Merge tag 'backlight-next-6.2' of git://git.kernel.org/pub/scm/linux/kernel/git/lee...

[platform/kernel/linux-starfive.git] / sound / soc / qcom / qdsp6 / audioreach.c

// SPDX-License-Identifier: GPL-2.0
// Copyright (c) 2020, Linaro Limited

#include <linux/kernel.h>
#include <linux/slab.h>
#include <linux/soc/qcom/apr.h>
#include <sound/soc.h>
#include <sound/soc-dai.h>
#include <sound/pcm.h>
#include <sound/pcm_params.h>
#include <dt-bindings/soc/qcom,gpr.h>
#include "q6apm.h"
#include "audioreach.h"

/* SubGraph Config */
struct apm_sub_graph_data {
        struct apm_sub_graph_cfg sub_graph_cfg;
        struct apm_prop_data perf_data;
        struct apm_sg_prop_id_perf_mode perf;
        struct apm_prop_data dir_data;
        struct apm_sg_prop_id_direction dir;
        struct apm_prop_data sid_data;
        struct apm_sg_prop_id_scenario_id sid;

} __packed;

#define APM_SUB_GRAPH_CFG_NPROP 3

struct apm_sub_graph_params  {
        struct apm_module_param_data param_data;
        uint32_t num_sub_graphs;
        struct apm_sub_graph_data sg_cfg[];
} __packed;

#define APM_SUB_GRAPH_PSIZE(p, n) ALIGN(struct_size(p, sg_cfg, n), 8)

/* container config */
struct apm_container_obj  {
        struct apm_container_cfg container_cfg;
        /* Capability ID list */
        struct apm_prop_data cap_data;
        uint32_t num_capability_id;
        uint32_t capability_id;

        /* Container graph Position */
        struct apm_prop_data pos_data;
        struct apm_cont_prop_id_graph_pos pos;

        /* Container Stack size */
        struct apm_prop_data stack_data;
        struct apm_cont_prop_id_stack_size stack;

        /* Container proc domain id */
        struct apm_prop_data domain_data;
        struct apm_cont_prop_id_domain domain;
} __packed;

struct apm_container_params  {
        struct apm_module_param_data param_data;
        uint32_t num_containers;
        struct apm_container_obj cont_obj[];
} __packed;

#define APM_CONTAINER_PSIZE(p, n) ALIGN(struct_size(p, cont_obj, n), 8)

/* Module List config */
struct apm_mod_list_obj {
        /* Modules list cfg */
        uint32_t sub_graph_id;
        uint32_t container_id;
        uint32_t num_modules;
        struct apm_module_obj mod_cfg[];
} __packed;

#define APM_MOD_LIST_OBJ_PSIZE(p, n) struct_size(p, mod_cfg, n)

struct apm_module_list_params {
        struct apm_module_param_data param_data;
        uint32_t num_modules_list;
        /* Module list config array */
        struct apm_mod_list_obj mod_list_obj[];
} __packed;


/* Module Properties */
struct apm_mod_prop_obj {
        u32 instance_id;
        u32 num_props;
        struct apm_prop_data prop_data_1;
        struct apm_module_prop_id_port_info prop_id_port;
} __packed;

struct apm_prop_list_params {
        struct apm_module_param_data param_data;
        u32 num_modules_prop_cfg;
        struct apm_mod_prop_obj mod_prop_obj[];

} __packed;

#define APM_MOD_PROP_PSIZE(p, n) ALIGN(struct_size(p, mod_prop_obj, n), 8)

/* Module Connections */
struct apm_mod_conn_list_params {
        struct apm_module_param_data param_data;
        u32 num_connections;
        struct apm_module_conn_obj conn_obj[];

} __packed;

#define APM_MOD_CONN_PSIZE(p, n) ALIGN(struct_size(p, conn_obj, n), 8)

struct apm_graph_open_params {
        struct apm_cmd_header *cmd_header;
        struct apm_sub_graph_params *sg_data;
        struct apm_container_params *cont_data;
        struct apm_module_list_params *mod_list_data;
        struct apm_prop_list_params *mod_prop_data;
        struct apm_mod_conn_list_params *mod_conn_list_data;
} __packed;

struct apm_pcm_module_media_fmt_cmd {
        struct apm_module_param_data param_data;
        struct param_id_pcm_output_format_cfg header;
        struct payload_pcm_output_format_cfg media_cfg;
} __packed;

struct apm_rd_shmem_module_config_cmd {
        struct apm_module_param_data param_data;
        struct param_id_rd_sh_mem_cfg cfg;
} __packed;

struct apm_sh_module_media_fmt_cmd {
        struct media_format header;
        struct payload_media_fmt_pcm cfg;
} __packed;

#define APM_SHMEM_FMT_CFG_PSIZE(ch) ALIGN( \
                                sizeof(struct apm_sh_module_media_fmt_cmd) + \
                                ch * sizeof(uint8_t), 8)

/* num of channels as argument */
#define APM_PCM_MODULE_FMT_CMD_PSIZE(ch) ALIGN( \
                                sizeof(struct apm_pcm_module_media_fmt_cmd) + \
                                ch * sizeof(uint8_t), 8)

#define APM_PCM_OUT_FMT_CFG_PSIZE(p, n) ALIGN(struct_size(p, channel_mapping, n), 4)

struct apm_i2s_module_intf_cfg {
        struct apm_module_param_data param_data;
        struct param_id_i2s_intf_cfg cfg;
} __packed;

#define APM_I2S_INTF_CFG_PSIZE ALIGN(sizeof(struct apm_i2s_module_intf_cfg), 8)

struct apm_module_hw_ep_mf_cfg {
        struct apm_module_param_data param_data;
        struct param_id_hw_ep_mf mf;
} __packed;

#define APM_HW_EP_CFG_PSIZE ALIGN(sizeof(struct apm_module_hw_ep_mf_cfg), 8)

