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

2 Commits
v0.7.3-zhs .. deprecated-release2_e2e

Author SHA1 Message Date
eFini 58811ffdeb Update CHANGELOGS.md 2023-02-08 13:07:53 +08:00
Dragonpilot Team 811fd5086f dragonpilot v2023.02.08 for EON/C2 
version: dragonpilot v2023.02.08 release for EON/C2
date: 2023-02-08T05:01:31
dp-dev(priv2) beta2 commit: f770882b7f
 2023-02-08 05:04:53 +00:00
3102 changed files with 482848 additions and 468197 deletions
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.github/ISSUE_TEMPLATE/bug_report.md
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---
name: Bug report
about: Create a report to help us improve openpilot
title: ''
labels: 'bug'
assignees: ''
---
**Describe the bug**
A clear and concise description of what the bug is.
**How to reproduce or log data**
Steps to reproduce the behavior, or a explorer/cabana link to the exact drive and timestamp of when the bug occurred.
**Expected behavior**
A clear and concise description of what you expected to happen.
**Device/Version information (please complete the following information):**
- Device: [e.g. EON/EON Gold]
- Version: [e.g. 0.6.4], or commit hash when on devel
- Car make/model [e.g. Toyota Prius 2016]
**Additional context**
Add any other context about the problem here.
.github/pull_request_template.md
-21
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@@ -1,21 +0,0 @@
Choose one of the templates below:
# Fingerprint
This pull requests adds a fingerprint for <Make - Model - Year - Trim>.
This is an explorer link to a drive with the stock system enabled: ...
# Car support
This pull requests adds support for <Make - Model - Year - Trim>.
This is an explorer link to a drive with the stock system enabled: ...
This is an explorer link to a drive with openpilot system enabled: ...
# Feature
This pull requests adds feature X
## Description
Explain what the feature does
## Testing
Explain how the feature was tested. Either by the added unit tests, or what tests were performed while driving.
.gitignore
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venv/
.env
.clang-format
.DS_Store
.tags
.ipynb_checkpoints
@@ -6,9 +8,10 @@ venv/
.overlay_init
.overlay_consistent
.sconsign.dblite
.vscode
.vscode*
model2.png
a.out
.hypothesis
*.dylib
*.DSYM
@@ -20,7 +23,9 @@ a.out
.*.un~
*.tmp
*.o
*.o-*
*.os
*.os-*
*.so
*.a
*.clb
@@ -29,21 +34,23 @@ a.out
*.vcd
config.json
clcache
compile_commands.json
persist
board/obj/
selfdrive/boardd/boardd
selfdrive/logcatd/logcatd
selfdrive/mapd/default_speeds_by_region.json
selfdrive/proclogd/proclogd
system/proclogd/proclogd
selfdrive/ui/_ui
selfdrive/test/longitudinal_maneuvers/out
selfdrive/visiond/visiond
selfdrive/loggerd/loggerd
selfdrive/sensord/_gpsd
selfdrive/sensord/_sensord
selfdrive/camerad/camerad
system/camerad/camerad
system/camerad/test/ae_gray_test
selfdrive/modeld/_modeld
selfdrive/modeld/_navmodeld
selfdrive/modeld/_dmonitoringmodeld
/src/
@@ -51,9 +58,30 @@ one
openpilot
notebooks
xx
yy
hyperthneed
panda_jungle
provisioning
.coverage*
coverage.xml
htmlcov
pandaextra
.mypy_cache/
flycheck_*
cppcheck_report.txt
comma*.sh
selfdrive/modeld/thneed/compile
selfdrive/modeld/models/*.thneed
*.bz2
build/
!**/.gitkeep
poetry.toml
selfdrive/ui/_ui_nonav
CHANGELOGS.md
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CONTRIBUTING.md
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# How to contribute
Our software is open source so you can solve your own problems without needing help from others. And if you solve a problem and are so kind, you can upstream it for the rest of the world to use.
Most open source development activity is coordinated through our [Discord](https://discord.comma.ai). A lot of documentation is available on our [medium](https://medium.com/@comma_ai/)
## Getting Started
* Join our [Discord](https://discord.comma.ai)
* Make sure you have a [GitHub account](https://github.com/signup/free)
* Fork [our repositories](https://github.com/commaai) on GitHub
## Testing
### Local Testing
You can test your changes on your machine by running `run_docker_tests.sh`. This will run some automated tests in docker against your code.
### Automated Testing
All PRs are automatically checked by travis. Check out `.travis.yml` for what travis runs. Any new tests sould be added to travis.
### Code Style and Linting
Code is automatically check for style by travis as part of the automated tests. You can also run these yourself by running `check_code_quality.sh`.
## Car Ports (openpilot)
We've released a [Model Port guide](https://medium.com/@comma_ai/openpilot-port-guide-for-toyota-models-e5467f4b5fe6) for porting to Toyota/Lexus models.
If you port openpilot to a substantially new car brand, see this more generic [Brand Port guide](https://medium.com/@comma_ai/how-to-write-a-car-port-for-openpilot-7ce0785eda84). You might also be eligible for a bounty. See our bounties at [comma.ai/bounties.html](https://comma.ai/bounties.html)
## Pull Requests
Pull requests should be against the master branch. Before running master on in-car hardware, you'll need to run
```
git submodule init
git submodule update
```
in order to pull down the submodules, such as `panda` and `opendbc`.
README.md
Regular → Executable
+80 -239
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@@ -1,21 +1,14 @@
[![](https://i.imgur.com/UelUjKAh.png)](#)
![](https://i.imgur.com/b0ZyIx5.jpg)
Table of Contents
=======================
* [What is openpilot?](#what-is-openpilot)
* [Integration with Stock Features](#integration-with-stock-features)
* [Supported Hardware](#supported-hardware)
* [Supported Cars](#supported-cars)
* [Community Maintained Cars and Features](#community-maintained-cars-and-features)
* [Installation Instructions](#installation-instructions)
* [Limitations of openpilot ALC and LDW](#limitations-of-openpilot-alc-and-ldw)
* [Limitations of openpilot ACC and FCW](#limitations-of-openpilot-acc-and-fcw)
* [Limitations of openpilot DM](#limitations-of-openpilot-dm)
* [Running in a car](#running-on-a-dedicated-device-in-a-car)
* [Running on PC](#running-on-pc)
* [Community and Contributing](#community-and-contributing)
* [User Data and comma Account](#user-data-and-comma-account)
* [Safety and Testing](#safety-and-testing)
* [Testing on PC](#testing-on-pc)
* [Community and Contributing](#community-and-contributing)
* [Directory Structure](#directory-structure)
* [Licensing](#licensing)
@@ -24,280 +17,122 @@ Table of Contents
What is openpilot?
------
[openpilot](http://github.com/commaai/openpilot) is an open source driver assistance system. Currently, openpilot performs the functions of Adaptive Cruise Control (ACC), Automated Lane Centering (ALC), Forward Collision Warning (FCW) and Lane Departure Warning (LDW) for a growing variety of supported [car makes, models and model years](#supported-cars). In addition, while openpilot is engaged, a camera based Driver Monitoring (DM) feature alerts distracted and asleep drivers.
[openpilot](http://github.com/commaai/openpilot) is an open source driver assistance system. Currently, openpilot performs the functions of Adaptive Cruise Control (ACC), Automated Lane Centering (ALC), Forward Collision Warning (FCW), and Lane Departure Warning (LDW) for a growing variety of [supported car makes, models, and model years](docs/CARS.md). In addition, while openpilot is engaged, a camera-based Driver Monitoring (DM) feature alerts distracted and asleep drivers. See more about [the vehicle integration](docs/INTEGRATION.md) and [limitations](docs/LIMITATIONS.md).
<table>
<tr>
<td><a href="https://www.youtube.com/watch?v=mgAbfr42oI8" title="YouTube" rel="noopener"><img src="https://i.imgur.com/kAtT6Ei.png"></a></td>
<td><a href="https://www.youtube.com/watch?v=394rJKeh76k" title="YouTube" rel="noopener"><img src="https://i.imgur.com/lTt8cS2.png"></a></td>
<td><a href="https://www.youtube.com/watch?v=1iNOc3cq8cs" title="YouTube" rel="noopener"><img src="https://i.imgur.com/ANnuSpe.png"></a></td>
<td><a href="https://www.youtube.com/watch?v=Vr6NgrB-zHw" title="YouTube" rel="noopener"><img src="https://i.imgur.com/Qypanuq.png"></a></td>
<td><a href="https://youtu.be/NmBfgOanCyk" title="Video By Greer Viau"><img src="https://i.imgur.com/1w8c6d2.jpg"></a></td>
<td><a href="https://youtu.be/VHKyqZ7t8Gw" title="Video By Logan LeGrand"><img src="https://i.imgur.com/LnBucik.jpg"></a></td>
<td><a href="https://youtu.be/VxiR4iyBruo" title="Video By Charlie Kim"><img src="https://i.imgur.com/4Qoy48c.jpg"></a></td>
<td><a href="https://youtu.be/-IkImTe1NYE" title="Video By Aragon"><img src="https://i.imgur.com/04VNzPf.jpg"></a></td>
</tr>
<tr>
<td><a href="https://www.youtube.com/watch?v=Ug41KIKF0oo" title="YouTube" rel="noopener"><img src="https://i.imgur.com/3caZ7xM.png"></a></td>
<td><a href="https://www.youtube.com/watch?v=NVR_CdG1FRg" title="YouTube" rel="noopener"><img src="https://i.imgur.com/bAZOwql.png"></a></td>
<td><a href="https://www.youtube.com/watch?v=tkEvIdzdfUE" title="YouTube" rel="noopener"><img src="https://i.imgur.com/EFINEzG.png"></a></td>
<td><a href="https://www.youtube.com/watch?v=_P-N1ewNne4" title="YouTube" rel="noopener"><img src="https://i.imgur.com/gAyAq22.png"></a></td>
<td><a href="https://youtu.be/iIUICQkdwFQ" title="Video By Logan LeGrand"><img src="https://i.imgur.com/b1LHQTy.jpg"></a></td>
<td><a href="https://youtu.be/XOsa0FsVIsg" title="Video By PinoyDrives"><img src="https://i.imgur.com/6FG0Bd8.jpg"></a></td>
<td><a href="https://youtu.be/bCwcJ98R_Xw" title="Video By JS"><img src="https://i.imgur.com/zO18CbW.jpg"></a></td>
<td><a href="https://youtu.be/BQ0tF3MTyyc" title="Video By Tsai-Fi"><img src="https://i.imgur.com/eZzelq3.jpg"></a></td>
</tr>
</table>
Integration with Stock Features
Running on a dedicated device in a car
------
In all supported cars:
* Stock Lane Keep Assist (LKA) and stock ALC are replaced by openpilot ALC, which only functions when openpilot is engaged by the user.
* Stock LDW is replaced by openpilot LDW.
To use openpilot in a car, you need four things
* A supported device to run this software: a [comma three](https://comma.ai/shop/products/three).
* This software. The setup procedure of the comma three allows the user to enter a URL for custom software.
The URL, openpilot.comma.ai will install the release version of openpilot. To install openpilot master, you can use installer.comma.ai/commaai/master, and replacing commaai with another GitHub username can install a fork.
* One of [the 200+ supported cars](docs/CARS.md). We support Honda, Toyota, Hyundai, Nissan, Kia, Chrysler, Lexus, Acura, Audi, VW, and more. If your car is not supported but has adaptive cruise control and lane-keeping assist, it's likely able to run openpilot.
* A [car harness](https://comma.ai/shop/products/car-harness) to connect to your car.
Additionally, on specific supported cars (see ACC column in [supported cars](#supported-cars)):
* Stock ACC is replaced by openpilot ACC.
* openpilot FCW operates in addition to stock FCW.
We have detailed instructions for [how to mount the device in a car](https://comma.ai/setup).
openpilot should preserve all other vehicle's stock features, including, but are not limited to: FCW, Automatic Emergency Braking (AEB), auto high-beam, blind spot warning, and side collision warning.
Supported Hardware
Running on PC
------
At the moment, openpilot supports the [EON DevKit](https://comma.ai/shop/products/eon-dashcam-devkit) and the [comma two](https://comma.ai/shop/products/comma-two-devkit). A [car harness](https://comma.ai/shop/products/car-harness) is recommended to connect the EON or comma two to the car. In the future, we'd like to support other platforms as well, like gaming PCs.
All openpilot services can run as usual on a PC without requiring special hardware or a car. You can also run openpilot on recorded or simulated data to develop or experiment with openpilot.
Supported Cars
------
With openpilot's tools, you can plot logs, replay drives, and watch the full-res camera streams. See [the tools README](tools/README.md) for more information.
| Make | Model (US Market Reference) | Supported Package | ACC | No ACC accel below | No ALC below |
| ----------| ------------------------------| ------------------| -----------------| -------------------| -------------|
| Acura | ILX 2016-18 | AcuraWatch Plus | openpilot | 25mph<sup>5</sup> | 25mph |
| Acura | RDX 2016-18 | AcuraWatch Plus | openpilot | 25mph<sup>5</sup> | 12mph |
| Chrysler | Pacifica 2017-18 | Adaptive Cruise | Stock | 0mph | 9mph |
| Chrysler | Pacifica Hybrid 2017-18 | Adaptive Cruise | Stock | 0mph | 9mph |
| Chrysler | Pacifica Hybrid 2019-20 | Adaptive Cruise | Stock | 0mph | 39mph |
| Honda | Accord 2018-19 | All | Stock | 0mph | 3mph |
| Honda | Accord Hybrid 2018-19 | All | Stock | 0mph | 3mph |
| Honda | Civic Hatchback 2017-19 | Honda Sensing | Stock | 0mph | 12mph |
| Honda | Civic Sedan/Coupe 2016-18 | Honda Sensing | openpilot | 0mph | 12mph |
| Honda | Civic Sedan/Coupe 2019 | Honda Sensing | Stock | 0mph | 2mph |
| Honda | CR-V 2015-16 | Touring | openpilot | 25mph<sup>5</sup> | 12mph |
| Honda | CR-V 2017-19 | Honda Sensing | Stock | 0mph | 12mph |
| Honda | CR-V Hybrid 2017-2019 | Honda Sensing | Stock | 0mph | 12mph |
| Honda | Fit 2018-19 | Honda Sensing | openpilot | 25mph<sup>5</sup> | 12mph |
| Honda | Odyssey 2018-20 | Honda Sensing | openpilot | 25mph<sup>5</sup> | 0mph |
| Honda | Passport 2019 | All | openpilot | 25mph<sup>5</sup> | 12mph |
| Honda | Pilot 2016-18 | Honda Sensing | openpilot | 25mph<sup>5</sup> | 12mph |
| Honda | Pilot 2019 | All | openpilot | 25mph<sup>5</sup> | 12mph |
| Honda | Ridgeline 2017-19 | Honda Sensing | openpilot | 25mph<sup>5</sup> | 12mph |
| Hyundai | Elantra 2017-19<sup>1</sup> | SCC + LKAS | Stock | 19mph | 34mph |
| Hyundai | Genesis 2018<sup>1</sup> | All | Stock | 19mph | 34mph |
| Hyundai | Santa Fe 2019<sup>1</sup> | All | Stock | 0mph | 0mph |
| Jeep | Grand Cherokee 2016-18 | Adaptive Cruise | Stock | 0mph | 9mph |
| Jeep | Grand Cherokee 2019 | Adaptive Cruise | Stock | 0mph | 39mph |
| Kia | Optima 2019<sup>1</sup> | SCC + LKAS | Stock | 0mph | 0mph |
| Kia | Sorento 2018<sup>1</sup> | All | Stock | 0mph | 0mph |
| Kia | Stinger 2018<sup>1</sup> | SCC + LKAS | Stock | 0mph | 0mph |
| Lexus | CT Hybrid 2017-18 | All | Stock<sup>4</sup>| 0mph | 0mph |
| Lexus | ES 2019 | All | openpilot | 0mph | 0mph |
| Lexus | ES Hybrid 2019 | All | openpilot | 0mph | 0mph |
| Lexus | IS 2017-2019 | All | Stock | 22mph | 0mph |
| Lexus | IS Hybrid 2017 | All | Stock | 0mph | 0mph |
| Lexus | NX Hybrid 2018 | All | Stock<sup>4</sup>| 0mph | 0mph |
| Lexus | RX 2016-17 | All | Stock<sup>4</sup>| 0mph | 0mph |
| Lexus | RX 2020 | All | openpilot | 0mph | 0mph |
| Lexus | RX Hybrid 2016-19 | All | Stock<sup>4</sup>| 0mph | 0mph |
| Subaru | Crosstrek 2018-19 | EyeSight | Stock | 0mph | 0mph |
| Subaru | Impreza 2019-20 | EyeSight | Stock | 0mph | 0mph |
| Toyota | Avalon 2016 | TSS-P | Stock<sup>4</sup>| 20mph<sup>5</sup> | 0mph |
| Toyota | Avalon 2017-18 | All | Stock<sup>4</sup>| 20mph<sup>5</sup> | 0mph |
| Toyota | Camry 2018-19 | All | Stock | 0mph<sup>2</sup> | 0mph |
| Toyota | Camry Hybrid 2018-19 | All | Stock | 0mph<sup>2</sup> | 0mph |
| Toyota | C-HR 2017-19 | All | Stock | 0mph | 0mph |
| Toyota | C-HR Hybrid 2017-19 | All | Stock | 0mph | 0mph |
| Toyota | Corolla 2017-19 | All | Stock<sup>4</sup>| 20mph<sup>5</sup> | 0mph |
| Toyota | Corolla 2020 | All | openpilot | 0mph | 0mph |
| Toyota | Corolla Hatchback 2019-20 | All | openpilot | 0mph | 0mph |
| Toyota | Corolla Hybrid 2020 | All | openpilot | 0mph | 0mph |
| Toyota | Highlander 2017-19 | All | Stock<sup>4</sup>| 0mph | 0mph |
| Toyota | Highlander Hybrid 2017-19 | All | Stock<sup>4</sup>| 0mph | 0mph |
| Toyota | Highlander 2020 | All | openpilot | 0mph | 0mph |
| Toyota | Prius 2016 | TSS-P | Stock<sup>4</sup>| 0mph | 0mph |
| Toyota | Prius 2017-19 | All | Stock<sup>4</sup>| 0mph | 0mph |
| Toyota | Prius Prime 2017-20 | All | Stock<sup>4</sup>| 0mph | 0mph |
| Toyota | Rav4 2016 | TSS-P | Stock<sup>4</sup>| 20mph<sup>5</sup> | 0mph |
| Toyota | Rav4 2017-18 | All | Stock<sup>4</sup>| 20mph<sup>5</sup> | 0mph |
| Toyota | Rav4 2019 | All | openpilot | 0mph | 0mph |
| Toyota | Rav4 Hybrid 2016 | TSS-P | Stock<sup>4</sup>| 0mph | 0mph |
| Toyota | Rav4 Hybrid 2017-18 | All | Stock<sup>4</sup>| 0mph | 0mph |
| Toyota | Rav4 Hybrid 2019-20 | All | openpilot | 0mph | 0mph |
| Toyota | Sienna 2018 | All | Stock<sup>4</sup>| 0mph | 0mph |
| Volkswagen| Golf 2016-19<sup>3</sup> | Driver Assistance | Stock | 0mph | 0mph |
You can also run openpilot in simulation [with the CARLA simulator](tools/sim/README.md). This allows openpilot to drive around a virtual car on your Ubuntu machine. The whole setup should only take a few minutes but does require a decent GPU.
<sup>1</sup>Requires a [panda](https://comma.ai/shop/products/panda-obd-ii-dongle) and open sourced [Hyundai giraffe](https://github.com/commaai/neo/tree/master/giraffe/hyundai), designed for the 2019 Sante Fe; pinout may differ for other Hyundai and Kia models. <br />
<sup>2</sup>28mph for Camry 4CYL L, 4CYL LE and 4CYL SE which don't have Full-Speed Range Dynamic Radar Cruise Control. <br />
<sup>3</sup>Requires a [custom connector](https://community.comma.ai/wiki/index.php/Volkswagen#Integration_at_R242_Camera) for the [car harness](https://comma.ai/shop/products/car-harness) <br />
Community Maintained Cars and Features
------
| Make | Model (US Market Reference) | Supported Package | ACC | No ACC accel below | No ALC below |
| ----------| ------------------------------| ------------------| -----------------| -------------------| -------------|
| Buick | Regal 2018<sup>6</sup> | Adaptive Cruise | openpilot | 0mph | 7mph |
| Cadillac | ATS 2018<sup>6</sup> | Adaptive Cruise | openpilot | 0mph | 7mph |
| Chevrolet | Malibu 2017<sup>6</sup> | Adaptive Cruise | openpilot | 0mph | 7mph |
| Chevrolet | Volt 2017-18<sup>6</sup> | Adaptive Cruise | openpilot | 0mph | 7mph |
| GMC | Acadia Denali 2018<sup>6</sup>| Adaptive Cruise | openpilot | 0mph | 7mph |
| Holden | Astra 2017<sup>6</sup> | Adaptive Cruise | openpilot | 0mph | 7mph |
<sup>4</sup>When disconnecting the Driver Support Unit (DSU), openpilot ACC will replace stock ACC. For DSU locations, see [Toyota Wiki page](https://community.comma.ai/wiki/index.php/Toyota). ***NOTE: disconnecting the DSU disables Automatic Emergency Braking (AEB).*** <br />
<sup>5</sup>[Comma Pedal](https://community.comma.ai/wiki/index.php/Comma_Pedal) is used to provide stop-and-go capability to some of the openpilot-supported cars that don't currently support stop-and-go. Here is how to [build a Comma Pedal](https://medium.com/@jfrux/comma-pedal-building-with-macrofab-6328bea791e8). ***NOTE: The Comma Pedal is not officially supported by [comma](https://comma.ai).*** <br />
<sup>6</sup>Requires a [panda](https://comma.ai/shop/products/panda-obd-ii-dongle) and [community built giraffe](https://zoneos.com/volt/). ***NOTE: disconnecting the ASCM disables Automatic Emergency Braking (AEB).*** <br />
Community Maintained Cars and Features are not verified by comma to meet our [safety model](SAFETY.md). Be extra cautious using them. They are only available after enabling the toggle in `Settings->Developer->Enable Community Features`.
Installation Instructions
------
Install openpilot on a EON by entering ``https://openpilot.comma.ai`` during the installer setup.
Follow this [video instructions](https://youtu.be/3nlkomHathI) to properly mount the EON on the windshield. Note: openpilot features an automatic pose calibration routine and openpilot performance should not be affected by small pitch and yaw misalignments caused by imprecise EON mounting.
Before placing the device on your windshield, check the state and local laws and ordinances where you drive. Some state laws prohibit or restrict the placement of objects on the windshield of a motor vehicle.
You will be able to engage openpilot after reviewing the onboarding screens and finishing the calibration procedure.
Limitations of openpilot ALC and LDW
------
openpilot ALC and openpilot LDW do not automatically drive the vehicle or reduce the amount of attention that must be paid to operate your vehicle. The driver must always keep control of the steering wheel and be ready to correct the openpilot ALC action at all times.
While changing lanes, openpilot is not capable of looking next to you or checking your blind spot. Only nudge the wheel to initiate a lane change after you have confirmed it's safe to do so.
Many factors can impact the performance of openpilot ALC and openpilot LDW, causing them to be unable to function as intended. These include, but are not limited to:
* Poor visibility (heavy rain, snow, fog, etc.) or weather conditions that may interfere with sensor operation.
* The road facing camera is obstructed, covered or damaged by mud, ice, snow, etc.
* Obstruction caused by applying excessive paint or adhesive products (such as wraps, stickers, rubber coating, etc.) onto the vehicle.
* The EON is mounted incorrectly.
* When in sharp curves, like on-off ramps, intersections etc...; openpilot is designed to be limited in the amount of steering torque it can produce.
* In the presence of restricted lanes or construction zones.
* When driving on highly banked roads or in presence of strong cross-wind.
* Extremely hot or cold temperatures.
* Bright light (due to oncoming headlights, direct sunlight, etc.).
* Driving on hills, narrow, or winding roads.
The list above does not represent an exhaustive list of situations that may interfere with proper operation of openpilot components. It is the driver's responsibility to be in control of the vehicle at all times.
Limitations of openpilot ACC and FCW
------
openpilot ACC and openpilot FCW are not systems that allow careless or inattentive driving. It is still necessary for the driver to pay close attention to the vehicles surroundings and to be ready to re-take control of the gas and the brake at all times.
Many factors can impact the performance of openpilot ACC and openpilot FCW, causing them to be unable to function as intended. These include, but are not limited to:
* Poor visibility (heavy rain, snow, fog, etc.) or weather conditions that may interfere with sensor operation.
* The road facing camera or radar are obstructed, covered, or damaged by mud, ice, snow, etc.
* Obstruction caused by applying excessive paint or adhesive products (such as wraps, stickers, rubber coating, etc.) onto the vehicle.
* The EON is mounted incorrectly.
* Approaching a toll booth, a bridge or a large metal plate.
* When driving on roads with pedestrians, cyclists, etc...
* In presence of traffic signs or stop lights, which are not detected by openpilot at this time.
* When the posted speed limit is below the user selected set speed. openpilot does not detect speed limits at this time.
* In presence of vehicles in the same lane that are not moving.
* When abrupt braking maneuvers are required. openpilot is designed to be limited in the amount of deceleration and acceleration that it can produce.
* When surrounding vehicles perform close cut-ins from neighbor lanes.
* Driving on hills, narrow, or winding roads.
* Extremely hot or cold temperatures.
* Bright light (due to oncoming headlights, direct sunlight, etc.).
* Interference from other equipment that generates radar waves.
The list above does not represent an exhaustive list of situations that may interfere with proper operation of openpilot components. It is the driver's responsibility to be in control of the vehicle at all times.
Limitations of openpilot DM
------
openpilot DM should not be considered an exact measurements of the status of alertness of the driver.
Many factors can impact the performance of openpilot DM, causing it to be unable to function as intended. These include, but are not limited to:
* Low light conditions, such as driving at night or in dark tunnels.
* Bright light (due to oncoming headlights, direct sunlight, etc.).
* The driver face is partially or completely outside field of view of the driver facing camera.
* Right hand driving vehicles.
* The driver facing camera is obstructed, covered, or damaged.
The list above does not represent an exhaustive list of situations that may interfere with proper operation of openpilot components. A driver should not rely on openpilot DM to assess their level of attention.
User Data and comma Account
------
By default, openpilot uploads the driving data to our servers. You can also access your data by pairing with the comma connect app ([iOS](https://apps.apple.com/us/app/comma-connect/id1456551889), [Android](https://play.google.com/store/apps/details?id=ai.comma.connect&hl=en_US)). 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 camera, CAN, GPS, IMU, magnetometer, thermal sensors, crashes, and operating system logs.
The driver facing camera is only logged if you explicitly opt-in in settings. The microphone is not recorded.
By using openpilot, you agree to [our Privacy Policy](https://my.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.
Safety and Testing
----
* openpilot observes ISO26262 guidelines, see [SAFETY.md](SAFETY.md) for more detail.
* openpilot has software in the loop [tests](run_docker_tests.sh) that run on every commit.
* The safety model code 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 EONs continuously replaying routes.
Testing on PC
------
Check out the tools directory in master: lots of tools you can use to replay driving data, test and develop openpilot from your pc.
A PC running openpilot can also control your vehicle if it is connected to a [webcam](https://github.com/commaai/openpilot/tree/master/tools/webcam), a [black panda](https://comma.ai/shop/products/panda), and a [harness](https://comma.ai/shop/products/car-harness).
Community and Contributing
------
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). Bug fixes and new car ports are encouraged.
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). Bug fixes and new car ports are encouraged. Check out [the contributing docs](docs/CONTRIBUTING.md).
You can add support for your car by following guides we have written for [Brand](https://medium.com/@comma_ai/how-to-write-a-car-port-for-openpilot-7ce0785eda84) and [Model](https://medium.com/@comma_ai/openpilot-port-guide-for-toyota-models-e5467f4b5fe6) ports. Generally, a car with adaptive cruise control and lane keep assist is a good candidate. [Join our Discord](https://discord.comma.ai) to discuss car ports: most car makes have a dedicated channel.
Documentation related to openpilot development can be found on [docs.comma.ai](https://docs.comma.ai). Information about running openpilot (e.g. FAQ, fingerprinting, troubleshooting, custom forks, community hardware) should go on the [wiki](https://github.com/commaai/openpilot/wiki).
Want to get paid to work on openpilot? [comma is hiring](https://comma.ai/jobs/). We also have a [bounty program](https://comma.ai/bounties.html).
You can add support for your car by following guides we have written for [Brand](https://blog.comma.ai/how-to-write-a-car-port-for-openpilot/) and [Model](https://blog.comma.ai/openpilot-port-guide-for-toyota-models/) ports. Generally, a car with adaptive cruise control and lane keep assist is a good candidate. [Join our Discord](https://discord.comma.ai) to discuss car ports: most car makes have a dedicated channel.
Want to get paid to work on openpilot? [comma is hiring](https://comma.ai/jobs/).
And [follow us on Twitter](https://twitter.com/comma_ai).
User Data and comma Account
------
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 is only logged if you explicitly opt-in in settings. The microphone is not recorded.
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.
Safety and Testing
----
* openpilot observes ISO26262 guidelines, see [SAFETY.md](docs/SAFETY.md) for more details.
* openpilot has software-in-the-loop [tests](.github/workflows/selfdrive_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.
Directory Structure
------
.
├── apk # The apk files used for the UI
├── cereal # The messaging spec and libs used for all logs on EON
├── cereal # The messaging spec and libs used for all logs
├── common # Library like functionality we've developed here
├── installer/updater # Manages auto-updates of openpilot
├── docs # Documentation
├── opendbc # Files showing how to interpret data from cars
├── panda # Code used to communicate on CAN
├── phonelibs # Libraries used on EON
├── pyextra # Libraries used on EON
├── third_party # External libraries
├── pyextra # Extra python packages
└── system # Generic services
├── camerad # Driver to capture images from the camera sensors
├── clocksd # Broadcasts current time
├── hardware # Hardware abstraction classes
├── logcatd # systemd journal as a service
└── proclogd # Logs information from /proc
└── selfdrive # Code needed to drive the car
├── assets # Fonts and images for UI
├── assets # Fonts, images, and sounds for UI
├── athena # Allows communication with the app
├── boardd # Daemon to talk to the board
├── camerad # Driver to capture images from the camera sensors
├── car # Car specific code to read states and control actuators
├── common # Shared C/C++ code for the daemons
├── controls # Perception, planning and controls
├── controls # Planning and controls
├── debug # Tools to help you debug and do car ports
├── locationd # Soon to be home of precise location
├── logcatd # Android logcat as a service
├── locationd # Precise localization and vehicle parameter estimation
├── loggerd # Logger and uploader of car data
├── manager # Daemon that starts/stops all other daemons as needed
├── modeld # Driving and monitoring model runners
├── proclogd # Logs information from proc
├── sensord # IMU / GPS interface code
├── tests # Unit tests, system tests and a car simulator
├── monitoring # Daemon to determine driver attention
├── navd # Turn-by-turn navigation
├── sensord # IMU interface code
├── test # Unit tests, system tests, and a car simulator
└── ui # The UI
To understand how the services interact, see `cereal/service_list.yaml`.
Licensing
------
openpilot is released under the MIT license. Some parts of the software are released under other licenses as specified.
Any user of this software shall indemnify and hold harmless comma.ai, Inc. and its directors, officers, employees, agents, stockholders, affiliates, subcontractors and customers from and against all allegations, claims, actions, suits, demands, damages, liabilities, obligations, losses, settlements, judgments, costs and expenses (including without limitation attorneys fees and costs) which arise out of, relate to or result from any use of this software by user.
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.
