import argparse import copy import json import os import re import shutil import subprocess import sys import tarfile import tempfile import threading import traceback from contextlib import contextmanager from functools import reduce import process_command_files as pcf import process_whole_archive_option as pwa arc_project_prefix = 'a.yandex-team.ru/' # FIXME: make version-independent std_lib_prefix = 'contrib/go/_std_1.22/src/' vendor_prefix = 'vendor/' vet_info_ext = '.vet.out' vet_report_ext = '.vet.txt' FIXED_CGO1_SUFFIX = '.fixed.cgo1.go' COMPILE_OPTIMIZATION_FLAGS = ('-N',) IGNORED_FLAGS = ['-fprofile-instr-generate', '-fcoverage-mapping'] def get_trimpath_args(args): return ['-trimpath', args.trimpath] if args.trimpath else [] def preprocess_cgo1(src_path, dst_path, source_root): with open(src_path, 'r') as f: content = f.read() content = content.replace('__ARCADIA_SOURCE_ROOT_PREFIX__', source_root) with open(dst_path, 'w') as f: f.write(content) def preprocess_args(args): # Temporary work around for noauto if args.cgo_srcs and len(args.cgo_srcs) > 0: cgo_srcs_set = set(args.cgo_srcs) args.srcs = [x for x in args.srcs if x not in cgo_srcs_set] args.pkg_root = os.path.join(args.toolchain_root, 'pkg') toolchain_tool_root = os.path.join(args.pkg_root, 'tool', '{}_{}'.format(args.host_os, args.host_arch)) args.go_compile = os.path.join(toolchain_tool_root, 'compile') args.go_cgo = os.path.join(toolchain_tool_root, 'cgo') args.go_link = os.path.join(toolchain_tool_root, 'link') args.go_asm = os.path.join(toolchain_tool_root, 'asm') args.go_pack = os.path.join(toolchain_tool_root, 'pack') args.go_vet = os.path.join(toolchain_tool_root, 'vet') if args.vet is True else args.vet args.output = os.path.normpath(args.output) args.vet_report_output = vet_report_output_name(args.output, args.vet_report_ext) args.trimpath = None if args.debug_root_map: roots = {'build': args.build_root, 'source': args.source_root, 'tools': args.tools_root} replaces = [] for root in args.debug_root_map.split(';'): src, dst = root.split('=', 1) assert src in roots replaces.append('{}=>{}'.format(roots[src], dst)) del roots[src] assert len(replaces) > 0 args.trimpath = ';'.join(replaces) args.build_root = os.path.normpath(args.build_root) args.build_root_dir = args.build_root + os.path.sep args.source_root = os.path.normpath(args.source_root) args.source_root_dir = args.source_root + os.path.sep args.output_root = os.path.normpath(args.output_root) args.import_map = {} args.module_map = {} if args.cgo_peers: args.cgo_peers = [x for x in args.cgo_peers if not x.endswith('.fake.pkg')] srcs = [] for f in args.srcs: if f.endswith('.gosrc'): with tarfile.open(f, 'r') as tar: srcs.extend(os.path.join(args.output_root, src) for src in tar.getnames()) if sys.version_info >= (3, 12): tar.extractall(path=args.output_root, filter='data') else: tar.extractall(path=args.output_root) else: srcs.append(f) args.srcs = srcs assert args.mode == 'test' or args.test_srcs is None and args.xtest_srcs is None # add lexical oreder by basename for go sources args.srcs.sort(key=lambda x: os.path.basename(x)) if args.test_srcs: args.srcs += sorted(args.test_srcs, key=lambda x: os.path.basename(x)) del args.test_srcs if args.xtest_srcs: args.xtest_srcs.sort(key=lambda x: os.path.basename(x)) # compute root relative module dir path assert args.output is None or args.output_root == os.path.dirname(args.output) assert args.output_root.startswith(args.build_root_dir) args.module_path = args.output_root[len(args.build_root_dir) :] args.source_module_dir = os.path.join(args.source_root, args.test_import_path