Exemple #1
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def GetPackageMerkleRoot(far_file_path):
    """Returns a package's Merkle digest."""

    # The digest is the first word on the first line of the merkle tool's output.
    merkle_tool = GetHostToolPathFromPlatform('merkleroot')
    output = subprocess.check_output([merkle_tool, far_file_path])
    return output.splitlines()[0].split()[0]
Exemple #2
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def RunSymbolizer(input_file, output_file, build_ids_files):
  """Starts a symbolizer process.

  input_file: Input file to be symbolized.
  output_file: Output file for symbolizer stdout and stderr.
  build_ids_file: Path to the ids.txt file which maps build IDs to
                  unstripped binaries on the filesystem.
  Returns a Popen object for the started process."""

  if (GetHostArchFromPlatform() == 'arm64' and
      os.path.isfile(ARM64_DOCKER_LLVM_SYMBOLIZER_PATH)):
    llvm_symbolizer_path = ARM64_DOCKER_LLVM_SYMBOLIZER_PATH
  else:
    llvm_symbolizer_path = os.path.join(SDK_ROOT, os.pardir, os.pardir,
                                        'llvm-build', 'Release+Asserts', 'bin',
                                        'llvm-symbolizer')

  symbolizer = GetHostToolPathFromPlatform('symbolize')
  symbolizer_cmd = [symbolizer,
                    '-ids-rel', '-llvm-symbolizer', llvm_symbolizer_path,
                    '-build-id-dir', os.path.join(SDK_ROOT, '.build-id')]
  for build_ids_file in build_ids_files:
    symbolizer_cmd.extend(['-ids', build_ids_file])

  logging.info('Running "%s".' % ' '.join(symbolizer_cmd))
  return subprocess.Popen(symbolizer_cmd, stdin=input_file, stdout=output_file,
                          stderr=subprocess.STDOUT, close_fds=True)
def GetCompressedSize(file_path):
    """Measures file size after blobfs compression."""

    compressor_path = GetHostToolPathFromPlatform('blobfs-compression')
    try:
        temp_dir = tempfile.mkdtemp()
        compressed_file_path = os.path.join(temp_dir,
                                            os.path.basename(file_path))
        proc = subprocess.Popen(
            [compressor_path, file_path, compressed_file_path],
            stdout=subprocess.PIPE,
            stderr=subprocess.STDOUT)
        proc.wait()
        compressor_output = proc.stdout.read()
        if proc.returncode != 0:
            print(compressor_output, file=sys.stderr)
            raise Exception('Error while running %s' % compressor_path)
    finally:
        shutil.rmtree(temp_dir)

    # Match a compressed bytes total from blobfs-compression output like
    # Wrote 360830 bytes (40% compression)
    blobfs_compressed_bytes_re = r'Wrote\s+(?P<bytes>\d+)\s+bytes'

    match = re.search(blobfs_compressed_bytes_re, compressor_output)
    if not match:
        print(compressor_output, file=sys.stderr)
        raise Exception('Could not get compressed bytes for %s' % file_path)

    # Round the compressed file size up to an integer number of blobfs blocks.
    BLOBFS_BLOCK_SIZE = 8192  # Fuchsia's blobfs file system uses 8KiB blocks.
    blob_bytes = int(match.group('bytes'))
    return math.ceil(blob_bytes / BLOBFS_BLOCK_SIZE) * BLOBFS_BLOCK_SIZE
Exemple #4
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  def _ProvisionDevice(self):
    """Pave a device with a generic image of Fuchsia."""

    bootserver_path = GetHostToolPathFromPlatform('bootserver')
    bootserver_command = [
        bootserver_path, '-1', '--fvm',
        EnsurePathExists(
            boot_data.GetTargetFile('storage-sparse.blk',
                                    self._GetTargetSdkArch(),
                                    boot_data.TARGET_TYPE_GENERIC)),
        EnsurePathExists(
            boot_data.GetBootImage(self._out_dir, self._GetTargetSdkArch(),
                                   boot_data.TARGET_TYPE_GENERIC))
    ]

    if self._node_name:
      bootserver_command += ['-n', self._node_name]

    bootserver_command += ['--']
    bootserver_command += boot_data.GetKernelArgs()

    logging.debug(' '.join(bootserver_command))
    _, stdout = SubprocessCallWithTimeout(bootserver_command,
                                          silent=False,
                                          timeout_secs=300)

    self._ParseNodename(stdout)

    # Update the target's hash to match the current tree's.
    self.PutFile(os.path.join(SDK_ROOT, '.hash'), TARGET_HASH_FILE_PATH)
Exemple #5
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  def _Discover(self):
    """Queries mDNS for the IP address of a booted Fuchsia instance whose name
    matches |_node_name| on the local area network. If |_node_name| isn't
    specified, and there is only one device on the network, then returns the
    IP address of that advice.

