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https://gitlab.freedesktop.org/gstreamer/gstreamer.git
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482 lines
14 KiB
Python
482 lines
14 KiB
Python
# -*- coding: utf-8; mode: python; -*-
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#
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# GStreamer Debug Viewer - View and analyze GStreamer debug log files
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#
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# Copyright (C) 2007 René Stadler <mail@renestadler.de>
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#
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# This program is free software; you can redistribute it and/or modify it
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# under the terms of the GNU General Public License as published by the Free
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# Software Foundation; either version 3 of the License, or (at your option)
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# any later version.
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#
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# This program is distributed in the hope that it will be useful, but WITHOUT
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# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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# FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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# more details.
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#
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# You should have received a copy of the GNU General Public License along with
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# this program. If not, see <http://www.gnu.org/licenses/>.
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"""GStreamer Debug Viewer Data module."""
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import os
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import logging
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import re
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import sys
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# Nanosecond resolution (like Gst.SECOND)
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SECOND = 1000000000
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def time_args(ts):
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secs = ts // SECOND
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return "%i:%02i:%02i.%09i" % (secs // 60 ** 2,
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secs // 60 % 60,
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secs % 60,
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ts % SECOND,)
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def time_diff_args(time_diff):
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if time_diff >= 0:
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sign = "+"
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else:
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sign = "-"
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secs = abs(time_diff) // SECOND
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return "%s%02i:%02i.%09i" % (sign,
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secs // 60,
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secs % 60,
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abs(time_diff) % SECOND,)
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def time_args_no_hours(ts):
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secs = ts // SECOND
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return "%02i:%02i.%09i" % (secs // 60,
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secs % 60,
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ts % SECOND,)
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def parse_time(st):
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"""Parse time strings that look like "0:00:00.0000000"."""
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h, m, s = st.split(":")
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secs, subsecs = s.split(".")
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return int((int(h) * 60 ** 2 + int(m) * 60) * SECOND) + \
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int(secs) * SECOND + int(subsecs)
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class DebugLevel (int):
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__names = ["NONE", "ERROR", "WARN", "FIXME",
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"INFO", "DEBUG", "LOG", "TRACE", "MEMDUMP"]
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__instances = {}
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def __new__(cls, level):
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try:
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level_int = int(level)
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except (ValueError, TypeError,):
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try:
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level_int = cls.__names.index(level.upper())
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except ValueError:
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raise ValueError("no debug level named %r" % (level,))
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if level_int in cls.__instances:
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return cls.__instances[level_int]
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else:
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new_instance = int.__new__(cls, level_int)
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new_instance.name = cls.__names[level_int]
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cls.__instances[level_int] = new_instance
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return new_instance
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def __repr__(self):
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return "<%s %s (%i)>" % (type(self).__name__, self.__names[self], self,)
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def higher_level(self):
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if self == len(self.__names) - 1:
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raise ValueError("already the highest debug level")
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return DebugLevel(self + 1)
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def lower_level(self):
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if self == 0:
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raise ValueError("already the lowest debug level")
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return DebugLevel(self - 1)
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debug_level_none = DebugLevel("NONE")
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debug_level_error = DebugLevel("ERROR")
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debug_level_warning = DebugLevel("WARN")
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debug_level_info = DebugLevel("INFO")
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debug_level_debug = DebugLevel("DEBUG")
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debug_level_log = DebugLevel("LOG")
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debug_level_fixme = DebugLevel("FIXME")
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debug_level_trace = DebugLevel("TRACE")
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debug_level_memdump = DebugLevel("MEMDUMP")
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debug_levels = [debug_level_none,
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debug_level_trace,
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debug_level_fixme,
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debug_level_log,
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debug_level_debug,
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debug_level_info,
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debug_level_warning,
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debug_level_error,
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debug_level_memdump]
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# For stripping color codes:
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_escape = re.compile(b"\x1b\\[[0-9;]*m")
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def strip_escape(s):
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# FIXME: This can be optimized further!
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while b"\x1b" in s:
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s = _escape.sub(b"", s)
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return s
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def default_log_line_regex_():
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# "DEBUG "
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LEVEL = "([A-Z]+)\s*"
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# "0x8165430 "
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THREAD = r"(0x[0-9a-f]+)\s+" # r"\((0x[0-9a-f]+) - "
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# "0:00:00.777913000 "
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TIME = r"(\d+:\d\d:\d\d\.\d+)\s+"
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CATEGORY = "([A-Za-z0-9_-]+)\s+" # "GST_REFCOUNTING ", "flacdec "
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# " 3089 "
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PID = r"(\d+)\s*"
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FILENAME = r"([^:]*):"
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LINE = r"(\d+):"
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FUNCTION = "(~?[A-Za-z0-9_\s\*,\(\)]*):"
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# FIXME: When non-g(st)object stuff is logged with *_OBJECT (like
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# buffers!), the address is printed *without* <> brackets!
