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552 lines
18 KiB
C
552 lines
18 KiB
C
/*
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Serval Distributed Numbering Architecture (DNA)
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Copyright (C) 2010 Paul Gardner-Stephen
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
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#include "mphlr.h"
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int process_packet(unsigned char *packet,int len,struct sockaddr *sender,int sender_len)
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{
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int authenticatedP=0;
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char did[128];
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char sid[128];
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unsigned char *transaction_id=&packet[OFS_TRANSIDFIELD];
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did[0]=0; sid[0]=0;
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/* Get DID or SID */
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if (packetGetID(packet,len,did,sid)) return setReason("Could not parse DID or SID");
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/* Check for PIN */
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if (!isFieldZeroP(packet,OFS_PINFIELD,16))
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{
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/* Authentication has been attempted.
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If it is incorrect, then we need to return with ACTION_DECLINED
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*/
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if (debug>1) fprintf(stderr,"A PIN has been supplied.\n");
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/* Can only authenticate by SID, not DID (since DIDs are ambiguous) */
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if (packet[OFS_SIDDIDFIELD]!=1) return setReason("You can only authenticate against a SID");
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/* XXX check authentication */
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return setReason("Authentication not yet supported");
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}
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else
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{
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/* No attempt at authentication was made */
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authenticatedP=0;
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if (debug>1) fprintf(stderr,"No PIN was supplied.\n");
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}
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if (serverMode) return processRequest(packet,len,sender,sender_len,transaction_id,did,sid);
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return 0;
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}
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int packetOk(int interface,unsigned char *packet,int len,unsigned char *transaction_id,
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struct sockaddr *recvaddr,int recvaddrlen,int parseP)
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{
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if (len<HEADERFIELDS_LEN) return setReason("Packet is too short");
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if (packet[0]==0x41&&packet[1]==0x10)
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return packetOkDNA(packet,len,transaction_id,recvaddr,recvaddrlen,parseP);
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if (packet[0]==0x4F&&packet[1]==0x10)
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{
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if (interface>-1)
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{
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return packetOkOverlay(interface,packet,len,transaction_id,recvaddr,recvaddrlen,parseP);
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}
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else
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/* We ignore overlay mesh packets in simple server mode, which is indicated by interface==-1 */
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return setReason("Ignoring overlay mesh packet");
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}
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return setReason("Packet type not recognised.");
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}
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int packetOkDNA(unsigned char *packet,int len,unsigned char *transaction_id,
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struct sockaddr *recvaddr,int recvaddrlen,int parseP)
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{
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/* Make sure that the packet is meant for us, and is not mal-formed */
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int version;
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int cipher;
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int length;
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int payloadRotation;
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version=(packet[2]<<8)|packet[3];
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length=(packet[4]<<8)|packet[5];
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cipher=(packet[6]<<8)|packet[7];
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if (version!=1) return setReason("Unknown packet format version");
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if (cipher!=0) return setReason("Unknown packet cipher");
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if (length!=len) return setReason("Packet length incorrect");
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if (cipher)
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if (packetDecipher(packet,len,cipher))
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return setReason("Could not decipher packet");
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/* Make sure the transaction ID matches */
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if (transaction_id)
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{
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int i;
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for(i=0;i<TRANSID_SIZE;i++)
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if (packet[OFS_TRANSIDFIELD+i]!=transaction_id[i])
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return setReason("transaction ID mismatch");
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}
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/* Unrotate the payload */
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payloadRotation=packet[OFS_ROTATIONFIELD];
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{
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unsigned char temp[256];
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bcopy(&packet[len-payloadRotation],&temp[0],payloadRotation);
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bcopy(&packet[HEADERFIELDS_LEN],&packet[HEADERFIELDS_LEN+payloadRotation],
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len-(HEADERFIELDS_LEN)-payloadRotation);
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bcopy(&temp[0],&packet[HEADERFIELDS_LEN],payloadRotation);
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}
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if (debug>1) fprintf(stderr,"Packet passes sanity checks and is ready for decoding.\n");
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if (debug>2) dump("unrotated packet",packet,len);
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if (parseP) return process_packet(packet,len,recvaddr,recvaddrlen); else return 0;
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}
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int packetMakeHeader(unsigned char *packet,int packet_maxlen,int *packet_len,
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unsigned char *transaction_id,int cryptoflags)
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{
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int i;
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CHECK_PACKET_LEN(OFS_PAYLOAD);
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/* 0x4110 magic value */
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packet[0]=0x41;
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packet[1]=0x10;
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/* encoding version */
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packet[2]=0x00;
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packet[3]=0x01;
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/* Payload length (to be filled in later) */
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packet[4]=0x00;
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packet[5]=0x00;
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/* Payload cipher (0x0000 = plain text) */
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packet[6]=0x00;
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packet[7]=0x00;
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/* Add 64bit transaction id */
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if (transaction_id)
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/* Use supplied transaction ID */
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for(i=0;i<TRANSID_SIZE;i++) packet[OFS_TRANSIDFIELD+i]=transaction_id[i];
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else
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/* No transaction ID supplied, so create random transaction ID */
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for(i=0;i<TRANSID_SIZE;i++) packet[OFS_TRANSIDFIELD+i]=random()&0xff;
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/* payload rotation (not yet applied) */
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packet[OFS_ROTATIONFIELD]=0x00;
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*packet_len=HEADERFIELDS_LEN;
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/* Clear did/subscriber ID, salt and hashed pin fields.
