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// 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.
// Use trace_analyzer::Query and trace_analyzer::TraceAnalyzer to search for
// specific trace events that were generated by the trace_event.h API.
//
// Basic procedure:
// - Get trace events JSON string from base::trace_event::TraceLog.
// - Create TraceAnalyzer with JSON string.
// - Call TraceAnalyzer::AssociateBeginEndEvents (optional).
// - Call TraceAnalyzer::AssociateEvents (zero or more times).
// - Call TraceAnalyzer::FindEvents with queries to find specific events.
//
// A Query is a boolean expression tree that evaluates to true or false for a
// given trace event. Queries can be combined into a tree using boolean,
// arithmetic and comparison operators that refer to data of an individual trace
// event.
//
// The events are returned as trace_analyzer::TraceEvent objects.
// TraceEvent contains a single trace event's data, as well as a pointer to
// a related trace event. The related trace event is typically the matching end
// of a begin event or the matching begin of an end event.
//
// The following examples use this basic setup code to construct TraceAnalyzer
// with the json trace string retrieved from TraceLog and construct an event
// vector for retrieving events:
//
// TraceAnalyzer analyzer(json_events);
// TraceEventVector events;
//
// EXAMPLE 1: Find events named "my_event".
//
// analyzer.FindEvents(Query(EVENT_NAME) == "my_event", &events);
//
// EXAMPLE 2: Find begin events named "my_event" with duration > 1 second.
//
// Query q = (Query(EVENT_NAME) == Query::String("my_event") &&
// Query(EVENT_PHASE) == Query::Phase(TRACE_EVENT_PHASE_BEGIN) &&
// Query(EVENT_DURATION) > Query::Double(1000000.0));
// analyzer.FindEvents(q, &events);
//
// EXAMPLE 3: Associating event pairs across threads.
//
// If the test needs to analyze something that starts and ends on different
// threads, the test needs to use INSTANT events. The typical procedure is to
// specify the same unique ID as a TRACE_EVENT argument on both the start and
// finish INSTANT events. Then use the following procedure to associate those
// events.
//
// Step 1: instrument code with custom begin/end trace events.
// [Thread 1 tracing code]
// TRACE_EVENT_INSTANT1("test_latency", "timing1_begin", "id", 3);
// [Thread 2 tracing code]
// TRACE_EVENT_INSTANT1("test_latency", "timing1_end", "id", 3);
//
// Step 2: associate these custom begin/end pairs.
// Query begin(Query(EVENT_NAME) == Query::String("timing1_begin"));
// Query end(Query(EVENT_NAME) == Query::String("timing1_end"));
// Query match(Query(EVENT_ARG, "id") == Query(OTHER_ARG, "id"));
// analyzer.AssociateEvents(begin, end, match);
//
// Step 3: search for "timing1_begin" events with existing other event.
// Query q = (Query(EVENT_NAME) == Query::String("timing1_begin") &&
// Query(EVENT_HAS_OTHER));
// analyzer.FindEvents(q, &events);
//
// Step 4: analyze events, such as checking durations.
// for (size_t i = 0; i < events.size(); ++i) {
// double duration;
// EXPECT_TRUE(events[i].GetAbsTimeToOtherEvent(&duration));
// EXPECT_LT(duration, 1000000.0/60.0); // expect less than 1/60 second.
// }
#ifndef BASE_TEST_TRACE_EVENT_ANALYZER_H_
#define BASE_TEST_TRACE_EVENT_ANALYZER_H_
#include <stddef.h>
#include <stdint.h>
#include <map>
#include "base/macros.h"
#include "base/memory/ref_counted.h"
#include "base/trace_event/trace_event.h"
namespace base {
class Value;
}
namespace trace_analyzer {
class QueryNode;
// trace_analyzer::TraceEvent is a more convenient form of the
// base::trace_event::TraceEvent class to make tracing-based tests easier to
// write.
struct TraceEvent {
// ProcessThreadID contains a Process ID and Thread ID.
