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base: mawei/dragonpilot:0.6.4-en
Branches Tags
mawei/dragonpilot:pre-build mawei/dragonpilot:testing mawei/dragonpilot:0.11.0-pre-build mawei/dragonpilot:0.10.3 mawei/dragonpilot:0.10.3-pre-build mawei/dragonpilot:0.10.3-carnival mawei/dragonpilot:0.10.3-tesla mawei/dragonpilot:0.10.3-ody mawei/dragonpilot:0.10.2 mawei/dragonpilot:0.10.2-pre-build mawei/dragonpilot:0.10.1 mawei/dragonpilot:0.10.1-pre-build mawei/dragonpilot:0.10.0-pre-build mawei/dragonpilot:0.10.0 mawei/dragonpilot:0.9.9 mawei/dragonpilot:0.9.9-pre-build mawei/dragonpilot:0.9.8 mawei/dragonpilot:0.9.8-pre-build mawei/dragonpilot:deprecated-beta3 mawei/dragonpilot:d2 mawei/dragonpilot:deprecated-d2-honda mawei/dragonpilot:d3 mawei/dragonpilot:r2 mawei/dragonpilot:deprecated-release3 mawei/dragonpilot:deprecated-beta2 mawei/dragonpilot:deprecated-release2_e2e mawei/dragonpilot:deprecated-release2 mawei/dragonpilot:0.8.13 mawei/dragonpilot:0.8.12 mawei/dragonpilot:0.8.10 mawei/dragonpilot:0.8.9 mawei/dragonpilot:0.8.7 mawei/dragonpilot:0.8.8 mawei/dragonpilot:0.8.6 mawei/dragonpilot:0.8.5 mawei/dragonpilot:0.8.4 mawei/dragonpilot:0.8.1 mawei/dragonpilot:0.7.10 mawei/dragonpilot:0.8.0 mawei/dragonpilot:0.7.4-i18n mawei/dragonpilot:0.7.5-i18n mawei/dragonpilot:0.7.6-i18n mawei/dragonpilot:0.7.8-i18n mawei/dragonpilot:0.7.7-i18n mawei/dragonpilot:0.7.0-en mawei/dragonpilot:0.6.6-en mawei/dragonpilot:0.7.3-en mawei/dragonpilot:0.7.2-en mawei/dragonpilot:0.7.1-en mawei/dragonpilot:0.6.5-en mawei/dragonpilot:0.6.3-en mawei/dragonpilot:0.6.4-en mawei/dragonpilot:0.6.2-en mawei/dragonpilot:0.6.1-en
mawei/dragonpilot:r3-v2022.08.14 mawei/dragonpilot:r3-v2022.07.29 mawei/dragonpilot:r2-v2022.07.29 mawei/dragonpilot:v0.7.6-i18n mawei/dragonpilot:v0.7.5-i18n mawei/dragonpilot:v0.7.4-i18n mawei/dragonpilot:v0.7.4-zht mawei/dragonpilot:v0.7.4-zhs mawei/dragonpilot:v0.7.3-zht mawei/dragonpilot:v0.7.3-zhs mawei/dragonpilot:v0.7.2-zht mawei/dragonpilot:v0.7.2-zhs mawei/dragonpilot:v0.7.1-zht mawei/dragonpilot:v0.7.1-zhs mawei/dragonpilot:v0.7.0-zht mawei/dragonpilot:v0.7.0-zhs mawei/dragonpilot:v0.6.6-zht mawei/dragonpilot:v0.6.6-zhs mawei/dragonpilot:v0.6.5-zht mawei/dragonpilot:v0.6.5-zhs mawei/dragonpilot:v0.6.3-zht mawei/dragonpilot:v0.6.3-zhs mawei/dragonpilot:v0.6.4-zht mawei/dragonpilot:v0.6.4-zhs mawei/dragonpilot:v0.6.2-zht mawei/dragonpilot:v0.6.2-zhs mawei/dragonpilot:v0.5.13 mawei/dragonpilot:v0.5.12 mawei/dragonpilot:v0.5.11 mawei/dragonpilot:v0.5.10 mawei/dragonpilot:v0.5.9 mawei/dragonpilot:v0.5.8 mawei/dragonpilot:v0.5.7 mawei/dragonpilot:v0.5.6 mawei/dragonpilot:v0.5.5 mawei/dragonpilot:v0.5.4 mawei/dragonpilot:v0.5.3 mawei/dragonpilot:v0.5.1 mawei/dragonpilot:v0.5.2 mawei/dragonpilot:v0.5 mawei/dragonpilot:v0.4.7 mawei/dragonpilot:v0.4.6 mawei/dragonpilot:v0.4.5 mawei/dragonpilot:v0.4.4 mawei/dragonpilot:v0.4.2 mawei/dragonpilot:v0.4.1 mawei/dragonpilot:v0.4.0.2 mawei/dragonpilot:v0.3.5 mawei/dragonpilot:v0.3.4 mawei/dragonpilot:v0.3.3 mawei/dragonpilot:v0.3.2 mawei/dragonpilot:v0.3.1 mawei/dragonpilot:v0.3.0 mawei/dragonpilot:v0.2.9 mawei/dragonpilot:v0.2.8 mawei/dragonpilot:v0.2.7 mawei/dragonpilot:v0.2.6 mawei/dragonpilot:v0.2.5 mawei/dragonpilot:v0.2.4 mawei/dragonpilot:v0.2.3 mawei/dragonpilot:v0.2.2 mawei/dragonpilot:v0.2.1 mawei/dragonpilot:v0.2 mawei/dragonpilot:v0.1
..
compare: mawei/dragonpilot:0.10.2-pre-build
Branches Tags
mawei/dragonpilot:testing mawei/dragonpilot:0.11.0-pre-build mawei/dragonpilot:0.10.3 mawei/dragonpilot:0.10.3-pre-build mawei/dragonpilot:pre-build mawei/dragonpilot:0.10.3-carnival mawei/dragonpilot:0.10.3-tesla mawei/dragonpilot:0.10.3-ody mawei/dragonpilot:0.10.2 mawei/dragonpilot:0.10.2-pre-build mawei/dragonpilot:0.10.1 mawei/dragonpilot:0.10.1-pre-build mawei/dragonpilot:0.10.0-pre-build mawei/dragonpilot:0.10.0 mawei/dragonpilot:0.9.9 mawei/dragonpilot:0.9.9-pre-build mawei/dragonpilot:0.9.8 mawei/dragonpilot:0.9.8-pre-build mawei/dragonpilot:deprecated-beta3 mawei/dragonpilot:d2 mawei/dragonpilot:deprecated-d2-honda mawei/dragonpilot:d3 mawei/dragonpilot:r2 mawei/dragonpilot:deprecated-release3 mawei/dragonpilot:deprecated-beta2 mawei/dragonpilot:deprecated-release2_e2e mawei/dragonpilot:deprecated-release2 mawei/dragonpilot:0.8.13 mawei/dragonpilot:0.8.12 mawei/dragonpilot:0.8.10 mawei/dragonpilot:0.8.9 mawei/dragonpilot:0.8.7 mawei/dragonpilot:0.8.8 mawei/dragonpilot:0.8.6 mawei/dragonpilot:0.8.5 mawei/dragonpilot:0.8.4 mawei/dragonpilot:0.8.1 mawei/dragonpilot:0.7.10 mawei/dragonpilot:0.8.0 mawei/dragonpilot:0.7.4-i18n mawei/dragonpilot:0.7.5-i18n mawei/dragonpilot:0.7.6-i18n mawei/dragonpilot:0.7.8-i18n mawei/dragonpilot:0.7.7-i18n mawei/dragonpilot:0.7.0-en mawei/dragonpilot:0.6.6-en mawei/dragonpilot:0.7.3-en mawei/dragonpilot:0.7.2-en mawei/dragonpilot:0.7.1-en mawei/dragonpilot:0.6.5-en mawei/dragonpilot:0.6.3-en mawei/dragonpilot:0.6.4-en mawei/dragonpilot:0.6.2-en mawei/dragonpilot:0.6.1-en
mawei/dragonpilot:r3-v2022.08.14 mawei/dragonpilot:r3-v2022.07.29 mawei/dragonpilot:r2-v2022.07.29 mawei/dragonpilot:v0.7.6-i18n mawei/dragonpilot:v0.7.5-i18n mawei/dragonpilot:v0.7.4-i18n mawei/dragonpilot:v0.7.4-zht mawei/dragonpilot:v0.7.4-zhs mawei/dragonpilot:v0.7.3-zht mawei/dragonpilot:v0.7.3-zhs mawei/dragonpilot:v0.7.2-zht mawei/dragonpilot:v0.7.2-zhs mawei/dragonpilot:v0.7.1-zht mawei/dragonpilot:v0.7.1-zhs mawei/dragonpilot:v0.7.0-zht mawei/dragonpilot:v0.7.0-zhs mawei/dragonpilot:v0.6.6-zht mawei/dragonpilot:v0.6.6-zhs mawei/dragonpilot:v0.6.5-zht mawei/dragonpilot:v0.6.5-zhs mawei/dragonpilot:v0.6.3-zht mawei/dragonpilot:v0.6.3-zhs mawei/dragonpilot:v0.6.4-zht mawei/dragonpilot:v0.6.4-zhs mawei/dragonpilot:v0.6.2-zht mawei/dragonpilot:v0.6.2-zhs mawei/dragonpilot:v0.5.13 mawei/dragonpilot:v0.5.12 mawei/dragonpilot:v0.5.11 mawei/dragonpilot:v0.5.10 mawei/dragonpilot:v0.5.9 mawei/dragonpilot:v0.5.8 mawei/dragonpilot:v0.5.7 mawei/dragonpilot:v0.5.6 mawei/dragonpilot:v0.5.5 mawei/dragonpilot:v0.5.4 mawei/dragonpilot:v0.5.3 mawei/dragonpilot:v0.5.1 mawei/dragonpilot:v0.5.2 mawei/dragonpilot:v0.5 mawei/dragonpilot:v0.4.7 mawei/dragonpilot:v0.4.6 mawei/dragonpilot:v0.4.5 mawei/dragonpilot:v0.4.4 mawei/dragonpilot:v0.4.2 mawei/dragonpilot:v0.4.1 mawei/dragonpilot:v0.4.0.2 mawei/dragonpilot:v0.3.5 mawei/dragonpilot:v0.3.4 mawei/dragonpilot:v0.3.3 mawei/dragonpilot:v0.3.2 mawei/dragonpilot:v0.3.1 mawei/dragonpilot:v0.3.0 mawei/dragonpilot:v0.2.9 mawei/dragonpilot:v0.2.8 mawei/dragonpilot:v0.2.7 mawei/dragonpilot:v0.2.6 mawei/dragonpilot:v0.2.5 mawei/dragonpilot:v0.2.4 mawei/dragonpilot:v0.2.3 mawei/dragonpilot:v0.2.2 mawei/dragonpilot:v0.2.1 mawei/dragonpilot:v0.2 mawei/dragonpilot:v0.1

12 Commits
0.6.4-en .. 0.10.2-pre-build

Author SHA1 Message Date
eFini 61475e98f6 Add error handling for Params import 
Handle ImportError for Params and set default value.
 2025-12-03 22:20:02 +08:00
Rick Lan 06bcd25b48 translation 2025-11-29 19:21:23 +08:00
Rick Lan 31c5d72ab4 pre-build 2025-11-29 19:21:23 +08:00
Rick Lan e554c5132b fix: c4 lite detection 2025-11-29 19:21:10 +08:00
Rick Lan db4aa22794 feat(ui): C4 UI Mode 2025-11-26 16:55:10 +08:00
Rick Lan f68789f76e feat(ui): Torque Bar for c3 2025-11-26 16:46:53 +08:00
Rick Lan 8fb0289ff6 Fix: dp panel scroller type 2025-11-26 16:46:53 +08:00
Rick Lan aa4eeafa84 Fix: syntax error 2025-11-26 16:46:53 +08:00
Rick Lan 6ba90e3185 feat: Squash all pre-brand features into pre 2025-11-26 11:19:59 +08:00
Rick Lan c56902a616 feat: Squash all min-features into full 2025-11-26 11:10:07 +08:00
Rick Lan 1ebc3523c6 feat: Squash all core features into min 2025-11-26 10:25:16 +08:00
Vehicle Researcher 161005a0c1 openpilot v0.10.2 release 
date: 2025-11-19T19:10:11
master commit: a29fdbd02407d41ecbcc69d151bb4837bfba3cbc
 2025-11-19 19:10:16 -08:00
5143 changed files with 1027477 additions and 311711 deletions
Expand all files Collapse all files
.dockerignore
+18
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@@ -0,0 +1,18 @@
**/.git
.DS_Store
*.dylib
*.DSYM
*.d
*.pyc
*.pyo
.*.swp
.*.swo
.*.un~
*.tmp
*.o
*.o-*
*.os
*.os-*
venv/
.venv/
.editorconfig
+11
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@@ -0,0 +1,11 @@
root = true
[*]
end_of_line = lf
insert_final_newline = true
trim_trailing_whitespace = true
[*.{py,pyx,pxd}]
charset = utf-8
indent_style = space
indent_size = 2
.github/ISSUE_TEMPLATE/bug_report.yml
+47
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@@ -0,0 +1,47 @@
name: Bug report
description: For issues with running openpilot on your comma device
labels: ["bug"]
body:
- type: markdown
attributes:
value: >
Before creating a **bug report**, please check the following:
* If the issue likely only affects your car model or make, go back and open a **car bug report** instead.
* If the issue is related to the driving or driver monitoring models, you should open a [discussion](https://github.com/commaai/openpilot/discussions/categories/model-feedback) instead.
* Ensure you're running the latest openpilot release.
* Ensure you're using officially supported hardware. Issues running on PCs have a different issue template.
* Ensure there isn't an existing issue for your bug. If there is, leave a comment on the existing issue.
* Ensure you're running stock openpilot. We cannot look into bug reports from forks.
If you're unsure whether you've hit a bug, check out the #installation-help channel in the [community Discord server](https://discord.comma.ai).
- type: textarea
attributes:
label: Describe the bug
description: Also include a description of how to reproduce the bug
validations:
required: true
- type: input
id: route
attributes:
label: Provide a route where the issue occurs
description: Ensure the route is fully uploaded at https://useradmin.comma.ai. We cannot look into issues without routes, or at least a Dongle ID.
placeholder: 77611a1fac303767|2020-05-11--16-37-07
validations:
required: true
- type: input
id: version
attributes:
label: openpilot version
description: If you're not on release, provide the commit hash
placeholder: 0.8.10
validations:
required: true
- type: textarea
attributes:
label: Additional info
.github/ISSUE_TEMPLATE/config.yml
+14
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@@ -0,0 +1,14 @@
blank_issues_enabled: false
contact_links:
- name: Car bug report
url: https://github.com/commaai/opendbc/issues/new
about: For issues with a particular car make or model
- name: Join the Discord
url: https://discord.comma.ai
about: The community Discord is for both openpilot development and experience discussion
- name: Report driving behavior feedback
url: https://discord.com/channels/469524606043160576/1254834193066623017
about: Feedback for the driving and driver monitoring models goes in the #driving-feedback in Discord
- name: Community Wiki
url: https://github.com/commaai/openpilot/wiki
about: Check out our community wiki
.github/ISSUE_TEMPLATE/enhancement.md
+8
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@@ -0,0 +1,8 @@
---
name: Enhancement
about: For openpilot enhancement suggestions
title: ''
labels: 'enhancement'
assignees: ''
---
.github/ISSUE_TEMPLATE/pc_bug_report.yml
+42
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@@ -0,0 +1,42 @@
name: PC bug report
description: For issues with running openpilot on PC
labels: ["PC"]
body:
- type: markdown
attributes:
value: >
Before creating a **bug report**, please check the following:
* Ensure you're running the latest openpilot release.
* Ensure there isn't an existing issue for your bug. If there is, leave a comment on the existing issue.
* Ensure you're running stock openpilot. We cannot look into bug reports from forks.
If you're unsure whether you've hit a bug, check out the #installation-help channel in the [community Discord server](https://discord.comma.ai).
- type: textarea
attributes:
label: Describe the bug
description: Also include a description of how to reproduce the bug
validations:
required: true
- type: input
id: os-version
attributes:
label: OS Version
placeholder: Ubuntu 24.04
validations:
required: true
- type: input
id: version
attributes:
label: openpilot version or commit
placeholder: bd36f2ec8d3559909678eff2690c10a520938367
validations:
required: false
- type: textarea
attributes:
label: Additional info
.github/labeler.yaml
+27
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@@ -0,0 +1,27 @@
CI / testing:
- changed-files:
- any-glob-to-all-files: "{.github/**,**/test_*,**/test/**,Jenkinsfile}"
car:
- changed-files:
- any-glob-to-all-files: '{selfdrive/car/**,opendbc_repo}'
simulation:
- changed-files:
- any-glob-to-all-files: 'tools/sim/**'
ui:
- changed-files:
- any-glob-to-all-files: '{selfdrive/assets/**,selfdrive/ui/**,system/ui/**}'
tools:
- changed-files:
- any-glob-to-all-files: 'tools/**'
multilanguage:
- changed-files:
- any-glob-to-all-files: 'selfdrive/ui/translations/**'
autonomy:
- changed-files:
- any-glob-to-all-files: "{selfdrive/modeld/models/**,selfdrive/test/process_replay/model_replay_ref_commit}"
.github/pull_request_template.md
+68
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@@ -0,0 +1,68 @@
<!-- Please copy and paste the relevant template -->
<!--- ***** Template: Fingerprint *****
**Car**
Which car (make, model, year) this fingerprint is for
**Route**
A route with the fingerprint
-->
<!--- ***** Template: Car Bugfix *****
**Description**
A description of the bug and the fix. Also link the issue if it exists.
**Verification**
Explain how you tested this bug fix.
**Route**
Route: [a route with the bug fix]
-->
<!--- ***** Template: Bugfix *****
**Description**
A description of the bug and the fix. Also link the issue if it exists.
**Verification**
Explain how you tested this bug fix.
-->
<!--- ***** Template: Car Port *****
**Checklist**
- [ ] added entry to CAR in selfdrive/car/*/values.py and ran `selfdrive/car/docs.py` to generate new docs
- [ ] test route added to [routes.py](https://github.com/commaai/openpilot/blob/master/selfdrive/car/tests/routes.py)
- [ ] route with openpilot:
- [ ] route with stock system:
- [ ] car harness used (if comma doesn't sell it, put N/A):
-->
<!--- ***** Template: Refactor *****
**Description**
A description of the refactor, including the goals it accomplishes.
**Verification**
Explain how you tested the refactor for regressions.
-->
.gitignore
+73 -17
View File
@@ -1,12 +1,23 @@
venv/
.venv/
.ci_cache
.env
.clang-format
.DS_Store
.tags
.ipynb_checkpoints
.idea
.overlay_init
.overlay_consistent
.sconsign.dblite
model2.png
a.out
.hypothesis
.cache/
/docs_site/
*.mp4
*.dylib
*.DSYM
*.d
*.pyc
@@ -14,31 +25,76 @@ a.out
.*.swp
.*.swo
.*.un~
*.tmp
*.o
*.o-*
*.os
*.os-*
*.so
*.a
*.clb
*.class
*.pyxbldc
*.vcd
*.mo
*_pyx.cpp
*.stats
config.json
clcache
compile_commands.json
compare_runtime*.html
board/obj/
selfdrive/boardd/boardd
selfdrive/logcatd/logcatd
selfdrive/mapd/default_speeds_by_region.json
selfdrive/proclogd/proclogd
selfdrive/ui/ui
selfdrive/test/tests/plant/out
selfdrive/visiond/visiond
selfdrive/loggerd/loggerd
selfdrive/sensord/gpsd
selfdrive/sensord/sensord
/src/
selfdrive/pandad/pandad
cereal/services.h
cereal/gen
cereal/messaging/bridge
selfdrive/ui/translations/tmp
selfdrive/car/tests/cars_dump
system/camerad/camerad
system/camerad/test/ae_gray_test
one
openpilot
notebooks
xx
.coverage*
coverage.xml
htmlcov
pandaextra
.mypy_cache/
flycheck_*
cppcheck_report.txt
comma*.sh
selfdrive/modeld/models/*.pkl
# openpilot log files
*.bz2
*.zst
build/
!**/.gitkeep
poetry.toml
Pipfile
### VisualStudioCode ###
.vscode/*
!.vscode/settings.json
!.vscode/tasks.json
!.vscode/launch.json
!.vscode/extensions.json
!.vscode/*.code-snippets
# Local History for Visual Studio Code
.history/
# Built Visual Studio Code Extensions
*.vsix
### VisualStudioCode Patch ###
# Ignore all local history of files
.history
.ionide
# rick - keep panda_tici standalone
panda_tici/
.travis.yml
-7
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@@ -1,7 +0,0 @@
sudo: required
services:
- docker
script:
- ./run_docker_tests.sh
.vscode/extensions.json
Vendored
+11
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@@ -0,0 +1,11 @@
{
"recommendations": [
"ms-python.python",
"ms-vscode.cpptools",
"elagil.pre-commit-helper",
"charliermarsh.ruff",
"JamiTech.simply-blame",
"k--kato.intellij-idea-keybindings",
"trinm1709.dracula-theme-from-intellij"
]
}
.vscode/launch.json
Vendored
+85
View File
@@ -0,0 +1,85 @@
{
"version": "0.2.0",
"inputs": [
{
"id": "python_process",
"type": "pickString",
"description": "Select the process to debug",
"options": [
"selfdrive/controls/controlsd.py",
"system/timed/timed.py",
"tools/sim/run_bridge.py"
]
},
{
"id": "cpp_process",
"type": "pickString",
"description": "Select the process to debug",
"options": [
"selfdrive/ui/ui"
]
},
{
"id": "args",
"description": "Arguments to pass to the process",
"type": "promptString"
},
{
"id": "replayArg",
"type": "promptString",
"description": "Enter route or segment to replay."
}
],
"configurations": [
{
"name": "Python: openpilot Process",
"type": "debugpy",
"request": "launch",
"program": "${input:python_process}",
"console": "integratedTerminal",
"justMyCode": true,
"args": "${input:args}"
},
{
"name": "C++: openpilot Process",
"type": "cppdbg",
"request": "launch",
"program": "${workspaceFolder}/${input:cpp_process}",
"cwd": "${workspaceFolder}"
},
{
"name": "Attach LLDB to Replay drive",
"type": "lldb",
"request": "attach",
"pid": "${command:pickMyProcess}",
"initCommands": [
"script import time; time.sleep(3)"
]
},
{
"name": "Replay drive",
"type": "debugpy",
"request": "launch",
"program": "${workspaceFolder}/opendbc/safety/tests/safety_replay/replay_drive.py",
"args": [
"${input:replayArg}"
],
"console": "integratedTerminal",
"justMyCode": false,
"env": {
"PYTHONPATH": "${workspaceFolder}"
},
"subProcess": true,
"stopOnEntry": false
}
],
"compounds": [
{
"name": "Replay drive + Safety LLDB",
"configurations": [
"Replay drive",
"Attach LLDB to Replay drive"
]
}
]
}
.vscode/settings.json
Vendored
+42
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@@ -0,0 +1,42 @@
{
"editor.tabSize": 2,
"editor.insertSpaces": true,
"editor.renderWhitespace": "trailing",
"files.trimTrailingWhitespace": true,
"terminal.integrated.defaultProfile.linux": "dragonpilot",
"terminal.integrated.profiles.linux": {
"dragonpilot": {
"path": "bash",
"args": ["-c", "distrobox enter dp"]
}
},
"search.exclude": {
"**/.git": true,
"**/.venv": true,
"**/__pycache__": true,
"msgq_repo/": true,
"opendbc/": true,
"rednose/": true,
"rednose_repo/": true,
"openpilot/": true,
"teleoprtc_repo/": true,
"tinygrad/": true,
"tinygrad_repo/": true
},
"files.exclude": {
"**/.git": true,
"**/.venv": true,
"**/__pycache__": true
},
"python.analysis.exclude": [
"**/.git",
"**/.venv",
"**/__pycache__",
// exclude directories that should be using the symlinked version
"common/**",
"selfdrive/**",
"system/**",
"third_party/**",
"tools/**",
]
}
BRANCHES.md
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```mermaid
flowchart TD
B000["devel-staging"] ---> CORE["core"]
CORE ---> CORE_001["core-feat/params"]
CORE_001 ---> CORE_002["core-feat/panel"]
CORE_002 ---> MIN["min"]
MIN ---> MIN_001["min-feat/dev/c3"]
MIN ---> MIN_002["min-feat/dev/o3"]
MIN ---> MIN_003["min-feat/lat/alka"]
MIN ---> MIN_004["min-feat/ui/display-mode"]
MIN ---> MIN_005["min-feat/dev/model-selector"]
MIN ---> MIN_006["min-feat/lat/lca"]
MIN ---> MIN_007["min-feat/dev/on-off-road"]
MIN ---> MIN_008["min-feat/ui/hide-hud"]
MIN ---> MIN_009["min-feat/lon/ext-radar"]
MIN ---> MIN_010["min-feat/lat/road-edge-detection"]
MIN ---> MIN_011["min-feat/ui/rainbow-path"]
MIN ---> MIN_012["min-feat/lon/acm"]
MIN ---> MIN_013["min-feat/lon/aem"]
MIN ---> MIN_014["min-feat/lon/dtsc"]
MIN ---> MIN_015["min-feat/dev/alert-mode"]
MIN ---> MIN_016["min-feat/dev/auto-shutdown"]
MIN ---> MIN_017["min-feat/ui/lead-stats"]
MIN ---> MIN_018["min-feat/ui/border-indicator"]
MIN ---> MIN_019["min-feat/dev/dashy"]
MIN ---> MIN_010["min-feat/dev/delay-loggerd"]
MIN ---> MIN_021["min-feat/dev/disable-connect"]
MIN ---> MIN_022["min-feat/dev/tether-on-boot"]
MIN_001 ---> FULL["full"]
MIN_002 ---> FULL
MIN_003 ---> FULL
MIN_004 ---> FULL
MIN_005 ---> FULL
MIN_006 ---> FULL
MIN_007 ---> FULL
MIN_008 ---> FULL
MIN_009 ---> FULL
MIN_010 ---> FULL
MIN_011 ---> FULL
MIN_012 ---> FULL
MIN_013 ---> FULL
MIN_014 ---> FULL
MIN_015 ---> FULL
MIN_016 ---> FULL
MIN_017 ---> FULL
MIN_018 ---> FULL
MIN_019 ---> FULL
MIN_020 ---> FULL
MIN_021 ---> FULL
MIN_022 ---> FULL
FULL ---> TOYOTA_001[brand/toyota/safety-common]
FULL ---> TOYOTA_002[brand/toyota/door-auto-lock-unlock]
FULL ---> TOYOTA_003[brand/toyota/tss1-sng]
FULL ---> TOYOTA_004[brand/toyota/radar-filter]
FULL ---> TOYOTA_005[brand/toyota/sdsu]
FULL ---> TOYOTA_006[brand/toyota/dsu-bypass]
FULL ---> TOYOTA_007[brand/toyota/zss]
FULL ---> TOYOTA_008[brand/toyota/stock-lon]
FULL ---> VAG_001[brand/vag/a0-sng]
FULL ---> VAG_002[brand/vag/pq-steering-patch]
FULL ---> VAG_003[brand/vag/pq-no-dashcam]
FULL ---> VAG_004[brand/vag/avoid-eps-lockout]
FULL ---> HKG_001[brand/hkg/smdps]
FULL ---> HONDA_001[brand/honda/eps-mod]
FULL ---> SUBARU_001[brand/subaru/torque-3071]
TOYOTA_001 ---> TOYOTA[pre-toyota]
TOYOTA_002 ---> TOYOTA
TOYOTA_003 ---> TOYOTA
TOYOTA_004 ---> TOYOTA
TOYOTA_005 ---> TOYOTA
TOYOTA_006 ---> TOYOTA
TOYOTA_007 ---> TOYOTA
TOYOTA_008 ---> TOYOTA
VAG_001 ---> VAG[pre-vag]
VAG_002 ---> VAG
VAG_003 ---> VAG
VAG_004 ---> VAG
HKG_001 ---> HKG[pre-hkg]
HONDA_001 ---> HONDA[pre-honda]
SUBARU_001 ---> SUBARU[pre-subaru]
TOYOTA ---> PRE[pre]
VAG ---> PRE
HKG ---> PRE
HONDA ---> PRE
SUBARU ---> PRE
PRE ---> PRE_PATCH[pre-patch]
PRE_PATCH ---> PREBUILD[pre-build]
PREBUILD ---> VERSION[x.x.x]
```
CHANGELOGS.md
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CONTRIBUTING.md
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# How to contribute
Our software is open source so you can solve your own problems without needing help from others. And if you solve a problem and are so kind, you can upstream it for the rest of the world to use.
Most open source development activity is coordinated through our [Discord](https://discord.comma.ai). A lot of documentation is available on our [medium](https://medium.com/@comma_ai/)
## Getting Started
* Join our [Discord](https://discord.comma.ai)
* Make sure you have a [GitHub account](https://github.com/signup/free)
* Fork [our repositories](https://github.com/commaai) on GitHub
## Testing
### Local Testing
You can test your changes on your machine by running `run_docker_tests.sh`. This will run some automated tests in docker against your code.
### Automated Testing
All PRs are automatically checked by travis. Check out `.travis.yml` for what travis runs. Any new tests sould be added to travis.
### Code Style and Linting
Code is automatically check for style by travis as part of the automated tests. You can also run these yourself by running `check_code_quality.sh`.
## Car Ports (openpilot)
We've released a [Model Port guide](https://medium.com/@comma_ai/openpilot-port-guide-for-toyota-models-e5467f4b5fe6) for porting to Toyota/Lexus models.
If you port openpilot to a substantially new car brand, see this more generic [Brand Port guide](https://medium.com/@comma_ai/how-to-write-a-car-port-for-openpilot-7ce0785eda84). You might also be eligible for a bounty. See our bounties at [comma.ai/bounties.html](https://comma.ai/bounties.html)
Dockerfile.openpilot
+9 -52
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FROM ubuntu:16.04
ENV PYTHONUNBUFFERED 1
FROM ghcr.io/commaai/openpilot-base:latest
RUN apt-get update && apt-get install -y \
autoconf \
build-essential \
bzip2 \
clang \
git \
libarchive-dev \
libavcodec-dev \
libavdevice-dev \
libavfilter-dev \
libavresample-dev \
libavutil-dev \
libffi-dev \
libglib2.0-0 \
libssl-dev \
libswscale-dev \
libtool \
libusb-1.0-0 \
libzmq5-dev \
ocl-icd-libopencl1 \
ocl-icd-opencl-dev \
opencl-headers \
pkg-config \
python-pip \
wget
ENV PYTHONUNBUFFERED=1
COPY phonelibs/install_capnp.sh /tmp/install_capnp.sh
RUN /tmp/install_capnp.sh
ENV OPENPILOT_PATH=/home/batman/openpilot
RUN pip install --upgrade pip==18.0
RUN pip install pipenv==2018.11.26
RUN mkdir -p ${OPENPILOT_PATH}
WORKDIR ${OPENPILOT_PATH}
COPY Pipfile /tmp/
COPY Pipfile.lock /tmp/
RUN cd /tmp && pipenv install --deploy --system
COPY . ${OPENPILOT_PATH}/
ENV PYTHONPATH /tmp/openpilot:$PYTHONPATH
RUN git clone --branch v0.6.2 https://github.com/commaai/openpilot-tools.git /tmp/openpilot/tools
RUN pip install -r /tmp/openpilot/tools/requirements.txt
RUN pip install fastcluster==1.1.20 scipy==0.19.1 dictdiffer==0.8.0 azure-batch==4.1.3 azure-common==1.1.16 azure-nspkg==3.0.0 azure-storage-blob==1.3.1 azure-storage-common==1.3.0 azure-storage-nspkg==3.0.0
COPY ./.pylintrc /tmp/openpilot/.pylintrc
COPY ./common /tmp/openpilot/common
COPY ./cereal /tmp/openpilot/cereal
COPY ./opendbc /tmp/openpilot/opendbc
COPY ./selfdrive /tmp/openpilot/selfdrive
COPY ./phonelibs /tmp/openpilot/phonelibs
COPY ./pyextra /tmp/openpilot/pyextra
COPY ./panda /tmp/openpilot/panda
RUN mkdir -p /tmp/openpilot/selfdrive/test/out
RUN make -C /tmp/openpilot/selfdrive/controls/lib/longitudinal_mpc clean
RUN make -C /tmp/openpilot/selfdrive/controls/lib/lateral_mpc clean
ENV UV_BIN="/home/batman/.local/bin/"
ENV PATH="$UV_BIN:$PATH"
RUN UV_PROJECT_ENVIRONMENT=$VIRTUAL_ENV uv run scons --cache-readonly -j$(nproc)
Dockerfile.openpilot_base
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FROM ubuntu:24.04
ENV PYTHONUNBUFFERED=1
ENV DEBIAN_FRONTEND=noninteractive
RUN apt-get update && \
apt-get install -y --no-install-recommends sudo tzdata locales ssh pulseaudio xvfb x11-xserver-utils gnome-screenshot python3-tk python3-dev && \
rm -rf /var/lib/apt/lists/*
RUN sed -i -e 's/# en_US.UTF-8 UTF-8/en_US.UTF-8 UTF-8/' /etc/locale.gen && locale-gen
ENV LANG=en_US.UTF-8
ENV LANGUAGE=en_US:en
ENV LC_ALL=en_US.UTF-8
COPY tools/install_ubuntu_dependencies.sh /tmp/tools/
RUN /tmp/tools/install_ubuntu_dependencies.sh && \
rm -rf /var/lib/apt/lists/* /tmp/* && \
cd /usr/lib/gcc/arm-none-eabi/* && \
rm -rf arm/ thumb/nofp thumb/v6* thumb/v8* thumb/v7+fp thumb/v7-r+fp.sp
# Add OpenCL
RUN apt-get update && apt-get install -y --no-install-recommends \
apt-utils \
alien \
unzip \
tar \
curl \
xz-utils \
dbus \
gcc-arm-none-eabi \
tmux \
vim \
libx11-6 \
wget \
&& rm -rf /var/lib/apt/lists/*
RUN mkdir -p /tmp/opencl-driver-intel && \
cd /tmp/opencl-driver-intel && \
wget https://github.com/intel/llvm/releases/download/2024-WW14/oclcpuexp-2024.17.3.0.09_rel.tar.gz && \
wget https://github.com/oneapi-src/oneTBB/releases/download/v2021.12.0/oneapi-tbb-2021.12.0-lin.tgz && \
mkdir -p /opt/intel/oclcpuexp_2024.17.3.0.09_rel && \
cd /opt/intel/oclcpuexp_2024.17.3.0.09_rel && \
tar -zxvf /tmp/opencl-driver-intel/oclcpuexp-2024.17.3.0.09_rel.tar.gz && \
mkdir -p /etc/OpenCL/vendors && \
echo /opt/intel/oclcpuexp_2024.17.3.0.09_rel/x64/libintelocl.so > /etc/OpenCL/vendors/intel_expcpu.icd && \
cd /opt/intel && \
tar -zxvf /tmp/opencl-driver-intel/oneapi-tbb-2021.12.0-lin.tgz && \
ln -s /opt/intel/oneapi-tbb-2021.12.0/lib/intel64/gcc4.8/libtbb.so /opt/intel/oclcpuexp_2024.17.3.0.09_rel/x64 && \
ln -s /opt/intel/oneapi-tbb-2021.12.0/lib/intel64/gcc4.8/libtbbmalloc.so /opt/intel/oclcpuexp_2024.17.3.0.09_rel/x64 && \
ln -s /opt/intel/oneapi-tbb-2021.12.0/lib/intel64/gcc4.8/libtbb.so.12 /opt/intel/oclcpuexp_2024.17.3.0.09_rel/x64 && \
ln -s /opt/intel/oneapi-tbb-2021.12.0/lib/intel64/gcc4.8/libtbbmalloc.so.2 /opt/intel/oclcpuexp_2024.17.3.0.09_rel/x64 && \
mkdir -p /etc/ld.so.conf.d && \
echo /opt/intel/oclcpuexp_2024.17.3.0.09_rel/x64 > /etc/ld.so.conf.d/libintelopenclexp.conf && \
ldconfig -f /etc/ld.so.conf.d/libintelopenclexp.conf && \
cd / && \
rm -rf /tmp/opencl-driver-intel
ENV NVIDIA_VISIBLE_DEVICES=all
ENV NVIDIA_DRIVER_CAPABILITIES=graphics,utility,compute
ENV QTWEBENGINE_DISABLE_SANDBOX=1
RUN dbus-uuidgen > /etc/machine-id
ARG USER=batman
ARG USER_UID=1001
RUN useradd -m -s /bin/bash -u $USER_UID $USER
RUN usermod -aG sudo $USER
RUN echo '%sudo ALL=(ALL) NOPASSWD:ALL' >> /etc/sudoers
USER $USER
COPY --chown=$USER pyproject.toml uv.lock /home/$USER
COPY --chown=$USER tools/install_python_dependencies.sh /home/$USER/tools/
ENV VIRTUAL_ENV=/home/$USER/.venv
ENV PATH="$VIRTUAL_ENV/bin:$PATH"
RUN cd /home/$USER && \
tools/install_python_dependencies.sh && \
rm -rf tools/ pyproject.toml uv.lock .cache
USER root
RUN sudo git config --global --add safe.directory /tmp/openpilot
Jenkinsfile
Vendored
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def retryWithDelay(int maxRetries, int delay, Closure body) {
for (int i = 0; i < maxRetries; i++) {
try {
return body()
} catch (Exception e) {
sleep(delay)
}
}
throw Exception("Failed after ${maxRetries} retries")
}
def device(String ip, String step_label, String cmd) {
withCredentials([file(credentialsId: 'id_rsa', variable: 'key_file')]) {
def ssh_cmd = """
ssh -o ConnectTimeout=5 -o ServerAliveInterval=5 -o ServerAliveCountMax=2 -o BatchMode=yes -o StrictHostKeyChecking=no -i ${key_file} 'comma@${ip}' exec /usr/bin/bash <<'END'
set -e
export TERM=xterm-256color
shopt -s huponexit # kill all child processes when the shell exits
export CI=1
export PYTHONWARNINGS=error
export LOGPRINT=debug
export TEST_DIR=${env.TEST_DIR}
export SOURCE_DIR=${env.SOURCE_DIR}
export GIT_BRANCH=${env.GIT_BRANCH}
export GIT_COMMIT=${env.GIT_COMMIT}
export CI_ARTIFACTS_TOKEN=${env.CI_ARTIFACTS_TOKEN}
export GITHUB_COMMENTS_TOKEN=${env.GITHUB_COMMENTS_TOKEN}
export AZURE_TOKEN='${env.AZURE_TOKEN}'
# only use 1 thread for tici tests since most require HIL
export PYTEST_ADDOPTS="-n0 -s"
export GIT_SSH_COMMAND="ssh -i /data/gitkey"
source ~/.bash_profile
if [ -f /TICI ]; then
source /etc/profile
rm -rf /tmp/tmp*
rm -rf ~/.commacache
rm -rf /dev/shm/*
rm -rf /dev/tmp/tmp*
if ! systemctl is-active --quiet systemd-resolved; then
echo "restarting resolved"
sudo systemctl start systemd-resolved
sleep 3
fi
# restart aux USB
if [ -e /sys/bus/usb/drivers/hub/3-0:1.0 ]; then
echo "restarting aux usb"
echo "3-0:1.0" | sudo tee /sys/bus/usb/drivers/hub/unbind
sleep 0.5
echo "3-0:1.0" | sudo tee /sys/bus/usb/drivers/hub/bind
fi
fi
if [ -f /data/openpilot/launch_env.sh ]; then
source /data/openpilot/launch_env.sh
fi
ln -snf ${env.TEST_DIR} /data/pythonpath
cd ${env.TEST_DIR} || true
time ${cmd}
END"""
sh script: ssh_cmd, label: step_label
}
}
def deviceStage(String stageName, String deviceType, List extra_env, def steps) {
stage(stageName) {
if (currentBuild.result != null) {
return
}
if (isReplay()) {
error("REPLAYING TESTS IS NOT ALLOWED. FIX THEM INSTEAD.")
