[apple/xnu.git] / bsd / netat / aurp_zi.c

/*
 * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
 *
 * @APPLE_LICENSE_HEADER_START@
 * 
 * The contents of this file constitute Original Code as defined in and
 * are subject to the Apple Public Source License Version 1.1 (the
 * "License").  You may not use this file except in compliance with the
 * License.  Please obtain a copy of the License at
 * http://www.apple.com/publicsource and read it before using this file.
 * 
 * This Original Code and all software distributed under the License are
 * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT.  Please see the
 * License for the specific language governing rights and limitations
 * under the License.
 * 
 * @APPLE_LICENSE_HEADER_END@
 */
/*
 *	Copyright (c) 1996 Apple Computer, Inc. 
 *
 *		Created April 8, 1996 by Tuyen Nguyen
 *   Modified, March 17, 1997 by Tuyen Nguyen for MacOSX.
 *
 *	File: zi.c
 */
#include <sys/errno.h>
#include <sys/types.h>
#include <sys/param.h>
#include <machine/spl.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/proc.h>
#include <sys/filedesc.h>
#include <sys/fcntl.h>
#include <sys/mbuf.h>
#include <sys/socket.h>
#include <sys/socketvar.h>
#include <net/if.h>
#include <kern/assert.h>

#include <netat/sysglue.h>
#include <netat/appletalk.h>
#include <netat/at_var.h>
#include <netat/routing_tables.h>
#include <netat/at_pcb.h>
#include <netat/aurp.h>
#include <netat/debug.h>

static int AURPgetzi(int, unsigned char *, short *, gbuf_t *, int);
static void AURPsetzi(unsigned char, gbuf_t *, short, short);

/* */
void AURPsndZReq(state)
	aurp_state_t *state;
{
	gbuf_t *m;
	int msize;
	aurp_hdr_t *hdrp;
	short *net, nets_cnt, net_sent=0, entry_num=0;
	RT_entry *entry = RT_table;

	if (!state->get_zi || (state->rcv_state == AURPSTATE_Unconnected))
		return;

l_more:
	msize = sizeof(aurp_hdr_t);
	if ((m = (gbuf_t *)gbuf_alloc(msize+AURP_MaxPktSize, PRI_MED)) == 0) {
		dPrintf(D_M_AURP, D_L_WARNING, ("AURPsndZReq: node=%d, out of mblk\n",
			state->rem_node));
		return;
	}
	gbuf_wset(m,msize);

	/* construct the ZI request packet */
	hdrp = (aurp_hdr_t *)gbuf_rptr(m);
	hdrp->connection_id = state->rcv_connection_id;
	hdrp->sequence_number = 0;
	hdrp->command_code = AURPCMD_ZReq;
	hdrp->flags = 0;
	*(short *)(hdrp+1) = AURPSUBCODE_ZoneInfo1;
	gbuf_winc(m,sizeof(short));

	net = (short *)gbuf_wptr(m);
	nets_cnt = 0;

	while (entry_num < RT_maxentry) {
		/*
		 * scan the router table, and build the ZI request packet
		 * with the right entries, i.e.,
		 *  - entry in use and not of the net_port
		 *  - with no zones and in an active state
		 *  - talking to the right router
		 */
		if ( (entry->NetPort == net_port) && entry->NetStop &&
			((entry->EntryState & 0x0F) >= RTE_STATE_SUSPECT) &&
				(!RT_ALL_ZONES_KNOWN(entry)) ) {
			*net++ = (entry->NetStart) ? entry->NetStart : entry->NetStop;
			nets_cnt++;
		}

		if (nets_cnt >= 640) {
			/* query only 640 networks per packet */
			dPrintf(D_M_AURP, D_L_INFO, ("AURPsndZReq: node=%d\n",
				state->rem_node));
			gbuf_winc(m,(nets_cnt * sizeof(short)));
			AURPsend(m, AUD_AURP, state->rem_node);
			net_sent = 1;
			goto l_more;
		}

		entry_num++;
		entry++;
	}

	if (nets_cnt) {
		dPrintf(D_M_AURP, D_L_INFO, ("AURPsndZReq: node=%d\n",
			state->rem_node));
		gbuf_winc(m,(nets_cnt * sizeof(short)));
		AURPsend(m, AUD_AURP, state->rem_node);
		net_sent = 1;
	} else
		gbuf_freeb(m);

	if (!net_sent)
		state->get_zi = 0;
}

/* */
void AURPsndZRsp(state, dat_m, flag)
	aurp_state_t *state;
	gbuf_t *dat_m;
	int flag;
{
	short len;
	int msize, next_entry = 0;
	gbuf_t *m;
	aurp_hdr_t *hdrp;

	if ((state->snd_state == AURPSTATE_Unconnected) || (dat_m == 0))
		return;
	msize = sizeof(aurp_hdr_t);

  do {
	if ((m = (gbuf_t *)gbuf_alloc(msize+AURP_MaxPktSize, PRI_MED)) == 0) {
		dPrintf(D_M_AURP, D_L_WARNING, ("AURPsndZRsp: node=%d, out of mblk\n",
			state->rem_node));
		return;
	}
	gbuf_wset(m,msize);

	/* construct the ZI response packet */
	hdrp = (aurp_hdr_t *)gbuf_rptr(m);
	hdrp->connection_id = state->snd_connection_id;
	hdrp->sequence_number = 0;
	hdrp->command_code = AURPCMD_ZRsp;
	hdrp->flags = 0;

	/* get zone info of the local networks */
	next_entry = AURPgetzi(next_entry, gbuf_wptr(m), &len, dat_m, flag);
	gbuf_winc(m,len);

