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/* 
   BlueZ - Bluetooth protocol stack for Linux
   Copyright (C) 2000-2001 Qualcomm Incorporated

   Written 2000,2001 by Maxim Krasnyansky <maxk@qualcomm.com>

   Based on an original SDP implementation by Nokia Corporation.
   Copyright (C) 2001,2002 Nokia Corporation.
   Original author Guruprasad Krishnamurthy <guruprasad.krishnamurthy@nokia.com>

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License version 2 as
   published by the Free Software Foundation;

   THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
   OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
   FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OF THIRD PARTY RIGHTS.
   IN NO EVENT SHALL THE COPYRIGHT HOLDER(S) AND AUTHOR(S) BE LIABLE FOR ANY
   CLAIM, OR ANY SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES, OR ANY DAMAGES 
   WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN 
   ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF 
   OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.

   ALL LIABILITY, INCLUDING LIABILITY FOR INFRINGEMENT OF ANY PATENTS, 
   COPYRIGHTS, TRADEMARKS OR OTHER RIGHTS, RELATING TO USE OF THIS 
   SOFTWARE IS DISCLAIMED.
*/

/*
 * $Id$
 */

#include <stdio.h>
#include <errno.h>
#include <unistd.h>
#include <stdlib.h>
#include <malloc.h>
#include <sys/un.h>
#include <sys/socket.h>

#include <bluetooth.h>
#include <hci.h>
#include <hci_lib.h>
#include <l2cap.h>
#include <sdp.h>
#include <sdp_lib.h>
#include <sdp_internal.h>

#define BASE_UUID "00000000-0000-1000-8000-00805F9B34FB"

static uint128_t *bluetooth_base_uuid = NULL;

/* Message structure. */
struct tupla {
	int index;
	char *str;
};

static struct tupla Protocol[] = {
	{ SDP_UUID,     "SDP"     },
	{ RFCOMM_UUID,  "RFCOMM"  },
	{ TCS_BIN_UUID, "TCS-BIN" },
	{ L2CAP_UUID,   "L2CAP"   },
	{ IP_UUID,      "IP"      },
	{ UDP_UUID,     "UDP"     },
	{ TCP_UUID,     "TCP"     },
	{ TCS_AT_UUID,  "TCS-AT"  },
	{ OBEX_UUID,    "OBEX"    },
	{ FTP_UUID,     "FTP"     },
	{ HTTP_UUID,    "HTTP"    },
	{ WSP_UUID,     "WSP"     },
	{ BNEP_UUID,    "BNEP"    },
	{ 0 }
};

static struct tupla ServiceClass[] = {
	{ SDP_SERVER_SVCLASS_ID,        "SDP Server" },
	{ BROWSE_GRP_DESC_SVCLASS_ID,   "Browse Group Descriptor" },
	{ PUBLIC_BROWSE_GROUP,          "Public Browse Group" },
	{ SERIAL_PORT_SVCLASS_ID,       "Serial Port" },
	{ LAN_ACCESS_SVCLASS_ID,        "LAN Access Using PPP" },
	{ DIALUP_NET_SVCLASS_ID,        "Dialup Networking" },
	{ IRMC_SYNC_SVCLASS_ID,	        "IrMCSync" },
	{ OBEX_OBJPUSH_SVCLASS_ID,      "OBEX Object Push" },
	{ OBEX_FILETRANS_SVCLASS_ID,    "OBEX File Transfer" },
	{ IRMC_SYNC_CMD_SVCLASS_ID,     "IrMCSync Command" },
	{ HEADSET_SVCLASS_ID,           "Headset" },
	{ CORDLESS_TELEPHONY_SVCLASS_ID,"Cordless Telephony" },
	{ INTERCOM_SVCLASS_ID,          "Intercom" },
	{ FAX_SVCLASS_ID,               "Fax" },
	{ HEADSET_AGW_SVCLASS_ID,       "Headset Audio Gateway" },
	{ PNP_INFO_SVCLASS_ID,          "PnP Information" },
	{ GENERIC_NETWORKING_SVCLASS_ID,"Generic Networking" },
	{ GENERIC_FILETRANS_SVCLASS_ID, "Generic File Transfer" },
	{ GENERIC_AUDIO_SVCLASS_ID,     "Generic Audio" },
	{ GENERIC_TELEPHONY_SVCLASS_ID, "Generic Telephony" },
	{ PANU_SVCLASS_ID,              "PAN user" },
	{ NAP_SVCLASS_ID,               "Network access point" },
	{ GN_SVCLASS_ID,                "PAN group network" },
	{ 0 }
};

static struct tupla Profile[] = {
	{ SERIAL_PORT_PROFILE_ID,        "Serial Port" },
	{ LAN_ACCESS_PROFILE_ID,         "LAN Access Using PPP" },
	{ DIALUP_NET_PROFILE_ID,         "Dialup Networking" },
	{ IRMC_SYNC_PROFILE_ID,          "IrMCSync" },
	{ OBEX_OBJPUSH_PROFILE_ID,       "OBEX Object Push" },
	{ OBEX_FILETRANS_PROFILE_ID,     "OBEX File Transfer" },
	{ IRMC_SYNC_CMD_PROFILE_ID,      "IrMCSync Command" },
	{ HEADSET_PROFILE_ID,            "Headset" },
	{ CORDLESS_TELEPHONY_PROFILE_ID, "Cordless Telephony" },
	{ INTERCOM_PROFILE_ID,           "Intercom" },
	{ FAX_PROFILE_ID,                "Fax" },
	{ HEADSET_AGW_PROFILE_ID,        "Headset Audio Gateway" },
	{ PANU_PROFILE_ID,               "PAN user" },
	{ NAP_PROFILE_ID,                "PAN access point" },
	{ GN_PROFILE_ID,                 "PAN group network" },
	{ 0 }
};

static char *string_lookup(struct tupla *pt0, int index)
{
	struct tupla *pt;
	for (pt = pt0; pt->index; pt++)
		if (pt->index == index) 
			return pt->str;
	return "";
}

/*
 * Prints into a string the Protocol UUID
 * coping a maximum of n characters.
 */
static int uuid2str(struct tupla *message, const uuid_t *uuid, char *str, size_t n) 
{
	char *str2;

	if (!uuid) {
		snprintf(str, n, "NULL");
		return -2;
	}
	switch (uuid->type) {
	case SDP_UUID16:
		str2 = string_lookup(message, uuid->value.uuid16);
		snprintf(str, n, str2);
		break;
	case SDP_UUID32:
		snprintf(str, n, "Error: This is uuid32");
		return -3;
	case SDP_UUID128:
		snprintf(str, n, "Error: This is uuid128");
		return -4;
	default:
		snprintf(str, n, "Type of UUID (%x) unknown.", uuid->type);
		return -1;
	}
	return 0;
}

int sdp_proto_uuid2strn(const uuid_t *uuid, char *str, size_t n)
{
	return uuid2str(Protocol, uuid, str, n);
}

int sdp_svclass_uuid2strn(const uuid_t *uuid, char *str, size_t n)
{
	return uuid2str(ServiceClass, uuid, str, n);
}

int sdp_profile_uuid2strn(const uuid_t *uuid, char *str, size_t n)
{
	return uuid2str(Profile, uuid, str, n);
}

/*
 * convert the UUID to string, copying a maximum of n characters.
 */
int sdp_uuid2strn(const uuid_t *uuid, char *str, size_t n)
{
	if (!uuid) {
		snprintf(str, n, "NULL");
		return -2;
	}
	switch (uuid->type) {
	case SDP_UUID16:
		snprintf(str, n, "%.4x", uuid->value.uuid16);
		break;
	case SDP_UUID32:
		snprintf(str, n, "%.8x", uuid->value.uuid32);
		break;
	case SDP_UUID128:{
		unsigned int   data0;
		unsigned short data1;
		unsigned short data2;
		unsigned short data3;
		unsigned int   data4;
		unsigned short data5;

		memcpy(&data0, &uuid->value.uuid128.data[0], 4);
		memcpy(&data1, &uuid->value.uuid128.data[4], 2);
		memcpy(&data2, &uuid->value.uuid128.data[6], 2);
		memcpy(&data3, &uuid->value.uuid128.data[8], 2);
		memcpy(&data4, &uuid->value.uuid128.data[10], 4);
		memcpy(&data5, &uuid->value.uuid128.data[14], 2);

		snprintf(str, n, "%.8x-%.4x-%.4x-%.4x-%.8x%.4x", 
				ntohl(data0), ntohs(data1), 
				ntohs(data2), ntohs(data3), 
				ntohl(data4), ntohs(data5));
		}
		break;
	default:
		snprintf(str, n, "Type of UUID (%x) unknown.", uuid->type);
		return -1;	// Enum type of UUID not set
	}
	return 0;
}

#ifdef SDP_DEBUG
/*
 * Function prints the UUID in hex as per defined syntax -
 *
 * 4bytes-2bytes-2bytes-2bytes-6bytes
 *
 * There is some ugly code, including hardcoding, but
 * that is just the way it is converting 16 and 32 bit
 * UUIDs to 128 bit as defined in the SDP doc
 */
void sdp_uuid_print(const uuid_t *uuid)
{
	if (uuid == NULL) {
		SDPERR("Null passed to print UUID\n");
		return;
	}
	if (uuid->type == SDP_UUID16) {
		SDPDBG("  uint16_t : 0x%.4x\n", uuid->value.uuid16);
	} else if (uuid->type == SDP_UUID32) {
		SDPDBG("  uint32_t : 0x%.8x\n", uuid->value.uuid32);
	} else if (uuid->type == SDP_UUID128) {
		unsigned int data0;
		unsigned short data1;
		unsigned short data2;
		unsigned short data3;
		unsigned int data4;
		unsigned short data5;

		memcpy(&data0, &uuid->value.uuid128.data[0], 4);
		memcpy(&data1, &uuid->value.uuid128.data[4], 2);
		memcpy(&data2, &uuid->value.uuid128.data[6], 2);
		memcpy(&data3, &uuid->value.uuid128.data[8], 2);
		memcpy(&data4, &uuid->value.uuid128.data[10], 4);
		memcpy(&data5, &uuid->value.uuid128.data[14], 2);

		SDPDBG("  uint128_t : 0x%.8x-", ntohl(data0));
		SDPDBG("%.4x-", ntohs(data1));
		SDPDBG("%.4x-", ntohs(data2));
		SDPDBG("%.4x-", ntohs(data3));
		SDPDBG("%.8x", ntohl(data4));
		SDPDBG("%.4x\n", ntohs(data5));
	} else
		SDPERR("Enum type of UUID not set\n");
}
#endif

sdp_data_t *sdp_data_alloc(uint8_t dtd, const void *value)
{
	sdp_data_t *seq;
	int len = 0;
	sdp_data_t *d = (sdp_data_t *)malloc(sizeof(sdp_data_t));

	if (!d)
		return NULL;

	memset(d, 0, sizeof(sdp_data_t));
	d->dtd = dtd;
	d->unitSize = sizeof(uint8_t);

	switch (dtd) {
	case SDP_DATA_NIL:
		break;
	case SDP_UINT8:
		d->val.uint8 = *(uint8_t *)value;
		d->unitSize += sizeof(uint8_t);
		break;
	case SDP_INT8:
	case SDP_BOOL:
		d->val.int8 = *(int8_t *)value;
		d->unitSize += sizeof(int8_t);
		break;
	case SDP_UINT16:
		d->val.uint16 = sdp_get_unaligned((uint16_t *)value);
		d->unitSize += sizeof(uint16_t);
		break;
	case SDP_INT16:
		d->val.int16 = sdp_get_unaligned((int16_t *)value);
		d->unitSize += sizeof(int16_t);
		break;
	case SDP_UINT32:
		d->val.uint32 = sdp_get_unaligned((uint32_t *)value);
		d->unitSize += sizeof(uint32_t);
		break;
	case SDP_INT32:
		d->val.int32 = sdp_get_unaligned((int32_t *)value);
		d->unitSize += sizeof(int32_t);
		break;
	case SDP_INT64:
		d->val.int64 = sdp_get_unaligned((int64_t *)value);
		d->unitSize += sizeof(int64_t);
		break;
	case SDP_UINT64:
		d->val.uint64 = sdp_get_unaligned((uint64_t *)value);
		d->unitSize += sizeof(uint64_t);
		break;
	case SDP_UINT128:
		memcpy(&d->val.uint128.data, value, sizeof(uint128_t));
		d->unitSize += sizeof(uint128_t);
		break;
	case SDP_INT128:
		memcpy(&d->val.int128.data, value, sizeof(uint128_t));
		d->unitSize += sizeof(uint128_t);
		break;
	case SDP_UUID16:
		sdp_uuid16_create(&d->val.uuid, sdp_get_unaligned((uint16_t *)value));
		d->unitSize += sizeof(uint16_t);
		break;
	case SDP_UUID32:
		sdp_uuid32_create(&d->val.uuid, sdp_get_unaligned((uint32_t *)value));
		d->unitSize += sizeof(uint32_t);
		break;
	case SDP_UUID128:
		sdp_uuid128_create(&d->val.uuid, value);
		d->unitSize += sizeof(uint128_t);
		break;
	case SDP_URL_STR8:
	case SDP_TEXT_STR8:
	case SDP_URL_STR16:
	case SDP_TEXT_STR16:
		if (!value)
			goto out_error;

