#!/usr/bin/env python
#
# Copyright (C) 2015 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
from __future__ import print_function
import argparse
import contextlib
import multiprocessing
import os
import operator
import posixpath
import signal
import subprocess
import sys
import time
import xml.etree.cElementTree as ElementTree
import logging
# Shared functions across gdbclient.py and ndk-gdb.py.
# ndk-gdb is installed to $NDK/host-tools/bin
NDK_PATH = os.path.normpath(os.path.join(os.path.dirname(__file__), '../..'))
sys.path.append(os.path.join(NDK_PATH, "python-packages"))
import gdbrunner
def log(msg):
logger = logging.getLogger(__name__)
logger.info(msg)
def error(msg):
sys.exit("ERROR: {}".format(msg))
class ArgumentParser(gdbrunner.ArgumentParser):
def __init__(self):
super(ArgumentParser, self).__init__()
self.add_argument(
"--verbose", "-v", action="store_true",
help="Enable verbose mode")
self.add_argument(
"--force", "-f", action="store_true",
help="Kill existing debug session if it exists")
self.add_argument(
"--port", type=int, nargs="?", default="5039",
help="override the port used on the host")
self.add_argument(
"--delay", type=float, default=0.0,
help="Delay in seconds to wait after starting activity.\n"
"This may be necessary on slower devices.")
self.add_argument(
"-p", "--project", dest="project",
help="Specify application project path")
app_group = self.add_argument_group("target selection")
start_group = app_group.add_mutually_exclusive_group()
class NoopAction(argparse.Action):
def __call__(self, *args, **kwargs):
pass
# Action for --attach is a noop, because --launch's action will store a
# False in launch if --launch isn't specified.
start_group.add_argument(
"--attach", action=NoopAction, nargs=0,
help="Attach to application [default]")
start_group.add_argument(
"--launch", action="store_true", dest="launch",
help="Launch application activity (defaults to main activity, "
"configurable with --launch-activity)")
start_group.add_argument(
"--launch-list", action="store_true",
help="List all launchable activity names from manifest")
app_group.add_argument(
"--launch-activity", action="store", metavar="ACTIVITY",
dest="launch_target", help="Launch specified application activity")
debug_group = self.add_argument_group("debugging options")
debug_group.add_argument(
"-x", "--exec", dest="exec_file",
help="Execute gdb commands in EXEC_FILE after connection")
debug_group.add_argument(
"--nowait", action="store_true",
help="Do not wait for debugger to attach (may miss early JNI "
"breakpoints)")
debug_group.add_argument(
"-t", "--tui", action="store_true", dest="tui",
help="Use GDB's tui mode")
debug_group.add_argument(
"--stdcxx-py-pr", dest="stdcxxpypr",
help="Use C++ library pretty-printer",
choices=["auto", "none", "gnustl", "stlport"],
default="none")
def extract_package_name(xmlroot):
if "package" in xmlroot.attrib:
return xmlroot.attrib["package"]
error("Failed to find package name in AndroidManifest.xml")
ANDROID_XMLNS = "{http://schemas.android.com/apk/res/android}"
def is_debuggable(xmlroot):
applications = xmlroot.findall("application")
if len(applications) > 1:
error("Multiple application tags found in AndroidManifest.xml")
debuggable_attrib = "{}debuggable".format(ANDROID_XMLNS)
if debuggable_attrib in applications[0].attrib:
debuggable = applications[0].attrib[debuggable_attrib]
if debuggable == "true":
return True
elif debuggable == "false":
return False
else:
msg = "Unexpected android:debuggable value: '{}'"
error(msg.format(debuggable))
return False
def extract_launchable(xmlroot):
'''
A given application can have several activities, and each activity
can have several intent filters. We want to only list, in the final
output, the activities which have a intent-filter that contains the
following elements:
'''
launchable_activities = []
application = xmlroot.findall("application")[0]
main_action = "android.intent.action.MAIN"
launcher_category = "android.intent.category.LAUNCHER"
name_attrib = "{}name".format(ANDROID_XMLNS)
for activity in application.iter("activity"):
if name_attrib not in activity.attrib:
continue
for intent_filter in activity.iter("intent-filter"):
found_action = False
found_category = False
for child in intent_filter:
if child.tag == "action":
if not found_action and name_attrib in child.attrib:
if child.attrib[name_attrib] == main_action:
found_action = True
if child.tag == "category":
if not found_category and name_attrib in child.attrib:
if child.attrib[name_attrib] == launcher_category:
found_category = True
if found_action and found_category:
launchable_activities.append(activity.attrib[name_attrib])
return launchable_activities
def ndk_bin_path():
path = os.path.join(NDK_PATH, "host-tools", "bin")
if not os.path.exists(path):
error("Failed to find ndk binary path, should be at '{}'".format(path))
return path
def handle_args():
def find_program(program, paths):
'''Find a binary in paths'''
exts = [""]
if sys.platform.startswith("win"):
exts += [".exe", ".bat", ".cmd"]
for path in paths:
if os.path.isdir(path):
for ext in exts:
full = path + os.sep + program + ext
if os.path.isfile(full):
