blob: 95a75fed5cd9de8426d385543169372edb66f045 [file] [log] [blame]
#! /usr/bin/env python3
assert __name__ == '__main__'
'''
To update ANGLE in Gecko, use Windows with git-bash, and setup depot_tools, python2, and
python3. Because depot_tools expects `python` to be `python2` (shame!), python2 must come
before python3 in your path.
Upstream: https://chromium.googlesource.com/angle/angle
Our repo: https://github.com/mozilla/angle
It has branches like 'firefox-60' which is the branch we use for pulling into
Gecko with this script.
This script leaves a record of the merge-base and cherry-picks that we pull into
Gecko. (gfx/angle/cherries.log)
ANGLE<->Chrome version mappings are here: https://omahaproxy.appspot.com/
An easy choice is to grab Chrome's Beta's ANGLE branch.
## Usage
Prepare your env:
~~~
export PATH="$PATH:/path/to/depot_tools"
~~~
If this is a new repo, don't forget:
~~~
# In the angle repo:
./scripts/bootstrap.py
gclient sync
~~~
Update: (in the angle repo)
~~~
# In the angle repo:
/path/to/gecko/gfx/angle/update-angle.py origin/chromium/XXXX
git push moz # Push the firefox-XX branch to github.com/mozilla/angle
~~~~
'''
import json
import os
import pathlib
import re
import shutil
import subprocess
import sys
from typing import * # mypy annotations
REPO_DIR = pathlib.Path.cwd()
GN_ENV = dict(os.environ)
# We need to set DEPOT_TOOLS_WIN_TOOLCHAIN to 0 for non-Googlers, but otherwise
# leave it unset since vs_toolchain.py assumes that the user is a Googler with
# the Visual Studio files in depot_tools if DEPOT_TOOLS_WIN_TOOLCHAIN is not
# explicitly set to 0.
vs_found = False
for directory in os.environ['PATH'].split(os.pathsep):
vs_dir = os.path.join(directory, 'win_toolchain', 'vs_files')
if os.path.exists(vs_dir):
vs_found = True
break
if not vs_found:
GN_ENV['DEPOT_TOOLS_WIN_TOOLCHAIN'] = '0'
if len(sys.argv) < 3:
sys.exit('Usage: export_targets.py OUT_DIR ROOTS...')
(OUT_DIR, *ROOTS) = sys.argv[1:]
for x in ROOTS:
assert x.startswith('//:')
# ------------------------------------------------------------------------------
def run_checked(*args, **kwargs):
print(' ', args, file=sys.stderr)
sys.stderr.flush()
return subprocess.run(args, check=True, **kwargs)
def sortedi(x):
return sorted(x, key=str.lower)
def dag_traverse(root_keys: Sequence[str], pre_recurse_func: Callable[[str], list]):
visited_keys: Set[str] = set()
def recurse(key):
if key in visited_keys:
return
visited_keys.add(key)
t = pre_recurse_func(key)
try:
(next_keys, post_recurse_func) = t
except ValueError:
(next_keys,) = t
post_recurse_func = None
for x in next_keys:
recurse(x)
if post_recurse_func:
post_recurse_func(key)
return
for x in root_keys:
recurse(x)
return
# ------------------------------------------------------------------------------
print('Importing graph', file=sys.stderr)
try:
p = run_checked('gn', 'desc', '--format=json', str(OUT_DIR), '*', stdout=subprocess.PIPE,
env=GN_ENV, shell=(True if sys.platform == 'win32' else False))
except subprocess.CalledProcessError:
sys.stderr.buffer.write(b'"gn desc" failed. Is depot_tools in your PATH?\n')
exit(1)
# -
print('\nProcessing graph', file=sys.stderr)
descs = json.loads(p.stdout.decode())
# Ready to traverse
# ------------------------------------------------------------------------------
LIBRARY_TYPES = ('shared_library', 'static_library')
def flattened_target(target_name: str, descs: dict, stop_at_lib: bool =True) -> dict:
flattened = dict(descs[target_name])
EXPECTED_TYPES = LIBRARY_TYPES + ('source_set', 'group', 'action')
def pre(k):
dep = descs[k]
dep_type = dep['type']
deps = dep['deps']
if stop_at_lib and dep_type in LIBRARY_TYPES:
return ((),)
if dep_type == 'copy':
assert not deps, (target_name, dep['deps'])
else:
assert dep_type in EXPECTED_TYPES, (k, dep_type)
for (k,v) in dep.items():
if type(v) in (list, tuple, set):
flattened[k] = sortedi(set(flattened.get(k, []) + v))
else:
#flattened.setdefault(k, v)
pass
return (deps,)
dag_traverse(descs[target_name]['deps'], pre)
