// Copyright (c) 2011 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 "base/mime_util.h" #include #include #include #include #include #include #include #include "base/file_util.h" #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "base/memory/singleton.h" #include "base/message_loop.h" #include "base/string_split.h" #include "base/string_util.h" #include "base/synchronization/lock.h" #include "base/third_party/xdg_mime/xdgmime.h" #include "base/threading/thread_restrictions.h" namespace { // None of the XDG stuff is thread-safe, so serialize all accesss under // this lock. base::Lock g_mime_util_xdg_lock; class IconTheme; class MimeUtilConstants { public: static MimeUtilConstants* GetInstance() { return Singleton::get(); } // In seconds, specified by icon theme specs. const int kUpdateInterval; // Store icon directories and their mtimes. std::map* icon_dirs_; // Store icon formats. std::vector icon_formats_; // Store loaded icon_theme. std::map* icon_themes_; static const size_t kDefaultThemeNum = 4; // The default theme. IconTheme* default_themes_[kDefaultThemeNum]; time_t last_check_time_; // This is set by DetectGtkTheme(). We cache it so that we can access the // theme name from threads that aren't allowed to call // gtk_settings_get_default(). std::string gtk_theme_name_; private: MimeUtilConstants() : kUpdateInterval(5), icon_dirs_(NULL), icon_themes_(NULL), last_check_time_(0) { icon_formats_.push_back(".png"); icon_formats_.push_back(".svg"); icon_formats_.push_back(".xpm"); for (size_t i = 0; i < kDefaultThemeNum; ++i) default_themes_[i] = NULL; } ~MimeUtilConstants(); friend struct DefaultSingletonTraits; DISALLOW_COPY_AND_ASSIGN(MimeUtilConstants); }; // IconTheme represents an icon theme as defined by the xdg icon theme spec. // Example themes on GNOME include 'Human' and 'Mist'. // Example themes on KDE include 'crystalsvg' and 'kdeclassic'. class IconTheme { public: // A theme consists of multiple sub-directories, like '32x32' and 'scalable'. class SubDirInfo { public: // See spec for details. enum Type { Fixed, Scalable, Threshold }; SubDirInfo() : size(0), type(Threshold), max_size(0), min_size(0), threshold(2) { } size_t size; // Nominal size of the icons in this directory. Type type; // Type of the icon size. size_t max_size; // Maximum size that the icons can be scaled to. size_t min_size; // Minimum size that the icons can be scaled to. size_t threshold; // Maximum difference from desired size. 2 by default. }; explicit IconTheme(const std::string& name); ~IconTheme() { delete[] info_array_; } // Returns the path to an icon with the name |icon_name| and a size of |size| // pixels. If the icon does not exist, but |inherits| is true, then look for // the icon in the parent theme. FilePath GetIconPath(const std::string& icon_name, int size, bool inherits); // Load a theme with the name |theme_name| into memory. Returns null if theme // is invalid. static IconTheme* LoadTheme(const std::string& theme_name); private: // Returns the path to an icon with the name |icon_name| in |subdir|. FilePath GetIconPathUnderSubdir(const std::string& icon_name, const std::string& subdir); // Whether the theme loaded properly. bool IsValid() { return index_theme_loaded_; } // Read and parse |file| which is usually named 'index.theme' per theme spec. bool LoadIndexTheme(const FilePath& file); // Checks to see if the icons in |info| matches |size| (in pixels). Returns // 0 if they match, or the size difference in pixels. size_t MatchesSize(SubDirInfo* info, size_t