gecko/toolkit/components/filewatcher/NativeFileWatcherWin.cpp
Ehsan Akhgari 33bb32f549 Bug 1145631 - Part 1: Replace MOZ_OVERRIDE and MOZ_FINAL with override and final in the tree; r=froydnj
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echo "Converting $1 to $2..."
find . \
       ! -wholename "*/.git*" \
       ! -wholename "obj-ff-dbg*" \
         -type f \
      \( -iname "*.cpp" \
         -o -iname "*.h" \
         -o -iname "*.c" \
         -o -iname "*.cc" \
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}

convert MOZ_OVERRIDE override
convert MOZ_FINAL final
2015-03-21 12:28:04 -04:00

1515 lines
52 KiB
C++

/* 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/. */
/**
* Native implementation of Watcher operations.
*/
#include "NativeFileWatcherWin.h"
#include "mozilla/Services.h"
#include "mozilla/UniquePtr.h"
#include "nsClassHashtable.h"
#include "nsDataHashtable.h"
#include "nsILocalFile.h"
#include "nsIObserverService.h"
#include "nsProxyRelease.h"
#include "nsTArray.h"
#include "prlog.h"
namespace mozilla {
// Enclose everything which is not exported in an anonymous namespace.
namespace {
/**
* An event used to notify the main thread when an error happens.
*/
class WatchedErrorEvent final : public nsRunnable
{
public:
/**
* @param aOnError The passed error callback.
* @param aError The |nsresult| error value.
* @param osError The error returned by GetLastError().
*/
WatchedErrorEvent(const nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback>& aOnError,
const nsresult& anError, const DWORD& osError)
: mOnError(aOnError)
, mError(anError)
{
MOZ_ASSERT(!NS_IsMainThread());
}
NS_METHOD Run()
{
MOZ_ASSERT(NS_IsMainThread());
// Make sure we wrap a valid callback since it's not mandatory to provide
// one when watching a resource.
if (mOnError) {
(void)mOnError->Complete(mError, mOsError);
}
return NS_OK;
}
private:
nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback> mOnError;
nsresult mError;
DWORD mOsError;
};
/**
* An event used to notify the main thread when an operation is successful.
*/
class WatchedSuccessEvent final : public nsRunnable
{
public:
/**
* @param aOnSuccess The passed success callback.
* @param aResourcePath
* The path of the resource for which this event was generated.
*/
WatchedSuccessEvent(const nsMainThreadPtrHandle<nsINativeFileWatcherSuccessCallback>& aOnSuccess,
const nsAString& aResourcePath)
: mOnSuccess(aOnSuccess)
, mResourcePath(aResourcePath)
{
MOZ_ASSERT(!NS_IsMainThread());
}
NS_METHOD Run()
{
MOZ_ASSERT(NS_IsMainThread());
// Make sure we wrap a valid callback since it's not mandatory to provide
// one when watching a resource.
if (mOnSuccess) {
(void)mOnSuccess->Complete(mResourcePath);
}
return NS_OK;
}
private:
nsMainThreadPtrHandle<nsINativeFileWatcherSuccessCallback> mOnSuccess;
nsString mResourcePath;
};
/**
* An event used to notify the main thread of a change in a watched
* resource.
*/
class WatchedChangeEvent final : public nsRunnable
{
public:
/**
* @param aOnChange The passed change callback.
* @param aChangedResource The name of the changed resource.
*/
WatchedChangeEvent(const nsMainThreadPtrHandle<nsINativeFileWatcherCallback>& aOnChange,
const nsAString& aChangedResource)
: mOnChange(aOnChange)
, mChangedResource(aChangedResource)
{
MOZ_ASSERT(!NS_IsMainThread());
}
NS_METHOD Run()
{
MOZ_ASSERT(NS_IsMainThread());
// The second parameter is reserved for future uses: we use 0 as a placeholder.
(void)mOnChange->Changed(mChangedResource, 0);
return NS_OK;
}
private:
nsMainThreadPtrHandle<nsINativeFileWatcherCallback> mOnChange;
nsString mChangedResource;
};
#if defined(PR_LOGGING)
static PRLogModuleInfo* GetFileWatcherContextLog()
{
static PRLogModuleInfo *gNativeWatcherPRLog;
if (!gNativeWatcherPRLog) {
gNativeWatcherPRLog = PR_NewLogModule("NativeFileWatcherService");
}
return gNativeWatcherPRLog;
}
#endif
#define FILEWATCHERLOG(...) PR_LOG(GetFileWatcherContextLog(), PR_LOG_DEBUG, (__VA_ARGS__))
// The number of notifications to store within WatchedResourceDescriptor:mNotificationBuffer.
// If the buffer overflows, its contents are discarded and a change callback is dispatched
// with "*" as changed path.
const unsigned int WATCHED_RES_MAXIMUM_NOTIFICATIONS = 100;
// The size, in bytes, of the notification buffer used to store the changes notifications
// for each watched resource.
const size_t NOTIFICATION_BUFFER_SIZE =
WATCHED_RES_MAXIMUM_NOTIFICATIONS * sizeof(FILE_NOTIFY_INFORMATION);
/**
* AutoCloseHandle is a RAII wrapper for Windows |HANDLE|s
*/
struct AutoCloseHandleTraits
{
typedef HANDLE type;
static type empty() { return INVALID_HANDLE_VALUE; }
static void release(type anHandle)
{
if (anHandle != INVALID_HANDLE_VALUE) {
// If CancelIo is called on an |HANDLE| not yet associated to a Completion I/O
// it simply does nothing.
(void)CancelIo(anHandle);
(void)CloseHandle(anHandle);
}
}
};
typedef Scoped<AutoCloseHandleTraits> AutoCloseHandle;
// Define these callback array types to make the code easier to read.
typedef nsTArray<nsMainThreadPtrHandle<nsINativeFileWatcherCallback>> ChangeCallbackArray;
typedef nsTArray<nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback>> ErrorCallbackArray;
/**
* A structure to keep track of the information related to a
* watched resource.
*/
struct WatchedResourceDescriptor {
// The path on the file system of the watched resource.
nsString mPath;
// A buffer containing the latest notifications received for the resource.
// UniquePtr<FILE_NOTIFY_INFORMATION> cannot be used as the structure
// contains a variable length field (FileName).
UniquePtr<unsigned char> mNotificationBuffer;
// Used to hold information for the asynchronous ReadDirectoryChangesW call
// (does not need to be closed as it is not an |HANDLE|).
OVERLAPPED mOverlappedInfo;
// The OS handle to the watched resource.