@@ -306,3 +141,9 @@ NO WARRANTY EXPRESSED OR IMPLIED.**
---
<img src="https://d1qb2nb5cznatu.cloudfront.net/startups/i/1061157-bc7e9bf3b246ece7322e6ffe653f6af8-medium_jpg.jpg?buster=1458363130" width="75"></img> <img src="https://cdn-images-1.medium.com/max/1600/1*C87EjxGeMPrkTuVRVWVg4w.png" width="225"></img>
[![openpilot tests](https://github.com/commaai/openpilot/workflows/openpilot%20tests/badge.svg?event=push)](https://github.com/commaai/openpilot/actions)
[![Total alerts](https://img.shields.io/lgtm/alerts/g/commaai/openpilot.svg?logo=lgtm&logoWidth=18)](https://lgtm.com/projects/g/commaai/openpilot/alerts/)
[![Language grade: Python](https://img.shields.io/lgtm/grade/python/g/commaai/openpilot.svg?logo=lgtm&logoWidth=18)](https://lgtm.com/projects/g/commaai/openpilot/context:python)
[![Language grade: C/C++](https://img.shields.io/lgtm/grade/cpp/g/commaai/openpilot.svg?logo=lgtm&logoWidth=18)](https://lgtm.com/projects/g/commaai/openpilot/context:cpp)
[![codecov](https://codecov.io/gh/commaai/openpilot/branch/master/graph/badge.svg)](https://codecov.io/gh/commaai/openpilot)
RELEASES.md
+444 -52
View File
@@ -1,3 +1,395 @@
Version 0.9.1 (2022-12-XX)
========================
* Adjust alert volume using ambient noise level
* Removed driver monitoring timer resetting on interaction if face detected and distracted
* Chevrolet Bolt EV 2022-23 support thanks to JasonJShuler!
* Genesis GV60 2023 support thanks to sunnyhaibin!
* Hyundai Tucson 2022-23 support
* Kia Sorento Plug-in Hybrid 2022 support thanks to sunnyhaibin!
Version 0.9.0 (2022-11-21)
========================
* New driving model
* Internal feature space information content increased tenfold during training to ~700 bits, which makes the model dramatically more accurate
* Less reliance on previous frames makes model more reactive and snappy
* Trained in new reprojective simulator
* Trained in 36 hours from scratch, compared to one week for previous releases
* Training now simulates both lateral and longitudinal behavior, which allows openpilot to slow down for turns, stop at traffic lights, and more in experimental mode
* Experimental driving mode
* End-to-end longitudinal control
* Stops for traffic lights and stop signs
* Slows down for turns
* openpilot defaults to chill mode, enable experimental mode in settings
* Driver monitoring updates
* New bigger model with added end-to-end distracted trigger
* Reduced false positives during driver calibration
* Self-tuning torque controller: learns parameters live for each car
* Torque controller used on all Toyota, Lexus, Hyundai, Kia, and Genesis models
* UI updates
* Matched speeds shown on car's dash
* Multi-language in navigation
* Improved update experience
* Border turns grey while overriding steering
* Bookmark events while driving; view them in comma connect
* New onroad visualization for experimental mode
* tools: new and improved cabana thanks to deanlee!
* Experimental longitudinal support for Volkswagen, CAN-FD Hyundai, and new GM models
* Genesis GV70 2022-23 support thanks to zunichky and sunnyhaibin!
* Hyundai Santa Cruz 2021-22 support thanks to sunnyhaibin!
* Kia Sportage 2023 support thanks to sunnyhaibin!
* Kia Sportage Hybrid 2023 support thanks to sunnyhaibin!
* Kia Stinger 2022 support thanks to sunnyhaibin!
Version 0.8.16 (2022-08-26)
========================
* New driving model
* Reduced turn cutting
* Auto-detect right hand drive setting with driver monitoring model
* Improved fan controller for comma three
* New translations
* Japanese thanks to cydia2020!
* Brazilian Portuguese thanks to AlexandreSato!
* Chevrolet Bolt EUV 2022-23 support thanks to JasonJShuler!
* Chevrolet Silverado 1500 2020-21 support thanks to JasonJShuler!
* GMC Sierra 1500 2020-21 support thanks to JasonJShuler!
* Hyundai Ioniq 5 2022 support thanks to sunnyhaibin!
* Hyundai Kona Electric 2022 support thanks to sunnyhaibin!
* Hyundai Tucson Hybrid 2022 support thanks to sunnyhaibin!
* Subaru Legacy 2020-22 support thanks to martinl!
* Subaru Outback 2020-22 support
Version 0.8.15 (2022-07-20)
========================
* New driving model
* Path planning uses end-to-end output instead of lane lines at all times
* Reduced ping pong
* Improved lane centering
* New lateral controller based on physical wheel torque model
* Much smoother control that's consistent across the speed range
* Effective feedforward that uses road roll
* Simplified tuning, all car-specific parameters can be derived from data
* Used on select Toyota and Hyundai models at first
* Significantly improved control on TSS-P Prius
* New driver monitoring model
* Bigger model, covering full interior view from driver camera
* Works with a wider variety of mounting angles
* 3x more unique comma three training data than previous
* Navigation improvements
* Speed limits shown while navigating
* Faster position fix by using raw GPS measurements
* UI updates
* Multilanguage support for settings and home screen
* New font
* Refreshed max speed design
* More consistent camera view perspective across cars
* Reduced power usage: device runs cooler and fan spins less
* AGNOS 5
* Support VSCode remote SSH target
* Support for delta updates to reduce data usage on future OS updates
* Chrysler ECU firmware fingerprinting thanks to realfast!
* Honda Civic 2022 support
* Hyundai Tucson 2021 support thanks to bluesforte!
* Kia EV6 2022 support
* Lexus NX Hybrid 2020 support thanks to AlexandreSato!
* Ram 1500 2019-21 support thanks to realfast!
Version 0.8.14 (2022-06-01)
========================
* New driving model
* Bigger model, using both of comma three's road-facing cameras
* Better at cut-in detection and tight turns
* New driver monitoring model
* Tweaked network structure to improve output resolution for DSP
* Fixed bug in quantization aware training to reduce quantizing errors
* Resulted in 7x less MSE and no more random biases at runtime
* Added toggle to disable disengaging on the accelerator pedal
* comma body support
* Audi RS3 support thanks to jyoung8607!
* Hyundai Ioniq Plug-in Hybrid 2019 support thanks to sunnyhaibin!
* Hyundai Tucson Diesel 2019 support thanks to sunnyhaibin!
* Toyota Alphard Hybrid 2021 support
* Toyota Avalon Hybrid 2022 support
* Toyota RAV4 2022 support
* Toyota RAV4 Hybrid 2022 support
Version 0.8.13 (2022-02-18)
========================
* Improved driver monitoring
* Re-tuned driver pose learner for relaxed driving positions
* Added reliance on driving model to be more scene adaptive
* Matched strictness between comma two and comma three
* Improved performance in turns by compensating for the road bank angle
* Improved camera focus on the comma two
* AGNOS 4
* ADB support
* improved cell auto configuration
* NEOS 19
* package updates
* stability improvements
* Subaru ECU firmware fingerprinting thanks to martinl!
* Hyundai Santa Fe Plug-in Hybrid 2022 support thanks to sunnyhaibin!
* Mazda CX-5 2022 support thanks to Jafaral!
* Subaru Impreza 2020 support thanks to martinl!
* Toyota Avalon 2022 support thanks to sshane!
* Toyota Prius v 2017 support thanks to CT921!
* Volkswagen Caravelle 2020 support thanks to jyoung8607!
Version 0.8.12 (2021-12-15)
========================
* New driving model
* Improved behavior around exits
* Better pose accuracy at high speeds, allowing max speed of 90mph
* Fully incorporated comma three data into all parts of training stack
* Improved follow distance
* Better longitudinal policy, especially in low speed traffic
* New alert sounds
* AGNOS 3
* Display burn in mitigation
* Improved audio amplifier configuration
* System reliability improvements
* Update Python to 3.8.10
* Raw logs upload moved to connect.comma.ai
* Fixed HUD alerts on newer Honda Bosch thanks to csouers!
* Audi Q3 2020-21 support thanks to jyoung8607!
* Lexus RC 2020 support thanks to ErichMoraga!
Version 0.8.11 (2021-11-29)
========================
* Support for CAN FD on the red panda
* Support for an external panda on the comma three
* Navigation: Show more detailed instructions when approaching maneuver
* Fixed occasional steering faults on GM cars thanks to jyoung8607!
* Nissan ECU firmware fingerprinting thanks to robin-reckmann, martinl, and razem-io!
* Cadillac Escalade ESV 2016 support thanks to Gibby!
* Genesis G70 2020 support thanks to tecandrew!
* Hyundai Santa Fe Hybrid 2022 support thanks to sunnyhaibin!
* Mazda CX-9 2021 support thanks to Jacar!
* Volkswagen Polo 2020 support thanks to jyoung8607!
* Volkswagen T-Roc 2021 support thanks to jyoung8607!
Version 0.8.10 (2021-11-01)
========================
* New driving model
* Trained on one million minutes!!!
* Fixed lead training making lead predictions significantly more accurate
* Fixed several localizer dataset bugs and loss function bugs, overall improved accuracy
* New driver monitoring model
* Trained on latest data from both comma two and comma three
* Increased model field of view by 40% on comma three
* Improved model stability on masked users
* Improved pose prediction with reworked ground-truth stack
* Lateral and longitudinal planning MPCs now in ACADOS
* Combined longitudinal MPCs
* All longitudinal planning now happens in a single MPC system
* Fixed instability in MPC problem to prevent sporadic CPU usage
* AGNOS 2: minor stability improvements and builder repo open sourced
* tools: new and improved replay thanks to deanlee!
* Moved community-supported cars outside of the Community Features toggle
* Improved FW fingerprinting reliability for Hyundai/Kia/Genesis
* Added prerequisites for longitudinal control on Hyundai/Kia/Genesis and Honda Bosch
* Audi S3 2015 support thanks to jyoung8607!
* Honda Freed 2020 support thanks to belm0!
* Hyundai Ioniq Hybrid 2020-2022 support thanks to sunnyhaibin!
* Hyundai Santa Fe 2022 support thanks to sunnyhaibin!
* Kia K5 2021 support thanks to sunnyhaibin!
* Škoda Kamiq 2021 support thanks to jyoung8607!
* Škoda Karoq 2019 support thanks to jyoung8607!
* Volkswagen Arteon 2021 support thanks to jyoung8607!
* Volkswagen California 2021 support thanks to jyoung8607!
* Volkswagen Taos 2022 support thanks to jyoung8607!
Version 0.8.9 (2021-09-14)
========================
* Improved fan control on comma three
* AGNOS 1.5: improved stability
* Honda e 2020 support
Version 0.8.8 (2021-08-27)
========================
* New driving model with improved laneless performance
* Trained on 5000+ hours of diverse driving data from 3000+ users in 40+ countries
* Better anti-cheating methods during simulator training ensure the model hugs less when in laneless mode
* All new desire ground-truthing stack makes the model better at lane changes
* New driver monitoring model: improved performance on comma three
* NEOS 18 for comma two: update packages
* AGNOS 1.3 for comma three: fix display init at high temperatures
* Improved auto-exposure on comma three
* Improved longitudinal control on Honda Nidec cars
* Hyundai Kona Hybrid 2020 support thanks to haram-KONA!
* Hyundai Sonata Hybrid 2021 support thanks to Matt-Wash-Burn!
* Kia Niro Hybrid 2021 support thanks to tetious!
Version 0.8.7 (2021-07-31)
========================
* comma three support!
* Navigation alpha for the comma three!
* Volkswagen T-Cross 2021 support thanks to jyoung8607!
Version 0.8.6 (2021-07-21)
========================
* Revamp lateral and longitudinal planners
* Refactor planner output API to be more readable and verbose
* Planners now output desired trajectories for speed, acceleration, curvature, and curvature rate
* Use MPC for longitudinal planning when no lead car is present, makes accel and decel smoother
* Remove "CHECK DRIVER FACE VISIBILITY" warning
* Fixed cruise fault on some TSS2.5 Camrys and international Toyotas
* Hyundai Elantra Hybrid 2021 support thanks to tecandrew!
* Hyundai Ioniq PHEV 2020 support thanks to YawWashout!
* Kia Niro Hybrid 2019 support thanks to jyoung8607!
* Škoda Octavia RS 2016 support thanks to jyoung8607!
* Toyota Alphard 2020 support thanks to belm0!
* Volkswagen Golf SportWagen 2015 support thanks to jona96!
* Volkswagen Touran 2017 support thanks to jyoung8607!
Version 0.8.5 (2021-06-11)
========================
* NEOS update: improved reliability and stability with better voltage regulator configuration
* Smart model-based Forward Collision Warning
* CAN-based fingerprinting moved behind community features toggle
* Improved longitudinal control on Toyotas with a comma pedal
* Improved auto-brightness using road-facing camera
* Added "Software" settings page with updater controls
* Audi Q2 2018 support thanks to jyoung8607!
* Hyundai Elantra 2021 support thanks to CruiseBrantley!
* Lexus UX Hybrid 2019-2020 support thanks to brianhaugen2!
* Toyota Avalon Hybrid 2019 support thanks to jbates9011!
* SEAT Leon 2017 & 2020 support thanks to jyoung8607!
* Škoda Octavia 2015 & 2019 support thanks to jyoung8607!
Version 0.8.4 (2021-05-17)
========================
* Delay controls start until system is ready
* Fuzzy car identification, enabled with Community Features toggle
* Localizer optimized for increased precision and less CPU usage
* Re-tuned lateral control to be more aggressive when model is confident
* Toyota Mirai 2021 support
* Lexus NX 300 2020 support thanks to goesreallyfast!
* Volkswagen Atlas 2018-19 support thanks to jyoung8607!
Version 0.8.3 (2021-04-01)
========================
* New model
* Trained on new diverse dataset from 2000+ users from 30+ countries
* Trained with improved segnet from the comma-pencil community project
* 🥬 Dramatically improved end-to-end lateral performance 🥬
* Toggle added to disable the use of lanelines
* NEOS update: update packages and support for new UI
* New offroad UI based on Qt
* Default SSH key only used for setup
* Kia Ceed 2019 support thanks to ZanZaD13!
* Kia Seltos 2021 support thanks to speedking456!
* Added support for many Volkswagen and Škoda models thanks to jyoung8607!
Version 0.8.2 (2021-02-26)
========================
* Use model points directly in MPC (no more polyfits), making lateral planning more accurate
* Use model heading prediction for smoother lateral control
* Smarter actuator delay compensation
* Improve qcamera resolution for improved video in explorer and connect
* Adjust maximum engagement speed to better fit the model's training distribution
* New driver monitoring model trained with 3x more diverse data
* Improved face detection with masks
* More predictable DM alerts when visibility is bad
* Rewritten video streaming between openpilot processes
* Improved longitudinal tuning on TSS2 Corolla and Rav4 thanks to briskspirit!
* Audi A3 2015 and 2017 support thanks to keeleysam!
* Nissan Altima 2020 support thanks to avolmensky!
* Lexus ES Hybrid 2018 support thanks to TheInventorMan!
* Toyota Camry Hybrid 2021 support thanks to alancyau!
Version 0.8.1 (2020-12-21)
========================
* Original EON is deprecated, upgrade to comma two
* Better model performance in heavy rain
* Better lane positioning in turns
* Fixed bug where model would cut turns on empty roads at night
* Fixed issue where some Toyotas would not completely stop thanks to briskspirit!
* Toyota Camry 2021 with TSS2.5 support
* Hyundai Ioniq Electric 2020 support thanks to baldwalker!
Version 0.8.0 (2020-11-30)
========================
* New driving model: fully 3D and improved cut-in detection
* UI draws 2 road edges, 4 lanelines and paths in 3D
* Major fixes to cut-in detection for openpilot longitudinal
* Grey panda is no longer supported, upgrade to comma two or black panda
* Lexus NX 2018 support thanks to matt12eagles!
* Kia Niro EV 2020 support thanks to nickn17!
* Toyota Prius 2021 support thanks to rav4kumar!
* Improved lane positioning with uncertain lanelines, wide lanes and exits
* Improved lateral control for Prius and Subaru
Version 0.7.10 (2020-10-29)
========================
* Grey panda is deprecated, upgrade to comma two or black panda
* NEOS update: update to Python 3.8.2 and lower CPU frequency
* Improved thermals due to reduced CPU frequency
* Update SNPE to 1.41.0
* Reduced offroad power consumption
* Various system stability improvements
* Acura RDX 2020 support thanks to csouers!
Version 0.7.9 (2020-10-09)
========================
* Improved car battery power management
* Improved updater robustness
* Improved realtime performance
* Reduced UI and modeld lags
* Increased torque on 2020 Hyundai Sonata and Palisade
Version 0.7.8 (2020-08-19)
========================
* New driver monitoring model: improved face detection and better compatibility with sunglasses
* Download NEOS operating system updates in the background
* Improved updater reliability and responsiveness
* Hyundai Kona 2020, Veloster 2019, and Genesis G70 2018 support thanks to xps-genesis!
Version 0.7.7 (2020-07-20)
========================
* White panda is no longer supported, upgrade to comma two or black panda
* Improved vehicle model estimation using high precision localizer
* Improved thermal management on comma two
* Improved autofocus for road-facing camera
* Improved noise performance for driver-facing camera
* Block lane change start using blindspot monitor on select Toyota, Hyundai, and Subaru
* Fix GM ignition detection
* Code cleanup and smaller release sizes
* Hyundai Sonata 2020 promoted to officially supported car
* Hyundai Ioniq Electric Limited 2019 and Ioniq SE 2020 support thanks to baldwalker!
* Subaru Forester 2019 and Ascent 2019 support thanks to martinl!
Version 0.7.6.1 (2020-06-16)
========================
* Hotfix: update kernel on some comma twos (orders #8570-#8680)
Version 0.7.6 (2020-06-05)
========================
* White panda is deprecated, upgrade to comma two or black panda
* 2017 Nissan X-Trail, 2018-19 Leaf and 2019 Rogue support thanks to avolmensky!
* 2017 Mazda CX-5 support in dashcam mode thanks to Jafaral!
* Huge CPU savings in modeld by using thneed!
* Lots of code cleanup and refactors
Version 0.7.5 (2020-05-13)
========================
* Right-Hand Drive support for both driving and driver monitoring!
* New driving model: improved at sharp turns and lead speed estimation
* New driver monitoring model: overall improvement on comma two
* Driver camera preview in settings to improve mounting position
* Added support for many Hyundai, Kia, Genesis models thanks to xx979xx!
* Improved lateral tuning for 2020 Toyota Rav 4 (hybrid)
Version 0.7.4 (2020-03-20)
========================
* New driving model: improved lane changes and lead car detection
* Improved driver monitoring model: improve eye detection
* Improved calibration stability
* Improved lateral control on some 2019 and 2020 Toyota Prius
* Improved lateral control on VW Golf: 20% more steering torque
* Fixed bug where some 2017 and 2018 Toyota C-HR would use the wrong steering angle sensor
* Support for Honda Insight thanks to theantihero!
* Code cleanup in car abstraction layers and ui
Version 0.7.3 (2020-02-21)
========================
* Support for 2020 Highlander thanks to che220!
@@ -34,7 +426,7 @@ Version 0.7 (2019-12-13)
* Improve GM longitudinal control: proper computations for 15Hz radar
* Move GM port, Toyota with DSU removed, comma pedal in community features; toggle switch required
* Remove upload over cellular toggle: only upload qlog and qcamera files if not on wifi
* Refactor Panda code towards ISO26262 and SIL2 compliancy
* Refactor Panda code towards ISO26262 and SIL2 compliance
* Forward stock FCW for Honda Nidec
* Volkswagen port now standard: comma Harness intercepts stock camera
@@ -421,96 +813,96 @@ Version 0.3.4 (2017-07-28)
Version 0.3.3 (2017-06-28)
===========================
* Improved model trained on more data
* Alpha CR-V support thanks to energee and johnnwvs!
* Using the opendbc project for DBC files
* Minor performance improvements
* UI update thanks to pjlao307
* Power off button
* 6% more torque on the Civic
* Improved model trained on more data
* Alpha CR-V support thanks to energee and johnnwvs!
* Using the opendbc project for DBC files
* Minor performance improvements
* UI update thanks to pjlao307
* Power off button
* 6% more torque on the Civic
Version 0.3.2 (2017-05-22)
===========================
* Minor stability bugfixes
* Added metrics and rear view mirror disable to settings
* Update model with more crowdsourced data
* Minor stability bugfixes
* Added metrics and rear view mirror disable to settings
* Update model with more crowdsourced data
Version 0.3.1 (2017-05-17)
===========================
* visiond stability bugfix
* Add logging for angle and flashing
* visiond stability bugfix
* Add logging for angle and flashing
Version 0.3.0 (2017-05-12)
===========================
* Add CarParams struct to improve the abstraction layer
* Refactor visiond IPC to support multiple clients
* Add raw GPS and beginning support for navigation
* Improve model in visiond using crowdsourced data
* Add improved system logging to diagnose instability
* Rewrite baseui in React Native
* Moved calibration to the cloud
* Add CarParams struct to improve the abstraction layer
* Refactor visiond IPC to support multiple clients
* Add raw GPS and beginning support for navigation
* Improve model in visiond using crowdsourced data
* Add improved system logging to diagnose instability
* Rewrite baseui in React Native
* Moved calibration to the cloud
Version 0.2.9 (2017-03-01)
===========================
* Retain compatibility with NEOS v1
* Retain compatibility with NEOS v1
Version 0.2.8 (2017-02-27)
===========================
* Fix bug where frames were being dropped in minute 71
* Fix bug where frames were being dropped in minute 71
Version 0.2.7 (2017-02-08)
===========================
* Better performance and pictures at night
* Fix ptr alignment issue in boardd
* Fix brake error light, fix crash if too cold
* Better performance and pictures at night
* Fix ptr alignment issue in boardd
* Fix brake error light, fix crash if too cold
Version 0.2.6 (2017-01-31)
===========================
* Fix bug in visiond model execution
* Fix bug in visiond model execution
Version 0.2.5 (2017-01-30)
===========================
* Fix race condition in manager
* Fix race condition in manager
Version 0.2.4 (2017-01-27)
===========================
* OnePlus 3T support
* Enable installation as NEOS app
* Various minor bugfixes
* OnePlus 3T support
* Enable installation as NEOS app
* Various minor bugfixes
Version 0.2.3 (2017-01-11)
===========================
* Reduce space usage by 80%
* Add better logging
* Add Travis CI
* Reduce space usage by 80%
* Add better logging
* Add Travis CI
Version 0.2.2 (2017-01-10)
===========================
* Board triggers started signal on CAN messages
* Improved autoexposure
* Handle out of space, improve upload status
* Board triggers started signal on CAN messages
* Improved autoexposure
* Handle out of space, improve upload status
Version 0.2.1 (2016-12-14)
===========================
* Performance improvements, removal of more numpy
* Fix boardd process priority
* Make counter timer reset on use of steering wheel
* Performance improvements, removal of more numpy
* Fix boardd process priority
* Make counter timer reset on use of steering wheel
Version 0.2 (2016-12-12)
=========================
* Car/Radar abstraction layers have shipped, see cereal/car.capnp
* controlsd has been refactored
* Shipped plant model and testing maneuvers
* visiond exits more gracefully now
* Hardware encoder in visiond should always init
* ui now turns off the screen after 30 seconds
* Switch to openpilot release branch for future releases
* Added preliminary Docker container to run tests on PC
* Car/Radar abstraction layers have shipped, see cereal/car.capnp
* controlsd has been refactored
* Shipped plant model and testing maneuvers
* visiond exits more gracefully now
* Hardware encoder in visiond should always init
* ui now turns off the screen after 30 seconds
* Switch to openpilot release branch for future releases
* Added preliminary Docker container to run tests on PC
Version 0.1 (2016-11-29)
=========================
* Initial release of openpilot
* Adaptive cruise control is working
* Lane keep assist is working
* Support for Acura ILX 2016 with AcuraWatch Plus
* Support for Honda Civic 2016 Touring Edition
* Initial release of openpilot
* Adaptive cruise control is working
* Lane keep assist is working
* Support for Acura ILX 2016 with AcuraWatch Plus
* Support for Honda Civic 2016 Touring Edition
SAFETY.md
-34
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@@ -1,34 +0,0 @@
openpilot Safety
======
openpilot is an Adaptive Cruise Control (ACC) and Automated Lane Centering (ALC) system.
Like other ACC and ALC systems, openpilot is a failsafe passive system and it requires the
driver to be alert and to pay attention at all times.
In order to enforce driver alertness, openpilot includes a driver monitoring feature
that alerts the driver when distracted.
However, even with an attentive driver, we must make further efforts for the system to be
safe. We repeat, **driver alertness is necessary, but not sufficient, for openpilot to be
used safely** and openpilot is provided with no warranty of fitness for any purpose.
openpilot is developed in good faith to be compliant with FMVSS requirements and to follow
industry standards of safety for Level 2 Driver Assistance Systems. In particular, we observe
ISO26262 guidelines, including those from [pertinent documents](https://www.nhtsa.gov/sites/nhtsa.dot.gov/files/documents/13498a_812_573_alcsystemreport.pdf)
released by NHTSA. In addition, we impose strict coding guidelines (like [MISRA C : 2012](https://www.misra.org.uk/MISRAHome/MISRAC2012/tabid/196/Default.aspx))
on parts of openpilot that are safety relevant. We also perform software-in-the-loop,
hardware-in-the-loop and in-vehicle tests before each software release.
Following Hazard and Risk Analysis and FMEA, at a very high level, we have designed openpilot
ensuring two main safety requirements.
1. The driver must always be capable to immediately retake manual control of the vehicle,
by stepping on either pedal or by pressing the cancel button.
2. The vehicle must not alter its trajectory too quickly for the driver to safely
react. This means that while the system is engaged, the actuators are constrained
to operate within reasonable limits.
For vehicle specific implementation of the safety concept, refer to `panda/board/safety/`.
**Extra note**: comma.ai strongly discourages the use of openpilot forks with safety code either missing or
not fully meeting the above requirements.
SConstruct
-233
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@@ -1,233 +0,0 @@
import os
import subprocess
import sys
import platform
AddOption('--test',
action='store_true',
help='build test files')
AddOption('--asan',
action='store_true',
help='turn on ASAN')
arch = subprocess.check_output(["uname", "-m"], encoding='utf8').rstrip()
if platform.system() == "Darwin":
arch = "Darwin"
if arch == "aarch64":
lenv = {
"LD_LIBRARY_PATH": '/data/data/com.termux/files/usr/lib',
"PATH": os.environ['PATH'],
"ANDROID_DATA": os.environ['ANDROID_DATA'],
"ANDROID_ROOT": os.environ['ANDROID_ROOT'],
}
cpppath = [
"#phonelibs/opencl/include",
]
libpath = [
"#phonelibs/snpe/aarch64-android-clang3.8",
"/usr/lib",
"/data/data/com.termux/files/usr/lib",
"/system/vendor/lib64",
"/system/comma/usr/lib",
"#phonelibs/nanovg",
"#phonelibs/libyuv/lib",
]
cflags = ["-DQCOM", "-mcpu=cortex-a57"]
cxxflags = ["-DQCOM", "-mcpu=cortex-a57"]
rpath = ["/system/vendor/lib64"]
else:
lenv = {
"PATH": "#external/bin:" + os.environ['PATH'],
}
cpppath = [
"#phonelibs/capnp-cpp/include",
"#phonelibs/capnp-c/include",
"#phonelibs/zmq/x64/include",
"#external/tensorflow/include",
]
if arch == "Darwin":
libpath = [
"#phonelibs/capnp-cpp/mac/lib",
"#phonelibs/capnp-c/mac/lib",
"#phonelibs/libyuv/mac/lib",
"#cereal",
"#selfdrive/common",
"/usr/local/lib",
"/System/Library/Frameworks/OpenGL.framework/Libraries",
]
else:
libpath = [
"#phonelibs/capnp-cpp/x64/lib",
"#phonelibs/capnp-c/x64/lib",
"#phonelibs/snpe/x86_64-linux-clang",
"#phonelibs/zmq/x64/lib",
"#phonelibs/libyuv/x64/lib",
"#external/zmq/lib",
"#external/tensorflow/lib",
"#cereal",
"#selfdrive/common",
"/usr/lib",
"/usr/local/lib",
]
rpath = ["phonelibs/capnp-cpp/x64/lib",
"phonelibs/zmq/x64/lib",
"external/tensorflow/lib",
"cereal",
"selfdrive/common"]
# allows shared libraries to work globally
rpath = [os.path.join(os.getcwd(), x) for x in rpath]
cflags = []
cxxflags = []
ccflags_asan = ["-fsanitize=address", "-fno-omit-frame-pointer"] if GetOption('asan') else []
ldflags_asan = ["-fsanitize=address"] if GetOption('asan') else []
# change pythonpath to this
lenv["PYTHONPATH"] = Dir("#").path
env = Environment(
ENV=lenv,
CCFLAGS=[
"-g",
"-fPIC",
"-O2",
"-Werror=implicit-function-declaration",
"-Werror=incompatible-pointer-types",
"-Werror=int-conversion",
"-Werror=return-type",
"-Werror=format-extra-args",
] + cflags + ccflags_asan,
CPPPATH=cpppath + [
"#",
"#selfdrive",
"#phonelibs/bzip2",
"#phonelibs/libyuv/include",
"#phonelibs/openmax/include",
"#phonelibs/json/src",
"#phonelibs/json11",
"#phonelibs/eigen",
"#phonelibs/curl/include",
"#phonelibs/opencv/include",
"#phonelibs/libgralloc/include",
"#phonelibs/android_frameworks_native/include",
"#phonelibs/android_hardware_libhardware/include",
"#phonelibs/android_system_core/include",
"#phonelibs/linux/include",
"#phonelibs/snpe/include",
"#phonelibs/nanovg",
"#selfdrive/common",
"#selfdrive/camerad",
"#selfdrive/camerad/include",
"#selfdrive/loggerd/include",
"#selfdrive/modeld",
"#cereal/messaging",
"#cereal",
"#opendbc/can",
],
CC='clang',
CXX='clang++',
LINKFLAGS=ldflags_asan,
RPATH=rpath,
CFLAGS=["-std=gnu11"] + cflags,
CXXFLAGS=["-std=c++14"] + cxxflags,
LIBPATH=libpath +
[
"#cereal",
"#selfdrive/common",
"#phonelibs",
]
)
if os.environ.get('SCONS_CACHE'):
CacheDir('/tmp/scons_cache')
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)
SHARED = False
def abspath(x):
if arch == 'aarch64':
pth = os.path.join("/data/pythonpath", x[0].path)
env.Depends(pth, x)
return File(pth)
else:
# rpath works elsewhere
return x[0].path.rsplit("/", 1)[1][:-3]
#zmq = 'zmq'
# still needed for apks
zmq = FindFile("libzmq.a", libpath)
Export('env', 'arch', 'zmq', 'SHARED')
# cereal and messaging are shared with the system
SConscript(['cereal/SConscript'])
if SHARED:
cereal = abspath([File('cereal/libcereal_shared.so')])
messaging = abspath([File('cereal/libmessaging_shared.so')])
else:
cereal = [File('#cereal/libcereal.a')]
messaging = [File('#cereal/libmessaging.a')]
Export('cereal', 'messaging')
SConscript(['selfdrive/common/SConscript'])
Import('_common', '_visionipc', '_gpucommon', '_gpu_libs')
if SHARED:
common, visionipc, gpucommon = abspath(common), abspath(visionipc), abspath(gpucommon)
else:
common = [_common, 'json']
visionipc = _visionipc
gpucommon = [_gpucommon] + _gpu_libs
Export('common', 'visionipc', 'gpucommon')
SConscript(['opendbc/can/SConscript'])
SConscript(['common/SConscript'])
SConscript(['common/kalman/SConscript'])
SConscript(['phonelibs/SConscript'])
if arch != "Darwin":
SConscript(['selfdrive/camerad/SConscript'])
SConscript(['selfdrive/modeld/SConscript'])
SConscript(['selfdrive/controls/lib/cluster/SConscript'])
SConscript(['selfdrive/controls/lib/lateral_mpc/SConscript'])
SConscript(['selfdrive/controls/lib/longitudinal_mpc/SConscript'])
SConscript(['selfdrive/boardd/SConscript'])
SConscript(['selfdrive/proclogd/SConscript'])
SConscript(['selfdrive/ui/SConscript'])
SConscript(['selfdrive/loggerd/SConscript'])
if arch == "aarch64":
SConscript(['selfdrive/logcatd/SConscript'])
SConscript(['selfdrive/sensord/SConscript'])
SConscript(['selfdrive/clocksd/SConscript'])
SConscript(['selfdrive/locationd/SConscript'])
SConscript(['selfdrive/locationd/kalman/SConscript'])
# TODO: finish cereal, dbcbuilder, MPC
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btg_mode.sh
-11
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@@ -1,11 +0,0 @@
#!/usr/bin/bash
mode=$1
if [ $1 -eq 1 ]; then
printf %s "1" > /data/params/d/DragonBTG
fi
if [ $1 -eq 0 ]; then
printf %s "0" > /data/params/d/DragonBTG
fi
rm -rf /data/openpilot/selfdrive/boardd/boardd && reboot
cereal/.dockerignore
-1
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@@ -1 +0,0 @@
.sconsign.dblite
cereal/.github/workflows/tests.yml
Vendored
-23
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@@ -1,23 +0,0 @@
name: Tests
on: [push, pull_request]
jobs:
test:
runs-on: ubuntu-16.04
steps:
- uses: actions/checkout@v2
- name: Build docker image
run: docker build -t cereal .
