media/native/midi/amidi.cpp - LeafOS-Project/android_frameworks_base - Gitiles

 /*
  * Copyright (C) 2018 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #define LOG_TAG "NativeMIDI"

 #include <poll.h>
 #include <unistd.h>

 #include <binder/Binder.h>
 #include <android_util_Binder.h>
 #include <utils/Log.h>

 #include <core_jni_helpers.h>

 #include "android/media/midi/BpMidiDeviceServer.h"
 #include "MidiDeviceInfo.h"

 #include "include/amidi/AMidi.h"
 #include "amidi_internal.h"

 using namespace android::media::midi;

 using android::IBinder;
 using android::BBinder;
 using android::OK;
 using android::sp;
 using android::status_t;
 using android::base::unique_fd;
 using android::binder::Status;

 struct AMIDI_Port {
     std::atomic_int     state;      // One of the port status constants below.
     const AMidiDevice  *device;    // Points to the AMidiDevice associated with the port.
     sp<IBinder>         binderToken;// The Binder token associated with the port.
     unique_fd           ufd;        // The unique file descriptor associated with the port.
 };

 /*
  * Port Status Constants
  */
 enum {
     MIDI_PORT_STATE_CLOSED = 0,
     MIDI_PORT_STATE_OPEN_IDLE,
     MIDI_PORT_STATE_OPEN_ACTIVE
 };

 /*
  * Port Type Constants
  */
 enum {
     PORTTYPE_OUTPUT = 0,
     PORTTYPE_INPUT = 1
 };

 /* TRANSFER PACKET FORMAT (as defined in MidiPortImpl.java)
  *
  * Transfer packet format is as follows (see MidiOutputPort.mThread.run() to see decomposition):
  * |oc|md|md| ......... |md|ts|ts|ts|ts|ts|ts|ts|ts|
  *  ^ +--------------------+-----------------------+
  *  |  ^                    ^
  *  |  |                    |
  *  |  |                    + timestamp (8 bytes)
  *  |  |
  *  |  + MIDI data bytes (numBytes bytes)
  *  |
  *  + OpCode (AMIDI_OPCODE_DATA)
  *
  *  NOTE: The socket pair is configured to use SOCK_SEQPACKET mode.
  *  SOCK_SEQPACKET, for a sequenced-packet socket that is connection-oriented, preserves message
  *  boundaries, and delivers messages in the order that they were sent.
  *  So 'read()' always returns a whole message.
  */
 #define AMIDI_PACKET_SIZE       1024
 #define AMIDI_PACKET_OVERHEAD   9
 #define AMIDI_BUFFER_SIZE       (AMIDI_PACKET_SIZE - AMIDI_PACKET_OVERHEAD)

 // JNI IDs (see android_media_midi.cpp)
 namespace android { namespace midi {
 //  MidiDevice Fields
 extern jfieldID gFidMidiNativeHandle;         // MidiDevice.mNativeHandle
 extern jfieldID gFidMidiDeviceServerBinder;   // MidiDevice.mDeviceServerBinder
 extern jfieldID gFidMidiDeviceInfo;           // MidiDevice.mDeviceInfo

 //  MidiDeviceInfo Fields
 extern jfieldID mFidMidiDeviceId;             // MidiDeviceInfo.mId
 }}
 using namespace android::midi;

 static std::mutex openMutex; // Ensure that the device can be connected just once to 1 thread

 //// Handy debugging function.
 //static void AMIDI_logBuffer(const uint8_t *data, size_t numBytes) {
 //    for (size_t index = 0; index < numBytes; index++) {
 //      ALOGI("  data @%zu [0x%X]", index, data[index]);
 //    }
 //}

 /*
  * Device Functions
  */
 /**
  * Retrieves information for the native MIDI device.
  *
  * device           The Native API token for the device. This value is obtained from the
  *                  AMidiDevice_fromJava().
  * outDeviceInfoPtr Receives the associated device info.
  *
  * Returns AMEDIA_OK or a negative error code.
  *  - AMEDIA_ERROR_INVALID_PARAMETER
  *  AMEDIA_ERROR_UNKNOWN
  */
 static media_status_t AMIDI_getDeviceInfo(const AMidiDevice *device,
         AMidiDeviceInfo *outDeviceInfoPtr) {
     if (device == nullptr) {
         return AMEDIA_ERROR_INVALID_PARAMETER;
     }

