/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 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 "nsSHistory.h" #include // Helper Classes #include "mozilla/Preferences.h" #include "mozilla/StaticPtr.h" // Interfaces Needed #include "nsILayoutHistoryState.h" #include "nsIDocShell.h" #include "nsIDocShellLoadInfo.h" #include "nsISHContainer.h" #include "nsIDocShellTreeItem.h" #include "nsIURI.h" #include "nsIContentViewer.h" #include "nsIObserverService.h" #include "prclist.h" #include "mozilla/Services.h" #include "nsTArray.h" #include "nsCOMArray.h" #include "nsDocShell.h" #include "mozilla/Attributes.h" #include "nsISHEntry.h" #include "nsISHTransaction.h" #include "nsISHistoryListener.h" #include "nsComponentManagerUtils.h" // For calculating max history entries and max cachable contentviewers #include "prsystem.h" #include "mozilla/MathAlgorithms.h" using namespace mozilla; #define PREF_SHISTORY_SIZE "browser.sessionhistory.max_entries" #define PREF_SHISTORY_MAX_TOTAL_VIEWERS "browser.sessionhistory.max_total_viewers" static const char* kObservedPrefs[] = { PREF_SHISTORY_SIZE, PREF_SHISTORY_MAX_TOTAL_VIEWERS, nullptr }; static int32_t gHistoryMaxSize = 50; // Max viewers allowed per SHistory objects static const int32_t gHistoryMaxViewers = 3; // List of all SHistory objects, used for content viewer cache eviction static PRCList gSHistoryList; // Max viewers allowed total, across all SHistory objects - negative default // means we will calculate how many viewers to cache based on total memory int32_t nsSHistory::sHistoryMaxTotalViewers = -1; // A counter that is used to be able to know the order in which // entries were touched, so that we can evict older entries first. static uint32_t gTouchCounter = 0; static PRLogModuleInfo* GetSHistoryLog() { static PRLogModuleInfo* sLog; if (!sLog) { sLog = PR_NewLogModule("nsSHistory"); } return sLog; } #define LOG(format) MOZ_LOG(GetSHistoryLog(), mozilla::LogLevel::Debug, format) // This macro makes it easier to print a log message which includes a URI's // spec. Example use: // // nsIURI *uri = [...]; // LOG_SPEC(("The URI is %s.", _spec), uri); // #define LOG_SPEC(format, uri) \ PR_BEGIN_MACRO \ if (MOZ_LOG_TEST(GetSHistoryLog(), LogLevel::Debug)) { \ nsAutoCString _specStr(NS_LITERAL_CSTRING("(null)"));\ if (uri) { \ uri->GetSpec(_specStr); \ } \ const char* _spec = _specStr.get(); \ LOG(format); \ } \ PR_END_MACRO // This macro makes it easy to log a message including an SHEntry's URI. // For example: // // nsCOMPtr shentry = [...]; // LOG_SHENTRY_SPEC(("shentry %p has uri %s.", shentry.get(), _spec), shentry); // #define LOG_SHENTRY_SPEC(format, shentry) \ PR_BEGIN_MACRO \ if (MOZ_LOG_TEST(GetSHistoryLog(), LogLevel::Debug)) { \ nsCOMPtr uri; \ shentry->GetURI(getter_AddRefs(uri)); \ LOG_SPEC(format, uri); \ } \ PR_END_MACRO // Iterates over all registered session history listeners. #define ITERATE_LISTENERS(body) \ PR_BEGIN_MACRO \ { \ nsAutoTObserverArray::EndLimitedIterator \ iter(mListeners); \ while (iter.HasMore()) { \ nsCOMPtr listener = \ do_QueryReferent(iter.GetNext()); \ if (listener) { \ body \ } \ } \ } \ PR_END_MACRO // Calls a given method on all registered session history listeners. #define NOTIFY_LISTENERS(method, args) \ ITERATE_LISTENERS( \ listener->method args; \ ); // Calls a given method on all registered session history listeners. // Listeners may return 'false' to cancel an action so make sure that we // set the return value to 'false' if one of the listeners wants to cancel. #define NOTIFY_LISTENERS_CANCELABLE(method, retval, args) \ PR_BEGIN_MACRO \ { \ bool canceled = false; \ retval = true; \ ITERATE_LISTENERS( \ listener->method args; \ if (!retval) { \ canceled = true; \ } \ ); \ if (canceled) { \ retval = false; \ } \ } \ PR_END_MACRO enum HistCmd { HIST_CMD_BACK, HIST_CMD_FORWARD, HIST_CMD_GOTOINDEX, HIST_CMD_RELOAD }; class nsSHistoryObserver final : public nsIObserver { public: NS_DECL_ISUPPORTS NS_DECL_NSIOBSERVER nsSHistoryObserver() {} protected: ~nsSHistoryObserver() {} }; StaticRefPtr gObserver; NS_IMPL_ISUPPORTS(nsSHistoryObserver, nsIObserver) NS_IMETHODIMP nsSHistoryObserver::Observe(nsISupports* aSubject, const char* aTopic, const char16_t* aData) { if (!strcmp(aTopic, NS_PREFBRANCH_PREFCHANGE_TOPIC_ID)) { nsSHistory::UpdatePrefs(); nsSHistory::GloballyEvictContentViewers(); } else if (!strcmp(aTopic, "cacheservice:empty-cache") || !strcmp(aTopic, "memory-pressure")) { nsSHistory::GloballyEvictAllContentViewers(); } return NS_OK; } namespace { already_AddRefed GetContentViewerForTransaction(nsISHTransaction* aTrans) { nsCOMPtr entry; aTrans->GetSHEntry(getter_AddRefs(entry)); if (!entry) { return nullptr; } nsCOMPtr ownerEntry; nsCOMPtr viewer; entry->GetAnyContentViewer(getter_AddRefs(ownerEntry), getter_AddRefs(viewer)); return viewer.forget(); } void EvictContentViewerForTransaction(nsISHTransaction* aTrans) { nsCOMPtr entry; aTrans->GetSHEntry(getter_AddRefs(entry)); nsCOMPtr viewer; nsCOMPtr ownerEntry; entry->GetAnyContentViewer(getter_AddRefs(ownerEntry), getter_AddRefs(viewer)); if (viewer) { NS_ASSERTION(ownerEntry, "Content viewer exists but its SHEntry is null"); LOG_SHENTRY_SPEC(("Evicting content viewer 0x%p for " "owning SHEntry 0x%p at %s.", viewer.get(), ownerEntry.get(), _spec), ownerEntry); // Drop the presentation state before destroying the viewer, so that // document teardown is able to correctly persist the state. ownerEntry->SetContentViewer(nullptr); ownerEntry->SyncPresentationState(); viewer->Destroy(); } } } // namespace nsSHistory::nsSHistory() : mIndex(-1) , mLength(0) , mRequestedIndex(-1) , mRootDocShell(nullptr) { // Add this new SHistory object to the list