or args.module_path) + os.path.sep assert len(args.module_path) > 0 args.import_path, args.is_std = get_import_path(args.module_path) assert args.asmhdr is None or args.word == 'go' srcs = [] for f in args.srcs: if f.endswith(FIXED_CGO1_SUFFIX) and f.startswith(args.build_root_dir): path = os.path.join(args.output_root, '{}.cgo1.go'.format(os.path.basename(f[: -len(FIXED_CGO1_SUFFIX)]))) srcs.append(path) preprocess_cgo1(f, path, args.source_root) else: srcs.append(f) args.srcs = srcs if args.extldflags: tmp = [flag for flag in args.extldflags if flag not in IGNORED_FLAGS] args.extldflags = pwa.ProcessWholeArchiveOption(args.targ_os).construct_cmd(tmp) classify_srcs(args.srcs, args) def compare_versions(version1, version2): def last_index(version): index = version.find('beta') return len(version) if index < 0 else index v1 = tuple(x.zfill(8) for x in version1[: last_index(version1)].split('.')) v2 = tuple(x.zfill(8) for x in version2[: last_index(version2)].split('.')) if v1 == v2: return 0 return 1 if v1 < v2 else -1 def get_symlink_or_copyfile(): os_symlink = getattr(os, 'symlink', None) if os_symlink is None or os.name == 'nt': os_symlink = shutil.copyfile return os_symlink def copy_args(args): return copy.copy(args) def get_vendor_index(import_path): index = import_path.rfind('/' + vendor_prefix) if index < 0: index = 0 if import_path.startswith(vendor_prefix) else index else: index = index + 1 return index def get_import_path(module_path): assert len(module_path) > 0 import_path = module_path.replace('\\', '/') is_std_module = import_path.startswith(std_lib_prefix) if is_std_module: import_path = import_path[len(std_lib_prefix) :] elif import_path.startswith(vendor_prefix): import_path = import_path[len(vendor_prefix) :] else: import_path = arc_project_prefix + import_path assert len(import_path) > 0 return import_path, is_std_module def call(cmd, cwd, env=None): # sys.stderr.write('{}\n'.format(' '.join(cmd))) return subprocess.check_output(cmd, stdin=None, stderr=subprocess.STDOUT, cwd=cwd, env=env, text=True) def classify_srcs(srcs, args): args.go_srcs = [x for x in srcs if x.endswith('.go')] args.asm_srcs = [x for x in srcs if x.endswith('.s')] args.objects = [x for x in srcs if x.endswith('.o') or x.endswith('.obj')] args.symabis = [x for x in srcs if x.endswith('.symabis')] args.sysos = [x for x in srcs if x.endswith('.syso')] def get_import_config_info(peers, gen_importmap, import_map={}, module_map={}): info = {'importmap': [], 'packagefile': [], 'standard': {}} if gen_importmap: for key, value in import_map.items(): info['importmap'].append((key, value)) for peer in peers: peer_import_path, is_std = get_import_path(os.path.dirname(peer)) if gen_importmap: index = get_vendor_index(peer_import_path) if index >= 0: index += len(vendor_prefix) info['importmap'].append((peer_import_path[index:], peer_import_path)) info['packagefile'].append((peer_import_path, os.path.join(args.build_root, peer))) if is_std: info['standard'][peer_import_path] = True for key, value in module_map.items(): info['packagefile'].append((key, value)) return info def create_import_config(peers, gen_importmap, import_map={}, module_map={}): lines = [] info = get_import_config_info(peers, gen_importmap, import_map, module_map) for key in ('importmap', 'packagefile'): for item in info[key]: lines.append('{} {}={}'.format(key, *item)) if len(lines) > 0: lines.append('') content = '\n'.join(lines) # sys.stderr.writelines('{}\n'.format(l) for l in lines) with tempfile.NamedTemporaryFile(delete=False) as f: f.write(content.encode('UTF-8')) return f.name return None def