#!/usr/bin/env python3 # Copyright (c) Meta Platforms, Inc. and affiliates. # # This source code is licensed under the MIT license found in the # LICENSE file in the root directory of this source tree. # pyre-unsafe import errno import hashlib import os import re import shutil import stat import subprocess import sys import tarfile import time import zipfile from datetime import datetime from typing import Dict, NamedTuple from urllib.parse import urlparse from urllib.request import Request, urlopen from .copytree import prefetch_dir_if_eden from .envfuncs import Env from .errors import TransientFailure from .platform import is_windows from .runcmd import run_cmd def file_name_is_cmake_file(file_name): file_name = file_name.lower() base = os.path.basename(file_name) return ( base.endswith(".cmake") or base.endswith(".cmake.in") or base == "cmakelists.txt" ) class ChangeStatus(object): """Indicates the nature of changes that happened while updating the source directory. There are two broad uses: * When extracting archives for third party software we want to know that we did something (eg: we either extracted code or we didn't do anything) * For 1st party code where we use shipit to transform the code, we want to know if we changed anything so that we can perform a build, but we generally want to be a little more nuanced and be able to distinguish between just changing a source file and whether we might need to reconfigure the build system. """ def __init__(self, all_changed: bool = False) -> None: """Construct a ChangeStatus object. The default is to create a status that indicates no changes, but passing all_changed=True will create one that indicates that everything changed""" if all_changed: self.source_files = 1 self.make_files = 1 else: self.source_files = 0 self.make_files = 0 def record_change(self, file_name) -> None: """Used by the shipit fetcher to record changes as it updates files in the destination. If the file name might be one used in the cmake build system that we use for 1st party code, then record that as a "make file" change. We could broaden this to match any file used by various build systems, but it is only really useful for our internal cmake stuff at this time. If the file isn't a build file and is under the `fbcode_builder` dir then we don't class that as an interesting change that we might need to rebuild, so we ignore it. Otherwise we record the file as a source file change.""" file_name = file_name.lower() if file_name_is_cmake_file(file_name): self.make_files += 1 elif "/fbcode_builder/cmake" in file_name: self.source_files += 1 elif "/fbcode_builder/" not in file_name: self.source_files += 1 def sources_changed(self) -> bool: """Returns true if any source files were changed during an update operation. This will typically be used to decide that the build system to be run on the source dir in an incremental mode""" return self.source_files > 0 def build_changed(self) -> bool: """Returns true if any build files were changed during an update operation. This will typically be used to decidfe that the build system should be reconfigured and re-run as a full build""" return self.make_files > 0 class Fetcher(object): """The Fetcher is responsible for fetching and extracting the sources for project. The Fetcher instance defines where the extracted data resides and reports this to the consumer via its `get_src_dir` method.""" def update(self) -> ChangeStatus: """Brings the src dir up to date, ideally minimizing changes so that a subsequent build doesn't over-build. Returns a ChangeStatus object that helps the caller to understand the nature of the changes required during the update.""" return ChangeStatus() def clean(self) -> None: """Reverts any changes that might have been made to the src dir""" pass def hash(self) -> None: """Returns a hash that identifies the version of the code in the working copy. For a git repo this is commit hash for the working copy. For other Fetchers this should relate to the version of the code in the src dir. The intent is that if a manifest changes