boringssl/util/generate_build_files.py

# coding=utf8

# Copyright (c) 2015, Google Inc.
#
# Permission to use, copy, modify, and/or distribute this software for any
# purpose with or without fee is hereby granted, provided that the above
# copyright notice and this permission notice appear in all copies.
#
# THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
# WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
# MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
# SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
# WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
# OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
# CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.

"""Enumerates source files for consumption by various build systems."""

import optparse
import os
import subprocess
import sys
import json


# OS_ARCH_COMBOS maps from OS and platform to the OpenSSL assembly "style" for
# that platform and the extension used by asm files.
OS_ARCH_COMBOS = [
    ('apple', 'arm', 'ios32', [], 'S'),
    ('apple', 'aarch64', 'ios64', [], 'S'),
    ('apple', 'x86', 'macosx', ['-fPIC', '-DOPENSSL_IA32_SSE2'], 'S'),
    ('apple', 'x86_64', 'macosx', [], 'S'),
    ('linux', 'arm', 'linux32', [], 'S'),
    ('linux', 'aarch64', 'linux64', [], 'S'),
    ('linux', 'ppc64le', 'linux64le', [], 'S'),
    ('linux', 'x86', 'elf', ['-fPIC', '-DOPENSSL_IA32_SSE2'], 'S'),
    ('linux', 'x86_64', 'elf', [], 'S'),
    ('win', 'x86', 'win32n', ['-DOPENSSL_IA32_SSE2'], 'asm'),
    ('win', 'x86_64', 'nasm', [], 'asm'),
    ('win', 'aarch64', 'win64', [], 'S'),
]

# NON_PERL_FILES enumerates assembly files that are not processed by the
# perlasm system.
NON_PERL_FILES = {
    ('linux', 'arm'): [
        'src/crypto/curve25519/asm/x25519-asm-arm.S',
        'src/crypto/poly1305/poly1305_arm_asm.S',
    ],
}

PREFIX = None
EMBED_TEST_DATA = True


def PathOf(x):
  return x if not PREFIX else os.path.join(PREFIX, x)


LICENSE_TEMPLATE = """Copyright (c) 2015, Google Inc.

Permission to use, copy, modify, and/or distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.

THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.""".split("\n")

def LicenseHeader(comment):
  lines = []
  for line in LICENSE_TEMPLATE:
    if not line:
      lines.append(comment)
    else:
      lines.append("%s %s" % (comment, line))
  lines.append("")
  return "\n".join(lines)


class Android(object):

  def __init__(self):
    self.header = LicenseHeader("#") + """
# This file is created by generate_build_files.py. Do not edit manually.
"""

  def PrintVariableSection(self, out, name, files):
    out.write('%s := \\\n' % name)
    for f in sorted(files):
      out.write('  %s\\\n' % f)
    out.write('\n')

  def WriteFiles(self, files, asm_outputs):
    # New Android.bp format
    with open('sources.bp', 'w+') as blueprint:
      blueprint.write(self.header.replace('#', '//'))

      #  Separate out BCM files to allow different compilation rules (specific to Android FIPS)
      bcm_c_files = files['bcm_crypto']
      non_bcm_c_files = [file for file in files['crypto'] if file not in bcm_c_files]
      non_bcm_asm = self.FilterBcmAsm(asm_outputs, False)
      bcm_asm = self.FilterBcmAsm(asm_outputs, True)

      self.PrintDefaults(blueprint, 'libcrypto_sources', non_bcm_c_files, non_bcm_asm)
      self.PrintDefaults(blueprint, 'libcrypto_bcm_sources', bcm_c_files, bcm_asm)
      self.PrintDefaults(blueprint, 'libssl_sources', files['ssl'])
      self.PrintDefaults(blueprint, 'bssl_sources', files['tool'])
      self.PrintDefaults(blueprint, 'boringssl_test_support_sources', files['test_support'])
      self.PrintDefaults(blueprint, 'boringssl_crypto_test_sources', files['crypto_test'])
      self.PrintDefaults(blueprint, 'boringssl_ssl_test_sources', files['ssl_test'])

