Norimasa Okamoto
BTstack Bluetooth stack
USBホストライブラリを変更しました。
- Bluetoothマウス(VGP-BMS33)での動作を確認しました。mouse_demo.cpp
BTstack/sdp.c
- Committer:
- va009039
- Date:
- 2013-03-22
- Revision:
- 2:871b41f4789e
- Parent:
- 0:1ed23ab1345f
File content as of revision 2:871b41f4789e:
/*
* 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
*
*/
/*
* Implementation of the Service Discovery Protocol Server
*/
#include "sdp.h"
#include <stdio.h>
#include <string.h>
#include <btstack/sdp_util.h>
#include "hci_dump.h"
#include "l2cap.h"
#include "debug.h"
// max reserved ServiceRecordHandle
#define maxReservedServiceRecordHandle 0xffff
// max SDP response
#define SDP_RESPONSE_BUFFER_SIZE (HCI_ACL_BUFFER_SIZE-HCI_ACL_HEADER_SIZE)
static void sdp_packet_handler(uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size);
// registered service records
static linked_list_t sdp_service_records = NULL;
// our handles start after the reserved range
static uint32_t sdp_next_service_record_handle = maxReservedServiceRecordHandle + 2;
static uint8_t sdp_response_buffer[SDP_RESPONSE_BUFFER_SIZE];
static void (*app_packet_handler)(void * connection, uint8_t packet_type,
uint16_t channel, uint8_t *packet, uint16_t size) = NULL;
static uint16_t l2cap_cid = 0;
static uint16_t sdp_response_size = 0;
void sdp_init(){
// register with l2cap psm sevices - max MTU
l2cap_register_service_internal(NULL, sdp_packet_handler, PSM_SDP, 0xffff);
}
// register packet handler
void sdp_register_packet_handler(void (*handler)(void * connection, uint8_t packet_type,
uint16_t channel, uint8_t *packet, uint16_t size)){
app_packet_handler = handler;
l2cap_cid = 0;
}
uint32_t sdp_get_service_record_handle(uint8_t * record){
uint8_t * serviceRecordHandleAttribute = sdp_get_attribute_value_for_attribute_id(record, SDP_ServiceRecordHandle);
if (!serviceRecordHandleAttribute) return 0;
if (de_get_element_type(serviceRecordHandleAttribute) != DE_UINT) return 0;
if (de_get_size_type(serviceRecordHandleAttribute) != DE_SIZE_32) return 0;
return READ_NET_32(serviceRecordHandleAttribute, 1);
}
// data: event(8), len(8), status(8), service_record_handle(32)
static void sdp_emit_service_registered(void *connection, uint32_t handle, uint8_t status) {
if (!app_packet_handler) return;
uint8_t event[7];
event[0] = SDP_SERVICE_REGISTERED;
event[1] = sizeof(event) - 2;
event[2] = status;
bt_store_32(event, 3, handle);
hci_dump_packet(HCI_EVENT_PACKET, 0, event, sizeof(event));
(*app_packet_handler)(connection, HCI_EVENT_PACKET, 0, (uint8_t *) event, sizeof(event));
}
service_record_item_t * sdp_get_record_for_handle(uint32_t handle){
linked_item_t *it;
for (it = (linked_item_t *) sdp_service_records; it ; it = it->next){
service_record_item_t * item = (service_record_item_t *) it;
if (item->service_record_handle == handle){
return item;
}
}
return NULL;
}
// get next free, unregistered service record handle
uint32_t sdp_create_service_record_handle(void){
uint32_t handle = 0;
do {
handle = sdp_next_service_record_handle++;
if (sdp_get_record_for_handle(handle)) handle = 0;
} while (handle == 0);
return handle;
}
#ifdef EMBEDDED
// register service record internally - this special version doesn't copy the record, it should not be freeed
// pre: AttributeIDs are in ascending order
// pre: ServiceRecordHandle is first attribute and valid
// pre: record
// @returns ServiceRecordHandle or 0 if registration failed
uint32_t sdp_register_service_internal(void *connection, service_record_item_t * record_item){
// get user record handle
uint32_t record_handle = record_item->service_record_handle;
// get actual record
uint8_t *record = record_item->service_record;
// check for ServiceRecordHandle attribute, returns pointer or null
uint8_t * req_record_handle = sdp_get_attribute_value_for_attribute_id(record, SDP_ServiceRecordHandle);
if (!req_record_handle) {
log_error("SDP Error - record does not contain ServiceRecordHandle attribute\n");
return 0;
}
// validate service record handle is not in reserved range
