blob: cc49458ddebf3b7c63d20705048ca2c9cd6d08f2 [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 <errno.h>
#include "lib/bluetooth.h"
#include "lib/uuid.h"
#include "src/shared/util.h"
#include "src/shared/queue.h"
#include "src/shared/timeout.h"
#include "src/shared/att.h"
#include "src/shared/gatt-db.h"
#ifndef MAX
#define MAX(a, b) ((a) > (b) ? (a) : (b))
#endif
#define MAX_CHAR_DECL_VALUE_LEN 19
#define MAX_INCLUDED_VALUE_LEN 6
#define ATTRIBUTE_TIMEOUT 5000
static const bt_uuid_t primary_service_uuid = { .type = BT_UUID16,
.value.u16 = GATT_PRIM_SVC_UUID };
static const bt_uuid_t secondary_service_uuid = { .type = BT_UUID16,
.value.u16 = GATT_SND_SVC_UUID };
static const bt_uuid_t characteristic_uuid = { .type = BT_UUID16,
.value.u16 = GATT_CHARAC_UUID };
static const bt_uuid_t included_service_uuid = { .type = BT_UUID16,
.value.u16 = GATT_INCLUDE_UUID };
struct gatt_db {
int ref_count;
uint16_t next_handle;
struct queue *services;
struct queue *notify_list;
unsigned int next_notify_id;
};
struct notify {
unsigned int id;
gatt_db_attribute_cb_t service_added;
gatt_db_attribute_cb_t service_removed;
gatt_db_destroy_func_t destroy;
void *user_data;
};
struct pending_read {
struct gatt_db_attribute *attrib;
unsigned int id;
unsigned int timeout_id;
gatt_db_attribute_read_t func;
void *user_data;
};
struct pending_write {
struct gatt_db_attribute *attrib;
unsigned int id;
unsigned int timeout_id;
gatt_db_attribute_write_t func;
void *user_data;
};
struct gatt_db_attribute {
struct gatt_db_service *service;
uint16_t handle;
bt_uuid_t uuid;
uint32_t permissions;
uint16_t value_len;
uint8_t *value;
gatt_db_read_t read_func;
gatt_db_write_t write_func;
void *user_data;
unsigned int read_id;
struct queue *pending_reads;
unsigned int write_id;
struct queue *pending_writes;
};
struct gatt_db_service {
struct gatt_db *db;
bool active;
bool claimed;
uint16_t num_handles;
struct gatt_db_attribute **attributes;
};
static void pending_read_result(struct pending_read *p, int err,
const uint8_t *data, size_t length)
{
if (p->timeout_id > 0)
timeout_remove(p->timeout_id);
p->func(p->attrib, err, data, length, p->user_data);
free(p);
}
static void pending_read_free(void *data)
{
struct pending_read *p = data;
pending_read_result(p, -ECANCELED, NULL, 0);
}
static void pending_write_result(struct pending_write *p, int err)
{
if (p->timeout_id > 0)
timeout_remove(p->timeout_id);
p->func(p->attrib, err, p->user_data);
free(p);
}
static void pending_write_free(void *data)
{
struct pending_write *p = data;
pending_write_result(p, -ECANCELED);
}
static void attribute_destroy(struct gatt_db_attribute *attribute)
{
/* Attribute was not initialized by user */
if (!attribute)
return;
queue_destroy(attribute->pending_reads, pending_read_free);
queue_destroy(attribute->pending_writes, pending_write_free);
free(attribute->value);
free(attribute);
}
static struct gatt_db_attribute *new_attribute(struct gatt_db_service *service,
uint16_t handle,
const bt_uuid_t *type,
const uint8_t *val,
uint16_t len)
{
struct gatt_db_attribute *attribute;
attribute = new0(struct gatt_db_attribute, 1);
attribute->service = service;
attribute->handle = handle;
attribute->uuid = *type;
attribute->value_len = len;
if (len) {
attribute->value = malloc0(len);
if (!attribute->value)
goto failed;
memcpy(attribute->value, val, len);
}
attribute->pending_reads = queue_new();
attribute->pending_writes = queue_new();
return attribute;
failed:
attribute_destroy(attribute);
return NULL;
}
struct gatt_db *gatt_db_ref(struct gatt_db *db)
{
if (!db)
return NULL;
__sync_fetch_and_add(&db->ref_count, 1);
return db;
}
struct gatt_db *gatt_db_new(void)
{
struct gatt_db *db;
db = new0(struct gatt_db, 1);
db->services = queue_new();
db->notify_list = queue_new();
db->next_handle = 0x0001;
return gatt_db_ref(db);
}
static void notify_destroy(void *data)
{
struct notify *notify = data;
if (notify->destroy)
notify->destroy(notify->user_data);
free(notify);
}
static bool match_notify_id(const void *a, const void *b)
{
const struct notify *notify = a;
unsigned int id = PTR_TO_UINT(b);
return notify->id == id;
}
struct notify_data {
struct gatt_db_attribute *attr;
bool added;
};
static void handle_notify(void *data, void *user_data)
{
struct notify *notify = data;
struct notify_data *notify_data = user_data;
if (notify_data->added)
notify->service_added(notify_data->attr, notify->user_data);
else
notify->service_removed(notify_data->attr, notify->user_data);
}
static void notify_service_changed(struct gatt_db *db,
struct gatt_db_service *service,
bool added)
{
struct notify_data data;
if (queue_isempty(db->notify_list))
return;
data.attr = service->attributes[0];
data.added = added;
gatt_db_ref(db);
queue_foreach(db->notify_list, handle_notify, &data);
gatt_db_unref(db);
}
static void gatt_db_service_destroy(void *data)
{
struct gatt_db_service *service = data;
int i;
if (service->active)
notify_service_changed(service->db, service, false);
for (i = 0; i < service->num_handles; i++)
attribute_destroy(service->attributes[i]);
free(service->attributes);
free(service);
}
static void gatt_db_destroy(struct gatt_db *db)
{
if (!db)
return;
/*
* Clear the notify list before clearing the services to prevent the
* latter from sending service_removed events.
