threadsafe_function.md 11 KB

ThreadSafeFunction

JavaScript functions can normally only be called from a native addon's main thread. If an addon creates additional threads, then node-addon-api functions that require a Napi::Env, Napi::Value, or Napi::Reference must not be called from those threads.

When an addon has additional threads and JavaScript functions need to be invoked based on the processing completed by those threads, those threads must communicate with the addon's main thread so that the main thread can invoke the JavaScript function on their behalf. The thread-safe function APIs provide an easy way to do this.

These APIs provide the type Napi::ThreadSafeFunction as well as APIs to create, destroy, and call objects of this type. Napi::ThreadSafeFunction::New() creates a persistent reference that holds a JavaScript function which can be called from multiple threads. The calls happen asynchronously. This means that values with which the JavaScript callback is to be called will be placed in a queue, and, for each value in the queue, a call will eventually be made to the JavaScript function.

Napi::ThreadSafeFunction objects are destroyed when every thread which uses the object has called Release() or has received a return status of napi_closing in response to a call to BlockingCall() or NonBlockingCall(). The queue is emptied before the Napi::ThreadSafeFunction is destroyed. It is important that Release() be the last API call made in conjunction with a given Napi::ThreadSafeFunction, because after the call completes, there is no guarantee that the Napi::ThreadSafeFunction is still allocated. For the same reason it is also important that no more use be made of a thread-safe function after receiving a return value of napi_closing in response to a call to BlockingCall() or NonBlockingCall(). Data associated with the Napi::ThreadSafeFunction can be freed in its Finalizer callback which was passed to ThreadSafeFunction::New().

Once the number of threads making use of a Napi::ThreadSafeFunction reaches zero, no further threads can start making use of it by calling Acquire(). In fact, all subsequent API calls associated with it, except Release(), will return an error value of napi_closing.

Methods

Constructor

Creates a new empty instance of Napi::ThreadSafeFunction.

Napi::Function::ThreadSafeFunction();

Constructor

Creates a new instance of the Napi::ThreadSafeFunction object.

Napi::ThreadSafeFunction::ThreadSafeFunction(napi_threadsafe_function tsfn);
  • tsfn: The napi_threadsafe_function which is a handle for an existing thread-safe function.

Returns a non-empty Napi::ThreadSafeFunction instance.

New

Creates a new instance of the Napi::ThreadSafeFunction object. The New function has several overloads for the various optional parameters: skip the optional parameter for that specific overload.

New(napi_env env,
    const Function& callback,
    const Object& resource,
    ResourceString resourceName,
    size_t maxQueueSize,
    size_t initialThreadCount,
    ContextType* context,
    Finalizer finalizeCallback,
    FinalizerDataType* data);
  • env: The napi_env environment in which to construct the Napi::ThreadSafeFunction object.
  • callback: The Function to call from another thread.
  • [optional] resource: An object associated with the async work that will be passed to possible async_hooks init hooks.
  • resourceName: A JavaScript string to provide an identifier for the kind of resource that is being provided for diagnostic information exposed by the async_hooks API.
  • maxQueueSize: Maximum size of the queue. 0 for no limit.
  • initialThreadCount: The initial number of threads, including the main thread, which will be making use of this function.
  • [optional] context: Data to attach to the resulting ThreadSafeFunction.
  • [optional] finalizeCallback: Function to call when the ThreadSafeFunction is being destroyed. This callback will be invoked on the main thread when the thread-safe function is about to be destroyed. It receives the context and the finalize data given during construction (if given), and provides an opportunity for cleaning up after the threads e.g. by calling uv_thread_join(). It is important that, aside from the main loop thread, there be no threads left using the thread-safe function after the finalize callback completes. Must implement void operator()(Env env, DataType* data, Context* hint), skipping data or hint if they are not provided. Can be retreived via GetContext().
  • [optional] data: Data to be passed to finalizeCallback.

Returns a non-empty Napi::ThreadSafeFunction instance.

Acquire

Add a thread to this thread-safe function object, indicating that a new thread will start making use of the thread-safe function.

napi_status Napi::ThreadSafeFunction::Acquire()

Returns one of:

  • napi_ok: The thread has successfully acquired the thread-safe function for its use.
  • napi_closing: The thread-safe function has been marked as closing via a previous call to Abort().

Release

Indicate that an existing thread will stop making use of the thread-safe function. A thread should call this API when it stops making use of this thread-safe function. Using any thread-safe APIs after having called this API has undefined results in the current thread, as it may have been destroyed.

napi_status Napi::ThreadSafeFunction::Release()

Returns one of:

  • napi_ok: The thread-safe function has been successfully released.
  • napi_invalid_arg: The thread-safe function's thread-count is zero.
  • napi_generic_failure: A generic error occurred when attemping to release the thread-safe function.

