client/site_tests/platform_PrinterPpds/platform_PrinterPpds.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 # Copyright 2018 The Chromium OS Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 import dbus
 import gzip
 import logging
 import os
 import subprocess
 import shutil
 import tempfile

 from autotest_lib.client.bin import test
 from autotest_lib.client.common_lib import error
 from autotest_lib.client.common_lib import file_utils
 from autotest_lib.client.cros import debugd_util

 import archiver
 import configurator
 import helpers
 import fake_printer
 import log_reader
 import multithreaded_processor

 # Timeout for printing documents in seconds
 _FAKE_PRINTER_TIMEOUT = 200

 # Prefix for CUPS printer name
 _FAKE_PRINTER_ID = 'FakePrinter'

 # First port number to use, this test uses consecutive ports numbers,
 # different for every PPD file
 _FIRST_PORT_NUMBER = 9000

 # Values are from platform/system_api/dbus/debugd/dbus-constants.h.
 _CUPS_SUCCESS = 0

 # Exceptions, cases that we want to omit/ignore
 # key: document; values: list of PPD files
 _EXCEPTIONS = { 'split_streams.pdf': ['HP-DeskJet_200-pcl3.ppd.gz',
         'HP-DeskJet_310-pcl3.ppd.gz', 'HP-DeskJet_320-pcl3.ppd.gz',
         'HP-DeskJet_340C-pcl3.ppd.gz', 'HP-DeskJet_540C-pcl3.ppd.gz',
         'HP-DeskJet_560C-pcl3.ppd.gz'] }

 class platform_PrinterPpds(test.test):
     """
     This test gets a list of PPD files and a list of test documents. It tries
     to add printer using each PPD file and to print all test documents on
     every printer created this way. Becasue the number of PPD files to test can
     be large (more then 3K), PPD files are tested simultaneously in many
     threads.

     """
     version = 3


     def _get_filenames_from_PPD_indexes(self):
         """
         It returns all PPD filenames from SCS server.

         @returns a list of PPD filenames without duplicates

         """
         # extracts PPD filenames from all 20 index files (in parallel)
         outputs = self._processor.run(helpers.get_filenames_from_PPD_index, 20)
         # joins obtained lists and performs deduplication
         ppd_files = set()
         for output in outputs:
             ppd_files.update(output)
         return list(ppd_files)


     def _calculate_full_path(self, path):
         """
         Converts path given as a parameter to absolute path.

         @param path: a path set in configuration (relative, absolute or None)

         @returns absolute path or None if the input parameter was None

         """
         if path is None or os.path.isabs(path):
             return path
         path_current = os.path.dirname(os.path.realpath(__file__))
         return os.path.join(path_current, path)


     def initialize(
             self, path_docs, path_ppds=None, path_digests=None,
             debug_mode=False, threads_count=8):
         """
         @param path_docs: path to local directory with documents to print
         @param path_ppds: path to local directory with PPD files to test;
                 if None is set then all PPD files from the SCS server are
                 downloaded and tested
         @param path_digests: path to local directory with digests files for
                 test documents; if None is set then content of printed
                 documents is not verified
         @param debug_mode: if set to True, then the autotest temporarily
                 remounts the root partition in R/W mode and changes CUPS
                 configuration, what allows to extract pipelines for all tested
                 PPDs and rerun the outside CUPS
         @param threads_count: number of threads to use

         """
         # Calculates absolute paths for all parameters
         self._location_of_test_docs = self._calculate_full_path(path_docs)
         self._location_of_PPD_files = self._calculate_full_path(path_ppds)
         location_of_digests_files = self._calculate_full_path(path_digests)

         # This object is used for running tasks in many threads simultaneously
         self._processor = multithreaded_processor.MultithreadedProcessor(
                 threads_count)

         # This object is responsible for parsing CUPS logs
         self._log_reader = log_reader.LogReader()

         # This object is responsible for the system configuration
         self._configurator = configurator.Configurator()
         self._configurator.configure(debug_mode)

         # Reads list of test documents
         self._docs = helpers.list_entries_from_directory(
                             path=self._location_of_test_docs,
                             with_suffixes=('.pdf'),
                             nonempty_results=True,
                             include_directories=False)