    Sets |_host_name| and returns True if the device was found,
    or waits up to |timeout| seconds and returns False if the device couldn't
    be found."""

    dev_finder_path = GetHostToolPathFromPlatform('device-finder')

    if self._node_name:
      command = [
          dev_finder_path,
          'resolve',
          '-timeout',
          "%ds" % BOOT_DISCOVERY_TIMEOUT_SECS / BOOT_DISCOVERY_ATTEMPTS,
          '-device-limit',
          '1',  # Exit early as soon as a host is found.
          self._node_name
      ]
    else:
      command = [
          dev_finder_path, 'list', '-full', '-timeout',
          "%ds" % BOOT_DISCOVERY_TIMEOUT_SECS / BOOT_DISCOVERY_ATTEMPTS
      ]

    proc = subprocess.Popen(command,
                            stdout=subprocess.PIPE,
                            stderr=open(os.devnull, 'w'))

    output = set(proc.communicate()[0].strip().split('\n'))
    if proc.returncode != 0:
      return False

    if self._node_name:
      # Handle the result of "device-finder resolve".
      self._host = output.pop().strip()

    else:
      name_host_pairs = [x.strip().split(' ') for x in output]

      # Handle the output of "device-finder list".
      if len(name_host_pairs) > 1:
        print('More than one device was discovered on the network.')
        print('Use --node-name <name> to specify the device to use.')
        print('\nList of devices:')
        for pair in name_host_pairs:
          print('  ' + pair[1])
        print()
        raise Exception('Ambiguous target device specification.')

      assert len(name_host_pairs) == 1
      self._host, self._node_name = name_host_pairs[0]

    logging.info('Found device "%s" at address %s.' % (self._node_name,
                                                       self._host))

    return True
Exemple #6
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def ExtractFarFile(file_path, extract_dir):
    """Extracts contents of a Fuchsia archive file to the specified directory."""

    far_tool = GetHostToolPathFromPlatform('far')
    subprocess.check_call([
        far_tool, 'extract',
        '--archive=%s' % file_path,
        '--output=%s' % extract_dir
    ])
Exemple #7
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  def _Discover(self):
    """Queries mDNS for the IP address of a booted Fuchsia instance whose name
    matches |_node_name| on the local area network. If |_node_name| isn't
    specified, and there is only one device on the network, then returns the
    IP address of that advice.

    Sets |_host_name| and returns True if the device was found,
    or waits up to |timeout| seconds and returns False if the device couldn't
    be found."""

    dev_finder_path = GetHostToolPathFromPlatform('device-finder')

    with open(os.devnull, 'w') as devnull:
      if self._node_name:
        command = [
            dev_finder_path,
            'resolve',
            '-device-limit',
            '1',  # Exit early as soon as a host is found.
            self._node_name
        ]
        proc = subprocess.Popen(command,
                                stdout=subprocess.PIPE,
                                stderr=devnull,
                                text=True)
      else:
        proc = self.RunFFXCommand(['target', 'list', '-f', 'simple'],
                                  stdout=subprocess.PIPE,
                                  stderr=devnull,
                                  text=True)

    output = set(proc.communicate()[0].strip().split('\n'))
    if proc.returncode != 0:
      return False

    if self._node_name:
      # Handle the result of "device-finder resolve".
      self._host = output.pop().strip()
    else:
      name_host_pairs = [x.strip().split(' ') for x in output]

      if len(name_host_pairs) > 1:
        raise Exception('More than one device was discovered on the network. '
                        'Use --node-name <name> to specify the device to use.'
                        'List of devices: {}'.format(output))
      assert len(name_host_pairs) == 1
      # Check if device has both address and name.
      if len(name_host_pairs[0]) < 2:
        return False
      self._host, self._node_name = name_host_pairs[0]

    logging.info('Found device "%s" at address %s.' % (self._node_name,
                                                       self._host))

    return True
Exemple #8
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    def __ProvisionDevice(self):
        """Netboots a device with Fuchsia. If |_node_name| is set, then only a
    device with a matching node name is used.