		len = strlen(value);
		d->unitSize += len;
		if (len <= USHRT_MAX) {
			d->val.str = (char *)malloc(len + 1);
			if (!d->val.str)
				goto out_error;

			strcpy(d->val.str, value);
			if (len <= UCHAR_MAX) {
				d->unitSize += sizeof(uint8_t);
				if (dtd != SDP_URL_STR8 && dtd != SDP_TEXT_STR8) {
					if (dtd == SDP_URL_STR16)
						dtd = SDP_URL_STR8;
					else
						dtd = SDP_TEXT_STR8;
				}
			} else {
				d->unitSize += sizeof(uint16_t);
				if (dtd == SDP_TEXT_STR8)
					dtd = SDP_TEXT_STR16;
				else
					dtd = SDP_URL_STR16;
			}
		} else {
			SDPERR("Strings of size > USHRT_MAX not supported\n");
			goto out_error;
		}
		break;
	case SDP_URL_STR32:
	case SDP_TEXT_STR32:
		SDPERR("Strings of size > USHRT_MAX not supported\n");
		break;
	case SDP_ALT8:
	case SDP_ALT16:
	case SDP_ALT32:
	case SDP_SEQ8:
	case SDP_SEQ16:
	case SDP_SEQ32:
		if (dtd == SDP_ALT8 || dtd == SDP_SEQ8)
			d->unitSize += sizeof(uint8_t);
		else if (dtd == SDP_ALT16 || dtd == SDP_SEQ16)
			d->unitSize += sizeof(uint16_t);
		else if (dtd == SDP_ALT32 || dtd == SDP_SEQ32)
			d->unitSize += sizeof(uint32_t);
		seq = (sdp_data_t *)value;
		d->val.dataseq = seq;
		for (; seq; seq = seq->next)
			d->unitSize += seq->unitSize;
		break;
	default:
		goto out_error;
	}
	return d;

out_error:
	free(d);
	return NULL;
}

sdp_data_t *sdp_seq_append(sdp_data_t *seq, sdp_data_t *d)
{
	if (seq) {
		sdp_data_t *p;
		for (p = seq; p->next; p = p->next);
		p->next = d;
	} else
		seq = d;
	d->next = NULL;
	return seq;
}

sdp_data_t *sdp_seq_alloc(void **dtds, void **values, int len)
{
	sdp_data_t *curr = NULL, *seq = NULL;
	int i;

	for (i = 0; i < len; i++) {
		sdp_data_t *data;
		uint8_t dtd = *(uint8_t *)dtds[i];
		if (dtd >= SDP_SEQ8 && dtd <= SDP_ALT32)
			data = (sdp_data_t *)values[i];
		else
			data = sdp_data_alloc(dtd, values[i]);
		if (!data)
			return NULL;
		if (curr)
			curr->next = data;
		else
			seq = data;
		curr = data;
	}
	return sdp_data_alloc(SDP_SEQ8, seq);
}

int sdp_attr_add(sdp_record_t *rec, uint16_t attr, sdp_data_t *d)
{
	sdp_data_t *p = sdp_data_get(rec, attr);

	if (p)
		return -1;
	d->attrId = attr;
	rec->attrlist = sdp_list_insert_sorted(rec->attrlist, d, sdp_attrid_comp_func);
	return 0;
}

void sdp_attr_remove(sdp_record_t *rec, uint16_t attr)
{
	sdp_data_t *d = sdp_data_get(rec, attr);
	if (d)
		rec->attrlist = sdp_list_remove(rec->attrlist, d);
}

void sdp_set_seq_len(char *ptr, int length)
{
	uint8_t dtd = *(uint8_t *)ptr++;

	switch (dtd) {
	case SDP_SEQ8:
	case SDP_ALT8:
	case SDP_TEXT_STR8:
	case SDP_URL_STR8:
		*(uint8_t *)ptr = (uint8_t)length;
		break;
	case SDP_SEQ16:
	case SDP_ALT16:
	case SDP_TEXT_STR16:
	case SDP_URL_STR16:
		sdp_put_unaligned(htons(length), (uint16_t *)ptr);
		break;
	case SDP_SEQ32:
	case SDP_ALT32:
	case SDP_TEXT_STR32:
	case SDP_URL_STR32:
		sdp_put_unaligned(htons(length), (uint32_t *)ptr);
		break;
	}
}

int sdp_set_data_type(sdp_buf_t *buf, uint8_t dtd)
{
	int orig = buf->data_size;
	uint8_t *p = buf->data + buf->data_size;

	*p++ = dtd;
	buf->data_size += sizeof(uint8_t);
	switch (dtd) {
	case SDP_SEQ8:
	case SDP_TEXT_STR8:
	case SDP_URL_STR8:
	case SDP_ALT8:
		buf->data_size += sizeof(uint8_t);
		break;
	case SDP_SEQ16:
	case SDP_TEXT_STR16:
	case SDP_URL_STR16:
	case SDP_ALT16:
		buf->data_size += sizeof(uint16_t);
		break;
	case SDP_SEQ32:
	case SDP_TEXT_STR32:
	case SDP_URL_STR32:
	case SDP_ALT32:
		buf->data_size += sizeof(uint32_t);
		break;
	}
	return buf->data_size - orig;
}

void sdp_set_attrid(sdp_buf_t *buf, uint16_t attr)
{
	uint8_t *p = buf->data;

	// data type for attr
	*p++ = SDP_UINT16;
	buf->data_size = sizeof(uint8_t);
	sdp_put_unaligned(htons(attr), (uint16_t *)p);
	p += sizeof(uint16_t);
	buf->data_size += sizeof(uint16_t);
}

static int get_data_size(sdp_buf_t *buf, sdp_data_t *sdpdata)
{
	sdp_data_t *d;
	int n = 0;

	for (d = sdpdata->val.dataseq; d; d = d->next)
		n += sdp_gen_pdu(buf, d);
	return n;
}

int sdp_gen_pdu(sdp_buf_t *buf, sdp_data_t *d)
{
	int pdu_size = 0, data_size = 0;
	unsigned char *src = NULL, is_seq = 0, is_alt = 0;
	uint8_t dtd = d->dtd;
	uint16_t u16;
	uint32_t u32;
	uint64_t u64;
	uint128_t u128;
	char *seqp = buf->data + buf->data_size;

	pdu_size = sdp_set_data_type(buf, dtd);
	switch (dtd) {
	case SDP_DATA_NIL:
		break;
	case SDP_UINT8:
		src = &d->val.uint8;
		data_size = sizeof(uint8_t);
		break;
	case SDP_UINT16:
		u16 = htons(d->val.uint16);
		src = (unsigned char *)&u16;
		data_size = sizeof(uint16_t);
		break;
	case SDP_UINT32:
		u32 = htonl(d->val.uint32);
		src = (unsigned char *)&u32;
		data_size = sizeof(uint32_t);
		break;
	case SDP_UINT64:
		u64 = hton64(d->val.uint64);
		src = (unsigned char *)&u64;
		data_size = sizeof(uint64_t);
		break;
	case SDP_UINT128:
		hton128(&d->val.uint128, &u128);
		src = (unsigned char *)&u128;
		data_size = sizeof(uint128_t);
		break;
	case SDP_INT8:
	case SDP_BOOL:
		src = (unsigned char *)&d->val.int8;
		data_size = sizeof(int8_t);
		break;
	case SDP_INT16:
		u16 = htons(d->val.int16);
		src = (unsigned char *)&u16;
		data_size = sizeof(int16_t);
		break;
	case SDP_INT32:
		u32 = htonl(d->val.int32);
		src = (unsigned char *)&u32;
		data_size = sizeof(int32_t);
		break;
	case SDP_INT64:
		u64 = hton64(d->val.int64);
		src = (unsigned char *)&u64;
		data_size = sizeof(int64_t);
		break;
	case SDP_INT128:
		hton128(&d->val.int128, &u128);
		src = (unsigned char *)&u128;
		data_size = sizeof(uint128_t);
		break;
	case SDP_TEXT_STR8:
	case SDP_URL_STR8:
	case SDP_TEXT_STR16:
	case SDP_TEXT_STR32:
	case SDP_URL_STR16:
	case SDP_URL_STR32:
		src = (unsigned char *)d->val.str;
		data_size = strlen(d->val.str);
		sdp_set_seq_len(seqp, data_size);
		break;
	case SDP_SEQ8:
	case SDP_SEQ16:
	case SDP_SEQ32:
		is_seq = 1;
		data_size = get_data_size(buf, d);
		sdp_set_seq_len(seqp, data_size);
		break;
	case SDP_ALT8:
	case SDP_ALT16:
	case SDP_ALT32:
		is_alt = 1;
		data_size = get_data_size(buf, d);
		sdp_set_seq_len(seqp, data_size);
		break;
	case SDP_UUID16:
		u16 = htons(d->val.uuid.value.uuid16);
		src = (unsigned char *)&u16;
		data_size = sizeof(uint16_t);
		break;
	case SDP_UUID32:
		u32 = htonl(d->val.uuid.value.uuid32);
		src = (unsigned char *)&u32;
		data_size = sizeof(uint32_t);
		break;
	case SDP_UUID128:
		src = (unsigned char *)&d->val.uuid.value.uuid128;
		data_size = sizeof(uint128_t);
		break;
	default:
		break;
	}
	if (!is_seq && !is_alt) {
		if (src && buf) {
			memcpy(buf->data + buf->data_size, src, data_size);
			buf->data_size += data_size;
		} else if (dtd != SDP_DATA_NIL)
			SDPDBG("Gen PDU : Cant copy from NULL source or dest\n");
	}
	pdu_size += data_size;
	return pdu_size;
}

static void sdp_attr_pdu(void *value, void *udata)
{
	sdp_append_to_pdu((sdp_buf_t *)udata, (sdp_data_t *)value);
}

int sdp_gen_record_pdu(const sdp_record_t *rec, sdp_buf_t *buf)
{
	buf->data = (char *)malloc(SDP_PDU_CHUNK_SIZE);
	if (buf->data) {
		buf->buf_size = SDP_PDU_CHUNK_SIZE;
		buf->data_size = 0;
		memset(buf->data, 0, buf->buf_size);
		sdp_list_foreach(rec->attrlist, sdp_attr_pdu, buf);
		return 0;
	}
	return -1;
}

void sdp_attr_replace(sdp_record_t *rec, uint16_t attr, sdp_data_t *d)
{
	sdp_data_t *p = sdp_data_get(rec, attr);

	if (p) {
		rec->attrlist = sdp_list_remove(rec->attrlist, p);
		sdp_data_free(p);
	}
	d->attrId = attr;
	rec->attrlist = sdp_list_insert_sorted(rec->attrlist, (void *)d, sdp_attrid_comp_func);
}

int sdp_attrid_comp_func(const void *key1, const void *key2)
{
	const sdp_data_t *d1 = (const sdp_data_t *)key1;
	const sdp_data_t *d2 = (const sdp_data_t *)key2;

	if (d1 && d2)
		return d1->attrId - d2->attrId;
	return 0;
}

static void data_seq_free(sdp_data_t *seq)
{
	sdp_data_t *d = seq->val.dataseq;

	while (d) {
		sdp_data_t *next = d->next;
		sdp_data_free(d);
		d = next;
	}
}

void sdp_data_free(sdp_data_t *d)
{
	switch (d->dtd) {
	case SDP_SEQ8:
	case SDP_SEQ16:
	case SDP_SEQ32:
		data_seq_free(d);
		break;
	case SDP_URL_STR8:
	case SDP_URL_STR16:
	case SDP_URL_STR32:
	case SDP_TEXT_STR8:
	case SDP_TEXT_STR16:
	case SDP_TEXT_STR32:
		free(d->val.str);
		break;
	}
	free(d);
}

static sdp_data_t *extract_int(const void *p, int *len)
{
	sdp_data_t *d = (sdp_data_t *)malloc(sizeof(sdp_data_t));

	SDPDBG("Extracting integer\n");
	memset(d, 0, sizeof(sdp_data_t));
	d->dtd = *(uint8_t *)p;
	p += sizeof(uint8_t);
	*len += sizeof(uint8_t);

	switch (d->dtd) {
	case SDP_DATA_NIL:
		break;
	case SDP_BOOL:
	case SDP_INT8:
	case SDP_UINT8:
		*len += sizeof(uint8_t);
		d->val.uint8 = *(uint8_t *)p;
		break;
	case SDP_INT16:
	case SDP_UINT16:
		*len += sizeof(uint16_t);
		d->val.uint16 = ntohs(sdp_get_unaligned((uint16_t *)p));
		break;
	case SDP_INT32:
	case SDP_UINT32:
		*len += sizeof(uint32_t);
		d->val.uint32 = ntohl(sdp_get_unaligned((uint32_t *)p));
		break;
	case SDP_INT64:
	case SDP_UINT64:
		*len += sizeof(uint64_t);
		d->val.uint64 = ntoh64(sdp_get_unaligned((uint64_t *)p));
		break;
	case SDP_INT128:
	case SDP_UINT128:
		*len += sizeof(uint128_t);
		ntoh128((uint128_t *)p, &d->val.uint128);
		break;
	default:
		free(d);
		d = NULL;
	}
	return d;
}

static sdp_data_t *extract_uuid(const void *p, int *len, sdp_record_t *rec)
{
	sdp_data_t *d = (sdp_data_t *)malloc(sizeof(sdp_data_t));

