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pigweed / third_party / github / zephyrproject-rtos / zephyr / bd6e04411e6cfb34ff871b3436f7b05bdcd639fb / . / subsys / bluetooth / host / att.c
blob: 7ef9c58259b1f9b4bae9881c76185514c1685cad [file] [log] [blame]
/* att.c - Attribute protocol handling */
/*
* Copyright (c) 2015-2016 Intel Corporation
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <zephyr.h>
#include <string.h>
#include <errno.h>
#include <stdbool.h>
#include <sys/atomic.h>
#include <sys/byteorder.h>
#include <sys/util.h>
#include <bluetooth/hci.h>
#include <bluetooth/bluetooth.h>
#include <bluetooth/uuid.h>
#include <bluetooth/gatt.h>
#include <bluetooth/hci_driver.h>
#define BT_DBG_ENABLED IS_ENABLED(CONFIG_BT_DEBUG_ATT)
#define LOG_MODULE_NAME bt_att
#include "common/log.h"
#include "hci_core.h"
#include "conn_internal.h"
#include "l2cap_internal.h"
#include "smp.h"
#include "att_internal.h"
#include "gatt_internal.h"
#define ATT_CHAN(_ch) CONTAINER_OF(_ch, struct bt_att, chan.chan)
#define ATT_REQ(_node) CONTAINER_OF(_node, struct bt_att_req, node)
#define ATT_CMD_MASK 0x40
#define ATT_TIMEOUT K_SECONDS(30)
typedef enum __packed {
ATT_COMMAND,
ATT_REQUEST,
ATT_RESPONSE,
ATT_NOTIFICATION,
ATT_CONFIRMATION,
ATT_INDICATION,
ATT_UNKNOWN,
} att_type_t;
static att_type_t att_op_get_type(u8_t op);
#if CONFIG_BT_ATT_PREPARE_COUNT > 0
struct bt_attr_data {
u16_t handle;
u16_t offset;
};
/* Pool for incoming ATT packets */
NET_BUF_POOL_DEFINE(prep_pool, CONFIG_BT_ATT_PREPARE_COUNT, BT_ATT_MTU,
sizeof(struct bt_attr_data), NULL);
#endif /* CONFIG_BT_ATT_PREPARE_COUNT */
enum {
ATT_PENDING_RSP,
ATT_PENDING_CFM,
ATT_DISCONNECTED,
/* Total number of flags - must be at the end of the enum */
ATT_NUM_FLAGS,
};
/* ATT channel specific context */
struct bt_att {
/* The channel this context is associated with */
struct bt_l2cap_le_chan chan;
ATOMIC_DEFINE(flags, ATT_NUM_FLAGS);
struct bt_att_req *req;
sys_slist_t reqs;
struct k_delayed_work timeout_work;
struct k_sem tx_sem;
struct k_fifo tx_queue;
#if CONFIG_BT_ATT_PREPARE_COUNT > 0
struct k_fifo prep_queue;
#endif
};
static struct bt_att bt_req_pool[CONFIG_BT_MAX_CONN];
static struct bt_att_req cancel;
static void att_req_destroy(struct bt_att_req *req)
{
BT_DBG("req %p", req);
if (req->buf) {
net_buf_unref(req->buf);
}
if (req->destroy) {
req->destroy(req);
}
(void)memset(req, 0, sizeof(*req));
}
static struct bt_att *att_get(struct bt_conn *conn)
{
struct bt_l2cap_chan *chan;
chan = bt_l2cap_le_lookup_tx_cid(conn, BT_L2CAP_CID_ATT);
__ASSERT(chan, "No ATT channel found");
return CONTAINER_OF(chan, struct bt_att, chan);
}
static bt_conn_tx_cb_t att_cb(struct net_buf *buf);
static int att_send(struct bt_conn *conn, struct net_buf *buf,
bt_conn_tx_cb_t cb, void *user_data)
{
struct bt_att_hdr *hdr;
hdr = (void *)buf->data;
BT_DBG("code 0x%02x", hdr->code);
if (hdr->code == BT_ATT_OP_SIGNED_WRITE_CMD) {
int err;
err = bt_smp_sign(conn, buf);
if (err) {
BT_ERR("Error signing data");
return err;
}
}
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, buf, cb ? cb : att_cb(buf),
user_data);
return 0;
}
void att_pdu_sent(struct bt_conn *conn, void *user_data)
{
struct bt_att *att = att_get(conn);
struct net_buf *buf;
BT_DBG("conn %p att %p", conn, att);
while ((buf = net_buf_get(&att->tx_queue, K_NO_WAIT))) {
/* Check if the queued buf is a request */
if (att->req && att->req->buf == buf) {
/* Save request state so it can be resent */
net_buf_simple_save(&att->req->buf->b,
&att->req->state);
}
if (!att_send(conn, buf, NULL, NULL)) {
return;
}
/* If the buffer cannot be send unref it */
net_buf_unref(buf);
}
k_sem_give(&att->tx_sem);
}
void att_cfm_sent(struct bt_conn *conn, void *user_data)
{
struct bt_att *att = att_get(conn);
BT_DBG("conn %p att %p", conn, att);
if (IS_ENABLED(CONFIG_BT_ATT_ENFORCE_FLOW)) {
atomic_clear_bit(att->flags, ATT_PENDING_CFM);
}
att_pdu_sent(conn, user_data);
}
void att_rsp_sent(struct bt_conn *conn, void *user_data)
{
struct bt_att *att = att_get(conn);
BT_DBG("conn %p att %p", conn, att);
if (IS_ENABLED(CONFIG_BT_ATT_ENFORCE_FLOW)) {
atomic_clear_bit(att->flags, ATT_PENDING_RSP);
}
att_pdu_sent(conn, user_data);
}
void att_req_sent(struct bt_conn *conn, void *user_data)
{
struct bt_att *att = att_get(conn);
BT_DBG("conn %p att %p att->req %p", conn, att, att->req);
/* Start timeout work */
if (att->req) {
k_delayed_work_submit(&att->timeout_work, ATT_TIMEOUT);
}
att_pdu_sent(conn, user_data);
}
static bt_conn_tx_cb_t att_cb(struct net_buf *buf)
{
switch (att_op_get_type(buf->data[0])) {
case ATT_RESPONSE:
return att_rsp_sent;
case ATT_CONFIRMATION:
return att_cfm_sent;
case ATT_REQUEST:
case ATT_INDICATION:
return att_req_sent;
default:
return att_pdu_sent;
}
}
static void send_err_rsp(struct bt_conn *conn, u8_t req, u16_t handle,
u8_t err)
{
struct bt_att_error_rsp *rsp;
struct net_buf *buf;
/* Ignore opcode 0x00 */
if (!req) {
return;
}
buf = bt_att_create_pdu(conn, BT_ATT_OP_ERROR_RSP, sizeof(*rsp));
if (!buf) {
return;
}
rsp = net_buf_add(buf, sizeof(*rsp));
rsp->request = req;
rsp->handle = sys_cpu_to_le16(handle);
rsp->error = err;
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, buf, att_rsp_sent, NULL);
}
static u8_t att_mtu_req(struct bt_att *att, struct net_buf *buf)
{
struct bt_conn *conn = att->chan.chan.conn;
struct bt_att_exchange_mtu_req *req;
struct bt_att_exchange_mtu_rsp *rsp;
struct net_buf *pdu;
u16_t mtu_client, mtu_server;
req = (void *)buf->data;
mtu_client = sys_le16_to_cpu(req->mtu);
BT_DBG("Client MTU %u", mtu_client);
/* Check if MTU is valid */
if (mtu_client < BT_ATT_DEFAULT_LE_MTU) {
return BT_ATT_ERR_INVALID_PDU;
}
pdu = bt_att_create_pdu(conn, BT_ATT_OP_MTU_RSP, sizeof(*rsp));
if (!pdu) {
return BT_ATT_ERR_UNLIKELY;
}
mtu_server = BT_ATT_MTU;
BT_DBG("Server MTU %u", mtu_server);
rsp = net_buf_add(pdu, sizeof(*rsp));
rsp->mtu = sys_cpu_to_le16(mtu_server);
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, pdu, att_rsp_sent, NULL);
/* BLUETOOTH SPECIFICATION Version 4.2 [Vol 3, Part F] page 484:
*
* A device's Exchange MTU Request shall contain the same MTU as the
* device's Exchange MTU Response (i.e. the MTU shall be symmetric).