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OBJECT = "(?:<([^>]+)>)?"
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MESSAGE = "(.+)"
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ANSI = "(?:\x1b\\[[0-9;]*m\\s*)*\\s*"
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# New log format:
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expressions = [TIME, ANSI, PID, ANSI, THREAD, ANSI, LEVEL, ANSI,
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CATEGORY, FILENAME, LINE, FUNCTION, ANSI,
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OBJECT, ANSI, MESSAGE]
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# Old log format:
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# expressions = [LEVEL, THREAD, TIME, CATEGORY, PID, FILENAME, LINE,
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# FUNCTION, OBJECT, MESSAGE]
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return expressions
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def default_log_line_regex():
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return re.compile("".join(default_log_line_regex_()))
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class Producer (object):
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def __init__(self):
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self.consumers = []
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def have_load_started(self):
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for consumer in self.consumers:
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consumer.handle_load_started()
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def have_load_finished(self):
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for consumer in self.consumers:
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consumer.handle_load_finished()
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class SortHelper (object):
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def __init__(self, fileobj, offsets):
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self._gen = self.__gen(fileobj, offsets)
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next(self._gen)
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# Override in the instance, for performance (this gets called in an
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# inner loop):
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self.find_insert_position = self._gen.send
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@staticmethod
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def find_insert_position(insert_time_string):
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# Stub for documentary purposes.
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pass
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@staticmethod
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def __gen(fileobj, offsets):
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from math import floor
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tell = fileobj.tell
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seek = fileobj.seek
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read = fileobj.read
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time_len = len(time_args(0))
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# We remember the previous insertion point. This gives a nice speed up
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# for larger bubbles which are already sorted. TODO: In practice, log
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# lines only get out of order across threads. Need to check if it pays
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# to parse the thread here and maintain multiple insertion points for
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# heavily interleaved parts of the log.
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pos = 0
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pos_time_string = ""
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insert_pos = None
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while True:
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insert_time_string = (yield insert_pos)
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save_offset = tell()
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if pos_time_string <= insert_time_string:
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lo = pos
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hi = len(offsets)
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else:
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lo = 0
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hi = pos
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# This is a bisection search, except we don't cut the range in the
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# middle each time, but at the 90th percentile. This is because
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# logs are "mostly sorted", so the insertion point is much more
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# likely to be at the end anyways:
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while lo < hi:
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mid = int(floor(lo * 0.1 + hi * 0.9))
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seek(offsets[mid])
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mid_time_string = read(time_len)
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if insert_time_string.encode('utf8') < mid_time_string:
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hi = mid
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else:
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lo = mid + 1
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pos = lo
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# Caller will replace row at pos with the new one, so this is
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# correct:
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pos_time_string = insert_time_string
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insert_pos = pos
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seek(save_offset)
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class LineCache (Producer):
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"""
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offsets: file position for each line
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levels: the debug level for each line
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"""
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_lines_per_iteration = 50000
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def __init__(self, fileobj, dispatcher):
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Producer.__init__(self)
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self.logger = logging.getLogger("linecache")
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self.dispatcher = dispatcher
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self.__fileobj = fileobj
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self.__fileobj.seek(0, 2)
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self.__file_size = self.__fileobj.tell()
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self.__fileobj.seek(0)
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self.offsets = []
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self.levels = [] # FIXME
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def start_loading(self):
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self.logger.debug("dispatching load process")
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self.have_load_started()
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self.dispatcher(self.__process())
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def get_progress(self):
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return float(self.__fileobj.tell()) / self.__file_size
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def __process(self):
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offsets = self.offsets
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levels = self.levels
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dict_levels = {"T": debug_level_trace, "F": debug_level_fixme,
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"L": debug_level_log, "D": debug_level_debug,
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"I": debug_level_info, "W": debug_level_warning,
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"E": debug_level_error, " ": debug_level_none,
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"M": debug_level_memdump, }
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ANSI = "(?:\x1b\\[[0-9;]*m)?"