*/
queue_destroy(db->notify_list, notify_destroy);
db->notify_list = NULL;
queue_destroy(db->services, gatt_db_service_destroy);
free(db);
}
void gatt_db_unref(struct gatt_db *db)
{
if (!db)
return;
if (__sync_sub_and_fetch(&db->ref_count, 1))
return;
gatt_db_destroy(db);
}
bool gatt_db_isempty(struct gatt_db *db)
{
if (!db)
return true;
return queue_isempty(db->services);
}
static int uuid_to_le(const bt_uuid_t *uuid, uint8_t *dst)
{
bt_uuid_t uuid128;
if (uuid->type == BT_UUID16) {
put_le16(uuid->value.u16, dst);
return bt_uuid_len(uuid);
}
bt_uuid_to_uuid128(uuid, &uuid128);
bswap_128(&uuid128.value.u128, dst);
return bt_uuid_len(&uuid128);
}
static bool le_to_uuid(const uint8_t *src, size_t len, bt_uuid_t *uuid)
{
uint128_t u128;
if (len == 2) {
bt_uuid16_create(uuid, get_le16(src));
return true;
}
if (len == 4) {
bt_uuid32_create(uuid, get_le32(src));
return true;
}
if (len != 16)
return false;
bswap_128(src, &u128);
bt_uuid128_create(uuid, u128);
return true;
}
static struct gatt_db_service *gatt_db_service_create(const bt_uuid_t *uuid,
uint16_t handle,
bool primary,
uint16_t num_handles)
{
struct gatt_db_service *service;
const bt_uuid_t *type;
uint8_t value[16];
uint16_t len;
if (num_handles < 1)
return NULL;
service = new0(struct gatt_db_service, 1);
service->attributes = new0(struct gatt_db_attribute *, num_handles);
if (primary)
type = &primary_service_uuid;
else
type = &secondary_service_uuid;
len = uuid_to_le(uuid, value);
service->attributes[0] = new_attribute(service, handle, type, value,
len);
if (!service->attributes[0]) {
gatt_db_service_destroy(service);
return NULL;
}
return service;
}
bool gatt_db_remove_service(struct gatt_db *db,
struct gatt_db_attribute *attrib)
{
struct gatt_db_service *service;
if (!db || !attrib)
return false;
service = attrib->service;
queue_remove(db->services, service);
gatt_db_service_destroy(service);
return true;
}
bool gatt_db_clear(struct gatt_db *db)
{
if (!db)
return false;
queue_remove_all(db->services, NULL, NULL, gatt_db_service_destroy);
db->next_handle = 0;
return true;
}
static void gatt_db_service_get_handles(const struct gatt_db_service *service,
uint16_t *start_handle,
uint16_t *end_handle)
{
if (start_handle)
*start_handle = service->attributes[0]->handle;
if (end_handle)
*end_handle = service->attributes[0]->handle +
service->num_handles - 1;
}
struct clear_range {
uint16_t start, end;
};
static bool match_range(const void *a, const void *b)
{
const struct gatt_db_service *service = a;
const struct clear_range *range = b;
uint16_t svc_start, svc_end;
gatt_db_service_get_handles(service, &svc_start, &svc_end);
return svc_start <= range->end && svc_end >= range->start;
}
bool gatt_db_clear_range(struct gatt_db *db, uint16_t start_handle,
uint16_t end_handle)
{
struct clear_range range;
if (!db || start_handle > end_handle)
return false;
range.start = start_handle;
range.end = end_handle;
queue_remove_all(db->services, match_range, &range,
gatt_db_service_destroy);
return true;
}
static struct gatt_db_service *find_insert_loc(struct gatt_db *db,
uint16_t start, uint16_t end,
struct gatt_db_service **after)
{
const struct queue_entry *services_entry;
struct gatt_db_service *service;
uint16_t cur_start, cur_end;
*after = NULL;
services_entry = queue_get_entries(db->services);
while (services_entry) {
service = services_entry->data;
gatt_db_service_get_handles(service, &cur_start, &cur_end);
if (start >= cur_start && start <= cur_end)
return service;
if (end >= cur_start && end <= cur_end)
return service;
if (end < cur_start)
return NULL;
*after = service;
services_entry = services_entry->next;
}
return NULL;
}
struct gatt_db_attribute *gatt_db_insert_service(struct gatt_db *db,
uint16_t handle,
const bt_uuid_t *uuid,
bool primary,
uint16_t num_handles)
{
struct gatt_db_service *service, *after;
after = NULL;
if (!db || handle < 1)
return NULL;
if (num_handles < 1 || (handle + num_handles - 1) > UINT16_MAX)
return NULL;
service = find_insert_loc(db, handle, handle + num_handles - 1, &after);
if (service) {
const bt_uuid_t *type;
