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coral / bluez-imx / 936ad5ef7b56bd885aacf88502cfee8666d19b4b / . / android / gatt.c
blob: 6b36985d3be265c7d39c1c70dcbcc0f0bab2de57 [file] [log] [blame]
/*
*
* BlueZ - Bluetooth protocol stack for Linux
*
* Copyright (C) 2014 Intel Corporation. All rights reserved.
*
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdbool.h>
#include <stdlib.h>
#include <stdint.h>
#include <glib.h>
#include <errno.h>
#include <sys/socket.h>
#include "ipc.h"
#include "ipc-common.h"
#include "lib/sdp.h"
#include "lib/sdp_lib.h"
#include "lib/uuid.h"
#include "bluetooth.h"
#include "gatt.h"
#include "src/log.h"
#include "hal-msg.h"
#include "utils.h"
#include "src/shared/util.h"
#include "src/shared/queue.h"
#include "src/shared/att.h"
#include "src/shared/gatt-db.h"
#include "src/shared/ad.h"
#include "attrib/gattrib.h"
#include "attrib/att.h"
#include "attrib/gatt.h"
#include "btio/btio.h"
/* set according to Android bt_gatt_client.h */
#define GATT_MAX_ATTR_LEN 600
#define GATT_SUCCESS 0x00000000
#define GATT_FAILURE 0x00000101
#define BASE_UUID16_OFFSET 12
#define GATT_PERM_READ 0x00000001
#define GATT_PERM_READ_ENCRYPTED 0x00000002
#define GATT_PERM_READ_MITM 0x00000004
#define GATT_PERM_READ_AUTHORIZATION 0x00000008
#define GATT_PERM_WRITE 0x00000100
#define GATT_PERM_WRITE_ENCRYPTED 0x00000200
#define GATT_PERM_WRITE_MITM 0x00000400
#define GATT_PERM_WRITE_AUTHORIZATION 0x00000800
#define GATT_PERM_WRITE_SIGNED 0x00010000
#define GATT_PERM_WRITE_SIGNED_MITM 0x00020000
#define GATT_PERM_NONE 0x10000000
#define GATT_PAIR_CONN_TIMEOUT 30
#define GATT_CONN_TIMEOUT 2
static const uint8_t BLUETOOTH_UUID[] = {
0xfb, 0x34, 0x9b, 0x5f, 0x80, 0x00, 0x00, 0x80,
0x00, 0x10, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
};
typedef enum {
DEVICE_DISCONNECTED = 0,
DEVICE_CONNECT_INIT, /* connection procedure initiated */
DEVICE_CONNECT_READY, /* dev found during LE scan */
DEVICE_CONNECTED, /* connection has been established */
} gatt_device_state_t;
static const char *device_state_str[] = {
"DISCONNECTED",
"CONNECT INIT",
"CONNECT READY",
"CONNECTED",
};
struct pending_trans_data {
unsigned int id;
uint8_t opcode;
struct gatt_db_attribute *attrib;
unsigned int serial_id;
};
struct gatt_app {
int32_t id;
uint8_t uuid[16];
gatt_type_t type;
/* Valid for client applications */
struct queue *notifications;
gatt_conn_cb_t func;
struct adv_instance *adv;
};
struct element_id {
bt_uuid_t uuid;
uint8_t instance;
};
struct descriptor {
struct element_id id;
uint16_t handle;
};
struct characteristic {
struct element_id id;
struct gatt_char ch;
uint16_t end_handle;
struct queue *descriptors;
};
struct service {
struct element_id id;
struct gatt_primary prim;
struct gatt_included incl;
bool primary;
struct queue *chars;
struct queue *included; /* Valid only for primary services */
bool incl_search_done;
};
struct notification_data {
struct hal_gatt_srvc_id service;
struct hal_gatt_gatt_id ch;
struct app_connection *conn;
guint notif_id;
guint ind_id;
int ref;
};
struct gatt_device {
bdaddr_t bdaddr;
gatt_device_state_t state;
GAttrib *attrib;
GIOChannel *att_io;
struct queue *services;
bool partial_srvc_search;
guint watch_id;
guint server_id;
guint ind_id;
int ref;
struct queue *autoconnect_apps;
struct queue *pending_requests;
};
struct app_connection {
struct gatt_device *device;
struct gatt_app *app;
struct queue *transactions;
int32_t id;
guint timeout_id;
bool wait_execute_write;
};
struct service_sdp {
int32_t service_handle;
uint32_t sdp_handle;
};
static struct ipc *hal_ipc = NULL;
static bdaddr_t adapter_addr;
static bool scanning = false;
static unsigned int advertising_cnt = 0;
static uint32_t adv_inst_bits = 0;
static struct queue *gatt_apps = NULL;
static struct queue *gatt_devices = NULL;
static struct queue *app_connections = NULL;
static struct queue *services_sdp = NULL;
static struct queue *listen_apps = NULL;
static struct gatt_db *gatt_db = NULL;
static struct gatt_db_attribute *service_changed_attrib = NULL;
static GIOChannel *le_io = NULL;
static GIOChannel *bredr_io = NULL;
static uint32_t gatt_sdp_handle = 0;
static uint32_t gap_sdp_handle = 0;
static uint32_t dis_sdp_handle = 0;
static struct bt_crypto *crypto = NULL;
static int test_client_if = 0;
static const uint8_t TEST_UUID[] = {
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x01, 0x02, 0x03, 0x04
};
static bool is_bluetooth_uuid(const uint8_t *uuid)
{
int i;
for (i = 0; i < 16; i++) {
/* ignore minimal uuid (16) value */
if (i == 12 || i == 13)
continue;
if (uuid[i] != BLUETOOTH_UUID[i])
return false;
}
return true;
}
static void android2uuid(const uint8_t *uuid, bt_uuid_t *dst)
{
if (is_bluetooth_uuid(uuid)) {
/* copy 16 bit uuid value from full android 128bit uuid */
dst->type = BT_UUID16;
dst->value.u16 = (uuid[13] << 8) + uuid[12];
} else {
int i;
dst->type = BT_UUID128;
for (i = 0; i < 16; i++)
dst->value.u128.data[i] = uuid[15 - i];
}
}
static void uuid2android(const bt_uuid_t *src, uint8_t *uuid)
{
bt_uuid_t uu128;
uint8_t i;
if (src->type != BT_UUID128) {
bt_uuid_to_uuid128(src, &uu128);
src = &uu128;
}
for (i = 0; i < 16; i++)
uuid[15 - i] = src->value.u128.data[i];
}
static void hal_srvc_id_to_element_id(const struct hal_gatt_srvc_id *from,
struct element_id *to)
{
to->instance = from->inst_id;
android2uuid(from->uuid, &to->uuid);
}
static void element_id_to_hal_srvc_id(const struct element_id *from,
uint8_t primary,
struct hal_gatt_srvc_id *to)
{
to->is_primary = primary;
to->inst_id = from->instance;
uuid2android(&from->uuid, to->uuid);
}
static void hal_gatt_id_to_element_id(const struct hal_gatt_gatt_id *from,
struct element_id *to)
{
to->instance = from->inst_id;
android2uuid(from->uuid, &to->uuid);
}
static void element_id_to_hal_gatt_id(const struct element_id *from,
struct hal_gatt_gatt_id *to)
{
to->inst_id = from->instance;
uuid2android(&from->uuid, to->uuid);
}
static void destroy_characteristic(void *data)
{
struct characteristic *chars = data;
if (!chars)
return;
queue_destroy(chars->descriptors, free);
free(chars);
}
static void destroy_service(void *data)
{
struct service *srvc = data;
if (!srvc)
return;
queue_destroy(srvc->chars, destroy_characteristic);
/*
* Included services we keep on two queues.
* 1. On the same queue with primary services.
* 2. On the queue inside primary service.
* So we need to free service memory only once but we need to destroy
* two queues
*/
queue_destroy(srvc->included, NULL);
free(srvc);
}
static bool match_app_by_uuid(const void *data, const void *user_data)
{
const uint8_t *exp_uuid = user_data;
const struct gatt_app *client = data;
return !memcmp(exp_uuid, client->uuid, sizeof(client->uuid));
}
static bool match_app_by_id(const void *data, const void *user_data)
{
int32_t exp_id = PTR_TO_INT(user_data);
const struct gatt_app *client = data;
return client->id == exp_id;
}
static struct gatt_app *find_app_by_id(int32_t id)
{
return queue_find(gatt_apps, match_app_by_id, INT_TO_PTR(id));
}
static bool match_device_by_bdaddr(const void *data, const void *user_data)
{
const struct gatt_device *dev = data;
const bdaddr_t *addr = user_data;
return !bacmp(&dev->bdaddr, addr);
}
static bool match_device_by_state(const void *data, const void *user_data)
{
const struct gatt_device *dev = data;
if (dev->state != PTR_TO_UINT(user_data))
return false;
return true;
}
static bool match_pending_device(const void *data, const void *user_data)
{
const struct gatt_device *dev = data;
if ((dev->state == DEVICE_CONNECT_INIT) ||
(dev->state == DEVICE_CONNECT_READY))
return true;
return false;
}
static bool match_connection_by_id(const void *data, const void *user_data)
{
const struct app_connection *conn = data;
const int32_t id = PTR_TO_INT(user_data);
return conn->id == id;
}
static bool match_connection_by_device_and_app(const void *data,
const void *user_data)
{
const struct app_connection *conn = data;
const struct app_connection *match = user_data;
return conn->device == match->device && conn->app == match->app;
}
static struct app_connection *find_connection_by_id(int32_t conn_id)
{
struct app_connection *conn;
conn = queue_find(app_connections, match_connection_by_id,
INT_TO_PTR(conn_id));
if (conn && conn->device->state == DEVICE_CONNECTED)
return conn;
return NULL;
}
static bool match_connection_by_device(const void *data, const void *user_data)
{
const struct app_connection *conn = data;
const struct gatt_device *dev = user_data;
return conn->device == dev;
}
static bool match_connection_by_app(const void *data, const void *user_data)
{
const struct app_connection *conn = data;
const struct gatt_app *app = user_data;
return conn->app == app;
}
static struct gatt_device *find_device_by_addr(const bdaddr_t *addr)
{
return queue_find(gatt_devices, match_device_by_bdaddr, addr);
}
static struct gatt_device *find_pending_device(void)
{
return queue_find(gatt_devices, match_pending_device, NULL);
}
static struct gatt_device *find_device_by_state(uint32_t state)
{
return queue_find(gatt_devices, match_device_by_state,
UINT_TO_PTR(state));
}
static bool match_srvc_by_element_id(const void *data, const void *user_data)
{
const struct element_id *exp_id = user_data;
const struct service *service = data;
if (service->id.instance == exp_id->instance)
return !bt_uuid_cmp(&service->id.uuid, &exp_id->uuid);
return false;
}
static bool match_srvc_by_higher_inst_id(const void *data,
const void *user_data)
{
const struct service *s = data;
uint8_t inst_id = PTR_TO_INT(user_data);
/* For now we match inst_id as it is unique */
return inst_id < s->id.instance;
}
static bool match_srvc_by_bt_uuid(const void *data, const void *user_data)
{
const bt_uuid_t *exp_uuid = user_data;
const struct service *service = data;
return !bt_uuid_cmp(exp_uuid, &service->id.uuid);
}
static bool match_srvc_by_range(const void *data, const void *user_data)
{
const struct service *srvc = data;
const struct att_range *range = user_data;
return !memcmp(&srvc->prim.range, range, sizeof(srvc->prim.range));
}
static bool match_char_by_higher_inst_id(const void *data,
const void *user_data)
{
const struct characteristic *ch = data;
uint8_t inst_id = PTR_TO_INT(user_data);
/* For now we match inst_id as it is unique, we'll match uuids later */
return inst_id < ch->id.instance;
}
static bool match_descr_by_element_id(const void *data, const void *user_data)
{
const struct element_id *exp_id = user_data;
const struct descriptor *descr = data;
if (exp_id->instance == descr->id.instance)
return !bt_uuid_cmp(&descr->id.uuid, &exp_id->uuid);
return false;
}
static bool match_descr_by_higher_inst_id(const void *data,
const void *user_data)
{
const struct descriptor *descr = data;
uint8_t instance = PTR_TO_INT(user_data);
/* For now we match instance as it is unique */
return instance < descr->id.instance;
}
static bool match_notification(const void *a, const void *b)
{
const struct notification_data *a1 = a;
const struct notification_data *b1 = b;
if (a1->conn != b1->conn)
return false;
if (memcmp(&a1->ch, &b1->ch, sizeof(a1->ch)))
return false;
if (memcmp(&a1->service, &b1->service, sizeof(a1->service)))
return false;
return true;
}
static bool match_char_by_element_id(const void *data, const void *user_data)
{
const struct element_id *exp_id = user_data;
const struct characteristic *chars = data;
if (exp_id->instance == chars->id.instance)
return !bt_uuid_cmp(&chars->id.uuid, &exp_id->uuid);
return false;
}
static void destroy_notification(void *data)
{
struct notification_data *notification = data;
struct gatt_app *app;
if (!notification)
return;
if (--notification->ref)
return;
app = notification->conn->app;
queue_remove_if(app->notifications, match_notification, notification);
free(notification);
}
static void unregister_notification(void *data)
{
struct notification_data *notification = data;
struct gatt_device *dev = notification->conn->device;
/*
* No device means it was already disconnected and client cleanup was
* triggered afterwards, but once client unregisters, device stays if
* used by others. Then just unregister single handle.
*/
if (!queue_find(gatt_devices, NULL, dev))
return;
if (notification->notif_id && dev)
g_attrib_unregister(dev->attrib, notification->notif_id);
if (notification->ind_id && dev)
g_attrib_unregister(dev->attrib, notification->ind_id);
}
static void device_set_state(struct gatt_device *dev, uint32_t state)
{
char bda[18];
if (dev->state == state)
return;
ba2str(&dev->bdaddr, bda);
DBG("gatt: Device %s state changed %s -> %s", bda,
device_state_str[dev->state], device_state_str[state]);
dev->state = state;
}
static bool auto_connect_le(struct gatt_device *dev)
{
/* For LE devices use auto connect feature if possible */
if (bt_kernel_conn_control()) {
if (!bt_auto_connect_add(bt_get_id_addr(&dev->bdaddr, NULL)))
return false;
} else {
/* Trigger discovery if not already started */
if (!scanning && !bt_le_discovery_start()) {
error("gatt: Could not start scan");
return false;
}
}
device_set_state(dev, DEVICE_CONNECT_INIT);
return true;
}
static void connection_cleanup(struct gatt_device *device)
{
if (device->watch_id) {
g_source_remove(device->watch_id);
device->watch_id = 0;
}
if (device->att_io) {
g_io_channel_shutdown(device->att_io, FALSE, NULL);
g_io_channel_unref(device->att_io);
device->att_io = NULL;
}
if (device->attrib) {
GAttrib *attrib = device->attrib;
if (device->server_id > 0)
g_attrib_unregister(device->attrib, device->server_id);
if (device->ind_id > 0)
g_attrib_unregister(device->attrib, device->ind_id);
device->attrib = NULL;
g_attrib_cancel_all(attrib);
g_attrib_unref(attrib);
}
/*
* If device was in connection_pending or connectable state we
* search device list if we should stop the scan.
*/
if (!scanning && (device->state == DEVICE_CONNECT_INIT ||
device->state == DEVICE_CONNECT_READY)) {
if (!find_pending_device())
bt_le_discovery_stop(NULL);
}
/* If device is not bonded service cache should be refreshed */
if (!bt_device_is_bonded(&device->bdaddr))
queue_remove_all(device->services, NULL, NULL, destroy_service);
device_set_state(device, DEVICE_DISCONNECTED);
if (!queue_isempty(device->autoconnect_apps))
auto_connect_le(device);
else
bt_auto_connect_remove(&device->bdaddr);
}
static void free_adv_instance(struct adv_instance *adv)
{
if (!adv)
return;
if (adv->instance)
adv_inst_bits &= ~(1 << (adv->instance - 1));
bt_ad_unref(adv->ad);
bt_ad_unref(adv->sr);
free(adv);
}
static void destroy_gatt_app(void *data)
{
struct gatt_app *app = data;
if (!app)
return;
/*
* First we want to get all notifications and unregister them.
* We don't pass unregister_notification to queue_destroy,
* because destroy notification performs operations on queue
* too. So remove all elements and then destroy queue.
*/
if (app->type == GATT_CLIENT)
while (queue_peek_head(app->notifications)) {
struct notification_data *notification;
notification = queue_pop_head(app->notifications);
unregister_notification(notification);
}
queue_destroy(app->notifications, free);
free_adv_instance(app->adv);
free(app);
}
struct pending_request {
struct gatt_db_attribute *attrib;
int length;
uint8_t *value;
uint16_t offset;
uint8_t *filter_value;
uint16_t filter_vlen;
bool completed;
uint8_t error;
};
static void destroy_pending_request(void *data)
{
struct pending_request *entry = data;
if (!entry)
return;
free(entry->value);
free(entry->filter_value);
free(entry);
}
static void destroy_device(void *data)
{
struct gatt_device *dev = data;
if (!dev)
return;
queue_destroy(dev->services, destroy_service);
queue_destroy(dev->pending_requests, destroy_pending_request);
queue_destroy(dev->autoconnect_apps, NULL);
bt_auto_connect_remove(&dev->bdaddr);
free(dev);
}
static struct gatt_device *device_ref(struct gatt_device *device)
{
if (!device)
return NULL;
device->ref++;
return device;
}
static void device_unref(struct gatt_device *device)
{
if (!device)
return;
if (--device->ref)
return;
destroy_device(device);
}
static struct gatt_device *create_device(const bdaddr_t *addr)
{
struct gatt_device *dev;
dev = new0(struct gatt_device, 1);
bacpy(&dev->bdaddr, addr);
dev->services = queue_new();
dev->autoconnect_apps = queue_new();
dev->pending_requests = queue_new();
queue_push_head(gatt_devices, dev);
return device_ref(dev);
}
static void send_client_connect_status_notify(struct app_connection *conn,
int32_t status)
{
struct hal_ev_gatt_client_connect ev;
if (conn->app->func) {
conn->app->func(&conn->device->bdaddr,
status == GATT_SUCCESS ? 0 : -ENOTCONN,
conn->device->attrib);
return;
}
ev.client_if = conn->app->id;
ev.conn_id = conn->id;
ev.status = status;
bdaddr2android(&conn->device->bdaddr, &ev.bda);
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT, HAL_EV_GATT_CLIENT_CONNECT,
sizeof(ev), &ev);
}
static void send_server_connection_state_notify(struct app_connection *conn,
bool connected)
{
struct hal_ev_gatt_server_connection ev;
if (conn->app->func) {
conn->app->func(&conn->device->bdaddr,
connected ? 0 : -ENOTCONN,
conn->device->attrib);
return;
}
ev.server_if = conn->app->id;
ev.conn_id = conn->id;
ev.connected = connected;
bdaddr2android(&conn->device->bdaddr, &ev.bdaddr);
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_CONNECTION, sizeof(ev), &ev);
}
static void send_client_disconnect_status_notify(struct app_connection *conn,
int32_t status)
{
struct hal_ev_gatt_client_disconnect ev;
if (conn->app->func) {
conn->app->func(&conn->device->bdaddr, -ENOTCONN,
conn->device->attrib);
return;
}
ev.client_if = conn->app->id;
ev.conn_id = conn->id;
ev.status = status;
bdaddr2android(&conn->device->bdaddr, &ev.bda);
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_DISCONNECT, sizeof(ev), &ev);
}
static void notify_app_disconnect_status(struct app_connection *conn,
int32_t status)
{
if (!conn->app)
return;
if (conn->app->type == GATT_CLIENT)
send_client_disconnect_status_notify(conn, status);
else
send_server_connection_state_notify(conn, !!status);
}
static void notify_app_connect_status(struct app_connection *conn,
int32_t status)
{
if (!conn->app)
return;
if (conn->app->type == GATT_CLIENT)
send_client_connect_status_notify(conn, status);
else
send_server_connection_state_notify(conn, !status);
}
static void destroy_connection(void *data)
{
struct app_connection *conn = data;
if (!conn)
return;
if (conn->timeout_id > 0)
g_source_remove(conn->timeout_id);
switch (conn->device->state) {
case DEVICE_CONNECTED:
notify_app_disconnect_status(conn, GATT_SUCCESS);
break;
case DEVICE_CONNECT_INIT:
case DEVICE_CONNECT_READY:
notify_app_connect_status(conn, GATT_FAILURE);
break;
case DEVICE_DISCONNECTED:
break;
}
if (!queue_find(app_connections, match_connection_by_device,
conn->device))
connection_cleanup(conn->device);
queue_destroy(conn->transactions, free);
device_unref(conn->device);
free(conn);
}
static gboolean disconnected_cb(GIOChannel *io, GIOCondition cond,
gpointer user_data)
{
struct gatt_device *dev = user_data;
int sock, err = 0;
socklen_t len;
sock = g_io_channel_unix_get_fd(io);
len = sizeof(err);
if (!getsockopt(sock, SOL_SOCKET, SO_ERROR, &err, &len))
DBG("%s (%d)", strerror(err), err);
queue_remove_all(app_connections, match_connection_by_device, dev,
destroy_connection);
return FALSE;
}
static bool get_local_mtu(struct gatt_device *dev, uint16_t *mtu)
{
GIOChannel *io;
uint16_t imtu, omtu;
io = g_attrib_get_channel(dev->attrib);
if (!bt_io_get(io, NULL, BT_IO_OPT_IMTU, &imtu, BT_IO_OPT_OMTU, &omtu,
BT_IO_OPT_INVALID)) {
error("gatt: Failed to get local MTU");
return false;
}
/*
* Limit MTU to MIN(IMTU, OMTU). This is to avoid situation where
* local OMTU < MIN(remote MTU, IMTU)
*/
if (mtu)
*mtu = MIN(imtu, omtu);
return true;
}
static void notify_client_mtu_change(struct app_connection *conn, bool success)
{
struct hal_ev_gatt_client_configure_mtu ev;
size_t mtu;
g_attrib_get_buffer(conn->device->attrib, &mtu);
ev.conn_id = conn->id;
ev.status = success ? GATT_SUCCESS : GATT_FAILURE;
ev.mtu = mtu;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_CONFIGURE_MTU, sizeof(ev), &ev);
}
static void notify_server_mtu(struct app_connection *conn)
{
struct hal_ev_gatt_server_mtu_changed ev;
size_t mtu;
g_attrib_get_buffer(conn->device->attrib, &mtu);
ev.conn_id = conn->id;