#define APM_MFC_CFG_PSIZE(p, n) ALIGN(struct_size(p, channel_mapping, n), 4)

struct apm_module_frame_size_factor_cfg {
        struct apm_module_param_data param_data;
        uint32_t frame_size_factor;
} __packed;

#define APM_FS_CFG_PSIZE ALIGN(sizeof(struct apm_module_frame_size_factor_cfg), 8)

struct apm_module_hw_ep_power_mode_cfg {
        struct apm_module_param_data param_data;
        struct param_id_hw_ep_power_mode_cfg power_mode;
} __packed;

#define APM_HW_EP_PMODE_CFG_PSIZE ALIGN(sizeof(struct apm_module_hw_ep_power_mode_cfg), 8)

struct apm_module_hw_ep_dma_data_align_cfg {
        struct apm_module_param_data param_data;
        struct param_id_hw_ep_dma_data_align align;
} __packed;

#define APM_HW_EP_DALIGN_CFG_PSIZE ALIGN(sizeof(struct apm_module_hw_ep_dma_data_align_cfg), 8)

struct apm_gain_module_cfg {
        struct apm_module_param_data param_data;
        struct param_id_gain_cfg gain_cfg;
} __packed;

#define APM_GAIN_CFG_PSIZE ALIGN(sizeof(struct apm_gain_module_cfg), 8)

struct apm_codec_dma_module_intf_cfg {
        struct apm_module_param_data param_data;
        struct param_id_codec_dma_intf_cfg cfg;
} __packed;

#define APM_CDMA_INTF_CFG_PSIZE ALIGN(sizeof(struct apm_codec_dma_module_intf_cfg), 8)

static void *__audioreach_alloc_pkt(int payload_size, uint32_t opcode, uint32_t token,
                                    uint32_t src_port, uint32_t dest_port, bool has_cmd_hdr)
{
        struct gpr_pkt *pkt;
        void *p;
        int pkt_size = GPR_HDR_SIZE + payload_size;

        if (has_cmd_hdr)
                pkt_size += APM_CMD_HDR_SIZE;

        p = kzalloc(pkt_size, GFP_KERNEL);
        if (!p)
                return ERR_PTR(-ENOMEM);

        pkt = p;
        pkt->hdr.version = GPR_PKT_VER;
        pkt->hdr.hdr_size = GPR_PKT_HEADER_WORD_SIZE;
        pkt->hdr.pkt_size = pkt_size;
        pkt->hdr.dest_port = dest_port;
        pkt->hdr.src_port = src_port;

        pkt->hdr.dest_domain = GPR_DOMAIN_ID_ADSP;
        pkt->hdr.src_domain = GPR_DOMAIN_ID_APPS;
        pkt->hdr.token = token;
        pkt->hdr.opcode = opcode;

        if (has_cmd_hdr) {
                struct apm_cmd_header *cmd_header;

                p = p + GPR_HDR_SIZE;
                cmd_header = p;
                cmd_header->payload_size = payload_size;
        }

        return pkt;
}

void *audioreach_alloc_pkt(int payload_size, uint32_t opcode, uint32_t token,
                           uint32_t src_port, uint32_t dest_port)
{
        return __audioreach_alloc_pkt(payload_size, opcode, token, src_port, dest_port, false);
}
EXPORT_SYMBOL_GPL(audioreach_alloc_pkt);

void *audioreach_alloc_apm_pkt(int pkt_size, uint32_t opcode, uint32_t token, uint32_t src_port)
{
        return __audioreach_alloc_pkt(pkt_size, opcode, token, src_port, APM_MODULE_INSTANCE_ID,
                                      false);
}
EXPORT_SYMBOL_GPL(audioreach_alloc_apm_pkt);

void *audioreach_alloc_cmd_pkt(int payload_size, uint32_t opcode, uint32_t token,
                               uint32_t src_port, uint32_t dest_port)
{
        return __audioreach_alloc_pkt(payload_size, opcode, token, src_port, dest_port, true);
}
EXPORT_SYMBOL_GPL(audioreach_alloc_cmd_pkt);

void *audioreach_alloc_apm_cmd_pkt(int pkt_size, uint32_t opcode, uint32_t token)
{
        return __audioreach_alloc_pkt(pkt_size, opcode, token, GPR_APM_MODULE_IID,
                                       APM_MODULE_INSTANCE_ID, true);
}
EXPORT_SYMBOL_GPL(audioreach_alloc_apm_cmd_pkt);

static void apm_populate_container_config(struct apm_container_obj *cfg,
                                          struct audioreach_container *cont)
{

        /* Container Config */
        cfg->container_cfg.container_id = cont->container_id;
        cfg->container_cfg.num_prop = 4;

        /* Capability list */
        cfg->cap_data.prop_id = APM_CONTAINER_PROP_ID_CAPABILITY_LIST;
        cfg->cap_data.prop_size = APM_CONTAINER_PROP_ID_CAPABILITY_SIZE;
        cfg->num_capability_id = 1;
        cfg->capability_id = cont->capability_id;

        /* Graph Position */
        cfg->pos_data.prop_id = APM_CONTAINER_PROP_ID_GRAPH_POS;
        cfg->pos_data.prop_size = sizeof(struct apm_cont_prop_id_graph_pos);
        cfg->pos.graph_pos = cont->graph_pos;

        /* Stack size */
        cfg->stack_data.prop_id = APM_CONTAINER_PROP_ID_STACK_SIZE;
        cfg->stack_data.prop_size = sizeof(struct apm_cont_prop_id_stack_size);
        cfg->stack.stack_size = cont->stack_size;