AutoCloseHandle mResourceHandle;
WatchedResourceDescriptor(const nsAString& aPath, const HANDLE anHandle)
: mPath(aPath)
, mResourceHandle(anHandle)
{
memset(&mOverlappedInfo, 0, sizeof(OVERLAPPED));
mNotificationBuffer.reset(new unsigned char[NOTIFICATION_BUFFER_SIZE]);
}
};
/**
* A structure used to pass the callbacks to the AddPathRunnableMethod() and
* RemovePathRunnableMethod().
*/
struct PathRunnablesParametersWrapper {
nsString mPath;
nsMainThreadPtrHandle<nsINativeFileWatcherCallback> mChangeCallbackHandle;
nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback> mErrorCallbackHandle;
nsMainThreadPtrHandle<nsINativeFileWatcherSuccessCallback> mSuccessCallbackHandle;
PathRunnablesParametersWrapper(
const nsAString& aPath,
const nsMainThreadPtrHandle<nsINativeFileWatcherCallback>& aOnChange,
const nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback>& aOnError,
const nsMainThreadPtrHandle<nsINativeFileWatcherSuccessCallback>& aOnSuccess)
: mPath(aPath)
, mChangeCallbackHandle(aOnChange)
, mErrorCallbackHandle(aOnError)
, mSuccessCallbackHandle(aOnSuccess)
{
}
};
/**
* This runnable is dispatched to the main thread in order to safely
* shutdown the worker thread.
*/
class NativeWatcherIOShutdownTask : public nsRunnable
{
public:
NativeWatcherIOShutdownTask()
: mWorkerThread(do_GetCurrentThread())
{
MOZ_ASSERT(!NS_IsMainThread());
}
NS_IMETHOD Run()
{
MOZ_ASSERT(NS_IsMainThread());
mWorkerThread->Shutdown();
return NS_OK;
}
private:
nsCOMPtr<nsIThread> mWorkerThread;
};
/**
* An helper callback function used to print information about any
* pending watch when shutting down the nsINativeFileWatcher service.
*/
static PLDHashOperator
WatchedPathsInfoHashtableTraverser(nsVoidPtrHashKey::KeyType key,
WatchedResourceDescriptor* watchedResource,
void* userArg)
{
FILEWATCHERLOG("NativeFileWatcherIOTask::DeactivateRunnableMethod - "
"%S is still being watched.", watchedResource->mPath.get());
return PL_DHASH_NEXT;
}
/**
* This runnable is dispatched from the main thread to get the notifications of the
* changes in the watched resources by continuously calling the blocking function
* GetQueuedCompletionStatus. This function queries the status of the Completion I/O
* port initialized in the main thread. The watched resources are registered to the
* completion I/O port when calling |addPath|.
*
* Instead of using a loop within the Run() method, the Runnable reschedules itself
* by issuing a NS_DispatchToCurrentThread(this) before exiting. This is done to allow
* the execution of other runnables enqueued within the thread task queue.
*/
class NativeFileWatcherIOTask : public nsRunnable
{
public:
NativeFileWatcherIOTask(HANDLE aIOCompletionPort)
: mIOCompletionPort(aIOCompletionPort)
, mShuttingDown(false)
{
}
NS_IMETHOD Run();
nsresult AddPathRunnableMethod(PathRunnablesParametersWrapper* aWrappedParameters);
nsresult RemovePathRunnableMethod(PathRunnablesParametersWrapper* aWrappedParameters);
nsresult DeactivateRunnableMethod();
private:
// Maintain 2 indexes - one by resource path, one by resource |HANDLE|.
// Since |HANDLE| is basically a typedef to void*, we use nsVoidPtrHashKey to
// compute the hashing key. We need 2 indexes in order to quickly look up the
// changed resource in the Worker Thread.
// The objects are not ref counted and get destroyed by mWatchedResourcesByPath
// on NativeFileWatcherService::Destroy or in NativeFileWatcherService::RemovePath.
nsClassHashtable<nsStringHashKey, WatchedResourceDescriptor> mWatchedResourcesByPath;
nsDataHashtable<nsVoidPtrHashKey, WatchedResourceDescriptor*> mWatchedResourcesByHandle;
// The same callback can be associated to multiple watches so we need to keep
// them alive as long as there is a watch using them. We create two hashtables
// to map directory names to lists of nsMainThreadPtr<callbacks>.
nsClassHashtable<nsStringHashKey, ChangeCallbackArray> mChangeCallbacksTable;
nsClassHashtable<nsStringHashKey, ErrorCallbackArray> mErrorCallbacksTable;
// We hold a copy of the completion port |HANDLE|, which is owned by the main thread.
HANDLE mIOCompletionPort;
// Other methods need to know that a shutdown is in progress.
bool mShuttingDown;
nsresult RunInternal();
nsresult DispatchChangeCallbacks(WatchedResourceDescriptor* aResourceDescriptor,
const nsAString& aChangedResource);
nsresult ReportChange(
const nsMainThreadPtrHandle<nsINativeFileWatcherCallback>& aOnChange,
const nsAString& aChangedResource);
nsresult DispatchErrorCallbacks(WatchedResourceDescriptor* aResourceDescriptor,
nsresult anError, DWORD anOSError);
nsresult ReportError(
const nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback>& aOnError,
nsresult anError, DWORD anOSError);
nsresult ReportSuccess(
const nsMainThreadPtrHandle<nsINativeFileWatcherSuccessCallback>& aOnSuccess,
const nsAString& aResourcePath);
nsresult AddDirectoryToWatchList(WatchedResourceDescriptor* aDirectoryDescriptor);
void AppendCallbacksToHashtables(
const nsAString& aPath,
const nsMainThreadPtrHandle<nsINativeFileWatcherCallback>& aOnChange,
const nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback>& aOnError);
void RemoveCallbacksFromHashtables(
const nsAString& aPath,
const nsMainThreadPtrHandle<nsINativeFileWatcherCallback>& aOnChange,
const nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback>& aOnError);
nsresult MakeResourcePath(
WatchedResourceDescriptor* changedDescriptor,
const nsAString& resourceName,
nsAString& nativeResourcePath);
};
/**
* The watching thread logic.
*
* @return NS_OK if the watcher loop must be rescheduled, a failure code
* if it must not.
*/
nsresult
NativeFileWatcherIOTask::RunInternal()
{
// Contains the address of the |OVERLAPPED| structure passed
// to ReadDirectoryChangesW (used to check for |HANDLE| closing).
OVERLAPPED* overlappedStructure;
// The number of bytes transferred by GetQueuedCompletionStatus
// (used to check for |HANDLE| closing).
DWORD transferredBytes = 0;
// Will hold the |HANDLE| to the watched resource returned by GetQueuedCompletionStatus
// which generated the change events.
