tcpdump-4.3.0/forces.h - nest-learning-thermostat/5.1/tcpdump - Git at Google

 /*
  * Copyright (c) 1982, 1986, 1993
  *	The Regents of the University of California.  All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  * 3. All advertising materials mentioning features or use of this software
  *    must display the following acknowledgement:
  *	This product includes software developed by the University of
  *	California, Berkeley and its contributors.
  * 4. Neither the name of the University nor the names of its contributors
  *    may be used to endorse or promote products derived from this software
  *    without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
  * SUCH DAMAGE.
  *
  * Copyright (c) 2009 Mojatatu Networks, Inc
  *
  */

 /*
  * Per draft-ietf-forces-protocol-22
 */
 #define	ForCES_VERS	1
 #define	ForCES_HDRL	24
 #define	ForCES_ALNL	4U
 #define TLV_HDRL	4
 #define ILV_HDRL	8

 #define TOM_RSVD 	0x0
 #define TOM_ASSNSETUP 	0x1
 #define TOM_ASSNTEARD 	0x2
 #define TOM_CONFIG 	0x3
 #define TOM_QUERY 	0x4
 #define TOM_EVENTNOT 	0x5
 #define TOM_PKTREDIR 	0x6
 #define TOM_HEARTBT 	0x0F
 #define TOM_ASSNSETREP 	0x11
 #define TOM_CONFIGREP 	0x13
 #define TOM_QUERYREP 	0x14

 /*
  * tom_h Flags: resv1(8b):maxtlvs(4b):resv2(2b):mintlv(2b)
 */
 #define ZERO_TTLV	0x01
 #define ZERO_MORE_TTLV	0x02
 #define ONE_MORE_TTLV	0x04
 #define ZERO_TLV	0x00
 #define ONE_TLV		0x10
 #define TWO_TLV		0x20
 #define MAX_TLV		0xF0

 #define TTLV_T1		(ONE_MORE_TTLV|ONE_TLV)
 #define TTLV_T2		(ONE_MORE_TTLV|MAX_TLV)

 struct tom_h {
 	u_int32_t v;
 	u_int16_t flags;
 	u_int16_t op_msk;
 	const char *s;
 	int (*print) (register const u_char * pptr, register u_int len,
 		      u_int16_t op_msk, int indent);
 };

 enum {
 	TOM_RSV_I,
 	TOM_ASS_I,
 	TOM_AST_I,
 	TOM_CFG_I,
 	TOM_QRY_I,
 	TOM_EVN_I,
 	TOM_RED_I,
 	TOM_HBT_I,
 	TOM_ASR_I,
 	TOM_CNR_I,
 	TOM_QRR_I,
 	_TOM_RSV_MAX
 };
 #define TOM_MAX_IND (_TOM_RSV_MAX - 1)

 int lfbselect_print(register const u_char * pptr, register u_int len,
 		    u_int16_t op_msk, int indent);
 int redirect_print(register const u_char * pptr, register u_int len,
 		   u_int16_t op_msk, int indent);
 int asrtlv_print(register const u_char * pptr, register u_int len,
 		 u_int16_t op_msk, int indent);
 int asttlv_print(register const u_char * pptr, register u_int len,
 		 u_int16_t op_msk, int indent);
 int gentltlv_print(register const u_char * pptr, register u_int len,
 		   u_int16_t op_msk, int indent);
 int print_metailv(register const u_char * pptr, register u_int len,
 	      u_int16_t op_msk, int indent);
 int print_metatlv(register const u_char * pptr, register u_int len,
 	      u_int16_t op_msk, int indent);
 int print_reddata(register const u_char * pptr, register u_int len,
 	      u_int16_t op_msk, int indent);

 static inline int tom_valid(u_int8_t tom)
 {
 	if (tom > 0) {
 		if (tom >= 0x7 && tom <= 0xe)
 			return 0;
 		if (tom == 0x10)
 			return 0;
 		if (tom > 0x14)
 			return 0;
 		return 1;
 	} else
 		return 0;
 }

 static inline const char *ForCES_node(u_int32_t node)
 {
 	if (node <= 0x3FFFFFFF)
 		return "FE";
 	if (node >= 0x40000000 && node <= 0x7FFFFFFF)
 		return "CE";
 	if (node >= 0xC0000000 && node <= 0xFFFFFFEF)
 		return "AllMulticast";
 	if (node == 0xFFFFFFFD)
 		return "AllCEsBroadcast";
 	if (node == 0xFFFFFFFE)
 		return "AllFEsBroadcast";
 	if (node == 0xFFFFFFFF)
 		return "AllBroadcast";

 	return "ForCESreserved";

 }

 static inline const char *ForCES_ACKp(u_int32_t flg)
 {
 	if (flg == 0x0)
 		return "NoACK";
 	if (flg == 0x1)
 		return "SuccessACK";
 	if (flg == 0x2)
 		return "FailureACK";
 	if (flg == 0x3)
 		return "AlwaysACK";
 	return "ACKUnknown";
 }

 static inline const char *ForCES_EMp(u_int32_t flg)
 {
 	if (flg == 0x0)
 		return "EMReserved";
 	if (flg == 0x1)
 		return "execute-all-or-none";
 	if (flg == 0x2)
 		return "execute-until-failure";
 	if (flg == 0x3)
 		return "continue-execute-on-failure";
 	return "EMUnknown";
 }

 static inline const char *ForCES_ATp(u_int32_t flg)
 {
 	if (flg == 0x0)
 		return "Standalone";
 	if (flg == 0x1)
 		return "2PCtransaction";
 	return "ATUnknown";
 }

 static inline const char *ForCES_TPp(u_int32_t flg)
 {
 	if (flg == 0x0)
 		return "StartofTransaction";
 	if (flg == 0x1)
 		return "MiddleofTransaction";
 	if (flg == 0x2)
 		return "EndofTransaction";
 	if (flg == 0x3)
 		return "abort";
 	return "TPUnknown";
 }

 /*
  * Structure of forces header, naked of TLVs.
  */
 struct forcesh {
 	u_int8_t fm_vrsvd;	/* version and reserved */
 #define ForCES_V(forcesh)	((forcesh)->fm_vrsvd >> 4)
 	u_int8_t fm_tom;	/* type of message */
 	u_int16_t fm_len;	/* total length * 4 bytes */
 #define ForCES_BLN(forcesh)	((u_int32_t)(EXTRACT_16BITS(&(forcesh)->fm_len) << 2))
 	u_int32_t fm_sid;	/* Source ID */
 #define ForCES_SID(forcesh)	EXTRACT_32BITS(&(forcesh)->fm_sid)
 	u_int32_t fm_did;	/* Destination ID */
 #define ForCES_DID(forcesh)	EXTRACT_32BITS(&(forcesh)->fm_did)
 	u_int8_t fm_cor[8];	/* correlator */
 	u_int32_t fm_flags;	/* flags */
 #define ForCES_ACK(forcesh)	((EXTRACT_32BITS(&(forcesh)->fm_flags)&0xC0000000) >> 30)
 #define ForCES_PRI(forcesh)	((EXTRACT_32BITS(&(forcesh)->fm_flags)&0x38000000) >> 27)
 #define ForCES_RS1(forcesh)	((EXTRACT_32BITS(&(forcesh)->fm_flags)&0x07000000) >> 24)
 #define ForCES_EM(forcesh)	((EXTRACT_32BITS(&(forcesh)->fm_flags)&0x00C00000) >> 22)
 #define ForCES_AT(forcesh)	((EXTRACT_32BITS(&(forcesh)->fm_flags)&0x00200000) >> 21)
 #define ForCES_TP(forcesh)	((EXTRACT_32BITS(&(forcesh)->fm_flags)&0x00180000) >> 19)
 #define ForCES_RS2(forcesh)	((EXTRACT_32BITS(&(forcesh)->fm_flags)&0x0007FFFF) >> 0)
 };