         # Get list of PPD files ...
         if self._location_of_PPD_files is None:
             # ... from the SCS server
             self._ppds = self._get_filenames_from_PPD_indexes()
         else:
             # ... from the given local directory
             # Unpack archives with all PPD files:
             path_archive = self._calculate_full_path('ppds_all.tar.xz')
             path_target_dir = self._calculate_full_path('.')
             file_utils.rm_dir_if_exists(
                     os.path.join(path_target_dir,'ppds_all'))
             subprocess.call(['tar', 'xJf', path_archive, '-C', path_target_dir])
             path_archive = self._calculate_full_path('ppds_100.tar.xz')
             file_utils.rm_dir_if_exists(
                     os.path.join(path_target_dir,'ppds_100'))
             subprocess.call(['tar', 'xJf', path_archive, '-C', path_target_dir])
             # Load PPD files from the chosen directory
             self._ppds = helpers.list_entries_from_directory(
                             path=self._location_of_PPD_files,
                             with_suffixes=('.ppd','.ppd.gz'),
                             nonempty_results=True,
                             include_directories=False)
         self._ppds.sort()

         # Load digests files
         self._digests = dict()
         if location_of_digests_files is None:
             for doc_name in self._docs:
                 self._digests[doc_name] = dict()
         else:
             path_blacklist = os.path.join(location_of_digests_files,
                     'blacklist.txt')
             blacklist = helpers.load_blacklist(path_blacklist)
             for doc_name in self._docs:
                 digests_name = doc_name + '.digests'
                 path = os.path.join(location_of_digests_files, digests_name)
                 self._digests[doc_name] = helpers.parse_digests_file(path,
                         blacklist)

         # Prepare a working directory for pipelines
         if debug_mode:
             self._pipeline_dir = tempfile.mkdtemp(dir='/tmp')
         else:
             self._pipeline_dir = None


     def cleanup(self):
         """
         Cleanup.

         """
         # Resore previous system settings
         self._configurator.restore()

         # Delete directories with PPD files
         path_ppds = self._calculate_full_path('ppds_100')
         file_utils.rm_dir_if_exists(path_ppds)
         path_ppds = self._calculate_full_path('ppds_all')
         file_utils.rm_dir_if_exists(path_ppds)

         # Delete pipeline working directory
         if self._pipeline_dir is not None:
             file_utils.rm_dir_if_exists(self._pipeline_dir)


     def run_once(self, path_outputs=None):
         """
         This is the main test function. It runs the testing procedure for
         every PPD file. Tests are run simultaneously in many threads.

         @param path_outputs: if it is not None, raw outputs sent
                 to printers are dumped here; the directory is overwritten if
                 already exists (is deleted and recreated)

         @raises error.TestFail if at least one of the tests failed

         """
         # Set directory for output documents
         self._path_output_directory = self._calculate_full_path(path_outputs)
         if self._path_output_directory is not None:
             # Delete whole directory if already exists
             file_utils.rm_dir_if_exists(self._path_output_directory)
             # Create archivers
             self._archivers = dict()
             for doc_name in self._docs:
                 path_for_archiver = os.path.join(self._path_output_directory,
                         doc_name)
                 self._archivers[doc_name] = archiver.Archiver(path_for_archiver,
                         self._ppds, 50)
             # A place for new digests
             self._new_digests = dict()
             for doc_name in self._docs:
                 self._new_digests[doc_name] = dict()

         # Runs tests for all PPD files (in parallel)
         outputs = self._processor.run(self._thread_test_PPD, len(self._ppds))

         # Analyses tests' outputs, prints a summary report and builds a list
         # of PPD filenames that failed
         failures = []
         for i, output in enumerate(outputs):
             ppd_file = self._ppds[i]
             if output != True:
                 failures.append(ppd_file)
             else:
                 output = 'OK'
             line = "%s: %s" % (ppd_file, output)
             logging.info(line)

         # Calculate digests files for output documents (if dumped)
         if self._path_output_directory is not None:
             for doc_name in self._docs:
                 path = os.path.join(self._path_output_directory,
                         doc_name + '.digests')
                 helpers.save_digests_file(path, self._new_digests[doc_name],
                         failures)

         # Raises an exception if at least one test failed
         if len(failures) > 0:
             failures.sort()
             raise error.TestFail(
                     'Test failed for %d PPD files: %s'
                     % (len(failures), ', '.join(failures)) )


     def _thread_test_PPD(self, task_id):
         """
         Runs a test procedure for single PPD file.

