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base: gitea-mirror:v0.6.5
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gitea-mirror:master gitea-mirror:develop gitea-mirror:NimBLE-2.0 gitea-mirror:marauder_c5 gitea-mirror:captiveportal gitea-mirror:probe gitea-mirror:StickCPlus-2-port gitea-mirror:unified-serial gitea-mirror:nmea2
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compare: gitea-mirror:v0.9.13
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gitea-mirror:master gitea-mirror:develop gitea-mirror:NimBLE-2.0 gitea-mirror:marauder_c5 gitea-mirror:captiveportal gitea-mirror:probe gitea-mirror:StickCPlus-2-port gitea-mirror:unified-serial gitea-mirror:nmea2
gitea-mirror:nightly_1d41960 gitea-mirror:nightly_dfd556d gitea-mirror:nightly_03623e2 gitea-mirror:nightly_0a5e200 gitea-mirror:nightly_9d51b91 gitea-mirror:v1.8.10 gitea-mirror:nightly_a874375 gitea-mirror:nightly_31baaca gitea-mirror:nightly_93ac8b3 gitea-mirror:nightly_1343c91 gitea-mirror:nightly_3fc18d6 gitea-mirror:v1.8.9 gitea-mirror:nightly_9819a6b gitea-mirror:v1.8.8 gitea-mirror:v1.8.7 gitea-mirror:nightly gitea-mirror:v1.8.6 gitea-mirror:v1.8.5 gitea-mirror:v1.8.4 gitea-mirror:v1.8.3 gitea-mirror:v1.8.2 gitea-mirror:v1.8.1 gitea-mirror:v1.8.0 gitea-mirror:v1.7.2 gitea-mirror:v1.7.1 gitea-mirror:v1.7.0 gitea-mirror:v1.6.2 gitea-mirror:master gitea-mirror:v1.6.1 gitea-mirror:v1.6.0 gitea-mirror:v1.5.1 gitea-mirror:v1.5.0 gitea-mirror:v1.4.6 gitea-mirror:v1.4.5 gitea-mirror:v1.4.4 gitea-mirror:v1.4.3 gitea-mirror:v1.4.2 gitea-mirror:v1.4.1 gitea-mirror:v1.4.0 gitea-mirror:v1.3.0 gitea-mirror:v1.2.1 gitea-mirror:v1.2.0 gitea-mirror:v1.1.0 gitea-mirror:v1.0.0 gitea-mirror:v0.13.10 gitea-mirror:v0.13.9 gitea-mirror:v0.13.8 gitea-mirror:v0.13.7 gitea-mirror:v0.13.6 gitea-mirror:v0.13.5 gitea-mirror:v0.13.4 gitea-mirror:v0.13.3 gitea-mirror:v0.13.2 gitea-mirror:v0.13.1 gitea-mirror:v0.13.0 gitea-mirror:v0.12.1 gitea-mirror:v0.12.0 gitea-mirror:v0.11.1 gitea-mirror:v0.11.0 gitea-mirror:v0.11.0-RC3 gitea-mirror:v0.11.0-RC2 gitea-mirror:v0.11.0-RC1 gitea-mirror:v0.10.8 gitea-mirror:v0.10.7 gitea-mirror:v0.10.6 gitea-mirror:v0.10.5 gitea-mirror:v0.10.4 gitea-mirror:v0.10.3 gitea-mirror:v0.10.2 gitea-mirror:v0.10.1 gitea-mirror:v0.10.0 gitea-mirror:v0.9.20 gitea-mirror:v0.9.19 gitea-mirror:v0.9.18 gitea-mirror:v0.9.17 gitea-mirror:v0.9.16 gitea-mirror:v0.9.15 gitea-mirror:v0.9.14 gitea-mirror:v0.9.13 gitea-mirror:v0.9.13-rc1 gitea-mirror:v0.9.12 gitea-mirror:v0.9.11 gitea-mirror:v0.9.10 gitea-mirror:v0.9.9 gitea-mirror:v0.9.8 gitea-mirror:v0.9.7 gitea-mirror:v0.9.6 gitea-mirror:v0.9.5 gitea-mirror:v0.9.3 gitea-mirror:v0.9.1 gitea-mirror:v0.9.0 gitea-mirror:v0.8.0 gitea-mirror:v0.7.0 gitea-mirror:v0.6.9 gitea-mirror:v0.6.8 gitea-mirror:v0.6.6 gitea-mirror:v0.6.5 gitea-mirror:v0.6.3 gitea-mirror:v0.6.2 gitea-mirror:v0.5.3 gitea-mirror:v0.4.5 gitea-mirror:v0.4.0 gitea-mirror:v0.3.0 gitea-mirror:v0.2.0 gitea-mirror:v0.1.0

163 Commits
v0.6.5 ... v0.9.13

Author SHA1 Message Date
Just Call Me Koko
07b57ae7b8 Release v0.9.13 2022-08-06 12:57:07 -04:00
Just Call Me Koko
2e469d1410 Add rssi and setting reset 2022-08-06 12:37:09 -04:00
improving-rigmarole
d0d3c40ad3 fix sniffpmkid SSID visible (#140) 2022-08-04 18:55:57 -04:00
Just Call Me Koko
9c0f627176 Fix stopscan and sniffpmkid 2022-08-04 09:07:11 -04:00
Just Call Me Koko
3d602d7555 Release v0.9.13-rc1 2022-08-02 14:19:22 -04:00
Just Call Me Koko
e8693c95f4 Fix mini update menu 2022-08-02 14:03:43 -04:00
Just Call Me Koko
cebfc5b5c1 Release v0.9.12 2022-08-01 18:03:48 -04:00
Just Call Me Koko
1291c7f322 Add settings command and SD CS 2022-08-01 17:03:07 -04:00
Just Call Me Koko
b234cee7ea Update README.md 2022-07-31 15:50:59 -04:00
Just Call Me Koko
792b4e5ac9 Release v0.9.11 2022-07-31 15:42:56 -04:00
Just Call Me Koko
09de10d95c packet monitor eapol scan formatting 2022-07-31 14:53:21 -04:00
Just Call Me Koko
898dd1242d Fix screen buffer formatting 2022-07-31 11:45:28 -04:00
Just Call Me Koko
4f04e91d0a Add screen buffer for mini 2022-07-30 20:48:25 -04:00
Just Call Me Koko
b7c2d668b5 Select all and flipper LED 2022-07-30 14:12:51 -04:00
Just Call Me Koko
cbcfa10330 v0.9.10 Release 2022-07-18 18:50:30 -04:00
Just Call Me Koko
88777524e0 Release v0.9.9 2022-06-28 15:26:44 -04:00
Just Call Me Koko
f2d48d229a PMKID deauth optional 2022-06-22 19:17:25 -04:00
Just Call Me Koko
4aa93e2cc3 Send deauth for pmkid 2022-06-20 21:17:06 -04:00
Just Call Me Koko
00a785343c Update README.md 2022-06-18 19:55:01 -04:00
Just Call Me Koko
01b0520aec AP obfuscation attack 2022-06-18 03:22:13 -04:00
Just Call Me Koko
2468abba22 Save a beacon packet 2022-06-14 23:09:58 -04:00
Just Call Me Koko
355236dc42 Add targeted ap beacon spam 2022-06-13 20:18:20 -04:00
Just Call Me Koko
80f99f78a7 Add channel arg to pmkid sniff 2022-06-13 19:36:51 -04:00
Just Call Me Koko
809f0fb19d Release v0.9.8 2022-06-10 16:34:43 -04:00
Just Call Me Koko
71d5391066 Add help command 2022-06-03 21:02:20 -04:00
Just Call Me Koko
1988ec5808 Fix OTA update shutdown via CLI 2022-06-03 15:31:44 -04:00
Just Call Me Koko
2b130b9d11 Add more sniff and attack commands 2022-06-03 15:21:57 -04:00
Just Call Me Koko
0091c5642a print eapol when received 2022-06-03 12:39:44 -04:00
Just Call Me Koko
a80bba9b18 Add SSID commands 2022-06-02 17:13:54 -04:00
Just Call Me Koko
d686353322 Add attack command to CLI 2022-06-01 18:11:47 -04:00
Just Call Me Koko
ae8f8e870f Add more cmd, clean serial, add ascii 2022-05-31 22:46:28 -04:00
Gregor Hermani
d11faf5996 add OG-Marauder enclosure (#124) 
* add Marauder Mini Case and rearrange files

* Add OG-Marauder Enclosure
 2022-05-31 12:26:21 -04:00
Just Call Me Koko
6ae350dded Re-release v0.9.7 2022-05-28 14:50:00 -04:00
Just Call Me Koko
9a1ee15345 v0.9.7 Release 2022-05-28 14:29:15 -04:00
Just Call Me Koko
da538934e3 Trims serial input for PuTTY 2022-05-28 13:51:12 -04:00
Just Call Me Koko
e2b52f74e5 Merge pull request #122 from justcallmekoko/develop 
Fix Marauder OTA for Flipper Zero
 2022-05-28 09:51:00 -04:00
Just Call Me Koko
546afc63a7 Fix Marauder OTA for Flipper Zero 2022-05-28 09:47:06 -04:00
Just Call Me Koko
2f0d05a538 Develop (#121) 
* Adding new library, changing way of displaying texts (#118)

* Adding custom icon for language button

* Adding new library, changing way of displaying texts

Added new library to make incoming translation possible to exists at the same time.

* Prepare for flipper integration

* More flipper wifi dev board work

* Add command parse

* Add set channel

* Create bins for release v0.9.6

Co-authored-by: mlodawy <105587112+mlodawy@users.noreply.github.com>
 2022-05-28 09:06:59 -04:00
mlodawy
9f013d3d52 Adding custom icon for language button (#117) 2022-05-16 11:10:54 -04:00
mlodawy
45db8f3c22 Merge pull request #1 from justcallmekoko/master (#116) 2022-05-15 11:04:36 -04:00
Just Call Me Koko
e490b40196 Merge branch 'master' into master 2022-05-15 11:01:25 -04:00
mlodawy
72edd3d43d Add langauge button 2022-05-15 16:54:53 +02:00
Just Call Me Koko
bc6a07f5cb Add polish potato 2022-05-15 10:17:32 -04:00
Just Call Me Koko
bd7a350a9b Resize Marauder logo 2022-05-11 23:48:30 -04:00
Just Call Me Koko
cdd0ee5976 Add sniff deauth command 2022-05-11 18:53:55 -04:00
Just Call Me Koko
d7aac68866 Center click exit scan 2022-05-09 20:30:08 -04:00
Just Call Me Koko
0f58a0657b PROGMEM commands and remove mini lv_arduino 2022-05-07 14:36:44 -04:00
Gregor Hermani
d9a6966574 add Marauder Mini Case and rearrange files (#112) 2022-05-04 10:12:57 -04:00
Just Call Me Koko
5341c559be Add come cli commands 2022-05-03 00:44:07 -04:00
Just Call Me Koko
2c4edd012d Add some command line stuff 2022-05-03 00:22:11 -04:00
Just Call Me Koko
3b09650363 Merge branch 'master' of https://github.com/justcallmekoko/ESP32Marauder 2022-05-02 21:44:43 -04:00
Just Call Me Koko
7d6d0517e1 Add Marauder Mini Configuration 2022-05-02 21:44:42 -04:00
Just Call Me Koko
30020dd710 Add files via upload 2022-04-29 11:51:46 -04:00
Just Call Me Koko
3d2bb75081 Add files via upload 2022-04-29 11:51:29 -04:00
Just Call Me Koko
95841e5384 Add files via upload 2022-04-29 11:50:14 -04:00
Just Call Me Koko
a73ae2bbcb Create README.md 2022-04-29 11:48:52 -04:00
Just Call Me Koko
ae1aebde50 Add files via upload 2022-04-29 11:46:44 -04:00
Just Call Me Koko
9134280c6a Add files via upload 2022-04-29 11:45:23 -04:00
Just Call Me Koko
93d0f2e1d2 Create PCB_ESP32 Marauder 3.5 Kit V3 PCB_2022-04-29.json 2022-04-29 11:40:20 -04:00
Just Call Me Koko
e3f365febf Create PCB_ESP32 Marauder 3.7 OG PCB_2022-04-29.json 2022-04-29 11:38:31 -04:00
Just Call Me Koko
66576c1908 Create PCB_ESP32 Marauder 6 PCB_2022-04-29.json 2022-04-29 11:28:22 -04:00
Just Call Me Koko
8c53ac679f Update README.md 2022-01-19 11:36:25 -05:00
Just Call Me Koko
2d33c0b5ab Re-release v0.9.5 
Fix some screen issues I guess?
 2022-01-19 11:30:18 -05:00
Just Call Me Koko
ec4fc7487f Release v0.9.5 2022-01-18 23:30:10 -05:00
Just Call Me Koko
71ced23041 Settings actually work 2022-01-18 23:20:42 -05:00
Just Call Me Koko
8e874c493b Actually made settings work 2022-01-18 03:29:45 -05:00
Just Call Me Koko
373482822a Make settings available on Menu 2021-07-28 23:24:18 -04:00
Just Call Me Koko
bca0f70073 Add specific setting retrieval 2021-07-27 22:06:04 -04:00
Just Call Me Koko
37c65bf6f1 Add settings function 2021-07-25 21:33:21 -04:00
Just Call Me Koko
b7be44d5ea Update Display.h 2021-07-25 11:54:29 -04:00
Just Call Me Koko
503e65e012 Update README.md for version 0.9.3 2021-07-24 12:23:56 -04:00
Just Call Me Koko
a78d5b792c Create MarauderOTA firmware 2021-07-24 12:00:11 -04:00
Just Call Me Koko
38098cb9e5 Release v0.9.3 2021-07-24 09:03:17 -04:00
Just Call Me Koko
466d5fbb1a Fix definitions 2021-07-24 01:20:17 -04:00
Just Call Me Koko
51a7ff7e26 Add deauthentication attack 2021-07-24 00:16:56 -04:00
Just Call Me Koko
f166c7a4df Pre ESP-IDF v4.4 2021-07-24 00:14:23 -04:00
Just Call Me Koko
9e1fe534b0 Move Marauder splash screen to byte array 2021-07-22 17:48:56 -04:00
Just Call Me Koko
a23e7a4c48 Add kit firmware modifications 2021-07-08 18:44:47 -04:00
Just Call Me Koko
f801ba0bc5 Update README.md 2021-07-01 11:06:54 -04:00
Just Call Me Koko
31687c10cb Fake wifi functions 2021-06-15 16:33:45 -04:00
Just Call Me Koko
8f57daa699 Release v0.9.1 2021-05-20 21:39:39 -04:00
Just Call Me Koko
910e25f478 Create BootloaderMassStorage2.hex 2021-05-11 15:28:42 -04:00
Just Call Me Koko
039279fc95 Fix some shit; This is a good commit message 2021-05-10 18:47:28 -04:00
Just Call Me Koko
d2b89654e6 Add probe request attack 2021-05-09 00:36:27 -04:00
Just Call Me Koko
6e829f5bf4 Add AP select for attacks 2021-05-06 22:49:00 -04:00
Just Call Me Koko
678179a097 Add AP Scan 2021-05-06 20:43:25 -04:00
Just Call Me Koko
54e00389cc Release v0.9.0 2021-05-06 17:05:45 -04:00
Just Call Me Koko
a888c97d52 Create release_countdown.html 2021-05-04 12:38:20 -04:00
Just Call Me Koko
3203c1f94a Add files via upload 2021-04-29 14:19:16 -04:00
Just Call Me Koko
98e5b532bc Add files via upload 2021-04-29 09:20:41 -04:00
Just Call Me Koko
f43907e37c Add files via upload 2021-04-29 09:02:34 -04:00
Just Call Me Koko
c993edb6b2 Upload Marauder 7 images 2021-04-27 15:25:02 -04:00
Just Call Me Koko
e27ffe1d5f Fix ESP8266 Menu option 2021-04-27 15:23:50 -04:00
Just Call Me Koko
324e780609 Update README.md 2021-04-26 11:18:03 -04:00
Just Call Me Koko
1b51354e5d Create old_README.md 2021-04-26 10:44:59 -04:00
Just Call Me Koko
2ec82c509b Check for SD 2021-04-17 13:52:32 -04:00
Just Call Me Koko
d6f20ec1fa add Save As to ducky scripts 2021-04-15 21:20:47 -04:00
Just Call Me Koko
87b0fbf370 Load and modify ducky scripts 2021-04-15 20:50:53 -04:00
Just Call Me Koko
a314e8e817 Add load ducky scripts 2021-04-15 17:08:26 -04:00
Just Call Me Koko
a52e52962d Better ATmega32u4 detection 2021-04-14 16:32:52 -04:00
Just Call Me Koko
e3de597e0a Add A32U4 check 2021-04-13 21:32:05 -04:00
Just Call Me Koko
3f3b784d47 Add check ESP8266 2021-04-13 20:32:15 -04:00
Just Call Me Koko
c822bba6da Add detect ESP8266 2021-04-13 20:05:04 -04:00
Just Call Me Koko
6ce7f598eb Add ducky script execution 2021-04-08 21:48:31 -04:00
Just Call Me Koko
fe33f1fab3 Add BadUSB 2021-04-08 21:02:31 -04:00
Just Call Me Koko
a18b8b3004 Add esp8266 interface 2021-04-08 15:22:33 -04:00
Just Call Me Koko
5102939dd5 Update README.md 2021-01-07 12:23:20 -05:00
Just Call Me Koko
02ac69ecca Update README.md 2021-01-07 12:09:47 -05:00
Just Call Me Koko
4154b0e0dd Update README to v0.8.0 2020-12-30 22:18:38 -05:00
Just Call Me Koko
e108fef595 Add TFT pin definitions 2020-12-30 22:18:01 -05:00
Just Call Me Koko
06c70562a7 Release v0.8.0 2020-08-31 19:15:10 -04:00
Just Call Me Koko
17dd0dda4f Add icons 2020-08-31 19:01:27 -04:00
Just Call Me Koko
06a172e28c Add SSID 2020-08-31 18:45:10 -04:00
Just Call Me Koko
53cef7f44f Add icons 2020-08-29 01:46:00 -04:00
Just Call Me Koko
804bdc5150 Monitor connection attempts 2020-08-29 01:11:50 -04:00
Just Call Me Koko
857f61cdf0 Add beacon spam list 2020-08-29 00:41:37 -04:00
Just Call Me Koko
cf2d5df4d5 Generate SSIDs #44 2020-08-29 00:09:04 -04:00
Just Call Me Koko
c8cddedd2b Add icons for shutdown 2020-08-28 20:56:28 -04:00
Just Call Me Koko
2f023a6dbe Shutdown BLE menu 2020-08-28 18:38:05 -04:00
Just Call Me Koko
7c137a84af Added shutdown wifi menu 2020-08-28 17:19:13 -04:00
Just Call Me Koko
ece6b63de4 Menus #55, #54, #53, #52 2020-08-28 16:06:40 -04:00
Just Call Me Koko
a327c75727 Add general menu items back 2020-08-28 15:43:33 -04:00
Just Call Me Koko
018198d51b Fix BLE initialization 2020-08-28 15:42:32 -04:00
Just Call Me Koko
0f4a94134e Track initialization 2020-08-28 15:40:55 -04:00
Just Call Me Koko
a1dd40a928 Add Join WiFi 2020-08-27 23:22:35 -04:00
Just Call Me Koko
d32388eb2f Add LVGL keyboard 2020-08-27 22:41:39 -04:00
Just Call Me Koko
9ee434ae7f Fixes 
Fix wifi shutdown
Fix eapolScan
Fix font size
Fix strings
Fix for loops
 2020-08-27 20:43:29 -04:00
Just Call Me Koko
2572b83701 Revert "Cleanup SD stuff" 
This reverts commit f86b5a4df0.
 2020-08-27 20:03:33 -04:00
Just Call Me Koko
d914ebd7c0 Revert "SD changes more" 
This reverts commit 7db2d0e05d.
 2020-08-27 20:03:30 -04:00
Just Call Me Koko
79cdb806f1 Revert "Stupid" 
This reverts commit dead80e2f3.
 2020-08-27 20:03:21 -04:00
Just Call Me Koko
9f07bc4843 Revert "Revert "Add icons to README.md because they are cool"" 
This reverts commit b3e98b64ce.
 2020-08-27 20:02:46 -04:00
Just Call Me Koko
b3e98b64ce Revert "Add icons to README.md because they are cool" 
This reverts commit c7cf1e09f7.
 2020-08-27 20:00:18 -04:00
Just Call Me Koko
dead80e2f3 Stupid 2020-08-27 19:57:52 -04:00
Just Call Me Koko
7db2d0e05d SD changes more 2020-08-27 19:47:25 -04:00
Just Call Me Koko
f86b5a4df0 Cleanup SD stuff 2020-08-26 17:06:36 -04:00
Just Call Me Koko
c7cf1e09f7 Add icons to README.md because they are cool 2020-08-25 08:01:55 -04:00
Just Call Me Koko
f623880772 Release v0.7.0 2020-08-19 20:43:03 -04:00
Just Call Me Koko
ec3ca6d0ad Update Display.h 2020-08-10 16:50:37 -04:00
Just Call Me Koko
59b143fb3e Install NimBLE 2020-08-06 09:12:53 -04:00
Just Call Me Koko
c5136b5d2e Use NimBLE 2020-08-05 20:03:23 -04:00
Joshinken
ba05c388b1 maybe? (#38) 
* Update Display.cpp