 #define ForCES_HLN_VALID(fhl,tlen) ((tlen) >= ForCES_HDRL && \
 				   (fhl) >= ForCES_HDRL && \
 				   (fhl) == (tlen))

 #define F_LFB_RSVD 0x0
 #define F_LFB_FEO 0x1
 #define F_LFB_FEPO 0x2
 const struct tok ForCES_LFBs[] = {
 	{F_LFB_RSVD, "Invalid TLV"},
 	{F_LFB_FEO, "FEObj LFB"},
 	{F_LFB_FEPO, "FEProtoObj LFB"},
 	{0, NULL}
 };

 int forces_type_print(register const u_char * pptr, const struct forcesh *fhdr,
 		  register u_int mlen, const struct tom_h *tops);

 enum {
 	F_OP_RSV,
 	F_OP_SET,
 	F_OP_SETPROP,
 	F_OP_SETRESP,
 	F_OP_SETPRESP,
 	F_OP_DEL,
 	F_OP_DELRESP,
 	F_OP_GET,
 	F_OP_GETPROP,
 	F_OP_GETRESP,
 	F_OP_GETPRESP,
 	F_OP_REPORT,
 	F_OP_COMMIT,
 	F_OP_RCOMMIT,
 	F_OP_RTRCOMP,
 	_F_OP_MAX
 };

 #define F_OP_MAX	(_F_OP_MAX - 1)
 enum {
 	B_OP_SET = 1 << (F_OP_SET - 1),
 	B_OP_SETPROP = 1 << (F_OP_SETPROP - 1),
 	B_OP_SETRESP = 1 << (F_OP_SETRESP - 1),
 	B_OP_SETPRESP = 1 << (F_OP_SETPRESP - 1),
 	B_OP_DEL = 1 << (F_OP_DEL - 1),
 	B_OP_DELRESP = 1 << (F_OP_DELRESP - 1),
 	B_OP_GET = 1 << (F_OP_GET - 1),
 	B_OP_GETPROP = 1 << (F_OP_GETPROP - 1),
 	B_OP_GETRESP = 1 << (F_OP_GETRESP - 1),
 	B_OP_GETPRESP = 1 << (F_OP_GETPRESP - 1),
 	B_OP_REPORT = 1 << (F_OP_REPORT - 1),
 	B_OP_COMMIT = 1 << (F_OP_COMMIT - 1),
 	B_OP_RCOMMIT = 1 << (F_OP_RCOMMIT - 1),
 	B_OP_RTRCOMP = 1 << (F_OP_RTRCOMP - 1),
 };

 struct optlv_h {
 	u_int16_t flags;
 	u_int16_t op_msk;
 	const char *s;
 	int (*print) (register const u_char * pptr, register u_int len,
 		      u_int16_t op_msk, int indent);
 };

 int genoptlv_print(register const u_char * pptr, register u_int len,
 		   u_int16_t op_msk, int indent);
 int recpdoptlv_print(register const u_char * pptr, register u_int len,
 		     u_int16_t op_msk, int indent);
 int invoptlv_print(register const u_char * pptr, register u_int len,
 		   u_int16_t op_msk, int indent);

 #define OP_MIN_SIZ 8
 struct pathdata_h {
 	u_int16_t pflags;
 	u_int16_t pIDcnt;
 };

 #define	B_FULLD		0x1
 #define	B_SPARD 	0x2
 #define B_RESTV		0x4
 #define B_KEYIN		0x8

 static const struct optlv_h OPTLV_msg[F_OP_MAX + 1] = {
 	/* F_OP_RSV */ {ZERO_TTLV, 0, "Invalid OPTLV", invoptlv_print},
 	/* F_OP_SET */ {TTLV_T2, B_FULLD | B_SPARD, " Set", recpdoptlv_print},
 	/* F_OP_SETPROP */
 	    {TTLV_T2, B_FULLD | B_SPARD, " SetProp", recpdoptlv_print},
 	/* F_OP_SETRESP */ {TTLV_T2, B_RESTV, " SetResp", recpdoptlv_print},
 	/* F_OP_SETPRESP */ {TTLV_T2, B_RESTV, " SetPropResp", recpdoptlv_print},
 	/* F_OP_DEL */ {ZERO_TTLV, 0, " Del", recpdoptlv_print},
 	/* F_OP_DELRESP */ {TTLV_T2, B_RESTV, " DelResp", recpdoptlv_print},
 	/* F_OP_GET */ {ZERO_TTLV, 0, " Get", recpdoptlv_print},
 	/* F_OP_GETPROP */ {ZERO_TTLV, 0, " GetProp", recpdoptlv_print},
 	/* F_OP_GETRESP */
 	    {TTLV_T2, B_FULLD | B_SPARD | B_RESTV, " GetResp", recpdoptlv_print},
 	/* F_OP_GETPRESP */
 	    {TTLV_T2, B_FULLD | B_RESTV, " GetPropResp", recpdoptlv_print},
 	/* F_OP_REPORT */
 	    {TTLV_T2, B_FULLD | B_SPARD, " Report", recpdoptlv_print},
 	/* F_OP_COMMIT */ {ZERO_TTLV, 0, " Commit", NULL},
 	/* F_OP_RCOMMIT */ {TTLV_T1, B_RESTV, " RCommit", genoptlv_print},
 	/* F_OP_RTRCOMP */ {ZERO_TTLV, 0, " RTRCOMP", NULL},
 };

 static inline const struct optlv_h *get_forces_optlv_h(u_int16_t opt)
 {
 	if (opt > F_OP_MAX || opt <= F_OP_RSV)
 		return &OPTLV_msg[F_OP_RSV];

 	return &OPTLV_msg[opt];
 }

 #define IND_SIZE 256
 #define IND_CHR ' '
 #define IND_PREF '\n'
 #define IND_SUF 0x0
 char ind_buf[IND_SIZE];

 static inline char *indent_pr(int indent, int nlpref)
 {
 	int i = 0;
 	char *r = ind_buf;

 	if (indent > (IND_SIZE - 1))
 		indent = IND_SIZE - 1;

 	if (nlpref) {
 		r[i] = IND_PREF;
 		i++;
 		indent--;
 	}

 	while (--indent >= 0)
 		r[i++] = IND_CHR;

 	r[i] = IND_SUF;
 	return r;
 }

 static inline int op_valid(u_int16_t op, u_int16_t mask)
 {
 	int opb = 1 << (op - 1);

 	if (op == 0)
 		return 0;
 	if (opb & mask)
 		return 1;
 	/* I guess we should allow vendor operations? */
 	if (op >= 0x8000)
 		return 1;
 	return 0;
 }

