// Copyright (c) 2014 Google Inc.
//
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// This header file defines the set of trace_event macros without specifying
// how the events actually get collected and stored. If you need to expose trace
// events to some other universe, you can copy-and-paste this file as well as
// trace_event.h, modifying the macros contained there as necessary for the
// target platform. The end result is that multiple libraries can funnel events
// through to a shared trace event collector.
// Trace events are for tracking application performance and resource usage.
// Macros are provided to track:
// Begin and end of function calls
// Counters
//
// Events are issued against categories. Whereas LOG's
// categories are statically defined, TRACE categories are created
// implicitly with a string. For example:
// TRACE_EVENT_INSTANT0("MY_SUBSYSTEM", "SomeImportantEvent",
// TRACE_EVENT_SCOPE_THREAD)
//
// It is often the case that one trace may belong in multiple categories at the
// same time. The first argument to the trace can be a comma-separated list of
// categories, forming a category group, like:
//
// TRACE_EVENT_INSTANT0("input,views", "OnMouseOver", TRACE_EVENT_SCOPE_THREAD)
//
// We can enable/disable tracing of OnMouseOver by enabling/disabling either
// category.
//
// Events can be INSTANT, or can be pairs of BEGIN and END in the same scope:
// TRACE_EVENT_BEGIN0("MY_SUBSYSTEM", "SomethingCostly")
// doSomethingCostly()
// TRACE_EVENT_END0("MY_SUBSYSTEM", "SomethingCostly")
// Note: our tools can't always determine the correct BEGIN/END pairs unless
// these are used in the same scope. Use ASYNC_BEGIN/ASYNC_END macros if you
// need them to be in separate scopes.
//
// A common use case is to trace entire function scopes. This
// issues a trace BEGIN and END automatically:
// void doSomethingCostly() {
// TRACE_EVENT0("MY_SUBSYSTEM", "doSomethingCostly");
// ...
// }
//
// Additional parameters can be associated with an event:
// void doSomethingCostly2(int howMuch) {
// TRACE_EVENT1("MY_SUBSYSTEM", "doSomethingCostly",
// "howMuch", howMuch);
// ...
// }
//
// The trace system will automatically add to this information the
// current process id, thread id, and a timestamp in microseconds.
//
// To trace an asynchronous procedure such as an IPC send/receive, use
// ASYNC_BEGIN and ASYNC_END:
// [single threaded sender code]
// static int send_count = 0;
// ++send_count;
// TRACE_EVENT_ASYNC_BEGIN0("ipc", "message", send_count);
// Send(new MyMessage(send_count));
// [receive code]
// void OnMyMessage(send_count) {
// TRACE_EVENT_ASYNC_END0("ipc", "message", send_count);
// }
// The third parameter is a unique ID to match ASYNC_BEGIN/ASYNC_END pairs.
// ASYNC_BEGIN and ASYNC_END can occur on any thread of any traced process.
// Pointers can be used for the ID parameter, and they will be mangled
// internally so that the same pointer on two different processes will not
// match. For example:
// class MyTracedClass {
// public:
// MyTracedClass() {
// TRACE_EVENT_ASYNC_BEGIN0("category", "MyTracedClass", this);
// }
// ~MyTracedClass() {
// TRACE_EVENT_ASYNC_END0("category", "MyTracedClass", this);
// }
// }
//
// Trace event also supports counters, which is a way to track a quantity
// as it varies over time. Counters are created with the following macro:
// TRACE_COUNTER1("MY_SUBSYSTEM", "myCounter", g_myCounterValue);
//
// Counters are process-specific. The macro itself can be issued from any
// thread, however.
//
// Sometimes, you want to track two counters at once. You can do this with two
// counter macros:
// TRACE_COUNTER1("MY_SUBSYSTEM", "myCounter0", g_myCounterValue[0]);
// TRACE_COUNTER1("MY_SUBSYSTEM", "myCounter1", g_myCounterValue[1]);
// Or you can do it with a combined macro:
// TRACE_COUNTER2("MY_SUBSYSTEM", "myCounter",
// "bytesPinned", g_myCounterValue[0],
// "bytesAllocated", g_myCounterValue[1]);
// This indicates to the tracing UI that these counters should be displayed
// in a single graph, as a summed area chart.
//
// Since counters are in a global namespace, you may want to disambiguate with a
// unique ID, by using the TRACE_COUNTER_ID* variations.
//
// By default, trace collection is compiled in, but turned off at runtime.
// Collecting trace data is the responsibility of the embedding
// application. In Chrome's case, navigating to about:tracing will turn on
// tracing and display data collected across all active processes.
//
//
// Memory scoping note:
// Tracing copies the pointers, not the string content, of the strings passed
// in for category_group, name, and arg_names. Thus, the following code will
// cause problems:
// char* str = strdup("importantName");
// TRACE_EVENT_INSTANT0("SUBSYSTEM", str); // BAD!
// free(str); // Trace system now has dangling pointer
//
// To avoid this issue with the |name| and |arg_name| parameters, use the
// TRACE_EVENT_COPY_XXX overloads of the macros at additional runtime overhead.
// Notes: The category must always be in a long-lived char* (i.e. static const).
// The |arg_values|, when used, are always deep copied with the _COPY
// macros.
//
// When are string argument values copied:
// const char* arg_values are only referenced by default:
// TRACE_EVENT1("category", "name",
// "arg1", "literal string is only referenced");
// Use TRACE_STR_COPY to force copying of a const char*:
// TRACE_EVENT1("category", "name",
// "arg1", TRACE_STR_COPY("string will be copied"));
// std::string arg_values are always copied:
// TRACE_EVENT1("category", "name",
// "arg1", std::string("string will be copied"));
//
//
// Thread Safety:
// A thread safe singleton and mutex are used for thread safety. Category
// enabled flags are used to limit the performance impact when the system
// is not enabled.
//
// TRACE_EVENT macros first cache a pointer to a category. The categories are
// statically allocated and safe at all times, even after exit. Fetching a
// category is protected by the TraceLog::lock_. Multiple threads initializing
// the static variable is safe, as they will be serialized by the lock and
// multiple calls will return the same pointer to the category.
//
// Then the category_group_enabled flag is checked. This is a unsigned char, and
// not intended to be multithread safe. It optimizes access to AddTraceEvent
// which is threadsafe internally via TraceLog::lock_. The enabled flag may
// cause some threads to incorrectly call or skip calling AddTraceEvent near
// the time of the system being enabled or disabled. This is acceptable as
// we tolerate some data loss while the system is being enabled/disabled and
// because AddTraceEvent is threadsafe internally and checks the enabled state
// again under lock.
//
// Without the use of these static category pointers and enabled flags all
// trace points would carry a significant performance cost of acquiring a lock
// and resolving the category.
#ifndef SkTraceEvent_DEFINED
#define SkTraceEvent_DEFINED
#include "SkEventTracer.h"
// By default, const char* argument values are assumed to have long-lived scope
// and will not be copied. Use this macro to force a const char* to be copied.
#define TRACE_STR_COPY(str) \
skia::tracing_internals::TraceStringWithCopy(str)
// By default, uint64 ID argument values are not mangled with the Process ID in
// TRACE_EVENT_ASYNC macros. Use this macro to force Process ID mangling.
#define TRACE_ID_MANGLE(id) \
skia::tracing_internals::TraceID::ForceMangle(id)
// By default, pointers are mangled with the Process ID in TRACE_EVENT_ASYNC
// macros. Use this macro to prevent Process ID mangling.
