Ejemplo n.º 1
0
/*---------------------------------------------------------------------------
 *            HidStartServiceQuery()
 *---------------------------------------------------------------------------
 *
 * Synopsis:  Initiate the SDP service query for a HID device.
 *
 * Return:    See SDP_Query().
 */
BtStatus HidStartServiceQuery(HidChannel *Channel)
{
    BtStatus status = BT_STATUS_FAILED;
    sdap_service_search_multi_attribute_struct search_pattern;
    ReportDescriptorList* reportDescriptorList = NULL;
    HidParseData*	hpd ;
	
    reportDescriptorList = HidFindReportDescriptorByAddr(Channel->cmgrHandler.remDev->bdAddr);
    if(reportDescriptorList != NULL && Channel->state == HID_STATE_OPEN)
    {
		Channel->queryRsp.descriptorLen = reportDescriptorList->reportDescriptorLength;
		Channel->queryRsp.descriptorList = (U8*)hid_malloc(reportDescriptorList->reportDescriptorLength);
		btmtk_os_memset((U8*) Channel->queryRsp.descriptorList, 0, reportDescriptorList->reportDescriptorLength); 			
		btmtk_os_memcpy((U8*) Channel->queryRsp.descriptorList, reportDescriptorList->reportDescriptor, reportDescriptorList->reportDescriptorLength);
		hpd = (HidParseData*)hid_malloc(sizeof(HidParseData));
		Hid_Init_Parser(hpd);
				Channel->reportCons[0] = (HidReportConstructor*)hid_malloc(HID_REPORT_ID_MAX * sizeof(HidReportConstructor));
		btmtk_os_memset((U8*) Channel->reportCons[0], 0, HID_REPORT_ID_MAX * sizeof(HidReportConstructor));
		
		if(HidAddDescriptor(Channel) == BT_STATUS_SUCCESS)
			bt_prompt_trace(MOD_BT,"[HID]HidAddDescriptor Successed!");
		else
			bt_prompt_trace(MOD_BT,"[HID]HidAddDescriptor failed!");
        
		Hid_Free_Parser(hpd);
		Channel->flags &= ~CHNL_FLAG_SERVICE_QUERY;
		HidSdpCallback(Channel, BT_STATUS_SUCCESS);
		return BT_STATUS_SUCCESS;
    }
    else
    {
	    search_pattern.rm = Channel->cmgrHandler.remDev;
	    search_pattern.sqt = &Channel->sdpQueryToken;
	    search_pattern.uuid = SC_HUMAN_INTERFACE_DEVICE;
	    search_pattern.callback = HidSdpEventHandler;
	    search_pattern.attribute_num = sizeof(bt_hid_attr_id_list)/sizeof(bt_hid_attr_id_list[0]);
	    search_pattern.attribute_id = bt_hid_attr_id_list;
	    status = SDAP_ServiceSearchMultipleAttribute2(search_pattern);
	    return status;
    }
} 
Ejemplo n.º 2
0
U8 Hid_Init_Parser(HidParseData*	tmpHidParser)
{
	//HidParseData*	tmpHidParser = (HidParseData*)hid_malloc(sizeof(HidParseData));
	if(!tmpHidParser)
	{
		bt_prompt_trace(MOD_BT,"[HID]HidParseData hid_malloc error");
		return 0;
	}
	
	tmpHidParser->reportDesc = NULL;
	tmpHidParser->usageQueue = (HidUsage*)hid_malloc(HID_USAGE_MAX * sizeof(HidUsage));
	if(!tmpHidParser->usageQueue)
	{
		bt_prompt_trace(MOD_BT,"[HID]usageQueue hid_malloc error");
		return 0;
	}

	btmtk_os_memset((U8*) tmpHidParser->usageQueue, 0, sizeof(HID_USAGE_MAX * sizeof(HidUsage)));

