/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* vim: set ts=8 sts=4 et sw=4 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mozilla/ArrayUtils.h" #include "mozilla/Attributes.h" #include "mozilla/Assertions.h" #include "mozilla/DebugOnly.h" #include "necko-config.h" #include "nsCache.h" #include "nsCacheService.h" #include "nsCacheRequest.h" #include "nsCacheEntry.h" #include "nsCacheEntryDescriptor.h" #include "nsCacheDevice.h" #include "nsMemoryCacheDevice.h" #include "nsICacheVisitor.h" #include "nsDiskCacheDevice.h" #include "nsDiskCacheDeviceSQL.h" #include "nsCacheUtils.h" #include "../cache2/CacheObserver.h" #include "nsIObserverService.h" #include "nsIPrefService.h" #include "nsIPrefBranch.h" #include "nsIFile.h" #include "nsIOService.h" #include "nsDirectoryServiceDefs.h" #include "nsAppDirectoryServiceDefs.h" #include "nsThreadUtils.h" #include "nsProxyRelease.h" #include "nsDeleteDir.h" #include "nsNetCID.h" #include // for log() #include "mozilla/Services.h" #include "nsITimer.h" #include "mozIStorageService.h" #include "mozilla/net/NeckoCommon.h" #include using namespace mozilla; /****************************************************************************** * nsCacheProfilePrefObserver *****************************************************************************/ #define DISK_CACHE_ENABLE_PREF "browser.cache.disk.enable" #define DISK_CACHE_DIR_PREF "browser.cache.disk.parent_directory" #define DISK_CACHE_SMART_SIZE_FIRST_RUN_PREF\ "browser.cache.disk.smart_size.first_run" #define DISK_CACHE_SMART_SIZE_ENABLED_PREF \ "browser.cache.disk.smart_size.enabled" #define DISK_CACHE_SMART_SIZE_PREF "browser.cache.disk.smart_size_cached_value" #define DISK_CACHE_CAPACITY_PREF "browser.cache.disk.capacity" #define DISK_CACHE_MAX_ENTRY_SIZE_PREF "browser.cache.disk.max_entry_size" #define DISK_CACHE_CAPACITY 256000 #define DISK_CACHE_USE_OLD_MAX_SMART_SIZE_PREF \ "browser.cache.disk.smart_size.use_old_max" #define OFFLINE_CACHE_ENABLE_PREF "browser.cache.offline.enable" #define OFFLINE_CACHE_DIR_PREF "browser.cache.offline.parent_directory" #define OFFLINE_CACHE_CAPACITY_PREF "browser.cache.offline.capacity" #define OFFLINE_CACHE_CAPACITY 512000 #define MEMORY_CACHE_ENABLE_PREF "browser.cache.memory.enable" #define MEMORY_CACHE_CAPACITY_PREF "browser.cache.memory.capacity" #define MEMORY_CACHE_MAX_ENTRY_SIZE_PREF "browser.cache.memory.max_entry_size" #define CACHE_COMPRESSION_LEVEL_PREF "browser.cache.compression_level" #define CACHE_COMPRESSION_LEVEL 1 #define SANITIZE_ON_SHUTDOWN_PREF "privacy.sanitize.sanitizeOnShutdown" #define CLEAR_ON_SHUTDOWN_PREF "privacy.clearOnShutdown.cache" static const char * observerList[] = { "profile-before-change", "profile-do-change", NS_XPCOM_SHUTDOWN_OBSERVER_ID, "last-pb-context-exited", "suspend_process_notification", "resume_process_notification" }; static const char * prefList[] = { DISK_CACHE_ENABLE_PREF, DISK_CACHE_SMART_SIZE_ENABLED_PREF, DISK_CACHE_CAPACITY_PREF, DISK_CACHE_DIR_PREF, DISK_CACHE_MAX_ENTRY_SIZE_PREF, DISK_CACHE_USE_OLD_MAX_SMART_SIZE_PREF, OFFLINE_CACHE_ENABLE_PREF, OFFLINE_CACHE_CAPACITY_PREF, OFFLINE_CACHE_DIR_PREF, MEMORY_CACHE_ENABLE_PREF, MEMORY_CACHE_CAPACITY_PREF, MEMORY_CACHE_MAX_ENTRY_SIZE_PREF, CACHE_COMPRESSION_LEVEL_PREF, SANITIZE_ON_SHUTDOWN_PREF, CLEAR_ON_SHUTDOWN_PREF }; // Cache sizes, in KB const int32_t DEFAULT_CACHE_SIZE = 250 * 1024; // 250 MB #ifdef ANDROID const int32_t MAX_CACHE_SIZE = 200 * 1024; // 200 MB const int32_t OLD_MAX_CACHE_SIZE = 200 * 1024; // 200 MB #else const int32_t MAX_CACHE_SIZE = 350 * 1024; // 350 MB const int32_t OLD_MAX_CACHE_SIZE = 1024 * 1024; // 1 GB #endif // Default cache size was 50 MB for many years until FF 4: const int32_t PRE_GECKO_2_0_DEFAULT_CACHE_SIZE = 50 * 1024; class nsCacheProfilePrefObserver : public nsIObserver { virtual ~nsCacheProfilePrefObserver() {} public: NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSIOBSERVER nsCacheProfilePrefObserver() : mHaveProfile(false) , mDiskCacheEnabled(false) , mDiskCacheCapacity(0) , mDiskCacheMaxEntrySize(-1) // -1 means "no limit" , mSmartSizeEnabled(false) , mShouldUseOldMaxSmartSize(false) , mOfflineCacheEnabled(false) , mOfflineCacheCapacity(0) , mMemoryCacheEnabled(true) , mMemoryCacheCapacity(-1) , mMemoryCacheMaxEntrySize(-1) // -1 means "no limit" , mCacheCompressionLevel(CACHE_COMPRESSION_LEVEL) , mSanitizeOnShutdown(false) , mClearCacheOnShutdown(false) { } nsresult Install(); void Remove(); nsresult ReadPrefs(nsIPrefBranch* branch); bool DiskCacheEnabled(); int32_t DiskCacheCapacity() { return mDiskCacheCapacity; } void SetDiskCacheCapacity(int32_t); int32_t DiskCacheMaxEntrySize() { return mDiskCacheMaxEntrySize; } nsIFile * DiskCacheParentDirectory() { return mDiskCacheParentDirectory; } bool SmartSizeEnabled() { return mSmartSizeEnabled; } bool ShouldUseOldMaxSmartSize() { return mShouldUseOldMaxSmartSize; } void SetUseNewMaxSmartSize(bool useNew) { mShouldUseOldMaxSmartSize = !useNew; } bool OfflineCacheEnabled(); int32_t OfflineCacheCapacity() { return mOfflineCacheCapacity; } nsIFile * OfflineCacheParentDirectory() { return mOfflineCacheParentDirectory; } bool MemoryCacheEnabled(); int32_t MemoryCacheCapacity(); int32_t MemoryCacheMaxEntrySize() { return mMemoryCacheMaxEntrySize; } int32_t CacheCompressionLevel(); bool SanitizeAtShutdown() { return mSanitizeOnShutdown && mClearCacheOnShutdown; } static uint32_t GetSmartCacheSize(const nsAString& cachePath, uint32_t currentSize, bool shouldUseOldMaxSmartSize); bool PermittedToSmartSize(nsIPrefBranch*, bool firstRun); private: bool mHaveProfile; bool mDiskCacheEnabled; int32_t mDiskCacheCapacity; // in kilobytes int32_t mDiskCacheMaxEntrySize; // in kilobytes nsCOMPtr mDiskCacheParentDirectory; bool mSmartSizeEnabled; bool mShouldUseOldMaxSmartSize; bool mOfflineCacheEnabled; int32_t mOfflineCacheCapacity; // in kilobytes nsCOMPtr mOfflineCacheParentDirectory; bool mMemoryCacheEnabled; int32_t mMemoryCacheCapacity; // in kilobytes int32_t mMemoryCacheMaxEntrySize; // in kilobytes int32_t mCacheCompressionLevel; bool mSanitizeOnShutdown; bool mClearCacheOnShutdown; }; NS_IMPL_ISUPPORTS(nsCacheProfilePrefObserver, nsIObserver) class nsSetDiskSmartSizeCallback final : public nsITimerCallback { ~nsSetDiskSmartSizeCallback() {} public: NS_DECL_THREADSAFE_ISUPPORTS NS_IMETHOD Notify(nsITimer* aTimer) override { if (nsCacheService::gService) { nsCacheServiceAutoLock autoLock(LOCK_TELEM(NSSETDISKSMARTSIZECALLBACK_NOTIFY)); nsCacheService::gService->SetDiskSmartSize_Locked(); nsCacheService::gService->mSmartSizeTimer = nullptr; } return NS_OK; } }; NS_IMPL_ISUPPORTS(nsSetDiskSmartSizeCallback, nsITimerCallback) // Runnable sent to main thread after the cache IO thread calculates available // disk space, so that there is no race in setting mDiskCacheCapacity. class nsSetSmartSizeEvent: public nsRunnable { public: explicit nsSetSmartSizeEvent(int32_t smartSize) : mSmartSize(smartSize) {} NS_IMETHOD Run() { NS_ASSERTION(NS_IsMainThread(), "Setting smart size data off the main thread"); // Main thread may have already called nsCacheService::Shutdown if (!nsCacheService::IsInitialized()) return NS_ERROR_NOT_AVAILABLE; // Ensure smart sizing wasn't switched off while event was pending. // It is safe to access the observer without the lock since we are // on the main thread and the value changes only on the main thread. if (!nsCacheService::gService->mObserver->SmartSizeEnabled()) return NS_OK; nsCacheService::SetDiskCacheCapacity(mSmartSize); nsCOMPtr ps = do_GetService(NS_PREFSERVICE_CONTRACTID); if (!ps || NS_FAILED(ps->SetIntPref(DISK_CACHE_SMART_SIZE_PREF, mSmartSize))) NS_WARNING("Failed to set smart size pref"); return NS_OK; } private: int32_t mSmartSize; }; // Runnable sent from main thread to cacheIO thread class nsGetSmartSizeEvent: public nsRunnable { public: nsGetSmartSizeEvent(const nsAString& cachePath, uint32_t currentSize, bool shouldUseOldMaxSmartSize) : mCachePath(cachePath) , mCurrentSize(currentSize) , mShouldUseOldMaxSmartSize(shouldUseOldMaxSmartSize) {} // Calculates user's disk space available on a background thread and // dispatches this value back to the main thread. NS_IMETHOD Run() { uint32_t size; size = nsCacheProfilePrefObserver::GetSmartCacheSize(mCachePath, mCurrentSize, mShouldUseOldMaxSmartSize); NS_DispatchToMainThread(new nsSetSmartSizeEvent(size)); return NS_OK; } private: nsString mCachePath; uint32_t mCurrentSize; bool mShouldUseOldMaxSmartSize; }; class nsBlockOnCacheThreadEvent : public nsRunnable { public: nsBlockOnCacheThreadEvent() { } NS_IMETHOD Run() { nsCacheServiceAutoLock autoLock(LOCK_TELEM(NSBLOCKONCACHETHREADEVENT_RUN)); CACHE_LOG_DEBUG(("nsBlockOnCacheThreadEvent [%p]\n", this)); nsCacheService::gService->mCondVar.Notify(); return NS_OK; } }; nsresult nsCacheProfilePrefObserver::Install() { // install profile-change observer nsCOMPtr observerService = mozilla::services::GetObserverService(); if (!observerService) return NS_ERROR_FAILURE; nsresult rv, rv2 = NS_OK; for (unsigned int i=0; iAddObserver(this, observerList[i], false); if (NS_FAILED(rv)) rv2 = rv; } // install preferences observer nsCOMPtr branch = do_GetService(NS_PREFSERVICE_CONTRACTID); if (!branch) return NS_ERROR_FAILURE; for (unsigned int i=0; iAddObserver(prefList[i], this, false); if (NS_FAILED(rv)) rv2 = rv; } // Determine if we have a profile already // Install() is called *after* the profile-after-change notification // when there is only a single profile, or it is specified on the // commandline at startup. // In that case, we detect the presence of a profile by the existence // of the NS_APP_USER_PROFILE_50_DIR directory. nsCOMPtr directory; rv = NS_GetSpecialDirectory(NS_APP_USER_PROFILE_50_DIR, getter_AddRefs(directory)); if (NS_SUCCEEDED(rv)) mHaveProfile = true; rv = ReadPrefs(branch); NS_ENSURE_SUCCESS(rv, rv); return rv2; } void nsCacheProfilePrefObserver::Remove() { // remove Observer Service observers nsCOMPtr obs = mozilla::services::GetObserverService(); if (obs) { for (unsigned int i=0; iRemoveObserver(this, observerList[i]); } } // remove Pref Service observers nsCOMPtr prefs = do_GetService(NS_PREFSERVICE_CONTRACTID); if (!prefs) return; for (unsigned int i=0; iRemoveObserver(prefList[i], this); // remove cache pref observers } void nsCacheProfilePrefObserver::SetDiskCacheCapacity(int32_t capacity) { mDiskCacheCapacity = std::max(0, capacity); } NS_IMETHODIMP nsCacheProfilePrefObserver::Observe(nsISupports * subject, const char * topic, const char16_t * data_unicode) { nsresult rv; NS_ConvertUTF16toUTF8 