ev.mtu = mtu;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_MTU_CHANGED, sizeof(ev), &ev);
}
static void notify_mtu_change(void *data, void *user_data)
{
struct gatt_device *device = user_data;
struct app_connection *conn = data;
if (conn->device != device)
return;
if (!conn->app) {
error("gatt: can't notify mtu - no app registered for conn");
return;
}
switch (conn->app->type) {
case GATT_CLIENT:
notify_client_mtu_change(conn, true);
break;
case GATT_SERVER:
notify_server_mtu(conn);
break;
default:
break;
}
}
static bool update_mtu(struct gatt_device *device, uint16_t rmtu)
{
uint16_t mtu, lmtu;
if (!get_local_mtu(device, &lmtu))
return false;
DBG("remote_mtu:%d local_mtu:%d", rmtu, lmtu);
if (rmtu < ATT_DEFAULT_LE_MTU) {
error("gatt: remote MTU invalid (%u bytes)", rmtu);
return false;
}
mtu = MIN(lmtu, rmtu);
if (mtu == ATT_DEFAULT_LE_MTU)
return true;
if (!g_attrib_set_mtu(device->attrib, mtu)) {
error("gatt: Failed to set MTU");
return false;
}
queue_foreach(app_connections, notify_mtu_change, device);
return true;
}
static void att_handler(const uint8_t *ipdu, uint16_t len, gpointer user_data);
static void exchange_mtu_cb(guint8 status, const guint8 *pdu, guint16 plen,
gpointer user_data)
{
struct gatt_device *device = user_data;
uint16_t rmtu;
DBG("");
if (status) {
error("gatt: MTU exchange: %s", att_ecode2str(status));
goto failed;
}
if (!dec_mtu_resp(pdu, plen, &rmtu)) {
error("gatt: MTU exchange: protocol error");
goto failed;
}
update_mtu(device, rmtu);
failed:
device_unref(device);
}
static void send_exchange_mtu_request(struct gatt_device *device)
{
uint16_t mtu;
if (!get_local_mtu(device, &mtu))
return;
DBG("mtu %u", mtu);
if (!gatt_exchange_mtu(device->attrib, mtu, exchange_mtu_cb,
device_ref(device)))
device_unref(device);
}
static void ignore_confirmation_cb(guint8 status, const guint8 *pdu,
guint16 len, gpointer user_data)
{
/* Ignored. */
}
static void notify_att_range_change(struct gatt_device *dev,
struct att_range *range)
{
uint16_t handle;
uint16_t length = 0;
uint16_t ccc;
uint8_t *pdu;
size_t mtu;
GAttribResultFunc confirmation_cb = NULL;
handle = gatt_db_attribute_get_handle(service_changed_attrib);
if (!handle)
return;
ccc = bt_get_gatt_ccc(&dev->bdaddr);
if (!ccc)
return;
pdu = g_attrib_get_buffer(dev->attrib, &mtu);
switch (ccc) {
case 0x0001:
length = enc_notification(handle, (uint8_t *) range,
sizeof(*range), pdu, mtu);
break;
case 0x0002:
length = enc_indication(handle, (uint8_t *) range,
sizeof(*range), pdu, mtu);
confirmation_cb = ignore_confirmation_cb;
break;
default:
/* 0xfff4 reserved for future use */
break;
}
g_attrib_send(dev->attrib, 0, pdu, length, confirmation_cb, NULL, NULL);
}
static struct app_connection *create_connection(struct gatt_device *device,
struct gatt_app *app)
{
struct app_connection *new_conn;
static int32_t last_conn_id = 1;
/* Check if already connected */
new_conn = new0(struct app_connection, 1);
/* Make connection id unique to connection record (app, device) pair */
new_conn->app = app;
new_conn->id = last_conn_id++;
new_conn->transactions = queue_new();
queue_push_head(app_connections, new_conn);
new_conn->device = device_ref(device);
return new_conn;
}
static struct service *create_service(uint8_t id, bool primary, char *uuid,
void *data)
{
struct service *s;
s = new0(struct service, 1);
if (bt_string_to_uuid(&s->id.uuid, uuid) < 0) {
error("gatt: Cannot convert string to uuid");
free(s);
return NULL;
}
s->chars = queue_new();
s->included = queue_new();
s->id.instance = id;
/* Put primary service to our local list */
s->primary = primary;
if (s->primary)
memcpy(&s->prim, data, sizeof(s->prim));
else
memcpy(&s->incl, data, sizeof(s->incl));
return s;
}
static void send_client_primary_notify(void *data, void *user_data)
{
struct hal_ev_gatt_client_search_result ev;
struct service *p = data;
int32_t conn_id = PTR_TO_INT(user_data);
/* In service queue we will have also included services */
if (!p->primary)
return;
ev.conn_id = conn_id;
element_id_to_hal_srvc_id(&p->id, 1, &ev.srvc_id);
uuid2android(&p->id.uuid, ev.srvc_id.uuid);
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_SEARCH_RESULT, sizeof(ev), &ev);
}
static void send_client_search_complete_notify(int32_t status, int32_t conn_id)
{
struct hal_ev_gatt_client_search_complete ev;
ev.status = status;
ev.conn_id = conn_id;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_SEARCH_COMPLETE, sizeof(ev), &ev);
}
struct discover_srvc_data {
bt_uuid_t uuid;
struct app_connection *conn;
};
static void discover_srvc_by_uuid_cb(uint8_t status, GSList *ranges,
void *user_data)
{
struct discover_srvc_data *cb_data = user_data;
struct gatt_primary prim;
struct service *s;
int32_t gatt_status;
struct gatt_device *dev = cb_data->conn->device;
uint8_t instance_id = queue_length(dev->services);
DBG("Status %d", status);
if (status) {
error("gatt: Discover pri srvc filtered by uuid failed: %s",
att_ecode2str(status));
gatt_status = GATT_FAILURE;
goto reply;
}
if (!ranges) {
info("gatt: No primary services searched by uuid found");
gatt_status = GATT_SUCCESS;
goto reply;
}
bt_uuid_to_string(&cb_data->uuid, prim.uuid, sizeof(prim.uuid));
for (; ranges; ranges = ranges->next) {
memcpy(&prim.range, ranges->data, sizeof(prim.range));
s = create_service(instance_id++, true, prim.uuid, &prim);
if (!s) {
gatt_status = GATT_FAILURE;
goto reply;
}
queue_push_tail(dev->services, s);
send_client_primary_notify(s, INT_TO_PTR(cb_data->conn->id));
DBG("attr handle = 0x%04x, end grp handle = 0x%04x uuid: %s",
prim.range.start, prim.range.end, prim.uuid);
}
/* Partial search service scanning was performed */
dev->partial_srvc_search = true;
gatt_status = GATT_SUCCESS;
reply:
send_client_search_complete_notify(gatt_status, cb_data->conn->id);
free(cb_data);
}
static void discover_srvc_all_cb(uint8_t status, GSList *services,
void *user_data)
{
struct discover_srvc_data *cb_data = user_data;
struct gatt_device *dev = cb_data->conn->device;
int32_t gatt_status;
GSList *l;
/*
* There might be multiply services with same uuid. Therefore make sure
* each primary service one has unique instance_id
*/
uint8_t instance_id = queue_length(dev->services);
DBG("Status %d", status);
if (status) {
error("gatt: Discover all primary services failed: %s",
att_ecode2str(status));
gatt_status = GATT_FAILURE;
goto reply;
}
if (!services) {
info("gatt: No primary services found");
gatt_status = GATT_SUCCESS;
goto reply;
}
for (l = services; l; l = l->next) {
struct gatt_primary *prim = l->data;
struct service *p;
if (queue_find(dev->services, match_srvc_by_range,
&prim->range))
continue;
p = create_service(instance_id++, true, prim->uuid, prim);
if (!p)
continue;
queue_push_tail(dev->services, p);
DBG("attr handle = 0x%04x, end grp handle = 0x%04x uuid: %s",
prim->range.start, prim->range.end, prim->uuid);
}
/*
* Send all found services notifications - first cache,
* then send notifies
*/
queue_foreach(dev->services, send_client_primary_notify,
INT_TO_PTR(cb_data->conn->id));
/* Full search service scanning was performed */
dev->partial_srvc_search = false;
gatt_status = GATT_SUCCESS;
reply:
send_client_search_complete_notify(gatt_status, cb_data->conn->id);
free(cb_data);
}
static gboolean connection_timeout(void *user_data)
{
struct app_connection *conn = user_data;
conn->timeout_id = 0;
queue_remove(app_connections, conn);
destroy_connection(conn);
return FALSE;
}
static void discover_primary_cb(uint8_t status, GSList *services,
void *user_data)
{
struct discover_srvc_data *cb_data = user_data;
struct app_connection *conn = cb_data->conn;
struct gatt_device *dev = conn->device;
GSList *l, *uuids = NULL;
DBG("Status %d", status);
if (status) {
error("gatt: Discover all primary services failed: %s",
att_ecode2str(status));
free(cb_data);
return;
}
if (!services) {
info("gatt: No primary services found");
free(cb_data);
return;
}
for (l = services; l; l = l->next) {
struct gatt_primary *prim = l->data;
uint8_t *new_uuid;
bt_uuid_t uuid, u128;
DBG("uuid: %s", prim->uuid);
if (bt_string_to_uuid(&uuid, prim->uuid) < 0) {
error("gatt: Cannot convert string to uuid");
continue;
}
bt_uuid_to_uuid128(&uuid, &u128);
new_uuid = g_memdup(&u128.value.u128, sizeof(u128.value.u128));
uuids = g_slist_prepend(uuids, new_uuid);
}
bt_device_set_uuids(&dev->bdaddr, uuids);
free(cb_data);
conn->timeout_id = g_timeout_add_seconds(GATT_CONN_TIMEOUT,
connection_timeout, conn);
}
static guint search_dev_for_srvc(struct app_connection *conn, bt_uuid_t *uuid)
{
struct discover_srvc_data *cb_data;
cb_data = new0(struct discover_srvc_data, 1);
cb_data->conn = conn;
if (uuid) {
memcpy(&cb_data->uuid, uuid, sizeof(cb_data->uuid));
return gatt_discover_primary(conn->device->attrib, uuid,
discover_srvc_by_uuid_cb, cb_data);
}
if (conn->app)
return gatt_discover_primary(conn->device->attrib, NULL,
discover_srvc_all_cb, cb_data);
return gatt_discover_primary(conn->device->attrib, NULL,
discover_primary_cb, cb_data);
}
struct connect_data {
struct gatt_device *dev;
int32_t status;
};
static void notify_app_connect_status_by_device(void *data, void *user_data)
{
struct app_connection *conn = data;
struct connect_data *con_data = user_data;
if (conn->device == con_data->dev)
notify_app_connect_status(conn, con_data->status);
}
static struct app_connection *find_conn_without_app(struct gatt_device *dev)
{
struct app_connection conn_match;
conn_match.device = dev;
conn_match.app = NULL;
return queue_find(app_connections, match_connection_by_device_and_app,
&conn_match);
}
static struct app_connection *find_conn(const bdaddr_t *addr, int32_t app_id)
{
struct app_connection conn_match;
struct gatt_device *dev;
struct gatt_app *app;
/* Check if app is registered */
app = find_app_by_id(app_id);
if (!app) {
error("gatt: Client id %d not found", app_id);
return NULL;
}
/* Check if device is known */
dev = find_device_by_addr(addr);
if (!dev) {
error("gatt: Client id %d not found", app_id);
return NULL;
}
conn_match.device = dev;
conn_match.app = app;
return queue_find(app_connections, match_connection_by_device_and_app,
&conn_match);
}
static void create_app_connection(void *data, void *user_data)
{
struct gatt_device *dev = user_data;
struct gatt_app *app;
app = find_app_by_id(PTR_TO_INT(data));
if (!app)
return;
DBG("Autoconnect application id=%d", app->id);
if (!find_conn(&dev->bdaddr, PTR_TO_INT(data)))
create_connection(dev, app);
}
static void ind_handler(const uint8_t *cmd, uint16_t cmd_len,
gpointer user_data)
{
struct gatt_device *dev = user_data;
uint16_t resp_length = 0;
size_t length;
uint8_t *opdu = g_attrib_get_buffer(dev->attrib, &length);
/*
* We have to send confirmation here. If some client is
* registered for this indication, event will be send in
* handle_notification
*/
resp_length = enc_confirmation(opdu, length);
g_attrib_send(dev->attrib, 0, opdu, resp_length, NULL, NULL, NULL);
}
static void connect_cb(GIOChannel *io, GError *gerr, gpointer user_data)
{
struct gatt_device *dev = user_data;
struct connect_data data;
struct att_range range;
uint32_t status;
GError *err = NULL;
GAttrib *attrib;
uint16_t mtu, cid;
if (dev->state != DEVICE_CONNECT_READY) {
error("gatt: Device not in a connecting state!?");
g_io_channel_shutdown(io, TRUE, NULL);
return;
}
if (dev->att_io) {
g_io_channel_unref(dev->att_io);
dev->att_io = NULL;
}
if (gerr) {
error("gatt: connection failed %s", gerr->message);
device_set_state(dev, DEVICE_DISCONNECTED);
status = GATT_FAILURE;
goto reply;
}
if (!bt_io_get(io, &err, BT_IO_OPT_IMTU, &mtu, BT_IO_OPT_CID, &cid,
BT_IO_OPT_INVALID)) {
error("gatt: Could not get imtu or cid: %s", err->message);
device_set_state(dev, DEVICE_DISCONNECTED);
status = GATT_FAILURE;
g_error_free(err);
goto reply;
}
/* on BR/EDR MTU must not be less then minimal allowed MTU */
if (cid != ATT_CID && mtu < ATT_DEFAULT_L2CAP_MTU) {
error("gatt: MTU too small (%u bytes)", mtu);
device_set_state(dev, DEVICE_DISCONNECTED);
status = GATT_FAILURE;
goto reply;
}
DBG("mtu %u cid %u", mtu, cid);
/* on LE we always start with default MTU */
if (cid == ATT_CID)
mtu = ATT_DEFAULT_LE_MTU;
attrib = g_attrib_new(io, mtu, true);
if (!attrib) {
error("gatt: unable to create new GAttrib instance");
device_set_state(dev, DEVICE_DISCONNECTED);
status = GATT_FAILURE;
goto reply;
}
dev->attrib = attrib;
dev->watch_id = g_io_add_watch(io, G_IO_HUP | G_IO_ERR | G_IO_NVAL,
disconnected_cb, dev);
dev->server_id = g_attrib_register(attrib, GATTRIB_ALL_REQS,
GATTRIB_ALL_HANDLES,
att_handler, dev, NULL);
dev->ind_id = g_attrib_register(attrib, ATT_OP_HANDLE_IND,
GATTRIB_ALL_HANDLES,
ind_handler, dev, NULL);
if ((dev->server_id && dev->ind_id) == 0)
error("gatt: Could not attach to server");
device_set_state(dev, DEVICE_CONNECTED);
/* Send exchange mtu request as we assume being client and server */
/* TODO: Dont exchange mtu if no client apps */
/* MTU exchange shall not be used on BR/EDR - Vol 3. Part G. 4.3.1 */
if (cid == ATT_CID)
send_exchange_mtu_request(dev);
/*
* Service Changed Characteristic and CCC Descriptor handles
* should not change if there are bonded devices. We have them
* constant all the time, thus they should be excluded from
* range indicating changes.
*/
range.start = gatt_db_attribute_get_handle(service_changed_attrib) + 2;
range.end = 0xffff;
/*
* If there is ccc stored for that device we were acting as server for
* it, and as we dont have last connect and last services (de)activation
* timestamps we should always assume something has changed.
*/
notify_att_range_change(dev, &range);
status = GATT_SUCCESS;
reply:
/*
* Make sure there are app_connections for all apps interested in auto
* connect to that device
*/
queue_foreach(dev->autoconnect_apps, create_app_connection, dev);
if (!queue_find(app_connections, match_connection_by_device, dev)) {
struct app_connection *conn;
if (!dev->attrib)
return;
conn = create_connection(dev, NULL);
if (!conn)
return;
if (bt_is_pairing(&dev->bdaddr))
/*
* If there is bonding ongoing lets wait for paired
* callback. Once we get that we can start search
* services
*/
conn->timeout_id = g_timeout_add_seconds(
GATT_PAIR_CONN_TIMEOUT,
connection_timeout, conn);
else
/*
* There is no ongoing bonding, lets search for primary
* services
*/
search_dev_for_srvc(conn, NULL);
}
data.dev = dev;
data.status = status;
queue_foreach(app_connections, notify_app_connect_status_by_device,
&data);
/* For BR/EDR notify about MTU since it is not negotiable*/
if (cid != ATT_CID && status == GATT_SUCCESS)
queue_foreach(app_connections, notify_mtu_change, dev);
device_unref(dev);
/* Check if we should restart scan */
if (scanning)
bt_le_discovery_start();
/* FIXME: What to do if discovery won't start here. */
}
static int connect_le(struct gatt_device *dev)
{
GIOChannel *io;
GError *gerr = NULL;
char addr[18];
const bdaddr_t *bdaddr;
uint8_t bdaddr_type;
ba2str(&dev->bdaddr, addr);
/* There is one connection attempt going on */
if (dev->att_io) {
info("gatt: connection to dev %s is ongoing", addr);
return -EALREADY;
}
DBG("Connection attempt to: %s", addr);
bdaddr = bt_get_id_addr(&dev->bdaddr, &bdaddr_type);
/*
* This connection will help us catch any PDUs that comes before
* pairing finishes
*/
io = bt_io_connect(connect_cb, device_ref(dev), NULL, &gerr,
BT_IO_OPT_SOURCE_BDADDR, &adapter_addr,
BT_IO_OPT_SOURCE_TYPE, BDADDR_LE_PUBLIC,
BT_IO_OPT_DEST_BDADDR, bdaddr,
BT_IO_OPT_DEST_TYPE, bdaddr_type,
BT_IO_OPT_CID, ATT_CID,
BT_IO_OPT_SEC_LEVEL, BT_IO_SEC_LOW,
BT_IO_OPT_INVALID);
if (!io) {
error("gatt: Failed bt_io_connect(%s): %s", addr,
gerr->message);
g_error_free(gerr);
return -EIO;
}
/* Keep this, so we can cancel the connection */
dev->att_io = io;
device_set_state(dev, DEVICE_CONNECT_READY);
return 0;
}
static int connect_next_dev(void)
{
struct gatt_device *dev;
DBG("");
dev = find_device_by_state(DEVICE_CONNECT_READY);
if (!dev)
return -ENODEV;
return connect_le(dev);
}
static void bt_le_discovery_stop_cb(void)
{
DBG("");
/* Check now if there is any device ready to connect */
if (connect_next_dev() < 0)
bt_le_discovery_start();
}
static void le_device_found_handler(const bdaddr_t *addr, int rssi,
uint16_t eir_len, const void *eir,
bool connectable, bool bonded)
{
uint8_t buf[IPC_MTU];
struct hal_ev_gatt_client_scan_result *ev = (void *) buf;
struct gatt_device *dev;
char bda[18];
if (!scanning)
goto done;
ba2str(addr, bda);
DBG("LE Device found: %s, rssi: %d, adv_data: %d", bda, rssi, !!eir);
bdaddr2android(addr, ev->bda);
ev->rssi = rssi;
ev->len = eir_len;
memcpy(ev->adv_data, eir, ev->len);
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_SCAN_RESULT,
sizeof(*ev) + ev->len, ev);
done:
if (!connectable)
return;
/* We use auto connect feature from kernel if possible */
if (bt_kernel_conn_control())
return;
dev = find_device_by_addr(addr);
if (!dev) {
if (!bonded)
return;
dev = create_device(addr);
}
if (dev->state != DEVICE_CONNECT_INIT)
return;
device_set_state(dev, DEVICE_CONNECT_READY);
/*
* We are ok to perform connect now. Stop discovery
* and once it is stopped continue with creating ACL
*/
bt_le_discovery_stop(bt_le_discovery_stop_cb);
}
static struct gatt_app *register_app(const uint8_t *uuid, gatt_type_t type)
{
static int32_t application_id = 1;
struct gatt_app *app;
if (queue_find(gatt_apps, match_app_by_uuid, uuid)) {
error("gatt: app uuid is already on list");
return NULL;
}
app = new0(struct gatt_app, 1);
app->type = type;
if (app->type == GATT_CLIENT)
app->notifications = queue_new();
memcpy(app->uuid, uuid, sizeof(app->uuid));
app->id = application_id++;
queue_push_head(gatt_apps, app);
if (app->type == GATT_SERVER)
queue_push_tail(listen_apps, INT_TO_PTR(app->id));
return app;
}
static void handle_client_register(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_register *cmd = buf;
struct hal_ev_gatt_client_register_client ev;
struct gatt_app *app;
DBG("");
memset(&ev, 0, sizeof(ev));
app = register_app(cmd->uuid, GATT_CLIENT);
if (app) {
ev.client_if = app->id;
ev.status = GATT_SUCCESS;
} else {
ev.status = GATT_FAILURE;
}
/* We should send notification with given in cmd UUID */
memcpy(ev.app_uuid, cmd->uuid, sizeof(ev.app_uuid));
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_REGISTER_CLIENT, sizeof(ev), &ev);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT, HAL_OP_GATT_CLIENT_REGISTER,
HAL_STATUS_SUCCESS);
}
static void handle_client_scan(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_scan *cmd = buf;
uint8_t status;
DBG("new state %d", cmd->start);
if (cmd->client_if != 0) {
void *registered = find_app_by_id(cmd->client_if);
if (!registered) {
error("gatt: Client not registered");
status = HAL_STATUS_FAILED;
goto reply;
}
}
/* Turn off scan */
if (!cmd->start) {
DBG("Stopping LE SCAN");
if (scanning) {
bt_le_discovery_stop(NULL);
scanning = false;
}
status = HAL_STATUS_SUCCESS;
goto reply;
}
/* Reply success if we already do scan */
if (scanning) {
status = HAL_STATUS_SUCCESS;
goto reply;
}
/* Turn on scan */
if (!bt_le_discovery_start()) {
error("gatt: LE scan switch failed");
status = HAL_STATUS_FAILED;
goto reply;
}
scanning = true;
status = HAL_STATUS_SUCCESS;
reply:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT, HAL_OP_GATT_CLIENT_SCAN,
status);
}
static int connect_bredr(struct gatt_device *dev)
{
BtIOSecLevel sec_level;
GIOChannel *io;
GError *gerr = NULL;
char addr[18];
ba2str(&dev->bdaddr, addr);
/* There is one connection attempt going on */
if (dev->att_io) {
info("gatt: connection to dev %s is ongoing", addr);
return -EALREADY;
}
DBG("Connection attempt to: %s", addr);
sec_level = bt_device_is_bonded(&dev->bdaddr) ? BT_IO_SEC_MEDIUM :
BT_IO_SEC_LOW;
io = bt_io_connect(connect_cb, device_ref(dev), NULL, &gerr,
BT_IO_OPT_SOURCE_BDADDR, &adapter_addr,
BT_IO_OPT_SOURCE_TYPE, BDADDR_BREDR,
BT_IO_OPT_DEST_BDADDR, &dev->bdaddr,
BT_IO_OPT_DEST_TYPE, BDADDR_BREDR,
BT_IO_OPT_PSM, ATT_PSM,
BT_IO_OPT_SEC_LEVEL, sec_level,
BT_IO_OPT_INVALID);
if (!io) {
error("gatt: Failed bt_io_connect(%s): %s", addr,
gerr->message);
g_error_free(gerr);
return -EIO;
}
device_set_state(dev, DEVICE_CONNECT_READY);
/* Keep this, so we can cancel the connection */
dev->att_io = io;
return 0;
}
static bool trigger_connection(struct app_connection *conn, bool direct)
{
switch (conn->device->state) {
case DEVICE_DISCONNECTED:
/*
* If device was last seen over BR/EDR connect over it.
