1 // Copyright (c) 2012 The Chromium Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style license that can be 3 // found in the LICENSE file. 4 5 #ifndef CHROME_BROWSER_CHROMEOS_IMAGEBURNER_BURN_MANAGER_H_ 6 #define CHROME_BROWSER_CHROMEOS_IMAGEBURNER_BURN_MANAGER_H_ 7 8 #include <list> 9 #include <map> 10 #include <set> 11 #include <string> 12 #include <vector> 13 14 #include "base/files/file_path.h" 15 #include "base/memory/ref_counted_memory.h" 16 #include "base/memory/scoped_ptr.h" 17 #include "base/observer_list.h" 18 #include "base/time/time.h" 19 #include "chrome/browser/chromeos/imageburner/burn_device_handler.h" 20 #include "chromeos/disks/disk_mount_manager.h" 21 #include "chromeos/network/network_state_handler_observer.h" 22 #include "net/url_request/url_fetcher_delegate.h" 23 #include "url/gurl.h" 24 25 namespace net { 26 class URLFetcher; 27 class URLRequestContextGetter; 28 } // namespace net 29 30 namespace chromeos { 31 32 enum BurnEvent { 33 UNZIP_STARTED, 34 UNZIP_COMPLETE, 35 UNZIP_FAIL, 36 BURN_UPDATE, 37 BURN_SUCCESS, 38 BURN_FAIL, 39 UNKNOWN 40 }; 41 42 struct ImageBurnStatus { ImageBurnStatusImageBurnStatus43 ImageBurnStatus() : amount_burnt(0), total_size(0) { 44 } 45 ImageBurnStatusImageBurnStatus46 ImageBurnStatus(int64 burnt, int64 total) 47 : amount_burnt(burnt), total_size(total) { 48 } 49 50 int64 amount_burnt; 51 int64 total_size; 52 }; 53 54 namespace imageburner { 55 56 // An enum used to describe what type of progress is being made. 57 // TODO(hidehiko): This should be merged into the StateMachine's state. 58 enum ProgressType { 59 DOWNLOADING, 60 UNZIPPING, 61 BURNING 62 }; 63 64 // Config file properties. 65 extern const char kName[]; 66 extern const char kHwid[]; 67 extern const char kFileName[]; 68 extern const char kUrl[]; 69 70 // Config file is divided into blocks. Each block is associated with one image 71 // and containes information about that image in form of key-value pairs, one 72 // pair per line. Each block starts with name property. 73 // Also, Each image can be associated with multiple hardware classes, so we 74 // treat hwid property separately. 75 // Config file example: 76 // name=image1 77 // version=version1 78 // hwid=hwid1 79 // hwid=hwid2 80 // 81 // name=name2 82 // version=version2 83 // hwid=hwid3 84 class ConfigFile { 85 public: 86 ConfigFile(); 87 88 explicit ConfigFile(const std::string& file_content); 89 90 ~ConfigFile(); 91 92 // Builds config file data structure. 93 void reset(const std::string& file_content); 94 95 void clear(); 96 empty()97 bool empty() const { return config_struct_.empty(); } 98 size()99 size_t size() const { return config_struct_.size(); } 100 101 // Returns property_name property of image for hardware class hwid. 102 const std::string& GetProperty(const std::string& property_name, 103 const std::string& hwid) const; 104 105 private: 106 void DeleteLastBlockIfHasNoHwid(); 107 void ProcessLine(const std::vector<std::string>& line); 108 109 typedef std::map<std::string, std::string> PropertyMap; 110 typedef std::set<std::string> HwidsSet; 111 112 // Struct that contains config file block info. We separate hwid from other 113 // properties for two reasons: 114 // * there are multiple hwids defined for each block. 115 // * we will retieve properties by hwid. 116 struct ConfigFileBlock { 117 ConfigFileBlock(); 118 ~ConfigFileBlock(); 119 120 PropertyMap properties; 121 HwidsSet hwids; 122 }; 123 124 // At the moment we have only two entries in the config file, so we can live 125 // with linear search. Should consider changing data structure if number of 126 // entries gets bigger. 127 // Also, there is only one entry for each hwid, if that changes we should 128 // return vector of strings. 129 typedef std::list<ConfigFileBlock> BlockList; 130 BlockList config_struct_; 131 }; 132 133 class StateMachine { 134 public: 135 enum State { 136 INITIAL, 137 DOWNLOADING, 138 BURNING, 139 }; 140 state()141 State state() { return state_; } 142 143 class Observer { 144 public: 145 virtual void OnBurnStateChanged(State new_state) = 0; 146 virtual void OnError(int error_message_id) = 0; 147 }; 148 149 StateMachine(); 150 ~StateMachine(); 151 download_started()152 bool download_started() const { return download_started_; } OnDownloadStarted()153 void OnDownloadStarted() { 154 download_started_ = true; 155 state_ = DOWNLOADING; 156 OnStateChanged(); 157 } 158 download_finished()159 bool download_finished() const { return download_finished_; } OnDownloadFinished()160 void OnDownloadFinished() { download_finished_ = true; } 161 OnBurnStarted()162 void OnBurnStarted() { 163 state_ = BURNING; 164 OnStateChanged(); 165 } 