/* Copyright (c) 2012-2013, 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 #include #include #include #include #include #include #include #include #include "audio_acdb.h" #ifndef CONFIG_RTAC void rtac_add_adm_device(u32 port_id, u32 copp_id, u32 path_id, u32 popp_id) {} void rtac_remove_adm_device(u32 port_id) {} void rtac_remove_popp_from_adm_devices(u32 popp_id) {} void rtac_set_adm_handle(void *handle) {} bool rtac_make_adm_callback(uint32_t *payload, u32 payload_size) {return false; } void rtac_set_asm_handle(u32 session_id, void *handle) {} bool rtac_make_asm_callback(u32 session_id, uint32_t *payload, u32 payload_size) {return false; } void rtac_add_voice(u32 cvs_handle, u32 cvp_handle, u32 rx_afe_port, u32 tx_afe_port, u32 session_id) {} void rtac_remove_voice(u32 cvs_handle) {} void rtac_set_voice_handle(u32 mode, void *handle) {} bool rtac_make_voice_callback(u32 mode, uint32_t *payload, u32 payload_size) {return false; } #else /* Max size of payload (buf size - apr header) */ #define MAX_PAYLOAD_SIZE 4076 #define RTAC_MAX_ACTIVE_DEVICES 4 #define RTAC_MAX_ACTIVE_VOICE_COMBOS 2 #define RTAC_MAX_ACTIVE_POPP 8 #define RTAC_BUF_SIZE 4096 #define TIMEOUT_MS 1000 /* APR data */ struct rtac_apr_data { void *apr_handle; atomic_t cmd_state; wait_queue_head_t cmd_wait; }; static struct rtac_apr_data rtac_adm_apr_data; static struct rtac_apr_data rtac_asm_apr_data[SESSION_MAX+1]; static struct rtac_apr_data rtac_voice_apr_data[RTAC_VOICE_MODES]; /* ADM info & APR */ struct rtac_adm_data { uint32_t topology_id; uint32_t afe_port; uint32_t copp; uint32_t num_of_popp; uint32_t popp[RTAC_MAX_ACTIVE_POPP]; }; struct rtac_adm { uint32_t num_of_dev; struct rtac_adm_data device[RTAC_MAX_ACTIVE_DEVICES]; }; static struct rtac_adm rtac_adm_data; static u32 rtac_adm_payload_size; static u32 rtac_adm_user_buf_size; static u8 *rtac_adm_buffer; /* ASM APR */ static u32 rtac_asm_payload_size; static u32 rtac_asm_user_buf_size; static u8 *rtac_asm_buffer; /* Voice info & APR */ struct rtac_voice_data { uint32_t tx_topology_id; uint32_t rx_topology_id; uint32_t tx_afe_port; uint32_t rx_afe_port; uint16_t cvs_handle; uint16_t cvp_handle; }; struct rtac_voice { uint32_t num_of_voice_combos; struct rtac_voice_data voice[RTAC_MAX_ACTIVE_VOICE_COMBOS]; }; static struct rtac_voice rtac_voice_data; static u32 rtac_voice_payload_size; static u32 rtac_voice_user_buf_size; static u8 *rtac_voice_buffer; static u32 voice_session_id[RTAC_MAX_ACTIVE_VOICE_COMBOS]; struct mutex rtac_adm_mutex; struct mutex rtac_adm_apr_mutex; struct mutex rtac_asm_apr_mutex; struct mutex rtac_voice_mutex; struct mutex rtac_voice_apr_mutex; static int rtac_open(struct inode *inode, struct file *f) { pr_debug("%s\n", __func__); return 0; } static int rtac_release(struct inode *inode, struct file *f) { pr_debug("%s\n", __func__); return 0; } /* ADM Info */ void add_popp(u32 dev_idx, u32 port_id, u32 popp_id) { u32 i = 0; for (; i < rtac_adm_data.device[dev_idx].num_of_popp; i++) if (rtac_adm_data.device[dev_idx].popp[i] == popp_id) goto done; if (rtac_adm_data.device[dev_idx].num_of_popp == RTAC_MAX_ACTIVE_POPP) { pr_err("%s, Max POPP!