* Note: Connection state is handled in connect_bredr() func
*/
if (bt_device_last_seen_bearer(&conn->device->bdaddr) ==
BDADDR_BREDR)
return connect_bredr(conn->device) == 0;
if (direct)
return connect_le(conn->device) == 0;
bt_gatt_add_autoconnect(conn->app->id, &conn->device->bdaddr);
return auto_connect_le(conn->device);
case DEVICE_CONNECTED:
notify_app_connect_status(conn, GATT_SUCCESS);
return true;
case DEVICE_CONNECT_READY:
case DEVICE_CONNECT_INIT:
default:
/* In those cases connection is already triggered. */
return true;
}
}
static void remove_autoconnect_device(struct gatt_device *dev)
{
bt_auto_connect_remove(&dev->bdaddr);
if (dev->state == DEVICE_CONNECT_INIT)
device_set_state(dev, DEVICE_DISCONNECTED);
device_unref(dev);
}
static void clear_autoconnect_devices(void *data, void *user_data)
{
struct gatt_device *dev = data;
if (queue_remove(dev->autoconnect_apps, user_data))
if (queue_isempty(dev->autoconnect_apps))
remove_autoconnect_device(dev);
}
static uint8_t unregister_app(int client_if)
{
struct gatt_app *cl;
/*
* Make sure that there is no devices in auto connect list for this
* application
*/
queue_foreach(gatt_devices, clear_autoconnect_devices,
INT_TO_PTR(client_if));
cl = queue_remove_if(gatt_apps, match_app_by_id, INT_TO_PTR(client_if));
if (!cl) {
error("gatt: client_if=%d not found", client_if);
return HAL_STATUS_FAILED;
}
/* Destroy app connections with proper notifications for this app. */
queue_remove_all(app_connections, match_connection_by_app, cl,
destroy_connection);
destroy_gatt_app(cl);
return HAL_STATUS_SUCCESS;
}
static void send_client_listen_notify(int32_t id, int32_t status)
{
struct hal_ev_gatt_client_listen ev;
/* Server if because of typo in android headers */
ev.server_if = id;
ev.status = status;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT, HAL_EV_GATT_CLIENT_LISTEN,
sizeof(ev), &ev);
}
struct listen_data {
int32_t client_id;
bool start;
};
static struct listen_data *create_listen_data(int32_t client_id, bool start)
{
struct listen_data *d;
d = new0(struct listen_data, 1);
d->client_id = client_id;
d->start = start;
return d;
}
static void set_advertising_cb(uint8_t status, void *user_data)
{
struct listen_data *l = user_data;
send_client_listen_notify(l->client_id, status);
/* In case of success update advertising state*/
if (!status)
advertising_cnt = l->start ? 1 : 0;
/*
* Let's remove client from the list in two cases
* 1. Start failed
* 2. Stop succeed
*/
if ((l->start && status) || (!l->start && !status))
queue_remove(listen_apps, INT_TO_PTR(l->client_id));
free(l);
}
static void handle_client_unregister(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_unregister *cmd = buf;
uint8_t status;
void *listening_client;
struct listen_data *data;
DBG("");
listening_client = queue_find(listen_apps, NULL,
INT_TO_PTR(cmd->client_if));
if (listening_client) {
advertising_cnt--;
queue_remove(listen_apps, INT_TO_PTR(cmd->client_if));
} else {
status = unregister_app(cmd->client_if);
goto reply;
}
if (!advertising_cnt) {
data = create_listen_data(cmd->client_if, false);
if (!bt_le_set_advertising(data->start, set_advertising_cb,
data)) {
error("gatt: Could not set advertising");
status = HAL_STATUS_FAILED;
free(data);
goto reply;
}
}
status = unregister_app(cmd->client_if);
reply:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_UNREGISTER, status);
}
static uint8_t handle_connect(int32_t app_id, const bdaddr_t *addr, bool direct)
{
struct app_connection conn_match;
struct app_connection *conn;
struct gatt_device *device;
struct gatt_app *app;
DBG("");
app = find_app_by_id(app_id);
if (!app)
return HAL_STATUS_FAILED;
device = find_device_by_addr(addr);
if (!device)
device = create_device(addr);
conn_match.device = device;
conn_match.app = app;
conn = queue_find(app_connections, match_connection_by_device_and_app,
&conn_match);
if (!conn) {
conn = create_connection(device, app);
if (!conn)
return HAL_STATUS_NOMEM;
}
if (!trigger_connection(conn, direct))
return HAL_STATUS_FAILED;
return HAL_STATUS_SUCCESS;
}
static void handle_client_connect(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_connect *cmd = buf;
uint8_t status;
bdaddr_t addr;
DBG("is_direct:%u transport:%u", cmd->is_direct, cmd->transport);
android2bdaddr(&cmd->bdaddr, &addr);
/* TODO handle transport flag */
status = handle_connect(cmd->client_if, &addr, cmd->is_direct);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT, HAL_OP_GATT_CLIENT_CONNECT,
status);
}
static void handle_client_disconnect(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_disconnect *cmd = buf;
struct app_connection *conn;
uint8_t status;
DBG("");
/* TODO: should we care to match also bdaddr when conn_id is unique? */
conn = queue_remove_if(app_connections, match_connection_by_id,
INT_TO_PTR(cmd->conn_id));
destroy_connection(conn);
status = HAL_STATUS_SUCCESS;
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_DISCONNECT, status);
}
static void handle_client_listen(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_listen *cmd = buf;
uint8_t status;
struct listen_data *data;
bool req_sent = false;
void *listening_client;
DBG("");
if (!find_app_by_id(cmd->client_if)) {
error("gatt: Client not registered");
status = HAL_STATUS_FAILED;
goto reply;
}
listening_client = queue_find(listen_apps, NULL,
INT_TO_PTR(cmd->client_if));
/* Start listening */
if (cmd->start) {
if (listening_client) {
status = HAL_STATUS_SUCCESS;
goto reply;
}
queue_push_tail(listen_apps, INT_TO_PTR(cmd->client_if));
/* If listen is already on just return success*/
if (advertising_cnt > 0) {
advertising_cnt++;
status = HAL_STATUS_SUCCESS;
goto reply;
}
} else {
/* Stop listening. Check if client was listening */
if (!listening_client) {
error("gatt: This client %d does not listen",
cmd->client_if);
status = HAL_STATUS_FAILED;
goto reply;
}
/*
* In case there is more listening clients don't stop
* advertising
*/
if (advertising_cnt > 1) {
advertising_cnt--;
queue_remove(listen_apps, INT_TO_PTR(cmd->client_if));
status = HAL_STATUS_SUCCESS;
goto reply;
}
}
data = create_listen_data(cmd->client_if, cmd->start);
if (!bt_le_set_advertising(cmd->start, set_advertising_cb, data)) {
error("gatt: Could not set advertising");
status = HAL_STATUS_FAILED;
free(data);
goto reply;
}
/*
* Use this flag to keep in mind that we are waiting for callback with
* result
*/
req_sent = true;
status = HAL_STATUS_SUCCESS;
reply:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT, HAL_OP_GATT_CLIENT_LISTEN,
status);
/* In case of early success or error, just send notification up */
if (!req_sent) {
int32_t gatt_status = status == HAL_STATUS_SUCCESS ?
GATT_SUCCESS : GATT_FAILURE;
send_client_listen_notify(cmd->client_if, gatt_status);
}
}
static void handle_client_refresh(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_refresh *cmd = buf;
struct gatt_device *dev;
uint8_t status;
bdaddr_t bda;
/*
* This is Android's framework hidden API call. It seams that no
* notification is expected and Bluedroid silently updates device's
* cache under the hood. As we use lazy caching ,we can just clear the
* cache and we're done.
*/
DBG("");
android2bdaddr(&cmd->bdaddr, &bda);
dev = find_device_by_addr(&bda);
if (!dev) {
status = HAL_STATUS_FAILED;
goto done;
}
queue_remove_all(dev->services, NULL, NULL, destroy_service);
status = HAL_STATUS_SUCCESS;
done:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT, HAL_OP_GATT_CLIENT_REFRESH,
status);
}
static void handle_client_search_service(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_search_service *cmd = buf;
struct app_connection *conn;
uint8_t status;
struct service *s;
bt_uuid_t uuid;
guint srvc_search_success;
DBG("");
if (len != sizeof(*cmd) + (cmd->filtered ? 16 : 0)) {
error("Invalid search service size (%u bytes), terminating",
len);
raise(SIGTERM);
return;
}
conn = find_connection_by_id(cmd->conn_id);
if (!conn) {
error("gatt: dev with conn_id=%d not found", cmd->conn_id);
status = HAL_STATUS_FAILED;
goto reply;
}
if (conn->device->state != DEVICE_CONNECTED) {
char bda[18];
ba2str(&conn->device->bdaddr, bda);
error("gatt: device %s not connected", bda);
status = HAL_STATUS_FAILED;
goto reply;
}
if (cmd->filtered)
android2uuid(cmd->filter_uuid, &uuid);
/* Services not cached yet */
if (queue_isempty(conn->device->services)) {
if (cmd->filtered)
srvc_search_success = search_dev_for_srvc(conn, &uuid);
else
srvc_search_success = search_dev_for_srvc(conn, NULL);
if (!srvc_search_success) {
status = HAL_STATUS_FAILED;
goto reply;
}
status = HAL_STATUS_SUCCESS;
goto reply;
}
/* Search in cached services for given service */
if (cmd->filtered) {
/* Search in cache for service by uuid */
s = queue_find(conn->device->services, match_srvc_by_bt_uuid,
&uuid);
if (s) {
send_client_primary_notify(s, INT_TO_PTR(conn->id));
} else {
if (!search_dev_for_srvc(conn, &uuid)) {
status = HAL_STATUS_FAILED;
goto reply;
}
status = HAL_STATUS_SUCCESS;
goto reply;
}
} else {
/* Refresh service cache if only partial search was performed */
if (conn->device->partial_srvc_search) {
srvc_search_success = search_dev_for_srvc(conn, NULL);
if (!srvc_search_success) {
status = HAL_STATUS_FAILED;
goto reply;
}
} else
queue_foreach(conn->device->services,
send_client_primary_notify,
INT_TO_PTR(cmd->conn_id));
}
send_client_search_complete_notify(GATT_SUCCESS, conn->id);
status = HAL_STATUS_SUCCESS;
reply:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_SEARCH_SERVICE, status);
}
static void send_client_incl_service_notify(const struct element_id *srvc_id,
const struct service *incl,
int32_t conn_id)
{
struct hal_ev_gatt_client_get_inc_service ev;
memset(&ev, 0, sizeof(ev));
ev.conn_id = conn_id;
element_id_to_hal_srvc_id(srvc_id, 1, &ev.srvc_id);
if (incl) {
element_id_to_hal_srvc_id(&incl->id, 0, &ev.incl_srvc_id);
ev.status = GATT_SUCCESS;
} else {
ev.status = GATT_FAILURE;
}
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT ,
HAL_EV_GATT_CLIENT_GET_INC_SERVICE,
sizeof(ev), &ev);
}
struct get_included_data {
struct service *prim;
struct app_connection *conn;
};
static int get_inst_id_of_prim_services(const struct gatt_device *dev)
{
struct service *s = queue_peek_tail(dev->services);
if (s)
return s->id.instance;
return -1;
}
static void get_included_cb(uint8_t status, GSList *included, void *user_data)
{
struct get_included_data *data = user_data;
struct app_connection *conn = data->conn;
struct service *service = data->prim;
struct service *incl = NULL;
int instance_id;
DBG("");
free(data);
if (status) {
error("gatt: no included services found");
goto failed;
}
/* Remember that we already search included services.*/
service->incl_search_done = true;
/*
* There might be multiply services with same uuid. Therefore make sure
* each service has unique instance id. Let's take the latest instance
* id of primary service and start iterate included services from this
* point.
*/
instance_id = get_inst_id_of_prim_services(conn->device);
if (instance_id < 0)
goto failed;
for (; included; included = included->next) {
struct gatt_included *included_service = included->data;
incl = create_service(++instance_id, false,
included_service->uuid,
included_service);
if (!incl)
continue;
/*
* Lets keep included service on two queues.
* 1. on services queue together with primary service
* 2. on special queue inside primary service
*/
queue_push_tail(service->included, incl);
queue_push_tail(conn->device->services, incl);
}
/*
* Notify upper layer about first included service.
* Android framework will iterate for next one.
*/
incl = queue_peek_head(service->included);
failed:
send_client_incl_service_notify(&service->id, incl, conn->id);
}
static void search_included_services(struct app_connection *conn,
struct service *service)
{
struct get_included_data *data;
uint16_t start, end;
data = new0(struct get_included_data, 1);
data->prim = service;
data->conn = conn;
if (service->primary) {
start = service->prim.range.start;
end = service->prim.range.end;
} else {
start = service->incl.range.start;
end = service->incl.range.end;
}
gatt_find_included(conn->device->attrib, start, end, get_included_cb,
data);
}
static bool find_service(int32_t conn_id, struct element_id *service_id,
struct app_connection **connection,
struct service **service)
{
struct service *srvc;
struct app_connection *conn;
conn = find_connection_by_id(conn_id);
if (!conn) {
error("gatt: conn_id=%d not found", conn_id);
return false;
}
srvc = queue_find(conn->device->services, match_srvc_by_element_id,
service_id);
if (!srvc) {
error("gatt: Service with inst_id: %d not found",
service_id->instance);
return false;
}
*connection = conn;
*service = srvc;
return true;
}
static void handle_client_get_included_service(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_get_included_service *cmd = buf;
struct app_connection *conn;
struct service *prim_service;
struct service *incl_service = NULL;
struct element_id match_id;
struct element_id srvc_id;
uint8_t status;
DBG("");
hal_srvc_id_to_element_id(&cmd->srvc_id, &srvc_id);
if (len != sizeof(*cmd) +
(cmd->continuation ? sizeof(cmd->incl_srvc_id[0]) : 0)) {
error("Invalid get incl services size (%u bytes), terminating",
len);
raise(SIGTERM);
return;
}
hal_srvc_id_to_element_id(&cmd->srvc_id, &match_id);
if (!find_service(cmd->conn_id, &match_id, &conn, &prim_service)) {
status = HAL_STATUS_FAILED;
goto notify;
}
if (!prim_service->incl_search_done) {
search_included_services(conn, prim_service);
status = HAL_STATUS_SUCCESS;
goto reply;
}
/* Try to use cache here */
if (!cmd->continuation) {
incl_service = queue_peek_head(prim_service->included);
} else {
uint8_t inst_id = cmd->incl_srvc_id[0].inst_id;
incl_service = queue_find(prim_service->included,
match_srvc_by_higher_inst_id,
INT_TO_PTR(inst_id));
}
status = HAL_STATUS_SUCCESS;
notify:
/*
* In case of error in handling request we need to send event with
* service id of cmd and gatt failure status.
*/
send_client_incl_service_notify(&srvc_id, incl_service, cmd->conn_id);
reply:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_GET_INCLUDED_SERVICE, status);
}
static void send_client_char_notify(const struct hal_gatt_srvc_id *service,
const struct hal_gatt_gatt_id *charac,
int32_t char_prop, int32_t conn_id)
{
struct hal_ev_gatt_client_get_characteristic ev;
ev.conn_id = conn_id;
if (charac) {
memcpy(&ev.char_id, charac, sizeof(struct hal_gatt_gatt_id));
ev.char_prop = char_prop;
ev.status = GATT_SUCCESS;
} else {
memset(&ev.char_id, 0, sizeof(struct hal_gatt_gatt_id));
ev.char_prop = 0;
ev.status = GATT_FAILURE;
}
memcpy(&ev.srvc_id, service, sizeof(struct hal_gatt_srvc_id));
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_GET_CHARACTERISTIC,
sizeof(ev), &ev);
}
static void convert_send_client_char_notify(const struct characteristic *ch,
int32_t conn_id,
const struct service *service)
{
struct hal_gatt_srvc_id srvc;
struct hal_gatt_gatt_id charac;
element_id_to_hal_srvc_id(&service->id, service->primary, &srvc);
if (ch) {
element_id_to_hal_gatt_id(&ch->id, &charac);
send_client_char_notify(&srvc, &charac, ch->ch.properties,
conn_id);
} else {
send_client_char_notify(&srvc, NULL, 0, conn_id);
}
}
static void cache_all_srvc_chars(struct service *srvc, GSList *characteristics)
{
uint16_t inst_id = 0;
bt_uuid_t uuid;
for (; characteristics; characteristics = characteristics->next) {
struct characteristic *ch;
ch = new0(struct characteristic, 1);
ch->descriptors = queue_new();
memcpy(&ch->ch, characteristics->data, sizeof(ch->ch));
bt_string_to_uuid(&uuid, ch->ch.uuid);
bt_uuid_to_uuid128(&uuid, &ch->id.uuid);
/*
* For now we increment inst_id and use it as characteristic
* handle
*/
ch->id.instance = ++inst_id;
/* Store end handle to use later for descriptors discovery */
if (characteristics->next) {
struct gatt_char *next = characteristics->next->data;
ch->end_handle = next->handle - 1;
} else {
ch->end_handle = srvc->primary ? srvc->prim.range.end :
srvc->incl.range.end;
}
DBG("attr handle = 0x%04x, end handle = 0x%04x uuid: %s",
ch->ch.handle, ch->end_handle, ch->ch.uuid);
queue_push_tail(srvc->chars, ch);
}
}
struct discover_char_data {
int32_t conn_id;
struct service *service;
};
static void discover_char_cb(uint8_t status, GSList *characteristics,
void *user_data)
{
struct discover_char_data *data = user_data;
struct service *srvc = data->service;
if (status) {
error("gatt: Failed to get characteristics: %s",
att_ecode2str(status));
convert_send_client_char_notify(NULL, data->conn_id, srvc);
goto done;
}
if (queue_isempty(srvc->chars))
cache_all_srvc_chars(srvc, characteristics);
convert_send_client_char_notify(queue_peek_head(srvc->chars),
data->conn_id, srvc);
done:
free(data);
}
static void handle_client_get_characteristic(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_get_characteristic *cmd = buf;
struct characteristic *ch;
struct element_id match_id;
struct app_connection *conn;
struct service *srvc;
uint8_t status;
DBG("");
if (len != sizeof(*cmd) + (cmd->continuation ? sizeof(cmd->char_id[0]) : 0)) {
error("Invalid get characteristic size (%u bytes), terminating",
len);
raise(SIGTERM);
return;
}
hal_srvc_id_to_element_id(&cmd->srvc_id, &match_id);
if (!find_service(cmd->conn_id, &match_id, &conn, &srvc)) {
status = HAL_STATUS_FAILED;
goto done;
}
/* Discover all characteristics for services if not cached yet */
if (queue_isempty(srvc->chars)) {
struct discover_char_data *cb_data;
struct att_range range;
cb_data = new0(struct discover_char_data, 1);
cb_data->service = srvc;
cb_data->conn_id = conn->id;
range = srvc->primary ? srvc->prim.range : srvc->incl.range;
if (!gatt_discover_char(conn->device->attrib, range.start,
range.end, NULL,
discover_char_cb, cb_data)) {
free(cb_data);
status = HAL_STATUS_FAILED;
goto done;
}
status = HAL_STATUS_SUCCESS;
goto done;
}
if (cmd->continuation)
ch = queue_find(srvc->chars, match_char_by_higher_inst_id,
INT_TO_PTR(cmd->char_id[0].inst_id));
else
ch = queue_peek_head(srvc->chars);
convert_send_client_char_notify(ch, conn->id, srvc);
status = HAL_STATUS_SUCCESS;
done:
if (status != HAL_STATUS_SUCCESS)
send_client_char_notify(&cmd->srvc_id, NULL, 0, cmd->conn_id);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_GET_CHARACTERISTIC, status);
}
static void send_client_descr_notify(int32_t status, int32_t conn_id,
bool primary,
const struct element_id *srvc,
const struct element_id *ch,
const struct element_id *opt_descr)
{
struct hal_ev_gatt_client_get_descriptor ev;
memset(&ev, 0, sizeof(ev));
ev.status = status;
ev.conn_id = conn_id;
element_id_to_hal_srvc_id(srvc, primary, &ev.srvc_id);
element_id_to_hal_gatt_id(ch, &ev.char_id);
if (opt_descr)
element_id_to_hal_gatt_id(opt_descr, &ev.descr_id);
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_GET_DESCRIPTOR, sizeof(ev), &ev);
}
struct discover_desc_data {
struct app_connection *conn;
struct service *srvc;
struct characteristic *ch;
};
static void gatt_discover_desc_cb(guint8 status, GSList *descs,
gpointer user_data)
{
struct discover_desc_data *data = user_data;
struct app_connection *conn = data->conn;
struct service *srvc = data->srvc;
struct characteristic *ch = data->ch;
struct descriptor *descr;
int i = 0;
if (status != 0) {
error("Discover all characteristic descriptors failed [%s]: %s",
ch->ch.uuid, att_ecode2str(status));
goto reply;
}
for ( ; descs; descs = descs->next) {
struct gatt_desc *desc = descs->data;
bt_uuid_t uuid;
descr = new0(struct descriptor, 1);
bt_string_to_uuid(&uuid, desc->uuid);
bt_uuid_to_uuid128(&uuid, &descr->id.uuid);
descr->id.instance = ++i;
descr->handle = desc->handle;
DBG("attr handle = 0x%04x, uuid: %s", desc->handle, desc->uuid);
queue_push_tail(ch->descriptors, descr);
}
reply:
descr = queue_peek_head(ch->descriptors);
send_client_descr_notify(status ? GATT_FAILURE : GATT_SUCCESS, conn->id,
srvc->primary, &srvc->id, &ch->id,
descr ? &descr->id : NULL);
free(data);
}
static bool build_descr_cache(struct app_connection *conn, struct service *srvc,
struct characteristic *ch)
{
struct discover_desc_data *cb_data;
uint16_t start, end;
/* Clip range to given characteristic */
start = ch->ch.value_handle + 1;
end = ch->end_handle;
/* If there are no descriptors, notify with fail status. */
if (start > end)
return false;
cb_data = new0(struct discover_desc_data, 1);
cb_data->conn = conn;
cb_data->srvc = srvc;
cb_data->ch = ch;
if (!gatt_discover_desc(conn->device->attrib, start, end, NULL,
gatt_discover_desc_cb, cb_data)) {
free(cb_data);
return false;
}
return true;
}
static void handle_client_get_descriptor(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_get_descriptor *cmd = buf;
struct descriptor *descr = NULL;
struct characteristic *ch;
struct service *srvc;
struct element_id srvc_id;
struct element_id char_id;
struct app_connection *conn;
int32_t conn_id;
uint8_t primary;
uint8_t status;
DBG("");
if (len != sizeof(*cmd) +
(cmd->continuation ? sizeof(cmd->descr_id[0]) : 0)) {
error("gatt: Invalid get descr command (%u bytes), terminating",
len);
raise(SIGTERM);
return;
}
conn_id = cmd->conn_id;
primary = cmd->srvc_id.is_primary;
hal_srvc_id_to_element_id(&cmd->srvc_id, &srvc_id);
hal_gatt_id_to_element_id(&cmd->char_id, &char_id);
if (!find_service(conn_id, &srvc_id, &conn, &srvc)) {
error("gatt: Get descr. could not find service");
status = HAL_STATUS_FAILED;
goto failed;
}
ch = queue_find(srvc->chars, match_char_by_element_id, &char_id);
if (!ch) {
error("gatt: Get descr. could not find characteristic");
status = HAL_STATUS_FAILED;
goto failed;
}
if (queue_isempty(ch->descriptors)) {
if (build_descr_cache(conn, srvc, ch)) {
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_GET_DESCRIPTOR,
HAL_STATUS_SUCCESS);
return;
}
}
status = HAL_STATUS_SUCCESS;
/* Send from cache */
if (cmd->continuation)
descr = queue_find(ch->descriptors,
match_descr_by_higher_inst_id,
INT_TO_PTR(cmd->descr_id[0].inst_id));
else
descr = queue_peek_head(ch->descriptors);
failed:
send_client_descr_notify(descr ? GATT_SUCCESS : GATT_FAILURE, conn_id,
primary, &srvc_id, &char_id,
&descr->id);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_GET_DESCRIPTOR, status);
}
struct char_op_data {
int32_t conn_id;
const struct element_id *srvc_id;
const struct element_id *char_id;
uint8_t primary;
};
static struct char_op_data *create_char_op_data(int32_t conn_id,
const struct element_id *s_id,
const struct element_id *ch_id,
bool primary)
{
struct char_op_data *d;
d = new0(struct char_op_data, 1);
d->conn_id = conn_id;
d->srvc_id = s_id;
d->char_id = ch_id;
d->primary = primary;
return d;
}
static void send_client_read_char_notify(int32_t status, const uint8_t *pdu,
uint16_t len, int32_t conn_id,
const struct element_id *s_id,
const struct element_id *ch_id,
uint8_t primary)
{
uint8_t buf[IPC_MTU];
struct hal_ev_gatt_client_read_characteristic *ev = (void *) buf;
ssize_t vlen;
memset(buf, 0, sizeof(buf));
ev->conn_id = conn_id;
ev->status = status;
ev->data.status = status;
element_id_to_hal_srvc_id(s_id, primary, &ev->data.srvc_id);
element_id_to_hal_gatt_id(ch_id, &ev->data.char_id);
if (status == 0 && pdu) {
vlen = dec_read_resp(pdu, len, ev->data.value, sizeof(buf));
if (vlen < 0) {
error("gatt: Protocol error");
ev->status = GATT_FAILURE;
} else {
ev->data.len = vlen;
}
}
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_READ_CHARACTERISTIC,
sizeof(*ev) + ev->data.len, ev);
}
static void read_char_cb(guint8 status, const guint8 *pdu, guint16 len,
gpointer user_data)
{
struct char_op_data *data = user_data;
send_client_read_char_notify(status, pdu, len, data->conn_id,
data->srvc_id, data->char_id,
data->primary);
free(data);
}
static int get_cid(struct gatt_device *dev)
{
GIOChannel *io;
uint16_t cid;
io = g_attrib_get_channel(dev->attrib);
if (!bt_io_get(io, NULL, BT_IO_OPT_CID, &cid, BT_IO_OPT_INVALID)) {
error("gatt: Failed to get CID");
return -1;
}
return cid;
}
static int get_sec_level(struct gatt_device *dev)
{
GIOChannel *io;
int sec_level;
io = g_attrib_get_channel(dev->attrib);
if (!bt_io_get(io, NULL, BT_IO_OPT_SEC_LEVEL, &sec_level,
BT_IO_OPT_INVALID)) {
error("gatt: Failed to get sec_level");
return -1;
}
return sec_level;
}
static bool set_security(struct gatt_device *device, int req_sec_level)
{
int sec_level;
GError *gerr = NULL;
GIOChannel *io;
sec_level = get_sec_level(device);
if (sec_level < 0)
return false;
if (req_sec_level <= sec_level)
return true;
io = g_attrib_get_channel(device->attrib);
if (!io)
return false;
bt_io_set(io, &gerr, BT_IO_OPT_SEC_LEVEL, req_sec_level,
BT_IO_OPT_INVALID);
if (gerr) {
error("gatt: Failed to set security level: %s", gerr->message);
g_error_free(gerr);
return false;
}
return true;
}
bool bt_gatt_set_security(const bdaddr_t *bdaddr, int sec_level)
{
struct gatt_device *device;
device = find_device_by_addr(bdaddr);
if (!device)
return false;
return set_security(device, sec_level);
}
static bool set_auth_type(struct gatt_device *device, int auth_type)
{
int sec_level;
switch (auth_type) {
case HAL_GATT_AUTHENTICATION_MITM:
sec_level = BT_SECURITY_HIGH;
break;
case HAL_GATT_AUTHENTICATION_NO_MITM:
sec_level = BT_SECURITY_MEDIUM;
break;
case HAL_GATT_AUTHENTICATION_NONE:
sec_level = BT_SECURITY_LOW;
break;
default:
error("gatt: Invalid auth_type value: %d", auth_type);
return false;
}
return set_security(device, sec_level);
}
static void handle_client_read_characteristic(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_read_characteristic *cmd = buf;
struct char_op_data *cb_data;
struct characteristic *ch;
struct app_connection *conn;
struct service *srvc;
struct element_id srvc_id;
struct element_id char_id;
uint8_t status;
DBG("");
/* TODO authorization needs to be handled */
hal_srvc_id_to_element_id(&cmd->srvc_id, &srvc_id);
hal_gatt_id_to_element_id(&cmd->char_id, &char_id);
if (!find_service(cmd->conn_id, &srvc_id, &conn, &srvc)) {
status = HAL_STATUS_FAILED;
goto failed;
}
/* search characteristics by element id */
ch = queue_find(srvc->chars, match_char_by_element_id, &char_id);
if (!ch) {
error("gatt: Characteristic with inst_id: %d not found",
cmd->char_id.inst_id);
status = HAL_STATUS_FAILED;
goto failed;
}
cb_data = create_char_op_data(cmd->conn_id, &srvc->id, &ch->id,
cmd->srvc_id.is_primary);
if (!set_auth_type(conn->device, cmd->auth_req)) {
error("gatt: Failed to set security %d", cmd->auth_req);
status = HAL_STATUS_FAILED;
free(cb_data);
goto failed;
}
if (!gatt_read_char(conn->device->attrib, ch->ch.value_handle,
read_char_cb, cb_data)) {
error("gatt: Cannot read characteristic with inst_id: %d",
cmd->char_id.inst_id);
status = HAL_STATUS_FAILED;
free(cb_data);
goto failed;
}
status = HAL_STATUS_SUCCESS;
failed:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_READ_CHARACTERISTIC, status);
/*
* We should send notification with service, characteristic id in case
* of errors.
