libcurl_http_fetcher.cc - SHIFTPHONES/android_system_update_engine - Gitiles

 // Copyright (c) 2009 The Chromium OS 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 "update_engine/libcurl_http_fetcher.h"
 #include <algorithm>
 #include "base/logging.h"

 using std::max;
 using std::make_pair;

 // This is a concrete implementation of HttpFetcher that uses libcurl to do the
 // http work.

 namespace chromeos_update_engine {

 namespace {
 const int kMaxRetriesCount = 20;
 const char kCACertificatesPath[] = "/usr/share/update_engine/ca-certificates";
 }

 LibcurlHttpFetcher::~LibcurlHttpFetcher() {
   CleanUp();
 }

 void LibcurlHttpFetcher::ResumeTransfer(const std::string& url) {
   LOG(INFO) << "Starting/Resuming transfer";
   CHECK(!transfer_in_progress_);
   url_ = url;
   curl_multi_handle_ = curl_multi_init();
   CHECK(curl_multi_handle_);

   curl_handle_ = curl_easy_init();
   CHECK(curl_handle_);

   if (post_data_set_) {
     CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_POST, 1), CURLE_OK);
     CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_POSTFIELDS,
                               &post_data_[0]),
              CURLE_OK);
     CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_POSTFIELDSIZE,
                               post_data_.size()),
              CURLE_OK);
   }

   if (bytes_downloaded_ > 0) {
     // Resume from where we left off
     resume_offset_ = bytes_downloaded_;
     CHECK_EQ(curl_easy_setopt(curl_handle_,
                               CURLOPT_RESUME_FROM_LARGE,
                               bytes_downloaded_), CURLE_OK);
   }

   CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_WRITEDATA, this), CURLE_OK);
   CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_WRITEFUNCTION,
                             StaticLibcurlWrite), CURLE_OK);
   CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_URL, url_.c_str()), CURLE_OK);

   // If the connection drops under 10 bytes/sec for 3 minutes, reconnect.
   CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_LOW_SPEED_LIMIT, 10),
            CURLE_OK);
   CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_LOW_SPEED_TIME, 3 * 60),
            CURLE_OK);

   // By default, libcurl doesn't follow redirections. Allow up to
   // |kMaxRedirects| redirections.
   CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_FOLLOWLOCATION, 1), CURLE_OK);
   CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_MAXREDIRS, kMaxRedirects),
            CURLE_OK);

   // Makes sure that peer certificate verification is enabled and restricts the
   // set of trusted certificates.
   CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_SSL_VERIFYPEER, 1), CURLE_OK);
   CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_CAPATH, kCACertificatesPath),
            CURLE_OK);

   CHECK_EQ(curl_multi_add_handle(curl_multi_handle_, curl_handle_), CURLM_OK);
   transfer_in_progress_ = true;
 }

 // Begins the transfer, which must not have already been started.
 void LibcurlHttpFetcher::BeginTransfer(const std::string& url) {
   transfer_size_ = -1;
   bytes_downloaded_ = 0;
   resume_offset_ = 0;
   retry_count_ = 0;
   http_response_code_ = 0;
   ResumeTransfer(url);
   CurlPerformOnce();
 }

 void LibcurlHttpFetcher::TerminateTransfer() {
   CleanUp();
 }

 void LibcurlHttpFetcher::CurlPerformOnce() {
   CHECK(transfer_in_progress_);
   int running_handles = 0;
   CURLMcode retcode = CURLM_CALL_MULTI_PERFORM;

   // libcurl may request that we immediately call curl_multi_perform after it
   // returns, so we do. libcurl promises that curl_multi_perform will not block.
   while (CURLM_CALL_MULTI_PERFORM == retcode) {
     retcode = curl_multi_perform(curl_multi_handle_, &running_handles);
   }
   if (0 == running_handles) {
     long http_response_code = 0;
     if (curl_easy_getinfo(curl_handle_,
                           CURLINFO_RESPONSE_CODE,
                           &http_response_code) == CURLE_OK) {
       LOG(INFO) << "HTTP response code: " << http_response_code;
     } else {
       LOG(ERROR) << "Unable to get http response code.";
     }
     http_response_code_ = static_cast<int>(http_response_code);

