/* * Copyright (c) 2013-2015, 2019 The Linux Foundation. All rights reserved. * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * Neither the name of The Linux Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN * IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * This file was modified by DTS, Inc. The portions of the * code modified by DTS, Inc are copyrighted and * licensed separately, as follows: * * (C) 2014 DTS, Inc. * * 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 "offload_effect_api" //#define LOG_NDEBUG 0 //#define VERY_VERY_VERBOSE_LOGGING #ifdef VERY_VERY_VERBOSE_LOGGING #define ALOGVV ALOGV #else #define ALOGVV(a...) do { } while(0) #endif #include #include #include #include #include #include #include #include #include #include #include "effect_api.h" #ifdef DTS_EAGLE #include "effect_util.h" #endif #define ARRAY_SIZE(array) (sizeof array / sizeof array[0]) typedef enum eff_mode { OFFLOAD, HW_ACCELERATOR } eff_mode_t; #define OFFLOAD_PRESET_START_OFFSET_FOR_OPENSL 19 const int map_eq_opensl_preset_2_offload_preset[] = { OFFLOAD_PRESET_START_OFFSET_FOR_OPENSL, /* Normal Preset */ OFFLOAD_PRESET_START_OFFSET_FOR_OPENSL+1, /* Classical Preset */ OFFLOAD_PRESET_START_OFFSET_FOR_OPENSL+2, /* Dance Preset */ OFFLOAD_PRESET_START_OFFSET_FOR_OPENSL+3, /* Flat Preset */ OFFLOAD_PRESET_START_OFFSET_FOR_OPENSL+4, /* Folk Preset */ OFFLOAD_PRESET_START_OFFSET_FOR_OPENSL+5, /* Heavy Metal Preset */ OFFLOAD_PRESET_START_OFFSET_FOR_OPENSL+6, /* Hip Hop Preset */ OFFLOAD_PRESET_START_OFFSET_FOR_OPENSL+7, /* Jazz Preset */ OFFLOAD_PRESET_START_OFFSET_FOR_OPENSL+8, /* Pop Preset */ OFFLOAD_PRESET_START_OFFSET_FOR_OPENSL+9, /* Rock Preset */ OFFLOAD_PRESET_START_OFFSET_FOR_OPENSL+10 /* FX Booster */ }; const int map_reverb_opensl_preset_2_offload_preset [NUM_OSL_REVERB_PRESETS_SUPPORTED][2] = { {1, 15}, {2, 16}, {3, 17}, {4, 18}, {5, 3}, {6, 20} }; int offload_update_mixer_and_effects_ctl(int card, int device_id, struct mixer **mixer, struct mixer_ctl **ctl) { char mixer_string[128]; snprintf(mixer_string, sizeof(mixer_string), "%s %d", "Audio Effects Config", device_id); ALOGV("%s: mixer_string: %s", __func__, mixer_string); *mixer = mixer_open(card); if (!(*mixer)) { ALOGE("Failed to open mixer"); *ctl = NULL; return -EINVAL; } else { *ctl = mixer_get_ctl_by_name(*mixer, mixer_string); if (!*ctl) { ALOGE("mixer_get_ctl_by_name failed"); mixer_close(*mixer); *mixer = NULL; return -EINVAL; } } ALOGV("mixer: %p, ctl: %p", *mixer, *ctl); return 0; } void offload_close_mixer(struct mixer **mixer) { mixer_close(*mixer); } void offload_bassboost_set_device(struct bass_boost_params *bassboost, uint32_t device) { ALOGVV("%s: device 0x%x", __func__, device); bassboost->device = device; } void offload_bassboost_set_enable_flag(struct bass_boost_params *bassboost, bool enable) { ALOGVV("%s: enable=%d", __func__, (int)enable); bassboost->enable_flag = enable; #ifdef DTS_EAGLE update_effects_node(PCM_DEV_ID, EFFECT_TYPE_BB, EFFECT_ENABLE_PARAM, enable, EFFECT_NO_OP, EFFECT_NO_OP, EFFECT_NO_OP); #endif } int offload_bassboost_get_enable_flag(struct bass_boost_params *bassboost) { ALOGVV("%s: enable=%d", __func__, (int)bassboost->enable_flag); return bassboost->enable_flag; } void offload_bassboost_set_strength(struct bass_boost_params *bassboost, int strength) { ALOGVV("%s: strength %d", __func__, strength); bassboost->strength = strength; #ifdef DTS_EAGLE update_effects_node(PCM_DEV_ID, EFFECT_TYPE_BB, EFFECT_SET_PARAM, EFFECT_NO_OP, strength, EFFECT_NO_OP, EFFECT_NO_OP); #endif } void offload_bassboost_set_mode(struct bass_boost_params *bassboost, int mode) { ALOGVV("%s: mode %d", __func__, mode); bassboost->mode = mode; } static int bassboost_send_params(eff_mode_t mode, void *ctl, struct bass_boost_params *bassboost, unsigned param_send_flags) { long param_values[128] = {0}; long *p_param_values = param_values; ALOGV("%s: flags 0x%x", __func__, param_send_flags); *p_param_values++ = BASS_BOOST_MODULE; *p_param_values++ = bassboost->device; *p_param_values++ = 0; /* num of commands*/ if (param_send_flags & OFFLOAD_SEND_BASSBOOST_ENABLE_FLAG) { *p_param_values++ = BASS_BOOST_ENABLE; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = BASS_BOOST_ENABLE_PARAM_LEN; *p_param_values++ = bassboost->enable_flag; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_BASSBOOST_STRENGTH) { *p_param_values++ = BASS_BOOST_STRENGTH; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = BASS_BOOST_STRENGTH_PARAM_LEN; *p_param_values++ = bassboost->strength; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_BASSBOOST_MODE) { *p_param_values++ = BASS_BOOST_MODE; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = BASS_BOOST_MODE_PARAM_LEN; *p_param_values++ = bassboost->mode; param_values[2] += 1; } if ((mode == OFFLOAD) && param_values[2] && ctl) { mixer_ctl_set_array((struct mixer_ctl *)ctl, param_values, ARRAY_SIZE(param_values)); } else if ((mode == HW_ACCELERATOR) && param_values[2] && ctl && *(int *)ctl) { if (ioctl(*(int *)ctl, AUDIO_EFFECTS_SET_PP_PARAMS, param_values) < 0) ALOGE("%s: sending h/w acc effects params fail[%d]", __func__, errno); } return 0; } int offload_bassboost_send_params(struct mixer_ctl *ctl, struct bass_boost_params *bassboost, unsigned param_send_flags) { return bassboost_send_params(OFFLOAD, (void *)ctl, bassboost, param_send_flags); } int hw_acc_bassboost_send_params(int fd, struct bass_boost_params *bassboost, unsigned param_send_flags) { return bassboost_send_params(HW_ACCELERATOR, (void *)&fd, bassboost, param_send_flags); } void offload_pbe_set_device(struct pbe_params *pbe, uint32_t device) { ALOGV("%s: device=%d", __func__, device); pbe->device = device; } void offload_pbe_set_enable_flag(struct pbe_params *pbe, bool enable) { ALOGV("%s: enable=%d", __func__, enable); pbe->enable_flag = enable; } int offload_pbe_get_enable_flag(struct pbe_params *pbe) { ALOGV("%s: enabled=%d", __func__, pbe->enable_flag); return pbe->enable_flag; } static int pbe_send_params(eff_mode_t mode, void *ctl, struct pbe_params *pbe, unsigned param_send_flags) { long param_values[128] = {0}; long *p_param_values = param_values; int i; int32_t *p_coeffs = NULL; uint32_t lpf_len = 0, hpf_len = 0, bpf_len = 0; uint32_t bsf_len = 0, tsf_len = 0, total_coeffs_len = 0; ALOGV("%s: enabled=%d", __func__, pbe->enable_flag); *p_param_values++ = PBE_MODULE; *p_param_values++ = pbe->device; *p_param_values++ = 0; /* num of commands*/ if (param_send_flags & OFFLOAD_SEND_PBE_ENABLE_FLAG) { *p_param_values++ = PBE_ENABLE; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = PBE_ENABLE_PARAM_LEN; *p_param_values++ = pbe->enable_flag; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_PBE_CONFIG) { *p_param_values++ = PBE_CONFIG; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = pbe->cfg_len; *p_param_values++ = pbe->config.real_bass_mix; *p_param_values++ = pbe->config.bass_color_control; *p_param_values++ = pbe->config.main_chain_delay; *p_param_values++ = pbe->config.xover_filter_order; *p_param_values++ = pbe->config.bandpass_filter_order; *p_param_values++ = pbe->config.drc_delay; *p_param_values++ = pbe->config.rms_tav; *p_param_values++ = pbe->config.exp_threshold; *p_param_values++ = pbe->config.exp_slope; *p_param_values++ = pbe->config.comp_threshold; *p_param_values++ = pbe->config.comp_slope; *p_param_values++ = pbe->config.makeup_gain; *p_param_values++ = pbe->config.comp_attack; *p_param_values++ = pbe->config.comp_release; *p_param_values++ = pbe->config.exp_attack; *p_param_values++ = pbe->config.exp_release; *p_param_values++ = pbe->config.limiter_bass_threshold; *p_param_values++ = pbe->config.limiter_high_threshold; *p_param_values++ = pbe->config.limiter_bass_makeup_gain; *p_param_values++ = pbe->config.limiter_high_makeup_gain; *p_param_values++ = pbe->config.limiter_bass_gc; *p_param_values++ = pbe->config.limiter_high_gc; *p_param_values++ = pbe->config.limiter_delay; *p_param_values++ = pbe->config.reserved; p_coeffs = &pbe->config.p1LowPassCoeffs[0]; lpf_len = (pbe->config.xover_filter_order == 3) ? 10 : 5; hpf_len = (pbe->config.xover_filter_order == 3) ? 10 : 5; bpf_len = pbe->config.bandpass_filter_order * 5; bsf_len = 5; tsf_len = 5; total_coeffs_len = lpf_len + hpf_len + bpf_len + bsf_len + tsf_len; for (i = 0; i < total_coeffs_len; i++) { *p_param_values++ = *p_coeffs++; } param_values[2] += 1; } if ((mode == OFFLOAD) && param_values[2] && ctl) { mixer_ctl_set_array((struct mixer_ctl *)ctl, param_values, ARRAY_SIZE(param_values)); } else if ((mode == HW_ACCELERATOR) && param_values[2] && ctl && *(int *)ctl) { if (ioctl(*(int *)ctl, AUDIO_EFFECTS_SET_PP_PARAMS, param_values) < 0) ALOGE("%s: sending h/w acc effects params fail[%d]", __func__, errno); } return 0; } int offload_pbe_send_params(struct mixer_ctl *ctl, struct pbe_params *pbe, unsigned param_send_flags) { return pbe_send_params(OFFLOAD, (void *)ctl, pbe, param_send_flags); } int hw_acc_pbe_send_params(int fd, struct pbe_params *pbe, unsigned param_send_flags) { return pbe_send_params(HW_ACCELERATOR, (void *)&fd, pbe, param_send_flags); } void offload_virtualizer_set_device(struct virtualizer_params *virtualizer, uint32_t device) { ALOGVV("%s: device=0x%x", __func__, device); virtualizer->device = device; } void offload_virtualizer_set_enable_flag(struct virtualizer_params *virtualizer, bool enable) { ALOGVV("%s: enable=%d", __func__, (int)enable); virtualizer->enable_flag = enable; #ifdef DTS_EAGLE update_effects_node(PCM_DEV_ID, EFFECT_TYPE_VIRT, EFFECT_ENABLE_PARAM, enable, EFFECT_NO_OP, EFFECT_NO_OP, EFFECT_NO_OP); #endif } int offload_virtualizer_get_enable_flag(struct virtualizer_params *virtualizer) { ALOGVV("%s: enabled %d", __func__, (int)virtualizer->enable_flag); return virtualizer->enable_flag; } void offload_virtualizer_set_strength(struct virtualizer_params *virtualizer, int strength) { ALOGVV("%s: strength %d", __func__, strength); virtualizer->strength = strength; #ifdef DTS_EAGLE update_effects_node(PCM_DEV_ID, EFFECT_TYPE_VIRT, EFFECT_SET_PARAM, EFFECT_NO_OP, strength, EFFECT_NO_OP, EFFECT_NO_OP); #endif } void offload_virtualizer_set_out_type(struct virtualizer_params *virtualizer, int out_type) { ALOGVV("%s: out_type %d", __func__, out_type); virtualizer->out_type = out_type; } void offload_virtualizer_set_gain_adjust(struct virtualizer_params *virtualizer, int gain_adjust) { ALOGVV("%s: gain %d", __func__, gain_adjust); virtualizer->gain_adjust = gain_adjust; } static int virtualizer_send_params(eff_mode_t mode, void *ctl, struct virtualizer_params *virtualizer, unsigned