// SPDX-License-Identifier: LGPL-2.1-or-later /* * * BlueZ - Bluetooth protocol stack for Linux * * Copyright (C) 2023 NXP Semiconductors. All rights reserved. * */ #define _GNU_SOURCE #include #include #include #include #include #include #include "bluetooth/bluetooth.h" #include "bluetooth/uuid.h" #include "src/shared/queue.h" #include "src/shared/util.h" #include "src/shared/timeout.h" #include "src/shared/att.h" #include "src/shared/gatt-db.h" #include "src/shared/gatt-server.h" #include "src/shared/gatt-helpers.h" #include "src/shared/micp.h" #define DBG(_micp, fmt, arg...) \ micp_debug(_micp, "%s:%s() " fmt, __FILE__, __func__, ##arg) /* Application error codes */ #define MICP_ERROR_MUTE_DISABLED 0x80 #define MICP_ERROR_VALUE_NOT_ALLOWED 0x13 #define BT_ATT_ERROR_OPCODE_NOT_SUPPORTED 0x81 /* Mute char values */ #define MICS_NOT_MUTED 0x00 #define MICS_MUTED 0x01 #define MICS_DISABLED 0x02 static struct queue *micp_db; static struct queue *micp_cbs; static struct queue *sessions; struct bt_micp_cb { unsigned int id; bt_micp_func_t attached; bt_micp_func_t detached; void *user_data; }; typedef void (*micp_func_t)(struct bt_micp *micp, bool success, uint8_t att_ecode, const uint8_t *value, uint16_t length, void *user_data); struct bt_micp_pending { unsigned int id; struct bt_micp *micp; micp_func_t func; void *userdata; }; struct bt_micp_ready { unsigned int id; bt_micp_ready_func_t func; bt_micp_destroy_func_t destroy; void *data; }; typedef void (*micp_notify_t)(struct bt_micp *micp, uint16_t value_handle, const uint8_t *value, uint16_t length, void *user_data); struct bt_micp_notify { unsigned int id; struct bt_micp *micp; micp_notify_t func; void *user_data; }; static void *iov_pull_mem(struct iovec *iov, size_t len) { void *data = iov->iov_base; if (iov->iov_len < len) return NULL; iov->iov_base += len; iov->iov_len -= len; return data; } static struct bt_micp_db *micp_get_mdb(struct bt_micp *micp) { if (!micp) return NULL; if (micp->ldb) return micp->ldb; return NULL; } static uint8_t *mdb_get_mute_state(struct bt_micp_db *vdb) { if (!vdb->mics) return NULL; return &(vdb->mics->mute_stat); } struct bt_mics *micp_get_mics(struct bt_micp *micp) { if (!micp) return NULL; if (micp->rdb->mics) return micp->rdb->mics; micp->rdb->mics = new0(struct bt_mics, 1); micp->rdb->mics->mdb = micp->rdb; return micp->rdb->mics; } static void micp_detached(void *data, void *user_data) { struct bt_micp_cb *cb = data; struct bt_micp *micp = user_data; cb->detached(micp, cb->user_data); } void bt_micp_detach(struct bt_micp *micp) { if (!queue_remove(sessions, micp)) return; bt_gatt_client_idle_unregister(micp->client, micp->idle_id); bt_gatt_client_unref(micp->client); micp->client = NULL; queue_foreach(micp_cbs, micp_detached, micp); } static void micp_db_free(void *data) { struct bt_micp_db *mdb = data; if (!mdb) return; gatt_db_unref(mdb->db); free(mdb->mics); free(mdb); } static void micp_ready_free(void *data) { struct bt_micp_ready *ready = data; if (ready->destroy) ready->destroy(ready->data); free(ready); } static void micp_free(void *data) { struct bt_micp *micp = data; bt_micp_detach(micp); micp_db_free(micp->rdb); queue_destroy(micp->notify, free); queue_destroy(micp->pending, NULL); queue_destroy(micp->ready_cbs, micp_ready_free); free(micp); } bool bt_micp_set_user_data(struct bt_micp *micp, void *user_data) { if (!micp) return false; micp->user_data = user_data; return true; } static bool