struct ProcessThreadID {
ProcessThreadID() : process_id(0), thread_id(0) {}
ProcessThreadID(int process_id, int thread_id)
: process_id(process_id), thread_id(thread_id) {}
bool operator< (const ProcessThreadID& rhs) const {
if (process_id != rhs.process_id)
return process_id < rhs.process_id;
return thread_id < rhs.thread_id;
}
int process_id;
int thread_id;
};
TraceEvent();
TraceEvent(TraceEvent&& other);
~TraceEvent();
bool SetFromJSON(const base::Value* event_value) WARN_UNUSED_RESULT;
bool operator< (const TraceEvent& rhs) const {
return timestamp < rhs.timestamp;
}
TraceEvent& operator=(TraceEvent&& rhs);
bool has_other_event() const { return other_event; }
// Returns absolute duration in microseconds between this event and other
// event. Must have already verified that other_event exists by
// Query(EVENT_HAS_OTHER) or by calling has_other_event().
double GetAbsTimeToOtherEvent() const;
// Return the argument value if it exists and it is a string.
bool GetArgAsString(const std::string& name, std::string* arg) const;
// Return the argument value if it exists and it is a number.
bool GetArgAsNumber(const std::string& name, double* arg) const;
// Return the argument value if it exists.
bool GetArgAsValue(const std::string& name,
std::unique_ptr<base::Value>* arg) const;
// Check if argument exists and is string.
bool HasStringArg(const std::string& name) const;
// Check if argument exists and is number (double, int or bool).
bool HasNumberArg(const std::string& name) const;
// Check if argument exists.
bool HasArg(const std::string& name) const;
// Get known existing arguments as specific types.
// Useful when you have already queried the argument with
// Query(HAS_NUMBER_ARG) or Query(HAS_STRING_ARG).
std::string GetKnownArgAsString(const std::string& name) const;
double GetKnownArgAsDouble(const std::string& name) const;
int GetKnownArgAsInt(const std::string& name) const;
bool GetKnownArgAsBool(const std::string& name) const;
std::unique_ptr<base::Value> GetKnownArgAsValue(
const std::string& name) const;
// Process ID and Thread ID.
ProcessThreadID thread;
// Time since epoch in microseconds.
// Stored as double to match its JSON representation.
double timestamp;
double duration;
char phase;
std::string category;
std::string name;
std::string id;
// All numbers and bool values from TraceEvent args are cast to double.
// bool becomes 1.0 (true) or 0.0 (false).
std::map<std::string, double> arg_numbers;
std::map<std::string, std::string> arg_strings;
std::map<std::string, std::unique_ptr<base::Value>> arg_values;
// The other event associated with this event (or NULL).
const TraceEvent* other_event;
};
typedef std::vector<const TraceEvent*> TraceEventVector;
class Query {
public:
Query(const Query& query);
~Query();
////////////////////////////////////////////////////////////////
// Query literal values
// Compare with the given string.
static Query String(const std::string& str);
// Compare with the given number.
static Query Double(double num);
static Query Int(int32_t num);
static Query Uint(uint32_t num);
// Compare with the given bool.
static Query Bool(bool boolean);
// Compare with the given phase.
static Query Phase(char phase);
// Compare with the given string pattern. Only works with == and != operators.
// Example: Query(EVENT_NAME) == Query::Pattern("MyEvent*")
static Query Pattern(const std::string& pattern);
////////////////////////////////////////////////////////////////
// Query event members
static Query EventPid() { return Query(EVENT_PID); }
static Query EventTid() { return Query(EVENT_TID); }
// Return the timestamp of the event in microseconds since epoch.
static Query EventTime() { return Query(EVENT_TIME); }
// Return the absolute time between event and other event in microseconds.
