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# vim: set encoding=UTF-8 fileencoding=UTF-8 :
'''Store, load, and handle problem reports.'''
# Copyright (C) 2006 - 2012 Canonical Ltd.
# Author: Martin Pitt <martin.pitt@ubuntu.com>
#
# This program is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License as published by the
# Free Software Foundation; either version 2 of the License, or (at your
# option) any later version. See http://www.gnu.org/copyleft/gpl.html for
# the full text of the license.
import locale
import zlib, base64, time, sys, gzip, struct, os
from email.encoders import encode_base64
from email.mime.multipart import MIMEMultipart
from email.mime.base import MIMEBase
from email.mime.text import MIMEText
from io import BytesIO
if sys.version[0] < '3':
from UserDict import IterableUserDict as UserDict
UserDict # pyflakes
_python2 = True
else:
from collections import UserDict
_python2 = False
class CompressedValue:
'''Represent a ProblemReport value which is gzip compressed.'''
def __init__(self, value=None, name=None):
'''Initialize an empty CompressedValue object with an optional name.'''
self.gzipvalue = None
self.name = name
# By default, compressed values are in gzip format. Earlier versions of
# problem_report used zlib format (without gzip header). If you have
# such a case, set legacy_zlib to True.
self.legacy_zlib = False
if value:
self.set_value(value)
def set_value(self, value):
'''Set uncompressed value.'''
out = BytesIO()
gzip.GzipFile(self.name, mode='wb', fileobj=out, mtime=0).write(value)
self.gzipvalue = out.getvalue()
self.legacy_zlib = False
def get_value(self):
'''Return uncompressed value.'''
if not self.gzipvalue:
return None
if self.legacy_zlib:
return zlib.decompress(self.gzipvalue)
return gzip.GzipFile(fileobj=BytesIO(self.gzipvalue)).read()
def write(self, file):
'''Write uncompressed value into given file-like object.'''
assert self.gzipvalue
if self.legacy_zlib:
file.write(zlib.decompress(self.gzipvalue))
return
gz = gzip.GzipFile(fileobj=BytesIO(self.gzipvalue))
while True:
block = gz.read(1048576)
if not block:
break
file.write(block)
def __len__(self):
'''Return length of uncompressed value.'''
assert self.gzipvalue
if self.legacy_zlib:
return len(self.get_value())
return int(struct.unpack('<L', self.gzipvalue[-4:])[0])
def splitlines(self):
'''Behaves like splitlines() for a normal string.'''
return self.get_value().splitlines()
class ProblemReport(UserDict):
def __init__(self, type='Crash', date=None):
'''Initialize a fresh problem report.
type can be 'Crash', 'Packaging', 'KernelCrash' or 'KernelOops'.
date is the desired date/time string; if None (default), the
current local time is used.
'''
if date is None:
date = time.asctime()
self.data = {'ProblemType': type, 'Date': date}
# keeps track of keys which were added since the last ctor or load()
self.old_keys = set()
def load(self, file, binary=True, key_filter=None):
'''Initialize problem report from a file-like object.
If binary is False, binary data is not loaded; the dictionary key is
created, but its value will be an empty string. If it is True, it is
transparently uncompressed and available as dictionary byte array values.
If binary is 'compressed', the compressed value is retained, and the
dictionary value will be a CompressedValue object. This is useful if
the compressed value is still useful (to avoid recompression if the
file needs to be written back).
file needs to be opened in binary mode.
If key_filter is given, only those keys will be loaded.
Files are in RFC822 format, but with case sensitive keys.