     MidiDeviceInfo deviceInfo;
     Status txResult = device->server->getDeviceInfo(&deviceInfo);
     if (!txResult.isOk()) {
         ALOGE("%s server exception code: %d", __func__, txResult.exceptionCode());
         return AMEDIA_ERROR_UNKNOWN;
     }

     outDeviceInfoPtr->type = deviceInfo.getType();
     outDeviceInfoPtr->inputPortCount = deviceInfo.getInputPortNames().size();
     outDeviceInfoPtr->outputPortCount = deviceInfo.getOutputPortNames().size();
     outDeviceInfoPtr->defaultProtocol = deviceInfo.getDefaultProtocol();

     return AMEDIA_OK;
 }

 media_status_t AMIDI_API AMidiDevice_fromJava(JNIEnv *env, jobject j_midiDeviceObj,
         AMidiDevice** devicePtrPtr)
 {
     if (j_midiDeviceObj == nullptr) {
         ALOGE("AMidiDevice_fromJava() invalid MidiDevice object.");
         return AMEDIA_ERROR_INVALID_OBJECT;
     }

     {
         std::lock_guard<std::mutex> guard(openMutex);

         long handle = env->GetLongField(j_midiDeviceObj, gFidMidiNativeHandle);
         if (handle != 0) {
             // Already opened by someone.
             return AMEDIA_ERROR_INVALID_OBJECT;
         }

         jobject serverBinderObj = env->GetObjectField(j_midiDeviceObj, gFidMidiDeviceServerBinder);
         sp<IBinder> serverBinder = android::ibinderForJavaObject(env, serverBinderObj);
         if (serverBinder.get() == nullptr) {
             ALOGE("AMidiDevice_fromJava couldn't connect to native MIDI server.");
             return AMEDIA_ERROR_UNKNOWN;
         }

         // don't check allocation failures, just abort..
         AMidiDevice* devicePtr = new AMidiDevice;
         devicePtr->server = new BpMidiDeviceServer(serverBinder);
         jobject midiDeviceInfoObj = env->GetObjectField(j_midiDeviceObj, gFidMidiDeviceInfo);
         devicePtr->deviceId = env->GetIntField(midiDeviceInfoObj, mFidMidiDeviceId);

         // Synchronize with the associated Java MidiDevice.
         env->SetLongField(j_midiDeviceObj, gFidMidiNativeHandle, (long)devicePtr);
         env->GetJavaVM(&devicePtr->javaVM);
         devicePtr->midiDeviceObj = env->NewGlobalRef(j_midiDeviceObj);

         if (AMIDI_getDeviceInfo(devicePtr, &devicePtr->deviceInfo) != AMEDIA_OK) {
             // This is weird, but maybe not fatal?
             ALOGE("AMidiDevice_fromJava couldn't retrieve attributes of native device.");
         }

         *devicePtrPtr = devicePtr;
     }

     return AMEDIA_OK;
 }

 media_status_t AMIDI_API AMidiDevice_release(const AMidiDevice *device)
 {
     if (device == nullptr || device->midiDeviceObj == nullptr) {
         return AMEDIA_ERROR_INVALID_PARAMETER;
     }

     JNIEnv* env;
     jint err = device->javaVM->GetEnv((void**)&env, JNI_VERSION_1_6);
     LOG_ALWAYS_FATAL_IF(err != JNI_OK, "AMidiDevice_release Error accessing JNIEnv err:%d", err);

     // Synchronize with the associated Java MidiDevice.
     {
         std::lock_guard<std::mutex> guard(openMutex);
         long handle = env->GetLongField(device->midiDeviceObj, gFidMidiNativeHandle);
         if (handle == 0) {
             // Not opened as native.
             ALOGE("AMidiDevice_release() device not opened in native client.");
             return AMEDIA_ERROR_INVALID_OBJECT;
         }

         env->SetLongField(device->midiDeviceObj, gFidMidiNativeHandle, 0L);
     }
     env->DeleteGlobalRef(device->midiDeviceObj);

     delete device;

     return AMEDIA_OK;
 }

 int32_t AMIDI_API AMidiDevice_getType(const AMidiDevice *device) {
     if (device == nullptr) {
         return AMEDIA_ERROR_INVALID_PARAMETER;
     }
     return device->deviceInfo.type;
 }

 ssize_t AMIDI_API AMidiDevice_getNumInputPorts(const AMidiDevice *device) {
     if (device == nullptr) {
         return AMEDIA_ERROR_INVALID_PARAMETER;
     }
     return device->deviceInfo.inputPortCount;
 }

 ssize_t AMIDI_API AMidiDevice_getNumOutputPorts(const AMidiDevice *device) {
     if (device == nullptr) {
         return AMEDIA_ERROR_INVALID_PARAMETER;
     }
     return device->deviceInfo.outputPortCount;
 }