	/* send the packet */
	dPrintf(D_M_AURP, D_L_INFO, ("AURPsndZRsp: len=%d\n", len));
	AURPsend(m, AUD_AURP, state->rem_node);

  } while (next_entry);

	gbuf_freem(dat_m);
}

/* */
void AURPsndGZN(state, dat_m)
	aurp_state_t *state;
	gbuf_t *dat_m;
{
	short zname_len;
	int msize;
	gbuf_t *m;
	aurp_hdr_t *hdrp;

	if (state->snd_state == AURPSTATE_Unconnected)
		return;

	msize = sizeof(aurp_hdr_t);
	if ((m = (gbuf_t *)gbuf_alloc(msize+AURP_MaxPktSize, PRI_MED)) == 0) {
		dPrintf(D_M_AURP, D_L_WARNING, ("AURPsndGZN: node=%d, out of mblk\n",
			state->rem_node));
		return;
	}
	gbuf_wset(m,msize);

	/* construct the GZN response packet */
	hdrp = (aurp_hdr_t *)gbuf_rptr(m);
	hdrp->connection_id = state->snd_connection_id;
	hdrp->sequence_number = 0;
	hdrp->command_code = AURPCMD_ZRsp;
	hdrp->flags = 0;
	*(short *)(gbuf_wptr(m)) = AURPSUBCODE_GetZoneNets;
	gbuf_winc(m,sizeof(short));
	zname_len = gbuf_len(dat_m);
	bcopy(gbuf_rptr(dat_m), gbuf_wptr(m), zname_len);
	gbuf_winc(m,zname_len);
	*(short *)(gbuf_wptr(m)) = -1; /* number of tuples - proto not supported */
	gbuf_winc(m,sizeof(short));

	/* send the packet */
	dPrintf(D_M_AURP, D_L_INFO, ("AURPsndGZN: count=%d\n", -1));
	AURPsend(m, AUD_AURP, state->rem_node);
}

/* */
void AURPsndGDZL(state, dat_m)
	aurp_state_t *state;
	gbuf_t *dat_m;
{
	int msize;
	gbuf_t *m;
	aurp_hdr_t *hdrp;

	if (state->snd_state == AURPSTATE_Unconnected)
		return;

	msize = sizeof(aurp_hdr_t);
	if ((m = (gbuf_t *)gbuf_alloc(msize+AURP_MaxPktSize, PRI_MED)) == 0) {
		dPrintf(D_M_AURP, D_L_WARNING, ("AURPsndGDZL: node=%d, out of mblk\n",
			state->rem_node));
		return;
	}
	gbuf_wset(m,msize);

	/* construct the GDZL response packet */
	hdrp = (aurp_hdr_t *)gbuf_rptr(m);
	hdrp->connection_id = state->snd_connection_id;
	hdrp->sequence_number = 0;
	hdrp->command_code = AURPCMD_ZRsp;
	hdrp->flags = 0;
	*(short *)(gbuf_wptr(m)) = AURPSUBCODE_GetDomainZoneList;
	gbuf_winc(m,sizeof(short));
	*(short *)(gbuf_wptr(m)) = -1; /* start index - proto not supported */
	gbuf_winc(m,sizeof(short));

	/* send the packet */
	dPrintf(D_M_AURP, D_L_INFO, ("AURPsndGDZL: index=%d\n", -1));
	AURPsend(m, AUD_AURP, state->rem_node);
}

/* */
void AURPrcvZReq(state, m)
	aurp_state_t *state;
	gbuf_t *m;
{
	short sub_code;
	aurp_hdr_t *hdrp = (aurp_hdr_t *)gbuf_rptr(m);

	/* make sure we're in a valid state to accept it */
	if (state->snd_state == AURPSTATE_Unconnected) {
		dPrintf(D_M_AURP, D_L_WARNING, ("AURPrcvZReq: unexpected response\n"));
		gbuf_freem(m);
		return;
	}

	/* check for the correct connection id */
	if (hdrp->connection_id != state->snd_connection_id) {
		dPrintf(D_M_AURP, D_L_WARNING,
			("AURPrcvZReq: invalid connection id, r=%d, m=%d\n",
			hdrp->connection_id, state->snd_connection_id));
		gbuf_freem(m);
		return;
	}

	gbuf_rinc(m,sizeof(*hdrp));
	sub_code = *(short *)gbuf_rptr(m);
	gbuf_rinc(m,sizeof(short));

	dPrintf(D_M_AURP, D_L_INFO, ("AURPrcvZReq: len=%ld\n", gbuf_len(m)));

	switch (sub_code) {
	case AURPSUBCODE_ZoneInfo1:
		AURPsndZRsp(state, m, 0);
		return;

	case AURPSUBCODE_GetZoneNets:
		AURPsndGZN(state, m);
		break;

	case AURPSUBCODE_GetDomainZoneList:
		AURPsndGDZL(state, m);
		break;
	}

	gbuf_freem(m);
}

/* */
void AURPrcvZRsp(state, m)
	aurp_state_t *state;
	gbuf_t *m;
{
	short sub_code, tuples_cnt;
	aurp_hdr_t *hdrp = (aurp_hdr_t *)gbuf_rptr(m);

	/* make sure we're in a valid state to accept it */
	if (state->rcv_state == AURPSTATE_Unconnected) {
		dPrintf(D_M_AURP, D_L_WARNING, ("AURPrcvZRsp: unexpected response\n"));
		gbuf_freem(m);
		return;
	}

