chrome/installer/mac/dirdiffer.sh - chromium/src - Git at Google

 #!/bin/bash -p

 # Copyright (c) 2011 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 # usage: dirdiffer.sh old_dir new_dir patch_dir
 #
 # dirdiffer creates a patch directory patch_dir that represents the difference
 # between old_dir and new_dir. patch_dir can be used with dirpatcher to
 # recreate new_dir given old_dir.
 #
 # dirdiffer operates recursively, properly handling ordinary files, symbolic
 # links, and directories, as they are found in new_dir. Symbolic links and
 # directories are always replicated as-is in patch_dir. Ordinary files will
 # be represented at the appropriate location in patch_dir by one of the
 # following:
 #
 #  - a binary diff prepared by goobsdiff that can transform the file at the
 #    same position in old_dir to the version in new_dir, but only when such a
 #    file already exists in old_dir and is an ordinary file. These files are
 #    given a "$gbs" suffix.
 #  - a bzip2-compressed copy of the new file from new_dir; in patch_dir, the
 #    new file will have a "$bz2" suffix.
 #  - a gzip-compressed copy of the new file from new_dir; in patch_dir, the
 #    new file will have a "$gz" suffix.
 #  - an xz/lzma2-compressed copy of the new file from new_dir; in patch_dir,
 #    the new file will have an "$xz" suffix.
 #  - an uncompressed copy of the new file from new_dir; in patch_dir, the
 #    new file will have a "$raw" suffix.
 #
 # The unconventional suffixes are used because they aren't likely to occur in
 # filenames.
 #
 # Of these options, the smallest possible representation is chosen. Note that
 # goobsdiff itself will also compress various sections of a binary diff with
 # bzip2, gzip, or xz/lzma2, or leave them uncompressed, according to which is
 # smallest. The approach of choosing the smallest possible representation is
 # time-consuming but given the choices of compressors results in an overall
 # size reduction of about 3%-5% relative to using bzip2 as the only
 # compressor; bzip2 is generally more effective for these data sets than gzip,
 # and xz/lzma2 more effective than bzip2.
 #
 # For large input files, goobsdiff is also very time-consuming and
 # memory-intensive. The overall "wall clock time" spent preparing a patch_dir
 # representing the differences between Google Chrome's 6.0.422.0 and 6.0.427.0
 # versioned directories from successive weekly dev channel releases on a
 # 2.53GHz dual-core 4GB MacBook Pro is 3 minutes. Reconstructing new_dir with
 # dirpatcher is much quicker; in the above configuration, only 10 seconds are
 # needed for reconstruction.
 #
 # After creating a full patch_dir structure, but before returning, dirpatcher
 # is invoked to attempt to recreate new_dir in a temporary location given
 # old_dir and patch_dir. The recreated new_dir is then compared against the
 # original new_dir as a verification step. Should verification fail, dirdiffer
 # exits with a nonzero status, and patch_dir should not be used.
 #
 # Environment variables:
 # DIRDIFFER_EXCLUDE
 #   When an entry in new_dir matches this regular expression, it will not be
 #   included in patch_dir. All prospective paths in new_dir will be matched
 #   against this regular expression, including directories. If a directory
 #   matches this pattern, dirdiffer will also ignore the directory's contents.
 # DIRDIFFER_NO_DIFF
 #   When an entry in new_dir matches this regular expression, it will not be
 #   represented in patch_dir by a $gbs file prepared by goobsdiff. It will only
 #   appear as a $bz2, $gz, or $raw file. Only files in new_dir, not
 #   directories,  will be matched against this regular expression.
 #
 # Exit codes:
 #  0  OK
 #  1  Unknown failure
 #  2  Incorrect number of parameters
 #  3  Input directories do not exist or are not directories
 #  4  Output directory already exists
 #  5  Parent of output directory does not exist or is not a directory
 #  6  An input or output directories contains another
 #  7  Could not create output directory
 #  8  File already exists in output directory
 #  9  Found an irregular file (non-directory, file, or symbolic link) in input
 # 10  Could not create symbolic link
 # 11  File copy failed
 # 12  bzip2 compression failed
 # 13  gzip compression failed
 # 14  xz/lzma2 compression failed
 # 15  Patch creation failed
 # 16  Verification failed
 # 17  Could not set mode (permissions)
 # 18  Could not set modification time
 # 19  Invalid regular expression (irregular expression?)