I THINK I FIGURED OUT WHAT IM DOING

* Add files via upload

* Update esp32_marauder.ino

* Update MenuFunctions.cpp

* Update MenuFunctions.h

* Update MenuFunctions.cpp

* Update README.md

* Update README.md

* Update MenuFunctions.cpp

* Update MenuFunctions.h

* Update MenuFunctions.h

* Add files via upload

* Update esp32_marauder.ino

* Update README.md

* Update Display.cpp

moved the float "wd", as the draw function would continously change it, which resulted in those weird effects when trying to draw different thicknesses

* Update MenuFunctions.cpp

* Update Display.cpp

made it so the drawing code doesnt need to draw every pixel individually and made it so it can handle higher thiccnesses... at all. it did not handly thicknesses above 2 with any kind of grace

* Update Display.cpp

removed unneccessary variable changes, just realized i kept making certain variables be a certain value over and over

* Fix screen change battery percentage

* restore TFT touch data

* Delete MenuFunctions.cpp

* Update README.md

fixed a typo, missing period to be exact

* Update README.md

Co-authored-by: Just Call Me Koko <25190487+justcallmekoko@users.noreply.github.com>
 2020-08-05 07:31:05 -04:00
Just Call Me Koko
a98be0d435 Release v0.6.9 
-Fix draw app with smoother lines
-Exit function draw app
 2020-08-03 18:34:10 -04:00
Just Call Me Koko
da43c8b369 Add exit function to draw app 2020-07-22 21:24:50 -04:00
Joshinken
7a5134bb86 nye³ (#35) 
* Update Display.cpp

I THINK I FIGURED OUT WHAT IM DOING

* Add files via upload

* Update esp32_marauder.ino

* Update MenuFunctions.cpp

* Update MenuFunctions.h

* Update MenuFunctions.cpp

* Update README.md

* Update README.md

* Update MenuFunctions.cpp

* Update MenuFunctions.h

* Update MenuFunctions.h

* Add files via upload

* Update esp32_marauder.ino

* Update README.md

* Update Display.cpp

moved the float "wd", as the draw function would continously change it, which resulted in those weird effects when trying to draw different thicknesses

* Update MenuFunctions.cpp

* Update Display.cpp

made it so the drawing code doesnt need to draw every pixel individually and made it so it can handle higher thiccnesses... at all. it did not handly thicknesses above 2 with any kind of grace

* Update Display.cpp

removed unneccessary variable changes, just realized i kept making certain variables be a certain value over and over

* Fix screen change battery percentage

* restore TFT touch data

Co-authored-by: Just Call Me Koko <25190487+justcallmekoko@users.noreply.github.com>
 2020-07-21 17:45:20 -04:00
Just Call Me Koko
bbc10e4452 Add travis badge to README 2020-07-20 07:19:05 -04:00
tobozo
f05776ba45 Working Travis config for ESP32Marauder (#28) 
* Update .travis.yml

* Update .travis.yml

* Update .travis.yml

* Update .travis.yml

* Update .travis.yml

* Update .travis.yml

* Update .travis.yml

* Update .travis.yml

* Update .travis.yml

* Update .travis.yml

* Update .travis.yml
 2020-07-19 13:21:34 -04:00
Joshinken
20694f593a Update Display.cpp (#27) 
I THINK I FIGURED OUT WHAT IM DOING
 2020-07-18 11:30:53 -04:00
Just Call Me Koko
140451b47c Release v0.6.8 2020-07-15 12:23:01 -04:00
Just Call Me Koko
6490a12b30 Update status bar 2020-07-09 20:29:26 -04:00
Just Call Me Koko
1a4136137d Add detect espressif devices 2020-07-02 19:05:06 -04:00
Just Call Me Koko
e79db36906 Update README.md 2020-06-24 09:39:58 -04:00
Just Call Me Koko
d9d25b0010 Update README.md 2020-06-22 11:13:54 -04:00
Just Call Me Koko
8a18e55bb7 Add files via upload 2020-06-22 11:09:34 -04:00
Just Call Me Koko
1c86a71704 Add files via upload 2020-06-22 10:18:16 -04:00
Just Call Me Koko
f7db1ea401 Update Web.cpp 2020-06-19 14:33:50 -04:00
Just Call Me Koko
bdc209d489 Update README.md 2020-06-18 19:49:51 -04:00
Just Call Me Koko
cc891457ce Update LED 2020-06-18 19:47:42 -04:00
Just Call Me Koko
6c3a0d30b7 Delete BOM_ESP32 Marauder 2_20191007113632.csv 2020-06-10 17:35:34 -04:00
Just Call Me Koko
12182af21c Add cartel photos 2020-06-10 17:29:56 -04:00
Just Call Me Koko
c9c6bbf971 Update WiFiScan.cpp 2020-06-03 18:00:00 -04:00
Just Call Me Koko
7391a05c8a Add photos of Marauder v6 2020-06-03 17:54:26 -04:00
Just Call Me Koko
dd6f800b48 Update README.md 2020-05-29 16:43:10 -04:00
Just Call Me Koko
6f2c2862f6 Add pwnagotchi detector 2020-05-28 23:20:21 -04:00
180 changed files with 545767 additions and 3000 deletions
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@@ -11,24 +11,6 @@ env:
before_install:
# TODO: undo
# remove submodules, we don't want those to be actually tested for compliance
- git submodule status | rm -Rf `cut -d ' ' -f 3`
# Formatting checks:
# Check for files starting with a blank line
- find . -path './.git' -prune -or -type f -print0 | xargs -0 -L1 bash -c 'head -1 "$0" | grep --binary-files=without-match --regexp="^$"; if [[ "$?" == "0" ]]; then echo "Blank line found at start of $0."; false; fi'
# Check for tabs
- find . -path './.git' -prune -or -type f \( ! -iname ".gitmodules" \) -exec grep --with-filename --line-number --binary-files=without-match --regexp=$'\t' '{}' \; -exec echo 'Tab found.' \; -exec false '{}' +
# Check for trailing whitespace
- find . -path './.git' -prune -or -type f -exec grep --with-filename --line-number --binary-files=without-match --regexp='[[:blank:]]$' '{}' \; -exec echo 'Trailing whitespace found.' \; -exec false '{}' +
# Check for non-Unix line endings
- find . -path './.git' -prune -or -type f -exec grep --files-with-matches --binary-files=without-match --regexp=$'\r$' '{}' \; -exec echo 'Non-Unix EOL detected.' \; -exec false '{}' +
# Check for blank lines at end of files
- find . -path './.git' -prune -or -type f -print0 | xargs -0 -L1 bash -c 'tail -1 "$0" | grep --binary-files=without-match --regexp="^$"; if [[ "$?" == "0" ]]; then echo "Blank line found at end of $0."; false; fi'
# Check for files that don't end in a newline (https://stackoverflow.com/a/25686825)
- find . -path './.git' -prune -or -type f -print0 | xargs -0 -L1 bash -c 'if test "$(grep --files-with-matches --binary-files=without-match --max-count=1 --regexp='.*' "$0")" && test "$(tail --bytes=1 "$0")"; then echo "No new line at end of $0."; false; fi'
- git clone https://github.com/per1234/arduino-ci-script.git "${HOME}/scripts/arduino-ci-script"
- cd "${HOME}/scripts/arduino-ci-script"
# Get new tags from the remote
@@ -46,19 +28,23 @@ before_install:
- set_application_folder "$APPLICATION_FOLDER"
- set_sketchbook_folder "$SKETCHBOOK_FOLDER"
- install_ide '("1.8.0" "1.8.9" "newest")'
#- install_ide '("1.8.11" "1.8.12" "newest")'
- install_ide '("newest")'
# Install the library from the repository
- install_library
- install_library "M5Stack"
- install_library 'https://github.com/bblanchon/ArduinoJson.git' # "ArduinoJSON"
- ls ${TRAVIS_BUILD_DIR} -la
- ls ${TRAVIS_BUILD_DIR}/examples/M5Stack-SD-Menu/ -la
- ls $SKETCHBOOK_FOLDER -la
- ls $SKETCHBOOK_FOLDER/libraries -la
- pwd
# what the fsck is wrong install_package() ??
#- install_library "https://github.com/lvgl/lv_port_esp32/archive/master.zip"
- install_library "TFT_eSPI"
- install_library "JPEGDecoder"
- install_library "LinkedList"
- install_library "lv_arduino"
- install_library "https://github.com/adafruit/Adafruit_NeoPixel/archive/1.5.0.zip" ## "Adafruit_NeoPixel"
- install_library 'https://github.com/bblanchon/ArduinoJson/releases/download/v5.13.5/ArduinoJson-v5.13.5.zip'
- install_library 'https://github.com/h2zero/NimBLE-Arduino/archive/master.zip' # NimBLE
- cp ${TRAVIS_BUILD_DIR}/User_Setup.h /home/travis/arduino-sketchbook/libraries/TFT_eSPI/User_Setup.h
#- install_library 'https://github.com/bblanchon/ArduinoJson.git'
#- install_library "https://github.com/spacehuhn/SimpleList.git"
#
- install_package "esp32:esp32" "https://dl.espressif.com/dl/package_esp32_index.json" # # esp32:esp32:m5stack-core-esp32
#- /home/travis/arduino-ide/arduino-1.8.10/arduino --pref "compiler.warning_level=none" --save-prefs &>/dev/null
#- /home/travis/arduino-ide/arduino-1.8.10/arduino --pref "build.warn_data_percentage=75" --save-prefs &>/dev/null
@@ -69,8 +55,9 @@ before_install:
script:
# Compile all example sketches included with the library
# build_sketch arguments: sketch name, fqbn, allow failure, IDE version/list/range
- check_library_manager_compliance "$TRAVIS_BUILD_DIR"
- build_sketch "${TRAVIS_BUILD_DIR}/examples/M5Stack-SD-Menu/M5Stack-SD-Menu.ino" "esp32:esp32:m5stack-core-esp32:FlashFreq=80,UploadSpeed=921600" "false" "newest"
# - check_library_manager_compliance "$TRAVIS_BUILD_DIR"
- set_ide_preference "compiler.warning_level=auto"
- build_sketch "${TRAVIS_BUILD_DIR}/esp32_marauder/esp32_marauder.ino" "esp32:esp32:d32_pro:FlashFreq=80,UploadSpeed=921600,PartitionScheme=min_spiffs" "false" "newest"
after_script:
# Commit a report of the job results to the CI-reports repository

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Width:  |  Height:  |  Size: 52 KiB

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Further resources can be found [here](http://www.lcdwiki.com/2.8inch_SPI_Module_ILI9341_SKU:MSP2807)

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<!---[![Build Status](https://travis-ci.com/justcallmekoko/ESP32Marauder.svg?branch=master)](https://travis-ci.com/justcallmekoko/ESP32Marauder)--->
<!---Shields/Badges https://shields.io/--->
# ESP32 Marauder v0.6.4
# ESP32 Marauder v0.9.13
<p align="center"><img alt="Marauder logo" src="https://github.com/justcallmekoko/ESP32Marauder/blob/master/pictures/marauder3L.jpg?raw=true" width="300"></p>
<p align="center">
<b>A suite of WiFi/Bluetooth offensive and defensive tools for the ESP32</b>
@@ -16,161 +16,14 @@
<a href="https://www.instagram.com/just.call.me.koko"><img src="https://img.shields.io/badge/Follow%20Me-Instagram-orange" alt="Instagram"/></a>
<br><br>
<a href="https://www.tindie.com/products/justcallmekoko/esp32-marauder/"><img src="https://d2ss6ovg47m0r5.cloudfront.net/badges/tindie-larges.png" alt="I sell on Tindie" width="200" height="104"></a>
<br>
<a href="https://www.twitch.tv/willstunforfood"><img src="https://assets.stickpng.com/images/580b57fcd9996e24bc43c540.png" alt="Twitch WillStunForFood" width="200"></a>
</p>
# Table Of Condensation
- [About](#about)
- [YouTube](#youtube)
- [Hackster Article](#hackster-article)
- [Capabilities](#capabilities)
- [Do It Yourself](#do-it-yourself)
- [Hardware](#hardware)
- [Connections](#connections)
- [Flashing Firmware](#flashing-firmware)
- [Using Arduino IDE](#using-arduino-ide)
- [Updating Firmware](#updating-firmware)
- [Web Update](#web-update)
- [SD Update](#sd-update)
- [Enclosure](#enclosure)
- [Under Development](#under-development)
- [Special Thanks](#special-thanks)
- [For Sale Now](#for-sale-now)
# About
Sometimes you just gotta do what you gotta do. Am I right, ladies?
The ESP32 Marauder is a suite of WiFi/Bluetooth offensive and defensive tools created for the ESP32 and was originally inspired by [Spacehuhn's](https://github.com/Spacehuhn) [esp8266_deauther](https://github.com/Spacehuhn/esp8366_deauther) project. The tool itself serves as a portable device used to test and analyze WiFi and Bluetooth devices. Use this tool and its firmware with caution as the use of some of its capabilities without explicit consent from the target owner is unlawful in most countries. For more information about this project and how it's assembled, follow the video link below. Track features and issues [here](https://github.com/justcallmekoko/ESP32Marauder/issues). Check out [#esp32marauder](https://www.instagram.com/explore/tags/esp32marauder/) on Instagram.
**Note:** Because of espressif's ESP32-IDF, the ESP32 included with Marauder is incapable of transmitting deauthentication frames.
### YouTube
<p align="left"><a href="https://www.youtube.com/watch?v=BGFO1wA29o8"><img alt="Marauder logo" src="https://github.com/justcallmekoko/ESP32Marauder/blob/master/pictures/esp32marauder_thumbnail.jpg" width="500"></a></p>
### Hackster Article
You can check out the marauder article written [here](https://www.hackster.io/news/esp32-marauder-puts-a-bluetooth-wi-fi-pen-testing-toolkit-in-your-pocket-32d389f6e66f) as well as other interesting engineering projects.
## Capabilities
### Current
- Probe Request Sniff: Sniff for WiFi [probe request frames](https://mrncciew.com/2014/10/27/cwap-802-11-probe-requestresponse/) sent by wireless devices
- Beacon Sniff: Sniff [beacon frames](https://en.wikipedia.org/wiki/Beacon_frame) sent by wireless acccess points
- Beacon Spam Random: Spam hundreds of random beacon frames to wireless devices within range
- Rick Roll Beacon: Broadcast the rick roll lyrics as WiFi access points
- Bluetooth Sniffer: Sniff bluetooth devices within range
- Detect Card Skimmers: Detect bluetooth enabled credit card skimmers
- Packet Monitor: Show WiFi packet density on a given channel using a time bar graph
- EAPOL/PMKID Scan: Capture EAPOL/PMKID frames
- Deauth Sniff: Detect deauthentication packets sent on all channels
- Draw: Just doodle on the screen or whatever
- Update Firmware: Update Marauder firmware over the air via web interface or with SD card
- Save PCAP files to SD card
# Do It Yourself
## Hardware
This project requires the following hardware in order to work:
- Any ESP32 Development Board
- 2.8" TFT Touch Screen w/ ili9341
- Jumper Wires
- Breadboard
### Connections
Make the following connections between your 2.8" TFT Screen and your ESP32 board. You may need to refer to a pinout sheet specific to the ESP32 dev board you have chosen. For more infomation about this circuit, please refer to [this schematic](https://github.com/justcallmekoko/ESP32Marauder/blob/master/schematics/Schematic_ESP32-Marauder-2_ESP32-Marauder-2-Schematic_20191007113616_png.png)
| SD Card | 2.8" TFT | ESP32 |
| ------- | -------- | ------ |
| | VCC | VCC |
| | GND | GND |
| | CS | GPIO17 |
| | RESET | GPIO5 |
| | D/C | GPIO16 |
| SD_MOSI | MOSI | GPIO23 |
| SD_SCK | SCK | GPIO18 |
| | LED | GPIO32 |
| SD_MISO | MISO | GPIO19 |
| | T_CLK | GPIO18 |
| | T_CS | GPIO21 |
| | T_DI | GPIO23 |
| | T_DO | GPIO19 |
| | T_IRQ | |
| SD_CS | | GPIO12 |
## Flashing Firmware
### Using Arduino IDE
1. Install the [Arduino IDE](https://www.arduino.cc/en/main/software)
2. In the Arduino IDE, go to `File`>`Preferences`
3. Add the following URL to `Additional Boards Manager URLs:`
- https://dl.espressif.com/dl/package_esp32_index.json
4. Go to `Tools`>`Board`>`Boards Manager`, search for `esp32` and install `esp32 by Espressif Systems`
5. Install Spacehuhn's [SimpleList](https://github.com/spacehuhn/SimpleList) library in your Arduino IDE
- Download the SimpleList repo
- In the Arduino IDE, go to `Sketch`>`Include Library`>`Add .ZIP Library...` and add the SimpleList-master.zip you just downloaded
<!---6. Install Bodmer's [TFT_eSPI](https://github.com/Bodmer/TFT_eSPI) library in your Arduino IDE--->
6. Install my fork of Bodmer's [TFT_eSPI](https://github.com/justcallmekoko/TFT_eSPI) library in your Arduino IDE
- Download the TFT_eSPI repo
- In the Arduino IDE, go to `Sketch`>`Include Library`>`Add .ZIP Library...` and add the TFT-eSPI-master.zip you just downloaded
- Make the following modifications shown in [this issue](https://github.com/justcallmekoko/ESP32Marauder/issues/2#issuecomment-555695918) to the TFT_eSPI library you just installed
7. Follow [these instructions](https://github.com/me-no-dev/arduino-esp32fs-plugin) for installing ESP32 Spiffs Tool
8. Install the [CH340 Drivers](https://github.com/justcallmekoko/ESP32Marauder/blob/master/Drivers/CH34x_Install_Windows_v3_4.EXE)
9. Download or clone this repository
10. Open `esp32_marauder.ino`
11. Plug your ESP32 into a USB port and select the COM port under `Tools`>`Port`
12. Select `LOLIN D32` under `Tools`>`Boards`
13. Click `ESP32 Sketch Data Upload` and wait for the SPIFFS upload to finish
14. Click the upload button
## Updating Firmware
There are multiple options available to update the Marauder firmware. If you have already built the project from this repo, you can just pull the latest commit and flash the firmware using the Arduino IDE (see [here](#using-arduino-ide)).
If you own an ESP32 Marauder (v0.4.0 or later) and have not build the project, you can follow [these instructions](#web-update) for installing the latest update over the air via Marauder's web interface or [these instructions](#sd-update) for installing the latest update using an SD Card.
### Web Update
1. Download the [latest release](https://github.com/justcallmekoko/ESP32Marauder/releases/latest) of the Marauder firmware
2. With Marauder powered on, navigate to `Device`>`Update Firmware`>`Web Update`
- Marauder will display details on screen about the status of the update
3. Connect to the MarauderOTA WiFi network from your computer
- password: justcallmekoko
4. On your web browser, navigate to `http://192.168.4.1`
5. Enter the username and password
- Username: admin
- Password: admin
6. Click the `Browse` button and select the .bin file you downloaded from the releases
7. Click `Update`
- Marauder will automatically reboot once the update has been applied
### SD Update
*Using a Samsung MicroSD card will cause Marauder not to boot*
1. Download the [latest release](https://github.com/justcallmekoko/ESP32Marauder/releases/latest) of the Marauder firmware
2. Copy the bin file you downloaded to the root of an SD card
3. Rename the bin file on the SD card to `update.bin`
4. With Marauder powered off, insert the SD card into Marauder
5. Power Marauder on and navigate to `Device`>`Update Firmware`>`SD Update`
6. Click `Yes` to confirm the update
- Marauder will automatically reboot once the update has been applied
## Enclosure
The ESP32 Marauder sold on Tindie comes with its own 3D printed enclosure. If you want to replace the enclosure that came with yours or you want to try to fit your own hardware in an enclosure and have access to a 3D printer, you can download the STL files [here](https://github.com/justcallmekoko/ESP32Marauder/tree/master/3Dfiles) or from [Thingiverse](https://www.thingiverse.com/thing:4146626).
## Getting Started
Download the [latest release](https://github.com/justcallmekoko/ESP32Marauder/releases/latest) of the firmware.
Instructions from Thingiverse
Components of the project:
- ESP32 Marauder
- 4 M2.5x10 Hex screws
- Enclosure face plate
- Enclosure body
How to do the thing:
1. Print both the face plate and the body
2. Mount the face plate onto the screen of the Marauder by putting the pegs through the holes on the screen PCB
3. Lower the Marauder into the body of the enclosure and ensure the battery sits within the trench in the center of the body
4. Fasten the face plate to the body using 4 M2.5x10 hex screws.
- The top of the screws should be flush with the surface of the face plate
# Under Development
Currently the ESP32 Marauder has limited firmware capabilities. Most of the work so far has been put into designing the hardware. New firmware features will be added over time and will eventually reach a point where this project will be a fully capable hacking machine.
# Special Thanks
- [Spacehuhn](https://github.com/spacehuhn) for an easy to use linked list library [SimpleList](https://github.com/spacehuhn/SimpleList)
- Also a well designed menu structure. I adapted it to the TFT GUI because it worked perfectly
- Also...providing the buffer class used to save pcap files to an SD card
- [Ivanseidel](https://github.com/ivanseidel) for providing a thread safe [LinkedList](https://github.com/ivanseidel/LinkedList) library
- [Bodmer](https://github.com/Bodmer) for a comprehensive TFT touch screen library [TFT_eSPI](https://github.com/Bodmer/TFT_eSPI)
- [HyderHasnain](https://github.com/hyderhasnain) for an adaptable [line graph](https://github.com/hyderhasnain/arduino_touchscreen_controller/blob/master/Code/AccelGraph_Original.ino) to be used as the packet monitor
Check out the project [wiki](https://github.com/justcallmekoko/ESP32Marauder/wiki) for a full overview of the ESP32 Marauder
# For Sale Now
You can buy the ESP32 Marauder using [this link](https://www.tindie.com/products/justcallmekoko/esp32-marauder/)

