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|
/* -*- 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 "AsmJSCache.h"
#include <stdio.h>
#include "js/RootingAPI.h"
#include "jsfriendapi.h"
#include "mozilla/Assertions.h"
#include "mozilla/CondVar.h"
#include "mozilla/CycleCollectedJSContext.h"
#include "mozilla/dom/asmjscache/PAsmJSCacheEntryChild.h"
#include "mozilla/dom/asmjscache/PAsmJSCacheEntryParent.h"
#include "mozilla/dom/ContentChild.h"
#include "mozilla/dom/PermissionMessageUtils.h"
#include "mozilla/dom/quota/Client.h"
#include "mozilla/dom/quota/QuotaManager.h"
#include "mozilla/dom/quota/QuotaObject.h"
#include "mozilla/dom/quota/UsageInfo.h"
#include "mozilla/HashFunctions.h"
#include "mozilla/ipc/BackgroundChild.h"
#include "mozilla/ipc/BackgroundParent.h"
#include "mozilla/ipc/BackgroundUtils.h"
#include "mozilla/ipc/PBackgroundChild.h"
#include "mozilla/Unused.h"
#include "nsAutoPtr.h"
#include "nsIAtom.h"
#include "nsIFile.h"
#include "nsIIPCBackgroundChildCreateCallback.h"
#include "nsIPermissionManager.h"
#include "nsIPrincipal.h"
#include "nsIRunnable.h"
#include "nsISimpleEnumerator.h"
#include "nsIThread.h"
#include "nsJSPrincipals.h"
#include "nsThreadUtils.h"
#include "nsXULAppAPI.h"
#include "prio.h"
#include "private/pprio.h"
#include "mozilla/Services.h"
#define ASMJSCACHE_METADATA_FILE_NAME "metadata"
#define ASMJSCACHE_ENTRY_FILE_NAME_BASE "module"
using mozilla::dom::quota::AssertIsOnIOThread;
using mozilla::dom::quota::DirectoryLock;
using mozilla::dom::quota::PersistenceType;
using mozilla::dom::quota::QuotaManager;
using mozilla::dom::quota::QuotaObject;
using mozilla::dom::quota::UsageInfo;
using mozilla::ipc::AssertIsOnBackgroundThread;
using mozilla::ipc::BackgroundChild;
using mozilla::ipc::IsOnBackgroundThread;
using mozilla::ipc::PBackgroundChild;
using mozilla::ipc::PrincipalInfo;
using mozilla::Unused;
using mozilla::HashString;
namespace mozilla {
MOZ_TYPE_SPECIFIC_SCOPED_POINTER_TEMPLATE(ScopedPRFileDesc, PRFileDesc, PR_Close);
namespace dom {
namespace asmjscache {
namespace {
// Anything smaller should compile fast enough that caching will just add
// overhead.
// static const size_t sMinCachedModuleLength = 10000;
// The number of characters to hash into the Metadata::Entry::mFastHash.
static const unsigned sNumFastHashChars = 4096;
nsresult
WriteMetadataFile(nsIFile* aMetadataFile, const Metadata& aMetadata)
{
int32_t openFlags = PR_WRONLY | PR_TRUNCATE | PR_CREATE_FILE;
JS::BuildIdCharVector buildId;
bool ok = GetBuildId(&buildId);
NS_ENSURE_TRUE(ok, NS_ERROR_OUT_OF_MEMORY);
ScopedPRFileDesc fd;
nsresult rv = aMetadataFile->OpenNSPRFileDesc(openFlags, 0644, &fd.rwget());
NS_ENSURE_SUCCESS(rv, rv);
uint32_t length = buildId.length();
int32_t bytesWritten = PR_Write(fd, &length, sizeof(length));
NS_ENSURE_TRUE(bytesWritten == sizeof(length), NS_ERROR_UNEXPECTED);
bytesWritten = PR_Write(fd, buildId.begin(), length);
NS_ENSURE_TRUE(bytesWritten == int32_t(length), NS_ERROR_UNEXPECTED);
bytesWritten = PR_Write(fd, &aMetadata, sizeof(aMetadata));
NS_ENSURE_TRUE(bytesWritten == sizeof(aMetadata), NS_ERROR_UNEXPECTED);
return NS_OK;
}
nsresult
ReadMetadataFile(nsIFile* aMetadataFile, Metadata& aMetadata)
{
int32_t openFlags = PR_RDONLY;
ScopedPRFileDesc fd;
nsresult rv = aMetadataFile->OpenNSPRFileDesc(openFlags, 0644, &fd.rwget());
NS_ENSURE_SUCCESS(rv, rv);
// Read the buildid and check that it matches the current buildid
JS::BuildIdCharVector currentBuildId;
bool ok = GetBuildId(¤tBuildId);
NS_ENSURE_TRUE(ok, NS_ERROR_OUT_OF_MEMORY);
uint32_t length;
int32_t bytesRead = PR_Read(fd, &length, sizeof(length));
NS_ENSURE_TRUE(bytesRead == sizeof(length), NS_ERROR_UNEXPECTED);
NS_ENSURE_TRUE(currentBuildId.length() == length, NS_ERROR_UNEXPECTED);
JS::BuildIdCharVector fileBuildId;
ok = fileBuildId.resize(length);
NS_ENSURE_TRUE(ok, NS_ERROR_OUT_OF_MEMORY);
bytesRead = PR_Read(fd, fileBuildId.begin(), length);
NS_ENSURE_TRUE(bytesRead == int32_t(length), NS_ERROR_UNEXPECTED);
for (uint32_t i = 0; i < length; i++) {
if (currentBuildId[i] != fileBuildId[i]) {
return NS_ERROR_FAILURE;
}
}
// Read the Metadata struct
bytesRead = PR_Read(fd, &aMetadata, sizeof(aMetadata));
NS_ENSURE_TRUE(bytesRead == sizeof(aMetadata), NS_ERROR_UNEXPECTED);
return NS_OK;
}
nsresult
GetCacheFile(nsIFile* aDirectory, unsigned aModuleIndex, nsIFile** aCacheFile)
{
nsCOMPtr<nsIFile> cacheFile;
nsresult rv = aDirectory->Clone(getter_AddRefs(cacheFile));
NS_ENSURE_SUCCESS(rv, rv);
nsString cacheFileName = NS_LITERAL_STRING(ASMJSCACHE_ENTRY_FILE_NAME_BASE);
cacheFileName.AppendInt(aModuleIndex);
rv = cacheFile->Append(cacheFileName);
NS_ENSURE_SUCCESS(rv, rv);
cacheFile.forget(aCacheFile);
return NS_OK;
}
class AutoDecreaseUsageForOrigin
{
const nsACString& mGroup;
const nsACString& mOrigin;
public:
uint64_t mFreed;
AutoDecreaseUsageForOrigin(const nsACString& aGroup,
const nsACString& aOrigin)
: mGroup(aGroup),
mOrigin(aOrigin),
mFreed(0)
{ }
~AutoDecreaseUsageForOrigin()
{
AssertIsOnIOThread();
if (!mFreed) {
return;
}
QuotaManager* qm = QuotaManager::Get();
MOZ_ASSERT(qm, "We are on the QuotaManager's IO thread");
qm->DecreaseUsageForOrigin(quota::PERSISTENCE_TYPE_TEMPORARY,
mGroup, mOrigin, mFreed);
}
};
static void
EvictEntries(nsIFile* aDirectory, const nsACString& aGroup,
const nsACString& aOrigin, uint64_t aNumBytes,
Metadata& aMetadata)
{
AssertIsOnIOThread();
AutoDecreaseUsageForOrigin usage(aGroup, aOrigin);
for (int i = Metadata::kLastEntry; i >= 0 && usage.mFreed < aNumBytes; i--) {
Metadata::Entry& entry = aMetadata.mEntries[i];
unsigned moduleIndex = entry.mModuleIndex;
nsCOMPtr<nsIFile> file;
nsresult rv = GetCacheFile(aDirectory, moduleIndex, getter_AddRefs(file));
if (NS_WARN_IF(NS_FAILED(rv))) {
return;
}
bool exists;
rv = file->Exists(&exists);
if (NS_WARN_IF(NS_FAILED(rv))) {
return;
}
if (exists) {
int64_t fileSize;
rv = file->GetFileSize(&fileSize);
if (NS_WARN_IF(NS_FAILED(rv))) {
return;
}
rv = file->Remove(false);
if (NS_WARN_IF(NS_FAILED(rv))) {
return;
}
usage.mFreed += fileSize;
}
entry.clear();
}
}
// FileDescriptorHolder owns a file descriptor and its memory mapping.