 set -eu

 # Environment sanitization. Set a known-safe PATH. Clear environment variables
 # that might impact the interpreter's operation. The |bash -p| invocation
 # on the #! line takes the bite out of BASH_ENV, ENV, and SHELLOPTS (among
 # other features), but clearing them here ensures that they won't impact any
 # shell scripts used as utility programs. SHELLOPTS is read-only and can't be
 # unset, only unexported.
 export PATH="/usr/bin:/bin:/usr/sbin:/sbin"
 unset BASH_ENV CDPATH ENV GLOBIGNORE IFS POSIXLY_CORRECT
 export -n SHELLOPTS

 shopt -s dotglob nullglob

 # find_tool looks for an executable file named |tool_name|:
 #  - in the same directory as this script,
 #  - if this script is located in a Chromium source tree, at the expected
 #    Release output location in the Mac out directory,
 #  - as above, but in the Debug output location
 # If found in any of the above locations, the script's path is output.
 # Otherwise, this function outputs |tool_name| as a fallback, allowing it to
 # be found (or not) by an ordinary ${PATH} search.
 find_tool() {
   local tool_name="${1}"

   local script_dir
   script_dir="$(dirname "${0}")"

   local tool="${script_dir}/${tool_name}"
   if [[ -f "${tool}" ]] && [[ -x "${tool}" ]]; then
     echo "${tool}"
     return
   fi

   local script_dir_phys
   script_dir_phys="$(cd "${script_dir}" && pwd -P)"
   if [[ "${script_dir_phys}" =~ ^(.*)/src/chrome/installer/mac$ ]]; then
     tool="${BASH_REMATCH[1]}/src/out/Release/${tool_name}"
     if [[ -f "${tool}" ]] && [[ -x "${tool}" ]]; then
       echo "${tool}"
       return
     fi

     tool="${BASH_REMATCH[1]}/src/out/Debug/${tool_name}"
     if [[ -f "${tool}" ]] && [[ -x "${tool}" ]]; then
       echo "${tool}"
       return
     fi
   fi

   echo "${tool_name}"
 }

 ME="$(basename "${0}")"
 readonly ME
 DIRPATCHER="$(dirname "${0}")/dirpatcher.sh"
 readonly DIRPATCHER
 GOOBSDIFF="$(find_tool goobsdiff)"
 readonly GOOBSDIFF
 readonly BZIP2="bzip2"
 readonly GZIP="gzip"
 XZ="$(find_tool xz)"
 readonly XZ
 readonly GBS_SUFFIX='$gbs'
 readonly BZ2_SUFFIX='$bz2'
 readonly GZ_SUFFIX='$gz'
 readonly XZ_SUFFIX='$xz'
 readonly PLAIN_SUFFIX='$raw'

 # Workaround for http://code.google.com/p/chromium/issues/detail?id=83180#c3
 # In bash 4.0, "declare VAR" no longer initializes VAR if not already set.
 : ${DIRDIFFER_EXCLUDE:=}
 : ${DIRDIFFER_NO_DIFF:=}

 err() {
   local error="${1}"

   echo "${ME}: ${error}" >& 2
 }

 declare -a g_cleanup g_verify_exclude
 cleanup() {
   local status=${?}

   trap - EXIT
   trap '' HUP INT QUIT TERM

   if [[ ${status} -ge 128 ]]; then
     err "Caught signal $((${status} - 128))"
   fi

   if [[ "${#g_cleanup[@]}" -gt 0 ]]; then
     rm -rf "${g_cleanup[@]}"
   fi

   exit ${status}
 }

 copy_mode_and_time() {
   local new_file="${1}"
   local patch_file="${2}"

   local mode
   mode="$(stat "-f%OMp%OLp" "${new_file}")"
   if ! chmod -h "${mode}" "${patch_file}"; then
     exit 17
   fi

   if ! [[ -L "${patch_file}" ]]; then
     # Symbolic link modification times can't be copied because there's no
     # shell tool that provides direct access to lutimes. Instead, the symbolic
     # link was created with rsync, which already copied the timestamp with
     # lutimes.
     if ! touch -r "${new_file}" "${patch_file}"; then
       exit 18
     fi
   fi
 }

 file_size() {
   local file="${1}"

   stat -f %z "${file}"
 }

 make_patch_file() {
   local old_file="${1}"
   local new_file="${2}"
   local patch_file="${3}"

   local uncompressed_file="${patch_file}${PLAIN_SUFFIX}"
   if ! cp "${new_file}" "${uncompressed_file}"; then
     exit 11
   fi
   local uncompressed_size
   uncompressed_size="$(file_size "${new_file}")"

   local keep_file="${uncompressed_file}"
   local keep_size="${uncompressed_size}"

   local bz2_file="${patch_file}${BZ2_SUFFIX}"
   if [[ -e "${bz2_file}" ]]; then
     err "${bz2_file} already exists"
     exit 8
   fi
   if ! "${BZIP2}" -9c < "${new_file}" > "${bz2_file}"; then
     err "couldn't compress ${new_file} to ${bz2_file} with ${BZIP2}"
     exit 12
   fi
   local bz2_size
   bz2_size="$(file_size "${bz2_file}")"

   if [[ "${bz2_size}" -ge "${keep_size}" ]]; then
     rm -f "${bz2_file}"
   else
     rm -f "${keep_file}"
     keep_file="${bz2_file}"
     keep_size="${bz2_size}"
   fi

   local gz_file="${patch_file}${GZ_SUFFIX}"
   if [[ -e "${gz_file}" ]]; then
     err "${gz_file} already exists"
     exit 8
   fi
   if ! "${GZIP}" -9cn < "${new_file}" > "${gz_file}"; then
     err "couldn't compress ${new_file} to ${gz_file} with ${GZIP}"
     exit 13
   fi
   local gz_size
   gz_size="$(file_size "${gz_file}")"

   if [[ "${gz_size}" -ge "${keep_size}" ]]; then
     rm -f "${gz_file}"
   else
     rm -f "${keep_file}"
     keep_file="${gz_file}"
     keep_size="${gz_size}"
   fi

   local xz_flags=("-c")

