# You should have received a copy of the GNU Lesser General Public License
# along with systemd; If not, see <http://www.gnu.org/licenses/>.
+from __future__ import division
+
import sys as _sys
import datetime as _datetime
import functools as _functools
from os import SEEK_SET, SEEK_CUR, SEEK_END
import logging as _logging
if _sys.version_info >= (3,):
- from collections import ChainMap
+ from collections import ChainMap as _ChainMap
from syslog import (LOG_EMERG, LOG_ALERT, LOG_CRIT, LOG_ERR,
LOG_WARNING, LOG_NOTICE, LOG_INFO, LOG_DEBUG)
from ._journal import sendv, stream_fd
-from ._reader import (_Journal, NOP, APPEND, INVALIDATE,
+from ._reader import (_Reader, NOP, APPEND, INVALIDATE,
LOCAL_ONLY, RUNTIME_ONLY, SYSTEM_ONLY)
from . import id128 as _id128
-_MONOTONIC_CONVERTER = lambda x: _datetime.timedelta(microseconds=float(x))
-_REALTIME_CONVERTER = lambda x: _datetime.datetime.fromtimestamp(float(x)/1E6)
+if _sys.version_info >= (3,):
+ from ._reader import Monotonic
+else:
+ Monotonic = tuple
+
+_MONOTONIC_CONVERTER = lambda p: Monotonic((_datetime.timedelta(microseconds=p[0]),
+ _uuid.UUID(bytes=p[1])))
+_REALTIME_CONVERTER = lambda x: _datetime.datetime.fromtimestamp(x / 1E6)
DEFAULT_CONVERTERS = {
'MESSAGE_ID': _uuid.UUID,
'_MACHINE_ID': _uuid.UUID,
else:
_convert_unicode = _functools.partial(unicode, encoding='utf-8')
-class Journal(_Journal):
+class Reader(_Reader):
+ """Reader allows the access and filtering of systemd journal
+ entries. Note that in order to access the system journal, a
+ non-root user must be in the `adm` group.
+
+ Example usage to print out all error or higher level messages
+ for systemd-udevd for the boot:
+
+ >>> myjournal = journal.Reader()
+ >>> myjournal.add_boot_match(journal.CURRENT_BOOT)
+ >>> myjournal.add_loglevel_matches(journal.LOG_ERR)
+ >>> myjournal.add_match(_SYSTEMD_UNIT="systemd-udevd.service")
+ >>> for entry in myjournal:
+ ... print(entry['MESSAGE'])
+
+ See systemd.journal-fields(7) for more info on typical fields
+ found in the journal.
+ """
def __init__(self, converters=None, flags=LOCAL_ONLY, path=None):
- """Creates instance of Journal, which allows filtering and
+ """Create an instance of Reader, which allows filtering and
return of journal entries.
Argument `converters` is a dictionary which updates the
DEFAULT_CONVERTERS to convert journal field values.
currently flags are ignored when `path` is present as they are
currently not relevant.
"""
- super(Journal, self).__init__(flags, path)
+ super(Reader, self).__init__(flags, path)
if _sys.version_info >= (3,3):
- self.converters = ChainMap()
+ self.converters = _ChainMap()
if converters is not None:
self.converters.maps.append(converters)
self.converters.maps.append(DEFAULT_CONVERTERS)
self.converters.update(converters)
def _convert_field(self, key, value):
- """ Convert value based on callable from self.converters
+ """Convert value based on callable from self.converters
based of field/key"""
try:
result = self.converters[key](value)
# Default conversion in unicode
try:
result = _convert_unicode(value)
- except:
+ except UnicodeDecodeError:
# Leave in default bytes
result = value
return result
def _convert_entry(self, entry):
- """ Convert entire journal entry utilising _covert_field"""
+ """Convert entire journal entry utilising _covert_field"""
result = {}
for key, value in entry.items():
if isinstance(value, list):
def add_match(self, *args, **kwargs):
"""Add one or more matches to the filter journal log entries.
