mirror of
https://bitbucket.org/librepilot/librepilot.git
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742 lines
24 KiB
Python
742 lines
24 KiB
Python
#!/usr/bin/env python
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# This file is Copyright 2009, 2010 Dean Hall.
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#
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# This file is part of the Python-on-a-Chip program.
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# Python-on-a-Chip is free software: you can redistribute it and/or modify
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# it under the terms of the GNU LESSER GENERAL PUBLIC LICENSE Version 2.1.
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#
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# Python-on-a-Chip is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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# A copy of the GNU LESSER GENERAL PUBLIC LICENSE Version 2.1
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# is seen in the file COPYING in this directory.
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"""
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PyMite Heap Dump
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================
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Parses a heap dump into human-readable format.
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The heap dump file is created by inserting a calls to heap_dump()
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inside heap_gcRun(). Using two calls, a before and after, is ideal.
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The dump format is:
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=========== ==========================================
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NumBytes Contents
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=========== ==========================================
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6 string: PMDUMP or PMUDMP depending on target endianess (little and big respectively)
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2 uint16: pointer size
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2 uint16: dump format version
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2 uint16: bifield of pmfeatures enabled on target
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4 uint32: HEAP_SIZE
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p pointer to heap start
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HEAP_SIZE contents of heap (byte array)
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4 uint16: NUM_ROOTS
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NUM_ROOTS*p pointers to root objects
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=========== ==========================================
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The heap_dump() function names files incrementally starting from:
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pmheapdump00.bin
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pmheapdump01.bin
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...
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pmheapdumpNN.bin
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"""
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## @file
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# @copybrief pmHeapDump
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## @package pmHeapDump
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# @brief PyMite Heap Dump
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#
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# See the source docstring for details.
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import os, struct, sys, types, UserDict, collections
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try:
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import cStringIO as StringIO
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except:
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import StringIO
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def _ellipse(string, length):
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"""Truncates a string to a given size with ellipses
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"""
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if len(string) < length:
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return string
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else:
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return string[0 : length-3] + '...'
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def _dot_escape(string):
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return string.replace('<', '\<').replace('>', '\>')
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def unpack_fp(fmt, fp, increment=True):
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"""Unpacks a structure from a file, increment the position if set.
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"""
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if increment:
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return struct.unpack(fmt, fp.read(struct.calcsize(fmt)))
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else:
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pos = fp.tell()
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ret = struct.unpack(fmt, fp.read(struct.calcsize(fmt)))
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fp.seek(pos)
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return ret
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PmFieldInfo = collections.namedtuple('PmFieldInfo', 'name type mul')
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PmBitfieldInfo = collections.namedtuple('PmFieldInfo', 'type fields mul')
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class PmTypeInfo(object):
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"""Model of an object type
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"""
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def __init__(self, name, fmt):
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"""Initializes a new object type from name and a format string
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The format consist of a list of field name, type and optionnal multiplicity
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fmt = "fieldname1:fieldtype1[:multiplicity1],fieldname2:fieldtype2[:multiplicity2],..."
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where:
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fieldname : a string naming a field...