*/
att->chan.rx.mtu = MIN(mtu_client, mtu_server);
att->chan.tx.mtu = att->chan.rx.mtu;
BT_DBG("Negotiated MTU %u", att->chan.rx.mtu);
return 0;
}
static inline bool att_is_connected(struct bt_att *att)
{
return (att->chan.chan.conn->state != BT_CONN_CONNECTED ||
!atomic_test_bit(att->flags, ATT_DISCONNECTED));
}
static int att_send_req(struct bt_att *att, struct bt_att_req *req)
{
__ASSERT_NO_MSG(req);
__ASSERT_NO_MSG(req->func);
__ASSERT_NO_MSG(!att->req);
BT_DBG("req %p", req);
att->req = req;
if (k_sem_take(&att->tx_sem, K_NO_WAIT) < 0) {
k_fifo_put(&att->tx_queue, req->buf);
return 0;
}
/* Save request state so it can be resent */
net_buf_simple_save(&req->buf->b, &req->state);
/* Keep a reference for resending in case of an error */
bt_l2cap_send_cb(att->chan.chan.conn, BT_L2CAP_CID_ATT,
net_buf_ref(req->buf), att_cb(req->buf), NULL);
return 0;
}
static void att_process(struct bt_att *att)
{
sys_snode_t *node;
BT_DBG("");
/* Pull next request from the list */
node = sys_slist_get(&att->reqs);
if (!node) {
return;
}
att_send_req(att, ATT_REQ(node));
}
static u8_t att_handle_rsp(struct bt_att *att, void *pdu, u16_t len, u8_t err)
{
bt_att_func_t func;
BT_DBG("err 0x%02x len %u: %s", err, len, bt_hex(pdu, len));
/* Cancel timeout if ongoing */
k_delayed_work_cancel(&att->timeout_work);
if (!att->req) {
BT_WARN("No pending ATT request");
goto process;
}
/* Check if request has been cancelled */
if (att->req == &cancel) {
att->req = NULL;
goto process;
}
/* Release original buffer */
if (att->req->buf) {
net_buf_unref(att->req->buf);
att->req->buf = NULL;
}
/* Reset func so it can be reused by the callback */
func = att->req->func;
att->req->func = NULL;
func(att->chan.chan.conn, err, pdu, len, att->req);
/* Don't destroy if callback had reused the request */
if (!att->req->func) {
att_req_destroy(att->req);
}
att->req = NULL;
process:
/* Process pending requests */
att_process(att);
return 0;
}
#if defined(CONFIG_BT_GATT_CLIENT)
static u8_t att_mtu_rsp(struct bt_att *att, struct net_buf *buf)
{
struct bt_att_exchange_mtu_rsp *rsp;
u16_t mtu;
if (!att) {
return 0;
}
rsp = (void *)buf->data;
mtu = sys_le16_to_cpu(rsp->mtu);
BT_DBG("Server MTU %u", mtu);
/* Check if MTU is valid */
if (mtu < BT_ATT_DEFAULT_LE_MTU) {
return att_handle_rsp(att, NULL, 0, BT_ATT_ERR_INVALID_PDU);
}
att->chan.rx.mtu = MIN(mtu, BT_ATT_MTU);
/* BLUETOOTH SPECIFICATION Version 4.2 [Vol 3, Part F] page 484:
*
* A device's Exchange MTU Request shall contain the same MTU as the
* device's Exchange MTU Response (i.e. the MTU shall be symmetric).
*/
att->chan.tx.mtu = att->chan.rx.mtu;
BT_DBG("Negotiated MTU %u", att->chan.rx.mtu);
return att_handle_rsp(att, rsp, buf->len, 0);
}
#endif /* CONFIG_BT_GATT_CLIENT */
static bool range_is_valid(u16_t start, u16_t end, u16_t *err)
{
/* Handle 0 is invalid */
if (!start || !end) {
if (err) {
*err = 0U;
}
return false;
}
/* Check if range is valid */
if (start > end) {
if (err) {
*err = start;
}
return false;
}
return true;
}
struct find_info_data {
struct bt_att *att;
struct net_buf *buf;
struct bt_att_find_info_rsp *rsp;
union {
struct bt_att_info_16 *info16;
struct bt_att_info_128 *info128;
};
};
static u8_t find_info_cb(const struct bt_gatt_attr *attr, void *user_data)
{
struct find_info_data *data = user_data;
struct bt_att *att = data->att;
BT_DBG("handle 0x%04x", attr->handle);
/* Initialize rsp at first entry */
if (!data->rsp) {
data->rsp = net_buf_add(data->buf, sizeof(*data->rsp));
data->rsp->format = (attr->uuid->type == BT_UUID_TYPE_16) ?
BT_ATT_INFO_16 : BT_ATT_INFO_128;
}
switch (data->rsp->format) {
case BT_ATT_INFO_16:
if (attr->uuid->type != BT_UUID_TYPE_16) {
return BT_GATT_ITER_STOP;
}
/* Fast forward to next item position */
data->info16 = net_buf_add(data->buf, sizeof(*data->info16));
data->info16->handle = sys_cpu_to_le16(attr->handle);
data->info16->uuid = sys_cpu_to_le16(BT_UUID_16(attr->uuid)->val);
if (att->chan.tx.mtu - data->buf->len >
sizeof(*data->info16)) {
return BT_GATT_ITER_CONTINUE;
}
break;
case BT_ATT_INFO_128:
if (attr->uuid->type != BT_UUID_TYPE_128) {
return BT_GATT_ITER_STOP;
}
/* Fast forward to next item position */
data->info128 = net_buf_add(data->buf, sizeof(*data->info128));
data->info128->handle = sys_cpu_to_le16(attr->handle);
memcpy(data->info128->uuid, BT_UUID_128(attr->uuid)->val,
sizeof(data->info128->uuid));
if (att->chan.tx.mtu - data->buf->len >
sizeof(*data->info128)) {
return BT_GATT_ITER_CONTINUE;
}
}
return BT_GATT_ITER_STOP;
}
static u8_t att_find_info_rsp(struct bt_att *att, u16_t start_handle,
u16_t end_handle)
{
struct bt_conn *conn = att->chan.chan.conn;
struct find_info_data data;
(void)memset(&data, 0, sizeof(data));
data.buf = bt_att_create_pdu(conn, BT_ATT_OP_FIND_INFO_RSP, 0);
if (!data.buf) {
return BT_ATT_ERR_UNLIKELY;
}
data.att = att;
bt_gatt_foreach_attr(start_handle, end_handle, find_info_cb, &data);
if (!data.rsp) {
net_buf_unref(data.buf);
/* Respond since handle is set */
send_err_rsp(conn, BT_ATT_OP_FIND_INFO_REQ, start_handle,
BT_ATT_ERR_ATTRIBUTE_NOT_FOUND);
return 0;
}
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, data.buf, att_rsp_sent, NULL);
return 0;
}
static u8_t att_find_info_req(struct bt_att *att, struct net_buf *buf)
{
struct bt_conn *conn = att->chan.chan.conn;
struct bt_att_find_info_req *req;
u16_t start_handle, end_handle, err_handle;
req = (void *)buf->data;
start_handle = sys_le16_to_cpu(req->start_handle);
end_handle = sys_le16_to_cpu(req->end_handle);
BT_DBG("start_handle 0x%04x end_handle 0x%04x", start_handle,
end_handle);
if (!range_is_valid(start_handle, end_handle, &err_handle)) {
send_err_rsp(conn, BT_ATT_OP_FIND_INFO_REQ, err_handle,
BT_ATT_ERR_INVALID_HANDLE);
return 0;
}
return att_find_info_rsp(att, start_handle, end_handle);
}
struct find_type_data {
struct bt_att *att;
struct net_buf *buf;
struct bt_att_handle_group *group;
const void *value;
u8_t value_len;
u8_t err;
};
static u8_t find_type_cb(const struct bt_gatt_attr *attr, void *user_data)
{
struct find_type_data *data = user_data;
struct bt_att *att = data->att;
struct bt_conn *conn = att->chan.chan.conn;
int read;
u8_t uuid[16];
/* Skip secondary services */
if (!bt_uuid_cmp(attr->uuid, BT_UUID_GATT_SECONDARY)) {
goto skip;
}
/* Update group end_handle if not a primary service */
if (bt_uuid_cmp(attr->uuid, BT_UUID_GATT_PRIMARY)) {
if (data->group &&
attr->handle > sys_le16_to_cpu(data->group->end_handle)) {
data->group->end_handle = sys_cpu_to_le16(attr->handle);
}
return BT_GATT_ITER_CONTINUE;
}
BT_DBG("handle 0x%04x", attr->handle);
/* stop if there is no space left */
if (att->chan.tx.mtu - data->buf->len < sizeof(*data->group)) {
return BT_GATT_ITER_STOP;
}
/* Read attribute value and store in the buffer */
read = attr->read(conn, attr, uuid, sizeof(uuid), 0);
if (read < 0) {
/*
* Since we don't know if it is the service with requested UUID,
* we cannot respond with an error to this request.
