#!/usr/bin/python2.7 -u # This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at http://mozilla.org/MPL/2.0/. """Run a task after performing common actions. This script is meant to be the "driver" for TaskCluster based tasks. It receives some common arguments to control the run-time environment. It performs actions as requested from the arguments. Then it executes the requested process and prints its output, prefixing it with the current time to improve log usefulness. """ from __future__ import absolute_import, print_function, unicode_literals import argparse import datetime import errno import json import os import re import socket import stat import subprocess import sys import urllib2 FINGERPRINT_URL = 'http://taskcluster/secrets/v1/secret/project/taskcluster/gecko/hgfingerprint' FALLBACK_FINGERPRINT = { 'fingerprints': "sha256:8e:ad:f7:6a:eb:44:06:15:ed:f3:e4:69:a6:64:60:37:2d:ff:98:88:37" ":bf:d7:b8:40:84:01:48:9c:26:ce:d9"} CACHE_UID_GID_MISMATCH = ''' There is a UID/GID mismatch on the cache. This likely means: a) different tasks are running as a different user/group b) different Docker images have different UID/GID for the same user/group Our cache policy is that the UID/GID for ALL tasks must be consistent for the lifetime of the cache. This eliminates permissions problems due to file/directory user/group ownership. To make this error go away, ensure that all Docker images are use a consistent UID/GID and that all tasks using this cache are running as the same user/group. ''' NON_EMPTY_VOLUME = ''' error: volume %s is not empty Our Docker image policy requires volumes to be empty. The volume was likely populated as part of building the Docker image. Change the Dockerfile and anything run from it to not create files in any VOLUME. A lesser possibility is that you stumbled upon a TaskCluster platform bug where it fails to use new volumes for tasks. ''' # The exit code to use when caches should be purged and the task retried. # This is EX_OSFILE (from sysexits.h): # Some system file does not exist, cannot be opened, or has some # sort of error (e.g., syntax error). EXIT_PURGE_CACHE = 72 IS_POSIX = os.name == 'posix' IS_WINDOWS = os.name == 'nt' def print_line(prefix, m): now = datetime.datetime.utcnow().isoformat() now = now[:-3] if now[-7] == '.' else now # slice microseconds to 3 decimals print(b'[%s %sZ] %s' % (prefix, now, m), end=b'') def run_and_prefix_output(prefix, args, extra_env=None): """Runs a process and prefixes its output with the time. Returns the process exit code. """ print_line(prefix, b'executing %s\n' % args) env = dict(os.environ) env.update(extra_env or {}) # Note: TaskCluster's stdin is a TTY. This attribute is lost # when we pass sys.stdin to the invoked process. If we cared # to preserve stdin as a TTY, we could make this work. But until # someone needs it, don't bother. p = subprocess.Popen(args, # Disable buffering because we want to receive output # as it is generated so timestamps in logs are # accurate. bufsize=0, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, stdin=sys.stdin.fileno(), cwd='/', env=env, # So \r in progress bars are rendered as multiple # lines, preserving progress indicators. universal_newlines=True) while True: data = p.stdout.readline() if data == b'': break print_line(prefix, data) return p.wait() def get_posix_user_group(user, group): import grp import pwd try: user_record = pwd.getpwnam(user) except KeyError: print('could not find user %s; specify a valid user with --user' % user) sys.exit(1) try: group_record = grp.getgrnam(group) except KeyError: print('could not find group %s; specify a valid group with --group' % group) sys.exit(1) # Most tasks use worker:worker. We require they have a specific numeric ID # because otherwise it is too easy for files written to caches to have # mismatched numeric IDs, which results in permissions errors. if user_record.pw_name == 'worker' and user_record.pw_uid != 1000: print('user `worker` must have uid=1000; got %d' % user_record.pw_uid) sys.exit(1) if