}
def extra = extra_env.collect { "export ${it}" }.join('\n');
def branch = env.BRANCH_NAME ?: 'master';
def gitDiff = sh returnStdout: true, script: 'curl -s -H "Authorization: Bearer ${GITHUB_COMMENTS_TOKEN}" https://api.github.com/repos/commaai/openpilot/compare/master...${GIT_BRANCH} | jq .files[].filename || echo "/"', label: 'Getting changes'
lock(resource: "", label: deviceType, inversePrecedence: true, variable: 'device_ip', quantity: 1, resourceSelectStrategy: 'random') {
docker.image('ghcr.io/commaai/alpine-ssh').inside('--user=root') {
timeout(time: 35, unit: 'MINUTES') {
retry (3) {
def date = sh(script: 'date', returnStdout: true).trim();
device(device_ip, "set time", "date -s '" + date + "'")
device(device_ip, "git checkout", extra + "\n" + readFile("selfdrive/test/setup_device_ci.sh"))
}
steps.each { item ->
def name = item[0]
def cmd = item[1]
def args = item[2]
def diffPaths = args.diffPaths ?: []
def cmdTimeout = args.timeout ?: 9999
if (branch != "master" && !branch.contains("__jenkins_loop_") && diffPaths && !hasPathChanged(gitDiff, diffPaths)) {
println "Skipping ${name}: no changes in ${diffPaths}."
return
} else {
timeout(time: cmdTimeout, unit: 'SECONDS') {
device(device_ip, name, cmd)
}
}
}
}
}
}
}
}
def hasPathChanged(String gitDiff, List<String> paths) {
for (path in paths) {
if (gitDiff.contains(path)) {
return true
}
}
return false
}
def isReplay() {
def replayClass = "org.jenkinsci.plugins.workflow.cps.replay.ReplayCause"
return currentBuild.rawBuild.getCauses().any{ cause -> cause.toString().contains(replayClass) }
}
def setupCredentials() {
withCredentials([
string(credentialsId: 'azure_token', variable: 'AZURE_TOKEN'),
]) {
env.AZURE_TOKEN = "${AZURE_TOKEN}"
}
withCredentials([
string(credentialsId: 'ci_artifacts_pat', variable: 'CI_ARTIFACTS_TOKEN'),
]) {
env.CI_ARTIFACTS_TOKEN = "${CI_ARTIFACTS_TOKEN}"
}
withCredentials([
string(credentialsId: 'post_comments_github_pat', variable: 'GITHUB_COMMENTS_TOKEN'),
]) {
env.GITHUB_COMMENTS_TOKEN = "${GITHUB_COMMENTS_TOKEN}"
}
}
def step(String name, String cmd, Map args = [:]) {
return [name, cmd, args]
}
node {
env.CI = "1"
env.PYTHONWARNINGS = "error"
env.TEST_DIR = "/data/openpilot"
env.SOURCE_DIR = "/data/openpilot_source/"
setupCredentials()
env.GIT_BRANCH = checkout(scm).GIT_BRANCH
env.GIT_COMMIT = checkout(scm).GIT_COMMIT
def excludeBranches = ['__nightly', 'devel', 'devel-staging', 'release3', 'release3-staging',
'release-tici', 'release-tizi', 'release-tizi-staging', 'testing-closet*', 'hotfix-*']
def excludeRegex = excludeBranches.join('|').replaceAll('\\*', '.*')
if (env.BRANCH_NAME != 'master' && !env.BRANCH_NAME.contains('__jenkins_loop_')) {
properties([
disableConcurrentBuilds(abortPrevious: true)
])
}
try {
if (env.BRANCH_NAME == 'devel-staging') {
deviceStage("build release-tizi-staging", "tizi-needs-can", [], [
step("build release-tizi-staging", "RELEASE_BRANCH=release-tizi-staging $SOURCE_DIR/release/build_release.sh"),
])
}
if (env.BRANCH_NAME == '__nightly') {
parallel (
'nightly': {
deviceStage("build nightly", "tizi-needs-can", [], [
step("build nightly", "RELEASE_BRANCH=nightly $SOURCE_DIR/release/build_release.sh"),
])
},
'nightly-dev': {
deviceStage("build nightly-dev", "tizi-needs-can", [], [
step("build nightly-dev", "PANDA_DEBUG_BUILD=1 RELEASE_BRANCH=nightly-dev $SOURCE_DIR/release/build_release.sh"),
])
},
)
}
if (!env.BRANCH_NAME.matches(excludeRegex)) {
parallel (
'onroad tests': {
deviceStage("onroad", "tizi-needs-can", ["UNSAFE=1"], [
step("build openpilot", "cd system/manager && ./build.py"),
step("check dirty", "release/check-dirty.sh"),
step("onroad tests", "pytest selfdrive/test/test_onroad.py -s", [timeout: 60]),
])
},
'HW + Unit Tests': {
deviceStage("tizi-hardware", "tizi-common", ["UNSAFE=1"], [
step("build", "cd system/manager && ./build.py"),
step("test pandad", "pytest selfdrive/pandad/tests/test_pandad.py", [diffPaths: ["panda", "selfdrive/pandad/"]]),
step("test power draw", "pytest -s system/hardware/tici/tests/test_power_draw.py"),
step("test encoder", "LD_LIBRARY_PATH=/usr/local/lib pytest system/loggerd/tests/test_encoder.py", [diffPaths: ["system/loggerd/"]]),
step("test manager", "pytest system/manager/test/test_manager.py"),
])
},
'loopback': {
deviceStage("loopback", "tizi-loopback", ["UNSAFE=1"], [
step("build openpilot", "cd system/manager && ./build.py"),
step("test pandad loopback", "pytest selfdrive/pandad/tests/test_pandad_loopback.py"),
])
},
'camerad OX03C10': {
deviceStage("OX03C10", "tizi-ox03c10", ["UNSAFE=1"], [
step("build", "cd system/manager && ./build.py"),
step("test camerad", "pytest system/camerad/test/test_camerad.py", [timeout: 60]),
step("test exposure", "pytest system/camerad/test/test_exposure.py"),
])
},
'camerad OS04C10': {
deviceStage("OS04C10", "tici-os04c10", ["UNSAFE=1"], [
step("build", "cd system/manager && ./build.py"),
step("test camerad", "pytest system/camerad/test/test_camerad.py", [timeout: 60]),
step("test exposure", "pytest system/camerad/test/test_exposure.py"),
])
},
'sensord': {
deviceStage("LSM + MMC", "tizi-lsmc", ["UNSAFE=1"], [
step("build", "cd system/manager && ./build.py"),
step("test sensord", "pytest system/sensord/tests/test_sensord.py"),
])
},
'replay': {
deviceStage("model-replay", "tizi-replay", ["UNSAFE=1"], [
step("build", "cd system/manager && ./build.py", [diffPaths: ["selfdrive/modeld/", "tinygrad_repo", "selfdrive/test/process_replay/model_replay.py"]]),
step("model replay", "selfdrive/test/process_replay/model_replay.py", [diffPaths: ["selfdrive/modeld/", "tinygrad_repo", "selfdrive/test/process_replay/model_replay.py"]]),
])
},
'tizi': {
deviceStage("tizi", "tizi", ["UNSAFE=1"], [
step("build openpilot", "cd system/manager && ./build.py"),
step("test pandad loopback", "SINGLE_PANDA=1 pytest selfdrive/pandad/tests/test_pandad_loopback.py"),
step("test pandad spi", "pytest selfdrive/pandad/tests/test_pandad_spi.py"),
step("test amp", "pytest system/hardware/tici/tests/test_amplifier.py"),
// TODO: enable once new AGNOS is available
// step("test esim", "pytest system/hardware/tici/tests/test_esim.py"),
step("test qcomgpsd", "pytest system/qcomgpsd/tests/test_qcomgpsd.py", [diffPaths: ["system/qcomgpsd/"]]),
])
},
)
}
} catch (Exception e) {
currentBuild.result = 'FAILED'
throw e
}
}
LICENSE.md
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@@ -0,0 +1,30 @@
Copyright (c) 2019, Rick Lan
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, and/or sublicense,
for non-commercial purposes only, subject to the following conditions:
- The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
- Commercial use (e.g. use in a product, service, or activity intended to
generate revenue) is prohibited without explicit written permission from
the copyright holder.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
---
Copyright (c) 2018, Comma.ai, Inc.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
Makefile
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@@ -1,9 +0,0 @@
code_dir := $(shell pwd)
# TODO: Add a global build system
.PHONY: all
all:
cd selfdrive && PYTHONPATH=$(code_dir) PREPAREONLY=1 ./manager.py
Pipfile
-145
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@@ -1,145 +0,0 @@
[[source]]
name = "pypi"
url = "https://pypi.org/simple"
verify_ssl = true
[dev-packages]
ipython = "<6.0"
aenum = "*"
azure-batch = "==4.1.3"
azure-common = "==1.1.16"
azure-nspkg = "==3.0.1"
azure-storage-blob = "==1.3.1"
azure-storage-common = "==1.3.0"
azure-storage-nspkg = "==3.0.0"
bincopy = "*"
bleach = "==1.5.0"
boto = "*"
"boto3" = "*"
celery = "*"
control = "*"
datadog = "*"
decorator = "*"
dlib = "*"
dominate = "*"
elasticsearch = "*"
entium = "==0.1.4"
fasteners = "*"
future = "*"
futures = "*"
gevent = "*"
pycocotools = {git = "https://github.com/cocodataset/cocoapi.git",subdirectory = "PythonAPI"}
gunicorn = "*"
"h5py" = "*"
hexdump = "*"
"html5lib" = "==0.9999999"
imageio = "*"
intervaltree = "*"
ipykernel = "<5.0"
joblib = "*"
json-logging-py = "*"
jupyter = "*"
libarchive = "*"
lru-dict = "*"
lxml = "*"
matplotlib = "==2.2.3"
"mpld3" = "*"
msgpack-python = "*"
nbstripout = "*"
nose-parameterized = "*"
numpy = "==1.14.5"
osmium = "==2.15.0"
pbr = "==5.1.3"
percache = "*"
pprofile = "*"
psutil = "*"
pycurl = "*"
git-pylint-commit-hook = "==2.5.1"
pymongo = "*"
"pynmea2" = "*"
pypolyline = "==0.1.17"
pysendfile = "*"
python-logstash = "*"
pyvcd = "*"
redis = "*"
redlock = "*"
"s2sphere" = "*"
scikit-image = "*"
"subprocess32" = "*"
supervisor = "*"
tenacity = "*"
tensorflow-gpu = "==1.13.0rc0"
"transforms3d" = "*"
utm = "*"
"v4l2" = "*"
visdom = "*"
PyJWT = "==1.4.1"
PyMySQL = "==0.9.2"
Theano = "*"
Werkzeug = "*"
"backports.lzma" = "*"
Flask-Cors = "*"
Flask-SocketIO = "*"
"GeoAlchemy2" = "*"
Keras = ">=2.1.6"
keras-maskrcnn = "*"
keras-retinanet = "*"
Pygments = "*"
PyNaCl = "*"
"PySDL2" = "*"
reverse_geocoder = "*"
Shapely = "*"
SQLAlchemy = "==1.2.7"
uWSGI = "*"
scipy = "*"
fastcluster = "==1.1.25"
backports-abc = "*"
pygame = "*"
simplejson = "*"
python-logstash-async = "*"
pandas = "*"
seaborn = "*"
tensorflow-estimator = "==1.10.12"
pyproj = "*"
[packages]
overpy = {git = "https://github.com/commaai/python-overpy.git",ref = "f86529af402d4642e1faeb146671c40284007323"}
atomicwrites = "*"
cffi = "*"
crcmod = "*"
hexdump = "*"
libusb1 = "*"
numpy = "*"
psutil = "*"
pycapnp = "*"
cryptography = "*"
pyserial = "*"
python-dateutil = "*"
pyzmq = "*"
raven = "*"
requests = "*"
setproctitle = "*"
six = "*"
smbus2 = "*"
sympy = "*"
tqdm = "*"
Cython = "*"
PyYAML = "*"
websocket_client = "*"
Logentries = {git = "https://github.com/commaai/le_python.git",ref = "5eef8f5be5929d33973e1b10e686fa0cdcd6792f"}
urllib3 = "*"
chardet = "*"
idna = "*"
gunicorn = "*"
utm = "*"
json-rpc = "*"
Flask = "*"
PyJWT = "*"
"Jinja2" = "*"
nose = "*"
pyflakes = "*"
pylint = "*"
pycryptodome = "*"
[requires]
python_version = "2.7"
Pipfile.lock
Generated
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README.md
+39 -205
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@@ -1,240 +1,74 @@
[![](https://i.imgur.com/UetIFyH.jpg)](#)
![](dragonpilot/selfdrive/assets/dragonpilot.png)
Welcome to openpilot
======
[Read this in English](README_EN.md)
[openpilot](http://github.com/commaai/openpilot) is an open source driving agent. Currently, it performs the functions of Adaptive Cruise Control (ACC) and Lane Keeping Assist System (LKAS) for selected Honda, Toyota, Acura, Lexus, Chevrolet, Hyundai, Kia. It's about on par with Tesla Autopilot and GM Super Cruise, and better than [all other manufacturers](http://www.thedrive.com/tech/5707/the-war-for-autonomous-driving-part-iii-us-vs-germany-vs-japan).
# **🐲 dragonpilot - 賦予您的愛車「龍」之魂**
The openpilot codebase has been written to be concise and to enable rapid prototyping. We look forward to your contributions - improving real vehicle automation has never been easier.
**我們與您一同翱翔於更智慧、更貼心的駕駛旅程。**
Table of Contents
=======================
## **👋 嘿, 朋友,歡迎您的到來!**
* [Community](#community)
* [Hardware](#hardware)
* [Supported Cars](#supported-cars)
* [Community Maintained Cars](#community-maintained-cars)
* [In Progress Cars](#in-progress-cars)
* [How can I add support for my car?](#how-can-i-add-support-for-my-car)
* [Directory structure](#directory-structure)
* [User Data / chffr Account / Crash Reporting](#user-data--chffr-account--crash-reporting)
* [Testing on PC](#testing-on-pc)
* [Contributing](#contributing)
* [Licensing](#licensing)
`dragonpilot` 誕生於 2019 年,由三位早期的 openpilot 華人玩家共同創立。初衷很簡單:為廣大的華人用戶、玩家們提供一個友善的交流環境、更簡便的設定協助,並加入更多適合在地使用的貼心功能。
---
我們深知在地化的重要性,特別是語言的親切感。因此,我們率先導入了完整的中文介面,讓 `dragonpilot` 迅速在華語地區累積了口碑,也讓華人的使用者數量在全球名列前茅。這份來自在地的支持,是我們持續前進的最大動力。
Community
------
我們以功能強大的 [openpilot](https://github.com/commaai/openpilot) 為基礎——這套據美國消費者報告評測優於市售車方案的開源輔助駕駛系統——融入了更多在地化的巧思與客製化的溫度,希望能打造出最符合您需求的駕駛夥伴。(您也可以參考我們 repo 中保留的 [openpilot 原始說明檔案](README_OPENPILOT.md))
openpilot is developed by [comma.ai](https://comma.ai/) and users like you.
取名 `dragonpilot`,是因為我們希望它能像神話中的「龍」一樣,既強大又充滿智慧,為您的行車安全保駕護航。龍,在我們華人文化中,更是吉祥與力量的象徵,也代表著我們的根源與驕傲。
We have a [Twitter you should follow](https://twitter.com/comma_ai).
## **✨ dragonpilot 的里程碑**
Also, we have a several thousand people community on [Discord](https://discord.comma.ai).
我們不僅保留了 openpilot 的核心優勢,更達成了許多從社群回饋中誕生的里程碑,這些是我們引以為傲的足跡:
<table>
<tr>
<td><a href="https://www.youtube.com/watch?v=ICOIin4p70w" title="YouTube" rel="noopener"><img src="https://i.imgur.com/gBTo7yB.png"></a></td>
<td><a href="https://www.youtube.com/watch?v=1zCtj3ckGFo" title="YouTube" rel="noopener"><img src="https://i.imgur.com/gNhhcep.png"></a></td>
<td><a href="https://www.youtube.com/watch?v=Qd2mjkBIRx0" title="YouTube" rel="noopener"><img src="https://i.imgur.com/tFnSexp.png"></a></td>
<td><a href="https://www.youtube.com/watch?v=ju12vlBm59E" title="YouTube" rel="noopener"><img src="https://i.imgur.com/3BKiJVy.png"></a></td>
</tr>
<tr>
<td><a href="https://www.youtube.com/watch?v=Z5VY5FzgNt4" title="YouTube" rel="noopener"><img src="https://i.imgur.com/3I9XOK2.png"></a></td>
<td><a href="https://www.youtube.com/watch?v=blnhZC7OmMg" title="YouTube" rel="noopener"><img src="https://i.imgur.com/f9IgX6s.png"></a></td>
<td><a href="https://www.youtube.com/watch?v=iRkz7FuJsA8" title="YouTube" rel="noopener"><img src="https://i.imgur.com/Vo5Zvmn.png"></a></td>
<td><a href="https://www.youtube.com/watch?v=IHjEqAKDqjM" title="YouTube" rel="noopener"><img src="https://i.imgur.com/V9Zd81n.png"></a></td>
</tr>
</table>
* **🚘 全時置中車道維持 (ALKA)**
Hardware
------
這不只是一個功能,更是 `dragonpilot` 的哲學。我們最早於 [0.6.2 版本](https://github.com/dragonpilot-community/dragonpilot/blob/2861467183d62151024320447ba04d18fc3fe1e6/selfdrive/car/toyota/carstate.py#L199) 時便實現了這個功能,其開發歷程始於 2017 Lexus IS300h,接著擴展至 Toyota 全車系,並逐步延伸到其他支援的品牌。它能溫柔地輔助您,讓車輛始終穩定地保持在車道中央,提供一份額外的安心與從容。
At the moment openpilot supports the [EON Dashcam DevKit](https://comma.ai/shop/products/eon-dashcam-devkit). A [panda](https://shop.comma.ai/products/panda-obd-ii-dongle) and a [giraffe](https://comma.ai/shop/products/giraffe/) are recommended tools to interface the EON with the car. We'd like to support other platforms as well.
* **🌐 率先導入多國語言介面**
Install openpilot on a neo device by entering ``https://openpilot.comma.ai`` during NEOS setup.
在官方 openpilot 還未支援前,我們便已將多國語言介面實現。`dragonpilot` 完整支援繁體中文、簡體中文與英文,讓操作毫無隔閡。
Supported Cars
------
* **💻 唯一同時支援多硬體平台**
| Make | Model (US Market Reference)| Supported Package | Lateral | Longitudinal | No Accel Below | No Steer Below | Giraffe |
| ---------------------| ---------------------------| ---------------------| --------| ---------------| -----------------| ---------------|-------------------|
| Acura | ILX 2016-18 | AcuraWatch Plus | Yes | Yes | 25mph<sup>1</sup>| 25mph | Nidec |
| Acura | RDX 2016-18 | AcuraWatch Plus | Yes | Yes | 25mph<sup>1</sup>| 12mph | Nidec |
| Buick<sup>3</sup> | Regal 2018 | Adaptive Cruise | Yes | Yes | 0mph | 7mph | Custom<sup>7</sup>|
| Chevrolet<sup>3</sup>| Malibu 2017 | Adaptive Cruise | Yes | Yes | 0mph | 7mph | Custom<sup>7</sup>|
| Chevrolet<sup>3</sup>| Volt 2017-18 | Adaptive Cruise | Yes | Yes | 0mph | 7mph | Custom<sup>7</sup>|
| Cadillac<sup>3</sup> | ATS 2018 | Adaptive Cruise | Yes | Yes | 0mph | 7mph | Custom<sup>7</sup>|
| Chrysler | Pacifica 2017-18 | Adaptive Cruise | Yes | Stock | 0mph | 9mph | FCA |
| Chrysler | Pacifica Hybrid 2017-18 | Adaptive Cruise | Yes | Stock | 0mph | 9mph | FCA |
| Chrysler | Pacifica Hybrid 2019 | Adaptive Cruise | Yes | Stock | 0mph | 39mph | FCA |
| GMC<sup>3</sup> | Acadia Denali 2018 | Adaptive Cruise | Yes | Yes | 0mph | 7mph | Custom<sup>7</sup>|
| Holden<sup>3</sup> | Astra 2017 | Adaptive Cruise | Yes | Yes | 0mph | 7mph | Custom<sup>7</sup>|
| Honda | Accord 2018-19 | All | Yes | Stock | 0mph | 3mph | Bosch |
| Honda | Accord Hybrid 2018-19 | All | Yes | Stock | 0mph | 3mph | Bosch |
| Honda | Civic Sedan/Coupe 2016-18 | Honda Sensing | Yes | Yes | 0mph | 12mph | Nidec |
| Honda | Civic Sedan/Coupe 2019 | Honda Sensing | Yes | Stock | 0mph | 2mph | Bosch |
| Honda | Civic Hatchback 2017-19 | Honda Sensing | Yes | Stock | 0mph | 12mph | Bosch |
| Honda | CR-V 2015-16 | Touring | Yes | Yes | 25mph<sup>1</sup>| 12mph | Nidec |
| Honda | CR-V 2017-19 | Honda Sensing | Yes | Stock | 0mph | 12mph | Bosch |
| Honda | CR-V Hybrid 2017-2019 | Honda Sensing | Yes | Stock | 0mph | 12mph | Bosch |
| Honda | Fit 2018-19 | Honda Sensing | Yes | Yes | 25mph<sup>1</sup>| 12mph | Inverted Nidec |
| Honda | Odyssey 2018-19 | Honda Sensing | Yes | Yes | 25mph<sup>1</sup>| 0mph | Inverted Nidec |
| Honda | Passport 2019 | All | Yes | Yes | 25mph<sup>1</sup>| 12mph | Inverted Nidec |
| Honda | Pilot 2016-18 | Honda Sensing | Yes | Yes | 25mph<sup>1</sup>| 12mph | Nidec |
| Honda | Pilot 2019 | All | Yes | Yes | 25mph<sup>1</sup>| 12mph | Inverted Nidec |
| Honda | Ridgeline 2017-19 | Honda Sensing | Yes | Yes | 25mph<sup>1</sup>| 12mph | Nidec |
| Hyundai | Santa Fe 2019 | All | Yes | Stock | 0mph | 0mph | Custom<sup>6</sup>|
| Hyundai | Elantra 2017-19 | SCC + LKAS | Yes | Stock | 19mph | 34mph | Custom<sup>6</sup>|
| Hyundai | Genesis 2018 | All | Yes | Stock | 19mph | 34mph | Custom<sup>6</sup>|
| Jeep | Grand Cherokee 2016-18 | Adaptive Cruise | Yes | Stock | 0mph | 9mph | FCA |
| Jeep | Grand Cherokee 2019 | Adaptive Cruise | Yes | Stock | 0mph | 39mph | FCA |
| Kia | Optima 2019 | SCC + LKAS | Yes | Stock | 0mph | 0mph | Custom<sup>6</sup>|
| Kia | Sorento 2018 | All | Yes | Stock | 0mph | 0mph | Custom<sup>6</sup>|
| Kia | Stinger 2018 | SCC + LKAS | Yes | Stock | 0mph | 0mph | Custom<sup>6</sup>|
| Lexus | ES Hybrid 2019 | All | Yes | Yes | 0mph | 0mph | Toyota |
| Lexus | RX Hybrid 2016-19 | All | Yes | Yes<sup>2</sup>| 0mph | 0mph | Toyota |
| Lexus | IS 2017-2019 | All | Yes | Stock | 22mph | 0mph | Toyota |
| Lexus | IS Hybrid 2017 | All | Yes | Stock | 0mph | 0mph | Toyota |
| Subaru | Crosstrek 2018 | EyeSight | Yes | Stock | 0mph | 0mph | Custom<sup>4</sup>|
| Subaru | Impreza 2019 | EyeSight | Yes | Stock | 0mph | 0mph | Custom<sup>4</sup>|
| Toyota | Avalon 2016 | TSS-P | Yes | Yes<sup>2</sup>| 20mph<sup>1</sup>| 0mph | Toyota |
| Toyota | Avalon 2017-18 | All | Yes | Yes<sup>2</sup>| 20mph<sup>1</sup>| 0mph | Toyota |
| Toyota | Camry 2018-19 | All | Yes | Stock | 0mph<sup>5</sup> | 0mph | Toyota |
| Toyota | Camry Hybrid 2018-19 | All | Yes | Stock | 0mph<sup>5</sup> | 0mph | Toyota |
| Toyota | C-HR 2017-19 | All | Yes | Stock | 0mph | 0mph | Toyota |
| Toyota | C-HR Hybrid 2017-19 | All | Yes | Stock | 0mph | 0mph | Toyota |
| Toyota | Corolla 2017-19 | All | Yes | Yes<sup>2</sup>| 20mph<sup>1</sup>| 0mph | Toyota |
| Toyota | Corolla 2020 | All | Yes | Yes | 0mph | 0mph | Toyota |
| Toyota | Corolla Hatchback 2019 | All | Yes | Yes | 0mph | 0mph | Toyota |
| Toyota | Highlander 2017-19 | All | Yes | Yes<sup>2</sup>| 0mph | 0mph | Toyota |
| Toyota | Highlander Hybrid 2017-19 | All | Yes | Yes<sup>2</sup>| 0mph | 0mph | Toyota |
| Toyota | Prius 2016 | TSS-P | Yes | Yes<sup>2</sup>| 0mph | 0mph | Toyota |
| Toyota | Prius 2017-19 | All | Yes | Yes<sup>2</sup>| 0mph | 0mph | Toyota |
| Toyota | Prius Prime 2017-20 | All | Yes | Yes<sup>2</sup>| 0mph | 0mph | Toyota |
| Toyota | Rav4 2016 | TSS-P | Yes | Yes<sup>2</sup>| 20mph<sup>1</sup>| 0mph | Toyota |
| Toyota | Rav4 2017-18 | All | Yes | Yes<sup>2</sup>| 20mph<sup>1</sup>| 0mph | Toyota |
| Toyota | Rav4 2019 | All | Yes | Yes | 0mph | 0mph | Toyota |
| Toyota | Rav4 Hybrid 2016 | TSS-P | Yes | Yes<sup>2</sup>| 0mph | 0mph | Toyota |
| Toyota | Rav4 Hybrid 2017-18 | All | Yes | Yes<sup>2</sup>| 0mph | 0mph | Toyota |
| Toyota | Sienna 2018 | All | Yes | Yes<sup>2</sup>| 0mph | 0mph | Toyota |
我們是唯一曾致力於讓專案同時兼容 EON、comma two、comma 3 與 Jetson 平台的社群分支,這份努力是為了服務最廣大的玩家社群。
此外,在 comma.ai 團隊於 0.10.0 版本宣布停止支持 comma 3 後,我們仍是唯一一個完整同時支援 comma 3、comma 3X 以及 O3、O3L、O3XL(O3 系列為副廠硬體)的社群分支。
<sup>1</sup>[Comma Pedal](https://community.comma.ai/wiki/index.php/Comma_Pedal) is used to provide stop-and-go capability to some of the openpilot-supported cars that don't currently support stop-and-go. Here is how to [build a Comma Pedal](https://medium.com/@jfrux/comma-pedal-building-with-macrofab-6328bea791e8). ***NOTE: The Comma Pedal is not officially supported by [comma.ai](https://comma.ai).*** <br />
<sup>2</sup>When disconnecting the Driver Support Unit (DSU), otherwise longitudinal control is stock ACC. For DSU locations, see [Toyota Wiki page](https://community.comma.ai/wiki/index.php/Toyota). ***NOTE: disconnecting the DSU disables Automatic Emergency Braking (AEB).*** <br />
<sup>3</sup>[GM installation guide](https://zoneos.com/volt/). ***NOTE: disconnecting the ASCM disables Automatic Emergency Braking (AEB).*** <br />
<sup>4</sup>Subaru Giraffe is DIY. <br />
<sup>5</sup>28mph for Camry 4CYL L, 4CYL LE and 4CYL SE which don't have Full-Speed Range Dynamic Radar Cruise Control. <br />
<sup>6</sup>Open sourced [Hyundai Giraffe](https://github.com/commaai/neo/tree/master/giraffe/hyundai) is designed for the 2019 Sante Fe; pinout may differ for other Hyundais. <br />
<sup>7</sup>Community built Giraffe, find more information [here](https://zoneos.com/shop/). <br />
* **📜 曾榮獲官方認證第一大分支**
Community Maintained Cars
------
基於活躍的社群與功能創新,`dragonpilot` 曾一度成長為 comma ai 官方認證的第一大 openpilot 分支,這份榮耀屬於每一位參與者。
| Make | Model | Supported Package | Lateral | Longitudinal | No Accel Below | No Steer Below | Giraffe |
| ---------------------| -------------------------| ---------------------| --------| ---------------| -----------------| ---------------|-------------------|
| Tesla | Model S 2012-13 | All | Yes | Not yet | Not applicable | 0mph | Custom<sup>8</sup>|
## **🧑‍💻 設計理念 - 少即是多 (Less is More)**
[[Tesla Model S Pull Request]](https://github.com/commaai/openpilot/pull/246) <br />
<sup>8</sup>Community built Giraffe, find more information here [Community Tesla Giraffe](https://github.com/jeankalud/neo/tree/tesla_giraffe/giraffe/tesla) <br />
隨著 openpilot 的 AI 模型日益強大,許多過去需要手動微調的功能,現在都已能透過更先進的模型來實現。因此,我們現在的開發重心回歸到 **「最小化修改」(minimal changes)** 的核心原則上。
Community Maintained Cars are not confirmed by comma.ai to meet our [safety model](https://github.com/commaai/openpilot/blob/devel/SAFETY.md). Be extra cautious using them.
我們的目標是為您提供最純粹、最接近官方的 openpilot 駕駛感受,同時保留 `dragonpilot` 那些經過時間考驗、最受社群喜愛的經典功能。我們相信,在強大的 AI 基礎上,簡潔即是力量。
In Progress Cars
------
- All TSS-P Toyota with Steering Assist and LSS-P Lexus with Steering Assist or Lane Keep Assist.
- All Hyundai with SmartSense.
- All Kia with SCC and LKAS.
- All Chrysler, Jeep, Fiat with Adaptive Cruise Control and LaneSense.
- All Subaru with EyeSight.
## **🛠️ 硬件的足跡 - 一路走來的夥伴們**
How can I add support for my car?
------
從最早的 **EON**,到官方的 **comma two / three (C2/C3/C3X)**,再到社群中各式各樣充滿智慧的**副廠機 (如 C1.5, O2, O3, O3L, O3XL 等)**,甚至我們也曾探索過在 [**Jetson Xavier NX**](https://github.com/eFiniLan/xnxpilot) 上的可能性。
If your car has adaptive cruise control and lane keep assist, you are in luck. Using a [panda](https://comma.ai/shop/products/panda-obd-ii-dongle/) and [cabana](https://community.comma.ai/cabana/), you can understand how to make your car drive by wire.
目前最新版本主要支援: comma3 / 3X 以及 O3 / O3L / O3XL 等社群硬體。
針對 EON / C1.5 / C2 等舊款硬體,最後支援的版本位於 [d2 分支](https://github.com/dragonpilot-community/dragonpilot/tree/d2)。
無論您手上是哪一款設備,都代表著您對開源駕駛輔助的一份熱情。
We've written guides for [Brand](https://medium.com/@comma_ai/how-to-write-a-car-port-for-openpilot-7ce0785eda84) and [Model](https://medium.com/@comma_ai/openpilot-port-guide-for-toyota-models-e5467f4b5fe6) ports. These guides might help you after you have the basics figured out.
## **🫂 加入我們,成為「尋龍者」的一份子**
- BMW, Audi, Volvo, and Mercedes all use [FlexRay](https://en.wikipedia.org/wiki/FlexRay) and can be supported after [FlexRay support](https://github.com/commaai/openpilot/pull/463) is merged.
- We put time into a Ford port, but the steering has a 10 second cutout limitation that makes it unusable.
- The 2016-2017 Honda Accord uses a custom signaling protocol for steering that's unlikely to ever be upstreamed.
`dragonpilot` 的成長,離不開每一位使用者的貢獻與回饋。我們是一個以**公開、透明**為原則的溫暖社群,希望在這裡能與所有對 openpilot / dragonpilot 有興趣的用戶分享、交流開發與使用上的經驗。
Directory structure
------
.
├── apk # The apk files used for the UI
├── cereal # The messaging spec used for all logs on EON
├── common # Library like functionality we've developed here
├── installer/updater # Manages auto-updates of openpilot
├── opendbc # Files showing how to interpret data from cars
├── panda # Code used to communicate on CAN and LIN
├── phonelibs # Libraries used on EON
├── pyextra # Libraries used on EON
└── selfdrive # Code needed to drive the car
├── assets # Fonts and images for UI
├── athena # Allows communication with the app
├── boardd # Daemon to talk to the board
├── can # Helpers for parsing CAN messages
├── car # Car specific code to read states and control actuators
├── common # Shared C/C++ code for the daemons
├── controls # Perception, planning and controls
├── debug # Tools to help you debug and do car ports
├── locationd # Soon to be home of precise location
├── logcatd # Android logcat as a service
├── loggerd # Logger and uploader of car data
├── proclogd # Logs information from proc
├── sensord # IMU / GPS interface code
├── test # Car simulator running code through virtual maneuvers
├── ui # The UI
└── visiond # Vision pipeline
[**歡迎加入我們的 Facebook 社團進行交流!**](https://www.facebook.com/groups/930190251238639)
To understand how the services interact, see `selfdrive/service_list.yaml`
## **❤️ 特別感謝**
User Data / chffr Account / Crash Reporting
------
`dragonpilot` 從創立至今,從未打算透過 Patreon 等平台進行任何形式的募資。我們的初衷是建立一個讓大家能一起學習、一起成長的社群。It's all about fun, not money.
By default, openpilot creates an account and includes a client for chffr, our dashcam app. We use your data to train better models and improve openpilot for everyone.
然而,我們仍要對那些自發性支持本專案的朋友們,致上最誠摯的感謝。正是因為有您們的鼓勵,我們才有更大的動力持續前進。
It's open source software, so you are free to disable it if you wish.
[**我們的贊助者名單**](SPONSORS.md)
It logs the road facing camera, CAN, GPS, IMU, magnetometer, thermal sensors, crashes, and operating system logs.
The user facing camera is only logged if you explicitly opt-in in settings.
It does not log the microphone.
### **安全聲明**
By using it, you agree to [our privacy policy](https://community.comma.ai/privacy.html). You understand that use of this software or its related services will generate certain types of user data, which may be logged and stored at the sole discretion of comma.ai. By accepting this agreement, you grant an irrevocable, perpetual, worldwide right to comma.ai for the use of this data.
`dragonpilot` 是一種駕駛**輔助**系統,並非全自動駕駛。它旨在減輕您的駕駛疲勞,提升行車安全,但駕駛人仍需時刻保持專注,並隨時準備接管車輛。請務必遵守您所在地區的交通法規。
Testing on PC
------
**最後,再次感謝您的到來。**
Check out [openpilot-tools](https://github.com/commaai/openpilot-tools): lots of tools you can use to replay driving data, test and develop openpilot from your pc.
Also, within openpilot there is a rudimentary infrastructure to run a basic simulation and generate a report of openpilot's behavior in different longitudinal control scenarios.
```bash
# Requires working docker
./run_docker_tests.sh
```
Contributing
------
We welcome both pull requests and issues on [github](http://github.com/commaai/openpilot). Bug fixes and new car ports encouraged.
We also have a [bounty program](https://comma.ai/bounties.html).
Want to get paid to work on openpilot? [comma.ai is hiring](https://comma.ai/jobs/)
Licensing
------
openpilot is released under the MIT license. Some parts of the software are released under other licenses as specified.
Any user of this software shall indemnify and hold harmless Comma.ai, Inc. and its directors, officers, employees, agents, stockholders, affiliates, subcontractors and customers from and against all allegations, claims, actions, suits, demands, damages, liabilities, obligations, losses, settlements, judgments, costs and expenses (including without limitation attorneys fees and costs) which arise out of, relate to or result from any use of this software by user.
**THIS IS ALPHA QUALITY SOFTWARE FOR RESEARCH PURPOSES ONLY. THIS IS NOT A PRODUCT.
YOU ARE RESPONSIBLE FOR COMPLYING WITH LOCAL LAWS AND REGULATIONS.
NO WARRANTY EXPRESSED OR IMPLIED.**
---
<img src="https://d1qb2nb5cznatu.cloudfront.net/startups/i/1061157-bc7e9bf3b246ece7322e6ffe653f6af8-medium_jpg.jpg?buster=1458363130" width="75"></img> <img src="https://cdn-images-1.medium.com/max/1600/1*C87EjxGeMPrkTuVRVWVg4w.png" width="225"></img>
**期待與您一同在智慧駕駛的道路上,乘「龍」而行!**
README_EN.md
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![](dragonpilot/selfdrive/assets/dragonpilot.png)
[Read this in Chinese](README.md)
# **🐲 dragonpilot - Bringing the Spirit of the Dragon to Your Car**
**Join us on a smarter, more thoughtful driving journey.**
## **👋 Welcome, friend!**
`dragonpilot` was launched in 2019 by three early openpilot enthusiasts from the Chinese community. Our mission was simple: create a friendly space for users to share experiences, provide easier setup help, and add features tailored for local needs.
Localization has always been at the heart of what we do—starting with a fully Chinese interface. This made `dragonpilot` quickly popular in Chinese-speaking regions and helped our user base grow into one of the largest worldwide. That community support is what keeps us moving forward.
