Gitiles
Code Review Sign In
gerrit.devboardsforandroid.linaro.org / device / linaro / hikey960 / b7c4e36a0cb7c266056753417378b17cf66e7d80 / . / hifi / xaf / host-apf / proxy / xaf-api.c
blob: 6b5862df68fc26af13293c6e8bc3edd6f2d6ece3 [file] [log] [blame]
/*******************************************************************************
* Copyright (C) 2018 Cadence Design Systems, Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to use this Software with Cadence processor cores only and
* not with any other processors and platforms, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
******************************************************************************/
#include "xf.h"
#include "xaf-api.h"
#include "xaf-structs.h"
#ifdef XAF_HOSTLESS
#include "xos-msgq-if.h"
#endif
#define MODULE_TAG DEVAPI
/*******************************************************************************
* Tracing configuration
******************************************************************************/
TRACE_TAG(INIT, 1);
TRACE_TAG(DEBUG, 1);
TRACE_TAG(INFO, 1);
#define XAF_4BYTE_ALIGN 4
#define XAF_8BYTE_ALIGN 8
#define XAF_32BYTE_ALIGN 32
static void xaf_comp_response(xf_handle_t *h, xf_user_msg_t *msg)
{
if (msg->opcode == XF_UNREGISTER)
{
/* ...component execution failed unexpectedly; die */
BUG(1, _x("[%p] Abnormal termination"), h);
}
else
{
/* ...submit response to asynchronous delivery queue */
xf_response_put(h, msg);
}
}
static XAF_ERR_CODE xaf_comp_add(xaf_comp_t **pp_comp_chain, xaf_comp_t *p_comp)
{
XAF_CHK_PTR(pp_comp_chain);
XAF_CHK_PTR(p_comp);
p_comp->next = *pp_comp_chain;
*pp_comp_chain = p_comp;
return XAF_NO_ERROR;
}
static XAF_ERR_CODE xaf_comp_post_init_config(xaf_adev_t *p_adev, xaf_comp_t *p_comp, void *p_msg)
{
xf_proxy_t *p_proxy = &p_adev->proxy;
xf_start_msg_t *smsg = p_msg;
p_comp->out_format.sample_rate = smsg->sample_rate;
p_comp->out_format.channels = smsg->channels;
p_comp->out_format.pcm_width = smsg->pcm_width;
p_comp->out_format.input_length = smsg->input_length;
p_comp->out_format.output_length = smsg->output_length;
TRACE(INFO, _b("Component[%x] Params: f=%d, c=%d, w=%d i=%d o=%d"), p_comp->handle.id, smsg->sample_rate, smsg->channels, smsg->pcm_width, smsg->input_length, smsg->output_length);
if (p_comp->noutbuf)
{
XF_CHK_API(xf_pool_alloc(p_proxy, p_comp->noutbuf, smsg->output_length, XF_POOL_OUTPUT, &p_comp->outpool, XAF_MEM_ID_COMP,
p_adev->pxf_mem_malloc_fxn, p_adev->pxf_mem_free_fxn));
}
p_comp->init_done = 1;
p_comp->comp_status = XAF_INIT_DONE;
return XAF_NO_ERROR;
}
#ifdef XAF_HOSTLESS
XAF_ERR_CODE xaf_xos_start()
{
#if defined BOARD
xos_set_clock_freq(xtbsp_clock_freq_hz());
#else
xos_set_clock_freq(XOS_CLOCK_FREQ);
#endif
xos_start("main", 7, 0);
#if XCHAL_NUM_TIMERS > 0
xos_start_system_timer(0, TICK_CYCLES);
#endif
return XAF_NO_ERROR;
}
#endif
XAF_ERR_CODE xaf_adev_open(void** pp_adev, s32 audio_frmwk_buf_size, s32 audio_comp_buf_size, xaf_mem_malloc_fxn_t mem_malloc, xaf_mem_free_fxn_t mem_free)