micp_db_match(const void *data, const void *match_data) { const struct bt_micp_db *mdb = data; const struct gatt_db *db = match_data; return (mdb->db == db); } struct bt_att *bt_micp_get_att(struct bt_micp *micp) { if (!micp) return NULL; if (micp->att) return micp->att; return bt_gatt_client_get_att(micp->client); } struct bt_micp *bt_micp_ref(struct bt_micp *micp) { if (!micp) return NULL; __sync_fetch_and_add(&micp->ref_count, 1); return micp; } void bt_micp_unref(struct bt_micp *micp) { if (!micp) return; if (__sync_sub_and_fetch(&micp->ref_count, 1)) return; micp_free(micp); } static void micp_debug(struct bt_micp *micp, const char *format, ...) { va_list ap; if (!micp || !format || !micp->debug_func) return; va_start(ap, format); util_debug_va(micp->debug_func, micp->debug_data, format, ap); va_end(ap); } static void micp_disconnected(int err, void *user_data) { struct bt_micp *micp = user_data; DBG(micp, "micp %p disconnected err %d", micp, err); bt_micp_detach(micp); } static struct bt_micp *micp_get_session(struct bt_att *att, struct gatt_db *db) { const struct queue_entry *entry; struct bt_micp *micp; for (entry = queue_get_entries(sessions); entry; entry = entry->next) { struct bt_micp *micp = entry->data; if (att == bt_micp_get_att(micp)) return micp; } micp = bt_micp_new(db, NULL); micp->att = att; bt_att_register_disconnect(att, micp_disconnected, micp, NULL); bt_micp_attach(micp, NULL); return micp; } static void mics_mute_read(struct gatt_db_attribute *attrib, unsigned int id, uint16_t offset, uint8_t opcode, struct bt_att *att, void *user_data) { struct bt_mics *mics = user_data; struct iovec iov; iov.iov_base = &mics->mute_stat; iov.iov_len = sizeof(mics->mute_stat); gatt_db_attribute_read_result(attrib, id, 0, iov.iov_base, iov.iov_len); } static uint8_t mics_not_muted(struct bt_mics *mics, struct bt_micp *micp, struct iovec *iov) { struct bt_micp_db *mdb; uint8_t *mute_state; DBG(micp, "Mute state OP: Not Muted"); mdb = micp_get_mdb(micp); if (!mdb) { DBG(micp, "error: MDB not available"); return 0; } mute_state = mdb_get_mute_state(mdb); if (!mute_state) { DBG(micp, "Error : Mute State not available"); return 0; } *mute_state = MICS_NOT_MUTED; gatt_db_attribute_notify(mdb->mics->ms, (void *)mute_state, sizeof(uint8_t), bt_micp_get_att(micp)); return 0; } static uint8_t mics_muted(struct bt_mics *mics, struct bt_micp *micp, struct iovec *iov) { struct bt_micp_db *mdb; uint8_t *mute_state; DBG(micp, "Mute state OP: Muted"); mdb = micp_get_mdb(micp); if (!mdb) { DBG(micp, "error: MDB not available"); return 0; } mute_state = mdb_get_mute_state(mdb); *mute_state = MICS_MUTED; gatt_db_attribute_notify(mdb->mics->ms, (void *)mute_state, sizeof(uint8_t), bt_micp_get_att(micp)); return 0; } #define MICS_OP(_str, _op, _size, _func) \ { \ .str = _str, \ .op = _op, \ .size = _size, \ .func = _func, \ } struct mics_op_handler { const char *str; uint8_t op; size_t size; uint8_t (*func)(struct bt_mics *mics, struct bt_micp *micp, struct iovec *iov); } micp_handlers[] = { MICS_OP("Not Muted", MICS_NOT_MUTED, sizeof(uint8_t), mics_not_muted), MICS_OP("Muted", MICS_MUTED, sizeof(uint8_t), mics_muted), {}}; static void mics_mute_write(struct gatt_db_attribute *attrib, unsigned int id, uint16_t offset, const uint8_t *value, size_t len, uint8_t opcode, struct bt_att *att, void *user_data) { struct bt_mics *mics = user_data; struct bt_micp *micp = micp_get_session(att, mics->mdb->db); struct iovec