    # Legacy Android.mk format, only used by Trusty in new branches
    with open('sources.mk', 'w+') as makefile:
      makefile.write(self.header)
      makefile.write('\n')
      self.PrintVariableSection(makefile, 'crypto_sources', files['crypto'])

      for ((osname, arch), asm_files) in asm_outputs:
        if osname != 'linux':
          continue
        self.PrintVariableSection(
            makefile, '%s_%s_sources' % (osname, arch), asm_files)

  def PrintDefaults(self, blueprint, name, files, asm_outputs={}):
    """Print a cc_defaults section from a list of C files and optionally assembly outputs"""
    blueprint.write('\n')
    blueprint.write('cc_defaults {\n')
    blueprint.write('    name: "%s",\n' % name)
    blueprint.write('    srcs: [\n')
    for f in sorted(files):
      blueprint.write('        "%s",\n' % f)
    blueprint.write('    ],\n')

    if asm_outputs:
      blueprint.write('    target: {\n')
      for ((osname, arch), asm_files) in asm_outputs:
        if osname != 'linux' or arch == 'ppc64le':
          continue
        if arch == 'aarch64':
          arch = 'arm64'

        blueprint.write('        linux_%s: {\n' % arch)
        blueprint.write('            srcs: [\n')
        for f in sorted(asm_files):
          blueprint.write('                "%s",\n' % f)
        blueprint.write('            ],\n')
        blueprint.write('        },\n')
      blueprint.write('    },\n')

    blueprint.write('}\n')

  def FilterBcmAsm(self, asm, want_bcm):
    """Filter a list of assembly outputs based on whether they belong in BCM

    Args:
      asm: Assembly file lists to filter
      want_bcm: If true then include BCM files, otherwise do not

    Returns:
      A copy of |asm| with files filtered according to |want_bcm|
    """
    return [(archinfo, filter(lambda p: ("/crypto/fipsmodule/" in p) == want_bcm, files))
            for (archinfo, files) in asm]


class AndroidCMake(object):

  def __init__(self):
    self.header = LicenseHeader("#") + """
# This file is created by generate_build_files.py. Do not edit manually.
# To specify a custom path prefix, set BORINGSSL_ROOT before including this
# file, or use list(TRANSFORM ... PREPEND) from CMake 3.12.

"""

  def PrintVariableSection(self, out, name, files):
    out.write('set(%s\n' % name)
    for f in sorted(files):
      # Ideally adding the prefix would be the caller's job, but
      # list(TRANSFORM ... PREPEND) is only available starting CMake 3.12. When
      # sources.cmake is the source of truth, we can ask Android to either write
      # a CMake function or update to 3.12.
      out.write('  ${BORINGSSL_ROOT}%s\n' % f)
    out.write(')\n')

  def WriteFiles(self, files, asm_outputs):
    # The Android emulator uses a custom CMake buildsystem.
    #
    # TODO(davidben): Move our various source lists into sources.cmake and have
    # Android consume that directly.
    with open('android-sources.cmake', 'w+') as out:
      out.write(self.header)

      self.PrintVariableSection(out, 'crypto_sources', files['crypto'])
      self.PrintVariableSection(out, 'ssl_sources', files['ssl'])
      self.PrintVariableSection(out, 'tool_sources', files['tool'])
      self.PrintVariableSection(out, 'test_support_sources',
                                files['test_support'])
      self.PrintVariableSection(out, 'crypto_test_sources',
                                files['crypto_test'])
      self.PrintVariableSection(out, 'ssl_test_sources', files['ssl_test'])

      for ((osname, arch), asm_files) in asm_outputs:
        self.PrintVariableSection(
            out, 'crypto_sources_%s_%s' % (osname, arch), asm_files)


class Bazel(object):
  """Bazel outputs files suitable for including in Bazel files."""

  def __init__(self):
    self.firstSection = True
    self.header = \
"""# This file is created by generate_build_files.py. Do not edit manually.

"""

  def PrintVariableSection(self, out, name, files):
    if not self.firstSection:
      out.write('\n')
    self.firstSection = False

    out.write('%s = [\n' % name)
    for f in sorted(files):
      out.write('    "%s",\n' % PathOf(f))
    out.write(']\n')

  def WriteFiles(self, files, asm_outputs):
    with open('BUILD.generated.bzl', 'w+') as out:
      out.write(self.header)

      self.PrintVariableSection(out, 'ssl_headers', files['ssl_headers'])
      self.PrintVariableSection(out, 'fips_fragments', files['fips_fragments'])
      self.PrintVariableSection(
          out, 'ssl_internal_headers', files['ssl_internal_headers'])
      self.PrintVariableSection(out, 'ssl_sources', files['ssl'])
      self.PrintVariableSection(out, 'crypto_headers', files['crypto_headers'])
      self.PrintVariableSection(
          out, 'crypto_internal_headers', files['crypto_internal_headers'])
      self.PrintVariableSection(out, 'crypto_sources', files['crypto'])
      self.PrintVariableSection(out, 'tool_sources', files['tool'])
      self.PrintVariableSection(out, 'tool_headers', files['tool_headers'])