size); // Yet another function to read a line. std::string ReadLine(FILE* fp); // Set directories to search for icons to the comma-separated list |dirs|. bool SetDirectories(const std::string& dirs); bool index_theme_loaded_; // True if an instance is properly loaded. // store the scattered directories of this theme. std::list dirs_; // store the subdirs of this theme and array index of |info_array_|. std::map subdirs_; SubDirInfo* info_array_; // List of sub-directories. std::string inherits_; // Name of the theme this one inherits from. }; IconTheme::IconTheme(const std::string& name) : index_theme_loaded_(false), info_array_(NULL) { base::ThreadRestrictions::AssertIOAllowed(); // Iterate on all icon directories to find directories of the specified // theme and load the first encountered index.theme. std::map::iterator iter; FilePath theme_path; std::map* icon_dirs = MimeUtilConstants::GetInstance()->icon_dirs_; for (iter = icon_dirs->begin(); iter != icon_dirs->end(); ++iter) { theme_path = iter->first.Append(name); if (!file_util::DirectoryExists(theme_path)) continue; FilePath theme_index = theme_path.Append("index.theme"); if (!index_theme_loaded_ && file_util::PathExists(theme_index)) { if (!LoadIndexTheme(theme_index)) return; index_theme_loaded_ = true; } dirs_.push_back(theme_path); } } FilePath IconTheme::GetIconPath(const std::string& icon_name, int size, bool inherits) { std::map::iterator subdir_iter; FilePath icon_path; for (subdir_iter = subdirs_.begin(); subdir_iter != subdirs_.end(); ++subdir_iter) { SubDirInfo* info = &info_array_[subdir_iter->second]; if (MatchesSize(info, size) == 0) { icon_path = GetIconPathUnderSubdir(icon_name, subdir_iter->first); if (!icon_path.empty()) return icon_path; } } // Now looking for the mostly matched. int min_delta_seen = 9999; for (subdir_iter = subdirs_.begin(); subdir_iter != subdirs_.end(); ++subdir_iter) { SubDirInfo* info = &info_array_[subdir_iter->second]; int delta = abs(MatchesSize(info, size)); if (delta < min_delta_seen) { FilePath path = GetIconPathUnderSubdir(icon_name, subdir_iter->first); if (!path.empty()) { min_delta_seen = delta; icon_path = path; } } } if (!icon_path.empty() || !inherits || inherits_ == "") return icon_path; IconTheme* theme = LoadTheme(inherits_); // Inheriting from itself means the theme is buggy but we shouldn't crash. if (theme && theme != this) return theme->GetIconPath(icon_name, size, inherits); else return FilePath(); } IconTheme* IconTheme::LoadTheme(const std::string& theme_name) { scoped_ptr theme; std::map* icon_themes = MimeUtilConstants::GetInstance()->icon_themes_; if (icon_themes->find(theme_name) != icon_themes->end()) { theme.reset((*icon_themes)[theme_name]); } else { theme.reset(new IconTheme(theme_name)); if (!theme->IsValid()) theme.reset(); (*icon_themes)[theme_name] = theme.get(); } return theme.release(); } FilePath IconTheme::GetIconPathUnderSubdir(const std::string& icon_name, const std::string& subdir) { FilePath icon_path; std::list::iterator dir_iter; std::vector* icon_formats = &MimeUtilConstants::GetInstance()->icon_formats_; for (dir_iter = dirs_.begin(); dir_iter != dirs_.end(); ++dir_iter) { for (size_t i = 0; i < icon_formats->size(); ++i) { icon_path = dir_iter->Append(subdir); icon_path = icon_path.Append(icon_name + (*icon_formats)[i]); if (file_util::PathExists(icon_path)) return icon_path; } } return FilePath(); } bool IconTheme::LoadIndexTheme(const FilePath& file) { FILE* fp = file_util::OpenFile(file, "r"); SubDirInfo* current_info = NULL; if (!fp) return false; // Read entries. while (!feof(fp) && !ferror(fp)) { std::string buf = ReadLine(fp); if (buf == "") break; std::string entry; TrimWhitespaceASCII(buf, TRIM_ALL, &entry); if (entry.length() == 0 || entry[0] == '#') { // Blank line or Comment. continue; } else if (entry[0] == '[' && info_array_) { current_info = NULL; std::string subdir = entry.substr(1, entry.length() - 2); if (subdirs_.find(subdir) != subdirs_.end()) current_info = &info_array_[subdirs_[subdir]]; } std::string key, value; std::vector r; base::SplitStringDontTrim(entry, '=', &r); if (r.size() < 2) continue; TrimWhitespaceASCII(r[0], TRIM_ALL, &key); for (size_t i = 1; i < r.size(); i++) value.append(r[i]); TrimWhitespaceASCII(value, TRIM_ALL, &value); if (current_info) { if (key == "Size") { current_info->size = atoi(value.c_str()); } else if (key == "Type") { if (value == "Fixed") current_info->type = SubDirInfo::Fixed; else if (value == "Scalable") current_info->type = SubDirInfo::Scalable; else if (value == "Threshold") current_info->type = SubDirInfo::Threshold; } else if (key == "MaxSize") { current_info->max_size = atoi(value.c_str()); } else if (key == "MinSize") { current_info->min_size = atoi(value.c_str()); } else if (key == "Threshold") { current_info->threshold = atoi(value.c_str()); } } else { if (key.compare("Directories") == 0 && !info_array_) { if (!SetDirectories(value)) break; } else if (key.compare("Inherits") == 0) { if (value != "hicolor") inherits_ = value; } } } file_util::CloseFile(fp); return info_array_ != NULL; } size_t IconTheme::MatchesSize(SubDirInfo* info, size_t size) { if (info->type == SubDirInfo::Fixed) { return size - info->size; } else if (info->type == SubDirInfo::Scalable) { if (size >= info->min_size && size <= info->max_size) { return 0; } else { return abs(size - info->min_size) < abs(size - info->max_size) ? (size - info->min_size) : (size - info->max_size); } } else { if (size >= info->size - info->threshold && size <= info->size + info->threshold) { return 0; } else { return abs(size - info->size - info->threshold) < abs(size - info->size + info->threshold) ? size - info->size - info->threshold : size - info->size + info->threshold; } } } std::string IconTheme::ReadLine(FILE* fp) { if (!fp) return ""; std::string result = ""; const size_t kBufferSize = 100; char buffer[kBufferSize]; while ((fgets(buffer, kBufferSize - 1, fp)) != NULL) { result += buffer; size_t len = result.length(); if (len == 0) break; char end = result[len - 1]; if (end == '\n' || end == '\0') break; } return result; } bool IconTheme::SetDirectories(const std::string& dirs) { int num = 0; std::string::size_type pos = 0, epos; std::string dir; while ((epos = dirs.find(',', pos)) != std::string::npos) { TrimWhitespaceASCII(dirs.substr(pos, epos - pos), TRIM_ALL, &dir); if (dir.length() == 0) { LOG(WARNING) << "Invalid index.theme: blank subdir"; return false; } subdirs_[dir] = num++; pos = epos + 1; } TrimWhitespaceASCII(dirs.substr(pos), TRIM_ALL, &dir); if (dir.length() == 0) { LOG(WARNING) << "Invalid index.theme: blank subdir"; return false; } subdirs_[dir] = num++; info_array_ = new SubDirInfo[num]; return true; } // Make sure |dir| exists and add it to the list of icon directories. void TryAddIconDir(const FilePath& dir) { if (!file_util::DirectoryExists(dir)) return; (*MimeUtilConstants::GetInstance()->icon_dirs_)[dir] = 0; } // For a xdg directory |dir|, add the appropriate icon sub-directories. void AddXDGDataDir(const