param_send_flags) { long param_values[128] = {0}; long *p_param_values = param_values; ALOGV("%s: flags 0x%x", __func__, param_send_flags); *p_param_values++ = VIRTUALIZER_MODULE; *p_param_values++ = virtualizer->device; *p_param_values++ = 0; /* num of commands*/ if (param_send_flags & OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG) { *p_param_values++ = VIRTUALIZER_ENABLE; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = VIRTUALIZER_ENABLE_PARAM_LEN; *p_param_values++ = virtualizer->enable_flag; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_VIRTUALIZER_STRENGTH) { *p_param_values++ = VIRTUALIZER_STRENGTH; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = VIRTUALIZER_STRENGTH_PARAM_LEN; *p_param_values++ = virtualizer->strength; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_VIRTUALIZER_OUT_TYPE) { *p_param_values++ = VIRTUALIZER_OUT_TYPE; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = VIRTUALIZER_OUT_TYPE_PARAM_LEN; *p_param_values++ = virtualizer->out_type; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_VIRTUALIZER_GAIN_ADJUST) { *p_param_values++ = VIRTUALIZER_GAIN_ADJUST; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = VIRTUALIZER_GAIN_ADJUST_PARAM_LEN; *p_param_values++ = virtualizer->gain_adjust; param_values[2] += 1; } if ((mode == OFFLOAD) && param_values[2] && ctl) { mixer_ctl_set_array((struct mixer_ctl *)ctl, param_values, ARRAY_SIZE(param_values)); } else if ((mode == HW_ACCELERATOR) && param_values[2] && ctl && *(int *)ctl) { if (ioctl(*(int *)ctl, AUDIO_EFFECTS_SET_PP_PARAMS, param_values) < 0) ALOGE("%s: sending h/w acc effects params fail[%d]", __func__, errno); } return 0; } int offload_virtualizer_send_params(struct mixer_ctl *ctl, struct virtualizer_params *virtualizer, unsigned param_send_flags) { return virtualizer_send_params(OFFLOAD, (void *)ctl, virtualizer, param_send_flags); } int hw_acc_virtualizer_send_params(int fd, struct virtualizer_params *virtualizer, unsigned param_send_flags) { return virtualizer_send_params(HW_ACCELERATOR, (void *)&fd, virtualizer, param_send_flags); } void offload_eq_set_device(struct eq_params *eq, uint32_t device) { ALOGVV("%s: device 0x%x", __func__, device); eq->device = device; } void offload_eq_set_enable_flag(struct eq_params *eq, bool enable) { ALOGVV("%s: enable=%d", __func__, (int)enable); eq->enable_flag = enable; #ifdef DTS_EAGLE update_effects_node(PCM_DEV_ID, EFFECT_TYPE_EQ, EFFECT_ENABLE_PARAM, enable, EFFECT_NO_OP, EFFECT_NO_OP, EFFECT_NO_OP); #endif } int offload_eq_get_enable_flag(struct eq_params *eq) { ALOGVV("%s: enabled=%d", __func__, (int)eq->enable_flag); return eq->enable_flag; } void offload_eq_set_preset(struct eq_params *eq, int preset) { ALOGVV("%s: preset %d", __func__, preset); eq->config.preset_id = preset; eq->config.eq_pregain = Q27_UNITY; } void offload_eq_set_bands_level(struct eq_params *eq, int num_bands, const uint16_t *band_freq_list, int *band_gain_list) { int i; ALOGVV("%s", __func__); eq->config.num_bands = num_bands; for (i=0; iper_band_cfg[i].band_idx = i; eq->per_band_cfg[i].filter_type = EQ_BAND_BOOST; eq->per_band_cfg[i].freq_millihertz = band_freq_list[i] * 1000; eq->per_band_cfg[i].gain_millibels = band_gain_list[i] * 100; eq->per_band_cfg[i].quality_factor = Q8_UNITY; #ifdef DTS_EAGLE update_effects_node(PCM_DEV_ID, EFFECT_TYPE_EQ, EFFECT_SET_PARAM, EFFECT_NO_OP, EFFECT_NO_OP, i, band_gain_list[i] * 100); #endif } } static int eq_send_params(eff_mode_t mode, void *ctl, struct eq_params *eq, unsigned param_send_flags) { long