{
int size;
void * pTmp;
xaf_adev_t *p_adev;
xf_proxy_t *p_proxy;
XAF_CHK_PTR(pp_adev);
XAF_CHK_PTR(mem_malloc);
XAF_CHK_PTR(mem_free);
/* ...unused arg */
(void) audio_comp_buf_size;
//Memory allocation for adev struct pointer
size = (sizeof(xaf_adev_t) +(XAF_4BYTE_ALIGN-1));
pTmp = mem_malloc(size, XAF_MEM_ID_DEV);
XAF_CHK_PTR(pTmp);
memset(pTmp, 0, size);
p_adev = (xaf_adev_t *) (((unsigned long)pTmp + (XAF_4BYTE_ALIGN-1))& ~(XAF_4BYTE_ALIGN-1));
p_adev->adev_ptr = pTmp;
*pp_adev = (void *)p_adev;
p_proxy = &p_adev->proxy;
// Host side Memory allocation (BSS)
p_adev->pxf_mem_malloc_fxn = mem_malloc;
p_adev->pxf_mem_free_fxn = mem_free;
size = sizeof(xaf_ap_utils_t)+(XAF_8BYTE_ALIGN-1);
p_adev->p_ap_utils = mem_malloc(size, XAF_MEM_ID_DEV);
XAF_CHK_PTR(p_adev->p_ap_utils);
//reset memory size stats
memset(p_adev->p_ap_utils, 0, sizeof(xaf_ap_utils_t));
// shmmem Memory allocation
p_adev->p_ap_utils->xf_cfg_remote_ipc_pool_size = audio_frmwk_buf_size; //minimum size 256 KB, mmap multiple is 0x1000
//DSP localbuf allocation is done in the DSP core; nothing to be done here
/* ...open DSP proxy - specify "DSP#0" */
XF_CHK_API(xf_proxy_init(p_proxy, 0, (void *)&p_adev->p_ap_utils->xf_cfg_remote_ipc_pool_size));
/* ...create auxiliary buffers pool for control commands */
XF_CHK_API(xf_pool_alloc(p_proxy, XAF_AUX_POOL_SIZE, XAF_AUX_POOL_MSG_LENGTH, XF_POOL_AUX, &p_proxy->aux, XAF_MEM_ID_DEV,
p_adev->pxf_mem_malloc_fxn, p_adev->pxf_mem_free_fxn));
return XAF_NO_ERROR;
}
XAF_ERR_CODE xaf_adev_close(void* adev_ptr, xaf_comp_flag flag)
{
xaf_adev_t *p_adev;
xf_proxy_t *p_proxy;
XAF_CHK_PTR(adev_ptr);
p_adev = (xaf_adev_t *)adev_ptr;
/* ...unused arg */
(void) flag;
p_proxy = &p_adev->proxy;
if(p_proxy->aux != NULL)
{
xf_pool_free(p_proxy->aux, XAF_MEM_ID_DEV, p_adev->pxf_mem_free_fxn);
}
xf_proxy_close(p_proxy);
p_adev->pxf_mem_free_fxn(p_adev->p_ap_utils, XAF_MEM_ID_DEV);
p_adev->p_ap_utils = NULL;
p_adev->pxf_mem_free_fxn(p_adev->adev_ptr, XAF_MEM_ID_DEV);
p_adev->adev_ptr = NULL;
p_adev->pxf_mem_malloc_fxn = NULL;
p_adev->pxf_mem_free_fxn = NULL;
return XAF_NO_ERROR;
}
XAF_ERR_CODE xaf_comp_create(void *adev_ptr, void **pp_comp, xf_id_t comp_id, u32 ninbuf, u32 noutbuf, void *pp_inbuf[], xaf_comp_type comp_type)
{
xf_handle_t *p_handle;
void * pTmp;
int size;
xaf_adev_t *p_adev;
p_adev = (xaf_adev_t *)adev_ptr;
xaf_comp_t *p_comp;
XAF_CHK_PTR(p_adev);
XAF_CHK_PTR(pp_comp);
XAF_CHK_PTR(comp_id);
if (ninbuf) XAF_CHK_PTR(pp_inbuf);
XAF_CHK_RANGE(ninbuf, 0, XAF_MAX_INBUFS);
XAF_CHK_RANGE(noutbuf, 0, 1);
XAF_CHK_RANGE(comp_type, XAF_DECODER, XAF_POST_PROC);
//Memory allocation for component struct pointer
size = (sizeof(xaf_comp_t) + (XAF_4BYTE_ALIGN-1));
pTmp = p_adev->pxf_mem_malloc_fxn(size, XAF_MEM_ID_COMP);
XAF_CHK_PTR(pTmp);
memset(pTmp, 0, size);
p_comp = (xaf_comp_t *) (((unsigned long)pTmp + (XAF_4BYTE_ALIGN-1))& ~(XAF_4BYTE_ALIGN-1));
