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merge into: mawei/onepilot:3xl-dev
Branches Tags
mawei/onepilot:3xl mawei/onepilot:evo mawei/onepilot:staging mawei/onepilot:dp-dev mawei/onepilot:res mawei/onepilot:dev mawei/onepilot:3xl-dev mawei/onepilot:release-new mawei/onepilot:3xl-cn mawei/onepilot:dragonpilot mawei/onepilot:evo-release mawei/onepilot:pre mawei/onepilot:sp097 mawei/onepilot:nav mawei/onepilot:mk mawei/onepilot:devc3 mawei/onepilot:tskm-3xl mawei/onepilot:tskm-c3 mawei/onepilot:mrone mawei/onepilot:starpilot mawei/onepilot:gm mawei/onepilot:cp mawei/onepilot:meb-c3
..
pull from: mawei/onepilot:pre
Branches Tags
mawei/onepilot:evo mawei/onepilot:staging mawei/onepilot:dp-dev mawei/onepilot:res mawei/onepilot:dev mawei/onepilot:3xl-dev mawei/onepilot:3xl mawei/onepilot:release-new mawei/onepilot:3xl-cn mawei/onepilot:dragonpilot mawei/onepilot:evo-release mawei/onepilot:pre mawei/onepilot:sp097 mawei/onepilot:nav mawei/onepilot:mk mawei/onepilot:devc3 mawei/onepilot:tskm-3xl mawei/onepilot:tskm-c3 mawei/onepilot:mrone mawei/onepilot:starpilot mawei/onepilot:gm mawei/onepilot:cp mawei/onepilot:meb-c3

16 Commits
3xl-dev .. pre

Author SHA1 Message Date
mawei 317d51566b fix: set jihulab.com as update source for pre branch 2026-06-01 11:25:19 +08:00
mawei d606f7d723 fix: delay relay switching 5s on MQB startup to prevent vehicle errors 2026-06-01 11:01:44 +08:00
Rick Lan 1986516b32 pre-build 2026-02-27 10:31:23 +08:00
Rick Lan 6f274a1e59 translations - dragonpilot 2026-02-27 10:30:44 +08:00
Rick Lan e889c3bf19 translations - app 2026-02-27 10:30:44 +08:00
Rick Lan 3346e4d281 [bugfix] sdsu dist btn 2026-02-27 10:30:08 +08:00
Rick Lan 80ac65a3e2 [bugfix] skip audio stream when OSError 2026-02-25 15:54:07 +08:00
Rick Lan e5ffea4734 [Temp] Adjust DASR 2026-02-20 20:45:19 +08:00
Rick Lan 3ef072024f Merge branch 'brand/honda/nidec-stock-long' into pre-patch 2026-02-20 20:43:54 +08:00
Rick Lan b5c149dfed brand/honda/nidec-stock-long 
2026-02-20: init
 2026-02-20 20:30:53 +08:00
Rick Lan bdf701af10 better looking fonts 2026-02-13 16:42:23 +08:00
Rick Lan 0634122d32 [Fix] VW PQ: Revert change to gear position VAL table (#3020) 2026-02-13 16:42:23 +08:00
Rick Lan 5b95afd3dc feat: Squash all pre-brand features into pre 2026-02-13 16:41:56 +08:00
Rick Lan 01e9d51093 feat: Squash all min-features into full 2026-02-13 16:14:14 +08:00
Rick Lan 0076d30d62 feat: Squash all core features into min 2026-01-23 11:48:04 +08:00
Vehicle Researcher 6928314c89 openpilot v0.10.3 release 
date: 2025-12-18T23:23:16
master commit: 154c2334110373950bac1c36fc6e943cb1208326
 2025-12-18 23:23:21 -08:00
3901 changed files with 546371 additions and 759929 deletions
Expand all files Collapse all files
.codespellignore
-6
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@@ -1,6 +0,0 @@
Wen
REGIST
PullRequest
cancelled
FOF
NoO
.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
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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
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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
+26 -23
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@@ -13,13 +13,13 @@ venv/
a.out a.out
.hypothesis .hypothesis
.cache/ .cache/
bin/
/docs_site/
*.mp4 *.mp4
*.dylib *.dylib
*.DSYM *.DSYM
*.d *.d
*.pem
*.pyc *.pyc
*.pyo *.pyo
.*.swp .*.swp
@@ -39,15 +39,11 @@ bin/
*.mo *.mo
*_pyx.cpp *_pyx.cpp
*.stats *.stats
*.pkl
*.pkl*
config.json config.json
clcache
compile_commands.json compile_commands.json
compare_runtime*.html compare_runtime*.html
selfdrive/modeld/models/tg_input_devices.json
# build artifacts
docs_site/
selfdrive/pandad/pandad selfdrive/pandad/pandad
cereal/services.h cereal/services.h
cereal/gen cereal/gen
@@ -60,38 +56,45 @@ system/camerad/test/ae_gray_test
.coverage* .coverage*
coverage.xml coverage.xml
htmlcov htmlcov
pandaextra
.mypy_cache/
flycheck_*
cppcheck_report.txt
comma*.sh
selfdrive/modeld/models/*.pkl
# openpilot log files # openpilot log files
*.bz2 *.bz2
*.zst *.zst
*.rlog
build/ build/
!**/.gitkeep !**/.gitkeep
poetry.toml
Pipfile
### VisualStudioCode ### ### VisualStudioCode ###
*.vsix
.history
.ionide
.vscode/* .vscode/*
.history/
!.vscode/settings.json !.vscode/settings.json
!.vscode/tasks.json !.vscode/tasks.json
!.vscode/launch.json !.vscode/launch.json
!.vscode/extensions.json !.vscode/extensions.json
!.vscode/*.code-snippets !.vscode/*.code-snippets
# agents # Local History for Visual Studio Code
.claude/ .history/
.context/
PLAN.md
TASK.md
CLAUDE.md
SKILL.md
### JetBrains ### # Built Visual Studio Code Extensions
!.idea/customTargets.xml *.vsix
!.idea/tools/*
!.run/* ### VisualStudioCode Patch ###
# Ignore all local history of files
.history
.ionide
# rick - keep panda_tici standalone
panda_tici/
.python-version
-1
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@@ -1 +0,0 @@
3.12.13
.vscode/extensions.json
Vendored
+3
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@@ -4,5 +4,8 @@
"ms-vscode.cpptools", "ms-vscode.cpptools",
"elagil.pre-commit-helper", "elagil.pre-commit-helper",
"charliermarsh.ruff", "charliermarsh.ruff",
"JamiTech.simply-blame",
"k--kato.intellij-idea-keybindings",
"trinm1709.dracula-theme-from-intellij"
] ]
} }
.vscode/launch.json
Vendored
-3
View File
@@ -52,9 +52,6 @@
"type": "lldb", "type": "lldb",
"request": "attach", "request": "attach",
"pid": "${command:pickMyProcess}", "pid": "${command:pickMyProcess}",
"sourceMap": {
".": "${workspaceFolder}/opendbc/safety"
},
"initCommands": [ "initCommands": [
"script import time; time.sleep(3)" "script import time; time.sleep(3)"
] ]
.vscode/settings.json
Vendored
+16 -1
View File
@@ -3,10 +3,24 @@
"editor.insertSpaces": true, "editor.insertSpaces": true,
"editor.renderWhitespace": "trailing", "editor.renderWhitespace": "trailing",
"files.trimTrailingWhitespace": true, "files.trimTrailingWhitespace": true,
"terminal.integrated.defaultProfile.linux": "dragonpilot",
"terminal.integrated.profiles.linux": {
"dragonpilot": {
"path": "bash",
"args": ["-c", "distrobox enter dp"]
}
},
"search.exclude": { "search.exclude": {
"**/.git": true, "**/.git": true,
"**/.venv": true, "**/.venv": true,
"**/__pycache__": true "**/__pycache__": true,
"msgq_repo/": true,
"rednose/": true,
"rednose_repo/": true,
"openpilot/": true,
"teleoprtc_repo/": true,
"tinygrad/": true,
"tinygrad_repo/": true
}, },
"files.exclude": { "files.exclude": {
"**/.git": true, "**/.git": true,
@@ -21,6 +35,7 @@
"common/**", "common/**",
"selfdrive/**", "selfdrive/**",
"system/**", "system/**",
"third_party/**",
"tools/**", "tools/**",
] ]
} }
1.sh
-83
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@@ -1,83 +0,0 @@
#!/bin/env sh
persist_dir=/persist
target_dir=${persist_dir}/comma
# Change target dir from sunnylink to comma to make this no longer a test
# Function to remount /persist as read-only
cleanup() {
echo "Remounting ${persist_dir} as read-only..."
sudo mount -o remount,ro ${persist_dir}
}
# Function to check and backup existing keys
backup_keys() {
if [ -f "id_rsa" ] || [ -f "id_rsa.pub" ]; then
timestamp=$(date +%s)
backup_base="id_rsa_backup_$timestamp"
backup_private="$backup_base"
backup_public="${backup_base}.pub"
# Ensure we're not overwriting an existing backup
counter=0
while [ -f "$backup_private" ] || [ -f "$backup_public" ]; do
counter=$((counter + 1))
backup_private="${backup_base}_$counter"
backup_public="${backup_base}_$counter.pub"
done
# Backup the keys
cp id_rsa "$backup_private"
cp id_rsa.pub "$backup_public"
# Verify the backup
original_private_hash=$(sha256sum id_rsa | cut -d ' ' -f 1)
backup_private_hash=$(sha256sum "$backup_private" | cut -d ' ' -f 1)
original_public_hash=$(sha256sum id_rsa.pub | cut -d ' ' -f 1)
backup_public_hash=$(sha256sum "$backup_public" | cut -d ' ' -f 1)
if [ "$original_private_hash" = "$backup_private_hash" ] && [ "$original_public_hash" = "$backup_public_hash" ]; then
echo "Backup verified successfully."
# Safe to delete original keys after successful backup verification
else
echo "Backup verification failed. Aborting operation."
exit 1
fi
echo "Existing keys backed up as $backup_private and $backup_public"
fi
}
# Trap any signal that exits the script to run cleanup function
trap cleanup EXIT
# Remount /persist as read-write
sudo mount -o remount,rw ${persist_dir}
# Ensure the directory exists
mkdir -p ${target_dir}
cd ${target_dir}
# Check for and backup existing keys
#backup_keys
# Generate new keys
if ! ssh-keygen -t rsa -b 4096 -m PEM -f id_rsa -N ''; then
echo "Failed to generate new RSA keys. Exiting..."
exit 1
fi
# Convert the generated SSH public key to PEM format and store it temporarily
if ! openssl rsa -pubout -in id_rsa -out id_rsa.pub -outform PEM; then
echo "Failed to convert the public key to PEM format. Exiting..."
exit 1
fi
# Display the public key
echo "Displaying the public key:"
cat id_rsa.pub
# Cleanup will be called automatically due to trap on EXIT
#echo "Operation completed successfully. System will reboot now."
#sudo reboot
ALKA_DESIGN.md
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@@ -0,0 +1,140 @@
# ALKA (Always-on Lane Keeping Assist) Design v3
## Overview
ALKA enables lateral control (steering) when ACC Main is ON, without requiring cruise to be engaged. This allows lane keeping assist to function independently of longitudinal control.
**Simplified Behavior (v3):**
- All brands use direct tracking: `lkas_on = acc_main_on`
- No button/toggle tracking (removed TJA, LKAS button, LKAS HUD)
- ACC Main ON = ALKA enabled, ACC Main OFF = ALKA disabled
---
## Per-Brand Summary
| Brand | Status | ACC Main Source | Notes |
|-------|--------|-----------------|-------|
| Body | Disabled | - | No steering capability |
| Chrysler | Disabled | - | Needs special handling |
| Ford | Enabled | EngBrakeData (0x165) CcStat | |
| GM | Disabled | - | No ACC Main signal |
| Honda Nidec | Enabled | SCM_FEEDBACK (0x326) MAIN_ON | |
| Honda Bosch | Enabled | SCM_FEEDBACK (0x326) MAIN_ON | |
| Hyundai | Enabled | SCC11 (0x420) bit 0 | |
| Hyundai CAN-FD | Enabled | SCC_CONTROL (0x1A0) bit 66 | |
| Hyundai Legacy | Enabled | SCC11 (0x420) bit 0 | |
| Mazda | Enabled | CRZ_CTRL (0x21C) bit 17 | |
| Nissan | Enabled | CRUISE_THROTTLE (0x239) bit 17 | |
| PSA | Disabled | - | Not implemented |
| Rivian | Disabled | - | Different architecture |
| Subaru | Enabled | CruiseControl (0x240) bit 40 | |
| Subaru Preglobal | Enabled | CruiseControl (0x144) bit 48 | |
| Tesla | Disabled | - | Different architecture |
| Toyota | Enabled | PCM_CRUISE_2 (0x1D3) bit 15 | |
| Toyota (UNSUPPORTED_DSU) | Enabled | DSU_CRUISE (0x365) bit 0 | |
| VW MQB | Enabled | TSK_06 TSK_Status (>=2) | |
| VW PQ | Enabled | Motor_5 (0x480) bit 50 (long) | |
---
## Permission Model
Lateral control requires checks at both layers. Normal path uses `controls_allowed`, ALKA path uses additional checks.
| Check | Panda | openpilot | Notes |
|-------|:-----:|:---------:|-------|
| **Normal Path** |
| `controls_allowed` (cruise engaged) | ✓ | ✓ | Either this OR ALKA path |
| **ALKA Path** |
| `alka_allowed` (brand supports) | ✓ | ✓ | Set per brand in safety init |
| `ALT_EXP_ALKA` (user enabled) | ✓ | ✓ | alternativeExperience flag |
| `lkas_on` (ACC Main ON) | ✓ | ✓ | Tracked via CAN messages |
| `vehicle_moving` / `!standstill` | ✓ | ✓ | |
| **openpilot Additional** |
| `gear_ok` (not P/N/R) | ✗ | ✓ | Python layer only |
| `calibrated` | ✗ | ✓ | Python layer only |
| `seatbelt latched` | ✗ | ✓ | Python layer only |
| `doors closed` | ✗ | ✓ | Python layer only |
| `!steerFaultTemporary` | ✗ | ✓ | Python layer only |
| `!steerFaultPermanent` | ✗ | ✓ | Python layer only |
---
## Data Flow
```
┌─────────────────────────────────────────────────────────────────────┐
│ CAN Bus │
└─────────────────────────────────────────────────────────────────────┘
│ │
▼ ▼
┌─────────────────────────────────┐ ┌─────────────────────────────────┐
│ Safety Layer (panda C code) │ │ Python Layer │
│ │ │ │
│ rx_hook: │ │ carstate.py: │
│ - Parse ACC Main signal │ │ - Parse cruiseState.available │
│ - Set lkas_on = acc_main_on │ │ - Set self.lkas_on │
│ │ │ │
│ lat_control_allowed(): │ └─────────────┬───────────────────┘
│ - Check lkas_on + other flags │ │
│ - Gate steering commands │ ▼
└─────────────────────────────────┘ ┌─────────────────────────────────┐
│ card.py: │
│ - Publish carStateExt.lkasOn │
└─────────────┬───────────────────┘
┌─────────────────────────────────┐
│ controlsd.py: │
│ - Read carStateExt.lkasOn │
│ - Check ALKA conditions │
│ - Set CC.latActive │
└─────────────────────────────────┘
```
### Key Files
| File | Purpose |
|------|---------|
| `custom.capnp` | Defines `CarStateExt` struct with `lkasOn` field |
| `log.capnp` | Includes `carStateExt` in event union |
| `interfaces.py` | Defines `self.lkas_on = False` default in `CarStateBase` |
| `carstate.py` (per brand) | Tracks `lkas_on` based on ACC Main |
| `card.py` | Publishes `carStateExt.lkasOn` from `CI.CS.lkas_on` |
| `controlsd.py` | Reads `carStateExt.lkasOn` to determine `alka_active` |
---
## ACC Main Tracking
All brands use simple direct tracking:
```c
// Panda (C code)
if (alka_allowed && (alternative_experience & ALT_EXP_ALKA)) {
lkas_on = acc_main_on; // or GET_BIT(msg, bit_position)
}
```
```python
# Python carstate.py
self.lkas_on = ret.cruiseState.available
```
This guard ensures:
1. Brand supports ALKA (`alka_allowed`)
2. User enabled ALKA (`ALT_EXP_ALKA`)
Without both conditions, no ACC Main tracking occurs, and ALKA remains disabled.
---
## Testing
Safety tests verify:
- `alka_allowed` flag set correctly per brand
- ACC Main tracking updates `lkas_on` directly
- `lat_control_allowed()` returns true only when all conditions met
- Steering TX blocked when ALKA conditions not met
- Bus routing variants (camera_scc, unsupported_dsu)
BRANCHES.md
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@@ -0,0 +1,91 @@
```mermaid
flowchart TD
B000["devel-staging"] ---> CORE["core"]
CORE ---> CORE_001["core-feat/params"]
CORE_001 ---> CORE_002["core-feat/panel"]
CORE_002 ---> CORE_003["core-feat/safety-ext"]
CORE_003 ---> MIN["min"]
MIN ---> MIN_001["min-feat/ui/display-mode"]
MIN ---> MIN_002["min-feat/dev/model-selector"]
MIN ---> MIN_003["min-feat/lat/lca"]
MIN ---> MIN_004["min-feat/dev/on-off-road"]
MIN ---> MIN_005["min-feat/ui/hide-hud"]
MIN ---> MIN_006["min-feat/lon/ext-radar"]
MIN ---> MIN_007["min-feat/lat/road-edge-detection"]
MIN ---> MIN_008["min-feat/ui/rainbow-path"]
MIN ---> MIN_009["min-feat/lon/acm"]
MIN ---> MIN_010["min-feat/lon/aem"]
MIN ---> MIN_011["min-feat/lon/dtsc"]
MIN ---> MIN_012["min-feat/lon/apm"]
MIN ---> MIN_013["min-feat/lon/dasr"]
MIN ---> MIN_014["min-feat/dev/alert-mode"]
MIN ---> MIN_015["min-feat/dev/auto-shutdown"]
MIN ---> MIN_016["min-feat/ui/lead-stats"]
MIN ---> MIN_017["min-feat/ui/border-indicator"]
MIN ---> MIN_018["min-feat/dev/delay-loggerd"]
MIN ---> MIN_019["min-feat/dev/disable-connect"]
MIN ---> MIN_020["min-feat/dev/tether-on-boot"]
MIN ---> MIN_021["min-feat/ui/torque-bar"]
MIN ---> MIN_022["min-feat/ui/mici-ui-mode"]
MIN ---> MIN_023["min-feat/lat/lat-offset"]
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
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 ---> HONDA_002[brand/honda/nidec-stock-long]
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]
```
CHANGELOG.md
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CHANGELOGS.md
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Dockerfile.openpilot
+6 -30
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@@ -1,38 +1,14 @@
FROM ubuntu:24.04 FROM ghcr.io/commaai/openpilot-base:latest
ENV PYTHONUNBUFFERED=1 ENV PYTHONUNBUFFERED=1
ENV DEBIAN_FRONTEND=noninteractive ENV OPENPILOT_PATH=/home/batman/openpilot
RUN apt-get update && \
apt-get install -y --no-install-recommends sudo tzdata locales && \
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
ENV NVIDIA_VISIBLE_DEVICES=all
ENV NVIDIA_DRIVER_CAPABILITIES=graphics,utility,compute
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 $USER
ENV OPENPILOT_PATH=/home/$USER/openpilot
RUN mkdir -p ${OPENPILOT_PATH} RUN mkdir -p ${OPENPILOT_PATH}
WORKDIR ${OPENPILOT_PATH} WORKDIR ${OPENPILOT_PATH}
COPY --chown=$USER . ${OPENPILOT_PATH}/ COPY . ${OPENPILOT_PATH}/
ENV UV_BIN="/home/$USER/.local/bin/" ENV UV_BIN="/home/batman/.local/bin/"
ENV VIRTUAL_ENV=${OPENPILOT_PATH}/.venv ENV PATH="$UV_BIN:$PATH"
ENV PATH="$UV_BIN:$VIRTUAL_ENV/bin:$PATH" RUN UV_PROJECT_ENVIRONMENT=$VIRTUAL_ENV uv run scons --cache-readonly -j$(nproc)
RUN tools/setup_dependencies.sh && \
sudo rm -rf /var/lib/apt/lists/*
USER root
RUN git config --global --add safe.directory '*'
Dockerfile.openpilot_base
+81
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@@ -0,0 +1,81 @@
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
+269
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@@ -0,0 +1,269 @@
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
+24 -15
View File
@@ -1,21 +1,30 @@
# Custom MIT License Copyright (c) 2019, Rick Lan
Copyright (c) 2024, Haibin Wen, SUNNYPILOT LLC 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:
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to view and modify the Software, 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.
1. **Permission Required**: Permission Required for Commercial, For-Profit, or Closed Source Use: Use of the Software, in whole or in part, for any commercial purposes, for-profit projects, or in closed source projects requires explicit written permission from the original author(s). 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.
2. **Redistribution**: Any redistribution of the Software, modified or unmodified, must retain this license notice and the following acknowledgment:
"This software is licensed under a custom license requiring permission for use."
3. **Visibility**: Any project that uses the Software must visibly mention the following acknowledgment:
"This project uses software from Haibin Wen and SUNNYPILOT LLC and is licensed under a custom license requiring permission for use."
4. **No Warranty**: 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.
Contact sunnypilot Support <support@sunnypilot.ai> for permission requests.
--- ---
Copyright (c) 2018, Comma.ai, Inc.
Haibin Wen, SUNNYPILOT LLC 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.
README.md
+47 -47
View File
@@ -1,74 +1,74 @@
![](https://user-images.githubusercontent.com/47793918/233812617-beab2e71-57b9-479e-8bff-c3931347ca40.png) ![](dragonpilot/selfdrive/assets/dragonpilot.png)
## 🌞 What is sunnypilot? [Read this in English](README_EN.md)
[sunnypilot](https://github.com/sunnyhaibin/sunnypilot) is a fork of comma.ai's openpilot, an open source driver assistance system. sunnypilot offers the user a unique driving experience for over 300+ supported car makes and models with modified behaviors of driving assist engagements. sunnypilot complies with comma.ai's safety rules as accurately as possible.
## 💭 Join our Community Forum # **🐲 dragonpilot - 賦予您的愛車「龍」之魂**
Join the official sunnypilot community forum to stay up to date with all the latest features and be a part of shaping the future of sunnypilot!
* https://community.sunnypilot.ai/
## Documentation **我們與您一同翱翔於更智慧、更貼心的駕駛旅程。**
https://docs.sunnypilot.ai/ is your one stop shop for everything from features to installation to FAQ about the sunnypilot
## 🚘 Running on a dedicated device in a car ## **👋 嘿, 朋友,歡迎您的到來!**
First, check out this list of items you'll need to [get started](https://community.sunnypilot.ai/t/getting-started-using-sunnypilot-in-your-supported-car/251).
## Installation `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。
Next, refer to the sunnypilot community forum for [installation instructions](https://community.sunnypilot.ai/t/read-before-installing-sunnypilot/254), as well as a complete list of [Recommended Branch Installations](https://community.sunnypilot.ai/t/recommended-branch-installations/235).
## 🎆 Pull Requests 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。
We welcome both pull requests and issues on GitHub. Bug fixes are encouraged.
Pull requests should be against the most current `master` branch. 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))
## 📊 User Data 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。
By default, sunnypilot uploads the driving data to comma servers. You can also access your data through [comma connect](https://connect.comma.ai/). ## **✨ dragonpilot 的里程碑**
sunnypilot is open source software. The user is free to disable data collection if they wish to do so. 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:
sunnypilot logs the road-facing camera, CAN, GPS, IMU, magnetometer, thermal sensors, crashes, and operating system logs. * **🚘 全時置中車道維持 (ALKA)**
The driver-facing camera and microphone are only logged if you explicitly opt-in in settings.
By using this software, 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. 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。
## Licensing * **🌐 率先導入多國語言介面**
sunnypilot is released under the [MIT License](LICENSE). This repository includes original work as well as significant portions of code derived from [openpilot by comma.ai](https://github.com/commaai/openpilot), which is also released under the MIT license with additional disclaimers. 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。
The original openpilot license notice, including comma.ais indemnification and alpha software disclaimer, is reproduced below as required: * **💻 唯一同時支援多硬體平台**
> openpilot is released under the MIT license. Some parts of the software are released under other licenses as specified. 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。
> 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.**
For full license terms, please see the [`LICENSE`](LICENSE) file. * **📜 曾榮獲官方認證第一大分支**
## 💰 Support sunnypilot 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。
If you find any of the features useful, consider becoming a [sponsor on GitHub](https://github.com/sponsors/sunnyhaibin) to support future feature development and improvements.
