from daklib.dbconn import *
from daklib.config import Config
+from daklib.filewriter import BinaryContentsFileWriter, SourceContentsFileWriter
from multiprocessing import Pool
-from subprocess import Popen, PIPE
+from shutil import rmtree
+from tempfile import mkdtemp
+import daklib.daksubprocess
import os.path
-class ContentsWriter(object):
+class BinaryContentsWriter(object):
'''
- ContentsWriter writes the Contents-$arch.gz files.
+ BinaryContentsWriter writes the Contents-$arch.gz files.
'''
- def __init__(self, suite, architecture, overridetype, component = None):
- '''
- The constructor clones its arguments into a new session object to make
- sure that the new ContentsWriter object can be executed in a different
- thread.
- '''
+ def __init__(self, suite, architecture, overridetype, component):
self.suite = suite
self.architecture = architecture
self.overridetype = overridetype
params = {
'suite': self.suite.suite_id,
'overridesuite': overridesuite.suite_id,
+ 'component': self.component.component_id,
'arch_all': get_architecture('all', self.session).arch_id,
'arch': self.architecture.arch_id,
'type_id': self.overridetype.overridetype_id,
'type': self.overridetype.overridetype,
}
- if self.component is not None:
- params['component'] = self.component.component_id
- sql = '''
+ sql_create_temp = '''
create temp table newest_binaries (
id integer primary key,
package text);
where type = :type and
(architecture = :arch_all or architecture = :arch) and
id in (select bin from bin_associations where suite = :suite)
- order by package, version desc;
+ order by package, version desc;'''
+ self.session.execute(sql_create_temp, params=params)
+ sql = '''
with
unique_override as
where o.suite = :overridesuite and o.type = :type_id and o.section = s.id and
o.component = :component)
-select bc.file, string_agg(o.section || '/' || b.package, ',' order by b.package) as pkglist
- from newest_binaries b, bin_contents bc, unique_override o
- where b.id = bc.binary_id and o.package = b.package
- group by bc.file'''
-
- else:
- sql = '''
-create temp table newest_binaries (
- id integer primary key,
- package text);
-
-create index newest_binaries_by_package on newest_binaries (package);
-
-insert into newest_binaries (id, package)
- select distinct on (package) id, package from binaries
- where type = :type and
- (architecture = :arch_all or architecture = :arch) and
- id in (select bin from bin_associations where suite = :suite)
- order by package, version desc;
-
-with
-
-unique_override as
- (select distinct on (o.package, s.section) o.package, s.section
- from override o, section s
- where o.suite = :overridesuite and o.type = :type_id and o.section = s.id
- order by o.package, s.section, o.modified desc)
-
select bc.file, string_agg(o.section || '/' || b.package, ',' order by b.package) as pkglist
from newest_binaries b, bin_contents bc, unique_override o
where b.id = bc.binary_id and o.package = b.package
'''
return [item for item in self.fetch()]
- def output_filename(self):
+ def writer(self):
'''
- Returns the name of the output file.
+ Returns a writer object.
'''
values = {
- 'root': Config()['Dir::Root'],
- 'suite': self.suite.suite_name,
- 'architecture': self.architecture.arch_string
+ 'archive': self.suite.archive.path,
+ 'suite': self.suite.suite_name,
+ 'component': self.component.component_name,
+ 'debtype': self.overridetype.overridetype,
+ 'architecture': self.architecture.arch_string,
}
- if self.component is None:
- return "%(root)s/dists/%(suite)s/Contents-%(architecture)s.gz" % values
- values['component'] = self.component.component_name
- return "%(root)s/dists/%(suite)s/%(component)s/Contents-%(architecture)s.gz" % values
+ return BinaryContentsFileWriter(**values)
def get_header(self):
'''
Returns the header for the Contents files as a string.
'''
- header_file = None
- try:
- filename = os.path.join(Config()['Dir::Templates'], 'contents')
- header_file = open(filename)
+ filename = os.path.join(Config()['Dir::Templates'], 'contents')
+ with open(filename) as header_file:
return header_file.read()
- finally:
- if header_file:
- header_file.close()
def write_file(self):
'''
Write the output file.