#define TRACE_ID_DONT_MANGLE(id) \
skia::tracing_internals::TraceID::DontMangle(id)
// Records a pair of begin and end events called "name" for the current
// scope, with 0, 1 or 2 associated arguments. If the category is not
// enabled, then this does nothing.
// - category and name strings must have application lifetime (statics or
// literals). They may not include " chars.
#define TRACE_EVENT0(category_group, name) \
INTERNAL_TRACE_EVENT_ADD_SCOPED(category_group, name)
#define TRACE_EVENT1(category_group, name, arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD_SCOPED(category_group, name, arg1_name, arg1_val)
#define TRACE_EVENT2( \
category_group, name, arg1_name, arg1_val, arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD_SCOPED( \
category_group, name, arg1_name, arg1_val, arg2_name, arg2_val)
// Records events like TRACE_EVENT2 but uses |memory_tag| for memory tracing.
// Use this where |name| is too generic to accurately aggregate allocations.
#define TRACE_EVENT_WITH_MEMORY_TAG2( \
category, name, memory_tag, arg1_name, arg1_val, arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD_SCOPED( \
category, name, arg1_name, arg1_val, arg2_name, arg2_val)
// UNSHIPPED_TRACE_EVENT* are like TRACE_EVENT* except that they are not
// included in official builds.
#if OFFICIAL_BUILD
#undef TRACING_IS_OFFICIAL_BUILD
#define TRACING_IS_OFFICIAL_BUILD 1
#elif !defined(TRACING_IS_OFFICIAL_BUILD)
#define TRACING_IS_OFFICIAL_BUILD 0
#endif
#if TRACING_IS_OFFICIAL_BUILD
#define UNSHIPPED_TRACE_EVENT0(category_group, name) (void)0
#define UNSHIPPED_TRACE_EVENT1(category_group, name, arg1_name, arg1_val) \
(void)0
#define UNSHIPPED_TRACE_EVENT2(category_group, name, arg1_name, arg1_val, \
arg2_name, arg2_val) (void)0
#define UNSHIPPED_TRACE_EVENT_INSTANT0(category_group, name, scope) (void)0
#define UNSHIPPED_TRACE_EVENT_INSTANT1(category_group, name, scope, \
arg1_name, arg1_val) (void)0
#define UNSHIPPED_TRACE_EVENT_INSTANT2(category_group, name, scope, \
arg1_name, arg1_val, \
arg2_name, arg2_val) (void)0
#else
#define UNSHIPPED_TRACE_EVENT0(category_group, name) \
TRACE_EVENT0(category_group, name)
#define UNSHIPPED_TRACE_EVENT1(category_group, name, arg1_name, arg1_val) \
TRACE_EVENT1(category_group, name, arg1_name, arg1_val)
#define UNSHIPPED_TRACE_EVENT2(category_group, name, arg1_name, arg1_val, \
arg2_name, arg2_val) \
TRACE_EVENT2(category_group, name, arg1_name, arg1_val, arg2_name, arg2_val)
#define UNSHIPPED_TRACE_EVENT_INSTANT0(category_group, name, scope) \
TRACE_EVENT_INSTANT0(category_group, name, scope)
#define UNSHIPPED_TRACE_EVENT_INSTANT1(category_group, name, scope, \
arg1_name, arg1_val) \
TRACE_EVENT_INSTANT1(category_group, name, scope, arg1_name, arg1_val)
#define UNSHIPPED_TRACE_EVENT_INSTANT2(category_group, name, scope, \
arg1_name, arg1_val, \
arg2_name, arg2_val) \
TRACE_EVENT_INSTANT2(category_group, name, scope, arg1_name, arg1_val, \
arg2_name, arg2_val)
#endif
// Records a single event called "name" immediately, with 0, 1 or 2
// associated arguments. If the category is not enabled, then this
// does nothing.
// - category and name strings must have application lifetime (statics or
// literals). They may not include " chars.
#define TRACE_EVENT_INSTANT0(category_group, name, scope) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, \
category_group, name, TRACE_EVENT_FLAG_NONE | scope)
#define TRACE_EVENT_INSTANT1(category_group, name, scope, arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, \
category_group, name, TRACE_EVENT_FLAG_NONE | scope, \
arg1_name, arg1_val)
#define TRACE_EVENT_INSTANT2(category_group, name, scope, arg1_name, arg1_val, \
arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, \
category_group, name, TRACE_EVENT_FLAG_NONE | scope, \
arg1_name, arg1_val, arg2_name, arg2_val)
#define TRACE_EVENT_COPY_INSTANT0(category_group, name, scope) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, \
category_group, name, TRACE_EVENT_FLAG_COPY | scope)
#define TRACE_EVENT_COPY_INSTANT1(category_group, name, scope, \
arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, \
category_group, name, TRACE_EVENT_FLAG_COPY | scope, arg1_name, \
arg1_val)
#define TRACE_EVENT_COPY_INSTANT2(category_group, name, scope, \
arg1_name, arg1_val, \
arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, \
category_group, name, TRACE_EVENT_FLAG_COPY | scope, \
arg1_name, arg1_val, arg2_name, arg2_val)
// Sets the current sample state to the given category and name (both must be
// constant strings). These states are intended for a sampling profiler.
// Implementation note: we store category and name together because we don't
// want the inconsistency/expense of storing two pointers.
// |thread_bucket| is [0..2] and is used to statically isolate samples in one
// thread from others.
#define TRACE_EVENT_SET_SAMPLING_STATE_FOR_BUCKET( \
bucket_number, category, name) \
skia::tracing_internals:: \
TraceEventSamplingStateScope<bucket_number>::Set(category "\0" name)
// Returns a current sampling state of the given bucket.
#define TRACE_EVENT_GET_SAMPLING_STATE_FOR_BUCKET(bucket_number) \
skia::tracing_internals::TraceEventSamplingStateScope<bucket_number>::Current()
// Creates a scope of a sampling state of the given bucket.
//
// { // The sampling state is set within this scope.
// TRACE_EVENT_SAMPLING_STATE_SCOPE_FOR_BUCKET(0, "category", "name");
// ...;
// }
#define TRACE_EVENT_SCOPED_SAMPLING_STATE_FOR_BUCKET( \
bucket_number, category, name) \
skia::tracing_internals::TraceEventSamplingStateScope<bucket_number> \
traceEventSamplingScope(category "\0" name);
// Syntactic sugars for the sampling tracing in the main thread.
#define TRACE_EVENT_SCOPED_SAMPLING_STATE(category, name) \
TRACE_EVENT_SCOPED_SAMPLING_STATE_FOR_BUCKET(0, category, name)
#define TRACE_EVENT_GET_SAMPLING_STATE() \
TRACE_EVENT_GET_SAMPLING_STATE_FOR_BUCKET(0)
#define TRACE_EVENT_SET_SAMPLING_STATE(category, name) \
TRACE_EVENT_SET_SAMPLING_STATE_FOR_BUCKET(0, category, name)
// Records a single BEGIN event called "name" immediately, with 0, 1 or 2
// associated arguments. If the category is not enabled, then this
// does nothing.
// - category and name strings must have application lifetime (statics or
// literals). They may not include " chars.