## **🧑‍💻 設計理念 - 少即是多 (Less is More)**
By becoming a sponsor, you will gain access to exclusive content, early access to new features, and the opportunity to directly influence the project's development. 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。
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。
<h3>GitHub Sponsor</h3> ## **🛠️ 硬件的足跡 - 一路走來的夥伴們**
<a href="https://github.com/sponsors/sunnyhaibin"> 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。
<img src="https://user-images.githubusercontent.com/47793918/244135584-9800acbd-69fd-4b2b-bec9-e5fa2d85c817.png" alt="Become a Sponsor" width="300" style="max-width: 100%; height: auto;">
</a>
<br>
<h3>PayPal</h3> 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。
<a href="https://paypal.me/sunnyhaibin0850" target="_blank"> ## **🫂 加入我們,成為「尋龍者」的一份子**
<img src="https://www.paypalobjects.com/en_US/i/btn/btn_donateCC_LG.gif" alt="PayPal this" title="PayPal - The safer, easier way to pay online!" border="0" />
</a>
<br></br>
Your continuous love and support are greatly appreciated! Enjoy 🥰 `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。
<span>-</span> Jason, Founder of sunnypilot [**歡迎加入我們的 Facebook 社團進行交流!**](https://www.facebook.com/groups/930190251238639)
## **❤️ 特別感謝**
`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.
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。
[**我們的贊助者名單**](SPONSORS.md)
### **安全聲明**
`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。
**最後,再次感謝您的到來。**
**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
Running `master` and other branches directly is supported, but it's recommended to run one of the following prebuilt branches:
| comma four branch | comma 3X branch | URL | description |
|------------------------|------------------------|----------------------------------------|-------------------------------------------------------------------------------------|
| `release-mici` | `release-tizi` | openpilot.comma.ai | This is openpilot's release branch. |
| `release-mici-staging` | `release-tizi-staging` | openpilot-test.comma.ai | This is the staging branch for releases. Use it to get new releases slightly early. |
| `nightly` | `nightly` | openpilot-nightly.comma.ai | This is the bleeding edge development branch. Do not expect this to be stable. |
| `nightly-dev` | `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>
RELEASES.md
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Version 0.11.2 (2026-06-15)
========================
Version 0.11.1 (2026-05-18)
========================
* New driver monitoring model
* Improved image processing pipeline for driver camera
* Improved thermal policy for comma four
* Acura MDX 2022-24 support thanks to mvl-boston!
* Rivian R1S and R1T 2025 support thanks to lukasloetkolben!
Version 0.11.0 (2026-03-17)
========================
* New driving model #36798
* Fully trained using a learned simulator
* Improved longitudinal performance in Experimental mode
* Reduce comma four standby power usage by 77% to 52 mW
* Kia K7 2017 support thanks to royjr!
* Lexus LS 2018 support thanks to Hacheoy!
Version 0.10.3 (2025-12-17) Version 0.10.3 (2025-12-17)
======================== ========================
* New driving model #36249 * New driving model #36249
SConstruct
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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')
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.
cereal/SConscript
+20
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@@ -0,0 +1,20 @@
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/custom.capnp
+82 -422
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@@ -10,450 +10,110 @@ $Cxx.namespace("cereal");
# DO rename the structs # DO rename the structs
# DON'T change the identifier (e.g. @0x81c2f05a394cf4af) # DON'T change the identifier (e.g. @0x81c2f05a394cf4af)
struct ModularAssistiveDrivingSystem { struct ControlsStateExt @0x81c2f05a394cf4af {
state @0 :ModularAssistiveDrivingSystemState; alkaActive @0 :Bool;
enabled @1 :Bool;
active @2 :Bool;
available @3 :Bool;
enum ModularAssistiveDrivingSystemState {
disabled @0;
paused @1;
enabled @2;
softDisabling @3;
overriding @4;
}
} }
struct IntelligentCruiseButtonManagement { struct CarStateExt @0xaedffd8f31e7b55d {
state @0 :IntelligentCruiseButtonManagementState; # dp - ALKA: lkasOn state from carstate (mirrors panda's lkas_on)
sendButton @1 :SendButtonState; lkasOn @0 :Bool;
vTarget @2 :Float32;
enum IntelligentCruiseButtonManagementState {
inactive @0; # No button press or default state
preActive @1; # Pre-active state before transitioning to increasing or decreasing
increasing @2; # Increasing speed
decreasing @3; # Decreasing speed
holding @4; # Holding steady speed
}
enum SendButtonState {
none @0;
increase @1;
decrease @2;
}
} }
# Same struct as Log.RadarState.LeadData struct ModelExt @0xf35cc4560bbf6ec2 {
struct LeadData { leftEdgeDetected @0 :Bool;
dRel @0 :Float32; rightEdgeDetected @1 :Bool;
yRel @1 :Float32;
vRel @2 :Float32;
aRel @3 :Float32;
vLead @4 :Float32;
dPath @6 :Float32;
vLat @7 :Float32;
vLeadK @8 :Float32;
aLeadK @9 :Float32;
fcw @10 :Bool;
status @11 :Bool;
aLeadTau @12 :Float32;
modelProb @13 :Float32;
radar @14 :Bool;
radarTrackId @15 :Int32 = -1;
aLeadDEPRECATED @5 :Float32;
} }
struct SelfdriveStateSP @0x81c2f05a394cf4af { struct LiveGPS @0xda96579883444c35 {
mads @0 :ModularAssistiveDrivingSystem; # Position
intelligentCruiseButtonManagement @1 :IntelligentCruiseButtonManagement; latitude @0 :Float64; # degrees
longitude @1 :Float64; # degrees
altitude @2 :Float64; # meters (WGS84)
enum AudibleAlert { # Motion
none @0; speed @3 :Float32; # m/s (horizontal speed)
bearingDeg @4 :Float32; # degrees (heading)
engage @1; # Accuracy
disengage @2; horizontalAccuracy @5 :Float32; # meters
refuse @3; verticalAccuracy @6 :Float32; # meters
warningSoft @4; # Status
warningImmediate @5; gpsOK @7 :Bool; # livePose valid + GPS fresh
status @8 :Status;
prompt @6;
promptRepeat @7;
promptDistracted @8;
# unused, these are reserved for upstream events so we don't collide
reserved9 @9;
reserved10 @10;
reserved11 @11;
reserved12 @12;
reserved13 @13;
reserved14 @14;
reserved15 @15;
reserved16 @16;
reserved17 @17;
reserved18 @18;
reserved19 @19;
reserved20 @20;
reserved21 @21;
reserved22 @22;
reserved23 @23;
reserved24 @24;
reserved25 @25;
reserved26 @26;
reserved27 @27;
reserved28 @28;
reserved29 @29;
reserved30 @30;
promptSingleLow @31;
promptSingleHigh @32;
}
}
struct ModelManagerSP @0xaedffd8f31e7b55d {
activeBundle @0 :ModelBundle;
selectedBundle @1 :ModelBundle;
availableBundles @2 :List(ModelBundle);
struct DownloadUri {
uri @0 :Text;
sha256 @1 :Text;
}
enum DownloadStatus {
notDownloading @0;
downloading @1;
downloaded @2;
cached @3;
failed @4;
}
struct DownloadProgress {
status @0 :DownloadStatus;
progress @1 :Float32;
eta @2 :UInt32;
}
struct Artifact {
fileName @0 :Text;
downloadUri @1 :DownloadUri;
downloadProgress @2 :DownloadProgress;
}
struct Model {
type @0 :Type;
artifact @1 :Artifact; # Main artifact
metadata @2 :Artifact; # Metadata artifact
enum Type {
supercombo @0;
navigation @1;
vision @2;
policy @3;
offPolicy @4;
onPolicy @5;
}
}
enum Runner {
snpe @0;
tinygrad @1;
stock @2;
}
struct Override {
key @0 :Text;
value @1 :Text;
}
struct ModelBundle {
index @0 :UInt32;
internalName @1 :Text;
displayName @2 :Text;
models @3 :List(Model);
status @4 :DownloadStatus;
generation @5 :UInt32;
environment @6 :Text;
runner @7 :Runner;
is20hz @8 :Bool;
ref @9 :Text;
minimumSelectorVersion @10 :UInt32;
overrides @11 :List(Override);
}
}
struct LongitudinalPlanSP @0xf35cc4560bbf6ec2 {
dec @0 :DynamicExperimentalControl;
longitudinalPlanSource @1 :LongitudinalPlanSource;
smartCruiseControl @2 :SmartCruiseControl;
speedLimit @3 :SpeedLimit;
vTarget @4 :Float32;
aTarget @5 :Float32;
events @6 :List(OnroadEventSP.Event);
e2eAlerts @7 :E2eAlerts;
struct DynamicExperimentalControl {
state @0 :DynamicExperimentalControlState;
enabled @1 :Bool;
active @2 :Bool;
enum DynamicExperimentalControlState {
acc @0;
blended @1;
}
}
struct SmartCruiseControl {
vision @0 :Vision;
map @1 :Map;
struct Vision {
state @0 :VisionState;
vTarget @1 :Float32;
aTarget @2 :Float32;
currentLateralAccel @3 :Float32;
maxPredictedLateralAccel @4 :Float32;
enabled @5 :Bool;
active @6 :Bool;
}
struct Map {
state @0 :MapState;
vTarget @1 :Float32;
aTarget @2 :Float32;
enabled @3 :Bool;
active @4 :Bool;
}
enum VisionState {
disabled @0; # System disabled or inactive.
enabled @1; # No predicted substantial turn on vision range.
entering @2; # A substantial turn is predicted ahead, adapting speed to turn comfort levels.
turning @3; # Actively turning. Managing acceleration to provide a roll on turn feeling.
leaving @4; # Road ahead straightens. Start to allow positive acceleration.
overriding @5; # System overriding with manual control.
}
enum MapState {
disabled @0; # System disabled or inactive.
enabled @1; # No predicted substantial turn on map range.
turning @2; # Actively turning. Managing acceleration to provide a roll on turn feeling.
overriding @3; # System overriding with manual control.
}
}
struct SpeedLimit {
resolver @0 :Resolver;
assist @1 :Assist;
struct Resolver {
speedLimit @0 :Float32;
distToSpeedLimit @1 :Float32;
source @2 :Source;
speedLimitOffset @3 :Float32;
speedLimitLast @4 :Float32;
speedLimitFinal @5 :Float32;
speedLimitFinalLast @6 :Float32;
speedLimitValid @7 :Bool;
speedLimitLastValid @8 :Bool;
}
struct Assist {
state @0 :AssistState;
enabled @1 :Bool;
active @2 :Bool;
vTarget @3 :Float32;
aTarget @4 :Float32;
}
enum Source {
none @0;
car @1;
map @2;
}
enum AssistState {
disabled @0;
inactive @1; # No speed limit set or not enabled by parameter.
preActive @2;
pending @3; # Awaiting new speed limit.
adapting @4; # Reducing speed to match new speed limit.
active @5; # Cruising at speed limit.
}
}
enum LongitudinalPlanSource {
cruise @0;
sccVision @1;
sccMap @2;
speedLimitAssist @3;
}
struct E2eAlerts {
greenLightAlert @0 :Bool;
leadDepartAlert @1 :Bool;
}
}
struct OnroadEventSP @0xda96579883444c35 {
events @0 :List(Event);
struct Event {
name @0 :EventName;
# event types
enable @1 :Bool;
noEntry @2 :Bool;
warning @3 :Bool; # alerts presented only when enabled or soft disabling
userDisable @4 :Bool;
softDisable @5 :Bool;
immediateDisable @6 :Bool;
preEnable @7 :Bool;
permanent @8 :Bool; # alerts presented regardless of openpilot state
overrideLateral @10 :Bool;
overrideLongitudinal @9 :Bool;
}
enum EventName {
lkasEnable @0;
lkasDisable @1;
manualSteeringRequired @2;
manualLongitudinalRequired @3;
silentLkasEnable @4;
silentLkasDisable @5;
silentBrakeHold @6;
silentWrongGear @7;
silentReverseGear @8;
silentDoorOpen @9;
silentSeatbeltNotLatched @10;
silentParkBrake @11;
controlsMismatchLateral @12;
hyundaiRadarTracksConfirmed @13;
experimentalModeSwitched @14;
wrongCarModeAlertOnly @15;
pedalPressedAlertOnly @16;
laneTurnLeft @17;
laneTurnRight @18;
speedLimitPreActive @19;
speedLimitActive @20;
speedLimitChanged @21;
speedLimitPending @22;
e2eChime @23;
}
}
struct CarParamsSP @0x80ae746ee2596b11 {
flags @0 :UInt32; # flags for car specific quirks in sunnypilot
safetyParam @1 : Int16; # flags for sunnypilot's custom safety flags
pcmCruiseSpeed @3 :Bool;
intelligentCruiseButtonManagementAvailable @4 :Bool;
enableGasInterceptor @5 :Bool;
neuralNetworkLateralControl @2 :NeuralNetworkLateralControl;
struct NeuralNetworkLateralControl {
model @0 :Model;
fuzzyFingerprint @1 :Bool;
struct Model {
path @0 :Text;
name @1 :Text;
}
}
}
struct CarControlSP @0xa5cd762cd951a455 {
mads @0 :ModularAssistiveDrivingSystem;
params @1 :List(Param);
leadOne @2 :LeadData;
leadTwo @3 :LeadData;
intelligentCruiseButtonManagement @4 :IntelligentCruiseButtonManagement;
struct Param {
key @0 :Text;
type @2 :ParamType;
value @3 :Data;
valueDEPRECATED @1 :Text; # The data type change may cause issues with backwards compatibility.
}
enum ParamType {
string @0;
bool @1;
int @2;
float @3;
time @4;
json @5;
bytes @6;
}
}
struct BackupManagerSP @0xf98d843bfd7004a3 {
backupStatus @0 :Status;
restoreStatus @1 :Status;
backupProgress @2 :Float32;
restoreProgress @3 :Float32;
lastError @4 :Text;
currentBackup @5 :BackupInfo;
backupHistory @6 :List(BackupInfo);
enum Status { enum Status {
idle @0; uninitialized @0; # no GPS data yet
inProgress @1; uncalibrated @1; # has GPS but fusion not ready (raw passthrough)
completed @2; valid @2; # fusion active with calibrated bearing
failed @3;
} }
struct Version { # Metadata
major @0 :UInt16; unixTimestampMillis @9 :Int64;
minor @1 :UInt16; lastGpsTimestamp @10 :UInt64; # logMonoTime of last GPS
patch @2 :UInt16;
build @3 :UInt16;
branch @4 :Text;
}
struct MetadataEntry { # livePose health (for debugging fusion issues)
key @0 :Text; livePoseOk @11 :Bool; # livePose valid and providing orientation/velocity
value @1 :Text;
tags @2 :List(Text);
}
struct BackupInfo {
deviceId @0 :Text;
version @1 :UInt32;
config @2 :Text;
isEncrypted @3 :Bool;
createdAt @4 :Text; # ISO timestamp
updatedAt @5 :Text; # ISO timestamp
sunnypilotVersion @6 :Version;
backupMetadata @7 :List(MetadataEntry);
}
} }
struct CarStateSP @0xb86e6369214c01c8 { struct MaaControl @0x80ae746ee2596b11 {
speedLimit @0 :Float32; # Map-Aware Assist control signals
}
struct LiveMapDataSP @0xf416ec09499d9d19 { # Curvature data (for lateral control)
speedLimitValid @0 :Bool; curvature @0 :Float32; # current nav curvature (1/m)
speedLimit @1 :Float32; curvatureValid @1 :Bool; # curvature data is valid
speedLimitAheadValid @2 :Bool;
speedLimitAhead @3 :Float32;
speedLimitAheadDistance @4 :Float32;
roadName @5 :Text;
}
struct ModelDataV2SP @0xa1680744031fdb2d { # Turn speed data (for longitudinal control)
laneTurnDirection @0 :TurnDirection; turnSpeedLimit @2 :Float32; # target speed for turn (m/s)
turnDistance @3 :Float32; # distance to turn (m)
turnDirection @4 :TurnDirection;
turnValid @5 :Bool; # turn data is valid
maneuverType @6 :ManeuverType; # type of maneuver (turn vs lane change)
turnAngle @7 :Float32; # expected turn angle in degrees (positive=left, negative=right)
turnCurvature @8 :Float32; # curvature at turn point (1/m), used for speed limit calc
# Turn execution (heading-based tracking)
desireActive @9 :Bool; # true when turn desire should be sent to model
turnState @10 :UInt8; # TurnState enum: 0=none, 1=approaching, 2=executing, 3=complete
turnProgress @11 :Float32; # accumulated heading change during turn (degrees)
# Driver acknowledgment (blinker = commit to turn)
driverAcknowledged @12 :Bool; # driver turned on blinker matching turn direction
speedLimitActive @13 :Bool; # turn speed limit should be enforced (blinker on)
blockLaneChange @14 :Bool; # within commit distance, block lane change desire
enum TurnDirection { enum TurnDirection {
none @0; none @0;
turnLeft @1; left @1;
turnRight @2; right @2;
} }
enum ManeuverType {
none @0;
turn @1; # intersection turn - use turnLeft/Right desire
laneChange @2; # highway exit/fork - use laneChangeLeft/Right desire
}
}
struct DashyState @0xa5cd762cd951a455 {
# Pre-serialized JSON bytes for dashy UI
# Aggregates all topics needed by dashy into single message
json @0 :Data;
}
struct NavInstructionExt @0xf98d843bfd7004a3 {
# Extension fields for NavInstruction (not in upstream)
turnAngle @0 :Float32; # degrees, positive=left, negative=right
turnCurvature @1 :Float32; # 1/m, positive=left, negative=right
}
struct CustomReserved7 @0xb86e6369214c01c8 {
}
struct CustomReserved8 @0xf416ec09499d9d19 {
}
struct CustomReserved9 @0xa1680744031fdb2d {
} }
struct CustomReserved10 @0xcb9fd56c7057593a { struct CustomReserved10 @0xcb9fd56c7057593a {
cereal/deprecated.capnp
-789
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@@ -1,789 +0,0 @@
using Cxx = import "./include/c++.capnp";
$Cxx.namespace("cereal");
@0x80ef1ec4889c2a63;
# deprecated.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;
}
struct LiveTracksDEPRECATED @0xb16f60103159415a {
trackId @0 :Int32;
dRel @1 :Float32;
yRel @2 :Float32;
vRel @3 :Float32;
aRel @4 :Float32;
timeStamp @5 :Float32;
status @6 :Float32;
currentTime @7 :Float32;
stationary @8 :Bool;
oncoming @9 :Bool;
}
struct LiveMpcData @0x92a5e332a85f32a0 {
x @0 :List(Float32);
y @1 :List(Float32);
psi @2 :List(Float32);
curvature @3 :List(Float32);
qpIterations @4 :UInt32;
calculationTime @5 :UInt64;
cost @6 :Float64;
}
struct LiveLongitudinalMpcData @0xe7e17c434f865ae2 {
xEgo @0 :List(Float32);
vEgo @1 :List(Float32);
aEgo @2 :List(Float32);
xLead @3 :List(Float32);
vLead @4 :List(Float32);
aLead @5 :List(Float32);
aLeadTau @6 :Float32; # lead accel time constant
qpIterations @7 :UInt32;
mpcId @8 :UInt32;
calculationTime @9 :UInt64;
cost @10 :Float64;
}
struct DriverStateDEPRECATED @0xb83c6cc593ed0a00 {
frameId @0 :UInt32;
modelExecutionTime @14 :Float32;
dspExecutionTime @16 :Float32;
rawPredictions @15 :Data;
faceOrientation @3 :List(Float32);
facePosition @4 :List(Float32);
faceProb @5 :Float32;
leftEyeProb @6 :Float32;
rightEyeProb @7 :Float32;
leftBlinkProb @8 :Float32;
rightBlinkProb @9 :Float32;
faceOrientationStd @11 :List(Float32);
facePositionStd @12 :List(Float32);
sunglassesProb @13 :Float32;
poorVision @17 :Float32;
partialFace @18 :Float32;
distractedPose @19 :Float32;
distractedEyes @20 :Float32;
eyesOnRoad @21 :Float32;
phoneUse @22 :Float32;
occludedProb @23 :Float32;
readyProb @24 :List(Float32);
notReadyProb @25 :List(Float32);
irPwrDEPRECATED @10 :Float32;
descriptorDEPRECATED @1 :List(Float32);
stdDEPRECATED @2 :Float32;
}
struct NavModelData @0xac3de5c437be057a {
frameId @0 :UInt32;
locationMonoTime @6 :UInt64;
modelExecutionTime @1 :Float32;
dspExecutionTime @2 :Float32;
features @3 :List(Float32);
# predicted future position
position @4 :XYData;
desirePrediction @5 :List(Float32);
# All SI units and in device frame
struct XYData @0xbe09e615b2507e26 {
x @0 :List(Float32);
y @1 :List(Float32);
xStd @2 :List(Float32);
yStd @3 :List(Float32);
}
}
struct AndroidBuildInfo @0xfe2919d5c21f426c {
board @0 :Text;
bootloader @1 :Text;
brand @2 :Text;
device @3 :Text;
display @4 :Text;
fingerprint @5 :Text;
hardware @6 :Text;
host @7 :Text;
id @8 :Text;
manufacturer @9 :Text;
model @10 :Text;
product @11 :Text;
radioVersion @12 :Text;
serial @13 :Text;
supportedAbis @14 :List(Text);
tags @15 :Text;
time @16 :Int64;
type @17 :Text;
user @18 :Text;
versionCodename @19 :Text;
versionRelease @20 :Text;
versionSdk @21 :Int32;
versionSecurityPatch @22 :Text;
}
struct AndroidSensor @0x9b513b93a887dbcd {
id @0 :Int32;
name @1 :Text;
vendor @2 :Text;
version @3 :Int32;
handle @4 :Int32;
type @5 :Int32;
maxRange @6 :Float32;
resolution @7 :Float32;
power @8 :Float32;
minDelay @9 :Int32;
fifoReservedEventCount @10 :UInt32;
fifoMaxEventCount @11 :UInt32;
stringType @12 :Text;
maxDelay @13 :Int32;
}
struct IosBuildInfo @0xd97e3b28239f5580 {
appVersion @0 :Text;
appBuild @1 :UInt32;
osVersion @2 :Text;
deviceModel @3 :Text;
}
enum FrameTypeDEPRECATED @0xa37f0d8558e193fd {
unknown @0;
neo @1;
chffrAndroid @2;
front @3;
}
struct AndroidCaptureResult @0xbcc3efbac41d2048 {
sensitivity @0 :Int32;
frameDuration @1 :Int64;
exposureTime @2 :Int64;
rollingShutterSkew @3 :UInt64;
colorCorrectionTransform @4 :List(Int32);
colorCorrectionGains @5 :List(Float32);
displayRotation @6 :Int8;
}
enum UsbPowerModeDEPRECATED @0xa8883583b32c9877 {
none @0;
client @1;
cdp @2;
dcp @3;
}
struct LateralINDIState @0x939463348632375e {
active @0 :Bool;
steeringAngleDeg @1 :Float32;
steeringRateDeg @2 :Float32;
steeringAccelDeg @3 :Float32;
rateSetPoint @4 :Float32;
accelSetPoint @5 :Float32;
accelError @6 :Float32;
delayedOutput @7 :Float32;
delta @8 :Float32;
output @9 :Float32;
saturated @10 :Bool;
steeringAngleDesiredDeg @11 :Float32;
steeringRateDesiredDeg @12 :Float32;
}
struct LateralLQRState @0x9024e2d790c82ade {
active @0 :Bool;
steeringAngleDeg @1 :Float32;
i @2 :Float32;
output @3 :Float32;
lqrOutput @4 :Float32;
saturated @5 :Bool;
steeringAngleDesiredDeg @6 :Float32;
}
struct LateralCurvatureState @0xad9d8095c06f7c61 {
active @0 :Bool;
actualCurvature @1 :Float32;
desiredCurvature @2 :Float32;
error @3 :Float32;
p @4 :Float32;
i @5 :Float32;
f @6 :Float32;
output @7 :Float32;
saturated @8 :Bool;
}
struct LateralPlannerSolution @0x84caeca5a6b4acfe {
x @0 :List(Float32);
y @1 :List(Float32);
yaw @2 :List(Float32);
yawRate @3 :List(Float32);
xStd @4 :List(Float32);
yStd @5 :List(Float32);
yawStd @6 :List(Float32);
yawRateStd @7 :List(Float32);
}
struct GpsTrajectory @0x8cfeb072f5301000 {
x @0 :List(Float32);
y @1 :List(Float32);
}
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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
+487 -418
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cereal/messaging/__init__.py
+12 -10
View File
@@ -1,8 +1,10 @@
# must be built with scons # must be built with scons
from msgq import fake_event_handle, drain_sock_raw, MultiplePublishersError, IpcError, \ from msgq.ipc_pyx import Context, Poller, SubSocket, PubSocket, SocketEventHandle, toggle_fake_events, \
Context, Poller, SubSocket, PubSocket, SocketEventHandle, toggle_fake_events, \ set_fake_prefix, get_fake_prefix, delete_fake_prefix, wait_for_one_event
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, drain_sock_raw
import msgq import msgq
import os import os
import capnp import capnp
import time import time
@@ -11,7 +13,7 @@ from typing import Optional, List, Union, Dict
from cereal import log from cereal import log
from cereal.services import SERVICE_LIST from cereal.services import SERVICE_LIST
from openpilot.common.utils import MovingAverage from openpilot.common.util import MovingAverage
NO_TRAVERSAL_LIMIT = 2**64-1 NO_TRAVERSAL_LIMIT = 2**64-1
@@ -259,11 +261,11 @@ class PubMaster:
self.sock[s].send(dat) self.sock[s].send(dat)
def wait_for_readers_to_update(self, s: str, timeout: int, dt: float = 0.05) -> bool: def wait_for_readers_to_update(self, s: str, timeout: int, dt: float = 0.05) -> bool:
try: for _ in range(int(timeout*(1./dt))):
self.sock[s].wait_for_readers(timeout=timeout, interval=dt) if self.sock[s].all_readers_updated():
return True return True
except TimeoutError: time.sleep(dt)
return False return False
def all_readers_updated(self, s: str) -> bool: def all_readers_updated(self, s: str) -> bool:
return self.sock[s].all_readers_updated() return self.sock[s].all_readers_updated() # type: ignore
cereal/messaging/bridge
BIN
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cereal/messaging/bridge.cc
+7 -8
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@@ -25,16 +25,15 @@ void msgq_to_zmq(const std::vector<std::string> &endpoints, const std::string &i
} }
void zmq_to_msgq(const std::vector<std::string> &endpoints, const std::string &ip) { void zmq_to_msgq(const std::vector<std::string> &endpoints, const std::string &ip) {
auto poller = std::make_unique<BridgeZmqPoller>(); auto poller = std::make_unique<ZMQPoller>();
auto pub_context = std::make_unique<Context>(); auto pub_context = std::make_unique<MSGQContext>();
auto sub_context = std::make_unique<BridgeZmqContext>(); auto sub_context = std::make_unique<ZMQContext>();
std::map<BridgeZmqSubSocket *, PubSocket *> sub2pub; std::map<SubSocket *, PubSocket *> sub2pub;
for (auto endpoint : endpoints) { for (auto endpoint : endpoints) {
auto pub_sock = new PubSocket(); auto pub_sock = new MSGQPubSocket();
auto sub_sock = new BridgeZmqSubSocket(); auto sub_sock = new ZMQSubSocket();
size_t queue_size = services.at(endpoint).queue_size; pub_sock->connect(pub_context.get(), endpoint);
pub_sock->connect(pub_context.get(), endpoint, true, queue_size);
sub_sock->connect(sub_context.get(), endpoint, ip, false); sub_sock->connect(sub_context.get(), endpoint, ip, false);
poller->registerSocket(sub_sock); poller->registerSocket(sub_sock);
cereal/messaging/bridge_zmq.cc
-170
View File
@@ -1,170 +0,0 @@
#include "cereal/messaging/bridge_zmq.h"
#include <cassert>
#include <cstring>
#include <unistd.h>
static size_t fnv1a_hash(const std::string &str) {
const size_t fnv_prime = 0x100000001b3;
size_t hash_value = 0xcbf29ce484222325;
for (char c : str) {
hash_value ^= (unsigned char)c;
hash_value *= fnv_prime;
}
return hash_value;
}
// FIXME: This is a hack to get the port number from the socket name, might have collisions.