	/* check for the correct connection id */
	if (hdrp->connection_id != state->rcv_connection_id) {
		dPrintf(D_M_AURP, D_L_WARNING,
			("AURPrcvZRsp: invalid connection id, r=%d, m=%d\n",
			hdrp->connection_id, state->rcv_connection_id));
		gbuf_freem(m);
		return;
	}

	gbuf_rinc(m,sizeof(*hdrp));
	sub_code = *(short *)gbuf_rptr(m);
	gbuf_rinc(m,sizeof(short));

	dPrintf(D_M_AURP, D_L_INFO, ("AURPrcvZRsp: len=%ld\n", gbuf_len(m)));

	switch (sub_code) {
	case AURPSUBCODE_ZoneInfo1:
	case AURPSUBCODE_ZoneInfo2:
		tuples_cnt = *(short *)gbuf_rptr(m);
		gbuf_rinc(m,sizeof(short));
		AURPsetzi(state->rem_node, m, sub_code, tuples_cnt);
		break;

	case AURPSUBCODE_GetZoneNets:
		break;

	case AURPSUBCODE_GetDomainZoneList:
		break;
	}

	gbuf_freem(m);
}

/* */
static int
AURPgetzi(next_entry, buf, len, dat_m, flag)
	int next_entry;
	unsigned char *buf;
	short *len;
	gbuf_t *dat_m;
	int flag;
{
	static int i_sav=ZT_BYTES-1, j_sav=0, idx_sav=-1;
	unsigned char ev, zname_len, *zmap, *zname_base, *zname_sav, *tuples_ptr;
	unsigned short net_num, *net, zname_offset;
	short *sub_codep, *tuples_cntp, tuples_cnt, dat_len;
	int i, j, idx, nets_cnt;
	RT_entry *entry;

	/*
	 * XXX CHS June-98: The compiler complains that some of these
	 * XXX variables may be used before they're set. I don't think
	 * XXX that's actually the case, but to check, I'll assign them
	 * XXX with some test value, and add asserts to check them at
	 * XXX run-time. The asserts won't be compiled in for production.
	 */
	zname_sav = tuples_ptr = (unsigned char *) 0xdeadbeef;	/* XXX */
	net = (unsigned short *) 0xdeadbeef;			/* XXX */
	net_num = 0xdead;					/* XXX */
	nets_cnt = 0xfeedface;					/* XXX */

	sub_codep = (short *)buf;
	buf += sizeof(short);
	tuples_cntp = (short *)buf;
	buf += sizeof(short);
	*len = sizeof(short) + sizeof(short);
	zname_base = buf + sizeof(short);
	dat_len = 0;

	/* set the subcode in the ZI response packet */
	*sub_codep = next_entry ? AURPSUBCODE_ZoneInfo2 : AURPSUBCODE_ZoneInfo1;

	switch (flag) {
	case 0: /* zone info in response to ZI request */
		net = (unsigned short *)gbuf_rptr(dat_m);
		nets_cnt = (gbuf_len(dat_m))/2;
		break;
	case 1: /* zone info in response to Ack of RI response */
		tuples_ptr = gbuf_rptr(dat_m);
		nets_cnt = (gbuf_len(dat_m))/3;
		next_entry = 0;
		break;
	case 2: /* zone info in response to Ack of RI update */
		tuples_ptr = gbuf_rptr(dat_m);
		nets_cnt = (gbuf_len(dat_m))/4;
		next_entry = 0;
		break;
	}

	/*
	 * for each network, find all the zones that it belongs to
	 */
	assert(nets_cnt != 0xfeedface);				/* XXX */
	for (tuples_cnt=0; next_entry < nets_cnt; next_entry++) {
		switch(flag) {
		case 0:
			assert(net != 0xdeadbeef);		/* XXX */
			net_num = net[next_entry];
			break;
		case 1:
			assert(tuples_ptr != 0xdeadbeef);	/* XXX */
			net_num = *(unsigned short *)tuples_ptr; 
			tuples_ptr += 3;
			gbuf_rinc(dat_m,3);
			if (tuples_ptr[-1] & 0x80) {
				tuples_ptr += 3;
				gbuf_rinc(dat_m,3);
				next_entry++;
			}
			break;
		case 2:
			if (gbuf_len(dat_m) <= 0) {
				next_entry = nets_cnt;
				goto l_done;
			}
			assert(tuples_ptr != 0xdeadbeef);	/* XXX */
			ev = *tuples_ptr++;
			net_num = *(unsigned short *)tuples_ptr; 
			tuples_ptr += 3;
			gbuf_rinc(dat_m,4);
			if (tuples_ptr[-1] & 0x80) {
				tuples_ptr += 2;
				gbuf_rinc(dat_m,2);
			}
			if (ev != AURPEV_NetAdded)
				continue;
			break;
		}

		/*
		 * find the RT entry associated with the network
		 */
		assert(net_num != 0xdead);			/* XXX */
		if ((entry = rt_blookup(net_num)) == 0) {
			dPrintf(D_M_AURP, D_L_WARNING, ("AURPgetzi: invalid net, %d\n",
				net_num));
			continue;
		}
		if ( ((entry->EntryState & 0x0F) < RTE_STATE_SUSPECT) ||
				!RT_ALL_ZONES_KNOWN(entry) ||
				(entry->AURPFlag & AURP_NetHiden) ) {
			dPrintf(D_M_AURP_LOW, D_L_INFO, ("AURPgetzi: zombie net, net=%d\n",
				net_num));
			continue;
		}

	  if (entry->NetStart == 0) {
		if ((idx = zt_ent_zindex(entry->ZoneBitMap)) == 0)
			continue;
		idx--; /* index in the zone table */
		zname_len = ZT_table[idx].Zone.len;
		if (zname_len) {
			assert(net_num != 0xdead);		/* XXX */
			*(unsigned short *)buf = net_num;
			buf += sizeof(short);
		  if (idx == idx_sav) {
			/* use the optimized format */
			assert(zname_sav != 0xdeadbeef);	/* XXX */
			zname_offset = zname_sav - zname_base;
			*(unsigned short *)buf = (0x8000 | zname_offset);
			buf += sizeof(short);
			dat_len += 4;
		  } else {
			/* use the long format */
			zname_sav = buf; 
			*buf++ = zname_len;
			bcopy(ZT_table[idx].Zone.str, buf, zname_len);
			buf += zname_len;
			dat_len += (3 + zname_len);
		  }
			tuples_cnt++;
			idx_sav = idx;
		}