iov = { .iov_base = (void *)value, .iov_len = len, }; uint8_t *micp_op, *mute_state; struct mics_op_handler *handler; uint8_t ret = BT_ATT_ERROR_REQUEST_NOT_SUPPORTED; struct bt_micp_db *mdb; DBG(micp, "MICS Mute Char write: len: %ld: %ld", len, iov.iov_len); if (offset) { DBG(micp, "invalid offset: %d", offset); ret = BT_ATT_ERROR_INVALID_OFFSET; goto respond; } if (len < sizeof(*micp_op)) { DBG(micp, "invalid length: %ld < %ld sizeof(param)", len, sizeof(*micp_op)); ret = BT_ATT_ERROR_INVALID_ATTRIBUTE_VALUE_LEN; goto respond; } micp_op = iov_pull_mem(&iov, sizeof(*micp_op)); if (!micp_op) { DBG(micp, "iov_pull_mem() returned NULL"); goto respond; } if ((*micp_op == MICS_DISABLED) || (*micp_op != MICS_NOT_MUTED && *micp_op != MICS_MUTED)) { DBG(micp, "Invalid operation - MICS DISABLED/RFU mics op:%d", micp_op); ret = MICP_ERROR_VALUE_NOT_ALLOWED; goto respond; } mdb = micp_get_mdb(micp); if (!mdb) { DBG(micp, "error: MDB not available"); goto respond; } mute_state = mdb_get_mute_state(mdb); if (*mute_state == MICS_DISABLED) { DBG(micp, "state: MICS DISABLED , can not write value: %d", *micp_op); ret = MICP_ERROR_MUTE_DISABLED; goto respond; } for (handler = micp_handlers; handler && handler->str; handler++) { DBG(micp, "handler->op: %d micp_op: %d iov.iov_len: %ld", handler->op, *micp_op, iov.iov_len); if (handler->op != *micp_op) continue; if (len < handler->size) { DBG(micp, "invalid len %ld : %ld < %ld handler->size", len, iov.iov_len, handler->size); ret = BT_ATT_ERROR_OPCODE_NOT_SUPPORTED; goto respond; } break; } if (handler && handler->str) { DBG(micp, "%s", handler->str); ret = handler->func(mics, micp, &iov); } else { DBG(micp, "unknown opcode 0x%02x", *micp_op); ret = BT_ATT_ERROR_OPCODE_NOT_SUPPORTED; } respond: gatt_db_attribute_write_result(attrib, id, ret); } static struct bt_mics *mics_new(struct gatt_db *db) { struct bt_mics *mics; bt_uuid_t uuid; if (!db) return NULL; mics = new0(struct bt_mics, 1); mics->mute_stat = MICS_MUTED; /* Populate DB with MICS attributes */ bt_uuid16_create(&uuid, MICS_UUID); mics->service = gatt_db_add_service(db, &uuid, true, 4); bt_uuid16_create(&uuid, MUTE_CHRC_UUID); mics->ms = gatt_db_service_add_characteristic(mics->service, &uuid, BT_ATT_PERM_READ | BT_ATT_PERM_WRITE, BT_GATT_CHRC_PROP_READ | BT_GATT_CHRC_PROP_WRITE | BT_GATT_CHRC_PROP_NOTIFY, mics_mute_read, mics_mute_write, mics); mics->ms_ccc = gatt_db_service_add_ccc(mics->service, BT_ATT_PERM_READ | BT_ATT_PERM_WRITE); gatt_db_service_set_active(mics->service, true); return mics; } static struct bt_micp_db *micp_db_new(struct gatt_db *db) { struct bt_micp_db *mdb; if (!db) return NULL; mdb = new0(struct bt_micp_db, 1); mdb->db = gatt_db_ref(db); if (!micp_db) micp_db = queue_new(); mdb->mics = mics_new(db); mdb->mics->mdb = mdb; queue_push_tail(micp_db, mdb); return mdb; } static struct bt_micp_db *micp_get_db(struct gatt_db *db) { struct bt_micp_db *mdb; mdb = queue_find(micp_db, micp_db_match, db); if (mdb) return mdb; return micp_db_new(db); } void bt_micp_add_db(struct gatt_db *db) { micp_db_new(db); } bool bt_micp_set_debug(struct bt_micp *micp, bt_micp_debug_func_t func, void *user_data, bt_micp_destroy_func_t destroy) { if (!micp) return false; if (micp->debug_destroy) micp->debug_destroy(micp->debug_data); micp->debug_func = func; micp->debug_destroy = destroy; micp->debug_data = user_data; return true; } unsigned int bt_micp_register(bt_micp_func_t attached, bt_micp_func_t