boringssl/util/generate_build_files.py
David Benjamin 3ecd0a5fca Convert aes_test to GTest.
This introduces machinery to start embedding the test data files into
the crypto_test binary. Figuring out every CI's test data story is more
trouble than is worth it. The GTest FileTest runner is considerably
different from the old one:

- It returns void and expects failures to use the GTest EXPECT_* and
  ASSERT_* macros, rather than ExpectBytesEqual. This is more monkey
  work to convert, but ultimately less work to add new tests. I think
  it's also valuable for our FileTest and normal test patterns to align
  as much as possible. The line number is emitted via SCOPED_TRACE.

- I've intentionally omitted the Error attribute handling, since that
  doesn't work very well with the new callback. This means evp_test.cc
  will take a little more work to convert, but this is again to keep our
  two test patterns aligned.

- The callback takes a std::function rather than a C-style void pointer.
  This means we can go nuts with lambdas. It also places the path first
  so clang-format doesn't go nuts.

BUG=129

Change-Id: I0d1920a342b00e64043e3ea05f5f5af57bfe77b3
Reviewed-on: https://boringssl-review.googlesource.com/16507
Reviewed-by: Adam Langley <agl@google.com>
2017-05-23 22:33:25 +00:00

816 lines
28 KiB
Python

# 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 = [
('linux', 'arm', 'linux32', [], 'S'),
('linux', 'aarch64', 'linux64', [], 'S'),
('linux', 'ppc64le', 'ppc64le', [], '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',
],
('linux', 'x86_64'): [
'src/crypto/curve25519/asm/x25519-asm-x86_64.S',
],
('mac', 'x86_64'): [
'src/crypto/curve25519/asm/x25519-asm-x86_64.S',
],
}
PREFIX = None
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(' android_%s: {\n' % arch)
blueprint.write(' srcs: [\n')
for f in sorted(asm_files):
blueprint.write(' "%s",\n' % f)
blueprint.write(' ],\n')
blueprint.write(' },\n')
if arch == 'x86' or arch == 'x86_64':
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')
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')
blueprint.write('cc_defaults {\n')
blueprint.write(' name: "boringssl_tests_sources",\n')
blueprint.write(' srcs: [\n')
for f in sorted(files['test']):
blueprint.write(' "%s",\n' % f)
blueprint.write(' ],\n')
blueprint.write('}\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, 'ssl_c_sources', files['ssl_c'])
self.PrintVariableSection(out, 'ssl_cc_sources', files['ssl_cc'])
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\n')
self.PrintVariableSection(out, 'crypto_test_sources',
files['crypto_test'])
self.PrintVariableSection(out, 'ssl_test_sources', files['ssl_test'])
out.write('def create_tests(copts, crypto, ssl):\n')
name_counts = {}
for test in files['tests']:
name = os.path.basename(test[0])
name_counts[name] = name_counts.get(name, 0) + 1
first = True
test_names = set()
for test in files['tests']:
name = os.path.basename(test[0])
if name_counts[name] > 1:
if '/' in test[-1]:
arg = test[-1].replace('crypto/cipher/test/','') # boooring
arg = arg.replace('/', '_')
arg = os.path.splitext(arg)[0] # remove .txt
arg = arg.replace('_tests', '')
name += '_' + arg
else:
name += '_' + test[-1].replace('-', '_')
if name in test_names:
raise ValueError("test name %s is not unique" % name)
test_names.add(name)
if not first:
out.write('\n')
first = False
for src in files['test']:
# For example, basename(src/crypto/fipsmodule/aes/aes_test.cc)
# startswith basename(crypto/fipsmodule/aes_test).
if os.path.basename(src).startswith(os.path.basename(test[0]) + '.'):
src = src
break
else:
raise ValueError("Can't find source for %s" % test[0])
out.write(' native.cc_test(\n')
out.write(' name = "%s",\n' % name)
out.write(' size = "small",\n')
out.write(' srcs = ["%s"] + test_support_sources,\n' %
PathOf(src))
data_files = []
if len(test) > 1:
out.write(' args = [\n')
for arg in test[1:]:
if '/' in arg:
out.write(' "$(location %s)",\n' %
PathOf(os.path.join('src', arg)))
data_files.append('src/%s' % arg)
else:
out.write(' "%s",\n' % arg)
out.write(' ],\n')
out.write(' copts = copts + ["-DBORINGSSL_SHARED_LIBRARY"],\n')
if len(data_files) > 0:
out.write(' data = [\n')
for filename in data_files:
out.write(' "%s",\n' % PathOf(filename))
out.write(' ],\n')
if 'ssl/' in test[0]:
out.write(' deps = [\n')
out.write(' crypto,\n')
out.write(' ssl,\n')
out.write(' ],\n')
else:
out.write(' deps = [crypto],\n')
out.write(' )\n')