 #define F_TLV_RSVD	0x0000
 #define F_TLV_REDR	0x0001
 #define F_TLV_ASRS	0x0010
 #define F_TLV_ASRT	0x0011
 #define F_TLV_LFBS	0x1000
 #define F_TLV_PDAT	0x0110
 #define F_TLV_KEYI	0x0111
 #define F_TLV_FULD	0x0112
 #define F_TLV_SPAD	0x0113
 #define F_TLV_REST	0x0114
 #define F_TLV_METD	0x0115
 #define F_TLV_REDD	0x0116
 #define F_TLV_VNST	0x8000

 static const struct tok ForCES_TLV[] = {
 	{F_TLV_RSVD, "Invalid TLV"},
 	{F_TLV_REDR, "REDIRECT TLV"},
 	{F_TLV_ASRS, "ASResult TLV"},
 	{F_TLV_ASRT, "ASTreason TLV"},
 	{F_TLV_LFBS, "LFBselect TLV"},
 	{F_TLV_PDAT, "PATH-DATA TLV"},
 	{F_TLV_KEYI, "KEYINFO TLV"},
 	{F_TLV_FULD, "FULLDATA TLV"},
 	{F_TLV_SPAD, "SPARSEDATA TLV"},
 	{F_TLV_REST, "RESULT TLV"},
 	{F_TLV_METD, "METADATA TLV"},
 	{F_TLV_REDD, "REDIRECTDATA TLV"},
 	{0, NULL}
 };

 #define TLV_HLN	4
 static inline int ttlv_valid(u_int16_t ttlv)
 {
 	if (ttlv > 0) {
 		if (ttlv == 1 || ttlv == 0x1000)
 			return 1;
 		if (ttlv >= 0x10 && ttlv <= 0x11)
 			return 1;
 		if (ttlv >= 0x110 && ttlv <= 0x116)
 			return 1;
 		if (ttlv >= 0x8000)
 			return 0;	/* XXX: */
 	}

 	return 0;
 }

 struct forces_ilv {
 	u_int32_t type;
 	u_int32_t length;
 };

 struct forces_tlv {
 	u_int16_t type;
 	u_int16_t length;
 };

 int otlv_print(const struct forces_tlv *otlv, u_int16_t op_msk, int indent);

 #define F_ALN_LEN(len) ( ((len)+ForCES_ALNL-1) & ~(ForCES_ALNL-1) )
 #define	GET_TOP_TLV(fhdr) ((struct forces_tlv *)((fhdr) + sizeof (struct forcesh)))
 #define TLV_SET_LEN(len)  (F_ALN_LEN(TLV_HDRL) + (len))
 #define TLV_ALN_LEN(len)  F_ALN_LEN(TLV_SET_LEN(len))
 #define TLV_RDAT_LEN(tlv) ((int)(EXTRACT_16BITS(&(tlv)->length) - TLV_SET_LEN(0))
 #define TLV_DATA(tlvp)   ((void*)(((char*)(tlvp)) + TLV_SET_LEN(0)))
 #define GO_NXT_TLV(tlv,rlen) ((rlen) -= F_ALN_LEN(EXTRACT_16BITS(&(tlv)->length)), \
 		              (struct forces_tlv*)(((char*)(tlv)) \
 				      + F_ALN_LEN(EXTRACT_16BITS(&(tlv)->length))))
 #define ILV_SET_LEN(len)  (F_ALN_LEN(ILV_HDRL) + (len))
 #define ILV_ALN_LEN(len)  F_ALN_LEN(ILV_SET_LEN(len))
 #define ILV_RDAT_LEN(ilv) ((int)(EXTRACT_32BITS(&(ilv)->length)) - ILV_SET_LEN(0))
 #define ILV_DATA(ilvp)   ((void*)(((char*)(ilvp)) + ILV_SET_LEN(0)))
 #define GO_NXT_ILV(ilv,rlen) ((rlen) -= F_ALN_LEN(EXTRACT_32BITS(&(ilv)->length)), \
 		              (struct forces_ilv *)(((char*)(ilv)) \
 				      + F_ALN_LEN(EXTRACT_32BITS(&(ilv)->length))))
 #define INVALID_RLEN -1
 #define INVALID_STLN -2
 #define INVALID_LTLN -3
 #define INVALID_ALEN -4

 static const struct tok ForCES_TLV_err[] = {
 	{INVALID_RLEN, "Invalid total length"},
 	{INVALID_STLN, "xLV too short"},
 	{INVALID_LTLN, "xLV too long"},
 	{INVALID_ALEN, "data padding missing"},
 	{0, NULL}
 };

 static inline int tlv_valid(const struct forces_tlv *tlv, u_int rlen)
 {
 	if (rlen < TLV_HDRL)
 		return INVALID_RLEN;
 	if (EXTRACT_16BITS(&tlv->length) < TLV_HDRL)
 		return INVALID_STLN;
 	if (EXTRACT_16BITS(&tlv->length) > rlen)
 		return INVALID_LTLN;
 	if (rlen < F_ALN_LEN(EXTRACT_16BITS(&tlv->length)))
 		return INVALID_ALEN;

 	return 0;
 }

 static inline int ilv_valid(const struct forces_ilv *ilv, u_int rlen)
 {
 	if (rlen < ILV_HDRL)
 		return INVALID_RLEN;
 	if (EXTRACT_32BITS(&ilv->length) < ILV_HDRL)
 		return INVALID_STLN;
 	if (EXTRACT_32BITS(&ilv->length) > rlen)
 		return INVALID_LTLN;
 	if (rlen < F_ALN_LEN(EXTRACT_32BITS(&ilv->length)))
 		return INVALID_ALEN;

 	return 0;
 }

 struct forces_lfbsh {
 	u_int32_t class;
 	u_int32_t instance;
 };

 #define ASSNS_OPS (B_OP_REPORT)
 #define CFG_OPS	(B_OP_SET|B_OP_SETPROP|B_OP_DEL|B_OP_COMMIT|B_OP_RTRCOMP)
 #define CFG_ROPS (B_OP_SETRESP|B_OP_SETPRESP|B_OP_DELRESP|B_OP_RCOMMIT)
 #define CFG_QY (B_OP_GET|B_OP_GETPROP)
 #define CFG_QYR (B_OP_GETRESP|B_OP_GETPRESP)
 #define CFG_EVN (B_OP_REPORT)