FilePath& dir) { if (!file_util::DirectoryExists(dir)) return; TryAddIconDir(dir.Append("icons")); TryAddIconDir(dir.Append("pixmaps")); } // Add all the xdg icon directories. void InitIconDir() { MimeUtilConstants::GetInstance()->icon_dirs_->clear(); FilePath home = file_util::GetHomeDir(); if (!home.empty()) { FilePath legacy_data_dir(home); legacy_data_dir = legacy_data_dir.AppendASCII(".icons"); if (file_util::DirectoryExists(legacy_data_dir)) TryAddIconDir(legacy_data_dir); } const char* env = getenv("XDG_DATA_HOME"); if (env) { AddXDGDataDir(FilePath(env)); } else if (!home.empty()) { FilePath local_data_dir(home); local_data_dir = local_data_dir.AppendASCII(".local"); local_data_dir = local_data_dir.AppendASCII("share"); AddXDGDataDir(local_data_dir); } env = getenv("XDG_DATA_DIRS"); if (!env) { AddXDGDataDir(FilePath("/usr/local/share")); AddXDGDataDir(FilePath("/usr/share")); } else { std::string xdg_data_dirs = env; std::string::size_type pos = 0, epos; while ((epos = xdg_data_dirs.find(':', pos)) != std::string::npos) { AddXDGDataDir(FilePath(xdg_data_dirs.substr(pos, epos - pos))); pos = epos + 1; } AddXDGDataDir(FilePath(xdg_data_dirs.substr(pos))); } } // Per xdg theme spec, we should check the icon directories every so often for // newly added icons. This isn't quite right. void EnsureUpdated() { struct timeval t; gettimeofday(&t, NULL); time_t now = t.tv_sec; MimeUtilConstants* constants = MimeUtilConstants::GetInstance(); if (constants->last_check_time_ == 0) { constants->icon_dirs_ = new std::map; constants->icon_themes_ = new std::map; InitIconDir(); constants->last_check_time_ = now; } else { // TODO(thestig): something changed. start over. Upstream fix to Google // Gadgets for Linux. if (now > constants->last_check_time_ + constants->kUpdateInterval) { } } } // Find a fallback icon if we cannot find it in the default theme. FilePath LookupFallbackIcon(const std::string& icon_name) { FilePath icon; MimeUtilConstants* constants = MimeUtilConstants::GetInstance(); std::map::iterator iter; std::map* icon_dirs = constants->icon_dirs_; std::vector* icon_formats = &constants->icon_formats_; for (iter = icon_dirs->begin(); iter != icon_dirs->end(); ++iter) { for (size_t i = 0; i < icon_formats->size(); ++i) { icon = iter->first.Append(icon_name + (*icon_formats)[i]); if (file_util::PathExists(icon)) return icon; } } return FilePath(); } // Initialize the list of default themes. void InitDefaultThemes() { IconTheme** default_themes = MimeUtilConstants::GetInstance()->default_themes_; char* env = getenv("KDE_FULL_SESSION"); if (env) { // KDE std::string kde_default_theme; std::string kde_fallback_theme; // TODO(thestig): Figure out how to get the current icon theme on KDE. // Setting stored in ~/.kde/share/config/kdeglobals under Icons -> Theme. default_themes[0] = NULL; // Try some reasonable defaults for KDE. env = getenv("KDE_SESSION_VERSION"); if (!env || env[0] != '4') { // KDE 3 kde_default_theme = "default.kde"; kde_fallback_theme = "crystalsvg"; } else { // KDE 4 kde_default_theme = "default.kde4"; kde_fallback_theme = "oxygen"; } default_themes[1] = IconTheme::LoadTheme(kde_default_theme); default_themes[2] = IconTheme::LoadTheme(kde_fallback_theme); } else { // Assume it's Gnome and use GTK to figure out the theme. default_themes[1] = IconTheme::LoadTheme( MimeUtilConstants::GetInstance()->gtk_theme_name_); default_themes[2] = IconTheme::LoadTheme("gnome"); } // hicolor needs to be last per icon theme spec. default_themes[3] = IconTheme::LoadTheme("hicolor"); for (size_t i = 0; i < MimeUtilConstants::kDefaultThemeNum; i++) { if (default_themes[i] == NULL) continue; // NULL out duplicate pointers. for (size_t j = i + 1; j < MimeUtilConstants::kDefaultThemeNum; j++) { if (default_themes[j] == default_themes[i]) default_themes[j] = NULL; } } } // Try to find an icon with the name |icon_name| that's |size| pixels. FilePath LookupIconInDefaultTheme(const std::string& icon_name, int size) { EnsureUpdated(); MimeUtilConstants* constants = MimeUtilConstants::GetInstance(); std::map* icon_themes = constants->icon_themes_; if (icon_themes->empty()) InitDefaultThemes(); FilePath icon_path; IconTheme** default_themes = constants->default_themes_; for (size_t i = 0; i < MimeUtilConstants::kDefaultThemeNum; i++) { if (default_themes[i]) { icon_path = default_themes[i]->GetIconPath(icon_name, size, true); if (!icon_path.empty()) return icon_path; } } return LookupFallbackIcon(icon_name); } MimeUtilConstants::~MimeUtilConstants() { delete icon_dirs_; delete icon_themes_; for (size_t i = 0; i < kDefaultThemeNum; i++) delete default_themes_[i]; } } // namespace namespace mime_util { std::string GetFileMimeType(const FilePath& filepath) { base::ThreadRestrictions::AssertIOAllowed(); base::AutoLock scoped_lock(g_mime_util_xdg_lock); return xdg_mime_get_mime_type_from_file_name(filepath.value().c_str()); } std::string GetDataMimeType(const std::string& data) { base::ThreadRestrictions::AssertIOAllowed(); base::AutoLock scoped_lock(g_mime_util_xdg_lock); return xdg_mime_get_mime_type_for_data(data.data(), data.length(), NULL); } void DetectGtkTheme() { // If the theme name is already loaded, do nothing. Chrome doesn't respond // to changes in the system theme, so we never need to set this more than // once. if (!MimeUtilConstants::GetInstance()->gtk_theme_name_.empty()) return; // We should only be called on the UI thread. DCHECK_EQ(MessageLoop::TYPE_UI, MessageLoop::current()->type()); gchar* gtk_theme_name; g_object_get(gtk_settings_get_default(), "gtk-icon-theme-name", >k_theme_name, NULL); MimeUtilConstants::GetInstance()->gtk_theme_name_.assign(gtk_theme_name); g_free(gtk_theme_name); } FilePath GetMimeIcon(const std::string& mime_type, size_t size) { base::ThreadRestrictions::AssertIOAllowed(); std::vector icon_names; std::string icon_name; FilePath icon_file; { base::AutoLock scoped_lock(g_mime_util_xdg_lock); const char *icon = xdg_mime_get_icon(mime_type.c_str()); icon_name = std::string(icon ? icon : ""); } if (icon_name.length()) icon_names.push_back(icon_name); // For text/plain, try text-plain. icon_name = mime_type; for (size_t i = icon_name.find('/', 0); i != std::string::npos; i = icon_name.find('/', i + 1)) { icon_name[i] = '-'; } icon_names.push_back(icon_name); // Also try gnome-mime-text-plain. icon_names.push_back("gnome-mime-" + icon_name); // Try "deb" for "application/x-deb" in KDE 3. icon_name = mime_type.substr(mime_type.find("/x-") + 3); icon_names.push_back(icon_name); // Try generic name like text-x-generic. icon_name = mime_type.substr(0, mime_type.find('/')) + "-x-generic"; icon_names.push_back(icon_name); // Last resort icon_names.push_back("unknown"); for (size_t i = 0; i < icon_names.size(); i++) { if (icon_names[i][0] == '/') { icon_file = FilePath(icon_names[i]); if (file_util::PathExists(icon_file)) return icon_file; } else { icon_file = LookupIconInDefaultTheme(icon_names[i], size); if (!icon_file.empty()) return icon_file; } } return FilePath(); } } // namespace mime_util