// FileDescriptorHolder is derived by two runnable classes (that is,
// (Parent|Child)Runnable.
class FileDescriptorHolder : public Runnable
{
public:
FileDescriptorHolder()
: mQuotaObject(nullptr),
mFileSize(INT64_MIN),
mFileDesc(nullptr),
mFileMap(nullptr),
mMappedMemory(nullptr)
{ }
~FileDescriptorHolder()
{
// These resources should have already been released by Finish().
MOZ_ASSERT(!mQuotaObject);
MOZ_ASSERT(!mMappedMemory);
MOZ_ASSERT(!mFileMap);
MOZ_ASSERT(!mFileDesc);
}
size_t
FileSize() const
{
MOZ_ASSERT(mFileSize >= 0, "Accessing FileSize of unopened file");
return mFileSize;
}
PRFileDesc*
FileDesc() const
{
MOZ_ASSERT(mFileDesc, "Accessing FileDesc of unopened file");
return mFileDesc;
}
bool
MapMemory(OpenMode aOpenMode)
{
MOZ_ASSERT(!mFileMap, "Cannot call MapMemory twice");
PRFileMapProtect mapFlags = aOpenMode == eOpenForRead ? PR_PROT_READONLY
: PR_PROT_READWRITE;
mFileMap = PR_CreateFileMap(mFileDesc, mFileSize, mapFlags);
NS_ENSURE_TRUE(mFileMap, false);
mMappedMemory = PR_MemMap(mFileMap, 0, mFileSize);
NS_ENSURE_TRUE(mMappedMemory, false);
return true;
}
void*
MappedMemory() const
{
MOZ_ASSERT(mMappedMemory, "Accessing MappedMemory of un-mapped file");
return mMappedMemory;
}
protected:
// This method must be called before the directory lock is released (the lock
// is protecting these resources). It is idempotent, so it is ok to call
// multiple times (or before the file has been fully opened).
void
Finish()
{
if (mMappedMemory) {
PR_MemUnmap(mMappedMemory, mFileSize);
mMappedMemory = nullptr;
}
if (mFileMap) {
PR_CloseFileMap(mFileMap);
mFileMap = nullptr;
}
if (mFileDesc) {
PR_Close(mFileDesc);
mFileDesc = nullptr;
}
// Holding the QuotaObject alive until all the cache files are closed enables
// assertions in QuotaManager that the cache entry isn't cleared while we
// are working on it.
mQuotaObject = nullptr;
}
RefPtr<QuotaObject> mQuotaObject;
int64_t mFileSize;
PRFileDesc* mFileDesc;
PRFileMap* mFileMap;
void* mMappedMemory;
};
// A runnable that implements a state machine required to open a cache entry.
// It executes in the parent for a cache access originating in the child.
// This runnable gets registered as an IPDL subprotocol actor so that it
// can communicate with the corresponding ChildRunnable.
class ParentRunnable final
: public FileDescriptorHolder
, public quota::OpenDirectoryListener
, public PAsmJSCacheEntryParent
{
public:
NS_DECL_ISUPPORTS_INHERITED
NS_DECL_NSIRUNNABLE
ParentRunnable(const PrincipalInfo& aPrincipalInfo,
OpenMode aOpenMode,
WriteParams aWriteParams)
: mOwningThread(NS_GetCurrentThread()),
mPrincipalInfo(aPrincipalInfo),
mOpenMode(aOpenMode),
mWriteParams(aWriteParams),
mPersistence(quota::PERSISTENCE_TYPE_INVALID),
mState(eInitial),
mResult(JS::AsmJSCache_InternalError),
mIsApp(false),
mEnforcingQuota(true),
mActorDestroyed(false),
mOpened(false)
{
MOZ_ASSERT(XRE_IsParentProcess());
AssertIsOnOwningThread();
MOZ_COUNT_CTOR(ParentRunnable);
}
private:
~ParentRunnable()
{
MOZ_ASSERT(mState == eFinished);
MOZ_ASSERT(!mDirectoryLock);
MOZ_ASSERT(mActorDestroyed);
MOZ_COUNT_DTOR(ParentRunnable);
}
bool
IsOnOwningThread() const
{
MOZ_ASSERT(mOwningThread);
bool current;
return NS_SUCCEEDED(mOwningThread->IsOnCurrentThread(¤t)) && current;
}
void
AssertIsOnOwningThread() const
{
MOZ_ASSERT(IsOnBackgroundThread());
MOZ_ASSERT(IsOnOwningThread());
}
void
AssertIsOnNonOwningThread() const
{
MOZ_ASSERT(!IsOnBackgroundThread());
MOZ_ASSERT(!IsOnOwningThread());
}
// This method is called on the owning thread when no cache entry was found
// to open. If we just tried a lookup in persistent storage then we might
// still get a hit in temporary storage (for an asm.js module that wasn't
// compiled at install-time).
void
CacheMiss()
{
AssertIsOnOwningThread();
MOZ_ASSERT(mState == eFailedToReadMetadata ||
mState == eWaitingToOpenCacheFileForRead);
MOZ_ASSERT(mOpenMode == eOpenForRead);
if (mPersistence == quota::PERSISTENCE_TYPE_TEMPORARY) {
Fail();
return;
}
// Try again with a clean slate. InitOnMainThread will see that mPersistence
// is initialized and switch to temporary storage.
MOZ_ASSERT(mPersistence == quota::PERSISTENCE_TYPE_PERSISTENT);
FinishOnOwningThread();
mState = eInitial;
NS_DispatchToMainThread(this);
}
// This method is called on the owning thread when the JS engine is finished
// reading/writing the cache entry.
void
Close()
{
AssertIsOnOwningThread();
MOZ_ASSERT(mState == eOpened);
mState = eFinished;
MOZ_ASSERT(mOpened);
FinishOnOwningThread();
}
// This method is called upon any failure that prevents the eventual opening
// of the cache entry.
void
Fail()
{
AssertIsOnOwningThread();
MOZ_ASSERT(mState != eFinished);
mState = eFinished;
MOZ_ASSERT(!mOpened);
FinishOnOwningThread();
if (!mActorDestroyed) {
Unused << Send__delete__(this, mResult);
}
}
// The same as method above but is intended to be called off the owning
// thread.
void
FailOnNonOwningThread()
{
AssertIsOnNonOwningThread();
MOZ_ASSERT(mState != eOpened &&
mState != eFailing &&
mState != eFinished);
mState = eFailing;
MOZ_ALWAYS_SUCCEEDS(mOwningThread->Dispatch(this, NS_DISPATCH_NORMAL));
}
void
InitPersistenceType();
nsresult
InitOnMainThread();
void
OpenDirectory();
nsresult
ReadMetadata();
nsresult
OpenCacheFileForWrite();
nsresult
OpenCacheFileForRead();
void
FinishOnOwningThread();
void
DispatchToIOThread()
{
AssertIsOnOwningThread();
// If shutdown just started, the QuotaManager may have been deleted.
