blob: c0355c340424455f602ea4a2915a6af42775ac5c [file] [log] [blame] [edit]
#!/usr/bin/env python3
# Copyright (C) 2018 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.
import argparse
from collections import namedtuple
from google.protobuf import descriptor_pb2, message_factory, descriptor_pool
CLONE_THREAD = 0x00010000
CLONE_VFORK = 0x00004000
CLONE_VM = 0x00000100
# For compatibility with older pb module versions.
def get_message_class(pool, msg):
if hasattr(message_factory, "GetMessageClass"):
return message_factory.GetMessageClass(msg)
else:
return message_factory.MessageFactory(pool).GetPrototype(msg)
def ms_to_ns(time_in_ms):
return int(time_in_ms * 1000000)
def s_to_ns(time_in_s):
return int(time_in_s * 1000000000)
class Trace(object):
def __init__(self, trace, prototypes):
self.trace = trace
self.prototypes = prototypes
self.proc_map = {}
self.proc_map[0] = 'idle_thread'
def add_system_info(self, arch="", fingerprint=""):
self.packet = self.trace.packet.add()
self.packet.system_info.utsname.machine = arch
self.packet.system_info.android_build_fingerprint = fingerprint
def add_ftrace_packet(self, cpu):
self.packet = self.trace.packet.add()
self.packet.ftrace_events.cpu = cpu
def add_packet(self, ts=None):
self.packet = self.trace.packet.add()
if ts is not None:
self.packet.timestamp = ts
return self.packet
def __add_ftrace_event(self, ts, tid):
ftrace = self.packet.ftrace_events.event.add()
ftrace.timestamp = ts
ftrace.pid = tid
return ftrace
def add_rss_stat(self, ts, tid, member, size, mm_id=None, curr=None):
ftrace = self.__add_ftrace_event(ts, tid)
rss_stat = ftrace.rss_stat
rss_stat.member = member
rss_stat.size = size
if mm_id is not None:
rss_stat.mm_id = mm_id
if curr is not None:
rss_stat.curr = curr
def add_ion_event(self, ts, tid, heap_name, len, size=0):
ftrace = self.__add_ftrace_event(ts, tid)
ion = ftrace.ion_heap_grow
ion.heap_name = heap_name
ion.len = len
ion.total_allocated = size
def add_oom_score_update(self, ts, oom_score_adj, pid):
ftrace = self.__add_ftrace_event(ts, pid)
oom_score = ftrace.oom_score_adj_update
oom_score.comm = self.proc_map[pid]
oom_score.oom_score_adj = oom_score_adj
oom_score.pid = pid
def add_sched(self,
ts,
prev_pid,
next_pid,
prev_comm=None,
next_comm=None,
prev_state=None):
ftrace = self.__add_ftrace_event(ts, 0)
ss = ftrace.sched_switch
ss.prev_comm = prev_comm or self.proc_map[prev_pid]
ss.prev_pid = prev_pid
ss.next_pid = next_pid
ss.next_comm = next_comm or self.proc_map[next_pid]
if prev_state:
if prev_state == 'R':
ss.prev_state = 0
elif prev_state == 'S':
ss.prev_state = 1
elif prev_state == 'U' or prev_state == 'D':
ss.prev_state = 2
else:
raise Exception('Invalid prev state {}'.format(prev_state))
def add_cpufreq(self, ts, freq, cpu):
ftrace = self.__add_ftrace_event(ts, 0)
cpufreq = ftrace.cpu_frequency
cpufreq.state = freq
cpufreq.cpu_id = cpu
def add_kernel_lmk(self, ts, tid):
ftrace = self.__add_ftrace_event(ts, tid)
lowmemory_kill = ftrace.lowmemory_kill
lowmemory_kill.pid = tid
def add_sys_enter(self, ts, tid, id):
ftrace = self.__add_ftrace_event(ts, tid)