create_embed_config(args): data = { 'Patterns': {}, 'Files': {}, } for info in args.embed: embed_dir = os.path.normpath(info[0]) assert embed_dir == args.source_module_dir[:-1] or embed_dir.startswith( (args.source_module_dir, args.build_root) ) pattern = info[1] if pattern.endswith('/**/*'): pattern = pattern[:-3] files = {os.path.relpath(f, embed_dir).replace('\\', '/'): f for f in info[2:]} data['Patterns'][pattern] = list(files.keys()) data['Files'].update(files) # sys.stderr.write('{}\n'.format(json.dumps(data, indent=4))) with tempfile.NamedTemporaryFile(delete=False, suffix='.embedcfg') as f: f.write(json.dumps(data).encode('UTF-8')) return f.name def vet_info_output_name(path, ext=None): return '{}{}'.format(path, ext or vet_info_ext) def vet_report_output_name(path, ext=None): return '{}{}'.format(path, ext or vet_report_ext) def get_source_path(args): return args.test_import_path or args.module_path def gen_vet_info(args): import_path = args.real_import_path if hasattr(args, 'real_import_path') else args.import_path info = get_import_config_info(args.peers, True, args.import_map, args.module_map) import_map = dict(info['importmap']) # FIXME(snermolaev): it seems that adding import map for 'fake' package # does't make any harm (it needs to be revised later) import_map['unsafe'] = 'unsafe' for key, _ in info['packagefile']: if key not in import_map: import_map[key] = key data = { 'ID': import_path, 'Compiler': 'gc', 'Dir': os.path.join(args.source_root, get_source_path(args)), 'ImportPath': import_path, 'GoFiles': [x for x in args.go_srcs if x.endswith('.go')], 'NonGoFiles': [x for x in args.go_srcs if not x.endswith('.go')], 'ImportMap': import_map, 'PackageFile': dict(info['packagefile']), 'Standard': dict(info['standard']), 'PackageVetx': dict((key, vet_info_output_name(value)) for key, value in info['packagefile']), 'VetxOnly': False, 'VetxOutput': vet_info_output_name(args.output), 'SucceedOnTypecheckFailure': False, } # sys.stderr.write('{}\n'.format(json.dumps(data, indent=4))) return data def create_vet_config(args, info): with tempfile.NamedTemporaryFile(delete=False, suffix='.cfg') as f: f.write(json.dumps(info).encode('UTF-8')) return f.name def decode_vet_report(json_report): report = '' if json_report: json_report = json_report.decode('UTF-8') try: full_diags = json.JSONDecoder().decode(json_report) except ValueError: report = json_report else: messages = [] for _, module_diags in full_diags.items(): for _, type_diags in module_diags.items(): for diag in type_diags: messages.append('{}: {}'.format(diag['posn'], json.dumps(diag['message']))) report = '\n'.join(messages) return report def dump_vet_report(args, report): if report: report = report.replace(args.build_root, '$B') report = report.replace(args.source_root, '$S') with open(args.vet_report_output, 'w') as f: f.write(report) def read_vet_report(args): assert args report = '' if os.path.exists(args.vet_report_output): with open(args.vet_report_output, 'r') as f: report += f.read() return report def dump_vet_report_for_tests(args, *test_args_list): dump_vet_report(args, reduce(lambda x, y: x + read_vet_report(y), [_f for _f in test_args_list if _f], '')) def do_vet(args): assert args.vet info = gen_vet_info(args) vet_config = create_vet_config(args, info) cmd = [args.go_vet, '-json'] if args.vet_flags: cmd.extend(args.vet_flags) cmd.append(vet_config) # sys.stderr.write('>>>> [{}]\n'.format(' '.join(cmd))) p_vet = subprocess.Popen(cmd, stdin=None, stderr=subprocess.PIPE, stdout=subprocess.PIPE, cwd=args.source_root) vet_out, vet_err = p_vet.communicate() report = decode_vet_report(vet_out) if vet_out else '' dump_vet_report(args, report) if p_vet.returncode: raise subprocess.CalledProcessError(returncode=p_vet.returncode, cmd=cmd, output=vet_err) def _do_compile_go(args): import_path, is_std_module = args.import_path, args.is_std cmd = [ args.go_compile, '-o', args.output, '-p', import_path if import_path != "unsafe" else "", '-D', '""', ] if args.lang: cmd.append('-lang=go{}'.format(args.lang)) cmd.extend(get_trimpath_args(args)) compiling_runtime = False if is_std_module: cmd.append('-std') if import_path in ('runtime', 'internal/abi', 'internal/bytealg', 'internal/cpu') or import_path.startswith( 'runtime/internal/' ): cmd.append('-+') compiling_runtime = True import_config_name = create_import_config(args.peers, True, args.import_map, args.module_map) if import_config_name: cmd += ['-importcfg', import_config_name] else: if import_path == 'unsafe' or len(args.objects) > 0 or args.asmhdr: pass else: cmd.append('-complete') # if compare_versions('1.16', args.goversion) >= 0: if args.embed: embed_config_name = create_embed_config(args) cmd.extend(['-embedcfg', embed_config_name]) if args.asmhdr: cmd += ['-asmhdr', args.asmhdr] # Use .symabis (starting from 1.12 version) if args.symabis: cmd += ['-symabis'] + args.symabis # If 1.12 <= version < 1.13 we have to pass -allabis for 'runtime' and 'runtime/internal/atomic' # if compare_versions('1.13', args.goversion) >= 0: # pass # elif import_path in ('runtime', 'runtime/internal/atomic'): # cmd.append('-allabis') compile_workers = '4' if args.compile_flags: if compiling_runtime: cmd.extend(x for x in args.compile_flags if x not in COMPILE_OPTIMIZATION_FLAGS) else: cmd.extend(args.compile_flags) if any([x in ('-race', '-shared') for x in args.compile_flags]): compile_workers = '1' cmd += ['-pack', '-c={}'.format(compile_workers)] cmd += args.go_srcs call(cmd, args.build_root) class VetThread(threading.Thread): def __init__(self, target, args): super(VetThread, self).__init__(target=target, args=args) self.exc_info = None def run(self): try: super(VetThread, self).run() except: self.exc_info = sys.exc_info() def join_with_exception(self, reraise_exception): self.join() if reraise_exception and self.exc_info: raise self.exc_info[0].with_traceback(self.exc_info[1], self.exc_info[2]) def do_compile_go(args): raise_exception_from_vet = False if args.vet: run_vet = VetThread(target=do_vet, args=(args,)) run_vet.start() try: _do_compile_go(args) raise_exception_from_vet = True finally: if args.vet: run_vet.join_with_exception(raise_exception_from_vet) def do_compile_asm(args): assert len(args.srcs) == 1 and len(args.asm_srcs) == 1 cmd = [args.go_asm] cmd += get_trimpath_args(args) cmd += ['-I', args.output_root, '-I', os.path.join(args.pkg_root, 'include')] cmd += ['-D', 'GOOS_' + args.targ_os, '-D', 'GOARCH_' + args.targ_arch, '-o', args.output] # if compare_versions('1.16', args.goversion) >= 0: cmd += ['-p', args.import_path] if args.asm_flags: cmd += args.asm_flags cmd += args.asm_srcs call(cmd, args.build_root) def do_link_lib(args): if len(args.asm_srcs) > 0: asmargs = copy_args(args) asmargs.asmhdr = os.path.join(asmargs.output_root, 'go_asm.h') do_compile_go(asmargs) for src in asmargs.asm_srcs: asmargs.srcs = [src] asmargs.asm_srcs = [src] asmargs.output = os.path.join(asmargs.output_root, os.path.basename(src) + '.o') do_compile_asm(asmargs) args.objects.append(asmargs.output) else: do_compile_go(args) if args.objects or args.sysos: cmd = [args.go_pack, 'r', args.output] + args.objects + args.sysos call(cmd, args.build_root) def do_link_exe(args): assert args.extld is