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fieldtype : a type understand by python struct [c, b, B, ?, h, H, i, I, l, L, q, Q, f, d, s, p, P] or '.' for a bit
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P (pointer) is translated to the correct size based on the dump header information
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multiplicity : number of item for a list. multiplicity can be:
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any positive integer
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a string naming a field already described
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Multiplicity can also specify:
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'*' to read as much as possible in the limit of the size object
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'<name' to read as long as memory offset is lower than then value of field name
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"""
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self._parse_fmt(fmt)
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self.name = name
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def _parse_fmt(self, fmt):
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self.fields = []
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for f in map(lambda s: s.strip(), fmt.split(',')):
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if f == '':
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continue
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name, typ = f.split(':', 1)
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if ':' in typ:
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typ, mul = typ.split(':')
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try:
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mul = int(mul)
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except:
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pass
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else:
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mul = False
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self.fields.append(PmFieldInfo(name, typ, mul))
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# Bitfield support : concatenate bit-fields in a bitfield
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bitfield = None
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self._rawfields = []
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for i, f in enumerate(self.fields):
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if f.type != '.':
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self._rawfields.append(f)
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continue
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if bitfield == None:
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bitfield = []
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bitfield.append(f)
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# Next field is a bit in this bitfield
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if i + 1 < len(self.fields) and self.fields[i + 1].type == '.':
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continue
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# Last bit in field : sum the bitfield and add it to the fields list
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bitcount = sum([sf.mul for sf in bitfield])
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bytes = 1
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while (bytes * 8 < bitcount):
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bytes *= bytes
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typechr = [None, 'B', 'H', None, 'I', None, None, None, 'Q'][bytes]
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self._rawfields.append(PmBitfieldInfo(typechr, bitfield, False))
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bitfield = None
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def _calc_fieldmap(self, obj):
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"""Computes fieldmap and format
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Returns a triple(format, : a struct format string
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fielmap, : a list of Pm(Bit)FieldInfo
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remaining : number of field that cannot ne computed due to a missing value
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)
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"""
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d = obj.data
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fmt = obj.heap.endianchr + "H" # Skip object descriptor
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fieldmap = [None]
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for i, f in enumerate(self._rawfields):
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typechr = (f.type == 'P') and obj.heap.ptrchr or f.type
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while (struct.calcsize(fmt) % struct.calcsize(typechr)!=0):
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fmt += 'x'
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if f.mul == False:
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fmt += typechr
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fieldmap.append(f)
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else:
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d[f.name] = []
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if isinstance(f.mul, int):
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fmt += typechr * f.mul
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fieldmap += [f] * f.mul
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elif f.mul == '*':
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while struct.calcsize(fmt)<obj.size:
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fmt += typechr
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fieldmap.append(f)
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elif f.mul.startswith('<'):
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if f.mul[1:] not in d:
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return (fmt, fieldmap, len(self._rawfields)-i)
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while struct.calcsize(fmt + typechr) + obj.addr \
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+ obj.heap.base < d[f.mul[1:]]:
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# and struct.calcsize(fmt+typechr)<obj.size:
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fmt += typechr
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fieldmap += [f]
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else:
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if f.mul not in d:
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return (fmt, fieldmap, len(self._rawfields)-i)
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fmt += typechr * d[f.mul]
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fieldmap += [f] * d[f.mul]
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return (fmt, fieldmap, 0)
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def PmObjectClass(dumpversion, features):
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class PmObject(UserDict.UserDict):
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"""A model of an object.
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"""
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PM_TYPES = (
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PmTypeInfo('NON', ""),
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PmTypeInfo("INT", "val:i"),
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PmTypeInfo("FLT", "val:f"),
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PmTypeInfo("STR", "len:H,"+
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(features.USE_STRING_CACHE and "cache_next:P," or "") +
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"val:B:len"),
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PmTypeInfo("TUP", "len:H,items:P:len"),
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PmTypeInfo("COB", "codeimg:P,names:P,consts:P,code:P"),
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PmTypeInfo("MOD", "co:P,attrs:P,globals:P," +
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(features.HAVE_DEFAULTARGS and "defaultargs:P," or "") +
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(features.HAVE_CLOSURES and "closure:P," or "")),
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PmTypeInfo("CLO", "attrs:P,bases:P"),
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PmTypeInfo("FXN", "co:P,attrs:P,globals:P," +
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(features.HAVE_DEFAULTARGS and "defaultargs:P," or "") +
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(features.HAVE_CLOSURES and "closure:P" or "")),
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PmTypeInfo("CLI", "class:P,attrs:P"),
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PmTypeInfo("CIM", "data:B:*"),
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PmTypeInfo("NIM", ""),
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PmTypeInfo("NOB", "argcount:B,funcidx:H"),