data(data_unicode); CACHE_LOG_INFO(("Observe [topic=%s data=%s]\n", topic, data.get())); if (!nsCacheService::IsInitialized()) { if (!strcmp("resume_process_notification", topic)) { // A suspended process has a closed cache, so re-open it here. nsCacheService::GlobalInstance()->Init(); } return NS_OK; } if (!strcmp(NS_XPCOM_SHUTDOWN_OBSERVER_ID, topic)) { // xpcom going away, shutdown cache service nsCacheService::GlobalInstance()->Shutdown(); } else if (!strcmp("profile-before-change", topic)) { // profile before change mHaveProfile = false; // XXX shutdown devices nsCacheService::OnProfileShutdown(); } else if (!strcmp("suspend_process_notification", topic)) { // A suspended process may never return, so shutdown the cache to reduce // cache corruption. nsCacheService::GlobalInstance()->Shutdown(); } else if (!strcmp("profile-do-change", topic)) { // profile after change mHaveProfile = true; nsCOMPtr branch = do_GetService(NS_PREFSERVICE_CONTRACTID); ReadPrefs(branch); nsCacheService::OnProfileChanged(); } else if (!strcmp(NS_PREFBRANCH_PREFCHANGE_TOPIC_ID, topic)) { // ignore pref changes until we're done switch profiles if (!mHaveProfile) return NS_OK; nsCOMPtr branch = do_QueryInterface(subject, &rv); if (NS_FAILED(rv)) return rv; // which preference changed? if (!strcmp(DISK_CACHE_ENABLE_PREF, data.get())) { rv = branch->GetBoolPref(DISK_CACHE_ENABLE_PREF, &mDiskCacheEnabled); if (NS_FAILED(rv)) return rv; nsCacheService::SetDiskCacheEnabled(DiskCacheEnabled()); } else if (!strcmp(DISK_CACHE_CAPACITY_PREF, data.get())) { int32_t capacity = 0; rv = branch->GetIntPref(DISK_CACHE_CAPACITY_PREF, &capacity); if (NS_FAILED(rv)) return rv; mDiskCacheCapacity = std::max(0, capacity); nsCacheService::SetDiskCacheCapacity(mDiskCacheCapacity); // Update the cache capacity when smart sizing is turned on/off } else if (!strcmp(DISK_CACHE_SMART_SIZE_ENABLED_PREF, data.get())) { // Is the update because smartsizing was turned on, or off? rv = branch->GetBoolPref(DISK_CACHE_SMART_SIZE_ENABLED_PREF, &mSmartSizeEnabled); if (NS_FAILED(rv)) return rv; int32_t newCapacity = 0; if (mSmartSizeEnabled) { nsCacheService::SetDiskSmartSize(); } else { // Smart sizing switched off: use user specified size rv = branch->GetIntPref(DISK_CACHE_CAPACITY_PREF, &newCapacity); if (NS_FAILED(rv)) return rv; mDiskCacheCapacity = std::max(0, newCapacity); nsCacheService::SetDiskCacheCapacity(mDiskCacheCapacity); } } else if (!strcmp(DISK_CACHE_USE_OLD_MAX_SMART_SIZE_PREF, data.get())) { rv = branch->GetBoolPref(DISK_CACHE_USE_OLD_MAX_SMART_SIZE_PREF, &mShouldUseOldMaxSmartSize); if (NS_FAILED(rv)) return rv; } else if (!strcmp(DISK_CACHE_MAX_ENTRY_SIZE_PREF, data.get())) { int32_t newMaxSize; rv = branch->GetIntPref(DISK_CACHE_MAX_ENTRY_SIZE_PREF, &newMaxSize); if (NS_FAILED(rv)) return rv; mDiskCacheMaxEntrySize = std::max(-1, newMaxSize); nsCacheService::SetDiskCacheMaxEntrySize(mDiskCacheMaxEntrySize); #if 0 } else if (!strcmp(DISK_CACHE_DIR_PREF, data.get())) { // XXX We probaby don't want to respond to this pref except after // XXX profile changes. Ideally, there should be somekind of user // XXX notification that the pref change won't take effect until // XXX the next time the profile changes (browser launch) #endif } else // which preference changed? if (!strcmp(OFFLINE_CACHE_ENABLE_PREF, data.get())) { rv = branch->GetBoolPref(OFFLINE_CACHE_ENABLE_PREF, &mOfflineCacheEnabled); if (NS_FAILED(rv)) return rv; nsCacheService::SetOfflineCacheEnabled(OfflineCacheEnabled()); } else if (!strcmp(OFFLINE_CACHE_CAPACITY_PREF, data.get())) { int32_t capacity = 0; rv = branch->GetIntPref(OFFLINE_CACHE_CAPACITY_PREF, &capacity); if (NS_FAILED(rv)) return rv; mOfflineCacheCapacity = std::max(0, capacity); nsCacheService::SetOfflineCacheCapacity(mOfflineCacheCapacity); #if 0 } else if (!strcmp(OFFLINE_CACHE_DIR_PREF, data.get())) { // XXX We probaby don't want to respond to this pref except after // XXX profile changes. Ideally, there should be some kind of user // XXX notification that the pref change won't take effect until // XXX the next time the profile changes (browser launch) #endif } else if (!strcmp(MEMORY_CACHE_ENABLE_PREF, data.get())) { rv = branch->GetBoolPref(MEMORY_CACHE_ENABLE_PREF, &mMemoryCacheEnabled); if (NS_FAILED(rv)) return rv; nsCacheService::SetMemoryCache(); } else if (!strcmp(MEMORY_CACHE_CAPACITY_PREF, data.get())) { mMemoryCacheCapacity = -1; (void) branch->GetIntPref(MEMORY_CACHE_CAPACITY_PREF, &mMemoryCacheCapacity); nsCacheService::SetMemoryCache(); } else if (!strcmp(MEMORY_CACHE_MAX_ENTRY_SIZE_PREF, data.get())) { int32_t newMaxSize; rv = branch->GetIntPref(MEMORY_CACHE_MAX_ENTRY_SIZE_PREF, &newMaxSize); if (NS_FAILED(rv)) return rv; mMemoryCacheMaxEntrySize = std::max(-1, newMaxSize); nsCacheService::SetMemoryCacheMaxEntrySize(mMemoryCacheMaxEntrySize); } else if (!strcmp(CACHE_COMPRESSION_LEVEL_PREF, data.get())) { mCacheCompressionLevel = CACHE_COMPRESSION_LEVEL; (void)branch->GetIntPref(CACHE_COMPRESSION_LEVEL_PREF, &mCacheCompressionLevel); mCacheCompressionLevel = std::max(0, mCacheCompressionLevel); mCacheCompressionLevel = std::min(9, mCacheCompressionLevel); } else if (!strcmp(SANITIZE_ON_SHUTDOWN_PREF, data.get())) { rv = branch->GetBoolPref(SANITIZE_ON_SHUTDOWN_PREF, &mSanitizeOnShutdown); if (NS_FAILED(rv)) return rv; nsCacheService::SetDiskCacheEnabled(DiskCacheEnabled()); } else if (!strcmp(CLEAR_ON_SHUTDOWN_PREF, data.get())) { rv = branch->GetBoolPref(CLEAR_ON_SHUTDOWN_PREF, &mClearCacheOnShutdown); if (NS_FAILED(rv)) return rv; nsCacheService::SetDiskCacheEnabled(DiskCacheEnabled()); } } else if (!strcmp("last-pb-context-exited", topic)) { nsCacheService::LeavePrivateBrowsing(); } return NS_OK; } // Returns default ("smart") size (in KB) of cache, given available disk space // (also in KB) static uint32_t SmartCacheSize(const uint32_t availKB, bool shouldUseOldMaxSmartSize) { uint32_t maxSize = shouldUseOldMaxSmartSize ? OLD_MAX_CACHE_SIZE : MAX_CACHE_SIZE; if (availKB > 100 * 1024 * 1024) return maxSize; // skip computing if we're over 100 GB // Grow/shrink in 10 MB units, deliberately, so that in the common case we // don't shrink cache and evict items every time we startup (it's important // that we don't slow down startup benchmarks). uint32_t sz10MBs = 0; uint32_t avail10MBs = availKB / (1024*10); // .5% of space above 25 GB if (avail10MBs > 2500) { sz10MBs += static_cast((avail10MBs - 2500)*.005); avail10MBs = 2500; } // 1% of space between 7GB -> 25 GB if (avail10MBs > 700) { sz10MBs += static_cast((avail10MBs - 700)*.01); avail10MBs = 700; } // 5% of space between 500 MB -> 7 GB if (avail10MBs > 50) { sz10MBs += static_cast((avail10MBs - 50)*.05); avail10MBs = 50; } #ifdef ANDROID // On Android, smaller/older devices may have very little storage and // device owners may be sensitive to storage footprint: Use a smaller // percentage of available space and a smaller minimum. // 20% of space up to 500 MB (10 MB min) sz10MBs += std::max(1, static_cast(avail10MBs * .2)); #else // 40% of space up to 500 MB (50 MB min) sz10MBs += std::max(5, static_cast(avail10MBs * .4)); #endif return std::min(maxSize, sz10MBs * 10 * 1024); } /* Computes our best guess for the default size of the user's disk cache, * based on the amount of space they have free on their hard drive. * We use a tiered scheme: the more space available, * the larger the disk cache will be. However, we do not want * to enable the disk cache to grow to an unbounded size, so the larger the * user's available space is, the smaller of a percentage we take. We set a * lower bound of 50MB and an upper bound of 1GB. * *@param: None. *@return: The size that the user's disk cache should default to, in kBytes. */ uint32_t nsCacheProfilePrefObserver::GetSmartCacheSize(const nsAString& cachePath, uint32_t currentSize, bool shouldUseOldMaxSmartSize) { // Check for free space on device where cache directory lives nsresult rv; nsCOMPtr cacheDirectory (do_CreateInstance(NS_LOCAL_FILE_CONTRACTID, &rv)); if (NS_FAILED(rv) || !cacheDirectory) return DEFAULT_CACHE_SIZE; rv = cacheDirectory->InitWithPath(cachePath); if (NS_FAILED(rv)) return DEFAULT_CACHE_SIZE; int64_t bytesAvailable; rv = cacheDirectory->GetDiskSpaceAvailable(&bytesAvailable); if (NS_FAILED(rv)) return DEFAULT_CACHE_SIZE; return SmartCacheSize(static_cast((bytesAvailable / 1024) + currentSize), shouldUseOldMaxSmartSize); } /* Determine if we are permitted to dynamically size the user's disk cache based * on their disk space available. We may do this so long as the pref * smart_size.enabled is true. */ bool nsCacheProfilePrefObserver::PermittedToSmartSize(nsIPrefBranch* branch, bool firstRun) { nsresult rv; if (firstRun) { // check if user has set cache size in the past bool userSet; rv = branch->PrefHasUserValue(DISK_CACHE_CAPACITY_PREF, &userSet); if (NS_FAILED(rv)) userSet = true; if (userSet) { int32_t oldCapacity; // If user explicitly set cache size to be smaller than old default // of 50 MB, then keep user's value. Otherwise use smart sizing. rv = branch->GetIntPref(DISK_CACHE_CAPACITY_PREF, &oldCapacity); if (oldCapacity < PRE_GECKO_2_0_DEFAULT_CACHE_SIZE) { mSmartSizeEnabled = false; branch->SetBoolPref(DISK_CACHE_SMART_SIZE_ENABLED_PREF, mSmartSizeEnabled); return mSmartSizeEnabled; } } // Set manual setting to MAX cache size as starting val for any // adjustment by user: (bug 559942 comment 65) int32_t maxSize = mShouldUseOldMaxSmartSize ? OLD_MAX_CACHE_SIZE : MAX_CACHE_SIZE; branch->SetIntPref(DISK_CACHE_CAPACITY_PREF, maxSize); } rv = branch->GetBoolPref(DISK_CACHE_SMART_SIZE_ENABLED_PREF, &mSmartSizeEnabled); if (NS_FAILED(rv)) mSmartSizeEnabled = false; return mSmartSizeEnabled; } nsresult nsCacheProfilePrefObserver::ReadPrefs(nsIPrefBranch* branch) { nsresult rv = NS_OK; // read disk cache device prefs mDiskCacheEnabled = true; // presume disk cache is enabled (void) branch->GetBoolPref(DISK_CACHE_ENABLE_PREF, &mDiskCacheEnabled); mDiskCacheCapacity = DISK_CACHE_CAPACITY; (void)branch->GetIntPref(DISK_CACHE_CAPACITY_PREF, &mDiskCacheCapacity); mDiskCacheCapacity = std::max(0, mDiskCacheCapacity); (void) branch->GetIntPref(DISK_CACHE_MAX_ENTRY_SIZE_PREF, &mDiskCacheMaxEntrySize); mDiskCacheMaxEntrySize = std::max(-1, mDiskCacheMaxEntrySize); (void) branch->GetComplexValue(DISK_CACHE_DIR_PREF, // ignore error NS_GET_IID(nsIFile), getter_AddRefs(mDiskCacheParentDirectory)); (void) branch->GetBoolPref(DISK_CACHE_USE_OLD_MAX_SMART_SIZE_PREF, &mShouldUseOldMaxSmartSize); if (!mDiskCacheParentDirectory) { nsCOMPtr directory; // try