 static const struct tom_h ForCES_msg[TOM_MAX_IND + 1] = {
 	/* TOM_RSV_I */ {TOM_RSVD, ZERO_TTLV, 0, "Invalid message", NULL},
 	/* TOM_ASS_I */ {TOM_ASSNSETUP, ZERO_MORE_TTLV | TWO_TLV, ASSNS_OPS,
 		       "Association Setup", lfbselect_print},
 	/* TOM_AST_I */
 	    {TOM_ASSNTEARD, TTLV_T1, 0, "Association TearDown", asttlv_print},
 	/* TOM_CFG_I */ {TOM_CONFIG, TTLV_T2, CFG_OPS, "Config", lfbselect_print},
 	/* TOM_QRY_I */ {TOM_QUERY, TTLV_T2, CFG_QY, "Query", lfbselect_print},
 	/* TOM_EVN_I */ {TOM_EVENTNOT, TTLV_T1, CFG_EVN, "Event Notification",
 		       lfbselect_print},
 	/* TOM_RED_I */
 	    {TOM_PKTREDIR, TTLV_T2, 0, "Packet Redirect", redirect_print},
 	/* TOM_HBT_I */ {TOM_HEARTBT, ZERO_TTLV, 0, "HeartBeat", NULL},
 	/* TOM_ASR_I */
 	    {TOM_ASSNSETREP, TTLV_T1, 0, "Association Response", asrtlv_print},
 	/* TOM_CNR_I */ {TOM_CONFIGREP, TTLV_T2, CFG_ROPS, "Config Response",
 		       lfbselect_print},
 	/* TOM_QRR_I */
 	    {TOM_QUERYREP, TTLV_T2, CFG_QYR, "Query Response", lfbselect_print},
 };

 static inline const struct tom_h *get_forces_tom(u_int8_t tom)
 {
 	int i;
 	for (i = TOM_RSV_I; i <= TOM_MAX_IND; i++) {
 		const struct tom_h *th = &ForCES_msg[i];
 		if (th->v == tom)
 			return th;
 	}
 	return &ForCES_msg[TOM_RSV_I];
 }

 struct pdata_ops {
 	u_int32_t v;
 	u_int16_t flags;
 	u_int16_t op_msk;
 	const char *s;
 	int (*print) (register const u_char * pptr, register u_int len,
 		      u_int16_t op_msk, int indent);
 };

 enum {
 	PD_RSV_I,
 	PD_SEL_I,
 	PD_FDT_I,
 	PD_SDT_I,
 	PD_RES_I,
 	PD_PDT_I,
 	_PD_RSV_MAX
 };
 #define PD_MAX_IND (_TOM_RSV_MAX - 1)

 static inline int pd_valid(u_int16_t pd)
 {
 	if (pd >= F_TLV_PDAT && pd <= F_TLV_REST)
 		return 1;
 	return 0;
 }

 static inline void chk_op_type(u_int16_t type, u_int16_t msk, u_int16_t omsk)
 {
 	if (type != F_TLV_PDAT) {
 		if (msk & B_KEYIN) {
 			if (type != F_TLV_KEYI) {
 				printf
 				    ("Based on flags expected KEYINFO TLV!\n");
 			}
 		} else {
 			if (!(msk & omsk)) {
 				printf
 				    ("Illegal DATA encoding for type 0x%x programmed %x got %x \n",
 				     type, omsk, msk);
 			}
 		}
 	}

 }

 int fdatatlv_print(register const u_char * pptr, register u_int len,
 		   u_int16_t op_msk, int indent);
 int sdatailv_print(register const u_char * pptr, register u_int len,
 	       u_int16_t op_msk, int indent);
 int sdatatlv_print(register const u_char * pptr, register u_int len,
 		   u_int16_t op_msk, int indent);
 int pdatatlv_print(register const u_char * pptr, register u_int len,
 		   u_int16_t op_msk, int indent);
 int pkeyitlv_print(register const u_char * pptr, register u_int len,
 		   u_int16_t op_msk, int indent);

 int pdatacnt_print(register const u_char * pptr, register u_int len,
 	       u_int16_t IDcnt, u_int16_t op_msk, int indent);
 int pdata_print(register const u_char * pptr, register u_int len,
 	    u_int16_t op_msk, int indent);

 int prestlv_print(register const u_char * pptr, register u_int len,
 		  u_int16_t op_msk, int indent);
 #define F_SELKEY 1

 struct res_val {
 	u_int8_t result;
 	u_int8_t resv1;
 	u_int16_t resv2;
 };

 static const struct pdata_ops ForCES_pdata[PD_MAX_IND + 1] = {
 	/* PD_RSV_I */ {0, 0, 0, "Invalid message", NULL},
 	/* PD_SEL_I */ {F_TLV_KEYI, 0, 0, "KEYINFO TLV", pkeyitlv_print},
 	/* PD_FDT_I */ {F_TLV_FULD, 0, B_FULLD, "FULLDATA TLV", fdatatlv_print},
 	/* PD_SDT_I */ {F_TLV_SPAD, 0, B_SPARD, "SPARSEDATA TLV", sdatatlv_print},
 	/* PD_RES_I */ {F_TLV_REST, 0, B_RESTV, "RESULT TLV", prestlv_print},
 	/* PD_PDT_I */
 	    {F_TLV_PDAT, 0, 0, "Inner PATH-DATA TLV", recpdoptlv_print},
 };

 static inline const struct pdata_ops *get_forces_pd(u_int16_t pd)
 {
 	int i;
 	for (i = PD_RSV_I + 1; i <= PD_MAX_IND; i++) {
 		const struct pdata_ops *pdo = &ForCES_pdata[i];
 		if (pdo->v == pd)
 			return pdo;
 	}
 	return &ForCES_pdata[TOM_RSV_I];
 }

 enum {
 	E_SUCCESS,
 	E_INVALID_HEADER,
 	E_LENGTH_MISMATCH,
 	E_VERSION_MISMATCH,
 	E_INVALID_DESTINATION_PID,
 	E_LFB_UNKNOWN,
 	E_LFB_NOT_FOUND,
 	E_LFB_INSTANCE_ID_NOT_FOUND,
 	E_INVALID_PATH,
 	E_COMPONENT_DOES_NOT_EXIST,
 	E_EXISTS,
 	E_NOT_FOUND,
 	E_READ_ONLY,
 	E_INVALID_ARRAY_CREATION,
 	E_VALUE_OUT_OF_RANGE,
 	E_CONTENTS_TOO_LONG,
 	E_INVALID_PARAMETERS,
 	E_INVALID_MESSAGE_TYPE,
 	E_INVALID_FLAGS,
 	E_INVALID_TLV,
 	E_EVENT_ERROR,
 	E_NOT_SUPPORTED,
 	E_MEMORY_ERROR,
 	E_INTERNAL_ERROR,
 	/* 0x18-0xFE are reserved .. */
 	E_UNSPECIFIED_ERROR = 0XFF
 };