#define TRACE_EVENT_BEGIN0(category_group, name) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_BEGIN, \
category_group, name, TRACE_EVENT_FLAG_NONE)
#define TRACE_EVENT_BEGIN1(category_group, name, arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_BEGIN, \
category_group, name, TRACE_EVENT_FLAG_NONE, arg1_name, arg1_val)
#define TRACE_EVENT_BEGIN2(category_group, name, arg1_name, arg1_val, \
arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_BEGIN, \
category_group, name, TRACE_EVENT_FLAG_NONE, arg1_name, arg1_val, \
arg2_name, arg2_val)
#define TRACE_EVENT_COPY_BEGIN0(category_group, name) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_BEGIN, \
category_group, name, TRACE_EVENT_FLAG_COPY)
#define TRACE_EVENT_COPY_BEGIN1(category_group, name, arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_BEGIN, \
category_group, name, TRACE_EVENT_FLAG_COPY, arg1_name, arg1_val)
#define TRACE_EVENT_COPY_BEGIN2(category_group, name, arg1_name, arg1_val, \
arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_BEGIN, \
category_group, name, TRACE_EVENT_FLAG_COPY, arg1_name, arg1_val, \
arg2_name, arg2_val)
// Similar to TRACE_EVENT_BEGINx but with a custom |at| timestamp provided.
// - |id| is used to match the _BEGIN event with the _END event.
// Events are considered to match if their category_group, name and id values
// all match. |id| must either be a pointer or an integer value up to 64 bits.
// If it's a pointer, the bits will be xored with a hash of the process ID so
// that the same pointer on two different processes will not collide.
#define TRACE_EVENT_BEGIN_WITH_ID_TID_AND_TIMESTAMP0(category_group, \
name, id, thread_id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, name, id, thread_id, \
timestamp, TRACE_EVENT_FLAG_NONE)
#define TRACE_EVENT_COPY_BEGIN_WITH_ID_TID_AND_TIMESTAMP0( \
category_group, name, id, thread_id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, name, id, thread_id, \
timestamp, TRACE_EVENT_FLAG_COPY)
// Records a single END event for "name" immediately. If the category
// is not enabled, then this does nothing.
// - category and name strings must have application lifetime (statics or
// literals). They may not include " chars.
#define TRACE_EVENT_END0(category_group, name) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_END, \
category_group, name, TRACE_EVENT_FLAG_NONE)
#define TRACE_EVENT_END1(category_group, name, arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_END, \
category_group, name, TRACE_EVENT_FLAG_NONE, arg1_name, arg1_val)
#define TRACE_EVENT_END2(category_group, name, arg1_name, arg1_val, \
arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_END, \
category_group, name, TRACE_EVENT_FLAG_NONE, arg1_name, arg1_val, \
arg2_name, arg2_val)
#define TRACE_EVENT_COPY_END0(category_group, name) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_END, \
category_group, name, TRACE_EVENT_FLAG_COPY)
#define TRACE_EVENT_COPY_END1(category_group, name, arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_END, \
category_group, name, TRACE_EVENT_FLAG_COPY, arg1_name, arg1_val)
#define TRACE_EVENT_COPY_END2(category_group, name, arg1_name, arg1_val, \
arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_END, \
category_group, name, TRACE_EVENT_FLAG_COPY, arg1_name, arg1_val, \
arg2_name, arg2_val)
// Similar to TRACE_EVENT_ENDx but with a custom |at| timestamp provided.
// - |id| is used to match the _BEGIN event with the _END event.
// Events are considered to match if their category_group, name and id values
// all match. |id| must either be a pointer or an integer value up to 64 bits.
// If it's a pointer, the bits will be xored with a hash of the process ID so
// that the same pointer on two different processes will not collide.
#define TRACE_EVENT_END_WITH_ID_TID_AND_TIMESTAMP0(category_group, \
name, id, thread_id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
TRACE_EVENT_PHASE_ASYNC_END, category_group, name, id, thread_id, \
timestamp, TRACE_EVENT_FLAG_NONE)
#define TRACE_EVENT_COPY_END_WITH_ID_TID_AND_TIMESTAMP0( \
category_group, name, id, thread_id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
TRACE_EVENT_PHASE_ASYNC_END, category_group, name, id, thread_id, \
timestamp, TRACE_EVENT_FLAG_COPY)
// Records the value of a counter called "name" immediately. Value
// must be representable as a 32 bit integer.
// - category and name strings must have application lifetime (statics or
// literals). They may not include " chars.
#define TRACE_COUNTER1(category_group, name, value) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, \
category_group, name, TRACE_EVENT_FLAG_NONE, \
"value", static_cast<int>(value))
#define TRACE_COPY_COUNTER1(category_group, name, value) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, \
category_group, name, TRACE_EVENT_FLAG_COPY, \
"value", static_cast<int>(value))
// Records the values of a multi-parted counter called "name" immediately.
// The UI will treat value1 and value2 as parts of a whole, displaying their
// values as a stacked-bar chart.
// - category and name strings must have application lifetime (statics or
// literals). They may not include " chars.
#define TRACE_COUNTER2(category_group, name, value1_name, value1_val, \
value2_name, value2_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, \
category_group, name, TRACE_EVENT_FLAG_NONE, \
value1_name, static_cast<int>(value1_val), \
value2_name, static_cast<int>(value2_val))
#define TRACE_COPY_COUNTER2(category_group, name, value1_name, value1_val, \
value2_name, value2_val) \
INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, \
category_group, name, TRACE_EVENT_FLAG_COPY, \
value1_name, static_cast<int>(value1_val), \
value2_name, static_cast<int>(value2_val))
// Records the value of a counter called "name" immediately. Value
// must be representable as a 32 bit integer.
// - category and name strings must have application lifetime (statics or
// literals). They may not include " chars.
// - |id| is used to disambiguate counters with the same name. It must either
// be a pointer or an integer value up to 64 bits. If it's a pointer, the bits
// will be xored with a hash of the process ID so that the same pointer on
// two different processes will not collide.
#define TRACE_COUNTER_ID1(category_group, name, id, value) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_COUNTER, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, \
"value", static_cast<int>(value))
#define TRACE_COPY_COUNTER_ID1(category_group, name, id, value) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_COUNTER, \
category_group, name, id, TRACE_EVENT_FLAG_COPY, \
"value", static_cast<int>(value))
// Records the values of a multi-parted counter called "name" immediately.
// The UI will treat value1 and value2 as parts of a whole, displaying their
// values as a stacked-bar chart.
// - category and name strings must have application lifetime (statics or
// literals). They may not include " chars.
// - |id| is used to disambiguate counters with the same name. It must either
// be a pointer or an integer value up to 64 bits. If it's a pointer, the bits
// will be xored with a hash of the process ID so that the same pointer on
// two different processes will not collide.
#define TRACE_COUNTER_ID2(category_group, name, id, value1_name, value1_val, \
value2_name, value2_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_COUNTER, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, \
value1_name, static_cast<int>(value1_val), \
value2_name, static_cast<int>(value2_val))
#define TRACE_COPY_COUNTER_ID2(category_group, name, id, value1_name, \
value1_val, value2_name, value2_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_COUNTER, \
category_group, name, id, TRACE_EVENT_FLAG_COPY, \
value1_name, static_cast<int>(value1_val), \
value2_name, static_cast<int>(value2_val))
// Records a single ASYNC_BEGIN event called "name" immediately, with 0, 1 or 2
// associated arguments. If the category is not enabled, then this
// does nothing.