return full
return None
# FIXME: This is broken for PATH that contains quoted colons.
paths = os.environ["PATH"].replace('"', '').split(os.pathsep)
args = ArgumentParser().parse_args()
ndk_bin = ndk_bin_path()
args.make_cmd = find_program("make", [ndk_bin])
args.jdb_cmd = find_program("jdb", paths)
if args.make_cmd is None:
error("Failed to find make in '{}'".format(ndk_bin))
if args.jdb_cmd is None:
print("WARNING: Failed to find jdb on your path, defaulting to "
"--nowait")
args.nowait = True
if args.verbose:
logger = logging.getLogger(__name__)
handler = logging.StreamHandler(sys.stdout)
formatter = logging.Formatter()
handler.setFormatter(formatter)
logger.addHandler(handler)
logger.propagate = False
logger.setLevel(logging.INFO)
return args
def find_project(args):
manifest_name = "AndroidManifest.xml"
if args.project is not None:
log("Using project directory: {}".format(args.project))
args.project = os.path.realpath(args.project)
if not os.path.exists(os.path.join(args.project, manifest_name)):
msg = "could not find AndroidManifest.xml in '{}'"
error(msg.format(args.project))
else:
# Walk upwards until we find AndroidManifest.xml, or run out of path.
current_dir = os.getcwdu()
while not os.path.exists(os.path.join(current_dir, manifest_name)):
parent_dir = os.path.dirname(current_dir)
if parent_dir == current_dir:
error("Could not find AndroidManifest.xml in current"
" directory or a parent directory.\n"
" Launch this script from inside a project, or"
" use --project=.")
current_dir = parent_dir
args.project = current_dir
log("Using project directory: {} ".format(args.project))
args.manifest_path = os.path.join(args.project, manifest_name)
return args.project
def canonicalize_activity(package_name, activity_name):
if activity_name.startswith("."):
return "{}{}".format(package_name, activity_name)
return activity_name
def parse_manifest(args):
manifest = ElementTree.parse(args.manifest_path)
manifest_root = manifest.getroot()
package_name = extract_package_name(manifest_root)
log("Found package name: {}".format(package_name))
debuggable = is_debuggable(manifest_root)
if not debuggable:
error("Application is not marked as debuggable in its manifest.")
activities = extract_launchable(manifest_root)
activities = [canonicalize_activity(package_name, a) for a in activities]
if args.launch_list:
print("Launchable activities: {}".format(", ".join(activities)))
sys.exit(0)
args.activities = activities
args.package_name = package_name
def select_target(args):
assert args.launch
if len(args.activities) == 0:
error("No launchable activities found.")
if args.launch_target is None:
args.launch_target = args.activities[0]
if len(args.activities) > 1:
print("WARNING: Multiple launchable activities found, choosing"
" '{}'.".format(args.activities[0]))
else:
canonicalize = canonicalize_activity(args.package_name)
activity_name = canonicalize(args.launch_target)
if activity_name not in args.activities:
msg = "Could not find launchable activity: '{}'."
error(msg.format(activity_name))
args.launch_target = activity_name
return args.launch_target
@contextlib.contextmanager
def cd(path):
curdir = os.getcwd()
os.chdir(path)
os.environ["PWD"] = path
try:
yield
finally:
os.environ["PWD"] = curdir
os.chdir(curdir)
def dump_var(args, variable, abi=None):
make_args = [args.make_cmd, "--no-print-dir", "-f",
os.path.join(NDK_PATH, "build/core/build-local.mk"),
"-C", args.project, "DUMP_{}".format(variable)]
if abi is not None:
make_args.append("APP_ABI={}".format(abi))
with cd(args.project):
try:
make_output = subprocess.check_output(make_args, cwd=args.project)
except subprocess.CalledProcessError:
error("Failed to retrieve application ABI from Android.mk.")