bt_uuid_t value;
if (primary)
type = &primary_service_uuid;
else
type = &secondary_service_uuid;
gatt_db_attribute_get_service_uuid(service->attributes[0],
&value);
/* Check if service match */
if (!bt_uuid_cmp(&service->attributes[0]->uuid, type) &&
!bt_uuid_cmp(&value, uuid) &&
service->num_handles == num_handles &&
service->attributes[0]->handle == handle)
return service->attributes[0];
return NULL;
}
service = gatt_db_service_create(uuid, handle, primary, num_handles);
if (!service)
return NULL;
if (after) {
if (!queue_push_after(db->services, after, service))
goto fail;
} else if (!queue_push_head(db->services, service)) {
goto fail;
}
service->db = db;
service->attributes[0]->handle = handle;
service->num_handles = num_handles;
/* Fast-forward next_handle if the new service was added to the end */
db->next_handle = MAX(handle + num_handles, db->next_handle);
return service->attributes[0];
fail:
gatt_db_service_destroy(service);
return NULL;
}
struct gatt_db_attribute *gatt_db_add_service(struct gatt_db *db,
const bt_uuid_t *uuid,
bool primary,
uint16_t num_handles)
{
return gatt_db_insert_service(db, db->next_handle, uuid, primary,
num_handles);
}
unsigned int gatt_db_register(struct gatt_db *db,
gatt_db_attribute_cb_t service_added,
gatt_db_attribute_cb_t service_removed,
void *user_data,
gatt_db_destroy_func_t destroy)
{
struct notify *notify;
if (!db || !(service_added || service_removed))
return 0;
notify = new0(struct notify, 1);
notify->service_added = service_added;
notify->service_removed = service_removed;
notify->destroy = destroy;
notify->user_data = user_data;
if (db->next_notify_id < 1)
db->next_notify_id = 1;
notify->id = db->next_notify_id++;
if (!queue_push_tail(db->notify_list, notify)) {
free(notify);
return 0;
}
return notify->id;
}
bool gatt_db_unregister(struct gatt_db *db, unsigned int id)
{
struct notify *notify;
if (!db || !id)
return false;
notify = queue_find(db->notify_list, match_notify_id, UINT_TO_PTR(id));
if (!notify)
return false;
queue_remove(db->notify_list, notify);
notify_destroy(notify);
return true;
}
static uint16_t get_attribute_index(struct gatt_db_service *service,
int end_offset)
{
int i = 0;
/* Here we look for first free attribute index with given offset */
while (i < (service->num_handles - end_offset) &&
service->attributes[i])
i++;
return i == (service->num_handles - end_offset) ? 0 : i;
}
static uint16_t get_handle_at_index(struct gatt_db_service *service,
int index)
{
return service->attributes[index]->handle;
}
static struct gatt_db_attribute *
attribute_update(struct gatt_db_service *service, int index)
{
uint16_t previous_handle;
/* We call this function with index > 0, because index 0 is reserved
* for service declaration, and is set in add_service()
*/
previous_handle = service->attributes[index - 1]->handle;
service->attributes[index]->handle = previous_handle + 1;
return service->attributes[index];
}
static void set_attribute_data(struct gatt_db_attribute *attribute,
gatt_db_read_t read_func,
gatt_db_write_t write_func,
uint32_t permissions,
void *user_data)
{
attribute->permissions = permissions;
attribute->read_func = read_func;
attribute->write_func = write_func;
attribute->user_data = user_data;
}
static struct gatt_db_attribute *
service_insert_characteristic(struct gatt_db_service *service,
uint16_t handle,
const bt_uuid_t *uuid,
uint32_t permissions,
uint8_t properties,
gatt_db_read_t read_func,
gatt_db_write_t write_func,
void *user_data)
{
uint8_t value[MAX_CHAR_DECL_VALUE_LEN];
uint16_t len = 0;
int i;
/* Check if handle is in within service range */
if (handle && handle <= service->attributes[0]->handle)
return NULL;
/*
* It is not possible to allocate last handle for a Characteristic
* since it would not have space for its value:
* 3.3.2 Characteristic Value Declaration
* The Characteristic Value declaration contains the value of the
* characteristic. It is the first Attribute after the characteristic
* declaration. All characteristic definitions shall have a
* Characteristic Value declaration.