All matches of different field are combined in a logical AND,
- and matches of the smae field are automatically combined in a
+ and matches of the same field are automatically combined in a
logical OR.
- Matches can be passed as strings of form "field=value", or
- keyword arguments field="value"."""
+ Matches can be passed as strings of form "FIELD=value", or
+ keyword arguments FIELD="value".
+ """
args = list(args)
args.extend(_make_line(key, val) for key, val in kwargs.items())
for arg in args:
- super(Journal, self).add_match(arg)
+ super(Reader, self).add_match(arg)
def get_next(self, skip=1):
- """Return dictionary of the next log entry. Optional skip value
- will return the `skip`th log entry.
- Returned will be journal entry dictionary processed with
- converters."""
+ """Return the next log entry as a dictionary of fields.
+
+ Optional skip value will return the `skip`\-th log entry.
+
+ Entries will be processed with converters specified during
+ Reader creation.
+ """
return self._convert_entry(
- super(Journal, self).get_next(skip))
+ super(Reader, self).get_next(skip))
def query_unique(self, field):
- """Returns a set of unique values in journal for given `field`,
- processed with converters.
- Note this does not respect any journal matches."""
+ """Return unique values appearing in the journal for given `field`.
+
+ Note this does not respect any journal matches.
+
+ Entries will be processed with converters specified during
+ Reader creation.
+ """
return set(self._convert_field(field, value)
- for value in super(Journal, self).query_unique(field))
+ for value in super(Reader, self).query_unique(field))
def seek_realtime(self, realtime):
- """Seek to nearest matching journal entry to `realtime`.
- Argument `realtime` can must be either an integer unix timestamp
- or datetime.datetime instance."""
+ """Seek to a matching journal entry nearest to `realtime` time.
+
+ Argument `realtime` must be either an integer unix timestamp
+ or datetime.datetime instance.
+ """
if isinstance(realtime, _datetime.datetime):
realtime = float(realtime.strftime("%s.%f"))
- return super(Journal, self).seek_realtime(realtime)
+ return super(Reader, self).seek_realtime(realtime)
def seek_monotonic(self, monotonic, bootid=None):
- """Seek to nearest matching journal entry to `monotonic`.
- Argument `monotonic` is a timestamp from boot in either seconds
- or a datetime.timedelta instance.
- Argument `bootid` is a string or UUID representing which boot the
- monotonic time is reference to. Defaults to current bootid."""
+ """Seek to a matching journal entry nearest to `monotonic` time.
+
+ Argument `monotonic` is a timestamp from boot in either
+ seconds or a datetime.timedelta instance. Argument `bootid`
+ is a string or UUID representing which boot the monotonic time
+ is reference to. Defaults to current bootid.
+ """
if isinstance(monotonic, _datetime.timedelta):
monotonic = monotonic.totalseconds()
if isinstance(bootid, _uuid.UUID):
bootid = bootid.get_hex()
- return super(Journal, self).seek_monotonic(monotonic, bootid)
+ return super(Reader, self).seek_monotonic(monotonic, bootid)
def log_level(self, level):
- """Sets maximum log `level` by setting matches for PRIORITY."""
+ """Set maximum log `level` by setting matches for PRIORITY.
+ """
if 0 <= level <= 7:
for i in range(level+1):
self.add_match(PRIORITY="%s" % i)
raise ValueError("Log level must be 0 <= level <= 7")
def messageid_match(self, messageid):
- """Sets match filter for log entries for specified `messageid`.
- `messageid` can be string or UUID instance.
- Standard message IDs can be found in systemd.id128
- Equivalent to add_match(MESSAGE_ID=`messageid`)."""
+ """Add match for log entries with specified `messageid`.
+
+ `messageid` can be string of hexadicimal digits or a UUID
+ instance. Standard message IDs can be found in systemd.id128.
+
+ Equivalent to add_match(MESSAGE_ID=`messageid`).
+ """
if isinstance(messageid, _uuid.UUID):
messageid = messageid.get_hex()
self.add_match(MESSAGE_ID=messageid)