if (record_handle <= maxReservedServiceRecordHandle) record_handle = 0;
// check if already in use
if (record_handle) {
if (sdp_get_record_for_handle(record_handle)) {
record_handle = 0;
}
}
// create new handle if needed
if (!record_handle){
record_handle = sdp_create_service_record_handle();
// Write the handle back into the record too
record_item->service_record_handle = record_handle;
sdp_set_attribute_value_for_attribute_id(record, SDP_ServiceRecordHandle, record_handle);
}
// add to linked list
linked_list_add(&sdp_service_records, (linked_item_t *) record_item);
sdp_emit_service_registered(connection, 0, record_item->service_record_handle);
return record_handle;
}
#else
// AttributeIDList used to remove ServiceRecordHandle
static const uint8_t removeServiceRecordHandleAttributeIDList[] = { 0x36, 0x00, 0x05, 0x0A, 0x00, 0x01, 0xFF, 0xFF };
// register service record internally - the normal version creates a copy of the record
// pre: AttributeIDs are in ascending order => ServiceRecordHandle is first attribute if present
// @returns ServiceRecordHandle or 0 if registration failed
uint32_t sdp_register_service_internal(void *connection, uint8_t * record){
// dump for now
// printf("Register service record\n");
// de_dump_data_element(record);
// get user record handle
uint32_t record_handle = sdp_get_service_record_handle(record);
// validate service record handle is not in reserved range
if (record_handle <= maxReservedServiceRecordHandle) record_handle = 0;
// check if already in use
if (record_handle) {
if (sdp_get_record_for_handle(record_handle)) {
record_handle = 0;
}
}
// create new handle if needed
if (!record_handle){
record_handle = sdp_create_service_record_handle();
}
// calculate size of new service record: DES (2 byte len)
// + ServiceRecordHandle attribute (UINT16 UINT32) + size of existing attributes
uint16_t recordSize = 3 + (3 + 5) + de_get_data_size(record);
// alloc memory for new service_record_item
service_record_item_t * newRecordItem = (service_record_item_t *) malloc(recordSize + sizeof(service_record_item_t));
if (!newRecordItem) {
sdp_emit_service_registered(connection, 0, BTSTACK_MEMORY_ALLOC_FAILED);
return 0;
}
// link new service item to client connection
newRecordItem->connection = connection;
// set new handle
newRecordItem->service_record_handle = record_handle;
// create updated service record
uint8_t * newRecord = (uint8_t *) &(newRecordItem->service_record);
// create DES for new record
de_create_sequence(newRecord);
// set service record handle
de_add_number(newRecord, DE_UINT, DE_SIZE_16, 0);
de_add_number(newRecord, DE_UINT, DE_SIZE_32, record_handle);
// add other attributes
sdp_append_attributes_in_attributeIDList(record, (uint8_t *) removeServiceRecordHandleAttributeIDList, 0, recordSize, newRecord);
// dump for now
// de_dump_data_element(newRecord);
// printf("reserved size %u, actual size %u\n", recordSize, de_get_len(newRecord));
// add to linked list
linked_list_add(&sdp_service_records, (linked_item_t *) newRecordItem);
sdp_emit_service_registered(connection, 0, newRecordItem->service_record_handle);
return record_handle;
}
#endif
// unregister service record internally
//
// makes sure one client cannot remove service records of other clients
//
void sdp_unregister_service_internal(void *connection, uint32_t service_record_handle){
service_record_item_t * record_item = sdp_get_record_for_handle(service_record_handle);
if (record_item && record_item->connection == connection) {
linked_list_remove(&sdp_service_records, (linked_item_t *) record_item);
}
}
// remove all service record for a client connection
void sdp_unregister_services_for_connection(void *connection){
linked_item_t *it = (linked_item_t *) &sdp_service_records;
while (it->next){
service_record_item_t *record_item = (service_record_item_t *) it->next;
if (record_item->connection == connection){
it->next = it->next->next;
#ifndef EMBEDDED
free(record_item);
#endif
} else {
it = it->next;
}
}
}
// PDU
// PDU ID (1), Transaction ID (2), Param Length (2), Param 1, Param 2, ..
