/* * BRLTTY - A background process providing access to the console screen (when in * text mode) for a blind person using a refreshable braille display. * * Copyright (C) 1995-2019 by The BRLTTY Developers. * * BRLTTY comes with ABSOLUTELY NO WARRANTY. * * This is free software, placed under the terms of the * GNU Lesser General Public License, as published by the Free Software * Foundation; either version 2.1 of the License, or (at your option) any * later version. Please see the file LICENSE-LGPL for details. * * Web Page: http://brltty.app/ * * This software is maintained by Dave Mielke . */ #include "prologue.h" #include #include "log.h" #include "pcm.h" #include "system_java.h" struct PcmDeviceStruct { JNIEnv *env; jobject device; }; static jclass pcmDeviceClass = NULL; static int findPcmDeviceClass (JNIEnv *env) { return findJavaClass(env, &pcmDeviceClass, JAVA_OBJ_BRLTTY("PcmDevice")); } PcmDevice * openPcmDevice (int errorLevel, const char *device) { PcmDevice *pcm = malloc(sizeof(*pcm)); if (pcm) { memset(pcm, 0, sizeof(*pcm)); pcm->env = getJavaNativeInterface(); pcm->device = NULL; if (findPcmDeviceClass(pcm->env)) { static jmethodID constructor = 0; if (findJavaConstructor(pcm->env, &constructor, pcmDeviceClass, JAVA_SIG_CONSTRUCTOR())) { jobject localReference = (*pcm->env)->NewObject(pcm->env, pcmDeviceClass, constructor); if (!clearJavaException(pcm->env, 1)) { jobject globalReference = (*pcm->env)->NewGlobalRef(pcm->env, localReference); (*pcm->env)->DeleteLocalRef(pcm->env, localReference); localReference = NULL; if (globalReference) { pcm->device = globalReference; return pcm; } else { logMallocError(); clearJavaException(pcm->env, 0); } } } } free(pcm); } else { logMallocError(); } return NULL; } void closePcmDevice (PcmDevice *pcm) { if (pcm) { if (pcm->device) { if (findPcmDeviceClass(pcm->env)) { static jmethodID method = 0; if (findJavaInstanceMethod(pcm->env, &method, pcmDeviceClass, "close", JAVA_SIG_METHOD(JAVA_SIG_VOID, ))) { (*pcm->env)->CallVoidMethod(pcm->env, pcm->device, method); clearJavaException(pcm->env, 1); } } (*pcm->env)->DeleteGlobalRef(pcm->env, pcm->device); } free(pcm); } } int writePcmData (PcmDevice *pcm, const unsigned char *buffer, int count) { if (findPcmDeviceClass(pcm->env)) { static jmethodID method = 0; if (findJavaInstanceMethod(pcm->env, &method, pcmDeviceClass, "write", JAVA_SIG_METHOD(JAVA_SIG_BOOLEAN, JAVA_SIG_ARRAY(JAVA_SIG_SHORT) // samples ))) { jint size = count / 2; jshortArray jSamples = (*pcm->env)->NewShortArray(pcm->env, size); if (jSamples) { typedef union { const unsigned char *bytes; const int16_t *actual; } Samples; Samples samples = { .bytes = buffer }; jboolean result; (*pcm->env)->SetShortArrayRegion(pcm->env, jSamples, 0, size, samples.actual); result = (*pcm->env)->CallBooleanMethod(pcm->env, pcm->device, method, jSamples); (*pcm->env)->DeleteLocalRef(pcm->env, jSamples); if (!clearJavaException(pcm->env, 1)) { if (result == JNI_TRUE) { return 1; } } } else { logMallocError(); clearJavaException(pcm->env, 0); } } } return 0; } int getPcmBlockSize (PcmDevice *pcm) { if (findPcmDeviceClass(pcm->env)) { static jmethodID method = 0; if (findJavaInstanceMethod(pcm->env, &method, pcmDeviceClass, "getBufferSize", JAVA_SIG_METHOD(JAVA_SIG_INT, ))) { jint result = (*pcm->env)->CallIntMethod(pcm->env, pcm->device, method); if (!clearJavaException(pcm->env, 1)) return result; } } return 0X100; } int getPcmSampleRate (PcmDevice *pcm) { if (findPcmDeviceClass(pcm->env)) { static jmethodID method = 0; if (findJavaInstanceMethod(pcm->env, &method, pcmDeviceClass, "getSampleRate", JAVA_SIG_METHOD(JAVA_SIG_INT, ))) { jint result = (*pcm->env)->CallIntMethod(pcm->env, pcm->device, method); if (!clearJavaException(pcm->env, 1)) return result; } } return 8000; } int setPcmSampleRate (PcmDevice *pcm, int rate) { if (findPcmDeviceClass(pcm->env)) { static jmethodID method = 0; if (findJavaInstanceMethod(pcm->env, &method, pcmDeviceClass, "setSampleRate", JAVA_SIG_METHOD(JAVA_SIG_VOID, JAVA_SIG_INT // rate ))) { (*pcm->env)->CallVoidMethod(pcm->env, pcm->device, method, rate); clearJavaException(pcm->env, 1); } } return getPcmSampleRate(pcm); } int getPcmChannelCount (PcmDevice *pcm) { if (findPcmDeviceClass(pcm->env)) { static jmethodID method = 0; if (findJavaInstanceMethod(pcm->env, &method, pcmDeviceClass, "getChannelCount", JAVA_SIG_METHOD(JAVA_SIG_INT, ))) { jint result = (*pcm->env)->CallIntMethod(pcm->env, pcm->device, method); if (!clearJavaException(pcm->env, 1)) return result; } } return 1; } int setPcmChannelCount (PcmDevice *pcm, int channels) { if (findPcmDeviceClass(pcm->env)) { static jmethodID method = 0; if (findJavaInstanceMethod(pcm->env, &method, pcmDeviceClass, "setChannelCount", JAVA_SIG_METHOD(JAVA_SIG_VOID, JAVA_SIG_INT // count ))) { (*pcm->env)->CallVoidMethod(pcm->env, pcm->device, method, channels); clearJavaException(pcm->env, 1); } } return getPcmChannelCount(pcm); } PcmAmplitudeFormat getPcmAmplitudeFormat (PcmDevice *pcm) { return PCM_FMT_S16N; } PcmAmplitudeFormat setPcmAmplitudeFormat (PcmDevice *pcm, PcmAmplitudeFormat format) { return getPcmAmplitudeFormat(pcm); } void pushPcmOutput (PcmDevice *pcm) { if (findPcmDeviceClass(pcm->env)) { static jmethodID method = 0; if (findJavaInstanceMethod(pcm->env, &method, pcmDeviceClass, "push", JAVA_SIG_METHOD(JAVA_SIG_VOID, ))) { (*pcm->env)->CallVoidMethod(pcm->env, pcm->device, method); clearJavaException(pcm->env, 1); } } } void awaitPcmOutput (PcmDevice *pcm) { } void cancelPcmOutput (PcmDevice *pcm) { if (findPcmDeviceClass(pcm->env)) { static jmethodID method = 0; if (findJavaInstanceMethod(pcm->env, &method, pcmDeviceClass, "cancel", JAVA_SIG_METHOD(JAVA_SIG_VOID, ))) { (*pcm->env)->CallVoidMethod(pcm->env, pcm->device, method); clearJavaException(pcm->env, 1); } } }