PR_APPEND_LINK(this, &gSHistoryList); } nsSHistory::~nsSHistory() { // Remove this SHistory object from the list PR_REMOVE_LINK(this); } NS_IMPL_ADDREF(nsSHistory) NS_IMPL_RELEASE(nsSHistory) NS_INTERFACE_MAP_BEGIN(nsSHistory) NS_INTERFACE_MAP_ENTRY_AMBIGUOUS(nsISupports, nsISHistory) NS_INTERFACE_MAP_ENTRY(nsISHistory) NS_INTERFACE_MAP_ENTRY(nsIWebNavigation) NS_INTERFACE_MAP_ENTRY(nsISHistoryInternal) NS_INTERFACE_MAP_END // static uint32_t nsSHistory::CalcMaxTotalViewers() { // Calculate an estimate of how many ContentViewers we should cache based // on RAM. This assumes that the average ContentViewer is 4MB (conservative) // and caps the max at 8 ContentViewers // // TODO: Should we split the cache memory betw. ContentViewer caching and // nsCacheService? // // RAM ContentViewers // ----------------------- // 32 Mb 0 // 64 Mb 1 // 128 Mb 2 // 256 Mb 3 // 512 Mb 5 // 1024 Mb 8 // 2048 Mb 8 // 4096 Mb 8 uint64_t bytes = PR_GetPhysicalMemorySize(); if (bytes == 0) { return 0; } // 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; } double kBytesD = (double)(bytes >> 10); // This is essentially the same calculation as for nsCacheService, // except that we divide the final memory calculation by 4, since // we assume each ContentViewer takes on average 4MB uint32_t viewers = 0; double x = std::log(kBytesD) / std::log(2.0) - 14; if (x > 0) { viewers = (uint32_t)(x * x - x + 2.001); // add .001 for rounding viewers /= 4; } // Cap it off at 8 max if (viewers > 8) { viewers = 8; } return viewers; } // static void nsSHistory::UpdatePrefs() { Preferences::GetInt(PREF_SHISTORY_SIZE, &gHistoryMaxSize); Preferences::GetInt(PREF_SHISTORY_MAX_TOTAL_VIEWERS, &sHistoryMaxTotalViewers); // If the pref is negative, that means we calculate how many viewers // we think we should cache, based on total memory if (sHistoryMaxTotalViewers < 0) { sHistoryMaxTotalViewers = CalcMaxTotalViewers(); } } // static nsresult nsSHistory::Startup() { UpdatePrefs(); // The goal of this is to unbreak users who have inadvertently set their // session history size to less than the default value. int32_t defaultHistoryMaxSize = Preferences::GetDefaultInt(PREF_SHISTORY_SIZE, 50); if (gHistoryMaxSize < defaultHistoryMaxSize) { gHistoryMaxSize = defaultHistoryMaxSize; } // Allow the user to override the max total number of cached viewers, // but keep the per SHistory cached viewer limit constant if (!gObserver) { gObserver = new nsSHistoryObserver(); Preferences::AddStrongObservers(gObserver, kObservedPrefs); nsCOMPtr obsSvc = mozilla::services::GetObserverService(); if (obsSvc) { // Observe empty-cache notifications so tahat clearing the disk/memory // cache will also evict all content viewers. obsSvc->AddObserver(gObserver, "cacheservice:empty-cache", false); // Same for memory-pressure notifications obsSvc->AddObserver(gObserver, "memory-pressure", false); } } // Initialize the global list of all SHistory objects PR_INIT_CLIST(&gSHistoryList); return NS_OK; } // static void nsSHistory::Shutdown() { if (gObserver) { Preferences::RemoveObservers(gObserver, kObservedPrefs); nsCOMPtr obsSvc = mozilla::services::GetObserverService(); if (obsSvc) { obsSvc->RemoveObserver(gObserver, "cacheservice:empty-cache"); obsSvc->RemoveObserver(gObserver, "memory-pressure"); } gObserver = nullptr; } } /* Add an entry to the History list at mIndex and * increment the index to point to the new entry */ NS_IMETHODIMP nsSHistory::AddEntry(nsISHEntry* aSHEntry, bool aPersist) { NS_ENSURE_ARG(aSHEntry); nsCOMPtr currentTxn; if (mListRoot) { GetTransactionAtIndex(mIndex, getter_AddRefs(currentTxn)); } bool currentPersist = true; if (currentTxn) { currentTxn->GetPersist(¤tPersist); } int32_t currentIndex = mIndex; if (!currentPersist) { NOTIFY_LISTENERS(OnHistoryReplaceEntry, (currentIndex)); NS_ENSURE_SUCCESS(currentTxn->SetSHEntry(aSHEntry), NS_ERROR_FAILURE); currentTxn->SetPersist(aPersist); return NS_OK; } nsCOMPtr txn( do_CreateInstance(NS_SHTRANSACTION_CONTRACTID)); NS_ENSURE_TRUE(txn, NS_ERROR_FAILURE); nsCOMPtr uri; aSHEntry->GetURI(getter_AddRefs(uri)); NOTIFY_LISTENERS(OnHistoryNewEntry, (uri)); // If a listener has changed mIndex, we need to get currentTxn again, // otherwise we'll be left at an inconsistent state (see bug 320742) if (currentIndex != mIndex) { GetTransactionAtIndex(mIndex, getter_AddRefs(currentTxn)); } // Set the ShEntry and parent for the transaction. setting the // parent will properly set the parent child relationship txn->SetPersist(aPersist); NS_ENSURE_SUCCESS(txn->Create(aSHEntry, currentTxn), NS_ERROR_FAILURE); // A little tricky math here... Basically when adding an object regardless of // what the length was before, it should always be set back to the current and // lop off the forward. mLength = (++mIndex + 1); // If this is the very first transaction, initialize the list if (!mListRoot) { mListRoot = txn; } // Purge History list if it is too long if (gHistoryMaxSize >= 0 && mLength > gHistoryMaxSize) { PurgeHistory(mLength - gHistoryMaxSize); } RemoveDynEntries(mIndex - 1, mIndex); return NS_OK; } /* Get size of the history list */ NS_IMETHODIMP nsSHistory::GetCount(int32_t* aResult) { NS_ENSURE_ARG_POINTER(aResult); *aResult = mLength; return NS_OK; } /* Get index of the history list */ NS_IMETHODIMP nsSHistory::GetIndex(int32_t* aResult) { NS_PRECONDITION(aResult, "null out param?"); *aResult = mIndex; return NS_OK; } /* Get the requestedIndex */ NS_IMETHODIMP nsSHistory::GetRequestedIndex(int32_t* aResult) { NS_PRECONDITION(aResult, "null out param?"); *aResult = mRequestedIndex; return NS_OK; } /* Get the entry at a given index */ NS_IMETHODIMP nsSHistory::GetEntryAtIndex(int32_t aIndex, bool aModifyIndex, nsISHEntry** aResult) { nsresult