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PmTypeInfo("THR", "frame:P,interpctrl:I"),
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PmTypeInfo("x", ""),
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PmTypeInfo("BOL", "val:i"),
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PmTypeInfo("CIO", "data:B:*"),
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PmTypeInfo("MTH", "instance:P,func:P,attrs:P"),
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PmTypeInfo("LST", "len:H,sgl:P"),
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PmTypeInfo("DIC", "len:H,keys:P,vals:P"),
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PmTypeInfo("x", ""),
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PmTypeInfo("x", ""),
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PmTypeInfo("x", ""),
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PmTypeInfo("x", ""),
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PmTypeInfo("x", ""),
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PmTypeInfo("FRM", "back:P,func:P,memspace:B,ip:P,blockstack:P,"
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"attrs:P,globals:P,sp:P,isImport:.," +
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(features.HAVE_CLASSES and "isInit:.," or "") +
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"locals:P:<sp"),
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PmTypeInfo("BLK", "sp:P,handler:P,type:B,next:P"),
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PmTypeInfo("SEG", "items:P:8,next:P"),
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PmTypeInfo("SGL", "rootseg:P,lastseg:P,length:H"),
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PmTypeInfo("SQI", "sequence:P,index:H"),
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PmTypeInfo("NFM", "back:P,func:P,stack:P,active:B,numlocals:B,"
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"locals:P:8"),
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)
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FREE_TYPE = PmTypeInfo("FRE", "prev:P,next:P")
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def __init__(self, heap):
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"""Initializes the object at the current file location
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"""
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UserDict.UserDict.__init__(self)
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self.is_dotted = False
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self.is_dotrev = False
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self.heap = heap
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self.fp = fp = self.heap.rawheap
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self.addr = self.fp.tell()
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od = unpack_fp(heap.endianchr + "H", fp, False)[0]
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self.mark = (' ','M')[(od & 0x4000) == 0x4000]
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self.free = (' ','F')[(od & 0x8000) == 0x8000]
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if self.free == 'F':
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self.size = (od & 0x3FFF) << 2
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self.objtype = self.FREE_TYPE
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else:
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self.size = (od & 0x01FF) << 2
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assert self.size > 0
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self.typeindex = (od >> 9) & 0x1f
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self.objtype = PmObject.PM_TYPES[self.typeindex]
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if self.objtype.name == 'x':
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raise Exception("unknown object type", self.typeindex)
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self.type = self.objtype.name.lower()
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self.parse()
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self.fp.seek(self.addr + self.size)
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def parse(self,):
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"""Parses data at the current file location
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"""
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d = self.data
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fmt, fieldmap, remaining = self.objtype._calc_fieldmap(self)
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results = unpack_fp(fmt, self.fp, False)
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# Store data in obj
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for r, f in zip(results, fieldmap):
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if f == None:
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continue
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elif isinstance(f, PmBitfieldInfo):
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for bf in f.fields:
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d[bf.name] = r & ((1 << bf.mul) - 1)
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r = r >> bf.mul
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elif f.mul == False:
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d[f.name] = r
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elif f.mul == 'lastv':
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if r != 0:
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d[f.name].append(r)
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else:
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break
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else:
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d[f.name].append(r)
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if remaining:
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if not self.objtype._calc_fieldmap(self)[2] < remaining:
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raise Exception("Cannot compute %s field length"
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% self.objtype._rawfields[-remaining].name)
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# Retry if there are any remaining field
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self.parse()
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def __str__(self,):
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d = self.data
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result = []
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result.append("%s %s %d %s%s: " % (
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hex(self.addr+self.heap.base),
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self.type,
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self.size,
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self.mark,
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self.free,))
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values = []
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for f in self.objtype.fields:
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typechr = (f.type in ['P', '.']) and "0x%x" or "%d"
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if f.mul == False:
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values.append(("%s=" + typechr) % (f.name, d[f.name]))
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elif self.objtype.name == "STR" and f.name == "val":
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values.append("val=%s"
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% _ellipse("".join(map(chr, d['val'])), 30))
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elif self.objtype.name == 'CIO' and f.name == 'data':
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values.append("data=%s"
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% _ellipse(repr("".join(map(chr, d['data']))),
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30))
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else:
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values.append(
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"%s=[%s]"
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% (f.name, ", ".join([typechr % v for v in d[f.name]])))
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result.append(", ".join(values))
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return "".join(result)
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def __repr__(self):
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return "<0x%x %s %d>" \
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% (self.addr + self.heap.base,
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self.objtype.name.lower(),
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self.size)
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COLOR = ["aliceblue", "antiquewhite", "aqua", "aquamarine", "azure",
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"beige", "bisque", "blanchedalmond", "blue",
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"blueviolet", "brown", "burlywood", "cadetblue", "chartreuse",