     // we're done!
     CleanUp();

     if ((transfer_size_ >= 0) && (bytes_downloaded_ < transfer_size_)) {
       // Need to restart transfer
       retry_count_++;
       LOG(INFO) << "Restarting transfer b/c we finished, had downloaded "
                 << bytes_downloaded_ << " bytes, but transfer_size_ is "
                 << transfer_size_ << ". retry_count: " << retry_count_;
       if (retry_count_ > kMaxRetriesCount) {
         if (delegate_)
           delegate_->TransferComplete(this, false);  // success
       } else {
         g_timeout_add_seconds(retry_seconds_,
                               &LibcurlHttpFetcher::StaticRetryTimeoutCallback,
                               this);
       }
       return;
     } else {
       if (delegate_) {
         // success is when http_response_code is 2xx
         bool success = (http_response_code >= 200) &&
             (http_response_code < 300);
         delegate_->TransferComplete(this, success);
       }
     }
   } else {
     // set up callback
     SetupMainloopSources();
   }
 }

 size_t LibcurlHttpFetcher::LibcurlWrite(void *ptr, size_t size, size_t nmemb) {
   {
     double transfer_size_double;
     CHECK_EQ(curl_easy_getinfo(curl_handle_,
                                CURLINFO_CONTENT_LENGTH_DOWNLOAD,
                                &transfer_size_double), CURLE_OK);
     off_t new_transfer_size = static_cast<off_t>(transfer_size_double);
     if (new_transfer_size > 0) {
       transfer_size_ = resume_offset_ + new_transfer_size;
     }
   }
   bytes_downloaded_ += size * nmemb;
   if (delegate_)
     delegate_->ReceivedBytes(this, reinterpret_cast<char*>(ptr), size * nmemb);
   return size * nmemb;
 }

 void LibcurlHttpFetcher::Pause() {
   CHECK(curl_handle_);
   CHECK(transfer_in_progress_);
   CHECK_EQ(curl_easy_pause(curl_handle_, CURLPAUSE_ALL), CURLE_OK);
 }

 void LibcurlHttpFetcher::Unpause() {
   CHECK(curl_handle_);
   CHECK(transfer_in_progress_);
   CHECK_EQ(curl_easy_pause(curl_handle_, CURLPAUSE_CONT), CURLE_OK);
 }

 // This method sets up callbacks with the glib main loop.
 void LibcurlHttpFetcher::SetupMainloopSources() {
   fd_set fd_read;
   fd_set fd_write;
   fd_set fd_exec;

   FD_ZERO(&fd_read);
   FD_ZERO(&fd_write);
   FD_ZERO(&fd_exec);

   int fd_max = 0;

   // Ask libcurl for the set of file descriptors we should track on its
   // behalf.
   CHECK_EQ(curl_multi_fdset(curl_multi_handle_, &fd_read, &fd_write,
                             &fd_exec, &fd_max), CURLM_OK);

   // We should iterate through all file descriptors up to libcurl's fd_max or
   // the highest one we're tracking, whichever is larger
   if (!io_channels_.empty())
     fd_max = max(fd_max, io_channels_.rbegin()->first);

   // For each fd, if we're not tracking it, track it. If we are tracking it,
   // but libcurl doesn't care about it anymore, stop tracking it.
   // After this loop, there should be exactly as many GIOChannel objects
   // in io_channels_ as there are fds that we're tracking.
   for (int i = 0; i <= fd_max; i++) {
     if (!(FD_ISSET(i, &fd_read) || FD_ISSET(i, &fd_write) ||
           FD_ISSET(i, &fd_exec))) {
       // if we have an outstanding io_channel, remove it
       if (io_channels_.find(i) != io_channels_.end()) {
         g_source_remove(io_channels_[i].second);
         g_io_channel_unref(io_channels_[i].first);
         io_channels_.erase(io_channels_.find(i));
       }
       continue;
     }
     // If we are already tracking this fd, continue.
     if (io_channels_.find(i) != io_channels_.end())
       continue;
     // We must track a new fd
     GIOChannel *io_channel = g_io_channel_unix_new(i);
     guint tag = g_io_add_watch(
         io_channel,
         static_cast<GIOCondition>(G_IO_IN | G_IO_OUT | G_IO_PRI |
                                   G_IO_ERR | G_IO_HUP),
         &StaticFDCallback,
         this);
     io_channels_[i] = make_pair(io_channel, tag);
     static int io_counter = 0;
     io_counter++;
     if (io_counter % 50 == 0) {
       LOG(INFO) << "io_counter = " << io_counter;
     }
   }

