/* Copyright (c) 2013-2015, The Linux Foundation. All rights reserved. * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * 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. */ #include #include #include #include #include #include "msm-ds2-dap-config.h" #include "msm-pcm-routing-v2.h" #include #ifdef CONFIG_DOLBY_DS2 /* ramp up/down for 30ms */ #define DOLBY_SOFT_VOLUME_PERIOD 40 /* Step value 0ms or 0us */ #define DOLBY_SOFT_VOLUME_STEP 1000 #define DOLBY_ADDITIONAL_RAMP_WAIT 10 #define SOFT_VOLUME_PARAM_SIZE 3 #define PARAM_PAYLOAD_SIZE 3 enum { DOLBY_SOFT_VOLUME_CURVE_LINEAR = 0, DOLBY_SOFT_VOLUME_CURVE_EXP, DOLBY_SOFT_VOLUME_CURVE_LOG, }; #define VOLUME_ZERO_GAIN 0x0 #define VOLUME_UNITY_GAIN 0x2000 /* Wait time for module enable/disble */ #define DOLBY_MODULE_ENABLE_PERIOD 50 /* DOLBY device definitions end */ enum { DOLBY_OFF_CACHE = 0, DOLBY_SPEAKER_CACHE, DOLBY_HEADPHONE_CACHE, DOLBY_HDMI_CACHE, DOLBY_WFD_CACHE, DOLBY_FM_CACHE, DOLBY_MAX_CACHE, }; enum { DAP_SOFT_BYPASS = 0, DAP_HARD_BYPASS, }; enum { MODULE_DISABLE = 0, MODULE_ENABLE, }; /* dolby param ids to/from dsp */ static uint32_t ds2_dap_params_id[MAX_DS2_PARAMS] = { DOLBY_PARAM_ID_VDHE, DOLBY_PARAM_ID_VSPE, DOLBY_PARAM_ID_DSSF, DOLBY_PARAM_ID_DVLI, DOLBY_PARAM_ID_DVLO, DOLBY_PARAM_ID_DVLE, DOLBY_PARAM_ID_DVMC, DOLBY_PARAM_ID_DVME, DOLBY_PARAM_ID_IENB, DOLBY_PARAM_ID_IEBF, DOLBY_PARAM_ID_IEON, DOLBY_PARAM_ID_DEON, DOLBY_PARAM_ID_NGON, DOLBY_PARAM_ID_GEON, DOLBY_PARAM_ID_GENB, DOLBY_PARAM_ID_GEBF, DOLBY_PARAM_ID_AONB, DOLBY_PARAM_ID_AOBF, DOLBY_PARAM_ID_AOBG, DOLBY_PARAM_ID_AOON, DOLBY_PARAM_ID_ARNB, DOLBY_PARAM_ID_ARBF, DOLBY_PARAM_ID_PLB, DOLBY_PARAM_ID_PLMD, DOLBY_PARAM_ID_DHSB, DOLBY_PARAM_ID_DHRG, DOLBY_PARAM_ID_DSSB, DOLBY_PARAM_ID_DSSA, DOLBY_PARAM_ID_DVLA, DOLBY_PARAM_ID_IEBT, DOLBY_PARAM_ID_IEA, DOLBY_PARAM_ID_DEA, DOLBY_PARAM_ID_DED, DOLBY_PARAM_ID_GEBG, DOLBY_PARAM_ID_AOCC, DOLBY_PARAM_ID_ARBI, DOLBY_PARAM_ID_ARBL, DOLBY_PARAM_ID_ARBH, DOLBY_PARAM_ID_AROD, DOLBY_PARAM_ID_ARTP, DOLBY_PARAM_ID_VMON, DOLBY_PARAM_ID_VMB, DOLBY_PARAM_ID_VCNB, DOLBY_PARAM_ID_VCBF, DOLBY_PARAM_ID_PREG, DOLBY_PARAM_ID_VEN, DOLBY_PARAM_ID_PSTG, DOLBY_PARAM_ID_INIT_ENDP, }; /* modifed state: 0x00000000 - Not updated * > 0x00000000 && < 0x00010000 * Updated and not commited to DSP * 0x00010001 - Updated and commited to DSP * > 0x00010001 - Modified the commited value */ /* param offset */ static uint32_t ds2_dap_params_offset[MAX_DS2_PARAMS] = { DOLBY_PARAM_VDHE_OFFSET, DOLBY_PARAM_VSPE_OFFSET, DOLBY_PARAM_DSSF_OFFSET, DOLBY_PARAM_DVLI_OFFSET, DOLBY_PARAM_DVLO_OFFSET, DOLBY_PARAM_DVLE_OFFSET, DOLBY_PARAM_DVMC_OFFSET, DOLBY_PARAM_DVME_OFFSET, DOLBY_PARAM_IENB_OFFSET, DOLBY_PARAM_IEBF_OFFSET, DOLBY_PARAM_IEON_OFFSET, DOLBY_PARAM_DEON_OFFSET, DOLBY_PARAM_NGON_OFFSET, DOLBY_PARAM_GEON_OFFSET, DOLBY_PARAM_GENB_OFFSET, DOLBY_PARAM_GEBF_OFFSET, DOLBY_PARAM_AONB_OFFSET, DOLBY_PARAM_AOBF_OFFSET, DOLBY_PARAM_AOBG_OFFSET, DOLBY_PARAM_AOON_OFFSET, DOLBY_PARAM_ARNB_OFFSET, DOLBY_PARAM_ARBF_OFFSET, DOLBY_PARAM_PLB_OFFSET, DOLBY_PARAM_PLMD_OFFSET, DOLBY_PARAM_DHSB_OFFSET, DOLBY_PARAM_DHRG_OFFSET, DOLBY_PARAM_DSSB_OFFSET, DOLBY_PARAM_DSSA_OFFSET, DOLBY_PARAM_DVLA_OFFSET, DOLBY_PARAM_IEBT_OFFSET, DOLBY_PARAM_IEA_OFFSET, DOLBY_PARAM_DEA_OFFSET, DOLBY_PARAM_DED_OFFSET, DOLBY_PARAM_GEBG_OFFSET, DOLBY_PARAM_AOCC_OFFSET, DOLBY_PARAM_ARBI_OFFSET, DOLBY_PARAM_ARBL_OFFSET, DOLBY_PARAM_ARBH_OFFSET, DOLBY_PARAM_AROD_OFFSET, DOLBY_PARAM_ARTP_OFFSET, DOLBY_PARAM_VMON_OFFSET, DOLBY_PARAM_VMB_OFFSET, DOLBY_PARAM_VCNB_OFFSET, DOLBY_PARAM_VCBF_OFFSET, DOLBY_PARAM_PREG_OFFSET, DOLBY_PARAM_VEN_OFFSET, DOLBY_PARAM_PSTG_OFFSET, DOLBY_PARAM_INT_ENDP_OFFSET, }; /* param_length */ static uint32_t ds2_dap_params_length[MAX_DS2_PARAMS] = { DOLBY_PARAM_VDHE_LENGTH, DOLBY_PARAM_VSPE_LENGTH, DOLBY_PARAM_DSSF_LENGTH, DOLBY_PARAM_DVLI_LENGTH, DOLBY_PARAM_DVLO_LENGTH, DOLBY_PARAM_DVLE_LENGTH, DOLBY_PARAM_DVMC_LENGTH, DOLBY_PARAM_DVME_LENGTH, DOLBY_PARAM_IENB_LENGTH, DOLBY_PARAM_IEBF_LENGTH, DOLBY_PARAM_IEON_LENGTH, DOLBY_PARAM_DEON_LENGTH, DOLBY_PARAM_NGON_LENGTH, DOLBY_PARAM_GEON_LENGTH, DOLBY_PARAM_GENB_LENGTH, DOLBY_PARAM_GEBF_LENGTH, DOLBY_PARAM_AONB_LENGTH, DOLBY_PARAM_AOBF_LENGTH, DOLBY_PARAM_AOBG_LENGTH, DOLBY_PARAM_AOON_LENGTH, DOLBY_PARAM_ARNB_LENGTH, DOLBY_PARAM_ARBF_LENGTH, DOLBY_PARAM_PLB_LENGTH, DOLBY_PARAM_PLMD_LENGTH, DOLBY_PARAM_DHSB_LENGTH, DOLBY_PARAM_DHRG_LENGTH, DOLBY_PARAM_DSSB_LENGTH, DOLBY_PARAM_DSSA_LENGTH, DOLBY_PARAM_DVLA_LENGTH, DOLBY_PARAM_IEBT_LENGTH, DOLBY_PARAM_IEA_LENGTH, DOLBY_PARAM_DEA_LENGTH, DOLBY_PARAM_DED_LENGTH, DOLBY_PARAM_GEBG_LENGTH, DOLBY_PARAM_AOCC_LENGTH, DOLBY_PARAM_ARBI_LENGTH, DOLBY_PARAM_ARBL_LENGTH, DOLBY_PARAM_ARBH_LENGTH, DOLBY_PARAM_AROD_LENGTH, DOLBY_PARAM_ARTP_LENGTH, DOLBY_PARAM_VMON_LENGTH, DOLBY_PARAM_VMB_LENGTH, DOLBY_PARAM_VCNB_LENGTH, DOLBY_PARAM_VCBF_LENGTH, DOLBY_PARAM_PREG_LENGTH, DOLBY_PARAM_VEN_LENGTH, DOLBY_PARAM_PSTG_LENGTH, DOLBY_PARAM_INT_ENDP_LENGTH, }; struct ds2_dap_params_s { int32_t params_val[TOTAL_LENGTH_DS2_PARAM]; int32_t dap_params_modified[MAX_DS2_PARAMS]; }; struct audio_rx_cal_data { char aud_proc_data[AUD_PROC_BLOCK_SIZE]; int32_t aud_proc_size; char aud_vol_data[AUD_VOL_BLOCK_SIZE]; int32_t aud_vol_size; }; static struct ds2_dap_params_s ds2_dap_params[DOLBY_MAX_CACHE]; struct ds2_device_mapping { int32_t device_id; /* audio_out_... */ int port_id; /* afe port. constant for a target variant. routing-v2*/ /*Only one Dolby COPP for a specific port*/ int copp_idx; /* idx for the copp port on which ds2 is active */ int cache_dev; /* idx to a shared parameter array dependent on device*/ uint32_t stream_ref_count; bool active; void *cal_data; }; static struct ds2_device_mapping dev_map[DS2_DEVICES_ALL]; struct ds2_dap_params_states_s { bool use_cache; bool dap_bypass; bool dap_bypass_type; bool node_opened; int32_t device; bool custom_stereo_onoff; }; static struct ds2_dap_params_states_s ds2_dap_params_states = {true, false, false, DEVICE_NONE}; static int all_supported_devices = EARPIECE|SPEAKER|WIRED_HEADSET| WIRED_HEADPHONE|BLUETOOTH_SCO|AUX_DIGITAL| ANLG_DOCK_HEADSET|DGTL_DOCK_HEADSET| REMOTE_SUBMIX|ANC_HEADSET|ANC_HEADPHONE| PROXY|FM|FM_TX|DEVICE_NONE| BLUETOOTH_SCO_HEADSET|BLUETOOTH_SCO_CARKIT; static void msm_ds2_dap_check_and_update_ramp_wait(int port_id, int copp_idx, int *ramp_wait) { int32_t *update_params_value = NULL; uint32_t params_length = SOFT_VOLUME_PARAM_SIZE * sizeof(uint32_t); uint32_t param_payload_len = PARAM_PAYLOAD_SIZE * sizeof(uint32_t); int rc = 0; update_params_value = kzalloc(params_length, GFP_KERNEL); if (!update_params_value) { pr_err("%s: params memory alloc failed\n", __func__); goto end; } rc = adm_get_params(port_id, copp_idx, AUDPROC_MODULE_ID_VOL_CTRL, AUDPROC_PARAM_ID_SOFT_VOL_STEPPING_PARAMETERS, params_length + param_payload_len, (char *) update_params_value); if (rc == 0) { pr_debug("%s: params_value [0x%x, 0x%x, 0x%x]\n", __func__, update_params_value[0], update_params_value[1], update_params_value[2]); *ramp_wait = update_params_value[0]; } end: kfree(update_params_value); /* * No error returned as we do not need to error out from dap on/dap * bypass. The default ramp parameter will be used to wait during * ramp down. */ return; } static int msm_ds2_dap_set_vspe_vdhe(int dev_map_idx, bool is_custom_stereo_enabled) { int32_t *update_params_value = NULL; int32_t *param_val = NULL; int idx, i, j, rc = 0, cdev; uint32_t params_length = (TOTAL_LENGTH_DOLBY_PARAM + 2 * DOLBY_PARAM_PAYLOAD_SIZE) * sizeof(uint32_t); if (dev_map_idx < 0 || dev_map_idx >= DS2_DEVICES_ALL) { pr_err("%s: invalid dev map index %d\n", __func__, dev_map_idx); rc = -EINVAL; goto end; } if (dev_map[dev_map_idx].port_id == DOLBY_INVALID_PORT_ID) { pr_err("%s: Invalid port id\n", __func__); rc = -EINVAL; goto end; } if ((dev_map[dev_map_idx].copp_idx < 0) || (dev_map[dev_map_idx].copp_idx >= MAX_COPPS_PER_PORT)) { pr_err("%s: Invalid copp_idx\n", __func__); rc = -EINVAL; goto end; } if ((dev_map[dev_map_idx].port_id != SLIMBUS_0_RX) && (dev_map[dev_map_idx].port_id != RT_PROXY_PORT_001_RX)) { pr_debug("%s:No Custom stereo for port:0x%x\n", __func__, dev_map[dev_map_idx].port_id); goto end; } update_params_value = kzalloc(params_length, GFP_KERNEL); if (!update_params_value) { pr_err("%s: params memory alloc failed\n", __func__); rc = -ENOMEM; goto end; } params_length = 0; param_val = update_params_value; cdev = dev_map[dev_map_idx].cache_dev; /* for VDHE and VSPE DAP params at index 0 and 1 in table */ for (i = 0; i < 2; i++) { *update_params_value++ = DOLBY_BUNDLE_MODULE_ID; *update_params_value++ = ds2_dap_params_id[i]; *update_params_value++ = ds2_dap_params_length[i] * sizeof(uint32_t); idx = ds2_dap_params_offset[i]; for (j = 0; j < ds2_dap_params_length[i]; j++) { if (is_custom_stereo_enabled) *update_params_value++ = 0; else *update_params_value++ = ds2_dap_params[cdev].params_val[idx+j]; } params_length += (DOLBY_PARAM_PAYLOAD_SIZE + ds2_dap_params_length[i]) * sizeof(uint32_t); } pr_debug("%s: valid param length: %d\n", __func__, params_length); if (params_length) { rc = adm_dolby_dap_send_params(dev_map[dev_map_idx].port_id, dev_map[dev_map_idx].copp_idx, (char *)param_val, params_length); if (rc) { pr_err("%s: send vdhe/vspe params failed with rc=%d\n", __func__, rc); rc = -EINVAL; goto end; } } end: kfree(param_val); return rc; } int qti_set_custom_stereo_on(int port_id, int copp_idx, bool is_custom_stereo_on) { uint16_t op_FL_ip_FL_weight; uint16_t op_FL_ip_FR_weight; uint16_t op_FR_ip_FL_weight; uint16_t op_FR_ip_FR_weight; int32_t *update_params_value32 = NULL, rc = 0; int32_t *param_val = NULL; int16_t *update_params_value16 = 0; uint32_t params_length_bytes = CUSTOM_STEREO_PAYLOAD_SIZE * sizeof(uint32_t); uint32_t avail_length = params_length_bytes; if ((port_id != SLIMBUS_0_RX) && (port_id != RT_PROXY_PORT_001_RX)) { pr_debug("%s:No Custom stereo for port:0x%x\n", __func__, port_id); goto skip_send_cmd; } pr_debug("%s: port 0x%x, copp_idx %d, is_custom_stereo_on %d\n", __func__, port_id, copp_idx, is_custom_stereo_on); if (is_custom_stereo_on) { op_FL_ip_FL_weight = Q14_GAIN_ZERO_POINT_FIVE; op_FL_ip_FR_weight = Q14_GAIN_ZERO_POINT_FIVE; op_FR_ip_FL_weight = Q14_GAIN_ZERO_POINT_FIVE; op_FR_ip_FR_weight = Q14_GAIN_ZERO_POINT_FIVE; } else { op_FL_ip_FL_weight = Q14_GAIN_UNITY; op_FL_ip_FR_weight = 0; op_FR_ip_FL_weight = 0; op_FR_ip_FR_weight = Q14_GAIN_UNITY; } update_params_value32 = kzalloc(params_length_bytes, GFP_KERNEL); if (!update_params_value32) { pr_err("%s, params memory alloc failed\n", __func__); rc = -ENOMEM; goto skip_send_cmd; } param_val = update_params_value32; if (avail_length < 2 * sizeof(uint32_t)) goto skip_send_cmd; *update_params_value32++ = MTMX_MODULE_ID_DEFAULT_CHMIXER; *update_params_value32++ = DEFAULT_CHMIXER_PARAM_ID_COEFF; avail_length = avail_length - (2 * sizeof(uint32_t)); update_params_value16 = (int16_t *)update_params_value32; if (avail_length < 10 * sizeof(uint16_t)) goto skip_send_cmd; *update_params_value16++ = CUSTOM_STEREO_CMD_PARAM_SIZE; /* for alignment only*/ *update_params_value16++ = 0; /* index is 32-bit param in little endian*/ *update_params_value16++ = CUSTOM_STEREO_INDEX_PARAM; *update_params_value16++ = 0; /* for stereo mixing num out ch*/ *update_params_value16++ = CUSTOM_STEREO_NUM_OUT_CH; /* for stereo mixing num in ch*/ *update_params_value16++ = CUSTOM_STEREO_NUM_IN_CH; /* Out ch map FL/FR*/ *update_params_value16++ = PCM_CHANNEL_FL; *update_params_value16++ = PCM_CHANNEL_FR; /* In ch map FL/FR*/ *update_params_value16++ = PCM_CHANNEL_FL; *update_params_value16++ = PCM_CHANNEL_FR; avail_length = avail_length - (10 * sizeof(uint16_t)); /* weighting coefficients as name suggests, mixing will be done according to these coefficients*/ if (avail_length < 4 * sizeof(uint16_t)) goto skip_send_cmd; *update_params_value16++ = op_FL_ip_FL_weight; *update_params_value16++ = op_FL_ip_FR_weight; *update_params_value16++ = op_FR_ip_FL_weight; *update_params_value16++ = op_FR_ip_FR_weight; avail_length = avail_length - (4 * sizeof(uint16_t)); if (params_length_bytes != 0) { rc = adm_dolby_dap_send_params(port_id, copp_idx, (char *)param_val, params_length_bytes); if (rc) { pr_err("%s: send params failed rc=%d\n", __func__, rc); rc = -EINVAL; goto skip_send_cmd; } } kfree(param_val); return 0; skip_send_cmd: pr_err("%s: insufficient memory, send cmd failed\n", __func__); kfree(param_val); return rc; } static int dap_set_custom_stereo_onoff(int dev_map_idx, bool is_custom_stereo_enabled) { int32_t *update_params_value = NULL, rc = 0; int32_t *param_val = NULL; uint32_t params_length_bytes = (TOTAL_LENGTH_DOLBY_PARAM + DOLBY_PARAM_PAYLOAD_SIZE) * sizeof(uint32_t); if ((dev_map[dev_map_idx].port_id != SLIMBUS_0_RX) && (dev_map[dev_map_idx].port_id != RT_PROXY_PORT_001_RX)) { pr_debug("%s:No Custom stereo for port:0x%x\n", __func__, dev_map[dev_map_idx].port_id); goto end; } if ((dev_map[dev_map_idx].copp_idx < 0) || (dev_map[dev_map_idx].copp_idx >= MAX_COPPS_PER_PORT)) { rc = -EINVAL; goto end; } /* DAP custom stereo */ msm_ds2_dap_set_vspe_vdhe(dev_map_idx, is_custom_stereo_enabled); update_params_value = kzalloc(params_length_bytes, GFP_KERNEL); if (!update_params_value) { pr_err("%s: params memory alloc failed\n", __func__); rc = -ENOMEM; goto end; } params_length_bytes = 0; param_val = update_params_value; *update_params_value++ = DOLBY_BUNDLE_MODULE_ID; *update_params_value++ = DOLBY_ENABLE_CUSTOM_STEREO; *update_params_value++ = sizeof(uint32_t); if (is_custom_stereo_enabled) *update_params_value++ = 1; else *update_params_value++ = 0; params_length_bytes += (DOLBY_PARAM_PAYLOAD_SIZE + 1) * sizeof(uint32_t); pr_debug("%s: valid param length: %d\n", __func__, params_length_bytes); if (params_length_bytes) { rc = adm_dolby_dap_send_params(dev_map[dev_map_idx].port_id, dev_map[dev_map_idx].copp_idx, (char *)param_val, params_length_bytes); if (rc) { pr_err("%s: custom stereo param failed with rc=%d\n", __func__, rc); rc = -EINVAL; goto end; } } end: kfree(param_val); return rc; } static int set_custom_stereo_onoff(int dev_map_idx, bool is_custom_stereo_enabled) { int rc = 0; pr_debug("%s: map index %d, custom stereo %d\n", __func__, dev_map_idx, is_custom_stereo_enabled); if (dev_map_idx < 0 || dev_map_idx >= DS2_DEVICES_ALL) { pr_err("%s: invalid dev map index %d\n", __func__, dev_map_idx); rc = -EINVAL; goto end; } if (dev_map[dev_map_idx].port_id == DOLBY_INVALID_PORT_ID) { pr_err("%s: invalid port id\n", __func__); rc = -EINVAL; goto end; } if ((dev_map[dev_map_idx].copp_idx < 0) || (dev_map[dev_map_idx].copp_idx >= MAX_COPPS_PER_PORT)) { pr_err("%s: invalid copp idx\n", __func__); rc = -EINVAL; goto end; } if (ds2_dap_params_states.dap_bypass == true && ds2_dap_params_states.dap_bypass_type == DAP_HARD_BYPASS) { rc = qti_set_custom_stereo_on(dev_map[dev_map_idx].port_id, dev_map[dev_map_idx].copp_idx, is_custom_stereo_enabled); if (rc < 0) { pr_err("%s:qti_set_custom_stereo_on_copp failed C.S %d", __func__, is_custom_stereo_enabled); } goto end; } if (ds2_dap_params_states.dap_bypass == false) { rc = dap_set_custom_stereo_onoff(dev_map_idx, is_custom_stereo_enabled); if (rc < 0) { pr_err("%s:qti_set_custom_stereo_on_copp failed C.S %d", __func__, is_custom_stereo_enabled); } goto end; } end: return rc; } static int msm_ds2_dap_alloc_and_store_cal_data(int dev_map_idx, int path, int perf_mode) { int rc = 0; struct audio_rx_cal_data *aud_cal_data; pr_debug("%s: path %d, perf_mode %d, dev_map_idx %d\n", __func__, path, perf_mode, dev_map_idx); if (dev_map_idx < 0 || dev_map_idx >= DS2_DEVICES_ALL) { pr_err("%s: invalid dev map index %d\n", __func__, dev_map_idx); rc = -EINVAL; goto end; } aud_cal_data = kzalloc(sizeof(struct audio_rx_cal_data), GFP_KERNEL); if (!aud_cal_data) { pr_err("%s, param memory alloc failed\n", __func__); rc = -ENOMEM; goto end; } rc = adm_store_cal_data(dev_map[dev_map_idx].port_id, dev_map[dev_map_idx].copp_idx, path, perf_mode, ADM_AUDPROC_CAL, aud_cal_data->aud_proc_data, &aud_cal_data->aud_proc_size); if (rc < 0) { pr_err("%s: store cal data err %d\n", __func__, rc); kfree(aud_cal_data); goto end; } rc = adm_store_cal_data(dev_map[dev_map_idx].port_id, dev_map[dev_map_idx].copp_idx, path, perf_mode, ADM_AUDVOL_CAL, aud_cal_data->aud_vol_data, &aud_cal_data->aud_vol_size); if (rc < 0) { pr_err("%s: store cal data err %d\n", __func__, rc); kfree(aud_cal_data); goto end; } dev_map[dev_map_idx].cal_data = (void *)aud_cal_data; end: pr_debug("%s: ret %d\n", __func__, rc); return rc; } static int msm_ds2_dap_free_cal_data(int dev_map_idx) { int rc = 0; struct audio_rx_cal_data *aud_cal_data; pr_debug("%s: dev_map_idx %d\n", __func__, dev_map_idx); if (dev_map_idx < 0 || dev_map_idx >= DS2_DEVICES_ALL) { pr_err("%s: invalid dev map index %d\n", __func__, dev_map_idx); rc = -EINVAL; goto end; } aud_cal_data = (struct audio_rx_cal_data *) dev_map[dev_map_idx].cal_data; kfree(aud_cal_data); dev_map[dev_map_idx].cal_data = NULL; end: return rc; } static int msm_ds2_dap_send_cal_data(int dev_map_idx) { int rc = 0; struct audio_rx_cal_data *aud_cal_data = NULL; pr_debug("%s: devmap index %d\n", __func__, dev_map_idx); if (dev_map_idx < 0 || dev_map_idx >= DS2_DEVICES_ALL) { pr_err("%s: invalid dev map index %d\n", __func__, dev_map_idx); rc = -EINVAL; goto end; } if (dev_map[dev_map_idx].cal_data == NULL) { pr_err("%s: No valid calibration data stored for idx %d\n", __func__, dev_map_idx); rc = -EINVAL; goto end; } /* send aud proc cal */ aud_cal_data = (struct audio_rx_cal_data *) dev_map[dev_map_idx].cal_data; rc = adm_send_calibration(dev_map[dev_map_idx].port_id, dev_map[dev_map_idx].copp_idx, ADM_PATH_PLAYBACK, 0, ADM_AUDPROC_CAL, aud_cal_data->aud_proc_data, aud_cal_data->aud_proc_size); if (rc < 0) { pr_err("%s: adm_send_calibration failed %d\n", __func__, rc); goto end; } /* send aud volume cal*/ rc = adm_send_calibration(dev_map[dev_map_idx].port_id, dev_map[dev_map_idx].copp_idx, ADM_PATH_PLAYBACK, 0, ADM_AUDVOL_CAL, aud_cal_data->aud_vol_data, aud_cal_data->aud_vol_size); if (rc < 0) pr_err("%s: adm_send_calibration failed %d\n", __func__, rc); end: pr_debug("%s: return %d\n", __func__, rc); return rc; } static inline int msm_ds2_dap_can_enable_module(int32_t module_id) { if (module_id == MTMX_MODULE_ID_DEFAULT_CHMIXER || module_id == AUDPROC_MODULE_ID_RESAMPLER || module_id == AUDPROC_MODULE_ID_VOL_CTRL) { return false; } return true; } static int msm_ds2_dap_init_modules_in_topology(int dev_map_idx) { int rc = 0, i = 0, port_id, copp_idx; /* Account for 32 bit interger allocation */ int32_t param_sz = (ADM_GET_TOPO_MODULE_LIST_LENGTH / sizeof(uint32_t)); int32_t *update_param_val = NULL; if (dev_map_idx < 0 || dev_map_idx >= DS2_DEVICES_ALL) { pr_err("%s: invalid dev map index %d\n", __func__, dev_map_idx); rc = -EINVAL; goto end; } port_id = dev_map[dev_map_idx].port_id; copp_idx = dev_map[dev_map_idx].copp_idx; pr_debug("%s: port_id 0x%x copp_idx %d\n", __func__, port_id, copp_idx); update_param_val = kzalloc(ADM_GET_TOPO_MODULE_LIST_LENGTH, GFP_KERNEL); if (!update_param_val) { pr_err("%s, param memory alloc failed\n", __func__); rc = -ENOMEM; goto end; } if (!ds2_dap_params_states.dap_bypass) { /* get modules from dsp */ rc = adm_get_pp_topo_module_list(port_id, copp_idx, ADM_GET_TOPO_MODULE_LIST_LENGTH, (char *)update_param_val); if (rc < 0) { pr_err("%s:topo list port %d, err %d,copp_idx %d\n", __func__, port_id, copp_idx, rc); goto end; } if (update_param_val[0] > (param_sz - 1)) { pr_err("%s:max modules exp/ret [%d: %d]\n", __func__, (param_sz - 1), update_param_val[0]); rc = -EINVAL; goto end; } /* Turn off modules */ for (i = 1; i < update_param_val[0]; i++) { if (!msm_ds2_dap_can_enable_module( update_param_val[i]) || (update_param_val[i] == DS2_MODULE_ID)) { pr_debug("%s: Do not enable/disable %d\n", __func__, update_param_val[i]); continue; } pr_debug("%s: param disable %d\n", __func__, update_param_val[i]); adm_param_enable(port_id, copp_idx, update_param_val[i], MODULE_DISABLE); } } else { msm_ds2_dap_send_cal_data(dev_map_idx); } adm_param_enable(port_id, copp_idx, DS2_MODULE_ID, !ds2_dap_params_states.dap_bypass); end: kfree(update_param_val); return rc; } static bool msm_ds2_dap_check_is_param_modified(int32_t *dap_params_modified, int32_t idx, int32_t commit) { if ((dap_params_modified[idx] == 0) || (commit && ((dap_params_modified[idx] & 0x00010000) && ((dap_params_modified[idx] & 0x0000FFFF) <= 1)))) { pr_debug("%s: not modified at idx %d\n", __func__, idx); return false; } pr_debug("%s: modified at idx %d\n", __func__, idx); return true; } static int msm_ds2_dap_map_device_to_dolby_cache_devices(int32_t device_id) { int32_t cache_dev = -1; switch (device_id) { case DEVICE_NONE: cache_dev = DOLBY_OFF_CACHE; break; case EARPIECE: case SPEAKER: cache_dev = DOLBY_SPEAKER_CACHE; break; case WIRED_HEADSET: case WIRED_HEADPHONE: case ANLG_DOCK_HEADSET: case DGTL_DOCK_HEADSET: case ANC_HEADSET: case ANC_HEADPHONE: case BLUETOOTH_SCO: case BLUETOOTH_SCO_HEADSET: case BLUETOOTH_SCO_CARKIT: cache_dev = DOLBY_HEADPHONE_CACHE; break; case FM: case FM_TX: cache_dev = DOLBY_FM_CACHE; break; case AUX_DIGITAL: cache_dev = DOLBY_HDMI_CACHE; break; case PROXY: case REMOTE_SUBMIX: cache_dev = DOLBY_WFD_CACHE; break; default: pr_err("%s: invalid cache device\n", __func__); } pr_debug("%s: cache device %d\n", __func__, cache_dev); return cache_dev; } static int msm_ds2_dap_update_num_devices(struct dolby_param_data *dolby_data, int32_t *num_device, int32_t *dev_arr, int32_t array_size) { int32_t idx = 0; int supported_devices = 0; if (!array_size) { pr_err("%s: array size zero\n", __func__); return -EINVAL; } if (dolby_data->device_id == DEVICE_OUT_ALL || dolby_data->device_id == DEVICE_OUT_DEFAULT) supported_devices = all_supported_devices; else supported_devices = dolby_data->device_id; if ((idx < array_size) && (supported_devices & EARPIECE)) dev_arr[idx++] = EARPIECE; if ((idx < array_size) && (supported_devices & SPEAKER)) dev_arr[idx++] = SPEAKER; if ((idx < array_size) && (supported_devices & WIRED_HEADSET)) dev_arr[idx++] = WIRED_HEADSET; if ((idx < array_size) && (supported_devices & WIRED_HEADPHONE)) dev_arr[idx++] = WIRED_HEADPHONE; if ((idx < array_size) && (supported_devices & BLUETOOTH_SCO)) dev_arr[idx++] = BLUETOOTH_SCO; if ((idx < array_size) && (supported_devices & BLUETOOTH_SCO_CARKIT)) dev_arr[idx++] = BLUETOOTH_SCO_CARKIT; if ((idx < array_size) && (supported_devices & BLUETOOTH_SCO_HEADSET)) dev_arr[idx++] = BLUETOOTH_SCO_HEADSET; if ((idx < array_size) && (supported_devices & AUX_DIGITAL)) dev_arr[idx++] = AUX_DIGITAL; if ((idx < array_size) && (supported_devices & ANLG_DOCK_HEADSET)) dev_arr[idx++] = ANLG_DOCK_HEADSET; if ((idx < array_size) && (supported_devices & DGTL_DOCK_HEADSET)) dev_arr[idx++] = DGTL_DOCK_HEADSET; if ((idx < array_size) && (supported_devices & REMOTE_SUBMIX)) dev_arr[idx++] = REMOTE_SUBMIX; if ((idx < array_size) && (supported_devices & ANC_HEADSET)) dev_arr[idx++] = ANC_HEADSET; if ((idx < array_size) && (supported_devices & ANC_HEADPHONE)) dev_arr[idx++] = ANC_HEADPHONE; if ((idx < array_size) && (supported_devices & PROXY)) dev_arr[idx++] = PROXY; if ((idx < array_size) && (supported_devices & FM)) dev_arr[idx++] = FM; if ((idx < array_size) && (supported_devices & FM_TX)) dev_arr[idx++] = FM_TX; /* CHECK device none separately */ if ((idx < array_size) && (supported_devices == DEVICE_NONE)) dev_arr[idx++] = DEVICE_NONE; pr_debug("%s: dev id 0x%x, idx %d\n", __func__, supported_devices, idx); *num_device = idx; return 0; } static int msm_ds2_dap_get_port_id( int32_t device_id, int32_t be_id) { struct msm_pcm_routing_bdai_data bedais; int port_id = DOLBY_INVALID_PORT_ID; int port_type = 0; if (be_id < 0) { port_id = -1; goto end; } msm_pcm_routing_get_bedai_info(be_id, &bedais); pr_debug("%s: be port_id %d\n", __func__, bedais.port_id); port_id = bedais.port_id; port_type = afe_get_port_type(bedais.port_id); if (port_type != MSM_AFE_PORT_TYPE_RX) port_id = DOLBY_INVALID_PORT_ID; end: pr_debug("%s: device_id 0x%x, be_id %d, port_id %d\n", __func__, device_id, be_id, port_id); return port_id; } static int msm_ds2_dap_update_dev_map_port_id(int32_t device_id, int port_id) { int i; for (i = 0; i < DS2_DEVICES_ALL; i++) { if (dev_map[i].device_id == device_id) dev_map[i].port_id = port_id; } pr_debug("%s: port_id %d, device_id 0x%x\n", __func__, port_id, device_id); return 0; } static int msm_ds2_dap_handle_bypass_wait(int port_id, int copp_idx, int wait_time) { int ret = 0; adm_set_wait_parameters(port_id, copp_idx); msm_pcm_routing_release_lock(); ret = adm_wait_timeout(port_id, copp_idx, wait_time); msm_pcm_routing_acquire_lock(); /* Reset the parameters if wait has timed out */ if (ret == 0) adm_reset_wait_parameters(port_id, copp_idx); return ret; } static int msm_ds2_dap_handle_bypass(struct dolby_param_data *dolby_data) { int rc = 0, i = 0, j = 0; /*Account for 32 bit interger allocation */ int32_t param_sz = (ADM_GET_TOPO_MODULE_LIST_LENGTH / sizeof(uint32_t)); int32_t *mod_list = NULL; int port_id = 0, copp_idx = -1; bool cs_onoff = ds2_dap_params_states.custom_stereo_onoff; int ramp_wait = DOLBY_SOFT_VOLUME_PERIOD; pr_debug("%s: bypass type %d bypass %d custom stereo %d\n", __func__, ds2_dap_params_states.dap_bypass_type, ds2_dap_params_states.dap_bypass, ds2_dap_params_states.custom_stereo_onoff); mod_list = kzalloc(ADM_GET_TOPO_MODULE_LIST_LENGTH, GFP_KERNEL); if (!mod_list) { pr_err("%s: param memory alloc failed\n", __func__); rc = -ENOMEM; goto end; } for (i = 0; i < DS2_DEVICES_ALL; i++) { pr_debug("%s: active dev %d\n", __func__, dev_map[i].active); if (dev_map[i].active) { port_id = dev_map[i].port_id; copp_idx = dev_map[i].copp_idx; if (port_id == DOLBY_INVALID_PORT_ID) { pr_err("%s: invalid port\n", __func__); rc = 0; goto end; } if ((copp_idx < 0) || (copp_idx >= MAX_COPPS_PER_PORT)) { pr_err("%s: Invalid copp_idx\n", __func__); rc = 0; goto end; } /* getmodules from dsp */ rc = adm_get_pp_topo_module_list(port_id, copp_idx, ADM_GET_TOPO_MODULE_LIST_LENGTH, (char *)mod_list); if (rc < 0) { pr_err("%s:adm get topo list port %d", __func__, port_id); pr_err("copp_idx %d, err %d\n", copp_idx, rc); goto end; } if (mod_list[0] > (param_sz - 1)) { pr_err("%s:max modules exp/ret [%d: %d]\n", __func__, (param_sz - 1), mod_list[0]); rc = -EINVAL; goto end; } /* * get ramp parameters * check for change in ramp parameters * update ramp wait */ msm_ds2_dap_check_and_update_ramp_wait(port_id, copp_idx, &ramp_wait); /* Mute before switching modules */ rc = adm_set_volume(port_id, copp_idx, VOLUME_ZERO_GAIN); if (rc < 0) { /* * Not Fatal can continue bypass operations. * Do not need to block playback */ pr_info("%s :Set volume port_id %d", __func__, port_id); pr_info("copp_idx %d, error %d\n", copp_idx, rc); } rc = msm_ds2_dap_handle_bypass_wait(port_id, copp_idx, (ramp_wait + DOLBY_ADDITIONAL_RAMP_WAIT)); if (rc == -EINTR) { pr_info("%s:bypass interupted-ignore,port %d", __func__, port_id); pr_info("copp_idx %d\n", copp_idx); rc = 0; continue; } /* if dap bypass is set */ if (ds2_dap_params_states.dap_bypass) { /* Turn off dap module */ adm_param_enable(port_id, copp_idx, DS2_MODULE_ID, MODULE_DISABLE); /* * If custom stereo is on at the time of bypass, * switch off custom stereo on dap and turn on * custom stereo on qti channel mixer. */ if (cs_onoff) { rc = dap_set_custom_stereo_onoff(i, !cs_onoff); if (rc < 0) { pr_info("%s:D_CS i %d,rc %d\n", __func__, i, rc); } rc = qti_set_custom_stereo_on(port_id, copp_idx, cs_onoff); if (rc < 0) { pr_info("%s:Q_CS port id 0x%x", __func__, port_id); pr_info("copp idx %d, rc %d\n", copp_idx, rc); } } /* Add adm api to resend calibration on port */ rc = msm_ds2_dap_send_cal_data(i); if (rc < 0) { /* * Not fatal,continue bypass operations. * Do not need to block playback */ pr_info("%s:send cal err %d index %d\n", __func__, rc, i); } } else { /* Turn off qti modules */ for (j = 1; j < mod_list[0]; j++) { if (!msm_ds2_dap_can_enable_module( mod_list[j]) || mod_list[j] == DS2_MODULE_ID) continue; pr_debug("%s: param disable %d\n", __func__, mod_list[j]); adm_param_enable(port_id, copp_idx, mod_list[j], MODULE_DISABLE); } /* Enable DAP modules */ pr_debug("%s:DS2 param enable\n", __func__); adm_param_enable(port_id, copp_idx, DS2_MODULE_ID, MODULE_ENABLE); /* * If custom stereo is on at the time of dap on, * switch off custom stereo on qti channel mixer * and turn on custom stereo on DAP. * mixer(qti). */ if (cs_onoff) { rc = qti_set_custom_stereo_on(port_id, copp_idx, !cs_onoff); if (rc < 0) { pr_info("%s:Q_CS port_id 0x%x", __func__, port_id); pr_info("copp_idx %d rc %d\n", copp_idx, rc); } rc = dap_set_custom_stereo_onoff(i, cs_onoff); if (rc < 0) { pr_info("%s:D_CS i %d,rc %d\n", __func__, i, rc); } } } rc = msm_ds2_dap_handle_bypass_wait(port_id, copp_idx, DOLBY_MODULE_ENABLE_PERIOD); if (rc == -EINTR) { pr_info("%s:bypass interupted port_id %d copp_idx %d\n", __func__, port_id, copp_idx); /* Interrupted ignore bypass */ rc = 0; continue; } /* set volume to unity gain after module on/off */ rc = adm_set_volume(port_id, copp_idx, VOLUME_UNITY_GAIN); if (rc < 0) { /* * Not Fatal can continue bypass operations. * Do not need to block playback */ pr_info("%s: Set vol port %d copp %d, rc %d\n", __func__, port_id, copp_idx, rc); rc = 0; } } } end: kfree(mod_list); pr_debug("%s:return rc=%d\n", __func__, rc); return rc; } static int msm_ds2_dap_send_end_point(int dev_map_idx, int endp_idx) { int rc = 0; int32_t *update_params_value = NULL, *params_value = NULL; uint32_t params_length = (DOLBY_PARAM_INT_ENDP_LENGTH + DOLBY_PARAM_PAYLOAD_SIZE) * sizeof(uint32_t); int cache_device = 0; struct ds2_dap_params_s *ds2_ap_params_obj = NULL; int32_t *modified_param = NULL; if (dev_map_idx < 0 || dev_map_idx >= DS2_DEVICES_ALL) { pr_err("%s: invalid dev map index %d\n", __func__, dev_map_idx); rc = -EINVAL; goto end; } cache_device = dev_map[dev_map_idx].cache_dev; ds2_ap_params_obj = &ds2_dap_params[cache_device]; pr_debug("%s: cache dev %d, dev_map_idx %d\n", __func__, cache_device, dev_map_idx); pr_debug("%s: endp - %p %p\n", __func__, &ds2_dap_params[cache_device], ds2_ap_params_obj); params_value = kzalloc(params_length, GFP_KERNEL); if (!params_value) { pr_err("%s: params memory alloc failed\n", __func__); rc = -ENOMEM; goto end; } if (dev_map[dev_map_idx].port_id == DOLBY_INVALID_PORT_ID) { pr_err("%s: invalid port\n", __func__); rc = -EINVAL; goto end; } if ((dev_map[dev_map_idx].copp_idx < 0) || (dev_map[dev_map_idx].copp_idx >= MAX_COPPS_PER_PORT)) { pr_err("%s: Invalid copp_idx\n", __func__); rc = -EINVAL; goto end; } update_params_value = params_value; *update_params_value++ = DOLBY_BUNDLE_MODULE_ID; *update_params_value++ = DOLBY_PARAM_ID_INIT_ENDP; *update_params_value++ = DOLBY_PARAM_INT_ENDP_LENGTH * sizeof(uint32_t); *update_params_value++ = ds2_ap_params_obj->params_val[ ds2_dap_params_offset[endp_idx]]; pr_debug("%s: off %d, length %d\n", __func__, ds2_dap_params_offset[endp_idx], ds2_dap_params_length[endp_idx]); pr_debug("%s: param 0x%x, param val %d\n", __func__, ds2_dap_params_id[endp_idx], ds2_ap_params_obj-> params_val[ds2_dap_params_offset[endp_idx]]); rc = adm_dolby_dap_send_params(dev_map[dev_map_idx].port_id, dev_map[dev_map_idx].copp_idx, (char *)params_value, params_length); if (rc) { pr_err("%s: send dolby params failed rc %d\n", __func__, rc); rc = -EINVAL; } modified_param = ds2_ap_params_obj->dap_params_modified; if (modified_param == NULL) { pr_err("%s: modified param structure invalid\n", __func__); rc = -EINVAL; goto end; } if (msm_ds2_dap_check_is_param_modified(modified_param, endp_idx, 0)) ds2_ap_params_obj->dap_params_modified[endp_idx] = 0x00010001; end: kfree(params_value); return rc; } static int msm_ds2_dap_send_cached_params(int dev_map_idx, int commit) { int32_t *update_params_value = NULL, *params_value = NULL; uint32_t idx, i, j, ret = 0; uint32_t params_length = (TOTAL_LENGTH_DOLBY_PARAM + (MAX_DS2_PARAMS - 1) * DOLBY_PARAM_PAYLOAD_SIZE) * sizeof(uint32_t); int cache_device = 0; struct ds2_dap_params_s *ds2_ap_params_obj = NULL; int32_t *modified_param = NULL; if (dev_map_idx < 0 || dev_map_idx >= DS2_DEVICES_ALL) { pr_err("%s: invalid dev map index %d\n", __func__, dev_map_idx); ret = -EINVAL; goto end; } cache_device = dev_map[dev_map_idx].cache_dev; /* Use off profile cache in only for soft bypass */ if (ds2_dap_params_states.dap_bypass_type == DAP_SOFT_BYPASS && ds2_dap_params_states.dap_bypass == true) { pr_debug("%s: use bypass cache 0\n", __func__); cache_device = dev_map[0].cache_dev; } ds2_ap_params_obj = &ds2_dap_params[cache_device]; pr_debug("%s: cached param - %p %p, cache_device %d\n", __func__, &ds2_dap_params[cache_device], ds2_ap_params_obj, cache_device); params_value = kzalloc(params_length, GFP_KERNEL); if (!params_value) { pr_err("%s: params memory alloc failed\n", __func__); ret = -ENOMEM; goto end; } if (dev_map[dev_map_idx].port_id == DOLBY_INVALID_PORT_ID) { pr_err("%s: invalid port id\n", __func__); ret = -EINVAL; goto end; } if ((dev_map[dev_map_idx].copp_idx < 0) || (dev_map[dev_map_idx].copp_idx >= MAX_COPPS_PER_PORT)) { pr_err("%s: Invalid copp_idx\n", __func__); ret = -EINVAL; goto end; } update_params_value = params_value; params_length = 0; for (i = 0; i < (MAX_DS2_PARAMS-1); i++) { /*get the pointer to the param modified array in the cache*/ modified_param = ds2_ap_params_obj->dap_params_modified; if (modified_param == NULL) { pr_err("%s: modified param structure invalid\n", __func__); ret = -EINVAL; goto end; } if (!msm_ds2_dap_check_is_param_modified(modified_param, i, commit)) continue; *update_params_value++ = DOLBY_BUNDLE_MODULE_ID; *update_params_value++ = ds2_dap_params_id[i]; *update_params_value++ = ds2_dap_params_length[i] * sizeof(uint32_t); idx = ds2_dap_params_offset[i]; for (j = 0; j < ds2_dap_params_length[i]; j++) { *update_params_value++ = ds2_ap_params_obj->params_val[idx+j]; pr_debug("%s: id 0x%x,val %d\n", __func__, ds2_dap_params_id[i], ds2_ap_params_obj->params_val[idx+j]); } params_length += (DOLBY_PARAM_PAYLOAD_SIZE + ds2_dap_params_length[i]) * sizeof(uint32_t); } pr_debug("%s: valid param length: %d\n", __func__, params_length); if (params_length) { ret = adm_dolby_dap_send_params(dev_map[dev_map_idx].port_id, dev_map[dev_map_idx].copp_idx, (char *)params_value, params_length); if (ret) { pr_err("%s: send dolby params failed ret %d\n", __func__, ret); ret = -EINVAL; goto end; } for (i = 0; i < MAX_DS2_PARAMS-1; i++) { /*get pointer to the param modified array in the cache*/ modified_param = ds2_ap_params_obj->dap_params_modified; if (modified_param == NULL) { pr_err("%s: modified param struct invalid\n", __func__); ret = -EINVAL; goto end; } if (!msm_ds2_dap_check_is_param_modified( modified_param, i, commit)) continue; ds2_ap_params_obj->dap_params_modified[i] = 0x00010001; } } end: kfree(params_value); return ret; } static int msm_ds2_dap_commit_params(struct dolby_param_data *dolby_data, int commit) { int ret = 0, i, idx; struct ds2_dap_params_s *ds2_ap_params_obj = NULL; int32_t *modified_param = NULL; /* Do not commit params if in hard bypass */ if (ds2_dap_params_states.dap_bypass_type == DAP_HARD_BYPASS && ds2_dap_params_states.dap_bypass == true) { pr_debug("%s: called in bypass", __func__); ret = -EINVAL; goto end; } for (idx = 0; idx < MAX_DS2_PARAMS; idx++) { if (DOLBY_PARAM_ID_INIT_ENDP == ds2_dap_params_id[idx]) break; } if (idx >= MAX_DS2_PARAMS || idx < 0) { pr_err("%s: index of DS2 Param not found idx %d\n", __func__, idx); ret = -EINVAL; goto end; } pr_debug("%s: found endp - idx %d 0x%x\n", __func__, idx, ds2_dap_params_id[idx]); for (i = 0; i < DS2_DEVICES_ALL; i++) { pr_debug("%s:dev[0x%x,0x%x],i:%d,active:%d,bypass:%d,type:%d\n", __func__, dolby_data->device_id, dev_map[i].device_id, i, dev_map[i].active, ds2_dap_params_states.dap_bypass, ds2_dap_params_states.dap_bypass_type); if (((dev_map[i].device_id & ds2_dap_params_states.device) || ((ds2_dap_params_states.dap_bypass_type == DAP_SOFT_BYPASS) && (ds2_dap_params_states.dap_bypass == true))) && (dev_map[i].active == true)) { /*get ptr to the cache storing the params for device*/ if ((ds2_dap_params_states.dap_bypass_type == DAP_SOFT_BYPASS) && (ds2_dap_params_states.dap_bypass == true)) ds2_ap_params_obj = &ds2_dap_params[dev_map[0].cache_dev]; else ds2_ap_params_obj = &ds2_dap_params[dev_map[i].cache_dev]; /*get the pointer to the param modified array in cache*/ modified_param = ds2_ap_params_obj->dap_params_modified; if (modified_param == NULL) { pr_err("%s: modified_param NULL\n", __func__); ret = -EINVAL; goto end; } /* * Send the endp param if use cache is set * or if param is modified */ if (!commit || msm_ds2_dap_check_is_param_modified( modified_param, idx, commit)) { msm_ds2_dap_send_end_point(i, idx); commit = 0; } ret = msm_ds2_dap_send_cached_params(i, commit); if (ret < 0) { pr_err("%s: send cached param %d\n", __func__, ret); goto end; } } } end: return ret; } static int msm_ds2_dap_handle_commands(u32 cmd, void *arg) { int ret = 0, port_id = 0; int32_t