extract_file_import_names(pe=pe)
 def extract_file_format(pe: dnfile.dnPE) -> Iterator[Tuple[Format, Address]]:
    yield from capa.features.extractors.dotnetfile.extract_file_format(pe=pe)
 def extract_file_function_names(pe: dnfile.dnPE) -> Iterator[Tuple[FunctionName, Address]]:
    yield from capa.features.extractors.dotnetfile.extract_file_function_names(pe=pe)
 def extract_file_strings(pe: dnfile.dnPE) -> Iterator[Tuple[String, Address]]:
    yield from capa.features.extractors.dotnetfile.extract_file_strings(pe=pe)
 def extract_file_mixed_mode_characteristic_features(pe: dnfile.dnPE) -> Iterator[Tuple[Characteristic, Address]]:
    yield from capa.features.extractors.dotnetfile.extract_file_mixed_mode_characteristic_features(pe=pe)
 def extract_file_namespace_features(pe: dnfile.dnPE) -> Iterator[Tuple[Namespace, Address]]:
    yield from capa.features.extractors.dotnetfile.extract_file_namespace_features(pe=pe)
 def extract_file_class_features(pe: dnfile.dnPE) -> Iterator[Tuple[Class, Address]]:
    yield from capa.features.extractors.dotnetfile.extract_file_class_features(pe=pe)
 def extract_features(pe: dnfile.dnPE) -> Iterator[Tuple[Feature, Address]]:
    for file_handler in FILE_HANDLERS:
        for feature, address in file_handler(pe):
            yield feature, address
 FILE_HANDLERS = (
    extract_file_import_names,
    extract_file_function_names,
    extract_file_strings,
    extract_file_format,
    extract_file_mixed_mode_characteristic_features,
    extract_file_namespace_features,
    extract_file_class_features,
 )
--- a/capa/features/extractors/dnfile/function.py
+++ b/capa/features/extractors/dnfile/function.py
@@ -1,50 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from __future__ import annotations
 import logging
 from typing import Tuple, Iterator
 from capa.features.common import Feature, Characteristic
 from capa.features.address import Address
 from capa.features.extractors.base_extractor import FunctionHandle
 logger = logging.getLogger(__name__)
 def extract_function_calls_to(fh: FunctionHandle) -> Iterator[Tuple[Characteristic, Address]]:
    """extract callers to a function"""
    for dest in fh.ctx["calls_to"]:
        yield Characteristic("calls to"), dest
 def extract_function_calls_from(fh: FunctionHandle) -> Iterator[Tuple[Characteristic, Address]]:
    """extract callers from a function"""
    for src in fh.ctx["calls_from"]:
        yield Characteristic("calls from"), src
 def extract_recursive_call(fh: FunctionHandle) -> Iterator[Tuple[Characteristic, Address]]:
    """extract recursive function call"""
    if fh.address in fh.ctx["calls_to"]:
        yield Characteristic("recursive call"), fh.address
 def extract_function_loop(fh: FunctionHandle) -> Iterator[Tuple[Characteristic, Address]]:
    """extract loop indicators from a function"""
    raise NotImplementedError()
 def extract_features(fh: FunctionHandle) -> Iterator[Tuple[Feature, Address]]:
    for func_handler in FUNCTION_HANDLERS:
        for feature, addr in func_handler(fh):
            yield feature, addr
 FUNCTION_HANDLERS = (extract_function_calls_to, extract_function_calls_from, extract_recursive_call)
--- a/capa/features/extractors/dnfile/helpers.py
+++ b/capa/features/extractors/dnfile/helpers.py
@@ -1,448 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from __future__ import annotations
 import logging
 from typing import Dict, Tuple, Union, Iterator, Optional
 import dnfile
 from dncil.cil.body import CilMethodBody
 from dncil.cil.error import MethodBodyFormatError
 from dncil.clr.token import Token, StringToken, InvalidToken
 from dncil.cil.body.reader import CilMethodBodyReaderBase
 from capa.features.common import FeatureAccess
 from capa.features.extractors.dnfile.types import DnType, DnUnmanagedMethod
 logger = logging.getLogger(__name__)
 class DnfileMethodBodyReader(CilMethodBodyReaderBase):
    def __init__(self, pe: dnfile.dnPE, row: dnfile.mdtable.MethodDefRow):
        self.pe: dnfile.dnPE = pe
        self.offset: int = self.pe.get_offset_from_rva(row.Rva)
    def read(self, n: int) -> bytes:
        data: bytes = self.pe.get_data(self.pe.get_rva_from_offset(self.offset), n)
        self.offset += n
        return data
    def tell(self) -> int:
        return self.offset
    def seek(self, offset: int) -> int:
        self.offset = offset
        return self.offset
 def resolve_dotnet_token(pe: dnfile.dnPE, token: Token) -> Union[dnfile.base.MDTableRow, InvalidToken, str]:
    """map generic token to string or table row"""
    assert pe.net is not None
    assert pe.net.mdtables is not None
    if isinstance(token, StringToken):
        user_string: Optional[str] = read_dotnet_user_string(pe, token)
        if user_string is None:
            return InvalidToken(token.value)
        return user_string
    table: Optional[dnfile.base.ClrMetaDataTable] = pe.net.mdtables.tables.get(token.table)
    if table is None:
        # table index is not valid
        return InvalidToken(token.value)
    try:
        return table.rows[token.rid - 1]
    except IndexError:
        # table index is valid but row index is not valid
        return InvalidToken(token.value)
 def read_dotnet_method_body(pe: dnfile.dnPE, row: dnfile.mdtable.MethodDefRow) -> Optional[CilMethodBody]:
    """read dotnet method body"""
    try:
        return CilMethodBody(DnfileMethodBodyReader(pe, row))
    except MethodBodyFormatError as e:
        logger.debug("failed to parse managed method body @ 0x%08x (%s)", row.Rva, e)
        return None
 def read_dotnet_user_string(pe: dnfile.dnPE, token: StringToken) -> Optional[str]:
    """read user string from #US stream"""
    assert pe.net is not None
    if pe.net.user_strings is None:
        # stream may not exist (seen in obfuscated .NET)
        logger.debug("#US stream does not exist for stream index 0x%08x", token.rid)
        return None
    try:
        user_string: Optional[dnfile.stream.UserString] = pe.net.user_strings.get_us(token.rid)
    except UnicodeDecodeError as e:
        logger.debug("failed to decode #US stream index 0x%08x (%s)", token.rid, e)
        return None
    if user_string is None:
        return None
    return user_string.value
 def get_dotnet_managed_imports(pe: dnfile.dnPE) -> Iterator[DnType]:
    """get managed imports from MemberRef table
    see https://www.ntcore.com/files/dotnetformat.htm
    10 - MemberRef Table
        Each row represents an imported method
            Class (index into the TypeRef, ModuleRef, MethodDef, TypeSpec or TypeDef tables)
            Name (index into String heap)
    01 - TypeRef Table
        Each row represents an imported class, its namespace and the assembly which contains it
            TypeName (index into String heap)
            TypeNamespace (index into String heap)
    """
    for rid, member_ref in iter_dotnet_table(pe, dnfile.mdtable.MemberRef.number):
        assert isinstance(member_ref, dnfile.mdtable.MemberRefRow)
        if not isinstance(member_ref.Class.row, dnfile.mdtable.TypeRefRow):
            # only process class imports from TypeRef table
            continue
        token: int = calculate_dotnet_token_value(dnfile.mdtable.MemberRef.number, rid)
        access: Optional[str]
        # assume .NET imports starting with get_/set_ are used to access a property
        if member_ref.Name.startswith("get_"):
            access = FeatureAccess.READ
        elif member_ref.Name.startswith("set_"):
            access = FeatureAccess.WRITE
        else:
            access = None
        member_ref_name: str = member_ref.Name
        if member_ref_name.startswith(("get_", "set_")):
            # remove get_/set_ from MemberRef name
            member_ref_name = member_ref_name[4:]
        typerefnamespace, typerefname = resolve_nested_typeref_name(
            member_ref.Class.row_index, member_ref.Class.row, pe
        )
        yield DnType(
            token,
            typerefname,
            namespace=typerefnamespace,
            member=member_ref_name,
            access=access,
        )
 def get_dotnet_methoddef_property_accessors(pe: dnfile.dnPE) -> Iterator[Tuple[int, str]]:
    """get MethodDef methods used to access properties
    see https://www.ntcore.com/files/dotnetformat.htm
    24 - MethodSemantics Table
        Links Events and Properties to specific methods. For example one Event can be associated to more methods. A property uses this table to associate get/set methods.
            Semantics (a 2-byte bitmask of type MethodSemanticsAttributes)
            Method (index into the MethodDef table)
            Association (index into the Event or Property table; more precisely, a HasSemantics coded index)
    """
    for rid, method_semantics in iter_dotnet_table(pe, dnfile.mdtable.MethodSemantics.number):
        assert isinstance(method_semantics, dnfile.mdtable.MethodSemanticsRow)
        if method_semantics.Association.row is None:
            logger.debug("MethodSemantics[0x%X] Association row is None", rid)
            continue
        if isinstance(method_semantics.Association.row, dnfile.mdtable.EventRow):
            # ignore events
            logger.debug("MethodSemantics[0x%X] ignoring Event", rid)
            continue
        if method_semantics.Method.table is None:
            logger.debug("MethodSemantics[0x%X] Method table is None", rid)
            continue
        token: int = calculate_dotnet_token_value(
            method_semantics.Method.table.number, method_semantics.Method.row_index
        )
        if method_semantics.Semantics.msSetter:
            yield token, FeatureAccess.WRITE
        elif method_semantics.Semantics.msGetter:
            yield token, FeatureAccess.READ
 def get_dotnet_managed_methods(pe: dnfile.dnPE) -> Iterator[DnType]:
    """get managed method names from TypeDef table
    see https://www.ntcore.com/files/dotnetformat.htm
    02 - TypeDef Table
        Each row represents a class in the current assembly.
            TypeName (index into String heap)
            TypeNamespace (index into String heap)
            MethodList (index into MethodDef table; it marks the first of a contiguous run of Methods owned by this Type)
    """
    nested_class_table = get_dotnet_nested_class_table_index(pe)
    accessor_map: Dict[int, str] = {}
    for methoddef, methoddef_access in get_dotnet_methoddef_property_accessors(pe):
        accessor_map[methoddef] = methoddef_access
    for rid, typedef in iter_dotnet_table(pe, dnfile.mdtable.TypeDef.number):
        assert isinstance(typedef, dnfile.mdtable.TypeDefRow)
        for idx, method in enumerate(typedef.MethodList):
            if method.table is None:
                logger.debug("TypeDef[0x%X] MethodList[0x%X] table is None", rid, idx)
                continue
            if method.row is None:
                logger.debug("TypeDef[0x%X] MethodList[0x%X] row is None", rid, idx)
                continue
            token: int = calculate_dotnet_token_value(method.table.number, method.row_index)
            access: Optional[str] = accessor_map.get(token)
            method_name: str = method.row.Name
            if method_name.startswith(("get_", "set_")):
                # remove get_/set_
                method_name = method_name[4:]
            typedefnamespace, typedefname = resolve_nested_typedef_name(nested_class_table, rid, typedef, pe)
            yield DnType(token, typedefname, namespace=typedefnamespace, member=method_name, access=access)
 def get_dotnet_fields(pe: dnfile.dnPE) -> Iterator[DnType]:
    """get fields from TypeDef table
    see https://www.ntcore.com/files/dotnetformat.htm
    02 - TypeDef Table
        Each row represents a class in the current assembly.
            TypeName (index into String heap)
            TypeNamespace (index into String heap)
            FieldList (index into Field table; it marks the first of a contiguous run of Fields owned by this Type)
    """
    nested_class_table = get_dotnet_nested_class_table_index(pe)
    for rid, typedef in iter_dotnet_table(pe, dnfile.mdtable.TypeDef.number):
        assert isinstance(typedef, dnfile.mdtable.TypeDefRow)
        for idx, field in enumerate(typedef.FieldList):
            if field.table is None:
                logger.debug("TypeDef[0x%X] FieldList[0x%X] table is None", rid, idx)
                continue
            if field.row is None:
                logger.debug("TypeDef[0x%X] FieldList[0x%X] row is None", rid, idx)
                continue
            typedefnamespace, typedefname = resolve_nested_typedef_name(nested_class_table, rid, typedef, pe)
            token: int = calculate_dotnet_token_value(field.table.number, field.row_index)
            yield DnType(token, typedefname, namespace=typedefnamespace, member=field.row.Name)
 def get_dotnet_managed_method_bodies(pe: dnfile.dnPE) -> Iterator[Tuple[int, CilMethodBody]]:
    """get managed methods from MethodDef table"""
    for rid, method_def in iter_dotnet_table(pe, dnfile.mdtable.MethodDef.number):
        assert isinstance(method_def, dnfile.mdtable.MethodDefRow)
        if not method_def.ImplFlags.miIL or any((method_def.Flags.mdAbstract, method_def.Flags.mdPinvokeImpl)):
            # skip methods that do not have a method body
            continue
        body: Optional[CilMethodBody] = read_dotnet_method_body(pe, method_def)
        if body is None:
            logger.debug("MethodDef[0x%X] method body is None", rid)
            continue
        token: int = calculate_dotnet_token_value(dnfile.mdtable.MethodDef.number, rid)
        yield token, body
 def get_dotnet_unmanaged_imports(pe: dnfile.dnPE) -> Iterator[DnUnmanagedMethod]:
    """get unmanaged imports from ImplMap table
    see https://www.ntcore.com/files/dotnetformat.htm
    28 - ImplMap Table
        ImplMap table holds information about unmanaged methods that can be reached from managed code, using PInvoke dispatch
            MemberForwarded (index into the Field or MethodDef table; more precisely, a MemberForwarded coded index)
            ImportName (index into the String heap)
            ImportScope (index into the ModuleRef table)
    """
    for rid, impl_map in iter_dotnet_table(pe, dnfile.mdtable.ImplMap.number):
        assert isinstance(impl_map, dnfile.mdtable.ImplMapRow)
        module: str
        if impl_map.ImportScope.row is None:
            logger.debug("ImplMap[0x%X] ImportScope row is None", rid)
            module = ""
        else:
            module = impl_map.ImportScope.row.Name
        method: str = impl_map.ImportName
        member_forward_table: int
        if impl_map.MemberForwarded.table is None:
            logger.debug("ImplMap[0x%X] MemberForwarded table is None", rid)
            continue
        else:
            member_forward_table = impl_map.MemberForwarded.table.number
        member_forward_row: int = impl_map.MemberForwarded.row_index
        # ECMA says "Each row of the ImplMap table associates a row in the MethodDef table (MemberForwarded) with the
        # name of a routine (ImportName) in some unmanaged DLL (ImportScope)"; so we calculate and map the MemberForwarded
        # MethodDef table token to help us later record native import method calls made from CIL
        token: int = calculate_dotnet_token_value(member_forward_table, member_forward_row)
        # like Kernel32.dll
        if module and "." in module:
            module = module.split(".")[0]
        # like kernel32.CreateFileA
        yield DnUnmanagedMethod(token, module, method)
 def get_dotnet_table_row(pe: dnfile.dnPE, table_index: int, row_index: int) -> Optional[dnfile.base.MDTableRow]:
    assert pe.net is not None
    assert pe.net.mdtables is not None
    if row_index - 1 <= 0:
        return None
    try:
        table = pe.net.mdtables.tables.get(table_index, [])
        return table[row_index - 1]
    except IndexError:
        return None
 def resolve_nested_typedef_name(
    nested_class_table: dict, index: int, typedef: dnfile.mdtable.TypeDefRow, pe: dnfile.dnPE
 ) -> Tuple[str, Tuple[str, ...]]:
    """Resolves all nested TypeDef class names. Returns the namespace as a str and the nested TypeRef name as a tuple"""
    if index in nested_class_table:
        typedef_name = []
        name = typedef.TypeName
        # Append the current typedef name
        typedef_name.append(name)
        while nested_class_table[index] in nested_class_table:
            # Iterate through the typedef table to resolve the nested name
            table_row = get_dotnet_table_row(pe, dnfile.mdtable.TypeDef.number, nested_class_table[index])
            if table_row is None:
                return typedef.TypeNamespace, tuple(typedef_name[::-1])
            name = table_row.TypeName
            typedef_name.append(name)
            index = nested_class_table[index]
        # Document the root enclosing details
        table_row = get_dotnet_table_row(pe, dnfile.mdtable.TypeDef.number, nested_class_table[index])
        if table_row is None:
            return typedef.TypeNamespace, tuple(typedef_name[::-1])
        enclosing_name = table_row.TypeName
        typedef_name.append(enclosing_name)
        return table_row.TypeNamespace, tuple(typedef_name[::-1])
    else:
        return typedef.TypeNamespace, (typedef.TypeName,)
 def resolve_nested_typeref_name(
    index: int, typeref: dnfile.mdtable.TypeRefRow, pe: dnfile.dnPE
 ) -> Tuple[str, Tuple[str, ...]]:
    """Resolves all nested TypeRef class names. Returns the namespace as a str and the nested TypeRef name as a tuple"""
    # If the ResolutionScope decodes to a typeRef type then it is nested
    if isinstance(typeref.ResolutionScope.table, dnfile.mdtable.TypeRef):
        typeref_name = []
        name = typeref.TypeName
        # Not appending the current typeref name to avoid potential duplicate
        # Validate index
        table_row = get_dotnet_table_row(pe, dnfile.mdtable.TypeRef.number, index)
        if table_row is None:
            return typeref.TypeNamespace, (typeref.TypeName,)
        while isinstance(table_row.ResolutionScope.table, dnfile.mdtable.TypeRef):
            # Iterate through the typeref table to resolve the nested name
            typeref_name.append(name)
            name = table_row.TypeName
            table_row = get_dotnet_table_row(pe, dnfile.mdtable.TypeRef.number, table_row.ResolutionScope.row_index)
            if table_row is None:
                return typeref.TypeNamespace, tuple(typeref_name[::-1])
        # Document the root enclosing details
        typeref_name.append(table_row.TypeName)
        return table_row.TypeNamespace, tuple(typeref_name[::-1])
    else:
        return typeref.TypeNamespace, (typeref.TypeName,)
 def get_dotnet_nested_class_table_index(pe: dnfile.dnPE) -> Dict[int, int]:
    """Build index for EnclosingClass based off the NestedClass row index in the nestedclass table"""
    nested_class_table = {}
    # Used to find nested classes in typedef
    for _, nestedclass in iter_dotnet_table(pe, dnfile.mdtable.NestedClass.number):
        assert isinstance(nestedclass, dnfile.mdtable.NestedClassRow)
        nested_class_table[nestedclass.NestedClass.row_index] = nestedclass.EnclosingClass.row_index
    return nested_class_table
 def get_dotnet_types(pe: dnfile.dnPE) -> Iterator[DnType]:
    """get .NET types from TypeDef and TypeRef tables"""
    nested_class_table = get_dotnet_nested_class_table_index(pe)
    for rid, typedef in iter_dotnet_table(pe, dnfile.mdtable.TypeDef.number):
        assert isinstance(typedef, dnfile.mdtable.TypeDefRow)
        typedefnamespace, typedefname = resolve_nested_typedef_name(nested_class_table, rid, typedef, pe)
        typedef_token: int = calculate_dotnet_token_value(dnfile.mdtable.TypeDef.number, rid)
        yield DnType(typedef_token, typedefname, namespace=typedefnamespace)
    for rid, typeref in iter_dotnet_table(pe, dnfile.mdtable.TypeRef.number):
        assert isinstance(typeref, dnfile.mdtable.TypeRefRow)
        typerefnamespace, typerefname = resolve_nested_typeref_name(typeref.ResolutionScope.row_index, typeref, pe)
        typeref_token: int = calculate_dotnet_token_value(dnfile.mdtable.TypeRef.number, rid)
        yield DnType(typeref_token, typerefname, namespace=typerefnamespace)
 def calculate_dotnet_token_value(table: int, rid: int) -> int:
    return ((table & 0xFF) << Token.TABLE_SHIFT) | (rid & Token.RID_MASK)
 def is_dotnet_mixed_mode(pe: dnfile.dnPE) -> bool:
    assert pe.net is not None
    assert pe.net.Flags is not None
    return not bool(pe.net.Flags.CLR_ILONLY)
 def iter_dotnet_table(pe: dnfile.dnPE, table_index: int) -> Iterator[Tuple[int, dnfile.base.MDTableRow]]:
    assert pe.net is not None
    assert pe.net.mdtables is not None
    for rid, row in enumerate(pe.net.mdtables.tables.get(table_index, [])):
        # .NET tables are 1-indexed
        yield rid + 1, row
--- a/capa/features/extractors/dnfile/insn.py
+++ b/capa/features/extractors/dnfile/insn.py
@@ -1,227 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from __future__ import annotations
 import logging
 from typing import TYPE_CHECKING, Tuple, Union, Iterator, Optional
 if TYPE_CHECKING:
    from capa.features.extractors.dnfile.extractor import DnFileFeatureExtractorCache
 import dnfile
 from dncil.clr.token import Token, StringToken, InvalidToken
 from dncil.cil.opcode import OpCodes
 import capa.features.extractors.helpers
 from capa.features.insn import API, Number, Property
 from capa.features.common import Class, String, Feature, Namespace, FeatureAccess, Characteristic
 from capa.features.address import Address
 from capa.features.extractors.dnfile.types import DnType, DnUnmanagedMethod
 from capa.features.extractors.base_extractor import BBHandle, InsnHandle, FunctionHandle
 from capa.features.extractors.dnfile.helpers import (
    resolve_dotnet_token,
    read_dotnet_user_string,
    calculate_dotnet_token_value,
 )
 logger = logging.getLogger(__name__)
 def get_callee(
    pe: dnfile.dnPE, cache: DnFileFeatureExtractorCache, token: Token
 ) -> Optional[Union[DnType, DnUnmanagedMethod]]:
    """map .NET token to un/managed (generic) method"""
    token_: int
    if token.table == dnfile.mdtable.MethodSpec.number:
        # map MethodSpec to MethodDef or MemberRef
        row: Union[dnfile.base.MDTableRow, InvalidToken, str] = resolve_dotnet_token(pe, token)
        assert isinstance(row, dnfile.mdtable.MethodSpecRow)
        if row.Method.table is None:
            logger.debug("MethodSpec[0x%X] Method table is None", token.rid)
            return None
        token_ = calculate_dotnet_token_value(row.Method.table.number, row.Method.row_index)
    else:
        token_ = token.value
    callee: Optional[Union[DnType, DnUnmanagedMethod]] = cache.get_import(token_)
    if callee is None:
        # we must check unmanaged imports before managed methods because we map forwarded managed methods
        # to their unmanaged imports; we prefer a forwarded managed method be mapped to its unmanaged import for analysis
        callee = cache.get_native_import(token_)
        if callee is None:
            callee = cache.get_method(token_)
    return callee
 def extract_insn_api_features(fh: FunctionHandle, bh, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction API features"""
    if ih.inner.opcode not in (
        OpCodes.Call,
        OpCodes.Callvirt,
        OpCodes.Jmp,
        OpCodes.Newobj,
    ):
        return
    callee: Optional[Union[DnType, DnUnmanagedMethod]] = get_callee(fh.ctx["pe"], fh.ctx["cache"], ih.inner.operand)
    if isinstance(callee, DnType):
        # ignore methods used to access properties
        if callee.access is None:
            # like System.IO.File::Delete
            yield API(str(callee)), ih.address
    elif isinstance(callee, DnUnmanagedMethod):
        # like kernel32.CreateFileA
        for name in capa.features.extractors.helpers.generate_symbols(callee.module, callee.method):
            yield API(name), ih.address
 def extract_insn_property_features(fh: FunctionHandle, bh, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction property features"""
    name: Optional[str] = None
    access: Optional[str] = None
    if ih.inner.opcode in (OpCodes.Call, OpCodes.Callvirt, OpCodes.Jmp):
        # property access via MethodDef or MemberRef
        callee: Optional[Union[DnType, DnUnmanagedMethod]] = get_callee(fh.ctx["pe"], fh.ctx["cache"], ih.inner.operand)
        if isinstance(callee, DnType):
            if callee.access is not None:
                name = str(callee)
                access = callee.access
    elif ih.inner.opcode in (OpCodes.Ldfld, OpCodes.Ldflda, OpCodes.Ldsfld, OpCodes.Ldsflda):
        # property read via Field
        read_field: Optional[Union[DnType, DnUnmanagedMethod]] = fh.ctx["cache"].get_field(ih.inner.operand.value)
        if read_field is not None:
            name = str(read_field)
            access = FeatureAccess.READ
    elif ih.inner.opcode in (OpCodes.Stfld, OpCodes.Stsfld):
        # property write via Field
        write_field: Optional[Union[DnType, DnUnmanagedMethod]] = fh.ctx["cache"].get_field(ih.inner.operand.value)
        if write_field is not None:
            name = str(write_field)
            access = FeatureAccess.WRITE
    if name is not None:
        if access is not None:
            yield Property(name, access=access), ih.address
        yield Property(name), ih.address
 def extract_insn_namespace_class_features(
    fh: FunctionHandle, bh, ih: InsnHandle
 ) -> Iterator[Tuple[Union[Namespace, Class], Address]]:
    """parse instruction namespace and class features"""
    type_: Optional[Union[DnType, DnUnmanagedMethod]] = None
    if ih.inner.opcode in (
        OpCodes.Call,
        OpCodes.Callvirt,
        OpCodes.Jmp,
        OpCodes.Ldvirtftn,
        OpCodes.Ldftn,
        OpCodes.Newobj,
    ):
        # method call - includes managed methods (MethodDef, TypeRef) and properties (MethodSemantics, TypeRef)