*/
if (status != HAL_STATUS_SUCCESS)
send_client_read_char_notify(GATT_FAILURE, NULL, 0,
cmd->conn_id, &srvc_id,
&char_id,
cmd->srvc_id.is_primary);
}
static void send_client_write_char_notify(int32_t status, int32_t conn_id,
const struct element_id *srvc_id,
const struct element_id *char_id,
uint8_t primary)
{
struct hal_ev_gatt_client_write_characteristic ev;
memset(&ev, 0, sizeof(ev));
ev.conn_id = conn_id;
ev.status = status;
ev.data.status = status;
element_id_to_hal_srvc_id(srvc_id, primary, &ev.data.srvc_id);
element_id_to_hal_gatt_id(char_id, &ev.data.char_id);
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_WRITE_CHARACTERISTIC,
sizeof(ev), &ev);
}
static void write_char_cb(guint8 status, const guint8 *pdu, guint16 len,
gpointer user_data)
{
struct char_op_data *data = user_data;
send_client_write_char_notify(status, data->conn_id, data->srvc_id,
data->char_id, data->primary);
free(data);
}
static guint signed_write_cmd(struct gatt_device *dev, uint16_t handle,
const uint8_t *value, uint16_t vlen)
{
uint8_t csrk[16];
uint32_t sign_cnt;
guint res;
memset(csrk, 0, 16);
if (!bt_get_csrk(&dev->bdaddr, true, csrk, &sign_cnt, NULL)) {
error("gatt: Could not get csrk key");
return 0;
}
res = gatt_signed_write_cmd(dev->attrib, handle, value, vlen, crypto,
csrk, sign_cnt, NULL, NULL);
if (!res) {
error("gatt: Signed write command failed");
return 0;
}
bt_update_sign_counter(&dev->bdaddr, true, ++sign_cnt);
return res;
}
static void handle_client_write_characteristic(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_write_characteristic *cmd = buf;
struct char_op_data *cb_data = NULL;
struct characteristic *ch;
struct app_connection *conn;
struct service *srvc;
struct element_id srvc_id;
struct element_id char_id;
uint8_t status;
guint res;
DBG("");
if (len != sizeof(*cmd) + cmd->len) {
error("Invalid write char size (%u bytes), terminating", len);
raise(SIGTERM);
return;
}
hal_srvc_id_to_element_id(&cmd->srvc_id, &srvc_id);
hal_gatt_id_to_element_id(&cmd->char_id, &char_id);
if (!find_service(cmd->conn_id, &srvc_id, &conn, &srvc)) {
status = HAL_STATUS_FAILED;
goto failed;
}
/* search characteristics by instance id */
ch = queue_find(srvc->chars, match_char_by_element_id, &char_id);
if (!ch) {
error("gatt: Characteristic with inst_id: %d not found",
cmd->char_id.inst_id);
status = HAL_STATUS_FAILED;
goto failed;
}
if (cmd->write_type == GATT_WRITE_TYPE_PREPARE ||
cmd->write_type == GATT_WRITE_TYPE_DEFAULT) {
cb_data = create_char_op_data(cmd->conn_id, &srvc->id, &ch->id,
cmd->srvc_id.is_primary);
}
if (!set_auth_type(conn->device, cmd->auth_req)) {
error("gatt: Failed to set security %d", cmd->auth_req);
status = HAL_STATUS_FAILED;
goto failed;
}
switch (cmd->write_type) {
case GATT_WRITE_TYPE_NO_RESPONSE:
res = gatt_write_cmd(conn->device->attrib, ch->ch.value_handle,
cmd->value, cmd->len,
NULL, NULL);
break;
case GATT_WRITE_TYPE_PREPARE:
res = gatt_reliable_write_char(conn->device->attrib,
ch->ch.value_handle,
cmd->value, cmd->len,
write_char_cb, cb_data);
break;
case GATT_WRITE_TYPE_DEFAULT:
res = gatt_write_char(conn->device->attrib, ch->ch.value_handle,
cmd->value, cmd->len,
write_char_cb, cb_data);
break;
case GATT_WRITE_TYPE_SIGNED:
if (get_cid(conn->device) != ATT_CID) {
error("gatt: Cannot write signed on BR/EDR bearer");
status = HAL_STATUS_FAILED;
goto failed;
}
if (get_sec_level(conn->device) > BT_SECURITY_LOW)
res = gatt_write_cmd(conn->device->attrib,
ch->ch.value_handle, cmd->value,
cmd->len, NULL, NULL);
else
res = signed_write_cmd(conn->device,
ch->ch.value_handle, cmd->value,
cmd->len);
break;
default:
error("gatt: Write type %d unsupported", cmd->write_type);
status = HAL_STATUS_UNSUPPORTED;
goto failed;
}
if (!res) {
error("gatt: Cannot write char. with inst_id: %d",
cmd->char_id.inst_id);
status = HAL_STATUS_FAILED;
goto failed;
}
status = HAL_STATUS_SUCCESS;
failed:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_WRITE_CHARACTERISTIC, status);
/*
* We should send notification with service, characteristic id in case
* of error and write with no response
*/
if (status != HAL_STATUS_SUCCESS ||
cmd->write_type == GATT_WRITE_TYPE_NO_RESPONSE ||
cmd->write_type == GATT_WRITE_TYPE_SIGNED) {
int32_t gatt_status = (status == HAL_STATUS_SUCCESS) ?
GATT_SUCCESS : GATT_FAILURE;
send_client_write_char_notify(gatt_status, cmd->conn_id,
&srvc_id, &char_id,
cmd->srvc_id.is_primary);
free(cb_data);
}
}
static void send_client_descr_read_notify(int32_t status, const uint8_t *pdu,
guint16 len, int32_t conn_id,
const struct element_id *srvc,
const struct element_id *ch,
const struct element_id *descr,
uint8_t primary)
{
uint8_t buf[IPC_MTU];
struct hal_ev_gatt_client_read_descriptor *ev = (void *) buf;
memset(buf, 0, sizeof(buf));
ev->status = status;
ev->conn_id = conn_id;
ev->data.status = ev->status;
element_id_to_hal_srvc_id(srvc, primary, &ev->data.srvc_id);
element_id_to_hal_gatt_id(ch, &ev->data.char_id);
element_id_to_hal_gatt_id(descr, &ev->data.descr_id);
if (status == 0 && pdu) {
ssize_t ret;
ret = dec_read_resp(pdu, len, ev->data.value,
GATT_MAX_ATTR_LEN);
if (ret < 0) {
error("gatt: Protocol error");
ev->status = GATT_FAILURE;
} else {
ev->data.len = ret;
}
}
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_READ_DESCRIPTOR,
sizeof(*ev) + ev->data.len, ev);
}
struct desc_data {
int32_t conn_id;
const struct element_id *srvc_id;
const struct element_id *char_id;
const struct element_id *descr_id;
uint8_t primary;
};
static void read_desc_cb(guint8 status, const guint8 *pdu, guint16 len,
gpointer user_data)
{
struct desc_data *cb_data = user_data;
if (status != 0)
error("gatt: Discover all char descriptors failed: %s",
att_ecode2str(status));
send_client_descr_read_notify(status, pdu, len, cb_data->conn_id,
cb_data->srvc_id, cb_data->char_id,
cb_data->descr_id, cb_data->primary);
free(cb_data);
}
static struct desc_data *create_desc_data(int32_t conn_id,
const struct element_id *s_id,
const struct element_id *ch_id,
const struct element_id *d_id,
uint8_t primary)
{
struct desc_data *d;
d = new0(struct desc_data, 1);
d->conn_id = conn_id;
d->srvc_id = s_id;
d->char_id = ch_id;
d->descr_id = d_id;
d->primary = primary;
return d;
}
static void handle_client_read_descriptor(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_read_descriptor *cmd = buf;
struct desc_data *cb_data;
struct characteristic *ch;
struct descriptor *descr;
struct service *srvc;
struct element_id char_id;
struct element_id descr_id;
struct element_id srvc_id;
struct app_connection *conn;
int32_t conn_id = 0;
uint8_t primary;
uint8_t status;
DBG("");
conn_id = cmd->conn_id;
primary = cmd->srvc_id.is_primary;
hal_srvc_id_to_element_id(&cmd->srvc_id, &srvc_id);
hal_gatt_id_to_element_id(&cmd->char_id, &char_id);
hal_gatt_id_to_element_id(&cmd->descr_id, &descr_id);
if (!find_service(conn_id, &srvc_id, &conn, &srvc)) {
error("gatt: Read descr. could not find service");
status = HAL_STATUS_FAILED;
goto failed;
}
ch = queue_find(srvc->chars, match_char_by_element_id, &char_id);
if (!ch) {
error("gatt: Read descr. could not find characteristic");
status = HAL_STATUS_FAILED;
goto failed;
}
descr = queue_find(ch->descriptors, match_descr_by_element_id,
&descr_id);
if (!descr) {
error("gatt: Read descr. could not find descriptor");
status = HAL_STATUS_FAILED;
goto failed;
}
cb_data = create_desc_data(conn_id, &srvc->id, &ch->id, &descr->id,
primary);
if (!set_auth_type(conn->device, cmd->auth_req)) {
error("gatt: Failed to set security %d", cmd->auth_req);
status = HAL_STATUS_FAILED;
free(cb_data);
goto failed;
}
if (!gatt_read_char(conn->device->attrib, descr->handle, read_desc_cb,
cb_data)) {
free(cb_data);
status = HAL_STATUS_FAILED;
goto failed;
}
status = HAL_STATUS_SUCCESS;
failed:
if (status != HAL_STATUS_SUCCESS)
send_client_descr_read_notify(GATT_FAILURE, NULL, 0, conn_id,
&srvc_id, &char_id, &descr_id,
primary);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_READ_DESCRIPTOR, status);
}
static void send_client_descr_write_notify(int32_t status, int32_t conn_id,
const struct element_id *srvc,
const struct element_id *ch,
const struct element_id *descr,
uint8_t primary) {
uint8_t buf[IPC_MTU];
struct hal_ev_gatt_client_write_descriptor *ev = (void *) buf;
memset(buf, 0, sizeof(buf));
ev->status = status;
ev->conn_id = conn_id;
element_id_to_hal_srvc_id(srvc, primary, &ev->data.srvc_id);
element_id_to_hal_gatt_id(ch, &ev->data.char_id);
element_id_to_hal_gatt_id(descr, &ev->data.descr_id);
ev->data.status = status;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_WRITE_DESCRIPTOR,
sizeof(*ev), ev);
}
static void write_descr_cb(guint8 status, const guint8 *pdu, guint16 len,
gpointer user_data)
{
struct desc_data *cb_data = user_data;
if (status)
error("gatt: Write descriptors failed: %s",
att_ecode2str(status));
send_client_descr_write_notify(status, cb_data->conn_id,
cb_data->srvc_id, cb_data->char_id,
cb_data->descr_id, cb_data->primary);
free(cb_data);
}
static void handle_client_write_descriptor(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_write_descriptor *cmd = buf;
struct desc_data *cb_data = NULL;
struct characteristic *ch;
struct descriptor *descr;
struct service *srvc;
struct element_id srvc_id;
struct element_id char_id;
struct element_id descr_id;
struct app_connection *conn;
int32_t conn_id;
uint8_t primary;
uint8_t status;
guint res;
DBG("");
if (len != sizeof(*cmd) + cmd->len) {
error("Invalid write desriptor command (%u bytes), terminating",
len);
raise(SIGTERM);
return;
}
primary = cmd->srvc_id.is_primary;
conn_id = cmd->conn_id;
hal_srvc_id_to_element_id(&cmd->srvc_id, &srvc_id);
hal_gatt_id_to_element_id(&cmd->char_id, &char_id);
hal_gatt_id_to_element_id(&cmd->descr_id, &descr_id);
if (!find_service(cmd->conn_id, &srvc_id, &conn, &srvc)) {
error("gatt: Write descr. could not find service");
status = HAL_STATUS_FAILED;
goto failed;
}
ch = queue_find(srvc->chars, match_char_by_element_id, &char_id);
if (!ch) {
error("gatt: Write descr. could not find characteristic");
status = HAL_STATUS_FAILED;
goto failed;
}
descr = queue_find(ch->descriptors, match_descr_by_element_id,
&descr_id);
if (!descr) {
error("gatt: Write descr. could not find descriptor");
status = HAL_STATUS_FAILED;
goto failed;
}
if (cmd->write_type != GATT_WRITE_TYPE_NO_RESPONSE)
cb_data = create_desc_data(conn_id, &srvc->id, &ch->id,
&descr->id, primary);
if (!set_auth_type(conn->device, cmd->auth_req)) {
error("gatt: Failed to set security %d", cmd->auth_req);
status = HAL_STATUS_FAILED;
goto failed;
}
switch (cmd->write_type) {
case GATT_WRITE_TYPE_NO_RESPONSE:
res = gatt_write_cmd(conn->device->attrib, descr->handle,
cmd->value, cmd->len, NULL , NULL);
break;
case GATT_WRITE_TYPE_PREPARE:
res = gatt_reliable_write_char(conn->device->attrib,
descr->handle, cmd->value,
cmd->len, write_descr_cb,
cb_data);
break;
case GATT_WRITE_TYPE_DEFAULT:
res = gatt_write_char(conn->device->attrib, descr->handle,
cmd->value, cmd->len,
write_descr_cb, cb_data);
break;
default:
error("gatt: Write type %d unsupported", cmd->write_type);
status = HAL_STATUS_UNSUPPORTED;
goto failed;
}
if (!res) {
error("gatt: Write desc, could not write desc");
status = HAL_STATUS_FAILED;
goto failed;
}
status = HAL_STATUS_SUCCESS;
failed:
if (status != HAL_STATUS_SUCCESS ||
cmd->write_type == GATT_WRITE_TYPE_NO_RESPONSE) {
int32_t gatt_status = (status == HAL_STATUS_SUCCESS) ?
GATT_SUCCESS : GATT_FAILURE;
send_client_descr_write_notify(gatt_status, conn_id, &srvc_id,
&char_id, &descr_id, primary);
free(cb_data);
}
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_WRITE_DESCRIPTOR, status);
}
static void send_client_write_execute_notify(int32_t id, int32_t status)
{
struct hal_ev_gatt_client_exec_write ev;
ev.conn_id = id;
ev.status = status;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_EXEC_WRITE,
sizeof(ev), &ev);
}
static void write_execute_cb(guint8 status, const guint8 *pdu, guint16 len,
gpointer user_data)
{
send_client_write_execute_notify(PTR_TO_INT(user_data), status);
}
static void handle_client_execute_write(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_execute_write *cmd = buf;
struct app_connection *conn;
uint8_t status;
uint8_t flags;
DBG("");
conn = find_connection_by_id(cmd->conn_id);
if (!conn) {
status = HAL_STATUS_FAILED;
goto reply;
}
flags = cmd->execute ? ATT_WRITE_ALL_PREP_WRITES :
ATT_CANCEL_ALL_PREP_WRITES;
if (!gatt_execute_write(conn->device->attrib, flags, write_execute_cb,
INT_TO_PTR(cmd->conn_id))) {
error("gatt: Could not send execute write");
status = HAL_STATUS_FAILED;
goto reply;
}
status = HAL_STATUS_SUCCESS;
reply:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_EXECUTE_WRITE, status);
/* In case of early error send also notification.*/
if (status != HAL_STATUS_SUCCESS)
send_client_write_execute_notify(cmd->conn_id, GATT_FAILURE);
}
static void handle_notification(const uint8_t *pdu, uint16_t len,
gpointer user_data)
{
uint8_t buf[IPC_MTU];
struct hal_ev_gatt_client_notify *ev = (void *) buf;
struct notification_data *notification = user_data;
uint8_t data_offset = sizeof(uint8_t) + sizeof(uint16_t);
if (len < data_offset)
return;
memcpy(&ev->char_id, &notification->ch, sizeof(ev->char_id));
memcpy(&ev->srvc_id, &notification->service, sizeof(ev->srvc_id));
bdaddr2android(&notification->conn->device->bdaddr, &ev->bda);
ev->conn_id = notification->conn->id;
ev->is_notify = pdu[0] == ATT_OP_HANDLE_NOTIFY;
/* We have to cut opcode and handle from data */
ev->len = len - data_offset;
memcpy(ev->value, pdu + data_offset, len - data_offset);
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT, HAL_EV_GATT_CLIENT_NOTIFY,
sizeof(*ev) + ev->len, ev);
}
static void send_register_for_notification_ev(int32_t id, int32_t registered,
int32_t status,
const struct hal_gatt_srvc_id *srvc,
const struct hal_gatt_gatt_id *ch)
{
struct hal_ev_gatt_client_reg_for_notif ev;
ev.conn_id = id;
ev.status = status;
ev.registered = registered;
memcpy(&ev.srvc_id, srvc, sizeof(ev.srvc_id));
memcpy(&ev.char_id, ch, sizeof(ev.char_id));
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_REGISTER_FOR_NOTIF, sizeof(ev), &ev);
}
static void handle_client_register_for_notification(const void *buf,
uint16_t len)
{
const struct hal_cmd_gatt_client_register_for_notification *cmd = buf;
struct notification_data *notification;
struct characteristic *c;
struct element_id match_id;
struct app_connection *conn;
int32_t conn_id = 0;
struct service *service;
uint8_t status;
int32_t gatt_status;
bdaddr_t addr;
DBG("");
android2bdaddr(&cmd->bdaddr, &addr);
conn = find_conn(&addr, cmd->client_if);
if (!conn) {
status = HAL_STATUS_FAILED;
goto failed;
}
conn_id = conn->id;
hal_srvc_id_to_element_id(&cmd->srvc_id, &match_id);
service = queue_find(conn->device->services, match_srvc_by_element_id,
&match_id);
if (!service) {
status = HAL_STATUS_FAILED;
goto failed;
}
hal_gatt_id_to_element_id(&cmd->char_id, &match_id);
c = queue_find(service->chars, match_char_by_element_id, &match_id);
if (!c) {
status = HAL_STATUS_FAILED;
goto failed;
}
notification = new0(struct notification_data, 1);
memcpy(&notification->ch, &cmd->char_id, sizeof(notification->ch));
memcpy(&notification->service, &cmd->srvc_id,
sizeof(notification->service));
notification->conn = conn;
if (queue_find(conn->app->notifications, match_notification,
notification)) {
free(notification);
status = HAL_STATUS_SUCCESS;
goto failed;
}
notification->notif_id = g_attrib_register(conn->device->attrib,
ATT_OP_HANDLE_NOTIFY,
c->ch.value_handle,
handle_notification,
notification,
destroy_notification);
if (!notification->notif_id) {
free(notification);
status = HAL_STATUS_FAILED;
goto failed;
}
notification->ind_id = g_attrib_register(conn->device->attrib,
ATT_OP_HANDLE_IND,
c->ch.value_handle,
handle_notification,
notification,
destroy_notification);
if (!notification->ind_id) {
g_attrib_unregister(conn->device->attrib,
notification->notif_id);
free(notification);
status = HAL_STATUS_FAILED;
goto failed;
}
/*
* Because same data - notification - is shared by two handlers, we
* introduce ref counter to be sure that data can be freed with no risk.
* Counter is decremented in destroy_notification.