// Only works if Query::EventHasOther() == true.
static Query EventDuration() { return Query(EVENT_DURATION); }
// Return the duration of a COMPLETE event.
static Query EventCompleteDuration() {
return Query(EVENT_COMPLETE_DURATION);
}
static Query EventPhase() { return Query(EVENT_PHASE); }
static Query EventCategory() { return Query(EVENT_CATEGORY); }
static Query EventName() { return Query(EVENT_NAME); }
static Query EventId() { return Query(EVENT_ID); }
static Query EventPidIs(int process_id) {
return Query(EVENT_PID) == Query::Int(process_id);
}
static Query EventTidIs(int thread_id) {
return Query(EVENT_TID) == Query::Int(thread_id);
}
static Query EventThreadIs(const TraceEvent::ProcessThreadID& thread) {
return EventPidIs(thread.process_id) && EventTidIs(thread.thread_id);
}
static Query EventTimeIs(double timestamp) {
return Query(EVENT_TIME) == Query::Double(timestamp);
}
static Query EventDurationIs(double duration) {
return Query(EVENT_DURATION) == Query::Double(duration);
}
static Query EventPhaseIs(char phase) {
return Query(EVENT_PHASE) == Query::Phase(phase);
}
static Query EventCategoryIs(const std::string& category) {
return Query(EVENT_CATEGORY) == Query::String(category);
}
static Query EventNameIs(const std::string& name) {
return Query(EVENT_NAME) == Query::String(name);
}
static Query EventIdIs(const std::string& id) {
return Query(EVENT_ID) == Query::String(id);
}
// Evaluates to true if arg exists and is a string.
static Query EventHasStringArg(const std::string& arg_name) {
return Query(EVENT_HAS_STRING_ARG, arg_name);
}
// Evaluates to true if arg exists and is a number.
// Number arguments include types double, int and bool.
static Query EventHasNumberArg(const std::string& arg_name) {
return Query(EVENT_HAS_NUMBER_ARG, arg_name);
}
// Evaluates to arg value (string or number).
static Query EventArg(const std::string& arg_name) {
return Query(EVENT_ARG, arg_name);
}
// Return true if associated event exists.
static Query EventHasOther() { return Query(EVENT_HAS_OTHER); }
// Access the associated other_event's members:
static Query OtherPid() { return Query(OTHER_PID); }
static Query OtherTid() { return Query(OTHER_TID); }
static Query OtherTime() { return Query(OTHER_TIME); }
static Query OtherPhase() { return Query(OTHER_PHASE); }
static Query OtherCategory() { return Query(OTHER_CATEGORY); }
static Query OtherName() { return Query(OTHER_NAME); }
static Query OtherId() { return Query(OTHER_ID); }
static Query OtherPidIs(int process_id) {
return Query(OTHER_PID) == Query::Int(process_id);
}
static Query OtherTidIs(int thread_id) {
return Query(OTHER_TID) == Query::Int(thread_id);
}
static Query OtherThreadIs(const TraceEvent::ProcessThreadID& thread) {
return OtherPidIs(thread.process_id) && OtherTidIs(thread.thread_id);
}
static Query OtherTimeIs(double timestamp) {
return Query(OTHER_TIME) == Query::Double(timestamp);
}
static Query OtherPhaseIs(char phase) {
return Query(OTHER_PHASE) == Query::Phase(phase);
}
static Query OtherCategoryIs(const std::string& category) {
return Query(OTHER_CATEGORY) == Query::String(category);
}
static Query OtherNameIs(const std::string& name) {
return Query(OTHER_NAME) == Query::String(name);
}
static Query OtherIdIs(const std::string& id) {
return Query(OTHER_ID) == Query::String(id);
}
// Evaluates to true if arg exists and is a string.
static Query OtherHasStringArg(const std::string& arg_name) {
return Query(OTHER_HAS_STRING_ARG, arg_name);
}
// Evaluates to true if arg exists and is a number.
