725 lines
18 KiB
Python
Executable File
725 lines
18 KiB
Python
Executable File
#!/usr/bin/env python3
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doc=r'''
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Reading a log, it can be hard to figure out what is the important bit going on.
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This is a tool that reads an osmo-msc log and tries to compose a ladder diagram from it automatically.
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'''
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import argparse
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import sys
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import re
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import tempfile
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import os
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def error(*msg):
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sys.stderr.write('%s\n' % (''.join(msg)))
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exit(1)
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def quote(msg, quote='"'):
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return '"%s"' % (msg.replace('"', r'\"'))
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class Entity:
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def __init__(self, name, descr=None, attrs={}):
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self.name = name
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self.descr = descr
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self.attrs = attrs
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class Arrow:
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def __init__(self, mo_mt, left, arrow, right, descr=None, attrs={}, ran_conn=None, imsi=None, tmsi=None):
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self.mo_mt = mo_mt
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self.left = left
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self.arrow = arrow
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self.right = right
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self.descr = descr
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self.attrs = attrs
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self.ran_conn = ran_conn
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self.imsi = imsi
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self.tmsi = tmsi
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def __repr__(self):
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return 'Arrow(%s %s %s %s: %s IMSI=%s)' % (self.mo_mt, self.left, self.arrow, self.right, self.descr, self.imsi)
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class Separator:
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def __init__(self):
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self.separator = None
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self.descr = None
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self.attrs = {}
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class EmptyLine:
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def __init__(self):
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self.count = 1
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MS = 'ms'
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UE = 'ms' #'ue'
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MS_UE_UNKNOWN = 'ms' #None
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MSC = 'msc'
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MGW = 'mgw'
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SIP = 'sip'
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MO = 'mo'
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MT = 'mt'
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MO_MT_UNKNOWN = None
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class OutputBase:
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def __init__(self, write_to, start_with_re=None):
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self._write_to = write_to
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self.start_with_re = None
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if start_with_re is not None:
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self.start_with_re = re.compile(start_with_re)
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def head(self):
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self.writeln('# Generated by msc_log_to_ladder.py')
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def tail(self):
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pass
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def render(self, diagram):
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self.head()
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if diagram.root_attrs:
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self.root_attrs(diagram.root_attrs)
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self.entities(diagram.entities)
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started = (self.start_with_re is None)
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for line in diagram.lines:
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if not started:
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if hasattr(line, 'descr') and self.start_with_re.match(line.descr):
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started = True
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else:
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continue
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self.add(line)
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self.tail()
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def entities(self, entities):
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for entity in entities:
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self.entity(entity)
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def write(self, line):
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self._write_to.write(line)
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def writeln(self, line):
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self.write('%s\n' % line)
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def emptyline(self, emptyline):
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self.write('\n' * emptyline.count);
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def add(self, thing):
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func = getattr(self, thing.__class__.__name__.lower())
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func(thing)
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class OutputLadder(OutputBase):
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def indent_multiline(self, s):
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return s.replace('\n', '\n\t')
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def attrs_str(self, attrs, prefix=' '):
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if not attrs:
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return ''
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return '%s{%s}' % (prefix or '', ','.join('%s=%s' % (k,v) for k,v in attrs.items()))
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def root_attrs(self, attrs):
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self.writeln(self.attrs_str(attrs, prefix=None))
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def entity(self, entity):
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self.writeln('%s = %s%s' % (entity.name, self.indent_multiline(entity.descr), self.attrs_str(entity.attrs)))
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def arrow(self, arrow):
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mo_mt = arrow.mo_mt or MO
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def prepend_mo_mt(name):
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if name in ('.', SIP):
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return name
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return '%s%s' % (mo_mt, name)
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self.writeln('%s %s %s%s%s%s'
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% (prepend_mo_mt(arrow.left),
