/* * * BlueZ - Bluetooth protocol stack for Linux * * Copyright (C) 2010 Nokia Corporation * Copyright (C) 2010 Marcel Holtmann * * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include "src/shared/util.h" #include "lib/uuid.h" #include "att.h" #include "gattrib.h" #include "gatt.h" struct discover_primary { int ref; GAttrib *attrib; bt_uuid_t uuid; GSList *primaries; gatt_cb_t cb; void *user_data; }; /* Used for the Included Services Discovery (ISD) procedure */ struct included_discovery { GAttrib *attrib; int refs; int err; uint16_t end_handle; GSList *includes; gatt_cb_t cb; void *user_data; }; struct included_uuid_query { struct included_discovery *isd; struct gatt_included *included; }; struct discover_char { int ref; GAttrib *attrib; bt_uuid_t *uuid; uint16_t end; GSList *characteristics; gatt_cb_t cb; void *user_data; }; struct discover_desc { int ref; GAttrib *attrib; bt_uuid_t *uuid; uint16_t end; GSList *descriptors; gatt_cb_t cb; void *user_data; }; static void discover_primary_unref(void *data) { struct discover_primary *dp = data; dp->ref--; if (dp->ref > 0) return; g_slist_free_full(dp->primaries, g_free); g_attrib_unref(dp->attrib); g_free(dp); } static struct discover_primary *discover_primary_ref( struct discover_primary *dp) { dp->ref++; return dp; } static struct included_discovery *isd_ref(struct included_discovery *isd) { __sync_fetch_and_add(&isd->refs, 1); return isd; } static void isd_unref(struct included_discovery *isd) { if (__sync_sub_and_fetch(&isd->refs, 1) > 0) return; if (isd->err) isd->cb(isd->err, NULL, isd->user_data); else isd->cb(isd->err, isd->includes, isd->user_data); g_slist_free_full(isd->includes, g_free); g_attrib_unref(isd->attrib); g_free(isd); } static void discover_char_unref(void *data) { struct discover_char *dc = data; dc->ref--; if (dc->ref > 0) return; g_slist_free_full(dc->characteristics, g_free); g_attrib_unref(dc->attrib); g_free(dc->uuid); g_free(dc); } static struct discover_char *discover_char_ref(struct discover_char *dc) { dc->ref++; return dc; } static void discover_desc_unref(void *data) { struct discover_desc *dd = data; dd->ref--; if (dd->ref > 0) return; g_slist_free_full(dd->descriptors, g_free); g_attrib_unref(dd->attrib); g_free(dd->uuid); g_free(dd); } static struct discover_desc *discover_desc_ref(struct discover_desc *dd) { dd->ref++; return dd; } static void put_uuid_le(const bt_uuid_t *uuid, void *dst) { if (uuid->type == BT_UUID16) put_le16(uuid->value.u16, dst); else /* Convert from 128-bit BE to LE */ bswap_128(&uuid->value.u128, dst); } static void get_uuid128(uint8_t type, const void *val, bt_uuid_t *uuid) { if (type == BT_UUID16) { bt_uuid_t uuid16; bt_uuid16_create(&uuid16, get_le16(val)); bt_uuid_to_uuid128(&uuid16, uuid); } else { uint128_t u128; /* Convert from 128-bit LE to BE */ bswap_128(val, &u128); bt_uuid128_create(uuid, u128); } } static guint16 encode_discover_primary(uint16_t start, uint16_t end, bt_uuid_t *uuid, uint8_t *pdu, size_t len) { bt_uuid_t prim; guint16 plen; bt_uuid16_create(&prim, GATT_PRIM_SVC_UUID); if (uuid == NULL) { /* Discover all primary services */ plen = enc_read_by_grp_req(start, end, &prim, pdu, len); } else { uint8_t value[16]; size_t vlen; /* Discover primary service by service UUID */ put_uuid_le(uuid, value); vlen = bt_uuid_len(uuid); plen = enc_find_by_type_req(start, end, &prim, value, vlen, pdu, len); } return plen; } static void primary_by_uuid_cb(guint8 status, const guint8 *ipdu, guint16 iplen, gpointer user_data) { struct discover_primary *dp = user_data; GSList *ranges, *last; struct att_range *range; uint8_t *buf; guint16 oplen; int err = 0; size_t buflen; if (status) { err = status == ATT_ECODE_ATTR_NOT_FOUND ? 