#!/usr/bin/env python3 """ This script determines the given package's openbmc dependencies from its configure.ac file where it downloads, configures, builds, and installs each of these dependencies. Then the given package is configured, built, and installed prior to executing its unit tests. """ import argparse import multiprocessing import os import platform import re import shutil import subprocess import sys from subprocess import CalledProcessError, check_call from tempfile import TemporaryDirectory from urllib.parse import urljoin from git import Repo # interpreter is not used directly but this resolves dependency ordering # that would be broken if we didn't include it. from mesonbuild import interpreter # noqa: F401 from mesonbuild import coredata, optinterpreter from mesonbuild.mesonlib import OptionKey from mesonbuild.mesonlib import version_compare as meson_version_compare class DepTree: """ Represents package dependency tree, where each node is a DepTree with a name and DepTree children. """ def __init__(self, name): """ Create new DepTree. Parameter descriptions: name Name of new tree node. """ self.name = name self.children = list() def AddChild(self, name): """ Add new child node to current node. Parameter descriptions: name Name of new child """ new_child = DepTree(name) self.children.append(new_child) return new_child def AddChildNode(self, node): """ Add existing child node to current node. Parameter descriptions: node Tree node to add """ self.children.append(node) def RemoveChild(self, name): """ Remove child node. Parameter descriptions: name Name of child to remove """ for child in self.children: if child.name == name: self.children.remove(child) return def GetNode(self, name): """ Return node with matching name. Return None if not found. Parameter descriptions: name Name of node to return """ if self.name == name: return self for child in self.children: node = child.GetNode(name) if node: return node return None def GetParentNode(self, name, parent_node=None): """ Return parent of node with matching name. Return none if not found. Parameter descriptions: name Name of node to get parent of parent_node Parent of current node """ if self.name == name: return parent_node for child in self.children: found_node = child.GetParentNode(name, self) if found_node: return found_node return None def GetPath(self, name, path=None): """ Return list of node names from head to matching name. Return None if not found. Parameter descriptions: name Name of node path List of node names from head to current node """ if not path: path = [] if self.name == name: path.append(self.name) return path for child in self.children: match = child.GetPath(name, path + [self.name]) if match: return match return None def GetPathRegex(self, name, regex_str, path=None): """ Return list of node paths that end in name, or match regex_str. Return empty list if not found. Parameter descriptions: name Name of node to search for regex_str Regex string to match node names path Path of node names from head to current node """ new_paths = [] if not path: path = [] match = re.match(regex_str, self.name) if (self.name == name) or (match): new_paths.append(path + [self.name]) for child in self.children: return_paths = None full_path = path + [self.name] return_paths = child.GetPathRegex(name, regex_str, full_path) for i in return_paths: new_paths.append(i) return new_paths def MoveNode(self, from_name, to_name): """ Mode existing from_name node to become child of to_name node. Parameter descriptions: from_name Name of node to make a child of to_name to_name Name of node to make parent of from_name """ parent_from_node = self.GetParentNode(from_name) from_node = self.GetNode(from_name) parent_from_node.RemoveChild(from_name) to_node = self.GetNode(to_name) to_node.AddChildNode(from_node) def ReorderDeps(self, name, regex_str): """ Reorder dependency tree. If tree contains nodes with names that match 'name' and 'regex_str', move 'regex_str' nodes that are to the right of 'name' node, so that they become children of the 'name' node. Parameter descriptions: name Name of node to look for regex_str Regex string to match names to """ name_path = self.GetPath(name) if not name_path: return paths = self.GetPathRegex(name, regex_str) is_name_in_paths = False name_index = 0 for i in range(len(paths)): path = paths[i] if path[-1] == name: is_name_in_paths = True name_index = i break if not is_name_in_paths: return for i in range(name_index + 1, len(paths)): path = paths[i] if name in path: continue from_name = path[-1] self.MoveNode(from_name, name) def GetInstallList(self): """ Return post-order list of node names. Parameter descriptions: """ install_list = [] for child in self.children: child_install_list = child.GetInstallList() install_list.extend(child_install_list) install_list.append(self.name) return install_list def PrintTree(self, level=0): """ Print pre-order node names with indentation denoting node depth level. Parameter descriptions: level Current depth level """ INDENT_PER_LEVEL = 4 print(" " * (level * INDENT_PER_LEVEL) + self.name) for child in self.children: child.PrintTree(level + 1) def check_call_cmd(*cmd): """ Verbose prints the directory location the given command is called from and the command, then executes the command using check_call. Parameter descriptions: dir Directory location command is to be called from cmd List of parameters constructing the complete command """ printline(os.getcwd(), ">", " ".join(cmd)) check_call(cmd) def clone_pkg(pkg, branch): """ Clone the given openbmc package's git repository from gerrit into the WORKSPACE location Parameter descriptions: pkg Name of the package to clone branch Branch to clone from pkg """ pkg_dir = os.path.join(WORKSPACE, pkg) if os.path.exists(os.path.join(pkg_dir, ".git")): return pkg_dir pkg_repo = urljoin("https://gerrit.openbmc.org/openbmc/", pkg) os.mkdir(pkg_dir) printline(pkg_dir, "> git clone", pkg_repo, branch, "./") try: # first try the branch clone = Repo.clone_from(pkg_repo, pkg_dir, branch=branch) repo_inst = clone.working_dir except Exception: printline("Input branch not found, default to master") clone = Repo.clone_from(pkg_repo, pkg_dir, branch="master") repo_inst = clone.working_dir return repo_inst def make_target_exists(target): """ Runs a check against the makefile in the current directory to determine if the target exists so that it can be built. Parameter descriptions: target The make target we are checking """ try: cmd = ["make", "-n", target] with open(os.devnull, "w") as devnull: check_call(cmd, stdout=devnull, stderr=devnull) return True except CalledProcessError: return False make_parallel = [ "make", # Run enough jobs to saturate all the cpus "-j", str(multiprocessing.cpu_count()), # Don't start more jobs if the load avg is too high "-l", str(multiprocessing.cpu_count()), # Synchronize the output so logs aren't intermixed in stdout / stderr "-O", ] def build_and_install(name, build_for_testing=False): """ Builds and installs the package in the environment. Optionally builds the examples and test cases for package. Parameter description: name The name of the package we are building build_for_testing Enable options related to testing on the package? """ os.chdir(os.path.join(WORKSPACE, name)) # Refresh dynamic linker run time bindings for dependencies check_call_cmd("sudo", "-n", "--", "ldconfig") pkg = Package() if build_for_testing: pkg.test() else: pkg.install() def build_dep_tree(name, pkgdir, dep_added, head, branch, dep_tree=None): """ For each package (name), starting with the package to be unit tested, extract its dependencies. For each package dependency defined, recursively apply the same strategy Parameter descriptions: name Name of the package pkgdir Directory where package source is located dep_added Current dict of dependencies and added status head Head node of the dependency tree branch Branch to clone from pkg dep_tree Current dependency tree node """ if not dep_tree: dep_tree = head with open("/tmp/depcache", "r") as depcache: cache = depcache.readline() # Read out pkg dependencies pkg = Package(name, pkgdir) build = pkg.build_system() if not build: raise Exception(f"Unable to find build system for {name}.") for dep in set(build.dependencies()): if dep in cache: continue # Dependency package not already known if dep_added.get(dep) is None: print(f"Adding {dep} dependency to {name}.") # Dependency package not added new_child = dep_tree.AddChild(dep) dep_added[dep] = False dep_pkgdir = clone_pkg(dep, branch) # Determine this dependency package's # dependencies and add them before # returning to add this package dep_added = build_dep_tree( dep, dep_pkgdir, dep_added, head, branch, new_child ) else: # Dependency package known and added if dep_added[dep]: continue else: # Cyclic dependency failure raise Exception("Cyclic dependencies found in " + name) if not dep_added[name]: dep_added[name] = True return dep_added def run_cppcheck(): if not os.path.exists(os.path.join("build", "compile_commands.json")): return None with TemporaryDirectory() as cpp_dir: # http://cppcheck.sourceforge.net/manual.pdf try: check_call_cmd( "cppcheck", "-j", str(multiprocessing.cpu_count()), "--enable=style,performance,portability,missingInclude", "--suppress=useStlAlgorithm", "--suppress=unusedStructMember", "--suppress=postfixOperator", "--suppress=unreadVariable", "--suppress=knownConditionTrueFalse", "--library=googletest", "--project=build/compile_commands.json", f"--cppcheck-build-dir={cpp_dir}", ) except subprocess.CalledProcessError: print("cppcheck found errors") def is_valgrind_safe(): """ Returns whether it is safe to run valgrind on our platform """ src = "unit-test-vg.c" exe = "./unit-test-vg" with open(src, "w") as h: h.write("#include \n") h.write("#include \n") h.write("#include \n") h.write("#include \n") h.write("int main() {\n") h.write("char *heap_str = malloc(16);\n") h.write('strcpy(heap_str, "RandString");\n') h.write('int res = strcmp("RandString", heap_str);\n') h.write("free(heap_str);\n") h.write("char errstr[64];\n") h.write("strerror_r(EINVAL, errstr, sizeof(errstr));\n") h.write('printf("%s\\n", errstr);\n') h.write("return res;\n") h.write("}\n") try: with open(os.devnull, "w") as devnull: check_call( ["gcc", "-O2", "-o", exe, src], stdout=devnull, stderr=devnull ) check_call( ["valgrind", "--error-exitcode=99", exe], stdout=devnull, stderr=devnull, ) return True except Exception: sys.stderr.write("###### Platform is not valgrind safe ######\n") return False finally: os.remove(src) os.remove(exe) def is_sanitize_safe(): """ Returns whether it is safe to run sanitizers on our platform """ src = "unit-test-sanitize.c" exe = "./unit-test-sanitize" with open(src, "w") as h: h.write("int main() { return 0; }\n") try: with open(os.devnull, "w") as devnull: check_call( [ "gcc", "-O2", "-fsanitize=address", "-fsanitize=undefined", "-o", exe, src, ], stdout=devnull, stderr=devnull, ) check_call([exe], stdout=devnull, stderr=devnull) # TODO - Sanitizer not working on ppc64le # https://github.com/openbmc/openbmc-build-scripts/issues/31 if platform.processor() == "ppc64le": sys.stderr.write("###### ppc64le is not sanitize safe ######\n") return False else: return True except Exception: sys.stderr.write("###### Platform is not sanitize safe ######\n") return False finally: os.remove(src) os.remove(exe) def maybe_make_valgrind(): """ Potentially runs the unit tests through valgrind for the package via `make check-valgrind`. If the package does not have valgrind testing then it just skips over this. """ # Valgrind testing is currently broken by an aggressive strcmp optimization # that is inlined into optimized code for POWER by gcc 7+. Until we find # a workaround, just don't run valgrind tests on POWER. # https://github.com/openbmc/openbmc/issues/3315 if not is_valgrind_safe(): sys.stderr.write("###### Skipping valgrind ######\n") return if not make_target_exists("check-valgrind"): return try: cmd = make_parallel + ["check-valgrind"] check_call_cmd(*cmd) except CalledProcessError: for root, _, files in os.walk(os.getcwd()): for f in files: if re.search("test-suite-[a-z]+.log", f) is None: continue check_call_cmd("cat", os.path.join(root, f)) raise Exception("Valgrind tests failed") def maybe_make_coverage(): """ Potentially runs the unit tests through code coverage for the package via `make check-code-coverage`. If the package does not have code coverage testing then it just skips over this. """ if not make_target_exists("check-code-coverage"): return # Actually run code coverage try: cmd = make_parallel + ["check-code-coverage"] check_call_cmd(*cmd) except CalledProcessError: raise Exception("Code coverage failed") class BuildSystem(object): """ Build systems generally provide the means to