- name: Unit Tests
run: |
docker run cereal bash -c "scons --test --asan -j$(nproc) && messaging/test_runner"
- name: Test ZMQ
run: |
docker run cereal bash -c "ZMQ=1 python -m unittest discover ."
- name: Test MSGQ
run: |
docker run cereal bash -c "MSGQ=1 python -m unittest discover ."
cereal/.gitignore
+9 -2
View File
@@ -1,14 +1,21 @@
gen
node_modules
package-lock.json
*.tmp
*.pyc
__pycache__
.*.swp
.*.swo
libcereal*.a
*.os
*.o
*.a
test_runner
libmessaging.*
libmessaging_shared.*
services.h
.sconsign.dblite
libcereal_shared.*
.mypy_cache/
catch2/
cereal/Dockerfile
+46 -9
View File
@@ -1,19 +1,56 @@
from ubuntu:16.04
FROM ubuntu:20.04
RUN apt-get update && apt-get install -y libzmq3-dev clang wget git autoconf libtool curl make build-essential libssl-dev zlib1g-dev libbz2-dev libreadline-dev libsqlite3-dev llvm libncurses5-dev libncursesw5-dev xz-utils tk-dev libffi-dev liblzma-dev python-openssl
ENV DEBIAN_FRONTEND=noninteractive
RUN apt-get update && apt-get install -y --no-install-recommends \
autoconf \
build-essential \
ca-certificates \
capnproto \
clang \
cppcheck \
curl \
git \
libbz2-dev \
libcapnp-dev \
libffi-dev \
liblzma-dev \
libncurses5-dev \
libncursesw5-dev \
libreadline-dev \
libsqlite3-dev \
libssl-dev \
libtool \
libzmq3-dev \
llvm \
make \
ocl-icd-opencl-dev \
opencl-headers \
python-openssl \
tk-dev \
wget \
xz-utils \
zlib1g-dev \
&& rm -rf /var/lib/apt/lists/*
RUN curl -L https://github.com/pyenv/pyenv-installer/raw/master/bin/pyenv-installer | bash
ENV PATH="/root/.pyenv/bin:/root/.pyenv/shims:${PATH}"
RUN pyenv install 3.7.3
RUN pyenv global 3.7.3
RUN pyenv rehash
RUN pip3 install pyyaml==5.1.2 Cython==0.29.14 scons==3.1.1 pycapnp==0.6.4
RUN pyenv install 3.8.10 && \
pyenv global 3.8.10 && \
pyenv rehash && \
pip3 install --no-cache-dir pyyaml==5.1.2 Cython==0.29.14 scons==3.1.1 pycapnp==1.0.0 pre-commit==2.15.0 pylint==2.5.2 parameterized==0.7.4 coverage==5.1 numpy==1.21.1
WORKDIR /project/cereal/messaging
RUN git clone https://github.com/catchorg/Catch2.git && \
cd Catch2 && \
git checkout 229cc4823c8cbe67366da8179efc6089dd3893e9 && \
mv single_include/catch2 ../catch2 && \
cd .. \
rm -rf Catch2
WORKDIR /project/cereal
COPY install_capnp.sh .
RUN ./install_capnp.sh
ENV PYTHONPATH=/project
COPY . .
RUN scons -c && scons -j$(nproc)
RUN rm -rf .git && \
scons -c && scons -j$(nproc)
cereal/LICENSE
+7
View File
@@ -0,0 +1,7 @@
Copyright (c) 2020, Comma.ai, Inc.
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
cereal/README.md
+21 -8
View File
@@ -1,12 +1,12 @@
What is cereal?
What is cereal? [![cereal tests](https://github.com/commaai/cereal/workflows/Tests/badge.svg?event=push)](https://github.com/commaai/cereal/actions) [![codecov](https://codecov.io/gh/commaai/cereal/branch/master/graph/badge.svg)](https://codecov.io/gh/commaai/cereal)
----
cereal is both a messaging spec for robotics systems as well as generic high performance IPC pub sub messaging with a single publisher and multiple subscribers.
Imagine this use case:
* A sensor process reads gyro measurements directly from an IMU and publishes a sensorEvents packet
* A calibration process subscribes to the sensorEvents packet to use the IMU
* A localization process subscribes to the sensorEvents packet to use the IMU also
* A sensor process reads gyro measurements directly from an IMU and publishes a `sensorEvents` packet
* A calibration process subscribes to the `sensorEvents` packet to use the IMU
* A localization process subscribes to the `sensorEvents` packet to use the IMU also
Messaging Spec
@@ -14,13 +14,24 @@ Messaging Spec
You'll find the message types in [log.capnp](log.capnp). It uses [Cap'n proto](https://capnproto.org/capnp-tool.html) and defines one struct called Event.
All Events have a logMonoTime and a valid. Then a big union defines the packet type.
All Events have a `logMonoTime` and a `valid`. Then a big union defines the packet type.
Message definition Best Practices
----
- **All fields must describe quantities in SI units**, unless otherwise specified in the field name.
- In the context of the message they are in, field names should be completely unambiguous.
- All values should be easy to plot and be human-readable with minimal parsing.
Pub Sub Backends
----
cereal supports two backends, one based on [zmq](https://zeromq.org/), the other called msgq, a custom pub sub based on shared memory that doesn't require the bytes to pass through the kernel.
cereal supports two backends, one based on [zmq](https://zeromq.org/) and another called msgq, a custom pub sub based on shared memory that doesn't require the bytes to pass through the kernel.
Example
---
@@ -33,10 +44,12 @@ while 1:
sm.update()
print(sm['sensorEvents'])
```
```python
# in publisher
pm = messaging.PubMaster(['sensorEvents'])
dat = messaging.new_message()
dat.init('sensorEvents', 1)
dat = messaging.new_message('sensorEvents', size=1)
dat.sensorEvents[0] = {"gyro": {"v": [0.1, -0.1, 0.1]}}
pm.send('sensorEvents', dat)
```
cereal/SConscript
-68
View File
@@ -1,68 +0,0 @@
Import('env', 'arch', 'zmq')
gen_dir = Dir('gen')
messaging_dir = Dir('messaging')
# TODO: remove src-prefix and cereal from command string. can we set working directory?
env.Command(["gen/c/include/c++.capnp.h", "gen/c/include/java.capnp.h"], [], "mkdir -p " + gen_dir.path + "/c/include && touch $TARGETS")
env.Command(
['gen/c/car.capnp.c', 'gen/c/log.capnp.c', 'gen/c/car.capnp.h', 'gen/c/log.capnp.h'],
['car.capnp', 'log.capnp'],
'capnpc $SOURCES --src-prefix=cereal -o c:' + gen_dir.path + '/c/')
env.Command(
['gen/cpp/car.capnp.c++', 'gen/cpp/log.capnp.c++', 'gen/cpp/car.capnp.h', 'gen/cpp/log.capnp.h'],
['car.capnp', 'log.capnp'],
'capnpc $SOURCES --src-prefix=cereal -o c++:' + gen_dir.path + '/cpp/')
import shutil
if shutil.which('capnpc-java'):
env.Command(
['gen/java/Car.java', 'gen/java/Log.java'],
['car.capnp', 'log.capnp'],
'capnpc $SOURCES --src-prefix=cereal -o java:' + gen_dir.path + '/java/')
# TODO: remove non shared cereal and messaging
cereal_objects = env.SharedObject([
'gen/c/car.capnp.c',
'gen/c/log.capnp.c',
'gen/cpp/car.capnp.c++',
'gen/cpp/log.capnp.c++',
])
env.Library('cereal', cereal_objects)
env.SharedLibrary('cereal_shared', cereal_objects, LIBS=["capnp_c"])
cereal_dir = Dir('.')
services_h = env.Command(
['services.h'],
['service_list.yaml', 'services.py'],
'python3 ' + cereal_dir.path + '/services.py > $TARGET')
messaging_objects = env.SharedObject([
'messaging/messaging.cc',
'messaging/impl_zmq.cc',
'messaging/impl_msgq.cc',
'messaging/msgq.cc',
])
messaging_lib = env.Library('messaging', messaging_objects)
Depends('messaging/impl_zmq.cc', services_h)
# note, this rebuilds the deps shared, zmq is statically linked to make APK happy
# TODO: get APK to load system zmq to remove the static link
shared_lib_shared_lib = [zmq, 'm', 'stdc++'] + ["gnustl_shared"] if arch == "aarch64" else [zmq]
env.SharedLibrary('messaging_shared', messaging_objects, LIBS=shared_lib_shared_lib)
env.Program('messaging/bridge', ['messaging/bridge.cc'], LIBS=[messaging_lib, 'zmq'])
Depends('messaging/bridge.cc', services_h)
# different target?
#env.Program('messaging/demo', ['messaging/demo.cc'], LIBS=[messaging_lib, 'zmq'])
env.Command(['messaging/messaging_pyx.so'],
[messaging_lib, 'messaging/messaging_pyx_setup.py', 'messaging/messaging_pyx.pyx', 'messaging/messaging.pxd'],
"cd " + messaging_dir.path + " && python3 messaging_pyx_setup.py build_ext --inplace")
if GetOption('test'):
env.Program('messaging/test_runner', ['messaging/test_runner.cc', 'messaging/msgq_tests.cc'], LIBS=[messaging_lib])
cereal/SConstruct
-49
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@@ -1,49 +0,0 @@
import os
import subprocess
zmq = 'zmq'
arch = subprocess.check_output(["uname", "-m"], encoding='utf8').rstrip()
cereal_dir = Dir('.')
cpppath = [
cereal_dir,
'/usr/lib/include',
]
AddOption('--test',
action='store_true',
help='build test files')
AddOption('--asan',
action='store_true',
help='turn on ASAN')
ccflags_asan = ["-fsanitize=address", "-fno-omit-frame-pointer"] if GetOption('asan') else []
ldflags_asan = ["-fsanitize=address"] if GetOption('asan') else []
env = Environment(
ENV=os.environ,
CC='clang',
CXX='clang++',
CCFLAGS=[
"-g",
"-fPIC",
"-O2",
"-Werror=implicit-function-declaration",
"-Werror=incompatible-pointer-types",
"-Werror=int-conversion",
"-Werror=return-type",
"-Werror=format-extra-args",
] + ccflags_asan,
LDFLAGS=ldflags_asan,
LINKFLAGS=ldflags_asan,
CFLAGS="-std=gnu11",
CXXFLAGS="-std=c++14",
CPPPATH=cpppath,
)
Export('env', 'zmq', 'arch')
SConscript(['SConscript'])
cereal/__init__.py
+1
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@@ -1,3 +1,4 @@
# pylint: skip-file
import os
import capnp
cereal/car.capnp
+300 -99
View File
@@ -1,31 +1,29 @@
using Cxx = import "./include/c++.capnp";
$Cxx.namespace("cereal");
using Java = import "./include/java.capnp";
$Java.package("ai.comma.openpilot.cereal");
$Java.outerClassname("Car");
@0x8e2af1e708af8b8d;
# ******* events causing controls state machine transition *******
struct CarEvent @0x9b1657f34caf3ad3 {
name @0 :EventName;
# event types
enable @1 :Bool;
noEntry @2 :Bool;
warning @3 :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;
permanent @8 :Bool; # alerts presented regardless of openpilot state
overrideLateral @10 :Bool;
overrideLongitudinal @9 :Bool;
enum EventName @0xbaa8c5d505f727de {
# TODO: copy from error list
canError @0;
steerUnavailable @1;
brakeUnavailable @2;
gasUnavailable @3;
wrongGear @4;
doorOpen @5;
seatbeltNotLatched @6;
@@ -35,10 +33,11 @@ struct CarEvent @0x9b1657f34caf3ad3 {
reverseGear @10;
buttonCancel @11;
buttonEnable @12;
pedalPressed @13;
pedalPressed @13; # exits active state
preEnableStandstill @73; # added during pre-enable state with brake
gasPressedOverride @108; # added when user is pressing gas with no disengage on gas
steerOverride @114;
cruiseDisabled @14;
radarCanError @15;
dataNeeded @16;
speedTooLow @17;
outOfSpace @18;
overheat @19;
@@ -47,58 +46,102 @@ struct CarEvent @0x9b1657f34caf3ad3 {
controlsMismatch @22;
pcmEnable @23;
pcmDisable @24;
noTarget @25;
radarFault @26;
modelCommIssueDEPRECATED @27;
brakeHold @28;
parkBrake @29;
manualRestart @30;
lowSpeedLockout @31;
plannerError @32;
ipasOverride @33;
debugAlert @34;
steerTempUnavailableMute @35;
joystickDebug @34;
steerTempUnavailableSilent @35;
resumeRequired @36;
preDriverDistracted @37;
promptDriverDistracted @38;
driverDistracted @39;
geofence @40;
driverMonitorOn @41;
driverMonitorOff @42;
preDriverUnresponsive @43;
promptDriverUnresponsive @44;
driverUnresponsive @45;
belowSteerSpeed @46;
calibrationProgress @47;
lowBattery @48;
invalidGiraffeHonda @49;
vehicleModelInvalid @50;
controlsFailed @51;
accFaulted @51;
accFaultedTemp @115;
sensorDataInvalid @52;
commIssue @53;
commIssueAvgFreq @109;
tooDistracted @54;
posenetInvalid @55;
soundsUnavailable @56;
preLaneChangeLeft @57;
preLaneChangeRight @58;
laneChange @59;
invalidGiraffeToyota @60;
internetConnectivityNeeded @61;
communityFeatureDisallowed @62;
lowMemory @63;
stockAeb @64;
ldw @65;
carUnrecognized @66;
radarCommIssue @67;
driverMonitorLowAcc @68;
# dragonpilot
manualSteeringRequired @69;
manualSteeringRequiredBlinkersOn @70;
leadCarMoving @71;
leadCarDetected @72;
preAutoLaneChangeLeft @73;
preAutoLaneChangeRight @74;
autoLaneChange @75;
invalidLkasSetting @69;
speedTooHigh @70;
laneChangeBlocked @71;
relayMalfunction @72;
stockFcw @74;
startup @75;
startupNoCar @76;
startupNoControl @77;
startupMaster @78;
startupNoFw @104;
fcw @79;
steerSaturated @80;
belowEngageSpeed @84;
noGps @85;
wrongCruiseMode @87;
modeldLagging @89;
deviceFalling @90;
fanMalfunction @91;
cameraMalfunction @92;
cameraFrameRate @110;
gpsMalfunction @94;
processNotRunning @95;
dashcamMode @96;
controlsInitializing @98;
usbError @99;
roadCameraError @100;
driverCameraError @101;
wideRoadCameraError @102;
localizerMalfunction @103;
highCpuUsage @105;
cruiseMismatch @106;
lkasDisabled @107;
canBusMissing @111;
controlsdLagging @112;
resumeBlocked @113;
#dp
speedLimitActive @116;
speedLimitValueChange @117;
radarCanErrorDEPRECATED @15;
communityFeatureDisallowedDEPRECATED @62;
radarCommIssueDEPRECATED @67;
driverMonitorLowAccDEPRECATED @68;
gasUnavailableDEPRECATED @3;
dataNeededDEPRECATED @16;
modelCommIssueDEPRECATED @27;
ipasOverrideDEPRECATED @33;
geofenceDEPRECATED @40;
driverMonitorOnDEPRECATED @41;
driverMonitorOffDEPRECATED @42;
calibrationProgressDEPRECATED @47;
invalidGiraffeHondaDEPRECATED @49;
invalidGiraffeToyotaDEPRECATED @60;
internetConnectivityNeededDEPRECATED @61;
whitePandaUnsupportedDEPRECATED @81;
commIssueWarningDEPRECATED @83;
focusRecoverActiveDEPRECATED @86;
neosUpdateRequiredDEPRECATED @88;
modelLagWarningDEPRECATED @93;
startupOneplusDEPRECATED @82;
startupFuzzyFingerprintDEPRECATED @97;
noTargetDEPRECATED @25;
}
}
@@ -106,35 +149,46 @@ struct CarEvent @0x9b1657f34caf3ad3 {
# all speeds in m/s
struct CarState {
errorsDEPRECATED @0 :List(CarEvent.EventName);
events @13 :List(CarEvent);
# CAN health
canValid @26 :Bool; # invalid counter/checksums
canTimeout @40 :Bool; # CAN bus dropped out
# car speed
vEgo @1 :Float32; # best estimate of speed
aEgo @16 :Float32; # best estimate of acceleration
vEgoRaw @17 :Float32; # unfiltered speed from CAN sensors
vEgo @1 :Float32; # best estimate of speed
aEgo @16 :Float32; # best estimate of acceleration
vEgoRaw @17 :Float32; # unfiltered speed from CAN sensors
vEgoCluster @44 :Float32; # best estimate of speed shown on car's instrument cluster, used for UI
yawRate @22 :Float32; # best estimate of yaw rate
standstill @18 :Bool;
wheelSpeeds @2 :WheelSpeeds;
# gas pedal, 0.0-1.0
gas @3 :Float32; # this is user + computer
gas @3 :Float32; # this is user pedal only
gasPressed @4 :Bool; # this is user pedal only
# brake pedal, 0.0-1.0
brake @5 :Float32; # this is user pedal only
brakePressed @6 :Bool; # this is user pedal only
brakeLights @19 :Bool;
regenBraking @45 :Bool; # this is user pedal only
parkingBrake @39 :Bool;
brakeHoldActive @38 :Bool;
# steering wheel
steeringAngle @7 :Float32; # deg
steeringRate @15 :Float32; # deg/s
steeringTorque @8 :Float32; # TODO: standardize units
steeringAngleDeg @7 :Float32;
steeringAngleOffsetDeg @37 :Float32; # Offset betweens sensors in case there multiple
steeringRateDeg @15 :Float32;
steeringTorque @8 :Float32; # TODO: standardize units
steeringTorqueEps @27 :Float32; # TODO: standardize units
steeringPressed @9 :Bool; # if the user is using the steering wheel
steeringRateLimited @29 :Bool; # if the torque is limited by the rate limiter
steeringPressed @9 :Bool; # if the user is using the steering wheel
steerFaultTemporary @35 :Bool; # temporary EPS fault
steerFaultPermanent @36 :Bool; # permanent EPS fault
stockAeb @30 :Bool;
stockFcw @31 :Bool;
espDisabled @32 :Bool;
accFaulted @42 :Bool;
# cruise state
cruiseState @10 :CruiseState;
@@ -151,7 +205,6 @@ struct CarState {
# lock info
doorOpen @24 :Bool;
seatbeltUnlatched @25 :Bool;
canValid @26 :Bool;
# clutch (manual transmission only)
clutchPressed @28 :Bool;
@@ -159,6 +212,18 @@ struct CarState {
# which packets this state came from
canMonoTimes @12: List(UInt64);
# blindspot sensors
leftBlindspot @33 :Bool; # Is there something blocking the left lane change
rightBlindspot @34 :Bool; # Is there something blocking the right lane change
fuelGauge @41 :Float32; # battery or fuel tank level from 0.0 to 1.0
charging @43 :Bool;
# dp
cruiseActualEnabled @46 :Bool;
engineRPM @47 :Float32;
distanceLines @48:UInt8;
struct WheelSpeeds {
# optional wheel speeds
fl @0 :Float32;
@@ -170,9 +235,12 @@ struct CarState {
struct CruiseState {
enabled @0 :Bool;
speed @1 :Float32;
speedCluster @6 :Float32; # Set speed as shown on instrument cluster
available @2 :Bool;
speedOffset @3 :Float32;
standstill @4 :Bool;
nonAdaptive @5 :Bool;
speedLimit @7 :Float32;
}
enum GearShifter {
@@ -208,6 +276,10 @@ struct CarState {
gapAdjustCruise @11;
}
}
errorsDEPRECATED @0 :List(CarEvent.EventName);
brakeLightsDEPRECATED @19 :Bool;
steeringRateLimitedDEPRECATED @29 :Bool;
}
# ******* radar state @ 20hz *******
@@ -249,14 +321,23 @@ struct RadarData @0x888ad6581cf0aacb {
struct CarControl {
# must be true for any actuator commands to work
enabled @0 :Bool;
active @7 :Bool;
gasDEPRECATED @1 :Float32;
brakeDEPRECATED @2 :Float32;
steeringTorqueDEPRECATED @3 :Float32;
latActive @11: Bool;
longActive @12: Bool;
# Actuator commands as computed by controlsd
actuators @6 :Actuators;
leftBlinker @15: Bool;
rightBlinker @16: Bool;
# Any car specific rate limits or quirks applied by
# the CarController are reflected in actuatorsOutput
# and matches what is sent to the car
actuatorsOutput @10 :Actuators;
orientationNED @13 :List(Float32);
angularVelocity @14 :List(Float32);
cruiseControl @4 :CruiseControl;
hudControl @5 :HUDControl;
@@ -266,14 +347,30 @@ struct CarControl {
brake @1: Float32;
# range from -1.0 - 1.0
steer @2: Float32;
steerAngle @3: Float32;
# value sent over can to the car
steerOutputCan @8: Float32;
steeringAngleDeg @3: Float32;
curvature @7: Float32;
speed @6: Float32; # m/s
accel @4: Float32; # m/s^2
longControlState @5: LongControlState;
enum LongControlState @0xe40f3a917d908282{
off @0;
pid @1;
stopping @2;
starting @3;
}
}
struct CruiseControl {
cancel @0: Bool;
override @1: Bool;
speedOverride @2: Float32;
accelOverride @3: Float32;
resume @1: Bool;
override @4: Bool;
speedOverrideDEPRECATED @2: Float32;
accelOverrideDEPRECATED @3: Float32;
}
struct HUDControl {
@@ -302,18 +399,27 @@ struct CarControl {
}
enum AudibleAlert {
# these are the choices from the Honda
# map as good as you can for your car
none @0;
chimeEngage @1;
chimeDisengage @2;
chimeError @3;
chimeWarning1 @4;
chimeWarning2 @5;
chimeWarningRepeat @6;
chimePrompt @7;
engage @1;
disengage @2;
refuse @3;
warningSoft @4;
warningImmediate @5;
prompt @6;
promptRepeat @7;
promptDistracted @8;
}
}
gasDEPRECATED @1 :Float32;
brakeDEPRECATED @2 :Float32;
steeringTorqueDEPRECATED @3 :Float32;
activeDEPRECATED @7 :Bool;
rollDEPRECATED @8 :Float32;
pitchDEPRECATED @9 :Float32;
}
# ****** car param ******
@@ -321,32 +427,32 @@ struct CarControl {
struct CarParams {
carName @0 :Text;
carFingerprint @1 :Text;
fuzzyFingerprint @55 :Bool;
notCar @66 :Bool; # flag for non-car robotics platforms
enableGasInterceptor @2 :Bool;
enableCruise @3 :Bool;
enableCamera @4 :Bool;
enableDsu @5 :Bool; # driving support unit
enableApgs @6 :Bool; # advanced parking guidance system
pcmCruise @3 :Bool; # is openpilot's state tied to the PCM's cruise state?
enableDsu @5 :Bool; # driving support unit
enableBsm @56 :Bool; # blind spot monitoring
flags @64 :UInt32; # flags for car specific quirks
experimentalLongitudinalAvailable @71 :Bool;
minEnableSpeed @7 :Float32;
minSteerSpeed @8 :Float32;
safetyModel @9 :SafetyModel;
safetyModelPassive @42 :SafetyModel = silent;
safetyParam @10 :Int16;
safetyConfigs @62 :List(SafetyConfig);
alternativeExperience @65 :Int16; # panda flag for features like no disengage on gas
steerMaxBP @11 :List(Float32);
steerMaxV @12 :List(Float32);
gasMaxBP @13 :List(Float32);
gasMaxV @14 :List(Float32);
brakeMaxBP @15 :List(Float32);
brakeMaxV @16 :List(Float32);
# Car docs fields
maxLateralAccel @68 :Float32;
autoResumeSng @69 :Bool; # describes whether car can resume from a stop automatically
# things about the car in the manual
mass @17 :Float32; # [kg] running weight
wheelbase @18 :Float32; # [m] distance from rear to front axle
centerToFront @19 :Float32; # [m] GC distance to front axle
steerRatio @20 :Float32; # [] ratio between front wheels and steering wheel angles
steerRatioRear @21 :Float32; # [] rear steering ratio wrt front steering (usually 0)
mass @17 :Float32; # [kg] curb weight: all fluids no cargo
wheelbase @18 :Float32; # [m] distance from rear axle to front axle
centerToFront @19 :Float32; # [m] distance from center of mass to front axle
steerRatio @20 :Float32; # [] ratio of steering wheel angle to front wheel angle
steerRatioRear @21 :Float32; # [] ratio of steering wheel angle to rear wheel angle (usually 0)
# things we can derive
rotationalInertia @22 :Float32; # [kg*m2] body rotational inertia
@@ -359,29 +465,43 @@ struct CarParams {
pid @26 :LateralPIDTuning;
indi @27 :LateralINDITuning;
lqr @40 :LateralLQRTuning;
torque @67 :LateralTorqueTuning;
}
steerLimitAlert @28 :Bool;
steerLimitTimer @47 :Float32; # time before steerLimitAlert is issued
vEgoStopping @29 :Float32; # Speed at which the car goes into stopping state
directAccelControl @30 :Bool; # Does the car have direct accel control or just gas/brake
stoppingControl @31 :Bool; # Does the car allows full control even at lows speeds when stopping
startAccel @32 :Float32; # Required acceleraton to overcome creep braking
steerRateCost @33 :Float32; # Lateral MPC cost on steering rate
vEgoStarting @59 :Float32; # Speed at which the car goes into starting state
stoppingControl @31 :Bool; # Does the car allow full control even at lows speeds when stopping
steerControlType @34 :SteerControlType;
radarOffCan @35 :Bool; # True when radar objects aren't visible on CAN
stopAccel @60 :Float32; # Required acceleration to keep vehicle stationary
stoppingDecelRate @52 :Float32; # m/s^2/s while trying to stop
startAccel @32 :Float32; # Required acceleration to get car moving
startingState @70 :Bool; # Does this car make use of special starting state
steerActuatorDelay @36 :Float32; # Steering wheel actuator delay in seconds
longitudinalActuatorDelayLowerBound @61 :Float32; # Gas/Brake actuator delay in seconds, lower bound
longitudinalActuatorDelayUpperBound @58 :Float32; # Gas/Brake actuator delay in seconds, upper bound
openpilotLongitudinalControl @37 :Bool; # is openpilot doing the longitudinal control?
carVin @38 :Text; # VIN number queried during fingerprinting
isPandaBlack @39: Bool;
dashcamOnly @41: Bool;
transmissionType @43 :TransmissionType;
carFw @44 :List(CarFw);
radarTimeStep @45: Float32 = 0.05; # time delta between radar updates, 20Hz is very standard
communityFeature @46: Bool; # true if a community maintained feature is detected
fingerprintSource @49: FingerprintSource;
networkLocation @50 :NetworkLocation; # Where Panda/C2 is integrated into the car's CAN network
wheelSpeedFactor @63 :Float32; # Multiplier on wheels speeds to computer actual speeds
struct SafetyConfig {
safetyModel @0 :SafetyModel;
safetyParam @3 :UInt16;
safetyParamDEPRECATED @1 :Int16;
safetyParam2DEPRECATED @2 :UInt32;
}
struct LateralParams {
torqueBP @0 :List(Int32);
@@ -396,20 +516,41 @@ struct CarParams {
kf @4 :Float32;
}
struct LateralTorqueTuning {
useSteeringAngle @0 :Bool;
kp @1 :Float32;
ki @2 :Float32;
friction @3 :Float32;
kf @4 :Float32;
steeringAngleDeadzoneDeg @5 :Float32;
latAccelFactor @6 :Float32;
latAccelOffset @7 :Float32;
}
struct LongitudinalPIDTuning {
kpBP @0 :List(Float32);
kpV @1 :List(Float32);
kiBP @2 :List(Float32);
kiV @3 :List(Float32);
kf @6 :Float32;
deadzoneBP @4 :List(Float32);
deadzoneV @5 :List(Float32);
}
struct LateralINDITuning {
outerLoopGain @0 :Float32;
innerLoopGain @1 :Float32;
timeConstant @2 :Float32;
actuatorEffectiveness @3 :Float32;
outerLoopGainBP @4 :List(Float32);
outerLoopGainV @5 :List(Float32);
innerLoopGainBP @6 :List(Float32);
innerLoopGainV @7 :List(Float32);
timeConstantBP @8 :List(Float32);
timeConstantV @9 :List(Float32);
actuatorEffectivenessBP @10 :List(Float32);
actuatorEffectivenessV @11 :List(Float32);
outerLoopGainDEPRECATED @0 :Float32;
innerLoopGainDEPRECATED @1 :Float32;
timeConstantDEPRECATED @2 :Float32;
actuatorEffectivenessDEPRECATED @3 :Float32;
}
struct LateralLQRTuning {
@@ -447,39 +588,74 @@ struct CarParams {
allOutput @17;
gmAscm @18;
noOutput @19; # like silent but without silent CAN TXs
hondaBoschHarness @20;
hondaBosch @20;
volkswagenPq @21;
subaruLegacy @22; # pre-Global platform
hyundaiLegacy @23;
hyundaiCommunity @24;
stellantisDEPRECATED @25; # Consolidated with Chrysler; may be recycled for the next new model
hongqi @26;
body @27;
hyundaiCanfd @28;
}
enum SteerControlType {
torque @0;
angle @1;
curvature @2;
}
enum TransmissionType {
unknown @0;
automatic @1;
manual @2;
automatic @1; # Traditional auto, including DSG
manual @2; # True "stick shift" only
direct @3; # Electric vehicle or other direct drive
cvt @4;
}
struct CarFw {
ecu @0 :Ecu;
fwVersion @1 :Data;
address @2: UInt32;
subAddress @3: UInt8;
address @2 :UInt32;
subAddress @3 :UInt8;
responseAddress @4 :UInt32;
request @5 :List(Data);
brand @6 :Text;
bus @7 :UInt8;
}
enum Ecu {
eps @0;
esp @1;
abs @1;
fwdRadar @2;
fwdCamera @3;
engine @4;
unknown @5;
transmission @8; # Transmission Control Module
srs @9; # airbag
gateway @10; # can gateway
hud @11; # heads up display
combinationMeter @12; # instrument cluster
electricBrakeBooster @15;
shiftByWire @16;
adas @19;
cornerRadar @21;
# Toyota only
dsu @6;
apgs @7;
# Honda only
vsa @13; # Vehicle Stability Assist
programmedFuelInjection @14;
# Chrysler only
hcp @18; # Hybrid Control Processor
# Hyundai only
vcu @20; # Vehicle (Motor) Control Unit
debug @17;
}
enum FingerprintSource {
@@ -487,4 +663,29 @@ struct CarParams {
fw @1;
fixed @2;
}
enum NetworkLocation {
fwdCamera @0; # Standard/default integration at LKAS camera
gateway @1; # Integration at vehicle's CAN gateway
}
enableCameraDEPRECATED @4 :Bool;
enableApgsDEPRECATED @6 :Bool;
steerRateCostDEPRECATED @33 :Float32;
isPandaBlackDEPRECATED @39 :Bool;
hasStockCameraDEPRECATED @57 :Bool;
safetyParamDEPRECATED @10 :Int16;
safetyModelDEPRECATED @9 :SafetyModel;
safetyModelPassiveDEPRECATED @42 :SafetyModel = silent;
minSpeedCanDEPRECATED @51 :Float32;
communityFeatureDEPRECATED @46: Bool;
startingAccelRateDEPRECATED @53 :Float32;
steerMaxBPDEPRECATED @11 :List(Float32);
steerMaxVDEPRECATED @12 :List(Float32);
gasMaxBPDEPRECATED @13 :List(Float32);
gasMaxVDEPRECATED @14 :List(Float32);
brakeMaxBPDEPRECATED @15 :List(Float32);
brakeMaxVDEPRECATED @16 :List(Float32);
directAccelControlDEPRECATED @30 :Bool;
maxSteeringAngleDegDEPRECATED @54 :Float32;
}
cereal/codecov.yml
+8
View File
@@ -0,0 +1,8 @@
comment: false
coverage:
status:
project:
default:
informational: true
patch: off
cereal/dp.capnp
+50
View File
@@ -0,0 +1,50 @@
using Cxx = import "./include/c++.capnp";
$Cxx.namespace("cereal");
@0xbfa7e645486440c7;
# dp
struct DragonConf {
dpAtl @0 :UInt8;
dpLocale @1 :Text;
dpLateralMode @2 :UInt8;
dpLcMinMph @3 :UInt8;
dpLcAutoMinMph @4 :UInt8;
dpLcAutoDelay @5 :Float32;
dpLateralLanelines @6 :Bool;
dpLateralCameraOffset @7 :Int8;
dpLateralPathOffset @8 :Int8;
dpIpAddr @9 :Text;
dpUiTop @10 :Bool;
dpUiSide @11 :Bool;
dpUiVolume @12 :Int8;
dpUiBrightness @13 :UInt8;
dpUiDisplayMode @14 :UInt8;
dpUiSpeed @15 :Bool;
dpUiEvent @16 :Bool;
dpUiFace @17 :Bool;
dpUiLeadInfo @18 :Bool;
dpUiLaneline @19 :Bool;
dpUiChevron @20 :Bool;
dpUiDmCam @21 :Bool;
dpToyotaSng @22 :Bool;
dpAccelProfileCtrl @23 :Bool;
dpAccelProfile @24 :UInt8;
dpToyotaCruiseOverride @25 :Bool;
dpToyotaCruiseOverrideSpeed @26 :UInt8;
dpToyotaAutoLock @27 :Bool;
dpToyotaAutoUnlock @28 :Bool;
dpMapd @29 :Bool;
dpLocalDb @30 :Bool;
dpDashcamd @31 :Bool;
dpMazdaSteerAlert @32 :Bool;
dpSpeedCheck @33 :Bool;
dpFollowingProfileCtrl @34 :Bool;
dpFollowingProfile @35 :UInt8;
dpE2EConditional @36 :Bool;
dpE2EConditionalAtSpeed @37 :UInt8;
dpE2EConditionalAtSpeedLead @38 :UInt8;
dpE2EConditionalAdaptFp @39 :Bool;
dpE2EConditionalAdaptAp @40 :Bool;
dpE2EConditionalVoacc @41 :Bool;
}
cereal/include/java.capnp
-28
View File
@@ -1,28 +0,0 @@
# Copyright (c) 2013-2015 Sandstorm Development Group, Inc. and contributors
# Licensed under the MIT License:
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
@0xc5f1af96651f70ea;
annotation package @0x9ee4c8f803b3b596 (file) : Text;