// - category and name strings must have application lifetime (statics or
// literals). They may not include " chars.
// - |id| is used to match the ASYNC_BEGIN event with the ASYNC_END event. ASYNC
// events are considered to match if their category_group, name and id values
// all match. |id| must either be a pointer or an integer value up to 64 bits.
// If it's a pointer, the bits will be xored with a hash of the process ID so
// that the same pointer on two different processes will not collide.
//
// An asynchronous operation can consist of multiple phases. The first phase is
// defined by the ASYNC_BEGIN calls. Additional phases can be defined using the
// ASYNC_STEP_INTO or ASYNC_STEP_PAST macros. The ASYNC_STEP_INTO macro will
// annotate the block following the call. The ASYNC_STEP_PAST macro will
// annotate the block prior to the call. Note that any particular event must use
// only STEP_INTO or STEP_PAST macros; they can not mix and match. When the
// operation completes, call ASYNC_END.
//
// An ASYNC trace typically occurs on a single thread (if not, they will only be
// drawn on the thread defined in the ASYNC_BEGIN event), but all events in that
// operation must use the same |name| and |id|. Each step can have its own
// args.
#define TRACE_EVENT_ASYNC_BEGIN0(category_group, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_BEGIN, \
category_group, name, id, TRACE_EVENT_FLAG_NONE)
#define TRACE_EVENT_ASYNC_BEGIN1(category_group, name, id, arg1_name, \
arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_BEGIN, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, arg1_name, arg1_val)
#define TRACE_EVENT_ASYNC_BEGIN2(category_group, name, id, arg1_name, \
arg1_val, arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_BEGIN, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, \
arg1_name, arg1_val, arg2_name, arg2_val)
#define TRACE_EVENT_COPY_ASYNC_BEGIN0(category_group, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_BEGIN, \
category_group, name, id, TRACE_EVENT_FLAG_COPY)
#define TRACE_EVENT_COPY_ASYNC_BEGIN1(category_group, name, id, arg1_name, \
arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_BEGIN, \
category_group, name, id, TRACE_EVENT_FLAG_COPY, \
arg1_name, arg1_val)
#define TRACE_EVENT_COPY_ASYNC_BEGIN2(category_group, name, id, arg1_name, \
arg1_val, arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_BEGIN, \
category_group, name, id, TRACE_EVENT_FLAG_COPY, \
arg1_name, arg1_val, arg2_name, arg2_val)
// Records a single ASYNC_STEP_INTO event for |step| immediately. If the
// category is not enabled, then this does nothing. The |name| and |id| must
// match the ASYNC_BEGIN event above. The |step| param identifies this step
// within the async event. This should be called at the beginning of the next
// phase of an asynchronous operation. The ASYNC_BEGIN event must not have any
// ASYNC_STEP_PAST events.
#define TRACE_EVENT_ASYNC_STEP_INTO0(category_group, name, id, step) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_STEP_INTO, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, "step", step)
#define TRACE_EVENT_ASYNC_STEP_INTO1(category_group, name, id, step, \
arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_STEP_INTO, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, "step", step, \
arg1_name, arg1_val)
// Records a single ASYNC_STEP_PAST event for |step| immediately. If the
// category is not enabled, then this does nothing. The |name| and |id| must
// match the ASYNC_BEGIN event above. The |step| param identifies this step
// within the async event. This should be called at the beginning of the next
// phase of an asynchronous operation. The ASYNC_BEGIN event must not have any
// ASYNC_STEP_INTO events.
#define TRACE_EVENT_ASYNC_STEP_PAST0(category_group, name, id, step) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_STEP_PAST, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, "step", step)
#define TRACE_EVENT_ASYNC_STEP_PAST1(category_group, name, id, step, \
arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_STEP_PAST, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, "step", step, \
arg1_name, arg1_val)
// Records a single ASYNC_END event for "name" immediately. If the category
// is not enabled, then this does nothing.
#define TRACE_EVENT_ASYNC_END0(category_group, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_END, \
category_group, name, id, TRACE_EVENT_FLAG_NONE)
#define TRACE_EVENT_ASYNC_END1(category_group, name, id, arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_END, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, arg1_name, arg1_val)
#define TRACE_EVENT_ASYNC_END2(category_group, name, id, arg1_name, arg1_val, \
arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_END, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, \
arg1_name, arg1_val, arg2_name, arg2_val)
#define TRACE_EVENT_COPY_ASYNC_END0(category_group, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_END, \
category_group, name, id, TRACE_EVENT_FLAG_COPY)
#define TRACE_EVENT_COPY_ASYNC_END1(category_group, name, id, arg1_name, \
arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_END, \
category_group, name, id, TRACE_EVENT_FLAG_COPY, \
arg1_name, arg1_val)
#define TRACE_EVENT_COPY_ASYNC_END2(category_group, name, id, arg1_name, \
arg1_val, arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_END, \
category_group, name, id, TRACE_EVENT_FLAG_COPY, \
arg1_name, arg1_val, arg2_name, arg2_val)
// Records a single FLOW_BEGIN event called "name" immediately, with 0, 1 or 2
// associated arguments. If the category is not enabled, then this
// does nothing.
// - category and name strings must have application lifetime (statics or
// literals). They may not include " chars.
// - |id| is used to match the FLOW_BEGIN event with the FLOW_END event. FLOW
// events are considered to match if their category_group, name and id values
// all match. |id| must either be a pointer or an integer value up to 64 bits.
// If it's a pointer, the bits will be xored with a hash of the process ID so
// that the same pointer on two different processes will not collide.
// FLOW events are different from ASYNC events in how they are drawn by the
// tracing UI. A FLOW defines asynchronous data flow, such as posting a task
// (FLOW_BEGIN) and later executing that task (FLOW_END). Expect FLOWs to be
// drawn as lines or arrows from FLOW_BEGIN scopes to FLOW_END scopes. Similar
// to ASYNC, a FLOW can consist of multiple phases. The first phase is defined
// by the FLOW_BEGIN calls. Additional phases can be defined using the FLOW_STEP
// macros. When the operation completes, call FLOW_END. An async operation can
// span threads and processes, but all events in that operation must use the
// same |name| and |id|. Each event can have its own args.
#define TRACE_EVENT_FLOW_BEGIN0(category_group, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_BEGIN, \
category_group, name, id, TRACE_EVENT_FLAG_NONE)
#define TRACE_EVENT_FLOW_BEGIN1(category_group, name, id, arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_BEGIN, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, arg1_name, arg1_val)
#define TRACE_EVENT_FLOW_BEGIN2(category_group, name, id, arg1_name, arg1_val, \
arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_BEGIN, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, \
arg1_name, arg1_val, arg2_name, arg2_val)
#define TRACE_EVENT_COPY_FLOW_BEGIN0(category_group, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_BEGIN, \
category_group, name, id, TRACE_EVENT_FLAG_COPY)
#define TRACE_EVENT_COPY_FLOW_BEGIN1(category_group, name, id, arg1_name, \
arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_BEGIN, \
category_group, name, id, TRACE_EVENT_FLAG_COPY, \
arg1_name, arg1_val)
#define TRACE_EVENT_COPY_FLOW_BEGIN2(category_group, name, id, arg1_name, \
arg1_val, arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_BEGIN, \
category_group, name, id, TRACE_EVENT_FLAG_COPY, \
arg1_name, arg1_val, arg2_name, arg2_val)
// Records a single FLOW_STEP event for |step| immediately. If the category
// is not enabled, then this does nothing. The |name| and |id| must match the
// FLOW_BEGIN event above. The |step| param identifies this step within the
// async event. This should be called at the beginning of the next phase of an
// asynchronous operation.
