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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.
#include "ipc/ipc_logging.h"
#ifdef IPC_MESSAGE_LOG_ENABLED
#define IPC_MESSAGE_MACROS_LOG_ENABLED
#endif
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/command_line.h"
#include "base/location.h"
#include "base/logging.h"
#include "base/message_loop/message_loop.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_util.h"
#include "base/threading/thread.h"
#include "base/time/time.h"
#include "ipc/ipc_message_utils.h"
#include "ipc/ipc_sender.h"
#include "ipc/ipc_switches.h"
#include "ipc/ipc_sync_message.h"
#if defined(OS_POSIX)
#include <unistd.h>
#endif
#ifdef IPC_MESSAGE_LOG_ENABLED
using base::Time;
namespace IPC {
const int kLogSendDelayMs = 100;
// We use a pointer to the function table to avoid any linker dependencies on
// all the traits used as IPC message parameters.
LogFunctionMap* Logging::log_function_map_;
Logging::Logging()
: enabled_(false),
enabled_on_stderr_(false),
enabled_color_(false),
queue_invoke_later_pending_(false),
sender_(NULL),
main_thread_(base::MessageLoop::current()),
consumer_(NULL) {
#if defined(OS_WIN)
// getenv triggers an unsafe warning. Simply check how big of a buffer
// would be needed to fetch the value to see if the enviornment variable is
// set.
size_t requiredSize = 0;
getenv_s(&requiredSize, NULL, 0, "CHROME_IPC_LOGGING");
bool logging_env_var_set = (requiredSize != 0);
if (requiredSize <= 6) {
char buffer[6];
getenv_s(&requiredSize, buffer, sizeof(buffer), "CHROME_IPC_LOGGING");
if (requiredSize && !strncmp("color", buffer, 6))
enabled_color_ = true;
}
#else // !defined(OS_WIN)
const char* ipc_logging = getenv("CHROME_IPC_LOGGING");
bool logging_env_var_set = (ipc_logging != NULL);
if (ipc_logging && !strcmp(ipc_logging, "color"))
enabled_color_ = true;
#endif //defined(OS_WIN)
if (logging_env_var_set) {
enabled_ = true;
enabled_on_stderr_ = true;
}
}
Logging::~Logging() {
}
Logging* Logging::GetInstance() {
return Singleton<Logging>::get();
}
void Logging::SetConsumer(Consumer* consumer) {
consumer_ = consumer;
}
void Logging::Enable() {
enabled_ = true;
}
void Logging::Disable() {
enabled_ = false;
}
void Logging::OnSendLogs() {
queue_invoke_later_pending_ = false;
if (!sender_)
return;
Message* msg = new Message(
MSG_ROUTING_CONTROL, IPC_LOGGING_ID, Message::PRIORITY_NORMAL);
WriteParam(msg, queued_logs_);
queued_logs_.clear();
sender_->Send(msg);
}
void Logging::SetIPCSender(IPC::Sender* sender) {
sender_ = sender;
}
void Logging::OnReceivedLoggingMessage(const Message& message) {
std::vector<LogData> data;
PickleIterator iter(message);
if (!ReadParam(&message, &iter, &data))
return;
for (size_t i = 0; i < data.size(); ++i) {
Log(data[i]);
}
}
void Logging::OnSendMessage(Message* message, const std::string& channel_id) {
if (!Enabled())
return;
if (message->is_reply()) {
LogData* data = message->sync_log_data();
if (!data)
return;
// This is actually the delayed reply to a sync message. Create a string
// of the output parameters, add it to the LogData that was earlier stashed
// with the reply, and log the result.
GenerateLogData("", *message, data, true);
data->channel = channel_id;
Log(*data);
delete data;
message->set_sync_log_data(NULL);
} else {
// If the time has already been set (i.e. by ChannelProxy), keep that time
// instead as it's more accurate.