 AMidiDevice_Protocol AMIDI_API AMidiDevice_getDefaultProtocol(const AMidiDevice *device) {
     if (device == nullptr) {
         return AMIDI_DEVICE_PROTOCOL_UNKNOWN;
     }
     return static_cast<AMidiDevice_Protocol>(device->deviceInfo.defaultProtocol);
 }

 /*
  * Port Helpers
  */
 static media_status_t AMIDI_openPort(const AMidiDevice *device, int32_t portNumber, int type,
         AMIDI_Port **portPtr) {
     if (device == nullptr) {
         return AMEDIA_ERROR_INVALID_PARAMETER;
     }

     sp<BBinder> portToken(new BBinder());
     unique_fd ufd;
     Status txResult = type == PORTTYPE_OUTPUT
             ? device->server->openOutputPort(portToken, portNumber, &ufd)
             : device->server->openInputPort(portToken, portNumber, &ufd);
     if (!txResult.isOk()) {
         ALOGE("%s server exception code: %d", __func__, txResult.exceptionCode());
         return AMEDIA_ERROR_UNKNOWN;
     }

     AMIDI_Port *port = new AMIDI_Port;
     port->state = MIDI_PORT_STATE_OPEN_IDLE;
     port->device = device;
     port->binderToken = portToken;
     port->ufd = std::move(ufd);

     *portPtr = port;

     return AMEDIA_OK;
 }

 static void AMIDI_closePort(AMIDI_Port *port) {
     if (port == nullptr) {
         return;
     }

     int portState = MIDI_PORT_STATE_OPEN_IDLE;
     while (!port->state.compare_exchange_weak(portState, MIDI_PORT_STATE_CLOSED)) {
         if (portState == MIDI_PORT_STATE_CLOSED) {
             return; // Already closed
         }
     }

     Status txResult = port->device->server->closePort(port->binderToken);
     if (!txResult.isOk()) {
         ALOGE("%s server exception code: %d", __func__, txResult.exceptionCode());
     }

     delete port;
 }

 /*
  * Output (receiving) API
  */
 media_status_t AMIDI_API AMidiOutputPort_open(const AMidiDevice *device, int32_t portNumber,
         AMidiOutputPort **outOutputPortPtr) {
     return AMIDI_openPort(device, portNumber, PORTTYPE_OUTPUT, (AMIDI_Port**)outOutputPortPtr);
 }

 /*
  *  A little RAII (https://en.wikipedia.org/wiki/Resource_acquisition_is_initialization)
  *  class to ensure that the port state is correct irrespective of errors.
  */
 class MidiReceiver {
 public:
     MidiReceiver(AMIDI_Port *port) : mPort(port) {}

     ~MidiReceiver() {
         // flag the port state to idle
         mPort->state.store(MIDI_PORT_STATE_OPEN_IDLE);
     }

     ssize_t receive(int32_t *opcodePtr, uint8_t *buffer, size_t maxBytes,
             size_t *numBytesReceivedPtr, int64_t *timestampPtr) {
         int portState = MIDI_PORT_STATE_OPEN_IDLE;
         // check to see if the port is idle, then set to active
         if (!mPort->state.compare_exchange_strong(portState, MIDI_PORT_STATE_OPEN_ACTIVE)) {
             // The port not idle or has been closed.
             return AMEDIA_ERROR_UNKNOWN;
         }

         struct pollfd checkFds[1] = { { mPort->ufd, POLLIN, 0 } };
         if (poll(checkFds, 1, 0) < 1) {
             // Nothing there
             return 0;
         }

         uint8_t readBuffer[AMIDI_PACKET_SIZE];
         ssize_t readCount = TEMP_FAILURE_RETRY(read(mPort->ufd, readBuffer, sizeof(readBuffer)));
         if (readCount < 1) {
             return  AMEDIA_ERROR_UNKNOWN;
         }