        /* Proc domain */
        cfg->domain_data.prop_id = APM_CONTAINER_PROP_ID_PROC_DOMAIN;
        cfg->domain_data.prop_size = sizeof(struct apm_cont_prop_id_domain);
        cfg->domain.proc_domain = cont->proc_domain;
}

static void apm_populate_sub_graph_config(struct apm_sub_graph_data *cfg,
                                          struct audioreach_sub_graph *sg)
{
        cfg->sub_graph_cfg.sub_graph_id = sg->sub_graph_id;
        cfg->sub_graph_cfg.num_sub_graph_prop = APM_SUB_GRAPH_CFG_NPROP;

        /* Perf Mode */
        cfg->perf_data.prop_id = APM_SUB_GRAPH_PROP_ID_PERF_MODE;
        cfg->perf_data.prop_size = APM_SG_PROP_ID_PERF_MODE_SIZE;
        cfg->perf.perf_mode = sg->perf_mode;

        /* Direction */
        cfg->dir_data.prop_id = APM_SUB_GRAPH_PROP_ID_DIRECTION;
        cfg->dir_data.prop_size = APM_SG_PROP_ID_DIR_SIZE;
        cfg->dir.direction = sg->direction;

        /* Scenario ID */
        cfg->sid_data.prop_id = APM_SUB_GRAPH_PROP_ID_SCENARIO_ID;
        cfg->sid_data.prop_size = APM_SG_PROP_ID_SID_SIZE;
        cfg->sid.scenario_id = sg->scenario_id;
}

static void apm_populate_module_prop_obj(struct apm_mod_prop_obj *obj,
                                         struct audioreach_module *module)
{

        obj->instance_id = module->instance_id;
        obj->num_props = 1;
        obj->prop_data_1.prop_id = APM_MODULE_PROP_ID_PORT_INFO;
        obj->prop_data_1.prop_size = APM_MODULE_PROP_ID_PORT_INFO_SZ;
        obj->prop_id_port.max_ip_port = module->max_ip_port;
        obj->prop_id_port.max_op_port = module->max_op_port;
}

static void apm_populate_module_list_obj(struct apm_mod_list_obj *obj,
                                         struct audioreach_container *container,
                                         int sub_graph_id)
{
        struct audioreach_module *module;
        int i;

        obj->sub_graph_id = sub_graph_id;
        obj->container_id = container->container_id;
        obj->num_modules = container->num_modules;
        i = 0;
        list_for_each_entry(module, &container->modules_list, node) {
                obj->mod_cfg[i].module_id = module->module_id;
                obj->mod_cfg[i].instance_id = module->instance_id;
                i++;
        }
}

static void audioreach_populate_graph(struct q6apm *apm, struct audioreach_graph_info *info,
                                      struct apm_graph_open_params *open,
                                      struct list_head *sg_list,
                                      int num_sub_graphs)
{
        struct apm_mod_conn_list_params *mc_data = open->mod_conn_list_data;
        struct apm_module_list_params *ml_data = open->mod_list_data;
        struct apm_prop_list_params *mp_data = open->mod_prop_data;
        struct apm_container_params *c_data = open->cont_data;
        struct apm_sub_graph_params *sg_data = open->sg_data;
        int ncontainer = 0, nmodule = 0, nconn = 0;
        struct apm_mod_prop_obj *module_prop_obj;
        struct audioreach_container *container;
        struct apm_module_conn_obj *conn_obj;
        struct audioreach_module *module;
        struct audioreach_sub_graph *sg;
        struct apm_container_obj *cobj;
        struct apm_mod_list_obj *mlobj;
        int i = 0;

        mlobj = &ml_data->mod_list_obj[0];


        if (info->dst_mod_inst_id && info->src_mod_inst_id) {
                conn_obj = &mc_data->conn_obj[nconn];
                conn_obj->src_mod_inst_id = info->src_mod_inst_id;
                conn_obj->src_mod_op_port_id = info->src_mod_op_port_id;
                conn_obj->dst_mod_inst_id = info->dst_mod_inst_id;
                conn_obj->dst_mod_ip_port_id = info->dst_mod_ip_port_id;
                nconn++;
        }

        list_for_each_entry(sg, sg_list, node) {
                struct apm_sub_graph_data *sg_cfg = &sg_data->sg_cfg[i++];

                apm_populate_sub_graph_config(sg_cfg, sg);

                list_for_each_entry(container, &sg->container_list, node) {
                        cobj = &c_data->cont_obj[ncontainer];

                        apm_populate_container_config(cobj, container);
                        apm_populate_module_list_obj(mlobj, container, sg->sub_graph_id);

                        list_for_each_entry(module, &container->modules_list, node) {
                                int pn;

                                module_prop_obj = &mp_data->mod_prop_obj[nmodule++];
                                apm_populate_module_prop_obj(module_prop_obj, module);

                                if (!module->max_op_port)
                                        continue;

                                for (pn = 0; pn < module->max_op_port; pn++) {
                                        if (module->dst_mod_inst_id[pn]) {
                                                conn_obj = &mc_data->conn_obj[nconn];
                                                conn_obj->src_mod_inst_id = module->instance_id;
                                                conn_obj->src_mod_op_port_id =
                                                                module->src_mod_op_port_id[pn];
                                                conn_obj->dst_mod_inst_id =
                                                                module->dst_mod_inst_id[pn];
                                                conn_obj->dst_mod_ip_port_id =
                                                                module->dst_mod_ip_port_id[pn];
                                                nconn++;
                                        }
                                }
                        }
                        mlobj = (void *) mlobj + APM_MOD_LIST_OBJ_PSIZE(mlobj,
                                                                        container->num_modules);