         It retrieves assigned PPD file and run for it a test procedure.

         @param task_id: an index of the PPD file in self._ppds

         @returns True when the test was passed or description of the error
                 (string) if the test failed

         """
         # Gets content of the PPD file
         try:
             ppd_file = self._ppds[task_id]
             if self._location_of_PPD_files is None:
                 # Downloads PPD file from the SCS server
                 ppd_content = helpers.download_PPD_file(ppd_file)
             else:
                 # Reads PPD file from local filesystem
                 path_ppd = os.path.join(self._location_of_PPD_files, ppd_file)
                 with open(path_ppd, 'rb') as ppd_file_descriptor:
                     ppd_content = ppd_file_descriptor.read()
         except BaseException as e:
             return 'MISSING PPD: ' + str(e)

         # Runs the test procedure
         try:
             port = _FIRST_PORT_NUMBER + task_id
             self._PPD_test_procedure(ppd_file, ppd_content, port)
         except BaseException as e:
             return 'FAIL: ' + str(e)

         return True


     def _PPD_test_procedure(self, ppd_name, ppd_content, port):
         """
         Test procedure for single PPD file.

         It tries to run the following steps:
         1. Starts an instance of FakePrinter
         2. Configures CUPS printer
         3. For each test document run the following steps:
             3a. Sends tests documents to the CUPS printer
             3b. Fetches the raw document from the FakePrinter
             3c. Parse CUPS logs and check for any errors
             3d. If self._pipeline_dir is set, extract the executed CUPS
                 pipeline, rerun it in bash console and verify every step and
                 final output
             3e. If self._path_output_directory is set, save the raw document
                 and all intermediate steps in the provided directory
             3f. If the digest is available, verify a digest of an output
                 documents
         4. Removes CUPS printer and stops FakePrinter
         If the test fails this method throws an exception.

         @param ppd_name: a name of the PPD file
         @param ppd_content: a content of the PPD file
         @param port: a port for the printer

         @throws Exception when the test fails

         """
         # Create work directory for external pipelines and save the PPD file
         # there (if needed)
         path_ppd = None
         if self._pipeline_dir is not None:
             path_pipeline_ppd_dir = os.path.join(self._pipeline_dir, ppd_name)
             os.makedirs(path_pipeline_ppd_dir)
             path_ppd = os.path.join(path_pipeline_ppd_dir, ppd_name)
             with open(path_ppd, 'wb') as file_ppd:
                 file_ppd.write(ppd_content)
             if path_ppd.endswith('.gz'):
                 subprocess.call(['gzip', '-d', path_ppd])
                 path_ppd = path_ppd[0:-3]

         try:
             # Starts the fake printer
             with fake_printer.FakePrinter(port) as printer:

                 # Add a CUPS printer manually with given ppd file
                 cups_printer_id = '%s_at_%05d' % (_FAKE_PRINTER_ID,port)
                 result = debugd_util.iface().CupsAddManuallyConfiguredPrinter(
                                              cups_printer_id,
                                              'socket://127.0.0.1:%d' % port,
                                              dbus.ByteArray(ppd_content))
                 if result != _CUPS_SUCCESS:
                     raise Exception('valid_config - Could not setup valid '
                         'printer %d' % result)