data; struct dolby_param_data *dolby_data = (struct dolby_param_data *)arg; get_user(data, &dolby_data->data[0]); pr_debug("%s: param_id %d,be_id %d,device_id 0x%x,length %d,data %d\n", __func__, dolby_data->param_id, dolby_data->be_id, dolby_data->device_id, dolby_data->length, data); switch (dolby_data->param_id) { case DAP_CMD_COMMIT_ALL: msm_ds2_dap_commit_params(dolby_data, 0); break; case DAP_CMD_COMMIT_CHANGED: msm_ds2_dap_commit_params(dolby_data, 1); break; case DAP_CMD_USE_CACHE_FOR_INIT: ds2_dap_params_states.use_cache = data; break; case DAP_CMD_SET_BYPASS: pr_debug("%s: bypass %d bypass type %d, data %d\n", __func__, ds2_dap_params_states.dap_bypass, ds2_dap_params_states.dap_bypass_type, data); /* Do not perform bypass operation if bypass state is same*/ if (ds2_dap_params_states.dap_bypass == data) break; ds2_dap_params_states.dap_bypass = data; /* hard bypass */ if (ds2_dap_params_states.dap_bypass_type == DAP_HARD_BYPASS) msm_ds2_dap_handle_bypass(dolby_data); /* soft bypass */ msm_ds2_dap_commit_params(dolby_data, 0); break; case DAP_CMD_SET_BYPASS_TYPE: if (data == true) ds2_dap_params_states.dap_bypass_type = DAP_HARD_BYPASS; else ds2_dap_params_states.dap_bypass_type = DAP_SOFT_BYPASS; pr_debug("%s: bypass type %d", __func__, ds2_dap_params_states.dap_bypass_type); break; case DAP_CMD_SET_ACTIVE_DEVICE: pr_debug("%s: DAP_CMD_SET_ACTIVE_DEVICE length %d\n", __func__, dolby_data->length); /* TODO: need to handle multiple instance*/ ds2_dap_params_states.device |= dolby_data->device_id; port_id = msm_ds2_dap_get_port_id( dolby_data->device_id, dolby_data->be_id); pr_debug("%s: device id 0x%x all_dev 0x%x port_id %d\n", __func__, dolby_data->device_id, ds2_dap_params_states.device, port_id); msm_ds2_dap_update_dev_map_port_id(dolby_data->device_id, port_id); if (port_id == DOLBY_INVALID_PORT_ID) { pr_err("%s: invalid port id %d\n", __func__, port_id); ret = -EINVAL; goto end; } break; } end: return ret; } static int msm_ds2_dap_set_param(u32 cmd, void *arg) { int rc = 0, idx, i, j, off, port_id = 0, cdev = 0; int32_t num_device = 0; int32_t data = 0; int32_t dev_arr[DS2_DSP_SUPPORTED_ENDP_DEVICE] = {0}; struct dolby_param_data *dolby_data = (struct dolby_param_data *)arg; rc = msm_ds2_dap_update_num_devices(dolby_data, &num_device, dev_arr, DS2_DSP_SUPPORTED_ENDP_DEVICE); if (num_device == 0 || rc < 0) { pr_err("%s: num devices 0\n", __func__); rc = -EINVAL; goto end; } for (i = 0; i < num_device; i++) { port_id = msm_ds2_dap_get_port_id(dev_arr[i], dolby_data->be_id); if (port_id != DOLBY_INVALID_PORT_ID) msm_ds2_dap_update_dev_map_port_id(dev_arr[i], port_id); cdev = msm_ds2_dap_map_device_to_dolby_cache_devices( dev_arr[i]); if (cdev < 0 || cdev >= DOLBY_MAX_CACHE) { pr_err("%s: Invalide cache device %d for device 0x%x\n", __func__, cdev, dev_arr[i]); rc = -EINVAL; goto end; } pr_debug("%s:port:%d,be:%d,dev:0x%x,cdev:%d,param:0x%x,len:%d\n" , __func__, port_id, dolby_data->be_id, dev_arr[i], cdev, dolby_data->param_id, dolby_data->length); for (idx = 0; idx < MAX_DS2_PARAMS; idx++) { /*paramid from user space*/ if (dolby_data->param_id == ds2_dap_params_id[idx]) break; } if (idx > MAX_DS2_PARAMS-1) { pr_err("%s: invalid param id 0x%x at idx %d\n", __func__, dolby_data->param_id, idx); rc = -EINVAL; goto end; } /* cache the parameters */ ds2_dap_params[cdev].dap_params_modified[idx] += 1; for (j = 0; j < dolby_data->length; j++) { off = ds2_dap_params_offset[idx]; get_user(data, &dolby_data->data[j]); ds2_dap_params[cdev].params_val[off + j] = data; pr_debug("%s:off %d,val[i/p:o/p]-[%d / %d]\n", __func__, off, data, ds2_dap_params[cdev]. params_val[off + j]); } } end: return rc; } static int msm_ds2_dap_get_param(u32 cmd, void *arg) { int rc = 0, i, port_id = 0, copp_idx = -1; struct dolby_param_data *dolby_data = (struct dolby_param_data *)arg; int32_t *update_params_value = NULL, *params_value = NULL; uint32_t params_length = DOLBY_MAX_LENGTH_INDIVIDUAL_PARAM * sizeof(uint32_t); uint32_t param_payload_len = DOLBY_PARAM_PAYLOAD_SIZE * sizeof(uint32_t); /* Return error on get param in soft or hard bypass */ if (ds2_dap_params_states.dap_bypass == true) { pr_err("%s: called in bypass_type %d bypass %d\n", __func__, ds2_dap_params_states.dap_bypass_type, ds2_dap_params_states.dap_bypass); rc = -EINVAL; goto end; } for (i = 0; i < DS2_DEVICES_ALL; i++) { if ((dev_map[i].active) && (dev_map[i].device_id & dolby_data->device_id)) { port_id = dev_map[i].port_id; copp_idx = dev_map[i].copp_idx; break; } } if (port_id == DOLBY_INVALID_PORT_ID) { pr_err("%s: Invalid port\n", __func__); rc = -EINVAL; goto end; } if ((copp_idx < 0) || (copp_idx >= MAX_COPPS_PER_PORT)) { pr_err("%s: Invalid copp_idx\n", __func__); rc = -EINVAL; goto end; } pr_debug("%s: port_id 0x%x, copp_idx %d, dev_map[i].device_id %x\n", __func__, port_id, copp_idx, dev_map[i].device_id); params_value = kzalloc(params_length, GFP_KERNEL); if (!params_value) { pr_err("%s: params memory alloc failed\n", __func__); rc = -ENOMEM; goto end; } if (dolby_data->param_id == DOLBY_PARAM_ID_VER) { rc = adm_get_params(port_id, copp_idx, DOLBY_BUNDLE_MODULE_ID, DOLBY_PARAM_ID_VER, params_length + param_payload_len, (char *)params_value); } else { for (i = 0; i < MAX_DS2_PARAMS; i++) if (ds2_dap_params_id[i] == dolby_data->param_id) break; if (i > MAX_DS2_PARAMS-1) { pr_err("%s: invalid param id 0x%x at id %d\n", __func__, dolby_data->param_id, i); rc = -EINVAL; goto end; } else { params_length = (ds2_dap_params_length[i] + DOLBY_PARAM_PAYLOAD_SIZE) * sizeof(uint32_t); rc = adm_get_params(port_id, copp_idx, DOLBY_BUNDLE_MODULE_ID, ds2_dap_params_id[i], params_length + param_payload_len, (char *)params_value); } } if (rc) { pr_err("%s: get parameters failed rc %d\n", __func__, rc); rc = -EINVAL; goto end; } update_params_value = params_value; if (copy_to_user((void *)dolby_data->data, &update_params_value[DOLBY_PARAM_PAYLOAD_SIZE], (dolby_data->length * sizeof(uint32_t)))) { pr_err("%s: error getting param\n", __func__); rc = -EFAULT; goto end; } end: kfree(params_value); return rc; } static int msm_ds2_dap_param_visualizer_control_get(u32 cmd, void *arg) { int32_t *visualizer_data = NULL; int i = 0, ret = 0, port_id = -1, cache_dev = -1, copp_idx = -1; int32_t *update_visualizer_data = NULL; struct dolby_param_data *dolby_data = (struct dolby_param_data *)arg; uint32_t offset, length, params_length; uint32_t param_payload_len = DOLBY_PARAM_PAYLOAD_SIZE * sizeof(uint32_t); for (i = 0; i < DS2_DEVICES_ALL; i++) { if ((dev_map[i].active)) { port_id = dev_map[i].port_id; cache_dev = dev_map[i].cache_dev; copp_idx = dev_map[i].copp_idx; break; } } if (port_id == DOLBY_INVALID_PORT_ID || (copp_idx < 0) || (copp_idx >= MAX_COPPS_PER_PORT)) { ret = 0; dolby_data->length = 0; pr_err("%s: no device active\n", __func__); goto end; } length = ds2_dap_params[cache_dev].params_val[DOLBY_PARAM_VCNB_OFFSET]; params_length = (2*length + DOLBY_VIS_PARAM_HEADER_SIZE) * sizeof(uint32_t); visualizer_data = kzalloc(params_length, GFP_KERNEL); if (!visualizer_data) { pr_err("%s: params memory alloc failed\n", __func__); ret = -ENOMEM; dolby_data->length = 0; goto end; } memset(visualizer_data, 0x0, params_length); /* Return error on get param in soft or hard bypass */ if (ds2_dap_params_states.dap_bypass == true) { pr_debug("%s: visualizer called in bypass, return 0\n", __func__); ret = 0; dolby_data->length = 0; goto