                        ncontainer++;
                }
        }
}

void *audioreach_alloc_graph_pkt(struct q6apm *apm, struct audioreach_graph_info *info)
{
        int payload_size, sg_sz, cont_sz, ml_sz, mp_sz, mc_sz;
        struct apm_module_param_data  *param_data;
        struct apm_container_params *cont_params;
        struct audioreach_container *container;
        struct apm_sub_graph_params *sg_params;
        struct apm_mod_conn_list_params *mcon;
        struct apm_graph_open_params params;
        struct apm_prop_list_params *mprop;
        struct audioreach_module *module;
        struct audioreach_sub_graph *sgs;
        struct apm_mod_list_obj *mlobj;
        struct list_head *sg_list;
        int num_connections = 0;
        int num_containers = 0;
        int num_sub_graphs = 0;
        int num_modules = 0;
        int num_modules_list;
        struct gpr_pkt *pkt;
        void *p;

        sg_list = &info->sg_list;
        ml_sz = 0;

        /* add FE-BE connections */
        if (info->dst_mod_inst_id && info->src_mod_inst_id)
                num_connections++;

        list_for_each_entry(sgs, sg_list, node) {
                num_sub_graphs++;
                list_for_each_entry(container, &sgs->container_list, node) {
                        num_containers++;
                        num_modules += container->num_modules;
                        ml_sz = ml_sz + sizeof(struct apm_module_list_params) +
                                APM_MOD_LIST_OBJ_PSIZE(mlobj, container->num_modules);

                        list_for_each_entry(module, &container->modules_list, node) {
                                num_connections += module->num_connections;
                        }
                }
        }

        num_modules_list = num_containers;
        sg_sz = APM_SUB_GRAPH_PSIZE(sg_params, num_sub_graphs);
        cont_sz = APM_CONTAINER_PSIZE(cont_params, num_containers);

        ml_sz = ALIGN(ml_sz, 8);

        mp_sz = APM_MOD_PROP_PSIZE(mprop, num_modules);
        mc_sz = APM_MOD_CONN_PSIZE(mcon, num_connections);

        payload_size = sg_sz + cont_sz + ml_sz + mp_sz + mc_sz;
        pkt = audioreach_alloc_apm_cmd_pkt(payload_size, APM_CMD_GRAPH_OPEN, 0);
        if (IS_ERR(pkt))
                return pkt;

        p = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;

        /* SubGraph */
        params.sg_data = p;
        param_data = &params.sg_data->param_data;
        param_data->module_instance_id = APM_MODULE_INSTANCE_ID;
        param_data->param_id = APM_PARAM_ID_SUB_GRAPH_CONFIG;
        param_data->param_size = sg_sz - APM_MODULE_PARAM_DATA_SIZE;
        params.sg_data->num_sub_graphs = num_sub_graphs;
        p += sg_sz;

        /* Container */
        params.cont_data = p;
        param_data = &params.cont_data->param_data;
        param_data->module_instance_id = APM_MODULE_INSTANCE_ID;
        param_data->param_id = APM_PARAM_ID_CONTAINER_CONFIG;
        param_data->param_size = cont_sz - APM_MODULE_PARAM_DATA_SIZE;
        params.cont_data->num_containers = num_containers;
        p += cont_sz;

        /* Module List*/
        params.mod_list_data = p;
        param_data = &params.mod_list_data->param_data;
        param_data->module_instance_id = APM_MODULE_INSTANCE_ID;
        param_data->param_id = APM_PARAM_ID_MODULE_LIST;
        param_data->param_size = ml_sz - APM_MODULE_PARAM_DATA_SIZE;
        params.mod_list_data->num_modules_list = num_modules_list;
        p += ml_sz;

        /* Module Properties */
        params.mod_prop_data = p;
        param_data = &params.mod_prop_data->param_data;
        param_data->module_instance_id = APM_MODULE_INSTANCE_ID;
        param_data->param_id = APM_PARAM_ID_MODULE_PROP;
        param_data->param_size = mp_sz - APM_MODULE_PARAM_DATA_SIZE;
        params.mod_prop_data->num_modules_prop_cfg = num_modules;
        p += mp_sz;

        /* Module Connections */
        params.mod_conn_list_data = p;
        param_data = &params.mod_conn_list_data->param_data;
        param_data->module_instance_id = APM_MODULE_INSTANCE_ID;
        param_data->param_id = APM_PARAM_ID_MODULE_CONN;
        param_data->param_size = mc_sz - APM_MODULE_PARAM_DATA_SIZE;
        params.mod_conn_list_data->num_connections = num_connections;
        p += mc_sz;

        audioreach_populate_graph(apm, info, &params, sg_list, num_sub_graphs);

        return pkt;
}
EXPORT_SYMBOL_GPL(audioreach_alloc_graph_pkt);

int audioreach_send_cmd_sync(struct device *dev, gpr_device_t *gdev,
                             struct gpr_ibasic_rsp_result_t *result, struct mutex *cmd_lock,
                             gpr_port_t *port, wait_queue_head_t *cmd_wait,
                             struct gpr_pkt *pkt, uint32_t rsp_opcode)
{

        struct gpr_hdr *hdr = &pkt->hdr;
        int rc;

        mutex_lock(cmd_lock);
        result->opcode = 0;
        result->status = 0;

        if (port)
                rc = gpr_send_port_pkt(port, pkt);
        else if (gdev)
                rc = gpr_send_pkt(gdev, pkt);
        else
                rc = -EINVAL;

        if (rc < 0)
                goto err;

        if (rsp_opcode)
                rc = wait_event_timeout(*cmd_wait, (result->opcode == hdr->opcode) ||
                                        (result->opcode == rsp_opcode), 5 * HZ);
        else
                rc = wait_event_timeout(*cmd_wait, (result->opcode == hdr->opcode), 5 * HZ);

        if (!rc) {
                dev_err(dev, "CMD timeout for [%x] opcode\n", hdr->opcode);
                rc = -ETIMEDOUT;
        } else if (result->status > 0) {
                dev_err(dev, "DSP returned error[%x] %x\n", hdr->opcode, result->status);
                rc = -EINVAL;
        } else {
                /* DSP successfully finished the command */
                rc = 0;
        }

err:
        mutex_unlock(cmd_lock);
        return rc;
}
EXPORT_SYMBOL_GPL(audioreach_send_cmd_sync);

int audioreach_graph_send_cmd_sync(struct q6apm_graph *graph, struct gpr_pkt *pkt,
                                   uint32_t rsp_opcode)
{

        return audioreach_send_cmd_sync(graph->dev, NULL,  &graph->result, &graph->lock,
                                        graph->port, &graph->cmd_wait, pkt, rsp_opcode);
}
EXPORT_SYMBOL_GPL(audioreach_graph_send_cmd_sync);