                 # Prints all test documents
                 try:
                     for doc_name in self._docs:
                         # Omit exceptions
                         if ( doc_name in _EXCEPTIONS and
                                 ppd_name in _EXCEPTIONS[doc_name] ):
                             if self._path_output_directory is not None:
                                 self._new_digests[doc_name][ppd_name] = (
                                         helpers.calculate_digest('\x00') )
                             continue
                         # Full path to the test document
                         path_doc = os.path.join(
                                         self._location_of_test_docs, doc_name)
                         # Sends test document to printer
                         argv = ['lp', '-d', cups_printer_id]
                         argv += [path_doc]
                         subprocess.call(argv)
                         # Prepare a workdir for the pipeline (if needed)
                         path_pipeline_workdir_temp = None
                         if self._pipeline_dir is not None:
                             path_pipeline_workdir = os.path.join(
                                     path_pipeline_ppd_dir, doc_name)
                             path_pipeline_workdir_temp = os.path.join(
                                     path_pipeline_workdir, 'temp')
                             os.makedirs(path_pipeline_workdir_temp)
                         # Gets the output document from the fake printer
                         doc = printer.fetch_document(_FAKE_PRINTER_TIMEOUT)
                         digest = helpers.calculate_digest(doc)
                         # Retrive data from the log file
                         no_errors, logs, pipeline = \
                                 self._log_reader.extract_result(
                                         cups_printer_id, path_ppd, path_doc,
                                         path_pipeline_workdir_temp)
                         # Archive obtained results in the output directory
                         if self._path_output_directory is not None:
                             self._archivers[doc_name].save_file(
                                     ppd_name, '.out', doc, apply_gzip=True)
                             self._archivers[doc_name].save_file(
                                     ppd_name, '.log', logs)
                             if pipeline is not None:
                                 self._archivers[doc_name].save_file(
                                         ppd_name, '.sh', pipeline)
                             # Set new digest
                             self._new_digests[doc_name][ppd_name] = digest
                         # Fail if any of CUPS filters failed
                         if not no_errors:
                             raise Exception('One of the CUPS filters failed')
                         # Reruns the pipeline and dump intermediate outputs
                         if self._pipeline_dir is not None:
                             self._rerun_whole_pipeline(
                                         pipeline, path_pipeline_workdir,
                                         ppd_name, doc_name, digest)
                             shutil.rmtree(path_pipeline_workdir)
                         # Check document's digest (if known)
                         if ppd_name in self._digests[doc_name]:
                             digest_expected = self._digests[doc_name][ppd_name]
                             if digest_expected != digest:
                                 message = 'Document\'s digest does not match'
                                 raise Exception(message)
                         else:
                             # Simple validation
                             if len(doc) < 16:
                                 raise Exception('Empty output')
                 finally:
                     # Remove CUPS printer
                     debugd_util.iface().CupsRemovePrinter(cups_printer_id)

             # The fake printer is stopped at the end of "with" statement
         finally:
             # Finalize archivers and cleaning
             if self._path_output_directory is not None:
                 for doc_name in self._docs:
                     self._archivers[doc_name].finalize_prefix(ppd_name)
             # Clean the pipelines' working directories
             if self._pipeline_dir is not None:
                 shutil.rmtree(path_pipeline_ppd_dir)


     def _rerun_whole_pipeline(
             self, pipeline, path_workdir, ppd_name, doc_name, digest):
         """
         Reruns the whole pipeline outside CUPS server.

         Reruns a printing pipeline dumped from CUPS. All intermediate outputs
         are dumped and archived for future analysis.

         @param pipeline: a pipeline as a bash script
         @param path_workdir: an existing directory to use as working directory
         @param ppd_name: a filenames prefix used for archivers
         @param doc_name: a document name, used to select a proper archiver
         @param digest: an digest of the output produced by CUPS (for comparison)

         @raises Exception in case of any errors

         """
         # Save pipeline to a file
         path_pipeline = os.path.join(path_workdir, 'pipeline.sh')
         with open(path_pipeline, 'wb') as file_pipeline:
             file_pipeline.write(pipeline)
         # Run the pipeline
         argv = ['/bin/bash', '-e', path_pipeline]
         ret = subprocess.Popen(argv, cwd=path_workdir).wait()
         # Find the number of output files
         i = 1
         while os.path.isfile(os.path.join(path_workdir, "%d.doc.gz" % i)):
             i += 1
         files_count = i-1
         # Reads the last output (to compare it with the output produced by CUPS)
         if ret == 0:
             with gzip.open(os.path.join(path_workdir,
                     "%d.doc.gz" % files_count)) as last_file:
                 content_digest = helpers.calculate_digest(last_file.read())
         # Archives all intermediate files (if desired)
         if self._path_output_directory is not None:
             for i in range(1,files_count+1):
                 self._archivers[doc_name].move_file(ppd_name, ".err%d" % i,
                         os.path.join(path_workdir, "%d.err" % i))
                 self._archivers[doc_name].move_file(ppd_name, ".out%d.gz" % i,
                         os.path.join(path_workdir, "%d.doc.gz" % i))
         # Validation
         if ret != 0:
             raise Exception("A pipeline script returned %d" % ret)
         if content_digest != digest:
             raise Exception("The output returned by the pipeline is different"
                     " than the output produced by CUPS")
	# Copyright 2018 The Chromium OS Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	import dbus
	import gzip
	import logging
	import os
	import subprocess
	import shutil
	import tempfile