# Name of the package, such as "org.example.foo", in which the generated code will reside.
annotation outerClassname @0x9b066bb4881f7cd3 (file) : Text;
# Name of the outer class that will wrap the generated code.
cereal/install_capnp.sh
-40
View File
@@ -1,40 +0,0 @@
set -e
echo "Installing capnp"
cd /tmp
VERSION=0.6.1
wget https://capnproto.org/capnproto-c++-${VERSION}.tar.gz
tar xvf capnproto-c++-${VERSION}.tar.gz
cd capnproto-c++-${VERSION}
CXXFLAGS="-fPIC" ./configure
make -j$(nproc)
make install
# manually build binaries statically
g++ -std=gnu++11 -I./src -I./src -DKJ_HEADER_WARNINGS -DCAPNP_HEADER_WARNINGS -DCAPNP_INCLUDE_DIR=\"/usr/local/include\" -pthread -O2 -DNDEBUG -pthread -pthread -o .libs/capnp src/capnp/compiler/module-loader.o src/capnp/compiler/capnp.o ./.libs/libcapnpc.a ./.libs/libcapnp.a ./.libs/libkj.a -lpthread -pthread
g++ -std=gnu++11 -I./src -I./src -DKJ_HEADER_WARNINGS -DCAPNP_HEADER_WARNINGS -DCAPNP_INCLUDE_DIR=\"/usr/local/include\" -pthread -O2 -DNDEBUG -pthread -pthread -o .libs/capnpc-c++ src/capnp/compiler/capnpc-c++.o ./.libs/libcapnp.a ./.libs/libkj.a -lpthread -pthread
g++ -std=gnu++11 -I./src -I./src -DKJ_HEADER_WARNINGS -DCAPNP_HEADER_WARNINGS -DCAPNP_INCLUDE_DIR=\"/usr/local/include\" -pthread -O2 -DNDEBUG -pthread -pthread -o .libs/capnpc-capnp src/capnp/compiler/capnpc-capnp.o ./.libs/libcapnp.a ./.libs/libkj.a -lpthread -pthread
cp .libs/capnp /usr/local/bin/
cp .libs/capnpc-c++ /usr/local/bin/
cp .libs/capnpc-capnp /usr/local/bin/
cp .libs/*.a /usr/local/lib
cd /tmp
echo "Installing c-capnp"
git clone https://github.com/commaai/c-capnproto.git
cd c-capnproto
git submodule update --init --recursive
autoreconf -f -i -s
CXXFLAGS="-fPIC" ./configure
make -j$(nproc)
make install
# manually build binaries statically
gcc -fPIC -o .libs/capnpc-c compiler/capnpc-c.o compiler/schema.capnp.o compiler/str.o ./.libs/libcapnp_c.a
cp .libs/capnpc-c /usr/local/bin/
cp .libs/*.a /usr/local/lib
cereal/legacy.capnp
+574
View File
@@ -0,0 +1,574 @@
using Cxx = import "./include/c++.capnp";
$Cxx.namespace("cereal");
@0x80ef1ec4889c2a63;
# legacy.capnp: a home for deprecated structs
struct LogRotate @0x9811e1f38f62f2d1 {
segmentNum @0 :Int32;
path @1 :Text;
}
struct LiveUI @0xc08240f996aefced {
rearViewCam @0 :Bool;
alertText1 @1 :Text;
alertText2 @2 :Text;
awarenessStatus @3 :Float32;
}
struct UiLayoutState @0x88dcce08ad29dda0 {
activeApp @0 :App;
sidebarCollapsed @1 :Bool;
mapEnabled @2 :Bool;
mockEngaged @3 :Bool;
enum App @0x9917470acf94d285 {
home @0;
music @1;
nav @2;
settings @3;
none @4;
}
}
struct OrbslamCorrection @0x8afd33dc9b35e1aa {
correctionMonoTime @0 :UInt64;
prePositionECEF @1 :List(Float64);
postPositionECEF @2 :List(Float64);
prePoseQuatECEF @3 :List(Float32);
postPoseQuatECEF @4 :List(Float32);
numInliers @5 :UInt32;
}
struct EthernetPacket @0xa99a9d5b33cf5859 {
pkt @0 :Data;
ts @1 :Float32;
}
struct CellInfo @0xcff7566681c277ce {
timestamp @0 :UInt64;
repr @1 :Text; # android toString() for now
}
struct WifiScan @0xd4df5a192382ba0b {
bssid @0 :Text;
ssid @1 :Text;
capabilities @2 :Text;
frequency @3 :Int32;
level @4 :Int32;
timestamp @5 :Int64;
centerFreq0 @6 :Int32;
centerFreq1 @7 :Int32;
channelWidth @8 :ChannelWidth;
operatorFriendlyName @9 :Text;
venueName @10 :Text;
is80211mcResponder @11 :Bool;
passpoint @12 :Bool;
distanceCm @13 :Int32;
distanceSdCm @14 :Int32;
enum ChannelWidth @0xcb6a279f015f6b51 {
w20Mhz @0;
w40Mhz @1;
w80Mhz @2;
w160Mhz @3;
w80Plus80Mhz @4;
}
}
struct LiveEventData @0x94b7baa90c5c321e {
name @0 :Text;
value @1 :Int32;
}
struct ModelData @0xb8aad62cffef28a9 {
frameId @0 :UInt32;
frameAge @12 :UInt32;
frameDropPerc @13 :Float32;
timestampEof @9 :UInt64;
modelExecutionTime @14 :Float32;
gpuExecutionTime @16 :Float32;
rawPred @15 :Data;
path @1 :PathData;
leftLane @2 :PathData;
rightLane @3 :PathData;
lead @4 :LeadData;
freePath @6 :List(Float32);
settings @5 :ModelSettings;
leadFuture @7 :LeadData;
speed @8 :List(Float32);
meta @10 :MetaData;
longitudinal @11 :LongitudinalData;
struct PathData @0x8817eeea389e9f08 {
points @0 :List(Float32);
prob @1 :Float32;
std @2 :Float32;
stds @3 :List(Float32);
poly @4 :List(Float32);
validLen @5 :Float32;
}
struct LeadData @0xd1c9bef96d26fa91 {
dist @0 :Float32;
prob @1 :Float32;
std @2 :Float32;
relVel @3 :Float32;
relVelStd @4 :Float32;
relY @5 :Float32;
relYStd @6 :Float32;
relA @7 :Float32;
relAStd @8 :Float32;
}
struct ModelSettings @0xa26e3710efd3e914 {
bigBoxX @0 :UInt16;
bigBoxY @1 :UInt16;
bigBoxWidth @2 :UInt16;
bigBoxHeight @3 :UInt16;
boxProjection @4 :List(Float32);
yuvCorrection @5 :List(Float32);
inputTransform @6 :List(Float32);
}
struct MetaData @0x9744f25fb60f2bf8 {
engagedProb @0 :Float32;
desirePrediction @1 :List(Float32);
brakeDisengageProb @2 :Float32;
gasDisengageProb @3 :Float32;
steerOverrideProb @4 :Float32;
desireState @5 :List(Float32);
}
struct LongitudinalData @0xf98f999c6a071122 {
distances @2 :List(Float32);
speeds @0 :List(Float32);
accelerations @1 :List(Float32);
}
}
struct ECEFPoint @0xc25bbbd524983447 {
x @0 :Float64;
y @1 :Float64;
z @2 :Float64;
}
struct ECEFPointDEPRECATED @0xe10e21168db0c7f7 {
x @0 :Float32;
y @1 :Float32;
z @2 :Float32;
}
struct GPSPlannerPoints @0xab54c59699f8f9f3 {
curPosDEPRECATED @0 :ECEFPointDEPRECATED;
pointsDEPRECATED @1 :List(ECEFPointDEPRECATED);
curPos @6 :ECEFPoint;
points @7 :List(ECEFPoint);
valid @2 :Bool;
trackName @3 :Text;
speedLimit @4 :Float32;
accelTarget @5 :Float32;
}
struct GPSPlannerPlan @0xf5ad1d90cdc1dd6b {
valid @0 :Bool;
poly @1 :List(Float32);
trackName @2 :Text;
speed @3 :Float32;
acceleration @4 :Float32;
pointsDEPRECATED @5 :List(ECEFPointDEPRECATED);
points @6 :List(ECEFPoint);
xLookahead @7 :Float32;
}
struct UiNavigationEvent @0x90c8426c3eaddd3b {
type @0: Type;
status @1: Status;
distanceTo @2: Float32;
endRoadPointDEPRECATED @3: ECEFPointDEPRECATED;
endRoadPoint @4: ECEFPoint;
enum Type @0xe8db07dcf8fcea05 {
none @0;
laneChangeLeft @1;
laneChangeRight @2;
mergeLeft @3;
mergeRight @4;
turnLeft @5;
turnRight @6;
}
enum Status @0xb9aa88c75ef99a1f {
none @0;
passive @1;
approaching @2;
active @3;
}
}
struct LiveLocationData @0xb99b2bc7a57e8128 {
status @0 :UInt8;
# 3D fix
lat @1 :Float64;
lon @2 :Float64;
alt @3 :Float32; # m
# speed
speed @4 :Float32; # m/s
# NED velocity components
vNED @5 :List(Float32);
# roll, pitch, heading (x,y,z)
roll @6 :Float32; # WRT to center of earth?
pitch @7 :Float32; # WRT to center of earth?
heading @8 :Float32; # WRT to north?
# what are these?
wanderAngle @9 :Float32;
trackAngle @10 :Float32;
# car frame -- https://upload.wikimedia.org/wikipedia/commons/f/f5/RPY_angles_of_cars.png
# gyro, in car frame, deg/s
gyro @11 :List(Float32);
# accel, in car frame, m/s^2
accel @12 :List(Float32);
accuracy @13 :Accuracy;
source @14 :SensorSource;
# if we are fixing a location in the past
fixMonoTime @15 :UInt64;
gpsWeek @16 :Int32;
timeOfWeek @17 :Float64;
positionECEF @18 :List(Float64);
poseQuatECEF @19 :List(Float32);
pitchCalibration @20 :Float32;
yawCalibration @21 :Float32;
imuFrame @22 :List(Float32);
struct Accuracy @0x943dc4625473b03f {
pNEDError @0 :List(Float32);
vNEDError @1 :List(Float32);
rollError @2 :Float32;
pitchError @3 :Float32;
headingError @4 :Float32;
ellipsoidSemiMajorError @5 :Float32;
ellipsoidSemiMinorError @6 :Float32;
ellipsoidOrientationError @7 :Float32;
}
enum SensorSource @0xc871d3cc252af657 {
applanix @0;
kalman @1;
orbslam @2;
timing @3;
dummy @4;
}
}
struct OrbOdometry @0xd7700859ed1f5b76 {
# timing first
startMonoTime @0 :UInt64;
endMonoTime @1 :UInt64;
# fundamental matrix and error
f @2: List(Float64);
err @3: Float64;
# number of inlier points
inliers @4: Int32;
# for debug only
# indexed by endMonoTime features
# value is startMonoTime feature match
# -1 if no match
matches @5: List(Int16);
}
struct OrbFeatures @0xcd60164a8a0159ef {
timestampEof @0 :UInt64;
# transposed arrays of normalized image coordinates
# len(xs) == len(ys) == len(descriptors) * 32
xs @1 :List(Float32);
ys @2 :List(Float32);
descriptors @3 :Data;
octaves @4 :List(Int8);
# match index to last OrbFeatures
# -1 if no match
timestampLastEof @5 :UInt64;
matches @6: List(Int16);
}
struct OrbFeaturesSummary @0xd500d30c5803fa4f {
timestampEof @0 :UInt64;
timestampLastEof @1 :UInt64;
featureCount @2 :UInt16;
matchCount @3 :UInt16;
computeNs @4 :UInt64;
}
struct OrbKeyFrame @0xc8233c0345e27e24 {
# this is a globally unique id for the KeyFrame
id @0: UInt64;
# this is the location of the KeyFrame
pos @1: ECEFPoint;
# these are the features in the world
# len(dpos) == len(descriptors) * 32
dpos @2 :List(ECEFPoint);
descriptors @3 :Data;
}
struct KalmanOdometry @0x92e21bb7ea38793a {
trans @0 :List(Float32); # m/s in device frame
rot @1 :List(Float32); # rad/s in device frame
transStd @2 :List(Float32); # std m/s in device frame
rotStd @3 :List(Float32); # std rad/s in device frame
}
struct OrbObservation @0x9b326d4e436afec7 {
observationMonoTime @0 :UInt64;
normalizedCoordinates @1 :List(Float32);
locationECEF @2 :List(Float64);
matchDistance @3: UInt32;
}
struct CalibrationFeatures @0x8fdfadb254ea867a {
frameId @0 :UInt32;
p0 @1 :List(Float32);
p1 @2 :List(Float32);
status @3 :List(Int8);
}
struct NavStatus @0xbd8822120928120c {
isNavigating @0 :Bool;
currentAddress @1 :Address;
struct Address @0xce7cd672cacc7814 {
title @0 :Text;
lat @1 :Float64;
lng @2 :Float64;
house @3 :Text;
address @4 :Text;
street @5 :Text;
city @6 :Text;
state @7 :Text;
country @8 :Text;
}
}
struct NavUpdate @0xdb98be6565516acb {
isNavigating @0 :Bool;
curSegment @1 :Int32;
segments @2 :List(Segment);
struct LatLng @0x9eaef9187cadbb9b {
lat @0 :Float64;
lng @1 :Float64;
}
struct Segment @0xa5b39b4fc4d7da3f {
from @0 :LatLng;
to @1 :LatLng;
updateTime @2 :Int32;
distance @3 :Int32;
crossTime @4 :Int32;
exitNo @5 :Int32;
instruction @6 :Instruction;
parts @7 :List(LatLng);
enum Instruction @0xc5417a637451246f {
turnLeft @0;
turnRight @1;
keepLeft @2;
keepRight @3;
straight @4;
roundaboutExitNumber @5;
roundaboutExit @6;
roundaboutTurnLeft @7;
unkn8 @8;
roundaboutStraight @9;
unkn10 @10;
roundaboutTurnRight @11;
unkn12 @12;
roundaboutUturn @13;
unkn14 @14;
arrive @15;
exitLeft @16;
exitRight @17;
unkn18 @18;
uturn @19;
# ...
}
}
}
struct TrafficEvent @0xacfa74a094e62626 {
type @0 :Type;
distance @1 :Float32;
action @2 :Action;
resuming @3 :Bool;
enum Type @0xd85d75253435bf4b {
stopSign @0;
lightRed @1;
lightYellow @2;
lightGreen @3;
stopLight @4;
}
enum Action @0xa6f6ce72165ccb49 {
none @0;
yield @1;
stop @2;
resumeReady @3;
}
}
struct AndroidGnss @0xdfdf30d03fc485bd {
union {
measurements @0 :Measurements;
navigationMessage @1 :NavigationMessage;
}
struct Measurements @0xa20710d4f428d6cd {
clock @0 :Clock;
measurements @1 :List(Measurement);
struct Clock @0xa0e27b453a38f450 {
timeNanos @0 :Int64;
hardwareClockDiscontinuityCount @1 :Int32;
hasTimeUncertaintyNanos @2 :Bool;
timeUncertaintyNanos @3 :Float64;
hasLeapSecond @4 :Bool;
leapSecond @5 :Int32;
hasFullBiasNanos @6 :Bool;
fullBiasNanos @7 :Int64;
hasBiasNanos @8 :Bool;
biasNanos @9 :Float64;
hasBiasUncertaintyNanos @10 :Bool;
biasUncertaintyNanos @11 :Float64;
hasDriftNanosPerSecond @12 :Bool;
driftNanosPerSecond @13 :Float64;
hasDriftUncertaintyNanosPerSecond @14 :Bool;
driftUncertaintyNanosPerSecond @15 :Float64;
}
struct Measurement @0xd949bf717d77614d {
svId @0 :Int32;
constellation @1 :Constellation;
timeOffsetNanos @2 :Float64;
state @3 :Int32;
receivedSvTimeNanos @4 :Int64;
receivedSvTimeUncertaintyNanos @5 :Int64;
cn0DbHz @6 :Float64;
pseudorangeRateMetersPerSecond @7 :Float64;
pseudorangeRateUncertaintyMetersPerSecond @8 :Float64;
accumulatedDeltaRangeState @9 :Int32;
accumulatedDeltaRangeMeters @10 :Float64;
accumulatedDeltaRangeUncertaintyMeters @11 :Float64;
hasCarrierFrequencyHz @12 :Bool;
carrierFrequencyHz @13 :Float32;
hasCarrierCycles @14 :Bool;
carrierCycles @15 :Int64;
hasCarrierPhase @16 :Bool;
carrierPhase @17 :Float64;
hasCarrierPhaseUncertainty @18 :Bool;
carrierPhaseUncertainty @19 :Float64;
hasSnrInDb @20 :Bool;
snrInDb @21 :Float64;
multipathIndicator @22 :MultipathIndicator;
enum Constellation @0x9ef1f3ff0deb5ffb {
unknown @0;
gps @1;
sbas @2;
glonass @3;
qzss @4;
beidou @5;
galileo @6;
}
enum State @0xcbb9490adce12d72 {
unknown @0;
codeLock @1;
bitSync @2;
subframeSync @3;
towDecoded @4;
msecAmbiguous @5;
symbolSync @6;
gloStringSync @7;
gloTodDecoded @8;
bdsD2BitSync @9;
bdsD2SubframeSync @10;
galE1bcCodeLock @11;
galE1c2ndCodeLock @12;
galE1bPageSync @13;
sbasSync @14;
}
enum MultipathIndicator @0xc04e7b6231d4caa8 {
unknown @0;
detected @1;
notDetected @2;
}
}
}
struct NavigationMessage @0xe2517b083095fd4e {
type @0 :Int32;
svId @1 :Int32;
messageId @2 :Int32;
submessageId @3 :Int32;
data @4 :Data;
status @5 :Status;
enum Status @0xec1ff7996b35366f {
unknown @0;
parityPassed @1;
parityRebuilt @2;
}
}
}
struct LidarPts @0xe3d6685d4e9d8f7a {
r @0 :List(UInt16); # uint16 m*500.0
theta @1 :List(UInt16); # uint16 deg*100.0
reflect @2 :List(UInt8); # uint8 0-255
# For storing out of file.
idx @3 :UInt64;
# For storing in file
pkt @4 :Data;
}
cereal/libcereal_shared.so
Executable
BIN
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Binary file not shown.
cereal/log.capnp
+1343 -1095
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File diff suppressed because it is too large Load Diff
cereal/logger/logger.h
+21
View File
@@ -0,0 +1,21 @@
#pragma once
#ifdef SWAGLOG
// cppcheck-suppress preprocessorErrorDirective
#include SWAGLOG
#else
#define CLOUDLOG_DEBUG 10
#define CLOUDLOG_INFO 20
#define CLOUDLOG_WARNING 30
#define CLOUDLOG_ERROR 40
#define CLOUDLOG_CRITICAL 50
#define cloudlog(lvl, fmt, ...) printf(fmt "\n", ## __VA_ARGS__)
#define LOGD(fmt, ...) cloudlog(CLOUDLOG_DEBUG, fmt, ## __VA_ARGS__)
#define LOG(fmt, ...) cloudlog(CLOUDLOG_INFO, fmt, ## __VA_ARGS__)
#define LOGW(fmt, ...) cloudlog(CLOUDLOG_WARNING, fmt, ## __VA_ARGS__)
#define LOGE(fmt, ...) cloudlog(CLOUDLOG_ERROR, fmt, ## __VA_ARGS__)
#endif
cereal/maptile.capnp
-4
View File
@@ -1,10 +1,6 @@
using Cxx = import "./include/c++.capnp";
$Cxx.namespace("cereal");
using Java = import "./include/java.capnp";
$Java.package("ai.comma.openpilot.cereal");
$Java.outerClassname("Map");
@0xa086df597ef5d7a0;
# Geometry
cereal/messaging/__init__.py
+107 -66
View File
@@ -1,13 +1,21 @@
# must be build with scons
from .messaging_pyx import Context, Poller, SubSocket, PubSocket # pylint: disable=no-name-in-module, import-error
from .messaging_pyx import MultiplePublishersError, MessagingError # pylint: disable=no-name-in-module, import-error
import os
import capnp
from typing import Optional, List, Union
from collections import deque
from cereal import log
from cereal.services import service_list
assert MultiplePublishersError
assert MessagingError
from cereal import log
from cereal.services import service_list
NO_TRAVERSAL_LIMIT = 2**64-1
AVG_FREQ_HISTORY = 100
SIMULATION = "SIMULATION" in os.environ
# sec_since_boot is faster, but allow to run standalone too
try:
@@ -19,21 +27,29 @@ except ImportError:
context = Context()
def new_message():
def log_from_bytes(dat: bytes) -> capnp.lib.capnp._DynamicStructReader:
return log.Event.from_bytes(dat, traversal_limit_in_words=NO_TRAVERSAL_LIMIT)
def new_message(service: Optional[str] = None, size: Optional[int] = None) -> capnp.lib.capnp._DynamicStructBuilder:
dat = log.Event.new_message()
dat.logMonoTime = int(sec_since_boot() * 1e9)
dat.valid = True
if service is not None:
if size is None:
dat.init(service)
else:
dat.init(service, size)
return dat
def pub_sock(endpoint):
def pub_sock(endpoint: str) -> PubSocket:
sock = PubSocket()
sock.connect(context, endpoint)
return sock
def sub_sock(endpoint, poller=None, addr="127.0.0.1", conflate=False, timeout=None):
def sub_sock(endpoint: str, poller: Optional[Poller] = None, addr: str = "127.0.0.1",
conflate: bool = False, timeout: Optional[int] = None) -> SubSocket:
sock = SubSocket()
addr = addr.encode('utf8')
sock.connect(context, endpoint, addr, conflate)
sock.connect(context, endpoint, addr.encode('utf8'), conflate)
if timeout is not None:
sock.setTimeout(timeout)
@@ -43,9 +59,9 @@ def sub_sock(endpoint, poller=None, addr="127.0.0.1", conflate=False, timeout=No
return sock
def drain_sock_raw(sock, wait_for_one=False):
def drain_sock_raw(sock: SubSocket, wait_for_one: bool = False) -> List[bytes]:
"""Receive all message currently available on the queue"""
ret = []
ret: List[bytes] = []
while 1:
if wait_for_one and len(ret) == 0:
dat = sock.receive()
@@ -59,26 +75,26 @@ def drain_sock_raw(sock, wait_for_one=False):
return ret
def drain_sock(sock, wait_for_one=False):
def drain_sock(sock: SubSocket, wait_for_one: bool = False) -> List[capnp.lib.capnp._DynamicStructReader]:
"""Receive all message currently available on the queue"""
ret = []
ret: List[capnp.lib.capnp._DynamicStructReader] = []
while 1:
if wait_for_one and len(ret) == 0:
dat = sock.receive()
else:
dat = sock.receive(non_blocking=True)
if dat is None: # Timeout hit
if dat is None: # Timeout hit
break
dat = log.Event.from_bytes(dat)
dat = log_from_bytes(dat)
ret.append(dat)
return ret
# TODO: print when we drop packets?
def recv_sock(sock, wait=False):
def recv_sock(sock: SubSocket, wait: bool = False) -> Optional[capnp.lib.capnp._DynamicStructReader]:
"""Same as drain sock, but only returns latest message. Consider using conflate instead."""
dat = None
@@ -88,88 +104,88 @@ def recv_sock(sock, wait=False):
else:
rcv = sock.receive(non_blocking=True)
if rcv is None: # Timeout hit
if rcv is None: # Timeout hit
break
dat = rcv
if dat is not None:
dat = log.Event.from_bytes(dat)
dat = log_from_bytes(dat)
return dat
def recv_one(sock):
def recv_one(sock: SubSocket) -> Optional[capnp.lib.capnp._DynamicStructReader]:
dat = sock.receive()
if dat is not None:
dat = log.Event.from_bytes(dat)
dat = log_from_bytes(dat)
return dat
def recv_one_or_none(sock):
def recv_one_or_none(sock: SubSocket) -> Optional[capnp.lib.capnp._DynamicStructReader]:
dat = sock.receive(non_blocking=True)
if dat is not None:
dat = log.Event.from_bytes(dat)
dat = log_from_bytes(dat)
return dat
def recv_one_retry(sock):
def recv_one_retry(sock: SubSocket) -> capnp.lib.capnp._DynamicStructReader:
"""Keep receiving until we get a message"""
while True:
dat = sock.receive()
if dat is not None:
return log.Event.from_bytes(dat)
return log_from_bytes(dat)
# TODO: This does not belong in messaging
def get_one_can(logcan):
while True:
can = recv_one_retry(logcan)
if len(can.can) > 0:
return can
class SubMaster():
def __init__(self, services, ignore_alive=None, addr="127.0.0.1"):
self.poller = Poller()
class SubMaster:
def __init__(self, services: List[str], poll: Optional[List[str]] = None,
ignore_alive: Optional[List[str]] = None, ignore_avg_freq: Optional[List[str]] = None,
addr: str = "127.0.0.1"):
self.frame = -1
self.updated = {s : False for s in services}
self.rcv_time = {s : 0. for s in services}
self.rcv_frame = {s : 0 for s in services}
self.alive = {s : False for s in services}
self.updated = {s: False for s in services}
self.rcv_time = {s: 0. for s in services}
self.rcv_frame = {s: 0 for s in services}
self.alive = {s: False for s in services}
self.freq_ok = {s: False for s in services}
self.recv_dts = {s: deque([0.0] * AVG_FREQ_HISTORY, maxlen=AVG_FREQ_HISTORY) for s in services}
self.sock = {}
self.freq = {}
self.data = {}
self.logMonoTime = {}
self.valid = {}
self.logMonoTime = {}
if ignore_alive is not None:
self.ignore_alive = ignore_alive
else:
self.ignore_alive = []
self.poller = Poller()
self.non_polled_services = [s for s in services if poll is not None and
len(poll) and s not in poll]
self.ignore_average_freq = [] if ignore_avg_freq is None else ignore_avg_freq
self.ignore_alive = [] if ignore_alive is None else ignore_alive
for s in services:
if addr is not None:
self.sock[s] = sub_sock(s, poller=self.poller, addr=addr, conflate=True)
p = self.poller if s not in self.non_polled_services else None
self.sock[s] = sub_sock(s, poller=p, addr=addr, conflate=True)
self.freq[s] = service_list[s].frequency
data = new_message()
try:
data.init(s)
except capnp.lib.capnp.KjException:
# lists
data.init(s, 0)
data = new_message(s)
except capnp.lib.capnp.KjException: # pylint: disable=c-extension-no-member
data = new_message(s, 0) # lists
self.data[s] = getattr(data, s)
self.logMonoTime[s] = 0
self.valid[s] = data.valid
def __getitem__(self, s):
def __getitem__(self, s: str) -> capnp.lib.capnp._DynamicStructReader:
return self.data[s]
def update(self, timeout=1000):
def update(self, timeout: int = 1000) -> None:
msgs = []
for sock in self.poller.poll(timeout):
msgs.append(recv_one_or_none(sock))
# non-blocking receive for non-polled sockets
for s in self.non_polled_services:
msgs.append(recv_one_or_none(self.sock[s]))
self.update_msgs(sec_since_boot(), msgs)
def update_msgs(self, cur_time, msgs):
# TODO: add optional input that specify the service to wait for
def update_msgs(self, cur_time: float, msgs: List[capnp.lib.capnp._DynamicStructReader]) -> None:
self.frame += 1
self.updated = dict.fromkeys(self.updated, False)
for msg in msgs:
@@ -178,44 +194,69 @@ class SubMaster():
s = msg.which()
self.updated[s] = True
if self.rcv_time[s] > 1e-5 and self.freq[s] > 1e-5 and (s not in self.non_polled_services) \
and (s not in self.ignore_average_freq):
self.recv_dts[s].append(cur_time - self.rcv_time[s])
self.rcv_time[s] = cur_time
self.rcv_frame[s] = self.frame
self.data[s] = getattr(msg, s)
self.logMonoTime[s] = msg.logMonoTime
self.valid[s] = msg.valid
for s in self.data:
# arbitrary small number to avoid float comparison. If freq is 0, we can skip the check
if self.freq[s] > 1e-5:
# alive if delay is within 10x the expected frequency
self.alive[s] = (cur_time - self.rcv_time[s]) < (10. / self.freq[s])
else:
if SIMULATION:
self.freq_ok[s] = True
self.alive[s] = True
def all_alive(self, service_list=None):
if not SIMULATION:
for s in self.data:
# arbitrary small number to avoid float comparison. If freq is 0, we can skip the check
if self.freq[s] > 1e-5:
# alive if delay is within 10x the expected frequency
self.alive[s] = (cur_time - self.rcv_time[s]) < (10. / self.freq[s])
# TODO: check if update frequency is high enough to not drop messages
# freq_ok if average frequency is higher than 90% of expected frequency
avg_dt = sum(self.recv_dts[s]) / AVG_FREQ_HISTORY
expected_dt = 1 / (self.freq[s] * 0.90)
self.freq_ok[s] = (avg_dt < expected_dt)
else:
self.freq_ok[s] = True
self.alive[s] = True
def all_alive(self, service_list=None) -> bool:
if service_list is None: # check all
service_list = self.alive.keys()
return all(self.alive[s] for s in service_list if s not in self.ignore_alive)
def all_valid(self, service_list=None):
def all_freq_ok(self, service_list=None) -> bool:
if service_list is None: # check all
service_list = self.alive.keys()
return all(self.freq_ok[s] for s in service_list if s not in self.ignore_alive)
def all_valid(self, service_list=None) -> bool:
if service_list is None: # check all
service_list = self.valid.keys()
return all(self.valid[s] for s in service_list)
def all_alive_and_valid(self, service_list=None):
def all_checks(self, service_list=None) -> bool:
if service_list is None: # check all
service_list = self.alive.keys()
return self.all_alive(service_list=service_list) and self.all_valid(service_list=service_list)
return self.all_alive(service_list=service_list) \
and self.all_freq_ok(service_list=service_list) \
and self.all_valid(service_list=service_list)
class PubMaster():
def __init__(self, services):
class PubMaster:
def __init__(self, services: List[str]):
self.sock = {}
for s in services:
self.sock[s] = pub_sock(s)
def send(self, s, dat):
# accept either bytes or capnp builder
def send(self, s: str, dat: Union[bytes, capnp.lib.capnp._DynamicStructBuilder]) -> None:
if not isinstance(dat, bytes):
dat = dat.to_bytes()
self.sock[s].send(dat)
def all_readers_updated(self, s: str) -> bool:
return self.sock[s].all_readers_updated()
cereal/messaging/bridge
Executable
BIN
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Binary file not shown.
