naiveproxy/base/trace_event/trace_event_impl.cc

490 lines
16 KiB
C++
Raw Permalink Normal View History

2018-08-15 01:19:20 +03:00
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "base/trace_event/trace_event_impl.h"
#include <stddef.h>
#include "base/format_macros.h"
#include "base/json/string_escape.h"
#include "base/memory/ptr_util.h"
#include "base/process/process_handle.h"
#include "base/stl_util.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/strings/utf_string_conversions.h"
#include "base/trace_event/trace_event.h"
#include "base/trace_event/trace_event_argument.h"
#include "base/trace_event/trace_log.h"
namespace base {
namespace trace_event {
namespace {
size_t GetAllocLength(const char* str) { return str ? strlen(str) + 1 : 0; }
// Copies |*member| into |*buffer|, sets |*member| to point to this new
// location, and then advances |*buffer| by the amount written.
void CopyTraceEventParameter(char** buffer,
const char** member,
const char* end) {
if (*member) {
size_t written = strlcpy(*buffer, *member, end - *buffer) + 1;
DCHECK_LE(static_cast<int>(written), end - *buffer);
*member = *buffer;
*buffer += written;
}
}
} // namespace
TraceEvent::TraceEvent()
: duration_(TimeDelta::FromInternalValue(-1)),
scope_(trace_event_internal::kGlobalScope),
id_(0u),
category_group_enabled_(nullptr),
name_(nullptr),
thread_id_(0),
flags_(0),
phase_(TRACE_EVENT_PHASE_BEGIN) {
for (int i = 0; i < kTraceMaxNumArgs; ++i)
arg_names_[i] = nullptr;
memset(arg_values_, 0, sizeof(arg_values_));
}
TraceEvent::~TraceEvent() = default;
void TraceEvent::MoveFrom(std::unique_ptr<TraceEvent> other) {
timestamp_ = other->timestamp_;
thread_timestamp_ = other->thread_timestamp_;
duration_ = other->duration_;
scope_ = other->scope_;
id_ = other->id_;
category_group_enabled_ = other->category_group_enabled_;
name_ = other->name_;
if (other->flags_ & TRACE_EVENT_FLAG_HAS_PROCESS_ID)
process_id_ = other->process_id_;
else
thread_id_ = other->thread_id_;
phase_ = other->phase_;
flags_ = other->flags_;
parameter_copy_storage_ = std::move(other->parameter_copy_storage_);
for (int i = 0; i < kTraceMaxNumArgs; ++i) {
arg_names_[i] = other->arg_names_[i];
arg_types_[i] = other->arg_types_[i];
arg_values_[i] = other->arg_values_[i];
convertable_values_[i] = std::move(other->convertable_values_[i]);
}
}
void TraceEvent::Initialize(
int thread_id,
TimeTicks timestamp,
ThreadTicks thread_timestamp,
char phase,
const unsigned char* category_group_enabled,
const char* name,
const char* scope,
unsigned long long id,
unsigned long long bind_id,
int num_args,
const char* const* arg_names,
const unsigned char* arg_types,
const unsigned long long* arg_values,
std::unique_ptr<ConvertableToTraceFormat>* convertable_values,
unsigned int flags) {
timestamp_ = timestamp;
thread_timestamp_ = thread_timestamp;
duration_ = TimeDelta::FromInternalValue(-1);
scope_ = scope;
id_ = id;
category_group_enabled_ = category_group_enabled;
name_ = name;
thread_id_ = thread_id;
phase_ = phase;
flags_ = flags;
bind_id_ = bind_id;
// Clamp num_args since it may have been set by a third_party library.
num_args = (num_args > kTraceMaxNumArgs) ? kTraceMaxNumArgs : num_args;
int i = 0;
for (; i < num_args; ++i) {
arg_names_[i] = arg_names[i];
arg_types_[i] = arg_types[i];
if (arg_types[i] == TRACE_VALUE_TYPE_CONVERTABLE) {
convertable_values_[i] = std::move(convertable_values[i]);
} else {
arg_values_[i].as_uint = arg_values[i];
convertable_values_[i].reset();
}
}
for (; i < kTraceMaxNumArgs; ++i) {
arg_names_[i] = nullptr;
arg_values_[i].as_uint = 0u;
convertable_values_[i].reset();
arg_types_[i] = TRACE_VALUE_TYPE_UINT;
}
bool copy = !!(flags & TRACE_EVENT_FLAG_COPY);
size_t alloc_size = 0;
if (copy) {
alloc_size += GetAllocLength(name) + GetAllocLength(scope);
for (i = 0; i < num_args; ++i) {
alloc_size += GetAllocLength(arg_names_[i]);
if (arg_types_[i] == TRACE_VALUE_TYPE_STRING)
arg_types_[i] = TRACE_VALUE_TYPE_COPY_STRING;
}
}
bool arg_is_copy[kTraceMaxNumArgs];
for (i = 0; i < num_args; ++i) {
// No copying of convertable types, we retain ownership.
