libcurl_http_fetcher.h - platform/system/update_engine - Git at Google

 //
 // Copyright (C) 2009 The Android Open Source Project
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //      http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 //

 #ifndef UPDATE_ENGINE_LIBCURL_HTTP_FETCHER_H_
 #define UPDATE_ENGINE_LIBCURL_HTTP_FETCHER_H_

 #include <map>
 #include <memory>
 #include <string>
 #include <utility>

 #include <curl/curl.h>

 #include <base/files/file_descriptor_watcher_posix.h>
 #include <base/logging.h>
 #include <base/macros.h>
 #include <brillo/message_loops/message_loop.h>

 #include "update_engine/certificate_checker.h"
 #include "update_engine/common/hardware_interface.h"
 #include "update_engine/common/http_fetcher.h"

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

 namespace chromeos_update_engine {

 // |UnresolvedHostStateMachine| is a representation of internal state machine of
 // |LibcurlHttpFetcher|.
 class UnresolvedHostStateMachine {
  public:
   UnresolvedHostStateMachine() = default;
   enum class State {
     kInit = 0,
     kRetry = 1,
     kRetriedSuccess = 2,
     kNotRetry = 3,
   };

   State GetState() { return state_; }

   // Updates the following internal state machine:
   //
   // |kInit|
   //   |
   //   |
   //   \/
   // (Try, host Unresolved)
   //   |
   //   |
   //   \/
   // |kRetry| --> (Retry, host resolved)
   //   |                                  |
   //   |                                  |
   //   \/                                 \/
   // (Retry, host Unresolved)    |kRetriedSuccess|
   //   |
   //   |
   //   \/
   // |kNotRetry|
   //
   void UpdateState(bool failed_to_resolve_host);

  private:
   State state_ = {State::kInit};

   DISALLOW_COPY_AND_ASSIGN(UnresolvedHostStateMachine);
 };

 class LibcurlHttpFetcher : public HttpFetcher {
  public:
   LibcurlHttpFetcher(ProxyResolver* proxy_resolver,
                      HardwareInterface* hardware);

   // Cleans up all internal state. Does not notify delegate
   ~LibcurlHttpFetcher() override;

   void SetOffset(off_t offset) override { bytes_downloaded_ = offset; }

   void SetLength(size_t length) override { download_length_ = length; }
   void UnsetLength() override { SetLength(0); }

   // Begins the transfer if it hasn't already begun.
   void BeginTransfer(const std::string& url) override;

   // If the transfer is in progress, aborts the transfer early. The transfer
   // cannot be resumed.
   void TerminateTransfer() override;

   // Pass the headers to libcurl.
   void SetHeader(const std::string& header_name,
                  const std::string& header_value) override;

   bool GetHeader(const std::string& header_name,
                  std::string* header_value) const override;

   // Suspend the transfer by calling curl_easy_pause(CURLPAUSE_ALL).
   void Pause() override;

   // Resume the transfer by calling curl_easy_pause(CURLPAUSE_CONT).
   void Unpause() override;

   // Libcurl sometimes asks to be called back after some time while
   // leaving that time unspecified. In that case, we pick a reasonable
   // default of one second, but it can be overridden here. This is
   // primarily useful for testing.
   // From http://curl.haxx.se/libcurl/c/curl_multi_timeout.html:
   //     if libcurl returns a -1 timeout here, it just means that libcurl
   //     currently has no stored timeout value. You must not wait too long
   //     (more than a few seconds perhaps) before you call
   //     curl_multi_perform() again.
   void set_idle_seconds(int seconds) override { idle_seconds_ = seconds; }

   // Sets the retry timeout. Useful for testing.
   void set_retry_seconds(int seconds) override { retry_seconds_ = seconds; }

   void set_no_network_max_retries(int retries) {
     no_network_max_retries_ = retries;
   }

   int get_no_network_max_retries() { return no_network_max_retries_; }

   void set_server_to_check(ServerToCheck server_to_check) {
     server_to_check_ = server_to_check;
   }

   size_t GetBytesDownloaded() override {
     return static_cast<size_t>(bytes_downloaded_);
   }

   void set_low_speed_limit(int low_speed_bps, int low_speed_sec) override {
     low_speed_limit_bps_ = low_speed_bps;
     low_speed_time_seconds_ = low_speed_sec;
   }

   void set_connect_timeout(int connect_timeout_seconds) override {
     connect_timeout_seconds_ = connect_timeout_seconds;
   }

   void set_max_retry_count(int max_retry_count) override {
     max_retry_count_ = max_retry_count;
   }

   void set_is_update_check(bool is_update_check) {
     is_update_check_ = is_update_check;
   }

  private:
   FRIEND_TEST(LibcurlHttpFetcherTest, HostResolvedTest);