    The device is up and reachable via SSH when the function is successfully
    completes."""

        bootserver_path = GetHostToolPathFromPlatform('bootserver')
        bootserver_command = [
            bootserver_path, '-1', '--fvm',
            EnsurePathExists(
                boot_data.GetTargetFile('storage-sparse.blk',
                                        self._GetTargetSdkArch(),
                                        boot_data.TARGET_TYPE_GENERIC)),
            EnsurePathExists(
                boot_data.GetBootImage(self._output_dir,
                                       self._GetTargetSdkArch(),
                                       boot_data.TARGET_TYPE_GENERIC))
        ]

        if self._node_name:
            bootserver_command += ['-n', self._node_name]

        bootserver_command += ['--']
        bootserver_command += boot_data.GetKernelArgs(self._output_dir)

        logging.debug(' '.join(bootserver_command))
        stdout = subprocess.check_output(bootserver_command,
                                         stderr=subprocess.STDOUT)

        # Parse the nodename from bootserver stdout.
        m = re.search(r'.*Proceeding with nodename (?P<nodename>.*)$', stdout,
                      re.MULTILINE)
        if not m:
            raise Exception('Couldn\'t parse nodename from bootserver output.')
        self._node_name = m.groupdict()['nodename']
        logging.info('Booted device "%s".' % self._node_name)

        # Repeatdly query mDNS until we find the device, or we hit the timeout of
        # DISCOVERY_TIMEOUT_SECS.
        logging.info('Waiting for device to join network.')
        for _ in xrange(_BOOT_DISCOVERY_ATTEMPTS):
            if self.__Discover():
                break

        if not self._host:
            raise Exception('Device %s couldn\'t be discovered via mDNS.' %
                            self._node_name)

        self._WaitUntilReady()

        # Update the target's hash to match the current tree's.
        self.PutFile(os.path.join(SDK_ROOT, '.hash'), TARGET_HASH_FILE_PATH)
Exemple #9
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  def _Discover(self):
    """Queries mDNS for the IP address of a booted Fuchsia instance whose name
    matches |_node_name| on the local area network. If |_node_name| isn't
    specified, and there is only one device on the network, then returns the
    IP address of that advice.

    Sets |_host_name| and returns True if the device was found,
    or waits up to |timeout| seconds and returns False if the device couldn't
    be found."""

    ffx_path = GetHostToolPathFromPlatform('ffx')

    # Ffx command to list targets in short form.
    # Example output: fe80::4415:3606:fb52:e2bc%zx pecan-guru-clerk-rhyme.
    ffx_target_list_command = [
        ffx_path, '-T',
        "%d" % _FFX_TIMEOUT_LIMIT_SECS, 'target', 'list', '-f', 's'
    ]

    # List only a specific device if node name is present.
    if self._node_name:
      ffx_target_list_command.append(self._node_name)

    proc = subprocess.Popen(ffx_target_list_command,
                            stdout=subprocess.PIPE,
                            stderr=open(os.devnull, 'w'))

    output = set(proc.communicate()[0].strip().split('\n'))
    if proc.returncode != 0:
      return False

    name_host_pairs = [x.strip().split(' ') for x in output]

    # Handle the output of "ffx target list -f s".
    if len(name_host_pairs) > 1:
      print('More than one device was discovered on the network.')
      print('Use --node-name <name> to specify the device to use.')
      print('\nList of devices:')
      for pair in name_host_pairs:
        print('  ' + pair[1])
      print()
      raise Exception('Ambiguous target device specification.')

    assert len(name_host_pairs) == 1
    self._host, self._node_name = name_host_pairs[0]

    logging.info('Found device "%s" at address %s.' % (self._node_name,
                                                       self._host))

    return True
Exemple #10
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def ExtractFarFile(file_path, extract_dir):
    """Extracts contents of a Fuchsia archive file to the specified directory."""

