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gfiber / kernel / mindspeed / 87f7918552be2b3378f7e8944008bff102b3e59f / . / drivers / staging / intel_sst / intel_sst_ipc.c
blob: 5c3444f6ab4146ba2f828921d9f8d0482a049cbb [file] [log] [blame]
/*
* intel_sst_ipc.c - Intel SST Driver for audio engine
*
* Copyright (C) 2008-10 Intel Corporation
* Authors: Vinod Koul <vinod.koul@intel.com>
* Harsha Priya <priya.harsha@intel.com>
* Dharageswari R <dharageswari.r@intel.com>
* KP Jeeja <jeeja.kp@intel.com>
* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
*
* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*
* This file defines all ipc functions
*/
#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
#include <linux/pci.h>
#include <linux/firmware.h>
#include <linux/sched.h>
#include "intel_sst.h"
#include "intel_sst_ioctl.h"
#include "intel_sst_fw_ipc.h"
#include "intel_sst_common.h"
/*
* sst_send_sound_card_type - send sound card type
*
* this function sends the sound card type to sst dsp engine
*/
static void sst_send_sound_card_type(void)
{
struct ipc_post *msg = NULL;
if (sst_create_short_msg(&msg))
return;
sst_fill_header(&msg->header, IPC_IA_SET_PMIC_TYPE, 0, 0);
msg->header.part.data = sst_drv_ctx->pmic_vendor;
spin_lock(&sst_drv_ctx->list_spin_lock);
list_add_tail(&msg->node, &sst_drv_ctx->ipc_dispatch_list);
spin_unlock(&sst_drv_ctx->list_spin_lock);
sst_post_message(&sst_drv_ctx->ipc_post_msg_wq);
return;
}
/**
* sst_post_message - Posts message to SST
*
* @work: Pointer to work structure
*
* This function is called by any component in driver which
* wants to send an IPC message. This will post message only if
* busy bit is free
*/
void sst_post_message(struct work_struct *work)
{
struct ipc_post *msg;
union ipc_header header;
union interrupt_reg imr;
int retval = 0;
imr.full = 0;
/*To check if LPE is in stalled state.*/
retval = sst_stalled();
if (retval < 0) {
pr_err("in stalled state\n");
return;
}
pr_debug("post message called\n");
spin_lock(&sst_drv_ctx->list_spin_lock);
/* check list */
if (list_empty(&sst_drv_ctx->ipc_dispatch_list)) {
/* list is empty, mask imr */
pr_debug("Empty msg queue... masking\n");
imr.full = readl(sst_drv_ctx->shim + SST_IMRX);
imr.part.done_interrupt = 1;
/* dummy register for shim workaround */
sst_shim_write(sst_drv_ctx->shim, SST_IMRX, imr.full);
spin_unlock(&sst_drv_ctx->list_spin_lock);
return;
}
/* check busy bit */
header.full = sst_shim_read(sst_drv_ctx->shim, SST_IPCX);
if (header.part.busy) {
/* busy, unmask */
pr_debug("Busy not free... unmasking\n");
imr.full = readl(sst_drv_ctx->shim + SST_IMRX);
imr.part.done_interrupt = 0;
/* dummy register for shim workaround */
sst_shim_write(sst_drv_ctx->shim, SST_IMRX, imr.full);
spin_unlock(&sst_drv_ctx->list_spin_lock);
return;
}
/* copy msg from list */
msg = list_entry(sst_drv_ctx->ipc_dispatch_list.next,
struct ipc_post, node);
list_del(&msg->node);
pr_debug("Post message: header = %x\n", msg->header.full);
pr_debug("size: = %x\n", msg->header.part.data);
if (msg->header.part.large)
memcpy_toio(sst_drv_ctx->mailbox + SST_MAILBOX_SEND,
msg->mailbox_data, msg->header.part.data);
/* dummy register for shim workaround */
sst_shim_write(sst_drv_ctx->shim, SST_IPCX, msg->header.full);
spin_unlock(&sst_drv_ctx->list_spin_lock);
kfree(msg->mailbox_data);
kfree(msg);
return;
}
/*
* sst_clear_interrupt - clear the SST FW interrupt
*
* This function clears the interrupt register after the interrupt