	from autotest_lib.client.bin import test
	from autotest_lib.client.common_lib import error
	from autotest_lib.client.common_lib import file_utils
	from autotest_lib.client.cros import debugd_util

	import archiver
	import configurator
	import helpers
	import fake_printer
	import log_reader
	import multithreaded_processor

	# Timeout for printing documents in seconds
	_FAKE_PRINTER_TIMEOUT = 200

	# Prefix for CUPS printer name
	_FAKE_PRINTER_ID = 'FakePrinter'

	# First port number to use, this test uses consecutive ports numbers,
	# different for every PPD file
	_FIRST_PORT_NUMBER = 9000

	# Values are from platform/system_api/dbus/debugd/dbus-constants.h.
	_CUPS_SUCCESS = 0

	# Exceptions, cases that we want to omit/ignore
	# key: document; values: list of PPD files
	_EXCEPTIONS = { 'split_streams.pdf': ['HP-DeskJet_200-pcl3.ppd.gz',
	'HP-DeskJet_310-pcl3.ppd.gz', 'HP-DeskJet_320-pcl3.ppd.gz',
	'HP-DeskJet_340C-pcl3.ppd.gz', 'HP-DeskJet_540C-pcl3.ppd.gz',
	'HP-DeskJet_560C-pcl3.ppd.gz'] }

	class platform_PrinterPpds(test.test):
	"""
	This test gets a list of PPD files and a list of test documents. It tries
	to add printer using each PPD file and to print all test documents on
	every printer created this way. Becasue the number of PPD files to test can
	be large (more then 3K), PPD files are tested simultaneously in many
	threads.

	"""
	version = 3


	def _get_filenames_from_PPD_indexes(self):
	"""
	It returns all PPD filenames from SCS server.

	@returns a list of PPD filenames without duplicates

	"""
	# extracts PPD filenames from all 20 index files (in parallel)
	outputs = self._processor.run(helpers.get_filenames_from_PPD_index, 20)
	# joins obtained lists and performs deduplication
	ppd_files = set()
	for output in outputs:
	ppd_files.update(output)
	return list(ppd_files)


	def _calculate_full_path(self, path):
	"""
	Converts path given as a parameter to absolute path.

	@param path: a path set in configuration (relative, absolute or None)

	@returns absolute path or None if the input parameter was None

	"""
	if path is None or os.path.isabs(path):
	return path
	path_current = os.path.dirname(os.path.realpath(__file__))
	return os.path.join(path_current, path)


	def initialize(
	self, path_docs, path_ppds=None, path_digests=None,
	debug_mode=False, threads_count=8):
	"""
	@param path_docs: path to local directory with documents to print
	@param path_ppds: path to local directory with PPD files to test;
	if None is set then all PPD files from the SCS server are
	downloaded and tested
	@param path_digests: path to local directory with digests files for
	test documents; if None is set then content of printed
	documents is not verified
	@param debug_mode: if set to True, then the autotest temporarily
	remounts the root partition in R/W mode and changes CUPS
	configuration, what allows to extract pipelines for all tested
	PPDs and rerun the outside CUPS
	@param threads_count: number of threads to use

	"""
	# Calculates absolute paths for all parameters
	self._location_of_test_docs = self._calculate_full_path(path_docs)
	self._location_of_PPD_files = self._calculate_full_path(path_ppds)
	location_of_digests_files = self._calculate_full_path(path_digests)

	# This object is used for running tasks in many threads simultaneously
	self._processor = multithreaded_processor.MultithreadedProcessor(
	threads_count)

	# This object is responsible for parsing CUPS logs
	self._log_reader = log_reader.LogReader()

	# This object is responsible for the system configuration
	self._configurator = configurator.Configurator()
	self._configurator.configure(debug_mode)

	# Reads list of test documents
	self._docs = helpers.list_entries_from_directory(
	path=self._location_of_test_docs,
	with_suffixes=('.pdf'),
	nonempty_results=True,
	include_directories=False)