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However, we cannot zero them, because that would provide significant knowable plain-text
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for a known plain text attack.
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Thus, instead we fill it with random date, but make the modulo sum of each field == 0x00
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to indicate that no PIN has been provided. */
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safeZeroField(packet,*packet_len,SIDDIDFIELD_LEN); *packet_len+=SIDDIDFIELD_LEN;
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safeZeroField(packet,*packet_len,16); *packet_len+=16;
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safeZeroField(packet,*packet_len,16); *packet_len+=16;
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return 0;
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}
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int packetSetDid(unsigned char *packet,int packet_maxlen,int *packet_len,char *did)
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{
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/* Set the subject field to the supplied DID.
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DIDs get encoded 4bits per digit (0-9,#,*,+,SPARE1,ESCAPE,END)
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*/
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int ofs=OFS_SIDDIDFIELD; /* where the DID/subscriber ID gets written */
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/* Put DID (ie not SID) marker into packet */
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packet[ofs++]=0x00;
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return stowDid(packet,&ofs,did);
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}
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int packetSetSid(unsigned char *packet,int packet_maxlen,int *packet_len,char *sid)
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{
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/* Convert and store hex formatted sid */
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int ofs=OFS_SIDDIDFIELD; /* where the DID/subscriber ID gets written */
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if (strlen(sid)!=64) {
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if (debug) fprintf(stderr,"Invalid SID: [%s] - should be 64 hex digits\n",sid);
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return setReason("SID must consist of 64 hex digits");
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}
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packet[ofs++]=0x01; /* SID */
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return stowSid(packet,ofs,sid);
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}
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int packetFinalise(unsigned char *packet,int packet_maxlen,int *packet_len,int cryptoflags)
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{
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/* Add any padding bytes and EOT to packet */
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int paddingBytes=rand()&0xf;
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int payloadRotation;
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if (paddingBytes)
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{
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CHECK_PACKET_LEN(2+paddingBytes);
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packet[(*packet_len)++]=ACTION_PAD;
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packet[(*packet_len)++]=paddingBytes;
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while(paddingBytes--) packet[(*packet_len)++]=random()&0xff;
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}
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packet[(*packet_len)++]=ACTION_EOT;
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/* Set payload length */
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packet[4]=((*packet_len)>>8)&0xff;
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packet[5]=((*packet_len)&0xff);
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/* Work out by how much to rotate the packet payload.
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The purpose of the rotation is to make it more difficult to
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conduct a known-plaintext attack against any ciphers that we
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may later support.