   // Set up a timeout callback for libcurl.
   if (!timeout_source_) {
     LOG(INFO) << "Setting up timeout source: " << idle_seconds_ << " seconds.";
     timeout_source_ = g_timeout_source_new_seconds(idle_seconds_);
     g_source_set_callback(timeout_source_, StaticTimeoutCallback, this, NULL);
     g_source_attach(timeout_source_, NULL);
   }
 }

 bool LibcurlHttpFetcher::FDCallback(GIOChannel *source,
                                     GIOCondition condition) {
   CurlPerformOnce();
   // We handle removing of this source elsewhere, so we always return true.
   // The docs say, "the function should return FALSE if the event source
   // should be removed."
   // http://www.gtk.org/api/2.6/glib/glib-IO-Channels.html#GIOFunc
   return true;
 }

 gboolean LibcurlHttpFetcher::RetryTimeoutCallback() {
   ResumeTransfer(url_);
   CurlPerformOnce();
   return FALSE;  // Don't have glib auto call this callback again
 }

 gboolean LibcurlHttpFetcher::TimeoutCallback() {
   // We always return true, even if we don't want glib to call us back.
   // We will remove the event source separately if we don't want to
   // be called back.
   if (!transfer_in_progress_)
     return TRUE;
   CurlPerformOnce();
   return TRUE;
 }

 void LibcurlHttpFetcher::CleanUp() {
   if (timeout_source_) {
     g_source_destroy(timeout_source_);
     timeout_source_ = NULL;
   }

   for (IOChannels::iterator it = io_channels_.begin();
        it != io_channels_.end(); ++it) {
     g_source_remove(it->second.second);
     g_io_channel_unref(it->second.first);
   }
   io_channels_.clear();

   if (curl_handle_) {
     if (curl_multi_handle_) {
       CHECK_EQ(curl_multi_remove_handle(curl_multi_handle_, curl_handle_),
                CURLM_OK);
     }
     curl_easy_cleanup(curl_handle_);
     curl_handle_ = NULL;
   }
   if (curl_multi_handle_) {
     CHECK_EQ(curl_multi_cleanup(curl_multi_handle_), CURLM_OK);
     curl_multi_handle_ = NULL;
   }
   transfer_in_progress_ = false;
 }

 }  // namespace chromeos_update_engine
	// Copyright (c) 2009 The Chromium OS 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 "update_engine/libcurl_http_fetcher.h"
	#include <algorithm>
	#include "base/logging.h"

	using std::max;
	using std::make_pair;

	// This is a concrete implementation of HttpFetcher that uses libcurl to do the
	// http work.

	namespace chromeos_update_engine {

	namespace {
	const int kMaxRetriesCount = 20;
	const char kCACertificatesPath[] = "/usr/share/update_engine/ca-certificates";
	}

	LibcurlHttpFetcher::~LibcurlHttpFetcher() {
	CleanUp();
	}

	void LibcurlHttpFetcher::ResumeTransfer(const std::string& url) {
	LOG(INFO) << "Starting/Resuming transfer";
	CHECK(!transfer_in_progress_);
	url_ = url;
	curl_multi_handle_ = curl_multi_init();
	CHECK(curl_multi_handle_);

	curl_handle_ = curl_easy_init();
	CHECK(curl_handle_);

	if (post_data_set_) {
	CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_POST, 1), CURLE_OK);
	CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_POSTFIELDS,
	&post_data_[0]),
	CURLE_OK);
	CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_POSTFIELDSIZE,
	post_data_.size()),
	CURLE_OK);
	}

	if (bytes_downloaded_ > 0) {
	// Resume from where we left off
	resume_offset_ = bytes_downloaded_;
	CHECK_EQ(curl_easy_setopt(curl_handle_,
	CURLOPT_RESUME_FROM_LARGE,
	bytes_downloaded_), CURLE_OK);
	}

	CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_WRITEDATA, this), CURLE_OK);
	CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_WRITEFUNCTION,
	StaticLibcurlWrite), CURLE_OK);
	CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_URL, url_.c_str()), CURLE_OK);

	// If the connection drops under 10 bytes/sec for 3 minutes, reconnect.
	CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_LOW_SPEED_LIMIT, 10),
	CURLE_OK);
	CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_LOW_SPEED_TIME, 3 * 60),
	CURLE_OK);

	// By default, libcurl doesn't follow redirections. Allow up to
	// \|kMaxRedirects\| redirections.
	CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_FOLLOWLOCATION, 1), CURLE_OK);
	CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_MAXREDIRS, kMaxRedirects),
	CURLE_OK);