	  } else {
		zmap = entry->ZoneBitMap;
		for (i=i_sav; i >=0; i--) {
			if (!zmap[i])
				continue;

			for (j=j_sav; j < 8; j++) {
				if (!((zmap[i] << j) & 0x80))
					continue;

				idx = i*8 + j; /* index in the zone table */
				zname_len = ZT_table[idx].Zone.len;
				if (zname_len) {
					if ((dat_len+3+zname_len) > AURP_MaxPktSize) {
						i_sav = i;
						j_sav = j;
						goto l_done;
					}

					assert(net_num != 0xdead); /* XXX */
					*(unsigned short *)buf = net_num;
					buf += sizeof(short);
				  if (idx == idx_sav) {
					/* use the optimized format */
					assert(zname_sav != 0xdeadbeef);/*XXX*/
					zname_offset = zname_sav - zname_base;
					*(unsigned short *)buf = (0x8000 | zname_offset);
					buf += sizeof(short);
					dat_len += 4;
				  } else {
					/* use the long format */
					zname_sav = buf; 
					*buf++ = zname_len;
					bcopy(ZT_table[idx].Zone.str, buf, zname_len);
					buf += zname_len;
					dat_len += (3 + zname_len);
				  }
					tuples_cnt++;
					idx_sav = idx;
				}
			}
		}
	  }
		if ((dat_len+3+32) > AURP_MaxPktSize) {
			next_entry++;
			break;
		}
	}
	i_sav = ZT_BYTES-1;
	j_sav = 0;

l_done:
	*len += dat_len;
	if (next_entry == nets_cnt)
		next_entry = 0;

	/* set the subcode in the ZI response packet */
	if (next_entry)
		*sub_codep = AURPSUBCODE_ZoneInfo2;

	/* set the tuples count in the ZI response packet */
	*tuples_cntp = tuples_cnt;

	idx_sav = -1;
	return next_entry;
}

/* */
static void
AURPsetzi(node, m, sub_code, tuples_cnt)
	unsigned char node;
	gbuf_t *m;
	short sub_code;
	short tuples_cnt;
{
	int rc, tuple_fmt;
	unsigned short net_num, zname_offset;
	unsigned char *buf = gbuf_rptr(m), *zname_base;
	RT_entry *entry;
	at_nvestr_t *zname;

	/* compute the base of the zone names of the optimized tuples */
	zname_base = buf + sizeof(short);

	/* process all tuples */
	while (tuples_cnt-- > 0) {
		net_num = *(unsigned short *)buf;
		buf += sizeof(short);
		if (*buf & 0x80) {
			/* optimized-format tuple */
			zname_offset = (*(unsigned short *)buf) & 0x7fff;
			buf += sizeof(short);
			zname = (at_nvestr_t *)(zname_base + zname_offset);
			tuple_fmt = 0;
			dPrintf(D_M_AURP_LOW, D_L_INFO,
				("AURPsetzi: optimized fmt, net=%d. zlen=%d, zoffset=%d\n ",
					net_num, zname->len, zname_offset));
		} else {
			/* long-format tuple */
			zname = (at_nvestr_t *)buf;
			tuple_fmt = 1;
			dPrintf(D_M_AURP_LOW, D_L_INFO,
				("AURPsetzi: long fmt, net=%d, zlen=%d\n ",
					net_num, zname->len));
		}