*/
if (handle == UINT16_MAX)
return NULL;
i = get_attribute_index(service, 1);
if (!i)
return NULL;
if (!handle)
handle = get_handle_at_index(service, i - 1) + 2;
value[0] = properties;
len += sizeof(properties);
/* We set handle of characteristic value, which will be added next */
put_le16(handle, &value[1]);
len += sizeof(uint16_t);
len += uuid_to_le(uuid, &value[3]);
service->attributes[i] = new_attribute(service, handle - 1,
&characteristic_uuid,
value, len);
if (!service->attributes[i])
return NULL;
i++;
service->attributes[i] = new_attribute(service, handle, uuid, NULL, 0);
if (!service->attributes[i]) {
free(service->attributes[i - 1]);
return NULL;
}
set_attribute_data(service->attributes[i], read_func, write_func,
permissions, user_data);
return service->attributes[i];
}
struct gatt_db_attribute *
gatt_db_service_insert_characteristic(struct gatt_db_attribute *attrib,
uint16_t handle,
const bt_uuid_t *uuid,
uint32_t permissions,
uint8_t properties,
gatt_db_read_t read_func,
gatt_db_write_t write_func,
void *user_data)
{
if (!attrib || !handle)
return NULL;
return service_insert_characteristic(attrib->service, handle, uuid,
permissions, properties,
read_func, write_func,
user_data);
}
struct gatt_db_attribute *
gatt_db_service_add_characteristic(struct gatt_db_attribute *attrib,
const bt_uuid_t *uuid,
uint32_t permissions,
uint8_t properties,
gatt_db_read_t read_func,
gatt_db_write_t write_func,
void *user_data)
{
if (!attrib)
return NULL;
return service_insert_characteristic(attrib->service, 0, uuid,
permissions, properties,
read_func, write_func,
user_data);
}
static struct gatt_db_attribute *
service_insert_descriptor(struct gatt_db_service *service,
uint16_t handle,
const bt_uuid_t *uuid,
uint32_t permissions,
gatt_db_read_t read_func,
gatt_db_write_t write_func,
void *user_data)
{
int i;
i = get_attribute_index(service, 0);
if (!i)
return NULL;
/* Check if handle is in within service range */
if (handle && handle <= service->attributes[0]->handle)
return NULL;
if (!handle)
handle = get_handle_at_index(service, i - 1) + 1;
service->attributes[i] = new_attribute(service, handle, uuid, NULL, 0);
if (!service->attributes[i])
return NULL;
set_attribute_data(service->attributes[i], read_func, write_func,
permissions, user_data);
return service->attributes[i];
}
struct gatt_db_attribute *
gatt_db_service_insert_descriptor(struct gatt_db_attribute *attrib,
uint16_t handle,
const bt_uuid_t *uuid,
uint32_t permissions,
gatt_db_read_t read_func,
gatt_db_write_t write_func,
void *user_data)
{
if (!attrib || !handle)
return NULL;
return service_insert_descriptor(attrib->service, handle, uuid,
permissions, read_func, write_func,
user_data);
}
struct gatt_db_attribute *
gatt_db_service_add_descriptor(struct gatt_db_attribute *attrib,
const bt_uuid_t *uuid,
uint32_t permissions,
gatt_db_read_t read_func,
gatt_db_write_t write_func,
void *user_data)
{
if (!attrib)
return NULL;
return service_insert_descriptor(attrib->service, 0, uuid,
permissions, read_func, write_func,
user_data);
}
struct gatt_db_attribute *
gatt_db_service_add_included(struct gatt_db_attribute *attrib,
struct gatt_db_attribute *include)
{
struct gatt_db_service *service, *included;
uint8_t value[MAX_INCLUDED_VALUE_LEN];
uint16_t included_handle, len = 0;
int index;
if (!attrib || !include)
return NULL;
service = attrib->service;
included = include->service;
/* Adjust include to point to the first attribute */
if (include != included->attributes[0])
include = included->attributes[0];
included_handle = include->handle;
put_le16(included_handle, &value[len]);
len += sizeof(uint16_t);
put_le16(included_handle + included->num_handles - 1, &value[len]);
len += sizeof(uint16_t);
/* The Service UUID shall only be present when the UUID is a 16-bit
* Bluetooth UUID. Vol 2. Part G. 3.2
*/
if (include->value_len == sizeof(uint16_t)) {
memcpy(&value[len], include->value, include->value_len);
len += include->value_len;
}
index = get_attribute_index(service, 0);
if (!index)
return NULL;
service->attributes[index] = new_attribute(service, 0,
&included_service_uuid,
value, len);
if (!service->attributes[index])
return NULL;
/* The Attribute Permissions shall be read only and not require
* authentication or authorization. Vol 2. Part G. 3.2
*
* TODO handle permissions
*/
set_attribute_data(service->attributes[index], NULL, NULL, 0, NULL);