detached, void *user_data) { struct bt_micp_cb *cb; static unsigned int id; if (!attached && !detached) return 0; if (!micp_cbs) micp_cbs = queue_new(); cb = new0(struct bt_micp_cb, 1); cb->id = ++id ? id : ++id; cb->attached = attached; cb->detached = detached; cb->user_data = user_data; queue_push_tail(micp_cbs, cb); return cb->id; } static bool match_id(const void *data, const void *match_data) { const struct bt_micp_cb *cb = data; unsigned int id = PTR_TO_UINT(match_data); return (cb->id == id); } bool bt_micp_unregister(unsigned int id) { struct bt_micp_cb *cb; cb = queue_remove_if(micp_cbs, match_id, UINT_TO_PTR(id)); if (!cb) return false; free(cb); return true; } struct bt_micp *bt_micp_new(struct gatt_db *ldb, struct gatt_db *rdb) { struct bt_micp *micp; struct bt_micp_db *mdb; if (!ldb) return NULL; mdb = micp_get_db(ldb); if (!mdb) return NULL; micp = new0(struct bt_micp, 1); micp->ldb = mdb; micp->pending = queue_new(); micp->ready_cbs = queue_new(); micp->notify = queue_new(); if (!rdb) goto done; mdb = new0(struct bt_micp_db, 1); mdb->db = gatt_db_ref(rdb); micp->rdb = mdb; done: bt_micp_ref(micp); return micp; } static void micp_pending_destroy(void *data) { struct bt_micp_pending *pending = data; struct bt_micp *micp = pending->micp; if (queue_remove_if(micp->pending, NULL, pending)) free(pending); } static void micp_pending_complete(bool success, uint8_t att_ecode, const uint8_t *value, uint16_t length, void *user_data) { struct bt_micp_pending *pending = user_data; if (pending->func) pending->func(pending->micp, success, att_ecode, value, length, pending->userdata); } static void micp_read_value(struct bt_micp *micp, uint16_t value_handle, micp_func_t func, void *user_data) { struct bt_micp_pending *pending; pending = new0(struct bt_micp_pending, 1); pending->micp = micp; pending->func = func; pending->userdata = user_data; pending->id = bt_gatt_client_read_value(micp->client, value_handle, micp_pending_complete, pending, micp_pending_destroy); if (!pending->id) { DBG(micp, "unable to send read request"); free(pending); return; } queue_push_tail(micp->pending, pending); } static void micp_register(uint16_t att_ecode, void *user_data) { struct bt_micp_notify *notify = user_data; if (att_ecode) DBG(notify->micp, "MICP register failed 0x%04x", att_ecode); } static void micp_notify(uint16_t value_handle, const uint8_t *value, uint16_t length, void *user_data) { struct bt_micp_notify *notify = user_data; if (notify->func) notify->func(notify->micp, value_handle, value, length, notify->user_data); } static void micp_notify_destroy(void *data) { struct bt_micp_notify *notify = data; struct bt_micp *micp = notify->micp; if (queue_remove_if(micp->notify, NULL, notify)) free(notify); } static unsigned int micp_register_notify(struct bt_micp *micp, uint16_t value_handle, micp_notify_t func, void *user_data) { struct bt_micp_notify *notify; notify = new0(struct bt_micp_notify, 1); notify->micp = micp; notify->func = func; notify->user_data = user_data; notify->id = bt_gatt_client_register_notify(micp->client, value_handle, micp_register, micp_notify, notify, micp_notify_destroy); if (!notify->id) { DBG(micp, "Unable to register for notifications"); free(notify); return 0; } queue_push_tail(micp->notify, notify); return notify->id; } static void micp_mute_state_notify(struct bt_micp *micp, uint16_t value_handle, const uint8_t *value, uint16_t length, void *user_data) { uint8_t