*/
notification->ref = 2;
queue_push_tail(conn->app->notifications, notification);
status = HAL_STATUS_SUCCESS;
failed:
gatt_status = status ? GATT_FAILURE : GATT_SUCCESS;
send_register_for_notification_ev(conn_id, 1, gatt_status,
&cmd->srvc_id, &cmd->char_id);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_REGISTER_FOR_NOTIFICATION, status);
}
static void handle_client_deregister_for_notification(const void *buf,
uint16_t len)
{
const struct hal_cmd_gatt_client_deregister_for_notification *cmd = buf;
struct notification_data *notification, notif;
struct app_connection *conn;
int32_t conn_id = 0;
uint8_t status;
int32_t gatt_status;
bdaddr_t addr;
DBG("");
android2bdaddr(&cmd->bdaddr, &addr);
conn = find_conn(&addr, cmd->client_if);
if (!conn) {
status = HAL_STATUS_FAILED;
goto failed;
}
conn_id = conn->id;
memcpy(&notif.ch, &cmd->char_id, sizeof(notif.ch));
memcpy(&notif.service, &cmd->srvc_id, sizeof(notif.service));
notif.conn = conn;
notification = queue_find(conn->app->notifications,
match_notification, &notif);
if (!notification) {
status = HAL_STATUS_FAILED;
goto failed;
}
unregister_notification(notification);
status = HAL_STATUS_SUCCESS;
failed:
gatt_status = status ? GATT_FAILURE : GATT_SUCCESS;
send_register_for_notification_ev(conn_id, 0, gatt_status,
&cmd->srvc_id, &cmd->char_id);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_DEREGISTER_FOR_NOTIFICATION, status);
}
static void send_client_remote_rssi_notify(int32_t client_if,
const bdaddr_t *addr,
int32_t rssi, int32_t status)
{
struct hal_ev_gatt_client_read_remote_rssi ev;
ev.client_if = client_if;
bdaddr2android(addr, &ev.address);
ev.rssi = rssi;
ev.status = status;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_READ_REMOTE_RSSI, sizeof(ev), &ev);
}
static void read_remote_rssi_cb(uint8_t status, const bdaddr_t *addr,
int8_t rssi, void *user_data)
{
int32_t client_if = PTR_TO_INT(user_data);
int32_t gatt_status = status ? GATT_FAILURE : GATT_SUCCESS;
send_client_remote_rssi_notify(client_if, addr, rssi, gatt_status);
}
static void handle_client_read_remote_rssi(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_read_remote_rssi *cmd = buf;
uint8_t status;
bdaddr_t bdaddr;
DBG("");
if (!find_app_by_id(cmd->client_if)) {
status = HAL_STATUS_FAILED;
goto failed;
}
android2bdaddr(cmd->bdaddr, &bdaddr);
if (!bt_read_device_rssi(&bdaddr, read_remote_rssi_cb,
INT_TO_PTR(cmd->client_if))) {
error("gatt: Could not read RSSI");
status = HAL_STATUS_FAILED;
goto failed;
}
status = HAL_STATUS_SUCCESS;
failed:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_READ_REMOTE_RSSI, status);
if (status != HAL_STATUS_SUCCESS)
send_client_remote_rssi_notify(cmd->client_if, &bdaddr, 0,
GATT_FAILURE);
}
static void handle_client_get_device_type(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_get_device_type *cmd = buf;
struct hal_rsp_gatt_client_get_device_type rsp;
bdaddr_t bdaddr;
DBG("");
android2bdaddr(cmd->bdaddr, &bdaddr);
rsp.type = bt_get_device_android_type(&bdaddr);
ipc_send_rsp_full(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_GET_DEVICE_TYPE,
sizeof(rsp), &rsp, -1);
}
static void handle_client_set_adv_data(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_set_adv_data *cmd = buf;
uint8_t status;
if (len != sizeof(*cmd) + cmd->manufacturer_len) {
error("Invalid set adv data command (%u bytes), terminating",
len);
raise(SIGTERM);
return;
}
DBG("scan_rsp=%u name=%u tx=%u min=%d max=%d app=%d",
cmd->set_scan_rsp, cmd->include_name, cmd->include_txpower,
cmd->min_interval, cmd->max_interval, cmd->appearance);
DBG("manufacturer=%u service_data=%u service_uuid=%u",
cmd->manufacturer_len, cmd->service_data_len,
cmd->service_uuid_len);
/* TODO This should be implemented when kernel supports it */
if (cmd->manufacturer_len || cmd->service_data_len ||
cmd->service_uuid_len) {
error("gatt: Extra advertising data not supported");
status = HAL_STATUS_FAILED;
goto failed;
}
status = HAL_STATUS_SUCCESS;
failed:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_SET_ADV_DATA, status);
}
static void test_command_result(guint8 status, const guint8 *pdu,
guint16 len, gpointer user_data)
{
DBG("status: %d", status);
}
static uint8_t test_read_write(bdaddr_t *bdaddr, bt_uuid_t *uuid, uint16_t op,
uint16_t u2, uint16_t u3,
uint16_t u4, uint16_t u5)
{
guint16 length = 0;
struct gatt_device *dev;
uint8_t *pdu;
size_t mtu;
dev = find_device_by_addr(bdaddr);
if (!dev || dev->state != DEVICE_CONNECTED)
return HAL_STATUS_FAILED;
pdu = g_attrib_get_buffer(dev->attrib, &mtu);
if (!pdu)
return HAL_STATUS_FAILED;
switch (op) {
case ATT_OP_READ_REQ:
length = enc_read_req(u2, pdu, mtu);
break;
case ATT_OP_READ_BY_TYPE_REQ:
length = enc_read_by_type_req(u2, u3, uuid, pdu, mtu);
break;
case ATT_OP_READ_BLOB_REQ:
length = enc_read_blob_req(u2, u3, pdu, mtu);
break;
case ATT_OP_READ_BY_GROUP_REQ:
length = enc_read_by_grp_req(u2, u3, uuid, pdu, mtu);
break;
case ATT_OP_READ_MULTI_REQ:
return HAL_STATUS_UNSUPPORTED;
case ATT_OP_WRITE_REQ:
length = enc_write_req(u2, (uint8_t *) &u3, sizeof(u3), pdu,
mtu);
break;
case ATT_OP_WRITE_CMD:
length = enc_write_cmd(u2, (uint8_t *) &u3, sizeof(u3), pdu,
mtu);
break;
case ATT_OP_PREP_WRITE_REQ:
length = enc_prep_write_req(u2, u3, (uint8_t *) &u4, sizeof(u4),
pdu, mtu);
break;
case ATT_OP_EXEC_WRITE_REQ:
length = enc_exec_write_req(u2, pdu, mtu);
break;
case ATT_OP_SIGNED_WRITE_CMD:
if (signed_write_cmd(dev, u2, (uint8_t *) &u3, sizeof(u3)))
return HAL_STATUS_SUCCESS;
else
return HAL_STATUS_FAILED;
default:
error("gatt: Unknown operation type");
return HAL_STATUS_UNSUPPORTED;
}
if (!g_attrib_send(dev->attrib, 0, pdu, length, test_command_result,
NULL, NULL))
return HAL_STATUS_FAILED;
return HAL_STATUS_SUCCESS;
}
static uint8_t test_increase_security(bdaddr_t *bdaddr, uint16_t u1)
{
struct gatt_device *device;
device = find_device_by_addr(bdaddr);
if (!device)
return HAL_STATUS_FAILED;
if (!set_auth_type(device, u1))
return HAL_STATUS_FAILED;
return HAL_STATUS_SUCCESS;
}
static void handle_client_test_command(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_test_command *cmd = buf;
struct gatt_app *app;
bdaddr_t bdaddr;
bt_uuid_t uuid;
uint8_t status;
DBG("");
android2bdaddr(cmd->bda1, &bdaddr);
android2uuid(cmd->uuid1, &uuid);
switch (cmd->command) {
case GATT_CLIENT_TEST_CMD_ENABLE:
if (cmd->u1) {
if (!test_client_if) {
app = register_app(TEST_UUID, GATT_CLIENT);
if (app)
test_client_if = app->id;
}
if (test_client_if)
status = HAL_STATUS_SUCCESS;
else
status = HAL_STATUS_FAILED;
} else {
status = unregister_app(test_client_if);
test_client_if = 0;
}
break;
case GATT_CLIENT_TEST_CMD_CONNECT:
/* TODO u1 holds device type, for now assume BLE */
status = handle_connect(test_client_if, &bdaddr, false);
break;
case GATT_CLIENT_TEST_CMD_DISCONNECT:
app = queue_find(gatt_apps, match_app_by_id,
INT_TO_PTR(test_client_if));
queue_remove_all(app_connections, match_connection_by_app, app,
destroy_connection);
status = HAL_STATUS_SUCCESS;
break;
case GATT_CLIENT_TEST_CMD_DISCOVER:
status = HAL_STATUS_FAILED;
break;
case GATT_CLIENT_TEST_CMD_READ:
case GATT_CLIENT_TEST_CMD_WRITE:
status = test_read_write(&bdaddr, &uuid, cmd->u1, cmd->u2,
cmd->u3, cmd->u4, cmd->u5);
break;
case GATT_CLIENT_TEST_CMD_INCREASE_SECURITY:
status = test_increase_security(&bdaddr, cmd->u1);
break;
case GATT_CLIENT_TEST_CMD_PAIRING_CONFIG:
default:
status = HAL_STATUS_FAILED;
break;
}
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_TEST_COMMAND, status);
}
static void handle_server_register(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_register *cmd = buf;
struct hal_ev_gatt_server_register ev;
struct gatt_app *app;
DBG("");
memset(&ev, 0, sizeof(ev));
app = register_app(cmd->uuid, GATT_SERVER);
if (app) {
ev.server_if = app->id;
ev.status = GATT_SUCCESS;
} else {
ev.status = GATT_FAILURE;
}
memcpy(ev.uuid, cmd->uuid, sizeof(ev.uuid));
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_REGISTER, sizeof(ev), &ev);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT, HAL_OP_GATT_SERVER_REGISTER,
HAL_STATUS_SUCCESS);
}
static void handle_server_unregister(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_unregister *cmd = buf;
uint8_t status;
DBG("");
status = unregister_app(cmd->server_if);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_SERVER_UNREGISTER, status);
}
static void handle_server_connect(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_connect *cmd = buf;
uint8_t status;
bdaddr_t addr;
DBG("");
android2bdaddr(&cmd->bdaddr, &addr);
/* TODO: Handle transport flag */
status = handle_connect(cmd->server_if, &addr, cmd->is_direct);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT, HAL_OP_GATT_SERVER_CONNECT,
status);
}
static void handle_server_disconnect(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_disconnect *cmd = buf;
struct app_connection *conn;
uint8_t status;
DBG("");
/* TODO: should we care to match also bdaddr when conn_id is unique? */
conn = queue_remove_if(app_connections, match_connection_by_id,
INT_TO_PTR(cmd->conn_id));
destroy_connection(conn);
status = HAL_STATUS_SUCCESS;
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_SERVER_DISCONNECT, status);
}
static void handle_server_add_service(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_add_service *cmd = buf;
struct hal_ev_gatt_server_service_added ev;
struct gatt_app *server;
struct gatt_db_attribute *service;
uint8_t status;
bt_uuid_t uuid;
DBG("");
memset(&ev, 0, sizeof(ev));
server = find_app_by_id(cmd->server_if);
if (!server) {
status = HAL_STATUS_FAILED;
goto failed;
}
android2uuid(cmd->srvc_id.uuid, &uuid);
service = gatt_db_add_service(gatt_db, &uuid, cmd->srvc_id.is_primary,
cmd->num_handles);
if (!service) {
status = HAL_STATUS_FAILED;
goto failed;
}
ev.srvc_handle = gatt_db_attribute_get_handle(service);
if (!ev.srvc_handle) {
status = HAL_STATUS_FAILED;
goto failed;
}
status = HAL_STATUS_SUCCESS;
failed:
ev.status = status == HAL_STATUS_SUCCESS ? GATT_SUCCESS : GATT_FAILURE;
ev.srvc_id = cmd->srvc_id;
ev.server_if = cmd->server_if;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_SERVICE_ADDED, sizeof(ev), &ev);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_SERVER_ADD_SERVICE, status);
}
static void handle_server_add_included_service(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_add_inc_service *cmd = buf;
struct hal_ev_gatt_server_inc_srvc_added ev;
struct gatt_app *server;
struct gatt_db_attribute *service, *include;
uint8_t status;
DBG("");
memset(&ev, 0, sizeof(ev));
server = find_app_by_id(cmd->server_if);
if (!server) {
status = HAL_STATUS_FAILED;
goto failed;
}
service = gatt_db_get_attribute(gatt_db, cmd->service_handle);
if (!service) {
status = HAL_STATUS_FAILED;
goto failed;
}
include = gatt_db_get_attribute(gatt_db, cmd->included_handle);
if (!include) {
status = HAL_STATUS_FAILED;
goto failed;
}
service = gatt_db_service_add_included(service, include);
if (!service) {
status = HAL_STATUS_FAILED;
goto failed;
}
ev.incl_srvc_handle = gatt_db_attribute_get_handle(service);
status = HAL_STATUS_SUCCESS;
failed:
ev.srvc_handle = cmd->service_handle;
ev.status = status;
ev.server_if = cmd->server_if;
ev.status = status == HAL_STATUS_SUCCESS ? GATT_SUCCESS : GATT_FAILURE;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_INC_SRVC_ADDED, sizeof(ev), &ev);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_SERVER_ADD_INC_SERVICE, status);
}
static bool is_service(const bt_uuid_t *type)
{
bt_uuid_t uuid;
bt_uuid16_create(&uuid, GATT_PRIM_SVC_UUID);
if (!bt_uuid_cmp(&uuid, type))
return true;
bt_uuid16_create(&uuid, GATT_SND_SVC_UUID);
if (!bt_uuid_cmp(&uuid, type))
return true;
return false;
}
static bool match_pending_dev_request(const void *data, const void *user_data)
{
const struct pending_request *pending_request = data;
return !pending_request->completed;
}
static void send_dev_complete_response(struct gatt_device *device,
uint8_t opcode)
{
size_t mtu;
uint8_t *rsp = g_attrib_get_buffer(device->attrib, &mtu);
struct pending_request *val;
uint16_t len = 0;
uint8_t error = 0;
if (queue_isempty(device->pending_requests))
return;
if (queue_find(device->pending_requests, match_pending_dev_request,
NULL)) {
DBG("Still pending requests");
return;
}
val = queue_peek_head(device->pending_requests);
if (!val) {
error = ATT_ECODE_ATTR_NOT_FOUND;
goto done;
}
if (val->error) {
error = val->error;
goto done;
}
switch (opcode) {
case ATT_OP_READ_BY_TYPE_REQ: {
struct att_data_list *adl;
int iterator = 0;
int length;
struct queue *temp;
temp = queue_new();
val = queue_pop_head(device->pending_requests);
if (!val) {
queue_destroy(temp, NULL);
error = ATT_ECODE_ATTR_NOT_FOUND;
goto done;
}
if (val->error) {
queue_destroy(temp, NULL);
error = val->error;
destroy_pending_request(val);
goto done;
}
length = val->length;
while (val && val->length == length && val->error == 0) {
queue_push_tail(temp, val);
val = queue_pop_head(device->pending_requests);
}
adl = att_data_list_alloc(queue_length(temp),
sizeof(uint16_t) + length);
destroy_pending_request(val);
val = queue_pop_head(temp);
while (val) {
uint8_t *value = adl->data[iterator++];
uint16_t handle;
handle = gatt_db_attribute_get_handle(val->attrib);
put_le16(handle, value);
memcpy(&value[2], val->value, val->length);
destroy_pending_request(val);
val = queue_pop_head(temp);
}
len = enc_read_by_type_resp(adl, rsp, mtu);
att_data_list_free(adl);
queue_destroy(temp, destroy_pending_request);
break;
}
case ATT_OP_READ_BLOB_REQ:
len = enc_read_blob_resp(val->value, val->length, val->offset,
rsp, mtu);
break;
case ATT_OP_READ_REQ:
len = enc_read_resp(val->value, val->length, rsp, mtu);
break;
case ATT_OP_READ_BY_GROUP_REQ: {
struct att_data_list *adl;
int iterator = 0;
int length;
struct queue *temp;
temp = queue_new();
val = queue_pop_head(device->pending_requests);
if (!val) {
queue_destroy(temp, NULL);
error = ATT_ECODE_ATTR_NOT_FOUND;
goto done;
}
length = val->length;
while (val && val->length == length) {
queue_push_tail(temp, val);
val = queue_pop_head(device->pending_requests);
}
adl = att_data_list_alloc(queue_length(temp),
2 * sizeof(uint16_t) + length);
val = queue_pop_head(temp);
while (val) {
uint8_t *value = adl->data[iterator++];
uint16_t start_handle, end_handle;
gatt_db_attribute_get_service_handles(val->attrib,
&start_handle,
&end_handle);
put_le16(start_handle, value);
put_le16(end_handle, &value[2]);
memcpy(&value[4], val->value, val->length);
destroy_pending_request(val);
val = queue_pop_head(temp);
}
len = enc_read_by_grp_resp(adl, rsp, mtu);
att_data_list_free(adl);
queue_destroy(temp, destroy_pending_request);
break;
}
case ATT_OP_FIND_BY_TYPE_REQ: {
GSList *list = NULL;
val = queue_pop_head(device->pending_requests);
while (val) {
struct att_range *range;
const bt_uuid_t *type;
/* Its find by type and value - filter by value here */
if ((val->length != val->filter_vlen) ||
memcmp(val->value, val->filter_value,
val->length)) {
destroy_pending_request(val);
val = queue_pop_head(device->pending_requests);
continue;
}
range = new0(struct att_range, 1);
range->start = gatt_db_attribute_get_handle(
val->attrib);
type = gatt_db_attribute_get_type(val->attrib);
if (is_service(type))
gatt_db_attribute_get_service_handles(
val->attrib,
NULL,
&range->end);
else
range->end = range->start;
list = g_slist_append(list, range);
destroy_pending_request(val);
val = queue_pop_head(device->pending_requests);
}
if (list && !error)
len = enc_find_by_type_resp(list, rsp, mtu);
else
error = ATT_ECODE_ATTR_NOT_FOUND;
g_slist_free_full(list, free);
break;
}
case ATT_OP_EXEC_WRITE_REQ:
len = enc_exec_write_resp(rsp);
break;
case ATT_OP_WRITE_REQ:
len = enc_write_resp(rsp);
break;
case ATT_OP_PREP_WRITE_REQ: {
uint16_t handle;
handle = gatt_db_attribute_get_handle(val->attrib);
len = enc_prep_write_resp(handle, val->offset, val->value,
val->length, rsp, mtu);
break;
}
default:
break;
}
done:
if (!len)
len = enc_error_resp(opcode, 0x0000, error, rsp, mtu);
g_attrib_send(device->attrib, 0, rsp, len, NULL, NULL, NULL);
queue_remove_all(device->pending_requests, NULL, NULL,
destroy_pending_request);
}
struct request_processing_data {
uint8_t opcode;
struct gatt_device *device;
};
static uint8_t check_device_permissions(struct gatt_device *device,
uint8_t opcode, uint32_t permissions)
{
GIOChannel *io;
int sec_level;
io = g_attrib_get_channel(device->attrib);
if (!bt_io_get(io, NULL, BT_IO_OPT_SEC_LEVEL, &sec_level,
BT_IO_OPT_INVALID))
return ATT_ECODE_UNLIKELY;
DBG("opcode 0x%02x permissions %u sec_level %u", opcode, permissions,
sec_level);
switch (opcode) {
case ATT_OP_SIGNED_WRITE_CMD:
if (!(permissions & GATT_PERM_WRITE_SIGNED))
return ATT_ECODE_WRITE_NOT_PERM;
if (permissions & GATT_PERM_WRITE_SIGNED_MITM) {
bool auth;
if (bt_get_csrk(&device->bdaddr, true, NULL, NULL,
&auth) && auth)
break;
return ATT_ECODE_AUTHENTICATION;
}
break;
case ATT_OP_READ_BY_TYPE_REQ:
case ATT_OP_READ_REQ:
case ATT_OP_READ_BLOB_REQ:
case ATT_OP_READ_MULTI_REQ:
case ATT_OP_READ_BY_GROUP_REQ:
case ATT_OP_FIND_BY_TYPE_REQ:
case ATT_OP_FIND_INFO_REQ:
if (!(permissions & GATT_PERM_READ))
return ATT_ECODE_READ_NOT_PERM;
if ((permissions & GATT_PERM_READ_MITM) &&
sec_level < BT_SECURITY_HIGH)
return ATT_ECODE_AUTHENTICATION;
if ((permissions & GATT_PERM_READ_ENCRYPTED) &&
sec_level < BT_SECURITY_MEDIUM)
return ATT_ECODE_INSUFF_ENC;
if (permissions & GATT_PERM_READ_AUTHORIZATION)
return ATT_ECODE_AUTHORIZATION;
break;
case ATT_OP_WRITE_REQ:
case ATT_OP_WRITE_CMD:
case ATT_OP_PREP_WRITE_REQ:
case ATT_OP_EXEC_WRITE_REQ:
if (!(permissions & GATT_PERM_WRITE))
return ATT_ECODE_WRITE_NOT_PERM;
if ((permissions & GATT_PERM_WRITE_MITM) &&
sec_level < BT_SECURITY_HIGH)
return ATT_ECODE_AUTHENTICATION;
if ((permissions & GATT_PERM_WRITE_ENCRYPTED) &&
sec_level < BT_SECURITY_MEDIUM)
return ATT_ECODE_INSUFF_ENC;
if (permissions & GATT_PERM_WRITE_AUTHORIZATION)
return ATT_ECODE_AUTHORIZATION;
break;
default:
return ATT_ECODE_UNLIKELY;
}
return 0;
}
static uint8_t err_to_att(int err)
{
if (!err || (err > 0 && err < UINT8_MAX))
return err;
switch (err) {
case -ENOENT:
return ATT_ECODE_INVALID_HANDLE;
case -ENOMEM:
return ATT_ECODE_INSUFF_RESOURCES;
default:
return ATT_ECODE_UNLIKELY;
}
}
static void attribute_read_cb(struct gatt_db_attribute *attrib, int err,
const uint8_t *value, size_t length,
void *user_data)
{
struct pending_request *resp_data = user_data;
uint8_t error = err_to_att(err);
resp_data->attrib = attrib;
resp_data->length = length;
resp_data->error = error;
resp_data->completed = true;
if (!length)
return;
resp_data->value = malloc0(length);
if (!resp_data->value) {
resp_data->error = ATT_ECODE_INSUFF_RESOURCES;
return;
}
memcpy(resp_data->value, value, length);
}
static void read_requested_attributes(void *data, void *user_data)
{
struct pending_request *resp_data = data;
struct request_processing_data *process_data = user_data;
struct bt_att *att = g_attrib_get_att(process_data->device->attrib);
struct gatt_db_attribute *attrib;
uint32_t permissions;
uint8_t error;
attrib = resp_data->attrib;
if (!attrib) {
resp_data->error = ATT_ECODE_ATTR_NOT_FOUND;
resp_data->completed = true;
return;
}
permissions = gatt_db_attribute_get_permissions(attrib);
/*
* Check if it is attribute we didn't declare permissions, like service
* declaration or included service. Set permissions to read only
*/
if (permissions == 0)
permissions = GATT_PERM_READ;
error = check_device_permissions(process_data->device,
process_data->opcode,
permissions);
if (error != 0) {
resp_data->error = error;
resp_data->completed = true;
return;
}
gatt_db_attribute_read(attrib, resp_data->offset, process_data->opcode,
att, attribute_read_cb, resp_data);
}
static void process_dev_pending_requests(struct gatt_device *device,
uint8_t att_opcode)
{
struct request_processing_data process_data;
if (queue_isempty(device->pending_requests))
return;
process_data.device = device;
process_data.opcode = att_opcode;
/* Process pending requests and prepare response */
queue_foreach(device->pending_requests, read_requested_attributes,
&process_data);
send_dev_complete_response(device, att_opcode);
}
static struct pending_trans_data *conn_add_transact(struct app_connection *conn,
uint8_t opcode,
struct gatt_db_attribute *attrib,
unsigned int serial_id)
{
struct pending_trans_data *transaction;
static int32_t trans_id = 1;
transaction = new0(struct pending_trans_data, 1);
transaction->id = trans_id++;
transaction->opcode = opcode;
transaction->attrib = attrib;
transaction->serial_id = serial_id;
queue_push_tail(conn->transactions, transaction);
return transaction;
}
static bool get_dst_addr(struct bt_att *att, bdaddr_t *dst)
{
GIOChannel *io = NULL;