        type_ = get_callee(fh.ctx["pe"], fh.ctx["cache"], ih.inner.operand)
    elif ih.inner.opcode in (
        OpCodes.Ldfld,
        OpCodes.Ldflda,
        OpCodes.Ldsfld,
        OpCodes.Ldsflda,
        OpCodes.Stfld,
        OpCodes.Stsfld,
    ):
        # field access
        type_ = fh.ctx["cache"].get_field(ih.inner.operand.value)
    # ECMA 335 VI.C.4.10
    elif ih.inner.opcode in (
        OpCodes.Initobj,
        OpCodes.Box,
        OpCodes.Castclass,
        OpCodes.Cpobj,
        OpCodes.Isinst,
        OpCodes.Ldelem,
        OpCodes.Ldelema,
        OpCodes.Ldobj,
        OpCodes.Mkrefany,
        OpCodes.Newarr,
        OpCodes.Refanyval,
        OpCodes.Sizeof,
        OpCodes.Stobj,
        OpCodes.Unbox,
        OpCodes.Constrained,
        OpCodes.Stelem,
        OpCodes.Unbox_Any,
    ):
        # type access
        type_ = fh.ctx["cache"].get_type(ih.inner.operand.value)
    if isinstance(type_, DnType):
        yield Class(DnType.format_name(type_.class_, namespace=type_.namespace)), ih.address
        if type_.namespace:
            yield Namespace(type_.namespace), ih.address
 def extract_insn_number_features(fh, bh, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction number features"""
    if ih.inner.is_ldc():
        yield Number(ih.inner.get_ldc()), ih.address
 def extract_insn_string_features(fh: FunctionHandle, bh, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction string features"""
    if not ih.inner.is_ldstr():
        return
    if not isinstance(ih.inner.operand, StringToken):
        return
    user_string: Optional[str] = read_dotnet_user_string(fh.ctx["pe"], ih.inner.operand)
    if user_string is None:
        return
    if len(user_string) >= 4:
        yield String(user_string), ih.address
 def extract_unmanaged_call_characteristic_features(
    fh: FunctionHandle, bb: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Characteristic, Address]]:
    if ih.inner.opcode not in (OpCodes.Call, OpCodes.Callvirt, OpCodes.Jmp):
        return
    row: Union[str, InvalidToken, dnfile.base.MDTableRow] = resolve_dotnet_token(fh.ctx["pe"], ih.inner.operand)
    if not isinstance(row, dnfile.mdtable.MethodDefRow):
        return
    if any((row.Flags.mdPinvokeImpl, row.ImplFlags.miUnmanaged, row.ImplFlags.miNative)):
        yield Characteristic("unmanaged call"), ih.address
 def extract_features(fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """extract instruction features"""
    for inst_handler in INSTRUCTION_HANDLERS:
        for feature, addr in inst_handler(fh, bbh, ih):
            assert isinstance(addr, Address)
            yield feature, addr
 INSTRUCTION_HANDLERS = (
    extract_insn_api_features,
    extract_insn_property_features,
    extract_insn_number_features,
    extract_insn_string_features,
    extract_insn_namespace_class_features,
    extract_unmanaged_call_characteristic_features,
 )
--- a/capa/features/extractors/dnfile/types.py
+++ b/capa/features/extractors/dnfile/types.py
@@ -1,80 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import Tuple, Optional
 class DnType:
    def __init__(
        self, token: int, class_: Tuple[str, ...], namespace: str = "", member: str = "", access: Optional[str] = None
    ):
        self.token: int = token
        self.access: Optional[str] = access
        self.namespace: str = namespace
        self.class_: Tuple[str, ...] = class_
        if member == ".ctor":
            member = "ctor"
        if member == ".cctor":
            member = "cctor"
        self.member: str = member
    def __hash__(self):
        return hash((self.token, self.access, self.namespace, self.class_, self.member))
    def __eq__(self, other):
        return (
            self.token == other.token
            and self.access == other.access
            and self.namespace == other.namespace
            and self.class_ == other.class_
            and self.member == other.member
        )
    def __str__(self):
        return DnType.format_name(self.class_, namespace=self.namespace, member=self.member)
    def __repr__(self):
        return str(self)
    @staticmethod
    def format_name(class_: Tuple[str, ...], namespace: str = "", member: str = ""):
        if len(class_) > 1:
            class_str = "/".join(class_)  # Concat items in tuple, separated by a "/"
        else:
            class_str = "".join(class_)  # Convert tuple to str
        # like File::OpenRead
        name: str = f"{class_str}::{member}" if member else class_str
        if namespace:
            # like System.IO.File::OpenRead
            name = f"{namespace}.{name}"
        return name
 class DnUnmanagedMethod:
    def __init__(self, token: int, module: str, method: str):
        self.token: int = token
        self.module: str = module
        self.method: str = method
    def __hash__(self):
        return hash((self.token, self.module, self.method))
    def __eq__(self, other):
        return self.token == other.token and self.module == other.module and self.method == other.method
    def __str__(self):
        return DnUnmanagedMethod.format_name(self.module, self.method)
    def __repr__(self):
        return str(self)
    @staticmethod
    def format_name(module, method):
        return f"{module}.{method}"
--- a/capa/features/extractors/dotnetfile.py
+++ b/capa/features/extractors/dotnetfile.py
@@ -1,248 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 from typing import Tuple, Iterator
 from pathlib import Path
 import dnfile
 import pefile
 import capa.features.extractors.helpers
 from capa.features.file import Import, FunctionName
 from capa.features.common import (
    OS,
    OS_ANY,
    ARCH_ANY,
    ARCH_I386,
    FORMAT_PE,
    ARCH_AMD64,
    FORMAT_DOTNET,
    Arch,
    Class,
    Format,
    String,
    Feature,
    Namespace,
    Characteristic,
 )
 from capa.features.address import NO_ADDRESS, Address, DNTokenAddress
 from capa.features.extractors.dnfile.types import DnType
 from capa.features.extractors.base_extractor import SampleHashes, StaticFeatureExtractor
 from capa.features.extractors.dnfile.helpers import (
    iter_dotnet_table,
    is_dotnet_mixed_mode,
    get_dotnet_managed_imports,
    get_dotnet_managed_methods,
    resolve_nested_typedef_name,
    resolve_nested_typeref_name,
    calculate_dotnet_token_value,
    get_dotnet_unmanaged_imports,
    get_dotnet_nested_class_table_index,
 )
 logger = logging.getLogger(__name__)
 def extract_file_format(**kwargs) -> Iterator[Tuple[Format, Address]]:
    yield Format(FORMAT_PE), NO_ADDRESS
    yield Format(FORMAT_DOTNET), NO_ADDRESS
 def extract_file_import_names(pe: dnfile.dnPE, **kwargs) -> Iterator[Tuple[Import, Address]]:
    for method in get_dotnet_managed_imports(pe):
        # like System.IO.File::OpenRead
        yield Import(str(method)), DNTokenAddress(method.token)
    for imp in get_dotnet_unmanaged_imports(pe):
        # like kernel32.CreateFileA
        for name in capa.features.extractors.helpers.generate_symbols(imp.module, imp.method, include_dll=True):
            yield Import(name), DNTokenAddress(imp.token)
 def extract_file_function_names(pe: dnfile.dnPE, **kwargs) -> Iterator[Tuple[FunctionName, Address]]:
    for method in get_dotnet_managed_methods(pe):
        yield FunctionName(str(method)), DNTokenAddress(method.token)
 def extract_file_namespace_features(pe: dnfile.dnPE, **kwargs) -> Iterator[Tuple[Namespace, Address]]:
    """emit namespace features from TypeRef and TypeDef tables"""
    # namespaces may be referenced multiple times, so we need to filter
    namespaces = set()
    for _, typedef in iter_dotnet_table(pe, dnfile.mdtable.TypeDef.number):
        # emit internal .NET namespaces
        assert isinstance(typedef, dnfile.mdtable.TypeDefRow)
        namespaces.add(typedef.TypeNamespace)
    for _, typeref in iter_dotnet_table(pe, dnfile.mdtable.TypeRef.number):
        # emit external .NET namespaces
        assert isinstance(typeref, dnfile.mdtable.TypeRefRow)
        namespaces.add(typeref.TypeNamespace)
    # namespaces may be empty, discard
    namespaces.discard("")
    for namespace in namespaces:
        # namespace do not have an associated token, so we yield 0x0
        yield Namespace(namespace), NO_ADDRESS
 def extract_file_class_features(pe: dnfile.dnPE, **kwargs) -> Iterator[Tuple[Class, Address]]:
    """emit class features from TypeRef and TypeDef tables"""
    nested_class_table = get_dotnet_nested_class_table_index(pe)
    for rid, typedef in iter_dotnet_table(pe, dnfile.mdtable.TypeDef.number):
        # emit internal .NET classes
        assert isinstance(typedef, dnfile.mdtable.TypeDefRow)
        typedefnamespace, typedefname = resolve_nested_typedef_name(nested_class_table, rid, typedef, pe)
        token = calculate_dotnet_token_value(dnfile.mdtable.TypeDef.number, rid)
        yield Class(DnType.format_name(typedefname, namespace=typedefnamespace)), DNTokenAddress(token)
    for rid, typeref in iter_dotnet_table(pe, dnfile.mdtable.TypeRef.number):
        # emit external .NET classes
        assert isinstance(typeref, dnfile.mdtable.TypeRefRow)
        typerefnamespace, typerefname = resolve_nested_typeref_name(typeref.ResolutionScope.row_index, typeref, pe)
        token = calculate_dotnet_token_value(dnfile.mdtable.TypeRef.number, rid)
        yield Class(DnType.format_name(typerefname, namespace=typerefnamespace)), DNTokenAddress(token)
 def extract_file_os(**kwargs) -> Iterator[Tuple[OS, Address]]:
    yield OS(OS_ANY), NO_ADDRESS
 def extract_file_arch(pe: dnfile.dnPE, **kwargs) -> Iterator[Tuple[Arch, Address]]:
    # to distinguish in more detail, see https://stackoverflow.com/a/23614024/10548020
    # .NET 4.5 added option: any CPU, 32-bit preferred
    assert pe.net is not None
    assert pe.net.Flags is not None
    if pe.net.Flags.CLR_32BITREQUIRED and pe.PE_TYPE == pefile.OPTIONAL_HEADER_MAGIC_PE:
        yield Arch(ARCH_I386), NO_ADDRESS
    elif not pe.net.Flags.CLR_32BITREQUIRED and pe.PE_TYPE == pefile.OPTIONAL_HEADER_MAGIC_PE_PLUS:
        yield Arch(ARCH_AMD64), NO_ADDRESS
    else:
        yield Arch(ARCH_ANY), NO_ADDRESS
 def extract_file_strings(pe: dnfile.dnPE, **kwargs) -> Iterator[Tuple[String, Address]]:
    yield from capa.features.extractors.common.extract_file_strings(pe.__data__)
 def extract_file_mixed_mode_characteristic_features(
    pe: dnfile.dnPE, **kwargs
 ) -> Iterator[Tuple[Characteristic, Address]]:
    if is_dotnet_mixed_mode(pe):
        yield Characteristic("mixed mode"), NO_ADDRESS
 def extract_file_features(pe: dnfile.dnPE) -> Iterator[Tuple[Feature, Address]]:
    for file_handler in FILE_HANDLERS:
        for feature, addr in file_handler(pe=pe):  # type: ignore
            yield feature, addr
 FILE_HANDLERS = (
    extract_file_import_names,
    extract_file_function_names,
    extract_file_strings,
    extract_file_format,
    extract_file_mixed_mode_characteristic_features,
    extract_file_namespace_features,
    extract_file_class_features,
 )
 def extract_global_features(pe: dnfile.dnPE) -> Iterator[Tuple[Feature, Address]]:
    for handler in GLOBAL_HANDLERS:
        for feature, va in handler(pe=pe):  # type: ignore
            yield feature, va
 GLOBAL_HANDLERS = (
    extract_file_os,
    extract_file_arch,
 )
 class DotnetFileFeatureExtractor(StaticFeatureExtractor):
    def __init__(self, path: Path):
        super().__init__(hashes=SampleHashes.from_bytes(path.read_bytes()))
        self.path: Path = path
        self.pe: dnfile.dnPE = dnfile.dnPE(str(path))
    def get_base_address(self):
        return NO_ADDRESS
    def get_entry_point(self) -> int:
        # self.pe.net.Flags.CLT_NATIVE_ENTRYPOINT
        #  True: native EP: Token
        #  False: managed EP: RVA
        assert self.pe.net is not None
        assert self.pe.net.struct is not None
        return self.pe.net.struct.EntryPointTokenOrRva
    def extract_global_features(self):
        yield from extract_global_features(self.pe)
    def extract_file_features(self):
        yield from extract_file_features(self.pe)
    def is_dotnet_file(self) -> bool:
        return bool(self.pe.net)
    def is_mixed_mode(self) -> bool:
        return is_dotnet_mixed_mode(self.pe)
    def get_runtime_version(self) -> Tuple[int, int]:
        assert self.pe.net is not None
        assert self.pe.net.struct is not None
        assert self.pe.net.struct.MajorRuntimeVersion is not None
        assert self.pe.net.struct.MinorRuntimeVersion is not None
        return self.pe.net.struct.MajorRuntimeVersion, self.pe.net.struct.MinorRuntimeVersion
    def get_meta_version_string(self) -> str:
        assert self.pe.net is not None
        assert self.pe.net.metadata is not None
        assert self.pe.net.metadata.struct is not None
        assert self.pe.net.metadata.struct.Version is not None
        vbuf = self.pe.net.metadata.struct.Version
        assert isinstance(vbuf, bytes)
        return vbuf.rstrip(b"\x00").decode("utf-8")
    def get_functions(self):
        raise NotImplementedError("DotnetFileFeatureExtractor can only be used to extract file features")
    def extract_function_features(self, f):
        raise NotImplementedError("DotnetFileFeatureExtractor can only be used to extract file features")
    def get_basic_blocks(self, f):
        raise NotImplementedError("DotnetFileFeatureExtractor can only be used to extract file features")
    def extract_basic_block_features(self, f, bb):
        raise NotImplementedError("DotnetFileFeatureExtractor can only be used to extract file features")
    def get_instructions(self, f, bb):
        raise NotImplementedError("DotnetFileFeatureExtractor can only be used to extract file features")
    def extract_insn_features(self, f, bb, insn):
        raise NotImplementedError("DotnetFileFeatureExtractor can only be used to extract file features")
    def is_library_function(self, va):
        raise NotImplementedError("DotnetFileFeatureExtractor can only be used to extract file features")
    def get_function_name(self, va):
        raise NotImplementedError("DotnetFileFeatureExtractor can only be used to extract file features")
--- a/capa/features/extractors/elf.py
+++ b/capa/features/extractors/elf.py
--- a/capa/features/extractors/elffile.py
+++ b/capa/features/extractors/elffile.py
@@ -1,203 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import io
 import logging
 from typing import Tuple, Iterator
 from pathlib import Path
 from elftools.elf.elffile import ELFFile, SymbolTableSection
 from elftools.elf.relocation import RelocationSection
 import capa.features.extractors.common
 from capa.features.file import Export, Import, Section
 from capa.features.common import OS, FORMAT_ELF, Arch, Format, Feature
 from capa.features.address import NO_ADDRESS, FileOffsetAddress, AbsoluteVirtualAddress
 from capa.features.extractors.base_extractor import SampleHashes, StaticFeatureExtractor
 logger = logging.getLogger(__name__)
 def extract_file_export_names(elf: ELFFile, **kwargs):
    for section in elf.iter_sections():
        if not isinstance(section, SymbolTableSection):
            continue
        if section["sh_entsize"] == 0:
            logger.debug("Symbol table '%s' has a sh_entsize of zero!", section.name)
            continue
        logger.debug("Symbol table '%s' contains %s entries:", section.name, section.num_symbols())
        for symbol in section.iter_symbols():
            # The following conditions are based on the following article
            # http://www.m4b.io/elf/export/binary/analysis/2015/05/25/what-is-an-elf-export.html
            if not symbol.name:
                continue
            if symbol.entry.st_info.type not in ["STT_FUNC", "STT_OBJECT", "STT_IFUNC"]:
                continue
            if symbol.entry.st_value == 0:
                continue
            if symbol.entry.st_shndx == "SHN_UNDEF":
                continue
            yield Export(symbol.name), AbsoluteVirtualAddress(symbol.entry.st_value)
 def extract_file_import_names(elf: ELFFile, **kwargs):
    # Create a dictionary to store symbol names by their index
    symbol_names = {}
    # Extract symbol names and store them in the dictionary
    for section in elf.iter_sections():
        if not isinstance(section, SymbolTableSection):
            continue
        for _, symbol in enumerate(section.iter_symbols()):
            # The following conditions are based on the following article
            # http://www.m4b.io/elf/export/binary/analysis/2015/05/25/what-is-an-elf-export.html
            if not symbol.name:
                continue
            if symbol.entry.st_info.type not in ["STT_FUNC", "STT_OBJECT", "STT_IFUNC"]:
                continue
            if symbol.entry.st_value != 0:
                continue
            if symbol.entry.st_shndx != "SHN_UNDEF":
                continue
            if symbol.entry.st_name == 0:
                continue
            symbol_names[_] = symbol.name
    for section in elf.iter_sections():
        if not isinstance(section, RelocationSection):
            continue
        if section["sh_entsize"] == 0:
            logger.debug("Symbol table '%s' has a sh_entsize of zero!", section.name)
            continue
        logger.debug("Symbol table '%s' contains %s entries:", section.name, section.num_relocations())
        for relocation in section.iter_relocations():
            # Extract the symbol name from the symbol table using the symbol index in the relocation
            if relocation["r_info_sym"] not in symbol_names:
                continue
            yield Import(symbol_names[relocation["r_info_sym"]]), FileOffsetAddress(relocation["r_offset"])
 def extract_file_section_names(elf: ELFFile, **kwargs):
    for section in elf.iter_sections():
        if section.name:
            yield Section(section.name), AbsoluteVirtualAddress(section.header.sh_addr)
        elif section.is_null():
            yield Section("NULL"), AbsoluteVirtualAddress(section.header.sh_addr)
 def extract_file_strings(buf, **kwargs):
    yield from capa.features.extractors.common.extract_file_strings(buf)
 def extract_file_os(elf: ELFFile, buf, **kwargs):
    # our current approach does not always get an OS value, e.g. for packed samples
    # for file limitation purposes, we're more lax here
    try:
        os_tuple = next(capa.features.extractors.common.extract_os(buf))
        yield os_tuple
    except StopIteration:
        yield OS("unknown"), NO_ADDRESS
 def extract_file_format(**kwargs):
    yield Format(FORMAT_ELF), NO_ADDRESS
 def extract_file_arch(elf: ELFFile, **kwargs):
    arch = elf.get_machine_arch()
    if arch == "x86":
        yield Arch("i386"), NO_ADDRESS
    elif arch == "x64":
        yield Arch("amd64"), NO_ADDRESS
    else:
        logger.warning("unsupported architecture: %s", arch)
 def extract_file_features(elf: ELFFile, buf: bytes) -> Iterator[Tuple[Feature, int]]:
    for file_handler in FILE_HANDLERS:
        for feature, addr in file_handler(elf=elf, buf=buf):  # type: ignore
            yield feature, addr
 FILE_HANDLERS = (
    extract_file_export_names,
    extract_file_import_names,
    extract_file_section_names,
    extract_file_strings,
    # no library matching
    extract_file_format,
 )
 def extract_global_features(elf: ELFFile, buf: bytes) -> Iterator[Tuple[Feature, int]]:
    for global_handler in GLOBAL_HANDLERS:
        for feature, addr in global_handler(elf=elf, buf=buf):  # type: ignore
            yield feature, addr
 GLOBAL_HANDLERS = (
    extract_file_os,
    extract_file_arch,
 )
 class ElfFeatureExtractor(StaticFeatureExtractor):
    def __init__(self, path: Path):
        super().__init__(SampleHashes.from_bytes(path.read_bytes()))
        self.path: Path = path
        self.elf = ELFFile(io.BytesIO(path.read_bytes()))
    def get_base_address(self):
        # virtual address of the first segment with type LOAD
        for segment in self.elf.iter_segments():
            if segment.header.p_type == "PT_LOAD":
                return AbsoluteVirtualAddress(segment.header.p_vaddr)
    def extract_global_features(self):
        buf = self.path.read_bytes()
        for feature, addr in extract_global_features(self.elf, buf):
            yield feature, addr
    def extract_file_features(self):
        buf = self.path.read_bytes()
        for feature, addr in extract_file_features(self.elf, buf):
            yield feature, addr
    def get_functions(self):
        raise NotImplementedError("ElfFeatureExtractor can only be used to extract file features")
    def extract_function_features(self, f):
        raise NotImplementedError("ElfFeatureExtractor can only be used to extract file features")
    def get_basic_blocks(self, f):
        raise NotImplementedError("ElfFeatureExtractor can only be used to extract file features")
    def extract_basic_block_features(self, f, bb):
        raise NotImplementedError("ElfFeatureExtractor can only be used to extract file features")
    def get_instructions(self, f, bb):
        raise NotImplementedError("ElfFeatureExtractor can only be used to extract file features")
    def extract_insn_features(self, f, bb, insn):
        raise NotImplementedError("ElfFeatureExtractor can only be used to extract file features")
    def is_library_function(self, addr):
        raise NotImplementedError("ElfFeatureExtractor can only be used to extract file features")
    def get_function_name(self, addr):
        raise NotImplementedError("ElfFeatureExtractor can only be used to extract file features")
--- a/capa/features/extractors/ghidra/init.py
+++ b/capa/features/extractors/ghidra/init.py
--- a/capa/features/extractors/ghidra/basicblock.py
+++ b/capa/features/extractors/ghidra/basicblock.py
@@ -1,152 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import string
 import struct
 from typing import Tuple, Iterator
 import ghidra
 from ghidra.program.model.lang import OperandType
 import capa.features.extractors.ghidra.helpers
 from capa.features.common import Feature, Characteristic
 from capa.features.address import Address
 from capa.features.basicblock import BasicBlock
 from capa.features.extractors.helpers import MIN_STACKSTRING_LEN
 from capa.features.extractors.base_extractor import BBHandle, FunctionHandle
 def get_printable_len(op: ghidra.program.model.scalar.Scalar) -> int:
    """Return string length if all operand bytes are ascii or utf16-le printable"""
    op_bit_len = op.bitLength()
    op_byte_len = op_bit_len // 8
    op_val = op.getValue()
    if op_bit_len == 8:
        chars = struct.pack("<B", op_val & 0xFF)
    elif op_bit_len == 16:
        chars = struct.pack("<H", op_val & 0xFFFF)
    elif op_bit_len == 32:
        chars = struct.pack("<I", op_val & 0xFFFFFFFF)
    elif op_bit_len == 64:
        chars = struct.pack("<Q", op_val & 0xFFFFFFFFFFFFFFFF)
    else:
        raise ValueError(f"Unhandled operand data type 0x{op_bit_len:x}.")
    def is_printable_ascii(chars_: bytes):
        return all(c < 127 and chr(c) in string.printable for c in chars_)
    def is_printable_utf16le(chars_: bytes):
        if all(c == 0x00 for c in chars_[1::2]):
            return is_printable_ascii(chars_[::2])
    if is_printable_ascii(chars):
        return op_byte_len
    if is_printable_utf16le(chars):
        return op_byte_len
    return 0
 def is_mov_imm_to_stack(insn: ghidra.program.database.code.InstructionDB) -> bool:
    """verify instruction moves immediate onto stack"""
    # Ghidra will Bitwise OR the OperandTypes to assign multiple
    # i.e., the first operand is a stackvar (dynamically allocated),
    # and the second is a scalar value (single int/char/float/etc.)
    mov_its_ops = [(OperandType.ADDRESS | OperandType.DYNAMIC), OperandType.SCALAR]
    found = False
    # MOV dword ptr [EBP + local_*], 0x65
    if insn.getMnemonicString().startswith("MOV"):
        found = all(insn.getOperandType(i) == mov_its_ops[i] for i in range(2))
    return found
 def bb_contains_stackstring(bb: ghidra.program.model.block.CodeBlock) -> bool:
    """check basic block for stackstring indicators
    true if basic block contains enough moves of constant bytes to the stack
    """
    count = 0
    for insn in currentProgram().getListing().getInstructions(bb, True):  # type: ignore [name-defined] # noqa: F821
        if is_mov_imm_to_stack(insn):
            count += get_printable_len(insn.getScalar(1))
        if count > MIN_STACKSTRING_LEN:
            return True
    return False
 def _bb_has_tight_loop(bb: ghidra.program.model.block.CodeBlock):
    """
    parse tight loops, true if last instruction in basic block branches to bb start
    """
    # Reverse Ordered, first InstructionDB
    last_insn = currentProgram().getListing().getInstructions(bb, False).next()  # type: ignore [name-defined] # noqa: F821
    if last_insn.getFlowType().isJump():
        return last_insn.getAddress(0) == bb.getMinAddress()
    return False
 def extract_bb_stackstring(fh: FunctionHandle, bbh: BBHandle) -> Iterator[Tuple[Feature, Address]]:
    """extract stackstring indicators from basic block"""
    bb: ghidra.program.model.block.CodeBlock = bbh.inner
    if bb_contains_stackstring(bb):
        yield Characteristic("stack string"), bbh.address
 def extract_bb_tight_loop(fh: FunctionHandle, bbh: BBHandle) -> Iterator[Tuple[Feature, Address]]:
    """check basic block for tight loop indicators"""
    bb: ghidra.program.model.block.CodeBlock = bbh.inner
    if _bb_has_tight_loop(bb):
        yield Characteristic("tight loop"), bbh.address
 BASIC_BLOCK_HANDLERS = (
    extract_bb_tight_loop,
    extract_bb_stackstring,
 )
 def extract_features(fh: FunctionHandle, bbh: BBHandle) -> Iterator[Tuple[Feature, Address]]:
    """
    extract features from the given basic block.
    args:
        bb: the basic block to process.
    yields:
      Tuple[Feature, int]: the features and their location found in this basic block.
