cpython/Android/android.py

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#!/usr/bin/env python3
import asyncio
import argparse
from glob import glob
import os
import re
import shlex
import shutil
import signal
import subprocess
import sys
import sysconfig
from asyncio import wait_for
from contextlib import asynccontextmanager
from os.path import basename, relpath
from pathlib import Path
from subprocess import CalledProcessError
from tempfile import TemporaryDirectory
SCRIPT_NAME = Path(__file__).name
CHECKOUT = Path(__file__).resolve().parent.parent
ANDROID_DIR = CHECKOUT / "Android"
TESTBED_DIR = ANDROID_DIR / "testbed"
CROSS_BUILD_DIR = CHECKOUT / "cross-build"
APP_ID = "org.python.testbed"
DECODE_ARGS = ("UTF-8", "backslashreplace")
try:
android_home = Path(os.environ['ANDROID_HOME'])
except KeyError:
sys.exit("The ANDROID_HOME environment variable is required.")
adb = Path(
f"{android_home}/platform-tools/adb"
+ (".exe" if os.name == "nt" else "")
)
gradlew = Path(
f"{TESTBED_DIR}/gradlew"
+ (".bat" if os.name == "nt" else "")
)
logcat_started = False
def delete_glob(pattern):
# Path.glob doesn't accept non-relative patterns.
for path in glob(str(pattern)):
path = Path(path)
print(f"Deleting {path} ...")
if path.is_dir() and not path.is_symlink():
shutil.rmtree(path)
else:
path.unlink()
def subdir(name, *, clean=None):
path = CROSS_BUILD_DIR / name
if clean:
delete_glob(path)
if not path.exists():
if clean is None:
sys.exit(
f"{path} does not exist. Create it by running the appropriate "
f"`configure` subcommand of {SCRIPT_NAME}.")
else:
path.mkdir(parents=True)
return path
def run(command, *, host=None, env=None, log=True, **kwargs):
kwargs.setdefault("check", True)
if env is None:
env = os.environ.copy()
original_env = env.copy()
if host:
env_script = ANDROID_DIR / "android-env.sh"
env_output = subprocess.run(
f"set -eu; "
f"HOST={host}; "
f"PREFIX={subdir(host)}/prefix; "
f". {env_script}; "
f"export",
check=True, shell=True, text=True, stdout=subprocess.PIPE
).stdout
for line in env_output.splitlines():
# We don't require every line to match, as there may be some other
# output from installing the NDK.
if match := re.search(
"^(declare -x |export )?(\\w+)=['\"]?(.*?)['\"]?$", line
):
key, value = match[2], match[3]
if env.get(key) != value:
print(line)
env[key] = value
if env == original_env:
raise ValueError(f"Found no variables in {env_script.name} output:\n"
+ env_output)
if log:
print(">", " ".join(map(str, command)))
return subprocess.run(command, env=env, **kwargs)
def build_python_path():
"""The path to the build Python binary."""
build_dir = subdir("build")
binary = build_dir / "python"
if not binary.is_file():
binary = binary.with_suffix(".exe")
if not binary.is_file():
raise FileNotFoundError("Unable to find `python(.exe)` in "
f"{build_dir}")
return binary
def configure_build_python(context):
os.chdir(subdir("build", clean=context.clean))
command = [relpath(CHECKOUT / "configure")]
if context.args:
command.extend(context.args)
run(command)
def make_build_python(context):
os.chdir(subdir("build"))
run(["make", "-j", str(os.cpu_count())])
def unpack_deps(host):
deps_url = "https://github.com/beeware/cpython-android-source-deps/releases/download"
for name_ver in ["bzip2-1.0.8-2", "libffi-3.4.4-3", "openssl-3.0.15-4",
"sqlite-3.45.3-3", "xz-5.4.6-1"]:
filename = f"{name_ver}-{host}.tar.gz"
download(f"{deps_url}/{name_ver}/{filename}")
run(["tar", "-xf", filename])
os.remove(filename)
def download(url, target_dir="."):
out_path = f"{target_dir}/{basename(url)}"
run(["curl", "-Lf", "-o", out_path, url])
return out_path
def configure_host_python(context):
host_dir = subdir(context.host, clean=context.clean)
prefix_dir = host_dir / "prefix"
if not prefix_dir.exists():
prefix_dir.mkdir()
os.chdir(prefix_dir)
unpack_deps(context.host)
build_dir = host_dir / "build"
build_dir.mkdir(exist_ok=True)
os.chdir(build_dir)