p_comp->comp_ptr = pTmp;
*pp_comp = (void*)p_comp;
memset(p_comp, 0, sizeof(xaf_comp_t));
p_handle = &p_comp->handle;
/* ...create component instance (select core-0) */
XF_CHK_API(xf_open(&p_adev->proxy, p_handle, comp_id, 0, xaf_comp_response));
xaf_comp_add(&p_adev->comp_chain, p_comp);
// Temporary solution in place of component chain handling
p_comp->p_adev = p_adev;
p_adev->n_comp += 1;
p_comp->ninbuf = ninbuf;
/* ...allocate input buffer */
if (ninbuf)
{
xf_buffer_t *buf;
u32 i;
XF_CHK_API(xf_pool_alloc(&p_adev->proxy, ninbuf, XAF_INBUF_SIZE, XF_POOL_INPUT, &p_comp->inpool, XAF_MEM_ID_COMP,
p_adev->pxf_mem_malloc_fxn, p_adev->pxf_mem_free_fxn));
for (i=0; i<ninbuf; i++)
{
buf = xf_buffer_get(p_comp->inpool);
pp_inbuf[i] = xf_buffer_data(buf);
}
}
p_comp->noutbuf = noutbuf;
p_comp->comp_type = comp_type;
p_comp->comp_status = XAF_STARTING;
switch (comp_type)
{
case XAF_DECODER:
case XAF_ENCODER:
case XAF_PRE_PROC:
case XAF_POST_PROC:
p_comp->inp_ports = 1; p_comp->out_ports = 1;
break;
case XAF_MIXER:
p_comp->inp_ports = 4; p_comp->out_ports = 1;
break;
}
return XAF_NO_ERROR;
}
XAF_ERR_CODE xaf_comp_delete(void *comp_ptr)
{
xaf_adev_t *p_adev;
xaf_comp_t *p_comp;
p_comp = (xaf_comp_t *)comp_ptr;
XAF_CHK_PTR(p_comp);
// Temporary solution in place of component chain handling
p_adev = (xaf_adev_t *)(p_comp->p_adev);
XF_CHK_ERR((p_adev->n_comp > 0), XAF_API_ERR);
p_adev->n_comp -= 1;
if (p_comp->inpool) xf_pool_free(p_comp->inpool, XAF_MEM_ID_COMP, p_adev->pxf_mem_free_fxn);
if (p_comp->outpool) xf_pool_free(p_comp->outpool, XAF_MEM_ID_COMP, p_adev->pxf_mem_free_fxn);
xf_close(&p_comp->handle);
/* ...tbd - remove from chain */
p_adev->pxf_mem_free_fxn(p_comp->comp_ptr, XAF_MEM_ID_COMP);
p_comp->comp_ptr = NULL;
return XAF_NO_ERROR;
}
XAF_ERR_CODE xaf_comp_set_config(void *comp_ptr, s32 num_param, s32 *p_param)
{
xaf_comp_t *p_comp;
xf_user_msg_t rmsg;
xf_set_param_msg_t *smsg;
xf_handle_t *p_handle;
s32 i, j;
p_comp = (xaf_comp_t *)comp_ptr;
XAF_CHK_PTR(p_comp);
XAF_CHK_PTR(p_param);
XAF_CHK_RANGE(num_param, 1, XAF_MAX_CONFIG_PARAMS);
p_handle = &p_comp->handle;
XAF_CHK_PTR(p_handle);
/* ...set persistent stream characteristics */
smsg = xf_buffer_data(p_handle->aux);
j = 0;
for (i=0; i<num_param; i++)
{
smsg->item[i].id = p_param[j++];
smsg->item[i].value = p_param[j++];
}
/* ...pass command to the component */
/* ...tbd - command goes port 0 always, check if okay */
XF_CHK_API(xf_command(p_handle, 0, XF_SET_PARAM, smsg, sizeof(xf_set_param_item_t)*num_param));
/* ...wait until result is delivered */
XF_CHK_API(xf_response_get(p_handle, &rmsg));
/* ...make sure response is expected */
XF_CHK_ERR(rmsg.opcode == (u32) XF_SET_PARAM && rmsg.buffer == smsg, XAF_API_ERR);
return XAF_NO_ERROR;
}
XAF_ERR_CODE xaf_comp_get_config(void *comp_ptr, s32 num_param, s32 *p_param)
{
xaf_comp_t *p_comp;
xf_user_msg_t rmsg;
xf_get_param_msg_t *smsg;
xf_handle_t *p_handle;
s32 i;