   # If the file looks like a Mach-O file, including a universal/fat file, add
   # the x86 BCJ filter, which results in slightly better compression of x86
   # and x86_64 executables. Mach-O files might contain other architectures,
   # but they aren't currently expected in Chrome.
   local file_output
   file_output="$(file "${new_file}" 2> /dev/null || true)"
   if [[ "${file_output}" =~ Mach-O ]]; then
     xz_flags+=("--x86")
   fi

   # Use an lzma2 encoder. This is equivalent to xz -9 -e, but allows filters
   # to precede the compressor.
   xz_flags+=("--lzma2=preset=9e")

   local xz_file="${patch_file}${XZ_SUFFIX}"
   if [[ -e "${xz_file}" ]]; then
     err "${xz_file} already exists"
     exit 8
   fi
   if ! "${XZ}" "${xz_flags[@]}" < "${new_file}" > "${xz_file}"; then
     err "couldn't compress ${new_file} to ${xz_file} with ${XZ}"
     exit 14
   fi
   local xz_size
   xz_size="$(file_size "${xz_file}")"

   if [[ "${xz_size}" -ge "${keep_size}" ]]; then
     rm -f "${xz_file}"
   else
     rm -f "${keep_file}"
     keep_file="${xz_file}"
     keep_size="${xz_size}"
   fi

   if [[ -f "${old_file}" ]] && ! [[ -L "${old_file}" ]] &&
      ! [[ "${new_file}" =~ ${DIRDIFFER_NO_DIFF} ]]; then
     local gbs_file="${patch_file}${GBS_SUFFIX}"
     if [[ -e "${gbs_file}" ]]; then
       err "${gbs_file} already exists"
       exit 8
     fi
     if ! "${GOOBSDIFF}" "${old_file}" "${new_file}" "${gbs_file}"; then
       err "couldn't create ${gbs_file} by comparing ${old_file} to ${new_file}"
       exit 15
     fi
     local gbs_size
     gbs_size="$(file_size "${gbs_file}")"

     if [[ "${gbs_size}" -ge "${keep_size}" ]]; then
       rm -f "${gbs_file}"
     else
       rm -f "${keep_file}"
       keep_file="${gbs_file}"
       keep_size="${gbs_size}"
     fi
   fi

   copy_mode_and_time "${new_file}" "${keep_file}"
 }

 make_patch_symlink() {
   local new_file="${1}"
   local patch_file="${2}"

   # local target
   # target="$(readlink "${new_file}")"
   # ln -s "${target}" "${patch_file}"

   # Use rsync instead of the above, as it's the only way to preserve the
   # timestamp of a symbolic link using shell tools.
   if ! rsync -lt "${new_file}" "${patch_file}"; then
     exit 10
   fi

   copy_mode_and_time "${new_file}" "${patch_file}"
 }

 make_patch_dir() {
   local old_dir="${1}"
   local new_dir="${2}"
   local patch_dir="${3}"

   if ! mkdir "${patch_dir}"; then
     exit 7
   fi

   local new_file
   for new_file in "${new_dir}/"*; do
     local file="${new_file:${#new_dir} + 1}"
     local old_file="${old_dir}/${file}"
     local patch_file="${patch_dir}/${file}"

     if [[ "${new_file}" =~ ${DIRDIFFER_EXCLUDE} ]]; then
       g_verify_exclude+=("${new_file}")
       continue
     fi

     if [[ -e "${patch_file}" ]]; then
       err "${patch_file} already exists"
       exit 8
     fi

     if [[ -L "${new_file}" ]]; then
       make_patch_symlink "${new_file}" "${patch_file}"
     elif [[ -d "${new_file}" ]]; then
       make_patch_dir "${old_file}" "${new_file}" "${patch_file}"
     elif [[ ! -f "${new_file}" ]]; then
       err "can't handle irregular file ${new_file}"
       exit 9
     else
       make_patch_file "${old_file}" "${new_file}" "${patch_file}"
     fi
   done

   copy_mode_and_time "${new_dir}" "${patch_dir}"
 }

 verify_patch_dir() {
   local old_dir="${1}"
   local new_dir="${2}"
   local patch_dir="${3}"

   local verify_temp_dir verify_dir
   verify_temp_dir="$(mktemp -d -t "${ME}")"
   g_cleanup+=("${verify_temp_dir}")
   verify_dir="${verify_temp_dir}/patched"

   if ! "${DIRPATCHER}" "${old_dir}" "${patch_dir}" "${verify_dir}"; then
     err "patch application for verification failed"
     exit 16
   fi