static int get_port(std::string endpoint) {
size_t hash_value = fnv1a_hash(endpoint);
int start_port = 8023;
int max_port = 65535;
return start_port + (hash_value % (max_port - start_port));
}
BridgeZmqContext::BridgeZmqContext() {
context = zmq_ctx_new();
}
BridgeZmqContext::~BridgeZmqContext() {
if (context != nullptr) {
zmq_ctx_term(context);
}
}
void BridgeZmqMessage::init(size_t sz) {
size = sz;
data = new char[size];
}
void BridgeZmqMessage::init(char *d, size_t sz) {
size = sz;
data = new char[size];
memcpy(data, d, size);
}
void BridgeZmqMessage::close() {
if (size > 0) {
delete[] data;
}
data = nullptr;
size = 0;
}
BridgeZmqMessage::~BridgeZmqMessage() {
close();
}
int BridgeZmqSubSocket::connect(BridgeZmqContext *context, std::string endpoint, std::string address, bool conflate, bool check_endpoint) {
sock = zmq_socket(context->getRawContext(), ZMQ_SUB);
if (sock == nullptr) {
return -1;
}
zmq_setsockopt(sock, ZMQ_SUBSCRIBE, "", 0);
if (conflate) {
int arg = 1;
zmq_setsockopt(sock, ZMQ_CONFLATE, &arg, sizeof(int));
}
int reconnect_ivl = 500;
zmq_setsockopt(sock, ZMQ_RECONNECT_IVL_MAX, &reconnect_ivl, sizeof(reconnect_ivl));
full_endpoint = "tcp://" + address + ":";
if (check_endpoint) {
full_endpoint += std::to_string(get_port(endpoint));
} else {
full_endpoint += endpoint;
}
return zmq_connect(sock, full_endpoint.c_str());
}
void BridgeZmqSubSocket::setTimeout(int timeout) {
zmq_setsockopt(sock, ZMQ_RCVTIMEO, &timeout, sizeof(int));
}
Message *BridgeZmqSubSocket::receive(bool non_blocking) {
zmq_msg_t msg;
assert(zmq_msg_init(&msg) == 0);
int flags = non_blocking ? ZMQ_DONTWAIT : 0;
int rc = zmq_msg_recv(&msg, sock, flags);
Message *ret = nullptr;
if (rc >= 0) {
ret = new BridgeZmqMessage;
ret->init((char *)zmq_msg_data(&msg), zmq_msg_size(&msg));
}
zmq_msg_close(&msg);
return ret;
}
BridgeZmqSubSocket::~BridgeZmqSubSocket() {
if (sock != nullptr) {
zmq_close(sock);
}
}
int BridgeZmqPubSocket::connect(BridgeZmqContext *context, std::string endpoint, bool check_endpoint) {
sock = zmq_socket(context->getRawContext(), ZMQ_PUB);
if (sock == nullptr) {
return -1;
}
full_endpoint = "tcp://*:";
if (check_endpoint) {
full_endpoint += std::to_string(get_port(endpoint));
} else {
full_endpoint += endpoint;
}
// ZMQ pub sockets cannot be shared between processes, so we need to ensure pid stays the same.
pid = getpid();
return zmq_bind(sock, full_endpoint.c_str());
}
int BridgeZmqPubSocket::sendMessage(Message *message) {
assert(pid == getpid());
return zmq_send(sock, message->getData(), message->getSize(), ZMQ_DONTWAIT);
}
int BridgeZmqPubSocket::send(char *data, size_t size) {
assert(pid == getpid());
return zmq_send(sock, data, size, ZMQ_DONTWAIT);
}
BridgeZmqPubSocket::~BridgeZmqPubSocket() {
if (sock != nullptr) {
zmq_close(sock);
}
}
void BridgeZmqPoller::registerSocket(BridgeZmqSubSocket *socket) {
assert(num_polls + 1 < (sizeof(polls) / sizeof(polls[0])));
polls[num_polls].socket = socket->getRawSocket();
polls[num_polls].events = ZMQ_POLLIN;
sockets.push_back(socket);
num_polls++;
}
std::vector<BridgeZmqSubSocket *> BridgeZmqPoller::poll(int timeout) {
std::vector<BridgeZmqSubSocket *> ret;
int rc = zmq_poll(polls, num_polls, timeout);
if (rc < 0) {
return ret;
}
for (size_t i = 0; i < num_polls; i++) {
if (polls[i].revents) {
ret.push_back(sockets[i]);
}
}
return ret;
}
cereal/messaging/bridge_zmq.h
-72
View File
@@ -1,72 +0,0 @@
#pragma once
#include <cstddef>
#include <string>
#include <vector>
#include <zmq.h>
#include "msgq/ipc.h"
class BridgeZmqContext {
public:
BridgeZmqContext();
void *getRawContext() { return context; }
~BridgeZmqContext();
private:
void *context = nullptr;
};
class BridgeZmqMessage : public Message {
public:
void init(size_t size);
void init(char *data, size_t size);
void close();
size_t getSize() { return size; }
char *getData() { return data; }
~BridgeZmqMessage();
private:
char *data = nullptr;
size_t size = 0;
};
class BridgeZmqSubSocket {
public:
int connect(BridgeZmqContext *context, std::string endpoint, std::string address, bool conflate = false, bool check_endpoint = true);
void setTimeout(int timeout);
Message *receive(bool non_blocking = false);
void *getRawSocket() { return sock; }
~BridgeZmqSubSocket();
private:
void *sock = nullptr;
std::string full_endpoint;
};
class BridgeZmqPubSocket {
public:
int connect(BridgeZmqContext *context, std::string endpoint, bool check_endpoint = true);
int sendMessage(Message *message);
int send(char *data, size_t size);
void *getRawSocket() { return sock; }
~BridgeZmqPubSocket();
private:
void *sock = nullptr;
std::string full_endpoint;
int pid = -1;
};
class BridgeZmqPoller {
public:
void registerSocket(BridgeZmqSubSocket *socket);
std::vector<BridgeZmqSubSocket *> poll(int timeout);
private:
static constexpr size_t MAX_BRIDGE_ZMQ_POLLERS = 128;
std::vector<BridgeZmqSubSocket *> sockets;
zmq_pollitem_t polls[MAX_BRIDGE_ZMQ_POLLERS] = {};
size_t num_polls = 0;
};
cereal/messaging/msgq_to_zmq.cc
+7 -9
View File
@@ -2,7 +2,6 @@
#include <cassert> #include <cassert>
#include "cereal/services.h"
#include "common/util.h" #include "common/util.h"
extern ExitHandler do_exit; extern ExitHandler do_exit;
@@ -22,14 +21,14 @@ static std::string recv_zmq_msg(void *sock) {
} }
void MsgqToZmq::run(const std::vector<std::string> &endpoints, const std::string &ip) { void MsgqToZmq::run(const std::vector<std::string> &endpoints, const std::string &ip) {
zmq_context = std::make_unique<BridgeZmqContext>(); zmq_context = std::make_unique<ZMQContext>();
msgq_context = std::make_unique<Context>(); msgq_context = std::make_unique<MSGQContext>();
// Create ZMQPubSockets for each endpoint // Create ZMQPubSockets for each endpoint
for (const auto &endpoint : endpoints) { for (const auto &endpoint : endpoints) {
auto &socket_pair = socket_pairs.emplace_back(); auto &socket_pair = socket_pairs.emplace_back();
socket_pair.endpoint = endpoint; socket_pair.endpoint = endpoint;
socket_pair.pub_sock = std::make_unique<BridgeZmqPubSocket>(); socket_pair.pub_sock = std::make_unique<ZMQPubSocket>();
int ret = socket_pair.pub_sock->connect(zmq_context.get(), endpoint); int ret = socket_pair.pub_sock->connect(zmq_context.get(), endpoint);
if (ret != 0) { if (ret != 0) {
printf("Failed to create ZMQ publisher for [%s]: %s\n", endpoint.c_str(), zmq_strerror(zmq_errno())); printf("Failed to create ZMQ publisher for [%s]: %s\n", endpoint.c_str(), zmq_strerror(zmq_errno()));
@@ -49,7 +48,7 @@ void MsgqToZmq::run(const std::vector<std::string> &endpoints, const std::string
for (auto sub_sock : msgq_poller->poll(100)) { for (auto sub_sock : msgq_poller->poll(100)) {
// Process messages for each socket // Process messages for each socket
BridgeZmqPubSocket *pub_sock = sub2pub.at(sub_sock); ZMQPubSocket *pub_sock = sub2pub.at(sub_sock);
for (int i = 0; i < MAX_MESSAGES_PER_SOCKET; ++i) { for (int i = 0; i < MAX_MESSAGES_PER_SOCKET; ++i) {
auto msg = std::unique_ptr<Message>(sub_sock->receive(true)); auto msg = std::unique_ptr<Message>(sub_sock->receive(true));
if (!msg) break; if (!msg) break;
@@ -72,7 +71,7 @@ void MsgqToZmq::zmqMonitorThread() {
// Set up ZMQ monitor for each pub socket // Set up ZMQ monitor for each pub socket
for (int i = 0; i < socket_pairs.size(); ++i) { for (int i = 0; i < socket_pairs.size(); ++i) {
std::string addr = "inproc://op-bridge-monitor-" + std::to_string(i); std::string addr = "inproc://op-bridge-monitor-" + std::to_string(i);
zmq_socket_monitor(socket_pairs[i].pub_sock->getRawSocket(), addr.c_str(), ZMQ_EVENT_ACCEPTED | ZMQ_EVENT_DISCONNECTED); 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); void *monitor_socket = zmq_socket(zmq_context->getRawContext(), ZMQ_PAIR);
zmq_connect(monitor_socket, addr.c_str()); zmq_connect(monitor_socket, addr.c_str());
@@ -109,8 +108,7 @@ void MsgqToZmq::zmqMonitorThread() {
if (++pair.connected_clients == 1) { if (++pair.connected_clients == 1) {
// Create new MSGQ subscriber socket and map to ZMQ publisher // Create new MSGQ subscriber socket and map to ZMQ publisher
pair.sub_sock = std::make_unique<MSGQSubSocket>(); pair.sub_sock = std::make_unique<MSGQSubSocket>();
size_t queue_size = services.at(pair.endpoint).queue_size; pair.sub_sock->connect(msgq_context.get(), pair.endpoint, "127.0.0.1");
pair.sub_sock->connect(msgq_context.get(), pair.endpoint, "127.0.0.1", false, true, queue_size);
sub2pub[pair.sub_sock.get()] = pair.pub_sock.get(); sub2pub[pair.sub_sock.get()] = pair.pub_sock.get();
registerSockets(); registerSockets();
} }
@@ -130,7 +128,7 @@ void MsgqToZmq::zmqMonitorThread() {
// Clean up monitor sockets // Clean up monitor sockets
for (int i = 0; i < pollitems.size(); ++i) { for (int i = 0; i < pollitems.size(); ++i) {
zmq_socket_monitor(socket_pairs[i].pub_sock->getRawSocket(), nullptr, 0); zmq_socket_monitor(socket_pairs[i].pub_sock->sock, nullptr, 0);
zmq_close(pollitems[i].socket); zmq_close(pollitems[i].socket);
} }
cv.notify_one(); cv.notify_one();
cereal/messaging/msgq_to_zmq.h
+6 -5
View File
@@ -7,8 +7,9 @@
#include <string> #include <string>
#include <vector> #include <vector>
#define private public
#include "msgq/impl_msgq.h" #include "msgq/impl_msgq.h"
#include "cereal/messaging/bridge_zmq.h" #include "msgq/impl_zmq.h"
class MsgqToZmq { class MsgqToZmq {
public: public:
@@ -21,16 +22,16 @@ protected:
struct SocketPair { struct SocketPair {
std::string endpoint; std::string endpoint;
std::unique_ptr<BridgeZmqPubSocket> pub_sock; std::unique_ptr<ZMQPubSocket> pub_sock;
std::unique_ptr<MSGQSubSocket> sub_sock; std::unique_ptr<MSGQSubSocket> sub_sock;
int connected_clients = 0; int connected_clients = 0;
}; };
std::unique_ptr<Context> msgq_context; std::unique_ptr<MSGQContext> msgq_context;
std::unique_ptr<BridgeZmqContext> zmq_context; std::unique_ptr<ZMQContext> zmq_context;
std::mutex mutex; std::mutex mutex;
std::condition_variable cv; std::condition_variable cv;
std::unique_ptr<MSGQPoller> msgq_poller; std::unique_ptr<MSGQPoller> msgq_poller;
std::map<SubSocket *, BridgeZmqPubSocket *> sub2pub; std::map<SubSocket *, ZMQPubSocket *> sub2pub;
std::vector<SocketPair> socket_pairs; std::vector<SocketPair> socket_pairs;
}; };
cereal/messaging/tests/test_messaging.py
+2 -2
View File
@@ -5,7 +5,7 @@ import numbers
import random import random
import threading import threading
import time import time
from openpilot.common.parameterized import parameterized from parameterized import parameterized
import pytest import pytest
from cereal import log, car from cereal import log, car
@@ -30,7 +30,7 @@ def zmq_sleep(t=1):
# TODO: this should take any capnp struct and returrn a msg with random populated data # TODO: this should take any capnp struct and returrn a msg with random populated data
def random_carstate(): def random_carstate():
fields = ["vEgo", "aEgo", "steeringTorque", "steeringAngleDeg"] fields = ["vEgo", "aEgo", "brake", "steeringAngleDeg"]
msg = messaging.new_message("carState") msg = messaging.new_message("carState")
cs = msg.carState cs = msg.carState
for f in fields: for f in fields:
cereal/messaging/tests/test_services.py
+1 -1
View File
@@ -1,7 +1,7 @@
import os import os
import tempfile import tempfile
from typing import Dict from typing import Dict
from openpilot.common.parameterized import parameterized from parameterized import parameterized
import cereal.services as services import cereal.services as services
from cereal.services import SERVICE_LIST from cereal.services import SERVICE_LIST
cereal/messaging/tests/validate_sp_cereal_upstream.py
-256
View File
@@ -1,256 +0,0 @@
#!/usr/bin/env python3
"""Schema-level cereal compat check between sunnypilot and upstream openpilot.
Rules (per struct matched across sides by typeId):
R1 shared ordinal must reference the same type.
R2 sunnypilot-only ordinal in a union -> FAIL (unknown discriminant upstream).
R3 sunnypilot-only ordinal on a regular field -> OK (additive struct evolution).
R4 upstream-only ordinal -> OK.
R5 sunnypilot-only struct referenced via an upstream-shared field -> FAIL.
"""
from __future__ import annotations
import argparse
import json
import os
import sys
from typing import Any
NO_DISCRIMINANT = 0xFFFF
def hex_id(value: int) -> str:
return f"0x{value:016x}"
def encode_type(type_node: Any) -> dict:
which = type_node.which()
if which == "struct":
return {"kind": "struct", "typeId": hex_id(type_node.struct.typeId)}
if which == "enum":
return {"kind": "enum", "typeId": hex_id(type_node.enum.typeId)}
if which == "interface":
return {"kind": "interface", "typeId": hex_id(type_node.interface.typeId)}
if which == "list":
return {"kind": "list", "element": encode_type(type_node.list.elementType)}
if which == "anyPointer":
return {"kind": "anyPointer"}
return {"kind": which}
def encode_field(name: str, field: Any) -> dict:
proto = field.proto
ordinal = proto.ordinal.explicit if proto.ordinal.which() == "explicit" else None
discriminant = proto.discriminantValue if proto.discriminantValue != NO_DISCRIMINANT else None
if proto.which() == "group":
type_desc = {"kind": "group", "typeId": hex_id(proto.group.typeId)}
else:
type_desc = encode_type(proto.slot.type)
return {
"name": name,
"ordinal": ordinal,
"discriminant": discriminant,
"type": type_desc,
}
def encode_struct(schema: Any) -> dict:
node = schema.node
return {
"typeId": hex_id(node.id),
"displayName": node.displayName,
"hasUnion": node.struct.discriminantCount > 0,
"fields": [encode_field(name, field) for name, field in schema.fields.items()],
}
def _child_struct_schema(field: Any) -> Any:
proto = field.proto
if proto.which() == "group":
return field.schema
type_node = proto.slot.type
which = type_node.which()
if which == "struct":
return field.schema
if which == "list":
container = field.schema
element_type = type_node.list.elementType
while element_type.which() == "list":
container = container.elementType
element_type = element_type.list.elementType
if element_type.which() == "struct":
return container.elementType
return None
def collect_schema(root: Any) -> dict[str, dict]:
structs: dict[str, dict] = {}
stack = [root]
while stack:
schema = stack.pop()
type_id = hex_id(schema.node.id)
if type_id in structs:
continue
structs[type_id] = encode_struct(schema)
for _name, field in schema.fields.items():
try:
child = _child_struct_schema(field)
except Exception:
child = None
if child is not None:
stack.append(child)
return structs
def load_log(cereal_dir: str) -> Any:
import capnp
cereal_dir = os.path.abspath(cereal_dir)
capnp.remove_import_hook()
return capnp.load(os.path.join(cereal_dir, "log.capnp"), imports=[cereal_dir])
def dump_schema(cereal_dir: str, path: str) -> None:
log = load_log(cereal_dir)
payload = {
"root": hex_id(log.Event.schema.node.id),
"structs": collect_schema(log.Event.schema),
}
with open(path, "w", encoding="utf-8") as handle:
json.dump(payload, handle, indent=2, sort_keys=True)
print(f"wrote schema dump with {len(payload['structs'])} structs to {path}")
def types_equal(a: dict, b: dict) -> bool:
if a.get("kind") != b.get("kind"):
return False
kind = a["kind"]
if kind in ("struct", "enum", "interface", "group"):
return a.get("typeId") == b.get("typeId")
if kind == "list":
return types_equal(a["element"], b["element"])
return True
def type_repr(t: dict) -> str:
kind = t.get("kind", "?")
if kind in ("struct", "enum", "interface", "group"):
return f"{kind}({t.get('typeId')})"
if kind == "list":
return f"list<{type_repr(t['element'])}>"
return kind
def field_is_union_variant(field: dict) -> bool:
return field.get("discriminant") is not None
def index_fields_by_ordinal(struct: dict) -> dict[int, dict]:
indexed: dict[int, dict] = {}
for field in struct["fields"]:
ordinal = field.get("ordinal")
if ordinal is None:
continue
indexed[ordinal] = field
return indexed
def compare(sunnypilot_dump: dict, upstream_dump: dict) -> list[str]:
violations: list[str] = []
sunnypilot_structs: dict[str, dict] = sunnypilot_dump["structs"]
upstream_structs: dict[str, dict] = upstream_dump["structs"]
sunnypilot_struct_referenced_from_shared: set[str] = set()
for type_id, sunnypilot_struct in sunnypilot_structs.items():
upstream_struct = upstream_structs.get(type_id)
if upstream_struct is None:
continue
sunnypilot_fields = index_fields_by_ordinal(sunnypilot_struct)
upstream_fields = index_fields_by_ordinal(upstream_struct)
display = sunnypilot_struct["displayName"]
for ordinal, sunnypilot_field in sunnypilot_fields.items():
upstream_field = upstream_fields.get(ordinal)
if upstream_field is None:
if field_is_union_variant(sunnypilot_field):
violations.append(
f"[R2] {display} @{ordinal} ('{sunnypilot_field['name']}', {type_repr(sunnypilot_field['type'])}): "
f"union variant not present upstream. upstream cannot parse this discriminant."
)
continue
if not types_equal(sunnypilot_field["type"], upstream_field["type"]):
violations.append(
f"[R1] {display} @{ordinal}: type mismatch. "
f"sunnypilot='{sunnypilot_field['name']}' {type_repr(sunnypilot_field['type'])} vs "
f"upstream='{upstream_field['name']}' {type_repr(upstream_field['type'])}."