mute_state; memcpy(&mute_state, value, sizeof(mute_state)); DBG(micp, "Mute state: 0x%x", mute_state); } static void read_mute_state(struct bt_micp *micp, bool success, uint8_t att_ecode, const uint8_t *value, uint16_t length, void *user_data) { uint8_t *mute_state; struct iovec iov = { .iov_base = (void *)value, .iov_len = length, }; if (!success) { DBG(micp, "Unable to read Mute state: error 0x%02x", att_ecode); return; } mute_state = iov_pull_mem(&iov, sizeof(uint8_t)); if (mute_state == NULL) { DBG(micp, "Unable to get Mute state"); return; } DBG(micp, "Mute state: %x", *mute_state); } static void foreach_mics_char(struct gatt_db_attribute *attr, void *user_data) { struct bt_micp *micp = user_data; uint16_t value_handle; bt_uuid_t uuid, uuid_mute; struct bt_mics *mics; if (!gatt_db_attribute_get_char_data(attr, NULL, &value_handle, NULL, NULL, &uuid)) return; bt_uuid16_create(&uuid_mute, MUTE_CHRC_UUID); if (!bt_uuid_cmp(&uuid, &uuid_mute)) { DBG(micp, "MICS Mute characteristic found: handle 0x%04x", value_handle); mics = micp_get_mics(micp); if (!mics || mics->ms) return; mics->ms = attr; micp_read_value(micp, value_handle, read_mute_state, micp); micp->mute_id = micp_register_notify(micp, value_handle, micp_mute_state_notify, NULL); } } static void foreach_mics_service(struct gatt_db_attribute *attr, void *user_data) { struct bt_micp *micp = user_data; struct bt_mics *mics = micp_get_mics(micp); mics->service = attr; gatt_db_service_set_claimed(attr, true); gatt_db_service_foreach_char(attr, foreach_mics_char, micp); } unsigned int bt_micp_ready_register(struct bt_micp *micp, bt_micp_ready_func_t func, void *user_data, bt_micp_destroy_func_t destroy) { struct bt_micp_ready *ready; static unsigned int id; DBG(micp, "bt_micp_ready_register_Entry\n"); if (!micp) return 0; ready = new0(struct bt_micp_ready, 1); ready->id = ++id ? id : ++id; ready->func = func; ready->destroy = destroy; ready->data = user_data; queue_push_tail(micp->ready_cbs, ready); return ready->id; } static bool match_ready_id(const void *data, const void *match_data) { const struct bt_micp_ready *ready = data; unsigned int id = PTR_TO_UINT(match_data); return (ready->id == id); } bool bt_micp_ready_unregister(struct bt_micp *micp, unsigned int id) { struct bt_micp_ready *ready; ready = queue_remove_if(micp->ready_cbs, match_ready_id, UINT_TO_PTR(id)); if (!ready) return false; micp_ready_free(ready); return true; } static struct bt_micp *bt_micp_ref_safe(struct bt_micp *micp) { if (!micp || !micp->ref_count) return NULL; return bt_micp_ref(micp); } static void micp_notify_ready(struct bt_micp *micp) { const struct queue_entry *entry; if (!bt_micp_ref_safe(micp)) return; for (entry = queue_get_entries(micp->ready_cbs); entry; entry = entry->next) { struct bt_micp_ready *ready = entry->data; ready->func(micp, ready->data); } bt_micp_unref(micp); } static void micp_idle(void *data) { struct bt_micp *micp = data; micp->idle_id = 0; micp_notify_ready(micp); } bool bt_micp_attach(struct bt_micp *micp, struct bt_gatt_client *client) { bt_uuid_t uuid; if (!sessions) sessions = queue_new(); queue_push_tail(sessions, micp); if (!client) return true; if (micp->client) return false; micp->client = bt_gatt_client_clone(client); if (!micp->client) return false; bt_gatt_client_idle_register(micp->client, micp_idle, micp, NULL); bt_uuid16_create(&uuid, MICS_UUID); gatt_db_foreach_service(micp->ldb->db, &uuid, foreach_mics_service, micp); return true; }