'''
- command = ['gzip', '--rsyncable']
- final_filename = self.output_filename()
- temp_filename = final_filename + '.new'
- output_file = open(temp_filename, 'w')
- gzip = Popen(command, stdin = PIPE, stdout = output_file)
- gzip.stdin.write(self.get_header())
+ writer = self.writer()
+ file = writer.open()
+ file.write(self.get_header())
for item in self.fetch():
- gzip.stdin.write(item)
- gzip.stdin.close()
- output_file.close()
- gzip.wait()
- try:
- os.remove(final_filename)
- except:
- pass
- os.rename(temp_filename, final_filename)
- os.chmod(final_filename, 0664)
+ file.write(item)
+ writer.close()
+
+
+class SourceContentsWriter(object):
+ '''
+ SourceContentsWriter writes the Contents-source.gz files.
+ '''
+ def __init__(self, suite, component):
+ self.suite = suite
+ self.component = component
+ self.session = suite.session()
+
+ def query(self):
+ '''
+ Returns a query object that is doing most of the work.
+ '''
+ params = {
+ 'suite_id': self.suite.suite_id,
+ 'component_id': self.component.component_id,
+ }
+ sql_create_temp = '''
+create temp table newest_sources (
+ id integer primary key,
+ source text);
+
+create index sources_binaries_by_source on newest_sources (source);
+
+insert into newest_sources (id, source)
+ select distinct on (source) s.id, s.source from source s
+ join files_archive_map af on s.file = af.file_id
+ where s.id in (select source from src_associations where suite = :suite_id)
+ and af.component_id = :component_id
+ order by source, version desc;'''
+ self.session.execute(sql_create_temp, params=params)
+
+ sql = '''
+select sc.file, string_agg(s.source, ',' order by s.source) as pkglist
+ from newest_sources s, src_contents sc
+ where s.id = sc.source_id group by sc.file'''
+
+ return self.session.query("file", "pkglist").from_statement(sql). \
+ params(params)
+
+ def formatline(self, filename, package_list):
+ '''
+ Returns a formatted string for the filename argument.
+ '''
+ return "%s\t%s\n" % (filename, package_list)
+
+ def fetch(self):
+ '''
+ Yields a new line of the Contents-source.gz file in filename order.
+ '''
+ for filename, package_list in self.query().yield_per(100):
+ yield self.formatline(filename, package_list)
+ # end transaction to return connection to pool
+ self.session.rollback()
+
+ def get_list(self):
+ '''
+ Returns a list of lines for the Contents-source.gz file.
+ '''
+ return [item for item in self.fetch()]
+
+ def writer(self):
+ '''
+ Returns a writer object.
+ '''
+ values = {
+ 'archive': self.suite.archive.path,
+ 'suite': self.suite.suite_name,
+ 'component': self.component.component_name
+ }
+ return SourceContentsFileWriter(**values)
+
+ def write_file(self):
+ '''
+ Write the output file.
+ '''
+ writer = self.writer()
+ file = writer.open()
+ for item in self.fetch():
+ file.write(item)
+ writer.close()
+
+
+def binary_helper(suite_id, arch_id, overridetype_id, component_id):
+ '''
+ This function is called in a new subprocess and multiprocessing wants a top
+ level function.
+ '''
+ session = DBConn().session(work_mem = 1000)
+ suite = Suite.get(suite_id, session)
+ architecture = Architecture.get(arch_id, session)
+ overridetype = OverrideType.get(overridetype_id, session)
+ component = Component.get(component_id, session)
+ log_message = [suite.suite_name, architecture.arch_string, \
+ overridetype.overridetype, component.component_name]
+ contents_writer = BinaryContentsWriter(suite, architecture, overridetype, component)
+ contents_writer.write_file()
+ session.close()
+ return log_message
+
+def source_helper(suite_id, component_id):
+ '''
+ This function is called in a new subprocess and multiprocessing wants a top
+ level function.
