--- snort-2.9.0/src/twofish.c 1970-01-01 01:00:00.000000000 +0100 +++ snort-2.9.0.dlucio/src/twofish.c 2010-10-08 18:05:37.000000000 +0200 @@ -0,0 +1,971 @@ +/* $Id: twofish.c,v 2.1 2008/12/15 20:36:05 fknobbe Exp $ + * + * + * Copyright (C) 1997-2000 The Cryptix Foundation Limited. + * Copyright (C) 2000 Farm9. + * Copyright (C) 2001 Frank Knobbe. + * All rights reserved. + * + * For Cryptix code: + * Use, modification, copying and distribution of this software is subject + * the terms and conditions of the Cryptix General Licence. You should have + * received a copy of the Cryptix General Licence along with this library; + * if not, you can download a copy from http://www.cryptix.org/ . + * + * For Farm9: + * --- jojo@farm9.com, August 2000, converted from Java to C++, added CBC mode and + * ciphertext stealing technique, added AsciiTwofish class for easy encryption + * decryption of text strings + * + * Frank Knobbe : + * --- April 2001, converted from C++ to C, prefixed global variables + * with TwoFish, substituted some defines, changed functions to make use of + * variables supplied in a struct, modified and added routines for modular calls. + * Cleaned up the code so that defines are used instead of fixed 16's and 32's. + * Created two general purpose crypt routines for one block and multiple block + * encryption using Joh's CBC code. + * Added crypt routines that use a header (with a magic and data length). + * (Basically a major rewrite). + * + * Note: Routines labeled _TwoFish are private and should not be used + * (or with extreme caution). + * + */ + +#ifndef __TWOFISH_LIBRARY_SOURCE__ +#define __TWOFISH_LIBRARY_SOURCE__ + +#include +#include +#include +#include +#include + +#ifdef WIN32 + +#ifndef u_long +typedef unsigned long u_long; +#endif +#ifndef u_int32_t +typedef unsigned long u_int32_t; +#endif +#ifndef u_word +typedef unsigned short u_word; +#endif +#ifndef u_int16_t +typedef unsigned short u_int16_t; +#endif +#ifndef u_char +typedef unsigned char u_char; +#endif +#ifndef u_int8_t +typedef unsigned char u_int8_t; +#endif + +#endif /* WIN32 */ + +#include "twofish.h" + + +bool TwoFish_srand=TRUE; /* if TRUE, first call of TwoFishInit will seed rand(); */ + /* of TwoFishInit */ + +/* Fixed 8x8 permutation S-boxes */ +static const u_int8_t TwoFish_P[2][256] = +{ + { /* p0 */ + 0xA9, 0x67, 