GError *gerr = NULL;
io = g_io_channel_unix_new(bt_att_get_fd(att));
if (!io)
return false;
bt_io_get(io, &gerr, BT_IO_OPT_DEST_BDADDR, dst, BT_IO_OPT_INVALID);
if (gerr) {
error("gatt: bt_io_get: %s", gerr->message);
g_error_free(gerr);
g_io_channel_unref(io);
return false;
}
g_io_channel_unref(io);
return true;
}
static void read_cb(struct gatt_db_attribute *attrib, unsigned int id,
uint16_t offset, uint8_t opcode, struct bt_att *att,
void *user_data)
{
struct pending_trans_data *transaction;
struct hal_ev_gatt_server_request_read ev;
struct gatt_app *app;
struct app_connection *conn;
int32_t app_id = PTR_TO_INT(user_data);
bdaddr_t bdaddr;
DBG("id %u", id);
app = find_app_by_id(app_id);
if (!app) {
error("gatt: read_cb, cound not found app id");
goto failed;
}
if (!get_dst_addr(att, &bdaddr)) {
error("gatt: read_cb, could not obtain dst BDADDR");
goto failed;
}
conn = find_conn(&bdaddr, app->id);
if (!conn) {
error("gatt: read_cb, cound not found connection");
goto failed;
}
memset(&ev, 0, sizeof(ev));
/* Store the request data, complete callback and transaction id */
transaction = conn_add_transact(conn, opcode, attrib, id);
bdaddr2android(&bdaddr, ev.bdaddr);
ev.conn_id = conn->id;
ev.attr_handle = gatt_db_attribute_get_handle(attrib);
ev.offset = offset;
ev.is_long = opcode == ATT_OP_READ_BLOB_REQ;
ev.trans_id = transaction->id;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_REQUEST_READ,
sizeof(ev), &ev);
return;
failed:
gatt_db_attribute_read_result(attrib, id, -ENOENT, NULL, 0);
}
static void write_cb(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)
{
uint8_t buf[IPC_MTU];
struct hal_ev_gatt_server_request_write *ev = (void *) buf;
struct pending_trans_data *transaction;
struct gatt_app *app;
int32_t app_id = PTR_TO_INT(user_data);
struct app_connection *conn;
bdaddr_t bdaddr;
DBG("id %u", id);
app = find_app_by_id(app_id);
if (!app) {
error("gatt: write_cb could not found app id");
goto failed;
}
if (!get_dst_addr(att, &bdaddr)) {
error("gatt: write_cb, could not obtain dst BDADDR");
goto failed;
}
conn = find_conn(&bdaddr, app->id);
if (!conn) {
error("gatt: write_cb could not found connection");
goto failed;
}
/*
* Remember that this application has ongoing prep write
* Need it later to find out where to send execute write
*/
if (opcode == ATT_OP_PREP_WRITE_REQ)
conn->wait_execute_write = true;
/* Store the request data, complete callback and transaction id */
transaction = conn_add_transact(conn, opcode, attrib, id);
memset(ev, 0, sizeof(*ev));
bdaddr2android(&bdaddr, &ev->bdaddr);
ev->attr_handle = gatt_db_attribute_get_handle(attrib);
ev->offset = offset;
ev->conn_id = conn->id;
ev->trans_id = transaction->id;
ev->is_prep = opcode == ATT_OP_PREP_WRITE_REQ;
if (opcode == ATT_OP_WRITE_REQ || opcode == ATT_OP_PREP_WRITE_REQ)
ev->need_rsp = 0x01;
else
gatt_db_attribute_write_result(attrib, id, 0);
ev->length = len;
memcpy(ev->value, value, len);
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_REQUEST_WRITE,
sizeof(*ev) + ev->length , ev);
return;
failed:
gatt_db_attribute_write_result(attrib, id, ATT_ECODE_UNLIKELY);
}
static uint32_t android_to_gatt_permissions(int32_t hal_permissions)
{
uint32_t permissions = 0;
if (hal_permissions & HAL_GATT_PERMISSION_READ)
permissions |= GATT_PERM_READ;
if (hal_permissions & HAL_GATT_PERMISSION_READ_ENCRYPTED)
permissions |= GATT_PERM_READ_ENCRYPTED | GATT_PERM_READ;
if (hal_permissions & HAL_GATT_PERMISSION_READ_ENCRYPTED_MITM)
permissions |= GATT_PERM_READ_MITM | GATT_PERM_READ_ENCRYPTED |
GATT_PERM_READ;
if (hal_permissions & HAL_GATT_PERMISSION_WRITE)
permissions |= GATT_PERM_WRITE;
if (hal_permissions & HAL_GATT_PERMISSION_WRITE_ENCRYPTED)
permissions |= GATT_PERM_WRITE_ENCRYPTED | GATT_PERM_WRITE;
if (hal_permissions & HAL_GATT_PERMISSION_WRITE_ENCRYPTED_MITM)
permissions |= GATT_PERM_WRITE_MITM |
GATT_PERM_WRITE_ENCRYPTED | GATT_PERM_WRITE;
if (hal_permissions & HAL_GATT_PERMISSION_WRITE_SIGNED)
permissions |= GATT_PERM_WRITE_SIGNED;
if (hal_permissions & HAL_GATT_PERMISSION_WRITE_SIGNED_MITM)
permissions |= GATT_PERM_WRITE_SIGNED_MITM |
GATT_PERM_WRITE_SIGNED;
return permissions;
}
static void handle_server_add_characteristic(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_add_characteristic *cmd = buf;
struct hal_ev_gatt_server_characteristic_added ev;
struct gatt_app *server;
struct gatt_db_attribute *attrib;
bt_uuid_t uuid;
uint8_t status;
uint32_t permissions;
int32_t app_id = cmd->server_if;
DBG("");
memset(&ev, 0, sizeof(ev));
server = find_app_by_id(app_id);
if (!server) {
status = HAL_STATUS_FAILED;
goto failed;
}
attrib = gatt_db_get_attribute(gatt_db, cmd->service_handle);
if (!attrib) {
status = HAL_STATUS_FAILED;
goto failed;
}
android2uuid(cmd->uuid, &uuid);
permissions = android_to_gatt_permissions(cmd->permissions);
attrib = gatt_db_service_add_characteristic(attrib,
&uuid, permissions,
cmd->properties,
read_cb, write_cb,
INT_TO_PTR(app_id));
if (!attrib) {
status = HAL_STATUS_FAILED;
goto failed;
}
ev.char_handle = gatt_db_attribute_get_handle(attrib);
status = HAL_STATUS_SUCCESS;
failed:
ev.srvc_handle = cmd->service_handle;
ev.status = status;
ev.server_if = app_id;
ev.status = status == HAL_STATUS_SUCCESS ? GATT_SUCCESS : GATT_FAILURE;
memcpy(ev.uuid, cmd->uuid, sizeof(cmd->uuid));
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_CHAR_ADDED, sizeof(ev), &ev);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_SERVER_ADD_CHARACTERISTIC, status);
}
static void handle_server_add_descriptor(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_add_descriptor *cmd = buf;
struct hal_ev_gatt_server_descriptor_added ev;
struct gatt_app *server;
struct gatt_db_attribute *attrib;
bt_uuid_t uuid;
uint8_t status;
uint32_t permissions;
int32_t app_id = cmd->server_if;
DBG("");
memset(&ev, 0, sizeof(ev));
server = find_app_by_id(app_id);
if (!server) {
status = HAL_STATUS_FAILED;
goto failed;
}
android2uuid(cmd->uuid, &uuid);
permissions = android_to_gatt_permissions(cmd->permissions);
attrib = gatt_db_get_attribute(gatt_db, cmd->service_handle);
if (!attrib) {
status = HAL_STATUS_FAILED;
goto failed;
}
attrib = gatt_db_service_add_descriptor(attrib, &uuid, permissions,
read_cb, write_cb,
INT_TO_PTR(app_id));
if (!attrib) {
status = HAL_STATUS_FAILED;
goto failed;
}
ev.descr_handle = gatt_db_attribute_get_handle(attrib);
status = HAL_STATUS_SUCCESS;
failed:
ev.server_if = app_id;
ev.srvc_handle = cmd->service_handle;
memcpy(ev.uuid, cmd->uuid, sizeof(cmd->uuid));
ev.status = status == HAL_STATUS_SUCCESS ? GATT_SUCCESS : GATT_FAILURE;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_DESCRIPTOR_ADDED, sizeof(ev), &ev);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_SERVER_ADD_DESCRIPTOR, status);
}
static void notify_service_change(void *data, void *user_data)
{
struct att_range range;
struct gatt_db_attribute *attrib = user_data;
gatt_db_attribute_get_service_handles(attrib, &range.start, &range.end);
/* In case of db error */
if (!range.end)
return;
notify_att_range_change(data, &range);
}
static sdp_record_t *get_sdp_record(uuid_t *uuid, uint16_t start, uint16_t end,
const char *name)
{
sdp_list_t *svclass_id, *apseq, *proto[2], *root, *aproto;
uuid_t root_uuid, proto_uuid, l2cap;
sdp_record_t *record;
sdp_data_t *psm, *sh, *eh;
uint16_t lp = ATT_PSM;
record = sdp_record_alloc();
if (!record)
return NULL;
sdp_uuid16_create(&root_uuid, PUBLIC_BROWSE_GROUP);
root = sdp_list_append(NULL, &root_uuid);
sdp_set_browse_groups(record, root);
sdp_list_free(root, NULL);
svclass_id = sdp_list_append(NULL, uuid);
sdp_set_service_classes(record, svclass_id);
sdp_list_free(svclass_id, NULL);
sdp_uuid16_create(&l2cap, L2CAP_UUID);
proto[0] = sdp_list_append(NULL, &l2cap);
psm = sdp_data_alloc(SDP_UINT16, &lp);
proto[0] = sdp_list_append(proto[0], psm);
apseq = sdp_list_append(NULL, proto[0]);
sdp_uuid16_create(&proto_uuid, ATT_UUID);
proto[1] = sdp_list_append(NULL, &proto_uuid);
sh = sdp_data_alloc(SDP_UINT16, &start);
proto[1] = sdp_list_append(proto[1], sh);
eh = sdp_data_alloc(SDP_UINT16, &end);
proto[1] = sdp_list_append(proto[1], eh);
apseq = sdp_list_append(apseq, proto[1]);
aproto = sdp_list_append(NULL, apseq);
sdp_set_access_protos(record, aproto);
if (name)
sdp_set_info_attr(record, name, "BlueZ for Android", NULL);
sdp_data_free(psm);
sdp_data_free(sh);
sdp_data_free(eh);
sdp_list_free(proto[0], NULL);
sdp_list_free(proto[1], NULL);
sdp_list_free(apseq, NULL);
sdp_list_free(aproto, NULL);
return record;
}
static uint32_t add_sdp_record(const bt_uuid_t *uuid, uint16_t start,
uint16_t end, const char *name)
{
sdp_record_t *rec;
uuid_t u, u32;
switch (uuid->type) {
case BT_UUID16:
sdp_uuid16_create(&u, uuid->value.u16);
break;
case BT_UUID32:
sdp_uuid32_create(&u32, uuid->value.u32);
sdp_uuid32_to_uuid128(&u, &u32);
break;
case BT_UUID128:
sdp_uuid128_create(&u, &uuid->value.u128);
break;
case BT_UUID_UNSPEC:
default:
return 0;
}
rec = get_sdp_record(&u, start, end, name);
if (!rec)
return 0;
if (bt_adapter_add_record(rec, 0) < 0) {
error("gatt: Failed to register SDP record");
sdp_record_free(rec);
return 0;
}
return rec->handle;
}
static bool match_service_sdp(const void *data, const void *user_data)
{
const struct service_sdp *s = data;
return s->service_handle == PTR_TO_INT(user_data);
}
static struct service_sdp *new_service_sdp_record(int32_t service_handle)
{
bt_uuid_t uuid;
struct service_sdp *s;
struct gatt_db_attribute *attrib;
uint16_t end_handle;
attrib = gatt_db_get_attribute(gatt_db, service_handle);
if (!attrib)
return NULL;
gatt_db_attribute_get_service_handles(attrib, NULL, &end_handle);
if (!end_handle)
return NULL;
if (!gatt_db_attribute_get_service_uuid(attrib, &uuid))
return NULL;
s = new0(struct service_sdp, 1);
s->service_handle = service_handle;
s->sdp_handle = add_sdp_record(&uuid, service_handle, end_handle, NULL);
if (!s->sdp_handle) {
free(s);
return NULL;
}
return s;
}
static void free_service_sdp_record(void *data)
{
struct service_sdp *s = data;
if (!s)
return;
bt_adapter_remove_record(s->sdp_handle);
free(s);
}
static bool add_service_sdp_record(int32_t service_handle)
{
struct service_sdp *s;
s = queue_find(services_sdp, match_service_sdp,
INT_TO_PTR(service_handle));
if (s)
return true;
s = new_service_sdp_record(service_handle);
if (!s)
return false;
queue_push_tail(services_sdp, s);
return true;
}
static void remove_service_sdp_record(int32_t service_handle)
{
struct service_sdp *s;
s = queue_remove_if(services_sdp, match_service_sdp,
INT_TO_PTR(service_handle));
if (!s)
return;
free_service_sdp_record(s);
}
static void handle_server_start_service(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_start_service *cmd = buf;
struct hal_ev_gatt_server_service_started ev;
struct gatt_app *server;
struct gatt_db_attribute *attrib;
uint8_t status;
DBG("transport 0x%02x", cmd->transport);
memset(&ev, 0, sizeof(ev));
if (cmd->transport == 0) {
status = HAL_STATUS_FAILED;
goto failed;
}
server = find_app_by_id(cmd->server_if);
if (!server) {
status = HAL_STATUS_FAILED;
goto failed;
}
if (cmd->transport & GATT_SERVER_TRANSPORT_BREDR_BIT) {
if (!add_service_sdp_record(cmd->service_handle)) {
status = HAL_STATUS_FAILED;
goto failed;
}
}
/* TODO: Handle BREDR only */
attrib = gatt_db_get_attribute(gatt_db, cmd->service_handle);
if (!attrib) {
status = HAL_STATUS_FAILED;
goto failed;
}
if (!gatt_db_service_set_active(attrib, true)) {
/*
* no need to clean SDP since this can fail only if service
* handle is invalid in which case add_sdp_record() also fails
*/
status = HAL_STATUS_FAILED;
goto failed;
}
queue_foreach(gatt_devices, notify_service_change, attrib);
status = HAL_STATUS_SUCCESS;
failed:
ev.status = status == HAL_STATUS_SUCCESS ? GATT_SUCCESS : GATT_FAILURE;
ev.server_if = cmd->server_if;
ev.srvc_handle = cmd->service_handle;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_SERVICE_STARTED, sizeof(ev), &ev);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_SERVER_START_SERVICE, status);
}
static void handle_server_stop_service(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_stop_service *cmd = buf;
struct hal_ev_gatt_server_service_stopped ev;
struct gatt_app *server;
struct gatt_db_attribute *attrib;
uint8_t status;
DBG("");
memset(&ev, 0, sizeof(ev));
server = find_app_by_id(cmd->server_if);
if (!server) {
status = HAL_STATUS_FAILED;
goto failed;
}
attrib = gatt_db_get_attribute(gatt_db, cmd->service_handle);
if (!attrib) {
status = HAL_STATUS_FAILED;
goto failed;
}
if (!gatt_db_service_set_active(attrib, false)) {
status = HAL_STATUS_FAILED;
goto failed;
}
remove_service_sdp_record(cmd->service_handle);
status = HAL_STATUS_SUCCESS;
queue_foreach(gatt_devices, notify_service_change, attrib);
failed:
ev.status = status == HAL_STATUS_SUCCESS ? GATT_SUCCESS : GATT_FAILURE;
ev.server_if = cmd->server_if;
ev.srvc_handle = cmd->service_handle;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_SERVICE_STOPPED, sizeof(ev), &ev);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_SERVER_STOP_SERVICE, status);
}
static void handle_server_delete_service(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_delete_service *cmd = buf;
struct hal_ev_gatt_server_service_deleted ev;
struct gatt_app *server;
struct gatt_db_attribute *attrib;
uint8_t status;
DBG("");
memset(&ev, 0, sizeof(ev));
server = find_app_by_id(cmd->server_if);
if (!server) {
status = HAL_STATUS_FAILED;
goto failed;
}
attrib = gatt_db_get_attribute(gatt_db, cmd->service_handle);
if (!attrib) {
status = HAL_STATUS_FAILED;
goto failed;
}
if (!gatt_db_remove_service(gatt_db, attrib)) {
status = HAL_STATUS_FAILED;
goto failed;
}
remove_service_sdp_record(cmd->service_handle);
status = HAL_STATUS_SUCCESS;
failed:
ev.status = status == HAL_STATUS_SUCCESS ? GATT_SUCCESS : GATT_FAILURE;
ev.srvc_handle = cmd->service_handle;
ev.server_if = cmd->server_if;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_SERVICE_DELETED, sizeof(ev), &ev);
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_SERVER_DELETE_SERVICE, status);
}
static void indication_confirmation_cb(guint8 status, const guint8 *pdu,
guint16 len, gpointer user_data)
{
struct hal_ev_gatt_server_indication_sent ev;
ev.status = status;
ev.conn_id = PTR_TO_UINT(user_data);
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_INDICATION_SENT, sizeof(ev), &ev);
}
static void handle_server_send_indication(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_send_indication *cmd = buf;
struct app_connection *conn;
uint8_t status;
uint16_t length;
uint8_t *pdu;
size_t mtu;
GAttribResultFunc confirmation_cb = NULL;
DBG("");
conn = find_connection_by_id(cmd->conn_id);
if (!conn) {
error("gatt: Could not find connection");
status = HAL_STATUS_FAILED;
goto reply;
}
pdu = g_attrib_get_buffer(conn->device->attrib, &mtu);
if (cmd->confirm) {
length = enc_indication(cmd->attribute_handle,
(uint8_t *) cmd->value, cmd->len, pdu,
mtu);
confirmation_cb = indication_confirmation_cb;
} else {
length = enc_notification(cmd->attribute_handle,
(uint8_t *) cmd->value,
cmd->len, pdu, mtu);
}
if (!g_attrib_send(conn->device->attrib, 0, pdu, length,
confirmation_cb, UINT_TO_PTR(conn->id), NULL)) {
error("gatt: Failed to send indication");
status = HAL_STATUS_FAILED;
} else {
status = HAL_STATUS_SUCCESS;
}
/* Here we confirm failed indications and all notifications */
if (status || !confirmation_cb)
indication_confirmation_cb(status, NULL, 0,
UINT_TO_PTR(conn->id));
reply:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_SERVER_SEND_INDICATION, status);
}
static bool match_trans_id(const void *data, const void *user_data)
{
const struct pending_trans_data *transaction = data;
return transaction->id == PTR_TO_UINT(user_data);
}
static bool find_conn_waiting_exec_write(const void *data,
const void *user_data)
{
const struct app_connection *conn = data;
return conn->wait_execute_write;
}
static bool pending_execute_write(void)
{
return queue_find(app_connections, find_conn_waiting_exec_write, NULL);
}
static void handle_server_send_response(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_server_send_response *cmd = buf;
struct pending_trans_data *transaction;
struct app_connection *conn;
uint8_t status;
DBG("");
conn = find_connection_by_id(cmd->conn_id);
if (!conn) {
error("gatt: could not found connection");
status = HAL_STATUS_FAILED;
goto reply;
}
transaction = queue_remove_if(conn->transactions, match_trans_id,
UINT_TO_PTR(cmd->trans_id));
if (!transaction) {
error("gatt: transaction ID = %d not found", cmd->trans_id);
status = HAL_STATUS_FAILED;
goto reply;
}
if (transaction->opcode == ATT_OP_EXEC_WRITE_REQ) {
struct pending_request *req;
conn->wait_execute_write = false;
/* Check for execute response from all server applications */
if (pending_execute_write())
goto done;
/*
* This is usually done through db write callback but for
* execute write we dont have the attribute or handle to call
* gatt_db_attribute_write().
*/
req = queue_peek_head(conn->device->pending_requests);
if (!req)
goto done;
/* Cast status to uint8_t, due to (byte) cast in java layer. */
req->error = err_to_att((uint8_t) cmd->status);
req->completed = true;
/*
* FIXME: Handle situation when not all server applications
* respond with a success.
*/
}
/* Cast status to uint8_t, due to (byte) cast in java layer. */
if (transaction->opcode < ATT_OP_WRITE_REQ)
gatt_db_attribute_read_result(transaction->attrib,
transaction->serial_id,
err_to_att((uint8_t) cmd->status),
cmd->data, cmd->len);
else
gatt_db_attribute_write_result(transaction->attrib,
transaction->serial_id,
err_to_att((uint8_t) cmd->status));
send_dev_complete_response(conn->device, transaction->opcode);
done:
/* Clean request data */
free(transaction);
status = HAL_STATUS_SUCCESS;
reply:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_SERVER_SEND_RESPONSE, status);
}
static void handle_client_scan_filter_setup(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_scan_filter_setup *cmd = buf;
DBG("client_if %u", cmd->client_if);
/* TODO */
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_SCAN_FILTER_SETUP,
HAL_STATUS_UNSUPPORTED);
}
static void handle_client_scan_filter_add_remove(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_scan_filter_add_remove *cmd = buf;
DBG("client_if %u", cmd->client_if);
/* TODO */
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_SCAN_FILTER_ADD_REMOVE,
HAL_STATUS_UNSUPPORTED);
}
static void handle_client_scan_filter_clear(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_scan_filter_clear *cmd = buf;
DBG("client_if %u", cmd->client_if);
/* TODO */
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_SCAN_FILTER_CLEAR,
HAL_STATUS_UNSUPPORTED);
}
static void handle_client_scan_filter_enable(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_scan_filter_enable *cmd = buf;
DBG("client_if %u", cmd->client_if);
/* TODO */
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_SCAN_FILTER_ENABLE,
HAL_STATUS_UNSUPPORTED);
}
static void handle_client_configure_mtu(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_configure_mtu *cmd = buf;
static struct app_connection *conn;
uint8_t status;
DBG("conn_id %u mtu %d", cmd->conn_id, cmd->mtu);
conn = find_connection_by_id(cmd->conn_id);
if (!conn) {
status = HAL_STATUS_FAILED;
goto failed;
}
/*
* currently MTU is always exchanged on connection, just report current
* value
*
* TODO figure out when send failed status in notification
* TODO should we fail for BR/EDR?
*/
notify_client_mtu_change(conn, false);
status = HAL_STATUS_SUCCESS;
failed:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_CONFIGURE_MTU,
status);
}
static void handle_client_conn_param_update(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_conn_param_update *cmd = buf;
char address[18];
bdaddr_t bdaddr;
android2bdaddr(cmd->address, &bdaddr);
ba2str(&bdaddr, address);
DBG("%s", address);
/* TODO */
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_CONN_PARAM_UPDATE,
HAL_STATUS_UNSUPPORTED);
}
static void handle_client_set_scan_param(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_set_scan_param *cmd = buf;
DBG("interval %d window %d", cmd->interval, cmd->window);
/* TODO */
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_SET_SCAN_PARAM,
HAL_STATUS_UNSUPPORTED);
}
static struct adv_instance *find_adv_instance(uint32_t client_if)
{
struct gatt_app *app;
struct adv_instance *adv;
uint8_t inst = 0;
unsigned int i;
app = find_app_by_id(client_if);
if (!app)
return NULL;
if (app->adv)
return app->adv;
/* Assume that kernel supports <= 32 advertising instances (5 today)
* We have already indicated the number to the android framework layers
* via the LE features so we don't check again here.