return make_output.splitlines()[0]
def get_api_level(device_props):
# Check the device API level
if "ro.build.version.sdk" not in device_props:
error("Failed to find target device's supported API level.\n"
"ndk-gdb only supports devices running Android 2.2 or higher.")
api_level = int(device_props["ro.build.version.sdk"])
if api_level < 8:
error("ndk-gdb only supports devices running Android 2.2 or higher.\n"
"(expected API level 8, actual: {})".format(api_level))
return api_level
def fetch_abi(args):
'''
Figure out the intersection of which ABIs the application is built for and
which ones the device supports, then pick the one preferred by the device,
so that we know which gdbserver to push and run on the device.
'''
app_abis = dump_var(args, "APP_ABI").split(" ")
if "all" in app_abis:
app_abis = dump_var(args, "NDK_ALL_ABIS").split(" ")
app_abis_msg = "Application ABIs: {}".format(", ".join(app_abis))
log(app_abis_msg)
device_props = args.device.get_props()
new_abi_props = ["ro.product.cpu.abilist"]
old_abi_props = ["ro.product.cpu.abi", "ro.product.cpu.abi2"]
abi_props = new_abi_props
if len(set(new_abi_props).intersection(device_props.keys())) == 0:
abi_props = old_abi_props
device_abis = [device_props[key].split(",") for key in abi_props]
# Flatten the list.
device_abis = reduce(operator.add, device_abis)
device_abis_msg = "Device ABIs: {}".format(", ".join(device_abis))
log(device_abis_msg)
for abi in device_abis:
if abi in app_abis:
# TODO(jmgao): Do we expect gdb to work with ARM-x86 translation?
log("Selecting ABI: {}".format(abi))
return abi
msg = "Application cannot run on the selected device."
# Don't repeat ourselves.
if not args.verbose:
msg += "\n{}\n{}".format(app_abis_msg, device_abis_msg)
error(msg)
def get_app_data_dir(args, package_name):
cmd = ["/system/bin/sh", "-c", "pwd", "2>/dev/null"]
cmd = gdbrunner.get_run_as_cmd(package_name, cmd)
(rc, stdout, _) = args.device.shell_nocheck(cmd)
if rc != 0:
error("Could not find application's data directory. Are you sure that "
"the application is installed and debuggable?")
data_dir = stdout.strip()
log("Found application data directory: {}".format(data_dir))
return data_dir
def abi_to_arch(abi):
if abi.startswith("armeabi"):
return "arm"
elif abi == "arm64-v8a":
return "arm64"
else:
return abi
def get_gdbserver_path(args, package_name, app_data_dir, arch):
app_gdbserver_path = "{}/lib/gdbserver".format(app_data_dir)
cmd = ["ls", app_gdbserver_path, "2>/dev/null"]
cmd = gdbrunner.get_run_as_cmd(package_name, cmd)
(rc, _, _) = args.device.shell_nocheck(cmd)
if rc == 0:
log("Found app gdbserver: {}".format(app_gdbserver_path))
return app_gdbserver_path
# We need to upload our gdbserver
log("App gdbserver not found at {}, uploading.".format(app_gdbserver_path))
local_path = "{}/gdbserver/{}/gdbserver"
local_path = local_path.format(NDK_PATH, arch)
remote_path = "/data/local/tmp/{}-gdbserver".format(arch)
args.device.push(local_path, remote_path)