   # rsync will print a line for any file, directory, or symbolic link that
   # differs or exists only in one directory. As used here, it correctly
   # considers link targets, file contents, permissions, and timestamps.
   local rsync_command=(rsync -clprt --delete --out-format=%n \
                        "${new_dir}/" "${verify_dir}")
   if [[ ${#g_verify_exclude[@]} -gt 0 ]]; then
     local exclude
     for exclude in "${g_verify_exclude[@]}"; do
       # ${g_verify_exclude[@]} contains paths in ${new_dir}. Strip off
       # ${new_dir} from the beginning of each, but leave a leading "/" so that
       # rsync treats them as being at the root of the "transfer."
       rsync_command+=("--exclude" "${exclude:${#new_dir}}")
     done
   fi

   local rsync_output
   if ! rsync_output="$("${rsync_command[@]}")"; then
     err "rsync for verification failed"
     exit 16
   fi

   rm -rf "${verify_temp_dir}"
   unset g_cleanup[${#g_cleanup[@]}]

   if [[ -n "${rsync_output}" ]]; then
     err "verification failed"
     exit 16
   fi
 }

 # shell_safe_path ensures that |path| is safe to pass to tools as a
 # command-line argument. If the first character in |path| is "-", "./" is
 # prepended to it. The possibly-modified |path| is output.
 shell_safe_path() {
   local path="${1}"
   if [[ "${path:0:1}" = "-" ]]; then
     echo "./${path}"
   else
     echo "${path}"
   fi
 }

 dirs_contained() {
   local dir1="${1}/"
   local dir2="${2}/"

   if [[ "${dir1:0:${#dir2}}" = "${dir2}" ]] ||
      [[ "${dir2:0:${#dir1}}" = "${dir1}" ]]; then
     return 0
   fi

   return 1
 }

 usage() {
   echo "usage: ${ME} old_dir new_dir patch_dir" >& 2
 }

 main() {
   local old_dir new_dir patch_dir
   old_dir="$(shell_safe_path "${1}")"
   new_dir="$(shell_safe_path "${2}")"
   patch_dir="$(shell_safe_path "${3}")"

   trap cleanup EXIT HUP INT QUIT TERM

   if ! [[ -d "${old_dir}" ]] || ! [[ -d "${new_dir}" ]]; then
     err "old_dir and new_dir must exist and be directories"
     usage
     exit 3
   fi

   if [[ -e "${patch_dir}" ]]; then
     err "patch_dir must not exist"
     usage
     exit 4
   fi

   local patch_dir_parent
   patch_dir_parent="$(dirname "${patch_dir}")"
   if ! [[ -d "${patch_dir_parent}" ]]; then
     err "patch_dir parent directory must exist and be a directory"
     usage
     exit 5
   fi

   # The weird conditional structure is because the status of the RE comparison
   # needs to be available in ${?} without conflating it with other conditions
   # or negating it. Only a status of 2 from the =~ operator indicates an
   # invalid regular expression.

   if [[ -n "${DIRDIFFER_EXCLUDE}" ]]; then
     if [[ "" =~ ${DIRDIFFER_EXCLUDE} ]]; then
       true
     elif [[ ${?} -eq 2 ]]; then
       err "DIRDIFFER_EXCLUDE contains an invalid regular expression"
       exit 19
     fi
   fi

   if [[ -n "${DIRDIFFER_NO_DIFF}" ]]; then
     if [[ "" =~ ${DIRDIFFER_NO_DIFF} ]]; then
       true
     elif [[ ${?} -eq 2 ]]; then
       err "DIRDIFFER_NO_DIFF contains an invalid regular expression"
       exit 19
     fi
   fi

   local old_dir_phys new_dir_phys patch_dir_parent_phys patch_dir_phys
   old_dir_phys="$(cd "${old_dir}" && pwd -P)"
   new_dir_phys="$(cd "${new_dir}" && pwd -P)"
   patch_dir_parent_phys="$(cd "${patch_dir_parent}" && pwd -P)"
   patch_dir_phys="${patch_dir_parent_phys}/$(basename "${patch_dir}")"

   if dirs_contained "${old_dir_phys}" "${new_dir_phys}" ||
      dirs_contained "${old_dir_phys}" "${patch_dir_phys}" ||
      dirs_contained "${new_dir_phys}" "${patch_dir_phys}"; then
     err "directories must not contain one another"
     usage
     exit 6
   fi

   g_cleanup[${#g_cleanup[@]}]="${patch_dir}"

   make_patch_dir "${old_dir}" "${new_dir}" "${patch_dir}"

   verify_patch_dir "${old_dir}" "${new_dir}" "${patch_dir}"

