#!/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.
#
import adb
import argparse
import logging
import os
import subprocess
import sys
# Shared functions across gdbclient.py and ndk-gdb.py.
import gdbrunner
def get_gdbserver_path(root, arch):
path = "{}/prebuilts/misc/android-{}/gdbserver{}/gdbserver{}"
if arch.endswith("64"):
return path.format(root, arch, "64", "64")
else:
return path.format(root, arch, "", "")
def parse_args():
parser = gdbrunner.ArgumentParser()
group = parser.add_argument_group(title="attach target")
group = group.add_mutually_exclusive_group(required=True)
group.add_argument(
"-p", dest="target_pid", metavar="PID", type=int,
help="attach to a process with specified PID")
group.add_argument(
"-n", dest="target_name", metavar="NAME",
help="attach to a process with specified name")
group.add_argument(
"-r", dest="run_cmd", metavar="CMD", nargs=argparse.REMAINDER,
help="run a binary on the device, with args")
parser.add_argument(
"--port", nargs="?", default="5039",
help="override the port used on the host")
parser.add_argument(
"--user", nargs="?", default="root",
help="user to run commands as on the device [default: root]")
return parser.parse_args()
def dump_var(root, variable):
make_args = ["make", "CALLED_FROM_SETUP=true",
"BUILD_SYSTEM={}/build/core".format(root),
"--no-print-directory", "-f",
"{}/build/core/config.mk".format(root),
"dumpvar-{}".format(variable)]
# subprocess cwd argument does not change the PWD shell variable, but
# dumpvar.mk uses PWD to create an absolute path, so we need to set it.
saved_pwd = os.environ['PWD']
os.environ['PWD'] = root
make_output = subprocess.check_output(make_args, cwd=root)
os.environ['PWD'] = saved_pwd
return make_output.splitlines()[0]
def verify_device(root, props):
names = set([props["ro.build.product"], props["ro.product.device"]])
target_device = dump_var(root, "TARGET_DEVICE")
if target_device not in names:
msg = "TARGET_DEVICE ({}) does not match attached device ({})"
sys.exit(msg.format(target_device, ", ".join(names)))
def get_remote_pid(device, process_name):
processes = gdbrunner.get_processes(device)
if process_name not in processes:
msg = "failed to find running process {}".format(process_name)
sys.exit(msg)
pids = processes[process_name]
if len(pids) > 1:
msg = "multiple processes match '{}': {}".format(process_name, pids)
sys.exit(msg)
# Fetch the binary using the PID later.
return pids[0]
def ensure_linker(device, sysroot, is64bit):
local_path = os.path.join(sysroot, "system", "bin", "linker")
remote_path = "/system/bin/linker"
if is64bit:
local_path += "64"
remote_path += "64"
if not os.path.exists(local_path):
device.pull(remote_path, local_path)
def handle_switches(args, sysroot):
"""Fetch the targeted binary and determine how to attach gdb.
Args:
args: Parsed arguments.
sysroot: Local sysroot path.
Returns:
(binary_file, attach_pid, run_cmd).
Precisely one of attach_pid or run_cmd will be None.
"""
device = args.device
binary_file = None
pid = None
run_cmd = None
if args.target_pid:
# Fetch the binary using the PID later.
pid = args.target_pid
elif args.target_name:
# Fetch the binary using the PID later.
pid = get_remote_pid(device, args.target_name)
elif args.run_cmd:
if not args.run_cmd[0]:
sys.exit("empty command passed to -r")
if not args.run_cmd[0].startswith("/"):
sys.exit("commands passed to -r must use absolute paths")
run_cmd = args.run_cmd
binary_file, local = gdbrunner.find_file(device, run_cmd[0], sysroot,
user=args.user)
if binary_file is None:
assert pid is not None
try:
binary_file, local = gdbrunner.find_binary(device, pid, sysroot,
user=args.user)
except adb.ShellError:
sys.exit("failed to pull binary for PID {}".format(pid))
if not local:
logging.warning("Couldn't find local unstripped executable in {},"
" symbols may not be available.".format(sysroot))
return (binary_file, pid, run_cmd)
def generate_gdb_script(sysroot, binary_file, is64bit, port, connect_timeout=5):
# Generate a gdb script.
# TODO: Detect the zygote and run 'art-on' automatically.
root = os.environ["ANDROID_BUILD_TOP"]
symbols_dir = os.path.join(sysroot, "system", "lib64" if is64bit else "lib")
vendor_dir = os.path.join(sysroot, "vendor", "lib64" if is64bit else "lib")
solib_search_path = []
symbols_paths = ["", "hw", "ssl/engines", "drm", "egl", "soundfx"]
vendor_paths = ["", "hw", "egl"]
solib_search_path += [os.path.join(symbols_dir, x) for x in symbols_paths]
solib_search_path += [os.path.join(vendor_dir, x) for x in vendor_paths]
solib_search_path = ":".join(solib_search_path)
gdb_commands = ""
gdb_commands += "file '{}'\n".format(binary_file.name)
gdb_commands += "directory '{}'\n".format(root)
gdb_commands += "set solib-absolute-prefix {}\n".format(sysroot)
gdb_commands += "set solib-search-path {}\n".format(solib_search_path)
dalvik_gdb_script = os.path.join(root, "development", "scripts", "gdb",
"dalvik.gdb")
if not os.path.exists(dalvik_gdb_script):
logging.warning(("couldn't find {} - ART debugging options will not " +
"be available").format(dalvik_gdb_script))
else:
gdb_commands += "source {}\n".format(dalvik_gdb_script)
# 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(port, connect_timeout)
return gdb_commands
def main():
args = parse_args()
device = args.device
if device is None:
sys.exit("ERROR: Failed to find device.")
props = device.get_props()
root = os.environ["ANDROID_BUILD_TOP"]
sysroot = dump_var(root, "abs-TARGET_OUT_UNSTRIPPED")
# Make sure the environment matches the attached device.
verify_device(root, props)
debug_socket = "/data/local/tmp/debug_socket"
pid = None
run_cmd = None
# Fetch binary for -p, -n.
binary_file, pid, run_cmd = handle_switches(args, sysroot)
with binary_file:
arch = gdbrunner.get_binary_arch(binary_file)
is64bit = arch.endswith("64")
# Make sure we have the linker
ensure_linker(device, sysroot, is64bit)
# Start gdbserver.
gdbserver_local_path = get_gdbserver_path(root, arch)
gdbserver_remote_path = "/data/local/tmp/{}-gdbserver".format(arch)
gdbrunner.start_gdbserver(
device, gdbserver_local_path, gdbserver_remote_path,
target_pid=pid, run_cmd=run_cmd, debug_socket=debug_socket,
port=args.port, user=args.user)
# Generate a gdb script.
gdb_commands = generate_gdb_script(sysroot=sysroot,
binary_file=binary_file,
is64bit=is64bit,
port=args.port)
# Find where gdb is
if sys.platform.startswith("linux"):
platform_name = "linux-x86"
elif sys.platform.startswith("darwin"):
platform_name = "darwin-x86"
else:
sys.exit("Unknown platform: {}".format(sys.platform))
gdb_path = os.path.join(root, "prebuilts", "gdb", platform_name, "bin",
"gdb")
# Print a newline to separate our messages from the GDB session.
print("")
# Start gdb.
gdbrunner.start_gdb(gdb_path, gdb_commands)
if __name__ == "__main__":
main()