/* LPASS Codec DMA port Module Media Format Setup */
static int audioreach_codec_dma_set_media_format(struct q6apm_graph *graph,
                                                 struct audioreach_module *module,
                                                 struct audioreach_module_config *cfg)
{
        struct apm_codec_dma_module_intf_cfg *intf_cfg;
        struct apm_module_frame_size_factor_cfg *fs_cfg;
        struct apm_module_hw_ep_power_mode_cfg *pm_cfg;
        struct apm_module_param_data *param_data;
        struct apm_module_hw_ep_mf_cfg *hw_cfg;
        int ic_sz, ep_sz, fs_sz, pm_sz, dl_sz;
        int rc, payload_size;
        struct gpr_pkt *pkt;
        void *p;

        ic_sz = APM_CDMA_INTF_CFG_PSIZE;
        ep_sz = APM_HW_EP_CFG_PSIZE;
        fs_sz = APM_FS_CFG_PSIZE;
        pm_sz = APM_HW_EP_PMODE_CFG_PSIZE;
        dl_sz = 0;

        payload_size = ic_sz + ep_sz + fs_sz + pm_sz + dl_sz;

        pkt = audioreach_alloc_apm_cmd_pkt(payload_size, APM_CMD_SET_CFG, 0);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        p = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;

        hw_cfg = p;
        param_data = &hw_cfg->param_data;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_HW_EP_MF_CFG;
        param_data->param_size = ep_sz - APM_MODULE_PARAM_DATA_SIZE;

        hw_cfg->mf.sample_rate = cfg->sample_rate;
        hw_cfg->mf.bit_width = cfg->bit_width;
        hw_cfg->mf.num_channels = cfg->num_channels;
        hw_cfg->mf.data_format = module->data_format;
        p += ep_sz;

        fs_cfg = p;
        param_data = &fs_cfg->param_data;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_HW_EP_FRAME_SIZE_FACTOR;
        param_data->param_size = fs_sz - APM_MODULE_PARAM_DATA_SIZE;
        fs_cfg->frame_size_factor = 1;
        p += fs_sz;

        intf_cfg = p;
        param_data = &intf_cfg->param_data;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_CODEC_DMA_INTF_CFG;
        param_data->param_size = ic_sz - APM_MODULE_PARAM_DATA_SIZE;

        intf_cfg->cfg.lpaif_type = module->hw_interface_type;
        intf_cfg->cfg.intf_index = module->hw_interface_idx;
        intf_cfg->cfg.active_channels_mask = (1 << cfg->num_channels) - 1;
        p += ic_sz;

        pm_cfg = p;
        param_data = &pm_cfg->param_data;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_HW_EP_POWER_MODE_CFG;
        param_data->param_size = pm_sz - APM_MODULE_PARAM_DATA_SIZE;
        pm_cfg->power_mode.power_mode = 0;

        rc = q6apm_send_cmd_sync(graph->apm, pkt, 0);

        kfree(pkt);

        return rc;
}

static int audioreach_sal_limiter_enable(struct q6apm_graph *graph,
                                         struct audioreach_module *module, bool enable)
{
        struct apm_module_param_data *param_data;
        struct param_id_sal_limiter_enable *limiter_enable;
        int payload_size;
        struct gpr_pkt *pkt;
        int rc;
        void *p;

        payload_size = sizeof(*limiter_enable) + APM_MODULE_PARAM_DATA_SIZE;

        pkt = audioreach_alloc_apm_cmd_pkt(payload_size, APM_CMD_SET_CFG, 0);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        p = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;

        param_data = p;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_SAL_LIMITER_ENABLE;
        param_data->param_size = sizeof(*limiter_enable);
        p = p + APM_MODULE_PARAM_DATA_SIZE;
        limiter_enable = p;

        limiter_enable->enable_lim = enable;

        rc = q6apm_send_cmd_sync(graph->apm, pkt, 0);

        kfree(pkt);

        return rc;
}

static int audioreach_sal_set_media_format(struct q6apm_graph *graph,
                                           struct audioreach_module *module,
                                           struct audioreach_module_config *cfg)
{
        struct apm_module_param_data *param_data;
        struct param_id_sal_output_config *media_format;
        int payload_size;
        struct gpr_pkt *pkt;
        int rc;
        void *p;

        payload_size = sizeof(*media_format) + APM_MODULE_PARAM_DATA_SIZE;

        pkt = audioreach_alloc_apm_cmd_pkt(payload_size, APM_CMD_SET_CFG, 0);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        p = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;

        param_data = p;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_SAL_OUTPUT_CFG;
        param_data->param_size = sizeof(*media_format);
        p = p + APM_MODULE_PARAM_DATA_SIZE;
        media_format = p;

        media_format->bits_per_sample = cfg->bit_width;

        rc = q6apm_send_cmd_sync(graph->apm, pkt, 0);

        kfree(pkt);

        return rc;
}

static int audioreach_module_enable(struct q6apm_graph *graph,
                                    struct audioreach_module *module,
                                    bool enable)
{
        struct apm_module_param_data *param_data;
        struct param_id_module_enable *param;
        int payload_size;
        struct gpr_pkt *pkt;
        int rc;
        void *p;

        payload_size = sizeof(*param) + APM_MODULE_PARAM_DATA_SIZE;