166 new_burn_posible()167 bool new_burn_posible() const { return state_ == INITIAL; } 168 169 void OnSuccess(); 170 void OnError(int error_message_id); 171 OnStateChanged()172 void OnStateChanged() { 173 FOR_EACH_OBSERVER(Observer, observers_, OnBurnStateChanged(state_)); 174 } 175 AddObserver(Observer * observer)176 void AddObserver(Observer* observer) { 177 observers_.AddObserver(observer); 178 } 179 RemoveObserver(Observer * observer)180 void RemoveObserver(Observer* observer) { 181 observers_.RemoveObserver(observer); 182 } 183 184 private: 185 bool download_started_; 186 bool download_finished_; 187 188 State state_; 189 190 ObserverList<Observer> observers_; 191 192 DISALLOW_COPY_AND_ASSIGN(StateMachine); 193 }; 194 195 // This is a system-wide singleton class to manage burning the recovery media. 196 // Here is how the burning image procedure works: 197 // 0) Choose the device the image to be burned (manually via web-ui). 198 // 1) Create ImageDir, which is a working directory for the procedure. 199 // 2) Download the config file. 200 // 2-1) Fetch the config file from the server. 201 // 2-2) Parse the config file content, and extract url and name of the image 202 // file. 203 // 3) Fetch the image file. 204 // 4) Burn the image to the device. 205 // 4-1) Unzip the fetched image file. 206 // 4-2) Unmount the device from file system. 207 // 4-3) Copy the unzipped file to the device directly. 208 // Currently, this only provides some methods to start/cancel background tasks, 209 // and some accessors to obtain the current status. Other functions are 210 // in BurnController. 211 // TODO(hidehiko): Simplify the relationship among this class, 212 // BurnController and helper classes defined above. 213 class BurnManager : public net::URLFetcherDelegate, 214 public NetworkStateHandlerObserver { 215 public: 216 // Interface for classes that need to observe events for the burning image 217 // tasks. 218 class Observer { 219 public: 220 // Triggered when a burnable device is added. 221 virtual void OnDeviceAdded(const disks::DiskMountManager::Disk& disk) = 0; 222 223 // Triggered when a burnable device is removed. 224 virtual void OnDeviceRemoved(const disks::DiskMountManager::Disk& disk) = 0; 225 226 // Triggered when a network is detected. 227 virtual void OnNetworkDetected() = 0; 228 229 // Triggered when burning the image is successfully done. 230 virtual void OnSuccess() = 0; 231 232 // Triggered during the image file downloading periodically. 233 // |estimated_remaining_time| is the remaining duration to download the 234 // remaining content estimated based on the elapsed time. 235 virtual void OnProgressWithRemainingTime( 236 ProgressType progress_type, 237 int64 received_bytes, 238 int64 total_bytes, 239 const base::TimeDelta& estimated_remaining_time) = 0; 240 241 // Triggered when some progress is made, but estimated_remaining_time is 242 // not available. 243 // TODO(hidehiko): We should be able to merge this method with above one. 244 virtual void OnProgress(ProgressType progress_type, 245 int64 received_bytes, 246 int64 total_bytes) = 0; 247 }; 248 249 // Creates the global BurnManager instance. 250 static void Initialize( 251 const base::FilePath& downloads_directory, 252 scoped_refptr<net::URLRequestContextGetter> context_getter); 253 254 // Destroys the global BurnManager instance if it exists. 255 static void Shutdown(); 256 257 // Returns the global BurnManager instance. 258 // Initialize() should already have been called. 259 static BurnManager* GetInstance(); 260 261 // Add an observer. 262 void AddObserver(Observer* observer); 263 264 // Remove an observer. 265 void RemoveObserver(Observer* observer); 266 267 // Returns devices on which we can burn recovery image. 268 std::vector<disks::DiskMountManager::Disk> GetBurnableDevices(); 269 270 // Cancels a currently running task of burning recovery image. 271 // Note: currently we only support Cancel method, which may look asymmetry 272 // because there is no method to start the task. It is just because that 273 // we are on the way of refactoring. 274 // TODO(hidehiko): Introduce Start method, which actually starts a whole 275 // image burning task, including config/image file fetching and unzipping. 276 void Cancel(); 277 278 // Error is usually detected by all existing Burn handlers, but only first 279 // one that calls this method should actually process it. 280 // The |message_id| is the id for human readable error message, although 281 // here is not the place to handle UI. 282 // TODO(hidehiko): Replace it with semantical enum value. 