)
continue
cursor = sunnypilot_field["type"]
while cursor.get("kind") == "list":
cursor = cursor["element"]
if cursor.get("kind") in ("struct", "group", "interface") and cursor.get("typeId"):
sunnypilot_struct_referenced_from_shared.add(cursor["typeId"])
for type_id, sunnypilot_struct in sunnypilot_structs.items():
if type_id in upstream_structs:
continue
if type_id in sunnypilot_struct_referenced_from_shared:
violations.append(
f"[R5] struct {sunnypilot_struct['displayName']} ({type_id}) exists only on sunnypilot "
f"but is referenced from an upstream-shared field. upstream cannot resolve this type."
)
return violations
def load_peer(path: str) -> dict:
with open(path, "r", encoding="utf-8") as handle:
return json.load(handle)
def run_read(cereal_dir: str, peer_path: str) -> int:
log = load_log(cereal_dir)
peer_dump = load_peer(peer_path)
local_dump = {
"root": hex_id(log.Event.schema.node.id),
"structs": collect_schema(log.Event.schema),
}
violations = compare(sunnypilot_dump=peer_dump, upstream_dump=local_dump)
if not violations:
print("cereal compat OK: upstream openpilot can parse sunnypilot routes "
"(no leaked structs, no ordinal collisions).")
return 0
print(f"cereal compat FAIL: upstream openpilot would misparse sunnypilot routes "
f"({len(violations)} violation(s)):")
for v in violations:
print(f" {v}")
return 1
def main() -> int:
parser = argparse.ArgumentParser(
description="sunnypilot <-> upstream cereal compatibility validator (schema-level)."
)
mode = parser.add_mutually_exclusive_group(required=True)
mode.add_argument("-g", "--generate", action="store_true", help="dump local schema to JSON")
mode.add_argument("-r", "--read", action="store_true", help="load peer JSON and diff against local")
parser.add_argument("-f", "--file", default="schema.json", help="JSON file path (default: schema.json)")
parser.add_argument("--cereal-dir", required=True, help="path to cereal directory containing log.capnp")
args = parser.parse_args()
if args.generate:
dump_schema(args.cereal_dir, args.file)
return 0
return run_read(args.cereal_dir, args.file)
if __name__ == "__main__":
sys.exit(main())
cereal/services.h
-90
View File
@@ -1,90 +0,0 @@
/* THIS IS AN AUTOGENERATED FILE, PLEASE EDIT services.py */
#ifndef __SERVICES_H
#define __SERVICES_H
#include <map>
#include <string>
struct service { std::string name; bool should_log; float frequency; int decimation; size_t queue_size; };
static std::map<std::string, service> services = {
{ "gyroscope", {"gyroscope", true, 104.000000, 104, 256000}},
{ "accelerometer", {"accelerometer", true, 104.000000, 104, 256000}},
{ "temperatureSensor", {"temperatureSensor", true, 2.000000, 200, 256000}},
{ "deviceState", {"deviceState", true, 2.000000, 1, 256000}},
{ "touch", {"touch", true, 20.000000, 1, 256000}},
{ "can", {"can", true, 100.000000, 2053, 10485760}},
{ "controlsState", {"controlsState", true, 100.000000, 10, 2097152}},
{ "selfdriveState", {"selfdriveState", true, 100.000000, 10, 256000}},
{ "pandaStates", {"pandaStates", true, 10.000000, 1, 256000}},
{ "peripheralState", {"peripheralState", true, 2.000000, 1, 256000}},
{ "radarState", {"radarState", true, 20.000000, 5, 256000}},
{ "roadEncodeIdx", {"roadEncodeIdx", false, 20.000000, 1, 256000}},
{ "liveTracks", {"liveTracks", true, 20.000000, -1, 256000}},
{ "sendcan", {"sendcan", true, 100.000000, 139, 2097152}},
{ "logMessage", {"logMessage", true, 0.000000, -1, 10485760}},
{ "errorLogMessage", {"errorLogMessage", true, 0.000000, 1, 10485760}},
{ "liveCalibration", {"liveCalibration", true, 4.000000, 4, 256000}},
{ "liveTorqueParameters", {"liveTorqueParameters", true, 4.000000, 1, 256000}},
{ "liveDelay", {"liveDelay", true, 4.000000, 1, 256000}},
{ "androidLog", {"androidLog", true, 0.000000, -1, 256000}},
{ "carState", {"carState", true, 100.000000, 10, 256000}},
{ "carControl", {"carControl", true, 100.000000, 10, 256000}},
{ "carOutput", {"carOutput", true, 100.000000, 10, 256000}},
{ "longitudinalPlan", {"longitudinalPlan", true, 20.000000, 10, 256000}},
{ "lateralManeuverPlan", {"lateralManeuverPlan", true, 20.000000, -1, 256000}},
{ "driverAssistance", {"driverAssistance", true, 20.000000, 20, 256000}},
{ "procLog", {"procLog", true, 0.500000, 15, 10485760}},
{ "gpsLocationExternal", {"gpsLocationExternal", true, 10.000000, 10, 256000}},
{ "gpsLocation", {"gpsLocation", true, 1.000000, 1, 256000}},
{ "ubloxGnss", {"ubloxGnss", true, 10.000000, -1, 256000}},
{ "qcomGnss", {"qcomGnss", true, 2.000000, -1, 256000}},
{ "clocks", {"clocks", true, 0.100000, 1, 256000}},
{ "ubloxRaw", {"ubloxRaw", true, 20.000000, -1, 256000}},
{ "livePose", {"livePose", true, 20.000000, 4, 256000}},
{ "liveParameters", {"liveParameters", true, 20.000000, 5, 256000}},
{ "cameraOdometry", {"cameraOdometry", true, 20.000000, 10, 256000}},
{ "thumbnail", {"thumbnail", true, 0.016667, 1, 256000}},
{ "onroadEvents", {"onroadEvents", true, 1.000000, 1, 256000}},
{ "carParams", {"carParams", true, 0.020000, 1, 256000}},
{ "roadCameraState", {"roadCameraState", true, 20.000000, 20, 256000}},
{ "driverCameraState", {"driverCameraState", true, 20.000000, 20, 256000}},
{ "driverEncodeIdx", {"driverEncodeIdx", false, 20.000000, 1, 256000}},
{ "driverStateV2", {"driverStateV2", true, 20.000000, 10, 256000}},
{ "driverMonitoringState", {"driverMonitoringState", true, 20.000000, 10, 256000}},
{ "wideRoadEncodeIdx", {"wideRoadEncodeIdx", false, 20.000000, 1, 256000}},
{ "wideRoadCameraState", {"wideRoadCameraState", true, 20.000000, 20, 256000}},
{ "drivingModelData", {"drivingModelData", true, 20.000000, 10, 256000}},
{ "modelV2", {"modelV2", true, 20.000000, -1, 10485760}},
{ "managerState", {"managerState", true, 2.000000, 1, 256000}},
{ "qRoadEncodeIdx", {"qRoadEncodeIdx", false, 20.000000, -1, 256000}},
{ "userBookmark", {"userBookmark", true, 0.000000, 1, 256000}},
{ "soundPressure", {"soundPressure", true, 10.000000, 10, 256000}},
{ "rawAudioData", {"rawAudioData", false, 20.000000, -1, 256000}},
{ "bookmarkButton", {"bookmarkButton", true, 0.000000, 1, 256000}},
{ "audioFeedback", {"audioFeedback", true, 0.000000, 1, 256000}},
{ "roadEncodeData", {"roadEncodeData", false, 20.000000, -1, 10485760}},
{ "driverEncodeData", {"driverEncodeData", false, 20.000000, -1, 10485760}},
{ "wideRoadEncodeData", {"wideRoadEncodeData", false, 20.000000, -1, 10485760}},
{ "qRoadEncodeData", {"qRoadEncodeData", false, 20.000000, -1, 10485760}},
{ "modelManagerSP", {"modelManagerSP", false, 1.000000, 1, 10485760}},
{ "backupManagerSP", {"backupManagerSP", false, 1.000000, 1, 10485760}},
{ "selfdriveStateSP", {"selfdriveStateSP", true, 100.000000, 10, 256000}},
{ "longitudinalPlanSP", {"longitudinalPlanSP", true, 20.000000, 10, 256000}},
{ "onroadEventsSP", {"onroadEventsSP", true, 1.000000, 1, 256000}},
{ "carParamsSP", {"carParamsSP", true, 0.020000, 1, 256000}},
{ "carControlSP", {"carControlSP", true, 100.000000, 10, 256000}},
{ "carStateSP", {"carStateSP", true, 100.000000, 10, 256000}},
{ "liveMapDataSP", {"liveMapDataSP", true, 1.000000, 1, 256000}},
{ "modelDataV2SP", {"modelDataV2SP", true, 20.000000, -1, 10485760}},
{ "liveLocationKalman", {"liveLocationKalman", true, 20.000000, -1, 256000}},
{ "uiDebug", {"uiDebug", true, 0.000000, 1, 256000}},
{ "testJoystick", {"testJoystick", true, 0.000000, -1, 256000}},
{ "alertDebug", {"alertDebug", true, 20.000000, 5, 256000}},
{ "livestreamWideRoadEncodeIdx", {"livestreamWideRoadEncodeIdx", false, 20.000000, -1, 256000}},
{ "livestreamRoadEncodeIdx", {"livestreamRoadEncodeIdx", false, 20.000000, -1, 256000}},
{ "livestreamDriverEncodeIdx", {"livestreamDriverEncodeIdx", false, 20.000000, -1, 256000}},
{ "livestreamWideRoadEncodeData", {"livestreamWideRoadEncodeData", false, 20.000000, -1, 2097152}},
{ "livestreamRoadEncodeData", {"livestreamRoadEncodeData", false, 20.000000, -1, 2097152}},
{ "livestreamDriverEncodeData", {"livestreamDriverEncodeData", false, 20.000000, -1, 2097152}},
{ "customReservedRawData0", {"customReservedRawData0", true, 0.000000, -1, 256000}},
};
#endif
cereal/services.py
+21 -16
View File
@@ -24,7 +24,10 @@ _services: dict[str, tuple] = {
# note: the "EncodeIdx" packets will still be in the log # note: the "EncodeIdx" packets will still be in the log
"gyroscope": (True, 104., 104), "gyroscope": (True, 104., 104),
"accelerometer": (True, 104., 104), "accelerometer": (True, 104., 104),
"magnetometer": (True, 25.),
"lightSensor": (True, 100., 100),
"temperatureSensor": (True, 2., 200), "temperatureSensor": (True, 2., 200),
"gpsNMEA": (True, 9.),
"deviceState": (True, 2., 1), "deviceState": (True, 2., 1),
"touch": (True, 20., 1), "touch": (True, 20., 1),
"can": (True, 100., 2053, QueueSize.BIG), # decimation gives ~3 msgs in a full segment "can": (True, 100., 2053, QueueSize.BIG), # decimation gives ~3 msgs in a full segment
@@ -36,8 +39,8 @@ _services: dict[str, tuple] = {
"roadEncodeIdx": (False, 20., 1), "roadEncodeIdx": (False, 20., 1),
"liveTracks": (True, 20.), "liveTracks": (True, 20.),
"sendcan": (True, 100., 139, QueueSize.MEDIUM), "sendcan": (True, 100., 139, QueueSize.MEDIUM),
"logMessage": (True, 0., None, QueueSize.BIG), "logMessage": (True, 0.),
"errorLogMessage": (True, 0., 1, QueueSize.BIG), "errorLogMessage": (True, 0., 1),
"liveCalibration": (True, 4., 4), "liveCalibration": (True, 4., 4),
"liveTorqueParameters": (True, 4., 1), "liveTorqueParameters": (True, 4., 1),
"liveDelay": (True, 4., 1), "liveDelay": (True, 4., 1),
@@ -46,13 +49,13 @@ _services: dict[str, tuple] = {
"carControl": (True, 100., 10), "carControl": (True, 100., 10),
"carOutput": (True, 100., 10), "carOutput": (True, 100., 10),
"longitudinalPlan": (True, 20., 10), "longitudinalPlan": (True, 20., 10),
"lateralManeuverPlan": (True, 20.),
"driverAssistance": (True, 20., 20), "driverAssistance": (True, 20., 20),
"procLog": (True, 0.5, 15, QueueSize.BIG), "procLog": (True, 0.5, 15, QueueSize.BIG),
"gpsLocationExternal": (True, 10., 10), "gpsLocationExternal": (True, 10., 10),
"gpsLocation": (True, 1., 1), "gpsLocation": (True, 1., 1),
"ubloxGnss": (True, 10.), "ubloxGnss": (True, 10.),
"qcomGnss": (True, 2.), "qcomGnss": (True, 2.),
"gnssMeasurements": (True, 10., 10),
"clocks": (True, 0.1, 1), "clocks": (True, 0.1, 1),
"ubloxRaw": (True, 20.), "ubloxRaw": (True, 20.),
"livePose": (True, 20., 4), "livePose": (True, 20., 4),
@@ -71,6 +74,10 @@ _services: dict[str, tuple] = {
"drivingModelData": (True, 20., 10), "drivingModelData": (True, 20., 10),
"modelV2": (True, 20., None, QueueSize.BIG), "modelV2": (True, 20., None, QueueSize.BIG),
"managerState": (True, 2., 1), "managerState": (True, 2., 1),
"uploaderState": (True, 0., 1),
# "navInstruction": (True, 1., 10), # dp - make it 0 hz
"navRoute": (True, 0.),
"navThumbnail": (True, 0.),
"qRoadEncodeIdx": (False, 20.), "qRoadEncodeIdx": (False, 20.),
"userBookmark": (True, 0., 1), "userBookmark": (True, 0., 1),
"soundPressure": (True, 10., 10), "soundPressure": (True, 10., 10),
@@ -82,19 +89,6 @@ _services: dict[str, tuple] = {
"wideRoadEncodeData": (False, 20., None, QueueSize.BIG), "wideRoadEncodeData": (False, 20., None, QueueSize.BIG),
"qRoadEncodeData": (False, 20., None, QueueSize.BIG), "qRoadEncodeData": (False, 20., None, QueueSize.BIG),
# sunnypilot
"modelManagerSP": (False, 1., 1, QueueSize.BIG),
"backupManagerSP": (False, 1., 1, QueueSize.BIG),
"selfdriveStateSP": (True, 100., 10),
"longitudinalPlanSP": (True, 20., 10),
"onroadEventsSP": (True, 1., 1),
"carParamsSP": (True, 0.02, 1),
"carControlSP": (True, 100., 10),
"carStateSP": (True, 100., 10),
"liveMapDataSP": (True, 1., 1),
"modelDataV2SP": (True, 20., None, QueueSize.BIG),
"liveLocationKalman": (True, 20.),
# debug # debug
"uiDebug": (True, 0., 1), "uiDebug": (True, 0., 1),
"testJoystick": (True, 0.), "testJoystick": (True, 0.),
@@ -106,6 +100,17 @@ _services: dict[str, tuple] = {
"livestreamRoadEncodeData": (False, 20., None, QueueSize.MEDIUM), "livestreamRoadEncodeData": (False, 20., None, QueueSize.MEDIUM),
"livestreamDriverEncodeData": (False, 20., None, QueueSize.MEDIUM), "livestreamDriverEncodeData": (False, 20., None, QueueSize.MEDIUM),
"customReservedRawData0": (True, 0.), "customReservedRawData0": (True, 0.),
"customReservedRawData1": (True, 0.),
"customReservedRawData2": (True, 0.),
"controlsStateExt": (True, 100.),
"carStateExt": (True, 100.),
"modelExt": (True, 20.),
# dashy
"navInstruction": (True, 0.),
"navInstructionExt": (True, 0.),
"liveGPS": (True, 0.), # GPS fusion from gpsd (optional)
"maaControl": (True, 0.), # Map-Aware Assist control signals (optional)
"dashyState": (True, 0.), # Aggregated dashy UI state (optional)
} }
SERVICE_LIST = {name: Service(*vals) for SERVICE_LIST = {name: Service(*vals) for
idx, (name, vals) in enumerate(_services.items())} idx, (name, vals) in enumerate(_services.items())}
common/.gitignore
+1
View File
@@ -0,0 +1 @@
*.cpp
common/SConscript
+29
View File
@@ -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
+62
View File
@@ -0,0 +1,62 @@
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, session=None, **params):
headers = {}
if access_token is not None:
headers['Authorization'] = "JWT " + access_token
headers['User-Agent'] = "openpilot-" + get_version()
# TODO: add session to Api
req = requests if session is None else session
return req.request(method, API_HOST + "/" + endpoint, timeout=timeout, headers=headers, params=params)
def get_key_pair() -> tuple[str, str, str] | tuple[None, None, None]:
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
-26
View File
@@ -1,26 +0,0 @@
from openpilot.common.api.comma_connect import CommaConnectApi
class Api:
def __init__(self, dongle_id):
self.service = CommaConnectApi(dongle_id)
def request(self, method, endpoint, **params):
return self.service.request(method, endpoint, **params)
def get(self, *args, **kwargs):
return self.service.get(*args, **kwargs)
def post(self, *args, **kwargs):
return self.service.post(*args, **kwargs)
def get_token(self, payload_extra=None, expiry_hours=1):
return self.service.get_token(payload_extra, expiry_hours)
def api_get(endpoint, method='GET', timeout=None, access_token=None, session=None, **params):
return CommaConnectApi(None).api_get(endpoint, method, timeout, access_token, session, **params)
def get_key_pair() -> tuple[str, str, str] | tuple[None, None, None]:
return CommaConnectApi(None).get_key_pair()
common/api/base.py
-72
View File
@@ -1,72 +0,0 @@
import jwt
import os
import requests
import unicodedata
from datetime import datetime, timedelta, UTC
from openpilot.system.hardware.hw import Paths
from openpilot.system.version import get_version
# name: jwt signature algorithm
KEYS = {"id_rsa": "RS256",
"id_ecdsa": "ES256"}
class BaseApi:
def __init__(self, dongle_id, api_host, user_agent="openpilot-"):
self.dongle_id = dongle_id
self.api_host = api_host
self.user_agent = user_agent
self.jwt_algorithm, self.private_key, _ = self.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 self.api_get(endpoint, method=method, timeout=timeout, access_token=access_token, **params)
def _get_token(self, payload_extra=None, expiry_hours=1, **extra_payload):
now = datetime.now(UTC).replace(tzinfo=None)
payload = {
'identity': self.dongle_id,
'nbf': now,
'iat': now,
'exp': now + timedelta(hours=expiry_hours),
**extra_payload
}
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 get_token(self, payload_extra=None, expiry_hours=1):
return self._get_token(payload_extra, expiry_hours)
def remove_non_ascii_chars(self, text):
normalized_text = unicodedata.normalize('NFD', text)
ascii_encoded_text = normalized_text.encode('ascii', 'ignore')
return ascii_encoded_text.decode()
def api_get(self, endpoint, method='GET', timeout=None, access_token=None, session=None, json=None, **params):
headers = {}
if access_token is not None:
headers['Authorization'] = "JWT " + access_token
version = self.remove_non_ascii_chars(get_version())
headers['User-Agent'] = self.user_agent + version
# TODO: add session to Api
req = requests if session is None else session
return req.request(method, f"{self.api_host}/{endpoint}", timeout=timeout, headers=headers, json=json, params=params)
@staticmethod
def get_key_pair() -> tuple[str, str, str] | tuple[None, None, None]:
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/comma_connect.py
-11
View File
@@ -1,11 +0,0 @@
import os
from openpilot.common.api.base import BaseApi
API_HOST = os.getenv('API_HOST', 'https://api.commadotai.com')
class CommaConnectApi(BaseApi):
def __init__(self, dongle_id):
super().__init__(dongle_id, API_HOST)
self.user_agent = "openpilot-"
common/clutil.cc
+98
View File
@@ -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
View File
@@ -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/file_chunker.py
-55
View File
@@ -1,55 +0,0 @@
#!/usr/bin/env python3
import sys
import math
import os
from pathlib import Path
CHUNK_SIZE = 45 * 1024 * 1024 # 45MB, under GitHub's 50MB limit
def get_chunk_name(name, idx, num_chunks):
return f"{name}.chunk{idx+1:02d}of{num_chunks:02d}"
def get_manifest_path(name):
return f"{name}.chunkmanifest"
def _chunk_paths(path, num_chunks):
return [get_manifest_path(path)] + [get_chunk_name(path, i, num_chunks) for i in range(num_chunks)]
def get_chunk_targets(path, file_size):
num_chunks = math.ceil(file_size / CHUNK_SIZE)
return _chunk_paths(path, num_chunks)
def chunk_file(path, targets):
manifest_path, *chunk_paths = targets
with open(path, 'rb') as f:
data = f.read()
actual_num_chunks = max(1, math.ceil(len(data) / CHUNK_SIZE))
assert len(chunk_paths) >= actual_num_chunks, f"Allowed {len(chunk_paths)} chunks but needs at least {actual_num_chunks}, for path {path}"
for i, chunk_path in enumerate(chunk_paths):
with open(chunk_path, 'wb') as f:
f.write(data[i * CHUNK_SIZE:(i + 1) * CHUNK_SIZE])
Path(manifest_path).write_text(str(len(chunk_paths)))
os.remove(path)
def get_existing_chunks(path):
if os.path.isfile(path):
return [path]
if os.path.isfile(manifest := get_manifest_path(path)):
num_chunks = int(Path(manifest).read_text().strip())
return _chunk_paths(path, num_chunks)
raise FileNotFoundError(path)
def read_file_chunked(path):
manifest_path = get_manifest_path(path)
if os.path.isfile(manifest_path):
num_chunks = int(Path(manifest_path).read_text().strip())
return b''.join(Path(get_chunk_name(path, i, num_chunks)).read_bytes() for i in range(num_chunks))
if os.path.isfile(path):
return Path(path).read_bytes()
raise FileNotFoundError(path)
if __name__ == "__main__":
path = sys.argv[1]
chunk_paths = get_chunk_targets(path, os.path.getsize(path))
chunk_file(path, chunk_paths)
common/filter_simple.py
+1 -1
View File
@@ -28,7 +28,7 @@ class BounceFilter(FirstOrderFilter):
scale = self.dt / (1.0 / 60.0) # tuned at 60 fps scale = self.dt / (1.0 / 60.0) # tuned at 60 fps
self.velocity.x += (x - self.x) * self.bounce * scale * self.dt self.velocity.x += (x - self.x) * self.bounce * scale * self.dt
self.velocity.update(0.0) self.velocity.update(0.0)
if abs(self.velocity.x) < 1e-3: if abs(self.velocity.x) < 1e-5:
self.velocity.x = 0.0 self.velocity.x = 0.0
self.x += self.velocity.x self.x += self.velocity.x
return self.x return self.x
common/git.py
+6 -6
View File
@@ -4,27 +4,27 @@ from openpilot.common.utils import run_cmd, run_cmd_default
@cache @cache
def get_commit(cwd: str | None = None, branch: str = "HEAD") -> str: def get_commit(cwd: str = None, branch: str = "HEAD") -> str:
return run_cmd_default(["git", "rev-parse", branch], cwd=cwd) return run_cmd_default(["git", "rev-parse", branch], cwd=cwd)
@cache @cache
def get_commit_date(cwd: str | None = None, commit: str = "HEAD") -> str: 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) return run_cmd_default(["git", "show", "--no-patch", "--format='%ct %ci'", commit], cwd=cwd)
@cache @cache
def get_short_branch(cwd: str | None = None) -> str: def get_short_branch(cwd: str = None) -> str:
return run_cmd_default(["git", "rev-parse", "--abbrev-ref", "HEAD"], cwd=cwd) return run_cmd_default(["git", "rev-parse", "--abbrev-ref", "HEAD"], cwd=cwd)
@cache @cache
def get_branch(cwd: str | None = None) -> str: def get_branch(cwd: str = None) -> str:
return run_cmd_default(["git", "rev-parse", "--abbrev-ref", "--symbolic-full-name", "@{u}"], cwd=cwd) return run_cmd_default(["git", "rev-parse", "--abbrev-ref", "--symbolic-full-name", "@{u}"], cwd=cwd)
@cache @cache
def get_origin(cwd: str | None = None) -> str: def get_origin(cwd: str = None) -> str:
try: try:
local_branch = run_cmd(["git", "name-rev", "--name-only", "HEAD"], cwd=cwd) local_branch = run_cmd(["git", "name-rev", "--name-only", "HEAD"], cwd=cwd)
tracking_remote = run_cmd(["git", "config", "branch." + local_branch + ".remote"], cwd=cwd) tracking_remote = run_cmd(["git", "config", "branch." + local_branch + ".remote"], cwd=cwd)
@@ -34,7 +34,7 @@ def get_origin(cwd: str | None = None) -> str:
@cache @cache
def get_normalized_origin(cwd: str | None = None) -> str: def get_normalized_origin(cwd: str = None) -> str:
return get_origin(cwd) \ return get_origin(cwd) \
.replace("git@", "", 1) \ .replace("git@", "", 1) \
.replace(".git", "", 1) \ .replace(".git", "", 1) \
common/i2c.py
-81
View File
@@ -1,81 +0,0 @@
import os
import fcntl
import ctypes
# I2C constants from /usr/include/linux/i2c-dev.h
I2C_SLAVE = 0x0703
I2C_SLAVE_FORCE = 0x0706
I2C_SMBUS = 0x0720
# SMBus transfer types
I2C_SMBUS_READ = 1
I2C_SMBUS_WRITE = 0
I2C_SMBUS_BYTE_DATA = 2
I2C_SMBUS_I2C_BLOCK_DATA = 8
I2C_SMBUS_BLOCK_MAX = 32
class _I2cSmbusData(ctypes.Union):
_fields_ = [
("byte", ctypes.c_uint8),
("word", ctypes.c_uint16),
("block", ctypes.c_uint8 * (I2C_SMBUS_BLOCK_MAX + 2)),
]
class _I2cSmbusIoctlData(ctypes.Structure):
_fields_ = [
("read_write", ctypes.c_uint8),
("command", ctypes.c_uint8),
("size", ctypes.c_uint32),
("data", ctypes.POINTER(_I2cSmbusData)),
]
class SMBus:
def __init__(self, bus: int):
self._fd = os.open(f'/dev/i2c-{bus}', os.O_RDWR)
def __enter__(self) -> 'SMBus':
return self
def __exit__(self, *args) -> None:
self.close()
def close(self) -> None:
if hasattr(self, '_fd') and self._fd >= 0:
os.close(self._fd)
self._fd = -1
def _set_address(self, addr: int, force: bool = False) -> None:
ioctl_arg = I2C_SLAVE_FORCE if force else I2C_SLAVE
fcntl.ioctl(self._fd, ioctl_arg, addr)
def _smbus_access(self, read_write: int, command: int, size: int, data: _I2cSmbusData) -> None:
ioctl_data = _I2cSmbusIoctlData(read_write, command, size, ctypes.pointer(data))
fcntl.ioctl(self._fd, I2C_SMBUS, ioctl_data)
def read_byte_data(self, addr: int, register: int, force: bool = False) -> int:
self._set_address(addr, force)
data = _I2cSmbusData()
self._smbus_access(I2C_SMBUS_READ, register, I2C_SMBUS_BYTE_DATA, data)
return int(data.byte)
def write_byte_data(self, addr: int, register: int, value: int, force: bool = False) -> None:
self._set_address(addr, force)
data = _I2cSmbusData()
data.byte = value & 0xFF
self._smbus_access(I2C_SMBUS_WRITE, register, I2C_SMBUS_BYTE_DATA, data)
def read_i2c_block_data(self, addr: int, register: int, length: int, force: bool = False) -> list[int]:
self._set_address(addr, force)
if not (0 <= length <= I2C_SMBUS_BLOCK_MAX):
raise ValueError(f"length must be 0..{I2C_SMBUS_BLOCK_MAX}")
data = _I2cSmbusData()
data.block[0] = length
self._smbus_access(I2C_SMBUS_READ, register, I2C_SMBUS_I2C_BLOCK_DATA, data)
read_len = int(data.block[0]) or length
read_len = min(read_len, length)
return [int(b) for b in data.block[1 : read_len + 1]]
common/mat.h
+85
View File
@@ -0,0 +1,85 @@
#pragma once
typedef struct vec3 {
float v[3];
} vec3;
typedef struct vec4 {
float v[4];
} vec4;
typedef struct mat3 {
float v[3*3];
} mat3;
typedef struct mat4 {
float v[4*4];
} mat4;
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++) {
float v = 0.0;
for (int k=0; k<3; k++) {
v += a.v[r*3+k] * b.v[k*3+c];
}
ret.v[r*3+c] = v;
}
}
return ret;
}
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++) {
ret.v[r] += a.v[r*3+c] * b.v[c];
}
}
return ret;
}
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++) {
float v = 0.0;
for (int k=0; k<4; k++) {
v += a.v[r*4+k] * b.v[k*4+c];
}
ret.v[r*4+c] = v;
}
}
return ret;
}
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++) {
ret.v[r] += a.v[r*4+c] * b.v[c];
}
}
return ret;
}
// 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) {
// in_pt = ( transform(out_pt/s + 0.5) - 0.5) * s
mat3 transform_out = {{
1.0f/s, 0.0f, 0.5f,
0.0f, 1.0f/s, 0.5f,
0.0f, 0.0f, 1.0f,
}};
mat3 transform_in = {{
s, 0.0f, -0.5f*s,
0.0f, s, -0.5f*s,
0.0f, 0.0f, 1.0f,
}};
return matmul3(transform_in, matmul3(in, transform_out));
}
common/parameterized.py
-54
View File
@@ -1,54 +0,0 @@
import re
import sys
import pytest
import inspect
def _to_safe_name(s):
return re.sub(r"[^a-zA-Z0-9_]+", "_", str(s)).strip("_")
class parameterized:
@staticmethod
def expand(cases):
cases = list(cases)
if not cases:
return lambda func: pytest.mark.skip("no parameterized cases")(func)
def decorator(func):
params = [p for p in inspect.signature(func).parameters if p != 'self']
normalized = [c if isinstance(c, tuple) else (c,) for c in cases]
# Infer arg count from first case so extra params (e.g. from @given) are left untouched
expand_params = params[: len(normalized[0])]
if len(expand_params) == 1:
return pytest.mark.parametrize(expand_params[0], [c[0] for c in normalized])(func)
return pytest.mark.parametrize(', '.join(expand_params), normalized)(func)
return decorator
def parameterized_class(attrs, input_list=None):
if isinstance(attrs, list) and (not attrs or isinstance(attrs[0], dict)):
params_list = attrs
else:
assert input_list is not None
attr_names = (attrs,) if isinstance(attrs, str) else tuple(attrs)
params_list = [dict(zip(attr_names, v if isinstance(v, (tuple, list)) else (v,), strict=False)) for v in input_list]
def decorator(cls):
globs = sys._getframe(1).f_globals
for i, params in enumerate(params_list):
# append sanitized string param values so pytest -k can filter by them
suffix = "_".join(filter(None, (_to_safe_name(v) for v in params.values() if isinstance(v, str))))
name = f"{cls.__name__}_{i}" + (f"_{suffix}" if suffix else "")
new_cls = type(name, (cls,), dict(params))
new_cls.__module__ = cls.__module__
new_cls.__test__ = True # override inherited False so pytest collects this subclass