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*/
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payloadRotation=(*packet_len)-HEADERFIELDS_LEN;
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if (payloadRotation>0xff) payloadRotation=0xff;
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payloadRotation=random()%payloadRotation;
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if (debug>2)
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fprintf(stderr,"Known Plaintext counter-measure: rotating packet payload by 0x%02x bytes.\n",
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payloadRotation);
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if (debug>2) dump("unrotated packet",packet,*packet_len);
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/* Now rotate the payload */
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{
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unsigned char temp[256];
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/*Copy first part of payload to a temporary buffer */
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bcopy(&packet[HEADERFIELDS_LEN],&temp[0],payloadRotation);
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/* Copy the main part of the payload left by the rotation factor */
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bcopy(&packet[HEADERFIELDS_LEN+payloadRotation],&packet[HEADERFIELDS_LEN],
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(*packet_len)-(HEADERFIELDS_LEN)-payloadRotation);
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/* Copy the temporary buffer to the end of the packet to complete the rotation */
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bcopy(&temp[0],&packet[(*packet_len)-payloadRotation],payloadRotation);
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}
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packet[OFS_ROTATIONFIELD]=payloadRotation;
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if (debug>3) dump("rotated packet",packet,*packet_len);
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if (cryptoflags) return packetEncipher(packet,packet_maxlen,packet_len,cryptoflags);
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return 0;
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}
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int packetAddHLRCreateRequest(unsigned char *packet,int packet_maxlen,int *packet_len)
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{
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int packet_len_in=*packet_len;
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CHECK_PACKET_LEN(1);
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packet[(*packet_len)++]=ACTION_CREATEHLR;
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if (debug>2) dump("Variable request octets (HLR create)",&packet[packet_len_in],(*packet_len)-packet_len_in);
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return 0;
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}
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int packetAddVariableRequest(unsigned char *packet,int packet_maxlen,int *packet_len,
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char *item,int instance,int start_offset,int bytes)
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{
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/* Work out which item type we are asking for */
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int itemId;
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int packet_len_in=*packet_len;
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for(itemId=0;vars[itemId].name;itemId++)
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if (!strcmp(item,vars[itemId].name)) {
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break;
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}
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/* Sanity check the request */
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if (!vars[itemId].name) {
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if (debug) fprintf(stderr,"`%s' is not a known HLR variable.\n",item);
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return setReason("Requested unknown HLR variable");
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}
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itemId=vars[itemId].id;
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if (instance<-1) return setReason("Asked for illegal variable value instance (<-1)");
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if (instance>0xfe) return setReason("Asked for illegal variable value instance (>0xfe)");
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if ((instance!=-1)&&(itemId<0x80)&&instance) {
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return setReason("Asked for secondary value of single-value variable for read");
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}
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if (start_offset<0||start_offset>0xffff) return setReason("Asked for illegal variable value starting offset");
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if (bytes<0||(start_offset+bytes)>0xffff) {
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if (debug) fprintf(stderr,"Asked for %d bytes at offset %d\n",bytes,start_offset);
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return setReason("Asked for illegal variable value ending offset");
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}
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/* Add request to the packet */
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CHECK_PACKET_LEN(1+1+((itemId&0x80)?1:0)+2+2);
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packet[(*packet_len)++]=ACTION_GET;
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packet[(*packet_len)++]=itemId;
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if (itemId&0x80) { packet[(*packet_len)++]=instance; }
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packet[(*packet_len)++]=start_offset>>8;
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packet[(*packet_len)++]=start_offset&0xff;
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packet[(*packet_len)++]=bytes>>8;
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packet[(*packet_len)++]=bytes&0xff;
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if (debug>2) dump("Variable request octets (var)",&packet[packet_len_in],(*packet_len)-packet_len_in);
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return 0;
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}
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int packetAddVariableWrite(unsigned char *packet,int packet_maxlen,
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int *packet_len,
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int itemId,int instance,unsigned char *value,
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int start_offset,int value_len,int flags)
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{
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/* Work out which item type we are asking for */
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int packet_len_in=*packet_len;
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int max_offset=start_offset+value_len-1;
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if (debug>1) printf("packetAddVariableWrite(start=%d,len=%d,flags=%d)\n",start_offset,value_len,flags);
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/* Sanity check */
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if (itemId&0x80) {
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if (instance<0) return setReason("Asked for illegal variable value instance (<0)");