	SDPDBG("Extracting UUID");
	memset(d, 0, sizeof(sdp_data_t));
	if (0 > sdp_uuid_extract(p, &d->val.uuid, len)) {
		free(d);
		return NULL;
	}
	d->dtd = *(uint8_t *)p;
	sdp_pattern_add_uuid(rec, &d->val.uuid);
	return d;
}

/*
 * Extract strings from the PDU (could be service description and similar info) 
 */
static sdp_data_t *extract_str(const void *p, int *len)
{
	char *s;
	int n;
	sdp_data_t *d = (sdp_data_t *)malloc(sizeof(sdp_data_t));

	memset(d, 0, sizeof(sdp_data_t));
	d->dtd = *(uint8_t *)p;
	p += sizeof(uint8_t);
	*len += sizeof(uint8_t);

	switch (d->dtd) {
	case SDP_TEXT_STR8:
	case SDP_URL_STR8:
		n = *(uint8_t *)p;
		p += sizeof(uint8_t);
		*len += sizeof(uint8_t) + n;
		break;
	case SDP_TEXT_STR16:
	case SDP_URL_STR16:
		n = ntohs(sdp_get_unaligned((uint16_t *)p));
		p += sizeof(uint16_t);
		*len += sizeof(uint16_t) + n;
		break;
	default:
		SDPERR("Sizeof text string > UINT16_MAX\n");
		free(d);
		return 0;
	}

	s = (char *)malloc(n + 1);
	memset(s, 0, n + 1);
	strncpy(s, p, n);

	SDPDBG("Len : %d\n", n);
	SDPDBG("Str : %s\n", s);

	d->val.str = s;
	return d;
}

static sdp_data_t *extract_seq(const void *p, int *len, sdp_record_t *rec)
{
	int seqlen, n = 0;
	sdp_data_t *curr, *prev;
	sdp_data_t *d = (sdp_data_t *)malloc(sizeof(sdp_data_t));

	SDPDBG("Extracting SEQ");
	memset(d, 0, sizeof(sdp_data_t));
	*len = sdp_extract_seqtype(p, &d->dtd, &seqlen);
	SDPDBG("Sequence Type : 0x%x length : 0x%x\n", d->dtd, seqlen);

	if (*len == 0)
		return d;

	p += *len;
	curr = prev = NULL;
	while (n < seqlen) {
		int attrlen = 0;
		curr = sdp_extract_attr(p, &attrlen, rec);
		if (curr == NULL)
			break;

		if (prev)
			prev->next = curr;
		else
			d->val.dataseq = curr;
		prev = curr;
		p += attrlen;
		n += attrlen;

		SDPDBG("Extracted: %d SequenceLength: %d", n, seqlen);
	}

	*len += n;
	return d;
}

sdp_data_t *sdp_extract_attr(const char *p, int *size, sdp_record_t *rec)
{
	sdp_data_t *elem;
	int n = 0;
	uint8_t dtd = *(const uint8_t *)p;

	SDPDBG("extract_attr: dtd=0x%x", dtd);
	switch (dtd) {
	case SDP_DATA_NIL:
	case SDP_BOOL:
	case SDP_UINT8:
	case SDP_UINT16:
	case SDP_UINT32:
	case SDP_UINT64:
	case SDP_UINT128:
	case SDP_INT8:
	case SDP_INT16:
	case SDP_INT32:
	case SDP_INT64:
	case SDP_INT128:
		elem = extract_int(p, &n);
		break;
	case SDP_UUID16:
	case SDP_UUID32:
	case SDP_UUID128:
		elem = extract_uuid(p, &n, rec);
		break;
	case SDP_TEXT_STR8:
	case SDP_TEXT_STR16:
	case SDP_TEXT_STR32:
	case SDP_URL_STR8:
	case SDP_URL_STR16:
	case SDP_URL_STR32:
		elem = extract_str(p, &n);
		break;
	case SDP_SEQ8:
	case SDP_SEQ16:
	case SDP_SEQ32:
	case SDP_ALT8:
	case SDP_ALT16:
	case SDP_ALT32:
		elem = extract_seq(p, &n, rec);
		break;
	default:
		SDPERR("Unknown data descriptor : 0x%x terminating\n", dtd);
		return NULL;
	}
	*size += n;
	return elem;
}

#ifdef SDP_DEBUG
static void attr_print_func(void *value, void *userData)
{
	sdp_data_t *d = (sdp_data_t *)value;

	SDPDBG("=====================================\n");
	SDPDBG("ATTRIBUTE IDENTIFIER : 0x%x\n",  d->attrId);
	SDPDBG("ATTRIBUTE VALUE PTR : 0x%x\n", (uint32_t)value);
	if (d)
		sdp_data_print(d);
	else
		SDPDBG("NULL value\n");
	SDPDBG("=====================================\n");
}

void sdp_print_service_attr(sdp_list_t *svcAttrList)
{
	sdp_list_foreach(svcAttrList, attr_print_func, NULL);
}
#endif

sdp_record_t *sdp_extract_pdu(const char *buf, int *scanned)
{
	int extracted = 0, seqlen = 0;
	uint8_t dtd;
	uint16_t attr;
	sdp_record_t *rec = sdp_record_alloc();
	const char *p = buf;

	*scanned = sdp_extract_seqtype(buf, &dtd, &seqlen);
	p += *scanned;
	rec->attrlist = NULL;
	while (extracted < seqlen) {
		int n = sizeof(uint8_t), attrlen = 0;
		sdp_data_t *data = NULL;

		SDPDBG("Extract PDU, sequenceLength: %d localExtractedLength: %d", seqlen, extracted);
		dtd = *(uint8_t *)p;
		attr = ntohs(sdp_get_unaligned((uint16_t *)(p+n)));
		n += sizeof(uint16_t);

		SDPDBG("DTD of attrId : %d Attr id : 0x%x \n", dtd, attr);

		data = sdp_extract_attr(p+n, &attrlen, rec);

		SDPDBG("Attr id : 0x%x attrValueLength : %d\n", attr, attrlen);

		n += attrlen;
		if (data == NULL) {
			SDPDBG("Terminating extraction of attributes");
			break;
		}
		if (attr == SDP_ATTR_RECORD_HANDLE)
			rec->handle = data->val.uint32;
		extracted += n;
		p += n;
		sdp_attr_replace(rec, attr, data);
		SDPDBG("Extract PDU, seqLength: %d localExtractedLength: %d",
					seqlen, extracted);
	}
#ifdef SDP_DEBUG
	SDPDBG("Successful extracting of Svc Rec attributes\n");
	sdp_print_service_attr(rec->attrlist);
#endif
	*scanned += seqlen;
	return rec;
}

#ifdef SDP_DEBUG
static void print_dataseq(sdp_data_t *p)
{
	sdp_data_t *d;

	for (d = p; d; d = d->next)
		sdp_data_print(d);
}
#endif

void sdp_record_print(const sdp_record_t *rec)
{
	sdp_data_t *d = sdp_data_get(rec, SDP_ATTR_SVCNAME_PRIMARY);
	if (d)
		printf("Service Name: %s\n", d->val.str);
	d = sdp_data_get(rec, SDP_ATTR_SVCDESC_PRIMARY);
	if (d)
		printf("Service Description: %s\n", d->val.str);
	d = sdp_data_get(rec, SDP_ATTR_PROVNAME_PRIMARY);
	if (d)
		printf("Service Provider: %s\n", d->val.str);
}

#ifdef SDP_DEBUG
void sdp_data_print(sdp_data_t *d)
{
	switch (d->dtd) {
	case SDP_DATA_NIL:
		SDPDBG("NIL\n");
		break;
	case SDP_BOOL:
	case SDP_UINT8:
	case SDP_UINT16:
	case SDP_UINT32:
	case SDP_UINT64:
	case SDP_UINT128:
	case SDP_INT8:
	case SDP_INT16:
	case SDP_INT32:
	case SDP_INT64:
	case SDP_INT128:
		SDPDBG("Integer : 0x%x\n", d->val.uint32);
		break;
	case SDP_UUID16:
	case SDP_UUID32:
	case SDP_UUID128:
		SDPDBG("UUID\n");
		sdp_uuid_print(&d->val.uuid);
		break;
	case SDP_TEXT_STR8:
	case SDP_TEXT_STR16:
	case SDP_TEXT_STR32:
		SDPDBG("Text : %s\n", d->val.str);
		break;
	case SDP_URL_STR8:
	case SDP_URL_STR16:
	case SDP_URL_STR32:
		SDPDBG("URL : %s\n", d->val.str);
		break;
	case SDP_SEQ8:
	case SDP_SEQ16:
	case SDP_SEQ32:
		print_dataseq(d->val.dataseq);
		break;
	case SDP_ALT8:
	case SDP_ALT16:
	case SDP_ALT32:
		SDPDBG("Data Sequence Alternates\n");
		print_dataseq(d->val.dataseq);
		break;
	}
}
#endif

sdp_data_t *sdp_data_get(const sdp_record_t *rec, uint16_t attrId)
{
	if (rec->attrlist) {
		sdp_data_t sdpTemplate;
		sdp_list_t *p;

		sdpTemplate.attrId = attrId;
		p = sdp_list_find(rec->attrlist, &sdpTemplate, sdp_attrid_comp_func);
		if (p)
			return (sdp_data_t *)p->data;
	}
	return 0;
}

/*
 * Extract the sequence type and its length, and return offset into buf
 * or 0 on failure.
 */
int sdp_extract_seqtype(const char *buf, uint8_t *dtdp, int *size)
{
	uint8_t dtd = *(uint8_t *)buf;
	int scanned = sizeof(uint8_t);

	buf += sizeof(uint8_t);
	*dtdp = dtd;
	switch (dtd) {
	case SDP_SEQ8:
	case SDP_ALT8:
		*size = *(uint8_t *)buf;
		scanned += sizeof(uint8_t);
		break;
	case SDP_SEQ16:
	case SDP_ALT16:
		*size = ntohs(sdp_get_unaligned((uint16_t *)buf));
		scanned += sizeof(uint16_t);
		break;
	case SDP_SEQ32:
	case SDP_ALT32:
		*size = ntohl(sdp_get_unaligned((uint32_t *)buf));
		scanned += sizeof(uint32_t);
		break;
	default:
		SDPERR("Unknown sequence type, aborting\n");
		return 0;
	}
	return scanned;
}

int sdp_send_req(sdp_session_t *session, char *buf, int size)
{
	int sent = 0;

	while (sent < size) {
		int n = send(session->sock, buf + sent, size - sent, 0);
		if (n < 0)
			return -1;
		sent += n;
	}
	return 0;
}

int sdp_read_rsp(sdp_session_t *session, char *buf, int size)
{
	fd_set readFds;
	struct timeval timeout = { SDP_RESPONSE_TIMEOUT, 0 };

	FD_SET(session->sock, &readFds);
	SDPDBG("Waiting for response\n");
	if (0 == select(session->sock + 1, &readFds, NULL, NULL, &timeout)) {
		SDPERR("Client timed out\n");
		errno = ETIMEDOUT;
		return -1;
	}
	return recv(session->sock, buf, size, 0);
}

/*
 * generic send request, wait for response method.
 */
int sdp_send_req_w4_rsp(sdp_session_t *session, char *reqbuf, char *rspbuf, int reqsize, int *rspsize)
{
	int n;
	sdp_pdu_hdr_t *reqhdr = (sdp_pdu_hdr_t *)reqbuf;
	sdp_pdu_hdr_t *rsphdr = (sdp_pdu_hdr_t *)rspbuf;

	SDPDBG("");
	if (0 > sdp_send_req(session, reqbuf, reqsize)) {
		SDPERR("Error sending data:%s", strerror(errno));
		return -1;
	}
	n = sdp_read_rsp(session, rspbuf, SDP_RSP_BUFFER_SIZE);
	if (0 > n)
		return -1;
	SDPDBG("Read : %d\n", n);
	if (n == 0 || reqhdr->tid != rsphdr->tid) {
		errno = EPROTO;
		return -1;
	}
	*rspsize = n;
	return 0;
}

/*
 * singly-linked lists (after openobex implementation)
 */
sdp_list_t *sdp_list_append(sdp_list_t *p, void *d)
{
	sdp_list_t *q, *n = (sdp_list_t *)malloc(sizeof(sdp_list_t));

	if (!n)
		return 0;

	n->data = d;
	n->next = 0;

	if (!p)
		return n;

	for (q = p; q->next; q = q->next);
	q->next = n;

	return p;
}

sdp_list_t *sdp_list_remove(sdp_list_t *list, void *d)
{
	sdp_list_t *p, *q;

	for (q = 0, p = list; p; q = p, p = p->next)
		if (p->data == d) {
			if (q)
				q->next = p->next;
			else
				list = p->next;
			free(p);
			break;
		}

	return list;
}

sdp_list_t *sdp_list_insert_sorted(sdp_list_t *list, void *d, sdp_comp_func_t f)
{
	sdp_list_t *q, *p, *n;

	n = (sdp_list_t *)malloc(sizeof(sdp_list_t));
	if (!n)
		return 0;
	n->data = d;
	for (q = 0, p = list; p; q = p, p = p->next)
		if (f(p->data, d) >= 0)
			break; 
	// insert between q and p; if !q insert at head
	if (q)
		q->next = n;
	else
		list = n;
	n->next = p;
	return list;
}

