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# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.

import fileinput
import glob
import os
import platform
import psutil
import re
import shutil
import signal
import sys
import telnetlib
import time
import urlparse
import urllib2
from distutils.spawn import find_executable

from mozdevice import DeviceManagerADB, DMError
from mozprocess import ProcessHandler

EMULATOR_HOME_DIR = os.path.join(os.path.expanduser('~'), '.mozbuild', 'android-device')

TOOLTOOL_URL = 'https://raw.githubusercontent.com/mozilla/build-tooltool/master/tooltool.py'

TRY_URL = 'https://hg.mozilla.org/try/raw-file/default'

MANIFEST_PATH = 'testing/config/tooltool-manifests'

verbose_logging = False

class AvdInfo(object):
    """
       Simple class to contain an AVD description.
    """
    def __init__(self, description, name, tooltool_manifest, extra_args,
                 port):
        self.description = description
        self.name = name
        self.tooltool_manifest = tooltool_manifest
        self.extra_args = extra_args
        self.port = port


"""
   A dictionary to map an AVD type to a description of that type of AVD.

   There is one entry for each type of AVD used in Mozilla automated tests
   and the parameters for each reflect those used in mozharness.
"""
AVD_DICT = {
    '4.3': AvdInfo('Android 4.3',
                   'mozemulator-4.3',
                   'testing/config/tooltool-manifests/androidarm_4_3/releng.manifest',
                   ['-show-kernel', '-debug',
                    'init,console,gles,memcheck,adbserver,adbclient,adb,avd_config,socket'],
                   5554),
    'x86': AvdInfo('Android 4.2 x86',
                   'mozemulator-x86',
                   'testing/config/tooltool-manifests/androidx86/releng.manifest',
                   ['-debug',
                    'init,console,gles,memcheck,adbserver,adbclient,adb,avd_config,socket',
                    '-qemu', '-m', '1024', '-enable-kvm'],
                   5554)
}

def verify_android_device(build_obj, install=False, xre=False, debugger=False):
    """
       Determine if any Android device is connected via adb.
       If no device is found, prompt to start an emulator.
       If a device is found or an emulator started and 'install' is
       specified, also check whether Firefox is installed on the
       device; if not, prompt to install Firefox.
       If 'xre' is specified, also check with MOZ_HOST_BIN is set
       to a valid xre/host-utils directory; if not, prompt to set
       one up.
       If 'debugger' is specified, also check that JimDB is installed;
       if JimDB is not found, prompt to set up JimDB.
       Returns True if the emulator was started or another device was
       already connected.
    """
    device_verified = False
    emulator = AndroidEmulator('*', substs=build_obj.substs)
    devices = emulator.dm.devices()
    if (len(devices) > 0) and ('device' in [d[1] for d in devices]):
        device_verified = True
    elif emulator.is_available():
        response = raw_input(
            "No Android devices connected. Start an emulator? (Y/n) ").strip()
        if response.lower().startswith('y') or response == '':
            if not emulator.check_avd():
                _log_info("Fetching AVD. This may take a while...")
                emulator.update_avd()
            _log_info("Starting emulator running %s..." %
                emulator.get_avd_description())
            emulator.start()
            emulator.wait_for_start()
            device_verified = True

    if device_verified and install:
        # Determine if Firefox is installed on the device; if not,
        # prompt to install. This feature allows a test command to
        # launch an emulator, install Firefox, and proceed with testing
        # in one operation. It is also a basic safeguard against other
        # cases where testing is requested but Firefox installation has
        # been forgotten.
        # If Firefox is installed, there is no way to determine whether
        # the current build is installed, and certainly no way to
        # determine if the installed build is the desired build.
        # Installing every time is problematic because:
        #  - it prevents testing against other builds (downloaded apk)
        #  - installation may take a couple of minutes.
        installed = emulator.dm.shellCheckOutput(['pm', 'list',
            'packages', 'org.mozilla.'])
        if not 'fennec' in installed and not 'firefox' in installed:
            response = raw_input(
                "It looks like Firefox is not installed on this device.\n"
                "Install Firefox? (Y/n) ").strip()
            if response.lower().startswith('y') or response == '':
                _log_info("Installing Firefox. This may take a while...")
                build_obj._run_make(directory=".", target='install',
                    ensure_exit_code=False)