	tmpHidParser->usageSize = 0;
	tmpHidParser->usageNum = 0;
	tmpHidParser->reportDescLength = 0;
	tmpHidParser->logicalMAX = 0;
	tmpHidParser->logicalMIN = 0;
	tmpHidParser->physicalMAX = 0;
	tmpHidParser->physicalMIN = 0;
	tmpHidParser->reportCount = 0;
	tmpHidParser->reportSize = 0;
	tmpHidParser->reportID = 0;
	tmpHidParser->usagePage = 0;
	tmpHidParser->unitExponent = 0;
	tmpHidParser->unit = 0;

	tmpHidParser->pos = 0;
	tmpHidParser->collectionArray = (HidUsageCollection*)hid_malloc(HID_COLLECTION_MAX * sizeof(HidUsageCollection));
	btmtk_os_memset((HidUsageCollection*) tmpHidParser->collectionArray, 0, sizeof(HID_COLLECTION_MAX * sizeof(HidUsageCollection)));
	tmpHidParser->collectionIndex = 0;
	//return tmpHidParser;
	Hid_Init_KeyArray();
	return 1;
}
Ejemplo n.º 3
0
BtStatus HidCacheReportDescriptor(BD_ADDR addr, U8* HidDescriptorList, U32 length)
{
    U8 i = 0;
	
    for (i = 0; i < HID_MAX_REPORT_DESCRIPTOR_NUM; i++)
    {
        if (!CachedReportDescriptor[i].inUse)
        {
            btmtk_os_memcpy(CachedReportDescriptor[i].BtAddr.addr, addr.addr, 6);
            CachedReportDescriptor[i].inUse = TRUE;
            CachedReportDescriptor[i].reportDescriptor = (U8*)hid_malloc(length);
            if(!CachedReportDescriptor[i].reportDescriptor)
            {
                bt_prompt_trace(MOD_BT,"[HID]CachedReportDescriptor[i].reportDescriptor hid_malloc error");
                return BT_STATUS_FAILED;
            }
            btmtk_os_memset(CachedReportDescriptor[i].reportDescriptor, 0 ,length);
            btmtk_os_memcpy(CachedReportDescriptor[i].reportDescriptor, HidDescriptorList, length);
            CachedReportDescriptor[i].reportDescriptorLength = length;
            break;
        }
    }
    return BT_STATUS_SUCCESS;
}
Ejemplo n.º 4
0
/*---------------------------------------------------------------------------
 *            HidSdpParseDescriptorList()
 *---------------------------------------------------------------------------
 *
 * Synopsis:  Parses the SDP query response for an 16 bit value.
 *
 * Return:    (see SDP_ParseAttributes)
 */
static void HidSdpParseDescriptorList(HidChannel *Channel, U8 *in_value, U16 in_len, U8 result)
{
   // HidParseData	*hpd;
    //hpd = Hid_Init_Parser();

    if (in_value == NULL)
    {
        return;
    }
	
    if (!(Channel->queryRsp.queryFlags & SDPQ_FLAG_DESCRIPTOR_LIST)) {

        if (in_len == 0) {
            return;
        }
        
        //if ((result == BT_STATUS_SDP_CONT_STATE) &&
	     if(Channel->queryRsp.descriptorLenOffset == 0)
        {
            U8 elemType = 0;
            U8 elemSizeDescpt = 0;			
            U8 elemSize = 0;			
            U8 elemAddSize = 0;			
            U8 offset = 0;
            U8 i = 0;
			