/*
 * Every element of the list points to things which need 
 * to be free()'d. This method frees the list's contents
 */
void sdp_list_free(sdp_list_t *list, sdp_free_func_t f)
{
	sdp_list_t *next;
	while (list) {
		next = list->next;
		if (f)
			f(list->data);
		free(list);
		list = next;
	}
}

static inline int __find_port(sdp_data_t *seq, int proto)
{
	if (!seq || !seq->next)
		return 0;

	if (SDP_IS_UUID(seq->dtd) && sdp_uuid_to_proto(&seq->val.uuid) == proto) {
		seq = seq->next;
		switch (seq->dtd) {
		case SDP_UINT8:
			return seq->val.uint8;
		case SDP_UINT16:
			return seq->val.uint16;
		}
	}
	return 0;
}

int sdp_get_proto_port(const sdp_list_t *list, int proto)
{
	if (proto != L2CAP_UUID && proto != RFCOMM_UUID) {
		errno = EINVAL;
		return -1;
	}

	for (; list; list = list->next) {
		sdp_list_t *p;
		for (p = list->data; p; p = p->next) {
			sdp_data_t *seq = (sdp_data_t *) p->data;
			int port = __find_port(seq, proto);
			if (port)
				return port;
		}
	}
	return 0;
}

sdp_data_t *sdp_get_proto_desc(sdp_list_t *list, int proto)
{
	for (; list; list = list->next) {
		sdp_list_t *p;
		for (p = list->data; p; p = p->next) {
			sdp_data_t *seq = (sdp_data_t *) p->data;
			if (SDP_IS_UUID(seq->dtd) && 
					sdp_uuid_to_proto(&seq->val.uuid) == proto)
				return seq->next;
		}
	}
	return NULL;
}

int sdp_get_access_protos(const sdp_record_t *rec, sdp_list_t **pap)
{
	sdp_data_t *pdlist, *curr;
	sdp_list_t *ap = 0;

	pdlist = sdp_data_get(rec, SDP_ATTR_PROTO_DESC_LIST);
	if (pdlist == NULL) {
		errno = ENODATA;
		return -1;
	}
	SDPDBG("AP type : 0%x\n", pdlist->dtd);

	for (; pdlist; pdlist = pdlist->next) {
		sdp_list_t *pds = 0;
		for (curr = pdlist->val.dataseq; curr; curr = curr->next)
			pds = sdp_list_append(pds, curr->val.dataseq);
		ap = sdp_list_append(ap, pds);
	}
	*pap = ap;
	return 0;
}

int sdp_get_uuidseq_attr(const sdp_record_t *rec, uint16_t attr, sdp_list_t **seqp)
{
	sdp_data_t *sdpdata = sdp_data_get(rec, attr);

	*seqp = NULL;
	if (sdpdata && sdpdata->dtd >= SDP_SEQ8 && sdpdata->dtd <= SDP_SEQ32) {
		sdp_data_t *d;
		for (d = sdpdata->val.dataseq; d; d = d->next) {
			uuid_t *u = (uuid_t *)malloc(sizeof(uuid_t));
			memset((char *)u, 0, sizeof(uuid_t));
			if (d->dtd >= SDP_UUID16 && d->dtd <= SDP_UUID128) {
			  	*u = d->val.uuid;
			  	*seqp = sdp_list_append(*seqp, u);
			} else
				goto fail;
		}
		return 0;
	}
fail:
	sdp_list_free(*seqp, free);
	errno = EINVAL;
	return -1;
}

int sdp_set_uuidseq_attr(sdp_record_t *rec, uint16_t aid, sdp_list_t *seq)
{
	int status = 0, i, len;
	void **dtds, **values;
	uint8_t uuid16 = SDP_UUID16;
	uint8_t uuid32 = SDP_UUID32;
	uint8_t uuid128 = SDP_UUID128;
	sdp_list_t *p;

	len = sdp_list_len(seq);
	if (!seq || len == 0)
		return -1;
	dtds = (void **)malloc(len * sizeof(void *));
	values = (void **)malloc(len * sizeof(void *));
	for (p = seq, i = 0; i < len; i++, p = p->next) {
		uuid_t *uuid = (uuid_t *)p->data;
		if (uuid)
			switch (uuid->type) {
			case SDP_UUID16:
				dtds[i] = &uuid16;
				values[i] = &uuid->value.uuid16;
				break;
			case SDP_UUID32:
				dtds[i] = &uuid32;
				values[i] = &uuid->value.uuid32;
				break;
			case SDP_UUID128:
				dtds[i] = &uuid128;
				values[i] = &uuid->value.uuid128;
				break;
			default:
				status = -1;
				break;
			}
		else {
			status = -1;
			break;
		}
	}
	if (status == 0) {
		sdp_data_t *data = sdp_seq_alloc(dtds, values, len);
		sdp_attr_replace(rec, aid, data);
		sdp_pattern_add_uuidseq(rec, seq);
	}
	free(dtds);
	free(values);
	return status;
}

int sdp_get_lang_attr(const sdp_record_t *rec, sdp_list_t **langSeq)
{
	sdp_lang_attr_t *lang;
	sdp_data_t *sdpdata, *curr_data;

	*langSeq = NULL;
	sdpdata = sdp_data_get(rec, SDP_ATTR_LANG_BASE_ATTR_ID_LIST);
	if (sdpdata == NULL) {
		errno = ENODATA;
		return -1;
	}
	curr_data = sdpdata->val.dataseq;
	while (curr_data) {
		sdp_data_t *pCode = curr_data;
		sdp_data_t *pEncoding = pCode->next;
		sdp_data_t *pOffset = pEncoding->next;
		if (pCode && pEncoding && pOffset) {
			lang = (sdp_lang_attr_t *)malloc(sizeof(sdp_lang_attr_t));
			lang->code_ISO639 = pCode->val.uint16;
			lang->encoding = pEncoding->val.uint16;
			lang->base_offset = pOffset->val.uint16;
			SDPDBG("code_ISO639 :  0x%02x\n", lang->code_ISO639);
			SDPDBG("encoding :     0x%02x\n", lang->encoding);
			SDPDBG("base_offfset : 0x%02x\n", lang->base_offset);
			*langSeq = sdp_list_append(*langSeq, lang);
		}
		curr_data = pOffset->next;
	}
	return 0;
}

int sdp_get_profile_descs(const sdp_record_t *rec, sdp_list_t **profDescSeq)
{
	sdp_profile_desc_t *profDesc;
	sdp_data_t *sdpdata, *seq;

	*profDescSeq = NULL;
	sdpdata = sdp_data_get(rec, SDP_ATTR_PFILE_DESC_LIST);
	if (!sdpdata || !sdpdata->val.dataseq) {
		errno = ENODATA;
		return -1;
	}
	for (seq = sdpdata->val.dataseq; seq && seq->val.dataseq; seq = seq->next) {
		sdp_data_t *uuid = seq->val.dataseq;
		sdp_data_t *pVnum = seq->val.dataseq->next;
		if (uuid && pVnum) {
			profDesc = (sdp_profile_desc_t *)malloc(sizeof(sdp_profile_desc_t));
			profDesc->uuid = uuid->val.uuid;
			profDesc->version = pVnum->val.uint16;
#ifdef SDP_DEBUG
			sdp_uuid_print(&profDesc->uuid);
			SDPDBG("Vnum : 0x%04x\n", profDesc->version);
#endif
			*profDescSeq = sdp_list_append(*profDescSeq, profDesc);
		}
	}
	return 0;
}

int sdp_get_server_ver(const sdp_record_t *rec, sdp_list_t **u16)
{
	sdp_data_t *d, *curr;

	*u16 = NULL;
	d = sdp_data_get(rec, SDP_ATTR_VERSION_NUM_LIST);
	if (d == NULL) {
		errno = ENODATA;
		return -1;
	}
	for (curr = d->val.dataseq; curr; curr = curr->next)
		*u16 = sdp_list_append(*u16, &curr->val.uint16);
	return 0;
}

/* flexible extraction of basic attributes - Jean II */
/* How do we expect caller to extract predefined data sequences? */
int sdp_get_int_attr(const sdp_record_t *rec, uint16_t attrid, int *value)
{
	sdp_data_t *sdpdata = sdp_data_get(rec, attrid);

	if (sdpdata)
		/* Verify that it is what the caller expects */
		if (sdpdata->dtd == SDP_BOOL || sdpdata->dtd == SDP_UINT8 ||
		sdpdata->dtd == SDP_UINT16 || sdpdata->dtd == SDP_UINT32 ||
		sdpdata->dtd == SDP_INT8 || sdpdata->dtd == SDP_INT16 ||
		sdpdata->dtd == SDP_INT32) {
			*value = sdpdata->val.uint32;
			return 0;
		}
	errno = EINVAL;
	return -1;
}

int sdp_get_string_attr(const sdp_record_t *rec, uint16_t attrid, char *value, int valuelen)
{
	sdp_data_t *sdpdata = sdp_data_get(rec, attrid);
	if (sdpdata)
		/* Verify that it is what the caller expects */
		if (sdpdata->dtd == SDP_TEXT_STR8 || sdpdata->dtd == SDP_TEXT_STR16 || sdpdata->dtd == SDP_TEXT_STR32)
			if (strlen(sdpdata->val.str) < valuelen) {
				strcpy(value, sdpdata->val.str);
				return 0;
			}
	errno = EINVAL;
	return -1;
}

#define get_basic_attr(attrID, pAttrValue, fieldName)		\
	sdp_data_t *data = sdp_data_get(rec, attrID);		\
	if (data) {						\
		*pAttrValue = data->val.fieldName;		\
		return 0;					\
	}							\
	errno = EINVAL;						\
	return -1;

int sdp_get_service_id(const sdp_record_t *rec, uuid_t *uuid)
{
	get_basic_attr(SDP_ATTR_SERVICE_ID, uuid, uuid);
}

int sdp_get_group_id(const sdp_record_t *rec, uuid_t *uuid)
{
	get_basic_attr(SDP_ATTR_GROUP_ID, uuid, uuid);
}

int sdp_get_record_state(const sdp_record_t *rec, uint32_t *svcRecState)
{
	get_basic_attr(SDP_ATTR_RECORD_STATE, svcRecState, uint32);
}

int sdp_get_service_avail(const sdp_record_t *rec, uint8_t *svcAvail)
{
	get_basic_attr(SDP_ATTR_SERVICE_AVAILABILITY, svcAvail, uint8);
}

int sdp_get_service_ttl(const sdp_record_t *rec, uint32_t *svcTTLInfo)
{
	get_basic_attr(SDP_ATTR_SVCINFO_TTL, svcTTLInfo, uint32);
}

int sdp_get_database_state(const sdp_record_t *rec, uint32_t *svcDBState)
{
	get_basic_attr(SDP_ATTR_SVCDB_STATE, svcDBState, uint32);
}

/*
 * NOTE that none of the setXXX() functions below will
 * actually update the SDP server, unless the
 * {register, update}sdp_record_t() function is invoked.
 */

int sdp_attr_add_new(sdp_record_t *rec, uint16_t attr, uint8_t dtd, const void *value)
{
	sdp_data_t *d = sdp_data_alloc(dtd, value);
	if (d) {
		sdp_attr_replace(rec, attr, d);
		return 0;
	}
	return -1;
}

/*
 * Set the information attributes of the service
 * pointed to by rec. The attributes are
 * service name, description and provider name
 */
void sdp_set_info_attr(sdp_record_t *rec, const char *name, const char *prov, const char *desc)
{
	if (name)
		sdp_attr_add_new(rec, SDP_ATTR_SVCNAME_PRIMARY, SDP_TEXT_STR8, (void *)name);
	if (prov)
		sdp_attr_add_new(rec, SDP_ATTR_PROVNAME_PRIMARY, SDP_TEXT_STR8, (void *)prov);
	if (desc)
		sdp_attr_add_new(rec, SDP_ATTR_SVCDESC_PRIMARY, SDP_TEXT_STR8, (void *)desc);
}

static sdp_data_t *access_proto_to_dataseq(sdp_record_t *rec, sdp_list_t *proto)
{
	sdp_data_t *seq = NULL;
	void *dtds[10], *values[10];
	void **seqDTDs, **seqs;
	int i, seqlen;
	sdp_list_t *p;

	seqlen = sdp_list_len(proto);
	seqDTDs = (void **)malloc(seqlen * sizeof(void *));
	seqs = (void **)malloc(seqlen * sizeof(void *));
	for (i = 0, p = proto; p; p = p->next, i++) {
		sdp_list_t *elt = (sdp_list_t *)p->data;
		sdp_data_t *s;
		int pslen = 0;
		for (; elt && pslen < sizeof(dtds); elt = elt->next, pslen++) {
			sdp_data_t *d = (sdp_data_t *)elt->data;
			dtds[pslen] = &d->dtd;
			switch (d->dtd) {
			case SDP_UUID16:
				values[pslen] = &((uuid_t *)d)->value.uuid16;
				break;
			case SDP_UUID32:
				values[pslen] = &((uuid_t *)d)->value.uuid32;
				break;
			case SDP_UUID128:
				values[pslen] = &((uuid_t *)d)->value.uuid128;
				break;
			case SDP_UINT8:
				values[pslen] = &d->val.uint8;
				break;
			case SDP_UINT16:
				values[pslen] = &d->val.uint16;
				break;
			case SDP_SEQ8:
			case SDP_SEQ16:
			case SDP_SEQ32:
				values[pslen] = d;
				break;
			// FIXME: more
			}
		}
		s = sdp_seq_alloc(dtds, values, pslen);
		if (s) {
			seqDTDs[i] = &s->dtd;
			seqs[i] = s;
		}
	}
	seq = sdp_seq_alloc(seqDTDs, seqs, seqlen);
	free(seqDTDs);
	free(seqs);
	return seq;
}