    if device_verified and xre:
        # Check whether MOZ_HOST_BIN has been set to a valid xre; if not,
        # prompt to install one.
        xre_path = os.environ.get('MOZ_HOST_BIN')
        err = None
        if not xre_path:
            err = 'environment variable MOZ_HOST_BIN is not set to a directory containing host xpcshell'
        elif not os.path.isdir(xre_path):
            err = '$MOZ_HOST_BIN does not specify a directory'
        elif not os.path.isfile(os.path.join(xre_path, 'xpcshell')):
            err = '$MOZ_HOST_BIN/xpcshell does not exist'
        if err:
            xre_path = glob.glob(os.path.join(EMULATOR_HOME_DIR, 'host-utils*'))
            for path in xre_path:
                if os.path.isdir(path) and os.path.isfile(os.path.join(path, 'xpcshell')):
                    os.environ['MOZ_HOST_BIN'] = path
                    err = None
                    break
        if err:
            _log_info("Host utilities not found: %s" % err)
            response = raw_input(
                "Download and setup your host utilities? (Y/n) ").strip()
            if response.lower().startswith('y') or response == '':
                _log_info("Installing host utilities. This may take a while...")
                host_platform = _get_host_platform()
                if host_platform:
                    path = os.path.join(MANIFEST_PATH, host_platform, 'hostutils.manifest')
                    _get_tooltool_manifest(build_obj.substs, path, EMULATOR_HOME_DIR, 'releng.manifest')
                    _tooltool_fetch()
                    xre_path = glob.glob(os.path.join(EMULATOR_HOME_DIR, 'host-utils*'))
                    for path in xre_path:
                        if os.path.isdir(path) and os.path.isfile(os.path.join(path, 'xpcshell')):
                            os.environ['MOZ_HOST_BIN'] = path
                            err = None
                            break
                    if err:
                        _log_warning("Unable to install host utilities.")
                else:
                    _log_warning("Unable to install host utilities -- your platform is not supported!")

    if debugger:
        # Optionally set up JimDB. See https://wiki.mozilla.org/Mobile/Fennec/Android/GDB.
        build_platform = _get_device_platform(build_obj.substs)
        jimdb_path = os.path.join(EMULATOR_HOME_DIR, 'jimdb-%s' % build_platform)
        jimdb_utils_path = os.path.join(jimdb_path, 'utils')
        gdb_path = os.path.join(jimdb_path, 'bin', 'gdb')
        err = None
        if not os.path.isdir(jimdb_path):
            err = '%s does not exist' % jimdb_path
        elif not os.path.isfile(gdb_path):
            err = '%s not found' % gdb_path
        if err:
            _log_info("JimDB (%s) not found: %s" % (build_platform, err))
            response = raw_input(
                "Download and setup JimDB (%s)? (Y/n) " % build_platform).strip()
            if response.lower().startswith('y') or response == '':
                host_platform = _get_host_platform()
                if host_platform:
                    _log_info("Installing JimDB (%s/%s). This may take a while..." % (host_platform, build_platform))
                    path = os.path.join(MANIFEST_PATH, host_platform, 'jimdb-%s.manifest' % build_platform)
                    _get_tooltool_manifest(build_obj.substs, path, EMULATOR_HOME_DIR, 'releng.manifest')
                    _tooltool_fetch()
                    if os.path.isfile(gdb_path):
                        # Get JimDB utilities from git repository
                        proc = ProcessHandler(['git', 'pull'], cwd=jimdb_utils_path)
                        proc.run()
                        git_pull_complete = False
                        try:
                            proc.wait()
                            if proc.proc.returncode == 0:
                                git_pull_complete = True
                        except:
                            if proc.poll() is None:
                                proc.kill(signal.SIGTERM)
                        if not git_pull_complete:
                            _log_warning("Unable to update JimDB utils from git -- some JimDB features may be unavailable.")
                    else:
                        _log_warning("Unable to install JimDB -- unable to fetch from tooltool.")
                else:
                    _log_warning("Unable to install JimDB -- your platform is not supported!")
        if os.path.isfile(gdb_path):
            # sync gdbinit.local with build settings
            _update_gdbinit(build_obj.substs, os.path.join(jimdb_utils_path, "gdbinit.local"))
            # ensure JimDB is in system path, so that mozdebug can find it
            bin_path = os.path.join(jimdb_path, 'bin')
            os.environ['PATH'] = "%s:%s" % (bin_path, os.environ['PATH'])