    """
    yield BasicBlock(), bbh.address
    for bb_handler in BASIC_BLOCK_HANDLERS:
        for feature, addr in bb_handler(fh, bbh):
            yield feature, addr
 def main():
    features = []
    from capa.features.extractors.ghidra.extractor import GhidraFeatureExtractor
    for fh in GhidraFeatureExtractor().get_functions():
        for bbh in capa.features.extractors.ghidra.helpers.get_function_blocks(fh):
            features.extend(list(extract_features(fh, bbh)))
    import pprint
    pprint.pprint(features)  # noqa: T203
 if __name__ == "__main__":
    main()
--- a/capa/features/extractors/ghidra/extractor.py
+++ b/capa/features/extractors/ghidra/extractor.py
@@ -1,93 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import List, Tuple, Iterator
 import capa.features.extractors.ghidra.file
 import capa.features.extractors.ghidra.insn
 import capa.features.extractors.ghidra.global_
 import capa.features.extractors.ghidra.function
 import capa.features.extractors.ghidra.basicblock
 from capa.features.common import Feature
 from capa.features.address import Address, AbsoluteVirtualAddress
 from capa.features.extractors.base_extractor import (
    BBHandle,
    InsnHandle,
    SampleHashes,
    FunctionHandle,
    StaticFeatureExtractor,
 )
 class GhidraFeatureExtractor(StaticFeatureExtractor):
    def __init__(self):
        import capa.features.extractors.ghidra.helpers as ghidra_helpers
        super().__init__(
            SampleHashes(
                md5=capa.ghidra.helpers.get_file_md5(),
                # ghidra doesn't expose this hash.
                # https://ghidra.re/ghidra_docs/api/ghidra/program/model/listing/Program.html
                #
                # the hashes are stored in the database, not computed on the fly,
                # so its probably not trivial to add SHA1.
                sha1="",
                sha256=capa.ghidra.helpers.get_file_sha256(),
            )
        )
        self.global_features: List[Tuple[Feature, Address]] = []
        self.global_features.extend(capa.features.extractors.ghidra.file.extract_file_format())
        self.global_features.extend(capa.features.extractors.ghidra.global_.extract_os())
        self.global_features.extend(capa.features.extractors.ghidra.global_.extract_arch())
        self.imports = ghidra_helpers.get_file_imports()
        self.externs = ghidra_helpers.get_file_externs()
        self.fakes = ghidra_helpers.map_fake_import_addrs()
    def get_base_address(self):
        return AbsoluteVirtualAddress(currentProgram().getImageBase().getOffset())  # type: ignore [name-defined] # noqa: F821
    def extract_global_features(self):
        yield from self.global_features
    def extract_file_features(self):
        yield from capa.features.extractors.ghidra.file.extract_features()
    def get_functions(self) -> Iterator[FunctionHandle]:
        import capa.features.extractors.ghidra.helpers as ghidra_helpers
        for fhandle in ghidra_helpers.get_function_symbols():
            fh: FunctionHandle = FunctionHandle(
                address=AbsoluteVirtualAddress(fhandle.getEntryPoint().getOffset()),
                inner=fhandle,
                ctx={"imports_cache": self.imports, "externs_cache": self.externs, "fakes_cache": self.fakes},
            )
            yield fh
    @staticmethod
    def get_function(addr: int) -> FunctionHandle:
        func = getFunctionContaining(toAddr(addr))  # type: ignore [name-defined] # noqa: F821
        return FunctionHandle(address=AbsoluteVirtualAddress(func.getEntryPoint().getOffset()), inner=func)
    def extract_function_features(self, fh: FunctionHandle) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.ghidra.function.extract_features(fh)
    def get_basic_blocks(self, fh: FunctionHandle) -> Iterator[BBHandle]:
        import capa.features.extractors.ghidra.helpers as ghidra_helpers
        yield from ghidra_helpers.get_function_blocks(fh)
    def extract_basic_block_features(self, fh: FunctionHandle, bbh: BBHandle) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.ghidra.basicblock.extract_features(fh, bbh)
    def get_instructions(self, fh: FunctionHandle, bbh: BBHandle) -> Iterator[InsnHandle]:
        import capa.features.extractors.ghidra.helpers as ghidra_helpers
        yield from ghidra_helpers.get_insn_in_range(bbh)
    def extract_insn_features(self, fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle):
        yield from capa.features.extractors.ghidra.insn.extract_features(fh, bbh, ih)
--- a/capa/features/extractors/ghidra/file.py
+++ b/capa/features/extractors/ghidra/file.py
@@ -1,204 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import re
 import struct
 from typing import List, Tuple, Iterator
 from ghidra.program.model.symbol import SourceType, SymbolType
 import capa.features.extractors.common
 import capa.features.extractors.helpers
 import capa.features.extractors.strings
 import capa.features.extractors.ghidra.helpers
 from capa.features.file import Export, Import, Section, FunctionName
 from capa.features.common import FORMAT_PE, FORMAT_ELF, Format, String, Feature, Characteristic
 from capa.features.address import NO_ADDRESS, Address, FileOffsetAddress, AbsoluteVirtualAddress
 MAX_OFFSET_PE_AFTER_MZ = 0x200
 def find_embedded_pe(block_bytez: bytes, mz_xor: List[Tuple[bytes, bytes, int]]) -> Iterator[Tuple[int, int]]:
    """check segment for embedded PE
    adapted for Ghidra from:
    https://github.com/vivisect/vivisect/blob/91e8419a861f4977https://github.com/vivisect/vivisect/blob/91e8419a861f49779f18316f155311967e696836/PE/carve.py#L259f18316f155311967e696836/PE/carve.py#L25
    """
    todo = []
    for mzx, pex, i in mz_xor:
        for match in re.finditer(re.escape(mzx), block_bytez):
            todo.append((match.start(), mzx, pex, i))
    seg_max = len(block_bytez)  # noqa: F821
    while len(todo):
        off, mzx, pex, i = todo.pop()
        # MZ header has one field we will check e_lfanew is at 0x3c
        e_lfanew = off + 0x3C
        if seg_max < e_lfanew + 4:
            continue
        e_lfanew_bytes = block_bytez[e_lfanew : e_lfanew + 4]
        newoff = struct.unpack("<I", capa.features.extractors.helpers.xor_static(e_lfanew_bytes, i))[0]
        # assume XOR'd "PE" bytes exist within threshold
        if newoff > MAX_OFFSET_PE_AFTER_MZ:
            continue
        peoff = off + newoff
        if seg_max < peoff + 2:
            continue
        pe_bytes = block_bytez[peoff : peoff + 2]
        if pe_bytes == pex:
            yield off, i
 def extract_file_embedded_pe() -> Iterator[Tuple[Feature, Address]]:
    """extract embedded PE features"""
    # pre-compute XOR pairs
    mz_xor: List[Tuple[bytes, bytes, int]] = [
        (
            capa.features.extractors.helpers.xor_static(b"MZ", i),
            capa.features.extractors.helpers.xor_static(b"PE", i),
            i,
        )
        for i in range(256)
    ]
    for block in currentProgram().getMemory().getBlocks():  # type: ignore [name-defined] # noqa: F821
        if not all((block.isLoaded(), block.isInitialized(), "Headers" not in block.getName())):
            continue
        for off, _ in find_embedded_pe(capa.features.extractors.ghidra.helpers.get_block_bytes(block), mz_xor):
            # add offset back to block start
            ea: int = block.getStart().add(off).getOffset()
            yield Characteristic("embedded pe"), FileOffsetAddress(ea)
 def extract_file_export_names() -> Iterator[Tuple[Feature, Address]]:
    """extract function exports"""
    st = currentProgram().getSymbolTable()  # type: ignore [name-defined] # noqa: F821
    for addr in st.getExternalEntryPointIterator():
        yield Export(st.getPrimarySymbol(addr).getName()), AbsoluteVirtualAddress(addr.getOffset())
 def extract_file_import_names() -> Iterator[Tuple[Feature, Address]]:
    """extract function imports
    1. imports by ordinal:
     - modulename.#ordinal
    2. imports by name, results in two features to support importname-only
       matching:
     - modulename.importname
     - importname
    """
    for f in currentProgram().getFunctionManager().getExternalFunctions():  # type: ignore [name-defined] # noqa: F821
        for r in f.getSymbol().getReferences():
            if r.getReferenceType().isData():
                addr = r.getFromAddress().getOffset()  # gets pointer to fake external addr
        fstr = f.toString().split("::")  # format: MODULE.dll::import / MODULE::Ordinal_*
        if "Ordinal_" in fstr[1]:
            fstr[1] = f"#{fstr[1].split('_')[1]}"
        for name in capa.features.extractors.helpers.generate_symbols(fstr[0][:-4], fstr[1], include_dll=True):
            yield Import(name), AbsoluteVirtualAddress(addr)
 def extract_file_section_names() -> Iterator[Tuple[Feature, Address]]:
    """extract section names"""
    for block in currentProgram().getMemory().getBlocks():  # type: ignore [name-defined] # noqa: F821
        yield Section(block.getName()), AbsoluteVirtualAddress(block.getStart().getOffset())
 def extract_file_strings() -> Iterator[Tuple[Feature, Address]]:
    """extract ASCII and UTF-16 LE strings"""
    for block in currentProgram().getMemory().getBlocks():  # type: ignore [name-defined] # noqa: F821
        if not block.isInitialized():
            continue
        p_bytes = capa.features.extractors.ghidra.helpers.get_block_bytes(block)
        for s in capa.features.extractors.strings.extract_ascii_strings(p_bytes):
            offset = block.getStart().getOffset() + s.offset
            yield String(s.s), FileOffsetAddress(offset)
        for s in capa.features.extractors.strings.extract_unicode_strings(p_bytes):
            offset = block.getStart().getOffset() + s.offset
            yield String(s.s), FileOffsetAddress(offset)
 def extract_file_function_names() -> Iterator[Tuple[Feature, Address]]:
    """
    extract the names of statically-linked library functions.
    """
    for sym in currentProgram().getSymbolTable().getAllSymbols(True):  # type: ignore [name-defined] # noqa: F821
        # .isExternal() misses more than this config for the function symbols
        if sym.getSymbolType() == SymbolType.FUNCTION and sym.getSource() == SourceType.ANALYSIS and sym.isGlobal():
            name = sym.getName()  # starts to resolve names based on Ghidra's FidDB
            if name.startswith("FID_conflict:"):  # format: FID_conflict:<function-name>
                name = name[13:]
            addr = AbsoluteVirtualAddress(sym.getAddress().getOffset())
            yield FunctionName(name), addr
            if name.startswith("_"):
                # some linkers may prefix linked routines with a `_` to avoid name collisions.
                # extract features for both the mangled and un-mangled representations.
                # e.g. `_fwrite` -> `fwrite`
                # see: https://stackoverflow.com/a/2628384/87207
                yield FunctionName(name[1:]), addr
 def extract_file_format() -> Iterator[Tuple[Feature, Address]]:
    ef = currentProgram().getExecutableFormat()  # type: ignore [name-defined] # noqa: F821
    if "PE" in ef:
        yield Format(FORMAT_PE), NO_ADDRESS
    elif "ELF" in ef:
        yield Format(FORMAT_ELF), NO_ADDRESS
    elif "Raw" in ef:
        # no file type to return when processing a binary file, but we want to continue processing
        return
    else:
        raise NotImplementedError(f"unexpected file format: {ef}")
 def extract_features() -> Iterator[Tuple[Feature, Address]]:
    """extract file features"""
    for file_handler in FILE_HANDLERS:
        for feature, addr in file_handler():
            yield feature, addr
 FILE_HANDLERS = (
    extract_file_embedded_pe,
    extract_file_export_names,
    extract_file_import_names,
    extract_file_section_names,
    extract_file_strings,
    extract_file_function_names,
    extract_file_format,
 )
 def main():
    """ """
    import pprint
    pprint.pprint(list(extract_features()))  # noqa: T203
 if __name__ == "__main__":
    main()
--- a/capa/features/extractors/ghidra/function.py
+++ b/capa/features/extractors/ghidra/function.py
@@ -1,73 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import Tuple, Iterator
 import ghidra
 from ghidra.program.model.block import BasicBlockModel, SimpleBlockIterator
 import capa.features.extractors.ghidra.helpers
 from capa.features.common import Feature, Characteristic
 from capa.features.address import Address, AbsoluteVirtualAddress
 from capa.features.extractors import loops
 from capa.features.extractors.base_extractor import FunctionHandle
 def extract_function_calls_to(fh: FunctionHandle):
    """extract callers to a function"""
    f: ghidra.program.database.function.FunctionDB = fh.inner
    for ref in f.getSymbol().getReferences():
        if ref.getReferenceType().isCall():
            yield Characteristic("calls to"), AbsoluteVirtualAddress(ref.getFromAddress().getOffset())
 def extract_function_loop(fh: FunctionHandle):
    f: ghidra.program.database.function.FunctionDB = fh.inner
    edges = []
    for block in SimpleBlockIterator(BasicBlockModel(currentProgram()), f.getBody(), monitor()):  # type: ignore [name-defined] # noqa: F821
        dests = block.getDestinations(monitor())  # type: ignore [name-defined] # noqa: F821
        s_addrs = block.getStartAddresses()
        while dests.hasNext():  # For loop throws Python TypeError
            for addr in s_addrs:
                edges.append((addr.getOffset(), dests.next().getDestinationAddress().getOffset()))
    if loops.has_loop(edges):
        yield Characteristic("loop"), AbsoluteVirtualAddress(f.getEntryPoint().getOffset())
 def extract_recursive_call(fh: FunctionHandle):
    f: ghidra.program.database.function.FunctionDB = fh.inner
    for func in f.getCalledFunctions(monitor()):  # type: ignore [name-defined] # noqa: F821
        if func.getEntryPoint().getOffset() == f.getEntryPoint().getOffset():
            yield Characteristic("recursive call"), AbsoluteVirtualAddress(f.getEntryPoint().getOffset())
 def extract_features(fh: FunctionHandle) -> Iterator[Tuple[Feature, Address]]:
    for func_handler in FUNCTION_HANDLERS:
        for feature, addr in func_handler(fh):
            yield feature, addr
 FUNCTION_HANDLERS = (extract_function_calls_to, extract_function_loop, extract_recursive_call)
 def main():
    """ """
    features = []
    for fhandle in capa.features.extractors.ghidra.helpers.get_function_symbols():
        features.extend(list(extract_features(fhandle)))
    import pprint
    pprint.pprint(features)  # noqa: T203
 if __name__ == "__main__":
    main()
--- a/capa/features/extractors/ghidra/global_.py
+++ b/capa/features/extractors/ghidra/global_.py
@@ -1,67 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 import contextlib
 from typing import Tuple, Iterator
 import capa.ghidra.helpers
 import capa.features.extractors.elf
 import capa.features.extractors.ghidra.helpers
 from capa.features.common import OS, ARCH_I386, ARCH_AMD64, OS_WINDOWS, Arch, Feature
 from capa.features.address import NO_ADDRESS, Address
 logger = logging.getLogger(__name__)
 def extract_os() -> Iterator[Tuple[Feature, Address]]:
    format_name: str = currentProgram().getExecutableFormat()  # type: ignore [name-defined] # noqa: F821
    if "PE" in format_name:
        yield OS(OS_WINDOWS), NO_ADDRESS
    elif "ELF" in format_name:
        with contextlib.closing(capa.ghidra.helpers.GHIDRAIO()) as f:
            os = capa.features.extractors.elf.detect_elf_os(f)
        yield OS(os), NO_ADDRESS
    else:
        # we likely end up here:
        #  1. handling shellcode, or
        #  2. handling a new file format (e.g. macho)
        #
        # for (1) we can't do much - its shellcode and all bets are off.
        # we could maybe accept a further CLI argument to specify the OS,
        # but i think this would be rarely used.
        # rules that rely on OS conditions will fail to match on shellcode.
        #
        # for (2), this logic will need to be updated as the format is implemented.
        logger.debug("unsupported file format: %s, will not guess OS", format_name)
        return
 def extract_arch() -> Iterator[Tuple[Feature, Address]]:
    lang_id = currentProgram().getMetadata().get("Language ID")  # type: ignore [name-defined] # noqa: F821
    if "x86" in lang_id and "64" in lang_id:
        yield Arch(ARCH_AMD64), NO_ADDRESS
    elif "x86" in lang_id and "32" in lang_id:
        yield Arch(ARCH_I386), NO_ADDRESS
    elif "x86" not in lang_id:
        logger.debug("unsupported architecture: non-32-bit nor non-64-bit intel")
        return
    else:
        # we likely end up here:
        #  1. handling a new architecture (e.g. aarch64)
        #
        # for (1), this logic will need to be updated as the format is implemented.
        logger.debug("unsupported architecture: %s", lang_id)
        return
--- a/capa/features/extractors/ghidra/helpers.py
+++ b/capa/features/extractors/ghidra/helpers.py
@@ -1,301 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import Dict, List, Iterator
 import ghidra
 import java.lang
 from ghidra.program.model.lang import OperandType
 from ghidra.program.model.block import BasicBlockModel, SimpleBlockIterator
 from ghidra.program.model.symbol import SourceType, SymbolType
 from ghidra.program.model.address import AddressSpace
 import capa.features.extractors.helpers
 from capa.features.common import THUNK_CHAIN_DEPTH_DELTA
 from capa.features.address import AbsoluteVirtualAddress
 from capa.features.extractors.base_extractor import BBHandle, InsnHandle, FunctionHandle
 def ints_to_bytes(bytez: List[int]) -> bytes:
    """convert Java signed ints to Python bytes
    args:
        bytez: list of Java signed ints
    """
    return bytes([b & 0xFF for b in bytez])
 def find_byte_sequence(addr: ghidra.program.model.address.Address, seq: bytes) -> Iterator[int]:
    """yield all ea of a given byte sequence
    args:
        addr: start address
        seq: bytes to search e.g. b"\x01\x03"
    """
    seqstr = "".join([f"\\x{b:02x}" for b in seq])
    eas = findBytes(addr, seqstr, java.lang.Integer.MAX_VALUE, 1)  # type: ignore [name-defined] # noqa: F821
    yield from eas
 def get_bytes(addr: ghidra.program.model.address.Address, length: int) -> bytes:
    """yield length bytes at addr
    args:
        addr: Address to begin pull from
        length: length of bytes to pull
    """
    try:
        return ints_to_bytes(getBytes(addr, length))  # type: ignore [name-defined] # noqa: F821
    except RuntimeError:
        return b""
 def get_block_bytes(block: ghidra.program.model.mem.MemoryBlock) -> bytes:
    """yield all bytes in a given block
    args:
        block: MemoryBlock to pull from
    """
    return get_bytes(block.getStart(), block.getSize())
 def get_function_symbols():
    """yield all non-external function symbols"""
    yield from currentProgram().getFunctionManager().getFunctionsNoStubs(True)  # type: ignore [name-defined] # noqa: F821
 def get_function_blocks(fh: FunctionHandle) -> Iterator[BBHandle]:
    """yield BBHandle for each bb in a given function"""
    func: ghidra.program.database.function.FunctionDB = fh.inner
    for bb in SimpleBlockIterator(BasicBlockModel(currentProgram()), func.getBody(), monitor()):  # type: ignore [name-defined] # noqa: F821
        yield BBHandle(address=AbsoluteVirtualAddress(bb.getMinAddress().getOffset()), inner=bb)
 def get_insn_in_range(bbh: BBHandle) -> Iterator[InsnHandle]:
    """yield InshHandle for each insn in a given basicblock"""
    for insn in currentProgram().getListing().getInstructions(bbh.inner, True):  # type: ignore [name-defined] # noqa: F821
        yield InsnHandle(address=AbsoluteVirtualAddress(insn.getAddress().getOffset()), inner=insn)
 def get_file_imports() -> Dict[int, List[str]]:
    """get all import names & addrs"""
    import_dict: Dict[int, List[str]] = {}
    for f in currentProgram().getFunctionManager().getExternalFunctions():  # type: ignore [name-defined] # noqa: F821
        for r in f.getSymbol().getReferences():
            if r.getReferenceType().isData():
                addr = r.getFromAddress().getOffset()  # gets pointer to fake external addr
        ex_loc = f.getExternalLocation().getAddress()  # map external locations as well (offset into module files)
        fstr = f.toString().split("::")  # format: MODULE.dll::import / MODULE::Ordinal_* / <EXTERNAL>::import
        if "Ordinal_" in fstr[1]:
            fstr[1] = f"#{fstr[1].split('_')[1]}"
        # <EXTERNAL> mostly shows up in ELF files, otherwise, strip '.dll' w/ [:-4]
        fstr[0] = "*" if "<EXTERNAL>" in fstr[0] else fstr[0][:-4]
        for name in capa.features.extractors.helpers.generate_symbols(fstr[0], fstr[1]):
            import_dict.setdefault(addr, []).append(name)
            if ex_loc:
                import_dict.setdefault(ex_loc.getOffset(), []).append(name)
    return import_dict
 def get_file_externs() -> Dict[int, List[str]]:
    """
    Gets function names & addresses of statically-linked library functions
    Ghidra's external namespace is mostly reserved for dynamically-linked
    imports. Statically-linked functions are part of the global namespace.
    Filtering on the type, source, and namespace of the symbols yield more
    statically-linked library functions.
    Example: (PMA Lab 16-01.exe_) 7faafc7e4a5c736ebfee6abbbc812d80:0x407490
    - __aulldiv
    - Note: See Symbol Table labels
    """
    extern_dict: Dict[int, List[str]] = {}
    for sym in currentProgram().getSymbolTable().getAllSymbols(True):  # type: ignore [name-defined] # noqa: F821
        # .isExternal() misses more than this config for the function symbols
        if sym.getSymbolType() == SymbolType.FUNCTION and sym.getSource() == SourceType.ANALYSIS and sym.isGlobal():
            name = sym.getName()  # starts to resolve names based on Ghidra's FidDB
            if name.startswith("FID_conflict:"):  # format: FID_conflict:<function-name>
                name = name[13:]
            extern_dict.setdefault(sym.getAddress().getOffset(), []).append(name)
            if name.startswith("_"):
                # some linkers may prefix linked routines with a `_` to avoid name collisions.
                # extract features for both the mangled and un-mangled representations.
                # e.g. `_fwrite` -> `fwrite`
                # see: https://stackoverflow.com/a/2628384/87207
                extern_dict.setdefault(sym.getAddress().getOffset(), []).append(name[1:])
    return extern_dict
 def map_fake_import_addrs() -> Dict[int, List[int]]:
    """
    Map ghidra's fake import entrypoints to their
    real addresses
    Helps as many Ghidra Scripting API calls end up returning
    these external (fake) addresses.
    Undocumented but intended Ghidra behavior:
     - Import entryPoint fields are stored in the 'EXTERNAL:' AddressSpace.
       'getEntryPoint()' returns the entryPoint field, which is an offset
       from the beginning of the assigned AddressSpace. In the case of externals,
       they start from 1 and increment.
    https://github.com/NationalSecurityAgency/ghidra/blob/26d4bd9104809747c21f2528cab8aba9aef9acd5/Ghidra/Features/Base/src/test.slow/java/ghidra/program/database/function/ExternalFunctionDBTest.java#L90
    Example: (mimikatz.exe_) 5f66b82558ca92e54e77f216ef4c066c:0x473090
    - 0x473090 -> PTR_CreateServiceW_00473090
    - 'EXTERNAL:00000025' -> External Address (ghidra.program.model.address.SpecialAddress)
    """
    fake_dict: Dict[int, List[int]] = {}
    for f in currentProgram().getFunctionManager().getExternalFunctions():  # type: ignore [name-defined] # noqa: F821
        for r in f.getSymbol().getReferences():
            if r.getReferenceType().isData():
                fake_dict.setdefault(f.getEntryPoint().getOffset(), []).append(r.getFromAddress().getOffset())
    return fake_dict
 def check_addr_for_api(
    addr: ghidra.program.model.address.Address,
    fakes: Dict[int, List[int]],
    imports: Dict[int, List[str]],
    externs: Dict[int, List[str]],
 ) -> bool:
    offset = addr.getOffset()
    fake = fakes.get(offset)
    if fake:
        return True
    imp = imports.get(offset)
    if imp:
        return True
    extern = externs.get(offset)
    if extern:
        return True
    return False
 def is_call_or_jmp(insn: ghidra.program.database.code.InstructionDB) -> bool:
    return any(mnem in insn.getMnemonicString() for mnem in ["CALL", "J"])  # JMP, JNE, JNZ, etc
 def is_sp_modified(insn: ghidra.program.database.code.InstructionDB) -> bool:
    for i in range(insn.getNumOperands()):
        if insn.getOperandType(i) == OperandType.REGISTER:
            return "SP" in insn.getRegister(i).getName() and insn.getOperandRefType(i).isWrite()
    return False
 def is_stack_referenced(insn: ghidra.program.database.code.InstructionDB) -> bool:
    """generic catch-all for stack references"""
    for i in range(insn.getNumOperands()):
        if insn.getOperandType(i) == OperandType.REGISTER:
            if "BP" in insn.getRegister(i).getName():
                return True
            else:
                continue
    return any(ref.isStackReference() for ref in insn.getReferencesFrom())
 def is_zxor(insn: ghidra.program.database.code.InstructionDB) -> bool:
    # assume XOR insn
    # XOR's against the same operand zero out
    ops = []
    operands = []
    for i in range(insn.getNumOperands()):
        ops.append(insn.getOpObjects(i))
    # Operands stored in a 2D array
    for j in range(len(ops)):
        for k in range(len(ops[j])):
            operands.append(ops[j][k])
    return all(n == operands[0] for n in operands)
 def handle_thunk(addr: ghidra.program.model.address.Address):
    """Follow thunk chains down to a reasonable depth"""
    ref = addr
    for _ in range(THUNK_CHAIN_DEPTH_DELTA):
        thunk_jmp = getInstructionAt(ref)  # type: ignore [name-defined] # noqa: F821
        if thunk_jmp and is_call_or_jmp(thunk_jmp):
            if OperandType.isAddress(thunk_jmp.getOperandType(0)):
                ref = thunk_jmp.getAddress(0)
        else:
            thunk_dat = getDataContaining(ref)  # type: ignore [name-defined] # noqa: F821
            if thunk_dat and thunk_dat.isDefined() and thunk_dat.isPointer():
                ref = thunk_dat.getValue()
                break  # end of thunk chain reached
    return ref
 def dereference_ptr(insn: ghidra.program.database.code.InstructionDB):
    addr_code = OperandType.ADDRESS | OperandType.CODE
    to_deref = insn.getAddress(0)
    dat = getDataContaining(to_deref)  # type: ignore [name-defined] # noqa: F821
    if insn.getOperandType(0) == addr_code:
        thfunc = getFunctionContaining(to_deref)  # type: ignore [name-defined] # noqa: F821
        if thfunc and thfunc.isThunk():
            return handle_thunk(to_deref)
        else:
            # if it doesn't poin to a thunk, it's usually a jmp to a label
            return to_deref
    if not dat:
        return to_deref
    if dat.isDefined() and dat.isPointer():
        addr = dat.getValue()
        # now we need to check the addr space to see if it is truly resolvable
        # ghidra sometimes likes to hand us direct RAM addrs, which typically point
        # to api calls that we can't actually resolve as such
        if addr.getAddressSpace().getType() == AddressSpace.TYPE_RAM:
            return to_deref
        else:
            return addr
    else:
        return to_deref
 def find_data_references_from_insn(insn, max_depth: int = 10):
    """yield data references from given instruction"""
    for reference in insn.getReferencesFrom():
        if not reference.getReferenceType().isData():
            # only care about data references
            continue
        to_addr = reference.getToAddress()
        for _ in range(max_depth - 1):
            data = getDataAt(to_addr)  # type: ignore [name-defined] # noqa: F821
            if data and data.isPointer():
                ptr_value = data.getValue()
                if ptr_value is None:
                    break
                to_addr = ptr_value
            else:
                break
        yield to_addr
--- a/capa/features/extractors/ghidra/insn.py
+++ b/capa/features/extractors/ghidra/insn.py
@@ -1,503 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import Any, Dict, Tuple, Iterator
 import ghidra
 from ghidra.program.model.lang import OperandType
 from ghidra.program.model.block import SimpleBlockModel
 import capa.features.extractors.helpers
 import capa.features.extractors.ghidra.helpers
 from capa.features.insn import API, MAX_STRUCTURE_SIZE, Number, Offset, Mnemonic, OperandNumber, OperandOffset
 from capa.features.common import MAX_BYTES_FEATURE_SIZE, Bytes, String, Feature, Characteristic
 from capa.features.address import Address, AbsoluteVirtualAddress
 from capa.features.extractors.base_extractor import BBHandle, InsnHandle, FunctionHandle
 # security cookie checks may perform non-zeroing XORs, these are expected within a certain
 # byte range within the first and returning basic blocks, this helps to reduce FP features
 SECURITY_COOKIE_BYTES_DELTA = 0x40
 OPERAND_TYPE_DYNAMIC_ADDRESS = OperandType.DYNAMIC | OperandType.ADDRESS
 def get_imports(ctx: Dict[str, Any]) -> Dict[int, Any]:
    """Populate the import cache for this context"""
    if "imports_cache" not in ctx:
        ctx["imports_cache"] = capa.features.extractors.ghidra.helpers.get_file_imports()
    return ctx["imports_cache"]
 def get_externs(ctx: Dict[str, Any]) -> Dict[int, Any]:
    """Populate the externs cache for this context"""
    if "externs_cache" not in ctx:
        ctx["externs_cache"] = capa.features.extractors.ghidra.helpers.get_file_externs()
    return ctx["externs_cache"]
 def get_fakes(ctx: Dict[str, Any]) -> Dict[int, Any]:
    """Populate the fake import addrs cache for this context"""
    if "fakes_cache" not in ctx:
        ctx["fakes_cache"] = capa.features.extractors.ghidra.helpers.map_fake_import_addrs()
    return ctx["fakes_cache"]
 def check_for_api_call(
    insn, externs: Dict[int, Any], fakes: Dict[int, Any], imports: Dict[int, Any], imp_or_ex: bool
 ) -> Iterator[Any]:
    """check instruction for API call
    params:
        externs - external library functions cache
        fakes - mapped fake import addresses cache
        imports - imported functions cache
        imp_or_ex - flag to check imports or externs
    yields:
        matched api calls
    """
    info = ()
    funcs = imports if imp_or_ex else externs
    # assume only CALLs or JMPs are passed
    ref_type = insn.getOperandType(0)
    addr_data = OperandType.ADDRESS | OperandType.DATA  # needs dereferencing
    addr_code = OperandType.ADDRESS | OperandType.CODE  # needs dereferencing
    if OperandType.isRegister(ref_type):
        if OperandType.isAddress(ref_type):
            # If it's an address in a register, check the mapped fake addrs
            # since they're dereferenced to their fake addrs
            op_ref = insn.getAddress(0).getOffset()
            ref = fakes.get(op_ref)  # obtain the real addr
            if not ref:
                return
        else:
            return
    elif ref_type in (addr_data, addr_code) or (OperandType.isIndirect(ref_type) and OperandType.isAddress(ref_type)):
        # we must dereference and check if the addr is a pointer to an api function
        addr_ref = capa.features.extractors.ghidra.helpers.dereference_ptr(insn)
        if not capa.features.extractors.ghidra.helpers.check_addr_for_api(addr_ref, fakes, imports, externs):
            return
        ref = addr_ref.getOffset()
    elif ref_type == OPERAND_TYPE_DYNAMIC_ADDRESS or ref_type == OperandType.DYNAMIC:
        return  # cannot resolve dynamics statically
    else:
        # pure address does not need to get dereferenced/ handled
        addr_ref = insn.getAddress(0)
        if not addr_ref:
            # If it returned null, it was an indirect
            # that had no address reference.
            # This check is faster than checking for (indirect and not address)
            return
        if not capa.features.extractors.ghidra.helpers.check_addr_for_api(addr_ref, fakes, imports, externs):
            return
        ref = addr_ref.getOffset()
    if isinstance(ref, list):  # ref from REG | ADDR
        for r in ref:
            info = funcs.get(r)  # type: ignore
            if info:
                yield info
    else:
        info = funcs.get(ref)  # type: ignore
        if info:
            yield info
 def extract_insn_api_features(fh: FunctionHandle, bb: BBHandle, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    insn: ghidra.program.database.code.InstructionDB = ih.inner
    if not capa.features.extractors.ghidra.helpers.is_call_or_jmp(insn):
        return
    externs = get_externs(fh.ctx)
    fakes = get_fakes(fh.ctx)
    imports = get_imports(fh.ctx)
    # check calls to imported functions
    for api in check_for_api_call(insn, externs, fakes, imports, True):
        for imp in api:
            yield API(imp), ih.address
    # check calls to extern functions
    for api in check_for_api_call(insn, externs, fakes, imports, False):
        for ext in api:
            yield API(ext), ih.address
 def extract_insn_number_features(fh: FunctionHandle, bb: BBHandle, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """
    parse instruction number features
    example:
        push    3136B0h         ; dwControlCode
    """
    insn: ghidra.program.database.code.InstructionDB = ih.inner
    if insn.getMnemonicString().startswith("RET"):
        # skip things like:
        #   .text:0042250E retn 8
        return
    if capa.features.extractors.ghidra.helpers.is_sp_modified(insn):
        # skip things like:
        #   .text:00401145 add esp, 0Ch
        return
    for i in range(insn.getNumOperands()):
        # Exceptions for LEA insn:
        # invalid operand encoding, considered numbers instead of offsets
        # see: mimikatz.exe_:0x4018C0
        if insn.getOperandType(i) == OperandType.DYNAMIC and insn.getMnemonicString().startswith("LEA"):
            # Additional check, avoid yielding "wide" values (ex. mimikatz.exe:0x471EE6 LEA EBX, [ECX + EAX*0x4])
            op_objs = insn.getOpObjects(i)
            if len(op_objs) == 3:  # ECX, EAX, 0x4
                continue
            if isinstance(op_objs[-1], ghidra.program.model.scalar.Scalar):
                const = op_objs[-1].getUnsignedValue()
                addr = ih.address
                yield Number(const), addr
                yield OperandNumber(i, const), addr
        elif not OperandType.isScalar(insn.getOperandType(i)):
            # skip things like:
            #   references, void types
            continue
        else:
            const = insn.getScalar(i).getUnsignedValue()
            addr = ih.address
            yield Number(const), addr
            yield OperandNumber(i, const), addr
            if insn.getMnemonicString().startswith("ADD") and 0 < const < MAX_STRUCTURE_SIZE:
                # for pattern like:
                #
                #     add eax, 0x10
                #
                # assume 0x10 is also an offset (imagine eax is a pointer).
                yield Offset(const), addr
                yield OperandOffset(i, const), addr
 def extract_insn_offset_features(fh: FunctionHandle, bb: BBHandle, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """
    parse instruction structure offset features
    example:
        .text:0040112F cmp [esi+4], ebx
    """
    insn: ghidra.program.database.code.InstructionDB = ih.inner
    if insn.getMnemonicString().startswith("LEA"):
        return
    if capa.features.extractors.ghidra.helpers.is_stack_referenced(insn):
        # ignore stack references
        return
    # Ghidra stores operands in 2D arrays if they contain offsets
    for i in range(insn.getNumOperands()):
        if insn.getOperandType(i) == OperandType.DYNAMIC:  # e.g. [esi + 4]
            # manual extraction, since the default api calls only work on the 1st dimension of the array
            op_objs = insn.getOpObjects(i)
            if not op_objs:
                continue
            if isinstance(op_objs[-1], ghidra.program.model.scalar.Scalar):
                op_off = op_objs[-1].getValue()
            else:
                op_off = 0
            yield Offset(op_off), ih.address
            yield OperandOffset(i, op_off), ih.address
 def extract_insn_bytes_features(fh: FunctionHandle, bb: BBHandle, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """
    parse referenced byte sequences
    example:
        push    offset iid_004118d4_IShellLinkA ; riid
    """
    for addr in capa.features.extractors.ghidra.helpers.find_data_references_from_insn(ih.inner):
        data = getDataAt(addr)  # type: ignore [name-defined] # noqa: F821
        if data and not data.hasStringValue():
            extracted_bytes = capa.features.extractors.ghidra.helpers.get_bytes(addr, MAX_BYTES_FEATURE_SIZE)
            if extracted_bytes and not capa.features.extractors.helpers.all_zeros(extracted_bytes):
                yield Bytes(extracted_bytes), ih.address
 def extract_insn_string_features(fh: FunctionHandle, bb: BBHandle, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
    """
    parse instruction string features
    example:
        push offset aAcr     ; "ACR  > "
    """
    for addr in capa.features.extractors.ghidra.helpers.find_data_references_from_insn(ih.inner):
        data = getDataAt(addr)  # type: ignore [name-defined] # noqa: F821
        if data and data.hasStringValue():
            yield String(data.getValue()), ih.address
 def extract_insn_mnemonic_features(
    fh: FunctionHandle, bb: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction mnemonic features"""
    insn: ghidra.program.database.code.InstructionDB = ih.inner
    yield Mnemonic(insn.getMnemonicString().lower()), ih.address
 def extract_insn_obfs_call_plus_5_characteristic_features(
    fh: FunctionHandle, bb: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """
    parse call $+5 instruction from the given instruction.
    """
    insn: ghidra.program.database.code.InstructionDB = ih.inner
    if not capa.features.extractors.ghidra.helpers.is_call_or_jmp(insn):
        return
    code_ref = OperandType.ADDRESS | OperandType.CODE
    ref = insn.getAddress()
    for i in range(insn.getNumOperands()):
        if insn.getOperandType(i) == code_ref:
            ref = insn.getAddress(i)
    if insn.getAddress().add(5) == ref:
        yield Characteristic("call $+5"), ih.address
 def extract_insn_segment_access_features(
    fh: FunctionHandle, bb: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction fs or gs access"""
    insn: ghidra.program.database.code.InstructionDB = ih.inner
    insn_str = insn.toString()
    if "FS:" in insn_str:
        yield Characteristic("fs access"), ih.address
    if "GS:" in insn_str:
        yield Characteristic("gs access"), ih.address
 def extract_insn_peb_access_characteristic_features(
    fh: FunctionHandle, bb: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction peb access
    fs:[0x30] on x86, gs:[0x60] on x64
    """
    insn: ghidra.program.database.code.InstructionDB = ih.inner
    insn_str = insn.toString()
    if insn_str.startswith(("PUSH", "MOV")):
        if "FS:[0x30]" in insn_str or "GS:[0x60]" in insn_str:
            yield Characteristic("peb access"), ih.address
 def extract_insn_cross_section_cflow(
    fh: FunctionHandle, bb: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """inspect the instruction for a CALL or JMP that crosses section boundaries"""
    insn: ghidra.program.database.code.InstructionDB = ih.inner
    if not capa.features.extractors.ghidra.helpers.is_call_or_jmp(insn):
        return
    externs = get_externs(fh.ctx)
    fakes = get_fakes(fh.ctx)
    imports = get_imports(fh.ctx)
    # OperandType to dereference
    addr_data = OperandType.ADDRESS | OperandType.DATA
    addr_code = OperandType.ADDRESS | OperandType.CODE
    ref_type = insn.getOperandType(0)
    # both OperandType flags must be present
    # bail on REGISTER alone
    if OperandType.isRegister(ref_type):
        if OperandType.isAddress(ref_type):
            ref = insn.getAddress(0)  # Ghidra dereferences REG | ADDR
            if capa.features.extractors.ghidra.helpers.check_addr_for_api(ref, fakes, imports, externs):
                return
        else:
            return
    elif ref_type in (addr_data, addr_code) or (OperandType.isIndirect(ref_type) and OperandType.isAddress(ref_type)):
        # we must dereference and check if the addr is a pointer to an api function
        ref = capa.features.extractors.ghidra.helpers.dereference_ptr(insn)
        if capa.features.extractors.ghidra.helpers.check_addr_for_api(ref, fakes, imports, externs):
            return
    elif ref_type == OPERAND_TYPE_DYNAMIC_ADDRESS or ref_type == OperandType.DYNAMIC:
        return  # cannot resolve dynamics statically
    else:
        # pure address does not need to get dereferenced/ handled
        ref = insn.getAddress(0)
        if not ref:
            # If it returned null, it was an indirect
            # that had no address reference.
            # This check is faster than checking for (indirect and not address)
            return
        if capa.features.extractors.ghidra.helpers.check_addr_for_api(ref, fakes, imports, externs):
            return
    this_mem_block = getMemoryBlock(insn.getAddress())  # type: ignore [name-defined] # noqa: F821
    ref_block = getMemoryBlock(ref)  # type: ignore [name-defined] # noqa: F821
    if ref_block != this_mem_block:
        yield Characteristic("cross section flow"), ih.address
 def extract_function_calls_from(
    fh: FunctionHandle,
    bb: BBHandle,
    ih: InsnHandle,
 ) -> Iterator[Tuple[Feature, Address]]:
    """extract functions calls from features
    most relevant at the function scope, however, its most efficient to extract at the instruction scope
    """
    insn: ghidra.program.database.code.InstructionDB = ih.inner
    if insn.getMnemonicString().startswith("CALL"):
        # This method of "dereferencing" addresses/ pointers
        # is not as robust as methods in other functions,
        # but works just fine for this one
        reference = 0
        for ref in insn.getReferencesFrom():
            addr = ref.getToAddress()
            # avoid returning fake addrs
            if not addr.isExternalAddress():
                reference = addr.getOffset()
            # if a reference is < 0, then ghidra pulled an offset from a DYNAMIC | ADDR (usually a stackvar)
            # these cannot be resolved to actual addrs
            if reference > 0:
                yield Characteristic("calls from"), AbsoluteVirtualAddress(reference)
 def extract_function_indirect_call_characteristic_features(
    fh: FunctionHandle,
    bb: BBHandle,
    ih: InsnHandle,
 ) -> Iterator[Tuple[Feature, Address]]:
    """extract indirect function calls (e.g., call eax or call dword ptr [edx+4])
    does not include calls like => call ds:dword_ABD4974
    most relevant at the function or basic block scope;
    however, its most efficient to extract at the instruction scope
    """
    insn: ghidra.program.database.code.InstructionDB = ih.inner
    if insn.getMnemonicString().startswith("CALL"):
        if OperandType.isRegister(insn.getOperandType(0)):
            yield Characteristic("indirect call"), ih.address
        if OperandType.isIndirect(insn.getOperandType(0)):
            yield Characteristic("indirect call"), ih.address
 def check_nzxor_security_cookie_delta(
    fh: ghidra.program.database.function.FunctionDB, insn: ghidra.program.database.code.InstructionDB
 ):
    """Get the function containing the insn
    Get the last block of the function that contains the insn
    Check the bb containing the insn
    Check the last bb of the function containing the insn
    """
    model = SimpleBlockModel(currentProgram())  # type: ignore [name-defined] # noqa: F821
    insn_addr = insn.getAddress()
    func_asv = fh.getBody()
    first_addr = func_asv.getMinAddress()
    last_addr = func_asv.getMaxAddress()
    if model.getFirstCodeBlockContaining(
        first_addr, monitor()  # type: ignore [name-defined] # noqa: F821
    ) == model.getFirstCodeBlockContaining(
        last_addr, monitor()  # type: ignore [name-defined] # noqa: F821
    ):
        if insn_addr < first_addr.add(SECURITY_COOKIE_BYTES_DELTA):
            return True
        else:
            return insn_addr > last_addr.add(SECURITY_COOKIE_BYTES_DELTA * -1)
    else:
        return False
 def extract_insn_nzxor_characteristic_features(
    fh: FunctionHandle,
    bb: BBHandle,
    ih: InsnHandle,
 ) -> Iterator[Tuple[Feature, Address]]:
    f: ghidra.program.database.function.FunctionDB = fh.inner
    insn: ghidra.program.database.code.InstructionDB = ih.inner
    if "XOR" not in insn.getMnemonicString():
        return
    if capa.features.extractors.ghidra.helpers.is_stack_referenced(insn):
        return
    if capa.features.extractors.ghidra.helpers.is_zxor(insn):
        return
    if check_nzxor_security_cookie_delta(f, insn):
        return
    yield Characteristic("nzxor"), ih.address
 def extract_features(
    fh: FunctionHandle,
    bb: BBHandle,
    insn: InsnHandle,
 ) -> Iterator[Tuple[Feature, Address]]:
    for insn_handler in INSTRUCTION_HANDLERS:
        for feature, addr in insn_handler(fh, bb, insn):
            yield feature, addr
 INSTRUCTION_HANDLERS = (
    extract_insn_api_features,
    extract_insn_number_features,
    extract_insn_bytes_features,
    extract_insn_string_features,
    extract_insn_offset_features,
    extract_insn_nzxor_characteristic_features,
    extract_insn_mnemonic_features,
    extract_insn_obfs_call_plus_5_characteristic_features,
    extract_insn_peb_access_characteristic_features,
    extract_insn_cross_section_cflow,
    extract_insn_segment_access_features,
    extract_function_calls_from,
    extract_function_indirect_call_characteristic_features,
 )
 def main():
    """ """
    features = []
    from capa.features.extractors.ghidra.extractor import GhidraFeatureExtractor
    for fh in GhidraFeatureExtractor().get_functions():
        for bb in capa.features.extractors.ghidra.helpers.get_function_blocks(fh):
            for insn in capa.features.extractors.ghidra.helpers.get_insn_in_range(bb):
                features.extend(list(extract_features(fh, bb, insn)))
    import pprint
    pprint.pprint(features)  # noqa: T203
 if __name__ == "__main__":
    main()
--- a/capa/features/extractors/helpers.py
+++ b/capa/features/extractors/helpers.py
@@ -1,4 +1,4 @@
-# Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
@@ -6,18 +6,23 @@
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
-import struct
+import sys
 import builtins
-from typing import Tuple, Iterator
+
 from capa.features.file import Import
 from capa.features.insn import API
 MIN_STACKSTRING_LEN = 8
-def xor_static(data: bytes, i: int) -> bytes:
+def xor_static(data, i):
-    return bytes(c ^ i for c in data)
+    if sys.version_info >= (3, 0):
        return bytes(c ^ i for c in data)
    else:
        return "".join(chr(ord(c) ^ i) for c in data)
-def is_aw_function(symbol: str) -> bool:
+def is_aw_function(symbol):
    """
    is the given function name an A/W function?
    these are variants of functions that, on Windows, accept either a narrow or wide string.
@@ -29,10 +34,11 @@ def is_aw_function(symbol: str) -> bool:
    if symbol[-1] not in ("A", "W"):
        return False
-    return True
+    # second to last character should be lowercase letter
    return "a" <= symbol[-2] <= "z" or "0" <= symbol[-2] <= "9"
-def is_ordinal(symbol: str) -> bool:
+def is_ordinal(symbol):
    """
    is the given symbol an ordinal that is prefixed by "#"?
    """
@@ -41,69 +47,37 @@ def is_ordinal(symbol: str) -> bool:
    return False
-def generate_symbols(dll: str, symbol: str, include_dll=False) -> Iterator[str]:
+def generate_symbols(dll, symbol):
    """
    for a given dll and symbol name, generate variants.
    we over-generate features to make matching easier.
    these include:
      - CreateFileA
      - CreateFile
      - ws2_32.#1
    note that since capa v7 only `import` features and APIs called via ordinal include DLL names:
      - kernel32.CreateFileA
      - kernel32.CreateFile
-      - ws2_32.#1
+      - CreateFileA
-
+      - CreateFile
    for `api` features dll names are good for documentation but not used during matching
    """
-    # normalize dll name
+    # kernel32.CreateFileA
-    dll = dll.lower()
+    yield "%s.%s" % (dll, symbol)
    # trim extensions observed in dynamic traces
    dll = dll[0:-4] if dll.endswith(".dll") else dll
    dll = dll[0:-4] if dll.endswith(".drv") else dll
    if include_dll or is_ordinal(symbol):
        # ws2_32.#1
        # kernel32.CreateFileA
        yield f"{dll}.{symbol}"
    if not is_ordinal(symbol):
        # CreateFileA
        yield symbol
-        if is_aw_function(symbol):
+    if is_aw_function(symbol):
-            if include_dll:
+        # kernel32.CreateFile
-                # kernel32.CreateFile
+        yield "%s.%s" % (dll, symbol[:-1])
                yield f"{dll}.{symbol[:-1]}"
        if not is_ordinal(symbol):
            # CreateFile
            yield symbol[:-1]
-def reformat_forwarded_export_name(forwarded_name: str) -> str:
+def all_zeros(bytez):
    """
    a forwarded export has a DLL name/path and symbol name.
    we want the former to be lowercase, and the latter to be verbatim.
    """
    # use rpartition so we can split on separator between dll and name.
    # the dll name can be a full path, like in the case of
    # ef64d6d7c34250af8e21a10feb931c9b
    # which i assume means the path can have embedded periods.
    # so we don't want the first period, we want the last.
    forwarded_dll, _, forwarded_symbol = forwarded_name.rpartition(".")
    forwarded_dll = forwarded_dll.lower()
    return f"{forwarded_dll}.{forwarded_symbol}"
 def all_zeros(bytez: bytes) -> bool:
    return all(b == 0 for b in builtins.bytes(bytez))
-def twos_complement(val: int, bits: int) -> int:
+def twos_complement(val, bits):
    """
    compute the 2's complement of int value val
@@ -116,48 +90,3 @@ def twos_complement(val: int, bits: int) -> int:
    else:
        # return positive value as is
        return val
 def carve_pe(pbytes: bytes, offset: int = 0) -> Iterator[Tuple[int, int]]:
    """
    Generate (offset, key) tuples of embedded PEs
    Based on the version from vivisect:
      https://github.com/vivisect/vivisect/blob/7be4037b1cecc4551b397f840405a1fc606f9b53/PE/carve.py#L19
    And its IDA adaptation:
      capa/features/extractors/ida/file.py
    """
    mz_xor = [
        (
            xor_static(b"MZ", key),
            xor_static(b"PE", key),
            key,
        )
        for key in range(256)
    ]
    pblen = len(pbytes)
    todo = [(pbytes.find(mzx, offset), mzx, pex, key) for mzx, pex, key in mz_xor]
    todo = [(off, mzx, pex, key) for (off, mzx, pex, key) in todo if off != -1]
    while len(todo):
        off, mzx, pex, key = todo.pop()
        # The MZ header has one field we will check
        # e_lfanew is at 0x3c
        e_lfanew = off + 0x3C
        if pblen < (e_lfanew + 4):
            continue
        newoff = struct.unpack("<I", xor_static(pbytes[e_lfanew : e_lfanew + 4], key))[0]
        nextres = pbytes.find(mzx, off + 1)
        if nextres != -1:
            todo.append((nextres, mzx, pex, key))
        peoff = off + newoff
        if pblen < (peoff + 2):
            continue
        if pbytes[peoff : peoff + 2] == pex:
            yield (off, key)
--- a/capa/features/extractors/ida/init.py
+++ b/capa/features/extractors/ida/init.py
@@ -0,0 +1,93 @@
 # Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import sys
 import types
 import idaapi
 import capa.features.extractors.ida.file
 import capa.features.extractors.ida.insn
 import capa.features.extractors.ida.function
 import capa.features.extractors.ida.basicblock
 from capa.features.extractors import FeatureExtractor
 def get_ea(self):
    """ """
    if isinstance(self, (idaapi.BasicBlock, idaapi.func_t)):
        return self.start_ea
    if isinstance(self, idaapi.insn_t):
        return self.ea
    raise TypeError
 def add_ea_int_cast(o):
    """
    dynamically add a cast-to-int (`__int__`) method to the given object
    that returns the value of the `.ea` property.
    this bit of skullduggery lets use cast viv-utils objects as ints.
    the correct way of doing this is to update viv-utils (or subclass the objects here).
    """
    if sys.version_info[0] >= 3:
        setattr(o, "__int__", types.MethodType(get_ea, o))
    else:
        setattr(o, "__int__", types.MethodType(get_ea, o, type(o)))
    return o
 class IdaFeatureExtractor(FeatureExtractor):
    def __init__(self):
        super(IdaFeatureExtractor, self).__init__()
    def get_base_address(self):
        return idaapi.get_imagebase()
    def extract_file_features(self):
        for (feature, ea) in capa.features.extractors.ida.file.extract_features():
            yield feature, ea
    def get_functions(self):
        import capa.features.extractors.ida.helpers as ida_helpers
        # data structure shared across functions yielded here.
        # useful for caching analysis relevant across a single workspace.
        ctx = {}
        # ignore library functions and thunk functions as identified by IDA
        for f in ida_helpers.get_functions(skip_thunks=True, skip_libs=True):
            setattr(f, "ctx", ctx)
            yield add_ea_int_cast(f)
    @staticmethod
    def get_function(ea):
        f = idaapi.get_func(ea)
        setattr(f, "ctx", {})
        return add_ea_int_cast(f)
    def extract_function_features(self, f):
        for (feature, ea) in capa.features.extractors.ida.function.extract_features(f):
            yield feature, ea
    def get_basic_blocks(self, f):
        for bb in capa.features.extractors.ida.helpers.get_function_blocks(f):
            yield add_ea_int_cast(bb)
    def extract_basic_block_features(self, f, bb):
        for (feature, ea) in capa.features.extractors.ida.basicblock.extract_features(f, bb):
            yield feature, ea
    def get_instructions(self, f, bb):
        import capa.features.extractors.ida.helpers as ida_helpers
        for insn in ida_helpers.get_instructions_in_range(bb.start_ea, bb.end_ea):
            yield add_ea_int_cast(insn)
    def extract_insn_features(self, f, bb, insn):
        for (feature, ea) in capa.features.extractors.ida.insn.extract_features(f, bb, insn):
            yield feature, ea
--- a/capa/features/extractors/ida/basicblock.py
+++ b/capa/features/extractors/ida/basicblock.py
@@ -1,4 +1,4 @@
-# Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
@@ -6,23 +6,25 @@
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import sys
 import string
 import struct
 from typing import Tuple, Iterator
 import idaapi
 import capa.features.extractors.ida.helpers
-from capa.features.common import Feature, Characteristic
+from capa.features import Characteristic
 from capa.features.address import Address
 from capa.features.basicblock import BasicBlock
 from capa.features.extractors.ida import helpers
 from capa.features.extractors.helpers import MIN_STACKSTRING_LEN
 from capa.features.extractors.base_extractor import BBHandle, FunctionHandle
-def get_printable_len(op: idaapi.op_t) -> int:
+def get_printable_len(op):
-    """Return string length if all operand bytes are ascii or utf16-le printable"""
+    """Return string length if all operand bytes are ascii or utf16-le printable
    args:
        op (IDA op_t)
    """
    op_val = capa.features.extractors.ida.helpers.mask_op_val(op)
    if op.dtype == idaapi.dt_byte:
@@ -34,14 +36,21 @@ def get_printable_len(op: idaapi.op_t) -> int:
    elif op.dtype == idaapi.dt_qword:
        chars = struct.pack("<Q", op_val)
    else:
-        raise ValueError(f"Unhandled operand data type 0x{op.dtype:x}.")
+        raise ValueError("Unhandled operand data type 0x%x." % op.dtype)
-    def is_printable_ascii(chars_: bytes):
+    def is_printable_ascii(chars):
-        return all(c < 127 and chr(c) in string.printable for c in chars_)
+        if sys.version_info[0] >= 3:
            return all(c < 127 and chr(c) in string.printable for c in chars)
        else:
            return all(ord(c) < 127 and c in string.printable for c in chars)
-    def is_printable_utf16le(chars_: bytes):
+    def is_printable_utf16le(chars):
-        if all(c == 0x00 for c in chars_[1::2]):
+        if sys.version_info[0] >= 3:
-            return is_printable_ascii(chars_[::2])
+            if all(c == 0x00 for c in chars[1::2]):
                return is_printable_ascii(chars[::2])
        else:
            if all(c == "\x00" for c in chars[1::2]):
                return is_printable_ascii(chars[::2])
    if is_printable_ascii(chars):
        return idaapi.get_dtype_size(op.dtype)
@@ -52,8 +61,12 @@ def get_printable_len(op: idaapi.op_t) -> int:
    return 0
-def is_mov_imm_to_stack(insn: idaapi.insn_t) -> bool:
+def is_mov_imm_to_stack(insn):
-    """verify instruction moves immediate onto stack"""
+    """verify instruction moves immediate onto stack
    args:
        insn (IDA insn_t)
    """
    if insn.Op2.type != idaapi.o_imm:
        return False
@@ -66,10 +79,14 @@ def is_mov_imm_to_stack(insn: idaapi.insn_t) -> bool:
    return True
-def bb_contains_stackstring(f: idaapi.func_t, bb: idaapi.BasicBlock) -> bool:
+def bb_contains_stackstring(f, bb):
    """check basic block for stackstring indicators
    true if basic block contains enough moves of constant bytes to the stack
    args:
        f (IDA func_t)
        bb (IDA BasicBlock)
    """
    count = 0
    for insn in capa.features.extractors.ida.helpers.get_instructions_in_range(bb.start_ea, bb.end_ea):
@@ -80,27 +97,57 @@ def bb_contains_stackstring(f: idaapi.func_t, bb: idaapi.BasicBlock) -> bool:
    return False
-def extract_bb_stackstring(fh: FunctionHandle, bbh: BBHandle) -> Iterator[Tuple[Feature, Address]]:
+def extract_bb_stackstring(f, bb):
-    """extract stackstring indicators from basic block"""
+    """extract stackstring indicators from basic block
-    if bb_contains_stackstring(fh.inner, bbh.inner):
+
-        yield Characteristic("stack string"), bbh.address
+    args:
        f (IDA func_t)
        bb (IDA BasicBlock)
    """
    if bb_contains_stackstring(f, bb):
        yield Characteristic("stack string"), bb.start_ea
-def extract_bb_tight_loop(fh: FunctionHandle, bbh: BBHandle) -> Iterator[Tuple[Feature, Address]]:
+def extract_bb_tight_loop(f, bb):
-    """extract tight loop indicators from a basic block"""
+    """extract tight loop indicators from a basic block
-    if capa.features.extractors.ida.helpers.is_basic_block_tight_loop(bbh.inner):
+
-        yield Characteristic("tight loop"), bbh.address
+    args:
        f (IDA func_t)
        bb (IDA BasicBlock)
    """
    if capa.features.extractors.ida.helpers.is_basic_block_tight_loop(bb):
        yield Characteristic("tight loop"), bb.start_ea
-def extract_features(fh: FunctionHandle, bbh: BBHandle) -> Iterator[Tuple[Feature, Address]]:
+def extract_features(f, bb):
-    """extract basic block features"""
+    """extract basic block features
    args:
        f (IDA func_t)
        bb (IDA BasicBlock)
    """
    for bb_handler in BASIC_BLOCK_HANDLERS:
-        for feature, addr in bb_handler(fh, bbh):
+        for (feature, ea) in bb_handler(f, bb):
-            yield feature, addr
+            yield feature, ea
-    yield BasicBlock(), bbh.address
+    yield BasicBlock(), bb.start_ea
 BASIC_BLOCK_HANDLERS = (
    extract_bb_tight_loop,
    extract_bb_stackstring,
 )
 def main():
    features = []
    for f in helpers.get_functions(skip_thunks=True, skip_libs=True):
        for bb in idaapi.FlowChart(f, flags=idaapi.FC_PREDS):
            features.extend(list(extract_features(f, bb)))
    import pprint
    pprint.pprint(features)
 if __name__ == "__main__":
    main()
--- a/capa/features/extractors/ida/extractor.py
+++ b/capa/features/extractors/ida/extractor.py
@@ -1,82 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import List, Tuple, Iterator
 import idaapi
 import ida_nalt
 import capa.ida.helpers
 import capa.features.extractors.elf
 import capa.features.extractors.ida.file
 import capa.features.extractors.ida.insn
 import capa.features.extractors.ida.global_
 import capa.features.extractors.ida.function
 import capa.features.extractors.ida.basicblock
 from capa.features.common import Feature
 from capa.features.address import Address, AbsoluteVirtualAddress
 from capa.features.extractors.base_extractor import (
    BBHandle,
    InsnHandle,
    SampleHashes,
    FunctionHandle,
    StaticFeatureExtractor,
 )
 class IdaFeatureExtractor(StaticFeatureExtractor):
    def __init__(self):
        super().__init__(
            hashes=SampleHashes(
                md5=ida_nalt.retrieve_input_file_md5(), sha1="(unknown)", sha256=ida_nalt.retrieve_input_file_sha256()
            )
        )
        self.global_features: List[Tuple[Feature, Address]] = []
        self.global_features.extend(capa.features.extractors.ida.file.extract_file_format())
        self.global_features.extend(capa.features.extractors.ida.global_.extract_os())
        self.global_features.extend(capa.features.extractors.ida.global_.extract_arch())
    def get_base_address(self):
        return AbsoluteVirtualAddress(idaapi.get_imagebase())
    def extract_global_features(self):
        yield from self.global_features
    def extract_file_features(self):
        yield from capa.features.extractors.ida.file.extract_features()
    def get_functions(self) -> Iterator[FunctionHandle]:
        import capa.features.extractors.ida.helpers as ida_helpers
        # ignore library functions and thunk functions as identified by IDA
        yield from ida_helpers.get_functions(skip_thunks=True, skip_libs=True)
    @staticmethod
    def get_function(ea: int) -> FunctionHandle:
        f = idaapi.get_func(ea)
        return FunctionHandle(address=AbsoluteVirtualAddress(f.start_ea), inner=f)
    def extract_function_features(self, fh: FunctionHandle) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.ida.function.extract_features(fh)
    def get_basic_blocks(self, fh: FunctionHandle) -> Iterator[BBHandle]:
        import capa.features.extractors.ida.helpers as ida_helpers
        for bb in ida_helpers.get_function_blocks(fh.inner):
            yield BBHandle(address=AbsoluteVirtualAddress(bb.start_ea), inner=bb)
    def extract_basic_block_features(self, fh: FunctionHandle, bbh: BBHandle) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.ida.basicblock.extract_features(fh, bbh)
    def get_instructions(self, fh: FunctionHandle, bbh: BBHandle) -> Iterator[InsnHandle]:
        import capa.features.extractors.ida.helpers as ida_helpers
        for insn in ida_helpers.get_instructions_in_range(bbh.inner.start_ea, bbh.inner.end_ea):
            yield InsnHandle(address=AbsoluteVirtualAddress(insn.ea), inner=insn)
    def extract_insn_features(self, fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle):
        yield from capa.features.extractors.ida.insn.extract_features(fh, bbh, ih)