cereal/messaging/bridge.cc
-64
View File
@@ -1,64 +0,0 @@
#include <iostream>
#include <string>
#include <cassert>
#include <csignal>
#include <map>
typedef void (*sighandler_t)(int sig);
#include "services.h"
#include "impl_msgq.hpp"
#include "impl_zmq.hpp"
void sigpipe_handler(int sig) {
assert(sig == SIGPIPE);
std::cout << "SIGPIPE received" << std::endl;
}
static std::vector<std::string> get_services() {
std::vector<std::string> name_list;
for (const auto& it : services) {
std::string name = it.name;
if (name == "plusFrame" || name == "uiLayoutState") continue;
name_list.push_back(name);
}
return name_list;
}
int main(void){
signal(SIGPIPE, (sighandler_t)sigpipe_handler);
auto endpoints = get_services();
std::map<SubSocket*, PubSocket*> sub2pub;
Context *zmq_context = new ZMQContext();
Context *msgq_context = new MSGQContext();
Poller *poller = new MSGQPoller();
for (auto endpoint: endpoints){
SubSocket * msgq_sock = new MSGQSubSocket();
msgq_sock->connect(msgq_context, endpoint, "127.0.0.1", false);
poller->registerSocket(msgq_sock);
PubSocket * zmq_sock = new ZMQPubSocket();
zmq_sock->connect(zmq_context, endpoint);
sub2pub[msgq_sock] = zmq_sock;
}
while (true){
for (auto sub_sock : poller->poll(100)){
Message * msg = sub_sock->receive();
if (msg == NULL) continue;
sub2pub[sub_sock]->sendMessage(msg);
delete msg;
}
}
return 0;
}
cereal/messaging/catch2/catch.hpp
-17075
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File diff suppressed because it is too large Load Diff
cereal/messaging/demo.cc
-50
View File
@@ -1,50 +0,0 @@
#include <iostream>
#include <cstddef>
#include <chrono>
#include <thread>
#include <cassert>
#include "messaging.hpp"
#include "impl_zmq.hpp"
#define MSGS 1e5
int main() {
Context * c = Context::create();
SubSocket * sub_sock = SubSocket::create(c, "controlsState");
PubSocket * pub_sock = PubSocket::create(c, "controlsState");
char data[8];
Poller * poller = Poller::create({sub_sock});
auto start = std::chrono::steady_clock::now();
for (uint64_t i = 0; i < MSGS; i++){
*(uint64_t*)data = i;
pub_sock->send(data, 8);
auto r = poller->poll(100);
for (auto p : r){
Message * m = p->receive();
uint64_t ii = *(uint64_t*)m->getData();
assert(i == ii);
delete m;
}
}
auto end = std::chrono::steady_clock::now();
double elapsed = std::chrono::duration_cast<std::chrono::nanoseconds>(end - start).count() / 1e9;
double throughput = ((double) MSGS / (double) elapsed);
std::cout << throughput << " msg/s" << std::endl;
delete poller;
delete sub_sock;
delete pub_sock;
delete c;
return 0;
}
cereal/messaging/demo.py
+1 -2
View File
@@ -1,6 +1,6 @@
import time
from messaging_pyx import Context, Poller, SubSocket, PubSocket # pylint: disable=no-name-in-module, import-error
from messaging_pyx import Context, Poller, SubSocket, PubSocket # pylint: disable=no-name-in-module, import-error
MSGS = 1e5
@@ -12,7 +12,6 @@ if __name__ == "__main__":
sub_sock.connect(c, "controlsState")
pub_sock.connect(c, "controlsState")
poller = Poller()
poller.registerSocket(sub_sock)
cereal/messaging/impl_msgq.cc
-195
View File
@@ -1,195 +0,0 @@
#include <cassert>
#include <cstring>
#include <iostream>
#include <cstdlib>
#include <csignal>
#include <cerrno>
#include "impl_msgq.hpp"
volatile sig_atomic_t msgq_do_exit = 0;
void sig_handler(int signal) {
assert(signal == SIGINT || signal == SIGTERM);
msgq_do_exit = 1;
}
MSGQContext::MSGQContext() {
}
MSGQContext::~MSGQContext() {
}
void MSGQMessage::init(size_t sz) {
size = sz;
data = new char[size];
}
void MSGQMessage::init(char * d, size_t sz) {
size = sz;
data = new char[size];
memcpy(data, d, size);
}
void MSGQMessage::takeOwnership(char * d, size_t sz) {
size = sz;
data = d;
}
void MSGQMessage::close() {
if (size > 0){
delete[] data;
}
size = 0;
}
MSGQMessage::~MSGQMessage() {
this->close();
}
int MSGQSubSocket::connect(Context *context, std::string endpoint, std::string address, bool conflate){
assert(context);
assert(address == "127.0.0.1");
q = new msgq_queue_t;
int r = msgq_new_queue(q, endpoint.c_str(), DEFAULT_SEGMENT_SIZE);
if (r != 0){
return r;
}
msgq_init_subscriber(q);
if (conflate){
q->read_conflate = true;
}
timeout = -1;
return 0;
}
Message * MSGQSubSocket::receive(bool non_blocking){
msgq_do_exit = 0;
void (*prev_handler_sigint)(int);
void (*prev_handler_sigterm)(int);
if (!non_blocking){
prev_handler_sigint = std::signal(SIGINT, sig_handler);
prev_handler_sigterm = std::signal(SIGTERM, sig_handler);
}
msgq_msg_t msg;
MSGQMessage *r = NULL;
int rc = msgq_msg_recv(&msg, q);
// Hack to implement blocking read with a poller. Don't use this
while (!non_blocking && rc == 0 && msgq_do_exit == 0){
msgq_pollitem_t items[1];
items[0].q = q;
int t = (timeout != -1) ? timeout : 100;
int n = msgq_poll(items, 1, t);
rc = msgq_msg_recv(&msg, q);
// The poll indicated a message was ready, but the receive failed. Try again
if (n == 1 && rc == 0){
continue;
}
if (timeout != -1){
break;
}
}
if (!non_blocking){
std::signal(SIGINT, prev_handler_sigint);
std::signal(SIGTERM, prev_handler_sigterm);
}
errno = msgq_do_exit ? EINTR : 0;
if (rc > 0){
if (msgq_do_exit){
msgq_msg_close(&msg); // Free unused message on exit
} else {
r = new MSGQMessage;
r->takeOwnership(msg.data, msg.size);
}
}
return (Message*)r;
}
void MSGQSubSocket::setTimeout(int t){
timeout = t;
}
MSGQSubSocket::~MSGQSubSocket(){
if (q != NULL){
msgq_close_queue(q);
delete q;
}
}
int MSGQPubSocket::connect(Context *context, std::string endpoint){
assert(context);
q = new msgq_queue_t;
msgq_new_queue(q, endpoint.c_str(), DEFAULT_SEGMENT_SIZE);
msgq_init_publisher(q);
return 0;
}
int MSGQPubSocket::sendMessage(Message *message){
msgq_msg_t msg;
msg.data = message->getData();
msg.size = message->getSize();
return msgq_msg_send(&msg, q);
}
int MSGQPubSocket::send(char *data, size_t size){
msgq_msg_t msg;
msg.data = data;
msg.size = size;
return msgq_msg_send(&msg, q);
}
MSGQPubSocket::~MSGQPubSocket(){
if (q != NULL){
msgq_close_queue(q);
delete q;
}
}
void MSGQPoller::registerSocket(SubSocket * socket){
assert(num_polls + 1 < MAX_POLLERS);
polls[num_polls].q = (msgq_queue_t*)socket->getRawSocket();
sockets.push_back(socket);
num_polls++;
}
std::vector<SubSocket*> MSGQPoller::poll(int timeout){
std::vector<SubSocket*> r;
msgq_poll(polls, num_polls, timeout);
for (size_t i = 0; i < num_polls; i++){
if (polls[i].revents){
r.push_back(sockets[i]);
}
}
return r;
}
cereal/messaging/impl_msgq.h
+65
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@@ -0,0 +1,65 @@
#pragma once
#include "messaging.h"
#include "msgq.h"
#include <zmq.h>
#include <string>
#define MAX_POLLERS 128
class MSGQContext : public Context {
private:
void * context = NULL;
public:
MSGQContext();
void * getRawContext() {return context;}
~MSGQContext();
};
class MSGQMessage : public Message {
private:
char * data;
size_t size;
public:
void init(size_t size);
void init(char *data, size_t size);
void takeOwnership(char *data, size_t size);
size_t getSize(){return size;}
char * getData(){return data;}
void close();
~MSGQMessage();
};
class MSGQSubSocket : public SubSocket {
private:
msgq_queue_t * q = NULL;
int timeout;
public:
int connect(Context *context, std::string endpoint, std::string address, bool conflate=false, bool check_endpoint=true);
void setTimeout(int timeout);
void * getRawSocket() {return (void*)q;}
Message *receive(bool non_blocking=false);
~MSGQSubSocket();
};
class MSGQPubSocket : public PubSocket {
private:
msgq_queue_t * q = NULL;
public:
int connect(Context *context, std::string endpoint, bool check_endpoint=true);
int sendMessage(Message *message);
int send(char *data, size_t size);
bool all_readers_updated();
~MSGQPubSocket();
};
class MSGQPoller : public Poller {
private:
std::vector<SubSocket*> sockets;
msgq_pollitem_t polls[MAX_POLLERS];
size_t num_polls = 0;
public:
void registerSocket(SubSocket *socket);
std::vector<SubSocket*> poll(int timeout);
~MSGQPoller(){};
};
cereal/messaging/impl_msgq.hpp
-64
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@@ -1,64 +0,0 @@
#pragma once
#include "messaging.hpp"
#include "msgq.hpp"
#include <zmq.h>
#include <string>
#define MAX_POLLERS 128
class MSGQContext : public Context {
private:
void * context = NULL;
public:
MSGQContext();
void * getRawContext() {return context;}
~MSGQContext();
};
class MSGQMessage : public Message {
private:
char * data;
size_t size;
public:
void init(size_t size);
void init(char *data, size_t size);
void takeOwnership(char *data, size_t size);
size_t getSize(){return size;}
char * getData(){return data;}
void close();
~MSGQMessage();
};
class MSGQSubSocket : public SubSocket {
private:
msgq_queue_t * q = NULL;
int timeout;
public:
int connect(Context *context, std::string endpoint, std::string address, bool conflate=false);
void setTimeout(int timeout);
void * getRawSocket() {return (void*)q;}
Message *receive(bool non_blocking=false);
~MSGQSubSocket();
};
class MSGQPubSocket : public PubSocket {
private:
msgq_queue_t * q = NULL;
public:
int connect(Context *context, std::string endpoint);
int sendMessage(Message *message);
int send(char *data, size_t size);
~MSGQPubSocket();
};
class MSGQPoller : public Poller {
private:
std::vector<SubSocket*> sockets;
msgq_pollitem_t polls[MAX_POLLERS];
size_t num_polls = 0;
public:
void registerSocket(SubSocket *socket);
std::vector<SubSocket*> poll(int timeout);
~MSGQPoller(){};
};
cereal/messaging/impl_zmq.cc
-155
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@@ -1,155 +0,0 @@
#include <cassert>
#include <cstring>
#include <iostream>
#include <cstdlib>
#include <cerrno>
#include <zmq.h>
#include "services.h"
#include "impl_zmq.hpp"
static int get_port(std::string endpoint) {
int port = -1;
for (const auto& it : services) {
std::string name = it.name;
if (name == endpoint) {
port = it.port;
break;
}
}
assert(port >= 0);
return port;
}
ZMQContext::ZMQContext() {
context = zmq_ctx_new();
}
ZMQContext::~ZMQContext() {
zmq_ctx_term(context);
}
void ZMQMessage::init(size_t sz) {
size = sz;
data = new char[size];
}
void ZMQMessage::init(char * d, size_t sz) {
size = sz;
data = new char[size];
memcpy(data, d, size);
}
void ZMQMessage::close() {
if (size > 0){
delete[] data;
}
size = 0;
}
ZMQMessage::~ZMQMessage() {
this->close();
}
int ZMQSubSocket::connect(Context *context, std::string endpoint, std::string address, bool conflate){
sock = zmq_socket(context->getRawContext(), ZMQ_SUB);
if (sock == NULL){
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 + ":";
full_endpoint += std::to_string(get_port(endpoint));
return zmq_connect(sock, full_endpoint.c_str());
}
Message * ZMQSubSocket::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 *r = NULL;
if (rc >= 0){
// Make a copy to ensure the data is aligned
r = new ZMQMessage;
r->init((char*)zmq_msg_data(&msg), zmq_msg_size(&msg));
}
zmq_msg_close(&msg);
return r;
}
void ZMQSubSocket::setTimeout(int timeout){
zmq_setsockopt(sock, ZMQ_RCVTIMEO, &timeout, sizeof(int));
}
ZMQSubSocket::~ZMQSubSocket(){
zmq_close(sock);
}
int ZMQPubSocket::connect(Context *context, std::string endpoint){
sock = zmq_socket(context->getRawContext(), ZMQ_PUB);
if (sock == NULL){
return -1;
}
full_endpoint = "tcp://*:";
full_endpoint += std::to_string(get_port(endpoint));
return zmq_bind(sock, full_endpoint.c_str());
}
int ZMQPubSocket::sendMessage(Message *message){
return zmq_send(sock, message->getData(), message->getSize(), ZMQ_DONTWAIT);
}
int ZMQPubSocket::send(char *data, size_t size){
return zmq_send(sock, data, size, ZMQ_DONTWAIT);
}
ZMQPubSocket::~ZMQPubSocket(){
zmq_close(sock);
}
void ZMQPoller::registerSocket(SubSocket * socket){
assert(num_polls + 1 < MAX_POLLERS);
polls[num_polls].socket = socket->getRawSocket();
polls[num_polls].events = ZMQ_POLLIN;
sockets.push_back(socket);
num_polls++;
}
std::vector<SubSocket*> ZMQPoller::poll(int timeout){
std::vector<SubSocket*> r;
int rc = zmq_poll(polls, num_polls, timeout);
if (rc < 0){
return r;
}
for (size_t i = 0; i < num_polls; i++){
if (polls[i].revents){
r.push_back(sockets[i]);
}
}
return r;
}
cereal/messaging/impl_zmq.h
+64
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@@ -0,0 +1,64 @@
#pragma once
#include "messaging.h"
#include <zmq.h>
#include <string>
#define MAX_POLLERS 128
class ZMQContext : public Context {
private:
void * context = NULL;
public:
ZMQContext();
void * getRawContext() {return context;}
~ZMQContext();
};
class ZMQMessage : public Message {
private:
char * data;
size_t size;
public:
void init(size_t size);
void init(char *data, size_t size);
size_t getSize(){return size;}
char * getData(){return data;}
void close();
~ZMQMessage();
};
class ZMQSubSocket : public SubSocket {
private:
void * sock;
std::string full_endpoint;
public:
int connect(Context *context, std::string endpoint, std::string address, bool conflate=false, bool check_endpoint=true);
void setTimeout(int timeout);
void * getRawSocket() {return sock;}
Message *receive(bool non_blocking=false);
~ZMQSubSocket();
};
class ZMQPubSocket : public PubSocket {
private:
void * sock;
std::string full_endpoint;
public:
int connect(Context *context, std::string endpoint, bool check_endpoint=true);
int sendMessage(Message *message);
int send(char *data, size_t size);
bool all_readers_updated();
~ZMQPubSocket();
};
class ZMQPoller : public Poller {
private:
std::vector<SubSocket*> sockets;
zmq_pollitem_t polls[MAX_POLLERS];
size_t num_polls = 0;
public:
void registerSocket(SubSocket *socket);
std::vector<SubSocket*> poll(int timeout);
~ZMQPoller(){};
};
cereal/messaging/impl_zmq.hpp
-63
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@@ -1,63 +0,0 @@
#pragma once
#include "messaging.hpp"
#include <zmq.h>
#include <string>
#define MAX_POLLERS 128
class ZMQContext : public Context {
private:
void * context = NULL;
public:
ZMQContext();
void * getRawContext() {return context;}
~ZMQContext();
};
class ZMQMessage : public Message {
private:
char * data;
size_t size;
public:
void init(size_t size);
void init(char *data, size_t size);
size_t getSize(){return size;}
char * getData(){return data;}
void close();
~ZMQMessage();
};
class ZMQSubSocket : public SubSocket {
private:
void * sock;
std::string full_endpoint;
public:
int connect(Context *context, std::string endpoint, std::string address, bool conflate=false);
void setTimeout(int timeout);
void * getRawSocket() {return sock;}
Message *receive(bool non_blocking=false);
~ZMQSubSocket();
};
class ZMQPubSocket : public PubSocket {
private:
void * sock;
std::string full_endpoint;
public:
int connect(Context *context, std::string endpoint);
int sendMessage(Message *message);
int send(char *data, size_t size);
~ZMQPubSocket();
};
class ZMQPoller : public Poller {
private:
std::vector<SubSocket*> sockets;
zmq_pollitem_t polls[MAX_POLLERS];
size_t num_polls = 0;
public:
void registerSocket(SubSocket *socket);
std::vector<SubSocket*> poll(int timeout);
~ZMQPoller(){};
};
cereal/messaging/messaging.cc
-117
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@@ -1,117 +0,0 @@
#include "messaging.hpp"
#include "impl_zmq.hpp"
#include "impl_msgq.hpp"
Context * Context::create(){
Context * c;
if (std::getenv("ZMQ")){
c = new ZMQContext();
} else {
c = new MSGQContext();
}
return c;
}
SubSocket * SubSocket::create(){
SubSocket * s;
if (std::getenv("ZMQ")){
s = new ZMQSubSocket();
} else {
s = new MSGQSubSocket();
}
return s;
}
SubSocket * SubSocket::create(Context * context, std::string endpoint){
SubSocket *s = SubSocket::create();
int r = s->connect(context, endpoint, "127.0.0.1");
if (r == 0) {
return s;
} else {
delete s;
return NULL;
}
}
SubSocket * SubSocket::create(Context * context, std::string endpoint, std::string address){
SubSocket *s = SubSocket::create();
int r = s->connect(context, endpoint, address);
if (r == 0) {
return s;
} else {
delete s;
return NULL;
}
}
SubSocket * SubSocket::create(Context * context, std::string endpoint, std::string address, bool conflate){
SubSocket *s = SubSocket::create();
int r = s->connect(context, endpoint, address, conflate);
if (r == 0) {
return s;
} else {
delete s;
return NULL;
}
}
PubSocket * PubSocket::create(){
PubSocket * s;
if (std::getenv("ZMQ")){
s = new ZMQPubSocket();
} else {
s = new MSGQPubSocket();
}
return s;
}
PubSocket * PubSocket::create(Context * context, std::string endpoint){
PubSocket *s = PubSocket::create();
int r = s->connect(context, endpoint);
if (r == 0) {
return s;
} else {
delete s;
return NULL;
}
}
Poller * Poller::create(){
Poller * p;
if (std::getenv("ZMQ")){
p = new ZMQPoller();
} else {
p = new MSGQPoller();
}
return p;
}
Poller * Poller::create(std::vector<SubSocket*> sockets){
Poller * p = Poller::create();
for (auto s : sockets){
p->registerSocket(s);
}
return p;
}
extern "C" Context * messaging_context_create() {
return Context::create();
}
extern "C" SubSocket * messaging_subsocket_create(Context* context, const char* endpoint) {
return SubSocket::create(context, std::string(endpoint));
}
extern "C" PubSocket * messaging_pubsocket_create(Context* context, const char* endpoint) {
return PubSocket::create(context, std::string(endpoint));
}
extern "C" Poller * messaging_poller_create(SubSocket** sockets, int size) {
std::vector<SubSocket*> socketsVec(sockets, sockets + size);
return Poller::create(socketsVec);
}
cereal/messaging/messaging.h
+145
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@@ -0,0 +1,145 @@
#pragma once
#include <cstddef>
#include <map>
#include <string>
#include <vector>
#include <capnp/serialize.h>
#include "../gen/cpp/log.capnp.h"
#ifdef __APPLE__
#define CLOCK_BOOTTIME CLOCK_MONOTONIC
#endif
#define MSG_MULTIPLE_PUBLISHERS 100
bool messaging_use_zmq();
class Context {
public:
virtual void * getRawContext() = 0;
static Context * create();
virtual ~Context(){};
};
class Message {
public:
virtual void init(size_t size) = 0;
virtual void init(char * data, size_t size) = 0;
virtual void close() = 0;
virtual size_t getSize() = 0;
virtual char * getData() = 0;
virtual ~Message(){};
};
class SubSocket {
public:
virtual int connect(Context *context, std::string endpoint, std::string address, bool conflate=false, bool check_endpoint=true) = 0;
virtual void setTimeout(int timeout) = 0;
virtual Message *receive(bool non_blocking=false) = 0;
virtual void * getRawSocket() = 0;
static SubSocket * create();
static SubSocket * create(Context * context, std::string endpoint, std::string address="127.0.0.1", bool conflate=false, bool check_endpoint=true);
virtual ~SubSocket(){};
};
class PubSocket {
public:
virtual int connect(Context *context, std::string endpoint, bool check_endpoint=true) = 0;
virtual int sendMessage(Message *message) = 0;
virtual int send(char *data, size_t size) = 0;
virtual bool all_readers_updated() = 0;
static PubSocket * create();
static PubSocket * create(Context * context, std::string endpoint, bool check_endpoint=true);
static PubSocket * create(Context * context, std::string endpoint, int port, bool check_endpoint=true);
virtual ~PubSocket(){};
};
class Poller {
public:
virtual void registerSocket(SubSocket *socket) = 0;
virtual std::vector<SubSocket*> poll(int timeout) = 0;
static Poller * create();
static Poller * create(std::vector<SubSocket*> sockets);
virtual ~Poller(){};
};
class SubMaster {
public:
SubMaster(const std::vector<const char *> &service_list,
const char *address = nullptr, const std::vector<const char *> &ignore_alive = {});
void update(int timeout = 1000);
void update_msgs(uint64_t current_time, const std::vector<std::pair<std::string, cereal::Event::Reader>> &messages);
inline bool allAlive(const std::vector<const char *> &service_list = {}) { return all_(service_list, false, true); }
inline bool allValid(const std::vector<const char *> &service_list = {}) { return all_(service_list, true, false); }
inline bool allAliveAndValid(const std::vector<const char *> &service_list = {}) { return all_(service_list, true, true); }
void drain();
~SubMaster();
uint64_t frame = 0;
bool updated(const char *name) const;
bool alive(const char *name) const;
bool valid(const char *name) const;
uint64_t rcv_frame(const char *name) const;
uint64_t rcv_time(const char *name) const;
cereal::Event::Reader &operator[](const char *name) const;
private:
bool all_(const std::vector<const char *> &service_list, bool valid, bool alive);
Poller *poller_ = nullptr;
struct SubMessage;
std::map<SubSocket *, SubMessage *> messages_;
std::map<std::string, SubMessage *> services_;
};
class MessageBuilder : public capnp::MallocMessageBuilder {
public:
MessageBuilder() = default;
cereal::Event::Builder initEvent(bool valid = true) {
cereal::Event::Builder event = initRoot<cereal::Event>();
struct timespec t;
clock_gettime(CLOCK_BOOTTIME, &t);
uint64_t current_time = t.tv_sec * 1000000000ULL + t.tv_nsec;
event.setLogMonoTime(current_time);
event.setValid(valid);
return event;
}
kj::ArrayPtr<capnp::byte> toBytes() {
heapArray_ = capnp::messageToFlatArray(*this);
return heapArray_.asBytes();
}
private:
kj::Array<capnp::word> heapArray_;
};
class PubMaster {
public:
PubMaster(const std::vector<const char *> &service_list);
inline int send(const char *name, capnp::byte *data, size_t size) { return sockets_.at(name)->send((char *)data, size); }
int send(const char *name, MessageBuilder &msg);
~PubMaster();
private:
std::map<std::string, PubSocket *> sockets_;
};
class AlignedBuffer {
public:
kj::ArrayPtr<const capnp::word> align(const char *data, const size_t size) {
words_size = size / sizeof(capnp::word) + 1;
if (aligned_buf.size() < words_size) {
aligned_buf = kj::heapArray<capnp::word>(words_size < 512 ? 512 : words_size);
}
memcpy(aligned_buf.begin(), data, size);
return aligned_buf.slice(0, words_size);
}
inline kj::ArrayPtr<const capnp::word> align(Message *m) {
return align(m->getData(), m->getSize());
}
private:
kj::Array<capnp::word> aligned_buf;
size_t words_size;
};
cereal/messaging/messaging.hpp
-56
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@@ -1,56 +0,0 @@
#pragma once
#include <cstddef>
#include <vector>
#include <string>
#define MSG_MULTIPLE_PUBLISHERS 100
class Context {
public:
virtual void * getRawContext() = 0;
static Context * create();
virtual ~Context(){};
};
class Message {
public:
virtual void init(size_t size) = 0;
virtual void init(char * data, size_t size) = 0;
virtual void close() = 0;
virtual size_t getSize() = 0;
virtual char * getData() = 0;
virtual ~Message(){};
};
class SubSocket {
public:
virtual int connect(Context *context, std::string endpoint, std::string address, bool conflate=false) = 0;
virtual void setTimeout(int timeout) = 0;
virtual Message *receive(bool non_blocking=false) = 0;
virtual void * getRawSocket() = 0;
static SubSocket * create();
static SubSocket * create(Context * context, std::string endpoint);
static SubSocket * create(Context * context, std::string endpoint, std::string address);
static SubSocket * create(Context * context, std::string endpoint, std::string address, bool conflate);
virtual ~SubSocket(){};
};
class PubSocket {
public:
virtual int connect(Context *context, std::string endpoint) = 0;
virtual int sendMessage(Message *message) = 0;
virtual int send(char *data, size_t size) = 0;
static PubSocket * create();
static PubSocket * create(Context * context, std::string endpoint);
virtual ~PubSocket(){};
};
class Poller {
public:
virtual void registerSocket(SubSocket *socket) = 0;
virtual std::vector<SubSocket*> poll(int timeout) = 0;
static Poller * create();
static Poller * create(std::vector<SubSocket*> sockets);
virtual ~Poller(){};
};
cereal/messaging/messaging.pxd
+2 -1
View File
@@ -6,7 +6,7 @@ from libcpp.vector cimport vector
from libcpp cimport bool
cdef extern from "messaging.hpp":
cdef extern from "messaging.h":
cdef cppclass Context:
@staticmethod
Context * create()
@@ -31,6 +31,7 @@ cdef extern from "messaging.hpp":
int connect(Context *, string)
int sendMessage(Message *)
int send(char *, size_t)
bool all_readers_updated()
cdef cppclass Poller:
@staticmethod
cereal/messaging/messaging_pyx.cpp
+7082
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cereal/messaging/messaging_pyx.pyx
-151
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@@ -1,151 +0,0 @@
# distutils: language = c++
# cython: c_string_encoding=ascii, language_level=3
import sys
from libcpp.string cimport string
from libcpp cimport bool
from libc cimport errno
from messaging cimport Context as cppContext
from messaging cimport SubSocket as cppSubSocket
from messaging cimport PubSocket as cppPubSocket
from messaging cimport Poller as cppPoller
from messaging cimport Message as cppMessage
class MessagingError(Exception):
pass
class MultiplePublishersError(MessagingError):
pass
cdef class Context:
cdef cppContext * context
def __cinit__(self):
self.context = cppContext.create()
def term(self):
del self.context
self.context = NULL
def __dealloc__(self):
pass
# Deleting the context will hang if sockets are still active
# TODO: Figure out a way to make sure the context is closed last
# del self.context
cdef class Poller:
cdef cppPoller * poller
cdef list sub_sockets
def __cinit__(self):
self.sub_sockets = []
self.poller = cppPoller.create()
def __dealloc__(self):
del self.poller
def registerSocket(self, SubSocket socket):
self.sub_sockets.append(socket)
self.poller.registerSocket(socket.socket)
def poll(self, timeout):
sockets = []
cdef int t = timeout
with nogil:
result = self.poller.poll(t)
for s in result:
socket = SubSocket()
socket.setPtr(s)
sockets.append(socket)
return sockets
cdef class SubSocket:
cdef cppSubSocket * socket
cdef bool is_owner
def __cinit__(self):
self.socket = cppSubSocket.create()
self.is_owner = True
if self.socket == NULL:
raise MessagingError
def __dealloc__(self):
if self.is_owner:
del self.socket
cdef setPtr(self, cppSubSocket * ptr):
if self.is_owner:
del self.socket
self.is_owner = False
self.socket = ptr
def connect(self, Context context, string endpoint, string address=b"127.0.0.1", bool conflate=False):
r = self.socket.connect(context.context, endpoint, address, conflate)
if r != 0:
if errno.errno == errno.EADDRINUSE:
raise MultiplePublishersError
else:
raise MessagingError
def setTimeout(self, int timeout):
self.socket.setTimeout(timeout)
def receive(self, bool non_blocking=False):
msg = self.socket.receive(non_blocking)
if msg == NULL:
# If a blocking read returns no message check errno if SIGINT was caught in the C++ code
if errno.errno == errno.EINTR:
print("SIGINT received, exiting")
sys.exit(1)
return None
else:
sz = msg.getSize()
m = msg.getData()[:sz]
del msg
return m
cdef class PubSocket:
cdef cppPubSocket * socket
def __cinit__(self):
self.socket = cppPubSocket.create()
if self.socket == NULL:
raise MessagingError
def __dealloc__(self):
del self.socket
def connect(self, Context context, string endpoint):
r = self.socket.connect(context.context, endpoint)
if r != 0:
if errno.errno == errno.EADDRINUSE:
raise MultiplePublishersError
else:
raise MessagingError
def send(self, string data):
length = len(data)
r = self.socket.send(<char*>data.c_str(), length)
if r != length:
if errno.errno == errno.EADDRINUSE:
raise MultiplePublishersError
else:
raise MessagingError
cereal/messaging/messaging_pyx.so
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cereal/messaging/messaging_pyx_setup.py
-56
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@@ -1,56 +0,0 @@
import os
import subprocess
import sysconfig
from distutils.core import Extension, setup # pylint: disable=import-error,no-name-in-module
from Cython.Build import cythonize
from Cython.Distutils import build_ext
def get_ext_filename_without_platform_suffix(filename):
name, ext = os.path.splitext(filename)
ext_suffix = sysconfig.get_config_var('EXT_SUFFIX')
if ext_suffix == ext:
return filename
ext_suffix = ext_suffix.replace(ext, '')
idx = name.find(ext_suffix)
if idx == -1:
return filename
else:
return name[:idx] + ext
class BuildExtWithoutPlatformSuffix(build_ext):
def get_ext_filename(self, ext_name):
filename = super().get_ext_filename(ext_name)
return get_ext_filename_without_platform_suffix(filename)
sourcefiles = ['messaging_pyx.pyx']
extra_compile_args = ["-std=c++11"]
libraries = ['zmq']
ARCH = subprocess.check_output(["uname", "-m"], encoding='utf8').rstrip() # pylint: disable=unexpected-keyword-arg
if ARCH == "aarch64":
extra_compile_args += ["-Wno-deprecated-register"]
libraries += ['gnustl_shared']
setup(name='CAN parser',
cmdclass={'build_ext': BuildExtWithoutPlatformSuffix},
ext_modules=cythonize(
Extension(
"messaging_pyx",
language="c++",
sources=sourcefiles,
extra_compile_args=extra_compile_args,
libraries=libraries,
extra_objects=[
os.path.join(os.path.dirname(os.path.realpath(__file__)), '../', 'libmessaging.a'),
]
)
),
nthreads=4,
)
cereal/messaging/msgq.cc
-449
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@@ -1,449 +0,0 @@
#include <iostream>
#include <cassert>
#include <cerrno>
#include <cmath>
#include <cstring>
#include <cstdint>
#include <chrono>
#include <algorithm>
#include <cstdlib>
#include <csignal>
#include <random>
#include <poll.h>
#include <sys/ioctl.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <sys/syscall.h>
#include <fcntl.h>
#include <unistd.h>
#include <stdio.h>
#include "msgq.hpp"
void sigusr2_handler(int signal) {
assert(signal == SIGUSR2);
}
uint64_t msgq_get_uid(void){
std::random_device rd("/dev/urandom");
std::uniform_int_distribution<uint64_t> distribution(0,std::numeric_limits<uint32_t>::max());
uint64_t uid = distribution(rd) << 32 | syscall(SYS_gettid);
return uid;
}
int msgq_msg_init_size(msgq_msg_t * msg, size_t size){
msg->size = size;
msg->data = new(std::nothrow) char[size];
return (msg->data == NULL) ? -1 : 0;
}
int msgq_msg_init_data(msgq_msg_t * msg, char * data, size_t size) {
int r = msgq_msg_init_size(msg, size);
if (r == 0)
memcpy(msg->data, data, size);
return r;
}
int msgq_msg_close(msgq_msg_t * msg){
if (msg->size > 0)
delete[] msg->data;
msg->size = 0;
return 0;
}
void msgq_reset_reader(msgq_queue_t * q){
int id = q->reader_id;
q->read_valids[id]->store(true);
q->read_pointers[id]->store(*q->write_pointer);
}
void msgq_wait_for_subscriber(msgq_queue_t *q){
while (*q->num_readers == 0){
;
}
return;
}
int msgq_new_queue(msgq_queue_t * q, const char * path, size_t size){
assert(size < 0xFFFFFFFF); // Buffer must be smaller than 2^32 bytes
std::signal(SIGUSR2, sigusr2_handler);
const char * prefix = "/dev/shm/";
char * full_path = new char[strlen(path) + strlen(prefix) + 1];
strcpy(full_path, prefix);
strcat(full_path, path);
auto fd = open(full_path, O_RDWR | O_CREAT, 0777);
delete[] full_path;
if (fd < 0)
return -1;
int rc = ftruncate(fd, size + sizeof(msgq_header_t));
if (rc < 0)
return -1;
char * mem = (char*)mmap(NULL, size + sizeof(msgq_header_t), PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
close(fd);
if (mem == NULL)
return -1;
q->mmap_p = mem;
msgq_header_t *header = (msgq_header_t *)mem;
// Setup pointers to header segment
q->num_readers = reinterpret_cast<std::atomic<uint64_t>*>(&header->num_readers);
q->write_pointer = reinterpret_cast<std::atomic<uint64_t>*>(&header->write_pointer);
q->write_uid = reinterpret_cast<std::atomic<uint64_t>*>(&header->write_uid);
for (size_t i = 0; i < NUM_READERS; i++){
q->read_pointers[i] = reinterpret_cast<std::atomic<uint64_t>*>(&header->read_pointers[i]);
q->read_valids[i] = reinterpret_cast<std::atomic<uint64_t>*>(&header->read_valids[i]);
q->read_uids[i] = reinterpret_cast<std::atomic<uint64_t>*>(&header->read_uids[i]);
}
q->data = mem + sizeof(msgq_header_t);
q->size = size;
q->reader_id = -1;
q->endpoint = path;
q->read_conflate = false;
return 0;
}
void msgq_close_queue(msgq_queue_t *q){
if (q->mmap_p != NULL){
munmap(q->mmap_p, q->size + sizeof(msgq_header_t));
}
}
void msgq_init_publisher(msgq_queue_t * q) {
//std::cout << "Starting publisher" << std::endl;
uint64_t uid = msgq_get_uid();
*q->write_uid = uid;
*q->num_readers = 0;
for (size_t i = 0; i < NUM_READERS; i++){
*q->read_valids[i] = false;
*q->read_uids[i] = 0;
}
q->write_uid_local = uid;
}
static void thread_signal(uint32_t tid) {
#ifndef SYS_tkill
// TODO: this won't work for multithreaded programs
kill(tid, SIGUSR2);
#else
syscall(SYS_tkill, tid, SIGUSR2);
#endif
}
void msgq_init_subscriber(msgq_queue_t * q) {
assert(q != NULL);
assert(q->num_readers != NULL);
uint64_t uid = msgq_get_uid();
// Get reader id
while (true){
uint64_t cur_num_readers = *q->num_readers;
uint64_t new_num_readers = cur_num_readers + 1;
// No more slots available. Reset all subscribers to kick out inactive ones
if (new_num_readers > NUM_READERS){
std::cout << "Warning, evicting all subscribers!" << std::endl;
*q->num_readers = 0;
for (size_t i = 0; i < NUM_READERS; i++){
*q->read_valids[i] = false;
uint64_t old_uid = *q->read_uids[i];
*q->read_uids[i] = 0;
// Wake up reader in case they are in a poll
thread_signal(old_uid & 0xFFFFFFFF);
}
continue;
}
// Use atomic compare and swap to handle race condition
// where two subscribers start at the same time
if (std::atomic_compare_exchange_strong(q->num_readers,
&cur_num_readers,
new_num_readers)){
q->reader_id = cur_num_readers;
q->read_uid_local = uid;
// We start with read_valid = false,
// on the first read the read pointer will be synchronized with the write pointer
*q->read_valids[cur_num_readers] = false;
*q->read_pointers[cur_num_readers] = 0;
*q->read_uids[cur_num_readers] = uid;
break;
}
}
//std::cout << "New subscriber id: " << q->reader_id << " uid: " << q->read_uid_local << " " << q->endpoint << std::endl;
msgq_reset_reader(q);
}
int msgq_msg_send(msgq_msg_t * msg, msgq_queue_t *q){
// Die if we are no longer the active publisher
if (q->write_uid_local != *q->write_uid){
std::cout << "Killing old publisher: " << q->endpoint << std::endl;
errno = EADDRINUSE;
return -1;
}
uint64_t total_msg_size = ALIGN(msg->size + sizeof(int64_t));
// We need to fit at least three messages in the queue,
// then we can always safely access the last message
assert(3 * total_msg_size <= q->size);
uint64_t num_readers = *q->num_readers;
uint32_t write_cycles, write_pointer;
UNPACK64(write_cycles, write_pointer, *q->write_pointer);
char *p = q->data + write_pointer; // add base offset
// Check remaining space
// Always leave space for a wraparound tag for the next message, including alignment
int64_t remaining_space = q->size - write_pointer - total_msg_size - sizeof(int64_t);
if (remaining_space <= 0){
// Write -1 size tag indicating wraparound
*(int64_t*)p = -1;
// Invalidate all readers that are beyond the write pointer
// TODO: should we handle the case where a new reader shows up while this is running?