    far_tool = GetHostToolPathFromPlatform('far')

    if not os.path.isfile(far_tool):
        raise Exception('Could not find FAR host tool "%s".' % far_tool)
    if not os.path.isfile(file_path):
        raise Exception('Could not find FAR file "%s".' % file_path)

    subprocess.check_call([
        far_tool, 'extract',
        '--archive=%s' % file_path,
        '--output=%s' % extract_dir
    ])
  def _ProvisionDevice(self):
    """Pave a device with a generic image of Fuchsia."""
    bootserver_path = GetHostToolPathFromPlatform('bootserver')
    bootserver_command = [
        bootserver_path, '-1', '--fvm',
        EnsurePathExists(
            boot_data.GetTargetFile('storage-sparse.blk',
                                    self._GetTargetSdkArch(),
                                    boot_data.TARGET_TYPE_GENERIC)),
        EnsurePathExists(
            boot_data.GetBootImage(self._output_dir, self._GetTargetSdkArch(),
                                   boot_data.TARGET_TYPE_GENERIC))
    ]

    if self._node_name:
      bootserver_command += ['-n', self._node_name]

    bootserver_command += ['--']
    bootserver_command += boot_data.GetKernelArgs(self._output_dir)

    logging.debug(' '.join(bootserver_command))
    _, stdout = SubprocessCallWithTimeout(bootserver_command,
                                          silent=False,
                                          timeout_secs=300)

    self._ParseNodename(stdout)

    # Start loglistener to save system logs.
    if self._system_log_file:
      self._StartLoglistener()

    # Repeatdly query mDNS until we find the device, or we hit
    # BOOT_DISCOVERY_ATTEMPTS
    logging.info('Waiting for device to join network.')
    for _ in xrange(device_target.BOOT_DISCOVERY_ATTEMPTS):
      if self.__Discover():
        break

    if not self._host:
      raise Exception("Device %s couldn't be discovered via mDNS." %
                      self._node_name)

    self._WaitUntilReady()

    # Update the target's hash to match the current tree's.
    self.PutFile(os.path.join(SDK_ROOT, '.hash'), TARGET_HASH_FILE_PATH)
Exemple #12
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def RunSymbolizer(input_file, output_file, build_ids_files):
  """Starts a symbolizer process.

  input_file: Input file to be symbolized.
  output_file: Output file for symbolizer stdout and stderr.
  build_ids_file: Path to the ids.txt file which maps build IDs to
                  unstripped binaries on the filesystem.
  Returns a Popen object for the started process."""

  symbolizer = GetHostToolPathFromPlatform('symbolize')
  llvm_symbolizer_path = _GetLLVMSymbolizerPath()
  symbolizer_cmd = [symbolizer,
                    '-ids-rel', '-llvm-symbolizer', llvm_symbolizer_path,
                    '-build-id-dir', os.path.join(SDK_ROOT, '.build-id')]
  for build_ids_file in build_ids_files:
    symbolizer_cmd.extend(['-ids', build_ids_file])

  logging.info('Running "%s".' % ' '.join(symbolizer_cmd))
  return subprocess.Popen(symbolizer_cmd, stdin=input_file, stdout=output_file,
                          stderr=subprocess.STDOUT, close_fds=True)
Exemple #13
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def RunSymbolizer(input_fd, output_fd, ids_txt_paths):
  """Starts a symbolizer process.

  input_fd: Input file to be symbolized.
  output_fd: Output file for symbolizer stdout and stderr.
  ids_txt_paths: Path to the ids.txt files which map build IDs to
                 unstripped binaries on the filesystem.
  Returns a Popen object for the started process."""

  symbolizer = GetHostToolPathFromPlatform('symbolizer')
  symbolizer_cmd = [
      symbolizer, '--omit-module-lines', '--build-id-dir',
      os.path.join(SDK_ROOT, '.build-id')
  ]
  for ids_txt in ids_txt_paths:
    symbolizer_cmd.extend(['--ids-txt', ids_txt])

  logging.debug('Running "%s".' % ' '.join(symbolizer_cmd))
  return subprocess.Popen(symbolizer_cmd,
                          stdin=input_fd,
                          stdout=output_fd,
                          stderr=subprocess.STDOUT,
                          close_fds=True)