         // see Packet Format definition at the top of this file.
         size_t numMessageBytes = 0;
         *opcodePtr = readBuffer[0];
         if (*opcodePtr == AMIDI_OPCODE_DATA && readCount >= AMIDI_PACKET_OVERHEAD) {
             numMessageBytes = readCount - AMIDI_PACKET_OVERHEAD;
             numMessageBytes = std::min(maxBytes, numMessageBytes);
             memcpy(buffer, readBuffer + 1, numMessageBytes);
             if (timestampPtr != nullptr) {
                 memcpy(timestampPtr, readBuffer + readCount - sizeof(uint64_t),
                         sizeof(*timestampPtr));
             }
         }
         *numBytesReceivedPtr = numMessageBytes;
         return 1;
     }

 private:
     AMIDI_Port *mPort;
 };

 ssize_t AMIDI_API AMidiOutputPort_receive(const AMidiOutputPort *outputPort, int32_t *opcodePtr,
          uint8_t *buffer, size_t maxBytes, size_t* numBytesReceivedPtr, int64_t *timestampPtr) {

     if (outputPort == nullptr || buffer == nullptr) {
         return -EINVAL;
     }

    return MidiReceiver((AMIDI_Port*)outputPort).receive(opcodePtr, buffer, maxBytes,
            numBytesReceivedPtr, timestampPtr);
 }

 void AMIDI_API AMidiOutputPort_close(const AMidiOutputPort *outputPort) {
     AMIDI_closePort((AMIDI_Port*)outputPort);
 }

 /*
  * Input (sending) API
  */
 media_status_t AMIDI_API AMidiInputPort_open(const AMidiDevice *device, int32_t portNumber,
         AMidiInputPort **outInputPortPtr) {
     return AMIDI_openPort(device, portNumber, PORTTYPE_INPUT, (AMIDI_Port**)outInputPortPtr);
 }

 void AMIDI_API AMidiInputPort_close(const AMidiInputPort *inputPort) {
     AMIDI_closePort((AMIDI_Port*)inputPort);
 }

 static ssize_t AMIDI_makeSendBuffer(
         uint8_t *buffer, const uint8_t *data, size_t numBytes, uint64_t timestamp) {
     // Error checking will happen in the caller since this isn't an API function.
     buffer[0] = AMIDI_OPCODE_DATA;
     memcpy(buffer + 1, data, numBytes);
     memcpy(buffer + 1 + numBytes, &timestamp, sizeof(timestamp));
     return numBytes + AMIDI_PACKET_OVERHEAD;
 }

 ssize_t AMIDI_API AMidiInputPort_send(const AMidiInputPort *inputPort, const uint8_t *buffer,
                             size_t numBytes) {
     return AMidiInputPort_sendWithTimestamp(inputPort, buffer, numBytes, 0);
 }

 ssize_t AMIDI_API AMidiInputPort_sendWithTimestamp(const AMidiInputPort *inputPort,
         const uint8_t *data, size_t numBytes, int64_t timestamp) {
     if (inputPort == nullptr || data == nullptr || numBytes < 0 || timestamp < 0) {
         return AMEDIA_ERROR_INVALID_PARAMETER;
     }

     if (numBytes == 0) {
         return 0;
     }

     // AMIDI_logBuffer(data, numBytes);

     uint8_t writeBuffer[AMIDI_BUFFER_SIZE + AMIDI_PACKET_OVERHEAD];
     size_t numSent = 0;
     while (numSent < numBytes) {
         size_t blockSize = AMIDI_BUFFER_SIZE;
         blockSize = std::min(blockSize, numBytes - numSent);

         ssize_t numTransferBytes =
                 AMIDI_makeSendBuffer(writeBuffer, data + numSent, blockSize, timestamp);
         ssize_t numWritten = TEMP_FAILURE_RETRY(write(((AMIDI_Port*)inputPort)->ufd, writeBuffer,
                                                       numTransferBytes));
         if (numWritten < 0) {
             break;  // error so bail out.
         }
         if (numWritten < numTransferBytes) {
             ALOGE("AMidiInputPort_sendWithTimestamp Couldn't write MIDI data buffer."
                   " requested:%zu, written%zu",numTransferBytes, numWritten);
             break;  // bail
         }

         numSent += numWritten  - AMIDI_PACKET_OVERHEAD;
     }

     return numSent;
 }

 media_status_t AMIDI_API AMidiInputPort_sendFlush(const AMidiInputPort *inputPort) {
     if (inputPort == nullptr) {
         return AMEDIA_ERROR_INVALID_PARAMETER;
     }

     uint8_t opCode = AMIDI_OPCODE_FLUSH;
     ssize_t numTransferBytes = 1;
     ssize_t numWritten = TEMP_FAILURE_RETRY(write(((AMIDI_Port*)inputPort)->ufd, &opCode,
                                                   numTransferBytes));

     if (numWritten < numTransferBytes) {
         ALOGE("AMidiInputPort_flush Couldn't write MIDI flush. requested:%zd, written:%zd",
                 numTransferBytes, numWritten);
         return AMEDIA_ERROR_UNSUPPORTED;
     }

     return AMEDIA_OK;
 }
	/*
	* Copyright (C) 2018 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#define LOG_TAG "NativeMIDI"

