def download_fn(args): """Download buildcache entry from a remote mirror to local folder. This command uses the process exit code to indicate its result, specifically, a non-zero exit code indicates that the command failed to download at least one of the required buildcache components.""" if not args.spec and not args.spec_file: tty.msg('No specs provided, exiting.') sys.exit(0) if not args.path: tty.msg('No download path provided, exiting') sys.exit(0) spec = _concrete_spec_from_args(args) result = bindist.download_single_spec(spec, args.path) if not result: sys.exit(1)
def download_fn(args): """Download buildcache entry from a remote mirror to local folder. This command uses the process exit code to indicate its result, specifically, a non-zero exit code indicates that the command failed to download at least one of the required buildcache components. Normally, just the tarball and .spec.json files are required, but if the --require-cdashid argument was provided, then a .cdashid file is also required.""" if not args.spec and not args.spec_file: tty.msg('No specs provided, exiting.') sys.exit(0) if not args.path: tty.msg('No download path provided, exiting') sys.exit(0) spec = _concrete_spec_from_args(args) result = bindist.download_single_spec(spec, args.path, require_cdashid=args.require_cdashid) if not result: sys.exit(1)
def ci_rebuild(args): """Check a single spec against the remote mirror, and rebuild it from source if the mirror does not contain the hash. """ env = spack.cmd.require_active_env(cmd_name='ci rebuild') # Make sure the environment is "gitlab-enabled", or else there's nothing # to do. yaml_root = ev.config_dict(env.yaml) gitlab_ci = None if 'gitlab-ci' in yaml_root: gitlab_ci = yaml_root['gitlab-ci'] if not gitlab_ci: tty.die('spack ci rebuild requires an env containing gitlab-ci cfg') tty.msg('SPACK_BUILDCACHE_DESTINATION={0}'.format( os.environ.get('SPACK_BUILDCACHE_DESTINATION', None))) # Grab the environment variables we need. These either come from the # pipeline generation step ("spack ci generate"), where they were written # out as variables, or else provided by GitLab itself. pipeline_artifacts_dir = get_env_var('SPACK_ARTIFACTS_ROOT') job_log_dir = get_env_var('SPACK_JOB_LOG_DIR') repro_dir = get_env_var('SPACK_JOB_REPRO_DIR') local_mirror_dir = get_env_var('SPACK_LOCAL_MIRROR_DIR') concrete_env_dir = get_env_var('SPACK_CONCRETE_ENV_DIR') ci_pipeline_id = get_env_var('CI_PIPELINE_ID') ci_job_name = get_env_var('CI_JOB_NAME') signing_key = get_env_var('SPACK_SIGNING_KEY') root_spec = get_env_var('SPACK_ROOT_SPEC') job_spec_pkg_name = get_env_var('SPACK_JOB_SPEC_PKG_NAME') compiler_action = get_env_var('SPACK_COMPILER_ACTION') cdash_build_name = get_env_var('SPACK_CDASH_BUILD_NAME') spack_pipeline_type = get_env_var('SPACK_PIPELINE_TYPE') remote_mirror_override = get_env_var('SPACK_REMOTE_MIRROR_OVERRIDE') remote_mirror_url = get_env_var('SPACK_REMOTE_MIRROR_URL') # Construct absolute paths relative to current $CI_PROJECT_DIR ci_project_dir = get_env_var('CI_PROJECT_DIR') pipeline_artifacts_dir = os.path.join(ci_project_dir, pipeline_artifacts_dir) job_log_dir = os.path.join(ci_project_dir, job_log_dir) repro_dir = os.path.join(ci_project_dir, repro_dir) local_mirror_dir = os.path.join(ci_project_dir, local_mirror_dir) concrete_env_dir = os.path.join(ci_project_dir, concrete_env_dir) # Debug print some of the key environment variables we should have received tty.debug('pipeline_artifacts_dir = {0}'.format(pipeline_artifacts_dir)) tty.debug('root_spec = {0}'.format(root_spec)) tty.debug('remote_mirror_url = {0}'.format(remote_mirror_url)) tty.debug('job_spec_pkg_name = {0}'.format(job_spec_pkg_name)) tty.debug('compiler_action = {0}'.format(compiler_action)) # Query the environment manifest to find out whether we're reporting to a # CDash instance, and if so, gather some information from the manifest to # support that task. enable_cdash = False if 'cdash' in yaml_root: enable_cdash = True ci_cdash = yaml_root['cdash'] job_spec_buildgroup = ci_cdash['build-group'] cdash_base_url = ci_cdash['url'] cdash_project = ci_cdash['project'] proj_enc = urlencode({'project': cdash_project}) eq_idx = proj_enc.find('=') + 1 cdash_project_enc = proj_enc[eq_idx:] cdash_site = ci_cdash['site'] tty.debug('cdash_base_url = {0}'.format(cdash_base_url)) tty.debug('cdash_project = {0}'.format(cdash_project)) tty.debug('cdash_project_enc = {0}'.format(cdash_project_enc)) tty.debug('cdash_build_name = {0}'.format(cdash_build_name)) tty.debug('cdash_site = {0}'.format(cdash_site)) tty.debug('job_spec_buildgroup = {0}'.format(job_spec_buildgroup)) # Is this a pipeline run on a spack PR or a merge to develop? It might # be neither, e.g. a pipeline run on some environment repository. spack_is_pr_pipeline = spack_pipeline_type == 'spack_pull_request' spack_is_develop_pipeline = spack_pipeline_type == 'spack_protected_branch' tty.debug('Pipeline type - PR: {0}, develop: {1}'.format( spack_is_pr_pipeline, spack_is_develop_pipeline)) # If no override url exists, then just push binary package to the # normal remote mirror url. buildcache_mirror_url = remote_mirror_override or remote_mirror_url # Figure out what is our temporary storage mirror: Is it artifacts # buildcache? Or temporary-storage-url-prefix? In some cases we need to # force something or pipelines might not have a way to propagate build # artifacts from upstream to downstream jobs. pipeline_mirror_url = None temp_storage_url_prefix = None if 'temporary-storage-url-prefix' in gitlab_ci: temp_storage_url_prefix = gitlab_ci['temporary-storage-url-prefix'] pipeline_mirror_url = url_util.join(temp_storage_url_prefix, ci_pipeline_id) enable_artifacts_mirror = False if 'enable-artifacts-buildcache' in gitlab_ci: enable_artifacts_mirror = gitlab_ci['enable-artifacts-buildcache'] if (enable_artifacts_mirror or (spack_is_pr_pipeline and not enable_artifacts_mirror and not temp_storage_url_prefix)): # If you explicitly enabled the artifacts buildcache feature, or # if this is a PR pipeline but you did not enable either of the # per-pipeline temporary storage features, we force the use of # artifacts buildcache. Otherwise jobs will not have binary # dependencies from previous stages available since we do not # allow pushing binaries to the remote mirror during PR pipelines. enable_artifacts_mirror = True pipeline_mirror_url = 'file://' + local_mirror_dir mirror_msg = 'artifact buildcache enabled, mirror url: {0}'.format( pipeline_mirror_url) tty.debug(mirror_msg) # Whatever form of root_spec we got, use it to get a map giving us concrete # specs for this job and all of its dependencies. spec_map = spack_ci.get_concrete_specs(env, root_spec, job_spec_pkg_name, compiler_action) job_spec = spec_map[job_spec_pkg_name] job_spec_json_file = '{0}.json'.format(job_spec_pkg_name) job_spec_json_path = os.path.join(repro_dir, job_spec_json_file) # To provide logs, cdash reports, etc for developer download/perusal, # these things have to be put into artifacts. This means downstream # jobs that "need" this job will get those artifacts too. So here we # need to clean out the artifacts we may have got from upstream jobs. cdash_report_dir = os.path.join(pipeline_artifacts_dir, 'cdash_report') if os.path.exists(cdash_report_dir): shutil.rmtree(cdash_report_dir) if os.path.exists(job_log_dir): shutil.rmtree(job_log_dir) if os.path.exists(repro_dir): shutil.rmtree(repro_dir) # Now that we removed them if they existed, create the directories we # need for storing artifacts. The cdash_report directory will be # created internally if needed. os.makedirs(job_log_dir) os.makedirs(repro_dir) # Copy the concrete environment files to the repro directory so we can # expose them as artifacts and not conflict with the concrete environment # files we got as artifacts from the upstream pipeline generation job. # Try to cast a slightly wider net too, and hopefully get the generated # pipeline yaml. If we miss it, the user will still be able to go to the # pipeline generation job and get it from there. target_dirs = [concrete_env_dir, pipeline_artifacts_dir] for dir_to_list in target_dirs: for file_name in os.listdir(dir_to_list): src_file = os.path.join(dir_to_list, file_name) if os.path.isfile(src_file): dst_file = os.path.join(repro_dir, file_name) shutil.copyfile(src_file, dst_file) # If signing key was provided via "SPACK_SIGNING_KEY", then try to # import it. if signing_key: spack_ci.import_signing_key(signing_key) # Depending on the specifics of this job, we might need to turn on the # "config:install_missing compilers" option (to build this job spec # with a bootstrapped compiler), or possibly run "spack compiler find" # (to build a bootstrap compiler or one of its deps in a # compiler-agnostic way), or maybe do nothing at all (to build a spec # using a compiler already installed on the target system). spack_ci.configure_compilers(compiler_action) # Write this job's spec json into the reproduction directory, and it will # also be used in the generated "spack install" command to install the spec tty.debug('job concrete spec path: {0}'.format(job_spec_json_path)) with open(job_spec_json_path, 'w') as fd: fd.write(job_spec.to_json(hash=ht.dag_hash)) # Write the concrete root spec json into the reproduction directory root_spec_json_path = os.path.join(repro_dir, 'root.json') with open(root_spec_json_path, 'w') as fd: fd.write(spec_map['root'].to_json(hash=ht.dag_hash)) # Write some other details to aid in reproduction into an artifact repro_file = os.path.join(repro_dir, 'repro.json') repro_details = { 'job_name': ci_job_name, 'job_spec_json': job_spec_json_file, 'root_spec_json': 'root.json', 'ci_project_dir': ci_project_dir } with open(repro_file, 'w') as fd: fd.write(json.dumps(repro_details)) # Write information about spack into an artifact in the repro dir spack_info = spack_ci.get_spack_info() spack_info_file = os.path.join(repro_dir, 'spack_info.txt') with open(spack_info_file, 'wb') as fd: fd.write(b'\n') fd.write(spack_info.encode('utf8')) fd.write(b'\n') # If we decided there should be a temporary storage mechanism, add that # mirror now so it's used when we check for a hash match already # built for this spec. if pipeline_mirror_url: spack.mirror.add(spack_ci.TEMP_STORAGE_MIRROR_NAME, pipeline_mirror_url, cfg.default_modify_scope()) # Check configured mirrors for a built spec with a matching hash mirrors_to_check = None if remote_mirror_override and spack_pipeline_type == 'spack_protected_branch': # Passing "mirrors_to_check" below means we *only* look in the override # mirror to see if we should skip building, which is what we want. mirrors_to_check = {'override': remote_mirror_override} # Adding this mirror to the list of configured mirrors means dependencies # could be installed from either the override mirror or any other configured # mirror (e.g. remote_mirror_url which is defined in the environment or # pipeline_mirror_url), which is also what we want. spack.mirror.add('mirror_override', remote_mirror_override, cfg.default_modify_scope()) matches = bindist.get_mirrors_for_spec(job_spec, mirrors_to_check=mirrors_to_check, index_only=False) if matches: # Got a hash match on at least one configured mirror. All # matches represent the fully up-to-date spec, so should all be # equivalent. If artifacts mirror is enabled, we just pick one # of the matches and download the buildcache files from there to # the artifacts, so they're available to be used by dependent # jobs in subsequent stages. tty.msg('No need to rebuild {0}, found hash match at: '.format( job_spec_pkg_name)) for match in matches: tty.msg(' {0}'.format(match['mirror_url'])) if enable_artifacts_mirror: matching_mirror = matches[0]['mirror_url'] build_cache_dir = os.path.join(local_mirror_dir, 'build_cache') tty.debug('Getting {0} buildcache from {1}'.format( job_spec_pkg_name, matching_mirror)) tty.debug('Downloading to {0}'.format(build_cache_dir)) bindist.download_single_spec(job_spec, build_cache_dir, mirror_url=matching_mirror) # Now we are done and successful sys.exit(0) # No hash match anywhere means we need to rebuild spec # Start with spack arguments install_args = [base_arg for base_arg in CI_REBUILD_INSTALL_BASE_ARGS] config = cfg.get('config') if not config['verify_ssl']: install_args.append('-k') install_args.extend([ 'install', '--keep-stage', ]) can_verify = spack_ci.can_verify_binaries() verify_binaries = can_verify and spack_is_pr_pipeline is False if not verify_binaries: install_args.append('--no-check-signature') if enable_cdash: # Add additional arguments to `spack install` for CDash reporting. cdash_upload_url = '{0}/submit.php?project={1}'.format( cdash_base_url, cdash_project_enc) install_args.extend([ '--cdash-upload-url', cdash_upload_url, '--cdash-build', cdash_build_name, '--cdash-site', cdash_site, '--cdash-track', job_spec_buildgroup, ]) # A compiler action of 'FIND_ANY' means we are building a bootstrap # compiler or one of its deps. # TODO: when compilers are dependencies, we should include --no-add if compiler_action != 'FIND_ANY': install_args.append('--no-add') # TODO: once we have the concrete spec registry, use the DAG hash # to identify the spec to install, rather than the concrete spec # json file. install_args.extend(['-f', job_spec_json_path]) tty.debug('Installing {0} from source'.format(job_spec.name)) tty.debug('spack install arguments: {0}'.format(install_args)) # Write the install command to a shell script with open('install.sh', 'w') as fd: fd.write('#!