bcmdhd.100.10.545.x/bcmxtlv.c - manifest_repos/dhd-driver - Git at Google

 /*
  * Driver O/S-independent utility routines
  *
  * Copyright (C) 1999-2019, Broadcom.
  *
  *      Unless you and Broadcom execute a separate written software license
  * agreement governing use of this software, this software is licensed to you
  * under the terms of the GNU General Public License version 2 (the "GPL"),
  * available at http://www.broadcom.com/licenses/GPLv2.php, with the
  * following added to such license:
  *
  *      As a special exception, the copyright holders of this software give you
  * permission to link this software with independent modules, and to copy and
  * distribute the resulting executable under terms of your choice, provided that
  * you also meet, for each linked independent module, the terms and conditions of
  * the license of that module.  An independent module is a module which is not
  * derived from this software.  The special exception does not apply to any
  * modifications of the software.
  *
  *      Notwithstanding the above, under no circumstances may you combine this
  * software in any way with any other Broadcom software provided under a license
  * other than the GPL, without Broadcom's express prior written consent.
  *
  *
  * <<Broadcom-WL-IPTag/Open:>>
  *
  * $Id: bcmxtlv.c 788740 2018-11-13 21:45:01Z $
  */

 #include <bcm_cfg.h>

 #include <typedefs.h>
 #include <bcmdefs.h>

 #include <stdarg.h>

 #ifdef BCMDRIVER
 #include <osl.h>
 #else /* !BCMDRIVER */
 #include <stdio.h>
 #include <string.h>
 #include <stdlib.h>
 #ifndef ASSERT
 #define ASSERT(exp)
 #endif // endif
 #endif /* !BCMDRIVER */

 #include <bcmtlv.h>
 #include <bcmendian.h>
 #include <bcmutils.h>

 int
 bcm_xtlv_hdr_size(bcm_xtlv_opts_t opts)
 {
 	int len = (int)OFFSETOF(bcm_xtlv_t, data); /* nominal */
 	if (opts & BCM_XTLV_OPTION_LENU8) --len;
 	if (opts & BCM_XTLV_OPTION_IDU8) --len;

 	return len;
 }

 bool
 bcm_valid_xtlv(const bcm_xtlv_t *elt, int buf_len, bcm_xtlv_opts_t opts)
 {
 	return elt != NULL &&
 		buf_len >= bcm_xtlv_hdr_size(opts) &&
 		buf_len  >= bcm_xtlv_size(elt, opts);
 }

 int
 bcm_xtlv_size_for_data(int dlen, bcm_xtlv_opts_t opts)
 {
 	int hsz;

 	hsz = bcm_xtlv_hdr_size(opts);
 	return ((opts & BCM_XTLV_OPTION_ALIGN32) ? ALIGN_SIZE(dlen + hsz, 4)
 		: (dlen + hsz));
 }

 int
 bcm_xtlv_size(const bcm_xtlv_t *elt, bcm_xtlv_opts_t opts)
 {
 	int size;	/* size including header, data, and any pad */
 	int len;	/* length wthout padding */

 	len = BCM_XTLV_LEN_EX(elt, opts);
 	size = bcm_xtlv_size_for_data(len, opts);
 	return size;
 }

 int
 bcm_xtlv_len(const bcm_xtlv_t *elt, bcm_xtlv_opts_t opts)
 {
 	const uint8 *lenp;
 	int len;

 	lenp = (const uint8 *)&elt->len; /* nominal */
 	if (opts & BCM_XTLV_OPTION_IDU8) {
 		--lenp;
 	}

 	if (opts & BCM_XTLV_OPTION_LENU8) {
 		len = *lenp;
 	} else if (opts & BCM_XTLV_OPTION_LENBE) {
 		len = (uint32)hton16(elt->len);
 	} else {
 		len = ltoh16_ua(lenp);
 	}

 	return len;
 }

 int
 bcm_xtlv_id(const bcm_xtlv_t *elt, bcm_xtlv_opts_t opts)
 {
 	int id = 0;
 	if (opts & BCM_XTLV_OPTION_IDU8) {
 		id =  *(const uint8 *)elt;
 	} else if (opts & BCM_XTLV_OPTION_IDBE) {
 		id = (uint32)hton16(elt->id);
 	} else {
 		id = ltoh16_ua((const uint8 *)elt);
 	}

 	return id;
 }

 bcm_xtlv_t *
 bcm_next_xtlv(const bcm_xtlv_t *elt, int *buflen, bcm_xtlv_opts_t opts)
 {
 	int sz;
 	/* advance to next elt */
 	sz = BCM_XTLV_SIZE_EX(elt, opts);
 	elt = (const bcm_xtlv_t*)((const uint8 *)elt + sz);
 	*buflen -= sz;

 	/* validate next elt */
 	if (!bcm_valid_xtlv(elt, *buflen, opts))
 		return NULL;