the version/rev of a project that the hash be different. Importantly, this should be computable without actually fetching the code, as we want this to factor into a hash used to download a pre-built version of the code, without having to first download and extract its sources (eg: boost on windows is pretty painful). """ pass def get_src_dir(self) -> None: """Returns the source directory that the project was extracted into""" pass class LocalDirFetcher(object): """This class exists to override the normal fetching behavior, and use an explicit user-specified directory for the project sources. This fetcher cannot update or track changes. It always reports that the project has changed, forcing it to always be built.""" def __init__(self, path) -> None: self.path = os.path.realpath(path) def update(self) -> ChangeStatus: return ChangeStatus(all_changed=True) def hash(self) -> str: return "0" * 40 def get_src_dir(self): return self.path class SystemPackageFetcher(object): def __init__(self, build_options, packages) -> None: self.manager = build_options.host_type.get_package_manager() self.packages = packages.get(self.manager) self.host_type = build_options.host_type if self.packages: self.installed = None else: self.installed = False def packages_are_installed(self): if self.installed is not None: return self.installed cmd = None if self.manager == "rpm": cmd = ["rpm", "-q"] + sorted(self.packages) elif self.manager == "deb": cmd = ["dpkg", "-s"] + sorted(self.packages) elif self.manager == "homebrew": cmd = ["brew", "ls", "--versions"] + sorted(self.packages) if cmd: proc = subprocess.run(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE) if proc.returncode == 0: # captured as binary as we will hash this later self.installed = proc.stdout else: # Need all packages to be present to consider us installed self.installed = False else: self.installed = False return bool(self.installed) def update(self) -> ChangeStatus: assert self.installed return ChangeStatus(all_changed=False) def hash(self) -> str: if self.packages_are_installed(): return hashlib.sha256(self.installed).hexdigest() else: return "0" * 40 def get_src_dir(self) -> None: return None class PreinstalledNopFetcher(SystemPackageFetcher): def __init__(self) -> None: self.installed = True class GitFetcher(Fetcher): DEFAULT_DEPTH = 1 def __init__(self, build_options, manifest, repo_url, rev, depth) -> None: # Extract the host/path portions of the URL and generate a flattened # directory name. eg: # github.com/facebook/folly.git -> github.com-facebook-folly.git url = urlparse(repo_url) directory = "%s%s" % (url.netloc, url.path) for s in ["/", "\\", ":"]: directory = directory.replace(s, "-") # Place it in a repos dir in the scratch space repos_dir = os.path.join(build_options.scratch_dir, "repos") if not os.path.exists(repos_dir): os.makedirs(repos_dir) self.repo_dir = os.path.join(repos_dir, directory) if not rev and build_options.project_hashes: hash_file = os.path.join( build_options.project_hashes, re.sub("\\.git$", "-rev.txt", url.path[1:]), ) if os.path.exists(hash_file): with open(hash_file, "r") as f: data = f.read() m = re.match("Subproject commit ([a-fA-F0-9]{40})", data) if not m: raise Exception("Failed to parse rev from %s" % hash_file) rev = m.group(1) print("Using pinned rev %s for %s" % (rev, repo_url)) self.rev = rev or "main" self.origin_repo = repo_url self.manifest = manifest self.depth = depth if depth else GitFetcher.DEFAULT_DEPTH def _update(self) -> ChangeStatus: current_hash = ( subprocess.check_output(["git", "rev-parse", "HEAD"], cwd=self.repo_dir) .strip() .decode("utf-8") ) target_hash = ( subprocess.check_output(["git", "rev-parse", self.rev], cwd=self.repo_dir) .strip() .decode("utf-8") ) if target_hash == current_hash: # It's up to date, so there are no changes. This doesn't detect eg: # if origin/main moved and rev='main', but that's ok for our purposes; # we should be using explicit hashes or eg: a stable branch for the cases # that we care about, and it isn't unreasonable to require that the user # explicitly