* bottom half is complete allowing next interrupt to arrive
*/
void sst_clear_interrupt(void)
{
union interrupt_reg isr;
union interrupt_reg imr;
union ipc_header clear_ipc;
imr.full = sst_shim_read(sst_drv_ctx->shim, SST_IMRX);
isr.full = sst_shim_read(sst_drv_ctx->shim, SST_ISRX);
/* write 1 to clear */;
isr.part.busy_interrupt = 1;
sst_shim_write(sst_drv_ctx->shim, SST_ISRX, isr.full);
/* Set IA done bit */
clear_ipc.full = sst_shim_read(sst_drv_ctx->shim, SST_IPCD);
clear_ipc.part.busy = 0;
clear_ipc.part.done = 1;
clear_ipc.part.data = IPC_ACK_SUCCESS;
sst_shim_write(sst_drv_ctx->shim, SST_IPCD, clear_ipc.full);
/* un mask busy interrupt */
imr.part.busy_interrupt = 0;
sst_shim_write(sst_drv_ctx->shim, SST_IMRX, imr.full);
}
void sst_restore_fw_context(void)
{
struct snd_sst_ctxt_params fw_context;
struct ipc_post *msg = NULL;
pr_debug("restore_fw_context\n");
/*check cpu type*/
if (sst_drv_ctx->pci_id != SST_MFLD_PCI_ID)
return;
/*not supported for rest*/
if (!sst_drv_ctx->fw_cntx_size)
return;
/*nothing to restore*/
pr_debug("restoring context......\n");
/*send msg to fw*/
if (sst_create_large_msg(&msg))
return;
sst_fill_header(&msg->header, IPC_IA_SET_FW_CTXT, 1, 0);
msg->header.part.data = sizeof(fw_context) + sizeof(u32);
fw_context.address = virt_to_phys((void *)sst_drv_ctx->fw_cntx);
fw_context.size = sst_drv_ctx->fw_cntx_size;
memcpy(msg->mailbox_data, &msg->header, sizeof(u32));
memcpy(msg->mailbox_data + sizeof(u32),
&fw_context, sizeof(fw_context));
spin_lock(&sst_drv_ctx->list_spin_lock);
list_add_tail(&msg->node, &sst_drv_ctx->ipc_dispatch_list);
spin_unlock(&sst_drv_ctx->list_spin_lock);
sst_post_message(&sst_drv_ctx->ipc_post_msg_wq);
return;
}
/*
* process_fw_init - process the FW init msg
*
* @msg: IPC message from FW
*
* This function processes the FW init msg from FW
* marks FW state and prints debug info of loaded FW
*/
int process_fw_init(struct sst_ipc_msg_wq *msg)
{
struct ipc_header_fw_init *init =
(struct ipc_header_fw_init *)msg->mailbox;
int retval = 0;
pr_debug("*** FW Init msg came***\n");
if (init->result) {
mutex_lock(&sst_drv_ctx->sst_lock);
sst_drv_ctx->sst_state = SST_ERROR;
mutex_unlock(&sst_drv_ctx->sst_lock);
pr_debug("FW Init failed, Error %x\n", init->result);
pr_err("FW Init failed, Error %x\n", init->result);
retval = -init->result;
return retval;
}
if (sst_drv_ctx->pci_id == SST_MRST_PCI_ID)
sst_send_sound_card_type();
mutex_lock(&sst_drv_ctx->sst_lock);
sst_drv_ctx->sst_state = SST_FW_RUNNING;
sst_drv_ctx->lpe_stalled = 0;
mutex_unlock(&sst_drv_ctx->sst_lock);
pr_debug("FW Version %02x.%02x.%02x\n", init->fw_version.major,
init->fw_version.minor, init->fw_version.build);
pr_debug("Build Type %x\n", init->fw_version.type);
pr_debug(" Build date %s Time %s\n",
init->build_info.date, init->build_info.time);
sst_wake_up_alloc_block(sst_drv_ctx, FW_DWNL_ID, retval, NULL);
sst_restore_fw_context();
return retval;
}
/**
* sst_process_message - Processes message from SST
*
* @work: Pointer to work structure
*
* This function is scheduled by ISR
* It take a msg from process_queue and does action based on msg
*/
void sst_process_message(struct work_struct *work)
{
struct sst_ipc_msg_wq *msg =
container_of(work, struct sst_ipc_msg_wq, wq);
int str_id = msg->header.part.str_id;
pr_debug("IPC process for %x\n", msg->header.full);
/* based on msg in list call respective handler */
switch (msg->header.part.msg_id) {
case IPC_SST_BUF_UNDER_RUN:
case IPC_SST_BUF_OVER_RUN:
if (sst_validate_strid(str_id)) {
pr_err("stream id %d invalid\n", str_id);
break;
}
pr_err("Buffer under/overrun for %d\n",
msg->header.part.str_id);
pr_err("Got Underrun & not to send data...ignore\n");
break;
case IPC_SST_GET_PLAY_FRAMES:
if (sst_drv_ctx->pci_id == SST_MRST_PCI_ID) {
struct stream_info *stream ;
if (sst_validate_strid(str_id)) {
pr_err("strid %d invalid\n", str_id);
break;
}
/* call sst_play_frame */
stream = &sst_drv_ctx->streams[str_id];
pr_debug("sst_play_frames for %d\n",
msg->header.part.str_id);
mutex_lock(&sst_drv_ctx->streams[str_id].lock);
sst_play_frame(msg->header.part.str_id);
mutex_unlock(&sst_drv_ctx->streams[str_id].lock);
break;
} else
pr_err("sst_play_frames for Penwell!!\n");
case IPC_SST_GET_CAPT_FRAMES:
if (sst_drv_ctx->pci_id == SST_MRST_PCI_ID) {
struct stream_info *stream;
/* call sst_capture_frame */
if (sst_validate_strid(str_id)) {
pr_err("str id %d invalid\n", str_id);
break;
}
stream = &sst_drv_ctx->streams[str_id];
pr_debug("sst_capture_frames for %d\n",
msg->header.part.str_id);
mutex_lock(&stream->lock);
if (stream->mmapped == false &&
stream->src == SST_DRV) {
pr_debug("waking up block for copy.\n");
stream->data_blk.ret_code = 0;
stream->data_blk.condition = true;
stream->data_blk.on = false;
wake_up(&sst_drv_ctx->wait_queue);
} else
sst_capture_frame(msg->header.part.str_id);
mutex_unlock(&stream->lock);
} else
pr_err("sst_play_frames for Penwell!!\n");
break;
case IPC_IA_PRINT_STRING:
pr_debug("been asked to print something by fw\n");
/* TBD */
break;
case IPC_IA_FW_INIT_CMPLT: {
/* send next data to FW */
process_fw_init(msg);
break;
}
case IPC_SST_STREAM_PROCESS_FATAL_ERR:
if (sst_validate_strid(str_id)) {
pr_err("stream id %d invalid\n", str_id);
break;
}
pr_err("codec fatal error %x stream %d...\n",
msg->header.full, msg->header.part.str_id);
pr_err("Dropping the stream\n");
sst_drop_stream(msg->header.part.str_id);
break;
case IPC_IA_LPE_GETTING_STALLED:
sst_drv_ctx->lpe_stalled = 1;
break;
case IPC_IA_LPE_UNSTALLED:
sst_drv_ctx->lpe_stalled = 0;
break;
default:
/* Illegal case */
pr_err("Unhandled msg %x header %x\n",
msg->header.part.msg_id, msg->header.full);
}
sst_clear_interrupt();
return;
}
/**
* sst_process_reply - Processes reply message from SST
*
* @work: Pointer to work structure
*
* This function is scheduled by ISR
* It take a reply msg from response_queue and
* does action based on msg
*/
void sst_process_reply(struct work_struct *work)
{
struct sst_ipc_msg_wq *msg =
container_of(work, struct sst_ipc_msg_wq, wq);
int str_id = msg->header.part.str_id;
struct stream_info *str_info;
switch (msg->header.part.msg_id) {
case IPC_IA_TARGET_DEV_SELECT:
if (!msg->header.part.data) {
sst_drv_ctx->tgt_dev_blk.ret_code = 0;
} else {
pr_err(" Msg %x reply error %x\n",
msg->header.part.msg_id, msg->header.part.data);
sst_drv_ctx->tgt_dev_blk.ret_code =
-msg->header.part.data;
}
if (sst_drv_ctx->tgt_dev_blk.on == true) {
sst_drv_ctx->tgt_dev_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
case IPC_IA_ALG_PARAMS: {
pr_debug("sst:IPC_ALG_PARAMS response %x\n", msg->header.full);
pr_debug("sst: data value %x\n", msg->header.part.data);
pr_debug("sst: large value %x\n", msg->header.part.large);
if (!msg->header.part.large) {
if (!msg->header.part.data) {
pr_debug("sst: alg set success\n");
sst_drv_ctx->ppp_params_blk.ret_code = 0;
} else {
pr_debug("sst: alg set failed\n");
sst_drv_ctx->ppp_params_blk.ret_code =
-msg->header.part.data;
}