   unset g_cleanup[${#g_cleanup[@]}]
   trap - EXIT
 }

 if [[ ${#} -ne 3 ]]; then
   usage
   exit 2
 fi

 main "${@}"
 exit ${?}
	#!/bin/bash -p

	# Copyright (c) 2011 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	# usage: dirdiffer.sh old_dir new_dir patch_dir
	#
	# dirdiffer creates a patch directory patch_dir that represents the difference
	# between old_dir and new_dir. patch_dir can be used with dirpatcher to
	# recreate new_dir given old_dir.
	#
	# dirdiffer operates recursively, properly handling ordinary files, symbolic
	# links, and directories, as they are found in new_dir. Symbolic links and
	# directories are always replicated as-is in patch_dir. Ordinary files will
	# be represented at the appropriate location in patch_dir by one of the
	# following:
	#
	# - a binary diff prepared by goobsdiff that can transform the file at the
	# same position in old_dir to the version in new_dir, but only when such a
	# file already exists in old_dir and is an ordinary file. These files are
	# given a "$gbs" suffix.
	# - a bzip2-compressed copy of the new file from new_dir; in patch_dir, the
	# new file will have a "$bz2" suffix.
	# - a gzip-compressed copy of the new file from new_dir; in patch_dir, the
	# new file will have a "$gz" suffix.
	# - an xz/lzma2-compressed copy of the new file from new_dir; in patch_dir,
	# the new file will have an "$xz" suffix.
	# - an uncompressed copy of the new file from new_dir; in patch_dir, the
	# new file will have a "$raw" suffix.
	#
	# The unconventional suffixes are used because they aren't likely to occur in
	# filenames.
	#
	# Of these options, the smallest possible representation is chosen. Note that
	# goobsdiff itself will also compress various sections of a binary diff with
	# bzip2, gzip, or xz/lzma2, or leave them uncompressed, according to which is
	# smallest. The approach of choosing the smallest possible representation is
	# time-consuming but given the choices of compressors results in an overall
	# size reduction of about 3%-5% relative to using bzip2 as the only
	# compressor; bzip2 is generally more effective for these data sets than gzip,
	# and xz/lzma2 more effective than bzip2.
	#
	# For large input files, goobsdiff is also very time-consuming and
	# memory-intensive. The overall "wall clock time" spent preparing a patch_dir
	# representing the differences between Google Chrome's 6.0.422.0 and 6.0.427.0
	# versioned directories from successive weekly dev channel releases on a
	# 2.53GHz dual-core 4GB MacBook Pro is 3 minutes. Reconstructing new_dir with
	# dirpatcher is much quicker; in the above configuration, only 10 seconds are
	# needed for reconstruction.
	#
	# After creating a full patch_dir structure, but before returning, dirpatcher
	# is invoked to attempt to recreate new_dir in a temporary location given
	# old_dir and patch_dir. The recreated new_dir is then compared against the
	# original new_dir as a verification step. Should verification fail, dirdiffer
	# exits with a nonzero status, and patch_dir should not be used.
	#
	# Environment variables:
	# DIRDIFFER_EXCLUDE
	# When an entry in new_dir matches this regular expression, it will not be
	# included in patch_dir. All prospective paths in new_dir will be matched
	# against this regular expression, including directories. If a directory
	# matches this pattern, dirdiffer will also ignore the directory's contents.
	# DIRDIFFER_NO_DIFF
	# When an entry in new_dir matches this regular expression, it will not be
	# represented in patch_dir by a $gbs file prepared by goobsdiff. It will only
	# appear as a $bz2, $gz, or $raw file. Only files in new_dir, not
	# directories, will be matched against this regular expression.
	#
	# Exit codes:
	# 0 OK
	# 1 Unknown failure
	# 2 Incorrect number of parameters
	# 3 Input directories do not exist or are not directories
	# 4 Output directory already exists
	# 5 Parent of output directory does not exist or is not a directory
	# 6 An input or output directories contains another
	# 7 Could not create output directory
	# 8 File already exists in output directory
	# 9 Found an irregular file (non-directory, file, or symbolic link) in input
	# 10 Could not create symbolic link
	# 11 File copy failed
	# 12 bzip2 compression failed
	# 13 gzip compression failed
	# 14 xz/lzma2 compression failed
	# 15 Patch creation failed
	# 16 Verification failed
	# 17 Could not set mode (permissions)
	# 18 Could not set modification time
	# 19 Invalid regular expression (irregular expression?)