	# Get list of PPD files ...
	if self._location_of_PPD_files is None:
	# ... from the SCS server
	self._ppds = self._get_filenames_from_PPD_indexes()
	else:
	# ... from the given local directory
	# Unpack archives with all PPD files:
	path_archive = self._calculate_full_path('ppds_all.tar.xz')
	path_target_dir = self._calculate_full_path('.')
	file_utils.rm_dir_if_exists(
	os.path.join(path_target_dir,'ppds_all'))
	subprocess.call(['tar', 'xJf', path_archive, '-C', path_target_dir])
	path_archive = self._calculate_full_path('ppds_100.tar.xz')
	file_utils.rm_dir_if_exists(
	os.path.join(path_target_dir,'ppds_100'))
	subprocess.call(['tar', 'xJf', path_archive, '-C', path_target_dir])
	# Load PPD files from the chosen directory
	self._ppds = helpers.list_entries_from_directory(
	path=self._location_of_PPD_files,
	with_suffixes=('.ppd','.ppd.gz'),
	nonempty_results=True,
	include_directories=False)
	self._ppds.sort()

	# Load digests files
	self._digests = dict()
	if location_of_digests_files is None:
	for doc_name in self._docs:
	self._digests[doc_name] = dict()
	else:
	path_blacklist = os.path.join(location_of_digests_files,
	'blacklist.txt')
	blacklist = helpers.load_blacklist(path_blacklist)
	for doc_name in self._docs:
	digests_name = doc_name + '.digests'
	path = os.path.join(location_of_digests_files, digests_name)
	self._digests[doc_name] = helpers.parse_digests_file(path,
	blacklist)

	# Prepare a working directory for pipelines
	if debug_mode:
	self._pipeline_dir = tempfile.mkdtemp(dir='/tmp')
	else:
	self._pipeline_dir = None


	def cleanup(self):
	"""
	Cleanup.

	"""
	# Resore previous system settings
	self._configurator.restore()

	# Delete directories with PPD files
	path_ppds = self._calculate_full_path('ppds_100')
	file_utils.rm_dir_if_exists(path_ppds)
	path_ppds = self._calculate_full_path('ppds_all')
	file_utils.rm_dir_if_exists(path_ppds)

	# Delete pipeline working directory
	if self._pipeline_dir is not None:
	file_utils.rm_dir_if_exists(self._pipeline_dir)


	def run_once(self, path_outputs=None):
	"""
	This is the main test function. It runs the testing procedure for
	every PPD file. Tests are run simultaneously in many threads.

	@param path_outputs: if it is not None, raw outputs sent
	to printers are dumped here; the directory is overwritten if
	already exists (is deleted and recreated)

	@raises error.TestFail if at least one of the tests failed

	"""
	# Set directory for output documents
	self._path_output_directory = self._calculate_full_path(path_outputs)
	if self._path_output_directory is not None:
	# Delete whole directory if already exists
	file_utils.rm_dir_if_exists(self._path_output_directory)
	# Create archivers
	self._archivers = dict()
	for doc_name in self._docs:
	path_for_archiver = os.path.join(self._path_output_directory,
	doc_name)
	self._archivers[doc_name] = archiver.Archiver(path_for_archiver,
	self._ppds, 50)
	# A place for new digests
	self._new_digests = dict()
	for doc_name in self._docs:
	self._new_digests[doc_name] = dict()

	# Runs tests for all PPD files (in parallel)
	outputs = self._processor.run(self._thread_test_PPD, len(self._ppds))

	# Analyses tests' outputs, prints a summary report and builds a list
	# of PPD filenames that failed
	failures = []
	for i, output in enumerate(outputs):
	ppd_file = self._ppds[i]
	if output != True:
	failures.append(ppd_file)
	else:
	output = 'OK'
	line = "%s: %s" % (ppd_file, output)
	logging.info(line)

	# Calculate digests files for output documents (if dumped)
	if self._path_output_directory is not None:
	for doc_name in self._docs:
	path = os.path.join(self._path_output_directory,
	doc_name + '.digests')
	helpers.save_digests_file(path, self._new_digests[doc_name],
	failures)

	# Raises an exception if at least one test failed
	if len(failures) > 0:
	failures.sort()
	raise error.TestFail(
	'Test failed for %d PPD files: %s'
	% (len(failures), ', '.join(failures)) )


	def _thread_test_PPD(self, task_id):
	"""
	Runs a test procedure for single PPD file.

