#!/usr/bin/env python3 # -*- coding: utf-8 -*- # # Dump the contents of a recorded execution stream # # Copyright (c) 2017 Alex Bennée # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, see . from __future__ import print_function import argparse import struct from collections import namedtuple # This mirrors some of the global replay state which some of the # stream loading refers to. Some decoders may read the next event so # we need handle that case. Calling reuse_event will ensure the next # event is read from the cache rather than advancing the file. class ReplayState(object): def __init__(self): self.event = -1 self.event_count = 0 self.already_read = False self.current_checkpoint = 0 self.checkpoint = 0 def set_event(self, ev): self.event = ev self.event_count += 1 def get_event(self): self.already_read = False return self.event def reuse_event(self, ev): self.event = ev self.already_read = True def set_checkpoint(self): self.checkpoint = self.event - self.checkpoint_start def get_checkpoint(self): return self.checkpoint replay_state = ReplayState() # Simple read functions that mirror replay-internal.c # The file-stream is big-endian and manually written out a byte at a time. def read_byte(fin): "Read a single byte" return struct.unpack('>B', fin.read(1))[0] def read_event(fin): "Read a single byte event, but save some state" if replay_state.already_read: return replay_state.get_event() else: replay_state.set_event(read_byte(fin)) return replay_state.event def read_word(fin): "Read a 16 bit word" return struct.unpack('>H', fin.read(2))[0] def read_dword(fin): "Read a 32 bit word" return struct.unpack('>I', fin.read(4))[0] def read_qword(fin): "Read a 64 bit word" return struct.unpack('>Q', fin.read(8))[0] # Generic decoder structure Decoder = namedtuple("Decoder", "eid name fn") def call_decode(table, index, dumpfile): "Search decode table for next step" decoder = next((d for d in table if d.eid == index), None) if not decoder: print("Could not decode index: %d" % (index)) print("Entry is: %s" % (decoder)) print("Decode Table is:\n%s" % (table)) return False else: return decoder.fn(decoder.eid, decoder.name, dumpfile) # Print event def print_event(eid, name, string=None, event_count=None): "Print event with count" if not event_count: event_count = replay_state.event_count if string: print("%d:%s(%d) %s" % (event_count, name, eid, string)) else: print("%d:%s(%d)" % (event_count, name, eid)) # Decoders for each event type def decode_unimp(eid, name, _unused_dumpfile): "Unimplimented decoder, will trigger exit" print("%s not handled - will now stop" % (name)) return False # Checkpoint decoder def swallow_async_qword(eid, name, dumpfile): "Swallow a qword of data without looking at it" step_id = read_qword(dumpfile) print(" %s(%d) @ %d" % (name, eid, step_id)) return True async_decode_table = [ Decoder(0, "REPLAY_ASYNC_EVENT_BH", swallow_async_qword), Decoder(1, "REPLAY_ASYNC_INPUT", decode_unimp), Decoder(2, "REPLAY_ASYNC_INPUT_SYNC", decode_unimp), Decoder(3, "REPLAY_ASYNC_CHAR_READ", decode_unimp), Decoder(4, "REPLAY_ASYNC_EVENT_BLOCK", decode_unimp), Decoder(5, "REPLAY_ASYNC_EVENT_NET", decode_unimp), ] # See