# Copy gdbserver into the data directory on M+, because selinux prevents
# execution of binaries directly from /data/local/tmp.
if get_api_level(args.props) >= 23:
destination = "{}/{}-gdbserver".format(app_data_dir, arch)
log("Copying gdbserver to {}.".format(destination))
cmd = ["cat", remote_path, "|", "run-as", package_name,
"sh", "-c", "'cat > {}'".format(destination)]
(rc, _, _) = args.device.shell_nocheck(cmd)
if rc != 0:
error("Failed to copy gdbserver to {}.".format(destination))
(rc, _, _) = args.device.shell_nocheck(["run-as", package_name,
"chmod", "700", destination])
if rc != 0:
error("Failed to chmod gdbserver at {}.".format(destination))
remote_path = destination
log("Uploaded gdbserver to {}".format(remote_path))
return remote_path
def pull_binaries(device, out_dir, is64bit):
required_files = []
libraries = ["libc.so", "libm.so", "libdl.so"]
if is64bit:
required_files = ["/system/bin/app_process64", "/system/bin/linker64"]
library_path = "/system/lib64"
else:
required_files = ["/system/bin/app_process", "/system/bin/linker"]
library_path = "/system/lib"
for library in libraries:
required_files.append(posixpath.join(library_path, library))
for required_file in required_files:
# os.path.join not used because joining absolute paths will pick the last one
local_path = os.path.realpath(out_dir + required_file)
local_dirname = os.path.dirname(local_path)
if not os.path.isdir(local_dirname):
os.makedirs(local_dirname)
log("Pulling '{}' to '{}'".format(required_file, local_path))
device.pull(required_file, local_path)
def generate_gdb_script(args, sysroot, binary_path, is64bit, connect_timeout=5):
gdb_commands = "file '{}'\n".format(binary_path)
solib_search_path = [sysroot, "{}/system/bin".format(sysroot)]
if is64bit:
solib_search_path.append("{}/system/lib64".format(sysroot))
else:
solib_search_path.append("{}/system/lib".format(sysroot))
solib_search_path = os.pathsep.join(solib_search_path)
gdb_commands += "set solib-absolute-prefix {}\n".format(sysroot)
gdb_commands += "set solib-search-path {}\n".format(solib_search_path)
# Try to connect for a few seconds, sometimes the device gdbserver takes
# a little bit to come up, especially on emulators.
gdb_commands += """
python
def target_remote_with_retry(target, timeout_seconds):
import time
end_time = time.time() + timeout_seconds
while True:
try:
gdb.execute('target remote ' + target)
return True
except gdb.error as e:
time_left = end_time - time.time()
if time_left < 0 or time_left > timeout_seconds:
print("Error: unable to connect to device.")
print(e)
return False
time.sleep(min(0.25, time_left))
target_remote_with_retry(':{}', {})
end
""".format(args.port, connect_timeout)
# Set up the pretty printer if needed
if args.pypr_dir is not None and args.pypr_fn is not None:
gdb_commands += """
python
import sys
sys.path.append("{pypr_dir}")
from printers import {pypr_fn}
{pypr_fn}(None)
end""".format(pypr_dir=args.pypr_dir, pypr_fn=args.pypr_fn)
if args.exec_file is not None:
try:
exec_file = open(args.exec_file, "r")
except IOError:
error("Failed to open GDB exec file: '{}'.".format(args.exec_file))
with exec_file:
gdb_commands += exec_file.read()
return gdb_commands
def detect_stl_pretty_printer(args):
stl = dump_var(args, "APP_STL")
if not stl:
detected = "none"
if args.stdcxxpypr == "auto":
log("APP_STL not found, disabling pretty printer")
elif stl.startswith("stlport"):
detected = "stlport"
elif stl.startswith("gnustl"):
detected = "gnustl"
else:
detected = "none"
if args.stdcxxpypr == "auto":
log("Detected pretty printer: {}".format(detected))
return detected
if detected != args.stdcxxpypr and args.stdcxxpypr != "none":
print("WARNING: detected APP_STL ('{}') does not match pretty printer".format(detected))
log("Using specified pretty printer: {}".format(args.stdcxxpypr))
return args.stdcxxpypr
def find_pretty_printer(pretty_printer):
if pretty_printer == "gnustl":
path = os.path.join("libstdcxx", "gcc-4.9")
function = "register_libstdcxx_printers"
elif pretty_printer == "stlport":
path = os.path.join("stlport", "stlport")
function = "register_stlport_printers"
pp_path = os.path.join(
NDK_PATH, "host-tools", "share", "pretty-printers", path)
return pp_path, function
def main():
args = handle_args()
device = args.device
if device is None:
error("Could not find a unique connected device/emulator.")