return attribute_update(service, index);
}
bool gatt_db_service_set_active(struct gatt_db_attribute *attrib, bool active)
{
struct gatt_db_service *service;
if (!attrib)
return false;
service = attrib->service;
if (service->active == active)
return true;
service->active = active;
notify_service_changed(service->db, service, active);
return true;
}
bool gatt_db_service_get_active(struct gatt_db_attribute *attrib)
{
if (!attrib)
return false;
return attrib->service->active;
}
bool gatt_db_service_set_claimed(struct gatt_db_attribute *attrib,
bool claimed)
{
if (!attrib)
return false;
attrib->service->claimed = claimed;
return true;
}
bool gatt_db_service_get_claimed(struct gatt_db_attribute *attrib)
{
if (!attrib)
return false;
return attrib->service->claimed;
}
void gatt_db_read_by_group_type(struct gatt_db *db, uint16_t start_handle,
uint16_t end_handle,
const bt_uuid_t type,
struct queue *queue)
{
const struct queue_entry *services_entry;
struct gatt_db_service *service;
uint16_t grp_start, grp_end, uuid_size;
uuid_size = 0;
services_entry = queue_get_entries(db->services);
while (services_entry) {
service = services_entry->data;
if (!service->active)
goto next_service;
if (bt_uuid_cmp(&type, &service->attributes[0]->uuid))
goto next_service;
grp_start = service->attributes[0]->handle;
grp_end = grp_start + service->num_handles - 1;
if (grp_end < start_handle || grp_start > end_handle)
goto next_service;
if (grp_start < start_handle || grp_start > end_handle)
goto next_service;
if (!uuid_size)
uuid_size = service->attributes[0]->value_len;
else if (uuid_size != service->attributes[0]->value_len)
return;
queue_push_tail(queue, service->attributes[0]);
next_service:
services_entry = services_entry->next;
}
}
struct find_by_type_value_data {
bt_uuid_t uuid;
uint16_t start_handle;
uint16_t end_handle;
gatt_db_attribute_cb_t func;
void *user_data;
const void *value;
size_t value_len;
unsigned int num_of_res;
};
static void find_by_type(void *data, void *user_data)
{
struct find_by_type_value_data *search_data = user_data;
struct gatt_db_service *service = data;
struct gatt_db_attribute *attribute;
int i;
if (!service->active)
return;
for (i = 0; i < service->num_handles; i++) {
attribute = service->attributes[i];
if (!attribute)
continue;
if ((attribute->handle < search_data->start_handle) ||
(attribute->handle > search_data->end_handle))
continue;
if (bt_uuid_cmp(&search_data->uuid, &attribute->uuid))
continue;
/* TODO: fix for read-callback based attributes */
if (search_data->value && memcmp(attribute->value,
search_data->value,
search_data->value_len))
continue;
search_data->num_of_res++;
search_data->func(attribute, search_data->user_data);
}
}
unsigned int gatt_db_find_by_type(struct gatt_db *db, uint16_t start_handle,
uint16_t end_handle,
const bt_uuid_t *type,
gatt_db_attribute_cb_t func,
void *user_data)
{
struct find_by_type_value_data data;
memset(&data, 0, sizeof(data));
data.uuid = *type;
data.start_handle = start_handle;
data.end_handle = end_handle;
data.func = func;
data.user_data = user_data;
queue_foreach(db->services, find_by_type, &data);
return data.num_of_res;
}
unsigned int gatt_db_find_by_type_value(struct gatt_db *db,
uint16_t start_handle,
uint16_t end_handle,
const bt_uuid_t *type,
const void *value,
size_t value_len,
gatt_db_attribute_cb_t func,
void *user_data)
{
struct find_by_type_value_data data;
data.uuid = *type;
data.start_handle = start_handle;
data.end_handle = end_handle;
data.func = func;
data.user_data = user_data;
data.value = value;
data.value_len = value_len;
queue_foreach(db->services, find_by_type, &data);
return data.num_of_res;
}
struct read_by_type_data {
struct queue *queue;
bt_uuid_t uuid;
uint16_t start_handle;
uint16_t end_handle;
};
static void read_by_type(void *data, void *user_data)
{
struct read_by_type_data *search_data = user_data;
struct gatt_db_service *service = data;
struct gatt_db_attribute *attribute;
int i;
if (!service->active)
return;
for (i = 0; i < service->num_handles; i++) {
attribute = service->attributes[i];
if (!attribute)
continue;
if (attribute->handle < search_data->start_handle)
continue;
if (attribute->handle > search_data->end_handle)
return;
if (bt_uuid_cmp(&search_data->uuid, &attribute->uuid))
continue;
queue_push_tail(search_data->queue, attribute);
}
}