globs[name] = new_cls
# Don't collect the un-parametrised base, but return it so outer decorators
# (e.g. @pytest.mark.skip) land on it and propagate to subclasses via MRO.
cls.__test__ = False
return cls
return decorator
common/params.cc
+2 -4
View File
@@ -103,12 +103,10 @@ Params::~Params() {
assert(queue.empty()); assert(queue.empty());
} }
std::vector<std::string> Params::allKeys(ParamKeyFlag flag) const { std::vector<std::string> Params::allKeys() const {
std::vector<std::string> ret; std::vector<std::string> ret;
for (auto &p : keys) { for (auto &p : keys) {
if (flag == ALL || (p.second.flags & flag)) { ret.push_back(p.first);
ret.push_back(p.first);
}
} }
return ret; return ret;
} }
common/params.h
+1 -2
View File
@@ -18,7 +18,6 @@ enum ParamKeyFlag {
DONT_LOG = 0x20, DONT_LOG = 0x20,
DEVELOPMENT_ONLY = 0x40, DEVELOPMENT_ONLY = 0x40,
CLEAR_ON_IGNITION_ON = 0x80, CLEAR_ON_IGNITION_ON = 0x80,
BACKUP = 0x100,
ALL = 0xFFFFFFFF ALL = 0xFFFFFFFF
}; };
@@ -46,7 +45,7 @@ public:
Params(const Params&) = delete; Params(const Params&) = delete;
Params& operator=(const Params&) = delete; Params& operator=(const Params&) = delete;
std::vector<std::string> allKeys(ParamKeyFlag flag = ALL) const; std::vector<std::string> allKeys() const;
bool checkKey(const std::string &key); bool checkKey(const std::string &key);
ParamKeyFlag getKeyFlag(const std::string &key); ParamKeyFlag getKeyFlag(const std::string &key);
ParamKeyType getKeyType(const std::string &key); ParamKeyType getKeyType(const std::string &key);
common/params.py
+1 -1
View File
@@ -14,6 +14,6 @@ if __name__ == "__main__":
if len(sys.argv) == 3: if len(sys.argv) == 3:
val = sys.argv[2] val = sys.argv[2]
print(f"SET: {key} = {val}") print(f"SET: {key} = {val}")
params.put(key, val, block=True) params.put(key, val)
elif len(sys.argv) == 2: elif len(sys.argv) == 2:
print(f"GET: {key} = {params.get(key)}") print(f"GET: {key} = {params.get(key)}")
common/params_keys.h
+68 -177
View File
@@ -7,8 +7,8 @@
inline static std::unordered_map<std::string, ParamKeyAttributes> keys = { inline static std::unordered_map<std::string, ParamKeyAttributes> keys = {
{"AccessToken", {CLEAR_ON_MANAGER_START | DONT_LOG, STRING}}, {"AccessToken", {CLEAR_ON_MANAGER_START | DONT_LOG, STRING}},
{"AdbEnabled", {PERSISTENT | BACKUP, BOOL}}, {"AdbEnabled", {PERSISTENT, BOOL}},
{"AlwaysOnDM", {PERSISTENT | BACKUP, BOOL}}, {"AlwaysOnDM", {PERSISTENT, BOOL}},
{"ApiCache_Device", {PERSISTENT, STRING}}, {"ApiCache_Device", {PERSISTENT, STRING}},
{"ApiCache_FirehoseStats", {PERSISTENT, JSON}}, {"ApiCache_FirehoseStats", {PERSISTENT, JSON}},
{"AssistNowToken", {PERSISTENT, STRING}}, {"AssistNowToken", {PERSISTENT, STRING}},
@@ -28,37 +28,37 @@ inline static std::unordered_map<std::string, ParamKeyAttributes> keys = {
{"ControlsReady", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}}, {"ControlsReady", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}},
{"CurrentBootlog", {PERSISTENT, STRING}}, {"CurrentBootlog", {PERSISTENT, STRING}},
{"CurrentRoute", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, STRING}}, {"CurrentRoute", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, STRING}},
{"DisableLogging", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}}, {"DisableLogging", {PERSISTENT, BOOL, "0"}},
{"DisablePowerDown", {PERSISTENT | BACKUP, BOOL}}, {"DisablePowerDown", {PERSISTENT, BOOL}},
{"DisableUpdates", {PERSISTENT | BACKUP, BOOL, "0"}}, {"DisableUpdates", {PERSISTENT, BOOL}},
{"DisengageOnAccelerator", {PERSISTENT | BACKUP, BOOL, "0"}}, {"DisengageOnAccelerator", {PERSISTENT, BOOL, "0"}},
{"DongleId", {PERSISTENT, STRING}}, {"DongleId", {PERSISTENT, STRING}},
{"DoReboot", {CLEAR_ON_MANAGER_START, BOOL}}, {"DoReboot", {CLEAR_ON_MANAGER_START, BOOL}},
{"DoShutdown", {CLEAR_ON_MANAGER_START, BOOL}}, {"DoShutdown", {CLEAR_ON_MANAGER_START, BOOL}},
{"DoUninstall", {CLEAR_ON_MANAGER_START, BOOL}}, {"DoUninstall", {CLEAR_ON_MANAGER_START, BOOL}},
{"DriverTooDistracted", {CLEAR_ON_MANAGER_START | CLEAR_ON_IGNITION_ON, BOOL}}, {"DriverTooDistracted", {CLEAR_ON_MANAGER_START | CLEAR_ON_IGNITION_ON, BOOL}},
{"AlphaLongitudinalEnabled", {PERSISTENT | DEVELOPMENT_ONLY | BACKUP, BOOL}}, {"AlphaLongitudinalEnabled", {PERSISTENT | DEVELOPMENT_ONLY, BOOL}},
{"ExperimentalMode", {PERSISTENT | BACKUP, BOOL}}, {"ExperimentalMode", {PERSISTENT, BOOL}},
{"ExperimentalModeConfirmed", {PERSISTENT | BACKUP, BOOL}}, {"ExperimentalModeConfirmed", {PERSISTENT, BOOL}},
{"FirmwareQueryDone", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}}, {"FirmwareQueryDone", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}},
{"ForcePowerDown", {PERSISTENT, BOOL}}, {"ForcePowerDown", {PERSISTENT, BOOL}},
{"GitBranch", {PERSISTENT, STRING}}, {"GitBranch", {PERSISTENT, STRING}},
{"GitCommit", {PERSISTENT, STRING}}, {"GitCommit", {PERSISTENT, STRING}},
{"GitCommitDate", {PERSISTENT, STRING}}, {"GitCommitDate", {PERSISTENT, STRING}},
{"GitDiff", {PERSISTENT, STRING}}, {"GitDiff", {PERSISTENT, STRING}},
{"GithubSshKeys", {PERSISTENT | BACKUP, STRING}}, {"GithubSshKeys", {PERSISTENT, STRING}},
{"GithubUsername", {PERSISTENT | BACKUP, STRING}}, {"GithubUsername", {PERSISTENT, STRING}},
{"GitRemote", {PERSISTENT, STRING}}, {"GitRemote", {PERSISTENT, STRING}},
{"GsmApn", {PERSISTENT | BACKUP, STRING}}, {"GsmApn", {PERSISTENT, STRING}},
{"GsmMetered", {PERSISTENT | BACKUP, BOOL, "1"}}, {"GsmMetered", {PERSISTENT, BOOL, "1"}},
{"GsmRoaming", {PERSISTENT | BACKUP, BOOL}}, {"GsmRoaming", {PERSISTENT, BOOL}},
{"HardwareSerial", {PERSISTENT, STRING}}, {"HardwareSerial", {PERSISTENT, STRING}},
{"HasAcceptedTerms", {PERSISTENT, STRING, "0"}}, {"HasAcceptedTerms", {PERSISTENT, STRING, "0"}},
{"InstallDate", {PERSISTENT, TIME}}, {"InstallDate", {PERSISTENT, TIME}},
{"IsDriverViewEnabled", {CLEAR_ON_MANAGER_START, BOOL}}, {"IsDriverViewEnabled", {CLEAR_ON_MANAGER_START, BOOL}},
{"IsEngaged", {PERSISTENT, BOOL}}, {"IsEngaged", {PERSISTENT, BOOL}},
{"IsLdwEnabled", {PERSISTENT | BACKUP, BOOL}}, {"IsLdwEnabled", {PERSISTENT, BOOL}},
{"IsMetric", {PERSISTENT | BACKUP, BOOL}}, {"IsMetric", {PERSISTENT, BOOL}},
{"IsOffroad", {CLEAR_ON_MANAGER_START, BOOL}}, {"IsOffroad", {CLEAR_ON_MANAGER_START, BOOL}},
{"IsOnroad", {PERSISTENT, BOOL}}, {"IsOnroad", {PERSISTENT, BOOL}},
{"IsRhdDetected", {PERSISTENT, BOOL}}, {"IsRhdDetected", {PERSISTENT, BOOL}},
@@ -66,7 +66,7 @@ inline static std::unordered_map<std::string, ParamKeyAttributes> keys = {
{"IsTakingSnapshot", {CLEAR_ON_MANAGER_START, BOOL}}, {"IsTakingSnapshot", {CLEAR_ON_MANAGER_START, BOOL}},
{"IsTestedBranch", {CLEAR_ON_MANAGER_START, BOOL}}, {"IsTestedBranch", {CLEAR_ON_MANAGER_START, BOOL}},
{"JoystickDebugMode", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}}, {"JoystickDebugMode", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}},
{"LanguageSetting", {PERSISTENT | BACKUP, STRING, "en"}}, {"LanguageSetting", {PERSISTENT, STRING, "en"}},
{"LastAthenaPingTime", {CLEAR_ON_MANAGER_START, INT}}, {"LastAthenaPingTime", {CLEAR_ON_MANAGER_START, INT}},
{"LastGPSPosition", {PERSISTENT, STRING}}, {"LastGPSPosition", {PERSISTENT, STRING}},
{"LastManagerExitReason", {CLEAR_ON_MANAGER_START, STRING}}, {"LastManagerExitReason", {CLEAR_ON_MANAGER_START, STRING}},
@@ -77,16 +77,14 @@ inline static std::unordered_map<std::string, ParamKeyAttributes> keys = {
{"LastUpdateRouteCount", {PERSISTENT, INT, "0"}}, {"LastUpdateRouteCount", {PERSISTENT, INT, "0"}},
{"LastUpdateTime", {PERSISTENT, TIME}}, {"LastUpdateTime", {PERSISTENT, TIME}},
{"LastUpdateUptimeOnroad", {PERSISTENT, FLOAT, "0.0"}}, {"LastUpdateUptimeOnroad", {PERSISTENT, FLOAT, "0.0"}},
{"LiveDelay", {PERSISTENT | BACKUP, BYTES}}, {"LiveDelay", {PERSISTENT, BYTES}},
{"LiveParameters", {PERSISTENT, JSON}}, {"LiveParameters", {PERSISTENT, JSON}},
{"LiveParametersV2", {PERSISTENT, BYTES}}, {"LiveParametersV2", {PERSISTENT, BYTES}},
{"LivestreamEncoderBitrate", {CLEAR_ON_MANAGER_START | DONT_LOG, INT}},
{"LiveTorqueParameters", {PERSISTENT | DONT_LOG, BYTES}}, {"LiveTorqueParameters", {PERSISTENT | DONT_LOG, BYTES}},
{"LocationFilterInitialState", {PERSISTENT, BYTES}}, {"LocationFilterInitialState", {PERSISTENT, BYTES}},
{"LateralManeuverMode", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}},
{"LongitudinalManeuverMode", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}}, {"LongitudinalManeuverMode", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}},
{"LongitudinalPersonality", {PERSISTENT | BACKUP, INT, std::to_string(static_cast<int>(cereal::LongitudinalPersonality::STANDARD))}}, {"LongitudinalPersonality", {PERSISTENT, INT, std::to_string(static_cast<int>(cereal::LongitudinalPersonality::STANDARD))}},
{"NetworkMetered", {PERSISTENT | BACKUP, BOOL}}, {"NetworkMetered", {PERSISTENT, BOOL}},
{"ObdMultiplexingChanged", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}}, {"ObdMultiplexingChanged", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}},
{"ObdMultiplexingEnabled", {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_CarUnrecognized", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, JSON}},
@@ -102,21 +100,20 @@ inline static std::unordered_map<std::string, ParamKeyAttributes> keys = {
{"Offroad_UpdateFailed", {CLEAR_ON_MANAGER_START, JSON}}, {"Offroad_UpdateFailed", {CLEAR_ON_MANAGER_START, JSON}},
{"Offroad_DriverMonitoringUncertain", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, JSON}}, {"Offroad_DriverMonitoringUncertain", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, JSON}},
{"OnroadCycleRequested", {CLEAR_ON_MANAGER_START, BOOL}}, {"OnroadCycleRequested", {CLEAR_ON_MANAGER_START, BOOL}},
{"OpenpilotEnabledToggle", {PERSISTENT | BACKUP, BOOL, "1"}}, {"OpenpilotEnabledToggle", {PERSISTENT, BOOL, "1"}},
{"PandaHeartbeatLost", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}}, {"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}}, {"PrimeType", {PERSISTENT, INT}},
{"RecordAudio", {PERSISTENT | BACKUP, BOOL}}, {"RecordAudio", {PERSISTENT, BOOL}},
{"RecordAudioFeedback", {PERSISTENT | BACKUP, BOOL, "0"}}, {"RecordAudioFeedback", {PERSISTENT, BOOL, "0"}},
{"RecordFront", {PERSISTENT | BACKUP, BOOL}}, {"RecordFront", {PERSISTENT, BOOL}},
{"RecordFrontLock", {PERSISTENT, BOOL}}, // for the internal fleet {"RecordFrontLock", {PERSISTENT, BOOL}}, // for the internal fleet
{"SecOCKey", {PERSISTENT | DONT_LOG | BACKUP, STRING}}, {"SecOCKey", {PERSISTENT | DONT_LOG, STRING}},
{"ShowDebugInfo", {PERSISTENT, BOOL}}, {"ShowDebugInfo", {PERSISTENT, BOOL}},
{"RouteCount", {PERSISTENT, INT, "0"}}, {"RouteCount", {PERSISTENT, INT, "0"}},
{"SnoozeUpdate", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}}, {"SnoozeUpdate", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}},
{"SshEnabled", {PERSISTENT | BACKUP, BOOL}}, {"SshEnabled", {PERSISTENT, BOOL}},
{"TermsVersion", {PERSISTENT, STRING}},
{"TorqueBar", {PERSISTENT | BACKUP, BOOL, "0"}},
{"TrainingVersion", {PERSISTENT, STRING}},
{"UbloxAvailable", {PERSISTENT, BOOL}}, {"UbloxAvailable", {PERSISTENT, BOOL}},
{"UpdateAvailable", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}}, {"UpdateAvailable", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BOOL}},
{"UpdateFailedCount", {CLEAR_ON_MANAGER_START, INT}}, {"UpdateFailedCount", {CLEAR_ON_MANAGER_START, INT}},
@@ -131,151 +128,45 @@ inline static std::unordered_map<std::string, ParamKeyAttributes> keys = {
{"UpdaterLastFetchTime", {PERSISTENT, TIME}}, {"UpdaterLastFetchTime", {PERSISTENT, TIME}},
{"UptimeOffroad", {PERSISTENT, FLOAT, "0.0"}}, {"UptimeOffroad", {PERSISTENT, FLOAT, "0.0"}},
{"UptimeOnroad", {PERSISTENT, FLOAT, "0.0"}}, {"UptimeOnroad", {PERSISTENT, FLOAT, "0.0"}},
{"UsbGpuPresent", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}},
{"UsbGpuCompiled", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL}},
{"Version", {PERSISTENT, STRING}}, {"Version", {PERSISTENT, STRING}},
{"dp_dev_last_log", {CLEAR_ON_ONROAD_TRANSITION, STRING}},
// --- sunnypilot params --- // {"dp_dev_reset_conf", {CLEAR_ON_MANAGER_START, BOOL, "0"}},
{"ApiCache_DriveStats", {PERSISTENT, JSON}}, {"dp_dev_beep", {PERSISTENT, BOOL, "0"}},
{"AutoLaneChangeBsmDelay", {PERSISTENT | BACKUP, BOOL, "0"}}, {"dp_dev_is_rhd", {PERSISTENT, BOOL, "0"}},
{"AutoLaneChangeTimer", {PERSISTENT | BACKUP, INT, "0"}}, {"dp_lat_alka", {PERSISTENT, BOOL, "0"}},
{"BlinkerLateralReengageDelay", {PERSISTENT | BACKUP, INT, "0"}}, // seconds {"dp_ui_display_mode", {PERSISTENT, INT, "0"}},
{"BlinkerMinLateralControlSpeed", {PERSISTENT | BACKUP, INT, "20"}}, // MPH or km/h {"dp_dev_model_selected", {PERSISTENT, STRING}},
{"BlinkerPauseLateralControl", {PERSISTENT | BACKUP, INT, "0"}}, {"dp_dev_model_list", {PERSISTENT, STRING}},
{"Brightness", {PERSISTENT | BACKUP, INT, "0"}}, {"dp_lat_lca_speed", {PERSISTENT, INT, "20"}},
{"CarList", {PERSISTENT, JSON}}, {"dp_lat_lca_auto_sec", {PERSISTENT, FLOAT, "0.0"}},
{"CarParamsSP", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, BYTES}}, {"dp_dev_go_off_road", {CLEAR_ON_MANAGER_START, BOOL}},
{"CarParamsSPCache", {CLEAR_ON_MANAGER_START, BYTES}}, {"dp_ui_hide_hud_speed_kph", {PERSISTENT, INT, "0"}},
{"CarParamsSPPersistent", {PERSISTENT, BYTES}}, {"dp_lon_ext_radar", {PERSISTENT, BOOL, "0"}},
{"CarPlatformBundle", {PERSISTENT | BACKUP, JSON}}, {"dp_lat_road_edge_detection", {PERSISTENT, BOOL, "0"}},
{"ChevronInfo", {PERSISTENT | BACKUP, INT, "4"}}, {"dp_ui_rainbow", {PERSISTENT, BOOL, "0"}},
{"CompletedSunnylinkConsentVersion", {PERSISTENT, STRING, "0"}}, {"dp_lon_acm", {PERSISTENT, BOOL, "0"}},
{"CustomAccIncrementsEnabled", {PERSISTENT | BACKUP, BOOL, "0"}}, {"dp_lon_aem", {PERSISTENT, BOOL, "0"}},
{"CustomAccLongPressIncrement", {PERSISTENT | BACKUP, INT, "5"}}, {"dp_lon_dtsc", {PERSISTENT, BOOL, "0"}},
{"CustomAccShortPressIncrement", {PERSISTENT | BACKUP, INT, "1"}}, {"dp_lon_apm", {PERSISTENT, BOOL, "0"}},
{"DeviceBootMode", {PERSISTENT | BACKUP, INT, "0"}}, {"dp_lon_dasr", {PERSISTENT, BOOL, "0"}},
{"DevUIInfo", {PERSISTENT | BACKUP, INT, "0"}}, {"dp_dev_audible_alert_mode", {PERSISTENT, INT, "0"}},
{"EnableCopyparty", {PERSISTENT | BACKUP, BOOL}}, {"dp_dev_auto_shutdown_in", {PERSISTENT, INT, "-5"}},
{"EnableGithubRunner", {PERSISTENT | BACKUP, BOOL}}, {"dp_ui_lead", {PERSISTENT, INT, "0"}},
{"GreenLightAlert", {PERSISTENT | BACKUP, BOOL, "0"}}, {"dp_dev_opview", {PERSISTENT, BOOL, "0"}},
{"GithubRunnerSufficientVoltage", {CLEAR_ON_MANAGER_START , BOOL}}, {"dp_dev_dashy", {PERSISTENT, BOOL, "0"}},
{"HasAcceptedTermsSP", {PERSISTENT, STRING, "0"}}, {"dp_maa_route", {CLEAR_ON_MANAGER_START, JSON}},
{"HideVEgoUI", {PERSISTENT | BACKUP, BOOL, "0"}}, {"dp_maa_destination", {PERSISTENT, JSON}},
{"IntelligentCruiseButtonManagement", {PERSISTENT | BACKUP , BOOL}}, {"dp_maa_places", {PERSISTENT, JSON}},
{"InteractivityTimeout", {PERSISTENT | BACKUP, INT, "0"}}, {"dp_dev_delay_loggerd", {PERSISTENT, INT, "0"}},
{"IsDevelopmentBranch", {CLEAR_ON_MANAGER_START, BOOL}}, {"dp_dev_disable_connect", {PERSISTENT, BOOL, "0"}},
{"IsReleaseSpBranch", {CLEAR_ON_MANAGER_START, BOOL}}, {"dp_dev_tethering", {PERSISTENT, BOOL, "0"}},
{"LastGPSPositionLLK", {PERSISTENT, STRING}}, {"dp_ui_mici", {PERSISTENT, BOOL, "0"}},
{"LeadDepartAlert", {PERSISTENT | BACKUP, BOOL, "0"}}, {"dp_lat_offset_cm", {PERSISTENT, INT, "0"}},
{"MaxTimeOffroad", {PERSISTENT | BACKUP, INT, "1800"}}, {"dp_toyota_door_auto_lock_unlock", {PERSISTENT, BOOL, "0"}},
{"ModelRunnerTypeCache", {CLEAR_ON_ONROAD_TRANSITION, INT}}, {"dp_toyota_tss1_sng", {PERSISTENT, BOOL, "0"}},
{"OffroadMode", {CLEAR_ON_MANAGER_START, BOOL}}, {"dp_toyota_stock_lon", {PERSISTENT, BOOL, "0"}},
{"Offroad_TiciSupport", {CLEAR_ON_MANAGER_START, JSON}}, {"dp_vag_a0_sng", {PERSISTENT, BOOL, "0"}},
{"OnroadScreenOffBrightness", {PERSISTENT | BACKUP, INT, "0"}}, {"dp_vag_pq_steering_patch", {PERSISTENT, BOOL, "0"}},
{"OnroadScreenOffBrightnessMigrated", {PERSISTENT | BACKUP, STRING, "0.0"}}, {"dp_vag_avoid_eps_lockout", {PERSISTENT, BOOL, "0"}},
{"OnroadScreenOffTimer", {PERSISTENT | BACKUP, INT, "15"}}, {"dp_honda_nidec_stock_long", {PERSISTENT, BOOL, "0"}},
{"OnroadScreenOffTimerMigrated", {PERSISTENT | BACKUP, STRING, "0.0"}},
{"OnroadUploads", {PERSISTENT | BACKUP, BOOL, "1"}},
{"QuickBootToggle", {PERSISTENT | BACKUP, BOOL, "0"}},
{"QuietMode", {PERSISTENT | BACKUP, BOOL, "0"}},
{"RainbowMode", {PERSISTENT | BACKUP, BOOL, "0"}},
{"RocketFuel", {PERSISTENT | BACKUP, BOOL, "0"}},
{"ShowAdvancedControls", {PERSISTENT | BACKUP, BOOL, "0"}},
{"ShowTurnSignals", {PERSISTENT | BACKUP, BOOL, "0"}},
{"StandstillTimer", {PERSISTENT | BACKUP, BOOL, "0"}},
{"TrueVEgoUI", {PERSISTENT | BACKUP, BOOL, "0"}},
// MADS params
{"Mads", {PERSISTENT | BACKUP, BOOL, "1"}},
{"MadsMainCruiseAllowed", {PERSISTENT | BACKUP, BOOL, "1"}},
{"MadsSteeringMode", {PERSISTENT | BACKUP, INT, "0"}},
{"MadsUnifiedEngagementMode", {PERSISTENT | BACKUP, BOOL, "1"}},
// Model Manager params
{"ModelManager_ActiveBundle", {PERSISTENT, JSON}},
{"ModelManager_ClearCache", {CLEAR_ON_MANAGER_START, BOOL}},
{"ModelManager_DownloadIndex", {CLEAR_ON_MANAGER_START | CLEAR_ON_ONROAD_TRANSITION, INT}},
{"ModelManager_Favs", {PERSISTENT | BACKUP, STRING}},
{"ModelManager_LastSyncTime", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, INT, "0"}},