'''
self._assert_bin_mode(file)
self.data.clear()
key = None
value = None
b64_block = False
bd = None
if key_filter:
remaining_keys = set(key_filter)
else:
remaining_keys = None
for line in file:
# continuation line
if line.startswith(b' '):
if b64_block and not binary:
continue
assert (key is not None and value is not None)
if b64_block:
block = base64.b64decode(line)
if bd:
value += bd.decompress(block)
else:
if binary == 'compressed':
# check gzip header; if absent, we have legacy zlib
# data
if value.gzipvalue == b'' and not block.startswith(b'\037\213\010'):
value.legacy_zlib = True
value.gzipvalue += block
else:
# lazy initialization of bd
# skip gzip header, if present
if block.startswith(b'\037\213\010'):
bd = zlib.decompressobj(-zlib.MAX_WBITS)
value = bd.decompress(self._strip_gzip_header(block))
else:
# legacy zlib-only format used default block
# size
bd = zlib.decompressobj()
value += bd.decompress(block)
else:
if len(value) > 0:
value += b'\n'
if line.endswith(b'\n'):
value += line[1:-1]
else:
value += line[1:]
else:
if b64_block:
if bd:
value += bd.flush()
b64_block = False
bd = None
if key:
assert value is not None
if remaining_keys is not None:
try:
remaining_keys.remove(key)
self.data[key] = self._try_unicode(value)
if not remaining_keys:
key = None
break
except KeyError:
pass
else:
self.data[key] = self._try_unicode(value)
(key, value) = line.split(b':', 1)
if not _python2:
key = key.decode('ASCII')
value = value.strip()
if value == b'base64':
if binary == 'compressed':
value = CompressedValue(key.encode())
value.gzipvalue = b''
else:
value = b''
b64_block = True
if key is not None:
self.data[key] = self._try_unicode(value)
self.old_keys = set(self.data.keys())
def extract_keys(self, file, bin_keys, dir):
'''Extract only one binary element from the problem_report
Binary elements like kernel crash dumps can be very big. This method
extracts directly files without loading the report into memory.
'''
self._assert_bin_mode(file)
# support singe key and collection of keys
if isinstance(bin_keys, str):
bin_keys = [bin_keys]
key = None
value = None
missing_keys = list(bin_keys)
b64_block = {}
bd = None
out = None
for line in file:
# Identify the bin_keys we're looking for
while not line.startswith(b' '):
(key, value) = line.split(b':', 1)
if not _python2:
key = key.decode('ASCII')
if key not in missing_keys:
break
b64_block[key] = False
missing_keys.remove(key)
value = value.strip()
if value == b'base64':
value = b''
b64_block[key] = True
try:
bd = None
with open(os.path.join(dir, key), 'wb') as out:
for line in file:
# continuation line
if line.startswith(b' '):
assert (key is not None and value is not None)
if b64_block[key]:
block = base64.b64decode(line)
if bd:
out.write(bd.decompress(block))
else:
# lazy initialization of bd
# skip gzip header, if present
if block.startswith(b'\037\213\010'):
bd = zlib.decompressobj(-zlib.MAX_WBITS)
out.write(bd.decompress(self._strip_gzip_header(block)))
else:
# legacy zlib-only format used default block
# size
bd = zlib.decompressobj()
out.write(bd.decompress(block))
else:
break
except IOError:
raise IOError('unable to open %s' % (os.path.join(dir, key)))
else:
break
if missing_keys:
raise KeyError('Cannot find %s in report' % ', '.join(missing_keys))
if False in b64_block.values():
raise ValueError('%s has no binary content' %
[item for item, element in b64_block.items() if element is False])
def get_timestamp(self) -> int:
'''Get timestamp (seconds since epoch) from Date field
Return None if it is not present.
'''
# report time is from asctime(), not in locale representation
orig_ctime = locale.getlocale(locale.LC_TIME)
try:
try:
locale.setlocale(locale.LC_TIME, 'C')
return int(time.mktime(time.strptime(self['Date'])))
except KeyError:
return None
finally:
locale.setlocale(locale.LC_TIME, orig_ctime)
except locale.Error:
return None
def has_removed_fields(self):
'''Check if the report has any keys which were not loaded.
This could happen when using binary=False in load().
