boringssl/util/generate_build_files.py

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# 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 = [
('ios', 'arm', 'ios32', [], 'S'),
('ios', 'aarch64', 'ios64', [], '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'),
('mac', 'x86', 'macosx', ['-fPIC', '-DOPENSSL_IA32_SSE2'], 'S'),
('mac', 'x86_64', 'macosx', [], 'S'),
('win', 'x86', 'win32n', ['-DOPENSSL_IA32_SSE2'], 'asm'),
('win', 'x86_64', 'nasm', [], 'asm'),
]
# 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)
class Android(object):
def __init__(self):
self.header = \
"""# Copyright (C) 2015 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# 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('#', '//'))
blueprint.write('cc_defaults {\n')
blueprint.write(' name: "libcrypto_sources",\n')
blueprint.write(' srcs: [\n')
for f in sorted(files['crypto']):
blueprint.write(' "%s",\n' % f)
blueprint.write(' ],\n')
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\n')
blueprint.write('cc_defaults {\n')
blueprint.write(' name: "libssl_sources",\n')
blueprint.write(' srcs: [\n')
for f in sorted(files['ssl']):
blueprint.write(' "%s",\n' % f)
blueprint.write(' ],\n')
blueprint.write('}\n\n')
blueprint.write('cc_defaults {\n')
blueprint.write(' name: "bssl_sources",\n')
blueprint.write(' srcs: [\n')
for f in sorted(files['tool']):
blueprint.write(' "%s",\n' % f)
blueprint.write(' ],\n')
blueprint.write('}\n\n')
blueprint.write('cc_defaults {\n')
blueprint.write(' name: "boringssl_test_support_sources",\n')
blueprint.write(' srcs: [\n')
for f in sorted(files['test_support']):
blueprint.write(' "%s",\n' % f)
blueprint.write(' ],\n')
blueprint.write('}\n\n')
Do a cursory conversion of a few tests to GTest. For now, this is the laziest conversion possible. The intent is to just get the build setup ready so that we can get everything working in our consumers. The intended end state is: - The standalone build produces three test targets, one per library: {crypto,ssl,decrepit}_tests. - Each FOO_test is made up of: FOO/**/*_test.cc crypto/test/gtest_main.cc test_support - generate_build_files.py emits variables crypto_test_sources and ssl_test_sources. These variables are populated with FindCFiles, looking for *_test.cc. - The consuming file assembles those variables into the two test targets (plus decrepit) from there. This avoids having generate_build_files.py emit actual build rules. - Our standalone builders, Chromium, and Android just run the top-level test targets using whatever GTest-based reporting story they have. In transition, we start by converting one of two tests in each library to populate the three test targets. Those are added to all_tests.json and all_tests.go hacked to handle them transparently. This keeps our standalone builder working. generate_build_files.py, to start with, populates the new source lists manually and subtracts them out of the old machinery. We emit both for the time being. When this change rolls in, we'll write all the build glue needed to build the GTest-based tests and add it to consumers' continuous builders. Next, we'll subsume a file-based test and get the consumers working with that. (I.e. make sure the GTest targets can depend on a data file.) Once that's all done, we'll be sure all this will work. At that point, we start subsuming the remaining tests into the GTest targets and, asynchronously, rewriting tests to use GTest properly rather than cursory conversion here. When all non-GTest tests are gone, the old generate_build_files.py hooks will be removed, consumers updated to not depend on them, and standalone builders converted to not rely on all_tests.go, which can then be removed. (Unless bits end up being needed as a malloc test driver. I'm thinking we'll want to do something with --gtest_filter.) As part of this CL, I've bumped the CMake requirements (for target_include_directories) and added a few suppressions for warnings that GTest doesn't pass. BUG=129 Change-Id: I881b26b07a8739cc0b52dbb51a30956908e1b71a Reviewed-on: https://boringssl-review.googlesource.com/13232 Reviewed-by: Adam Langley <agl@google.com>
2017-01-20 00:05:47 +00:00
blueprint.write('cc_defaults {\n')
blueprint.write(' name: "boringssl_crypto_test_sources",\n')
blueprint.write(' srcs: [\n')
for f in sorted(files['crypto_test']):
blueprint.write(' "%s",\n' % f)
blueprint.write(' ],\n')
blueprint.write('}\n\n')
blueprint.write('cc_defaults {\n')
blueprint.write(' name: "boringssl_ssl_test_sources",\n')
blueprint.write(' srcs: [\n')
for f in sorted(files['ssl_test']):
blueprint.write(' "%s",\n' % f)
blueprint.write(' ],\n')
blueprint.write('}\n\n')
# Legacy Android.mk format, only used by Trusty in new branches
with open('sources.mk', 'w+') as makefile:
makefile.write(self.header)
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)
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')