/bin/bash\n\n') fd.write('\n# spack install command\n') fd.write(' '.join(['"{0}"'.format(i) for i in install_args])) fd.write('\n') st = os.stat('install.sh') os.chmod('install.sh', st.st_mode | stat.S_IEXEC) install_copy_path = os.path.join(repro_dir, 'install.sh') shutil.copyfile('install.sh', install_copy_path) # Run the generated install.sh shell script as if it were being run in # a login shell. try: install_process = subprocess.Popen(['bash', '-l', './install.sh']) install_process.wait() install_exit_code = install_process.returncode except (ValueError, subprocess.CalledProcessError, OSError) as inst: tty.error('Encountered error running install script') tty.error(inst) # Now do the post-install tasks tty.debug('spack install exited {0}'.format(install_exit_code)) # If a spec fails to build in a spack develop pipeline, we add it to a # list of known broken hashes. This allows spack PR pipelines to # avoid wasting compute cycles attempting to build those hashes. if install_exit_code == INSTALL_FAIL_CODE and spack_is_develop_pipeline: tty.debug('Install failed on develop') if 'broken-specs-url' in gitlab_ci: broken_specs_url = gitlab_ci['broken-specs-url'] dev_fail_hash = job_spec.dag_hash() broken_spec_path = url_util.join(broken_specs_url, dev_fail_hash) tty.msg('Reporting broken develop build as: {0}'.format( broken_spec_path)) tmpdir = tempfile.mkdtemp() empty_file_path = os.path.join(tmpdir, 'empty.txt') broken_spec_details = { 'broken-spec': { 'job-url': get_env_var('CI_JOB_URL'), 'pipeline-url': get_env_var('CI_PIPELINE_URL'), 'concrete-spec-dict': job_spec.to_dict(hash=ht.dag_hash) } } try: with open(empty_file_path, 'w') as efd: efd.write(syaml.dump(broken_spec_details)) web_util.push_to_url(empty_file_path, broken_spec_path, keep_original=False, extra_args={'ContentType': 'text/plain'}) except Exception as err: # If we got some kind of S3 (access denied or other connection # error), the first non boto-specific class in the exception # hierarchy is Exception. Just print a warning and return msg = 'Error writing to broken specs list {0}: {1}'.format( broken_spec_path, err) tty.warn(msg) finally: shutil.rmtree(tmpdir) # We generated the "spack install ..." command to "--keep-stage", copy # any logs from the staging directory to artifacts now spack_ci.copy_stage_logs_to_artifacts(job_spec, job_log_dir) # If the install succeeded, create a buildcache entry for this job spec # and push it to one or more mirrors. If the install did not succeed, # print out some instructions on how to reproduce this build failure # outside of the pipeline environment. if install_exit_code == 0: can_sign = spack_ci.can_sign_binaries() sign_binaries = can_sign and spack_is_pr_pipeline is False # Create buildcache in either the main remote mirror, or in the # per-PR mirror, if this is a PR pipeline if buildcache_mirror_url: spack_ci.push_mirror_contents(env, job_spec_json_path, buildcache_mirror_url, sign_binaries) # Create another copy of that buildcache in the per-pipeline # temporary storage mirror (this is only done if either # artifacts buildcache is enabled or a temporary storage url # prefix is set) if pipeline_mirror_url: spack_ci.push_mirror_contents(env, job_spec_json_path, pipeline_mirror_url, sign_binaries) # If this is a develop pipeline, check if the spec that we just built is # on the broken-specs list. If so, remove it. if spack_is_develop_pipeline and 'broken-specs-url' in gitlab_ci: broken_specs_url = gitlab_ci['broken-specs-url'] just_built_hash = job_spec.dag_hash() broken_spec_path = url_util.join(broken_specs_url, just_built_hash) if web_util.url_exists(broken_spec_path): tty.msg('Removing {0} from the list of broken specs'.format( broken_spec_path)) try: web_util.remove_url(broken_spec_path) except Exception as err: # If we got some kind of S3 (access denied or other connection # error), the first non boto-specific class in the exception # hierarchy is Exception. Just print a warning and return msg = 'Error removing {0} from broken specs list: {1}'.format( broken_spec_path, err) tty.warn(msg) else: tty.debug('spack install exited non-zero, will not create buildcache') api_root_url = get_env_var('CI_API_V4_URL') ci_project_id = get_env_var('CI_PROJECT_ID') ci_job_id = get_env_var('CI_JOB_ID') repro_job_url = '{0}/projects/{1}/jobs/{2}/artifacts'.format( api_root_url, ci_project_id, ci_job_id) # Control characters cause this to be printed in blue so it stands out reproduce_msg = """ \033[34mTo reproduce this build locally, run: spack ci reproduce-build {0} [--working-dir <dir>] If this project does not have public pipelines, you will need to first: export GITLAB_PRIVATE_TOKEN=<generated_token> ... then follow the printed instructions.\033[0;0m """.format(repro_job_url) print(reproduce_msg) # Tie job success/failure to the success/failure of building the spec return install_exit_code