QuotaManager* qm = QuotaManager::Get();
if (!qm) {
FailOnNonOwningThread();
return;
}
nsresult rv = qm->IOThread()->Dispatch(this, NS_DISPATCH_NORMAL);
if (NS_FAILED(rv)) {
FailOnNonOwningThread();
return;
}
}
// OpenDirectoryListener overrides.
virtual void
DirectoryLockAcquired(DirectoryLock* aLock) override;
virtual void
DirectoryLockFailed() override;
// IPDL methods.
bool
Recv__delete__(const JS::AsmJSCacheResult& aResult) override
{
AssertIsOnOwningThread();
MOZ_ASSERT(mState != eFinished);
if (mOpened) {
Close();
} else {
Fail();
}
MOZ_ASSERT(mState == eFinished);
return true;
}
void
ActorDestroy(ActorDestroyReason why) override
{
AssertIsOnOwningThread();
MOZ_ASSERT(!mActorDestroyed);
mActorDestroyed = true;
// Assume ActorDestroy can happen at any time, so probe the current state to
// determine what needs to happen.
if (mState == eFinished) {
return;
}
if (mOpened) {
Close();
} else {
Fail();
}
MOZ_ASSERT(mState == eFinished);
}
bool
RecvSelectCacheFileToRead(const uint32_t& aModuleIndex) override
{
AssertIsOnOwningThread();
MOZ_ASSERT(mState == eWaitingToOpenCacheFileForRead);
MOZ_ASSERT(mOpenMode == eOpenForRead);
// A cache entry has been selected to open.
mModuleIndex = aModuleIndex;
mState = eReadyToOpenCacheFileForRead;
DispatchToIOThread();
return true;
}
bool
RecvCacheMiss() override
{
AssertIsOnOwningThread();
CacheMiss();
return true;
}
nsCOMPtr<nsIEventTarget> mOwningThread;
const PrincipalInfo mPrincipalInfo;
const OpenMode mOpenMode;
const WriteParams mWriteParams;
// State initialized during eInitial:
quota::PersistenceType mPersistence;
nsCString mSuffix;
nsCString mGroup;
nsCString mOrigin;
RefPtr<DirectoryLock> mDirectoryLock;
// State initialized during eReadyToReadMetadata
nsCOMPtr<nsIFile> mDirectory;
nsCOMPtr<nsIFile> mMetadataFile;
Metadata mMetadata;
// State initialized during eWaitingToOpenCacheFileForRead
unsigned mModuleIndex;
enum State {
eInitial, // Just created, waiting to be dispatched to main thread
eWaitingToFinishInit, // Waiting to finish initialization
eWaitingToOpenDirectory, // Waiting to open directory
eWaitingToOpenMetadata, // Waiting to be called back from OpenDirectory
eReadyToReadMetadata, // Waiting to read the metadata file on the IO thread
eFailedToReadMetadata, // Waiting to be dispatched to owning thread after fail
eSendingMetadataForRead, // Waiting to send OnOpenMetadataForRead
eWaitingToOpenCacheFileForRead, // Waiting to hear back from child
eReadyToOpenCacheFileForRead, // Waiting to open cache file for read
eSendingCacheFile, // Waiting to send OnOpenCacheFile on the owning thread
eOpened, // Finished calling OnOpenCacheFile, waiting to be closed
eFailing, // Just failed, waiting to be dispatched to the owning thread
eFinished, // Terminal state
};
State mState;
JS::AsmJSCacheResult mResult;
bool mIsApp;
bool mEnforcingQuota;
bool mActorDestroyed;
bool mOpened;
};
void
ParentRunnable::InitPersistenceType()
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(mState == eInitial);
if (mOpenMode == eOpenForWrite) {
MOZ_ASSERT(mPersistence == quota::PERSISTENCE_TYPE_INVALID);
// If we are performing install-time caching of an app, we'd like to store
// the cache entry in persistent storage so the entry is never evicted,
// but we need to check that quota is not enforced for the app.
// That justifies us in skipping all quota checks when storing the cache
// entry and avoids all the issues around the persistent quota prompt.
// If quota is enforced for the app, then we can still cache in temporary
// for a likely good first-run experience.
MOZ_ASSERT_IF(mWriteParams.mInstalled, mIsApp);
if (mWriteParams.mInstalled &&
!QuotaManager::IsQuotaEnforced(quota::PERSISTENCE_TYPE_PERSISTENT,
mOrigin, mIsApp)) {
mPersistence = quota::PERSISTENCE_TYPE_PERSISTENT;
} else {
mPersistence = quota::PERSISTENCE_TYPE_TEMPORARY;
}
return;
}
// For the reasons described above, apps may have cache entries in both
// persistent and temporary storage. At lookup time we don't know how and
// where the given script was cached, so start the search in persistent
// storage and, if that fails, search in temporary storage. (Non-apps can
// only be stored in temporary storage.)
MOZ_ASSERT_IF(mPersistence != quota::PERSISTENCE_TYPE_INVALID,
mIsApp && mPersistence == quota::PERSISTENCE_TYPE_PERSISTENT);
if (mPersistence == quota::PERSISTENCE_TYPE_INVALID && mIsApp) {
mPersistence = quota::PERSISTENCE_TYPE_PERSISTENT;
} else {
mPersistence = quota::PERSISTENCE_TYPE_TEMPORARY;
}
}
nsresult
ParentRunnable::InitOnMainThread()
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(mState == eInitial);
MOZ_ASSERT(mPrincipalInfo.type() != PrincipalInfo::TNullPrincipalInfo);
nsresult rv;
nsCOMPtr<nsIPrincipal> principal =
PrincipalInfoToPrincipal(mPrincipalInfo, &rv);
if (NS_WARN_IF(NS_FAILED(rv))) {
return rv;
}
rv = QuotaManager::GetInfoFromPrincipal(principal, &mSuffix, &mGroup,
&mOrigin, &mIsApp);
NS_ENSURE_SUCCESS(rv, rv);
InitPersistenceType();
mEnforcingQuota =
QuotaManager::IsQuotaEnforced(mPersistence, mOrigin, mIsApp);
return NS_OK;
}
void
ParentRunnable::OpenDirectory()
{
AssertIsOnOwningThread();
MOZ_ASSERT(mState == eWaitingToFinishInit ||
mState == eWaitingToOpenDirectory);
MOZ_ASSERT(QuotaManager::Get());
mState = eWaitingToOpenMetadata;
// XXX The exclusive lock shouldn't be needed for read operations.
