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gerrit-public.fairphone.software / platform / hardware / qcom / audio / f0bbefb020d269d5666215836919eb81ca8407a5 / . / post_proc / virtualizer.c
blob: 274856849a1522d9b744ee06ad58344a3c9a8254 [file] [log] [blame]
/*
* Copyright (c) 2013-2015, The Linux Foundation. All rights reserved.
* Not a Contribution.
*
* Copyright (C) 2013 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 "offload_effect_virtualizer"
//#define LOG_NDEBUG 0
#include <cutils/list.h>
#include <cutils/log.h>
#include <tinyalsa/asoundlib.h>
#include <sound/audio_effects.h>
#include <audio_effects/effect_virtualizer.h>
#include "effect_api.h"
#include "virtualizer.h"
/* Offload Virtualizer UUID: 509a4498-561a-4bea-b3b1-0002a5d5c51b */
const effect_descriptor_t virtualizer_descriptor = {
{0x37cc2c00, 0xdddd, 0x11db, 0x8577, {0x00, 0x02, 0xa5, 0xd5, 0xc5, 0x1b}},
{0x509a4498, 0x561a, 0x4bea, 0xb3b1, {0x00, 0x02, 0xa5, 0xd5, 0xc5, 0x1b}}, // uuid
EFFECT_CONTROL_API_VERSION,
(EFFECT_FLAG_TYPE_INSERT | EFFECT_FLAG_DEVICE_IND | EFFECT_FLAG_HW_ACC_TUNNEL),
0, /* TODO */
1,
"MSM offload virtualizer",
"The Android Open Source Project",
};
/*
* Virtualizer operations
*/
int virtualizer_get_strength(virtualizer_context_t *context)
{
ALOGV("%s: ctxt %p, strength: %d", __func__, context, context->strength);
return context->strength;
}
int virtualizer_set_strength(virtualizer_context_t *context, uint32_t strength)
{
ALOGV("%s: ctxt %p, strength: %d", __func__, context, strength);
context->strength = strength;
offload_virtualizer_set_strength(&(context->offload_virt), strength);
if (context->ctl)
offload_virtualizer_send_params(context->ctl, &context->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG |
OFFLOAD_SEND_VIRTUALIZER_STRENGTH);
if (context->hw_acc_fd > 0)
hw_acc_virtualizer_send_params(context->hw_acc_fd,
&context->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG |
OFFLOAD_SEND_VIRTUALIZER_STRENGTH);
return 0;
}
/*
* Check if an audio device is supported by this implementation
*
* [in]
* device device that is intented for processing (e.g. for binaural vs transaural)
* [out]
* false device is not applicable for effect
* true device is applicable for effect
*/
bool virtualizer_is_device_supported(audio_devices_t device) {
switch (device) {
case AUDIO_DEVICE_OUT_SPEAKER:
case AUDIO_DEVICE_OUT_BLUETOOTH_SCO_CARKIT:
case AUDIO_DEVICE_OUT_BLUETOOTH_A2DP_SPEAKER:
#ifdef AFE_PROXY_ENABLED
case AUDIO_DEVICE_OUT_PROXY:
#endif
case AUDIO_DEVICE_OUT_AUX_DIGITAL:
case AUDIO_DEVICE_OUT_USB_ACCESSORY:
case AUDIO_DEVICE_OUT_ANLG_DOCK_HEADSET:
return false;
default :
return true;
}
}
/*
* Check if a channel mask + audio device is supported by this implementation
*
* [in]
* channel_mask channel mask of input buffer
* device device that is intented for processing (e.g. for binaural vs transaural)
* [out]
* false if the configuration is not supported or it is unknown
* true if the configuration is supported
*/
bool virtualizer_is_configuration_supported(audio_channel_mask_t channel_mask,
audio_devices_t device) {
uint32_t channelCount = audio_channel_count_from_out_mask(channel_mask);
if ((channelCount == 0) || (channelCount > 2)) {
return false;
}
return virtualizer_is_device_supported(device);
}
/*
* Force the virtualization mode to that of the given audio device
*
* [in]
* context effect engine context
* forced_device device whose virtualization mode we'll always use
* [out]