+ '''
+ session = DBConn().session(work_mem = 1000)
+ suite = Suite.get(suite_id, session)
+ component = Component.get(component_id, session)
+ log_message = [suite.suite_name, 'source', component.component_name]
+ contents_writer = SourceContentsWriter(suite, component)
+ contents_writer.write_file()
+ session.close()
+ return log_message
+
+class ContentsWriter(object):
+ '''
+ Loop over all suites, architectures, overridetypes, and components to write
+ all contents files.
+ '''
@classmethod
def log_result(class_, result):
'''
class_.logger.log(result)
@classmethod
- def write_all(class_, logger, suite_names = [], force = False):
+ def write_all(class_, logger, archive_names = [], suite_names = [], component_names = [], force = False):
'''
Writes all Contents files for suites in list suite_names which defaults
to all 'touchable' suites if not specified explicitely. Untouchable
class_.logger = logger
session = DBConn().session()
suite_query = session.query(Suite)
+ if len(archive_names) > 0:
+ suite_query = suite_query.join(Suite.archive).filter(Archive.archive_name.in_(archive_names))
if len(suite_names) > 0:
suite_query = suite_query.filter(Suite.suite_name.in_(suite_names))
+ component_query = session.query(Component)
+ if len(component_names) > 0:
+ component_query = component_query.filter(Component.component_name.in_(component_names))
if not force:
- suite_query = suite_query.filter_by(untouchable = False)
+ suite_query = suite_query.filter(Suite.untouchable == False)
deb_id = get_override_type('deb', session).overridetype_id
udeb_id = get_override_type('udeb', session).overridetype_id
- main_id = get_component('main', session).component_id
- non_free_id = get_component('non-free', session).component_id
pool = Pool()
for suite in suite_query:
suite_id = suite.suite_id
- for architecture in suite.get_architectures(skipsrc = True, skipall = True):
- arch_id = architecture.arch_id
- # handle 'deb' packages
- pool.apply_async(generate_helper, (suite_id, arch_id, deb_id), \
- callback = class_.log_result)
- # handle 'udeb' packages for 'main' and 'non-free'
- pool.apply_async(generate_helper, (suite_id, arch_id, udeb_id, main_id), \
- callback = class_.log_result)
- pool.apply_async(generate_helper, (suite_id, arch_id, udeb_id, non_free_id), \
+ for component in component_query:
+ component_id = component.component_id
+ # handle source packages
+ pool.apply_async(source_helper, (suite_id, component_id),
callback = class_.log_result)
+ for architecture in suite.get_architectures(skipsrc = True, skipall = True):
+ arch_id = architecture.arch_id
+ # handle 'deb' packages
+ pool.apply_async(binary_helper, (suite_id, arch_id, deb_id, component_id), \
+ callback = class_.log_result)
+ # handle 'udeb' packages
+ pool.apply_async(binary_helper, (suite_id, arch_id, udeb_id, component_id), \
+ callback = class_.log_result)
pool.close()
pool.join()
session.close()
-def generate_helper(suite_id, arch_id, overridetype_id, component_id = None):
- '''
- This function is called in a new subprocess.
- '''
- DBConn().reset()
- session = DBConn().session()
- suite = Suite.get(suite_id, session)
- architecture = Architecture.get(arch_id, session)
- overridetype = OverrideType.get(overridetype_id, session)
- log_message = [suite.suite_name, architecture.arch_string, overridetype.overridetype]
- if component_id is None:
- component = None
- else:
- component = Component.get(component_id, session)
- log_message.append(component.component_name)
- contents_writer = ContentsWriter(suite, architecture, overridetype, component)
- contents_writer.write_file()
- return log_message
-
-class ContentsScanner(object):
+class BinaryContentsScanner(object):
'''
- ContentsScanner provides a threadsafe method scan() to scan the contents of
- a DBBinary object.
+ BinaryContentsScanner provides a threadsafe method scan() to scan the
+ contents of a DBBinary object.