rv; nsCOMPtr txn; /* GetTransactionAtIndex ensures aResult is valid and validates aIndex */ rv = GetTransactionAtIndex(aIndex, getter_AddRefs(txn)); if (NS_SUCCEEDED(rv) && txn) { // Get the Entry from the transaction rv = txn->GetSHEntry(aResult); if (NS_SUCCEEDED(rv) && (*aResult)) { // Set mIndex to the requested index, if asked to do so.. if (aModifyIndex) { mIndex = aIndex; } } } return rv; } /* Get the transaction at a given index */ NS_IMETHODIMP nsSHistory::GetTransactionAtIndex(int32_t aIndex, nsISHTransaction** aResult) { nsresult rv; NS_ENSURE_ARG_POINTER(aResult); if (mLength <= 0 || aIndex < 0 || aIndex >= mLength) { return NS_ERROR_FAILURE; } if (!mListRoot) { return NS_ERROR_FAILURE; } if (aIndex == 0) { *aResult = mListRoot; NS_ADDREF(*aResult); return NS_OK; } int32_t cnt = 0; nsCOMPtr tempPtr; rv = GetRootTransaction(getter_AddRefs(tempPtr)); if (NS_FAILED(rv) || !tempPtr) { return NS_ERROR_FAILURE; } while (true) { nsCOMPtr ptr; rv = tempPtr->GetNext(getter_AddRefs(ptr)); if (NS_SUCCEEDED(rv) && ptr) { cnt++; if (cnt == aIndex) { ptr.forget(aResult); break; } else { tempPtr = ptr; continue; } } else { return NS_ERROR_FAILURE; } } return NS_OK; } /* Get the index of a given entry */ NS_IMETHODIMP nsSHistory::GetIndexOfEntry(nsISHEntry* aSHEntry, int32_t* aResult) { NS_ENSURE_ARG(aSHEntry); NS_ENSURE_ARG_POINTER(aResult); *aResult = -1; if (mLength <= 0) { return NS_ERROR_FAILURE; } nsCOMPtr currentTxn; int32_t cnt = 0; nsresult rv = GetRootTransaction(getter_AddRefs(currentTxn)); if (NS_FAILED(rv) || !currentTxn) { return NS_ERROR_FAILURE; } while (true) { nsCOMPtr entry; rv = currentTxn->GetSHEntry(getter_AddRefs(entry)); if (NS_FAILED(rv) || !entry) { return NS_ERROR_FAILURE; } if (aSHEntry == entry) { *aResult = cnt; break; } rv = currentTxn->GetNext(getter_AddRefs(currentTxn)); if (NS_FAILED(rv) || !currentTxn) { return NS_ERROR_FAILURE; } cnt++; } return NS_OK; } #ifdef DEBUG nsresult nsSHistory::PrintHistory() { nsCOMPtr txn; int32_t index = 0; nsresult rv; if (!mListRoot) { return NS_ERROR_FAILURE; } txn = mListRoot; while (1) { if (!txn) { break; } nsCOMPtr entry; rv = txn->GetSHEntry(getter_AddRefs(entry)); if (NS_FAILED(rv) && !entry) { return NS_ERROR_FAILURE; } nsCOMPtr layoutHistoryState; nsCOMPtr uri; nsXPIDLString title; entry->GetLayoutHistoryState(getter_AddRefs(layoutHistoryState)); entry->GetURI(getter_AddRefs(uri)); entry->GetTitle(getter_Copies(title)); #if 0 nsAutoCString url; if (uri) { uri->GetSpec(url); } printf("**** SH Transaction #%d, Entry = %x\n", index, entry.get()); printf("\t\t URL = %s\n", url.get()); printf("\t\t Title = %s\n", NS_LossyConvertUTF16toASCII(title).get()); printf("\t\t layout History Data = %x\n", layoutHistoryState.get()); #endif nsCOMPtr next; rv = txn->GetNext(getter_AddRefs(next)); if (NS_SUCCEEDED(rv) && next) { txn = next; index++; continue; } else { break; } } return NS_OK; } #endif NS_IMETHODIMP nsSHistory::GetRootTransaction(nsISHTransaction** aResult) { NS_ENSURE_ARG_POINTER(aResult); *aResult = mListRoot; NS_IF_ADDREF(*aResult); return NS_OK; } /* Get the max size of the history list */ NS_IMETHODIMP nsSHistory::GetMaxLength(int32_t* aResult) { NS_ENSURE_ARG_POINTER(aResult); *aResult = gHistoryMaxSize; return NS_OK; } /* Set the max size of the history list */ NS_IMETHODIMP nsSHistory::SetMaxLength(int32_t aMaxSize) { if (aMaxSize < 0) { return NS_ERROR_ILLEGAL_VALUE; } gHistoryMaxSize = aMaxSize; if (mLength > aMaxSize) { PurgeHistory(mLength - aMaxSize); } return NS_OK; } NS_IMETHODIMP nsSHistory::PurgeHistory(int32_t aEntries) { if (mLength <= 0 || aEntries <= 0) { return NS_ERROR_FAILURE; } aEntries = std::min(aEntries, mLength); bool purgeHistory = true; NOTIFY_LISTENERS_CANCELABLE(OnHistoryPurge, purgeHistory, (aEntries, &purgeHistory)); if (!purgeHistory) { // Listener asked us not to purge return NS_SUCCESS_LOSS_OF_INSIGNIFICANT_DATA; } int32_t cnt = 0; while (cnt < aEntries) { nsCOMPtr nextTxn; if (mListRoot) { mListRoot->GetNext(getter_AddRefs(nextTxn)); mListRoot->SetNext(nullptr); } mListRoot = nextTxn; if (mListRoot) { mListRoot->SetPrev(nullptr); } cnt++; } mLength -= cnt; mIndex -= cnt; // Now if we were not at the end of the history, mIndex could have // become far too negative. If so, just set it to -1. if (mIndex < -1) { mIndex = -1; } if (mRootDocShell) { mRootDocShell->HistoryPurged(cnt); } return NS_OK; } NS_IMETHODIMP nsSHistory::AddSHistoryListener(nsISHistoryListener* aListener) { NS_ENSURE_ARG_POINTER(aListener); // Check if the listener supports Weak Reference. This is a must. // This listener functionality is used by embedders and we want to // have the right ownership with who ever listens to SHistory nsWeakPtr listener = do_GetWeakReference(aListener); if (!listener) { return NS_ERROR_FAILURE; } return mListeners.AppendElementUnlessExists(listener) ? NS_OK : NS_ERROR_OUT_OF_MEMORY; } NS_IMETHODIMP nsSHistory::RemoveSHistoryListener(nsISHistoryListener* aListener) { // Make sure the listener that wants to be removed is the // one we have in store. nsWeakPtr listener = do_GetWeakReference(aListener); mListeners.RemoveElement(listener); return NS_OK; } /* Replace an entry in the History list at a particular index. * Do not update index or count. */ NS_IMETHODIMP nsSHistory::ReplaceEntry(int32_t aIndex, nsISHEntry* aReplaceEntry) { NS_ENSURE_ARG(aReplaceEntry); nsresult rv; nsCOMPtr currentTxn; if (!mListRoot) { // Session History is not initialised. return NS_ERROR_FAILURE; } rv = GetTransactionAtIndex(aIndex, getter_AddRefs(currentTxn)); if (currentTxn) { NOTIFY_LISTENERS(OnHistoryReplaceEntry, (aIndex)); // Set the replacement entry in the transaction rv = currentTxn->SetSHEntry(aReplaceEntry); rv = currentTxn->SetPersist(true); } return rv; } NS_IMETHODIMP nsSHistory::NotifyOnHistoryReload(nsIURI* aReloadURI, uint32_t aReloadFlags, bool* aCanReload) { NOTIFY_LISTENERS_CANCELABLE(OnHistoryReload, *aCanReload, (aReloadURI, aReloadFlags, aCanReload)); return NS_OK; } NS_IMETHODIMP nsSHistory::EvictOutOfRangeContentViewers(int32_t aIndex) { // Check our per SHistory object limit in the currently navigated SHistory EvictOutOfRangeWindowContentViewers(aIndex); // Check our total limit across all SHistory objects GloballyEvictContentViewers(); return NS_OK; } NS_IMETHODIMP nsSHistory::EvictAllContentViewers() { // XXXbz we don't actually do a good job of evicting things as we should, so // we might have viewers quite far from mIndex. So just evict everything. nsCOMPtr trans = mListRoot; while (trans) { EvictContentViewerForTransaction(trans); nsISHTransaction* temp = trans; temp->GetNext(getter_AddRefs(trans)); } return NS_OK; } NS_IMETHODIMP nsSHistory::GetCanGoBack(bool* aCanGoBack) { NS_ENSURE_ARG_POINTER(aCanGoBack); *aCanGoBack = false; int32_t index = -1; NS_ENSURE_SUCCESS(GetIndex(&index), NS_ERROR_FAILURE); if (index > 0) { *aCanGoBack = true; } return NS_OK; } NS_IMETHODIMP nsSHistory::GetCanGoForward(bool* aCanGoForward) { NS_ENSURE_ARG_POINTER(aCanGoForward); *aCanGoForward = false; int32_t index = -1; int32_t count = -1; NS_ENSURE_SUCCESS(GetIndex(&index), NS_ERROR_FAILURE); NS_ENSURE_SUCCESS(GetCount(&count), NS_ERROR_FAILURE); if (index >= 0 && index < (count - 1)) { *aCanGoForward = true; } return NS_OK; } NS_IMETHODIMP nsSHistory::GoBack() { bool canGoBack = false; GetCanGoBack(&canGoBack); if (!canGoBack) { return NS_ERROR_UNEXPECTED; } return LoadEntry(mIndex - 1, nsIDocShellLoadInfo::loadHistory, HIST_CMD_BACK); } NS_IMETHODIMP nsSHistory::GoForward() { bool canGoForward = false; GetCanGoForward(&canGoForward); if (!canGoForward) { return NS_ERROR_UNEXPECTED; } return LoadEntry(mIndex + 1, nsIDocShellLoadInfo::loadHistory, HIST_CMD_FORWARD); } NS_IMETHODIMP nsSHistory::Reload(uint32_t aReloadFlags) { nsDocShellInfoLoadType loadType; if (aReloadFlags & nsIWebNavigation::LOAD_FLAGS_BYPASS_PROXY && aReloadFlags & nsIWebNavigation::LOAD_FLAGS_BYPASS_CACHE) { loadType = nsIDocShellLoadInfo::loadReloadBypassProxyAndCache; } else if (aReloadFlags & nsIWebNavigation::LOAD_FLAGS_BYPASS_PROXY) { loadType = nsIDocShellLoadInfo::loadReloadBypassProxy; } else if (aReloadFlags & nsIWebNavigation::LOAD_FLAGS_BYPASS_CACHE) { loadType = nsIDocShellLoadInfo::loadReloadBypassCache; } else if (aReloadFlags & nsIWebNavigation::LOAD_FLAGS_CHARSET_CHANGE) { loadType = nsIDocShellLoadInfo::loadReloadCharsetChange; } else if (aReloadFlags & nsIWebNavigation::LOAD_FLAGS_ALLOW_MIXED_CONTENT) { loadType = nsIDocShellLoadInfo::loadReloadMixedContent; } else { loadType = nsIDocShellLoadInfo::loadReloadNormal; } // We are reloading. Send Reload notifications. // nsDocShellLoadFlagType is not public, where as nsIWebNavigation // is public. So send the reload notifications with the // nsIWebNavigation flags. bool canNavigate = true; nsCOMPtr currentURI; GetCurrentURI(getter_AddRefs(currentURI)); NOTIFY_LISTENERS_CANCELABLE(OnHistoryReload, canNavigate, (currentURI, aReloadFlags, &canNavigate)); if (!canNavigate) { return NS_OK; } return LoadEntry(mIndex, loadType, HIST_CMD_RELOAD); } NS_IMETHODIMP nsSHistory::ReloadCurrentEntry() { // Notify listeners bool canNavigate = true; nsCOMPtr currentURI; GetCurrentURI(getter_AddRefs(currentURI)); NOTIFY_LISTENERS_CANCELABLE(OnHistoryGotoIndex, canNavigate, (mIndex, currentURI, &canNavigate)); if (!canNavigate) { return NS_OK; } return LoadEntry(mIndex, nsIDocShellLoadInfo::loadHistory, HIST_CMD_RELOAD); } void nsSHistory::EvictOutOfRangeWindowContentViewers(int32_t aIndex) { // XXX rename method to EvictContentViewersExceptAroundIndex, or something. // We need to release all content viewers that are no longer in the range // // aIndex - gHistoryMaxViewers to aIndex + gHistoryMaxViewers // // to ensure that this SHistory object isn't responsible for more than // gHistoryMaxViewers content viewers. But our job is complicated by the // fact that two transactions which are related by either hash navigations or // history.pushState will have the same content viewer. // // To illustrate the issue, suppose gHistoryMaxViewers = 3 and we have four // linked transactions in our history. Suppose we then add a new content // viewer and call into this function. So the history looks like: // // A A A A B // + * // // where the letters are content viewers and + and * denote the beginning and // end of the range aIndex +/- gHistoryMaxViewers. // // Although one copy of the content viewer A exists outside the range, we // don't want to evict A, because it has other copies in range! // // We therefore adjust our eviction strategy to read: // // Evict each content viewer outside the range aIndex -/+ // gHistoryMaxViewers, unless that content viewer also appears within the // range. // // (Note that it's entirely legal to have two copies of one content viewer // separated by a different content viewer -- call pushState twice, go back // once, and refresh -- so we can't rely on identical viewers only appearing // adjacent to one another.) if (aIndex < 0) { return; } NS_ENSURE_TRUE_VOID(aIndex < mLength); // Calculate the range that's safe from eviction. int32_t startSafeIndex = std::max(0, aIndex - gHistoryMaxViewers); int32_t endSafeIndex = std::min(mLength, aIndex + gHistoryMaxViewers); LOG(("EvictOutOfRangeWindowContentViewers(index=%d), " "mLength=%d. Safe range [%d, %d]", aIndex, mLength, startSafeIndex, endSafeIndex)); // The content viewers in range aIndex -/+ gHistoryMaxViewers will