perform a clean build if those have moved. For the most # part we prefer that folks build using a release tarball from github # rather than use the git protocol, as it is generally a bit quicker # to fetch and easier to hash and verify tarball downloads. return ChangeStatus() print("Updating %s -> %s" % (self.repo_dir, self.rev)) run_cmd(["git", "fetch", "origin", self.rev], cwd=self.repo_dir) run_cmd(["git", "checkout", self.rev], cwd=self.repo_dir) run_cmd(["git", "submodule", "update", "--init"], cwd=self.repo_dir) return ChangeStatus(True) def update(self) -> ChangeStatus: if os.path.exists(self.repo_dir): return self._update() self._clone() return ChangeStatus(True) def _clone(self) -> None: print("Cloning %s..." % self.origin_repo) # The basename/dirname stuff allows us to dance around issues where # eg: this python process is native win32, but the git.exe is cygwin # or msys and doesn't like the absolute windows path that we'd otherwise # pass to it. Careful use of cwd helps avoid headaches with cygpath. run_cmd( [ "git", "clone", "--depth=" + str(self.depth), "--", self.origin_repo, os.path.basename(self.repo_dir), ], cwd=os.path.dirname(self.repo_dir), ) self._update() def clean(self) -> None: if os.path.exists(self.repo_dir): run_cmd(["git", "clean", "-fxd"], cwd=self.repo_dir) def hash(self): return self.rev def get_src_dir(self): return self.repo_dir def does_file_need_update(src_name, src_st, dest_name): try: target_st = os.lstat(dest_name) except OSError as exc: if exc.errno != errno.ENOENT: raise return True if src_st.st_size != target_st.st_size: return True if stat.S_IFMT(src_st.st_mode) != stat.S_IFMT(target_st.st_mode): return True if stat.S_ISLNK(src_st.st_mode): return os.readlink(src_name) != os.readlink(dest_name) if not stat.S_ISREG(src_st.st_mode): return True # They might have the same content; compare. with open(src_name, "rb") as sf, open(dest_name, "rb") as df: chunk_size = 8192 while True: src_data = sf.read(chunk_size) dest_data = df.read(chunk_size) if src_data != dest_data: return True if len(src_data) < chunk_size: # EOF break return False def copy_if_different(src_name, dest_name) -> bool: """Copy src_name -> dest_name, but only touch dest_name if src_name is different from dest_name, making this a more build system friendly way to copy.""" src_st = os.lstat(src_name) if not does_file_need_update(src_name, src_st, dest_name): return False dest_parent = os.path.dirname(dest_name) if not os.path.exists(dest_parent): os.makedirs(dest_parent) if stat.S_ISLNK(src_st.st_mode): try: os.unlink(dest_name) except OSError as exc: if exc.errno != errno.ENOENT: raise target = os.readlink(src_name) print("Symlinking %s -> %s" % (dest_name, target)) os.symlink(target, dest_name) else: print("Copying %s -> %s" % (src_name, dest_name)) shutil.copy2(src_name, dest_name) return True def list_files_under_dir_newer_than_timestamp(dir_to_scan, ts): for root, _dirs, files in os.walk(dir_to_scan): for src_file in files: full_name = os.path.join(root, src_file) st = os.lstat(full_name) if st.st_mtime > ts: yield full_name class ShipitPathMap(object): def __init__(self) -> None: self.roots = [] self.mapping = [] self.exclusion = [] def add_mapping(self, fbsource_dir, target_dir) -> None: """Add a posix path or pattern. We cannot normpath the input here because that would change the paths from posix to windows form and break the logic throughout this class.""" self.roots.append(fbsource_dir) self.mapping.append((fbsource_dir, target_dir)) def add_exclusion(self, pattern) -> None: self.exclusion.append(re.compile(pattern)) def _minimize_roots(self) -> None: """compute the de-duplicated set of roots within fbsource. We take the shortest common directory prefix to make this determination""" self.roots.sort(key=len) minimized = [] for r in self.roots: add_this_entry = True for existing in minimized: if r.startswith(existing + "/"): add_this_entry = False break if add_this_entry: minimized.append(r) self.roots = minimized def _sort_mapping(self) -> None: self.mapping.sort(reverse=True, key=lambda x: len(x[0])) def _map_name(self, norm_name, dest_root): if norm_name.endswith(".pyc") or norm_name.endswith(".swp"): # Ignore some incidental garbage while iterating return None for excl in self.exclusion: if excl.match(norm_name): return None for src_name, dest_name in self.mapping: if norm_name == src_name or norm_name.startswith(src_name + "/"): rel_name = os.path.relpath(norm_name, src_name) # We can have "." as a component of some paths, depending # on the contents of the shipit transformation section. # normpath doesn't always remove `.