QuotaManager::Get()->OpenDirectory(mPersistence,
mGroup,
mOrigin,
mIsApp,
quota::Client::ASMJS,
/* aExclusive */ true,
this);
}
nsresult
ParentRunnable::ReadMetadata()
{
AssertIsOnIOThread();
MOZ_ASSERT(mState == eReadyToReadMetadata);
QuotaManager* qm = QuotaManager::Get();
MOZ_ASSERT(qm, "We are on the QuotaManager's IO thread");
nsresult rv =
qm->EnsureOriginIsInitialized(mPersistence, mSuffix, mGroup, mOrigin,
mIsApp, getter_AddRefs(mDirectory));
if (NS_WARN_IF(NS_FAILED(rv))) {
mResult = JS::AsmJSCache_StorageInitFailure;
return rv;
}
rv = mDirectory->Append(NS_LITERAL_STRING(ASMJSCACHE_DIRECTORY_NAME));
NS_ENSURE_SUCCESS(rv, rv);
bool exists;
rv = mDirectory->Exists(&exists);
NS_ENSURE_SUCCESS(rv, rv);
if (!exists) {
rv = mDirectory->Create(nsIFile::DIRECTORY_TYPE, 0755);
NS_ENSURE_SUCCESS(rv, rv);
} else {
DebugOnly<bool> isDirectory;
MOZ_ASSERT(NS_SUCCEEDED(mDirectory->IsDirectory(&isDirectory)));
MOZ_ASSERT(isDirectory, "Should have caught this earlier!");
}
rv = mDirectory->Clone(getter_AddRefs(mMetadataFile));
NS_ENSURE_SUCCESS(rv, rv);
rv = mMetadataFile->Append(NS_LITERAL_STRING(ASMJSCACHE_METADATA_FILE_NAME));
NS_ENSURE_SUCCESS(rv, rv);
rv = mMetadataFile->Exists(&exists);
NS_ENSURE_SUCCESS(rv, rv);
if (exists && NS_FAILED(ReadMetadataFile(mMetadataFile, mMetadata))) {
exists = false;
}
if (!exists) {
// If we are reading, we can't possibly have a cache hit.
if (mOpenMode == eOpenForRead) {
return NS_ERROR_FILE_NOT_FOUND;
}
// Initialize Metadata with a valid empty state for the LRU cache.
for (unsigned i = 0; i < Metadata::kNumEntries; i++) {
Metadata::Entry& entry = mMetadata.mEntries[i];
entry.mModuleIndex = i;
entry.clear();
}
}
return NS_OK;
}
nsresult
ParentRunnable::OpenCacheFileForWrite()
{
AssertIsOnIOThread();
MOZ_ASSERT(mState == eReadyToReadMetadata);
MOZ_ASSERT(mOpenMode == eOpenForWrite);
mFileSize = mWriteParams.mSize;
// Kick out the oldest entry in the LRU queue in the metadata.
mModuleIndex = mMetadata.mEntries[Metadata::kLastEntry].mModuleIndex;
nsCOMPtr<nsIFile> file;
nsresult rv = GetCacheFile(mDirectory, mModuleIndex, getter_AddRefs(file));
NS_ENSURE_SUCCESS(rv, rv);
QuotaManager* qm = QuotaManager::Get();
MOZ_ASSERT(qm, "We are on the QuotaManager's IO thread");
if (mEnforcingQuota) {
// Create the QuotaObject before all file IO and keep it alive until caching
// completes to get maximum assertion coverage in QuotaManager against
// concurrent removal, etc.
mQuotaObject = qm->GetQuotaObject(mPersistence, mGroup, mOrigin, file);
NS_ENSURE_STATE(mQuotaObject);
if (!mQuotaObject->MaybeUpdateSize(mWriteParams.mSize,
/* aTruncate */ false)) {
// If the request fails, it might be because mOrigin is using too much
// space (MaybeUpdateSize will not evict our own origin since it is
// active). Try to make some space by evicting LRU entries until there is
// enough space.
EvictEntries(mDirectory, mGroup, mOrigin, mWriteParams.mSize, mMetadata);
if (!mQuotaObject->MaybeUpdateSize(mWriteParams.mSize,
/* aTruncate */ false)) {
mResult = JS::AsmJSCache_QuotaExceeded;
return NS_ERROR_FAILURE;
}
}
}
int32_t openFlags = PR_RDWR | PR_TRUNCATE | PR_CREATE_FILE;
rv = file->OpenNSPRFileDesc(openFlags, 0644, &mFileDesc);
NS_ENSURE_SUCCESS(rv, rv);
// Move the mModuleIndex's LRU entry to the recent end of the queue.
PodMove(mMetadata.mEntries + 1, mMetadata.mEntries, Metadata::kLastEntry);
Metadata::Entry& entry = mMetadata.mEntries[0];
entry.mFastHash = mWriteParams.mFastHash;
entry.mNumChars = mWriteParams.mNumChars;
entry.mFullHash = mWriteParams.mFullHash;
entry.mModuleIndex = mModuleIndex;
rv = WriteMetadataFile(mMetadataFile, mMetadata);
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
nsresult
ParentRunnable::OpenCacheFileForRead()
{
AssertIsOnIOThread();
MOZ_ASSERT(mState == eReadyToOpenCacheFileForRead);
MOZ_ASSERT(mOpenMode == eOpenForRead);
nsCOMPtr<nsIFile> file;
nsresult rv = GetCacheFile(mDirectory, mModuleIndex, getter_AddRefs(file));
NS_ENSURE_SUCCESS(rv, rv);
QuotaManager* qm = QuotaManager::Get();
MOZ_ASSERT(qm, "We are on the QuotaManager's IO thread");
if (mEnforcingQuota) {
// Even though it's not strictly necessary, create the QuotaObject before
// all file IO and keep it alive until caching completes to get maximum
// assertion coverage in QuotaManager against concurrent removal, etc.
mQuotaObject = qm->GetQuotaObject(mPersistence, mGroup, mOrigin, file);
NS_ENSURE_STATE(mQuotaObject);
}
rv = file->GetFileSize(&mFileSize);
NS_ENSURE_SUCCESS(rv, rv);
int32_t openFlags = PR_RDONLY | nsIFile::OS_READAHEAD;
rv = file->OpenNSPRFileDesc(openFlags, 0644, &mFileDesc);
NS_ENSURE_SUCCESS(rv, rv);
// Move the mModuleIndex's LRU entry to the recent end of the queue.
unsigned lruIndex = 0;
while (mMetadata.mEntries[lruIndex].mModuleIndex != mModuleIndex) {
if (++lruIndex == Metadata::kNumEntries) {
return NS_ERROR_UNEXPECTED;
}
}
Metadata::Entry entry = mMetadata.mEntries[lruIndex];
PodMove(mMetadata.mEntries + 1, mMetadata.mEntries, lruIndex);
mMetadata.mEntries[0] = entry;
rv = WriteMetadataFile(mMetadataFile, mMetadata);
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
void
ParentRunnable::FinishOnOwningThread()
{
AssertIsOnOwningThread();
// Per FileDescriptorHolder::Finish()'s comment, call before
// releasing the directory lock.