if (arg_types_[i] == TRACE_VALUE_TYPE_CONVERTABLE)
continue;
// We only take a copy of arg_vals if they are of type COPY_STRING.
arg_is_copy[i] = (arg_types_[i] == TRACE_VALUE_TYPE_COPY_STRING);
if (arg_is_copy[i])
alloc_size += GetAllocLength(arg_values_[i].as_string);
}
if (alloc_size) {
parameter_copy_storage_.reset(new std::string);
parameter_copy_storage_->resize(alloc_size);
char* ptr = base::data(*parameter_copy_storage_);
const char* end = ptr + alloc_size;
if (copy) {
CopyTraceEventParameter(&ptr, &name_, end);
CopyTraceEventParameter(&ptr, &scope_, end);
for (i = 0; i < num_args; ++i) {
CopyTraceEventParameter(&ptr, &arg_names_[i], end);
}
}
for (i = 0; i < num_args; ++i) {
if (arg_types_[i] == TRACE_VALUE_TYPE_CONVERTABLE)
continue;
if (arg_is_copy[i])
CopyTraceEventParameter(&ptr, &arg_values_[i].as_string, end);
}
DCHECK_EQ(end, ptr) << "Overrun by " << ptr - end;
}
}
void TraceEvent::Reset() {
// Only reset fields that won't be initialized in Initialize(), or that may
// hold references to other objects.
duration_ = TimeDelta::FromInternalValue(-1);
parameter_copy_storage_.reset();
for (int i = 0; i < kTraceMaxNumArgs; ++i)
convertable_values_[i].reset();
}
void TraceEvent::UpdateDuration(const TimeTicks& now,
const ThreadTicks& thread_now) {
DCHECK_EQ(duration_.ToInternalValue(), -1);
duration_ = now - timestamp_;
// |thread_timestamp_| can be empty if the thread ticks clock wasn't
// initialized when it was recorded.
if (thread_timestamp_ != ThreadTicks())
thread_duration_ = thread_now - thread_timestamp_;
}
void TraceEvent::EstimateTraceMemoryOverhead(
TraceEventMemoryOverhead* overhead) {
overhead->Add(TraceEventMemoryOverhead::kTraceEvent, sizeof(*this));
if (parameter_copy_storage_)
overhead->AddString(*parameter_copy_storage_);
for (size_t i = 0; i < kTraceMaxNumArgs; ++i) {
if (arg_types_[i] == TRACE_VALUE_TYPE_CONVERTABLE)
convertable_values_[i]->EstimateTraceMemoryOverhead(overhead);
}
}
// static
void TraceEvent::AppendValueAsJSON(unsigned char type,
TraceEvent::TraceValue value,
std::string* out) {
switch (type) {
case TRACE_VALUE_TYPE_BOOL:
*out += value.as_bool ? "true" : "false";
break;
case TRACE_VALUE_TYPE_UINT:
StringAppendF(out, "%" PRIu64, static_cast<uint64_t>(value.as_uint));
break;
case TRACE_VALUE_TYPE_INT:
StringAppendF(out, "%" PRId64, static_cast<int64_t>(value.as_int));
break;
case TRACE_VALUE_TYPE_DOUBLE: {
// FIXME: base/json/json_writer.cc is using the same code,
// should be made into a common method.
std::string real;
double val = value.as_double;
if (std::isfinite(val)) {
real = NumberToString(val);
// Ensure that the number has a .0 if there's no decimal or 'e'. This
// makes sure that when we read the JSON back, it's interpreted as a
// real rather than an int.
if (real.find('.') == std::string::npos &&
real.find('e') == std::string::npos &&
real.find('E') == std::string::npos) {
real.append(".0");
}
// The JSON spec requires that non-integer values in the range (-1,1)
// have a zero before the decimal point - ".52" is not valid, "0.52" is.
if (real[0] == '.') {
real.insert(0, "0");
} else if (real.length() > 1 && real[0] == '-' && real[1] == '.') {
// "-.1" bad "-0.1" good
real.insert(1, "0");
}
} else if (std::isnan(val)){
// The JSON spec doesn't allow NaN and Infinity (since these are
// objects in EcmaScript). Use strings instead.
real = "\"NaN\"";
} else if (val < 0) {
real = "\"-Infinity\"";
} else {
real = "\"Infinity\"";
}
StringAppendF(out, "%s", real.c_str());
break;
}
case TRACE_VALUE_TYPE_POINTER:
// JSON only supports double and int numbers.