   // libcurl's CURLOPT_CLOSESOCKETFUNCTION callback function. Called when
   // closing a socket created with the CURLOPT_OPENSOCKETFUNCTION callback.
   static int LibcurlCloseSocketCallback(void* clientp, curl_socket_t item);

   // Callback for when proxy resolution has completed. This begins the
   // transfer.
   void ProxiesResolved();

   // Asks libcurl for the http response code and stores it in the object.
   virtual void GetHttpResponseCode();

   // Returns the last |CURLcode|.
   CURLcode GetCurlCode();

   // Checks whether stored HTTP response is within the success range.
   inline bool IsHttpResponseSuccess() {
     return (http_response_code_ >= 200 && http_response_code_ < 300);
   }

   // Checks whether stored HTTP response is within the error range. This
   // includes both errors with the request (4xx) and server errors (5xx).
   inline bool IsHttpResponseError() {
     return (http_response_code_ >= 400 && http_response_code_ < 600);
   }

   // Resumes a transfer where it left off. This will use the
   // HTTP Range: header to make a new connection from where the last
   // left off.
   virtual void ResumeTransfer(const std::string& url);

   void TimeoutCallback();
   void RetryTimeoutCallback();

   // Calls into curl_multi_perform to let libcurl do its work. Returns after
   // curl_multi_perform is finished, which may actually be after more than
   // one call to curl_multi_perform. This method will set up the message
   // loop with sources for future work that libcurl will do, if any, or complete
   // the transfer and finish the action if no work left to do.
   // This method will not block.
   void CurlPerformOnce();

   // Sets up message loop sources as needed by libcurl. This is generally
   // the file descriptor of the socket and a timer in case nothing happens
   // on the fds.
   void SetupMessageLoopSources();

   // Callback called by libcurl when new data has arrived on the transfer
   size_t LibcurlWrite(void* ptr, size_t size, size_t nmemb);
   static size_t StaticLibcurlWrite(void* ptr,
                                    size_t size,
                                    size_t nmemb,
                                    void* stream) {
     return reinterpret_cast<LibcurlHttpFetcher*>(stream)->LibcurlWrite(
         ptr, size, nmemb);
   }

   // Cleans up the following if they are non-null:
   // curl(m) handles, fd_controller_maps_(fd_task_maps_), timeout_id_.
   void CleanUp();

   // Force terminate the transfer. This will invoke the delegate's (if any)
   // TransferTerminated callback so, after returning, this fetcher instance may
   // be destroyed.
   void ForceTransferTermination();

   // Sets the curl options for HTTP URL.
   void SetCurlOptionsForHttp();

   // Sets the curl options for HTTPS URL.
   void SetCurlOptionsForHttps();

   // Sets the curl options for file URI.
   void SetCurlOptionsForFile();

   // Convert a proxy URL into a curl proxy type, if applicable. Returns true iff
   // conversion was successful, false otherwise (in which case nothing is
   // written to |out_type|).
   bool GetProxyType(const std::string& proxy, curl_proxytype* out_type);

   // Hardware interface used to query dev-mode and official build settings.
   HardwareInterface* hardware_;

   // Handles for the libcurl library
   CURLM* curl_multi_handle_{nullptr};
   CURL* curl_handle_{nullptr};
   struct curl_slist* curl_http_headers_{nullptr};

   // The extra headers that will be sent on each request.
   std::map<std::string, std::string> extra_headers_;

   // Lists of all read(0)/write(1) file descriptors that we're waiting on from
   // the message loop. libcurl may open/close descriptors and switch their
   // directions so maintain two separate lists so that watch conditions can be
   // set appropriately.
   std::map<int, std::unique_ptr<base::FileDescriptorWatcher::Controller>>
       fd_controller_maps_[2];

   // The TaskId of the timer we're waiting on. kTaskIdNull if we are not waiting
   // on it.
   brillo::MessageLoop::TaskId timeout_id_{brillo::MessageLoop::kTaskIdNull};

   bool transfer_in_progress_{false};
   bool transfer_paused_{false};

   // Whether it should ignore transfer failures for the purpose of retrying the
   // connection.
   bool ignore_failure_{false};

   // Whether we should restart the transfer once Unpause() is called. This can
   // be caused because either the connection dropped while pause or the proxy
   // was resolved and we never started the transfer in the first place.
   bool restart_transfer_on_unpause_{false};

