/* * Unix SMB/CIFS implementation. * RPC Pipe client / server routines * Copyright (C) Jean François Micouleau 1998-2002. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "includes.h" #include "wins_repl.h" extern TALLOC_CTX *mem_ctx; /**************************************************************************** grow the send buffer if necessary ****************************************************************************/ BOOL grow_buffer(struct BUFFER *buffer, int more) { char *temp; DEBUG(10,("grow_buffer: size is: %d offet is:%d growing by %d\n", buffer->length, buffer->offset, more)); /* grow by at least 256 bytes */ if (more<256) more=256; if (buffer->offset+more >= buffer->length) { temp=(char *)talloc_realloc(mem_ctx, buffer->buffer, sizeof(char)* (buffer->length+more) ); if (temp==NULL) { DEBUG(0,("grow_buffer: can't grow buffer\n")); return False; } buffer->length+=more; buffer->buffer=temp; } return True; } /**************************************************************************** check if the buffer has that much data ****************************************************************************/ static BOOL check_buffer(struct BUFFER *buffer, int more) { char *temp; DEBUG(10,("check_buffer: size is: %d offet is:%d growing by %d\n", buffer->length, buffer->offset, more)); if (buffer->offset+more > buffer->length) { DEBUG(10,("check_buffer: buffer smaller than requested, size is: %d needed: %d\n", buffer->length, buffer->offset+more)); return False; } return True; } /**************************************************************************** decode a WINS_OWNER struct ****************************************************************************/ static void decode_wins_owner(struct BUFFER *inbuf, WINS_OWNER *wins_owner) { if(!check_buffer(inbuf, 24)) return; wins_owner->address.s_addr=IVAL(inbuf->buffer, inbuf->offset); wins_owner->max_version=((SMB_BIG_UINT)RIVAL(inbuf->buffer, inbuf->offset+4))<<32; wins_owner->max_version|=RIVAL(inbuf->buffer, inbuf->offset+8); wins_owner->min_version=((SMB_BIG_UINT)RIVAL(inbuf->buffer, inbuf->offset+12))<<32; wins_owner->min_version|=RIVAL(inbuf->buffer, inbuf->offset+16); wins_owner->type=RIVAL(inbuf->buffer, inbuf->offset+20); inbuf->offset+=24; } /**************************************************************************** decode a WINS_NAME struct ****************************************************************************/ static void decode_wins_name(struct BUFFER *outbuf, WINS_NAME *wins_name) { char *p; int i; if(!check_buffer(outbuf, 40)) return; wins_name->name_len=RIVAL(outbuf->buffer, outbuf->offset); outbuf->offset+=4; memcpy(wins_name->name,outbuf->buffer+outbuf->offset, 15); wins_name->name[16]='\0'; if((p = strchr(wins_name->name,' ')) != NULL) *p = 0; outbuf->offset+=15; wins_name->type=(int)outbuf->buffer[outbuf->offset++]; /* * fix to bug in WINS replication, * present in all versions including W2K SP2 ! */ if (wins_name->name[0]==0x1B) { wins_name->name[0]=(char)wins_name->type; wins_name->type=0x1B; } wins_name->empty=RIVAL(outbuf->buffer, outbuf->offset); outbuf->offset+=4; wins_name->name_flag=RIVAL(outbuf->buffer, outbuf->offset); outbuf->offset+=4; wins_name->group_flag=RIVAL(outbuf->buffer, outbuf->offset); outbuf->offset+=4; wins_name->id=((SMB_BIG_UINT)RIVAL(outbuf->buffer, outbuf->offset))<<32; outbuf->offset+=4; wins_name->id|=RIVAL(outbuf->buffer, outbuf->offset); outbuf->offset+=4; /* special groups have multiple address */ if (wins_name->name_flag & 2) { if(!check_buffer(outbuf, 4)) return; wins_name->num_ip=IVAL(outbuf->buffer, outbuf->offset); outbuf->offset+=4; } else wins_name->num_ip=1; if(!check_buffer(outbuf, 