end; } offset = 0; params_length = length * sizeof(uint32_t); ret = adm_get_params(port_id, copp_idx, DOLBY_BUNDLE_MODULE_ID, DOLBY_PARAM_ID_VCBG, params_length + param_payload_len, (((char *)(visualizer_data)) + offset)); if (ret) { pr_err("%s: get parameters failed ret %d\n", __func__, ret); ret = -EINVAL; dolby_data->length = 0; goto end; } offset = length * sizeof(uint32_t); ret = adm_get_params(port_id, copp_idx, DOLBY_BUNDLE_MODULE_ID, DOLBY_PARAM_ID_VCBE, params_length + param_payload_len, (((char *)(visualizer_data)) + offset)); if (ret) { pr_err("%s: get parameters failed ret %d\n", __func__, ret); ret = -EINVAL; dolby_data->length = 0; goto end; } update_visualizer_data = visualizer_data; dolby_data->length = 2 * length; if (copy_to_user((void *)dolby_data->data, (void *)update_visualizer_data, (dolby_data->length * sizeof(uint32_t)))) { pr_err("%s: copy to user failed for data\n", __func__); dolby_data->length = 0; ret = -EFAULT; goto end; } end: kfree(visualizer_data); return ret; } int msm_ds2_dap_set_security_control(u32 cmd, void *arg) { struct dolby_param_license *dolby_license = ((struct dolby_param_license *)arg); pr_debug("%s: dmid %d license key %d\n", __func__, dolby_license->dmid, dolby_license->license_key); core_set_dolby_manufacturer_id(dolby_license->dmid); core_set_license(dolby_license->license_key, DOLBY_DS1_LICENSE_ID); return 0; } int msm_ds2_dap_update_port_parameters(struct snd_hwdep *hw, struct file *file, bool open) { int i = 0, dev_id = 0; pr_debug("%s: open %d\n", __func__, open); ds2_dap_params_states.node_opened = open; ds2_dap_params_states.dap_bypass = true; ds2_dap_params_states.dap_bypass_type = 0; ds2_dap_params_states.use_cache = 0; ds2_dap_params_states.device = 0; ds2_dap_params_states.custom_stereo_onoff = 0; for (i = 0; i < DS2_DEVICES_ALL; i++) { if (i == 0) dev_map[i].device_id = 0; else { dev_id = (1 << (i-1)); if (all_supported_devices & dev_id) dev_map[i].device_id = dev_id; else continue; } dev_map[i].cache_dev = msm_ds2_dap_map_device_to_dolby_cache_devices( dev_map[i].device_id); if (dev_map[i].cache_dev < 0 || dev_map[i].cache_dev >= DOLBY_MAX_CACHE) pr_err("%s: Invalide cache device %d for device 0x%x\n", __func__, dev_map[i].cache_dev, dev_map[i].device_id); dev_map[i].port_id = -1; dev_map[i].active = false; dev_map[i].stream_ref_count = 0; dev_map[i].cal_data = NULL; dev_map[i].copp_idx = -1; pr_debug("%s: device_id 0x%x, cache_dev %d act %d\n", __func__, dev_map[i].device_id, dev_map[i].cache_dev, dev_map[i].active); } return 0; } int msm_ds2_dap_ioctl_shared(struct snd_hwdep *hw, struct file *file, u32 cmd, void *arg) { int ret = 0; pr_debug("%s: cmd: 0x%x\n", __func__, cmd); switch (cmd) { case SNDRV_DEVDEP_DAP_IOCTL_SET_PARAM: ret = msm_ds2_dap_set_param(cmd, arg); break; case SNDRV_DEVDEP_DAP_IOCTL_GET_PARAM: ret = msm_ds2_dap_get_param(cmd, arg); break; case SNDRV_DEVDEP_DAP_IOCTL_DAP_COMMAND: ret = msm_ds2_dap_handle_commands(cmd, arg); break; case SNDRV_DEVDEP_DAP_IOCTL_DAP_LICENSE: ret = msm_ds2_dap_set_security_control(cmd, arg); break; case SNDRV_DEVDEP_DAP_IOCTL_GET_VISUALIZER: ret = msm_ds2_dap_param_visualizer_control_get(cmd, arg); break; default: pr_err("%s: called with invalid control 0x%x\n", __func__, cmd); ret = -EINVAL; } return ret; } int msm_ds2_dap_ioctl(struct snd_hwdep *hw, struct file *file, u32 cmd, void *arg) { int ret = 0; pr_debug("%s: cmd: 0x%x\n", __func__, cmd); if (!arg) { pr_err("%s: Invalid params event status\n", __func__); ret = -EINVAL; goto end; } switch (cmd) { case SNDRV_DEVDEP_DAP_IOCTL_SET_PARAM: case SNDRV_DEVDEP_DAP_IOCTL_DAP_COMMAND: { struct dolby_param_data dolby_data; if (copy_from_user((void *)&dolby_data, (void *)arg, sizeof(struct dolby_param_data))) { pr_err("%s: Copy from user failed\n", __func__); ret = -EFAULT; goto end; } ret = msm_ds2_dap_ioctl_shared(hw, file, cmd, &dolby_data); break; } case SNDRV_DEVDEP_DAP_IOCTL_DAP_LICENSE: { struct dolby_param_license dolby_license; if (copy_from_user((void *)&dolby_license, (void *)arg, sizeof(struct dolby_param_license))) { pr_err("%s: Copy from user failed\n", __func__); ret = -EFAULT; goto end; } ret = msm_ds2_dap_ioctl_shared(hw, file, cmd, &dolby_license); break; } case SNDRV_DEVDEP_DAP_IOCTL_GET_PARAM: case SNDRV_DEVDEP_DAP_IOCTL_GET_VISUALIZER: { struct dolby_param_data dolby_data; if (copy_from_user((void *)&dolby_data, (void *)arg, sizeof(struct dolby_param_data))) { pr_err("%s: Copy from user failed\n", __func__); ret = -EFAULT; goto end; } ret = msm_ds2_dap_ioctl_shared(hw, file, cmd, &dolby_data); if (ret < 0) pr_err("%s: ioctl cmd %d returned err %d\n", __func__, cmd, ret); if (copy_to_user((void *)arg, &dolby_data, sizeof(struct dolby_param_data))) { pr_err("%s: Copy to user failed\n", __func__); ret = -EFAULT; goto end; } break; } default: pr_err("%s: called with invalid control 0x%x\n", __func__, cmd); ret = -EINVAL; } end: return ret; } #ifdef CONFIG_COMPAT int msm_ds2_dap_compat_ioctl(struct snd_hwdep *hw, struct file *file, u32 cmd, void *arg) { int ret = 0; pr_debug("%s: cmd: 0x%x\n", __func__, cmd); switch (cmd) { case SNDRV_DEVDEP_DAP_IOCTL_SET_PARAM32: cmd = SNDRV_DEVDEP_DAP_IOCTL_SET_PARAM; goto handle_set_ioctl; case SNDRV_DEVDEP_DAP_IOCTL_DAP_COMMAND32: cmd = SNDRV_DEVDEP_DAP_IOCTL_DAP_COMMAND; handle_set_ioctl: { struct dolby_param_data32 dolby_data32; struct dolby_param_data dolby_data; memset(&dolby_data32, 0, sizeof(dolby_data32)); memset(&dolby_data, 0, sizeof(dolby_data)); if (copy_from_user(&dolby_data32, (void *)arg, sizeof(struct dolby_param_data32))) { pr_err("%s: Copy from user failed\n", __func__); ret = -EFAULT; goto end; } dolby_data.version = dolby_data32.version; dolby_data.device_id = dolby_data32.device_id; dolby_data.be_id = dolby_data32.be_id; dolby_data.param_id = dolby_data32.param_id; dolby_data.length = dolby_data32.length; dolby_data.data = compat_ptr(dolby_data32.data); ret = msm_ds2_dap_ioctl_shared(hw, file, cmd, &dolby_data); break; } case SNDRV_DEVDEP_DAP_IOCTL_GET_PARAM32: cmd = SNDRV_DEVDEP_DAP_IOCTL_GET_PARAM; goto handle_get_ioctl; case SNDRV_DEVDEP_DAP_IOCTL_GET_VISUALIZER32: cmd = SNDRV_DEVDEP_DAP_IOCTL_GET_VISUALIZER; handle_get_ioctl: { struct dolby_param_data32 dolby_data32; struct dolby_param_data dolby_data; memset(&dolby_data32, 0, sizeof(dolby_data32)); memset(&dolby_data, 0, sizeof(dolby_data)); if (copy_from_user(&dolby_data32, (void *)arg, sizeof(struct dolby_param_data32))) { pr_err("%s: Copy from user failed\n", __func__); ret = -EFAULT; goto end; } dolby_data.version = dolby_data32.version; dolby_data.device_id = dolby_data32.device_id; dolby_data.be_id = dolby_data32.be_id; dolby_data.param_id = dolby_data32.param_id; dolby_data.length = dolby_data32.length; dolby_data.data = compat_ptr(dolby_data32.data); ret = msm_ds2_dap_ioctl_shared(hw, file, cmd, &dolby_data); if (ret < 0) pr_err("%s: ioctl cmd %d, returned err %d\n", __func__, cmd, ret); dolby_data32.length = dolby_data.length; if (copy_to_user((void *)arg, &dolby_data32, sizeof(struct dolby_param_data32))) { pr_err("%s: Copy to user failed\n", __func__); ret = -EFAULT; goto end; } break; } case SNDRV_DEVDEP_DAP_IOCTL_DAP_LICENSE32: { struct dolby_param_license32 dolby_license32; struct dolby_param_license dolby_license; cmd = SNDRV_DEVDEP_DAP_IOCTL_DAP_LICENSE; if (copy_from_user((void *)&dolby_license32, (void *)arg, sizeof(struct dolby_param_license32))) { pr_err("%s: Copy