/**************************************************************************** * wireless/bluetooth/bt_gatt.c * * Copyright (c) 2016, Intel Corporation * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * 3. Neither the name of the copyright holder nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS * ; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include "bt_hcicore.h" #include "bt_conn.h" #include "bt_keys.h" #include "bt_l2cap.h" #include "bt_att.h" /**************************************************************************** * Private Types ****************************************************************************/ begin_packed_struct struct gatt_incl_s { uint16_t start_handle; uint16_t end_handle; union { uint16_t uuid16; uint8_t uuid[16]; } u; } end_packed_struct; begin_packed_struct struct gatt_chrc_s { uint8_t properties; uint16_t value_handle; union { uint16_t uuid16; uint8_t uuid[16]; } u; } end_packed_struct; struct notify_data_s { FAR const void *data; size_t len; uint8_t handle; }; /**************************************************************************** * Private Data ****************************************************************************/ static FAR const struct bt_gatt_attr_s *g_db = NULL; static size_t g_attr_count = 0; /**************************************************************************** * Public Functions ****************************************************************************/ void bt_gatt_register(FAR const struct bt_gatt_attr_s *attrs, size_t count) { g_db = attrs; g_attr_count = count; } int bt_gatt_attr_read(FAR struct bt_conn_s *conn, FAR const struct bt_gatt_attr_s *attr, FAR void *buf, uint8_t buf_len, uint16_t offset, FAR const void *value, uint8_t value_len) { uint8_t maxlen; uint8_t len; if (offset > value_len) { return -EINVAL; } len = buf_len; maxlen = value_len - offset; if (len > maxlen) { len = maxlen; } wlinfo("handle 0x%04x offset %u length %u\n", attr->handle, offset, len); memcpy(buf, value + offset, len); return len; } int bt_gatt_attr_read_service(FAR struct bt_conn_s *conn, FAR const struct bt_gatt_attr_s *attr, FAR void *buf, uint8_t len, uint16_t offset) { FAR struct bt_uuid_s *uuid = attr->user_data; if (uuid->type == BT_UUID_16) { uint16_t uuid16 = BT_HOST2LE16(uuid->u.u16); return bt_gatt_attr_read(conn, attr, buf, len, offset, &uuid16, sizeof(uuid16)); } return bt_gatt_attr_read(conn, attr, buf, len, offset, uuid->u.u128, sizeof(uuid->u.u128)); } int bt_gatt_attr_read_included(FAR struct bt_conn_s *conn, FAR const struct bt_gatt_attr_s *attr, FAR void *buf, uint8_t len, uint16_t offset) { FAR struct bt_gatt_include_s *incl = attr->user_data; struct gatt_incl_s pdu; uint8_t value_len; pdu.start_handle = BT_HOST2LE16(incl->start_handle); pdu.end_handle = BT_HOST2LE16(incl->end_handle); value_len = sizeof(pdu.start_handle) + sizeof(pdu.end_handle); if (incl->uuid->type == BT_UUID_16) { pdu.u.uuid16 = BT_HOST2LE16(incl->uuid->u.u16); value_len += sizeof(pdu.u.uuid16); } else { memcpy(pdu.u.uuid, incl->uuid->u.u128, sizeof(incl->uuid->u.u128)); value_len += sizeof(incl->uuid->u.u128); } return bt_gatt_attr_read(conn, attr, buf, len, offset, &pdu, value_len); } int bt_gatt_attr_read_chrc(FAR struct bt_conn_s *conn, FAR const struct bt_gatt_attr_s *attr, FAR void *buf, uint8_t len, uint16_t offset) { FAR struct bt_gatt_chrc_s *chrc = attr->user_data; struct gatt_chrc_s pdu; uint8_t value_len; pdu.properties = chrc->properties; pdu.value_handle = BT_HOST2LE16(chrc->value_handle); value_len = sizeof(pdu.properties) + sizeof(pdu.value_handle); if (chrc->uuid->type == BT_UUID_16) { pdu.u.uuid16 = BT_HOST2LE16(chrc->uuid->u.u16); value_len += sizeof(pdu.u.uuid16); } else { memcpy(pdu.u.uuid, chrc->uuid->u.u128, sizeof(chrc->uuid->u.u128)); value_len += sizeof(chrc->uuid->u.u128); } return bt_gatt_attr_read(conn, attr, buf, len, offset, &pdu, value_len); } void bt_gatt_foreach_attr(uint16_t start_handle, uint16_t end_handle, bt_gatt_attr_func_t func, FAR void *user_data) { size_t i; for (i = 0; i < g_attr_count; i++) { FAR const struct bt_gatt_attr_s *attr = &g_db[i]; /* Check if attribute handle is within range */ if (attr->handle < start_handle || attr->handle > end_handle) { continue; } if (func(attr, user_data) == BT_GATT_ITER_STOP) { break; } } } int bt_gatt_attr_read_ccc(FAR struct bt_conn_s *conn, FAR const struct bt_gatt_attr_s *attr, FAR void *buf, uint8_t len, uint16_t offset) { FAR struct _bt_gatt_ccc_s *ccc = attr->user_data; uint16_t value; size_t i; for (i = 0; i < ccc->cfg_len; i++) { if (bt_addr_le_cmp(&ccc->cfg[i].peer, &conn->dst)) { continue; } value = BT_HOST2LE16(ccc->cfg[i].value); break; } /* Default to disable if there is no cfg for the peer */ if (i == ccc->cfg_len) { value = 0x0000; } return bt_gatt_attr_read(conn, attr, buf, len, offset, &value, sizeof(value)); } static void gatt_ccc_changed(FAR struct _bt_gatt_ccc_s *ccc) { uint16_t value = 0x0000; int i; for (i = 0; i < ccc->cfg_len; i++) { if (ccc->cfg[i].value > value) { value = ccc->cfg[i].value; } } wlinfo("ccc %p value 0x%04x\n", ccc, value); if (value != ccc->value) { ccc->value = value; ccc->cfg_changed(value); } } int bt_gatt_attr_write_ccc(FAR struct bt_conn_s *conn, FAR const struct bt_gatt_attr_s *attr, FAR const void *buf, uint8_t len, uint16_t offset) { FAR struct _bt_gatt_ccc_s *ccc = attr->user_data; FAR const uint16_t *data = buf; bool bonded; size_t i; if (len != sizeof(*data) || offset) { return -EINVAL; } if (bt_keys_get_addr(&conn->dst)) { bonded = true; } else { bonded = false; } for (i = 0; i < ccc->cfg_len; i++) { /* Check for existing configuration */ if (!bt_addr_le_cmp(&ccc->cfg[i].peer, &conn->dst)) { break; } } if (i == ccc->cfg_len) { for (i = 0; i < ccc->cfg_len; i++) { /* Check for unused configuration */ if (!ccc->cfg[i].valid) { bt_addr_le_copy(&ccc->cfg[i].peer, &conn->dst); /* Only set valid if bonded */ ccc->cfg[i].valid = bonded; break; } } if (i == ccc->cfg_len) { wlwarn("No space to store CCC cfg\n"); return -ENOMEM; } } ccc->cfg[i].value = BT_LE162HOST(*data); wlinfo("handle 0x%04x value %u\n", attr->handle, ccc->cfg[i].value); /* Update cfg if don't match */ if (ccc->cfg[i].value != ccc->value) { gatt_ccc_changed(ccc); } return len; } int bt_gatt_attr_read_cep(FAR struct bt_conn_s *conn, FAR const struct bt_gatt_attr_s *attr, FAR void *buf, uint8_t len, uint16_t offset) { FAR struct bt_gatt_cep_s *value = attr->user_data; uint16_t props = BT_HOST2LE16(value->properties); return bt_gatt_attr_read(conn, attr, buf, len, offset, &props, sizeof(props)); } static uint8_t notify_cb(FAR const struct bt_gatt_attr_s *attr, FAR void *user_data) { FAR struct notify_data_s *data = user_data; const struct bt_uuid_s uuid = { BT_UUID_16, { BT_UUID_GATT_CCC } }; const struct bt_uuid_s chrc = { BT_UUID_16, { BT_UUID_GATT_CHRC } }; FAR struct _bt_gatt_ccc_s *ccc; size_t i; if (bt_uuid_cmp(attr->uuid, &uuid)) { /* Stop if we reach the next characteristic */ if (!bt_uuid_cmp(attr->uuid, &chrc)) { return BT_GATT_ITER_STOP; } return BT_GATT_ITER_CONTINUE; } /* Check attribute user_data must be of type struct _bt_gatt_ccc_s */ if (attr->write != bt_gatt_attr_write_ccc) { return BT_GATT_ITER_CONTINUE; } ccc = attr->user_data; /* Notify all peers configured */ for (i = 0; i < ccc->cfg_len; i++) { FAR struct bt_conn_s *conn; FAR struct bt_buf_s *buf; FAR struct bt_att_notify_s *nfy; /* TODO: Handle indications */ if (ccc->value != BT_GATT_CCC_NOTIFY) { continue; } conn = bt_conn_lookup_addr_le(&ccc->cfg[i].peer); if (!conn || conn->state != BT_CONN_CONNECTED) { continue; } buf = bt_att_create_pdu(conn, BT_ATT_OP_NOTIFY, sizeof(*nfy) + data->len); if (!buf) { wlwarn("No buffer available to send notification"); bt_conn_release(conn); return BT_GATT_ITER_STOP; } wlinfo("conn %p handle 0x%04x\n", conn, data->handle); nfy = bt_buf_extend(buf, sizeof(*nfy)); nfy->handle = BT_HOST2LE16(data->handle); bt_buf_extend(buf, data->len); memcpy(nfy->value, data->data, data->len); bt_l2cap_send(conn, BT_L2CAP_CID_ATT, buf); bt_conn_release(conn); } return BT_GATT_ITER_CONTINUE; } void bt_gatt_notify(uint16_t handle, FAR const void *data, size_t len) { struct notify_data_s nfy; nfy.handle = handle; nfy.data = data; nfy.len = len; bt_gatt_foreach_attr(handle, 0xffff, notify_cb, &nfy); } static uint8_t connected_cb(FAR const struct bt_gatt_attr_s *attr, FAR void *user_data) { FAR struct bt_conn_s *conn = user_data; FAR struct _bt_gatt_ccc_s *ccc; size_t i; /* Check attribute user_data must be of type struct _bt_gatt_ccc_s */ if (attr->write != bt_gatt_attr_write_ccc) { return BT_GATT_ITER_CONTINUE; } ccc = attr->user_data; /* If already enabled skip */ if (ccc->value) { return BT_GATT_ITER_CONTINUE; } for (i = 0; i < ccc->cfg_len; i++) { /* Ignore configuration for different peer */ if (bt_addr_le_cmp(&conn->dst, &ccc->cfg[i].peer)) { continue; } if (ccc->cfg[i].value) { gatt_ccc_changed(ccc); return BT_GATT_ITER_CONTINUE; } } return BT_GATT_ITER_CONTINUE; } void bt_gatt_connected(FAR struct bt_conn_s *conn) { wlinfo("conn %p\n", conn); bt_gatt_foreach_attr(0x0001, 0xffff, connected_cb, conn); } static uint8_t disconnected_cb(FAR const struct bt_gatt_attr_s *attr, FAR void *user_data) { FAR struct bt_conn_s *conn = user_data; FAR struct _bt_gatt_ccc_s *ccc; size_t i; /* Check attribute user_data must be of type struct _bt_gatt_ccc_s */ if (attr->write != bt_gatt_attr_write_ccc) { return BT_GATT_ITER_CONTINUE; } ccc = attr->user_data; /* If already disabled skip */ if (!ccc->value) { return BT_GATT_ITER_CONTINUE; } for (i = 0; i < ccc->cfg_len; i++) { /* Ignore configurations with disabled value */ if (!ccc->cfg[i].value) { continue; } if (bt_addr_le_cmp(&conn->dst, &ccc->cfg[i].peer)) { FAR struct bt_conn_s *tmp; /* Skip if there is another peer connected */ tmp = bt_conn_lookup_addr_le(&ccc->cfg[i].peer); if (tmp && tmp->state == BT_CONN_CONNECTED) { bt_conn_release(tmp); return BT_GATT_ITER_CONTINUE; } } } /* Reset value while disconnected */ memset(&ccc->value, 0, sizeof(ccc->value)); ccc->cfg_changed(ccc->value); wlinfo("ccc %p reset\n", ccc); return BT_GATT_ITER_CONTINUE; } void