\n", __func__); goto done; } rtac_adm_data.device[dev_idx].popp[ rtac_adm_data.device[dev_idx].num_of_popp++] = popp_id; done: return; } void rtac_add_adm_device(u32 port_id, u32 copp_id, u32 path_id, u32 popp_id) { u32 i = 0; pr_debug("%s: port_id = %d, popp_id = %d\n", __func__, port_id, popp_id); mutex_lock(&rtac_adm_mutex); if (rtac_adm_data.num_of_dev == RTAC_MAX_ACTIVE_DEVICES) { pr_err("%s, Can't add anymore RTAC devices!\n", __func__); goto done; } /* Check if device already added */ if (rtac_adm_data.num_of_dev != 0) { for (; i < rtac_adm_data.num_of_dev; i++) { if (rtac_adm_data.device[i].afe_port == port_id) { add_popp(i, port_id, popp_id); goto done; } if (rtac_adm_data.device[i].num_of_popp == RTAC_MAX_ACTIVE_POPP) { pr_err("%s, Max POPP!\n", __func__); goto done; } } } /* Add device */ rtac_adm_data.num_of_dev++; if (path_id == ADM_PATH_PLAYBACK) rtac_adm_data.device[i].topology_id = get_adm_rx_topology(); else rtac_adm_data.device[i].topology_id = get_adm_tx_topology(); rtac_adm_data.device[i].afe_port = port_id; rtac_adm_data.device[i].copp = copp_id; rtac_adm_data.device[i].popp[ rtac_adm_data.device[i].num_of_popp++] = popp_id; done: mutex_unlock(&rtac_adm_mutex); return; } static void shift_adm_devices(u32 dev_idx) { for (; dev_idx < rtac_adm_data.num_of_dev; dev_idx++) { memcpy(&rtac_adm_data.device[dev_idx], &rtac_adm_data.device[dev_idx + 1], sizeof(rtac_adm_data.device[dev_idx])); memset(&rtac_adm_data.device[dev_idx + 1], 0, sizeof(rtac_adm_data.device[dev_idx])); } } static void shift_popp(u32 copp_idx, u32 popp_idx) { for (; popp_idx < rtac_adm_data.device[copp_idx].num_of_popp; popp_idx++) { memcpy(&rtac_adm_data.device[copp_idx].popp[popp_idx], &rtac_adm_data.device[copp_idx].popp[popp_idx + 1], sizeof(uint32_t)); memset(&rtac_adm_data.device[copp_idx].popp[popp_idx + 1], 0, sizeof(uint32_t)); } } void rtac_remove_adm_device(u32 port_id) { s32 i; pr_debug("%s: port_id = %d\n", __func__, port_id); mutex_lock(&rtac_adm_mutex); /* look for device */ for (i = 0; i < rtac_adm_data.num_of_dev; i++) { if (rtac_adm_data.device[i].afe_port == port_id) { memset(&rtac_adm_data.device[i], 0, sizeof(rtac_adm_data.device[i])); rtac_adm_data.num_of_dev--; if (rtac_adm_data.num_of_dev >= 1) { shift_adm_devices(i); break; } } } mutex_unlock(&rtac_adm_mutex); return; } void rtac_remove_popp_from_adm_devices(u32 popp_id) { s32 i, j; pr_debug("%s: popp_id = %d\n", __func__, popp_id); mutex_lock(&rtac_adm_mutex); for (i = 0; i < rtac_adm_data.num_of_dev; i++) { for (j = 0; j < rtac_adm_data.device[i].num_of_popp; j++) { if (rtac_adm_data.device[i].popp[j] == popp_id) { rtac_adm_data.device[i].popp[j] = 0; rtac_adm_data.device[i].num_of_popp--; shift_popp(i, j); } } } mutex_unlock(&rtac_adm_mutex); } /* Voice Info */ static void set_rtac_voice_data(int idx, u32 cvs_handle, u32 cvp_handle, u32 rx_afe_port, u32 tx_afe_port, u32 session_id) { rtac_voice_data.voice[idx].tx_topology_id = get_voice_tx_topology(); rtac_voice_data.voice[idx].rx_topology_id = get_voice_rx_topology(); rtac_voice_data.voice[idx].tx_afe_port = tx_afe_port; rtac_voice_data.voice[idx].rx_afe_port = rx_afe_port; rtac_voice_data.voice[idx].cvs_handle = cvs_handle; rtac_voice_data.voice[idx].cvp_handle = cvp_handle; /* Store session ID for voice RTAC */ voice_session_id[idx] = session_id; } void rtac_add_voice(u32 cvs_handle, u32 cvp_handle, u32 rx_afe_port, u32 tx_afe_port, u32 session_id) { u32 i = 0; pr_debug("%s\n", __func__); mutex_lock(&rtac_voice_mutex); if (rtac_voice_data.num_of_voice_combos == RTAC_MAX_ACTIVE_VOICE_COMBOS) { pr_err("%s, Can't add anymore RTAC devices!