	set -eu

	# Environment sanitization. Set a known-safe PATH. Clear environment variables
	# that might impact the interpreter's operation. The \|bash -p\| invocation
	# on the #! line takes the bite out of BASH_ENV, ENV, and SHELLOPTS (among
	# other features), but clearing them here ensures that they won't impact any
	# shell scripts used as utility programs. SHELLOPTS is read-only and can't be
	# unset, only unexported.
	export PATH="/usr/bin:/bin:/usr/sbin:/sbin"
	unset BASH_ENV CDPATH ENV GLOBIGNORE IFS POSIXLY_CORRECT
	export -n SHELLOPTS

	shopt -s dotglob nullglob

	# find_tool looks for an executable file named \|tool_name\|:
	# - in the same directory as this script,
	# - if this script is located in a Chromium source tree, at the expected
	# Release output location in the Mac out directory,
	# - as above, but in the Debug output location
	# If found in any of the above locations, the script's path is output.
	# Otherwise, this function outputs \|tool_name\| as a fallback, allowing it to
	# be found (or not) by an ordinary ${PATH} search.
	find_tool() {
	local tool_name="${1}"

	local script_dir
	script_dir="$(dirname "${0}")"

	local tool="${script_dir}/${tool_name}"
	if [[ -f "${tool}" ]] && [[ -x "${tool}" ]]; then
	echo "${tool}"
	return
	fi

	local script_dir_phys
	script_dir_phys="$(cd "${script_dir}" && pwd -P)"
	if [[ "${script_dir_phys}" =~ ^(.*)/src/chrome/installer/mac$ ]]; then
	tool="${BASH_REMATCH[1]}/src/out/Release/${tool_name}"
	if [[ -f "${tool}" ]] && [[ -x "${tool}" ]]; then
	echo "${tool}"
	return
	fi

	tool="${BASH_REMATCH[1]}/src/out/Debug/${tool_name}"
	if [[ -f "${tool}" ]] && [[ -x "${tool}" ]]; then
	echo "${tool}"
	return
	fi
	fi

	echo "${tool_name}"
	}

	ME="$(basename "${0}")"
	readonly ME
	DIRPATCHER="$(dirname "${0}")/dirpatcher.sh"
	readonly DIRPATCHER
	GOOBSDIFF="$(find_tool goobsdiff)"
	readonly GOOBSDIFF
	readonly BZIP2="bzip2"
	readonly GZIP="gzip"
	XZ="$(find_tool xz)"
	readonly XZ
	readonly GBS_SUFFIX='$gbs'
	readonly BZ2_SUFFIX='$bz2'
	readonly GZ_SUFFIX='$gz'
	readonly XZ_SUFFIX='$xz'
	readonly PLAIN_SUFFIX='$raw'

	# Workaround for http://code.google.com/p/chromium/issues/detail?id=83180#c3
	# In bash 4.0, "declare VAR" no longer initializes VAR if not already set.
	: ${DIRDIFFER_EXCLUDE:=}
	: ${DIRDIFFER_NO_DIFF:=}

	err() {
	local error="${1}"

	echo "${ME}: ${error}" >& 2
	}

	declare -a g_cleanup g_verify_exclude
	cleanup() {
	local status=${?}

	trap - EXIT
	trap '' HUP INT QUIT TERM

	if [[ ${status} -ge 128 ]]; then
	err "Caught signal $((${status} - 128))"
	fi

	if [[ "${#g_cleanup[@]}" -gt 0 ]]; then
	rm -rf "${g_cleanup[@]}"
	fi

	exit ${status}
	}

	copy_mode_and_time() {
	local new_file="${1}"
	local patch_file="${2}"

	local mode
	mode="$(stat "-f%OMp%OLp" "${new_file}")"
	if ! chmod -h "${mode}" "${patch_file}"; then
	exit 17
	fi

	if ! [[ -L "${patch_file}" ]]; then
	# Symbolic link modification times can't be copied because there's no
	# shell tool that provides direct access to lutimes. Instead, the symbolic
	# link was created with rsync, which already copied the timestamp with
	# lutimes.
	if ! touch -r "${new_file}" "${patch_file}"; then
	exit 18
	fi
	fi
	}

	file_size() {
	local file="${1}"

	stat -f %z "${file}"
	}

	make_patch_file() {
	local old_file="${1}"
	local new_file="${2}"
	local patch_file="${3}"

	local uncompressed_file="${patch_file}${PLAIN_SUFFIX}"
	if ! cp "${new_file}" "${uncompressed_file}"; then
	exit 11
	fi
	local uncompressed_size
	uncompressed_size="$(file_size "${new_file}")"

	local keep_file="${uncompressed_file}"
	local keep_size="${uncompressed_size}"

	local bz2_file="${patch_file}${BZ2_SUFFIX}"
	if [[ -e "${bz2_file}" ]]; then
	err "${bz2_file} already exists"
	exit 8
	fi
	if ! "${BZIP2}" -9c < "${new_file}" > "${bz2_file}"; then
	err "couldn't compress ${new_file} to ${bz2_file} with ${BZIP2}"
	exit 12
	fi
	local bz2_size
	bz2_size="$(file_size "${bz2_file}")"

	if [[ "${bz2_size}" -ge "${keep_size}" ]]; then
	rm -f "${bz2_file}"
	else
	rm -f "${keep_file}"
	keep_file="${bz2_file}"
	keep_size="${bz2_size}"
	fi

	local gz_file="${patch_file}${GZ_SUFFIX}"
	if [[ -e "${gz_file}" ]]; then
	err "${gz_file} already exists"
	exit 8
	fi
	if ! "${GZIP}" -9cn < "${new_file}" > "${gz_file}"; then
	err "couldn't compress ${new_file} to ${gz_file} with ${GZIP}"
	exit 13
	fi
	local gz_size
	gz_size="$(file_size "${gz_file}")"

	if [[ "${gz_size}" -ge "${keep_size}" ]]; then
	rm -f "${gz_file}"
	else
	rm -f "${keep_file}"
	keep_file="${gz_file}"
	keep_size="${gz_size}"
	fi

	local xz_flags=("-c")

