#!/usr/bin/env python3 # Copyright (C) 2019 The Android Open Source Project # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # This synthetic trace tests the clock-sync logic. It synthesizes a trace with # (i) builtin clocks, (ii) custom global clocks, (iii) sequence-scoped clocks. # It uses gpu counters because that is a quite simple packet and doesn't have # special treatement. We can't use ftrace because ftrace events use nested # per-event timestamps and they are assumed to be in the CLOCK_MONOTONIC # domains regardless of the TracePacket's timestamp_clock_id. from os import sys, path import synth_common from synth_common import CLONE_THREAD # Clock IDs in the range [64, 128) are sequence-scoped. See comments in # clock_snapshot.proto. CLOCK_MONOTONIC = 3 # Builtin clock, see clock_snapshot.proto. CLOCK_BOOTTIME = 6 # Builtin clock, see clock_snapshot.proto. GLOBAL_CLK1 = 128 GLOBAL_CLK2 = 129 SEQ_CLOCK1 = 64 trace = synth_common.create_trace() # See gpu_counter_descriptor.proto SECOND = 22 PIXEL = 26 # Add a counter descriptor for our test counter: trace.add_gpu_counter_spec( ts=1, counter_id=42, name="gpu_counter(42)", description="Number of fragments per second", unit_numerators=[PIXEL], unit_denominators=[SECOND]) # The default trace clock domain is CLOCK_BOOTTIME. trace.add_gpu_counter(ts=1, counter_id=42, value=3) # Emit a ClockSnapshot that sets BOOTTIME = MONOTONIC + 100. trace.add_clock_snapshot(clocks={CLOCK_MONOTONIC: 1, CLOCK_BOOTTIME: 101}) # Emit a counter synced against the global built-in clock CLOCK_MONOTONIC. # This should be translated, at import time, to BOOTTIME = 2 + 100 = 102. trace.add_gpu_counter(ts=2, clock_id=CLOCK_MONOTONIC, counter_id=42, value=5) # Use two global custom clocks. We sync them as follows: # BOOTTIME = GLOBAL_CLK1 + 1000 # GLOBAL_CLK1 = GLOBAL_CLK2 + 1 # Hence, recursively: # BOOTTIME = GLOBAL_CLK2 + 1000 + 1 trace.add_clock_snapshot(clocks={GLOBAL_CLK1: 1, CLOCK_BOOTTIME: 1001}) trace.add_clock_snapshot(clocks={GLOBAL_CLK1: 2, GLOBAL_CLK2: 1}) # This counter should be translated, at import time, to BOOTTIME = 3 + 1000 trace.add_gpu_counter(ts=3, clock_id=GLOBAL_CLK1, counter_id=42, value=7) # This one instead to BOOTTIME = 4 + 1000 + 1 = 1005 trace.add_gpu_counter(ts=4, clock_id=GLOBAL_CLK2, counter_id=42, value=9) # Use a sequence-scoped clock on two differents sequences. # On seq 2, BOOTTIME = SEQ_CLOCK1 + 2000 # On seq 3, BOOTTIME = SEQ_CLOCK1 + 3000 trace.add_clock_snapshot(seq_id=2, clocks={SEQ_CLOCK1: 1, CLOCK_BOOTTIME: 2001}) trace.add_clock_snapshot(seq_id=3, clocks={SEQ_CLOCK1: 1, CLOCK_BOOTTIME: 3001}) # This counter should be translated @ BOOTTIME : 3000 + 7 trace.add_gpu_counter( ts=7, clock_id=SEQ_CLOCK1, counter_id=42, value=14, seq_id=3) # This counter should be translated @ BOOTTIME : 2000 + 6 trace.add_gpu_counter( ts=6, clock_id=SEQ_CLOCK1, seq_id=2, counter_id=42, value=11) # Set default clock for sequence 2. defaults_packet = trace.add_packet() defaults_packet.trusted_packet_sequence_id = 2 defaults_packet.trace_packet_defaults.timestamp_clock_id = SEQ_CLOCK1 # This counter should be translated @ BOOTTIME : 2000 + 10 trace.add_gpu_counter(ts=10, seq_id=2, counter_id=42, value=12) # Manually specified clock_id overrides the default clock. trace.add_gpu_counter( ts=2013, clock_id=CLOCK_BOOTTIME, seq_id=2, counter_id=42, value=13) # Other sequence's default clock isn't changed, so this should be in BOOTTIME. trace.add_gpu_counter(ts=3010, counter_id=42, value=15, seq_id=3) sys.stdout.buffer.write(trace.trace.SerializeToString())