'''
def __init__(self, binary_id):
'''
processed = query.count()
pool = Pool()
for binary in query.yield_per(100):
- pool.apply_async(scan_helper, (binary.binary_id, ))
+ pool.apply_async(binary_scan_helper, (binary.binary_id, ))
pool.close()
pool.join()
remaining = remaining()
session.close()
return { 'processed': processed, 'remaining': remaining }
-reset = False
-
-def scan_helper(binary_id):
+def binary_scan_helper(binary_id):
'''
This function runs in a subprocess.
'''
- global reset
- if not reset:
- DBConn().reset()
- reset = True
- scanner = ContentsScanner(binary_id)
+ scanner = BinaryContentsScanner(binary_id)
scanner.scan()
+
+class UnpackedSource(object):
+ '''
+ UnpackedSource extracts a source package into a temporary location and
+ gives you some convinient function for accessing it.
+ '''
+ def __init__(self, dscfilename, tmpbasedir=None):
+ '''
+ The dscfilename is a name of a DSC file that will be extracted.
+ '''
+ basedir = tmpbasedir if tmpbasedir else Config()['Dir::TempPath']
+ temp_directory = mkdtemp(dir = basedir)
+ self.root_directory = os.path.join(temp_directory, 'root')
+ command = ('dpkg-source', '--no-copy', '--no-check', '-q', '-x',
+ dscfilename, self.root_directory)
+ daklib.daksubprocess.check_call(command)
+
+ def get_root_directory(self):
+ '''
+ Returns the name of the package's root directory which is the directory
+ where the debian subdirectory is located.
+ '''
+ return self.root_directory
+
+ def get_changelog_file(self):
+ '''
+ Returns a file object for debian/changelog or None if no such file exists.
+ '''
+ changelog_name = os.path.join(self.root_directory, 'debian', 'changelog')
+ try:
+ return open(changelog_name)
+ except IOError:
+ return None
+
+ def get_all_filenames(self):
+ '''
+ Returns an iterator over all filenames. The filenames will be relative
+ to the root directory.
+ '''
+ skip = len(self.root_directory) + 1
+ for root, _, files in os.walk(self.root_directory):
+ for name in files:
+ yield os.path.join(root[skip:], name)
+
+ def cleanup(self):
+ '''
+ Removes all temporary files.
+ '''
+ if self.root_directory is None:
+ return
+ parent_directory = os.path.dirname(self.root_directory)
+ rmtree(parent_directory)
+ self.root_directory = None
+
+ def __del__(self):
+ '''
+ Enforce cleanup.
+ '''
+ self.cleanup()
+
+
+class SourceContentsScanner(object):
+ '''
+ SourceContentsScanner provides a method scan() to scan the contents of a
+ DBSource object.
+ '''
+ def __init__(self, source_id):
+ '''
+ The argument source_id is the id of the DBSource object that
+ should be scanned.
+ '''
+ self.source_id = source_id
+
+ def scan(self):
+ '''
+ This method does the actual scan and fills in the associated SrcContents
+ property. It commits any changes to the database.
+ '''
+ session = DBConn().session()
+ source = session.query(DBSource).get(self.source_id)
+ fileset = set(source.scan_contents())
+ for filename in fileset:
+ source.contents.append(SrcContents(file = filename))
+ session.commit()
+ session.close()
+
+ @classmethod
+ def scan_all(class_, limit = None):
+ '''
+ The class method scan_all() scans all source using multiple processes.
+ The number of sources to be scanned can be limited with the limit
+ argument. Returns the number of processed and remaining packages as a
+ dict.
+ '''
+ session = DBConn().session()
+ query = session.query(DBSource).filter(DBSource.contents == None)
+ remaining = query.count
+ if limit is not None:
+ query = query.limit(limit)
+ processed = query.count()
+ pool = Pool()
+ for source in query.yield_per(100):
+ pool.apply_async(source_scan_helper, (source.source_id, ))
+ pool.close()
+ pool.join()
+ remaining = remaining()
+ session.close()
+ return { 'processed': processed, 'remaining': remaining }
+
+def source_scan_helper(source_id):
+ '''
+ This function runs in a subprocess.
+ '''
+ try:
+ scanner = SourceContentsScanner(source_id)
+ scanner.scan()
+ except Exception as e:
+ print e