sys_enter = ftrace.sys_enter
sys_enter.id = id
def add_sys_exit(self, ts, tid, id, ret):
ftrace = self.__add_ftrace_event(ts, tid)
sys_exit = ftrace.sys_exit
sys_exit.id = id
sys_exit.ret = ret
def add_newtask(self, ts, tid, new_tid, new_comm, flags):
ftrace = self.__add_ftrace_event(ts, tid)
newtask = ftrace.task_newtask
newtask.pid = new_tid
newtask.comm = new_comm
newtask.clone_flags = flags
def add_process_free(self, ts, tid, comm, prio):
ftrace = self.__add_ftrace_event(ts, tid)
sched_process_free = ftrace.sched_process_free
sched_process_free.pid = tid
sched_process_free.comm = comm
sched_process_free.prio = prio
def add_rename(self, ts, tid, old_comm, new_comm, oom_score_adj):
ftrace = self.__add_ftrace_event(ts, tid)
task_rename = ftrace.task_rename
task_rename.pid = tid
task_rename.oldcomm = old_comm
task_rename.newcomm = new_comm
task_rename.oom_score_adj = oom_score_adj
def add_print(self, ts, tid, buf):
ftrace = self.__add_ftrace_event(ts, tid)
print_event = getattr(ftrace, 'print')
print_event.buf = buf
def add_kmalloc(self, ts, tid, bytes_alloc, bytes_req, call_site, gfp_flags,
ptr):
ftrace = self.__add_ftrace_event(ts, tid)
kmalloc = ftrace.kmalloc
kmalloc.bytes_alloc = bytes_alloc
kmalloc.bytes_req = bytes_req
kmalloc.call_site = call_site
kmalloc.gfp_flags = gfp_flags
kmalloc.ptr = ptr
def add_kfree(self, ts, tid, call_site, ptr):
ftrace = self.__add_ftrace_event(ts, tid)
kfree = ftrace.kfree
kfree.call_site = call_site
kfree.ptr = ptr
def add_atrace_counter(self, ts, pid, tid, buf, cnt):
self.add_print(ts, tid, 'C|{}|{}|{}'.format(pid, buf, cnt))
def add_atrace_begin(self, ts, tid, pid, buf):
self.add_print(ts, tid, 'B|{}|{}'.format(pid, buf))
def add_atrace_end(self, ts, tid, pid):
self.add_print(ts, tid, 'E|{}'.format(pid))
def add_atrace_async_begin(self, ts, tid, pid, buf):
self.add_print(ts, tid, 'S|{}|{}|0'.format(pid, buf))
def add_atrace_async_end(self, ts, tid, pid, buf):
self.add_print(ts, tid, 'F|{}|{}|0'.format(pid, buf))
def add_atrace_instant(self, ts, tid, pid, buf):
self.add_print(ts, tid, 'I|{}|{}'.format(pid, buf))
def add_process(self, pid, ppid, cmdline, uid=None):
process = self.packet.process_tree.processes.add()
process.pid = pid
process.ppid = ppid
process.cmdline.append(cmdline)
if uid is not None:
process.uid = uid
self.proc_map[pid] = cmdline
def add_thread(self, tid, tgid, cmdline, name=None):
thread = self.packet.process_tree.threads.add()
thread.tid = tid
thread.tgid = tgid
if name is not None:
thread.name = name
self.proc_map[tid] = cmdline
def add_battery_counters(self, ts, charge_uah, cap_prct, curr_ua, curr_avg_ua,
voltage_uv):
self.packet = self.trace.packet.add()
self.packet.timestamp = ts
battery_count = self.packet.battery
battery_count.charge_counter_uah = charge_uah
battery_count.capacity_percent = cap_prct
battery_count.current_ua = curr_ua
battery_count.current_avg_ua = curr_avg_ua
battery_count.voltage_uv = voltage_uv
def add_binder_transaction(self, transaction_id, ts_start, ts_end, tid, pid,
reply_id, reply_ts_start, reply_ts_end, reply_tid,
reply_pid):