{"ModelManager_ModelsCache", {PERSISTENT | BACKUP, JSON}},
// Neural Network Lateral Control
{"NeuralNetworkLateralControl", {PERSISTENT | BACKUP, BOOL, "0"}},
// sunnylink params
{"EnableSunnylinkUploader", {PERSISTENT | BACKUP, BOOL}},
{"LastSunnylinkPingTime", {CLEAR_ON_MANAGER_START, INT}},
{"ParamsVersion", {PERSISTENT, INT}},
{"SunnylinkCache_Roles", {PERSISTENT, STRING}},
{"SunnylinkCache_Users", {PERSISTENT, STRING}},
{"SunnylinkDongleId", {PERSISTENT, STRING}},
{"SunnylinkdPid", {PERSISTENT, INT}},
{"SunnylinkEnabled", {PERSISTENT, BOOL, "1"}},
{"SunnylinkTempFault", {CLEAR_ON_MANAGER_START | CLEAR_ON_OFFROAD_TRANSITION, BOOL, "0"}},
// Backup Manager params
{"BackupManager_CreateBackup", {PERSISTENT, BOOL}},
{"BackupManager_RestoreVersion", {PERSISTENT, STRING}},
// sunnypilot car specific params
{"HyundaiLongitudinalTuning", {PERSISTENT | BACKUP, INT, "0"}},
{"SubaruStopAndGo", {PERSISTENT | BACKUP, BOOL, "0"}},
{"SubaruStopAndGoManualParkingBrake", {PERSISTENT | BACKUP, BOOL, "0"}},
{"TeslaCoopSteering", {PERSISTENT | BACKUP, BOOL, "0"}},
{"ToyotaEnforceStockLongitudinal", {PERSISTENT | BACKUP, BOOL, "0"}},
{"ToyotaStopAndGoHack", {PERSISTENT | BACKUP, BOOL, "0"}},
{"DynamicExperimentalControl", {PERSISTENT | BACKUP, BOOL, "0"}},
{"BlindSpot", {PERSISTENT | BACKUP, BOOL, "0"}},
// sunnypilot model params
{"CameraOffset", {PERSISTENT | BACKUP, FLOAT, "0.0"}},
{"LagdToggle", {PERSISTENT | BACKUP, BOOL, "1"}},
{"LagdToggleDelay", {PERSISTENT | BACKUP, FLOAT, "0.2"}},
{"LagdValueCache", {PERSISTENT, FLOAT, "0.2"}},
{"LaneTurnDesire", {PERSISTENT | BACKUP, BOOL, "0"}},
{"LaneTurnValue", {PERSISTENT | BACKUP, FLOAT, "19.0"}},
{"PlanplusControl", {PERSISTENT | BACKUP, FLOAT, "1.0"}},
// mapd
{"MapAdvisorySpeedLimit", {CLEAR_ON_ONROAD_TRANSITION, FLOAT}},
{"MapdVersion", {PERSISTENT, STRING}},
{"MapSpeedLimit", {CLEAR_ON_ONROAD_TRANSITION, FLOAT, "0.0"}},
{"NextMapSpeedLimit", {CLEAR_ON_ONROAD_TRANSITION, JSON}},
{"Offroad_OSMUpdateRequired", {CLEAR_ON_MANAGER_START, JSON}},
{"OsmDbUpdatesCheck", {CLEAR_ON_MANAGER_START, BOOL}}, // mapd database update happens with device ON, reset on boot
{"OSMDownloadBounds", {PERSISTENT, STRING}},
{"OsmDownloadedDate", {PERSISTENT, STRING, "0.0"}},
{"OSMDownloadLocations", {PERSISTENT, JSON}},
{"OSMDownloadProgress", {CLEAR_ON_MANAGER_START, JSON}},
{"OsmLocal", {PERSISTENT, BOOL}},
{"OsmLocationName", {PERSISTENT, STRING}},
{"OsmLocationTitle", {PERSISTENT, STRING}},
{"OsmLocationUrl", {PERSISTENT, STRING}},
{"OsmStateName", {PERSISTENT, STRING, "All"}},
{"OsmStateTitle", {PERSISTENT, STRING}},
{"OsmWayTest", {PERSISTENT, STRING}},
{"RoadName", {CLEAR_ON_ONROAD_TRANSITION, STRING}},
{"RoadNameToggle", {PERSISTENT | BACKUP, BOOL, "0"}},
// Speed Limit
{"SpeedLimitMode", {PERSISTENT | BACKUP, INT, "1"}},
{"SpeedLimitOffsetType", {PERSISTENT | BACKUP, INT, "0"}},
{"SpeedLimitPolicy", {PERSISTENT | BACKUP, INT, "3"}},
{"SpeedLimitValueOffset", {PERSISTENT | BACKUP, INT, "0"}},
// Smart Cruise Control
{"MapTargetVelocities", {CLEAR_ON_ONROAD_TRANSITION, STRING}},
{"SmartCruiseControlMap", {PERSISTENT | BACKUP, BOOL, "0"}},
{"SmartCruiseControlVision", {PERSISTENT | BACKUP, BOOL, "0"}},
// Torque lateral control custom params
{"CustomTorqueParams", {PERSISTENT | BACKUP , BOOL}},
{"EnforceTorqueControl", {PERSISTENT | BACKUP, BOOL}},
{"LiveTorqueParamsToggle", {PERSISTENT | BACKUP , BOOL}},
{"LiveTorqueParamsRelaxedToggle", {PERSISTENT | BACKUP , BOOL}},
{"TorqueControlTune", {PERSISTENT | BACKUP, FLOAT, "0.0"}},
{"TorqueParamsOverrideEnabled", {PERSISTENT | BACKUP, BOOL, "0"}},
{"TorqueParamsOverrideFriction", {PERSISTENT | BACKUP, FLOAT, "0.1"}},
{"TorqueParamsOverrideLatAccelFactor", {PERSISTENT | BACKUP, FLOAT, "2.5"}},
}; };
common/params_pyx.cpp
-17616
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common/params_pyx.pyx
+21 -17
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@@ -18,7 +18,6 @@ cdef extern from "common/params.h":
CLEAR_ON_OFFROAD_TRANSITION CLEAR_ON_OFFROAD_TRANSITION
DEVELOPMENT_ONLY DEVELOPMENT_ONLY
CLEAR_ON_IGNITION_ON CLEAR_ON_IGNITION_ON
BACKUP
ALL ALL
cpdef enum ParamKeyType: cpdef enum ParamKeyType:
@@ -44,7 +43,7 @@ cdef extern from "common/params.h":
optional[string] getKeyDefaultValue(string) nogil optional[string] getKeyDefaultValue(string) nogil
string getParamPath(string) nogil string getParamPath(string) nogil
void clearAll(ParamKeyFlag) void clearAll(ParamKeyFlag)
vector[string] allKeys(ParamKeyFlag) vector[string] allKeys()
PYTHON_2_CPP = { PYTHON_2_CPP = {
(str, STRING): lambda v: v, (str, STRING): lambda v: v,
@@ -142,28 +141,33 @@ cdef class Params:
cdef ParamKeyType t = self.p.getKeyType(k) cdef ParamKeyType t = self.p.getKeyType(k)
return ensure_bytes(self.python2cpp(type(dat), t, dat, key)) return ensure_bytes(self.python2cpp(type(dat), t, dat, key))
def put(self, key, dat, bool block = False): def put(self, key, dat):
""" """
Warning: block=True blocks until the param is written to disk! Warning: This function blocks until the param is written to disk!
In very rare cases this can take over a second, and your code will hang. In very rare cases this can take over a second, and your code will hang.
Use block=False in time sensitive code, but in general try to avoid Use the put_nonblocking, put_bool_nonblocking in time sensitive code, but
writing params as much as possible. in general try to avoid writing params as much as possible.
""" """
cdef string k = self.check_key(key) cdef string k = self.check_key(key)
cdef string dat_bytes = self._put_cast(key, dat) cdef string dat_bytes = self._put_cast(key, dat)
with nogil: with nogil:
if block: self.p.put(k, dat_bytes)
self.p.put(k, dat_bytes)
else:
self.p.putNonBlocking(k, dat_bytes)
def put_bool(self, key, bool val, bool block = False): def put_bool(self, key, bool val):
cdef string k = self.check_key(key) cdef string k = self.check_key(key)
with nogil: with nogil:
if block: self.p.putBool(k, val)
self.p.putBool(k, val)
else: def put_nonblocking(self, key, dat):
self.p.putBoolNonBlocking(k, val) cdef string k = self.check_key(key)
cdef string dat_bytes = self._put_cast(key, dat)
with nogil:
self.p.putNonBlocking(k, dat_bytes)
def put_bool_nonblocking(self, key, bool val):
cdef string k = self.check_key(key)
with nogil:
self.p.putBoolNonBlocking(k, val)
def remove(self, key): def remove(self, key):
cdef string k = self.check_key(key) cdef string k = self.check_key(key)
@@ -177,8 +181,8 @@ cdef class Params:
def get_type(self, key): def get_type(self, key):
return self.p.getKeyType(self.check_key(key)) return self.p.getKeyType(self.check_key(key))
def all_keys(self, flag=ParamKeyFlag.ALL): def all_keys(self):
return self.p.allKeys(flag) return self.p.allKeys()
def get_default_value(self, key): def get_default_value(self, key):
cdef string k = self.check_key(key) cdef string k = self.check_key(key)
common/params_pyx.so
BIN
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common/pid.py
+9 -3
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@@ -3,9 +3,15 @@ from numbers import Number
class PIDController: class PIDController:
def __init__(self, k_p, k_i, k_d=0., pos_limit=1e308, neg_limit=-1e308, rate=100): def __init__(self, k_p, k_i, k_d=0., pos_limit=1e308, neg_limit=-1e308, rate=100):
self._k_p: list[list[float]] = [[0], [k_p]] if isinstance(k_p, Number) else k_p self._k_p = k_p
self._k_i: list[list[float]] = [[0], [k_i]] if isinstance(k_i, Number) else k_i self._k_i = k_i
self._k_d: list[list[float]] = [[0], [k_d]] if isinstance(k_d, Number) else k_d self._k_d = k_d
if isinstance(self._k_p, Number):
self._k_p = [[0], [self._k_p]]
if isinstance(self._k_i, Number):
self._k_i = [[0], [self._k_i]]
if isinstance(self._k_d, Number):
self._k_d = [[0], [self._k_d]]
self.set_limits(pos_limit, neg_limit) self.set_limits(pos_limit, neg_limit)
common/prefix.h
+5 -9
View File
@@ -13,11 +13,7 @@ public:
if (prefix.empty()) { if (prefix.empty()) {
prefix = util::random_string(15); prefix = util::random_string(15);
} }
#ifdef __APPLE__ msgq_path = Path::shm_path() + "/" + prefix;
msgq_path = "/tmp/msgq_" + prefix;
#else
msgq_path = "/dev/shm/msgq_" + prefix;
#endif
bool ret = util::create_directories(msgq_path, 0777); bool ret = util::create_directories(msgq_path, 0777);
assert(ret); assert(ret);
setenv("OPENPILOT_PREFIX", prefix.c_str(), 1); setenv("OPENPILOT_PREFIX", prefix.c_str(), 1);
@@ -27,14 +23,14 @@ public:
auto param_path = Params().getParamPath(); auto param_path = Params().getParamPath();
if (util::file_exists(param_path)) { if (util::file_exists(param_path)) {
std::string real_path = util::readlink(param_path); std::string real_path = util::readlink(param_path);
util::check_system(util::string_format("rm %s -rf", real_path.c_str())); system(util::string_format("rm %s -rf", real_path.c_str()).c_str());
unlink(param_path.c_str()); unlink(param_path.c_str());
} }
if (getenv("COMMA_CACHE") == nullptr) { if (getenv("COMMA_CACHE") == nullptr) {
util::check_system(util::string_format("rm %s -rf", Path::download_cache_root().c_str())); system(util::string_format("rm %s -rf", Path::download_cache_root().c_str()).c_str());
} }
util::check_system(util::string_format("rm %s -rf", Path::comma_home().c_str())); system(util::string_format("rm %s -rf", Path::comma_home().c_str()).c_str());
util::check_system(util::string_format("rm %s -rf", msgq_path.c_str())); system(util::string_format("rm %s -rf", msgq_path.c_str()).c_str());
unsetenv("OPENPILOT_PREFIX"); unsetenv("OPENPILOT_PREFIX");
} }
common/prefix.py
+2 -4
View File
@@ -1,5 +1,4 @@
import os import os
import platform
import shutil import shutil
import uuid import uuid
@@ -10,10 +9,9 @@ from openpilot.system.hardware.hw import Paths
from openpilot.system.hardware.hw import DEFAULT_DOWNLOAD_CACHE_ROOT from openpilot.system.hardware.hw import DEFAULT_DOWNLOAD_CACHE_ROOT
class OpenpilotPrefix: class OpenpilotPrefix:
def __init__(self, prefix: str | None = None, create_dirs_on_enter: bool = True, clean_dirs_on_exit: bool = True, shared_download_cache: bool = False): def __init__(self, prefix: str = None, create_dirs_on_enter: bool = True, clean_dirs_on_exit: bool = True, shared_download_cache: bool = False):
self.prefix = prefix if prefix else str(uuid.uuid4().hex[0:15]) self.prefix = prefix if prefix else str(uuid.uuid4().hex[0:15])
shm_path = "/tmp" if platform.system() == "Darwin" else "/dev/shm" self.msgq_path = os.path.join(Paths.shm_path(), "msgq_" + self.prefix)
self.msgq_path = os.path.join(shm_path, "msgq_" + self.prefix)
self.create_dirs_on_enter = create_dirs_on_enter self.create_dirs_on_enter = create_dirs_on_enter
self.clean_dirs_on_exit = clean_dirs_on_exit self.clean_dirs_on_exit = clean_dirs_on_exit
self.shared_download_cache = shared_download_cache self.shared_download_cache = shared_download_cache
common/ratekeeper.cc
+3 -3
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@@ -6,9 +6,9 @@
#include "common/timing.h" #include "common/timing.h"
#include "common/util.h" #include "common/util.h"
RateKeeper::RateKeeper(const std::string &name_, float rate, float print_delay_threshold_) RateKeeper::RateKeeper(const std::string &name, float rate, float print_delay_threshold)
: name(name_), : name(name),
print_delay_threshold(std::max(0.f, print_delay_threshold_)) { print_delay_threshold(std::max(0.f, print_delay_threshold)) {
interval = 1 / rate; interval = 1 / rate;
last_monitor_time = seconds_since_boot(); last_monitor_time = seconds_since_boot();
next_frame_time = last_monitor_time + interval; next_frame_time = last_monitor_time + interval;
common/realtime.py
+1 -6
View File
@@ -6,7 +6,7 @@ import time
from setproctitle import getproctitle from setproctitle import getproctitle
from openpilot.common.utils import MovingAverage from openpilot.common.util import MovingAverage
from openpilot.system.hardware import PC from openpilot.system.hardware import PC
@@ -28,11 +28,6 @@ class Priority:
CTRL_HIGH = 53 CTRL_HIGH = 53
def drop_realtime() -> None:
if sys.platform == 'linux' and not PC:
os.sched_setscheduler(0, os.SCHED_OTHER, os.sched_param(0))
def set_core_affinity(cores: list[int]) -> None: def set_core_affinity(cores: list[int]) -> None:
if sys.platform == 'linux' and not PC: if sys.platform == 'linux' and not PC:
os.sched_setaffinity(0, cores) os.sched_setaffinity(0, cores)
common/swaglog.cc
+2 -4
View File
@@ -11,12 +11,10 @@
#include <zmq.h> #include <zmq.h>
#include <stdarg.h> #include <stdarg.h>
#include "json11/json11.hpp" #include "third_party/json11/json11.hpp"
#include "common/version.h" #include "common/version.h"
#include "system/hardware/hw.h" #include "system/hardware/hw.h"
#include "sunnypilot/common/version.h"
class SwaglogState { class SwaglogState {
public: public:
SwaglogState() { SwaglogState() {
@@ -58,7 +56,7 @@ public:
if (char* daemon_name = getenv("MANAGER_DAEMON")) { if (char* daemon_name = getenv("MANAGER_DAEMON")) {
ctx_j["daemon"] = daemon_name; ctx_j["daemon"] = daemon_name;
} }
ctx_j["version"] = SUNNYPILOT_VERSION; ctx_j["version"] = COMMA_VERSION;
ctx_j["dirty"] = !getenv("CLEAN"); ctx_j["dirty"] = !getenv("CLEAN");
ctx_j["device"] = Hardware::get_name(); ctx_j["device"] = Hardware::get_name();
} }
common/tests/test_markdown.py
+1 -1
View File
@@ -6,7 +6,7 @@ from openpilot.common.markdown import parse_markdown
class TestMarkdown: class TestMarkdown:
def test_all_release_notes(self): def test_all_release_notes(self):
with open(os.path.join(BASEDIR, "CHANGELOG.md")) as f: with open(os.path.join(BASEDIR, "RELEASES.md")) as f:
release_notes = f.read().split("\n\n") release_notes = f.read().split("\n\n")
assert len(release_notes) > 10 assert len(release_notes) > 10
common/tests/test_params.py
+19 -19
View File
@@ -12,17 +12,17 @@ class TestParams:
self.params = Params() self.params = Params()
def test_params_put_and_get(self): def test_params_put_and_get(self):
self.params.put("DongleId", "cb38263377b873ee", block=True) self.params.put("DongleId", "cb38263377b873ee")
assert self.params.get("DongleId") == "cb38263377b873ee" assert self.params.get("DongleId") == "cb38263377b873ee"
def test_params_non_ascii(self): def test_params_non_ascii(self):
st = b"\xe1\x90\xff" st = b"\xe1\x90\xff"
self.params.put("CarParams", st, block=True) self.params.put("CarParams", st)
assert self.params.get("CarParams") == st assert self.params.get("CarParams") == st
def test_params_get_cleared_manager_start(self): def test_params_get_cleared_manager_start(self):
self.params.put("CarParams", b"test", block=True) self.params.put("CarParams", b"test")
self.params.put("DongleId", "cb38263377b873ee", block=True) self.params.put("DongleId", "cb38263377b873ee")
assert self.params.get("CarParams") == b"test" assert self.params.get("CarParams") == b"test"
undefined_param = self.params.get_param_path(uuid.uuid4().hex) undefined_param = self.params.get_param_path(uuid.uuid4().hex)
@@ -36,15 +36,15 @@ class TestParams:
assert not os.path.isfile(undefined_param) assert not os.path.isfile(undefined_param)
def test_params_two_things(self): def test_params_two_things(self):
self.params.put("DongleId", "bob", block=True) self.params.put("DongleId", "bob")
self.params.put("AthenadPid", 123, block=True) self.params.put("AthenadPid", 123)
assert self.params.get("DongleId") == "bob" assert self.params.get("DongleId") == "bob"
assert self.params.get("AthenadPid") == 123 assert self.params.get("AthenadPid") == 123
def test_params_get_block(self): def test_params_get_block(self):
def _delayed_writer(): def _delayed_writer():
time.sleep(0.1) time.sleep(0.1)
self.params.put("CarParams", b"test", block=True) self.params.put("CarParams", b"test")
threading.Thread(target=_delayed_writer).start() threading.Thread(target=_delayed_writer).start()
assert self.params.get("CarParams") is None assert self.params.get("CarParams") is None
assert self.params.get("CarParams", block=True) == b"test" assert self.params.get("CarParams", block=True) == b"test"
@@ -57,10 +57,10 @@ class TestParams:
self.params.get_bool("swag") self.params.get_bool("swag")
with pytest.raises(UnknownKeyName): with pytest.raises(UnknownKeyName):
self.params.put("swag", "abc", block=True) self.params.put("swag", "abc")
with pytest.raises(UnknownKeyName): with pytest.raises(UnknownKeyName):
self.params.put_bool("swag", True, block=True) self.params.put_bool("swag", True)
def test_remove_not_there(self): def test_remove_not_there(self):
assert self.params.get("CarParams") is None assert self.params.get("CarParams") is None
@@ -71,23 +71,23 @@ class TestParams:
self.params.remove("IsMetric") self.params.remove("IsMetric")
assert not self.params.get_bool("IsMetric") assert not self.params.get_bool("IsMetric")
self.params.put_bool("IsMetric", True, block=True) self.params.put_bool("IsMetric", True)
assert self.params.get_bool("IsMetric") assert self.params.get_bool("IsMetric")
self.params.put_bool("IsMetric", False, block=True) self.params.put_bool("IsMetric", False)
assert not self.params.get_bool("IsMetric") assert not self.params.get_bool("IsMetric")
self.params.put("IsMetric", True, block=True) self.params.put("IsMetric", True)
assert self.params.get_bool("IsMetric") assert self.params.get_bool("IsMetric")