 	GCC_DIAGNOSTIC_PUSH_SUPPRESS_CAST();
 	return (bcm_xtlv_t *)(elt);
 	GCC_DIAGNOSTIC_POP();
 }

 int
 bcm_xtlv_buf_init(bcm_xtlvbuf_t *tlv_buf, uint8 *buf, uint16 len, bcm_xtlv_opts_t opts)
 {
 	if (!tlv_buf || !buf || !len)
 		return BCME_BADARG;

 	tlv_buf->opts = opts;
 	tlv_buf->size = len;
 	tlv_buf->head = buf;
 	tlv_buf->buf  = buf;
 	return BCME_OK;
 }

 uint16
 bcm_xtlv_buf_len(bcm_xtlvbuf_t *tbuf)
 {
 	uint16 len;

 	if (tbuf)
 		len = (uint16)(tbuf->buf - tbuf->head);
 	else
 		len = 0;

 	return len;
 }

 uint16
 bcm_xtlv_buf_rlen(bcm_xtlvbuf_t *tbuf)
 {
 	uint16 rlen;
 	if (tbuf)
 		rlen = tbuf->size - bcm_xtlv_buf_len(tbuf);
 	else
 		rlen = 0;

 	return rlen;
 }

 uint8 *
 bcm_xtlv_buf(bcm_xtlvbuf_t *tbuf)
 {
 	return tbuf ? tbuf->buf : NULL;
 }

 uint8 *
 bcm_xtlv_head(bcm_xtlvbuf_t *tbuf)
 {
 	return tbuf ? tbuf->head : NULL;
 }

 void
 bcm_xtlv_pack_xtlv(bcm_xtlv_t *xtlv, uint16 type, uint16 len, const uint8 *data,
 	bcm_xtlv_opts_t opts)
 {
 	uint8 *data_buf;
 	bcm_xtlv_opts_t mask = BCM_XTLV_OPTION_IDU8 | BCM_XTLV_OPTION_LENU8;

 	if (!(opts & mask)) {		/* default */
 		uint8 *idp = (uint8 *)xtlv;
 		uint8 *lenp = idp + sizeof(xtlv->id);
 		htol16_ua_store(type, idp);
 		htol16_ua_store(len, lenp);
 		data_buf = lenp + sizeof(uint16);
 	} else if ((opts & mask) == mask) { /* u8 id and u8 len */
 		uint8 *idp = (uint8 *)xtlv;
 		uint8 *lenp = idp + 1;
 		*idp = (uint8)type;
 		*lenp = (uint8)len;
 		data_buf = lenp + sizeof(uint8);
 	} else if (opts & BCM_XTLV_OPTION_IDU8) { /* u8 id, u16 len */
 		uint8 *idp = (uint8 *)xtlv;
 		uint8 *lenp = idp + 1;
 		*idp = (uint8)type;
 		htol16_ua_store(len, lenp);
 		data_buf = lenp + sizeof(uint16);
 	} else if (opts & BCM_XTLV_OPTION_LENU8) { /* u16 id, u8 len */
 		uint8 *idp = (uint8 *)xtlv;
 		uint8 *lenp = idp + sizeof(uint16);
 		htol16_ua_store(type, idp);
 		*lenp = (uint8)len;
 		data_buf = lenp + sizeof(uint8);
 	} else {
 		bool Unexpected_xtlv_option = TRUE;
 		BCM_REFERENCE(Unexpected_xtlv_option);
 		ASSERT(!Unexpected_xtlv_option);
 		return;
 	}

 	if (opts & BCM_XTLV_OPTION_LENU8) {
 		ASSERT(len <= 0x00ff);
 		len &= 0xff;
 	}

 	if (data != NULL)
 		memcpy(data_buf, data, len);
 }

 /* xtlv header is always packed in LE order */
 void
 bcm_xtlv_unpack_xtlv(const bcm_xtlv_t *xtlv, uint16 *type, uint16 *len,
 	const uint8 **data, bcm_xtlv_opts_t opts)
 {
 	if (type)
 		*type = (uint16)bcm_xtlv_id(xtlv, opts);
 	if (len)
 		*len = (uint16)bcm_xtlv_len(xtlv, opts);
 	if (data)
 		*data = (const uint8 *)xtlv + BCM_XTLV_HDR_SIZE_EX(opts);
 }

 int
 bcm_xtlv_put_data(bcm_xtlvbuf_t *tbuf, uint16 type, const uint8 *data, int n)
 {
 	bcm_xtlv_t *xtlv;
 	int size;

 	if (tbuf == NULL)
 		return BCME_BADARG;

 	size = bcm_xtlv_size_for_data(n, tbuf->opts);
 	if (bcm_xtlv_buf_rlen(tbuf) < size)
 		return BCME_NOMEM;

 	xtlv = (bcm_xtlv_t *)bcm_xtlv_buf(tbuf);
 	bcm_xtlv_pack_xtlv(xtlv, type, (uint16)n, data, tbuf->opts);
 	tbuf->buf += size; /* note: data may be NULL, reserves space */
 	return BCME_OK;
 }

 static int
 bcm_xtlv_put_int(bcm_xtlvbuf_t *tbuf, uint16 type, const uint8 *data, int n, int int_sz)
 {
 	bcm_xtlv_t *xtlv;
 	int xtlv_len;
 	uint8 *xtlv_data;
 	int err = BCME_OK;

 	if (tbuf == NULL) {
 		err = BCME_BADARG;
 		goto done;
 	}

 	xtlv = (bcm_xtlv_t *)bcm_xtlv_buf(tbuf);