\n", __func__); goto done; } /* Check if device already added */ if (rtac_voice_data.num_of_voice_combos != 0) { for (; i < rtac_voice_data.num_of_voice_combos; i++) { if (rtac_voice_data.voice[i].cvs_handle == cvs_handle) { set_rtac_voice_data(i, cvs_handle, cvp_handle, rx_afe_port, tx_afe_port, session_id); goto done; } } } /* Add device */ rtac_voice_data.num_of_voice_combos++; set_rtac_voice_data(i, cvs_handle, cvp_handle, rx_afe_port, tx_afe_port, session_id); done: mutex_unlock(&rtac_voice_mutex); return; } static void shift_voice_devices(u32 idx) { for (; idx < rtac_voice_data.num_of_voice_combos - 1; idx++) { memcpy(&rtac_voice_data.voice[idx], &rtac_voice_data.voice[idx + 1], sizeof(rtac_voice_data.voice[idx])); voice_session_id[idx] = voice_session_id[idx + 1]; } } void rtac_remove_voice(u32 cvs_handle) { u32 i = 0; pr_debug("%s\n", __func__); mutex_lock(&rtac_voice_mutex); /* look for device */ for (i = 0; i < rtac_voice_data.num_of_voice_combos; i++) { if (rtac_voice_data.voice[i].cvs_handle == cvs_handle) { shift_voice_devices(i); rtac_voice_data.num_of_voice_combos--; memset(&rtac_voice_data.voice[ rtac_voice_data.num_of_voice_combos], 0, sizeof(rtac_voice_data.voice [rtac_voice_data.num_of_voice_combos])); voice_session_id[rtac_voice_data.num_of_voice_combos] = 0; break; } } mutex_unlock(&rtac_voice_mutex); return; } static u32 get_voice_session_id_cvs(u32 cvs_handle) { u32 i; for (i = 0; i < rtac_voice_data.num_of_voice_combos; i++) { if (rtac_voice_data.voice[i].cvs_handle == cvs_handle) return voice_session_id[i]; } pr_err("%s: No voice index for CVS handle %d found returning 0\n", __func__, cvs_handle); return 0; } static u32 get_voice_session_id_cvp(u32 cvp_handle) { u32 i; for (i = 0; i < rtac_voice_data.num_of_voice_combos; i++) { if (rtac_voice_data.voice[i].cvp_handle == cvp_handle) return voice_session_id[i]; } pr_err("%s: No voice index for CVP handle %d found returning 0\n", __func__, cvp_handle); return 0; } static int get_voice_index(u32 mode, u32 handle) { if (mode == RTAC_CVP) return voice_get_idx_for_session( get_voice_session_id_cvp(handle)); if (mode == RTAC_CVS) return voice_get_idx_for_session( get_voice_session_id_cvs(handle)); pr_err("%s: Invalid mode %d, returning 0\n", __func__, mode); return 0; } /* ADM APR */ void rtac_set_adm_handle(void *handle) { pr_debug("%s: handle = %d\n", __func__, (unsigned int)handle); mutex_lock(&rtac_adm_apr_mutex); rtac_adm_apr_data.apr_handle = handle; mutex_unlock(&rtac_adm_apr_mutex); } bool rtac_make_adm_callback(uint32_t *payload, u32 payload_size) { pr_debug("%s:cmd_state = %d\n", __func__, atomic_read(&rtac_adm_apr_data.cmd_state)); if (atomic_read(&rtac_adm_apr_data.cmd_state) != 1) return false; /* Offset data for in-band payload */ rtac_copy_adm_payload_to_user(payload, payload_size); atomic_set(&rtac_adm_apr_data.cmd_state, 0); wake_up(&rtac_adm_apr_data.cmd_wait); return true; } void rtac_copy_adm_payload_to_user(void *payload, u32 payload_size) { pr_debug("%s\n", __func__); rtac_adm_payload_size = payload_size; memcpy(rtac_adm_buffer, &payload_size, sizeof(u32)); if (payload_size != 0) { if (payload_size > rtac_adm_user_buf_size) { pr_err("%s: Buffer set not big enough for returned data, buf size = %d, ret data = %d\n", __func__, rtac_adm_user_buf_size, payload_size); rtac_adm_payload_size = 0; goto done; } memcpy(rtac_adm_buffer + sizeof(u32), payload, payload_size); } done: return; } u32 send_adm_apr(void *buf, u32 opcode) { s32 result; u32 count = 0; u32 bytes_returned = 0; u32 port_index = 0; u32 copp_id; u32 payload_size; struct apr_hdr adm_params; pr_debug("%s\n", __func__); if (copy_from_user(&count, (void *)buf, sizeof(count))) { pr_err("%s: Copy to user failed! buf = 0x%x\n", __func__, (unsigned int)buf); result = -EFAULT; goto done; } if (count <= 0) { pr_err("%s: Invalid buffer size = %d\n", __func__, count); goto done; } if (copy_from_user(&payload_size, buf + sizeof(u32), sizeof(u32))) { pr_err("%s: Could not copy payload size from user buffer\n", __func__); goto done; } if (payload_size > MAX_PAYLOAD_SIZE) { pr_err("%s: Invalid payload size = %d\n", __func__, payload_size); goto done; } if (copy_from_user(&copp_id, buf + 2 * sizeof(u32), sizeof(u32))) { pr_err("%s: Could not copy port id from user buffer\n", __func__); goto done; } for (port_index = 0; port_index < AFE_MAX_PORTS; port_index++) { if (adm_get_copp_id(port_index) == copp_id) break; } if (port_index >= AFE_MAX_PORTS) { pr_err("%s: Could not find port index for copp = %d\n", __func__, copp_id); goto done; } mutex_lock(&rtac_adm_apr_mutex); if (rtac_adm_apr_data.apr_handle == NULL) { pr_err("%s: APR not initialized\n", __func__); goto err; } /* Set globals for copy of returned payload */ rtac_adm_user_buf_size = count; /* Copy buffer to in-band payload */ if (copy_from_user(rtac_adm_buffer + sizeof(adm_params), buf + 3 * sizeof(u32), payload_size)) { pr_err("%s: Could not copy payload from user buffer\n", __func__); goto err; } /* Pack header */ adm_params.hdr_field = APR_HDR_FIELD(APR_MSG_TYPE_SEQ_CMD, APR_HDR_LEN(20), APR_PKT_VER); adm_params.pkt_size = APR_PKT_SIZE(APR_HDR_SIZE, payload_size); adm_params.src_svc = APR_SVC_ADM; adm_params.src_domain = APR_DOMAIN_APPS; adm_params.src_port = copp_id; adm_params.dest_svc = APR_SVC_ADM; adm_params.dest_domain = APR_DOMAIN_ADSP; adm_params.dest_port = copp_id; adm_params.token = copp_id; adm_params.opcode = opcode; memcpy(rtac_adm_buffer, &adm_params, sizeof(adm_params)); atomic_set(&rtac_adm_apr_data.cmd_state, 1); pr_debug("%s: Sending RTAC command size = %d\n", __func__, adm_params.pkt_size); result = apr_send_pkt(rtac_adm_apr_data.apr_handle, (uint32_t *)rtac_adm_buffer); if (result < 0) { pr_err("%s: Set params failed port = %d, copp = %d\n", __func__, port_index, copp_id); goto err; } /* Wait for the callback */ result = wait_event_timeout(rtac_adm_apr_data.cmd_wait, (atomic_read(&rtac_adm_apr_data.cmd_state) == 0), msecs_to_jiffies(TIMEOUT_MS)); mutex_unlock(&rtac_adm_apr_mutex); if (!result) { pr_err("%s: Set params timed out port = %d, copp = %d\n", __func__, port_index, copp_id); goto done; } if (rtac_adm_payload_size != 0) { if (copy_to_user(buf, rtac_adm_buffer, rtac_adm_payload_size + sizeof(u32))) { pr_err("%s: Could not copy buffer to user,size = %d\n", __func__, payload_size); goto done; } } /* Return data written for SET & data read for GET */ if (opcode == ADM_CMD_GET_PP_PARAMS_V5) bytes_returned = rtac_adm_payload_size; else bytes_returned = payload_size; done: return bytes_returned; err: mutex_unlock(&rtac_adm_apr_mutex); return bytes_returned; } /* ASM APR */ void rtac_set_asm_handle(u32 session_id, void *handle) { pr_debug("%s\n", __func__); mutex_lock(&rtac_asm_apr_mutex); rtac_asm_apr_data[session_id].apr_handle = handle; mutex_unlock(&rtac_asm_apr_mutex); } bool rtac_make_asm_callback(u32 session_id, uint32_t *payload, u32 payload_size) { if (atomic_read(&rtac_asm_apr_data[session_id].cmd_state) != 1) return false; pr_debug("%s\n", __func__); /* Offset data for in-band payload */ rtac_copy_asm_payload_to_user(payload, payload_size); atomic_set(&rtac_asm_apr_data[session_id].cmd_state, 0); wake_up(&rtac_asm_apr_data[session_id].cmd_wait); return true; } void rtac_copy_asm_payload_to_user(void *payload, u32 payload_size) { pr_debug("%s\n", __func__); rtac_asm_payload_size = payload_size; memcpy(rtac_asm_buffer, &payload_size, sizeof(u32)); if (payload_size) { if (payload_size > rtac_asm_user_buf_size) { pr_err("%s: Buffer set not big enough for returned data, buf size = %d, ret data = %d\n", __func__, rtac_asm_user_buf_size, payload_size); rtac_asm_payload_size = 0; goto done; } memcpy(rtac_asm_buffer + sizeof(u32), payload, payload_size); } done: return; } u32 send_rtac_asm_apr(void *buf, u32 opcode) { s32 result; u32 count = 0; u32 bytes_returned = 0; u32 session_id = 0; u32 payload_size; struct apr_hdr asm_params; pr_debug("%s\n", __func__); if (copy_from_user(&count, (void *)buf, sizeof(count))) { pr_err("%s: Copy to user failed! buf = 0x%x\n", __func__, (unsigned int)buf); result = -EFAULT; goto done; } if (count <= 0) { pr_err("%s: Invalid buffer size = %d\n", __func__, count); goto done; } if (copy_from_user(&payload_size, buf + sizeof(u32), sizeof(u32))) { pr_err("%s: Could not copy payload size from user buffer\n", __func__); goto done; } if (payload_size > MAX_PAYLOAD_SIZE) { pr_err("%s: Invalid payload size = %d\n", __func__, payload_size); goto done; } if (copy_from_user(&session_id, buf + 2 * sizeof(u32), sizeof(u32))) { pr_err("%s: Could not copy session id from user buffer\n", __func__); goto done; } if (session_id > (SESSION_MAX + 1)) { pr_err("%s: Invalid Session = %d\n", __func__, session_id); goto done; } mutex_lock(&rtac_asm_apr_mutex); if (session_id < SESSION_MAX+1) { if (rtac_asm_apr_data[session_id].apr_handle == NULL) { pr_err("%s: APR not initialized\n", __func__); goto err; } } /* Set globals for copy of returned payload */ rtac_asm_user_buf_size = count; /* Copy buffer to in-band payload */ if (copy_from_user(rtac_asm_buffer + sizeof(asm_params), buf + 3 * sizeof(u32), payload_size)) { pr_err("%s: Could not copy payload from user