4)) return; wins_name->owner.s_addr=IVAL(outbuf->buffer, outbuf->offset); outbuf->offset+=4; if (wins_name->name_flag & 2) { wins_name->others=(struct in_addr *)talloc(mem_ctx, sizeof(struct in_addr)*wins_name->num_ip); if (wins_name->others==NULL) return; if(!check_buffer(outbuf, 4*wins_name->num_ip)) return; for (i=0; inum_ip; i++) { wins_name->others[i].s_addr=IVAL(outbuf->buffer, outbuf->offset); outbuf->offset+=4; } } if(!check_buffer(outbuf, 4)) return; wins_name->foo=RIVAL(outbuf->buffer, outbuf->offset); outbuf->offset+=4; } /**************************************************************************** decode a update notification request ****************************************************************************/ static void decode_update_notify_request(struct BUFFER *inbuf, UPDATE_NOTIFY_REQUEST *un_rq) { int i; if(!check_buffer(inbuf, 4)) return; un_rq->partner_count=RIVAL(inbuf->buffer, inbuf->offset); inbuf->offset+=4; un_rq->wins_owner=(WINS_OWNER *)talloc(mem_ctx, un_rq->partner_count*sizeof(WINS_OWNER)); if (un_rq->wins_owner==NULL) return; for (i=0; ipartner_count; i++) decode_wins_owner(inbuf, &un_rq->wins_owner[i]); if(!check_buffer(inbuf, 4)) return; un_rq->initiating_wins_server.s_addr=IVAL(inbuf->buffer, inbuf->offset); inbuf->offset+=4; } /**************************************************************************** decode a send entries request ****************************************************************************/ static void decode_send_entries_request(struct BUFFER *inbuf, SEND_ENTRIES_REQUEST *se_rq) { decode_wins_owner(inbuf, &se_rq->wins_owner); } /**************************************************************************** decode a send entries reply ****************************************************************************/ static void decode_send_entries_reply(struct BUFFER *inbuf, SEND_ENTRIES_REPLY *se_rp) { int i; if(!check_buffer(inbuf, 4)) return; se_rp->max_names = RIVAL(inbuf->buffer, inbuf->offset); inbuf->offset+=4; se_rp->wins_name=(WINS_NAME *)talloc(mem_ctx, se_rp->max_names*sizeof(WINS_NAME)); if (se_rp->wins_name==NULL) return; for (i=0; imax_names; i++) decode_wins_name(inbuf, &se_rp->wins_name[i]); } /**************************************************************************** decode a add version number map table reply ****************************************************************************/ static void decode_add_version_number_map_table_reply(struct BUFFER *inbuf, AVMT_REP *avmt_rep) { int i; if(!check_buffer(inbuf, 4)) return; avmt_rep->partner_count=RIVAL(inbuf->buffer, inbuf->offset); inbuf->offset+=4; avmt_rep->wins_owner=(WINS_OWNER *)talloc(mem_ctx, avmt_rep->partner_count*sizeof(WINS_OWNER)); if (avmt_rep->wins_owner==NULL) return; for (i=0; ipartner_count; i++) decode_wins_owner(inbuf, &avmt_rep->wins_owner[i]); if(!check_buffer(inbuf, 4)) return; avmt_rep->initiating_wins_server.s_addr=IVAL(inbuf->buffer, inbuf->offset); inbuf->offset+=4; } /**************************************************************************** decode a replicate packet and fill a structure ****************************************************************************/ static void decode_replicate(struct BUFFER *inbuf, REPLICATE *rep) { if(!check_buffer(inbuf, 4)) return; rep->msg_type = RIVAL(inbuf->buffer, inbuf->offset); inbuf->offset+=4; switch (rep->msg_type) { case 0: break; case 1: /* add version number map table reply */ decode_add_version_number_map_table_reply(inbuf, &rep->avmt_rep); break; case 2: /* send entry request */ decode_send_entries_request(inbuf, &rep->se_rq); break; case 3: /* send entry request */ decode_send_entries_reply(inbuf, &rep->se_rp); break; case 4: /* update notification request */ decode_update_notify_request(inbuf, &rep->un_rq); break; default: DEBUG(0,("decode_replicate: unknown message type:%d\n", rep->msg_type)); break; } } /**************************************************************************** read the generic header and fill the struct. ****************************************************************************/ static void read_generic_header(struct BUFFER *inbuf, generic_header *q) { if(!check_buffer(inbuf, 16)) return; q->data_size = RIVAL(inbuf->buffer, inbuf->offset+0); q->opcode = RIVAL(inbuf->buffer, inbuf->offset+4); q->assoc_ctx = RIVAL(inbuf->buffer, inbuf->offset+8); q->mess_type = RIVAL(inbuf->buffer, inbuf->offset+12); } /******************************************************************* decode a start association request ********************************************************************/ static void decode_start_assoc_request(struct BUFFER *inbuf, START_ASSOC_REQUEST *q) { if(!check_buffer(inbuf, 8)) return; q->assoc_ctx = RIVAL(inbuf->buffer, inbuf->offset+0); q->min_ver = RSVAL(inbuf->buffer, inbuf->offset+4); q->maj_ver = RSVAL(inbuf->buffer, inbuf->offset+6); } /******************************************************************* decode a start association reply ********************************************************************/ static void decode_start_assoc_reply(struct BUFFER *inbuf, START_ASSOC_REPLY *r) { if(!check_buffer(inbuf, 8)) return; r->assoc_ctx=RIVAL(inbuf->buffer, inbuf->offset+0); r->min_ver = RSVAL(inbuf->buffer, inbuf->offset+4); r->maj_ver = RSVAL(inbuf->buffer, inbuf->offset+6); } /******************************************************************* decode a start association reply ********************************************************************/ static void decode_stop_assoc(struct BUFFER *inbuf, STOP_ASSOC *r) { if(!check_buffer(inbuf, 4)) return; r->reason=RIVAL(inbuf->buffer, inbuf->offset); } /**************************************************************************** decode a packet and fill a generic structure ****************************************************************************/ void decode_generic_packet(struct BUFFER *inbuf, GENERIC_PACKET *q) { read_generic_header(inbuf, &q->header); inbuf->offset+=16; switch (q->header.mess_type) { case 0: decode_start_assoc_request(inbuf, &q->sa_rq); break; case 1: decode_start_assoc_reply(inbuf, &q->sa_rp); break; case 2: decode_stop_assoc(inbuf, &q->so); break; case 3: decode_replicate(inbuf, &q->rep); break; default: DEBUG(0,("decode_generic_packet: unknown message type:%d\n", q->header.mess_type)); break; } } /**************************************************************************** encode a WINS_OWNER struct ****************************************************************************/ static void encode_wins_owner(struct BUFFER *outbuf, WINS_OWNER *wins_owner) { if (!grow_buffer(outbuf, 24)) return; SIVAL(outbuf->buffer, outbuf->offset, wins_owner->address.s_addr); outbuf->offset+=4; RSIVAL(outbuf->buffer, outbuf->offset, (int)(wins_owner->max_version>>32)); outbuf->offset+=4; RSIVAL(outbuf->buffer, outbuf->offset, (int)(wins_owner->max_version&0xffffffff)); outbuf->offset+=4; RSIVAL(outbuf->buffer, outbuf->offset, wins_owner->min_version>>32); outbuf->offset+=4; RSIVAL(outbuf->buffer, outbuf->offset, wins_owner->min_version&0xffffffff); outbuf->offset+=4; RSIVAL(outbuf->buffer, outbuf->offset, wins_owner->type); outbuf->offset+=4; } /**************************************************************************** encode a WINS_NAME struct ****************************************************************************/ static void encode_wins_name(struct BUFFER *outbuf, WINS_NAME *wins_name) { int