-class EndOfContents(object):
- """
- A sentry object for the end of the filename stream
- """
- pass
-
-class OneAtATime(object):
- """
- a one space queue which sits between multiple possible producers
- and multiple possible consumers
- """
- def __init__(self):
- self.next_in_line = None
- self.read_lock = threading.Condition()
- self.write_lock = threading.Condition()
- self.die = False
-
- def enqueue(self, next):
- self.write_lock.acquire()
- while self.next_in_line:
- if self.die:
- return
- self.write_lock.wait()
-
- assert( not self.next_in_line )
- self.next_in_line = next
- self.write_lock.release()
- self.read_lock.acquire()
- self.read_lock.notify()
- self.read_lock.release()
-
- def dequeue(self):
- self.read_lock.acquire()
- while not self.next_in_line:
- if self.die:
- return
- self.read_lock.wait()
-
- result = self.next_in_line
-
- self.next_in_line = None
- self.read_lock.release()
- self.write_lock.acquire()
- self.write_lock.notify()
- self.write_lock.release()
-
- return result
-
-
-class ContentsWorkThread(threading.Thread):
- """
- """
- def __init__(self, upstream, downstream):
- threading.Thread.__init__(self)
- self.upstream = upstream
- self.downstream = downstream
-
- def run(self):
- while True:
- try:
- contents_file = self.upstream.dequeue()
- if isinstance(contents_file,EndOfContents):
- if self.downstream:
- self.downstream.enqueue(contents_file)
- break
-
- s = datetime.datetime.now()
- print("%s start: %s" % (self,contents_file) )
- self._run(contents_file)
- print("%s finished: %s in %d seconds" % (self, contents_file, (datetime.datetime.now()-s).seconds ))
- if self.downstream:
- self.downstream.enqueue(contents_file)
- except:
- traceback.print_exc()
-
-class QueryThread(ContentsWorkThread):
- def __init__(self, upstream, downstream):
- ContentsWorkThread.__init__(self, upstream, downstream)
-
- def __str__(self):
- return "QueryThread"
- __repr__ = __str__
-
- def _run(self, contents_file):
- contents_file.query()
-
-class IngestThread(ContentsWorkThread):
- def __init__(self, upstream, downstream):
- ContentsWorkThread.__init__(self, upstream, downstream)
-
- def __str__(self):
- return "IngestThread"
- __repr__ = __str__
-
- def _run(self, contents_file):
- contents_file.ingest()
-
-class SortThread(ContentsWorkThread):
- def __init__(self, upstream, downstream):
- ContentsWorkThread.__init__(self, upstream, downstream)
-
- def __str__(self):
- return "SortThread"
- __repr__ = __str__
-
- def _run(self, contents_file):
- contents_file.sorted_keys = sorted(contents_file.filenames.keys())
-
-class OutputThread(ContentsWorkThread):
- def __init__(self, upstream, downstream):
- ContentsWorkThread.__init__(self, upstream, downstream)
-
- def __str__(self):
- return "OutputThread"
- __repr__ = __str__
-
- def _run(self, contents_file):
- contents_file.open_file()
- for fname in contents_file.sorted_keys:
- contents_file.filehandle.write("%s\t%s\n" % (fname,contents_file.filenames[fname]))
- contents_file.sorted_keys = None
- contents_file.filenames.clear()
-
-class GzipThread(ContentsWorkThread):
- def __init__(self, upstream, downstream):
- ContentsWorkThread.__init__(self, upstream, downstream)
-
- def __str__(self):
- return "GzipThread"
- __repr__ = __str__
-
- def _run(self, contents_file):
- os.system("gzip -f %s" % contents_file.filename)
-
-class ContentFile(object):
- def __init__(self,
- filename,
- suite_str,
- suite_id):
-
- self.filename = filename
- self.filenames = {}
- self.sorted_keys = None
- self.suite_str = suite_str
- self.suite_id = suite_id
- self.session = None
- self.filehandle = None
- self.results = None
-
- def __str__(self):
- return self.filename
- __repr__ = __str__
-
-
- def cleanup(self):
- self.filenames = None
- self.sortedkeys = None
- self.filehandle.close()
- self.session.close()
-
- def ingest(self):
- while True:
- r = self.results.fetchone()
- if not r:
- break
- filename, package = r
- self.filenames[filename]=package
-
- self.session.close()
-
-# def ingest(self):
-# while True:
-# r = self.results.fetchone()
-# if not r:
-# break
-# filename, package = r
-# if self.filenames.has_key(filename):
-# self.filenames[filename] += ",%s" % (package)
-# else:
-# self.filenames[filename] = "%s" % (package)
-# self.session.close()
-
- def open_file(self):
- """
- opens a gzip stream to the contents file
- """
-# filepath = Config()["Contents::Root"] + self.filename
- self.filename = "/home/stew/contents/" + self.filename
- filedir = os.path.dirname(self.filename)
- if not os.path.isdir(filedir):
- os.makedirs(filedir)
-# self.filehandle = gzip.open(self.filename, "w")
- self.filehandle = open(self.filename, "w")
- self._write_header()
-
- def _write_header(self):
- self._get_header();
- self.filehandle.write(ContentFile.header)
-
- header=None
-
- @classmethod
- def _get_header(self):
- """
- Internal method to return the header for Contents.gz files
-
- This is boilerplate which explains the contents of the file and how
- it can be used.