 	/* put type and length in xtlv and reserve data space */
 	xtlv_len = n * int_sz;
 	err = bcm_xtlv_put_data(tbuf, type, NULL, xtlv_len);
 	if (err != BCME_OK)
 		goto done;

 	xtlv_data = (uint8 *)xtlv + bcm_xtlv_hdr_size(tbuf->opts);

 	/* write data w/ little-endianness into buffer - single loop, aligned access */
 	for (; n != 0; --n, xtlv_data += int_sz, data += int_sz) {
 		switch (int_sz) {
 		case sizeof(uint8):
 			break;
 		case sizeof(uint16):
 			{
 				uint16 v =  load16_ua(data);
 				htol16_ua_store(v, xtlv_data);
 				break;
 			}
 		case sizeof(uint32):
 			{
 				uint32 v = load32_ua(data);
 				htol32_ua_store(v, xtlv_data);
 				break;
 			}
 		case sizeof(uint64):
 			{
 				uint64 v = load64_ua(data);
 				htol64_ua_store(v, xtlv_data);
 				break;
 			}
 		default:
 			err = BCME_UNSUPPORTED;
 			goto done;
 		}
 	}

 done:
 	return err;
 }

 int
 bcm_xtlv_put16(bcm_xtlvbuf_t *tbuf, uint16 type, const uint16 *data, int n)
 {
 	return bcm_xtlv_put_int(tbuf, type, (const uint8 *)data, n, sizeof(uint16));
 }

 int
 bcm_xtlv_put32(bcm_xtlvbuf_t *tbuf, uint16 type, const uint32 *data, int n)
 {
 	return bcm_xtlv_put_int(tbuf, type, (const uint8 *)data, n, sizeof(uint32));
 }

 int
 bcm_xtlv_put64(bcm_xtlvbuf_t *tbuf, uint16 type, const uint64 *data, int n)
 {
 	return bcm_xtlv_put_int(tbuf, type, (const uint8 *)data, n, sizeof(uint64));
 }

 /*
  *  upacks xtlv record from buf checks the type
  *  copies data to callers buffer
  *  advances tlv pointer to next record
  *  caller's resposible for dst space check
  */
 int
 bcm_unpack_xtlv_entry(const uint8 **tlv_buf, uint16 xpct_type, uint16 xpct_len,
 	uint8 *dst_data, bcm_xtlv_opts_t opts)
 {
 	const bcm_xtlv_t *ptlv = (const bcm_xtlv_t *)*tlv_buf;
 	uint16 len;
 	uint16 type;
 	const uint8 *data;

 	ASSERT(ptlv);

 	bcm_xtlv_unpack_xtlv(ptlv, &type, &len, &data, opts);
 	if (len) {
 		if ((type != xpct_type) || (len > xpct_len))
 			return BCME_BADARG;
 		if (dst_data && data)
 			memcpy(dst_data, data, len); /* copy data to dst */
 	}

 	*tlv_buf += BCM_XTLV_SIZE_EX(ptlv, opts);
 	return BCME_OK;
 }

 /*
  *  packs user data into tlv record and advances tlv pointer to next xtlv slot
  *  buflen is used for tlv_buf space check
  */
 int
 bcm_pack_xtlv_entry(uint8 **tlv_buf, uint16 *buflen, uint16 type, uint16 len,
 	const uint8 *src_data, bcm_xtlv_opts_t opts)
 {
 	bcm_xtlv_t *ptlv = (bcm_xtlv_t *)*tlv_buf;
 	int size;

 	ASSERT(ptlv);

 	size = bcm_xtlv_size_for_data(len, opts);

 	/* copy data from tlv buffer to dst provided by user */
 	if (size > *buflen)
 		return BCME_BADLEN;

 	bcm_xtlv_pack_xtlv(ptlv, type, len, src_data, opts);

 	/* advance callers pointer to tlv buff */
 	*tlv_buf = (uint8*)(*tlv_buf) + size;
 	/* decrement the len */
 	*buflen -= (uint16)size;
 	return BCME_OK;
 }

 /*
  *  unpack all xtlv records from the issue a callback
  *  to set function one call per found tlv record
  */
 int
 bcm_unpack_xtlv_buf(void *ctx, const uint8 *tlv_buf, uint16 buflen, bcm_xtlv_opts_t opts,
 	bcm_xtlv_unpack_cbfn_t *cbfn)
 {
 	uint16 len;
 	uint16 type;
 	int res = BCME_OK;
 	int size;
 	const bcm_xtlv_t *ptlv;
 	int sbuflen = buflen;
 	const uint8 *data;
 	int hdr_size;

 	ASSERT(!buflen || tlv_buf);
 	ASSERT(!buflen || cbfn);

 	hdr_size = BCM_XTLV_HDR_SIZE_EX(opts);
 	while (sbuflen >= hdr_size) {
 		ptlv = (const bcm_xtlv_t *)tlv_buf;

 		bcm_xtlv_unpack_xtlv(ptlv, &type, &len, &data, opts);
 		size = bcm_xtlv_size_for_data(len, opts);

 		sbuflen -= size;
 		if (sbuflen < 0) /* check for buffer overrun */
 			break;

 		if ((res = cbfn(ctx, data, type, len)) != BCME_OK)
 			break;
 		tlv_buf += size;
 	}
 	return res;
 }

 int
 bcm_pack_xtlv_buf(void *ctx, uint8 *tlv_buf, uint16 buflen, bcm_xtlv_opts_t opts,
 	bcm_pack_xtlv_next_info_cbfn_t get_next, bcm_pack_xtlv_pack_next_cbfn_t pack_next,
 	int *outlen)
 {
 	int res = BCME_OK;
 	uint16 tlv_id;
 	uint16 tlv_len;
 	uint8 *startp;
 	uint8 *endp;
 	uint8 *buf;
 	bool more;
 	int size;
 	int hdr_size;