'''
return ('' in self.values())
@classmethod
def _is_binary(klass, string):
'''Check if the given strings contains binary data.'''
if type(string) == bytes:
for c in string:
if c < 32 and not chr(c).isspace():
return True
return False
@classmethod
def _try_unicode(klass, value):
'''Try to convert bytearray value to unicode'''
if type(value) == bytes and not klass._is_binary(value):
try:
return value.decode('UTF-8')
except UnicodeDecodeError:
return value
return value
def write(self, file, only_new=False):
'''Write information into the given file-like object.
If only_new is True, only keys which have been added since the last
load() are written (i. e. those returned by new_keys()).
If a value is a string, it is written directly. Otherwise it must be a
tuple of the form (file, encode=True, limit=None, fail_on_empty=False).
The first argument can be a file name or a file-like object,
which will be read and its content will become the value of this key.
'encode' specifies whether the contents will be
gzip compressed and base64-encoded (this defaults to True). If limit is
set to a positive integer, the file is not attached if it's larger
than the given limit, and the entire key will be removed. If
fail_on_empty is True, reading zero bytes will cause an IOError.
file needs to be opened in binary mode.
Files are written in RFC822 format.
'''
self._assert_bin_mode(file)
# sort keys into ASCII non-ASCII/binary attachment ones, so that
# the base64 ones appear last in the report
asckeys = []
binkeys = []
for k in self.data.keys():
if only_new and k in self.old_keys:
continue
v = self.data[k]
if hasattr(v, 'find'):
if self._is_binary(v):
binkeys.append(k)
else:
asckeys.append(k)
else:
if not isinstance(v, CompressedValue) and len(v) >= 2 and not v[1]:
# force uncompressed
asckeys.append(k)
else:
binkeys.append(k)
asckeys.sort()
if 'ProblemType' in asckeys:
asckeys.remove('ProblemType')
asckeys.insert(0, 'ProblemType')
binkeys.sort()
# write the ASCII keys first
for k in asckeys:
v = self.data[k]
# if it's a tuple, we have a file reference; read the contents
if not hasattr(v, 'find'):
if len(v) >= 3 and v[2] is not None:
limit = v[2]
else:
limit = None
fail_on_empty = len(v) >= 4 and v[3]
if hasattr(v[0], 'read'):
v = v[0].read() # file-like object
else:
with open(v[0], 'rb') as f: # file name
v = f.read()
if fail_on_empty and len(v) == 0:
raise IOError('did not get any data for field ' + k)
if limit is not None and len(v) > limit:
del self.data[k]
continue
if isinstance(v, str):
# unicode → str
v = v.encode('UTF-8')
file.write(k.encode('ASCII'))
if b'\n' in v:
# multiline value
file.write(b':\n ')
file.write(v.replace(b'\n', b'\n '))
else:
file.write(b': ')
file.write(v)
file.write(b'\n')
# now write the binary keys with gzip compression and base64 encoding
for k in binkeys:
v = self.data[k]
limit = None
size = 0
curr_pos = file.tell()
file.write(k.encode('ASCII'))
file.write(b': base64\n ')
# CompressedValue
if isinstance(v, CompressedValue):
file.write(base64.b64encode(v.gzipvalue))
file.write(b'\n')
continue
# write gzip header
gzip_header = b'\037\213\010\010\000\000\000\000\002\377' + k.encode('UTF-8') + b'\000'
file.write(base64.b64encode(gzip_header))
file.write(b'\n ')
crc = zlib.crc32(b'')
bc = zlib.compressobj(6, zlib.DEFLATED, -zlib.MAX_WBITS,
zlib.DEF_MEM_LEVEL, 0)
# direct value
if hasattr(v, 'find'):
size += len(v)
crc = zlib.crc32(v, crc)
outblock = bc.compress(v)
if outblock:
file.write(base64.b64encode(outblock))
file.write(b'\n ')
# file reference
else:
if len(v) >= 3 and v[2] is not None:
limit = v[2]
if hasattr(v[0], 'read'):
f = v[0] # file-like object
else:
f = open(v[0], 'rb') # file name
while True:
block = f.read(1048576)
size += len(block)
crc = zlib.crc32(block, crc)
if limit is not None:
if size > limit:
# roll back
file.seek(curr_pos)
file.truncate(curr_pos)
del self.data[k]
crc = None
break
if block:
outblock = bc.compress(block)
if outblock:
file.write(base64.b64encode(outblock))
file.write(b'\n ')
else:
break
if not hasattr(v[0], 'read'):
f.close()
if len(v) >= 4 and v[3]:
if size == 0:
raise IOError('did not get any data for field %s from %s' % (k, str(v[0])))
# flush compressor and write the rest
if not limit or size <= limit:
block = bc.flush()
# append gzip trailer: crc (32 bit) and size (32 bit)
if crc:
block += struct.pack('<L', crc & 0xFFFFFFFF)
block += struct.pack('<L', size & 0xFFFFFFFF)
file.write(base64.b64encode(block))
file.write(b'\n')
def add_to_existing(self, reportfile, keep_times=False):
'''Add this report's data to an already existing report file.