*/
goto skip;
}
/* Check if data matches */
if (read != data->value_len) {
/* Use bt_uuid_cmp() to compare UUIDs of different form. */
struct bt_uuid_128 ref_uuid;
struct bt_uuid_128 recvd_uuid;
if (!bt_uuid_create(&recvd_uuid.uuid, data->value, data->value_len)) {
BT_WARN("Unable to create UUID: size %u", data->value_len);
goto skip;
}
if (!bt_uuid_create(&ref_uuid.uuid, uuid, read)) {
BT_WARN("Unable to create UUID: size %d", read);
goto skip;
}
if (bt_uuid_cmp(&recvd_uuid.uuid, &ref_uuid.uuid)) {
goto skip;
}
} else if (memcmp(data->value, uuid, read)) {
goto skip;
}
/* If service has been found, error should be cleared */
data->err = 0x00;
/* Fast forward to next item position */
data->group = net_buf_add(data->buf, sizeof(*data->group));
data->group->start_handle = sys_cpu_to_le16(attr->handle);
data->group->end_handle = sys_cpu_to_le16(attr->handle);
/* continue to find the end_handle */
return BT_GATT_ITER_CONTINUE;
skip:
data->group = NULL;
return BT_GATT_ITER_CONTINUE;
}
static u8_t att_find_type_rsp(struct bt_att *att, u16_t start_handle,
u16_t end_handle, const void *value,
u8_t value_len)
{
struct bt_conn *conn = att->chan.chan.conn;
struct find_type_data data;
(void)memset(&data, 0, sizeof(data));
data.buf = bt_att_create_pdu(conn, BT_ATT_OP_FIND_TYPE_RSP, 0);
if (!data.buf) {
return BT_ATT_ERR_UNLIKELY;
}
data.att = att;
data.group = NULL;
data.value = value;
data.value_len = value_len;
/* Pre-set error in case no service will be found */
data.err = BT_ATT_ERR_ATTRIBUTE_NOT_FOUND;
bt_gatt_foreach_attr(start_handle, end_handle, find_type_cb, &data);
/* If error has not been cleared, no service has been found */
if (data.err) {
net_buf_unref(data.buf);
/* Respond since handle is set */
send_err_rsp(conn, BT_ATT_OP_FIND_TYPE_REQ, start_handle,
data.err);
return 0;
}
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, data.buf, att_rsp_sent, NULL);
return 0;
}
static u8_t att_find_type_req(struct bt_att *att, struct net_buf *buf)
{
struct bt_conn *conn = att->chan.chan.conn;
struct bt_att_find_type_req *req;
u16_t start_handle, end_handle, err_handle, type;
u8_t *value;
req = net_buf_pull_mem(buf, sizeof(*req));
start_handle = sys_le16_to_cpu(req->start_handle);
end_handle = sys_le16_to_cpu(req->end_handle);
type = sys_le16_to_cpu(req->type);
value = buf->data;
BT_DBG("start_handle 0x%04x end_handle 0x%04x type %u", start_handle,
end_handle, type);
if (!range_is_valid(start_handle, end_handle, &err_handle)) {
send_err_rsp(conn, BT_ATT_OP_FIND_TYPE_REQ, err_handle,
BT_ATT_ERR_INVALID_HANDLE);
return 0;
}
/* The Attribute Protocol Find By Type Value Request shall be used with
* the Attribute Type parameter set to the UUID for "Primary Service"
* and the Attribute Value set to the 16-bit Bluetooth UUID or 128-bit
* UUID for the specific primary service.
*/
if (bt_uuid_cmp(BT_UUID_DECLARE_16(type), BT_UUID_GATT_PRIMARY)) {
send_err_rsp(conn, BT_ATT_OP_FIND_TYPE_REQ, start_handle,
BT_ATT_ERR_ATTRIBUTE_NOT_FOUND);
return 0;
}
return att_find_type_rsp(att, start_handle, end_handle, value,
buf->len);
}
static u8_t err_to_att(int err)
{
BT_DBG("%d", err);
if (err < 0 && err >= -0xff) {
return -err;
}
return BT_ATT_ERR_UNLIKELY;
}
struct read_type_data {
struct bt_att *att;
struct bt_uuid *uuid;
struct net_buf *buf;
struct bt_att_read_type_rsp *rsp;
struct bt_att_data *item;
u8_t err;
};
static u8_t read_type_cb(const struct bt_gatt_attr *attr, void *user_data)
{
struct read_type_data *data = user_data;
struct bt_att *att = data->att;
struct bt_conn *conn = att->chan.chan.conn;
int read;
/* Skip if doesn't match */
if (bt_uuid_cmp(attr->uuid, data->uuid)) {
return BT_GATT_ITER_CONTINUE;
}
BT_DBG("handle 0x%04x", attr->handle);
/*
* If an attribute in the set of requested attributes would cause an
* Error Response then this attribute cannot be included in a
* Read By Type Response and the attributes before this attribute
* shall be returned
*
* If the first attribute in the set of requested attributes would
* cause an Error Response then no other attributes in the requested
* attributes can be considered.
*/
data->err = bt_gatt_check_perm(conn, attr, BT_GATT_PERM_READ_MASK);
if (data->err) {
if (data->rsp->len) {
data->err = 0x00;
}
return BT_GATT_ITER_STOP;
}
/*
* If any attribute is founded in handle range it means that error
* should be changed from pre-set: attr not found error to no error.
*/
data->err = 0x00;
/* Fast forward to next item position */
data->item = net_buf_add(data->buf, sizeof(*data->item));
data->item->handle = sys_cpu_to_le16(attr->handle);
/* Read attribute value and store in the buffer */
read = attr->read(conn, attr, data->buf->data + data->buf->len,
att->chan.tx.mtu - data->buf->len, 0);
if (read < 0) {
data->err = err_to_att(read);
return BT_GATT_ITER_STOP;
}
if (!data->rsp->len) {
/* Set len to be the first item found */
data->rsp->len = read + sizeof(*data->item);
} else if (data->rsp->len != read + sizeof(*data->item)) {
/* All items should have the same size */
data->buf->len -= sizeof(*data->item);
return BT_GATT_ITER_STOP;
}
net_buf_add(data->buf, read);
/* return true only if there are still space for more items */
return att->chan.tx.mtu - data->buf->len > data->rsp->len ?
BT_GATT_ITER_CONTINUE : BT_GATT_ITER_STOP;
}
static u8_t att_read_type_rsp(struct bt_att *att, struct bt_uuid *uuid,
u16_t start_handle, u16_t end_handle)
{
struct bt_conn *conn = att->chan.chan.conn;
struct read_type_data data;
(void)memset(&data, 0, sizeof(data));
data.buf = bt_att_create_pdu(conn, BT_ATT_OP_READ_TYPE_RSP,
sizeof(*data.rsp));
if (!data.buf) {
return BT_ATT_ERR_UNLIKELY;
}
data.att = att;
data.uuid = uuid;
data.rsp = net_buf_add(data.buf, sizeof(*data.rsp));
data.rsp->len = 0U;
/* Pre-set error if no attr will be found in handle */
data.err = BT_ATT_ERR_ATTRIBUTE_NOT_FOUND;
bt_gatt_foreach_attr(start_handle, end_handle, read_type_cb, &data);
if (data.err) {
net_buf_unref(data.buf);
/* Response here since handle is set */
send_err_rsp(conn, BT_ATT_OP_READ_TYPE_REQ, start_handle,
data.err);
return 0;
}
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, data.buf, att_rsp_sent, NULL);
return 0;
}
static u8_t att_read_type_req(struct bt_att *att, struct net_buf *buf)
{
struct bt_conn *conn = att->chan.chan.conn;
struct bt_att_read_type_req *req;
u16_t start_handle, end_handle, err_handle;
union {
struct bt_uuid uuid;
struct bt_uuid_16 u16;
struct bt_uuid_128 u128;
} u;
u8_t uuid_len = buf->len - sizeof(*req);
/* Type can only be UUID16 or UUID128 */
if (uuid_len != 2 && uuid_len != 16) {
return BT_ATT_ERR_INVALID_PDU;
}
req = net_buf_pull_mem(buf, sizeof(*req));
start_handle = sys_le16_to_cpu(req->start_handle);
end_handle = sys_le16_to_cpu(req->end_handle);
if (!bt_uuid_create(&u.uuid, req->uuid, uuid_len)) {
return BT_ATT_ERR_UNLIKELY;
}
BT_DBG("start_handle 0x%04x end_handle 0x%04x type %s",
start_handle, end_handle, bt_uuid_str(&u.uuid));
if (!range_is_valid(start_handle, end_handle, &err_handle)) {
send_err_rsp(conn, BT_ATT_OP_READ_TYPE_REQ, err_handle,
BT_ATT_ERR_INVALID_HANDLE);
return 0;
}
return att_read_type_rsp(att, &u.uuid, start_handle, end_handle);
}
struct read_data {
struct bt_att *att;
u16_t offset;
struct net_buf *buf;
struct bt_att_read_rsp *rsp;
u8_t err;
};
static u8_t read_cb(const struct bt_gatt_attr *attr, void *user_data)
{
struct read_data *data = user_data;
struct bt_att *att = data->att;
struct bt_conn *conn = att->chan.chan.conn;
int read;
BT_DBG("handle 0x%04x", attr->handle);
data->rsp = net_buf_add(data->buf, sizeof(*data->rsp));
/*
* If any attribute is founded in handle range it means that error
* should be changed from pre-set: invalid handle error to no error.