not be // evicted. Collect a set of them so we don't accidentally evict one of them // if it appears outside this range. nsCOMArray safeViewers; nsCOMPtr trans; GetTransactionAtIndex(startSafeIndex, getter_AddRefs(trans)); for (int32_t i = startSafeIndex; trans && i <= endSafeIndex; i++) { nsCOMPtr viewer = GetContentViewerForTransaction(trans); safeViewers.AppendObject(viewer); nsISHTransaction* temp = trans; temp->GetNext(getter_AddRefs(trans)); } // Walk the SHistory list and evict any content viewers that aren't safe. GetTransactionAtIndex(0, getter_AddRefs(trans)); while (trans) { nsCOMPtr viewer = GetContentViewerForTransaction(trans); if (safeViewers.IndexOf(viewer) == -1) { EvictContentViewerForTransaction(trans); } nsISHTransaction* temp = trans; temp->GetNext(getter_AddRefs(trans)); } } namespace { class TransactionAndDistance { public: TransactionAndDistance(nsISHTransaction* aTrans, uint32_t aDist) : mTransaction(aTrans) , mLastTouched(0) , mDistance(aDist) { mViewer = GetContentViewerForTransaction(aTrans); NS_ASSERTION(mViewer, "Transaction should have a content viewer"); nsCOMPtr shentry; mTransaction->GetSHEntry(getter_AddRefs(shentry)); nsCOMPtr shentryInternal = do_QueryInterface(shentry); if (shentryInternal) { shentryInternal->GetLastTouched(&mLastTouched); } else { NS_WARNING("Can't cast to nsISHEntryInternal?"); } } bool operator<(const TransactionAndDistance& aOther) const { // Compare distances first, and fall back to last-accessed times. if (aOther.mDistance != this->mDistance) { return this->mDistance < aOther.mDistance; } return this->mLastTouched < aOther.mLastTouched; } bool operator==(const TransactionAndDistance& aOther) const { // This is a little silly; we need == so the default comaprator can be // instantiated, but this function is never actually called when we sort // the list of TransactionAndDistance objects. return aOther.mDistance == this->mDistance && aOther.mLastTouched == this->mLastTouched; } nsCOMPtr mTransaction; nsCOMPtr mViewer; uint32_t mLastTouched; int32_t mDistance; }; } // namespace // static void nsSHistory::GloballyEvictContentViewers() { // First, collect from each SHistory object the transactions which have a // cached content viewer. Associate with each transaction its distance from // its SHistory's current index. nsTArray transactions; PRCList* listEntry = PR_LIST_HEAD(&gSHistoryList); while (listEntry != &gSHistoryList) { nsSHistory* shist = static_cast(listEntry); // Maintain a list of the transactions which have viewers and belong to // this particular shist object. We'll add this list to the global list, // |transactions|, eventually. nsTArray shTransactions; // Content viewers are likely to exist only within shist->mIndex -/+ // gHistoryMaxViewers, so only search within that range. // // A content viewer might exist outside that range due to either: // // * history.pushState or hash navigations, in which case a copy of the // content viewer should exist within the range, or // // * bugs which cause us not to call nsSHistory::EvictContentViewers() // often enough. Once we do call EvictContentViewers() for the // SHistory object in question, we'll do a full search of its history // and evict the out-of-range content viewers, so we don't bother here. // int32_t startIndex = std::max(0, shist->mIndex - gHistoryMaxViewers); int32_t endIndex = std::min(shist->mLength - 1, shist->mIndex + gHistoryMaxViewers); nsCOMPtr trans; shist->GetTransactionAtIndex(startIndex, getter_AddRefs(trans)); for (int32_t i = startIndex; trans && i <= endIndex; i++) { nsCOMPtr contentViewer = GetContentViewerForTransaction(trans); if (contentViewer) { // Because one content viewer might belong to multiple SHEntries, we // have to search through shTransactions to see if we already know // about this content viewer. If we find the viewer, update its // distance from the SHistory's index and continue. bool found = false; for (uint32_t j = 0; j < shTransactions.Length(); j++) { TransactionAndDistance& container = shTransactions[j]; if (container.mViewer == contentViewer) { container.mDistance = std::min(container.mDistance, DeprecatedAbs(i - shist->mIndex)); found = true; break; } } // If we didn't find a TransactionAndDistance for this content viewer, // make a new one. if (!found) { TransactionAndDistance container(trans, DeprecatedAbs(i - shist->mIndex)); shTransactions.AppendElement(container); } } nsISHTransaction* temp = trans; temp->GetNext(getter_AddRefs(trans)); } // We've found all the transactions belonging to shist which have viewers. // Add those transactions to our global list and move on. transactions.AppendElements(shTransactions); listEntry = PR_NEXT_LINK(shist); } // We now have collected all cached content viewers. First check that we // have enough that we actually need to evict some. if ((int32_t)transactions.Length() <= sHistoryMaxTotalViewers) { return; } // If we need to evict, sort our list of transactions and evict the largest // ones. (We could of course get better algorithmic complexity here by using // a heap or something more clever. But sHistoryMaxTotalViewers isn't large, // so let's not worry about it.) transactions.Sort(); for (int32_t i = transactions.Length() - 1; i >= sHistoryMaxTotalViewers; --i) { EvictContentViewerForTransaction(transactions[i].mTransaction); } } nsresult nsSHistory::EvictExpiredContentViewerForEntry(nsIBFCacheEntry* aEntry) { int32_t startIndex = std::max(0, mIndex - gHistoryMaxViewers); int32_t endIndex = std::min(mLength - 1, mIndex + gHistoryMaxViewers); nsCOMPtr trans; GetTransactionAtIndex(startIndex, getter_AddRefs(trans)); int32_t i; for (i = startIndex; trans && i <= endIndex; ++i) { nsCOMPtr