The file will be temporarily chmod'ed to 000 to prevent frontends
from picking up a hal-updated report file. If keep_times
is True, then the file's atime and mtime restored after updating.
'''
st = os.stat(reportfile)
try:
f = open(reportfile, 'ab')
os.chmod(reportfile, 0)
self.write(f)
f.close()
finally:
if keep_times:
os.utime(reportfile, (st.st_atime, st.st_mtime))
os.chmod(reportfile, st.st_mode)
def write_mime(self, file, attach_treshold=5, extra_headers={},
skip_keys=None, priority_fields=None):
'''Write MIME/Multipart RFC 2822 formatted data into file.
file must be a file-like object, not a path. It needs to be opened in
binary mode.
If a value is a string or a CompressedValue, it is written directly.
Otherwise it must be a tuple containing the source file and an optional
boolean value (in that order); the first argument can be a file name or
a file-like object, which will be read and its content will become the
value of this key. The file will be gzip compressed, unless the key
already ends in .gz.
attach_treshold specifies the maximum number of lines for a value to be
included into the first inline text part. All bigger values (as well as
all non-ASCII ones) will become an attachment, as well as text
values bigger than 1 kB.
Extra MIME preamble headers can be specified, too, as a dictionary.
skip_keys is a set/list specifying keys which are filtered out and not
written to the destination file.
priority_fields is a set/list specifying the order in which keys should
appear in the destination file.
'''
self._assert_bin_mode(file)
keys = sorted(self.data.keys())
text = ''
attachments = []
if 'ProblemType' in keys:
keys.remove('ProblemType')
keys.insert(0, 'ProblemType')
if priority_fields:
counter = 0
for priority_field in priority_fields:
if priority_field in keys:
keys.remove(priority_field)
keys.insert(counter, priority_field)
counter += 1
for k in keys:
if skip_keys and k in skip_keys:
continue
v = self.data[k]
attach_value = None
# compressed values are ready for attaching in gzip form
if isinstance(v, CompressedValue):
attach_value = v.gzipvalue
# if it's a tuple, we have a file reference; read the contents
# and gzip it
elif not hasattr(v, 'find'):
attach_value = ''
if hasattr(v[0], 'read'):
f = v[0] # file-like object
else:
f = open(v[0], 'rb') # file name
if k.endswith('.gz'):
attach_value = f.read()
else:
io = BytesIO()
gf = gzip.GzipFile(k, mode='wb', fileobj=io, mtime=0)
while True:
block = f.read(1048576)
if block:
gf.write(block)
else:
gf.close()
break
attach_value = io.getvalue()
f.close()
# binary value
elif self._is_binary(v):
if k.endswith('.gz'):
attach_value = v
else:
attach_value = CompressedValue(v, k).gzipvalue
# if we have an attachment value, create an attachment
if attach_value:
att = MIMEBase('application', 'x-gzip')
if k.endswith('.gz'):
att.add_header('Content-Disposition', 'attachment', filename=k)
else:
att.add_header('Content-Disposition', 'attachment', filename=k + '.gz')
att.set_payload(attach_value)
encode_base64(att)
attachments.append(att)
else:
# plain text value
size = len(v)