 const struct tok ForCES_errs[] = {
 	{E_SUCCESS, "SUCCESS"},
 	{E_INVALID_HEADER, "INVALID HEADER"},
 	{E_LENGTH_MISMATCH, "LENGTH MISMATCH"},
 	{E_VERSION_MISMATCH, "VERSION MISMATCH"},
 	{E_INVALID_DESTINATION_PID, "INVALID DESTINATION PID"},
 	{E_LFB_UNKNOWN, "LFB UNKNOWN"},
 	{E_LFB_NOT_FOUND, "LFB NOT FOUND"},
 	{E_LFB_INSTANCE_ID_NOT_FOUND, "LFB INSTANCE ID NOT FOUND"},
 	{E_INVALID_PATH, "INVALID PATH"},
 	{E_COMPONENT_DOES_NOT_EXIST, "COMPONENT DOES NOT EXIST"},
 	{E_EXISTS, "EXISTS ALREADY"},
 	{E_NOT_FOUND, "NOT FOUND"},
 	{E_READ_ONLY, "READ ONLY"},
 	{E_INVALID_ARRAY_CREATION, "INVALID ARRAY CREATION"},
 	{E_VALUE_OUT_OF_RANGE, "VALUE OUT OF RANGE"},
 	{E_CONTENTS_TOO_LONG, "CONTENTS TOO LONG"},
 	{E_INVALID_PARAMETERS, "INVALID PARAMETERS"},
 	{E_INVALID_MESSAGE_TYPE, "INVALID MESSAGE TYPE"},
 	{E_INVALID_FLAGS, "INVALID FLAGS"},
 	{E_INVALID_TLV, "INVALID TLV"},
 	{E_EVENT_ERROR, "EVENT ERROR"},
 	{E_NOT_SUPPORTED, "NOT SUPPORTED"},
 	{E_MEMORY_ERROR, "MEMORY ERROR"},
 	{E_INTERNAL_ERROR, "INTERNAL ERROR"},
 	{E_UNSPECIFIED_ERROR, "UNSPECIFIED ERROR"},
 	{0, NULL}
 };
	/*
	* Copyright (c) 1982, 1986, 1993
	* The Regents of the University of California. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	* 3. All advertising materials mentioning features or use of this software
	* must display the following acknowledgement:
	* This product includes software developed by the University of
	* California, Berkeley and its contributors.
	* 4. Neither the name of the University nor the names of its contributors
	* may be used to endorse or promote products derived from this software
	* without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
	* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
	* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
	* SUCH DAMAGE.
	*
	* Copyright (c) 2009 Mojatatu Networks, Inc
	*
	*/

	/*
	* Per draft-ietf-forces-protocol-22
	*/
	#define ForCES_VERS 1
	#define ForCES_HDRL 24
	#define ForCES_ALNL 4U
	#define TLV_HDRL 4
	#define ILV_HDRL 8

	#define TOM_RSVD 0x0
	#define TOM_ASSNSETUP 0x1
	#define TOM_ASSNTEARD 0x2
	#define TOM_CONFIG 0x3
	#define TOM_QUERY 0x4
	#define TOM_EVENTNOT 0x5
	#define TOM_PKTREDIR 0x6
	#define TOM_HEARTBT 0x0F
	#define TOM_ASSNSETREP 0x11
	#define TOM_CONFIGREP 0x13
	#define TOM_QUERYREP 0x14

	/*
	* tom_h Flags: resv1(8b):maxtlvs(4b):resv2(2b):mintlv(2b)
	*/
	#define ZERO_TTLV 0x01
	#define ZERO_MORE_TTLV 0x02
	#define ONE_MORE_TTLV 0x04
	#define ZERO_TLV 0x00
	#define ONE_TLV 0x10
	#define TWO_TLV 0x20
	#define MAX_TLV 0xF0

	#define TTLV_T1 (ONE_MORE_TTLV\|ONE_TLV)
	#define TTLV_T2 (ONE_MORE_TTLV\|MAX_TLV)

	struct tom_h {
	u_int32_t v;
	u_int16_t flags;
	u_int16_t op_msk;
	const char *s;
	int (print) (register const u_char pptr, register u_int len,
	u_int16_t op_msk, int indent);
	};

	enum {
	TOM_RSV_I,
	TOM_ASS_I,
	TOM_AST_I,
	TOM_CFG_I,
	TOM_QRY_I,
	TOM_EVN_I,
	TOM_RED_I,
	TOM_HBT_I,
	TOM_ASR_I,
	TOM_CNR_I,
	TOM_QRR_I,
	_TOM_RSV_MAX
	};
	#define TOM_MAX_IND (_TOM_RSV_MAX - 1)

	int lfbselect_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int redirect_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int asrtlv_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int asttlv_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int gentltlv_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int print_metailv(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int print_metatlv(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int print_reddata(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);

	static inline int tom_valid(u_int8_t tom)
	{
	if (tom > 0) {
	if (tom >= 0x7 && tom <= 0xe)
	return 0;
	if (tom == 0x10)
	return 0;
	if (tom > 0x14)
	return 0;
	return 1;
	} else
	return 0;
	}

	static inline const char *ForCES_node(u_int32_t node)
	{
	if (node <= 0x3FFFFFFF)
	return "FE";
	if (node >= 0x40000000 && node <= 0x7FFFFFFF)
	return "CE";
	if (node >= 0xC0000000 && node <= 0xFFFFFFEF)
	return "AllMulticast";
	if (node == 0xFFFFFFFD)
	return "AllCEsBroadcast";
	if (node == 0xFFFFFFFE)
	return "AllFEsBroadcast";
	if (node == 0xFFFFFFFF)
	return "AllBroadcast";

	return "ForCESreserved";

	}

	static inline const char *ForCES_ACKp(u_int32_t flg)
	{
	if (flg == 0x0)
	return "NoACK";
	if (flg == 0x1)
	return "SuccessACK";
	if (flg == 0x2)
	return "FailureACK";
	if (flg == 0x3)
	return "AlwaysACK";
	return "ACKUnknown";
	}

	static inline const char *ForCES_EMp(u_int32_t flg)
	{
	if (flg == 0x0)
	return "EMReserved";
	if (flg == 0x1)
	return "execute-all-or-none";
	if (flg == 0x2)
	return "execute-until-failure";
	if (flg == 0x3)
	return "continue-execute-on-failure";
	return "EMUnknown";
	}

	static inline const char *ForCES_ATp(u_int32_t flg)
	{
	if (flg == 0x0)
	return "Standalone";
	if (flg == 0x1)
	return "2PCtransaction";
	return "ATUnknown";
	}

	static inline const char *ForCES_TPp(u_int32_t flg)
	{
	if (flg == 0x0)
	return "StartofTransaction";
	if (flg == 0x1)
	return "MiddleofTransaction";
	if (flg == 0x2)
	return "EndofTransaction";
	if (flg == 0x3)
	return "abort";
	return "TPUnknown";
	}