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@@ -0,0 +1,459 @@
#include <hidboot.h>
#include <usbhub.h>
#include "Keyboard.h"
#define Serial Serial1
// Satisfy the IDE, which needs to see the include statment in the ino too.
#ifdef dobogusinclude
#include <spi4teensy3.h>
#include <SPI.h>
#endif
#include <SPI.h>
#include <SD.h>
#define CAPS_LOCK 0x39
#define NUM_LOCK 0x53
#define SCROLL_LOCK 0x47
#define PRINT_SCREEN 0x46
#define NUM_1 0x59
#define NUM_2 0x5A
#define NUM_3 0x5B
#define NUM_4 0x5C
#define NUM_5 0x5D
#define NUM_6 0x5E
#define NUM_7 0x5F
#define NUM_8 0x60
#define NUM_9 0x61
#define NUM_0 0x62
#define KEY_CAPS_LOCK 0x01
#define KEY_NUM_LOCK 0x02
#define KEY_SCROLL_LOCK 0x04
#define KEY_PRINT_SCREEN 0x05
#define KEY_NUM_1 0x31
#define KEY_NUM_2 0x32
#define KEY_NUM_3 0x33
#define KEY_NUM_4 0x34
#define KEY_NUM_5 0x35
#define KEY_NUM_6 0x36
#define KEY_NUM_7 0x37
#define KEY_NUM_8 0x38
#define KEY_NUM_9 0x39
#define KEY_NUM_0 0x30
String bufferStr = "";
String last = "";
int defaultDelay = 0;
bool shift = false;
bool num_lock = false; // false is working half way
USB Usb;
HIDBoot<USB_HID_PROTOCOL_KEYBOARD> HidKeyboard(&Usb);
uint32_t next_time;
class KbdRptParser : public KeyboardReportParser{
public:
uint8_t _parse(uint8_t key);
String _getChar(uint8_t key);
protected:
void OnControlKeysChanged(uint8_t before, uint8_t after);
void OnKeyDown (uint8_t mod, uint8_t key);
void OnKeyUp (uint8_t mod, uint8_t key);
void OnKeyPressed(uint8_t key);
void _press(uint8_t key);
void _release(uint8_t key);
};
void KbdRptParser::OnKeyDown(uint8_t mod, uint8_t key){
digitalWrite(LED_BUILTIN, HIGH);
int parsedKey = _parse(key);
if(parsedKey == key){
uint8_t c = OemToAscii(mod, key);
OnKeyPressed(c);
if(c != 0x20 && c != 0x00) _press(c);
else _press(key);
}else _press(parsedKey);
digitalWrite(LED_BUILTIN, LOW);
}
void KbdRptParser::OnKeyUp(uint8_t mod, uint8_t key){
int parsedKey = _parse(key);
if(parsedKey == key){
uint8_t c = OemToAscii(mod, key);
OnKeyPressed(c);
if(c != 0x20 && c != 0x00){
_release(c);
Serial.print((char)c);
}
else{
_release(key);
Serial.print("0x");
Serial.print(key, HEX);
}
}else{
_release(parsedKey);
Serial.print(_getChar(key));
}
}
void KbdRptParser::OnControlKeysChanged(uint8_t before, uint8_t after) {
MODIFIERKEYS beforeMod;
*((uint8_t*)&beforeMod) = before;
MODIFIERKEYS afterMod;
*((uint8_t*)&afterMod) = after;
//left
if(beforeMod.bmLeftCtrl != afterMod.bmLeftCtrl){
if(afterMod.bmLeftCtrl) Keyboard.press(KEY_LEFT_CTRL);
else Keyboard.release(KEY_LEFT_CTRL);
Serial.print("<ctrl "+(String)afterMod.bmLeftCtrl+">");
}
if(beforeMod.bmLeftShift != afterMod.bmLeftShift){
if(afterMod.bmLeftShift) Keyboard.press(KEY_LEFT_SHIFT);
else Keyboard.release(KEY_LEFT_SHIFT);
shift = afterMod.bmLeftShift;
//Serial.print("<shift "+(String)afterMod.bmLeftShift+">");
}
if(beforeMod.bmLeftAlt != afterMod.bmLeftAlt){
if(afterMod.bmLeftAlt) Keyboard.press(KEY_LEFT_ALT);
else Keyboard.release(KEY_LEFT_ALT);
Serial.print("<alt "+(String)afterMod.bmLeftAlt+">");
}
if(beforeMod.bmLeftGUI != afterMod.bmLeftGUI){
if(afterMod.bmLeftGUI) Keyboard.press(KEY_LEFT_GUI);
else Keyboard.release(KEY_LEFT_GUI);
Serial.print("<gui "+(String)afterMod.bmLeftGUI+">");
}
//right
if(beforeMod.bmRightCtrl != afterMod.bmRightCtrl){
if(afterMod.bmRightCtrl) Keyboard.press(KEY_RIGHT_CTRL);
else Keyboard.release(KEY_RIGHT_CTRL);
Serial.print("<ctrl "+(String)afterMod.bmRightCtrl+">");
}
if(beforeMod.bmRightShift != afterMod.bmRightShift){
if(afterMod.bmRightShift) Keyboard.press(KEY_RIGHT_SHIFT);
else Keyboard.release(KEY_RIGHT_SHIFT);
shift = afterMod.bmLeftShift;
//Serial.print("<shift "+(String)afterMod.bmRightShift+">");
}
if(beforeMod.bmRightAlt != afterMod.bmRightAlt){
if(afterMod.bmRightAlt) Keyboard.press(KEY_RIGHT_ALT);
else Keyboard.release(KEY_RIGHT_ALT);
Serial.print("<alt "+(String)afterMod.bmRightAlt+">");
}
if(beforeMod.bmRightGUI != afterMod.bmRightGUI){
if(afterMod.bmRightGUI) Keyboard.press(KEY_RIGHT_GUI);
else Keyboard.release(KEY_RIGHT_GUI);
Serial.print("<gui "+(String)afterMod.bmRightGUI+">");
}
}
void KbdRptParser::OnKeyPressed(uint8_t key){
/*Serial.print("ASCII: \"");
Serial.print((char)key);
Serial.print("\" = 0x");
Serial.print(key, HEX);
Serial.print("; ");*/
};
uint8_t KbdRptParser::_parse(uint8_t key){
/*
Serial.print("0x");
Serial.print(key, HEX);
Serial.print(" = ");*/
switch(key){
case CAPS_LOCK: return KEY_CAPS_LOCK; break; // CAPS
case NUM_LOCK: return KEY_NUM_LOCK; break; // NUM LOCK
case SCROLL_LOCK: return KEY_SCROLL_LOCK; break; // SCROLL LOCK
case PRINT_SCREEN: return KEY_PRINT_SCREEN; break; // PRINT SCREEN
case NUM_1 : if (!num_lock) return KEY_NUM_1; break;
case NUM_2 : if (!num_lock) return KEY_NUM_2; break;
case NUM_3 : if (!num_lock) return KEY_NUM_3; break;
case NUM_4 : if (!num_lock) return KEY_NUM_4; break;
case NUM_5 : if (!num_lock) return KEY_NUM_5; break;
case NUM_6 : if (!num_lock) return KEY_NUM_6; break;
case NUM_7 : if (!num_lock) return KEY_NUM_7; break;
case NUM_8 : if (!num_lock) return KEY_NUM_8; break;
case NUM_9 : if (!num_lock) return KEY_NUM_9; break;
case NUM_0 : if (!num_lock) return KEY_NUM_0; break;
case 0x2C: return 0x20; break; // SPACE
case 40: return KEY_RETURN; break;
case 41: return KEY_ESC; break;
case 42: return KEY_BACKSPACE; break;
case 43: return KEY_TAB; break;
case 58: return KEY_F1; break;
case 59: return KEY_F2; break;
case 60: return KEY_F3; break;
case 61: return KEY_F4; break;
case 62: return KEY_F5; break;
case 63: return KEY_F6; break;
case 64: return KEY_F7; break;
case 65: return KEY_F8; break;
case 66: return KEY_F9; break;
case 67: return KEY_F10; break;
case 68: return KEY_F11; break;
case 69: return KEY_F12; break;
case 73: return KEY_INSERT; break;
case 74: return KEY_HOME; break;
case 75: return KEY_PAGE_UP; break;
case 76: return KEY_DELETE; break;
case 77: return KEY_END; break;
case 78: return KEY_PAGE_DOWN; break;
case 79: return KEY_RIGHT_ARROW; break;
case 80: return KEY_LEFT_ARROW; break;
case 81: return KEY_DOWN_ARROW; break;
case 82: return KEY_UP_ARROW; break;
case 88: return KEY_RETURN; break;
//=====[DE-Keyboard]=====//
case 0x64: return 236; break; // <
case 0x32: return 92; break; // #
//======================//
default: {
//Serial.print(" N/A ");
return key;
}
}
}
String KbdRptParser::_getChar(uint8_t key){
switch(key){
case CAPS_LOCK: return "<CAPS_LOCK>"; break; // CAPS
case NUM_LOCK: return "<NUM_LOCK>"; break; // NUM LOCK
case SCROLL_LOCK: return "<SCROLL_LOCK>"; break; // SCROLL LOCK
case PRINT_SCREEN: return "<PRINT_SCREEN>"; break; // PRINT SCREEN
//case NUM_1 : if (num_lock) return "<NUM_1>"; break;
//case NUM_2 : if (num_lock) return "<NUM_2>"; break;
//case NUM_3 : if (num_lock) return "<NUM_3>"; break;
//case NUM_4 : if (num_lock) return "<NUM_4>"; break;
//case NUM_5 : if (num_lock) return "<NUM_5>"; break;
//case NUM_6 : if (num_lock) return "<NUM_6>"; break;
//case NUM_7 : if (num_lock) return "<NUM_7>"; break;
//case NUM_8 : if (num_lock) return "<NUM_8>"; break;
//case NUM_9 : if (num_lock) return "<NUM_9>"; break;
//case NUM_0 : if (num_lock) return "<NUM_0>"; break;
case 0x2C: return " "; break;
case 40: return "<RETURN>\n"; break;
case 41: return "<ESC>\n"; break;
case 42: return "<BACKSPCAE>"; break;
case 43: return "<TAB>\n"; break;
case 58: return "<F1>\n"; break;
case 59: return "<F2>\n"; break;
case 60: return "<F3>\n"; break;
case 61: return "<F4>\n"; break;
case 62: return "<F5>\n"; break;
case 63: return "<F6>\n"; break;
case 64: return "<F7>\n"; break;
case 65: return "<F8>\n"; break;
case 66: return "<F9>\n"; break;
case 67: return "<F10>\n"; break;
case 68: return "<F11>\n"; break;
case 69: return "<F12>\n"; break;
case 73: return "<INSERT>"; break;
case 74: return "<HOME>\n"; break;
case 75: return "<PAGE_UP>\n"; break;
case 76: return "<DELETE>"; break;
case 77: return "<END>\n"; break;
case 78: return "<PAGE_DOWN>\n"; break;
case 79: return "<RIGHT_ARROW>\n"; break;
case 80: return "<LEFT_ARROW>\n"; break;
case 81: return "<DOWN_ARROW>\n"; break;
case 82: return "<UP_ARROW>\n"; break;
case 88: return "<RETURN>\n"; break;
//=====[DE-Keyboard]=====//
case 0x64: {
if(shift) return "<";
else return ">";
break;
}
case 0x32:{
if(shift) return "'";
else return "#";
break;
}
//======================//
default: {
return "";
}
}
}
void KbdRptParser::_press(uint8_t key){
/*Serial.print("0x");
Serial.print(key, HEX);
Serial.println(" DOWN");*/
Keyboard.press(key);
}
void KbdRptParser::_release(uint8_t key){
/*Serial.print("0x");
Serial.print(key, HEX);
Serial.println(" UP");
Serial.println();*/
Keyboard.release(key);
}
KbdRptParser parser;
void Line(String _line)
{
int firstSpace = _line.indexOf(" ");
if(firstSpace == -1) Press(_line);
else if(_line.substring(0,firstSpace) == "STRING"){
for(int i=firstSpace+1;i<_line.length();i++) Keyboard.write(_line[i]);
}
else if(_line.substring(0,firstSpace) == "DELAY"){
int delaytime = _line.substring(firstSpace + 1).toInt();
delay(delaytime);
}
else if(_line.substring(0,firstSpace) == "DEFAULTDELAY") defaultDelay = _line.substring(firstSpace + 1).toInt();
else if(_line.substring(0,firstSpace) == "REM"){} //nothing :/
else if(_line.substring(0,firstSpace) == "REPLAY") {
int replaynum = _line.substring(firstSpace + 1).toInt();
while(replaynum)
{
Line(last);
--replaynum;
}
} else{
String remain = _line;
while(remain.length() > 0){
int latest_space = remain.indexOf(" ");
if (latest_space == -1){
Press(remain);
remain = "";
}
else{
Press(remain.substring(0, latest_space));
remain = remain.substring(latest_space + 1);
}
delay(5);
}
}
Keyboard.releaseAll();
delay(defaultDelay);
}
void Press(String b){
if(b.length() == 1) Keyboard.press(char(b[0]));
else if (b.equals("ENTER")) Keyboard.press(KEY_RETURN);
else if (b.equals("CTRL")) Keyboard.press(KEY_LEFT_CTRL);
else if (b.equals("SHIFT")) Keyboard.press(KEY_LEFT_SHIFT);
else if (b.equals("ALT")) Keyboard.press(KEY_LEFT_ALT);
else if (b.equals("GUI")) Keyboard.press(KEY_LEFT_GUI);
else if (b.equals("UP") || b.equals("UPARROW")) Keyboard.press(KEY_UP_ARROW);
else if (b.equals("DOWN") || b.equals("DOWNARROW")) Keyboard.press(KEY_DOWN_ARROW);
else if (b.equals("LEFT") || b.equals("LEFTARROW")) Keyboard.press(KEY_LEFT_ARROW);
else if (b.equals("RIGHT") || b.equals("RIGHTARROW")) Keyboard.press(KEY_RIGHT_ARROW);
else if (b.equals("DELETE")) Keyboard.press(KEY_DELETE);
else if (b.equals("PAGEUP")) Keyboard.press(KEY_PAGE_UP);
else if (b.equals("PAGEDOWN")) Keyboard.press(KEY_PAGE_DOWN);
else if (b.equals("HOME")) Keyboard.press(KEY_HOME);
else if (b.equals("ESC")) Keyboard.press(KEY_ESC);
else if (b.equals("BACKSPACE")) Keyboard.press(KEY_BACKSPACE);
else if (b.equals("INSERT")) Keyboard.press(KEY_INSERT);
else if (b.equals("TAB")) Keyboard.press(KEY_TAB);
else if (b.equals("END")) Keyboard.press(KEY_END);
else if (b.equals("CAPSLOCK")) Keyboard.press(KEY_CAPS_LOCK);
else if (b.equals("F1")) Keyboard.press(KEY_F1);
else if (b.equals("F2")) Keyboard.press(KEY_F2);
else if (b.equals("F3")) Keyboard.press(KEY_F3);
else if (b.equals("F4")) Keyboard.press(KEY_F4);
else if (b.equals("F5")) Keyboard.press(KEY_F5);
else if (b.equals("F6")) Keyboard.press(KEY_F6);
else if (b.equals("F7")) Keyboard.press(KEY_F7);
else if (b.equals("F8")) Keyboard.press(KEY_F8);
else if (b.equals("F9")) Keyboard.press(KEY_F9);
else if (b.equals("F10")) Keyboard.press(KEY_F10);
else if (b.equals("F11")) Keyboard.press(KEY_F11);
else if (b.equals("F12")) Keyboard.press(KEY_F12);
else if (b.equals("SPACE")) Keyboard.press(' ');
//else Serial.println("not found :'"+b+"'("+String(b.length())+")");
}
void setup()
{
Serial.begin(115200);
//Serial1.begin(115200);
Keyboard.begin();
delay(2000);
pinMode(LED_BUILTIN, OUTPUT);
// Turn signal LED off
digitalWrite(LED_BUILTIN, LOW);
//Serial1.println("\n\nLogging keys...\n");
/*
for(int i=0;i<256;i++){
int key = parser._parse(i);
if(key == i){
Keyboard.print((String)i+" ");
Keyboard.write(i);
delay(200);
Keyboard.write(KEY_RETURN);
}
}*/
if(Usb.Init() == -1) Serial.println("OSC did not start.");
delay(200);
next_time = millis() + 5000;
HidKeyboard.SetReportParser(0, &parser);
}
void loop(){
Usb.Task();
if(Serial.available()) {
bufferStr = Serial.readStringUntil("END");
//Serial.println(bufferStr);
}
if(bufferStr.length() > 0){
bufferStr.replace("\r","\n");
bufferStr.replace("\n\n","\n");
while(bufferStr.length() > 0){
int latest_return = bufferStr.indexOf("\n");
if(latest_return == -1){
//Serial.println("run: "+bufferStr);
Line(bufferStr);
bufferStr = "";
} else{
//Serial.println("run: '"+bufferStr.substring(0, latest_return)+"'");
Line(bufferStr.substring(0, latest_return));
last=bufferStr.substring(0, latest_return);
bufferStr = bufferStr.substring(latest_return + 1);
}
}
bufferStr = "";
Serial.write(0x99);
//Serial.println("done");
}
}

372
bootloaders/BootloaderMassStorage2.hex Normal file
View File

@@ -0,0 +1,372 @@
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1355
esp32_marauder/Assets.h
View File

File diff suppressed because one or more lines are too long

60
esp32_marauder/BatteryInterface.cpp
View File

@@ -1,43 +1,49 @@
#include "BatteryInterface.h"
#include "lang_var.h"
BatteryInterface::BatteryInterface() {
}
void BatteryInterface::main(uint32_t currentTime) {
if (currentTime != 0) {
if (currentTime - initTime >= 3000) {
//Serial.println("Checking Battery Level");
this->initTime = millis();
int8_t new_level = this->getBatteryLevel();
//this->battery_level = this->getBatteryLevel();
if (this->battery_level != new_level) {
Serial.println("Battery Level changed: " + (String)new_level);
this->battery_level = new_level;
#ifndef MARAUDER_FLIPPER
if (currentTime != 0) {
if (currentTime - initTime >= 3000) {
//Serial.println("Checking Battery Level");
this->initTime = millis();
int8_t new_level = this->getBatteryLevel();
//this->battery_level = this->getBatteryLevel();
if (this->battery_level != new_level) {
Serial.println(text00 + (String)new_level);
this->battery_level = new_level;
}
}
}
}
#endif
}
void BatteryInterface::RunSetup() {
Wire.begin(I2C_SDA, I2C_SCL);
this->initTime = millis();
#ifndef MARAUDER_FLIPPER
Wire.begin(I2C_SDA, I2C_SCL);
this->initTime = millis();
#endif
}
int8_t BatteryInterface::getBatteryLevel() {
Wire.beginTransmission(IP5306_ADDR);
Wire.write(0x78);
if (Wire.endTransmission(false) == 0 &&
Wire.requestFrom(0x75, 1)) {
this->i2c_supported = true;
switch (Wire.read() & 0xF0) {
case 0xE0: return 25;
case 0xC0: return 50;
case 0x80: return 75;
case 0x00: return 100;
default: return 0;
#ifndef MARAUDER_FLIPPER
Wire.beginTransmission(IP5306_ADDR);
Wire.write(0x78);
if (Wire.endTransmission(false) == 0 &&
Wire.requestFrom(0x75, 1)) {
this->i2c_supported = true;
switch (Wire.read() & 0xF0) {
case 0xE0: return 25;
case 0xC0: return 50;
case 0x80: return 75;
case 0x00: return 100;
default: return 0;
}
}
}
this->i2c_supported = false;
return -1;
this->i2c_supported = false;
return -1;
#endif
}

6
esp32_marauder/BatteryInterface.h
View File

@@ -3,7 +3,11 @@
#include <Arduino.h>
#include <Wire.h>
#include "configs.h"
#ifndef MARAUDER_FLIPPER
#include <Wire.h>
#endif
#define I2C_SDA 33
#define I2C_SCL 22

7
esp32_marauder/Buffer.cpp
View File

@@ -1,4 +1,5 @@
#include "Buffer.h"
#include "lang_var.h"
Buffer::Buffer(){
bufA = (uint8_t*)malloc(BUF_SIZE);
@@ -37,7 +38,7 @@ void Buffer::close(fs::FS* fs){
if(!writing) return;
forceSave(fs);
writing = false;
Serial.println("file closed");
Serial.println(text01);
}
void Buffer::addPacket(uint8_t* buf, uint32_t len){
@@ -123,7 +124,7 @@ void Buffer::save(fs::FS* fs){
file = fs->open(fileName, FILE_APPEND);
if (!file) {
Serial.println("Failed to open file '"+fileName+"'");
Serial.println(text02 + fileName+"'");
//useSD = false;
return;
}
@@ -159,7 +160,7 @@ void Buffer::forceSave(fs::FS* fs){
file = fs->open(fileName, FILE_APPEND);
if (!file) {
Serial.println("Failed to open file '"+fileName+"'");
Serial.println(text02+fileName+"'");
//useSD = false;
return;
}