configure, build, install and test software. The BuildSystem class defines a set of interfaces on top of which Autotools, Meson, CMake and possibly other build system drivers can be implemented, separating out the phases to control whether a package should merely be installed or also tested and analyzed. """ def __init__(self, package, path): """Initialise the driver with properties independent of the build system Keyword arguments: package: The name of the package. Derived from the path if None path: The path to the package. Set to the working directory if None """ self.path = "." if not path else path realpath = os.path.realpath(self.path) self.package = package if package else os.path.basename(realpath) self.build_for_testing = False def probe(self): """Test if the build system driver can be applied to the package Return True if the driver can drive the package's build system, otherwise False. Generally probe() is implemented by testing for the presence of the build system's configuration file(s). """ raise NotImplementedError def dependencies(self): """Provide the package's dependencies Returns a list of dependencies. If no dependencies are required then an empty list must be returned. Generally dependencies() is implemented by analysing and extracting the data from the build system configuration. """ raise NotImplementedError def configure(self, build_for_testing): """Configure the source ready for building Should raise an exception if configuration failed. Keyword arguments: build_for_testing: Mark the package as being built for testing rather than for installation as a dependency for the package under test. Setting to True generally implies that the package will be configured to build with debug information, at a low level of optimisation and possibly with sanitizers enabled. Generally configure() is implemented by invoking the build system tooling to generate Makefiles or equivalent. """ raise NotImplementedError def build(self): """Build the software ready for installation and/or testing Should raise an exception if the build fails Generally build() is implemented by invoking `make` or `ninja`. """ raise NotImplementedError def install(self): """Install the software ready for use Should raise an exception if installation fails Like build(), install() is generally implemented by invoking `make` or `ninja`. """ raise NotImplementedError def test(self): """Build and run the test suite associated with the package Should raise an exception if the build or testing fails. Like install(), test() is generally implemented by invoking `make` or `ninja`. """ raise NotImplementedError def analyze(self): """Run any supported analysis tools over the codebase Should raise an exception if analysis fails. Some analysis tools such as scan-build need injection into the build system. analyze() provides the necessary hook to implement such behaviour. Analyzers independent of the build system can also be specified here but at the cost of possible duplication of code between the build system driver implementations. """ raise NotImplementedError class Autotools(BuildSystem): def __init__(self, package=None, path=None): super(Autotools, self).__init__(package, path) def probe(self): return os.path.isfile(os.path.join(self.path, "configure.ac")) def dependencies(self): configure_ac = os.path.join(self.path, "configure.ac") contents = "" # Prepend some special function overrides so we can parse out # dependencies for macro in DEPENDENCIES.keys(): contents += ( "m4_define([" + macro + "], [" + macro + "_START$" + str(DEPENDENCIES_OFFSET[macro] + 1) + macro + "_END])\n" ) with open(configure_ac, "rt") as f: contents += f.read() autoconf_cmdline = ["autoconf", "-Wno-undefined", "-"] autoconf_process = subprocess.Popen( autoconf_cmdline, stdin=subprocess.PIPE, stdout=subprocess.PIPE, stderr=subprocess.PIPE, ) document = contents.encode("utf-8") (stdout, stderr) = autoconf_process.communicate(input=document) if not stdout: print(stderr) raise Exception("Failed to run autoconf for parsing dependencies") # Parse out all of the dependency text matches = [] for macro in DEPENDENCIES.keys(): pattern = "(" + macro + ")_START(.