ULONG_PTR changedResourceHandle = 0;
// Check for changes in the resource status by querying the |mIOCompletionPort|
// (blocking). GetQueuedCompletionStatus is always called before the first call
// to ReadDirectoryChangesW. This isn't a problem, since mIOCompletionPort is
// already a valid |HANDLE| even though it doesn't have any associated notification
// handles (through ReadDirectoryChangesW).
if (!GetQueuedCompletionStatus(mIOCompletionPort, &transferredBytes,
&changedResourceHandle, &overlappedStructure,
INFINITE)) {
// Ok, there was some error.
DWORD errCode = GetLastError();
switch (errCode) {
case ERROR_NOTIFY_ENUM_DIR: {
// There were too many changes and the notification buffer has overflowed.
// We dispatch the special value "*" and reschedule.
FILEWATCHERLOG("NativeFileWatcherIOTask::Run - Notification buffer has overflowed");
WatchedResourceDescriptor* changedRes =
mWatchedResourcesByHandle.Get((HANDLE)changedResourceHandle);
nsresult rv = DispatchChangeCallbacks(changedRes, NS_LITERAL_STRING("*"));
if (NS_FAILED(rv)) {
// We failed to dispatch the error callbacks. Something very
// bad happened to the main thread, so we bail out from the watcher thread.
FILEWATCHERLOG(
"NativeFileWatcherIOTask::Run - Failed to dispatch change callbacks (%x).",
rv);
return rv;
}
return NS_OK;
}
case ERROR_ABANDONED_WAIT_0:
case ERROR_INVALID_HANDLE: {
// If we reach this point, mIOCompletionPort was probably closed
// and we need to close this thread. This condition is identified
// by catching the ERROR_INVALID_HANDLE error.
FILEWATCHERLOG(
"NativeFileWatcherIOTask::Run - The completion port was closed (%x).",
errCode);
return NS_ERROR_ABORT;
}
case ERROR_OPERATION_ABORTED: {
// Some path was unwatched! That's not really an error, now it is safe
// to free the memory for the resource and call GetQueuedCompletionStatus
// again.
FILEWATCHERLOG("NativeFileWatcherIOTask::Run - Path unwatched (%x).", errCode);
WatchedResourceDescriptor* toFree =
mWatchedResourcesByHandle.Get((HANDLE)changedResourceHandle);
if (toFree) {
// Take care of removing the resource and freeing the memory
mWatchedResourcesByHandle.Remove((HANDLE)changedResourceHandle);
// This last call eventually frees the memory
mWatchedResourcesByPath.Remove(toFree->mPath);
}
return NS_OK;
}
default: {
// It should probably never get here, but it's better to be safe.
FILEWATCHERLOG("NativeFileWatcherIOTask::Run - Unknown error (%x).", errCode);
return NS_ERROR_FAILURE;
}
}
}
// When an |HANDLE| associated to the completion I/O port is gracefully
// closed, GetQueuedCompletionStatus still may return a status update. Moreover,
// this can also be triggered when watching files on a network folder and losing
// the connection.
// That's an edge case we need to take care of for consistency by checking
// for (!transferredBytes && overlappedStructure). See http://xania.org/200807/iocp
if (!transferredBytes &&
(overlappedStructure ||
(!overlappedStructure && !changedResourceHandle))) {
// Note: if changedResourceHandle is nullptr as well, the wait on the Completion
// I/O was interrupted by a call to PostQueuedCompletionStatus with 0 transferred
// bytes and nullptr as |OVERLAPPED| and |HANDLE|. This is done to allow addPath
// and removePath to work on this thread.
return NS_OK;
}
// Check to see which resource is changedResourceHandle.
WatchedResourceDescriptor* changedRes =
mWatchedResourcesByHandle.Get((HANDLE)changedResourceHandle);
MOZ_ASSERT(changedRes, "Could not find the changed resource in the list of watched ones.");
// Parse the changes and notify the main thread.
const unsigned char* rawNotificationBuffer = changedRes->mNotificationBuffer.get();
while (true) {
FILE_NOTIFY_INFORMATION* notificationInfo =
(FILE_NOTIFY_INFORMATION*)rawNotificationBuffer;
// FileNameLength is in bytes, but we need FileName length
// in characters, so divide it by sizeof(WCHAR).
nsAutoString resourceName(notificationInfo->FileName,
notificationInfo->FileNameLength / sizeof(WCHAR));
// Handle path normalisation using nsILocalFile.
nsString resourcePath;
nsresult rv = MakeResourcePath(changedRes, resourceName, resourcePath);
if (NS_SUCCEEDED(rv)) {
rv = DispatchChangeCallbacks(changedRes, resourcePath);
if (NS_FAILED(rv)) {
// Log that we failed to dispatch the change callbacks.
FILEWATCHERLOG(
"NativeFileWatcherIOTask::Run - Failed to dispatch change callbacks (%x).",
rv);
return rv;
}
}
if (!notificationInfo->NextEntryOffset) {
break;
}
rawNotificationBuffer += notificationInfo->NextEntryOffset;
};
// We need to keep watching for further changes.
nsresult rv = AddDirectoryToWatchList(changedRes);
if (NS_FAILED(rv)) {
// We failed to watch the folder.
if (rv == NS_ERROR_ABORT) {
// Log that we also failed to dispatch the error callbacks.
FILEWATCHERLOG(
"NativeFileWatcherIOTask::Run - Failed to watch %s and"
" to dispatch the related error callbacks", changedRes->mPath.get());
return rv;
}
}
return NS_OK;
}
/**
* Wraps the watcher logic and takes care of rescheduling
* the watcher loop based on the return code of |RunInternal|
* in order to help with code readability.
*
* @return NS_OK or a failure error code from |NS_DispatchToCurrentThread|.
*/
NS_IMETHODIMP
NativeFileWatcherIOTask::Run()
{
MOZ_ASSERT(!NS_IsMainThread());
// We return immediately if |mShuttingDown| is true (see below for
// details about the shutdown protocol being followed).
if (mShuttingDown) {
return NS_OK;
}
nsresult rv = RunInternal();
if (NS_FAILED(rv)) {
// A critical error occurred in the watcher loop, don't reschedule.
FILEWATCHERLOG(
"NativeFileWatcherIOTask::Run - Stopping the watcher loop (error %S)", rv);
// We log the error but return NS_OK instead: we don't want to
// propagate an exception through XPCOM.
return NS_OK;
}
// No error occurred, reschedule.
return NS_DispatchToCurrentThread(this);
}
/**
* Adds the resource to the watched list. This function is enqueued on the worker
* thread by NativeFileWatcherService::AddPath. All the errors are reported to the main
* thread using the error callback function mErrorCallback.
*
* @param pathToWatch
* The path of the resource to watch for changes.
*
* @return NS_ERROR_FILE_NOT_FOUND if the path is invalid or does not exist.