--- a/capa/features/extractors/ida/file.py
+++ b/capa/features/extractors/ida/file.py
@@ -1,4 +1,4 @@
-# Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
@@ -7,29 +7,26 @@
 # See the License for the specific language governing permissions and limitations under the License.
 import struct
 from typing import Tuple, Iterator
 import idc
 import idaapi
 import idautils
 import ida_entry
 import capa.features.extractors.common
 import capa.features.extractors.helpers
 import capa.features.extractors.strings
 import capa.features.extractors.ida.helpers
-from capa.features.file import Export, Import, Section, FunctionName
+from capa.features import String, Characteristic
-from capa.features.common import FORMAT_PE, FORMAT_ELF, Format, String, Feature, Characteristic
+from capa.features.file import Export, Import, Section
 from capa.features.address import NO_ADDRESS, Address, FileOffsetAddress, AbsoluteVirtualAddress
 MAX_OFFSET_PE_AFTER_MZ = 0x200
-def check_segment_for_pe(seg: idaapi.segment_t) -> Iterator[Tuple[int, int]]:
+def check_segment_for_pe(seg):
    """check segment for embedded PE
    adapted for IDA from:
-    https://github.com/vivisect/vivisect/blob/91e8419a861f49779f18316f155311967e696836/PE/carve.py#L25
+    https://github.com/vivisect/vivisect/blob/7be4037b1cecc4551b397f840405a1fc606f9b53/PE/carve.py#L19
    args:
        seg (IDA segment_t)
    """
    seg_max = seg.end_ea
    mz_xor = [
@@ -42,15 +39,14 @@ def check_segment_for_pe(seg: idaapi.segment_t) -> Iterator[Tuple[int, int]]:
    ]
    todo = []
-    for mzx, pex, i in mz_xor:
+    for (mzx, pex, i) in mz_xor:
        # find all segment offsets containing XOR'd "MZ" bytes
        for off in capa.features.extractors.ida.helpers.find_byte_sequence(seg.start_ea, seg.end_ea, mzx):
            todo.append((off, mzx, pex, i))
    while len(todo):
        off, mzx, pex, i = todo.pop()
-        # MZ header has one field we will check e_lfanew is at 0x3c
+        # The MZ header has one field we will check e_lfanew is at 0x3c
        e_lfanew = off + 0x3C
        if seg_max < (e_lfanew + 4):
@@ -58,19 +54,18 @@ def check_segment_for_pe(seg: idaapi.segment_t) -> Iterator[Tuple[int, int]]:
        newoff = struct.unpack("<I", capa.features.extractors.helpers.xor_static(idc.get_bytes(e_lfanew, 4), i))[0]
        # assume XOR'd "PE" bytes exist within threshold
        if newoff > MAX_OFFSET_PE_AFTER_MZ:
            continue
        peoff = off + newoff
        if seg_max < (peoff + 2):
            continue
        if idc.get_bytes(peoff, 2) == pex:
-            yield off, i
+            yield (off, i)
        for nextres in capa.features.extractors.ida.helpers.find_byte_sequence(off + 1, seg.end_ea, mzx):
            todo.append((nextres, mzx, pex, i))
-def extract_file_embedded_pe() -> Iterator[Tuple[Feature, Address]]:
+def extract_file_embedded_pe():
    """extract embedded PE features
    IDA must load resource sections for this to be complete
@@ -78,23 +73,17 @@ def extract_file_embedded_pe() -> Iterator[Tuple[Feature, Address]]:
        - Check 'Load resource sections' when opening binary in IDA manually
    """
    for seg in capa.features.extractors.ida.helpers.get_segments(skip_header_segments=True):
-        for ea, _ in check_segment_for_pe(seg):
+        for (ea, _) in check_segment_for_pe(seg):
-            yield Characteristic("embedded pe"), FileOffsetAddress(ea)
+            yield Characteristic("embedded pe"), ea
-def extract_file_export_names() -> Iterator[Tuple[Feature, Address]]:
+def extract_file_export_names():
-    """extract function exports"""
+    """ extract function exports """
-    for _, ordinal, ea, name in idautils.Entries():
+    for (_, _, ea, name) in idautils.Entries():
-        forwarded_name = ida_entry.get_entry_forwarder(ordinal)
+        yield Export(name), ea
        if forwarded_name is None:
            yield Export(name), AbsoluteVirtualAddress(ea)
        else:
            forwarded_name = capa.features.extractors.helpers.reformat_forwarded_export_name(forwarded_name)
            yield Export(forwarded_name), AbsoluteVirtualAddress(ea)
            yield Characteristic("forwarded export"), AbsoluteVirtualAddress(ea)
-def extract_file_import_names() -> Iterator[Tuple[Feature, Address]]:
+def extract_file_import_names():
    """extract function imports
    1. imports by ordinal:
@@ -105,32 +94,28 @@ def extract_file_import_names() -> Iterator[Tuple[Feature, Address]]:
     - modulename.importname
     - importname
    """
-    for ea, info in capa.features.extractors.ida.helpers.get_file_imports().items():
+    for (ea, info) in capa.features.extractors.ida.helpers.get_file_imports().items():
        addr = AbsoluteVirtualAddress(ea)
        if info[1] and info[2]:
            # e.g. in mimikatz: ('cabinet', 'FCIAddFile', 11L)
            # extract by name here and by ordinal below
-            for name in capa.features.extractors.helpers.generate_symbols(info[0], info[1], include_dll=True):
+            for name in capa.features.extractors.helpers.generate_symbols(info[0], info[1]):
-                yield Import(name), addr
+                yield Import(name), ea
            dll = info[0]
-            symbol = f"#{info[2]}"
+            symbol = "#%d" % (info[2])
        elif info[1]:
            dll = info[0]
            symbol = info[1]
        elif info[2]:
            dll = info[0]
-            symbol = f"#{info[2]}"
+            symbol = "#%d" % (info[2])
        else:
            continue
-        for name in capa.features.extractors.helpers.generate_symbols(dll, symbol, include_dll=True):
+        for name in capa.features.extractors.helpers.generate_symbols(dll, symbol):
-            yield Import(name), addr
+            yield Import(name), ea
    for ea, info in capa.features.extractors.ida.helpers.get_file_externs().items():
        yield Import(info[1]), AbsoluteVirtualAddress(ea)
-def extract_file_section_names() -> Iterator[Tuple[Feature, Address]]:
+def extract_file_section_names():
    """extract section names
    IDA must load resource sections for this to be complete
@@ -138,10 +123,10 @@ def extract_file_section_names() -> Iterator[Tuple[Feature, Address]]:
        - Check 'Load resource sections' when opening binary in IDA manually
    """
    for seg in capa.features.extractors.ida.helpers.get_segments(skip_header_segments=True):
-        yield Section(idaapi.get_segm_name(seg)), AbsoluteVirtualAddress(seg.start_ea)
+        yield Section(idaapi.get_segm_name(seg)), seg.start_ea
-def extract_file_strings() -> Iterator[Tuple[Feature, Address]]:
+def extract_file_strings():
    """extract ASCII and UTF-16 LE strings
    IDA must load resource sections for this to be complete
@@ -151,50 +136,18 @@ def extract_file_strings() -> Iterator[Tuple[Feature, Address]]:
    for seg in capa.features.extractors.ida.helpers.get_segments():
        seg_buff = capa.features.extractors.ida.helpers.get_segment_buffer(seg)
        # differing to common string extractor factor in segment offset here
        for s in capa.features.extractors.strings.extract_ascii_strings(seg_buff):
-            yield String(s.s), FileOffsetAddress(seg.start_ea + s.offset)
+            yield String(s.s), (seg.start_ea + s.offset)
        for s in capa.features.extractors.strings.extract_unicode_strings(seg_buff):
-            yield String(s.s), FileOffsetAddress(seg.start_ea + s.offset)
+            yield String(s.s), (seg.start_ea + s.offset)
-def extract_file_function_names() -> Iterator[Tuple[Feature, Address]]:
+def extract_features():
-    """
+    """ extract file features """
    extract the names of statically-linked library functions.
    """
    for ea in idautils.Functions():
        addr = AbsoluteVirtualAddress(ea)
        if idaapi.get_func(ea).flags & idaapi.FUNC_LIB:
            name = idaapi.get_name(ea)
            yield FunctionName(name), addr
            if name.startswith("_"):
                # some linkers may prefix linked routines with a `_` to avoid name collisions.
                # extract features for both the mangled and un-mangled representations.
                # e.g. `_fwrite` -> `fwrite`
                # see: https://stackoverflow.com/a/2628384/87207
                yield FunctionName(name[1:]), addr
 def extract_file_format() -> Iterator[Tuple[Feature, Address]]:
    file_info = idaapi.get_inf_structure()
    if file_info.filetype in (idaapi.f_PE, idaapi.f_COFF):
        yield Format(FORMAT_PE), NO_ADDRESS
    elif file_info.filetype == idaapi.f_ELF:
        yield Format(FORMAT_ELF), NO_ADDRESS
    elif file_info.filetype == idaapi.f_BIN:
        # no file type to return when processing a binary file, but we want to continue processing
        return
    else:
        raise NotImplementedError(f"unexpected file format: {file_info.filetype}")
 def extract_features() -> Iterator[Tuple[Feature, Address]]:
    """extract file features"""
    for file_handler in FILE_HANDLERS:
-        for feature, addr in file_handler():
+        for feature, va in file_handler():
-            yield feature, addr
+            yield feature, va
 FILE_HANDLERS = (
@@ -203,6 +156,15 @@ FILE_HANDLERS = (
    extract_file_strings,
    extract_file_section_names,
    extract_file_embedded_pe,
    extract_file_function_names,
    extract_file_format,
 )
 def main():
    """ """
    import pprint
    pprint.pprint(list(extract_features()))
 if __name__ == "__main__":
    main()
--- a/capa/features/extractors/ida/function.py
+++ b/capa/features/extractors/ida/function.py
@@ -1,31 +1,35 @@
-# Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import Tuple, Iterator
 import idaapi
 import idautils
 import capa.features.extractors.ida.helpers
-from capa.features.common import Feature, Characteristic
+from capa.features import Characteristic
 from capa.features.address import Address, AbsoluteVirtualAddress
 from capa.features.extractors import loops
 from capa.features.extractors.base_extractor import FunctionHandle
-def extract_function_calls_to(fh: FunctionHandle):
+def extract_function_calls_to(f):
-    """extract callers to a function"""
+    """extract callers to a function
-    for ea in idautils.CodeRefsTo(fh.inner.start_ea, True):
+
-        yield Characteristic("calls to"), AbsoluteVirtualAddress(ea)
+    args:
        f (IDA func_t)
    """
    for ea in idautils.CodeRefsTo(f.start_ea, True):
        yield Characteristic("calls to"), ea
-def extract_function_loop(fh: FunctionHandle):
+def extract_function_loop(f):
-    """extract loop indicators from a function"""
+    """extract loop indicators from a function
-    f: idaapi.func_t = fh.inner
+
    args:
        f (IDA func_t)
    """
    edges = []
    # construct control flow graph
@@ -34,19 +38,43 @@ def extract_function_loop(fh: FunctionHandle):
            edges.append((bb.start_ea, succ.start_ea))
    if loops.has_loop(edges):
-        yield Characteristic("loop"), fh.address
+        yield Characteristic("loop"), f.start_ea
-def extract_recursive_call(fh: FunctionHandle):
+def extract_recursive_call(f):
-    """extract recursive function call"""
+    """extract recursive function call
-    if capa.features.extractors.ida.helpers.is_function_recursive(fh.inner):
+
-        yield Characteristic("recursive call"), fh.address
+    args:
        f (IDA func_t)
    """
    if capa.features.extractors.ida.helpers.is_function_recursive(f):
        yield Characteristic("recursive call"), f.start_ea
-def extract_features(fh: FunctionHandle) -> Iterator[Tuple[Feature, Address]]:
+def extract_features(f):
    """extract function features
    arg:
        f (IDA func_t)
    """
    for func_handler in FUNCTION_HANDLERS:
-        for feature, addr in func_handler(fh):
+        for (feature, ea) in func_handler(f):
-            yield feature, addr
+            yield feature, ea
 FUNCTION_HANDLERS = (extract_function_calls_to, extract_function_loop, extract_recursive_call)
 def main():
    """ """
    features = []
    for f in capa.features.extractors.ida.get_functions(skip_thunks=True, skip_libs=True):
        features.extend(list(extract_features(f)))
    import pprint
    pprint.pprint(features)
 if __name__ == "__main__":
    main()
--- a/capa/features/extractors/ida/global_.py
+++ b/capa/features/extractors/ida/global_.py
@@ -1,65 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 import contextlib
 from typing import Tuple, Iterator
 import idaapi
 import ida_loader
 import capa.ida.helpers
 import capa.features.extractors.elf
 from capa.features.common import OS, ARCH_I386, ARCH_AMD64, OS_WINDOWS, Arch, Feature
 from capa.features.address import NO_ADDRESS, Address
 logger = logging.getLogger(__name__)
 def extract_os() -> Iterator[Tuple[Feature, Address]]:
    format_name: str = ida_loader.get_file_type_name()
    if "PE" in format_name:
        yield OS(OS_WINDOWS), NO_ADDRESS
    elif "ELF" in format_name:
        with contextlib.closing(capa.ida.helpers.IDAIO()) as f:
            os = capa.features.extractors.elf.detect_elf_os(f)
        yield OS(os), NO_ADDRESS
    else:
        # we likely end up here:
        #  1. handling shellcode, or
        #  2. handling a new file format (e.g. macho)
        #
        # for (1) we can't do much - its shellcode and all bets are off.
        # we could maybe accept a further CLI argument to specify the OS,
        # but i think this would be rarely used.
        # rules that rely on OS conditions will fail to match on shellcode.
        #
        # for (2), this logic will need to be updated as the format is implemented.
        logger.debug("unsupported file format: %s, will not guess OS", format_name)
        return
 def extract_arch() -> Iterator[Tuple[Feature, Address]]:
    info: idaapi.idainfo = idaapi.get_inf_structure()
    if info.procname == "metapc" and info.is_64bit():
        yield Arch(ARCH_AMD64), NO_ADDRESS
    elif info.procname == "metapc" and info.is_32bit():
        yield Arch(ARCH_I386), NO_ADDRESS
    elif info.procname == "metapc":
        logger.debug("unsupported architecture: non-32-bit nor non-64-bit intel")
        return
    else:
        # we likely end up here:
        #  1. handling a new architecture (e.g. aarch64)
        #
        # for (1), this logic will need to be updated as the format is implemented.
        logger.debug("unsupported architecture: %s", info.procname)
        return
--- a/capa/features/extractors/ida/helpers.py
+++ b/capa/features/extractors/ida/helpers.py
@@ -1,24 +1,21 @@
-# Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
-import functools
+
-from typing import Any, Dict, Tuple, Iterator, Optional
+import sys
 import string
 import idc
 import idaapi
 import idautils
 import ida_bytes
 import ida_segment
 from capa.features.address import AbsoluteVirtualAddress
 from capa.features.extractors.base_extractor import FunctionHandle
-def find_byte_sequence(start: int, end: int, seq: bytes) -> Iterator[int]:
+def find_byte_sequence(start, end, seq):
    """yield all ea of a given byte sequence
    args:
@@ -26,33 +23,36 @@ def find_byte_sequence(start: int, end: int, seq: bytes) -> Iterator[int]:
        end: max virtual address
        seq: bytes to search e.g. b"\x01\x03"
    """
-    seqstr = " ".join([f"{b:02x}" for b in seq])
+    if sys.version_info[0] >= 3:
        seq = " ".join(["%02x" % b for b in seq])
    else:
        seq = " ".join(["%02x" % ord(b) for b in seq])
    while True:
-        # TODO(mike-hunhoff): find_binary is deprecated. Please use ida_bytes.bin_search() instead.
+        ea = idaapi.find_binary(start, end, seq, 0, idaapi.SEARCH_DOWN)
        # https://github.com/mandiant/capa/issues/1606
        ea = idaapi.find_binary(start, end, seqstr, 0, idaapi.SEARCH_DOWN)
        if ea == idaapi.BADADDR:
            break
        start = ea + 1
        yield ea
-def get_functions(
+def get_functions(start=None, end=None, skip_thunks=False, skip_libs=False):
    start: Optional[int] = None, end: Optional[int] = None, skip_thunks: bool = False, skip_libs: bool = False
 ) -> Iterator[FunctionHandle]:
    """get functions, range optional
    args:
        start: min virtual address
        end: max virtual address
    ret:
        yield func_t*
    """
    for ea in idautils.Functions(start=start, end=end):
        f = idaapi.get_func(ea)
        if not (skip_thunks and (f.flags & idaapi.FUNC_THUNK) or skip_libs and (f.flags & idaapi.FUNC_LIB)):
-            yield FunctionHandle(address=AbsoluteVirtualAddress(ea), inner=f)
+            yield f
-def get_segments(skip_header_segments=False) -> Iterator[idaapi.segment_t]:
+def get_segments(skip_header_segments=False):
    """get list of segments (sections) in the binary image
    args:
@@ -64,7 +64,7 @@ def get_segments(skip_header_segments=False) -> Iterator[idaapi.segment_t]:
            yield seg
-def get_segment_buffer(seg: idaapi.segment_t) -> bytes:
+def get_segment_buffer(seg):
    """return bytes stored in a given segment
    decrease buffer size until IDA is able to read bytes from the segment
@@ -82,22 +82,9 @@ def get_segment_buffer(seg: idaapi.segment_t) -> bytes:
    return buff if buff else b""
-def inspect_import(imports, library, ea, function, ordinal):
+def get_file_imports():
-    if function and function.startswith("__imp_"):
+    """ get file imports """
-        # handle mangled PE imports
+    imports = {}
        function = function[len("__imp_") :]
    if function and "@@" in function:
        # handle mangled ELF imports, like "fopen@@glibc_2.2.5"
        function, _, _ = function.partition("@@")
    imports[ea] = (library.lower(), function, ordinal)
    return True
 def get_file_imports() -> Dict[int, Tuple[str, str, int]]:
    """get file imports"""
    imports: Dict[int, Tuple[str, str, int]] = {}
    for idx in range(idaapi.get_import_module_qty()):
        library = idaapi.get_import_module_name(idx)
@@ -105,38 +92,26 @@ def get_file_imports() -> Dict[int, Tuple[str, str, int]]:
        if not library:
            continue
-        # IDA uses section names for the library of ELF imports, like ".dynsym".
+        def inspect_import(ea, function, ordinal):
-        # These are not useful to us, we may need to expand this list over time
+            if function and function.startswith("__imp_"):
-        # TODO(williballenthin): find all section names used by IDA
+                # handle mangled names starting
-        # https://github.com/mandiant/capa/issues/1419
+                function = function[len("__imp_") :]
-        if library == ".dynsym":
+            imports[ea] = (library.lower(), function, ordinal)
-            library = ""
+            return True
-        cb = functools.partial(inspect_import, imports, library)
+        idaapi.enum_import_names(idx, inspect_import)
        idaapi.enum_import_names(idx, cb)
    return imports
-def get_file_externs() -> Dict[int, Tuple[str, str, int]]:
+def get_instructions_in_range(start, end):
    externs = {}
    for seg in get_segments(skip_header_segments=True):
        if seg.type != ida_segment.SEG_XTRN:
            continue
        for ea in idautils.Functions(seg.start_ea, seg.end_ea):
            externs[ea] = ("", idaapi.get_func_name(ea), -1)
    return externs
 def get_instructions_in_range(start: int, end: int) -> Iterator[idaapi.insn_t]:
    """yield instructions in range
    args:
        start: virtual address (inclusive)
        end: virtual address (exclusive)
    yield:
        (insn_t*)
    """
    for head in idautils.Heads(start, end):
        insn = idautils.DecodeInstruction(head)
@@ -144,8 +119,8 @@ def get_instructions_in_range(start: int, end: int) -> Iterator[idaapi.insn_t]:
            yield insn
-def is_operand_equal(op1: idaapi.op_t, op2: idaapi.op_t) -> bool:
+def is_operand_equal(op1, op2):
-    """compare two IDA op_t"""
+    """ compare two IDA op_t """
    if op1.flags != op2.flags:
        return False
@@ -170,8 +145,8 @@ def is_operand_equal(op1: idaapi.op_t, op2: idaapi.op_t) -> bool:
    return True
-def is_basic_block_equal(bb1: idaapi.BasicBlock, bb2: idaapi.BasicBlock) -> bool:
+def is_basic_block_equal(bb1, bb2):
-    """compare two IDA BasicBlock"""
+    """ compare two IDA BasicBlock """
    if bb1.start_ea != bb2.start_ea:
        return False
@@ -184,12 +159,12 @@ def is_basic_block_equal(bb1: idaapi.BasicBlock, bb2: idaapi.BasicBlock) -> bool
    return True
-def basic_block_size(bb: idaapi.BasicBlock) -> int:
+def basic_block_size(bb):
-    """calculate size of basic block"""
+    """ calculate size of basic block """
    return bb.end_ea - bb.start_ea
-def read_bytes_at(ea: int, count: int) -> bytes:
+def read_bytes_at(ea, count):
    """ """
    # check if byte has a value, see get_wide_byte doc
    if not idc.is_loaded(ea):
@@ -202,10 +177,10 @@ def read_bytes_at(ea: int, count: int) -> bytes:
        return idc.get_bytes(ea, count)
-def find_string_at(ea: int, min_: int = 4) -> str:
+def find_string_at(ea, min=4):
-    """check if ASCII string exists at a given virtual address"""
+    """ check if ASCII string exists at a given virtual address """
    found = idaapi.get_strlit_contents(ea, -1, idaapi.STRTYPE_C)
-    if found and len(found) >= min_:
+    if found and len(found) > min:
        try:
            found = found.decode("ascii")
            # hacky check for IDA bug; get_strlit_contents also reads Unicode as
@@ -219,7 +194,7 @@ def find_string_at(ea: int, min_: int = 4) -> str:
    return ""
-def get_op_phrase_info(op: idaapi.op_t) -> Dict:
+def get_op_phrase_info(op):
    """parse phrase features from operand
    Pretty much dup of sark's implementation:
@@ -229,8 +204,7 @@ def get_op_phrase_info(op: idaapi.op_t) -> Dict:
        return {}
    scale = 1 << ((op.specflag2 & 0xC0) >> 6)
-    # IDA ea_t may be 32- or 64-bit; we assume displacement can only be 32-bit
+    offset = op.addr
    offset = op.addr & 0xFFFFFFFF
    if op.specflag1 == 0:
        index = None
@@ -257,45 +231,47 @@ def get_op_phrase_info(op: idaapi.op_t) -> Dict:
    return {"base": base, "index": index, "scale": scale, "offset": offset}
-def is_op_write(insn: idaapi.insn_t, op: idaapi.op_t) -> bool:
+def is_op_write(insn, op):
-    """Check if an operand is written to (destination operand)"""
+    """ Check if an operand is written to (destination operand) """
    return idaapi.has_cf_chg(insn.get_canon_feature(), op.n)
-def is_op_read(insn: idaapi.insn_t, op: idaapi.op_t) -> bool:
+def is_op_read(insn, op):
-    """Check if an operand is read from (source operand)"""
+    """ Check if an operand is read from (source operand) """
    return idaapi.has_cf_use(insn.get_canon_feature(), op.n)
-def is_op_offset(insn: idaapi.insn_t, op: idaapi.op_t) -> bool:
+def is_op_offset(insn, op):
-    """Check is an operand has been marked as an offset (by auto-analysis or manually)"""
+    """ Check is an operand has been marked as an offset (by auto-analysis or manually) """
    flags = idaapi.get_flags(insn.ea)
    return ida_bytes.is_off(flags, op.n)
-def is_sp_modified(insn: idaapi.insn_t) -> bool:
+def is_sp_modified(insn):
-    """determine if instruction modifies SP, ESP, RSP"""
+    """ determine if instruction modifies SP, ESP, RSP """
-    return any(
+    for op in get_insn_ops(insn, target_ops=(idaapi.o_reg,)):
-        op.reg == idautils.procregs.sp.reg and is_op_write(insn, op)
+        if op.reg == idautils.procregs.sp.reg and is_op_write(insn, op):
-        for op in get_insn_ops(insn, target_ops=(idaapi.o_reg,))
+            # register is stack and written
-    )
+            return True
    return False
-def is_bp_modified(insn: idaapi.insn_t) -> bool:
+def is_bp_modified(insn):
-    """check if instruction modifies BP, EBP, RBP"""
+    """ check if instruction modifies BP, EBP, RBP """
-    return any(
+    for op in get_insn_ops(insn, target_ops=(idaapi.o_reg,)):
-        op.reg == idautils.procregs.bp.reg and is_op_write(insn, op)
+        if op.reg == idautils.procregs.bp.reg and is_op_write(insn, op):
-        for op in get_insn_ops(insn, target_ops=(idaapi.o_reg,))
+            # register is base and written
-    )
+            return True
    return False
-def is_frame_register(reg: int) -> bool:
+def is_frame_register(reg):
-    """check if register is sp or bp"""
+    """ check if register is sp or bp """
    return reg in (idautils.procregs.sp.reg, idautils.procregs.bp.reg)
-def get_insn_ops(insn: idaapi.insn_t, target_ops: Optional[Tuple[Any]] = None) -> idaapi.op_t:
+def get_insn_ops(insn, target_ops=()):
-    """yield op_t for instruction, filter on type if specified"""
+    """ yield op_t for instruction, filter on type if specified """
    for op in insn.ops:
        if op.type == idaapi.o_void:
            # avoid looping all 6 ops if only subset exists
@@ -305,12 +281,12 @@ def get_insn_ops(insn: idaapi.insn_t, target_ops: Optional[Tuple[Any]] = None) -
        yield op
-def is_op_stack_var(ea: int, index: int) -> bool:
+def is_op_stack_var(ea, index):
-    """check if operand is a stack variable"""
+    """ check if operand is a stack variable """
    return idaapi.is_stkvar(idaapi.get_flags(ea), index)
-def mask_op_val(op: idaapi.op_t) -> int:
+def mask_op_val(op):
    """mask value by data type
    necessary due to a bug in AMD64
@@ -330,15 +306,26 @@ def mask_op_val(op: idaapi.op_t) -> int:
    return masks.get(op.dtype, op.value) & op.value
-def is_function_recursive(f: idaapi.func_t) -> bool:
+def is_function_recursive(f):
-    """check if function is recursive"""
+    """check if function is recursive
-    return any(f.contains(ref) for ref in idautils.CodeRefsTo(f.start_ea, True))
+
    args:
        f (IDA func_t)
    """
    for ref in idautils.CodeRefsTo(f.start_ea, True):
        if f.contains(ref):
            return True
    return False
-def is_basic_block_tight_loop(bb: idaapi.BasicBlock) -> bool:
+def is_basic_block_tight_loop(bb):
    """check basic block loops to self
    true if last instruction in basic block branches to basic block start
    args:
        f (IDA func_t)
        bb (IDA BasicBlock)
    """
    bb_end = idc.prev_head(bb.end_ea)
    if bb.start_ea < bb_end:
@@ -348,8 +335,8 @@ def is_basic_block_tight_loop(bb: idaapi.BasicBlock) -> bool:
    return False
-def find_data_reference_from_insn(insn: idaapi.insn_t, max_depth: int = 10) -> int:
+def find_data_reference_from_insn(insn, max_depth=10):
-    """search for data reference from instruction, return address of instruction if no reference exists"""
+    """ search for data reference from instruction, return address of instruction if no reference exists """
    depth = 0
    ea = insn.ea
@@ -378,17 +365,19 @@ def find_data_reference_from_insn(insn: idaapi.insn_t, max_depth: int = 10) -> i
    return ea
-def get_function_blocks(f: idaapi.func_t) -> Iterator[idaapi.BasicBlock]:
+def get_function_blocks(f):
-    """yield basic blocks contained in specified function"""
+    """yield basic blocks contained in specified function
    args:
        f (IDA func_t)
    yield:
        block (IDA BasicBlock)
    """
    # leverage idaapi.FC_NOEXT flag to ignore useless external blocks referenced by the function
-    yield from idaapi.FlowChart(f, flags=(idaapi.FC_PREDS | idaapi.FC_NOEXT))
+    for block in idaapi.FlowChart(f, flags=(idaapi.FC_PREDS | idaapi.FC_NOEXT)):
        yield block
-def is_basic_block_return(bb: idaapi.BasicBlock) -> bool:
+def is_basic_block_return(bb):
-    """check if basic block is return block"""
+    """ check if basic block is return block """
    return bb.type == idaapi.fcb_ret
 def has_sib(oper: idaapi.op_t) -> bool:
    # via: https://reverseengineering.stackexchange.com/a/14300
    return oper.specflag1 == 1
--- a/capa/features/extractors/ida/insn.py
+++ b/capa/features/extractors/ida/insn.py
@@ -1,11 +1,10 @@
-# Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import Any, Dict, Tuple, Iterator
 import idc
 import idaapi
@@ -13,30 +12,51 @@ import idautils
 import capa.features.extractors.helpers
 import capa.features.extractors.ida.helpers
-from capa.features.insn import API, MAX_STRUCTURE_SIZE, Number, Offset, Mnemonic, OperandNumber, OperandOffset
+from capa.features import (
-from capa.features.common import MAX_BYTES_FEATURE_SIZE, THUNK_CHAIN_DEPTH_DELTA, Bytes, String, Feature, Characteristic
+    ARCH_X32,
-from capa.features.address import Address, AbsoluteVirtualAddress
+    ARCH_X64,
-from capa.features.extractors.base_extractor import BBHandle, InsnHandle, FunctionHandle
+    MAX_BYTES_FEATURE_SIZE,
    THUNK_CHAIN_DEPTH_DELTA,
    Bytes,
    String,
    Characteristic,
 )
 from capa.features.insn import API, Number, Offset, Mnemonic
 # security cookie checks may perform non-zeroing XORs, these are expected within a certain
 # byte range within the first and returning basic blocks, this helps to reduce FP features
 SECURITY_COOKIE_BYTES_DELTA = 0x40
-def get_imports(ctx: Dict[str, Any]) -> Dict[int, Any]:
+def get_arch(ctx):
    """
    fetch the ARCH_* constant for the currently open workspace.