85
esp32_marauder/Buffer.h
View File

@@ -1,41 +1,44 @@
#ifndef Buffer_h
#define Buffer_h
#include "Arduino.h"
#include "FS.h"
//#include "SD_MMC.h"
#define BUF_SIZE 3 * 1024 // Had to reduce buffer size to save RAM. GG @spacehuhn
#define SNAP_LEN 2324 // max len of each recieved packet
//extern bool useSD;
class Buffer {
public:
Buffer();
void open(fs::FS* fs, String fn = "");
void close(fs::FS* fs);
void addPacket(uint8_t* buf, uint32_t len);
void save(fs::FS* fs);
void forceSave(fs::FS* fs);
private:
void write(int32_t n);
void write(uint32_t n);
void write(uint16_t n);
void write(uint8_t* buf, uint32_t len);
uint8_t* bufA;
uint8_t* bufB;
uint32_t bufSizeA = 0;
uint32_t bufSizeB = 0;
bool writing = false; // acceppting writes to buffer
bool useA = true; // writing to bufA or bufB
bool saving = false; // currently saving onto the SD card
String fileName = "/0.pcap";
File file;
};
#endif
#ifndef Buffer_h
#define Buffer_h
#include "Arduino.h"
#include "FS.h"
#include "settings.h"
//#include "SD_MMC.h"
#define BUF_SIZE 3 * 1024 // Had to reduce buffer size to save RAM. GG @spacehuhn
#define SNAP_LEN 2324 // max len of each recieved packet
//extern bool useSD;
extern Settings settings_obj;
class Buffer {
public:
Buffer();
void open(fs::FS* fs, String fn = "");
void close(fs::FS* fs);
void addPacket(uint8_t* buf, uint32_t len);
void save(fs::FS* fs);
void forceSave(fs::FS* fs);
private:
void write(int32_t n);
void write(uint32_t n);
void write(uint16_t n);
void write(uint8_t* buf, uint32_t len);
uint8_t* bufA;
uint8_t* bufB;
uint32_t bufSizeA = 0;
uint32_t bufSizeB = 0;
bool writing = false; // acceppting writes to buffer
bool useA = true; // writing to bufA or bufB
bool saving = false; // currently saving onto the SD card
String fileName = "/0.pcap";
File file;
};
#endif

609
esp32_marauder/CommandLine.cpp Normal file
View File

@@ -0,0 +1,609 @@
#include "CommandLine.h"
CommandLine::CommandLine() {
}
void CommandLine::RunSetup() {
Serial.println(this->ascii_art);
Serial.println(F("\n\n--------------------------------\n"));
Serial.println(F(" ESP32 Marauder \n"));
Serial.println(" " + version_number + "\n");
Serial.println(F(" By: justcallmekoko\n"));
Serial.println(F("--------------------------------\n\n"));
Serial.print("> ");
}
String CommandLine::getSerialInput() {
String input = "";
if (Serial.available() > 0)
input = Serial.readStringUntil('\n');
input.trim();
return input;
}
void CommandLine::main(uint32_t currentTime) {
String input = this->getSerialInput();
this->runCommand(input);
if (input != "")
Serial.print("> ");
}
LinkedList<String> CommandLine::parseCommand(String input, char* delim) {
LinkedList<String> cmd_args;
if (input != "") {
char fancy[input.length() + 1] = {};
input.toCharArray(fancy, input.length() + 1);
char* ptr = strtok(fancy, delim);
while (ptr != NULL) {
cmd_args.add(String(ptr));
ptr = strtok(NULL, delim);
}
}
return cmd_args;
}
int CommandLine::argSearch(LinkedList<String>* cmd_args_list, String key) {
for (int i = 0; i < cmd_args_list->size(); i++) {
if (cmd_args_list->get(i) == key)
return i;
}
return -1;
}
bool CommandLine::checkValueExists(LinkedList<String>* cmd_args_list, int index) {
if (index < cmd_args_list->size() - 1)
return true;
return false;
}
bool CommandLine::inRange(int max, int index) {
if ((index >= 0) && (index < max))
return true;
return false;
}
bool CommandLine::apSelected() {
for (int i = 0; i < access_points->size(); i++) {
if (access_points->get(i).selected)
return true;
}
return false;
}
bool CommandLine::hasSSIDs() {
if (ssids->size() == 0)
return false;
return true;
}
void CommandLine::runCommand(String input) {
if (input != "")
Serial.println("#" + input);
else
return;
LinkedList<String> cmd_args = this->parseCommand(input, " ");
//// Admin commands
// Help
if (cmd_args.get(0) == HELP_CMD) {
Serial.println(HELP_HEAD);
Serial.println(HELP_CH_CMD);
Serial.println(HELP_SETTINGS_CMD);
Serial.println(HELP_CLEARAP_CMD_A);
Serial.println(HELP_CLEARAP_CMD_B);
Serial.println(HELP_REBOOT_CMD);
Serial.println(HELP_UPDATE_CMD_A);
Serial.println(HELP_UPDATE_CMD_B);
// WiFi sniff/scan
Serial.println(HELP_SCANAP_CMD);
Serial.println(HELP_SNIFF_BEACON_CMD);
Serial.println(HELP_SNIFF_PROBE_CMD);
Serial.println(HELP_SNIFF_PWN_CMD);
Serial.println(HELP_SNIFF_ESP_CMD);
Serial.println(HELP_SNIFF_DEAUTH_CMD);
Serial.println(HELP_SNIFF_PMKID_CMD);
Serial.println(HELP_STOPSCAN_CMD);
// WiFi attack
Serial.println(HELP_ATTACK_CMD);
// WiFi Aux
Serial.println(HELP_LIST_AP_CMD_A);
Serial.println(HELP_LIST_AP_CMD_B);
Serial.println(HELP_SEL_CMD_A);
Serial.println(HELP_SEL_CMD_B);
Serial.println(HELP_SSID_CMD_A);
Serial.println(HELP_SSID_CMD_B);
// Bluetooth sniff/scan
Serial.println(HELP_BT_SNIFF_CMD);
Serial.println(HELP_BT_SKIM_CMD);
Serial.println(HELP_FOOT);
return;
}
// Stop Scan
if (cmd_args.get(0) == STOPSCAN_CMD) {
if (wifi_scan_obj.currentScanMode == OTA_UPDATE) {
wifi_scan_obj.currentScanMode = WIFI_SCAN_OFF;
//#ifdef HAS_SCREEN
// menu_function_obj.changeMenu(menu_function_obj.updateMenu.parentMenu);
//#endif
WiFi.softAPdisconnect(true);
web_obj.shutdownServer();
return;
}
wifi_scan_obj.StartScan(WIFI_SCAN_OFF);
Serial.println("Stopping WiFi tran/recv");
// If we don't do this, the text and button coordinates will be off
#ifdef HAS_SCREEN
display_obj.tft.init();
menu_function_obj.changeMenu(menu_function_obj.current_menu);
#endif
}
// Channel command
else if (cmd_args.get(0) == CH_CMD) {
// Search for channel set arg
int ch_set = this->argSearch(&cmd_args, "-s");
if (cmd_args.size() == 1) {
Serial.println("Current channel: " + (String)wifi_scan_obj.set_channel);
}
else if (ch_set != -1) {
wifi_scan_obj.set_channel = cmd_args.get(ch_set + 1).toInt();
wifi_scan_obj.changeChannel();
Serial.println("Set channel: " + (String)wifi_scan_obj.set_channel);
}
}
// Clear APs
else if (cmd_args.get(0) == CLEARAP_CMD) {
int ap_sw = this->argSearch(&cmd_args, "-a"); // APs
int ss_sw = this->argSearch(&cmd_args, "-s"); // SSIDs
if (ap_sw != -1)
wifi_scan_obj.RunClearAPs();
if (ss_sw != -1)
wifi_scan_obj.RunClearSSIDs();
}
else if (cmd_args.get(0) == SETTINGS_CMD) {
int ss_sw = this->argSearch(&cmd_args, "-s"); // Set setting
int re_sw = this->argSearch(&cmd_args, "-r"); // Reset setting
int en_sw = this->argSearch(&cmd_args, "enable"); // enable setting
int da_sw = this->argSearch(&cmd_args, "disable"); // disable setting
if (re_sw != -1) {
settings_obj.createDefaultSettings(SPIFFS);
return;
}
if (ss_sw == -1) {
settings_obj.printJsonSettings(settings_obj.getSettingsString());
}
else {
bool result = false;
String setting_name = cmd_args.get(ss_sw + 1);
if (en_sw != -1)
result = settings_obj.saveSetting<bool>(setting_name, true);
else if (da_sw != -1)
result = settings_obj.saveSetting<bool>(setting_name, false);
else {
Serial.println("You did not properly enable/disable this setting.");
return;
}
if (!result) {
Serial.println("Could not successfully update setting \"" + setting_name + "\"");
return;
}
}
}
else if (cmd_args.get(0) == REBOOT_CMD) {
Serial.println("Rebooting...");
ESP.restart();
}
//// WiFi/Bluetooth Scan/Attack commands
if (!wifi_scan_obj.scanning()) {
// AP Scan
if (cmd_args.get(0) == SCANAP_CMD) {
int full_sw = -1;
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
if (full_sw == -1) {
Serial.println("Starting AP scan. Stop with " + (String)STOPSCAN_CMD);
wifi_scan_obj.StartScan(WIFI_SCAN_TARGET_AP, TFT_MAGENTA);
}
else {
Serial.println("Starting Full AP scan. Stop with " + (String)STOPSCAN_CMD);
wifi_scan_obj.StartScan(WIFI_SCAN_TARGET_AP_FULL, TFT_MAGENTA);
}
}
// Beacon sniff
else if (cmd_args.get(0) == SNIFF_BEACON_CMD) {
Serial.println("Starting Beacon sniff. Stop with " + (String)STOPSCAN_CMD);
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
wifi_scan_obj.StartScan(WIFI_SCAN_AP, TFT_MAGENTA);
}
// Probe sniff
else if (cmd_args.get(0) == SNIFF_PROBE_CMD) {
Serial.println("Starting Probe sniff. Stop with " + (String)STOPSCAN_CMD);
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
wifi_scan_obj.StartScan(WIFI_SCAN_PROBE, TFT_MAGENTA);
}
// Deauth sniff
else if (cmd_args.get(0) == SNIFF_DEAUTH_CMD) {
Serial.println("Starting Deauth sniff. Stop with " + (String)STOPSCAN_CMD);
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
wifi_scan_obj.StartScan(WIFI_SCAN_DEAUTH, TFT_RED);
}
// Pwn sniff
else if (cmd_args.get(0) == SNIFF_PWN_CMD) {
Serial.println("Starting Pwnagotchi sniff. Stop with " + (String)STOPSCAN_CMD);
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
wifi_scan_obj.StartScan(WIFI_SCAN_PWN, TFT_MAGENTA);
}
// Espressif sniff
else if (cmd_args.get(0) == SNIFF_ESP_CMD) {
Serial.println("Starting Espressif device sniff. Stop with " + (String)STOPSCAN_CMD);
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
wifi_scan_obj.StartScan(WIFI_SCAN_ESPRESSIF, TFT_MAGENTA);
}
// PMKID sniff
else if (cmd_args.get(0) == SNIFF_PMKID_CMD) {
int ch_sw = this->argSearch(&cmd_args, "-c");
int d_sw = this->argSearch(&cmd_args, "-d"); // Deauth for pmkid
if (ch_sw != -1) {
wifi_scan_obj.set_channel = cmd_args.get(ch_sw + 1).toInt();
wifi_scan_obj.changeChannel();
Serial.println("Set channel: " + (String)wifi_scan_obj.set_channel);
}
if (d_sw == -1) {
Serial.println("Starting PMKID sniff on channel " + (String)wifi_scan_obj.set_channel + ". Stop with " + (String)STOPSCAN_CMD);
wifi_scan_obj.StartScan(WIFI_SCAN_EAPOL, TFT_VIOLET);
}
else {
Serial.println("Starting PMKID sniff with deauthentication on channel " + (String)wifi_scan_obj.set_channel + ". Stop with " + (String)STOPSCAN_CMD);
wifi_scan_obj.StartScan(WIFI_SCAN_ACTIVE_EAPOL, TFT_VIOLET);
}
}
//// WiFi attack commands
// attack
if (cmd_args.get(0) == ATTACK_CMD) {
int attack_type_switch = this->argSearch(&cmd_args, "-t"); // Required
int list_beacon_sw = this->argSearch(&cmd_args, "-l");
int rand_beacon_sw = this->argSearch(&cmd_args, "-r");
int ap_beacon_sw = this->argSearch(&cmd_args, "-a");
if (attack_type_switch == -1) {
Serial.println("You must specify an attack type");
return;
}
else {
String attack_type = cmd_args.get(attack_type_switch + 1);
// Branch on attack type
// Deauth
if (attack_type == ATTACK_TYPE_DEAUTH) {
if (!this->apSelected()) {
Serial.println("You don't have any targets selected. Use " + (String)SEL_CMD);
return;
}
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
Serial.println("Starting Deauthentication attack. Stop with " + (String)STOPSCAN_CMD);
wifi_scan_obj.StartScan(WIFI_ATTACK_DEAUTH, TFT_RED);
}
// Beacon
else if (attack_type == ATTACK_TYPE_BEACON) {
// spam by list
if (list_beacon_sw != -1) {
if (!this->hasSSIDs()) {
Serial.println("You don't have any SSIDs in your list. Use " + (String)SSID_CMD);
return;
}
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
Serial.println("Starting Beacon list spam. Stop with " + (String)STOPSCAN_CMD);
wifi_scan_obj.StartScan(WIFI_ATTACK_BEACON_LIST, TFT_RED);
}
// spam with random
else if (rand_beacon_sw != -1) {
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
Serial.println("Starting random Beacon spam. Stop with " + (String)STOPSCAN_CMD);
wifi_scan_obj.StartScan(WIFI_ATTACK_BEACON_SPAM, TFT_ORANGE);
}
// Spam from AP list
else if (ap_beacon_sw != -1) {
if (!this->apSelected()) {
Serial.println("You don't have any targets selected. Use " + (String)SEL_CMD);
return;
}
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
Serial.println("Starting Targeted AP Beacon spam. Stop with " + (String)STOPSCAN_CMD);
wifi_scan_obj.StartScan(WIFI_ATTACK_AP_SPAM, TFT_MAGENTA);
}
else {
Serial.println("You did not specify a beacon attack type");
}
}
else if (attack_type == ATTACK_TYPE_PROBE) {
if (!this->apSelected()) {
Serial.println("You don't have any targets selected. Use " + (String)SEL_CMD);
return;
}
Serial.println("Starting Probe spam. Stop with " + (String)STOPSCAN_CMD);
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
wifi_scan_obj.StartScan(WIFI_ATTACK_AUTH, TFT_RED);
}
else if (attack_type == ATTACK_TYPE_RR) {
Serial.println("Starting Rick Roll Beacon spam. Stop with " + (String)STOPSCAN_CMD);
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
wifi_scan_obj.StartScan(WIFI_ATTACK_RICK_ROLL, TFT_YELLOW);
}
else {
Serial.println("Attack type not properly defined");
return;
}
}
}
//// Bluetooth scan/attack commands
// Bluetooth scan
if (cmd_args.get(0) == BT_SNIFF_CMD) {
Serial.println("Starting Bluetooth scan. Stop with " + (String)STOPSCAN_CMD);
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
wifi_scan_obj.StartScan(BT_SCAN_ALL, TFT_GREEN);
}
// Bluetooth CC Skimmer scan
else if (cmd_args.get(0) == BT_SKIM_CMD) {
Serial.println("Starting Bluetooth CC Skimmer scan. Stop with " + (String)STOPSCAN_CMD);
#ifdef HAS_SCREEN
display_obj.clearScreen();
menu_function_obj.drawStatusBar();
#endif
wifi_scan_obj.StartScan(BT_SCAN_SKIMMERS, TFT_MAGENTA);
}
// Update command
if (cmd_args.get(0) == UPDATE_CMD) {
int w_sw = this->argSearch(&cmd_args, "-w"); // Web update
int sd_sw = this->argSearch(&cmd_args, "-s"); // SD Update
// Update via OTA
if (w_sw != -1) {
Serial.println("Starting Marauder OTA Update. Stop with " + (String)STOPSCAN_CMD);
wifi_scan_obj.currentScanMode = OTA_UPDATE;
//#ifdef HAS_SCREEN
// menu_function_obj.changeMenu(menu_function_obj.updateMenu);
//#endif
web_obj.setupOTAupdate();
}
// Update via SD
else if (sd_sw != -1) {
if (!sd_obj.supported) {
Serial.println("SD card is not connected. Cannot perform SD Update");
return;
}
}
}
}
//// WiFi aux commands
// List access points
if (cmd_args.get(0) == LIST_AP_CMD) {
int ap_sw = this->argSearch(&cmd_args, "-a");
int ss_sw = this->argSearch(&cmd_args, "-s");
// List APs
if (ap_sw != -1) {
for (int i = 0; i < access_points->size(); i++) {
if (access_points->get(i).selected)
Serial.println("[" + (String)i + "] " + access_points->get(i).essid + " " + (String)access_points->get(i).rssi + " (selected)");
else
Serial.println("[" + (String)i + "] " + access_points->get(i).essid + " " + (String)access_points->get(i).rssi);
}
}
// List SSIDs
else if (ss_sw != -1) {
for (int i = 0; i < ssids->size(); i++) {
if (ssids->get(i).selected)
Serial.println("[" + (String)i + "] " + ssids->get(i).essid + " (selected)");
else
Serial.println("[" + (String)i + "] " + ssids->get(i).essid);
}
}
else {
Serial.println("You did not specify which list to show");
return;
}
}
// Select access points or stations
else if (cmd_args.get(0) == SEL_CMD) {
// Get switches
int ap_sw = this->argSearch(&cmd_args, "-a");
int ss_sw = this->argSearch(&cmd_args, "-s");
// select Access points
if (ap_sw != -1) {
// Get list of indices
LinkedList<String> ap_index = this->parseCommand(cmd_args.get(ap_sw + 1), ",");
// Select ALL APs
if (cmd_args.get(ap_sw + 1) == "all") {
for (int i = 0; i < access_points->size(); i++) {
if (access_points->get(i).selected) {
// Unselect "selected" ap
AccessPoint new_ap = access_points->get(i);
new_ap.selected = false;
access_points->set(i, new_ap);
}
else {
// Select "unselected" ap
AccessPoint new_ap = access_points->get(i);
new_ap.selected = true;
access_points->set(i, new_ap);
}
}
}
// Select specific APs
else {
// Mark APs as selected
for (int i = 0; i < ap_index.size(); i++) {
int index = ap_index.get(i).toInt();
if (!this->inRange(access_points->size(), index)) {
Serial.println("Index not in range: " + (String)index);
continue;
}
if (access_points->get(index).selected) {
// Unselect "selected" ap
AccessPoint new_ap = access_points->get(index);
new_ap.selected = false;
access_points->set(index, new_ap);
}
else {
// Select "unselected" ap
AccessPoint new_ap = access_points->get(index);
new_ap.selected = true;
access_points->set(index, new_ap);
}
}
}
}
// select ssids
else if (ss_sw != -1) {
// Get list of indices
LinkedList<String> ss_index = this->parseCommand(cmd_args.get(ss_sw + 1), ",");
// Mark APs as selected
for (int i = 0; i < ss_index.size(); i++) {
int index = ss_index.get(i).toInt();
if (!this->inRange(ssids->size(), index)) {
Serial.println("Index not in range: " + (String)index);
continue;
}
if (ssids->get(index).selected) {
// Unselect "selected" ap
ssid new_ssid = ssids->get(index);
new_ssid.selected = false;
ssids->set(index, new_ssid);
}
else {
// Select "unselected" ap
ssid new_ssid = ssids->get(index);
new_ssid.selected = true;
ssids->set(index, new_ssid);
}
}
}
else {
Serial.println("You did not specify which list to select from");
return;
}
}
// SSID stuff
else if (cmd_args.get(0) == SSID_CMD) {
int add_sw = this->argSearch(&cmd_args, "-a");
int gen_sw = this->argSearch(&cmd_args, "-g");
int spc_sw = this->argSearch(&cmd_args, "-n");
int rem_sw = this->argSearch(&cmd_args, "-r");
// Add ssid
if (add_sw != -1) {
// Generate random
if (gen_sw != -1) {
int gen_count = cmd_args.get(gen_sw + 1).toInt();
wifi_scan_obj.generateSSIDs(gen_count);
}
// Add specific
else if (spc_sw != -1) {
String essid = cmd_args.get(spc_sw + 1);
wifi_scan_obj.addSSID(essid);
}
else {
Serial.println("You did not specify how to add SSIDs");
}
}
// Remove SSID
else if (rem_sw != -1) {
int index = cmd_args.get(rem_sw + 1).toInt();
if (!this->inRange(ssids->size(), index)) {
Serial.println("Index not in range: " + (String)index);
return;
}
ssids->remove(index);
}
else {
Serial.println("You did not specify whether to add or remove SSIDs");
return;
}
}
}