Do a cursory conversion of a few tests to GTest. For now, this is the laziest conversion possible. The intent is to just get the build setup ready so that we can get everything working in our consumers. The intended end state is: - The standalone build produces three test targets, one per library: {crypto,ssl,decrepit}_tests. - Each FOO_test is made up of: FOO/**/*_test.cc crypto/test/gtest_main.cc test_support - generate_build_files.py emits variables crypto_test_sources and ssl_test_sources. These variables are populated with FindCFiles, looking for *_test.cc. - The consuming file assembles those variables into the two test targets (plus decrepit) from there. This avoids having generate_build_files.py emit actual build rules. - Our standalone builders, Chromium, and Android just run the top-level test targets using whatever GTest-based reporting story they have. In transition, we start by converting one of two tests in each library to populate the three test targets. Those are added to all_tests.json and all_tests.go hacked to handle them transparently. This keeps our standalone builder working. generate_build_files.py, to start with, populates the new source lists manually and subtracts them out of the old machinery. We emit both for the time being. When this change rolls in, we'll write all the build glue needed to build the GTest-based tests and add it to consumers' continuous builders. Next, we'll subsume a file-based test and get the consumers working with that. (I.e. make sure the GTest targets can depend on a data file.) Once that's all done, we'll be sure all this will work. At that point, we start subsuming the remaining tests into the GTest targets and, asynchronously, rewriting tests to use GTest properly rather than cursory conversion here. When all non-GTest tests are gone, the old generate_build_files.py hooks will be removed, consumers updated to not depend on them, and standalone builders converted to not rely on all_tests.go, which can then be removed. (Unless bits end up being needed as a malloc test driver. I'm thinking we'll want to do something with --gtest_filter.) As part of this CL, I've bumped the CMake requirements (for target_include_directories) and added a few suppressions for warnings that GTest doesn't pass. BUG=129 Change-Id: I881b26b07a8739cc0b52dbb51a30956908e1b71a Reviewed-on: https://boringssl-review.googlesource.com/13232 Reviewed-by: Adam Langley <agl@google.com>
2017-01-20 00:05:47 +00:00
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'])
Do a cursory conversion of a few tests to GTest. For now, this is the laziest conversion possible. The intent is to just get the build setup ready so that we can get everything working in our consumers. The intended end state is: - The standalone build produces three test targets, one per library: {crypto,ssl,decrepit}_tests. - Each FOO_test is made up of: FOO/**/*_test.cc crypto/test/gtest_main.cc test_support - generate_build_files.py emits variables crypto_test_sources and ssl_test_sources. These variables are populated with FindCFiles, looking for *_test.cc. - The consuming file assembles those variables into the two test targets (plus decrepit) from there. This avoids having generate_build_files.py emit actual build rules. - Our standalone builders, Chromium, and Android just run the top-level test targets using whatever GTest-based reporting story they have. In transition, we start by converting one of two tests in each library to populate the three test targets. Those are added to all_tests.json and all_tests.go hacked to handle them transparently. This keeps our standalone builder working. generate_build_files.py, to start with, populates the new source lists manually and subtracts them out of the old machinery. We emit both for the time being. When this change rolls in, we'll write all the build glue needed to build the GTest-based tests and add it to consumers' continuous builders. Next, we'll subsume a file-based test and get the consumers working with that. (I.e. make sure the GTest targets can depend on a data file.) Once that's all done, we'll be sure all this will work. At that point, we start subsuming the remaining tests into the GTest targets and, asynchronously, rewriting tests to use GTest properly rather than cursory conversion here. When all non-GTest tests are gone, the old generate_build_files.py hooks will be removed, consumers updated to not depend on them, and standalone builders converted to not rely on all_tests.go, which can then be removed. (Unless bits end up being needed as a malloc test driver. I'm thinking we'll want to do something with --gtest_filter.) As part of this CL, I've bumped the CMake requirements (for target_include_directories) and added a few suppressions for warnings that GTest doesn't pass. BUG=129 Change-Id: I881b26b07a8739cc0b52dbb51a30956908e1b71a Reviewed-on: https://boringssl-review.googlesource.com/13232 Reviewed-by: Adam Langley <agl@google.com>
2017-01-20 00:05:47 +00:00
class Eureka(object):
def __init__(self):
self.header = \
"""# Copyright (C) 2017 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# 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 = \
"""# Copyright (c) 2016 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.