entry; trans->GetSHEntry(getter_AddRefs(entry)); // Does entry have the same BFCacheEntry as the argument to this method? if (entry->HasBFCacheEntry(aEntry)) { break; } nsISHTransaction* temp = trans; temp->GetNext(getter_AddRefs(trans)); } if (i > endIndex) { return NS_OK; } if (i == mIndex) { NS_WARNING("How did the current SHEntry expire?"); return NS_OK; } EvictContentViewerForTransaction(trans); return NS_OK; } // Evicts all content viewers in all history objects. This is very // inefficient, because it requires a linear search through all SHistory // objects for each viewer to be evicted. However, this method is called // infrequently -- only when the disk or memory cache is cleared. // static void nsSHistory::GloballyEvictAllContentViewers() { int32_t maxViewers = sHistoryMaxTotalViewers; sHistoryMaxTotalViewers = 0; GloballyEvictContentViewers(); sHistoryMaxTotalViewers = maxViewers; } void GetDynamicChildren(nsISHContainer* aContainer, nsTArray& aDocshellIDs, bool aOnlyTopLevelDynamic) { int32_t count = 0; aContainer->GetChildCount(&count); for (int32_t i = 0; i < count; ++i) { nsCOMPtr child; aContainer->GetChildAt(i, getter_AddRefs(child)); if (child) { bool dynAdded = false; child->IsDynamicallyAdded(&dynAdded); if (dynAdded) { uint64_t docshellID = 0; child->GetDocshellID(&docshellID); aDocshellIDs.AppendElement(docshellID); } if (!dynAdded || !aOnlyTopLevelDynamic) { nsCOMPtr childAsContainer = do_QueryInterface(child); if (childAsContainer) { GetDynamicChildren(childAsContainer, aDocshellIDs, aOnlyTopLevelDynamic); } } } } } bool RemoveFromSessionHistoryContainer(nsISHContainer* aContainer, nsTArray& aDocshellIDs) { nsCOMPtr root = do_QueryInterface(aContainer); NS_ENSURE_TRUE(root, false); bool didRemove = false; int32_t childCount = 0; aContainer->GetChildCount(&childCount); for (int32_t i = childCount - 1; i >= 0; --i) { nsCOMPtr child; aContainer->GetChildAt(i, getter_AddRefs(child)); if (child) { uint64_t docshelldID = 0; child->GetDocshellID(&docshelldID); if (aDocshellIDs.Contains(docshelldID)) { didRemove = true; aContainer->RemoveChild(child); } else { nsCOMPtr container = do_QueryInterface(child); if (container) { bool childRemoved = RemoveFromSessionHistoryContainer(container, aDocshellIDs); if (childRemoved) { didRemove = true; } } } } } return didRemove; } bool RemoveChildEntries(nsISHistory* aHistory, int32_t aIndex, nsTArray& aEntryIDs) { nsCOMPtr rootHE; aHistory->GetEntryAtIndex(aIndex, false, getter_AddRefs(rootHE)); nsCOMPtr root = do_QueryInterface(rootHE); return root ? RemoveFromSessionHistoryContainer(root, aEntryIDs) : false; } bool IsSameTree(nsISHEntry* aEntry1, nsISHEntry* aEntry2) { if (!aEntry1 && !aEntry2) { return true; } if ((!aEntry1 && aEntry2) || (aEntry1 && !aEntry2)) { return false; } uint32_t id1, id2; aEntry1->GetID(&id1); aEntry2->GetID(&id2); if (id1 != id2) { return false; } nsCOMPtr container1 = do_QueryInterface(aEntry1); nsCOMPtr container2 = do_QueryInterface(aEntry2); int32_t count1, count2; container1->GetChildCount(&count1); container2->GetChildCount(&count2); // We allow null entries in the end of the child list. int32_t count = std::max(count1, count2); for (int32_t i = 0; i < count; ++i) { nsCOMPtr child1, child2; container1->GetChildAt(i, getter_AddRefs(child1)); container2->GetChildAt(i, getter_AddRefs(child2)); if (!IsSameTree(child1, child2)) { return false; } } return true; } bool nsSHistory::RemoveDuplicate(int32_t aIndex, bool aKeepNext) { NS_ASSERTION(aIndex >= 0, "aIndex must be >= 0!"); NS_ASSERTION(aIndex != 0 || aKeepNext, "If we're removing index 0 we must be keeping the next"); NS_ASSERTION(aIndex != mIndex, "Shouldn't remove mIndex!"); int32_t compareIndex = aKeepNext ? aIndex + 1 : aIndex - 1; nsCOMPtr root1, root2; GetEntryAtIndex(aIndex, false, getter_AddRefs(root1)); GetEntryAtIndex(compareIndex, false, getter_AddRefs(root2)); if (IsSameTree(root1, root2)) { nsCOMPtr txToRemove, txToKeep, txNext, txPrev; GetTransactionAtIndex(aIndex, getter_AddRefs(txToRemove)); GetTransactionAtIndex(compareIndex, getter_AddRefs(txToKeep)); if (!txToRemove) { return false; } NS_ENSURE_TRUE(txToKeep, false); txToRemove->GetNext(getter_AddRefs(txNext)); txToRemove->GetPrev(getter_AddRefs(txPrev)); txToRemove->SetNext(nullptr); txToRemove->SetPrev(nullptr); if (aKeepNext) { if (txPrev) { txPrev->SetNext(txToKeep); } else { txToKeep->SetPrev(nullptr); } } else { txToKeep->SetNext(txNext); } if (aIndex == 0 && aKeepNext) { NS_ASSERTION(txToRemove == mListRoot, "Transaction at index 0 should be mListRoot!"); // We're removing the very first session history transaction! mListRoot = txToKeep; } if (mRootDocShell) { static_cast(mRootDocShell)->HistoryTransactionRemoved(aIndex); } // Adjust our indices to reflect the removed transaction if (mIndex > aIndex) { mIndex = mIndex - 1; } // NB: If the transaction we are removing is the transaction currently // being navigated to (mRequestedIndex) then we adjust the index // only if we're not keeping the next entry (because if we are keeping // the next entry (because the current is a duplicate of the next), then // that entry slides into the spot that we're currently pointing to. // We don't do this adjustment for mIndex because mIndex cannot equal // aIndex. // NB: We don't need to guard on mRequestedIndex being nonzero here, // because either they're strictly greater than aIndex which is at least // zero, or they are equal to aIndex in which case aKeepNext must be true // if aIndex is zero. if (mRequestedIndex > aIndex || (mRequestedIndex == aIndex && !aKeepNext)) { mRequestedIndex = mRequestedIndex - 1; } --mLength; return true; } return false; } NS_IMETHODIMP_(void) nsSHistory::RemoveEntries(nsTArray& aIDs, int32_t