self.params.put("IsMetric", False, block=True) self.params.put("IsMetric", False)
assert not self.params.get_bool("IsMetric") assert not self.params.get_bool("IsMetric")
def test_put_non_blocking_with_get_block(self): def test_put_non_blocking_with_get_block(self):
q = Params() q = Params()
def _delayed_writer(): def _delayed_writer():
time.sleep(0.1) time.sleep(0.1)
Params().put("CarParams", b"test") Params().put_nonblocking("CarParams", b"test")
threading.Thread(target=_delayed_writer).start() threading.Thread(target=_delayed_writer).start()
assert q.get("CarParams") is None assert q.get("CarParams") is None
assert q.get("CarParams", True) == b"test" assert q.get("CarParams", True) == b"test"
@@ -96,7 +96,7 @@ class TestParams:
q = Params() q = Params()
def _delayed_writer(): def _delayed_writer():
time.sleep(0.1) time.sleep(0.1)
Params().put_bool("CarParams", True) Params().put_bool_nonblocking("CarParams", True)
threading.Thread(target=_delayed_writer).start() threading.Thread(target=_delayed_writer).start()
assert q.get("CarParams") is None assert q.get("CarParams") is None
assert q.get("CarParams", True) == b"1" assert q.get("CarParams", True) == b"1"
@@ -123,19 +123,19 @@ class TestParams:
def test_params_get_type(self): def test_params_get_type(self):
# json # json
self.params.put("ApiCache_FirehoseStats", {"a": 0}, block=True) self.params.put("ApiCache_FirehoseStats", {"a": 0})
assert self.params.get("ApiCache_FirehoseStats") == {"a": 0} assert self.params.get("ApiCache_FirehoseStats") == {"a": 0}
# int # int
self.params.put("BootCount", 1441, block=True) self.params.put("BootCount", 1441)
assert self.params.get("BootCount") == 1441 assert self.params.get("BootCount") == 1441
# bool # bool
self.params.put("AdbEnabled", True, block=True) self.params.put("AdbEnabled", True)
assert self.params.get("AdbEnabled") assert self.params.get("AdbEnabled")
assert isinstance(self.params.get("AdbEnabled"), bool) assert isinstance(self.params.get("AdbEnabled"), bool)
# time # time
now = datetime.datetime.now(datetime.UTC) now = datetime.datetime.now(datetime.UTC)
self.params.put("InstallDate", now, block=True) self.params.put("InstallDate", now)
assert self.params.get("InstallDate") == now assert self.params.get("InstallDate") == now
common/tests/test_swaglog.cc
+2 -4
View File
@@ -7,9 +7,7 @@
#include "common/util.h" #include "common/util.h"
#include "common/version.h" #include "common/version.h"
#include "system/hardware/hw.h" #include "system/hardware/hw.h"
#include "json11/json11.hpp" #include "third_party/json11/json11.hpp"
#include "sunnypilot/common/version.h"
std::string daemon_name = "testy"; std::string daemon_name = "testy";
std::string dongle_id = "test_dongle_id"; std::string dongle_id = "test_dongle_id";
@@ -55,7 +53,7 @@ void recv_log(int thread_cnt, int thread_msg_cnt) {
REQUIRE(ctx["dongle_id"].string_value() == dongle_id); REQUIRE(ctx["dongle_id"].string_value() == dongle_id);
REQUIRE(ctx["dirty"].bool_value() == true); REQUIRE(ctx["dirty"].bool_value() == true);
REQUIRE(ctx["version"].string_value() == SUNNYPILOT_VERSION); REQUIRE(ctx["version"].string_value() == COMMA_VERSION);
std::string device = Hardware::get_name(); std::string device = Hardware::get_name();
REQUIRE(ctx["device"].string_value() == device); REQUIRE(ctx["device"].string_value() == device);
common/tests/test_util.cc
+5 -5
View File
@@ -36,7 +36,7 @@ TEST_CASE("util::read_file") {
REQUIRE(util::read_file(filename).empty()); REQUIRE(util::read_file(filename).empty());
std::string content = random_bytes(64 * 1024); std::string content = random_bytes(64 * 1024);
REQUIRE(write(fd, content.c_str(), content.size()) == (ssize_t)content.size()); write(fd, content.c_str(), content.size());
std::string ret = util::read_file(filename); std::string ret = util::read_file(filename);
bool equal = (ret == content); bool equal = (ret == content);
REQUIRE(equal); REQUIRE(equal);
@@ -114,12 +114,12 @@ TEST_CASE("util::safe_fwrite") {
} }
TEST_CASE("util::create_directories") { TEST_CASE("util::create_directories") {
REQUIRE(system("rm /tmp/test_create_directories -rf") == 0); system("rm /tmp/test_create_directories -rf");
std::string dir = "/tmp/test_create_directories/a/b/c/d/e/f"; std::string dir = "/tmp/test_create_directories/a/b/c/d/e/f";
auto check_dir_permissions = [](const std::string &path, mode_t mode) -> bool { auto check_dir_permissions = [](const std::string &dir, mode_t mode) -> bool {
struct stat st = {}; struct stat st = {};
return stat(path.c_str(), &st) == 0 && (st.st_mode & S_IFMT) == S_IFDIR && (st.st_mode & (S_IRWXU | S_IRWXG | S_IRWXO)) == mode; return stat(dir.c_str(), &st) == 0 && (st.st_mode & S_IFMT) == S_IFDIR && (st.st_mode & (S_IRWXU | S_IRWXG | S_IRWXO)) == mode;
}; };
SECTION("create_directories") { SECTION("create_directories") {
@@ -132,7 +132,7 @@ TEST_CASE("util::create_directories") {
} }
SECTION("a file exists with the same name") { SECTION("a file exists with the same name") {
REQUIRE(util::create_directories(dir, 0755)); REQUIRE(util::create_directories(dir, 0755));
int f = open((dir + "/file").c_str(), O_RDWR | O_CREAT, 0644); int f = open((dir + "/file").c_str(), O_RDWR | O_CREAT);
REQUIRE(f != -1); REQUIRE(f != -1);
close(f); close(f);
REQUIRE(util::create_directories(dir + "/file", 0755) == false); REQUIRE(util::create_directories(dir + "/file", 0755) == false);
common/time_helpers.py
+1 -2
View File
@@ -2,7 +2,6 @@ import datetime
from pathlib import Path from pathlib import Path
MIN_DATE = datetime.datetime(year=2025, month=2, day=21) MIN_DATE = datetime.datetime(year=2025, month=2, day=21)
MAX_DATE = datetime.datetime(year=2035, month=1, day=1)
def min_date(): def min_date():
# on systemd systems, the default time is the systemd build time # on systemd systems, the default time is the systemd build time
@@ -13,4 +12,4 @@ def min_date():
return MIN_DATE return MIN_DATE
def system_time_valid(): def system_time_valid():
return min_date() < datetime.datetime.now() < MAX_DATE return datetime.datetime.now() > min_date()
common/transformations/.gitignore
+2
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@@ -0,0 +1,2 @@
transformations
transformations.cpp
common/transformations/SConscript
+5
View File
@@ -0,0 +1,5 @@
Import('env', 'envCython')
transformations = env.Library('transformations', ['orientation.cc', 'coordinates.cc'])
transformations_python = envCython.Program('transformations.so', 'transformations.pyx')
Export('transformations', 'transformations_python')
sunnypilot/common/transformations/coordinates.cc → common/transformations/coordinates.cc
+1 -1
View File
@@ -1,6 +1,6 @@
#define _USE_MATH_DEFINES #define _USE_MATH_DEFINES
#include "sunnypilot/common/transformations/coordinates.hpp" #include "common/transformations/coordinates.hpp"
#include <iostream> #include <iostream>
#include <cmath> #include <cmath>
sunnypilot/common/transformations/coordinates.hpp → common/transformations/coordinates.hpp
View File
sunnypilot/common/transformations/orientation.cc → common/transformations/orientation.cc
+3 -2
View File
@@ -4,8 +4,8 @@
#include <cmath> #include <cmath>
#include <eigen3/Eigen/Dense> #include <eigen3/Eigen/Dense>
#include "sunnypilot/common/transformations/orientation.hpp" #include "common/transformations/orientation.hpp"
#include "sunnypilot/common/transformations/coordinates.hpp" #include "common/transformations/coordinates.hpp"
Eigen::Quaterniond ensure_unique(const Eigen::Quaterniond &quat) { Eigen::Quaterniond ensure_unique(const Eigen::Quaterniond &quat) {
if (quat.w() > 0){ if (quat.w() > 0){
@@ -141,3 +141,4 @@ Eigen::Vector3d ned_euler_from_ecef(const ECEF &ecef_init, const Eigen::Vector3d
return {phi, theta, psi}; return {phi, theta, psi};
} }
sunnypilot/common/transformations/orientation.hpp → common/transformations/orientation.hpp
+1 -1
View File
@@ -1,6 +1,6 @@
#pragma once #pragma once
#include <eigen3/Eigen/Dense> #include <eigen3/Eigen/Dense>
#include "sunnypilot/common/transformations/coordinates.hpp" #include "common/transformations/coordinates.hpp"
Eigen::Quaterniond ensure_unique(const Eigen::Quaterniond &quat); Eigen::Quaterniond ensure_unique(const Eigen::Quaterniond &quat);
common/transformations/tests/test_coordinates.py
-33
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@@ -102,36 +102,3 @@ class TestNED:
np.testing.assert_allclose(converter.ned2ecef(ned_offsets_batch), np.testing.assert_allclose(converter.ned2ecef(ned_offsets_batch),
ecef_positions_offset_batch, ecef_positions_offset_batch,
rtol=1e-9, atol=1e-7) rtol=1e-9, atol=1e-7)
def test_errors(self):
# Test wrong shape/type for geodetic2ecef
# numpy_wrap raises IndexError for scalar input
with np.testing.assert_raises(IndexError):
coord.geodetic2ecef(1.0)
with np.testing.assert_raises_regex(ValueError, "Geodetic must be size 3"):
coord.geodetic2ecef([0, 0])
with np.testing.assert_raises_regex(ValueError, "Geodetic must be size 3"):
coord.geodetic2ecef([0, 0, 0, 0])
with np.testing.assert_raises(TypeError):
coord.geodetic2ecef(['a', 'b', 'c'])
# Test LocalCoord constructor errors
with np.testing.assert_raises(ValueError):
coord.LocalCoord.from_geodetic([0, 0])
with np.testing.assert_raises(ValueError):
coord.LocalCoord.from_geodetic(1)
with np.testing.assert_raises(TypeError):
coord.LocalCoord.from_geodetic(['a', 'b', 'c'])
# Test wrong shape/type for ecef2geodetic
with np.testing.assert_raises(ValueError):
coord.ecef2geodetic([1, 2])
with np.testing.assert_raises(ValueError):
coord.ecef2geodetic([1, 2, 3, 4])
with np.testing.assert_raises(IndexError):
coord.ecef2geodetic(1.0)
common/transformations/tests/test_orientation.py
-30
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@@ -1,5 +1,4 @@
import numpy as np import numpy as np
import pytest
from openpilot.common.transformations.orientation import euler2quat, quat2euler, euler2rot, rot2euler, \ from openpilot.common.transformations.orientation import euler2quat, quat2euler, euler2rot, rot2euler, \
rot2quat, quat2rot, \ rot2quat, quat2rot, \
@@ -60,32 +59,3 @@ class TestOrientation:
np.testing.assert_allclose(ned_eulers[i], ned_euler_from_ecef(ecef_positions[i], eulers[i]), rtol=1e-7) np.testing.assert_allclose(ned_eulers[i], ned_euler_from_ecef(ecef_positions[i], eulers[i]), rtol=1e-7)
#np.testing.assert_allclose(eulers[i], ecef_euler_from_ned(ecef_positions[i], ned_eulers[i]), rtol=1e-7) #np.testing.assert_allclose(eulers[i], ecef_euler_from_ned(ecef_positions[i], ned_eulers[i]), rtol=1e-7)
# np.testing.assert_allclose(ned_eulers, ned_euler_from_ecef(ecef_positions, eulers), rtol=1e-7) # np.testing.assert_allclose(ned_eulers, ned_euler_from_ecef(ecef_positions, eulers), rtol=1e-7)
def test_inputs(self):
with pytest.raises(ValueError):
euler2quat([1, 2])
with pytest.raises(ValueError):
quat2rot([1, 2, 3])
with pytest.raises(IndexError):
rot2quat(np.zeros((2, 2)))
def test_euler_rot_consistency(self):
rpy = [0.1, 0.2, 0.3]
R = euler2rot(rpy)
# R -> q -> R
q = rot2quat(R)
R_new = quat2rot(q)
np.testing.assert_allclose(R, R_new, atol=1e-15)
# q -> R -> Euler (quat2euler) -> R
rpy_new = quat2euler(q)
R_new2 = euler2rot(rpy_new)
np.testing.assert_allclose(R, R_new2, atol=1e-15)
# R -> Euler (rot2euler) -> R
rpy_from_rot = rot2euler(R)
R_new3 = euler2rot(rpy_from_rot)
np.testing.assert_allclose(R, R_new3, atol=1e-15)
common/transformations/transformations.pxd
+72
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@@ -0,0 +1,72 @@
# cython: language_level=3
from libcpp cimport bool
cdef extern from "orientation.cc":
pass
cdef extern from "orientation.hpp":
cdef cppclass Quaternion "Eigen::Quaterniond":
Quaternion()
Quaternion(double, double, double, double)
double w()
double x()
double y()
double z()
cdef cppclass Vector3 "Eigen::Vector3d":
Vector3()
Vector3(double, double, double)
double operator()(int)
cdef cppclass Matrix3 "Eigen::Matrix3d":
Matrix3()
Matrix3(double*)
double operator()(int, int)
Quaternion euler2quat(const Vector3 &)
Vector3 quat2euler(const Quaternion &)
Matrix3 quat2rot(const Quaternion &)
Quaternion rot2quat(const Matrix3 &)
Vector3 rot2euler(const Matrix3 &)
Matrix3 euler2rot(const Vector3 &)
Matrix3 rot_matrix(double, double, double)
Vector3 ecef_euler_from_ned(const ECEF &, const Vector3 &)
Vector3 ned_euler_from_ecef(const ECEF &, const Vector3 &)
cdef extern from "coordinates.cc":
cdef struct ECEF:
double x
double y
double z
cdef struct NED:
double n
double e
double d
cdef struct Geodetic:
double lat
double lon
double alt
bool radians
ECEF geodetic2ecef(const Geodetic &)
Geodetic ecef2geodetic(const ECEF &)
cdef cppclass LocalCoord_c "LocalCoord":
Matrix3 ned2ecef_matrix
Matrix3 ecef2ned_matrix
LocalCoord_c(const Geodetic &, const ECEF &)
LocalCoord_c(const Geodetic &)
LocalCoord_c(const ECEF &)
NED ecef2ned(const ECEF &)
ECEF ned2ecef(const NED &)
NED geodetic2ned(const Geodetic &)
Geodetic ned2geodetic(const NED &)
cdef extern from "coordinates.hpp":
pass
common/transformations/transformations.py
-342
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@@ -1,342 +0,0 @@
import numpy as np
# Constants
a = 6378137.0
b = 6356752.3142
esq = 6.69437999014e-3
e1sq = 6.73949674228e-3
def geodetic2ecef_single(g):
"""
Convert geodetic coordinates (latitude, longitude, altitude) to ECEF.
"""
try:
if len(g) != 3:
raise ValueError("Geodetic must be size 3")
except TypeError:
raise ValueError("Geodetic must be a sequence of length 3") from None
lat, lon, alt = g
lat = np.radians(lat)
lon = np.radians(lon)
xi = np.sqrt(1.0 - esq * np.sin(lat)**2)
x = (a / xi + alt) * np.cos(lat) * np.cos(lon)
y = (a / xi + alt) * np.cos(lat) * np.sin(lon)
z = (a / xi * (1.0 - esq) + alt) * np.sin(lat)
return np.array([x, y, z])
def ecef2geodetic_single(e):
"""
Convert ECEF to geodetic coordinates using Ferrari's solution.
"""
x, y, z = e
r = np.sqrt(x**2 + y**2)
Esq = a**2 - b**2
F = 54 * b**2 * z**2
G = r**2 + (1 - esq) * z**2 - esq * Esq
C = (esq**2 * F * r**2) / (G**3)
S = np.cbrt(1 + C + np.sqrt(C**2 + 2 * C))
P = F / (3 * (S + 1 / S + 1)**2 * G**2)
Q = np.sqrt(1 + 2 * esq**2 * P)
r_0 = -(P * esq * r) / (1 + Q) + np.sqrt(0.5 * a**2 * (1 + 1.0 / Q) - P * (1 - esq) * z**2 / (Q * (1 + Q)) - 0.5 * P * r**2)
U = np.sqrt((r - esq * r_0)**2 + z**2)
V = np.sqrt((r - esq * r_0)**2 + (1 - esq) * z**2)
Z_0 = b**2 * z / (a * V)
h = U * (1 - b**2 / (a * V))
lat = np.arctan((z + e1sq * Z_0) / r)
lon = np.arctan2(y, x)
return np.array([np.degrees(lat), np.degrees(lon), h])
def euler2quat_single(euler):
"""
Convert Euler angles (roll, pitch, yaw) to a quaternion.
Rotation order: Z-Y-X (yaw, pitch, roll).
"""
phi, theta, psi = euler
c_phi, s_phi = np.cos(phi / 2), np.sin(phi / 2)
c_theta, s_theta = np.cos(theta / 2), np.sin(theta / 2)
c_psi, s_psi = np.cos(psi / 2), np.sin(psi / 2)
w = c_phi * c_theta * c_psi + s_phi * s_theta * s_psi
x = s_phi * c_theta * c_psi - c_phi * s_theta * s_psi
y = c_phi * s_theta * c_psi + s_phi * c_theta * s_psi
z = c_phi * c_theta * s_psi - s_phi * s_theta * c_psi
if w < 0:
return np.array([-w, -x, -y, -z])
return np.array([w, x, y, z])
def quat2euler_single(q):
"""
Convert a quaternion to Euler angles (roll, pitch, yaw).
"""
w, x, y, z = q
gamma = np.arctan2(2 * (w * x + y * z), 1 - 2 * (x**2 + y**2))
sin_arg = 2 * (w * y - z * x)
sin_arg = np.clip(sin_arg, -1.0, 1.0)
theta = np.arcsin(sin_arg)
psi = np.arctan2(2 * (w * z + x * y), 1 - 2 * (y**2 + z**2))
return np.array([gamma, theta, psi])
def quat2rot_single(q):
"""
Convert a quaternion to a 3x3 rotation matrix.
"""
w, x, y, z = q
xx, yy, zz = x * x, y * y, z * z
xy, xz, yz = x * y, x * z, y * z
wx, wy, wz = w * x, w * y, w * z
mat = np.array([
[1 - 2 * (yy + zz), 2 * (xy - wz), 2 * (xz + wy)],
[2 * (xy + wz), 1 - 2 * (xx + zz), 2 * (yz - wx)],
[2 * (xz - wy), 2 * (yz + wx), 1 - 2 * (xx + yy)]
])
return mat
def rot2quat_single(rot):
"""
Convert a 3x3 rotation matrix to a quaternion.
"""
trace = np.trace(rot)
if trace > 0:
s = 0.5 / np.sqrt(trace + 1.0)
w = 0.25 / s
x = (rot[2, 1] - rot[1, 2]) * s
y = (rot[0, 2] - rot[2, 0]) * s
z = (rot[1, 0] - rot[0, 1]) * s
else:
if rot[0, 0] > rot[1, 1] and rot[0, 0] > rot[2, 2]:
s = 2.0 * np.sqrt(1.0 + rot[0, 0] - rot[1, 1] - rot[2, 2])
w = (rot[2, 1] - rot[1, 2]) / s
x = 0.25 * s
y = (rot[0, 1] + rot[1, 0]) / s
z = (rot[0, 2] + rot[2, 0]) / s
elif rot[1, 1] > rot[2, 2]:
s = 2.0 * np.sqrt(1.0 + rot[1, 1] - rot[0, 0] - rot[2, 2])
w = (rot[0, 2] - rot[2, 0]) / s
x = (rot[0, 1] + rot[1, 0]) / s
y = 0.25 * s
z = (rot[1, 2] + rot[2, 1]) / s
else:
s = 2.0 * np.sqrt(1.0 + rot[2, 2] - rot[0, 0] - rot[1, 1])
w = (rot[1, 0] - rot[0, 1]) / s
x = (rot[0, 2] + rot[2, 0]) / s
y = (rot[1, 2] + rot[2, 1]) / s
z = 0.25 * s
if w < 0:
return np.array([-w, -x, -y, -z])
return np.array([w, x, y, z])
def euler2rot_single(euler):
"""
Convert Euler angles (roll, pitch, yaw) to a 3x3 rotation matrix.
Rotation order: Z-Y-X (yaw, pitch, roll).
"""
phi, theta, psi = euler
cx, sx = np.cos(phi), np.sin(phi)
cy, sy = np.cos(theta), np.sin(theta)
cz, sz = np.cos(psi), np.sin(psi)
Rx = np.array([[1, 0, 0], [0, cx, -sx], [0, sx, cx]])
Ry = np.array([[cy, 0, sy], [0, 1, 0], [-sy, 0, cy]])
Rz = np.array([[cz, -sz, 0], [sz, cz, 0], [0, 0, 1]])
return Rz @ Ry @ Rx
def rot2euler_single(rot):
"""
Convert a 3x3 rotation matrix to Euler angles (roll, pitch, yaw).