* Returns NS_ERROR_UNEXPECTED if OS |HANDLE|s are unexpectedly closed.
* If the ReadDirectoryChangesW call fails, returns NS_ERROR_FAILURE,
* otherwise NS_OK.
*/
nsresult
NativeFileWatcherIOTask::AddPathRunnableMethod(
PathRunnablesParametersWrapper* aWrappedParameters)
{
MOZ_ASSERT(!NS_IsMainThread());
nsAutoPtr<PathRunnablesParametersWrapper> wrappedParameters(aWrappedParameters);
// We return immediately if |mShuttingDown| is true (see below for
// details about the shutdown protocol being followed).
if (mShuttingDown) {
return NS_OK;
}
if (!wrappedParameters ||
!wrappedParameters->mChangeCallbackHandle) {
FILEWATCHERLOG("NativeFileWatcherIOTask::AddPathRunnableMethod - Invalid arguments.");
return NS_ERROR_NULL_POINTER;
}
// Is aPathToWatch already being watched?
WatchedResourceDescriptor* watchedResource =
mWatchedResourcesByPath.Get(wrappedParameters->mPath);
if (watchedResource) {
// Append it to the hash tables.
AppendCallbacksToHashtables(
watchedResource->mPath,
wrappedParameters->mChangeCallbackHandle,
wrappedParameters->mErrorCallbackHandle);
return NS_OK;
}
// Retrieve a file handle to associate with the completion port. Makes
// sure to request the appropriate rights (i.e. read files and list
// files contained in a folder). Note: the nullptr security flag prevents
// the |HANDLE| to be passed to child processes.
HANDLE resHandle = CreateFileW(wrappedParameters->mPath.get(),
FILE_LIST_DIRECTORY, // Access rights
FILE_SHARE_READ | FILE_SHARE_DELETE | FILE_SHARE_WRITE, // Share
nullptr, // Security flags
OPEN_EXISTING, // Returns an handle only if the resource exists
FILE_FLAG_BACKUP_SEMANTICS | FILE_FLAG_OVERLAPPED,
nullptr); // Template file (only used when creating files)
if (resHandle == INVALID_HANDLE_VALUE) {
DWORD dwError = GetLastError();
nsresult rv;
if (dwError == ERROR_FILE_NOT_FOUND) {
rv = NS_ERROR_FILE_NOT_FOUND;
} else if (dwError == ERROR_ACCESS_DENIED) {
rv = NS_ERROR_FILE_ACCESS_DENIED;
} else {
rv = NS_ERROR_FAILURE;
}
FILEWATCHERLOG(
"NativeFileWatcherIOTask::AddPathRunnableMethod - CreateFileW failed (error %x) for %S.",
dwError, wrappedParameters->mPath.get());
rv = ReportError(wrappedParameters->mErrorCallbackHandle, rv, dwError);
if (NS_FAILED(rv)) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::AddPathRunnableMethod - "
"Failed to dispatch the error callback (%x).",
rv);
return rv;
}
// Error has already been reported through mErrorCallback.
return NS_OK;
}
// Initialise the resource descriptor.
UniquePtr<WatchedResourceDescriptor> resourceDesc(
new WatchedResourceDescriptor(wrappedParameters->mPath, resHandle));
// Associate the file with the previously opened completion port.
if (!CreateIoCompletionPort(resourceDesc->mResourceHandle, mIOCompletionPort,
(ULONG_PTR)resourceDesc->mResourceHandle.get(), 0)) {
DWORD dwError = GetLastError();
FILEWATCHERLOG("NativeFileWatcherIOTask::AddPathRunnableMethod"
" - CreateIoCompletionPort failed (error %x) for %S.",
dwError, wrappedParameters->mPath.get());
// This could fail because passed parameters could be invalid |HANDLE|s
// i.e. mIOCompletionPort was unexpectedly closed or failed.
nsresult rv =
ReportError(wrappedParameters->mErrorCallbackHandle, NS_ERROR_UNEXPECTED, dwError);
if (NS_FAILED(rv)) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::AddPathRunnableMethod - "
"Failed to dispatch the error callback (%x).",
rv);
return rv;
}
// Error has already been reported through mErrorCallback.
return NS_OK;
}
// Append the callbacks to the hash tables. We do this now since
// AddDirectoryToWatchList could use the error callback, but we
// need to make sure to remove them if AddDirectoryToWatchList fails.
AppendCallbacksToHashtables(
wrappedParameters->mPath,
wrappedParameters->mChangeCallbackHandle,
wrappedParameters->mErrorCallbackHandle);
// We finally watch the resource for changes.
nsresult rv = AddDirectoryToWatchList(resourceDesc.get());
if (NS_SUCCEEDED(rv)) {
// Add the resource pointer to both indexes.
WatchedResourceDescriptor* resource = resourceDesc.release();
mWatchedResourcesByPath.Put(wrappedParameters->mPath, resource);
mWatchedResourcesByHandle.Put(resHandle, resource);
// Dispatch the success callback.
nsresult rv =
ReportSuccess(wrappedParameters->mSuccessCallbackHandle, wrappedParameters->mPath);
if (NS_FAILED(rv)) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::AddPathRunnableMethod - "
"Failed to dispatch the success callback (%x).",
rv);
return rv;
}
return NS_OK;
}
// We failed to watch the folder. Remove the callbacks
// from the hash tables.
RemoveCallbacksFromHashtables(
wrappedParameters->mPath,
wrappedParameters->mChangeCallbackHandle,
wrappedParameters->mErrorCallbackHandle);
if (rv != NS_ERROR_ABORT) {
// Just don't add the descriptor to the watch list.
return NS_OK;
}
// We failed to dispatch the error callbacks as well.
FILEWATCHERLOG(
"NativeFileWatcherIOTask::AddPathRunnableMethod - Failed to watch %s and"
" to dispatch the related error callbacks", resourceDesc->mPath.get());
return rv;
}
/**
* Removes the path from the list of watched resources. Silently ignores the request
* if the path was not being watched.
*
* Remove Protocol:
*
* 1. Find the resource to unwatch through the provided path.
* 2. Remove the error and change callbacks from the list of callbacks
* associated with the resource.
* 3. Remove the error and change callbacks from the callback hash maps.
* 4. If there are no more change callbacks for the resource, close
* its file |HANDLE|. We do not free the buffer memory just yet, it's
* still needed for the next call to GetQueuedCompletionStatus. That
* memory will be freed in NativeFileWatcherIOTask::Run.
*
* @param aWrappedParameters
* The structure containing the resource path, the error and change callback
* handles.