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arrow.arrow,
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prepend_mo_mt(arrow.right),
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'\t' if arrow.descr else '',
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self.indent_multiline(arrow.descr or ''),
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self.attrs_str(arrow.attrs)))
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def separator(self, sep_str, descr, attrs):
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self.writeln('%s%s%s%s'
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% (separator.separator,
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' ' if separator.descr else '',
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self.indent_multiline(separator.descr or ''),
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self.attrs_str(separator.attrs)))
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class OutputMscgen(OutputBase):
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ARROWS = {
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'>' : '=>>',
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'->' : '=>',
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'-->' : '>>',
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'~>' : '->',
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'=>' : ':>',
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'-><' : '-x',
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'<' : '<<=',
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'<-' : '<=',
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'<--' : '<<',
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'<~' : '<-',
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'<=' : '<:',
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'><-' : 'x-',
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'<>' : 'abox',
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'()' : 'rbox',
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'[]' : 'note',
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}
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def head(self):
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super().head()
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self.writeln('msc {')
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def tail(self):
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self.writeln('}')
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def entities(self, entities):
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estr = []
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for entity in entities:
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estr.append('%s%s' % (entity.name, self.attrs_str(self.all_attrs(entity.descr, entity.attrs), prefix='')))
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if not estr:
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return
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self.writeln('%s;' % (','.join(estr)))
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def attrs_list_str(self, attrs):
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if not attrs:
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return ''
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def escape(s):
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return s.replace('\n', r'\n').replace('\r', '').replace('\t', r'\t')
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return ','.join('%s="%s"' % (k,escape(v)) for k,v in attrs.items())
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def attrs_str(self, attrs, prefix=' '):
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attrs_list_str = self.attrs_list_str(attrs)
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if not attrs_list_str:
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return ''
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return '%s[%s]' % (prefix or '', attrs_list_str)
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def root_attrs(self, attrs):
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if not attrs:
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return
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self.writeln('%s;' % self.attrs_list_str(attrs))
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def all_attrs(self, descr, attrs):
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a = {}
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if descr:
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a['label'] = descr
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a.update(attrs)
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return a
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def entity(self, entity):
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error('OutputMscgen.entity() should not be called')
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def arrow_txlate(self, arrow):
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txlate = OutputMscgen.ARROWS.get(arrow)
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if not txlate:
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error('Unknown arrow: %r' % arrow)
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return txlate
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def arrow(self, arrow):
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mo_mt = arrow.mo_mt or MO
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def prepend_mo_mt(name):
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if name in ('.', SIP):
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return name
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return '%s%s' % (mo_mt, name)
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l = prepend_mo_mt(arrow.left)
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r = arrow.right
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if r == '.':
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r = l
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else:
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r = prepend_mo_mt(r)
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a = {'label': arrow.descr}
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a.update(arrow.attrs)
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attrs = self.attrs_str(a)
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self.writeln('%s %s %s%s;'
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% (l, self.arrow_txlate(arrow.arrow), r,
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self.attrs_str(self.all_attrs(arrow.descr, arrow.attrs), prefix='\t')))
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def separator(self, sep_str, descr, attrs):
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self.writeln('%s%s%s%s;'
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% (separator.separator,
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self.attrs_str(self.all_attrs(descr, attrs), prefix='\t')))
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def emptyline(self, emptyline):
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self.write('\n' * emptyline.count);
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def ms_from_ran(ran_type_or_conn):
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if ran_type_or_conn.startswith('UTRAN-Iu'):
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return UE
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if ran_type_or_conn.startswith('RANAP'):
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return UE
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if ran_type_or_conn.startswith('GERAN-A'):
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return MS
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if ran_type_or_conn.startswith('BSS'):
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return MS
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return MS_UE_UNKNOWN
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class Diagram:
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def __init__(self):
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self.root_attrs = {}
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self.entities = []