   // The transfer size. -1 if not known.
   off_t transfer_size_{0};

   // How many bytes have been downloaded and sent to the delegate.
   off_t bytes_downloaded_{0};

   // The remaining maximum number of bytes to download. Zero represents an
   // unspecified length.
   size_t download_length_{0};

   // If we resumed an earlier transfer, data offset that we used for the
   // new connection.  0 otherwise.
   // In this class, resume refers to resuming a dropped HTTP connection,
   // not to resuming an interrupted download.
   off_t resume_offset_{0};

   // Number of resumes performed so far and the max allowed.
   int retry_count_{0};
   int max_retry_count_{kDownloadMaxRetryCount};

   // Seconds to wait before retrying a resume.
   int retry_seconds_{20};

   // When waiting for a retry, the task id of the retry callback.
   brillo::MessageLoop::TaskId retry_task_id_{brillo::MessageLoop::kTaskIdNull};

   // Number of resumes due to no network (e.g., HTTP response code 0).
   int no_network_retry_count_{0};
   int no_network_max_retries_{0};

   // Seconds to wait before asking libcurl to "perform".
   int idle_seconds_{1};

   // If true, we are currently performing a write callback on the delegate.
   bool in_write_callback_{false};

   // If true, we have returned at least one byte in the write callback
   // to the delegate.
   bool sent_byte_{false};

   // We can't clean everything up while we're in a write callback, so
   // if we get a terminate request, queue it until we can handle it.
   bool terminate_requested_{false};

   // The ServerToCheck used when checking this connection's certificate. If no
   // certificate check needs to be performed, this should be set to
   // ServerToCheck::kNone.
   ServerToCheck server_to_check_{ServerToCheck::kNone};

   // True if this object is for update check.
   bool is_update_check_{false};

   // Internal state machine.
   UnresolvedHostStateMachine unresolved_host_state_machine_;

   int low_speed_limit_bps_{kDownloadLowSpeedLimitBps};
   int low_speed_time_seconds_{kDownloadLowSpeedTimeSeconds};
   int connect_timeout_seconds_{kDownloadConnectTimeoutSeconds};

   DISALLOW_COPY_AND_ASSIGN(LibcurlHttpFetcher);
 };

 }  // namespace chromeos_update_engine

 #endif  // UPDATE_ENGINE_LIBCURL_HTTP_FETCHER_H_
	//
	// Copyright (C) 2009 The Android Open Source Project
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.
	//

	#ifndef UPDATE_ENGINE_LIBCURL_HTTP_FETCHER_H_
	#define UPDATE_ENGINE_LIBCURL_HTTP_FETCHER_H_

	#include <map>
	#include <memory>
	#include <string>
	#include <utility>

	#include <curl/curl.h>

	#include <base/files/file_descriptor_watcher_posix.h>
	#include <base/logging.h>
	#include <base/macros.h>
	#include <brillo/message_loops/message_loop.h>

	#include "update_engine/certificate_checker.h"
	#include "update_engine/common/hardware_interface.h"
	#include "update_engine/common/http_fetcher.h"

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

	namespace chromeos_update_engine {

	// \|UnresolvedHostStateMachine\| is a representation of internal state machine of
	// \|LibcurlHttpFetcher\|.
	class UnresolvedHostStateMachine {
	public:
	UnresolvedHostStateMachine() = default;
	enum class State {
	kInit = 0,
	kRetry = 1,
	kRetriedSuccess = 2,
	kNotRetry = 3,
	};

	State GetState() { return state_; }

	// Updates the following internal state machine:
	//
	// \|kInit\|
	// \|
	// \|
	// \/
	// (Try, host Unresolved)
	// \|
	// \|
	// \/
	// \|kRetry\| --> (Retry, host resolved)
	// \| \|
	// \| \|
	// \/ \/
	// (Retry, host Unresolved) \|kRetriedSuccess\|
	// \|
	// \|
	// \/
	// \|kNotRetry\|
	//
	void UpdateState(bool failed_to_resolve_host);

	private:
	State state_ = {State::kInit};

	DISALLOW_COPY_AND_ASSIGN(UnresolvedHostStateMachine);
	};

	class LibcurlHttpFetcher : public HttpFetcher {
	public:
	LibcurlHttpFetcher(ProxyResolver* proxy_resolver,
	HardwareInterface* hardware);

	// Cleans up all internal state. Does not notify delegate
	~LibcurlHttpFetcher() override;

	void SetOffset(off_t offset) override { bytes_downloaded_ = offset; }

	void SetLength(size_t length) override { download_length_ = length; }
	void UnsetLength() override { SetLength(0); }