* -EINVAL if the device is not supported or is unknown
* 0 if the device is supported and the virtualization mode forced
*/
int virtualizer_force_virtualization_mode(virtualizer_context_t *context,
audio_devices_t forced_device) {
virtualizer_context_t *virt_ctxt = (virtualizer_context_t *)context;
int status = 0;
bool use_virt = false;
int is_virt_enabled =
offload_virtualizer_get_enable_flag(&(virt_ctxt->offload_virt));
ALOGV("%s: ctxt %p, forcedDev=0x%x enabled=%d tmpDisabled=%d", __func__, virt_ctxt,
forced_device, is_virt_enabled, virt_ctxt->temp_disabled);
if (virtualizer_is_device_supported(forced_device) == false) {
if (forced_device != AUDIO_DEVICE_NONE) {
//forced device is not supported, make it behave as a reset of forced mode
forced_device = AUDIO_DEVICE_NONE;
// but return an error
status = -EINVAL;
}
}
if (forced_device == AUDIO_DEVICE_NONE) {
// disabling forced virtualization mode:
// verify whether the virtualization should be enabled or disabled
if (virtualizer_is_device_supported(virt_ctxt->device)) {
use_virt = (is_virt_enabled == true);
}
virt_ctxt->forced_device = AUDIO_DEVICE_NONE;
} else {
// forcing virtualization mode:
// TODO: we assume device is supported, so hard coded a fixed one.
virt_ctxt->forced_device = AUDIO_DEVICE_OUT_WIRED_HEADPHONE;
// TODO: only enable for a supported mode, when the effect is enabled
use_virt = (is_virt_enabled == true);
}
if (use_virt) {
if (virt_ctxt->temp_disabled == true) {
if (effect_is_active(&virt_ctxt->common)) {
offload_virtualizer_set_enable_flag(&(virt_ctxt->offload_virt), true);
if (virt_ctxt->ctl)
offload_virtualizer_send_params(virt_ctxt->ctl,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG);
if (virt_ctxt->hw_acc_fd > 0)
hw_acc_virtualizer_send_params(virt_ctxt->hw_acc_fd,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG);
}
ALOGV("%s: re-enable VIRTUALIZER", __func__);
virt_ctxt->temp_disabled = false;
} else {
ALOGV("%s: leaving VIRTUALIZER enabled", __func__);
}
} else {
if (virt_ctxt->temp_disabled == false) {
if (effect_is_active(&virt_ctxt->common)) {
offload_virtualizer_set_enable_flag(&(virt_ctxt->offload_virt), false);
if (virt_ctxt->ctl)
offload_virtualizer_send_params(virt_ctxt->ctl,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG);
if (virt_ctxt->hw_acc_fd > 0)
hw_acc_virtualizer_send_params(virt_ctxt->hw_acc_fd,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG);
}
ALOGV("%s: disable VIRTUALIZER", __func__);
virt_ctxt->temp_disabled = true;
} else {
ALOGV("%s: leaving VIRTUALIZER disabled", __func__);
}
}
ALOGV("after %s: ctxt %p, enabled=%d tmpDisabled=%d", __func__, virt_ctxt,
is_virt_enabled, virt_ctxt->temp_disabled);
return status;
}
/*
* Get the virtual speaker angles for a channel mask + audio device configuration
* which is guaranteed to be supported by this implementation
*
* [in]
* channel_mask the channel mask of the input to virtualize
* device the type of device that affects the processing (e.g. for binaural vs transaural)
* [in/out]
* speaker_angles the array of integer where each speaker angle is written as a triplet in the
* following format:
* int32_t a bit mask with a single value selected for each speaker, following
* the convention of the audio_channel_mask_t type
* int32_t a value in degrees expressing the speaker azimuth, where 0 is in front
* of the user, 180 behind, -90 to the left, 90 to the right of the user
* int32_t a value in degrees expressing the speaker elevation, where 0 is the