	// Makes sure that peer certificate verification is enabled and restricts the
	// set of trusted certificates.
	CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_SSL_VERIFYPEER, 1), CURLE_OK);
	CHECK_EQ(curl_easy_setopt(curl_handle_, CURLOPT_CAPATH, kCACertificatesPath),
	CURLE_OK);

	CHECK_EQ(curl_multi_add_handle(curl_multi_handle_, curl_handle_), CURLM_OK);
	transfer_in_progress_ = true;
	}

	// Begins the transfer, which must not have already been started.
	void LibcurlHttpFetcher::BeginTransfer(const std::string& url) {
	transfer_size_ = -1;
	bytes_downloaded_ = 0;
	resume_offset_ = 0;
	retry_count_ = 0;
	http_response_code_ = 0;
	ResumeTransfer(url);
	CurlPerformOnce();
	}

	void LibcurlHttpFetcher::TerminateTransfer() {
	CleanUp();
	}

	void LibcurlHttpFetcher::CurlPerformOnce() {
	CHECK(transfer_in_progress_);
	int running_handles = 0;
	CURLMcode retcode = CURLM_CALL_MULTI_PERFORM;

	// libcurl may request that we immediately call curl_multi_perform after it
	// returns, so we do. libcurl promises that curl_multi_perform will not block.
	while (CURLM_CALL_MULTI_PERFORM == retcode) {
	retcode = curl_multi_perform(curl_multi_handle_, &running_handles);
	}
	if (0 == running_handles) {
	long http_response_code = 0;
	if (curl_easy_getinfo(curl_handle_,
	CURLINFO_RESPONSE_CODE,
	&http_response_code) == CURLE_OK) {
	LOG(INFO) << "HTTP response code: " << http_response_code;
	} else {
	LOG(ERROR) << "Unable to get http response code.";
	}
	http_response_code_ = static_cast<int>(http_response_code);

	// we're done!
	CleanUp();

	if ((transfer_size_ >= 0) && (bytes_downloaded_ < transfer_size_)) {
	// Need to restart transfer
	retry_count_++;
	LOG(INFO) << "Restarting transfer b/c we finished, had downloaded "
	<< bytes_downloaded_ << " bytes, but transfer_size_ is "
	<< transfer_size_ << ". retry_count: " << retry_count_;
	if (retry_count_ > kMaxRetriesCount) {
	if (delegate_)
	delegate_->TransferComplete(this, false); // success
	} else {
	g_timeout_add_seconds(retry_seconds_,
	&LibcurlHttpFetcher::StaticRetryTimeoutCallback,
	this);
	}
	return;
	} else {
	if (delegate_) {
	// success is when http_response_code is 2xx
	bool success = (http_response_code >= 200) &&
	(http_response_code < 300);
	delegate_->TransferComplete(this, success);
	}
	}
	} else {
	// set up callback
	SetupMainloopSources();
	}
	}

	size_t LibcurlHttpFetcher::LibcurlWrite(void *ptr, size_t size, size_t nmemb) {
	{
	double transfer_size_double;
	CHECK_EQ(curl_easy_getinfo(curl_handle_,
	CURLINFO_CONTENT_LENGTH_DOWNLOAD,
	&transfer_size_double), CURLE_OK);
	off_t new_transfer_size = static_cast<off_t>(transfer_size_double);
	if (new_transfer_size > 0) {
	transfer_size_ = resume_offset_ + new_transfer_size;
	}
	}
	bytes_downloaded_ += size * nmemb;
	if (delegate_)
	delegate_->ReceivedBytes(this, reinterpret_cast<char>(ptr), size nmemb);
	return size * nmemb;
	}

	void LibcurlHttpFetcher::Pause() {
	CHECK(curl_handle_);
	CHECK(transfer_in_progress_);
	CHECK_EQ(curl_easy_pause(curl_handle_, CURLPAUSE_ALL), CURLE_OK);
	}

	void LibcurlHttpFetcher::Unpause() {
	CHECK(curl_handle_);
	CHECK(transfer_in_progress_);
	CHECK_EQ(curl_easy_pause(curl_handle_, CURLPAUSE_CONT), CURLE_OK);
	}

	// This method sets up callbacks with the glib main loop.
	void LibcurlHttpFetcher::SetupMainloopSources() {
	fd_set fd_read;
	fd_set fd_write;
	fd_set fd_exec;