*/
nsresult
NativeFileWatcherIOTask::RemovePathRunnableMethod(
PathRunnablesParametersWrapper* aWrappedParameters)
{
MOZ_ASSERT(!NS_IsMainThread());
nsAutoPtr<PathRunnablesParametersWrapper> wrappedParameters(aWrappedParameters);
// We return immediately if |mShuttingDown| is true (see below for
// details about the shutdown protocol being followed).
if (mShuttingDown) {
return NS_OK;
}
if (!wrappedParameters ||
!wrappedParameters->mChangeCallbackHandle) {
return NS_ERROR_NULL_POINTER;
}
WatchedResourceDescriptor* toRemove =
mWatchedResourcesByPath.Get(wrappedParameters->mPath);
if (!toRemove) {
// We are trying to remove a path which wasn't being watched. Silently ignore
// and dispatch the success callback.
nsresult rv =
ReportSuccess(wrappedParameters->mSuccessCallbackHandle, wrappedParameters->mPath);
if (NS_FAILED(rv)) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::RemovePathRunnableMethod - "
"Failed to dispatch the success callback (%x).",
rv);
return rv;
}
return NS_OK;
}
ChangeCallbackArray* changeCallbackArray =
mChangeCallbacksTable.Get(toRemove->mPath);
// This should always be valid.
MOZ_ASSERT(changeCallbackArray);
bool removed =
changeCallbackArray->RemoveElement(wrappedParameters->mChangeCallbackHandle);
if (!removed) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::RemovePathRunnableMethod - Unable to remove the change "
"callback from the change callback hash map for %S.",
wrappedParameters->mPath.get());
MOZ_CRASH();
}
ErrorCallbackArray* errorCallbackArray =
mErrorCallbacksTable.Get(toRemove->mPath);
MOZ_ASSERT(errorCallbackArray);
removed =
errorCallbackArray->RemoveElement(wrappedParameters->mErrorCallbackHandle);
if (!removed) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::RemovePathRunnableMethod - Unable to remove the error "
"callback from the error callback hash map for %S.",
wrappedParameters->mPath.get());
MOZ_CRASH();
}
// If there are still callbacks left, keep the descriptor.
// We don't check for error callbacks since there's no point in keeping
// the descriptor if there are no change callbacks but some error callbacks.
if (changeCallbackArray->Length()) {
// Dispatch the success callback.
nsresult rv =
ReportSuccess(wrappedParameters->mSuccessCallbackHandle, wrappedParameters->mPath);
if (NS_FAILED(rv)) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::RemovePathRunnableMethod - "
"Failed to dispatch the success callback (%x).",
rv);
return rv;
}
return NS_OK;
}
// In this runnable, we just cancel callbacks (see above) and I/O (see below).
// Resources are freed by the worker thread when GetQueuedCompletionStatus
// detects that a resource was removed from the watch list.
// Since when closing |HANDLE|s relative to watched resources
// GetQueuedCompletionStatus is notified one last time, it would end
// up referring to deallocated memory if we were to free the memory here.
// This happens because the worker IO is scheduled to watch the resources
// again once we complete executing this function.
// Enforce CloseHandle/CancelIO by disposing the AutoCloseHandle. We don't
// remove the entry from mWatchedResourceBy* since the completion port might
// still be using the notification buffer. Entry remove is performed when
// handling ERROR_OPERATION_ABORTED in NativeFileWatcherIOTask::Run.
toRemove->mResourceHandle.dispose();
// Dispatch the success callback.
nsresult rv =
ReportSuccess(wrappedParameters->mSuccessCallbackHandle, wrappedParameters->mPath);
if (NS_FAILED(rv)) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::RemovePathRunnableMethod - "
"Failed to dispatch the success callback (%x).",
rv);
return rv;
}
return NS_OK;
}
/**
* Removes all the watched resources from the watch list and stops the
* watcher thread. Frees all the used resources.
*/
nsresult
NativeFileWatcherIOTask::DeactivateRunnableMethod()
{
MOZ_ASSERT(!NS_IsMainThread());
// Remind users to manually remove the watches before quitting.
MOZ_ASSERT(!mWatchedResourcesByHandle.Count(),
"Clients of the nsINativeFileWatcher must remove "
"watches manually before quitting.");
// Log any pending watch.
(void)mWatchedResourcesByHandle.EnumerateRead(
&WatchedPathsInfoHashtableTraverser, nullptr);
// We return immediately if |mShuttingDown| is true (see below for
// details about the shutdown protocol being followed).
if (mShuttingDown) {
// If this happens, we are in a strange situation.
FILEWATCHERLOG(
"NativeFileWatcherIOTask::DeactivateRunnableMethod - We are already shutting down.");
MOZ_CRASH();
return NS_OK;
}
// Deactivate all the non-shutdown methods of this object.
mShuttingDown = true;
// Remove all the elements from the index. Memory will be freed by
// calling Clear() on mWatchedResourcesByPath.
mWatchedResourcesByHandle.Clear();
// Clear frees the memory associated with each element and clears the table.
// Since we are using Scoped |HANDLE|s, they get automatically closed as well.
mWatchedResourcesByPath.Clear();
// Now that all the descriptors are closed, release the callback hahstables.
mChangeCallbacksTable.Clear();
mErrorCallbacksTable.Clear();
// Close the IO completion port, eventually making
// the watcher thread exit from the watching loop.
if (mIOCompletionPort) {
if (!CloseHandle(mIOCompletionPort)) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::DeactivateRunnableMethod - "
"Failed to close the IO completion port HANDLE.");
}
}
// Now we just need to reschedule a final call to Shutdown() back to the main thread.
nsRefPtr<NativeWatcherIOShutdownTask> shutdownRunnable =
new NativeWatcherIOShutdownTask();
return NS_DispatchToMainThread(shutdownRunnable);
}
/**
* Helper function to dispatch a change notification to all the registered callbacks.
* @param aResourceDescriptor
* The resource descriptor.
* @param aChangedResource
* The path of the changed resource.
* @return NS_OK if all the callbacks are dispatched correctly, a |nsresult| error code
* otherwise.
*/
nsresult
NativeFileWatcherIOTask::DispatchChangeCallbacks(
WatchedResourceDescriptor* aResourceDescriptor,
const nsAString& aChangedResource)
{
MOZ_ASSERT(aResourceDescriptor);
// Retrieve the change callbacks array.
ChangeCallbackArray* changeCallbackArray =
mChangeCallbacksTable.Get(aResourceDescriptor->mPath);
// This should always be valid.
MOZ_ASSERT(changeCallbackArray);
for (size_t i = 0; i < changeCallbackArray->Length(); i++) {
nsresult rv =
ReportChange((*changeCallbackArray)[i], aChangedResource);
if (NS_FAILED(rv)) {
return rv;
}
}
return NS_OK;
}
/**
* Helper function to post a change runnable to the main thread.