            /* Only the first packet is preceded with data element header. The packet
              * in continuation sequence is raw data.
              */

            while (offset + Channel->queryRsp.descriptorLen < in_len) 
            {
                elemType = SDP_GetElemType(in_value[offset]);
                elemSizeDescpt = SDP_GetElemSize(in_value[offset]);
                switch (elemType)
                {
                    case DETD_SEQ:
                        if (elemSizeDescpt == DESD_ADD_8BITS) 
                        {
                            offset = offset + 1;
                        }
                        else if (elemSizeDescpt == DESD_ADD_16BITS) 
                        {
                            offset = offset + 2;
                        }
                        else if (elemSizeDescpt == DESD_ADD_32BITS) 
                        {
                            offset = offset + 4;
                        }
                        break;
						
                    case DETD_UINT:
                        if (elemSizeDescpt > DESD_16BYTES) 
                        {
                            return;
                        }
                        else
                        {
                            elemSize = HidSdpGetValidSize(elemSizeDescpt);
                            offset += elemSize;
                        }
                        break;
						
                    case DETD_TEXT:
                        if (elemSizeDescpt == DESD_ADD_8BITS) 
                        {
                            elemAddSize = 1;
                        }
                        else if (elemSizeDescpt == DESD_ADD_16BITS) 
                        {
                            elemAddSize = 2;
                        }
                        else if (elemSizeDescpt == DESD_ADD_32BITS) 
                        {
                            elemAddSize = 4;
                        }

                        for (i = 0; i < elemAddSize; i++)
                        {
                            Channel->queryRsp.descriptorLen = (Channel->queryRsp.descriptorLen << 8) | (in_value[offset + i + 1]);
                        }
                        offset = offset + elemAddSize;
                        break;
						
                    default:
                        // other data element shall not be come out in HID attribute list						
                        break;
                }

                offset++;
            }

            if((in_len - offset) <= 0)
            {
                return;
            }

            /* Allocate a new buffer */
            Channel->queryRsp.descriptorList = (U8 *)hid_malloc((U32)Channel->queryRsp.descriptorLen);
            if (Channel->queryRsp.descriptorList == NULL)
            {
                return;
            }
            btmtk_os_memset(Channel->queryRsp.descriptorList, 0, Channel->queryRsp.descriptorLen);

            /* Copy whatever data is available */
            btmtk_os_memcpy(Channel->queryRsp.descriptorList, in_value + offset, in_len - offset);
			
            Channel->queryRsp.descriptorLenOffset = in_len - offset;
        }
        else
        {
            btmtk_os_memcpy(Channel->queryRsp.descriptorList + Channel->queryRsp.descriptorLenOffset, 
				        in_value, in_len);

            /* in case that there is more continuation packet */
            Channel->queryRsp.descriptorLenOffset += in_len;		
	/*
	   if(Hid_SdpParse(Channel, hpd) == BT_STATUS_SUCCESS)
		bt_prompt_trace(MOD_BT,"[HID]Successed  SDP parser ");
	   else if(Hid_SdpParse(Channel, hpd) == BT_STATUS_FAILED)
	   	bt_prompt_trace(MOD_BT,"[HID]Failed  SDP parser ");
	   Hid_Free_Parser(hpd);*/
        }

        kal_trace(BT_TRACE_G2_PROFILES,HID_SDP_PARSEATTRIBUTES_SUCCEEDED_BYTES_READ__xD_UPDATED_BUFF_LEN__xD , in_len, Channel->queryRsp.descriptorLenOffset);

        if (result == BT_STATUS_SUCCESS)
        {
            Channel->queryRsp.queryFlags |= SDPQ_FLAG_DESCRIPTOR_LIST;
        }
    }

}
Ejemplo n.º 5
0
void HidSdpEventHandler(SdpQueryToken *sqt, U8 result, U8 attr_idx, U8 *attr_val)
{
    HidChannel     *channel = ContainingRecord(sqt, 
                                               HidChannel, sdpQueryToken);
    ReportDescriptorList* reportDescriptorList = NULL;
    HidParseData*	hpd ;
    kal_trace(BT_TRACE_G2_PROFILES,BT_HID_SDP_QUERY_CALLBACK_x02X ,result);