` as the final component # of the path, which be problematic when we later mkdir # the dirname of the path that we return. Take care to avoid # returning a path with a `.` in it. rel_name = os.path.normpath(rel_name) if dest_name == ".": return os.path.normpath(os.path.join(dest_root, rel_name)) dest_name = os.path.normpath(dest_name) return os.path.normpath(os.path.join(dest_root, dest_name, rel_name)) raise Exception("%s did not match any rules" % norm_name) def mirror(self, fbsource_root, dest_root) -> ChangeStatus: self._minimize_roots() self._sort_mapping() change_status = ChangeStatus() # Record the full set of files that should be in the tree full_file_list = set() if sys.platform == "win32": # Let's not assume st_dev has a consistent value on Windows. def st_dev(path): return 1 else: def st_dev(path): return os.lstat(path).st_dev for fbsource_subdir in self.roots: dir_to_mirror = os.path.join(fbsource_root, fbsource_subdir) root_dev = st_dev(dir_to_mirror) prefetch_dir_if_eden(dir_to_mirror) if not os.path.exists(dir_to_mirror): raise Exception( "%s doesn't exist; check your sparse profile!" % dir_to_mirror ) for root, dirs, files in os.walk(dir_to_mirror): dirs[:] = [d for d in dirs if root_dev == st_dev(os.path.join(root, d))] for src_file in files: full_name = os.path.join(root, src_file) rel_name = os.path.relpath(full_name, fbsource_root) norm_name = rel_name.replace("\\", "/") target_name = self._map_name(norm_name, dest_root) if target_name: full_file_list.add(target_name) if copy_if_different(full_name, target_name): change_status.record_change(target_name) # Compare the list of previously shipped files; if a file is # in the old list but not the new list then it has been # removed from the source and should be removed from the # destination. # Why don't we simply create this list by walking dest_root? # Some builds currently have to be in-source builds and # may legitimately need to keep some state in the source tree :-/ installed_name = os.path.join(dest_root, ".shipit_shipped") if os.path.exists(installed_name): with open(installed_name, "rb") as f: for name in f.read().decode("utf-8").splitlines(): name = name.strip() if name not in full_file_list: print("Remove %s" % name) os.unlink(name) change_status.record_change(name) with open(installed_name, "wb") as f: for name in sorted(list(full_file_list)): f.write(("%s\n" % name).encode("utf-8")) return change_status class FbsourceRepoData(NamedTuple): hash: str date: str FBSOURCE_REPO_DATA: Dict[str, FbsourceRepoData] = {} def get_fbsource_repo_data(build_options) -> FbsourceRepoData: """Returns the commit metadata for the fbsource repo. Since we may have multiple first party projects to hash, and because we don't mutate the repo, we cache this hash in a global.""" cached_data = FBSOURCE_REPO_DATA.get(build_options.fbsource_dir) if cached_data: return cached_data if "GETDEPS_HG_REPO_DATA" in os.environ: log_data = os.environ["GETDEPS_HG_REPO_DATA"] else: cmd = ["hg", "log", "-r.", "-T{node}\n{date|hgdate}"] env = Env() env.set("HGPLAIN", "1") log_data = subprocess.check_output( cmd, cwd=build_options.fbsource_dir, env=dict(env.items()) ).decode("ascii") (hash, datestr) = log_data.split("\n") # datestr is like "seconds fractionalseconds" # We want "20200324.113140" (unixtime, _fractional) = datestr.split(" ") date = datetime.fromtimestamp(int(unixtime)).strftime("%Y%m%d.