 	ASSERT(get_next && pack_next);

 	buf = tlv_buf;
 	startp = buf;
 	endp = (uint8 *)buf + buflen;
 	more = TRUE;
 	hdr_size = BCM_XTLV_HDR_SIZE_EX(opts);

 	while (more && (buf < endp)) {
 		more = get_next(ctx, &tlv_id, &tlv_len);
 		size = bcm_xtlv_size_for_data(tlv_len, opts);
 		if ((buf + size) > endp) {
 			res = BCME_BUFTOOSHORT;
 			goto done;
 		}

 		bcm_xtlv_pack_xtlv((bcm_xtlv_t *)buf, tlv_id, tlv_len, NULL, opts);
 		pack_next(ctx, tlv_id, tlv_len, buf + hdr_size);
 		buf += size;
 	}

 	if (more)
 		res = BCME_BUFTOOSHORT;

 done:
 	if (outlen) {
 		*outlen = (int)(buf - startp);
 	}
 	return res;
 }

 /*
  *  pack xtlv buffer from memory according to xtlv_desc_t
  */
 int
 bcm_pack_xtlv_buf_from_mem(uint8 **tlv_buf, uint16 *buflen, const xtlv_desc_t *items,
 	bcm_xtlv_opts_t opts)
 {
 	int res = BCME_OK;
 	uint8 *ptlv = *tlv_buf;

 	while (items->type != 0) {
 		if (items->len && items->ptr) {
 			res = bcm_pack_xtlv_entry(&ptlv, buflen, items->type,
 				items->len, items->ptr, opts);
 			if (res != BCME_OK)
 				break;
 		}
 		items++;
 	}

 	*tlv_buf = ptlv; /* update the external pointer */
 	return res;
 }

 /*
  *  unpack xtlv buffer to memory according to xtlv_desc_t
  *
  */
 int
 bcm_unpack_xtlv_buf_to_mem(uint8 *tlv_buf, int *buflen, xtlv_desc_t *items,
 	bcm_xtlv_opts_t opts)
 {
 	int res = BCME_OK;
 	bcm_xtlv_t *elt;

 	elt =  bcm_valid_xtlv((bcm_xtlv_t *)tlv_buf, *buflen, opts) ? (bcm_xtlv_t *)tlv_buf : NULL;
 	if (!elt || !items) {
 		res = BCME_BADARG;
 		return res;
 	}

 	for (; elt != NULL && res == BCME_OK; elt = bcm_next_xtlv(elt, buflen, opts)) {
 		/*  find matches in desc_t items  */
 		xtlv_desc_t *dst_desc = items;
 		uint16 len, type;
 		const uint8 *data;

 		bcm_xtlv_unpack_xtlv(elt, &type, &len, &data, opts);
 		while (dst_desc->type != 0) {
 			if (type == dst_desc->type) {
 				if (len != dst_desc->len) {
 					res = BCME_BADLEN;
 				} else {
 					memcpy(dst_desc->ptr, data, len);
 				}
 				break;
 			}
 			dst_desc++;
 		}
 	}

 	if (res == BCME_OK && *buflen != 0)
 		res =  BCME_BUFTOOSHORT;

 	return res;
 }

 /*
  * return data pointer of a given ID from xtlv buffer.
  * If the specified xTLV ID is found, on return *datalen will contain
  * the the data length of the xTLV ID.
  */
 const uint8*
 bcm_get_data_from_xtlv_buf(const uint8 *tlv_buf, uint16 buflen, uint16 id,
 	uint16 *datalen, bcm_xtlv_opts_t opts)
 {
 	const uint8 *retptr = NULL;
 	uint16 type, len;
 	int size;
 	const bcm_xtlv_t *ptlv;
 	int sbuflen = buflen;
 	const uint8 *data;
 	int hdr_size;

 	hdr_size = BCM_XTLV_HDR_SIZE_EX(opts);

 	/* Init the datalength */
 	if (datalen) {
 		*datalen = 0;
 	}
 	while (sbuflen >= hdr_size) {
 		ptlv = (const bcm_xtlv_t *)tlv_buf;
 		bcm_xtlv_unpack_xtlv(ptlv, &type, &len, &data, opts);

 		size = bcm_xtlv_size_for_data(len, opts);
 		sbuflen -= size;
 		if (sbuflen < 0) /* buffer overrun? */
 			break;

 		if (id == type) {
 			retptr = data;
 			if (datalen)
 				*datalen = len;
 			break;
 		}