*/
data->err = 0x00;
/* Check attribute permissions */
data->err = bt_gatt_check_perm(conn, attr, BT_GATT_PERM_READ_MASK);
if (data->err) {
return BT_GATT_ITER_STOP;
}
/* Read attribute value and store in the buffer */
read = attr->read(conn, attr, data->buf->data + data->buf->len,
att->chan.tx.mtu - data->buf->len, data->offset);
if (read < 0) {
data->err = err_to_att(read);
return BT_GATT_ITER_STOP;
}
net_buf_add(data->buf, read);
return BT_GATT_ITER_CONTINUE;
}
static u8_t att_read_rsp(struct bt_att *att, u8_t op, u8_t rsp, u16_t handle,
u16_t offset)
{
struct bt_conn *conn = att->chan.chan.conn;
struct read_data data;
if (!bt_gatt_change_aware(conn, true)) {
return BT_ATT_ERR_DB_OUT_OF_SYNC;
}
if (!handle) {
return BT_ATT_ERR_INVALID_HANDLE;
}
(void)memset(&data, 0, sizeof(data));
data.buf = bt_att_create_pdu(conn, rsp, 0);
if (!data.buf) {
return BT_ATT_ERR_UNLIKELY;
}
data.att = att;
data.offset = offset;
/* Pre-set error if no attr will be found in handle */
data.err = BT_ATT_ERR_INVALID_HANDLE;
bt_gatt_foreach_attr(handle, handle, read_cb, &data);
/* In case of error discard data and respond with an error */
if (data.err) {
net_buf_unref(data.buf);
/* Respond here since handle is set */
send_err_rsp(conn, op, handle, data.err);
return 0;
}
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, data.buf, att_rsp_sent, NULL);
return 0;
}
static u8_t att_read_req(struct bt_att *att, struct net_buf *buf)
{
struct bt_att_read_req *req;
u16_t handle;
req = (void *)buf->data;
handle = sys_le16_to_cpu(req->handle);
BT_DBG("handle 0x%04x", handle);
return att_read_rsp(att, BT_ATT_OP_READ_REQ, BT_ATT_OP_READ_RSP,
handle, 0);
}
static u8_t att_read_blob_req(struct bt_att *att, struct net_buf *buf)
{
struct bt_att_read_blob_req *req;
u16_t handle, offset;
req = (void *)buf->data;
handle = sys_le16_to_cpu(req->handle);
offset = sys_le16_to_cpu(req->offset);
BT_DBG("handle 0x%04x offset %u", handle, offset);
return att_read_rsp(att, BT_ATT_OP_READ_BLOB_REQ,
BT_ATT_OP_READ_BLOB_RSP, handle, offset);
}
#if defined(CONFIG_BT_GATT_READ_MULTIPLE)
static u8_t att_read_mult_req(struct bt_att *att, struct net_buf *buf)
{
struct bt_conn *conn = att->chan.chan.conn;
struct read_data data;
u16_t handle;
(void)memset(&data, 0, sizeof(data));
data.buf = bt_att_create_pdu(conn, BT_ATT_OP_READ_MULT_RSP, 0);
if (!data.buf) {
return BT_ATT_ERR_UNLIKELY;
}
data.att = att;
while (buf->len >= sizeof(u16_t)) {
handle = net_buf_pull_le16(buf);
BT_DBG("handle 0x%04x ", handle);
/* An Error Response shall be sent by the server in response to
* the Read Multiple Request [....] if a read operation is not
* permitted on any of the Characteristic Values.
*
* If handle is not valid then return invalid handle error.
* If handle is found error will be cleared by read_cb.
*/
data.err = BT_ATT_ERR_INVALID_HANDLE;
bt_gatt_foreach_attr(handle, handle, read_cb, &data);
/* Stop reading in case of error */
if (data.err) {
net_buf_unref(data.buf);
/* Respond here since handle is set */
send_err_rsp(conn, BT_ATT_OP_READ_MULT_REQ, handle,
data.err);
return 0;
}
}
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, data.buf, att_rsp_sent, NULL);
return 0;
}
#endif /* CONFIG_BT_GATT_READ_MULTIPLE */
struct read_group_data {
struct bt_att *att;
struct bt_uuid *uuid;
struct net_buf *buf;
struct bt_att_read_group_rsp *rsp;
struct bt_att_group_data *group;
};
static u8_t read_group_cb(const struct bt_gatt_attr *attr, void *user_data)
{
struct read_group_data *data = user_data;
struct bt_att *att = data->att;
struct bt_conn *conn = att->chan.chan.conn;
int read;
/* Update group end_handle if attribute is not a service */
if (bt_uuid_cmp(attr->uuid, BT_UUID_GATT_PRIMARY) &&
bt_uuid_cmp(attr->uuid, BT_UUID_GATT_SECONDARY)) {
if (data->group &&
attr->handle > sys_le16_to_cpu(data->group->end_handle)) {
data->group->end_handle = sys_cpu_to_le16(attr->handle);
}
return BT_GATT_ITER_CONTINUE;
}
/* If Group Type don't match skip */
if (bt_uuid_cmp(attr->uuid, data->uuid)) {
data->group = NULL;
return BT_GATT_ITER_CONTINUE;
}
BT_DBG("handle 0x%04x", attr->handle);
/* Stop if there is no space left */
if (data->rsp->len &&
att->chan.tx.mtu - data->buf->len < data->rsp->len) {
return BT_GATT_ITER_STOP;
}
/* Fast forward to next group position */
data->group = net_buf_add(data->buf, sizeof(*data->group));
/* Initialize group handle range */
data->group->start_handle = sys_cpu_to_le16(attr->handle);
data->group->end_handle = sys_cpu_to_le16(attr->handle);
/* Read attribute value and store in the buffer */
read = attr->read(conn, attr, data->buf->data + data->buf->len,
att->chan.tx.mtu - data->buf->len, 0);
if (read < 0) {
/* TODO: Handle read errors */
return BT_GATT_ITER_STOP;
}
if (!data->rsp->len) {
/* Set len to be the first group found */
data->rsp->len = read + sizeof(*data->group);
} else if (data->rsp->len != read + sizeof(*data->group)) {
/* All groups entries should have the same size */
data->buf->len -= sizeof(*data->group);
return false;
}
net_buf_add(data->buf, read);
/* Continue to find the end handle */
return BT_GATT_ITER_CONTINUE;
}
static u8_t att_read_group_rsp(struct bt_att *att, struct bt_uuid *uuid,
u16_t start_handle, u16_t end_handle)
{
struct bt_conn *conn = att->chan.chan.conn;
struct read_group_data data;
(void)memset(&data, 0, sizeof(data));
data.buf = bt_att_create_pdu(conn, BT_ATT_OP_READ_GROUP_RSP,
sizeof(*data.rsp));
if (!data.buf) {
return BT_ATT_ERR_UNLIKELY;
}
data.att = att;
data.uuid = uuid;
data.rsp = net_buf_add(data.buf, sizeof(*data.rsp));
data.rsp->len = 0U;
data.group = NULL;
bt_gatt_foreach_attr(start_handle, end_handle, read_group_cb, &data);
if (!data.rsp->len) {
net_buf_unref(data.buf);
/* Respond here since handle is set */
send_err_rsp(conn, BT_ATT_OP_READ_GROUP_REQ, start_handle,
BT_ATT_ERR_ATTRIBUTE_NOT_FOUND);
return 0;
}
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, data.buf, att_rsp_sent, NULL);
return 0;
}
static u8_t att_read_group_req(struct bt_att *att, struct net_buf *buf)
{
struct bt_conn *conn = att->chan.chan.conn;
struct bt_att_read_group_req *req;
u16_t start_handle, end_handle, err_handle;
union {
struct bt_uuid uuid;
struct bt_uuid_16 u16;
struct bt_uuid_128 u128;
} u;
u8_t uuid_len = buf->len - sizeof(*req);
/* Type can only be UUID16 or UUID128 */
if (uuid_len != 2 && uuid_len != 16) {
return BT_ATT_ERR_INVALID_PDU;
}
req = net_buf_pull_mem(buf, sizeof(*req));
start_handle = sys_le16_to_cpu(req->start_handle);
end_handle = sys_le16_to_cpu(req->end_handle);
if (!bt_uuid_create(&u.uuid, req->uuid, uuid_len)) {
return BT_ATT_ERR_UNLIKELY;
}
BT_DBG("start_handle 0x%04x end_handle 0x%04x type %s",
start_handle, end_handle, bt_uuid_str(&u.uuid));
if (!range_is_valid(start_handle, end_handle, &err_handle)) {
send_err_rsp(conn, BT_ATT_OP_READ_GROUP_REQ, err_handle,
BT_ATT_ERR_INVALID_HANDLE);
return 0;
}
/* Core v4.2, Vol 3, sec 2.5.3 Attribute Grouping:
* Not all of the grouping attributes can be used in the ATT
* Read By Group Type Request. The "Primary Service" and "Secondary
* Service" grouping types may be used in the Read By Group Type
* Request. The "Characteristic" grouping type shall not be used in
* the ATT Read By Group Type Request.