        pkt = audioreach_alloc_apm_cmd_pkt(payload_size, APM_CMD_SET_CFG, 0);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        p = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;

        param_data = p;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_MODULE_ENABLE;
        param_data->param_size = sizeof(*param);
        p = p + APM_MODULE_PARAM_DATA_SIZE;
        param = p;

        param->enable = enable;

        rc = q6apm_send_cmd_sync(graph->apm, pkt, 0);

        kfree(pkt);

        return rc;
}

static int audioreach_mfc_set_media_format(struct q6apm_graph *graph,
                                           struct audioreach_module *module,
                                           struct audioreach_module_config *cfg)
{
        struct apm_module_param_data *param_data;
        struct param_id_mfc_media_format *media_format;
        uint32_t num_channels = cfg->num_channels;
        int payload_size;
        struct gpr_pkt *pkt;
        int rc;
        void *p;

        payload_size = APM_MFC_CFG_PSIZE(media_format, num_channels) +
                APM_MODULE_PARAM_DATA_SIZE;

        pkt = audioreach_alloc_apm_cmd_pkt(payload_size, APM_CMD_SET_CFG, 0);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        p = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;

        param_data = p;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_MFC_OUTPUT_MEDIA_FORMAT;
        param_data->param_size = APM_MFC_CFG_PSIZE(media_format, num_channels);
        p = p + APM_MODULE_PARAM_DATA_SIZE;
        media_format = p;

        media_format->sample_rate = cfg->sample_rate;
        media_format->bit_width = cfg->bit_width;
        media_format->num_channels = cfg->num_channels;

        if (num_channels == 1) {
                media_format->channel_mapping[0] = PCM_CHANNEL_L;
        } else if (num_channels == 2) {
                media_format->channel_mapping[0] = PCM_CHANNEL_L;
                media_format->channel_mapping[1] = PCM_CHANNEL_R;
        }

        rc = q6apm_send_cmd_sync(graph->apm, pkt, 0);

        kfree(pkt);

        return rc;
}

static int audioreach_i2s_set_media_format(struct q6apm_graph *graph,
                                           struct audioreach_module *module,
                                           struct audioreach_module_config *cfg)
{
        struct apm_module_frame_size_factor_cfg *fs_cfg;
        struct apm_module_param_data *param_data;
        struct apm_i2s_module_intf_cfg *intf_cfg;
        struct apm_module_hw_ep_mf_cfg *hw_cfg;
        int ic_sz, ep_sz, fs_sz;
        int rc, payload_size;
        struct gpr_pkt *pkt;
        void *p;

        ic_sz = APM_I2S_INTF_CFG_PSIZE;
        ep_sz = APM_HW_EP_CFG_PSIZE;
        fs_sz = APM_FS_CFG_PSIZE;

        payload_size = ic_sz + ep_sz + fs_sz;

        pkt = audioreach_alloc_apm_cmd_pkt(payload_size, APM_CMD_SET_CFG, 0);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        p = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;
        intf_cfg = p;

        param_data = &intf_cfg->param_data;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_I2S_INTF_CFG;
        param_data->param_size = ic_sz - APM_MODULE_PARAM_DATA_SIZE;

        intf_cfg->cfg.intf_idx = module->hw_interface_idx;
        intf_cfg->cfg.sd_line_idx = module->sd_line_idx;

        switch (cfg->fmt & SND_SOC_DAIFMT_CLOCK_PROVIDER_MASK) {
        case SND_SOC_DAIFMT_BP_FP:
                intf_cfg->cfg.ws_src = CONFIG_I2S_WS_SRC_INTERNAL;
                break;
        case SND_SOC_DAIFMT_BC_FC:
                /* CPU is slave */
                intf_cfg->cfg.ws_src = CONFIG_I2S_WS_SRC_EXTERNAL;
                break;
        default:
                break;
        }

        p += ic_sz;
        hw_cfg = p;
        param_data = &hw_cfg->param_data;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_HW_EP_MF_CFG;
        param_data->param_size = ep_sz - APM_MODULE_PARAM_DATA_SIZE;

        hw_cfg->mf.sample_rate = cfg->sample_rate;
        hw_cfg->mf.bit_width = cfg->bit_width;
        hw_cfg->mf.num_channels = cfg->num_channels;
        hw_cfg->mf.data_format = module->data_format;

        p += ep_sz;
        fs_cfg = p;
        param_data = &fs_cfg->param_data;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_HW_EP_FRAME_SIZE_FACTOR;
        param_data->param_size = fs_sz - APM_MODULE_PARAM_DATA_SIZE;
        fs_cfg->frame_size_factor = 1;

        rc = q6apm_send_cmd_sync(graph->apm, pkt, 0);

        kfree(pkt);

        return rc;
}

static int audioreach_logging_set_media_format(struct q6apm_graph *graph,
                                               struct audioreach_module *module)
{
        struct apm_module_param_data *param_data;
        struct data_logging_config *cfg;
        int rc, payload_size;
        struct gpr_pkt *pkt;
        void *p;

        payload_size = sizeof(*cfg) + APM_MODULE_PARAM_DATA_SIZE;
        pkt = audioreach_alloc_apm_cmd_pkt(payload_size, APM_CMD_SET_CFG, 0);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        p = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;

        param_data = p;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_DATA_LOGGING_CONFIG;
        param_data->param_size = payload_size - APM_MODULE_PARAM_DATA_SIZE;

        p = p + APM_MODULE_PARAM_DATA_SIZE;
        cfg = p;
        cfg->log_code = module->log_code;
        cfg->log_tap_point_id = module->log_tap_point_id;
        cfg->mode = module->log_mode;

        rc = q6apm_send_cmd_sync(graph->apm, pkt, 0);

        kfree(pkt);