/*
 * sets the access protocols of the service specified
 * to the value specified in "access_proto"
 *
 * Note that if there are alternate mechanisms by 
 * which the service is accessed, then they should 
 * be specified as sequences 
 *
 * Using a value of NULL for accessProtocols has
 * effect of removing this attribute (if previously set)
 * 
 * This function replaces the existing sdp_access_proto_t
 * structure (if any) with the new one specified.
 *
 * returns 0 if successful or -1 if there is a failure.
 */
int sdp_set_access_protos(sdp_record_t *rec, const sdp_list_t *ap)
{
	const sdp_list_t *p;
	sdp_data_t *protos = 0;

	for (p = ap; p; p = p->next) {
		sdp_data_t *seq = access_proto_to_dataseq(rec, (sdp_list_t *)p->data);
		protos = sdp_seq_append(protos, seq);
	}
	sdp_attr_add(rec, SDP_ATTR_PROTO_DESC_LIST, protos);
	return 0;
}

/*
 * set the "LanguageBase" attributes of the service record
 * record to the value specified in "langAttrList".
 *
 * "langAttrList" is a linked list of "sdp_lang_attr_t"
 * objects, one for each language in which user visible
 * attributes are present in the service record.
 *
 * Using a value of NULL for langAttrList has
 * effect of removing this attribute (if previously set)
 * 
 * This function replaces the exisiting sdp_lang_attr_t
 * structure (if any) with the new one specified.
 *
 * returns 0 if successful or -1 if there is a failure.
 */
int sdp_set_lang_attr(sdp_record_t *rec, const sdp_list_t *seq)
{
	uint8_t uint16 = SDP_UINT16;
	int status = 0, i = 0, seqlen = sdp_list_len(seq);
	void **dtds = (void **)malloc(3 * seqlen * sizeof(void *));
	void **values = (void **)malloc(3 * seqlen * sizeof(void *));
	const sdp_list_t *p;

	for (p = seq; p; p = p->next) {
		sdp_lang_attr_t *lang = (sdp_lang_attr_t *)p->data;
		if (!lang) {
			status = -1;
			break;
		}
		dtds[i] = &uint16;
		values[i] = &lang->code_ISO639;
		i++;
		dtds[i] = &uint16;
		values[i] = &lang->encoding;
		i++;
		dtds[i] = &uint16;
		values[i] = &lang->base_offset;
		i++;
	}
	if (status == 0) {
		sdp_data_t *seq = sdp_seq_alloc(dtds, values, 3 * seqlen);
		sdp_attr_add(rec, SDP_ATTR_LANG_BASE_ATTR_ID_LIST, seq);
	}
	free(dtds);
	free(values);
	return status;
}

/*
 * set the "ServiceID" attribute of the service. 
 * 
 * This is the UUID of the service. 
 * 
 * returns 0 if successful or -1 if there is a failure.
 */
void sdp_set_service_id(sdp_record_t *rec, uuid_t uuid)
{
	switch (uuid.type) {
	case SDP_UUID16:
		sdp_attr_add_new(rec, SDP_ATTR_SERVICE_ID, SDP_UUID16, &uuid.value.uuid16);
		break;
	case SDP_UUID32:
		sdp_attr_add_new(rec, SDP_ATTR_SERVICE_ID, SDP_UUID32, &uuid.value.uuid32);
		break;
	case SDP_UUID128:
		sdp_attr_add_new(rec, SDP_ATTR_SERVICE_ID, SDP_UUID128, &uuid.value.uuid128);
		break;
	}
	sdp_pattern_add_uuid(rec, &uuid);
}

/*
 * set the GroupID attribute of the service record defining a group. 
 * 
 * This is the UUID of the group. 
 * 
 * returns 0 if successful or -1 if there is a failure.
 */
void sdp_set_group_id(sdp_record_t *rec, uuid_t uuid)
{
	switch (uuid.type) {
	case SDP_UUID16:
		sdp_attr_add_new(rec, SDP_ATTR_GROUP_ID, SDP_UUID16, &uuid.value.uuid16);
		break;
	case SDP_UUID32:
		sdp_attr_add_new(rec, SDP_ATTR_GROUP_ID, SDP_UUID32, &uuid.value.uuid32);
		break;
	case SDP_UUID128:
		sdp_attr_add_new(rec, SDP_ATTR_GROUP_ID, SDP_UUID128, &uuid.value.uuid128);
		break;
	}
	sdp_pattern_add_uuid(rec, &uuid);
}

/*
 * set the ProfileDescriptorList attribute of the service record
 * pointed to by record to the value specified in "profileDesc".
 *
 * Each element in the list is an object of type
 * sdp_profile_desc_t which is a definition of the
 * Bluetooth profile that this service conforms to.
 *
 * Using a value of NULL for profileDesc has
 * effect of removing this attribute (if previously set)
 * 
 * This function replaces the exisiting ProfileDescriptorList
 * structure (if any) with the new one specified.
 *
 * returns 0 if successful or -1 if there is a failure.
 */
int sdp_set_profile_descs(sdp_record_t *rec, const sdp_list_t *profiles)
{
	int status = 0;
	uint8_t uuid16 = SDP_UUID16;
	uint8_t uuid32 = SDP_UUID32;
	uint8_t uuid128 = SDP_UUID128;
	uint8_t uint16 = SDP_UINT16;
	int i = 0, seqlen = sdp_list_len(profiles);
	void **seqDTDs = (void **)malloc(seqlen * sizeof(void *));
	void **seqs = (void **)malloc(seqlen * sizeof(void *));
	const sdp_list_t *p;

	for (p = profiles; p; p = p->next) {
		sdp_data_t *seq;
		void *dtds[2], *values[2];
		sdp_profile_desc_t *profile = (sdp_profile_desc_t *)p->data;
		if (!profile) {
			status = -1;
			break;
		}
		switch (profile->uuid.type) {
		case SDP_UUID16:
			dtds[0] = &uuid16;
			values[0] = &profile->uuid.value.uuid16;
			break;
		case SDP_UUID32:
			dtds[0] = &uuid32;
			values[0] = &profile->uuid.value.uuid32;
			break;
		case SDP_UUID128:
			dtds[0] = &uuid128;
			values[0] = &profile->uuid.value.uuid128;
			break;
		default:
			status = -1;
			break;
		}
		dtds[1] = &uint16;
		values[1] = &profile->version;
		seq = sdp_seq_alloc(dtds, values, 2);
		if (seq) {
			seqDTDs[i] = &seq->dtd;
			seqs[i] = seq;
			sdp_pattern_add_uuid(rec, &profile->uuid);
		}
		i++;
	}
	if (status == 0) {
		sdp_data_t *pAPSeq = sdp_seq_alloc(seqDTDs, seqs, seqlen);
		sdp_attr_add(rec, SDP_ATTR_PFILE_DESC_LIST, pAPSeq);
	}
	free(seqDTDs);
	free(seqs);
	return status;
}

/*
 * sets various URL attributes of the service
 * pointed to by record. The URL include
 *
 * client: a URL to the client's
 *   platform specific (WinCE, PalmOS) executable
 *   code that can be used to access this service.
 *
 * doc: a URL pointing to service documentation
 *
 * icon: a URL to an icon that can be used to represent
 *   this service.
 *
 * Note that you need to pass NULL for any URLs
 * that you don't want to set or remove
 */
void sdp_set_url_attr(sdp_record_t *rec, const char *client, const char *doc, const char *icon)
{
	sdp_attr_add_new(rec, SDP_ATTR_CLNT_EXEC_URL, SDP_URL_STR8, client);
	sdp_attr_add_new(rec, SDP_ATTR_DOC_URL, SDP_URL_STR8, doc);
	sdp_attr_add_new(rec, SDP_ATTR_ICON_URL, SDP_URL_STR8, icon);
}

/*
 * The code in this function is executed only once per
 * thread. We compute the actual bit value of the Bluetooth
 * base UUID which is a string defined in bt_std_values.h 
 * and is assumed to be of the standard form with "-" separators.
 *
 * The algorithm however converts the string to 4 unsigned longs
 * using the strtoul() and assigns the values in sequence to
 * the 128bit value
 */
uint128_t *sdp_create_base_uuid(void)
{
	char baseStr[128];
	int delim = '-';
	unsigned long dataLongValue;
	char *delimPtr;
	char *dataPtr;
	char temp[10];
	int toBeCopied;
	char *data;

	if (bluetooth_base_uuid == NULL) {
		strcpy(baseStr, BASE_UUID);
		bluetooth_base_uuid = (uint128_t *)malloc(sizeof(uint128_t));
		data = bluetooth_base_uuid->data;
		memset(data, '\0', sizeof(uint128_t));
		memset(temp, '\0', 10);
		dataPtr = baseStr;
		delimPtr = NULL;
		delimPtr = strchr(dataPtr, delim);
		toBeCopied = delimPtr - dataPtr;
		if (toBeCopied != 8) {
			SDPDBG("To be copied(1) : %d\n", toBeCopied);
			return NULL;
		}
		strncpy(temp, dataPtr, toBeCopied);
		dataLongValue = htonl(strtoul(temp, NULL, 16));
		memcpy(&data[0], &dataLongValue, 4);

		/*
		 * Get the next 4 bytes (note that there is a "-"
		 * between them now)
		 */
		memset(temp, '\0', 10);
		dataPtr = delimPtr + 1;
		delimPtr = strchr(dataPtr, delim);
		toBeCopied = delimPtr - dataPtr;
		if (toBeCopied != 4) {
			SDPDBG("To be copied(2) : %d\n", toBeCopied);
			return NULL;
		}
		strncpy(temp, dataPtr, toBeCopied);
		dataPtr = delimPtr + 1;
		delimPtr = strchr(dataPtr, delim);
		toBeCopied = delimPtr - dataPtr;
		if (toBeCopied != 4) {
			SDPDBG("To be copied(3) : %d\n", toBeCopied);
			return NULL;
		}
		strncat(temp, dataPtr, toBeCopied);
		dataLongValue = htonl(strtoul(temp, NULL, 16));
		memcpy(&data[4], &dataLongValue, 4);

		/*
		 * Get the last 4 bytes (note that there are 6 bytes
		 * after the last separator, which is truncated (2+4)
		 */
		memset(temp, '\0', 10);
		dataPtr = delimPtr + 1;
		dataPtr = delimPtr + 1;
		delimPtr = strchr(dataPtr, delim);
		toBeCopied = delimPtr - dataPtr;
		if (toBeCopied != 4) {
			SDPDBG("To be copied(4) : %d\n", toBeCopied);
			return NULL;
		}
		strncpy(temp, dataPtr, toBeCopied);
		strncat(temp, (delimPtr + 1), 4);
		dataLongValue = htonl(strtoul(temp, NULL, 16));
		memcpy(&data[8], &dataLongValue, 4);
		dataLongValue = htonl(strtoul(delimPtr + 5, NULL, 16));
		memcpy(&data[12], &dataLongValue, 4);
	}
	return bluetooth_base_uuid;
}

uuid_t *sdp_uuid16_create(uuid_t *u, uint16_t val)
{
	memset(u, 0, sizeof(uuid_t));
	u->type = SDP_UUID16;
	u->value.uuid16 = val;
	return u;
}

uuid_t *sdp_uuid32_create(uuid_t *u, uint32_t val)
{
	memset(u, 0, sizeof(uuid_t));
	u->type = SDP_UUID32;
	u->value.uuid32 = val;
	return u;
}

uuid_t *sdp_uuid128_create(uuid_t *u, const void *val)
{ 
	memset(u, 0, sizeof(uuid_t));
	u->type = SDP_UUID128;
	memcpy(&u->value.uuid128, val, sizeof(uint128_t));
	return u;
}

/*
 * UUID comparison function
 * returns 0 if uuidValue1 == uuidValue2 else -1
 */
int sdp_uuid16_cmp(const void *p1, const void *p2)
{
	const uuid_t *u1 = (const uuid_t *)p1;
	const uuid_t *u2 = (const uuid_t *)p2;
	return memcmp(&u1->value.uuid16, &u2->value.uuid16, sizeof(uint16_t));
}

/*
 * UUID comparison function
 * returns 0 if uuidValue1 == uuidValue2 else -1
 */
int sdp_uuid128_cmp(const void *p1, const void *p2)
{
	const uuid_t *u1 = (const uuid_t *)p1;
	const uuid_t *u2 = (const uuid_t *)p2;
	return memcmp(&u1->value.uuid128, &u2->value.uuid128, sizeof(uint128_t));
}