// Number arguments include types double, int and bool.
static Query OtherHasNumberArg(const std::string& arg_name) {
return Query(OTHER_HAS_NUMBER_ARG, arg_name);
}
// Evaluates to arg value (string or number).
static Query OtherArg(const std::string& arg_name) {
return Query(OTHER_ARG, arg_name);
}
////////////////////////////////////////////////////////////////
// Common queries:
// Find BEGIN events that have a corresponding END event.
static Query MatchBeginWithEnd() {
return (Query(EVENT_PHASE) == Query::Phase(TRACE_EVENT_PHASE_BEGIN)) &&
Query(EVENT_HAS_OTHER);
}
// Find COMPLETE events.
static Query MatchComplete() {
return (Query(EVENT_PHASE) == Query::Phase(TRACE_EVENT_PHASE_COMPLETE));
}
// Find ASYNC_BEGIN events that have a corresponding ASYNC_END event.
static Query MatchAsyncBeginWithNext() {
return (Query(EVENT_PHASE) ==
Query::Phase(TRACE_EVENT_PHASE_ASYNC_BEGIN)) &&
Query(EVENT_HAS_OTHER);
}
// Find BEGIN events of given |name| which also have associated END events.
static Query MatchBeginName(const std::string& name) {
return (Query(EVENT_NAME) == Query(name)) && MatchBeginWithEnd();
}
// Find COMPLETE events of given |name|.
static Query MatchCompleteName(const std::string& name) {
return (Query(EVENT_NAME) == Query(name)) && MatchComplete();
}
// Match given Process ID and Thread ID.
static Query MatchThread(const TraceEvent::ProcessThreadID& thread) {
return (Query(EVENT_PID) == Query::Int(thread.process_id)) &&
(Query(EVENT_TID) == Query::Int(thread.thread_id));
}
// Match event pair that spans multiple threads.
static Query MatchCrossThread() {
return (Query(EVENT_PID) != Query(OTHER_PID)) ||
(Query(EVENT_TID) != Query(OTHER_TID));
}
////////////////////////////////////////////////////////////////
// Operators:
// Boolean operators:
Query operator==(const Query& rhs) const;
Query operator!=(const Query& rhs) const;
Query operator< (const Query& rhs) const;
Query operator<=(const Query& rhs) const;
Query operator> (const Query& rhs) const;
Query operator>=(const Query& rhs) const;
Query operator&&(const Query& rhs) const;
Query operator||(const Query& rhs) const;
Query operator!() const;
// Arithmetic operators:
// Following operators are applied to double arguments:
Query operator+(const Query& rhs) const;
Query operator-(const Query& rhs) const;
Query operator*(const Query& rhs) const;
Query operator/(const Query& rhs) const;
Query operator-() const;
// Mod operates on int64_t args (doubles are casted to int64_t beforehand):
Query operator%(const Query& rhs) const;
// Return true if the given event matches this query tree.
// This is a recursive method that walks the query tree.
bool Evaluate(const TraceEvent& event) const;
private:
enum TraceEventMember {
EVENT_INVALID,
EVENT_PID,
EVENT_TID,
EVENT_TIME,
EVENT_DURATION,
EVENT_COMPLETE_DURATION,
EVENT_PHASE,
EVENT_CATEGORY,
EVENT_NAME,
EVENT_ID,
EVENT_HAS_STRING_ARG,
EVENT_HAS_NUMBER_ARG,
EVENT_ARG,
EVENT_HAS_OTHER,
OTHER_PID,
OTHER_TID,
OTHER_TIME,
OTHER_PHASE,
OTHER_CATEGORY,
OTHER_NAME,
OTHER_ID,
OTHER_HAS_STRING_ARG,
OTHER_HAS_NUMBER_ARG,
OTHER_ARG,
};
enum Operator {
OP_INVALID,
// Boolean operators:
OP_EQ,
OP_NE,
OP_LT,
OP_LE,
OP_GT,
OP_GE,
OP_AND,
OP_OR,
OP_NOT,
// Arithmetic operators:
OP_ADD,
OP_SUB,
OP_MUL,
OP_DIV,
OP_MOD,
OP_NEGATE
};
enum QueryType {
QUERY_BOOLEAN_OPERATOR,
QUERY_ARITHMETIC_OPERATOR,
QUERY_EVENT_MEMBER,
QUERY_NUMBER,
QUERY_STRING
};
// Compare with the given member.
explicit Query(TraceEventMember member);
// Compare with the given member argument value.