	#include <poll.h>
	#include <unistd.h>

	#include <binder/Binder.h>
	#include <android_util_Binder.h>
	#include <utils/Log.h>

	#include <core_jni_helpers.h>

	#include "android/media/midi/BpMidiDeviceServer.h"
	#include "MidiDeviceInfo.h"

	#include "include/amidi/AMidi.h"
	#include "amidi_internal.h"

	using namespace android::media::midi;

	using android::IBinder;
	using android::BBinder;
	using android::OK;
	using android::sp;
	using android::status_t;
	using android::base::unique_fd;
	using android::binder::Status;

	struct AMIDI_Port {
	std::atomic_int state; // One of the port status constants below.
	const AMidiDevice *device; // Points to the AMidiDevice associated with the port.
	sp<IBinder> binderToken;// The Binder token associated with the port.
	unique_fd ufd; // The unique file descriptor associated with the port.
	};

	/*
	* Port Status Constants
	*/
	enum {
	MIDI_PORT_STATE_CLOSED = 0,
	MIDI_PORT_STATE_OPEN_IDLE,
	MIDI_PORT_STATE_OPEN_ACTIVE
	};

	/*
	* Port Type Constants
	*/
	enum {
	PORTTYPE_OUTPUT = 0,
	PORTTYPE_INPUT = 1
	};

	/* TRANSFER PACKET FORMAT (as defined in MidiPortImpl.java)
	*
	* Transfer packet format is as follows (see MidiOutputPort.mThread.run() to see decomposition):
	* \|oc\|md\|md\| ......... \|md\|ts\|ts\|ts\|ts\|ts\|ts\|ts\|ts\|
	* ^ +--------------------+-----------------------+
	* \| ^ ^
	* \| \| \|
	* \| \| + timestamp (8 bytes)
	* \| \|
	* \| + MIDI data bytes (numBytes bytes)
	* \|
	* + OpCode (AMIDI_OPCODE_DATA)
	*
	* NOTE: The socket pair is configured to use SOCK_SEQPACKET mode.
	* SOCK_SEQPACKET, for a sequenced-packet socket that is connection-oriented, preserves message
	* boundaries, and delivers messages in the order that they were sent.
	* So 'read()' always returns a whole message.
	*/
	#define AMIDI_PACKET_SIZE 1024
	#define AMIDI_PACKET_OVERHEAD 9
	#define AMIDI_BUFFER_SIZE (AMIDI_PACKET_SIZE - AMIDI_PACKET_OVERHEAD)

	// JNI IDs (see android_media_midi.cpp)
	namespace android { namespace midi {
	// MidiDevice Fields
	extern jfieldID gFidMidiNativeHandle; // MidiDevice.mNativeHandle
	extern jfieldID gFidMidiDeviceServerBinder; // MidiDevice.mDeviceServerBinder
	extern jfieldID gFidMidiDeviceInfo; // MidiDevice.mDeviceInfo

	// MidiDeviceInfo Fields
	extern jfieldID mFidMidiDeviceId; // MidiDeviceInfo.mId
	}}
	using namespace android::midi;

	static std::mutex openMutex; // Ensure that the device can be connected just once to 1 thread

	//// Handy debugging function.
	//static void AMIDI_logBuffer(const uint8_t *data, size_t numBytes) {
	// for (size_t index = 0; index < numBytes; index++) {
	// ALOGI(" data @%zu [0x%X]", index, data[index]);
	// }
	//}

	/*
	* Device Functions
	*/
	/**
	* Retrieves information for the native MIDI device.
	*
	* device The Native API token for the device. This value is obtained from the
	* AMidiDevice_fromJava().
	* outDeviceInfoPtr Receives the associated device info.
	*
	* Returns AMEDIA_OK or a negative error code.
	* - AMEDIA_ERROR_INVALID_PARAMETER
	* AMEDIA_ERROR_UNKNOWN
	*/
	static media_status_t AMIDI_getDeviceInfo(const AMidiDevice *device,
	AMidiDeviceInfo *outDeviceInfoPtr) {
	if (device == nullptr) {
	return AMEDIA_ERROR_INVALID_PARAMETER;
	}