*/
if (bt_uuid_cmp(&u.uuid, BT_UUID_GATT_PRIMARY) &&
bt_uuid_cmp(&u.uuid, BT_UUID_GATT_SECONDARY)) {
send_err_rsp(conn, BT_ATT_OP_READ_GROUP_REQ, start_handle,
BT_ATT_ERR_UNSUPPORTED_GROUP_TYPE);
return 0;
}
return att_read_group_rsp(att, &u.uuid, start_handle, end_handle);
}
struct write_data {
struct bt_conn *conn;
struct net_buf *buf;
u8_t req;
const void *value;
u8_t len;
u16_t offset;
u8_t err;
};
static u8_t write_cb(const struct bt_gatt_attr *attr, void *user_data)
{
struct write_data *data = user_data;
int write;
u8_t flags = 0U;
BT_DBG("handle 0x%04x offset %u", attr->handle, data->offset);
/* Check attribute permissions */
data->err = bt_gatt_check_perm(data->conn, attr,
BT_GATT_PERM_WRITE_MASK);
if (data->err) {
return BT_GATT_ITER_STOP;
}
/* Set command flag if not a request */
if (!data->req) {
flags |= BT_GATT_WRITE_FLAG_CMD;
}
/* Write attribute value */
write = attr->write(data->conn, attr, data->value, data->len,
data->offset, flags);
if (write < 0 || write != data->len) {
data->err = err_to_att(write);
return BT_GATT_ITER_STOP;
}
data->err = 0U;
return BT_GATT_ITER_CONTINUE;
}
static u8_t att_write_rsp(struct bt_conn *conn, u8_t req, u8_t rsp,
u16_t handle, u16_t offset, const void *value,
u8_t len)
{
struct write_data data;
if (!bt_gatt_change_aware(conn, req ? true : false)) {
return BT_ATT_ERR_DB_OUT_OF_SYNC;
}
if (!handle) {
return BT_ATT_ERR_INVALID_HANDLE;
}
(void)memset(&data, 0, sizeof(data));
/* Only allocate buf if required to respond */
if (rsp) {
data.buf = bt_att_create_pdu(conn, rsp, 0);
if (!data.buf) {
return BT_ATT_ERR_UNLIKELY;
}
}
data.conn = conn;
data.req = req;
data.offset = offset;
data.value = value;
data.len = len;
data.err = BT_ATT_ERR_INVALID_HANDLE;
bt_gatt_foreach_attr(handle, handle, write_cb, &data);
if (data.err) {
/* In case of error discard data and respond with an error */
if (rsp) {
net_buf_unref(data.buf);
/* Respond here since handle is set */
send_err_rsp(conn, req, handle, data.err);
}
return req == BT_ATT_OP_EXEC_WRITE_REQ ? data.err : 0;
}
if (data.buf) {
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, data.buf,
att_rsp_sent, NULL);
}
return 0;
}
static u8_t att_write_req(struct bt_att *att, struct net_buf *buf)
{
struct bt_conn *conn = att->chan.chan.conn;
u16_t handle;
handle = net_buf_pull_le16(buf);
BT_DBG("handle 0x%04x", handle);
return att_write_rsp(conn, BT_ATT_OP_WRITE_REQ, BT_ATT_OP_WRITE_RSP,
handle, 0, buf->data, buf->len);
}
#if CONFIG_BT_ATT_PREPARE_COUNT > 0
struct prep_data {
struct bt_conn *conn;
struct net_buf *buf;
const void *value;
u8_t len;
u16_t offset;
u8_t err;
};
static u8_t prep_write_cb(const struct bt_gatt_attr *attr, void *user_data)
{
struct prep_data *data = user_data;
struct bt_attr_data *attr_data;
int write;
BT_DBG("handle 0x%04x offset %u", attr->handle, data->offset);
/* Check attribute permissions */
data->err = bt_gatt_check_perm(data->conn, attr,
BT_GATT_PERM_WRITE_MASK);
if (data->err) {
return BT_GATT_ITER_STOP;
}
/* Check if attribute requires handler to accept the data */
if (!(attr->perm & BT_GATT_PERM_PREPARE_WRITE)) {
goto append;
}
/* Write attribute value to check if device is authorized */
write = attr->write(data->conn, attr, data->value, data->len,
data->offset, BT_GATT_WRITE_FLAG_PREPARE);
if (write != 0) {
data->err = err_to_att(write);
return BT_GATT_ITER_STOP;
}
append:
/* Copy data into the outstanding queue */
data->buf = net_buf_alloc(&prep_pool, K_NO_WAIT);
if (!data->buf) {
data->err = BT_ATT_ERR_PREPARE_QUEUE_FULL;
return BT_GATT_ITER_STOP;
}
attr_data = net_buf_user_data(data->buf);
attr_data->handle = attr->handle;
attr_data->offset = data->offset;
net_buf_add_mem(data->buf, data->value, data->len);
data->err = 0U;
return BT_GATT_ITER_CONTINUE;
}
static u8_t att_prep_write_rsp(struct bt_att *att, u16_t handle, u16_t offset,
const void *value, u8_t len)
{
struct bt_conn *conn = att->chan.chan.conn;
struct prep_data data;
struct bt_att_prepare_write_rsp *rsp;
if (!bt_gatt_change_aware(conn, true)) {
return BT_ATT_ERR_DB_OUT_OF_SYNC;
}
if (!handle) {
return BT_ATT_ERR_INVALID_HANDLE;
}
(void)memset(&data, 0, sizeof(data));
data.conn = conn;
data.offset = offset;
data.value = value;
data.len = len;
data.err = BT_ATT_ERR_INVALID_HANDLE;
bt_gatt_foreach_attr(handle, handle, prep_write_cb, &data);
if (data.err) {
/* Respond here since handle is set */
send_err_rsp(conn, BT_ATT_OP_PREPARE_WRITE_REQ, handle,
data.err);
return 0;
}
BT_DBG("buf %p handle 0x%04x offset %u", data.buf, handle, offset);
/* Store buffer in the outstanding queue */
net_buf_put(&att->prep_queue, data.buf);
/* Generate response */
data.buf = bt_att_create_pdu(conn, BT_ATT_OP_PREPARE_WRITE_RSP, 0);
if (!data.buf) {
return BT_ATT_ERR_UNLIKELY;
}
rsp = net_buf_add(data.buf, sizeof(*rsp));
rsp->handle = sys_cpu_to_le16(handle);
rsp->offset = sys_cpu_to_le16(offset);
net_buf_add(data.buf, len);
memcpy(rsp->value, value, len);
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, data.buf, att_rsp_sent, NULL);
return 0;
}
#endif /* CONFIG_BT_ATT_PREPARE_COUNT */
static u8_t att_prepare_write_req(struct bt_att *att, struct net_buf *buf)
{
#if CONFIG_BT_ATT_PREPARE_COUNT == 0
return BT_ATT_ERR_NOT_SUPPORTED;
#else
struct bt_att_prepare_write_req *req;
u16_t handle, offset;
req = net_buf_pull_mem(buf, sizeof(*req));
handle = sys_le16_to_cpu(req->handle);
offset = sys_le16_to_cpu(req->offset);
BT_DBG("handle 0x%04x offset %u", handle, offset);
return att_prep_write_rsp(att, handle, offset, buf->data, buf->len);
#endif /* CONFIG_BT_ATT_PREPARE_COUNT */
}
#if CONFIG_BT_ATT_PREPARE_COUNT > 0
static u8_t att_exec_write_rsp(struct bt_att *att, u8_t flags)
{
struct bt_conn *conn = att->chan.chan.conn;
struct net_buf *buf;
u8_t err = 0U;
while ((buf = net_buf_get(&att->prep_queue, K_NO_WAIT))) {
struct bt_attr_data *data = net_buf_user_data(buf);
BT_DBG("buf %p handle 0x%04x offset %u", buf, data->handle,
data->offset);
/* Just discard the data if an error was set */
if (!err && flags == BT_ATT_FLAG_EXEC) {
err = att_write_rsp(conn, BT_ATT_OP_EXEC_WRITE_REQ, 0,
data->handle, data->offset,
buf->data, buf->len);
if (err) {
/* Respond here since handle is set */
send_err_rsp(conn, BT_ATT_OP_EXEC_WRITE_REQ,
data->handle, err);
}
}
net_buf_unref(buf);
}
if (err) {
return 0;
}
/* Generate response */
buf = bt_att_create_pdu(conn, BT_ATT_OP_EXEC_WRITE_RSP, 0);
if (!buf) {
return BT_ATT_ERR_UNLIKELY;
}
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, buf, att_rsp_sent, NULL);
return 0;
}
#endif /* CONFIG_BT_ATT_PREPARE_COUNT */
static u8_t att_exec_write_req(struct bt_att *att, struct net_buf *buf)
{
#if CONFIG_BT_ATT_PREPARE_COUNT == 0
return BT_ATT_ERR_NOT_SUPPORTED;
#else
struct bt_att_exec_write_req *req;
req = (void *)buf->data;
BT_DBG("flags 0x%02x", req->flags);
return att_exec_write_rsp(att, req->flags);
#endif /* CONFIG_BT_ATT_PREPARE_COUNT */
}
static u8_t att_write_cmd(struct bt_att *att, struct net_buf *buf)
{
struct bt_conn *conn = att->chan.chan.conn;
u16_t handle;
handle = net_buf_pull_le16(buf);
BT_DBG("handle 0x%04x", handle);
return att_write_rsp(conn, 0, 0, handle, 0, buf->data, buf->len);
}
#if defined(CONFIG_BT_SIGNING)
static u8_t att_signed_write_cmd(struct bt_att *att, struct net_buf *buf)
{
struct bt_conn *conn = att->chan.chan.conn;
struct bt_att_signed_write_cmd *req;
u16_t handle;
int err;
req = (void *)buf->data;
handle = sys_le16_to_cpu(req->handle);
BT_DBG("handle 0x%04x", handle);
/* Verifying data requires full buffer including attribute header */
net_buf_push(buf, sizeof(struct bt_att_hdr));
err = bt_smp_sign_verify(conn, buf);
if (err) {
BT_ERR("Error verifying data");
/* No response for this command */
return 0;
}
net_buf_pull(buf, sizeof(struct bt_att_hdr));
net_buf_pull(buf, sizeof(*req));
return att_write_rsp(conn, 0, 0, handle, 0, buf->data,
buf->len - sizeof(struct bt_att_signature));
}
#endif /* CONFIG_BT_SIGNING */
#if defined(CONFIG_BT_GATT_CLIENT)
#if defined(CONFIG_BT_SMP)
static int att_change_security(struct bt_conn *conn, u8_t err)
{
bt_security_t sec;
switch (err) {
case BT_ATT_ERR_INSUFFICIENT_ENCRYPTION:
if (conn->sec_level >= BT_SECURITY_L2)
return -EALREADY;
sec = BT_SECURITY_L2;
break;
case BT_ATT_ERR_AUTHENTICATION:
if (conn->sec_level < BT_SECURITY_L2) {
/* BLUETOOTH SPECIFICATION Version 4.2 [Vol 3, Part C]
* page 375:
*
* If an LTK is not available, the service request
* shall be rejected with the error code 'Insufficient
* Authentication'.
