import os import json import sys import subprocess import pytest import shutil class CMake: def __init__(self, factory): self.runs = dict() self.factory = factory def compile(self, targets, options=None): if options is None: options = dict() key = ( ";".join(targets), ";".join(f"{k}={v}" for k, v in options.items()), ) if key not in self.runs: cwd = self.factory.mktemp("cmake") self.runs[key] = cwd cmake(cwd, targets, options) return self.runs[key] def destroy(self): sourcedir = os.path.dirname(os.path.dirname(os.path.realpath(__file__))) coveragedir = os.path.join(sourcedir, "coverage") shutil.rmtree(coveragedir, ignore_errors=True) os.mkdir(coveragedir) if "llvm-cov" in os.environ.get("RUN_ANALYZER", ""): for i, d in enumerate(self.runs.values()): # first merge the raw profiling runs files = [f for f in os.listdir(d) if f.endswith(".profraw")] if len(files) == 0: continue cmd = [ "llvm-profdata", "merge", "-sparse", "-o=sentry.profdata", *files, ] print("{} > {}".format(d, " ".join(cmd))) subprocess.run(cmd, cwd=d) # then export lcov from the profiling data, since this needs access # to the object files, we need to do it per-test objects = [ "sentry_example", "sentry_test_unit", "libsentry.dylib" if sys.platform == "darwin" else "libsentry.so", ] cmd = [ "llvm-cov", "export", "-format=lcov", "-instr-profile=sentry.profdata", "--ignore-filename-regex=(external|vendor|tests|examples)", *[f"-object={o}" for o in objects if d.joinpath(o).exists()], ] lcov = os.path.join(coveragedir, f"run-{i}.lcov") with open(lcov, "w") as lcov_file: print("{} > {} > {}".format(d, " ".join(cmd), lcov)) subprocess.run(cmd, stdout=lcov_file, cwd=d) if "kcov" in os.environ.get("RUN_ANALYZER", ""): coverage_dirs = [ d for d in [d.joinpath("coverage") for d in self.runs.values()] if d.exists() ] if len(coverage_dirs) > 0: subprocess.run( [ "kcov", "--clean", "--merge", coveragedir, *coverage_dirs, ] ) def cmake(cwd, targets, options=None): __tracebackhide__ = True if options is None: options = {} options.update( { "CMAKE_RUNTIME_OUTPUT_DIRECTORY": cwd, "CMAKE_RUNTIME_OUTPUT_DIRECTORY_DEBUG": cwd, "CMAKE_RUNTIME_OUTPUT_DIRECTORY_RELEASE": cwd, } ) if os.environ.get("ANDROID_API") and os.environ.get("ANDROID_NDK"): # See: https://developer.android.com/ndk/guides/cmake toolchain = "{}/ndk/{}/build/cmake/android.toolchain.cmake".format( os.environ["ANDROID_HOME"], os.environ["ANDROID_NDK"] ) options.update( { "CMAKE_TOOLCHAIN_FILE": toolchain, "ANDROID_ABI": os.environ.get("ANDROID_ARCH") or "x86", "ANDROID_NATIVE_API_LEVEL": os.environ["ANDROID_API"], } ) source_dir = os.path.dirname(os.path.dirname(os.path.realpath(__file__))) cmake = ["cmake"] if "scan-build" in os.environ.get("RUN_ANALYZER", ""): cc = os.environ.get("CC") cxx = os.environ.get("CXX") cmake = [ "scan-build", *(["--use-cc", cc] if cc else []), *(["--use-c++", cxx] if cxx else []), "--status-bugs", "--exclude", os.path.join(source_dir, "external"), "cmake", ] configcmd = cmake.copy() for key, value in options.items(): configcmd.append("-D{}={}".format(key, value)) if sys.platform == "win32" and os.environ.get("TEST_X86"): configcmd.append("-AWin32") elif sys.platform == "linux" and os.environ.get("TEST_X86"): configcmd.append("-DSENTRY_BUILD_FORCE32=ON") if "asan" in os.environ.get("RUN_ANALYZER", ""): configcmd.append("-DWITH_ASAN_OPTION=ON") if "tsan" in os.environ.get("RUN_ANALYZER", ""): configcmd.append("-DWITH_TSAN_OPTION=ON") # we have to set `-Werror` for this cmake invocation only, otherwise # completely unrelated things will break cflags = [] if os.environ.get("ERROR_ON_WARNINGS"): cflags.append("-Werror") if sys.platform == "win32": # MP = object level parallelism, WX = warnings as errors cpus = os.cpu_count() cflags.append("/WX /MP{}".format(cpus)) if "gcc" in os.environ.get("RUN_ANALYZER", ""): cflags.append("-fanalyzer") if "llvm-cov" in os.environ.get("RUN_ANALYZER", ""): flags = "-fprofile-instr-generate -fcoverage-mapping" configcmd.append("-DCMAKE_C_FLAGS='{}'".format(flags)) configcmd.append("-DCMAKE_CXX_FLAGS='{}'".format(flags)) if "CMAKE_DEFINES" in os.environ: configcmd.extend(os.environ.get("CMAKE_DEFINES").split()) env = dict(os.environ) env["CFLAGS"] = env["CXXFLAGS"] = " ".join(cflags) configcmd.append(source_dir) print("\n{} > {}".format(cwd, " ".join(configcmd)), flush=True) try: subprocess.run(configcmd, cwd=cwd, env=env, check=True) except subprocess.CalledProcessError: raise pytest.fail.Exception("cmake configure failed") from None # CodeChecker invocations and options are documented here: # https://github.com/Ericsson/codechecker/blob/master/docs/analyzer/user_guide.md buildcmd = [*cmake, "--build", "."] for target in targets: buildcmd.extend(["--target", target]) buildcmd.append("--parallel") if "code-checker" in os.environ.get("RUN_ANALYZER", ""): buildcmd = [ "CodeChecker", "log", "--output", "compilation.json", "--build", " ".join(buildcmd), ] print("{} > {}".format(cwd, " ".join(buildcmd)), flush=True) try: subprocess.run(buildcmd, cwd=cwd, check=True) except subprocess.CalledProcessError: raise pytest.fail.Exception("cmake build failed") from None if "code-checker" in os.environ.get("RUN_ANALYZER", ""): # For whatever reason, the compilation summary contains duplicate entries, # one with the correct absolute path, and the other one just with the basename, # which would fail. with open(os.path.join(cwd, "compilation.json")) as f: compilation = json.load(f) compilation = list(filter(lambda c: c["file"].startswith("/"), compilation)) with open(os.path.join(cwd, "compilation.json"), "w") as f: json.dump(compilation, f) disable = [ "readability-magic-numbers", "cppcoreguidelines-avoid-magic-numbers", "readability-else-after-return", ] disables = ["--disable={}".format(d) for d in disable] checkcmd = [ "CodeChecker", "check", "--jobs", str(os.cpu_count()), # NOTE: The clang version on CI does not support CTU :-( # Also, when testing locally, CTU spews a ton of (possibly) false positives # "--ctu-all", # TODO: we currently get >300 reports with `enable-all` # "--enable-all", *disables, "--print-steps", "--ignore", os.path.join(source_dir, ".codechecker-ignore"), "--logfile", "compilation.json", ] print("{} > {}".format(cwd, " ".join(checkcmd)), flush=True) child = subprocess.run(checkcmd, cwd=cwd, check=True) if os.environ.get("ANDROID_API"): # copy the output to the android image via adb subprocess.run( [ "{}/platform-tools/adb".format(os.environ["ANDROID_HOME"]), "push", "./", "/data/local/tmp", ], cwd=cwd, check=True, )