    switch (result) 
    {
        case BT_STATUS_SDP_CONT_STATE:
            kal_trace(BT_TRACE_G2_PROFILES,HID_SDP_SUCCESSFULLY);
            HidVerifySdpQueryRsp(channel, bt_hid_attr_id_list[attr_idx], attr_val, sqt->availValueLen, result);  
            break;

        case BT_STATUS_SUCCESS:
            HidVerifySdpQueryRsp(channel, bt_hid_attr_id_list[attr_idx], attr_val, sqt->availValueLen, result);
            if (channel->bSDPDiscPending)
            {
                HidClearConnection(channel, result, 0);
            }
            else 
            {
				hpd = (HidParseData*)hid_malloc(sizeof(HidParseData));
				Hid_Init_Parser(hpd);
                		channel->reportCons[0] = (HidReportConstructor*)hid_malloc(HID_REPORT_ID_MAX * sizeof(HidReportConstructor));
				btmtk_os_memset((U8*) channel->reportCons[0], 0, HID_REPORT_ID_MAX * sizeof(HidReportConstructor));

				reportDescriptorList = HidFindReportDescriptorByAddr(channel->cmgrHandler.remDev->bdAddr);
				
				if(reportDescriptorList != NULL )
				{		
					btmtk_os_memset(reportDescriptorList->BtAddr.addr, 0, 6);
					reportDescriptorList->inUse = FALSE;
					hid_free(reportDescriptorList->reportDescriptor);
					reportDescriptorList->reportDescriptorLength = 0;
				}
				
				HidCacheReportDescriptor(channel->cmgrHandler.remDev->bdAddr, channel->queryRsp.descriptorList, channel->queryRsp.descriptorLen);
				
        		if(HidAddDescriptor(channel) == BT_STATUS_SUCCESS)
        			bt_prompt_trace(MOD_BT,"[HID]HidAddDescriptor Successed!");
        		else
        			bt_prompt_trace(MOD_BT,"[HID]HidAddDescriptor failed!");   
                
				Hid_Free_Parser(hpd);
                channel->flags &= ~CHNL_FLAG_SERVICE_QUERY;
                HidSdpCallback(channel, result);
            }
            break;
		case BT_STATUS_NOSERVICES:
			{
				static const U8 HidDescriptorList[] = 
				{
				    HID_DESCRIPTOR
				};
				channel->queryRsp.descriptorLen = HID_DESCRIPTOR_LEN;
				channel->queryRsp.descriptorList = (U8*)hid_malloc(HID_DESCRIPTOR_LEN);
				btmtk_os_memset((U8*) channel->queryRsp.descriptorList, 0, HID_DESCRIPTOR_LEN);				
				btmtk_os_memcpy((U8*) channel->queryRsp.descriptorList, HidDescriptorList, HID_DESCRIPTOR_LEN);
				hpd = (HidParseData*)hid_malloc(sizeof(HidParseData));
				Hid_Init_Parser(hpd);
                		channel->reportCons[0] = (HidReportConstructor*)hid_malloc(HID_REPORT_ID_MAX * sizeof(HidReportConstructor));
				btmtk_os_memset((U8*) channel->reportCons[0], 0, HID_REPORT_ID_MAX * sizeof(HidReportConstructor));

                if(HidAddDescriptor(channel) == BT_STATUS_SUCCESS)
                    bt_prompt_trace(MOD_BT,"[HID]HidAddDescriptor Successed!");
                else
                    bt_prompt_trace(MOD_BT,"[HID]HidAddDescriptor failed!");
                
				Hid_Free_Parser(hpd);
                channel->flags &= ~CHNL_FLAG_SERVICE_QUERY;
                HidSdpCallback(channel, BT_STATUS_SUCCESS);
				break;
			}
        case BT_STATUS_CONNECTION_FAILED:
        case BT_STATUS_FAILED:
        default:
            channel->flags &= ~CHNL_FLAG_SERVICE_QUERY;
            HidClearConnection(channel, result, 0);
            break;
    }

}