      for ((osname, arch), asm_files) in asm_outputs:
        self.PrintVariableSection(
            out, 'crypto_sources_%s_%s' % (osname, arch), asm_files)

    with open('BUILD.generated_tests.bzl', 'w+') as out:
      out.write(self.header)

      out.write('test_support_sources = [\n')
      for filename in sorted(files['test_support'] +
                             files['test_support_headers'] +
                             files['crypto_internal_headers'] +
                             files['ssl_internal_headers']):
        if os.path.basename(filename) == 'malloc.cc':
          continue
        out.write('    "%s",\n' % PathOf(filename))

      out.write(']\n')

      self.PrintVariableSection(out, 'crypto_test_sources',
                                files['crypto_test'])
      self.PrintVariableSection(out, 'ssl_test_sources', files['ssl_test'])
      self.PrintVariableSection(out, 'crypto_test_data',
                                files['crypto_test_data'])
      self.PrintVariableSection(out, 'urandom_test_sources',
                                files['urandom_test'])


class Eureka(object):

  def __init__(self):
    self.header = LicenseHeader("#") + """
# This file is created by generate_build_files.py. Do not edit manually.

"""

  def PrintVariableSection(self, out, name, files):
    out.write('%s := \\\n' % name)
    for f in sorted(files):
      out.write('  %s\\\n' % f)
    out.write('\n')

  def WriteFiles(self, files, asm_outputs):
    # Legacy Android.mk format
    with open('eureka.mk', 'w+') as makefile:
      makefile.write(self.header)

      self.PrintVariableSection(makefile, 'crypto_sources', files['crypto'])
      self.PrintVariableSection(makefile, 'ssl_sources', files['ssl'])
      self.PrintVariableSection(makefile, 'tool_sources', files['tool'])

      for ((osname, arch), asm_files) in asm_outputs:
        if osname != 'linux':
          continue
        self.PrintVariableSection(
            makefile, '%s_%s_sources' % (osname, arch), asm_files)


class GN(object):

  def __init__(self):
    self.firstSection = True
    self.header = LicenseHeader("#") + """
# This file is created by generate_build_files.py. Do not edit manually.

"""

  def PrintVariableSection(self, out, name, files):
    if not self.firstSection:
      out.write('\n')
    self.firstSection = False

    out.write('%s = [\n' % name)
    for f in sorted(files):
      out.write('  "%s",\n' % f)
    out.write(']\n')

  def WriteFiles(self, files, asm_outputs):
    with open('BUILD.generated.gni', 'w+') as out:
      out.write(self.header)

      self.PrintVariableSection(out, 'crypto_sources',
                                files['crypto'] +
                                files['crypto_internal_headers'])
      self.PrintVariableSection(out, 'crypto_headers',
                                files['crypto_headers'])
      self.PrintVariableSection(out, 'ssl_sources',
                                files['ssl'] + files['ssl_internal_headers'])
      self.PrintVariableSection(out, 'ssl_headers', files['ssl_headers'])
      self.PrintVariableSection(out, 'tool_sources',
                                files['tool'] + files['tool_headers'])

      for ((osname, arch), asm_files) in asm_outputs:
        self.PrintVariableSection(
            out, 'crypto_sources_%s_%s' % (osname, arch), asm_files)

      fuzzers = [os.path.splitext(os.path.basename(fuzzer))[0]
                 for fuzzer in files['fuzz']]
      self.PrintVariableSection(out, 'fuzzers', fuzzers)

    with open('BUILD.generated_tests.gni', 'w+') as out:
      self.firstSection = True
      out.write(self.header)

      self.PrintVariableSection(out, 'test_support_sources',
                                files['test_support'] +
                                files['test_support_headers'])
      self.PrintVariableSection(out, 'crypto_test_sources',
                                files['crypto_test'])
      self.PrintVariableSection(out, 'crypto_test_data',
                                files['crypto_test_data'])
      self.PrintVariableSection(out, 'ssl_test_sources', files['ssl_test'])


class GYP(object):

  def __init__(self):
    self.header = LicenseHeader("#") + """
# This file is created by generate_build_files.py. Do not edit manually.