	FD_ZERO(&fd_read);
	FD_ZERO(&fd_write);
	FD_ZERO(&fd_exec);

	int fd_max = 0;

	// Ask libcurl for the set of file descriptors we should track on its
	// behalf.
	CHECK_EQ(curl_multi_fdset(curl_multi_handle_, &fd_read, &fd_write,
	&fd_exec, &fd_max), CURLM_OK);

	// We should iterate through all file descriptors up to libcurl's fd_max or
	// the highest one we're tracking, whichever is larger
	if (!io_channels_.empty())
	fd_max = max(fd_max, io_channels_.rbegin()->first);

	// For each fd, if we're not tracking it, track it. If we are tracking it,
	// but libcurl doesn't care about it anymore, stop tracking it.
	// After this loop, there should be exactly as many GIOChannel objects
	// in io_channels_ as there are fds that we're tracking.
	for (int i = 0; i <= fd_max; i++) {
	if (!(FD_ISSET(i, &fd_read) \|\| FD_ISSET(i, &fd_write) \|\|
	FD_ISSET(i, &fd_exec))) {
	// if we have an outstanding io_channel, remove it
	if (io_channels_.find(i) != io_channels_.end()) {
	g_source_remove(io_channels_[i].second);
	g_io_channel_unref(io_channels_[i].first);
	io_channels_.erase(io_channels_.find(i));
	}
	continue;
	}
	// If we are already tracking this fd, continue.
	if (io_channels_.find(i) != io_channels_.end())
	continue;
	// We must track a new fd
	GIOChannel *io_channel = g_io_channel_unix_new(i);
	guint tag = g_io_add_watch(
	io_channel,
	static_cast<GIOCondition>(G_IO_IN \| G_IO_OUT \| G_IO_PRI \|
	G_IO_ERR \| G_IO_HUP),
	&StaticFDCallback,
	this);
	io_channels_[i] = make_pair(io_channel, tag);
	static int io_counter = 0;
	io_counter++;
	if (io_counter % 50 == 0) {
	LOG(INFO) << "io_counter = " << io_counter;
	}
	}

	// Set up a timeout callback for libcurl.
	if (!timeout_source_) {
	LOG(INFO) << "Setting up timeout source: " << idle_seconds_ << " seconds.";
	timeout_source_ = g_timeout_source_new_seconds(idle_seconds_);
	g_source_set_callback(timeout_source_, StaticTimeoutCallback, this, NULL);
	g_source_attach(timeout_source_, NULL);
	}
	}

	bool LibcurlHttpFetcher::FDCallback(GIOChannel *source,
	GIOCondition condition) {
	CurlPerformOnce();
	// We handle removing of this source elsewhere, so we always return true.
	// The docs say, "the function should return FALSE if the event source
	// should be removed."
	// http://www.gtk.org/api/2.6/glib/glib-IO-Channels.html#GIOFunc
	return true;
	}

	gboolean LibcurlHttpFetcher::RetryTimeoutCallback() {
	ResumeTransfer(url_);
	CurlPerformOnce();
	return FALSE; // Don't have glib auto call this callback again
	}

	gboolean LibcurlHttpFetcher::TimeoutCallback() {
	// We always return true, even if we don't want glib to call us back.
	// We will remove the event source separately if we don't want to
	// be called back.
	if (!transfer_in_progress_)
	return TRUE;
	CurlPerformOnce();
	return TRUE;
	}

	void LibcurlHttpFetcher::CleanUp() {
	if (timeout_source_) {
	g_source_destroy(timeout_source_);
	timeout_source_ = NULL;
	}

	for (IOChannels::iterator it = io_channels_.begin();
	it != io_channels_.end(); ++it) {
	g_source_remove(it->second.second);
	g_io_channel_unref(it->second.first);
	}
	io_channels_.clear();

	if (curl_handle_) {
	if (curl_multi_handle_) {
	CHECK_EQ(curl_multi_remove_handle(curl_multi_handle_, curl_handle_),
	CURLM_OK);
	}
	curl_easy_cleanup(curl_handle_);
	curl_handle_ = NULL;
	}
	if (curl_multi_handle_) {
	CHECK_EQ(curl_multi_cleanup(curl_multi_handle_), CURLM_OK);
	curl_multi_handle_ = NULL;
	}
	transfer_in_progress_ = false;
	}

	} // namespace chromeos_update_engine