0 : status; goto done; } ranges = dec_find_by_type_resp(ipdu, iplen); if (ranges == NULL) goto done; dp->primaries = g_slist_concat(dp->primaries, ranges); last = g_slist_last(ranges); range = last->data; if (range->end == 0xffff) goto done; buf = g_attrib_get_buffer(dp->attrib, &buflen); oplen = encode_discover_primary(range->end + 1, 0xffff, &dp->uuid, buf, buflen); if (oplen == 0) goto done; g_attrib_send(dp->attrib, 0, buf, oplen, primary_by_uuid_cb, discover_primary_ref(dp), discover_primary_unref); return; done: dp->cb(err, dp->primaries, dp->user_data); } static void primary_all_cb(guint8 status, const guint8 *ipdu, guint16 iplen, gpointer user_data) { struct discover_primary *dp = user_data; struct att_data_list *list; unsigned int i, err; uint16_t start, end; uint8_t type; if (status) { err = status == ATT_ECODE_ATTR_NOT_FOUND ? 0 : status; goto done; } list = dec_read_by_grp_resp(ipdu, iplen); if (list == NULL) { err = ATT_ECODE_IO; goto done; } if (list->len == 6) type = BT_UUID16; else if (list->len == 20) type = BT_UUID128; else { att_data_list_free(list); err = ATT_ECODE_INVALID_PDU; goto done; } for (i = 0, end = 0; i < list->num; i++) { const uint8_t *data = list->data[i]; struct gatt_primary *primary; bt_uuid_t uuid128; start = get_le16(&data[0]); end = get_le16(&data[2]); get_uuid128(type, &data[4], &uuid128); primary = g_try_new0(struct gatt_primary, 1); if (!primary) { att_data_list_free(list); err = ATT_ECODE_INSUFF_RESOURCES; goto done; } primary->range.start = start; primary->range.end = end; bt_uuid_to_string(&uuid128, primary->uuid, sizeof(primary->uuid)); dp->primaries = g_slist_append(dp->primaries, primary); } att_data_list_free(list); err = 0; if (end != 0xffff) { size_t buflen; uint8_t *buf = g_attrib_get_buffer(dp->attrib, &buflen); guint16 oplen = encode_discover_primary(end + 1, 0xffff, NULL, buf, buflen); g_attrib_send(dp->attrib, 0, buf, oplen, primary_all_cb, discover_primary_ref(dp), discover_primary_unref); return; } done: dp->cb(err, dp->primaries, dp->user_data); } guint gatt_discover_primary(GAttrib *attrib, bt_uuid_t *uuid, gatt_cb_t func, gpointer user_data) { struct discover_primary *dp; size_t buflen; uint8_t *buf = g_attrib_get_buffer(attrib, &buflen); GAttribResultFunc cb; guint16 plen; plen = encode_discover_primary(0x0001, 0xffff, uuid, buf, buflen); if (plen == 0) return 0; dp = g_try_new0(struct discover_primary, 1); if (dp == NULL) return 0; dp->attrib = g_attrib_ref(attrib); dp->cb = func; dp->user_data = user_data; if (uuid) { dp->uuid = *uuid; cb = primary_by_uuid_cb; } else cb = primary_all_cb; return g_attrib_send(attrib, 0, buf, plen, cb, discover_primary_ref(dp), discover_primary_unref); } static void resolve_included_uuid_cb(uint8_t status, const uint8_t *pdu, uint16_t len, gpointer