"""

  def PrintVariableSection(self, out, name, files):
    out.write('    \'%s\': [\n' % name)
    for f in sorted(files):
      out.write('      \'%s\',\n' % f)
    out.write('    ],\n')

  def WriteFiles(self, files, asm_outputs):
    with open('boringssl.gypi', 'w+') as gypi:
      gypi.write(self.header + '{\n  \'variables\': {\n')

      self.PrintVariableSection(gypi, 'boringssl_ssl_sources',
                                files['ssl'] + files['ssl_headers'] +
                                files['ssl_internal_headers'])
      self.PrintVariableSection(gypi, 'boringssl_crypto_sources',
                                files['crypto'] + files['crypto_headers'] +
                                files['crypto_internal_headers'])

      for ((osname, arch), asm_files) in asm_outputs:
        self.PrintVariableSection(gypi, 'boringssl_%s_%s_sources' %
                                  (osname, arch), asm_files)

      gypi.write('  }\n}\n')

class CMake(object):

  def __init__(self):
    self.header = LicenseHeader("#") + R'''
# This file is created by generate_build_files.py. Do not edit manually.

cmake_minimum_required(VERSION 3.5)

project(BoringSSL LANGUAGES C CXX)

if(CMAKE_CXX_COMPILER_ID MATCHES "Clang")
  set(CLANG 1)
endif()

if(CMAKE_COMPILER_IS_GNUCXX OR CLANG)
  set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -std=c++14 -fvisibility=hidden -fno-common -fno-exceptions -fno-rtti")
  set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -fvisibility=hidden -fno-common -std=c11")
endif()

# pthread_rwlock_t requires a feature flag.
if(NOT WIN32)
  set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -D_XOPEN_SOURCE=700")
endif()

if(WIN32)
  add_definitions(-D_HAS_EXCEPTIONS=0)
  add_definitions(-DWIN32_LEAN_AND_MEAN)
  add_definitions(-DNOMINMAX)
  # Allow use of fopen.
  add_definitions(-D_CRT_SECURE_NO_WARNINGS)
  # VS 2017 and higher supports STL-only warning suppressions.
  # A bug in CMake < 3.13.0 may cause the space in this value to
  # cause issues when building with NASM. In that case, update CMake.
  add_definitions("-D_STL_EXTRA_DISABLED_WARNINGS=4774 4987")
endif()

add_definitions(-DBORINGSSL_IMPLEMENTATION)

# CMake's iOS support uses Apple's multiple-architecture toolchain. It takes an
# architecture list from CMAKE_OSX_ARCHITECTURES, leaves CMAKE_SYSTEM_PROCESSOR
# alone, and expects all architecture-specific logic to be conditioned within
# the source files rather than the build. This does not work for our assembly
# files, so we fix CMAKE_SYSTEM_PROCESSOR and only support single-architecture
# builds.
if(NOT OPENSSL_NO_ASM AND CMAKE_OSX_ARCHITECTURES)
  list(LENGTH CMAKE_OSX_ARCHITECTURES NUM_ARCHES)
  if(NOT NUM_ARCHES EQUAL 1)
    message(FATAL_ERROR "Universal binaries not supported.")
  endif()
  list(GET CMAKE_OSX_ARCHITECTURES 0 CMAKE_SYSTEM_PROCESSOR)
endif()

if(OPENSSL_NO_ASM)
  add_definitions(-DOPENSSL_NO_ASM)
  set(ARCH "generic")
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "x86_64")
  set(ARCH "x86_64")
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "amd64")
  set(ARCH "x86_64")
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "AMD64")
  # cmake reports AMD64 on Windows, but we might be building for 32-bit.
  if(CMAKE_SIZEOF_VOID_P EQUAL 8)
    set(ARCH "x86_64")
  else()
    set(ARCH "x86")
  endif()
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "x86")
  set(ARCH "x86")
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "i386")
  set(ARCH "x86")
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "i686")
  set(ARCH "x86")
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "aarch64")
  set(ARCH "aarch64")
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "arm64")
  set(ARCH "aarch64")
# Apple A12 Bionic chipset which is added in iPhone XS/XS Max/XR uses arm64e architecture.
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "arm64e")
  set(ARCH "aarch64")
elseif(CMAKE_SYSTEM_PROCESSOR MATCHES "^arm*")
  set(ARCH "arm")
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "mips")
  # Just to avoid the “unknown processor” error.
  set(ARCH "generic")
elseif(CMAKE_SYSTEM_PROCESSOR STREQUAL "ppc64le")
  set(ARCH "ppc64le")
else()
  message(FATAL_ERROR "Unknown processor:" ${CMAKE_SYSTEM_PROCESSOR})
endif()

if(NOT OPENSSL_NO_ASM)
  if(UNIX)
    enable_language(ASM)