 		tlv_buf += size;
 	}

 	return retptr;
 }

 bcm_xtlv_t*
 bcm_xtlv_bcopy(const bcm_xtlv_t *src, bcm_xtlv_t *dst,
 	int src_buf_len, int dst_buf_len, bcm_xtlv_opts_t opts)
 {
 	bcm_xtlv_t *dst_next = NULL;
 	src =  (src && bcm_valid_xtlv(src, src_buf_len, opts)) ? src : NULL;
 	if (src && dst) {
 		uint16 type;
 		uint16 len;
 		const uint8 *data;
 		int size;
 		bcm_xtlv_unpack_xtlv(src, &type, &len, &data, opts);
 		size = bcm_xtlv_size_for_data(len, opts);
 		if (size <= dst_buf_len) {
 			bcm_xtlv_pack_xtlv(dst, type, len, data, opts);
 			dst_next = (bcm_xtlv_t *)((uint8 *)dst + size);
 		}
 	}

 	return dst_next;
 }
	/*
	* Driver O/S-independent utility routines
	*
	* Copyright (C) 1999-2019, Broadcom.
	*
	* Unless you and Broadcom execute a separate written software license
	* agreement governing use of this software, this software is licensed to you
	* under the terms of the GNU General Public License version 2 (the "GPL"),
	* available at http://www.broadcom.com/licenses/GPLv2.php, with the
	* following added to such license:
	*
	* As a special exception, the copyright holders of this software give you
	* permission to link this software with independent modules, and to copy and
	* distribute the resulting executable under terms of your choice, provided that
	* you also meet, for each linked independent module, the terms and conditions of
	* the license of that module. An independent module is a module which is not
	* derived from this software. The special exception does not apply to any
	* modifications of the software.
	*
	* Notwithstanding the above, under no circumstances may you combine this
	* software in any way with any other Broadcom software provided under a license
	* other than the GPL, without Broadcom's express prior written consent.
	*
	*
	* <<Broadcom-WL-IPTag/Open:>>
	*
	* $Id: bcmxtlv.c 788740 2018-11-13 21:45:01Z $
	*/

	#include <bcm_cfg.h>

	#include <typedefs.h>
	#include <bcmdefs.h>

	#include <stdarg.h>

	#ifdef BCMDRIVER
	#include <osl.h>
	#else /* !BCMDRIVER */
	#include <stdio.h>
	#include <string.h>
	#include <stdlib.h>
	#ifndef ASSERT
	#define ASSERT(exp)
	#endif // endif
	#endif /* !BCMDRIVER */

	#include <bcmtlv.h>
	#include <bcmendian.h>
	#include <bcmutils.h>

	int
	bcm_xtlv_hdr_size(bcm_xtlv_opts_t opts)
	{
	int len = (int)OFFSETOF(bcm_xtlv_t, data); /* nominal */
	if (opts & BCM_XTLV_OPTION_LENU8) --len;
	if (opts & BCM_XTLV_OPTION_IDU8) --len;

	return len;
	}

	bool
	bcm_valid_xtlv(const bcm_xtlv_t *elt, int buf_len, bcm_xtlv_opts_t opts)
	{
	return elt != NULL &&
	buf_len >= bcm_xtlv_hdr_size(opts) &&
	buf_len >= bcm_xtlv_size(elt, opts);
	}

	int
	bcm_xtlv_size_for_data(int dlen, bcm_xtlv_opts_t opts)
	{
	int hsz;

	hsz = bcm_xtlv_hdr_size(opts);
	return ((opts & BCM_XTLV_OPTION_ALIGN32) ? ALIGN_SIZE(dlen + hsz, 4)
	: (dlen + hsz));
	}

	int
	bcm_xtlv_size(const bcm_xtlv_t *elt, bcm_xtlv_opts_t opts)
	{
	int size; /* size including header, data, and any pad */
	int len; /* length wthout padding */

	len = BCM_XTLV_LEN_EX(elt, opts);
	size = bcm_xtlv_size_for_data(len, opts);
	return size;
	}

	int
	bcm_xtlv_len(const bcm_xtlv_t *elt, bcm_xtlv_opts_t opts)
	{
	const uint8 *lenp;
	int len;

	lenp = (const uint8 )&elt->len; / nominal */
	if (opts & BCM_XTLV_OPTION_IDU8) {
	--lenp;
	}

	if (opts & BCM_XTLV_OPTION_LENU8) {
	len = *lenp;
	} else if (opts & BCM_XTLV_OPTION_LENBE) {
	len = (uint32)hton16(elt->len);
	} else {
	len = ltoh16_ua(lenp);
	}

	return len;
	}

	int
	bcm_xtlv_id(const bcm_xtlv_t *elt, bcm_xtlv_opts_t opts)
	{
	int id = 0;
	if (opts & BCM_XTLV_OPTION_IDU8) {
	id = (const uint8 )elt;
	} else if (opts & BCM_XTLV_OPTION_IDBE) {
	id = (uint32)hton16(elt->id);
	} else {
	id = ltoh16_ua((const uint8 *)elt);
	}

	return id;
	}

	bcm_xtlv_t *
	bcm_next_xtlv(const bcm_xtlv_t elt, int buflen, bcm_xtlv_opts_t opts)
	{
	int sz;
	/* advance to next elt */
	sz = BCM_XTLV_SIZE_EX(elt, opts);
	elt = (const bcm_xtlv_t)((const uint8 )elt + sz);
	*buflen -= sz;

	/* validate next elt */
	if (!bcm_valid_xtlv(elt, *buflen, opts))
	return NULL;