Query(TraceEventMember member, const std::string& arg_name);
// Compare with the given string.
explicit Query(const std::string& str);
// Compare with the given number.
explicit Query(double num);
// Construct a boolean Query that returns (left <binary_op> right).
Query(const Query& left, const Query& right, Operator binary_op);
// Construct a boolean Query that returns (<binary_op> left).
Query(const Query& left, Operator unary_op);
// Try to compare left_ against right_ based on operator_.
// If either left or right does not convert to double, false is returned.
// Otherwise, true is returned and |result| is set to the comparison result.
bool CompareAsDouble(const TraceEvent& event, bool* result) const;
// Try to compare left_ against right_ based on operator_.
// If either left or right does not convert to string, false is returned.
// Otherwise, true is returned and |result| is set to the comparison result.
bool CompareAsString(const TraceEvent& event, bool* result) const;
// Attempt to convert this Query to a double. On success, true is returned
// and the double value is stored in |num|.
bool GetAsDouble(const TraceEvent& event, double* num) const;
// Attempt to convert this Query to a string. On success, true is returned
// and the string value is stored in |str|.
bool GetAsString(const TraceEvent& event, std::string* str) const;
// Evaluate this Query as an arithmetic operator on left_ and right_.
bool EvaluateArithmeticOperator(const TraceEvent& event,
double* num) const;
// For QUERY_EVENT_MEMBER Query: attempt to get the double value of the Query.
bool GetMemberValueAsDouble(const TraceEvent& event, double* num) const;
// For QUERY_EVENT_MEMBER Query: attempt to get the string value of the Query.
bool GetMemberValueAsString(const TraceEvent& event, std::string* num) const;
// Does this Query represent a value?
bool is_value() const { return type_ != QUERY_BOOLEAN_OPERATOR; }
bool is_unary_operator() const {
return operator_ == OP_NOT || operator_ == OP_NEGATE;
}
bool is_comparison_operator() const {
return operator_ != OP_INVALID && operator_ < OP_AND;
}
const Query& left() const;
const Query& right() const;
QueryType type_;
Operator operator_;
scoped_refptr<QueryNode> left_;
scoped_refptr<QueryNode> right_;
TraceEventMember member_;
double number_;
std::string string_;
bool is_pattern_;
};
// Implementation detail:
// QueryNode allows Query to store a ref-counted query tree.
class QueryNode : public base::RefCounted<QueryNode> {
public:
explicit QueryNode(const Query& query);
const Query& query() const { return query_; }
private:
friend class base::RefCounted<QueryNode>;
~QueryNode();
Query query_;
};
// TraceAnalyzer helps tests search for trace events.
class TraceAnalyzer {
public:
~TraceAnalyzer();
// Use trace events from JSON string generated by tracing API.
// Returns non-NULL if the JSON is successfully parsed.
static TraceAnalyzer* Create(const std::string& json_events)
WARN_UNUSED_RESULT;
void SetIgnoreMetadataEvents(bool ignore) {
ignore_metadata_events_ = ignore;
}
// Associate BEGIN and END events with each other. This allows Query(OTHER_*)
// to access the associated event and enables Query(EVENT_DURATION).
// An end event will match the most recent begin event with the same name,
// category, process ID and thread ID. This matches what is shown in
// about:tracing. After association, the BEGIN event will point to the
// matching END event, but the END event will not point to the BEGIN event.
void AssociateBeginEndEvents();
// Associate ASYNC_BEGIN, ASYNC_STEP and ASYNC_END events with each other.
// An ASYNC_END event will match the most recent ASYNC_BEGIN or ASYNC_STEP
// event with the same name, category, and ID. This creates a singly linked
// list of ASYNC_BEGIN->ASYNC_STEP...->ASYNC_END.
void AssociateAsyncBeginEndEvents();
// AssociateEvents can be used to customize event associations by setting the
// other_event member of TraceEvent. This should be used to associate two
// INSTANT events.