buffer\n", __func__); goto err; } /* Pack header */ asm_params.hdr_field = APR_HDR_FIELD(APR_MSG_TYPE_SEQ_CMD, APR_HDR_LEN(20), APR_PKT_VER); asm_params.pkt_size = APR_PKT_SIZE(APR_HDR_SIZE, payload_size); asm_params.src_svc = q6asm_get_apr_service_id(session_id); asm_params.src_domain = APR_DOMAIN_APPS; asm_params.src_port = (session_id << 8) | 0x0001; asm_params.dest_svc = APR_SVC_ASM; asm_params.dest_domain = APR_DOMAIN_ADSP; asm_params.dest_port = (session_id << 8) | 0x0001; asm_params.token = session_id; asm_params.opcode = opcode; memcpy(rtac_asm_buffer, &asm_params, sizeof(asm_params)); if (session_id < SESSION_MAX+1) atomic_set(&rtac_asm_apr_data[session_id].cmd_state, 1); pr_debug("%s: Sending RTAC command size = %d, session_id=%d\n", __func__, asm_params.pkt_size, session_id); result = apr_send_pkt(rtac_asm_apr_data[session_id].apr_handle, (uint32_t *)rtac_asm_buffer); if (result < 0) { pr_err("%s: Set params failed session = %d\n", __func__, session_id); goto err; } /* Wait for the callback */ result = wait_event_timeout(rtac_asm_apr_data[session_id].cmd_wait, (atomic_read(&rtac_asm_apr_data[session_id].cmd_state) == 0), 5 * HZ); mutex_unlock(&rtac_asm_apr_mutex); if (!result) { pr_err("%s: Set params timed out session = %d\n", __func__, session_id); goto done; } if (rtac_asm_payload_size != 0) { if (copy_to_user(buf, rtac_asm_buffer, rtac_asm_payload_size + sizeof(u32))) { pr_err("%s: Could not copy buffer to user,size = %d\n", __func__, payload_size); goto done; } } /* Return data written for SET & data read for GET */ if (opcode == ASM_STREAM_CMD_GET_PP_PARAMS_V2) bytes_returned = rtac_asm_payload_size; else bytes_returned = payload_size; done: return bytes_returned; err: mutex_unlock(&rtac_asm_apr_mutex); return bytes_returned; } /* Voice APR */ void rtac_set_voice_handle(u32 mode, void *handle) { pr_debug("%s\n", __func__); mutex_lock(&rtac_voice_apr_mutex); rtac_voice_apr_data[mode].apr_handle = handle; mutex_unlock(&rtac_voice_apr_mutex); } bool rtac_make_voice_callback(u32 mode, uint32_t *payload, u32 payload_size) { if ((atomic_read(&rtac_voice_apr_data[mode].cmd_state) != 1) || (mode >= RTAC_VOICE_MODES)) return false; pr_debug("%s\n", __func__); /* Offset data for in-band payload */ rtac_copy_voice_payload_to_user(payload, payload_size); atomic_set(&rtac_voice_apr_data[mode].cmd_state, 0); wake_up(&rtac_voice_apr_data[mode].cmd_wait); return true; } void rtac_copy_voice_payload_to_user(void *payload, u32 payload_size) { pr_debug("%s\n", __func__); rtac_voice_payload_size = payload_size; memcpy(rtac_voice_buffer, &payload_size, sizeof(u32)); if (payload_size) { if (payload_size > rtac_voice_user_buf_size) { pr_err("%s: Buffer set not big enough for returned data, buf size = %d, ret data = %d\n", __func__, rtac_voice_user_buf_size, payload_size); rtac_voice_payload_size = 0; goto done; } memcpy(rtac_voice_buffer + sizeof(u32), payload, payload_size); } done: return; } u32 send_voice_apr(u32 mode, void *buf, u32 opcode) { s32 result; u32 count = 0; u32 bytes_returned = 0; u32 payload_size; u32 dest_port; struct apr_hdr voice_params; pr_debug("%s\n", __func__); if (copy_from_user(&count, (void *)buf, sizeof(count))) { pr_err("%s: Copy to user failed! buf = 0x%x\n", __func__, (unsigned int)buf); result = -EFAULT; goto done; } if (count <= 0) { pr_err("%s: Invalid buffer size = %d\n", __func__, count); goto done; } if (copy_from_user(&payload_size, buf + sizeof(u32), sizeof(u32))) { pr_err("%s: Could not copy payload size from user buffer\n", __func__); goto done; } if (payload_size > MAX_PAYLOAD_SIZE) { pr_err("%s: Invalid payload size = %d\n", __func__, payload_size); goto done; } if (copy_from_user(&dest_port, buf + 2 * sizeof(u32), sizeof(u32))) { pr_err("%s: Could not copy port id from user buffer\n", __func__); goto done; } if ((mode != RTAC_CVP) && (mode != RTAC_CVS)) { pr_err("%s: Invalid Mode for APR, mode = %d\n", __func__, mode); goto done; } mutex_lock(&rtac_voice_apr_mutex); if (rtac_voice_apr_data[mode].apr_handle == NULL) { pr_err("%s: APR not initialized\n", __func__); goto err; } /* Set globals for copy of returned payload */ rtac_voice_user_buf_size = count; /* Copy buffer to in-band payload */ if (copy_from_user(rtac_voice_buffer + sizeof(voice_params), buf + 3 * sizeof(u32), payload_size)) { pr_err("%s: Could not copy payload from user buffer\n", __func__); goto err; } /* Pack header */ voice_params.hdr_field = APR_HDR_FIELD(APR_MSG_TYPE_SEQ_CMD, APR_HDR_LEN(20), APR_PKT_VER); voice_params.pkt_size = APR_PKT_SIZE(APR_HDR_SIZE, payload_size); voice_params.src_svc = 0; voice_params.src_domain = APR_DOMAIN_APPS; voice_params.src_port = get_voice_index(mode, dest_port); voice_params.dest_svc = 0; voice_params.dest_domain = APR_DOMAIN_MODEM; voice_params.dest_port = (u16)dest_port; voice_params.token = 0; voice_params.opcode = opcode; memcpy(rtac_voice_buffer, &voice_params, sizeof(voice_params)); atomic_set(&rtac_voice_apr_data[mode].cmd_state, 1); pr_debug("%s: Sending RTAC command size = %d, opcode = %x\n", __func__, voice_params.pkt_size, opcode); result = apr_send_pkt(rtac_voice_apr_data[mode].apr_handle, (uint32_t *)rtac_voice_buffer); if (result < 0) { pr_err("%s: apr_send_pkt failed opcode = %x\n", __func__, opcode); goto err; } /* Wait for the callback */ result = wait_event_timeout(rtac_voice_apr_data[mode].cmd_wait, (atomic_read(&rtac_voice_apr_data[mode].cmd_state) == 0), msecs_to_jiffies(TIMEOUT_MS)); mutex_unlock(&rtac_voice_apr_mutex); if (!result) { pr_err("%s: apr_send_pkt timed out opcode = %x\n", __func__, opcode); goto done; } if (rtac_voice_payload_size != 0) { if (copy_to_user(buf, rtac_voice_buffer, rtac_voice_payload_size + sizeof(u32))) { pr_err("%s: Could not copy buffer to user, size = %d\n", __func__, payload_size); goto done; } } /* Return data written for SET & data read for GET */ if (opcode == VOICE_CMD_GET_PARAM) bytes_returned = rtac_voice_payload_size; else bytes_returned = payload_size; done: return bytes_returned; err: mutex_unlock(&rtac_voice_apr_mutex); return bytes_returned; } static long rtac_ioctl(struct file *f, unsigned int cmd, unsigned long arg) { s32 result = 0; pr_debug("%s\n", __func__); if (arg == 0) { pr_err("%s: No data sent to driver!\n", __func__); result = -EFAULT; goto done; } switch (cmd) { case AUDIO_GET_RTAC_ADM_INFO: if (copy_to_user((void *)arg, &rtac_adm_data, sizeof(rtac_adm_data))) pr_err("%s: Could not copy to userspace!