bt_gatt_disconnected(FAR struct bt_conn_s *conn) { wlinfo("conn %p\n", conn); bt_gatt_foreach_attr(0x0001, 0xffff, disconnected_cb, conn); } static void gatt_mtu_rsp(FAR struct bt_conn_s *conn, uint8_t err, FAR const void *pdu, uint16_t length, FAR void *user_data) { bt_gatt_rsp_func_t func = user_data; func(conn, err); } static int gatt_send(FAR struct bt_conn_s *conn, FAR struct bt_buf_s *buf, bt_att_func_t func, FAR void *user_data, bt_att_destroy_t destroy) { int err; err = bt_att_send(conn, buf, func, user_data, destroy); if (err) { wlerr("ERROR: Error sending ATT PDU: %d\n", err); bt_buf_release(buf); } return err; } int bt_gatt_exchange_mtu(FAR struct bt_conn_s *conn, bt_gatt_rsp_func_t func) { FAR struct bt_att_exchange_mtu_req_s *req; FAR struct bt_buf_s *buf; uint16_t mtu; if (!conn || !func) { return -EINVAL; } buf = bt_att_create_pdu(conn, BT_ATT_OP_MTU_REQ, sizeof(*req)); if (!buf) { return -ENOMEM; } /* Select MTU based on the amount of room we have in bt_buf_s including one * extra byte for ATT header. */ mtu = bt_buf_tailroom(buf) + 1; wlinfo("Client MTU %u\n", mtu); req = bt_buf_extend(buf, sizeof(*req)); req->mtu = BT_HOST2LE16(mtu); return gatt_send(conn, buf, gatt_mtu_rsp, func, NULL); } static void att_find_type_rsp(FAR struct bt_conn_s *conn, uint8_t err, FAR const void *pdu, uint16_t length, FAR void *user_data) { FAR const struct bt_att_find_type_rsp_s *rsp = pdu; FAR struct bt_gatt_discover_params_s *params = user_data; uint16_t end_handle = 0; uint16_t start_handle; uint8_t i; wlinfo("err 0x%02x\n", err); if (err) { goto done; } /* Parse attributes found */ for (i = 0; length >= sizeof(rsp->list[i]); i++, length -= sizeof(rsp->list[i])) { FAR const struct bt_gatt_attr_s *attr; start_handle = BT_LE162HOST(rsp->list[i].start_handle); end_handle = BT_LE162HOST(rsp->list[i].end_handle); wlinfo("start_handle 0x%04x end_handle 0x%04x\n", start_handle, end_handle); attr = (&(struct bt_gatt_attr_s)BT_GATT_PRIMARY_SERVICE (start_handle, params->uuid)); if (params->func(attr, params) == BT_GATT_ITER_STOP) { goto done; } } /* Stop if could not parse the whole PDU */ if (length > 0) { goto done; } /* Stop if over the range or the requests */ if (end_handle >= params->end_handle) { goto done; } /* Continue for the last found handle */ params->start_handle = end_handle; if (!bt_gatt_discover(conn, params)) { return; } done: if (params->destroy) { params->destroy(params); } } /**************************************************************************** * Name: bt_gatt_discover * * Description: * This function implements the SIOCBTDISCOVER ioctl command for the * GATT discovery. * ****************************************************************************/ int bt_gatt_discover(FAR struct bt_conn_s *conn, FAR struct bt_gatt_discover_params_s *params) { FAR struct bt_buf_s *buf; FAR struct bt_att_find_type_req_s *req; FAR uint16_t *value; if (!conn || !params->uuid || !params->func || !params->start_handle || !params->end_handle) { return -EINVAL; } buf = bt_att_create_pdu(conn, BT_ATT_OP_FIND_TYPE_REQ, sizeof(*req)); if (!buf) { return -ENOMEM; } req = bt_buf_extend(buf, sizeof(*req)); req->start_handle = BT_HOST2LE16(params->start_handle); req->end_handle = BT_HOST2LE16(params->end_handle); req->type = BT_HOST2LE16(BT_UUID_GATT_PRIMARY); wlinfo("uuid 0x%04x start_handle 0x%04x end_handle 