    return device_verified

def run_firefox_for_android(build_obj, params):
    """
       Launch Firefox for Android on the connected device.
       Optional 'params' allow parameters to be passed to Firefox.
    """
    adb_path = _find_sdk_exe(build_obj.substs, 'adb', False)
    if not adb_path:
        adb_path = 'adb'
    dm = DeviceManagerADB(autoconnect=False, adbPath=adb_path, retryLimit=1)
    try:
        #
        # Construct an adb command similar to:
        #
        #   adb shell am start -a android.activity.MAIN -n org.mozilla.fennec_$USER -d <url param> --es args "<params>"
        #
        app = "%s/org.mozilla.gecko.BrowserApp" % build_obj.substs['ANDROID_PACKAGE_NAME']
        cmd = ['am', 'start', '-a', 'android.activity.MAIN', '-n', app]
        if params:
            for p in params:
                if urlparse.urlparse(p).scheme != "":
                    cmd.extend(['-d', p])
                    params.remove(p)
                    break
        if params:
            cmd.extend(['--es', 'args', '"%s"' % ' '.join(params)])
        _log_debug(cmd)
        output = dm.shellCheckOutput(cmd, timeout=10)
        _log_info(output)
    except DMError:
        _log_warning("unable to launch Firefox for Android")
        return 1
    return 0

def grant_runtime_permissions(build_obj, app):
    """
       Grant required runtime permissions to the specified app (typically org.mozilla.fennec_$USER).
    """
    adb_path = _find_sdk_exe(build_obj.substs, 'adb', False)
    if not adb_path:
        adb_path = 'adb'
    dm = DeviceManagerADB(autoconnect=False, adbPath=adb_path, retryLimit=1)
    dm.default_timeout = 10
    try:
        sdk_level = dm.shellCheckOutput(['getprop', 'ro.build.version.sdk'])
        if sdk_level and int(sdk_level) >= 23:
            _log_info("Granting important runtime permissions to %s" % app)
            dm.shellCheckOutput(['pm', 'grant', app, 'android.permission.WRITE_EXTERNAL_STORAGE'])
            dm.shellCheckOutput(['pm', 'grant', app, 'android.permission.ACCESS_FINE_LOCATION'])
            dm.shellCheckOutput(['pm', 'grant', app, 'android.permission.CAMERA'])
            dm.shellCheckOutput(['pm', 'grant', app, 'android.permission.WRITE_CONTACTS'])
    except DMError:
        _log_warning("Unable to grant runtime permissions to %s" % app)

class AndroidEmulator(object):

    """
        Support running the Android emulator with an AVD from Mozilla
        test automation.

        Example usage:
            emulator = AndroidEmulator()
            if not emulator.is_running() and emulator.is_available():
                if not emulator.check_avd():
                    warn("this may take a while...")
                    emulator.update_avd()
                emulator.start()
                emulator.wait_for_start()
                emulator.wait()
    """

    def __init__(self, avd_type='4.3', verbose=False, substs=None, device_serial=None):
        global verbose_logging
        self.emulator_log = None
        self.emulator_path = 'emulator'
        verbose_logging = verbose
        self.substs = substs
        self.avd_type = self._get_avd_type(avd_type)
        self.avd_info = AVD_DICT[self.avd_type]
        adb_path = _find_sdk_exe(substs, 'adb', False)
        if not adb_path:
            adb_path = 'adb'
        self.dm = DeviceManagerADB(autoconnect=False, adbPath=adb_path, retryLimit=1,
            deviceSerial=device_serial)
        self.dm.default_timeout = 10
        _log_debug("Emulator created with type %s" % self.avd_type)

    def __del__(self):
        if self.emulator_log:
            self.emulator_log.close()

    def is_running(self):
        """
           Returns True if the Android emulator is running.
        """
        for proc in psutil.process_iter():
            name = proc.name()
            # On some platforms, "emulator" may start an emulator with
            # process name "emulator64-arm" or similar.
            if name and name.startswith('emulator'):
                return True
        return False

    def is_available(self):
        """
           Returns True if an emulator executable is found.
        """
        found = False
        emulator_path = _find_sdk_exe(self.substs, 'emulator', True)
        if emulator_path:
            self.emulator_path = emulator_path
            found = True
        return found

    def check_avd(self, force=False):
        """
           Determine if the AVD is already installed locally.
           (This is usually used to determine if update_avd() is likely
           to require a download; it is a convenient way of determining
           whether a 'this may take a while' warning is warranted.)