- """
- if not ContentFile.header:
- if Config().has_key("Contents::Header"):
- try:
- h = open(os.path.join( Config()["Dir::Templates"],
- Config()["Contents::Header"] ), "r")
- ContentFile.header = h.read()
- h.close()
- except:
- log.error( "error opening header file: %d\n%s" % (Config()["Contents::Header"],
- traceback.format_exc() ))
- ContentFile.header = None
- else:
- ContentFile.header = None
-
- return ContentFile.header
-
-
-class DebContentFile(ContentFile):
- def __init__(self,
- filename,
- suite_str,
- suite_id,
- arch_str,
- arch_id):
- ContentFile.__init__(self,
- filename,
- suite_str,
- suite_id )
- self.arch_str = arch_str
- self.arch_id = arch_id
-
- def query(self):
- self.session = DBConn().session();
-
- self.results = self.session.execute("""SELECT filename, comma_separated_list(section || '/' || package)
- FROM deb_contents
- WHERE ( arch=2 or arch = :arch) AND suite = :suite
- """, { 'arch':self.arch_id, 'suite':self.suite_id } )
-
-class UdebContentFile(ContentFile):
- def __init__(self,
- filename,
- suite_str,
- suite_id,
- section_name,
- section_id):
- ContentFile.__init__(self,
- filename,
- suite_str,
- suite_id )
-
- def query(self):
- self.session = DBConn().session();
-
- self.results = self.session.execute("""SELECT filename, comma_separated_list(section || '/' || package)
- FROM udeb_contents
- WHERE suite = :suite
- group by filename
- """ , { 'suite': self.suite_id } )
-
-class Contents(object):
- """
- Class capable of generating Contents-$arch.gz files
- """
- def __init__(self):
- self.header = None
-
- def reject(self, message):
- log.error("E: %s" % message)
-
- def cruft(self):
- """
- remove files/paths from the DB which are no longer referenced
- by binaries and clean the temporary table
- """
- s = DBConn().session()
-
- # clear out all of the temporarily stored content associations
- # this should be run only after p-a has run. after a p-a
- # run we should have either accepted or rejected every package
- # so there should no longer be anything in the queue
- s.query(PendingContentAssociation).delete()
-
- # delete any filenames we are storing which have no binary associated
- # with them
- cafq = s.query(ContentAssociation.filename_id).distinct()
- cfq = s.query(ContentFilename)
- cfq = cfq.filter(~ContentFilename.cafilename_id.in_(cafq))
- cfq.delete()
-
- # delete any paths we are storing which have no binary associated with
- # them
- capq = s.query(ContentAssociation.filepath_id).distinct()
- cpq = s.query(ContentFilepath)
- cpq = cpq.filter(~ContentFilepath.cafilepath_id.in_(capq))
- cpq.delete()
-
- s.commit()
-
-
- def bootstrap_bin(self):
- """
- scan the existing debs in the pool to populate the bin_contents table
- """
- pooldir = Config()[ 'Dir::Pool' ]
-
- s = DBConn().session()
-
- for binary in s.query(DBBinary).yield_per(100):
- print( "binary: %s" % binary.package )
- filename = binary.poolfile.filename
- # Check for existing contents
- existingq = s.execute( "select 1 from bin_contents where binary_id=:id", {'id':binary.binary_id} );
- if existingq.fetchone():
- log.debug( "already imported: %s" % (filename))
- else:
- # We don't have existing contents so import them
- log.debug( "scanning: %s" % (filename) )
-
- debfile = os.path.join(pooldir, filename)
- if os.path.exists(debfile):
- Binary(debfile, self.reject).scan_package(binary.binary_id, True)
- else:
- log.error("missing .deb: %s" % filename)
-
-
-
- def bootstrap(self):
- """
- scan the existing debs in the pool to populate the contents database tables
- """
- s = DBConn().session()
-
-
- # get a mapping of all the override types we care about (right now .deb an .udeb)
- override_type_map = {};
- for override_type in s.query(OverrideType).all():
- if override_type.overridetype.endswith('deb' ):
- override_type_map[override_type.overridetype_id] = override_type.overridetype;
-
- for override in s.query(Override).yield_per(100):
- if not override_type_map.has_key(override.overridetype_id):
- #this isn't an override we care about
- continue
-
- binaries = s.execute("""SELECT b.id, b.architecture
- FROM binaries b
- JOIN bin_associations ba ON ba.bin=b.id
- WHERE ba.suite=:suite
- AND b.package=:package""", {'suite':override.suite_id, 'package':override.package})
- while True:
- binary = binaries.fetchone()
- if not binary:
- break
-
- exists = s.execute("SELECT 1 FROM %s_contents WHERE binary_id=:id limit 1" % override_type_map[override.overridetype_id], {'id':binary.id})
-
-
- if exists.fetchone():
- print '.',
- continue
- else:
- print '+',
-
- s.execute( """INSERT INTO %s_contents (filename,section,package,binary_id,arch,suite)
- SELECT file, :section, :package, :binary_id, :arch, :suite
- FROM bin_contents
- WHERE binary_id=:binary_id;""" % override_type_map[override.overridetype_id],
- { 'section' : override.section_id,
- 'package' : override.package,
- 'binary_id' : binary.id,
- 'arch' : binary.architecture,
- 'suite' : override.suite_id } )
- s.commit()
-
- def generate(self):
- """
- Generate contents files for both deb and udeb
- """
- self.deb_generate()
-# self.udeb_generate()
-
- def deb_generate(self):
- """
- Generate Contents-$arch.gz files for every available arch in each given suite.
- """
- session = DBConn().session()
- debtype_id = get_override_type("deb", session)
- suites = self._suites()
-
- inputtoquery = OneAtATime()
- querytoingest = OneAtATime()
- ingesttosort = OneAtATime()
- sorttooutput = OneAtATime()
- outputtogzip = OneAtATime()
-
- qt = QueryThread(inputtoquery,querytoingest)
- it = IngestThread(querytoingest,ingesttosort)
-# these actually make things worse
-# it2 = IngestThread(querytoingest,ingesttosort)
-# it3 = IngestThread(querytoingest,ingesttosort)
-# it4 = IngestThread(querytoingest,ingesttosort)
- st = SortThread(ingesttosort,sorttooutput)
- ot = OutputThread(sorttooutput,outputtogzip)
- gt = GzipThread(outputtogzip, None)
-
- qt.start()
- it.start()
-# it2.start()
-# it3.start()
-# it2.start()
- st.start()
- ot.start()
- gt.start()
-
- # Get our suites, and the architectures
- for suite in [i.lower() for i in suites]:
- suite_id = get_suite(suite, session).suite_id
- print( "got suite_id: %s for suite: %s" % (suite_id, suite ) )
- arch_list = self._arches(suite_id, session)
-
- for (arch_id,arch_str) in arch_list:
- print( "suite: %s, arch: %s time: %s" %(suite_id, arch_id, datetime.datetime.now().isoformat()) )
-
-# filename = "dists/%s/Contents-%s.gz" % (suite, arch_str)
- filename = "dists/%s/Contents-%s" % (suite, arch_str)
- cf = DebContentFile(filename, suite, suite_id, arch_str, arch_id)
- inputtoquery.enqueue( cf )
-
- inputtoquery.enqueue( EndOfContents() )
- gt.join()
-
- def udeb_generate(self):
- """
- Generate Contents-$arch.gz files for every available arch in each given suite.