p_comp = (xaf_comp_t *)comp_ptr;
XAF_CHK_PTR(p_comp);
XAF_CHK_PTR(p_param);
XAF_CHK_RANGE(num_param, 1, XAF_MAX_CONFIG_PARAMS);
p_handle = &p_comp->handle;
XAF_CHK_PTR(p_handle);
/* ...set persistent stream characteristics */
smsg = xf_buffer_data(p_handle->aux);
for (i=0; i<num_param; i++)
{
smsg->c.id[i] = p_param[i];
}
/* ...pass command to the component */
/* ...tbd - command goes port 0 always, check if okay */
XF_CHK_API(xf_command(p_handle, 0, XF_GET_PARAM, smsg, XF_GET_PARAM_CMD_LEN(num_param)));
/* ...wait until result is delivered */
XF_CHK_API(xf_response_get(p_handle, &rmsg));
/* ...make sure response is expected */
XF_CHK_ERR(rmsg.opcode == (u32) XF_GET_PARAM && rmsg.buffer == smsg, XAF_API_ERR);
for (i=0; i<num_param; i++)
{
p_param[i] = smsg->r.value[i];
}
return XAF_NO_ERROR;
}
#ifdef XAF_HOSTLESS
XAF_ERR_CODE xaf_comp_get_status(xaf_adev_t *p_adev, xaf_comp_t *p_comp, xaf_comp_status *p_status, void *p_info)
#else
XAF_ERR_CODE xaf_comp_get_status(void *adev_ptr, void *comp_ptr, xaf_comp_status *p_status, xaf_info_t *p_info)
#endif
{
xaf_adev_t *p_adev;
xaf_comp_t *p_comp;
xf_handle_t *p_handle;
p_adev = (xaf_adev_t *)adev_ptr;
p_comp = (xaf_comp_t *)comp_ptr;
XAF_CHK_PTR(p_comp);
XAF_CHK_PTR(p_status);
XAF_CHK_PTR(p_info);
if (!p_comp->init_done) XAF_CHK_PTR(p_adev);
p_handle = &p_comp->handle;
if (p_comp->pending_resp)
{
xf_user_msg_t rmsg;
/* ...wait until result is delivered */
XF_CHK_API(xf_response_get(p_handle, &rmsg));
if (rmsg.opcode == XF_FILL_THIS_BUFFER)
{
if (rmsg.buffer == p_comp->start_buf)
{
XF_CHK_API(xaf_comp_post_init_config(p_adev, p_comp, p_comp->start_buf));
}
else
{
#ifdef XAF_HOSTLESS
s32 *p_buf = (s32 *) p_info;
p_buf[0] = (s32) rmsg.buffer;
p_buf[1] = (s32) rmsg.length;
#else
p_info->buf = (void*) rmsg.buffer;
p_info->length = (s32) rmsg.length;
#endif
if (!p_comp->inpool && p_comp->outpool) p_comp->pending_resp--;
if (!rmsg.length) p_comp->comp_status = XAF_EXEC_DONE;
else
{
p_comp->comp_status = XAF_OUTPUT_READY;
p_comp->expect_out_cmd++;
}
}
}
else
{
/* ...make sure response is expected */
XF_CHK_ERR(rmsg.opcode == (u32) XF_EMPTY_THIS_BUFFER, XAF_API_ERR);
#ifdef XAF_HOSTLESS
s32 *p_buf = (s32 *) p_info;
p_buf[0] = (s32) rmsg.buffer;
p_buf[1] = (s32) rmsg.length;
#else
p_info->buf = (void*) rmsg.buffer;
p_info->length = (s32) rmsg.length;
#endif
p_comp->pending_resp--;
if (p_comp->input_over && rmsg.buffer == NULL) p_comp->comp_status = XAF_EXEC_DONE;
else p_comp->comp_status = XAF_NEED_INPUT;
}
}
else if ((p_comp->comp_status == XAF_STARTING && p_comp->start_cmd_issued) ||
(p_comp->comp_status == XAF_INIT_DONE && p_comp->exec_cmd_issued))
{
if (p_comp->inpool) p_comp->comp_status = XAF_NEED_INPUT;
}
*p_status = p_comp->comp_status;
return XAF_NO_ERROR;
}
XAF_ERR_CODE xaf_comp_process(void *adev_ptr, void *comp_ptr, void *p_buf, u32 length, xaf_comp_flag flag)
{
xaf_adev_t *p_adev;
xaf_comp_t *p_comp;
xf_handle_t *p_handle;
p_adev = (xaf_adev_t *)adev_ptr;