149
esp32_marauder/CommandLine.h Normal file
View File

@@ -0,0 +1,149 @@
#ifndef CommandLine_h
#define CommandLine_h
#include "configs.h"
#ifdef HAS_SCREEN
#include "MenuFunctions.h"
#include "Display.h"
#endif
#include "WiFiScan.h"
#include "Web.h"
#include "SDInterface.h"
#include "settings.h"
#ifdef HAS_SCREEN
extern MenuFunctions menu_function_obj;
extern Display display_obj;
#endif
extern WiFiScan wifi_scan_obj;
extern Web web_obj;
extern SDInterface sd_obj;
extern Settings settings_obj;
extern LinkedList<AccessPoint>* access_points;
extern LinkedList<ssid>* ssids;
extern const String PROGMEM version_number;
//// Commands
// Admin
const char PROGMEM CH_CMD[] = "channel";
const char PROGMEM CLEARAP_CMD[] = "clearlist";
const char PROGMEM REBOOT_CMD[] = "reboot";
const char PROGMEM UPDATE_CMD[] = "update";
const char PROGMEM HELP_CMD[] = "help";
const char PROGMEM SETTINGS_CMD[] = "settings";
// WiFi sniff/scan
const char PROGMEM SCANAP_CMD[] = "scanap";
const char PROGMEM SNIFF_BEACON_CMD[] = "sniffbeacon";
const char PROGMEM SNIFF_PROBE_CMD[] = "sniffprobe";
const char PROGMEM SNIFF_PWN_CMD[] = "sniffpwn";
const char PROGMEM SNIFF_ESP_CMD[] = "sniffesp";
const char PROGMEM SNIFF_DEAUTH_CMD[] = "sniffdeauth";
const char PROGMEM SNIFF_PMKID_CMD[] = "sniffpmkid";
const char PROGMEM STOPSCAN_CMD[] = "stopscan";
// WiFi attack
const char PROGMEM ATTACK_CMD[] = "attack";
const char PROGMEM ATTACK_TYPE_DEAUTH[] = "deauth";
const char PROGMEM ATTACK_TYPE_BEACON[] = "beacon";
const char PROGMEM ATTACK_TYPE_PROBE[] = "probe";
const char PROGMEM ATTACK_TYPE_RR[] = "rickroll";
// WiFi Aux
const char PROGMEM LIST_AP_CMD[] = "list";
const char PROGMEM SEL_CMD[] = "select";
const char PROGMEM SSID_CMD[] = "ssid";
// Bluetooth sniff/scan
const char PROGMEM BT_SNIFF_CMD[] = "sniffbt";
const char PROGMEM BT_SKIM_CMD[] = "sniffskim";
//// Command help messages
// Admin
const char PROGMEM HELP_HEAD[] = "============ Commands ============";
const char PROGMEM HELP_CH_CMD[] = "channel [-s <channel>]";
const char PROGMEM HELP_CLEARAP_CMD_A[] = "clearlist -a";
const char PROGMEM HELP_CLEARAP_CMD_B[] = "clearlist -s";
const char PROGMEM HELP_REBOOT_CMD[] = "reboot";
const char PROGMEM HELP_UPDATE_CMD_A[] = "update -s";
const char PROGMEM HELP_UPDATE_CMD_B[] = "update -w";
const char PROGMEM HELP_SETTINGS_CMD[] = "settings [-s <setting> enable/disable>]/[-r]";
// WiFi sniff/scan
const char PROGMEM HELP_SCANAP_CMD[] = "scanap";
const char PROGMEM HELP_SNIFF_BEACON_CMD[] = "sniffbeacon";
const char PROGMEM HELP_SNIFF_PROBE_CMD[] = "sniffprobe";
const char PROGMEM HELP_SNIFF_PWN_CMD[] = "sniffpwn";
const char PROGMEM HELP_SNIFF_ESP_CMD[] = "sniffesp";
const char PROGMEM HELP_SNIFF_DEAUTH_CMD[] = "sniffdeauth";
const char PROGMEM HELP_SNIFF_PMKID_CMD[] = "sniffpmkid [-c <channel>]";
const char PROGMEM HELP_STOPSCAN_CMD[] = "stopscan";
// WiFi attack
const char PROGMEM HELP_ATTACK_CMD[] = "attack -t <beacon [-l/-r/-a]/deauth/probe/rickroll>";
// WiFi Aux
const char PROGMEM HELP_LIST_AP_CMD_A[] = "list -s";
const char PROGMEM HELP_LIST_AP_CMD_B[] = "list -a";
const char PROGMEM HELP_SEL_CMD_A[] = "select -a <index (comma separated)>";
const char PROGMEM HELP_SEL_CMD_B[] = "select -s <index (comma separated)>";
const char PROGMEM HELP_SSID_CMD_A[] = "ssid -a [-g <count>/-n <name>]";
const char PROGMEM HELP_SSID_CMD_B[] = "ssid -r <index>";
// Bluetooth sniff/scan
const char PROGMEM HELP_BT_SNIFF_CMD[] = "sniffbt";
const char PROGMEM HELP_BT_SKIM_CMD[] = "sniffskim";
const char PROGMEM HELP_FOOT[] = "==================================";
class CommandLine {
private:
String getSerialInput();
LinkedList<String> parseCommand(String input, char* delim);
void runCommand(String input);
bool checkValueExists(LinkedList<String>* cmd_args_list, int index);
bool inRange(int max, int index);
bool apSelected();
bool hasSSIDs();
int argSearch(LinkedList<String>* cmd_args, String key);
const char* ascii_art =
"\r\n"
" @@@@@@ \r\n"
" @@@@@@@@ \r\n"
" @@@@@@@@@@@ \r\n"
" @@@@@@ @@@@@@ \r\n"
" @@@@@@@ @@@@@@@ \r\n"
" @@@@@@ @@@@@@ \r\n"
" @@@@@@@ @@@@@@@ \r\n"
" @@@@@@ @@@@@@ \r\n"
"@@@@@@@ @@@@@@@@@@@@@@@@ \r\n"
"@@@@@ @@@@@@@@@@@@@@@ \r\n"
"@@@@@ @@@@@@@ \r\n"
"@@@@@ @@@@@@ \r\n"
"@@@@@@ @@@@@@@ \r\n"
" @@@@@@ @@@@@@@@@@@@\r\n"
" @@@@@@@ @@@@@@ \r\n"
" @@@@@@ @@@@@@ \r\n"
" @@@@@@@ @@@@@@ \r\n"
" @@@@@@ @@@@@@ \r\n"
" @@@@@@@ @@@@@@ \r\n"
" @@@@@@ @@@@@@ \r\n"
" @@@@@@@@@ \r\n"
" @@@@@@ \r\n"
" @@@@ \r\n"
"\r\n";
public:
CommandLine();
void RunSetup();
void main(uint32_t currentTime);
};
#endif

298
esp32_marauder/Display.cpp
View File

@@ -1,11 +1,7 @@
#include "Display.h"
#include "lang_var.h"
/*
Big thanks to bodmer for having great TFT and JPEG libraries
https://github.com/bodmer
*/
#ifdef HAS_SCREEN
Display::Display()
{
@@ -18,50 +14,66 @@ void Display::RunSetup()
// Need to declare new
display_buffer = new LinkedList<String>();
#ifdef SCREEN_BUFFER
screen_buffer = new LinkedList<String>();
#endif
tft.init();
tft.setRotation(0); // Portrait
tft.setCursor(0, 0);
//tft.setFreeFont(&FreeMonoBold9pt7b);
// Calibration data
//uint16_t calData[5] = { 390, 3516, 253, 3520, 7 }; tft.setRotation(1); // Portrait
#ifndef MARAUDER_MINI
#ifdef TFT_SHIELD
uint16_t calData[5] = { 275, 3494, 361, 3528, 4 }; // tft.setRotation(0); // Portrait with TFT Shield
//Serial.println(F("Using TFT Shield"));
#else if defined(TFT_DIY)
uint16_t calData[5] = { 339, 3470, 237, 3438, 2 }; // tft.setRotation(0); // Portrait with DIY TFT
//Serial.println(F("Using TFT DIY"));
#endif
tft.setTouch(calData);
#ifdef TFT_SHIELD
uint16_t calData[5] = { 275, 3494, 361, 3528, 4 }; // tft.setRotation(0); // Portrait with TFT Shield
Serial.println("Using TFT Shield");
#else if defined(TFT_DIY)
uint16_t calData[5] = { 339, 3470, 237, 3438, 2 }; // tft.setRotation(0); // Portrait with DIY TFT
Serial.println("Using TFT DIY");
#endif
tft.setTouch(calData);
//tft.fillScreen(TFT_BLACK);
clearScreen();
Serial.println("SPI_FREQUENCY: " + (String)SPI_FREQUENCY);
Serial.println("SPI_READ_FREQUENCY: " + (String)SPI_READ_FREQUENCY);
Serial.println("SPI_TOUCH_FREQUENCY: " + (String)SPI_TOUCH_FREQUENCY);
//Serial.println("SPI_FREQUENCY: " + (String)SPI_FREQUENCY);
//Serial.println("SPI_READ_FREQUENCY:" + (String)SPI_READ_FREQUENCY);
//Serial.println("SPI_TOUCH_FREQUENCY: " + (String)SPI_TOUCH_FREQUENCY);
// Initialize file system
// This should probably have its own class
if (!SPIFFS.begin()) {
Serial.println("SPIFFS initialisation failed!");
while (1) yield(); // Stay here twiddling thumbs waiting
}
#ifdef KIT
pinMode(KIT_LED_BUILTIN, OUTPUT);
#endif
}
void Display::drawFrame()
{
tft.drawRect(FRAME_X, FRAME_Y, FRAME_W, FRAME_H, TFT_BLACK);
}
// Draw the title screen
drawJpeg("/marauder3L.jpg", 0 , 0); // 240 x 320 image
void Display::tftDrawRedOnOffButton() {
tft.fillRect(REDBUTTON_X, REDBUTTON_Y, REDBUTTON_W, REDBUTTON_H, TFT_RED);
tft.fillRect(GREENBUTTON_X, GREENBUTTON_Y, GREENBUTTON_W, GREENBUTTON_H, TFT_DARKGREY);
drawFrame();
tft.setTextColor(TFT_WHITE);
tft.setTextSize(2);
tft.setTextDatum(MC_DATUM);
tft.drawString(text03, GREENBUTTON_X + (GREENBUTTON_W / 2), GREENBUTTON_Y + (GREENBUTTON_H / 2));
this->SwitchOn = false;
}
//showCenterText(version_number, 250);
tft.drawCentreString(version_number, 120, 250, 2);
digitalWrite(TFT_BL, HIGH);
delay(5000);
void Display::tftDrawGreenOnOffButton() {
tft.fillRect(GREENBUTTON_X, GREENBUTTON_Y, GREENBUTTON_W, GREENBUTTON_H, TFT_GREEN);
tft.fillRect(REDBUTTON_X, REDBUTTON_Y, REDBUTTON_W, REDBUTTON_H, TFT_DARKGREY);
drawFrame();
tft.setTextColor(TFT_WHITE);
tft.setTextSize(2);
tft.setTextDatum(MC_DATUM);
tft.drawString(text04, REDBUTTON_X + (REDBUTTON_W / 2) + 1, REDBUTTON_Y + (REDBUTTON_H / 2));
this->SwitchOn = true;
}
void Display::tftDrawGraphObjects(byte x_scale)
@@ -162,7 +174,7 @@ void Display::tftDrawYScaleButtons(byte y_scale)
void Display::tftDrawChannelScaleButtons(int set_channel)
{
tft.drawFastVLine(178, 0, 20, TFT_WHITE);
tft.setCursor(145, 21); tft.setTextColor(TFT_WHITE); tft.setTextSize(1); tft.print("Channel:"); tft.print(set_channel);
tft.setCursor(145, 21); tft.setTextColor(TFT_WHITE); tft.setTextSize(1); tft.print(text10); tft.print(set_channel);
key[4].initButton(&tft, // channel - box
164,
@@ -232,42 +244,69 @@ void Display::touchToExit()
{
tft.setTextColor(TFT_BLACK, TFT_LIGHTGREY);
tft.fillRect(0,32,HEIGHT_1,16, TFT_LIGHTGREY);
tft.drawCentreString("Touch screen to exit",120,32,2);
tft.drawCentreString(text11,120,32,2);
}
// Function to just draw the screen black
void Display::clearScreen()
{
Serial.println("clearScreen()");
//Serial.println(F("clearScreen()"));
tft.fillScreen(TFT_BLACK);
tft.setCursor(0, 0);
}
#ifdef SCREEN_BUFFER
void Display::scrollScreenBuffer(bool down) {
// Scroll screen normal direction (Up)
if (!down) {
this->screen_buffer->shift();
}
}
#endif
void Display::displayBuffer(bool do_clear)
{
if (this->display_buffer->size() > 0)
{
delay(1);
while (display_buffer->size() > 0)
{
xPos = 0;
if ((display_buffer->size() > 0) && (!loading))
{
printing = true;
delay(print_delay_1);
yDraw = scroll_line(TFT_RED);
tft.setCursor(xPos, yDraw);
tft.setTextColor(TFT_GREEN, TFT_BLACK);
tft.print(display_buffer->shift());
printing = false;
delay(print_delay_2);
}
if (!tteBar)
blank[(18+(yStart - TOP_FIXED_AREA) / TEXT_HEIGHT)%19] = xPos;
else
blank[(18+(yStart - TOP_FIXED_AREA_2) / TEXT_HEIGHT)%19] = xPos;
#ifndef SCREEN_BUFFER
xPos = 0;
if ((display_buffer->size() > 0) && (!loading))
{
printing = true;
delay(print_delay_1);
yDraw = scroll_line(TFT_RED);
tft.setCursor(xPos, yDraw);
tft.setTextColor(TFT_GREEN, TFT_BLACK);
tft.print(display_buffer->shift());
printing = false;
delay(print_delay_2);
}
if (!tteBar)
blank[(18+(yStart - TOP_FIXED_AREA) / TEXT_HEIGHT)%19] = xPos;
else
blank[(18+(yStart - TOP_FIXED_AREA_2) / TEXT_HEIGHT)%19] = xPos;
#else
xPos = 0;
if (this->screen_buffer->size() >= MAX_SCREEN_BUFFER)
this->scrollScreenBuffer();
screen_buffer->add(display_buffer->shift());
for (int i = 0; i < this->screen_buffer->size(); i++) {
tft.setCursor(xPos, (i * 12) + (SCREEN_HEIGHT / 6));
for (int x = 0; x < TFT_WIDTH / CHAR_WIDTH; x++)
tft.print(" ");
tft.setCursor(xPos, (i * 12) + (SCREEN_HEIGHT / 6));
tft.setTextColor(TFT_GREEN, TFT_BLACK);
tft.print(this->screen_buffer->get(i));
}
#endif
}
}
}
@@ -281,7 +320,7 @@ void Display::showCenterText(String text, int y)
void Display::initScrollValues(bool tte)
{
Serial.println("initScrollValues()");
//Serial.println(F("initScrollValues()"));
yDraw = YMAX - BOT_FIXED_AREA - TEXT_HEIGHT;
xPos = 0;
@@ -299,7 +338,7 @@ void Display::initScrollValues(bool tte)
yArea = YMAX - TOP_FIXED_AREA_2 - BOT_FIXED_AREA;
}
for(int i = 0; i < 18; i++) blank[i] = 0;
for(uint8_t i = 0; i < 18; i++) blank[i] = 0;
}
@@ -337,24 +376,28 @@ int Display::scroll_line(uint32_t color) {
// Function to setup hardware scroll for TFT screen
void Display::setupScrollArea(uint16_t tfa, uint16_t bfa) {
Serial.println("setupScrollArea()");
Serial.println(" tfa: " + (String)tfa);
Serial.println(" bfa: " + (String)bfa);
Serial.println("yStart: " + (String)this->yStart);
tft.writecommand(ILI9341_VSCRDEF); // Vertical scroll definition
tft.writedata(tfa >> 8); // Top Fixed Area line count
tft.writedata(tfa);
tft.writedata((YMAX-tfa-bfa)>>8); // Vertical Scrolling Area line count
tft.writedata(YMAX-tfa-bfa);
tft.writedata(bfa >> 8); // Bottom Fixed Area line count
tft.writedata(bfa);
//Serial.println(F("setupScrollArea()"));
//Serial.println(" tfa: " + (String)tfa);
//Serial.println(" bfa: " + (String)bfa);
//Serial.println("yStart: " + (String)this->yStart);
#ifndef MARAUDER_MINI
tft.writecommand(ILI9341_VSCRDEF); // Vertical scroll definition
tft.writedata(tfa >> 8); // Top Fixed Area line count
tft.writedata(tfa);
tft.writedata((YMAX-tfa-bfa)>>8); // Vertical Scrolling Area line count
tft.writedata(YMAX-tfa-bfa);
tft.writedata(bfa >> 8); // Bottom Fixed Area line count
tft.writedata(bfa);
#endif
}
void Display::scrollAddress(uint16_t vsp) {
tft.writecommand(ILI9341_VSCRSADD); // Vertical scrolling pointer
tft.writedata(vsp>>8);
tft.writedata(vsp);
#ifndef MARAUDER_MINI
tft.writecommand(ILI9341_VSCRSADD); // Vertical scrolling pointer
tft.writedata(vsp>>8);
tft.writedata(vsp);
#endif
}
@@ -364,18 +407,21 @@ void Display::scrollAddress(uint16_t vsp) {
void Display::drawJpeg(const char *filename, int xpos, int ypos) {
// Open the named file (the Jpeg decoder library will close it after rendering image)
fs::File jpegFile = SPIFFS.open( filename, "r"); // File handle reference for SPIFFS
//fs::File jpegFile = SPIFFS.open( filename, "r"); // File handle reference for SPIFFS
//jpegFile.close();
//ESP32 always seems to return 1 for jpegFile so this null trap does not work
if ( !jpegFile ) {
Serial.print("ERROR: File \""); Serial.print(filename); Serial.println ("\" not found!");
return;
}
//if ( !jpegFile ) {
// Serial.print("ERROR: File \""); Serial.print(filename); Serial.println ("\" not found!");
// return;
//}
// Use one of the three following methods to initialise the decoder,
// the filename can be a String or character array type:
boolean decoded = JpegDec.decodeFsFile(filename); // or pass the filename (leading / distinguishes SPIFFS files)
//boolean decoded = JpegDec.decodeFsFile(filename); // or pass the filename (leading / distinguishes SPIFFS files)
boolean decoded = JpegDec.decodeArray(MarauderTitle, 13578);
if (decoded) {
// print information about the image to the serial port
@@ -384,11 +430,20 @@ void Display::drawJpeg(const char *filename, int xpos, int ypos) {
// render the image onto the screen at given coordinates
jpegRender(xpos, ypos);
}
else {
Serial.println("Jpeg file format not supported!");
}
//else {
// Serial.println(F("Jpeg file format not supported!"));
//}
}
void Display::setupDraw() {
this->tft.drawLine(0, 0, 10, 0, TFT_MAGENTA);
this->tft.drawLine(0, 0, 0, 10, TFT_GREEN);
this->tft.drawLine(0, 0, 0, 0, TFT_CYAN);
}
uint16_t xlast;
uint16_t ylast;
uint32_t AH;
void Display::drawStylus()
{
uint16_t x = 0, y = 0; // To store the touch coordinates
@@ -396,13 +451,61 @@ void Display::drawStylus()
// Pressed will be set true is there is a valid touch on the screen
boolean pressed = tft.getTouch(&x, &y);
if ((x <= 10) && (y <= 10) && (pressed)) {
//Serial.println(F("Exit draw function"));
this->draw_tft = false;
this->exit_draw = true;
return;
}
// Draw a white spot at the detected coordinates
if (pressed) {
tft.fillCircle(x, y, 2, TFT_WHITE);
// tft.fillCircle(x, y, 2, TFT_WHITE);
if ( xlast > 0 && ylast > 0 ) {
uint16_t the_color = TFT_WHITE;
uint16_t wd = 1;
int xlast2;
int ylast2;
int x2;
int y2;
int n;
int n2 = -wd;
xlast2 = xlast - wd;
x2 = x - wd;
for (n = -wd; n <= wd; n++) {
ylast2 = ylast + n;
y2 = y + n;
tft.drawLine(xlast2, ylast2, x2, y2, the_color);
}
for (n2 = -wd; n2 <= wd; n2++) {
xlast2 = xlast + n2;
x2 = x + n2;
tft.drawLine(xlast2, ylast2, x2, y2, the_color);
}
for (n = wd; n >= -wd; n--) {
ylast2 = ylast + n;
y2 = y + n;
tft.drawLine(xlast2, ylast2, x2, y2, the_color);
}
for (n2 = wd; n2 >= -wd; n2--) {
xlast2 = xlast + n2;
x2 = x + n2;
tft.drawLine(xlast2, ylast2, x2, y2, the_color);
}
// tft.drawLine(xlast, ylast, x, y, TFT_WHITE);
}
xlast = x;
ylast = y;
AH = 0;
//Serial.print("x,y = ");
//Serial.print(x);
//Serial.print(",");
//Serial.println(y);
} else if ( AH < 5 ) {
AH++;
} else if ( AH == 5 ) {
xlast = 0;
ylast = 0;
}
}
@@ -516,16 +619,16 @@ void createArray(const char *filename) {
uint8_t data;
byte line_len = 0;
Serial.println("");
Serial.println("// Generated by a JPEGDecoder library example sketch:");
Serial.println("// https://github.com/Bodmer/JPEGDecoder");
Serial.println(F("// Generated by a JPEGDecoder library example sketch:"));
Serial.println(F("// https://github.com/Bodmer/JPEGDecoder"));
Serial.println("");
Serial.println("#if defined(__AVR__)");
Serial.println(" #include <avr/pgmspace.h>");
Serial.println("#endif");
Serial.println(F("#if defined(__AVR__)"));
Serial.println(F(" #include <avr/pgmspace.h>"));
Serial.println(F("#endif"));
Serial.println("");
Serial.print ("const uint8_t ");
Serial.print (F("const uint8_t "));
while (*filename != '.') Serial.print(*filename++);
Serial.println("[] PROGMEM = {"); // PROGMEM added for AVR processors, it is ignored by Due
Serial.println(F("[] PROGMEM = {")); // PROGMEM added for AVR processors, it is ignored by Due
while ( jpgFile.available()) {
@@ -551,13 +654,13 @@ void createArray(const char *filename) {
#ifdef ESP8266
void Display::listFiles(void) {
Serial.println();
Serial.println("SPIFFS files found:");
Serial.println(F("SPIFFS files found:"));
fs::Dir dir = SPIFFS.openDir("/"); // Root directory
String line = "=====================================";
Serial.println(line);
Serial.println(" File name Size");
Serial.println(F(" File name Size"));
Serial.println(line);
while (dir.next()) {
@@ -590,22 +693,22 @@ void Display::listFiles(void) {
void Display::listDir(fs::FS &fs, const char * dirname, uint8_t levels) {
Serial.println();
Serial.println("SPIFFS files found:");
Serial.println(F("SPIFFS files found:"));
Serial.printf("Listing directory: %s\n", "/");
String line = "=====================================";
Serial.println(line);
Serial.println(" File name Size");
Serial.println(F(" File name Size"));
Serial.println(line);
fs::File root = fs.open(dirname);
if (!root) {
Serial.println("Failed to open directory");
Serial.println(F("Failed to open directory"));
return;
}
if (!root.isDirectory()) {
Serial.println("Not a directory");
Serial.println(F("Not a directory"));
return;
}
@@ -673,7 +776,7 @@ void Display::buildBanner(String msg, int xpos)
//img.fillCircle(SCREEN_WIDTH / 2, TEXT_HEIGHT / 2, 10, TFT_ORANGE);
// Now print text on top of the graphics
img.setTextSize(2); // Font size scaling is x1
img.setTextSize(BANNER_TEXT_SIZE); // Font size scaling is x1
img.setTextFont(0); // Font 4 selected
img.setTextColor(TFT_WHITE); // Black text, no background colour
img.setTextWrap(false); // Turn of wrap so we can print past end of sprite
@@ -686,8 +789,13 @@ void Display::buildBanner(String msg, int xpos)
img.print(msg);
}
void Display::main()
void Display::main(uint8_t scan_mode)
{
if ((scan_mode == LV_JOIN_WIFI) ||
(scan_mode == LV_ADD_SSID))
lv_task_handler();
return;
}
// End SPIFFS_functions
#endif