// So as not to lose bits from a 64-bit pointer, output as a hex string.
StringAppendF(
out, "\"0x%" PRIx64 "\"",
static_cast<uint64_t>(reinterpret_cast<uintptr_t>(value.as_pointer)));
break;
case TRACE_VALUE_TYPE_STRING:
case TRACE_VALUE_TYPE_COPY_STRING:
EscapeJSONString(value.as_string ? value.as_string : "NULL", true, out);
break;
default:
NOTREACHED() << "Don't know how to print this value";
break;
}
}
void TraceEvent::AppendAsJSON(
std::string* out,
const ArgumentFilterPredicate& argument_filter_predicate) const {
int64_t time_int64 = timestamp_.ToInternalValue();
int process_id;
int thread_id;
if ((flags_ & TRACE_EVENT_FLAG_HAS_PROCESS_ID) &&
process_id_ != kNullProcessId) {
process_id = process_id_;
thread_id = -1;
} else {
process_id = TraceLog::GetInstance()->process_id();
thread_id = thread_id_;
}
const char* category_group_name =
TraceLog::GetCategoryGroupName(category_group_enabled_);
// Category group checked at category creation time.
DCHECK(!strchr(name_, '"'));
StringAppendF(out, "{\"pid\":%i,\"tid\":%i,\"ts\":%" PRId64
",\"ph\":\"%c\",\"cat\":\"%s\",\"name\":",
process_id, thread_id, time_int64, phase_, category_group_name);
EscapeJSONString(name_, true, out);
*out += ",\"args\":";
// Output argument names and values, stop at first NULL argument name.
// TODO(oysteine): The dual predicates here is a bit ugly; if the filtering
// capabilities need to grow even more precise we should rethink this
// approach
ArgumentNameFilterPredicate argument_name_filter_predicate;
bool strip_args =
arg_names_[0] && !argument_filter_predicate.is_null() &&
!argument_filter_predicate.Run(category_group_name, name_,
&argument_name_filter_predicate);
if (strip_args) {
*out += "\"__stripped__\"";
} else {
*out += "{";
for (int i = 0; i < kTraceMaxNumArgs && arg_names_[i]; ++i) {
if (i > 0)
*out += ",";
*out += "\"";
*out += arg_names_[i];
*out += "\":";
if (argument_name_filter_predicate.is_null() ||
argument_name_filter_predicate.Run(arg_names_[i])) {
if (arg_types_[i] == TRACE_VALUE_TYPE_CONVERTABLE)
convertable_values_[i]->AppendAsTraceFormat(out);
else
AppendValueAsJSON(arg_types_[i], arg_values_[i], out);
} else {
*out += "\"__stripped__\"";
}
}
*out += "}";
}
if (phase_ == TRACE_EVENT_PHASE_COMPLETE) {
int64_t duration = duration_.ToInternalValue();
if (duration != -1)
StringAppendF(out, ",\"dur\":%" PRId64, duration);
if (!thread_timestamp_.is_null()) {
int64_t thread_duration = thread_duration_.ToInternalValue();
if (thread_duration != -1)
StringAppendF(out, ",\"tdur\":%" PRId64, thread_duration);
}
}
// Output tts if thread_timestamp is valid.
if (!thread_timestamp_.is_null()) {
int64_t thread_time_int64 = thread_timestamp_.ToInternalValue();
StringAppendF(out, ",\"tts\":%" PRId64, thread_time_int64);
}
// Output async tts marker field if flag is set.
if (flags_ & TRACE_EVENT_FLAG_ASYNC_TTS) {
StringAppendF(out, ", \"use_async_tts\":1");
}
// If id_ is set, print it out as a hex string so we don't loose any
// bits (it might be a 64-bit pointer).