i; if (!grow_buffer(outbuf, 48+(4*wins_name->num_ip))) return; RSIVAL(outbuf->buffer, outbuf->offset, wins_name->name_len); outbuf->offset+=4; memset(outbuf->buffer+outbuf->offset, ' ', 15); /* to prevent copying the leading \0 */ memcpy(outbuf->buffer+outbuf->offset, wins_name->name, strlen(wins_name->name)); outbuf->offset+=15; outbuf->buffer[outbuf->offset++]=(char)wins_name->type; RSIVAL(outbuf->buffer, outbuf->offset, wins_name->empty); outbuf->offset+=4; RSIVAL(outbuf->buffer, outbuf->offset, wins_name->name_flag); outbuf->offset+=4; RSIVAL(outbuf->buffer, outbuf->offset, wins_name->group_flag); outbuf->offset+=4; RSIVAL(outbuf->buffer, outbuf->offset, wins_name->id>>32); outbuf->offset+=4; RSIVAL(outbuf->buffer, outbuf->offset, wins_name->id); outbuf->offset+=4; if (wins_name->name_flag & 2) { SIVAL(outbuf->buffer, outbuf->offset, wins_name->num_ip); outbuf->offset+=4; } SIVAL(outbuf->buffer, outbuf->offset, wins_name->owner.s_addr); outbuf->offset+=4; if (wins_name->name_flag & 2) { for (i=0;inum_ip;i++) { SIVAL(outbuf->buffer, outbuf->offset, wins_name->others[i].s_addr); outbuf->offset+=4; } } RSIVAL(outbuf->buffer, outbuf->offset, wins_name->foo); outbuf->offset+=4; } /**************************************************************************** encode a update notification request ****************************************************************************/ static void encode_update_notify_request(struct BUFFER *outbuf, UPDATE_NOTIFY_REQUEST *un_rq) { int i; if (!grow_buffer(outbuf, 8)) return; RSIVAL(outbuf->buffer, outbuf->offset, un_rq->partner_count); outbuf->offset+=4; for (i=0; ipartner_count; i++) encode_wins_owner(outbuf, &un_rq->wins_owner[i]); SIVAL(outbuf->buffer, outbuf->offset, un_rq->initiating_wins_server.s_addr); outbuf->offset+=4; } /**************************************************************************** decode a send entries request ****************************************************************************/ static void encode_send_entries_request(struct BUFFER *outbuf, SEND_ENTRIES_REQUEST *se_rq) { encode_wins_owner(outbuf, &se_rq->wins_owner); } /**************************************************************************** decode a send entries reply ****************************************************************************/ static void encode_send_entries_reply(struct BUFFER *outbuf, SEND_ENTRIES_REPLY *se_rp) { int i; if (!grow_buffer(outbuf, 4)) return; RSIVAL(outbuf->buffer, outbuf->offset, se_rp->max_names); outbuf->offset+=4; for (i=0; imax_names; i++) encode_wins_name(outbuf, &se_rp->wins_name[i]); } /**************************************************************************** encode a add version number map table reply ****************************************************************************/ static void encode_add_version_number_map_table_reply(struct BUFFER *outbuf, AVMT_REP *avmt_rep) { int i; if (!grow_buffer(outbuf, 8)) return; RSIVAL(outbuf->buffer, outbuf->offset, avmt_rep->partner_count); outbuf->offset+=4; for (i=0; ipartner_count; i++) encode_wins_owner(outbuf, &avmt_rep->wins_owner[i]); SIVAL(outbuf->buffer, outbuf->offset, avmt_rep->initiating_wins_server.s_addr); outbuf->offset+=4; } /**************************************************************************** decode a replicate packet and fill a structure ****************************************************************************/ static void encode_replicate(struct BUFFER *outbuf, REPLICATE *rep) { if (!grow_buffer(outbuf, 4)) return; RSIVAL(outbuf->buffer, outbuf->offset, rep->msg_type); outbuf->offset+=4; switch (rep->msg_type) { case 0: break; case 1: /* add version number map table reply */ encode_add_version_number_map_table_reply(outbuf, &rep->avmt_rep); break; case 2: /* send entry request */ encode_send_entries_request(outbuf, &rep->se_rq); break; case 3: /* send entry request */ encode_send_entries_reply(outbuf, &rep->se_rp); break; case 4: /* update notification request */ encode_update_notify_request(outbuf, &rep->un_rq); break; default: DEBUG(0,("encode_replicate: unknown message type:%d\n", rep->msg_type)); break; } } /**************************************************************************** write the generic header. ****************************************************************************/ static void write_generic_header(struct BUFFER *outbuf, generic_header *r) { RSIVAL(outbuf->buffer, 0, r->data_size); RSIVAL(outbuf->buffer, 4, r->opcode); RSIVAL(outbuf->buffer, 8, r->assoc_ctx); RSIVAL(outbuf->buffer,12, r->mess_type); } /******************************************************************* decode a start association request ********************************************************************/ static void encode_start_assoc_request(struct BUFFER *outbuf, START_ASSOC_REQUEST *q) { if (!grow_buffer(outbuf, 45)) return; RSIVAL(outbuf->buffer, outbuf->offset, q->assoc_ctx); RSSVAL(outbuf->buffer, outbuf->offset+4, q->min_ver); RSSVAL(outbuf->buffer, outbuf->offset+6, q->maj_ver); outbuf->offset=45; } /******************************************************************* decode a start association reply ********************************************************************/ static void encode_start_assoc_reply(struct BUFFER *outbuf, START_ASSOC_REPLY *r) { if (!grow_buffer(outbuf, 45)) return; RSIVAL(outbuf->buffer, outbuf->offset, r->assoc_ctx); RSSVAL(outbuf->buffer, outbuf->offset+4, r->min_ver); RSSVAL(outbuf->buffer, outbuf->offset+6, r->maj_ver); outbuf->offset=45; } /******************************************************************* decode a start association reply ********************************************************************/ static void encode_stop_assoc(struct BUFFER *outbuf, STOP_ASSOC *r) { if (!grow_buffer(outbuf, 44)) return; RSIVAL(outbuf->buffer, outbuf->offset, r->reason); outbuf->offset=44; } /**************************************************************************** write the generic header size. ****************************************************************************/ static void write_generic_header_size(generic_header *r, int size) { /* the buffer size is the total size minus the size field */ r->data_size=size-4; } /**************************************************************************** encode a packet and read a generic structure ****************************************************************************/ void encode_generic_packet(struct BUFFER *outbuf, GENERIC_PACKET *q) { if (!grow_buffer(outbuf, 16)) return; outbuf->offset=16; switch (q->header.mess_type) { case 0: encode_start_assoc_request(outbuf, &q->sa_rq); break; case 1: encode_start_assoc_reply(outbuf, &q->sa_rp); break; case 2: encode_stop_assoc(outbuf, &q->so); break; case 3: encode_replicate(outbuf, &q->rep); break; default: DEBUG(0,("encode_generic_packet: unknown message type:%d\n", q->header.mess_type)); break; } write_generic_header_size(&q->header, outbuf->offset); write_generic_header(outbuf, &q->header); } /**************************************************************************** dump a WINS_OWNER structure ****************************************************************************/ static void dump_wins_owner(WINS_OWNER *wins_owner) { DEBUGADD(10,("\t\t\t\taddress : %s\n", inet_ntoa(wins_owner->address))); DEBUGADD(10,("\t\t\t\tmax version: %d\n", (int)wins_owner->max_version)); DEBUGADD(10,("\t\t\t\tmin