\n", __func__); else result = sizeof(rtac_adm_data); break; case AUDIO_GET_RTAC_VOICE_INFO: if (copy_to_user((void *)arg, &rtac_voice_data, sizeof(rtac_voice_data))) pr_err("%s: Could not copy to userspace!\n", __func__); else result = sizeof(rtac_voice_data); break; case AUDIO_GET_RTAC_ADM_CAL: result = send_adm_apr((void *)arg, ADM_CMD_GET_PP_PARAMS_V5); break; case AUDIO_SET_RTAC_ADM_CAL: result = send_adm_apr((void *)arg, ADM_CMD_SET_PP_PARAMS_V5); break; case AUDIO_GET_RTAC_ASM_CAL: result = send_rtac_asm_apr((void *)arg, ASM_STREAM_CMD_GET_PP_PARAMS_V2); break; case AUDIO_SET_RTAC_ASM_CAL: result = send_rtac_asm_apr((void *)arg, ASM_STREAM_CMD_SET_PP_PARAMS_V2); break; case AUDIO_GET_RTAC_CVS_CAL: result = send_voice_apr(RTAC_CVS, (void *)arg, VOICE_CMD_GET_PARAM); break; case AUDIO_SET_RTAC_CVS_CAL: result = send_voice_apr(RTAC_CVS, (void *)arg, VOICE_CMD_SET_PARAM); break; case AUDIO_GET_RTAC_CVP_CAL: result = send_voice_apr(RTAC_CVP, (void *)arg, VOICE_CMD_GET_PARAM); break; case AUDIO_SET_RTAC_CVP_CAL: result = send_voice_apr(RTAC_CVP, (void *)arg, VOICE_CMD_SET_PARAM); break; default: pr_err("%s: Invalid IOCTL, command = %d!\n", __func__, cmd); } done: return result; } static const struct file_operations rtac_fops = { .owner = THIS_MODULE, .open = rtac_open, .release = rtac_release, .unlocked_ioctl = rtac_ioctl, }; struct miscdevice rtac_misc = { .minor = MISC_DYNAMIC_MINOR, .name = "msm_rtac", .fops = &rtac_fops, }; static int __init rtac_init(void) { int i = 0; pr_debug("%s\n", __func__); /* ADM */ memset(&rtac_adm_data, 0, sizeof(rtac_adm_data)); rtac_adm_apr_data.apr_handle = NULL; atomic_set(&rtac_adm_apr_data.cmd_state, 0); init_waitqueue_head(&rtac_adm_apr_data.cmd_wait); mutex_init(&rtac_adm_mutex); mutex_init(&rtac_adm_apr_mutex); rtac_adm_buffer = kzalloc(RTAC_BUF_SIZE, GFP_KERNEL); if (rtac_adm_buffer == NULL) { pr_err("%s: Could not allocate payload of size = %d\n", __func__, RTAC_BUF_SIZE); goto nomem; } /* ASM */ for (i = 0; i < SESSION_MAX+1; i++) { rtac_asm_apr_data[i].apr_handle = NULL; atomic_set(&rtac_asm_apr_data[i].cmd_state, 0); init_waitqueue_head(&rtac_asm_apr_data[i].cmd_wait); } mutex_init(&rtac_asm_apr_mutex); rtac_asm_buffer = kzalloc(RTAC_BUF_SIZE, GFP_KERNEL); if (rtac_asm_buffer == NULL) { pr_err("%s: Could not allocate payload of size = %d\n", __func__, RTAC_BUF_SIZE); kzfree(rtac_adm_buffer); goto nomem; } /* Voice */ memset(&rtac_voice_data, 0, sizeof(rtac_voice_data)); for (i = 0; i < RTAC_VOICE_MODES; i++) { rtac_voice_apr_data[i].apr_handle = NULL; atomic_set(&rtac_voice_apr_data[i].cmd_state, 0); init_waitqueue_head(&rtac_voice_apr_data[i].cmd_wait); } mutex_init(&rtac_voice_mutex); mutex_init(&rtac_voice_apr_mutex); rtac_voice_buffer = kzalloc(RTAC_BUF_SIZE, GFP_KERNEL); if (rtac_voice_buffer == NULL) { pr_err("%s: Could not allocate payload of size = %d\n", __func__, RTAC_BUF_SIZE); kzfree(rtac_adm_buffer); kzfree(rtac_asm_buffer); goto nomem; } return misc_register(&rtac_misc); nomem: return -ENOMEM; } module_init(rtac_init); MODULE_DESCRIPTION("SoC QDSP6v2 Real-Time Audio Calibration driver"); MODULE_LICENSE("GPL v2"); #endif