0x%04x\n", params->uuid->u.u16, params->start_handle, params->end_handle); switch (params->uuid->type) { case BT_UUID_16: value = bt_buf_extend(buf, sizeof(*value)); *value = BT_HOST2LE16(params->uuid->u.u16); break; case BT_UUID_128: bt_buf_extend(buf, sizeof(params->uuid->u.u128)); memcpy(req->value, params->uuid->u.u128, sizeof(params->uuid->u.u128)); break; default: wlerr("ERROR: Unknown UUID type %u\n", params->uuid->type); bt_buf_release(buf); return -EINVAL; } return gatt_send(conn, buf, att_find_type_rsp, params, NULL); } static void att_read_type_rsp(FAR struct bt_conn_s *conn, uint8_t err, FAR const void *pdu, uint16_t length, FAR void *user_data) { FAR const struct bt_att_read_type_rsp_s *rsp = pdu; FAR struct bt_gatt_discover_params_s *params = user_data; struct bt_uuid_s uuid; struct bt_gatt_chrc_s value; uint16_t handle = 0; wlinfo("err 0x%02x\n", err); if (err) { goto done; } /* Data can be either in UUID16 or UUID128 */ switch (rsp->len) { case 7: /* UUID16 */ uuid.type = BT_UUID_16; break; case 21: /* UUID128 */ uuid.type = BT_UUID_128; break; default: wlerr("ERROR: Invalid data len %u\n", rsp->len); goto done; } /* Parse characteristics found */ for (length--, pdu = rsp->data; length >= rsp->len; length -= rsp->len, pdu += rsp->len) { FAR const struct bt_gatt_attr_s *attr; FAR const struct bt_att_data_s *data = pdu; FAR struct gatt_chrc_s *chrc = (FAR void *)data->value; handle = BT_LE162HOST(data->handle); /* Handle 0 is invalid */ if (!handle) { goto done; } /* Convert characteristic data, bt_gatt_chrc and gatt_chrc_s have * different formats so the conversion have to be done field by field. */ value.properties = chrc->properties; value.value_handle = BT_LE162HOST(chrc->value_handle); value.uuid = &uuid; switch (uuid.type) { case BT_UUID_16: uuid.u.u16 = BT_LE162HOST(chrc->u.uuid16); break; case BT_UUID_128: memcpy(uuid.u.u128, chrc->u.uuid, sizeof(chrc->u.uuid)); break; } wlinfo("handle 0x%04x properties 0x%02x value_handle 0x%04x\n", handle, value.properties, value.value_handle); /* Skip if UUID is set but doesn't match */ if (params->uuid && bt_uuid_cmp(&uuid, params->uuid)) { continue; } attr = (&(struct bt_gatt_attr_s)BT_GATT_CHARACTERISTIC(handle, &value)); if (params->func(attr, params) == BT_GATT_ITER_STOP) { goto done; } } /* Stop if could not parse the whole PDU */ if (length > 0) { goto done; } /* Next characteristic shall be after current value handle */ params->start_handle = handle; if (params->start_handle < UINT16_MAX) { params->start_handle++; } /* Stop if over the requested range */ if (params->start_handle >= params->end_handle) { goto done; } /* Continue to the next range */ if (!bt_gatt_discover_characteristic(conn, params)) { return; } done: if (params->destroy) { params->destroy(params); } } /**************************************************************************** * Name: bt_gatt_discover_characteristic * * Description: * This function implements the SIOCBTDISCOVER ioctl command for the * GATT discover characteristics type. * ****************************************************************************/ int bt_gatt_discover_characteristic(FAR struct bt_conn_s *conn, FAR struct bt_gatt_discover_params_s *params) { FAR struct bt_buf_s *buf; FAR struct bt_att_read_type_req_s *req; FAR uint16_t *value; if (!conn || !params->func || !params->start_handle || !params->end_handle) { return -EINVAL; } buf = bt_att_create_pdu(conn, BT_ATT_OP_READ_TYPE_REQ, sizeof(*req)); if (!buf) { return -ENOMEM; } req = bt_buf_extend(buf, sizeof(*req)); req->start_handle = BT_HOST2LE16(params->start_handle); req->end_handle = BT_HOST2LE16(params->end_handle); value = bt_buf_extend(buf, sizeof(*value)); *value = BT_HOST2LE16(BT_UUID_GATT_CHRC); wlinfo("start_handle 0x%04x end_handle 0x%04x\n", params->start_handle, params->end_handle); return gatt_send(conn, buf, att_read_type_rsp, params, NULL); } static void att_find_info_rsp(FAR struct bt_conn_s *conn, uint8_t err, FAR const void *pdu, uint16_t length, FAR void *user_data) { FAR const struct bt_att_find_info_rsp_s *rsp = pdu; FAR struct bt_gatt_discover_params_s *params = user_data; struct bt_uuid_s uuid; uint16_t handle = 0; uint8_t len; union { FAR const struct bt_att_info_16_s *i16; FAR const struct bt_att_info_128_s *i128; } info; wlinfo("err 0x%02x\n", err); if (err) { goto done; } /* Data can be either in UUID16 or UUID128 */ switch (rsp->format) { case BT_ATT_INFO_16: uuid.type = BT_UUID_16; len = sizeof(info.i16); break; case BT_ATT_INFO_128: uuid.type = BT_UUID_128; len = sizeof(info.i128); break; default: wlerr("ERROR: Invalid format %u\n", rsp->format); goto done; } /* Parse descriptors found */ for (length--, pdu = rsp->info; length >= len; length -= len, pdu += len) { FAR const struct bt_gatt_attr_s *attr; info.i16 = pdu; handle = BT_LE162HOST(info.i16->handle); switch (uuid.type) { case BT_UUID_16: uuid.u.u16 = BT_LE162HOST(info.i16->uuid); break; case BT_UUID_128: memcpy(uuid.u.u128, info.i128->uuid, sizeof(uuid.u.u128)); break; } wlinfo("handle 0x%04x\n", handle); /* Skip if UUID is set but doesn't match */ if (params->uuid && bt_uuid_cmp(&uuid, params->uuid)) { continue; } attr = (&(struct bt_gatt_attr_s)BT_GATT_DESCRIPTOR (handle, &uuid, 0, NULL, NULL, NULL)); if (params->func(attr, params) == BT_GATT_ITER_STOP) { goto done; } } /* Stop if could not parse the whole PDU */ if (length > 0) { goto done; } /* Next characteristic shall be after current value handle */ params->start_handle = handle; if (params->start_handle < UINT16_MAX) { params->start_handle++; } /* Stop if over the requested range */ if (params->start_handle >= params->end_handle) { goto done; } /* Continue to the next range */ if (!bt_gatt_discover_descriptor(conn, params)) { return; } done: if (params->destroy) { params->destroy(params); } } /**************************************************************************** * Name: bt_gatt_discover_descriptor * * Description: * This function implements the SIOCBTDISCOVER ioctl command for the * GATT discover descriptor type. * ****************************************************************************/ int bt_gatt_discover_descriptor(FAR struct bt_conn_s *conn, FAR struct bt_gatt_discover_params_s *params) { FAR struct bt_buf_s *buf; FAR struct bt_att_find_info_req_s *req; if (!conn || !params->func || !params->start_handle || !params->end_handle) { return -EINVAL; } buf = bt_att_create_pdu(conn, BT_ATT_OP_FIND_INFO_REQ, sizeof(*req)); if (!buf) { return -ENOMEM; } req = bt_buf_extend(buf, sizeof(*req)); req->start_handle = BT_HOST2LE16(params->start_handle); req->end_handle = BT_HOST2LE16(params->end_handle); wlinfo("start_handle 0x%04x end_handle 0x%04x\n", params->start_handle, params->end_handle); return