    via Tamir Bahar/@tmr232
    https://reverseengineering.stackexchange.com/a/11398/17194
    """
    if "arch" not in ctx:
        info = idaapi.get_inf_structure()
        if info.is_64bit():
            ctx["arch"] = ARCH_X64
        elif info.is_32bit():
            ctx["arch"] = ARCH_X32
        else:
            raise ValueError("unexpected architecture")
    return ctx["arch"]
 def get_imports(ctx):
    if "imports_cache" not in ctx:
        ctx["imports_cache"] = capa.features.extractors.ida.helpers.get_file_imports()
    return ctx["imports_cache"]
-def get_externs(ctx: Dict[str, Any]) -> Dict[int, Any]:
+def check_for_api_call(ctx, insn):
-    if "externs_cache" not in ctx:
+    """ check instruction for API call """
-        ctx["externs_cache"] = capa.features.extractors.ida.helpers.get_file_externs()
+    if not insn.get_canon_mnem() in ("call", "jmp"):
-    return ctx["externs_cache"]
+        return
 def check_for_api_call(insn: idaapi.insn_t, funcs: Dict[int, Any]) -> Iterator[Any]:
    """check instruction for API call"""
    info = ()
    ref = insn.ea
@@ -52,7 +72,7 @@ def check_for_api_call(insn: idaapi.insn_t, funcs: Dict[int, Any]) -> Iterator[A
            except IndexError:
                break
-        info = funcs.get(ref, ())
+        info = get_imports(ctx).get(ref, ())
        if info:
            break
@@ -61,64 +81,37 @@ def check_for_api_call(insn: idaapi.insn_t, funcs: Dict[int, Any]) -> Iterator[A
            break
    if info:
-        yield info
+        yield "%s.%s" % (info[0], info[1])
-def extract_insn_api_features(fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
+def extract_insn_api_features(f, bb, insn):
-    """
+    """parse instruction API features
-    parse instruction API features
+
    args:
        f (IDA func_t)
        bb (IDA BasicBlock)
        insn (IDA insn_t)
    example:
-       call dword [0x00473038]
+        call dword [0x00473038]
    """
-    insn: idaapi.insn_t = ih.inner
+    for api in check_for_api_call(f.ctx, insn):
-
+        dll, _, symbol = api.rpartition(".")
-    if insn.get_canon_mnem() not in ("call", "jmp"):
+        for name in capa.features.extractors.helpers.generate_symbols(dll, symbol):
-        return
+            yield API(name), insn.ea
    # check calls to imported functions
    for api in check_for_api_call(insn, get_imports(fh.ctx)):
        # tuple (<module>, <function>, <ordinal>)
        for name in capa.features.extractors.helpers.generate_symbols(api[0], api[1]):
            yield API(name), ih.address
    # check calls to extern functions
    for api in check_for_api_call(insn, get_externs(fh.ctx)):
        # tuple (<module>, <function>, <ordinal>)
        yield API(api[1]), ih.address
    # extract IDA/FLIRT recognized API functions
    targets = tuple(idautils.CodeRefsFrom(insn.ea, False))
    if not targets:
        return
    target = targets[0]
    target_func = idaapi.get_func(target)
    if not target_func or target_func.start_ea != target:
        # not a function (start)
        return
    if target_func.flags & idaapi.FUNC_LIB:
        name = idaapi.get_name(target_func.start_ea)
        yield API(name), ih.address
        if name.startswith("_"):
            # some linkers may prefix linked routines with a `_` to avoid name collisions.
            # extract features for both the mangled and un-mangled representations.
            # e.g. `_fwrite` -> `fwrite`
            # see: https://stackoverflow.com/a/2628384/87207
            yield API(name[1:]), ih.address
-def extract_insn_number_features(
+def extract_insn_number_features(f, bb, insn):
-    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
+    """parse instruction number features
-) -> Iterator[Tuple[Feature, Address]]:
+
-    """
+    args:
-    parse instruction number features
+        f (IDA func_t)
        bb (IDA BasicBlock)
        insn (IDA insn_t)
    example:
        push    3136B0h         ; dwControlCode
    """
    insn: idaapi.insn_t = ih.inner
    if idaapi.is_ret_insn(insn):
        # skip things like:
        #   .text:0042250E retn 8
@@ -129,11 +122,7 @@ def extract_insn_number_features(
        #   .text:00401145 add esp, 0Ch
        return
-    for i, op in enumerate(insn.ops):
+    for op in capa.features.extractors.ida.helpers.get_insn_ops(insn, target_ops=(idaapi.o_imm, idaapi.o_mem)):
        if op.type == idaapi.o_void:
            break
        if op.type not in (idaapi.o_imm, idaapi.o_mem):
            continue
        # skip things like:
        #   .text:00401100 shr eax, offset loc_C
        if capa.features.extractors.ida.helpers.is_op_offset(insn, op):
@@ -144,27 +133,21 @@ def extract_insn_number_features(
        else:
            const = op.addr
-        yield Number(const), ih.address
+        yield Number(const), insn.ea
-        yield OperandNumber(i, const), ih.address
+        yield Number(const, arch=get_arch(f.ctx)), insn.ea
        if insn.itype == idaapi.NN_add and 0 < const < MAX_STRUCTURE_SIZE and op.type == idaapi.o_imm:
            # for pattern like:
            #
            #     add eax, 0x10
            #
            # assume 0x10 is also an offset (imagine eax is a pointer).
            yield Offset(const), ih.address
            yield OperandOffset(i, const), ih.address
-def extract_insn_bytes_features(fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
+def extract_insn_bytes_features(f, bb, insn):
-    """
+    """parse referenced byte sequences
-    parse referenced byte sequences
+
    args:
        f (IDA func_t)
        bb (IDA BasicBlock)
        insn (IDA insn_t)
    example:
        push    offset iid_004118d4_IShellLinkA ; riid
    """
    insn: idaapi.insn_t = ih.inner
    if idaapi.is_call_insn(insn):
        return
@@ -172,54 +155,43 @@ def extract_insn_bytes_features(fh: FunctionHandle, bbh: BBHandle, ih: InsnHandl
    if ref != insn.ea:
        extracted_bytes = capa.features.extractors.ida.helpers.read_bytes_at(ref, MAX_BYTES_FEATURE_SIZE)
        if extracted_bytes and not capa.features.extractors.helpers.all_zeros(extracted_bytes):
-            if not capa.features.extractors.ida.helpers.find_string_at(ref):
+            yield Bytes(extracted_bytes), insn.ea
                # don't extract byte features for obvious strings
                yield Bytes(extracted_bytes), ih.address
-def extract_insn_string_features(
+def extract_insn_string_features(f, bb, insn):
-    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
+    """parse instruction string features
-) -> Iterator[Tuple[Feature, Address]]:
+
-    """
+    args:
-    parse instruction string features
+        f (IDA func_t)
        bb (IDA BasicBlock)
        insn (IDA insn_t)
    example:
        push offset aAcr     ; "ACR  > "
    """
    insn: idaapi.insn_t = ih.inner
    ref = capa.features.extractors.ida.helpers.find_data_reference_from_insn(insn)
    if ref != insn.ea:
        found = capa.features.extractors.ida.helpers.find_string_at(ref)
        if found:
-            yield String(found), ih.address
+            yield String(found), insn.ea
-def extract_insn_offset_features(
+def extract_insn_offset_features(f, bb, insn):
-    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
+    """parse instruction structure offset features
-) -> Iterator[Tuple[Feature, Address]]:
+
-    """
+    args:
-    parse instruction structure offset features
+        f (IDA func_t)
        bb (IDA BasicBlock)
        insn (IDA insn_t)
    example:
        .text:0040112F cmp [esi+4], ebx
    """
-    insn: idaapi.insn_t = ih.inner
+    for op in capa.features.extractors.ida.helpers.get_insn_ops(insn, target_ops=(idaapi.o_phrase, idaapi.o_displ)):
    for i, op in enumerate(insn.ops):
        if op.type == idaapi.o_void:
            break
        if op.type not in (idaapi.o_phrase, idaapi.o_displ):
            continue
        if capa.features.extractors.ida.helpers.is_op_stack_var(insn.ea, op.n):
            continue
        p_info = capa.features.extractors.ida.helpers.get_op_phrase_info(op)
-
+        op_off = p_info.get("offset", 0)
        op_off = p_info.get("offset")
        if op_off is None:
            continue
        if idaapi.is_mapped(op_off):
            # Ignore:
            #   mov esi, dword_1005B148[esi]
@@ -230,32 +202,12 @@ def extract_insn_offset_features(
        # https://stackoverflow.com/questions/31853189/x86-64-assembly-why-displacement-not-64-bits
        op_off = capa.features.extractors.helpers.twos_complement(op_off, 32)
-        yield Offset(op_off), ih.address
+        yield Offset(op_off), insn.ea
-        yield OperandOffset(i, op_off), ih.address
+        yield Offset(op_off, arch=get_arch(f.ctx)), insn.ea
        if (
            insn.itype == idaapi.NN_lea
            and i == 1
            # o_displ is used for both:
            #   [eax+1]
            #   [eax+ebx+2]
            and op.type == idaapi.o_displ
            # but the SIB is only present for [eax+ebx+2]
            # which we don't want
            and not capa.features.extractors.ida.helpers.has_sib(op)
        ):
            # for pattern like:
            #
            #     lea eax, [ebx + 1]
            #
            # assume 1 is also an offset (imagine ebx is a zero register).
            yield Number(op_off), ih.address
            yield OperandNumber(i, op_off), ih.address
-def contains_stack_cookie_keywords(s: str) -> bool:
+def contains_stack_cookie_keywords(s):
-    """
+    """check if string contains stack cookie keywords
    check if string contains stack cookie keywords
    Examples:
        xor     ecx, ebp ; StackCookie
@@ -269,7 +221,7 @@ def contains_stack_cookie_keywords(s: str) -> bool:
    return any(keyword in s for keyword in ("stack", "security"))
-def bb_stack_cookie_registers(bb: idaapi.BasicBlock) -> Iterator[int]:
+def bb_stack_cookie_registers(bb):
    """scan basic block for stack cookie operations
    yield registers ids that may have been used for stack cookie operations
@@ -303,8 +255,8 @@ def bb_stack_cookie_registers(bb: idaapi.BasicBlock) -> Iterator[int]:
                    yield op.reg
-def is_nzxor_stack_cookie_delta(f: idaapi.func_t, bb: idaapi.BasicBlock, insn: idaapi.insn_t) -> bool:
+def is_nzxor_stack_cookie_delta(f, bb, insn):
-    """check if nzxor exists within stack cookie delta"""
+    """ check if nzxor exists within stack cookie delta """
    # security cookie check should use SP or BP
    if not capa.features.extractors.ida.helpers.is_frame_register(insn.Op2.reg):
        return False
@@ -326,8 +278,8 @@ def is_nzxor_stack_cookie_delta(f: idaapi.func_t, bb: idaapi.BasicBlock, insn: i
    return False
-def is_nzxor_stack_cookie(f: idaapi.func_t, bb: idaapi.BasicBlock, insn: idaapi.insn_t) -> bool:
+def is_nzxor_stack_cookie(f, bb, insn):
-    """check if nzxor is related to stack cookie"""
+    """ check if nzxor is related to stack cookie """
    if contains_stack_cookie_keywords(idaapi.get_cmt(insn.ea, False)):
        # Example:
        #   xor     ecx, ebp        ; StackCookie
@@ -343,49 +295,37 @@ def is_nzxor_stack_cookie(f: idaapi.func_t, bb: idaapi.BasicBlock, insn: idaapi.
    return False
-def extract_insn_nzxor_characteristic_features(
+def extract_insn_nzxor_characteristic_features(f, bb, insn):
-    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
+    """parse instruction non-zeroing XOR instruction
 ) -> Iterator[Tuple[Feature, Address]]:
    """
    parse instruction non-zeroing XOR instruction
    ignore expected non-zeroing XORs, e.g. security cookies
    """
    insn: idaapi.insn_t = ih.inner
    ignore expected non-zeroing XORs, e.g. security cookies
    args:
        f (IDA func_t)
        bb (IDA BasicBlock)
        insn (IDA insn_t)
    """
    if insn.itype not in (idaapi.NN_xor, idaapi.NN_xorpd, idaapi.NN_xorps, idaapi.NN_pxor):
        return
    if capa.features.extractors.ida.helpers.is_operand_equal(insn.Op1, insn.Op2):
        return
-    if is_nzxor_stack_cookie(fh.inner, bbh.inner, insn):
+    if is_nzxor_stack_cookie(f, bb, insn):
        return
-    yield Characteristic("nzxor"), ih.address
+    yield Characteristic("nzxor"), insn.ea
-def extract_insn_mnemonic_features(
+def extract_insn_mnemonic_features(f, bb, insn):
-    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
+    """parse instruction mnemonic features
 ) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction mnemonic features"""
    yield Mnemonic(idc.print_insn_mnem(ih.inner.ea)), ih.address
-
+    args:
-def extract_insn_obfs_call_plus_5_characteristic_features(
+        f (IDA func_t)
-    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
+        bb (IDA BasicBlock)
-) -> Iterator[Tuple[Feature, Address]]:
+        insn (IDA insn_t)
    """
-    parse call $+5 instruction from the given instruction.
+    yield Mnemonic(insn.get_canon_mnem()), insn.ea
    """
    insn: idaapi.insn_t = ih.inner
    if not idaapi.is_call_insn(insn):
        return
    if insn.ea + 5 == idc.get_operand_value(insn.ea, 0):
        yield Characteristic("call $+5"), ih.address
-def extract_insn_peb_access_characteristic_features(
+def extract_insn_peb_access_characteristic_features(f, bb, insn):
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction peb access
    fs:[0x30] on x86, gs:[0x60] on x64
@@ -393,61 +333,51 @@ def extract_insn_peb_access_characteristic_features(
    TODO:
        IDA should be able to do this..
    """
    insn: idaapi.insn_t = ih.inner
    if insn.itype not in (idaapi.NN_push, idaapi.NN_mov):
        return
-    if all(op.type != idaapi.o_mem for op in insn.ops):
+    if all(map(lambda op: op.type != idaapi.o_mem, insn.ops)):
        # try to optimize for only memory references
        return
    disasm = idc.GetDisasm(insn.ea)
    if " fs:30h" in disasm or " gs:60h" in disasm:
-        # TODO(mike-hunhoff): use proper IDA API for fetching segment access
+        # TODO: replace above with proper IDA
-        # scanning the disassembly text is a hack.
+        yield Characteristic("peb access"), insn.ea
        # https://github.com/mandiant/capa/issues/1605
        yield Characteristic("peb access"), ih.address
-def extract_insn_segment_access_features(
+def extract_insn_segment_access_features(f, bb, insn):
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """parse instruction fs or gs access
    TODO:
        IDA should be able to do this...
    """
-    insn: idaapi.insn_t = ih.inner
+    if all(map(lambda op: op.type != idaapi.o_mem, insn.ops)):
    if all(op.type != idaapi.o_mem for op in insn.ops):
        # try to optimize for only memory references
        return
    disasm = idc.GetDisasm(insn.ea)
    if " fs:" in disasm:
-        # TODO(mike-hunhoff): use proper IDA API for fetching segment access
+        # TODO: replace above with proper IDA
-        # scanning the disassembly text is a hack.
+        yield Characteristic("fs access"), insn.ea
        # https://github.com/mandiant/capa/issues/1605
        yield Characteristic("fs access"), ih.address
    if " gs:" in disasm:
-        # TODO(mike-hunhoff): use proper IDA API for fetching segment access
+        # TODO: replace above with proper IDA
-        # scanning the disassembly text is a hack.
+        yield Characteristic("gs access"), insn.ea
        # https://github.com/mandiant/capa/issues/1605
        yield Characteristic("gs access"), ih.address
-def extract_insn_cross_section_cflow(
+def extract_insn_cross_section_cflow(f, bb, insn):
-    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
+    """inspect the instruction for a CALL or JMP that crosses section boundaries
 ) -> Iterator[Tuple[Feature, Address]]:
    """inspect the instruction for a CALL or JMP that crosses section boundaries"""
    insn: idaapi.insn_t = ih.inner
    args:
        f (IDA func_t)
        bb (IDA BasicBlock)
        insn (IDA insn_t)
    """
    for ref in idautils.CodeRefsFrom(insn.ea, False):
-        if ref in get_imports(fh.ctx):
+        if ref in get_imports(f.ctx).keys():
            # ignore API calls
            continue
        if not idaapi.getseg(ref):
@@ -455,40 +385,50 @@ def extract_insn_cross_section_cflow(
            continue
        if idaapi.getseg(ref) == idaapi.getseg(insn.ea):
            continue
-        yield Characteristic("cross section flow"), ih.address
+        yield Characteristic("cross section flow"), insn.ea
-def extract_function_calls_from(fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
+def extract_function_calls_from(f, bb, insn):
    """extract functions calls from features
    most relevant at the function scope, however, its most efficient to extract at the instruction scope
    """
    insn: idaapi.insn_t = ih.inner
    args:
        f (IDA func_t)
        bb (IDA BasicBlock)
        insn (IDA insn_t)
    """
    if idaapi.is_call_insn(insn):
        for ref in idautils.CodeRefsFrom(insn.ea, False):
-            yield Characteristic("calls from"), AbsoluteVirtualAddress(ref)
+            yield Characteristic("calls from"), ref
-def extract_function_indirect_call_characteristic_features(
+def extract_function_indirect_call_characteristic_features(f, bb, insn):
    fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
 ) -> Iterator[Tuple[Feature, Address]]:
    """extract indirect function calls (e.g., call eax or call dword ptr [edx+4])
    does not include calls like => call ds:dword_ABD4974
    most relevant at the function or basic block scope;
    however, its most efficient to extract at the instruction scope
    args:
        f (IDA func_t)
        bb (IDA BasicBlock)
        insn (IDA insn_t)
    """
    insn: idaapi.insn_t = ih.inner
    if idaapi.is_call_insn(insn) and idc.get_operand_type(insn.ea, 0) in (idc.o_reg, idc.o_phrase, idc.o_displ):
-        yield Characteristic("indirect call"), ih.address
+        yield Characteristic("indirect call"), insn.ea
-def extract_features(f: FunctionHandle, bbh: BBHandle, insn: InsnHandle) -> Iterator[Tuple[Feature, Address]]:
+def extract_features(f, bb, insn):
-    """extract instruction features"""
+    """extract instruction features
    args:
        f (IDA func_t)
        bb (IDA BasicBlock)
        insn (IDA insn_t)
    """
    for inst_handler in INSTRUCTION_HANDLERS:
-        for feature, ea in inst_handler(f, bbh, insn):
+        for (feature, ea) in inst_handler(f, bb, insn):
            yield feature, ea
@@ -500,10 +440,26 @@ INSTRUCTION_HANDLERS = (
    extract_insn_offset_features,
    extract_insn_nzxor_characteristic_features,
    extract_insn_mnemonic_features,
    extract_insn_obfs_call_plus_5_characteristic_features,
    extract_insn_peb_access_characteristic_features,
    extract_insn_cross_section_cflow,
    extract_insn_segment_access_features,
    extract_function_calls_from,
    extract_function_indirect_call_characteristic_features,
 )
 def main():
    """ """
    features = []
    for f in capa.features.extractors.ida.helpers.get_functions(skip_thunks=True, skip_libs=True):
        for bb in idaapi.FlowChart(f, flags=idaapi.FC_PREDS):
            for insn in capa.features.extractors.ida.helpers.get_instructions_in_range(bb.start_ea, bb.end_ea):
                features.extend(list(extract_features(f, bb, insn)))
    import pprint
    pprint.pprint(features)
 if __name__ == "__main__":
    main()
--- a/capa/features/extractors/loops.py
+++ b/capa/features/extractors/loops.py
@@ -1,4 +1,4 @@
-# Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
@@ -6,7 +6,7 @@
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
-import networkx
+from networkx import nx
 from networkx.algorithms.components import strongly_connected_components
@@ -20,6 +20,6 @@ def has_loop(edges, threshold=2):
    returns:
        bool
    """
-    g = networkx.DiGraph()
+    g = nx.DiGraph()
    g.add_edges_from(edges)
    return any(len(comp) >= threshold for comp in strongly_connected_components(g))
--- a/capa/features/extractors/null.py
+++ b/capa/features/extractors/null.py
@@ -1,170 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import Dict, List, Tuple, Union
 from dataclasses import dataclass
 from typing_extensions import TypeAlias
 from capa.features.common import Feature
 from capa.features.address import NO_ADDRESS, Address, ThreadAddress, ProcessAddress, DynamicCallAddress
 from capa.features.extractors.base_extractor import (
    BBHandle,
    CallHandle,
    InsnHandle,
    SampleHashes,
    ThreadHandle,
    ProcessHandle,
    FunctionHandle,
    StaticFeatureExtractor,
    DynamicFeatureExtractor,
 )
@dataclass
 class InstructionFeatures:
    features: List[Tuple[Address, Feature]]
@dataclass
 class BasicBlockFeatures:
    features: List[Tuple[Address, Feature]]
    instructions: Dict[Address, InstructionFeatures]
@dataclass
 class FunctionFeatures:
    features: List[Tuple[Address, Feature]]
    basic_blocks: Dict[Address, BasicBlockFeatures]
@dataclass
 class NullStaticFeatureExtractor(StaticFeatureExtractor):
    """
    An extractor that extracts some user-provided features.
    This is useful for testing, as we can provide expected values and see if matching works.