//
// The assumptions are:
// - |first| events occur before |second| events.
// - the closest matching |second| event is the correct match.
//
// |first| - Eligible |first| events match this query.
// |second| - Eligible |second| events match this query.
// |match| - This query is run on the |first| event. The OTHER_* EventMember
// queries will point to an eligible |second| event. The query
// should evaluate to true if the |first|/|second| pair is a match.
//
// When a match is found, the pair will be associated by having the first
// event's other_event member point to the other. AssociateEvents does not
// clear previous associations, so it is possible to associate multiple pairs
// of events by calling AssociateEvents more than once with different queries.
//
// NOTE: AssociateEvents will overwrite existing other_event associations if
// the queries pass for events that already had a previous association.
//
// After calling any Find* method, it is not allowed to call AssociateEvents
// again.
void AssociateEvents(const Query& first,
const Query& second,
const Query& match);
// For each event, copy its arguments to the other_event argument map. If
// argument name already exists, it will not be overwritten.
void MergeAssociatedEventArgs();
// Find all events that match query and replace output vector.
size_t FindEvents(const Query& query, TraceEventVector* output);
// Find first event that matches query or NULL if not found.
const TraceEvent* FindFirstOf(const Query& query);
// Find last event that matches query or NULL if not found.
const TraceEvent* FindLastOf(const Query& query);
const std::string& GetThreadName(const TraceEvent::ProcessThreadID& thread);
private:
TraceAnalyzer();
bool SetEvents(const std::string& json_events) WARN_UNUSED_RESULT;
// Read metadata (thread names, etc) from events.
void ParseMetadata();
std::map<TraceEvent::ProcessThreadID, std::string> thread_names_;
std::vector<TraceEvent> raw_events_;
bool ignore_metadata_events_;
bool allow_assocation_changes_;
DISALLOW_COPY_AND_ASSIGN(TraceAnalyzer);
};
// Utility functions for TraceEventVector.
struct RateStats {
double min_us;
double max_us;
double mean_us;
double standard_deviation_us;
};
struct RateStatsOptions {
RateStatsOptions() : trim_min(0u), trim_max(0u) {}
// After the times between events are sorted, the number of specified elements
// will be trimmed before calculating the RateStats. This is useful in cases
// where extreme outliers are tolerable and should not skew the overall
// average.
size_t trim_min; // Trim this many minimum times.
size_t trim_max; // Trim this many maximum times.
};
// Calculate min/max/mean and standard deviation from the times between
// adjacent events.
bool GetRateStats(const TraceEventVector& events,
RateStats* stats,
const RateStatsOptions* options);
// Starting from |position|, find the first event that matches |query|.
// Returns true if found, false otherwise.
bool FindFirstOf(const TraceEventVector& events,
const Query& query,
size_t position,
size_t* return_index);
// Starting from |position|, find the last event that matches |query|.
// Returns true if found, false otherwise.
bool FindLastOf(const TraceEventVector& events,
const Query& query,
size_t position,
size_t* return_index);
// Find the closest events to |position| in time that match |query|.
// return_second_closest may be NULL. Closeness is determined by comparing
// with the event timestamp.
// Returns true if found, false otherwise. If both return parameters are
// requested, both must be found for a successful result.
bool FindClosest(const TraceEventVector& events,
const Query& query,
size_t position,
size_t* return_closest,
size_t* return_second_closest);
// Count matches, inclusive of |begin_position|, exclusive of |end_position|.
size_t CountMatches(const TraceEventVector& events,
const Query& query,
size_t begin_position,
size_t end_position);
// Count all matches.
static inline size_t CountMatches(const TraceEventVector& events,
const Query& query) {
return CountMatches(events, query, 0u, events.size());
}
} // namespace trace_analyzer
#endif // BASE_TEST_TRACE_EVENT_ANALYZER_H_