* The kernel will detect the error if needed
*/
for (i = 0; i < sizeof(adv_inst_bits) * 8; i++) {
uint32_t mask = 1 << i;
if (!(adv_inst_bits & mask)) {
inst = i + 1;
adv_inst_bits |= mask;
break;
}
}
if (!inst)
return NULL;
adv = new0(typeof(*adv), 1);
adv->instance = inst;
app->adv = adv;
DBG("Assigned advertising instance %d for client %d", inst, client_if);
return adv;
};
/* Build advertising data object from a data buffer containing
* manufacturer_data, service_data, service uuids (in that order)
* The input data is raw with no TLV structure and the service uuids are 128 bit
*/
static struct bt_ad *build_adv_data(int32_t manufacturer_data_len,
int32_t service_data_len,
int32_t service_uuid_len,
const uint8_t *data_in)
{
const int one_svc_uuid_len = 128 / 8; /* Android uses 128bit UUIDs */
uint8_t *src = (uint8_t *)data_in;
struct bt_ad *ad;
unsigned num_svc_uuids, i;
ad = bt_ad_new();
if (manufacturer_data_len >= 2) { /* Includes manufacturer id */
uint16_t manufacturer_id;
manufacturer_id = bt_get_le16(src);
src += 2;
if (!bt_ad_add_manufacturer_data(ad,
manufacturer_id,
src,
manufacturer_data_len - 2))
goto err;
src += manufacturer_data_len - 2;
}
if (service_data_len >= 2) { /* Includes service uuid (always 16 bit) */
bt_uuid_t bt_uuid;
uint16_t uuid16;
uuid16 = bt_get_le16(src);
src += 2;
bt_uuid16_create(&bt_uuid, uuid16);
if (!bt_ad_add_service_data(ad,
&bt_uuid,
src,
service_data_len - 2))
goto err;
src += service_data_len - 2;
}
if (service_uuid_len % one_svc_uuid_len) {
error("Service UUIDs not multiple of %d bytes (%d)",
one_svc_uuid_len, service_uuid_len);
num_svc_uuids = 0;
} else {
num_svc_uuids = service_uuid_len / one_svc_uuid_len;
}
for (i = 0; i < num_svc_uuids; i++) {
bt_uuid_t bt_uuid;
android2uuid(src, &bt_uuid);
src += one_svc_uuid_len;
if (!bt_ad_add_service_uuid(ad, &bt_uuid))
goto err;
}
return ad;
err:
bt_ad_unref(ad);
return NULL;
}
static void handle_client_setup_multi_adv(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_setup_multi_adv *cmd = buf;
struct hal_ev_gatt_client_multi_adv_enable ev;
struct adv_instance *adv;
uint8_t status;
DBG("client_if %d min_interval=%d max_interval=%d type=%d channel_map=0x%x tx_power=%d timeout=%d",
cmd->client_if,
cmd->min_interval,
cmd->max_interval,
cmd->type,
cmd->channel_map,
cmd->tx_power,
cmd->timeout);
adv = find_adv_instance(cmd->client_if);
if (!adv) {
status = HAL_STATUS_FAILED;
goto out;
}
status = HAL_STATUS_SUCCESS;
adv->timeout = cmd->timeout;
adv->type = cmd->type;
if (adv->type != ANDROID_ADVERTISING_EVENT_TYPE_SCANNABLE) {
bt_ad_unref(adv->sr);
adv->sr = NULL;
}
out:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_SETUP_MULTI_ADV,
status);
ev.client_if = cmd->client_if;
ev.status = status;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_MULTI_ADV_ENABLE, sizeof(ev), &ev);
}
/* This is not currently called by Android 5.1 */
static void handle_client_update_multi_adv(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_update_multi_adv *cmd = buf;
DBG("client_if %d", cmd->client_if);
/* TODO */
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_UPDATE_MULTI_ADV,
HAL_STATUS_UNSUPPORTED);
}
struct addrm_adv_cb_data {
int32_t client_if;
struct adv_instance *adv;
};
static void add_advertising_cb(uint8_t status, void *user_data)
{
struct addrm_adv_cb_data *cb_data = user_data;
struct hal_ev_gatt_client_multi_adv_data ev = {
.status = status,
.client_if = cb_data->client_if,
};
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_MULTI_ADV_DATA,
sizeof(ev), &ev);
free(cb_data);
}
static void handle_client_setup_multi_adv_inst(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_setup_multi_adv_inst *cmd = buf;
struct adv_instance *adv;
struct bt_ad *adv_data;
struct addrm_adv_cb_data *cb_data = NULL;
uint8_t status = HAL_STATUS_FAILED;
DBG("client_if %d set_scan_rsp=%d include_name=%d include_tx_power=%d appearance=%d manuf_data_len=%d svc_data_len=%d svc_uuid_len=%d",
cmd->client_if,
cmd->set_scan_rsp,
cmd->include_name,
cmd->include_tx_power,
cmd->appearance,
cmd->manufacturer_data_len,
cmd->service_data_len,
cmd->service_uuid_len
);
adv = find_adv_instance(cmd->client_if);
if (!adv)
goto out;
adv->include_tx_power = cmd->include_tx_power ? 1 : 0;
adv_data = build_adv_data(cmd->manufacturer_data_len,
cmd->service_data_len,
cmd->service_uuid_len,
cmd->data_service_uuid);
if (!adv_data)
goto out;
if (cmd->set_scan_rsp) {
bt_ad_unref(adv->sr);
adv->sr = adv_data;
} else {
bt_ad_unref(adv->ad);
adv->ad = adv_data;
}
cb_data = new0(typeof(*cb_data), 1);
cb_data->client_if = cmd->client_if;
cb_data->adv = adv;
if (!bt_le_add_advertising(adv, add_advertising_cb, cb_data)) {
error("gatt: Could not add advertising");
free(cb_data);
goto out;
}
status = HAL_STATUS_SUCCESS;
out:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_SETUP_MULTI_ADV_INST,
status);
if (status != HAL_STATUS_SUCCESS) {
struct hal_ev_gatt_client_multi_adv_data ev = {
.status = status,
.client_if = cmd->client_if,
};
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_MULTI_ADV_DATA,
sizeof(ev), &ev);
}
}
static void remove_advertising_cb(uint8_t status, void *user_data)
{
struct addrm_adv_cb_data *cb_data = user_data;
struct hal_ev_gatt_client_multi_adv_data ev = {
.status = status,
.client_if = cb_data->client_if,
};
free_adv_instance(cb_data->adv);
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_MULTI_ADV_DISABLE,
sizeof(ev), &ev);
free(cb_data);
}
static void handle_client_disable_multi_adv_inst(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_disable_multi_adv_inst *cmd = buf;
struct adv_instance *adv;
struct gatt_app *app;
struct addrm_adv_cb_data *cb_data = NULL;
uint8_t status = HAL_STATUS_FAILED;
DBG("client_if %d", cmd->client_if);
adv = find_adv_instance(cmd->client_if);
if (!adv)
goto out;
cb_data = new0(typeof(*cb_data), 1);
cb_data->client_if = cmd->client_if;
cb_data->adv = adv;
if (!bt_le_remove_advertising(adv, remove_advertising_cb, cb_data)) {
error("gatt: Could not remove advertising");
free(cb_data);
goto out;
}
app = find_app_by_id(cmd->client_if);
if (app)
app->adv = NULL;
status = HAL_STATUS_SUCCESS;
out:
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_DISABLE_MULTI_ADV_INST,
status);
if (status != HAL_STATUS_SUCCESS) {
struct hal_ev_gatt_client_multi_adv_data ev = {
.status = status,
.client_if = cmd->client_if,
};
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_CLIENT_MULTI_ADV_DISABLE,
sizeof(ev), &ev);
}
}
static void handle_client_configure_batchscan(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_configure_batchscan *cmd = buf;
DBG("client_if %d", cmd->client_if);
/* TODO */
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_CONFIGURE_BATCHSCAN,
HAL_STATUS_UNSUPPORTED);
}
static void handle_client_enable_batchscan(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_enable_batchscan *cmd = buf;
DBG("client_if %d", cmd->client_if);
/* TODO */
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_ENABLE_BATCHSCAN,
HAL_STATUS_UNSUPPORTED);
}
static void handle_client_disable_batchscan(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_disable_batchscan *cmd = buf;
DBG("client_if %d", cmd->client_if);
/* TODO */
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_DISABLE_BATCHSCAN,
HAL_STATUS_UNSUPPORTED);
}
static void handle_client_read_batchscan_reports(const void *buf, uint16_t len)
{
const struct hal_cmd_gatt_client_read_batchscan_reports *cmd = buf;
DBG("client_if %d", cmd->client_if);
/* TODO */
ipc_send_rsp(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_OP_GATT_CLIENT_READ_BATCHSCAN_REPORTS,
HAL_STATUS_UNSUPPORTED);
}
static const struct ipc_handler cmd_handlers[] = {
/* HAL_OP_GATT_CLIENT_REGISTER */
{ handle_client_register, false,
sizeof(struct hal_cmd_gatt_client_register) },
/* HAL_OP_GATT_CLIENT_UNREGISTER */
{ handle_client_unregister, false,
sizeof(struct hal_cmd_gatt_client_unregister) },
/* HAL_OP_GATT_CLIENT_SCAN */
{ handle_client_scan, false,
sizeof(struct hal_cmd_gatt_client_scan) },
/* HAL_OP_GATT_CLIENT_CONNECT */
{ handle_client_connect, false,
sizeof(struct hal_cmd_gatt_client_connect) },
/* HAL_OP_GATT_CLIENT_DISCONNECT */
{ handle_client_disconnect, false,
sizeof(struct hal_cmd_gatt_client_disconnect) },
/* HAL_OP_GATT_CLIENT_LISTEN */
{ handle_client_listen, false,
sizeof(struct hal_cmd_gatt_client_listen) },
/* HAL_OP_GATT_CLIENT_REFRESH */
{ handle_client_refresh, false,
sizeof(struct hal_cmd_gatt_client_refresh) },
/* HAL_OP_GATT_CLIENT_SEARCH_SERVICE */
{ handle_client_search_service, true,
sizeof(struct hal_cmd_gatt_client_search_service) },
/* HAL_OP_GATT_CLIENT_GET_INCLUDED_SERVICE */
{ handle_client_get_included_service, true,
sizeof(struct hal_cmd_gatt_client_get_included_service) },
/* HAL_OP_GATT_CLIENT_GET_CHARACTERISTIC */
{ handle_client_get_characteristic, true,
sizeof(struct hal_cmd_gatt_client_get_characteristic) },
/* HAL_OP_GATT_CLIENT_GET_DESCRIPTOR */
{ handle_client_get_descriptor, true,
sizeof(struct hal_cmd_gatt_client_get_descriptor) },
/* HAL_OP_GATT_CLIENT_READ_CHARACTERISTIC */
{ handle_client_read_characteristic, false,
sizeof(struct hal_cmd_gatt_client_read_characteristic) },
/* HAL_OP_GATT_CLIENT_WRITE_CHARACTERISTIC */
{ handle_client_write_characteristic, true,
sizeof(struct hal_cmd_gatt_client_write_characteristic) },
/* HAL_OP_GATT_CLIENT_READ_DESCRIPTOR */
{ handle_client_read_descriptor, false,
sizeof(struct hal_cmd_gatt_client_read_descriptor) },
/* HAL_OP_GATT_CLIENT_WRITE_DESCRIPTOR */
{ handle_client_write_descriptor, true,
sizeof(struct hal_cmd_gatt_client_write_descriptor) },
/* HAL_OP_GATT_CLIENT_EXECUTE_WRITE */
{ handle_client_execute_write, false,
sizeof(struct hal_cmd_gatt_client_execute_write)},
/* HAL_OP_GATT_CLIENT_REGISTER_FOR_NOTIFICATION */
{ handle_client_register_for_notification, false,
sizeof(struct hal_cmd_gatt_client_register_for_notification) },
/* HAL_OP_GATT_CLIENT_DEREGISTER_FOR_NOTIFICATION */
{ handle_client_deregister_for_notification, false,
sizeof(struct hal_cmd_gatt_client_deregister_for_notification) },
/* HAL_OP_GATT_CLIENT_READ_REMOTE_RSSI */
{ handle_client_read_remote_rssi, false,
sizeof(struct hal_cmd_gatt_client_read_remote_rssi) },
/* HAL_OP_GATT_CLIENT_GET_DEVICE_TYPE */
{ handle_client_get_device_type, false,
sizeof(struct hal_cmd_gatt_client_get_device_type) },
/* HAL_OP_GATT_CLIENT_SET_ADV_DATA */
{ handle_client_set_adv_data, true,
sizeof(struct hal_cmd_gatt_client_set_adv_data) },
/* HAL_OP_GATT_CLIENT_TEST_COMMAND */
{ handle_client_test_command, false,
sizeof(struct hal_cmd_gatt_client_test_command) },
/* HAL_OP_GATT_SERVER_REGISTER */
{ handle_server_register, false,
sizeof(struct hal_cmd_gatt_server_register) },
/* HAL_OP_GATT_SERVER_UNREGISTER */
{ handle_server_unregister, false,
sizeof(struct hal_cmd_gatt_server_unregister) },
/* HAL_OP_GATT_SERVER_CONNECT */
{ handle_server_connect, false,
sizeof(struct hal_cmd_gatt_server_connect) },
/* HAL_OP_GATT_SERVER_DISCONNECT */
{ handle_server_disconnect, false,
sizeof(struct hal_cmd_gatt_server_disconnect) },
/* HAL_OP_GATT_SERVER_ADD_SERVICE */
{ handle_server_add_service, false,
sizeof(struct hal_cmd_gatt_server_add_service) },
/* HAL_OP_GATT_SERVER_ADD_INC_SERVICE */
{ handle_server_add_included_service, false,
sizeof(struct hal_cmd_gatt_server_add_inc_service) },
/* HAL_OP_GATT_SERVER_ADD_CHARACTERISTIC */
{ handle_server_add_characteristic, false,
sizeof(struct hal_cmd_gatt_server_add_characteristic) },
/* HAL_OP_GATT_SERVER_ADD_DESCRIPTOR */
{ handle_server_add_descriptor, false,
sizeof(struct hal_cmd_gatt_server_add_descriptor) },
/* HAL_OP_GATT_SERVER_START_SERVICE */
{ handle_server_start_service, false,
sizeof(struct hal_cmd_gatt_server_start_service) },
/* HAL_OP_GATT_SERVER_STOP_SERVICE */
{ handle_server_stop_service, false,
sizeof(struct hal_cmd_gatt_server_stop_service) },
/* HAL_OP_GATT_SERVER_DELETE_SERVICE */
{ handle_server_delete_service, false,
sizeof(struct hal_cmd_gatt_server_delete_service) },
/* HAL_OP_GATT_SERVER_SEND_INDICATION */
{ handle_server_send_indication, true,
sizeof(struct hal_cmd_gatt_server_send_indication) },
/* HAL_OP_GATT_SERVER_SEND_RESPONSE */
{ handle_server_send_response, true,
sizeof(struct hal_cmd_gatt_server_send_response) },
/* HAL_OP_GATT_CLIENT_SCAN_FILTER_SETUP */
{ handle_client_scan_filter_setup, false,
sizeof(struct hal_cmd_gatt_client_scan_filter_setup) },
/* HAL_OP_GATT_CLIENT_SCAN_FILTER_ADD_REMOVE */
{ handle_client_scan_filter_add_remove, true,
sizeof(struct hal_cmd_gatt_client_scan_filter_add_remove) },
/* HAL_OP_GATT_CLIENT_SCAN_FILTER_CLEAR */
{ handle_client_scan_filter_clear, false,
sizeof(struct hal_cmd_gatt_client_scan_filter_clear) },
/* HAL_OP_GATT_CLIENT_SCAN_FILTER_ENABLE */
{ handle_client_scan_filter_enable, false,
sizeof(struct hal_cmd_gatt_client_scan_filter_enable) },
/* HAL_OP_GATT_CLIENT_CONFIGURE_MTU */
{ handle_client_configure_mtu, false,
sizeof(struct hal_cmd_gatt_client_configure_mtu) },
/* HAL_OP_GATT_CLIENT_CONN_PARAM_UPDATE */
{ handle_client_conn_param_update, false,
sizeof(struct hal_cmd_gatt_client_conn_param_update) },
/* HAL_OP_GATT_CLIENT_SET_SCAN_PARAM */
{ handle_client_set_scan_param, false,
sizeof(struct hal_cmd_gatt_client_set_scan_param) },
/* HAL_OP_GATT_CLIENT_SETUP_MULTI_ADV */
{ handle_client_setup_multi_adv, false,
sizeof(struct hal_cmd_gatt_client_setup_multi_adv) },
/* HAL_OP_GATT_CLIENT_UPDATE_MULTI_ADV */
{ handle_client_update_multi_adv, false,
sizeof(struct hal_cmd_gatt_client_update_multi_adv) },
/* HAL_OP_GATT_CLIENT_SETUP_MULTI_ADV_INST */
{ handle_client_setup_multi_adv_inst, true,
sizeof(struct hal_cmd_gatt_client_setup_multi_adv_inst) },
/* HAL_OP_GATT_CLIENT_DISABLE_MULTI_ADV_INST */
{ handle_client_disable_multi_adv_inst, false,
sizeof(struct hal_cmd_gatt_client_disable_multi_adv_inst) },
/* HAL_OP_GATT_CLIENT_CONFIGURE_BATCHSCAN */
{ handle_client_configure_batchscan, false,
sizeof(struct hal_cmd_gatt_client_configure_batchscan) },
/* HAL_OP_GATT_CLIENT_ENABLE_BATCHSCAN */
{ handle_client_enable_batchscan, false,
sizeof(struct hal_cmd_gatt_client_enable_batchscan) },
/* HAL_OP_GATT_CLIENT_DISABLE_BATCHSCAN */
{ handle_client_disable_batchscan, false,
sizeof(struct hal_cmd_gatt_client_disable_batchscan) },
/* HAL_OP_GATT_CLIENT_READ_BATCHSCAN_REPORTS */
{ handle_client_read_batchscan_reports, false,
sizeof(struct hal_cmd_gatt_client_read_batchscan_reports) },
};
static uint8_t read_by_type(const uint8_t *cmd, uint16_t cmd_len,
struct gatt_device *device)
{
uint16_t start, end;
uint16_t len = 0;
bt_uuid_t uuid;
struct queue *q;
DBG("");
switch (cmd[0]) {
case ATT_OP_READ_BY_TYPE_REQ:
len = dec_read_by_type_req(cmd, cmd_len, &start, &end, &uuid);
break;
case ATT_OP_READ_BY_GROUP_REQ:
len = dec_read_by_grp_req(cmd, cmd_len, &start, &end, &uuid);
break;
default:
break;
}
if (!len)
return ATT_ECODE_INVALID_PDU;
if (start > end || start == 0)
return ATT_ECODE_INVALID_HANDLE;
q = queue_new();
switch (cmd[0]) {
case ATT_OP_READ_BY_TYPE_REQ:
gatt_db_read_by_type(gatt_db, start, end, uuid, q);
break;
case ATT_OP_READ_BY_GROUP_REQ:
gatt_db_read_by_group_type(gatt_db, start, end, uuid, q);
break;
default:
break;
}
if (queue_isempty(q)) {
queue_destroy(q, NULL);
return ATT_ECODE_ATTR_NOT_FOUND;
}
while (queue_peek_head(q)) {
struct pending_request *data;
struct gatt_db_attribute *attrib = queue_pop_head(q);
data = new0(struct pending_request, 1);
data->attrib = attrib;
queue_push_tail(device->pending_requests, data);
}
queue_destroy(q, NULL);
process_dev_pending_requests(device, cmd[0]);
return 0;
}
static uint8_t read_request(const uint8_t *cmd, uint16_t cmd_len,
struct gatt_device *dev)
{
struct gatt_db_attribute *attrib;
uint16_t handle;
uint16_t len;
uint16_t offset;
struct pending_request *data;
DBG("");
switch (cmd[0]) {
case ATT_OP_READ_BLOB_REQ:
len = dec_read_blob_req(cmd, cmd_len, &handle, &offset);
if (!len)
return ATT_ECODE_INVALID_PDU;
break;
case ATT_OP_READ_REQ:
len = dec_read_req(cmd, cmd_len, &handle);
if (!len)
return ATT_ECODE_INVALID_PDU;
offset = 0;
break;
default:
error("gatt: Unexpected read type 0x%02x", cmd[0]);
return ATT_ECODE_REQ_NOT_SUPP;
}
attrib = gatt_db_get_attribute(gatt_db, handle);
if (attrib == 0)
return ATT_ECODE_INVALID_HANDLE;
data = new0(struct pending_request, 1);
data->offset = offset;
data->attrib = attrib;
queue_push_tail(dev->pending_requests, data);
process_dev_pending_requests(dev, cmd[0]);
return 0;
}
static uint8_t mtu_att_handle(const uint8_t *cmd, uint16_t cmd_len,
struct gatt_device *dev)
{
uint16_t rmtu, mtu, len;
size_t length;
uint8_t *rsp;
DBG("");
len = dec_mtu_req(cmd, cmd_len, &rmtu);
if (!len)
return ATT_ECODE_INVALID_PDU;
/* MTU exchange shall not be used on BR/EDR - Vol 3. Part G. 4.3.1 */
if (get_cid(dev) != ATT_CID)
return ATT_ECODE_UNLIKELY;
if (!get_local_mtu(dev, &mtu))
return ATT_ECODE_UNLIKELY;
if (!update_mtu(dev, rmtu))
return ATT_ECODE_UNLIKELY;
rsp = g_attrib_get_buffer(dev->attrib, &length);
/* Respond with our MTU */
len = enc_mtu_resp(mtu, rsp, length);
if (!g_attrib_send(dev->attrib, 0, rsp, len, NULL, NULL, NULL))
return ATT_ECODE_UNLIKELY;
return 0;
}
static uint8_t find_info_handle(const uint8_t *cmd, uint16_t cmd_len,
uint8_t *rsp, size_t rsp_size, uint16_t *length)
{
struct gatt_db_attribute *attrib;
struct queue *q, *temp;
struct att_data_list *adl;
int iterator = 0;
uint16_t start, end;
uint16_t len, queue_len;
uint8_t format;
uint8_t ret = 0;
DBG("");
len = dec_find_info_req(cmd, cmd_len, &start, &end);
if (!len)
return ATT_ECODE_INVALID_PDU;
if (start > end || start == 0)
return ATT_ECODE_INVALID_HANDLE;
q = queue_new();
gatt_db_find_information(gatt_db, start, end, q);
if (queue_isempty(q)) {
queue_destroy(q, NULL);
return ATT_ECODE_ATTR_NOT_FOUND;
}
temp = queue_new();
attrib = queue_peek_head(q);
/* UUIDS can be only 128 bit and 16 bit */
len = bt_uuid_len(gatt_db_attribute_get_type(attrib));
if (len != 2 && len != 16) {
queue_destroy(q, NULL);
queue_destroy(temp, NULL);
return ATT_ECODE_UNLIKELY;
}
while (attrib) {
const bt_uuid_t *type;
type = gatt_db_attribute_get_type(attrib);
if (bt_uuid_len(type) != len)
break;
queue_push_tail(temp, queue_pop_head(q));
attrib = queue_peek_head(q);
}
queue_destroy(q, NULL);
queue_len = queue_length(temp);
adl = att_data_list_alloc(queue_len, len + sizeof(uint16_t));
if (!adl) {
queue_destroy(temp, NULL);
return ATT_ECODE_INSUFF_RESOURCES;
}
while (queue_peek_head(temp)) {
uint8_t *value;
const bt_uuid_t *type;
struct gatt_db_attribute *attrib = queue_pop_head(temp);
uint16_t handle;
type = gatt_db_attribute_get_type(attrib);
if (!type)
break;
value = adl->data[iterator++];
handle = gatt_db_attribute_get_handle(attrib);
put_le16(handle, value);
memcpy(&value[2], &type->value, len);
}
if (len == 2)
format = ATT_FIND_INFO_RESP_FMT_16BIT;
else
format = ATT_FIND_INFO_RESP_FMT_128BIT;
len = enc_find_info_resp(format, adl, rsp, rsp_size);
if (!len)
ret = ATT_ECODE_UNLIKELY;
*length = len;
att_data_list_free(adl);
queue_destroy(temp, NULL);
return ret;
}
struct find_by_type_request_data {
struct gatt_device *device;
uint8_t *search_value;
size_t search_vlen;
uint8_t error;
};
static void find_by_type_request_cb(struct gatt_db_attribute *attrib,
void *user_data)
{
struct find_by_type_request_data *find_data = user_data;
struct pending_request *request_data;
if (find_data->error)
return;
request_data = new0(struct pending_request, 1);
request_data->filter_value = malloc0(find_data->search_vlen);
if (!request_data->filter_value) {
destroy_pending_request(request_data);
find_data->error = ATT_ECODE_INSUFF_RESOURCES;
return;
}
request_data->attrib = attrib;
request_data->filter_vlen = find_data->search_vlen;
memcpy(request_data->filter_value, find_data->search_value,
find_data->search_vlen);
queue_push_tail(find_data->device->pending_requests, request_data);
}
static uint8_t find_by_type_request(const uint8_t *cmd, uint16_t cmd_len,
struct gatt_device *device)
{
uint8_t search_value[cmd_len];
size_t search_vlen;
uint16_t start, end;
bt_uuid_t uuid;
uint16_t len;
struct find_by_type_request_data data;
DBG("");
len = dec_find_by_type_req(cmd, cmd_len, &start, &end, &uuid,
search_value, &search_vlen);
if (!len)
return ATT_ECODE_INVALID_PDU;
if (start > end || start == 0)
return ATT_ECODE_INVALID_HANDLE;
data.error = 0;
data.search_vlen = search_vlen;
data.search_value = search_value;
data.device = device;
if (gatt_db_find_by_type(gatt_db, start, end, &uuid,
find_by_type_request_cb, &data) == 0) {
size_t mtu;
uint8_t *rsp = g_attrib_get_buffer(device->attrib, &mtu);
len = enc_error_resp(ATT_OP_FIND_BY_TYPE_REQ, start,
ATT_ECODE_ATTR_NOT_FOUND, rsp, mtu);
g_attrib_send(device->attrib, 0, rsp, len, NULL, NULL, NULL);
return 0;
}
if (!data.error)
process_dev_pending_requests(device, ATT_OP_FIND_BY_TYPE_REQ);
return data.error;
}
static void write_confirm(struct gatt_db_attribute *attrib,
int err, void *user_data)
{
if (!err)
return;
error("Error writting attribute %p", attrib);
}
static void write_cmd_request(const uint8_t *cmd, uint16_t cmd_len,
struct gatt_device *dev)
{
uint8_t value[cmd_len];
struct gatt_db_attribute *attrib;
uint32_t permissions;
uint16_t handle;
uint16_t len;
size_t vlen;
len = dec_write_cmd(cmd, cmd_len, &handle, value, &vlen);
if (!len)
return;
if (handle == 0)
return;
attrib = gatt_db_get_attribute(gatt_db, handle);
if (!attrib)
return;
permissions = gatt_db_attribute_get_permissions(attrib);
if (check_device_permissions(dev, cmd[0], permissions))
return;
gatt_db_attribute_write(attrib, 0, value, vlen, cmd[0],
g_attrib_get_att(dev->attrib),
write_confirm, NULL);
}
static void write_signed_cmd_request(const uint8_t *cmd, uint16_t cmd_len,
struct gatt_device *dev)
{
uint8_t value[cmd_len];
uint8_t s[ATT_SIGNATURE_LEN];
struct gatt_db_attribute *attrib;
uint32_t permissions;
uint16_t handle;
uint16_t len;
size_t vlen;
uint8_t csrk[16];
uint32_t sign_cnt;
if (get_cid(dev) != ATT_CID) {
error("gatt: Remote tries write signed on BR/EDR bearer");
connection_cleanup(dev);
return;
}
if (get_sec_level(dev) != BT_SECURITY_LOW) {
error("gatt: Remote tries write signed on encrypted link");
connection_cleanup(dev);
return;
}
if (!bt_get_csrk(&dev->bdaddr, false, csrk, &sign_cnt, NULL)) {
error("gatt: No valid csrk from remote device");
return;
}
len = dec_signed_write_cmd(cmd, cmd_len, &handle, value, &vlen, s);
if (handle == 0)
return;
attrib = gatt_db_get_attribute(gatt_db, handle);
if (!attrib)
return;
permissions = gatt_db_attribute_get_permissions(attrib);
if (check_device_permissions(dev, cmd[0], permissions))
return;
if (len) {
uint8_t t[ATT_SIGNATURE_LEN];
uint32_t r_sign_cnt = get_le32(s);
if (r_sign_cnt < sign_cnt) {
error("gatt: Invalid sign counter (%d<%d)",
r_sign_cnt, sign_cnt);
return;
}
/* Generate signature and verify it */
if (!bt_crypto_sign_att(crypto, csrk, cmd,
cmd_len - ATT_SIGNATURE_LEN,
r_sign_cnt, t)) {
error("gatt: Error when generating att signature");
return;
}
if (memcmp(t, s, ATT_SIGNATURE_LEN)) {
error("gatt: signature does not match");
return;
}
/* Signature OK, proceed with write */
bt_update_sign_counter(&dev->bdaddr, false, r_sign_cnt);
gatt_db_attribute_write(attrib, 0, value, vlen, cmd[0],
g_attrib_get_att(dev->attrib),
write_confirm, NULL);
}
}
static void attribute_write_cb(struct gatt_db_attribute *attrib, int err,
void *user_data)
{
struct pending_request *data = user_data;
uint8_t error = err_to_att(err);
DBG("");
data->attrib = attrib;
data->error = error;
data->completed = true;
}
static uint8_t write_req_request(const uint8_t *cmd, uint16_t cmd_len,
struct gatt_device *dev)
{
uint8_t value[cmd_len];
struct pending_request *data;
struct gatt_db_attribute *attrib;
uint32_t permissions;
uint16_t handle;
uint16_t len;
uint8_t error;
size_t vlen;
len = dec_write_req(cmd, cmd_len, &handle, value, &vlen);
if (!len)
return ATT_ECODE_INVALID_PDU;
if (handle == 0)
return ATT_ECODE_INVALID_HANDLE;
attrib = gatt_db_get_attribute(gatt_db, handle);
if (!attrib)
return ATT_ECODE_ATTR_NOT_FOUND;
permissions = gatt_db_attribute_get_permissions(attrib);
error = check_device_permissions(dev, cmd[0], permissions);
if (error)
return error;
data = new0(struct pending_request, 1);
data->attrib = attrib;
queue_push_tail(dev->pending_requests, data);
if (!gatt_db_attribute_write(attrib, 0, value, vlen, cmd[0],
g_attrib_get_att(dev->attrib),
attribute_write_cb, data)) {
queue_remove(dev->pending_requests, data);
free(data);
return ATT_ECODE_UNLIKELY;
}
send_dev_complete_response(dev, cmd[0]);
return 0;
}
static uint8_t write_prep_request(const uint8_t *cmd, uint16_t cmd_len,
struct gatt_device *dev)
{
uint8_t value[cmd_len];
struct pending_request *data;
struct gatt_db_attribute *attrib;
uint32_t permissions;
uint16_t handle;
uint16_t offset;
uint8_t error;
uint16_t len;
size_t vlen;
len = dec_prep_write_req(cmd, cmd_len, &handle, &offset,
value, &vlen);
if (!len)
return ATT_ECODE_INVALID_PDU;
if (handle == 0)
return ATT_ECODE_INVALID_HANDLE;
attrib = gatt_db_get_attribute(gatt_db, handle);
if (!attrib)
return ATT_ECODE_ATTR_NOT_FOUND;
permissions = gatt_db_attribute_get_permissions(attrib);
error = check_device_permissions(dev, cmd[0], permissions);
if (error)
return error;
data = new0(struct pending_request, 1);
data->attrib = attrib;
data->offset = offset;
queue_push_tail(dev->pending_requests, data);
data->value = g_memdup(value, vlen);
data->length = vlen;
if (!gatt_db_attribute_write(attrib, offset, value, vlen, cmd[0],
g_attrib_get_att(dev->attrib),
attribute_write_cb, data)) {
queue_remove(dev->pending_requests, data);
g_free(data->value);
free(data);
return ATT_ECODE_UNLIKELY;
}
send_dev_complete_response(dev, cmd[0]);
return 0;
}
static void send_server_write_execute_notify(void *data, void *user_data)
{
struct hal_ev_gatt_server_request_exec_write *ev = user_data;
struct pending_trans_data *transaction;
struct app_connection *conn = data;
if (!conn->wait_execute_write)
return;
ev->conn_id = conn->id;
transaction = conn_add_transact(conn, ATT_OP_EXEC_WRITE_REQ, NULL, 0);
ev->trans_id = transaction->id;
ipc_send_notif(hal_ipc, HAL_SERVICE_ID_GATT,
HAL_EV_GATT_SERVER_REQUEST_EXEC_WRITE, sizeof(*ev), ev);
}
static uint8_t write_execute_request(const uint8_t *cmd, uint16_t cmd_len,
struct gatt_device *dev)
{
struct hal_ev_gatt_server_request_exec_write ev;
uint8_t value;
struct pending_request *data;
/*
* Check if there was any write prep before.
