mbed base bard check program for BlueTooth USB dongle module (3 switches, 6 leds, I2C LCD, A/D)
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Diff: BTstack/sdp_util.c
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- 0:1ed23ab1345f
diff -r 000000000000 -r 1ed23ab1345f BTstack/sdp_util.c --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/BTstack/sdp_util.c Tue Jun 26 14:27:45 2012 +0000 @@ -0,0 +1,698 @@ +/* + * Copyright (C) 2009-2012 by Matthias Ringwald + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions + * are met: + * + * 1. Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution. + * 3. Neither the name of the copyright holders nor the names of + * contributors may be used to endorse or promote products derived + * from this software without specific prior written permission. + * 4. Any redistribution, use, or modification is done solely for + * personal benefit and not for any commercial purpose or for + * monetary gain. + * + * THIS SOFTWARE IS PROVIDED BY MATTHIAS RINGWALD AND CONTRIBUTORS + * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS + * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL MATTHIAS + * RINGWALD OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, + * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, + * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS + * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED + * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, + * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF + * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF + * SUCH DAMAGE. + * + * Please inquire about commercial licensing options at btstack@ringwald.ch + * + */ + +/* + * sdp_util.c + */ + +#include <btstack/sdp_util.h> +#include <btstack/utils.h> + +#include <stdio.h> +#include <stdlib.h> +#include <string.h> +#include <stdint.h> +#include <inttypes.h> // PRIx32 + +// workaround for missing PRIx32 on mspgcc (16-bit MCU) +#ifndef PRIx32 +#warning Using own: #define PRIx32 "lx" +#define PRIx32 "lx" +#endif + +// date element type names +const char * const type_names[] = { "NIL", "UINT", "INT", "UUID", "STRING", "BOOL", "DES", "DEA", "URL"}; + +// Bluetooth Base UUID: 00000000-0000-1000-8000- 00805F9B34FB +const uint8_t sdp_bluetooth_base_uuid[] = { 0x00, 0x00, 0x00, 0x00, /* - */ 0x00, 0x00, /* - */ 0x10, 0x00, /* - */ + 0x80, 0x00, /* - */ 0x00, 0x80, 0x5F, 0x9B, 0x34, 0xFB }; + +void sdp_normalize_uuid(uint8_t *uuid, uint32_t shortUUID){ + memcpy(uuid, sdp_bluetooth_base_uuid, 16); + net_store_32(uuid, 0, shortUUID); +} + +// MARK: DataElement getter +de_size_t de_get_size_type(uint8_t *header){ + return (de_size_t) (header[0] & 7); +} + +de_type_t de_get_element_type(uint8_t *header){ + return (de_type_t) (header[0] >> 3); +} + +int de_get_header_size(uint8_t * header){ + de_size_t de_size = de_get_size_type(header); + if (de_size <= DE_SIZE_128) { + return 1; + } + return 1 + (1 << (de_size-DE_SIZE_VAR_8)); +} + +int de_get_data_size(uint8_t * header){ + uint32_t result = 0; + de_type_t de_type = de_get_element_type(header); + de_size_t de_size = de_get_size_type(header); + switch (de_size){ + case DE_SIZE_VAR_8: + result = header[1]; + break; + case DE_SIZE_VAR_16: + result = READ_NET_16(header,1); + break; + case DE_SIZE_VAR_32: + result = READ_NET_32(header,1); + break; + default: + // case DE_SIZE_8: + // case DE_SIZE_16: + // case DE_SIZE_32: + // case DE_SIZE_64: + // case DE_SIZE_128: + if (de_type == DE_NIL) return 0; + return 1 << de_size; + } + return result; +} + +int de_get_len(uint8_t *header){ + return de_get_header_size(header) + de_get_data_size(header); +} + +// @returns: element is valid UUID +int de_get_normalized_uuid(uint8_t *uuid128, uint8_t *element){ + de_type_t uuidType = de_get_element_type(element); + de_size_t uuidSize = de_get_size_type(element); + if (uuidType != DE_UUID) return 0; + uint32_t