        return rc;
}

static int audioreach_pcm_set_media_format(struct q6apm_graph *graph,
                                           struct audioreach_module *module,
                                           struct audioreach_module_config *mcfg)
{
        struct payload_pcm_output_format_cfg *media_cfg;
        uint32_t num_channels = mcfg->num_channels;
        struct apm_pcm_module_media_fmt_cmd *cfg;
        struct apm_module_param_data *param_data;
        int rc, payload_size;
        struct gpr_pkt *pkt;

        if (num_channels > 2) {
                dev_err(graph->dev, "Error: Invalid channels (%d)!\n", num_channels);
                return -EINVAL;
        }

        payload_size = APM_PCM_MODULE_FMT_CMD_PSIZE(num_channels);

        pkt = audioreach_alloc_apm_cmd_pkt(payload_size, APM_CMD_SET_CFG, 0);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        cfg = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;

        param_data = &cfg->param_data;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_PCM_OUTPUT_FORMAT_CFG;
        param_data->param_size = payload_size - APM_MODULE_PARAM_DATA_SIZE;

        cfg->header.data_format = DATA_FORMAT_FIXED_POINT;
        cfg->header.fmt_id = MEDIA_FMT_ID_PCM;
        cfg->header.payload_size = APM_PCM_OUT_FMT_CFG_PSIZE(media_cfg, num_channels);

        media_cfg = &cfg->media_cfg;
        media_cfg->alignment = PCM_LSB_ALIGNED;
        media_cfg->bit_width = mcfg->bit_width;
        media_cfg->endianness = PCM_LITTLE_ENDIAN;
        media_cfg->interleaved = module->interleave_type;
        media_cfg->num_channels = mcfg->num_channels;
        media_cfg->q_factor = mcfg->bit_width - 1;
        media_cfg->bits_per_sample = mcfg->bit_width;

        if (num_channels == 1) {
                media_cfg->channel_mapping[0] = PCM_CHANNEL_L;
        } else if (num_channels == 2) {
                media_cfg->channel_mapping[0] = PCM_CHANNEL_L;
                media_cfg->channel_mapping[1] = PCM_CHANNEL_R;

        }

        rc = q6apm_send_cmd_sync(graph->apm, pkt, 0);

        kfree(pkt);

        return rc;
}

static int audioreach_shmem_set_media_format(struct q6apm_graph *graph,
                                             struct audioreach_module *module,
                                             struct audioreach_module_config *mcfg)
{
        uint32_t num_channels = mcfg->num_channels;
        struct apm_module_param_data *param_data;
        struct payload_media_fmt_pcm *cfg;
        struct media_format *header;
        int rc, payload_size;
        struct gpr_pkt *pkt;
        void *p;

        if (num_channels > 2) {
                dev_err(graph->dev, "Error: Invalid channels (%d)!\n", num_channels);
                return -EINVAL;
        }

        payload_size = APM_SHMEM_FMT_CFG_PSIZE(num_channels) + APM_MODULE_PARAM_DATA_SIZE;

        pkt = audioreach_alloc_cmd_pkt(payload_size, APM_CMD_SET_CFG, 0,
                                     graph->port->id, module->instance_id);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        p = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;

        param_data = p;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_MEDIA_FORMAT;
        param_data->param_size = payload_size - APM_MODULE_PARAM_DATA_SIZE;
        p = p + APM_MODULE_PARAM_DATA_SIZE;

        header = p;
        header->data_format = DATA_FORMAT_FIXED_POINT;
        header->fmt_id = MEDIA_FMT_ID_PCM;
        header->payload_size = payload_size - sizeof(*header);

        p = p + sizeof(*header);
        cfg = p;
        cfg->sample_rate = mcfg->sample_rate;
        cfg->bit_width = mcfg->bit_width;
        cfg->alignment = PCM_LSB_ALIGNED;
        cfg->bits_per_sample = mcfg->bit_width;
        cfg->q_factor = mcfg->bit_width - 1;
        cfg->endianness = PCM_LITTLE_ENDIAN;
        cfg->num_channels = mcfg->num_channels;

        if (mcfg->num_channels == 1) {
                cfg->channel_mapping[0] =  PCM_CHANNEL_L;
        } else if (num_channels == 2) {
                cfg->channel_mapping[0] =  PCM_CHANNEL_L;
                cfg->channel_mapping[1] =  PCM_CHANNEL_R;
        }

        rc = audioreach_graph_send_cmd_sync(graph, pkt, 0);

        kfree(pkt);

        return rc;
}

int audioreach_gain_set_vol_ctrl(struct q6apm *apm, struct audioreach_module *module, int vol)
{
        struct param_id_vol_ctrl_master_gain *cfg;
        struct apm_module_param_data *param_data;
        int rc, payload_size;
        struct gpr_pkt *pkt;
        void *p;

        payload_size = sizeof(*cfg) + APM_MODULE_PARAM_DATA_SIZE;
        pkt = audioreach_alloc_apm_cmd_pkt(payload_size, APM_CMD_SET_CFG, 0);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        p = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;

        param_data = p;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = PARAM_ID_VOL_CTRL_MASTER_GAIN;
        param_data->param_size = payload_size - APM_MODULE_PARAM_DATA_SIZE;

        p = p + APM_MODULE_PARAM_DATA_SIZE;
        cfg = p;
        cfg->master_gain =  vol;
        rc = q6apm_send_cmd_sync(apm, pkt, 0);

        kfree(pkt);

        return rc;
}
EXPORT_SYMBOL_GPL(audioreach_gain_set_vol_ctrl);

static int audioreach_gain_set(struct q6apm_graph *graph, struct audioreach_module *module)
{
        struct apm_module_param_data *param_data;
        struct apm_gain_module_cfg *cfg;
        int rc, payload_size;
        struct gpr_pkt *pkt;

        payload_size = APM_GAIN_CFG_PSIZE;
        pkt = audioreach_alloc_apm_cmd_pkt(payload_size, APM_CMD_SET_CFG, 0);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        cfg = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;