	// Begins the transfer if it hasn't already begun.
	void BeginTransfer(const std::string& url) override;

	// If the transfer is in progress, aborts the transfer early. The transfer
	// cannot be resumed.
	void TerminateTransfer() override;

	// Pass the headers to libcurl.
	void SetHeader(const std::string& header_name,
	const std::string& header_value) override;

	bool GetHeader(const std::string& header_name,
	std::string* header_value) const override;

	// Suspend the transfer by calling curl_easy_pause(CURLPAUSE_ALL).
	void Pause() override;

	// Resume the transfer by calling curl_easy_pause(CURLPAUSE_CONT).
	void Unpause() override;

	// Libcurl sometimes asks to be called back after some time while
	// leaving that time unspecified. In that case, we pick a reasonable
	// default of one second, but it can be overridden here. This is
	// primarily useful for testing.
	// From http://curl.haxx.se/libcurl/c/curl_multi_timeout.html:
	// if libcurl returns a -1 timeout here, it just means that libcurl
	// currently has no stored timeout value. You must not wait too long
	// (more than a few seconds perhaps) before you call
	// curl_multi_perform() again.
	void set_idle_seconds(int seconds) override { idle_seconds_ = seconds; }

	// Sets the retry timeout. Useful for testing.
	void set_retry_seconds(int seconds) override { retry_seconds_ = seconds; }

	void set_no_network_max_retries(int retries) {
	no_network_max_retries_ = retries;
	}

	int get_no_network_max_retries() { return no_network_max_retries_; }

	void set_server_to_check(ServerToCheck server_to_check) {
	server_to_check_ = server_to_check;
	}

	size_t GetBytesDownloaded() override {
	return static_cast<size_t>(bytes_downloaded_);
	}

	void set_low_speed_limit(int low_speed_bps, int low_speed_sec) override {
	low_speed_limit_bps_ = low_speed_bps;
	low_speed_time_seconds_ = low_speed_sec;
	}

	void set_connect_timeout(int connect_timeout_seconds) override {
	connect_timeout_seconds_ = connect_timeout_seconds;
	}

	void set_max_retry_count(int max_retry_count) override {
	max_retry_count_ = max_retry_count;
	}

	void set_is_update_check(bool is_update_check) {
	is_update_check_ = is_update_check;
	}

	private:
	FRIEND_TEST(LibcurlHttpFetcherTest, HostResolvedTest);

	// libcurl's CURLOPT_CLOSESOCKETFUNCTION callback function. Called when
	// closing a socket created with the CURLOPT_OPENSOCKETFUNCTION callback.
	static int LibcurlCloseSocketCallback(void* clientp, curl_socket_t item);

	// Callback for when proxy resolution has completed. This begins the
	// transfer.
	void ProxiesResolved();

	// Asks libcurl for the http response code and stores it in the object.
	virtual void GetHttpResponseCode();

	// Returns the last \|CURLcode\|.
	CURLcode GetCurlCode();

	// Checks whether stored HTTP response is within the success range.
	inline bool IsHttpResponseSuccess() {
	return (http_response_code_ >= 200 && http_response_code_ < 300);
	}

	// Checks whether stored HTTP response is within the error range. This
	// includes both errors with the request (4xx) and server errors (5xx).
	inline bool IsHttpResponseError() {
	return (http_response_code_ >= 400 && http_response_code_ < 600);
	}

	// Resumes a transfer where it left off. This will use the
	// HTTP Range: header to make a new connection from where the last
	// left off.
	virtual void ResumeTransfer(const std::string& url);

	void TimeoutCallback();
	void RetryTimeoutCallback();

	// Calls into curl_multi_perform to let libcurl do its work. Returns after
	// curl_multi_perform is finished, which may actually be after more than
	// one call to curl_multi_perform. This method will set up the message
	// loop with sources for future work that libcurl will do, if any, or complete
	// the transfer and finish the action if no work left to do.
	// This method will not block.
	void CurlPerformOnce();

	// Sets up message loop sources as needed by libcurl. This is generally
	// the file descriptor of the socket and a timer in case nothing happens
	// on the fds.
	void SetupMessageLoopSources();

	// Callback called by libcurl when new data has arrived on the transfer
	size_t LibcurlWrite(void* ptr, size_t size, size_t nmemb);
	static size_t StaticLibcurlWrite(void* ptr,
	size_t size,
	size_t nmemb,
	void* stream) {
	return reinterpret_cast<LibcurlHttpFetcher*>(stream)->LibcurlWrite(
	ptr, size, nmemb);
	}

