// Copyright (c) 2009 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.
#ifndef NET_BASE_LOAD_LOG_H_
#define NET_BASE_LOAD_LOG_H_
#include <string>
#include <vector>
#include "base/ref_counted.h"
#include "base/time.h"
namespace net {
// LoadLog stores information associated with an individual request. This
// includes event traces (used to build up profiling information), error
// return codes from network modules, and arbitrary text messages.
//
// Note that LoadLog is NOT THREADSAFE, however it is RefCountedThreadSafe so
// that it can be AddRef() / Release() across threads.
class LoadLog : public base::RefCountedThreadSafe<LoadLog> {
public:
// TODO(eroman): Really, EventType and EventPhase should be
// Event::Type and Event::Phase, to be consisent with Entry.
// But there lots of consumers to change!
enum EventType {
#define EVENT_TYPE(label) TYPE_ ## label,
#include "net/base/load_log_event_type_list.h"
#undef EVENT_TYPE
};
// The 'phase' of an event trace (whether it marks the beginning or end
// of an event.).
enum EventPhase {
PHASE_NONE,
PHASE_BEGIN,
// TODO(eroman): DEPRECATED: Use TYPE_STRING_LITERAL instead.
PHASE_END,
};
struct Event {
Event(EventType type, EventPhase phase) : type(type), phase(phase) {}
Event() {}
EventType type;
EventPhase phase;
};
struct Entry {
enum Type {
// This entry describes an event trace.
TYPE_EVENT,
// This entry describes a network error code that was returned.
TYPE_ERROR_CODE,
// This entry is a free-form std::string.
TYPE_STRING,
// This entry is a C-string literal.
TYPE_STRING_LITERAL,
};
Entry(base::TimeTicks time, int error_code)
: type(TYPE_ERROR_CODE), time(time), error_code(error_code) {
}
Entry(base::TimeTicks time, const Event& event)
: type(TYPE_EVENT), time(time), event(event) {
}
Entry(base::TimeTicks time, const std::string& string)
: type(TYPE_STRING), time(time), string(string) {
}
Entry(base::TimeTicks time, const char* literal)
: type(TYPE_STRING_LITERAL), time(time), literal(literal) {
}
Type type;
base::TimeTicks time;
// The following is basically a union, only one of them should be
// used depending on what |type| is.
Event event; // valid when (type == TYPE_EVENT).
int error_code; // valid when (type == TYPE_ERROR_CODE).
std::string string; // valid when (type == TYPE_STRING).
const char* literal; // valid when (type == TYPE_STRING_LITERAL).
};
// Ordered set of entries that were logged.
// TODO(eroman): use a StackVector or array to avoid allocations.
typedef std::vector<Entry> EntryList;
// Value for max_num_entries to indicate the LoadLog has no size limit.
static const size_t kUnbounded = static_cast<size_t>(-1);
// Creates a log, which can hold up to |max_num_entries| entries.
// If |max_num_entries| is |kUnbounded|, then the log can grow arbitrarily
// large.
//
// If entries are dropped because the log has grown too large, the final entry
// will be overwritten.
explicit LoadLog(size_t max_num_entries);
// --------------------------------------------------------------------------
// The public interface for adding events to the log are static methods.
// This makes it easier to deal with optionally NULL LoadLog.
// Adds an instantaneous event to the log.
// TODO(eroman): DEPRECATED: use AddStringLiteral() instead.
static void AddEvent(LoadLog* log, EventType event_type) {
if (log)
log->Add(Entry(base::TimeTicks::Now(), Event(event_type, PHASE_NONE)));
}
// Adds the start of an event to the log. Presumably this event type measures
// a time duration, and will be matched by a call to EndEvent(event_type).
static void BeginEvent(LoadLog* log, EventType event_type) {
if (log)
log->Add(Entry(base::TimeTicks::Now(), Event(event_type, PHASE_BEGIN)));
}
// Adds the end of an event to the log. Presumably this event type measures
// a time duration, and we are matching an earlier call to
// BeginEvent(event_type).
static void EndEvent(LoadLog* log, EventType event_type) {
if (log)
log->Add(Entry(base::TimeTicks::Now(), Event(event_type, PHASE_END)));
}
// |literal| should be a string literal (i.e. lives in static storage).
static void AddStringLiteral(LoadLog* log, const char* literal) {
if (log)
log->Add(Entry(base::TimeTicks::Now(), literal));
}
static void AddString(LoadLog* log, const std::string& string) {
if (log)
log->Add(Entry(base::TimeTicks::Now(), string));
}
static void AddErrorCode(LoadLog* log, int error) {
if (log)
log->Add(Entry(base::TimeTicks::Now(), error));
}
static bool IsUnbounded(const LoadLog* log) {
return log && log->is_unbounded();
}
// --------------------------------------------------------------------------
// Returns the list of all entries in the log.
const EntryList& entries() const {
return entries_;
}
// Returns the number of entries that were dropped from the log because the
// maximum size had been reached.
size_t num_entries_truncated() const {
return num_entries_truncated_;
}
// Returns the bound on the size of the log.
size_t max_num_entries() const {
return max_num_entries_;
}
bool is_unbounded() const {
return max_num_entries_ == kUnbounded;
}
// Returns a C-String symbolic name for |event|.
static const char* EventTypeToString(EventType event_type);
void Add(const Entry& entry);
// Copies all entries from |log|, appending it to the end of |this|.
void Append(const LoadLog* log);
private:
friend class base::RefCountedThreadSafe<LoadLog>;
~LoadLog() {}
EntryList entries_;
size_t num_entries_truncated_;
size_t max_num_entries_;;
};
} // namespace net
#endif // NET_BASE_LOAD_LOG_H_