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self.lines = []
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self.mo_mt_unknown_lines = []
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def add_line(self, line):
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self.lines.append(line)
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def resolve_unknown_mo_mt(self):
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def try_match(a, b):
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if a < 0 or a >= len(self.lines):
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return False
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if b < 0 or b >= len(self.lines):
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return False
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la = self.lines[a]
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lb = self.lines[b]
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if not hasattr(lb, 'mo_mt'):
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return False
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if lb.mo_mt == MO_MT_UNKNOWN:
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return False
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for match_attr in ('imsi', 'tmsi', 'ran_conn'):
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if not hasattr(la, match_attr):
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continue
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if not hasattr(lb, match_attr):
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continue
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la_attr = getattr(la, match_attr)
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if la_attr is None:
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continue
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lb_attr = getattr(lb, match_attr)
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if la_attr == lb_attr:
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la.mo_mt = lb.mo_mt
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return True
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return False
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while True:
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changes = 0
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for i in range(len(self.lines)):
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line = self.lines[i]
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if not hasattr(line, 'mo_mt'):
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continue
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if line.mo_mt is not MO_MT_UNKNOWN:
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continue
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# don't know MO/MT, try to resolve from near messages
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for j in range(1,100):
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if try_match(i, i-j):
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break
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if try_match(i, i+j):
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break
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if line.mo_mt is not MO_MT_UNKNOWN:
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changes += 1
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if not changes:
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break
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re_source_file_last = re.compile(r'(.*) \(([^):]+:[0-9]+)\)$')
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class Rule:
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def __init__(self, name, re_str, handler):
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self.name = name
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self.re = re.compile(re_str)
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self.handler = handler
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def match(self, line):
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m = self.re.match(line)
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if not m:
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return False
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return self.handler(m)
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def mo_mt_from_l3type(l3type):
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if l3type == 'PAGING_RESP':
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return MT
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elif l3type == 'CM_SERVICE_REQ':
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return MO
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else:
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return MO_MT_UNKNOWN
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def int_to_hex(val, bits):
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return hex((int(val) + (1 << bits)) % (1 << bits))
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class Callref:
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MAX = 0x7fffffff
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MIN = -0x80000000
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BITS = 32
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def int_to_hex(val):
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return int_to_hex(val, Callref.BITS)
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def hex_to_int(hexstr):
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val = int(hexstr, 16)
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if val > Callref.MAX:
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val = Callref.MIN + (val & Callref.MAX)
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return val
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class Parse:
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def __init__(self, output, mask_values=False):
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self.diagram = Diagram()
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self.output = output
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self.linenr = 0
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self.rules = []
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self.seen_udtrace_mncc = False
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self.callrefs_mo_mt = {}
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self.mask_values = mask_values
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self.masked_values = {}
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for member in dir(self):
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if not member.startswith('rule_'):
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continue
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func = getattr(self, member)
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if not callable(func):
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continue
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docstr = func.__doc__
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if not docstr:
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continue
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re_str = docstr.splitlines()[0]
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self.rules.append(Rule(name=member, re_str=re_str, handler=func))
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def error(self, *msg):
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error('line %d: ' % self.linenr, *msg)
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def start(self):
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self.diagram.root_attrs = {'hscale': '3'}
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for name, descr in (
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('moms', 'MS,BSS (MO)\\nUE,hNodeB (MO)'),
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#('moue', 'UE,hNodeB (MO)'),
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('momgw', 'MGW for MSC (MO)'),
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('momsc', 'MSC (MO)'),
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('sip', 'MNCC to PBX via\nosmo-sip-connector'),