	GCC_DIAGNOSTIC_PUSH_SUPPRESS_CAST();
	return (bcm_xtlv_t *)(elt);
	GCC_DIAGNOSTIC_POP();
	}

	int
	bcm_xtlv_buf_init(bcm_xtlvbuf_t tlv_buf, uint8 buf, uint16 len, bcm_xtlv_opts_t opts)
	{
	if (!tlv_buf \|\| !buf \|\| !len)
	return BCME_BADARG;

	tlv_buf->opts = opts;
	tlv_buf->size = len;
	tlv_buf->head = buf;
	tlv_buf->buf = buf;
	return BCME_OK;
	}

	uint16
	bcm_xtlv_buf_len(bcm_xtlvbuf_t *tbuf)
	{
	uint16 len;

	if (tbuf)
	len = (uint16)(tbuf->buf - tbuf->head);
	else
	len = 0;

	return len;
	}

	uint16
	bcm_xtlv_buf_rlen(bcm_xtlvbuf_t *tbuf)
	{
	uint16 rlen;
	if (tbuf)
	rlen = tbuf->size - bcm_xtlv_buf_len(tbuf);
	else
	rlen = 0;

	return rlen;
	}

	uint8 *
	bcm_xtlv_buf(bcm_xtlvbuf_t *tbuf)
	{
	return tbuf ? tbuf->buf : NULL;
	}

	uint8 *
	bcm_xtlv_head(bcm_xtlvbuf_t *tbuf)
	{
	return tbuf ? tbuf->head : NULL;
	}

	void
	bcm_xtlv_pack_xtlv(bcm_xtlv_t xtlv, uint16 type, uint16 len, const uint8 data,
	bcm_xtlv_opts_t opts)
	{
	uint8 *data_buf;
	bcm_xtlv_opts_t mask = BCM_XTLV_OPTION_IDU8 \| BCM_XTLV_OPTION_LENU8;

	if (!(opts & mask)) { /* default */
	uint8 idp = (uint8 )xtlv;
	uint8 *lenp = idp + sizeof(xtlv->id);
	htol16_ua_store(type, idp);
	htol16_ua_store(len, lenp);
	data_buf = lenp + sizeof(uint16);
	} else if ((opts & mask) == mask) { /* u8 id and u8 len */
	uint8 idp = (uint8 )xtlv;
	uint8 *lenp = idp + 1;
	*idp = (uint8)type;
	*lenp = (uint8)len;
	data_buf = lenp + sizeof(uint8);
	} else if (opts & BCM_XTLV_OPTION_IDU8) { /* u8 id, u16 len */
	uint8 idp = (uint8 )xtlv;
	uint8 *lenp = idp + 1;
	*idp = (uint8)type;
	htol16_ua_store(len, lenp);
	data_buf = lenp + sizeof(uint16);
	} else if (opts & BCM_XTLV_OPTION_LENU8) { /* u16 id, u8 len */
	uint8 idp = (uint8 )xtlv;
	uint8 *lenp = idp + sizeof(uint16);
	htol16_ua_store(type, idp);
	*lenp = (uint8)len;
	data_buf = lenp + sizeof(uint8);
	} else {
	bool Unexpected_xtlv_option = TRUE;
	BCM_REFERENCE(Unexpected_xtlv_option);
	ASSERT(!Unexpected_xtlv_option);
	return;
	}

	if (opts & BCM_XTLV_OPTION_LENU8) {
	ASSERT(len <= 0x00ff);
	len &= 0xff;
	}

	if (data != NULL)
	memcpy(data_buf, data, len);
	}

	/* xtlv header is always packed in LE order */
	void
	bcm_xtlv_unpack_xtlv(const bcm_xtlv_t xtlv, uint16 type, uint16 *len,
	const uint8 **data, bcm_xtlv_opts_t opts)
	{
	if (type)
	*type = (uint16)bcm_xtlv_id(xtlv, opts);
	if (len)
	*len = (uint16)bcm_xtlv_len(xtlv, opts);
	if (data)
	data = (const uint8 )xtlv + BCM_XTLV_HDR_SIZE_EX(opts);
	}

	int
	bcm_xtlv_put_data(bcm_xtlvbuf_t tbuf, uint16 type, const uint8 data, int n)
	{
	bcm_xtlv_t *xtlv;
	int size;

	if (tbuf == NULL)
	return BCME_BADARG;

	size = bcm_xtlv_size_for_data(n, tbuf->opts);
	if (bcm_xtlv_buf_rlen(tbuf) < size)
	return BCME_NOMEM;

	xtlv = (bcm_xtlv_t *)bcm_xtlv_buf(tbuf);
	bcm_xtlv_pack_xtlv(xtlv, type, (uint16)n, data, tbuf->opts);
	tbuf->buf += size; /* note: data may be NULL, reserves space */
	return BCME_OK;
	}

	static int
	bcm_xtlv_put_int(bcm_xtlvbuf_t tbuf, uint16 type, const uint8 data, int n, int int_sz)
	{
	bcm_xtlv_t *xtlv;
	int xtlv_len;
	uint8 *xtlv_data;
	int err = BCME_OK;

	if (tbuf == NULL) {
	err = BCME_BADARG;
	goto done;
	}

	xtlv = (bcm_xtlv_t *)bcm_xtlv_buf(tbuf);