} else if (msg->header.part.data) {
struct snd_ppp_params *mailbox_params, *get_params;
char *params;
pr_debug("sst: alg get success\n");
mailbox_params = (struct snd_ppp_params *)msg->mailbox;
get_params = kzalloc(sizeof(*get_params), GFP_KERNEL);
if (get_params == NULL) {
pr_err("sst: out of memory for ALG PARAMS");
break;
}
memcpy_fromio(get_params, mailbox_params,
sizeof(*get_params));
get_params->params = kzalloc(mailbox_params->size,
GFP_KERNEL);
if (get_params->params == NULL) {
kfree(get_params);
pr_err("sst: out of memory for ALG PARAMS block");
break;
}
params = msg->mailbox;
params = params + sizeof(*mailbox_params) - sizeof(u32);
memcpy_fromio(get_params->params, params,
get_params->size);
sst_drv_ctx->ppp_params_blk.ret_code = 0;
sst_drv_ctx->ppp_params_blk.data = get_params;
}
if (sst_drv_ctx->ppp_params_blk.on == true) {
sst_drv_ctx->ppp_params_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
}
case IPC_IA_TUNING_PARAMS: {
pr_debug("sst:IPC_TUNING_PARAMS resp: %x\n", msg->header.full);
pr_debug("data value %x\n", msg->header.part.data);
if (msg->header.part.large) {
pr_debug("alg set failed\n");
sst_drv_ctx->ppp_params_blk.ret_code =
-msg->header.part.data;
} else {
pr_debug("alg set success\n");
sst_drv_ctx->ppp_params_blk.ret_code = 0;
}
if (sst_drv_ctx->ppp_params_blk.on == true) {
sst_drv_ctx->ppp_params_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
}
case IPC_IA_GET_FW_INFO: {
struct snd_sst_fw_info *fw_info =
(struct snd_sst_fw_info *)msg->mailbox;
if (msg->header.part.large) {
int major = fw_info->fw_version.major;
int minor = fw_info->fw_version.minor;
int build = fw_info->fw_version.build;
pr_debug("Msg succeeded %x\n",
msg->header.part.msg_id);
pr_debug("INFO: ***FW*** = %02d.%02d.%02d\n",
major, minor, build);
memcpy_fromio(sst_drv_ctx->fw_info_blk.data,
((struct snd_sst_fw_info *)(msg->mailbox)),
sizeof(struct snd_sst_fw_info));
sst_drv_ctx->fw_info_blk.ret_code = 0;
} else {
pr_err(" Msg %x reply error %x\n",
msg->header.part.msg_id, msg->header.part.data);
sst_drv_ctx->fw_info_blk.ret_code =
-msg->header.part.data;
}
if (sst_drv_ctx->fw_info_blk.on == true) {
pr_debug("Memcopy succeeded\n");
sst_drv_ctx->fw_info_blk.on = false;
sst_drv_ctx->fw_info_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
}
case IPC_IA_SET_STREAM_MUTE:
if (!msg->header.part.data) {
pr_debug("Msg succeeded %x\n",
msg->header.part.msg_id);
sst_drv_ctx->mute_info_blk.ret_code = 0;
} else {
pr_err(" Msg %x reply error %x\n",
msg->header.part.msg_id, msg->header.part.data);
sst_drv_ctx->mute_info_blk.ret_code =
-msg->header.part.data;
}
if (sst_drv_ctx->mute_info_blk.on == true) {
sst_drv_ctx->mute_info_blk.on = false;
sst_drv_ctx->mute_info_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
case IPC_IA_SET_STREAM_VOL:
if (!msg->header.part.data) {
pr_debug("Msg succeeded %x\n",
msg->header.part.msg_id);
sst_drv_ctx->vol_info_blk.ret_code = 0;
} else {
pr_err(" Msg %x reply error %x\n",
msg->header.part.msg_id,
msg->header.part.data);
sst_drv_ctx->vol_info_blk.ret_code =
-msg->header.part.data;
}
if (sst_drv_ctx->vol_info_blk.on == true) {
sst_drv_ctx->vol_info_blk.on = false;
sst_drv_ctx->vol_info_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
case IPC_IA_GET_STREAM_VOL:
if (msg->header.part.large) {
pr_debug("Large Msg Received Successfully\n");
pr_debug("Msg succeeded %x\n",
msg->header.part.msg_id);
memcpy_fromio(sst_drv_ctx->vol_info_blk.data,
(void *) msg->mailbox,