group_record.gr_name == 'worker' and group_record.gr_gid != 1000: print('group `worker` must have gid=1000; got %d' % group_record.gr_gid) sys.exit(1) # Find all groups to which this user is a member. gids = [g.gr_gid for g in grp.getgrall() if group in g.gr_mem] return user_record, group_record, gids WANTED_DIR_MODE = stat.S_IXUSR | stat.S_IRUSR | stat.S_IWUSR def set_dir_permissions(path, uid, gid): st = os.lstat(path) if st.st_uid != uid or st.st_gid != gid: os.chown(path, uid, gid) # Also make sure dirs are writable in case we need to delete # them. if st.st_mode & WANTED_DIR_MODE != WANTED_DIR_MODE: os.chmod(path, st.st_mode | WANTED_DIR_MODE) def chown_recursive(path, user, group, uid, gid): print_line(b'chown', b'recursively changing ownership of %s to %s:%s\n' % (path, user, group)) set_dir_permissions(path, uid, gid) for root, dirs, files in os.walk(path): for d in dirs: set_dir_permissions(os.path.join(root, d), uid, gid) for f in files: # File may be a symlink that points to nowhere. In which case # os.chown() would fail because it attempts to follow the # symlink. We only care about directory entries, not what # they point to. So setting the owner of the symlink should # be sufficient. os.lchown(os.path.join(root, f), uid, gid) def vcs_checkout(source_repo, dest, store_path, base_repo=None, revision=None, branch=None, fetch_hgfingerprint=False, sparse_profile=None): # Specify method to checkout a revision. This defaults to revisions as # SHA-1 strings, but also supports symbolic revisions like `tip` via the # branch flag. if revision: revision_flag = b'--revision' revision_value = revision elif branch: revision_flag = b'--branch' revision_value = branch else: print('revision is not specified for checkout') sys.exit(1) if IS_POSIX: hg_bin = b'hg' elif IS_WINDOWS: # This is where OCC installs it in the AMIs. hg_bin = br'C:\Program Files\Mercurial\hg.exe' if not os.path.exists(hg_bin): print('could not find Mercurial executable: %s' % hg_bin) sys.exit(1) args = [ hg_bin, b'robustcheckout', b'--sharebase', store_path, b'--purge', ] # Obtain certificate fingerprints. Without this, the checkout will use the fingerprint # on the system, which is managed some other way (such as puppet) if fetch_hgfingerprint: try: print_line(b'vcs', 'fetching hg.mozilla.org fingerprint from %s\n' % FINGERPRINT_URL) res = urllib2.urlopen(FINGERPRINT_URL, timeout=10) secret = res.read() try: secret = json.loads(secret, encoding='utf-8') except ValueError: print_line(b'vcs', 'invalid JSON in hg fingerprint secret') sys.exit(1) except (urllib2.URLError, socket.timeout): print_line(b'vcs', 'Unable to retrieve current hg.mozilla.org fingerprint' 'using the secret service, using fallback instead.') # XXX This fingerprint will not be accurate if running on an old # revision after the server fingerprint has changed. secret = {'secret': FALLBACK_FINGERPRINT} hgmo_fingerprint = secret['secret']['fingerprints'].encode('ascii') args.extend([ b'--config', b'hostsecurity.hg.mozilla.org:fingerprints=%s' % hgmo_fingerprint, ]) if base_repo: args.extend([b'--upstream', base_repo]) if sparse_profile: args.extend([b'--sparseprofile', sparse_profile]) args.extend([ revision_flag, revision_value, source_repo, dest, ]) res = run_and_prefix_output(b'vcs', args, extra_env={b'PYTHONUNBUFFERED': b'1'}) if res: sys.exit(res) # Update the current revision hash and ensure that it is well formed. revision = subprocess.check_output( [hg_bin, b'log', b'--rev', b'.', b'--template', b'{node}'], cwd=dest) assert re.match('^[a-f0-9]{40}$', revision) repo_name = source_repo.split('/')[-1] print_line(b'vcs', b"TinderboxPrint:" b"{revision}\n".format( revision=revision, source_repo=source_repo, repo_name=repo_name, )) return revision def main(args): print_line(b'setup', b'run-task started\n') running_as_root = IS_POSIX and os.getuid() == 0 # Arguments up to '--' are ours. After are for the main task # to be executed. try: i = args.index('--') our_args = args[0:i] task_args = args[i + 1:] except ValueError: our_args = args task_args = [] parser = argparse.ArgumentParser() parser.add_argument('--user', default='worker', help='user to run as') parser.add_argument('--group', default='worker', help='group to run as') parser.add_argument('--vcs-checkout', help='Directory where Gecko checkout should be created') parser.add_argument('--sparse-profile', help='Path to sparse checkout profile to use') parser.add_argument('--comm-checkout', help='Directory where Comm checkout should be created') parser.add_argument('--tools-checkout', help='Directory where build/tools checkout should be created') parser.add_argument('--fetch-hgfingerprint', action='store_true', help='Fetch the latest hgfingerprint from the secrets store, ' 'using the taskclsuerProxy') args = parser.parse_args(our_args) # expand ~ in some paths if args.vcs_checkout: args.vcs_checkout = os.path.expanduser(args.vcs_checkout) if args.tools_checkout: args.tools_checkout = os.path.expanduser(args.tools_checkout) if 'HG_STORE_PATH' in os.environ: os.environ['HG_STORE_PATH'] = os.path.expanduser(os.environ['HG_STORE_PATH']) if IS_POSIX and running_as_root: user, group, gids = get_posix_user_group(args.user, args.group) uid = user.pw_uid gid = group.gr_gid else: uid = gid = gids = None # Validate caches. # # Taskgraph should pass in a list of paths that are caches via an # environment variable (which we don't want to pass down to child # processes). For each cache, we write out a special file denoting # attributes and capabilities of run-task and the task being executed. # These attributes are used by subsequent run-task invocations to # validate that use of the cache is acceptable. # # We /could/ blow away the cache data on requirements mismatch. # While this would be convenient, this could result in "competing" tasks # effectively undoing the other's work. This would slow down task # execution in aggregate. Without monitoring for this, people may not notice # the problem and tasks would be slower than they could be. We follow the # principle of "fail fast" to ensure optimal task execution. # # We also write an audit log of who used the caches. This log is printed # during failures to help aid debugging. if 'TASKCLUSTER_CACHES' in os.environ: caches = os.environ['TASKCLUSTER_CACHES'].split(';') del os.environ['TASKCLUSTER_CACHES'] else: caches = [] if 'TASKCLUSTER_UNTRUSTED_CACHES' in os.environ: untrusted_caches = True del os.environ['TASKCLUSTER_UNTRUSTED_CACHES'] else: untrusted_caches = False our_requirements = { # Include a version string that we can bump whenever to trigger # fresh caches. The actual value is not relevant and doesn't need # to follow any explicit order. Since taskgraph bakes this file's # hash into cache names, any change to this file/version is sufficient # to force the use of a new cache. b'version=1', } # Include the UID and GID the task will run as to ensure that tasks # with different UID and GID don't share the same cache. if uid is not None: our_requirements.add(b'uid=%d' % uid) if gid is not None: our_requirements.add(b'gid=%d' % gid) def write_audit_entry(path, msg): now = datetime.datetime.utcnow().isoformat() with open(path, 'ab') as fh: fh.write(b'[%sZ %s] %s\n' % ( now, os.environ.get('TASK_ID', 'UNKNOWN'), msg)) for cache in caches: if not os.path.isdir(cache): print('error: cache %s is not a directory; this should never ' 'happen' % cache) return 1 requires_path = os.path.join(cache, '.cacherequires') audit_path = os.path.join(cache, '.cachelog') # The cache is empty. Configure it. if not os.listdir(cache): print_line(b'cache', b'cache %s is empty; writing requirements: ' b'%s\n' % (cache, b' '.join(sorted(our_requirements)))) # We write a requirements file so future invocations know what the # requirements are. with open(requires_path, 'wb') as fh: fh.write(b'\n'.join(sorted(our_requirements))) # And make it read-only as a precaution against deletion. os.chmod(requires_path, stat.S_IRUSR | stat.S_IRGRP | stat.S_IROTH) write_audit_entry(audit_path, 'created; requirements: %s' % ', '.join(sorted(our_requirements))) set_dir_permissions(cache, uid, gid) # The cache has content and we have a requirements file. Validate # requirements alignment. elif os.path.exists(requires_path): with open(requires_path, 'rb') as fh: wanted_requirements = set(fh.read().splitlines()) print_line(b'cache', b'cache %s exists; requirements: %s\n' % ( cache, b' '.join(sorted(wanted_requirements)))) missing = wanted_requirements - our_requirements # Allow requirements mismatch for uid/gid if and only if caches # are untrusted. This allows cache behavior on Try to be # reasonable. Otherwise, random tasks could "poison" cache # usability by introducing uid/gid mismatches. For untrusted # environments like Try, this is a perfectly reasonable thing to # allow. if missing and untrusted_caches and running_as_root and \ all(s.startswith(('uid=', 'gid=')) for s in missing): print_line(b'cache', b'cache %s uid/gid mismatch; this is acceptable ' b'because caches for this task are untrusted; ' b'changing ownership to facilitate cache use\n' % cache) chown_recursive(cache, user.pw_name, group.gr_name, uid, gid) # And write out the updated reality. with open(requires_path, 'wb') as fh: fh.write(b'\n'.join(sorted(our_requirements))) write_audit_entry(audit_path, 'chown; requirements: %s' % ', '.join(sorted(our_requirements))) elif missing: print('error: requirements for populated cache %s differ from ' 'this task' % cache) print('cache requirements: %s' % ' '.join(sorted( wanted_requirements))) print('our requirements: %s' % ' '.join(sorted( our_requirements))) if any(s.startswith(('uid=', 'gid=')) for s in missing): print(CACHE_UID_GID_MISMATCH) write_audit_entry(audit_path, 'requirements mismatch; wanted: %s' % ', '.join(sorted(our_requirements))) print('') print('audit log:') with open(audit_path, 'rb') as fh: print(fh.read()) return EXIT_PURGE_CACHE else: write_audit_entry(audit_path, 'used') # We don't need to adjust permissions here because the cache is # associated with a uid/gid and the first task should have set # a proper owner/group. # The cache has content and no requirements file. This shouldn't # happen because run-task should be the first thing that touches a # cache. else: print('error: cache %s is not empty and is missing a ' '.cacherequires file; the cache names for this task are ' 'likely mis-configured or TASKCLUSTER_CACHES is not set ' 'properly' % cache) write_audit_entry(audit_path, 'missing .cacherequires') return EXIT_PURGE_CACHE if 'TASKCLUSTER_VOLUMES' in os.environ: volumes = os.environ['TASKCLUSTER_VOLUMES'].split(';') del os.environ['TASKCLUSTER_VOLUMES'] else: volumes = [] # Sanitize volumes. for volume in volumes: # If a volume is a cache, it was dealt with above. if volume in caches: print_line(b'volume', b'volume %s is a cache\n' % volume) continue # The only time we should see files in the volume is if the Docker # image build put files there. # # For the sake of simplicity, our policy is that volumes should be # empty. This also has the advantage that an empty volume looks # a lot like an empty cache. Tasks can rely on caches being # swapped in and out on any volume without any noticeable change # of behavior. volume_files = os.listdir(volume) if volume_files: print(NON_EMPTY_VOLUME % volume) print('entries in root directory: %s' % ' '.join(sorted(volume_files))) return 1 # The volume is almost certainly owned by root:root. Chown it so it # is writable. if running_as_root: print_line(b'volume', b'changing ownership of volume %s ' b'to %d:%d\n' % (volume, uid, gid)) set_dir_permissions(volume, uid, gid) all_caches_and_volumes = set(map(os.path.normpath, caches)) all_caches_and_volumes |= set(map(os.path.normpath, volumes)) def path_in_cache_or_volume(path): path = os.path.normpath(path) while path: if path in all_caches_and_volumes: return True path, child = os.path.split(path) if not child: break return False def prepare_checkout_dir(checkout): if not checkout: return # The checkout path becomes the working directory. Since there are # special cache files in the cache's root