Built on top of the powerful [openpilot](https://github.com/commaai/openpilot)—an open-source driver assistance system rated by Consumer Reports as outperforming commercial offerings—we add localized refinements and user-focused features to create a driving companion that truly fits your needs. (You can also see the [original openpilot README](README_OPENPILOT.md) preserved in our repo.)
The name `dragonpilot` reflects our vision: like the dragon of mythology, it is strong and wise, guarding your safety on the road. In Chinese culture, the dragon is also a symbol of luck and strength, representing our roots and pride.
## **✨ Milestones**
Beyond carrying forward openpilot's core strengths, we've reached several milestones inspired by community feedback:
* **🚘 Always Lane Keep Assist (ALKA)**
More than a feature—it's part of the `dragonpilot` philosophy. Introduced as early as [version 0.6.2](https://github.com/dragonpilot-community/dragonpilot/blob/2861467183d62151024320447ba04d18fc3fe1e6/selfdrive/car/toyota/carstate.py#L199), first tested on a 2017 Lexus IS300h, then expanded to Toyota's lineup and beyond. ALKA helps keep your vehicle steadily centered, giving you extra confidence on the road.
* **🌐 First to add multilingual support**
Before openpilot officially supported it, we had already introduced multiple languages. `dragonpilot` fully supports Traditional Chinese, Simplified Chinese, and English.
* **💻 Only community fork to support multiple hardware platforms at once**
We uniquely worked to make the project run on EON, comma two, comma 3, and Jetson—serving the widest range of users possible.
Additionally, after the comma.ai team deprecated the comma 3 in version 0.10.0, we remain the only community fork to offer full, simultaneous support for the comma 3, comma 3X, and the O3, O3L, and O3XL (the O3 series being third-party hardware).
* **📜 Once recognized as the #1 openpilot fork**
Thanks to an active community and continuous innovation, `dragonpilot` was once the largest openpilot fork officially recognized by comma ai. This honor belongs to everyone who contributed.
## **🧑‍💻 Design Philosophy - Less is More**
As openpilot's AI grows stronger, many features that once required manual tuning are now handled by advanced models. That's why our focus has returned to **“minimal changes.”**
We aim to give you the purest, most official-like openpilot driving experience—while preserving `dragonpilot`'s classic, community-loved features. With a solid AI foundation, simplicity is strength.
## **🛠️ Hardware Journey**
From the early **EON**, to official devices like **comma two / three (C2/C3/C3X)**, to creative community builds (**C1.5, O2, O3, O3L, O3XL, etc.**), and even experiments with [**Jetson Xavier NX**](https://github.com/eFiniLan/xnxpilot).
Currently, the latest versions support: **comma3 / 3X** and community hardware like **O3 / O3L / O3XL**.
Older devices such as **EON / C1.5 / C2** are supported in the [d2 branch](https://github.com/dragonpilot-community/dragonpilot/tree/d2).
Whatever device you're on, it represents your passion for open-source driver assistance.
## **🫂 Join Us Become a “Dragon Seeker”**
`dragonpilot` thrives thanks to every user's contributions and feedback. We're an open, transparent, and welcoming community where enthusiasts can share experiences with openpilot and `dragonpilot`.
[**Join our Facebook group here!**](https://www.facebook.com/groups/930190251238639)
## **❤️ Special Thanks**
Since day one, `dragonpilot` has never asked for funding through Patreon or similar platforms. Our vision is a community where everyone learns and grows together. It's about fun, not money.
That said, we're deeply grateful to those who voluntarily supported the project. Your encouragement keeps us motivated to keep building.
[**See our sponsors**](SPONSORS.md)
### **Safety Notice**
`dragonpilot` is a driver **assistance** system, not full self-driving. It reduces fatigue and improves safety, but you must remain alert and ready to take control at all times. Always follow your local traffic laws.
**Thanks again for being here.**
**We look forward to riding the “dragon” with you on the road to smarter driving!**
README_OPENPILOT.md
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<div align="center" style="text-align: center;">
<h1>openpilot</h1>
<p>
<b>openpilot is an operating system for robotics.</b>
<br>
Currently, it upgrades the driver assistance system in 300+ supported cars.
</p>
<h3>
<a href="https://docs.comma.ai">Docs</a>
<span> · </span>
<a href="https://docs.comma.ai/contributing/roadmap/">Roadmap</a>
<span> · </span>
<a href="https://github.com/commaai/openpilot/blob/master/docs/CONTRIBUTING.md">Contribute</a>
<span> · </span>
<a href="https://discord.comma.ai">Community</a>
<span> · </span>
<a href="https://comma.ai/shop">Try it on a comma 3X</a>
</h3>
Quick start: `bash <(curl -fsSL openpilot.comma.ai)`
[![openpilot tests](https://github.com/commaai/openpilot/actions/workflows/tests.yaml/badge.svg)](https://github.com/commaai/openpilot/actions/workflows/tests.yaml)
[![License: MIT](https://img.shields.io/badge/License-MIT-yellow.svg)](LICENSE)
[![X Follow](https://img.shields.io/twitter/follow/comma_ai)](https://x.com/comma_ai)
[![Discord](https://img.shields.io/discord/469524606043160576)](https://discord.comma.ai)
</div>
<table>
<tr>
<td><a href="https://youtu.be/NmBfgOanCyk" title="Video By Greer Viau"><img src="https://github.com/commaai/openpilot/assets/8762862/2f7112ae-f748-4f39-b617-fabd689c3772"></a></td>
<td><a href="https://youtu.be/VHKyqZ7t8Gw" title="Video By Logan LeGrand"><img src="https://github.com/commaai/openpilot/assets/8762862/92351544-2833-40d7-9e0b-7ef7ae37ec4c"></a></td>
<td><a href="https://youtu.be/SUIZYzxtMQs" title="A drive to Taco Bell"><img src="https://github.com/commaai/openpilot/assets/8762862/05ceefc5-2628-439c-a9b2-89ce77dc6f63"></a></td>
</tr>
</table>
Using openpilot in a car
------
To use openpilot in a car, you need four things:
1. **Supported Device:** a comma 3X, available at [comma.ai/shop](https://comma.ai/shop/comma-3x).
2. **Software:** The setup procedure for the comma 3X allows users to enter a URL for custom software. Use the URL `openpilot.comma.ai` to install the release version.
3. **Supported Car:** Ensure that you have one of [the 275+ supported cars](docs/CARS.md).
4. **Car Harness:** You will also need a [car harness](https://comma.ai/shop/car-harness) to connect your comma 3X to your car.
We have detailed instructions for [how to install the harness and device in a car](https://comma.ai/setup). Note that it's possible to run openpilot on [other hardware](https://blog.comma.ai/self-driving-car-for-free/), although it's not plug-and-play.
### Branches
| branch | URL | description |
|------------------|----------------------------------------|-------------------------------------------------------------------------------------|
| `release3` | openpilot.comma.ai | This is openpilot's release branch. |
| `release3-staging` | openpilot-test.comma.ai | This is the staging branch for releases. Use it to get new releases slightly early. |
| `nightly` | openpilot-nightly.comma.ai | This is the bleeding edge development branch. Do not expect this to be stable. |
| `nightly-dev` | installer.comma.ai/commaai/nightly-dev | Same as nightly, but includes experimental development features for some cars. |
To start developing openpilot
------
openpilot is developed by [comma](https://comma.ai/) and by users like you. We welcome both pull requests and issues on [GitHub](http://github.com/commaai/openpilot).
* Join the [community Discord](https://discord.comma.ai)
* Check out [the contributing docs](docs/CONTRIBUTING.md)
* Check out the [openpilot tools](tools/)
* Code documentation lives at https://docs.comma.ai
* Information about running openpilot lives on the [community wiki](https://github.com/commaai/openpilot/wiki)
Want to get paid to work on openpilot? [comma is hiring](https://comma.ai/jobs#open-positions) and offers lots of [bounties](https://comma.ai/bounties) for external contributors.
Safety and Testing
----
* openpilot observes [ISO26262](https://en.wikipedia.org/wiki/ISO_26262) guidelines, see [SAFETY.md](docs/SAFETY.md) for more details.
* openpilot has software-in-the-loop [tests](.github/workflows/tests.yaml) that run on every commit.
* The code enforcing the safety model lives in panda and is written in C, see [code rigor](https://github.com/commaai/panda#code-rigor) for more details.
* panda has software-in-the-loop [safety tests](https://github.com/commaai/panda/tree/master/tests/safety).
* Internally, we have a hardware-in-the-loop Jenkins test suite that builds and unit tests the various processes.
* panda has additional hardware-in-the-loop [tests](https://github.com/commaai/panda/blob/master/Jenkinsfile).
* We run the latest openpilot in a testing closet containing 10 comma devices continuously replaying routes.
<details>
<summary>MIT Licensed</summary>
openpilot is released under the MIT license. Some parts of the software are released under other licenses as specified.
Any user of this software shall indemnify and hold harmless Comma.ai, Inc. and its directors, officers, employees, agents, stockholders, affiliates, subcontractors and customers from and against all allegations, claims, actions, suits, demands, damages, liabilities, obligations, losses, settlements, judgments, costs and expenses (including without limitation attorneys fees and costs) which arise out of, relate to or result from any use of this software by user.
**THIS IS ALPHA QUALITY SOFTWARE FOR RESEARCH PURPOSES ONLY. THIS IS NOT A PRODUCT.
YOU ARE RESPONSIBLE FOR COMPLYING WITH LOCAL LAWS AND REGULATIONS.
NO WARRANTY EXPRESSED OR IMPLIED.**
</details>
<details>
<summary>User Data and comma Account</summary>
By default, openpilot uploads the driving data to our servers. You can also access your data through [comma connect](https://connect.comma.ai/). We use your data to train better models and improve openpilot for everyone.
openpilot is open source software: the user is free to disable data collection if they wish to do so.
openpilot logs the road-facing cameras, CAN, GPS, IMU, magnetometer, thermal sensors, crashes, and operating system logs.
The driver-facing camera and microphone are only logged if you explicitly opt-in in settings.
By using openpilot, you agree to [our Privacy Policy](https://comma.ai/privacy). You understand that use of this software or its related services will generate certain types of user data, which may be logged and stored at the sole discretion of comma. By accepting this agreement, you grant an irrevocable, perpetual, worldwide right to comma for the use of this data.
</details>
README_chffrplus.md
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Welcome to chffrplus
======
[chffrplus](https://github.com/commaai/chffrplus) is an open source dashcam.
This is the shipping reference software for the comma EON Dashcam DevKit. It keeps many of the niceities of [openpilot](https://github.com/commaai/openpilot), like high quality sensors, great camera, and good autostart and stop. Though unlike openpilot, it cannot control your car. chffrplus can interface with your car through a [panda](https://shop.comma.ai/products/panda-obd-ii-dongle), but just like our dashcam app [chffr](https://getchffr.com/), it is read only.
It integrates with the rest of the comma ecosystem, so you can view your drives on the [chffr](https://getchffr.com/) app for Android or iOS, and reverse engineer your car with [cabana](https://community.comma.ai/cabana/?demo=1).
Hardware
------
Right now chffrplus supports the [EON Dashcam DevKit](https://shop.comma.ai/products/eon-dashcam-devkit) for hardware to run on.
Install chffrplus on a EON device by entering ``https://chffrplus.comma.ai`` during NEOS setup.
User Data / chffr Account / Crash Reporting
------
By default chffrplus creates an account and includes a client for chffr, our dashcam app.
It's open source software, so you are free to disable it if you wish.
It logs the road facing camera, CAN, GPS, IMU, magnetometer, thermal sensors, crashes, and operating system logs.
It does not log the user facing camera or the microphone.
By using it, you agree to [our privacy policy](https://beta.comma.ai/privacy.html). You understand that use of this software or its related services will generate certain types of user data, which may be logged and stored at the sole discretion of comma.ai. By accepting this agreement, you grant an irrevocable, perpetual, worldwide right to comma.ai for the use of this data.
Licensing
------
chffrplus is released under the MIT license.
RELEASES.md
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Version 0.10.2 (2025-11-19)
========================
* comma four support
Version 0.10.1 (2025-09-08)
========================
* New driving model #36276
* World Model: removed global localization inputs
* World Model: 2x the number of parameters
* World Model: trained on 4x the number of segments
* VAE Compression Model: new architecture and training objective
* Driving Vision Model: trained on 4x the number of segments
* New Driver Monitoring model #36198
* Acura TLX 2021 support thanks to MVL!
* Honda City 2023 support thanks to vanillagorillaa and drFritz!
* Honda N-Box 2018 support thanks to miettal!
* Honda Odyssey 2021-25 support thanks to csouers and MVL!
* Honda Passport 2026 support thanks to vanillagorillaa and MVL!
Version 0.10.0 (2025-08-05)
========================
* New driving model
* New training architecture
* Described in our CVPR paper: "Learning to Drive from a World Model"
* Longitudinal MPC replaced by E2E planning from World Model in Experimental Mode
* Action from lateral MPC as training objective replaced by E2E planning from World Model
* Low-speed lead car ground-truth fixes
* Enable live-learned steering actuation delay
* Opt-in audio recording for dashcam video
* Acura MDX 2025 support thanks to vanillagorillaa and MVL!
* Honda Accord 2023-25 support thanks to vanillagorillaa and MVL!
* Honda CR-V 2023-25 support thanks to vanillagorillaa and MVL!
* Honda Pilot 2023-25 support thanks to vanillagorillaa and MVL!
Version 0.9.9 (2025-05-23)
========================
* New driving model
* New training architecture using parts from MLSIM
* Steering actuation delay is now learned online
* Ford Escape 2023-24 support thanks to incognitojam!
* Ford Kuga 2024 support thanks to incognitojam!
* Hyundai Nexo 2021 support thanks to sunnyhaibin!
* Tesla Model 3 and Y support thanks to lukasloetkolben!
* Lexus RC 2023 support thanks to nelsonjchen!
Version 0.9.8 (2025-02-28)
========================
* New driving model
* Model now gates applying positive acceleration in Chill mode
* New driver monitoring model
* Reduced false positives related to passengers
* Image processing pipeline moved to the ISP
* More GPU time for bigger driving models
* Power draw reduced 0.5W, which means your device runs cooler
* Added toggle to enable driver monitoring even when openpilot is not engaged
* Localizer rewritten to remove GPS dependency at runtime
* Firehose Mode for maximizing your training data uploads
* Enable openpilot longitudinal control for Ford Q3 vehicles
* New Toyota TSS2 longitudinal tune
* Rivian R1S and R1T support thanks to lukasloetkolben!
* Ford F-150, F-150 Hybrid, Mach-E, and Ranger support
Version 0.9.7 (2024-06-13)
========================
* New driving model
* Inputs the past curvature for smoother and more accurate lateral control
* Simplified neural network architecture in the model's last layers
* Minor fixes to desire augmentation and weight decay
* New driver monitoring model
* Improved end-to-end bit for phone detection
* Adjust driving personality with the follow distance button
* Support for hybrid variants of supported Ford models
* Fingerprinting without the OBD-II port on all cars
* Improved fuzzy fingerprinting for Ford and Volkswagen
Version 0.9.6 (2024-02-27)
========================
* New driving model
* Vision model trained on more data
* Improved driving performance
* Directly outputs curvature for lateral control
* New driver monitoring model
* Trained on larger dataset
* Model path UI
* Shows where driving model wants to be
* Shows what model is seeing more clearly, but more jittery
* AGNOS 9
* comma body streaming and controls over WebRTC
* Improved fuzzy fingerprinting for many makes and models
* Alpha longitudinal support for new Toyota models
* Chevrolet Equinox 2019-22 support thanks to JasonJShuler and nworb-cire!
* Dodge Durango 2020-21 support
* Hyundai Staria 2023 support thanks to sunnyhaibin!
* Kia Niro Plug-in Hybrid 2022 support thanks to sunnyhaibin!
* Lexus LC 2024 support thanks to nelsonjchen!
* Toyota RAV4 2023-24 support
* Toyota RAV4 Hybrid 2023-24 support
Version 0.9.5 (2023-11-17)
========================
* New driving model
* Improved navigate on openpilot performance using navigation instructions as an additional model input
* Do lateral planning inside the model
* New vision transformer architecture
* Cadillac Escalade ESV 2019 support thanks to twilsonco!
* Hyundai Azera 2022 support thanks to sunnyhaibin!
* Hyundai Azera Hybrid 2020 support thanks to chanhojung and haram-KONA!
* Hyundai Custin 2023 support thanks to sunnyhaibin and Saber422!
* Hyundai Ioniq 6 2023 support thanks to sunnyhaibin and alamo3!
* Hyundai Kona Electric 2023 (Korean version) support thanks to sunnyhaibin and haram-KONA!
* Kia K8 Hybrid (with HDA II) 2023 support thanks to sunnyhaibin!
* Kia Optima Hybrid 2019 support
* Kia Sorento Hybrid 2023 support thanks to sunnyhaibin!
* Lexus GS F 2016 support thanks to snyperifle!
* Lexus IS 2023 support thanks to L3R5!
Version 0.9.4 (2023-07-27)
========================
* comma 3X support
* Navigate on openpilot in Experimental mode
* When navigation has a destination, openpilot will input the map information into the model, which provides useful context to help the model understand the scene
* When navigating on openpilot, openpilot will keep left or right appropriately at forks and exits
* When navigating on openpilot, lane change behavior is unchanged and still activated by the driver
* When navigate on openpilot is active, the path on the map is green
* UI updates
* Navigation settings moved to home screen and map
* Border color always shows engagement status. Blue means disengaged, green means engaged, and grey means engaged with human overriding
* Alerts are shown inside the border. Black means info, orange means warning, and red means critical alert
* Bookmarked segments are preserved on the device's storage
* Ford Focus 2018 support
* Kia Carnival 2023 support thanks to sunnyhaibin!
Version 0.9.3 (2023-06-29)
========================
* New driving model
* Improved height estimation and added height tracking in liveCalibration
* Model inputs refactor
* New driving personality setting
* Three settings: aggressive, standard, and relaxed
* Standard is recommended and the default
* In aggressive mode, lead follow distance is shorter and acceleration response is quicker
* In relaxed mode, lead follow distance is longer
* Improved fuzzy fingerprinting for Hyundai, Kia, and Genesis
* Improved thermal management logic
Version 0.9.2 (2023-05-22)
========================
* New driving model
* Reduced turn diving
* Trained on a new dataset
* UI updates
* New experimental mode visualization
* Draw MPC path instead of model-predicted path
* AGNOS 7
* Faster boot time
* Fixes rare no sounds bug
* Fixes bootsplash bug at extreme temperatures
* Buick LaCrosse 2017-19 support thanks to koch-cf!
* Chevrolet Trailblazer 2021-22 support thanks to TurboCE!
* Ford Bronco Sport 2021-22 support
* Ford Escape 2020-22 support
* Ford Explorer 2020-22 support
* Ford Kuga 2020-22 support
* Ford Maverick 2022-23 support
* Genesis GV80 2023 support thanks to JWingate80!
* Honda HR-V 2023 support thanks to AlexandreSato and galegozi!
* Kia Niro EV 2023 support thanks to JosselinLecocq!
* Lexus ES 2017-18 support
* Lincoln Aviator 2021 support
* Škoda Fabia 2022-23 support thanks to jyoung8607!
Version 0.9.1 (2023-02-28)
========================
* New driving model
* 30% improved height estimation resulting in better driving performance for tall cars
* Driver monitoring: removed timer resetting on user interaction if distracted
* UI updates
* Adjust alert volume using ambient noise level
* Driver monitoring icon shows driver's head pose
* German translation thanks to Vrabetz and CzokNorris!
* Cadillac Escalade 2017 support thanks to rickygilleland!
* Chevrolet Bolt EV 2022-23 support thanks to JasonJShuler!
* Genesis GV60 2023 support thanks to sunnyhaibin!
* Hyundai Tucson 2022-23 support
* Kia K5 Hybrid 2020 support thanks to sunnyhaibin!
* Kia Niro Hybrid 2023 support thanks to sunnyhaibin!
* Kia Sorento 2022-23 support thanks to sunnyhaibin!
* Kia Sorento Plug-in Hybrid 2022 support thanks to sunnyhaibin!
* Toyota C-HR 2021 support thanks to eFiniLan!
* Toyota C-HR Hybrid 2022 support thanks to Korben00!
* Volkswagen Crafter and MAN TGE 2017-23 support thanks to jyoung8607!
Version 0.9.0 (2022-11-21)
========================
* New driving model
* Internal feature space information content increased tenfold during training to ~700 bits, which makes the model dramatically more accurate
* Less reliance on previous frames makes model more reactive and snappy
* Trained in new reprojective simulator
* Trained in 36 hours from scratch, compared to one week for previous releases
* Training now simulates both lateral and longitudinal behavior, which allows openpilot to slow down for turns, stop at traffic lights, and more in experimental mode
* Experimental driving mode
* End-to-end longitudinal control
* Stops for traffic lights and stop signs
* Slows down for turns
* openpilot defaults to chill mode, enable experimental mode in settings
* Driver monitoring updates
* New bigger model with added end-to-end distracted trigger
* Reduced false positives during driver calibration
* Self-tuning torque controller: learns parameters live for each car
* Torque controller used on all Toyota, Lexus, Hyundai, Kia, and Genesis models
* UI updates
* Matched speeds shown on car's dash
* Multi-language in navigation
* Improved update experience
* Border turns grey while overriding steering
* Bookmark events while driving; view them in comma connect
* New onroad visualization for experimental mode
* tools: new and improved cabana thanks to deanlee!
* Experimental longitudinal support for Volkswagen, CAN-FD Hyundai, and new GM models
* Genesis GV70 2022-23 support thanks to zunichky and sunnyhaibin!
* Hyundai Santa Cruz 2021-22 support thanks to sunnyhaibin!
* Kia Sportage 2023 support thanks to sunnyhaibin!
* Kia Sportage Hybrid 2023 support thanks to sunnyhaibin!
* Kia Stinger 2022 support thanks to sunnyhaibin!
Version 0.8.16 (2022-08-26)
========================
* New driving model
* Reduced turn cutting
* Auto-detect right hand drive setting with driver monitoring model
* Improved fan controller for comma three
* New translations
* Japanese thanks to cydia2020!
* Brazilian Portuguese thanks to AlexandreSato!
* Chevrolet Bolt EUV 2022-23 support thanks to JasonJShuler!
* Chevrolet Silverado 1500 2020-21 support thanks to JasonJShuler!
* GMC Sierra 1500 2020-21 support thanks to JasonJShuler!
* Hyundai Ioniq 5 2022 support thanks to sunnyhaibin!
* Hyundai Kona Electric 2022 support thanks to sunnyhaibin!
* Hyundai Tucson Hybrid 2022 support thanks to sunnyhaibin!
* Subaru Legacy 2020-22 support thanks to martinl!
* Subaru Outback 2020-22 support
Version 0.8.15 (2022-07-20)
========================
* New driving model
* Path planning uses end-to-end output instead of lane lines at all times
* Reduced ping pong
* Improved lane centering
* New lateral controller based on physical wheel torque model
* Much smoother control that's consistent across the speed range
* Effective feedforward that uses road roll
* Simplified tuning, all car-specific parameters can be derived from data
* Used on select Toyota and Hyundai models at first
* Significantly improved control on TSS-P Prius
* New driver monitoring model
* Bigger model, covering full interior view from driver camera
* Works with a wider variety of mounting angles
* 3x more unique comma three training data than previous
* Navigation improvements
* Speed limits shown while navigating
* Faster position fix by using raw GPS measurements
* UI updates
* Multilanguage support for settings and home screen
* New font
* Refreshed max speed design
* More consistent camera view perspective across cars
* Reduced power usage: device runs cooler and fan spins less
* AGNOS 5
* Support VSCode remote SSH target
* Support for delta updates to reduce data usage on future OS updates
* Chrysler ECU firmware fingerprinting thanks to realfast!
* Honda Civic 2022 support
* Hyundai Tucson 2021 support thanks to bluesforte!
* Kia EV6 2022 support
* Lexus NX Hybrid 2020 support thanks to AlexandreSato!
* Ram 1500 2019-21 support thanks to realfast!
Version 0.8.14 (2022-06-01)
========================
* New driving model
* Bigger model, using both of comma three's road-facing cameras
* Better at cut-in detection and tight turns
* New driver monitoring model
* Tweaked network structure to improve output resolution for DSP
* Fixed bug in quantization aware training to reduce quantizing errors
* Resulted in 7x less MSE and no more random biases at runtime
* Added toggle to disable disengaging on the accelerator pedal
* comma body support
* Audi RS3 support thanks to jyoung8607!
* Hyundai Ioniq Plug-in Hybrid 2019 support thanks to sunnyhaibin!
* Hyundai Tucson Diesel 2019 support thanks to sunnyhaibin!
* Toyota Alphard Hybrid 2021 support
* Toyota Avalon Hybrid 2022 support
* Toyota RAV4 2022 support
* Toyota RAV4 Hybrid 2022 support
Version 0.8.13 (2022-02-18)
========================
* Improved driver monitoring
* Re-tuned driver pose learner for relaxed driving positions
* Added reliance on driving model to be more scene adaptive
* Matched strictness between comma two and comma three
* Improved performance in turns by compensating for the road bank angle
* Improved camera focus on the comma two
* AGNOS 4
* ADB support
* improved cell auto configuration
* NEOS 19
* package updates
* stability improvements
* Subaru ECU firmware fingerprinting thanks to martinl!
* Hyundai Santa Fe Plug-in Hybrid 2022 support thanks to sunnyhaibin!
* Mazda CX-5 2022 support thanks to Jafaral!
* Subaru Impreza 2020 support thanks to martinl!
* Toyota Avalon 2022 support thanks to sshane!
* Toyota Prius v 2017 support thanks to CT921!
* Volkswagen Caravelle 2020 support thanks to jyoung8607!
Version 0.8.12 (2021-12-15)
========================
* New driving model
* Improved behavior around exits
* Better pose accuracy at high speeds, allowing max speed of 90mph
* Fully incorporated comma three data into all parts of training stack
* Improved follow distance
* Better longitudinal policy, especially in low speed traffic
* New alert sounds
* AGNOS 3
* Display burn in mitigation
* Improved audio amplifier configuration
* System reliability improvements
* Update Python to 3.8.10
* Raw logs upload moved to connect.comma.ai
* Fixed HUD alerts on newer Honda Bosch thanks to csouers!
* Audi Q3 2020-21 support thanks to jyoung8607!
* Lexus RC 2020 support thanks to ErichMoraga!
Version 0.8.11 (2021-11-29)
========================
* Support for CAN FD on the red panda
* Support for an external panda on the comma three
* Navigation: Show more detailed instructions when approaching maneuver
* Fixed occasional steering faults on GM cars thanks to jyoung8607!
* Nissan ECU firmware fingerprinting thanks to robin-reckmann, martinl, and razem-io!
* Cadillac Escalade ESV 2016 support thanks to Gibby!
* Genesis G70 2020 support thanks to tecandrew!
* Hyundai Santa Fe Hybrid 2022 support thanks to sunnyhaibin!
* Mazda CX-9 2021 support thanks to Jacar!
* Volkswagen Polo 2020 support thanks to jyoung8607!
* Volkswagen T-Roc 2021 support thanks to jyoung8607!
Version 0.8.10 (2021-11-01)
========================
* New driving model
* Trained on one million minutes!!!
* Fixed lead training making lead predictions significantly more accurate
* Fixed several localizer dataset bugs and loss function bugs, overall improved accuracy
* New driver monitoring model
* Trained on latest data from both comma two and comma three
* Increased model field of view by 40% on comma three
* Improved model stability on masked users
* Improved pose prediction with reworked ground-truth stack
* Lateral and longitudinal planning MPCs now in ACADOS
* Combined longitudinal MPCs
* All longitudinal planning now happens in a single MPC system
* Fixed instability in MPC problem to prevent sporadic CPU usage
* AGNOS 2: minor stability improvements and builder repo open sourced
* tools: new and improved replay thanks to deanlee!
* Moved community-supported cars outside of the Community Features toggle
* Improved FW fingerprinting reliability for Hyundai/Kia/Genesis
* Added prerequisites for longitudinal control on Hyundai/Kia/Genesis and Honda Bosch
* Audi S3 2015 support thanks to jyoung8607!
* Honda Freed 2020 support thanks to belm0!
* Hyundai Ioniq Hybrid 2020-2022 support thanks to sunnyhaibin!
* Hyundai Santa Fe 2022 support thanks to sunnyhaibin!
* Kia K5 2021 support thanks to sunnyhaibin!
* Škoda Kamiq 2021 support thanks to jyoung8607!
* Škoda Karoq 2019 support thanks to jyoung8607!
* Volkswagen Arteon 2021 support thanks to jyoung8607!
* Volkswagen California 2021 support thanks to jyoung8607!
* Volkswagen Taos 2022 support thanks to jyoung8607!
Version 0.8.9 (2021-09-14)
========================
* Improved fan control on comma three
* AGNOS 1.5: improved stability
* Honda e 2020 support
Version 0.8.8 (2021-08-27)
========================
* New driving model with improved laneless performance
* Trained on 5000+ hours of diverse driving data from 3000+ users in 40+ countries
* Better anti-cheating methods during simulator training ensure the model hugs less when in laneless mode
* All new desire ground-truthing stack makes the model better at lane changes
* New driver monitoring model: improved performance on comma three
* NEOS 18 for comma two: update packages
* AGNOS 1.3 for comma three: fix display init at high temperatures
* Improved auto-exposure on comma three
* Improved longitudinal control on Honda Nidec cars
* Hyundai Kona Hybrid 2020 support thanks to haram-KONA!
* Hyundai Sonata Hybrid 2021 support thanks to Matt-Wash-Burn!
* Kia Niro Hybrid 2021 support thanks to tetious!
Version 0.8.7 (2021-07-31)
========================
* comma three support!
* Navigation alpha for the comma three!
* Volkswagen T-Cross 2021 support thanks to jyoung8607!
Version 0.8.6 (2021-07-21)
========================
* Revamp lateral and longitudinal planners
* Refactor planner output API to be more readable and verbose
* Planners now output desired trajectories for speed, acceleration, curvature, and curvature rate
* Use MPC for longitudinal planning when no lead car is present, makes accel and decel smoother
* Remove "CHECK DRIVER FACE VISIBILITY" warning
* Fixed cruise fault on some TSS2.5 Camrys and international Toyotas
* Hyundai Elantra Hybrid 2021 support thanks to tecandrew!
* Hyundai Ioniq PHEV 2020 support thanks to YawWashout!
* Kia Niro Hybrid 2019 support thanks to jyoung8607!
* Škoda Octavia RS 2016 support thanks to jyoung8607!
* Toyota Alphard 2020 support thanks to belm0!
* Volkswagen Golf SportWagen 2015 support thanks to jona96!
* Volkswagen Touran 2017 support thanks to jyoung8607!
Version 0.8.5 (2021-06-11)
========================
* NEOS update: improved reliability and stability with better voltage regulator configuration
* Smart model-based Forward Collision Warning
* CAN-based fingerprinting moved behind community features toggle
* Improved longitudinal control on Toyotas with a comma pedal
* Improved auto-brightness using road-facing camera
* Added "Software" settings page with updater controls
* Audi Q2 2018 support thanks to jyoung8607!
* Hyundai Elantra 2021 support thanks to CruiseBrantley!
* Lexus UX Hybrid 2019-2020 support thanks to brianhaugen2!
* Toyota Avalon Hybrid 2019 support thanks to jbates9011!
* SEAT Leon 2017 & 2020 support thanks to jyoung8607!
* Škoda Octavia 2015 & 2019 support thanks to jyoung8607!
Version 0.8.4 (2021-05-17)
========================
* Delay controls start until system is ready
* Fuzzy car identification, enabled with Community Features toggle
* Localizer optimized for increased precision and less CPU usage
* Re-tuned lateral control to be more aggressive when model is confident
* Toyota Mirai 2021 support
* Lexus NX 300 2020 support thanks to goesreallyfast!
* Volkswagen Atlas 2018-19 support thanks to jyoung8607!
Version 0.8.3 (2021-04-01)
========================
* New model
* Trained on new diverse dataset from 2000+ users from 30+ countries
* Trained with improved segnet from the comma-pencil community project
* 🥬 Dramatically improved end-to-end lateral performance 🥬
* Toggle added to disable the use of lanelines
* NEOS update: update packages and support for new UI
* New offroad UI based on Qt
* Default SSH key only used for setup
* Kia Ceed 2019 support thanks to ZanZaD13!
* Kia Seltos 2021 support thanks to speedking456!
* Added support for many Volkswagen and Škoda models thanks to jyoung8607!
Version 0.8.2 (2021-02-26)
========================
* Use model points directly in MPC (no more polyfits), making lateral planning more accurate
* Use model heading prediction for smoother lateral control
* Smarter actuator delay compensation
* Improve qcamera resolution for improved video in explorer and connect
* Adjust maximum engagement speed to better fit the model's training distribution
* New driver monitoring model trained with 3x more diverse data
* Improved face detection with masks
* More predictable DM alerts when visibility is bad
* Rewritten video streaming between openpilot processes
* Improved longitudinal tuning on TSS2 Corolla and Rav4 thanks to briskspirit!
* Audi A3 2015 and 2017 support thanks to keeleysam!
* Nissan Altima 2020 support thanks to avolmensky!
* Lexus ES Hybrid 2018 support thanks to TheInventorMan!
* Toyota Camry Hybrid 2021 support thanks to alancyau!
Version 0.8.1 (2020-12-21)
========================
* Original EON is deprecated, upgrade to comma two
* Better model performance in heavy rain
* Better lane positioning in turns
* Fixed bug where model would cut turns on empty roads at night
* Fixed issue where some Toyotas would not completely stop thanks to briskspirit!
* Toyota Camry 2021 with TSS2.5 support
* Hyundai Ioniq Electric 2020 support thanks to baldwalker!
Version 0.8.0 (2020-11-30)
========================
* New driving model: fully 3D and improved cut-in detection
* UI draws 2 road edges, 4 lanelines and paths in 3D
* Major fixes to cut-in detection for openpilot longitudinal
* Grey panda is no longer supported, upgrade to comma two or black panda
* Lexus NX 2018 support thanks to matt12eagles!
* Kia Niro EV 2020 support thanks to nickn17!
* Toyota Prius 2021 support thanks to rav4kumar!
* Improved lane positioning with uncertain lanelines, wide lanes and exits
* Improved lateral control for Prius and Subaru
Version 0.7.10 (2020-10-29)
========================
* Grey panda is deprecated, upgrade to comma two or black panda
* NEOS update: update to Python 3.8.2 and lower CPU frequency
* Improved thermals due to reduced CPU frequency
* Update SNPE to 1.41.0
* Reduced offroad power consumption
* Various system stability improvements
* Acura RDX 2020 support thanks to csouers!
Version 0.7.9 (2020-10-09)
========================
* Improved car battery power management
* Improved updater robustness
* Improved realtime performance
* Reduced UI and modeld lags
* Increased torque on 2020 Hyundai Sonata and Palisade
Version 0.7.8 (2020-08-19)
========================
* New driver monitoring model: improved face detection and better compatibility with sunglasses
* Download NEOS operating system updates in the background
* Improved updater reliability and responsiveness
* Hyundai Kona 2020, Veloster 2019, and Genesis G70 2018 support thanks to xps-genesis!
Version 0.7.7 (2020-07-20)
========================
* White panda is no longer supported, upgrade to comma two or black panda
* Improved vehicle model estimation using high precision localizer
* Improved thermal management on comma two
* Improved autofocus for road-facing camera
* Improved noise performance for driver-facing camera
* Block lane change start using blindspot monitor on select Toyota, Hyundai, and Subaru
* Fix GM ignition detection
* Code cleanup and smaller release sizes
* Hyundai Sonata 2020 promoted to officially supported car
* Hyundai Ioniq Electric Limited 2019 and Ioniq SE 2020 support thanks to baldwalker!
* Subaru Forester 2019 and Ascent 2019 support thanks to martinl!
Version 0.7.6.1 (2020-06-16)
========================
* Hotfix: update kernel on some comma twos (orders #8570-#8680)
Version 0.7.6 (2020-06-05)
========================
* White panda is deprecated, upgrade to comma two or black panda
* 2017 Nissan X-Trail, 2018-19 Leaf and 2019 Rogue support thanks to avolmensky!
* 2017 Mazda CX-5 support in dashcam mode thanks to Jafaral!
* Huge CPU savings in modeld by using thneed!
* Lots of code cleanup and refactors
Version 0.7.5 (2020-05-13)
========================
* Right-Hand Drive support for both driving and driver monitoring!
* New driving model: improved at sharp turns and lead speed estimation
* New driver monitoring model: overall improvement on comma two
* Driver camera preview in settings to improve mounting position
* Added support for many Hyundai, Kia, Genesis models thanks to xx979xx!
* Improved lateral tuning for 2020 Toyota Rav 4 (hybrid)
Version 0.7.4 (2020-03-20)
========================
* New driving model: improved lane changes and lead car detection
* Improved driver monitoring model: improve eye detection
* Improved calibration stability
* Improved lateral control on some 2019 and 2020 Toyota Prius
* Improved lateral control on VW Golf: 20% more steering torque
* Fixed bug where some 2017 and 2018 Toyota C-HR would use the wrong steering angle sensor
* Support for Honda Insight thanks to theantihero!
* Code cleanup in car abstraction layers and ui
Version 0.7.3 (2020-02-21)
========================
* Support for 2020 Highlander thanks to che220!
* Support for 2018 Lexus NX 300h thanks to kengggg!
* Speed up ECU firmware query
* Fix bug where manager would sometimes hang after shutting down the car
Version 0.7.2 (2020-02-07)
========================
* ECU firmware version based fingerprinting for Honda & Toyota
* New driving model: improved path prediction during turns and lane changes and better lead speed tracking
* Improve driver monitoring under extreme lighting and add low accuracy alert
* Support for 2019 Rav4 Hybrid thanks to illumiN8i!
* Support for 2016, 2017 and 2020 Lexus RX thanks to illumiN8i!
* Support for 2020 Chrysler Pacifica Hybrid thanks to adhintz!
Version 0.7.1 (2020-01-20)
========================
* comma two support!
* Lane Change Assist above 45 mph!
* Replace zmq with custom messaging library, msgq!
* Supercombo model: calibration and driving models are combined for better lead estimate
* More robust updater thanks to jyoung8607! Requires NEOS update
* Improve low speed ACC tuning
Version 0.7 (2019-12-13)
========================
* Move to SCons build system!
* Add Lane Departure Warning (LDW) for all supported vehicles!
* NEOS update: increase wifi speed thanks to jyoung8607!