/*
 * 128 to 16 bit and 32 to 16 bit UUID conversion functions
 * yet to be implemented. Note that the input is in NBO in
 * both 32 and 128 bit UUIDs and conversion is needed
 */
void sdp_uuid16_to_uuid128(uuid_t *uuid128, uuid_t *uuid16)
{
	/*
	 * We have a 16 bit value, which needs to be added to
	 * bytes 3 and 4 (at indices 2 and 3) of the Bluetooth base
	 */
	unsigned short data1;

	// allocate a 128bit UUID and init to the Bluetooth base UUID
	uint128_t *pBTBase128Bit = sdp_create_base_uuid();
	uuid128->value.uuid128 = *pBTBase128Bit;
	uuid128->type = SDP_UUID128;

	// extract bytes 2 and 3 of 128bit BT base UUID
	memcpy(&data1, &pBTBase128Bit->data[2], 2);

	// add the given UUID (16 bits)
	data1 += htons(uuid16->value.uuid16);

	// set bytes 2 and 3 of the 128 bit value
	memcpy(&uuid128->value.uuid128.data[2], &data1, 2);
}

void sdp_uuid32_to_uuid128(uuid_t *uuid128, uuid_t *uuid32)
{
	/*
	 * We have a 32 bit value, which needs to be added to
	 * bytes 1->4 (at indices 0 thru 3) of the Bluetooth base
	 */
	unsigned int data0;

	// allocate a 128bit UUID and init to the Bluetooth base UUID
	uint128_t *pBTBase128Bit = sdp_create_base_uuid();
	uuid128->value.uuid128 = *pBTBase128Bit;
	uuid128->type = SDP_UUID128;

	// extract first 4 bytes
	memcpy(&data0, &pBTBase128Bit->data[0], 4);

	// add the given UUID (32bits)
	data0 += htonl(uuid32->value.uuid32);

	// set the 4 bytes of the 128 bit value
	memcpy(&uuid128->value.uuid128.data[0], &data0, 4);
}

uuid_t *sdp_uuid_to_uuid128(uuid_t *uuid)
{
	uuid_t *uuid128 = (uuid_t *)malloc(sizeof(uuid_t));
	memset(uuid128, 0, sizeof(uuid_t));
	switch (uuid->type) {
	case SDP_UUID128:
		*uuid128 = *uuid;
		break;
	case SDP_UUID32:
		sdp_uuid32_to_uuid128(uuid128, uuid);
		break;
	case SDP_UUID16:
		sdp_uuid16_to_uuid128(uuid128, uuid);
		break;
	}
	return uuid128;
}

/* 
 * converts a 128-bit uuid to a 16/32-bit one if possible
 * returns true if uuid contains a 16/32-bit UUID at exit
 */
int sdp_uuid128_to_uuid(uuid_t *uuid)
{
	extern uint128_t *sdp_create_base_uuid();
	int i;
	uint128_t *b = sdp_create_base_uuid();
	uint128_t *u = &uuid->value.uuid128;
	uint32_t data;
	
	if (uuid->type != SDP_UUID128)
		return 1;
	
	for (i = 4; i < sizeof(b->data); i++)
		if (b->data[i] != u->data[i])
			return 0;
	
	memcpy(&data, u->data, 4);
	data = htonl(data);
	if (data <= 0xffff) {
		uuid->type = SDP_UUID16;
		uuid->value.uuid16 = (uint16_t)data;
	} else {
		uuid->type = SDP_UUID32;
		uuid->value.uuid32 = data;
	}
	return 1;
}

/*
 * convert a UUID to the 16-bit short-form
 */
int sdp_uuid_to_proto(uuid_t *uuid)
{
	uuid_t u = *uuid;
	if (sdp_uuid128_to_uuid(&u) && u.type == SDP_UUID16)
		return u.value.uuid16;
	return 0;
}

int sdp_uuid_extract(const char *p, uuid_t *uuid, int *scanned)
{
	uint8_t type = *(const uint8_t *)p;

	if (!SDP_IS_UUID(type)) {
		SDPERR("Unknown data type : %d expecting a svc UUID\n", type);
		return -1;
	}
	p += sizeof(uint8_t);
	*scanned += sizeof(uint8_t);
	if (type == SDP_UUID16) {
		sdp_uuid16_create(uuid, ntohs(sdp_get_unaligned((uint16_t *)p)));
		*scanned += sizeof(uint16_t);
		p += sizeof(uint16_t);
	} else if (type == SDP_UUID32) {
		sdp_uuid32_create(uuid, ntohl(sdp_get_unaligned((uint32_t *)p)));
		*scanned += sizeof(uint32_t);
		p += sizeof(uint32_t);
	} else {
		sdp_uuid128_create(uuid, p);
		*scanned += sizeof(uint128_t);
		p += sizeof(uint128_t);
	}
	return 0;
}

/*
 * This function appends data to the PDU buffer "dst" from source "src". 
 * The data length is also computed and set.
 * Should the PDU length exceed 2^8, then sequence type is
 * set accordingly and the data is memmove()'d.
 */
void sdp_append_to_buf(sdp_buf_t *dst, char *data, int len)
{
	char *p = dst->data;
	uint8_t dtd = *(uint8_t *)p;

	SDPDBG("Append src size: %d\n", len);
	SDPDBG("Append dst size: %d\n", dst->data_size);
	SDPDBG("Dst buffer size: %d\n", dst->buf_size);
	if (dst->data_size + len > dst->buf_size) {
		int need = SDP_PDU_CHUNK_SIZE * ((len / SDP_PDU_CHUNK_SIZE) + 1);
		dst->data = (char *)realloc(dst->data, dst->buf_size + need);

		SDPDBG("Realloc'ing : %d\n", need);

		if (dst->data == NULL) {
			SDPERR("Realloc fails \n");
		}
		dst->buf_size += need;
	}
	if (dst->data_size == 0 && dtd == 0) {
		// create initial sequence
		*(uint8_t *)p = SDP_SEQ8;
		p += sizeof(uint8_t);
		dst->data_size += sizeof(uint8_t);
		// reserve space for sequence size
		p += sizeof(uint8_t);
		dst->data_size += sizeof(uint8_t);
	}

	memcpy(dst->data + dst->data_size, data, len);
	dst->data_size += len;

	dtd = *(uint8_t *)dst->data;
	if (dst->data_size > UCHAR_MAX && dtd == SDP_SEQ8) {
		short offset = sizeof(uint8_t) + sizeof(uint8_t);
		memmove(dst->data + offset + 1, dst->data + offset, dst->data_size - offset);
		p = dst->data;
		*(uint8_t *)p = SDP_SEQ16;
		p += sizeof(uint8_t);
		dst->data_size += 1;
	}
	p = dst->data;
	dtd = *(uint8_t *)p;
	p += sizeof(uint8_t);
	switch (dtd) {
	case SDP_SEQ8:
		*(uint8_t *)p = dst->data_size - sizeof(uint8_t) - sizeof(uint8_t);
		break;
	case SDP_SEQ16:
		sdp_put_unaligned(htons(dst->data_size - sizeof(uint8_t) - sizeof(uint16_t)), (uint16_t *)p);
		break;
	case SDP_SEQ32:
		sdp_put_unaligned(htonl(dst->data_size - sizeof(uint8_t) - sizeof(uint32_t)), (uint32_t *)p);
		break;
	}
}

void sdp_append_to_pdu(sdp_buf_t *pdu, sdp_data_t *d)
{
	char buf[SDP_SEQ_PDUFORM_SIZE];
	sdp_buf_t append;

	append.data = buf;
	append.buf_size = sizeof(buf);
	append.data_size = 0;
	sdp_set_attrid(&append, d->attrId);
	sdp_gen_pdu(&append, d);
	sdp_append_to_buf(pdu, append.data, append.data_size);
}

/*
 * Registers an sdp record.
 *
 * It is incorrect to call this method on a record that
 * has been already registered with the server.
 *
 * Returns a non-null value (a pointer) to a service
 * record if successful, else -1 setting errno
 */
int sdp_record_register(sdp_session_t *session, sdp_record_t *rec, uint8_t flags)
{
	char *p;
	int status = 0;
	char *req, *rsp;
	int reqsize, rspsize;
	sdp_pdu_hdr_t *reqhdr, *rsphdr;
	sdp_buf_t pdu;

	SDPDBG("");

	if (!session->local) {
		errno = EREMOTE;
		return -1;
	}
	req = (char *)malloc(SDP_REQ_BUFFER_SIZE);
	rsp = (char *)malloc(SDP_RSP_BUFFER_SIZE);
	if (req == NULL || rsp == NULL) {
		status = -1;
		errno = ENOMEM;
		goto end;
	}
	reqhdr = (sdp_pdu_hdr_t *)req;
	reqhdr->pdu_id = SDP_SVC_REGISTER_REQ;
	reqhdr->tid    = htons(sdp_gen_tid(session));
	reqsize = sizeof(sdp_pdu_hdr_t) + 1;
	p = req + sizeof(sdp_pdu_hdr_t);
	*p++ = flags;
	if (0 > sdp_gen_record_pdu(rec, &pdu)) {
		status = -1;
		errno = ENOMEM;
		goto end;
	}
	memcpy(p, pdu.data, pdu.data_size);
	free(pdu.data);
	reqsize += pdu.data_size;
	reqhdr->plen = htons(reqsize - sizeof(sdp_pdu_hdr_t));

	status = sdp_send_req_w4_rsp(session, req, rsp, reqsize, &rspsize);
	if (status < 0)
		goto end;
	rsphdr = (sdp_pdu_hdr_t *)rsp;
	p = rsp + sizeof(sdp_pdu_hdr_t);
	if (rsphdr->pdu_id == SDP_SVC_REGISTER_RSP) {
		uint32_t handle  = ntohl(sdp_get_unaligned((uint32_t *)p));
		sdp_data_t *data = sdp_data_alloc(SDP_UINT32, &handle);
		rec->handle = handle;
		sdp_attr_replace(rec, SDP_ATTR_RECORD_HANDLE, data);
	}
end:
	if (req)
		free(req);
	if (rsp)
		free(rsp);
	return status;
}

/*
 * unregister a service record
 */
int sdp_record_unregister(sdp_session_t *session, sdp_record_t *rec)
{
	char *p;
	int status = 0;
	char *reqbuf, *rspbuf;
	int reqsize = 0, rspsize = 0;
	sdp_pdu_hdr_t *reqhdr, *rsphdr;
	uint32_t handle = 0;

	SDPDBG("");

	handle = rec->handle;
	if (handle == SDP_SERVER_RECORD_HANDLE) {
		errno = EINVAL;
		return -1;
	}
	if (!session->local) {
		errno = EREMOTE;
		return -1;
	}
	reqbuf = (char *)malloc(SDP_REQ_BUFFER_SIZE);
	rspbuf = (char *)malloc(SDP_RSP_BUFFER_SIZE);
	if (!reqbuf || !rspbuf) {
		errno = ENOMEM;
		status = -1;
		goto end;
	}
	reqhdr = (sdp_pdu_hdr_t *)reqbuf;
	reqhdr->pdu_id = SDP_SVC_REMOVE_REQ;
	reqhdr->tid    = htons(sdp_gen_tid(session));

	p = reqbuf + sizeof(sdp_pdu_hdr_t);
	reqsize = sizeof(sdp_pdu_hdr_t);
	sdp_put_unaligned(htonl(handle), (uint32_t *)p);
	reqsize += sizeof(uint32_t);

	reqhdr->plen = htons(reqsize - sizeof(sdp_pdu_hdr_t));
	status = sdp_send_req_w4_rsp(session, reqbuf, rspbuf, reqsize, &rspsize);
	if (status == 0) {
		rsphdr = (sdp_pdu_hdr_t *)rspbuf;
		p = rspbuf + sizeof(sdp_pdu_hdr_t);
		status = sdp_get_unaligned((uint16_t *)p);
		if (status == 0 && rsphdr->pdu_id == SDP_SVC_REMOVE_RSP) {
			SDPDBG("Removing local copy\n");
			sdp_record_free(rec);
		}
	}
end:
	if (reqbuf)
		free(reqbuf);
	if (rspbuf)
		free(rspbuf);
	return status;
}

/*
 * modify an existing service record
 */
int sdp_record_update(sdp_session_t *session, const sdp_record_t *rec)
{
	char *p;
	int status = 0;
	char *reqbuf, *rspbuf;
	int reqsize, rspsize;
	sdp_pdu_hdr_t *reqhdr, *rsphdr;
	uint32_t handle;
	sdp_buf_t pdu;

	SDPDBG("");
	handle = rec->handle;

	if (handle == SDP_SERVER_RECORD_HANDLE) {
		errno = EINVAL;
		return -1;
	}
	if (!session->local) {
		errno = EREMOTE;
		return -1;
	}
	reqbuf = (char *)malloc(SDP_REQ_BUFFER_SIZE);
	rspbuf = (char *)malloc(SDP_RSP_BUFFER_SIZE);
	if (!reqbuf || !rspbuf) {
		errno = ENOMEM;
		status = -1;
		goto end;
	}
	reqhdr = (sdp_pdu_hdr_t *)reqbuf;
	reqhdr->pdu_id = SDP_SVC_UPDATE_REQ;
	reqhdr->tid    = htons(sdp_gen_tid(session));

	p = (char *)(reqbuf + sizeof(sdp_pdu_hdr_t));
	reqsize = sizeof(sdp_pdu_hdr_t);

	sdp_put_unaligned(htonl(handle), (uint32_t *)p);
	reqsize += sizeof(uint32_t);
	p += sizeof(uint32_t);

	if (0 > sdp_gen_record_pdu(rec, &pdu)) {
		errno = ENOMEM;
		status = -1;
		goto end;
	}
	memcpy(p, pdu.data, pdu.data_size);
	reqsize += pdu.data_size;

	reqhdr->plen = htons(reqsize - sizeof(sdp_pdu_hdr_t));
	status = sdp_send_req_w4_rsp(session, reqbuf, rspbuf, reqsize, &rspsize);