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if (instance>0xfe) return setReason("Asked for illegal variable value instance (>0xfe)");
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}
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if ((itemId<0x80)&&instance&&(instance!=-1)) return setReason("Asked for secondary value of single-value variable for write");
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if (start_offset<0||start_offset>0xffff) return setReason("Asked for illegal variable value starting offset");
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if (max_offset<0||max_offset>0xffff) return setReason("Asked for illegal variable value ending offset");
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/* Add request to the packet */
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CHECK_PACKET_LEN(1+1+((itemId&0x80)?1:0)+2+2+1);
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packet[(*packet_len)++]=ACTION_SET;
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packet[(*packet_len)++]=itemId;
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if (itemId&0x80) packet[(*packet_len)++]=instance;
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packet[(*packet_len)++]=start_offset>>8;
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packet[(*packet_len)++]=start_offset&0xff;
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packet[(*packet_len)++]=value_len>>8;
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packet[(*packet_len)++]=value_len&0xff;
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packet[(*packet_len)++]=flags;
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if (debug>2) dump("Packet with var write header",&packet[0],*packet_len);
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CHECK_PACKET_LEN(value_len);
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bcopy(&value[0],&packet[*packet_len],value_len);
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(*packet_len)+=value_len;
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if (debug>2) dump("Variable request octets (write)",&packet[packet_len_in],(*packet_len)-packet_len_in);
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return 0;
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}
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int extractRequest(unsigned char *packet,int *packet_ofs,int packet_len,
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int *itemId,int *instance,unsigned char *value,
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int *start_offset,int *bytes,int *flags)
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{
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if (*packet_ofs<0||(*packet_ofs)+6>=packet_len)
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return setReason("mal-formed request packet (packet too short/bad offset)");
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*itemId=packet[(*packet_ofs)++];
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if ((*itemId)&0x80) *instance=packet[(*packet_ofs)++]; else *instance=0;
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if (*instance==0xff) *instance=-1;
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*start_offset=packet[(*packet_ofs)++]<<8;
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*start_offset|=packet[(*packet_ofs)++];
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*bytes=packet[(*packet_ofs)++]<<8;
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*bytes|=packet[(*packet_ofs)++];
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*flags=packet[(*packet_ofs)++];
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if (debug>2) printf("Write flags = 0x%02x\n",*flags);
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if (*packet_ofs<0||(*packet_ofs)+(*bytes)>=packet_len)
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{
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if (debug) fprintf(stderr,"Packet offset is %d, length is %d, and asked for %d bytes.\n",*packet_ofs,packet_len,*bytes);
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return setReason("mal-formed request packet (too short for claimed data)");
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}
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bcopy(&packet[*packet_ofs],value,*bytes);
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(*packet_ofs)+=*bytes;
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return 0;
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}
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int extractResponses(struct in_addr sender,unsigned char *buffer,int len,struct response_set *responses)
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{
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int ofs=OFS_PAYLOAD;
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while(ofs<len)
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{
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/* XXX should allocate responses from a temporary and bounded slab of memory */
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struct response *r=calloc(sizeof(struct response),1);
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if (!r) exit(setReason("calloc() failed."));
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r->code=buffer[ofs];
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r->sender=sender;
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/* XXX doesn't make sure it is SID instead of DID */
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bcopy(&buffer[HEADERFIELDS_LEN+1],r->sid,SID_SIZE);
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switch(buffer[ofs])
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{
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case ACTION_EOT:
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if (debug>1) fprintf(stderr,"Reached response packet EOT.\n");
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case ACTION_DECLINED: case ACTION_OKAY:
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case ACTION_CREATEHLR:
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r->response_len=0; break;
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case ACTION_GET:
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/* Followed by variable # to fetch.
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XXX If variable number >=0x80 then get instance information */
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r->response_len=1; break;
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case ACTION_ERROR:
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r->response_len=buffer[++ofs];
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break;
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case ACTION_DATA:
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/* Extract variable value */
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unpackageVariableSegment(&buffer[ofs+1],len-ofs,WITHDATA,r);
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break;
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case ACTION_DONE:
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r->value_offset=buffer[ofs+1];
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r->response_len=1;
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break;
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case ACTION_PAD:
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/* Skip padding bytes */
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r->response_len=1+buffer[ofs+1];
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break;
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case ACTION_WROTE:
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/* Extract info about the variable segment that was written.