# 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'])
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)
Do a cursory conversion of a few tests to GTest. For now, this is the laziest conversion possible. The intent is to just get the build setup ready so that we can get everything working in our consumers. The intended end state is: - The standalone build produces three test targets, one per library: {crypto,ssl,decrepit}_tests. - Each FOO_test is made up of: FOO/**/*_test.cc crypto/test/gtest_main.cc test_support - generate_build_files.py emits variables crypto_test_sources and ssl_test_sources. These variables are populated with FindCFiles, looking for *_test.cc. - The consuming file assembles those variables into the two test targets (plus decrepit) from there. This avoids having generate_build_files.py emit actual build rules. - Our standalone builders, Chromium, and Android just run the top-level test targets using whatever GTest-based reporting story they have. In transition, we start by converting one of two tests in each library to populate the three test targets. Those are added to all_tests.json and all_tests.go hacked to handle them transparently. This keeps our standalone builder working. generate_build_files.py, to start with, populates the new source lists manually and subtracts them out of the old machinery. We emit both for the time being. When this change rolls in, we'll write all the build glue needed to build the GTest-based tests and add it to consumers' continuous builders. Next, we'll subsume a file-based test and get the consumers working with that. (I.e. make sure the GTest targets can depend on a data file.) Once that's all done, we'll be sure all this will work. At that point, we start subsuming the remaining tests into the GTest targets and, asynchronously, rewriting tests to use GTest properly rather than cursory conversion here. When all non-GTest tests are gone, the old generate_build_files.py hooks will be removed, consumers updated to not depend on them, and standalone builders converted to not rely on all_tests.go, which can then be removed. (Unless bits end up being needed as a malloc test driver. I'm thinking we'll want to do something with --gtest_filter.) As part of this CL, I've bumped the CMake requirements (for target_include_directories) and added a few suppressions for warnings that GTest doesn't pass. BUG=129 Change-Id: I881b26b07a8739cc0b52dbb51a30956908e1b71a Reviewed-on: https://boringssl-review.googlesource.com/13232 Reviewed-by: Adam Langley <agl@google.com>
2017-01-20 00:05:47 +00:00
self.PrintVariableSection(out, 'test_support_sources',
files['test_support'] +
files['test_support_headers'])
Do a cursory conversion of a few tests to GTest. For now, this is the laziest conversion possible. The intent is to just get the build setup ready so that we can get everything working in our consumers. The intended end state is: - The standalone build produces three test targets, one per library: {crypto,ssl,decrepit}_tests. - Each FOO_test is made up of: FOO/**/*_test.cc crypto/test/gtest_main.cc test_support - generate_build_files.py emits variables crypto_test_sources and ssl_test_sources. These variables are populated with FindCFiles, looking for *_test.cc. - The consuming file assembles those variables into the two test targets (plus decrepit) from there. This avoids having generate_build_files.py emit actual build rules. - Our standalone builders, Chromium, and Android just run the top-level test targets using whatever GTest-based reporting story they have. In transition, we start by converting one of two tests in each library to populate the three test targets. Those are added to all_tests.json and all_tests.go hacked to handle them transparently. This keeps our standalone builder working. generate_build_files.py, to start with, populates the new source lists manually and subtracts them out of the old machinery. We emit both for the time being. When this change rolls in, we'll write all the build glue needed to build the GTest-based tests and add it to consumers' continuous builders. Next, we'll subsume a file-based test and get the consumers working with that. (I.e. make sure the GTest targets can depend on a data file.) Once that's all done, we'll be sure all this will work. At that point, we start subsuming the remaining tests into the GTest targets and, asynchronously, rewriting tests to use GTest properly rather than cursory conversion here. When all non-GTest tests are gone, the old generate_build_files.py hooks will be removed, consumers updated to not depend on them, and standalone builders converted to not rely on all_tests.go, which can then be removed. (Unless bits end up being needed as a malloc test driver. I'm thinking we'll want to do something with --gtest_filter.) As part of this CL, I've bumped the CMake requirements (for target_include_directories) and added a few suppressions for warnings that GTest doesn't pass. BUG=129 Change-Id: I881b26b07a8739cc0b52dbb51a30956908e1b71a Reviewed-on: https://boringssl-review.googlesource.com/13232 Reviewed-by: Adam Langley <agl@google.com>
2017-01-20 00:05:47 +00:00
self.PrintVariableSection(out, 'crypto_test_sources',
files['crypto_test'])
self.PrintVariableSection(out, 'ssl_test_sources', files['ssl_test'])
class GYP(object):
def __init__(self):
self.header = \
"""# Copyright (c) 2016 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.