to get the disk cache parent directory rv = NS_GetSpecialDirectory(NS_APP_CACHE_PARENT_DIR, getter_AddRefs(directory)); if (NS_FAILED(rv)) { // try to get the profile directory (there may not be a profile yet) nsCOMPtr profDir; NS_GetSpecialDirectory(NS_APP_USER_PROFILE_50_DIR, getter_AddRefs(profDir)); NS_GetSpecialDirectory(NS_APP_USER_PROFILE_LOCAL_50_DIR, getter_AddRefs(directory)); if (!directory) directory = profDir; else if (profDir) { nsCacheService::MoveOrRemoveDiskCache(profDir, directory, "Cache"); } } // use file cache in build tree only if asked, to avoid cache dir litter if (!directory && PR_GetEnv("NECKO_DEV_ENABLE_DISK_CACHE")) { rv = NS_GetSpecialDirectory(NS_XPCOM_CURRENT_PROCESS_DIR, getter_AddRefs(directory)); } if (directory) mDiskCacheParentDirectory = do_QueryInterface(directory, &rv); } if (mDiskCacheParentDirectory) { bool firstSmartSizeRun; rv = branch->GetBoolPref(DISK_CACHE_SMART_SIZE_FIRST_RUN_PREF, &firstSmartSizeRun); if (NS_FAILED(rv)) firstSmartSizeRun = false; if (PermittedToSmartSize(branch, firstSmartSizeRun)) { // Avoid evictions: use previous cache size until smart size event // updates mDiskCacheCapacity rv = branch->GetIntPref(firstSmartSizeRun ? DISK_CACHE_CAPACITY_PREF : DISK_CACHE_SMART_SIZE_PREF, &mDiskCacheCapacity); if (NS_FAILED(rv)) mDiskCacheCapacity = DEFAULT_CACHE_SIZE; } if (firstSmartSizeRun) { // It is no longer our first run rv = branch->SetBoolPref(DISK_CACHE_SMART_SIZE_FIRST_RUN_PREF, false); if (NS_FAILED(rv)) NS_WARNING("Failed setting first_run pref in ReadPrefs."); } } // read offline cache device prefs mOfflineCacheEnabled = true; // presume offline cache is enabled (void) branch->GetBoolPref(OFFLINE_CACHE_ENABLE_PREF, &mOfflineCacheEnabled); mOfflineCacheCapacity = OFFLINE_CACHE_CAPACITY; (void)branch->GetIntPref(OFFLINE_CACHE_CAPACITY_PREF, &mOfflineCacheCapacity); mOfflineCacheCapacity = std::max(0, mOfflineCacheCapacity); (void) branch->GetComplexValue(OFFLINE_CACHE_DIR_PREF, // ignore error NS_GET_IID(nsIFile), getter_AddRefs(mOfflineCacheParentDirectory)); if (!mOfflineCacheParentDirectory) { nsCOMPtr directory; // try to get the offline cache parent directory rv = NS_GetSpecialDirectory(NS_APP_CACHE_PARENT_DIR, getter_AddRefs(directory)); if (NS_FAILED(rv)) { // try to get the profile directory (there may not be a profile yet) nsCOMPtr profDir; NS_GetSpecialDirectory(NS_APP_USER_PROFILE_50_DIR, getter_AddRefs(profDir)); NS_GetSpecialDirectory(NS_APP_USER_PROFILE_LOCAL_50_DIR, getter_AddRefs(directory)); if (!directory) directory = profDir; else if (profDir) { nsCacheService::MoveOrRemoveDiskCache(profDir, directory, "OfflineCache"); } } #if DEBUG if (!directory) { // use current process directory during development rv = NS_GetSpecialDirectory(NS_XPCOM_CURRENT_PROCESS_DIR, getter_AddRefs(directory)); } #endif if (directory) mOfflineCacheParentDirectory = do_QueryInterface(directory, &rv); } // read memory cache device prefs (void) branch->GetBoolPref(MEMORY_CACHE_ENABLE_PREF, &mMemoryCacheEnabled); mMemoryCacheCapacity = -1; (void) branch->GetIntPref(MEMORY_CACHE_CAPACITY_PREF, &mMemoryCacheCapacity); (void) branch->GetIntPref(MEMORY_CACHE_MAX_ENTRY_SIZE_PREF, &mMemoryCacheMaxEntrySize); mMemoryCacheMaxEntrySize = std::max(-1, mMemoryCacheMaxEntrySize); // read cache compression level pref mCacheCompressionLevel = CACHE_COMPRESSION_LEVEL; (void)branch->GetIntPref(CACHE_COMPRESSION_LEVEL_PREF, &mCacheCompressionLevel); mCacheCompressionLevel = std::max(0, mCacheCompressionLevel); mCacheCompressionLevel = std::min(9, mCacheCompressionLevel); // read cache shutdown sanitization prefs (void) branch->GetBoolPref(SANITIZE_ON_SHUTDOWN_PREF, &mSanitizeOnShutdown); (void) branch->GetBoolPref(CLEAR_ON_SHUTDOWN_PREF, &mClearCacheOnShutdown); return rv; } nsresult nsCacheService::DispatchToCacheIOThread(nsIRunnable* event) { if (!gService->mCacheIOThread) return NS_ERROR_NOT_AVAILABLE; return gService->mCacheIOThread->Dispatch(event, NS_DISPATCH_NORMAL); } nsresult nsCacheService::SyncWithCacheIOThread() { gService->mLock.AssertCurrentThreadOwns(); if (!gService->mCacheIOThread) return NS_ERROR_NOT_AVAILABLE; nsCOMPtr event = new nsBlockOnCacheThreadEvent(); // dispatch event - it will notify the monitor when it's done nsresult rv = gService->mCacheIOThread->Dispatch(event, NS_DISPATCH_NORMAL); if (NS_FAILED(rv)) { NS_WARNING("Failed dispatching block-event"); return NS_ERROR_UNEXPECTED; } // wait until notified, then return rv = gService->mCondVar.Wait(); return rv; } bool nsCacheProfilePrefObserver::DiskCacheEnabled() { if ((mDiskCacheCapacity == 0) || (!mDiskCacheParentDirectory)) return false; return mDiskCacheEnabled && (!mSanitizeOnShutdown || !mClearCacheOnShutdown); } bool nsCacheProfilePrefObserver::OfflineCacheEnabled() { if ((mOfflineCacheCapacity == 0) || (!mOfflineCacheParentDirectory)) return false; return mOfflineCacheEnabled; } bool nsCacheProfilePrefObserver::MemoryCacheEnabled() { if (mMemoryCacheCapacity == 0) return false; return mMemoryCacheEnabled; } /** * MemoryCacheCapacity * * If the browser.cache.memory.capacity preference is positive, we use that * value for the amount of memory available for the cache. * * If browser.cache.memory.capacity is zero, the memory cache is disabled. * * If browser.cache.memory.capacity is negative or not present, we use a * formula that grows less than linearly with the amount of system memory, * with an upper limit on the cache size. No matter how much physical RAM is * present, the default cache size would not exceed 32 MB. This maximum would * apply only to systems with more than 4 GB of RAM (e.g. terminal servers) * * RAM Cache * --- ----- * 32 Mb 2 Mb * 64 Mb 4 Mb * 128 Mb 6 Mb * 256 Mb 10 Mb * 512 Mb 14 Mb * 1024 Mb 18 Mb * 2048 Mb 24 Mb * 4096 Mb 30 Mb * * The equation for this is (for cache size C and memory size K (kbytes)): * x = log2(K) - 14 * C = x^2/3 + x + 2/3 + 0.1 (0.1 for rounding) * if (C > 32) C = 32 */ int32_t nsCacheProfilePrefObserver::MemoryCacheCapacity() { int32_t capacity = mMemoryCacheCapacity; if (capacity >= 0) { CACHE_LOG_DEBUG(("Memory cache capacity forced to %d\n", capacity)); return capacity; } static uint64_t bytes = PR_GetPhysicalMemorySize(); CACHE_LOG_DEBUG(("Physical Memory size is %llu\n", bytes)); // If getting the physical memory failed, arbitrarily assume // 32 MB of RAM. We use a low default to have a reasonable // size on all the devices we support. if (bytes == 0) bytes = 32 * 1024 * 1024; // Conversion from unsigned int64_t to double doesn't work on all platforms. // We need to truncate the value at INT64_MAX to make sure we don't // overflow. if (bytes > INT64_MAX) bytes = INT64_MAX; uint64_t kbytes = bytes >> 10; double kBytesD = double(kbytes); double x = log(kBytesD)/log(2.0) - 14; if (x > 0) { capacity = (int32_t)(x * x / 3.0 + x + 2.0 / 3 + 0.1); // 0.1 for rounding if (capacity > 32) capacity = 32; capacity *= 1024; } else { capacity = 0; } return capacity; } int32_t nsCacheProfilePrefObserver::CacheCompressionLevel() { return mCacheCompressionLevel; } /****************************************************************************** * nsProcessRequestEvent *****************************************************************************/ class nsProcessRequestEvent : public nsRunnable { public: explicit nsProcessRequestEvent(nsCacheRequest *aRequest) { mRequest = aRequest; } NS_IMETHOD Run() { nsresult rv; NS_ASSERTION(mRequest->mListener, "Sync OpenCacheEntry() posted to background thread!"); nsCacheServiceAutoLock lock(LOCK_TELEM(NSPROCESSREQUESTEVENT_RUN)); rv = nsCacheService::gService->ProcessRequest(mRequest, false, nullptr); // Don't delete the request if it was queued if (!(mRequest->IsBlocking() && rv == NS_ERROR_CACHE_WAIT_FOR_VALIDATION)) delete mRequest; return NS_OK; } protected: virtual ~nsProcessRequestEvent() {} private: nsCacheRequest *mRequest; }; /****************************************************************************** * nsDoomEvent *****************************************************************************/ class nsDoomEvent : public nsRunnable { public: nsDoomEvent(nsCacheSession *session, const nsACString &key, nsICacheListener *listener) { mKey = *session->ClientID(); mKey.Append(':'); mKey.Append(key); mStoragePolicy = session->StoragePolicy(); mListener = listener; mThread = do_GetCurrentThread(); // We addref the listener here and release it in nsNotifyDoomListener // on the callers thread. If posting of nsNotifyDoomListener event fails // we leak the listener which is better than releasing it on a wrong // thread. NS_IF_ADDREF(mListener); } NS_IMETHOD Run() { nsCacheServiceAutoLock lock(LOCK_TELEM(NSDOOMEVENT_RUN)); bool foundActive = true; nsresult status = NS_ERROR_NOT_AVAILABLE; nsCacheEntry *entry; entry = nsCacheService::gService->mActiveEntries.GetEntry(&mKey); if (!entry) { bool collision = false; foundActive = false; entry = nsCacheService::gService->SearchCacheDevices(&mKey, mStoragePolicy, &collision); } if (entry) { status = NS_OK; nsCacheService::gService->DoomEntry_Internal(entry, foundActive); } if (mListener) { mThread->Dispatch(new nsNotifyDoomListener(mListener, status), NS_DISPATCH_NORMAL); // posted event will release the reference on the correct thread mListener = nullptr; } return NS_OK; } private: nsCString mKey; nsCacheStoragePolicy mStoragePolicy; nsICacheListener *mListener; nsCOMPtr mThread; }; /****************************************************************************** * nsCacheService *****************************************************************************/ nsCacheService * nsCacheService::gService = nullptr; NS_IMPL_ISUPPORTS(nsCacheService, nsICacheService, nsICacheServiceInternal, nsIMemoryReporter) nsCacheService::nsCacheService() : mObserver(nullptr), mLock("nsCacheService.mLock"), mCondVar(mLock, "nsCacheService.mCondVar"), mTimeStampLock("nsCacheService.mTimeStampLock"), mInitialized(false), mClearingEntries(false), mEnableMemoryDevice(true), mEnableDiskDevice(true), mMemoryDevice(nullptr), mDiskDevice(nullptr), mOfflineDevice(nullptr), mTotalEntries(0), mCacheHits(0), mCacheMisses(0), mMaxKeyLength(0), mMaxDataSize(0), mMaxMetaSize(0), mDeactivateFailures(0), mDeactivatedUnboundEntries(0) { NS_ASSERTION(gService==nullptr, "multiple nsCacheService instances!"); gService = this; // create list of cache devices PR_INIT_CLIST(&mDoomedEntries); } nsCacheService::~nsCacheService() { if (mInitialized) // Shutdown hasn't been called yet. (void) Shutdown(); if (mObserver) { mObserver->Remove(); NS_RELEASE(mObserver); } gService = nullptr; } nsresult