not None assert args.non_local_peers is not None compile_args = copy_args(args) compile_args.output = os.path.join(args.output_root, 'main.a') compile_args.real_import_path = compile_args.import_path compile_args.import_path = 'main' if args.vcs and os.path.isfile(compile_args.vcs): build_info = os.path.join('library', 'go', 'core', 'buildinfo') if any([x.startswith(build_info) for x in compile_args.peers]): compile_args.go_srcs.append(compile_args.vcs) do_link_lib(compile_args) cmd = [args.go_link, '-o', args.output] import_config_name = create_import_config( args.peers + args.non_local_peers, False, args.import_map, args.module_map ) if import_config_name: cmd += ['-importcfg', import_config_name] if args.link_flags: cmd += args.link_flags extldflags = [] if args.buildmode: cmd.append('-buildmode={}'.format(args.buildmode)) elif args.mode in ('exe', 'test'): mode = '-buildmode=exe' if 'ld.lld' in str(args): if '-fPIE' in str(args) or '-fPIC' in str(args): # support explicit PIE mode = '-buildmode=pie' else: extldflags.append('-Wl,-no-pie') cmd.append(mode) elif args.mode == 'dll': cmd.append('-buildmode=c-shared') else: assert False, 'Unexpected mode: {}'.format(args.mode) cmd.append('-extld={}'.format(args.extld)) if args.extldflags is not None: filter_musl = bool if args.musl: cmd.append('-linkmode=external') extldflags.append('-static') filter_musl = lambda x: x not in ('-lc', '-ldl', '-lm', '-lpthread', '-lrt') extldflags += [x for x in args.extldflags if filter_musl(x)] cgo_peers = [] if args.cgo_peers is not None and len(args.cgo_peers) > 0: is_group = args.targ_os == 'linux' if is_group: cgo_peers.append('-Wl,--start-group') cgo_peers.extend(args.cgo_peers) if is_group: cgo_peers.append('-Wl,--end-group') try: index = extldflags.index('--cgo-peers') extldflags = extldflags[:index] + cgo_peers + extldflags[index + 1 :] except ValueError: extldflags.extend(cgo_peers) if len(extldflags) > 0: cmd.append('-extldflags={}'.format(' '.join(extldflags))) cmd.append(compile_args.output) call(cmd, args.build_root) def gen_cover_info(args): lines = [] lines.extend( [ """ var ( coverCounters = make(map[string][]uint32) coverBlocks = make(map[string][]testing.CoverBlock) ) """, 'func init() {', ] ) for var, file in (x.split(':') for x in args.cover_info): lines.append( ' coverRegisterFile("{file}", _cover0.{var}.Count[:], _cover0.{var}.Pos[:], _cover0.{var}.NumStmt[:])'.format( file=file, var=var ) ) lines.extend( [ '}', """ func coverRegisterFile(fileName string, counter []uint32, pos []uint32, numStmts []uint16) { if 3*len(counter) != len(pos) || len(counter) != len(numStmts) { panic("coverage: mismatched sizes") } if coverCounters[fileName] != nil { // Already registered. return } coverCounters[fileName] = counter block := make([]testing.CoverBlock, len(counter)) for i := range counter { block[i] = testing.CoverBlock{ Line0: pos[3*i+0], Col0: uint16(pos[3*i+2]), Line1: pos[3*i+1], Col1: uint16(pos[3*i+2]>>16), Stmts: numStmts[i], } } coverBlocks[fileName] = block } """, ] ) return lines def filter_out_skip_tests(tests, skip_tests): skip_set = set() star_skip_set = set() for t in skip_tests: work_set = star_skip_set if '*' in t else skip_set work_set.add(t) re_star_tests = None if len(star_skip_set) > 0: re_star_tests = re.compile(re.sub(r'(\*)+', r'.