sizeof(struct snd_sst_vol));
sst_drv_ctx->vol_info_blk.ret_code = 0;
} else {
pr_err("Msg %x reply error %x\n",
msg->header.part.msg_id, msg->header.part.data);
sst_drv_ctx->vol_info_blk.ret_code =
-msg->header.part.data;
}
if (sst_drv_ctx->vol_info_blk.on == true) {
sst_drv_ctx->vol_info_blk.on = false;
sst_drv_ctx->vol_info_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
case IPC_IA_GET_STREAM_PARAMS:
if (sst_validate_strid(str_id)) {
pr_err("stream id %d invalid\n", str_id);
break;
}
str_info = &sst_drv_ctx->streams[str_id];
if (msg->header.part.large) {
pr_debug("Get stream large success\n");
memcpy_fromio(str_info->ctrl_blk.data,
((void *)(msg->mailbox)),
sizeof(struct snd_sst_fw_get_stream_params));
str_info->ctrl_blk.ret_code = 0;
} else {
pr_err("Msg %x reply error %x\n",
msg->header.part.msg_id, msg->header.part.data);
str_info->ctrl_blk.ret_code = -msg->header.part.data;
}
if (str_info->ctrl_blk.on == true) {
str_info->ctrl_blk.on = false;
str_info->ctrl_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
case IPC_IA_DECODE_FRAMES:
if (sst_validate_strid(str_id)) {
pr_err("stream id %d invalid\n", str_id);
break;
}
str_info = &sst_drv_ctx->streams[str_id];
if (msg->header.part.large) {
pr_debug("Msg succeeded %x\n",
msg->header.part.msg_id);
memcpy_fromio(str_info->data_blk.data,
((void *)(msg->mailbox)),
sizeof(struct snd_sst_decode_info));
str_info->data_blk.ret_code = 0;
} else {
pr_err("Msg %x reply error %x\n",
msg->header.part.msg_id, msg->header.part.data);
str_info->data_blk.ret_code = -msg->header.part.data;
}
if (str_info->data_blk.on == true) {
str_info->data_blk.on = false;
str_info->data_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
case IPC_IA_DRAIN_STREAM:
if (sst_validate_strid(str_id)) {
pr_err("stream id %d invalid\n", str_id);
break;
}
str_info = &sst_drv_ctx->streams[str_id];
if (!msg->header.part.data) {
pr_debug("Msg succeeded %x\n",
msg->header.part.msg_id);
str_info->ctrl_blk.ret_code = 0;
} else {
pr_err(" Msg %x reply error %x\n",
msg->header.part.msg_id, msg->header.part.data);
str_info->ctrl_blk.ret_code = -msg->header.part.data;
}
str_info = &sst_drv_ctx->streams[str_id];
if (str_info->data_blk.on == true) {
str_info->data_blk.on = false;
str_info->data_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
case IPC_IA_DROP_STREAM:
if (sst_validate_strid(str_id)) {
pr_err("str id %d invalid\n", str_id);
break;
}
str_info = &sst_drv_ctx->streams[str_id];
if (msg->header.part.large) {
struct snd_sst_drop_response *drop_resp =
(struct snd_sst_drop_response *)msg->mailbox;
pr_debug("Drop ret bytes %x\n", drop_resp->bytes);
str_info->curr_bytes = drop_resp->bytes;
str_info->ctrl_blk.ret_code = 0;
} else {
pr_err(" Msg %x reply error %x\n",
msg->header.part.msg_id, msg->header.part.data);
str_info->ctrl_blk.ret_code = -msg->header.part.data;
}
if (str_info->ctrl_blk.on == true) {
str_info->ctrl_blk.on = false;
str_info->ctrl_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
case IPC_IA_ENABLE_RX_TIME_SLOT:
if (!msg->header.part.data) {
pr_debug("RX_TIME_SLOT success\n");
sst_drv_ctx->hs_info_blk.ret_code = 0;
} else {
pr_err(" Msg %x reply error %x\n",
msg->header.part.msg_id,
msg->header.part.data);
sst_drv_ctx->hs_info_blk.ret_code =
-msg->header.part.data;
}
if (sst_drv_ctx->hs_info_blk.on == true) {
sst_drv_ctx->hs_info_blk.on = false;
sst_drv_ctx->hs_info_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
case IPC_IA_PAUSE_STREAM:
case IPC_IA_RESUME_STREAM:
case IPC_IA_SET_STREAM_PARAMS:
str_info = &sst_drv_ctx->streams[str_id];
if (!msg->header.part.data) {
pr_debug("Msg succeeded %x\n",
msg->header.part.msg_id);
str_info->ctrl_blk.ret_code = 0;
} else {
pr_err(" Msg %x reply error %x\n",
msg->header.part.msg_id,
msg->header.part.data);
str_info->ctrl_blk.ret_code = -msg->header.part.data;
}
if (sst_validate_strid(str_id)) {
pr_err(" stream id %d invalid\n", str_id);
break;
}
if (str_info->ctrl_blk.on == true) {
str_info->ctrl_blk.on = false;
str_info->ctrl_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
case IPC_IA_FREE_STREAM:
str_info = &sst_drv_ctx->streams[str_id];
if (!msg->header.part.data) {
pr_debug("Stream %d freed\n", str_id);
} else {
pr_err("Free for %d ret error %x\n",
str_id, msg->header.part.data);
}
if (str_info->ctrl_blk.on == true) {
str_info->ctrl_blk.on = false;
str_info->ctrl_blk.condition = true;
wake_up(&sst_drv_ctx->wait_queue);
}
break;
case IPC_IA_ALLOC_STREAM: {
/* map to stream, call play */
struct snd_sst_alloc_response *resp =
(struct snd_sst_alloc_response *)msg->mailbox;
if (resp->str_type.result)
pr_err("error alloc stream = %x\n",
resp->str_type.result);
sst_alloc_stream_response(str_id, resp);
break;
}
case IPC_IA_PLAY_FRAMES:
case IPC_IA_CAPT_FRAMES:
if (sst_validate_strid(str_id)) {
pr_err("stream id %d invalid\n", str_id);
break;
}
pr_debug("Ack for play/capt frames received\n");
break;
case IPC_IA_PREP_LIB_DNLD: {
struct snd_sst_str_type *str_type =
(struct snd_sst_str_type *)msg->mailbox;
pr_debug("Prep Lib download %x\n",
msg->header.part.msg_id);
if (str_type->result)
pr_err("Prep lib download %x\n", str_type->result);
else
pr_debug("Can download codec now...\n");
sst_wake_up_alloc_block(sst_drv_ctx, str_id,
str_type->result, NULL);
break;
}
case IPC_IA_LIB_DNLD_CMPLT: {
struct snd_sst_lib_download_info *resp =
(struct snd_sst_lib_download_info *)msg->mailbox;
int retval = resp->result;
pr_debug("Lib downloaded %x\n", msg->header.part.msg_id);
if (resp->result) {
pr_err("err in lib dload %x\n", resp->result);
} else {
pr_debug("Codec download complete...\n");
pr_debug("codec Type %d Ver %d Built %s: %s\n",
resp->dload_lib.lib_info.lib_type,
resp->dload_lib.lib_info.lib_version,
resp->dload_lib.lib_info.b_date,
resp->dload_lib.lib_info.b_time);
}
sst_wake_up_alloc_block(sst_drv_ctx, str_id,
retval, NULL);
break;
}
case IPC_IA_GET_FW_VERSION: {
struct ipc_header_fw_init *version =
(struct ipc_header_fw_init *)msg->mailbox;
int major = version->fw_version.major;
int minor = version->fw_version.minor;
int build = version->fw_version.build;
dev_info(&sst_drv_ctx->pci->dev,
"INFO: ***LOADED SST FW VERSION*** = %02d.%02d.%02d\n",
major, minor, build);
break;
}
case IPC_IA_GET_FW_BUILD_INF: {
struct sst_fw_build_info *build =
(struct sst_fw_build_info *)msg->mailbox;
pr_debug("Build date:%sTime:%s", build->date, build->time);
break;
}
case IPC_IA_SET_PMIC_TYPE:
break;
case IPC_IA_START_STREAM:
pr_debug("reply for START STREAM %x\n", msg->header.full);
break;
case IPC_IA_GET_FW_CTXT:
pr_debug("reply for get fw ctxt %x\n", msg->header.full);
if (msg->header.part.data)
sst_drv_ctx->fw_cntx_size = 0;
else
sst_drv_ctx->fw_cntx_size = *sst_drv_ctx->fw_cntx;
pr_debug("fw copied data %x\n", sst_drv_ctx->fw_cntx_size);
sst_wake_up_alloc_block(
sst_drv_ctx, str_id, msg->header.part.data, NULL);
break;
default:
/* Illegal case */
pr_err("process reply:default = %x\n", msg->header.full);
}
sst_clear_interrupt();
return;
}