    # Clang's integerated assembler does not support debug symbols.
    if(NOT CMAKE_ASM_COMPILER_ID MATCHES "Clang")
      set(CMAKE_ASM_FLAGS "${CMAKE_ASM_FLAGS} -Wa,-g")
    endif()

    # CMake does not add -isysroot and -arch flags to assembly.
    if(APPLE)
      if(CMAKE_OSX_SYSROOT)
        set(CMAKE_ASM_FLAGS "${CMAKE_ASM_FLAGS} -isysroot \"${CMAKE_OSX_SYSROOT}\"")
      endif()
      foreach(arch ${CMAKE_OSX_ARCHITECTURES})
        set(CMAKE_ASM_FLAGS "${CMAKE_ASM_FLAGS} -arch ${arch}")
      endforeach()
    endif()
  else()
    set(CMAKE_ASM_NASM_FLAGS "${CMAKE_ASM_NASM_FLAGS} -gcv8")
    enable_language(ASM_NASM)
  endif()
endif()

if(BUILD_SHARED_LIBS)
  add_definitions(-DBORINGSSL_SHARED_LIBRARY)
  # Enable position-independent code globally. This is needed because
  # some library targets are OBJECT libraries.
  set(CMAKE_POSITION_INDEPENDENT_CODE TRUE)
endif()

include_directories(src/include)

'''

  def PrintLibrary(self, out, name, files):
    out.write('add_library(\n')
    out.write('  %s\n\n' % name)

    for f in sorted(files):
      out.write('  %s\n' % PathOf(f))

    out.write(')\n\n')

  def PrintExe(self, out, name, files, libs):
    out.write('add_executable(\n')
    out.write('  %s\n\n' % name)

    for f in sorted(files):
      out.write('  %s\n' % PathOf(f))

    out.write(')\n\n')
    out.write('target_link_libraries(%s %s)\n\n' % (name, ' '.join(libs)))

  def PrintSection(self, out, name, files):
    out.write('set(\n')
    out.write('  %s\n\n' % name)
    for f in sorted(files):
      out.write('  %s\n' % PathOf(f))
    out.write(')\n\n')

  def WriteFiles(self, files, asm_outputs):
    with open('CMakeLists.txt', 'w+') as cmake:
      cmake.write(self.header)

      for ((osname, arch), asm_files) in asm_outputs:
        self.PrintSection(cmake, 'CRYPTO_%s_%s_SOURCES' % (osname, arch),
            asm_files)

      cmake.write(
R'''if(APPLE)
  set(CRYPTO_ARCH_SOURCES ${CRYPTO_apple_${ARCH}_SOURCES})
elseif(UNIX)
  set(CRYPTO_ARCH_SOURCES ${CRYPTO_linux_${ARCH}_SOURCES})
elseif(WIN32)
  set(CRYPTO_ARCH_SOURCES ${CRYPTO_win_${ARCH}_SOURCES})
endif()

''')

      self.PrintLibrary(cmake, 'crypto',
          files['crypto'] + ['${CRYPTO_ARCH_SOURCES}'])
      self.PrintLibrary(cmake, 'ssl', files['ssl'])
      self.PrintExe(cmake, 'bssl', files['tool'], ['ssl', 'crypto'])

      cmake.write(
R'''if(NOT WIN32 AND NOT ANDROID)
  target_link_libraries(crypto pthread)
endif()

if(WIN32)
  target_link_libraries(bssl ws2_32)
endif()