		/*
		 * find the RT entry associated with the specified network
		 */
		if ((entry = rt_blookup(net_num)) == 0) {
			dPrintf(D_M_AURP, D_L_WARNING,
				("AURPsetzi: invalid net, net=%d\n", net_num));
		} else { /* entry found */
			if (entry->EntryState >= RTE_STATE_SUSPECT)  {
				if ((rc = zt_add_zonename(zname)) == ZT_MAXEDOUT) {
					dPrintf(D_M_AURP, D_L_WARNING,
						("AURPsetzi: ZT_table full\n"));
				} else {
					zt_set_zmap(rc, entry->ZoneBitMap);
					RT_SET_ZONE_KNOWN(entry);
				}
			}
		}
		if (tuple_fmt)
			buf += zname->len+1;
	}
}
Commit	Line	Data
1c79356b A	1	/*
	2	* Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
	3	*
	4	* @APPLE_LICENSE_HEADER_START@
	5	*
de355530 A	6	* The contents of this file constitute Original Code as defined in and
	7	* are subject to the Apple Public Source License Version 1.1 (the
	8	* "License"). You may not use this file except in compliance with the
	9	* License. Please obtain a copy of the License at
	10	* http://www.apple.com/publicsource and read it before using this file.
1c79356b	11	*
de355530 A	12	* This Original Code and all software distributed under the License are
de355530 A	13	* distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
1c79356b A	14	* EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
1c79356b A	15	* INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
de355530 A	16	* FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the
	17	* License for the specific language governing rights and limitations
	18	* under the License.
1c79356b A	19	*
	20	* @APPLE_LICENSE_HEADER_END@
	21	*/
	22	/*
	23	* Copyright (c) 1996 Apple Computer, Inc.
	24	*
	25	* Created April 8, 1996 by Tuyen Nguyen
	26	* Modified, March 17, 1997 by Tuyen Nguyen for MacOSX.
	27	*
	28	* File: zi.c
	29	*/
	30	#include <sys/errno.h>
	31	#include <sys/types.h>
	32	#include <sys/param.h>
	33	#include <machine/spl.h>
	34	#include <sys/systm.h>
	35	#include <sys/kernel.h>
	36	#include <sys/proc.h>
	37	#include <sys/filedesc.h>
	38	#include <sys/fcntl.h>
	39	#include <sys/mbuf.h>
	40	#include <sys/socket.h>
	41	#include <sys/socketvar.h>
	42	#include <net/if.h>
	43	#include <kern/assert.h>
	44
	45	#include <netat/sysglue.h>
	46	#include <netat/appletalk.h>
	47	#include <netat/at_var.h>
	48	#include <netat/routing_tables.h>
	49	#include <netat/at_pcb.h>
	50	#include <netat/aurp.h>
	51	#include <netat/debug.h>
	52
	53	static int AURPgetzi(int, unsigned char , short , gbuf_t *, int);
	54	static void AURPsetzi(unsigned char, gbuf_t *, short, short);
	55
	56	/* */
	57	void AURPsndZReq(state)
	58	aurp_state_t *state;
	59	{
	60	gbuf_t *m;
	61	int msize;
	62	aurp_hdr_t *hdrp;
	63	short *net, nets_cnt, net_sent=0, entry_num=0;
	64	RT_entry *entry = RT_table;
	65
	66	if (!state->get_zi \|\| (state->rcv_state == AURPSTATE_Unconnected))
	67	return;
	68
	69	l_more:
	70	msize = sizeof(aurp_hdr_t);
	71	if ((m = (gbuf_t *)gbuf_alloc(msize+AURP_MaxPktSize, PRI_MED)) == 0) {
	72	dPrintf(D_M_AURP, D_L_WARNING, ("AURPsndZReq: node=%d, out of mblk\n",
	73	state->rem_node));
	74	return;
	75	}
	76	gbuf_wset(m,msize);
	77
	78	/* construct the ZI request packet */
	79	hdrp = (aurp_hdr_t *)gbuf_rptr(m);
	80	hdrp->connection_id = state->rcv_connection_id;
	81	hdrp->sequence_number = 0;
	82	hdrp->command_code = AURPCMD_ZReq;
83	hdrp->flags = 0;
84	(short )(hdrp+1) = AURPSUBCODE_ZoneInfo1;
85	gbuf_winc(m,sizeof(short));
86
87	net = (short *)gbuf_wptr(m);
88	nets_cnt = 0;
89
90	while (entry_num < RT_maxentry) {
91	/*
92	* scan the router table, and build the ZI request packet
93	* with the right entries, i.e.,
94	* - entry in use and not of the net_port
95	* - with no zones and in an active state
96	* - talking to the right router
97	*/
98	if ( (entry->NetPort == net_port) && entry->NetStop &&
99	((entry->EntryState & 0x0F) >= RTE_STATE_SUSPECT) &&
100	(!RT_ALL_ZONES_KNOWN(entry)) ) {
101	*net++ = (entry->NetStart) ? entry->NetStart : entry->NetStop;
102	nets_cnt++;
103	}
104
105	if (nets_cnt >= 640) {
106	/* query only 640 networks per packet */
107	dPrintf(D_M_AURP, D_L_INFO, ("AURPsndZReq: node=%d\n",
108	state->rem_node));
109	gbuf_winc(m,(nets_cnt * sizeof(short)));
110	AURPsend(m, AUD_AURP, state->rem_node);
111	net_sent = 1;
112	goto l_more;
113	}
114
115	entry_num++;
116	entry++;
117	}
118
119	if (nets_cnt) {
120	dPrintf(D_M_AURP, D_L_INFO, ("AURPsndZReq: node=%d\n",
121	state->rem_node));