	# If the file looks like a Mach-O file, including a universal/fat file, add
	# the x86 BCJ filter, which results in slightly better compression of x86
	# and x86_64 executables. Mach-O files might contain other architectures,
	# but they aren't currently expected in Chrome.
	local file_output
	file_output="$(file "${new_file}" 2> /dev/null \|\| true)"
	if [[ "${file_output}" =~ Mach-O ]]; then
	xz_flags+=("--x86")
	fi

	# Use an lzma2 encoder. This is equivalent to xz -9 -e, but allows filters
	# to precede the compressor.
	xz_flags+=("--lzma2=preset=9e")

	local xz_file="${patch_file}${XZ_SUFFIX}"
	if [[ -e "${xz_file}" ]]; then
	err "${xz_file} already exists"
	exit 8
	fi
	if ! "${XZ}" "${xz_flags[@]}" < "${new_file}" > "${xz_file}"; then
	err "couldn't compress ${new_file} to ${xz_file} with ${XZ}"
	exit 14
	fi
	local xz_size
	xz_size="$(file_size "${xz_file}")"

	if [[ "${xz_size}" -ge "${keep_size}" ]]; then
	rm -f "${xz_file}"
	else
	rm -f "${keep_file}"
	keep_file="${xz_file}"
	keep_size="${xz_size}"
	fi

	if [[ -f "${old_file}" ]] && ! [[ -L "${old_file}" ]] &&
	! [[ "${new_file}" =~ ${DIRDIFFER_NO_DIFF} ]]; then
	local gbs_file="${patch_file}${GBS_SUFFIX}"
	if [[ -e "${gbs_file}" ]]; then
	err "${gbs_file} already exists"
	exit 8
	fi
	if ! "${GOOBSDIFF}" "${old_file}" "${new_file}" "${gbs_file}"; then
	err "couldn't create ${gbs_file} by comparing ${old_file} to ${new_file}"
	exit 15
	fi
	local gbs_size
	gbs_size="$(file_size "${gbs_file}")"

	if [[ "${gbs_size}" -ge "${keep_size}" ]]; then
	rm -f "${gbs_file}"
	else
	rm -f "${keep_file}"
	keep_file="${gbs_file}"
	keep_size="${gbs_size}"
	fi
	fi

	copy_mode_and_time "${new_file}" "${keep_file}"
	}

	make_patch_symlink() {
	local new_file="${1}"
	local patch_file="${2}"

	# local target
	# target="$(readlink "${new_file}")"
	# ln -s "${target}" "${patch_file}"

	# Use rsync instead of the above, as it's the only way to preserve the
	# timestamp of a symbolic link using shell tools.
	if ! rsync -lt "${new_file}" "${patch_file}"; then
	exit 10
	fi

	copy_mode_and_time "${new_file}" "${patch_file}"
	}

	make_patch_dir() {
	local old_dir="${1}"
	local new_dir="${2}"
	local patch_dir="${3}"

	if ! mkdir "${patch_dir}"; then
	exit 7
	fi

	local new_file
	for new_file in "${new_dir}/"*; do
	local file="${new_file:${#new_dir} + 1}"
	local old_file="${old_dir}/${file}"
	local patch_file="${patch_dir}/${file}"

	if [[ "${new_file}" =~ ${DIRDIFFER_EXCLUDE} ]]; then
	g_verify_exclude+=("${new_file}")
	continue
	fi

	if [[ -e "${patch_file}" ]]; then
	err "${patch_file} already exists"
	exit 8
	fi

	if [[ -L "${new_file}" ]]; then
	make_patch_symlink "${new_file}" "${patch_file}"
	elif [[ -d "${new_file}" ]]; then
	make_patch_dir "${old_file}" "${new_file}" "${patch_file}"
	elif [[ ! -f "${new_file}" ]]; then
	err "can't handle irregular file ${new_file}"
	exit 9
	else
	make_patch_file "${old_file}" "${new_file}" "${patch_file}"
	fi
	done

	copy_mode_and_time "${new_dir}" "${patch_dir}"
	}

	verify_patch_dir() {
	local old_dir="${1}"
	local new_dir="${2}"
	local patch_dir="${3}"

	local verify_temp_dir verify_dir
	verify_temp_dir="$(mktemp -d -t "${ME}")"
	g_cleanup+=("${verify_temp_dir}")
	verify_dir="${verify_temp_dir}/patched"

	if ! "${DIRPATCHER}" "${old_dir}" "${patch_dir}" "${verify_dir}"; then
	err "patch application for verification failed"
	exit 16
	fi