	/*
	* Structure of forces header, naked of TLVs.
	*/
	struct forcesh {
	u_int8_t fm_vrsvd; /* version and reserved */
	#define ForCES_V(forcesh) ((forcesh)->fm_vrsvd >> 4)
	u_int8_t fm_tom; /* type of message */
	u_int16_t fm_len; /* total length * 4 bytes */
	#define ForCES_BLN(forcesh) ((u_int32_t)(EXTRACT_16BITS(&(forcesh)->fm_len) << 2))
	u_int32_t fm_sid; /* Source ID */
	#define ForCES_SID(forcesh) EXTRACT_32BITS(&(forcesh)->fm_sid)
	u_int32_t fm_did; /* Destination ID */
	#define ForCES_DID(forcesh) EXTRACT_32BITS(&(forcesh)->fm_did)
	u_int8_t fm_cor[8]; /* correlator */
	u_int32_t fm_flags; /* flags */
	#define ForCES_ACK(forcesh) ((EXTRACT_32BITS(&(forcesh)->fm_flags)&0xC0000000) >> 30)
	#define ForCES_PRI(forcesh) ((EXTRACT_32BITS(&(forcesh)->fm_flags)&0x38000000) >> 27)
	#define ForCES_RS1(forcesh) ((EXTRACT_32BITS(&(forcesh)->fm_flags)&0x07000000) >> 24)
	#define ForCES_EM(forcesh) ((EXTRACT_32BITS(&(forcesh)->fm_flags)&0x00C00000) >> 22)
	#define ForCES_AT(forcesh) ((EXTRACT_32BITS(&(forcesh)->fm_flags)&0x00200000) >> 21)
	#define ForCES_TP(forcesh) ((EXTRACT_32BITS(&(forcesh)->fm_flags)&0x00180000) >> 19)
	#define ForCES_RS2(forcesh) ((EXTRACT_32BITS(&(forcesh)->fm_flags)&0x0007FFFF) >> 0)
	};

	#define ForCES_HLN_VALID(fhl,tlen) ((tlen) >= ForCES_HDRL && \
	(fhl) >= ForCES_HDRL && \
	(fhl) == (tlen))

	#define F_LFB_RSVD 0x0
	#define F_LFB_FEO 0x1
	#define F_LFB_FEPO 0x2
	const struct tok ForCES_LFBs[] = {
	{F_LFB_RSVD, "Invalid TLV"},
	{F_LFB_FEO, "FEObj LFB"},
	{F_LFB_FEPO, "FEProtoObj LFB"},
	{0, NULL}
	};

	int forces_type_print(register const u_char * pptr, const struct forcesh *fhdr,
	register u_int mlen, const struct tom_h *tops);

	enum {
	F_OP_RSV,
	F_OP_SET,
	F_OP_SETPROP,
	F_OP_SETRESP,
	F_OP_SETPRESP,
	F_OP_DEL,
	F_OP_DELRESP,
	F_OP_GET,
	F_OP_GETPROP,
	F_OP_GETRESP,
	F_OP_GETPRESP,
	F_OP_REPORT,
	F_OP_COMMIT,
	F_OP_RCOMMIT,
	F_OP_RTRCOMP,
	_F_OP_MAX
	};

	#define F_OP_MAX (_F_OP_MAX - 1)
	enum {
	B_OP_SET = 1 << (F_OP_SET - 1),
	B_OP_SETPROP = 1 << (F_OP_SETPROP - 1),
	B_OP_SETRESP = 1 << (F_OP_SETRESP - 1),
	B_OP_SETPRESP = 1 << (F_OP_SETPRESP - 1),
	B_OP_DEL = 1 << (F_OP_DEL - 1),
	B_OP_DELRESP = 1 << (F_OP_DELRESP - 1),
	B_OP_GET = 1 << (F_OP_GET - 1),
	B_OP_GETPROP = 1 << (F_OP_GETPROP - 1),
	B_OP_GETRESP = 1 << (F_OP_GETRESP - 1),
	B_OP_GETPRESP = 1 << (F_OP_GETPRESP - 1),
	B_OP_REPORT = 1 << (F_OP_REPORT - 1),
	B_OP_COMMIT = 1 << (F_OP_COMMIT - 1),
	B_OP_RCOMMIT = 1 << (F_OP_RCOMMIT - 1),
	B_OP_RTRCOMP = 1 << (F_OP_RTRCOMP - 1),
	};

	struct optlv_h {
	u_int16_t flags;
	u_int16_t op_msk;
	const char *s;
	int (print) (register const u_char pptr, register u_int len,
	u_int16_t op_msk, int indent);
	};

	int genoptlv_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int recpdoptlv_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int invoptlv_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);

	#define OP_MIN_SIZ 8
	struct pathdata_h {
	u_int16_t pflags;
	u_int16_t pIDcnt;
	};

	#define B_FULLD 0x1
	#define B_SPARD 0x2
	#define B_RESTV 0x4
	#define B_KEYIN 0x8

	static const struct optlv_h OPTLV_msg[F_OP_MAX + 1] = {
	/* F_OP_RSV */ {ZERO_TTLV, 0, "Invalid OPTLV", invoptlv_print},
	/* F_OP_SET */ {TTLV_T2, B_FULLD \| B_SPARD, " Set", recpdoptlv_print},
	/* F_OP_SETPROP */
	{TTLV_T2, B_FULLD \| B_SPARD, " SetProp", recpdoptlv_print},
	/* F_OP_SETRESP */ {TTLV_T2, B_RESTV, " SetResp", recpdoptlv_print},
	/* F_OP_SETPRESP */ {TTLV_T2, B_RESTV, " SetPropResp", recpdoptlv_print},
	/* F_OP_DEL */ {ZERO_TTLV, 0, " Del", recpdoptlv_print},
	/* F_OP_DELRESP */ {TTLV_T2, B_RESTV, " DelResp", recpdoptlv_print},
	/* F_OP_GET */ {ZERO_TTLV, 0, " Get", recpdoptlv_print},
	/* F_OP_GETPROP */ {ZERO_TTLV, 0, " GetProp", recpdoptlv_print},
	/* F_OP_GETRESP */
	{TTLV_T2, B_FULLD \| B_SPARD \| B_RESTV, " GetResp", recpdoptlv_print},
	/* F_OP_GETPRESP */
	{TTLV_T2, B_FULLD \| B_RESTV, " GetPropResp", recpdoptlv_print},
	/* F_OP_REPORT */
	{TTLV_T2, B_FULLD \| B_SPARD, " Report", recpdoptlv_print},
	/* F_OP_COMMIT */ {ZERO_TTLV, 0, " Commit", NULL},
	/* F_OP_RCOMMIT */ {TTLV_T1, B_RESTV, " RCommit", genoptlv_print},
	/* F_OP_RTRCOMP */ {ZERO_TTLV, 0, " RTRCOMP", NULL},
	};

	static inline const struct optlv_h *get_forces_optlv_h(u_int16_t opt)
	{
	if (opt > F_OP_MAX \|\| opt <= F_OP_RSV)
	return &OPTLV_msg[F_OP_RSV];

	return &OPTLV_msg[opt];
	}

	#define IND_SIZE 256
	#define IND_CHR ' '
	#define IND_PREF '\n'
	#define IND_SUF 0x0
	char ind_buf[IND_SIZE];

	static inline char *indent_pr(int indent, int nlpref)
	{
	int i = 0;
	char *r = ind_buf;

	if (indent > (IND_SIZE - 1))
	indent = IND_SIZE - 1;

	if (nlpref) {
	r[i] = IND_PREF;
	i++;
	indent--;
	}

	while (--indent >= 0)
	r[i++] = IND_CHR;

	r[i] = IND_SUF;
	return r;
	}

	static inline int op_valid(u_int16_t op, u_int16_t mask)
	{
	int opb = 1 << (op - 1);

	if (op == 0)
	return 0;
	if (opb & mask)
	return 1;
	/* I guess we should allow vendor operations? */
	if (op >= 0x8000)
	return 1;
	return 0;
	}