	It retrieves assigned PPD file and run for it a test procedure.

	@param task_id: an index of the PPD file in self._ppds

	@returns True when the test was passed or description of the error
	(string) if the test failed

	"""
	# Gets content of the PPD file
	try:
	ppd_file = self._ppds[task_id]
	if self._location_of_PPD_files is None:
	# Downloads PPD file from the SCS server
	ppd_content = helpers.download_PPD_file(ppd_file)
	else:
	# Reads PPD file from local filesystem
	path_ppd = os.path.join(self._location_of_PPD_files, ppd_file)
	with open(path_ppd, 'rb') as ppd_file_descriptor:
	ppd_content = ppd_file_descriptor.read()
	except BaseException as e:
	return 'MISSING PPD: ' + str(e)

	# Runs the test procedure
	try:
	port = _FIRST_PORT_NUMBER + task_id
	self._PPD_test_procedure(ppd_file, ppd_content, port)
	except BaseException as e:
	return 'FAIL: ' + str(e)

	return True


	def _PPD_test_procedure(self, ppd_name, ppd_content, port):
	"""
	Test procedure for single PPD file.

	It tries to run the following steps:
	1. Starts an instance of FakePrinter
	2. Configures CUPS printer
	3. For each test document run the following steps:
	3a. Sends tests documents to the CUPS printer
	3b. Fetches the raw document from the FakePrinter
	3c. Parse CUPS logs and check for any errors
	3d. If self._pipeline_dir is set, extract the executed CUPS
	pipeline, rerun it in bash console and verify every step and
	final output
	3e. If self._path_output_directory is set, save the raw document
	and all intermediate steps in the provided directory
	3f. If the digest is available, verify a digest of an output
	documents
	4. Removes CUPS printer and stops FakePrinter
	If the test fails this method throws an exception.

	@param ppd_name: a name of the PPD file
	@param ppd_content: a content of the PPD file
	@param port: a port for the printer

	@throws Exception when the test fails

	"""
	# Create work directory for external pipelines and save the PPD file
	# there (if needed)
	path_ppd = None
	if self._pipeline_dir is not None:
	path_pipeline_ppd_dir = os.path.join(self._pipeline_dir, ppd_name)
	os.makedirs(path_pipeline_ppd_dir)
	path_ppd = os.path.join(path_pipeline_ppd_dir, ppd_name)
	with open(path_ppd, 'wb') as file_ppd:
	file_ppd.write(ppd_content)
	if path_ppd.endswith('.gz'):
	subprocess.call(['gzip', '-d', path_ppd])
	path_ppd = path_ppd[0:-3]

	try:
	# Starts the fake printer
	with fake_printer.FakePrinter(port) as printer:

	# Add a CUPS printer manually with given ppd file
	cups_printer_id = '%s_at_%05d' % (_FAKE_PRINTER_ID,port)
	result = debugd_util.iface().CupsAddManuallyConfiguredPrinter(
	cups_printer_id,
	'socket://127.0.0.1:%d' % port,
	dbus.ByteArray(ppd_content))
	if result != _CUPS_SUCCESS:
	raise Exception('valid_config - Could not setup valid '
	'printer %d' % result)