\1', '^({})$'.format('|'.join(star_skip_set)))) return [x for x in tests if not (x in skip_tests or re_star_tests and re_star_tests.match(x))] @contextmanager def create_strip_symlink(): # This function creates symlink of llvm-strip as strip for golink needs. # We believe that cc-binaries path is a first element in PATH enviroment variable. tmpdir = None if os.getenv("CC") == "clang": tmpdir = tempfile.mkdtemp() cc_path = os.getenv("PATH").split(os.pathsep)[0] os.environ["PATH"] += os.pathsep + tmpdir src_strip_path = os.path.join(cc_path, 'llvm-strip') dst_strip_path = os.path.join(tmpdir, 'strip') os.symlink(src_strip_path, dst_strip_path) try: yield finally: if tmpdir: shutil.rmtree(tmpdir) def gen_test_main(args, test_lib_args, xtest_lib_args): assert args and (test_lib_args or xtest_lib_args) test_miner = args.test_miner test_module_path = test_lib_args.import_path if test_lib_args else xtest_lib_args.import_path is_cover = args.cover_info and len(args.cover_info) > 0 # Prepare GOPATH # $BINDIR # |- __go__ # |- src # |- pkg # |- ${TARGET_OS}_${TARGET_ARCH} go_path_root = os.path.join(args.output_root, '__go__') test_src_dir = os.path.join(go_path_root, 'src') target_os_arch = '_'.join([args.targ_os, args.targ_arch]) test_pkg_dir = os.path.join(go_path_root, 'pkg', target_os_arch, os.path.dirname(test_module_path)) os.makedirs(test_pkg_dir) my_env = os.environ.copy() my_env['GOROOT'] = '' my_env['GOPATH'] = go_path_root my_env['GOARCH'] = args.targ_arch my_env['GOOS'] = args.targ_os tests = [] xtests = [] os_symlink = get_symlink_or_copyfile() # Get the list of "internal" tests if test_lib_args: os.makedirs(os.path.join(test_src_dir, test_module_path)) os_symlink(test_lib_args.output, os.path.join(test_pkg_dir, os.path.basename(test_module_path) + '.a')) cmd = [test_miner, '-benchmarks', '-tests', test_module_path] tests = [x for x in (call(cmd, test_lib_args.output_root, my_env) or '').strip().split('\n') if len(x) > 0] if args.skip_tests: tests = filter_out_skip_tests(tests, args.skip_tests) test_main_found = '#TestMain' in tests # Get the list of "external" tests if xtest_lib_args: xtest_module_path = xtest_lib_args.import_path os.makedirs(os.path.join(test_src_dir, xtest_module_path)) os_symlink(xtest_lib_args.output, os.path.join(test_pkg_dir, os.path.basename(xtest_module_path) + '.a')) cmd = [test_miner, '-benchmarks', '-tests', xtest_module_path] xtests = [x for x in (call(cmd, xtest_lib_args.output_root, my_env) or '').strip().split('\n') if len(x) > 0] if args.skip_tests: xtests = filter_out_skip_tests(xtests, args.skip_tests) xtest_main_found = '#TestMain' in xtests test_main_package = None if test_main_found and xtest_main_found: assert False, 'multiple definition of TestMain' elif test_main_found: test_main_package = '_test' elif xtest_main_found: test_main_package = '_xtest' shutil.rmtree(go_path_root) lines = ['package main', '', 'import ('] if test_main_package is None: lines.append(' "os"') lines.extend([' "testing"', ' "testing/internal/testdeps"']) lines.extend([' _ "{}library/go/test/yatest"'.format(args.arc_project_prefix)]) if len(tests) > 0: lines.append(' _test "{}"'.format(test_module_path)) elif test_lib_args: lines.append(' _ "{}"'.format(test_module_path)) if len(xtests) > 0: lines.append(' _xtest "{}"'.format(xtest_module_path)) elif xtest_lib_args: lines.append(' _ "{}"'.format(xtest_module_path)) if is_cover: lines.append(' _cover0 "{}"'.format(test_module_path)) lines.extend([')', '']) if compare_versions('1.18', args.goversion) < 0: kinds = ['Test', 'Benchmark', 'Example'] else: kinds = ['Test', 'Benchmark', 'FuzzTarget', 'Example'] var_names = [] for kind in kinds: var_name = '{}s'.format(kind.lower()) var_names.append(var_name) lines.append('var {} = []testing.Internal{}{{'.format(var_name, kind)) for test in [x for x in tests if x.startswith(kind)]: lines.append(' {{"{test}", _test.