* Adaptive driver monitoring based on scene
* New driving model trained end-to-end: improve lane lines and lead detection
* Smarter torque limit alerts for all cars
* Improve GM longitudinal control: proper computations for 15Hz radar
* Move GM port, Toyota with DSU removed, comma pedal in community features; toggle switch required
* Remove upload over cellular toggle: only upload qlog and qcamera files if not on wifi
* Refactor Panda code towards ISO26262 and SIL2 compliance
* Forward stock FCW for Honda Nidec
* Volkswagen port now standard: comma Harness intercepts stock camera
Version 0.6.6 (2019-11-05)
========================
* Volkswagen support thanks to jyoung8607!
* Toyota Corolla Hybrid with TSS 2.0 support thanks to u8511049!
* Lexus ES with TSS 2.0 support thanks to energee!
* Fix GM ignition detection and lock safety mode not required anymore
* Log panda firmware and dongle ID thanks to martinl!
* New driving model: improve path prediction and lead detection
* New driver monitoring model, 4x smaller and running on DSP
* Display an alert and don't start openpilot if panda has wrong firmware
* Fix bug preventing EON from terminating processes after a drive
* Remove support for Toyota giraffe without the 120Ohm resistor
Version 0.6.5 (2019-10-07)
========================
* NEOS update: upgrade to Python3 and new installer!
* comma Harness support!
* New driving model: improve path prediction
* New driver monitoring model: more accurate face and eye detection
* Redesign offroad screen to display updates and alerts
* Increase maximum allowed acceleration
* Prevent car 12V battery drain by cutting off EON charge after 3 days of no drive
* Lexus CT Hybrid support thanks to thomaspich!
* Louder chime for critical alerts
* Add toggle to switch to dashcam mode
* Fix "invalid vehicle params" error on DSU-less Toyota
Version 0.6.4 (2019-09-08)
========================
* Forward stock AEB for Honda Nidec
@@ -48,7 +691,7 @@ Version 0.6 (2019-07-01)
* Panda safety code is MISRA compliant and ships with a signed version on release2
* New NEOS is 500MB smaller and has a reproducible usr/pipenv
* Lexus ES Hybrid support thanks to wocsor!
* Improve tuning for supported Toyota with TSS2
* Improve tuning for supported Toyota with TSS 2.0
* Various other stability improvements
Version 0.5.13 (2019-05-31)
@@ -58,7 +701,7 @@ Version 0.5.13 (2019-05-31)
* Reduce CPU utilization by 20% and improve stability
* Temporarily remove mapd functionalities to improve stability
* Add openpilot record-only mode for unsupported cars
* Synchronize controlsd to boardd to reduce latency
* Synchronize controlsd to pandad to reduce latency
* Remove panda support for Subaru giraffe
Version 0.5.12 (2019-05-16)
@@ -354,96 +997,96 @@ Version 0.3.4 (2017-07-28)
Version 0.3.3 (2017-06-28)
===========================
* Improved model trained on more data
* Alpha CR-V support thanks to energee and johnnwvs!
* Using the opendbc project for DBC files
* Minor performance improvements
* UI update thanks to pjlao307
* Power off button
* 6% more torque on the Civic
* Improved model trained on more data
* Alpha CR-V support thanks to energee and johnnwvs!
* Using the opendbc project for DBC files
* Minor performance improvements
* UI update thanks to pjlao307
* Power off button
* 6% more torque on the Civic
Version 0.3.2 (2017-05-22)
===========================
* Minor stability bugfixes
* Added metrics and rear view mirror disable to settings
* Update model with more crowdsourced data
* Minor stability bugfixes
* Added metrics and rear view mirror disable to settings
* Update model with more crowdsourced data
Version 0.3.1 (2017-05-17)
===========================
* visiond stability bugfix
* Add logging for angle and flashing
* visiond stability bugfix
* Add logging for angle and flashing
Version 0.3.0 (2017-05-12)
===========================
* Add CarParams struct to improve the abstraction layer
* Refactor visiond IPC to support multiple clients
* Add raw GPS and beginning support for navigation
* Improve model in visiond using crowdsourced data
* Add improved system logging to diagnose instability
* Rewrite baseui in React Native
* Moved calibration to the cloud
* Add CarParams struct to improve the abstraction layer
* Refactor visiond IPC to support multiple clients
* Add raw GPS and beginning support for navigation
* Improve model in visiond using crowdsourced data
* Add improved system logging to diagnose instability
* Rewrite baseui in React Native
* Moved calibration to the cloud
Version 0.2.9 (2017-03-01)
===========================
* Retain compatibility with NEOS v1
* Retain compatibility with NEOS v1
Version 0.2.8 (2017-02-27)
===========================
* Fix bug where frames were being dropped in minute 71
* Fix bug where frames were being dropped in minute 71
Version 0.2.7 (2017-02-08)
===========================
* Better performance and pictures at night
* Fix ptr alignment issue in boardd
* Fix brake error light, fix crash if too cold
* Better performance and pictures at night
* Fix ptr alignment issue in pandad
* Fix brake error light, fix crash if too cold
Version 0.2.6 (2017-01-31)
===========================
* Fix bug in visiond model execution
* Fix bug in visiond model execution
Version 0.2.5 (2017-01-30)
===========================
* Fix race condition in manager
* Fix race condition in manager
Version 0.2.4 (2017-01-27)
===========================
* OnePlus 3T support
* Enable installation as NEOS app
* Various minor bugfixes
* OnePlus 3T support
* Enable installation as NEOS app
* Various minor bugfixes
Version 0.2.3 (2017-01-11)
===========================
* Reduce space usage by 80%
* Add better logging
* Add Travis CI
* Reduce space usage by 80%
* Add better logging
* Add Travis CI
Version 0.2.2 (2017-01-10)
===========================
* Board triggers started signal on CAN messages
* Improved autoexposure
* Handle out of space, improve upload status
* Board triggers started signal on CAN messages
* Improved autoexposure
* Handle out of space, improve upload status
Version 0.2.1 (2016-12-14)
===========================
* Performance improvements, removal of more numpy
* Fix boardd process priority
* Make counter timer reset on use of steering wheel
* Performance improvements, removal of more numpy
* Fix pandad process priority
* Make counter timer reset on use of steering wheel
Version 0.2 (2016-12-12)
=========================
* Car/Radar abstraction layers have shipped, see cereal/car.capnp
* controlsd has been refactored
* Shipped plant model and testing maneuvers
* visiond exits more gracefully now
* Hardware encoder in visiond should always init
* ui now turns off the screen after 30 seconds
* Switch to openpilot release branch for future releases
* Added preliminary Docker container to run tests on PC
* Car/Radar abstraction layers have shipped, see cereal/car.capnp
* controlsd has been refactored
* Shipped plant model and testing maneuvers
* visiond exits more gracefully now
* Hardware encoder in visiond should always init
* ui now turns off the screen after 30 seconds
* Switch to openpilot release branch for future releases
* Added preliminary Docker container to run tests on PC
Version 0.1 (2016-11-29)
=========================
* Initial release of openpilot
* Adaptive cruise control is working
* Lane keep assist is working
* Support for Acura ILX 2016 with AcuraWatch Plus
* Support for Honda Civic 2016 Touring Edition
* Initial release of openpilot
* Adaptive cruise control is working
* Lane keep assist is working
* Support for Acura ILX 2016 with AcuraWatch Plus
* Support for Honda Civic 2016 Touring Edition
SAFETY.md
-151
View File
@@ -1,151 +0,0 @@
openpilot Safety
======
openpilot is an Adaptive Cruise Control (ACC) and Lane Keeping Assist (LKA) system.
Like other ACC and LKA systems, openpilot requires the driver to be alert and to
pay attention at all times. We repeat, **driver alertness is necessary, but not
sufficient, for openpilot to be used safely**.
In order to enforce driver alertness, openpilot includes a driver monitoring feature
that alerts the driver when distracted.
However, even with an attentive driver, we must make further efforts for the system to be
safe. We have designed openpilot with two other safety considerations.
1. The driver must always be capable to immediately retake manual control of the vehicle,
by stepping on either pedal or by pressing the cancel button.
2. The vehicle must not alter its trajectory too quickly for the driver to safely
react. This means that while the system is engaged, the actuators are constrained
to operate within reasonable limits.
Following are details of the car specific safety implementations:
Honda/Acura
------
- While the system is engaged, gas, brake and steer commands are subject to the same limits used by
the stock system.
- Without an interceptor, the gas is controlled by the Powertrain Control Module (PCM).
The PCM limits acceleration to what is reasonable for a cruise control system. With an
interceptor, the gas is clipped to 60%.
- The brake is controlled by the 0x1FA CAN message. This message allows full
braking, although the panda firmware and openpilot clip it to 1/4th of the max.
This is approximately 0.3g of braking.
- Steering is controlled by the 0xE4 CAN message. The Electronic Power Steering (EPS)
controller in the car limits the torque to a very small amount, so regardless of the
message, the controller cannot jerk the wheel.
- Brake and gas pedal pressed signals are contained in the 0x17C CAN message. A rising edge of
either signals triggers a disengagement, which is enforced by the panda firmware and by openpilot. The
white led on the panda signifies if the panda is allowing control messages.
- Honda CAN uses both a counter and a checksum to ensure integrity and prevent
replay of the same message.
Toyota/Lexus
------
- While the system is engaged, gas, brake and steer commands are subject to the same limits used by
the stock system.
- With the stock Driving Support Unit (DSU) connected (or in DSU-less models like Camry and C-HR),
the acceleration is controlled by the stock system and is subject to the stock adaptive cruise
control limits. Without the stock DSU connected, the acceleration command is controlled by the
0x343 CAN message and its value is limited between .3g of deceleration and .15g of acceleration
by the panda firmware and by openpilot. The acceleration command is ignored by the Engine Control
Module (ECM) while the cruise control system is disengaged.
- Steering torque is controlled through the 0x2E4 CAN message and it's limited by the panda firmware and by
openpilot to a value between -1500 and 1500. In addition, the vehicle EPS unit will not respond to
commands outside these limits. A steering torque rate limit is enforced by the panda firmware and by
openpilot, so that the commanded steering torque must rise from 0 to max value no faster than
1.5s. Commanded steering torque is limited by the panda firmware and by openpilot to be no more than 350
units above the actual EPS generated motor torque to ensure limited differences between
commanded and actual torques.
- Brake and gas pedal pressed signals are contained in the 0x224 and 0x1D2 CAN messages,
respectively. A rising edge of either signals triggers a disengagement, which is enforced by the
panda firmware and by openpilot. Additionally, the cruise control system disengages on the rising edge of
the brake pedal pressed signal.
- The cruise control system state is contained in the 0x1D2 message. No control messages are
allowed if the cruise control system is not active. This is enforced by openpilot and the
panda firmware. The white led on the panda signifies if the panda is allowing control messages.
GM/Chevrolet
------
- While the system is engaged, gas, brake and steer commands are subject to the same limits used by
the stock system.
- The gas and regen are controlled by the 0x2CB message and it's limited by the panda firmware and by
openpilot to a value between 1404 and 3072. the minimum value correspond to a mild decel due to regen,
while 3072 correspond to approximately 0.18g of acceleration from stop.
- The friction brakes are controlled by the 0x315 message and its value is limited by the panda firmware
and openpilot to 350. This is approximately 0.3g of braking.
- Steering torque is controlled through the 0x180 CAN message and it's limited by the panda firmware and by
openpilot to a value between -300 and 300. In addition, the vehicle EPS unit will fault for
commands outside these limits. A steering torque rate limit is enforced by the panda firmware and by
openpilot, so that the commanded steering torque must rise from 0 to max value no faster than
0.75s. Commanded steering torque is gradually limited by the panda firmware and by openpilot if the driver's
torque exceeds 12 units in the opposite dicrection to ensure limited applied torque against the
driver's will.
- Brake pedal and gas pedal potentiometer signals are contained in the 0xF1 and 0x1A1 CAN messages,
respectively. A rising edge of either signals triggers a disengagement, which is enforced by the
panda firmware and by openpilot. Additionally, the cruise control system disengages on the rising edge of
the brake pedal pressed signal. The regen paddle pressed signal is in the 0xBD message. When the
regen paddle is pressed, a disengagement is enforced by both the firmware and by openpilot.
- GM CAN uses both a counter and a checksum to ensure integrity and prevent
replay of the same message.
Hyundai/Kia (Lateral only)
------
- While the system is engaged, steer commands are subject to the same limits used by
the stock system.
- Steering torque is controlled through the 0x340 CAN message and it's limited by the panda firmware and by
openpilot to a value between -255 and 255. In addition, the vehicle EPS unit will fault for
commands outside the values of -409 and 409. A steering torque rate limit is enforced by the panda firmware and by
openpilot, so that the commanded steering torque must rise from 0 to max value no faster than
0.85s. Commanded steering torque is gradually limited by the panda firmware and by openpilot if the driver's
torque exceeds 50 units in the opposite dicrection to ensure limited applied torque against the
driver's will.
Chrysler/Jeep/Fiat (Lateral only)
------
- While the system is engaged, steer commands are subject to the same limits used by
the stock system.
- Steering torque is controlled through the 0x292 CAN message and it's limited by the panda firmware and by
openpilot to a value between -261 and 261. In addition, the vehicle EPS unit will fault for
commands outside these limits. A steering torque rate limit is enforced by the panda firmware and by
openpilot, so that the commanded steering torque must rise from 0 to max value no faster than
0.87s. Commanded steering torque is limited by the panda firmware and by openpilot to be no more than 80
units above the actual EPS generated motor torque to ensure limited differences between
commanded and actual torques.
Subaru (Lateral only)
------
- While the system is engaged, steer commands are subject to the same limits used by
the stock system.
- Steering torque is controlled through the 0x122 CAN message and it's limited by the panda firmware and by
openpilot to a value between -255 and 255. In addition, the vehicle EPS unit will fault for
commands outside the values of -2047 and 2047. A steering torque rate limit is enforced by the panda firmware and by
openpilot, so that the commanded steering torque must rise from 0 to max value no faster than
0.41s. Commanded steering torque is gradually limited by the panda firmware and by openpilot if the driver's
torque exceeds 60 units in the opposite dicrection to ensure limited applied torque against the
driver's will.
**Extra note**: comma.ai strongly discourages the use of openpilot forks with safety code either missing or
not fully meeting the above requirements.
SConstruct
+224
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@@ -0,0 +1,224 @@
import os
import subprocess
import sys
import sysconfig
import platform
import shlex
import numpy as np
import SCons.Errors
SCons.Warnings.warningAsException(True)
Decider('MD5-timestamp')
SetOption('num_jobs', max(1, int(os.cpu_count()/2)))
AddOption('--kaitai', action='store_true', help='Regenerate kaitai struct parsers')
AddOption('--asan', action='store_true', help='turn on ASAN')
AddOption('--ubsan', action='store_true', help='turn on UBSan')
AddOption('--mutation', action='store_true', help='generate mutation-ready code')
AddOption('--ccflags', action='store', type='string', default='', help='pass arbitrary flags over the command line')
AddOption('--minimal',
action='store_false',
dest='extras',
default=os.path.exists(File('#.gitattributes').abspath), # minimal by default on release branch (where there's no LFS)
help='the minimum build to run openpilot. no tests, tools, etc.')
# Detect platform
arch = subprocess.check_output(["uname", "-m"], encoding='utf8').rstrip()
if platform.system() == "Darwin":
arch = "Darwin"
brew_prefix = subprocess.check_output(['brew', '--prefix'], encoding='utf8').strip()
elif arch == "aarch64" and os.path.isfile('/TICI'):
arch = "larch64"
assert arch in [
"larch64", # linux tici arm64
"aarch64", # linux pc arm64
"x86_64", # linux pc x64
"Darwin", # macOS arm64 (x86 not supported)
]
env = Environment(
ENV={
"PATH": os.environ['PATH'],
"PYTHONPATH": Dir("#").abspath + ':' + Dir(f"#third_party/acados").abspath,
"ACADOS_SOURCE_DIR": Dir("#third_party/acados").abspath,
"ACADOS_PYTHON_INTERFACE_PATH": Dir("#third_party/acados/acados_template").abspath,
"TERA_PATH": Dir("#").abspath + f"/third_party/acados/{arch}/t_renderer"
},
CC='clang',
CXX='clang++',
CCFLAGS=[
"-g",
"-fPIC",
"-O2",
"-Wunused",
"-Werror",
"-Wshadow",
"-Wno-unknown-warning-option",
"-Wno-inconsistent-missing-override",
"-Wno-c99-designator",
"-Wno-reorder-init-list",
"-Wno-vla-cxx-extension",
],
CFLAGS=["-std=gnu11"],
CXXFLAGS=["-std=c++1z"],
CPPPATH=[
"#",
"#msgq",
"#third_party",
"#third_party/json11",
"#third_party/linux/include",
"#third_party/acados/include",
"#third_party/acados/include/blasfeo/include",
"#third_party/acados/include/hpipm/include",
"#third_party/catch2/include",
"#third_party/libyuv/include",
],
LIBPATH=[
"#common",
"#msgq_repo",
"#third_party",
"#selfdrive/pandad",
"#rednose/helpers",
f"#third_party/libyuv/{arch}/lib",
f"#third_party/acados/{arch}/lib",
],
RPATH=[],
CYTHONCFILESUFFIX=".cpp",
COMPILATIONDB_USE_ABSPATH=True,
REDNOSE_ROOT="#",
tools=["default", "cython", "compilation_db", "rednose_filter"],
toolpath=["#site_scons/site_tools", "#rednose_repo/site_scons/site_tools"],
)
# Arch-specific flags and paths
if arch == "larch64":
env.Append(CPPPATH=["#third_party/opencl/include"])
env.Append(LIBPATH=[
"/usr/local/lib",
"/system/vendor/lib64",
"/usr/lib/aarch64-linux-gnu",
])
arch_flags = ["-D__TICI__", "-mcpu=cortex-a57"]
env.Append(CCFLAGS=arch_flags)
env.Append(CXXFLAGS=arch_flags)
elif arch == "Darwin":
env.Append(LIBPATH=[
f"{brew_prefix}/lib",
f"{brew_prefix}/opt/openssl@3.0/lib",
f"{brew_prefix}/opt/llvm/lib/c++",
"/System/Library/Frameworks/OpenGL.framework/Libraries",
])
env.Append(CCFLAGS=["-DGL_SILENCE_DEPRECATION"])
env.Append(CXXFLAGS=["-DGL_SILENCE_DEPRECATION"])
env.Append(CPPPATH=[
f"{brew_prefix}/include",
f"{brew_prefix}/opt/openssl@3.0/include",
])
else:
env.Append(LIBPATH=[
"/usr/lib",
"/usr/local/lib",
])
# Sanitizers and extra CCFLAGS from CLI
if GetOption('asan'):
env.Append(CCFLAGS=["-fsanitize=address", "-fno-omit-frame-pointer"])
env.Append(LINKFLAGS=["-fsanitize=address"])
elif GetOption('ubsan'):
env.Append(CCFLAGS=["-fsanitize=undefined"])
env.Append(LINKFLAGS=["-fsanitize=undefined"])
_extra_cc = shlex.split(GetOption('ccflags') or '')
if _extra_cc:
env.Append(CCFLAGS=_extra_cc)
# no --as-needed on mac linker
if arch != "Darwin":
env.Append(LINKFLAGS=["-Wl,--as-needed", "-Wl,--no-undefined"])
# progress output
node_interval = 5
node_count = 0
def progress_function(node):
global node_count
node_count += node_interval
sys.stderr.write("progress: %d\n" % node_count)
if os.environ.get('SCONS_PROGRESS'):
Progress(progress_function, interval=node_interval)
# ********** Cython build environment **********
py_include = sysconfig.get_paths()['include']
envCython = env.Clone()
envCython["CPPPATH"] += [py_include, np.get_include()]
envCython["CCFLAGS"] += ["-Wno-#warnings", "-Wno-shadow", "-Wno-deprecated-declarations"]
envCython["CCFLAGS"].remove("-Werror")
envCython["LIBS"] = []
if arch == "Darwin":
envCython["LINKFLAGS"] = env["LINKFLAGS"] + ["-bundle", "-undefined", "dynamic_lookup"]
else:
envCython["LINKFLAGS"] = ["-pthread", "-shared"]
np_version = SCons.Script.Value(np.__version__)
Export('envCython', 'np_version')
Export('env', 'arch')
# Setup cache dir
cache_dir = '/data/scons_cache' if arch == "larch64" else '/tmp/scons_cache'
CacheDir(cache_dir)
Clean(["."], cache_dir)
# ********** start building stuff **********
# Build common module
SConscript(['common/SConscript'])
Import('_common')
common = [_common, 'json11', 'zmq']
Export('common')
# Build messaging (cereal + msgq + socketmaster + their dependencies)
# Enable swaglog include in submodules
env_swaglog = env.Clone()
env_swaglog['CXXFLAGS'].append('-DSWAGLOG="\\"common/swaglog.h\\""')
SConscript(['msgq_repo/SConscript'], exports={'env': env_swaglog})
SConscript(['opendbc_repo/SConscript'], exports={'env': env_swaglog})
SConscript(['cereal/SConscript'])
Import('socketmaster', 'msgq')
messaging = [socketmaster, msgq, 'capnp', 'kj',]
Export('messaging')
# Build other submodules
SConscript(['panda/SConscript'])
SConscript(['panda_tici/SConscript'])
# Build rednose library
SConscript(['rednose/SConscript'])
# Build system services
SConscript([
'system/ubloxd/SConscript',
'system/loggerd/SConscript',
])
if arch == "larch64":
SConscript(['system/camerad/SConscript'])
# Build openpilot
SConscript(['third_party/SConscript'])
SConscript(['selfdrive/SConscript'])
if Dir('#tools/cabana/').exists() and GetOption('extras'):
SConscript(['tools/replay/SConscript'])
if arch != "larch64":
SConscript(['tools/cabana/SConscript'])
env.CompilationDatabase('compile_commands.json')
SECURITY.md
+5
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@@ -0,0 +1,5 @@
# Security Policy
## Reporting a Vulnerability
Suspected vulnerabilities can be reported to both `adeeb@comma.ai` and `security@comma.ai`.
SPONSORS.md
+26
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@@ -0,0 +1,26 @@
# Sponsors 贊助者
我們誠摯感謝以下贊助者提供的硬體資源,讓專案能夠在多種平台上進行測試與驗證。
We sincerely thank the following sponsors for providing hardware resources, which enable the project to be tested and validated across multiple platforms.
---
## 贊助者列表 Sponsors
| 贊助者 Sponsor | 設備 Deices | 備註 Notes |
| -------------- | ----------- | ---------- |
| BlueGood | <ul><li>Radar Filter x 2</li><li>sDSU x1</li></ul> | - |
| Chia Chun Lee | <ul><li>C3 Quick Mount x1</li></ul> | - |
| CloudJ | <ul><li>C3X x1</li></ul> | - |
| FareWay | <ul><li>EON Quick Mount x1</li><li>C2/C3 Quick Mount x1</li></ul> | Special thanks for fixing my good old EON |
| Fred Wang | <ul><li>Oneplus 3t x1</li></ul> | - |
| Saber Huang | <ul><li>O3L x1</li></ul> | - |
| [馬威 Mr. One](https://shop61532546.taobao.com/) | <ul><li>O3 x 1</li><li>O3 (Dev) x1</li><li>O3XL x1</li><li>Red Panda x1</li><li>Panda Jungle v1 x1</li></ul> | - |
| 門文梁 | <ul><li>C1.5 x1</li></ul> | - |
---
🙏 沒有你們的支持,我們無法讓專案在這麼多硬體平台上持續成長與驗證。
Without your support, this project could not continue to grow and be validated across so many hardware platforms.
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cereal/.gitignore
-6
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gen
node_modules
package-lock.json
*.pyc
__pycache__
cereal/Makefile
-62
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@@ -1,62 +0,0 @@
PWD := $(shell pwd)
SRCS := log.capnp car.capnp
GENS := gen/cpp/car.capnp.c++ gen/cpp/log.capnp.c++
JS := gen/js/car.capnp.js gen/js/log.capnp.js
UNAME_M ?= $(shell uname -m)
GENS += gen/c/car.capnp.c gen/c/log.capnp.c gen/c/include/c++.capnp.h gen/c/include/java.capnp.h
ifeq ($(UNAME_M),x86_64)
ifneq (, $(shell which capnpc-java))
GENS += gen/java/Car.java gen/java/Log.java
else
$(warning capnpc-java not found, skipping java build)
endif
endif
ifeq ($(UNAME_M),aarch64)
CAPNPC=PATH=$(PWD)/../phonelibs/capnp-cpp/aarch64/bin/:$$PATH capnpc
else
CAPNPC=capnpc
endif
.PHONY: all
all: $(GENS)
js: $(JS)
.PHONY: clean
clean:
rm -rf gen
rm -rf node_modules
rm -rf package-lock.json
gen/c/%.capnp.c: %.capnp
@echo "[ CAPNPC C ] $@"
mkdir -p gen/c/
$(CAPNPC) '$<' -o c:gen/c/
gen/js/%.capnp.js: %.capnp
@echo "[ CAPNPC JavaScript ] $@"
mkdir -p gen/js/
sh ./generate_javascript.sh
gen/cpp/%.capnp.c++: %.capnp
@echo "[ CAPNPC C++ ] $@"
mkdir -p gen/cpp/
$(CAPNPC) '$<' -o c++:gen/cpp/
gen/java/Car.java gen/java/Log.java: $(SRCS)
@echo "[ CAPNPC java ] $@"
mkdir -p gen/java/
$(CAPNPC) $^ -o java:gen/java
# c-capnproto needs some empty headers
gen/c/include/c++.capnp.h gen/c/include/java.capnp.h:
mkdir -p gen/c/include
touch '$@'
cereal/README.md
+95
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@@ -0,0 +1,95 @@
# What is cereal?
cereal is the messaging system for openpilot. It uses [msgq](https://github.com/commaai/msgq) as a pub/sub backend, and [Cap'n proto](https://capnproto.org/capnp-tool.html) for serialization of the structs.
## Messaging Spec
You'll find the message types in [log.capnp](log.capnp). It uses [Cap'n proto](https://capnproto.org/capnp-tool.html) and defines one struct called `Event`.
All `Events` have a `logMonoTime` and a `valid`. Then a big union defines the packet type.
### Best Practices
- **All fields must describe quantities in SI units**, unless otherwise specified in the field name.
- In the context of the message they are in, field names should be completely unambiguous.
- All values should be easy to plot and be human-readable with minimal parsing.
### Maintaining backwards-compatibility
When making changes to the messaging spec you want to maintain backwards-compatibility, such that old logs can
be parsed with a new version of cereal. Adding structs and adding members to structs is generally safe, most other
things are not. Read more details [here](https://capnproto.org/language.html).
### Custom forks
Forks of [openpilot](https://github.com/commaai/openpilot) might want to add things to the messaging
spec, however this could conflict with future changes made in mainline cereal/openpilot. Rebasing against mainline openpilot
then means breaking backwards-compatibility with all old logs of your fork. So we added reserved events in
[custom.capnp](custom.capnp) that we will leave empty in mainline cereal/openpilot. **If you only modify those, you can ensure your
fork will remain backwards-compatible with all versions of mainline openpilot and your fork.**
An example of compatible changes:
```diff
diff --git a/cereal/custom.capnp b/cereal/custom.capnp
index 3348e859e..3365c7b98 100644
--- a/cereal/custom.capnp
+++ b/cereal/custom.capnp
@@ -10,7 +10,11 @@ $Cxx.namespace("cereal");
# DO rename the structs
# DON'T change the identifier (e.g. @0x81c2f05a394cf4af)
-struct CustomReserved0 @0x81c2f05a394cf4af {
+struct SteeringInfo @0x81c2f05a394cf4af {
+ active @0 :Bool;
+ steeringAngleDeg @1 :Float32;
+ steeringRateDeg @2 :Float32;
+ steeringAccelDeg @3 :Float32;
}
struct CustomReserved1 @0xaedffd8f31e7b55d {
diff --git a/cereal/log.capnp b/cereal/log.capnp
index 1209f3fd9..b189f58b6 100644
--- a/cereal/log.capnp
+++ b/cereal/log.capnp
@@ -2558,14 +2558,14 @@ struct Event {
# DO change the name of the field
# DON'T change anything after the "@"
- customReservedRawData0 @124 :Data;
+ rawCanData @124 :Data;
customReservedRawData1 @125 :Data;
customReservedRawData2 @126 :Data;
# DO change the name of the field and struct
# DON'T change the ID (e.g. @107)
# DON'T change which struct it points to
- customReserved0 @107 :Custom.CustomReserved0;
+ steeringInfo @107 :Custom.SteeringInfo;
customReserved1 @108 :Custom.CustomReserved1;
customReserved2 @109 :Custom.CustomReserved2;
customReserved3 @110 :Custom.CustomReserved3;
```
---
Example
---
```python
import cereal.messaging as messaging
# in subscriber
sm = messaging.SubMaster(['sensorEvents'])
while 1:
sm.update()
print(sm['sensorEvents'])
```
```python
# in publisher
pm = messaging.PubMaster(['sensorEvents'])
dat = messaging.new_message('sensorEvents', size=1)
dat.sensorEvents[0] = {"gyro": {"v": [0.1, -0.1, 0.1]}}
pm.send('sensorEvents', dat)
```
cereal/SConscript
+20
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Import('env', 'common', 'msgq')
cereal_dir = Dir('.')
gen_dir = Dir('gen')
# Build cereal
schema_files = ['log.capnp', 'car.capnp', 'legacy.capnp', 'custom.capnp']
env.Command([f'gen/cpp/{s}.c++' for s in schema_files] + [f'gen/cpp/{s}.h' for s in schema_files],
schema_files,
f"capnpc --src-prefix={cereal_dir.path} $SOURCES -o c++:{gen_dir.path}/cpp/")
cereal = env.Library('cereal', [f'gen/cpp/{s}.c++' for s in schema_files])
# Build messaging
services_h = env.Command(['services.h'], ['services.py'], 'python3 ' + cereal_dir.path + '/services.py > $TARGET')
env.Program('messaging/bridge', ['messaging/bridge.cc', 'messaging/msgq_to_zmq.cc'], LIBS=[msgq, common, 'pthread'])
socketmaster = env.Library('socketmaster', ['messaging/socketmaster.cc'])
Export('cereal', 'socketmaster')
cereal/__init__.py
+6 -3
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@@ -1,8 +1,11 @@
import os
import capnp
from importlib.resources import as_file, files
CEREAL_PATH = os.path.dirname(os.path.abspath(__file__))
capnp.remove_import_hook()
log = capnp.load(os.path.join(CEREAL_PATH, "log.capnp"))
car = capnp.load(os.path.join(CEREAL_PATH, "car.capnp"))
with as_file(files("cereal")) as fspath:
CEREAL_PATH = fspath.as_posix()
log = capnp.load(os.path.join(CEREAL_PATH, "log.capnp"))
car = capnp.load(os.path.join(CEREAL_PATH, "car.capnp"))
custom = capnp.load(os.path.join(CEREAL_PATH, "custom.capnp"))
cereal/car.capnp
-415
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@@ -1,415 +0,0 @@
using Cxx = import "./include/c++.capnp";
$Cxx.namespace("cereal");
using Java = import "./include/java.capnp";
$Java.package("ai.comma.openpilot.cereal");
$Java.outerClassname("Car");
@0x8e2af1e708af8b8d;
# ******* events causing controls state machine transition *******
struct CarEvent @0x9b1657f34caf3ad3 {
name @0 :EventName;
enable @1 :Bool;
noEntry @2 :Bool;
warning @3 :Bool;
userDisable @4 :Bool;
softDisable @5 :Bool;
immediateDisable @6 :Bool;
preEnable @7 :Bool;
permanent @8 :Bool;
enum EventName @0xbaa8c5d505f727de {
# TODO: copy from error list
canError @0;
steerUnavailable @1;
brakeUnavailable @2;
gasUnavailable @3;
wrongGear @4;
doorOpen @5;
seatbeltNotLatched @6;
espDisabled @7;
wrongCarMode @8;
steerTempUnavailable @9;
reverseGear @10;
buttonCancel @11;
buttonEnable @12;
pedalPressed @13;
cruiseDisabled @14;
radarCanError @15;
dataNeeded @16;
speedTooLow @17;
outOfSpace @18;
overheat @19;
calibrationIncomplete @20;
calibrationInvalid @21;
controlsMismatch @22;
pcmEnable @23;
pcmDisable @24;
noTarget @25;
radarFault @26;
modelCommIssueDEPRECATED @27;
brakeHold @28;
parkBrake @29;
manualRestart @30;
lowSpeedLockout @31;
plannerError @32;
ipasOverride @33;
debugAlert @34;
steerTempUnavailableMute @35;
resumeRequired @36;
preDriverDistracted @37;
promptDriverDistracted @38;
driverDistracted @39;
geofence @40;
driverMonitorOn @41;
driverMonitorOff @42;
preDriverUnresponsive @43;
promptDriverUnresponsive @44;
driverUnresponsive @45;
belowSteerSpeed @46;
calibrationProgress @47;
lowBattery @48;
invalidGiraffeHonda @49;
vehicleModelInvalid @50;
controlsFailed @51;
sensorDataInvalid @52;
commIssue @53;
tooDistracted @54;
posenetInvalid @55;
soundsUnavailable @56;
preLaneChangeLeft @57;
preLaneChangeRight @58;
laneChange @59;
manualSteeringRequired @60;
manualSteeringRequiredBlinkersOn @61;
}
}
# ******* main car state @ 100hz *******
# all speeds in m/s
struct CarState {
errorsDEPRECATED @0 :List(CarEvent.EventName);
events @13 :List(CarEvent);
# car speed
vEgo @1 :Float32; # best estimate of speed
aEgo @16 :Float32; # best estimate of acceleration
vEgoRaw @17 :Float32; # unfiltered speed from CAN sensors
yawRate @22 :Float32; # best estimate of yaw rate
standstill @18 :Bool;
wheelSpeeds @2 :WheelSpeeds;
# gas pedal, 0.0-1.0
gas @3 :Float32; # this is user + computer
gasPressed @4 :Bool; # this is user pedal only
# brake pedal, 0.0-1.0
brake @5 :Float32; # this is user pedal only
brakePressed @6 :Bool; # this is user pedal only
brakeLights @19 :Bool;
# steering wheel
steeringAngle @7 :Float32; # deg
steeringRate @15 :Float32; # deg/s
steeringTorque @8 :Float32; # TODO: standardize units
steeringTorqueEps @27 :Float32; # TODO: standardize units
steeringPressed @9 :Bool; # if the user is using the steering wheel
# cruise state
cruiseState @10 :CruiseState;
# gear
gearShifter @14 :GearShifter;
# button presses
buttonEvents @11 :List(ButtonEvent);
leftBlinker @20 :Bool;
rightBlinker @21 :Bool;
genericToggle @23 :Bool;
# lock info
doorOpen @24 :Bool;
seatbeltUnlatched @25 :Bool;
canValid @26 :Bool;
# which packets this state came from
canMonoTimes @12: List(UInt64);
struct WheelSpeeds {
# optional wheel speeds
fl @0 :Float32;
fr @1 :Float32;
rl @2 :Float32;
rr @3 :Float32;
}
struct CruiseState {
enabled @0 :Bool;
speed @1 :Float32;
available @2 :Bool;
speedOffset @3 :Float32;
standstill @4 :Bool;
}
enum GearShifter {
unknown @0;
park @1;
drive @2;
neutral @3;
reverse @4;
sport @5;
low @6;
brake @7;
}
# send on change
struct ButtonEvent {
pressed @0 :Bool;
type @1 :Type;
enum Type {
unknown @0;
leftBlinker @1;
rightBlinker @2;
accelCruise @3;
decelCruise @4;
cancel @5;
altButton1 @6;
altButton2 @7;
altButton3 @8;
}
}
}
# ******* radar state @ 20hz *******
struct RadarData @0x888ad6581cf0aacb {
errors @0 :List(Error);
points @1 :List(RadarPoint);
# which packets this state came from
canMonoTimes @2 :List(UInt64);
enum Error {
canError @0;
fault @1;
wrongConfig @2;
}
# similar to LiveTracks
# is one timestamp valid for all? I think so
struct RadarPoint {
trackId @0 :UInt64; # no trackId reuse
# these 3 are the minimum required
dRel @1 :Float32; # m from the front bumper of the car
yRel @2 :Float32; # m
vRel @3 :Float32; # m/s
# these are optional and valid if they are not NaN
aRel @4 :Float32; # m/s^2
yvRel @5 :Float32; # m/s
# some radars flag measurements VS estimates
measured @6 :Bool;
}
}
# ******* car controls @ 100hz *******
struct CarControl {
# must be true for any actuator commands to work
enabled @0 :Bool;
active @7 :Bool;
gasDEPRECATED @1 :Float32;
brakeDEPRECATED @2 :Float32;
steeringTorqueDEPRECATED @3 :Float32;
actuators @6 :Actuators;
cruiseControl @4 :CruiseControl;
hudControl @5 :HUDControl;
struct Actuators {
# range from 0.0 - 1.0
gas @0: Float32;
brake @1: Float32;
# range from -1.0 - 1.0
steer @2: Float32;
steerAngle @3: Float32;
}
struct CruiseControl {
cancel @0: Bool;
override @1: Bool;
speedOverride @2: Float32;
accelOverride @3: Float32;
}
struct HUDControl {
speedVisible @0: Bool;
setSpeed @1: Float32;
lanesVisible @2: Bool;
leadVisible @3: Bool;
visualAlert @4: VisualAlert;
audibleAlert @5: AudibleAlert;
rightLaneVisible @6: Bool;
leftLaneVisible @7: Bool;
rightLaneDepart @8: Bool;
leftLaneDepart @9: Bool;
enum VisualAlert {
# these are the choices from the Honda
# map as good as you can for your car
none @0;
fcw @1;
steerRequired @2;
brakePressed @3;
wrongGear @4;
seatbeltUnbuckled @5;
speedTooHigh @6;
}
enum AudibleAlert {
# these are the choices from the Honda
# map as good as you can for your car
none @0;
chimeEngage @1;
chimeDisengage @2;
chimeError @3;
chimeWarning1 @4;
chimeWarning2 @5;
chimeWarningRepeat @6;
chimePrompt @7;
}
}
}
# ****** car param ******
struct CarParams {
carName @0 :Text;
carFingerprint @1 :Text;
enableGasInterceptor @2 :Bool;
enableCruise @3 :Bool;
enableCamera @4 :Bool;
enableDsu @5 :Bool; # driving support unit
enableApgs @6 :Bool; # advanced parking guidance system
minEnableSpeed @7 :Float32;
minSteerSpeed @8 :Float32;
safetyModel @9 :SafetyModel;
safetyModelPassive @42 :SafetyModel = noOutput;
safetyParam @10 :Int16;
steerMaxBP @11 :List(Float32);
steerMaxV @12 :List(Float32);
gasMaxBP @13 :List(Float32);
gasMaxV @14 :List(Float32);
brakeMaxBP @15 :List(Float32);
brakeMaxV @16 :List(Float32);
# things about the car in the manual
mass @17 :Float32; # [kg] running weight
wheelbase @18 :Float32; # [m] distance from rear to front axle
centerToFront @19 :Float32; # [m] GC distance to front axle
steerRatio @20 :Float32; # [] ratio between front wheels and steering wheel angles
steerRatioRear @21 :Float32; # [] rear steering ratio wrt front steering (usually 0)
# things we can derive
rotationalInertia @22 :Float32; # [kg*m2] body rotational inertia
tireStiffnessFront @23 :Float32; # [N/rad] front tire coeff of stiff
tireStiffnessRear @24 :Float32; # [N/rad] rear tire coeff of stiff
longitudinalTuning @25 :LongitudinalPIDTuning;
lateralTuning :union {
pid @26 :LateralPIDTuning;
indi @27 :LateralINDITuning;
lqr @40 :LateralLQRTuning;
}
steerLimitAlert @28 :Bool;
vEgoStopping @29 :Float32; # Speed at which the car goes into stopping state
directAccelControl @30 :Bool; # Does the car have direct accel control or just gas/brake
stoppingControl @31 :Bool; # Does the car allows full control even at lows speeds when stopping
startAccel @32 :Float32; # Required acceleraton to overcome creep braking
steerRateCost @33 :Float32; # Lateral MPC cost on steering rate
steerControlType @34 :SteerControlType;
radarOffCan @35 :Bool; # True when radar objects aren't visible on CAN
steerActuatorDelay @36 :Float32; # Steering wheel actuator delay in seconds
openpilotLongitudinalControl @37 :Bool; # is openpilot doing the longitudinal control?