unsigned int id_flags_ = flags_ & (TRACE_EVENT_FLAG_HAS_ID |
TRACE_EVENT_FLAG_HAS_LOCAL_ID |
TRACE_EVENT_FLAG_HAS_GLOBAL_ID);
if (id_flags_) {
if (scope_ != trace_event_internal::kGlobalScope)
StringAppendF(out, ",\"scope\":\"%s\"", scope_);
switch (id_flags_) {
case TRACE_EVENT_FLAG_HAS_ID:
StringAppendF(out, ",\"id\":\"0x%" PRIx64 "\"",
static_cast<uint64_t>(id_));
break;
case TRACE_EVENT_FLAG_HAS_LOCAL_ID:
StringAppendF(out, ",\"id2\":{\"local\":\"0x%" PRIx64 "\"}",
static_cast<uint64_t>(id_));
break;
case TRACE_EVENT_FLAG_HAS_GLOBAL_ID:
StringAppendF(out, ",\"id2\":{\"global\":\"0x%" PRIx64 "\"}",
static_cast<uint64_t>(id_));
break;
default:
NOTREACHED() << "More than one of the ID flags are set";
break;
}
}
if (flags_ & TRACE_EVENT_FLAG_BIND_TO_ENCLOSING)
StringAppendF(out, ",\"bp\":\"e\"");
if ((flags_ & TRACE_EVENT_FLAG_FLOW_OUT) ||
(flags_ & TRACE_EVENT_FLAG_FLOW_IN)) {
StringAppendF(out, ",\"bind_id\":\"0x%" PRIx64 "\"",
static_cast<uint64_t>(bind_id_));
}
if (flags_ & TRACE_EVENT_FLAG_FLOW_IN)
StringAppendF(out, ",\"flow_in\":true");
if (flags_ & TRACE_EVENT_FLAG_FLOW_OUT)
StringAppendF(out, ",\"flow_out\":true");
// Instant events also output their scope.
if (phase_ == TRACE_EVENT_PHASE_INSTANT) {
char scope = '?';
switch (flags_ & TRACE_EVENT_FLAG_SCOPE_MASK) {
case TRACE_EVENT_SCOPE_GLOBAL:
scope = TRACE_EVENT_SCOPE_NAME_GLOBAL;
break;
case TRACE_EVENT_SCOPE_PROCESS:
scope = TRACE_EVENT_SCOPE_NAME_PROCESS;
break;
case TRACE_EVENT_SCOPE_THREAD:
scope = TRACE_EVENT_SCOPE_NAME_THREAD;
break;
}
StringAppendF(out, ",\"s\":\"%c\"", scope);
}
*out += "}";
}
void TraceEvent::AppendPrettyPrinted(std::ostringstream* out) const {
*out << name_ << "[";
*out << TraceLog::GetCategoryGroupName(category_group_enabled_);
*out << "]";
if (arg_names_[0]) {
*out << ", {";
for (int i = 0; i < kTraceMaxNumArgs && arg_names_[i]; ++i) {
if (i > 0)
*out << ", ";
*out << arg_names_[i] << ":";
std::string value_as_text;
if (arg_types_[i] == TRACE_VALUE_TYPE_CONVERTABLE)
convertable_values_[i]->AppendAsTraceFormat(&value_as_text);
else
AppendValueAsJSON(arg_types_[i], arg_values_[i], &value_as_text);
*out << value_as_text;
}
*out << "}";
}
}
} // namespace trace_event
} // namespace base
namespace trace_event_internal {
std::unique_ptr<base::trace_event::ConvertableToTraceFormat>
TraceID::AsConvertableToTraceFormat() const {
auto value = std::make_unique<base::trace_event::TracedValue>();
if (scope_ != kGlobalScope)
value->SetString("scope", scope_);
const char* id_field_name = "id";
if (id_flags_ == TRACE_EVENT_FLAG_HAS_GLOBAL_ID) {
id_field_name = "global";
value->BeginDictionary("id2");
} else if (id_flags_ == TRACE_EVENT_FLAG_HAS_LOCAL_ID) {
id_field_name = "local";
value->BeginDictionary("id2");
} else if (id_flags_ != TRACE_EVENT_FLAG_HAS_ID) {
NOTREACHED() << "Unrecognized ID flag";
}
if (has_prefix_) {
value->SetString(id_field_name,
base::StringPrintf("0x%" PRIx64 "/0x%" PRIx64,
static_cast<uint64_t>(prefix_),
static_cast<uint64_t>(raw_id_)));
} else {
value->SetString(
id_field_name,
base::StringPrintf("0x%" PRIx64, static_cast<uint64_t>(raw_id_)));
}
if (id_flags_ != TRACE_EVENT_FLAG_HAS_ID)
value->EndDictionary();
return std::move(value);
}
} // namespace trace_event_internal