FileDescriptorHolder::Finish();
mDirectoryLock = nullptr;
}
NS_IMETHODIMP
ParentRunnable::Run()
{
nsresult rv;
// All success/failure paths must eventually call Finish() to avoid leaving
// the parser hanging.
switch (mState) {
case eInitial: {
MOZ_ASSERT(NS_IsMainThread());
rv = InitOnMainThread();
if (NS_FAILED(rv)) {
FailOnNonOwningThread();
return NS_OK;
}
mState = eWaitingToFinishInit;
MOZ_ALWAYS_SUCCEEDS(mOwningThread->Dispatch(this, NS_DISPATCH_NORMAL));
return NS_OK;
}
case eWaitingToFinishInit: {
AssertIsOnOwningThread();
if (QuotaManager::IsShuttingDown()) {
Fail();
return NS_OK;
}
if (QuotaManager::Get()) {
OpenDirectory();
return NS_OK;
}
mState = eWaitingToOpenDirectory;
QuotaManager::GetOrCreate(this);
return NS_OK;
}
case eWaitingToOpenDirectory: {
AssertIsOnOwningThread();
if (NS_WARN_IF(!QuotaManager::Get())) {
Fail();
return NS_OK;
}
OpenDirectory();
return NS_OK;
}
case eReadyToReadMetadata: {
AssertIsOnIOThread();
rv = ReadMetadata();
if (NS_FAILED(rv)) {
mState = eFailedToReadMetadata;
MOZ_ALWAYS_SUCCEEDS(mOwningThread->Dispatch(this, NS_DISPATCH_NORMAL));
return NS_OK;
}
if (mOpenMode == eOpenForRead) {
mState = eSendingMetadataForRead;
MOZ_ALWAYS_SUCCEEDS(mOwningThread->Dispatch(this, NS_DISPATCH_NORMAL));
return NS_OK;
}
rv = OpenCacheFileForWrite();
if (NS_FAILED(rv)) {
FailOnNonOwningThread();
return NS_OK;
}
mState = eSendingCacheFile;
MOZ_ALWAYS_SUCCEEDS(mOwningThread->Dispatch(this, NS_DISPATCH_NORMAL));
return NS_OK;
}
case eFailedToReadMetadata: {
AssertIsOnOwningThread();
if (mOpenMode == eOpenForRead) {
CacheMiss();
return NS_OK;
}
Fail();
return NS_OK;
}
case eSendingMetadataForRead: {
AssertIsOnOwningThread();
MOZ_ASSERT(mOpenMode == eOpenForRead);
mState = eWaitingToOpenCacheFileForRead;
// Metadata is now open.
if (!SendOnOpenMetadataForRead(mMetadata)) {
Fail();
return NS_OK;
}
return NS_OK;
}
case eReadyToOpenCacheFileForRead: {
AssertIsOnIOThread();
MOZ_ASSERT(mOpenMode == eOpenForRead);
rv = OpenCacheFileForRead();
if (NS_FAILED(rv)) {
FailOnNonOwningThread();
return NS_OK;
}
mState = eSendingCacheFile;
MOZ_ALWAYS_SUCCEEDS(mOwningThread->Dispatch(this, NS_DISPATCH_NORMAL));
return NS_OK;
}
case eSendingCacheFile: {
AssertIsOnOwningThread();
mState = eOpened;
// The entry is now open.
MOZ_ASSERT(!mOpened);
mOpened = true;
FileDescriptor::PlatformHandleType handle =
FileDescriptor::PlatformHandleType(PR_FileDesc2NativeHandle(mFileDesc));
if (!SendOnOpenCacheFile(mFileSize, FileDescriptor(handle))) {
Fail();
return NS_OK;
}
return NS_OK;
}
case eFailing: {
AssertIsOnOwningThread();
Fail();
return NS_OK;
}
case eWaitingToOpenMetadata:
case eWaitingToOpenCacheFileForRead:
case eOpened:
case eFinished: {
MOZ_MAKE_COMPILER_ASSUME_IS_UNREACHABLE("Shouldn't Run() in this state");
}
}
MOZ_MAKE_COMPILER_ASSUME_IS_UNREACHABLE("Corrupt state");
return NS_OK;
}
void
ParentRunnable::DirectoryLockAcquired(DirectoryLock* aLock)
{
AssertIsOnOwningThread();
MOZ_ASSERT(mState == eWaitingToOpenMetadata);
MOZ_ASSERT(!mDirectoryLock);
mDirectoryLock = aLock;
mState = eReadyToReadMetadata;
DispatchToIOThread();
}
void
ParentRunnable::DirectoryLockFailed()
{
AssertIsOnOwningThread();
MOZ_ASSERT(mState == eWaitingToOpenMetadata);
MOZ_ASSERT(!mDirectoryLock);
Fail();
}
NS_IMPL_ISUPPORTS_INHERITED0(ParentRunnable, FileDescriptorHolder)
bool
FindHashMatch(const Metadata& aMetadata, const ReadParams& aReadParams,
unsigned* aModuleIndex)
{
// Perform a fast hash of the first sNumFastHashChars chars. Each cache entry
// also stores an mFastHash of its first sNumFastHashChars so this gives us a
// fast way to probabilistically determine whether we have a cache hit. We
// still do a full hash of all the chars before returning the cache file to
// the engine to avoid penalizing the case where there are multiple cached
// asm.js modules where the first sNumFastHashChars are the same. The
// mFullHash of each cache entry can have a different mNumChars so the fast
// hash allows us to avoid performing up to Metadata::kNumEntries separate
// full hashes.
uint32_t numChars = aReadParams.mLimit - aReadParams.mBegin;
MOZ_ASSERT(numChars > sNumFastHashChars);
uint32_t fastHash = HashString(aReadParams.mBegin, sNumFastHashChars);
for (unsigned i = 0; i < Metadata::kNumEntries ; i++) {
// Compare the "fast hash" first to see whether it is worthwhile to
// hash all the chars.
Metadata::Entry entry = aMetadata.mEntries[i];
if (entry.mFastHash != fastHash) {
continue;
}
// Assuming we have enough characters, hash all the chars it would take
// to match this cache entry and compare to the cache entry. If we get a
// hit we'll still do a full source match later (in the JS engine), but
// the full hash match means this is probably the cache entry we want.
if (numChars < entry.mNumChars) {
continue;
}
uint32_t fullHash = HashString(aReadParams.mBegin, entry.mNumChars);
if (entry.mFullHash != fullHash) {
continue;
}
*aModuleIndex = entry.mModuleIndex;
return true;
}
return false;
}
} // unnamed namespace
PAsmJSCacheEntryParent*
AllocEntryParent(OpenMode aOpenMode,
WriteParams aWriteParams,
const PrincipalInfo& aPrincipalInfo)
{
AssertIsOnBackgroundThread();
if (NS_WARN_IF(aPrincipalInfo.type() == PrincipalInfo::TNullPrincipalInfo)) {
MOZ_ASSERT(false);
return nullptr;
}
RefPtr<ParentRunnable> runnable =
new ParentRunnable(aPrincipalInfo, aOpenMode, aWriteParams);
nsresult rv = NS_DispatchToMainThread(runnable);
NS_ENSURE_SUCCESS(rv, nullptr);
// Transfer ownership to IPDL.
return runnable.forget().take();
}
void
DeallocEntryParent(PAsmJSCacheEntryParent* aActor)
{
// Transfer ownership back from IPDL.