290
esp32_marauder/Display.h
View File

@@ -1,125 +1,165 @@
#ifndef Display_h
#define Display_h
#include <FS.h>
#include <functional>
#include <JPEGDecoder.h>
//#include <SimpleList.h>
#include <LinkedList.h>
#include <SPI.h>
#include "SPIFFS.h"
#include "Assets.h"
#include <TFT_eSPI.h>
#define TFT_SHIELD
//#define TFT_DIY
#define SCREEN_WIDTH 240
#define SCREEN_HEIGHT 320
#define HEIGHT_1 240
#define WIDTH_1 320
#define STANDARD_FONT_CHAR_LIMIT 40 // number of characters on a single line with normal font
#define TEXT_HEIGHT 16 // Height of text to be printed and scrolled
#define BOT_FIXED_AREA 0 // Number of lines in bottom fixed area (lines counted from bottom of screen)
#define TOP_FIXED_AREA 48 // Number of lines in top fixed area (lines counted from top of screen)
#define YMAX 320 // Bottom of screen area
#define minimum(a,b) (((a) < (b)) ? (a) : (b))
//#define MENU_FONT NULL
#define MENU_FONT &FreeMono9pt7b // Winner
//#define MENU_FONT &FreeMonoBold9pt7b
//#define MENU_FONT &FreeSans9pt7b
//#define MENU_FONT &FreeSansBold9pt7b
#define BUTTON_ARRAY_LEN 7
#define STATUS_BAR_WIDTH 16
#define STATUSBAR_COLOR 0x4A49
class Display
{
private:
bool run_setup = true;
// For the byte we read from the serial port
byte data = 0;
// A few test variables used during debugging
boolean change_colour = 1;
boolean selected = 1;
//void addNodes(Menu* menu, String name, Menu* child, std::function<void()> callable);
//void changeMenu(Menu* menu);
//void showMenuList(Menu* menu, int layer);
public:
Display();
TFT_eSPI tft = TFT_eSPI();
TFT_eSprite img = TFT_eSprite(&tft);
TFT_eSPI_Button key[BUTTON_ARRAY_LEN];
String version_number = "v0.6.5";
bool printing = false;
bool loading = false;
bool tteBar = false;
bool draw_tft = false;
int TOP_FIXED_AREA_2 = 48;
int print_delay_1, print_delay_2 = 10;
int current_banner_pos = SCREEN_WIDTH;
//Menu* current_menu;
//Menu mainMenu;
//Menu wifiMenu;
//Menu bluetoothMenu;
LinkedList<String>* display_buffer;
// The initial y coordinate of the top of the bottom text line
uint16_t yDraw = YMAX - BOT_FIXED_AREA - TEXT_HEIGHT;
// Keep track of the drawing x coordinate
uint16_t xPos = 0;
// The initial y coordinate of the top of the scrolling area
uint16_t yStart = TOP_FIXED_AREA_2;
// yArea must be a integral multiple of TEXT_HEIGHT
uint16_t yArea = YMAX - TOP_FIXED_AREA_2 - BOT_FIXED_AREA;
// We have to blank the top line each time the display is scrolled, but this takes up to 13 milliseconds
// for a full width line, meanwhile the serial buffer may be filling... and overflowing
// We can speed up scrolling of short text lines by just blanking the character we drew
int blank[19]; // We keep all the strings pixel lengths to optimise the speed of the top line blanking
void tftDrawGraphObjects(byte x_scale);
void tftDrawEapolColorKey();
void tftDrawColorKey();
void tftDrawXScaleButtons(byte x_scale);
void tftDrawYScaleButtons(byte y_scale);
void tftDrawChannelScaleButtons(int set_channel);
void tftDrawExitScaleButtons();
void buildBanner(String msg, int xpos);
void clearScreen();
void displayBuffer(bool do_clear = false);
void drawJpeg(const char *filename, int xpos, int ypos);
void drawStylus();
void getTouchWhileFunction(bool pressed);
void initScrollValues(bool tte = false);
void jpegInfo();
void jpegRender(int xpos, int ypos);
void listDir(fs::FS &fs, const char * dirname, uint8_t levels);
void listFiles();
void main();
void RunSetup();
void scrollAddress(uint16_t vsp);
int scroll_line(uint32_t color);
void setupScrollArea(uint16_t tfa, uint16_t bfa);
void showCenterText(String text, int y);
void touchToExit();
void twoPartDisplay(String center_text);
void updateBanner(String msg);
};
#endif
#ifndef Display_h
#define Display_h
#include "configs.h"
#ifdef HAS_SCREEN
#include <FS.h>
#include <functional>
#include <JPEGDecoder.h>
//#include <SimpleList.h>
#include <LinkedList.h>
#include <SPI.h>
#include <lvgl.h>
#include <Ticker.h>
//#include <M5Stack.h>
#include "SPIFFS.h"
#include "Assets.h"
#include <TFT_eSPI.h>
// WiFi stuff
#define OTA_UPDATE 100
#define SHOW_INFO 101
#define WIFI_SCAN_OFF 0
#define WIFI_SCAN_PROBE 1
#define WIFI_SCAN_AP 2
#define WIFI_SCAN_PWN 3
#define WIFI_SCAN_EAPOL 4
#define WIFI_SCAN_DEAUTH 5
#define WIFI_SCAN_ALL 6
#define WIFI_PACKET_MONITOR 7
#define WIFI_ATTACK_BEACON_SPAM 8
#define WIFI_ATTACK_RICK_ROLL 9
#define BT_SCAN_ALL 10
#define BT_SCAN_SKIMMERS 11
#define WIFI_SCAN_ESPRESSIF 12
#define LV_JOIN_WIFI 13
#define LV_ADD_SSID 14
#define WIFI_ATTACK_BEACON_LIST 15
/*
PROGMEM void my_disp_flush(lv_disp_drv_t *disp, const lv_area_t *area, lv_color_t *color_p);
PROGMEM bool my_touchpad_read(lv_indev_drv_t * indev_driver, lv_indev_data_t * data);
PROGMEM static lv_disp_buf_t disp_buf;
PROGMEM static lv_color_t buf[LV_HOR_RES_MAX * 10];
PROGMEM static void ta_event_cb(lv_obj_t * ta, lv_event_t event);
PROGMEM static void keyboard_event_cb(lv_obj_t * keyboard, lv_event_t event);
// lvgl stuff
PROGMEM static lv_obj_t *kb;
*/
// #define KIT
// #define TFT_DIY
class Display
{
private:
bool SwitchOn = false;
bool run_setup = true;
// For the byte we read from the serial port
byte data = 0;
// A few test variables used during debugging
boolean change_colour = 1;
boolean selected = 1;
void drawFrame();
#ifdef SCREEN_BUFFER
void scrollScreenBuffer(bool down = false);
#endif
//void addNodes(Menu* menu, String name, Menu* child, std::function<void()> callable);
//void changeMenu(Menu* menu);
//void showMenuList(Menu* menu, int layer);
//static void lv_tick_handler();
public:
Display();
//Ticker tick;
TFT_eSPI tft = TFT_eSPI();
TFT_eSprite img = TFT_eSprite(&tft);
TFT_eSPI_Button key[BUTTON_ARRAY_LEN];
const String PROGMEM version_number = MARAUDER_VERSION;
bool printing = false;
bool loading = false;
bool tteBar = false;
bool draw_tft = false;
bool exit_draw = false;
int TOP_FIXED_AREA_2 = 48;
int print_delay_1, print_delay_2 = 10;
int current_banner_pos = SCREEN_WIDTH;
//Menu* current_menu;
//Menu mainMenu;
//Menu wifiMenu;
//Menu bluetoothMenu;
LinkedList<String>* display_buffer;
#ifdef SCREEN_BUFFER
LinkedList<String>* screen_buffer;
#endif
// The initial y coordinate of the top of the bottom text line
uint16_t yDraw = YMAX - BOT_FIXED_AREA - TEXT_HEIGHT;
// Keep track of the drawing x coordinate
uint16_t xPos = 0;
// The initial y coordinate of the top of the scrolling area
uint16_t yStart = TOP_FIXED_AREA_2;
// yArea must be a integral multiple of TEXT_HEIGHT
uint16_t yArea = YMAX - TOP_FIXED_AREA_2 - BOT_FIXED_AREA;
// We have to blank the top line each time the display is scrolled, but this takes up to 13 milliseconds
// for a full width line, meanwhile the serial buffer may be filling... and overflowing
// We can speed up scrolling of short text lines by just blanking the character we drew
int blank[19]; // We keep all the strings pixel lengths to optimise the speed of the top line blanking
//void initLVGL();
//void deinitLVGL();
//void joinWiFiGFX();
void tftDrawRedOnOffButton();
void tftDrawGreenOnOffButton();
void tftDrawGraphObjects(byte x_scale);
void tftDrawEapolColorKey();
void tftDrawColorKey();
void tftDrawXScaleButtons(byte x_scale);
void tftDrawYScaleButtons(byte y_scale);
void tftDrawChannelScaleButtons(int set_channel);
void tftDrawExitScaleButtons();
void buildBanner(String msg, int xpos);
void clearScreen();
void displayBuffer(bool do_clear = false);
void drawJpeg(const char *filename, int xpos, int ypos);
void setupDraw();
void drawStylus();
void getTouchWhileFunction(bool pressed);
void initScrollValues(bool tte = false);
void jpegInfo();
void jpegRender(int xpos, int ypos);
void listDir(fs::FS &fs, const char * dirname, uint8_t levels);
void listFiles();
void main(uint8_t scan_mode);
void RunSetup();
void scrollAddress(uint16_t vsp);
int scroll_line(uint32_t color);
void setupScrollArea(uint16_t tfa, uint16_t bfa);
void showCenterText(String text, int y);
void touchToExit();
void twoPartDisplay(String center_text);
void updateBanner(String msg);
};
#endif
#endif

7
esp32_marauder/LedInterface.cpp
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@@ -5,13 +5,14 @@ LedInterface::LedInterface() {
}
void LedInterface::RunSetup() {
Serial.println("Setting neopixel to black...");
//Serial.println("Setting neopixel to black...");
strip.setBrightness(0);
strip.begin();
strip.setBrightness(50);
strip.setPixelColor(0, strip.Color(0, 0, 0));
strip.show();
delay(100);
strip.setPixelColor(0, strip.Color(255, 0, 0));
strip.setBrightness(50);
strip.setPixelColor(0, strip.Color(0, 0, 0));
strip.show();
this->initTime = millis();
}

2557
esp32_marauder/MenuFunctions.cpp
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359
esp32_marauder/MenuFunctions.h
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@@ -1,138 +1,221 @@
#ifndef MenuFunctions_h
#define MenuFunctions_h
#include "WiFiScan.h"
#include "Display.h"
#include "BatteryInterface.h"
#include "SDInterface.h"
#include "Web.h"
extern Display display_obj;
extern WiFiScan wifi_scan_obj;
extern Web web_obj;
extern SDInterface sd_obj;
extern BatteryInterface battery_obj;
// Keypad start position, key sizes and spacing
#define KEY_X 120 // Centre of key
#define KEY_Y 50
#define KEY_W 240 // Width and height
#define KEY_H 22
#define KEY_SPACING_X 0 // X and Y gap
#define KEY_SPACING_Y 1
#define KEY_TEXTSIZE 1 // Font size multiplier
#define ICON_W 22
#define ICON_H 22
#define BUTTON_PADDING 22
//#define BUTTON_ARRAY_LEN 5
#define FLASH_BUTTON 0
// Icon definitions
#define ATTACKS 0
#define BEACON_SNIFF 1
#define BLUETOOTH 2
#define BLUETOOTH_SNIFF 3
#define DEAUTH_SNIFF 4
#define DRAW 5
#define PACKET_MONITOR 6
#define PROBE_SNIFF 7
#define SCANNERS 8
#define CC_SKIMMERS 9
#define SNIFFERS 10
#define WIFI 11
#define BEACON_SPAM 12
#define RICK_ROLL 13
#define REBOOT 14
#define GENERAL_APPS 15
#define UPDATE 16
#define DEVICE 17
#define DEVICE_INFO 18
#define SD_UPDATE 19
#define WEB_UPDATE 20
#define EAPOL 21
#define STATUS_BAT 22
#define STATUS_SD 23
struct Menu;
// Individual Nodes of a menu
struct MenuNode {
String name;
uint16_t color;
int icon;
TFT_eSPI_Button* button;
std::function<void()> callable;
};
// Full Menus
struct Menu {
String name;
LinkedList<MenuNode>* list;
Menu * parentMenu;
uint8_t selected;
};
class MenuFunctions
{
private:
String u_result = "";
uint32_t initTime = 0;
Menu* current_menu;
// Main menu stuff
Menu mainMenu;
Menu wifiMenu;
Menu bluetoothMenu;
Menu generalMenu;
Menu deviceMenu;
// Device menu stuff
Menu whichUpdateMenu;
Menu failedUpdateMenu;
Menu confirmMenu;
Menu updateMenu;
Menu infoMenu;
// WiFi menu stuff
Menu wifiSnifferMenu;
Menu wifiScannerMenu;
Menu wifiAttackMenu;
// Bluetooth menu stuff
Menu bluetoothSnifferMenu;
Menu bluetoothScannerMenu;
// Menu icons
//TFT_eSPI_Button key[BUTTON_ARRAY_LEN];
void addNodes(Menu* menu, String name, uint16_t color, Menu* child, int place, std::function<void()> callable);
void drawStatusBar();
void updateStatusBar();
void showMenuList(Menu* menu, int layer);
void orientDisplay();
public:
MenuFunctions();
uint16_t x = -1, y = -1;
boolean pressed = false;
void buildButtons(Menu* menu);
void changeMenu(Menu* menu);
void displayCurrentMenu();
void main(uint32_t currentTime);
void RunSetup();
};
#endif
#ifndef MenuFunctions_h
#define MenuFunctions_h
#include "configs.h"
#ifdef HAS_SCREEN
#define BATTERY_ANALOG_ON 0
#include "WiFiScan.h"
#include "Display.h"
#include "BatteryInterface.h"
#include "SDInterface.h"
#include "Web.h"
#include "esp_interface.h"
#include "a32u4_interface.h"
#include "settings.h"
#ifdef MARAUDER_MINI
#include <SwitchLib.h>
extern SwitchLib u_btn;
extern SwitchLib d_btn;
extern SwitchLib l_btn;
extern SwitchLib r_btn;
extern SwitchLib c_btn;
#endif
extern Display display_obj;
extern WiFiScan wifi_scan_obj;
extern Web web_obj;
extern SDInterface sd_obj;
extern BatteryInterface battery_obj;
extern EspInterface esp_obj;
extern A32u4Interface a32u4_obj;
extern Settings settings_obj;
#define FLASH_BUTTON 0
#if BATTERY_ANALOG_ON == 1
#define BATTERY_PIN 13
#define ANALOG_PIN 34
#define CHARGING_PIN 27
#endif
// Icon definitions
#define ATTACKS 0
#define BEACON_SNIFF 1
#define BLUETOOTH 2
#define BLUETOOTH_SNIFF 3
#define DEAUTH_SNIFF 4
#define DRAW 5
#define PACKET_MONITOR 6
#define PROBE_SNIFF 7
#define SCANNERS 8
#define CC_SKIMMERS 9
#define SNIFFERS 10
#define WIFI 11
#define BEACON_SPAM 12
#define RICK_ROLL 13
#define REBOOT 14
#define GENERAL_APPS 15
#define UPDATE 16
#define DEVICE 17
#define DEVICE_INFO 18
#define SD_UPDATE 19
#define WEB_UPDATE 20
#define EAPOL 21
#define STATUS_BAT 22
#define STATUS_SD 23
#define PWNAGOTCHI 24
#define ESPRESSIF 25
#define SHUTDOWN 26
#define BEACON_LIST 27
#define GENERATE 28
#define CLEAR_ICO 29
#define KEYBOARD_ICO 30
#define JOIN_WIFI 31
#define ESP_UPDATE_ICO 32
#define BAD_USB_ICO 33
#define TEST_BAD_USB_ICO 34
#define LANGUAGE 35
PROGMEM void my_disp_flush(lv_disp_drv_t *disp, const lv_area_t *area, lv_color_t *color_p);
PROGMEM bool my_touchpad_read(lv_indev_drv_t * indev_driver, lv_indev_data_t * data);
PROGMEM static lv_disp_buf_t disp_buf;
PROGMEM static lv_color_t buf[LV_HOR_RES_MAX * 10];
PROGMEM static void ta_event_cb(lv_obj_t * ta, lv_event_t event);
PROGMEM static void join_wifi_keyboard_event_cb(lv_obj_t * keyboard, lv_event_t event);
PROGMEM static void add_ssid_keyboard_event_cb(lv_obj_t * keyboard, lv_event_t event);
PROGMEM static void write_bad_usb_keyboard_event_cb(lv_obj_t * keyboard, lv_event_t event);
PROGMEM static void load_btn_cb(lv_obj_t * load_btn, lv_event_t event);
PROGMEM static void test_btn_cb(lv_obj_t * load_btn, lv_event_t event);
PROGMEM static void ap_list_cb(lv_obj_t * btn, lv_event_t event);
PROGMEM static void setting_dropdown_cb(lv_obj_t * btn, lv_event_t event);
PROGMEM static void save_as_keyboard_event_cb(lv_obj_t * keyboard, lv_event_t event);
// lvgl stuff
PROGMEM static lv_obj_t *kb;
PROGMEM static lv_obj_t * save_as_kb;
struct Menu;
// Individual Nodes of a menu
struct MenuNode {
String name;
String command;
uint16_t color;
int icon;
TFT_eSPI_Button* button;
bool selected;
std::function<void()> callable;
};
// Full Menus
struct Menu {
String name;
LinkedList<MenuNode>* list;
Menu * parentMenu;
uint8_t selected = 0;
};
class MenuFunctions
{
private:
String u_result = "";
uint32_t initTime = 0;
//Menu* current_menu;
// Main menu stuff
Menu mainMenu;
Menu wifiMenu;
Menu bluetoothMenu;
Menu badusbMenu;
Menu generalMenu;
Menu deviceMenu;
// Device menu stuff
Menu whichUpdateMenu;
Menu failedUpdateMenu;
Menu confirmMenu;
Menu espUpdateMenu;
Menu updateMenu;
Menu settingsMenu;
Menu specSettingMenu;
Menu infoMenu;
Menu languageMenu;
// WiFi menu stuff
Menu wifiSnifferMenu;
Menu wifiAttackMenu;
Menu wifiGeneralMenu;
// Bluetooth menu stuff
Menu bluetoothSnifferMenu;
Menu bluetoothGeneralMenu;
// Settings things menus
Menu shutdownWiFiMenu;
Menu shutdownBLEMenu;
Menu generateSSIDsMenu;
Menu clearSSIDsMenu;
Menu clearAPsMenu;
static void lv_tick_handler();
// Menu icons
//TFT_eSPI_Button key[BUTTON_ARRAY_LEN];
void addNodes(Menu* menu, String name, uint16_t color, Menu* child, int place, std::function<void()> callable, bool selected = false, String command = "");
void updateStatusBar();
void battery(bool initial = false);
void battery2(bool initial = false);
void showMenuList(Menu* menu, int layer);
String callSetting(String key);
void runBoolSetting(String ley);
void displaySetting(String key, Menu* menu, int index);
void buttonSelected(uint8_t b);
void buttonNotSelected(uint8_t b);
public:
MenuFunctions();
Menu* current_menu;
Ticker tick;
uint16_t x = -1, y = -1;
boolean pressed = false;
String loaded_file = "";
void initLVGL();
void deinitLVGL();
void joinWiFiGFX();
void addSSIDGFX();
void addAPGFX();
void displaySettingsGFX();
void writeBadUSB();
void buildButtons(Menu* menu);
void changeMenu(Menu* menu);
void drawStatusBar();
void displayCurrentMenu();
void main(uint32_t currentTime);
void RunSetup();
void orientDisplay();
};
#endif
#endif

