{title}

# Copyright 2013-2020 Lawrence Livermore National Security, LLC and other # Spack Project Developers. See the top-level COPYRIGHT file for details. # # SPDX-License-Identifier: (Apache-2.0 OR MIT) import codecs import os import re import tarfile import shutil import tempfile import hashlib from contextlib import closing import ruamel.yaml as yaml import json from six.moves.urllib.error import URLError import llnl.util.tty as tty from llnl.util.filesystem import mkdirp import spack.cmd import spack.config as config import spack.fetch_strategy as fs import spack.util.gpg import spack.relocate as relocate import spack.util.spack_yaml as syaml import spack.mirror import spack.util.url as url_util import spack.util.web as web_util from spack.spec import Spec from spack.stage import Stage from spack.util.gpg import Gpg import spack.architecture as architecture _build_cache_relative_path = 'build_cache' BUILD_CACHE_INDEX_TEMPLATE = ''' {title}

{path_list} ''' BUILD_CACHE_INDEX_ENTRY_TEMPLATE = '

{path}

' class NoOverwriteException(Exception): """ Raised when a file exists and must be overwritten. """ def __init__(self, file_path): err_msg = "\n%s\nexists\n" % file_path err_msg += "Use -f option to overwrite." super(NoOverwriteException, self).__init__(err_msg) class NoGpgException(spack.error.SpackError): """ Raised when gpg2 is not in PATH """ pass class NoKeyException(spack.error.SpackError): """ Raised when gpg has no default key added. """ pass class PickKeyException(spack.error.SpackError): """ Raised when multiple keys can be used to sign. """ def __init__(self, keys): err_msg = "Multi keys available for signing\n%s\n" % keys err_msg += "Use spack buildcache create -k to pick a key." super(PickKeyException, self).__init__(err_msg) class NoVerifyException(spack.error.SpackError): """ Raised if file fails signature verification. """ pass class NoChecksumException(spack.error.SpackError): """ Raised if file fails checksum verification. """ pass class NewLayoutException(spack.error.SpackError): """ Raised if directory layout is different from buildcache. """ pass def build_cache_relative_path(): return _build_cache_relative_path def build_cache_prefix(prefix): return os.path.join(prefix, build_cache_relative_path()) def buildinfo_file_name(prefix): """ Filename of the binary package meta-data file """ name = os.path.join(prefix, ".spack/binary_distribution") return name def read_buildinfo_file(prefix): """ Read buildinfo file """ filename = buildinfo_file_name(prefix) with open(filename, 'r') as inputfile: content = inputfile.read() buildinfo = yaml.load(content) return buildinfo def write_buildinfo_file(prefix, workdir, rel=False): """ Create a cache file containing information required for the relocation """ text_to_relocate = [] binary_to_relocate = [] link_to_relocate = [] blacklist = (".spack", "man") # Do this at during tarball creation to save time when tarball unpacked. # Used by make_package_relative to determine binaries to change. for root, dirs, files in os.walk(prefix, topdown=True): dirs[:] = [d for d in dirs if d not in blacklist] for filename in files: path_name = os.path.join(root, filename) m_type, m_subtype = relocate.mime_type(path_name) if os.path.islink(path_name): link = os.readlink(path_name) if os.path.isabs(link): # Relocate absolute links into the spack tree if link.startswith(spack.store.layout.root): rel_path_name = os.path.relpath(path_name, prefix) link_to_relocate.append(rel_path_name) else: msg = 'Absolute link %s to %s ' % (path_name, link) msg += 'outside of stage %s ' % prefix msg += 'cannot be relocated.' tty.warn(msg) if relocate.needs_binary_relocation(m_type, m_subtype): if not filename.endswith('.o'): rel_path_name = os.path.relpath(path_name, prefix) binary_to_relocate.append(rel_path_name) if relocate.needs_text_relocation(m_type, m_subtype): rel_path_name = os.path.relpath(path_name, prefix) text_to_relocate.append(rel_path_name) # Create buildinfo data and write it to disk buildinfo = {} buildinfo['relative_rpaths'] = rel