           Returns True if the AVD is installed.
        """
        avd = os.path.join(
            EMULATOR_HOME_DIR, 'avd', self.avd_info.name + '.avd')
        if force and os.path.exists(avd):
            shutil.rmtree(avd)
        if os.path.exists(avd):
            _log_debug("AVD found at %s" % avd)
            return True
        return False

    def update_avd(self, force=False):
        """
           If required, update the AVD via tooltool.

           If the AVD directory is not found, or "force" is requested,
           download the tooltool manifest associated with the AVD and then
           invoke tooltool.py on the manifest. tooltool.py will download the
           required archive (unless already present in the local tooltool
           cache) and install the AVD.
        """
        avd = os.path.join(
            EMULATOR_HOME_DIR, 'avd', self.avd_info.name + '.avd')
        if force and os.path.exists(avd):
            shutil.rmtree(avd)
        if not os.path.exists(avd):
            url = '%s/%s' % (TRY_URL, self.avd_info.tooltool_manifest)
            _download_file(url, 'releng.manifest', EMULATOR_HOME_DIR)
            _tooltool_fetch()
            self._update_avd_paths()

    def start(self):
        """
           Launch the emulator.
        """
        def outputHandler(line):
            self.emulator_log.write("<%s>\n" % line)
        env = os.environ
        env['ANDROID_AVD_HOME'] = os.path.join(EMULATOR_HOME_DIR, "avd")
        command = [self.emulator_path, "-avd",
                   self.avd_info.name, "-port", "5554"]
        if self.avd_info.extra_args:
            # -enable-kvm option is not valid on OSX
            if _get_host_platform() == 'macosx64' and '-enable-kvm' in self.avd_info.extra_args:
                self.avd_info.extra_args.remove('-enable-kvm')
            command += self.avd_info.extra_args
        log_path = os.path.join(EMULATOR_HOME_DIR, 'emulator.log')
        self.emulator_log = open(log_path, 'w')
        _log_debug("Starting the emulator with this command: %s" %
                        ' '.join(command))
        _log_debug("Emulator output will be written to '%s'" %
                        log_path)
        self.proc = ProcessHandler(
            command, storeOutput=False, processOutputLine=outputHandler,
            env=env)
        self.proc.run()
        _log_debug("Emulator started with pid %d" %
                        int(self.proc.proc.pid))

    def wait_for_start(self):
        """
           Verify that the emulator is running, the emulator device is visible
           to adb, and Android has booted.
        """
        if not self.proc:
            _log_warning("Emulator not started!")
            return False
        if self.proc.proc.poll() is not None:
            _log_warning("Emulator has already completed!")
            return False
        _log_debug("Waiting for device status...")
        while(('emulator-5554', 'device') not in self.dm.devices()):
            time.sleep(10)
            if self.proc.proc.poll() is not None:
                _log_warning("Emulator has already completed!")
                return False
        _log_debug("Device status verified.")

        _log_debug("Checking that Android has booted...")
        complete = False
        while(not complete):
            output = ''
            try:
                output = self.dm.shellCheckOutput(
                    ['getprop', 'sys.boot_completed'], timeout=5)
            except DMError:
                # adb not yet responding...keep trying
                pass
            if output.strip() == '1':
                complete = True
            else:
                time.sleep(10)
                if self.proc.proc.poll() is not None:
                    _log_warning("Emulator has already completed!")
                    return False
        _log_debug("Android boot status verified.")

        if not self._verify_emulator():
            return False
        return True

    def wait(self):
        """
           Wait for the emulator to close. If interrupted, close the emulator.
        """
        try:
            self.proc.wait()
        except:
            if self.proc.poll() is None:
                self.cleanup()
        return self.proc.poll()

    def cleanup(self):
        """
           Close the emulator.
        """
        self.proc.kill(signal.SIGTERM)

    def get_avd_description(self):
        """
           Return the human-friendly description of this AVD.
        """
        return self.avd_info.description