*?)" + macro + "_END" for match in re.compile(pattern).finditer(stdout.decode("utf-8")): matches.append((match.group(1), match.group(2))) # Look up dependencies from the text found_deps = [] for macro, deptext in matches: for potential_dep in deptext.split(" "): for known_dep in DEPENDENCIES[macro].keys(): if potential_dep.startswith(known_dep): found_deps.append(DEPENDENCIES[macro][known_dep]) return found_deps def _configure_feature(self, flag, enabled): """ Returns an configure flag as a string Parameters: flag The name of the flag enabled Whether the flag is enabled or disabled """ return "--" + ("enable" if enabled else "disable") + "-" + flag def configure(self, build_for_testing): self.build_for_testing = build_for_testing conf_flags = [ self._configure_feature("silent-rules", False), self._configure_feature("examples", build_for_testing), self._configure_feature("tests", build_for_testing), self._configure_feature("itests", INTEGRATION_TEST), ] conf_flags.extend( [ self._configure_feature("code-coverage", build_for_testing), self._configure_feature("valgrind", build_for_testing), ] ) # Add any necessary configure flags for package if CONFIGURE_FLAGS.get(self.package) is not None: conf_flags.extend(CONFIGURE_FLAGS.get(self.package)) for bootstrap in ["bootstrap.sh", "bootstrap", "autogen.sh"]: if os.path.exists(bootstrap): check_call_cmd("./" + bootstrap) break check_call_cmd("./configure", *conf_flags) def build(self): check_call_cmd(*make_parallel) def install(self): check_call_cmd("sudo", "-n", "--", *(make_parallel + ["install"])) def test(self): try: cmd = make_parallel + ["check"] for i in range(0, args.repeat): check_call_cmd(*cmd) maybe_make_valgrind() maybe_make_coverage() except CalledProcessError: for root, _, files in os.walk(os.getcwd()): if "test-suite.log" not in files: continue check_call_cmd("cat", os.path.join(root, "test-suite.log")) raise Exception("Unit tests failed") def analyze(self): run_cppcheck() class CMake(BuildSystem): def __init__(self, package=None, path=None): super(CMake, self).__init__(package, path) def probe(self): return os.path.isfile(os.path.join(self.path, "CMakeLists.txt")) def dependencies(self): return [] def configure(self, build_for_testing): self.build_for_testing = build_for_testing if INTEGRATION_TEST: check_call_cmd( "cmake", "-DCMAKE_EXPORT_COMPILE_COMMANDS=ON", "-DITESTS=ON", ".", ) else: check_call_cmd("cmake", "-DCMAKE_EXPORT_COMPILE_COMMANDS=ON", ".") def build(self): check_call_cmd( "cmake", "--build", ".", "--", "-j", str(multiprocessing.cpu_count()), ) def install(self): pass def test(self): if make_target_exists("test"): check_call_cmd("ctest", ".") def analyze(self): if os.path.isfile(".clang-tidy"): with TemporaryDirectory(prefix="build", dir=".") as build_dir: # clang-tidy needs to run on a clang-specific build check_call_cmd( "cmake", "-DCMAKE_C_COMPILER=clang", "-DCMAKE_CXX_COMPILER=clang++", "-DCMAKE_EXPORT_COMPILE_COMMANDS=ON", "-H.", "-B" + build_dir, ) check_call_cmd( "run-clang-tidy", "-header-filter=.*", "-p", build_dir ) maybe_make_valgrind() maybe_make_coverage() run_cppcheck() class Meson(BuildSystem): def __init__(self, package=None, path=None): super(Meson, self).__init__(package, path) def probe(self): return os.path.isfile(os.path.join(self.path, "meson.build")) def dependencies(self): meson_build = os.path.join(self.path, "meson.build") if not os.path.exists(meson_build): return [] found_deps = [] for root, dirs, files in os.walk(self.path): if "meson.build" not in files: continue with open(os.path.join(root, "meson.build"), "rt") as f: build_contents = f.read() pattern = r"dependency\('([^']*)'.*?\),?\n" for match in re.finditer(pattern, build_contents): group = match.group(1) maybe_dep = DEPENDENCIES["PKG_CHECK_MODULES"].get(group) if maybe_dep is not None: found_deps.append(maybe_dep) return found_deps def _parse_options(self, options_file): """ Returns a set of options defined in the provides meson_options.txt file Parameters: options_file The file containing options """ oi = optinterpreter.OptionInterpreter("") oi.process(options_file) return oi.options def _configure_boolean(self, val): """ Returns the meson flag which signifies the value True is true which requires the boolean. False is false which disables the boolean. Parameters: val The value being converted """ if val is True: return "true" elif