carVin @38 :Text; # VIN number queried during fingerprinting
isPandaBlack @39: Bool;
dashcamOnly @41: Bool;
struct LateralPIDTuning {
kpBP @0 :List(Float32);
kpV @1 :List(Float32);
kiBP @2 :List(Float32);
kiV @3 :List(Float32);
kf @4 :Float32;
}
struct LongitudinalPIDTuning {
kpBP @0 :List(Float32);
kpV @1 :List(Float32);
kiBP @2 :List(Float32);
kiV @3 :List(Float32);
deadzoneBP @4 :List(Float32);
deadzoneV @5 :List(Float32);
}
struct LateralINDITuning {
outerLoopGain @0 :Float32;
innerLoopGain @1 :Float32;
timeConstant @2 :Float32;
actuatorEffectiveness @3 :Float32;
}
struct LateralLQRTuning {
scale @0 :Float32;
ki @1 :Float32;
dcGain @2 :Float32;
# State space system
a @3 :List(Float32);
b @4 :List(Float32);
c @5 :List(Float32);
k @6 :List(Float32); # LQR gain
l @7 :List(Float32); # Kalman gain
}
enum SafetyModel {
# does NOT match board setting
noOutput @0;
honda @1;
toyota @2;
elm327 @3;
gm @4;
hondaBosch @5;
ford @6;
cadillac @7;
hyundai @8;
chrysler @9;
tesla @10;
subaru @11;
gmPassive @12;
}
enum SteerControlType {
torque @0;
angle @1;
}
}
cereal/car.capnp
Symlink
+1
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@@ -0,0 +1 @@
../opendbc_repo/opendbc/car/car.capnp
cereal/custom.capnp
+74
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@@ -0,0 +1,74 @@
using Cxx = import "./include/c++.capnp";
$Cxx.namespace("cereal");
@0xb526ba661d550a59;
# custom.capnp: a home for empty structs reserved for custom forks
# These structs are guaranteed to remain reserved and empty in mainline
# cereal, so use these if you want custom events in your fork.
# DO rename the structs
# DON'T change the identifier (e.g. @0x81c2f05a394cf4af)
struct DpControlsState @0x81c2f05a394cf4af {
alkaActive @0 :Bool;
}
struct ModelExt @0xaedffd8f31e7b55d {
leftEdgeDetected @0 :Bool;
rightEdgeDetected @1 :Bool;
}
struct CustomReserved2 @0xf35cc4560bbf6ec2 {
}
struct CustomReserved3 @0xda96579883444c35 {
}
struct CustomReserved4 @0x80ae746ee2596b11 {
}
struct CustomReserved5 @0xa5cd762cd951a455 {
}
struct CustomReserved6 @0xf98d843bfd7004a3 {
}
struct CustomReserved7 @0xb86e6369214c01c8 {
}
struct CustomReserved8 @0xf416ec09499d9d19 {
}
struct CustomReserved9 @0xa1680744031fdb2d {
}
struct CustomReserved10 @0xcb9fd56c7057593a {
}
struct CustomReserved11 @0xc2243c65e0340384 {
}
struct CustomReserved12 @0x9ccdc8676701b412 {
}
struct CustomReserved13 @0xcd96dafb67a082d0 {
}
struct CustomReserved14 @0xb057204d7deadf3f {
}
struct CustomReserved15 @0xbd443b539493bc68 {
}
struct CustomReserved16 @0xfc6241ed8877b611 {
}
struct CustomReserved17 @0xa30662f84033036c {
}
struct CustomReserved18 @0xc86a3d38d13eb3ef {
}
struct CustomReserved19 @0xa4f1eb3323f5f582 {
}
cereal/generate_javascript.sh
-26
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@@ -1,26 +0,0 @@
#!/bin/bash
rm -r gen/ts
rm -r gen/js
mkdir gen/ts
mkdir gen/js
echo "Installing needed npm modules"
npm i capnpc-ts capnp-ts
capnpc -o node_modules/.bin/capnpc-ts:gen/ts log.capnp car.capnp
capnpc -o node_modules/.bin/capnpc-ts:gen/ts car.capnp
cat log.capnp | egrep '\([a-zA-Z]*\.[^\s]+\.[^s]+\)' | sed 's/^.*([a-zA-Z]*\.\([a-zA-Z.]*\)).*/\1/' | while read line
do
TOKEN=`echo $line | sed 's/\./_/g'`
ROOT=`echo $line | sed 's/\..*$//g'`
cat gen/ts/log.capnp.ts | grep '^import.*'${TOKEN}
if [[ "$?" == "1" ]]
then
sed -i 's/^\(import {.*\)'${ROOT}'\(,*\) \(.*\)$/\1'${ROOT}', '${TOKEN}'\2 \3/' ./gen/ts/log.capnp.ts
fi
done
tsc ./gen/ts/* --lib es2015 --outDir ./gen/js
cereal/include/java.capnp
-28
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@@ -1,28 +0,0 @@
# Copyright (c) 2013-2015 Sandstorm Development Group, Inc. and contributors
# Licensed under the MIT License:
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
@0xc5f1af96651f70ea;
annotation package @0x9ee4c8f803b3b596 (file) : Text;
# Name of the package, such as "org.example.foo", in which the generated code will reside.
annotation outerClassname @0x9b066bb4881f7cd3 (file) : Text;
# Name of the outer class that will wrap the generated code.
cereal/install_capnp.sh
-39
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@@ -1,39 +0,0 @@
set -e
echo "Installing capnp"
cd /tmp
VERSION=0.6.1
wget https://capnproto.org/capnproto-c++-${VERSION}.tar.gz
tar xvf capnproto-c++-${VERSION}.tar.gz
cd capnproto-c++-${VERSION}
CXXFLAGS="-fPIC" ./configure
make -j4
# manually build binaries statically
g++ -std=gnu++11 -I./src -I./src -DKJ_HEADER_WARNINGS -DCAPNP_HEADER_WARNINGS -DCAPNP_INCLUDE_DIR=\"/usr/local/include\" -pthread -O2 -DNDEBUG -pthread -pthread -o .libs/capnp src/capnp/compiler/module-loader.o src/capnp/compiler/capnp.o ./.libs/libcapnpc.a ./.libs/libcapnp.a ./.libs/libkj.a -lpthread -pthread
g++ -std=gnu++11 -I./src -I./src -DKJ_HEADER_WARNINGS -DCAPNP_HEADER_WARNINGS -DCAPNP_INCLUDE_DIR=\"/usr/local/include\" -pthread -O2 -DNDEBUG -pthread -pthread -o .libs/capnpc-c++ src/capnp/compiler/capnpc-c++.o ./.libs/libcapnp.a ./.libs/libkj.a -lpthread -pthread
g++ -std=gnu++11 -I./src -I./src -DKJ_HEADER_WARNINGS -DCAPNP_HEADER_WARNINGS -DCAPNP_INCLUDE_DIR=\"/usr/local/include\" -pthread -O2 -DNDEBUG -pthread -pthread -o .libs/capnpc-capnp src/capnp/compiler/capnpc-capnp.o ./.libs/libcapnp.a ./.libs/libkj.a -lpthread -pthread
cp .libs/capnp /usr/local/bin/
ln -s /usr/local/bin/capnp /usr/local/bin/capnpc
cp .libs/capnpc-c++ /usr/local/bin/
cp .libs/capnpc-capnp /usr/local/bin/
cp .libs/*.a /usr/local/lib
cd /tmp
echo "Installing c-capnp"
git clone https://github.com/commaai/c-capnproto.git
cd c-capnproto
git submodule update --init --recursive
autoreconf -f -i -s
CXXFLAGS="-fPIC" ./configure
make -j4
# manually build binaries statically
gcc -fPIC -o .libs/capnpc-c compiler/capnpc-c.o compiler/schema.capnp.o compiler/str.o ./.libs/libcapnp_c.a
cp .libs/capnpc-c /usr/local/bin/
cp .libs/*.a /usr/local/lib
cereal/legacy.capnp
+574
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@@ -0,0 +1,574 @@
using Cxx = import "./include/c++.capnp";
$Cxx.namespace("cereal");
@0x80ef1ec4889c2a63;
# legacy.capnp: a home for deprecated structs
struct LogRotate @0x9811e1f38f62f2d1 {
segmentNum @0 :Int32;
path @1 :Text;
}
struct LiveUI @0xc08240f996aefced {
rearViewCam @0 :Bool;
alertText1 @1 :Text;
alertText2 @2 :Text;
awarenessStatus @3 :Float32;
}
struct UiLayoutState @0x88dcce08ad29dda0 {
activeApp @0 :App;
sidebarCollapsed @1 :Bool;
mapEnabled @2 :Bool;
mockEngaged @3 :Bool;
enum App @0x9917470acf94d285 {
home @0;
music @1;
nav @2;
settings @3;
none @4;
}
}
struct OrbslamCorrection @0x8afd33dc9b35e1aa {
correctionMonoTime @0 :UInt64;
prePositionECEF @1 :List(Float64);
postPositionECEF @2 :List(Float64);
prePoseQuatECEF @3 :List(Float32);
postPoseQuatECEF @4 :List(Float32);
numInliers @5 :UInt32;
}
struct EthernetPacket @0xa99a9d5b33cf5859 {
pkt @0 :Data;
ts @1 :Float32;
}
struct CellInfo @0xcff7566681c277ce {
timestamp @0 :UInt64;
repr @1 :Text; # android toString() for now
}
struct WifiScan @0xd4df5a192382ba0b {
bssid @0 :Text;
ssid @1 :Text;
capabilities @2 :Text;
frequency @3 :Int32;
level @4 :Int32;
timestamp @5 :Int64;
centerFreq0 @6 :Int32;
centerFreq1 @7 :Int32;
channelWidth @8 :ChannelWidth;
operatorFriendlyName @9 :Text;
venueName @10 :Text;
is80211mcResponder @11 :Bool;
passpoint @12 :Bool;
distanceCm @13 :Int32;
distanceSdCm @14 :Int32;
enum ChannelWidth @0xcb6a279f015f6b51 {
w20Mhz @0;
w40Mhz @1;
w80Mhz @2;
w160Mhz @3;
w80Plus80Mhz @4;
}
}
struct LiveEventData @0x94b7baa90c5c321e {
name @0 :Text;
value @1 :Int32;
}
struct ModelData @0xb8aad62cffef28a9 {
frameId @0 :UInt32;
frameAge @12 :UInt32;
frameDropPerc @13 :Float32;
timestampEof @9 :UInt64;
modelExecutionTime @14 :Float32;
gpuExecutionTime @16 :Float32;
rawPred @15 :Data;
path @1 :PathData;
leftLane @2 :PathData;
rightLane @3 :PathData;
lead @4 :LeadData;
freePath @6 :List(Float32);
settings @5 :ModelSettings;
leadFuture @7 :LeadData;
speed @8 :List(Float32);
meta @10 :MetaData;
longitudinal @11 :LongitudinalData;
struct PathData @0x8817eeea389e9f08 {
points @0 :List(Float32);
prob @1 :Float32;
std @2 :Float32;
stds @3 :List(Float32);
poly @4 :List(Float32);
validLen @5 :Float32;
}
struct LeadData @0xd1c9bef96d26fa91 {
dist @0 :Float32;
prob @1 :Float32;
std @2 :Float32;
relVel @3 :Float32;
relVelStd @4 :Float32;
relY @5 :Float32;
relYStd @6 :Float32;
relA @7 :Float32;
relAStd @8 :Float32;
}
struct ModelSettings @0xa26e3710efd3e914 {
bigBoxX @0 :UInt16;
bigBoxY @1 :UInt16;
bigBoxWidth @2 :UInt16;
bigBoxHeight @3 :UInt16;
boxProjection @4 :List(Float32);
yuvCorrection @5 :List(Float32);
inputTransform @6 :List(Float32);
}
struct MetaData @0x9744f25fb60f2bf8 {
engagedProb @0 :Float32;
desirePrediction @1 :List(Float32);
brakeDisengageProb @2 :Float32;
gasDisengageProb @3 :Float32;
steerOverrideProb @4 :Float32;
desireState @5 :List(Float32);
}
struct LongitudinalData @0xf98f999c6a071122 {
distances @2 :List(Float32);
speeds @0 :List(Float32);
accelerations @1 :List(Float32);
}
}
struct ECEFPoint @0xc25bbbd524983447 {
x @0 :Float64;
y @1 :Float64;
z @2 :Float64;
}
struct ECEFPointDEPRECATED @0xe10e21168db0c7f7 {
x @0 :Float32;
y @1 :Float32;
z @2 :Float32;
}
struct GPSPlannerPoints @0xab54c59699f8f9f3 {
curPosDEPRECATED @0 :ECEFPointDEPRECATED;
pointsDEPRECATED @1 :List(ECEFPointDEPRECATED);
curPos @6 :ECEFPoint;
points @7 :List(ECEFPoint);
valid @2 :Bool;
trackName @3 :Text;
speedLimit @4 :Float32;
accelTarget @5 :Float32;
}
struct GPSPlannerPlan @0xf5ad1d90cdc1dd6b {
valid @0 :Bool;
poly @1 :List(Float32);
trackName @2 :Text;
speed @3 :Float32;
acceleration @4 :Float32;
pointsDEPRECATED @5 :List(ECEFPointDEPRECATED);
points @6 :List(ECEFPoint);
xLookahead @7 :Float32;
}
struct UiNavigationEvent @0x90c8426c3eaddd3b {
type @0: Type;
status @1: Status;
distanceTo @2: Float32;
endRoadPointDEPRECATED @3: ECEFPointDEPRECATED;
endRoadPoint @4: ECEFPoint;
enum Type @0xe8db07dcf8fcea05 {
none @0;
laneChangeLeft @1;
laneChangeRight @2;
mergeLeft @3;
mergeRight @4;
turnLeft @5;
turnRight @6;
}
enum Status @0xb9aa88c75ef99a1f {
none @0;
passive @1;
approaching @2;
active @3;
}
}
struct LiveLocationData @0xb99b2bc7a57e8128 {
status @0 :UInt8;
# 3D fix
lat @1 :Float64;
lon @2 :Float64;
alt @3 :Float32; # m
# speed
speed @4 :Float32; # m/s
# NED velocity components
vNED @5 :List(Float32);
# roll, pitch, heading (x,y,z)
roll @6 :Float32; # WRT to center of earth?
pitch @7 :Float32; # WRT to center of earth?
heading @8 :Float32; # WRT to north?
# what are these?
wanderAngle @9 :Float32;
trackAngle @10 :Float32;
# car frame -- https://upload.wikimedia.org/wikipedia/commons/f/f5/RPY_angles_of_cars.png
# gyro, in car frame, deg/s
gyro @11 :List(Float32);
# accel, in car frame, m/s^2
accel @12 :List(Float32);
accuracy @13 :Accuracy;
source @14 :SensorSource;
# if we are fixing a location in the past
fixMonoTime @15 :UInt64;
gpsWeek @16 :Int32;
timeOfWeek @17 :Float64;
positionECEF @18 :List(Float64);
poseQuatECEF @19 :List(Float32);
pitchCalibration @20 :Float32;
yawCalibration @21 :Float32;
imuFrame @22 :List(Float32);
struct Accuracy @0x943dc4625473b03f {
pNEDError @0 :List(Float32);
vNEDError @1 :List(Float32);
rollError @2 :Float32;
pitchError @3 :Float32;
headingError @4 :Float32;
ellipsoidSemiMajorError @5 :Float32;
ellipsoidSemiMinorError @6 :Float32;
ellipsoidOrientationError @7 :Float32;
}
enum SensorSource @0xc871d3cc252af657 {
applanix @0;
kalman @1;
orbslam @2;
timing @3;
dummy @4;
}
}
struct OrbOdometry @0xd7700859ed1f5b76 {
# timing first
startMonoTime @0 :UInt64;
endMonoTime @1 :UInt64;
# fundamental matrix and error
f @2: List(Float64);
err @3: Float64;
# number of inlier points
inliers @4: Int32;
# for debug only
# indexed by endMonoTime features
# value is startMonoTime feature match
# -1 if no match
matches @5: List(Int16);
}
struct OrbFeatures @0xcd60164a8a0159ef {
timestampEof @0 :UInt64;
# transposed arrays of normalized image coordinates
# len(xs) == len(ys) == len(descriptors) * 32
xs @1 :List(Float32);
ys @2 :List(Float32);
descriptors @3 :Data;
octaves @4 :List(Int8);
# match index to last OrbFeatures
# -1 if no match
timestampLastEof @5 :UInt64;
matches @6: List(Int16);
}
struct OrbFeaturesSummary @0xd500d30c5803fa4f {
timestampEof @0 :UInt64;
timestampLastEof @1 :UInt64;
featureCount @2 :UInt16;
matchCount @3 :UInt16;
computeNs @4 :UInt64;
}
struct OrbKeyFrame @0xc8233c0345e27e24 {
# this is a globally unique id for the KeyFrame
id @0: UInt64;
# this is the location of the KeyFrame
pos @1: ECEFPoint;
# these are the features in the world
# len(dpos) == len(descriptors) * 32
dpos @2 :List(ECEFPoint);
descriptors @3 :Data;
}
struct KalmanOdometry @0x92e21bb7ea38793a {
trans @0 :List(Float32); # m/s in device frame
rot @1 :List(Float32); # rad/s in device frame
transStd @2 :List(Float32); # std m/s in device frame
rotStd @3 :List(Float32); # std rad/s in device frame
}
struct OrbObservation @0x9b326d4e436afec7 {
observationMonoTime @0 :UInt64;
normalizedCoordinates @1 :List(Float32);
locationECEF @2 :List(Float64);
matchDistance @3: UInt32;
}
struct CalibrationFeatures @0x8fdfadb254ea867a {
frameId @0 :UInt32;
p0 @1 :List(Float32);
p1 @2 :List(Float32);
status @3 :List(Int8);
}
struct NavStatus @0xbd8822120928120c {
isNavigating @0 :Bool;
currentAddress @1 :Address;
struct Address @0xce7cd672cacc7814 {
title @0 :Text;
lat @1 :Float64;
lng @2 :Float64;
house @3 :Text;
address @4 :Text;
street @5 :Text;
city @6 :Text;
state @7 :Text;
country @8 :Text;
}
}
struct NavUpdate @0xdb98be6565516acb {
isNavigating @0 :Bool;
curSegment @1 :Int32;
segments @2 :List(Segment);
struct LatLng @0x9eaef9187cadbb9b {
lat @0 :Float64;
lng @1 :Float64;
}
struct Segment @0xa5b39b4fc4d7da3f {
from @0 :LatLng;
to @1 :LatLng;
updateTime @2 :Int32;
distance @3 :Int32;
crossTime @4 :Int32;
exitNo @5 :Int32;
instruction @6 :Instruction;
parts @7 :List(LatLng);
enum Instruction @0xc5417a637451246f {
turnLeft @0;
turnRight @1;
keepLeft @2;
keepRight @3;
straight @4;
roundaboutExitNumber @5;
roundaboutExit @6;
roundaboutTurnLeft @7;
unkn8 @8;
roundaboutStraight @9;
unkn10 @10;
roundaboutTurnRight @11;
unkn12 @12;
roundaboutUturn @13;
unkn14 @14;
arrive @15;
exitLeft @16;
exitRight @17;
unkn18 @18;
uturn @19;
# ...
}
}
}
struct TrafficEvent @0xacfa74a094e62626 {
type @0 :Type;
distance @1 :Float32;
action @2 :Action;
resuming @3 :Bool;
enum Type @0xd85d75253435bf4b {
stopSign @0;
lightRed @1;
lightYellow @2;
lightGreen @3;
stopLight @4;
}
enum Action @0xa6f6ce72165ccb49 {
none @0;
yield @1;
stop @2;
resumeReady @3;
}
}
struct AndroidGnss @0xdfdf30d03fc485bd {
union {
measurements @0 :Measurements;
navigationMessage @1 :NavigationMessage;
}
struct Measurements @0xa20710d4f428d6cd {
clock @0 :Clock;
measurements @1 :List(Measurement);
struct Clock @0xa0e27b453a38f450 {
timeNanos @0 :Int64;
hardwareClockDiscontinuityCount @1 :Int32;
hasTimeUncertaintyNanos @2 :Bool;
timeUncertaintyNanos @3 :Float64;
hasLeapSecond @4 :Bool;
leapSecond @5 :Int32;
hasFullBiasNanos @6 :Bool;
fullBiasNanos @7 :Int64;
hasBiasNanos @8 :Bool;
biasNanos @9 :Float64;
hasBiasUncertaintyNanos @10 :Bool;
biasUncertaintyNanos @11 :Float64;
hasDriftNanosPerSecond @12 :Bool;
driftNanosPerSecond @13 :Float64;
hasDriftUncertaintyNanosPerSecond @14 :Bool;
driftUncertaintyNanosPerSecond @15 :Float64;
}
struct Measurement @0xd949bf717d77614d {
svId @0 :Int32;
constellation @1 :Constellation;
timeOffsetNanos @2 :Float64;
state @3 :Int32;
receivedSvTimeNanos @4 :Int64;
receivedSvTimeUncertaintyNanos @5 :Int64;
cn0DbHz @6 :Float64;
pseudorangeRateMetersPerSecond @7 :Float64;
pseudorangeRateUncertaintyMetersPerSecond @8 :Float64;
accumulatedDeltaRangeState @9 :Int32;
accumulatedDeltaRangeMeters @10 :Float64;
accumulatedDeltaRangeUncertaintyMeters @11 :Float64;
hasCarrierFrequencyHz @12 :Bool;
carrierFrequencyHz @13 :Float32;
hasCarrierCycles @14 :Bool;
carrierCycles @15 :Int64;
hasCarrierPhase @16 :Bool;
carrierPhase @17 :Float64;
hasCarrierPhaseUncertainty @18 :Bool;
carrierPhaseUncertainty @19 :Float64;
hasSnrInDb @20 :Bool;
snrInDb @21 :Float64;
multipathIndicator @22 :MultipathIndicator;
enum Constellation @0x9ef1f3ff0deb5ffb {
unknown @0;
gps @1;
sbas @2;
glonass @3;
qzss @4;
beidou @5;
galileo @6;
}
enum State @0xcbb9490adce12d72 {
unknown @0;
codeLock @1;
bitSync @2;
subframeSync @3;
towDecoded @4;
msecAmbiguous @5;
symbolSync @6;
gloStringSync @7;
gloTodDecoded @8;
bdsD2BitSync @9;
bdsD2SubframeSync @10;
galE1bcCodeLock @11;
galE1c2ndCodeLock @12;
galE1bPageSync @13;
sbasSync @14;
}
enum MultipathIndicator @0xc04e7b6231d4caa8 {
unknown @0;
detected @1;
notDetected @2;
}
}
}
struct NavigationMessage @0xe2517b083095fd4e {
type @0 :Int32;
svId @1 :Int32;
messageId @2 :Int32;
submessageId @3 :Int32;
data @4 :Data;
status @5 :Status;
enum Status @0xec1ff7996b35366f {
unknown @0;
parityPassed @1;
parityRebuilt @2;
}
}
}
struct LidarPts @0xe3d6685d4e9d8f7a {
r @0 :List(UInt16); # uint16 m*500.0
theta @1 :List(UInt16); # uint16 deg*100.0
reflect @2 :List(UInt8); # uint8 0-255
# For storing out of file.
idx @3 :UInt64;
# For storing in file
pkt @4 :Data;
}
cereal/log.capnp
+1892 -1046
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cereal/maptile.capnp
-53
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@@ -1,53 +0,0 @@
using Cxx = import "./include/c++.capnp";
$Cxx.namespace("cereal");
using Java = import "./include/java.capnp";
$Java.package("ai.comma.openpilot.cereal");
$Java.outerClassname("Map");
@0xa086df597ef5d7a0;
# Geometry
struct Point {
x @0: Float64;
y @1: Float64;
z @2: Float64;
}
struct PolyLine {
points @0: List(Point);
}
# Map features
struct Lane {
id @0 :Text;
leftBoundary @1 :LaneBoundary;
rightBoundary @2 :LaneBoundary;
leftAdjacentId @3 :Text;
rightAdjacentId @4 :Text;
inboundIds @5 :List(Text);
outboundIds @6 :List(Text);
struct LaneBoundary {
polyLine @0 :PolyLine;
startHeading @1 :Float32; # WRT north
}
}
# Map tiles
struct TileSummary {
version @0 :Text;
updatedAt @1 :UInt64; # Millis since epoch
level @2 :UInt8;
x @3 :UInt16;
y @4 :UInt16;
}
struct MapTile {
summary @0 :TileSummary;
lanes @1 :List(Lane);
}
cereal/messaging/__init__.py
+257
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# must be built with scons
from msgq.ipc_pyx import Context, Poller, SubSocket, PubSocket, SocketEventHandle, toggle_fake_events, \
set_fake_prefix, get_fake_prefix, delete_fake_prefix, wait_for_one_event
from msgq.ipc_pyx import MultiplePublishersError, IpcError
from msgq import fake_event_handle, pub_sock, sub_sock, drain_sock_raw
import msgq
import os
import capnp
import time
from typing import Optional, List, Union, Dict
from cereal import log
from cereal.services import SERVICE_LIST
from openpilot.common.util import MovingAverage
NO_TRAVERSAL_LIMIT = 2**64-1
def reset_context():
msgq.context = Context()
def log_from_bytes(dat: bytes, struct: capnp.lib.capnp._StructModule = log.Event) -> capnp.lib.capnp._DynamicStructReader:
with struct.from_bytes(dat, traversal_limit_in_words=NO_TRAVERSAL_LIMIT) as msg:
return msg
def new_message(service: Optional[str], size: Optional[int] = None, **kwargs) -> capnp.lib.capnp._DynamicStructBuilder:
args = {
'valid': False,
'logMonoTime': int(time.monotonic() * 1e9),
**kwargs
}
dat = log.Event.new_message(**args)
if service is not None:
if size is None:
dat.init(service)
else:
dat.init(service, size)
return dat
def drain_sock(sock: SubSocket, wait_for_one: bool = False) -> List[capnp.lib.capnp._DynamicStructReader]:
"""Receive all message currently available on the queue"""
msgs = drain_sock_raw(sock, wait_for_one=wait_for_one)
return [log_from_bytes(m) for m in msgs]
# TODO: print when we drop packets?
def recv_sock(sock: SubSocket, wait: bool = False) -> Optional[capnp.lib.capnp._DynamicStructReader]:
"""Same as drain sock, but only returns latest message. Consider using conflate instead."""
dat = None
while 1:
if wait and dat is None:
recv = sock.receive()
else:
recv = sock.receive(non_blocking=True)
if recv is None: # Timeout hit
break
dat = recv
if dat is not None:
dat = log_from_bytes(dat)
return dat
def recv_one(sock: SubSocket) -> Optional[capnp.lib.capnp._DynamicStructReader]:
dat = sock.receive()
if dat is not None:
dat = log_from_bytes(dat)
return dat
def recv_one_or_none(sock: SubSocket) -> Optional[capnp.lib.capnp._DynamicStructReader]:
dat = sock.receive(non_blocking=True)
if dat is not None:
dat = log_from_bytes(dat)
return dat
def recv_one_retry(sock: SubSocket) -> capnp.lib.capnp._DynamicStructReader:
"""Keep receiving until we get a message"""
while True:
dat = sock.receive()
if dat is not None:
return log_from_bytes(dat)
class FrequencyTracker:
def __init__(self, service_freq: float, update_freq: float, is_poll: bool):
freq = max(min(service_freq, update_freq), 1.)
if is_poll:
min_freq = max_freq = freq
else:
max_freq = min(freq, update_freq)
if service_freq >= 2 * update_freq:
min_freq = update_freq
elif update_freq >= 2* service_freq:
min_freq = freq
else:
min_freq = min(freq, freq / 2.)
self.min_freq = min_freq * 0.8
self.max_freq = max_freq * 1.2
self.avg_dt = MovingAverage(int(10 * freq))
self.recent_avg_dt = MovingAverage(int(freq))
self.prev_time = 0.0
def record_recv_time(self, cur_time: float) -> None:
# TODO: Handle case where cur_time is less than prev_time
if self.prev_time > 1e-5:
dt = cur_time - self.prev_time
self.avg_dt.add_value(dt)
self.recent_avg_dt.add_value(dt)
self.prev_time = cur_time
@property
def valid(self) -> bool:
if self.avg_dt.count == 0:
return False
avg_freq = 1.0 / self.avg_dt.get_average()
if self.min_freq <= avg_freq <= self.max_freq:
return True
avg_freq_recent = 1.0 / self.recent_avg_dt.get_average()
return self.min_freq <= avg_freq_recent <= self.max_freq
class SubMaster:
def __init__(self, services: List[str], poll: Optional[str] = None,
ignore_alive: Optional[List[str]] = None, ignore_avg_freq: Optional[List[str]] = None,
ignore_valid: Optional[List[str]] = None, addr: str = "127.0.0.1", frequency: Optional[float] = None):
self.frame = -1
self.services = services
self.seen = {s: False for s in services}
self.updated = {s: False for s in services}
self.recv_time = {s: 0. for s in services}
self.recv_frame = {s: 0 for s in services}
self.sock = {}
self.data = {}
self.logMonoTime = {s: 0 for s in services}
# zero-frequency / on-demand services are always alive and presumed valid; all others must pass checks
on_demand = {s: SERVICE_LIST[s].frequency <= 1e-5 for s in services}
self.static_freq_services = set(s for s in services if not on_demand[s])
self.alive = {s: on_demand[s] for s in services}
self.freq_ok = {s: on_demand[s] for s in services}
self.valid = {s: on_demand[s] for s in services}
self.freq_tracker: Dict[str, FrequencyTracker] = {}
self.poller = Poller()
polled_services = set([poll, ] if poll is not None else services)
self.non_polled_services = set(services) - polled_services
self.ignore_average_freq = [] if ignore_avg_freq is None else ignore_avg_freq
self.ignore_alive = [] if ignore_alive is None else ignore_alive
self.ignore_valid = [] if ignore_valid is None else ignore_valid
self.simulation = bool(int(os.getenv("SIMULATION", "0")))
# if freq and poll aren't specified, assume the max to be conservative
assert frequency is None or poll is None, "Do not specify 'frequency' - frequency of the polled service will be used."
self.update_freq = frequency or max([SERVICE_LIST[s].frequency for s in polled_services])
for s in services:
p = self.poller if s not in self.non_polled_services else None
self.sock[s] = sub_sock(s, poller=p, addr=addr, conflate=True)
try:
data = new_message(s)
except capnp.lib.capnp.KjException:
data = new_message(s, 0) # lists
self.data[s] = getattr(data.as_reader(), s)
self.freq_tracker[s] = FrequencyTracker(SERVICE_LIST[s].frequency, self.update_freq, s == poll)
def __getitem__(self, s: str) -> capnp.lib.capnp._DynamicStructReader:
return self.data[s]
def _check_avg_freq(self, s: str) -> bool:
return SERVICE_LIST[s].frequency > 0.99 and (s not in self.ignore_average_freq) and (s not in self.ignore_alive)
def update(self, timeout: int = 100) -> None:
msgs = []
for sock in self.poller.poll(timeout):
msgs.append(recv_one_or_none(sock))
# non-blocking receive for non-polled sockets
for s in self.non_polled_services:
msgs.append(recv_one_or_none(self.sock[s]))
self.update_msgs(time.monotonic(), msgs)
def update_msgs(self, cur_time: float, msgs: List[capnp.lib.capnp._DynamicStructReader]) -> None:
self.frame += 1
self.updated = dict.fromkeys(self.services, False)
for msg in msgs:
if msg is None:
continue
s = msg.which()
self.seen[s] = True
self.updated[s] = True
self.freq_tracker[s].record_recv_time(cur_time)
self.recv_time[s] = cur_time
self.recv_frame[s] = self.frame
self.data[s] = getattr(msg, s)
self.logMonoTime[s] = msg.logMonoTime
self.valid[s] = msg.valid
for s in self.static_freq_services:
# alive if delay is within 10x the expected frequency; checks relaxed in simulator
self.alive[s] = (cur_time - self.recv_time[s]) < (10. / SERVICE_LIST[s].frequency) or (self.seen[s] and self.simulation)
self.freq_ok[s] = self.freq_tracker[s].valid or self.simulation
def all_alive(self, service_list: Optional[List[str]] = None) -> bool:
return all(self.alive[s] for s in (service_list or self.services) if s not in self.ignore_alive)
def all_freq_ok(self, service_list: Optional[List[str]] = None) -> bool:
return all(self.freq_ok[s] for s in (service_list or self.services) if self._check_avg_freq(s))
def all_valid(self, service_list: Optional[List[str]] = None) -> bool:
return all(self.valid[s] for s in (service_list or self.services) if s not in self.ignore_valid)
def all_checks(self, service_list: Optional[List[str]] = None) -> bool:
return self.all_alive(service_list) and self.all_freq_ok(service_list) and self.all_valid(service_list)
class PubMaster:
def __init__(self, services: List[str]):
self.sock = {}
for s in services:
self.sock[s] = pub_sock(s)
def send(self, s: str, dat: Union[bytes, capnp.lib.capnp._DynamicStructBuilder]) -> None:
if not isinstance(dat, bytes):
dat = dat.to_bytes()
self.sock[s].send(dat)
def wait_for_readers_to_update(self, s: str, timeout: int, dt: float = 0.05) -> bool:
for _ in range(int(timeout*(1./dt))):
if self.sock[s].all_readers_updated():
return True
time.sleep(dt)
return False
def all_readers_updated(self, s: str) -> bool:
return self.sock[s].all_readers_updated() # type: ignore
cereal/messaging/bridge.cc
+71
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#include <cassert>
#include "cereal/messaging/msgq_to_zmq.h"
#include "cereal/services.h"
#include "common/util.h"
ExitHandler do_exit;
static std::vector<std::string> get_services(const std::string &whitelist_str, bool zmq_to_msgq) {
std::vector<std::string> service_list;
for (const auto& it : services) {
std::string name = it.second.name;
bool in_whitelist = whitelist_str.find(name) != std::string::npos;
if (zmq_to_msgq && !in_whitelist) {
continue;
}
service_list.push_back(name);
}
return service_list;
}
void msgq_to_zmq(const std::vector<std::string> &endpoints, const std::string &ip) {
MsgqToZmq bridge;
bridge.run(endpoints, ip);
}
void zmq_to_msgq(const std::vector<std::string> &endpoints, const std::string &ip) {
auto poller = std::make_unique<ZMQPoller>();
auto pub_context = std::make_unique<MSGQContext>();
auto sub_context = std::make_unique<ZMQContext>();
std::map<SubSocket *, PubSocket *> sub2pub;
for (auto endpoint : endpoints) {
auto pub_sock = new MSGQPubSocket();
auto sub_sock = new ZMQSubSocket();
pub_sock->connect(pub_context.get(), endpoint);
sub_sock->connect(sub_context.get(), endpoint, ip, false);
poller->registerSocket(sub_sock);
sub2pub[sub_sock] = pub_sock;
}
while (!do_exit) {
for (auto sub_sock : poller->poll(100)) {
std::unique_ptr<Message> msg(sub_sock->receive(true));
if (msg) {
sub2pub[sub_sock]->sendMessage(msg.get());
}
}
}
// Clean up allocated sockets
for (auto &[sub_sock, pub_sock] : sub2pub) {
delete sub_sock;
delete pub_sock;
}
}
int main(int argc, char **argv) {
bool is_zmq_to_msgq = argc > 2;
std::string ip = is_zmq_to_msgq ? argv[1] : "127.0.0.1";
std::string whitelist_str = is_zmq_to_msgq ? std::string(argv[2]) : "";
std::vector<std::string> endpoints = get_services(whitelist_str, is_zmq_to_msgq);
if (is_zmq_to_msgq) {
zmq_to_msgq(endpoints, ip);
} else {
msgq_to_zmq(endpoints, ip);
}
return 0;
}
cereal/messaging/messaging.h
+102
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@@ -0,0 +1,102 @@
#pragma once
#include <cstddef>
#include <map>
#include <string>
#include <vector>
#include <utility>
#include <capnp/serialize.h>
#include "cereal/gen/cpp/log.capnp.h"
#include "common/timing.h"
#include "msgq/ipc.h"
class SubMaster {
public:
SubMaster(const std::vector<const char *> &service_list, const std::vector<const char *> &poll = {},
const char *address = nullptr, const std::vector<const char *> &ignore_alive = {});
void update(int timeout = 1000);
void update_msgs(uint64_t current_time, const std::vector<std::pair<std::string, cereal::Event::Reader>> &messages);
inline bool allAlive(const std::vector<const char *> &service_list = {}) { return all_(service_list, false, true); }
inline bool allValid(const std::vector<const char *> &service_list = {}) { return all_(service_list, true, false); }
inline bool allAliveAndValid(const std::vector<const char *> &service_list = {}) { return all_(service_list, true, true); }
void drain();
~SubMaster();
uint64_t frame = 0;
bool updated(const char *name) const;
bool alive(const char *name) const;
bool valid(const char *name) const;
uint64_t rcv_frame(const char *name) const;
uint64_t rcv_time(const char *name) const;
cereal::Event::Reader &operator[](const char *name) const;
private:
bool all_(const std::vector<const char *> &service_list, bool valid, bool alive);
Poller *poller_ = nullptr;
struct SubMessage;
std::map<SubSocket *, SubMessage *> messages_;
std::map<std::string, SubMessage *> services_;
};
class MessageBuilder : public capnp::MallocMessageBuilder {
public:
MessageBuilder() = default;
cereal::Event::Builder initEvent(bool valid = true) {
cereal::Event::Builder event = initRoot<cereal::Event>();
event.setLogMonoTime(nanos_since_boot());
event.setValid(valid);
return event;
}
kj::ArrayPtr<capnp::byte> toBytes() {
heapArray_ = capnp::messageToFlatArray(*this);
return heapArray_.asBytes();
}
size_t getSerializedSize() {
return capnp::computeSerializedSizeInWords(*this) * sizeof(capnp::word);
}
int serializeToBuffer(unsigned char *buffer, size_t buffer_size) {
size_t serialized_size = getSerializedSize();
if (serialized_size > buffer_size) { return -1; }
kj::ArrayOutputStream out(kj::ArrayPtr<capnp::byte>(buffer, buffer_size));
capnp::writeMessage(out, *this);
return serialized_size;
}
private:
kj::Array<capnp::word> heapArray_;
};
class PubMaster {
public:
PubMaster(const std::vector<const char *> &service_list);
inline int send(const char *name, capnp::byte *data, size_t size) { return sockets_.at(name)->send((char *)data, size); }
int send(const char *name, MessageBuilder &msg);
~PubMaster();
private:
std::map<std::string, PubSocket *> sockets_;
};
class AlignedBuffer {
public:
kj::ArrayPtr<const capnp::word> align(const char *data, const size_t size) {
words_size = size / sizeof(capnp::word) + 1;
if (aligned_buf.size() < words_size) {
aligned_buf = kj::heapArray<capnp::word>(words_size < 512 ? 512 : words_size);
}
memcpy(aligned_buf.begin(), data, size);
return aligned_buf.slice(0, words_size);
}
inline kj::ArrayPtr<const capnp::word> align(Message *m) {
return align(m->getData(), m->getSize());
}
private:
kj::Array<capnp::word> aligned_buf;
size_t words_size;
};
cereal/messaging/msgq_to_zmq.cc
+144
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@@ -0,0 +1,144 @@
#include "cereal/messaging/msgq_to_zmq.h"
#include <cassert>
#include "common/util.h"
extern ExitHandler do_exit;
// Max messages to process per socket per poll
constexpr int MAX_MESSAGES_PER_SOCKET = 50;
static std::string recv_zmq_msg(void *sock) {
zmq_msg_t msg;
zmq_msg_init(&msg);
std::string ret;
if (zmq_msg_recv(&msg, sock, 0) > 0) {
ret.assign((char *)zmq_msg_data(&msg), zmq_msg_size(&msg));
}
zmq_msg_close(&msg);
return ret;
}
void MsgqToZmq::run(const std::vector<std::string> &endpoints, const std::string &ip) {
zmq_context = std::make_unique<ZMQContext>();
msgq_context = std::make_unique<MSGQContext>();
// Create ZMQPubSockets for each endpoint
for (const auto &endpoint : endpoints) {
auto &socket_pair = socket_pairs.emplace_back();
socket_pair.endpoint = endpoint;
socket_pair.pub_sock = std::make_unique<ZMQPubSocket>();
int ret = socket_pair.pub_sock->connect(zmq_context.get(), endpoint);
if (ret != 0) {
printf("Failed to create ZMQ publisher for [%s]: %s\n", endpoint.c_str(), zmq_strerror(zmq_errno()));
return;
}
}
// Start ZMQ monitoring thread to monitor socket events
std::thread thread(&MsgqToZmq::zmqMonitorThread, this);
// Main loop for processing messages
while (!do_exit) {
{
std::unique_lock lk(mutex);
cv.wait(lk, [this]() { return do_exit || !sub2pub.empty(); });
if (do_exit) break;
for (auto sub_sock : msgq_poller->poll(100)) {
// Process messages for each socket
ZMQPubSocket *pub_sock = sub2pub.at(sub_sock);
for (int i = 0; i < MAX_MESSAGES_PER_SOCKET; ++i) {
auto msg = std::unique_ptr<Message>(sub_sock->receive(true));
if (!msg) break;
while (pub_sock->sendMessage(msg.get()) == -1) {
if (errno != EINTR) break;
}
}
}
}
util::sleep_for(1); // Give zmqMonitorThread a chance to acquire the mutex
}
thread.join();
}
void MsgqToZmq::zmqMonitorThread() {
std::vector<zmq_pollitem_t> pollitems;
// Set up ZMQ monitor for each pub socket
for (int i = 0; i < socket_pairs.size(); ++i) {
std::string addr = "inproc://op-bridge-monitor-" + std::to_string(i);
zmq_socket_monitor(socket_pairs[i].pub_sock->sock, addr.c_str(), ZMQ_EVENT_ACCEPTED | ZMQ_EVENT_DISCONNECTED);
void *monitor_socket = zmq_socket(zmq_context->getRawContext(), ZMQ_PAIR);
zmq_connect(monitor_socket, addr.c_str());
pollitems.emplace_back(zmq_pollitem_t{.socket = monitor_socket, .events = ZMQ_POLLIN});
}
while (!do_exit) {
int ret = zmq_poll(pollitems.data(), pollitems.size(), 1000);
if (ret < 0) {
if (errno == EINTR) {
// Due to frequent EINTR signals from msgq, introduce a brief delay (200 ms)
// to reduce CPU usage during retry attempts.