* Note: When the link is not encrypted, the error code
* "Insufficient Authentication" does not indicate that
* MITM protection is required.
*/
sec = BT_SECURITY_L2;
} else if (conn->sec_level < BT_SECURITY_L3) {
/* BLUETOOTH SPECIFICATION Version 4.2 [Vol 3, Part C]
* page 375:
*
* If an authenticated pairing is required but only an
* unauthenticated pairing has occurred and the link is
* currently encrypted, the service request shall be
* rejected with the error code 'Insufficient
* Authentication'.
* Note: When unauthenticated pairing has occurred and
* the link is currently encrypted, the error code
* 'Insufficient Authentication' indicates that MITM
* protection is required.
*/
sec = BT_SECURITY_L3;
} else if (conn->sec_level < BT_SECURITY_L4) {
/* BLUETOOTH SPECIFICATION Version 4.2 [Vol 3, Part C]
* page 375:
*
* If LE Secure Connections authenticated pairing is
* required but LE legacy pairing has occurred and the
* link is currently encrypted, the service request
* shall be rejected with the error code ''Insufficient
* Authentication'.
*/
sec = BT_SECURITY_L4;
} else {
return -EALREADY;
}
break;
default:
return -EINVAL;
}
return bt_conn_set_security(conn, sec);
}
#endif /* CONFIG_BT_SMP */
static u8_t att_error_rsp(struct bt_att *att, struct net_buf *buf)
{
struct bt_att_error_rsp *rsp;
u8_t err;
rsp = (void *)buf->data;
BT_DBG("request 0x%02x handle 0x%04x error 0x%02x", rsp->request,
sys_le16_to_cpu(rsp->handle), rsp->error);
/* Don't retry if there is no req pending or it has been cancelled */
if (!att->req || att->req == &cancel) {
err = BT_ATT_ERR_UNLIKELY;
goto done;
}
if (att->req->buf) {
/* Restore state to be resent */
net_buf_simple_restore(&att->req->buf->b, &att->req->state);
}
err = rsp->error;
#if defined(CONFIG_BT_SMP)
if (att->req->retrying) {
goto done;
}
/* Check if security needs to be changed */
if (!att_change_security(att->chan.chan.conn, err)) {
att->req->retrying = true;
/* Wait security_changed: TODO: Handle fail case */
return 0;
}
#endif /* CONFIG_BT_SMP */
done:
return att_handle_rsp(att, NULL, 0, err);
}
static u8_t att_handle_find_info_rsp(struct bt_att *att, struct net_buf *buf)
{
BT_DBG("");
return att_handle_rsp(att, buf->data, buf->len, 0);
}
static u8_t att_handle_find_type_rsp(struct bt_att *att, struct net_buf *buf)
{
BT_DBG("");
return att_handle_rsp(att, buf->data, buf->len, 0);
}
static u8_t att_handle_read_type_rsp(struct bt_att *att, struct net_buf *buf)
{
BT_DBG("");
return att_handle_rsp(att, buf->data, buf->len, 0);
}
static u8_t att_handle_read_rsp(struct bt_att *att, struct net_buf *buf)
{
BT_DBG("");
return att_handle_rsp(att, buf->data, buf->len, 0);
}
static u8_t att_handle_read_blob_rsp(struct bt_att *att, struct net_buf *buf)
{
BT_DBG("");
return att_handle_rsp(att, buf->data, buf->len, 0);
}
#if defined(CONFIG_BT_GATT_READ_MULTIPLE)
static u8_t att_handle_read_mult_rsp(struct bt_att *att, struct net_buf *buf)
{
BT_DBG("");
return att_handle_rsp(att, buf->data, buf->len, 0);
}
#endif /* CONFIG_BT_GATT_READ_MULTIPLE */
static u8_t att_handle_read_group_rsp(struct bt_att *att, struct net_buf *buf)
{
BT_DBG("");
return att_handle_rsp(att, buf->data, buf->len, 0);
}
static u8_t att_handle_write_rsp(struct bt_att *att, struct net_buf *buf)
{
BT_DBG("");
return att_handle_rsp(att, buf->data, buf->len, 0);
}
static u8_t att_handle_prepare_write_rsp(struct bt_att *att,
struct net_buf *buf)
{
BT_DBG("");
return att_handle_rsp(att, buf->data, buf->len, 0);
}
static u8_t att_handle_exec_write_rsp(struct bt_att *att, struct net_buf *buf)
{
BT_DBG("");
return att_handle_rsp(att, buf->data, buf->len, 0);
}
static u8_t att_notify(struct bt_att *att, struct net_buf *buf)
{
struct bt_conn *conn = att->chan.chan.conn;
u16_t handle;
handle = net_buf_pull_le16(buf);
BT_DBG("handle 0x%04x", handle);
bt_gatt_notification(conn, handle, buf->data, buf->len);
return 0;
}
static u8_t att_indicate(struct bt_att *att, struct net_buf *buf)
{
struct bt_conn *conn = att->chan.chan.conn;
u16_t handle;
handle = net_buf_pull_le16(buf);
BT_DBG("handle 0x%04x", handle);
bt_gatt_notification(conn, handle, buf->data, buf->len);
buf = bt_att_create_pdu(conn, BT_ATT_OP_CONFIRM, 0);
if (!buf) {
return 0;
}
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, buf, att_cfm_sent, NULL);
return 0;
}
#endif /* CONFIG_BT_GATT_CLIENT */
static u8_t att_confirm(struct bt_att *att, struct net_buf *buf)
{
BT_DBG("");
return att_handle_rsp(att, buf->data, buf->len, 0);
}
static const struct att_handler {
u8_t op;
u8_t expect_len;
att_type_t type;
u8_t (*func)(struct bt_att *att, struct net_buf *buf);
} handlers[] = {
{ BT_ATT_OP_MTU_REQ,
sizeof(struct bt_att_exchange_mtu_req),
ATT_REQUEST,
att_mtu_req },
{ BT_ATT_OP_FIND_INFO_REQ,
sizeof(struct bt_att_find_info_req),
ATT_REQUEST,
att_find_info_req },
{ BT_ATT_OP_FIND_TYPE_REQ,
sizeof(struct bt_att_find_type_req),
ATT_REQUEST,
att_find_type_req },
{ BT_ATT_OP_READ_TYPE_REQ,
sizeof(struct bt_att_read_type_req),
ATT_REQUEST,
att_read_type_req },
{ BT_ATT_OP_READ_REQ,
sizeof(struct bt_att_read_req),
ATT_REQUEST,
att_read_req },
{ BT_ATT_OP_READ_BLOB_REQ,
sizeof(struct bt_att_read_blob_req),
ATT_REQUEST,
att_read_blob_req },
#if defined(CONFIG_BT_GATT_READ_MULTIPLE)
{ BT_ATT_OP_READ_MULT_REQ,
BT_ATT_READ_MULT_MIN_LEN_REQ,
ATT_REQUEST,
att_read_mult_req },
#endif /* CONFIG_BT_GATT_READ_MULTIPLE */
{ BT_ATT_OP_READ_GROUP_REQ,
sizeof(struct bt_att_read_group_req),
ATT_REQUEST,
att_read_group_req },
{ BT_ATT_OP_WRITE_REQ,
sizeof(struct bt_att_write_req),
ATT_REQUEST,
att_write_req },
{ BT_ATT_OP_PREPARE_WRITE_REQ,
sizeof(struct bt_att_prepare_write_req),
