/**************************************************************************** * boards/arm/cxd56xx/drivers/audio/cxd56_audio_volume.c * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you 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. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include "cxd56_audio_config.h" #include "cxd56_audio_ac_reg.h" #include "cxd56_audio_analog.h" #include "cxd56_audio_volume.h" /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* Number of volume device. */ #define VOLUME_NUM 3 /* Maximum value. */ #define VOLUME_MAX 120 /* Minimum value. */ #define VOLUME_MIN -1020 /* Mute volume. */ #define VOLUME_MUTE -1025 #define MUTE_BIT_API 0x01 #define MUTE_BIT_FADE 0x02 #define MUTE_VOL_REG 0x33 #define VOL_WAIT_TIME 20 #define VOL_TO_REG(vol) (((vol) / 5) & 0xff) #define VOL_MUTE_TIME(vol, n_cycle) \ (((VOL_TO_REG(vol) - MUTE_VOL_REG) & 0xff) * (n_cycle + 1) * 4 / 48 * 1000) /**************************************************************************** * Private Type ****************************************************************************/ struct set_vol_prm_s { int16_t hold_vol; uint8_t mute_bit; }; /**************************************************************************** * Private Data ****************************************************************************/ static struct set_vol_prm_s g_volparam[VOLUME_NUM] = { {VOLUME_MUTE, MUTE_BIT_API}, {VOLUME_MUTE, MUTE_BIT_API}, {VOLUME_MUTE, MUTE_BIT_API} }; /**************************************************************************** * Private Functions ****************************************************************************/ static CXD56_AUDIO_ECODE set_mute(cxd56_audio_volid_t id, bool wait, uint8_t type) { uint32_t waittime = 0; waittime = VOL_MUTE_TIME(g_volparam[id].hold_vol, 1); if (g_volparam[id].mute_bit == 0) { switch (id) { case CXD56_AUDIO_VOLID_MIXER_IN1: cxd56_audio_ac_reg_set_vol_sdin1(MUTE_VOL_REG); break; case CXD56_AUDIO_VOLID_MIXER_IN2: cxd56_audio_ac_reg_set_vol_sdin2(MUTE_VOL_REG); break; default: cxd56_audio_ac_reg_set_vol_dac(MUTE_VOL_REG); break; } } if (wait) { nxsig_usleep(waittime); } g_volparam[id].mute_bit |= type; if (g_volparam[CXD56_AUDIO_VOLID_MIXER_OUT].mute_bit != 0) { CXD56_AUDIO_ECODE ret = cxd56_audio_analog_disable_output(); if (ret != CXD56_AUDIO_ECODE_OK) { return ret; } } return CXD56_AUDIO_ECODE_OK; } static CXD56_AUDIO_ECODE set_unmute(cxd56_audio_volid_t id, bool wait, uint8_t type) { uint32_t waittime = 0; g_volparam[id].mute_bit &= ~type; if (g_volparam[CXD56_AUDIO_VOLID_MIXER_OUT].mute_bit == 0) { CXD56_AUDIO_ECODE ret = cxd56_audio_analog_enable_output(); if (ret != CXD56_AUDIO_ECODE_OK) { return ret; } } if (g_volparam[id].mute_bit == 0) { if (type == MUTE_BIT_API) { waittime = VOL_WAIT_TIME; } else { /* fade */ waittime = VOL_MUTE_TIME(g_volparam[id].hold_vol, 1); } uint32_t vol = VOL_TO_REG(g_volparam[id].hold_vol); switch (id) { case CXD56_AUDIO_VOLID_MIXER_IN1: cxd56_audio_ac_reg_set_vol_sdin1(vol); break; case CXD56_AUDIO_VOLID_MIXER_IN2: cxd56_audio_ac_reg_set_vol_sdin2(vol); break; default: cxd56_audio_ac_reg_set_vol_dac(vol); break; } if (wait) { nxsig_usleep(waittime); } } return CXD56_AUDIO_ECODE_OK; } /**************************************************************************** * Public Functions ****************************************************************************/ CXD56_AUDIO_ECODE cxd56_audio_volume_set(cxd56_audio_volid_t id, int16_t vol) { if (id >= VOLUME_NUM) { return CXD56_AUDIO_ECODE_VOL_ID; } if (VOLUME_MIN > vol) { if (VOLUME_MUTE != vol) { return CXD56_AUDIO_ECODE_VOL_MIN; } } if (VOLUME_MAX < vol) { return CXD56_AUDIO_ECODE_VOL_MAX; } g_volparam[id].hold_vol = vol; set_unmute(id, true, MUTE_BIT_API); return CXD56_AUDIO_ECODE_OK; } CXD56_AUDIO_ECODE cxd56_audio_volume_mute(cxd56_audio_volid_t id) { if (id >= VOLUME_NUM) { return CXD56_AUDIO_ECODE_VOL_ID; } set_mute(id, true, MUTE_BIT_API); return CXD56_AUDIO_ECODE_OK; } CXD56_AUDIO_ECODE cxd56_audio_volume_unmute(cxd56_audio_volid_t id) { if (id >= VOLUME_NUM) { return CXD56_AUDIO_ECODE_VOL_ID; } set_unmute(id, true, MUTE_BIT_API); return CXD56_AUDIO_ECODE_OK; } CXD56_AUDIO_ECODE cxd56_audio_volume_mute_fade(cxd56_audio_volid_t id, bool wait) { if (id >= VOLUME_NUM) { return CXD56_AUDIO_ECODE_VOL_ID; } set_mute(id, wait, MUTE_BIT_FADE); return CXD56_AUDIO_ECODE_OK; } CXD56_AUDIO_ECODE cxd56_audio_volume_unmute_fade(cxd56_audio_volid_t id, bool wait) { if (id >= VOLUME_NUM) { return CXD56_AUDIO_ECODE_VOL_ID; } set_unmute(id, wait, MUTE_BIT_FADE); return CXD56_AUDIO_ECODE_OK; }