    def _update_avd_paths(self):
        avd_path = os.path.join(EMULATOR_HOME_DIR, "avd")
        ini_file = os.path.join(avd_path, "test-1.ini")
        ini_file_new = os.path.join(avd_path, self.avd_info.name + ".ini")
        os.rename(ini_file, ini_file_new)
        avd_dir = os.path.join(avd_path, "test-1.avd")
        avd_dir_new = os.path.join(avd_path, self.avd_info.name + ".avd")
        os.rename(avd_dir, avd_dir_new)
        self._replace_ini_contents(ini_file_new)

    def _replace_ini_contents(self, path):
        with open(path, "r") as f:
            lines = f.readlines()
        with open(path, "w") as f:
            for line in lines:
                if line.startswith('path='):
                    avd_path = os.path.join(EMULATOR_HOME_DIR, "avd")
                    f.write('path=%s/%s.avd\n' %
                            (avd_path, self.avd_info.name))
                elif line.startswith('path.rel='):
                    f.write('path.rel=avd/%s.avd\n' % self.avd_info.name)
                else:
                    f.write(line)

    def _telnet_cmd(self, telnet, command):
        _log_debug(">>> " + command)
        telnet.write('%s\n' % command)
        result = telnet.read_until('OK', 10)
        _log_debug("<<< " + result)
        return result

    def _verify_emulator(self):
        telnet_ok = False
        tn = None
        while(not telnet_ok):
            try:
                tn = telnetlib.Telnet('localhost', self.avd_info.port, 10)
                if tn is not None:
                    res = tn.read_until('OK', 10)
                    self._telnet_cmd(tn, 'avd status')
                    self._telnet_cmd(tn, 'redir list')
                    self._telnet_cmd(tn, 'network status')
                    tn.write('quit\n')
                    tn.read_all()
                    telnet_ok = True
                else:
                    _log_warning("Unable to connect to port %d" % port)
            except:
                _log_warning("Trying again after unexpected exception")
            finally:
                if tn is not None:
                    tn.close()
            if not telnet_ok:
                time.sleep(10)
                if self.proc.proc.poll() is not None:
                    _log_warning("Emulator has already completed!")
                    return False
        return telnet_ok

    def _get_avd_type(self, requested):
        if requested in AVD_DICT.keys():
            return requested
        if self.substs:
            if not self.substs['TARGET_CPU'].startswith('arm'):
                return 'x86'
        return '4.3'

def _find_sdk_exe(substs, exe, tools):
    if tools:
        subdir = 'tools'
    else:
        subdir = 'platform-tools'

    found = False
    if not found and substs:
        # It's best to use the tool specified by the build, rather
        # than something we find on the PATH or crawl for.
        try:
            exe_path = substs[exe.upper()]
            if os.path.exists(exe_path):
                found = True
            else:
                _log_debug(
                    "Unable to find executable at %s" % exe_path)
        except KeyError:
            _log_debug("%s not set" % exe.upper())

    # Append '.exe' to the name on Windows if it's not present,
    # so that the executable can be found.
    if (os.name == 'nt' and not exe.lower().endswith('.exe')):
        exe += '.exe'

    if not found:
        # Can exe be found in the Android SDK?
        try:
            android_sdk_root = os.environ['ANDROID_SDK_ROOT']
            exe_path = os.path.join(
                android_sdk_root, subdir, exe)
            if os.path.exists(exe_path):
                found = True
            else:
                _log_debug(
                    "Unable to find executable at %s" % exe_path)
        except KeyError:
            _log_debug("ANDROID_SDK_ROOT not set")

    if not found:
        # Can exe be found in the default bootstrap location?
        mozbuild_path = os.environ.get('MOZBUILD_STATE_PATH',
            os.path.expanduser(os.path.join('~', '.mozbuild')))
        exe_path = os.path.join(
            mozbuild_path, 'android-sdk-linux', subdir, exe)
        if os.path.exists(exe_path):
            found = True
        else:
            _log_debug(
                "Unable to find executable at %s" % exe_path)

    if not found:
        # Is exe on PATH?
        exe_path = find_executable(exe)
        if exe_path:
            found = True
        else:
            _log_debug("Unable to find executable on PATH")

    if found:
        _log_debug("%s found at %s" % (exe, exe_path))
    else:
        exe_path = None
    return exe_path