buildinfo['buildpath'] = spack.store.layout.root buildinfo['spackprefix'] = spack.paths.prefix buildinfo['relative_prefix'] = os.path.relpath( prefix, spack.store.layout.root) buildinfo['relocate_textfiles'] = text_to_relocate buildinfo['relocate_binaries'] = binary_to_relocate buildinfo['relocate_links'] = link_to_relocate filename = buildinfo_file_name(workdir) with open(filename, 'w') as outfile: outfile.write(syaml.dump(buildinfo, default_flow_style=True)) def tarball_directory_name(spec): """ Return name of the tarball directory according to the convention -//-/ """ return "%s/%s/%s-%s" % (spec.architecture, str(spec.compiler).replace("@", "-"), spec.name, spec.version) def tarball_name(spec, ext): """ Return the name of the tarfile according to the convention --- """ return "%s-%s-%s-%s-%s%s" % (spec.architecture, str(spec.compiler).replace("@", "-"), spec.name, spec.version, spec.dag_hash(), ext) def tarball_path_name(spec, ext): """ Return the full path+name for a given spec according to the convention / """ return os.path.join(tarball_directory_name(spec), tarball_name(spec, ext)) def checksum_tarball(file): # calculate sha256 hash of tar file block_size = 65536 hasher = hashlib.sha256() with open(file, 'rb') as tfile: buf = tfile.read(block_size) while len(buf) > 0: hasher.update(buf) buf = tfile.read(block_size) return hasher.hexdigest() def sign_tarball(key, force, specfile_path): # Sign the packages if keys available if spack.util.gpg.Gpg.gpg() is None: raise NoGpgException( "gpg2 is not available in $PATH .\n" "Use spack install gnupg and spack load gnupg.") if key is None: keys = Gpg.signing_keys() if len(keys) == 1: key = keys[0] if len(keys) > 1: raise PickKeyException(str(keys)) if len(keys) == 0: msg = "No default key available for signing.\n" msg += "Use spack gpg init and spack gpg create" msg += " to create a default key." raise NoKeyException(msg) if os.path.exists('%s.asc' % specfile_path): if force: os.remove('%s.asc' % specfile_path) else: raise NoOverwriteException('%s.asc' % specfile_path) Gpg.sign(key, specfile_path, '%s.asc' % specfile_path) def generate_package_index(cache_prefix): """Create the build cache index page. Creates (or replaces) the "index.html" page at the location given in cache_prefix. This page contains a link for each binary package (*.yaml) and public key (*.key) under cache_prefix. """ tmpdir = tempfile.mkdtemp() try: index_html_path = os.path.join(tmpdir, 'index.html') file_list = ( entry for entry in web_util.list_url(cache_prefix) if (entry.endswith('.yaml') or entry.endswith('.key'))) with open(index_html_path, 'w') as f: f.write(BUILD_CACHE_INDEX_TEMPLATE.format( title='Spack Package Index', path_list='\n'.join( BUILD_CACHE_INDEX_ENTRY_TEMPLATE.format(path=path) for path in file_list))) web_util.push_to_url( index_html_path, url_util.join(cache_prefix, 'index.html'), keep_original=False, extra_args={'ContentType': 'text/html'}) finally: shutil.rmtree(tmpdir) def build_tarball(spec, outdir, force=False, rel=False, unsigned=False, allow_root=False, key=None, regenerate_index=False): """ Build a tarball from given spec and put it into the directory structure used at the mirror (following ). """ if not spec.concrete: raise ValueError('spec must be concrete to build tarball') # set up some paths tmpdir = tempfile.mkdtemp() cache_prefix = build_cache_prefix(tmpdir) tarfile_name = tarball_name(spec, '.tar.bz2') tarfile_dir = os.path.join(cache_prefix, tarball_directory_name(spec)) tarfile_path = os.path.join(tarfile_dir, tarfile_name) spackfile_path = os.path.join( cache_prefix, tarball_path_name(spec, '.spack')) remote_spackfile_path = url_util.join( outdir, os.path.relpath(spackfile_path, tmpdir)) mkdirp(tarfile_dir) if web_util.url_exists(remote_spackfile_path): if force: web_util.remove_url(remote_spackfile_path) else: raise NoOverwriteException(url_util.format(remote_spackfile_path)) # need to copy the spec file so the build cache can be downloaded # without concretizing with the current spack packages # and preferences spec_file = os.path.join(spec.prefix, ".spack", "spec.yaml") specfile_name = tarball_name(spec, '.spec.yaml') specfile_path = os.path.realpath( os.path.join(cache_prefix, specfile_name)) remote_specfile_path = url_util.join( outdir, os.path.relpath(specfile_path, os.path.realpath(tmpdir))) if web_util.url_exists(remote_specfile_path): if force: web_util.remove_url(remote_specfile_path) else: raise NoOverwriteException(url_util.format(remote_specfile_path)) # make a copy of the install directory to work with workdir = os.path.join(tmpdir, os.path.basename(spec.prefix)) # install_tree copies hardlinks # create a temporary tarfile from prefix and exract it to workdir # tarfile preserves hardlinks temp_tarfile_name = tarball_name(spec, '.tar') temp_tarfile_path = os.path.join(tarfile_dir, temp_tarfile_name) with closing(tarfile.open(temp_tarfile_path, 'w')) as tar: tar.add(name='%s' % spec.prefix, arcname='.') with closing(tarfile.open(temp_tarfile_path, 'r')) as tar: tar.extractall(workdir) os.remove(temp_tarfile_path) # create info for later relocation and create tar write_buildinfo_file(spec.prefix, workdir, rel=rel) # optionally make the paths in the binaries relative to each other # in the spack install tree before creating tarball if rel: try: make_package_relative(workdir, spec, allow_root) except Exception as e: shutil.rmtree(workdir) shutil.rmtree(tarfile_dir) shutil.rmtree(tmpdir) tty.die(e) else: try: make_package_placeholder(workdir, spec, allow_root) except Exception as e: shutil.rmtree(workdir) shutil.rmtree(tarfile_dir) shutil.rmtree(tmpdir) tty.die(e) # create compressed tarball of the install prefix with closing(tarfile.open(tarfile_path, 'w:bz2')) as tar: tar.add(name='%s' % workdir, arcname='%s' % os.path.basename(spec.prefix)) # remove copy of install directory shutil.rmtree(workdir) # get the sha256 checksum of the tarball checksum = checksum_tarball(tarfile_path) # add sha256 checksum to spec.yaml with open(spec_file, 'r') as inputfile: content = inputfile.read() spec_dict = yaml.load(content) bchecksum = {} bchecksum['hash_algorithm'] = 'sha256' bchecksum['hash'] = checksum spec_dict['binary_cache_checksum'] = bchecksum # Add original install prefix relative to layout root to spec.yaml. # This will be used to determine is the directory layout has changed. buildinfo = {} buildinfo['relative_prefix'] = os.path.relpath( spec.prefix, spack.store.layout.root) spec_dict['buildinfo'] = buildinfo spec_dict['full_hash'] = spec.full_hash() tty.debug('The full_hash ({0}) of {1} will be written into {2}'.format( spec_dict['full_hash'], spec.name, url_util.format(remote_specfile_path))) tty.debug(spec.tree()) with open(specfile_path, 'w') as outfile: outfile.write(syaml.dump(spec_dict)) # sign the tarball and spec file with gpg if not unsigned: sign_tarball(key, force, specfile_path) # put tarball, spec and signature files in .spack archive with closing(tarfile.open(spackfile_path, 'w')) as tar: tar.add(name=tarfile_path, arcname='%s' % tarfile_name) tar.add(name=specfile_path, arcname='%s' % specfile_name) if not unsigned: tar.add(name='%s.asc' % specfile_path, arcname='%s.asc' % specfile_name) # cleanup file moved to archive os.remove(tarfile_path) if not unsigned: os.remove('%s.asc' % specfile_path) web_util.push_to_url( spackfile_path, remote_spackfile_path, keep_original=False) web_util.push_to_url( specfile_path, remote_specfile_path, keep_original=False) tty.msg('Buildache for "%s" written to \n %s' % (spec, remote_spackfile_path)) try: # create an index.html for the build_cache directory so specs can be # found if regenerate_index: generate_package_index(url_util.join( outdir, os.path.relpath(cache_prefix, tmpdir))) finally: shutil.rmtree(tmpdir) return None def download_tarball(spec): """ Download binary tarball for given package into stage area Return True if successful """ if not spack.mirror.MirrorCollection(): tty.die("Please add a spack mirror to allow " + "download of pre-compiled packages.") tarball = tarball_path_name(spec, '.spack') for mirror in spack.mirror.MirrorCollection().values(): url = url_util.join( mirror.fetch_url, _build_cache_relative_path, tarball) # stage the tarball into standard place stage = Stage(url, name="build_cache", keep=True) try: stage.fetch() return stage.save_filename except fs.FetchError: continue return None def make_package_relative(workdir, spec, allow_root): """ Change paths in binaries to relative paths. Change absolute symlinks to relative symlinks. """ prefix = spec.prefix buildinfo = read_buildinfo_file(workdir) old_path = buildinfo['buildpath'] orig_path_names = list() cur_path_names = list() for filename in buildinfo['relocate_binaries']: orig_path_names.append(os.path.join(prefix, filename)) cur_path_names.append(os.path.join(workdir, filename)) if spec.architecture.platform == 'darwin': relocate.make_macho_binaries_relative(cur_path_names, orig_path_names, old_path, allow_root) else: relocate.make_elf_binaries_relative(cur_path_names, orig_path_names, old_path, allow_root) orig_path_names = list() cur_path_names = list() for filename in buildinfo.get('relocate_links', []): orig_path_names.append(os.path.join(prefix, filename)) cur_path_names.append(os.path.join(workdir, filename)) relocate.make_link_relative(cur_path_names, orig_path_names) def make_package_placeholder(workdir, spec, allow_root): """ Check if package binaries are relocatable. Change links to placeholder links. """ prefix = spec.prefix buildinfo = read_buildinfo_file(workdir) cur_path_names = list() for filename in buildinfo['relocate_binaries']: cur_path_names.append(os.path.join(workdir, filename)) relocate.check_files_relocatable(cur_path_names, allow_root) cur_path_names = list() for filename in buildinfo.get('relocate_links', []): cur_path_names.append(os.path.join(workdir, filename)) relocate.make_link_placeholder(cur_path_names, workdir, prefix) def relocate_package(workdir, spec, allow_root): """ Relocate the given package """ buildinfo = read_buildinfo_file(workdir) new_path = str(spack.store.layout.root) new_prefix = str(spack.paths.prefix) old_path = str(buildinfo['buildpath']) old_prefix = str(buildinfo.get('spackprefix', '/not/in/buildinfo/dictionary')) rel = buildinfo.get('relative_rpaths', False) tty.msg("Relocating package from", "%s to %s." % (old_path, new_path)) path_names = set() for filename in buildinfo['relocate_textfiles']: path_name = os.path.join(workdir, filename) # Don't add backup files generated by filter_file during install step. if not path_name.endswith('~'): path_names.add(path_name) relocate.relocate_text(path_names, oldpath=old_path, newpath=new_path, oldprefix=old_prefix, newprefix=new_prefix) # If the binary files in the package were not edited to use # relative RPATHs, then the RPATHs need to be relocated if rel: if old_path != new_path: files_to_relocate = list(filter( lambda pathname: not relocate.file_is_relocatable( pathname, paths_to_relocate=[old_path, old_prefix]), map(lambda filename: os.path.join(workdir, filename), buildinfo['relocate_binaries']))) if len(old_path) < len(new_path) and files_to_relocate: tty.debug('Cannot do a binary string replacement with padding ' 'for package because %s is longer than %s.' % (new_path, old_path)) else: for path_name in files_to_relocate: relocate.replace_prefix_bin(path_name, old_path, new_path) else: path_names = set() for filename in buildinfo['relocate_binaries']: path_name = os.path.join(workdir, filename) path_names.add(path_name) if spec.architecture.platform == 'darwin': relocate.relocate_macho_binaries(path_names, old_path, new_path, allow_root) else: relocate.relocate_elf_binaries(path_names, old_path, new_path, allow_root) path_names = set() for filename in buildinfo.get('relocate_links', []): path_name = os.path.join(workdir, filename) path_names.add(path_name) relocate.relocate_links(path_names, old_path, new_path) def extract_tarball(spec, filename, allow_root=False, unsigned=False, force=False): """ extract binary tarball for given package into install area """ if os.path.exists(spec.prefix): if force: shutil.rmtree(spec.prefix) else: raise NoOverwriteException(str(spec.prefix)) tmpdir = tempfile.mkdtemp() stagepath = os.path.dirname(filename) spackfile_name = tarball_name(spec, '.spack') spackfile_path = os.path.join(stagepath, spackfile_name) tarfile_name = tarball_name(spec, '.tar.bz2') tarfile_path = os.path.join(tmpdir, tarfile_name) specfile_name = tarball_name(spec, '.spec.yaml') specfile_path = os.path.join(tmpdir, specfile_name) with closing(tarfile.open(spackfile_path, 'r')) as tar: tar.extractall(tmpdir) # older buildcache tarfiles use gzip compression if not os.path.exists(tarfile_path): tarfile_name = tarball_name(spec, '.tar.gz') tarfile_path = os.path.join(tmpdir, tarfile_name) if not unsigned: if os.path.exists('%s.asc' % specfile_path): try: suppress = config.get('config:suppress_gpg_warnings', False) Gpg.verify('%s.asc' % specfile_path, specfile_path, suppress) except Exception as e: shutil.rmtree(tmpdir) tty.die(e) else: shutil.rmtree(tmpdir) raise NoVerifyException( "Package spec file failed signature verification.\n" "Use spack buildcache keys to download " "and install a key for verification from the mirror.") # get the sha256 checksum of the tarball checksum = checksum_tarball(tarfile_path) # get the sha256 checksum recorded at creation spec_dict = {} with open(specfile_path, 'r') as inputfile: content = inputfile.read() spec_dict = syaml.load(content) bchecksum = spec_dict['binary_cache_checksum'] # if the checksums don't match don't install if bchecksum['hash'] != checksum: shutil.rmtree(tmpdir) raise NoChecksumException( "Package tarball failed checksum verification.\n" "It cannot be installed.") new_relative_prefix = str(os.path.relpath(spec.prefix, spack.store.layout.root)) # if the original relative prefix is in the spec file use it buildinfo = spec_dict.get('buildinfo', {}) old_relative_prefix = buildinfo.get('relative_prefix', new_relative_prefix) # if the original relative prefix and new relative prefix differ the # directory layout has changed and the buildcache cannot be installed if old_relative_prefix != new_relative_prefix: shutil.rmtree(tmpdir) msg = "Package tarball was created from an install " msg += "prefix with a different directory layout.\n" msg += "It cannot be relocated." raise NewLayoutException(msg) # extract the tarball in a temp directory with closing(tarfile.open(tarfile_path, 'r')) as tar: tar.extractall(path=tmpdir) # the base of the install prefix is used when creating the tarball # so the pathname should be the same now that the directory layout # is confirmed workdir = os.path.join(tmpdir, os.path.basename(spec.prefix)) # install_tree copies hardlinks # create a temporary tarfile from prefix and exract it to workdir # tarfile preserves hardlinks temp_tarfile_name = tarball_name(spec, '.tar') temp_tarfile_path = os.path.join(tmpdir, temp_tarfile_name) with closing(tarfile.open(temp_tarfile_path, 'w')) as tar: tar.add(name='%s' % workdir, arcname='.') with closing(tarfile.open(temp_tarfile_path, 'r')) as tar: tar.extractall(spec.prefix) os.remove(temp_tarfile_path) # cleanup os.remove(tarfile_path) os.remove(specfile_path) try: relocate_package(spec.prefix, spec, allow_root) except Exception as e: shutil.rmtree(spec.prefix) tty.die(e) else: manifest_file = os.path.join(spec.prefix, spack.store.layout.metadata_dir, spack.store.layout.manifest_file_name) if not os.path.exists(manifest_file): spec_id = spec.format('{name}/{hash:7}') tty.warn('No manifest file in tarball for spec %s' % spec_id) finally: shutil.rmtree(tmpdir) # Internal cache for downloaded specs _cached_specs = set() def try_download_specs(urls=None, force=False): ''' Try to download the urls and cache them ''' global _cached_specs if urls is None: return {} for link in urls: with Stage(link, name="build_cache", keep=True) as stage: if force and os.path.exists(stage.save_filename): os.remove(stage.save_filename) if not os.path.exists(stage.save_filename): try: stage.fetch() except fs.FetchError: continue with open(stage.save_filename, 'r') as f: # read the spec from the build cache file. All specs # in build caches are concrete (as they are built) so # we need to