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@@ -1,37 +1,43 @@
#include "SDInterface.h"
#include "lang_var.h"
bool SDInterface::initSD() {
String display_string = "";
#ifdef KIT
pinMode(SD_DET, INPUT);
if (digitalRead(SD_DET) == LOW) {
Serial.println(F("SD Card Detect Pin Detected"));
}
else {
Serial.println(F("SD Card Detect Pin Not Detected"));
this->supported = false;
return false;
}
#endif
if (!SD.begin(SD_CS)) {
Serial.println("Failed to mount SD Card");
Serial.println(F("Failed to mount SD Card"));
this->supported = false;
return false;
}
else {
this->supported = true;
this->cardType = SD.cardType();
if (cardType == CARD_MMC)
Serial.println("SD: MMC Mounted");
else if(cardType == CARD_SD)
Serial.println("SD: SDSC Mounted");
else if(cardType == CARD_SDHC)
Serial.println("SD: SDHC Mounted");
else
Serial.println("SD: UNKNOWN Card Mounted");
//if (cardType == CARD_MMC)
// Serial.println(F("SD: MMC Mounted"));
//else if(cardType == CARD_SD)
// Serial.println(F("SD: SDSC Mounted"));
//else if(cardType == CARD_SDHC)
// Serial.println(F("SD: SDHC Mounted"));
//else
// Serial.println(F("SD: UNKNOWN Card Mounted"));
//this->cardSizeBT = SD.cardSize();
//this->cardSizeKB = SD.cardSize() / 1024;
this->cardSizeMB = SD.cardSize() / (1024 * 1024);
//this->cardSizeGB = SD.cardSize() / (1024 * 1024 * 1024);
//Serial.printf("SD Card Size: %llu Bytes\n", this->cardSizeBT);
//Serial.printf("SD Card Size: %lluKB\n", this->cardSizeKB);
Serial.printf("SD Card Size: %lluMB\n", this->cardSizeMB);
//Serial.printf("SD Card Size: %lluGB\n", this->cardSizeGB);
//Serial.printf("SD Card Size: %lluMB\n", this->cardSizeMB);
if (this->supported) {
//display_obj.tft.println((byte)(sd_obj.cardSizeMB % 10));
const int NUM_DIGITS = log10(this->cardSizeMB) + 1;
char sz[NUM_DIGITS + 1];
@@ -43,14 +49,17 @@ bool SDInterface::initSD() {
display_string.concat((String)sz[i]);
}
//this->card_sz = display_string;
this->card_sz = sz;
}
buffer_obj = Buffer();
if (!SD.exists("/SCRIPTS")) {
Serial.println("/SCRIPTS does not exist. Creating...");
//if (this->supported)
// buffer_obj.open(&SD);
SD.mkdir("/SCRIPTS");
Serial.println("/SCRIPTS created");
}
return true;
}
@@ -58,7 +67,6 @@ bool SDInterface::initSD() {
void SDInterface::addPacket(uint8_t* buf, uint32_t len) {
if ((this->supported) && (this->do_save)) {
//Serial.println("Adding packet to buffer...");
buffer_obj.addPacket(buf, len);
}
}
@@ -69,21 +77,26 @@ void SDInterface::openCapture(String file_name) {
}
void SDInterface::runUpdate() {
//display_obj.clearScreen();
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_WHITE);
display_obj.tft.println("Opening /update.bin...");
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_WHITE);
display_obj.tft.println(F(text15));
#endif
File updateBin = SD.open("/update.bin");
if (updateBin) {
if(updateBin.isDirectory()){
display_obj.tft.setTextColor(TFT_RED);
display_obj.tft.println("Error, could not find update.bin");
Serial.println("Error, update.bin is not a file");
display_obj.tft.setTextColor(TFT_WHITE);
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_RED);
display_obj.tft.println(F(text_table2[0]));
#endif
Serial.println(F("Error, update.bin is not a file"));
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_WHITE);
#endif
updateBin.close();
return;
}
@@ -91,82 +104,122 @@ void SDInterface::runUpdate() {
size_t updateSize = updateBin.size();
if (updateSize > 0) {
display_obj.tft.println("Starting SD Update...");
Serial.println("Try to start update");
#ifdef HAS_SCREEN
display_obj.tft.println(F(text_table2[1]));
#endif
Serial.println(F("Try to start update"));
this->performUpdate(updateBin, updateSize);
}
else {
display_obj.tft.setTextColor(TFT_RED);
display_obj.tft.println("Error, update.bin is empty");
Serial.println("Error, file is empty");
display_obj.tft.setTextColor(TFT_WHITE);
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_RED);
display_obj.tft.println(F(text_table2[2]));
#endif
Serial.println(F("Error, file is empty"));
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_WHITE);
#endif
return;
}
updateBin.close();
// whe finished remove the binary from sd card to indicate end of the process
display_obj.tft.println("rebooting...");
Serial.println("rebooting...");
#ifdef HAS_SCREEN
display_obj.tft.println(F(text_table2[3]));
#endif
Serial.println(F("rebooting..."));
//SD.remove("/update.bin");
delay(1000);
ESP.restart();
}
else {
display_obj.tft.setTextColor(TFT_RED);
display_obj.tft.println("Could not load update.bin from /");
Serial.println("Could not load update.bin from sd root");
display_obj.tft.setTextColor(TFT_WHITE);
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_RED);
display_obj.tft.println(F(text_table2[4]));
#endif
Serial.println(F("Could not load update.bin from sd root"));
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_WHITE);
#endif
}
}
void SDInterface::performUpdate(Stream &updateSource, size_t updateSize) {
if (Update.begin(updateSize)) {
display_obj.tft.println("File size: " + String(updateSize));
display_obj.tft.println("Writing file to partition...");
#ifdef HAS_SCREEN
display_obj.tft.println(text_table2[5] + String(updateSize));
display_obj.tft.println(F(text_table2[6]));
#endif
size_t written = Update.writeStream(updateSource);
if (written == updateSize) {
display_obj.tft.println("Written: " + String(written) + " successfully");
#ifdef HAS_SCREEN
display_obj.tft.println(text_table2[7] + String(written) + text_table2[10]);
#endif
Serial.println("Written : " + String(written) + " successfully");
}
else {
display_obj.tft.println("Written only : " + String(written) + "/" + String(updateSize) + ". Retry?");
#ifdef HAS_SCREEN
display_obj.tft.println(text_table2[8] + String(written) + "/" + String(updateSize) + text_table2[9]);
#endif
Serial.println("Written only : " + String(written) + "/" + String(updateSize) + ". Retry?");
}
if (Update.end()) {
Serial.println("OTA done!");
if (Update.isFinished()) {
display_obj.tft.println("Update complete");
Serial.println("Update successfully completed. Rebooting.");
#ifdef HAS_SCREEN
display_obj.tft.println(F(text_table2[11]));
#endif
Serial.println(F("Update successfully completed. Rebooting."));
}
else {
display_obj.tft.setTextColor(TFT_RED);
display_obj.tft.println("Update could not complete");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_RED);
display_obj.tft.println(text_table2[12]);
#endif
Serial.println("Update not finished? Something went wrong!");
display_obj.tft.setTextColor(TFT_WHITE);
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_WHITE);
#endif
}
}
else {
display_obj.tft.println("Error Occurred. Error #: " + String(Update.getError()));
#ifdef HAS_SCREEN
display_obj.tft.println(text_table2[13] + String(Update.getError()));
#endif
Serial.println("Error Occurred. Error #: " + String(Update.getError()));
}
}
else
{
display_obj.tft.println("Not enough space to begin OTA");
#ifdef HAS_SCREEN
display_obj.tft.println(text_table2[14]);
#endif
Serial.println("Not enough space to begin OTA");
}
}
bool SDInterface::checkDetectPin() {
#ifdef KIT
if (digitalRead(SD_DET) == LOW)
return true;
else
return false;
#endif
return false;
}
void SDInterface::main() {
if ((this->supported) && (this->do_save)) {
//Serial.println("Saving packet...");
buffer_obj.forceSave(&SD);
}
else if (!this->supported) {
if (checkDetectPin()) {
delay(100);
this->initSD();
}
}
}
//void SDInterface::savePacket(uint8_t* buf, uint32_t len) {
// if (this->supported)
// buffer_obj.save(
//}

15
esp32_marauder/SDInterface.h
View File

@@ -1,19 +1,28 @@
#ifndef SDInterface_h
#define SDInterface_h
#include "configs.h"
#include "SD.h"
#include "Buffer.h"
#include "Display.h"
#ifdef HAS_SCREEN
#include "Display.h"
#endif
#include <Update.h>
extern Buffer buffer_obj;
extern Display display_obj;
#ifdef HAS_SCREEN
extern Display display_obj;
#endif
#define SD_CS 12
#ifdef KIT
#define SD_DET 4
#endif
class SDInterface {
private:
bool checkDetectPin();
public:
uint8_t cardType;

5
esp32_marauder/TemperatureInterface.cpp
View File

@@ -19,7 +19,10 @@ void TemperatureInterface::RunSetup() {
}
uint8_t TemperatureInterface::getCurrentTemp() {
return ((temprature_sens_read() - 32) / 1.8);
#ifndef MARAUDER_FLIPPER
return ((temprature_sens_read() - 32) / 1.8);
#endif
return 0;
}
void TemperatureInterface::main(uint32_t currentTime) {

2
esp32_marauder/TemperatureInterface.h
View File

@@ -1,6 +1,8 @@
#ifndef TemperatureInterface_h
#define TemperatureInterface_h
#include "configs.h"
#include <Arduino.h>
class TemperatureInterface {

100
esp32_marauder/Web.cpp
View File

@@ -1,4 +1,5 @@
#include "Web.h"
#include "lang_var.h"
WebServer server(80);
@@ -9,7 +10,6 @@ Web::Web()
void Web::main()
{
//Serial.println("Running the shits");
// Notify if client has connected to the update server
@@ -43,17 +43,25 @@ void Web::onJavaScript(void) {
void Web::setupOTAupdate()
{
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_WHITE);
uint8_t newMACAddress[] = {0x06, 0x07, 0x0D, 0x09, 0x0E, 0x0D};
#ifdef HAS_SCREEN
display_obj.tft.setTextWrap(false);
display_obj.tft.setFreeFont(NULL);
display_obj.tft.setCursor(0, 100);
display_obj.tft.setTextSize(1);
display_obj.tft.setTextColor(TFT_WHITE);
#endif
Serial.println(wifi_scan_obj.freeRAM());
display_obj.tft.print("Configuring update server...\n\n");
#ifdef HAS_SCREEN
display_obj.tft.print(text_table3[0]);
#endif
Serial.println("Configuring update server...");
display_obj.tft.setTextColor(TFT_YELLOW);
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_YELLOW);
#endif
// Start WiFi AP
Serial.println("Initializing WiFi...");
@@ -67,31 +75,23 @@ void Web::setupOTAupdate()
Serial.println(wifi_scan_obj.freeRAM());
Serial.println("Starting softAP...");
esp_wifi_set_mac(WIFI_IF_AP, &newMACAddress[0]);
WiFi.softAP(ssid, password);
Serial.println("");
Serial.println(wifi_scan_obj.freeRAM());
Serial.println("Displaying settings to TFT...");
display_obj.tft.print("SSID: ");
display_obj.tft.println(ssid);
display_obj.tft.print("IP address: ");
display_obj.tft.print(WiFi.softAPIP());
display_obj.tft.print("\n");
#ifdef HAS_SCREEN
display_obj.tft.print(text_table1[2]);
display_obj.tft.println(ssid);
display_obj.tft.print(text_table3[1]);
display_obj.tft.print(WiFi.softAPIP());
display_obj.tft.print("\n");
#endif
Serial.print("IP address: ");
Serial.println(WiFi.softAPIP());
/*use mdns for host name resolution*/
/*
if (!MDNS.begin(host)) { //http://esp32.local
Serial.println("Error setting up MDNS responder!");
while (1) {
delay(1000);
}
}
Serial.println("mDNS responder started");
*/
// return javascript jquery
Serial.println("Setting server behavior...");
Serial.println(wifi_scan_obj.freeRAM());
@@ -113,11 +113,12 @@ void Web::setupOTAupdate()
}, [this]() {
HTTPUpload& upload = server.upload();
if (upload.status == UPLOAD_FILE_START) {
display_obj.tft.setTextColor(TFT_YELLOW);
display_obj.tft.print("Update: ");
display_obj.tft.print(upload.filename.c_str());
display_obj.tft.print("\n");
//display_obj.updateBanner(menu_function_obj.current_menu->name);
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_YELLOW);
display_obj.tft.print(text_table3[2]);
display_obj.tft.print(upload.filename.c_str());
display_obj.tft.print("\n");
#endif
Serial.printf("Update: %s\n", upload.filename.c_str());
if (!Update.begin(UPDATE_SIZE_UNKNOWN)) { //start with max available size
Update.printError(Serial);
@@ -127,30 +128,23 @@ void Web::setupOTAupdate()
if (Update.write(upload.buf, upload.currentSize) != upload.currentSize) {
Update.printError(Serial);
}
//display_obj.tft.println(upload.totalSize);
/*
String display_string = "";
display_obj.tft.setCursor(0, 164);
for (int i = 0; i < 40; i++) {
display_string.concat(" ");
}
*/
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.fillRect(0, 164, 240, 8, TFT_BLACK);
//delay(1);
//display_obj.tft.print(display_string);
display_obj.tft.setCursor(0, 164);
display_obj.tft.print("Bytes complete: ");
display_obj.tft.print(upload.totalSize);
display_obj.tft.print("\n");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_CYAN);
display_obj.tft.fillRect(0, 164, 240, 8, TFT_BLACK);
display_obj.tft.setCursor(0, 164);
display_obj.tft.print(text_table3[3]);
display_obj.tft.print(upload.totalSize);
display_obj.tft.print("\n");
#endif
//Serial.println(upload.totalSize);
} else if (upload.status == UPLOAD_FILE_END) {
if (Update.end(true)) { //true to set the size to the current progress
display_obj.tft.setTextColor(TFT_GREEN);
display_obj.tft.print("Update Success: ");
display_obj.tft.print(upload.totalSize);
display_obj.tft.print("\nRebooting...\n");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN);
display_obj.tft.print(text_table3[4]);
display_obj.tft.print(upload.totalSize);
display_obj.tft.print(text_table2[3]);
#endif
Serial.printf("Update Success: %u\nRebooting...\n", upload.totalSize);
delay(1000);
} else {
@@ -165,8 +159,10 @@ void Web::setupOTAupdate()
Serial.println("Starting server...");
server.begin();
display_obj.tft.setTextColor(TFT_GREEN);
display_obj.tft.println("\nCompleted update server setup");
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN);
display_obj.tft.println(text_table3[5]);
#endif
Serial.println("Completed update server setup");
Serial.println(wifi_scan_obj.freeRAM());
}

13
esp32_marauder/Web.h
View File

@@ -5,6 +5,8 @@
Code taken from espressif ESP32 OTA Update example
*/
#include "configs.h"
#include <WiFi.h>
#include <WiFiClient.h>
#include <WebServer.h>
@@ -12,10 +14,17 @@ Code taken from espressif ESP32 OTA Update example
#include <Update.h>
#include "Assets.h"
#include "Display.h"
#ifdef HAS_SCREEN
#include "Display.h"
#endif
#include "WiFiScan.h"
extern Display display_obj;
#ifdef HAS_SCREEN
extern Display display_obj;
#endif
extern WiFiScan wifi_scan_obj;
class Web

4828
esp32_marauder/WiFiScan.cpp
View File

File diff suppressed because it is too large Load Diff

207
esp32_marauder/WiFiScan.h
View File

@@ -1,54 +1,109 @@
#ifndef WiFiScan_h
#define WiFiScan_h
#include <BLEDevice.h>
#include <BLEUtils.h>
#include <BLEScan.h>
#include <BLEAdvertisedDevice.h>
#include "configs.h"
//#include <BLEDevice.h>
//#include <BLEUtils.h>
//#include <BLEScan.h>
//#include <BLEAdvertisedDevice.h>
#include <ArduinoJson.h>
// Testing NimBLE
#ifdef HAS_BT
#include <NimBLEDevice.h>
#endif
#include <WiFi.h>
#include <math.h>
#include "esp_wifi.h"
#include "esp_wifi_types.h"
#include "esp_bt.h"
#include "Display.h"
#ifdef HAS_BT
#include "esp_bt.h"
#endif
#ifdef HAS_SCREEN
#include "Display.h"
#endif
#include "SDInterface.h"
#include "Buffer.h"
#include "BatteryInterface.h"
#include "TemperatureInterface.h"
#include "settings.h"
#include "Assets.h"
#include "flipperLED.h"
//#include "MenuFunctions.h"
#define bad_list_length 3
#define OTA_UPDATE 100
#define SHOW_INFO 101
#define ESP_UPDATE 102
#define WIFI_SCAN_OFF 0
#define WIFI_SCAN_PROBE 1
#define WIFI_SCAN_AP 2
#define WIFI_SCAN_EAPOL 3
#define WIFI_SCAN_DEAUTH 4
#define WIFI_SCAN_ALL 5
#define WIFI_PACKET_MONITOR 6
#define WIFI_ATTACK_BEACON_SPAM 7
#define WIFI_ATTACK_RICK_ROLL 8
#define BT_SCAN_ALL 9
#define BT_SCAN_SKIMMERS 10
#define WIFI_SCAN_PWN 3
#define WIFI_SCAN_EAPOL 4
#define WIFI_SCAN_DEAUTH 5
#define WIFI_SCAN_ALL 6
#define WIFI_PACKET_MONITOR 7
#define WIFI_ATTACK_BEACON_SPAM 8
#define WIFI_ATTACK_RICK_ROLL 9
#define BT_SCAN_ALL 10
#define BT_SCAN_SKIMMERS 11
#define WIFI_SCAN_ESPRESSIF 12
#define LV_JOIN_WIFI 13
#define LV_ADD_SSID 14
#define WIFI_ATTACK_BEACON_LIST 15
#define WIFI_SCAN_TARGET_AP 16
#define LV_SELECT_AP 17
#define WIFI_ATTACK_AUTH 18
#define WIFI_ATTACK_MIMIC 19
#define WIFI_ATTACK_DEAUTH 20
#define WIFI_ATTACK_AP_SPAM 21
#define WIFI_SCAN_TARGET_AP_FULL 22
#define WIFI_SCAN_ACTIVE_EAPOL 23
#define GRAPH_REFRESH 100
#define MAX_CHANNEL 14
extern Display display_obj;
#ifdef HAS_SCREEN
extern Display display_obj;
#endif
extern SDInterface sd_obj;
extern Buffer buffer_obj;
extern BatteryInterface battery_obj;
extern TemperatureInterface temp_obj;
extern Settings settings_obj;
extern flipperLED flipper_led;
esp_err_t esp_wifi_80211_tx(wifi_interface_t ifx, const void *buffer, int len, bool en_sys_seq);
//int ieee80211_raw_frame_sanity_check(int32_t arg, int32_t arg2, int32_t arg3);
struct ssid {
String essid;
int bssid[6];
bool selected;
};
struct AccessPoint {
String essid;
int channel;
int bssid[6];
bool selected;
LinkedList<char>* beacon;
int rssi;
};
class WiFiScan
{
private:
// Settings
int channel_hop_delay = 1;
bool force_pmkid = false;
bool force_probe = false;
bool save_pcap = false;
int x_pos; //position along the graph x axis
float y_pos_x; //current graph y axis position of X value
float y_pos_x_old = 120; //old y axis position of X value
@@ -62,18 +117,23 @@ class WiFiScan
bool do_break = false;
bool wsl_bypass_enabled = false;
//int num_beacon = 0; // GREEN
//int num_probe = 0; // BLUE
//int num_deauth = 0; // RED
uint32_t initTime = 0;
bool run_setup = true;
int set_channel = 1;
void initWiFi(uint8_t scan_mode);
int bluetoothScanTime = 5;
int packets_sent = 0;
const wifi_promiscuous_filter_t filt = {.filter_mask=WIFI_PROMIS_FILTER_MASK_MGMT | WIFI_PROMIS_FILTER_MASK_DATA};
BLEScan* pBLEScan;
#ifdef HAS_BT
NimBLEScan* pBLEScan;
#endif
//String connected_network = "";
String alfa = "1234567890qwertyuiopasdfghjkklzxcvbnm QWERTYUIOPASDFGHJKLZXCVBNM_";
char* rick_roll[8] = {
@@ -101,8 +161,8 @@ class WiFiScan
} __attribute__((packed)) WifiMgmtHdr;
typedef struct {
WifiMgmtHdr hdr;
uint8_t payload[0];
WifiMgmtHdr hdr;
} wifi_ieee80211_packet_t;
// barebones packet
@@ -118,38 +178,133 @@ class WiFiScan
/*36*/ 0x00
};
/*uint8_t auth_packet[128] = {0xB0, 0x00, 0x3C, 0x00, // Frame Control, Duration
0x01, 0x02, 0x03, 0x04, 0x05, 0x06, // Dest
0x01, 0x02, 0x03, 0x04, 0x05, 0x06, // Source
0x01, 0x02, 0x03, 0x04, 0x05, 0x06, // Dest BSSID
0x00, 0x01, // Sequence number
0x00, 0x00, // Algo
0x01, 0x00, // Auth sequence number
0x00, 0x00, // Status Code
0x7F, 0x08,
0x00, 0x00, 0x08, 0x00, 0x00, 0x00, 0x00, 0x40,
0xDD, 0x0B, 0x00, 0x17, 0xF2, 0x0A, 0x00, 0x01, // Say it was Apple
0x04, 0x00, 0x00, 0x00, 0x00, 0xDD, 0x0A, 0x00,
0x10, 0x18, 0x02, 0x00, 0x00, 0x10, 0x00, 0x00,
0x00
};*/
uint8_t auth_packet[65] = {0xb0, 0x00, 0x3c, 0x00,
0x01, 0x02, 0x03, 0x04, 0x05, 0x06,
0x01, 0x02, 0x03, 0x04, 0x05, 0x06,
0x01, 0x02, 0x03, 0x04, 0x05, 0x06,
0x01, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00,
0x7f, 0x08, 0x00, 0x00, 0x08, 0x00, 0x00, 0x00,
0x00, 0x40, 0xdd, 0x0b, 0x00, 0x17, 0xf2, 0x0a,
0x00, 0x01, 0x04, 0x00, 0x00, 0x00, 0x00, 0xdd,
0x0a, 0x00, 0x10, 0x18, 0x02, 0x00, 0x00, 0x10,
0x00, 0x00, 0x00};
uint8_t prob_req_packet[128] = {0x40, 0x00, 0x00, 0x00,
0xff, 0xff, 0xff, 0xff, 0xff, 0xff, // Destination
0x01, 0x02, 0x03, 0x04, 0x05, 0x06, // Source
0xff, 0xff, 0xff, 0xff, 0xff, 0xff, // Dest
0x01, 0x00, // Sequence
0x00, // SSID Parameter
0x00, // SSID Length
/* SSID */
};
uint8_t deauth_frame_default[26] = {
0xc0, 0x00, 0x3a, 0x01,
0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0xf0, 0xff, 0x02, 0x00
};
void startWiFiAttacks(uint8_t scan_mode, uint16_t color, String title_string);
void packetMonitorMain(uint32_t currentTime);
void eapolMonitorMain(uint32_t currentTime);
void changeChannel();
void updateMidway();
void tftDrawXScalButtons();
void tftDrawYScaleButtons();
void tftDrawChannelScaleButtons();
void tftDrawColorKey();
void tftDrawGraphObjects();
void sendProbeAttack(uint32_t currentTime);
void sendDeauthAttack(uint32_t currentTime);
void sendDeauthFrame(uint8_t bssid[6], int channel);
void broadcastRandomSSID(uint32_t currentTime);
void broadcastCustomBeacon(uint32_t current_time, ssid custom_ssid);
void broadcastCustomBeacon(uint32_t current_time, AccessPoint custom_ssid);
void broadcastSetSSID(uint32_t current_time, char* ESSID);
void RunRickRoll(uint8_t scan_mode, uint16_t color);
void RunBeaconSpam(uint8_t scan_mode, uint16_t color);
void RunAPScan(uint8_t scan_mode, uint16_t color);
//void RunRickRoll(uint8_t scan_mode, uint16_t color);
//void RunBeaconSpam(uint8_t scan_mode, uint16_t color);
//void RunProbeFlood(uint8_t scan_mode, uint16_t color);
//void RunDeauthFlood(uint8_t scan_mode, uint16_t color);
void RunMimicFlood(uint8_t scan_mode, uint16_t color);
//void RunBeaconList(uint8_t scan_mode, uint16_t color);
void RunEspressifScan(uint8_t scan_mode, uint16_t color);
void RunPwnScan(uint8_t scan_mode, uint16_t color);
void RunBeaconScan(uint8_t scan_mode, uint16_t color);
void RunDeauthScan(uint8_t scan_mode, uint16_t color);
void RunEapolScan(uint8_t scan_mode, uint16_t color);
void RunProbeScan(uint8_t scan_mode, uint16_t color);
void RunPacketMonitor(uint8_t scan_mode, uint16_t color);
void RunBluetoothScan(uint8_t scan_mode, uint16_t color);
static void scanCompleteCB(BLEScanResults scanResults);
void RunLvJoinWiFi(uint8_t scan_mode, uint16_t color);
#ifdef HAS_BT
static void scanCompleteCB(BLEScanResults scanResults);
#endif
//int ieee80211_raw_frame_sanity_check(int32_t arg, int32_t arg2, int32_t arg3);
public:
WiFiScan();
//AccessPoint ap_list;
//LinkedList<ssid>* ssids;
int set_channel = 1;
int old_channel = 0;
bool orient_display = false;
bool wifi_initialized = false;
bool ble_initialized = false;
wifi_init_config_t cfg = WIFI_INIT_CONFIG_DEFAULT();
String free_ram = "";
String old_free_ram = "";
String connected_network = "";
//lv_obj_t * scr = lv_cont_create(NULL, NULL);
wifi_init_config_t cfg = WIFI_INIT_CONFIG_DEFAULT();
char* stringToChar(String string);
void RunSetup();
int clearSSIDs();
int clearAPs();
bool addSSID(String essid);
int generateSSIDs(int count = 20);
bool shutdownWiFi();
bool shutdownBLE();
bool scanning();
void joinWiFi(String ssid, String password);
String getStaMAC();
String getApMAC();
String freeRAM();
void changeChannel();
void changeChannel(int chan);
void RunInfo();
void RunShutdownWiFi();
void RunShutdownBLE();
void RunGenerateSSIDs(int count = 20);
void RunClearSSIDs();
void RunClearAPs();
void channelHop();
uint8_t currentScanMode = 0;
void main(uint32_t currentTime);
@@ -157,9 +312,15 @@ class WiFiScan
void StopScan(uint8_t scan_mode);
static void getMAC(char *addr, uint8_t* data, uint16_t offset);
static void espressifSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type);
static void pwnSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type);
static void beaconSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type);
static void apSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type);
static void apSnifferCallbackFull(void* buf, wifi_promiscuous_pkt_type_t type);
static void deauthSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type);
static void probeSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type);
static void beaconListSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type);
static void activeEapolSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type);
static void eapolSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type);
static void wifiSnifferCallback(void* buf, wifi_promiscuous_pkt_type_t type);
};