ATT_REQUEST,
att_prepare_write_req },
{ BT_ATT_OP_EXEC_WRITE_REQ,
sizeof(struct bt_att_exec_write_req),
ATT_REQUEST,
att_exec_write_req },
{ BT_ATT_OP_CONFIRM,
0,
ATT_CONFIRMATION,
att_confirm },
{ BT_ATT_OP_WRITE_CMD,
sizeof(struct bt_att_write_cmd),
ATT_COMMAND,
att_write_cmd },
#if defined(CONFIG_BT_SIGNING)
{ BT_ATT_OP_SIGNED_WRITE_CMD,
(sizeof(struct bt_att_write_cmd) +
sizeof(struct bt_att_signature)),
ATT_COMMAND,
att_signed_write_cmd },
#endif /* CONFIG_BT_SIGNING */
#if defined(CONFIG_BT_GATT_CLIENT)
{ BT_ATT_OP_ERROR_RSP,
sizeof(struct bt_att_error_rsp),
ATT_RESPONSE,
att_error_rsp },
{ BT_ATT_OP_MTU_RSP,
sizeof(struct bt_att_exchange_mtu_rsp),
ATT_RESPONSE,
att_mtu_rsp },
{ BT_ATT_OP_FIND_INFO_RSP,
sizeof(struct bt_att_find_info_rsp),
ATT_RESPONSE,
att_handle_find_info_rsp },
{ BT_ATT_OP_FIND_TYPE_RSP,
sizeof(struct bt_att_find_type_rsp),
ATT_RESPONSE,
att_handle_find_type_rsp },
{ BT_ATT_OP_READ_TYPE_RSP,
sizeof(struct bt_att_read_type_rsp),
ATT_RESPONSE,
att_handle_read_type_rsp },
{ BT_ATT_OP_READ_RSP,
sizeof(struct bt_att_read_rsp),
ATT_RESPONSE,
att_handle_read_rsp },
{ BT_ATT_OP_READ_BLOB_RSP,
sizeof(struct bt_att_read_blob_rsp),
ATT_RESPONSE,
att_handle_read_blob_rsp },
#if defined(CONFIG_BT_GATT_READ_MULTIPLE)
{ BT_ATT_OP_READ_MULT_RSP,
sizeof(struct bt_att_read_mult_rsp),
ATT_RESPONSE,
att_handle_read_mult_rsp },
#endif /* CONFIG_BT_GATT_READ_MULTIPLE */
{ BT_ATT_OP_READ_GROUP_RSP,
sizeof(struct bt_att_read_group_rsp),
ATT_RESPONSE,
att_handle_read_group_rsp },
{ BT_ATT_OP_WRITE_RSP,
0,
ATT_RESPONSE,
att_handle_write_rsp },
{ BT_ATT_OP_PREPARE_WRITE_RSP,
sizeof(struct bt_att_prepare_write_rsp),
ATT_RESPONSE,
att_handle_prepare_write_rsp },
{ BT_ATT_OP_EXEC_WRITE_RSP,
0,
ATT_RESPONSE,
att_handle_exec_write_rsp },
{ BT_ATT_OP_NOTIFY,
sizeof(struct bt_att_notify),
ATT_NOTIFICATION,
att_notify },
{ BT_ATT_OP_INDICATE,
sizeof(struct bt_att_indicate),
ATT_INDICATION,
att_indicate },
#endif /* CONFIG_BT_GATT_CLIENT */
};
static att_type_t att_op_get_type(u8_t op)
{
switch (op) {
case BT_ATT_OP_MTU_REQ:
case BT_ATT_OP_FIND_INFO_REQ:
case BT_ATT_OP_FIND_TYPE_REQ:
case BT_ATT_OP_READ_TYPE_REQ:
case BT_ATT_OP_READ_REQ:
case BT_ATT_OP_READ_BLOB_REQ:
case BT_ATT_OP_READ_MULT_REQ:
case BT_ATT_OP_READ_GROUP_REQ:
case BT_ATT_OP_WRITE_REQ:
case BT_ATT_OP_PREPARE_WRITE_REQ:
case BT_ATT_OP_EXEC_WRITE_REQ:
return ATT_REQUEST;
case BT_ATT_OP_CONFIRM:
return ATT_CONFIRMATION;
case BT_ATT_OP_WRITE_CMD:
case BT_ATT_OP_SIGNED_WRITE_CMD:
return ATT_COMMAND;
case BT_ATT_OP_ERROR_RSP:
case BT_ATT_OP_MTU_RSP:
case BT_ATT_OP_FIND_INFO_RSP:
case BT_ATT_OP_FIND_TYPE_RSP:
case BT_ATT_OP_READ_TYPE_RSP:
case BT_ATT_OP_READ_RSP:
case BT_ATT_OP_READ_BLOB_RSP:
case BT_ATT_OP_READ_MULT_RSP:
case BT_ATT_OP_READ_GROUP_RSP:
case BT_ATT_OP_WRITE_RSP:
case BT_ATT_OP_PREPARE_WRITE_RSP:
case BT_ATT_OP_EXEC_WRITE_RSP:
return ATT_RESPONSE;
case BT_ATT_OP_NOTIFY:
return ATT_NOTIFICATION;
case BT_ATT_OP_INDICATE:
return ATT_INDICATION;
}
if (op & ATT_CMD_MASK) {
return ATT_COMMAND;
}
return ATT_UNKNOWN;
}
static int bt_att_recv(struct bt_l2cap_chan *chan, struct net_buf *buf)
{
struct bt_att *att = ATT_CHAN(chan);
struct bt_att_hdr *hdr;
const struct att_handler *handler;
u8_t err;
size_t i;
if (buf->len < sizeof(*hdr)) {
BT_ERR("Too small ATT PDU received");
return 0;
}
hdr = net_buf_pull_mem(buf, sizeof(*hdr));
BT_DBG("Received ATT code 0x%02x len %u", hdr->code, buf->len);
for (i = 0, handler = NULL; i < ARRAY_SIZE(handlers); i++) {
if (hdr->code == handlers[i].op) {
handler = &handlers[i];
break;
}
}
if (!handler) {
BT_WARN("Unhandled ATT code 0x%02x", hdr->code);
if (att_op_get_type(hdr->code) != ATT_COMMAND) {
send_err_rsp(chan->conn, hdr->code, 0,
BT_ATT_ERR_NOT_SUPPORTED);
}
return 0;
}
if (IS_ENABLED(CONFIG_BT_ATT_ENFORCE_FLOW)) {
if (handler->type == ATT_REQUEST &&
atomic_test_and_set_bit(att->flags, ATT_PENDING_RSP)) {
BT_WARN("Ignoring unexpected request");
return 0;
} else if (handler->type == ATT_INDICATION &&
atomic_test_and_set_bit(att->flags,
ATT_PENDING_CFM)) {
BT_WARN("Ignoring unexpected indication");
return 0;
}
}
if (buf->len < handler->expect_len) {
BT_ERR("Invalid len %u for code 0x%02x", buf->len, hdr->code);
err = BT_ATT_ERR_INVALID_PDU;
} else {
err = handler->func(att, buf);
}
if (handler->type == ATT_REQUEST && err) {
BT_DBG("ATT error 0x%02x", err);
send_err_rsp(chan->conn, hdr->code, 0, err);
}
return 0;
}
static struct bt_att *att_chan_get(struct bt_conn *conn)
{
struct bt_l2cap_chan *chan;
struct bt_att *att;
if (conn->state != BT_CONN_CONNECTED) {
BT_WARN("Not connected");
return NULL;
}
chan = bt_l2cap_le_lookup_rx_cid(conn, BT_L2CAP_CID_ATT);
if (!chan) {
BT_ERR("Unable to find ATT channel");
return NULL;
}
att = ATT_CHAN(chan);
if (atomic_test_bit(att->flags, ATT_DISCONNECTED)) {
BT_WARN("ATT context flagged as disconnected");
return NULL;
}
return att;
}
struct net_buf *bt_att_create_pdu(struct bt_conn *conn, u8_t op, size_t len)
{
struct bt_att_hdr *hdr;
struct net_buf *buf;
struct bt_att *att;
att = att_chan_get(conn);
if (!att) {
return NULL;
}
if (len + sizeof(op) > att->chan.tx.mtu) {
BT_WARN("ATT MTU exceeded, max %u, wanted %zu",
att->chan.tx.mtu, len + sizeof(op));
return NULL;
}
switch (att_op_get_type(op)) {
case ATT_RESPONSE:
case ATT_CONFIRMATION:
/* Use a timeout only when responding/confirming */
buf = bt_l2cap_create_pdu_timeout(NULL, 0, ATT_TIMEOUT);
break;
default:
buf = bt_l2cap_create_pdu(NULL, 0);
}
if (!buf) {
BT_ERR("Unable to allocate buffer for op 0x%02x", op);
return NULL;
}
hdr = net_buf_add(buf, sizeof(*hdr));
hdr->code = op;
return buf;
}
static void att_reset(struct bt_att *att)