#define TRACE_EVENT_FLOW_STEP0(category_group, name, id, step) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_STEP, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, "step", step)
#define TRACE_EVENT_FLOW_STEP1(category_group, name, id, step, \
arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_STEP, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, "step", step, \
arg1_name, arg1_val)
#define TRACE_EVENT_COPY_FLOW_STEP0(category_group, name, id, step) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_STEP, \
category_group, name, id, TRACE_EVENT_FLAG_COPY, "step", step)
#define TRACE_EVENT_COPY_FLOW_STEP1(category_group, name, id, step, \
arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_STEP, \
category_group, name, id, TRACE_EVENT_FLAG_COPY, "step", step, \
arg1_name, arg1_val)
// Records a single FLOW_END event for "name" immediately. If the category
// is not enabled, then this does nothing.
#define TRACE_EVENT_FLOW_END0(category_group, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_END, \
category_group, name, id, TRACE_EVENT_FLAG_NONE)
#define TRACE_EVENT_FLOW_END1(category_group, name, id, arg1_name, arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_END, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, arg1_name, arg1_val)
#define TRACE_EVENT_FLOW_END2(category_group, name, id, arg1_name, arg1_val, \
arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_END, \
category_group, name, id, TRACE_EVENT_FLAG_NONE, \
arg1_name, arg1_val, arg2_name, arg2_val)
#define TRACE_EVENT_COPY_FLOW_END0(category_group, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_END, \
category_group, name, id, TRACE_EVENT_FLAG_COPY)
#define TRACE_EVENT_COPY_FLOW_END1(category_group, name, id, arg1_name, \
arg1_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_END, \
category_group, name, id, TRACE_EVENT_FLAG_COPY, \
arg1_name, arg1_val)
#define TRACE_EVENT_COPY_FLOW_END2(category_group, name, id, arg1_name, \
arg1_val, arg2_name, arg2_val) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_FLOW_END, \
category_group, name, id, TRACE_EVENT_FLAG_COPY, \
arg1_name, arg1_val, arg2_name, arg2_val)
// Macros to track the life time and value of arbitrary client objects.
// See also TraceTrackableObject.
#define TRACE_EVENT_OBJECT_CREATED_WITH_ID(category_group, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_CREATE_OBJECT, \
category_group, name, TRACE_ID_DONT_MANGLE(id), TRACE_EVENT_FLAG_NONE)
#define TRACE_EVENT_OBJECT_SNAPSHOT_WITH_ID(category_group, name, id, snapshot) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_SNAPSHOT_OBJECT, \
category_group, name, TRACE_ID_DONT_MANGLE(id), TRACE_EVENT_FLAG_NONE,\
"snapshot", snapshot)
#define TRACE_EVENT_OBJECT_DELETED_WITH_ID(category_group, name, id) \
INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_DELETE_OBJECT, \
category_group, name, TRACE_ID_DONT_MANGLE(id), TRACE_EVENT_FLAG_NONE)
#define INTERNAL_TRACE_EVENT_CATEGORY_GROUP_ENABLED_FOR_RECORDING_MODE() \
*INTERNAL_TRACE_EVENT_UID(category_group_enabled) & \
(SkEventTracer::kEnabledForRecording_CategoryGroupEnabledFlags | \
SkEventTracer::kEnabledForEventCallback_CategoryGroupEnabledFlags)
// Macro to efficiently determine if a given category group is enabled.
#define TRACE_EVENT_CATEGORY_GROUP_ENABLED(category_group, ret) \
do { \
INTERNAL_TRACE_EVENT_GET_CATEGORY_INFO(category_group); \
if (INTERNAL_TRACE_EVENT_CATEGORY_GROUP_ENABLED_FOR_RECORDING_MODE()) { \
*ret = true; \
} else { \
*ret = false; \
} \
} while (0)
// Macro to efficiently determine, through polling, if a new trace has begun.
#define TRACE_EVENT_IS_NEW_TRACE(ret) \
do { \
static int INTERNAL_TRACE_EVENT_UID(lastRecordingNumber) = 0; \
int num_traces_recorded = TRACE_EVENT_API_GET_NUM_TRACES_RECORDED(); \
if (num_traces_recorded != -1 && \
num_traces_recorded != \
INTERNAL_TRACE_EVENT_UID(lastRecordingNumber)) { \
INTERNAL_TRACE_EVENT_UID(lastRecordingNumber) = \
num_traces_recorded; \
*ret = true; \
} else { \
*ret = false; \
} \
} while (0)
////////////////////////////////////////////////////////////////////////////////
// Implementation specific tracing API definitions.
// Get a pointer to the enabled state of the given trace category. Only
// long-lived literal strings should be given as the category group. The
// returned pointer can be held permanently in a local static for example. If
// the unsigned char is non-zero, tracing is enabled. If tracing is enabled,
// TRACE_EVENT_API_ADD_TRACE_EVENT can be called. It's OK if tracing is disabled
// between the load of the tracing state and the call to
// TRACE_EVENT_API_ADD_TRACE_EVENT, because this flag only provides an early out
// for best performance when tracing is disabled.
// const uint8_t*
// TRACE_EVENT_API_GET_CATEGORY_GROUP_ENABLED(const char* category_group)
#define TRACE_EVENT_API_GET_CATEGORY_GROUP_ENABLED \
SkEventTracer::GetInstance()->getCategoryGroupEnabled
// Get the number of times traces have been recorded. This is used to implement
// the TRACE_EVENT_IS_NEW_TRACE facility.
// unsigned int TRACE_EVENT_API_GET_NUM_TRACES_RECORDED()
#define TRACE_EVENT_API_GET_NUM_TRACES_RECORDED \
SkEventTracer::GetInstance()->getNumTracesRecorded
// Add a trace event to the platform tracing system.
// SkEventTracer::Handle TRACE_EVENT_API_ADD_TRACE_EVENT(
// char phase,
// const uint8_t* category_group_enabled,
// const char* name,
// uint64_t id,
// int num_args,
// const char** arg_names,
// const uint8_t* arg_types,
// const uint64_t* arg_values,
// unsigned char flags)
#define TRACE_EVENT_API_ADD_TRACE_EVENT \
SkEventTracer::GetInstance()->addTraceEvent
// Set the duration field of a COMPLETE trace event.
// void TRACE_EVENT_API_UPDATE_TRACE_EVENT_DURATION(
// const uint8_t* category_group_enabled,
// const char* name,
// SkEventTracer::Handle id)
#define TRACE_EVENT_API_UPDATE_TRACE_EVENT_DURATION \
SkEventTracer::GetInstance()->updateTraceEventDuration
// These operations are atomic in the Chrome tracing implementation
// to cater to ARM's weak memory consistency; we're just doing read/
// write here because it's not strictly needed for correctness.
// So says Nat.
// FIXME
#define TRACE_EVENT_API_ATOMIC_WORD intptr_t
#define TRACE_EVENT_API_ATOMIC_LOAD(var) (*(&var))
#define TRACE_EVENT_API_ATOMIC_STORE(var, value) (var=value)
// Defines visibility for classes in trace_event.h
#define TRACE_EVENT_API_CLASS_EXPORT SK_API
// The thread buckets for the sampling profiler.