int sdp_create_error_response(uint16_t transaction_id, uint16_t error_code){
sdp_response_buffer[0] = SDP_ErrorResponse;
net_store_16(sdp_response_buffer, 1, transaction_id);
net_store_16(sdp_response_buffer, 3, 2);
net_store_16(sdp_response_buffer, 5, error_code); // invalid syntax
return 7;
}
int sdp_handle_service_search_request(uint8_t * packet, uint16_t remote_mtu){
// get request details
uint16_t transaction_id = READ_NET_16(packet, 1);
// not used yet - uint16_t param_len = READ_NET_16(packet, 3);
uint8_t * serviceSearchPattern = &packet[5];
uint16_t serviceSearchPatternLen = de_get_len(serviceSearchPattern);
uint16_t maximumServiceRecordCount = READ_NET_16(packet, 5 + serviceSearchPatternLen);
uint8_t * continuationState = &packet[5+serviceSearchPatternLen+2];
// calc maxumumServiceRecordCount based on remote MTU
uint16_t maxNrServiceRecordsPerResponse = (remote_mtu - (9+3))/4;
// continuation state contains index of next service record to examine
int continuation = 0;
uint16_t continuation_index = 0;
if (continuationState[0] == 2){
continuation_index = READ_NET_16(continuationState, 1);
}
// get and limit total count
linked_item_t *it;
uint16_t total_service_count = 0;
for (it = (linked_item_t *) sdp_service_records; it ; it = it->next){
service_record_item_t * item = (service_record_item_t *) it;
if (!sdp_record_matches_service_search_pattern(item->service_record, serviceSearchPattern)) continue;
total_service_count++;
}
if (total_service_count > maximumServiceRecordCount){
total_service_count = maximumServiceRecordCount;
}
// ServiceRecordHandleList at 9
uint16_t pos = 9;
uint16_t current_service_count = 0;
uint16_t current_service_index = 0;
uint16_t matching_service_count = 0;
for (it = (linked_item_t *) sdp_service_records; it ; it = it->next, ++current_service_index){
service_record_item_t * item = (service_record_item_t *) it;
if (!sdp_record_matches_service_search_pattern(item->service_record, serviceSearchPattern)) continue;
matching_service_count++;
if (current_service_index < continuation_index) continue;
net_store_32(sdp_response_buffer, pos, item->service_record_handle);
pos += 4;
current_service_count++;
if (matching_service_count >= total_service_count) break;
if (current_service_count >= maxNrServiceRecordsPerResponse){
continuation = 1;
continuation_index = current_service_index + 1;
break;
}
}
// Store continuation state
if (continuation) {
sdp_response_buffer[pos++] = 2;
net_store_16(sdp_response_buffer, pos, continuation_index);
pos += 2;
} else {
sdp_response_buffer[pos++] = 0;
}
// header
sdp_response_buffer[0] = SDP_ServiceSearchResponse;
net_store_16(sdp_response_buffer, 1, transaction_id);
net_store_16(sdp_response_buffer, 3, pos - 5); // size of variable payload
net_store_16(sdp_response_buffer, 5, total_service_count);
net_store_16(sdp_response_buffer, 7, current_service_count);
return pos;
}
int sdp_handle_service_attribute_request(uint8_t * packet, uint16_t remote_mtu){
// get request details
uint16_t transaction_id = READ_NET_16(packet, 1);
// not used yet - uint16_t param_len = READ_NET_16(packet, 3);
uint32_t serviceRecordHandle = READ_NET_32(packet, 5);
uint16_t maximumAttributeByteCount = READ_NET_16(packet, 9);
uint8_t * attributeIDList = &packet[11];
uint16_t attributeIDListLen = de_get_len(attributeIDList);
uint8_t * continuationState = &packet[11+attributeIDListLen];
// calc maximumAttributeByteCount based on remote MTU
uint16_t maximumAttributeByteCount2 = remote_mtu - (7+3);
if (maximumAttributeByteCount2 < maximumAttributeByteCount) {
maximumAttributeByteCount = maximumAttributeByteCount2;
}
// continuation state contains the offset into the complete response
uint16_t continuation_offset = 0;
if (continuationState[0] == 2){
continuation_offset = READ_NET_16(continuationState, 1);
}
// get service record
service_record_item_t * item = sdp_get_record_for_handle(serviceRecordHandle);
if (!item){
// service record handle doesn't exist
return sdp_create_error_response(transaction_id, 0x0002); /// invalid Service Record Handle