	/* put type and length in xtlv and reserve data space */
	xtlv_len = n * int_sz;
	err = bcm_xtlv_put_data(tbuf, type, NULL, xtlv_len);
	if (err != BCME_OK)
	goto done;

	xtlv_data = (uint8 *)xtlv + bcm_xtlv_hdr_size(tbuf->opts);

	/* write data w/ little-endianness into buffer - single loop, aligned access */
	for (; n != 0; --n, xtlv_data += int_sz, data += int_sz) {
	switch (int_sz) {
	case sizeof(uint8):
	break;
	case sizeof(uint16):
	{
	uint16 v = load16_ua(data);
	htol16_ua_store(v, xtlv_data);
	break;
	}
	case sizeof(uint32):
	{
	uint32 v = load32_ua(data);
	htol32_ua_store(v, xtlv_data);
	break;
	}
	case sizeof(uint64):
	{
	uint64 v = load64_ua(data);
	htol64_ua_store(v, xtlv_data);
	break;
	}
	default:
	err = BCME_UNSUPPORTED;
	goto done;
	}
	}

	done:
	return err;
	}

	int
	bcm_xtlv_put16(bcm_xtlvbuf_t tbuf, uint16 type, const uint16 data, int n)
	{
	return bcm_xtlv_put_int(tbuf, type, (const uint8 *)data, n, sizeof(uint16));
	}

	int
	bcm_xtlv_put32(bcm_xtlvbuf_t tbuf, uint16 type, const uint32 data, int n)
	{
	return bcm_xtlv_put_int(tbuf, type, (const uint8 *)data, n, sizeof(uint32));
	}

	int
	bcm_xtlv_put64(bcm_xtlvbuf_t tbuf, uint16 type, const uint64 data, int n)
	{
	return bcm_xtlv_put_int(tbuf, type, (const uint8 *)data, n, sizeof(uint64));
	}

	/*
	* upacks xtlv record from buf checks the type
	* copies data to callers buffer
	* advances tlv pointer to next record
	* caller's resposible for dst space check
	*/
	int
	bcm_unpack_xtlv_entry(const uint8 **tlv_buf, uint16 xpct_type, uint16 xpct_len,
	uint8 *dst_data, bcm_xtlv_opts_t opts)
	{
	const bcm_xtlv_t ptlv = (const bcm_xtlv_t )*tlv_buf;
	uint16 len;
	uint16 type;
	const uint8 *data;

	ASSERT(ptlv);

	bcm_xtlv_unpack_xtlv(ptlv, &type, &len, &data, opts);
	if (len) {
	if ((type != xpct_type) \|\| (len > xpct_len))
	return BCME_BADARG;
	if (dst_data && data)
	memcpy(dst_data, data, len); /* copy data to dst */
	}

	*tlv_buf += BCM_XTLV_SIZE_EX(ptlv, opts);
	return BCME_OK;
	}

	/*
	* packs user data into tlv record and advances tlv pointer to next xtlv slot
	* buflen is used for tlv_buf space check
	*/
	int
	bcm_pack_xtlv_entry(uint8 *tlv_buf, uint16 buflen, uint16 type, uint16 len,
	const uint8 *src_data, bcm_xtlv_opts_t opts)
	{
	bcm_xtlv_t ptlv = (bcm_xtlv_t )*tlv_buf;
	int size;

	ASSERT(ptlv);

	size = bcm_xtlv_size_for_data(len, opts);

	/* copy data from tlv buffer to dst provided by user */
	if (size > *buflen)
	return BCME_BADLEN;

	bcm_xtlv_pack_xtlv(ptlv, type, len, src_data, opts);

	/* advance callers pointer to tlv buff */
	tlv_buf = (uint8)(*tlv_buf) + size;
	/* decrement the len */
	*buflen -= (uint16)size;
	return BCME_OK;
	}

	/*
	* unpack all xtlv records from the issue a callback
	* to set function one call per found tlv record
	*/
	int
	bcm_unpack_xtlv_buf(void ctx, const uint8 tlv_buf, uint16 buflen, bcm_xtlv_opts_t opts,
	bcm_xtlv_unpack_cbfn_t *cbfn)
	{
	uint16 len;
	uint16 type;
	int res = BCME_OK;
	int size;
	const bcm_xtlv_t *ptlv;
	int sbuflen = buflen;
	const uint8 *data;
	int hdr_size;

	ASSERT(!buflen \|\| tlv_buf);
	ASSERT(!buflen \|\| cbfn);

	hdr_size = BCM_XTLV_HDR_SIZE_EX(opts);
	while (sbuflen >= hdr_size) {
	ptlv = (const bcm_xtlv_t *)tlv_buf;

	bcm_xtlv_unpack_xtlv(ptlv, &type, &len, &data, opts);
	size = bcm_xtlv_size_for_data(len, opts);

	sbuflen -= size;
	if (sbuflen < 0) /* check for buffer overrun */
	break;

	if ((res = cbfn(ctx, data, type, len)) != BCME_OK)
	break;
	tlv_buf += size;
	}
	return res;
	}

	int
	bcm_pack_xtlv_buf(void ctx, uint8 tlv_buf, uint16 buflen, bcm_xtlv_opts_t opts,
	bcm_pack_xtlv_next_info_cbfn_t get_next, bcm_pack_xtlv_pack_next_cbfn_t pack_next,
	int *outlen)
	{
	int res = BCME_OK;
	uint16 tlv_id;
	uint16 tlv_len;
	uint8 *startp;
	uint8 *endp;
	uint8 *buf;
	bool more;
	int size;
	int hdr_size;