gatt_send(conn, buf, att_find_info_rsp, params, NULL); } static void att_read_rsp(FAR struct bt_conn_s *conn, uint8_t err, FAR const void *pdu, uint16_t length, FAR void *user_data) { bt_gatt_read_func_t func = user_data; wlinfo("err 0x%02x\n", err); if (err) { func(conn, err, NULL, 0); return; } func(conn, 0, pdu, length); } static int gatt_read_blob(FAR struct bt_conn_s *conn, uint16_t handle, uint16_t offset, bt_gatt_read_func_t func) { FAR struct bt_buf_s *buf; FAR struct bt_att_read_blob_req_s *req; buf = bt_att_create_pdu(conn, BT_ATT_OP_READ_BLOB_REQ, sizeof(*req)); if (!buf) { return -ENOMEM; } req = bt_buf_extend(buf, sizeof(*req)); req->handle = BT_HOST2LE16(handle); req->offset = BT_HOST2LE16(offset); wlinfo("handle 0x%04x offset 0x%04x\n", handle, offset); return gatt_send(conn, buf, att_read_rsp, func, NULL); } int bt_gatt_read(FAR struct bt_conn_s *conn, uint16_t handle, uint16_t offset, bt_gatt_read_func_t func) { FAR struct bt_buf_s *buf; FAR struct bt_att_read_req_s *req; if (!conn || !handle || !func) { return -EINVAL; } if (offset) { return gatt_read_blob(conn, handle, offset, func); } buf = bt_att_create_pdu(conn, BT_ATT_OP_READ_REQ, sizeof(*req)); if (!buf) { return -ENOMEM; } req = bt_buf_extend(buf, sizeof(*req)); req->handle = BT_HOST2LE16(handle); wlinfo("handle 0x%04x\n", handle); return gatt_send(conn, buf, att_read_rsp, func, NULL); } static void att_write_rsp(FAR struct bt_conn_s *conn, uint8_t err, FAR const void *pdu, uint16_t length, FAR void *user_data) { bt_gatt_rsp_func_t func = user_data; wlinfo("err 0x%02x\n", err); func(conn, err); } static int gatt_write_cmd(FAR struct bt_conn_s *conn, uint16_t handle, FAR const void *data, uint16_t length) { FAR struct bt_buf_s *buf; FAR struct bt_att_write_cmd_s *cmd; buf = bt_att_create_pdu(conn, BT_ATT_OP_WRITE_CMD, sizeof(*cmd) + length); if (!buf) { return -ENOMEM; } cmd = bt_buf_extend(buf, sizeof(*cmd)); cmd->handle = BT_HOST2LE16(handle); memcpy(cmd->value, data, length); bt_buf_extend(buf, length); wlinfo("handle 0x%04x length %u\n", handle, length); return gatt_send(conn, buf, NULL, NULL, NULL); } int bt_gatt_write(FAR struct bt_conn_s *conn, uint16_t handle, FAR const void *data, uint16_t length, bt_gatt_rsp_func_t func) { FAR struct bt_buf_s *buf; FAR struct bt_att_write_req_s *req; if (!conn || !handle) { return -EINVAL; } if (!func) { return gatt_write_cmd(conn, handle, data, length); } buf = bt_att_create_pdu(conn, BT_ATT_OP_WRITE_REQ, sizeof(*req) + length); if (!buf) { return -ENOMEM; } req = bt_buf_extend(buf, sizeof(*req)); req->handle = BT_HOST2LE16(handle); memcpy(req->value, data, length); bt_buf_extend(buf, length); wlinfo("handle 0x%04x length %u\n", handle, length); return gatt_send(conn, buf, att_write_rsp, func, NULL); } void bt_gatt_cancel(FAR struct bt_conn_s *conn) { bt_att_cancel(conn); } int bt_gatt_read_multiple(FAR struct bt_conn_s *conn, FAR const uint16_t *handles, size_t count, bt_gatt_read_func_t func) { FAR struct bt_buf_s *buf; uint8_t i; if (!conn && conn->state != BT_CONN_CONNECTED) { return -ENOTCONN; } if (!handles || count < 2 || !func) { return -EINVAL; } buf = bt_att_create_pdu(conn, BT_ATT_OP_READ_MULT_REQ, count * sizeof(*handles)); if (!buf) { return -ENOMEM; } for (i = 0; i < count; i++) { bt_buf_put_le16(buf, handles[i]); } return gatt_send(conn, buf, att_read_rsp, func, NULL); }