for (uint64_t i = 0; i < num_readers; i++){
uint64_t read_pointer = *q->read_pointers[i];
uint64_t read_cycles = read_pointer >> 32;
read_pointer &= 0xFFFFFFFF;
if ((read_pointer > write_pointer) && (read_cycles != write_cycles)) {
*q->read_valids[i] = false;
}
}
// Update global and local copies of write pointer and write_cycles
write_pointer = 0;
write_cycles = write_cycles + 1;
PACK64(*q->write_pointer, write_cycles, write_pointer);
// Set actual pointer to the beginning of the data segment
p = q->data;
}
// Invalidate readers that are in the area that will be written
uint64_t start = write_pointer;
uint64_t end = ALIGN(start + sizeof(int64_t) + msg->size);
for (uint64_t i = 0; i < num_readers; i++){
uint32_t read_cycles, read_pointer;
UNPACK64(read_cycles, read_pointer, *q->read_pointers[i]);
if ((read_pointer >= start) && (read_pointer < end) && (read_cycles != write_cycles)) {
*q->read_valids[i] = false;
}
}
// Write size tag
std::atomic<int64_t> *size_p = reinterpret_cast<std::atomic<int64_t>*>(p);
*size_p = msg->size;
// Copy data
memcpy(p + sizeof(int64_t), msg->data, msg->size);
__sync_synchronize();
// Update write pointer
uint32_t new_ptr = ALIGN(write_pointer + msg->size + sizeof(int64_t));
PACK64(*q->write_pointer, write_cycles, new_ptr);
// Notify readers
for (uint64_t i = 0; i < num_readers; i++){
uint64_t reader_uid = *q->read_uids[i];
thread_signal(reader_uid & 0xFFFFFFFF);
}
return msg->size;
}
int msgq_msg_ready(msgq_queue_t * q){
start:
int id = q->reader_id;
assert(id >= 0); // Make sure subscriber is initialized
if (q->read_uid_local != *q->read_uids[id]){
std::cout << q->endpoint << ": Reader was evicted, reconnecting" << std::endl;
msgq_init_subscriber(q);
goto start;
}
// Check valid
if (!*q->read_valids[id]){
msgq_reset_reader(q);
goto start;
}
uint32_t read_cycles, read_pointer;
UNPACK64(read_cycles, read_pointer, *q->read_pointers[id]);
uint32_t write_cycles, write_pointer;
UNPACK64(write_cycles, write_pointer, *q->write_pointer);
// Check if new message is available
return (read_pointer != write_pointer);
}
int msgq_msg_recv(msgq_msg_t * msg, msgq_queue_t * q){
start:
int id = q->reader_id;
assert(id >= 0); // Make sure subscriber is initialized
if (q->read_uid_local != *q->read_uids[id]){
std::cout << q->endpoint << ": Reader was evicted, reconnecting" << std::endl;
msgq_init_subscriber(q);
goto start;
}
// Check valid
if (!*q->read_valids[id]){
msgq_reset_reader(q);
goto start;
}
uint32_t read_cycles, read_pointer;
UNPACK64(read_cycles, read_pointer, *q->read_pointers[id]);
uint32_t write_cycles, write_pointer;
UNPACK64(write_cycles, write_pointer, *q->write_pointer);
char * p = q->data + read_pointer;
// Check if new message is available
if (read_pointer == write_pointer) {
msg->size = 0;
return 0;
}
// Read potential message size
std::atomic<int64_t> *size_p = reinterpret_cast<std::atomic<int64_t>*>(p);
std::int64_t size = *size_p;
// Check if the size that was read is valid
if (!*q->read_valids[id]){
msgq_reset_reader(q);
goto start;
}
// If size is -1 the buffer was full, and we need to wrap around
if (size == -1){
read_cycles++;
PACK64(*q->read_pointers[id], read_cycles, 0);
goto start;
}
// crashing is better than passing garbage data to the consumer
// the size will have weird value if it was overwritten by data accidentally
assert((uint64_t)size < q->size);
assert(size > 0);
uint32_t new_read_pointer = ALIGN(read_pointer + sizeof(std::int64_t) + size);
// If conflate is true, check if this is the latest message, else start over
if (q->read_conflate){
if (new_read_pointer != write_pointer){
// Update read pointer
PACK64(*q->read_pointers[id], read_cycles, new_read_pointer);
goto start;
}
}
// Copy message
if (msgq_msg_init_size(msg, size) < 0)
return -1;
__sync_synchronize();
memcpy(msg->data, p + sizeof(int64_t), size);
__sync_synchronize();
// Update read pointer
PACK64(*q->read_pointers[id], read_cycles, new_read_pointer);
// Check if the actual data that was copied is valid
if (!*q->read_valids[id]){
msgq_msg_close(msg);
msgq_reset_reader(q);
goto start;
}
return msg->size;
}
int msgq_poll(msgq_pollitem_t * items, size_t nitems, int timeout){
assert(timeout >= 0);
int num = 0;
// Check if messages ready
for (size_t i = 0; i < nitems; i++) {
items[i].revents = msgq_msg_ready(items[i].q);
if (items[i].revents) num++;
}
int ms = (timeout == -1) ? 100 : timeout;
struct timespec ts;
ts.tv_sec = ms / 1000;
ts.tv_nsec = (ms % 1000) * 1000 * 1000;
while (num == 0) {
int ret;
ret = nanosleep(&ts, &ts);
// Check if messages ready
for (size_t i = 0; i < nitems; i++) {
if (items[i].revents == 0 && msgq_msg_ready(items[i].q)){
num += 1;
items[i].revents = 1;
}
}
// exit if we had a timeout and the sleep finished
if (timeout != -1 && ret == 0){
break;
}
}
return num;
}
cereal/messaging/msgq.h
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#pragma once
#include <cstdint>
#include <cstring>
#include <string>
#include <atomic>
#define DEFAULT_SEGMENT_SIZE (10 * 1024 * 1024)
#define NUM_READERS 13 //default comma is 12
#define ALIGN(n) ((n + (8 - 1)) & -8)
#define UNPACK64(higher, lower, input) do {uint64_t tmp = input; higher = tmp >> 32; lower = tmp & 0xFFFFFFFF;} while (0)
#define PACK64(output, higher, lower) output = ((uint64_t)higher << 32 ) | ((uint64_t)lower & 0xFFFFFFFF)
struct msgq_header_t {
uint64_t num_readers;
uint64_t write_pointer;
uint64_t write_uid;
uint64_t read_pointers[NUM_READERS];
uint64_t read_valids[NUM_READERS];
uint64_t read_uids[NUM_READERS];
};
struct msgq_queue_t {
std::atomic<uint64_t> *num_readers;
std::atomic<uint64_t> *write_pointer;
std::atomic<uint64_t> *write_uid;
std::atomic<uint64_t> *read_pointers[NUM_READERS];
std::atomic<uint64_t> *read_valids[NUM_READERS];
std::atomic<uint64_t> *read_uids[NUM_READERS];
char * mmap_p;
char * data;
size_t size;
int reader_id;
uint64_t read_uid_local;
uint64_t write_uid_local;
bool read_conflate;
std::string endpoint;
};
struct msgq_msg_t {
size_t size;
char * data;
};
struct msgq_pollitem_t {
msgq_queue_t *q;
int revents;
};
void msgq_wait_for_subscriber(msgq_queue_t *q);
void msgq_reset_reader(msgq_queue_t *q);
int msgq_msg_init_size(msgq_msg_t *msg, size_t size);
int msgq_msg_init_data(msgq_msg_t *msg, char * data, size_t size);
int msgq_msg_close(msgq_msg_t *msg);
int msgq_new_queue(msgq_queue_t * q, const char * path, size_t size);
void msgq_close_queue(msgq_queue_t *q);
void msgq_init_publisher(msgq_queue_t * q);
void msgq_init_subscriber(msgq_queue_t * q);
int msgq_msg_send(msgq_msg_t *msg, msgq_queue_t *q);
int msgq_msg_recv(msgq_msg_t *msg, msgq_queue_t *q);
int msgq_msg_ready(msgq_queue_t * q);
int msgq_poll(msgq_pollitem_t * items, size_t nitems, int timeout);
bool msgq_all_readers_updated(msgq_queue_t *q);
cereal/messaging/msgq.hpp
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#pragma once
#include <cstdint>
#include <cstring>
#include <string>
#include <atomic>
#define DEFAULT_SEGMENT_SIZE (10 * 1024 * 1024)
#define NUM_READERS 8
#define ALIGN(n) ((n + (8 - 1)) & -8)
#define UNPACK64(higher, lower, input) do {uint64_t tmp = input; higher = tmp >> 32; lower = tmp & 0xFFFFFFFF;} while (0)
#define PACK64(output, higher, lower) output = ((uint64_t)higher << 32 ) | ((uint64_t)lower & 0xFFFFFFFF)
struct msgq_header_t {
uint64_t num_readers;
uint64_t write_pointer;
uint64_t write_uid;
uint64_t read_pointers[NUM_READERS];
uint64_t read_valids[NUM_READERS];
uint64_t read_uids[NUM_READERS];
};
struct msgq_queue_t {
std::atomic<uint64_t> *num_readers;
std::atomic<uint64_t> *write_pointer;
std::atomic<uint64_t> *write_uid;
std::atomic<uint64_t> *read_pointers[NUM_READERS];
std::atomic<uint64_t> *read_valids[NUM_READERS];
std::atomic<uint64_t> *read_uids[NUM_READERS];
char * mmap_p;
char * data;
size_t size;
int reader_id;
uint64_t read_uid_local;
uint64_t write_uid_local;
bool read_conflate;
std::string endpoint;
};
struct msgq_msg_t {
size_t size;
char * data;
};
struct msgq_pollitem_t {
msgq_queue_t *q;
int revents;
};
void msgq_wait_for_subscriber(msgq_queue_t *q);
void msgq_reset_reader(msgq_queue_t *q);
int msgq_msg_init_size(msgq_msg_t *msg, size_t size);
int msgq_msg_init_data(msgq_msg_t *msg, char * data, size_t size);
int msgq_msg_close(msgq_msg_t *msg);
int msgq_new_queue(msgq_queue_t * q, const char * path, size_t size);
void msgq_close_queue(msgq_queue_t *q);
void msgq_init_publisher(msgq_queue_t * q);
void msgq_init_subscriber(msgq_queue_t * q);
int msgq_msg_send(msgq_msg_t *msg, msgq_queue_t *q);
int msgq_msg_recv(msgq_msg_t *msg, msgq_queue_t *q);
int msgq_msg_ready(msgq_queue_t * q);
int msgq_poll(msgq_pollitem_t * items, size_t nitems, int timeout);
cereal/messaging/msgq.md
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# MSGQ: A lock free single producer multi consumer message queue
[![Build Status](https://dev.azure.com/commaai/default/_apis/build/status/commaai.msgq?branchName=master)](https://dev.azure.com/commaai/default/_build/latest?definitionId=21&branchName=master)
## What is MSGQ?
MSGQ is a system to pass messages from a single producer to multiple consumers. All the consumers need to be able to receive all the messages. It is designed to be a high performance replacement for ZMQ-like SUB/PUB patterns. It uses a ring buffer in shared memory to efficiently read and write data. Each read requires a copy. Writing can be done without a copy, as long as the size of the data is known in advance.
cereal/messaging/msgq_tests.cc
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#include "catch2/catch.hpp"
#include "msgq.hpp"
TEST_CASE("ALIGN"){
REQUIRE(ALIGN(0) == 0);
REQUIRE(ALIGN(1) == 8);
REQUIRE(ALIGN(7) == 8);
REQUIRE(ALIGN(8) == 8);
REQUIRE(ALIGN(99999) == 100000);
}
TEST_CASE("msgq_msg_init_size"){
const size_t msg_size = 30;
msgq_msg_t msg;
msgq_msg_init_size(&msg, msg_size);
REQUIRE(msg.size == msg_size);
msgq_msg_close(&msg);
}
TEST_CASE("msgq_msg_init_data"){
const size_t msg_size = 30;
char * data = new char[msg_size];
for (size_t i = 0; i < msg_size; i++){
data[i] = i;
}
msgq_msg_t msg;
msgq_msg_init_data(&msg, data, msg_size);
REQUIRE(msg.size == msg_size);
REQUIRE(memcmp(msg.data, data, msg_size) == 0);
delete[] data;
msgq_msg_close(&msg);
}
TEST_CASE("msgq_init_subscriber"){
remove("/dev/shm/test_queue");
msgq_queue_t q;
msgq_new_queue(&q, "test_queue", 1024);
REQUIRE(*q.num_readers == 0);
q.reader_id = 1;
*q.read_valids[0] = false;
*q.read_pointers[0] = ((uint64_t)1 << 32);
*q.write_pointer = 255;
msgq_init_subscriber(&q);
REQUIRE(q.read_conflate == false);
REQUIRE(*q.read_valids[0] == true);
REQUIRE((*q.read_pointers[0] >> 32) == 0);
REQUIRE((*q.read_pointers[0] & 0xFFFFFFFF) == 255);
}
TEST_CASE("msgq_msg_send first message"){
remove("/dev/shm/test_queue");
msgq_queue_t q;
msgq_new_queue(&q, "test_queue", 1024);
msgq_init_publisher(&q);
REQUIRE(*q.write_pointer == 0);
size_t msg_size = 128;
SECTION("Aligned message size"){
}
SECTION("Unaligned message size"){
msg_size--;
}
char * data = new char[msg_size];
for (size_t i = 0; i < msg_size; i++){
data[i] = i;
}
msgq_msg_t msg;
msgq_msg_init_data(&msg, data, msg_size);
msgq_msg_send(&msg, &q);
REQUIRE(*(int64_t*)q.data == msg_size); // Check size tag
REQUIRE(*q.write_pointer == 128 + sizeof(int64_t));
REQUIRE(memcmp(q.data + sizeof(int64_t), data, msg_size) == 0);
delete[] data;
msgq_msg_close(&msg);
}
TEST_CASE("msgq_msg_send test wraparound"){
remove("/dev/shm/test_queue");
msgq_queue_t q;
msgq_new_queue(&q, "test_queue", 1024);
msgq_init_publisher(&q);
REQUIRE((*q.write_pointer & 0xFFFFFFFF) == 0);
REQUIRE((*q.write_pointer >> 32) == 0);
const size_t msg_size = 120;
msgq_msg_t msg;
msgq_msg_init_size(&msg, msg_size);
for (int i = 0; i < 8; i++) {
msgq_msg_send(&msg, &q);
}
// Check 8th message was written at the beginning
REQUIRE((*q.write_pointer & 0xFFFFFFFF) == msg_size + sizeof(int64_t));
// Check cycle count
REQUIRE((*q.write_pointer >> 32) == 1);
// Check wraparound tag
char * tag_location = q.data;
tag_location += 7 * (msg_size + sizeof(int64_t));
REQUIRE(*(int64_t*)tag_location == -1);
msgq_msg_close(&msg);
}
TEST_CASE("msgq_msg_recv test wraparound"){
remove("/dev/shm/test_queue");
msgq_queue_t q_pub, q_sub;
msgq_new_queue(&q_pub, "test_queue", 1024);
msgq_new_queue(&q_sub, "test_queue", 1024);
msgq_init_publisher(&q_pub);
msgq_init_subscriber(&q_sub);
REQUIRE((*q_pub.write_pointer >> 32) == 0);
REQUIRE((*q_sub.read_pointers[0] >> 32) == 0);
const size_t msg_size = 120;
msgq_msg_t msg1;
msgq_msg_init_size(&msg1, msg_size);
SECTION("Check cycle counter after reset") {
for (int i = 0; i < 8; i++) {
msgq_msg_send(&msg1, &q_pub);
}
msgq_msg_t msg2;
msgq_msg_recv(&msg2, &q_sub);
REQUIRE(msg2.size == 0); // Reader had to reset
msgq_msg_close(&msg2);
}
SECTION("Check cycle counter while keeping up with writer") {
for (int i = 0; i < 8; i++) {
msgq_msg_send(&msg1, &q_pub);
msgq_msg_t msg2;
msgq_msg_recv(&msg2, &q_sub);
REQUIRE(msg2.size > 0);
msgq_msg_close(&msg2);
}
}
REQUIRE((*q_sub.read_pointers[0] >> 32) == 1);
msgq_msg_close(&msg1);
}
TEST_CASE("msgq_msg_send test invalidation"){
remove("/dev/shm/test_queue");
msgq_queue_t q_pub, q_sub;
msgq_new_queue(&q_pub, "test_queue", 1024);
msgq_new_queue(&q_sub, "test_queue", 1024);
msgq_init_publisher(&q_pub);
msgq_init_subscriber(&q_sub);
*q_sub.write_pointer = (uint64_t)1 << 32;
REQUIRE(*q_sub.read_valids[0] == true);
SECTION("read pointer in tag"){
*q_sub.read_pointers[0] = 0;
}
SECTION("read pointer in data section"){
*q_sub.read_pointers[0] = 64;
}
SECTION("read pointer in wraparound section"){
*q_pub.write_pointer = ((uint64_t)1 << 32) | 1000; // Writer is one cycle ahead
*q_sub.read_pointers[0] = 1020;
}
msgq_msg_t msg;
msgq_msg_init_size(&msg, 128);
msgq_msg_send(&msg, &q_pub);
REQUIRE(*q_sub.read_valids[0] == false);
msgq_msg_close(&msg);
}
TEST_CASE("msgq_init_subscriber init 2 subscribers"){
remove("/dev/shm/test_queue");
msgq_queue_t q1, q2;
msgq_new_queue(&q1, "test_queue", 1024);
msgq_new_queue(&q2, "test_queue", 1024);
*q1.num_readers = 0;
REQUIRE(*q1.num_readers == 0);
REQUIRE(*q2.num_readers == 0);
msgq_init_subscriber(&q1);
REQUIRE(*q1.num_readers == 1);
REQUIRE(*q2.num_readers == 1);
REQUIRE(q1.reader_id == 0);
msgq_init_subscriber(&q2);
REQUIRE(*q1.num_readers == 2);
REQUIRE(*q2.num_readers == 2);
REQUIRE(q2.reader_id == 1);
}
TEST_CASE("Write 1 msg, read 1 msg", "[integration]"){
remove("/dev/shm/test_queue");
const size_t msg_size = 128;
msgq_queue_t writer, reader;
msgq_new_queue(&writer, "test_queue", 1024);
msgq_new_queue(&reader, "test_queue", 1024);
msgq_init_publisher(&writer);
msgq_init_subscriber(&reader);
// Build 128 byte message
msgq_msg_t outgoing_msg;
msgq_msg_init_size(&outgoing_msg, msg_size);
for (size_t i = 0; i < msg_size; i++){
outgoing_msg.data[i] = i;
}
REQUIRE(msgq_msg_send(&outgoing_msg, &writer) == msg_size);
msgq_msg_t incoming_msg1;
REQUIRE(msgq_msg_recv(&incoming_msg1, &reader) == msg_size);
REQUIRE(memcmp(incoming_msg1.data, outgoing_msg.data, msg_size) == 0);
// Verify that there are no more messages
msgq_msg_t incoming_msg2;
REQUIRE(msgq_msg_recv(&incoming_msg2, &reader) == 0);
msgq_msg_close(&outgoing_msg);
msgq_msg_close(&incoming_msg1);
msgq_msg_close(&incoming_msg2);
}
TEST_CASE("Write 2 msg, read 2 msg - conflate = false", "[integration]"){
remove("/dev/shm/test_queue");
const size_t msg_size = 128;
msgq_queue_t writer, reader;
msgq_new_queue(&writer, "test_queue", 1024);
msgq_new_queue(&reader, "test_queue", 1024);
msgq_init_publisher(&writer);
msgq_init_subscriber(&reader);
// Build 128 byte message
msgq_msg_t outgoing_msg;
msgq_msg_init_size(&outgoing_msg, msg_size);
for (size_t i = 0; i < msg_size; i++){
outgoing_msg.data[i] = i;
}
REQUIRE(msgq_msg_send(&outgoing_msg, &writer) == msg_size);
REQUIRE(msgq_msg_send(&outgoing_msg, &writer) == msg_size);
msgq_msg_t incoming_msg1;
REQUIRE(msgq_msg_recv(&incoming_msg1, &reader) == msg_size);
REQUIRE(memcmp(incoming_msg1.data, outgoing_msg.data, msg_size) == 0);
msgq_msg_t incoming_msg2;
REQUIRE(msgq_msg_recv(&incoming_msg2, &reader) == msg_size);
REQUIRE(memcmp(incoming_msg2.data, outgoing_msg.data, msg_size) == 0);
msgq_msg_close(&outgoing_msg);
msgq_msg_close(&incoming_msg1);
msgq_msg_close(&incoming_msg2);
}
TEST_CASE("Write 2 msg, read 2 msg - conflate = true", "[integration]"){
remove("/dev/shm/test_queue");
const size_t msg_size = 128;
msgq_queue_t writer, reader;
msgq_new_queue(&writer, "test_queue", 1024);
msgq_new_queue(&reader, "test_queue", 1024);
msgq_init_publisher(&writer);
msgq_init_subscriber(&reader);
reader.read_conflate = true;
// Build 128 byte message
msgq_msg_t outgoing_msg;
msgq_msg_init_size(&outgoing_msg, msg_size);
for (size_t i = 0; i < msg_size; i++){
outgoing_msg.data[i] = i;
}
REQUIRE(msgq_msg_send(&outgoing_msg, &writer) == msg_size);
REQUIRE(msgq_msg_send(&outgoing_msg, &writer) == msg_size);
msgq_msg_t incoming_msg1;
REQUIRE(msgq_msg_recv(&incoming_msg1, &reader) == msg_size);
REQUIRE(memcmp(incoming_msg1.data, outgoing_msg.data, msg_size) == 0);
// Verify that there are no more messages
msgq_msg_t incoming_msg2;
REQUIRE(msgq_msg_recv(&incoming_msg2, &reader) == 0);
msgq_msg_close(&outgoing_msg);
msgq_msg_close(&incoming_msg1);
msgq_msg_close(&incoming_msg2);
}
TEST_CASE("1 publisher, 1 slow subscriber", "[integration]"){
remove("/dev/shm/test_queue");
msgq_queue_t writer, reader;
msgq_new_queue(&writer, "test_queue", 1024);
msgq_new_queue(&reader, "test_queue", 1024);
msgq_init_publisher(&writer);
msgq_init_subscriber(&reader);
int n_received = 0;
int n_skipped = 0;
for (uint64_t i = 0; i < 1e5; i++) {
msgq_msg_t outgoing_msg;
msgq_msg_init_data(&outgoing_msg, (char*)&i, sizeof(uint64_t));
msgq_msg_send(&outgoing_msg, &writer);
msgq_msg_close(&outgoing_msg);
if (i % 10 == 0){
msgq_msg_t msg1;
msgq_msg_recv(&msg1, &reader);
if (msg1.size == 0){
n_skipped++;
} else {
n_received++;
}
msgq_msg_close(&msg1);
}
}
// TODO: verify these numbers by hand
REQUIRE(n_received == 8572);
REQUIRE(n_skipped == 1428);
}
TEST_CASE("1 publisher, 2 subscribers", "[integration]"){
remove("/dev/shm/test_queue");
msgq_queue_t writer, reader1, reader2;
msgq_new_queue(&writer, "test_queue", 1024);
msgq_new_queue(&reader1, "test_queue", 1024);
msgq_new_queue(&reader2, "test_queue", 1024);
msgq_init_publisher(&writer);
msgq_init_subscriber(&reader1);
msgq_init_subscriber(&reader2);
for (uint64_t i = 0; i < 1024 * 3; i++) {
msgq_msg_t outgoing_msg;
msgq_msg_init_data(&outgoing_msg, (char*)&i, sizeof(uint64_t));
msgq_msg_send(&outgoing_msg, &writer);
msgq_msg_t msg1, msg2;
msgq_msg_recv(&msg1, &reader1);
msgq_msg_recv(&msg2, &reader2);
REQUIRE(msg1.size == sizeof(uint64_t));
REQUIRE(msg2.size == sizeof(uint64_t));
REQUIRE(*(uint64_t*)msg1.data == i);
REQUIRE(*(uint64_t*)msg2.data == i);
msgq_msg_close(&outgoing_msg);
msgq_msg_close(&msg1);
msgq_msg_close(&msg2);
}
}
cereal/messaging/test_runner.cc
-2
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@@ -1,2 +0,0 @@
#define CATCH_CONFIG_MAIN
#include "catch2/catch.hpp"
cereal/messaging/tests/test_poller.py
-142
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@@ -1,142 +0,0 @@
import unittest
import time
import cereal.messaging as messaging
import concurrent.futures
def poller():
context = messaging.Context()
p = messaging.Poller()
sub = messaging.SubSocket()
sub.connect(context, 'controlsState')
p.registerSocket(sub)
socks = p.poll(10000)
r = [s.receive(non_blocking=True) for s in socks]
return r
class TestPoller(unittest.TestCase):
def test_poll_once(self):
context = messaging.Context()
pub = messaging.PubSocket()
pub.connect(context, 'controlsState')
with concurrent.futures.ThreadPoolExecutor() as e:
poll = e.submit(poller)
time.sleep(0.1) # Slow joiner syndrome
# Send message
pub.send("a")
# Wait for poll result
result = poll.result()
del pub
context.term()
self.assertEqual(result, [b"a"])
def test_poll_and_create_many_subscribers(self):
context = messaging.Context()
pub = messaging.PubSocket()
pub.connect(context, 'controlsState')
with concurrent.futures.ThreadPoolExecutor() as e:
poll = e.submit(poller)
time.sleep(0.1) # Slow joiner syndrome
c = messaging.Context()
for _ in range(10):
messaging.SubSocket().connect(c, 'controlsState')
time.sleep(0.1)
# Send message
pub.send("a")
# Wait for poll result
result = poll.result()
del pub
context.term()
self.assertEqual(result, [b"a"])
def test_multiple_publishers_exception(self):
context = messaging.Context()
with self.assertRaises(messaging.MultiplePublishersError):
pub1 = messaging.PubSocket()
pub1.connect(context, 'controlsState')
pub2 = messaging.PubSocket()
pub2.connect(context, 'controlsState')
pub1.send("a")
del pub1
del pub2
context.term()
def test_multiple_messages(self):
context = messaging.Context()
pub = messaging.PubSocket()
pub.connect(context, 'controlsState')
sub = messaging.SubSocket()
sub.connect(context, 'controlsState')
time.sleep(0.1) # Slow joiner
for i in range(100):
pub.send(str(i))
msg_seen = False
i = 0
while True:
r = sub.receive(non_blocking=True)
if r is not None:
self.assertEqual(str(i), r.decode('utf8'))
msg_seen = True
i += 1
if r is None and msg_seen: # ZMQ sometimes receives nothing on the first receive
break
del pub
del sub
context.term()
def test_conflate(self):
context = messaging.Context()
pub = messaging.PubSocket()
pub.connect(context, 'controlsState')
sub = messaging.SubSocket()
sub.connect(context, 'controlsState', conflate=True)
time.sleep(0.1) # Slow joiner
pub.send('a')
pub.send('b')
self.assertEqual(b'b', sub.receive())
del pub
del sub
context.term()
if __name__ == "__main__":
unittest.main()
cereal/service_list.yaml
-164
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@@ -1,164 +0,0 @@
# TODO: these port numbers are hardcoded in c, fix this
# LogRotate: 8001 is a PUSH PULL socket between loggerd and visiond
# all ZMQ pub sub: port, should_log, frequency, (qlog_decimation)
# frame syncing packet
frame: [8002, true, 20., 1]
# accel, gyro, and compass
sensorEvents: [8003, true, 100., 100]
# GPS data, also global timestamp
gpsNMEA: [8004, true, 9.] # 9 msgs each sec
# CPU+MEM+GPU+BAT temps
thermal: [8005, true, 2., 1]
# List(CanData), list of can messages
can: [8006, true, 100.]
controlsState: [8007, true, 100., 100]
#liveEvent: [8008, true, 0.]
model: [8009, true, 20., 5]
features: [8010, true, 0.]
health: [8011, true, 2., 1]
radarState: [8012, true, 20.]