# Binder transaction start.
ftrace = self.__add_ftrace_event(ts_start, tid)
binder_transaction = ftrace.binder_transaction
binder_transaction.debug_id = transaction_id
binder_transaction.to_proc = reply_pid
binder_transaction.to_thread = reply_tid
binder_transaction.reply = False
# Binder reply start
ftrace = self.__add_ftrace_event(reply_ts_start, reply_tid)
binder_transaction_received = ftrace.binder_transaction_received
binder_transaction_received.debug_id = transaction_id
# Binder reply finish
ftrace = self.__add_ftrace_event(reply_ts_end, reply_tid)
reply_binder_transaction = ftrace.binder_transaction
reply_binder_transaction.debug_id = reply_id
reply_binder_transaction.to_proc = pid
reply_binder_transaction.to_thread = tid
reply_binder_transaction.reply = True
# Binder transaction finish
ftrace = self.__add_ftrace_event(ts_end, tid)
reply_binder_transaction_received = ftrace.binder_transaction_received
reply_binder_transaction_received.debug_id = reply_id
def add_battery_counters_no_curr_ua(self, ts, charge_uah, cap_prct,
curr_avg_ua, voltage_uv):
self.packet = self.trace.packet.add()
self.packet.timestamp = ts
battery_count = self.packet.battery
battery_count.charge_counter_uah = charge_uah
battery_count.capacity_percent = cap_prct
battery_count.current_avg_ua = curr_avg_ua
battery_count.voltage_uv = voltage_uv
def add_power_rails_desc(self, index_val, name):
power_rails = self.packet.power_rails
descriptor = power_rails.rail_descriptor.add()
descriptor.index = index_val
descriptor.rail_name = name
def add_power_rails_data(self, ts, index_val, value):
power_rails = self.packet.power_rails
energy_data = power_rails.energy_data.add()
energy_data.index = index_val
energy_data.timestamp_ms = ts
energy_data.energy = value
def add_package_list(self, ts, name, uid, version_code):
packet = self.add_packet()
packet.timestamp = ts
plist = packet.packages_list
pinfo = plist.packages.add()
pinfo.name = name
pinfo.uid = uid
pinfo.version_code = version_code
def add_debuggable_package_list(self, ts, name, uid, version_code):
packet = self.add_packet()
packet.timestamp = ts
plist = packet.packages_list
pinfo = plist.packages.add()
pinfo.name = name
pinfo.uid = uid
pinfo.version_code = version_code
pinfo.debuggable = True
def add_profile_packet(self, ts):
packet = self.add_packet()
packet.timestamp = ts
return packet.profile_packet
def add_clock_snapshot(self, clocks, seq_id=None):
packet = self.add_packet()
if seq_id is not None:
packet.trusted_packet_sequence_id = seq_id
snap = self.packet.clock_snapshot
for k, v in clocks.items():
clock = snap.clocks.add()
clock.clock_id = k
clock.timestamp = v
def add_gpu_counter_spec(self,
ts,
counter_id,
name,
description=None,
unit_numerators=[],
unit_denominators=[]):
packet = self.add_packet()
packet.timestamp = ts
gpu_counters = packet.gpu_counter_event
counter_desc = gpu_counters.counter_descriptor
spec = counter_desc.specs.add()
spec.counter_id = counter_id
spec.name = name
if description is not None:
spec.description = description
spec.numerator_units.extend(unit_numerators)
spec.denominator_units.extend(unit_denominators)
def add_gpu_counter(self, ts, counter_id, value, clock_id=None, seq_id=None):
packet = self.add_packet()
packet.timestamp = ts
if clock_id is not None:
packet.timestamp_clock_id = clock_id
if seq_id is not None:
packet.trusted_packet_sequence_id = seq_id
gpu_counters = self.packet.gpu_counter_event
gpu_counter = gpu_counters.counters.add()
gpu_counter.counter_id = counter_id
gpu_counter.int_value = value
def add_gpu_render_stages_hw_queue_spec(self, specs=[]):
packet = self.add_packet()
spec = self.packet.gpu_render_stage_event.specifications
for s in specs:
hw_queue = spec.hw_queue.add()
hw_queue.name = s.get('name', '')
if 'description' in s:
hw_queue.description = s['description']
def add_gpu_render_stages_stage_spec(self, specs=[]):
packet = self.add_packet()
spec = self.packet.gpu_render_stage_event.specifications
for s in specs:
stage = spec.stage.add()