param_values[128] = {0}; long *p_param_values = param_values; uint32_t i; ALOGV("%s: flags 0x%x", __func__, param_send_flags); if ((eq->config.preset_id < -1) || ((param_send_flags & OFFLOAD_SEND_EQ_PRESET) && (eq->config.preset_id == -1))) { ALOGV("No Valid preset to set"); return 0; } *p_param_values++ = EQ_MODULE; *p_param_values++ = eq->device; *p_param_values++ = 0; /* num of commands*/ if (param_send_flags & OFFLOAD_SEND_EQ_ENABLE_FLAG) { *p_param_values++ = EQ_ENABLE; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = EQ_ENABLE_PARAM_LEN; *p_param_values++ = eq->enable_flag; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_EQ_PRESET) { *p_param_values++ = EQ_CONFIG; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = EQ_CONFIG_PARAM_LEN; *p_param_values++ = eq->config.eq_pregain; *p_param_values++ = map_eq_opensl_preset_2_offload_preset[eq->config.preset_id]; *p_param_values++ = 0; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_EQ_BANDS_LEVEL) { *p_param_values++ = EQ_CONFIG; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = EQ_CONFIG_PARAM_LEN + eq->config.num_bands * EQ_CONFIG_PER_BAND_PARAM_LEN; *p_param_values++ = eq->config.eq_pregain; *p_param_values++ = CUSTOM_OPENSL_PRESET; *p_param_values++ = eq->config.num_bands; for (i=0; iconfig.num_bands; i++) { *p_param_values++ = eq->per_band_cfg[i].band_idx; *p_param_values++ = eq->per_band_cfg[i].filter_type; *p_param_values++ = eq->per_band_cfg[i].freq_millihertz; *p_param_values++ = eq->per_band_cfg[i].gain_millibels; *p_param_values++ = eq->per_band_cfg[i].quality_factor; } param_values[2] += 1; } if ((mode == OFFLOAD) && param_values[2] && ctl) { mixer_ctl_set_array((struct mixer_ctl *)ctl, param_values, ARRAY_SIZE(param_values)); } else if ((mode == HW_ACCELERATOR) && param_values[2] && ctl && *(int *)ctl) { if (ioctl(*(int *)ctl, AUDIO_EFFECTS_SET_PP_PARAMS, param_values) < 0) ALOGE("%s: sending h/w acc effects params fail[%d]", __func__, errno); } return 0; } int offload_eq_send_params(struct mixer_ctl *ctl, struct eq_params *eq, unsigned param_send_flags) { return eq_send_params(OFFLOAD, (void *)ctl, eq, param_send_flags); } int hw_acc_eq_send_params(int fd, struct eq_params *eq, unsigned param_send_flags) { return eq_send_params(HW_ACCELERATOR, (void *)&fd, eq, param_send_flags); } void offload_reverb_set_device(struct reverb_params *reverb, uint32_t device) { ALOGVV("%s: device 0x%x", __func__, device); reverb->device = device; } void offload_reverb_set_enable_flag(struct reverb_params *reverb, bool enable) { ALOGVV("%s: enable=%d", __func__, (int)enable); reverb->enable_flag = enable; } int offload_reverb_get_enable_flag(struct reverb_params *reverb) { ALOGVV("%s: enabled=%d", __func__, reverb->enable_flag); return reverb->enable_flag; } void offload_reverb_set_mode(struct reverb_params *reverb, int mode) { ALOGVV("%s", __func__); reverb->mode = mode; } void offload_reverb_set_preset(struct reverb_params *reverb, int preset) { ALOGVV("%s: preset %d", __func__, preset); if (preset && (preset <= NUM_OSL_REVERB_PRESETS_SUPPORTED)) reverb->preset = map_reverb_opensl_preset_2_offload_preset[preset-1][1]; } void offload_reverb_set_wet_mix(struct reverb_params *reverb, int wet_mix) { ALOGVV("%s: wet_mix %d", __func__, wet_mix); reverb->wet_mix = wet_mix; } void offload_reverb_set_gain_adjust(struct reverb_params *reverb, int gain_adjust) { ALOGVV("%s: gain %d", __func__, gain_adjust); reverb->gain_adjust = gain_adjust; } void offload_reverb_set_room_level(struct reverb_params *reverb, int