	#define F_TLV_RSVD 0x0000
	#define F_TLV_REDR 0x0001
	#define F_TLV_ASRS 0x0010
	#define F_TLV_ASRT 0x0011
	#define F_TLV_LFBS 0x1000
	#define F_TLV_PDAT 0x0110
	#define F_TLV_KEYI 0x0111
	#define F_TLV_FULD 0x0112
	#define F_TLV_SPAD 0x0113
	#define F_TLV_REST 0x0114
	#define F_TLV_METD 0x0115
	#define F_TLV_REDD 0x0116
	#define F_TLV_VNST 0x8000

	static const struct tok ForCES_TLV[] = {
	{F_TLV_RSVD, "Invalid TLV"},
	{F_TLV_REDR, "REDIRECT TLV"},
	{F_TLV_ASRS, "ASResult TLV"},
	{F_TLV_ASRT, "ASTreason TLV"},
	{F_TLV_LFBS, "LFBselect TLV"},
	{F_TLV_PDAT, "PATH-DATA TLV"},
	{F_TLV_KEYI, "KEYINFO TLV"},
	{F_TLV_FULD, "FULLDATA TLV"},
	{F_TLV_SPAD, "SPARSEDATA TLV"},
	{F_TLV_REST, "RESULT TLV"},
	{F_TLV_METD, "METADATA TLV"},
	{F_TLV_REDD, "REDIRECTDATA TLV"},
	{0, NULL}
	};

	#define TLV_HLN 4
	static inline int ttlv_valid(u_int16_t ttlv)
	{
	if (ttlv > 0) {
	if (ttlv == 1 \|\| ttlv == 0x1000)
	return 1;
	if (ttlv >= 0x10 && ttlv <= 0x11)
	return 1;
	if (ttlv >= 0x110 && ttlv <= 0x116)
	return 1;
	if (ttlv >= 0x8000)
	return 0; /* XXX: */
	}

	return 0;
	}

	struct forces_ilv {
	u_int32_t type;
	u_int32_t length;
	};

	struct forces_tlv {
	u_int16_t type;
	u_int16_t length;
	};

	int otlv_print(const struct forces_tlv *otlv, u_int16_t op_msk, int indent);

	#define F_ALN_LEN(len) ( ((len)+ForCES_ALNL-1) & ~(ForCES_ALNL-1) )
	#define GET_TOP_TLV(fhdr) ((struct forces_tlv *)((fhdr) + sizeof (struct forcesh)))
	#define TLV_SET_LEN(len) (F_ALN_LEN(TLV_HDRL) + (len))
	#define TLV_ALN_LEN(len) F_ALN_LEN(TLV_SET_LEN(len))
	#define TLV_RDAT_LEN(tlv) ((int)(EXTRACT_16BITS(&(tlv)->length) - TLV_SET_LEN(0))
	#define TLV_DATA(tlvp) ((void)(((char)(tlvp)) + TLV_SET_LEN(0)))
	#define GO_NXT_TLV(tlv,rlen) ((rlen) -= F_ALN_LEN(EXTRACT_16BITS(&(tlv)->length)), \
	(struct forces_tlv)(((char)(tlv)) \
	+ F_ALN_LEN(EXTRACT_16BITS(&(tlv)->length))))
	#define ILV_SET_LEN(len) (F_ALN_LEN(ILV_HDRL) + (len))
	#define ILV_ALN_LEN(len) F_ALN_LEN(ILV_SET_LEN(len))
	#define ILV_RDAT_LEN(ilv) ((int)(EXTRACT_32BITS(&(ilv)->length)) - ILV_SET_LEN(0))
	#define ILV_DATA(ilvp) ((void)(((char)(ilvp)) + ILV_SET_LEN(0)))
	#define GO_NXT_ILV(ilv,rlen) ((rlen) -= F_ALN_LEN(EXTRACT_32BITS(&(ilv)->length)), \
	(struct forces_ilv )(((char)(ilv)) \
	+ F_ALN_LEN(EXTRACT_32BITS(&(ilv)->length))))
	#define INVALID_RLEN -1
	#define INVALID_STLN -2
	#define INVALID_LTLN -3
	#define INVALID_ALEN -4

	static const struct tok ForCES_TLV_err[] = {
	{INVALID_RLEN, "Invalid total length"},
	{INVALID_STLN, "xLV too short"},
	{INVALID_LTLN, "xLV too long"},
	{INVALID_ALEN, "data padding missing"},
	{0, NULL}
	};

	static inline int tlv_valid(const struct forces_tlv *tlv, u_int rlen)
	{
	if (rlen < TLV_HDRL)
	return INVALID_RLEN;
	if (EXTRACT_16BITS(&tlv->length) < TLV_HDRL)
	return INVALID_STLN;
	if (EXTRACT_16BITS(&tlv->length) > rlen)
	return INVALID_LTLN;
	if (rlen < F_ALN_LEN(EXTRACT_16BITS(&tlv->length)))
	return INVALID_ALEN;

	return 0;
	}

	static inline int ilv_valid(const struct forces_ilv *ilv, u_int rlen)
	{
	if (rlen < ILV_HDRL)
	return INVALID_RLEN;
	if (EXTRACT_32BITS(&ilv->length) < ILV_HDRL)
	return INVALID_STLN;
	if (EXTRACT_32BITS(&ilv->length) > rlen)
	return INVALID_LTLN;
	if (rlen < F_ALN_LEN(EXTRACT_32BITS(&ilv->length)))
	return INVALID_ALEN;

	return 0;
	}

	struct forces_lfbsh {
	u_int32_t class;
	u_int32_t instance;
	};

	#define ASSNS_OPS (B_OP_REPORT)
	#define CFG_OPS (B_OP_SET\|B_OP_SETPROP\|B_OP_DEL\|B_OP_COMMIT\|B_OP_RTRCOMP)
	#define CFG_ROPS (B_OP_SETRESP\|B_OP_SETPRESP\|B_OP_DELRESP\|B_OP_RCOMMIT)
	#define CFG_QY (B_OP_GET\|B_OP_GETPROP)
	#define CFG_QYR (B_OP_GETRESP\|B_OP_GETPRESP)
	#define CFG_EVN (B_OP_REPORT)

	static const struct tom_h ForCES_msg[TOM_MAX_IND + 1] = {
	/* TOM_RSV_I */ {TOM_RSVD, ZERO_TTLV, 0, "Invalid message", NULL},
	/* TOM_ASS_I */ {TOM_ASSNSETUP, ZERO_MORE_TTLV \| TWO_TLV, ASSNS_OPS,
	"Association Setup", lfbselect_print},
	/* TOM_AST_I */
	{TOM_ASSNTEARD, TTLV_T1, 0, "Association TearDown", asttlv_print},
	/* TOM_CFG_I */ {TOM_CONFIG, TTLV_T2, CFG_OPS, "Config", lfbselect_print},
	/* TOM_QRY_I */ {TOM_QUERY, TTLV_T2, CFG_QY, "Query", lfbselect_print},
	/* TOM_EVN_I */ {TOM_EVENTNOT, TTLV_T1, CFG_EVN, "Event Notification",
	lfbselect_print},
	/* TOM_RED_I */
	{TOM_PKTREDIR, TTLV_T2, 0, "Packet Redirect", redirect_print},
	/* TOM_HBT_I */ {TOM_HEARTBT, ZERO_TTLV, 0, "HeartBeat", NULL},
	/* TOM_ASR_I */
	{TOM_ASSNSETREP, TTLV_T1, 0, "Association Response", asrtlv_print},
	/* TOM_CNR_I */ {TOM_CONFIGREP, TTLV_T2, CFG_ROPS, "Config Response",
	lfbselect_print},
	/* TOM_QRR_I */
	{TOM_QUERYREP, TTLV_T2, CFG_QYR, "Query Response", lfbselect_print},
	};