122	gbuf_winc(m,(nets_cnt * sizeof(short)));
123	AURPsend(m, AUD_AURP, state->rem_node);
124	net_sent = 1;
125	} else
126	gbuf_freeb(m);
127
128	if (!net_sent)
129	state->get_zi = 0;
130	}
131
132	/* */
133	void AURPsndZRsp(state, dat_m, flag)
134	aurp_state_t *state;
135	gbuf_t *dat_m;
136	int flag;
137	{
138	short len;
139	int msize, next_entry = 0;
140	gbuf_t *m;
141	aurp_hdr_t *hdrp;
142
143	if ((state->snd_state == AURPSTATE_Unconnected) \|\| (dat_m == 0))
144	return;
145	msize = sizeof(aurp_hdr_t);
146
147	do {
148	if ((m = (gbuf_t *)gbuf_alloc(msize+AURP_MaxPktSize, PRI_MED)) == 0) {
149	dPrintf(D_M_AURP, D_L_WARNING, ("AURPsndZRsp: node=%d, out of mblk\n",
150	state->rem_node));
151	return;
152	}
153	gbuf_wset(m,msize);
154
155	/* construct the ZI response packet */
156	hdrp = (aurp_hdr_t *)gbuf_rptr(m);
157	hdrp->connection_id = state->snd_connection_id;
158	hdrp->sequence_number = 0;
159	hdrp->command_code = AURPCMD_ZRsp;
160	hdrp->flags = 0;
161
162	/* get zone info of the local networks */
163	next_entry = AURPgetzi(next_entry, gbuf_wptr(m), &len, dat_m, flag);
164	gbuf_winc(m,len);
165
166	/* send the packet */
167	dPrintf(D_M_AURP, D_L_INFO, ("AURPsndZRsp: len=%d\n", len));
168	AURPsend(m, AUD_AURP, state->rem_node);
169
170	} while (next_entry);
171
172	gbuf_freem(dat_m);
173	}
174
175	/* */
176	void AURPsndGZN(state, dat_m)
177	aurp_state_t *state;
178	gbuf_t *dat_m;
179	{
180	short zname_len;
181	int msize;
182	gbuf_t *m;
183	aurp_hdr_t *hdrp;
184
185	if (state->snd_state == AURPSTATE_Unconnected)
186	return;
187
188	msize = sizeof(aurp_hdr_t);
189	if ((m = (gbuf_t *)gbuf_alloc(msize+AURP_MaxPktSize, PRI_MED)) == 0) {
190	dPrintf(D_M_AURP, D_L_WARNING, ("AURPsndGZN: node=%d, out of mblk\n",
191	state->rem_node));
192	return;
193	}
194	gbuf_wset(m,msize);
195
196	/* construct the GZN response packet */
197	hdrp = (aurp_hdr_t *)gbuf_rptr(m);
198	hdrp->connection_id = state->snd_connection_id;
199	hdrp->sequence_number = 0;
200	hdrp->command_code = AURPCMD_ZRsp;
201	hdrp->flags = 0;
202	(short )(gbuf_wptr(m)) = AURPSUBCODE_GetZoneNets;
203	gbuf_winc(m,sizeof(short));
204	zname_len = gbuf_len(dat_m);
205	bcopy(gbuf_rptr(dat_m), gbuf_wptr(m), zname_len);
206	gbuf_winc(m,zname_len);
207	(short )(gbuf_wptr(m)) = -1; /* number of tuples - proto not supported */
208	gbuf_winc(m,sizeof(short));
209
210	/* send the packet */
211	dPrintf(D_M_AURP, D_L_INFO, ("AURPsndGZN: count=%d\n", -1));
212	AURPsend(m, AUD_AURP, state->rem_node);
213	}
214
215	/* */
216	void AURPsndGDZL(state, dat_m)
217	aurp_state_t *state;
218	gbuf_t *dat_m;
219	{
220	int msize;
221	gbuf_t *m;
222	aurp_hdr_t *hdrp;
223
224	if (state->snd_state == AURPSTATE_Unconnected)
225	return;
226
227	msize = sizeof(aurp_hdr_t);
228	if ((m = (gbuf_t *)gbuf_alloc(msize+AURP_MaxPktSize, PRI_MED)) == 0) {
229	dPrintf(D_M_AURP, D_L_WARNING, ("AURPsndGDZL: node=%d, out of mblk\n",
230	state->rem_node));
231	return;
232	}
233	gbuf_wset(m,msize);
234
235	/* construct the GDZL response packet */
236	hdrp = (aurp_hdr_t *)gbuf_rptr(m);
237	hdrp->connection_id = state->snd_connection_id;
238	hdrp->sequence_number = 0;
239	hdrp->command_code = AURPCMD_ZRsp;
240	hdrp->flags = 0;
241	(short )(gbuf_wptr(m)) = AURPSUBCODE_GetDomainZoneList;
242	gbuf_winc(m,sizeof(short));
243	(short )(gbuf_wptr(m)) = -1; /* start index - proto not supported */
244	gbuf_winc(m,sizeof(short));
245
246	/* send the packet */
247	dPrintf(D_M_AURP, D_L_INFO, ("AURPsndGDZL: index=%d\n", -1));
248	AURPsend(m, AUD_AURP, state->rem_node);
249	}
250
251	/* */
252	void AURPrcvZReq(state, m)
253	aurp_state_t *state;
254	gbuf_t *m;
255	{
256	short sub_code;
257	aurp_hdr_t hdrp = (aurp_hdr_t )gbuf_rptr(m);
258
259	/* make sure we're in a valid state to accept it */
260	if (state->snd_state == AURPSTATE_Unconnected) {
261	dPrintf(D_M_AURP, D_L_WARNING, ("AURPrcvZReq: unexpected response\n"));
262	gbuf_freem(m);
263	return;
264	}
265
266	/* check for the correct connection id */
267	if (hdrp->connection_id != state->snd_connection_id) {
268	dPrintf(D_M_AURP, D_L_WARNING,
269	("AURPrcvZReq: invalid connection id, r=%d, m=%d\n",
270	hdrp->connection_id, state->snd_connection_id));
271	gbuf_freem(m);
272	return;
273	}
274
275	gbuf_rinc(m,sizeof(*hdrp));
276	sub_code = (short )gbuf_rptr(m);
277	gbuf_rinc(m,sizeof(short));
278
279	dPrintf(D_M_AURP, D_L_INFO, ("AURPrcvZReq: len=%ld\n", gbuf_len(m)));
280
281	switch (sub_code) {