*
* @param aOnChange
* The change callback handle.
* @param aChangedResource
* The resource name to dispatch thorough the change callback.
*
* @return NS_OK if the callback is dispatched correctly.
*/
nsresult
NativeFileWatcherIOTask::ReportChange(
const nsMainThreadPtrHandle<nsINativeFileWatcherCallback>& aOnChange,
const nsAString& aChangedResource)
{
nsRefPtr<WatchedChangeEvent> changeRunnable =
new WatchedChangeEvent(aOnChange, aChangedResource);
return NS_DispatchToMainThread(changeRunnable);
}
/**
* Helper function to dispatch a error notification to all the registered callbacks.
* @param aResourceDescriptor
* The resource descriptor.
* @param anError
* The error to dispatch thorough the error callback.
* @param anOSError
* An OS specific error code to send with the callback.
* @return NS_OK if all the callbacks are dispatched correctly, a |nsresult| error code
* otherwise.
*/
nsresult
NativeFileWatcherIOTask::DispatchErrorCallbacks(
WatchedResourceDescriptor* aResourceDescriptor,
nsresult anError, DWORD anOSError)
{
MOZ_ASSERT(aResourceDescriptor);
// Retrieve the error callbacks array.
ErrorCallbackArray* errorCallbackArray =
mErrorCallbacksTable.Get(aResourceDescriptor->mPath);
// This must be valid.
MOZ_ASSERT(errorCallbackArray);
for (size_t i = 0; i < errorCallbackArray->Length(); i++) {
nsresult rv =
ReportError((*errorCallbackArray)[i], anError, anOSError);
if (NS_FAILED(rv)) {
return rv;
}
}
return NS_OK;
}
/**
* Helper function to post an error runnable to the main thread.
*
* @param aOnError
* The error callback handle.
* @param anError
* The error to dispatch thorough the error callback.
* @param anOSError
* An OS specific error code to send with the callback.
*
* @return NS_OK if the callback is dispatched correctly.
*/
nsresult
NativeFileWatcherIOTask::ReportError(
const nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback>& aOnError,
nsresult anError, DWORD anOSError)
{
nsRefPtr<WatchedErrorEvent> errorRunnable =
new WatchedErrorEvent(aOnError, anError, anOSError);
return NS_DispatchToMainThread(errorRunnable);
}
/**
* Helper function to post a success runnable to the main thread.
*
* @param aOnSuccess
* The success callback handle.
* @param aResource
* The resource name to dispatch thorough the success callback.
*
* @return NS_OK if the callback is dispatched correctly.
*/
nsresult
NativeFileWatcherIOTask::ReportSuccess(
const nsMainThreadPtrHandle<nsINativeFileWatcherSuccessCallback>& aOnSuccess,
const nsAString& aResource)
{
nsRefPtr<WatchedSuccessEvent> successRunnable =
new WatchedSuccessEvent(aOnSuccess, aResource);
return NS_DispatchToMainThread(successRunnable);
}
/**
* Instructs the OS to report the changes concerning the directory of interest.
*
* @param aDirectoryDescriptor
* A |WatchedResourceDescriptor| instance describing the directory to watch.
* @param aDispatchErrorCode
* If |ReadDirectoryChangesW| fails and dispatching an error callback to the
* main thread fails as well, the error code is stored here. If the OS API call
* does not fail, it gets set to NS_OK.
* @return |true| if |ReadDirectoryChangesW| returned no error, |false| otherwise.
*/
nsresult
NativeFileWatcherIOTask::AddDirectoryToWatchList(
WatchedResourceDescriptor* aDirectoryDescriptor)
{
MOZ_ASSERT(!mShuttingDown);
DWORD dwPlaceholder;
// Tells the OS to watch out on mResourceHandle for the changes specified
// with the FILE_NOTIFY_* flags. We monitor the creation, renaming and
// deletion of a file (FILE_NOTIFY_CHANGE_FILE_NAME), changes to the last
// modification time (FILE_NOTIFY_CHANGE_LAST_WRITE) and the creation and
// deletion of a folder (FILE_NOTIFY_CHANGE_DIR_NAME). Moreover, when you
// first call this function, the system allocates a buffer to store change
// information for the watched directory.
if (!ReadDirectoryChangesW(aDirectoryDescriptor->mResourceHandle,
aDirectoryDescriptor->mNotificationBuffer.get(),
NOTIFICATION_BUFFER_SIZE,
true, // watch subtree (recurse)
FILE_NOTIFY_CHANGE_LAST_WRITE
| FILE_NOTIFY_CHANGE_FILE_NAME
| FILE_NOTIFY_CHANGE_DIR_NAME,
&dwPlaceholder,
&aDirectoryDescriptor->mOverlappedInfo,
nullptr)) {
// NOTE: GetLastError() could return ERROR_INVALID_PARAMETER if the buffer length
// is greater than 64 KB and the application is monitoring a directory over the
// network. The same error could be returned when trying to watch a file instead
// of a directory.
// It could return ERROR_NOACCESS if the buffer is not aligned on a DWORD boundary.
DWORD dwError = GetLastError();
FILEWATCHERLOG(
"NativeFileWatcherIOTask::AddDirectoryToWatchList "
" - ReadDirectoryChangesW failed (error %x) for %S.",
dwError, aDirectoryDescriptor->mPath.get());
nsresult rv =
DispatchErrorCallbacks(aDirectoryDescriptor, NS_ERROR_FAILURE, dwError);
if (NS_FAILED(rv)) {
// That's really bad. We failed to watch the directory and failed to
// dispatch the error callbacks.
return NS_ERROR_ABORT;
}
// We failed to watch the directory, but we correctly dispatched the error callbacks.
return NS_ERROR_FAILURE;
}
return NS_OK;
}
/**
* Appends the change and error callbacks to their respective hash tables.
* It also checks if the callbacks are already attached to them.
* @param aPath
* The watched directory path.
* @param aOnChangeHandle
* The callback to invoke when a change is detected.
* @param aOnErrorHandle
* The callback to invoke when an error is detected.
*/
void
NativeFileWatcherIOTask::AppendCallbacksToHashtables(
const nsAString& aPath,
const nsMainThreadPtrHandle<nsINativeFileWatcherCallback>& aOnChangeHandle,
const nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback>& aOnErrorHandle)
{
// First check to see if we've got an entry already.
ChangeCallbackArray* callbacksArray = mChangeCallbacksTable.Get(aPath);
if (!callbacksArray) {
// We don't have an entry. Create an array and put it into the hash table.
callbacksArray = new ChangeCallbackArray();
mChangeCallbacksTable.Put(aPath, callbacksArray);
}
// We do have an entry for that path. Check to see if the callback is
// already there.