"""
return quat2euler_single(rot2quat_single(rot))
def rot_matrix(roll, pitch, yaw):
"""
Create a 3x3 rotation matrix from roll, pitch, and yaw angles.
"""
return euler2rot_single([roll, pitch, yaw])
def axis_angle_to_rot(axis, angle):
"""
Convert an axis-angle representation to a 3x3 rotation matrix.
"""
c = np.cos(angle / 2)
s = np.sin(angle / 2)
q = np.array([c, s*axis[0], s*axis[1], s*axis[2]])
return quat2rot_single(q)
class LocalCoord:
"""
A class to handle conversions between ECEF and local NED coordinates.
"""
def __init__(self, geodetic=None, ecef=None):
"""
Initialize LocalCoord with either geodetic or ECEF coordinates.
"""
if geodetic is not None:
self.init_ecef = geodetic2ecef_single(geodetic)
lat, lon, _ = geodetic
elif ecef is not None:
self.init_ecef = np.array(ecef)
lat, lon, _ = ecef2geodetic_single(ecef)
else:
raise ValueError("Must provide geodetic or ecef")
lat = np.radians(lat)
lon = np.radians(lon)
self.ned2ecef_matrix = np.array([
[-np.sin(lat) * np.cos(lon), -np.sin(lon), -np.cos(lat) * np.cos(lon)],
[-np.sin(lat) * np.sin(lon), np.cos(lon), -np.cos(lat) * np.sin(lon)],
[np.cos(lat), 0, -np.sin(lat)]
])
self.ecef2ned_matrix = self.ned2ecef_matrix.T
@classmethod
def from_geodetic(cls, geodetic):
"""
Create a LocalCoord instance from geodetic coordinates.
"""
return cls(geodetic=geodetic)
@classmethod
def from_ecef(cls, ecef):
"""
Create a LocalCoord instance from ECEF coordinates.
"""
return cls(ecef=ecef)
def ecef2ned_single(self, ecef):
"""
Convert a single ECEF point to NED coordinates relative to the origin.
"""
return self.ecef2ned_matrix @ (ecef - self.init_ecef)
def ned2ecef_single(self, ned):
"""
Convert a single NED point to ECEF coordinates.
"""
return self.ned2ecef_matrix @ ned + self.init_ecef
def geodetic2ned_single(self, geodetic):
"""
Convert a single geodetic point to NED coordinates.
"""
ecef = geodetic2ecef_single(geodetic)
return self.ecef2ned_single(ecef)
def ned2geodetic_single(self, ned):
"""
Convert a single NED point to geodetic coordinates.
"""
ecef = self.ned2ecef_single(ned)
return ecef2geodetic_single(ecef)
@property
def ned_from_ecef_matrix(self):
"""
Returns the rotation matrix from ECEF to NED coordinates.
"""
return self.ecef2ned_matrix
@property
def ecef_from_ned_matrix(self):
"""
Returns the rotation matrix from NED to ECEF coordinates.
"""
return self.ned2ecef_matrix
def ecef_euler_from_ned_single(ecef_init, ned_pose):
"""
Convert NED Euler angles (roll, pitch, yaw) at a given ECEF origin
to equivalent ECEF Euler angles.
"""
converter = LocalCoord(ecef=ecef_init)
zero = np.array(ecef_init)
x0 = converter.ned2ecef_single([1, 0, 0]) - zero
y0 = converter.ned2ecef_single([0, 1, 0]) - zero
z0 = converter.ned2ecef_single([0, 0, 1]) - zero
phi, theta, psi = ned_pose
x1 = axis_angle_to_rot(z0, psi) @ x0
y1 = axis_angle_to_rot(z0, psi) @ y0
z1 = axis_angle_to_rot(z0, psi) @ z0
x2 = axis_angle_to_rot(y1, theta) @ x1
y2 = axis_angle_to_rot(y1, theta) @ y1
z2 = axis_angle_to_rot(y1, theta) @ z1
x3 = axis_angle_to_rot(x2, phi) @ x2
y3 = axis_angle_to_rot(x2, phi) @ y2
x0 = np.array([1.0, 0, 0])
y0 = np.array([0, 1.0, 0])
z0 = np.array([0, 0, 1.0])
psi_out = np.arctan2(np.dot(x3, y0), np.dot(x3, x0))
theta_out = np.arctan2(-np.dot(x3, z0), np.sqrt(np.dot(x3, x0)**2 + np.dot(x3, y0)**2))
y2 = axis_angle_to_rot(z0, psi_out) @ y0
z2 = axis_angle_to_rot(y2, theta_out) @ z0
phi_out = np.arctan2(np.dot(y3, z2), np.dot(y3, y2))
return np.array([phi_out, theta_out, psi_out])
def ned_euler_from_ecef_single(ecef_init, ecef_pose):
"""
Convert ECEF Euler angles (roll, pitch, yaw) at a given ECEF origin
to equivalent NED Euler angles.
"""
converter = LocalCoord(ecef=ecef_init)
x0 = np.array([1.0, 0, 0])
y0 = np.array([0, 1.0, 0])
z0 = np.array([0, 0, 1.0])
phi, theta, psi = ecef_pose
x1 = axis_angle_to_rot(z0, psi) @ x0
y1 = axis_angle_to_rot(z0, psi) @ y0
z1 = axis_angle_to_rot(z0, psi) @ z0
x2 = axis_angle_to_rot(y1, theta) @ x1
y2 = axis_angle_to_rot(y1, theta) @ y1
z2 = axis_angle_to_rot(y1, theta) @ z1
x3 = axis_angle_to_rot(x2, phi) @ x2
y3 = axis_angle_to_rot(x2, phi) @ y2
zero = np.array(ecef_init)
x0 = converter.ned2ecef_single([1, 0, 0]) - zero
y0 = converter.ned2ecef_single([0, 1, 0]) - zero
z0 = converter.ned2ecef_single([0, 0, 1]) - zero
psi_out = np.arctan2(np.dot(x3, y0), np.dot(x3, x0))
theta_out = np.arctan2(-np.dot(x3, z0), np.sqrt(np.dot(x3, x0)**2 + np.dot(x3, y0)**2))
y2 = axis_angle_to_rot(z0, psi_out) @ y0
z2 = axis_angle_to_rot(y2, theta_out) @ z0
phi_out = np.arctan2(np.dot(y3, z2), np.dot(y3, y2))
return np.array([phi_out, theta_out, psi_out])
common/transformations/transformations.pyx
+173
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@@ -0,0 +1,173 @@
# distutils: language = c++
# cython: language_level = 3
from openpilot.common.transformations.transformations cimport Matrix3, Vector3, Quaternion
from openpilot.common.transformations.transformations cimport ECEF, NED, Geodetic
from openpilot.common.transformations.transformations cimport euler2quat as euler2quat_c
from openpilot.common.transformations.transformations cimport quat2euler as quat2euler_c
from openpilot.common.transformations.transformations cimport quat2rot as quat2rot_c
from openpilot.common.transformations.transformations cimport rot2quat as rot2quat_c
from openpilot.common.transformations.transformations cimport euler2rot as euler2rot_c
from openpilot.common.transformations.transformations cimport rot2euler as rot2euler_c
from openpilot.common.transformations.transformations cimport rot_matrix as rot_matrix_c
from openpilot.common.transformations.transformations cimport ecef_euler_from_ned as ecef_euler_from_ned_c
from openpilot.common.transformations.transformations cimport ned_euler_from_ecef as ned_euler_from_ecef_c
from openpilot.common.transformations.transformations cimport geodetic2ecef as geodetic2ecef_c
from openpilot.common.transformations.transformations cimport ecef2geodetic as ecef2geodetic_c
from openpilot.common.transformations.transformations cimport LocalCoord_c
import numpy as np
cimport numpy as np
cdef np.ndarray[double, ndim=2] matrix2numpy(Matrix3 m):
return np.array([
[m(0, 0), m(0, 1), m(0, 2)],
[m(1, 0), m(1, 1), m(1, 2)],
[m(2, 0), m(2, 1), m(2, 2)],
])
cdef Matrix3 numpy2matrix(np.ndarray[double, ndim=2, mode="fortran"] m):
assert m.shape[0] == 3
assert m.shape[1] == 3
return Matrix3(<double*>m.data)
cdef ECEF list2ecef(ecef):
cdef ECEF e
e.x = ecef[0]
e.y = ecef[1]
e.z = ecef[2]
return e
cdef NED list2ned(ned):
cdef NED n
n.n = ned[0]
n.e = ned[1]
n.d = ned[2]
return n
cdef Geodetic list2geodetic(geodetic):
cdef Geodetic g
g.lat = geodetic[0]
g.lon = geodetic[1]
g.alt = geodetic[2]
return g
def euler2quat_single(euler):
cdef Vector3 e = Vector3(euler[0], euler[1], euler[2])
cdef Quaternion q = euler2quat_c(e)
return [q.w(), q.x(), q.y(), q.z()]
def quat2euler_single(quat):
cdef Quaternion q = Quaternion(quat[0], quat[1], quat[2], quat[3])
cdef Vector3 e = quat2euler_c(q)
return [e(0), e(1), e(2)]
def quat2rot_single(quat):
cdef Quaternion q = Quaternion(quat[0], quat[1], quat[2], quat[3])
cdef Matrix3 r = quat2rot_c(q)
return matrix2numpy(r)
def rot2quat_single(rot):
cdef Matrix3 r = numpy2matrix(np.asfortranarray(rot, dtype=np.double))
cdef Quaternion q = rot2quat_c(r)
return [q.w(), q.x(), q.y(), q.z()]
def euler2rot_single(euler):
cdef Vector3 e = Vector3(euler[0], euler[1], euler[2])
cdef Matrix3 r = euler2rot_c(e)
return matrix2numpy(r)
def rot2euler_single(rot):
cdef Matrix3 r = numpy2matrix(np.asfortranarray(rot, dtype=np.double))
cdef Vector3 e = rot2euler_c(r)
return [e(0), e(1), e(2)]
def rot_matrix(roll, pitch, yaw):
return matrix2numpy(rot_matrix_c(roll, pitch, yaw))
def ecef_euler_from_ned_single(ecef_init, ned_pose):
cdef ECEF init = list2ecef(ecef_init)
cdef Vector3 pose = Vector3(ned_pose[0], ned_pose[1], ned_pose[2])
cdef Vector3 e = ecef_euler_from_ned_c(init, pose)
return [e(0), e(1), e(2)]
def ned_euler_from_ecef_single(ecef_init, ecef_pose):
cdef ECEF init = list2ecef(ecef_init)
cdef Vector3 pose = Vector3(ecef_pose[0], ecef_pose[1], ecef_pose[2])
cdef Vector3 e = ned_euler_from_ecef_c(init, pose)
return [e(0), e(1), e(2)]
def geodetic2ecef_single(geodetic):
cdef Geodetic g = list2geodetic(geodetic)
cdef ECEF e = geodetic2ecef_c(g)
return [e.x, e.y, e.z]
def ecef2geodetic_single(ecef):
cdef ECEF e = list2ecef(ecef)
cdef Geodetic g = ecef2geodetic_c(e)
return [g.lat, g.lon, g.alt]
cdef class LocalCoord:
cdef LocalCoord_c * lc
def __init__(self, geodetic=None, ecef=None):
assert (geodetic is not None) or (ecef is not None)
if geodetic is not None:
self.lc = new LocalCoord_c(list2geodetic(geodetic))
elif ecef is not None:
self.lc = new LocalCoord_c(list2ecef(ecef))
@property
def ned2ecef_matrix(self):
return matrix2numpy(self.lc.ned2ecef_matrix)
@property
def ecef2ned_matrix(self):
return matrix2numpy(self.lc.ecef2ned_matrix)
@property
def ned_from_ecef_matrix(self):
return self.ecef2ned_matrix
@property
def ecef_from_ned_matrix(self):
return self.ned2ecef_matrix
@classmethod
def from_geodetic(cls, geodetic):
return cls(geodetic=geodetic)
@classmethod
def from_ecef(cls, ecef):
return cls(ecef=ecef)
def ecef2ned_single(self, ecef):
assert self.lc
cdef ECEF e = list2ecef(ecef)
cdef NED n = self.lc.ecef2ned(e)
return [n.n, n.e, n.d]
def ned2ecef_single(self, ned):
assert self.lc
cdef NED n = list2ned(ned)
cdef ECEF e = self.lc.ned2ecef(n)
return [e.x, e.y, e.z]
def geodetic2ned_single(self, geodetic):
assert self.lc
cdef Geodetic g = list2geodetic(geodetic)
cdef NED n = self.lc.geodetic2ned(g)
return [n.n, n.e, n.d]
def ned2geodetic_single(self, ned):
assert self.lc
cdef NED n = list2ned(ned)
cdef Geodetic g = self.lc.ned2geodetic(n)
return [g.lat, g.lon, g.alt]
def __dealloc__(self):
del self.lc
common/util.cc
+4 -4
View File
@@ -181,9 +181,9 @@ bool file_exists(const std::string& fn) {
} }
static bool createDirectory(std::string dir, mode_t mode) { static bool createDirectory(std::string dir, mode_t mode) {
auto verify_dir = [](const std::string& path) -> bool { auto verify_dir = [](const std::string& dir) -> bool {
struct stat st = {}; struct stat st = {};
return (stat(path.c_str(), &st) == 0 && (st.st_mode & S_IFMT) == S_IFDIR); return (stat(dir.c_str(), &st) == 0 && (st.st_mode & S_IFMT) == S_IFDIR);
}; };
// remove trailing /'s // remove trailing /'s
while (dir.size() > 1 && dir.back() == '/') { while (dir.size() > 1 && dir.back() == '/') {
@@ -288,7 +288,7 @@ std::string strip(const std::string &str) {
std::string check_output(const std::string& command) { std::string check_output(const std::string& command) {
char buffer[128]; char buffer[128];
std::string result; std::string result;
std::unique_ptr<FILE, int(*)(FILE*)> pipe(popen(command.c_str(), "r"), pclose); std::unique_ptr<FILE, decltype(&pclose)> pipe(popen(command.c_str(), "r"), pclose);
if (!pipe) { if (!pipe) {
return ""; return "";
@@ -303,7 +303,7 @@ std::string check_output(const std::string& command) {
bool system_time_valid() { bool system_time_valid() {
// Default to August 26, 2024 // Default to August 26, 2024
tm min_tm = {.tm_mday = 26, .tm_mon = 7, .tm_year = 2024 - 1900}; tm min_tm = {.tm_year = 2024 - 1900, .tm_mon = 7, .tm_mday = 26};
time_t min_date = mktime(&min_tm); time_t min_date = mktime(&min_tm);
struct stat st; struct stat st;
common/util.h
-8
View File
@@ -36,7 +36,6 @@ const double MS_TO_KPH = 3.6;
const double MS_TO_MPH = MS_TO_KPH * KM_TO_MILE; const double MS_TO_MPH = MS_TO_KPH * KM_TO_MILE;
const double METER_TO_MILE = KM_TO_MILE / 1000.0; const double METER_TO_MILE = KM_TO_MILE / 1000.0;
const double METER_TO_FOOT = 3.28084; const double METER_TO_FOOT = 3.28084;
const double METER_TO_KM = 1. / 1000.0;
#define ALIGNED_SIZE(x, align) (((x) + (align)-1) & ~((align)-1)) #define ALIGNED_SIZE(x, align) (((x) + (align)-1) & ~((align)-1))
@@ -97,13 +96,6 @@ bool create_directories(const std::string &dir, mode_t mode);
std::string check_output(const std::string& command); std::string check_output(const std::string& command);
inline void check_system(const std::string& cmd) {
int ret = std::system(cmd.c_str());
if (ret != 0) {
fprintf(stderr, "system command failed (%d): %s\n", ret, cmd.c_str());
}
}
bool system_time_valid(); bool system_time_valid();
inline void sleep_for(const int milliseconds) { inline void sleep_for(const int milliseconds) {
common/util.py
+46
View File
@@ -0,0 +1,46 @@
import os
import subprocess
def sudo_write(val: str, path: str) -> None:
try:
with open(path, 'w') as f:
f.write(str(val))
except PermissionError:
os.system(f"sudo chmod a+w {path}")
try:
with open(path, 'w') as f:
f.write(str(val))
except PermissionError:
# fallback for debugfs files
os.system(f"sudo su -c 'echo {val} > {path}'")
def sudo_read(path: str) -> str:
try:
return subprocess.check_output(f"sudo cat {path}", shell=True, encoding='utf8').strip()
except Exception:
return ""
class MovingAverage:
def __init__(self, window_size: int):
self.window_size: int = window_size
self.buffer: list[float] = [0.0] * window_size
self.index: int = 0
self.count: int = 0
self.sum: float = 0.0
def add_value(self, new_value: float):
# Update the sum: subtract the value being replaced and add the new value
self.sum -= self.buffer[self.index]
self.buffer[self.index] = new_value
self.sum += new_value
# Update the index in a circular manner
self.index = (self.index + 1) % self.window_size
# Track the number of added values (for partial windows)
self.count = min(self.count + 1, self.window_size)
def get_average(self) -> float:
if self.count == 0:
return float('nan')
return self.sum / self.count
common/utils.py
+5 -159
View File
@@ -7,82 +7,14 @@ import time
import functools import functools
from subprocess import Popen, PIPE, TimeoutExpired from subprocess import Popen, PIPE, TimeoutExpired
import zstandard as zstd import zstandard as zstd
from openpilot.common.swaglog import cloudlog
LOG_COMPRESSION_LEVEL = 10 # little benefit up to level 15. level ~17 is a small step change LOG_COMPRESSION_LEVEL = 10 # little benefit up to level 15. level ~17 is a small step change
class Timer:
"""Simple lap timer for profiling sequential operations."""
def __init__(self):
self._start = self._lap = time.monotonic()
self._sections = {}
def lap(self, name):
now = time.monotonic()
self._sections[name] = now - self._lap
self._lap = now
@property
def total(self):
return time.monotonic() - self._start
def fmt(self, duration):
parts = ", ".join(f"{k}={v:.2f}s" + (f" ({duration/v:.0f}x)" if k == 'render' and v > 0 else "") for k, v in self._sections.items())
total = self.total
realtime = f"{duration/total:.1f}x realtime" if total > 0 else "N/A"
return f"{duration}s in {total:.1f}s ({realtime}) | {parts}"
def sudo_write(val: str, path: str) -> None:
try:
with open(path, 'w') as f:
f.write(str(val))
except PermissionError:
os.system(f"sudo chmod a+w {path}")
try:
with open(path, 'w') as f:
f.write(str(val))
except PermissionError:
# fallback for debugfs files
os.system(f"sudo su -c 'echo {val} > {path}'")
def sudo_read(path: str) -> str:
try:
return subprocess.check_output(["sudo", "cat", "--", path], encoding='utf8').strip()
except Exception:
return ""
class MovingAverage:
def __init__(self, window_size: int):
self.window_size: int = window_size
self.buffer: list[float] = [0.0] * window_size
self.index: int = 0
self.count: int = 0
self.sum: float = 0.0
def add_value(self, new_value: float):
# Update the sum: subtract the value being replaced and add the new value
self.sum -= self.buffer[self.index]
self.buffer[self.index] = new_value
self.sum += new_value
# Update the index in a circular manner
self.index = (self.index + 1) % self.window_size
# Track the number of added values (for partial windows)
self.count = min(self.count + 1, self.window_size)
def get_average(self) -> float:
if self.count == 0:
return float('nan')
return self.sum / self.count
class CallbackReader: class CallbackReader:
"""Wraps a file, but overrides the read method to also """Wraps a file, but overrides the read method to also
call a callback function with the number of bytes read so far.""" call a callback function with the number of bytes read so far."""
def __init__(self, f, callback, *args): def __init__(self, f, callback, *args):
self.f = f self.f = f
self.callback = callback self.callback = callback
@@ -131,11 +63,11 @@ def get_upload_stream(filepath: str, should_compress: bool) -> tuple[io.Buffered
return compressed_stream, compressed_size return compressed_stream, compressed_size
# remove all keys that end in DEPRECATED, plus any "deprecated" group # remove all keys that end in DEPRECATED
def strip_deprecated_keys(d): def strip_deprecated_keys(d):
for k in list(d.keys()): for k in list(d.keys()):
if isinstance(k, str): if isinstance(k, str):
if k.endswith('DEPRECATED') or k == 'deprecated': if k.endswith('DEPRECATED'):
d.pop(k) d.pop(k)
elif isinstance(d[k], dict): elif isinstance(d[k], dict):
strip_deprecated_keys(d[k]) strip_deprecated_keys(d[k])
@@ -167,92 +99,6 @@ def managed_proc(cmd: list[str], env: dict[str, str]):
proc.kill() proc.kill()
def tabulate(tabular_data, headers=(), tablefmt="simple", floatfmt="g", stralign="left", numalign=None):
rows = [list(row) for row in tabular_data]
def fmt(val):
if isinstance(val, str):
return val
if isinstance(val, (bool, int)):
return str(val)
try:
return format(val, floatfmt)
except (TypeError, ValueError):
return str(val)
formatted = [[fmt(c) for c in row] for row in rows]
hdrs = [str(h) for h in headers] if headers else None
ncols = max((len(r) for r in formatted), default=0)
if hdrs:
ncols = max(ncols, len(hdrs))
if ncols == 0:
return ""
for r in formatted:
r.extend([""] * (ncols - len(r)))
if hdrs:
hdrs.extend([""] * (ncols - len(hdrs)))
widths = [0] * ncols
if hdrs:
for i in range(ncols):
widths[i] = len(hdrs[i])
for row in formatted:
for i in range(ncols):
widths[i] = max(widths[i], max(len(ln) for ln in row[i].split('\n')))
def _align(s, w):
if stralign == "center":
return s.center(w)
return s.ljust(w)
if tablefmt == "html":
parts = ["<table>"]
if hdrs:
parts.append("<thead>")
parts.append("<tr>" + "".join(f"<th>{h}</th>" for h in hdrs) + "</tr>")
parts.append("</thead>")
parts.append("<tbody>")
for row in formatted:
parts.append("<tr>" + "".join(f"<td>{c}</td>" for c in row) + "</tr>")
parts.append("</tbody>")
parts.append("</table>")
return "\n".join(parts)
if tablefmt == "simple_grid":
def _sep(left, mid, right):
return left + mid.join("\u2500" * (w + 2) for w in widths) + right
top, mid_sep, bot = _sep("\u250c", "\u252c", "\u2510"), _sep("\u251c", "\u253c", "\u2524"), _sep("\u2514", "\u2534", "\u2518")
def _fmt_row(cells):
split = [c.split('\n') for c in cells]
nlines = max(len(s) for s in split)
for s in split:
s.extend([""] * (nlines - len(s)))
return ["\u2502" + "\u2502".join(f" {_align(split[i][li], widths[i])} " for i in range(ncols)) + "\u2502" for li in range(nlines)]
lines = [top]
if hdrs:
lines.extend(_fmt_row(hdrs))
lines.append(mid_sep)
for ri, row in enumerate(formatted):
lines.extend(_fmt_row(row))
lines.append(mid_sep if ri < len(formatted) - 1 else bot)
return "\n".join(lines)
# simple
gap = " "
lines = []
if hdrs:
lines.append(gap.join(h.ljust(w) for h, w in zip(hdrs, widths, strict=True)))
lines.append(gap.join("-" * w for w in widths))
for row in formatted:
lines.append(gap.join(_align(row[i], widths[i]) for i in range(ncols)))
return "\n".join(lines)
def retry(attempts=3, delay=1.0, ignore_failure=False): def retry(attempts=3, delay=1.0, ignore_failure=False):
def decorator(func): def decorator(func):
@functools.wraps(func) @functools.wraps(func)
@@ -261,11 +107,11 @@ def retry(attempts=3, delay=1.0, ignore_failure=False):
try: try:
return func(*args, **kwargs) return func(*args, **kwargs)
except Exception: except Exception:
print(f"{func.__name__} failed, trying again") cloudlog.exception(f"{func.__name__} failed, trying again")
time.sleep(delay) time.sleep(delay)
if ignore_failure: if ignore_failure:
print(f"{func.__name__} failed after retry") cloudlog.error(f"{func.__name__} failed after retry")
else: else:
raise Exception(f"{func.__name__} failed after retry") raise Exception(f"{func.__name__} failed after retry")
return wrapper return wrapper
common/version.h
+1 -1
View File
@@ -1 +1 @@
#define COMMA_VERSION "0.11.2" #define COMMA_VERSION "0.10.3"

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