user_data) { struct included_uuid_query *query = user_data; struct included_discovery *isd = query->isd; struct gatt_included *incl = query->included; unsigned int err = status; bt_uuid_t uuid128; size_t buflen; uint8_t *buf; if (err) goto done; buf = g_attrib_get_buffer(isd->attrib, &buflen); if (dec_read_resp(pdu, len, buf, buflen) != 16) { err = ATT_ECODE_IO; goto done; } get_uuid128(BT_UUID128, buf, &uuid128); bt_uuid_to_string(&uuid128, incl->uuid, sizeof(incl->uuid)); isd->includes = g_slist_append(isd->includes, incl); query->included = NULL; done: if (isd->err == 0) isd->err = err; } static void inc_query_free(void *data) { struct included_uuid_query *query = data; isd_unref(query->isd); g_free(query->included); g_free(query); } static guint resolve_included_uuid(struct included_discovery *isd, struct gatt_included *incl) { struct included_uuid_query *query; size_t buflen; uint8_t *buf = g_attrib_get_buffer(isd->attrib, &buflen); guint16 oplen = enc_read_req(incl->range.start, buf, buflen); query = g_new0(struct included_uuid_query, 1); query->isd = isd_ref(isd); query->included = incl; return g_attrib_send(isd->attrib, 0, buf, oplen, resolve_included_uuid_cb, query, inc_query_free); } static struct gatt_included *included_from_buf(const uint8_t *buf, gsize len) { struct gatt_included *incl = g_new0(struct gatt_included, 1); incl->handle = get_le16(&buf[0]); incl->range.start = get_le16(&buf[2]); incl->range.end = get_le16(&buf[4]); if (len == 8) { bt_uuid_t uuid128; get_uuid128(BT_UUID16, &buf[6], &uuid128); bt_uuid_to_string(&uuid128, incl->uuid, sizeof(incl->uuid)); } return incl; } static void find_included_cb(uint8_t status, const uint8_t *pdu, uint16_t len, gpointer user_data); static guint find_included(struct included_discovery *isd, uint16_t start) { bt_uuid_t uuid; size_t buflen; uint8_t *buf = g_attrib_get_buffer(isd->attrib, &buflen); guint16 oplen; bt_uuid16_create(&uuid, GATT_INCLUDE_UUID); oplen = enc_read_by_type_req(start, isd->end_handle, &uuid, buf, buflen); return g_attrib_send(isd->attrib, 0, buf, oplen, find_included_cb, isd_ref(isd), (GDestroyNotify) isd_unref); } static void find_included_cb(uint8_t status, const uint8_t *pdu, uint16_t len, gpointer user_data) { struct included_discovery *isd = user_data; uint16_t last_handle = isd->end_handle; unsigned int err = status; struct att_data_list *list; int i; if (err == ATT_ECODE_ATTR_NOT_FOUND) err = 0; if (status) goto done; list = dec_read_by_type_resp(pdu, len); if (list == NULL) { err = ATT_ECODE_IO; goto done; } if (list->len != 6 && list->len != 8) { err = ATT_ECODE_IO; att_data_list_free(list); goto done; } for (i = 0; i < list->num; i++) { struct gatt_included *incl; incl = included_from_buf(list->data[i], list->len); last_handle = incl->handle; /* 128 bit UUID, needs resolving */ if (list->len == 6) { resolve_included_uuid(isd, incl); continue; } isd->includes = g_slist_append(isd->includes, incl); } att_data_list_free(list); if (last_handle < isd->end_handle) find_included(isd, last_handle + 1); done: if (isd->err == 0) isd->err = err; } unsigned int gatt_find_included(GAttrib *attrib, uint16_t start, uint16_t end, gatt_cb_t func, gpointer user_data) { struct included_discovery *isd; isd = g_new0(struct