return flattened
# ------------------------------------------------------------------------------
# Check that includes are valid. (gn's version of this check doesn't seem to work!)
INCLUDE_REGEX = re.compile(b'(?:^|\\n) *# *include +([<"])([^>"]+)[>"]')
assert INCLUDE_REGEX.match(b'#include "foo"')
assert INCLUDE_REGEX.match(b'\n#include "foo"')
# Most of these are ignored because this script does not currently handle
# #includes in #ifdefs properly, so they will erroneously be marked as being
# included, but not part of the source list.
IGNORED_INCLUDES = {
b'compiler/translator/TranslatorESSL.h',
b'compiler/translator/TranslatorGLSL.h',
b'compiler/translator/TranslatorHLSL.h',
b'compiler/translator/TranslatorMetal.h',
b'compiler/translator/TranslatorVulkan.h',
b'libANGLE/renderer/d3d/DeviceD3D.h',
b'libANGLE/renderer/d3d/DisplayD3D.h',
b'libANGLE/renderer/d3d/RenderTargetD3D.h',
b'libANGLE/renderer/d3d/d3d11/winrt/NativeWindow11WinRT.h',
b'libANGLE/renderer/gl/glx/DisplayGLX.h',
b'libANGLE/renderer/gl/cgl/DisplayCGL.h',
b'libANGLE/renderer/gl/egl/ozone/DisplayOzone.h',
b'libANGLE/renderer/gl/egl/android/DisplayAndroid.h',
b'libANGLE/renderer/gl/wgl/DisplayWGL.h',
b'libANGLE/renderer/metal/DisplayMtl_api.h',
b'libANGLE/renderer/null/DisplayNULL.h',
b'libANGLE/renderer/vulkan/android/DisplayVkAndroid.h',
b'libANGLE/renderer/vulkan/fuchsia/DisplayVkFuchsia.h',
b'libANGLE/renderer/vulkan/ggp/DisplayVkGGP.h',
b'libANGLE/renderer/vulkan/mac/DisplayVkMac.h',
b'libANGLE/renderer/vulkan/win32/DisplayVkWin32.h',
b'libANGLE/renderer/vulkan/xcb/DisplayVkXcb.h',
b'kernel/image.h',
}
IGNORED_INCLUDE_PREFIXES = {
b'android',
b'Carbon',
b'CoreFoundation',
b'CoreServices',
b'IOSurface',
b'mach',
b'mach-o',
b'OpenGL',
b'pci',
b'sys',
b'wrl',
b'X11',
}
IGNORED_DIRECTORIES = {
'//third_party/SwiftShader',
'//third_party/vulkan-headers',
'//third_party/vulkan-loader',
'//third_party/vulkan-tools',
'//third_party/vulkan-validation-layers',
}
def has_all_includes(target_name: str, descs: dict) -> bool:
for ignored_directory in IGNORED_DIRECTORIES:
if target_name.startswith(ignored_directory):
return True
flat = flattened_target(target_name, descs, stop_at_lib=False)
acceptable_sources = flat.get('sources', []) + flat.get('outputs', [])
acceptable_sources = {x.rsplit('/', 1)[-1].encode() for x in acceptable_sources}
ret = True
desc = descs[target_name]
for cur_file in desc.get('sources', []):
assert cur_file.startswith('/'), cur_file
if not cur_file.startswith('//'):
continue
cur_file = pathlib.Path(cur_file[2:])
text = cur_file.read_bytes()
for m in INCLUDE_REGEX.finditer(text):
if m.group(1) == b'<':
continue
include = m.group(2)
if include in IGNORED_INCLUDES:
continue
try:
(prefix, _) = include.split(b'/', 1)
if prefix in IGNORED_INCLUDE_PREFIXES:
continue
except ValueError:
pass
include_file = include.rsplit(b'/', 1)[-1]
if include_file not in acceptable_sources:
#print(' acceptable_sources:')
#for x in sorted(acceptable_sources):
# print(' ', x)
print('Warning in {}: {}: Invalid include: {}'.format(target_name, cur_file, include), file=sys.stderr)
ret = False
#print('Looks valid:', m.group())
continue
return ret
# -
# Gather real targets:
def gather_libraries(roots: Sequence[str], descs: dict) -> Set[str]:
libraries = set()
def fn(target_name):
cur = descs[target_name]
print(' ' + cur['type'], target_name, file=sys.stderr)
assert has_all_includes(target_name, descs), target_name
if cur['type'] in ('shared_library', 'static_library'):
libraries.add(target_name)
return (cur['deps'], )
dag_traverse(roots, fn)
return libraries
# -
libraries = gather_libraries(ROOTS, descs)
print(f'\n{len(libraries)} libraries:', file=sys.stderr)
for k in libraries:
print(f' {k}', file=sys.stderr)
print('\nstdout begins:', file=sys.stderr)
sys.stderr.flush()
# ------------------------------------------------------------------------------
# Output
out = {k: flattened_target(k, descs) for k in libraries}
for (k,desc) in out.items():
dep_libs: Set[str] = set()
for dep_name in set(desc['deps']):
dep = descs[dep_name]
if dep['type'] in LIBRARY_TYPES:
dep_libs.add(dep_name[3:])
desc['deps'] = sortedi(dep_libs)
json.dump(out, sys.stdout, indent=' ')
exit(0)