#!/usr/bin/env python # Copyright 2017 the V8 project authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """\ Convenience wrapper for compiling V8 with gn/ninja and running tests. Sets up build output directories if they don't exist. Produces simulator builds for non-Intel target architectures. Uses Goma by default if it is detected (at output directory setup time). Expects to be run from the root of a V8 checkout. Usage: gm.py [].[[-]].[] [testname...] All arguments are optional. Most combinations should work, e.g.: gm.py ia32.debug x64.release x64.release-my-custom-opts d8 gm.py android_arm.release.check gm.py x64 mjsunit/foo cctest/test-bar/* """ # See HELP below for additional documentation. from __future__ import print_function import errno import os import re import subprocess import sys USE_PTY = "linux" in sys.platform if USE_PTY: import pty BUILD_TARGETS_TEST = ["d8", "cctest", "unittests"] BUILD_TARGETS_ALL = ["all"] # All arches that this script understands. ARCHES = ["ia32", "x64", "arm", "arm64", "mipsel", "mips64el", "ppc", "ppc64", "s390", "s390x", "android_arm", "android_arm64"] # Arches that get built/run when you don't specify any. DEFAULT_ARCHES = ["ia32", "x64", "arm", "arm64"] # Modes that this script understands. MODES = ["release", "debug", "optdebug"] # Modes that get built/run when you don't specify any. DEFAULT_MODES = ["release", "debug"] # Build targets that can be manually specified. TARGETS = ["d8", "cctest", "unittests", "v8_fuzzers", "mkgrokdump", "generate-bytecode-expectations", "inspector-test"] # Build targets that get built when you don't specify any (and specified tests # don't imply any other targets). DEFAULT_TARGETS = ["d8"] # Tests that run-tests.py would run by default that can be run with # BUILD_TARGETS_TESTS. DEFAULT_TESTS = ["cctest", "debugger", "intl", "message", "mjsunit", "preparser", "unittests"] # These can be suffixed to any . combo, or used standalone, # or used as global modifiers (affecting all . combos). ACTIONS = { "all": {"targets": BUILD_TARGETS_ALL, "tests": []}, "tests": {"targets": BUILD_TARGETS_TEST, "tests": []}, "check": {"targets": BUILD_TARGETS_TEST, "tests": DEFAULT_TESTS}, "checkall": {"targets": BUILD_TARGETS_ALL, "tests": ["ALL"]}, } HELP = """ can be any of: %(arches)s can be any of: %(modes)s can be any of: - cctest, d8, unittests, v8_fuzzers (build respective binary) - all (build all binaries) - tests (build test binaries) - check (build test binaries, run most tests) - checkall (build all binaries, run more tests) """ % {"arches": " ".join(ARCHES), "modes": " ".join(MODES)} TESTSUITES_TARGETS = {"benchmarks": "d8", "cctest": "cctest", "debugger": "d8", "fuzzer": "v8_fuzzers", "inspector": "inspector-test", "intl": "d8", "message": "d8", "mjsunit": "d8", "mozilla": "d8", "preparser": "d8", "test262": "d8", "unittests": "unittests", "webkit": "d8"} OUTDIR = "out" def DetectGoma(): home_goma = os.path.expanduser("~/goma") if os.path.exists(home_goma): return home_goma if os.environ.get("GOMA_DIR"): return os.environ.get("GOMA_DIR") if os.environ.get("GOMADIR"): return os.environ.get("GOMADIR") return None GOMADIR = DetectGoma() IS_GOMA_MACHINE = GOMADIR is not None USE_GOMA = "true" if IS_GOMA_MACHINE else "false" RELEASE_ARGS_TEMPLATE = """\ is_component_build = false is_debug = false %s use_goma = {GOMA} goma_dir = \"{GOMA_DIR}\" v8_enable_backtrace = true v8_enable_disassembler = true v8_enable_object_print = true v8_enable_verify_heap = true """.replace("{GOMA}", USE_GOMA).replace("{GOMA_DIR}", str(GOMADIR)) DEBUG_ARGS_TEMPLATE = """\ is_component_build = true is_debug = true symbol_level = 2 %s use_goma = {GOMA} goma_dir = \"{GOMA_DIR}\" v8_enable_backtrace = true v8_enable_fast_mksnapshot = true v8_enable_slow_dchecks = true v8_optimized_debug = false """.replace("{GOMA}", USE_GOMA).replace("{GOMA_DIR}", str(GOMADIR)) OPTDEBUG_ARGS_TEMPLATE = """\ is_component_build = true is_debug = true symbol_level = 1 %s use_goma = {GOMA} goma_dir = \"{GOMA_DIR}\" v8_enable_backtrace = true v8_enable_fast_mksnapshot = true v8_enable_verify_heap = true v8_optimized_debug = true """.replace("{GOMA}", USE_GOMA).replace("{GOMA_DIR}", str(GOMADIR)) ARGS_TEMPLATES = { "release": RELEASE_ARGS_TEMPLATE, "debug": DEBUG_ARGS_TEMPLATE, "optdebug": OPTDEBUG_ARGS_TEMPLATE } def PrintHelpAndExit(): print(__doc__) print(HELP) sys.exit(0) def _Call(cmd, silent=False): if not silent: print("# %s" % cmd) return subprocess.call(cmd, shell=True) def _CallWithOutputNoTerminal(cmd): return subprocess.check_output(cmd, stderr=subprocess.STDOUT, shell=True) def _CallWithOutput(cmd): print("# %s" % cmd) # The following trickery is required so that the 'cmd' thinks it's running # in a real terminal, while this script gets to intercept its output. master, slave = pty.openpty() p = subprocess.Popen(cmd, shell=True, stdin=slave, stdout=slave, stderr=slave) os.close(slave) output = [] try: while True: try: data = os.read(master, 512) except OSError as e: if e.errno != errno.EIO: raise break # EIO means EOF on some systems else: if not data: # EOF break print(data, end="") sys.stdout.flush() output.append(data) finally: os.close(master) p.wait() return p.returncode, "".join(output) def _Which(cmd): for path in os.environ["PATH"].split(os.pathsep): if os.path.exists(os.path.join(path, cmd)): return os.path.join(path, cmd) return None def _Write(filename, content): print("# echo > %s << EOF\n%sEOF" % (filename, content)) with open(filename, "w") as f: f.write(content) def _Notify(summary, body): if _Which('notify-send') is not None: _Call("notify-send '{}' '{}'".format(summary, body), silent=True) else: print("{} - {}".format(summary, body)) def GetPath(arch, mode): subdir = "%s.%s" % (arch, mode) return os.path.join(OUTDIR, subdir) def PrepareMksnapshotCmdline(orig_cmdline, path): result = "gdb --args %s/mksnapshot " % path for w in orig_cmdline.split(" "): if w.startswith("gen/") or w.startswith("snapshot_blob"): result += ("%(path)s%(sep)s%(arg)s " % {"path": path, "sep": os.sep, "arg": w}) else: result += "%s " % w return result class Config(object): def __init__(self, arch, mode, targets, tests=[]): self.arch = arch self.mode = mode self.targets = set(targets) self.tests = set(tests) def Extend(self, targets, tests=[]): self.targets.update(targets) self.tests.update(tests) def GetTargetCpu(self): if self.arch == "android_arm": return "target_cpu = \"arm\"" if self.arch == "android_arm64": return "target_cpu = \"arm64\"" cpu = "x86" if "64" in self.arch or self.arch == "s390x": cpu = "x64" return "target_cpu = \"%s\"" % cpu def GetV8TargetCpu(self): if self.arch == "android_arm": return "\nv8_target_cpu = \"arm\"" if self.arch == "android_arm64": return "\nv8_target_cpu = \"arm64\"" if self.arch in ("arm", "arm64", "mipsel", "mips64el", "ppc", "ppc64", "s390", "s390x"): return "\nv8_target_cpu = \"%s\"" % self.arch return "" def GetTargetOS(self): if self.arch in ("android_arm", "android_arm64"): return "\ntarget_os = \"android\"" return "" def GetGnArgs(self): # Use only substring before first '-' as the actual mode mode = re.match("([^-]+)", self.mode).group(1) template = ARGS_TEMPLATES[mode] arch_specific = (self.GetTargetCpu() + self.GetV8TargetCpu() + self.GetTargetOS()) return template % arch_specific def Build(self): path = GetPath(self.arch, self.mode) args_gn = os.path.join(path, "args.gn") build_ninja = os.path.join(path, "build.ninja") if not os.path.exists(path): print("# mkdir -p %s" % path) os.makedirs(path) if not os.path.exists(args_gn): _Write(args_gn, self.GetGnArgs()) if not os.path.exists(build_ninja): code = _Call("gn gen %s" % path) if code != 0: return code targets = " ".join(self.targets) # The implementation of mksnapshot failure detection relies on # the "pty" module and GDB presence, so skip it on non-Linux. if not USE_PTY: return _Call("autoninja -C %s %s" % (path, targets)) return_code, output = _CallWithOutput("autoninja -C %s %s" % (path, targets)) if return_code != 0 and "FAILED:" in output and "snapshot_blob" in output: csa_trap = re.compile("Specify option( --csa-trap-on-node=[^ ]*)") match = csa_trap.search(output) extra_opt = match.group(1) if match else "" cmdline = re.compile("python ../../tools/run.py ./mksnapshot (.