p_comp = (xaf_comp_t *)comp_ptr;
XAF_CHK_PTR(p_comp);
if (!p_comp->init_done) XAF_CHK_PTR(p_adev);
XAF_CHK_RANGE(flag, XAF_START_FLAG, XAF_NEED_OUTPUT_FLAG);
if (flag == XAF_INPUT_READY_FLAG) XAF_CHK_RANGE(length, 0, XAF_INBUF_SIZE);
p_handle = &p_comp->handle;
switch (flag)
{
case XAF_START_FLAG:
if (p_comp->start_cmd_issued)
break;
else
{
p_comp->start_buf = xf_buffer_data(p_handle->aux);
XF_CHK_API(xf_command(p_handle, (p_comp->inp_ports), XF_FILL_THIS_BUFFER, p_comp->start_buf, 0));
p_comp->start_cmd_issued = 1;
if(p_comp->comp_type != XAF_DECODER)
{
xf_user_msg_t rmsg;
/* ...wait until result is delivered */
XF_CHK_API(xf_response_get(p_handle, &rmsg));
/* ...make sure response is expected */
XF_CHK_ERR(rmsg.opcode == XF_FILL_THIS_BUFFER && rmsg.buffer == p_comp->start_buf, XAF_API_ERR);
XF_CHK_API(xaf_comp_post_init_config(p_adev, p_comp, p_comp->start_buf));
}
}
break;
case XAF_EXEC_FLAG:
if (!p_comp->init_done || p_comp->exec_cmd_issued)
break;
p_comp->exec_cmd_issued = 1;
if (p_comp->outpool)
{
u32 i;
xf_buffer_t *p_buf;
void *p_data;
for (i=0; i<p_comp->noutbuf; i++)
{
p_buf = xf_buffer_get(p_comp->outpool);
p_data = xf_buffer_data(p_buf);
XF_CHK_API(xf_command(&p_comp->handle, (p_comp->inp_ports), XF_FILL_THIS_BUFFER, p_data, p_comp->out_format.output_length));
}
if (!p_comp->inpool) p_comp->pending_resp = p_comp->noutbuf;
}
break;
case XAF_INPUT_OVER_FLAG:
if (!p_comp->input_over)
{
XF_CHK_API(xf_command(p_handle, 0, XF_EMPTY_THIS_BUFFER, NULL, 0));
p_comp->input_over = 1;
p_comp->pending_resp++;
}
break;
case XAF_INPUT_READY_FLAG:
if (!p_comp->input_over)
{
XAF_CHK_PTR(p_buf);
XF_CHK_API(xf_command(p_handle, 0, XF_EMPTY_THIS_BUFFER, p_buf, length));
p_comp->pending_resp++;
}
break;
case XAF_NEED_OUTPUT_FLAG:
if (p_comp->expect_out_cmd)
{
XAF_CHK_PTR(p_buf);
XF_CHK_API(xf_command(p_handle, (p_comp->inp_ports), XF_FILL_THIS_BUFFER, p_buf, length));
p_comp->expect_out_cmd--;
if (!p_comp->inpool && p_comp->outpool) p_comp->pending_resp++;
}
break;
}
return XAF_NO_ERROR;
}
XAF_ERR_CODE xaf_connect(void *src_ptr, void *dest_ptr, s32 num_buf)
{
xaf_comp_t *p_src;
xaf_comp_t *p_dest;
p_src = (xaf_comp_t *)src_ptr;
p_dest = (xaf_comp_t *)dest_ptr;
XAF_CHK_PTR(p_src);
XAF_CHK_PTR(p_dest);
XAF_CHK_RANGE(num_buf, 2, 4);
if (!p_src->init_done || p_src->out_routed == p_src->out_ports || p_dest->inp_routed == p_dest->inp_ports)
return XAF_ROUTING_ERROR;
XF_CHK_API(xf_route(&p_src->handle, (p_src->inp_ports + p_src->out_routed), &p_dest->handle, (p_dest->inp_routed), num_buf, p_src->out_format.output_length, 8));
p_src->out_routed++;
p_dest->inp_routed++;
return XAF_NO_ERROR;
}
XAF_ERR_CODE xaf_disconnect(xaf_comp_t *p_comp)
{
XAF_CHK_PTR(p_comp);
/* ...tbd - support for multiple output ports */
if (!p_comp->init_done || p_comp->out_routed != p_comp->out_ports)
return XAF_ROUTING_ERROR;
XF_CHK_API(xf_unroute(&p_comp->handle, (p_comp->inp_ports)));
return XAF_NO_ERROR;
}