void gatt_db_read_by_type(struct gatt_db *db, uint16_t start_handle,
uint16_t end_handle,
const bt_uuid_t type,
struct queue *queue)
{
struct read_by_type_data data;
data.uuid = type;
data.start_handle = start_handle;
data.end_handle = end_handle;
data.queue = queue;
queue_foreach(db->services, read_by_type, &data);
}
struct find_information_data {
struct queue *queue;
uint16_t start_handle;
uint16_t end_handle;
};
static void find_information(void *data, void *user_data)
{
struct find_information_data *search_data = user_data;
struct gatt_db_service *service = data;
struct gatt_db_attribute *attribute;
int i;
if (!service->active)
return;
/* Check if service is in range */
if ((service->attributes[0]->handle + service->num_handles - 1) <
search_data->start_handle)
return;
for (i = 0; i < service->num_handles; i++) {
attribute = service->attributes[i];
if (!attribute)
continue;
if (attribute->handle < search_data->start_handle)
continue;
if (attribute->handle > search_data->end_handle)
return;
queue_push_tail(search_data->queue, attribute);
}
}
void gatt_db_find_information(struct gatt_db *db, uint16_t start_handle,
uint16_t end_handle,
struct queue *queue)
{
struct find_information_data data;
data.start_handle = start_handle;
data.end_handle = end_handle;
data.queue = queue;
queue_foreach(db->services, find_information, &data);
}
void gatt_db_foreach_service(struct gatt_db *db, const bt_uuid_t *uuid,
gatt_db_attribute_cb_t func,
void *user_data)
{
gatt_db_foreach_service_in_range(db, uuid, func, user_data, 0x0001,
0xffff);
}
struct foreach_data {
gatt_db_attribute_cb_t func;
const bt_uuid_t *uuid;
void *user_data;
uint16_t start, end;
};
static void foreach_service_in_range(void *data, void *user_data)
{
struct gatt_db_service *service = data;
struct foreach_data *foreach_data = user_data;
uint16_t svc_start;
bt_uuid_t uuid;
svc_start = get_handle_at_index(service, 0);
if (svc_start > foreach_data->end || svc_start < foreach_data->start)
return;
if (foreach_data->uuid) {
gatt_db_attribute_get_service_uuid(service->attributes[0],
&uuid);
if (bt_uuid_cmp(&uuid, foreach_data->uuid))
return;
}
foreach_data->func(service->attributes[0], foreach_data->user_data);
}
void gatt_db_foreach_service_in_range(struct gatt_db *db,
const bt_uuid_t *uuid,
gatt_db_attribute_cb_t func,
void *user_data,
uint16_t start_handle,
uint16_t end_handle)
{
struct foreach_data data;
if (!db || !func || start_handle > end_handle)
return;
data.func = func;
data.uuid = uuid;
data.user_data = user_data;
data.start = start_handle;
data.end = end_handle;
queue_foreach(db->services, foreach_service_in_range, &data);
}
void gatt_db_service_foreach(struct gatt_db_attribute *attrib,
const bt_uuid_t *uuid,
gatt_db_attribute_cb_t func,
void *user_data)
{
struct gatt_db_service *service;
struct gatt_db_attribute *attr;
uint16_t i;
if (!attrib || !func)
return;
service = attrib->service;
for (i = 0; i < service->num_handles; i++) {
attr = service->attributes[i];
if (!attr)
continue;
if (uuid && bt_uuid_cmp(uuid, &attr->uuid))
continue;
func(attr, user_data);
}
}
void gatt_db_service_foreach_char(struct gatt_db_attribute *attrib,
gatt_db_attribute_cb_t func,
void *user_data)
{
gatt_db_service_foreach(attrib, &characteristic_uuid, func, user_data);
}
void gatt_db_service_foreach_desc(struct gatt_db_attribute *attrib,
gatt_db_attribute_cb_t func,
void *user_data)
{
struct gatt_db_service *service;
struct gatt_db_attribute *attr;
uint16_t i;
if (!attrib || !func)
return;
/* Return if this attribute is not a characteristic declaration */
if (bt_uuid_cmp(&characteristic_uuid, &attrib->uuid))
return;
service = attrib->service;
/* Start from the attribute following the value handle */
for (i = 0; i < service->num_handles; i++) {
if (service->attributes[i] == attrib) {
i += 2;
break;
}
}
for (; i < service->num_handles; i++) {
attr = service->attributes[i];
if (!attr)
continue;
/* Return if we reached the end of this characteristic */
if (!bt_uuid_cmp(&characteristic_uuid, &attr->uuid) ||
!bt_uuid_cmp(&included_service_uuid, &attr->uuid))
return;
func(attr, user_data);
}
}
void gatt_db_service_foreach_incl(struct gatt_db_attribute *attrib,
gatt_db_attribute_cb_t func,
void *user_data)
{
gatt_db_service_foreach(attrib, &included_service_uuid, func,
user_data);
}
static bool find_service_for_handle(const void *data, const void *user_data)