util::sleep_for(200);
}
continue;
}
for (int i = 0; i < pollitems.size(); ++i) {
if (pollitems[i].revents & ZMQ_POLLIN) {
// First frame in message contains event number and value
std::string frame = recv_zmq_msg(pollitems[i].socket);
if (frame.empty()) continue;
uint16_t event_type = *(uint16_t *)(frame.data());
// Second frame in message contains event address
frame = recv_zmq_msg(pollitems[i].socket);
if (frame.empty()) continue;
std::unique_lock lk(mutex);
auto &pair = socket_pairs[i];
if (event_type & ZMQ_EVENT_ACCEPTED) {
printf("socket [%s] connected\n", pair.endpoint.c_str());
if (++pair.connected_clients == 1) {
// Create new MSGQ subscriber socket and map to ZMQ publisher
pair.sub_sock = std::make_unique<MSGQSubSocket>();
pair.sub_sock->connect(msgq_context.get(), pair.endpoint, "127.0.0.1");
sub2pub[pair.sub_sock.get()] = pair.pub_sock.get();
registerSockets();
}
} else if (event_type & ZMQ_EVENT_DISCONNECTED) {
printf("socket [%s] disconnected\n", pair.endpoint.c_str());
if (pair.connected_clients == 0 || --pair.connected_clients == 0) {
// Remove MSGQ subscriber socket from mapping and reset it
sub2pub.erase(pair.sub_sock.get());
pair.sub_sock.reset(nullptr);
registerSockets();
}
}
cv.notify_one();
}
}
}
// Clean up monitor sockets
for (int i = 0; i < pollitems.size(); ++i) {
zmq_socket_monitor(socket_pairs[i].pub_sock->sock, nullptr, 0);
zmq_close(pollitems[i].socket);
}
cv.notify_one();
}
void MsgqToZmq::registerSockets() {
msgq_poller = std::make_unique<MSGQPoller>();
for (const auto &socket_pair : socket_pairs) {
if (socket_pair.sub_sock) {
msgq_poller->registerSocket(socket_pair.sub_sock.get());
}
}
}
cereal/messaging/msgq_to_zmq.h
+37
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@@ -0,0 +1,37 @@
#pragma once
#include <condition_variable>
#include <map>
#include <memory>
#include <mutex>
#include <string>
#include <vector>
#define private public
#include "msgq/impl_msgq.h"
#include "msgq/impl_zmq.h"
class MsgqToZmq {
public:
MsgqToZmq() {}
void run(const std::vector<std::string> &endpoints, const std::string &ip);
protected:
void registerSockets();
void zmqMonitorThread();
struct SocketPair {
std::string endpoint;
std::unique_ptr<ZMQPubSocket> pub_sock;
std::unique_ptr<MSGQSubSocket> sub_sock;
int connected_clients = 0;
};
std::unique_ptr<MSGQContext> msgq_context;
std::unique_ptr<ZMQContext> zmq_context;
std::mutex mutex;
std::condition_variable cv;
std::unique_ptr<MSGQPoller> msgq_poller;
std::map<SubSocket *, ZMQPubSocket *> sub2pub;
std::vector<SocketPair> socket_pairs;
};
cereal/messaging/socketmaster.cc
+203
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@@ -0,0 +1,203 @@
#include <assert.h>
#include <stdlib.h>
#include <string>
#include <mutex>
#include "cereal/services.h"
#include "cereal/messaging/messaging.h"
const bool SIMULATION = (getenv("SIMULATION") != nullptr) && (std::string(getenv("SIMULATION")) == "1");
static inline bool inList(const std::vector<const char *> &list, const char *value) {
for (auto &v : list) {
if (strcmp(value, v) == 0) return true;
}
return false;
}
class MessageContext {
public:
MessageContext() : ctx_(nullptr) {}
~MessageContext() { delete ctx_; }
inline Context *context() {
std::call_once(init_flag, [=]() { ctx_ = Context::create(); });
return ctx_;
}
private:
Context *ctx_;
std::once_flag init_flag;
};
MessageContext message_context;
struct SubMaster::SubMessage {
std::string name;
SubSocket *socket = nullptr;
float freq = 0.0f;
bool updated = false, alive = false, valid = false, ignore_alive;
uint64_t rcv_time = 0, rcv_frame = 0;
void *allocated_msg_reader = nullptr;
bool is_polled = false;
capnp::FlatArrayMessageReader *msg_reader = nullptr;
AlignedBuffer aligned_buf;
cereal::Event::Reader event;
};
SubMaster::SubMaster(const std::vector<const char *> &service_list, const std::vector<const char *> &poll,
const char *address, const std::vector<const char *> &ignore_alive) {
poller_ = Poller::create();
for (auto name : service_list) {
assert(services.count(std::string(name)) > 0);
service serv = services.at(std::string(name));
SubSocket *socket = SubSocket::create(message_context.context(), name, address ? address : "127.0.0.1", true);
assert(socket != 0);
bool is_polled = inList(poll, name) || poll.empty();
if (is_polled) poller_->registerSocket(socket);
SubMessage *m = new SubMessage{
.name = name,
.socket = socket,
.freq = serv.frequency,
.ignore_alive = inList(ignore_alive, name),
.allocated_msg_reader = malloc(sizeof(capnp::FlatArrayMessageReader)),
.is_polled = is_polled};
m->msg_reader = new (m->allocated_msg_reader) capnp::FlatArrayMessageReader({});
messages_[socket] = m;
services_[name] = m;
}
}
void SubMaster::update(int timeout) {
for (auto &kv : messages_) kv.second->updated = false;
auto sockets = poller_->poll(timeout);
// add non-polled sockets for non-blocking receive
for (auto &kv : messages_) {
SubMessage *m = kv.second;
SubSocket *s = kv.first;
if (!m->is_polled) sockets.push_back(s);
}
uint64_t current_time = nanos_since_boot();
std::vector<std::pair<std::string, cereal::Event::Reader>> messages;
for (auto s : sockets) {
Message *msg = s->receive(true);
if (msg == nullptr) continue;
SubMessage *m = messages_.at(s);
m->msg_reader->~FlatArrayMessageReader();
capnp::ReaderOptions options;
options.traversalLimitInWords = kj::maxValue; // Don't limit
m->msg_reader = new (m->allocated_msg_reader) capnp::FlatArrayMessageReader(m->aligned_buf.align(msg), options);
delete msg;
messages.push_back({m->name, m->msg_reader->getRoot<cereal::Event>()});
}
update_msgs(current_time, messages);
}
void SubMaster::update_msgs(uint64_t current_time, const std::vector<std::pair<std::string, cereal::Event::Reader>> &messages){
if (++frame == UINT64_MAX) frame = 1;
for (auto &kv : messages) {
auto m_find = services_.find(kv.first);
if (m_find == services_.end()){
continue;
}
SubMessage *m = m_find->second;
m->event = kv.second;
m->updated = true;
m->rcv_time = current_time;
m->rcv_frame = frame;
m->valid = m->event.getValid();
if (SIMULATION) m->alive = true;
}
if (!SIMULATION) {
for (auto &kv : messages_) {
SubMessage *m = kv.second;
m->alive = (m->freq <= (1e-5) || ((current_time - m->rcv_time) * (1e-9)) < (10.0 / m->freq));
}
}
}
bool SubMaster::all_(const std::vector<const char *> &service_list, bool valid, bool alive) {
int found = 0;
for (auto &kv : messages_) {
SubMessage *m = kv.second;
if (service_list.size() == 0 || inList(service_list, m->name.c_str())) {
found += (!valid || m->valid) && (!alive || (m->alive || m->ignore_alive));
}
}
return service_list.size() == 0 ? found == messages_.size() : found == service_list.size();
}
void SubMaster::drain() {
while (true) {
auto polls = poller_->poll(0);
if (polls.size() == 0)
break;
for (auto sock : polls) {
Message *msg = sock->receive(true);
delete msg;
}
}
}
bool SubMaster::updated(const char *name) const {
return services_.at(name)->updated;
}
bool SubMaster::alive(const char *name) const {
return services_.at(name)->alive;
}
bool SubMaster::valid(const char *name) const {
return services_.at(name)->valid;
}
uint64_t SubMaster::rcv_frame(const char *name) const {
return services_.at(name)->rcv_frame;
}
uint64_t SubMaster::rcv_time(const char *name) const {
return services_.at(name)->rcv_time;
}
cereal::Event::Reader &SubMaster::operator[](const char *name) const {
return services_.at(name)->event;
}
SubMaster::~SubMaster() {
delete poller_;
for (auto &kv : messages_) {
SubMessage *m = kv.second;
m->msg_reader->~FlatArrayMessageReader();
free(m->allocated_msg_reader);
delete m->socket;
delete m;
}
}
PubMaster::PubMaster(const std::vector<const char *> &service_list) {
for (auto name : service_list) {
assert(services.count(name) > 0);
PubSocket *socket = PubSocket::create(message_context.context(), name);
assert(socket);
sockets_[name] = socket;
}
}
int PubMaster::send(const char *name, MessageBuilder &msg) {
auto bytes = msg.toBytes();
return send(name, bytes.begin(), bytes.size());
}
PubMaster::~PubMaster() {
for (auto s : sockets_) delete s.second;
}
common/kalman/__init__.py → cereal/messaging/tests/__init__.py
View File
cereal/messaging/tests/test_messaging.py
+185
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@@ -0,0 +1,185 @@
import os
import capnp
import multiprocessing
import numbers
import random
import threading
import time
from parameterized import parameterized
import pytest
from cereal import log, car
import cereal.messaging as messaging
from cereal.services import SERVICE_LIST
events = [evt for evt in log.Event.schema.union_fields if evt in SERVICE_LIST.keys()]
def random_sock():
return random.choice(events)
def random_socks(num_socks=10):
return list({random_sock() for _ in range(num_socks)})
def random_bytes(length=1000):
return bytes([random.randrange(0xFF) for _ in range(length)])
def zmq_sleep(t=1):
if "ZMQ" in os.environ:
time.sleep(t)
# TODO: this should take any capnp struct and returrn a msg with random populated data
def random_carstate():
fields = ["vEgo", "aEgo", "brake", "steeringAngleDeg"]
msg = messaging.new_message("carState")
cs = msg.carState
for f in fields:
setattr(cs, f, random.random() * 10)
return msg
# TODO: this should compare any capnp structs
def assert_carstate(cs1, cs2):
for f in car.CarState.schema.non_union_fields:
# TODO: check all types
val1, val2 = getattr(cs1, f), getattr(cs2, f)
if isinstance(val1, numbers.Number):
assert val1 == val2, f"{f}: sent '{val1}' vs recvd '{val2}'"
def delayed_send(delay, sock, dat):
def send_func():
sock.send(dat)
threading.Timer(delay, send_func).start()
class TestMessaging:
def setUp(self):
# TODO: ZMQ tests are too slow; all sleeps will need to be
# replaced with logic to block on the necessary condition
if "ZMQ" in os.environ:
pytest.skip()
# ZMQ pub socket takes too long to die
# sleep to prevent multiple publishers error between tests
zmq_sleep()
@parameterized.expand(events)
def test_new_message(self, evt):
try:
msg = messaging.new_message(evt)
except capnp.lib.capnp.KjException:
msg = messaging.new_message(evt, random.randrange(200))
assert (time.monotonic() - msg.logMonoTime) < 0.1
assert not msg.valid
assert evt == msg.which()
@parameterized.expand(events)
def test_pub_sock(self, evt):
messaging.pub_sock(evt)
@parameterized.expand(events)
def test_sub_sock(self, evt):
messaging.sub_sock(evt)
@parameterized.expand([
(messaging.drain_sock, capnp._DynamicStructReader),
(messaging.drain_sock_raw, bytes),
])
def test_drain_sock(self, func, expected_type):
sock = "carState"
pub_sock = messaging.pub_sock(sock)
sub_sock = messaging.sub_sock(sock, timeout=1000)
zmq_sleep()
# no wait and no msgs in queue
msgs = func(sub_sock)
assert isinstance(msgs, list)
assert len(msgs) == 0
# no wait but msgs are queued up
num_msgs = random.randrange(3, 10)
for _ in range(num_msgs):
pub_sock.send(messaging.new_message(sock).to_bytes())
time.sleep(0.1)
msgs = func(sub_sock)
assert isinstance(msgs, list)
assert all(isinstance(msg, expected_type) for msg in msgs)
assert len(msgs) == num_msgs
def test_recv_sock(self):
sock = "carState"
pub_sock = messaging.pub_sock(sock)
sub_sock = messaging.sub_sock(sock, timeout=100)
zmq_sleep()
# no wait and no msg in queue, socket should timeout
recvd = messaging.recv_sock(sub_sock)
assert recvd is None
# no wait and one msg in queue
msg = random_carstate()
pub_sock.send(msg.to_bytes())
time.sleep(0.01)
recvd = messaging.recv_sock(sub_sock)
assert isinstance(recvd, capnp._DynamicStructReader)
# https://github.com/python/mypy/issues/13038
assert_carstate(msg.carState, recvd.carState)
def test_recv_one(self):
sock = "carState"
pub_sock = messaging.pub_sock(sock)
sub_sock = messaging.sub_sock(sock, timeout=1000)
zmq_sleep()
# no msg in queue, socket should timeout
recvd = messaging.recv_one(sub_sock)
assert recvd is None
# one msg in queue
msg = random_carstate()
pub_sock.send(msg.to_bytes())
recvd = messaging.recv_one(sub_sock)
assert isinstance(recvd, capnp._DynamicStructReader)
assert_carstate(msg.carState, recvd.carState)
@pytest.mark.xfail(condition="ZMQ" in os.environ, reason='ZMQ detected')
def test_recv_one_or_none(self):
sock = "carState"
pub_sock = messaging.pub_sock(sock)
sub_sock = messaging.sub_sock(sock)
zmq_sleep()
# no msg in queue, socket shouldn't block
recvd = messaging.recv_one_or_none(sub_sock)
assert recvd is None
# one msg in queue
msg = random_carstate()
pub_sock.send(msg.to_bytes())
recvd = messaging.recv_one_or_none(sub_sock)
assert isinstance(recvd, capnp._DynamicStructReader)
assert_carstate(msg.carState, recvd.carState)
def test_recv_one_retry(self):
sock = "carState"
sock_timeout = 0.1
pub_sock = messaging.pub_sock(sock)
sub_sock = messaging.sub_sock(sock, timeout=round(sock_timeout*1000))
zmq_sleep()
# this test doesn't work with ZMQ since multiprocessing interrupts it
if "ZMQ" not in os.environ:
# wait 5 socket timeouts and make sure it's still retrying
p = multiprocessing.Process(target=messaging.recv_one_retry, args=(sub_sock,))
p.start()
time.sleep(sock_timeout*5)
assert p.is_alive()
p.terminate()
# wait 5 socket timeouts before sending
msg = random_carstate()
start_time = time.monotonic()
delayed_send(sock_timeout*5, pub_sock, msg.to_bytes())
recvd = messaging.recv_one_retry(sub_sock)
assert (time.monotonic() - start_time) >= sock_timeout*5
assert isinstance(recvd, capnp._DynamicStructReader)
assert_carstate(msg.carState, recvd.carState)
cereal/messaging/tests/test_pub_sub_master.py
+160
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@@ -0,0 +1,160 @@
import random
import time
from typing import Sized, cast
import cereal.messaging as messaging
from cereal.messaging.tests.test_messaging import events, random_sock, random_socks, \
random_bytes, random_carstate, assert_carstate, \
zmq_sleep
from cereal.services import SERVICE_LIST
class TestSubMaster:
def setup_method(self):
# ZMQ pub socket takes too long to die
# sleep to prevent multiple publishers error between tests
zmq_sleep(3)
def test_init(self):
sm = messaging.SubMaster(events)
for p in [sm.updated, sm.recv_time, sm.recv_frame, sm.alive,
sm.sock, sm.data, sm.logMonoTime, sm.valid]:
assert len(cast(Sized, p)) == len(events)
def test_init_state(self):
socks = random_socks()
sm = messaging.SubMaster(socks)
assert sm.frame == -1
assert not any(sm.updated.values())
assert not any(sm.seen.values())
on_demand = {s: SERVICE_LIST[s].frequency <= 1e-5 for s in sm.services}
assert all(sm.alive[s] == sm.valid[s] == sm.freq_ok[s] == on_demand[s] for s in sm.services)
assert all(t == 0. for t in sm.recv_time.values())
assert all(f == 0 for f in sm.recv_frame.values())
assert all(t == 0 for t in sm.logMonoTime.values())
for p in [sm.updated, sm.recv_time, sm.recv_frame, sm.alive,
sm.sock, sm.data, sm.logMonoTime, sm.valid]:
assert len(cast(Sized, p)) == len(socks)
def test_getitem(self):
sock = "carState"
pub_sock = messaging.pub_sock(sock)
sm = messaging.SubMaster([sock,])
zmq_sleep()
msg = random_carstate()
pub_sock.send(msg.to_bytes())
sm.update(1000)
assert_carstate(msg.carState, sm[sock])
# TODO: break this test up to individually test SubMaster.update and SubMaster.update_msgs
def test_update(self):
sock = "carState"
pub_sock = messaging.pub_sock(sock)
sm = messaging.SubMaster([sock,])
zmq_sleep()
for i in range(10):
msg = messaging.new_message(sock)
pub_sock.send(msg.to_bytes())
sm.update(1000)
assert sm.frame == i
assert all(sm.updated.values())
def test_update_timeout(self):
sock = random_sock()
sm = messaging.SubMaster([sock,])
timeout = random.randrange(1000, 3000)
start_time = time.monotonic()
sm.update(timeout)
t = time.monotonic() - start_time
assert t >= timeout/1000.
assert t < 3
assert not any(sm.updated.values())
def test_avg_frequency_checks(self):
for poll in (True, False):
sm = messaging.SubMaster(["modelV2", "carParams", "carState", "cameraOdometry", "liveCalibration"],
poll=("modelV2" if poll else None),
frequency=(20. if not poll else None))
checks = {
"carState": (20, 20),
"modelV2": (20, 20 if poll else 10),
"cameraOdometry": (20, 10),
"liveCalibration": (4, 4),
"carParams": (None, None),
"userBookmark": (None, None),
}
for service, (max_freq, min_freq) in checks.items():
if max_freq is not None:
assert sm._check_avg_freq(service)
assert sm.freq_tracker[service].max_freq == max_freq*1.2
assert sm.freq_tracker[service].min_freq == min_freq*0.8
else:
assert not sm._check_avg_freq(service)
def test_alive(self):
pass
def test_ignore_alive(self):
pass
def test_valid(self):
pass
# SubMaster should always conflate
def test_conflate(self):
sock = "carState"
pub_sock = messaging.pub_sock(sock)
sm = messaging.SubMaster([sock,])
n = 10
for i in range(n+1):
msg = messaging.new_message(sock)
msg.carState.vEgo = i
pub_sock.send(msg.to_bytes())
time.sleep(0.01)
sm.update(1000)
assert sm[sock].vEgo == n
class TestPubMaster:
def setup_method(self):
# ZMQ pub socket takes too long to die
# sleep to prevent multiple publishers error between tests
zmq_sleep(3)
def test_init(self):
messaging.PubMaster(events)
def test_send(self):
socks = random_socks()
pm = messaging.PubMaster(socks)
sub_socks = {s: messaging.sub_sock(s, conflate=True, timeout=1000) for s in socks}
zmq_sleep()
# PubMaster accepts either a capnp msg builder or bytes
for capnp in [True, False]:
for i in range(100):
sock = socks[i % len(socks)]
if capnp:
try:
msg = messaging.new_message(sock)
except Exception:
msg = messaging.new_message(sock, random.randrange(50))
else:
msg = random_bytes()
pm.send(sock, msg)
recvd = sub_socks[sock].receive()
if capnp:
msg.clear_write_flag()
msg = msg.to_bytes()
assert msg == recvd, i
cereal/messaging/tests/test_services.py
+21
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@@ -0,0 +1,21 @@
import os
import tempfile
from typing import Dict
from parameterized import parameterized
import cereal.services as services
from cereal.services import SERVICE_LIST
class TestServices:
@parameterized.expand(SERVICE_LIST.keys())
def test_services(self, s):
service = SERVICE_LIST[s]
assert service.frequency <= 104
assert service.decimation != 0
def test_generated_header(self):
with tempfile.NamedTemporaryFile(suffix=".h") as f:
ret = os.system(f"python3 {services.__file__} > {f.name} && clang++ {f.name} -std=c++11")
assert ret == 0, "generated services header is not valid C"
cereal/services.py
Executable
+128
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@@ -0,0 +1,128 @@
#!/usr/bin/env python3
from typing import Optional
class Service:
def __init__(self, should_log: bool, frequency: float, decimation: Optional[int] = None):
self.should_log = should_log
self.frequency = frequency
self.decimation = decimation
_services: dict[str, tuple] = {
# service: (should_log, frequency, qlog decimation (optional))
# note: the "EncodeIdx" packets will still be in the log
"gyroscope": (True, 104., 104),
"gyroscope2": (True, 100., 100),
"accelerometer": (True, 104., 104),
"accelerometer2": (True, 100., 100),
"magnetometer": (True, 25.),
"lightSensor": (True, 100., 100),
"temperatureSensor": (True, 2., 200),
"temperatureSensor2": (True, 2., 200),
"gpsNMEA": (True, 9.),
"deviceState": (True, 2., 1),
"touch": (True, 20., 1),
"can": (True, 100., 2053), # decimation gives ~3 msgs in a full segment
"controlsState": (True, 100., 10),
"selfdriveState": (True, 100., 10),
"pandaStates": (True, 10., 1),
"peripheralState": (True, 2., 1),
"radarState": (True, 20., 5),
"roadEncodeIdx": (False, 20., 1),
"liveTracks": (True, 20.),
"sendcan": (True, 100., 139),
"logMessage": (True, 0.),
"errorLogMessage": (True, 0., 1),
"liveCalibration": (True, 4., 4),
"liveTorqueParameters": (True, 4., 1),
"liveDelay": (True, 4., 1),
"androidLog": (True, 0.),
"carState": (True, 100., 10),
"carControl": (True, 100., 10),
"carOutput": (True, 100., 10),
"longitudinalPlan": (True, 20., 10),
"driverAssistance": (True, 20., 20),
"procLog": (True, 0.5, 15),
"gpsLocationExternal": (True, 10., 10),
"gpsLocation": (True, 1., 1),
"ubloxGnss": (True, 10.),
"qcomGnss": (True, 2.),
"gnssMeasurements": (True, 10., 10),
"clocks": (True, 0.1, 1),
"ubloxRaw": (True, 20.),
"livePose": (True, 20., 4),
"liveParameters": (True, 20., 5),
"cameraOdometry": (True, 20., 10),
"thumbnail": (True, 1 / 60., 1),
"onroadEvents": (True, 1., 1),
"carParams": (True, 0.02, 1),
"roadCameraState": (True, 20., 20),
"driverCameraState": (True, 20., 20),
"driverEncodeIdx": (False, 20., 1),
"driverStateV2": (True, 20., 10),
"driverMonitoringState": (True, 20., 10),
"wideRoadEncodeIdx": (False, 20., 1),
"wideRoadCameraState": (True, 20., 20),
"drivingModelData": (True, 20., 10),
"modelV2": (True, 20.),
"managerState": (True, 2., 1),
"uploaderState": (True, 0., 1),
"navInstruction": (True, 1., 10),
"navRoute": (True, 0.),
"navThumbnail": (True, 0.),
"qRoadEncodeIdx": (False, 20.),
"userBookmark": (True, 0., 1),
"soundPressure": (True, 10., 10),
"rawAudioData": (False, 20.),
"bookmarkButton": (True, 0., 1),
"audioFeedback": (True, 0., 1),
# debug
"uiDebug": (True, 0., 1),
"testJoystick": (True, 0.),
"alertDebug": (True, 20., 5),
"roadEncodeData": (False, 20.),
"driverEncodeData": (False, 20.),
"wideRoadEncodeData": (False, 20.),
"qRoadEncodeData": (False, 20.),
"livestreamWideRoadEncodeIdx": (False, 20.),
"livestreamRoadEncodeIdx": (False, 20.),
"livestreamDriverEncodeIdx": (False, 20.),
"livestreamWideRoadEncodeData": (False, 20.),
"livestreamRoadEncodeData": (False, 20.),
"livestreamDriverEncodeData": (False, 20.),
"customReservedRawData0": (True, 0.),
"customReservedRawData1": (True, 0.),
"customReservedRawData2": (True, 0.),
"dpControlsState": (False, 100., 10),
"modelExt": (True, 20.),
}
SERVICE_LIST = {name: Service(*vals) for
idx, (name, vals) in enumerate(_services.items())}
def build_header():
h = ""
h += "/* THIS IS AN AUTOGENERATED FILE, PLEASE EDIT services.py */\n"
h += "#ifndef __SERVICES_H\n"
h += "#define __SERVICES_H\n"
h += "#include <map>\n"
h += "#include <string>\n"
h += "struct service { std::string name; bool should_log; float frequency; int decimation; };\n"
h += "static std::map<std::string, service> services = {\n"
for k, v in SERVICE_LIST.items():
should_log = "true" if v.should_log else "false"
decimation = -1 if v.decimation is None else v.decimation
h += ' { "%s", {"%s", %s, %f, %d}},\n' % \
(k, k, should_log, v.frequency, decimation)
h += "};\n"
h += "#endif\n"
return h
if __name__ == "__main__":
print(build_header())
check_code_quality.sh
-11
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@@ -1,11 +0,0 @@
#!/bin/bash
pyflakes $(find . -iname "*.py" | grep -vi "^\./pyextra.*" | grep -vi "^\./panda")
RESULT=$?
if [ $RESULT -eq 0 ]; then
pylint $(find . -iname "*.py" | grep -vi "^\./pyextra.*" | grep -vi "^\./panda")
RESULT=$? & 3
fi
[ $RESULT -ne 0 ] && exit 1
exit 0
common/.gitignore
+1
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@@ -0,0 +1 @@
*.cpp
common/SConscript
+29
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@@ -0,0 +1,29 @@
Import('env', 'envCython', 'arch')
common_libs = [
'params.cc',
'swaglog.cc',
'util.cc',
'ratekeeper.cc',
'clutil.cc',
]
_common = env.Library('common', common_libs, LIBS="json11")
Export('_common')
if GetOption('extras'):
env.Program('tests/test_common',
['tests/test_runner.cc', 'tests/test_params.cc', 'tests/test_util.cc', 'tests/test_swaglog.cc'],
LIBS=[_common, 'json11', 'zmq', 'pthread'])
# Cython bindings
params_python = envCython.Program('params_pyx.so', 'params_pyx.pyx', LIBS=envCython['LIBS'] + [_common, 'zmq', 'json11'])
SConscript([
'transformations/SConscript',
])
Import('transformations_python')
common_python = [params_python, transformations_python]
Export('common_python')
common/api.py
+58
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@@ -0,0 +1,58 @@
import jwt
import os
import requests
from datetime import datetime, timedelta, UTC
from openpilot.system.hardware.hw import Paths
from openpilot.system.version import get_version
API_HOST = os.getenv('API_HOST', 'https://api.commadotai.com')
# name : jwt signature algorithm
KEYS = {"id_rsa" : "RS256",
"id_ecdsa" : "ES256"}
class Api:
def __init__(self, dongle_id):
self.dongle_id = dongle_id
self.jwt_algorithm, self.private_key, _ = get_key_pair()
def get(self, *args, **kwargs):
return self.request('GET', *args, **kwargs)
def post(self, *args, **kwargs):
return self.request('POST', *args, **kwargs)
def request(self, method, endpoint, timeout=None, access_token=None, **params):
return api_get(endpoint, method=method, timeout=timeout, access_token=access_token, **params)
def get_token(self, payload_extra=None, expiry_hours=1):
now = datetime.now(UTC).replace(tzinfo=None)
payload = {
'identity': self.dongle_id,
'nbf': now,
'iat': now,
'exp': now + timedelta(hours=expiry_hours)
}
if payload_extra is not None:
payload.update(payload_extra)
token = jwt.encode(payload, self.private_key, algorithm=self.jwt_algorithm)
if isinstance(token, bytes):
token = token.decode('utf8')
return token
def api_get(endpoint, method='GET', timeout=None, access_token=None, **params):
headers = {}
if access_token is not None:
headers['Authorization'] = "JWT " + access_token
headers['User-Agent'] = "openpilot-" + get_version()
return requests.request(method, API_HOST + "/" + endpoint, timeout=timeout, headers=headers, params=params)
def get_key_pair():
for key in KEYS:
if os.path.isfile(Paths.persist_root() + f'/comma/{key}') and os.path.isfile(Paths.persist_root() + f'/comma/{key}.pub'):
with open(Paths.persist_root() + f'/comma/{key}') as private, open(Paths.persist_root() + f'/comma/{key}.pub') as public:
return KEYS[key], private.read(), public.read()
return None, None, None
common/api/__init__.py
-42
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@@ -1,42 +0,0 @@
import jwt
import requests
from datetime import datetime, timedelta
from selfdrive.version import version
class Api(object):
def __init__(self, dongle_id):
self.dongle_id = dongle_id
with open('/persist/comma/id_rsa') as f:
self.private_key = f.read()
def get(self, *args, **kwargs):
return self.request('GET', *args, **kwargs)
def post(self, *args, **kwargs):
return self.request('POST', *args, **kwargs)
def request(self, method, endpoint, timeout=None, access_token=None, **params):
return api_get(endpoint, method=method, timeout=timeout, access_token=access_token, **params)
def get_token(self):
now = datetime.utcnow()
payload = {
'identity': self.dongle_id,
'nbf': now,
'iat': now,
'exp': now + timedelta(hours=1)
}
return jwt.encode(payload, self.private_key, algorithm='RS256')
def api_get(endpoint, method='GET', timeout=None, access_token=None, **params):
backend = "https://api.commadotai.com/"
headers = {}
if access_token is not None:
headers['Authorization'] = "JWT "+access_token
headers['User-Agent'] = "openpilot-" + version
return requests.request(method, backend+endpoint, timeout=timeout, headers = headers, params=params)
common/basedir.py
+2 -2
View File
@@ -1,4 +1,4 @@
import os
BASEDIR = os.path.abspath(os.path.join(os.path.dirname(os.path.realpath(__file__)), "../"))
common/clock.pyx
-16
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@@ -1,16 +0,0 @@
from posix.time cimport clock_gettime, timespec, CLOCK_BOOTTIME, CLOCK_MONOTONIC_RAW
cdef double readclock(int clock_id):
cdef timespec ts
cdef double current
clock_gettime(clock_id, &ts)
current = ts.tv_sec + (ts.tv_nsec / 1000000000.)
return current
def monotonic_time():
return readclock(CLOCK_MONOTONIC_RAW)
def sec_since_boot():
return readclock(CLOCK_BOOTTIME)
common/clutil.cc
+98
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@@ -0,0 +1,98 @@
#include "common/clutil.h"
#include <cassert>
#include <iostream>
#include <memory>
#include "common/util.h"
#include "common/swaglog.h"
namespace { // helper functions
template <typename Func, typename Id, typename Name>
std::string get_info(Func get_info_func, Id id, Name param_name) {
size_t size = 0;
CL_CHECK(get_info_func(id, param_name, 0, NULL, &size));
std::string info(size, '\0');
CL_CHECK(get_info_func(id, param_name, size, info.data(), NULL));
return info;
}
inline std::string get_platform_info(cl_platform_id id, cl_platform_info name) { return get_info(&clGetPlatformInfo, id, name); }
inline std::string get_device_info(cl_device_id id, cl_device_info name) { return get_info(&clGetDeviceInfo, id, name); }
void cl_print_info(cl_platform_id platform, cl_device_id device) {
size_t work_group_size = 0;
cl_device_type device_type = 0;
clGetDeviceInfo(device, CL_DEVICE_MAX_WORK_GROUP_SIZE, sizeof(work_group_size), &work_group_size, NULL);
clGetDeviceInfo(device, CL_DEVICE_TYPE, sizeof(device_type), &device_type, NULL);
const char *type_str = "Other...";
switch (device_type) {
case CL_DEVICE_TYPE_CPU: type_str ="CL_DEVICE_TYPE_CPU"; break;
case CL_DEVICE_TYPE_GPU: type_str = "CL_DEVICE_TYPE_GPU"; break;
case CL_DEVICE_TYPE_ACCELERATOR: type_str = "CL_DEVICE_TYPE_ACCELERATOR"; break;
}
LOGD("vendor: %s", get_platform_info(platform, CL_PLATFORM_VENDOR).c_str());
LOGD("platform version: %s", get_platform_info(platform, CL_PLATFORM_VERSION).c_str());
LOGD("profile: %s", get_platform_info(platform, CL_PLATFORM_PROFILE).c_str());
LOGD("extensions: %s", get_platform_info(platform, CL_PLATFORM_EXTENSIONS).c_str());
LOGD("name: %s", get_device_info(device, CL_DEVICE_NAME).c_str());
LOGD("device version: %s", get_device_info(device, CL_DEVICE_VERSION).c_str());
LOGD("max work group size: %zu", work_group_size);
LOGD("type = %d, %s", (int)device_type, type_str);
}
void cl_print_build_errors(cl_program program, cl_device_id device) {
cl_build_status status;
clGetProgramBuildInfo(program, device, CL_PROGRAM_BUILD_STATUS, sizeof(status), &status, NULL);
size_t log_size;
clGetProgramBuildInfo(program, device, CL_PROGRAM_BUILD_LOG, 0, NULL, &log_size);
std::string log(log_size, '\0');
clGetProgramBuildInfo(program, device, CL_PROGRAM_BUILD_LOG, log_size, &log[0], NULL);
LOGE("build failed; status=%d, log: %s", status, log.c_str());
}
} // namespace
cl_device_id cl_get_device_id(cl_device_type device_type) {
cl_uint num_platforms = 0;
CL_CHECK(clGetPlatformIDs(0, NULL, &num_platforms));
std::unique_ptr<cl_platform_id[]> platform_ids = std::make_unique<cl_platform_id[]>(num_platforms);
CL_CHECK(clGetPlatformIDs(num_platforms, &platform_ids[0], NULL));
for (size_t i = 0; i < num_platforms; ++i) {
LOGD("platform[%zu] CL_PLATFORM_NAME: %s", i, get_platform_info(platform_ids[i], CL_PLATFORM_NAME).c_str());
// Get first device
if (cl_device_id device_id = NULL; clGetDeviceIDs(platform_ids[i], device_type, 1, &device_id, NULL) == 0 && device_id) {
cl_print_info(platform_ids[i], device_id);
return device_id;
}
}
LOGE("No valid openCL platform found");
assert(0);
return nullptr;
}
cl_context cl_create_context(cl_device_id device_id) {
return CL_CHECK_ERR(clCreateContext(NULL, 1, &device_id, NULL, NULL, &err));
}
void cl_release_context(cl_context context) {
clReleaseContext(context);
}
cl_program cl_program_from_file(cl_context ctx, cl_device_id device_id, const char* path, const char* args) {
return cl_program_from_source(ctx, device_id, util::read_file(path), args);
}
cl_program cl_program_from_source(cl_context ctx, cl_device_id device_id, const std::string& src, const char* args) {
const char *csrc = src.c_str();
cl_program prg = CL_CHECK_ERR(clCreateProgramWithSource(ctx, 1, &csrc, NULL, &err));
if (int err = clBuildProgram(prg, 1, &device_id, args, NULL, NULL); err != 0) {
cl_print_build_errors(prg, device_id);
assert(0);
}
return prg;
}
common/clutil.h
+28
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@@ -0,0 +1,28 @@
#pragma once
#ifdef __APPLE__
#include <OpenCL/cl.h>
#else
#include <CL/cl.h>
#endif
#include <string>
#define CL_CHECK(_expr) \
do { \
assert(CL_SUCCESS == (_expr)); \
} while (0)
#define CL_CHECK_ERR(_expr) \
({ \
cl_int err = CL_INVALID_VALUE; \
__typeof__(_expr) _ret = _expr; \
assert(_ret&& err == CL_SUCCESS); \
_ret; \
})
cl_device_id cl_get_device_id(cl_device_type device_type);
cl_context cl_create_context(cl_device_id device_id);
void cl_release_context(cl_context context);
cl_program cl_program_from_source(cl_context ctx, cl_device_id device_id, const std::string& src, const char* args = nullptr);
cl_program cl_program_from_file(cl_context ctx, cl_device_id device_id, const char* path, const char* args);
common/constants.py
+23
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@@ -0,0 +1,23 @@
import numpy as np
# conversions
class CV:
# Speed
MPH_TO_KPH = 1.609344
KPH_TO_MPH = 1. / MPH_TO_KPH
MS_TO_KPH = 3.6
KPH_TO_MS = 1. / MS_TO_KPH
MS_TO_MPH = MS_TO_KPH * KPH_TO_MPH
MPH_TO_MS = MPH_TO_KPH * KPH_TO_MS
MS_TO_KNOTS = 1.9438
KNOTS_TO_MS = 1. / MS_TO_KNOTS
# Angle
DEG_TO_RAD = np.pi / 180.