#liveUI: [8014, true, 0.]
encodeIdx: [8015, true, 20.]
liveTracks: [8016, true, 20.]
sendcan: [8017, true, 100.]
logMessage: [8018, true, 0.]
liveCalibration: [8019, true, 4., 4]
androidLog: [8020, true, 0.]
carState: [8021, true, 100., 10]
# 8022 is reserved for sshd
carControl: [8023, true, 100., 10]
plan: [8024, true, 20.]
liveLocation: [8025, true, 0., 1]
gpsLocation: [8026, true, 1., 1]
ethernetData: [8027, true, 0.]
navUpdate: [8028, true, 0.]
qcomGnss: [8029, true, 0.]
lidarPts: [8030, true, 0.]
procLog: [8031, true, 0.5]
gpsLocationExternal: [8032, true, 10., 1]
ubloxGnss: [8033, true, 10.]
clocks: [8034, true, 1., 1]
liveMpc: [8035, false, 20.]
liveLongitudinalMpc: [8036, false, 20.]
navStatus: [8038, true, 0.]
gpsLocationTrimble: [8039, true, 0.]
trimbleGnss: [8041, true, 0.]
ubloxRaw: [8042, true, 20.]
gpsPlannerPoints: [8043, true, 0.]
gpsPlannerPlan: [8044, true, 0.]
applanixRaw: [8046, true, 0.]
orbLocation: [8047, true, 0.]
trafficEvents: [8048, true, 0.]
liveLocationTiming: [8049, true, 0.]
orbslamCorrection: [8050, true, 0.]
liveLocationCorrected: [8051, true, 0.]
orbObservation: [8052, true, 0.]
applanixLocation: [8053, true, 0.]
liveLocationKalman: [8054, true, 0.]
uiNavigationEvent: [8055, true, 0.]
orbOdometry: [8057, true, 0.]
orbFeatures: [8058, false, 0.]
orbKeyFrame: [8059, true, 0.]
uiLayoutState: [8060, true, 0.]
frontEncodeIdx: [8061, true, 5.]
orbFeaturesSummary: [8062, true, 0.]
driverState: [8063, true, 5., 1]
liveParameters: [8064, true, 10.]
liveMapData: [8065, true, 0.]
cameraOdometry: [8066, true, 20., 5]
pathPlan: [8067, true, 20.]
kalmanOdometry: [8068, true, 0.]
thumbnail: [8069, true, 0.2, 1]
carEvents: [8070, true, 1., 1]
carParams: [8071, true, 0.02, 1]
frontFrame: [8072, true, 10.]
dMonitoringState: [8073, true, 5., 1]
testModel: [8040, false, 0.]
testLiveLocation: [8045, false, 0.]
testJoystick: [8056, false, 0.]
# 8080 is reserved for slave testing daemon
# 8762 is reserved for logserver
# manager -- base process to manage starting and stopping of all others
# subscribes: thermal
# **** processes that communicate with the outside world ****
# thermald -- decides when to start and stop onroad
# subscribes: health, location
# publishes: thermal
# boardd -- communicates with the car
# subscribes: sendcan
# publishes: can, health, ubloxRaw
# sensord -- publishes IMU and Magnetometer
# publishes: sensorEvents
# gpsd -- publishes EON's gps
# publishes: gpsNMEA
# visiond -- talks to the cameras, runs the model, saves the videos
# publishes: frame, model, driverMonitoring, cameraOdometry, thumbnail
# **** stateful data transformers ****
# plannerd -- decides where to drive the car
# subscribes: carState, model, radarState, controlsState, liveParameters
# publishes: plan, pathPlan, liveMpc, liveLongitudinalMpc
# controlsd -- drives the car by sending CAN messages to panda
# subscribes: can, thermal, health, plan, pathPlan, driverMonitoring, liveCalibration
# publishes: carState, carControl, sendcan, controlsState, carEvents, carParams
# radard -- processes the radar and vision data
# subscribes: can, controlsState, model, liveParameters
# publishes: radarState, liveTracks
# params_learner -- learns vehicle params by observing the vehicle dynamics
# subscribes: controlsState, sensorEvents, cameraOdometry
# publishes: liveParameters
# calibrationd -- reads posenet and applies a temporal filter on the frame region to look at
# subscribes: cameraOdometry
# publishes: liveCalibration
# ubloxd -- read raw ublox data and converts them in readable format
# subscribes: ubloxRaw
# publishes: ubloxGnss
# **** LOGGING SERVICE ****
# loggerd
# subscribes: EVERYTHING
# **** NON VITAL SERVICES ****
# ui
# subscribes: thermal, model, controlsState, uiLayout, liveCalibration, radarState, liveMpc, plusFrame, liveMapData
# uploader
# communicates through file system with loggerd
# deleter
# communicates through file system with loggerd and uploader
# logmessaged -- central logging service, can log to cloud
# publishes: logMessage
# logcatd -- fetches logcat info from android
# publishes: androidLog
# proclogd -- fetches process information
# publishes: procLog
# tombstoned -- reports native crashes
# athenad -- on request, open a sub socket and return the value
# updated -- waits for network access and tries to update every hour
cereal/services.h
+76
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@@ -0,0 +1,76 @@
/* THIS IS AN AUTOGENERATED FILE, PLEASE EDIT services.py */
#ifndef __SERVICES_H
#define __SERVICES_H
struct service { char name[0x100]; int port; bool should_log; int frequency; int decimation; };
static struct service services[] = {
{ "gyroscope", 8001, true, 104, 104 },
{ "gyroscope2", 8002, true, 100, 100 },
{ "accelerometer", 8003, true, 104, 104 },
{ "accelerometer2", 8004, true, 100, 100 },
{ "magnetometer", 8005, true, 100, 100 },
{ "lightSensor", 8006, true, 100, 100 },
{ "temperatureSensor", 8007, true, 100, 100 },
{ "gpsNMEA", 8008, true, 9, -1 },
{ "deviceState", 8009, true, 2, 1 },
{ "can", 8010, true, 100, -1 },
{ "controlsState", 8011, true, 100, 10 },
{ "pandaStates", 8012, true, 2, 1 },
{ "peripheralState", 8013, true, 2, 1 },
{ "radarState", 8014, true, 20, 5 },
{ "roadEncodeIdx", 8015, false, 20, 1 },
{ "liveTracks", 8016, true, 20, -1 },
{ "sendcan", 8017, true, 100, 139 },
{ "logMessage", 8018, true, 0, -1 },
{ "errorLogMessage", 8019, true, 0, 1 },
{ "liveCalibration", 8020, true, 4, 4 },
{ "liveTorqueParameters", 8021, true, 4, 1 },
{ "androidLog", 8023, true, 0, -1 },
{ "carState", 8024, true, 100, 10 },
{ "carControl", 8025, true, 100, 10 },
{ "longitudinalPlan", 8026, true, 20, 5 },
{ "procLog", 8027, true, 0, -1 },
{ "gpsLocationExternal", 8028, true, 10, 10 },
{ "gpsLocation", 8029, true, 1, 1 },
{ "ubloxGnss", 8030, true, 10, -1 },
{ "qcomGnss", 8031, true, 2, -1 },
{ "gnssMeasurements", 8032, true, 10, 10 },
{ "clocks", 8033, true, 1, 1 },
{ "ubloxRaw", 8034, true, 20, -1 },
{ "liveLocationKalman", 8035, true, 20, 5 },
{ "liveParameters", 8036, true, 20, 5 },
{ "cameraOdometry", 8037, true, 20, 5 },
{ "lateralPlan", 8038, true, 20, 5 },
{ "thumbnail", 8039, true, 0, 1 },
{ "carEvents", 8040, true, 1, 1 },
{ "carParams", 8041, true, 0, 1 },
{ "roadCameraState", 8042, true, 20, 20 },
{ "driverCameraState", 8043, true, 10, 10 },
{ "driverEncodeIdx", 8044, false, 10, 1 },
{ "driverStateV2", 8045, true, 20, 10 },
{ "driverState", 8046, true, 10, 5 },
{ "driverMonitoringState", 8047, true, 10, 5 },
{ "wideRoadEncodeIdx", 8048, false, 20, 1 },
{ "wideRoadCameraState", 8049, true, 20, 20 },
{ "modelV2", 8050, true, 20, 40 },
{ "managerState", 8051, true, 2, 1 },
{ "uploaderState", 8052, true, 0, 1 },
{ "navInstruction", 8053, true, 1, 10 },
{ "navRoute", 8054, true, 0, -1 },
{ "navThumbnail", 8055, true, 0, -1 },
{ "navModel", 8056, true, 2, 4 },
{ "mapRenderState", 8057, true, 2, 1 },
{ "qRoadEncodeIdx", 8058, false, 20, -1 },
{ "userFlag", 8059, true, 0, 1 },
{ "microphone", 8060, true, 10, 10 },
{ "uiDebug", 8061, true, 0, 1 },
{ "testJoystick", 8062, true, 0, -1 },
{ "roadEncodeData", 8063, false, 20, -1 },
{ "driverEncodeData", 8064, false, 20, -1 },
{ "wideRoadEncodeData", 8065, false, 20, -1 },
{ "qRoadEncodeData", 8066, false, 20, -1 },
{ "dragonConf", 8067, false, 1, -1 },
{ "liveMapData", 8068, true, 0, -1 },
{ "sensorEvents", 8069, true, 100, 100 },
};
#endif
cereal/services.py
+108 -22
View File
@@ -1,33 +1,119 @@
#!/usr/bin/env python3
import os
import yaml
from typing import Optional
class Service():
def __init__(self, port, should_log, frequency, decimation=None):
RESERVED_PORT = 8022 # sshd
STARTING_PORT = 8001
def new_port(port: int):
port += STARTING_PORT
return port + 1 if port >= RESERVED_PORT else port
class Service:
def __init__(self, port: int, should_log: bool, frequency: float, decimation: Optional[int] = None):
self.port = port
self.should_log = should_log
self.frequency = frequency
self.decimation = decimation
service_list_path = os.path.join(os.path.dirname(__file__), "service_list.yaml")
service_list = {}
with open(service_list_path, "r") as f:
for k, v in yaml.safe_load(f).items():
decimation = None
if len(v) == 4:
decimation = v[3]
services = {
# service: (should_log, frequency, qlog decimation (optional))
# note: the "EncodeIdx" packets will still be in the log
"gyroscope": (True, 104., 104),
"gyroscope2": (True, 100., 100),
"accelerometer": (True, 104., 104),
"accelerometer2": (True, 100., 100),
"magnetometer": (True, 100., 100),
"lightSensor": (True, 100., 100),
"temperatureSensor": (True, 100., 100),
"gpsNMEA": (True, 9.),
"deviceState": (True, 2., 1),
"can": (True, 100.),
"controlsState": (True, 100., 10),
"pandaStates": (True, 2., 1),
"peripheralState": (True, 2., 1),
"radarState": (True, 20., 5),
"roadEncodeIdx": (False, 20., 1),
"liveTracks": (True, 20.),
"sendcan": (True, 100., 139),
"logMessage": (True, 0.),
"errorLogMessage": (True, 0., 1),
"liveCalibration": (True, 4., 4),
"liveTorqueParameters": (True, 4., 1),
"androidLog": (True, 0.),
"carState": (True, 100., 10),
"carControl": (True, 100., 10),
"longitudinalPlan": (True, 20., 5),
"procLog": (True, 0.5),
"gpsLocationExternal": (True, 10., 10),
"gpsLocation": (True, 1., 1),
"ubloxGnss": (True, 10.),
"qcomGnss": (True, 2.),
"gnssMeasurements": (True, 10., 10),
"clocks": (True, 1., 1),
"ubloxRaw": (True, 20.),
"liveLocationKalman": (True, 20., 5),
"liveParameters": (True, 20., 5),
"cameraOdometry": (True, 20., 5),
"lateralPlan": (True, 20., 5),
"thumbnail": (True, 0.2, 1),
"carEvents": (True, 1., 1),
"carParams": (True, 0.02, 1),
"roadCameraState": (True, 20., 20),
"driverCameraState": (True, 10., 10),
"driverEncodeIdx": (False, 10., 1),
"driverStateV2": (True, 20., 10),
"driverState": (True, 10, 5),
"driverMonitoringState": (True, 10., 5),
"wideRoadEncodeIdx": (False, 20., 1),
"wideRoadCameraState": (True, 20., 20),
"modelV2": (True, 20., 40),
"managerState": (True, 2., 1),
"uploaderState": (True, 0., 1),
"navInstruction": (True, 1., 10),
"navRoute": (True, 0.),
"navThumbnail": (True, 0.),
"navModel": (True, 2., 4.),
"mapRenderState": (True, 2., 1.),
"qRoadEncodeIdx": (False, 20.),
"userFlag": (True, 0., 1),
"microphone": (True, 10., 10),
# debug
"uiDebug": (True, 0., 1),
"testJoystick": (True, 0.),
"roadEncodeData": (False, 20.),
"driverEncodeData": (False, 20.),
"wideRoadEncodeData": (False, 20.),
"qRoadEncodeData": (False, 20.),
# dp
"dragonConf": (False, 1.),
"liveMapData": (True, 0.),
"sensorEvents": (True, 100., 100),
}
service_list = {name: Service(new_port(idx), *vals) for # type: ignore
idx, (name, vals) in enumerate(services.items())}
def build_header():
h = ""
h += "/* THIS IS AN AUTOGENERATED FILE, PLEASE EDIT services.py */\n"
h += "#ifndef __SERVICES_H\n"
h += "#define __SERVICES_H\n"
h += "struct service { char name[0x100]; int port; bool should_log; int frequency; int decimation; };\n"
h += "static struct service services[] = {\n"
for k, v in service_list.items():
should_log = "true" if v.should_log else "false"
decimation = -1 if v.decimation is None else v.decimation
h += ' { "%s", %d, %s, %d, %d },\n' % \
(k, v.port, should_log, v.frequency, decimation)
h += "};\n"
h += "#endif\n"
return h
service_list[k] = Service(v[0], v[1], v[2], decimation)
if __name__ == "__main__":
print("/* THIS IS AN AUTOGENERATED FILE, PLEASE EDIT service_list.yaml */")
print("#ifndef __SERVICES_H")
print("#define __SERVICES_H")
print("struct service { int port; bool should_log; int frequency; int decimation; char name[0x100]; };")
print("static struct service services[] = {")
for k, v in service_list.items():
print(' { .name = "%s", .port = %d, .should_log = %s, .frequency = %d, .decimation = %d },' % (k, v.port, "true" if v.should_log else "false", v.frequency, -1 if v.decimation is None else v.decimation))
print("};")
print("#endif")
print(build_header())
cereal/site_scons/site_tools/cython.py
+72
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@@ -0,0 +1,72 @@
import re
import SCons
from SCons.Action import Action
from SCons.Scanner import Scanner
pyx_from_import_re = re.compile(r'^from\s+(\S+)\s+cimport', re.M)
pyx_import_re = re.compile(r'^cimport\s+(\S+)', re.M)
cdef_import_re = re.compile(r'^cdef extern from\s+.(\S+).:', re.M)
def pyx_scan(node, env, path, arg=None):
contents = node.get_text_contents()
# from <module> cimport ...
matches = pyx_from_import_re.findall(contents)
# cimport <module>
matches += pyx_import_re.findall(contents)
# Modules can be either .pxd or .pyx files
files = [m.replace('.', '/') + '.pxd' for m in matches]
files += [m.replace('.', '/') + '.pyx' for m in matches]
# cdef extern from <file>
files += cdef_import_re.findall(contents)
# Handle relative imports
cur_dir = str(node.get_dir())
files = [cur_dir + f if f.startswith('/') else f for f in files]
# Filter out non-existing files (probably system imports)
files = [f for f in files if env.File(f).exists()]
return env.File(files)
pyxscanner = Scanner(function=pyx_scan, skeys=['.pyx', '.pxd'], recursive=True)
cythonAction = Action("$CYTHONCOM")
def create_builder(env):
try:
cython = env['BUILDERS']['Cython']
except KeyError:
cython = SCons.Builder.Builder(
action=cythonAction,
emitter={},
suffix=cython_suffix_emitter,
single_source=1
)
env.Append(SCANNERS=pyxscanner)
env['BUILDERS']['Cython'] = cython
return cython
def cython_suffix_emitter(env, source):
return "$CYTHONCFILESUFFIX"
def generate(env):
env["CYTHON"] = "cythonize"
env["CYTHONCOM"] = "$CYTHON $CYTHONFLAGS $SOURCE"
env["CYTHONCFILESUFFIX"] = ".cpp"
c_file, _ = SCons.Tool.createCFileBuilders(env)
c_file.suffix['.pyx'] = cython_suffix_emitter
c_file.add_action('.pyx', cythonAction)
c_file.suffix['.py'] = cython_suffix_emitter
c_file.add_action('.py', cythonAction)
create_builder(env)
def exists(env):
return True
cereal/visionipc/.gitignore
+2
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@@ -0,0 +1,2 @@
visionipc_pyx.cpp
*.so
cereal/messaging/tests/__init__.py → cereal/visionipc/__init__.py
View File
cereal/visionipc/ipc.h
+7
View File
@@ -0,0 +1,7 @@
#pragma once
#include <cstddef>
int ipc_connect(const char* socket_path);
int ipc_bind(const char* socket_path);
int ipc_sendrecv_with_fds(bool send, int fd, void *buf, size_t buf_size, int* fds, int num_fds,
int *out_num_fds);
cereal/visionipc/visionbuf.h
+69
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@@ -0,0 +1,69 @@
#pragma once
#include "visionipc.h"
#define CL_USE_DEPRECATED_OPENCL_1_2_APIS
#ifdef __APPLE__
#include <OpenCL/cl.h>
#else
#include <CL/cl.h>
#endif
#define VISIONBUF_SYNC_FROM_DEVICE 0
#define VISIONBUF_SYNC_TO_DEVICE 1
enum VisionStreamType {
VISION_STREAM_RGB_ROAD,
VISION_STREAM_RGB_DRIVER,
VISION_STREAM_RGB_WIDE_ROAD,
VISION_STREAM_ROAD,
VISION_STREAM_DRIVER,
VISION_STREAM_WIDE_ROAD,
VISION_STREAM_RGB_MAP,
VISION_STREAM_MAX,
};
class VisionBuf {
public:
size_t len = 0;
size_t mmap_len = 0;
void * addr = nullptr;
uint64_t *frame_id;
int fd = 0;
bool rgb = false;
size_t width = 0;
size_t height = 0;
size_t stride = 0;
// YUV
uint8_t * y = nullptr;
uint8_t * u = nullptr;
uint8_t * v = nullptr;
// Visionipc
uint64_t server_id = 0;
size_t idx = 0;
VisionStreamType type;
// OpenCL
cl_mem buf_cl = nullptr;
cl_command_queue copy_q = nullptr;
// ion
int handle = 0;
void allocate(size_t len);
void import();
void init_cl(cl_device_id device_id, cl_context ctx);
void init_rgb(size_t width, size_t height, size_t stride);
void init_yuv(size_t width, size_t height);
int sync(int dir);
int free();
void set_frame_id(uint64_t id);
uint64_t get_frame_id();
};
void visionbuf_compute_aligned_width_and_height(int width, int height, int *aligned_w, int *aligned_h);
cereal/visionipc/visionipc.h
+18
View File
@@ -0,0 +1,18 @@
#pragma once
#include <cstdint>
#include <cstddef>
constexpr int VISIONIPC_MAX_FDS = 128;
struct VisionIpcBufExtra {
uint32_t frame_id;
uint64_t timestamp_sof;
uint64_t timestamp_eof;
};
struct VisionIpcPacket {
uint64_t server_id;
size_t idx;
struct VisionIpcBufExtra extra;
};
cereal/visionipc/visionipc.pxd
+39
View File
@@ -0,0 +1,39 @@
# distutils: language = c++
#cython: language_level=3
from libcpp.string cimport string
from libcpp.vector cimport vector
from libc.stdint cimport uint32_t, uint64_t
from libcpp cimport bool
cdef extern from "visionbuf.h":
cdef enum VisionStreamType:
pass
cdef cppclass VisionBuf:
void * addr
size_t len
size_t width
size_t height
size_t stride
cdef extern from "visionipc.h":
struct VisionIpcBufExtra:
uint32_t frame_id
uint64_t timestamp_sof
uint64_t timestamp_eof
cdef extern from "visionipc_server.h":
cdef cppclass VisionIpcServer:
VisionIpcServer(string, void*, void*)
void create_buffers(VisionStreamType, size_t, bool, size_t, size_t)
VisionBuf * get_buffer(VisionStreamType)
void send(VisionBuf *, VisionIpcBufExtra *, bool)
void start_listener()
cdef extern from "visionipc_client.h":
cdef cppclass VisionIpcClient:
VisionIpcClient(string, VisionStreamType, bool, void*, void*)
VisionBuf * recv(VisionIpcBufExtra *, int)
bool connect(bool)
bool is_connected()
cereal/visionipc/visionipc_client.h
+33
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@@ -0,0 +1,33 @@
#pragma once
#include <vector>
#include <string>
#include <unistd.h>
#include "messaging/messaging.h"
#include "visionipc/visionipc.h"
#include "visionipc/visionbuf.h"
class VisionIpcClient {
private:
std::string name;
Context * msg_ctx;
SubSocket * sock;
Poller * poller;
VisionStreamType type;
cl_device_id device_id = nullptr;
cl_context ctx = nullptr;
void init_msgq(bool conflate);
public:
bool connected = false;
int num_buffers = 0;
VisionBuf buffers[VISIONIPC_MAX_FDS];
VisionIpcClient(std::string name, VisionStreamType type, bool conflate, cl_device_id device_id=nullptr, cl_context ctx=nullptr);
~VisionIpcClient();
VisionBuf * recv(VisionIpcBufExtra * extra=nullptr, const int timeout_ms=100);
bool connect(bool blocking=true);
bool is_connected() { return connected; }
};
cereal/visionipc/visionipc_pyx.cpp
+29326
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File diff suppressed because it is too large Load Diff
cereal/visionipc/visionipc_pyx.so
Executable
BIN
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cereal/visionipc/visionipc_server.h
+42
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@@ -0,0 +1,42 @@
#pragma once
#include <vector>
#include <string>
#include <thread>
#include <atomic>
#include <map>
#include "messaging/messaging.h"
#include "visionipc/visionipc.h"
#include "visionipc/visionbuf.h"
std::string get_endpoint_name(std::string name, VisionStreamType type);
class VisionIpcServer {
private:
cl_device_id device_id = nullptr;
cl_context ctx = nullptr;
uint64_t server_id;
std::atomic<bool> should_exit = false;
std::string name;
std::thread listener_thread;
std::map<VisionStreamType, std::atomic<size_t> > cur_idx;
std::map<VisionStreamType, std::vector<VisionBuf*> > buffers;
std::map<VisionStreamType, std::map<VisionBuf*, size_t> > idxs;
Context * msg_ctx;
std::map<VisionStreamType, PubSocket*> sockets;
void listener(void);
public:
VisionIpcServer(std::string name, cl_device_id device_id=nullptr, cl_context ctx=nullptr);
~VisionIpcServer();
VisionBuf * get_buffer(VisionStreamType type);
void create_buffers(VisionStreamType type, size_t num_buffers, bool rgb, size_t width, size_t height);
void send(VisionBuf * buf, VisionIpcBufExtra * extra, bool sync=true);
void start_listener();
};
common/SConscript
-6
View File
@@ -1,6 +0,0 @@
Import('env')
# parser
env.Command(['common_pyx.so'],
['common_pyx_setup.py', 'clock.pyx'],
"cd common && python3 common_pyx_setup.py build_ext --inplace")
common/android.py
-130
View File
@@ -1,130 +0,0 @@
import os
import binascii
import itertools
import re
import struct
import subprocess
import random
from cereal import log
NetworkType = log.ThermalData.NetworkType
ANDROID = os.path.isfile('/EON')
def getprop(key):
if not ANDROID:
return ""
return subprocess.check_output(["getprop", key], encoding='utf8').strip()
def get_imei(slot):
slot = str(slot)
if slot not in ("0", "1"):
raise ValueError("SIM slot must be 0 or 1")
ret = parse_service_call_string(service_call(["iphonesubinfo", "3" ,"i32", str(slot)]))
if not ret:
# allow non android to be identified differently
ret = "%015d" % random.randint(0, 1<<32)
return ret
def get_serial():
ret = getprop("ro.serialno")
if ret == "":
ret = "cccccccc"
return ret
def get_subscriber_info():
ret = parse_service_call_string(service_call(["iphonesubinfo", "7"]))
if ret is None or len(ret) < 8:
return ""
return ret
def reboot(reason=None):
if reason is None:
reason_args = ["null"]
else:
reason_args = ["s16", reason]
subprocess.check_output([
"service", "call", "power", "16", # IPowerManager.reboot
"i32", "0", # no confirmation,
*reason_args,
"i32", "1" # wait
])
def service_call(call):
if not ANDROID:
return None
ret = subprocess.check_output(["service", "call", *call], encoding='utf8').strip()
if 'Parcel' not in ret:
return None
return parse_service_call_bytes(ret)
def parse_service_call_unpack(r, fmt):
try:
return struct.unpack(fmt, r)[0]
except Exception:
return None
def parse_service_call_string(r):
try:
r = r[8:] # Cut off length field
r = r.decode('utf_16_be')
# All pairs of two characters seem to be swapped. Not sure why
result = ""
for a, b, in itertools.zip_longest(r[::2], r[1::2], fillvalue='\x00'):
result += b + a
result = result.replace('\x00', '')
return result
except Exception:
return None
def parse_service_call_bytes(ret):
try:
r = b""
for hex_part in re.findall(r'[ (]([0-9a-f]{8})', ret):
r += binascii.unhexlify(hex_part)
return r
except Exception:
return None
def get_network_type():
if not ANDROID:
return NetworkType.none
wifi_check = parse_service_call_string(service_call(["connectivity", "2"]))
if wifi_check is None:
return NetworkType.none
elif 'WIFI' in wifi_check:
return NetworkType.wifi
else:
cell_check = parse_service_call_unpack(service_call(['phone', '59']), ">q")
# from TelephonyManager.java
cell_networks = {
0: NetworkType.none,
1: NetworkType.cell2G,
2: NetworkType.cell2G,
3: NetworkType.cell3G,
4: NetworkType.cell2G,
5: NetworkType.cell3G,
6: NetworkType.cell3G,
7: NetworkType.cell3G,
8: NetworkType.cell3G,
9: NetworkType.cell3G,
10: NetworkType.cell3G,
11: NetworkType.cell2G,
12: NetworkType.cell3G,
13: NetworkType.cell4G,
14: NetworkType.cell4G,
15: NetworkType.cell3G,
16: NetworkType.cell2G,
17: NetworkType.cell3G,
18: NetworkType.cell4G,
19: NetworkType.cell4G
}
return cell_networks.get(cell_check, NetworkType.none)
common/api/__init__.py
+15 -10
View File
@@ -1,8 +1,12 @@
import jwt
import os
import requests
from datetime import datetime, timedelta
from common.basedir import PERSIST
from selfdrive.version import version
from system.version import get_version
from common.params import Params
API_HOST = os.getenv('API_HOST', 'https://api.commadotai.com') if not Params().get_bool("dp_api_custom") else Params().get("dp_api_custom_url", encoding='utf-8')
class Api():
def __init__(self, dongle_id):
@@ -19,24 +23,25 @@ class Api():
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):
def get_token(self, expiry_hours=1):
now = datetime.utcnow()
payload = {
'identity': self.dongle_id,
'nbf': now,
'iat': now,
'exp': now + timedelta(hours=1)
'exp': now + timedelta(hours=expiry_hours)
}
return jwt.encode(payload, self.private_key, algorithm='RS256').decode('utf8')
token = jwt.encode(payload, self.private_key, algorithm='RS256')
if isinstance(token, bytes):
token = token.decode('utf8')
return token
def api_get(endpoint, method='GET', timeout=None, access_token=None, **params):
backend = "https://api.commadotai.com/"
headers = {}
if access_token is not None:
headers['Authorization'] = "JWT "+access_token
headers['Authorization'] = "JWT " + access_token
headers['User-Agent'] = "openpilot-" + version
return requests.request(method, backend+endpoint, timeout=timeout, headers = headers, params=params)
headers['User-Agent'] = "openpilot-" + get_version()
return requests.request(method, API_HOST + "/" + endpoint, timeout=timeout, headers=headers, params=params)
common/apk.py
-98
View File
@@ -1,98 +0,0 @@
import os
import subprocess
import glob
import hashlib
import shutil
from common.basedir import BASEDIR
from selfdrive.swaglog import cloudlog
android_packages = ("tw.com.ainvest.outpack", "cn.dragonpilot.gpsservice", "com.autonavi.amapauto", "com.mixplorer", "com.tomtom.speedcams.android.map", "ai.comma.plus.offroad", "ai.comma.plus.frame")
def get_installed_apks():
dat = subprocess.check_output(["pm", "list", "packages", "-f"], encoding='utf8').strip().split("\n")
ret = {}
for x in dat:
if x.startswith("package:"):
v,k = x.split("package:")[1].split("=")
ret[k] = v
return ret
def install_apk(path):
# can only install from world readable path
install_path = "/sdcard/%s" % os.path.basename(path)
shutil.copyfile(path, install_path)
ret = subprocess.call(["pm", "install", "-r", install_path])
os.remove(install_path)
return ret == 0
def start_frame():
set_package_permissions()
system("am start -n ai.comma.plus.frame/.MainActivity")
def set_package_permissions():
pm_grant("ai.comma.plus.offroad", "android.permission.ACCESS_FINE_LOCATION")
pm_grant("ai.comma.plus.offroad", "android.permission.READ_PHONE_STATE")
pm_grant("ai.comma.plus.offroad", "android.permission.READ_EXTERNAL_STORAGE")
appops_set("ai.comma.plus.offroad", "SU", "allow")
appops_set("ai.comma.plus.offroad", "WIFI_SCAN", "allow")
def appops_set(package, op, mode):
system(f"LD_LIBRARY_PATH= appops set {package} {op} {mode}")
def pm_grant(package, permission):
system(f"pm grant {package} {permission}")
def system(cmd):
try:
cloudlog.info("running %s" % cmd)
subprocess.check_output(cmd, stderr=subprocess.STDOUT, shell=True)
except subprocess.CalledProcessError as e:
cloudlog.event("running failed",
cmd=e.cmd,
output=e.output[-1024:],
returncode=e.returncode)
# *** external functions ***
def update_apks():
# install apks
installed = get_installed_apks()
install_apks = glob.glob(os.path.join(BASEDIR, "apk/*.apk"))
for apk in install_apks:
app = os.path.basename(apk)[:-4]
if app not in installed:
installed[app] = None
cloudlog.info("installed apks %s" % (str(installed), ))
for app in installed.keys():
apk_path = os.path.join(BASEDIR, "apk/"+app+".apk")
if not os.path.exists(apk_path):
continue
h1 = hashlib.sha1(open(apk_path, 'rb').read()).hexdigest()
h2 = None
if installed[app] is not None:
h2 = hashlib.sha1(open(installed[app], 'rb').read()).hexdigest()
cloudlog.info("comparing version of %s %s vs %s" % (app, h1, h2))
if h2 is None or h1 != h2:
cloudlog.info("installing %s" % app)
success = install_apk(apk_path)
if not success:
cloudlog.info("needing to uninstall %s" % app)
system("pm uninstall %s" % app)
success = install_apk(apk_path)
assert success
def pm_apply_packages(cmd):
for p in android_packages:
system("pm %s %s" % (cmd, p))
if __name__ == "__main__":
update_apks()
common/basedir.py
+7 -7
View File
@@ -1,11 +1,11 @@
import os
from pathlib import Path
from system.hardware import PC
BASEDIR = os.path.abspath(os.path.join(os.path.dirname(os.path.realpath(__file__)), "../"))
from common.android import ANDROID
if ANDROID:
PERSIST = "/persist"
PARAMS = "/data/params"
if PC:
PERSIST = os.path.join(str(Path.home()), ".comma", "persist")
else:
PERSIST = os.path.join(BASEDIR, "persist")
PARAMS = os.path.join(BASEDIR, "persist", "params")
PERSIST = "/persist"
common/clock.cpp
+2804
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common/clock.pyx
+2
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@@ -1,3 +1,5 @@
# distutils: language = c++
# cython: language_level = 3
from posix.time cimport clock_gettime, timespec, CLOCK_MONOTONIC_RAW, clockid_t
IF UNAME_SYSNAME == "Darwin":
common/clock.so
Executable
BIN
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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_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_binary(cl_context ctx, cl_device_id device_id, const uint8_t* binary, size_t length, const char* args = nullptr);
cl_program cl_program_from_file(cl_context ctx, cl_device_id device_id, const char* path, const char* args);
const char* cl_get_error_string(int err);
common/common_pyx_setup.py
-20
View File
@@ -1,20 +0,0 @@
from distutils.core import Extension, setup # pylint: disable=import-error,no-name-in-module
from Cython.Build import cythonize
from common.cython_hacks import BuildExtWithoutPlatformSuffix
sourcefiles = ['clock.pyx']
extra_compile_args = ["-std=c++11"]
setup(name='Common',
cmdclass={'build_ext': BuildExtWithoutPlatformSuffix},
ext_modules=cythonize(
Extension(
"common_pyx",
language="c++",
sources=sourcefiles,
extra_compile_args=extra_compile_args,
)
),
nthreads=4,
)
common/conversions.py
+19
View File
@@ -0,0 +1,19 @@
import numpy as np
class Conversions:
# Speed
MPH_TO_KPH = 1.609344
KPH_TO_MPH = 1. / MPH_TO_KPH
MS_TO_KPH = 3.6
KPH_TO_MS = 1. / MS_TO_KPH
MS_TO_MPH = MS_TO_KPH * KPH_TO_MPH
MPH_TO_MS = MPH_TO_KPH * KPH_TO_MS
MS_TO_KNOTS = 1.9438
KNOTS_TO_MS = 1. / MS_TO_KNOTS
# Angle
DEG_TO_RAD = np.pi / 180.