{
const struct gatt_db_service *service = data;
uint16_t handle = PTR_TO_UINT(user_data);
uint16_t start, end;
gatt_db_service_get_handles(service, &start, &end);
return (start <= handle) && (handle <= end);
}
struct gatt_db_attribute *gatt_db_get_attribute(struct gatt_db *db,
uint16_t handle)
{
struct gatt_db_service *service;
int i;
if (!db || !handle)
return NULL;
service = queue_find(db->services, find_service_for_handle,
UINT_TO_PTR(handle));
if (!service)
return NULL;
for (i = 0; i < service->num_handles; i++) {
if (!service->attributes[i])
continue;
if (service->attributes[i]->handle == handle)
return service->attributes[i];
}
return NULL;
}
static bool find_service_with_uuid(const void *data, const void *user_data)
{
const struct gatt_db_service *service = data;
const bt_uuid_t *uuid = user_data;
bt_uuid_t svc_uuid;
gatt_db_attribute_get_service_uuid(service->attributes[0], &svc_uuid);
return bt_uuid_cmp(uuid, &svc_uuid) == 0;
}
struct gatt_db_attribute *gatt_db_get_service_with_uuid(struct gatt_db *db,
const bt_uuid_t *uuid)
{
struct gatt_db_service *service;
if (!db || !uuid)
return NULL;
service = queue_find(db->services, find_service_with_uuid, uuid);
if (!service)
return NULL;
return service->attributes[0];
}
const bt_uuid_t *gatt_db_attribute_get_type(
const struct gatt_db_attribute *attrib)
{
if (!attrib)
return NULL;
return &attrib->uuid;
}
uint16_t gatt_db_attribute_get_handle(const struct gatt_db_attribute *attrib)
{
if (!attrib)
return 0;
return attrib->handle;
}
bool gatt_db_attribute_get_service_uuid(const struct gatt_db_attribute *attrib,
bt_uuid_t *uuid)
{
struct gatt_db_service *service;
if (!attrib || !uuid)
return false;
service = attrib->service;
if (service->attributes[0]->value_len == sizeof(uint16_t)) {
uint16_t value;
value = get_le16(service->attributes[0]->value);
bt_uuid16_create(uuid, value);
return true;
}
if (service->attributes[0]->value_len == sizeof(uint128_t)) {
uint128_t value;
bswap_128(service->attributes[0]->value, &value);
bt_uuid128_create(uuid, value);
return true;
}
return false;
}
bool gatt_db_attribute_get_service_handles(
const struct gatt_db_attribute *attrib,
uint16_t *start_handle,
uint16_t *end_handle)
{
struct gatt_db_service *service;
if (!attrib)
return false;
service = attrib->service;
gatt_db_service_get_handles(service, start_handle, end_handle);
return true;
}
bool gatt_db_attribute_get_service_data(const struct gatt_db_attribute *attrib,
uint16_t *start_handle,
uint16_t *end_handle,
bool *primary,
bt_uuid_t *uuid)
{
struct gatt_db_service *service;
struct gatt_db_attribute *decl;
if (!attrib)
return false;
service = attrib->service;
decl = service->attributes[0];
gatt_db_service_get_handles(service, start_handle, end_handle);
if (primary)
*primary = bt_uuid_cmp(&decl->uuid, &secondary_service_uuid);
if (!uuid)
return true;
/*
* The service declaration attribute value is the 16 or 128 bit service
* UUID.
*/
return le_to_uuid(decl->value, decl->value_len, uuid);
}
bool gatt_db_attribute_get_char_data(const struct gatt_db_attribute *attrib,
uint16_t *handle,
uint16_t *value_handle,
uint8_t *properties,
bt_uuid_t *uuid)
{
if (!attrib)
return false;
if (bt_uuid_cmp(&characteristic_uuid, &attrib->uuid))
return false;
/*
* Characteristic declaration value:
* 1 octet: Characteristic properties
* 2 octets: Characteristic value handle
* 2 or 16 octets: characteristic UUID
*/
if (!attrib->value || (attrib->value_len != 5 &&
attrib->value_len != 19))
return false;
if (handle)
*handle = attrib->handle;
if (properties)
*properties = attrib->value[0];
if (value_handle)
*value_handle = get_le16(attrib->value + 1);
if (!uuid)
return true;
return le_to_uuid(attrib->value + 3, attrib->value_len - 3, uuid);
}
bool gatt_db_attribute_get_incl_data(const struct gatt_db_attribute *attrib,
uint16_t *handle,
uint16_t *start_handle,
uint16_t *end_handle)
{
if (!attrib)
return false;
if (bt_uuid_cmp(&included_service_uuid, &attrib->uuid))
return false;
/*
* Include definition value:
* 2 octets: start handle of included service
* 2 octets: end handle of included service
* optional 2 octets: 16-bit Bluetooth UUID
*/
if (!attrib->value || attrib->value_len < 4 || attrib->value_len > 6)
return false;
/*
* We only return the handles since the UUID can be easily obtained
* from the corresponding attribute.