{
struct bt_att_req *req, *tmp;
int i;
struct net_buf *buf;
#if CONFIG_BT_ATT_PREPARE_COUNT > 0
/* Discard queued buffers */
while ((buf = k_fifo_get(&att->prep_queue, K_NO_WAIT))) {
net_buf_unref(buf);
}
#endif /* CONFIG_BT_ATT_PREPARE_COUNT > 0 */
while ((buf = k_fifo_get(&att->tx_queue, K_NO_WAIT))) {
net_buf_unref(buf);
}
atomic_set_bit(att->flags, ATT_DISCONNECTED);
/* Ensure that any waiters are woken up */
for (i = 0; i < CONFIG_BT_ATT_TX_MAX; i++) {
k_sem_give(&att->tx_sem);
}
/* Notify pending requests */
SYS_SLIST_FOR_EACH_CONTAINER_SAFE(&att->reqs, req, tmp, node) {
if (req->func) {
req->func(NULL, BT_ATT_ERR_UNLIKELY, NULL, 0, req);
}
att_req_destroy(req);
}
/* Reset list */
sys_slist_init(&att->reqs);
if (!att->req) {
return;
}
/* Notify outstanding request */
att_handle_rsp(att, NULL, 0, BT_ATT_ERR_UNLIKELY);
}
static void att_timeout(struct k_work *work)
{
struct bt_att *att = CONTAINER_OF(work, struct bt_att, timeout_work);
struct bt_l2cap_le_chan *ch = &att->chan;
BT_ERR("ATT Timeout");
/* BLUETOOTH SPECIFICATION Version 4.2 [Vol 3, Part F] page 480:
*
* A transaction not completed within 30 seconds shall time out. Such a
* transaction shall be considered to have failed and the local higher
* layers shall be informed of this failure. No more attribute protocol
* requests, commands, indications or notifications shall be sent to the
* target device on this ATT Bearer.
*/
att_reset(att);
/* Consider the channel disconnected */
bt_gatt_disconnected(ch->chan.conn);
ch->chan.conn = NULL;
}
static void bt_att_connected(struct bt_l2cap_chan *chan)
{
struct bt_att *att = ATT_CHAN(chan);
struct bt_l2cap_le_chan *ch = BT_L2CAP_LE_CHAN(chan);
BT_DBG("chan %p cid 0x%04x", ch, ch->tx.cid);
k_fifo_init(&att->tx_queue);
#if CONFIG_BT_ATT_PREPARE_COUNT > 0
k_fifo_init(&att->prep_queue);
#endif
ch->tx.mtu = BT_ATT_DEFAULT_LE_MTU;
ch->rx.mtu = BT_ATT_DEFAULT_LE_MTU;
k_delayed_work_init(&att->timeout_work, att_timeout);
sys_slist_init(&att->reqs);
}
static void bt_att_disconnected(struct bt_l2cap_chan *chan)
{
struct bt_att *att = ATT_CHAN(chan);
struct bt_l2cap_le_chan *ch = BT_L2CAP_LE_CHAN(chan);
BT_DBG("chan %p cid 0x%04x", ch, ch->tx.cid);
att_reset(att);
bt_gatt_disconnected(ch->chan.conn);
}
#if defined(CONFIG_BT_SMP)
static void bt_att_encrypt_change(struct bt_l2cap_chan *chan,
u8_t hci_status)
{
struct bt_att *att = ATT_CHAN(chan);
struct bt_l2cap_le_chan *ch = BT_L2CAP_LE_CHAN(chan);
struct bt_conn *conn = ch->chan.conn;
BT_DBG("chan %p conn %p handle %u sec_level 0x%02x status 0x%02x", ch,
conn, conn->handle, conn->sec_level, hci_status);
/*
* If status (HCI status of security procedure) is non-zero, notify
* outstanding request about security failure.
*/
if (hci_status) {
att_handle_rsp(att, NULL, 0, BT_ATT_ERR_AUTHENTICATION);
return;
}
bt_gatt_encrypt_change(conn);
if (conn->sec_level == BT_SECURITY_L1) {
return;
}
if (!att->req || !att->req->retrying) {
return;
}
k_sem_take(&att->tx_sem, K_FOREVER);
if (!att_is_connected(att)) {
BT_WARN("Disconnected");
k_sem_give(&att->tx_sem);
return;
}
BT_DBG("Retrying");
/* Resend buffer */
bt_l2cap_send_cb(conn, BT_L2CAP_CID_ATT, att->req->buf,
att_cb(att->req->buf), NULL);
att->req->buf = NULL;
}
#endif /* CONFIG_BT_SMP */
static int bt_att_accept(struct bt_conn *conn, struct bt_l2cap_chan **chan)
{
int i;
static struct bt_l2cap_chan_ops ops = {
.connected = bt_att_connected,
.disconnected = bt_att_disconnected,
.recv = bt_att_recv,
#if defined(CONFIG_BT_SMP)
.encrypt_change = bt_att_encrypt_change,
#endif /* CONFIG_BT_SMP */
};
BT_DBG("conn %p handle %u", conn, conn->handle);
for (i = 0; i < ARRAY_SIZE(bt_req_pool); i++) {
struct bt_att *att = &bt_req_pool[i];
if (att->chan.chan.conn) {
continue;
}
(void)memset(att, 0, sizeof(*att));
att->chan.chan.ops = &ops;
k_sem_init(&att->tx_sem, CONFIG_BT_ATT_TX_MAX,
CONFIG_BT_ATT_TX_MAX);
*chan = &att->chan.chan;
return 0;
}
BT_ERR("No available ATT context for conn %p", conn);
return -ENOMEM;
}
BT_L2CAP_CHANNEL_DEFINE(att_fixed_chan, BT_L2CAP_CID_ATT, bt_att_accept);
void bt_att_init(void)
{
bt_gatt_init();
}
u16_t bt_att_get_mtu(struct bt_conn *conn)
{
struct bt_att *att;
att = att_chan_get(conn);
if (!att) {
return 0;
}
/* tx and rx MTU shall be symmetric */
return att->chan.tx.mtu;
}
int bt_att_send(struct bt_conn *conn, struct net_buf *buf, bt_conn_tx_cb_t cb,
void *user_data)
{
struct bt_att *att;
int err;
if (!conn || !buf) {
return -EINVAL;
}
att = att_chan_get(conn);
if (!att) {
return -ENOTCONN;
}
/* Don't use tx_sem if caller has set it own callback */
if (!cb) {
/* Queue buffer to be send later */
if (k_sem_take(&att->tx_sem, K_NO_WAIT) < 0) {
k_fifo_put(&att->tx_queue, buf);
return 0;
}
}
err = att_send(conn, buf, cb, user_data);
if (err) {
if (!cb) {
k_sem_give(&att->tx_sem);
}
return err;
}
return 0;
}
int bt_att_req_send(struct bt_conn *conn, struct bt_att_req *req)
{
struct bt_att *att;
BT_DBG("conn %p req %p", conn, req);
if (!conn || !req) {
return -EINVAL;
}
att = att_chan_get(conn);
if (!att) {
return -ENOTCONN;
}
/* Check if there is a request outstanding */
if (att->req) {
/* Queue the request to be send later */
sys_slist_append(&att->reqs, &req->node);
return 0;
}
return att_send_req(att, req);
}
void bt_att_req_cancel(struct bt_conn *conn, struct bt_att_req *req)
{
struct bt_att *att;
BT_DBG("req %p", req);
if (!conn || !req) {
return;
}
att = att_chan_get(conn);
if (!att) {
return;
}
/* Check if request is outstanding */
if (att->req == req) {
att->req = &cancel;
} else {
/* Remove request from the list */
sys_slist_find_and_remove(&att->reqs, &req->node);
}
att_req_destroy(req);
}