	static inline const struct tom_h *get_forces_tom(u_int8_t tom)
	{
	int i;
	for (i = TOM_RSV_I; i <= TOM_MAX_IND; i++) {
	const struct tom_h *th = &ForCES_msg[i];
	if (th->v == tom)
	return th;
	}
	return &ForCES_msg[TOM_RSV_I];
	}

	struct pdata_ops {
	u_int32_t v;
	u_int16_t flags;
	u_int16_t op_msk;
	const char *s;
	int (print) (register const u_char pptr, register u_int len,
	u_int16_t op_msk, int indent);
	};

	enum {
	PD_RSV_I,
	PD_SEL_I,
	PD_FDT_I,
	PD_SDT_I,
	PD_RES_I,
	PD_PDT_I,
	_PD_RSV_MAX
	};
	#define PD_MAX_IND (_TOM_RSV_MAX - 1)

	static inline int pd_valid(u_int16_t pd)
	{
	if (pd >= F_TLV_PDAT && pd <= F_TLV_REST)
	return 1;
	return 0;
	}

	static inline void chk_op_type(u_int16_t type, u_int16_t msk, u_int16_t omsk)
	{
	if (type != F_TLV_PDAT) {
	if (msk & B_KEYIN) {
	if (type != F_TLV_KEYI) {
	printf
	("Based on flags expected KEYINFO TLV!\n");
	}
	} else {
	if (!(msk & omsk)) {
	printf
	("Illegal DATA encoding for type 0x%x programmed %x got %x \n",
	type, omsk, msk);
	}
	}
	}

	}

	int fdatatlv_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int sdatailv_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int sdatatlv_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int pdatatlv_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	int pkeyitlv_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);

	int pdatacnt_print(register const u_char * pptr, register u_int len,
	u_int16_t IDcnt, u_int16_t op_msk, int indent);
	int pdata_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);

	int prestlv_print(register const u_char * pptr, register u_int len,
	u_int16_t op_msk, int indent);
	#define F_SELKEY 1

	struct res_val {
	u_int8_t result;
	u_int8_t resv1;
	u_int16_t resv2;
	};

	static const struct pdata_ops ForCES_pdata[PD_MAX_IND + 1] = {
	/* PD_RSV_I */ {0, 0, 0, "Invalid message", NULL},
	/* PD_SEL_I */ {F_TLV_KEYI, 0, 0, "KEYINFO TLV", pkeyitlv_print},
	/* PD_FDT_I */ {F_TLV_FULD, 0, B_FULLD, "FULLDATA TLV", fdatatlv_print},
	/* PD_SDT_I */ {F_TLV_SPAD, 0, B_SPARD, "SPARSEDATA TLV", sdatatlv_print},
	/* PD_RES_I */ {F_TLV_REST, 0, B_RESTV, "RESULT TLV", prestlv_print},
	/* PD_PDT_I */
	{F_TLV_PDAT, 0, 0, "Inner PATH-DATA TLV", recpdoptlv_print},
	};

	static inline const struct pdata_ops *get_forces_pd(u_int16_t pd)
	{
	int i;
	for (i = PD_RSV_I + 1; i <= PD_MAX_IND; i++) {
	const struct pdata_ops *pdo = &ForCES_pdata[i];
	if (pdo->v == pd)
	return pdo;
	}
	return &ForCES_pdata[TOM_RSV_I];
	}

	enum {
	E_SUCCESS,
	E_INVALID_HEADER,
	E_LENGTH_MISMATCH,
	E_VERSION_MISMATCH,
	E_INVALID_DESTINATION_PID,
	E_LFB_UNKNOWN,
	E_LFB_NOT_FOUND,
	E_LFB_INSTANCE_ID_NOT_FOUND,
	E_INVALID_PATH,
	E_COMPONENT_DOES_NOT_EXIST,
	E_EXISTS,
	E_NOT_FOUND,
	E_READ_ONLY,
	E_INVALID_ARRAY_CREATION,
	E_VALUE_OUT_OF_RANGE,
	E_CONTENTS_TOO_LONG,
	E_INVALID_PARAMETERS,
	E_INVALID_MESSAGE_TYPE,
	E_INVALID_FLAGS,
	E_INVALID_TLV,
	E_EVENT_ERROR,
	E_NOT_SUPPORTED,
	E_MEMORY_ERROR,
	E_INTERNAL_ERROR,
	/* 0x18-0xFE are reserved .. */
	E_UNSPECIFIED_ERROR = 0XFF
	};

	const struct tok ForCES_errs[] = {
	{E_SUCCESS, "SUCCESS"},
	{E_INVALID_HEADER, "INVALID HEADER"},
	{E_LENGTH_MISMATCH, "LENGTH MISMATCH"},
	{E_VERSION_MISMATCH, "VERSION MISMATCH"},
	{E_INVALID_DESTINATION_PID, "INVALID DESTINATION PID"},
	{E_LFB_UNKNOWN, "LFB UNKNOWN"},
	{E_LFB_NOT_FOUND, "LFB NOT FOUND"},
	{E_LFB_INSTANCE_ID_NOT_FOUND, "LFB INSTANCE ID NOT FOUND"},
	{E_INVALID_PATH, "INVALID PATH"},
	{E_COMPONENT_DOES_NOT_EXIST, "COMPONENT DOES NOT EXIST"},
	{E_EXISTS, "EXISTS ALREADY"},
	{E_NOT_FOUND, "NOT FOUND"},
	{E_READ_ONLY, "READ ONLY"},
	{E_INVALID_ARRAY_CREATION, "INVALID ARRAY CREATION"},
	{E_VALUE_OUT_OF_RANGE, "VALUE OUT OF RANGE"},
	{E_CONTENTS_TOO_LONG, "CONTENTS TOO LONG"},
	{E_INVALID_PARAMETERS, "INVALID PARAMETERS"},
	{E_INVALID_MESSAGE_TYPE, "INVALID MESSAGE TYPE"},
	{E_INVALID_FLAGS, "INVALID FLAGS"},
	{E_INVALID_TLV, "INVALID TLV"},
	{E_EVENT_ERROR, "EVENT ERROR"},
	{E_NOT_SUPPORTED, "NOT SUPPORTED"},
	{E_MEMORY_ERROR, "MEMORY ERROR"},
	{E_INTERNAL_ERROR, "INTERNAL ERROR"},
	{E_UNSPECIFIED_ERROR, "UNSPECIFIED ERROR"},
	{0, NULL}
	};