%H%M%S") cached_data = FbsourceRepoData(hash=hash, date=date) FBSOURCE_REPO_DATA[build_options.fbsource_dir] = cached_data return cached_data class SimpleShipitTransformerFetcher(Fetcher): def __init__(self, build_options, manifest, ctx) -> None: self.build_options = build_options self.manifest = manifest self.repo_dir = os.path.join(build_options.scratch_dir, "shipit", manifest.name) self.ctx = ctx def clean(self) -> None: if os.path.exists(self.repo_dir): shutil.rmtree(self.repo_dir) def update(self) -> ChangeStatus: mapping = ShipitPathMap() for src, dest in self.manifest.get_section_as_ordered_pairs( "shipit.pathmap", self.ctx ): mapping.add_mapping(src, dest) if self.manifest.shipit_fbcode_builder: mapping.add_mapping( "fbcode/opensource/fbcode_builder", "build/fbcode_builder" ) for pattern in self.manifest.get_section_as_args("shipit.strip", self.ctx): mapping.add_exclusion(pattern) return mapping.mirror(self.build_options.fbsource_dir, self.repo_dir) # pyre-fixme[15]: `hash` overrides method defined in `Fetcher` inconsistently. def hash(self) -> str: # We return a fixed non-hash string for in-fbsource builds. # We're relying on the `update` logic to correctly invalidate # the build in the case that files have changed. return "fbsource" def get_src_dir(self): return self.repo_dir class ShipitTransformerFetcher(Fetcher): SHIPIT = "/var/www/scripts/opensource/shipit/run_shipit.php" def __init__(self, build_options, project_name) -> None: self.build_options = build_options self.project_name = project_name self.repo_dir = os.path.join(build_options.scratch_dir, "shipit", project_name) def update(self) -> ChangeStatus: if os.path.exists(self.repo_dir): return ChangeStatus() self.run_shipit() return ChangeStatus(True) def clean(self) -> None: if os.path.exists(self.repo_dir): shutil.rmtree(self.repo_dir) @classmethod def available(cls): return os.path.exists(cls.SHIPIT) def run_shipit(self) -> None: tmp_path = self.repo_dir + ".new" try: if os.path.exists(tmp_path): shutil.rmtree(tmp_path) # Run shipit run_cmd( [ "php", ShipitTransformerFetcher.SHIPIT, "--project=" + self.project_name, "--create-new-repo", "--source-repo-dir=" + self.build_options.fbsource_dir, "--source-branch=.", "--skip-source-init", "--skip-source-pull", "--skip-source-clean", "--skip-push", "--skip-reset", "--destination-use-anonymous-https", "--create-new-repo-output-path=" + tmp_path, ] ) # Remove the .git directory from the repository it generated. # There is no need to commit this. repo_git_dir = os.path.join(tmp_path, ".git") shutil.rmtree(repo_git_dir) os.rename(tmp_path, self.repo_dir) except Exception: # Clean up after a failed extraction if os.path.exists(tmp_path): shutil.rmtree(tmp_path) self.clean() raise # pyre-fixme[15]: `hash` overrides method defined in `Fetcher` inconsistently. def hash(self) -> str: # We return a fixed non-hash string for in-fbsource builds. return "fbsource" def get_src_dir(self): return self.repo_dir def download_url_to_file_with_progress(url: str, file_name) -> None: print("Download with %s -> %s ..." % (url, file_name)) class Progress(object): last_report = 0 def write_update(self, total, amount): if total == -1: total = "(Unknown)" if sys.stdout.isatty(): sys.stdout.write("\r downloading %s of %s " % (amount, total)) else: # When logging to CI logs, avoid spamming the logs and print # status every few seconds now = time.time() if now - self.last_report > 5: sys.stdout.write(".. %s of %s " % (amount, total)) self.last_report = now sys.stdout.flush() def progress_pycurl(self, total, amount, _uploadtotal, _uploadamount): self.write_update(total, amount) progress = Progress() start = time.time() try: if os.environ.get("GETDEPS_USE_WGET") is not None: procargs = ( [ "wget", ] + os.environ.get("GETDEPS_WGET_ARGS", "").split() + [ "-O", file_name, url, ] ) subprocess.run(procargs, capture_output=True) headers = None elif os.environ.get("GETDEPS_USE_LIBCURL") is not None: import pycurl with open(file_name, "wb") as f: c = pycurl.Curl() c.setopt(pycurl.URL, url) c.setopt(pycurl.WRITEDATA, f) # display progress c.setopt(pycurl.NOPROGRESS, False) c.setopt(pycurl.XFERINFOFUNCTION, progress.progress_pycurl) c.perform() c.close() headers = None else: req_header = {"Accept": "application/*"} res = urlopen(Request(url, None, req_header)) chunk_size = 8192 # urlretrieve uses this value headers = res.headers content_length = res.headers.get("Content-Length") total = int(content_length.strip()) if content_length else -1 amount = 0 with open(file_name, "wb") as f: chunk = res.read(chunk_size) while chunk: f.write(chunk) amount += len(chunk) progress.write_update(total, amount) chunk = res.read(chunk_size) except (OSError, IOError) as exc: # noqa: B014 raise TransientFailure( "Failed to download %s to %s: %s" % (url, file_name, str(exc)) ) end = time.time() sys.stdout.write(" [Complete in %f seconds]\n" % (end - start)) sys.stdout.flush() if headers is not None: print(f"{headers}") class ArchiveFetcher(Fetcher): def __init__(self, build_options, manifest, url, sha256) -> None: self.manifest = manifest self.url = url self.sha256 = sha256 self.build_options = build_options url = urlparse(self.url) basename = "%s-%s" % (manifest.name, os.path.basename(url.path)) self.file_name = os.path.join(build_options.scratch_dir, "downloads", basename) self.src_dir = os.path.join(build_options.scratch_dir, "extracted", basename) self.hash_file = self.src_dir + ".hash" def _verify_hash(self) -> None: h = hashlib.sha256() with open(self.file_name, "rb") as f: while True: block = f.read(8192) if not block: break h.update(block) digest = h.hexdigest() if digest != self.sha256: os.unlink(self.file_name) raise Exception( "%s: expected sha256 %s but got %s" % (self.url, self.sha256, digest) ) def _download_dir(self): """returns the download dir, creating it if it doesn't already exist""" download_dir = os.path.dirname(self.file_name) if not os.path.exists(download_dir): os.makedirs(download_dir) return download_dir def _download(self) -> None: self._download_dir() download_url_to_file_with_progress(self.url, self.file_name) self._verify_hash() def clean(self) -> None: if os.path.exists(self.src_dir): shutil.rmtree(self.src_dir) def update(self) -> ChangeStatus: try: with open(self.hash_file, "r") as f: saved_hash = f.read().strip() if saved_hash == self.sha256 and os.path.exists(self.src_dir): # Everything is up to date return ChangeStatus() print( "saved hash %s doesn't match expected hash %s, re-validating" % (saved_hash, self.sha256) ) os.unlink(self.hash_file) except EnvironmentError: pass # If we got here we know the contents of src_dir are either missing # or wrong, so blow away whatever happened to be there first. if os.path.exists(self.src_dir): shutil.rmtree(self.src_dir) # If we already have a file here, make sure it looks legit before # proceeding: any errors and we just remove it and re-download if os.path.exists(self.file_name): try: self._verify_hash() except Exception: if os.path.exists(self.file_name): os.unlink(self.file_name) if not os.path.exists(self.file_name): self._download() if tarfile.is_tarfile(self.file_name): opener = tarfile.open elif zipfile.is_zipfile(self.file_name): opener = zipfile.ZipFile else: raise Exception("don't know how to extract %s" % self.file_name) os.makedirs(self.src_dir) print("Extract %s -> %s" % (self.file_name, self.src_dir)) t = opener(self.file_name) if is_windows(): # Ensure that we don't fall over when dealing with long paths # on windows src = r"\\?\%s" % os.path.normpath(self.src_dir) else: src = self.src_dir # The `str` here is necessary to ensure that we don't pass a unicode # object down to tarfile.extractall on python2. When extracting # the boost tarball it makes some assumptions and tries to convert # a non-ascii path to ascii and throws. src = str(src) t.extractall(src) with open(self.hash_file, "w") as f: f.write(self.sha256) return ChangeStatus(True) def hash(self): return self.sha256 def get_src_dir(self): return self.src_dir def homebrew_package_prefix(package): cmd = ["brew", "--prefix", package] try: proc = subprocess.run(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE) except FileNotFoundError: return if proc.returncode == 0: return proc.stdout.decode("utf-8").rstrip()