* horizontal plane, +90 is directly above the user, -90 below
*
*/
void virtualizer_get_speaker_angles(audio_channel_mask_t channel_mask __unused,
audio_devices_t device __unused, int32_t *speaker_angles) {
// the channel count is guaranteed to be 1 or 2
// the device is guaranteed to be of type headphone
// this virtualizer is always 2in with speakers at -90 and 90deg of azimuth, 0deg of elevation
*speaker_angles++ = (int32_t) AUDIO_CHANNEL_OUT_FRONT_LEFT;
*speaker_angles++ = -90; // azimuth
*speaker_angles++ = 0; // elevation
*speaker_angles++ = (int32_t) AUDIO_CHANNEL_OUT_FRONT_RIGHT;
*speaker_angles++ = 90; // azimuth
*speaker_angles = 0; // elevation
}
/*
* Retrieve the current device whose processing mode is used by this effect
*
* [out]
* AUDIO_DEVICE_NONE if the effect is not virtualizing
* or the device type if the effect is virtualizing
*/
audio_devices_t virtualizer_get_virtualization_mode(virtualizer_context_t *context) {
virtualizer_context_t *virt_ctxt = (virtualizer_context_t *)context;
audio_devices_t device = AUDIO_DEVICE_NONE;
if ((offload_virtualizer_get_enable_flag(&(virt_ctxt->offload_virt)))
&& (virt_ctxt->temp_disabled == false)) {
if (virt_ctxt->forced_device != AUDIO_DEVICE_NONE) {
// virtualization mode is forced, return that device
device = virt_ctxt->forced_device;
} else {
// no forced mode, return the current device
device = virt_ctxt->device;
}
}
ALOGV("%s: returning 0x%x", __func__, device);
return device;
}
int virtualizer_get_parameter(effect_context_t *context, effect_param_t *p,
uint32_t *size)
{
virtualizer_context_t *virt_ctxt = (virtualizer_context_t *)context;
int voffset = ((p->psize - 1) / sizeof(int32_t) + 1) * sizeof(int32_t);
int32_t *param_tmp = (int32_t *)p->data;
int32_t param = *param_tmp++;
void *value = p->data + voffset;
int i;
ALOGV("%s: ctxt %p, param %d", __func__, virt_ctxt, param);
p->status = 0;
switch (param) {
case VIRTUALIZER_PARAM_STRENGTH_SUPPORTED:
if (p->vsize < sizeof(uint32_t))
p->status = -EINVAL;
p->vsize = sizeof(uint32_t);
break;
case VIRTUALIZER_PARAM_STRENGTH:
if (p->vsize < sizeof(int16_t))
p->status = -EINVAL;
p->vsize = sizeof(int16_t);
break;
case VIRTUALIZER_PARAM_VIRTUAL_SPEAKER_ANGLES:
// return value size can only be interpreted as relative to input value,
// deferring validity check to below
break;
case VIRTUALIZER_PARAM_VIRTUALIZATION_MODE:
if (p->vsize != sizeof(uint32_t))
p->status = -EINVAL;
p->vsize = sizeof(uint32_t);
break;
default:
p->status = -EINVAL;
}
*size = sizeof(effect_param_t) + voffset + p->vsize;
if (p->status != 0)
return 0;
switch (param) {
case VIRTUALIZER_PARAM_STRENGTH_SUPPORTED:
*(uint32_t *)value = 1;
break;
case VIRTUALIZER_PARAM_STRENGTH:
*(int16_t *)value = virtualizer_get_strength(virt_ctxt);
break;
case VIRTUALIZER_PARAM_VIRTUAL_SPEAKER_ANGLES:
{
const audio_channel_mask_t channel_mask = (audio_channel_mask_t) *param_tmp++;
const audio_devices_t device = (audio_devices_t) *param_tmp;
uint32_t channel_cnt = audio_channel_count_from_out_mask(channel_mask);
if (p->vsize < 3 * channel_cnt * sizeof(int32_t)){
p->status = -EINVAL;
break;
}
// verify the configuration is supported
if(virtualizer_is_configuration_supported(channel_mask, device)) {
// configuration is supported, get the angles
virtualizer_get_speaker_angles(channel_mask, device, (int32_t *)value);
} else {
p->status = -EINVAL;
}
break;
}
case VIRTUALIZER_PARAM_VIRTUALIZATION_MODE:
*(uint32_t *)value = (uint32_t) virtualizer_get_virtualization_mode(virt_ctxt);