    """
    base_address: Address
    sample_hashes: SampleHashes
    global_features: List[Feature]
    file_features: List[Tuple[Address, Feature]]
    functions: Dict[Address, FunctionFeatures]
    def get_base_address(self):
        return self.base_address
    def get_sample_hashes(self) -> SampleHashes:
        return self.sample_hashes
    def extract_global_features(self):
        for feature in self.global_features:
            yield feature, NO_ADDRESS
    def extract_file_features(self):
        for address, feature in self.file_features:
            yield feature, address
    def get_functions(self):
        for address in sorted(self.functions.keys()):
            yield FunctionHandle(address, None)
    def extract_function_features(self, f):
        for address, feature in self.functions[f.address].features:
            yield feature, address
    def get_basic_blocks(self, f):
        for address in sorted(self.functions[f.address].basic_blocks.keys()):
            yield BBHandle(address, None)
    def extract_basic_block_features(self, f, bb):
        for address, feature in self.functions[f.address].basic_blocks[bb.address].features:
            yield feature, address
    def get_instructions(self, f, bb):
        for address in sorted(self.functions[f.address].basic_blocks[bb.address].instructions.keys()):
            yield InsnHandle(address, None)
    def extract_insn_features(self, f, bb, insn):
        for address, feature in self.functions[f.address].basic_blocks[bb.address].instructions[insn.address].features:
            yield feature, address
@dataclass
 class CallFeatures:
    name: str
    features: List[Tuple[Address, Feature]]
@dataclass
 class ThreadFeatures:
    features: List[Tuple[Address, Feature]]
    calls: Dict[Address, CallFeatures]
@dataclass
 class ProcessFeatures:
    features: List[Tuple[Address, Feature]]
    threads: Dict[Address, ThreadFeatures]
    name: str
@dataclass
 class NullDynamicFeatureExtractor(DynamicFeatureExtractor):
    base_address: Address
    sample_hashes: SampleHashes
    global_features: List[Feature]
    file_features: List[Tuple[Address, Feature]]
    processes: Dict[Address, ProcessFeatures]
    def extract_global_features(self):
        for feature in self.global_features:
            yield feature, NO_ADDRESS
    def get_sample_hashes(self) -> SampleHashes:
        return self.sample_hashes
    def extract_file_features(self):
        for address, feature in self.file_features:
            yield feature, address
    def get_processes(self):
        for address in sorted(self.processes.keys()):
            assert isinstance(address, ProcessAddress)
            yield ProcessHandle(address=address, inner={})
    def extract_process_features(self, ph):
        for addr, feature in self.processes[ph.address].features:
            yield feature, addr
    def get_process_name(self, ph) -> str:
        return self.processes[ph.address].name
    def get_threads(self, ph):
        for address in sorted(self.processes[ph.address].threads.keys()):
            assert isinstance(address, ThreadAddress)
            yield ThreadHandle(address=address, inner={})
    def extract_thread_features(self, ph, th):
        for addr, feature in self.processes[ph.address].threads[th.address].features:
            yield feature, addr
    def get_calls(self, ph, th):
        for address in sorted(self.processes[ph.address].threads[th.address].calls.keys()):
            assert isinstance(address, DynamicCallAddress)
            yield CallHandle(address=address, inner={})
    def extract_call_features(self, ph, th, ch):
        for address, feature in self.processes[ph.address].threads[th.address].calls[ch.address].features:
            yield feature, address
    def get_call_name(self, ph, th, ch) -> str:
        return self.processes[ph.address].threads[th.address].calls[ch.address].name
 NullFeatureExtractor: TypeAlias = Union[NullStaticFeatureExtractor, NullDynamicFeatureExtractor]
--- a/capa/features/extractors/pefile.py
+++ b/capa/features/extractors/pefile.py
@@ -1,229 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 from pathlib import Path
 import pefile
 import capa.features.common
 import capa.features.extractors
 import capa.features.extractors.common
 import capa.features.extractors.helpers
 import capa.features.extractors.strings
 from capa.features.file import Export, Import, Section
 from capa.features.common import OS, ARCH_I386, FORMAT_PE, ARCH_AMD64, OS_WINDOWS, Arch, Format, Characteristic
 from capa.features.address import NO_ADDRESS, FileOffsetAddress, AbsoluteVirtualAddress
 from capa.features.extractors.base_extractor import SampleHashes, StaticFeatureExtractor
 logger = logging.getLogger(__name__)
 def extract_file_embedded_pe(buf, **kwargs):
    for offset, _ in capa.features.extractors.helpers.carve_pe(buf, 1):
        yield Characteristic("embedded pe"), FileOffsetAddress(offset)
 def extract_file_export_names(pe, **kwargs):
    base_address = pe.OPTIONAL_HEADER.ImageBase
    if hasattr(pe, "DIRECTORY_ENTRY_EXPORT"):
        for export in pe.DIRECTORY_ENTRY_EXPORT.symbols:
            if not export.name:
                continue
            try:
                name = export.name.partition(b"\x00")[0].decode("ascii")
            except UnicodeDecodeError:
                continue
            if export.forwarder is None:
                va = base_address + export.address
                yield Export(name), AbsoluteVirtualAddress(va)
            else:
                try:
                    forwarded_name = export.forwarder.partition(b"\x00")[0].decode("ascii")
                except UnicodeDecodeError:
                    continue
                forwarded_name = capa.features.extractors.helpers.reformat_forwarded_export_name(forwarded_name)
                va = base_address + export.address
                yield Export(forwarded_name), AbsoluteVirtualAddress(va)
                yield Characteristic("forwarded export"), AbsoluteVirtualAddress(va)
 def extract_file_import_names(pe, **kwargs):
    """
    extract imported function names
    1. imports by ordinal:
     - modulename.#ordinal
    2. imports by name, results in two features to support importname-only matching:
     - modulename.importname
     - importname
    """
    if hasattr(pe, "DIRECTORY_ENTRY_IMPORT"):
        for dll in pe.DIRECTORY_ENTRY_IMPORT:
            try:
                modname = dll.dll.partition(b"\x00")[0].decode("ascii")
            except UnicodeDecodeError:
                continue
            # strip extension
            modname = modname.rpartition(".")[0].lower()
            for imp in dll.imports:
                if imp.import_by_ordinal:
                    impname = f"#{imp.ordinal}"
                else:
                    try:
                        impname = imp.name.partition(b"\x00")[0].decode("ascii")
                    except UnicodeDecodeError:
                        continue
                for name in capa.features.extractors.helpers.generate_symbols(modname, impname, include_dll=True):
                    yield Import(name), AbsoluteVirtualAddress(imp.address)
 def extract_file_section_names(pe, **kwargs):
    base_address = pe.OPTIONAL_HEADER.ImageBase
    for section in pe.sections:
        try:
            name = section.Name.partition(b"\x00")[0].decode("ascii")
        except UnicodeDecodeError:
            continue
        yield Section(name), AbsoluteVirtualAddress(base_address + section.VirtualAddress)
 def extract_file_strings(buf, **kwargs):
    yield from capa.features.extractors.common.extract_file_strings(buf)
 def extract_file_function_names(**kwargs):
    """
    extract the names of statically-linked library functions.
    """
    if False:
        # using a `yield` here to force this to be a generator, not function.
        yield NotImplementedError("pefile doesn't have library matching")
    return
 def extract_file_os(**kwargs):
    # assuming PE -> Windows
    # though i suppose they're also used by UEFI
    yield OS(OS_WINDOWS), NO_ADDRESS
 def extract_file_format(**kwargs):
    yield Format(FORMAT_PE), NO_ADDRESS
 def extract_file_arch(pe, **kwargs):
    if pe.FILE_HEADER.Machine == pefile.MACHINE_TYPE["IMAGE_FILE_MACHINE_I386"]:
        yield Arch(ARCH_I386), NO_ADDRESS
    elif pe.FILE_HEADER.Machine == pefile.MACHINE_TYPE["IMAGE_FILE_MACHINE_AMD64"]:
        yield Arch(ARCH_AMD64), NO_ADDRESS
    else:
        logger.warning("unsupported architecture: %s", pefile.MACHINE_TYPE[pe.FILE_HEADER.Machine])
 def extract_file_features(pe, buf):
    """
    extract file features from given workspace
    args:
      pe (pefile.PE): the parsed PE
      buf: the raw sample bytes
    yields:
      Tuple[Feature, VA]: a feature and its location.
    """
    for file_handler in FILE_HANDLERS:
        # file_handler: type: (pe, bytes) -> Iterable[Tuple[Feature, Address]]
        for feature, va in file_handler(pe=pe, buf=buf):  # type: ignore
            yield feature, va
 FILE_HANDLERS = (
    extract_file_embedded_pe,
    extract_file_export_names,
    extract_file_import_names,
    extract_file_section_names,
    extract_file_strings,
    extract_file_function_names,
    extract_file_format,
 )
 def extract_global_features(pe, buf):
    """
    extract global features from given workspace
    args:
      pe (pefile.PE): the parsed PE
      buf: the raw sample bytes
    yields:
      Tuple[Feature, VA]: a feature and its location.
    """
    for handler in GLOBAL_HANDLERS:
        # file_handler: type: (pe, bytes) -> Iterable[Tuple[Feature, Address]]
        for feature, va in handler(pe=pe, buf=buf):  # type: ignore
            yield feature, va
 GLOBAL_HANDLERS = (
    extract_file_os,
    extract_file_arch,
 )
 class PefileFeatureExtractor(StaticFeatureExtractor):
    def __init__(self, path: Path):
        super().__init__(hashes=SampleHashes.from_bytes(path.read_bytes()))
        self.path: Path = path
        self.pe = pefile.PE(str(path))
    def get_base_address(self):
        return AbsoluteVirtualAddress(self.pe.OPTIONAL_HEADER.ImageBase)
    def extract_global_features(self):
        buf = Path(self.path).read_bytes()
        yield from extract_global_features(self.pe, buf)
    def extract_file_features(self):
        buf = Path(self.path).read_bytes()
        yield from extract_file_features(self.pe, buf)
    def get_functions(self):
        raise NotImplementedError("PefileFeatureExtract can only be used to extract file features")
    def extract_function_features(self, f):
        raise NotImplementedError("PefileFeatureExtract can only be used to extract file features")
    def get_basic_blocks(self, f):
        raise NotImplementedError("PefileFeatureExtract can only be used to extract file features")
    def extract_basic_block_features(self, f, bb):
        raise NotImplementedError("PefileFeatureExtract can only be used to extract file features")
    def get_instructions(self, f, bb):
        raise NotImplementedError("PefileFeatureExtract can only be used to extract file features")
    def extract_insn_features(self, f, bb, insn):
        raise NotImplementedError("PefileFeatureExtract can only be used to extract file features")
    def is_library_function(self, va):
        raise NotImplementedError("PefileFeatureExtract can only be used to extract file features")
    def get_function_name(self, va):
        raise NotImplementedError("PefileFeatureExtract can only be used to extract file features")
--- a/capa/features/extractors/smda/init.py
+++ b/capa/features/extractors/smda/init.py
@@ -0,0 +1,52 @@
 import sys
 import types
 from smda.common.SmdaReport import SmdaReport
 from smda.common.SmdaInstruction import SmdaInstruction
 import capa.features.extractors.smda.file
 import capa.features.extractors.smda.insn
 import capa.features.extractors.smda.function
 import capa.features.extractors.smda.basicblock
 from capa.main import UnsupportedRuntimeError
 from capa.features.extractors import FeatureExtractor
 class SmdaFeatureExtractor(FeatureExtractor):
    def __init__(self, smda_report: SmdaReport, path):
        super(SmdaFeatureExtractor, self).__init__()
        if sys.version_info < (3, 0):
            raise UnsupportedRuntimeError("SMDA should only be used with Python 3.")
        self.smda_report = smda_report
        self.path = path
    def get_base_address(self):
        return self.smda_report.base_addr
    def extract_file_features(self):
        for feature, va in capa.features.extractors.smda.file.extract_features(self.smda_report, self.path):
            yield feature, va
    def get_functions(self):
        for function in self.smda_report.getFunctions():
            yield function
    def extract_function_features(self, f):
        for feature, va in capa.features.extractors.smda.function.extract_features(f):
            yield feature, va
    def get_basic_blocks(self, f):
        for bb in f.getBlocks():
            yield bb
    def extract_basic_block_features(self, f, bb):
        for feature, va in capa.features.extractors.smda.basicblock.extract_features(f, bb):
            yield feature, va
    def get_instructions(self, f, bb):
        for smda_ins in bb.getInstructions():
            yield smda_ins
    def extract_insn_features(self, f, bb, insn):
        for feature, va in capa.features.extractors.smda.insn.extract_features(f, bb, insn):
            yield feature, va
--- a/capa/features/extractors/smda/basicblock.py
+++ b/capa/features/extractors/smda/basicblock.py
@@ -0,0 +1,131 @@
 import sys
 import string
 import struct
 from capa.features import Characteristic
 from capa.features.basicblock import BasicBlock
 from capa.features.extractors.helpers import MIN_STACKSTRING_LEN
 def _bb_has_tight_loop(f, bb):
    """
    parse tight loops, true if last instruction in basic block branches to bb start
    """
    return bb.offset in f.blockrefs[bb.offset] if bb.offset in f.blockrefs else False
 def extract_bb_tight_loop(f, bb):
    """ check basic block for tight loop indicators """
    if _bb_has_tight_loop(f, bb):
        yield Characteristic("tight loop"), bb.offset
 def _bb_has_stackstring(f, bb):
    """
    extract potential stackstring creation, using the following heuristics:
      - basic block contains enough moves of constant bytes to the stack
    """
    count = 0
    for instr in bb.getInstructions():
        if is_mov_imm_to_stack(instr):
            count += get_printable_len(instr.getDetailed())
        if count > MIN_STACKSTRING_LEN:
            return True
    return False
 def get_operands(smda_ins):
    return [o.strip() for o in smda_ins.operands.split(",")]
 def extract_stackstring(f, bb):
    """ check basic block for stackstring indicators """
    if _bb_has_stackstring(f, bb):
        yield Characteristic("stack string"), bb.offset
 def is_mov_imm_to_stack(smda_ins):
    """
    Return if instruction moves immediate onto stack
    """
    if not smda_ins.mnemonic.startswith("mov"):
        return False
    try:
        dst, src = get_operands(smda_ins)
    except ValueError:
        # not two operands
        return False
    try:
        int(src, 16)
    except ValueError:
        return False
    if not any(regname in dst for regname in ["ebp", "rbp", "esp", "rsp"]):
        return False
    return True
 def is_printable_ascii(chars):
    return all(c < 127 and chr(c) in string.printable for c in chars)
 def is_printable_utf16le(chars):
    if all(c == 0x00 for c in chars[1::2]):
        return is_printable_ascii(chars[::2])
 def get_printable_len(instr):
    """
    Return string length if all operand bytes are ascii or utf16-le printable
    Works on a capstone instruction
    """
    # should have exactly two operands for mov immediate
    if len(instr.operands) != 2:
        return 0
    op_value = instr.operands[1].value.imm
    if instr.imm_size == 1:
        chars = struct.pack("<B", op_value & 0xFF)
    elif instr.imm_size == 2:
        chars = struct.pack("<H", op_value & 0xFFFF)
    elif instr.imm_size == 4:
        chars = struct.pack("<I", op_value & 0xFFFFFFFF)
    elif instr.imm_size == 8:
        chars = struct.pack("<Q", op_value & 0xFFFFFFFFFFFFFFFF)
    else:
        raise ValueError("Unhandled operand data type 0x%x." % instr.imm_size)
    if is_printable_ascii(chars):
        return instr.imm_size
    if is_printable_utf16le(chars):
        return instr.imm_size // 2
    return 0
 def extract_features(f, bb):
    """
    extract features from the given basic block.
    args:
      f (smda.common.SmdaFunction): the function from which to extract features
      bb (smda.common.SmdaBasicBlock): the basic block to process.
    yields:
      Feature, set[VA]: the features and their location found in this basic block.
    """
    yield BasicBlock(), bb.offset
    for bb_handler in BASIC_BLOCK_HANDLERS:
        for feature, va in bb_handler(f, bb):
            yield feature, va
 BASIC_BLOCK_HANDLERS = (
    extract_bb_tight_loop,
    extract_stackstring,
 )
--- a/capa/features/extractors/smda/file.py
+++ b/capa/features/extractors/smda/file.py
@@ -0,0 +1,139 @@
 import struct
 # if we have SMDA we definitely have lief
 import lief
 import capa.features.extractors.helpers
 import capa.features.extractors.strings
 from capa.features import String, Characteristic
 from capa.features.file import Export, Import, Section
 def carve(pbytes, offset=0):
    """
    Return a list of (offset, size, xor) tuples of embedded PEs
    Based on the version from vivisect:
    https://github.com/vivisect/vivisect/blob/7be4037b1cecc4551b397f840405a1fc606f9b53/PE/carve.py#L19
    And its IDA adaptation:
    capa/features/extractors/ida/file.py
    """
    mz_xor = [
        (
            capa.features.extractors.helpers.xor_static(b"MZ", i),
            capa.features.extractors.helpers.xor_static(b"PE", i),
            i,
        )
        for i in range(256)
    ]
    pblen = len(pbytes)
    todo = [(pbytes.find(mzx, offset), mzx, pex, i) for mzx, pex, i in mz_xor]
    todo = [(off, mzx, pex, i) for (off, mzx, pex, i) in todo if off != -1]
    while len(todo):
        off, mzx, pex, i = todo.pop()
        # The MZ header has one field we will check
        # e_lfanew is at 0x3c
        e_lfanew = off + 0x3C
        if pblen < (e_lfanew + 4):
            continue
        newoff = struct.unpack("<I", capa.features.extractors.helpers.xor_static(pbytes[e_lfanew : e_lfanew + 4], i))[0]
        nextres = pbytes.find(mzx, off + 1)
        if nextres != -1:
            todo.append((nextres, mzx, pex, i))
        peoff = off + newoff
        if pblen < (peoff + 2):
            continue
        if pbytes[peoff : peoff + 2] == pex:
            yield (off, i)
 def extract_file_embedded_pe(smda_report, file_path):
    with open(file_path, "rb") as f:
        fbytes = f.read()
    for offset, i in carve(fbytes, 1):
        yield Characteristic("embedded pe"), offset
 def extract_file_export_names(smda_report, file_path):
    lief_binary = lief.parse(file_path)
    if lief_binary is not None:
        for function in lief_binary.exported_functions:
            yield Export(function.name), function.address
 def extract_file_import_names(smda_report, file_path):
    # extract import table info via LIEF
    lief_binary = lief.parse(file_path)
    if not isinstance(lief_binary, lief.PE.Binary):
        return
    for imported_library in lief_binary.imports:
        library_name = imported_library.name.lower()
        library_name = library_name[:-4] if library_name.endswith(".dll") else library_name
        for func in imported_library.entries:
            if func.name:
                va = func.iat_address + smda_report.base_addr
                for name in capa.features.extractors.helpers.generate_symbols(library_name, func.name):
                    yield Import(name), va
            elif func.is_ordinal:
                for name in capa.features.extractors.helpers.generate_symbols(library_name, "#%s" % func.ordinal):
                    yield Import(name), va
 def extract_file_section_names(smda_report, file_path):
    lief_binary = lief.parse(file_path)
    if not isinstance(lief_binary, lief.PE.Binary):
        return
    if lief_binary and lief_binary.sections:
        base_address = lief_binary.optional_header.imagebase
        for section in lief_binary.sections:
            yield Section(section.name), base_address + section.virtual_address
 def extract_file_strings(smda_report, file_path):
    """
    extract ASCII and UTF-16 LE strings from file
    """
    with open(file_path, "rb") as f:
        b = f.read()
    for s in capa.features.extractors.strings.extract_ascii_strings(b):
        yield String(s.s), s.offset
    for s in capa.features.extractors.strings.extract_unicode_strings(b):
        yield String(s.s), s.offset
 def extract_features(smda_report, file_path):
    """
    extract file features from given workspace
    args:
      smda_report (smda.common.SmdaReport): a SmdaReport
      file_path: path to the input file
    yields:
      Tuple[Feature, VA]: a feature and its location.
    """
    for file_handler in FILE_HANDLERS:
        result = file_handler(smda_report, file_path)
        for feature, va in file_handler(smda_report, file_path):
            yield feature, va
 FILE_HANDLERS = (
    extract_file_embedded_pe,
    extract_file_export_names,
    extract_file_import_names,
    extract_file_section_names,
    extract_file_strings,
 )
--- a/capa/features/extractors/smda/function.py
+++ b/capa/features/extractors/smda/function.py
@@ -0,0 +1,38 @@
 from capa.features import Characteristic
 from capa.features.extractors import loops
 def extract_function_calls_to(f):
    for inref in f.inrefs:
        yield Characteristic("calls to"), inref
 def extract_function_loop(f):
    """
    parse if a function has a loop
    """
    edges = []
    for bb_from, bb_tos in f.blockrefs.items():
        for bb_to in bb_tos:
            edges.append((bb_from, bb_to))
    if edges and loops.has_loop(edges):
        yield Characteristic("loop"), f.offset
 def extract_features(f):
    """
    extract features from the given function.
    args:
      f (smda.common.SmdaFunction): the function from which to extract features
    yields:
      Feature, set[VA]: the features and their location found in this function.
    """
    for func_handler in FUNCTION_HANDLERS:
        for feature, va in func_handler(f):
            yield feature, va
 FUNCTION_HANDLERS = (extract_function_calls_to, extract_function_loop)
--- a/capa/features/extractors/smda/insn.py
+++ b/capa/features/extractors/smda/insn.py
@@ -0,0 +1,393 @@
 import re
 import string
 import struct
 from smda.common.SmdaReport import SmdaReport
 import capa.features.extractors.helpers
 from capa.features import (
    ARCH_X32,
    ARCH_X64,
    MAX_BYTES_FEATURE_SIZE,
    THUNK_CHAIN_DEPTH_DELTA,
    Bytes,
    String,
    Characteristic,
 )
 from capa.features.insn import API, Number, Offset, Mnemonic
 # security cookie checks may perform non-zeroing XORs, these are expected within a certain
 # byte range within the first and returning basic blocks, this helps to reduce FP features
 SECURITY_COOKIE_BYTES_DELTA = 0x40
 PATTERN_HEXNUM = re.compile(r"[+\-] (?P<num>0x[a-fA-F0-9]+)")
 PATTERN_SINGLENUM = re.compile(r"[+\-] (?P<num>[0-9])")
 def get_arch(smda_report):
    if smda_report.architecture == "intel":
        if smda_report.bitness == 32:
            return ARCH_X32
        elif smda_report.bitness == 64:
            return ARCH_X64
    else:
        raise NotImplementedError
 def extract_insn_api_features(f, bb, insn):
    """parse API features from the given instruction."""
    if insn.offset in f.apirefs:
        api_entry = f.apirefs[insn.offset]
        # reformat
        dll_name, api_name = api_entry.split("!")
        dll_name = dll_name.split(".")[0]
        dll_name = dll_name.lower()
        for name in capa.features.extractors.helpers.generate_symbols(dll_name, api_name):
            yield API(name), insn.offset
    elif insn.offset in f.outrefs:
        current_function = f
        current_instruction = insn
        for index in range(THUNK_CHAIN_DEPTH_DELTA):
            if current_function and len(current_function.outrefs[current_instruction.offset]) == 1:
                target = current_function.outrefs[current_instruction.offset][0]
                referenced_function = current_function.smda_report.getFunction(target)
                if referenced_function:
                    # TODO SMDA: implement this function for both jmp and call, checking if function has 1 instruction which refs an API
                    if referenced_function.isApiThunk():
                        api_entry = (
                            referenced_function.apirefs[target] if target in referenced_function.apirefs else None
                        )
                        if api_entry:
                            # reformat
                            dll_name, api_name = api_entry.split("!")
                            dll_name = dll_name.split(".")[0]
                            dll_name = dll_name.lower()
                            for name in capa.features.extractors.helpers.generate_symbols(dll_name, api_name):
                                yield API(name), insn.offset
                    elif referenced_function.num_instructions == 1 and referenced_function.num_outrefs == 1:
                        current_function = referenced_function
                        current_instruction = [i for i in referenced_function.getInstructions()][0]
                else:
                    return
 def extract_insn_number_features(f, bb, insn):
    """parse number features from the given instruction."""
    # example:
    #
    #     push    3136B0h         ; dwControlCode
    operands = [o.strip() for o in insn.operands.split(",")]
    if insn.mnemonic == "add" and operands[0] in ["esp", "rsp"]:
        # skip things like:
        #
        #    .text:00401140                 call    sub_407E2B
        #    .text:00401145                 add     esp, 0Ch
        return
    for operand in operands:
        try:
            yield Number(int(operand, 16)), insn.offset
            yield Number(int(operand, 16), arch=get_arch(f.smda_report)), insn.offset
        except:
            continue
 def read_bytes(smda_report, va, num_bytes=None):
    """
    read up to MAX_BYTES_FEATURE_SIZE from the given address.
    """
    rva = va - smda_report.base_addr
    if smda_report.buffer is None:
        return
    buffer_end = len(smda_report.buffer)
    max_bytes = num_bytes if num_bytes is not None else MAX_BYTES_FEATURE_SIZE
    if rva + max_bytes > buffer_end:
        return smda_report.buffer[rva:]
    else:
        return smda_report.buffer[rva : rva + max_bytes]
 def derefs(smda_report, p):
    """
    recursively follow the given pointer, yielding the valid memory addresses along the way.
    useful when you may have a pointer to string, or pointer to pointer to string, etc.
    this is a "do what i mean" type of helper function.
    based on the implementation in viv/insn.py
    """
    depth = 0
    while True:
        if not smda_report.isAddrWithinMemoryImage(p):
            return
        yield p
        bytes_ = read_bytes(smda_report, p, num_bytes=4)
        val = struct.unpack("I", bytes_)[0]
        # sanity: pointer points to self
        if val == p:
            return
        # sanity: avoid chains of pointers that are unreasonably deep
        depth += 1
        if depth > 10:
            return
        p = val
 def extract_insn_bytes_features(f, bb, insn):
    """
    parse byte sequence features from the given instruction.
    example:
        #     push    offset iid_004118d4_IShellLinkA ; riid
    """
    for data_ref in insn.getDataRefs():
        for v in derefs(f.smda_report, data_ref):
            bytes_read = read_bytes(f.smda_report, v)
            if bytes_read is None:
                continue
            if capa.features.extractors.helpers.all_zeros(bytes_read):
                continue
            yield Bytes(bytes_read), insn.offset
 def detect_ascii_len(smda_report, offset):
    if smda_report.buffer is None:
        return 0
    ascii_len = 0
    rva = offset - smda_report.base_addr
    char = smda_report.buffer[rva]
    while char < 127 and chr(char) in string.printable:
        ascii_len += 1
        rva += 1
        char = smda_report.buffer[rva]
    if char == 0:
        return ascii_len
    return 0
 def detect_unicode_len(smda_report, offset):
    if smda_report.buffer is None:
        return 0
    unicode_len = 0
    rva = offset - smda_report.base_addr
    char = smda_report.buffer[rva]
    second_char = smda_report.buffer[rva + 1]
    while char < 127 and chr(char) in string.printable and second_char == 0:
        unicode_len += 2
        rva += 2
        char = smda_report.buffer[rva]
        second_char = smda_report.buffer[rva + 1]
    if char == 0 and second_char == 0:
        return unicode_len
    return 0
 def read_string(smda_report, offset):
    alen = detect_ascii_len(smda_report, offset)
    if alen > 1:
        return read_bytes(smda_report, offset, alen).decode("utf-8")
    ulen = detect_unicode_len(smda_report, offset)
    if ulen > 2:
        return read_bytes(smda_report, offset, ulen).decode("utf-16")
 def extract_insn_string_features(f, bb, insn):
    """parse string features from the given instruction."""
    # example:
    #
    #     push    offset aAcr     ; "ACR  > "
    for data_ref in insn.getDataRefs():
        for v in derefs(f.smda_report, data_ref):
            string_read = read_string(f.smda_report, v)
            if string_read:
                yield String(string_read.rstrip("\x00")), insn.offset
 def extract_insn_offset_features(f, bb, insn):
    """parse structure offset features from the given instruction."""