if (!message->sent_time())
message->set_sent_time(Time::Now().ToInternalValue());
}
}
void Logging::OnPreDispatchMessage(const Message& message) {
message.set_received_time(Time::Now().ToInternalValue());
}
void Logging::OnPostDispatchMessage(const Message& message,
const std::string& channel_id) {
if (!Enabled() ||
!message.sent_time() ||
!message.received_time() ||
message.dont_log())
return;
LogData data;
GenerateLogData(channel_id, message, &data, true);
if (base::MessageLoop::current() == main_thread_) {
Log(data);
} else {
main_thread_->PostTask(
FROM_HERE, base::Bind(&Logging::Log, base::Unretained(this), data));
}
}
void Logging::GetMessageText(uint32 type, std::string* name,
const Message* message,
std::string* params) {
if (!log_function_map_)
return;
LogFunctionMap::iterator it = log_function_map_->find(type);
if (it == log_function_map_->end()) {
if (name) {
*name = "[UNKNOWN MSG ";
*name += base::IntToString(type);
*name += " ]";
}
return;
}
(*it->second)(name, message, params);
}
const char* Logging::ANSIEscape(ANSIColor color) {
if (!enabled_color_)
return "";
switch (color) {
case ANSI_COLOR_RESET:
return "\033[m";
case ANSI_COLOR_BLACK:
return "\033[0;30m";
case ANSI_COLOR_RED:
return "\033[0;31m";
case ANSI_COLOR_GREEN:
return "\033[0;32m";
case ANSI_COLOR_YELLOW:
return "\033[0;33m";
case ANSI_COLOR_BLUE:
return "\033[0;34m";
case ANSI_COLOR_MAGENTA:
return "\033[0;35m";
case ANSI_COLOR_CYAN:
return "\033[0;36m";
case ANSI_COLOR_WHITE:
return "\033[0;37m";
}
return "";
}
Logging::ANSIColor Logging::DelayColor(double delay) {
if (delay < 0.1)
return ANSI_COLOR_GREEN;
if (delay < 0.25)
return ANSI_COLOR_BLACK;
if (delay < 0.5)
return ANSI_COLOR_YELLOW;
return ANSI_COLOR_RED;
}
void Logging::Log(const LogData& data) {
if (consumer_) {
// We're in the browser process.
consumer_->Log(data);
} else {
// We're in the renderer or plugin processes.
if (sender_) {
queued_logs_.push_back(data);
if (!queue_invoke_later_pending_) {
queue_invoke_later_pending_ = true;
base::MessageLoop::current()->PostDelayedTask(
FROM_HERE,
base::Bind(&Logging::OnSendLogs, base::Unretained(this)),
base::TimeDelta::FromMilliseconds(kLogSendDelayMs));
}
}
}
if (enabled_on_stderr_) {
std::string message_name;
if (data.message_name.empty()) {
message_name = base::StringPrintf("[unknown type %d]", data.type);
} else {
message_name = data.message_name;
}
double receive_delay =
(Time::FromInternalValue(data.receive) -
Time::FromInternalValue(data.sent)).InSecondsF();
double dispatch_delay =
(Time::FromInternalValue(data.dispatch) -
Time::FromInternalValue(data.sent)).InSecondsF();
fprintf(stderr,
"ipc %s %d %s %s%s %s%s\n %18.5f %s%18.5f %s%18.5f%s\n",
data.channel.c_str(),
data.routing_id,
data.flags.c_str(),
ANSIEscape(sender_ ? ANSI_COLOR_BLUE : ANSI_COLOR_CYAN),
message_name.c_str(),
ANSIEscape(ANSI_COLOR_RESET),
data.params.c_str(),
Time::FromInternalValue(data.sent).ToDoubleT(),
ANSIEscape(DelayColor(receive_delay)),
Time::FromInternalValue(data.receive).ToDoubleT(),
ANSIEscape(DelayColor(dispatch_delay)),
Time::FromInternalValue(data.dispatch).ToDoubleT(),
ANSIEscape(ANSI_COLOR_RESET)
);
}
}
void GenerateLogData(const std::string& channel, const Message& message,
LogData* data, bool get_params) {
if (message.is_reply()) {
// "data" should already be filled in.
std::string params;
Logging::GetMessageText(data->type, NULL, &message, &params);
if (!data->params.empty() && !params.empty())
data->params += ", ";
data->flags += " DR";
data->params += params;
} else {
std::string flags;
if (message.is_sync())
flags = "S";
if (message.is_reply())
flags += "R";
if (message.is_reply_error())
flags += "E";
std::string params, message_name;
Logging::GetMessageText(message.type(), &message_name, &message,
get_params ? &params : NULL);
data->channel = channel;
data->routing_id = message.routing_id();
data->type = message.type();
data->flags = flags;
data->sent = message.sent_time();
data->receive = message.received_time();
data->dispatch = Time::Now().ToInternalValue();
data->params = params;
data->message_name = message_name;
}
}
}
#endif // IPC_MESSAGE_LOG_ENABLED