.. | ||
chromium | ||
ffmpeg | ||
firefox | ||
firefox-beta | ||
webkit | ||
winldd | ||
build.sh | ||
checkout_build_archive_upload.sh | ||
clean.sh | ||
export.sh | ||
prepare_checkout.sh | ||
README.md | ||
repack-juggler.mjs | ||
sanitize_and_compress_log.js | ||
send_telegram_message.sh | ||
upload.sh | ||
utils.sh |
Contributing Browser Patches
Firefox and WebKit have additional patches atop to expose necessary capabilities.
Ideally, all these changes should be upstreamed. For the time being, it is possible to setup a browser checkout and develop from there.
1. Setting up local browser checkout
From the playwright
repo, run the following command:
$ ./browser_patches/prepare_checkout.sh firefox
(you can optionally pass "webkit" for a webkit checkout)
This will create a firefox checkout at $HOME/firefox
NOTE: this command downloads GBs of data.
This command will:
- create a
browser_upstream
remote in the checkout - create a
playwright-build
branch and apply all playwright-required patches to it.
2. Developing a new change
You want to create a new branch off the playwright-build
branch.
Assuming that you're under $HOME/firefox
checkout:
$ git checkout -b my-new-feature playwright-build
$ # develop my feature on the my-new-feature branch ....
3. Exporting your change to playwright repo
Once you're happy with the work you did in the browser-land, you want to export it to the playwright
repo.
Assuming that you're in the root of the playwright
repo and that your browser checkout has your feature branch checked out:
$ ./browser_patches/export.sh firefox
This script will:
- create a new patch and put it to the
./browser_patches/firefox/patches/
- update the
./browser_patches/firefox/UPSTREAM_CONFIG.sh
if necessary - bump the
./browser_patches/firefox/BUILD_NUMBER
number.
The script will assume Firefox checkout is located at $HOME/firefox
Send a PR to the Playwright repo to be reviewed.
4. Rolling Playwright to the new browser build
Once the patch has been committed, the build bots will kick in, compile and upload a new browser version to all the platforms. Then you can roll the browser:
$ node utils/roll_browser.js chromium 123456
Cheatsheet
See browser stdout/stderr
Set the DEBUG=pw:browser
environment variable to see it.
Firefox
Debug build
When compiling set the FF_DEBUG_BUILD=1
environment variable.
Stack trace
In //mozglue/misc/StackWalk.cpp
add
#define MOZ_DEMANGLE_SYMBOLS 1
In native code use
#include "mozilla/StackWalk.h"
// ...
MozWalkTheStack(stderr);
If the stack trace is still mangled cat
it to tools/rb/fix_linux_stack.py
Logging
Upstream documentation: https://developer.mozilla.org/en-US/docs/Mozilla/Developer_guide/Gecko_Logging
MOZ_LOG=nsHttp:5
Module name is a string passed to the mozilla::LazyLogModule
of the corresponding component, e.g.:
LazyLogModule gHttpLog("nsHttp");
Inside Juggler, you can use dump('foo\n')
.
WebKit
Logging
Inside Objective-C you can use NSLog.
NSLog(@"Foobar value: %@", value);
Debugging windows
In Source\WTF\wtf\win\DbgHelperWin.cpp
replace
#if !defined(NDEBUG)
with #if 1
Then regular WTFReportBacktrace()
works.
Enable core dumps on Linux
mkdir -p /tmp/coredumps
sudo bash -c 'echo "/tmp/coredumps/core-pid_%p.dump" > /proc/sys/kernel/core_pattern'
ulimit -c unlimited
Then to read stack traces run the following command:
# To find out crashing process name
file core-pid_29652.dump
# Point gdb to the local binary of the crashed process and the core file
gdb $HOME/.cache/ms-playwright/webkit-1292/minibrowser-gtk/WebKitWebProcess core-pid_29652
# Inside gdb update .so library search path to the local one
set solib-search-path /home/yurys/.cache/ms-playwright/webkit-1292/minibrowser-gtk
# Finally print backtrace
bt