RAD_TO_DEG = 1. / DEG_TO_RAD
# Mass
LB_TO_KG = 0.453592
common/cython_hacks.py
-23
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@@ -1,23 +0,0 @@
import os
import sysconfig
from Cython.Distutils import build_ext
def get_ext_filename_without_platform_suffix(filename):
name, ext = os.path.splitext(filename)
ext_suffix = sysconfig.get_config_var('EXT_SUFFIX')
if ext_suffix == ext:
return filename
ext_suffix = ext_suffix.replace(ext, '')
idx = name.find(ext_suffix)
if idx == -1:
return filename
else:
return name[:idx] + ext
class BuildExtWithoutPlatformSuffix(build_ext):
def get_ext_filename(self, ext_name):
filename = super().get_ext_filename(ext_name)
return get_ext_filename_without_platform_suffix(filename)
common/dict_helpers.py
+9
View File
@@ -0,0 +1,9 @@
# remove all keys that end in DEPRECATED
def strip_deprecated_keys(d):
for k in list(d.keys()):
if isinstance(k, str):
if k.endswith('DEPRECATED'):
d.pop(k)
elif isinstance(d[k], dict):
strip_deprecated_keys(d[k])
return d
common/dp_conf.py
+304
View File
@@ -0,0 +1,304 @@
#!/usr/bin/env python3.7
#pylint: skip-file
import os
import sys
import json
import time
from math import floor
from system.hardware import TICI
'''
* type: Bool, Int8, UInt8, UInt16, Float32
* conf_type: param, struct
* dependencies needs to use struct and loaded prior so we don't have to read the param multiple times.
* update_once: True, False (the param will only load up once, need both param and struct defined)
'''
confs = [
# custom api server
{'name': 'dp_api_custom', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_api_custom_url', 'default': 'https://api.retropilot.org', 'type': 'Text', 'depends': [{'name': 'dp_api_custom', 'vals': [True]}], 'conf_type': ['param']},
{'name': 'dp_atl', 'default': 0, 'type': 'UInt8', 'conf_type': ['param', 'struct'], 'update_once': True},
{'name': 'dp_locale', 'default': 'en-US', 'type': 'Text', 'conf_type': ['param', 'struct'], 'update_once': True},
{'name': 'dp_jetson', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# nav service
{'name': 'dp_nav', 'default': True, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_otisserv', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_nav_mapbox_token_pk', 'default': '', 'type': 'Text', 'conf_type': ['param']},
{'name': 'dp_nav_mapbox_token_sk', 'default': '', 'type': 'Text', 'conf_type': ['param']},
{'name': 'dp_nav_full_screen', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_nav_gmap_enable', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_nav_gmap_key', 'default': '', 'type': 'Text', 'conf_type': ['param']},
{'name': 'dp_nav_amap_enable', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_nav_amap_key', 'default': '', 'type': 'Text', 'conf_type': ['param']},
{'name': 'dp_nav_amap_key_2', 'default': '', 'type': 'Text', 'conf_type': ['param']},
{'name': 'dp_nav_style_day', 'default': 'mapbox://styles/rav4kumar/ckv7dtfba6oik15r0w8dh1c1q', 'type': 'Text', 'conf_type': ['param']},
{'name': 'dp_nav_style_night', 'default': 'mapbox://styles/rav4kumar/ckvsf3f4u0zb414tcz9vof5jc', 'type': 'Text', 'conf_type': ['param']},
# gpxd
{'name': 'dp_gpxd', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# assign car via param
# echo -n TOYOTA C-HR 2021 > /data/params/d/dp_car_assigned
{'name': 'dp_car_assigned', 'default': '', 'type': 'Text', 'conf_type': ['param']},
{'name': 'dp_car_list', 'default': '', 'type': 'Text', 'conf_type': ['param']},
{'name': 'dp_last_modified', 'default': str(floor(time.time())), 'type': 'Text', 'conf_type': ['param']},
# lateral - alc
{'name': 'dp_lateral_mode', 'default': 1, 'type': 'UInt8', 'min': 0, 'max': 2, 'conf_type': ['param', 'struct']},
# {'name': 'dp_signal_off_delay', 'default': 3., 'type': 'Float32', 'min': 0., 'max': 10., 'depends': [{'name': 'dp_lateral_mode', 'vals': [0]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_lc_min_mph', 'default': 15, 'type': 'UInt8', 'min': 0, 'max': 255, 'depends': [{'name': 'dp_lateral_mode', 'vals': [1, 2]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_lc_auto_min_mph', 'default': 40, 'type': 'UInt8', 'min': 0, 'max': 255, 'depends': [{'name': 'dp_lateral_mode', 'vals': [2]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_lc_auto_delay', 'default': 3., 'type': 'Float32', 'min': 0., 'max': 10., 'depends': [{'name': 'dp_lateral_mode', 'vals': [2]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_lateral_lanelines', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_lateral_camera_offset', 'default': 4 if TICI else -6, 'type': 'Int8', 'min': -100, 'max': 100, 'depends': [{'name': 'dp_lateral_lanelines', 'vals': [True]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_lateral_path_offset', 'default': 4 if TICI else 0, 'type': 'Int8', 'min': -100, 'max': 100, 'depends': [{'name': 'dp_lateral_lanelines', 'vals': [True]}], 'conf_type': ['param', 'struct']},
#ui
{'name': 'dp_ip_addr', 'default': '', 'type': 'Text', 'conf_type': ['struct']},
{'name': 'dp_quiet_drive', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_ui_top', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_ui_side', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_ui_volume', 'default': -5, 'type': 'Int8', 'min': -5, 'max': 100, 'conf_type': ['param', 'struct']},
{'name': 'dp_ui_brightness', 'default': 0, 'type': 'UInt8', 'min': 0, 'max': 100, 'conf_type': ['param', 'struct']},
{'name': 'dp_ui_display_mode', 'default': 0, 'type': 'UInt8', 'min': 0, 'max': 1, 'conf_type': ['param', 'struct']},
{'name': 'dp_ui_speed', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_ui_event', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_ui_face', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_ui_lead_info', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_ui_laneline', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_ui_chevron', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_ui_dm_cam', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
#toyota
{'name': 'dp_toyota_sng', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_accel_profile_ctrl', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_accel_profile', 'default': 0, 'type': 'UInt8', 'min': 0, 'max': 2, 'depends': [{'name': 'dp_accel_profile_ctrl', 'vals': [True]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_toyota_ap_btn_link', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_toyota_cruise_override', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_toyota_cruise_override_speed', 'default': 30, 'type': 'UInt8', 'min': 5, 'max': 60, 'depends': [{'name': 'dp_accel_profile_ctrl', 'vals': [True]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_toyota_auto_lock', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_toyota_auto_unlock', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_toyota_fp_btn_link', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_mapd', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_local_db', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# dashcam related
{'name': 'dp_dashcamd', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# # auto shutdown
{'name': 'dp_auto_shutdown', 'default': True, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_auto_shutdown_in', 'default': 60, 'type': 'UInt16', 'min': 0, 'max': 600, 'depends': [{'name': 'dp_auto_shutdown', 'vals': [True]}], 'conf_type': ['param']},
{'name': 'dp_mazda_steer_alert', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_mazda_dashcam_bypass', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# # service
# {'name': 'dp_updated', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_logger', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_athenad', 'default': False, 'type': 'Bool', 'depends': [{'name': 'dp_atl', 'vals': [False]}], 'conf_type': ['param', 'struct'], 'update_once': True},
# {'name': 'dp_uploader', 'default': False, 'type': 'Bool', 'depends': [{'name': 'dp_atl', 'vals': [False]}], 'conf_type': ['param', 'struct'], 'update_once': True},
# # {'name': 'dp_gpxd', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_hotspot_on_boot', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_honda_eps_mod', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_dm', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_speed_check', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_temp_check', 'default': True, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_vag_resume_fix', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# # lat ctrl
# {'name': 'dp_lane_less_mode_ctrl', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_lane_less_mode', 'default': 2, 'type': 'UInt8', 'min': 0, 'max': 2, 'depends': [{'name': 'dp_lane_less_mode_ctrl', 'vals': [True]}], 'conf_type': ['param', 'struct']},
# # long ctrl
# {'name': 'dp_allow_gas', 'default': False, 'type': 'Bool', 'depends': [{'name': 'dp_atl', 'vals': [False]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_following_profile_ctrl', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_following_profile', 'default': 0, 'type': 'UInt8', 'min': 0, 'max': 2, 'depends': [{'name': 'dp_following_profile_ctrl', 'vals': [True]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_lateral_tune', 'default': 0, 'type': 'UInt8', 'conf_type': ['param']},
{'name': 'dp_lateral_torque_live_tune', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_accel_profile_ctrl', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_accel_profile', 'default': 0, 'type': 'UInt8', 'min': 0, 'max': 2, 'depends': [{'name': 'dp_accel_profile_ctrl', 'vals': [True]}], 'conf_type': ['param', 'struct']},
# # safety
# {'name': 'dp_gear_check', 'default': True, 'type': 'Bool', 'depends': [{'name': 'dp_atl', 'vals': [False]}], 'conf_type': ['param', 'struct']},
# # UIs
# {'name': 'dp_ui_display_mode', 'default': 0, 'type': 'UInt8', 'min': 0, 'max': 1, 'conf_type': ['param', 'struct']},
# {'name': 'dp_ui_speed', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_ui_event', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_ui_max_speed', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_ui_face', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_ui_lane', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_ui_lead', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_ui_side', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_ui_top', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_ui_blinker', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_ui_brightness', 'default': 0, 'type': 'UInt8', 'min': 0, 'max': 100, 'conf_type': ['param', 'struct']},
# {'name': 'dp_ui_volume', 'default': -5, 'type': 'Int8', 'min': -5, 'max': 100, 'conf_type': ['param', 'struct']},
# # toyota
{'name': 'dp_toyota_rav4_tss2_tune', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_toyota_prius_bad_angle_tune', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_e2e_conditional', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_e2e_conditional_at_speed', 'default': 60, 'type': 'UInt8', 'min': 30, 'max': 80, 'depends': [{'name': 'dp_e2e_conditional', 'vals': [True]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_e2e_conditional_at_speed_lead', 'default': 40, 'type': 'UInt8', 'min': 0, 'max': 80, 'depends': [{'name': 'dp_e2e_conditional', 'vals': [True]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_e2e_conditional_adapt_fp', 'default': False, 'type': 'Bool', 'depends': [{'name': 'dp_e2e_conditional', 'vals': [True]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_e2e_conditional_adapt_ap', 'default': False, 'type': 'Bool', 'depends': [{'name': 'dp_e2e_conditional', 'vals': [True]}], 'conf_type': ['param', 'struct']},
{'name': 'dp_e2e_conditional_voacc', 'default': False, 'type': 'Bool', 'depends': [{'name': 'dp_e2e_conditional', 'vals': [True]}], 'conf_type': ['param', 'struct']},
# {'name': 'dp_toyota_no_min_acc_limit', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_toyota_ldw', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
{'name': 'dp_toyota_zss', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_toyota_fp_btn_link', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_toyota_ap_btn_link', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_toyota_disable_relay', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_toyota_cruise_override', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_toyota_cruise_override_vego', 'default': False, 'type': 'Bool', 'depends': [{'name': 'dp_toyota_cruise_override', 'vals': [True]}], 'conf_type': ['param', 'struct']},
# {'name': 'dp_toyota_cruise_override_at', 'default': 44, 'type': 'Float32', 'depends': [{'name': 'dp_toyota_cruise_override', 'vals': [True]}], 'min': 0, 'max': 50., 'conf_type': ['param', 'struct']},
# {'name': 'dp_toyota_cruise_override_speed', 'default': 32, 'type': 'Float32', 'depends': [{'name': 'dp_toyota_cruise_override', 'vals': [True]}], 'min': 0, 'max': 50., 'conf_type': ['param', 'struct']},
# # hyundai
# {'name': 'dp_hkg_smart_mdps', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# # honda
# {'name': 'dp_honda_kmh_display', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# # volkswagen
# # {'name': 'dp_vw_panda', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# #misc
# {'name': 'dp_ip_addr', 'default': '', 'type': 'Text', 'conf_type': ['struct']},
# {'name': 'dp_fan_mode', 'default': 0, 'type': 'UInt8', 'min': 0, 'max': 2, 'conf_type': ['param']},
# {'name': 'dp_last_modified', 'default': str(floor(time.time())), 'type': 'Text', 'conf_type': ['param']},
# {'name': 'dp_camera_offset', 'default': CAMERA_OFFSET, 'type': 'Int8', 'min': -100, 'max': 100, 'conf_type': ['param', 'struct']},
# {'name': 'dp_path_offset', 'default': 0 if EON else -4 if TICI else 0, 'type': 'Int8', 'min': -100, 'max': 100, 'conf_type': ['param', 'struct']},
#
# {'name': 'dp_reg', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# # sr learner related
# {'name': 'dp_sr_learner', 'default': True, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# {'name': 'dp_sr_custom', 'default': 9.99, 'min': 9.99, 'max': 30., 'type': 'Float32', 'depends': [{'name': 'dp_sr_learner', 'vals': [False]}], 'conf_type': ['param', 'struct']},
# {'name': 'dp_sr_stock', 'default': 9.99, 'min': 9.99, 'max': 100., 'type': 'Float32', 'conf_type': ['param']},
#
# {'name': 'dp_lqr', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_reset_live_param_on_start', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
#
# {'name': 'dp_car_assigned', 'default': '', 'type': 'Text', 'conf_type': ['param']},
# {'name': 'dp_no_batt', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_last_candidate', 'default': '', 'type': 'Text', 'conf_type': ['param']},
# {'name': 'dp_prebuilt', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_gpxd', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_mapd', 'default': False, 'type': 'Bool', 'conf_type': ['param', 'struct']},
# # no gps is for mr. one's harness + black panda in one solution (without GPS chip)
# {'name': 'dp_panda_no_gps', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
#
# {'name': 'dp_no_offroad_fix', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
# {'name': 'dp_ftpd', 'default': False, 'type': 'Bool', 'conf_type': ['param']},
{'name': 'dp_lateral_version', 'default': 0, 'min': 0, 'max': 2, 'type': 'UInt8', 'conf_type': ['param']},
{'name': 'dp_lateral_steer_rate_cost', 'default': 1.0, 'min': 0.5, 'max': 2.0, 'type': 'Float32', 'conf_type': ['param']},
]
def get_definition(name):
for conf in confs:
if conf['name'] == name:
return conf
return None
def to_param_val(name, val):
conf = get_definition(name)
if conf is not None:
type = conf['type'].lower()
try:
if 'bool' in type:
val = '1' if val else '0'
elif 'int' in type:
val = int(val)
elif 'float' in type:
val = float(val)
return str(val)
except (ValueError, TypeError):
return ''
return ''
def to_struct_val(name, val):
conf = get_definition(name)
if conf is not None:
try:
type = conf['type'].lower()
if 'bool' in type:
val = True if val == '1' else False
elif 'int' in type:
val = int(val)
elif 'float' in type:
val = float(val)
return val
except (ValueError, TypeError):
return None
return None
'''
function to convert param name into struct name.
'''
def get_struct_name(snake_str):
components = snake_str.split('_')
# We capitalize the first letter of each component except the first one
# with the 'title' method and join them together.
return components[0] + ''.join(x.title() for x in components[1:])
'''
function to generate struct for log.capnp
'''
def gen_log_struct():
count = 0
str = "# dp\n"
str += "struct DragonConf {\n"
for conf in confs:
name = get_struct_name(conf['name'])
if 'struct' in conf['conf_type']:
str += f" {name} @{count} :{conf['type']};\n"
count += 1
str += "}"
print(str)
'''
function to generate support car list
'''
def get_support_car_list():
attrs = ['FINGERPRINTS', 'FW_VERSIONS']
cars = dict({"cars": []})
models = []
for car_folder in [x[0] for x in os.walk('/data/openpilot/selfdrive/car')]:
try:
car_name = car_folder.split('/')[-1]
if car_name != "mock":
for attr in attrs:
values = __import__('selfdrive.car.%s.values' % car_name, fromlist=[attr])
if hasattr(values, attr):
attr_values = getattr(values, attr)
else:
continue
if isinstance(attr_values, dict):
for f, v in attr_values.items():
if f not in models:
models.append(f)
except (ImportError, IOError, ValueError):
pass
models.sort()
cars["cars"] = models
return json.dumps(cars)
'''
function to init param value.
should add this into manager.py
'''
def init_params_vals(params):
for conf in confs:
if 'param' in conf['conf_type']:
if conf['name'] == 'dp_car_list':
params.put(conf['name'], get_support_car_list())
elif params.get(conf['name']) is None:
params.put(conf['name'], to_param_val(conf['name'], conf['default']))
def gen_params_cc_keys():
for conf in confs:
if 'param' in conf['conf_type']:
print(" {\"%s\", PERSISTENT}," % conf['name'])
if __name__ == "__main__":
if (len(sys.argv) > 1) and sys.argv[1] == 'cc':
gen_params_cc_keys()
else:
gen_log_struct()
common/dp_helpers.py
+59
View File
@@ -0,0 +1,59 @@
#!/usr/bin/env python3.7
# import subprocess
# from cereal import car
from common.params import Params
from common.realtime import sec_since_boot
import os
params = Params()
LAST_MODIFIED = params.get_param_path() + "/dp_last_modified"
# delay of reading last modified
# LAST_MODIFIED_TIMER_THERMALD = 10.
LAST_MODIFIED_TIMER_SYSTEMD = 1.
# LAST_MODIFIED_TIMER_LANE_PLANNER = 3.
# LAST_MODIFIED_TIMER_UPLOADER = 10.
# def is_online():
# try:
# return not subprocess.call(["ping", "-W", "4", "-c", "1", "117.28.245.92"])
# except ProcessLookupError:
# return False
#
# def common_controller_ctrl(enabled, dragonconf, blinker_on, steer_req, v_ego):
# if enabled:
# if dragonconf.dpLateralMode == 0 and blinker_on:
# steer_req = 0 if isinstance(steer_req, int) else False
# return steer_req
#
def get_last_modified(delay, old_check, old_modified):
new_check = sec_since_boot()
if os.path.isfile(LAST_MODIFIED) and (old_check is None or new_check - old_check >= delay):
return new_check, os.stat(LAST_MODIFIED).st_mtime
else:
return old_check, old_modified
# def param_get_if_updated(param, type, old_val, old_modified):
# try:
# modified = os.stat(PARAM_PATH + param).st_mtime
# except OSError:
# return old_val, old_modified
# if old_modified != modified:
# new_val = param_get(param, type, old_val)
# new_modified = modified
# else:
# new_val = old_val
# new_modified = old_modified
# return new_val, new_modified
# def param_get(param_name, type, default):
# try:
# val = params.get(param_name, encoding='utf8').rstrip('\x00')
# if type == 'bool':
# val = val == '1'
# elif type == 'int':
# val = int(val)
# elif type == 'float':
# val = float(val)
# except (TypeError, ValueError):
# val = default
# return val
common/ffi_wrapper.py
+2 -2
View File
@@ -28,7 +28,7 @@ def ffi_wrap(name, c_code, c_header, tmpdir="/tmp/ccache", cflags="", libraries=
try:
mod = __import__(cache)
except Exception:
print("cache miss {0}".format(cache))
print(f"cache miss {cache}")
compile_code(cache, c_code, c_header, tmpdir, cflags, libraries)
mod = __import__(cache)
finally:
@@ -44,7 +44,7 @@ def compile_code(name, c_code, c_header, directory, cflags="", libraries=None):
ffibuilder = FFI()
ffibuilder.set_source(name, c_code, source_extension='.cpp', libraries=libraries)
ffibuilder.cdef(c_header)
os.environ['OPT'] = "-fwrapv -O2 -DNDEBUG -std=c++11"
os.environ['OPT'] = "-fwrapv -O2 -DNDEBUG -std=c++1z"
os.environ['CFLAGS'] = cflags
ffibuilder.compile(verbose=True, debug=False, tmpdir=directory)
common/file_helpers.py
+45 -41
View File
@@ -3,13 +3,17 @@ import shutil
import tempfile
from atomicwrites import AtomicWriter
def mkdirs_exists_ok(path):
if path.startswith('http://') or path.startswith('https://'):
raise ValueError('URL path')
try:
os.makedirs(path)
except OSError:
if not os.path.isdir(path):
raise
def rm_not_exists_ok(path):
try:
os.remove(path)
@@ -17,40 +21,23 @@ def rm_not_exists_ok(path):
if os.path.exists(path):
raise
def rm_tree_or_link(path):
if os.path.islink(path):
os.unlink(path)
elif os.path.isdir(path):
shutil.rmtree(path)
def get_tmpdir_on_same_filesystem(path):
normpath = os.path.normpath(path)
parts = normpath.split("/")
if len(parts) > 1 and parts[1] == "scratch":
return "/scratch/tmp"
elif len(parts) > 2 and parts[2] == "runner":
return "/{}/runner/tmp".format(parts[1])
return f"/{parts[1]}/runner/tmp"
return "/tmp"
class AutoMoveTempdir():
def __init__(self, target_path, temp_dir=None):
self._target_path = target_path
self._path = tempfile.mkdtemp(dir=temp_dir)
@property
def name(self):
return self._path
def close(self):
os.rename(self._path, self._target_path)
def __enter__(self): return self
def __exit__(self, type, value, traceback):
if type is None:
self.close()
else:
shutil.rmtree(self._path)
class NamedTemporaryDir():
def __init__(self, temp_dir=None):
@@ -63,24 +50,56 @@ class NamedTemporaryDir():
def close(self):
shutil.rmtree(self._path)
def __enter__(self): return self
def __enter__(self):
return self
def __exit__(self, type, value, traceback):
def __exit__(self, exc_type, exc_value, traceback):
self.close()
class CallbackReader:
"""Wraps a file, but overrides the read method to also
call a callback function with the number of bytes read so far."""
def __init__(self, f, callback, *args):
self.f = f
self.callback = callback
self.cb_args = args
self.total_read = 0
def __getattr__(self, attr):
return getattr(self.f, attr)
def read(self, *args, **kwargs):
chunk = self.f.read(*args, **kwargs)
self.total_read += len(chunk)
self.callback(*self.cb_args, self.total_read)
return chunk
def _get_fileobject_func(writer, temp_dir):
def _get_fileobject():
file_obj = writer.get_fileobject(dir=temp_dir)
os.chmod(file_obj.name, 0o644)
return file_obj
return writer.get_fileobject(dir=temp_dir)
return _get_fileobject
def monkeypatch_os_link():
# This is neccesary on EON/C2, where os.link is patched out of python
if not hasattr(os, 'link'):
from cffi import FFI
ffi = FFI()
ffi.cdef("int link(const char *oldpath, const char *newpath);")
libc = ffi.dlopen(None)
def link(src, dest):
return libc.link(src.encode(), dest.encode())
os.link = link
def atomic_write_on_fs_tmp(path, **kwargs):
"""Creates an atomic writer using a temporary file in a temporary directory
on the same filesystem as path.
"""
# TODO(mgraczyk): This use of AtomicWriter relies on implementation details to set the temp
# directory.
monkeypatch_os_link()
writer = AtomicWriter(path, **kwargs)
return writer._open(_get_fileobject_func(writer, get_tmpdir_on_same_filesystem(path)))
@@ -89,21 +108,6 @@ def atomic_write_in_dir(path, **kwargs):
"""Creates an atomic writer using a temporary file in the same directory
as the destination file.
"""
monkeypatch_os_link()
writer = AtomicWriter(path, **kwargs)
return writer._open(_get_fileobject_func(writer, os.path.dirname(path)))
def atomic_write_in_dir_neos(path, contents, mode=None):
"""
Atomically writes contents to path using a temporary file in the same directory
as path. Useful on NEOS, where `os.link` (required by atomic_write_in_dir) is missing.
"""
f = tempfile.NamedTemporaryFile(delete=False, prefix=".tmp", dir=os.path.dirname(path))
f.write(contents)
f.flush()
if mode is not None:
os.fchmod(f.fileno(), mode)
os.fsync(f.fileno())
f.close()
os.rename(f.name, path)
common/filter_simple.py
+14 -6
View File
@@ -1,10 +1,18 @@
class FirstOrderFilter():
class FirstOrderFilter:
# first order filter
def __init__(self, x0, ts, dt):
self.k = (dt / ts) / (1. + dt / ts)
def __init__(self, x0, rc, dt, initialized=True):
self.x = x0
self.dt = dt
self.update_alpha(rc)
self.initialized = initialized
def update_alpha(self, rc):
self.alpha = self.dt / (rc + self.dt)
def update(self, x):
self.x = (1. - self.k) * self.x + self.k * x
if self.initialized:
self.x = (1. - self.alpha) * self.x + self.alpha * x
else:
self.initialized = True
self.x = x
return self.x
common/gpio.h
+33
View File
@@ -0,0 +1,33 @@
#pragma once
// Pin definitions
#ifdef QCOM2
#define GPIO_HUB_RST_N 30
#define GPIO_UBLOX_RST_N 32
#define GPIO_UBLOX_SAFEBOOT_N 33
#define GPIO_UBLOX_PWR_EN 34
#define GPIO_STM_RST_N 124
#define GPIO_STM_BOOT0 134
#define GPIO_BMX_ACCEL_INT 21
#define GPIO_BMX_GYRO_INT 23
#define GPIO_BMX_MAGN_INT 87
#define GPIO_LSM_INT 84
#define GPIOCHIP_INT 0
#else
#define GPIO_HUB_RST_N 0
#define GPIO_UBLOX_RST_N 0
#define GPIO_UBLOX_SAFEBOOT_N 0
#define GPIO_UBLOX_PWR_EN 0
#define GPIO_STM_RST_N 0
#define GPIO_STM_BOOT0 0
#define GPIO_BMX_ACCEL_INT 0
#define GPIO_BMX_GYRO_INT 0
#define GPIO_BMX_MAGN_INT 0
#define GPIO_LSM_INT 0
#define GPIOCHIP_INT 0
#endif
int gpio_init(int pin_nr, bool output);
int gpio_set(int pin_nr, bool high);
int gpiochip_get_ro_value_fd(const char* consumer_label, int gpiochiop_id, int pin_nr);
common/gpio.py
+25
View File
@@ -0,0 +1,25 @@
from typing import Optional
def gpio_init(pin: int, output: bool) -> None:
try:
with open(f"/sys/class/gpio/gpio{pin}/direction", 'wb') as f:
f.write(b"out" if output else b"in")
except Exception as e:
print(f"Failed to set gpio {pin} direction: {e}")
def gpio_set(pin: int, high: bool) -> None:
try:
with open(f"/sys/class/gpio/gpio{pin}/value", 'wb') as f:
f.write(b"1" if high else b"0")
except Exception as e:
print(f"Failed to set gpio {pin} value: {e}")
def gpio_read(pin: int) -> Optional[bool]:
val = None
try:
with open(f"/sys/class/gpio/gpio{pin}/value", 'rb') as f:
val = bool(int(f.read().strip()))
except Exception as e:
print(f"Failed to set gpio {pin} value: {e}")
return val
common/i18n.py
+27
View File
@@ -0,0 +1,27 @@
import gettext
from common.params import Params
locale_dir = "/data/openpilot/selfdrive/assets/locales"
# supported_language = ["en-US", "zh-TW", "zh-CN", "ja-JP", "ko-KR"]
supported_languages = {
"main_en": "en-US",
"main_zh-CHT": "zh-TW",
"main_zh-CHS": "zh-CN",
"main_ko": "ko-KR",
"main_ja": "ja-JP",
"main_de": "de-DE",
"main_pt-BR": "pt_BR",
}
def events():
locale = Params().get("LanguageSetting", encoding='utf8')
try:
if locale is not None:
locale = supported_languages[locale.strip()]
else:
locale = "en-US"
except KeyError:
locale = "en-US"
i18n = gettext.translation("events", localedir=locale_dir, fallback=True, languages=[locale])
i18n.install()
return i18n.gettext

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