""" Harnesses for various types of benchmark logs. tbd """ import subprocess import re # TODO prepare benchmark log JSON with parameters etc. # Should be independent of PTA class, as benchmarks may also be # generated otherwise and it should also work with AnalyticModel (which does # not have states) class TransitionHarness: def __init__(self, gpio_pin = None, pta = None): self.gpio_pin = gpio_pin self.pta = pta self.reset() def reset(self): self.traces = [] self.trace_id = 1 self.synced = False def start_benchmark(self): pass def global_code(self): ret = '' if self.gpio_pin != None: ret += '#define PTALOG_GPIO {}\n'.format(self.gpio_pin) ret += '#include "object/ptalog.h"\n' if self.gpio_pin != None: ret += 'PTALog ptalog({});\n'.format(self.gpio_pin) else: ret += 'PTALog ptalog;\n' return ret def start_benchmark(self, benchmark_id = 0): return 'ptalog.startBenchmark({:d});\n'.format(benchmark_id) def start_trace(self): self.traces.append({ 'id' : self.trace_id, 'trace' : list(), }) self.trace_id += 1 def append_state(self, state_name, param): self.traces[-1]['trace'].append({ 'name': state_name, 'isa': 'state', 'parameter': param, }) def append_transition(self, transition_name, param, args = []): self.traces[-1]['trace'].append({ 'name': transition_name, 'isa': 'transition', 'parameter': param, 'args' : args, }) def start_run(self): return 'ptalog.reset();\n' def pass_transition(self, transition_id, transition_code, transition: object = None): ret = 'ptalog.passTransition({:d});\n'.format(transition_id) ret += 'ptalog.startTransition();\n' ret += '{}\n'.format(transition_code) ret += 'ptalog.stopTransition();\n' return ret def stop_run(self, num_traces = 0): return 'ptalog.dump({:d});\n'.format(num_traces) def stop_benchmark(self): return '' def parser_cb(self, line): pass def parse_log(self, lines): sync = False for line in lines: print(line) res = re.fullmatch(r'\[PTA\] (.*=.*)', line) if re.fullmatch(r'\[PTA\] benchmark start, id=(.*)', line): print('> got sync') sync = True elif not sync: continue elif re.fullmatch(r'\[PTA\] trace, count=(.*)', line): print('> got transition') pass elif res: print(dict(map(lambda x: x.split('='), res.group(1).split()))) pass class OnboardTimerHarness(TransitionHarness): def __init__(self, counter_limits, **kwargs): super().__init__(**kwargs) self.trace_id = 0 self.trace_length = 0 self.one_cycle_in_us, self.one_overflow_in_us, self.counter_max_overflow = counter_limits def global_code(self): ret = '#include "driver/counter.h"\n' ret += '#define PTALOG_TIMING\n' ret += super().global_code() return ret def start_benchmark(self, benchmark_id = 0): ret = 'counter.start();\n' ret += 'counter.stop();\n' ret += 'ptalog.passNop(counter);\n' ret += super().start_benchmark(benchmark_id) return ret def pass_transition(self, transition_id, transition_code, transition: object = None): ret = 'ptalog.passTransition({:d});\n'.format(transition_id) ret += 'ptalog.startTransition();\n' ret += 'counter.start();\n' ret += '{}\n'.format(transition_code) ret += 'counter.stop();\n' ret += 'ptalog.stopTransition(counter);\n' return ret def parser_cb(self, line): #print('[HARNESS] got line {}'.format(line)) if re.match(r'\[PTA\] benchmark start, id=(.*)', line): self.synced = True print('[HARNESS] synced') if self.synced: res = re.match(r'\[PTA\] trace=(.*) count=(.*)', line) if res: self.trace_id = int(res.group(1)) self.trace_length = int(res.group(2)) self.current_transition_in_trace = 0 #print('[HARNESS] trace {:d} contains {:d} transitions. Expecting {:d} transitions.'.format(self.trace_id, self.trace_length, len(self.traces[self.trace_id]['trace']) // 2)) res = re.match(r'\[PTA\] transition=(.*) cycles=(.*)/(.*)', line) if res: transition_id = int(res.group(1)) # TODO Handle Overflows (requires knowledge of arch-specific max cycle value) cycles = int(res.group(2)) overflow = int(res.group(3)) if overflow >= self.counter_max_overflow: raise RuntimeError('Counter overflow ({:d}/{:d}) in benchmark id={:d} trace={:d}: transition #{:d} (ID {:d})'.format(cycles, overflow, 0, self.trace_id, self.current_transition_in_trace, transition_id)) duration_us = cycles * self.one_cycle_in_us + overflow * self.one_overflow_in_us # self.traces contains transitions and states, UART output only contains trnasitions -> use index * 2 try: log_data_target = self.traces[self.trace_id]['trace'][self.current_transition_in_trace * 2] except IndexError: transition_name = None if self.pta: transition_name = self.pta.transitions[transition_id].name print('[HARNESS] benchmark id={:d} trace={:d}: transition #{:d} (ID {:d}, name {}) is out of bounds'.format(0, self.trace_id, self.current_transition_in_trace, transition_id, transition_name)) print(' Offending line: {}'.format(line)) return if log_data_target['isa'] != 'transition': raise RuntimeError('Log mismatch: Expected transition, got {:s}'.format(log_data_target['isa'])) if self.pta: transition = self.pta.transitions[transition_id] if transition.name != log_data_target['name']: raise RuntimeError('Log mismatch: Expected transition {:s}, got transition {:s}'.format(log_data_target['name'], transition.name)) #print('[HARNESS] Logging data for transition {}'.format(log_data_target['name'])) if 'offline_aggregates' not in log_data_target: log_data_target['offline_aggregates'] = { 'duration' : list() } log_data_target['offline_aggregates']['duration'].append(duration_us) self.current_transition_in_trace += 1