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"chocolate", "coral", "cornflowerblue", "cornsilk", "crimson",
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"cyan", "darkblue", "darkcyan", "darkgoldenrod", "darkgray",
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"darkgreen", "darkgrey", "darkkhaki", "darkmagenta",
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"darkolivegreen", "darkorange", "darkorchid", "darkred",
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"darksalmon", "darkseagreen", "darkslateblue", "darkslategray",
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"darkslategrey", "darkturquoise", "darkviolet", "deeppink",
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"deepskyblue", "dimgray", "dimgrey", "dodgerblue"]
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def dotstring(self):
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"""A DOT representation of the object
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"""
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if self.is_dotted:
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return "" #blurp %x' % (self.addr+self.heap.base)
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self.is_dotted = True
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d = self.data
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#mark dic vals segment for upside-down display
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if self.type == 'dic' and d['len']>0:
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seg = self.heap.data[d['vals']].data['rootseg']
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while seg:
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self.heap.data[seg].is_dotrev = True
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seg = self.heap.data[seg].data['next']
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result = []
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result.append('"0x%x" [style=filled, fillcolor=%s, colorscheme=svg,'
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' label="%s"];'
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% (self.addr+self.heap.base,
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self.COLOR[getattr(self, 'typeindex', 0)],
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self._dot_label()))
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if (self.type == "sgl" and d['rootseg'] in self.heap.data
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and d['rootseg'] != d['lastseg']):
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result.append("{ rank=same;")
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seg = d['rootseg']
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while seg in self.heap.data:
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result.append(self.heap.data[seg].dotstring())
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seg = self.heap.data[seg].data['next']
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result.append('}')
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return "\n".join(result)
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def _dot_label(self):
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"""Label for the dot node
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"""
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d = self.data
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label = []
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label.append('{')
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label.append(_dot_escape(repr(self)))
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values = []
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for f in self.objtype.fields:
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if f.type == 'P': continue
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if self.objtype.name == "STR" and f.name == "val" \
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and d['val'] != None:
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values.append("val=%s"
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% _dot_escape(_ellipse("".join(map(chr, d['val'])), 20))
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)
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elif self.objtype.name == "CIO" and f.name == "data":
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values.append("data=%s"
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% _dot_escape(_ellipse(repr(d['data']), 20)))
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else:
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values.append("%s=%s"
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% (_dot_escape(f.name), _dot_escape(str(d[f.name]))))
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if len(values):
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label.append("|{")
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label.append("|".join(values))
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label.append("}")
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pointers = []
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for f in self.objtype.fields:
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if f.type != 'P':
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continue
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if f.name == "cache_next" and d[f.name] in self.heap.data:
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pointers.append("%s=%s"%(f.name, hex(d[f.name])))
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else:
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pointers.append("<%s> %s" % (f.name, f.name))
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if len(pointers):
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label.append('|{')
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label.append("|".join(pointers))
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label.append('}')
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label.append('}')
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return "".join(label)
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def dotedges(self):
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"""Edges (pointers) leaving this object
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"""
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d = self.data
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result = []
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for f in self.objtype.fields:
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if f.type != 'P':
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continue
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if f.name == "cache_next":
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continue
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if f.mul == False:
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if d[f.name] == 0:
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continue
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result.append(self._dotedge(f.name, d[f.name]))
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else:
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for i, m in enumerate(d[f.name]):
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if m == 0:
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continue
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result.append(self._dotedge(f.name, m, str(i)))
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if self.type == "dic" and d['len'] > 0:
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i = 0
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sgls = tuple(map(lambda p: self.heap.data[d[p]],
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("keys", "vals")))
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segs = tuple(map(lambda l: self.heap.data[l.data['rootseg']],
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sgls))
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iters = tuple(map(lambda s: iter(s.data['items']), segs))
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while i < d['len']:
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try:
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key, val = tuple(map(next, iters))
|
|
result.append('"0x%x" -> "0x%x" '
|
|
'[style=dotted, weight=50];'%(key, val))
|
|
i += 1
|
|
except StopIteration:
|
|
segs = tuple(map(
|
|
lambda s: self.heap.data[s.data['next']] , segs))
|
|
iters = tuple(map(
|
|
lambda s: iter(s.data['items']), segs))
|
|
|
|
return "\n".join(result)
|
|
|
|
|
|
def _dotedge(self, name, value, label = None):
|
|
|
|
style = []
|
|
if label != None:
|
|
style.append("label=%s" % label)
|
|
if self.is_dotrev:
|
|
style.append("dir=back")
|
|
|
|
style = len(style) and (" [" + ", ".join(style) + "]") or ""
|
|
|
|
if self.is_dotrev:
|
|
return '"0x%x" -> "0x%x":%s%s;' \
|
|
% (value, self.addr+self.heap.base, name, style)
|
|
else:
|
|
return '"0x%x":%s -> "0x%x"%s;' \
|
|
% (self.addr+self.heap.base, name, value, style)
|
|
|
|
return PmObject
|
|
|
|
|
|
class PmHeap(UserDict.UserDict):
|
|
"""A model of the heap.