	SDPDBG("Send req status : %d\n", status);

	if (status == 0) {
		rsphdr = (sdp_pdu_hdr_t *)rspbuf;
		p = rspbuf + sizeof(sdp_pdu_hdr_t);
		status = sdp_get_unaligned((uint16_t *)p);
	}
end:
	if (reqbuf)
		free(reqbuf);
	if (rspbuf)
		free(rspbuf);
	return status;
}

sdp_record_t *sdp_record_alloc()
{
	sdp_record_t *rec = (sdp_record_t *)malloc(sizeof(sdp_record_t));
	memset((void *)rec, 0, sizeof(sdp_record_t));
	rec->handle = 0xffffffff;
	return rec;
}

/*
 * Free the contents of a service record
 */
void sdp_record_free(sdp_record_t *rec)
{
	sdp_list_free(rec->attrlist, (sdp_free_func_t)sdp_data_free);
	sdp_list_free(rec->pattern, free);
	free(rec);
}

void sdp_pattern_add_uuid(sdp_record_t *rec, uuid_t *uuid)
{
	uuid_t *uuid128 = sdp_uuid_to_uuid128(uuid);

	SDPDBG("SvcRec : 0x%lx\n", (unsigned long)rec);
	SDPDBG("Elements in target pattern : %d\n", sdp_list_len(rec->pattern));
	SDPDBG("Trying to add : 0x%lx\n", (unsigned long)uuid128);

	if (sdp_list_find(rec->pattern, uuid128, sdp_uuid128_cmp) == NULL)
		rec->pattern = sdp_list_insert_sorted(rec->pattern, uuid128, sdp_uuid128_cmp);
	else
		free(uuid128);

	SDPDBG("Elements in target pattern : %d\n", sdp_list_len(rec->pattern));
}

void sdp_pattern_add_uuidseq(sdp_record_t *rec, sdp_list_t *seq)
{
	for (; seq; seq = seq->next) {
		uuid_t *uuid = (uuid_t *)seq->data;
		sdp_pattern_add_uuid(rec, uuid);
	}
}

/*
 * Extract a sequence of service record handles from a PDU buffer
 * and add the entries to a sdp_list_t. Note that the service record
 * handles are not in "data element sequence" form, but just like
 * an array of service handles
 */
static void extract_record_handle_seq(char *pdu, sdp_list_t **seq, int count, int *scanned)
{
	sdp_list_t *pSeq = *seq;
	char *pdata = pdu;
	int n;

	for (n = 0; n < count; n++) {
		uint32_t *pSvcRec = (uint32_t *) malloc(sizeof(uint32_t));
		*pSvcRec = ntohl(sdp_get_unaligned((uint32_t *)pdata));
		pSeq = sdp_list_append(pSeq, pSvcRec);
		pdata += sizeof(uint32_t);
		*scanned += sizeof(uint32_t);
	}
	*seq = pSeq;
}
/*
 * Generate the attribute sequence pdu form
 * from sdp_list_t elements. Return length of attr seq
 */
static int gen_dataseq_pdu(char *dst, const sdp_list_t *seq, uint8_t dtd)
{
	sdp_data_t *dataseq;
	void **types, **values;
	sdp_buf_t buf;
	int i, seqlen = sdp_list_len(seq);

	// Fill up the value and the dtd arrays
	SDPDBG("");
	
	memset(&buf, 0, sizeof(sdp_buf_t));
	buf.data = (char *)malloc(SDP_UUID_SEQ_SIZE);
	buf.buf_size = SDP_UUID_SEQ_SIZE;

	SDPDBG("Seq length : %d\n", seqlen);

	types = malloc(seqlen * sizeof(void *));
	values = malloc(seqlen * sizeof(void *));
	for (i = 0; i < seqlen; i++) {
		void *data = seq->data;
		types[i] = &dtd;
		if (SDP_IS_UUID(dtd))
			data = &((uuid_t *)data)->value;
		values[i] = data;
		seq = seq->next;
	}

	dataseq = sdp_seq_alloc(types, values, seqlen);
	SDPDBG("Data Seq : 0x%p\n", seq);
	seqlen = sdp_gen_pdu(&buf, dataseq);
	SDPDBG("Copying : %d\n", buf.data_size);
	memcpy(dst, buf.data, buf.data_size);

	sdp_data_free(dataseq);

	free(types);
	free(values);
	free(buf.data);
	return seqlen;
}

static int gen_searchseq_pdu(char *dst, const sdp_list_t *seq)
{
	uuid_t *uuid = (uuid_t *)seq->data;
	return gen_dataseq_pdu(dst, seq, uuid->type);
}

static int gen_attridseq_pdu(char *dst, const sdp_list_t *seq, uint8_t dataType)
{
	return gen_dataseq_pdu(dst, seq, dataType);
}

static int copy_cstate(char *pdata, const sdp_cstate_t *cstate)
{
	if (cstate) {
		*pdata++ = cstate->length;
		memcpy(pdata, cstate->data, cstate->length);
		return cstate->length + 1;
	}
	*pdata = 0;
	return 1;
}

/*
 * This is a service search request. 
 *
 * INPUT :
 *
 *   sdp_list_t *search_list
 *     Singly linked list containing elements of the search
 *     pattern. Each entry in the list is a UUID (DataTypeSDP_UUID16)
 *     of the service to be searched
 *
 *   uint16_t max_rec_num
 *      A 16 bit integer which tells the service, the maximum
 *      entries that the client can handle in the response. The
 *      server is obliged not to return > max_rec_num entries
 *
 * OUTPUT :
 *
 *   int return value
 *     0:
 *       The request completed successfully. This does not
 *       mean the requested services were found
 *     -1:
 *       On any failure and sets errno
 *
 *   sdp_list_t **rsp_list
 *     This variable is set on a successful return if there are
 *     non-zero service handles. It is a singly linked list of
 *     service records (sdp_record_t *)
 *
 *   uint16_t *handleCount
 *     This is a pointer to a 16 bit integer, which is set to 
 *     indicate the number of service record handles present in
 *     rec_list
 */
int sdp_service_search_req(sdp_session_t *session, const sdp_list_t *search,
			uint16_t max_rec_num, sdp_list_t **rsp)
{
	int status = 0;
	int reqsize = 0, _reqsize;
	int rspsize = 0, rsplen;
	int seqlen = 0;
	int scanned, total_rec_count, rec_count;
	char *pdata, *_pdata;
	char *reqbuf, *rspbuf;
	sdp_pdu_hdr_t *reqhdr, *rsphdr;
	sdp_cstate_t *cstate = NULL;

	reqbuf = malloc(SDP_REQ_BUFFER_SIZE);
	rspbuf = malloc(SDP_RSP_BUFFER_SIZE);
	if (!reqbuf || !rspbuf) {
		errno = ENOMEM;
		status = -1;
		goto end;
	}
	reqhdr = (sdp_pdu_hdr_t *)reqbuf;
	reqhdr->pdu_id = SDP_SVC_SEARCH_REQ;
	pdata = reqbuf + sizeof(sdp_pdu_hdr_t);
	reqsize = sizeof(sdp_pdu_hdr_t);

	// add service class IDs for search
	seqlen = gen_searchseq_pdu(pdata, search);

	SDPDBG("Data seq added : %d\n", seqlen);

	// set the length and increment the pointer
	reqsize += seqlen;
	pdata += seqlen;

	// specify the maximum svc rec count that client expects
	sdp_put_unaligned(htons(max_rec_num), (uint16_t *)pdata);
	reqsize += sizeof(uint16_t);
	pdata += sizeof(uint16_t);

	_reqsize = reqsize;
	_pdata   = pdata;
	*rsp = NULL;

	do {
		// Add continuation state or NULL (first time)
		reqsize = _reqsize + copy_cstate(_pdata, cstate);

		// Set the request header's param length
		reqhdr->plen = htons(reqsize - sizeof(sdp_pdu_hdr_t));

		reqhdr->tid  = htons(sdp_gen_tid(session));
		/*
		 * Send the request, wait for response and if
		 * no error, set the appropriate values and return
		 */
		status = sdp_send_req_w4_rsp(session, reqbuf, rspbuf, reqsize, &rspsize);
		if (status < 0)
			goto end;

		rsplen = 0;
		rsphdr = (sdp_pdu_hdr_t *)rspbuf;
		rsplen = ntohs(rsphdr->plen);

		if (rsphdr->pdu_id == SDP_ERROR_RSP) {
			SDPDBG("Status : 0x%x\n", rsphdr->pdu_id);
			status = -1;
			goto end;
		}
		scanned = 0;
		pdata = rspbuf + sizeof(sdp_pdu_hdr_t);

		// net service record match count
		total_rec_count = ntohs(sdp_get_unaligned((uint16_t *)pdata));
		pdata += sizeof(uint16_t);
		scanned += sizeof(uint16_t);
		rec_count = ntohs(sdp_get_unaligned((uint16_t *)pdata));
		pdata += sizeof(uint16_t);
		scanned += sizeof(uint16_t);

		SDPDBG("Total svc count: %d\n", total_rec_count);
		SDPDBG("Current svc count: %d\n", rec_count);
		SDPDBG("ResponseLength: %d\n", rsplen);

		if (!rec_count) {
			status = -1;
			goto end;
		}
		extract_record_handle_seq(pdata, rsp, rec_count, &scanned);
		SDPDBG("BytesScanned : %d\n", scanned);

		if (rsplen > scanned) {
			uint8_t cstate_len;

			pdata = rspbuf + sizeof(sdp_pdu_hdr_t) + scanned;
			cstate_len = *(uint8_t *)pdata;
			if (cstate_len > 0) {
				cstate = (sdp_cstate_t *)pdata;
				SDPDBG("Cont state length: %d\n", cstate_len);
			} else
				cstate = NULL;
		}
	} while (cstate);

  end:
	if (reqbuf)
		free(reqbuf);
	if (rspbuf)
		free(rspbuf);

	return status;
}

/*
 * This is a service attribute request. 
 *
 * INPUT :
 *
 *   uint32_t handle
 *     The handle of the service for which the attribute(s) are
 *     requested
 *
 *   sdp_attrreq_type_t reqtype
 *     Attribute identifiers are 16 bit unsigned integers specified
 *     in one of 2 ways described below :
 *     SDP_ATTR_REQ_INDIVIDUAL - 16bit individual identifiers
 *        They are the actual attribute identifiers in ascending order
 *
 *     SDP_ATTR_REQ_RANGE - 32bit identifier range
 *        The high-order 16bits is the start of range
 *        the low-order 16bits are the end of range
 *        0x0000 to 0xFFFF gets all attributes
 *
 *   sdp_list_t *attrid
 *     Singly linked list containing attribute identifiers desired.
 *     Every element is either a uint16_t(attrSpec = SDP_ATTR_REQ_INDIVIDUAL)  
 *     or a uint32_t(attrSpec=SDP_ATTR_REQ_RANGE)
 *
 * OUTPUT :
 *   return sdp_record_t *
 *     0:
 *       On any error and sets errno
 *     !0:
 *	 The service record
 */
sdp_record_t *sdp_service_attr_req(sdp_session_t *session, uint32_t handle, 
			sdp_attrreq_type_t reqtype, const sdp_list_t *attrids)
{
	int status = 0;
	int reqsize = 0, _reqsize;
	int rspsize = 0, rsp_count;
	int attr_list_len = 0;
	int seqlen = 0;
	char *pdata, *_pdata;
	char *reqbuf, *rspbuf;
	sdp_pdu_hdr_t *reqhdr, *rsphdr;
	sdp_cstate_t *cstate = NULL;
	uint8_t cstate_len = 0;
	sdp_buf_t rsp_concat_buf;
	sdp_record_t *rec = 0;

	if (reqtype != SDP_ATTR_REQ_INDIVIDUAL && reqtype != SDP_ATTR_REQ_RANGE) {
		errno = EINVAL;
		return 0;
	}

	reqbuf = (char *)malloc(SDP_REQ_BUFFER_SIZE);
	rspbuf = (char *)malloc(SDP_RSP_BUFFER_SIZE);
	if (!reqbuf || !rspbuf) {
		errno = ENOMEM;
		status = -1;
		goto end;
	}
	memset((char *)&rsp_concat_buf, 0, sizeof(sdp_buf_t));
	reqhdr = (sdp_pdu_hdr_t *)reqbuf;
	reqhdr->pdu_id = SDP_SVC_ATTR_REQ;

	pdata = reqbuf + sizeof(sdp_pdu_hdr_t);
	reqsize = sizeof(sdp_pdu_hdr_t);

	// add the service record handle
	sdp_put_unaligned(htonl(handle), (uint32_t *)pdata);
	reqsize += sizeof(uint32_t);
	pdata += sizeof(uint32_t);

	// specify the response limit
	sdp_put_unaligned(htons(65535), (uint16_t *)pdata);
	reqsize += sizeof(uint16_t);
	pdata += sizeof(uint16_t);