0xB3, 0xE8, 0x04, 0xFD, 0xA3, 0x76, 0x9A, 0x92, 0x80, 0x78, + 0xE4, 0xDD, 0xD1, 0x38, 0x0D, 0xC6, 0x35, 0x98, 0x18, 0xF7, 0xEC, 0x6C, + 0x43, 0x75, 0x37, 0x26, 0xFA, 0x13, 0x94, 0x48, 0xF2, 0xD0, 0x8B, 0x30, + 0x84, 0x54, 0xDF, 0x23, 0x19, 0x5B, 0x3D, 0x59, 0xF3, 0xAE, 0xA2, 0x82, + 0x63, 0x01, 0x83, 0x2E, 0xD9, 0x51, 0x9B, 0x7C, 0xA6, 0xEB, 0xA5, 0xBE, + 0x16, 0x0C, 0xE3, 0x61, 0xC0, 0x8C, 0x3A, 0xF5, 0x73, 0x2C, 0x25, 0x0B, + 0xBB, 0x4E, 0x89, 0x6B, 0x53, 0x6A, 0xB4, 0xF1, 0xE1, 0xE6, 0xBD, 0x45, + 0xE2, 0xF4, 0xB6, 0x66, 0xCC, 0x95, 0x03, 0x56, 0xD4, 0x1C, 0x1E, 0xD7, + 0xFB, 0xC3, 0x8E, 0xB5, 0xE9, 0xCF, 0xBF, 0xBA, 0xEA, 0x77, 0x39, 0xAF, + 0x33, 0xC9, 0x62, 0x71, 0x81, 0x79, 0x09, 0xAD, 0x24, 0xCD, 0xF9, 0xD8, + 0xE5, 0xC5, 0xB9, 0x4D, 0x44, 0x08, 0x86, 0xE7, 0xA1, 0x1D, 0xAA, 0xED, + 0x06, 0x70, 0xB2, 0xD2, 0x41, 0x7B, 0xA0, 0x11, 0x31, 0xC2, 0x27, 0x90, + 0x20, 0xF6, 0x60, 0xFF, 0x96, 0x5C, 0xB1, 0xAB, 0x9E, 0x9C, 0x52, 0x1B, + 0x5F, 0x93, 0x0A, 0xEF, 0x91, 0x85, 0x49, 0xEE, 0x2D, 0x4F, 0x8F, 0x3B, + 0x47, 0x87, 0x6D, 0x46, 0xD6, 0x3E, 0x69, 0x64, 0x2A, 0xCE, 0xCB, 0x2F, + 0xFC, 0x97, 0x05, 0x7A, 0xAC, 0x7F, 0xD5, 0x1A, 0x4B, 0x0E, 0xA7, 0x5A, + 0x28, 0x14, 0x3F, 0x29, 0x88, 0x3C, 0x4C, 0x02, 0xB8, 0xDA, 0xB0, 0x17, + 0x55, 0x1F, 0x8A, 0x7D, 0x57, 0xC7, 0x8D, 0x74, 0xB7, 0xC4, 0x9F, 0x72, + 0x7E, 0x15, 0x22, 0x12, 0x58, 0x07, 0x99, 0x34, 0x6E, 0x50, 0xDE, 0x68, + 0x65, 0xBC, 0xDB, 0xF8, 0xC8, 0xA8, 0x2B, 0x40, 0xDC, 0xFE, 0x32, 0xA4, + 0xCA, 0x10, 0x21, 0xF0, 0xD3, 0x5D, 0x0F, 0x00, 0x6F, 0x9D, 0x36, 0x42, + 0x4A, 0x5E, 0xC1, 0xE0 + }, + { /* p1 */ + 0x75, 0xF3, 0xC6, 0xF4, 0xDB, 0x7B, 0xFB, 0xC8, 0x4A, 0xD3, 0xE6, 0x6B, + 0x45, 0x7D, 0xE8, 0x4B, 0xD6, 0x32, 0xD8, 0xFD, 0x37, 0x71, 0xF1, 0xE1, + 0x30, 0x0F, 0xF8, 0x1B, 0x87, 0xFA, 0x06, 0x3F, 0x5E, 0xBA, 0xAE, 0x5B, + 0x8A, 0x00, 0xBC, 0x9D, 0x6D, 0xC1, 0xB1, 0x0E, 0x80, 0x5D, 0xD2, 0xD5, + 0xA0, 0x84, 0x07, 0x14, 0xB5, 0x90, 0x2C, 0xA3, 0xB2, 0x73, 0x4C, 0x54, + 0x92, 0x74, 0x36, 0x51, 0x38, 0xB0, 0xBD, 0x5A, 0xFC, 0x60, 0x62, 0x96, + 0x6C, 0x42, 0xF7, 0x10, 0x7C, 0x28, 0x27, 0x8C, 0x13, 0x95, 0x9C, 0xC7, + 0x24, 0x46, 0x3B, 0x70, 0xCA, 0xE3, 0x85, 0xCB, 0x11, 0xD0, 0x93, 0xB8, + 0xA6, 0x83, 0x20, 0xFF, 0x9F, 0x77, 0xC3, 0xCC, 0x03, 0x6F, 0x08, 0xBF, + 0x40, 0xE7, 0x2B, 0xE2, 0x79, 0x0C, 0xAA, 0x82, 0x41, 0x3A, 0xEA, 0xB9, + 0xE4, 0x9A, 0xA4, 0x97, 0x7E, 