shortUUID; + switch (uuidSize){ + case DE_SIZE_16: + shortUUID = READ_NET_16(element, 1); + break; + case DE_SIZE_32: + shortUUID = READ_NET_32(element, 1); + break; + case DE_SIZE_128: + memcpy(uuid128, element+1, 16); + return 1; + default: + return 0; + } + sdp_normalize_uuid(uuid128, shortUUID); + return 1; +} + +// functions to create record +static void de_store_descriptor(uint8_t * header, de_type_t type, de_size_t size){ + header[0] = (type << 3) | size; +} + +void de_store_descriptor_with_len(uint8_t * header, de_type_t type, de_size_t size, uint32_t len){ + header[0] = (type << 3) | size; + switch (size){ + case DE_SIZE_VAR_8: + header[1] = len; + break; + case DE_SIZE_VAR_16: + net_store_16(header, 1, len); + break; + case DE_SIZE_VAR_32: + net_store_32(header, 1, len); + break; + default: + break; + } +} + +// MARK: DataElement creation + +/* starts a new sequence in empty buffer - first call */ +void de_create_sequence(uint8_t *header){ + de_store_descriptor_with_len( header, DE_DES, DE_SIZE_VAR_16, 0); // DES, 2 Byte Length +}; + +/* starts a sub-sequence, @returns handle for sub-sequence */ +uint8_t * de_push_sequence(uint8_t *header){ + int element_len = de_get_len(header); + de_store_descriptor_with_len(header+element_len, DE_DES, DE_SIZE_VAR_16, 0); // DES, 2 Byte Length + return header + element_len; +} + +/* closes the current sequence and updates the parent sequence */ +void de_pop_sequence(uint8_t * parent, uint8_t * child){ + int child_len = de_get_len(child); + int data_size_parent = READ_NET_16(parent,1); + net_store_16(parent, 1, data_size_parent + child_len); +} + +/* adds a single number value and 16+32 bit UUID to the sequence */ +void de_add_number(uint8_t *seq, de_type_t type, de_size_t size, uint32_t value){ + int data_size = READ_NET_16(seq,1); + int element_size = 1; // e.g. for DE_TYPE_NIL + de_store_descriptor(seq+3+data_size, type, size); + switch (size){ + case DE_SIZE_8: + if (type != DE_NIL){ + seq[4+data_size] = value; + element_size = 2; + } + break; + case DE_SIZE_16: + net_store_16(seq, 4+data_size, value); + element_size = 3; + break; + case DE_SIZE_32: + net_store_32(seq, 4+data_size, value); + element_size = 5; + break; + default: + break; + } + net_store_16(seq, 1, data_size+element_size); +} + +/* add a single block of data, e.g. as DE_STRING, DE_URL */ +void de_add_data( uint8_t *seq, de_type_t type, uint16_t size, uint8_t *data){ + int data_size = READ_NET_16(seq,1); + if (size > 0xff) { + // use 16-bit lengh information (3 byte header) + de_store_descriptor_with_len(seq+3+data_size, type, DE_SIZE_VAR_16, size); + data_size += 3; + } else { + // use 8-bit lengh information (2 byte header) + de_store_descriptor_with_len(seq+3+data_size, type, DE_SIZE_VAR_8, size); + data_size += 2; + } + memcpy( seq + 3 + data_size, data, size); + data_size += size; + net_store_16(seq, 1, data_size); +} + +void de_add_uuid128(uint8_t * seq, uint8_t * uuid){ + int data_size = READ_NET_16(seq,1); + de_store_descriptor(seq+3+data_size, DE_UUID, DE_SIZE_128); + memcpy( seq + 4 + data_size, uuid, 16); + net_store_16(seq, 1, data_size+1+16); +} + +void sdp_add_attribute(uint8_t *seq, uint16_t attributeID, uint8_t attributeValue){ +} + +// MARK: DataElementSequence traversal +typedef int (*de_traversal_callback_t)(uint8_t * element, de_type_t type, de_size_t size, void *context); +static void de_traverse_sequence(uint8_t * element, de_traversal_callback_t handler, void *context){ + de_type_t type = de_get_element_type(element); + if (type != DE_DES) return; + int pos = de_get_header_size(element); + int end_pos = de_get_len(element); + while (pos < end_pos){ + de_type_t elemType = de_get_element_type(element + pos); + de_size_t elemSize = de_get_size_type(element + pos); + uint8_t done = (*handler)(element + pos, elemType, elemSize, context); + if (done) break; + pos += de_get_len(element + pos); + } +} + +// MARK: AttributeList traversal +typedef int (*sdp_attribute_list_traversal_callback_t)(uint16_t attributeID, uint8_t * attributeValue, de_type_t type, de_size_t size, void *context); +static void sdp_attribute_list_traverse_sequence(uint8_t * element, sdp_attribute_list_traversal_callback_t handler, void *context){ + de_type_t type = de_get_element_type(element); + if (type != DE_DES) return; + int pos = de_get_header_size(element); + int end_pos = de_get_len(element); + while (pos < end_pos){ + de_type_t idType = de_get_element_type(element + pos); + de_size_t idSize = de_get_size_type(element + pos); + if (idType != DE_UINT || idSize != DE_SIZE_16) break; // wrong type + uint16_t attribute_id = READ_NET_16(element, pos + 1); + pos += 3; + if (pos >= end_pos) break; // array out of bounds + de_type_t valueType = de_get_element_type(element + pos); + de_size_t valueSize = de_get_size_type(element + pos); + uint8_t done = (*handler)(attribute_id, element + pos, valueType, valueSize, context); + if (done) break; + pos += de_get_len(element + pos); + } +} + +// MARK: AttributeID in AttributeIDList +// attribute ID in AttributeIDList +// context { result, attributeID } +struct sdp_context_attributeID_search { + int result; + uint16_t attributeID; +}; +static int sdp_traversal_attributeID_search(uint8_t * element, de_type_t type, de_size_t size, void *my_context){ + struct sdp_context_attributeID_search * context = (struct sdp_context_attributeID_search *) my_context; + if (type != DE_UINT) return 0; + switch (size) { + case DE_SIZE_16: + if (READ_NET_16(element, 1) == context->attributeID) { + context->result = 1; + return 1; + } + break; + case DE_SIZE_32: + if (READ_NET_16(element, 1) <= context->attributeID + && context->attributeID <= READ_NET_16(element, 3)) { + context->result = 1; + return 1; + } + break; + default: + break; + } + return 0; +} +int sdp_attribute_list_constains_id(uint8_t *attributeIDList, uint16_t attributeID){ + struct sdp_context_attributeID_search attributeID_search; + attributeID_search.result = 0; + attributeID_search.attributeID = attributeID; + de_traverse_sequence(attributeIDList, sdp_traversal_attributeID_search, &attributeID_search); + return attributeID_search.result; +} + +// MARK: Append Attributes for AttributeIDList +// pre: buffer contains DES with 2 byte length field +struct sdp_context_append_attributes { + uint8_t * buffer; + uint16_t startOffset; // offset of when to start copying + uint16_t maxBytes; + uint16_t usedBytes; + uint8_t *attributeIDList; +}; + +static int sdp_traversal_append_attributes(uint16_t attributeID, uint8_t * attributeValue, de_type_t type, de_size_t size, void *my_context){ + struct sdp_context_append_attributes * context = (struct sdp_context_append_attributes *) my_context; + if (sdp_attribute_list_constains_id(context->attributeIDList, attributeID)) { + // DES_HEADER(3) + DES_DATA + (UINT16(3) + attribute) + uint16_t data_size = READ_NET_16(context->buffer, 1); + int attribute_len = de_get_len(attributeValue); + if (3 + data_size + (3 + attribute_len) <= context->maxBytes) { + // copy Attribute + de_add_number(context->buffer, DE_UINT, DE_SIZE_16, attributeID); + data_size += 3; // 3 bytes + memcpy(context->buffer + 3 + data_size, attributeValue, attribute_len); + net_store_16(context->buffer,1,data_size+attribute_len); + } else { + // not enought space left -> continue with previous element + return 1; + } + } + return 0; +} + +// maxBytes: maximal size of data element sequence +uint16_t sdp_append_attributes_in_attributeIDList(uint8_t *record, uint8_t *attributeIDList, uint16_t startOffset, uint16_t maxBytes, uint8_t *buffer){ + struct sdp_context_append_attributes context; + context.buffer = buffer; + context.maxBytes = maxBytes; + context.usedBytes = 0; + context.startOffset = startOffset; + context.attributeIDList = attributeIDList; + sdp_attribute_list_traverse_sequence(record, sdp_traversal_append_attributes, &context); + return context.usedBytes; +} + +// MARK: Filter attributes that match attribute list from startOffset and a max nr bytes +struct sdp_context_filter_attributes { + uint8_t * buffer; + uint16_t startOffset; // offset of when to start copying + uint16_t maxBytes; + uint16_t usedBytes; + uint8_t *attributeIDList; + int complete; +}; + +// copy data with given start offset and max bytes, returns OK if all data has been copied +static int spd_append_range(struct sdp_context_filter_attributes* context, uint16_t len, uint8_t *data){ + int ok = 1; + uint16_t remainder_len = len - context->startOffset; + if (context->maxBytes < remainder_len){ + remainder_len = context->maxBytes; + ok = 0; + } + memcpy(context->buffer, &data[context->startOffset], remainder_len); + context->usedBytes += remainder_len; + context->buffer += remainder_len; + context->maxBytes -= remainder_len; + context->startOffset = 0; + return ok; +} + +static int sdp_traversal_filter_attributes(uint16_t attributeID, uint8_t * attributeValue, de_type_t type, de_size_t size, void *my_context){ + struct sdp_context_filter_attributes * context = (struct sdp_context_filter_attributes *) my_context; + + if (!sdp_attribute_list_constains_id(context->attributeIDList, attributeID)) return 0; + + // { Attribute ID (Descriptor, big endian 16-bit ID), AttributeValue (data)} + + // handle Attribute ID + if (context->startOffset >= 3){ + context->startOffset -= 3; + } else { + uint8_t idBuffer[3]; + de_store_descriptor(idBuffer, DE_UINT, DE_SIZE_16); + net_store_16(idBuffer,1,attributeID); + + int ok = spd_append_range(context, 3, idBuffer); + if (!ok) { + context->complete = 0; + return 1; + } + } + + // handle Attribute Value + int attribute_len = de_get_len(attributeValue); + if (context->startOffset >= attribute_len) { + context->startOffset -= attribute_len; + return 0; + } + + int ok = spd_append_range(context, attribute_len, attributeValue); + if (!ok) { + context->complete = 0; + return 1; + } + return 0; +} + +int sdp_filter_attributes_in_attributeIDList(uint8_t *record, uint8_t *attributeIDList, uint16_t startOffset, uint16_t maxBytes, uint16_t *usedBytes, uint8_t *buffer){ + + struct sdp_context_filter_attributes context; + context.buffer = buffer; + context.maxBytes = maxBytes; + context.usedBytes = 0; + context.startOffset = startOffset; + context.attributeIDList = attributeIDList; + context.complete = 1; + + sdp_attribute_list_traverse_sequence(record, sdp_traversal_filter_attributes, &context); + + *usedBytes = context.usedBytes; + return context.complete; +} + +// MARK: Get sum of attributes matching attribute list +struct sdp_context_get_filtered_size { + uint8_t *attributeIDList; + uint16_t size; +}; + +static int sdp_traversal_get_filtered_size(uint16_t attributeID, uint8_t * attributeValue, de_type_t type, de_size_t size, void *my_context){ + struct sdp_context_get_filtered_size * context = (struct sdp_context_get_filtered_size *) my_context; + if (sdp_attribute_list_constains_id(context->attributeIDList, attributeID)) { + context->size += 3 + de_get_len(attributeValue); + } + return 0; +} + +int spd_get_filtered_size(uint8_t *record, uint8_t *attributeIDList){ + struct sdp_context_get_filtered_size context; + context.size = 0; + context.attributeIDList = attributeIDList; + sdp_attribute_list_traverse_sequence(record, sdp_traversal_get_filtered_size, &context); + return context.size; +} + +// MARK: Get AttributeValue for AttributeID +// find attribute (ELEMENT) by ID +struct sdp_context_attribute_by_id { + uint16_t attributeID; + uint8_t * attributeValue; +}; +static int sdp_traversal_attribute_by_id(uint16_t attributeID, uint8_t * attributeValue, de_type_t attributeType, de_size_t size, void *my_context){ + struct sdp_context_attribute_by_id * context = (struct sdp_context_attribute_by_id *) my_context; + if (attributeID == context->attributeID) { + context->attributeValue = attributeValue; + return 1; + } + return 0; +} + +uint8_t * sdp_get_attribute_value_for_attribute_id(uint8_t * record, uint16_t attributeID){ + struct sdp_context_attribute_by_id context; + context.attributeValue = NULL; + context.attributeID = attributeID; + sdp_attribute_list_traverse_sequence(record, sdp_traversal_attribute_by_id, &context); + return context.attributeValue; +} + +// MARK: Set AttributeValue for AttributeID +struct sdp_context_set_attribute_for_id { + uint16_t attributeID; + uint32_t attributeValue; + uint8_t attributeFound; +}; +static int sdp_traversal_set_attribute_for_id(uint16_t attributeID, uint8_t * attributeValue, de_type_t attributeType, de_size_t size, void *my_context){ + struct sdp_context_set_attribute_for_id * context = (struct sdp_context_set_attribute_for_id *) my_context; + if (attributeID == context->attributeID) { + context->attributeFound = 1; + switch (size){ + case DE_SIZE_8: + if (attributeType != DE_NIL){ + attributeValue[1] = context->attributeValue; + } + break; + case DE_SIZE_16: + net_store_16(attributeValue, 1, context->attributeValue); + break; + case DE_SIZE_32: + net_store_32(attributeValue, 1, context->attributeValue); + break; + // Might want to support STRINGS to, copy upto original length + default: + break; + } + return 1; + } + return 0; +} +uint8_t sdp_set_attribute_value_for_attribute_id(uint8_t * record, uint16_t attributeID, uint32_t value){ + struct sdp_context_set_attribute_for_id context; + context.attributeID = attributeID; + context.attributeValue = value; + context.attributeFound = 0; + sdp_attribute_list_traverse_sequence(record, sdp_traversal_set_attribute_for_id, &context); + return context.attributeFound; +} + +// MARK: ServiceRecord contains UUID +// service record contains UUID +// context { normalizedUUID } +struct sdp_context_contains_uuid128 { + uint8_t * uuid128; + int result; +}; +int sdp_record_contains_UUID128(uint8_t *record, uint8_t *uuid128); +static int sdp_traversal_contains_UUID128(uint8_t * element, de_type_t type, de_size_t size, void *my_context){ + struct sdp_context_contains_uuid128 * context = (struct sdp_context_contains_uuid128 *) my_context; + uint8_t normalizedUUID[16]; + if (type == DE_UUID){ + uint8_t uuidOK = de_get_normalized_uuid(normalizedUUID, element); + context->result = uuidOK && memcmp(context->uuid128, normalizedUUID, 16) == 0; + } + if (type == DE_DES){ + context->result = sdp_record_contains_UUID128(element, context->uuid128); + } + return context->result; +} +int sdp_record_contains_UUID128(uint8_t *record, uint8_t *uuid128){ + struct sdp_context_contains_uuid128 context; + context.uuid128 = uuid128; + context.result = 0; + de_traverse_sequence(record, sdp_traversal_contains_UUID128, &context); + return context.result; +} + +// MARK: ServiceRecord matches SearchServicePattern +// if UUID in searchServicePattern is not found in record => false +// context { result, record } +struct sdp_context_match_pattern { + uint8_t * record; + int result; +}; +int sdp_traversal_match_pattern(uint8_t * element, de_type_t attributeType, de_size_t size, void *my_context){ + struct sdp_context_match_pattern * context = (struct sdp_context_match_pattern *) my_context; + uint8_t normalizedUUID[16]; + uint8_t uuidOK = de_get_normalized_uuid(normalizedUUID, element); + if (!uuidOK || !sdp_record_contains_UUID128(context->record, normalizedUUID)){ + context->result = 0; + return 1; + } + return 0; +} +int sdp_record_matches_service_search_pattern(uint8_t *record, uint8_t *serviceSearchPattern){ + struct sdp_context_match_pattern context; + context.record = record; + context.result = 1; + de_traverse_sequence(serviceSearchPattern, sdp_traversal_match_pattern, &context); + return context.result; +} + +// MARK: Dump DataElement +// context { indent } +static int de_traversal_dump_data(uint8_t * element, de_type_t de_type, de_size_t de_size, void *my_context){ + int indent = *(int*) my_context; + int i; + for (i=0; i<indent;i++) printf(" "); + int pos = de_get_header_size(element); + int end_pos = de_get_len(element); + printf("type %5s (%u), element len %2u ", type_names[de_type], de_type, end_pos); + if (de_type == DE_DES) { + printf("\n"); + indent++; + de_traverse_sequence(element, de_traversal_dump_data, (void *)&indent); + } else if (de_type == DE_UUID && de_size == DE_SIZE_128) { + printf(", value: "); + printUUID(element+1); + printf("\n"); + } else if (de_type == DE_STRING) { + int len = 0; + switch (de_size){ + case DE_SIZE_VAR_8: + len = element[1]; + break; + case DE_SIZE_VAR_16: + len = READ_NET_16(element, 1); + break; + default: + break; + } + printf("len %u (0x%02x)\n", len, len); + hexdump(&element[pos], len); + } else { + uint32_t value = 0; + switch (de_size) { + case DE_SIZE_8: + if (de_type != DE_NIL){ + value = element[pos]; + } + break; + case DE_SIZE_16: + value = READ_NET_16(element,pos); + break; + case DE_SIZE_32: + value = READ_NET_32(element,pos); + break; + default: + break; + } + printf(", value: 0x%08" PRIx32 "\n", value); + } + return 0; +} + +void de_dump_data_element(uint8_t * record){ + int indent = 0; + // hack to get root DES, too. + de_type_t type = de_get_element_type(record); + de_size_t size = de_get_size_type(record); + de_traversal_dump_data(record, type, size, (void*) &indent); +} + +void sdp_create_spp_service(uint8_t *service, int service_id, const char *name){ + + uint8_t* attribute; + de_create_sequence(service); + + // 0x0000 "Service Record Handle" + de_add_number(service, DE_UINT, DE_SIZE_16, SDP_ServiceRecordHandle); + de_add_number(service, DE_UINT, DE_SIZE_32, 0x10001); + + // 0x0001 "Service Class ID List" + de_add_number(service, DE_UINT, DE_SIZE_16, SDP_ServiceClassIDList); + attribute = de_push_sequence(service); + { + de_add_number(attribute, DE_UUID, DE_SIZE_16, 0x1101 ); + } + de_pop_sequence(service, attribute); + + // 0x0004 "Protocol Descriptor List" + de_add_number(service, DE_UINT, DE_SIZE_16, SDP_ProtocolDescriptorList); + attribute = de_push_sequence(service); + { + uint8_t* l2cpProtocol = de_push_sequence(attribute); + { + de_add_number(l2cpProtocol, DE_UUID, DE_SIZE_16, 0x0100); + } + de_pop_sequence(attribute, l2cpProtocol); + + uint8_t* rfcomm = de_push_sequence(attribute); + { + de_add_number(rfcomm, DE_UUID, DE_SIZE_16, 0x0003); // rfcomm_service + de_add_number(rfcomm, DE_UINT, DE_SIZE_8, service_id); // rfcomm channel + } + de_pop_sequence(attribute, rfcomm); + } + de_pop_sequence(service, attribute); + + // 0x0005 "Public Browse Group" + de_add_number(service, DE_UINT, DE_SIZE_16, SDP_BrowseGroupList); // public browse group + attribute = de_push_sequence(service); + { + de_add_number(attribute, DE_UUID, DE_SIZE_16, 0x1002 ); + } + de_pop_sequence(service, attribute); + + // 0x0006 + de_add_number(service, DE_UINT, DE_SIZE_16, SDP_LanguageBaseAttributeIDList); + attribute = de_push_sequence(service); + { + de_add_number(attribute, DE_UINT, DE_SIZE_16, 0x656e); + de_add_number(attribute, DE_UINT, DE_SIZE_16, 0x006a); + de_add_number(attribute, DE_UINT, DE_SIZE_16, 0x0100); + } + de_pop_sequence(service, attribute); + + // 0x0009 "Bluetooth Profile Descriptor List" + de_add_number(service, DE_UINT, DE_SIZE_16, SDP_BluetoothProfileDescriptorList); + attribute = de_push_sequence(service); + { + uint8_t *sppProfile = de_push_sequence(attribute); + { + de_add_number(sppProfile, DE_UUID, DE_SIZE_16, 0x1101); + de_add_number(sppProfile, DE_UINT, DE_SIZE_16, 0x0100); + } + de_pop_sequence(attribute, sppProfile); + } + de_pop_sequence(service, attribute); + + // 0x0100 "ServiceName" + de_add_number(service, DE_UINT, DE_SIZE_16, 0x0100); + de_add_data(service, DE_STRING, strlen(name), (uint8_t *) name); +}