|
|
"""
|
|
|
|
FEATURES = ['USE_STRING_CACHE', 'HAVE_DEFAULTARGS', 'HAVE_CLOSURES',
|
|
'HAVE_CLASSES']
|
|
|
|
|
|
def __init__(self, fp):
|
|
"""Initializes the heap based on the given dump file.
|
|
"""
|
|
UserDict.UserDict.__init__(self)
|
|
|
|
self.is_parsed = False
|
|
|
|
self._sense_fmt(fp)
|
|
self.version, features, self.size, self.base = \
|
|
unpack_fp(self.endianchr + "2HI" + self.ptrchr, fp)
|
|
|
|
if self.version != 1:
|
|
raise Exception('Dump version %d not supported' % self.version)
|
|
|
|
self.features = \
|
|
type("pmFeatures",
|
|
(object,),
|
|
dict(zip(self.FEATURES, [False] * len(self.FEATURES))))()
|
|
f = 0
|
|
while(features):
|
|
setattr(self.features,
|
|
self.FEATURES[f],
|
|
features & 1 and True or False)
|
|
f = f + 1
|
|
features = features >> 1
|
|
|
|
self.rawheap = StringIO.StringIO(fp.read(self.size))
|
|
|
|
num_roots = unpack_fp("I", fp)[0]
|
|
roots = {}
|
|
(roots['None'],
|
|
roots['False'],
|
|
roots['True'],
|
|
roots['Zero'],
|
|
roots['One'],
|
|
roots['NegOne'],
|
|
roots['CodeStr'],
|
|
roots['Builtins'],
|
|
roots['NativeFrame'],
|
|
roots['ThreadList']) = \
|
|
unpack_fp(self.endianchr + (self.ptrchr * num_roots), fp)
|
|
self.roots = roots
|
|
self.PmObjectClass = PmObjectClass(self.version, self.features)
|
|
|
|
fp.close()
|
|
|
|
|
|
def _sense_fmt(self, fp):
|
|
"""Senses pmdump format (endianess, pointer size)
|
|
depending on the first 8 bytes
|
|
"""
|
|
|
|
magic = fp.read(6)
|
|
|
|
if magic == "PMDUMP":
|
|
self.endianess = "little"
|
|
self.endianchr = '<'
|
|
elif magic == "PMUDMP":
|
|
self.endianess = "big"
|
|
self.endianchr = '>'
|
|
else:
|
|
raise Exception("Not a PMDUMP format")
|
|
|
|
self.ptrsize = unpack_fp(self.endianchr+"H", fp)[0]
|
|
self.ptrchr = [None, 'B', 'H', None, 'I',
|
|
None, None, None, 'Q'][self.ptrsize]
|
|
if self.ptrchr == None:
|
|
raise Exception('invalid pointer size')
|
|
|
|
|
|
def parse_heap(self,):
|
|
"""Parses the heap into a dict of key=address, value=object items
|
|
"""
|
|
self.rawheap.seek(0)
|
|
while self.rawheap.tell() < self.size:
|
|
addr = self.rawheap.tell() + self.base
|
|
self.data[addr] = self.PmObjectClass(self)
|
|
self.is_parsed = True
|
|
|
|
|
|
def __getitem__(self, indx):
|
|
"""Returns the object at the given address
|
|
or the string of bytes defined by the slice.