	ASSERT(get_next && pack_next);

	buf = tlv_buf;
	startp = buf;
	endp = (uint8 *)buf + buflen;
	more = TRUE;
	hdr_size = BCM_XTLV_HDR_SIZE_EX(opts);

	while (more && (buf < endp)) {
	more = get_next(ctx, &tlv_id, &tlv_len);
	size = bcm_xtlv_size_for_data(tlv_len, opts);
	if ((buf + size) > endp) {
	res = BCME_BUFTOOSHORT;
	goto done;
	}

	bcm_xtlv_pack_xtlv((bcm_xtlv_t *)buf, tlv_id, tlv_len, NULL, opts);
	pack_next(ctx, tlv_id, tlv_len, buf + hdr_size);
	buf += size;
	}

	if (more)
	res = BCME_BUFTOOSHORT;

	done:
	if (outlen) {
	*outlen = (int)(buf - startp);
	}
	return res;
	}

	/*
	* pack xtlv buffer from memory according to xtlv_desc_t
	*/
	int
	bcm_pack_xtlv_buf_from_mem(uint8 *tlv_buf, uint16 buflen, const xtlv_desc_t *items,
	bcm_xtlv_opts_t opts)
	{
	int res = BCME_OK;
	uint8 ptlv = tlv_buf;

	while (items->type != 0) {
	if (items->len && items->ptr) {
	res = bcm_pack_xtlv_entry(&ptlv, buflen, items->type,
	items->len, items->ptr, opts);
	if (res != BCME_OK)
	break;
	}
	items++;
	}

	tlv_buf = ptlv; / update the external pointer */
	return res;
	}

	/*
	* unpack xtlv buffer to memory according to xtlv_desc_t
	*
	*/
	int
	bcm_unpack_xtlv_buf_to_mem(uint8 tlv_buf, int buflen, xtlv_desc_t *items,
	bcm_xtlv_opts_t opts)
	{
	int res = BCME_OK;
	bcm_xtlv_t *elt;

	elt = bcm_valid_xtlv((bcm_xtlv_t )tlv_buf, buflen, opts) ? (bcm_xtlv_t *)tlv_buf : NULL;
	if (!elt \|\| !items) {
	res = BCME_BADARG;
	return res;
	}

	for (; elt != NULL && res == BCME_OK; elt = bcm_next_xtlv(elt, buflen, opts)) {
	/* find matches in desc_t items */
	xtlv_desc_t *dst_desc = items;
	uint16 len, type;
	const uint8 *data;

	bcm_xtlv_unpack_xtlv(elt, &type, &len, &data, opts);
	while (dst_desc->type != 0) {
	if (type == dst_desc->type) {
	if (len != dst_desc->len) {
	res = BCME_BADLEN;
	} else {
	memcpy(dst_desc->ptr, data, len);
	}
	break;
	}
	dst_desc++;
	}
	}

	if (res == BCME_OK && *buflen != 0)
	res = BCME_BUFTOOSHORT;

	return res;
	}

	/*
	* return data pointer of a given ID from xtlv buffer.
	* If the specified xTLV ID is found, on return *datalen will contain
	* the the data length of the xTLV ID.
	*/
	const uint8*
	bcm_get_data_from_xtlv_buf(const uint8 *tlv_buf, uint16 buflen, uint16 id,
	uint16 *datalen, bcm_xtlv_opts_t opts)
	{
	const uint8 *retptr = NULL;
	uint16 type, len;
	int size;
	const bcm_xtlv_t *ptlv;
	int sbuflen = buflen;
	const uint8 *data;
	int hdr_size;

	hdr_size = BCM_XTLV_HDR_SIZE_EX(opts);

	/* Init the datalength */
	if (datalen) {
	*datalen = 0;
	}
	while (sbuflen >= hdr_size) {
	ptlv = (const bcm_xtlv_t *)tlv_buf;
	bcm_xtlv_unpack_xtlv(ptlv, &type, &len, &data, opts);

	size = bcm_xtlv_size_for_data(len, opts);
	sbuflen -= size;
	if (sbuflen < 0) /* buffer overrun? */
	break;

	if (id == type) {
	retptr = data;
	if (datalen)
	*datalen = len;
	break;
	}

	tlv_buf += size;
	}

	return retptr;
	}

	bcm_xtlv_t*
	bcm_xtlv_bcopy(const bcm_xtlv_t src, bcm_xtlv_t dst,
	int src_buf_len, int dst_buf_len, bcm_xtlv_opts_t opts)
	{
	bcm_xtlv_t *dst_next = NULL;
	src = (src && bcm_valid_xtlv(src, src_buf_len, opts)) ? src : NULL;
	if (src && dst) {
	uint16 type;
	uint16 len;
	const uint8 *data;
	int size;
	bcm_xtlv_unpack_xtlv(src, &type, &len, &data, opts);
	size = bcm_xtlv_size_for_data(len, opts);
	if (size <= dst_buf_len) {
	bcm_xtlv_pack_xtlv(dst, type, len, data, opts);
	dst_next = (bcm_xtlv_t )((uint8 )dst + size);
	}
	}

	return dst_next;
	}