nsCacheService::Init() { // Thie method must be called on the main thread because mCacheIOThread must // only be modified on the main thread. if (!NS_IsMainThread()) { NS_ERROR("nsCacheService::Init called off the main thread"); return NS_ERROR_NOT_SAME_THREAD; } NS_ASSERTION(!mInitialized, "nsCacheService already initialized."); if (mInitialized) return NS_ERROR_ALREADY_INITIALIZED; if (mozilla::net::IsNeckoChild()) { return NS_ERROR_UNEXPECTED; } nsresult rv; mStorageService = do_GetService("@mozilla.org/storage/service;1", &rv); NS_ENSURE_SUCCESS(rv, rv); rv = NS_NewNamedThread("Cache I/O", getter_AddRefs(mCacheIOThread)); if (NS_FAILED(rv)) { NS_RUNTIMEABORT("Can't create cache IO thread"); } rv = nsDeleteDir::Init(); if (NS_FAILED(rv)) { NS_WARNING("Can't initialize nsDeleteDir"); } // initialize hashtable for active cache entries mActiveEntries.Init(); // create profile/preference observer if (!mObserver) { mObserver = new nsCacheProfilePrefObserver(); NS_ADDREF(mObserver); mObserver->Install(); } mEnableDiskDevice = mObserver->DiskCacheEnabled(); mEnableOfflineDevice = mObserver->OfflineCacheEnabled(); mEnableMemoryDevice = mObserver->MemoryCacheEnabled(); RegisterWeakMemoryReporter(this); mInitialized = true; return NS_OK; } void nsCacheService::Shutdown() { // This method must be called on the main thread because mCacheIOThread must // only be modified on the main thread. if (!NS_IsMainThread()) { NS_RUNTIMEABORT("nsCacheService::Shutdown called off the main thread"); } nsCOMPtr cacheIOThread; Telemetry::AutoTimer totalTimer; bool shouldSanitize = false; nsCOMPtr parentDir; { nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_SHUTDOWN)); NS_ASSERTION(mInitialized, "can't shutdown nsCacheService unless it has been initialized."); if (!mInitialized) return; mClearingEntries = true; DoomActiveEntries(nullptr); } CloseAllStreams(); UnregisterWeakMemoryReporter(this); { nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_SHUTDOWN)); NS_ASSERTION(mInitialized, "Bad state"); mInitialized = false; // Clear entries ClearDoomList(); if (mSmartSizeTimer) { mSmartSizeTimer->Cancel(); mSmartSizeTimer = nullptr; } // Make sure to wait for any pending cache-operations before // proceeding with destructive actions (bug #620660) (void) SyncWithCacheIOThread(); mActiveEntries.Shutdown(); // obtain the disk cache directory in case we need to sanitize it parentDir = mObserver->DiskCacheParentDirectory(); shouldSanitize = mObserver->SanitizeAtShutdown(); // deallocate memory and disk caches delete mMemoryDevice; mMemoryDevice = nullptr; delete mDiskDevice; mDiskDevice = nullptr; if (mOfflineDevice) mOfflineDevice->Shutdown(); NS_IF_RELEASE(mOfflineDevice); for (auto iter = mCustomOfflineDevices.Iter(); !iter.Done(); iter.Next()) { iter.Data()->Shutdown(); iter.Remove(); } LogCacheStatistics(); mClearingEntries = false; mCacheIOThread.swap(cacheIOThread); } if (cacheIOThread) nsShutdownThread::BlockingShutdown(cacheIOThread); if (shouldSanitize) { nsresult rv = parentDir->AppendNative(NS_LITERAL_CSTRING("Cache")); if (NS_SUCCEEDED(rv)) { bool exists; if (NS_SUCCEEDED(parentDir->Exists(&exists)) && exists) nsDeleteDir::DeleteDir(parentDir, false); } Telemetry::AutoTimer timer; nsDeleteDir::Shutdown(shouldSanitize); } else { Telemetry::AutoTimer timer; nsDeleteDir::Shutdown(shouldSanitize); } } nsresult nsCacheService::Create(nsISupports* aOuter, const nsIID& aIID, void* *aResult) { nsresult rv; if (aOuter != nullptr) return NS_ERROR_NO_AGGREGATION; nsCacheService * cacheService = new nsCacheService(); if (cacheService == nullptr) return NS_ERROR_OUT_OF_MEMORY; NS_ADDREF(cacheService); rv = cacheService->Init(); if (NS_SUCCEEDED(rv)) { rv = cacheService->QueryInterface(aIID, aResult); } NS_RELEASE(cacheService); return rv; } NS_IMETHODIMP nsCacheService::CreateSession(const char * clientID, nsCacheStoragePolicy storagePolicy, bool streamBased, nsICacheSession **result) { *result = nullptr; if (net::CacheObserver::UseNewCache()) return NS_ERROR_NOT_IMPLEMENTED; return CreateSessionInternal(clientID, storagePolicy, streamBased, result); } nsresult nsCacheService::CreateSessionInternal(const char * clientID, nsCacheStoragePolicy storagePolicy, bool streamBased, nsICacheSession **result) { RefPtr session = new nsCacheSession(clientID, storagePolicy, streamBased); session.forget(result); return NS_OK; } nsresult nsCacheService::EvictEntriesForSession(nsCacheSession * session) { NS_ASSERTION(gService, "nsCacheService::gService is null."); return gService->EvictEntriesForClient(session->ClientID()->get(), session->StoragePolicy()); } namespace { class EvictionNotifierRunnable : public nsRunnable { public: explicit EvictionNotifierRunnable(nsISupports* aSubject) : mSubject(aSubject) { } NS_DECL_NSIRUNNABLE private: nsCOMPtr mSubject; }; NS_IMETHODIMP EvictionNotifierRunnable::Run() { nsCOMPtr obsSvc = mozilla::services::GetObserverService(); if (obsSvc) { obsSvc->NotifyObservers(mSubject, NS_CACHESERVICE_EMPTYCACHE_TOPIC_ID, nullptr); } return NS_OK; } } // namespace nsresult nsCacheService::EvictEntriesForClient(const char * clientID, nsCacheStoragePolicy storagePolicy) { RefPtr r = new EvictionNotifierRunnable(NS_ISUPPORTS_CAST(nsICacheService*, this)); NS_DispatchToMainThread(r); nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_EVICTENTRIESFORCLIENT)); nsresult res = NS_OK; if (storagePolicy == nsICache::STORE_ANYWHERE || storagePolicy == nsICache::STORE_ON_DISK) { if (mEnableDiskDevice) { nsresult rv = NS_OK; if (!mDiskDevice) rv = CreateDiskDevice(); if (mDiskDevice) rv = mDiskDevice->EvictEntries(clientID); if (NS_FAILED(rv)) res = rv; } } // Only clear the offline cache if it has been specifically asked for. if (storagePolicy == nsICache::STORE_OFFLINE) { if (mEnableOfflineDevice) { nsresult rv = NS_OK; if (!mOfflineDevice) rv = CreateOfflineDevice(); if (mOfflineDevice) rv = mOfflineDevice->EvictEntries(clientID); if (NS_FAILED(rv)) res = rv; } } if (storagePolicy == nsICache::STORE_ANYWHERE || storagePolicy == nsICache::STORE_IN_MEMORY) { // If there is no memory device, there is no need to evict it... if (mMemoryDevice) { nsresult rv = mMemoryDevice->EvictEntries(clientID); if (NS_FAILED(rv)) res = rv; } } return res; } nsresult nsCacheService::IsStorageEnabledForPolicy(nsCacheStoragePolicy storagePolicy, bool * result) { if (gService == nullptr) return NS_ERROR_NOT_AVAILABLE; nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_ISSTORAGEENABLEDFORPOLICY)); *result = gService->IsStorageEnabledForPolicy_Locked(storagePolicy); return NS_OK; } nsresult nsCacheService::DoomEntry(nsCacheSession *session, const nsACString &key, nsICacheListener *listener) { CACHE_LOG_DEBUG(("Dooming entry for session %p, key %s\n", session, PromiseFlatCString(key).get())); NS_ASSERTION(gService, "nsCacheService::gService is null."); if (!gService->mInitialized) return NS_ERROR_NOT_INITIALIZED; return DispatchToCacheIOThread(new nsDoomEvent(session, key, listener)); } bool nsCacheService::IsStorageEnabledForPolicy_Locked(nsCacheStoragePolicy storagePolicy) { if (gService->mEnableMemoryDevice && (storagePolicy == nsICache::STORE_ANYWHERE || storagePolicy == nsICache::STORE_IN_MEMORY)) { return true; } if (gService->mEnableDiskDevice && (storagePolicy == nsICache::STORE_ANYWHERE || storagePolicy == nsICache::STORE_ON_DISK)) { return true; } if (gService->mEnableOfflineDevice && storagePolicy == nsICache::STORE_OFFLINE) { return true; } return false; } NS_IMETHODIMP nsCacheService::VisitEntries(nsICacheVisitor *visitor) { if (net::CacheObserver::UseNewCache()) return NS_ERROR_NOT_IMPLEMENTED; return VisitEntriesInternal(visitor); } nsresult nsCacheService::VisitEntriesInternal(nsICacheVisitor *visitor) { NS_ENSURE_ARG_POINTER(visitor); nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_VISITENTRIES)); if (!(mEnableDiskDevice || mEnableMemoryDevice)) return NS_ERROR_NOT_AVAILABLE; // XXX record the fact that a visitation is in progress, // XXX i.e. keep list of visitors in progress. nsresult rv = NS_OK; // If there is no memory device, there are then also no entries to visit... if (mMemoryDevice) { rv = mMemoryDevice->Visit(visitor); if (NS_FAILED(rv)) return rv; } if (mEnableDiskDevice) { if (!mDiskDevice) { rv = CreateDiskDevice(); if (NS_FAILED(rv)) return rv; } rv = mDiskDevice->Visit(visitor); if (NS_FAILED(rv)) return rv; } if (mEnableOfflineDevice) { if (!mOfflineDevice) { rv = CreateOfflineDevice(); if (NS_FAILED(rv)) return rv; } rv = mOfflineDevice->Visit(visitor); if (NS_FAILED(rv)) return rv; } // XXX notify any shutdown process that visitation is complete for THIS visitor. // XXX keep queue of visitors return NS_OK; } void nsCacheService::FireClearNetworkCacheStoredAnywhereNotification() { MOZ_ASSERT(NS_IsMainThread()); nsCOMPtr obsvc = mozilla::services::GetObserverService(); if (obsvc) { obsvc->NotifyObservers(nullptr, "network-clear-cache-stored-anywhere", nullptr); } } NS_IMETHODIMP nsCacheService::EvictEntries(nsCacheStoragePolicy storagePolicy) { if (net::CacheObserver::UseNewCache()) return NS_ERROR_NOT_IMPLEMENTED; return EvictEntriesInternal(storagePolicy); } nsresult nsCacheService::EvictEntriesInternal(nsCacheStoragePolicy storagePolicy) { if (storagePolicy == nsICache::STORE_ANYWHERE) { // if not called on main thread, dispatch the notification to the main thread to notify observers if (!NS_IsMainThread()) { nsCOMPtr event = NS_NewRunnableMethod(this, &nsCacheService::FireClearNetworkCacheStoredAnywhereNotification); NS_DispatchToMainThread(event); } else { // else you're already on main thread - notify observers FireClearNetworkCacheStoredAnywhereNotification(); } } return EvictEntriesForClient(nullptr, storagePolicy); } NS_IMETHODIMP nsCacheService::GetCacheIOTarget(nsIEventTarget * *aCacheIOTarget) { NS_ENSURE_ARG_POINTER(aCacheIOTarget); // Because mCacheIOThread can only be changed on the main thread, it can be // read from the main thread without the lock. This is useful to prevent // blocking the main thread on other cache operations. if (!NS_IsMainThread()) { Lock(LOCK_TELEM(NSCACHESERVICE_GETCACHEIOTARGET)); } nsresult rv; if (mCacheIOThread) { NS_ADDREF(*aCacheIOTarget = mCacheIOThread); rv = NS_OK; } else { *aCacheIOTarget = nullptr; rv = NS_ERROR_NOT_AVAILABLE; } if (!NS_IsMainThread()) { Unlock(); } return rv; } NS_IMETHODIMP nsCacheService::GetLockHeldTime(double *aLockHeldTime) { MutexAutoLock lock(mTimeStampLock); if (mLockAcquiredTimeStamp.IsNull()) { *aLockHeldTime = 0.0; } else { *aLockHeldTime = (TimeStamp::Now() - mLockAcquiredTimeStamp).ToMilliseconds(); } return NS_OK; } /** * Internal Methods */ nsresult nsCacheService::CreateDiskDevice() { if (!mInitialized) return NS_ERROR_NOT_AVAILABLE; if (!mEnableDiskDevice) return NS_ERROR_NOT_AVAILABLE; if (mDiskDevice) return NS_OK; mDiskDevice = new nsDiskCacheDevice; if (!mDiskDevice) return NS_ERROR_OUT_OF_MEMORY; // set the preferences mDiskDevice->SetCacheParentDirectory(mObserver->DiskCacheParentDirectory()); mDiskDevice->SetCapacity(mObserver->DiskCacheCapacity()); mDiskDevice->SetMaxEntrySize(mObserver->DiskCacheMaxEntrySize()); nsresult rv = mDiskDevice->Init(); if (NS_FAILED(rv)) { #if DEBUG printf("###\n"); printf("### mDiskDevice->Init() failed (0x%.8x)\n", static_cast(rv)); printf("### - disabling disk cache for this session.