break;
default:
p->status = -EINVAL;
break;
}
return 0;
}
int virtualizer_set_parameter(effect_context_t *context, effect_param_t *p,
uint32_t size __unused)
{
virtualizer_context_t *virt_ctxt = (virtualizer_context_t *)context;
int voffset = ((p->psize - 1) / sizeof(int32_t) + 1) * sizeof(int32_t);
void *value = p->data + voffset;
int32_t *param_tmp = (int32_t *)p->data;
int32_t param = *param_tmp++;
uint32_t strength;
ALOGV("%s: ctxt %p, param %d", __func__, virt_ctxt, param);
p->status = 0;
switch (param) {
case VIRTUALIZER_PARAM_STRENGTH:
strength = (uint32_t)(*(int16_t *)value);
virtualizer_set_strength(virt_ctxt, strength);
break;
case VIRTUALIZER_PARAM_FORCE_VIRTUALIZATION_MODE:
{
const audio_devices_t device = *(audio_devices_t *)value;
if (0 != virtualizer_force_virtualization_mode(virt_ctxt, device)) {
p->status = -EINVAL;
}
break;
}
default:
p->status = -EINVAL;
break;
}
return 0;
}
int virtualizer_set_device(effect_context_t *context, uint32_t device)
{
virtualizer_context_t *virt_ctxt = (virtualizer_context_t *)context;
ALOGV("%s: ctxt %p, device: 0x%x", __func__, virt_ctxt, device);
virt_ctxt->device = device;
if (virt_ctxt->forced_device == AUDIO_DEVICE_NONE) {
// default case unless configuration is forced
if (virtualizer_is_device_supported(device) == false) {
if (!virt_ctxt->temp_disabled) {
if (effect_is_active(&virt_ctxt->common)) {
offload_virtualizer_set_enable_flag(&(virt_ctxt->offload_virt), false);
if (virt_ctxt->ctl)
offload_virtualizer_send_params(virt_ctxt->ctl,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG);
if (virt_ctxt->hw_acc_fd > 0)
hw_acc_virtualizer_send_params(virt_ctxt->hw_acc_fd,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG);
}
virt_ctxt->temp_disabled = true;
ALOGI("%s: ctxt %p, disabled based on device", __func__, virt_ctxt);
}
} else {
if (virt_ctxt->temp_disabled) {
if (effect_is_active(&virt_ctxt->common)) {
offload_virtualizer_set_enable_flag(&(virt_ctxt->offload_virt), true);
if (virt_ctxt->ctl)
offload_virtualizer_send_params(virt_ctxt->ctl,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG);
if (virt_ctxt->hw_acc_fd > 0)
hw_acc_virtualizer_send_params(virt_ctxt->hw_acc_fd,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG);
}
virt_ctxt->temp_disabled = false;
}
}
}
// else virtualization mode is forced to a certain device, nothing to do
offload_virtualizer_set_device(&(virt_ctxt->offload_virt), device);
return 0;
}
int virtualizer_reset(effect_context_t *context)
{
virtualizer_context_t *virt_ctxt = (virtualizer_context_t *)context;
return 0;
}
int virtualizer_init(effect_context_t *context)
{
ALOGV("%s: ctxt %p", __func__, context);
virtualizer_context_t *virt_ctxt = (virtualizer_context_t *)context;
context->config.inputCfg.accessMode = EFFECT_BUFFER_ACCESS_READ;
context->config.inputCfg.channels = AUDIO_CHANNEL_OUT_STEREO;
context->config.inputCfg.format = AUDIO_FORMAT_PCM_16_BIT;
context->config.inputCfg.samplingRate = 44100;
context->config.inputCfg.bufferProvider.getBuffer = NULL;
context->config.inputCfg.bufferProvider.releaseBuffer = NULL;
context->config.inputCfg.bufferProvider.cookie = NULL;
context->config.inputCfg.mask = EFFECT_CONFIG_ALL;
context->config.outputCfg.accessMode = EFFECT_BUFFER_ACCESS_ACCUMULATE;
context->config.outputCfg.channels = AUDIO_CHANNEL_OUT_STEREO;
context->config.outputCfg.format = AUDIO_FORMAT_PCM_16_BIT;
context->config.outputCfg.samplingRate = 44100;