command = [
# Basic cross-compiling configuration
relpath(CHECKOUT / "configure"),
f"--host={context.host}",
f"--build={sysconfig.get_config_var('BUILD_GNU_TYPE')}",
f"--with-build-python={build_python_path()}",
"--without-ensurepip",
# Android always uses a shared libpython.
"--enable-shared",
"--without-static-libpython",
# Dependent libraries. The others are found using pkg-config: see
# android-env.sh.
f"--with-openssl={prefix_dir}",
]
if context.args:
command.extend(context.args)
run(command, host=context.host)
def make_host_python(context):
# The CFLAGS and LDFLAGS set in android-env include the prefix dir, so
# delete any previous Python installation to prevent it being used during
# the build.
host_dir = subdir(context.host)
prefix_dir = host_dir / "prefix"
delete_glob(f"{prefix_dir}/include/python*")
delete_glob(f"{prefix_dir}/lib/libpython*")
delete_glob(f"{prefix_dir}/lib/python*")
os.chdir(host_dir / "build")
run(["make", "-j", str(os.cpu_count())], host=context.host)
run(["make", "install", f"prefix={prefix_dir}"], host=context.host)
def build_all(context):
steps = [configure_build_python, make_build_python, configure_host_python,
make_host_python]
for step in steps:
step(context)
def clean_all(context):
delete_glob(CROSS_BUILD_DIR)
def setup_sdk():
sdkmanager = android_home / (
"cmdline-tools/latest/bin/sdkmanager"
+ (".bat" if os.name == "nt" else "")
)
# Gradle will fail if it needs to install an SDK package whose license
# hasn't been accepted, so pre-accept all licenses.
if not all((android_home / "licenses" / path).exists() for path in [
"android-sdk-arm-dbt-license", "android-sdk-license"
]):
run([sdkmanager, "--licenses"], text=True, input="y\n" * 100)
# Gradle may install this automatically, but we can't rely on that because
# we need to run adb within the logcat task.
if not adb.exists():
run([sdkmanager, "platform-tools"])
# To avoid distributing compiled artifacts without corresponding source code,
# the Gradle wrapper is not included in the CPython repository. Instead, we
# extract it from the Gradle release.
def setup_testbed():
if all((TESTBED_DIR / path).exists() for path in [
"gradlew", "gradlew.bat", "gradle/wrapper/gradle-wrapper.jar",
]):
return
ver_long = "8.7.0"
ver_short = ver_long.removesuffix(".0")
for filename in ["gradlew", "gradlew.bat"]:
out_path = download(
f"https://raw.githubusercontent.com/gradle/gradle/v{ver_long}/{filename}",
TESTBED_DIR)
os.chmod(out_path, 0o755)
with TemporaryDirectory(prefix=SCRIPT_NAME) as temp_dir:
bin_zip = download(
f"https://services.gradle.org/distributions/gradle-{ver_short}-bin.zip",
temp_dir)
outer_jar = f"gradle-{ver_short}/lib/plugins/gradle-wrapper-{ver_short}.jar"
run(["unzip", "-d", temp_dir, bin_zip, outer_jar])
run(["unzip", "-o", "-d", f"{TESTBED_DIR}/gradle/wrapper",
f"{temp_dir}/{outer_jar}", "gradle-wrapper.jar"])
# run_testbed will build the app automatically, but it's useful to have this as
# a separate command to allow running the app outside of this script.
def build_testbed(context):
setup_sdk()
setup_testbed()
run(
[gradlew, "--console", "plain", "packageDebug", "packageDebugAndroidTest"],
cwd=TESTBED_DIR,
)
# Work around a bug involving sys.exit and TaskGroups
# (https://github.com/python/cpython/issues/101515).
def exit(*args):
raise MySystemExit(*args)
class MySystemExit(Exception):
