SickGear/lib/hachoir_metadata/archive.py

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from lib.hachoir_metadata.metadata_item import QUALITY_BEST, QUALITY_FASTEST
from lib.hachoir_metadata.safe import fault_tolerant, getValue
from lib.hachoir_metadata.metadata import (
RootMetadata, Metadata, MultipleMetadata, registerExtractor)
from lib.hachoir_parser.archive import (Bzip2Parser, CabFile, GzipParser,
TarFile, ZipFile, MarFile)
from lib.hachoir_core.tools import humanUnixAttributes
from lib.hachoir_core.i18n import _
def maxNbFile(meta):
if meta.quality <= QUALITY_FASTEST:
return 0
if QUALITY_BEST <= meta.quality:
return None
return 1 + int(10 * meta.quality)
def computeCompressionRate(meta):
"""
Compute compression rate, sizes have to be in byte.
"""
if not meta.has("file_size") \
or not meta.get("compr_size", 0):
return
file_size = meta.get("file_size")
if not file_size:
return
meta.compr_rate = float(file_size) / meta.get("compr_size")
class Bzip2Metadata(RootMetadata):
def extract(self, zip):
if "file" in zip:
self.compr_size = zip["file"].size/8
class GzipMetadata(RootMetadata):
def extract(self, gzip):
self.useHeader(gzip)
computeCompressionRate(self)
@fault_tolerant
def useHeader(self, gzip):
self.compression = gzip["compression"].display
if gzip["mtime"]:
self.last_modification = gzip["mtime"].value
self.os = gzip["os"].display
if gzip["has_filename"].value:
self.filename = getValue(gzip, "filename")
if gzip["has_comment"].value:
self.comment = getValue(gzip, "comment")
self.compr_size = gzip["file"].size/8
self.file_size = gzip["size"].value
class ZipMetadata(MultipleMetadata):
def extract(self, zip):
max_nb = maxNbFile(self)
for index, field in enumerate(zip.array("file")):
if max_nb is not None and max_nb <= index:
self.warning("ZIP archive contains many files, but only first %s files are processed" % max_nb)
break
self.processFile(field)
@fault_tolerant
def processFile(self, field):
meta = Metadata(self)
meta.filename = field["filename"].value
meta.creation_date = field["last_mod"].value
meta.compression = field["compression"].display
if "data_desc" in field:
meta.file_size = field["data_desc/file_uncompressed_size"].value
if field["data_desc/file_compressed_size"].value:
meta.compr_size = field["data_desc/file_compressed_size"].value
else:
meta.file_size = field["uncompressed_size"].value
if field["compressed_size"].value:
meta.compr_size = field["compressed_size"].value
computeCompressionRate(meta)
self.addGroup(field.name, meta, "File \"%s\"" % meta.get('filename'))
class TarMetadata(MultipleMetadata):
def extract(self, tar):
max_nb = maxNbFile(self)
for index, field in enumerate(tar.array("file")):
if max_nb is not None and max_nb <= index:
self.warning("TAR archive contains many files, but only first %s files are processed" % max_nb)
break
meta = Metadata(self)
self.extractFile(field, meta)
if meta.has("filename"):
title = _('File "%s"') % meta.getText('filename')
else:
title = _("File")
self.addGroup(field.name, meta, title)
@fault_tolerant
def extractFile(self, field, meta):
meta.filename = field["name"].value
meta.file_attr = humanUnixAttributes(field.getOctal("mode"))
meta.file_size = field.getOctal("size")
try:
if field.getOctal("mtime"):
meta.last_modification = field.getDatetime()
except ValueError:
pass
meta.file_type = field["type"].display
meta.author = "%s (uid=%s), group %s (gid=%s)" %\
(field["uname"].value, field.getOctal("uid"),
field["gname"].value, field.getOctal("gid"))
class CabMetadata(MultipleMetadata):
def extract(self, cab):
if "folder[0]" in cab:
self.useFolder(cab["folder[0]"])
self.format_version = "Microsoft Cabinet version %s" % cab["cab_version"].display
self.comment = "%s folders, %s files" % (
cab["nb_folder"].value, cab["nb_files"].value)
max_nb = maxNbFile(self)
for index, field in enumerate(cab.array("file")):
if max_nb is not None and max_nb <= index:
self.warning("CAB archive contains many files, but only first %s files are processed" % max_nb)
break
self.useFile(field)
@fault_tolerant
def useFolder(self, folder):
compr = folder["compr_method"].display
if folder["compr_method"].value != 0:
compr += " (level %u)" % folder["compr_level"].value
self.compression = compr
@fault_tolerant
def useFile(self, field):
meta = Metadata(self)
meta.filename = field["filename"].value
meta.file_size = field["filesize"].value
meta.creation_date = field["timestamp"].value
attr = field["attributes"].value
if attr != "(none)":
meta.file_attr = attr
if meta.has("filename"):
title = _("File \"%s\"") % meta.getText('filename')
else:
title = _("File")
self.addGroup(field.name, meta, title)
class MarMetadata(MultipleMetadata):
def extract(self, mar):
self.comment = "Contains %s files" % mar["nb_file"].value
self.format_version = "Microsoft Archive version %s" % mar["version"].value
max_nb = maxNbFile(self)
for index, field in enumerate(mar.array("file")):
if max_nb is not None and max_nb <= index:
self.warning("MAR archive contains many files, but only first %s files are processed" % max_nb)
break
meta = Metadata(self)
meta.filename = field["filename"].value
meta.compression = "None"
meta.file_size = field["filesize"].value
self.addGroup(field.name, meta, "File \"%s\"" % meta.getText('filename'))
registerExtractor(CabFile, CabMetadata)
registerExtractor(GzipParser, GzipMetadata)
registerExtractor(Bzip2Parser, Bzip2Metadata)
registerExtractor(TarFile, TarMetadata)
registerExtractor(ZipFile, ZipMetadata)
registerExtractor(MarFile, MarMetadata)