ChangeCallbackArray::index_type changeCallbackIndex =
callbacksArray->IndexOf(aOnChangeHandle);
// If the callback is not attached to the descriptor, append it.
if (changeCallbackIndex == ChangeCallbackArray::NoIndex) {
callbacksArray->AppendElement(aOnChangeHandle);
}
// Same thing for the error callback.
ErrorCallbackArray* errorCallbacksArray = mErrorCallbacksTable.Get(aPath);
if (!errorCallbacksArray) {
// We don't have an entry. Create an array and put it into the hash table.
errorCallbacksArray = new ErrorCallbackArray();
mErrorCallbacksTable.Put(aPath, errorCallbacksArray);
}
ErrorCallbackArray::index_type errorCallbackIndex =
errorCallbacksArray->IndexOf(aOnErrorHandle);
if (errorCallbackIndex == ErrorCallbackArray::NoIndex) {
errorCallbacksArray->AppendElement(aOnErrorHandle);
}
}
/**
* Removes the change and error callbacks from their respective hash tables.
* @param aPath
* The watched directory path.
* @param aOnChangeHandle
* The change callback to remove.
* @param aOnErrorHandle
* The error callback to remove.
*/
void
NativeFileWatcherIOTask::RemoveCallbacksFromHashtables(
const nsAString& aPath,
const nsMainThreadPtrHandle<nsINativeFileWatcherCallback>& aOnChangeHandle,
const nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback>& aOnErrorHandle)
{
// Find the change callback array for |aPath|.
ChangeCallbackArray* callbacksArray = mChangeCallbacksTable.Get(aPath);
if (callbacksArray) {
// Remove the change callback.
callbacksArray->RemoveElement(aOnChangeHandle);
}
// Find the error callback array for |aPath|.
ErrorCallbackArray* errorCallbacksArray = mErrorCallbacksTable.Get(aPath);
if (errorCallbacksArray) {
// Remove the error callback.
errorCallbacksArray->RemoveElement(aOnErrorHandle);
}
}
/**
* Creates a string representing the native path for the changed resource.
* It appends the resource name to the path of the changed descriptor by
* using nsILocalFile.
* @param changedDescriptor
* The descriptor of the watched resource.
* @param resourceName
* The resource which triggered the change.
* @param nativeResourcePath
* The full path to the changed resource.
* @return NS_OK if nsILocalFile succeeded in building the path.
*/
nsresult
NativeFileWatcherIOTask::MakeResourcePath(
WatchedResourceDescriptor* changedDescriptor,
const nsAString& resourceName,
nsAString& nativeResourcePath)
{
nsCOMPtr<nsILocalFile>
localPath(do_CreateInstance("@mozilla.org/file/local;1"));
if (!localPath) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::MakeResourcePath - Failed to create a nsILocalFile instance.");
return NS_ERROR_FAILURE;
}
nsresult rv = localPath->InitWithPath(changedDescriptor->mPath);
if (NS_FAILED(rv)) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::MakeResourcePath - Failed to init nsILocalFile with %S (%x).",
changedDescriptor->mPath.get(), rv);
return rv;
}
rv = localPath->AppendRelativePath(resourceName);
if (NS_FAILED(rv)) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::MakeResourcePath - Failed to append to %S (%x).",
changedDescriptor->mPath.get(), rv);
return rv;
}
rv = localPath->GetPath(nativeResourcePath);
if (NS_FAILED(rv)) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::MakeResourcePath - Failed to get native path from nsILocalFile (%x).",
rv);
return rv;
}
return NS_OK;
}
} // anonymous namespace
// The NativeFileWatcherService component
NS_IMPL_ISUPPORTS(NativeFileWatcherService, nsINativeFileWatcherService, nsIObserver);
NativeFileWatcherService::NativeFileWatcherService()
{
}
NativeFileWatcherService::~NativeFileWatcherService()
{
}
/**
* Sets the required resources and starts the watching IO thread.
*
* @return NS_OK if there was no error with thread creation and execution.
*/
nsresult
NativeFileWatcherService::Init()
{
// Creates an IO completion port and allows at most 2 thread to access it concurrently.
AutoCloseHandle completionPort(
CreateIoCompletionPort(INVALID_HANDLE_VALUE, // FileHandle
nullptr, // ExistingCompletionPort
0, // CompletionKey
2)); // NumberOfConcurrentThreads
if (!completionPort) {
return NS_ERROR_FAILURE;
}
// Add an observer for the shutdown.
nsCOMPtr<nsIObserverService> observerService =
mozilla::services::GetObserverService();
if (!observerService) {
return NS_ERROR_FAILURE;
}
observerService->AddObserver(this, "xpcom-shutdown-threads", false);
// Start the IO worker thread.
mWorkerIORunnable = new NativeFileWatcherIOTask(completionPort);
nsresult rv = NS_NewThread(getter_AddRefs(mIOThread), mWorkerIORunnable);
if (NS_FAILED(rv)) {
FILEWATCHERLOG(
"NativeFileWatcherIOTask::Init - Unable to create and dispatch the worker thread (%x).",
rv);
return rv;
}
// Set the name for the worker thread.
NS_SetThreadName(mIOThread, "FileWatcher IO");
mIOCompletionPort = completionPort.forget();
return NS_OK;
}
/**
* Watches a path for changes: monitors the creations, name changes and
* content changes to the files contained in the watched path.
*
* @param aPathToWatch
* The path of the resource to watch for changes.
* @param aOnChange
* The callback to invoke when a change is detected.
* @param aOnError
* The optional callback to invoke when there's an error.
* @param aOnSuccess
* The optional callback to invoke when the file watcher starts
* watching the resource for changes.
*
* @return NS_OK or NS_ERROR_NOT_INITIALIZED if the instance was not initialized.
* Other errors are reported by the error callback function.
*/
NS_IMETHODIMP
NativeFileWatcherService::AddPath(const nsAString& aPathToWatch,
nsINativeFileWatcherCallback* aOnChange,
nsINativeFileWatcherErrorCallback* aOnError,
nsINativeFileWatcherSuccessCallback* aOnSuccess)
{
// Make sure the instance was initialized.
if (!mIOThread) {
return NS_ERROR_NOT_INITIALIZED;
}
// Be sure a valid change callback was passed.
if (!aOnChange) {
return NS_ERROR_NULL_POINTER;
}
nsMainThreadPtrHandle<nsINativeFileWatcherCallback> changeCallbackHandle(
new nsMainThreadPtrHolder<nsINativeFileWatcherCallback>(aOnChange));
nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback> errorCallbackHandle(
new nsMainThreadPtrHolder<nsINativeFileWatcherErrorCallback>(aOnError));
nsMainThreadPtrHandle<nsINativeFileWatcherSuccessCallback> successCallbackHandle(
new nsMainThreadPtrHolder<nsINativeFileWatcherSuccessCallback>(aOnSuccess));
// Wrap the path and the callbacks in order to pass them using NS_NewRunnableMethodWithArg.