aStartIndex) { int32_t index = aStartIndex; while (index >= 0 && RemoveChildEntries(this, --index, aIDs)) { } int32_t minIndex = index; index = aStartIndex; while (index >= 0 && RemoveChildEntries(this, index++, aIDs)) { } // We need to remove duplicate nsSHEntry trees. bool didRemove = false; while (index > minIndex) { if (index != mIndex) { didRemove = RemoveDuplicate(index, index < mIndex) || didRemove; } --index; } if (didRemove && mRootDocShell) { nsCOMPtr ev = NS_NewRunnableMethod(static_cast(mRootDocShell), &nsDocShell::FireDummyOnLocationChange); NS_DispatchToCurrentThread(ev); } } void nsSHistory::RemoveDynEntries(int32_t aOldIndex, int32_t aNewIndex) { // Search for the entries which are in the current index, // but not in the new one. nsCOMPtr originalSH; GetEntryAtIndex(aOldIndex, false, getter_AddRefs(originalSH)); nsCOMPtr originalContainer = do_QueryInterface(originalSH); AutoTArray toBeRemovedEntries; if (originalContainer) { nsTArray originalDynDocShellIDs; GetDynamicChildren(originalContainer, originalDynDocShellIDs, true); if (originalDynDocShellIDs.Length()) { nsCOMPtr currentSH; GetEntryAtIndex(aNewIndex, false, getter_AddRefs(currentSH)); nsCOMPtr newContainer = do_QueryInterface(currentSH); if (newContainer) { nsTArray newDynDocShellIDs; GetDynamicChildren(newContainer, newDynDocShellIDs, false); for (uint32_t i = 0; i < originalDynDocShellIDs.Length(); ++i) { if (!newDynDocShellIDs.Contains(originalDynDocShellIDs[i])) { toBeRemovedEntries.AppendElement(originalDynDocShellIDs[i]); } } } } } if (toBeRemovedEntries.Length()) { RemoveEntries(toBeRemovedEntries, aOldIndex); } } NS_IMETHODIMP nsSHistory::UpdateIndex() { // Update the actual index with the right value. if (mIndex != mRequestedIndex && mRequestedIndex != -1) { RemoveDynEntries(mIndex, mRequestedIndex); mIndex = mRequestedIndex; } mRequestedIndex = -1; return NS_OK; } NS_IMETHODIMP nsSHistory::Stop(uint32_t aStopFlags) { // Not implemented return NS_OK; } NS_IMETHODIMP nsSHistory::GetDocument(nsIDOMDocument** aDocument) { // Not implemented return NS_OK; } NS_IMETHODIMP nsSHistory::GetCurrentURI(nsIURI** aResultURI) { NS_ENSURE_ARG_POINTER(aResultURI); nsresult rv; nsCOMPtr currentEntry; rv = GetEntryAtIndex(mIndex, false, getter_AddRefs(currentEntry)); if (NS_FAILED(rv) && !currentEntry) { return rv; } rv = currentEntry->GetURI(aResultURI); return rv; } NS_IMETHODIMP nsSHistory::GetReferringURI(nsIURI** aURI) { *aURI = nullptr; // Not implemented return NS_OK; } NS_IMETHODIMP nsSHistory::SetSessionHistory(nsISHistory* aSessionHistory) { // Not implemented return NS_OK; } NS_IMETHODIMP nsSHistory::GetSessionHistory(nsISHistory** aSessionHistory) { // Not implemented return NS_OK; } NS_IMETHODIMP nsSHistory::LoadURIWithOptions(const char16_t* aURI, uint32_t aLoadFlags, nsIURI* aReferringURI, uint32_t aReferrerPolicy, nsIInputStream* aPostStream, nsIInputStream* aExtraHeaderStream, nsIURI* aBaseURI) { return NS_OK; } NS_IMETHODIMP nsSHistory::LoadURI(const char16_t* aURI, uint32_t aLoadFlags, nsIURI* aReferringURI, nsIInputStream* aPostStream, nsIInputStream* aExtraHeaderStream) { return NS_OK; } NS_IMETHODIMP nsSHistory::GotoIndex(int32_t aIndex) { return LoadEntry(aIndex, nsIDocShellLoadInfo::loadHistory, HIST_CMD_GOTOINDEX); } nsresult nsSHistory::LoadNextPossibleEntry(int32_t aNewIndex, long aLoadType, uint32_t aHistCmd) { mRequestedIndex = -1; if (aNewIndex < mIndex) { return LoadEntry(aNewIndex - 1, aLoadType, aHistCmd); } if (aNewIndex > mIndex) { return LoadEntry(aNewIndex + 1, aLoadType, aHistCmd); } return NS_ERROR_FAILURE; } NS_IMETHODIMP nsSHistory::LoadEntry(int32_t aIndex, long aLoadType, uint32_t aHistCmd) { nsCOMPtr docShell; // Keep note of requested history index in mRequestedIndex. mRequestedIndex = aIndex; nsCOMPtr prevEntry; GetEntryAtIndex(mIndex, false, getter_AddRefs(prevEntry)); nsCOMPtr nextEntry; GetEntryAtIndex(mRequestedIndex, false, getter_AddRefs(nextEntry)); if (!nextEntry || !prevEntry) { mRequestedIndex = -1; return NS_ERROR_FAILURE; } // Remember that this entry is getting loaded at this point in the sequence nsCOMPtr entryInternal = do_QueryInterface(nextEntry); if (entryInternal) { entryInternal->SetLastTouched(++gTouchCounter); } // Send appropriate listener notifications bool canNavigate = true; // Get the uri for the entry we are about to visit nsCOMPtr nextURI; nextEntry->GetURI(getter_AddRefs(nextURI)); if (aHistCmd == HIST_CMD_BACK) { // We are going back one entry. Send GoBack notifications NOTIFY_LISTENERS_CANCELABLE(OnHistoryGoBack, canNavigate, (nextURI, &canNavigate)); } else if (aHistCmd == HIST_CMD_FORWARD) { // We are going forward. Send GoForward notification NOTIFY_LISTENERS_CANCELABLE(OnHistoryGoForward, canNavigate, (nextURI, &canNavigate)); } else if (aHistCmd == HIST_CMD_GOTOINDEX) { // We are going somewhere else. This is not reload either NOTIFY_LISTENERS_CANCELABLE(OnHistoryGotoIndex, canNavigate, (aIndex, nextURI, &canNavigate)); } if (!canNavigate) { // If the listener asked us not to proceed with // the operation, simply return. mRequestedIndex = -1; return NS_OK; // XXX Maybe I can return some other error code? } nsCOMPtr nexturi; int32_t pCount = 0; int32_t nCount = 0; nsCOMPtr prevAsContainer(do_QueryInterface(prevEntry)); nsCOMPtr nextAsContainer(do_QueryInterface(nextEntry)); if (prevAsContainer && nextAsContainer) { prevAsContainer->GetChildCount(&pCount); nextAsContainer->GetChildCount(&nCount); } nsCOMPtr loadInfo; if (mRequestedIndex == mIndex) { // Possibly a reload case docShell = mRootDocShell; } else { // Going back or forward. if (pCount > 0 && nCount > 0) { /* THis is a subframe navigation. Go find * the docshell in which load should happen */ bool