69
esp32_marauder/a32u4_interface.cpp Normal file
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#include "a32u4_interface.h"
HardwareSerial MySerial_two(2);
void A32u4Interface::begin() {
MySerial_two.begin(BAUD32U4, SERIAL_8N1, 25, 4);
delay(2000);
Serial.println("Setup A32U4 Serial Interface");
MySerial_two.println("DELAY 1");
delay(1000);
uint8_t a32u4_rep = 0;
if (MySerial_two.available()) {
a32u4_rep = (uint8_t)MySerial_two.read();
}
//display_string.trim();
//Serial.println("\nDisplay string: " + (String)display_string);
if (a32u4_rep != 0) {
this->supported = true;
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_GREEN, TFT_BLACK);
display_obj.tft.println("ATmega32U4 Found!");
display_obj.tft.setTextColor(TFT_CYAN, TFT_BLACK);
#endif
}
else {
#ifdef HAS_SCREEN
display_obj.tft.setTextColor(TFT_RED, TFT_BLACK);
display_obj.tft.println("ATmega32U4 Not Found");
display_obj.tft.setTextColor(TFT_CYAN, TFT_BLACK);
#endif
Serial.print("A32U4 Said: ");
Serial.println(a32u4_rep);
}
this->initTime = millis();
}
void A32u4Interface::runScript(String script) {
MySerial_two.println(script);
}
void A32u4Interface::test() {
MySerial_two.println("STRING Hello, World!");
}
void A32u4Interface::main(uint32_t current_time) {
if (current_time - this->initTime >= 1000) {
this->initTime = millis();
//MySerial_two.write("PING");
//delay(1);
if (MySerial_two.available()) {
Serial.println("Got A32U4 Serial data");
Serial.println(MySerial_two.read());
}
}
}

30
esp32_marauder/a32u4_interface.h Normal file
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#ifndef a32u4_interface_h
#define a32u4_interface_h
#include "configs.h"
#ifdef HAS_SCREEN
#include "Display.h"
#endif
#include <HardwareSerial.h>
#define BAUD32U4 115200
#ifdef HAS_SCREEN
extern Display display_obj;
#endif
class A32u4Interface {
public:
bool supported = false;
uint32_t initTime;
void begin();
void main(uint32_t current_time);
void test();
void runScript(String script);
};
#endif

405
esp32_marauder/configs.h Normal file
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#ifndef configs_h
#define configs_h
#define POLISH_POTATO
//#define MARAUDER_MINI
//#define MARAUDER_V4
//#define MARAUDER_V6
//#define MARAUDER_KIT
//#define GENERIC_ESP32
#define MARAUDER_FLIPPER
#define MARAUDER_VERSION "v0.9.13"
//// BUTTON DEFINITIONS
#ifdef MARAUDER_MINI
#define L_BTN 13
#define C_BTN 34
#define U_BTN 36
#define R_BTN 39
#define D_BTN 35
#endif
#ifdef MARAUDER_V4
#endif
//// END BUTTON DEFINITIONS
//// DISPLAY DEFINITIONS
#ifdef MARAUDER_V4
#define BANNER_TEXT_SIZE 2
#ifndef TFT_WIDTH
#define TFT_WIDTH 240
#endif
#ifndef TFT_HEIGHT
#define TFT_HEIGHT 320
#endif
#define TFT_SHIELD
#define SCREEN_WIDTH TFT_WIDTH
#define SCREEN_HEIGHT TFT_HEIGHT
#define HEIGHT_1 TFT_WIDTH
#define WIDTH_1 TFT_HEIGHT
#define STANDARD_FONT_CHAR_LIMIT (TFT_WIDTH/6) // number of characters on a single line with normal font
#define TEXT_HEIGHT 16 // Height of text to be printed and scrolled
#define BOT_FIXED_AREA 0 // Number of lines in bottom fixed area (lines counted from bottom of screen)
#define TOP_FIXED_AREA 48 // Number of lines in top fixed area (lines counted from top of screen)
#define YMAX 320 // Bottom of screen area
#define minimum(a,b) (((a) < (b)) ? (a) : (b))
//#define MENU_FONT NULL
#define MENU_FONT &FreeMono9pt7b // Winner
//#define MENU_FONT &FreeMonoBold9pt7b
//#define MENU_FONT &FreeSans9pt7b
//#define MENU_FONT &FreeSansBold9pt7b
#define BUTTON_ARRAY_LEN 9
#define STATUS_BAR_WIDTH 16
#define LVGL_TICK_PERIOD 6
#define FRAME_X 100
#define FRAME_Y 64
#define FRAME_W 120
#define FRAME_H 50
// Red zone size
#define REDBUTTON_X FRAME_X
#define REDBUTTON_Y FRAME_Y
#define REDBUTTON_W (FRAME_W/2)
#define REDBUTTON_H FRAME_H
// Green zone size
#define GREENBUTTON_X (REDBUTTON_X + REDBUTTON_W)
#define GREENBUTTON_Y FRAME_Y
#define GREENBUTTON_W (FRAME_W/2)
#define GREENBUTTON_H FRAME_H
#define STATUSBAR_COLOR 0x4A49
#define KIT_LED_BUILTIN 13
#endif
#ifdef MARAUDER_V6
#define BANNER_TEXT_SIZE 2
#ifndef TFT_WIDTH
#define TFT_WIDTH 240
#endif
#ifndef TFT_HEIGHT
#define TFT_HEIGHT 320
#endif
#define TFT_DIY
#define SCREEN_WIDTH TFT_WIDTH
#define SCREEN_HEIGHT TFT_HEIGHT
#define HEIGHT_1 TFT_WIDTH
#define WIDTH_1 TFT_HEIGHT
#define STANDARD_FONT_CHAR_LIMIT (TFT_WIDTH/6) // number of characters on a single line with normal font
#define TEXT_HEIGHT 16 // Height of text to be printed and scrolled
#define BOT_FIXED_AREA 0 // Number of lines in bottom fixed area (lines counted from bottom of screen)
#define TOP_FIXED_AREA 48 // Number of lines in top fixed area (lines counted from top of screen)
#define YMAX 320 // Bottom of screen area
#define minimum(a,b) (((a) < (b)) ? (a) : (b))
//#define MENU_FONT NULL
#define MENU_FONT &FreeMono9pt7b // Winner
//#define MENU_FONT &FreeMonoBold9pt7b
//#define MENU_FONT &FreeSans9pt7b
//#define MENU_FONT &FreeSansBold9pt7b
#define BUTTON_ARRAY_LEN 9
#define STATUS_BAR_WIDTH 16
#define LVGL_TICK_PERIOD 6
#define FRAME_X 100
#define FRAME_Y 64
#define FRAME_W 120
#define FRAME_H 50
// Red zone size
#define REDBUTTON_X FRAME_X
#define REDBUTTON_Y FRAME_Y
#define REDBUTTON_W (FRAME_W/2)
#define REDBUTTON_H FRAME_H
// Green zone size
#define GREENBUTTON_X (REDBUTTON_X + REDBUTTON_W)
#define GREENBUTTON_Y FRAME_Y
#define GREENBUTTON_W (FRAME_W/2)
#define GREENBUTTON_H FRAME_H
#define STATUSBAR_COLOR 0x4A49
#define KIT_LED_BUILTIN 13
#endif
#ifdef MARAUDER_KIT
#define BANNER_TEXT_SIZE 2
#ifndef TFT_WIDTH
#define TFT_WIDTH 240
#endif
#ifndef TFT_HEIGHT
#define TFT_HEIGHT 320
#endif
#define TFT_DIY
#define KIT
#define SCREEN_WIDTH TFT_WIDTH
#define SCREEN_HEIGHT TFT_HEIGHT
#define HEIGHT_1 TFT_WIDTH
#define WIDTH_1 TFT_HEIGHT
#define STANDARD_FONT_CHAR_LIMIT (TFT_WIDTH/6) // number of characters on a single line with normal font
#define TEXT_HEIGHT 16 // Height of text to be printed and scrolled
#define BOT_FIXED_AREA 0 // Number of lines in bottom fixed area (lines counted from bottom of screen)
#define TOP_FIXED_AREA 48 // Number of lines in top fixed area (lines counted from top of screen)
#define YMAX 320 // Bottom of screen area
#define minimum(a,b) (((a) < (b)) ? (a) : (b))
//#define MENU_FONT NULL
#define MENU_FONT &FreeMono9pt7b // Winner
//#define MENU_FONT &FreeMonoBold9pt7b
//#define MENU_FONT &FreeSans9pt7b
//#define MENU_FONT &FreeSansBold9pt7b
#define BUTTON_ARRAY_LEN 9
#define STATUS_BAR_WIDTH 16
#define LVGL_TICK_PERIOD 6
#define FRAME_X 100
#define FRAME_Y 64
#define FRAME_W 120
#define FRAME_H 50
// Red zone size
#define REDBUTTON_X FRAME_X
#define REDBUTTON_Y FRAME_Y
#define REDBUTTON_W (FRAME_W/2)
#define REDBUTTON_H FRAME_H
// Green zone size
#define GREENBUTTON_X (REDBUTTON_X + REDBUTTON_W)
#define GREENBUTTON_Y FRAME_Y
#define GREENBUTTON_W (FRAME_W/2)
#define GREENBUTTON_H FRAME_H
#define STATUSBAR_COLOR 0x4A49
#define KIT_LED_BUILTIN 13
#endif
#ifdef MARAUDER_MINI
#define TFT_MISO 19
#define TFT_MOSI 23
#define TFT_SCLK 18
#define TFT_CS 27
#define TFT_DC 26
#define TFT_RST 5
#define TFT_BL 32
#define TOUCH_CS 21
#define SD_CS 4
#define SCREEN_BUFFER
#define MAX_SCREEN_BUFFER 9
#define BANNER_TEXT_SIZE 1
#ifndef TFT_WIDTH
#define TFT_WIDTH 128
#endif
#ifndef TFT_HEIGHT
#define TFT_HEIGHT 128
#endif
#define CHAR_WIDTH 6
#define SCREEN_WIDTH TFT_WIDTH // Originally 240
#define SCREEN_HEIGHT TFT_HEIGHT // Originally 320
#define HEIGHT_1 TFT_WIDTH
#define WIDTH_1 TFT_WIDTH
#define STANDARD_FONT_CHAR_LIMIT (TFT_WIDTH/6) // number of characters on a single line with normal font
#define TEXT_HEIGHT (TFT_HEIGHT/10) // Height of text to be printed and scrolled
#define BOT_FIXED_AREA 0 // Number of lines in bottom fixed area (lines counted from bottom of screen)
#define TOP_FIXED_AREA 48 // Number of lines in top fixed area (lines counted from top of screen)
#define YMAX TFT_HEIGHT // Bottom of screen area
#define minimum(a,b) (((a) < (b)) ? (a) : (b))
//#define MENU_FONT NULL
#define MENU_FONT &FreeMono9pt7b // Winner
//#define MENU_FONT &FreeMonoBold9pt7b
//#define MENU_FONT &FreeSans9pt7b
//#define MENU_FONT &FreeSansBold9pt7b
#define BUTTON_ARRAY_LEN 9
#define STATUS_BAR_WIDTH (TFT_HEIGHT/16)
#define LVGL_TICK_PERIOD 6
#define FRAME_X 100
#define FRAME_Y 64
#define FRAME_W 120
#define FRAME_H 50
// Red zone size
#define REDBUTTON_X FRAME_X
#define REDBUTTON_Y FRAME_Y
#define REDBUTTON_W (FRAME_W/2)
#define REDBUTTON_H FRAME_H
// Green zone size
#define GREENBUTTON_X (REDBUTTON_X + REDBUTTON_W)
#define GREENBUTTON_Y FRAME_Y
#define GREENBUTTON_W (FRAME_W/2)
#define GREENBUTTON_H FRAME_H
#define STATUSBAR_COLOR 0x4A49
#endif
//// END DISPLAY DEFINITIONS
//// MENU DEFINITIONS
#ifdef MARAUDER_V4
#define BANNER_TIME 100
#define COMMAND_PREFIX "!"
// Keypad start position, key sizes and spacing
#define KEY_X 120 // Centre of key
#define KEY_Y 50
#define KEY_W 240 // Width and height
#define KEY_H 22
#define KEY_SPACING_X 0 // X and Y gap
#define KEY_SPACING_Y 1
#define KEY_TEXTSIZE 1 // Font size multiplier
#define ICON_W 22
#define ICON_H 22
#define BUTTON_PADDING 22
//#define BUTTON_ARRAY_LEN 5
#endif
#ifdef MARAUDER_V6
#define BANNER_TIME 100
#define COMMAND_PREFIX "!"
// Keypad start position, key sizes and spacing
#define KEY_X 120 // Centre of key
#define KEY_Y 50
#define KEY_W 240 // Width and height
#define KEY_H 22
#define KEY_SPACING_X 0 // X and Y gap
#define KEY_SPACING_Y 1
#define KEY_TEXTSIZE 1 // Font size multiplier
#define ICON_W 22
#define ICON_H 22
#define BUTTON_PADDING 22
//#define BUTTON_ARRAY_LEN 5
#endif
#ifdef MARAUDER_KIT
#define BANNER_TIME 100
#define COMMAND_PREFIX "!"
// Keypad start position, key sizes and spacing
#define KEY_X 120 // Centre of key
#define KEY_Y 50
#define KEY_W 240 // Width and height
#define KEY_H 22
#define KEY_SPACING_X 0 // X and Y gap
#define KEY_SPACING_Y 1
#define KEY_TEXTSIZE 1 // Font size multiplier
#define ICON_W 22
#define ICON_H 22
#define BUTTON_PADDING 22
//#define BUTTON_ARRAY_LEN 5
#endif
#ifdef MARAUDER_MINI
#define BANNER_TIME 50
#define COMMAND_PREFIX "!"
// Keypad start position, key sizes and spacing
#define KEY_X (TFT_WIDTH/2) // Centre of key
#define KEY_Y (TFT_HEIGHT/4.5)
#define KEY_W TFT_WIDTH // Width and height
#define KEY_H (TFT_HEIGHT/12.8)
#define KEY_SPACING_X 0 // X and Y gap
#define KEY_SPACING_Y 1
#define KEY_TEXTSIZE 1 // Font size multiplier
#define ICON_W 22
#define ICON_H 22
#define BUTTON_PADDING 10
#endif
//// END MENU DEFINITIONS
//// SD DEFINITIONS
#ifdef MARAUDER_V4
#define SD_CS 12
#endif
#ifdef MARAUDER_V6
#define SD_CS 12
#endif
#ifdef MARAUDER_KIT
#define SD_CS 12
#endif
#ifdef MARAUDER_MINI
#define SD_CS 4
#endif
#ifdef MARAUDER_FLIPPER
#define SD_CS 10
#endif
//// END SD DEFINITIONS
//// SCREEN STUFF
#ifdef MARAUDER_MINI
#define HAS_SCREEN
#define HAS_BT
#endif
#ifdef MARAUDER_V4
#define HAS_SCREEN
#define HAS_BT
#endif
#ifdef MARAUDER_V6
#define HAS_SCREEN
#define HAS_BT
#endif
#ifdef MARAUDER_KIT
#define HAS_SCREEN
#define HAS_BT
#endif
#ifdef GENERIC_ESP32
#define HAS_BT
#endif
#ifndef HAS_SCREEN
#define TFT_CYAN 0
#define TFT_BLUE 0
#define TFT_RED 0
#define TFT_GREEN 0
#define TFT_GREY 0
#define TFT_GRAY 0
#define TFT_MAGENTA 0
#define TFT_VIOLET 0
#define TFT_ORANGE 0
#define TFT_YELLOW 0
#define STANDARD_FONT_CHAR_LIMIT 40
#define FLASH_BUTTON -1
#include <FS.h>
#include <functional>
#include <LinkedList.h>
#include "SPIFFS.h"
#include "Assets.h"
#endif
//// END SCREEN STUFF
#endif

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