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('mtmsc', 'MSC (MT)'),
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('mtmgw', 'MGW for MSC (MT)'),
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('mtms', 'BSS,MS (MT)\\nhNodeB,UE (MT)'),
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#('mtue', 'hNodeB,UE (MT)'),
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):
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self.diagram.entities.append(Entity(name, descr))
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def end(self):
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self.diagram.resolve_unknown_mo_mt()
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self.output.render(self.diagram)
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def mask_value(self, name, val):
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if not self.mask_values:
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return val
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if not val:
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return val
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name_dict = self.masked_values.get(name)
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if not name_dict:
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name_dict = {}
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self.masked_values[name] = name_dict
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masked_val = name_dict.get(val)
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if masked_val is None:
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masked_val = '%s-%d' % (name, len(name_dict) + 1)
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name_dict[val] = masked_val
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return masked_val
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def add_line(self, line):
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self.linenr += 1
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if line.endswith('\n'):
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line = line[:-1]
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if line.endswith('\r'):
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line = line[:-1]
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self.interpret(line)
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def interpret(self, line):
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m = re_source_file_last.match(line)
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if m:
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line = m.group(1)
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for rule in self.rules:
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if rule.match(line):
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break
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RE_DTAP_NAME = re.compile('.*GSM48_MT_([^_]+)_(.+)')
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def rule_paging(self, m):
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r'.*ran_peer\(([^:]+):.* Paging for ([^ ]+) on ([^ ]+)'
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ran_type, subscr, cell = m.groups()
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self.diagram.add_line(Arrow(MT, ms_from_ran(ran_type), '<', MSC, 'Paging'))
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return True
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RE_IMSI = re.compile('IMSI-([0-9]+)')
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RE_TMSI = re.compile('TMSI-0x([0-9a-fA-F]+)')
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def rule_dtap(self, m):
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r'.*msc_a\(([^)]*):([^:]+):([^:]+)\).* (Dispatching 04.08 message|Sending DTAP): (.+)$'
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subscr, ran_conn, l3type, rx_tx, dtap = m.groups()
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tx = (rx_tx == 'Sending DTAP')
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m = self.RE_DTAP_NAME.match(dtap)
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if m:
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dtap = '%s %s' % m.groups()
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if 'IMSI_DETACH_IND' in dtap:
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# detecting IMSI Detach separately
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return True
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if l3type == 'NONE' and not tx and dtap.endswith('PAG_RESP'):
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e = MT
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else:
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e = mo_mt_from_l3type(l3type)
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imsi = None
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for m in Parse.RE_IMSI.finditer(subscr):
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imsi = m.group(1)
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tmsi = None
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for m in Parse.RE_TMSI.finditer(subscr):
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tmsi = m.group(1)
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self.diagram.add_line(Arrow(e, ms_from_ran(ran_conn), '<' if tx else '>', MSC, dtap,
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ran_conn=ran_conn, imsi=imsi, tmsi=tmsi))
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return True
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def rule_imsi_detach(self, m):
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r'.*IMSI DETACH for IMSI-([0-9]+):.*'
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imsi = m.group(1)
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e = MO_MT_UNKNOWN
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self.diagram.add_line(Arrow(e, MS_UE_UNKNOWN, '>', MSC, 'IMSI Detach', imsi=imsi))
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def rule_mgcp_tx(self, m):
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r'.*mgw-endp\([^)]*:([^:]+):([^:]+)\).* (rtpbridge[^ ]+) .* RTP_TO_(RAN|CN)( CI=([^:]+)|): ([^ :]+).*: Sending'
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ran, l3type, endp, rtp_to, cond_ci, ci, verb = m.groups()
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e = mo_mt_from_l3type(l3type)
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if '*' not in endp:
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endp = self.mask_value('EP', endp)
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ci = self.mask_value('CI', ci)
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ci_str = ''
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if ci:
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ci_str = ' %s' % ci
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self.diagram.add_line(Arrow(e, MGW, '<', MSC, 'for %s: %s\\n%s%s' % (rtp_to, verb, endp, ci_str)))
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return True
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def rule_mgcp_rx(self, m):
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r'.*mgw-endp\([^)]*:([^:]+):([^:]+)\).* (rtpbridge[^ ]+) .* RTP_TO_(RAN|CN)( CI=([^:]+)|).*: received successful response to ([^:]+): (.*)'
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ran, l3type, endp, rtp_to, cond_ci, ci, verb, details = m.groups()
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e = mo_mt_from_l3type(l3type)
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endp = self.mask_value('EP', endp)
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ci = self.mask_value('CI', ci)
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ci_str = ''
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if ci:
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ci_str = ' %s' % ci
|
|
self.diagram.add_line(Arrow(e, MGW, '>', MSC, 'for %s: %s OK\\n%s%s' % (rtp_to, verb, endp, ci_str)))
|
|
return True
|
|
|
|
def rule_ran_tx(self, m):
|
|
r'.*msc_a\(([^)]*):([^:]+):([^:]+)\).* RAN encode: ([^: ]+): (.+)$'
|
|
|
|
subscr, ran_conn, l3type, ran_type, msg_type = m.groups()
|
|
|
|
if msg_type in ('DTAP', 'DirectTransfer'):
|
|
# will get DTAP details from rule_dtap() instead, not from BSSMAP logging
|
|
return True
|
|
if msg_type.startswith('Tx'):