context->config.outputCfg.bufferProvider.getBuffer = NULL;
context->config.outputCfg.bufferProvider.releaseBuffer = NULL;
context->config.outputCfg.bufferProvider.cookie = NULL;
context->config.outputCfg.mask = EFFECT_CONFIG_ALL;
set_config(context, &context->config);
virt_ctxt->temp_disabled = false;
virt_ctxt->hw_acc_fd = -1;
virt_ctxt->forced_device = AUDIO_DEVICE_NONE;
virt_ctxt->device = AUDIO_DEVICE_NONE;
memset(&(virt_ctxt->offload_virt), 0, sizeof(struct virtualizer_params));
return 0;
}
int virtualizer_enable(effect_context_t *context)
{
virtualizer_context_t *virt_ctxt = (virtualizer_context_t *)context;
ALOGV("%s: ctxt %p, strength %d", __func__, virt_ctxt, virt_ctxt->strength);
if (!offload_virtualizer_get_enable_flag(&(virt_ctxt->offload_virt)) &&
!(virt_ctxt->temp_disabled)) {
offload_virtualizer_set_enable_flag(&(virt_ctxt->offload_virt), true);
if (virt_ctxt->ctl && virt_ctxt->strength)
offload_virtualizer_send_params(virt_ctxt->ctl,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG |
OFFLOAD_SEND_VIRTUALIZER_STRENGTH);
if ((virt_ctxt->hw_acc_fd > 0) && virt_ctxt->strength)
hw_acc_virtualizer_send_params(virt_ctxt->hw_acc_fd,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG |
OFFLOAD_SEND_VIRTUALIZER_STRENGTH);
}
return 0;
}
int virtualizer_disable(effect_context_t *context)
{
virtualizer_context_t *virt_ctxt = (virtualizer_context_t *)context;
ALOGV("%s: ctxt %p", __func__, virt_ctxt);
if (offload_virtualizer_get_enable_flag(&(virt_ctxt->offload_virt))) {
offload_virtualizer_set_enable_flag(&(virt_ctxt->offload_virt), false);
if (virt_ctxt->ctl)
offload_virtualizer_send_params(virt_ctxt->ctl,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG);
if (virt_ctxt->hw_acc_fd > 0)
hw_acc_virtualizer_send_params(virt_ctxt->hw_acc_fd,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG);
}
return 0;
}
int virtualizer_start(effect_context_t *context, output_context_t *output)
{
virtualizer_context_t *virt_ctxt = (virtualizer_context_t *)context;
ALOGV("%s: ctxt %p, ctl %p", __func__, virt_ctxt, output->ctl);
virt_ctxt->ctl = output->ctl;
if (offload_virtualizer_get_enable_flag(&(virt_ctxt->offload_virt))) {
if (virt_ctxt->ctl)
offload_virtualizer_send_params(virt_ctxt->ctl, &virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG |
OFFLOAD_SEND_VIRTUALIZER_STRENGTH);
if (virt_ctxt->hw_acc_fd > 0)
hw_acc_virtualizer_send_params(virt_ctxt->hw_acc_fd,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG |
OFFLOAD_SEND_VIRTUALIZER_STRENGTH);
}
return 0;
}
int virtualizer_stop(effect_context_t *context, output_context_t *output __unused)
{
virtualizer_context_t *virt_ctxt = (virtualizer_context_t *)context;
ALOGV("%s: ctxt %p", __func__, virt_ctxt);
if (offload_virtualizer_get_enable_flag(&(virt_ctxt->offload_virt)) &&
virt_ctxt->ctl) {
struct virtualizer_params virt;
virt.enable_flag = false;
offload_virtualizer_send_params(virt_ctxt->ctl, &virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG);
}
virt_ctxt->ctl = NULL;
return 0;
}
int virtualizer_set_mode(effect_context_t *context, int32_t hw_acc_fd)
{
virtualizer_context_t *virt_ctxt = (virtualizer_context_t *)context;
ALOGV("%s: ctxt %p", __func__, virt_ctxt);
virt_ctxt->hw_acc_fd = hw_acc_fd;
if ((virt_ctxt->hw_acc_fd > 0) &&
(offload_virtualizer_get_enable_flag(&(virt_ctxt->offload_virt))))
hw_acc_virtualizer_send_params(virt_ctxt->hw_acc_fd,
&virt_ctxt->offload_virt,
OFFLOAD_SEND_VIRTUALIZER_ENABLE_FLAG |
OFFLOAD_SEND_VIRTUALIZER_STRENGTH);
return 0;
}