	MidiDeviceInfo deviceInfo;
	Status txResult = device->server->getDeviceInfo(&deviceInfo);
	if (!txResult.isOk()) {
	ALOGE("%s server exception code: %d", __func__, txResult.exceptionCode());
	return AMEDIA_ERROR_UNKNOWN;
	}

	outDeviceInfoPtr->type = deviceInfo.getType();
	outDeviceInfoPtr->inputPortCount = deviceInfo.getInputPortNames().size();
	outDeviceInfoPtr->outputPortCount = deviceInfo.getOutputPortNames().size();
	outDeviceInfoPtr->defaultProtocol = deviceInfo.getDefaultProtocol();

	return AMEDIA_OK;
	}

	media_status_t AMIDI_API AMidiDevice_fromJava(JNIEnv *env, jobject j_midiDeviceObj,
	AMidiDevice** devicePtrPtr)
	{
	if (j_midiDeviceObj == nullptr) {
	ALOGE("AMidiDevice_fromJava() invalid MidiDevice object.");
	return AMEDIA_ERROR_INVALID_OBJECT;
	}

	{
	std::lock_guard<std::mutex> guard(openMutex);

	long handle = env->GetLongField(j_midiDeviceObj, gFidMidiNativeHandle);
	if (handle != 0) {
	// Already opened by someone.
	return AMEDIA_ERROR_INVALID_OBJECT;
	}

	jobject serverBinderObj = env->GetObjectField(j_midiDeviceObj, gFidMidiDeviceServerBinder);
	sp<IBinder> serverBinder = android::ibinderForJavaObject(env, serverBinderObj);
	if (serverBinder.get() == nullptr) {
	ALOGE("AMidiDevice_fromJava couldn't connect to native MIDI server.");
	return AMEDIA_ERROR_UNKNOWN;
	}

	// don't check allocation failures, just abort..
	AMidiDevice* devicePtr = new AMidiDevice;
	devicePtr->server = new BpMidiDeviceServer(serverBinder);
	jobject midiDeviceInfoObj = env->GetObjectField(j_midiDeviceObj, gFidMidiDeviceInfo);
	devicePtr->deviceId = env->GetIntField(midiDeviceInfoObj, mFidMidiDeviceId);

	// Synchronize with the associated Java MidiDevice.
	env->SetLongField(j_midiDeviceObj, gFidMidiNativeHandle, (long)devicePtr);
	env->GetJavaVM(&devicePtr->javaVM);
	devicePtr->midiDeviceObj = env->NewGlobalRef(j_midiDeviceObj);

	if (AMIDI_getDeviceInfo(devicePtr, &devicePtr->deviceInfo) != AMEDIA_OK) {
	// This is weird, but maybe not fatal?
	ALOGE("AMidiDevice_fromJava couldn't retrieve attributes of native device.");
	}

	*devicePtrPtr = devicePtr;
	}

	return AMEDIA_OK;
	}

	media_status_t AMIDI_API AMidiDevice_release(const AMidiDevice *device)
	{
	if (device == nullptr \|\| device->midiDeviceObj == nullptr) {
	return AMEDIA_ERROR_INVALID_PARAMETER;
	}

	JNIEnv* env;
	jint err = device->javaVM->GetEnv((void**)&env, JNI_VERSION_1_6);
	LOG_ALWAYS_FATAL_IF(err != JNI_OK, "AMidiDevice_release Error accessing JNIEnv err:%d", err);

	// Synchronize with the associated Java MidiDevice.
	{
	std::lock_guard<std::mutex> guard(openMutex);
	long handle = env->GetLongField(device->midiDeviceObj, gFidMidiNativeHandle);
	if (handle == 0) {
	// Not opened as native.
	ALOGE("AMidiDevice_release() device not opened in native client.");
	return AMEDIA_ERROR_INVALID_OBJECT;
	}

	env->SetLongField(device->midiDeviceObj, gFidMidiNativeHandle, 0L);
	}
	env->DeleteGlobalRef(device->midiDeviceObj);

	delete device;

	return AMEDIA_OK;
	}

	int32_t AMIDI_API AMidiDevice_getType(const AMidiDevice *device) {
	if (device == nullptr) {
	return AMEDIA_ERROR_INVALID_PARAMETER;
	}
	return device->deviceInfo.type;
	}

	ssize_t AMIDI_API AMidiDevice_getNumInputPorts(const AMidiDevice *device) {
	if (device == nullptr) {
	return AMEDIA_ERROR_INVALID_PARAMETER;
	}
	return device->deviceInfo.inputPortCount;
	}

	ssize_t AMIDI_API AMidiDevice_getNumOutputPorts(const AMidiDevice *device) {
	if (device == nullptr) {
	return AMEDIA_ERROR_INVALID_PARAMETER;
	}
	return device->deviceInfo.outputPortCount;
	}