*)") match = cmdline.search(output) cmdline = PrepareMksnapshotCmdline(match.group(1), path) + extra_opt _Notify("V8 build requires your attention", "Detected mksnapshot failure, re-running in GDB...") _Call(cmdline) return return_code def RunTests(self): if not self.tests: return 0 if "ALL" in self.tests: tests = "" else: tests = " ".join(self.tests) return _Call("tools/run-tests.py --outdir=%s %s" % (GetPath(self.arch, self.mode), tests)) def GetTestBinary(argstring): for suite in TESTSUITES_TARGETS: if argstring.startswith(suite): return TESTSUITES_TARGETS[suite] return None class ArgumentParser(object): def __init__(self): self.global_targets = set() self.global_tests = set() self.global_actions = set() self.configs = {} def PopulateConfigs(self, arches, modes, targets, tests): for a in arches: for m in modes: path = GetPath(a, m) if path not in self.configs: self.configs[path] = Config(a, m, targets, tests) else: self.configs[path].Extend(targets, tests) def ProcessGlobalActions(self): have_configs = len(self.configs) > 0 for action in self.global_actions: impact = ACTIONS[action] if (have_configs): for c in self.configs: self.configs[c].Extend(**impact) else: self.PopulateConfigs(DEFAULT_ARCHES, DEFAULT_MODES, **impact) def ParseArg(self, argstring): if argstring in ("-h", "--help", "help"): PrintHelpAndExit() arches = [] modes = [] targets = [] actions = [] tests = [] # Specifying a single unit test looks like "unittests/Foo.Bar". if argstring.startswith("unittests/"): words = [argstring] else: words = argstring.split('.') if len(words) == 1: word = words[0] if word in ACTIONS: self.global_actions.add(word) return if word in TARGETS: self.global_targets.add(word) return maybe_target = GetTestBinary(word) if maybe_target is not None: self.global_tests.add(word) self.global_targets.add(maybe_target) return for word in words: if word in ARCHES: arches.append(word) elif word in MODES: modes.append(word) elif word in TARGETS: targets.append(word) elif word in ACTIONS: actions.append(word) elif any(map(lambda x: word.startswith(x + "-"), MODES)): modes.append(word) else: print("Didn't understand: %s" % word) sys.exit(1) # Process actions. for action in actions: impact = ACTIONS[action] targets += impact["targets"] tests += impact["tests"] # Fill in defaults for things that weren't specified. arches = arches or DEFAULT_ARCHES modes = modes or DEFAULT_MODES targets = targets or DEFAULT_TARGETS # Produce configs. self.PopulateConfigs(arches, modes, targets, tests) def ParseArguments(self, argv): if len(argv) == 0: PrintHelpAndExit() for argstring in argv: self.ParseArg(argstring) self.ProcessGlobalActions() for c in self.configs: self.configs[c].Extend(self.global_targets, self.global_tests) return self.configs def Main(argv): parser = ArgumentParser() configs = parser.ParseArguments(argv[1:]) return_code = 0 # If we have Goma but it is not running, start it. if (GOMADIR is not None and _Call("ps -e | grep compiler_proxy > /dev/null", silent=True) != 0): _Call("%s/goma_ctl.py ensure_start" % GOMADIR) for c in configs: return_code += configs[c].Build() if return_code == 0: for c in configs: return_code += configs[c].RunTests() if return_code == 0: _Notify('Done!', 'V8 compilation finished successfully.') else: _Notify('Error!', 'V8 compilation finished with errors.') return return_code if __name__ == "__main__": sys.exit(Main(sys.argv))