# ensure that byte arrays are valid UTF-8
if type(v) == bytes:
v = v.decode('UTF-8', 'replace')
# convert unicode to UTF-8 str
assert isinstance(v, str)
lines = len(v.splitlines())
if size <= 1000 and lines == 1:
v = v.rstrip()
text += k + ': ' + v + '\n'
elif size <= 1000 and lines <= attach_treshold:
text += k + ':\n '
if not v.endswith('\n'):
v += '\n'
text += v.strip().replace('\n', '\n ') + '\n'
else:
# too large, separate attachment
att = MIMEText(v, _charset='UTF-8')
att.add_header('Content-Disposition', 'attachment', filename=k + '.txt')
attachments.append(att)
# create initial text attachment
att = MIMEText(text, _charset='UTF-8')
att.add_header('Content-Disposition', 'inline')
attachments.insert(0, att)
msg = MIMEMultipart()
for k, v in extra_headers.items():
msg.add_header(k, v)
for a in attachments:
msg.attach(a)
file.write(msg.as_string().encode('UTF-8'))
file.write(b'\n')
def __setitem__(self, k, v):
assert hasattr(k, 'isalnum')
if not k.replace('.', '').replace('-', '').replace('_', '').isalnum():
raise ValueError("key '%s' contains invalid characters (only numbers, letters, '.', '_', and '-' are allowed)" % k)
# value must be a string or a CompressedValue or a file reference
# (tuple (string|file [, bool, [, max_size [, fail_on_empty]]]))
if not (isinstance(v, CompressedValue) or hasattr(v, 'isalnum') or
(isinstance(v, tuple) and (
len(v) == 1 or (len(v) >= 2 and len(v) <= 4 and v[1] in (True, False))) and
(hasattr(v[0], 'isalnum') or hasattr(v[0], 'read')))):
raise TypeError("value for key %s must be a string, CompressedValue, or a file reference" % k)
return self.data.__setitem__(k, v)
def new_keys(self):
'''Return newly added keys.
Return the set of keys which have been added to the report since it
was constructed or loaded.
'''
return set(self.data.keys()) - self.old_keys
@classmethod
def _strip_gzip_header(klass, line):
'''Strip gzip header from line and return the rest.'''
if _python2:
return klass._strip_gzip_header_py2(line)
flags = line[3]
offset = 10
if flags & 4: # FLG.FEXTRA
offset += line[offset] + 1
if flags & 8: # FLG.FNAME
while line[offset] != 0:
offset += 1
offset += 1
if flags & 16: # FLG.FCOMMENT
while line[offset] != 0:
offset += 1
offset += 1
if flags & 2: # FLG.FHCRC
offset += 2
return line[offset:]
@classmethod
def _strip_gzip_header_py2(klass, line):
'''Strip gzip header from line and return the rest. (Python 2)'''
flags = ord(line[3])
offset = 10
if flags & 4: # FLG.FEXTRA
offset += line[offset] + 1
if flags & 8: # FLG.FNAME
while ord(line[offset]) != 0:
offset += 1
offset += 1
if flags & 16: # FLG.FCOMMENT
while ord(line[offset]) != 0:
offset += 1
offset += 1
if flags & 2: # FLG.FHCRC
offset += 2
return line[offset:]
@classmethod
def _assert_bin_mode(klass, file):
'''Assert that given file object is in binary mode'''
if _python2:
assert (type(file) == BytesIO or 'b' in file.mode), 'file stream must be in binary mode'
else:
assert not hasattr(file, 'encoding'), 'file stream must be in binary mode'
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