RefPtr<ParentRunnable> op =
dont_AddRef(static_cast<ParentRunnable*>(aActor));
}
namespace {
// A runnable that presents a single interface to the AsmJSCache ops which need
// to wait until the file is open.
class ChildRunnable final
: public FileDescriptorHolder
, public PAsmJSCacheEntryChild
, public nsIIPCBackgroundChildCreateCallback
{
typedef mozilla::ipc::PBackgroundChild PBackgroundChild;
public:
class AutoClose
{
ChildRunnable* mChildRunnable;
public:
explicit AutoClose(ChildRunnable* aChildRunnable = nullptr)
: mChildRunnable(aChildRunnable)
{ }
void
Init(ChildRunnable* aChildRunnable)
{
MOZ_ASSERT(!mChildRunnable);
mChildRunnable = aChildRunnable;
}
ChildRunnable*
operator->() const MOZ_NO_ADDREF_RELEASE_ON_RETURN
{
MOZ_ASSERT(mChildRunnable);
return mChildRunnable;
}
void
Forget(ChildRunnable** aChildRunnable)
{
*aChildRunnable = mChildRunnable;
mChildRunnable = nullptr;
}
~AutoClose()
{
if (mChildRunnable) {
mChildRunnable->Close();
}
}
};
NS_DECL_ISUPPORTS_INHERITED
NS_DECL_NSIRUNNABLE
NS_DECL_NSIIPCBACKGROUNDCHILDCREATECALLBACK
ChildRunnable(nsIPrincipal* aPrincipal,
OpenMode aOpenMode,
WriteParams aWriteParams,
ReadParams aReadParams)
: mPrincipal(aPrincipal),
mWriteParams(aWriteParams),
mReadParams(aReadParams),
mMutex("ChildRunnable::mMutex"),
mCondVar(mMutex, "ChildRunnable::mCondVar"),
mOpenMode(aOpenMode),
mState(eInitial),
mResult(JS::AsmJSCache_InternalError),
mActorDestroyed(false),
mWaiting(false),
mOpened(false)
{
MOZ_ASSERT(!NS_IsMainThread());
MOZ_COUNT_CTOR(ChildRunnable);
}
JS::AsmJSCacheResult
BlockUntilOpen(AutoClose* aCloser)
{
MOZ_ASSERT(!mWaiting, "Can only call BlockUntilOpen once");
MOZ_ASSERT(!mOpened, "Can only call BlockUntilOpen once");
mWaiting = true;
nsresult rv = NS_DispatchToMainThread(this);
if (NS_WARN_IF(NS_FAILED(rv))) {
return JS::AsmJSCache_InternalError;
}
{
MutexAutoLock lock(mMutex);
while (mWaiting) {
mCondVar.Wait();
}
}
if (!mOpened) {
return mResult;
}
// Now that we're open, we're guaranteed a Close() call. However, we are
// not guaranteed someone is holding an outstanding reference until the File
// is closed, so we do that ourselves and Release() in OnClose().
aCloser->Init(this);
AddRef();
return JS::AsmJSCache_Success;
}
void Cleanup()
{
#ifdef DEBUG
NoteActorDestroyed();
#endif
}
private:
~ChildRunnable()
{
MOZ_ASSERT(!mWaiting, "Shouldn't be destroyed while thread is waiting");
MOZ_ASSERT(!mOpened);
MOZ_ASSERT(mState == eFinished);
MOZ_ASSERT(mActorDestroyed);
MOZ_COUNT_DTOR(ChildRunnable);
}
// IPDL methods.
bool
RecvOnOpenMetadataForRead(const Metadata& aMetadata) override
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(mState == eOpening);
uint32_t moduleIndex;
if (FindHashMatch(aMetadata, mReadParams, &moduleIndex)) {
return SendSelectCacheFileToRead(moduleIndex);
}
return SendCacheMiss();
}
bool
RecvOnOpenCacheFile(const int64_t& aFileSize,
const FileDescriptor& aFileDesc) override
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(mState == eOpening);
mFileSize = aFileSize;
auto rawFD = aFileDesc.ClonePlatformHandle();
mFileDesc = PR_ImportFile(PROsfd(rawFD.release()));
if (!mFileDesc) {
return false;
}
mState = eOpened;
Notify(JS::AsmJSCache_Success);
return true;
}
bool
Recv__delete__(const JS::AsmJSCacheResult& aResult) override
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(mState == eOpening);
Fail(aResult);
return true;
}
void
ActorDestroy(ActorDestroyReason why) override
{
MOZ_ASSERT(NS_IsMainThread());
NoteActorDestroyed();
}
void
Close()
{
MOZ_ASSERT(mState == eOpened);
mState = eClosing;
NS_DispatchToMainThread(this);
}
void
Fail(JS::AsmJSCacheResult aResult)
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(mState == eInitial || mState == eOpening);
MOZ_ASSERT(aResult != JS::AsmJSCache_Success);
mState = eFinished;
FileDescriptorHolder::Finish();
Notify(aResult);
}
void
Notify(JS::AsmJSCacheResult aResult)
{
MOZ_ASSERT(NS_IsMainThread());
MutexAutoLock lock(mMutex);
MOZ_ASSERT(mWaiting);
mWaiting = false;
mOpened = aResult == JS::AsmJSCache_Success;
mResult = aResult;
mCondVar.Notify();
}
void NoteActorDestroyed()
{
mActorDestroyed = true;
}
nsIPrincipal* const mPrincipal;
nsAutoPtr<PrincipalInfo> mPrincipalInfo;
WriteParams mWriteParams;
ReadParams mReadParams;
Mutex mMutex;
CondVar mCondVar;
// Couple enums and bools together
const OpenMode mOpenMode;
enum State {
eInitial, // Just created, waiting to be dispatched to the main thread
eBackgroundChildPending, // Waiting for the background child to be created
eOpening, // Waiting for the parent process to respond
eOpened, // Parent process opened the entry and sent it back
eClosing, // Waiting to be dispatched to the main thread to Send__delete__
eFinished // Terminal state
};
State mState;
JS::AsmJSCacheResult mResult;
bool mActorDestroyed;
bool mWaiting;
bool mOpened;
};
NS_IMETHODIMP
ChildRunnable::Run()
{
switch (mState) {
case eInitial: {
MOZ_ASSERT(NS_IsMainThread());
if (mPrincipal->GetIsNullPrincipal()) {
NS_WARNING("AsmsJSCache not supported on null principal.");
Fail(JS::AsmJSCache_InternalError);
return NS_OK;
}
nsAutoPtr<PrincipalInfo> principalInfo(new PrincipalInfo());
nsresult rv = PrincipalToPrincipalInfo(mPrincipal, principalInfo);
if (NS_WARN_IF(NS_FAILED(rv))) {
Fail(JS::AsmJSCache_InternalError);
return NS_OK;
}
mPrincipalInfo = Move(principalInfo);
PBackgroundChild* actor = BackgroundChild::GetForCurrentThread();
if (actor) {
ActorCreated(actor);
return NS_OK;
}
if (NS_WARN_IF(!BackgroundChild::GetOrCreateForCurrentThread(this))) {
Fail(JS::AsmJSCache_InternalError);
return NS_OK;
}
mState = eBackgroundChildPending;
return NS_OK;
}
case eClosing: {
MOZ_ASSERT(NS_IsMainThread());
// Per FileDescriptorHolder::Finish()'s comment, call before
// releasing the directory lock (which happens in the parent upon receipt
// of the Send__delete__ message).
FileDescriptorHolder::Finish();
MOZ_ASSERT(mOpened);
mOpened = false;
// Match the AddRef in BlockUntilOpen(). The main thread event loop still
// holds an outstanding ref which will keep 'this' alive until returning to
// the event loop.
Release();
if (!mActorDestroyed) {
Unused << Send__delete__(this, JS::AsmJSCache_Success);
}
mState = eFinished;
return NS_OK;
}
case eBackgroundChildPending:
case eOpening:
case eOpened:
case eFinished: {
MOZ_MAKE_COMPILER_ASSUME_IS_UNREACHABLE("Shouldn't Run() in this state");
}
}
MOZ_MAKE_COMPILER_ASSUME_IS_UNREACHABLE("Corrupt state");
return NS_OK;
}
void
ChildRunnable::ActorCreated(PBackgroundChild* aActor)
{
MOZ_ASSERT(NS_IsMainThread());
if (!aActor->SendPAsmJSCacheEntryConstructor(this, mOpenMode, mWriteParams,
*mPrincipalInfo)) {
// Unblock the parsing thread with a failure.