\n"); printf("###\n"); #endif mEnableDiskDevice = false; delete mDiskDevice; mDiskDevice = nullptr; return rv; } Telemetry::Accumulate(Telemetry::DISK_CACHE_SMART_SIZE_USING_OLD_MAX, mObserver->ShouldUseOldMaxSmartSize()); NS_ASSERTION(!mSmartSizeTimer, "Smartsize timer was already fired!"); // Disk device is usually created during the startup. Delay smart size // calculation to avoid possible massive IO caused by eviction of entries // in case the new smart size is smaller than current cache usage. mSmartSizeTimer = do_CreateInstance("@mozilla.org/timer;1", &rv); if (NS_SUCCEEDED(rv)) { rv = mSmartSizeTimer->InitWithCallback(new nsSetDiskSmartSizeCallback(), 1000*60*3, nsITimer::TYPE_ONE_SHOT); if (NS_FAILED(rv)) { NS_WARNING("Failed to post smart size timer"); mSmartSizeTimer = nullptr; } } else { NS_WARNING("Can't create smart size timer"); } // Ignore state of the timer and return success since the purpose of the // method (create the disk-device) has been fulfilled return NS_OK; } // Runnable sent from cache thread to main thread class nsDisableOldMaxSmartSizePrefEvent: public nsRunnable { public: nsDisableOldMaxSmartSizePrefEvent() {} NS_IMETHOD Run() { // Main thread may have already called nsCacheService::Shutdown if (!nsCacheService::IsInitialized()) return NS_ERROR_NOT_AVAILABLE; nsCOMPtr branch = do_GetService(NS_PREFSERVICE_CONTRACTID); if (!branch) { return NS_ERROR_NOT_AVAILABLE; } nsresult rv = branch->SetBoolPref(DISK_CACHE_USE_OLD_MAX_SMART_SIZE_PREF, false); if (NS_FAILED(rv)) { NS_WARNING("Failed to disable old max smart size"); return rv; } // It is safe to call SetDiskSmartSize_Locked() without holding the lock // when we are on main thread and nsCacheService is initialized. nsCacheService::gService->SetDiskSmartSize_Locked(); if (nsCacheService::gService->mObserver->PermittedToSmartSize(branch, false)) { rv = branch->SetIntPref(DISK_CACHE_CAPACITY_PREF, MAX_CACHE_SIZE); if (NS_FAILED(rv)) { NS_WARNING("Failed to set cache capacity pref"); } } return NS_OK; } }; void nsCacheService::MarkStartingFresh() { if (!gService->mObserver->ShouldUseOldMaxSmartSize()) { // Already using new max, nothing to do here return; } gService->mObserver->SetUseNewMaxSmartSize(true); // We always dispatch an event here because we don't want to deal with lock // reentrance issues. NS_DispatchToMainThread(new nsDisableOldMaxSmartSizePrefEvent()); } nsresult nsCacheService::GetOfflineDevice(nsOfflineCacheDevice **aDevice) { if (!mOfflineDevice) { nsresult rv = CreateOfflineDevice(); NS_ENSURE_SUCCESS(rv, rv); } NS_ADDREF(*aDevice = mOfflineDevice); return NS_OK; } nsresult nsCacheService::GetCustomOfflineDevice(nsIFile *aProfileDir, int32_t aQuota, nsOfflineCacheDevice **aDevice) { nsresult rv; nsAutoString profilePath; rv = aProfileDir->GetPath(profilePath); NS_ENSURE_SUCCESS(rv, rv); if (!mCustomOfflineDevices.Get(profilePath, aDevice)) { rv = CreateCustomOfflineDevice(aProfileDir, aQuota, aDevice); NS_ENSURE_SUCCESS(rv, rv); (*aDevice)->SetAutoShutdown(); mCustomOfflineDevices.Put(profilePath, *aDevice); } return NS_OK; } nsresult nsCacheService::CreateOfflineDevice() { CACHE_LOG_INFO(("Creating default offline device")); if (mOfflineDevice) return NS_OK; if (!nsCacheService::IsInitialized()) { return NS_ERROR_NOT_AVAILABLE; } nsresult rv = CreateCustomOfflineDevice( mObserver->OfflineCacheParentDirectory(), mObserver->OfflineCacheCapacity(), &mOfflineDevice); NS_ENSURE_SUCCESS(rv, rv); return NS_OK; } nsresult nsCacheService::CreateCustomOfflineDevice(nsIFile *aProfileDir, int32_t aQuota, nsOfflineCacheDevice **aDevice) { NS_ENSURE_ARG(aProfileDir); if (MOZ_LOG_TEST(gCacheLog, LogLevel::Info)) { nsAutoCString profilePath; aProfileDir->GetNativePath(profilePath); CACHE_LOG_INFO(("Creating custom offline device, %s, %d", profilePath.BeginReading(), aQuota)); } if (!mInitialized) return NS_ERROR_NOT_AVAILABLE; if (!mEnableOfflineDevice) return NS_ERROR_NOT_AVAILABLE; *aDevice = new nsOfflineCacheDevice; NS_ADDREF(*aDevice); // set the preferences (*aDevice)->SetCacheParentDirectory(aProfileDir); (*aDevice)->SetCapacity(aQuota); nsresult rv = (*aDevice)->InitWithSqlite(mStorageService); if (NS_FAILED(rv)) { CACHE_LOG_DEBUG(("OfflineDevice->InitWithSqlite() failed (0x%.8x)\n", rv)); CACHE_LOG_DEBUG((" - disabling offline cache for this session.\n")); NS_RELEASE(*aDevice); } return rv; } nsresult nsCacheService::CreateMemoryDevice() { if (!mInitialized) return NS_ERROR_NOT_AVAILABLE; if (!mEnableMemoryDevice) return NS_ERROR_NOT_AVAILABLE; if (mMemoryDevice) return NS_OK; mMemoryDevice = new nsMemoryCacheDevice; if (!mMemoryDevice) return NS_ERROR_OUT_OF_MEMORY; // set preference int32_t capacity = mObserver->MemoryCacheCapacity(); CACHE_LOG_DEBUG(("Creating memory device with capacity %d\n", capacity)); mMemoryDevice->SetCapacity(capacity); mMemoryDevice->SetMaxEntrySize(mObserver->MemoryCacheMaxEntrySize()); nsresult rv = mMemoryDevice->Init(); if (NS_FAILED(rv)) { NS_WARNING("Initialization of Memory Cache failed."); delete mMemoryDevice; mMemoryDevice = nullptr; } return rv; } nsresult nsCacheService::RemoveCustomOfflineDevice(nsOfflineCacheDevice *aDevice) { nsCOMPtr profileDir = aDevice->BaseDirectory(); if (!profileDir) return NS_ERROR_UNEXPECTED; nsAutoString profilePath; nsresult rv = profileDir->GetPath(profilePath); NS_ENSURE_SUCCESS(rv, rv); mCustomOfflineDevices.Remove(profilePath); return NS_OK; } nsresult nsCacheService::CreateRequest(nsCacheSession * session, const nsACString & clientKey, nsCacheAccessMode accessRequested, bool blockingMode, nsICacheListener * listener, nsCacheRequest ** request) { NS_ASSERTION(request, "CreateRequest: request is null"); nsAutoCString key(*session->ClientID()); key.Append(':'); key.Append(clientKey); if (mMaxKeyLength < key.Length()) mMaxKeyLength = key.Length(); // create request *request = new nsCacheRequest(key, listener, accessRequested, blockingMode, session); if (!listener) return NS_OK; // we're sync, we're done. // get the request's thread (*request)->mThread = do_GetCurrentThread(); return NS_OK; } class nsCacheListenerEvent : public nsRunnable { public: nsCacheListenerEvent(nsICacheListener *listener, nsICacheEntryDescriptor *descriptor, nsCacheAccessMode accessGranted, nsresult status) : mListener(listener) // transfers reference , mDescriptor(descriptor) // transfers reference (may be null) , mAccessGranted(accessGranted) , mStatus(status) {} NS_IMETHOD Run() { mListener->OnCacheEntryAvailable(mDescriptor, mAccessGranted, mStatus); NS_RELEASE(mListener); NS_IF_RELEASE(mDescriptor); return NS_OK; } private: // We explicitly leak mListener or mDescriptor if Run is not called // because otherwise we cannot guarantee that they are destroyed on // the right thread. nsICacheListener *mListener; nsICacheEntryDescriptor *mDescriptor; nsCacheAccessMode mAccessGranted; nsresult mStatus; }; nsresult nsCacheService::NotifyListener(nsCacheRequest * request, nsICacheEntryDescriptor * descriptor, nsCacheAccessMode accessGranted, nsresult status) { NS_ASSERTION(request->mThread, "no thread set in async request!"); // Swap ownership, and release listener on target thread... nsICacheListener *listener = request->mListener; request->mListener = nullptr; nsCOMPtr ev = new nsCacheListenerEvent(listener, descriptor, accessGranted, status); if (!ev) { // Better to leak listener and descriptor if we fail because we don't // want to destroy them inside the cache service lock or on potentially // the wrong thread. return NS_ERROR_OUT_OF_MEMORY; } return request->mThread->Dispatch(ev, NS_DISPATCH_NORMAL); } nsresult nsCacheService::ProcessRequest(nsCacheRequest * request, bool calledFromOpenCacheEntry, nsICacheEntryDescriptor ** result) { // !!! must be called with mLock held !!! nsresult rv; nsCacheEntry * entry = nullptr; nsCacheEntry * doomedEntry = nullptr; nsCacheAccessMode accessGranted = nsICache::ACCESS_NONE; if (result) *result = nullptr; while(1) { // Activate entry loop rv = ActivateEntry(request, &entry, &doomedEntry); // get the entry for this request if (NS_FAILED(rv)) break; while(1) { // Request Access loop NS_ASSERTION(entry, "no entry in Request Access loop!"); // entry->RequestAccess queues request on entry rv = entry->RequestAccess(request, &accessGranted); if (rv != NS_ERROR_CACHE_WAIT_FOR_VALIDATION) break; if (request->IsBlocking()) { if (request->mListener) { // async exits - validate, doom, or close will resume return rv; } // XXX this is probably wrong... Unlock(); rv = request->WaitForValidation(); Lock(LOCK_TELEM(NSCACHESERVICE_PROCESSREQUEST)); } PR_REMOVE_AND_INIT_LINK(request); if (NS_FAILED(rv)) break; // non-blocking mode returns WAIT_FOR_VALIDATION error // okay, we're ready to process this request, request access again } if (rv != NS_ERROR_CACHE_ENTRY_DOOMED) break; if (entry->IsNotInUse()) { // this request was the last one keeping it around, so get rid of it DeactivateEntry(entry); } // loop back around to look for another entry } if (NS_SUCCEEDED(rv) && request->mProfileDir) { // Custom cache directory has been demanded. Preset the cache device. if (entry->StoragePolicy() != nsICache::STORE_OFFLINE) { // Failsafe check: this is implemented only for offline cache atm. rv = NS_ERROR_FAILURE; } else { RefPtr customCacheDevice; rv = GetCustomOfflineDevice(request->mProfileDir, -1, getter_AddRefs(customCacheDevice)); if (NS_SUCCEEDED(rv)) entry->SetCustomCacheDevice(customCacheDevice); } } nsICacheEntryDescriptor *descriptor = nullptr; if (NS_SUCCEEDED(rv)) rv = entry->CreateDescriptor(request, accessGranted, &descriptor); // If doomedEntry is set, ActivatEntry() doomed an existing entry and // created a new one for that cache-key. However, any pending requests // on the doomed entry were not processed and we need to do that here. // This must be done after