version: %d\n", (int)wins_owner->min_version)); DEBUGADD(10,("\t\t\t\ttype : %d\n", wins_owner->type)); } /**************************************************************************** dump a WINS_NAME structure ****************************************************************************/ static void dump_wins_name(WINS_NAME *wins_name) { fstring name; int i; strncpy(name, wins_name->name, 15); DEBUGADD(10,("name: %d, %s<%02x> %x,%x, %d %s %d ", wins_name->name_len, name, wins_name->type, wins_name->name_flag, wins_name->group_flag, (int)wins_name->id, inet_ntoa(wins_name->owner), wins_name->num_ip)); if (wins_name->num_ip!=1) for (i=0; inum_ip; i++) DEBUGADD(10,("%s ", inet_ntoa(wins_name->others[i]))); DEBUGADD(10,("\n")); } /**************************************************************************** dump a replicate structure ****************************************************************************/ static void dump_replicate(REPLICATE *rep) { int i; DEBUGADD(5,("\t\tmsg_type: %d ", rep->msg_type)); switch (rep->msg_type) { case 0: DEBUGADD(5,("(Add Version Map Table Request)\n")); break; case 1: DEBUGADD(5,("(Add Version Map Table Reply)\n")); DEBUGADD(5,("\t\t\tpartner_count : %d\n", rep->avmt_rep.partner_count)); for (i=0; iavmt_rep.partner_count; i++) dump_wins_owner(&rep->avmt_rep.wins_owner[i]); DEBUGADD(5,("\t\t\tinitiating_wins_server: %s\n", inet_ntoa(rep->avmt_rep.initiating_wins_server))); break; case 2: DEBUGADD(5,("(Send Entries Request)\n")); dump_wins_owner(&rep->se_rq.wins_owner); break; case 3: DEBUGADD(5,("(Send Entries Reply)\n")); DEBUGADD(5,("\t\t\tmax_names : %d\n", rep->se_rp.max_names)); for (i=0; ise_rp.max_names; i++) dump_wins_name(&rep->se_rp.wins_name[i]); break; case 4: DEBUGADD(5,("(Update Notify Request)\n")); DEBUGADD(5,("\t\t\tpartner_count : %d\n", rep->un_rq.partner_count)); for (i=0; iun_rq.partner_count; i++) dump_wins_owner(&rep->un_rq.wins_owner[i]); DEBUGADD(5,("\t\t\tinitiating_wins_server: %s\n", inet_ntoa(rep->un_rq.initiating_wins_server))); break; default: DEBUG(5,("\n")); break; } } /**************************************************************************** dump a generic structure ****************************************************************************/ void dump_generic_packet(GENERIC_PACKET *q) { DEBUG(5,("dump_generic_packet:\n")); DEBUGADD(5,("\tdata_size: %08x\n", q->header.data_size)); DEBUGADD(5,("\topcode : %08x\n", q->header.opcode)); DEBUGADD(5,("\tassoc_ctx: %08x\n", q->header.assoc_ctx)); DEBUGADD(5,("\tmess_type: %08x ", q->header.mess_type)); switch (q->header.mess_type) { case 0: DEBUGADD(5,("(Start Association Request)\n")); DEBUGADD(5,("\t\tassoc_ctx: %08x\n", q->sa_rq.assoc_ctx)); DEBUGADD(5,("\t\tmin_ver : %04x\n", q->sa_rq.min_ver)); DEBUGADD(5,("\t\tmaj_ver : %04x\n", q->sa_rq.maj_ver)); break; case 1: DEBUGADD(5,("(Start Association Reply)\n")); DEBUGADD(5,("\t\tassoc_ctx: %08x\n", q->sa_rp.assoc_ctx)); DEBUGADD(5,("\t\tmin_ver : %04x\n", q->sa_rp.min_ver)); DEBUGADD(5,("\t\tmaj_ver : %04x\n", q->sa_rp.maj_ver)); break; case 2: DEBUGADD(5,("(Stop Association)\n")); DEBUGADD(5,("\t\treason: %08x\n", q->so.reason)); break; case 3: DEBUGADD(5,("(Replication Message)\n")); dump_replicate(&q->rep); break; default: DEBUG(5,("\n")); break; } } /**************************************************************************** generate a stop packet ****************************************************************************/ void stop_packet(GENERIC_PACKET *q, GENERIC_PACKET *r, int reason) { r->header.opcode=OPCODE_NON_NBT; r->header.assoc_ctx=get_server_assoc(q->header.assoc_ctx); r->header.mess_type=MESSAGE_TYPE_STOP_ASSOC; r->so.reason=reason; }