}
// AttributeList - starts at offset 7
uint16_t pos = 7;
if (continuation_offset == 0){
// get size of this record
uint16_t filtered_attributes_size = spd_get_filtered_size(item->service_record, attributeIDList);
// store DES
de_store_descriptor_with_len(&sdp_response_buffer[pos], DE_DES, DE_SIZE_VAR_16, filtered_attributes_size);
maximumAttributeByteCount -= 3;
pos += 3;
}
// copy maximumAttributeByteCount from record
uint16_t bytes_used;
int complete = sdp_filter_attributes_in_attributeIDList(item->service_record, attributeIDList, continuation_offset, maximumAttributeByteCount, &bytes_used, &sdp_response_buffer[pos]);
pos += bytes_used;
uint16_t attributeListByteCount = pos - 7;
if (complete) {
sdp_response_buffer[pos++] = 0;
} else {
continuation_offset += bytes_used;
sdp_response_buffer[pos++] = 2;
net_store_16(sdp_response_buffer, pos, continuation_offset);
pos += 2;
}
// header
sdp_response_buffer[0] = SDP_ServiceAttributeResponse;
net_store_16(sdp_response_buffer, 1, transaction_id);
net_store_16(sdp_response_buffer, 3, pos - 5); // size of variable payload
net_store_16(sdp_response_buffer, 5, attributeListByteCount);
return pos;
}
static uint16_t sdp_get_size_for_service_search_attribute_response(uint8_t * serviceSearchPattern, uint8_t * attributeIDList){
uint16_t total_response_size = 0;
linked_item_t *it;
for (it = (linked_item_t *) sdp_service_records; it ; it = it->next){
service_record_item_t * item = (service_record_item_t *) it;
if (!sdp_record_matches_service_search_pattern(item->service_record, serviceSearchPattern)) continue;
// for all service records that match
total_response_size += 3 + spd_get_filtered_size(item->service_record, attributeIDList);
}
return total_response_size;
}
int sdp_handle_service_search_attribute_request(uint8_t * packet, uint16_t remote_mtu){
// SDP header before attribute sevice list: 7
// Continuation, worst case: 5
// get request details
uint16_t transaction_id = READ_NET_16(packet, 1);
// not used yet - uint16_t param_len = READ_NET_16(packet, 3);
uint8_t * serviceSearchPattern = &packet[5];
uint16_t serviceSearchPatternLen = de_get_len(serviceSearchPattern);
uint16_t maximumAttributeByteCount = READ_NET_16(packet, 5 + serviceSearchPatternLen);
uint8_t * attributeIDList = &packet[5+serviceSearchPatternLen+2];
uint16_t attributeIDListLen = de_get_len(attributeIDList);
uint8_t * continuationState = &packet[5+serviceSearchPatternLen+2+attributeIDListLen];
// calc maximumAttributeByteCount based on remote MTU, SDP header and reserved Continuation block
uint16_t maximumAttributeByteCount2 = remote_mtu - 12;
if (maximumAttributeByteCount2 < maximumAttributeByteCount) {
maximumAttributeByteCount = maximumAttributeByteCount2;
}
// continuation state contains: index of next service record to examine
// continuation state contains: byte offset into this service record
uint16_t continuation_service_index = 0;
uint16_t continuation_offset = 0;
if (continuationState[0] == 4){
continuation_service_index = READ_NET_16(continuationState, 1);
continuation_offset = READ_NET_16(continuationState, 3);
}
// printf("--> sdp_handle_service_search_attribute_request, cont %u/%u, max %u\n", continuation_service_index, continuation_offset, maximumAttributeByteCount);
// AttributeLists - starts at offset 7
uint16_t pos = 7;
// add DES with total size for first request
if (continuation_service_index == 0 && continuation_offset == 0){
uint16_t total_response_size = sdp_get_size_for_service_search_attribute_response(serviceSearchPattern, attributeIDList);
de_store_descriptor_with_len(&sdp_response_buffer[pos], DE_DES, DE_SIZE_VAR_16, total_response_size);
// log_info("total response size %u\n", total_response_size);
pos += 3;
maximumAttributeByteCount -= 3;
}
// create attribute list
int first_answer = 1;
int continuation = 0;
uint16_t current_service_index = 0;
linked_item_t *it = (linked_item_t *) sdp_service_records;
for ( ; it ; it = it->next, ++current_service_index){