frameFound = false; nsresult rv = CompareFrames(prevEntry, nextEntry, mRootDocShell, aLoadType, &frameFound); if (!frameFound) { // We did not successfully find the subframe in which // the new url was to be loaded. Go further in the history. return LoadNextPossibleEntry(aIndex, aLoadType, aHistCmd); } return rv; } else { // Loading top level page. uint32_t prevID = 0; uint32_t nextID = 0; prevEntry->GetID(&prevID); nextEntry->GetID(&nextID); if (prevID == nextID) { // Try harder to find something new to load. // This may happen for example if some page removed iframes dynamically. return LoadNextPossibleEntry(aIndex, aLoadType, aHistCmd); } docShell = mRootDocShell; } } if (!docShell) { // we did not successfully go to the proper index. // return error. mRequestedIndex = -1; return NS_ERROR_FAILURE; } // Start the load on the appropriate docshell return InitiateLoad(nextEntry, docShell, aLoadType); } nsresult nsSHistory::CompareFrames(nsISHEntry* aPrevEntry, nsISHEntry* aNextEntry, nsIDocShell* aParent, long aLoadType, bool* aIsFrameFound) { if (!aPrevEntry || !aNextEntry || !aParent) { return NS_ERROR_FAILURE; } // We should be comparing only entries which were created for the // same docshell. This is here to just prevent anything strange happening. // This check could be possibly an assertion. uint64_t prevdID, nextdID; aPrevEntry->GetDocshellID(&prevdID); aNextEntry->GetDocshellID(&nextdID); NS_ENSURE_STATE(prevdID == nextdID); nsresult result = NS_OK; uint32_t prevID, nextID; aPrevEntry->GetID(&prevID); aNextEntry->GetID(&nextID); // Check the IDs to verify if the pages are different. if (prevID != nextID) { if (aIsFrameFound) { *aIsFrameFound = true; } // Set the Subframe flag of the entry to indicate that // it is subframe navigation aNextEntry->SetIsSubFrame(true); InitiateLoad(aNextEntry, aParent, aLoadType); return NS_OK; } // The root entries are the same, so compare any child frames int32_t pcnt = 0; int32_t ncnt = 0; int32_t dsCount = 0; nsCOMPtr prevContainer(do_QueryInterface(aPrevEntry)); nsCOMPtr nextContainer(do_QueryInterface(aNextEntry)); if (!aParent || !prevContainer || !nextContainer) { return NS_ERROR_FAILURE; } prevContainer->GetChildCount(&pcnt); nextContainer->GetChildCount(&ncnt); aParent->GetChildCount(&dsCount); // Create an array for child docshells. nsCOMArray docshells; for (int32_t i = 0; i < dsCount; ++i) { nsCOMPtr treeItem; aParent->GetChildAt(i, getter_AddRefs(treeItem)); nsCOMPtr shell = do_QueryInterface(treeItem); if (shell) { docshells.AppendObject(shell); } } // Search for something to load next. for (int32_t i = 0; i < ncnt; ++i) { // First get an entry which may cause a new page to be loaded. nsCOMPtr nChild; nextContainer->GetChildAt(i, getter_AddRefs(nChild)); if (!nChild) { continue; } uint64_t docshellID = 0; nChild->GetDocshellID(&docshellID); // Then find the associated docshell. nsIDocShell* dsChild = nullptr; int32_t count = docshells.Count(); for (int32_t j = 0; j < count; ++j) { uint64_t shellID = 0; nsIDocShell* shell = docshells[j]; shell->GetHistoryID(&shellID); if (shellID == docshellID) { dsChild = shell; break; } } if (!dsChild) { continue; } // Then look at the previous entries to see if there was // an entry for the docshell. nsCOMPtr pChild; for (int32_t k = 0; k < pcnt; ++k) { nsCOMPtr child; prevContainer->GetChildAt(k, getter_AddRefs(child)); if (child) { uint64_t dID = 0; child->GetDocshellID(&dID); if (dID == docshellID) { pChild = child; break; } } } // Finally recursively call this method. // This will either load a new page to shell or some subshell or // do nothing. CompareFrames(pChild, nChild, dsChild, aLoadType, aIsFrameFound); } return result; } nsresult nsSHistory::InitiateLoad(nsISHEntry* aFrameEntry, nsIDocShell* aFrameDS, long aLoadType) { NS_ENSURE_STATE(aFrameDS && aFrameEntry); nsCOMPtr loadInfo; /* Set the loadType in the SHEntry too to what was passed on. * This will be passed on to child subframes later in nsDocShell, * so that proper loadType is maintained through out a frameset */ aFrameEntry->SetLoadType(aLoadType); aFrameDS->CreateLoadInfo(getter_AddRefs(loadInfo)); loadInfo->SetLoadType(aLoadType); loadInfo->SetSHEntry(aFrameEntry); nsCOMPtr originalURI; aFrameEntry->GetOriginalURI(getter_AddRefs(originalURI)); loadInfo->SetOriginalURI(originalURI); bool loadReplace; aFrameEntry->GetLoadReplace(&loadReplace); loadInfo->SetLoadReplace(loadReplace); nsCOMPtr nextURI; aFrameEntry->GetURI(getter_AddRefs(nextURI)); // Time to initiate a document load return aFrameDS->LoadURI(nextURI, loadInfo, nsIWebNavigation::LOAD_FLAGS_NONE, false); } NS_IMETHODIMP nsSHistory::SetRootDocShell(nsIDocShell* aDocShell) { mRootDocShell = aDocShell; return NS_OK; } NS_IMETHODIMP nsSHistory::GetSHistoryEnumerator(nsISimpleEnumerator** aEnumerator) { NS_ENSURE_ARG_POINTER(aEnumerator); RefPtr iterator = new nsSHEnumerator(this); iterator.forget(aEnumerator); return NS_OK; } nsSHEnumerator::nsSHEnumerator(nsSHistory* aSHistory) : mIndex(-1) { mSHistory = aSHistory; } nsSHEnumerator::~nsSHEnumerator() { mSHistory = nullptr; } NS_IMPL_ISUPPORTS(nsSHEnumerator, nsISimpleEnumerator) NS_IMETHODIMP nsSHEnumerator::HasMoreElements(bool* aReturn) { int32_t cnt; *aReturn = false; mSHistory->GetCount(&cnt); if (mIndex >= -1 && mIndex < (cnt - 1)) { *aReturn = true; } return NS_OK; } NS_IMETHODIMP nsSHEnumerator::GetNext(nsISupports** aItem) { NS_ENSURE_ARG_POINTER(aItem); int32_t cnt = 0; nsresult result = NS_ERROR_FAILURE; mSHistory->GetCount(&cnt); if (mIndex < (cnt - 1)) { mIndex++; nsCOMPtr hEntry; result = mSHistory->GetEntryAtIndex(mIndex, false, getter_AddRefs(hEntry)); if (hEntry) { result = CallQueryInterface(hEntry, aItem); } } return result; }