* TODO: Try to find better error code if possible
*/
if (!pending_execute_write())
return ATT_ECODE_UNLIKELY;
if (!dec_exec_write_req(cmd, cmd_len, &value))
return ATT_ECODE_INVALID_PDU;
memset(&ev, 0, sizeof(ev));
bdaddr2android(&dev->bdaddr, &ev.bdaddr);
ev.exec_write = value;
data = new0(struct pending_request, 1);
queue_push_tail(dev->pending_requests, data);
queue_foreach(app_connections, send_server_write_execute_notify, &ev);
send_dev_complete_response(dev, cmd[0]);
return 0;
}
static void att_handler(const uint8_t *ipdu, uint16_t len, gpointer user_data)
{
struct gatt_device *dev = user_data;
uint8_t status;
uint16_t resp_length = 0;
size_t length;
uint8_t *opdu = g_attrib_get_buffer(dev->attrib, &length);
DBG("op 0x%02x", ipdu[0]);
if (len > length) {
error("gatt: Too much data on ATT socket %p", opdu);
status = ATT_ECODE_INVALID_PDU;
goto done;
}
switch (ipdu[0]) {
case ATT_OP_READ_BY_GROUP_REQ:
case ATT_OP_READ_BY_TYPE_REQ:
status = read_by_type(ipdu, len, dev);
break;
case ATT_OP_READ_REQ:
case ATT_OP_READ_BLOB_REQ:
status = read_request(ipdu, len, dev);
break;
case ATT_OP_MTU_REQ:
status = mtu_att_handle(ipdu, len, dev);
break;
case ATT_OP_FIND_INFO_REQ:
status = find_info_handle(ipdu, len, opdu, length,
&resp_length);
break;
case ATT_OP_WRITE_REQ:
status = write_req_request(ipdu, len, dev);
break;
case ATT_OP_WRITE_CMD:
write_cmd_request(ipdu, len, dev);
/* No response on write cmd */
return;
case ATT_OP_SIGNED_WRITE_CMD:
write_signed_cmd_request(ipdu, len, dev);
/* No response on write signed cmd */
return;
case ATT_OP_PREP_WRITE_REQ:
status = write_prep_request(ipdu, len, dev);
break;
case ATT_OP_FIND_BY_TYPE_REQ:
status = find_by_type_request(ipdu, len, dev);
break;
case ATT_OP_EXEC_WRITE_REQ:
status = write_execute_request(ipdu, len, dev);
break;
case ATT_OP_READ_MULTI_REQ:
default:
DBG("Unsupported request 0x%02x", ipdu[0]);
status = ATT_ECODE_REQ_NOT_SUPP;
break;
}
done:
if (status)
resp_length = enc_error_resp(ipdu[0], 0x0000, status, opdu,
length);
g_attrib_send(dev->attrib, 0, opdu, resp_length, NULL, NULL, NULL);
}
static void connect_confirm(GIOChannel *io, void *user_data)
{
struct gatt_device *dev;
bdaddr_t dst;
GError *gerr = NULL;
DBG("");
bt_io_get(io, &gerr, BT_IO_OPT_DEST_BDADDR, &dst, BT_IO_OPT_INVALID);
if (gerr) {
error("gatt: bt_io_get: %s", gerr->message);
g_error_free(gerr);
return;
}
/* TODO Handle collision */
dev = find_device_by_addr(&dst);
if (!dev) {
dev = create_device(&dst);
} else {
if ((dev->state != DEVICE_DISCONNECTED) &&
!(dev->state == DEVICE_CONNECT_INIT &&
bt_kernel_conn_control())) {
char addr[18];
ba2str(&dst, addr);
info("gatt: Rejecting incoming connection from %s",
addr);
goto drop;
}
}
if (!bt_io_accept(io, connect_cb, device_ref(dev), NULL, NULL)) {
error("gatt: failed to accept connection");
device_unref(dev);
goto drop;
}
queue_foreach(listen_apps, create_app_connection, dev);
device_set_state(dev, DEVICE_CONNECT_READY);
return;
drop:
g_io_channel_shutdown(io, TRUE, NULL);
}
struct gap_srvc_handles {
struct gatt_db_attribute *srvc;
/* Characteristics */
struct gatt_db_attribute *dev_name;
struct gatt_db_attribute *appear;
struct gatt_db_attribute *priv;
};
static struct gap_srvc_handles gap_srvc_data;
#define APPEARANCE_GENERIC_PHONE 0x0040
#define PERIPHERAL_PRIVACY_DISABLE 0x00
static void device_name_read_cb(struct gatt_db_attribute *attrib,
unsigned int id, uint16_t offset,
uint8_t opcode, struct bt_att *att,
void *user_data)
{
const char *name = bt_get_adapter_name();
gatt_db_attribute_read_result(attrib, id, 0, (void *) name,
strlen(name));
}
static void register_gap_service(void)
{
uint16_t start, end;
bt_uuid_t uuid;
/* GAP UUID */
bt_uuid16_create(&uuid, 0x1800);
gap_srvc_data.srvc = gatt_db_add_service(gatt_db, &uuid, true, 7);
/* Device name characteristic */
bt_uuid16_create(&uuid, GATT_CHARAC_DEVICE_NAME);
gap_srvc_data.dev_name =
gatt_db_service_add_characteristic(gap_srvc_data.srvc,
&uuid, GATT_PERM_READ,
GATT_CHR_PROP_READ,
device_name_read_cb,
NULL, NULL);
/* Appearance */
bt_uuid16_create(&uuid, GATT_CHARAC_APPEARANCE);
gap_srvc_data.appear =
gatt_db_service_add_characteristic(gap_srvc_data.srvc,
&uuid, GATT_PERM_READ,
GATT_CHR_PROP_READ,
NULL, NULL, NULL);
if (gap_srvc_data.appear) {
uint16_t value;
/* Store appearance into db */
value = cpu_to_le16(APPEARANCE_GENERIC_PHONE);
gatt_db_attribute_write(gap_srvc_data.appear, 0,
(void *) &value, sizeof(value),
ATT_OP_WRITE_REQ, NULL,
write_confirm, NULL);
}
/* Pripheral privacy flag */
bt_uuid16_create(&uuid, GATT_CHARAC_PERIPHERAL_PRIV_FLAG);
gap_srvc_data.priv =
gatt_db_service_add_characteristic(gap_srvc_data.srvc,
&uuid, GATT_PERM_READ,
GATT_CHR_PROP_READ,
NULL, NULL, NULL);
if (gap_srvc_data.priv) {
uint8_t value;
/* Store privacy into db */
value = PERIPHERAL_PRIVACY_DISABLE;
gatt_db_attribute_write(gap_srvc_data.priv, 0,
&value, sizeof(value),
ATT_OP_WRITE_REQ, NULL,
write_confirm, NULL);
}
gatt_db_service_set_active(gap_srvc_data.srvc , true);
/* SDP */
bt_uuid16_create(&uuid, 0x1800);
gatt_db_attribute_get_service_handles(gap_srvc_data.srvc, &start, &end);
gap_sdp_handle = add_sdp_record(&uuid, start, end,
"Generic Access Profile");
if (!gap_sdp_handle)
error("gatt: Failed to register GAP SDP record");
}
static void device_info_read_cb(struct gatt_db_attribute *attrib,
unsigned int id, uint16_t offset,
uint8_t opcode, struct bt_att *att,
void *user_data)
{
char *buf = user_data;
gatt_db_attribute_read_result(attrib, id, 0, user_data, strlen(buf));
}
static void device_info_read_system_id_cb(struct gatt_db_attribute *attrib,
unsigned int id, uint16_t offset,
uint8_t opcode, struct bt_att *att,
void *user_data)
{
uint8_t pdu[8];
put_le64(bt_config_get_system_id(), pdu);
gatt_db_attribute_read_result(attrib, id, 0, pdu, sizeof(pdu));
}
static void device_info_read_pnp_id_cb(struct gatt_db_attribute *attrib,
unsigned int id, uint16_t offset,
uint8_t opcode, struct bt_att *att,
void *user_data)
{
uint8_t pdu[7];
pdu[0] = bt_config_get_pnp_source();
put_le16(bt_config_get_pnp_vendor(), &pdu[1]);
put_le16(bt_config_get_pnp_product(), &pdu[3]);
put_le16(bt_config_get_pnp_version(), &pdu[5]);
gatt_db_attribute_read_result(attrib, id, 0, pdu, sizeof(pdu));
}
static void register_device_info_service(void)
{
bt_uuid_t uuid;
struct gatt_db_attribute *service;
uint16_t start_handle, end_handle;
const char *data;
uint32_t enc_perm = GATT_PERM_READ | GATT_PERM_READ_ENCRYPTED;
DBG("");
/* Device Information Service */
bt_uuid16_create(&uuid, 0x180a);
service = gatt_db_add_service(gatt_db, &uuid, true, 17);
/* User data are not const hence (void *) cast is used */
data = bt_config_get_name();
if (data) {
bt_uuid16_create(&uuid, GATT_CHARAC_MODEL_NUMBER_STRING);
gatt_db_service_add_characteristic(service, &uuid,
GATT_PERM_READ,
GATT_CHR_PROP_READ,
device_info_read_cb, NULL,
(void *) data);
}
data = bt_config_get_serial();
if (data) {
bt_uuid16_create(&uuid, GATT_CHARAC_SERIAL_NUMBER_STRING);
gatt_db_service_add_characteristic(service, &uuid,
enc_perm, GATT_CHR_PROP_READ,
device_info_read_cb, NULL,
(void *) data);
}
if (bt_config_get_system_id()) {
bt_uuid16_create(&uuid, GATT_CHARAC_SYSTEM_ID);
gatt_db_service_add_characteristic(service, &uuid,
enc_perm, GATT_CHR_PROP_READ,
device_info_read_system_id_cb,
NULL, NULL);
}
data = bt_config_get_fw_rev();
if (data) {
bt_uuid16_create(&uuid, GATT_CHARAC_FIRMWARE_REVISION_STRING);
gatt_db_service_add_characteristic(service, &uuid,
GATT_PERM_READ,
GATT_CHR_PROP_READ,
device_info_read_cb, NULL,
(void *) data);
}
data = bt_config_get_hw_rev();
if (data) {
bt_uuid16_create(&uuid, GATT_CHARAC_HARDWARE_REVISION_STRING);
gatt_db_service_add_characteristic(service, &uuid,
GATT_PERM_READ,
GATT_CHR_PROP_READ,
device_info_read_cb, NULL,
(void *) data);
}
bt_uuid16_create(&uuid, GATT_CHARAC_SOFTWARE_REVISION_STRING);
gatt_db_service_add_characteristic(service, &uuid, GATT_PERM_READ,
GATT_CHR_PROP_READ, device_info_read_cb,
NULL, VERSION);
data = bt_config_get_vendor();
if (data) {
bt_uuid16_create(&uuid, GATT_CHARAC_MANUFACTURER_NAME_STRING);
gatt_db_service_add_characteristic(service, &uuid,
GATT_PERM_READ,
GATT_CHR_PROP_READ,
device_info_read_cb, NULL,
(void *) data);
}
if (bt_config_get_pnp_source()) {
bt_uuid16_create(&uuid, GATT_CHARAC_PNP_ID);
gatt_db_service_add_characteristic(service, &uuid,
GATT_PERM_READ,
GATT_CHR_PROP_READ,
device_info_read_pnp_id_cb,
NULL, NULL);
}
gatt_db_service_set_active(service, true);
/* SDP */
bt_uuid16_create(&uuid, 0x180a);
gatt_db_attribute_get_service_handles(service, &start_handle,
&end_handle);
dis_sdp_handle = add_sdp_record(&uuid, start_handle, end_handle,
"Device Information Service");
if (!dis_sdp_handle)
error("gatt: Failed to register DIS SDP record");
}
static void gatt_srvc_change_write_cb(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 gatt_device *dev;
bdaddr_t bdaddr;
if (!get_dst_addr(att, &bdaddr)) {
error("gatt: srvc_change_write_cb, could not obtain BDADDR");
return;
}
dev = find_device_by_addr(&bdaddr);
if (!dev) {
error("gatt: Could not find device ?!");
return;
}
if (!bt_device_is_bonded(&bdaddr)) {
gatt_db_attribute_write_result(attrib, id,
ATT_ECODE_AUTHORIZATION);
return;
}
/* 2 octets are expected as CCC value */
if (len != 2) {
gatt_db_attribute_write_result(attrib, id,
ATT_ECODE_INVAL_ATTR_VALUE_LEN);
return;
}
/* Set services changed indication value */
bt_store_gatt_ccc(&bdaddr, get_le16(value));
gatt_db_attribute_write_result(attrib, id, 0);
}
static void gatt_srvc_change_read_cb(struct gatt_db_attribute *attrib,
unsigned int id, uint16_t offset,
uint8_t opcode, struct bt_att *att,
void *user_data)
{
struct gatt_device *dev;
uint8_t pdu[2];
bdaddr_t bdaddr;
if (!get_dst_addr(att, &bdaddr)) {
error("gatt: srvc_change_read_cb, could not obtain BDADDR");
return;
}
dev = find_device_by_addr(&bdaddr);
if (!dev) {
error("gatt: Could not find device ?!");
return;
}
put_le16(bt_get_gatt_ccc(&dev->bdaddr), pdu);
gatt_db_attribute_read_result(attrib, id, 0, pdu, sizeof(pdu));
}
static void register_gatt_service(void)
{
struct gatt_db_attribute *service;
uint16_t start_handle, end_handle;
bt_uuid_t uuid;
DBG("");
bt_uuid16_create(&uuid, 0x1801);
service = gatt_db_add_service(gatt_db, &uuid, true, 4);
bt_uuid16_create(&uuid, GATT_CHARAC_SERVICE_CHANGED);
service_changed_attrib = gatt_db_service_add_characteristic(service,
&uuid, GATT_PERM_NONE,
GATT_CHR_PROP_INDICATE,
NULL, NULL, NULL);
bt_uuid16_create(&uuid, GATT_CLIENT_CHARAC_CFG_UUID);
gatt_db_service_add_descriptor(service, &uuid,
GATT_PERM_READ | GATT_PERM_WRITE,
gatt_srvc_change_read_cb,
gatt_srvc_change_write_cb, NULL);
gatt_db_service_set_active(service, true);
/* SDP */
bt_uuid16_create(&uuid, 0x1801);
gatt_db_attribute_get_service_handles(service, &start_handle,
&end_handle);
gatt_sdp_handle = add_sdp_record(&uuid, start_handle, end_handle,
"Generic Attribute Profile");
if (!gatt_sdp_handle)
error("gatt: Failed to register GATT SDP record");
}
static bool start_listening(void)
{
/* BR/EDR socket */
bredr_io = bt_io_listen(NULL, connect_confirm, NULL, NULL, NULL,
BT_IO_OPT_SOURCE_TYPE, BDADDR_BREDR,
BT_IO_OPT_PSM, ATT_PSM,
BT_IO_OPT_SEC_LEVEL, BT_IO_SEC_LOW,
BT_IO_OPT_INVALID);
/* LE socket */
le_io = bt_io_listen(NULL, connect_confirm, NULL, NULL, NULL,
BT_IO_OPT_SOURCE_TYPE, BDADDR_LE_PUBLIC,
BT_IO_OPT_CID, ATT_CID,
BT_IO_OPT_SEC_LEVEL, BT_IO_SEC_LOW,
BT_IO_OPT_INVALID);
if (!le_io && !bredr_io) {
error("gatt: Failed to start listening IO");
return false;
}
return true;
}
static void gatt_paired_cb(const bdaddr_t *addr)
{
struct gatt_device *dev;
char address[18];
struct app_connection *conn;
dev = find_device_by_addr(addr);
if (!dev)
return;
ba2str(addr, address);
DBG("Paired device %s", address);
/* conn without app is internal one used for search primary services */
conn = find_conn_without_app(dev);
if (!conn)
return;
if (conn->timeout_id > 0) {
g_source_remove(conn->timeout_id);
conn->timeout_id = 0;
}
search_dev_for_srvc(conn, NULL);
}
static void gatt_unpaired_cb(const bdaddr_t *addr)
{
struct gatt_device *dev;
char address[18];
dev = find_device_by_addr(addr);
if (!dev)
return;
ba2str(addr, address);
DBG("Unpaired device %s", address);
queue_remove(gatt_devices, dev);
destroy_device(dev);
}
bool bt_gatt_register(struct ipc *ipc, const bdaddr_t *addr)
{
DBG("");
if (!bt_paired_register(gatt_paired_cb)) {
error("gatt: Could not register paired callback");
return false;
}
if (!bt_unpaired_register(gatt_unpaired_cb)) {
error("gatt: Could not register unpaired callback");
return false;
}
if (!start_listening())
return false;
crypto = bt_crypto_new();
if (!crypto) {
error("gatt: Failed to setup crypto");
goto failed;
}
gatt_devices = queue_new();
gatt_apps = queue_new();
app_connections = queue_new();
listen_apps = queue_new();
services_sdp = queue_new();
gatt_db = gatt_db_new();
if (!gatt_db) {
error("gatt: Failed to allocate memory for database");
goto failed;
}
if (!bt_le_register(le_device_found_handler)) {
error("gatt: bt_le_register failed");
goto failed;
}
bacpy(&adapter_addr, addr);
hal_ipc = ipc;
ipc_register(hal_ipc, HAL_SERVICE_ID_GATT, cmd_handlers,
G_N_ELEMENTS(cmd_handlers));
register_gap_service();
register_device_info_service();
register_gatt_service();
info("gatt: LE: %s BR/EDR: %s", le_io ? "enabled" : "disabled",
bredr_io ? "enabled" : "disabled");
return true;
failed:
bt_paired_unregister(gatt_paired_cb);
bt_unpaired_unregister(gatt_unpaired_cb);
queue_destroy(gatt_apps, NULL);
gatt_apps = NULL;
queue_destroy(gatt_devices, NULL);
gatt_devices = NULL;
queue_destroy(app_connections, NULL);
app_connections = NULL;
queue_destroy(listen_apps, NULL);
listen_apps = NULL;
queue_destroy(services_sdp, NULL);
services_sdp = NULL;
gatt_db_unref(gatt_db);
gatt_db = NULL;
bt_crypto_unref(crypto);
crypto = NULL;
if (le_io) {
g_io_channel_unref(le_io);
le_io = NULL;
}
if (bredr_io) {
g_io_channel_unref(bredr_io);
bredr_io = NULL;
}
return false;
}
void bt_gatt_unregister(void)
{
DBG("");
ipc_unregister(hal_ipc, HAL_SERVICE_ID_GATT);
hal_ipc = NULL;
queue_destroy(app_connections, destroy_connection);
app_connections = NULL;
queue_destroy(gatt_apps, destroy_gatt_app);
gatt_apps = NULL;
queue_destroy(gatt_devices, destroy_device);
gatt_devices = NULL;
queue_destroy(services_sdp, free_service_sdp_record);
services_sdp = NULL;
queue_destroy(listen_apps, NULL);
listen_apps = NULL;
gatt_db_unref(gatt_db);
gatt_db = NULL;
if (le_io) {
g_io_channel_unref(le_io);
le_io = NULL;
}
if (bredr_io) {
g_io_channel_unref(bredr_io);
bredr_io = NULL;
}
if (gap_sdp_handle) {
bt_adapter_remove_record(gap_sdp_handle);
gap_sdp_handle = 0;
}
if (gatt_sdp_handle) {
bt_adapter_remove_record(gatt_sdp_handle);
gatt_sdp_handle = 0;
}
if (dis_sdp_handle) {
bt_adapter_remove_record(dis_sdp_handle);
dis_sdp_handle = 0;
}
bt_crypto_unref(crypto);
crypto = NULL;
bt_le_unregister();
bt_unpaired_unregister(gatt_unpaired_cb);
}
unsigned int bt_gatt_register_app(const char *uuid, gatt_type_t type,
gatt_conn_cb_t func)
{
struct gatt_app *app;
bt_uuid_t u, u128;
bt_string_to_uuid(&u, uuid);
bt_uuid_to_uuid128(&u, &u128);
app = register_app((void *) &u128.value.u128, type);
if (!app)
return 0;
app->func = func;
return app->id;
}
bool bt_gatt_unregister_app(unsigned int id)
{
uint8_t status;
status = unregister_app(id);
return status != HAL_STATUS_FAILED;
}
bool bt_gatt_connect_app(unsigned int id, const bdaddr_t *addr)
{
uint8_t status;
status = handle_connect(id, addr, false);
return status != HAL_STATUS_FAILED;
}
bool bt_gatt_disconnect_app(unsigned int id, const bdaddr_t *addr)
{
struct app_connection match;
struct app_connection *conn;
struct gatt_device *device;
struct gatt_app *app;
app = find_app_by_id(id);
if (!app)
return false;
device = find_device_by_addr(addr);
if (!device)
return false;
match.device = device;
match.app = app;
conn = queue_remove_if(app_connections,
match_connection_by_device_and_app, &match);
if (!conn)
return false;
destroy_connection(conn);
return true;
}
bool bt_gatt_add_autoconnect(unsigned int id, const bdaddr_t *addr)
{
struct gatt_device *dev;
struct gatt_app *app;
DBG("");
app = find_app_by_id(id);
if (!app) {
error("gatt: App ID=%d not found", id);
return false;
}
dev = find_device_by_addr(addr);
if (!dev) {
error("gatt: Device not found");
return false;
}
/* Take reference of device for auto connect purpose */
if (queue_isempty(dev->autoconnect_apps))
device_ref(dev);
if (!queue_find(dev->autoconnect_apps, NULL, INT_TO_PTR(id)))
return queue_push_head(dev->autoconnect_apps, INT_TO_PTR(id));
return true;
}
void bt_gatt_remove_autoconnect(unsigned int id, const bdaddr_t *addr)
{
struct gatt_device *dev;
DBG("");
dev = find_device_by_addr(addr);
if (!dev) {
error("gatt: Device not found");
return;
}
queue_remove(dev->autoconnect_apps, INT_TO_PTR(id));
if (queue_isempty(dev->autoconnect_apps))
remove_autoconnect_device(dev);
}