''')

class JSON(object):
  def WriteFiles(self, files, asm_outputs):
    sources = dict(files)
    for ((osname, arch), asm_files) in asm_outputs:
      sources['crypto_%s_%s' % (osname, arch)] = asm_files
    with open('sources.json', 'w+') as f:
      json.dump(sources, f, sort_keys=True, indent=2)

def FindCMakeFiles(directory):
  """Returns list of all CMakeLists.txt files recursively in directory."""
  cmakefiles = []

  for (path, _, filenames) in os.walk(directory):
    for filename in filenames:
      if filename == 'CMakeLists.txt':
        cmakefiles.append(os.path.join(path, filename))

  return cmakefiles

def OnlyFIPSFragments(path, dent, is_dir):
  return is_dir or (path.startswith(
      os.path.join('src', 'crypto', 'fipsmodule', '')) and
      NoTests(path, dent, is_dir))

def NoTestsNorFIPSFragments(path, dent, is_dir):
  return (NoTests(path, dent, is_dir) and
      (is_dir or not OnlyFIPSFragments(path, dent, is_dir)))

def NoTests(path, dent, is_dir):
  """Filter function that can be passed to FindCFiles in order to remove test
  sources."""
  if is_dir:
    return dent != 'test'
  return 'test.' not in dent


def OnlyTests(path, dent, is_dir):
  """Filter function that can be passed to FindCFiles in order to remove
  non-test sources."""
  if is_dir:
    return dent != 'test'
  return '_test.' in dent


def AllFiles(path, dent, is_dir):
  """Filter function that can be passed to FindCFiles in order to include all
  sources."""
  return True


def NoTestRunnerFiles(path, dent, is_dir):
  """Filter function that can be passed to FindCFiles or FindHeaderFiles in
  order to exclude test runner files."""
  # NOTE(martinkr): This prevents .h/.cc files in src/ssl/test/runner, which
  # are in their own subpackage, from being included in boringssl/BUILD files.
  return not is_dir or dent != 'runner'


def NotGTestSupport(path, dent, is_dir):
  return 'gtest' not in dent and 'abi_test' not in dent


def SSLHeaderFiles(path, dent, is_dir):
  return dent in ['ssl.h', 'tls1.h', 'ssl23.h', 'ssl3.h', 'dtls1.h', 'srtp.h']


def FindCFiles(directory, filter_func):
  """Recurses through directory and returns a list of paths to all the C source
  files that pass filter_func."""
  cfiles = []

  for (path, dirnames, filenames) in os.walk(directory):
    for filename in filenames:
      if not filename.endswith('.c') and not filename.endswith('.cc'):
        continue
      if not filter_func(path, filename, False):
        continue
      cfiles.append(os.path.join(path, filename))

    for (i, dirname) in enumerate(dirnames):
      if not filter_func(path, dirname, True):
        del dirnames[i]

  cfiles.sort()
  return cfiles


def FindHeaderFiles(directory, filter_func):
  """Recurses through directory and returns a list of paths to all the header files that pass filter_func."""
  hfiles = []

  for (path, dirnames, filenames) in os.walk(directory):
    for filename in filenames:
      if not filename.endswith('.h'):
        continue
      if not filter_func(path, filename, False):
        continue
      hfiles.append(os.path.join(path, filename))

      for (i, dirname) in enumerate(dirnames):
        if not filter_func(path, dirname, True):
          del dirnames[i]

  hfiles.sort()
  return hfiles


def ExtractPerlAsmFromCMakeFile(cmakefile):
  """Parses the contents of the CMakeLists.txt file passed as an argument and
  returns a list of all the perlasm() directives found in the file."""
  perlasms = []
  with open(cmakefile) as f:
    for line in f:
      line = line.strip()
      if not line.startswith('perlasm('):
        continue
      if not line.endswith(')'):
        raise ValueError('Bad perlasm line in %s' % cmakefile)
      # Remove "perlasm(" from start and ")" from end
      params = line[8:-1].split()
      if len(params) < 2:
        raise ValueError('Bad perlasm line in %s' % cmakefile)
      perlasms.append({
          'extra_args': params[2:],
          'input': os.path.join(os.path.dirname(cmakefile), params[1]),
          'output': os.path.join(os.path.dirname(cmakefile), params[0]),
      })

  return perlasms


def ReadPerlAsmOperations():
  """Returns a list of all perlasm() directives found in CMake config files in
  src/."""
  perlasms = []
  cmakefiles = FindCMakeFiles('src')

  for cmakefile in cmakefiles:
    perlasms.extend(ExtractPerlAsmFromCMakeFile(cmakefile))

  return perlasms


def PerlAsm(output_filename, input_filename, perlasm_style, extra_args):
  """Runs the a perlasm script and puts the output into output_filename."""
  base_dir = os.path.dirname(output_filename)
  if not os.path.isdir(base_dir):
    os.makedirs(base_dir)
  subprocess.check_call(
      ['perl', input_filename, perlasm_style] + extra_args + [output_filename])


def ArchForAsmFilename(filename):
  """Returns the architectures that a given asm file should be compiled for
  based on substrings in the filename."""