room_level) { ALOGVV("%s: level %d", __func__, room_level); reverb->room_level = room_level; } void offload_reverb_set_room_hf_level(struct reverb_params *reverb, int room_hf_level) { ALOGVV("%s: level %d", __func__, room_hf_level); reverb->room_hf_level = room_hf_level; } void offload_reverb_set_decay_time(struct reverb_params *reverb, int decay_time) { ALOGVV("%s: decay time %d", __func__, decay_time); reverb->decay_time = decay_time; } void offload_reverb_set_decay_hf_ratio(struct reverb_params *reverb, int decay_hf_ratio) { ALOGVV("%s: decay_hf_ratio %d", __func__, decay_hf_ratio); reverb->decay_hf_ratio = decay_hf_ratio; } void offload_reverb_set_reflections_level(struct reverb_params *reverb, int reflections_level) { ALOGVV("%s: ref level %d", __func__, reflections_level); reverb->reflections_level = reflections_level; } void offload_reverb_set_reflections_delay(struct reverb_params *reverb, int reflections_delay) { ALOGVV("%s: ref delay", __func__, reflections_delay); reverb->reflections_delay = reflections_delay; } void offload_reverb_set_reverb_level(struct reverb_params *reverb, int reverb_level) { ALOGD("%s: reverb level %d", __func__, reverb_level); reverb->level = reverb_level; } void offload_reverb_set_delay(struct reverb_params *reverb, int delay) { ALOGVV("%s: delay %d", __func__, delay); reverb->delay = delay; } void offload_reverb_set_diffusion(struct reverb_params *reverb, int diffusion) { ALOGVV("%s: diffusion %d", __func__, diffusion); reverb->diffusion = diffusion; } void offload_reverb_set_density(struct reverb_params *reverb, int density) { ALOGVV("%s: density %d", __func__, density); reverb->density = density; } static int reverb_send_params(eff_mode_t mode, void *ctl, struct reverb_params *reverb, unsigned param_send_flags) { long param_values[128] = {0}; long *p_param_values = param_values; ALOGV("%s: flags 0x%x", __func__, param_send_flags); *p_param_values++ = REVERB_MODULE; *p_param_values++ = reverb->device; *p_param_values++ = 0; /* num of commands*/ if (param_send_flags & OFFLOAD_SEND_REVERB_ENABLE_FLAG) { *p_param_values++ = REVERB_ENABLE; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_ENABLE_PARAM_LEN; *p_param_values++ = reverb->enable_flag; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_MODE) { *p_param_values++ = REVERB_MODE; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_MODE_PARAM_LEN; *p_param_values++ = reverb->mode; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_PRESET) { *p_param_values++ = REVERB_PRESET; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_PRESET_PARAM_LEN; *p_param_values++ = reverb->preset; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_WET_MIX) { *p_param_values++ = REVERB_WET_MIX; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_WET_MIX_PARAM_LEN; *p_param_values++ = reverb->wet_mix; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_GAIN_ADJUST) { *p_param_values++ = REVERB_GAIN_ADJUST; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_GAIN_ADJUST_PARAM_LEN; *p_param_values++ = reverb->gain_adjust; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_ROOM_LEVEL) { *p_param_values++ = REVERB_ROOM_LEVEL; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_ROOM_LEVEL_PARAM_LEN; *p_param_values++ = reverb->room_level; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_ROOM_HF_LEVEL) { *p_param_values++ = REVERB_ROOM_HF_LEVEL; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_ROOM_HF_LEVEL_PARAM_LEN; *p_param_values++ = reverb->room_hf_level; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_DECAY_TIME) { *p_param_values++ = REVERB_DECAY_TIME; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_DECAY_TIME_PARAM_LEN; *p_param_values++ = reverb->decay_time; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_DECAY_HF_RATIO) { *p_param_values++ = REVERB_DECAY_HF_RATIO; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_DECAY_HF_RATIO_PARAM_LEN; *p_param_values++ = reverb->decay_hf_ratio; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_REFLECTIONS_LEVEL) { *p_param_values++ = REVERB_REFLECTIONS_LEVEL; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_REFLECTIONS_LEVEL_PARAM_LEN; *p_param_values++ = reverb->reflections_level; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_REFLECTIONS_DELAY) { *p_param_values++ = REVERB_REFLECTIONS_DELAY; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_REFLECTIONS_DELAY_PARAM_LEN; *p_param_values++ = reverb->reflections_delay; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_LEVEL) { *p_param_values++ = REVERB_LEVEL; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_LEVEL_PARAM_LEN; *p_param_values++ = reverb->level; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_DELAY) { *p_param_values++ = REVERB_DELAY; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_DELAY_PARAM_LEN; *p_param_values++ = reverb->delay; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_DIFFUSION) { *p_param_values++ = REVERB_DIFFUSION; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_DIFFUSION_PARAM_LEN; *p_param_values++ = reverb->diffusion; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_REVERB_DENSITY) { *p_param_values++ = REVERB_DENSITY; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = REVERB_DENSITY_PARAM_LEN; *p_param_values++ = reverb->density; param_values[2] += 1; } if ((mode == OFFLOAD) && param_values[2] && ctl) { mixer_ctl_set_array((struct mixer_ctl *)ctl, param_values, ARRAY_SIZE(param_values)); } else if ((mode == HW_ACCELERATOR) && param_values[2] && ctl && *(int *)ctl) { if (ioctl(*(int *)ctl, AUDIO_EFFECTS_SET_PP_PARAMS, param_values) < 0) ALOGE("%s: sending h/w acc effects params fail[%d]", __func__, errno); } return 0; } int offload_reverb_send_params(struct mixer_ctl *ctl, struct reverb_params *reverb, unsigned param_send_flags) { return reverb_send_params(OFFLOAD, (void *)ctl, reverb, param_send_flags); } int hw_acc_reverb_send_params(int fd, struct reverb_params *reverb, unsigned param_send_flags) { return reverb_send_params(HW_ACCELERATOR, (void *)&fd, reverb, param_send_flags); } void offload_soft_volume_set_enable(struct soft_volume_params *vol, bool enable) { ALOGV("%s", __func__); vol->enable_flag = enable; } void offload_soft_volume_set_gain_master(struct soft_volume_params *vol, int gain) { ALOGV("%s", __func__); vol->master_gain = gain; } void offload_soft_volume_set_gain_2ch(struct soft_volume_params *vol, int l_gain, int r_gain) { ALOGV("%s", __func__); vol->left_gain = l_gain; vol->right_gain = r_gain; } int offload_soft_volume_send_params(struct mixer_ctl *ctl, struct soft_volume_params vol, unsigned param_send_flags) { long param_values[128] = {0}; long *p_param_values = param_values; ALOGV("%s", __func__); *p_param_values++ = SOFT_VOLUME_MODULE; *p_param_values++ = 0; *p_param_values++ = 0; /* num of commands*/ if (param_send_flags & OFFLOAD_SEND_SOFT_VOLUME_ENABLE_FLAG) { *p_param_values++ = SOFT_VOLUME_ENABLE; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = SOFT_VOLUME_ENABLE_PARAM_LEN; *p_param_values++ = vol.enable_flag; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_SOFT_VOLUME_GAIN_MASTER) { *p_param_values++ = SOFT_VOLUME_GAIN_MASTER; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = SOFT_VOLUME_GAIN_MASTER_PARAM_LEN; *p_param_values++ = vol.master_gain; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_SOFT_VOLUME_GAIN_2CH) { *p_param_values++ = SOFT_VOLUME_GAIN_2CH; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = SOFT_VOLUME_GAIN_2CH_PARAM_LEN; *p_param_values++ = vol.left_gain; *p_param_values++ = vol.right_gain; param_values[2] += 1; } if (param_values[2] && ctl) mixer_ctl_set_array(ctl, param_values, ARRAY_SIZE(param_values)); return 0; } void offload_transition_soft_volume_set_enable(struct soft_volume_params *vol, bool enable) { ALOGV("%s", __func__); vol->enable_flag = enable; } void offload_transition_soft_volume_set_gain_master(struct soft_volume_params *vol, int gain) { ALOGV("%s", __func__); vol->master_gain = gain; } void offload_transition_soft_volume_set_gain_2ch(struct soft_volume_params *vol, int l_gain, int r_gain) { ALOGV("%s", __func__); vol->left_gain = l_gain; vol->right_gain = r_gain; } int offload_transition_soft_volume_send_params(struct mixer_ctl *ctl, struct soft_volume_params vol, unsigned param_send_flags) { long param_values[128] = {0}; long *p_param_values = param_values; ALOGV("%s", __func__); *p_param_values++ = SOFT_VOLUME2_MODULE; *p_param_values++ = 0; *p_param_values++ = 0; /* num of commands*/ if (param_send_flags & OFFLOAD_SEND_TRANSITION_SOFT_VOLUME_ENABLE_FLAG) { *p_param_values++ = SOFT_VOLUME2_ENABLE; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = SOFT_VOLUME2_ENABLE_PARAM_LEN; *p_param_values++ = vol.enable_flag; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_TRANSITION_SOFT_VOLUME_GAIN_MASTER) { *p_param_values++ = SOFT_VOLUME2_GAIN_MASTER; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = SOFT_VOLUME2_GAIN_MASTER_PARAM_LEN; *p_param_values++ = vol.master_gain; param_values[2] += 1; } if (param_send_flags & OFFLOAD_SEND_TRANSITION_SOFT_VOLUME_GAIN_2CH) { *p_param_values++ = SOFT_VOLUME2_GAIN_2CH; *p_param_values++ = CONFIG_SET; *p_param_values++ = 0; /* start offset if param size if greater than 128 */ *p_param_values++ = SOFT_VOLUME2_GAIN_2CH_PARAM_LEN; *p_param_values++ = vol.left_gain; *p_param_values++ = vol.right_gain; param_values[2] += 1; } if (param_values[2] && ctl) mixer_ctl_set_array(ctl, param_values, ARRAY_SIZE(param_values)); return 0; } static int hpx_send_params(eff_mode_t mode, void *ctl, unsigned param_send_flags) { long param_values[128] = {0}; long *p_param_values = param_values; ALOGV("%s", __func__); if (!ctl) { ALOGE("%s: ctl is NULL, return invalid", __func__); return -EINVAL; } if (param_send_flags & OFFLOAD_SEND_HPX_STATE_OFF) { *p_param_values++ = DTS_EAGLE_MODULE_ENABLE; *p_param_values++ = 0; /* hpx off*/ } else if (param_send_flags & OFFLOAD_SEND_HPX_STATE_ON) { *p_param_values++ = DTS_EAGLE_MODULE_ENABLE; *p_param_values++ = 1; /* hpx on*/ } if (mode == OFFLOAD) mixer_ctl_set_array(ctl, param_values, ARRAY_SIZE(param_values)); else { if (ioctl(*(int *)ctl, AUDIO_EFFECTS_SET_PP_PARAMS, param_values) < 0) ALOGE("%s: sending h/w acc hpx state params fail[%d]", __func__, errno); } return 0; } int offload_hpx_send_params(struct mixer_ctl *ctl, unsigned param_send_flags) { return hpx_send_params(OFFLOAD, (void *)ctl, param_send_flags); } int hw_acc_hpx_send_params(int fd, unsigned param_send_flags) { return hpx_send_params(HW_ACCELERATOR, (void *)&fd, param_send_flags); }