# 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')
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
Do a cursory conversion of a few tests to GTest. For now, this is the laziest conversion possible. The intent is to just get the build setup ready so that we can get everything working in our consumers. The intended end state is: - The standalone build produces three test targets, one per library: {crypto,ssl,decrepit}_tests. - Each FOO_test is made up of: FOO/**/*_test.cc crypto/test/gtest_main.cc test_support - generate_build_files.py emits variables crypto_test_sources and ssl_test_sources. These variables are populated with FindCFiles, looking for *_test.cc. - The consuming file assembles those variables into the two test targets (plus decrepit) from there. This avoids having generate_build_files.py emit actual build rules. - Our standalone builders, Chromium, and Android just run the top-level test targets using whatever GTest-based reporting story they have. In transition, we start by converting one of two tests in each library to populate the three test targets. Those are added to all_tests.json and all_tests.go hacked to handle them transparently. This keeps our standalone builder working. generate_build_files.py, to start with, populates the new source lists manually and subtracts them out of the old machinery. We emit both for the time being. When this change rolls in, we'll write all the build glue needed to build the GTest-based tests and add it to consumers' continuous builders. Next, we'll subsume a file-based test and get the consumers working with that. (I.e. make sure the GTest targets can depend on a data file.) Once that's all done, we'll be sure all this will work. At that point, we start subsuming the remaining tests into the GTest targets and, asynchronously, rewriting tests to use GTest properly rather than cursory conversion here. When all non-GTest tests are gone, the old generate_build_files.py hooks will be removed, consumers updated to not depend on them, and standalone builders converted to not rely on all_tests.go, which can then be removed. (Unless bits end up being needed as a malloc test driver. I'm thinking we'll want to do something with --gtest_filter.) As part of this CL, I've bumped the CMake requirements (for target_include_directories) and added a few suppressions for warnings that GTest doesn't pass. BUG=129 Change-Id: I881b26b07a8739cc0b52dbb51a30956908e1b71a Reviewed-on: https://boringssl-review.googlesource.com/13232 Reviewed-by: Adam Langley <agl@google.com>
2017-01-20 00:05:47 +00:00
def SSLHeaderFiles(path, dent, is_dir):
return dent in ['ssl.h', 'tls1.h', 'ssl23.h', 'ssl3.h', 'dtls1.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]
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]
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.iteritems():
asmfiles.setdefault(key, []).extend(non_perl_asm_files)
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)
# third_party/fiat/p256.c lives in third_party/fiat, but it is a FIPS
# fragment, not a normal source file.
p256 = os.path.join('src', 'third_party', 'fiat', 'p256.c')
fips_fragments.append(p256)
crypto_c_files.remove(p256)
# 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')
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/file_test_gtest.cc',
'src/crypto/test/gtest_main.cc',
]
ssl_test_files = FindCFiles(os.path.join('src', 'ssl'), OnlyTests)
ssl_test_files.append('src/crypto/test/gtest_main.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 = {
'crypto': crypto_c_files,
'crypto_headers': crypto_h_files,
'crypto_internal_headers': crypto_internal_h_files,
'crypto_test': sorted(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': sorted(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,
}
asm_outputs = sorted(WriteAsmFiles(ReadPerlAsmOperations()).iteritems())
for platform in platforms:
platform.WriteFiles(files, asm_outputs)
return 0
if __name__ == '__main__':
parser = optparse.OptionParser(usage='Usage: %prog [--prefix=<path>]'
' [android|bazel|eureka|gn|gyp]')
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, 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)
platforms = []
for s in args:
if s == 'android':
platforms.append(Android())
elif s == 'bazel':
platforms.append(Bazel())
elif s == 'eureka':
platforms.append(Eureka())
elif s == 'gn':
platforms.append(GN())
elif s == 'gyp':
platforms.append(GYP())
else:
parser.print_help()
sys.exit(1)
sys.exit(main(platforms))