adb_version = subprocess.check_output(device.adb_cmd + ["version"])
log("ADB command used: '{}'".format(" ".join(device.adb_cmd)))
log("ADB version: {}".format(" ".join(adb_version.splitlines())))
args.props = device.get_props()
project = find_project(args)
parse_manifest(args)
pkg_name = args.package_name
if args.launch is False:
log("Attaching to existing application process.")
else:
launch_target = select_target(args)
log("Selected target activity: '{}'".format(launch_target))
abi = fetch_abi(args)
out_dir = os.path.join(project, (dump_var(args, "TARGET_OUT", abi)))
out_dir = os.path.realpath(out_dir)
pretty_printer = detect_stl_pretty_printer(args)
if pretty_printer != "none":
(args.pypr_dir, args.pypr_fn) = find_pretty_printer(pretty_printer)
else:
(args.pypr_dir, args.pypr_fn) = (None, None)
app_data_dir = get_app_data_dir(args, pkg_name)
arch = abi_to_arch(abi)
gdbserver_path = get_gdbserver_path(args, pkg_name, app_data_dir, arch)
# Kill the process and gdbserver if requested.
if args.force:
kill_pids = gdbrunner.get_pids(device, gdbserver_path)
if args.launch:
kill_pids += gdbrunner.get_pids(device, pkg_name)
kill_pids = map(str, kill_pids)
if kill_pids:
log("Killing processes: {}".format(", ".join(kill_pids)))
device.shell_nocheck(["run-as", pkg_name, "kill", "-9"] + kill_pids)
# Launch the application if needed, and get its pid
if args.launch:
am_cmd = ["am", "start"]
if not args.nowait:
am_cmd.append("-D")
component_name = "{}/{}".format(pkg_name, launch_target)
am_cmd.append(component_name)
log("Launching activity {}...".format(component_name))
(rc, _, _) = device.shell_nocheck(am_cmd)
if rc != 0:
error("Failed to start {}".format(component_name))
if args.delay > 0.0:
log("Sleeping for {} seconds.".format(args.delay))
time.sleep(args.delay)
pids = gdbrunner.get_pids(device, pkg_name)
if len(pids) == 0:
error("Failed to find running process '{}'".format(pkg_name))
if len(pids) > 1:
error("Multiple running processes named '{}'".format(pkg_name))
pid = pids[0]
# Pull the linker, zygote, and notable system libraries
is64bit = "64" in abi
pull_binaries(device, out_dir, is64bit)
if is64bit:
zygote_path = os.path.join(out_dir, "system", "bin", "app_process64")
else:
zygote_path = os.path.join(out_dir, "system", "bin", "app_process")
# Start gdbserver.
debug_socket = os.path.join(app_data_dir, "debug_socket")
log("Starting gdbserver...")
gdbrunner.start_gdbserver(
device, None, gdbserver_path,
target_pid=pid, run_cmd=None, debug_socket=debug_socket,
port=args.port, user=pkg_name)
gdb_path = os.path.join(ndk_bin_path(), "gdb")
# Start jdb to unblock the application if necessary.
if args.launch and not args.nowait:
# Do this in a separate process before starting gdb, since jdb won't
# connect until gdb connects and continues.
def start_jdb():
log("Starting jdb to unblock application.")
# Do setup stuff to keep ^C in the parent from killing us.
signal.signal(signal.SIGINT, signal.SIG_IGN)
windows = sys.platform.startswith("win")
if not windows:
os.setpgrp()
jdb_port = 65534
device.forward("tcp:{}".format(jdb_port), "jdwp:{}".format(pid))
jdb_cmd = [args.jdb_cmd, "-connect",
"com.sun.jdi.SocketAttach:hostname=localhost,port={}".format(jdb_port)]
flags = subprocess.CREATE_NEW_PROCESS_GROUP if windows else 0
jdb = subprocess.Popen(jdb_cmd,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
creationflags=flags)
jdb.stdin.write("exit\n")
jdb.wait()
log("JDB finished unblocking application.")
jdb_process = multiprocessing.Process(target=start_jdb)
jdb_process.start()
# Start gdb.
gdb_commands = generate_gdb_script(args, out_dir, zygote_path, is64bit)
gdb_flags = []
if args.tui:
gdb_flags.append("--tui")
gdbrunner.start_gdb(gdb_path, gdb_commands, gdb_flags)
if __name__ == "__main__":
main()