included_discovery, 1); isd->attrib = g_attrib_ref(attrib); isd->end_handle = end; isd->cb = func; isd->user_data = user_data; return find_included(isd, start); } static void char_discovered_cb(guint8 status, const guint8 *ipdu, guint16 iplen, gpointer user_data) { struct discover_char *dc = user_data; struct att_data_list *list; unsigned int i, err = ATT_ECODE_ATTR_NOT_FOUND; uint16_t last = 0; uint8_t type; if (status) { err = status; goto done; } list = dec_read_by_type_resp(ipdu, iplen); if (list == NULL) { err = ATT_ECODE_IO; goto done; } if (list->len == 7) type = BT_UUID16; else type = BT_UUID128; for (i = 0; i < list->num; i++) { uint8_t *value = list->data[i]; struct gatt_char *chars; bt_uuid_t uuid128; last = get_le16(value); get_uuid128(type, &value[5], &uuid128); if (dc->uuid && bt_uuid_cmp(dc->uuid, &uuid128)) continue; chars = g_try_new0(struct gatt_char, 1); if (!chars) { att_data_list_free(list); err = ATT_ECODE_INSUFF_RESOURCES; goto done; } chars->handle = last; chars->properties = value[2]; chars->value_handle = get_le16(&value[3]); bt_uuid_to_string(&uuid128, chars->uuid, sizeof(chars->uuid)); dc->characteristics = g_slist_append(dc->characteristics, chars); } att_data_list_free(list); if (last != 0 && (last + 1 < dc->end)) { bt_uuid_t uuid; guint16 oplen; size_t buflen; uint8_t *buf; buf = g_attrib_get_buffer(dc->attrib, &buflen); bt_uuid16_create(&uuid, GATT_CHARAC_UUID); oplen = enc_read_by_type_req(last + 1, dc->end, &uuid, buf, buflen); if (oplen == 0) return; g_attrib_send(dc->attrib, 0, buf, oplen, char_discovered_cb, discover_char_ref(dc), discover_char_unref); return; } done: err = (dc->characteristics ? 0 : err); dc->cb(err, dc->characteristics, dc->user_data); } guint gatt_discover_char(GAttrib *attrib, uint16_t start, uint16_t end, bt_uuid_t *uuid, gatt_cb_t func, gpointer user_data) { size_t buflen; uint8_t *buf = g_attrib_get_buffer(attrib, &buflen); struct discover_char *dc; bt_uuid_t type_uuid; guint16 plen; bt_uuid16_create(&type_uuid, GATT_CHARAC_UUID); plen = enc_read_by_type_req(start, end, &type_uuid, buf, buflen); if (plen == 0) return 0; dc = g_try_new0(struct discover_char, 1); if (dc == NULL) return 0; dc->attrib = g_attrib_ref(attrib); dc->cb = func; dc->user_data = user_data; dc->end = end; dc->uuid = g_memdup(uuid, sizeof(bt_uuid_t)); return g_attrib_send(attrib, 0, buf, plen, char_discovered_cb, discover_char_ref(dc), discover_char_unref); } guint gatt_read_char_by_uuid(GAttrib *attrib, uint16_t start, uint16_t end, bt_uuid_t *uuid, GAttribResultFunc func, gpointer user_data) { size_t buflen; uint8_t *buf = g_attrib_get_buffer(attrib, &buflen); guint16 plen; plen = enc_read_by_type_req(start, end, uuid, buf, buflen); if (plen == 0) return 0; return g_attrib_send(attrib, 0, buf, plen, func, user_data, NULL); } struct read_long_data { GAttrib *attrib; GAttribResultFunc func; gpointer user_data; guint8 *buffer; guint16 size; guint16 handle; guint id; int ref; }; static void read_long_destroy(gpointer user_data) { struct read_long_data *long_read = user_data; if (__sync_sub_and_fetch(&long_read->ref, 1) > 0) return; if (long_read->buffer != NULL) g_free(long_read->buffer); g_free(long_read); } static void read_blob_helper(guint8 status, const guint8 *rpdu, guint16 