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ANSI_PATTERN = r"\d:\d\d:\d\d\.\d+ " + ANSI + \
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r" *\d+" + ANSI + \
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r" +0x[0-9a-f]+ +" + ANSI + \
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r"([TFLDIEWM ])"
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BARE_PATTERN = ANSI_PATTERN.replace(ANSI, "")
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rexp_bare = re.compile(BARE_PATTERN)
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rexp_ansi = re.compile(ANSI_PATTERN)
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rexp = rexp_bare
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# Moving attribute lookups out of the loop:
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readline = self.__fileobj.readline
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tell = self.__fileobj.tell
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rexp_match = rexp.match
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levels_append = levels.append
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offsets_append = offsets.append
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dict_levels_get = dict_levels.get
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self.__fileobj.seek(0)
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limit = self._lines_per_iteration
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last_line = ""
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i = 0
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sort_helper = SortHelper(self.__fileobj, offsets)
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find_insert_position = sort_helper.find_insert_position
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while True:
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i += 1
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if i >= limit:
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i = 0
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yield True
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offset = tell()
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line = readline().decode('utf-8', errors='replace')
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if not line:
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break
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match = rexp_match(line)
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if match is None:
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if rexp is rexp_ansi or "\x1b" not in line:
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continue
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match = rexp_ansi.match(line)
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if match is None:
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continue
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# Switch to slower ANSI parsing:
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rexp = rexp_ansi
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rexp_match = rexp.match
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# Timestamp is in the very beginning of the row, and can be sorted
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# by lexical comparison. That's why we don't bother parsing the
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# time to integer. We also don't have to take a substring here,
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# which would be a useless memcpy.
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if line >= last_line:
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levels_append(
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dict_levels_get(match.group(1), debug_level_none))
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offsets_append(offset)
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last_line = line
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else:
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pos = find_insert_position(line)
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levels.insert(
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pos, dict_levels_get(match.group(1), debug_level_none))
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offsets.insert(pos, offset)
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self.have_load_finished()
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yield False
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class LogLine (list):
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_line_regex = default_log_line_regex()
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@classmethod
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def parse_full(cls, line_string):
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match = cls._line_regex.match(line_string.decode('utf8', errors='replace'))
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if match is None:
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# raise ValueError ("not a valid log line (%r)" % (line_string,))
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groups = [0, 0, 0, 0, "", "", 0, "", "", 0]
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return cls(groups)
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line = cls(match.groups())
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# Timestamp.
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line[0] = parse_time(line[0])
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# PID.
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line[1] = int(line[1])
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# Thread.
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line[2] = int(line[2], 16)
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# Level (this is handled in LineCache).
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line[3] = 0
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# Line.
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line[6] = int(line[6])
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# Message start offset.
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line[9] = match.start(9 + 1)
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for col_id in (4, # COL_CATEGORY
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5, # COL_FILENAME
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7, # COL_FUNCTION,
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8,): # COL_OBJECT
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line[col_id] = sys.intern(line[col_id] or "")
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return line
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class LogLines (object):
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def __init__(self, fileobj, line_cache):
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self.__fileobj = fileobj
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self.__line_cache = line_cache
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def __len__(self):
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return len(self.__line_cache.offsets)
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def __getitem__(self, line_index):
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offset = self.__line_cache.offsets[line_index]
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self.__fileobj.seek(offset)
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line_string = self.__fileobj.readline()
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line = LogLine.parse_full(line_string)
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msg = line_string[line[-1]:]
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line[-1] = msg
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return line
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def __iter__(self):
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size = len(self)
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i = 0
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while i < size:
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yield self[i]
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i += 1
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class LogFile (Producer):
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def __init__(self, filename, dispatcher):
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import mmap
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Producer.__init__(self)
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self.logger = logging.getLogger("logfile")
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self.path = os.path.normpath(os.path.abspath(filename))
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self.__real_fileobj = open(filename, "rb")
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self.fileobj = mmap.mmap(
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self.__real_fileobj.fileno(), 0, access=mmap.ACCESS_READ)
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self.line_cache = LineCache(self.fileobj, dispatcher)
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self.line_cache.consumers.append(self)
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def start_loading(self):
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self.logger.debug("starting load")
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self.line_cache.start_loading()
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def get_load_progress(self):
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return self.line_cache.get_progress()
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def handle_load_started(self):
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# Chain up to our consumers:
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self.have_load_started()
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def handle_load_finished(self):
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self.logger.debug("finish loading")
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self.lines = LogLines(self.fileobj, self.line_cache)
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# Chain up to our consumers:
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self.have_load_finished()
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