{test}}},'.format(test=test)) for test in [x for x in xtests if x.startswith(kind)]: lines.append(' {{"{test}", _xtest.{test}}},'.format(test=test)) lines.extend(['}', '']) if is_cover: lines.extend(gen_cover_info(args)) lines.append('func main() {') if is_cover: lines.extend( [ ' testing.RegisterCover(testing.Cover{', ' Mode: "set",', ' Counters: coverCounters,', ' Blocks: coverBlocks,', ' CoveredPackages: "",', ' })', ] ) lines.extend( [ ' m := testing.MainStart(testdeps.TestDeps{{}}, {})'.format(', '.join(var_names)), '', ] ) if test_main_package: lines.append(' {}.TestMain(m)'.format(test_main_package)) else: lines.append(' os.Exit(m.Run())') lines.extend(['}', '']) content = '\n'.join(lines) # sys.stderr.write('{}\n'.format(content)) return content def do_link_test(args): assert args.srcs or args.xtest_srcs assert args.test_miner is not None test_module_path = get_source_path(args) test_import_path, _ = get_import_path(test_module_path) test_lib_args = copy_args(args) if args.srcs else None xtest_lib_args = copy_args(args) if args.xtest_srcs else None if xtest_lib_args is not None: xtest_lib_args.embed = args.embed_xtest if args.embed_xtest else None ydx_file_name = None xtest_ydx_file_name = None need_append_ydx = test_lib_args and xtest_lib_args and args.ydx_file and args.vet_flags if need_append_ydx: def find_ydx_file_name(name, flags): for i, elem in enumerate(flags): if elem.endswith(name): return (i, elem) assert False, 'Unreachable code' idx, ydx_file_name = find_ydx_file_name(xtest_lib_args.ydx_file, xtest_lib_args.vet_flags) xtest_ydx_file_name = '{}_xtest'.format(ydx_file_name) xtest_lib_args.vet_flags = copy.copy(xtest_lib_args.vet_flags) xtest_lib_args.vet_flags[idx] = xtest_ydx_file_name if test_lib_args: test_lib_args.output = os.path.join(args.output_root, 'test.a') test_lib_args.vet_report_output = vet_report_output_name(test_lib_args.output) test_lib_args.module_path = test_module_path test_lib_args.import_path = test_import_path do_link_lib(test_lib_args) if xtest_lib_args: xtest_lib_args.srcs = xtest_lib_args.xtest_srcs classify_srcs(xtest_lib_args.srcs, xtest_lib_args) xtest_lib_args.output = os.path.join(args.output_root, 'xtest.a') xtest_lib_args.vet_report_output = vet_report_output_name(xtest_lib_args.output) xtest_lib_args.module_path = test_module_path + '_test' xtest_lib_args.import_path = test_import_path + '_test' if test_lib_args: xtest_lib_args.module_map[test_import_path] = test_lib_args.output need_append_ydx = args.ydx_file and args.srcs and args.vet_flags do_link_lib(xtest_lib_args) if need_append_ydx: with open(os.path.join(args.build_root, ydx_file_name), 'ab') as dst_file: with open(os.path.join(args.build_root, xtest_ydx_file_name), 'rb') as src_file: dst_file.write(src_file.read()) test_main_content = gen_test_main(args, test_lib_args, xtest_lib_args) test_main_name = os.path.join(args.output_root, '_test_main.go') with open(test_main_name, "w") as f: f.write(test_main_content) test_args = copy_args(args) test_args.embed = None test_args.srcs = [test_main_name] if test_args.test_import_path is None: # it seems that we can do it unconditionally, but this kind # of mangling doesn't really looks good to me and we leave it # for pure GO_TEST module test_args.module_path = test_args.module_path + '___test_main__' test_args.import_path = test_args.import_path + '___test_main__' classify_srcs(test_args.srcs, test_args) if test_lib_args: test_args.module_map[test_lib_args.import_path] = test_lib_args.output if xtest_lib_args: test_args.module_map[xtest_lib_args.import_path] = xtest_lib_args.output if args.vet: dump_vet_report_for_tests(test_args, test_lib_args, xtest_lib_args) test_args.vet = False do_link_exe(test_args) if __name__ == '__main__': args = pcf.get_args(sys.argv[1:]) parser = argparse.ArgumentParser(prefix_chars='+') parser.add_argument('++mode', choices=['dll', 'exe', 'lib', 'test'], required=True) parser.add_argument('++buildmode', choices=['c-shared', 'exe', 'pie']) parser.add_argument('++srcs', nargs='*', required=True) parser.add_argument('++cgo-srcs', nargs='*') parser.add_argument('++test_srcs', nargs='*') parser.add_argument('++xtest_srcs', nargs='*') parser.add_argument('++cover_info', nargs='*') parser.add_argument('++output', nargs='?', default=None) parser.add_argument('++source-root', default=None) parser.add_argument('++build-root', required=True) parser.add_argument('++tools-root', default=None) parser.add_argument('++output-root', required=True) parser.add_argument('++toolchain-root', required=True) parser.add_argument('++host-os', choices=['linux', 'darwin', 'windows'], required=True) parser.add_argument('++host-arch', choices=['amd64', 'arm64'], required=True) parser.add_argument('++targ-os', choices=['linux', 'darwin', 'windows'], required=True) parser.add_argument('++targ-arch', choices=['amd64', 'x86', 'arm64'], required=True) parser.add_argument('++peers', nargs='*') parser.add_argument('++non-local-peers', nargs='*') parser.add_argument('++cgo-peers', nargs='*') parser.add_argument('++asmhdr', nargs='?', default=None) parser.add_argument('++test-import-path', nargs='?') parser.add_argument('++test-miner', nargs='?') parser.add_argument('++arc-project-prefix', nargs='?', default=arc_project_prefix) parser.add_argument('++std-lib-prefix', nargs='?', default=std_lib_prefix) parser.add_argument('++vendor-prefix', nargs='?', default=vendor_prefix) parser.add_argument('++extld', nargs='?', default=None) parser.add_argument('++extldflags', nargs='+', default=None) parser.add_argument('++goversion', required=True) parser.add_argument('++lang', nargs='?', default=None) parser.add_argument('++asm-flags', nargs='*') parser.add_argument('++compile-flags', nargs='*') parser.add_argument('++link-flags', nargs='*') parser.add_argument('++vcs', nargs='?', default=None) parser.add_argument('++vet', nargs='?', const=True, default=False) parser.add_argument('++vet-flags', nargs='*', default=None) parser.add_argument('++vet-info-ext', default=vet_info_ext) parser.add_argument('++vet-report-ext', default=vet_report_ext) parser.add_argument('++musl', action='store_true') parser.add_argument('++skip-tests', nargs='*', default=None) parser.add_argument('++ydx-file', default='') parser.add_argument('++debug-root-map', default=None) parser.add_argument('++embed', action='append', nargs='*') parser.add_argument('++embed_xtest', action='append', nargs='*') args = parser.parse_args(args) arc_project_prefix = args.arc_project_prefix std_lib_prefix = args.std_lib_prefix vendor_prefix = args.vendor_prefix vet_info_ext = args.vet_info_ext vet_report_ext = args.vet_report_ext preprocess_args(args) try: os.unlink(args.output) except OSError: pass # We are going to support only 'lib', 'exe' and 'cgo' build modes currently # and as a result we are going to generate only one build node per module # (or program) dispatch = {'exe': do_link_exe, 'dll': do_link_exe, 'lib': do_link_lib, 'test': do_link_test} exit_code = 1 try: with create_strip_symlink(): dispatch[args.mode](args) exit_code = 0 except subprocess.CalledProcessError as e: sys.stderr.write('{} returned non-zero exit code {}.\n{}\n'.format(' '.join(e.cmd), e.returncode, e.output)) exit_code = e.returncode sys.exit(exit_code)