RAD_TO_DEG = 1. / DEG_TO_RAD
# Mass
LB_TO_KG = 0.453592
ACCELERATION_DUE_TO_GRAVITY = 9.81 # m/s^2
common/dbc.py
-289
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@@ -1,289 +0,0 @@
import re
import os
import struct
import sys
import numbers
from collections import namedtuple, defaultdict
def int_or_float(s):
# return number, trying to maintain int format
if s.isdigit():
return int(s, 10)
else:
return float(s)
DBCSignal = namedtuple(
"DBCSignal", ["name", "start_bit", "size", "is_little_endian", "is_signed",
"factor", "offset", "tmin", "tmax", "units"])
class dbc(object):
def __init__(self, fn):
self.name, _ = os.path.splitext(os.path.basename(fn))
with open(fn) as f:
self.txt = f.readlines()
self._warned_addresses = set()
# regexps from https://github.com/ebroecker/canmatrix/blob/master/canmatrix/importdbc.py
bo_regexp = re.compile(r"^BO\_ (\w+) (\w+) *: (\w+) (\w+)")
sg_regexp = re.compile(r"^SG\_ (\w+) : (\d+)\|(\d+)@(\d+)([\+|\-]) \(([0-9.+\-eE]+),([0-9.+\-eE]+)\) \[([0-9.+\-eE]+)\|([0-9.+\-eE]+)\] \"(.*)\" (.*)")
sgm_regexp = re.compile(r"^SG\_ (\w+) (\w+) *: (\d+)\|(\d+)@(\d+)([\+|\-]) \(([0-9.+\-eE]+),([0-9.+\-eE]+)\) \[([0-9.+\-eE]+)\|([0-9.+\-eE]+)\] \"(.*)\" (.*)")
val_regexp = re.compile(r"VAL\_ (\w+) (\w+) (\s*[-+]?[0-9]+\s+\".+?\"[^;]*)")
# A dictionary which maps message ids to tuples ((name, size), signals).
# name is the ASCII name of the message.
# size is the size of the message in bytes.
# signals is a list signals contained in the message.
# signals is a list of DBCSignal in order of increasing start_bit.
self.msgs = {}
# A dictionary which maps message ids to a list of tuples (signal name, definition value pairs)
self.def_vals = defaultdict(list)
# lookup to bit reverse each byte
self.bits_index = [(i & ~0b111) + ((-i-1) & 0b111) for i in xrange(64)]
for l in self.txt:
l = l.strip()
if l.startswith("BO_ "):
# new group
dat = bo_regexp.match(l)
if dat is None:
print("bad BO {0}".format(l))
name = dat.group(2)
size = int(dat.group(3))
ids = int(dat.group(1), 0) # could be hex
if ids in self.msgs:
sys.exit("Duplicate address detected %d %s" % (ids, self.name))
self.msgs[ids] = ((name, size), [])
if l.startswith("SG_ "):
# new signal
dat = sg_regexp.match(l)
go = 0
if dat is None:
dat = sgm_regexp.match(l)
go = 1
if dat is None:
print("bad SG {0}".format(l))
sgname = dat.group(1)
start_bit = int(dat.group(go+2))
signal_size = int(dat.group(go+3))
is_little_endian = int(dat.group(go+4))==1
is_signed = dat.group(go+5)=='-'
factor = int_or_float(dat.group(go+6))
offset = int_or_float(dat.group(go+7))
tmin = int_or_float(dat.group(go+8))
tmax = int_or_float(dat.group(go+9))
units = dat.group(go+10)
self.msgs[ids][1].append(
DBCSignal(sgname, start_bit, signal_size, is_little_endian,
is_signed, factor, offset, tmin, tmax, units))
if l.startswith("VAL_ "):
# new signal value/definition
dat = val_regexp.match(l)
if dat is None:
print("bad VAL {0}".format(l))
ids = int(dat.group(1), 0) # could be hex
sgname = dat.group(2)
defvals = dat.group(3)
defvals = defvals.replace("?",r"\?") #escape sequence in C++
defvals = defvals.split('"')[:-1]
defs = defvals[1::2]
#cleanup, convert to UPPER_CASE_WITH_UNDERSCORES
for i,d in enumerate(defs):
d = defs[i].strip().upper()
defs[i] = d.replace(" ","_")
defvals[1::2] = defs
defvals = '"'+"".join(str(i) for i in defvals)+'"'
self.def_vals[ids].append((sgname, defvals))
for msg in self.msgs.values():
msg[1].sort(key=lambda x: x.start_bit)
self.msg_name_to_address = {}
for address, m in self.msgs.items():
name = m[0][0]
self.msg_name_to_address[name] = address
def lookup_msg_id(self, msg_id):
if not isinstance(msg_id, numbers.Number):
msg_id = self.msg_name_to_address[msg_id]
return msg_id
def reverse_bytes(self, x):
return ((x & 0xff00000000000000) >> 56) | \
((x & 0x00ff000000000000) >> 40) | \
((x & 0x0000ff0000000000) >> 24) | \
((x & 0x000000ff00000000) >> 8) | \
((x & 0x00000000ff000000) << 8) | \
((x & 0x0000000000ff0000) << 24) | \
((x & 0x000000000000ff00) << 40) | \
((x & 0x00000000000000ff) << 56)
def encode(self, msg_id, dd):
"""Encode a CAN message using the dbc.
Inputs:
msg_id: The message ID.
dd: A dictionary mapping signal name to signal data.
"""
msg_id = self.lookup_msg_id(msg_id)
msg_def = self.msgs[msg_id]
size = msg_def[0][1]
result = 0
for s in msg_def[1]:
ival = dd.get(s.name)
if ival is not None:
b2 = s.size
if s.is_little_endian:
b1 = s.start_bit
else:
b1 = (s.start_bit // 8) * 8 + (-s.start_bit - 1) % 8
bo = 64 - (b1 + s.size)
ival = (ival / s.factor) - s.offset
ival = int(round(ival))
if s.is_signed and ival < 0:
ival = (1 << b2) + ival
shift = b1 if s.is_little_endian else bo
mask = ((1 << b2) - 1) << shift
dat = (ival & ((1 << b2) - 1)) << shift
if s.is_little_endian:
mask = self.reverse_bytes(mask)
dat = self.reverse_bytes(dat)
result &= ~mask
result |= dat
result = struct.pack('>Q', result)
return result[:size]
def decode(self, x, arr=None, debug=False):
"""Decode a CAN message using the dbc.
Inputs:
x: A collection with elements (address, time, data), where address is
the CAN address, time is the bus time, and data is the CAN data as a
hex string.
arr: Optional list of signals which should be decoded and returned.
debug: True to print debugging statements.
Returns:
A tuple (name, data), where name is the name of the CAN message and data
is the decoded result. If arr is None, data is a dict of properties.
Otherwise data is a list of the same length as arr.
Returns (None, None) if the message could not be decoded.
"""
if arr is None:
out = {}
else:
out = [None]*len(arr)
msg = self.msgs.get(x[0])
if msg is None:
if x[0] not in self._warned_addresses:
#print("WARNING: Unknown message address {}".format(x[0]))
self._warned_addresses.add(x[0])
return None, None
name = msg[0][0]
if debug:
print(name)
st = x[2].ljust(8, '\x00')
le, be = None, None
for s in msg[1]:
if arr is not None and s[0] not in arr:
continue
start_bit = s[1]
signal_size = s[2]
little_endian = s[3]
signed = s[4]
factor = s[5]
offset = s[6]
b2 = signal_size
if little_endian:
b1 = start_bit
else:
b1 = (start_bit // 8) * 8 + (-start_bit - 1) % 8
bo = 64 - (b1 + signal_size)
if little_endian:
if le is None:
le = struct.unpack("<Q", st)[0]
shift_amount = b1
tmp = le
else:
if be is None:
be = struct.unpack(">Q", st)[0]
shift_amount = bo
tmp = be
if shift_amount < 0:
continue
tmp = (tmp >> shift_amount) & ((1 << b2) - 1)
if signed and (tmp >> (b2 - 1)):
tmp -= (1 << b2)
tmp = tmp * factor + offset
# if debug:
# print("%40s %2d %2d %7.2f %s" % (s[0], s[1], s[2], tmp, s[-1]))
if arr is None:
out[s[0]] = tmp
else:
out[arr.index(s[0])] = tmp
return name, out
def get_signals(self, msg):
msg = self.lookup_msg_id(msg)
return [sgs.name for sgs in self.msgs[msg][1]]
if __name__ == "__main__":
from opendbc import DBC_PATH
import numpy as np
dbc_test = dbc(os.path.join(DBC_PATH, 'toyota_prius_2017_pt_generated.dbc'))
msg = ('STEER_ANGLE_SENSOR', {'STEER_ANGLE': -6.0, 'STEER_RATE': 4, 'STEER_FRACTION': -0.2})
encoded = dbc_test.encode(*msg)
decoded = dbc_test.decode((0x25, 0, encoded))
assert decoded == msg
dbc_test = dbc(os.path.join(DBC_PATH, 'hyundai_santa_fe_2019_ccan.dbc'))
decoded = dbc_test.decode((0x2b0, 0, "\xfa\xfe\x00\x07\x12"))
assert np.isclose(decoded[1]['SAS_Angle'], -26.2)
msg = ('SAS11', {'SAS_Stat': 7.0, 'MsgCount': 0.0, 'SAS_Angle': -26.200000000000003, 'SAS_Speed': 0.0, 'CheckSum': 0.0})
encoded = dbc_test.encode(*msg)
decoded = dbc_test.decode((0x2b0, 0, encoded))
assert decoded == msg
common/ffi_wrapper.py
-49
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@@ -1,49 +0,0 @@
import os
import sys
import fcntl
import hashlib
from cffi import FFI
def ffi_wrap(name, c_code, c_header, tmpdir="/tmp/ccache", cflags="", libraries=None):
if libraries is None:
libraries = []
cache = name + "_" + hashlib.sha1(c_code).hexdigest()
try:
os.mkdir(tmpdir)
except OSError:
pass
fd = os.open(tmpdir, 0)
fcntl.flock(fd, fcntl.LOCK_EX)
try:
sys.path.append(tmpdir)
try:
mod = __import__(cache)
except Exception:
print("cache miss {0}".format(cache))
compile_code(cache, c_code, c_header, tmpdir, cflags, libraries)
mod = __import__(cache)
finally:
os.close(fd)
return mod.ffi, mod.lib
def compile_code(name, c_code, c_header, directory, cflags="", libraries=None):
if libraries is None:
libraries = []
ffibuilder = FFI()
ffibuilder.set_source(name, c_code, source_extension='.cpp', libraries=libraries)
ffibuilder.cdef(c_header)
os.environ['OPT'] = "-fwrapv -O2 -DNDEBUG -std=c++11"
os.environ['CFLAGS'] = cflags
ffibuilder.compile(verbose=True, debug=False, tmpdir=directory)
def wrap_compiled(name, directory):
sys.path.append(directory)
mod = __import__(name)
return mod.ffi, mod.lib
common/file_helpers.py
-109
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@@ -1,109 +0,0 @@
import os
import shutil
import tempfile
from atomicwrites import AtomicWriter
def mkdirs_exists_ok(path):
try:
os.makedirs(path)
except OSError:
if not os.path.isdir(path):
raise
def rm_not_exists_ok(path):
try:
os.remove(path)
except OSError:
if os.path.exists(path):
raise
def rm_tree_or_link(path):
if os.path.islink(path):
os.unlink(path)
elif os.path.isdir(path):
shutil.rmtree(path)
def get_tmpdir_on_same_filesystem(path):
normpath = os.path.normpath(path)
parts = normpath.split("/")
if len(parts) > 1 and parts[1] == "scratch":
return "/scratch/tmp"
elif len(parts) > 2 and parts[2] == "runner":
return "/{}/runner/tmp".format(parts[1])
return "/tmp"
class AutoMoveTempdir(object):
def __init__(self, target_path, temp_dir=None):
self._target_path = target_path
self._path = tempfile.mkdtemp(dir=temp_dir)
@property
def name(self):
return self._path
def close(self):
os.rename(self._path, self._target_path)
def __enter__(self): return self
def __exit__(self, type, value, traceback):
if type is None:
self.close()
else:
shutil.rmtree(self._path)
class NamedTemporaryDir(object):
def __init__(self, temp_dir=None):
self._path = tempfile.mkdtemp(dir=temp_dir)
@property
def name(self):
return self._path
def close(self):
shutil.rmtree(self._path)
def __enter__(self): return self
def __exit__(self, type, value, traceback):
self.close()
def _get_fileobject_func(writer, temp_dir):
def _get_fileobject():
file_obj = writer.get_fileobject(dir=temp_dir)
os.chmod(file_obj.name, 0o644)
return file_obj
return _get_fileobject
def atomic_write_on_fs_tmp(path, **kwargs):
"""Creates an atomic writer using a temporary file in a temporary directory
on the same filesystem as path.
"""
# TODO(mgraczyk): This use of AtomicWriter relies on implementation details to set the temp
# directory.
writer = AtomicWriter(path, **kwargs)
return writer._open(_get_fileobject_func(writer, get_tmpdir_on_same_filesystem(path)))
def atomic_write_in_dir(path, **kwargs):
"""Creates an atomic writer using a temporary file in the same directory
as the destination file.
"""
writer = AtomicWriter(path, **kwargs)
return writer._open(_get_fileobject_func(writer, os.path.dirname(path)))
def atomic_write_in_dir_neos(path, contents, mode=None):
"""
Atomically writes contents to path using a temporary file in the same directory
as path. Useful on NEOS, where `os.link` (required by atomic_write_in_dir) is missing.
"""
f = tempfile.NamedTemporaryFile(delete=False, prefix=".tmp", dir=os.path.dirname(path))
f.write(contents)
f.flush()
if mode is not None:
os.fchmod(f.fileno(), mode)
os.fsync(f.fileno())
f.close()
os.rename(f.name, path)
common/filter_simple.py
+29 -5
View File
@@ -1,10 +1,34 @@
class FirstOrderFilter():
# first order filter
def __init__(self, x0, ts, dt):
self.k = (dt / ts) / (1. + dt / ts)
class FirstOrderFilter:
def __init__(self, x0, rc, dt, initialized=True):
self.x = x0
self.dt = dt
self.update_alpha(rc)
self.initialized = initialized
def update_alpha(self, rc):
self.alpha = self.dt / (rc + self.dt)
def update(self, x):
self.x = (1. - self.k) * self.x + self.k * x
if self.initialized:
self.x = (1. - self.alpha) * self.x + self.alpha * x
else:
self.initialized = True
self.x = x
return self.x
class BounceFilter(FirstOrderFilter):
def __init__(self, x0, rc, dt, initialized=True, bounce=2):
self.velocity = FirstOrderFilter(0.0, 0.15, dt)
self.bounce = bounce
super().__init__(x0, rc, dt, initialized)
def update(self, x):
super().update(x)
scale = self.dt / (1.0 / 60.0) # tuned at 60 fps
self.velocity.x += (x - self.x) * self.bounce * scale * self.dt
self.velocity.update(0.0)
if abs(self.velocity.x) < 1e-5:
self.velocity.x = 0.0
self.x += self.velocity.x
return self.x
common/fingerprints.py
-62
View File
@@ -1,62 +0,0 @@
import os
from common.basedir import BASEDIR
def get_fingerprint_list():
# read all the folders in selfdrive/car and return a dict where:
# - keys are all the car models for which we have a fingerprint
# - values are lists dicts of messages that constitute the unique
# CAN fingerprint of each car model and all its variants
fingerprints = {}
for car_folder in [x[0] for x in os.walk(BASEDIR + '/selfdrive/car')]:
try:
car_name = car_folder.split('/')[-1]
values = __import__('selfdrive.car.%s.values' % car_name, fromlist=['FINGERPRINTS'])
if hasattr(values, 'FINGERPRINTS'):
car_fingerprints = values.FINGERPRINTS
else:
continue
for f, v in car_fingerprints.items():
fingerprints[f] = v
except (ImportError, IOError):
pass
return fingerprints
_FINGERPRINTS = get_fingerprint_list()
_DEBUG_ADDRESS = {1880: 8} # reserved for debug purposes
def is_valid_for_fingerprint(msg, car_fingerprint):
adr = msg.address
# ignore addresses that are more than 11 bits
return (adr in car_fingerprint and car_fingerprint[adr] == len(msg.dat)) or adr >= 0x800
def eliminate_incompatible_cars(msg, candidate_cars):
"""Removes cars that could not have sent msg.
Inputs:
msg: A cereal/log CanData message from the car.
candidate_cars: A list of cars to consider.
Returns:
A list containing the subset of candidate_cars that could have sent msg.
"""
compatible_cars = []
for car_name in candidate_cars:
car_fingerprints = _FINGERPRINTS[car_name]
for fingerprint in car_fingerprints:
fingerprint.update(_DEBUG_ADDRESS) # add alien debug address
if is_valid_for_fingerprint(msg, fingerprint):
compatible_cars.append(car_name)
break
return compatible_cars
def all_known_cars():
"""Returns a list of all known car strings."""
return list(_FINGERPRINTS.keys())
common/git.py
+42
View File
@@ -0,0 +1,42 @@
from functools import cache
import subprocess
from openpilot.common.utils import run_cmd, run_cmd_default
@cache
def get_commit(cwd: str = None, branch: str = "HEAD") -> str:
return run_cmd_default(["git", "rev-parse", branch], cwd=cwd)
@cache
def get_commit_date(cwd: str = None, commit: str = "HEAD") -> str:
return run_cmd_default(["git", "show", "--no-patch", "--format='%ct %ci'", commit], cwd=cwd)
@cache
def get_short_branch(cwd: str = None) -> str:
return run_cmd_default(["git", "rev-parse", "--abbrev-ref", "HEAD"], cwd=cwd)
@cache
def get_branch(cwd: str = None) -> str:
return run_cmd_default(["git", "rev-parse", "--abbrev-ref", "--symbolic-full-name", "@{u}"], cwd=cwd)
@cache
def get_origin(cwd: str = None) -> str:
try:
local_branch = run_cmd(["git", "name-rev", "--name-only", "HEAD"], cwd=cwd)
tracking_remote = run_cmd(["git", "config", "branch." + local_branch + ".remote"], cwd=cwd)
return run_cmd(["git", "config", "remote." + tracking_remote + ".url"], cwd=cwd)
except subprocess.CalledProcessError: # Not on a branch, fallback
return run_cmd_default(["git", "config", "--get", "remote.origin.url"], cwd=cwd)
@cache
def get_normalized_origin(cwd: str = None) -> str:
return get_origin(cwd) \
.replace("git@", "", 1) \
.replace(".git", "", 1) \
.replace("https://", "", 1) \
.replace(":", "/", 1)
common/gpio.py
+89
View File
@@ -0,0 +1,89 @@
import os
import fcntl
import ctypes
from functools import cache
def gpio_init(pin: int, output: bool) -> None:
try:
with open(f"/sys/class/gpio/gpio{pin}/direction", 'wb') as f:
f.write(b"out" if output else b"in")
except Exception as e:
print(f"Failed to set gpio {pin} direction: {e}")
def gpio_set(pin: int, high: bool) -> None:
try:
with open(f"/sys/class/gpio/gpio{pin}/value", 'wb') as f:
f.write(b"1" if high else b"0")
except Exception as e:
print(f"Failed to set gpio {pin} value: {e}")
def gpio_read(pin: int) -> bool | None:
val = None
try:
with open(f"/sys/class/gpio/gpio{pin}/value", 'rb') as f:
val = bool(int(f.read().strip()))
except Exception as e:
print(f"Failed to set gpio {pin} value: {e}")
return val
def gpio_export(pin: int) -> None:
if os.path.isdir(f"/sys/class/gpio/gpio{pin}"):
return
try:
with open("/sys/class/gpio/export", 'w') as f:
f.write(str(pin))
except Exception:
print(f"Failed to export gpio {pin}")
@cache
def get_irq_action(irq: int) -> list[str]:
try:
with open(f"/sys/kernel/irq/{irq}/actions") as f:
actions = f.read().strip().split(',')
return actions
except FileNotFoundError:
return []
def get_irqs_for_action(action: str) -> list[str]:
ret = []
with open("/proc/interrupts") as f:
for l in f.readlines():
irq = l.split(':')[0].strip()
if irq.isdigit() and action in get_irq_action(irq):
ret.append(irq)
return ret
# *** gpiochip ***
class gpioevent_data(ctypes.Structure):
_fields_ = [
("timestamp", ctypes.c_uint64),
("id", ctypes.c_uint32),
]
class gpioevent_request(ctypes.Structure):
_fields_ = [
("lineoffset", ctypes.c_uint32),
("handleflags", ctypes.c_uint32),
("eventflags", ctypes.c_uint32),
("label", ctypes.c_char * 32),
("fd", ctypes.c_int)
]
def gpiochip_get_ro_value_fd(label: str, gpiochip_id: int, pin: int) -> int:
GPIOEVENT_REQUEST_BOTH_EDGES = 0x3
GPIOHANDLE_REQUEST_INPUT = 0x1
GPIO_GET_LINEEVENT_IOCTL = 0xc030b404
rq = gpioevent_request()
rq.lineoffset = pin
rq.handleflags = GPIOHANDLE_REQUEST_INPUT
rq.eventflags = GPIOEVENT_REQUEST_BOTH_EDGES
rq.label = label.encode('utf-8')[:31] + b'\0'
fd = os.open(f"/dev/gpiochip{gpiochip_id}", os.O_RDONLY)
fcntl.ioctl(fd, GPIO_GET_LINEEVENT_IOCTL, rq)
os.close(fd)
return int(rq.fd)
common/gps.py
+8
View File
@@ -0,0 +1,8 @@
from openpilot.common.params import Params
def get_gps_location_service(params: Params) -> str:
if params.get_bool("UbloxAvailable"):
return "gpsLocationExternal"
else:
return "gpsLocation"
common/kalman/Makefile
-10
View File
@@ -1,10 +0,0 @@
all: simple_kalman_impl.so
simple_kalman_impl.so: simple_kalman_impl.pyx simple_kalman_impl.pxd simple_kalman_setup.py
python2 simple_kalman_setup.py build_ext --inplace
rm -rf build
rm simple_kalman_impl.c
.PHONY: clean
clean:
rm -f simple_kalman_impl.so
common/kalman/simple_kalman.py
-10
View File
@@ -1,10 +0,0 @@
# pylint: skip-file
import os
import subprocess
kalman_dir = os.path.dirname(os.path.abspath(__file__))
subprocess.check_call(["make", "simple_kalman_impl.so"], cwd=kalman_dir)
from simple_kalman_impl import KF1D as KF1D
# Silence pyflakes
assert KF1D
common/kalman/simple_kalman_impl.pxd
-16
View File
@@ -1,16 +0,0 @@
cdef class KF1D:
cdef public:
double x0_0
double x1_0
double K0_0
double K1_0
double A0_0
double A0_1
double A1_0
double A1_1
double C0_0
double C0_1
double A_K_0
double A_K_1
double A_K_2
double A_K_3
common/kalman/simple_kalman_impl.pyx
-35
View File
@@ -1,35 +0,0 @@
cdef class KF1D:
def __init__(self, x0, A, C, K):
self.x0_0 = x0[0][0]
self.x1_0 = x0[1][0]
self.A0_0 = A[0][0]
self.A0_1 = A[0][1]
self.A1_0 = A[1][0]
self.A1_1 = A[1][1]
self.C0_0 = C[0]
self.C0_1 = C[1]
self.K0_0 = K[0][0]
self.K1_0 = K[1][0]
self.A_K_0 = self.A0_0 - self.K0_0 * self.C0_0
self.A_K_1 = self.A0_1 - self.K0_0 * self.C0_1
self.A_K_2 = self.A1_0 - self.K1_0 * self.C0_0
self.A_K_3 = self.A1_1 - self.K1_0 * self.C0_1
def update(self, meas):
cdef double x0_0 = self.A_K_0 * self.x0_0 + self.A_K_1 * self.x1_0 + self.K0_0 * meas
cdef double x1_0 = self.A_K_2 * self.x0_0 + self.A_K_3 * self.x1_0 + self.K1_0 * meas
self.x0_0 = x0_0
self.x1_0 = x1_0
return [self.x0_0, self.x1_0]
@property
def x(self):
return [[self.x0_0], [self.x1_0]]
@x.setter
def x(self, x):
self.x0_0 = x[0][0]
self.x1_0 = x[1][0]
common/kalman/simple_kalman_old.py
-23
View File
@@ -1,23 +0,0 @@
import numpy as np
class KF1D:
# this EKF assumes constant covariance matrix, so calculations are much simpler
# the Kalman gain also needs to be precomputed using the control module
def __init__(self, x0, A, C, K):
self.x = x0
self.A = A
self.C = C
self.K = K
self.A_K = self.A - np.dot(self.K, self.C)
# K matrix needs to be pre-computed as follow:
# import control
# (x, l, K) = control.dare(np.transpose(self.A), np.transpose(self.C), Q, R)
# self.K = np.transpose(K)
def update(self, meas):
self.x = np.dot(self.A_K, self.x) + np.dot(self.K, meas)
return self.x
common/kalman/simple_kalman_setup.py
-5
View File
@@ -1,5 +0,0 @@
from distutils.core import setup, Extension
from Cython.Build import cythonize
setup(name='Simple Kalman Implementation',
ext_modules=cythonize(Extension("simple_kalman_impl", ["simple_kalman_impl.pyx"])))
common/kalman/tests/test_simple_kalman.py
-85
View File
@@ -1,85 +0,0 @@
import unittest
import random
import timeit
import numpy as np
from common.kalman.simple_kalman import KF1D
from common.kalman.simple_kalman_old import KF1D as KF1D_old
class TestSimpleKalman(unittest.TestCase):
def setUp(self):
dt = 0.01
x0_0 = 0.0
x1_0 = 0.0
A0_0 = 1.0
A0_1 = dt
A1_0 = 0.0
A1_1 = 1.0
C0_0 = 1.0
C0_1 = 0.0
K0_0 = 0.12287673
K1_0 = 0.29666309
self.kf_old = KF1D_old(x0=np.matrix([[x0_0], [x1_0]]),
A=np.matrix([[A0_0, A0_1], [A1_0, A1_1]]),
C=np.matrix([C0_0, C0_1]),
K=np.matrix([[K0_0], [K1_0]]))
self.kf = KF1D(x0=[[x0_0], [x1_0]],
A=[[A0_0, A0_1], [A1_0, A1_1]],
C=[C0_0, C0_1],
K=[[K0_0], [K1_0]])
def test_getter_setter(self):
self.kf.x = [[1.0], [1.0]]
self.assertEqual(self.kf.x, [[1.0], [1.0]])
def update_returns_state(self):
x = self.kf.update(100)
self.assertEqual(x, self.kf.x)
def test_old_equal_new(self):
for _ in range(1000):
v_wheel = random.uniform(0, 200)
x_old = self.kf_old.update(v_wheel)
x = self.kf.update(v_wheel)
# Compare the output x, verify that the error is less than 1e-4
self.assertAlmostEqual(x_old[0], x[0])
self.assertAlmostEqual(x_old[1], x[1])
def test_new_is_faster(self):
setup = """
import numpy as np
from common.kalman.simple_kalman import KF1D
from common.kalman.simple_kalman_old import KF1D as KF1D_old
dt = 0.01
x0_0 = 0.0
x1_0 = 0.0
A0_0 = 1.0
A0_1 = dt
A1_0 = 0.0
A1_1 = 1.0
C0_0 = 1.0
C0_1 = 0.0
K0_0 = 0.12287673
K1_0 = 0.29666309
kf_old = KF1D_old(x0=np.matrix([[x0_0], [x1_0]]),
A=np.matrix([[A0_0, A0_1], [A1_0, A1_1]]),
C=np.matrix([C0_0, C0_1]),
K=np.matrix([[K0_0], [K1_0]]))
kf = KF1D(x0=[[x0_0], [x1_0]],
A=[[A0_0, A0_1], [A1_0, A1_1]],
C=[C0_0, C0_1],
K=[[K0_0], [K1_0]])
"""
kf_speed = timeit.timeit("kf.update(1234)", setup=setup, number=10000)
kf_old_speed = timeit.timeit("kf_old.update(1234)", setup=setup, number=10000)
self.assertTrue(kf_speed < kf_old_speed / 4)
common/logging_extra.py
+104 -29
View File
@@ -1,14 +1,23 @@
import io
import os
import sys
import copy
import json
import time
import uuid
import socket
import logging
import traceback
import numpy as np
from threading import local
from collections import OrderedDict
from contextlib import contextmanager
LOG_TIMESTAMPS = "LOG_TIMESTAMPS" in os.environ
def json_handler(obj):
if isinstance(obj, np.bool_):
return bool(obj)
# if isinstance(obj, (datetime.date, datetime.time)):
# return obj.isoformat()
return repr(obj)
@@ -60,14 +69,57 @@ class SwagFormatter(logging.Formatter):
return record_dict
def format(self, record):
if self.swaglogger is None:
raise Exception("must set swaglogger before calling format()")
return json_robust_dumps(self.format_dict(record))
class SwagLogFileFormatter(SwagFormatter):
def fix_kv(self, k, v):
# append type to names to preserve legacy naming in logs
# avoids overlapping key namespaces with different types
# e.g. log.info() creates 'msg' -> 'msg$s'
# log.event() creates 'msg.health.logMonoTime' -> 'msg.health.logMonoTime$i'
# because overlapping namespace 'msg' caused problems
if isinstance(v, (str, bytes)):
k += "$s"
elif isinstance(v, float):
k += "$f"
elif isinstance(v, bool):
k += "$b"
elif isinstance(v, int):
k += "$i"
elif isinstance(v, dict):
nv = {}
for ik, iv in v.items():
ik, iv = self.fix_kv(ik, iv)
nv[ik] = iv
v = nv
elif isinstance(v, list):
k += "$a"
return k, v
def format(self, record):
if isinstance(record, str):
v = json.loads(record)
else:
v = self.format_dict(record)
mk, mv = self.fix_kv('msg', v['msg'])
del v['msg']
v[mk] = mv
v['id'] = uuid.uuid4().hex
return json_robust_dumps(v)
class SwagErrorFilter(logging.Filter):
def filter(self, record):
return record.levelno < logging.ERROR
_tmpfunc = lambda: 0
_srcfile = os.path.normcase(_tmpfunc.__code__.co_filename)
def _tmpfunc():
return 0
def _srcfile():
return os.path.normcase(_tmpfunc.__code__.co_filename)
class SwagLogger(logging.Logger):
def __init__(self):
@@ -78,28 +130,6 @@ class SwagLogger(logging.Logger):
self.log_local = local()
self.log_local.ctx = {}
def findCaller(self, stack_info=None):
"""
Find the stack frame of the caller so that we can note the source
file name, line number and function name.
"""
# f = currentframe()
f = sys._getframe(3)
#On some versions of IronPython, currentframe() returns None if
#IronPython isn't run with -X:Frames.
if f is not None:
f = f.f_back
rv = "(unknown file)", 0, "(unknown function)"
while hasattr(f, "f_code"):
co = f.f_code
filename = os.path.normcase(co.co_filename)
if filename in (logging._srcfile, _srcfile):
f = f.f_back
continue
rv = (co.co_filename, f.f_lineno, co.co_name)
break
return rv
def local_ctx(self):
try:
return self.log_local.ctx
@@ -126,20 +156,65 @@ class SwagLogger(logging.Logger):
def bind_global(self, **kwargs):
self.global_ctx.update(kwargs)
def event(self, event_name, *args, **kwargs):
def event(self, event, *args, **kwargs):
evt = NiceOrderedDict()
evt['event'] = event_name
evt['event'] = event
if args:
evt['args'] = args
evt.update(kwargs)
ctx = self.get_ctx()
if ctx:
evt['ctx'] = self.get_ctx()
if 'error' in kwargs:
self.error(evt)
elif 'debug' in kwargs:
self.debug(evt)
else:
self.info(evt)
def timestamp(self, event_name):
if LOG_TIMESTAMPS:
t = time.monotonic()
tstp = NiceOrderedDict()
tstp['timestamp'] = NiceOrderedDict()
tstp['timestamp']["event"] = event_name
tstp['timestamp']["time"] = t*1e9
self.debug(tstp)
def findCaller(self, stack_info=False, stacklevel=1):
"""
Find the stack frame of the caller so that we can note the source
file name, line number and function name.