TRACE_EVENT_API_CLASS_EXPORT extern \
TRACE_EVENT_API_ATOMIC_WORD g_trace_state[3];
#define TRACE_EVENT_API_THREAD_BUCKET(thread_bucket) \
g_trace_state[thread_bucket]
////////////////////////////////////////////////////////////////////////////////
// Implementation detail: trace event macros create temporary variables
// to keep instrumentation overhead low. These macros give each temporary
// variable a unique name based on the line number to prevent name collisions.
#define INTERNAL_TRACE_EVENT_UID3(a,b) \
trace_event_unique_##a##b
#define INTERNAL_TRACE_EVENT_UID2(a,b) \
INTERNAL_TRACE_EVENT_UID3(a,b)
#define INTERNAL_TRACE_EVENT_UID(name_prefix) \
INTERNAL_TRACE_EVENT_UID2(name_prefix, __LINE__)
// Implementation detail: internal macro to create static category.
// No barriers are needed, because this code is designed to operate safely
// even when the unsigned char* points to garbage data (which may be the case
// on processors without cache coherency).
#define INTERNAL_TRACE_EVENT_GET_CATEGORY_INFO_CUSTOM_VARIABLES( \
category_group, atomic, category_group_enabled) \
category_group_enabled = \
reinterpret_cast<const uint8_t*>(TRACE_EVENT_API_ATOMIC_LOAD( \
atomic)); \
if (!category_group_enabled) { \
category_group_enabled = \
TRACE_EVENT_API_GET_CATEGORY_GROUP_ENABLED(category_group); \
TRACE_EVENT_API_ATOMIC_STORE(atomic, \
reinterpret_cast<TRACE_EVENT_API_ATOMIC_WORD>( \
category_group_enabled)); \
}
#define INTERNAL_TRACE_EVENT_GET_CATEGORY_INFO(category_group) \
static TRACE_EVENT_API_ATOMIC_WORD INTERNAL_TRACE_EVENT_UID(atomic) = 0; \
const uint8_t* INTERNAL_TRACE_EVENT_UID(category_group_enabled); \
INTERNAL_TRACE_EVENT_GET_CATEGORY_INFO_CUSTOM_VARIABLES(category_group, \
INTERNAL_TRACE_EVENT_UID(atomic), \
INTERNAL_TRACE_EVENT_UID(category_group_enabled));
// Implementation detail: internal macro to create static category and add
// event if the category is enabled.
#define INTERNAL_TRACE_EVENT_ADD(phase, category_group, name, flags, ...) \
do { \
INTERNAL_TRACE_EVENT_GET_CATEGORY_INFO(category_group); \
if (INTERNAL_TRACE_EVENT_CATEGORY_GROUP_ENABLED_FOR_RECORDING_MODE()) { \
skia::tracing_internals::AddTraceEvent( \
phase, INTERNAL_TRACE_EVENT_UID(category_group_enabled), name, \
skia::tracing_internals::kNoEventId, flags, ##__VA_ARGS__); \
} \
} while (0)
// Implementation detail: internal macro to create static category and add begin
// event if the category is enabled. Also adds the end event when the scope
// ends.
#define INTERNAL_TRACE_EVENT_ADD_SCOPED(category_group, name, ...) \
INTERNAL_TRACE_EVENT_GET_CATEGORY_INFO(category_group); \
skia::tracing_internals::ScopedTracer INTERNAL_TRACE_EVENT_UID(tracer); \
if (INTERNAL_TRACE_EVENT_CATEGORY_GROUP_ENABLED_FOR_RECORDING_MODE()) { \
SkEventTracer::Handle h = skia::tracing_internals::AddTraceEvent( \
TRACE_EVENT_PHASE_COMPLETE, \
INTERNAL_TRACE_EVENT_UID(category_group_enabled), \
name, skia::tracing_internals::kNoEventId, \
TRACE_EVENT_FLAG_NONE, ##__VA_ARGS__); \
INTERNAL_TRACE_EVENT_UID(tracer).Initialize( \
INTERNAL_TRACE_EVENT_UID(category_group_enabled), name, h); \
}
// Implementation detail: internal macro to create static category and add
// event if the category is enabled.
#define INTERNAL_TRACE_EVENT_ADD_WITH_ID(phase, category_group, name, id, \
flags, ...) \
do { \
INTERNAL_TRACE_EVENT_GET_CATEGORY_INFO(category_group); \
if (INTERNAL_TRACE_EVENT_CATEGORY_GROUP_ENABLED_FOR_RECORDING_MODE()) { \
unsigned char trace_event_flags = flags | TRACE_EVENT_FLAG_HAS_ID; \
skia::tracing_internals::TraceID trace_event_trace_id( \
id, &trace_event_flags); \
skia::tracing_internals::AddTraceEvent( \
phase, INTERNAL_TRACE_EVENT_UID(category_group_enabled), \
name, trace_event_trace_id.data(), trace_event_flags, \
##__VA_ARGS__); \
} \
} while (0)
// Implementation detail: internal macro to create static category and add
// event if the category is enabled.
#define INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP(phase, \
category_group, name, id, thread_id, flags, ...) \
do { \
INTERNAL_TRACE_EVENT_GET_CATEGORY_INFO(category_group); \
if (INTERNAL_TRACE_EVENT_CATEGORY_GROUP_ENABLED_FOR_RECORDING_MODE()) { \
unsigned char trace_event_flags = flags | TRACE_EVENT_FLAG_HAS_ID; \
skia::tracing_internals::TraceID trace_event_trace_id( \
id, &trace_event_flags); \
skia::tracing_internals::AddTraceEventWithThreadIdAndTimestamp( \
phase, INTERNAL_TRACE_EVENT_UID(category_group_enabled), \
name, trace_event_trace_id.data(), \
thread_id, base::TimeTicks::FromInternalValue(timestamp), \
trace_event_flags, ##__VA_ARGS__); \
} \
} while (0)
// Notes regarding the following definitions:
// New values can be added and propagated to third party libraries, but existing
// definitions must never be changed, because third party libraries may use old
// definitions.
// Phase indicates the nature of an event entry. E.g. part of a begin/end pair.
#define TRACE_EVENT_PHASE_BEGIN ('B')
#define TRACE_EVENT_PHASE_END ('E')
#define TRACE_EVENT_PHASE_COMPLETE ('X')
#define TRACE_EVENT_PHASE_INSTANT ('i')
#define TRACE_EVENT_PHASE_ASYNC_BEGIN ('S')
#define TRACE_EVENT_PHASE_ASYNC_STEP_INTO ('T')
#define TRACE_EVENT_PHASE_ASYNC_STEP_PAST ('p')
#define TRACE_EVENT_PHASE_ASYNC_END ('F')
#define TRACE_EVENT_PHASE_FLOW_BEGIN ('s')
#define TRACE_EVENT_PHASE_FLOW_STEP ('t')
#define TRACE_EVENT_PHASE_FLOW_END ('f')
#define TRACE_EVENT_PHASE_METADATA ('M')
#define TRACE_EVENT_PHASE_COUNTER ('C')
#define TRACE_EVENT_PHASE_SAMPLE ('P')
#define TRACE_EVENT_PHASE_CREATE_OBJECT ('N')
#define TRACE_EVENT_PHASE_SNAPSHOT_OBJECT ('O')
#define TRACE_EVENT_PHASE_DELETE_OBJECT ('D')
// Flags for changing the behavior of TRACE_EVENT_API_ADD_TRACE_EVENT.