mark this spec concrete on read-in. spec = Spec.from_yaml(f) spec._mark_concrete() _cached_specs.add(spec) return _cached_specs def get_spec(spec=None, force=False): """ Check if spec.yaml exists on mirrors and return it if it does """ global _cached_specs urls = set() if spec is None: return {} specfile_name = tarball_name(spec, '.spec.yaml') if not spack.mirror.MirrorCollection(): tty.debug("No Spack mirrors are currently configured") return {} if spec in _cached_specs: return _cached_specs for mirror in spack.mirror.MirrorCollection().values(): fetch_url_build_cache = url_util.join( mirror.fetch_url, _build_cache_relative_path) mirror_dir = url_util.local_file_path(fetch_url_build_cache) if mirror_dir: tty.msg("Finding buildcaches in %s" % mirror_dir) link = url_util.join(fetch_url_build_cache, specfile_name) urls.add(link) else: tty.msg("Finding buildcaches at %s" % url_util.format(fetch_url_build_cache)) link = url_util.join(fetch_url_build_cache, specfile_name) urls.add(link) return try_download_specs(urls=urls, force=force) def get_specs(force=False, allarch=False): """ Get spec.yaml's for build caches available on mirror """ arch = architecture.Arch(architecture.platform(), 'default_os', 'default_target') arch_pattern = ('([^-]*-[^-]*-[^-]*)') if not allarch: arch_pattern = '(%s-%s-[^-]*)' % (arch.platform, arch.os) regex_pattern = '%s(.*)(spec.yaml$)' % (arch_pattern) arch_re = re.compile(regex_pattern) if not spack.mirror.MirrorCollection(): tty.debug("No Spack mirrors are currently configured") return {} urls = set() for mirror in spack.mirror.MirrorCollection().values(): fetch_url_build_cache = url_util.join( mirror.fetch_url, _build_cache_relative_path) mirror_dir = url_util.local_file_path(fetch_url_build_cache) if mirror_dir: tty.msg("Finding buildcaches in %s" % mirror_dir) if os.path.exists(mirror_dir): files = os.listdir(mirror_dir) for file in files: m = arch_re.search(file) if m: link = url_util.join(fetch_url_build_cache, file) urls.add(link) else: tty.msg("Finding buildcaches at %s" % url_util.format(fetch_url_build_cache)) p, links = web_util.spider( url_util.join(fetch_url_build_cache, 'index.html')) for link in links: m = arch_re.search(link) if m: urls.add(link) return try_download_specs(urls=urls, force=force) def get_keys(install=False, trust=False, force=False): """ Get pgp public keys available on mirror """ if not spack.mirror.MirrorCollection(): tty.die("Please add a spack mirror to allow " + "download of build caches.") keys = set() for mirror in spack.mirror.MirrorCollection().values(): fetch_url_build_cache = url_util.join( mirror.fetch_url, _build_cache_relative_path) mirror_dir = url_util.local_file_path(fetch_url_build_cache) if mirror_dir: tty.msg("Finding public keys in %s" % mirror_dir) files = os.listdir(mirror_dir) for file in files: if re.search(r'\.key', file): link = url_util.join(fetch_url_build_cache, file) keys.add(link) else: tty.msg("Finding public keys at %s" % url_util.format(fetch_url_build_cache)) p, links = web_util.spider(fetch_url_build_cache, depth=1) for link in links: if re.search(r'\.key', link): keys.add(link) for link in keys: with Stage(link, name="build_cache", keep=True) as stage: if os.path.exists(stage.save_filename) and force: os.remove(stage.save_filename) if not os.path.exists(stage.save_filename): try: stage.fetch() except fs.FetchError: continue tty.msg('Found key %s' % link) if install: if trust: Gpg.trust(stage.save_filename) tty.msg('Added this key to trusted keys.') else: tty.msg('Will not add this key to trusted keys.' 