Abort

"Abort" the thread-safe function. This will cause all subsequent APIs associated with the thread-safe function except Release() to return napi_closing even before its reference count reaches zero. In particular, BlockingCall and NonBlockingCall() will return napi_closing, thus informing the threads that it is no longer possible to make asynchronous calls to the thread-safe function. This can be used as a criterion for terminating the thread. Upon receiving a return value of napi_closing from a thread-safe function call a thread must make no further use of the thread-safe function because it is no longer guaranteed to be allocated.

napi_status Napi::ThreadSafeFunction::Abort()

Returns one of:

  • napi_ok: The thread-safe function has been successfully aborted.
  • napi_invalid_arg: The thread-safe function's thread-count is zero.
  • napi_generic_failure: A generic error occurred when attemping to abort the thread-safe function.

BlockingCall / NonBlockingCall

Calls the Javascript function in either a blocking or non-blocking fashion.

  • BlockingCall(): the API blocks until space becomes available in the queue. Will never block if the thread-safe function was created with a maximum queue size of 0.
  • NonBlockingCall(): will return napi_queue_full if the queue was full, preventing data from being successfully added to the queue.

There are several overloaded implementations of BlockingCall() and NonBlockingCall() for use with optional parameters: skip the optional parameter for that specific overload.

napi_status Napi::ThreadSafeFunction::BlockingCall(DataType* data, Callback callback) const

napi_status Napi::ThreadSafeFunction::NonBlockingCall(DataType* data, Callback callback) const
  • [optional] data: Data to pass to callback.
  • [optional] callback: C++ function that is invoked on the main thread. The callback receives the ThreadSafeFunction's JavaScript callback function to call as an Napi::Function in its parameters and the DataType* data pointer (if provided). Must implement void operator()(Napi::Env env, Function jsCallback, DataType* data), skipping data if not provided. It is not necessary to call into JavaScript via MakeCallback() because N-API runs callback in a context appropriate for callbacks.

Returns one of:

  • napi_ok: The call was successfully added to the queue.
  • napi_queue_full: The queue was full when trying to call in a non-blocking method.
  • napi_closing: The thread-safe function is aborted and cannot accept more calls.
  • napi_invalid_arg: The thread-safe function is closed.
  • napi_generic_failure: A generic error occurred when attemping to add to the queue.

Example

#include <chrono>
#include <thread>
#include <napi.h>

using namespace Napi;

std::thread nativeThread;
ThreadSafeFunction tsfn;

Value Start( const CallbackInfo& info )
{
  Napi::Env env = info.Env();

  if ( info.Length() < 2 )
  {
    throw TypeError::New( env, "Expected two arguments" );
  }
  else if ( !info[0].IsFunction() )
  {
    throw TypeError::New( env, "Expected first arg to be function" );
  }
  else if ( !info[1].IsNumber() )
  {
    throw TypeError::New( env, "Expected second arg to be number" );
  }

  int count = info[1].As<Number>().Int32Value();

  // Create a ThreadSafeFunction
  tsfn = ThreadSafeFunction::New(
      env,
      info[0].As<Function>(),  // JavaScript function called asynchronously
      "Resource Name",         // Name
      0,                       // Unlimited queue
      1,                       // Only one thread will use this initially
      []( Napi::Env ) {        // Finalizer used to clean threads up
        nativeThread.join();
      } );

  // Create a native thread
  nativeThread = std::thread( [count] {
    auto callback = []( Napi::Env env, Function jsCallback, int* value ) {
      // Transform native data into JS data, passing it to the provided 
      // `jsCallback` -- the TSFN's JavaScript function.
      jsCallback.Call( {Number::New( env, *value )} );
      
      // We're finished with the data.
      delete value;
    };

    for ( int i = 0; i < count; i++ )
    {
      // Create new data
      int* value = new int( clock() );

      // Perform a blocking call
      napi_status status = tsfn.BlockingCall( value, callback );
      if ( status != napi_ok )
      {
        // Handle error
        break;
      }

      std::this_thread::sleep_for( std::chrono::seconds( 1 ) );
    }

    // Release the thread-safe function
    tsfn.Release();
  } );

  return Boolean::New(env, true);
}

Napi::Object Init( Napi::Env env, Object exports )
{
  exports.Set( "start", Function::New( env, Start ) );
  return exports;
}

NODE_API_MODULE( clock, Init )

The above code can be used from JavaScript as follows:

const { start } = require('bindings')('clock');

start(function () {
    console.log("JavaScript callback called with arguments", Array.from(arguments));
}, 5);

When executed, the output will show the value of clock() five times at one second intervals:

JavaScript callback called with arguments [ 84745 ]
JavaScript callback called with arguments [ 103211 ]
JavaScript callback called with arguments [ 104516 ]
JavaScript callback called with arguments [ 105104 ]
JavaScript callback called with arguments [ 105691 ]