def _log_debug(text):
    if verbose_logging:
        print "DEBUG: %s" % text

def _log_warning(text):
    print "WARNING: %s" % text

def _log_info(text):
    print "%s" % text

def _download_file(url, filename, path):
    f = urllib2.urlopen(url)
    if not os.path.isdir(path):
        try:
            os.makedirs(path)
        except Exception, e:
            _log_warning(str(e))
            return False
    local_file = open(os.path.join(path, filename), 'wb')
    local_file.write(f.read())
    local_file.close()
    _log_debug("Downloaded %s to %s/%s" % (url, path, filename))
    return True

def _get_tooltool_manifest(substs, src_path, dst_path, filename):
    if not os.path.isdir(dst_path):
        try:
            os.makedirs(dst_path)
        except Exception, e:
            _log_warning(str(e))
    copied = False
    if substs and 'top_srcdir' in substs:
        src = os.path.join(substs['top_srcdir'], src_path)
        if os.path.exists(src):
            dst = os.path.join(dst_path, filename)
            shutil.copy(src, dst)
            copied = True
            _log_debug("Copied tooltool manifest %s to %s" % (src, dst))
    if not copied:
        url = os.path.join(TRY_URL, src_path)
        _download_file(url, filename, dst_path)

def _tooltool_fetch():
    def outputHandler(line):
        _log_debug(line)
    _download_file(TOOLTOOL_URL, 'tooltool.py', EMULATOR_HOME_DIR)
    command = ['python', 'tooltool.py', 'fetch', '-o', '-m', 'releng.manifest']
    proc = ProcessHandler(
        command, processOutputLine=outputHandler, storeOutput=False,
        cwd=EMULATOR_HOME_DIR)
    proc.run()
    try:
        proc.wait()
    except:
        if proc.poll() is None:
            proc.kill(signal.SIGTERM)

def _get_host_platform():
    plat = None
    if 'darwin' in str(sys.platform).lower():
        plat = 'macosx64'
    elif 'linux' in str(sys.platform).lower():
        if '64' in platform.architecture()[0]:
            plat = 'linux64'
        else:
            plat = 'linux32'
    return plat

def _get_device_platform(substs):
    # PIE executables are required when SDK level >= 21 - important for gdbserver
    adb_path = _find_sdk_exe(substs, 'adb', False)
    if not adb_path:
        adb_path = 'adb'
    dm = DeviceManagerADB(autoconnect=False, adbPath=adb_path, retryLimit=1)
    sdk_level = None
    try:
        cmd = ['getprop', 'ro.build.version.sdk']
        _log_debug(cmd)
        output = dm.shellCheckOutput(cmd, timeout=10)
        if output:
            sdk_level = int(output)
    except:
        _log_warning("unable to determine Android sdk level")
    pie = ''
    if sdk_level and sdk_level >= 21:
        pie = '-pie'
    if substs['TARGET_CPU'].startswith('arm'):
        return 'arm%s' % pie
    return 'x86%s' % pie

def _update_gdbinit(substs, path):
    if os.path.exists(path):
        obj_replaced = False
        src_replaced = False
        # update existing objdir/srcroot in place
        for line in fileinput.input(path, inplace=True):
            if "feninit.default.objdir" in line and substs and 'MOZ_BUILD_ROOT' in substs:
                print("python feninit.default.objdir = '%s'" % substs['MOZ_BUILD_ROOT'])
                obj_replaced = True
            elif "feninit.default.srcroot" in line and substs and 'top_srcdir' in substs:
                print("python feninit.default.srcroot = '%s'" % substs['top_srcdir'])
                src_replaced = True
            else:
                print(line.strip())
        # append objdir/srcroot if not updated
        if (not obj_replaced) and substs and 'MOZ_BUILD_ROOT' in substs:
            with open(path, "a") as f:
                f.write("\npython feninit.default.objdir = '%s'\n" % substs['MOZ_BUILD_ROOT'])
        if (not src_replaced) and substs and 'top_srcdir' in substs:
            with open(path, "a") as f:
                f.write("python feninit.default.srcroot = '%s'\n" % substs['top_srcdir'])
    else:
        # write objdir/srcroot to new gdbinit file
        with open(path, "w") as f:
            if substs and 'MOZ_BUILD_ROOT' in substs:
                f.write("python feninit.default.objdir = '%s'\n" % substs['MOZ_BUILD_ROOT'])
            if substs and 'top_srcdir' in substs:
                f.write("python feninit.default.srcroot = '%s'\n" % substs['top_srcdir'])