    # examples:
    #
    #     mov eax, [esi + 4]
    #     mov eax, [esi + ecx + 16384]
    operands = [o.strip() for o in insn.operands.split(",")]
    for operand in operands:
        if not "ptr" in operand:
            continue
        if "esp" in operand or "ebp" in operand or "rbp" in operand:
            continue
        number = 0
        number_hex = re.search(PATTERN_HEXNUM, operand)
        number_int = re.search(PATTERN_SINGLENUM, operand)
        if number_hex:
            number = int(number_hex.group("num"), 16)
            number = -1 * number if number_hex.group().startswith("-") else number
        elif number_int:
            number = int(number_int.group("num"))
            number = -1 * number if number_int.group().startswith("-") else number
        yield Offset(number), insn.offset
        yield Offset(number, arch=get_arch(f.smda_report)), insn.offset
 def is_security_cookie(f, bb, insn):
    """
    check if an instruction is related to security cookie checks
    """
    # security cookie check should use SP or BP
    operands = [o.strip() for o in insn.operands.split(",")]
    if operands[1] not in ["esp", "ebp", "rsp", "rbp"]:
        return False
    for index, block in enumerate(f.getBlocks()):
        # expect security cookie init in first basic block within first bytes (instructions)
        block_instructions = [i for i in block.getInstructions()]
        if index == 0 and insn.offset < (block_instructions[0].offset + SECURITY_COOKIE_BYTES_DELTA):
            return True
        # ... or within last bytes (instructions) before a return
        if block_instructions[-1].mnemonic.startswith("ret") and insn.offset > (
            block_instructions[-1].offset - SECURITY_COOKIE_BYTES_DELTA
        ):
            return True
    return False
 def extract_insn_nzxor_characteristic_features(f, bb, insn):
    """
    parse non-zeroing XOR instruction from the given instruction.
    ignore expected non-zeroing XORs, e.g. security cookies.
    """
    if insn.mnemonic not in ("xor", "xorpd", "xorps", "pxor"):
        return
    operands = [o.strip() for o in insn.operands.split(",")]
    if operands[0] == operands[1]:
        return
    if is_security_cookie(f, bb, insn):
        return
    yield Characteristic("nzxor"), insn.offset
 def extract_insn_mnemonic_features(f, bb, insn):
    """parse mnemonic features from the given instruction."""
    yield Mnemonic(insn.mnemonic), insn.offset
 def extract_insn_peb_access_characteristic_features(f, bb, insn):
    """
    parse peb access from the given function. fs:[0x30] on x86, gs:[0x60] on x64
    """
    if insn.mnemonic not in ["push", "mov"]:
        return
    operands = [o.strip() for o in insn.operands.split(",")]
    for operand in operands:
        if "fs:" in operand and "0x30" in operand:
            yield Characteristic("peb access"), insn.offset
        elif "gs:" in operand and "0x60" in operand:
            yield Characteristic("peb access"), insn.offset
 def extract_insn_segment_access_features(f, bb, insn):
    """ parse the instruction for access to fs or gs """
    operands = [o.strip() for o in insn.operands.split(",")]
    for operand in operands:
        if "fs:" in operand:
            yield Characteristic("fs access"), insn.offset
        elif "gs:" in operand:
            yield Characteristic("gs access"), insn.offset
 def extract_insn_cross_section_cflow(f, bb, insn):
    """
    inspect the instruction for a CALL or JMP that crosses section boundaries.
    """
    if insn.mnemonic in ["call", "jmp"]:
        if insn.offset in f.apirefs:
            return
        smda_report = insn.smda_function.smda_report
        if insn.offset in f.outrefs:
            for target in f.outrefs[insn.offset]:
                if smda_report.getSection(insn.offset) != smda_report.getSection(target):
                    yield Characteristic("cross section flow"), insn.offset
        elif insn.operands.startswith("0x"):
            target = int(insn.operands, 16)
            if smda_report.getSection(insn.offset) != smda_report.getSection(target):
                yield Characteristic("cross section flow"), insn.offset
 # this is a feature that's most relevant at the function scope,
 # however, its most efficient to extract at the instruction scope.
 def extract_function_calls_from(f, bb, insn):
    if insn.mnemonic != "call":
        return
    if insn.offset in f.outrefs:
        for outref in f.outrefs[insn.offset]:
            yield Characteristic("calls from"), outref
            if outref == f.offset:
                # if we found a jump target and it's the function address
                # mark as recursive
                yield Characteristic("recursive call"), outref
    if insn.offset in f.apirefs:
        yield Characteristic("calls from"), insn.offset
 # this is a feature that's most relevant at the function or basic block scope,
 # however, its most efficient to extract at the instruction scope.
 def extract_function_indirect_call_characteristic_features(f, bb, insn):
    """
    extract indirect function call characteristic (e.g., call eax or call dword ptr [edx+4])
    does not include calls like => call ds:dword_ABD4974
    """
    if insn.mnemonic != "call":
        return
    if insn.operands.startswith("0x"):
        return False
    if "qword ptr" in insn.operands and "rip" in insn.operands:
        return False
    if insn.operands.startswith("dword ptr [0x"):
        return False
    # call edx
    # call dword ptr [eax+50h]
    # call qword ptr [rsp+78h]
    yield Characteristic("indirect call"), insn.offset
 def extract_features(f, bb, insn):
    """
    extract features from the given insn.
    args:
      f (smda.common.SmdaFunction): the function to process.
      bb (smda.common.SmdaBasicBlock): the basic block to process.
      insn (smda.common.SmdaInstruction): the instruction to process.
    yields:
      Feature, set[VA]: the features and their location found in this insn.
    """
    for insn_handler in INSTRUCTION_HANDLERS:
        for feature, va in insn_handler(f, bb, insn):
            yield feature, va
 INSTRUCTION_HANDLERS = (
    extract_insn_api_features,
    extract_insn_number_features,
    extract_insn_string_features,
    extract_insn_bytes_features,
    extract_insn_offset_features,
    extract_insn_nzxor_characteristic_features,
    extract_insn_mnemonic_features,
    extract_insn_peb_access_characteristic_features,
    extract_insn_cross_section_cflow,
    extract_insn_segment_access_features,
    extract_function_calls_from,
    extract_function_indirect_call_characteristic_features,
 )
--- a/capa/features/extractors/strings.py
+++ b/capa/features/extractors/strings.py
@@ -1,6 +1,6 @@
-# strings code from FLOSS, https://github.com/mandiant/flare-floss
+# strings code from FLOSS, https://github.com/fireeye/flare-floss
 #
-# Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
@@ -9,7 +9,6 @@
 # See the License for the specific language governing permissions and limitations under the License.
 import re
 import contextlib
 from collections import namedtuple
 ASCII_BYTE = r" !\"#\$%&\'\(\)\*\+,-\./0123456789:;<=>\?@ABCDEFGHIJKLMNOPQRSTUVWXYZ\[\]\^_`abcdefghijklmnopqrstuvwxyz\{\|\}\\\~\t".encode(
@@ -82,5 +81,24 @@ def extract_unicode_strings(buf, n=4):
        reg = b"((?:[%s]\x00){%d,})" % (ASCII_BYTE, n)
        r = re.compile(reg)
    for match in r.finditer(buf):
-        with contextlib.suppress(UnicodeDecodeError):
+        try:
            yield String(match.group().decode("utf-16"), match.start())
        except UnicodeDecodeError:
            pass
 def main():
    import sys
    with open(sys.argv[1], "rb") as f:
        b = f.read()
    for s in extract_ascii_strings(b):
        print("0x{:x}: {:s}".format(s.offset, s.s))
    for s in extract_unicode_strings(b):
        print("0x{:x}: {:s}".format(s.offset, s.s))
 if __name__ == "__main__":
    main()
--- a/capa/features/extractors/viv/init.py
+++ b/capa/features/extractors/viv/init.py
@@ -0,0 +1,81 @@
 # Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import types
 import viv_utils
 import capa.features.extractors
 import capa.features.extractors.viv.file
 import capa.features.extractors.viv.insn
 import capa.features.extractors.viv.function
 import capa.features.extractors.viv.basicblock
 from capa.features.extractors import FeatureExtractor
 __all__ = ["file", "function", "basicblock", "insn"]
 def get_va(self):
    try:
        # vivisect type
        return self.va
    except AttributeError:
        pass
    raise TypeError()
 def add_va_int_cast(o):
    """
    dynamically add a cast-to-int (`__int__`) method to the given object
    that returns the value of the `.va` property.
    this bit of skullduggery lets use cast viv-utils objects as ints.
    the correct way of doing this is to update viv-utils (or subclass the objects here).
    """
    setattr(o, "__int__", types.MethodType(get_va, o))
    return o
 class VivisectFeatureExtractor(FeatureExtractor):
    def __init__(self, vw, path):
        super(VivisectFeatureExtractor, self).__init__()
        self.vw = vw
        self.path = path
    def get_base_address(self):
        # assume there is only one file loaded into the vw
        return list(self.vw.filemeta.values())[0]["imagebase"]
    def extract_file_features(self):
        for feature, va in capa.features.extractors.viv.file.extract_features(self.vw, self.path):
            yield feature, va
    def get_functions(self):
        for va in sorted(self.vw.getFunctions()):
            yield add_va_int_cast(viv_utils.Function(self.vw, va))
    def extract_function_features(self, f):
        for feature, va in capa.features.extractors.viv.function.extract_features(f):
            yield feature, va
    def get_basic_blocks(self, f):
        for bb in f.basic_blocks:
            yield add_va_int_cast(bb)
    def extract_basic_block_features(self, f, bb):
        for feature, va in capa.features.extractors.viv.basicblock.extract_features(f, bb):
            yield feature, va
    def get_instructions(self, f, bb):
        for insn in bb.instructions:
            yield add_va_int_cast(insn)
    def extract_insn_features(self, f, bb, insn):
        for feature, va in capa.features.extractors.viv.insn.extract_features(f, bb, insn):
            yield feature, va
--- a/capa/features/extractors/viv/basicblock.py
+++ b/capa/features/extractors/viv/basicblock.py
@@ -1,4 +1,4 @@
-# Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
@@ -8,30 +8,27 @@
 import string
 import struct
 from typing import Tuple, Iterator
 import envi
-import envi.archs.i386.disasm
+import vivisect.const
-from capa.features.common import Feature, Characteristic
+from capa.features import Characteristic
 from capa.features.address import Address, AbsoluteVirtualAddress
 from capa.features.basicblock import BasicBlock
 from capa.features.extractors.helpers import MIN_STACKSTRING_LEN
 from capa.features.extractors.base_extractor import BBHandle, FunctionHandle
-def interface_extract_basic_block_XXX(f: FunctionHandle, bb: BBHandle) -> Iterator[Tuple[Feature, Address]]:
+def interface_extract_basic_block_XXX(f, bb):
    """
    parse features from the given basic block.
    args:
-      f: the function to process.
+      f (viv_utils.Function): the function to process.
-      bb: the basic block to process.
+      bb (viv_utils.BasicBlock): the basic block to process.
    yields:
-      (Feature, Address): the feature and the address at which its found.
+      (Feature, int): the feature and the address at which its found.
    """
-    raise NotImplementedError
+    yield NotImplementedError("feature"), NotImplementedError("virtual address")
 def _bb_has_tight_loop(f, bb):
@@ -40,17 +37,17 @@ def _bb_has_tight_loop(f, bb):
    """
    if len(bb.instructions) > 0:
        for bva, bflags in bb.instructions[-1].getBranches():
-            if bflags & envi.BR_COND:
+            if bflags & vivisect.envi.BR_COND:
                if bva == bb.va:
                    return True
    return False
-def extract_bb_tight_loop(f: FunctionHandle, bb: BBHandle) -> Iterator[Tuple[Feature, Address]]:
+def extract_bb_tight_loop(f, bb):
-    """check basic block for tight loop indicators"""
+    """ check basic block for tight loop indicators """
-    if _bb_has_tight_loop(f, bb.inner):
+    if _bb_has_tight_loop(f, bb):
-        yield Characteristic("tight loop"), bb.address
+        yield Characteristic("tight loop"), bb.va
 def _bb_has_stackstring(f, bb):
@@ -70,13 +67,13 @@ def _bb_has_stackstring(f, bb):
    return False
-def extract_stackstring(f: FunctionHandle, bb: BBHandle) -> Iterator[Tuple[Feature, Address]]:
+def extract_stackstring(f, bb):
-    """check basic block for stackstring indicators"""
+    """ check basic block for stackstring indicators """
-    if _bb_has_stackstring(f, bb.inner):
+    if _bb_has_stackstring(f, bb):
-        yield Characteristic("stack string"), bb.address
+        yield Characteristic("stack string"), bb.va
-def is_mov_imm_to_stack(instr: envi.archs.i386.disasm.i386Opcode) -> bool:
+def is_mov_imm_to_stack(instr):
    """
    Return if instruction moves immediate onto stack
    """
@@ -92,6 +89,7 @@ def is_mov_imm_to_stack(instr: envi.archs.i386.disasm.i386Opcode) -> bool:
    if not src.isImmed():
        return False
    # TODO what about 64-bit operands?
    if not isinstance(dst, envi.archs.i386.disasm.i386SibOper) and not isinstance(
        dst, envi.archs.i386.disasm.i386RegMemOper
    ):
@@ -107,7 +105,7 @@ def is_mov_imm_to_stack(instr: envi.archs.i386.disasm.i386Opcode) -> bool:
    return True
-def get_printable_len(oper: envi.archs.i386.disasm.i386ImmOper) -> int:
+def get_printable_len(oper):
    """
    Return string length if all operand bytes are ascii or utf16-le printable
    """
@@ -119,18 +117,14 @@ def get_printable_len(oper: envi.archs.i386.disasm.i386ImmOper) -> int:
        chars = struct.pack("<I", oper.imm)
    elif oper.tsize == 8:
        chars = struct.pack("<Q", oper.imm)
    else:
        raise ValueError(f"unexpected oper.tsize: {oper.tsize}")
    if is_printable_ascii(chars):
        return oper.tsize
-    elif is_printable_utf16le(chars):
+    if is_printable_utf16le(chars):
        return oper.tsize / 2
-    else:
+    return 0
        return 0
-def is_printable_ascii(chars: bytes) -> bool:
+def is_printable_ascii(chars):
    try:
        chars_str = chars.decode("ascii")
    except UnicodeDecodeError:
@@ -139,13 +133,12 @@ def is_printable_ascii(chars: bytes) -> bool:
        return all(c in string.printable for c in chars_str)
-def is_printable_utf16le(chars: bytes) -> bool:
+def is_printable_utf16le(chars):
-    if all(c == 0x0 for c in chars[1::2]):
+    if all(c == b"\x00" for c in chars[1::2]):
        return is_printable_ascii(chars[::2])
    return False
-def extract_features(f: FunctionHandle, bb: BBHandle) -> Iterator[Tuple[Feature, Address]]:
+def extract_features(f, bb):
    """
    extract features from the given basic block.
@@ -154,12 +147,12 @@ def extract_features(f: FunctionHandle, bb: BBHandle) -> Iterator[Tuple[Feature,
      bb (viv_utils.BasicBlock): the basic block to process.
    yields:
-      Tuple[Feature, int]: the features and their location found in this basic block.
+      Feature, set[VA]: the features and their location found in this basic block.
    """
-    yield BasicBlock(), AbsoluteVirtualAddress(bb.inner.va)
+    yield BasicBlock(), bb.va
    for bb_handler in BASIC_BLOCK_HANDLERS:
-        for feature, addr in bb_handler(f, bb):
+        for feature, va in bb_handler(f, bb):
-            yield feature, addr
+            yield feature, va
 BASIC_BLOCK_HANDLERS = (
--- a/capa/features/extractors/viv/extractor.py
+++ b/capa/features/extractors/viv/extractor.py
@@ -1,89 +0,0 @@
 # Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 import logging
 from typing import Any, Dict, List, Tuple, Iterator
 from pathlib import Path
 import viv_utils
 import viv_utils.flirt
 import capa.features.extractors.common
 import capa.features.extractors.viv.file
 import capa.features.extractors.viv.insn
 import capa.features.extractors.viv.global_
 import capa.features.extractors.viv.function
 import capa.features.extractors.viv.basicblock
 from capa.features.common import Feature
 from capa.features.address import Address, AbsoluteVirtualAddress
 from capa.features.extractors.base_extractor import (
    BBHandle,
    InsnHandle,
    SampleHashes,
    FunctionHandle,
    StaticFeatureExtractor,
 )
 logger = logging.getLogger(__name__)
 class VivisectFeatureExtractor(StaticFeatureExtractor):
    def __init__(self, vw, path: Path, os):
        self.vw = vw
        self.path = path
        self.buf = path.read_bytes()
        super().__init__(hashes=SampleHashes.from_bytes(self.buf))
        # pre-compute these because we'll yield them at *every* scope.
        self.global_features: List[Tuple[Feature, Address]] = []
        self.global_features.extend(capa.features.extractors.viv.file.extract_file_format(self.buf))
        self.global_features.extend(capa.features.extractors.common.extract_os(self.buf, os))
        self.global_features.extend(capa.features.extractors.viv.global_.extract_arch(self.vw))
    def get_base_address(self):
        # assume there is only one file loaded into the vw
        return AbsoluteVirtualAddress(list(self.vw.filemeta.values())[0]["imagebase"])
    def extract_global_features(self):
        yield from self.global_features
    def extract_file_features(self):
        yield from capa.features.extractors.viv.file.extract_features(self.vw, self.buf)
    def get_functions(self) -> Iterator[FunctionHandle]:
        cache: Dict[str, Any] = {}
        for va in sorted(self.vw.getFunctions()):
            yield FunctionHandle(
                address=AbsoluteVirtualAddress(va), inner=viv_utils.Function(self.vw, va), ctx={"cache": cache}
            )
    def extract_function_features(self, fh: FunctionHandle) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.viv.function.extract_features(fh)
    def get_basic_blocks(self, fh: FunctionHandle) -> Iterator[BBHandle]:
        f: viv_utils.Function = fh.inner
        for bb in f.basic_blocks:
            yield BBHandle(address=AbsoluteVirtualAddress(bb.va), inner=bb)
    def extract_basic_block_features(self, fh: FunctionHandle, bbh) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.viv.basicblock.extract_features(fh, bbh)
    def get_instructions(self, fh: FunctionHandle, bbh: BBHandle) -> Iterator[InsnHandle]:
        bb: viv_utils.BasicBlock = bbh.inner
        for insn in bb.instructions:
            yield InsnHandle(address=AbsoluteVirtualAddress(insn.va), inner=insn)
    def extract_insn_features(
        self, fh: FunctionHandle, bbh: BBHandle, ih: InsnHandle
    ) -> Iterator[Tuple[Feature, Address]]:
        yield from capa.features.extractors.viv.insn.extract_features(fh, bbh, ih)
    def is_library_function(self, addr):
        return viv_utils.flirt.is_library_function(self.vw, addr)
    def get_function_name(self, addr):
        return viv_utils.get_function_name(self.vw, addr)
--- a/capa/features/extractors/viv/file.py
+++ b/capa/features/extractors/viv/file.py
@@ -1,62 +1,33 @@
-# Copyright (C) 2023 Mandiant, Inc. All Rights Reserved.
+# Copyright (C) 2020 FireEye, Inc. All Rights Reserved.
 # Licensed under the Apache License, Version 2.0 (the "License");
 #  you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at: [package root]/LICENSE.txt
 # Unless required by applicable law or agreed to in writing, software distributed under the License
 #  is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and limitations under the License.
 from typing import Tuple, Iterator
 import PE.carve as pe_carve  # vivisect PE
 import vivisect
 import viv_utils
 import viv_utils.flirt
 import capa.features.insn
 import capa.features.extractors.common
 import capa.features.extractors.helpers
 import capa.features.extractors.strings
-from capa.features.file import Export, Import, Section, FunctionName
+from capa.features import String, Characteristic
-from capa.features.common import Feature, Characteristic
+from capa.features.file import Export, Import, Section
 from capa.features.address import Address, FileOffsetAddress, AbsoluteVirtualAddress
-def extract_file_embedded_pe(buf, **kwargs) -> Iterator[Tuple[Feature, Address]]:
+def extract_file_embedded_pe(vw, file_path):
-    for offset, _ in pe_carve.carve(buf, 1):
+    with open(file_path, "rb") as f:
-        yield Characteristic("embedded pe"), FileOffsetAddress(offset)
+        fbytes = f.read()
    for offset, i in pe_carve.carve(fbytes, 1):
        yield Characteristic("embedded pe"), offset
-def get_first_vw_filename(vw: vivisect.VivWorkspace):
+def extract_file_export_names(vw, file_path):
-    # vivisect associates metadata with each file that its loaded into the workspace.
+    for va, etype, name, _ in vw.getExports():
-    # capa only loads a single file into each workspace.
+        yield Export(name), va
    # so to access the metadata for the file in question, we can just take the first one.
    # otherwise, we'd have to pass around the module name of the file we're analyzing,
    # which is a pain.
    #
    # so this is a simplifying assumption.
    return next(iter(vw.filemeta.keys()))
-def extract_file_export_names(vw: vivisect.VivWorkspace, **kwargs) -> Iterator[Tuple[Feature, Address]]:
+def extract_file_import_names(vw, file_path):
    for va, _, name, _ in vw.getExports():
        yield Export(name), AbsoluteVirtualAddress(va)
    if vw.getMeta("Format") == "pe":
        pe = vw.parsedbin
        baseaddr = pe.IMAGE_NT_HEADERS.OptionalHeader.ImageBase
        for rva, _, forwarded_name in vw.getFileMeta(get_first_vw_filename(vw), "forwarders"):
            try:
                forwarded_name = forwarded_name.partition(b"\x00")[0].decode("ascii")
            except UnicodeDecodeError:
                continue
            forwarded_name = capa.features.extractors.helpers.reformat_forwarded_export_name(forwarded_name)
            va = baseaddr + rva
            yield Export(forwarded_name), AbsoluteVirtualAddress(va)
            yield Characteristic("forwarded export"), AbsoluteVirtualAddress(va)
 def extract_file_import_names(vw, **kwargs) -> Iterator[Tuple[Feature, Address]]:
    """
    extract imported function names
    1. imports by ordinal:
@@ -67,17 +38,16 @@ def extract_file_import_names(vw, **kwargs) -> Iterator[Tuple[Feature, Address]]
    """
    for va, _, _, tinfo in vw.getImports():
        # vivisect source: tinfo = "%s.%s" % (libname, impname)
-        modname, impname = tinfo.split(".", 1)
+        modname, impname = tinfo.split(".")
        if is_viv_ord_impname(impname):
            # replace ord prefix with #
-            impname = "#" + impname[len("ord") :]
+            impname = "#%s" % impname[len("ord") :]
-        addr = AbsoluteVirtualAddress(va)
+        for name in capa.features.extractors.helpers.generate_symbols(modname, impname):
-        for name in capa.features.extractors.helpers.generate_symbols(modname, impname, include_dll=True):
+            yield Import(name), va
            yield Import(name), addr
-def is_viv_ord_impname(impname: str) -> bool:
+def is_viv_ord_impname(impname):
    """
    return if import name matches vivisect's ordinal naming scheme `'ord%d' % ord`
    """
@@ -91,51 +61,40 @@ def is_viv_ord_impname(impname: str) -> bool:
        return True
-def extract_file_section_names(vw, **kwargs) -> Iterator[Tuple[Feature, Address]]:
+def extract_file_section_names(vw, file_path):
    for va, _, segname, _ in vw.getSegments():
-        yield Section(segname), AbsoluteVirtualAddress(va)
+        yield Section(segname), va
-def extract_file_strings(buf, **kwargs) -> Iterator[Tuple[Feature, Address]]:
+def extract_file_strings(vw, file_path):
    yield from capa.features.extractors.common.extract_file_strings(buf)
 def extract_file_function_names(vw, **kwargs) -> Iterator[Tuple[Feature, Address]]:
    """
-    extract the names of statically-linked library functions.
+    extract ASCII and UTF-16 LE strings from file
    """
-    for va in sorted(vw.getFunctions()):
+    with open(file_path, "rb") as f:
-        addr = AbsoluteVirtualAddress(va)
+        b = f.read()
-        if viv_utils.flirt.is_library_function(vw, va):
+
-            name = viv_utils.get_function_name(vw, va)
+    for s in capa.features.extractors.strings.extract_ascii_strings(b):
-            yield FunctionName(name), addr
+        yield String(s.s), s.offset
-            if name.startswith("_"):
+
-                # some linkers may prefix linked routines with a `_` to avoid name collisions.
+    for s in capa.features.extractors.strings.extract_unicode_strings(b):
-                # extract features for both the mangled and un-mangled representations.
+        yield String(s.s), s.offset
                # e.g. `_fwrite` -> `fwrite`
                # see: https://stackoverflow.com/a/2628384/87207
                yield FunctionName(name[1:]), addr
-def extract_file_format(buf, **kwargs) -> Iterator[Tuple[Feature, Address]]:
+def extract_features(vw, file_path):
    yield from capa.features.extractors.common.extract_format(buf)
 def extract_features(vw, buf: bytes) -> Iterator[Tuple[Feature, Address]]:
    """
    extract file features from given workspace
    args:
      vw (vivisect.VivWorkspace): the vivisect workspace
-      buf: the raw input file bytes
+      file_path: path to the input file
    yields:
-      Tuple[Feature, Address]: a feature and its location.
+      Tuple[Feature, VA]: a feature and its location.
    """
    for file_handler in FILE_HANDLERS:
-        for feature, addr in file_handler(vw=vw, buf=buf):  # type: ignore
+        for feature, va in file_handler(vw, file_path):
-            yield feature, addr
+            yield feature, va
 FILE_HANDLERS = (
@@ -144,6 +103,4 @@ FILE_HANDLERS = (
    extract_file_import_names,
    extract_file_section_names,
    extract_file_strings,
    extract_file_function_names,
    extract_file_format,
 )
--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
Ana María Martínez Gómez	c547519ee4	Merge pull request #537 from Ana06/master-py2-1_6_3	2021-04-29 14:13:20 +02:00
Ana Maria Martinez Gomez	b65286a435	changelog: v1.6.3 - Add v1.6.3 to changelog - Remove capa rules from v1.6.2 (there were no changes). I'll remove the tag in capa-rules once this is merged. - Remove master (unreleased) section. This only makes sense in master and we are only using this branch for backporting bug fixes.	2021-04-29 11:56:50 +02:00
Ana Maria Martinez Gomez	3eef5c8773	version: bump to v1.6.3	2021-04-29 11:56:50 +02:00
Ana Maria Martinez Gomez	f70b046ed4	ci: update isort Before removing Py2 we were already using isort 3.8.0 in the tests, as we were requiring isort 5 explicitly: ``` pip install 'isort==5.*' black ``` `ce8370931e` starts using the setup.py version, which makes the tests fail. Note this was not a problem because we were using Py3 for the code linters.	2021-04-29 11:56:50 +02:00
William Ballenthin	ce8370931e	ci: use black/isort dep from setup.py closes #535	2021-04-29 11:38:14 +02:00
Ana Maria Martinez Gomez	8f58ccc8ae	doc: document support IDA versions Text taken from master (except the Python version).	2021-04-29 11:18:51 +02:00
Willi Ballenthin	92cd6c6726	ida: support 7.6 closes #496	2021-04-29 11:12:36 +02:00
Ana María Martínez Gómez	eea0e1e738	Merge pull request #527 from Ana06/v1-6-2	2021-04-13 17:21:31 +02:00
Ana Maria Martinez Gomez	60834e3ecd	changelog: v1.6.2 This release backports a fix to capa 1.6: The Windows binary was built with Python 3.9 which doesn't support Windows 7.	2021-04-13 12:18:50 +02:00
Ana Maria Martinez Gomez	54f8f6d162	version: bump to v1.6.2	2021-04-13 12:16:19 +02:00
Ana Maria Martinez Gomez	62743e1363	ci: Enable tests for master-py2 branch Use the master-py branch to backport fixes to capa 1.6 (Python 2 support).	2021-04-13 12:08:30 +02:00
Ana Maria Martinez Gomez	b34d791d05	build: Fix binary for Windows 7 Python 3.9 doesn't support Windows 7. Build with Python 3.8 instead.	2021-04-13 12:06:05 +02:00