stage.name = s.get('name', '')
if 'description' in s:
stage.description = s['description']
def add_gpu_render_stages(self,
ts,
event_id,
duration,
hw_queue_id,
stage_id,
context,
render_target_handle=None,
render_pass_handle=None,
render_subpass_index_mask=None,
command_buffer_handle=None,
submission_id=None,
extra_data={}):
packet = self.add_packet()
packet.timestamp = ts
render_stage = self.packet.gpu_render_stage_event
render_stage.event_id = event_id
render_stage.duration = duration
render_stage.hw_queue_id = hw_queue_id
render_stage.stage_id = stage_id
render_stage.context = context
if render_target_handle is not None:
render_stage.render_target_handle = render_target_handle
if render_pass_handle is not None:
render_stage.render_pass_handle = render_pass_handle
if render_subpass_index_mask is not None:
for mask in render_subpass_index_mask:
render_stage.render_subpass_index_mask.append(mask)
if command_buffer_handle is not None:
render_stage.command_buffer_handle = command_buffer_handle
if submission_id is not None:
render_stage.submission_id = submission_id
for key, value in extra_data.items():
data = render_stage.extra_data.add()
data.name = key
if value is not None:
data.value = value
def add_vk_debug_marker(self, ts, pid, vk_device, obj_type, obj, obj_name):
packet = self.add_packet()
packet.timestamp = ts
debug_marker = (self.packet.vulkan_api_event.vk_debug_utils_object_name)
debug_marker.pid = pid
debug_marker.vk_device = vk_device
debug_marker.object_type = obj_type
debug_marker.object = obj
debug_marker.object_name = obj_name
def add_vk_queue_submit(self, ts, dur, pid, tid, vk_queue, vk_command_buffers,
submission_id):
packet = self.add_packet()
packet.timestamp = ts
submit = (self.packet.vulkan_api_event.vk_queue_submit)
submit.duration_ns = dur
submit.pid = pid
submit.tid = tid
for cmd in vk_command_buffers:
submit.vk_command_buffers.append(cmd)
submit.submission_id = submission_id
def add_gpu_log(self, ts, severity, tag, message):
packet = self.add_packet()
packet.timestamp = ts
gpu_log = self.packet.gpu_log
gpu_log.severity = severity
gpu_log.tag = tag
gpu_log.log_message = message
def add_buffer_event_packet(self, ts, buffer_id, layer_name, frame_number,
event_type, duration):
packet = self.add_packet()
packet.timestamp = ts
buffer_event = packet.graphics_frame_event.buffer_event
if buffer_id >= 0:
buffer_event.buffer_id = buffer_id
buffer_event.layer_name = layer_name
buffer_event.frame_number = frame_number
if event_type >= 0:
buffer_event.type = event_type
buffer_event.duration_ns = duration
def add_cpu(self, freqs):
cpu = self.packet.cpu_info.cpus.add()
for freq in freqs:
cpu.frequencies.append(freq)
def add_process_stats(self, pid, freqs):
process = self.packet.process_stats.processes.add()
process.pid = pid
thread = process.threads.add()
thread.tid = pid * 10
for index in freqs:
thread.cpu_freq_indices.append(index)
thread.cpu_freq_ticks.append(freqs[index])
def add_gpu_mem_total_ftrace_event(self, ftrace_pid, pid, ts, size):
ftrace = self.__add_ftrace_event(ts, ftrace_pid)
gpu_mem_total_ftrace_event = ftrace.gpu_mem_total
gpu_mem_total_ftrace_event.pid = pid
gpu_mem_total_ftrace_event.size = size
def add_gpu_mem_total_event(self, pid, ts, size):
packet = self.add_packet()
packet.timestamp = ts
gpu_mem_total_event = packet.gpu_mem_total_event
gpu_mem_total_event.pid = pid
gpu_mem_total_event.size = size
def add_sched_blocked_reason(self, ts, pid, io_wait, unblock_pid):
ftrace = self.__add_ftrace_event(ts, unblock_pid)
sched_blocked_reason = ftrace.sched_blocked_reason
sched_blocked_reason.pid = pid
sched_blocked_reason.io_wait = io_wait
def add_track_event(self,
name=None,
ts=None,
track=None,
trusted_sequence_id=0,
cpu_time=None):
packet = self.add_packet(ts=ts)
if name is not None:
packet.track_event.name = name
if track is not None:
packet.track_event.track_uuid = track
packet.trusted_packet_sequence_id = trusted_sequence_id
if cpu_time is not None:
packet.track_event.extra_counter_values.append(cpu_time)
return packet