*/
if (handle)
*handle = attrib->handle;
if (start_handle)
*start_handle = get_le16(attrib->value);
if (end_handle)
*end_handle = get_le16(attrib->value + 2);
return true;
}
uint32_t
gatt_db_attribute_get_permissions(const struct gatt_db_attribute *attrib)
{
if (!attrib)
return 0;
return attrib->permissions;
}
static bool read_timeout(void *user_data)
{
struct pending_read *p = user_data;
p->timeout_id = 0;
queue_remove(p->attrib->pending_reads, p);
pending_read_result(p, -ETIMEDOUT, NULL, 0);
return false;
}
bool gatt_db_attribute_read(struct gatt_db_attribute *attrib, uint16_t offset,
uint8_t opcode, struct bt_att *att,
gatt_db_attribute_read_t func, void *user_data)
{
uint8_t *value;
if (!attrib || !func)
return false;
if (attrib->read_func) {
struct pending_read *p;
p = new0(struct pending_read, 1);
p->attrib = attrib;
p->id = ++attrib->read_id;
p->timeout_id = timeout_add(ATTRIBUTE_TIMEOUT, read_timeout,
p, NULL);
p->func = func;
p->user_data = user_data;
queue_push_tail(attrib->pending_reads, p);
attrib->read_func(attrib, p->id, offset, opcode, att,
attrib->user_data);
return true;
}
/* Check boundary if value is stored in the db */
if (offset > attrib->value_len) {
func(attrib, BT_ATT_ERROR_INVALID_OFFSET, NULL, 0, user_data);
return true;
}
/* Guard against invalid access if offset equals to value length */
value = offset == attrib->value_len ? NULL : &attrib->value[offset];
func(attrib, 0, value, attrib->value_len - offset, user_data);
return true;
}
static bool find_pending(const void *a, const void *b)
{
const struct pending_read *p = a;
unsigned int id = PTR_TO_UINT(b);
return p->id == id;
}
bool gatt_db_attribute_read_result(struct gatt_db_attribute *attrib,
unsigned int id, int err,
const uint8_t *value, size_t length)
{
struct pending_read *p;
if (!attrib || !id)
return false;
p = queue_remove_if(attrib->pending_reads, find_pending,
UINT_TO_PTR(id));
if (!p)
return false;
pending_read_result(p, err, value, length);
return true;
}
static bool write_timeout(void *user_data)
{
struct pending_write *p = user_data;
p->timeout_id = 0;
queue_remove(p->attrib->pending_writes, p);
pending_write_result(p, -ETIMEDOUT);
return false;
}
bool gatt_db_attribute_write(struct gatt_db_attribute *attrib, uint16_t offset,
const uint8_t *value, size_t len,
uint8_t opcode, struct bt_att *att,
gatt_db_attribute_write_t func,
void *user_data)
{
if (!attrib || !func)
return false;
if (attrib->write_func) {
struct pending_write *p;
p = new0(struct pending_write, 1);
p->attrib = attrib;
p->id = ++attrib->write_id;
p->timeout_id = timeout_add(ATTRIBUTE_TIMEOUT, write_timeout,
p, NULL);
p->func = func;
p->user_data = user_data;
queue_push_tail(attrib->pending_writes, p);
attrib->write_func(attrib, p->id, offset, value, len, opcode,
att, attrib->user_data);
return true;
}
/* Nothing to write just skip */
if (len == 0)
goto done;
/* For values stored in db allocate on demand */
if (!attrib->value || offset >= attrib->value_len ||
len > (unsigned) (attrib->value_len - offset)) {
void *buf;
buf = realloc(attrib->value, len + offset);
if (!buf)
return false;
attrib->value = buf;
/* Init data in the first allocation */
if (!attrib->value_len)
memset(attrib->value, 0, offset);
attrib->value_len = len + offset;
}
memcpy(&attrib->value[offset], value, len);
done:
func(attrib, 0, user_data);
return true;
}
bool gatt_db_attribute_write_result(struct gatt_db_attribute *attrib,
unsigned int id, int err)
{
struct pending_write *p;
if (!attrib || !id)
return false;
p = queue_remove_if(attrib->pending_writes, find_pending,
UINT_TO_PTR(id));
if (!p)
return false;
pending_write_result(p, err);
return true;
}
bool gatt_db_attribute_reset(struct gatt_db_attribute *attrib)
{
if (!attrib)
return false;
if (!attrib->value || !attrib->value_len)
return true;
free(attrib->value);
attrib->value = NULL;
attrib->value_len = 0;
return true;
}