from user failed\n", __func__); ret = -EFAULT; goto end; } dolby_license.dmid = dolby_license32.dmid; dolby_license.license_key = dolby_license32.license_key; ret = msm_ds2_dap_ioctl_shared(hw, file, cmd, &dolby_license); break; } default: pr_err("%s: called with invalid control 0x%x\n", __func__, cmd); ret = -EINVAL; } end: return ret; } #endif int msm_ds2_dap_init(int port_id, int copp_idx, int channels, bool is_custom_stereo_on) { int ret = 0, idx = -1, i; struct dolby_param_data dolby_data; struct audproc_softvolume_params softvol = { .period = DOLBY_SOFT_VOLUME_PERIOD, .step = DOLBY_SOFT_VOLUME_STEP, .rampingcurve = DOLBY_SOFT_VOLUME_CURVE_EXP, }; pr_debug("%s: port id %d, copp_idx %d\n", __func__, port_id, copp_idx); if (port_id != DOLBY_INVALID_PORT_ID) { for (i = 0; i < DS2_DEVICES_ALL; i++) { if ((dev_map[i].port_id == port_id) && /* device part of active device */ (dev_map[i].device_id & ds2_dap_params_states.device)) { idx = i; /* Give priority to headset in case of combo device */ if (dev_map[i].device_id == SPEAKER) continue; else break; } } if (idx < 0) { pr_err("%s: invalid index for port %d\n", __func__, port_id); ret = -EINVAL; goto end; } pr_debug("%s:index %d, dev[0x%x,0x%x]\n", __func__, idx, dev_map[idx].device_id, ds2_dap_params_states.device); dev_map[idx].active = true; dev_map[idx].copp_idx = copp_idx; dolby_data.param_id = DOLBY_COMMIT_ALL_TO_DSP; dolby_data.length = 0; dolby_data.data = NULL; dolby_data.device_id = dev_map[idx].device_id; pr_debug("%s: idx %d, active %d, dev id 0x%x, ref count %d\n", __func__, idx, dev_map[idx].active, dev_map[idx].device_id, dev_map[idx].stream_ref_count); if (dev_map[idx].stream_ref_count == 0) { /*perform next 3 func only if hard bypass enabled*/ if (ds2_dap_params_states.dap_bypass_type == DAP_HARD_BYPASS) { ret = msm_ds2_dap_alloc_and_store_cal_data(idx, ADM_PATH_PLAYBACK, 0); if (ret < 0) { pr_err("%s: Failed to alloc and store cal data for idx %d, device %d, copp_idx %d", __func__, idx, dev_map[idx].device_id, dev_map[idx].copp_idx); dev_map[idx].active = false; dev_map[idx].copp_idx = -1; goto end; } ret = adm_set_softvolume(port_id, copp_idx, &softvol); if (ret < 0) { pr_err("%s: Soft volume ret error %d\n", __func__, ret); dev_map[idx].active = false; dev_map[idx].copp_idx = -1; goto end; } ret = msm_ds2_dap_init_modules_in_topology( idx); if (ret < 0) { pr_err("%s: Failed to init modules in topolofy for idx %d, device %d, copp_idx %d\n", __func__, idx, dev_map[idx].device_id, dev_map[idx].copp_idx); dev_map[idx].active = false; dev_map[idx].copp_idx = -1; goto end; } } ret = msm_ds2_dap_commit_params(&dolby_data, 0); if (ret < 0) { pr_debug("%s: commit params ret %d\n", __func__, ret); ret = 0; } } dev_map[idx].stream_ref_count++; if (is_custom_stereo_on) { ds2_dap_params_states.custom_stereo_onoff = is_custom_stereo_on; set_custom_stereo_onoff(idx, is_custom_stereo_on); } } end: return ret; } void msm_ds2_dap_deinit(int port_id) { /* * Get the active port corrresponding to the active device * Check if this is same as incoming port * Set it to invalid */ int idx = -1, i; pr_debug("%s: port_id %d\n", __func__, port_id); if (port_id != DOLBY_INVALID_PORT_ID) { for (i = 0; i < DS2_DEVICES_ALL; i++) { /* Active port */ if ((dev_map[i].port_id == port_id) && /* device part of active device */ (dev_map[i].device_id & ds2_dap_params_states.device) && /* * Need this check to avoid race condition of * active device being set and playback * instance opened */ /* active device*/ dev_map[i].active) { idx = i; if (dev_map[i].device_id == SPEAKER) continue; else break; } } if (idx < 0) { pr_err("%s: invalid index for port %d\n", __func__, port_id); return; } pr_debug("%s:index %d, dev [0x%x, 0x%x]\n", __func__, idx, dev_map[idx].device_id, ds2_dap_params_states.device); dev_map[idx].stream_ref_count--; if (dev_map[idx].stream_ref_count == 0) { /*perform next func only if hard bypass enabled*/ if (ds2_dap_params_states.dap_bypass_type == DAP_HARD_BYPASS) { msm_ds2_dap_free_cal_data(idx); } ds2_dap_params_states.device &= ~dev_map[idx].device_id; dev_map[idx].active = false; dev_map[idx].copp_idx = -1; } pr_debug("%s:idx %d, active %d, dev id 0x%x ref count %d\n", __func__, idx, dev_map[idx].active, dev_map[idx].device_id, dev_map[idx].stream_ref_count); } } int msm_ds2_dap_set_custom_stereo_onoff(int port_id, int copp_idx, bool is_custom_stereo_enabled) { int idx = -1, rc = 0, i; pr_debug("%s: port_id %d\n", __func__, port_id); if (port_id != DOLBY_INVALID_PORT_ID) { for (i = 0; i < DS2_DEVICES_ALL; i++) { if ((dev_map[i].port_id == port_id) && /* device part of active device */ (dev_map[i].device_id & ds2_dap_params_states.device)) { idx = i; if (dev_map[i].device_id == SPEAKER) continue; else break; } } if (idx < 0) { pr_err("%s: invalid index for port %d\n", __func__, port_id); return rc; } ds2_dap_params_states.custom_stereo_onoff = is_custom_stereo_enabled; rc = set_custom_stereo_onoff(idx, is_custom_stereo_enabled); if (rc < 0) { pr_err("%s: Custom stereo err %d on port %d\n", __func__, rc, port_id); } } return rc; } #else static int msm_ds2_dap_alloc_and_store_cal_data(int dev_map_idx, int path, int perf_mode) { return 0; } static int msm_ds2_dap_free_cal_data(int dev_map_idx) { return 0; } static int msm_ds2_dap_send_cal_data(int dev_map_idx) { return 0; } static int msm_ds2_dap_can_enable_module(int32_t module_id) { return 0; } static int msm_ds2_dap_init_modules_in_topology(int dev_map_idx) { return 0; } static bool msm_ds2_dap_check_is_param_modified(int32_t *dap_params_modified, int32_t idx, int32_t commit) { return false; } static int msm_ds2_dap_map_device_to_dolby_cache_devices(int32_t device_id) { return 0; } static int msm_ds2_dap_update_num_devices(struct dolby_param_data *dolby_data, int32_t *num_device, int32_t *dev_arr, int32_t array_size) { return 0; } static int msm_ds2_dap_commit_params(struct dolby_param_data *dolby_data, int commit) { return 0; } static int msm_ds2_dap_handle_commands(u32 cmd, void *arg) { return 0; } static int msm_ds2_dap_set_param(u32 cmd, void *arg) { return 0; } static int msm_ds2_dap_get_param(u32 cmd, void *arg) { return 0; } static int msm_ds2_dap_send_end_point(int dev_map_idx, int endp_idx) { return 0; } static int msm_ds2_dap_send_cached_params(int dev_map_idx, int commit) { return 0; } static int msm_ds2_dap_set_vspe_vdhe(int dev_map_idx, bool is_custom_stereo_enabled) { return 0; } static int msm_ds2_dap_param_visualizer_control_get( u32 cmd, void *arg, struct msm_pcm_routing_bdai_data *bedais) { return 0; } static int msm_ds2_dap_set_security_control(u32 cmd, void *arg) { return 0 } static int msm_ds2_dap_update_dev_map_port_id(int32_t device_id, int port_id) { return 0; } static int32_t msm_ds2_dap_get_port_id( int32_t device_id, int32_t be_id) { return 0; } static int msm_ds2_dap_handle_bypass(struct dolby_param_data *dolby_data) { return 0; } static int msm_ds2_dap_handle_bypass_wait(int port_id, int copp_idx, int wait_time) { return 0; } static int dap_set_custom_stereo_onoff(int dev_map_idx, bool is_custom_stereo_enabled) { return 0; } int qti_set_custom_stereo_on(int port_id, int copp_idx, bool is_custom_stereo_on) { return 0; } int set_custom_stereo_onoff(int dev_map_idx, bool is_custom_stereo_enabled) { return 0; } int msm_ds2_dap_ioctl_shared(struct snd_hwdep *hw, struct file *file, u32 cmd, void *arg) { return 0; } #endif /*CONFIG_DOLBY_DS2*/