def add_track_descriptor(self, uuid, parent=None):
packet = self.add_packet()
track_descriptor = packet.track_descriptor
if uuid is not None:
track_descriptor.uuid = uuid
if parent is not None:
track_descriptor.parent_uuid = parent
return packet
def add_process_track_descriptor(self,
process_track,
pid=None,
process_name=None):
packet = self.add_track_descriptor(process_track)
if pid is not None:
packet.track_descriptor.process.pid = pid
if process_name is not None:
packet.track_descriptor.process.process_name = process_name
return packet
def add_chrome_process_track_descriptor(
self,
process_track,
pid=None,
process_type=None,
host_app_package_name="org.chromium.chrome"):
if process_type is None:
process_type = self.prototypes.ChromeProcessDescriptor \
.ProcessType \
.PROCESS_RENDERER
packet = self.add_process_track_descriptor(process_track, pid=pid)
chrome_process = packet.track_descriptor.chrome_process
chrome_process.process_type = process_type
chrome_process.host_app_package_name = host_app_package_name
return packet
def add_thread_track_descriptor(self,
process_track,
thread_track,
trusted_packet_sequence_id=None,
pid=None,
tid=None,
thread_name=None):
packet = self.add_track_descriptor(thread_track, parent=process_track)
if trusted_packet_sequence_id is not None:
packet.trusted_packet_sequence_id = trusted_packet_sequence_id
if pid is not None:
packet.track_descriptor.thread.pid = pid
if tid is not None:
packet.track_descriptor.thread.tid = tid
if thread_name is not None:
packet.track_descriptor.thread.thread_name = thread_name
return packet
def add_chrome_thread_track_descriptor(self,
process_track,
thread_track,
trusted_packet_sequence_id=None,
pid=None,
tid=None,
thread_type=None):
if thread_type is None:
thread_type = self.prototypes.ThreadDescriptor \
.ChromeThreadType \
.CHROME_THREAD_TYPE_UNSPECIFIED
packet = self.add_thread_track_descriptor(
process_track,
thread_track,
trusted_packet_sequence_id=trusted_packet_sequence_id,
pid=pid,
tid=tid)
packet.track_descriptor.thread.chrome_thread_type = thread_type
return packet
def add_trace_packet_defaults(self,
trusted_packet_sequence_id=None,
thread_track=None,
counter_track=None):
packet = self.add_track_descriptor(None)
packet.trusted_packet_sequence_id = trusted_packet_sequence_id
track_event_defaults = packet.trace_packet_defaults.track_event_defaults
track_event_defaults.track_uuid = thread_track
track_event_defaults.extra_counter_track_uuids.append(counter_track)
return packet
def add_counter_track_descriptor(self,
trusted_packet_sequence_id=None,
thread_track=None,
counter_track=None):
packet = self.add_track_descriptor(counter_track, parent=thread_track)
packet.trusted_packet_sequence_id = trusted_packet_sequence_id
packet.track_descriptor.counter.type = self.prototypes.CounterDescriptor \
.BuiltinCounterType \
.COUNTER_THREAD_TIME_NS
return packet
def add_chrome_thread_with_cpu_counter(self,
process_track,
thread_track,
trusted_packet_sequence_id=None,
counter_track=None,
pid=None,
tid=None,
thread_type=None):
self.add_chrome_thread_track_descriptor(
process_track,
thread_track,
trusted_packet_sequence_id=trusted_packet_sequence_id,
pid=pid,
tid=tid,
thread_type=thread_type)
self.add_trace_packet_defaults(
trusted_packet_sequence_id=trusted_packet_sequence_id,
counter_track=counter_track,
thread_track=thread_track)
self.add_counter_track_descriptor(
trusted_packet_sequence_id=trusted_packet_sequence_id,
counter_track=counter_track,
thread_track=thread_track)
def add_track_event_slice_begin(self,
name,
ts,
track=None,
trusted_sequence_id=0,
cpu_time=None):
packet = self.add_track_event(
name,
ts=ts,
track=track,
trusted_sequence_id=trusted_sequence_id,
cpu_time=cpu_time)
packet.track_event.type = self.prototypes.TrackEvent.Type.TYPE_SLICE_BEGIN
return packet
def add_track_event_slice_end(self,
ts,
track=None,
trusted_sequence_id=0,
cpu_time=None):
packet = self.add_track_event(
ts=ts,
track=track,
trusted_sequence_id=trusted_sequence_id,
cpu_time=cpu_time)