#define TRACE_EVENT_FLAG_NONE (static_cast<unsigned char>(0))
#define TRACE_EVENT_FLAG_COPY (static_cast<unsigned char>(1 << 0))
#define TRACE_EVENT_FLAG_HAS_ID (static_cast<unsigned char>(1 << 1))
#define TRACE_EVENT_FLAG_MANGLE_ID (static_cast<unsigned char>(1 << 2))
#define TRACE_EVENT_FLAG_SCOPE_OFFSET (static_cast<unsigned char>(1 << 3))
#define TRACE_EVENT_FLAG_SCOPE_MASK (static_cast<unsigned char>( \
TRACE_EVENT_FLAG_SCOPE_OFFSET | (TRACE_EVENT_FLAG_SCOPE_OFFSET << 1)))
// Type values for identifying types in the TraceValue union.
#define TRACE_VALUE_TYPE_BOOL (static_cast<unsigned char>(1))
#define TRACE_VALUE_TYPE_UINT (static_cast<unsigned char>(2))
#define TRACE_VALUE_TYPE_INT (static_cast<unsigned char>(3))
#define TRACE_VALUE_TYPE_DOUBLE (static_cast<unsigned char>(4))
#define TRACE_VALUE_TYPE_POINTER (static_cast<unsigned char>(5))
#define TRACE_VALUE_TYPE_STRING (static_cast<unsigned char>(6))
#define TRACE_VALUE_TYPE_COPY_STRING (static_cast<unsigned char>(7))
#define TRACE_VALUE_TYPE_CONVERTABLE (static_cast<unsigned char>(8))
// Enum reflecting the scope of an INSTANT event. Must fit within
// TRACE_EVENT_FLAG_SCOPE_MASK.
#define TRACE_EVENT_SCOPE_GLOBAL (static_cast<unsigned char>(0 << 3))
#define TRACE_EVENT_SCOPE_PROCESS (static_cast<unsigned char>(1 << 3))
#define TRACE_EVENT_SCOPE_THREAD (static_cast<unsigned char>(2 << 3))
#define TRACE_EVENT_SCOPE_NAME_GLOBAL ('g')
#define TRACE_EVENT_SCOPE_NAME_PROCESS ('p')
#define TRACE_EVENT_SCOPE_NAME_THREAD ('t')
namespace skia {
namespace tracing_internals {
// Specify these values when the corresponding argument of AddTraceEvent is not
// used.
const int kZeroNumArgs = 0;
const uint64_t kNoEventId = 0;
// TraceID encapsulates an ID that can either be an integer or pointer. Pointers
// are by default mangled with the Process ID so that they are unlikely to
// collide when the same pointer is used on different processes.
class TraceID {
public:
class DontMangle {
public:
explicit DontMangle(const void* id)
: data_(static_cast<uint64_t>(
reinterpret_cast<unsigned long>(id))) {}
explicit DontMangle(uint64_t id) : data_(id) {}
explicit DontMangle(unsigned int id) : data_(id) {}
explicit DontMangle(unsigned short id) : data_(id) {}
explicit DontMangle(unsigned char id) : data_(id) {}
explicit DontMangle(long long id)
: data_(static_cast<uint64_t>(id)) {}
explicit DontMangle(long id)
: data_(static_cast<uint64_t>(id)) {}
explicit DontMangle(int id)
: data_(static_cast<uint64_t>(id)) {}
explicit DontMangle(short id)
: data_(static_cast<uint64_t>(id)) {}
explicit DontMangle(signed char id)
: data_(static_cast<uint64_t>(id)) {}
uint64_t data() const { return data_; }
private:
uint64_t data_;
};
class ForceMangle {
public:
explicit ForceMangle(uint64_t id) : data_(id) {}
explicit ForceMangle(unsigned int id) : data_(id) {}
explicit ForceMangle(unsigned short id) : data_(id) {}
explicit ForceMangle(unsigned char id) : data_(id) {}
explicit ForceMangle(long long id)
: data_(static_cast<uint64_t>(id)) {}
explicit ForceMangle(long id)
: data_(static_cast<uint64_t>(id)) {}
explicit ForceMangle(int id)
: data_(static_cast<uint64_t>(id)) {}
explicit ForceMangle(short id)
: data_(static_cast<uint64_t>(id)) {}
explicit ForceMangle(signed char id)
: data_(static_cast<uint64_t>(id)) {}
uint64_t data() const { return data_; }
private:
uint64_t data_;
};
TraceID(const void* id, unsigned char* flags)
: data_(static_cast<uint64_t>(
reinterpret_cast<unsigned long>(id))) {
*flags |= TRACE_EVENT_FLAG_MANGLE_ID;
}
TraceID(ForceMangle id, unsigned char* flags) : data_(id.data()) {
*flags |= TRACE_EVENT_FLAG_MANGLE_ID;
}
TraceID(DontMangle id, unsigned char* flags) : data_(id.data()) {
}
TraceID(uint64_t id, unsigned char* flags)
: data_(id) { (void)flags; }
TraceID(unsigned int id, unsigned char* flags)
: data_(id) { (void)flags; }
TraceID(unsigned short id, unsigned char* flags)
: data_(id) { (void)flags; }
TraceID(unsigned char id, unsigned char* flags)
: data_(id) { (void)flags; }
TraceID(long long id, unsigned char* flags)
: data_(static_cast<uint64_t>(id)) { (void)flags; }
TraceID(long id, unsigned char* flags)
: data_(static_cast<uint64_t>(id)) { (void)flags; }
TraceID(int id, unsigned char* flags)
: data_(static_cast<uint64_t>(id)) { (void)flags; }
TraceID(short id, unsigned char* flags)
: data_(static_cast<uint64_t>(id)) { (void)flags; }
TraceID(signed char id, unsigned char* flags)
: data_(static_cast<uint64_t>(id)) { (void)flags; }
uint64_t data() const { return data_; }
private:
uint64_t data_;
};
// Simple union to store various types as uint64_t.
union TraceValueUnion {
bool as_bool;
uint64_t as_uint;
long long as_int;
double as_double;
const void* as_pointer;
const char* as_string;
};
// Simple container for const char* that should be copied instead of retained.
class TraceStringWithCopy {
public:
explicit TraceStringWithCopy(const char* str) : str_(str) {}
operator const char* () const { return str_; }
private:
const char* str_;
};
// Define SetTraceValue for each allowed type. It stores the type and
// value in the return arguments. This allows this API to avoid declaring any
// structures so that it is portable to third_party libraries.
#define INTERNAL_DECLARE_SET_TRACE_VALUE(actual_type, \
union_member, \
value_type_id) \
static inline void SetTraceValue( \
actual_type arg, \
unsigned char* type, \
uint64_t* value) { \
TraceValueUnion type_value; \
type_value.union_member = arg; \
*type = value_type_id; \
*value = type_value.as_uint; \
}
// Simpler form for int types that can be safely casted.