UniquePtr<PathRunnablesParametersWrapper> wrappedCallbacks(
new PathRunnablesParametersWrapper(
aPathToWatch,
changeCallbackHandle,
errorCallbackHandle,
successCallbackHandle));
// Since this function does a bit of I/O stuff , run it in the IO thread.
nsresult rv =
mIOThread->Dispatch(
NS_NewRunnableMethodWithArg<PathRunnablesParametersWrapper*>(
static_cast<NativeFileWatcherIOTask*>(mWorkerIORunnable.get()),
&NativeFileWatcherIOTask::AddPathRunnableMethod,
wrappedCallbacks.get()),
nsIEventTarget::DISPATCH_NORMAL);
if (NS_FAILED(rv)) {
return rv;
}
// Since the dispatch succeeded, we let the runnable own the pointer.
wrappedCallbacks.release();
WakeUpWorkerThread();
return NS_OK;
}
/**
* Removes the path from the list of watched resources. Silently ignores the request
* if the path was not being watched or the callbacks were not registered.
*
* @param aPathToRemove
* The path of the resource to remove from the watch list.
* @param aOnChange
* The callback to invoke when a change is detected.
* @param aOnError
* The optionally registered callback invoked when there's an error.
* @param aOnSuccess
* The optional callback to invoke when the file watcher stops
* watching the resource for changes.
*
* @return NS_OK or NS_ERROR_NOT_INITIALIZED if the instance was not initialized.
* Other errors are reported by the error callback function.
*/
NS_IMETHODIMP
NativeFileWatcherService::RemovePath(const nsAString& aPathToRemove,
nsINativeFileWatcherCallback* aOnChange,
nsINativeFileWatcherErrorCallback* aOnError,
nsINativeFileWatcherSuccessCallback* aOnSuccess)
{
// Make sure the instance was initialized.
if (!mIOThread) {
return NS_ERROR_NOT_INITIALIZED;
}
// Be sure a valid change callback was passed.
if (!aOnChange) {
return NS_ERROR_NULL_POINTER;
}
nsMainThreadPtrHandle<nsINativeFileWatcherCallback> changeCallbackHandle(
new nsMainThreadPtrHolder<nsINativeFileWatcherCallback>(aOnChange));
nsMainThreadPtrHandle<nsINativeFileWatcherErrorCallback> errorCallbackHandle(
new nsMainThreadPtrHolder<nsINativeFileWatcherErrorCallback>(aOnError));
nsMainThreadPtrHandle<nsINativeFileWatcherSuccessCallback> successCallbackHandle(
new nsMainThreadPtrHolder<nsINativeFileWatcherSuccessCallback>(aOnSuccess));
// Wrap the path and the callbacks in order to pass them using NS_NewRunnableMethodWithArg.
UniquePtr<PathRunnablesParametersWrapper> wrappedCallbacks(
new PathRunnablesParametersWrapper(
aPathToRemove,
changeCallbackHandle,
errorCallbackHandle,
successCallbackHandle));
// Since this function does a bit of I/O stuff, run it in the IO thread.
nsresult rv =
mIOThread->Dispatch(
NS_NewRunnableMethodWithArg<PathRunnablesParametersWrapper*>(
static_cast<NativeFileWatcherIOTask*>(mWorkerIORunnable.get()),
&NativeFileWatcherIOTask::RemovePathRunnableMethod,
wrappedCallbacks.get()),
nsIEventTarget::DISPATCH_NORMAL);
if (NS_FAILED(rv)) {
return rv;
}
// Since the dispatch succeeded, we let the runnable own the pointer.
wrappedCallbacks.release();
WakeUpWorkerThread();
return NS_OK;
}
/**
* Removes all the watched resources from the watch list and stops the
* watcher thread. Frees all the used resources.
*
* To avoid race conditions, we need a Shutdown Protocol:
*
* 1. [MainThread]
* When the "xpcom-shutdown-threads" event is detected, Uninit() gets called.
* 2. [MainThread]
* Uninit sends DeactivateRunnableMethod() to the WorkerThread.
* 3. [WorkerThread]
* DeactivateRunnableMethod makes it clear to other methods that shutdown is
* in progress, stops the IO completion port wait and schedules the rest of the
* deactivation for after every currently pending method call is complete.
*/
nsresult
NativeFileWatcherService::Uninit()
{
// Make sure the instance was initialized (and not de-initialized yet).
if (!mIOThread) {
return NS_OK;
}
// We need to be sure that there will be no calls to 'mIOThread' once we have entered
// 'Uninit()', even if we exit due to an error.
nsCOMPtr<nsIThread> ioThread;
ioThread.swap(mIOThread);
// Since this function does a bit of I/O stuff (close file handle), run it
// in the IO thread.
nsresult rv =
ioThread->Dispatch(
NS_NewRunnableMethod(
static_cast<NativeFileWatcherIOTask*>(mWorkerIORunnable.get()),
&NativeFileWatcherIOTask::DeactivateRunnableMethod),
nsIEventTarget::DISPATCH_NORMAL);
if (NS_FAILED(rv)) {
return rv;
}
WakeUpWorkerThread();
return NS_OK;
}
/**
* Tells |NativeFileWatcherIOTask| to quit and to reschedule itself in order to
* execute the other runnables enqueued in the worker tread.
* This works by posting a bogus event to the blocking |GetQueuedCompletionStatus|
* call in |NativeFileWatcherIOTask::Run()|.
*/
void
NativeFileWatcherService::WakeUpWorkerThread()
{
// The last 3 parameters represent the number of transferred bytes, the changed
// resource |HANDLE| and the address of the |OVERLAPPED| structure passed to
// GetQueuedCompletionStatus: we set them to nullptr so that we can recognize
// that we requested an interruption from the Worker thread.
PostQueuedCompletionStatus(mIOCompletionPort, 0, 0, nullptr);
}
/**
* This method is used to catch the "xpcom-shutdown-threads" event in order
* to shutdown this service when closing the application.
*/
NS_IMETHODIMP
NativeFileWatcherService::Observe(nsISupports* aSubject, const char* aTopic,
const char16_t* aData)
{
MOZ_ASSERT(NS_IsMainThread());
if (!strcmp("xpcom-shutdown-threads", aTopic)) {
nsresult rv = Uninit();
MOZ_ASSERT(NS_SUCCEEDED(rv));
return NS_OK;
}
MOZ_ASSERT(false, "NativeFileWatcherService got an unexpected topic!");
return NS_ERROR_UNEXPECTED;
}
} // namespace mozilla