        param_data = &cfg->param_data;
        param_data->module_instance_id = module->instance_id;
        param_data->error_code = 0;
        param_data->param_id = APM_PARAM_ID_GAIN;
        param_data->param_size = payload_size - APM_MODULE_PARAM_DATA_SIZE;

        cfg->gain_cfg.gain = module->gain;

        rc = q6apm_send_cmd_sync(graph->apm, pkt, 0);

        kfree(pkt);

        return rc;
}

int audioreach_set_media_format(struct q6apm_graph *graph, struct audioreach_module *module,
                                struct audioreach_module_config *cfg)
{
        int rc;

        switch (module->module_id) {
        case MODULE_ID_DATA_LOGGING:
                rc = audioreach_module_enable(graph, module, true);
                if (!rc)
                        rc = audioreach_logging_set_media_format(graph, module);
                break;
        case MODULE_ID_PCM_DEC:
        case MODULE_ID_PCM_ENC:
        case MODULE_ID_PCM_CNV:
                rc = audioreach_pcm_set_media_format(graph, module, cfg);
                break;
        case MODULE_ID_I2S_SOURCE:
        case MODULE_ID_I2S_SINK:
                rc = audioreach_i2s_set_media_format(graph, module, cfg);
                break;
        case MODULE_ID_WR_SHARED_MEM_EP:
                rc = audioreach_shmem_set_media_format(graph, module, cfg);
                break;
        case MODULE_ID_GAIN:
                rc = audioreach_gain_set(graph, module);
                break;
        case MODULE_ID_CODEC_DMA_SINK:
        case MODULE_ID_CODEC_DMA_SOURCE:
                rc = audioreach_codec_dma_set_media_format(graph, module, cfg);
                break;
        case MODULE_ID_SAL:
                rc = audioreach_sal_set_media_format(graph, module, cfg);
                if (!rc)
                        rc = audioreach_sal_limiter_enable(graph, module, true);
                break;
        case MODULE_ID_MFC:
                rc = audioreach_mfc_set_media_format(graph, module, cfg);
                break;
        default:
                rc = 0;
        }

        return rc;
}
EXPORT_SYMBOL_GPL(audioreach_set_media_format);

void audioreach_graph_free_buf(struct q6apm_graph *graph)
{
        struct audioreach_graph_data *port;

        mutex_lock(&graph->lock);
        port = &graph->rx_data;
        port->num_periods = 0;
        kfree(port->buf);
        port->buf = NULL;

        port = &graph->tx_data;
        port->num_periods = 0;
        kfree(port->buf);
        port->buf = NULL;
        mutex_unlock(&graph->lock);
}
EXPORT_SYMBOL_GPL(audioreach_graph_free_buf);

int audioreach_map_memory_regions(struct q6apm_graph *graph, unsigned int dir, size_t period_sz,
                                  unsigned int periods, bool is_contiguous)
{
        struct apm_shared_map_region_payload *mregions;
        struct apm_cmd_shared_mem_map_regions *cmd;
        uint32_t num_regions, buf_sz, payload_size;
        struct audioreach_graph_data *data;
        struct gpr_pkt *pkt;
        void *p;
        int rc, i;

        if (dir == SNDRV_PCM_STREAM_PLAYBACK)
                data = &graph->rx_data;
        else
                data = &graph->tx_data;

        if (is_contiguous) {
                num_regions = 1;
                buf_sz = period_sz * periods;
        } else {
                buf_sz = period_sz;
                num_regions = periods;
        }

        /* DSP expects size should be aligned to 4K */
        buf_sz = ALIGN(buf_sz, 4096);

        payload_size = sizeof(*cmd) + (sizeof(*mregions) * num_regions);

        pkt = audioreach_alloc_apm_pkt(payload_size, APM_CMD_SHARED_MEM_MAP_REGIONS, dir,
                                     graph->port->id);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        p = (void *)pkt + GPR_HDR_SIZE;
        cmd = p;
        cmd->mem_pool_id = APM_MEMORY_MAP_SHMEM8_4K_POOL;
        cmd->num_regions = num_regions;

        cmd->property_flag = 0x0;

        mregions = p + sizeof(*cmd);

        mutex_lock(&graph->lock);

        for (i = 0; i < num_regions; i++) {
                struct audio_buffer *ab;

                ab = &data->buf[i];
                mregions->shm_addr_lsw = lower_32_bits(ab->phys);
                mregions->shm_addr_msw = upper_32_bits(ab->phys);
                mregions->mem_size_bytes = buf_sz;
                ++mregions;
        }
        mutex_unlock(&graph->lock);

        rc = audioreach_graph_send_cmd_sync(graph, pkt, APM_CMD_RSP_SHARED_MEM_MAP_REGIONS);

        kfree(pkt);

        return rc;
}
EXPORT_SYMBOL_GPL(audioreach_map_memory_regions);

int audioreach_shared_memory_send_eos(struct q6apm_graph *graph)
{
        struct data_cmd_wr_sh_mem_ep_eos *eos;
        struct gpr_pkt *pkt;
        int rc = 0, iid;

        iid = q6apm_graph_get_rx_shmem_module_iid(graph);
        pkt = audioreach_alloc_cmd_pkt(sizeof(*eos), DATA_CMD_WR_SH_MEM_EP_EOS, 0,
                                       graph->port->id, iid);
        if (IS_ERR(pkt))
                return PTR_ERR(pkt);

        eos = (void *)pkt + GPR_HDR_SIZE + APM_CMD_HDR_SIZE;

        eos->policy = WR_SH_MEM_EP_EOS_POLICY_LAST;

        rc = gpr_send_port_pkt(graph->port, pkt);
        kfree(pkt);

        return rc;
}
EXPORT_SYMBOL_GPL(audioreach_shared_memory_send_eos);