  if 'x86_64' in filename or 'avx2' in filename:
    return ['x86_64']
  elif ('x86' in filename and 'x86_64' not in filename) or '586' in filename:
    return ['x86']
  elif 'armx' in filename:
    return ['arm', 'aarch64']
  elif 'armv8' in filename:
    return ['aarch64']
  elif 'arm' in filename:
    return ['arm']
  elif 'ppc' in filename:
    return ['ppc64le']
  else:
    raise ValueError('Unknown arch for asm filename: ' + filename)


def WriteAsmFiles(perlasms):
  """Generates asm files from perlasm directives for each supported OS x
  platform combination."""
  asmfiles = {}

  for osarch in OS_ARCH_COMBOS:
    (osname, arch, perlasm_style, extra_args, asm_ext) = osarch
    key = (osname, arch)
    outDir = '%s-%s' % key

    for perlasm in perlasms:
      filename = os.path.basename(perlasm['input'])
      output = perlasm['output']
      if not output.startswith('src'):
        raise ValueError('output missing src: %s' % output)
      output = os.path.join(outDir, output[4:])
      if output.endswith('-armx.${ASM_EXT}'):
        output = output.replace('-armx',
                                '-armx64' if arch == 'aarch64' else '-armx32')
      output = output.replace('${ASM_EXT}', asm_ext)

      if arch in ArchForAsmFilename(filename):
        PerlAsm(output, perlasm['input'], perlasm_style,
                perlasm['extra_args'] + extra_args)
        asmfiles.setdefault(key, []).append(output)

  for (key, non_perl_asm_files) in NON_PERL_FILES.items():
    asmfiles.setdefault(key, []).extend(non_perl_asm_files)

  for files in asmfiles.values():
    files.sort()

  return asmfiles


def ExtractVariablesFromCMakeFile(cmakefile):
  """Parses the contents of the CMakeLists.txt file passed as an argument and
  returns a dictionary of exported source lists."""
  variables = {}
  in_set_command = False
  set_command = []
  with open(cmakefile) as f:
    for line in f:
      if '#' in line:
        line = line[:line.index('#')]
      line = line.strip()

      if not in_set_command:
        if line.startswith('set('):
          in_set_command = True
          set_command = []
      elif line == ')':
        in_set_command = False
        if not set_command:
          raise ValueError('Empty set command')
        variables[set_command[0]] = set_command[1:]
      else:
        set_command.extend([c for c in line.split(' ') if c])

  if in_set_command:
    raise ValueError('Unfinished set command')
  return variables


def main(platforms):
  cmake = ExtractVariablesFromCMakeFile(os.path.join('src', 'sources.cmake'))
  crypto_c_files = (FindCFiles(os.path.join('src', 'crypto'), NoTestsNorFIPSFragments) +
                    FindCFiles(os.path.join('src', 'third_party', 'fiat'), NoTestsNorFIPSFragments))
  fips_fragments = FindCFiles(os.path.join('src', 'crypto', 'fipsmodule'), OnlyFIPSFragments)
  ssl_source_files = FindCFiles(os.path.join('src', 'ssl'), NoTests)
  tool_c_files = FindCFiles(os.path.join('src', 'tool'), NoTests)
  tool_h_files = FindHeaderFiles(os.path.join('src', 'tool'), AllFiles)

  # BCM shared library C files
  bcm_crypto_c_files = [
      os.path.join('src', 'crypto', 'fipsmodule', 'bcm.c')
  ]

  # Generate err_data.c
  with open('err_data.c', 'w+') as err_data:
    subprocess.check_call(['go', 'run', 'err_data_generate.go'],
                          cwd=os.path.join('src', 'crypto', 'err'),
                          stdout=err_data)
  crypto_c_files.append('err_data.c')
  crypto_c_files.sort()

  test_support_c_files = FindCFiles(os.path.join('src', 'crypto', 'test'),
                                    NotGTestSupport)
  test_support_h_files = (
      FindHeaderFiles(os.path.join('src', 'crypto', 'test'), AllFiles) +
      FindHeaderFiles(os.path.join('src', 'ssl', 'test'), NoTestRunnerFiles))