Fail(JS::AsmJSCache_InternalError);
return;
}
// AddRef to keep this runnable alive until IPDL deallocates the
// subprotocol (DeallocEntryChild).
AddRef();
mState = eOpening;
}
void
ChildRunnable::ActorFailed()
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(mState == eBackgroundChildPending);
Fail(JS::AsmJSCache_InternalError);
}
NS_IMPL_ISUPPORTS_INHERITED(ChildRunnable,
FileDescriptorHolder,
nsIIPCBackgroundChildCreateCallback)
} // unnamed namespace
void
DeallocEntryChild(PAsmJSCacheEntryChild* aActor)
{
// Match the AddRef before SendPAsmJSCacheEntryConstructor.
static_cast<ChildRunnable*>(aActor)->Release();
}
/*
namespace {
JS::AsmJSCacheResult
OpenFile(nsIPrincipal* aPrincipal,
OpenMode aOpenMode,
WriteParams aWriteParams,
ReadParams aReadParams,
ChildRunnable::AutoClose* aChildRunnable)
{
MOZ_ASSERT_IF(aOpenMode == eOpenForRead, aWriteParams.mSize == 0);
MOZ_ASSERT_IF(aOpenMode == eOpenForWrite, aReadParams.mBegin == nullptr);
// There are three reasons we don't attempt caching from the main thread:
// 1. In the parent process: QuotaManager::WaitForOpenAllowed prevents
// synchronous waiting on the main thread requiring a runnable to be
// dispatched to the main thread.
// 2. In the child process: the IPDL PContent messages we need to
// synchronously wait on are dispatched to the main thread.
// 3. While a cache lookup *should* be much faster than compilation, IO
// operations can be unpredictably slow and we'd like to avoid the
// occasional janks on the main thread.
// We could use a nested event loop to address 1 and 2, but we're potentially
// in the middle of running JS (eval()) and nested event loops can be
// semantically observable.
if (NS_IsMainThread()) {
return JS::AsmJSCache_SynchronousScript;
}
// Check to see whether the principal reflects a private browsing session.
// Since AsmJSCache requires disk access at the moment, caching should be
// disabled in private browsing situations. Failing here will cause later
// read/write requests to also fail.
uint32_t pbId;
if (NS_WARN_IF(NS_FAILED(aPrincipal->GetPrivateBrowsingId(&pbId)))) {
return JS::AsmJSCache_InternalError;
}
if (pbId > 0) {
return JS::AsmJSCache_Disabled_PrivateBrowsing;
}
// We need to synchronously call into the parent to open the file and
// interact with the QuotaManager. The child can then map the file into its
// address space to perform I/O.
RefPtr<ChildRunnable> childRunnable =
new ChildRunnable(aPrincipal, aOpenMode, aWriteParams, aReadParams);
JS::AsmJSCacheResult openResult =
childRunnable->BlockUntilOpen(aChildRunnable);
if (openResult != JS::AsmJSCache_Success) {
childRunnable->Cleanup();
return openResult;
}
if (!childRunnable->MapMemory(aOpenMode)) {
return JS::AsmJSCache_InternalError;
}
return JS::AsmJSCache_Success;
}
} // namespace
*/
typedef uint32_t AsmJSCookieType;
static const uint32_t sAsmJSCookie = 0x600d600d;
bool
OpenEntryForRead(nsIPrincipal* aPrincipal,
const char16_t* aBegin,
const char16_t* aLimit,
size_t* aSize,
const uint8_t** aMemory,
intptr_t* aHandle)
{
return false;
/*
if (size_t(aLimit - aBegin) < sMinCachedModuleLength) {
return false;
}
ReadParams readParams;
readParams.mBegin = aBegin;
readParams.mLimit = aLimit;
ChildRunnable::AutoClose childRunnable;
WriteParams notAWrite;
JS::AsmJSCacheResult openResult =
OpenFile(aPrincipal, eOpenForRead, notAWrite, readParams, &childRunnable);
if (openResult != JS::AsmJSCache_Success) {
return false;
}
// Although we trust that the stored cache files have not been arbitrarily
// corrupted, it is possible that a previous execution aborted in the middle
// of writing a cache file (crash, OOM-killer, etc). To protect against
// partially-written cache files, we use the following scheme:
// - Allocate an extra word at the beginning of every cache file which
// starts out 0 (OpenFile opens with PR_TRUNCATE).
// - After the asm.js serialization is complete, PR_SyncMemMap to write
// everything to disk and then store a non-zero value (sAsmJSCookie)
// in the first word.
// - When attempting to read a cache file, check whether the first word is
// sAsmJSCookie.
if (childRunnable->FileSize() < sizeof(AsmJSCookieType) ||
*(AsmJSCookieType*)childRunnable->MappedMemory() != sAsmJSCookie) {
return false;
}
*aSize = childRunnable->FileSize() - sizeof(AsmJSCookieType);
*aMemory = (uint8_t*) childRunnable->MappedMemory() + sizeof(AsmJSCookieType);
// The caller guarnatees a call to CloseEntryForRead (on success or
// failure) at which point the file will be closed.
childRunnable.Forget(reinterpret_cast<ChildRunnable**>(aHandle));
return true;
*/
}
void
CloseEntryForRead(size_t aSize,
const uint8_t* aMemory,
intptr_t aHandle)
{
ChildRunnable::AutoClose childRunnable(
reinterpret_cast<ChildRunnable*>(aHandle));
MOZ_ASSERT(aSize + sizeof(AsmJSCookieType) == childRunnable->FileSize());
MOZ_ASSERT(aMemory - sizeof(AsmJSCookieType) ==
childRunnable->MappedMemory());
}
JS::AsmJSCacheResult
OpenEntryForWrite(nsIPrincipal* aPrincipal,
bool aInstalled,
const char16_t* aBegin,
const char16_t* aEnd,
size_t aSize,
uint8_t** aMemory,
intptr_t* aHandle)
{
return JS::AsmJSCache_ESR52;
/*
if (size_t(aEnd - aBegin) < sMinCachedModuleLength) {
return JS::AsmJSCache_ModuleTooSmall;
}
// Add extra space for the AsmJSCookieType (see OpenEntryForRead).
aSize += sizeof(AsmJSCookieType);
static_assert(sNumFastHashChars < sMinCachedModuleLength, "HashString safe");
WriteParams writeParams;
writeParams.mInstalled = aInstalled;
writeParams.mSize = aSize;
writeParams.mFastHash = HashString(aBegin, sNumFastHashChars);
writeParams.mNumChars = aEnd - aBegin;
writeParams.mFullHash = HashString(aBegin, writeParams.mNumChars);
ChildRunnable::AutoClose childRunnable;
ReadParams notARead;
JS::AsmJSCacheResult openResult =
OpenFile(aPrincipal, eOpenForWrite, writeParams, notARead, &childRunnable);
if (openResult != JS::AsmJSCache_Success) {
return openResult;
}
// Strip off the AsmJSCookieType from the buffer returned to the caller,
// which expects a buffer of aSize, not a buffer of sizeWithCookie starting
// with a cookie.