	// Cleans up the following if they are non-null:
	// curl(m) handles, fd_controller_maps_(fd_task_maps_), timeout_id_.
	void CleanUp();

	// Force terminate the transfer. This will invoke the delegate's (if any)
	// TransferTerminated callback so, after returning, this fetcher instance may
	// be destroyed.
	void ForceTransferTermination();

	// Sets the curl options for HTTP URL.
	void SetCurlOptionsForHttp();

	// Sets the curl options for HTTPS URL.
	void SetCurlOptionsForHttps();

	// Sets the curl options for file URI.
	void SetCurlOptionsForFile();

	// Convert a proxy URL into a curl proxy type, if applicable. Returns true iff
	// conversion was successful, false otherwise (in which case nothing is
	// written to \|out_type\|).
	bool GetProxyType(const std::string& proxy, curl_proxytype* out_type);

	// Hardware interface used to query dev-mode and official build settings.
	HardwareInterface* hardware_;

	// Handles for the libcurl library
	CURLM* curl_multi_handle_{nullptr};
	CURL* curl_handle_{nullptr};
	struct curl_slist* curl_http_headers_{nullptr};

	// The extra headers that will be sent on each request.
	std::map<std::string, std::string> extra_headers_;

	// Lists of all read(0)/write(1) file descriptors that we're waiting on from
	// the message loop. libcurl may open/close descriptors and switch their
	// directions so maintain two separate lists so that watch conditions can be
	// set appropriately.
	std::map<int, std::unique_ptr<base::FileDescriptorWatcher::Controller>>
	fd_controller_maps_[2];

	// The TaskId of the timer we're waiting on. kTaskIdNull if we are not waiting
	// on it.
	brillo::MessageLoop::TaskId timeout_id_{brillo::MessageLoop::kTaskIdNull};

	bool transfer_in_progress_{false};
	bool transfer_paused_{false};

	// Whether it should ignore transfer failures for the purpose of retrying the
	// connection.
	bool ignore_failure_{false};

	// Whether we should restart the transfer once Unpause() is called. This can
	// be caused because either the connection dropped while pause or the proxy
	// was resolved and we never started the transfer in the first place.
	bool restart_transfer_on_unpause_{false};

	// The transfer size. -1 if not known.
	off_t transfer_size_{0};

	// How many bytes have been downloaded and sent to the delegate.
	off_t bytes_downloaded_{0};

	// The remaining maximum number of bytes to download. Zero represents an
	// unspecified length.
	size_t download_length_{0};

	// If we resumed an earlier transfer, data offset that we used for the
	// new connection. 0 otherwise.
	// In this class, resume refers to resuming a dropped HTTP connection,
	// not to resuming an interrupted download.
	off_t resume_offset_{0};

	// Number of resumes performed so far and the max allowed.
	int retry_count_{0};
	int max_retry_count_{kDownloadMaxRetryCount};

	// Seconds to wait before retrying a resume.
	int retry_seconds_{20};

	// When waiting for a retry, the task id of the retry callback.
	brillo::MessageLoop::TaskId retry_task_id_{brillo::MessageLoop::kTaskIdNull};

	// Number of resumes due to no network (e.g., HTTP response code 0).
	int no_network_retry_count_{0};
	int no_network_max_retries_{0};

	// Seconds to wait before asking libcurl to "perform".
	int idle_seconds_{1};

	// If true, we are currently performing a write callback on the delegate.
	bool in_write_callback_{false};

	// If true, we have returned at least one byte in the write callback
	// to the delegate.
	bool sent_byte_{false};

	// We can't clean everything up while we're in a write callback, so
	// if we get a terminate request, queue it until we can handle it.
	bool terminate_requested_{false};

	// The ServerToCheck used when checking this connection's certificate. If no
	// certificate check needs to be performed, this should be set to
	// ServerToCheck::kNone.
	ServerToCheck server_to_check_{ServerToCheck::kNone};

	// True if this object is for update check.
	bool is_update_check_{false};

	// Internal state machine.
	UnresolvedHostStateMachine unresolved_host_state_machine_;

	int low_speed_limit_bps_{kDownloadLowSpeedLimitBps};
	int low_speed_time_seconds_{kDownloadLowSpeedTimeSeconds};
	int connect_timeout_seconds_{kDownloadConnectTimeoutSeconds};

	DISALLOW_COPY_AND_ASSIGN(LibcurlHttpFetcher);
	};

	} // namespace chromeos_update_engine

	#endif // UPDATE_ENGINE_LIBCURL_HTTP_FETCHER_H_