replay_read_events/replay_read_event def decode_async(eid, name, dumpfile): """Decode an ASYNC event""" print_event(eid, name) async_event_kind = read_byte(dumpfile) async_event_checkpoint = read_byte(dumpfile) if async_event_checkpoint != replay_state.current_checkpoint: print(" mismatch between checkpoint %d and async data %d" % ( replay_state.current_checkpoint, async_event_checkpoint)) return True return call_decode(async_decode_table, async_event_kind, dumpfile) def decode_instruction(eid, name, dumpfile): ins_diff = read_dword(dumpfile) print_event(eid, name, "0x%x" % (ins_diff)) return True def decode_audio_out(eid, name, dumpfile): audio_data = read_dword(dumpfile) print_event(eid, name, "%d" % (audio_data)) return True def decode_checkpoint(eid, name, dumpfile): """Decode a checkpoint. Checkpoints contain a series of async events with their own specific data. """ replay_state.set_checkpoint() # save event count as we peek ahead event_number = replay_state.event_count next_event = read_event(dumpfile) # if the next event is EVENT_ASYNC there are a bunch of # async events to read, otherwise we are done if next_event != 3: print_event(eid, name, "no additional data", event_number) else: print_event(eid, name, "more data follows", event_number) replay_state.reuse_event(next_event) return True def decode_checkpoint_init(eid, name, dumpfile): print_event(eid, name) return True def decode_interrupt(eid, name, dumpfile): print_event(eid, name) return True def decode_clock(eid, name, dumpfile): clock_data = read_qword(dumpfile) print_event(eid, name, "0x%x" % (clock_data)) return True # pre-MTTCG merge v5_event_table = [Decoder(0, "EVENT_INSTRUCTION", decode_instruction), Decoder(1, "EVENT_INTERRUPT", decode_interrupt), Decoder(2, "EVENT_EXCEPTION", decode_unimp), Decoder(3, "EVENT_ASYNC", decode_async), Decoder(4, "EVENT_SHUTDOWN", decode_unimp), Decoder(5, "EVENT_CHAR_WRITE", decode_unimp), Decoder(6, "EVENT_CHAR_READ_ALL", decode_unimp), Decoder(7, "EVENT_CHAR_READ_ALL_ERROR", decode_unimp), Decoder(8, "EVENT_CLOCK_HOST", decode_clock), Decoder(9, "EVENT_CLOCK_VIRTUAL_RT", decode_clock), Decoder(10, "EVENT_CP_CLOCK_WARP_START", decode_checkpoint), Decoder(11, "EVENT_CP_CLOCK_WARP_ACCOUNT", decode_checkpoint), Decoder(12, "EVENT_CP_RESET_REQUESTED", decode_checkpoint), Decoder(13, "EVENT_CP_SUSPEND_REQUESTED", decode_checkpoint), Decoder(14, "EVENT_CP_CLOCK_VIRTUAL", decode_checkpoint), Decoder(15, "EVENT_CP_CLOCK_HOST", decode_checkpoint), Decoder(16, "EVENT_CP_CLOCK_VIRTUAL_RT", decode_checkpoint), Decoder(17, "EVENT_CP_INIT", decode_checkpoint_init), Decoder(18, "EVENT_CP_RESET", decode_checkpoint), ] # post-MTTCG merge, AUDIO support added v6_event_table = [Decoder(0, "EVENT_INSTRUCTION", decode_instruction), Decoder(1, "EVENT_INTERRUPT", decode_interrupt), Decoder(2, "EVENT_EXCEPTION", decode_unimp), Decoder(3, "EVENT_ASYNC", decode_async), Decoder(4, "EVENT_SHUTDOWN", decode_unimp), Decoder(5, "EVENT_CHAR_WRITE", decode_unimp), Decoder(6, "EVENT_CHAR_READ_ALL", decode_unimp), Decoder(7, "EVENT_CHAR_READ_ALL_ERROR", decode_unimp), Decoder(8, "EVENT_AUDIO_OUT", decode_audio_out), Decoder(9, "EVENT_AUDIO_IN", decode_unimp), Decoder(10, "EVENT_CLOCK_HOST", decode_clock), Decoder(11, "EVENT_CLOCK_VIRTUAL_RT", decode_clock), Decoder(12, "EVENT_CP_CLOCK_WARP_START", decode_checkpoint), Decoder(13, "EVENT_CP_CLOCK_WARP_ACCOUNT", decode_checkpoint), Decoder(14, "EVENT_CP_RESET_REQUESTED", decode_checkpoint), Decoder(15, "EVENT_CP_SUSPEND_REQUESTED", decode_checkpoint), Decoder(16, "EVENT_CP_CLOCK_VIRTUAL", decode_checkpoint), Decoder(17, "EVENT_CP_CLOCK_HOST", decode_checkpoint), Decoder(18, "EVENT_CP_CLOCK_VIRTUAL_RT", decode_checkpoint), Decoder(19, "EVENT_CP_INIT", decode_checkpoint_init), Decoder(20, "EVENT_CP_RESET", decode_checkpoint), ] # Shutdown cause added v7_event_table = [Decoder(0, "EVENT_INSTRUCTION", decode_instruction), Decoder(1, "EVENT_INTERRUPT", decode_interrupt), Decoder(2, "EVENT_EXCEPTION", decode_unimp), Decoder(3, "EVENT_ASYNC", decode_async), Decoder(4, "EVENT_SHUTDOWN", decode_unimp), Decoder(5, "EVENT_SHUTDOWN_HOST_ERR", decode_unimp), Decoder(6, "EVENT_SHUTDOWN_HOST_QMP", decode_unimp), Decoder(7, "EVENT_SHUTDOWN_HOST_SIGNAL", decode_unimp), Decoder(8, "EVENT_SHUTDOWN_HOST_UI", decode_unimp), Decoder(9, "EVENT_SHUTDOWN_GUEST_SHUTDOWN", decode_unimp), Decoder(10, "EVENT_SHUTDOWN_GUEST_RESET", decode_unimp), Decoder(11, "EVENT_SHUTDOWN_GUEST_PANIC", decode_unimp), Decoder(12, "EVENT_SHUTDOWN___MAX", decode_unimp), Decoder(13, "EVENT_CHAR_WRITE", decode_unimp), Decoder(14, "EVENT_CHAR_READ_ALL", decode_unimp), Decoder(15, "EVENT_CHAR_READ_ALL_ERROR", decode_unimp), Decoder(16, "EVENT_AUDIO_OUT", decode_audio_out), Decoder(17, "EVENT_AUDIO_IN", decode_unimp), Decoder(18, "EVENT_CLOCK_HOST", decode_clock), Decoder(19, "EVENT_CLOCK_VIRTUAL_RT", decode_clock), Decoder(20, "EVENT_CP_CLOCK_WARP_START", decode_checkpoint), Decoder(21, "EVENT_CP_CLOCK_WARP_ACCOUNT", decode_checkpoint), Decoder(22, "EVENT_CP_RESET_REQUESTED", decode_checkpoint), Decoder(23, "EVENT_CP_SUSPEND_REQUESTED", decode_checkpoint), Decoder(24, "EVENT_CP_CLOCK_VIRTUAL", decode_checkpoint), Decoder(25, "EVENT_CP_CLOCK_HOST", decode_checkpoint), Decoder(26, "EVENT_CP_CLOCK_VIRTUAL_RT", decode_checkpoint), Decoder(27, "EVENT_CP_INIT", decode_checkpoint_init), Decoder(28, "EVENT_CP_RESET", decode_checkpoint), ] def parse_arguments(): "Grab arguments for script" parser = argparse.ArgumentParser() parser.add_argument("-f", "--file", help='record/replay dump to read from', required=True) return parser.parse_args() def decode_file(filename): "Decode a record/replay dump" dumpfile = open(filename, "rb") # read and throwaway the header version = read_dword(dumpfile) junk = read_qword(dumpfile) print("HEADER: version 0x%x" % (version)) if version == 0xe02007: event_decode_table = v7_event_table replay_state.checkpoint_start = 12 elif version == 0xe02006: event_decode_table = v6_event_table replay_state.checkpoint_start = 12 else: event_decode_table = v5_event_table replay_state.checkpoint_start = 10 try: decode_ok = True while decode_ok: event = read_event(dumpfile) decode_ok = call_decode(event_decode_table, event, dumpfile) finally: dumpfile.close() if __name__ == "__main__": args = parse_arguments() decode_file(args.file)