pass
# The `test` subcommand runs all subprocesses through this context manager so
# that no matter what happens, they can always be cancelled from another task,
# and they will always be cleaned up on exit.
@asynccontextmanager
async def async_process(*args, **kwargs):
process = await asyncio.create_subprocess_exec(*args, **kwargs)
try:
yield process
finally:
if process.returncode is None:
# Allow a reasonably long time for Gradle to clean itself up,
# because we don't want stale emulators left behind.
timeout = 10
process.terminate()
try:
await wait_for(process.wait(), timeout)
except TimeoutError:
print(
f"Command {args} did not terminate after {timeout} seconds "
f" - sending SIGKILL"
)
process.kill()
# Even after killing the process we must still wait for it,
# otherwise we'll get the warning "Exception ignored in __del__".
await wait_for(process.wait(), timeout=1)
async def async_check_output(*args, **kwargs):
async with async_process(
*args, stdout=subprocess.PIPE, stderr=subprocess.PIPE, **kwargs
) as process:
stdout, stderr = await process.communicate()
if process.returncode == 0:
return stdout.decode(*DECODE_ARGS)
else:
raise CalledProcessError(
process.returncode, args,
stdout.decode(*DECODE_ARGS), stderr.decode(*DECODE_ARGS)
)
# Return a list of the serial numbers of connected devices. Emulators will have
# serials of the form "emulator-5678".
async def list_devices():
serials = []
header_found = False
lines = (await async_check_output(adb, "devices")).splitlines()
for line in lines:
# Ignore blank lines, and all lines before the header.
line = line.strip()
if line == "List of devices attached":
header_found = True
elif header_found and line:
try:
serial, status = line.split()
except ValueError:
raise ValueError(f"failed to parse {line!r}")
if status == "device":
serials.append(serial)
if not header_found:
raise ValueError(f"failed to parse {lines}")
return serials
async def find_device(context, initial_devices):
if context.managed:
print("Waiting for managed device - this may take several minutes")
while True:
new_devices = set(await list_devices()).difference(initial_devices)
if len(new_devices) == 0:
await asyncio.sleep(1)
elif len(new_devices) == 1:
serial = new_devices.pop()
print(f"Serial: {serial}")
return serial
else:
exit(f"Found more than one new device: {new_devices}")
else:
return context.connected
# An older version of this script in #121595 filtered the logs by UID instead.
# But logcat can't filter by UID until API level 31. If we ever switch back to
# filtering by UID, we'll also have to filter by time so we only show messages
# produced after the initial call to `stop_app`.
#
# We're more likely to miss the PID because it's shorter-lived, so there's a
# workaround in PythonSuite.kt to stop it being *too* short-lived.
async def find_pid(serial):
print("Waiting for app to start - this may take several minutes")
shown_error = False
while True:
try:
# `pidof` requires API level 24 or higher. The level 23 emulator
# includes it, but it doesn't work (it returns all processes).
pid = (await async_check_output(
adb, "-s", serial, "shell", "pidof", "-s", APP_ID
)).strip()
except CalledProcessError as e:
# If the app isn't running yet, pidof gives no output. So if there
# is output, there must have been some other error. However, this
# sometimes happens transiently, especially when running a managed
# emulator for the first time, so don't make it fatal.
if (e.stdout or e.stderr) and not shown_error:
print_called_process_error(e)
print("This may be transient, so continuing to wait")
shown_error = True
else:
# Some older devices (e.g. Nexus 4) return zero even when no process
# was found, so check whether we actually got any output.
if pid:
print(f"PID: {pid}")
return pid
# Loop fairly rapidly to avoid missing a short-lived process.
await asyncio.sleep(0.2)
async def logcat_task(context, initial_devices):