|
|
"""
|
|
# Return the object at the given address
|
|
if type(indx) == types.IntType:
|
|
if is_parsed:
|
|
return self.data[indx]
|
|
else:
|
|
self.rawheap.seek(indx)
|
|
return self.PmObjectClass(self)
|
|
|
|
# Return the string of bytes defined by the slice
|
|
elif type(indx) == types.SliceType:
|
|
return self.rawheap[indx.start - self.base : indx.stop - self.base]
|
|
|
|
else:
|
|
assert False, "Bad type to heap[%s]" % type(indx)
|
|
|
|
|
|
def __str__(self):
|
|
|
|
d = self.data
|
|
|
|
obj = filter(lambda o: o.type != "fre", self.data.values())
|
|
free = filter(lambda o: o.type == "fre", self.data.values())
|
|
|
|
result = []
|
|
result.append("dump : version=%d, ptr=%dbytes, %s-endian, features=%s"
|
|
% (self.version, self.ptrsize, self.endianess, self.features))
|
|
result.append("roots : "
|
|
+ ", ".join(map(lambda kv: "%s=0x%x" % kv, self.roots.iteritems())))
|
|
result.append("heap : size=%d, base=%x" % (self.size, self.base))
|
|
result.append("summary : %d bytes in %d objects, %d free bytes" %
|
|
(sum([o.size for o in obj]),
|
|
len(obj),
|
|
sum([o.size for o in free])))
|
|
|
|
for o in sorted(d.values(), key=lambda o: o.addr):
|
|
result.append(str(o))
|
|
|
|
result.append('')
|
|
|
|
return "\n".join(result)
|
|
|
|
|
|
def dotstring(self):
|
|
"""A DOT representation of the heap
|
|
"""
|
|
|
|
d = self.data
|
|
result = []
|
|
result.append("digraph pmheapdump {")
|
|
#result.append("concentrate=true;")
|
|
|
|
result.append('{ rank=same;')
|
|
for r, m in self.roots.iteritems():
|
|
result.append("%s;" % r)
|
|
result.append('}')
|
|
|
|
result.append("{ node [shape=record];")
|
|
for o in sorted(d.values(), key=lambda o: o.addr):
|
|
result.append(o.dotstring())
|
|
result.append("}")
|
|
|
|
for r, m in self.roots.iteritems():
|
|
result.append('%s -> "0x%x";' % (r, m))
|
|
|
|
for o in sorted(d.values(), key=lambda o: o.addr):
|
|
result.append(o.dotedges())
|
|
|
|
result.append("}")
|
|
|
|
result.append('')
|
|
|
|
return "\n".join(filter(len, result))
|
|
|
|
|
|
def main():
|
|
from optparse import OptionParser
|
|
|
|
parser = OptionParser(usage="usage: %prog [options] [dumpfile [output]]")
|
|
parser.add_option("-f", "--format",
|
|
dest="format", default='list', choices=['list', 'dot'],
|
|
help="output format: list or dot [default: %default]")
|
|
|
|
(options, args) = parser.parse_args()
|
|
|
|
if len(args) == 0:
|
|
fp = open(os.path.join(os.path.curdir, "pmheapdump00.bin"), 'rb')
|
|
out = sys.stdout
|
|
elif len(args) == 1:
|
|
fp = open(args[0], 'rb')
|
|
out = sys.stdout
|
|
elif len(args) == 2:
|
|
fp = open(args[0], 'rb')
|
|
out = open(args[1], 'w')
|
|
else:
|
|
print "too many arguments"
|
|
parser.print_help()
|
|
sys.exit()
|
|
|
|
heap0 = PmHeap(fp)
|
|
heap0.parse_heap()
|
|
|
|
if options.format == 'list':
|
|
out.write(str(heap0))
|
|
elif options.format == 'dot':
|
|
out.write(heap0.dotstring())
|
|
|
|
|
|
if __name__ == "__main__":
|
|
main()
|