	# Prints all test documents
	try:
	for doc_name in self._docs:
	# Omit exceptions
	if ( doc_name in _EXCEPTIONS and
	ppd_name in _EXCEPTIONS[doc_name] ):
	if self._path_output_directory is not None:
	self._new_digests[doc_name][ppd_name] = (
	helpers.calculate_digest('\x00') )
	continue
	# Full path to the test document
	path_doc = os.path.join(
	self._location_of_test_docs, doc_name)
	# Sends test document to printer
	argv = ['lp', '-d', cups_printer_id]
	argv += [path_doc]
	subprocess.call(argv)
	# Prepare a workdir for the pipeline (if needed)
	path_pipeline_workdir_temp = None
	if self._pipeline_dir is not None:
	path_pipeline_workdir = os.path.join(
	path_pipeline_ppd_dir, doc_name)
	path_pipeline_workdir_temp = os.path.join(
	path_pipeline_workdir, 'temp')
	os.makedirs(path_pipeline_workdir_temp)
	# Gets the output document from the fake printer
	doc = printer.fetch_document(_FAKE_PRINTER_TIMEOUT)
	digest = helpers.calculate_digest(doc)
	# Retrive data from the log file
	no_errors, logs, pipeline = \
	self._log_reader.extract_result(
	cups_printer_id, path_ppd, path_doc,
	path_pipeline_workdir_temp)
	# Archive obtained results in the output directory
	if self._path_output_directory is not None:
	self._archivers[doc_name].save_file(
	ppd_name, '.out', doc, apply_gzip=True)
	self._archivers[doc_name].save_file(
	ppd_name, '.log', logs)
	if pipeline is not None:
	self._archivers[doc_name].save_file(
	ppd_name, '.sh', pipeline)
	# Set new digest
	self._new_digests[doc_name][ppd_name] = digest
	# Fail if any of CUPS filters failed
	if not no_errors:
	raise Exception('One of the CUPS filters failed')
	# Reruns the pipeline and dump intermediate outputs
	if self._pipeline_dir is not None:
	self._rerun_whole_pipeline(
	pipeline, path_pipeline_workdir,
	ppd_name, doc_name, digest)
	shutil.rmtree(path_pipeline_workdir)
	# Check document's digest (if known)
	if ppd_name in self._digests[doc_name]:
	digest_expected = self._digests[doc_name][ppd_name]
	if digest_expected != digest:
	message = 'Document\'s digest does not match'
	raise Exception(message)
	else:
	# Simple validation
	if len(doc) < 16:
	raise Exception('Empty output')
	finally:
	# Remove CUPS printer
	debugd_util.iface().CupsRemovePrinter(cups_printer_id)

	# The fake printer is stopped at the end of "with" statement
	finally:
	# Finalize archivers and cleaning
	if self._path_output_directory is not None:
	for doc_name in self._docs:
	self._archivers[doc_name].finalize_prefix(ppd_name)
	# Clean the pipelines' working directories
	if self._pipeline_dir is not None:
	shutil.rmtree(path_pipeline_ppd_dir)


	def _rerun_whole_pipeline(
	self, pipeline, path_workdir, ppd_name, doc_name, digest):
	"""
	Reruns the whole pipeline outside CUPS server.

	Reruns a printing pipeline dumped from CUPS. All intermediate outputs
	are dumped and archived for future analysis.

	@param pipeline: a pipeline as a bash script
	@param path_workdir: an existing directory to use as working directory
	@param ppd_name: a filenames prefix used for archivers
	@param doc_name: a document name, used to select a proper archiver
	@param digest: an digest of the output produced by CUPS (for comparison)

	@raises Exception in case of any errors

	"""
	# Save pipeline to a file
	path_pipeline = os.path.join(path_workdir, 'pipeline.sh')
	with open(path_pipeline, 'wb') as file_pipeline:
	file_pipeline.write(pipeline)
	# Run the pipeline
	argv = ['/bin/bash', '-e', path_pipeline]
	ret = subprocess.Popen(argv, cwd=path_workdir).wait()
	# Find the number of output files
	i = 1
	while os.path.isfile(os.path.join(path_workdir, "%d.doc.gz" % i)):
	i += 1
	files_count = i-1
	# Reads the last output (to compare it with the output produced by CUPS)
	if ret == 0:
	with gzip.open(os.path.join(path_workdir,
	"%d.doc.gz" % files_count)) as last_file:
	content_digest = helpers.calculate_digest(last_file.read())
	# Archives all intermediate files (if desired)
	if self._path_output_directory is not None:
	for i in range(1,files_count+1):
	self._archivers[doc_name].move_file(ppd_name, ".err%d" % i,
	os.path.join(path_workdir, "%d.err" % i))
	self._archivers[doc_name].move_file(ppd_name, ".out%d.gz" % i,
	os.path.join(path_workdir, "%d.doc.gz" % i))
	# Validation
	if ret != 0:
	raise Exception("A pipeline script returned %d" % ret)
	if content_digest != digest:
	raise Exception("The output returned by the pipeline is different"
	" than the output produced by CUPS")