282	case AURPSUBCODE_ZoneInfo1:
283	AURPsndZRsp(state, m, 0);
284	return;
285
286	case AURPSUBCODE_GetZoneNets:
287	AURPsndGZN(state, m);
288	break;
289
290	case AURPSUBCODE_GetDomainZoneList:
291	AURPsndGDZL(state, m);
292	break;
293	}
294
295	gbuf_freem(m);
296	}
297
298	/* */
299	void AURPrcvZRsp(state, m)
300	aurp_state_t *state;
301	gbuf_t *m;
302	{
303	short sub_code, tuples_cnt;
304	aurp_hdr_t hdrp = (aurp_hdr_t )gbuf_rptr(m);
305
306	/* make sure we're in a valid state to accept it */
307	if (state->rcv_state == AURPSTATE_Unconnected) {
308	dPrintf(D_M_AURP, D_L_WARNING, ("AURPrcvZRsp: unexpected response\n"));
309	gbuf_freem(m);
310	return;
311	}
312
313	/* check for the correct connection id */
314	if (hdrp->connection_id != state->rcv_connection_id) {
315	dPrintf(D_M_AURP, D_L_WARNING,
316	("AURPrcvZRsp: invalid connection id, r=%d, m=%d\n",
317	hdrp->connection_id, state->rcv_connection_id));
318	gbuf_freem(m);
319	return;
320	}
321
322	gbuf_rinc(m,sizeof(*hdrp));
323	sub_code = (short )gbuf_rptr(m);
324	gbuf_rinc(m,sizeof(short));
325
326	dPrintf(D_M_AURP, D_L_INFO, ("AURPrcvZRsp: len=%ld\n", gbuf_len(m)));
327
328	switch (sub_code) {
329	case AURPSUBCODE_ZoneInfo1:
330	case AURPSUBCODE_ZoneInfo2:
331	tuples_cnt = (short )gbuf_rptr(m);
332	gbuf_rinc(m,sizeof(short));
333	AURPsetzi(state->rem_node, m, sub_code, tuples_cnt);
334	break;
335
336	case AURPSUBCODE_GetZoneNets:
337	break;
338
339	case AURPSUBCODE_GetDomainZoneList:
340	break;
341	}
342
343	gbuf_freem(m);
344	}
345
346	/* */
347	static int
348	AURPgetzi(next_entry, buf, len, dat_m, flag)
349	int next_entry;
350	unsigned char *buf;
351	short *len;
352	gbuf_t *dat_m;
353	int flag;
354	{
355	static int i_sav=ZT_BYTES-1, j_sav=0, idx_sav=-1;
356	unsigned char ev, zname_len, zmap, zname_base, zname_sav, tuples_ptr;
357	unsigned short net_num, *net, zname_offset;
358	short sub_codep, tuples_cntp, tuples_cnt, dat_len;
359	int i, j, idx, nets_cnt;
360	RT_entry *entry;
361
362	/*
363	* XXX CHS June-98: The compiler complains that some of these
364	* XXX variables may be used before they're set. I don't think
365	* XXX that's actually the case, but to check, I'll assign them
366	* XXX with some test value, and add asserts to check them at
367	* XXX run-time. The asserts won't be compiled in for production.
368	*/
369	zname_sav = tuples_ptr = (unsigned char ) 0xdeadbeef; / XXX */
370	net = (unsigned short ) 0xdeadbeef; / XXX */
371	net_num = 0xdead; /* XXX */
372	nets_cnt = 0xfeedface; /* XXX */
373
374	sub_codep = (short *)buf;
375	buf += sizeof(short);
376	tuples_cntp = (short *)buf;
377	buf += sizeof(short);
378	*len = sizeof(short) + sizeof(short);
379	zname_base = buf + sizeof(short);
380	dat_len = 0;
381
382	/* set the subcode in the ZI response packet */
383	*sub_codep = next_entry ? AURPSUBCODE_ZoneInfo2 : AURPSUBCODE_ZoneInfo1;
384
385	switch (flag) {
386	case 0: /* zone info in response to ZI request */
387	net = (unsigned short *)gbuf_rptr(dat_m);
388	nets_cnt = (gbuf_len(dat_m))/2;
389	break;
390	case 1: /* zone info in response to Ack of RI response */
391	tuples_ptr = gbuf_rptr(dat_m);
392	nets_cnt = (gbuf_len(dat_m))/3;
393	next_entry = 0;
394	break;
395	case 2: /* zone info in response to Ack of RI update */
396	tuples_ptr = gbuf_rptr(dat_m);
397	nets_cnt = (gbuf_len(dat_m))/4;
398	next_entry = 0;
399	break;
400	}
401
402	/*
403	* for each network, find all the zones that it belongs to
404	*/
405	assert(nets_cnt != 0xfeedface); /* XXX */
406	for (tuples_cnt=0; next_entry < nets_cnt; next_entry++) {
407	switch(flag) {
408	case 0:
409	assert(net != 0xdeadbeef); /* XXX */
410	net_num = net[next_entry];
411	break;
412	case 1:
413	assert(tuples_ptr != 0xdeadbeef); /* XXX */
414	net_num = (unsigned short )tuples_ptr;
415	tuples_ptr += 3;
416	gbuf_rinc(dat_m,3);
417	if (tuples_ptr[-1] & 0x80) {
418	tuples_ptr += 3;
419	gbuf_rinc(dat_m,3);
420	next_entry++;
421	}
422	break;
423	case 2:
424	if (gbuf_len(dat_m) <= 0) {
425	next_entry = nets_cnt;
426	goto l_done;
427	}
428	assert(tuples_ptr != 0xdeadbeef); /* XXX */
429	ev = *tuples_ptr++;
430	net_num = (unsigned short )tuples_ptr;
431	tuples_ptr += 3;
432	gbuf_rinc(dat_m,4);
433	if (tuples_ptr[-1] & 0x80) {
434	tuples_ptr += 2;
435	gbuf_rinc(dat_m,2);
436	}
437	if (ev != AURPEV_NetAdded)
438	continue;
439	break;
440	}
441
442	/*
443	* find the RT entry associated with the network
444	*/
445	assert(net_num != 0xdead); /* XXX */