#define INTERNAL_DECLARE_SET_TRACE_VALUE_INT(actual_type, \
value_type_id) \
static inline void SetTraceValue( \
actual_type arg, \
unsigned char* type, \
uint64_t* value) { \
*type = value_type_id; \
*value = static_cast<uint64_t>(arg); \
}
INTERNAL_DECLARE_SET_TRACE_VALUE_INT(uint64_t, TRACE_VALUE_TYPE_UINT)
INTERNAL_DECLARE_SET_TRACE_VALUE_INT(unsigned int, TRACE_VALUE_TYPE_UINT)
INTERNAL_DECLARE_SET_TRACE_VALUE_INT(unsigned short, TRACE_VALUE_TYPE_UINT)
INTERNAL_DECLARE_SET_TRACE_VALUE_INT(unsigned char, TRACE_VALUE_TYPE_UINT)
INTERNAL_DECLARE_SET_TRACE_VALUE_INT(long long, TRACE_VALUE_TYPE_INT)
INTERNAL_DECLARE_SET_TRACE_VALUE_INT(long, TRACE_VALUE_TYPE_INT)
INTERNAL_DECLARE_SET_TRACE_VALUE_INT(int, TRACE_VALUE_TYPE_INT)
INTERNAL_DECLARE_SET_TRACE_VALUE_INT(short, TRACE_VALUE_TYPE_INT)
INTERNAL_DECLARE_SET_TRACE_VALUE_INT(signed char, TRACE_VALUE_TYPE_INT)
INTERNAL_DECLARE_SET_TRACE_VALUE(bool, as_bool, TRACE_VALUE_TYPE_BOOL)
INTERNAL_DECLARE_SET_TRACE_VALUE(double, as_double, TRACE_VALUE_TYPE_DOUBLE)
INTERNAL_DECLARE_SET_TRACE_VALUE(const void*, as_pointer,
TRACE_VALUE_TYPE_POINTER)
INTERNAL_DECLARE_SET_TRACE_VALUE(const char*, as_string,
TRACE_VALUE_TYPE_STRING)
INTERNAL_DECLARE_SET_TRACE_VALUE(const TraceStringWithCopy&, as_string,
TRACE_VALUE_TYPE_COPY_STRING)
#undef INTERNAL_DECLARE_SET_TRACE_VALUE
#undef INTERNAL_DECLARE_SET_TRACE_VALUE_INT
// These AddTraceEvent and AddTraceEvent template
// functions are defined here instead of in the macro, because the arg_values
// could be temporary objects, such as std::string. In order to store
// pointers to the internal c_str and pass through to the tracing API,
// the arg_values must live throughout these procedures.
static inline SkEventTracer::Handle
AddTraceEvent(
char phase,
const uint8_t* category_group_enabled,
const char* name,
uint64_t id,
unsigned char flags) {
return TRACE_EVENT_API_ADD_TRACE_EVENT(
phase, category_group_enabled, name, id,
kZeroNumArgs, NULL, NULL, NULL, flags);
}
template<class ARG1_TYPE>
static inline SkEventTracer::Handle
AddTraceEvent(
char phase,
const uint8_t* category_group_enabled,
const char* name,
uint64_t id,
unsigned char flags,
const char* arg1_name,
const ARG1_TYPE& arg1_val) {
const int num_args = 1;
uint8_t arg_types[1];
uint64_t arg_values[1];
SetTraceValue(arg1_val, &arg_types[0], &arg_values[0]);
return TRACE_EVENT_API_ADD_TRACE_EVENT(
phase, category_group_enabled, name, id,
num_args, &arg1_name, arg_types, arg_values, flags);
}
template<class ARG1_TYPE, class ARG2_TYPE>
static inline SkEventTracer::Handle
AddTraceEvent(
char phase,
const uint8_t* category_group_enabled,
const char* name,
uint64_t id,
unsigned char flags,
const char* arg1_name,
const ARG1_TYPE& arg1_val,
const char* arg2_name,
const ARG2_TYPE& arg2_val) {
const int num_args = 2;
const char* arg_names[2] = { arg1_name, arg2_name };
unsigned char arg_types[2];
uint64_t arg_values[2];
SetTraceValue(arg1_val, &arg_types[0], &arg_values[0]);
SetTraceValue(arg2_val, &arg_types[1], &arg_values[1]);
return TRACE_EVENT_API_ADD_TRACE_EVENT(
phase, category_group_enabled, name, id,
num_args, arg_names, arg_types, arg_values, flags);
}
// Used by TRACE_EVENTx macros. Do not use directly.
class TRACE_EVENT_API_CLASS_EXPORT ScopedTracer {
public:
// Note: members of data_ intentionally left uninitialized. See Initialize.
ScopedTracer() : p_data_(NULL) {}
~ScopedTracer() {
if (p_data_ && *data_.category_group_enabled)
TRACE_EVENT_API_UPDATE_TRACE_EVENT_DURATION(
data_.category_group_enabled, data_.name, data_.event_handle);
}
void Initialize(const uint8_t* category_group_enabled,
const char* name,
SkEventTracer::Handle event_handle) {
data_.category_group_enabled = category_group_enabled;
data_.name = name;
data_.event_handle = event_handle;
p_data_ = &data_;
}
private:
// This Data struct workaround is to avoid initializing all the members
// in Data during construction of this object, since this object is always
// constructed, even when tracing is disabled. If the members of Data were
// members of this class instead, compiler warnings occur about potential
// uninitialized accesses.
struct Data {
const uint8_t* category_group_enabled;
const char* name;
SkEventTracer::Handle event_handle;
};
Data* p_data_;
Data data_;
};
// Used by TRACE_EVENT_BINARY_EFFICIENTx macro. Do not use directly.
class TRACE_EVENT_API_CLASS_EXPORT ScopedTraceBinaryEfficient {
public:
ScopedTraceBinaryEfficient(const char* category_group, const char* name);
~ScopedTraceBinaryEfficient();
private:
const uint8_t* category_group_enabled_;
const char* name_;
SkEventTracer::Handle event_handle_;
};
// This macro generates less code then TRACE_EVENT0 but is also
// slower to execute when tracing is off. It should generally only be
// used with code that is seldom executed or conditionally executed
// when debugging.
// For now the category_group must be "gpu".
#define TRACE_EVENT_BINARY_EFFICIENT0(category_group, name) \
skia::tracing_internals::ScopedTraceBinaryEfficient \
INTERNAL_TRACE_EVENT_UID(scoped_trace)(category_group, name);
// TraceEventSamplingStateScope records the current sampling state
// and sets a new sampling state. When the scope exists, it restores
// the sampling state having recorded.
template<size_t BucketNumber>
class TraceEventSamplingStateScope {
public:
TraceEventSamplingStateScope(const char* category_and_name) {
previous_state_ = TraceEventSamplingStateScope<BucketNumber>::Current();
TraceEventSamplingStateScope<BucketNumber>::Set(category_and_name);
}
~TraceEventSamplingStateScope() {
TraceEventSamplingStateScope<BucketNumber>::Set(previous_state_);
}
static inline const char* Current() {
return reinterpret_cast<const char*>(TRACE_EVENT_API_ATOMIC_LOAD(
g_trace_state[BucketNumber]));
}
static inline void Set(const char* category_and_name) {
TRACE_EVENT_API_ATOMIC_STORE(
g_trace_state[BucketNumber],
reinterpret_cast<TRACE_EVENT_API_ATOMIC_WORD>(
const_cast<char*>(category_and_name)));
}
private:
const char* previous_state_;
};
} // namespace tracing_internals
} // namespace skia
#endif