	# rsync will print a line for any file, directory, or symbolic link that
	# differs or exists only in one directory. As used here, it correctly
	# considers link targets, file contents, permissions, and timestamps.
	local rsync_command=(rsync -clprt --delete --out-format=%n \
	"${new_dir}/" "${verify_dir}")
	if [[ ${#g_verify_exclude[@]} -gt 0 ]]; then
	local exclude
	for exclude in "${g_verify_exclude[@]}"; do
	# ${g_verify_exclude[@]} contains paths in ${new_dir}. Strip off
	# ${new_dir} from the beginning of each, but leave a leading "/" so that
	# rsync treats them as being at the root of the "transfer."
	rsync_command+=("--exclude" "${exclude:${#new_dir}}")
	done
	fi

	local rsync_output
	if ! rsync_output="$("${rsync_command[@]}")"; then
	err "rsync for verification failed"
	exit 16
	fi

	rm -rf "${verify_temp_dir}"
	unset g_cleanup[${#g_cleanup[@]}]

	if [[ -n "${rsync_output}" ]]; then
	err "verification failed"
	exit 16
	fi
	}

	# shell_safe_path ensures that \|path\| is safe to pass to tools as a
	# command-line argument. If the first character in \|path\| is "-", "./" is
	# prepended to it. The possibly-modified \|path\| is output.
	shell_safe_path() {
	local path="${1}"
	if [[ "${path:0:1}" = "-" ]]; then
	echo "./${path}"
	else
	echo "${path}"
	fi
	}

	dirs_contained() {
	local dir1="${1}/"
	local dir2="${2}/"

	if [[ "${dir1:0:${#dir2}}" = "${dir2}" ]] \|\|
	[[ "${dir2:0:${#dir1}}" = "${dir1}" ]]; then
	return 0
	fi

	return 1
	}

	usage() {
	echo "usage: ${ME} old_dir new_dir patch_dir" >& 2
	}

	main() {
	local old_dir new_dir patch_dir
	old_dir="$(shell_safe_path "${1}")"
	new_dir="$(shell_safe_path "${2}")"
	patch_dir="$(shell_safe_path "${3}")"

	trap cleanup EXIT HUP INT QUIT TERM

	if ! [[ -d "${old_dir}" ]] \|\| ! [[ -d "${new_dir}" ]]; then
	err "old_dir and new_dir must exist and be directories"
	usage
	exit 3
	fi

	if [[ -e "${patch_dir}" ]]; then
	err "patch_dir must not exist"
	usage
	exit 4
	fi

	local patch_dir_parent
	patch_dir_parent="$(dirname "${patch_dir}")"
	if ! [[ -d "${patch_dir_parent}" ]]; then
	err "patch_dir parent directory must exist and be a directory"
	usage
	exit 5
	fi

	# The weird conditional structure is because the status of the RE comparison
	# needs to be available in ${?} without conflating it with other conditions
	# or negating it. Only a status of 2 from the =~ operator indicates an
	# invalid regular expression.

	if [[ -n "${DIRDIFFER_EXCLUDE}" ]]; then
	if [[ "" =~ ${DIRDIFFER_EXCLUDE} ]]; then
	true
	elif [[ ${?} -eq 2 ]]; then
	err "DIRDIFFER_EXCLUDE contains an invalid regular expression"
	exit 19
	fi
	fi

	if [[ -n "${DIRDIFFER_NO_DIFF}" ]]; then
	if [[ "" =~ ${DIRDIFFER_NO_DIFF} ]]; then
	true
	elif [[ ${?} -eq 2 ]]; then
	err "DIRDIFFER_NO_DIFF contains an invalid regular expression"
	exit 19
	fi
	fi

	local old_dir_phys new_dir_phys patch_dir_parent_phys patch_dir_phys
	old_dir_phys="$(cd "${old_dir}" && pwd -P)"
	new_dir_phys="$(cd "${new_dir}" && pwd -P)"
	patch_dir_parent_phys="$(cd "${patch_dir_parent}" && pwd -P)"
	patch_dir_phys="${patch_dir_parent_phys}/$(basename "${patch_dir}")"

	if dirs_contained "${old_dir_phys}" "${new_dir_phys}" \|\|
	dirs_contained "${old_dir_phys}" "${patch_dir_phys}" \|\|
	dirs_contained "${new_dir_phys}" "${patch_dir_phys}"; then
	err "directories must not contain one another"
	usage
	exit 6
	fi

	g_cleanup[${#g_cleanup[@]}]="${patch_dir}"

	make_patch_dir "${old_dir}" "${new_dir}" "${patch_dir}"

	verify_patch_dir "${old_dir}" "${new_dir}" "${patch_dir}"

	unset g_cleanup[${#g_cleanup[@]}]
	trap - EXIT
	}

	if [[ ${#} -ne 3 ]]; then
	usage
	exit 2
	fi

	main "${@}"
	exit ${?}