adding the created entry to list of active // entries (which is done in ActivateEntry()) otherwise the hashkeys crash // (see bug ##561313). It is also important to do this after creating a // descriptor for this request, or some other request may end up being // executed first for the newly created entry. // Finally, it is worth to emphasize that if doomedEntry is set, // ActivateEntry() created a new entry for the request, which will be // initialized by RequestAccess() and they both should have returned NS_OK. if (doomedEntry) { (void) ProcessPendingRequests(doomedEntry); if (doomedEntry->IsNotInUse()) DeactivateEntry(doomedEntry); doomedEntry = nullptr; } if (request->mListener) { // Asynchronous if (NS_FAILED(rv) && calledFromOpenCacheEntry && request->IsBlocking()) return rv; // skip notifying listener, just return rv to caller // call listener to report error or descriptor nsresult rv2 = NotifyListener(request, descriptor, accessGranted, rv); if (NS_FAILED(rv2) && NS_SUCCEEDED(rv)) { rv = rv2; // trigger delete request } } else { // Synchronous *result = descriptor; } return rv; } nsresult nsCacheService::OpenCacheEntry(nsCacheSession * session, const nsACString & key, nsCacheAccessMode accessRequested, bool blockingMode, nsICacheListener * listener, nsICacheEntryDescriptor ** result) { CACHE_LOG_DEBUG(("Opening entry for session %p, key %s, mode %d, blocking %d\n", session, PromiseFlatCString(key).get(), accessRequested, blockingMode)); NS_ASSERTION(gService, "nsCacheService::gService is null."); if (result) *result = nullptr; if (!gService->mInitialized) return NS_ERROR_NOT_INITIALIZED; nsCacheRequest * request = nullptr; nsresult rv = gService->CreateRequest(session, key, accessRequested, blockingMode, listener, &request); if (NS_FAILED(rv)) return rv; CACHE_LOG_DEBUG(("Created request %p\n", request)); // Process the request on the background thread if we are on the main thread // and the the request is asynchronous if (NS_IsMainThread() && listener && gService->mCacheIOThread) { nsCOMPtr ev = new nsProcessRequestEvent(request); rv = DispatchToCacheIOThread(ev); // delete request if we didn't post the event if (NS_FAILED(rv)) delete request; } else { nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_OPENCACHEENTRY)); rv = gService->ProcessRequest(request, true, result); // delete requests that have completed if (!(listener && blockingMode && (rv == NS_ERROR_CACHE_WAIT_FOR_VALIDATION))) delete request; } return rv; } nsresult nsCacheService::ActivateEntry(nsCacheRequest * request, nsCacheEntry ** result, nsCacheEntry ** doomedEntry) { CACHE_LOG_DEBUG(("Activate entry for request %p\n", request)); if (!mInitialized || mClearingEntries) return NS_ERROR_NOT_AVAILABLE; nsresult rv = NS_OK; NS_ASSERTION(request != nullptr, "ActivateEntry called with no request"); if (result) *result = nullptr; if (doomedEntry) *doomedEntry = nullptr; if ((!request) || (!result) || (!doomedEntry)) return NS_ERROR_NULL_POINTER; // check if the request can be satisfied if (!mEnableMemoryDevice && !request->IsStreamBased()) return NS_ERROR_FAILURE; if (!IsStorageEnabledForPolicy_Locked(request->StoragePolicy())) return NS_ERROR_FAILURE; // search active entries (including those not bound to device) nsCacheEntry *entry = mActiveEntries.GetEntry(&(request->mKey)); CACHE_LOG_DEBUG(("Active entry for request %p is %p\n", request, entry)); if (!entry) { // search cache devices for entry bool collision = false; entry = SearchCacheDevices(&(request->mKey), request->StoragePolicy(), &collision); CACHE_LOG_DEBUG(("Device search for request %p returned %p\n", request, entry)); // When there is a hashkey collision just refuse to cache it... if (collision) return NS_ERROR_CACHE_IN_USE; if (entry) entry->MarkInitialized(); } else { NS_ASSERTION(entry->IsActive(), "Inactive entry found in mActiveEntries!"); } if (entry) { ++mCacheHits; entry->Fetched(); } else { ++mCacheMisses; } if (entry && ((request->AccessRequested() == nsICache::ACCESS_WRITE) || ((request->StoragePolicy() != nsICache::STORE_OFFLINE) && (entry->mExpirationTime <= SecondsFromPRTime(PR_Now()) && request->WillDoomEntriesIfExpired())))) { // this is FORCE-WRITE request or the entry has expired // we doom entry without processing pending requests, but store it in // doomedEntry which causes pending requests to be processed below rv = DoomEntry_Internal(entry, false); *doomedEntry = entry; if (NS_FAILED(rv)) { // XXX what to do? Increment FailedDooms counter? } entry = nullptr; } if (!entry) { if (! (request->AccessRequested() & nsICache::ACCESS_WRITE)) { // this is a READ-ONLY request rv = NS_ERROR_CACHE_KEY_NOT_FOUND; goto error; } entry = new nsCacheEntry(request->mKey, request->IsStreamBased(), request->StoragePolicy()); if (!entry) return NS_ERROR_OUT_OF_MEMORY; if (request->IsPrivate()) entry->MarkPrivate(); entry->Fetched(); ++mTotalEntries; // XXX we could perform an early bind in some cases based on storage policy } if (!entry->IsActive()) { rv = mActiveEntries.AddEntry(entry); if (NS_FAILED(rv)) goto error; CACHE_LOG_DEBUG(("Added entry %p to mActiveEntries\n", entry)); entry->MarkActive(); // mark entry active, because it's now in mActiveEntries } *result = entry; return NS_OK; error: *result = nullptr; delete entry; return rv; } nsCacheEntry * nsCacheService::SearchCacheDevices(nsCString * key, nsCacheStoragePolicy policy, bool *collision) { Telemetry::AutoTimer timer; nsCacheEntry * entry = nullptr; CACHE_LOG_DEBUG(("mMemoryDevice: 0x%p\n", mMemoryDevice)); *collision = false; if ((policy == nsICache::STORE_ANYWHERE) || (policy == nsICache::STORE_IN_MEMORY)) { // If there is no memory device, then there is nothing to search... if (mMemoryDevice) { entry = mMemoryDevice->FindEntry(key, collision); CACHE_LOG_DEBUG(("Searching mMemoryDevice for key %s found: 0x%p, " "collision: %d\n", key->get(), entry, collision)); } } if (!entry && ((policy == nsICache::STORE_ANYWHERE) || (policy == nsICache::STORE_ON_DISK))) { if (mEnableDiskDevice) { if (!mDiskDevice) { nsresult rv = CreateDiskDevice(); if (NS_FAILED(rv)) return nullptr; } entry = mDiskDevice->FindEntry(key, collision); } } if (!entry && (policy == nsICache::STORE_OFFLINE || (policy == nsICache::STORE_ANYWHERE && gIOService->IsOffline()))) { if (mEnableOfflineDevice) { if (!mOfflineDevice) { nsresult rv = CreateOfflineDevice(); if (NS_FAILED(rv)) return nullptr; } entry = mOfflineDevice->FindEntry(key, collision); } } return entry; } nsCacheDevice * nsCacheService::EnsureEntryHasDevice(nsCacheEntry * entry) { nsCacheDevice * device = entry->CacheDevice(); // return device if found, possibly null if the entry is doomed i.e prevent // doomed entries to bind to a device (see e.g. bugs #548406 and #596443) if (device || entry->IsDoomed()) return device; int64_t predictedDataSize = entry->PredictedDataSize(); if (entry->IsStreamData() && entry->IsAllowedOnDisk() && mEnableDiskDevice) { // this is the default if (!mDiskDevice) { (void)CreateDiskDevice(); // ignore the error (check for mDiskDevice instead) } if (mDiskDevice) { // Bypass the cache if Content-Length says the entry will be too big if (predictedDataSize != -1 && mDiskDevice->EntryIsTooBig(predictedDataSize)) { DebugOnly rv = nsCacheService::DoomEntry(entry); NS_ASSERTION(NS_SUCCEEDED(rv),"DoomEntry() failed."); return nullptr; } entry->MarkBinding(); // enter state of binding nsresult rv = mDiskDevice->BindEntry(entry); entry->ClearBinding(); // exit state of binding if (NS_SUCCEEDED(rv)) device = mDiskDevice; } } // if we can't use mDiskDevice, try mMemoryDevice if (!device && mEnableMemoryDevice && entry->IsAllowedInMemory()) { if (!mMemoryDevice) { (void)CreateMemoryDevice(); // ignore the error (check for mMemoryDevice instead) } if (mMemoryDevice) { // Bypass the cache if Content-Length says entry will be too big if (predictedDataSize != -1 && mMemoryDevice->EntryIsTooBig(predictedDataSize)) { DebugOnly rv = nsCacheService::DoomEntry(entry); NS_ASSERTION(NS_SUCCEEDED(rv),"DoomEntry() failed."); return nullptr; } entry->MarkBinding(); // enter state of binding nsresult rv = mMemoryDevice->BindEntry(entry); entry->ClearBinding(); // exit state of binding if (NS_SUCCEEDED(rv)) device = mMemoryDevice; } } if (!device && entry->IsStreamData() && entry->IsAllowedOffline() && mEnableOfflineDevice) { if (!mOfflineDevice) { (void)CreateOfflineDevice(); // ignore the error (check for mOfflineDevice instead) } device = entry->CustomCacheDevice() ? entry->CustomCacheDevice() : mOfflineDevice; if (device) { entry->MarkBinding(); nsresult rv = device->BindEntry(entry); entry->ClearBinding(); if (NS_FAILED(rv)) device = nullptr; } } if (device) entry->SetCacheDevice(device); return device; } nsresult nsCacheService::DoomEntry(nsCacheEntry * entry) { return gService->DoomEntry_Internal(entry, true); } nsresult nsCacheService::DoomEntry_Internal(nsCacheEntry * entry, bool doProcessPendingRequests) { if (entry->IsDoomed()) return NS_OK; CACHE_LOG_DEBUG(("Dooming entry %p\n", entry)); nsresult rv = NS_OK; entry->MarkDoomed(); NS_ASSERTION(!entry->IsBinding(), "Dooming entry while binding device."); nsCacheDevice * device = entry->CacheDevice(); if (device) device->DoomEntry(entry); if (entry->IsActive()) { // remove from active entries mActiveEntries.RemoveEntry(entry); CACHE_LOG_DEBUG(("Removed entry %p from mActiveEntries\n", entry)); entry->MarkInactive(); } // put on doom list to wait for descriptors to close NS_ASSERTION(PR_CLIST_IS_EMPTY(entry), "doomed entry still on device list"); PR_APPEND_LINK(entry, &mDoomedEntries); // handle pending requests only if we're supposed to if (doProcessPendingRequests) { // tell pending requests to get on with their lives... rv = ProcessPendingRequests(entry); // All requests have been removed, but there may still be open descriptors if (entry->IsNotInUse()) { DeactivateEntry(entry); // tell device to get rid of it } } return rv; } void nsCacheService::OnProfileShutdown() { if (!gService) return; if (!gService->mInitialized) { // The cache service has been shut down, but someone is still holding // a reference to it. Ignore this call. return; } { nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_ONPROFILESHUTDOWN)); gService->mClearingEntries = true; gService->DoomActiveEntries(nullptr); } gService->CloseAllStreams(); nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_ONPROFILESHUTDOWN)); gService->ClearDoomList(); // Make sure to wait for any pending cache-operations before // proceeding with destructive actions (bug #620660) (void) SyncWithCacheIOThread(); if (gService->mDiskDevice && gService->mEnableDiskDevice) { gService->mDiskDevice->Shutdown(); } gService->mEnableDiskDevice = false; if (gService->mOfflineDevice && gService->mEnableOfflineDevice) { gService->mOfflineDevice->Shutdown(); } for (auto iter = gService->mCustomOfflineDevices.Iter(); !iter.Done(); iter.Next()) { iter.Data()->Shutdown(); iter.Remove(); } gService->mEnableOfflineDevice = false; if (gService->mMemoryDevice) { // clear memory cache gService->mMemoryDevice->EvictEntries(nullptr); } gService->mClearingEntries = false; } void nsCacheService::OnProfileChanged() { if (!gService) return; CACHE_LOG_DEBUG(("nsCacheService::OnProfileChanged")); nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_ONPROFILECHANGED)); gService->mEnableDiskDevice = gService->mObserver->DiskCacheEnabled(); gService->mEnableOfflineDevice = gService->mObserver->OfflineCacheEnabled(); gService->mEnableMemoryDevice = gService->mObserver->MemoryCacheEnabled(); if (gService->mDiskDevice) { gService->mDiskDevice->SetCacheParentDirectory(gService->mObserver->DiskCacheParentDirectory()); gService->mDiskDevice->SetCapacity(gService->mObserver->DiskCacheCapacity()); // XXX initialization of mDiskDevice could be made lazily, if mEnableDiskDevice is false nsresult rv = gService->mDiskDevice->Init(); if (NS_FAILED(rv)) { NS_ERROR("nsCacheService::OnProfileChanged: Re-initializing disk device failed"); gService->mEnableDiskDevice = false; // XXX delete mDiskDevice? } } if (gService->mOfflineDevice) { gService->mOfflineDevice->SetCacheParentDirectory(gService->mObserver->OfflineCacheParentDirectory()); gService->mOfflineDevice->SetCapacity(gService->mObserver->OfflineCacheCapacity()); // XXX initialization of mOfflineDevice could be made lazily, if mEnableOfflineDevice is false nsresult rv = gService->mOfflineDevice->InitWithSqlite(gService->mStorageService); if (NS_FAILED(rv)) { NS_ERROR("nsCacheService::OnProfileChanged: Re-initializing offline device failed"); gService->mEnableOfflineDevice = false; // XXX delete mOfflineDevice? } } // If memoryDevice exists, reset its size to the new profile if (gService->mMemoryDevice) { if (gService->mEnableMemoryDevice) { // make sure that capacity is reset to the right value int32_t capacity = gService->mObserver->MemoryCacheCapacity(); CACHE_LOG_DEBUG(("Resetting memory device capacity to %d\n", capacity)); gService->mMemoryDevice->SetCapacity(capacity); } else { // tell memory device to evict everything CACHE_LOG_DEBUG(("memory device disabled\n")); gService->mMemoryDevice->SetCapacity(0); // Don't delete memory device, because some entries may be active still... } } } void nsCacheService::SetDiskCacheEnabled(bool enabled) { if (!gService) return; nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_SETDISKCACHEENABLED)); gService->mEnableDiskDevice = enabled; } void nsCacheService::SetDiskCacheCapacity(int32_t capacity) { if (!gService) return; nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_SETDISKCACHECAPACITY)); if (gService->mDiskDevice) { gService->mDiskDevice->SetCapacity(capacity); } gService->mEnableDiskDevice = gService->mObserver->DiskCacheEnabled(); } void nsCacheService::SetDiskCacheMaxEntrySize(int32_t maxSize) { if (!gService) return; nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_SETDISKCACHEMAXENTRYSIZE)); if (gService->mDiskDevice) { gService->mDiskDevice->SetMaxEntrySize(maxSize); } } void nsCacheService::SetMemoryCacheMaxEntrySize(int32_t maxSize) { if (!gService) return; nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_SETMEMORYCACHEMAXENTRYSIZE)); if (gService->mMemoryDevice) { gService->mMemoryDevice->SetMaxEntrySize(maxSize); } } void nsCacheService::SetOfflineCacheEnabled(bool enabled) { if (!gService) return; nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_SETOFFLINECACHEENABLED)); gService->mEnableOfflineDevice = enabled; } void nsCacheService::SetOfflineCacheCapacity(int32_t capacity) { if (!gService) return; nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_SETOFFLINECACHECAPACITY)); if (gService->mOfflineDevice) { gService->mOfflineDevice->SetCapacity(capacity); } gService->mEnableOfflineDevice = gService->mObserver->OfflineCacheEnabled(); } void nsCacheService::SetMemoryCache() { if (!gService) return; CACHE_LOG_DEBUG(("nsCacheService::SetMemoryCache")); nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_SETMEMORYCACHE)); gService->mEnableMemoryDevice = gService->mObserver->MemoryCacheEnabled(); if (gService->mEnableMemoryDevice) { if (gService->mMemoryDevice) { int32_t capacity = gService->mObserver->MemoryCacheCapacity(); // make sure that capacity is reset to the right value CACHE_LOG_DEBUG(("Resetting memory device capacity to %d\n", capacity)); gService->mMemoryDevice->SetCapacity(capacity); } } else { if (gService->mMemoryDevice) { // tell memory device to evict everything CACHE_LOG_DEBUG(("memory device disabled\n")); gService->mMemoryDevice->SetCapacity(0); // Don't delete memory device, because some entries may be active still... } } } /****************************************************************************** * static methods for nsCacheEntryDescriptor *****************************************************************************/ void nsCacheService::CloseDescriptor(nsCacheEntryDescriptor * descriptor) { // ask entry to remove descriptor nsCacheEntry * entry = descriptor->CacheEntry(); bool doomEntry; bool stillActive = entry->RemoveDescriptor(descriptor, &doomEntry); if (!entry->IsValid()) { gService->ProcessPendingRequests(entry); } if (doomEntry) { gService->DoomEntry_Internal(entry, true); return; } if (!stillActive) { gService->DeactivateEntry(entry); } } nsresult nsCacheService::GetFileForEntry(nsCacheEntry * entry, nsIFile ** result) { nsCacheDevice * device = gService->EnsureEntryHasDevice(entry); if (!device) return NS_ERROR_UNEXPECTED; return device->GetFileForEntry(entry, result); } nsresult nsCacheService::OpenInputStreamForEntry(nsCacheEntry * entry, nsCacheAccessMode mode, uint32_t offset, nsIInputStream ** result) { nsCacheDevice * device = gService->EnsureEntryHasDevice(entry); if (!device) return NS_ERROR_UNEXPECTED; return device->OpenInputStreamForEntry(entry, mode, offset, result); } nsresult nsCacheService::OpenOutputStreamForEntry(nsCacheEntry * entry, nsCacheAccessMode mode, uint32_t offset, nsIOutputStream ** result) { nsCacheDevice * device = gService->EnsureEntryHasDevice(entry); if (!device) return NS_ERROR_UNEXPECTED; return device->OpenOutputStreamForEntry(entry, mode, offset, result); } nsresult nsCacheService::OnDataSizeChange(nsCacheEntry * entry, int32_t deltaSize) { nsCacheDevice * device = gService->EnsureEntryHasDevice(entry); if (!device) return NS_ERROR_UNEXPECTED; return device->OnDataSizeChange(entry, deltaSize); } void nsCacheService::LockAcquired() { MutexAutoLock lock(mTimeStampLock); mLockAcquiredTimeStamp = TimeStamp::Now(); } void nsCacheService::LockReleased() { MutexAutoLock lock(mTimeStampLock); mLockAcquiredTimeStamp = TimeStamp(); } void nsCacheService::Lock() { gService->mLock.Lock(); gService->LockAcquired(); } void nsCacheService::Lock(mozilla::Telemetry::ID mainThreadLockerID) { mozilla::Telemetry::ID lockerID; mozilla::Telemetry::ID generalID; if (NS_IsMainThread()) { lockerID = mainThreadLockerID; generalID = mozilla::Telemetry::CACHE_SERVICE_LOCK_WAIT_MAINTHREAD_2; } else { lockerID = mozilla::Telemetry::HistogramCount; generalID = mozilla::Telemetry::CACHE_SERVICE_LOCK_WAIT_2; } TimeStamp start(TimeStamp::Now()); nsCacheService::Lock(); TimeStamp stop(TimeStamp::Now()); // Telemetry isn't thread safe on its own, but this is OK because we're // protecting it with the cache lock. if (lockerID != mozilla::Telemetry::HistogramCount) { mozilla::Telemetry::AccumulateTimeDelta(lockerID, start, stop); } mozilla::Telemetry::AccumulateTimeDelta(generalID, start, stop); } void nsCacheService::Unlock() { gService->mLock.AssertCurrentThreadOwns(); nsTArray doomed; doomed.SwapElements(gService->mDoomedObjects); gService->LockReleased(); gService->mLock.Unlock(); for (uint32_t i = 0; i < doomed.Length(); ++i) doomed[i]->Release(); } void nsCacheService::ReleaseObject_Locked(nsISupports * obj, nsIEventTarget * target) { gService->mLock.AssertCurrentThreadOwns(); bool isCur; if (!target || (NS_SUCCEEDED(target->IsOnCurrentThread(&isCur)) && isCur)) { gService->mDoomedObjects.AppendElement(obj); } else { NS_ProxyRelease(target, obj); } } nsresult nsCacheService::SetCacheElement(nsCacheEntry * entry, nsISupports * element) { entry->SetData(element); entry->TouchData(); return NS_OK; } nsresult nsCacheService::ValidateEntry(nsCacheEntry * entry) { nsCacheDevice * device = gService->EnsureEntryHasDevice(entry); if (!device) return NS_ERROR_UNEXPECTED; entry->MarkValid(); nsresult rv = gService->ProcessPendingRequests(entry); NS_ASSERTION(rv == NS_OK, "ProcessPendingRequests failed."); // XXX what else should be done? return rv; } int32_t nsCacheService::CacheCompressionLevel() { int32_t level = gService->mObserver->CacheCompressionLevel(); return level; } void nsCacheService::DeactivateEntry(nsCacheEntry * entry) { CACHE_LOG_DEBUG(("Deactivating entry %p\n", entry)); nsresult rv = NS_OK; NS_ASSERTION(entry->IsNotInUse(), "### deactivating an entry while in use!"); nsCacheDevice * device = nullptr; if (mMaxDataSize < entry->DataSize() ) mMaxDataSize = entry->DataSize(); if (mMaxMetaSize < entry->MetaDataSize() ) mMaxMetaSize = entry->MetaDataSize(); if (entry->IsDoomed()) { // remove from Doomed list PR_REMOVE_AND_INIT_LINK(entry); } else if (entry->IsActive()) { // remove from active entries mActiveEntries.RemoveEntry(entry); CACHE_LOG_DEBUG(("Removed deactivated entry %p from mActiveEntries\n", entry)); entry->MarkInactive(); // bind entry if necessary to store meta-data device = EnsureEntryHasDevice(entry); if (!device) { CACHE_LOG_DEBUG(("DeactivateEntry: unable to bind active " "entry %p\n", entry)); NS_WARNING("DeactivateEntry: unable to bind active entry\n"); return; } } else { // if mInitialized == false, // then we're shutting down and this state is okay. NS_ASSERTION(!mInitialized, "DeactivateEntry: bad cache entry state."); } device = entry->CacheDevice(); if (device) { rv = device->DeactivateEntry(entry); if (NS_FAILED(rv)) { // increment deactivate failure count ++mDeactivateFailures; } } else { // increment deactivating unbound entry statistic ++mDeactivatedUnboundEntries; delete entry; // because no one else will } } nsresult nsCacheService::ProcessPendingRequests(nsCacheEntry * entry) { nsresult rv = NS_OK; nsCacheRequest * request = (nsCacheRequest *)PR_LIST_HEAD(&entry->mRequestQ); nsCacheRequest * nextRequest; bool newWriter = false; CACHE_LOG_DEBUG(("ProcessPendingRequests for %sinitialized %s %salid entry %p\n", (entry->IsInitialized()?"" : "Un"), (entry->IsDoomed()?"DOOMED" : ""), (entry->IsValid()? "V":"Inv"), entry)); if (request == &entry->mRequestQ) return NS_OK; // no queued requests if (!entry->IsDoomed() && entry->IsInvalid()) { // 1st descriptor closed w/o MarkValid() NS_ASSERTION(PR_CLIST_IS_EMPTY(&entry->mDescriptorQ), "shouldn't be here with open descriptors"); #if DEBUG // verify no ACCESS_WRITE requests(shouldn't have any of these) while (request != &entry->mRequestQ) { NS_ASSERTION(request->AccessRequested() != nsICache::ACCESS_WRITE, "ACCESS_WRITE request should have been given a new entry"); request = (nsCacheRequest *)PR_NEXT_LINK(request); } request = (nsCacheRequest *)PR_LIST_HEAD(&entry->mRequestQ); #endif // find first request with ACCESS_READ_WRITE (if any) and promote it to 1st writer while (request != &entry->mRequestQ) { if (request->AccessRequested() == nsICache::ACCESS_READ_WRITE) { newWriter = true; CACHE_LOG_DEBUG((" promoting request %p to 1st writer\n", request)); break; } request = (nsCacheRequest *)PR_NEXT_LINK(request); } if (request == &entry->mRequestQ) // no requests asked for ACCESS_READ_WRITE, back to top request = (nsCacheRequest *)PR_LIST_HEAD(&entry->mRequestQ); // XXX what should we do if there are only READ requests in queue? // XXX serialize their accesses, give them only read access, but force them to check validate flag? // XXX or do readers simply presume the entry is valid // See fix for bug #467392 below } nsCacheAccessMode accessGranted = nsICache::ACCESS_NONE; while (request != &entry->mRequestQ) { nextRequest = (nsCacheRequest *)PR_NEXT_LINK(request); CACHE_LOG_DEBUG((" %sync request %p for %p\n", (request->mListener?"As":"S"), request, entry)); if (request->mListener) { // Async request PR_REMOVE_AND_INIT_LINK(request); if (entry->IsDoomed()) { rv = ProcessRequest(request, false, nullptr); if (rv == NS_ERROR_CACHE_WAIT_FOR_VALIDATION) rv = NS_OK; else delete request; if (NS_FAILED(rv)) { // XXX what to do? } } else if (entry->IsValid() || newWriter) { rv = entry->RequestAccess(request, &accessGranted); NS_ASSERTION(NS_SUCCEEDED(rv), "if entry is valid, RequestAccess must succeed."); // XXX if (newWriter) NS_ASSERTION( accessGranted == request->AccessRequested(), "why not?"); // entry->CreateDescriptor dequeues request, and queues descriptor nsICacheEntryDescriptor *descriptor = nullptr; rv = entry->CreateDescriptor(request, accessGranted, &descriptor); // post call to listener to report error or descriptor rv = NotifyListener(request, descriptor, accessGranted, rv); delete request; if (NS_FAILED(rv)) { // XXX what to do? } } else { // read-only request to an invalid entry - need to wait for // the entry to become valid so we post an event to process // the request again later (bug #467392) nsCOMPtr ev = new nsProcessRequestEvent(request); rv = DispatchToCacheIOThread(ev); if (NS_FAILED(rv)) { delete request; // avoid leak } } } else { // Synchronous request request->WakeUp(); } if (newWriter) break; // process remaining requests after validation request = nextRequest; } return NS_OK; } bool nsCacheService::IsDoomListEmpty() { nsCacheEntry * entry = (nsCacheEntry *)PR_LIST_HEAD(&mDoomedEntries); return &mDoomedEntries == entry; } void nsCacheService::ClearDoomList() { nsCacheEntry * entry = (nsCacheEntry *)PR_LIST_HEAD(&mDoomedEntries); while (entry != &mDoomedEntries) { nsCacheEntry * next = (nsCacheEntry *)PR_NEXT_LINK(entry); entry->DetachDescriptors(); DeactivateEntry(entry); entry = next; } } void nsCacheService::DoomActiveEntries(DoomCheckFn check) { nsAutoTArray array; for (auto iter = mActiveEntries.Iter(); !iter.Done(); iter.Next()) { nsCacheEntry* entry = static_cast(iter.Get())->cacheEntry; if (check && !check(entry)) { continue; } array.AppendElement(entry); // entry is being removed from the active entry list entry->MarkInactive(); iter.Remove(); } uint32_t count = array.Length(); for (uint32_t i = 0; i < count; ++i) { DoomEntry_Internal(array[i], true); } } void nsCacheService::CloseAllStreams() { nsTArray > inputs; nsTArray > outputs; { nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_CLOSEALLSTREAMS)); nsTArray entries; #if DEBUG // make sure there is no active entry for (auto iter = mActiveEntries.Iter(); !iter.Done(); iter.Next()) { auto entry = static_cast(iter.Get()); entries.AppendElement(entry->cacheEntry); } NS_ASSERTION(entries.IsEmpty(), "Bad state"); #endif // Get doomed entries nsCacheEntry * entry = (nsCacheEntry *)PR_LIST_HEAD(&mDoomedEntries); while (entry != &mDoomedEntries) { nsCacheEntry * next = (nsCacheEntry *)PR_NEXT_LINK(entry); entries.AppendElement(entry); entry = next; } // Iterate through all entries and collect input and output streams for (size_t i = 0; i < entries.Length(); i++) { entry = entries.ElementAt(i); nsTArray > descs; entry->GetDescriptors(descs); for (uint32_t j = 0 ; j < descs.Length() ; j++) { if (descs[j]->mOutputWrapper) outputs.AppendElement(descs[j]->mOutputWrapper); for (size_t k = 0; k < descs[j]->mInputWrappers.Length(); k++) inputs.AppendElement(descs[j]->mInputWrappers[k]); } } } uint32_t i; for (i = 0 ; i < inputs.Length() ; i++) inputs[i]->Close(); for (i = 0 ; i < outputs.Length() ; i++) outputs[i]->Close(); } bool nsCacheService::GetClearingEntries() { AssertOwnsLock(); return gService->mClearingEntries; } // static void nsCacheService::GetCacheBaseDirectoty(nsIFile ** result) { *result = nullptr; if (!gService || !gService->mObserver) return; nsCOMPtr directory = gService->mObserver->DiskCacheParentDirectory(); if (!directory) return; directory->Clone(result); } // static void nsCacheService::GetDiskCacheDirectory(nsIFile ** result) { nsCOMPtr directory; GetCacheBaseDirectoty(getter_AddRefs(directory)); if (!directory) return; nsresult rv = directory->AppendNative(NS_LITERAL_CSTRING("Cache")); if (NS_FAILED(rv)) return; directory.forget(result); } // static void nsCacheService::GetAppCacheDirectory(nsIFile ** result) { nsCOMPtr directory; GetCacheBaseDirectoty(getter_AddRefs(directory)); if (!directory) return; nsresult rv = directory->AppendNative(NS_LITERAL_CSTRING("OfflineCache")); if (NS_FAILED(rv)) return; directory.forget(result); } void nsCacheService::LogCacheStatistics() { uint32_t hitPercentage = (uint32_t)((((double)mCacheHits) / ((double)(mCacheHits + mCacheMisses))) * 100); CACHE_LOG_INFO(("\nCache Service Statistics:\n\n")); CACHE_LOG_INFO((" TotalEntries = %d\n", mTotalEntries)); CACHE_LOG_INFO((" Cache Hits = %d\n", mCacheHits)); CACHE_LOG_INFO((" Cache Misses = %d\n", mCacheMisses)); CACHE_LOG_INFO((" Cache Hit %% = %d%%\n", hitPercentage)); CACHE_LOG_INFO((" Max Key Length = %d\n", mMaxKeyLength)); CACHE_LOG_INFO((" Max Meta Size = %d\n", mMaxMetaSize)); CACHE_LOG_INFO((" Max Data Size = %d\n", mMaxDataSize)); CACHE_LOG_INFO(("\n")); CACHE_LOG_INFO((" Deactivate Failures = %d\n", mDeactivateFailures)); CACHE_LOG_INFO((" Deactivated Unbound Entries = %d\n", mDeactivatedUnboundEntries)); } nsresult nsCacheService::SetDiskSmartSize() { nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_SETDISKSMARTSIZE)); if (!gService) return NS_ERROR_NOT_AVAILABLE; return gService->SetDiskSmartSize_Locked(); } nsresult nsCacheService::SetDiskSmartSize_Locked() { nsresult rv; if (mozilla::net::CacheObserver::UseNewCache()) { return NS_ERROR_NOT_AVAILABLE; } if (!mObserver->DiskCacheParentDirectory()) return NS_ERROR_NOT_AVAILABLE; if (!mDiskDevice) return NS_ERROR_NOT_AVAILABLE; if (!mObserver->SmartSizeEnabled()) return NS_ERROR_NOT_AVAILABLE; nsAutoString cachePath; rv = mObserver->DiskCacheParentDirectory()->GetPath(cachePath); if (NS_SUCCEEDED(rv)) { nsCOMPtr event = new nsGetSmartSizeEvent(cachePath, mDiskDevice->getCacheSize(), mObserver->ShouldUseOldMaxSmartSize()); DispatchToCacheIOThread(event); } else { return NS_ERROR_FAILURE; } return NS_OK; } void nsCacheService::MoveOrRemoveDiskCache(nsIFile *aOldCacheDir, nsIFile *aNewCacheDir, const char *aCacheSubdir) { bool same; if (NS_FAILED(aOldCacheDir->Equals(aNewCacheDir, &same)) || same) return; nsCOMPtr aOldCacheSubdir; aOldCacheDir->Clone(getter_AddRefs(aOldCacheSubdir)); nsresult rv = aOldCacheSubdir->AppendNative( nsDependentCString(aCacheSubdir)); if (NS_FAILED(rv)) return; bool exists; if (NS_FAILED(aOldCacheSubdir->Exists(&exists)) || !exists) return; nsCOMPtr aNewCacheSubdir; aNewCacheDir->Clone(getter_AddRefs(aNewCacheSubdir)); rv = aNewCacheSubdir->AppendNative(nsDependentCString(aCacheSubdir)); if (NS_FAILED(rv)) return; nsAutoCString newPath; rv = aNewCacheSubdir->GetNativePath(newPath); if (NS_FAILED(rv)) return; if (NS_SUCCEEDED(aNewCacheSubdir->Exists(&exists)) && !exists) { // New cache directory does not exist, try to move the old one here // rename needs an empty target directory // Make sure the parent of the target sub-dir exists rv = aNewCacheDir->Create(nsIFile::DIRECTORY_TYPE, 0777); if (NS_SUCCEEDED(rv) || NS_ERROR_FILE_ALREADY_EXISTS == rv) { nsAutoCString oldPath; rv = aOldCacheSubdir->GetNativePath(oldPath); if (NS_FAILED(rv)) return; if (rename(oldPath.get(), newPath.get()) == 0) return; } } // Delay delete by 1 minute to avoid IO thrash on startup. nsDeleteDir::DeleteDir(aOldCacheSubdir, false, 60000); } static bool IsEntryPrivate(nsCacheEntry* entry) { return entry->IsPrivate(); } void nsCacheService::LeavePrivateBrowsing() { nsCacheServiceAutoLock lock; gService->DoomActiveEntries(IsEntryPrivate); if (gService->mMemoryDevice) { // clear memory cache gService->mMemoryDevice->EvictPrivateEntries(); } } MOZ_DEFINE_MALLOC_SIZE_OF(DiskCacheDeviceMallocSizeOf) NS_IMETHODIMP nsCacheService::CollectReports(nsIHandleReportCallback* aHandleReport, nsISupports* aData, bool aAnonymize) { size_t disk = 0; if (mDiskDevice) { nsCacheServiceAutoLock lock(LOCK_TELEM(NSCACHESERVICE_DISKDEVICEHEAPSIZE)); disk = mDiskDevice->SizeOfIncludingThis(DiskCacheDeviceMallocSizeOf); } size_t memory = mMemoryDevice ? mMemoryDevice->TotalSize() : 0; #define REPORT(_path, _amount, _desc) \ do { \ nsresult rv; \ rv = aHandleReport->Callback(EmptyCString(), \ NS_LITERAL_CSTRING(_path), \ KIND_HEAP, UNITS_BYTES, _amount, \ NS_LITERAL_CSTRING(_desc), aData); \ NS_ENSURE_SUCCESS(rv, rv); \ } while (0) REPORT("explicit/network/disk-cache", disk, "Memory used by the network disk cache."); REPORT("explicit/network/memory-cache", memory, "Memory used by the network memory cache."); return NS_OK; }