	AMidiDevice_Protocol AMIDI_API AMidiDevice_getDefaultProtocol(const AMidiDevice *device) {
	if (device == nullptr) {
	return AMIDI_DEVICE_PROTOCOL_UNKNOWN;
	}
	return static_cast<AMidiDevice_Protocol>(device->deviceInfo.defaultProtocol);
	}

	/*
	* Port Helpers
	*/
	static media_status_t AMIDI_openPort(const AMidiDevice *device, int32_t portNumber, int type,
	AMIDI_Port **portPtr) {
	if (device == nullptr) {
	return AMEDIA_ERROR_INVALID_PARAMETER;
	}

	sp<BBinder> portToken(new BBinder());
	unique_fd ufd;
	Status txResult = type == PORTTYPE_OUTPUT
	? device->server->openOutputPort(portToken, portNumber, &ufd)
	: device->server->openInputPort(portToken, portNumber, &ufd);
	if (!txResult.isOk()) {
	ALOGE("%s server exception code: %d", __func__, txResult.exceptionCode());
	return AMEDIA_ERROR_UNKNOWN;
	}

	AMIDI_Port *port = new AMIDI_Port;
	port->state = MIDI_PORT_STATE_OPEN_IDLE;
	port->device = device;
	port->binderToken = portToken;
	port->ufd = std::move(ufd);

	*portPtr = port;

	return AMEDIA_OK;
	}

	static void AMIDI_closePort(AMIDI_Port *port) {
	if (port == nullptr) {
	return;
	}

	int portState = MIDI_PORT_STATE_OPEN_IDLE;
	while (!port->state.compare_exchange_weak(portState, MIDI_PORT_STATE_CLOSED)) {
	if (portState == MIDI_PORT_STATE_CLOSED) {
	return; // Already closed
	}
	}

	Status txResult = port->device->server->closePort(port->binderToken);
	if (!txResult.isOk()) {
	ALOGE("%s server exception code: %d", __func__, txResult.exceptionCode());
	}

	delete port;
	}

	/*
	* Output (receiving) API
	*/
	media_status_t AMIDI_API AMidiOutputPort_open(const AMidiDevice *device, int32_t portNumber,
	AMidiOutputPort **outOutputPortPtr) {
	return AMIDI_openPort(device, portNumber, PORTTYPE_OUTPUT, (AMIDI_Port**)outOutputPortPtr);
	}

	/*
	* A little RAII (https://en.wikipedia.org/wiki/Resource_acquisition_is_initialization)
	* class to ensure that the port state is correct irrespective of errors.
	*/
	class MidiReceiver {
	public:
	MidiReceiver(AMIDI_Port *port) : mPort(port) {}

	~MidiReceiver() {
	// flag the port state to idle
	mPort->state.store(MIDI_PORT_STATE_OPEN_IDLE);
	}

	ssize_t receive(int32_t opcodePtr, uint8_t buffer, size_t maxBytes,
	size_t numBytesReceivedPtr, int64_t timestampPtr) {
	int portState = MIDI_PORT_STATE_OPEN_IDLE;
	// check to see if the port is idle, then set to active
	if (!mPort->state.compare_exchange_strong(portState, MIDI_PORT_STATE_OPEN_ACTIVE)) {
	// The port not idle or has been closed.
	return AMEDIA_ERROR_UNKNOWN;
	}

	struct pollfd checkFds[1] = { { mPort->ufd, POLLIN, 0 } };
	if (poll(checkFds, 1, 0) < 1) {
	// Nothing there
	return 0;
	}

	uint8_t readBuffer[AMIDI_PACKET_SIZE];
	ssize_t readCount = TEMP_FAILURE_RETRY(read(mPort->ufd, readBuffer, sizeof(readBuffer)));
	if (readCount < 1) {
	return AMEDIA_ERROR_UNKNOWN;
	}