*aMemory = (uint8_t*) childRunnable->MappedMemory() + sizeof(AsmJSCookieType);
// The caller guarnatees a call to CloseEntryForWrite (on success or
// failure) at which point the file will be closed
childRunnable.Forget(reinterpret_cast<ChildRunnable**>(aHandle));
return JS::AsmJSCache_Success;
*/
}
void
CloseEntryForWrite(size_t aSize,
uint8_t* aMemory,
intptr_t aHandle)
{
ChildRunnable::AutoClose childRunnable(
reinterpret_cast<ChildRunnable*>(aHandle));
MOZ_ASSERT(aSize + sizeof(AsmJSCookieType) == childRunnable->FileSize());
MOZ_ASSERT(aMemory - sizeof(AsmJSCookieType) ==
childRunnable->MappedMemory());
// Flush to disk before writing the cookie (see OpenEntryForRead).
if (PR_SyncMemMap(childRunnable->FileDesc(),
childRunnable->MappedMemory(),
childRunnable->FileSize()) == PR_SUCCESS) {
*(AsmJSCookieType*)childRunnable->MappedMemory() = sAsmJSCookie;
}
}
class Client : public quota::Client
{
~Client() {}
public:
NS_IMETHOD_(MozExternalRefCountType)
AddRef() override;
NS_IMETHOD_(MozExternalRefCountType)
Release() override;
virtual Type
GetType() override
{
return ASMJS;
}
virtual nsresult
InitOrigin(PersistenceType aPersistenceType,
const nsACString& aGroup,
const nsACString& aOrigin,
const AtomicBool& aCanceled,
UsageInfo* aUsageInfo) override
{
if (!aUsageInfo) {
return NS_OK;
}
return GetUsageForOrigin(aPersistenceType,
aGroup,
aOrigin,
aCanceled,
aUsageInfo);
}
virtual nsresult
GetUsageForOrigin(PersistenceType aPersistenceType,
const nsACString& aGroup,
const nsACString& aOrigin,
const AtomicBool& aCanceled,
UsageInfo* aUsageInfo) override
{
QuotaManager* qm = QuotaManager::Get();
MOZ_ASSERT(qm, "We were being called by the QuotaManager");
nsCOMPtr<nsIFile> directory;
nsresult rv = qm->GetDirectoryForOrigin(aPersistenceType, aOrigin,
getter_AddRefs(directory));
NS_ENSURE_SUCCESS(rv, rv);
MOZ_ASSERT(directory, "We're here because the origin directory exists");
rv = directory->Append(NS_LITERAL_STRING(ASMJSCACHE_DIRECTORY_NAME));
NS_ENSURE_SUCCESS(rv, rv);
DebugOnly<bool> exists;
MOZ_ASSERT(NS_SUCCEEDED(directory->Exists(&exists)) && exists);
nsCOMPtr<nsISimpleEnumerator> entries;
rv = directory->GetDirectoryEntries(getter_AddRefs(entries));
NS_ENSURE_SUCCESS(rv, rv);
bool hasMore;
while (NS_SUCCEEDED((rv = entries->HasMoreElements(&hasMore))) &&
hasMore && !aCanceled) {
nsCOMPtr<nsISupports> entry;
rv = entries->GetNext(getter_AddRefs(entry));
NS_ENSURE_SUCCESS(rv, rv);
nsCOMPtr<nsIFile> file = do_QueryInterface(entry);
NS_ENSURE_TRUE(file, NS_NOINTERFACE);
int64_t fileSize;
rv = file->GetFileSize(&fileSize);
NS_ENSURE_SUCCESS(rv, rv);
MOZ_ASSERT(fileSize >= 0, "Negative size?!");
// Since the client is not explicitly storing files, append to database
// usage which represents implicit storage allocation.
aUsageInfo->AppendToDatabaseUsage(uint64_t(fileSize));
}
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
virtual void
OnOriginClearCompleted(PersistenceType aPersistenceType,
const nsACString& aOrigin)
override
{ }
virtual void
ReleaseIOThreadObjects() override
{ }
virtual void
AbortOperations(const nsACString& aOrigin) override
{ }
virtual void
AbortOperationsForProcess(ContentParentId aContentParentId) override
{ }
virtual void
StartIdleMaintenance() override
{ }
virtual void
StopIdleMaintenance() override
{ }
virtual void
ShutdownWorkThreads() override
{ }
private:
nsAutoRefCnt mRefCnt;
NS_DECL_OWNINGTHREAD
};
NS_IMPL_ADDREF(asmjscache::Client)
NS_IMPL_RELEASE(asmjscache::Client)
quota::Client*
CreateClient()
{
return new Client();
}
} // namespace asmjscache
} // namespace dom
} // namespace mozilla
namespace IPC {
using mozilla::dom::asmjscache::Metadata;
using mozilla::dom::asmjscache::WriteParams;
void
ParamTraits<Metadata>::Write(Message* aMsg, const paramType& aParam)
{
for (unsigned i = 0; i < Metadata::kNumEntries; i++) {
const Metadata::Entry& entry = aParam.mEntries[i];
WriteParam(aMsg, entry.mFastHash);
WriteParam(aMsg, entry.mNumChars);
WriteParam(aMsg, entry.mFullHash);
WriteParam(aMsg, entry.mModuleIndex);
}
}
bool
ParamTraits<Metadata>::Read(const Message* aMsg, PickleIterator* aIter,
paramType* aResult)
{
for (unsigned i = 0; i < Metadata::kNumEntries; i++) {
Metadata::Entry& entry = aResult->mEntries[i];
if (!ReadParam(aMsg, aIter, &entry.mFastHash) ||
!ReadParam(aMsg, aIter, &entry.mNumChars) ||
!ReadParam(aMsg, aIter, &entry.mFullHash) ||
!ReadParam(aMsg, aIter, &entry.mModuleIndex))
{
return false;
}
}
return true;
}
void
ParamTraits<Metadata>::Log(const paramType& aParam, std::wstring* aLog)
{
for (unsigned i = 0; i < Metadata::kNumEntries; i++) {
const Metadata::Entry& entry = aParam.mEntries[i];
LogParam(entry.mFastHash, aLog);
LogParam(entry.mNumChars, aLog);
LogParam(entry.mFullHash, aLog);
LogParam(entry.mModuleIndex, aLog);
}
}
void
ParamTraits<WriteParams>::Write(Message* aMsg, const paramType& aParam)
{
WriteParam(aMsg, aParam.mSize);
WriteParam(aMsg, aParam.mFastHash);
WriteParam(aMsg, aParam.mNumChars);
WriteParam(aMsg, aParam.mFullHash);
WriteParam(aMsg, aParam.mInstalled);
}
bool
ParamTraits<WriteParams>::Read(const Message* aMsg, PickleIterator* aIter,
paramType* aResult)
{
return ReadParam(aMsg, aIter, &aResult->mSize) &&
ReadParam(aMsg, aIter, &aResult->mFastHash) &&
ReadParam(aMsg, aIter, &aResult->mNumChars) &&
ReadParam(aMsg, aIter, &aResult->mFullHash) &&
ReadParam(aMsg, aIter, &aResult->mInstalled);
}
void
ParamTraits<WriteParams>::Log(const paramType& aParam, std::wstring* aLog)
{
LogParam(aParam.mSize, aLog);
LogParam(aParam.mFastHash, aLog);
LogParam(aParam.mNumChars, aLog);
LogParam(aParam.mFullHash, aLog);
LogParam(aParam.mInstalled, aLog);
}
} // namespace IPC
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