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_headers'] +
files['crypto_internal_headers'])
self.PrintVariableSection(out, 'ssl_sources',
files['ssl'] + files['ssl_headers'] +
files['ssl_internal_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, 'ssl_test_sources', files['ssl_test'])
out.write('\n')
out.write('template("create_tests") {\n')
all_tests = []
for test in sorted(files['test']):
test_name = 'boringssl_%s' % os.path.splitext(os.path.basename(test))[0]
all_tests.append(test_name)
out.write(' executable("%s") {\n' % test_name)
out.write(' sources = [\n')
out.write(' "%s",\n' % test)
out.write(' ]\n')
out.write(' sources += test_support_sources\n')
out.write(' if (defined(invoker.configs_exclude)) {\n')
out.write(' configs -= invoker.configs_exclude\n')
out.write(' }\n')
out.write(' configs += invoker.configs\n')
out.write(' deps = invoker.deps\n')
out.write(' }\n')
out.write('\n')
out.write(' group(target_name) {\n')
out.write(' deps = [\n')
for test_name in sorted(all_tests):
out.write(' ":%s",\n' % test_name)
out.write(' ]\n')
out.write(' }\n')
out.write('}\n')
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 and not dent.startswith('example_')
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 or dent.startswith('example_')
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
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 IsGTest(path):
with open(path) as f:
return "#include <gtest/gtest.h>" in f.read()
def main(platforms):
cmake = ExtractVariablesFromCMakeFile(os.path.join('src', 'sources.cmake'))
crypto_c_files = FindCFiles(os.path.join('src', 'crypto'), 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)
# 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))
# 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)
test_c_files = []
crypto_test_files = [
'crypto_test_data.cc',
'src/crypto/test/file_test_gtest.cc',
'src/crypto/test/gtest_main.cc',
]
# TODO(davidben): Remove this loop once all tests are converted.
for path in FindCFiles(os.path.join('src', 'crypto'), OnlyTests):
if IsGTest(path):
crypto_test_files.append(path)
else:
test_c_files.append(path)
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)
with open('src/util/all_tests.json', 'r') as f:
tests = json.load(f)
# For now, GTest-based tests are specified manually.
tests = [test for test in tests if test[0] not in ['crypto/crypto_test',
'decrepit/decrepit_test',
'ssl/ssl_test']]
# The same test name can appear multiple times with different arguments. So,
# make a set to get a list of unique test binaries.
test_names = set([test[0] for test in tests])
test_binaries = set(map(os.path.basename, test_names))
# Make sure the test basenames are unique.
if len(test_binaries) != len(set(test_names)):
raise ValueError('non-unique test basename')
# Ensure a 1:1 correspondence between test sources and tests. This
# guarantees that the Bazel output includes everything in the JSON.
# Sometimes, a test's source isn't in the same directory as the test,
# which we handle by considering only the basename.
test_sources = set(map(os.path.basename, [
test.replace('.cc', '').replace('.c', '').replace(
'src/',
'')
for test in test_c_files]))
if test_binaries != test_sources:
print 'Test sources and configured tests do not match'
a = test_binaries.difference(test_sources)
if len(a) > 0:
print 'These tests are configured without sources: ' + str(a)
b = test_sources.difference(test_binaries)
if len(b) > 0:
print 'These test sources are not configured: ' + str(b)
files = {
'crypto': crypto_c_files,
'crypto_headers': crypto_h_files,
'crypto_internal_headers': crypto_internal_h_files,
'crypto_test': sorted(crypto_test_files),
'fips_fragments': fips_fragments,
'fuzz': fuzz_c_files,
'ssl': ssl_source_files,
'ssl_c': [s for s in ssl_source_files if s.endswith('.c')],
'ssl_cc': [s for s in ssl_source_files if s.endswith('.cc')],
'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': test_c_files,
'test_support': test_support_c_files,
'test_support_headers': test_support_h_files,
'tests': tests,
}
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|gn|gyp]')
parser.add_option('--prefix', dest='prefix',
help='For Bazel, prepend argument to all source files')
options, args = parser.parse_args(sys.argv[1:])
PREFIX = options.prefix
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 == 'gn':
platforms.append(GN())
elif s == 'gyp':
platforms.append(GYP())
else:
parser.print_help()
sys.exit(1)
sys.exit(main(platforms))