	// see Packet Format definition at the top of this file.
	size_t numMessageBytes = 0;
	*opcodePtr = readBuffer[0];
	if (*opcodePtr == AMIDI_OPCODE_DATA && readCount >= AMIDI_PACKET_OVERHEAD) {
	numMessageBytes = readCount - AMIDI_PACKET_OVERHEAD;
	numMessageBytes = std::min(maxBytes, numMessageBytes);
	memcpy(buffer, readBuffer + 1, numMessageBytes);
	if (timestampPtr != nullptr) {
	memcpy(timestampPtr, readBuffer + readCount - sizeof(uint64_t),
	sizeof(*timestampPtr));
	}
	}
	*numBytesReceivedPtr = numMessageBytes;
	return 1;
	}

	private:
	AMIDI_Port *mPort;
	};

	ssize_t AMIDI_API AMidiOutputPort_receive(const AMidiOutputPort outputPort, int32_t opcodePtr,
	uint8_t buffer, size_t maxBytes, size_t numBytesReceivedPtr, int64_t *timestampPtr) {

	if (outputPort == nullptr \|\| buffer == nullptr) {
	return -EINVAL;
	}

	return MidiReceiver((AMIDI_Port*)outputPort).receive(opcodePtr, buffer, maxBytes,
	numBytesReceivedPtr, timestampPtr);
	}

	void AMIDI_API AMidiOutputPort_close(const AMidiOutputPort *outputPort) {
	AMIDI_closePort((AMIDI_Port*)outputPort);
	}

	/*
	* Input (sending) API
	*/
	media_status_t AMIDI_API AMidiInputPort_open(const AMidiDevice *device, int32_t portNumber,
	AMidiInputPort **outInputPortPtr) {
	return AMIDI_openPort(device, portNumber, PORTTYPE_INPUT, (AMIDI_Port**)outInputPortPtr);
	}

	void AMIDI_API AMidiInputPort_close(const AMidiInputPort *inputPort) {
	AMIDI_closePort((AMIDI_Port*)inputPort);
	}

	static ssize_t AMIDI_makeSendBuffer(
	uint8_t buffer, const uint8_t data, size_t numBytes, uint64_t timestamp) {
	// Error checking will happen in the caller since this isn't an API function.
	buffer[0] = AMIDI_OPCODE_DATA;
	memcpy(buffer + 1, data, numBytes);
	memcpy(buffer + 1 + numBytes, &timestamp, sizeof(timestamp));
	return numBytes + AMIDI_PACKET_OVERHEAD;
	}

	ssize_t AMIDI_API AMidiInputPort_send(const AMidiInputPort inputPort, const uint8_t buffer,
	size_t numBytes) {
	return AMidiInputPort_sendWithTimestamp(inputPort, buffer, numBytes, 0);
	}

	ssize_t AMIDI_API AMidiInputPort_sendWithTimestamp(const AMidiInputPort *inputPort,
	const uint8_t *data, size_t numBytes, int64_t timestamp) {
	if (inputPort == nullptr \|\| data == nullptr \|\| numBytes < 0 \|\| timestamp < 0) {
	return AMEDIA_ERROR_INVALID_PARAMETER;
	}

	if (numBytes == 0) {
	return 0;
	}

	// AMIDI_logBuffer(data, numBytes);

	uint8_t writeBuffer[AMIDI_BUFFER_SIZE + AMIDI_PACKET_OVERHEAD];
	size_t numSent = 0;
	while (numSent < numBytes) {
	size_t blockSize = AMIDI_BUFFER_SIZE;
	blockSize = std::min(blockSize, numBytes - numSent);

	ssize_t numTransferBytes =
	AMIDI_makeSendBuffer(writeBuffer, data + numSent, blockSize, timestamp);
	ssize_t numWritten = TEMP_FAILURE_RETRY(write(((AMIDI_Port*)inputPort)->ufd, writeBuffer,
	numTransferBytes));
	if (numWritten < 0) {
	break; // error so bail out.
	}
	if (numWritten < numTransferBytes) {
	ALOGE("AMidiInputPort_sendWithTimestamp Couldn't write MIDI data buffer."
	" requested:%zu, written%zu",numTransferBytes, numWritten);
	break; // bail
	}

	numSent += numWritten - AMIDI_PACKET_OVERHEAD;
	}

	return numSent;
	}

	media_status_t AMIDI_API AMidiInputPort_sendFlush(const AMidiInputPort *inputPort) {
	if (inputPort == nullptr) {
	return AMEDIA_ERROR_INVALID_PARAMETER;
	}

	uint8_t opCode = AMIDI_OPCODE_FLUSH;
	ssize_t numTransferBytes = 1;
	ssize_t numWritten = TEMP_FAILURE_RETRY(write(((AMIDI_Port*)inputPort)->ufd, &opCode,
	numTransferBytes));

	if (numWritten < numTransferBytes) {
	ALOGE("AMidiInputPort_flush Couldn't write MIDI flush. requested:%zd, written:%zd",
	numTransferBytes, numWritten);
	return AMEDIA_ERROR_UNSUPPORTED;
	}

	return AMEDIA_OK;
	}