283 // Note: currently, due to some implementation reasons, the errors can be 284 // observed in outside classes, and this method is public to be accessed from 285 // them. 286 // TODO(hidehiko): Refactor the structure. 287 void OnError(int message_id); 288 289 // Creates URL image should be fetched from. 290 // Must be called from UI thread. 291 void FetchConfigFile(); 292 293 // Fetch a zipped recovery image. 294 void FetchImage(); 295 296 // Burns the image of |zip_image_file_path_| and |image_file_name| 297 // to |target_device_path_| and |target_file_path_|. 298 // TODO(hidehiko): The name "Burn" sounds confusing because there are two 299 // meaning here. 300 // 1) In wider sense, Burn means a whole process, including config/image 301 // file fetching, or file unzipping. 302 // 2) In narrower sense, Burn means just write the image onto a device. 303 // To avoid such a confusion, rename the method. 304 void DoBurn(); 305 306 // Cancels the image burning. 307 // TODO(hidehiko): Rename this method along with the renaming of DoBurn. 308 void CancelBurnImage(); 309 310 // Cancel fetching image. 311 void CancelImageFetch(); 312 313 // URLFetcherDelegate overrides: 314 virtual void OnURLFetchComplete(const net::URLFetcher* source) OVERRIDE; 315 virtual void OnURLFetchDownloadProgress(const net::URLFetcher* source, 316 int64 current, 317 int64 total) OVERRIDE; 318 319 // NetworkStateHandlerObserver override. 320 virtual void DefaultNetworkChanged(const NetworkState* network) OVERRIDE; 321 322 // Creates directory image will be downloaded to. 323 // Must be called from FILE thread. 324 void CreateImageDir(); 325 326 // Returns the directory to which the recovery image should be downloaded. 327 // If the directory hasn't been previously created, an empty path is returned 328 // (in which case |CreateImageDir()| should be called). 329 base::FilePath GetImageDir(); 330 target_device_path()331 const base::FilePath& target_device_path() { return target_device_path_; } set_target_device_path(const base::FilePath & path)332 void set_target_device_path(const base::FilePath& path) { 333 target_device_path_ = path; 334 } 335 target_file_path()336 const base::FilePath& target_file_path() { return target_file_path_; } set_target_file_path(const base::FilePath & path)337 void set_target_file_path(const base::FilePath& path) { 338 target_file_path_ = path; 339 } 340 ResetTargetPaths()341 void ResetTargetPaths() { 342 target_device_path_.clear(); 343 target_file_path_.clear(); 344 } 345 state_machine()346 StateMachine* state_machine() const { return state_machine_.get(); } 347 348 private: 349 BurnManager(const base::FilePath& downloads_directory, 350 scoped_refptr<net::URLRequestContextGetter> context_getter); 351 virtual ~BurnManager(); 352 353 void UpdateBurnStatus(BurnEvent evt, const ImageBurnStatus& status); 354 355 void OnImageDirCreated(bool success); 356 void ConfigFileFetched(bool fetched, const std::string& content); 357 358 void OnImageUnzipped(scoped_refptr<base::RefCountedString> source_image_file); 359 void OnDevicesUnmounted(bool success); 360 void OnBurnImageFail(); 361 void OnBurnFinished(const std::string& target_path, 362 bool success, 363 const std::string& error); 364 void OnBurnProgressUpdate(const std::string& target_path, 365 int64 num_bytes_burnt, 366 int64 total_size); 367 368 void NotifyDeviceAdded(const disks::DiskMountManager::Disk& disk); 369 void NotifyDeviceRemoved(const disks::DiskMountManager::Disk& disk); 370 371 BurnDeviceHandler device_handler_; 372 373 bool image_dir_created_; 374 bool unzipping_; 375 bool cancelled_; 376 bool burning_; 377 bool block_burn_signals_; 378 379 base::FilePath image_dir_; 380 base::FilePath zip_image_file_path_; 381 base::FilePath source_image_path_; 382 base::FilePath target_device_path_; 383 base::FilePath target_file_path_; 384 385 GURL config_file_url_; 386 bool config_file_fetched_; 387 std::string image_file_name_; 388 GURL image_download_url_; 389 390 scoped_ptr<StateMachine> state_machine_; 391 392 scoped_ptr<net::URLFetcher> config_fetcher_; 393 scoped_ptr<net::URLFetcher> image_fetcher_; 394 395 scoped_refptr<net::URLRequestContextGetter> url_request_context_getter_; 396 397 base::TimeTicks tick_image_download_start_; 398 int64 bytes_image_download_progress_last_reported_; 399 400 ObserverList<Observer> observers_; 401 402 // Note: This should remain the last member so it'll be destroyed and 403 // invalidate its weak pointers before any other members are destroyed. 404 base::WeakPtrFactory<BurnManager> weak_ptr_factory_; 405 406 DISALLOW_COPY_AND_ASSIGN(BurnManager); 407 }; 408 409 } // namespace imageburner 410 411 } // namespace chromeos 412 413 #endif // CHROME_BROWSER_CHROMEOS_IMAGEBURNER_BURN_MANAGER_H_ 414