446	if ((entry = rt_blookup(net_num)) == 0) {
447	dPrintf(D_M_AURP, D_L_WARNING, ("AURPgetzi: invalid net, %d\n",
448	net_num));
449	continue;
450	}
451	if ( ((entry->EntryState & 0x0F) < RTE_STATE_SUSPECT) \|\|
452	!RT_ALL_ZONES_KNOWN(entry) \|\|
453	(entry->AURPFlag & AURP_NetHiden) ) {
454	dPrintf(D_M_AURP_LOW, D_L_INFO, ("AURPgetzi: zombie net, net=%d\n",
455	net_num));
456	continue;
457	}
458
459	if (entry->NetStart == 0) {
460	if ((idx = zt_ent_zindex(entry->ZoneBitMap)) == 0)
461	continue;
462	idx--; /* index in the zone table */
463	zname_len = ZT_table[idx].Zone.len;
464	if (zname_len) {
465	assert(net_num != 0xdead); /* XXX */
466	(unsigned short )buf = net_num;
467	buf += sizeof(short);
468	if (idx == idx_sav) {
469	/* use the optimized format */
470	assert(zname_sav != 0xdeadbeef); /* XXX */
471	zname_offset = zname_sav - zname_base;
472	(unsigned short )buf = (0x8000 \| zname_offset);
473	buf += sizeof(short);
474	dat_len += 4;
475	} else {
476	/* use the long format */
477	zname_sav = buf;
478	*buf++ = zname_len;
479	bcopy(ZT_table[idx].Zone.str, buf, zname_len);
480	buf += zname_len;
481	dat_len += (3 + zname_len);
482	}
483	tuples_cnt++;
484	idx_sav = idx;
485	}
486
487	} else {
488	zmap = entry->ZoneBitMap;
489	for (i=i_sav; i >=0; i--) {
490	if (!zmap[i])
491	continue;
492
493	for (j=j_sav; j < 8; j++) {
494	if (!((zmap[i] << j) & 0x80))
495	continue;
496
497	idx = i8 + j; / index in the zone table */
498	zname_len = ZT_table[idx].Zone.len;
499	if (zname_len) {
500	if ((dat_len+3+zname_len) > AURP_MaxPktSize) {
501	i_sav = i;
502	j_sav = j;
503	goto l_done;
504	}
505
506	assert(net_num != 0xdead); /* XXX */
507	(unsigned short )buf = net_num;
508	buf += sizeof(short);
509	if (idx == idx_sav) {
510	/* use the optimized format */
511	assert(zname_sav != 0xdeadbeef);/XXX/
512	zname_offset = zname_sav - zname_base;
513	(unsigned short )buf = (0x8000 \| zname_offset);
514	buf += sizeof(short);
515	dat_len += 4;
516	} else {
517	/* use the long format */
518	zname_sav = buf;
519	*buf++ = zname_len;
520	bcopy(ZT_table[idx].Zone.str, buf, zname_len);
521	buf += zname_len;
522	dat_len += (3 + zname_len);
523	}
524	tuples_cnt++;
525	idx_sav = idx;
526	}
527	}
528	}
529	}
530	if ((dat_len+3+32) > AURP_MaxPktSize) {
531	next_entry++;
532	break;
533	}
534	}
535	i_sav = ZT_BYTES-1;
536	j_sav = 0;
537
538	l_done:
539	*len += dat_len;
540	if (next_entry == nets_cnt)
541	next_entry = 0;
542
543	/* set the subcode in the ZI response packet */
544	if (next_entry)
545	*sub_codep = AURPSUBCODE_ZoneInfo2;
546
547	/* set the tuples count in the ZI response packet */
548	*tuples_cntp = tuples_cnt;
549
550	idx_sav = -1;
551	return next_entry;
552	}
553
554	/* */
555	static void
556	AURPsetzi(node, m, sub_code, tuples_cnt)
557	unsigned char node;
558	gbuf_t *m;
559	short sub_code;
560	short tuples_cnt;
561	{
562	int rc, tuple_fmt;
563	unsigned short net_num, zname_offset;
564	unsigned char buf = gbuf_rptr(m), zname_base;
565	RT_entry *entry;
566	at_nvestr_t *zname;
567
568	/* compute the base of the zone names of the optimized tuples */
569	zname_base = buf + sizeof(short);
570
571	/* process all tuples */
572	while (tuples_cnt-- > 0) {
573	net_num = (unsigned short )buf;
574	buf += sizeof(short);
575	if (*buf & 0x80) {
576	/* optimized-format tuple */
577	zname_offset = ((unsigned short )buf) & 0x7fff;
578	buf += sizeof(short);
579	zname = (at_nvestr_t *)(zname_base + zname_offset);
580	tuple_fmt = 0;
581	dPrintf(D_M_AURP_LOW, D_L_INFO,
582	("AURPsetzi: optimized fmt, net=%d. zlen=%d, zoffset=%d\n ",
583	net_num, zname->len, zname_offset));
584	} else {
585	/* long-format tuple */
586	zname = (at_nvestr_t *)buf;
587	tuple_fmt = 1;
588	dPrintf(D_M_AURP_LOW, D_L_INFO,
589	("AURPsetzi: long fmt, net=%d, zlen=%d\n ",
590	net_num, zname->len));
591	}
592
593	/*
594	* find the RT entry associated with the specified network
595	*/
596	if ((entry = rt_blookup(net_num)) == 0) {
597	dPrintf(D_M_AURP, D_L_WARNING,
598	("AURPsetzi: invalid net, net=%d\n", net_num));
599	} else { /* entry found */
600	if (entry->EntryState >= RTE_STATE_SUSPECT) {
601	if ((rc = zt_add_zonename(zname)) == ZT_MAXEDOUT) {
602	dPrintf(D_M_AURP, D_L_WARNING,
603	("AURPsetzi: ZT_table full\n"));
604	} else {
605	zt_set_zmap(rc, entry->ZoneBitMap);
606	RT_SET_ZONE_KNOWN(entry);
607	}
608	}
609	}
610	if (tuple_fmt)
611	buf += zname->len+1;
612	}
613	}