  crypto_test_files = []
  if EMBED_TEST_DATA:
    # Generate crypto_test_data.cc
    with open('crypto_test_data.cc', 'w+') as out:
      subprocess.check_call(
          ['go', 'run', 'util/embed_test_data.go'] + cmake['CRYPTO_TEST_DATA'],
          cwd='src',
          stdout=out)
    crypto_test_files += ['crypto_test_data.cc']

  crypto_test_files += FindCFiles(os.path.join('src', 'crypto'), OnlyTests)
  crypto_test_files += [
      'src/crypto/test/abi_test.cc',
      'src/crypto/test/file_test_gtest.cc',
      'src/crypto/test/gtest_main.cc',
  ]
  # urandom_test.cc is in a separate binary so that it can be test PRNG
  # initialisation.
  crypto_test_files = [
      file for file in crypto_test_files
      if not file.endswith('/urandom_test.cc')
  ]
  crypto_test_files.sort()

  ssl_test_files = FindCFiles(os.path.join('src', 'ssl'), OnlyTests)
  ssl_test_files += [
      'src/crypto/test/abi_test.cc',
      'src/crypto/test/gtest_main.cc',
  ]
  ssl_test_files.sort()

  urandom_test_files = [
      'src/crypto/fipsmodule/rand/urandom_test.cc',
  ]

  fuzz_c_files = FindCFiles(os.path.join('src', 'fuzz'), NoTests)

  ssl_h_files = FindHeaderFiles(os.path.join('src', 'include', 'openssl'),
                                SSLHeaderFiles)

  def NotSSLHeaderFiles(path, filename, is_dir):
    return not SSLHeaderFiles(path, filename, is_dir)
  crypto_h_files = FindHeaderFiles(os.path.join('src', 'include', 'openssl'),
                                   NotSSLHeaderFiles)

  ssl_internal_h_files = FindHeaderFiles(os.path.join('src', 'ssl'), NoTests)
  crypto_internal_h_files = (
      FindHeaderFiles(os.path.join('src', 'crypto'), NoTests) +
      FindHeaderFiles(os.path.join('src', 'third_party', 'fiat'), NoTests))

  files = {
      'bcm_crypto': bcm_crypto_c_files,
      'crypto': crypto_c_files,
      'crypto_headers': crypto_h_files,
      'crypto_internal_headers': crypto_internal_h_files,
      'crypto_test': crypto_test_files,
      'crypto_test_data': sorted('src/' + x for x in cmake['CRYPTO_TEST_DATA']),
      'fips_fragments': fips_fragments,
      'fuzz': fuzz_c_files,
      'ssl': ssl_source_files,
      'ssl_headers': ssl_h_files,
      'ssl_internal_headers': ssl_internal_h_files,
      'ssl_test': ssl_test_files,
      'tool': tool_c_files,
      'tool_headers': tool_h_files,
      'test_support': test_support_c_files,
      'test_support_headers': test_support_h_files,
      'urandom_test': urandom_test_files,
  }

  asm_outputs = sorted(WriteAsmFiles(ReadPerlAsmOperations()).items())

  for platform in platforms:
    platform.WriteFiles(files, asm_outputs)

  return 0

ALL_PLATFORMS = {
    'android': Android,
    'android-cmake': AndroidCMake,
    'bazel': Bazel,
    'cmake': CMake,
    'eureka': Eureka,
    'gn': GN,
    'gyp': GYP,
    'json': JSON,
}

if __name__ == '__main__':
  parser = optparse.OptionParser(
      usage='Usage: %%prog [--prefix=<path>] [all|%s]' %
      '|'.join(sorted(ALL_PLATFORMS.keys())))
  parser.add_option('--prefix', dest='prefix',
      help='For Bazel, prepend argument to all source files')
  parser.add_option(
      '--embed_test_data', type='choice', dest='embed_test_data',
      action='store', default="true", choices=["true", "false"],
      help='For Bazel or GN, don\'t embed data files in crypto_test_data.cc')
  options, args = parser.parse_args(sys.argv[1:])
  PREFIX = options.prefix
  EMBED_TEST_DATA = (options.embed_test_data == "true")

  if not args:
    parser.print_help()
    sys.exit(1)

  if 'all' in args:
    platforms = [platform() for platform in ALL_PLATFORMS.values()]
  else:
    platforms = []
    for s in args:
      platform = ALL_PLATFORMS.get(s)
      if platform is None:
        parser.print_help()
        sys.exit(1)
      platforms.append(platform())

  sys.exit(main(platforms))