directory and working # directory purging could blow them away, disallow this scenario. if os.path.exists(os.path.join(checkout, '.cacherequires')): print('error: cannot perform vcs checkout into cache root: %s' % checkout) sys.exit(1) # TODO given the performance implications, consider making this a fatal # error. if not path_in_cache_or_volume(checkout): print_line(b'vcs', b'WARNING: vcs checkout path (%s) not in cache ' b'or volume; performance will likely suffer\n' % checkout) # Ensure the directory for the source checkout exists. try: os.makedirs(os.path.dirname(checkout)) except OSError as e: if e.errno != errno.EEXIST: raise # And that it is owned by the appropriate user/group. if running_as_root: os.chown(os.path.dirname(checkout), uid, gid) def prepare_hg_store_path(): # And ensure the shared store path exists and has proper permissions. if 'HG_STORE_PATH' not in os.environ: print('error: HG_STORE_PATH environment variable not set') sys.exit(1) store_path = os.environ['HG_STORE_PATH'] if not path_in_cache_or_volume(store_path): print_line(b'vcs', b'WARNING: HG_STORE_PATH (%s) not in cache or ' b'volume; performance will likely suffer\n' % store_path) try: os.makedirs(store_path) except OSError as e: if e.errno != errno.EEXIST: raise if running_as_root: os.chown(store_path, uid, gid) prepare_checkout_dir(args.vcs_checkout) prepare_checkout_dir(args.tools_checkout) if args.vcs_checkout or args.tools_checkout or args.comm_checkout: prepare_hg_store_path() if IS_POSIX and running_as_root: # Drop permissions to requested user. # This code is modeled after what `sudo` was observed to do in a Docker # container. We do not bother calling setrlimit() because containers have # their own limits. print_line(b'setup', b'running as %s:%s\n' % (args.user, args.group)) os.setgroups(gids) os.umask(022) os.setresgid(gid, gid, gid) os.setresuid(uid, uid, uid) # Checkout the repository, setting the GECKO_HEAD_REV to the current # revision hash. Revision hashes have priority over symbolic revisions. We # disallow running tasks with symbolic revisions unless they have been # resolved by a checkout. if args.vcs_checkout: base_repo = os.environ.get('GECKO_BASE_REPOSITORY') # Some callers set the base repository to mozilla-central for historical # reasons. Switch to mozilla-unified because robustcheckout works best # with it. if base_repo == 'https://hg.mozilla.org/mozilla-central': base_repo = b'https://hg.mozilla.org/mozilla-unified' os.environ['GECKO_HEAD_REV'] = vcs_checkout( os.environ['GECKO_HEAD_REPOSITORY'], args.vcs_checkout, os.environ['HG_STORE_PATH'], base_repo=base_repo, revision=os.environ.get('GECKO_HEAD_REV'), branch=os.environ.get('GECKO_HEAD_REF'), sparse_profile=args.sparse_profile) elif not os.environ.get('GECKO_HEAD_REV') and \ os.environ.get('GECKO_HEAD_REF'): print('task should be defined in terms of non-symbolic revision') return 1 if args.tools_checkout: vcs_checkout(b'https://hg.mozilla.org/build/tools', args.tools_checkout, os.environ['HG_STORE_PATH'], # Always check out the latest commit on default branch. # This is non-deterministic! branch=b'default') # Checkout the repository, setting the COMM_HEAD_REV to the current # revision hash. Revision hashes have priority over symbolic revisions. We # disallow running tasks with symbolic revisions unless they have been # resolved by a checkout. if args.comm_checkout: base_repo = os.environ.get('COMM_BASE_REPOSITORY') os.environ['COMM_HEAD_REV'] = vcs_checkout( os.environ['COMM_HEAD_REPOSITORY'], args.comm_checkout, os.environ['HG_STORE_PATH'], base_repo=base_repo, revision=os.environ.get('COMM_HEAD_REV'), branch=os.environ.get('COMM_HEAD_REF')) elif not os.environ.get('COMM_HEAD_REV') and \ os.environ.get('COMM_HEAD_REF'): print('task should be defined in terms of non-symbolic revision') return 1 return run_and_prefix_output(b'task', task_args) if __name__ == '__main__': # Unbuffer stdio. sys.stdout = os.fdopen(sys.stdout.fileno(), 'w', 0) sys.stderr = os.fdopen(sys.stderr.fileno(), 'w', 0) sys.exit(main(sys.argv[1:]))