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This uses the same format as the request to write it, but without the data */
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unpackageVariableSegment(&buffer[ofs+1],len-ofs,WITHOUTDATA,r);
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r->response=NULL;
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break;
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case ACTION_SET:
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case ACTION_DEL:
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case ACTION_XFER:
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default:
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free(r);
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if (debug>1) fprintf(stderr,"Encountered unimplemented response code 0x%02x @ 0x%x\n",buffer[ofs],ofs);
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fixResponses(responses);
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return setReason("Encountered unimplemented response type");
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}
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ofs++;
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if (r->response_len) {
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/* extract bytes of response */
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unsigned char *rr;
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if (r->response) rr=r->response; else rr=&buffer[ofs];
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r->response=malloc(r->response_len+1);
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if (!r->response) exit(setReason("malloc() failed."));
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bcopy(&rr[0],r->response,r->response_len);
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r->response[r->response_len]=0;
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ofs+=r->response_len;
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}
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/* Work out peer ID */
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r->sender=sender;
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for(r->peer_id=0;r->peer_id<peer_count;r->peer_id++)
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{
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if (sender.s_addr==peers[r->peer_id].s_addr) break;
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}
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if (r->peer_id>peer_count) r->peer_id=-1;
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/* Link new response into chain */
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if (debug>2) printf("Linking response into response set.\n");
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r->prev=responses->last_response;
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if (responses->last_response)
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responses->last_response->next=r;
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else
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responses->responses=r;
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responses->last_response=r;
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responses->response_count++;
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responseFromPeer(responses,r->peer_id);
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|
if (debug>2) dumpResponses(responses);
|
|
}
|
|
|
|
fixResponses(responses);
|
|
return 0;
|
|
}
|
|
|
|
int packageVariableSegment(unsigned char *data,int *dlen,struct hlrentry_handle *h,
|
|
int offset,int buffer_size)
|
|
{
|
|
int bytes;
|
|
int dlen_in=*dlen;
|
|
|
|
if ((buffer_size-(*dlen))<8) return setReason("Insufficient buffer space for packageVariableSegment()");
|
|
|
|
/* Figure out how many bytes we need to package */
|
|
bytes=buffer_size-(*dlen)-8;
|
|
if ((h->value_len-offset)<bytes) bytes=h->value_len-offset;
|
|
if (bytes<0) bytes=0;
|
|
if (debug>1) fprintf(stderr,"Packaging %d bytes of variable\n",bytes);
|
|
|
|
/* Describe variable */
|
|
|
|
/* Variable id and instance # (if required) */
|
|
data[(*dlen)++]=h->var_id;
|
|
if (h->var_id&0x80) data[(*dlen)++]=h->var_instance;
|
|
|
|
/* Variable length */
|
|
data[(*dlen)++]=h->value_len>>8;
|
|
data[(*dlen)++]=h->value_len&0xff;
|
|
|
|
/* Start offset in this segment */
|
|
data[(*dlen)++]=(offset>>8)&0xff;
|
|
data[(*dlen)++]=offset&0xff;
|
|
|
|
/* Number of bytes in this segment */
|
|
data[(*dlen)++]=(bytes>>8)&0xff;
|
|
data[(*dlen)++]=bytes&0xff;
|
|
if (debug>1) fprintf(stderr,"Packaging %d bytes\n",bytes);
|
|
|
|
/* Package the variable value itself (or part thereof) */
|
|
bcopy(&h->value[offset],&data[*dlen],bytes);
|
|
(*dlen)+=bytes;
|
|
|
|
if (debug>2) dump("Variable segment octets",&data[dlen_in],(*dlen)-dlen_in);
|
|
|
|
return 0;
|
|
}
|
|
|
|
int unpackageVariableSegment(unsigned char *data,int dlen,int flags,struct response *r)
|
|
{
|
|
r->response_len=0;
|
|
if (dlen<7) return setReason("unpackageVariableSegment() fed insufficient data");
|
|
|
|
r->var_id=data[r->response_len++];
|
|
if (r->var_id&0x80) r->var_instance=data[r->response_len++]; else r->var_instance=0;
|
|
if (r->var_instance==0xff) r->var_instance=-1;
|
|
|
|
r->value_len=data[r->response_len++]<<8;
|
|
r->value_len|=data[r->response_len++];
|
|
|
|
r->value_offset=data[r->response_len++]<<8;
|
|
r->value_offset|=data[r->response_len++];
|
|
|
|
r->value_bytes=data[r->response_len++]<<8;
|
|
r->value_bytes|=data[r->response_len++];
|
|
|
|
r->response=&data[r->response_len];
|
|
|
|
r->response_len+=r->value_bytes;
|
|
|
|
if (flags!=WITHOUTDATA)
|
|
if (r->response_len>dlen)
|
|
return setReason("unpackageVariableSegment() fed insufficient or corrupt data");
|
|
|
|
return 0;
|
|
}
|