rlen, gpointer user_data) { struct read_long_data *long_read = user_data; uint8_t *buf; size_t buflen; guint8 *tmp; guint16 plen; guint id; if (status != 0 || rlen == 1) { status = 0; goto done; } tmp = g_try_realloc(long_read->buffer, long_read->size + rlen - 1); if (tmp == NULL) { status = ATT_ECODE_INSUFF_RESOURCES; goto done; } memcpy(&tmp[long_read->size], &rpdu[1], rlen - 1); long_read->buffer = tmp; long_read->size += rlen - 1; buf = g_attrib_get_buffer(long_read->attrib, &buflen); if (rlen < buflen) goto done; plen = enc_read_blob_req(long_read->handle, long_read->size - 1, buf, buflen); id = g_attrib_send(long_read->attrib, long_read->id, buf, plen, read_blob_helper, long_read, read_long_destroy); if (id != 0) { __sync_fetch_and_add(&long_read->ref, 1); return; } status = ATT_ECODE_IO; done: long_read->func(status, long_read->buffer, long_read->size, long_read->user_data); } static void read_char_helper(guint8 status, const guint8 *rpdu, guint16 rlen, gpointer user_data) { struct read_long_data *long_read = user_data; size_t buflen; uint8_t *buf = g_attrib_get_buffer(long_read->attrib, &buflen); guint16 plen; guint id; if (status != 0 || rlen < buflen) goto done; long_read->buffer = g_malloc(rlen); if (long_read->buffer == NULL) { status = ATT_ECODE_INSUFF_RESOURCES; goto done; } memcpy(long_read->buffer, rpdu, rlen); long_read->size = rlen; plen = enc_read_blob_req(long_read->handle, rlen - 1, buf, buflen); id = g_attrib_send(long_read->attrib, long_read->id, buf, plen, read_blob_helper, long_read, read_long_destroy); if (id != 0) { __sync_fetch_and_add(&long_read->ref, 1); return; } status = ATT_ECODE_IO; done: long_read->func(status, rpdu, rlen, long_read->user_data); } guint gatt_read_char(GAttrib *attrib, uint16_t handle, GAttribResultFunc func, gpointer user_data) { uint8_t *buf; size_t buflen; guint16 plen; guint id; struct read_long_data *long_read; long_read = g_try_new0(struct read_long_data, 1); if (long_read == NULL) return 0; long_read->attrib = attrib; long_read->func = func; long_read->user_data = user_data; long_read->handle = handle; buf = g_attrib_get_buffer(attrib, &buflen); plen = enc_read_req(handle, buf, buflen); id = g_attrib_send(attrib, 0, buf, plen, read_char_helper, long_read, read_long_destroy); if (id == 0) g_free(long_read); else { __sync_fetch_and_add(&long_read->ref, 1); long_read->id = id; } return id; } struct write_long_data { GAttrib *attrib; GAttribResultFunc func; gpointer user_data; guint16 handle; uint16_t offset; uint8_t *value; size_t vlen; }; static guint execute_write(GAttrib *attrib, uint8_t flags, GAttribResultFunc func, gpointer user_data) { uint8_t *buf; size_t buflen; guint16 plen; buf = g_attrib_get_buffer(attrib, &buflen); plen = enc_exec_write_req(flags, buf, buflen); if (plen == 0) return 0; return g_attrib_send(attrib, 0, buf, plen, func, user_data, NULL); } static guint prepare_write(struct write_long_data *long_write); static void prepare_write_cb(guint8 status, const guint8 *rpdu, guint16 rlen, gpointer user_data) { struct write_long_data *long_write = user_data; if (status != 0) { long_write->func(status, rpdu, rlen, long_write->user_data); return; } /* Skip Prepare Write Response PDU header (5 bytes) */ long_write->offset += rlen - 5; if (long_write->offset == long_write->vlen) { execute_write(long_write->attrib, ATT_WRITE_ALL_PREP_WRITES, long_write->func, long_write->user_data); g_free(long_write->value); g_free(long_write); return; } prepare_write(long_write); } static guint prepare_write(struct write_long_data *long_write) { GAttrib *attrib = long_write->attrib; uint16_t handle = long_write->handle; uint16_t offset = long_write->offset; uint8_t *buf, *value = long_write->value + offset; size_t buflen, vlen = long_write->vlen - offset; guint16 plen; buf = g_attrib_get_buffer(attrib, &buflen); plen = enc_prep_write_req(handle, offset, value, vlen, buf, buflen); if (plen == 0) return 0; return g_attrib_send(attrib, 0, buf, plen, prepare_write_cb, long_write, NULL); } guint gatt_write_char(GAttrib *attrib, uint16_t handle, const uint8_t *value, size_t vlen, GAttribResultFunc func, gpointer user_data) { uint8_t *buf; size_t buflen; struct write_long_data *long_write; buf = g_attrib_get_buffer(attrib, &buflen); /* Use Write Request if payload fits on a single transfer, including 3 * bytes for the header. */ if (vlen <= buflen - 3) { uint16_t plen; plen = enc_write_req(handle, value, vlen, buf, buflen); if (plen == 0) return 0; return g_attrib_send(attrib, 0, buf, plen, func, user_data, NULL); } /* Write Long Characteristic Values */ long_write = g_try_new0(struct write_long_data, 1); if (long_write == NULL) return 0; long_write->attrib = attrib; long_write->func = func; long_write->user_data = user_data; long_write->handle = handle; long_write->value = g_memdup(value, vlen); long_write->vlen = vlen; return prepare_write(long_write); } guint gatt_execute_write(GAttrib *attrib, uint8_t flags, GAttribResultFunc func, gpointer user_data) { return execute_write(attrib, flags, func, user_data); } guint gatt_reliable_write_char(GAttrib *attrib, uint16_t handle, const uint8_t *value, size_t vlen, GAttribResultFunc func, gpointer user_data) { uint8_t *buf; guint16 plen; size_t buflen; buf = g_attrib_get_buffer(attrib, &buflen); plen = enc_prep_write_req(handle, 0, value, vlen, buf, buflen); if (!plen) return 0; return g_attrib_send(attrib, 0, buf, plen, func, user_data, NULL); } guint gatt_exchange_mtu(GAttrib *attrib, uint16_t mtu, GAttribResultFunc func, gpointer user_data) { uint8_t *buf; size_t buflen; guint16 plen; buf = g_attrib_get_buffer(attrib, &buflen); plen = enc_mtu_req(mtu, buf, buflen); return g_attrib_send(attrib, 0, buf, plen, func, user_data, NULL); } static void desc_discovered_cb(guint8 status, const guint8 *ipdu, guint16 iplen, gpointer user_data) { struct discover_desc *dd = user_data; struct att_data_list *list; unsigned int i, err = ATT_ECODE_ATTR_NOT_FOUND; guint8 format; uint16_t last = 0xffff; uint8_t type; gboolean uuid_found = FALSE; if (status) { err = status; goto done; } list = dec_find_info_resp(ipdu, iplen, &format); if (!list) { err = ATT_ECODE_IO; goto done; } if (format == ATT_FIND_INFO_RESP_FMT_16BIT) type = BT_UUID16; else type = BT_UUID128; for (i = 0; i < list->num; i++) { uint8_t *value = list->data[i]; struct gatt_desc *desc; bt_uuid_t uuid128; last = get_le16(value); get_uuid128(type, &value[2], &uuid128); if (dd->uuid) { if (bt_uuid_cmp(dd->uuid, &uuid128)) continue; else uuid_found = TRUE; } desc = g_try_new0(struct gatt_desc, 1); if (!desc) { att_data_list_free(list); err = ATT_ECODE_INSUFF_RESOURCES; goto done; } bt_uuid_to_string(&uuid128, desc->uuid, sizeof(desc->uuid)); desc->handle = last; if (type == BT_UUID16) desc->uuid16 = get_le16(&value[2]); dd->descriptors = g_slist_append(dd->descriptors, desc); if (uuid_found) break; } att_data_list_free(list); if (last + 1 < dd->end && !uuid_found) { guint16 oplen; size_t buflen; uint8_t *buf; buf = g_attrib_get_buffer(dd->attrib, &buflen); oplen = enc_find_info_req(last + 1, dd->end, buf, buflen); if (oplen == 0) return; g_attrib_send(dd->attrib, 0, buf, oplen, desc_discovered_cb, discover_desc_ref(dd), discover_desc_unref); return; } done: err = (dd->descriptors ? 0 : err); dd->cb(err, dd->descriptors, dd->user_data); } guint gatt_discover_desc(GAttrib *attrib, uint16_t start, uint16_t end, bt_uuid_t *uuid, gatt_cb_t func, gpointer user_data) { size_t buflen; uint8_t *buf = g_attrib_get_buffer(attrib, &buflen); struct discover_desc *dd; guint16 plen; plen = enc_find_info_req(start, end, buf, buflen); if (plen == 0) return 0; dd = g_try_new0(struct discover_desc, 1); if (dd == NULL) return 0; dd->attrib = g_attrib_ref(attrib); dd->cb = func; dd->user_data = user_data; dd->end = end; dd->uuid = g_memdup(uuid, sizeof(bt_uuid_t)); return g_attrib_send(attrib, 0, buf, plen, desc_discovered_cb, discover_desc_ref(dd), discover_desc_unref); } guint gatt_write_cmd(GAttrib *attrib, uint16_t handle, const uint8_t *value, int vlen, GDestroyNotify notify, gpointer user_data) { uint8_t *buf; size_t buflen; guint16 plen; buf = g_attrib_get_buffer(attrib, &buflen); plen = enc_write_cmd(handle, value, vlen, buf, buflen); return g_attrib_send(attrib, 0, buf, plen, NULL, user_data, notify); } static sdp_data_t *proto_seq_find(sdp_list_t *proto_list) { sdp_list_t *list; uuid_t proto; sdp_uuid16_create(&proto, ATT_UUID); for (list = proto_list; list; list = list->next) { sdp_list_t *p; for (p = list->data; p; p = p->next) { sdp_data_t *seq = p->data; if (seq && seq->dtd == SDP_UUID16 && sdp_uuid16_cmp(&proto, &seq->val.uuid) == 0) return seq->next; } } return NULL; } static gboolean parse_proto_params(sdp_list_t *proto_list, uint16_t *psm, uint16_t *start, uint16_t *end) { sdp_data_t *seq1, *seq2; if (psm) *psm = sdp_get_proto_port(proto_list, L2CAP_UUID); /* Getting start and end handle */ seq1 = proto_seq_find(proto_list); if (!seq1 || seq1->dtd != SDP_UINT16) return FALSE; seq2 = seq1->next; if (!seq2 || seq2->dtd != SDP_UINT16) return FALSE; if (start) *start = seq1->val.uint16; if (end) *end = seq2->val.uint16; return TRUE; } gboolean gatt_parse_record(const sdp_record_t *rec, uuid_t *prim_uuid, uint16_t *psm, uint16_t *start, uint16_t *end) { sdp_list_t *list; uuid_t uuid; gboolean ret; if (sdp_get_service_classes(rec, &list) < 0) return FALSE; memcpy(&uuid, list->data, sizeof(uuid)); sdp_list_free(list, free); if (sdp_get_access_protos(rec, &list) < 0) return FALSE; ret = parse_proto_params(list, psm, start, end); sdp_list_foreach(list, (sdp_list_func_t) sdp_list_free, NULL); sdp_list_free(list, NULL); /* FIXME: replace by bt_uuid_t after uuid_t/sdp code cleanup */ if (ret && prim_uuid) memcpy(prim_uuid, &uuid, sizeof(uuid_t)); return ret; }