packet.track_event.type = self.prototypes.TrackEvent.Type.TYPE_SLICE_END
return packet
# Returns the start slice packet.
def add_track_event_slice(self,
name,
ts,
dur,
track=None,
trusted_sequence_id=0,
cpu_start=None,
cpu_delta=None):
packet = self.add_track_event_slice_begin(
name,
ts,
track=track,
trusted_sequence_id=trusted_sequence_id,
cpu_time=cpu_start)
if dur >= 0:
cpu_end = cpu_start + cpu_delta if cpu_start is not None else None
self.add_track_event_slice_end(
ts + dur,
track=track,
trusted_sequence_id=trusted_sequence_id,
cpu_time=cpu_end)
return packet
def add_rail_mode_slice(self, ts, dur, track, mode):
packet = self.add_track_event_slice(
"Scheduler.RAILMode", ts=ts, dur=dur, track=track)
packet.track_event.chrome_renderer_scheduler_state.rail_mode = mode
def add_latency_info_flow(self,
ts,
dur,
track=None,
trusted_sequence_id=None,
trace_id=None,
step=None,
flow_ids=[],
terminating_flow_ids=[]):
packet = self.add_track_event_slice(
"LatencyInfo.Flow",
ts,
dur,
track=track,
trusted_sequence_id=trusted_sequence_id)
if trace_id is not None:
packet.track_event.chrome_latency_info.trace_id = trace_id
if step is not None:
packet.track_event.chrome_latency_info.step = step
for flow_id in flow_ids:
packet.track_event.flow_ids.append(flow_id)
for flow_id in terminating_flow_ids:
packet.track_event.terminating_flow_ids.append(flow_id)
return packet
def add_input_latency_event_slice(self,
name,
ts,
dur,
track=None,
trace_id=None,
gesture_scroll_id=None,
touch_id=None,
is_coalesced=None,
gets_to_gpu=True):
packet = self.add_track_event_slice(
"InputLatency::" + name, ts=ts, dur=dur, track=track)
latency_info = packet.track_event.chrome_latency_info
latency_info.trace_id = trace_id
if gesture_scroll_id is not None:
latency_info.gesture_scroll_id = gesture_scroll_id
if touch_id is not None:
latency_info.touch_id = touch_id
if gets_to_gpu:
component = latency_info.component_info.add()
component.component_type = self.prototypes \
.ChromeLatencyInfo.ComponentType \
.COMPONENT_INPUT_EVENT_GPU_SWAP_BUFFER
if is_coalesced is not None:
latency_info.is_coalesced = is_coalesced
return packet
def add_chrome_metadata(self, os_name=None):
metadata = self.add_packet().chrome_events.metadata.add()
if os_name is not None:
metadata.name = "os-name"
metadata.string_value = os_name
return metadata
def add_expected_display_frame_start_event(self, ts, cookie, token, pid):
packet = self.add_packet()
packet.timestamp = ts
event = packet.frame_timeline_event.expected_display_frame_start
if token != -1:
event.cookie = cookie
event.token = token
event.pid = pid
def add_actual_display_frame_start_event(self, ts, cookie, token, pid,
present_type, on_time_finish,
gpu_composition, jank_type,
prediction_type):
packet = self.add_packet()
packet.timestamp = ts
event = packet.frame_timeline_event.actual_display_frame_start
if token != -1:
event.cookie = cookie
event.token = token
event.pid = pid
event.present_type = present_type
event.on_time_finish = on_time_finish
event.gpu_composition = gpu_composition
event.jank_type = jank_type
event.prediction_type = prediction_type
def add_expected_surface_frame_start_event(self, ts, cookie, token,
display_frame_token, pid,
layer_name):
packet = self.add_packet()
packet.timestamp = ts
event = packet.frame_timeline_event.expected_surface_frame_start
if token != -1 and display_frame_token != -1:
event.cookie = cookie
event.token = token
event.display_frame_token = display_frame_token
event.pid = pid
event.layer_name = layer_name
def add_actual_surface_frame_start_event(self,
ts,
cookie,
token,
display_frame_token,
pid,
layer_name,
present_type,
on_time_finish,
gpu_composition,
jank_type,
prediction_type,
jank_severity_type=None):
packet = self.add_packet()
packet.timestamp = ts
event = packet.frame_timeline_event.actual_surface_frame_start
if token != -1 and display_frame_token != -1:
event.cookie = cookie
event.token = token
event.display_frame_token = display_frame_token
event.pid = pid
event.layer_name = layer_name
event.present_type = present_type
event.on_time_finish = on_time_finish
event.gpu_composition = gpu_composition
event.jank_type = jank_type
# jank severity type is not available on every trace.
# When not set, default to none if no jank; otherwise default to unknown
if jank_severity_type is None:
event.jank_severity_type = 1 if event.jank_type == 1 else 0
else:
event.jank_severity_type = jank_severity_type
event.prediction_type = prediction_type
def add_frame_end_event(self, ts, cookie):
packet = self.add_packet()
packet.timestamp = ts
event = packet.frame_timeline_event.frame_end
event.cookie = cookie
def read_descriptor(file_name):
with open(file_name, 'rb') as f:
contents = f.read()
descriptor = descriptor_pb2.FileDescriptorSet()
descriptor.MergeFromString(contents)
return descriptor
def create_pool(args):
trace_descriptor = read_descriptor(args.trace_descriptor)
pool = descriptor_pool.DescriptorPool()
for file in trace_descriptor.file:
pool.Add(file)
return pool
def create_trace():
parser = argparse.ArgumentParser()
parser.add_argument(
'trace_descriptor', type=str, help='location of trace descriptor')
args = parser.parse_args()
pool = create_pool(args)
ProtoTrace = get_message_class(
pool, pool.FindMessageTypeByName('perfetto.protos.Trace'))
class EnumPrototype(object):
def from_descriptor(desc):
res = EnumPrototype()
for desc in desc.values:
setattr(res, desc.name, desc.number)
return res
ChromeLatencyInfo = namedtuple('ChromeLatencyInfo', [
'ComponentType',
'Step',
])
Prototypes = namedtuple('Prototypes', [
'TrackEvent',
'ChromeRAILMode',
'ChromeLatencyInfo',
'ChromeProcessDescriptor',
'CounterDescriptor',
'ThreadDescriptor',
])
chrome_latency_info_prototypes = ChromeLatencyInfo(
ComponentType=EnumPrototype.from_descriptor(
pool.FindEnumTypeByName(
'perfetto.protos.ChromeLatencyInfo.LatencyComponentType')),
Step=EnumPrototype.from_descriptor(
pool.FindEnumTypeByName('perfetto.protos.ChromeLatencyInfo.Step')),
)
prototypes = Prototypes(
TrackEvent=get_message_class(
pool, pool.FindMessageTypeByName('perfetto.protos.TrackEvent')),
ChromeRAILMode=EnumPrototype.from_descriptor(
pool.FindEnumTypeByName('perfetto.protos.ChromeRAILMode')),
ChromeLatencyInfo=chrome_latency_info_prototypes,
ChromeProcessDescriptor=get_message_class(
pool,
pool.FindMessageTypeByName(
'perfetto.protos.ChromeProcessDescriptor')),
CounterDescriptor=get_message_class(
pool,
pool.FindMessageTypeByName('perfetto.protos.CounterDescriptor')),
ThreadDescriptor=get_message_class(
pool, pool.FindMessageTypeByName('perfetto.protos.ThreadDescriptor')),
)
return Trace(ProtoTrace(), prototypes)