- """
- session = DBConn().session()
- udebtype_id=DBConn().get_override_type_id("udeb")
- suites = self._suites()
-
- inputtoquery = OneAtATime()
- querytoingest = OneAtATime()
- ingesttosort = OneAtATime()
- sorttooutput = OneAtATime()
- outputtogzip = OneAtATime()
-
- qt = QueryThread(inputtoquery,querytoingest)
- it = IngestThread(querytoingest,ingesttosort)
-# these actually make things worse
-# it2 = IngestThread(querytoingest,ingesttosort)
-# it3 = IngestThread(querytoingest,ingesttosort)
-# it4 = IngestThread(querytoingest,ingesttosort)
- st = SortThread(ingesttosort,sorttooutput)
- ot = OutputThread(sorttooutput,outputtogzip)
- gt = GzipThread(outputtogzip, None)
-
- qt.start()
- it.start()
-# it2.start()
-# it3.start()
-# it2.start()
- st.start()
- ot.start()
- gt.start()
-
-# for section, fn_pattern in [("debian-installer","dists/%s/Contents-udeb-%s"),
-# ("non-free/debian-installer", "dists/%s/Contents-udeb-nf-%s")]:
-
-# section_id = DBConn().get_section_id(section) # all udebs should be here)
-# if section_id != -1:
-
-
-
-# # Get our suites, and the architectures
-# for suite in [i.lower() for i in suites]:
-# suite_id = DBConn().get_suite_id(suite)
-# arch_list = self._arches(suite_id, session)
-
-# for arch_id in arch_list:
-
-# writer = GzippedContentWriter(fn_pattern % (suite, arch_id[1]))
-# try:
-
-# results = session.execute("EXECUTE udeb_contents_q(%d,%d,%d)" % (suite_id, udebtype_id, section_id, arch_id))
-
-# while True:
-# r = cursor.fetchone()
-# if not r:
-# break
-
-# filename, section, package, arch = r
-# writer.write(filename, section, package)
-# finally:
-# writer.close()
-
-
-
-
- def generate(self):
- """
- Generate Contents-$arch.gz files for every available arch in each given suite.
- """
- session = DBConn().session()
-
- arch_all_id = get_architecture("all", session).arch_id
-
- # The MORE fun part. Ok, udebs need their own contents files, udeb, and udeb-nf (not-free)
- # This is HORRIBLY debian specific :-/
- for dtype, section, fn_pattern in \
- [('deb', None, "dists/%s/Contents-%s.gz"),
- ('udeb', "debian-installer", "dists/%s/Contents-udeb-%s.gz"),
- ('udeb', "non-free/debian-installer", "dists/%s/Contents-udeb-nf-%s.gz")]:
-
- overridetype = get_override_type(dtype, session)
-
- # For udebs, we only look in certain sections (see the for loop above)
- if section is not None:
- section = get_section(section, session)
-
- # Get our suites
- for suite in which_suites(session):
- # Which architectures do we need to work on
- arch_list = get_suite_architectures(suite.suite_name, skipsrc=True, skipall=True, session=session)
-
- # Set up our file writer dictionary
- file_writers = {}
- try:
- # One file writer per arch
- for arch in arch_list:
- file_writers[arch.arch_id] = GzippedContentWriter(fn_pattern % (suite, arch.arch_string))
-
- for r in get_suite_contents(suite, overridetype, section, session=session).fetchall():
- filename, section, package, arch_id = r
-
- if arch_id == arch_all_id:
- # It's arch all, so all contents files get it
- for writer in file_writers.values():
- writer.write(filename, section, package)
- else:
- if file_writers.has_key(arch_id):
- file_writers[arch_id].write(filename, section, package)
-
- finally:
- # close all the files
- for writer in file_writers.values():
- writer.finish()
- def _suites(self):
- """
- return a list of suites to operate on
- """
- if Config().has_key( "%s::%s" %(options_prefix,"Suite")):
- suites = utils.split_args(Config()[ "%s::%s" %(options_prefix,"Suite")])
- else:
- suites = [ 'unstable', 'testing' ]
-# suites = Config().SubTree("Suite").List()
-
- return suites
-
- def _arches(self, suite, session):
- """
- return a list of archs to operate on
- """
- arch_list = []
- arches = session.execute(
- """SELECT s.architecture, a.arch_string
- FROM suite_architectures s
- JOIN architecture a ON (s.architecture=a.id)
- WHERE suite = :suite_id""",
- {'suite_id':suite } )
-
- while True:
- r = arches.fetchone()
- if not r:
- break
-
- if r[1] != "source" and r[1] != "all":
- arch_list.append((r[0], r[1]))
-
- return arch_list
-