val is False: return "false" else: raise Exception("Bad meson boolean value") def _configure_feature(self, val): """ Returns the meson flag which signifies the value True is enabled which requires the feature. False is disabled which disables the feature. None is auto which autodetects the feature. Parameters: val The value being converted """ if val is True: return "enabled" elif val is False: return "disabled" elif val is None: return "auto" else: raise Exception("Bad meson feature value") def _configure_option(self, opts, key, val): """ Returns the meson flag which signifies the value based on the type of the opt Parameters: opt The meson option which we are setting val The value being converted """ if isinstance(opts[key], coredata.UserBooleanOption): str_val = self._configure_boolean(val) elif isinstance(opts[key], coredata.UserFeatureOption): str_val = self._configure_feature(val) else: raise Exception("Unknown meson option type") return "-D{}={}".format(key, str_val) def configure(self, build_for_testing): self.build_for_testing = build_for_testing meson_options = {} if os.path.exists("meson_options.txt"): meson_options = self._parse_options("meson_options.txt") meson_flags = [ "-Db_colorout=never", "-Dwerror=true", "-Dwarning_level=3", ] if build_for_testing: meson_flags.append("--buildtype=debug") else: meson_flags.append("--buildtype=debugoptimized") if OptionKey("tests") in meson_options: meson_flags.append( self._configure_option( meson_options, OptionKey("tests"), build_for_testing ) ) if OptionKey("examples") in meson_options: meson_flags.append( self._configure_option( meson_options, OptionKey("examples"), build_for_testing ) ) if OptionKey("itests") in meson_options: meson_flags.append( self._configure_option( meson_options, OptionKey("itests"), INTEGRATION_TEST ) ) if MESON_FLAGS.get(self.package) is not None: meson_flags.extend(MESON_FLAGS.get(self.package)) try: check_call_cmd( "meson", "setup", "--reconfigure", "build", *meson_flags ) except Exception: shutil.rmtree("build", ignore_errors=True) check_call_cmd("meson", "setup", "build", *meson_flags) def build(self): check_call_cmd("ninja", "-C", "build") def install(self): check_call_cmd("sudo", "-n", "--", "ninja", "-C", "build", "install") def test(self): # It is useful to check various settings of the meson.build file # for compatibility, such as meson_version checks. We shouldn't # do this in the configure path though because it affects subprojects # and dependencies as well, but we only want this applied to the # project-under-test (otherwise an upstream dependency could fail # this check without our control). self._extra_meson_checks() try: test_args = ("--repeat", str(args.repeat), "-C", "build") check_call_cmd("meson", "test", "--print-errorlogs", *test_args) except CalledProcessError: raise Exception("Unit tests failed") def _setup_exists(self, setup): """ Returns whether the meson build supports the named test setup. Parameter descriptions: setup The setup target to check """ try: with open(os.devnull, "w"): output = subprocess.check_output( [ "meson", "test", "-C", "build", "--setup", setup, "-t", "0", ], stderr=subprocess.STDOUT, ) except CalledProcessError as e: output = e.output output = output.decode("utf-8") return not re.search("Test setup .* not found from project", output) def _maybe_valgrind(self): """ Potentially runs the unit tests through valgrind for the package via `meson test`. The package can specify custom valgrind configurations by utilizing add_test_setup() in a meson.build """ if not is_valgrind_safe(): sys.stderr.write("###### Skipping valgrind ######\n") return try: if self._setup_exists("valgrind"): check_call_cmd( "meson", "test", "-t", "10", "-C", "build", "--print-errorlogs", "--setup", "valgrind", ) else: check_call_cmd( "meson", "test", "-t", "10", "-C", "build", "--print-errorlogs", "--wrapper", "valgrind", ) except CalledProcessError: raise Exception("Valgrind tests failed") def analyze(self): self._maybe_valgrind() # Run clang-tidy only if the project has a configuration if os.path.isfile(".clang-tidy"): os.environ["CXX"] = "clang++" with TemporaryDirectory(prefix="build", dir=".") as build_dir: check_call_cmd("meson", "setup", build_dir) try: check_call_cmd( "run-clang-tidy", "-fix", "-format", "-p", build_dir ) except subprocess.CalledProcessError: check_call_cmd( "git", "-C", CODE_SCAN_DIR, "--no-pager", "diff" ) raise # Run the basic clang static analyzer otherwise else: check_call_cmd("ninja", "-C", "build", "scan-build") # Run tests through sanitizers # b_lundef is needed if clang++ is CXX since it resolves the # asan symbols at runtime only. We don't want to set it earlier # in the build process to ensure we don't have undefined # runtime code. if is_sanitize_safe(): check_call_cmd( "meson", "configure", "build", "-Db_sanitize=address,undefined", "-Db_lundef=false", ) check_call_cmd( "meson", "test", "-C", "build", "--print-errorlogs", "--logbase", "testlog-ubasan", ) # TODO: Fix memory sanitizer # check_call_cmd('meson', 'configure', 'build', # '-Db_sanitize=memory') # check_call_cmd('meson', 'test', '-C', 'build' # '--logbase', 'testlog-msan') check_call_cmd("meson", "configure", "build", "-Db_sanitize=none") else: sys.stderr.write("###### Skipping sanitizers ######\n") # Run coverage checks check_call_cmd("meson", "configure", "build", "-Db_coverage=true") self.test() # Only build coverage HTML if coverage files were produced for root, dirs, files in os.walk("build"): if any([f.endswith(".gcda") for f in files]): check_call_cmd("ninja", "-C", "build", "coverage-html") break check_call_cmd("meson", "configure", "build", "-Db_coverage=false") run_cppcheck() def _extra_meson_checks(self): with open(os.path.join(self.path, "meson.build"), "rt") as f: build_contents = f.read() # Find project's specified meson_version. meson_version = None pattern = r"meson_version:[^']*'([^']*)'" for match in re.finditer(pattern, build_contents): group = match.group(1) meson_version = group # C++20 requires at least Meson 0.57 but Meson itself doesn't # identify this. Add to our unit-test checks so that we don't # get a meson.build missing this. pattern = r"'cpp_std=c\+\+20'" for match in re.finditer(pattern, build_contents): if not meson_version or not meson_version_compare( meson_version, ">=0.57" ): raise Exception( "C++20 support requires specifying in meson.build: " + "meson_version: '>=0.57'" ) class Package(object): def __init__(self, name=None, path=None): self.supported = [Meson, Autotools, CMake] self.name = name self.path = path self.test_only = False def build_systems(self): instances = (system(self.name, self.path) for system in self.supported) return (instance for instance in instances if instance.probe()) def build_system(self, preferred=None): systems = list(self.build_systems()) if not systems: return None if preferred: return {type(system): system for system in systems}[preferred] return next(iter(systems)) def install(self, system=None): if not system: system = self.build_system() system.configure(False) system.build() system.install() def _test_one(self, system): system.configure(True) system.build() system.install() system.test() if not TEST_ONLY: system.analyze() def test(self): for system in self.build_systems(): self._test_one(system) def find_file(filename, basedir): """ Finds all occurrences of a file (or list of files) in the base directory and passes them back with their relative paths. Parameter descriptions: filename The name of the file (or list of files) to find basedir The base directory search in """ if not isinstance(filename, list): filename = [filename] filepaths = [] for root, dirs, files in os.walk(basedir): if os.path.split(root)[-1] == "subprojects": for f in files: subproject = ".".join(f.split(".")[0:-1]) if f.endswith(".wrap") and subproject in dirs: # don't find files in meson subprojects with wraps dirs.remove(subproject) for f in filename: if f in files: filepaths.append(os.path.join(root, f)) return filepaths if __name__ == "__main__": # CONFIGURE_FLAGS = [GIT REPO]:[CONFIGURE FLAGS] CONFIGURE_FLAGS = { "phosphor-logging": [ "--enable-metadata-processing", "--enable-openpower-pel-extension", "YAML_DIR=/usr/local/share/phosphor-dbus-yaml/yaml", ] } # MESON_FLAGS = [GIT REPO]:[MESON FLAGS] MESON_FLAGS = { "phosphor-dbus-interfaces": [ "-Ddata_com_ibm=true", "-Ddata_org_open_power=true", ], "phosphor-logging": ["-Dopenpower-pel-extension=enabled"], } # DEPENDENCIES = [MACRO]:[library/header]:[GIT REPO] DEPENDENCIES = { "AC_CHECK_LIB": {"mapper": "phosphor-objmgr"}, "AC_CHECK_HEADER": { "host-ipmid": "phosphor-host-ipmid", "blobs-ipmid": "phosphor-ipmi-blobs", "sdbusplus": "sdbusplus", "sdeventplus": "sdeventplus", "stdplus": "stdplus", "gpioplus": "gpioplus", "phosphor-logging/log.hpp": "phosphor-logging", }, "AC_PATH_PROG": {"sdbus++": "sdbusplus"}, "PKG_CHECK_MODULES": { "phosphor-dbus-interfaces": "phosphor-dbus-interfaces", "libipmid": "phosphor-host-ipmid", "libipmid-host": "phosphor-host-ipmid", "sdbusplus": "sdbusplus", "sdeventplus": "sdeventplus", "stdplus": "stdplus", "gpioplus": "gpioplus", "phosphor-logging": "phosphor-logging", "phosphor-snmp": "phosphor-snmp", "ipmiblob": "ipmi-blob-tool", "hei": "openpower-libhei", "phosphor-ipmi-blobs": "phosphor-ipmi-blobs", "libcr51sign": "google-misc", }, } # Offset into array of macro parameters MACRO(0, 1, ...N) DEPENDENCIES_OFFSET = { "AC_CHECK_LIB": 0, "AC_CHECK_HEADER": 0, "AC_PATH_PROG": 1, "PKG_CHECK_MODULES": 1, } # DEPENDENCIES_REGEX = [GIT REPO]:[REGEX STRING] DEPENDENCIES_REGEX = {"phosphor-logging": r"\S+-dbus-interfaces$"} # Set command line arguments parser = argparse.ArgumentParser() parser.add_argument( "-w", "--workspace", dest="WORKSPACE", required=True, help="Workspace directory location(i.e. /home)", ) parser.add_argument( "-p", "--package", dest="PACKAGE", required=True, help="OpenBMC package to be unit tested", ) parser.add_argument( "-t", "--test-only", dest="TEST_ONLY", action="store_true", required=False, default=False, help="Only run test cases, no other validation", ) arg_inttests = parser.add_mutually_exclusive_group() arg_inttests.add_argument( "--integration-tests", dest="INTEGRATION_TEST", action="store_true", required=False, default=True, help="Enable integration tests [default].", ) arg_inttests.add_argument( "--no-integration-tests", dest="INTEGRATION_TEST", action="store_false", required=False, help="Disable integration tests.", ) parser.add_argument( "-v", "--verbose", action="store_true", help="Print additional package status messages", ) parser.add_argument( "-r", "--repeat", help="Repeat tests N times", type=int, default=1 ) parser.add_argument( "-b", "--branch", dest="BRANCH", required=False, help="Branch to target for dependent repositories", default="master", ) parser.add_argument( "-n", "--noformat", dest="FORMAT", action="store_false", required=False, help="Whether or not to run format code", ) args = parser.parse_args(sys.argv[1:]) WORKSPACE = args.WORKSPACE UNIT_TEST_PKG = args.PACKAGE TEST_ONLY = args.TEST_ONLY INTEGRATION_TEST = args.INTEGRATION_TEST BRANCH = args.BRANCH FORMAT_CODE = args.FORMAT if args.verbose: def printline(*line): for arg in line: print(arg, end=" ") print() else: def printline(*line): pass CODE_SCAN_DIR = os.path.join(WORKSPACE, UNIT_TEST_PKG) # Run format-code.sh, which will in turn call any repo-level formatters. if FORMAT_CODE: check_call_cmd( os.path.join( WORKSPACE, "openbmc-build-scripts", "scripts", "format-code.sh" ), CODE_SCAN_DIR, ) # Check to see if any files changed check_call_cmd( "git", "-C", CODE_SCAN_DIR, "--no-pager", "diff", "--exit-code" ) # Check if this repo has a supported make infrastructure pkg = Package(UNIT_TEST_PKG, CODE_SCAN_DIR) if not pkg.build_system(): print("No valid build system, exit") sys.exit(0) prev_umask = os.umask(000) # Determine dependencies and add them dep_added = dict() dep_added[UNIT_TEST_PKG] = False # Create dependency tree dep_tree = DepTree(UNIT_TEST_PKG) build_dep_tree(UNIT_TEST_PKG, CODE_SCAN_DIR, dep_added, dep_tree, BRANCH) # Reorder Dependency Tree for pkg_name, regex_str in DEPENDENCIES_REGEX.items(): dep_tree.ReorderDeps(pkg_name, regex_str) if args.verbose: dep_tree.PrintTree() install_list = dep_tree.GetInstallList() # We don't want to treat our package as a dependency install_list.remove(UNIT_TEST_PKG) # Install reordered dependencies for dep in install_list: build_and_install(dep, False) # Run package unit tests build_and_install(UNIT_TEST_PKG, True) os.umask(prev_umask) # Run any custom CI scripts the repo has, of which there can be # multiple of and anywhere in the repository. ci_scripts = find_file(["run-ci.sh", "run-ci"], CODE_SCAN_DIR) if ci_scripts: os.chdir(CODE_SCAN_DIR) for ci_script in ci_scripts: check_call_cmd(ci_script)