service_record_item_t * item = (service_record_item_t *) it;
if (current_service_index < continuation_service_index ) continue;
if (!sdp_record_matches_service_search_pattern(item->service_record, serviceSearchPattern)) continue;
if (continuation_offset == 0){
// get size of this record
uint16_t filtered_attributes_size = spd_get_filtered_size(item->service_record, attributeIDList);
// stop if complete record doesn't fits into response but we already have a partial response
if ((filtered_attributes_size + 3 > maximumAttributeByteCount) && !first_answer) {
continuation = 1;
break;
}
// store DES
de_store_descriptor_with_len(&sdp_response_buffer[pos], DE_DES, DE_SIZE_VAR_16, filtered_attributes_size);
pos += 3;
maximumAttributeByteCount -= 3;
}
first_answer = 0;
// copy maximumAttributeByteCount from record
uint16_t bytes_used;
int complete = sdp_filter_attributes_in_attributeIDList(item->service_record, attributeIDList, continuation_offset, maximumAttributeByteCount, &bytes_used, &sdp_response_buffer[pos]);
pos += bytes_used;
maximumAttributeByteCount -= bytes_used;
if (complete) {
continuation_offset = 0;
continue;
}
continuation = 1;
continuation_offset += bytes_used;
break;
}
uint16_t attributeListsByteCount = pos - 7;
// Continuation State
if (continuation){
sdp_response_buffer[pos++] = 4;
net_store_16(sdp_response_buffer, pos, (uint16_t) current_service_index);
pos += 2;
net_store_16(sdp_response_buffer, pos, continuation_offset);
pos += 2;
} else {
// complete
sdp_response_buffer[pos++] = 0;
}
// create SDP header
sdp_response_buffer[0] = SDP_ServiceSearchAttributeResponse;
net_store_16(sdp_response_buffer, 1, transaction_id);
net_store_16(sdp_response_buffer, 3, pos - 5); // size of variable payload
net_store_16(sdp_response_buffer, 5, attributeListsByteCount);
return pos;
}
static void sdp_try_respond(void){
if (!sdp_response_size ) return;
if (!l2cap_cid) return;
if (!l2cap_can_send_packet_now(l2cap_cid)) return;
// update state before sending packet (avoid getting called when new l2cap credit gets emitted)
uint16_t size = sdp_response_size;
sdp_response_size = 0;
l2cap_send_internal(l2cap_cid, sdp_response_buffer, size);
}
// we assume that we don't get two requests in a row
static void sdp_packet_handler(uint8_t packet_type, uint16_t channel, uint8_t *packet, uint16_t size){
uint16_t transaction_id;
SDP_PDU_ID_t pdu_id;
uint16_t remote_mtu;
// uint16_t param_len;
switch (packet_type) {
case L2CAP_DATA_PACKET:
pdu_id = (SDP_PDU_ID_t) packet[0];
transaction_id = READ_NET_16(packet, 1);
// param_len = READ_NET_16(packet, 3);
remote_mtu = l2cap_get_remote_mtu_for_local_cid(channel);
// account for our buffer
if (remote_mtu > SDP_RESPONSE_BUFFER_SIZE){
remote_mtu = SDP_RESPONSE_BUFFER_SIZE;
}
// printf("SDP Request: type %u, transaction id %u, len %u, mtu %u\n", pdu_id, transaction_id, param_len, remote_mtu);
switch (pdu_id){
case SDP_ServiceSearchRequest:
sdp_response_size = sdp_handle_service_search_request(packet, remote_mtu);
break;
case SDP_ServiceAttributeRequest:
sdp_response_size = sdp_handle_service_attribute_request(packet, remote_mtu);
break;
case SDP_ServiceSearchAttributeRequest:
sdp_response_size = sdp_handle_service_search_attribute_request(packet, remote_mtu);
break;
default:
sdp_response_size = sdp_create_error_response(transaction_id, 0x0003); // invalid syntax
break;
}
sdp_try_respond();
break;
case HCI_EVENT_PACKET:
switch (packet[0]) {
case L2CAP_EVENT_INCOMING_CONNECTION:
if (l2cap_cid) {
// CONNECTION REJECTED DUE TO LIMITED RESOURCES
l2cap_decline_connection_internal(channel, 0x0d);
break;
}
// accept
l2cap_cid = channel;
sdp_response_size = 0;
l2cap_accept_connection_internal(channel);
break;
case L2CAP_EVENT_CHANNEL_OPENED:
if (packet[2]) {
// open failed -> reset
l2cap_cid = 0;
}
break;
case L2CAP_EVENT_CREDITS:
case DAEMON_EVENT_HCI_PACKET_SENT:
sdp_try_respond();
break;
case L2CAP_EVENT_CHANNEL_CLOSED:
if (channel == l2cap_cid){
// reset
l2cap_cid = 0;
}
break;
default:
// other event
break;
}
break;
default:
// other packet type
break;
}
}