'Use -t to install all downloaded keys') def needs_rebuild(spec, mirror_url, rebuild_on_errors=False): if not spec.concrete: raise ValueError('spec must be concrete to check against mirror') pkg_name = spec.name pkg_version = spec.version pkg_hash = spec.dag_hash() pkg_full_hash = spec.full_hash() tty.debug('Checking {0}-{1}, dag_hash = {2}, full_hash = {3}'.format( pkg_name, pkg_version, pkg_hash, pkg_full_hash)) tty.debug(spec.tree()) # Try to retrieve the .spec.yaml directly, based on the known # format of the name, in order to determine if the package # needs to be rebuilt. cache_prefix = build_cache_prefix(mirror_url) spec_yaml_file_name = tarball_name(spec, '.spec.yaml') file_path = os.path.join(cache_prefix, spec_yaml_file_name) result_of_error = 'Package ({0}) will {1}be rebuilt'.format( spec.short_spec, '' if rebuild_on_errors else 'not ') try: _, _, yaml_file = web_util.read_from_url(file_path) yaml_contents = codecs.getreader('utf-8')(yaml_file).read() except (URLError, web_util.SpackWebError) as url_err: err_msg = [ 'Unable to determine whether {0} needs rebuilding,', ' caught exception attempting to read from {1}.', ] tty.error(''.join(err_msg).format(spec.short_spec, file_path)) tty.debug(url_err) tty.warn(result_of_error) return rebuild_on_errors if not yaml_contents: tty.error('Reading {0} returned nothing'.format(file_path)) tty.warn(result_of_error) return rebuild_on_errors spec_yaml = syaml.load(yaml_contents) # If either the full_hash didn't exist in the .spec.yaml file, or it # did, but didn't match the one we computed locally, then we should # just rebuild. This can be simplified once the dag_hash and the # full_hash become the same thing. if ('full_hash' not in spec_yaml or spec_yaml['full_hash'] != pkg_full_hash): if 'full_hash' in spec_yaml: reason = 'hash mismatch, remote = {0}, local = {1}'.format( spec_yaml['full_hash'], pkg_full_hash) else: reason = 'full_hash was missing from remote spec.yaml' tty.msg('Rebuilding {0}, reason: {1}'.format( spec.short_spec, reason)) tty.msg(spec.tree()) return True return False def check_specs_against_mirrors(mirrors, specs, output_file=None, rebuild_on_errors=False): """Check all the given specs against buildcaches on the given mirrors and determine if any of the specs need to be rebuilt. Reasons for needing to rebuild include binary cache for spec isn't present on a mirror, or it is present but the full_hash has changed since last time spec was built. Arguments: mirrors (dict): Mirrors to check against specs (iterable): Specs to check against mirrors output_file (string): Path to output file to be written. If provided, mirrors with missing or out-of-date specs will be formatted as a JSON object and written to this file. rebuild_on_errors (boolean): Treat any errors encountered while checking specs as a signal to rebuild package. Returns: 1 if any spec was out-of-date on any mirror, 0 otherwise. """ rebuilds = {} for mirror in spack.mirror.MirrorCollection(mirrors).values(): tty.msg('Checking for built specs at %s' % mirror.fetch_url) rebuild_list = [] for spec in specs: if needs_rebuild(spec, mirror.fetch_url, rebuild_on_errors): rebuild_list.append({ 'short_spec': spec.short_spec, 'hash': spec.dag_hash() }) if rebuild_list: rebuilds[mirror.fetch_url] = { 'mirrorName': mirror.name, 'mirrorUrl': mirror.fetch_url, 'rebuildSpecs': rebuild_list } if output_file: with open(output_file, 'w') as outf: outf.write(json.dumps(rebuilds)) return 1 if rebuilds else 0 def _download_buildcache_entry(mirror_root, descriptions): for description in descriptions: description_url = os.path.join(mirror_root, description['url']) path = description['path'] fail_if_missing = description['required'] mkdirp(path) stage = Stage( description_url, name="build_cache", path=path, keep=True) try: stage.fetch() except fs.FetchError as e: tty.debug(e) if fail_if_missing: tty.error('Failed to download required url {0}'.format( description_url)) return False return True def download_buildcache_entry(file_descriptions, mirror_url=None): if not mirror_url and not spack.mirror.MirrorCollection(): tty.die("Please provide or add a spack mirror to allow " + "download of buildcache entries.") if mirror_url: mirror_root = os.path.join( mirror_url, _build_cache_relative_path) return _download_buildcache_entry(mirror_root, file_descriptions) for mirror in spack.mirror.MirrorCollection().values(): mirror_root = os.path.join( mirror.fetch_url, _build_cache_relative_path) if _download_buildcache_entry(mirror_root, file_descriptions): return True else: continue return False