	// get attr seq PDU form
	seqlen = gen_attridseq_pdu(pdata, attrids, 
		reqtype == SDP_ATTR_REQ_INDIVIDUAL? SDP_UINT16 : SDP_UINT32);
	if (seqlen == -1) {
		errno = EINVAL;
		status = -1;
		goto end;
	}
	pdata += seqlen;
	reqsize += seqlen;
	SDPDBG("Attr list length : %d\n", seqlen);

	// save before Continuation State
	_pdata = pdata;
	_reqsize = reqsize;

	do {
		// add NULL continuation state
		reqsize = _reqsize + copy_cstate(_pdata, cstate);

		// set the request header's param length
		reqhdr->tid  = htons(sdp_gen_tid(session));
		reqhdr->plen = htons(reqsize - sizeof(sdp_pdu_hdr_t));

		status = sdp_send_req_w4_rsp(session, reqbuf, rspbuf, reqsize, &rspsize);
		if (status < 0)
			goto end;
		rsp_count = 0;
		rsphdr = (sdp_pdu_hdr_t *)rspbuf;
		if (rsphdr->pdu_id == SDP_ERROR_RSP) {
			SDPDBG("PDU ID : 0x%x\n", rsphdr->pdu_id);
			status = -1;
			goto end;
		}
		pdata = rspbuf + sizeof(sdp_pdu_hdr_t);
		rsp_count = ntohs(sdp_get_unaligned((uint16_t *)pdata));
		attr_list_len += rsp_count;
		pdata += sizeof(uint16_t);

		// if continuation state set need to re-issue request before parsing
		cstate_len = *(uint8_t *)(pdata + rsp_count);

		SDPDBG("Response id : %d\n", rsphdr->pdu_id);
		SDPDBG("Attrlist byte count : %d\n", rsp_count);
		SDPDBG("sdp_cstate_t length : %d\n", cstate_len);

		/*
		 * a split response: concatenate intermediate responses 
		 * and the last one (which has cstate_len == 0)
		 */
		if (cstate_len > 0 || rsp_concat_buf.data_size != 0) {
			char *targetPtr = NULL;

			cstate = cstate_len > 0? (sdp_cstate_t *)(pdata + rsp_count): 0;

			// build concatenated response buffer
			rsp_concat_buf.data = (char *)realloc(rsp_concat_buf.data, rsp_concat_buf.data_size + rsp_count);
			rsp_concat_buf.buf_size = rsp_concat_buf.data_size + rsp_count;
			targetPtr = rsp_concat_buf.data + rsp_concat_buf.data_size;
			memcpy(targetPtr, pdata, rsp_count);
			rsp_concat_buf.data_size += rsp_count;
		}
	} while (cstate);

	if (attr_list_len > 0) {
		int scanned = 0;
		if (rsp_concat_buf.data_size != 0)
			pdata = rsp_concat_buf.data;
		rec = sdp_extract_pdu(pdata, &scanned);

		if (!rec)
			status = -1;
	}
	
  end:
	if (reqbuf)
		free(reqbuf);
	if (rsp_concat_buf.data)
		free(rsp_concat_buf.data);
	if (rspbuf)
		free(rspbuf);
	return rec;
}

/*
 * This is a service search request combined with the service
 * attribute request. First a service class match is done and
 * for matching service, requested attributes are extracted
 *
 * INPUT :
 *
 *   sdp_list_t *search
 *     Singly linked list containing elements of the search
 *     pattern. Each entry in the list is a UUID(DataTypeSDP_UUID16)
 *     of the service to be searched
 *
 *   AttributeSpecification attrSpec
 *     Attribute identifiers are 16 bit unsigned integers specified
 *     in one of 2 ways described below :
 *     SDP_ATTR_REQ_INDIVIDUAL - 16bit individual identifiers
 *        They are the actual attribute identifiers in ascending order
 *
 *     SDP_ATTR_REQ_RANGE - 32bit identifier range
 *        The high-order 16bits is the start of range
 *        the low-order 16bits are the end of range
 *        0x0000 to 0xFFFF gets all attributes
 *
 *   sdp_list_t *attrids
 *     Singly linked list containing attribute identifiers desired.
 *     Every element is either a uint16_t(attrSpec = SDP_ATTR_REQ_INDIVIDUAL)  
 *     or a uint32_t(attrSpec=SDP_ATTR_REQ_RANGE)
 *
 * OUTPUT :
 *   int return value
 *     0:
 *       The request completed successfully. This does not
 *       mean the requested services were found
 *     -1:
 *       On any error and sets errno
 *
 *   sdp_list_t **rsp
 *     This variable is set on a successful return to point to
 *     service(s) found. Each element of this list is of type
 *     sdp_record_t* (of the services which matched the search list)
 */
int sdp_service_search_attr_req(sdp_session_t *session, const sdp_list_t *search, sdp_attrreq_type_t reqtype, const sdp_list_t *attrids, sdp_list_t **rsp)
{
	int status = 0;
	int reqsize = 0, _reqsize;
	int rspsize = 0;
	int seqlen = 0, attr_list_len = 0;
	int rsp_count = 0, cstate_len = 0;
	char *pdata, *_pdata;
	char *reqbuf, *rspbuf;
	sdp_pdu_hdr_t *reqhdr, *rsphdr;
	uint8_t dataType;
	sdp_list_t *rec_list = NULL;
	sdp_buf_t rsp_concat_buf;
	sdp_cstate_t *cstate = NULL;

	if (reqtype != SDP_ATTR_REQ_INDIVIDUAL && reqtype != SDP_ATTR_REQ_RANGE) {
		errno = EINVAL;
		return -1;
	}
	reqbuf = (char *)malloc(SDP_REQ_BUFFER_SIZE);
	rspbuf = (char *)malloc(SDP_RSP_BUFFER_SIZE);
	if (!reqbuf || !rspbuf) {
		errno = ENOMEM;
		status = -1;
		goto end;
	}

	memset((char *)&rsp_concat_buf, 0, sizeof(sdp_buf_t));
	reqhdr = (sdp_pdu_hdr_t *)reqbuf;
	reqhdr->pdu_id = SDP_SVC_SEARCH_ATTR_REQ;

	// generate PDU
	pdata = reqbuf + sizeof(sdp_pdu_hdr_t);
	reqsize = sizeof(sdp_pdu_hdr_t);

	// add service class IDs for search
	seqlen = gen_searchseq_pdu(pdata, search);

	SDPDBG("Data seq added : %d\n", seqlen);

	// now set the length and increment the pointer
	reqsize += seqlen;
	pdata += seqlen;

	sdp_put_unaligned(htons(SDP_MAX_ATTR_LEN), (uint16_t *)pdata);
	reqsize += sizeof(uint16_t);
	pdata += sizeof(uint16_t);

	SDPDBG("Max attr byte count : %d\n", SDP_MAX_ATTR_LEN);

	// get attr seq PDU form 
	seqlen = gen_attridseq_pdu(pdata, attrids,
		reqtype == SDP_ATTR_REQ_INDIVIDUAL?  SDP_UINT16: SDP_UINT32);
	if (seqlen == -1) {
		status = EINVAL;
		goto end;
	}
	pdata += seqlen;
	SDPDBG("Attr list length : %d\n", seqlen);
	reqsize += seqlen;
	*rsp = 0;

	// save before Continuation State
	_pdata = pdata;
	_reqsize = reqsize;

	do {
		reqhdr->tid = htons(sdp_gen_tid(session));

		// add continuation state (can be null)
		reqsize = _reqsize + copy_cstate(_pdata, cstate);

		// set the request header's param length
		reqhdr->plen = htons(reqsize - sizeof(sdp_pdu_hdr_t));
		rsphdr = (sdp_pdu_hdr_t *)rspbuf;
		status = sdp_send_req_w4_rsp(session, reqbuf, rspbuf, reqsize, &rspsize);
		if (status < 0) {
			SDPDBG("Status : 0x%x\n", rsphdr->pdu_id);
			goto end;
		}
	  
		if (rsphdr->pdu_id == SDP_ERROR_RSP) {
			status = -1;
			goto end;
		}
	  
		pdata = rspbuf + sizeof(sdp_pdu_hdr_t);
		rsp_count = ntohs(sdp_get_unaligned((uint16_t *)pdata));
		attr_list_len += rsp_count;
		pdata += sizeof(uint16_t);	// pdata points to attribute list
		cstate_len = *(uint8_t *)(pdata + rsp_count);

		SDPDBG("Attrlist byte count : %d\n", attr_list_len);
		SDPDBG("Response byte count : %d\n", rsp_count);
		SDPDBG("Cstate length : %d\n", cstate_len);
		/*
		 * This is a split response, need to concatenate intermediate
		 * responses and the last one which will have cstate_len == 0
		 */
		if (cstate_len > 0 || rsp_concat_buf.data_size != 0) {
			char *targetPtr = NULL;

			cstate = cstate_len > 0? (sdp_cstate_t *)(pdata + rsp_count): 0;

			// build concatenated response buffer
			rsp_concat_buf.data = (char *)realloc(rsp_concat_buf.data, rsp_concat_buf.data_size + rsp_count);
			targetPtr = rsp_concat_buf.data + rsp_concat_buf.data_size;
			rsp_concat_buf.buf_size = rsp_concat_buf.data_size + rsp_count;
			memcpy(targetPtr, pdata, rsp_count);
			rsp_concat_buf.data_size += rsp_count;
		}
	} while (cstate);

	if (attr_list_len > 0) {
		int scanned = 0;

		if (rsp_concat_buf.data_size != 0)
			pdata = rsp_concat_buf.data;

		/*
		 * Response is a sequence of sequence(s) for one or
		 * more data element sequence(s) representing services
		 * for which attributes are returned
		 */
		scanned = sdp_extract_seqtype(pdata, &dataType, &seqlen);

		SDPDBG("Bytes scanned : %d\n", scanned);
		SDPDBG("Seq length : %d\n", seqlen);

		if (scanned && seqlen) {
			pdata += scanned;
			do {
				int recsize = 0;
				sdp_record_t *rec = sdp_extract_pdu(pdata, &recsize);
				if (rec == NULL) {
					SDPERR("SVC REC is null\n");
					status = -1;
					goto end;
				}
				scanned += recsize;
				pdata += recsize;

				SDPDBG("Loc seq length : %d\n", recsize);
				SDPDBG("Svc Rec Handle : 0x%x\n", rec->handle);
				SDPDBG("Bytes scanned : %d\n", scanned);
				SDPDBG("Attrlist byte count : %d\n", attr_list_len);
				rec_list = sdp_list_append(rec_list, rec);
			} while (scanned < attr_list_len);

			SDPDBG("Successful scan of service attr lists\n");
			*rsp = rec_list;
		}
	}
  end:
	if (rsp_concat_buf.data)
		free(rsp_concat_buf.data);
	if (reqbuf)
		free(reqbuf);
	if (rspbuf)
		free(rspbuf);
	return status;
}

/*
 * Find devices in the piconet.
 */
int sdp_general_inquiry(inquiry_info *ii, int num_dev, int duration, uint8_t *found)
{
	int n = hci_inquiry(-1, 10, num_dev, NULL, &ii, 0);
	if (n < 0) {
		SDPERR("Inquiry failed:%s", strerror(errno));
		return -1;
	}
	*found = n;
	return 0;
}

int sdp_close(sdp_session_t *session)
{
	int ret = close(session->sock);
	free(session);
	return ret;
}

static inline int sdp_is_local(const bdaddr_t *device)
{
	return memcmp(device, BDADDR_LOCAL, sizeof(bdaddr_t)) == 0;
}

sdp_session_t *sdp_connect(const bdaddr_t *src, const bdaddr_t *dst, uint32_t flags)
{
	sdp_session_t *session = malloc(sizeof(sdp_session_t));
	if (!session)
		return session;
	memset(session, 0, sizeof(*session));
	session->flags = flags;
	if (sdp_is_local(dst)) {
		struct sockaddr_un sa;

		// create local unix connection
		session->sock = socket(PF_UNIX, SOCK_STREAM, 0);
		session->local = 1;
		if (session->sock >= 0) {
			sa.sun_family = AF_UNIX;
			strcpy(sa.sun_path, SDP_UNIX_PATH);
			if (connect(session->sock, (struct sockaddr *)&sa, sizeof(sa)) == 0)
				return session;
		}
	} else {
		struct sockaddr_l2 sa;

		// create L2CAP connection
		session->sock = socket(PF_BLUETOOTH, SOCK_SEQPACKET, BTPROTO_L2CAP);
		session->local = 0;
		if (session->sock >= 0) {
			sa.l2_family = AF_BLUETOOTH;
			sa.l2_psm = 0;
			if (bacmp(src, BDADDR_ANY) != 0) {
				sa.l2_bdaddr = *src;
				if (0 > bind(session->sock, (struct sockaddr *)&sa, sizeof(sa)))
					goto fail;
			}
			sa.l2_psm = htobs(SDP_PSM);
			sa.l2_bdaddr = *dst;
			do
				if (connect(session->sock, (struct sockaddr *)&sa, sizeof(sa)) == 0)
					return session;
			while (errno == EBUSY && (flags & SDP_RETRY_IF_BUSY));
		}
	}
fail:
	if (session->sock >= 0)
		close(session->sock);
	free(session);
	return 0;
}