|
|
# skip 'Tx RANAP SECURITY MODE COMMAND to RNC, ik 47...'
|
|
return True
|
|
if '=' in msg_type:
|
|
# skip 'RAB Assignment: rab_id=1, rtp=192.168.178.66:50008, use_x213_nsap=1'
|
|
return True
|
|
|
|
if l3type == 'NONE':
|
|
return True
|
|
|
|
e = mo_mt_from_l3type(l3type)
|
|
|
|
imsi = None
|
|
for m in Parse.RE_IMSI.finditer(subscr):
|
|
imsi = m.group(1)
|
|
tmsi = None
|
|
for m in Parse.RE_TMSI.finditer(subscr):
|
|
tmsi = m.group(1)
|
|
|
|
self.diagram.add_line(Arrow(e, ms_from_ran(ran_conn), '<', MSC, '(%s) %s' % (ran_type, msg_type),
|
|
ran_conn=ran_conn, imsi=imsi, tmsi=tmsi))
|
|
return True
|
|
|
|
def rule_ran_rx(self, m):
|
|
r'.*msc_a\(([^)]*):([^:]+):([^:]+)\).* RAN decode: ([^: ]+) (.+)$'
|
|
|
|
subscr, ran_conn, l3type, ran_type, msg_type = m.groups()
|
|
|
|
if msg_type in ('DTAP', 'DirectTransfer', 'DirectTransfer RAN PDU'):
|
|
# will get DTAP details from rule_dtap() instead, not from BSSMAP logging
|
|
return True
|
|
|
|
if l3type == 'NONE':
|
|
return True
|
|
|
|
e = mo_mt_from_l3type(l3type)
|
|
|
|
imsi = None
|
|
for m in Parse.RE_IMSI.finditer(subscr):
|
|
imsi = m.group(1)
|
|
tmsi = None
|
|
for m in Parse.RE_TMSI.finditer(subscr):
|
|
tmsi = m.group(1)
|
|
|
|
self.diagram.add_line(Arrow(e, ms_from_ran(ran_type), '>', MSC, '(%s) %s' % (ran_type, msg_type),
|
|
ran_conn=ran_conn, imsi=imsi, tmsi=tmsi))
|
|
return True
|
|
|
|
def rule_cc_state(self, m):
|
|
r'.*trans\(CC[^) ]* [^ )]+:([^:)]+) callref-([^ ]+) [^)]+\) new state ([^ ]+) -> ([^ ]+)'
|
|
l3type, callref_hex, from_state, to_state = m.groups()
|
|
|
|
e = mo_mt_from_l3type(l3type)
|
|
self.callrefs_mo_mt[callref_hex] = e
|
|
|
|
self.diagram.add_line(Arrow(e, MSC, '<>', '.', 'CC state:\\n%s' % to_state))
|
|
return True
|
|
|
|
def rule_log_mncc(self, m):
|
|
r'.*trans\(CC[^) ]* [^ )]+:([^:)]+) callref-([^ ]+) [^)]+\) (tx|rx) (MNCC_[^ ]*)$'
|
|
l3type, callref_hex, tx_rx, mncc_msg = m.groups()
|
|
|
|
if self.seen_udtrace_mncc:
|
|
# If no udtrace is present, take the MNCC logging.
|
|
# But if there is udtrace logging available, we should not duplicate those MNCC lines.
|
|
return True
|
|
|
|
tx = (tx_rx == 'tx')
|
|
|
|
try:
|
|
e = self.callrefs_mo_mt.get(callref_hex, MT)
|
|
except:
|
|
e = MT
|
|
|
|
self.diagram.add_line(Arrow(e, MSC, '>' if tx else '<', 'sip', mncc_msg))
|
|
return True
|
|
|
|
RE_MNCC_RTP = re.compile(' ip := ([^, ]+), rtp_port := ([0-9]+),')
|
|
RE_MNCC_CALLREF = re.compile(' callref := ([^ ,]+), ')
|
|
|
|
def rule_udtrace_mncc(self, m):
|
|
r'.*(write|recv).* (Tx|Rx): \{ msg_type := ([^ ]+) .* u := \{ (.*) \} \}$'
|
|
write_recv, tx_rx, msg_type, u = m.groups()
|
|
|
|
self.seen_udtrace_mncc = True
|
|
|
|
tx = (tx_rx == 'Tx')
|
|
|
|
callref_intstr = None
|
|
for m in Parse.RE_MNCC_CALLREF.finditer(u):
|
|
callref_intstr = m.group(1)
|
|
if not callref_intstr:
|
|
# log only MNCC that has a callref
|
|
return True
|
|
|
|
try:
|
|
e = self.callrefs_mo_mt.get(Callref.int_to_hex(callref_intstr), MT)
|
|
except:
|
|
e = MT
|
|
|
|
descr = msg_type
|
|
|
|
for m in Parse.RE_MNCC_RTP.finditer(u):
|
|
ip_str, port_str = m.groups()
|
|
try:
|
|
if int(ip_str) == 0 or int(port_str) == 0:
|
|
break
|
|
except:
|
|
break
|
|
ip_hex = int_to_hex(ip_str, 32)
|
|
ip = []
|
|
ip_val = int(ip_hex, 16)
|
|
for byte in range(4):
|
|
ip.insert(0, (ip_val & (0xff << (8*byte))) >> (8*byte))
|
|
rtp_info = '%s:%s' % ('.'.join(str(b) for b in ip), port_str)
|
|
rtp_info = self.mask_value('IP:port', rtp_info)
|
|
descr = '%s\\n%s' % (descr, rtp_info)
|
|
break
|
|
|
|
self.diagram.add_line(Arrow(e, MSC, '>' if tx else '<', 'sip', descr))
|
|
return True
|
|
|
|
def rule_cc_timer(self, m):
|
|
r'.*trans\(CC.*IMSI-([0-9]+):.*\) (starting|stopping pending) (guard timer|timer T[0-9]+)( with ([0-9]+) seconds|)'
|
|
imsi, start_stop, t, with_cond, s = m.groups()
|
|
start = (start_stop == 'starting')
|
|
e = MO_MT_UNKNOWN
|
|
if start:
|
|
self.diagram.add_line(Arrow(e, MSC, '[]', '.', 'CC starts %s (%ss)' % (t, s), imsi=imsi))
|
|
else:
|
|
self.diagram.add_line(Arrow(e, MSC, '[]', '.', 'CC stops %s' % (t), imsi=imsi))
|
|
return True
|
|
|
|
|
|
def translate(inf, outf, cmdline):
|
|
if cmdline.output_format == 'mscgen':
|
|
output = OutputMscgen(outf, cmdline.start_with_re)
|
|
else:
|
|
output = OutputLadder(outf, cmdline.start_with_re)
|
|
parse = Parse(output, cmdline.mask_values)
|
|
|
|
parse.start()
|
|
|
|
while inf.readable():
|
|
line = inf.readline()
|
|
if not line:
|
|
break;
|
|
parse.add_line(line)
|
|
parse.end()
|
|
|
|
def open_output(inf, cmdline):
|
|
if cmdline.output_file == '-':
|
|
translate(inf, sys.stdout, cmdline)
|
|
else:
|
|
with tempfile.NamedTemporaryFile(dir=os.path.dirname(cmdline.output_file), mode='w', encoding='utf-8') as tmp_out:
|
|
translate(inf, tmp_out, cmdline)
|
|
if os.path.exists(cmdline.output_file):
|
|
os.unlink(cmdline.output_file)
|
|
os.link(tmp_out.name, cmdline.output_file)
|
|
|
|
def open_input(cmdline):
|
|
if cmdline.input_file == '-':
|
|
open_output(sys.stdin, cmdline)
|
|
else:
|
|
with open(cmdline.input_file, 'r') as f:
|
|
open_output(f, cmdline)
|
|
|
|
def main(cmdline):
|
|
open_input(cmdline)
|
|
|
|
|
|
if __name__ == '__main__':
|
|
parser = argparse.ArgumentParser(description=doc)
|
|
parser.add_argument('-i', '--input-file', dest='input_file', default="-",
|
|
help='Read from this file, or stdin if "-"')
|
|
parser.add_argument('-o', '--output-file', dest='output_file', default="-",
|
|
help='Write to this file, or stdout if "-"')
|
|
parser.add_argument('-t', '--output-format', dest='output_format', default="mscgen",
|
|
choices=('mscgen','ladder'),
|
|
help='Pick output format: mscgen format or libosmocore/contrib/ladder_to_msc.py format')
|
|
parser.add_argument('-m', '--mask-values', dest='mask_values', action='store_true',
|
|
help='Do not output specific values like IP address, port, endpoint CI, instead just indicate that a value is'
|
|
' present. This makes the output reproducible across various logs.')
|
|
parser.add_argument('-s', '--start-with', dest='start_with_re', default=None,
|
|
help='Skip until the first message with this label (regex), e.g. -s "CC SETUP"')
|
|
|
|
cmdline = parser.parse_args()
|
|
|
|
main(cmdline)
|
|
|
|
# vim: shiftwidth=8 noexpandtab tabstop=8 autoindent nocindent
|