# Gradle may need to do some large downloads of libraries and emulator
# images. This will happen during find_device in --managed mode, or find_pid
# in --connected mode.
startup_timeout = 600
serial = await wait_for(find_device(context, initial_devices), startup_timeout)
pid = await wait_for(find_pid(serial), startup_timeout)
# `--pid` requires API level 24 or higher.
args = [adb, "-s", serial, "logcat", "--pid", pid, "--format", "tag"]
hidden_output = []
async with async_process(
*args, stdout=subprocess.PIPE, stderr=subprocess.STDOUT,
) as process:
while line := (await process.stdout.readline()).decode(*DECODE_ARGS):
if match := re.fullmatch(r"([A-Z])/(.*)", line, re.DOTALL):
level, message = match.groups()
else:
# If the regex doesn't match, this is probably the second or
# subsequent line of a multi-line message. Python won't produce
# such messages, but other components might.
level, message = None, line
# Exclude high-volume messages which are rarely useful.
if context.verbose < 2 and "from python test_syslog" in message:
continue
# Put high-level messages on stderr so they're highlighted in the
# buildbot logs. This will include Python's own stderr.
stream = (
sys.stderr
if level in ["W", "E", "F"] # WARNING, ERROR, FATAL (aka ASSERT)
else sys.stdout
)
# To simplify automated processing of the output, e.g. a buildbot
# posting a failure notice on a GitHub PR, we strip the level and
# tag indicators from Python's stdout and stderr.
for prefix in ["python.stdout: ", "python.stderr: "]:
if message.startswith(prefix):
global logcat_started
logcat_started = True
stream.write(message.removeprefix(prefix))
break
else:
if context.verbose:
# Non-Python messages add a lot of noise, but they may
# sometimes help explain a failure.
stream.write(line)
else:
hidden_output.append(line)
# If the device disconnects while logcat is running, which always
# happens in --managed mode, some versions of adb return non-zero.
# Distinguish this from a logcat startup error by checking whether we've
# received a message from Python yet.
status = await wait_for(process.wait(), timeout=1)
if status != 0 and not logcat_started:
raise CalledProcessError(status, args, "".join(hidden_output))
def stop_app(serial):
run([adb, "-s", serial, "shell", "am", "force-stop", APP_ID], log=False)
async def gradle_task(context):
env = os.environ.copy()
if context.managed:
task_prefix = context.managed
else:
task_prefix = "connected"
env["ANDROID_SERIAL"] = context.connected
args = [
gradlew, "--console", "plain", f"{task_prefix}DebugAndroidTest",
"-Pandroid.testInstrumentationRunnerArguments.pythonArgs="
+ shlex.join(context.args),
]
hidden_output = []
try:
async with async_process(
*args, cwd=TESTBED_DIR, env=env,
stdout=subprocess.PIPE, stderr=subprocess.STDOUT,
) as process:
while line := (await process.stdout.readline()).decode(*DECODE_ARGS):
# Gradle may take several minutes to install SDK packages, so
# it's worth showing those messages even in non-verbose mode.
if context.verbose or line.startswith('Preparing "Install'):
sys.stdout.write(line)
else:
hidden_output.append(line)
status = await wait_for(process.wait(), timeout=1)
if status == 0:
exit(0)
else:
raise CalledProcessError(status, args)
finally:
# If logcat never started, then something has gone badly wrong, so the
# user probably wants to see the Gradle output even in non-verbose mode.
if hidden_output and not logcat_started:
sys.stdout.write("".join(hidden_output))
# Gradle does not stop the tests when interrupted.
if context.connected:
stop_app(context.connected)
async def run_testbed(context):
setup_sdk()
setup_testbed()
if context.managed:
# In this mode, Gradle will create a device with an unpredictable name.
# So we save a list of the running devices before starting Gradle, and
# find_device then waits for a new device to appear.
initial_devices = await list_devices()
else:
# In case the previous shutdown was unclean, make sure the app isn't
# running, otherwise we might show logs from a previous run. This is
# unnecessary in --managed mode, because Gradle creates a new emulator
# every time.
stop_app(context.connected)
initial_devices = None
try:
async with asyncio.TaskGroup() as tg:
tg.create_task(logcat_task(context, initial_devices))
tg.create_task(gradle_task(context))
except* MySystemExit as e:
raise SystemExit(*e.exceptions[0].args) from None
except* CalledProcessError as e:
# Extract it from the ExceptionGroup so it can be handled by `main`.
raise e.exceptions[0]
# Handle SIGTERM the same way as SIGINT. This ensures that if we're terminated
# by the buildbot worker, we'll make an attempt to clean up our subprocesses.
def install_signal_handler():
def signal_handler(*args):
os.kill(os.getpid(), signal.SIGINT)
signal.signal(signal.SIGTERM, signal_handler)
def parse_args():
parser = argparse.ArgumentParser()
subcommands = parser.add_subparsers(dest="subcommand")
build = subcommands.add_parser("build", help="Build everything")
configure_build = subcommands.add_parser("configure-build",
help="Run `configure` for the "
"build Python")
make_build = subcommands.add_parser("make-build",
help="Run `make` for the build Python")
configure_host = subcommands.add_parser("configure-host",
help="Run `configure` for Android")
make_host = subcommands.add_parser("make-host",
help="Run `make` for Android")
subcommands.add_parser(
"clean", help="Delete the cross-build directory")
for subcommand in build, configure_build, configure_host:
subcommand.add_argument(
"--clean", action="store_true", default=False, dest="clean",
help="Delete any relevant directories before building")
for subcommand in build, configure_host, make_host:
subcommand.add_argument(
"host", metavar="HOST",
choices=["aarch64-linux-android", "x86_64-linux-android"],
help="Host triplet: choices=[%(choices)s]")
for subcommand in build, configure_build, configure_host:
subcommand.add_argument("args", nargs="*",
help="Extra arguments to pass to `configure`")
subcommands.add_parser(
"build-testbed", help="Build the testbed app")
test = subcommands.add_parser(
"test", help="Run the test suite")
test.add_argument(
"-v", "--verbose", action="count", default=0,
help="Show Gradle output, and non-Python logcat messages. "
"Use twice to include high-volume messages which are rarely useful.")
device_group = test.add_mutually_exclusive_group(required=True)
device_group.add_argument(
"--connected", metavar="SERIAL", help="Run on a connected device. "
"Connect it yourself, then get its serial from `adb devices`.")
device_group.add_argument(
"--managed", metavar="NAME", help="Run on a Gradle-managed device. "
"These are defined in `managedDevices` in testbed/app/build.gradle.kts.")
test.add_argument(
"args", nargs="*", help=f"Arguments for `python -m test`. "
f"Separate them from {SCRIPT_NAME}'s own arguments with `--`.")
return parser.parse_args()
def main():
install_signal_handler()
# Under the buildbot, stdout is not a TTY, but we must still flush after
# every line to make sure our output appears in the correct order relative
# to the output of our subprocesses.
for stream in [sys.stdout, sys.stderr]:
stream.reconfigure(line_buffering=True)
context = parse_args()
dispatch = {"configure-build": configure_build_python,
"make-build": make_build_python,
"configure-host": configure_host_python,
"make-host": make_host_python,
"build": build_all,
"clean": clean_all,
"build-testbed": build_testbed,
"test": run_testbed}
try:
result = dispatch[context.subcommand](context)
if asyncio.iscoroutine(result):
asyncio.run(result)
except CalledProcessError as e:
print_called_process_error(e)
sys.exit(1)
def print_called_process_error(e):
for stream_name in ["stdout", "stderr"]:
content = getattr(e, stream_name)
stream = getattr(sys, stream_name)
if content:
stream.write(content)
if not content.endswith("\n"):
stream.write("\n")
# Format the command so it can be copied into a shell. shlex uses single
# quotes, so we surround the whole command with double quotes.
args_joined = (
e.cmd if isinstance(e.cmd, str)
else " ".join(shlex.quote(str(arg)) for arg in e.cmd)
)
print(
f'Command "{args_joined}" returned exit status {e.returncode}'
)
if __name__ == "__main__":
main()