"""
f = sys._getframe(3)
#On some versions of IronPython, currentframe() returns None if
#IronPython isn't run with -X:Frames.
if f is not None:
f = f.f_back
orig_f = f
while f and stacklevel > 1:
f = f.f_back
stacklevel -= 1
if not f:
f = orig_f
rv = "(unknown file)", 0, "(unknown function)", None
while hasattr(f, "f_code"):
co = f.f_code
filename = os.path.normcase(co.co_filename)
if filename == _srcfile:
f = f.f_back
continue
sinfo = None
if stack_info:
sio = io.StringIO()
sio.write('Stack (most recent call last):\n')
traceback.print_stack(f, file=sio)
sinfo = sio.getvalue()
if sinfo[-1] == '\n':
sinfo = sinfo[:-1]
sio.close()
rv = (co.co_filename, f.f_lineno, co.co_name, sinfo)
break
return rv
if __name__ == "__main__":
log = SwagLogger()
common/markdown.py
+45
View File
@@ -0,0 +1,45 @@
HTML_REPLACEMENTS = [
(r'&', r'&amp;'),
(r'"', r'&quot;'),
]
def parse_markdown(text: str, tab_length: int = 2) -> str:
lines = text.split("\n")
output: list[str] = []
list_level = 0
def end_outstanding_lists(level: int, end_level: int) -> int:
while level > end_level:
level -= 1
output.append("</ul>")
if level > 0:
output.append("</li>")
return end_level
for i, line in enumerate(lines):
if i + 1 < len(lines) and lines[i + 1].startswith("==="): # heading
output.append(f"<h1>{line}</h1>")
elif line.startswith("==="):
pass
elif line.lstrip().startswith("* "): # list
line_level = 1 + line.count(" " * tab_length, 0, line.index("*"))
if list_level >= line_level:
list_level = end_outstanding_lists(list_level, line_level)
else:
list_level += 1
if list_level > 1:
output[-1] = output[-1].replace("</li>", "")
output.append("<ul>")
output.append(f"<li>{line.replace('*', '', 1).lstrip()}</li>")
else:
list_level = end_outstanding_lists(list_level, 0)
if len(line) > 0:
output.append(line)
end_outstanding_lists(list_level, 0)
output_str = "\n".join(output) + "\n"
for (fr, to) in HTML_REPLACEMENTS:
output_str = output_str.replace(fr, to)
return output_str
selfdrive/common/mat.h → common/mat.h
+8 -11
View File
@@ -1,8 +1,7 @@
#ifndef COMMON_MAT_H
#define COMMON_MAT_H
#pragma once
typedef struct vec3 {
float v[3];
float v[3];
} vec3;
typedef struct vec4 {
@@ -10,14 +9,14 @@ typedef struct vec4 {
} vec4;
typedef struct mat3 {
float v[3*3];
float v[3*3];
} mat3;
typedef struct mat4 {
float v[4*4];
} mat4;
static inline mat3 matmul3(const mat3 a, const mat3 b) {
static inline mat3 matmul3(const mat3 &a, const mat3 &b) {
mat3 ret = {{0.0}};
for (int r=0; r<3; r++) {
for (int c=0; c<3; c++) {
@@ -31,7 +30,7 @@ static inline mat3 matmul3(const mat3 a, const mat3 b) {
return ret;
}
static inline vec3 matvecmul3(const mat3 a, const vec3 b) {
static inline vec3 matvecmul3(const mat3 &a, const vec3 &b) {
vec3 ret = {{0.0}};
for (int r=0; r<3; r++) {
for (int c=0; c<3; c++) {
@@ -41,7 +40,7 @@ static inline vec3 matvecmul3(const mat3 a, const vec3 b) {
return ret;
}
static inline mat4 matmul(const mat4 a, const mat4 b) {
static inline mat4 matmul(const mat4 &a, const mat4 &b) {
mat4 ret = {{0.0}};
for (int r=0; r<4; r++) {
for (int c=0; c<4; c++) {
@@ -55,7 +54,7 @@ static inline mat4 matmul(const mat4 a, const mat4 b) {
return ret;
}
static inline vec4 matvecmul(const mat4 a, const vec4 b) {
static inline vec4 matvecmul(const mat4 &a, const vec4 &b) {
vec4 ret = {{0.0}};
for (int r=0; r<4; r++) {
for (int c=0; c<4; c++) {
@@ -67,7 +66,7 @@ static inline vec4 matvecmul(const mat4 a, const vec4 b) {
// scales the input and output space of a transformation matrix
// that assumes pixel-center origin.
static inline mat3 transform_scale_buffer(const mat3 in, float s) {
static inline mat3 transform_scale_buffer(const mat3 &in, float s) {
// in_pt = ( transform(out_pt/s + 0.5) - 0.5) * s
mat3 transform_out = {{
@@ -84,5 +83,3 @@ static inline mat3 transform_scale_buffer(const mat3 in, float s) {
return matmul3(transform_in, matmul3(in, transform_out));
}
#endif
common/mock/__init__.py
+50
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@@ -0,0 +1,50 @@
"""
Utilities for generating mock messages for testing.
example in common/tests/test_mock.py
"""
import functools
import threading
from cereal.messaging import PubMaster
from cereal.services import SERVICE_LIST
from openpilot.common.mock.generators import generate_livePose
from openpilot.common.realtime import Ratekeeper
MOCK_GENERATOR = {
"livePose": generate_livePose
}
def generate_messages_loop(services: list[str], done: threading.Event):
pm = PubMaster(services)
rk = Ratekeeper(100)
i = 0
while not done.is_set():
for s in services:
should_send = i % (100/SERVICE_LIST[s].frequency) == 0
if should_send:
message = MOCK_GENERATOR[s]()
pm.send(s, message)
i += 1
rk.keep_time()
def mock_messages(services: list[str] | str):
if isinstance(services, str):
services = [services]
def decorator(func):
@functools.wraps(func)
def wrapper(*args, **kwargs):
done = threading.Event()
t = threading.Thread(target=generate_messages_loop, args=(services, done))
t.start()
try:
return func(*args, **kwargs)
finally:
done.set()
t.join()
return wrapper
return decorator
common/mock/generators.py
+14
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@@ -0,0 +1,14 @@
from cereal import messaging
def generate_livePose():
msg = messaging.new_message('livePose')
meas = {'x': 0.0, 'y': 0.0, 'z': 0.0, 'xStd': 0.0, 'yStd': 0.0, 'zStd': 0.0, 'valid': True}
msg.livePose.orientationNED = meas
msg.livePose.velocityDevice = meas
msg.livePose.angularVelocityDevice = meas
msg.livePose.accelerationDevice = meas
msg.livePose.inputsOK = True
msg.livePose.posenetOK = True
msg.livePose.sensorsOK = True
return msg
common/numpy_fast.py
-18
View File
@@ -1,18 +0,0 @@
def int_rnd(x):
return int(round(x))
def clip(x, lo, hi):
return max(lo, min(hi, x))
def interp(x, xp, fp):
N = len(xp)
def get_interp(xv):
hi = 0
while hi < N and xv > xp[hi]:
hi += 1
low = hi - 1
return fp[-1] if hi == N and xv > xp[low] else (
fp[0] if hi == 0 else
(xv - xp[low]) * (fp[hi] - fp[low]) / (xp[hi] - xp[low]) + fp[low])
return [get_interp(v) for v in x] if hasattr(
x, '__iter__') else get_interp(x)
common/params.cc
+242
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@@ -0,0 +1,242 @@
#include "common/params.h"
#include <dirent.h>
#include <sys/file.h>
#include <algorithm>
#include <cassert>
#include <csignal>
#include <unordered_map>
#include "common/params_keys.h"
#include "common/queue.h"
#include "common/swaglog.h"
#include "common/util.h"
#include "system/hardware/hw.h"
namespace {
volatile sig_atomic_t params_do_exit = 0;
void params_sig_handler(int signal) {
params_do_exit = 1;
}
int fsync_dir(const std::string &path) {
int result = -1;
int fd = HANDLE_EINTR(open(path.c_str(), O_RDONLY, 0755));
if (fd >= 0) {
result = HANDLE_EINTR(fsync(fd));
HANDLE_EINTR(close(fd));
}
return result;
}
bool create_params_path(const std::string &param_path, const std::string &key_path) {
// Make sure params path exists
if (!util::file_exists(param_path) && !util::create_directories(param_path, 0775)) {
return false;
}
// See if the symlink exists, otherwise create it
if (!util::file_exists(key_path)) {
// 1) Create temp folder
// 2) Symlink it to temp link
// 3) Move symlink to <params>/d
std::string tmp_path = param_path + "/.tmp_XXXXXX";
// this should be OK since mkdtemp just replaces characters in place
char *tmp_dir = mkdtemp((char *)tmp_path.c_str());
if (tmp_dir == NULL) {
return false;
}
std::string link_path = std::string(tmp_dir) + ".link";
if (symlink(tmp_dir, link_path.c_str()) != 0) {
return false;
}
// don't return false if it has been created by other
if (rename(link_path.c_str(), key_path.c_str()) != 0 && errno != EEXIST) {
return false;
}
}
return true;
}
std::string ensure_params_path(const std::string &prefix, const std::string &path = {}) {
std::string params_path = path.empty() ? Path::params() : path;
if (!create_params_path(params_path, params_path + prefix)) {
throw std::runtime_error(util::string_format(
"Failed to ensure params path, errno=%d, path=%s, param_prefix=%s",
errno, params_path.c_str(), prefix.c_str()));
}
return params_path;
}
class FileLock {
public:
FileLock(const std::string &fn) {
fd_ = HANDLE_EINTR(open(fn.c_str(), O_CREAT, 0775));
if (fd_ < 0 || HANDLE_EINTR(flock(fd_, LOCK_EX)) < 0) {
LOGE("Failed to lock file %s, errno=%d", fn.c_str(), errno);
}
}
~FileLock() { close(fd_); }
private:
int fd_ = -1;
};
} // namespace
Params::Params(const std::string &path) {
params_prefix = "/" + util::getenv("OPENPILOT_PREFIX", "d");
params_path = ensure_params_path(params_prefix, path);
}
Params::~Params() {
if (future.valid()) {
future.wait();
}
assert(queue.empty());
}
std::vector<std::string> Params::allKeys() const {
std::vector<std::string> ret;
for (auto &p : keys) {
ret.push_back(p.first);
}
return ret;
}
bool Params::checkKey(const std::string &key) {
return keys.find(key) != keys.end();
}
ParamKeyFlag Params::getKeyFlag(const std::string &key) {
return static_cast<ParamKeyFlag>(keys[key].flags);
}
ParamKeyType Params::getKeyType(const std::string &key) {
return keys[key].type;
}
std::optional<std::string> Params::getKeyDefaultValue(const std::string &key) {
return keys[key].default_value;
}
int Params::put(const char* key, const char* value, size_t value_size) {
// Information about safely and atomically writing a file: https://lwn.net/Articles/457667/
// 1) Create temp file
// 2) Write data to temp file
// 3) fsync() the temp file
// 4) rename the temp file to the real name
// 5) fsync() the containing directory
std::string tmp_path = params_path + "/.tmp_value_XXXXXX";
int tmp_fd = mkstemp((char*)tmp_path.c_str());
if (tmp_fd < 0) return -1;
int result = -1;
do {
// Write value to temp.
ssize_t bytes_written = HANDLE_EINTR(write(tmp_fd, value, value_size));
if (bytes_written < 0 || (size_t)bytes_written != value_size) {
result = -20;
break;
}
// fsync to force persist the changes.
if ((result = HANDLE_EINTR(fsync(tmp_fd))) < 0) break;
FileLock file_lock(params_path + "/.lock");
// Move temp into place.
if ((result = rename(tmp_path.c_str(), getParamPath(key).c_str())) < 0) break;
// fsync parent directory
result = fsync_dir(getParamPath());
} while (false);
close(tmp_fd);
if (result != 0) {
::unlink(tmp_path.c_str());
}
return result;
}
int Params::remove(const std::string &key) {
FileLock file_lock(params_path + "/.lock");
int result = unlink(getParamPath(key).c_str());
if (result != 0) {
return result;
}
return fsync_dir(getParamPath());
}
std::string Params::get(const std::string &key, bool block) {
if (!block) {
return util::read_file(getParamPath(key));
} else {
// blocking read until successful
params_do_exit = 0;
void (*prev_handler_sigint)(int) = std::signal(SIGINT, params_sig_handler);
void (*prev_handler_sigterm)(int) = std::signal(SIGTERM, params_sig_handler);
std::string value;
while (!params_do_exit) {
if (value = util::read_file(getParamPath(key)); !value.empty()) {
break;
}
util::sleep_for(100); // 0.1 s
}
std::signal(SIGINT, prev_handler_sigint);
std::signal(SIGTERM, prev_handler_sigterm);
return value;
}
}
std::map<std::string, std::string> Params::readAll() {
FileLock file_lock(params_path + "/.lock");
return util::read_files_in_dir(getParamPath());
}
void Params::clearAll(ParamKeyFlag key_flag) {
FileLock file_lock(params_path + "/.lock");
// 1) delete params of key_flag
// 2) delete files that are not defined in the keys.
if (DIR *d = opendir(getParamPath().c_str())) {
struct dirent *de = NULL;
while ((de = readdir(d))) {
if (de->d_type != DT_DIR) {
auto it = keys.find(de->d_name);
if (it == keys.end() || (it->second.flags & key_flag)) {
unlink(getParamPath(de->d_name).c_str());
}
}
}
closedir(d);
}
fsync_dir(getParamPath());
}
void Params::putNonBlocking(const std::string &key, const std::string &val) {
queue.push(std::make_pair(key, val));
// start thread on demand
if (!future.valid() || future.wait_for(std::chrono::milliseconds(0)) == std::future_status::ready) {
future = std::async(std::launch::async, &Params::asyncWriteThread, this);
}
}
void Params::asyncWriteThread() {
// TODO: write the latest one if a key has multiple values in the queue.
std::pair<std::string, std::string> p;
while (queue.try_pop(p, 0)) {
// Params::put is Thread-Safe
put(p.first, p.second);
}
}
common/params.h
+90
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@@ -0,0 +1,90 @@
#pragma once
#include <future>
#include <map>
#include <optional>
#include <string>
#include <tuple>
#include <utility>
#include <vector>
#include "common/queue.h"
enum ParamKeyFlag {
PERSISTENT = 0x02,
CLEAR_ON_MANAGER_START = 0x04,
CLEAR_ON_ONROAD_TRANSITION = 0x08,
CLEAR_ON_OFFROAD_TRANSITION = 0x10,
DONT_LOG = 0x20,
DEVELOPMENT_ONLY = 0x40,
CLEAR_ON_IGNITION_ON = 0x80,
ALL = 0xFFFFFFFF
};
enum ParamKeyType {
STRING = 0, // must be utf-8 decodable
BOOL = 1,
INT = 2,
FLOAT = 3,
TIME = 4, // ISO 8601
JSON = 5,
BYTES = 6
};
struct ParamKeyAttributes {
uint32_t flags;
ParamKeyType type;
std::optional<std::string> default_value = std::nullopt;
};
class Params {
public:
explicit Params(const std::string &path = {});
~Params();
// Not copyable.
Params(const Params&) = delete;
Params& operator=(const Params&) = delete;
std::vector<std::string> allKeys() const;
bool checkKey(const std::string &key);
ParamKeyFlag getKeyFlag(const std::string &key);
ParamKeyType getKeyType(const std::string &key);
std::optional<std::string> getKeyDefaultValue(const std::string &key);
inline std::string getParamPath(const std::string &key = {}) {
return params_path + params_prefix + (key.empty() ? "" : "/" + key);
}
// Delete a value
int remove(const std::string &key);
void clearAll(ParamKeyFlag flag);
// helpers for reading values
std::string get(const std::string &key, bool block = false);
inline bool getBool(const std::string &key, bool block = false) {
return get(key, block) == "1";
}
std::map<std::string, std::string> readAll();
// helpers for writing values
int put(const char *key, const char *val, size_t value_size);
inline int put(const std::string &key, const std::string &val) {
return put(key.c_str(), val.data(), val.size());
}
inline int putBool(const std::string &key, bool val) {
return put(key.c_str(), val ? "1" : "0", 1);
}
void putNonBlocking(const std::string &key, const std::string &val);
inline void putBoolNonBlocking(const std::string &key, bool val) {
putNonBlocking(key, val ? "1" : "0");
}
private:
void asyncWriteThread();
std::string params_path;
std::string params_prefix;
// for nonblocking write
std::future<void> future;
SafeQueue<std::pair<std::string, std::string>> queue;
};
common/params.py
Executable → Regular
+16 -422
View File
@@ -1,425 +1,19 @@
#!/usr/bin/env python
"""ROS has a parameter server, we have files.
The parameter store is a persistent key value store, implemented as a directory with a writer lock.
On Android, we store params under params_dir = /data/params. The writer lock is a file
"<params_dir>/.lock" taken using flock(), and data is stored in a directory symlinked to by
"<params_dir>/d".
Each key, value pair is stored as a file with named <key> with contents <value>, located in
<params_dir>/d/<key>
Readers of a single key can just open("<params_dir>/d/<key>") and read the file contents.
Readers who want a consistent snapshot of multiple keys should take the lock.
Writers should take the lock before modifying anything. Writers should also leave the DB in a
consistent state after a crash. The implementation below does this by copying all params to a temp
directory <params_dir>/<tmp>, then atomically symlinking <params_dir>/<d> to <params_dir>/<tmp>
before deleting the old <params_dir>/<d> directory.
Writers that only modify a single key can simply take the lock, then swap the corresponding value
file in place without messing with <params_dir>/d.
"""
import time
import os
import errno
import sys
import shutil
import fcntl
import tempfile
import threading
from enum import Enum
def mkdirs_exists_ok(path):
try:
os.makedirs(path)
except OSError:
if not os.path.isdir(path):
raise
class TxType(Enum):
PERSISTENT = 1
CLEAR_ON_MANAGER_START = 2
CLEAR_ON_PANDA_DISCONNECT = 3
class UnknownKeyName(Exception):
pass
keys = {
"AccessToken": [TxType.PERSISTENT],
"AthenadPid": [TxType.PERSISTENT],
"CalibrationParams": [TxType.PERSISTENT],
"CarParams": [TxType.CLEAR_ON_MANAGER_START, TxType.CLEAR_ON_PANDA_DISCONNECT],
"CarVin": [TxType.CLEAR_ON_MANAGER_START, TxType.CLEAR_ON_PANDA_DISCONNECT],
"CompletedTrainingVersion": [TxType.PERSISTENT],
"ControlsParams": [TxType.PERSISTENT],
"DoUninstall": [TxType.CLEAR_ON_MANAGER_START],
"DongleId": [TxType.PERSISTENT],
"GithubSshKeys": [TxType.PERSISTENT],
"GitBranch": [TxType.PERSISTENT],
"GitCommit": [TxType.PERSISTENT],
"GitRemote": [TxType.PERSISTENT],
"HasAcceptedTerms": [TxType.PERSISTENT],
"IsGeofenceEnabled": [TxType.PERSISTENT],
"IsMetric": [TxType.PERSISTENT],
"IsRHD": [TxType.PERSISTENT],
"IsUpdateAvailable": [TxType.PERSISTENT],
"IsUploadRawEnabled": [TxType.PERSISTENT],
"IsUploadVideoOverCellularEnabled": [TxType.PERSISTENT],
"LimitSetSpeed": [TxType.PERSISTENT],
"LimitSetSpeedNeural": [TxType.PERSISTENT],
"LiveParameters": [TxType.PERSISTENT],
"LongitudinalControl": [TxType.PERSISTENT],
"Passive": [TxType.PERSISTENT],
"RecordFront": [TxType.PERSISTENT],
"ShouldDoUpdate": [TxType.CLEAR_ON_MANAGER_START],
"SpeedLimitOffset": [TxType.PERSISTENT],
"SubscriberInfo": [TxType.PERSISTENT],
"TermsVersion": [TxType.PERSISTENT],
"TrainingVersion": [TxType.PERSISTENT],
"Version": [TxType.PERSISTENT],
#dragonpilot config
"DragonEnableDashcam": [TxType.PERSISTENT],
"DragonDisableDriverSafetyCheck": [TxType.PERSISTENT], # deprecated
"DragonEnableDriverSafetyCheck": [TxType.PERSISTENT],
"DragonAutoShutdownAt": [TxType.PERSISTENT],
"DragonTempDisableSteerOnSignal": [TxType.PERSISTENT], # deprecated
"DragonEnableSteeringOnSignal": [TxType.PERSISTENT],
"DragonDisableLogger": [TxType.PERSISTENT], # deprecated
"DragonEnableLogger": [TxType.PERSISTENT],
"DragonDisableUploader": [TxType.PERSISTENT], # deprecated
"DragonEnableUploader": [TxType.PERSISTENT],
"DragonNoctuaMode": [TxType.PERSISTENT],
"DragonCacheCar": [TxType.PERSISTENT],
"DragonCachedModel": [TxType.PERSISTENT],
"DragonCachedFP": [TxType.PERSISTENT],
"DragonCachedVIN": [TxType.PERSISTENT],
"DragonAllowGas": [TxType.PERSISTENT],
"DragonBBUI": [TxType.PERSISTENT], # deprecated
"DragonToyotaStockDSU": [TxType.PERSISTENT],
"DragonLatCtrl": [TxType.PERSISTENT],
"DragonUISpeed": [TxType.PERSISTENT],
"DragonUIEvent": [TxType.PERSISTENT],
"DragonUIMaxSpeed": [TxType.PERSISTENT],
"DragonUIFace": [TxType.PERSISTENT],
"DragonUIDev": [TxType.PERSISTENT],
"DragonUIDevMini": [TxType.PERSISTENT],
"DragonEnableTomTom": [TxType.PERSISTENT],
"DragonBootTomTom": [TxType.PERSISTENT],
"DragonRunTomTom": [TxType.PERSISTENT],
"DragonEnableAutonavi": [TxType.PERSISTENT],
"DragonBootAutonavi": [TxType.PERSISTENT],
"DragonRunAutonavi": [TxType.PERSISTENT],
"DragonEnableMixplorer": [TxType.PERSISTENT],
"DragonRunMixplorer": [TxType.PERSISTENT],
"DragonSteeringMonitorTimer": [TxType.PERSISTENT],
"DragonCameraOffset": [TxType.PERSISTENT],
"DragonUIVolumeBoost": [TxType.PERSISTENT],
"DragonGreyPandaMode": [TxType.PERSISTENT],
"DragonDrivingUI": [TxType.PERSISTENT],
"DragonDisplaySteeringLimitAlert": [TxType.PERSISTENT],
"DragonChargingCtrl": [TxType.PERSISTENT],
"DragonCharging": [TxType.PERSISTENT],
"DragonDisCharging": [TxType.PERSISTENT],
"DragonToyotaLaneDepartureWarning": [TxType.PERSISTENT],
"DragonUILane": [TxType.PERSISTENT],
"DragonUILead": [TxType.PERSISTENT],
"DragonUIPath": [TxType.PERSISTENT],
"DragonUIBlinker": [TxType.PERSISTENT],
"DragonEnableDriverMonitoring": [TxType.PERSISTENT],
}
def fsync_dir(path):
fd = os.open(path, os.O_RDONLY)
try:
os.fsync(fd)
finally:
os.close(fd)
class FileLock(object):
def __init__(self, path, create):
self._path = path
self._create = create
self._fd = None
def acquire(self):
self._fd = os.open(self._path, os.O_CREAT if self._create else 0)
fcntl.flock(self._fd, fcntl.LOCK_EX)
def release(self):
if self._fd is not None:
os.close(self._fd)
self._fd = None
class DBAccessor(object):
def __init__(self, path):
self._path = path
self._vals = None
def keys(self):
self._check_entered()
return self._vals.keys()
def get(self, key):
self._check_entered()
try:
return self._vals[key]
except KeyError:
return None
def _get_lock(self, create):
lock = FileLock(os.path.join(self._path, ".lock"), create)
lock.acquire()
return lock
def _read_values_locked(self):
"""Callers should hold a lock while calling this method."""
vals = {}
try:
data_path = self._data_path()
keys = os.listdir(data_path)
for key in keys:
with open(os.path.join(data_path, key), "rb") as f:
vals[key] = f.read()
except (OSError, IOError) as e:
# Either the DB hasn't been created yet, or somebody wrote a bug and left the DB in an
# inconsistent state. Either way, return empty.
if e.errno == errno.ENOENT:
return {}
return vals
def _data_path(self):
return os.path.join(self._path, "d")
def _check_entered(self):
if self._vals is None:
raise Exception("Must call __enter__ before using DB")
class DBReader(DBAccessor):
def __enter__(self):
try:
lock = self._get_lock(False)
except OSError as e:
# Do not create lock if it does not exist.
if e.errno == errno.ENOENT:
self._vals = {}
return self
try:
# Read everything.
self._vals = self._read_values_locked()
return self
finally:
lock.release()
def __exit__(self, type, value, traceback): pass
class DBWriter(DBAccessor):
def __init__(self, path):
super(DBWriter, self).__init__(path)
self._lock = None
self._prev_umask = None
def put(self, key, value):
self._vals[key] = value
def delete(self, key):
self._vals.pop(key, None)
def __enter__(self):
mkdirs_exists_ok(self._path)
# Make sure we can write and that permissions are correct.
self._prev_umask = os.umask(0)
try:
os.chmod(self._path, 0o777)
self._lock = self._get_lock(True)
self._vals = self._read_values_locked()
except:
os.umask(self._prev_umask)
self._prev_umask = None
raise
return self
def __exit__(self, type, value, traceback):
self._check_entered()
try:
# data_path refers to the externally used path to the params. It is a symlink.
# old_data_path is the path currently pointed to by data_path.
# tempdir_path is a path where the new params will go, which the new data path will point to.
# new_data_path is a temporary symlink that will atomically overwrite data_path.
#
# The current situation is:
# data_path -> old_data_path
# We're going to write params data to tempdir_path
# tempdir_path -> params data
# Then point new_data_path to tempdir_path
# new_data_path -> tempdir_path
# Then atomically overwrite data_path with new_data_path
# data_path -> tempdir_path
old_data_path = None
new_data_path = None
tempdir_path = tempfile.mkdtemp(prefix=".tmp", dir=self._path)
try:
# Write back all keys.
os.chmod(tempdir_path, 0o777)
for k, v in self._vals.items():
with open(os.path.join(tempdir_path, k), "wb") as f:
f.write(v)
f.flush()
os.fsync(f.fileno())
fsync_dir(tempdir_path)
data_path = self._data_path()
try:
old_data_path = os.path.join(self._path, os.readlink(data_path))
except (OSError, IOError):
# NOTE(mgraczyk): If other DB implementations have bugs, this could cause
# copies to be left behind, but we still want to overwrite.
pass
new_data_path = "{}.link".format(tempdir_path)
os.symlink(os.path.basename(tempdir_path), new_data_path)
os.rename(new_data_path, data_path)
fsync_dir(self._path)
finally:
# If the rename worked, we can delete the old data. Otherwise delete the new one.
success = new_data_path is not None and os.path.exists(data_path) and (
os.readlink(data_path) == os.path.basename(tempdir_path))
if success:
if old_data_path is not None:
shutil.rmtree(old_data_path)
else:
shutil.rmtree(tempdir_path)
# Regardless of what happened above, there should be no link at new_data_path.
if new_data_path is not None and os.path.islink(new_data_path):
os.remove(new_data_path)
finally:
os.umask(self._prev_umask)
self._prev_umask = None
# Always release the lock.
self._lock.release()
self._lock = None
def read_db(params_path, key):
path = "%s/d/%s" % (params_path, key)
try:
with open(path, "rb") as f:
return f.read()
except IOError:
return None
def write_db(params_path, key, value):
prev_umask = os.umask(0)
lock = FileLock(params_path+"/.lock", True)
lock.acquire()
try:
tmp_path = tempfile.mktemp(prefix=".tmp", dir=params_path)
with open(tmp_path, "wb") as f:
f.write(value)
f.flush()
os.fsync(f.fileno())
path = "%s/d/%s" % (params_path, key)
os.rename(tmp_path, path)
fsync_dir(os.path.dirname(path))
finally:
os.umask(prev_umask)
lock.release()
class Params(object):
def __init__(self, db='/data/params'):
self.db = db
# create the database if it doesn't exist...
if not os.path.exists(self.db+"/d"):
with self.transaction(write=True):
pass
def transaction(self, write=False):
if write:
return DBWriter(self.db)
else:
return DBReader(self.db)
def _clear_keys_with_type(self, tx_type):
with self.transaction(write=True) as txn:
for key in keys:
if tx_type in keys[key]:
txn.delete(key)
def manager_start(self):
self._clear_keys_with_type(TxType.CLEAR_ON_MANAGER_START)
def panda_disconnect(self):
self._clear_keys_with_type(TxType.CLEAR_ON_PANDA_DISCONNECT)
def delete(self, key):
with self.transaction(write=True) as txn:
txn.delete(key)
def get(self, key, block=False):
if key not in keys:
raise UnknownKeyName(key)
while 1:
ret = read_db(self.db, key)
if not block or ret is not None:
break
# is polling really the best we can do?
time.sleep(0.05)
return ret
def put(self, key, dat):
if key not in keys:
raise UnknownKeyName(key)
write_db(self.db, key, dat)
def put_nonblocking(key, val):
def f(key, val):
params = Params()
params.put(key, val)
t = threading.Thread(target=f, args=(key, val))
t.start()
return t
from openpilot.common.params_pyx import Params, ParamKeyFlag, ParamKeyType, UnknownKeyName
assert Params
assert ParamKeyFlag
assert ParamKeyType
assert UnknownKeyName
if __name__ == "__main__":
params = Params()
if len(sys.argv) > 2:
params.put(sys.argv[1], sys.argv[2])
else:
for k in keys:
pp = params.get(k)
if pp is None:
print("%s is None" % k)
elif all(ord(c) < 128 and ord(c) >= 32 for c in pp):
print("%s = %s" % (k, pp))
else:
print("%s = %s" % (k, pp.encode("hex")))
import sys
# Test multiprocess:
# seq 0 100000 | xargs -P20 -I{} python common/params.py DongleId {} && sleep 0.05
# while python common/params.py DongleId; do sleep 0.05; done
params = Params()
key = sys.argv[1]
assert params.check_key(key), f"unknown param: {key}"
if len(sys.argv) == 3:
val = sys.argv[2]
print(f"SET: {key} = {val}")
params.put(key, val)
elif len(sys.argv) == 2:
print(f"GET: {key} = {params.get(key)}")
common/params_keys.h
+164
View File
@@ -0,0 +1,164 @@
#pragma once
#include <string>
#include <unordered_map>
#include "cereal/gen/cpp/log.capnp.h"
inline static std::unordered_map<std::string, ParamKeyAttributes> keys = {
{"AccessToken", {CLEAR_ON_MANAGER_START | DONT_LOG, STRING}},
{"AdbEnabled", {PERSISTENT, BOOL}},
{"AlwaysOnDM", {PERSISTENT, BOOL}},
{"ApiCache_Device", {PERSISTENT, STRING}},
{"ApiCache_FirehoseStats", {PERSISTENT, JSON}},
{"AssistNowToken", {PERSISTENT, STRING}},
{"AthenadPid", {PERSISTENT, INT}},
{"AthenadUploadQueue", {PERSISTENT, JSON}},
{"AthenadRecentlyViewedRoutes", {PERSISTENT, STRING}},
{"BootCount", {PERSISTENT, INT}},
{"CalibrationParams", {PERSISTENT, BYTES}},
{"CameraDebugExpGain", {CLEAR_ON_MANAGER_START, STRING}},
{"CameraDebugExpTime", {CLEAR_ON_MANAGER_START, STRING}},
{"CarBatteryCapacity", {PERSISTENT, INT}},
{"CarParams", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BYTES}},
{"CarParamsCache", {CLEAR_ON_MANAGER_START, BYTES}},
{"CarParamsPersistent", {PERSISTENT, BYTES}},
{"CarParamsPrevRoute", {PERSISTENT, BYTES}},
{"CompletedTrainingVersion", {PERSISTENT, STRING, "0"}},
{"ControlsReady", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}},
{"CurrentBootlog", {PERSISTENT, STRING}},
{"CurrentRoute", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, STRING}},
{"DisableLogging", {PERSISTENT, BOOL, "0"}},
{"DisablePowerDown", {PERSISTENT, BOOL}},
{"DisableUpdates", {PERSISTENT, BOOL}},
{"DisengageOnAccelerator", {PERSISTENT, BOOL, "0"}},
{"DongleId", {PERSISTENT, STRING}},
{"DoReboot", {CLEAR_ON_MANAGER_START, BOOL}},
{"DoShutdown", {CLEAR_ON_MANAGER_START, BOOL}},
{"DoUninstall", {CLEAR_ON_MANAGER_START, BOOL}},
{"DriverTooDistracted", {CLEAR_ON_MANAGER_START | CLEAR_ON_IGNITION_ON, BOOL}},
{"AlphaLongitudinalEnabled", {PERSISTENT | DEVELOPMENT_ONLY, BOOL}},
{"ExperimentalMode", {PERSISTENT, BOOL}},
{"ExperimentalModeConfirmed", {PERSISTENT, BOOL}},
{"FirmwareQueryDone", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}},
{"ForcePowerDown", {PERSISTENT, BOOL}},
{"GitBranch", {PERSISTENT, STRING}},
{"GitCommit", {PERSISTENT, STRING}},
{"GitCommitDate", {PERSISTENT, STRING}},
{"GitDiff", {PERSISTENT, STRING}},
{"GithubSshKeys", {PERSISTENT, STRING}},
{"GithubUsername", {PERSISTENT, STRING}},
{"GitRemote", {PERSISTENT, STRING}},
{"GsmApn", {PERSISTENT, STRING}},
{"GsmMetered", {PERSISTENT, BOOL, "1"}},
{"GsmRoaming", {PERSISTENT, BOOL}},
{"HardwareSerial", {PERSISTENT, STRING}},
{"HasAcceptedTerms", {PERSISTENT, STRING, "0"}},
{"InstallDate", {PERSISTENT, TIME}},
{"IsDriverViewEnabled", {CLEAR_ON_MANAGER_START, BOOL}},
{"IsEngaged", {PERSISTENT, BOOL}},
{"IsLdwEnabled", {PERSISTENT, BOOL}},
{"IsMetric", {PERSISTENT, BOOL}},
{"IsOffroad", {CLEAR_ON_MANAGER_START, BOOL}},
{"IsOnroad", {PERSISTENT, BOOL}},
{"IsRhdDetected", {PERSISTENT, BOOL}},
{"IsReleaseBranch", {CLEAR_ON_MANAGER_START, BOOL}},
{"IsTakingSnapshot", {CLEAR_ON_MANAGER_START, BOOL}},
{"IsTestedBranch", {CLEAR_ON_MANAGER_START, BOOL}},
{"JoystickDebugMode", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}},
{"LanguageSetting", {PERSISTENT, STRING, "en"}},
{"LastAthenaPingTime", {CLEAR_ON_MANAGER_START, INT}},
{"LastGPSPosition", {PERSISTENT, STRING}},
{"LastManagerExitReason", {CLEAR_ON_MANAGER_START, STRING}},
{"LastOffroadStatusPacket", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, JSON}},
{"LastPowerDropDetected", {CLEAR_ON_MANAGER_START, STRING}},
{"LastUpdateException", {CLEAR_ON_MANAGER_START, STRING}},
{"LastUpdateRouteCount", {PERSISTENT, INT, "0"}},
{"LastUpdateTime", {PERSISTENT, TIME}},
{"LastUpdateUptimeOnroad", {PERSISTENT, FLOAT, "0.0"}},
{"LiveDelay", {PERSISTENT, BYTES}},
{"LiveParameters", {PERSISTENT, JSON}},
{"LiveParametersV2", {PERSISTENT, BYTES}},
{"LiveTorqueParameters", {PERSISTENT | DONT_LOG, BYTES}},
{"LocationFilterInitialState", {PERSISTENT, BYTES}},
{"LongitudinalManeuverMode", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}},
{"LongitudinalPersonality", {PERSISTENT, INT, std::to_string(static_cast<int>(cereal::LongitudinalPersonality::STANDARD))}},
{"NetworkMetered", {PERSISTENT, BOOL}},
{"ObdMultiplexingChanged", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}},
{"ObdMultiplexingEnabled", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}},
{"Offroad_CarUnrecognized", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, JSON}},
{"Offroad_ConnectivityNeeded", {CLEAR_ON_MANAGER_START, JSON}},
{"Offroad_ConnectivityNeededPrompt", {CLEAR_ON_MANAGER_START, JSON}},
{"Offroad_ExcessiveActuation", {PERSISTENT, JSON}},
{"Offroad_IsTakingSnapshot", {CLEAR_ON_MANAGER_START, JSON}},
{"Offroad_NeosUpdate", {CLEAR_ON_MANAGER_START, JSON}},
{"Offroad_NoFirmware", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, JSON}},
{"Offroad_Recalibration", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, JSON}},
{"Offroad_TemperatureTooHigh", {CLEAR_ON_MANAGER_START, JSON}},
{"Offroad_UnregisteredHardware", {CLEAR_ON_MANAGER_START, JSON}},
{"Offroad_UpdateFailed", {CLEAR_ON_MANAGER_START, JSON}},
{"Offroad_DriverMonitoringUncertain", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, JSON}},
{"OnroadCycleRequested", {CLEAR_ON_MANAGER_START, BOOL}},
{"OpenpilotEnabledToggle", {PERSISTENT, BOOL, "1"}},
{"PandaHeartbeatLost", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}},
{"PandaSomResetTriggered", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}},
{"PandaSignatures", {CLEAR_ON_MANAGER_START, BYTES}},
{"PrimeType", {PERSISTENT, INT}},
{"RecordAudio", {PERSISTENT, BOOL}},
{"RecordAudioFeedback", {PERSISTENT, BOOL, "0"}},
{"RecordFront", {PERSISTENT, BOOL}},
{"RecordFrontLock", {PERSISTENT, BOOL}}, // for the internal fleet
{"SecOCKey", {PERSISTENT | DONT_LOG, STRING}},
{"ShowDebugInfo", {PERSISTENT, BOOL}},
{"RouteCount", {PERSISTENT, INT, "0"}},
{"SnoozeUpdate", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}},
{"SshEnabled", {PERSISTENT, BOOL}},
{"UbloxAvailable", {PERSISTENT, BOOL}},
{"UpdateAvailable", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}},
{"UpdateFailedCount", {CLEAR_ON_MANAGER_START, INT}},
{"UpdaterAvailableBranches", {PERSISTENT, STRING}},
{"UpdaterCurrentDescription", {CLEAR_ON_MANAGER_START, STRING}},
{"UpdaterCurrentReleaseNotes", {CLEAR_ON_MANAGER_START, BYTES}},
{"UpdaterFetchAvailable", {CLEAR_ON_MANAGER_START, BOOL}},
{"UpdaterNewDescription", {CLEAR_ON_MANAGER_START, STRING}},
{"UpdaterNewReleaseNotes", {CLEAR_ON_MANAGER_START, BYTES}},
{"UpdaterState", {CLEAR_ON_MANAGER_START, STRING}},
{"UpdaterTargetBranch", {CLEAR_ON_MANAGER_START, STRING}},
{"UpdaterLastFetchTime", {PERSISTENT, TIME}},
{"UptimeOffroad", {PERSISTENT, FLOAT, "0.0"}},
{"UptimeOnroad", {PERSISTENT, FLOAT, "0.0"}},
{"Version", {PERSISTENT, STRING}},
{"dp_dev_last_log", {CLEAR_ON_ONROAD_TRANSITION, STRING}},
{"dp_dev_reset_conf", {CLEAR_ON_MANAGER_START, BOOL, "0"}},
{"dp_dev_is_rhd", {PERSISTENT, BOOL, "0"}},
{"dp_dev_monitoring_disabled", {PERSISTENT, BOOL, "0"}},
{"dp_dev_beep", {PERSISTENT, BOOL, "0"}},
{"dp_lat_alka", {PERSISTENT, BOOL, "0"}},
{"dp_ui_display_mode", {PERSISTENT, INT, "0"}},
{"dp_dev_model_selected", {PERSISTENT, STRING}},
{"dp_dev_model_list", {PERSISTENT, STRING}},
{"dp_lat_lca_speed", {PERSISTENT, INT, "20"}},
{"dp_lat_lca_auto_sec", {PERSISTENT, FLOAT, "0.0"}},
{"dp_dev_go_off_road", {CLEAR_ON_MANAGER_START, BOOL}},
{"dp_ui_hide_hud_speed_kph", {PERSISTENT, INT, "0"}},
{"dp_lon_ext_radar", {PERSISTENT, BOOL, "0"}},
{"dp_lat_road_edge_detection", {PERSISTENT, BOOL, "0"}},
{"dp_ui_rainbow", {PERSISTENT, BOOL, "0"}},
{"dp_lon_acm", {PERSISTENT, BOOL, "0"}},
{"dp_lon_aem", {PERSISTENT, BOOL, "0"}},
{"dp_lon_dtsc", {PERSISTENT, BOOL, "0"}},
{"dp_dev_audible_alert_mode", {PERSISTENT, INT, "0"}},
{"dp_dev_auto_shutdown_in", {PERSISTENT, INT, "-5"}},
{"dp_ui_lead", {PERSISTENT, INT, "0"}},
{"dp_dev_dashy", {PERSISTENT, INT, "0"}},
{"dp_dev_delay_loggerd", {PERSISTENT, INT, "0"}},
{"dp_dev_disable_connect", {PERSISTENT, BOOL, "0"}},
{"dp_dev_tethering", {PERSISTENT, BOOL, "0"}},
{"dp_toyota_door_auto_lock_unlock", {PERSISTENT, BOOL, "0"}},
{"dp_toyota_tss1_sng", {PERSISTENT, BOOL, "0"}},
{"dp_toyota_stock_lon", {PERSISTENT, BOOL, "0"}},
{"dp_vag_a0_sng", {PERSISTENT, BOOL, "0"}},
{"dp_vag_pq_steering_patch", {PERSISTENT, BOOL, "0"}},
{"dp_vag_avoid_eps_lockout", {PERSISTENT, BOOL, "0"}},
{"dp_ui_four", {PERSISTENT, BOOL, "0"}},
};

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