0xDA, 0x7A, 0x17, 0x66, 0x94, 0xA1, 0x1D, + 0x3D, 0xF0, 0xDE, 0xB3, 0x0B, 0x72, 0xA7, 0x1C, 0xEF, 0xD1, 0x53, 0x3E, + 0x8F, 0x33, 0x26, 0x5F, 0xEC, 0x76, 0x2A, 0x49, 0x81, 0x88, 0xEE, 0x21, + 0xC4, 0x1A, 0xEB, 0xD9, 0xC5, 0x39, 0x99, 0xCD, 0xAD, 0x31, 0x8B, 0x01, + 0x18, 0x23, 0xDD, 0x1F, 0x4E, 0x2D, 0xF9, 0x48, 0x4F, 0xF2, 0x65, 0x8E, + 0x78, 0x5C, 0x58, 0x19, 0x8D, 0xE5, 0x98, 0x57, 0x67, 0x7F, 0x05, 0x64, + 0xAF, 0x63, 0xB6, 0xFE, 0xF5, 0xB7, 0x3C, 0xA5, 0xCE, 0xE9, 0x68, 0x44, + 0xE0, 0x4D, 0x43, 0x69, 0x29, 0x2E, 0xAC, 0x15, 0x59, 0xA8, 0x0A, 0x9E, + 0x6E, 0x47, 0xDF, 0x34, 0x35, 0x6A, 0xCF, 0xDC, 0x22, 0xC9, 0xC0, 0x9B, + 0x89, 0xD4, 0xED, 0xAB, 0x12, 0xA2, 0x0D, 0x52, 0xBB, 0x02, 0x2F, 0xA9, + 0xD7, 0x61, 0x1E, 0xB4, 0x50, 0x04, 0xF6, 0xC2, 0x16, 0x25, 0x86, 0x56, + 0x55, 0x09, 0xBE, 0x91 + } +}; + +static bool TwoFish_MDSready=FALSE; +static u_int32_t TwoFish_MDS[4][256]; /* TwoFish_MDS matrix */ + + +#define TwoFish_LFSR1(x) (((x)>>1)^(((x)&0x01)?TwoFish_MDS_GF_FDBK/2:0)) +#define TwoFish_LFSR2(x) (((x)>>2)^(((x)&0x02)?TwoFish_MDS_GF_FDBK/2:0)^(((x)&0x01)?TwoFish_MDS_GF_FDBK/4:0)) + +#define TwoFish_Mx_1(x) ((u_int32_t)(x)) /* force result to dword so << will work */ +#define TwoFish_Mx_X(x) ((u_int32_t)((x)^TwoFish_LFSR2(x))) /* 5B */ +#define TwoFish_Mx_Y(x) ((u_int32_t)((x)^TwoFish_LFSR1(x)^TwoFish_LFSR2(x))) /* EF */ +#define TwoFish_RS_rem(x) { u_int8_t b=(u_int8_t)(x>>24); u_int32_t g2=((b<<1)^((b&0x80)?TwoFish_RS_GF_FDBK:0))&0xFF; u_int32_t g3=((b>>1)&0x7F)^((b&1)?TwoFish_RS_GF_FDBK>>1:0)^g2; x=(x<<8)^(g3<<24)^(g2<<16)^(g3<<8)^b; } + +/*#define TwoFish__b(x,N) (((u_int8_t *)&x)[((N)&3)^TwoFish_ADDR_XOR])*/ /* pick bytes out of a dword */ + +#define TwoFish_b0(x) TwoFish__b(x,0) /* extract LSB of u_int32_t */ +#define TwoFish_b1(x) TwoFish__b(x,1) +#define TwoFish_b2(x) TwoFish__b(x,2) +#define TwoFish_b3(x) TwoFish__b(x,3) /* extract MSB of u_int32_t */ + +u_int8_t TwoFish__b(u_int32_t x,int n) +{ n&=3; + while(n-->0) + x>>=8; + return (u_int8_t)x; +} + + +/* TwoFish Initialization + * + * This routine generates a global data structure for use with TwoFish, + * initializes important values (such as subkeys, sBoxes), generates subkeys + * and precomputes the MDS matrix if not already done. + * + * Input: User supplied password (will be appended by default password of 'SnortHas2FishEncryptionRoutines!') + * + * Output: Pointer to TWOFISH structure. This data structure contains key dependent data. + * This pointer is used with all other crypt functions. + */ + +TWOFISH *TwoFishInit(char *userkey) +{ TWOFISH *tfdata; + int i,x,m; + char tkey[TwoFish_KEY_LENGTH+40]; + + tfdata=malloc(sizeof(TWOFISH)); /* allocate the TwoFish structure */ + if(tfdata!=NULL) + { if(*userkey) + { strncpy(tkey,userkey,TwoFish_KEY_LENGTH); /* use first 32 chars of user supplied password */ + tkey[TwoFish_KEY_LENGTH]=0; /* make sure it wasn't more */ + } + else + strcpy(tkey,TwoFish_DEFAULT_PW); /* if no key defined, use default password */ + for(i=0,x=0,m=strlen(tkey);ikey[i]=tkey[x++]; /* fill the whole keyspace with repeating key. */ + if(x==m) + x=0; + } + + if(!TwoFish_MDSready) + _TwoFish_PrecomputeMDSmatrix(); /* "Wake Up, Neo" */ + _TwoFish_MakeSubKeys(tfdata); /* generate subkeys */ + _TwoFish_ResetCBC(tfdata); /* reset the CBC */ + tfdata->output=NULL; /* nothing to output yet */ + tfdata->dontflush=FALSE; /* reset decrypt skip block flag */ + if(TwoFish_srand) + { TwoFish_srand=FALSE; + srand(time(NULL)); + } + } + return tfdata; /* return the data pointer */ +} + + +void TwoFishDestroy(TWOFISH *tfdata) +{ if(tfdata!=NULL) + free(tfdata); +} + + +/* en/decryption with CBC mode */ +unsigned long _TwoFish_CryptRawCBC(char *in,char *out,unsigned long len,bool decrypt,TWOFISH *tfdata) +{ unsigned long rl; + + rl=len; /* remember how much data to crypt. */ + while(len>TwoFish_BLOCK_SIZE) /* and now we process block by block. */ + { _TwoFish_BlockCrypt(in,out,TwoFish_BLOCK_SIZE,decrypt,tfdata); /* de/encrypt it. */ + in+=TwoFish_BLOCK_SIZE; /* adjust pointers. */ + out+=TwoFish_BLOCK_SIZE; + len-=TwoFish_BLOCK_SIZE; + } + if(len>0) /* if we have less than a block left... */ + _TwoFish_BlockCrypt(in,out,len,decrypt,tfdata); /* ...then we de/encrypt that too. */ + if(tfdata->qBlockDefined && !tfdata->dontflush) /* in case len was exactly one block... */ + _TwoFish_FlushOutput(tfdata->qBlockCrypt,TwoFish_BLOCK_SIZE,tfdata); /* ...we need to write the... */ + /* ...remaining bytes of the buffer */ + return rl; +} + +/* en/decryption on one block only */ +unsigned long _TwoFish_CryptRaw16(char *in,char *out,unsigned long len,bool decrypt,TWOFISH *tfdata) +{ /* qBlockPlain already zero'ed through ResetCBC */ + memcpy(tfdata->qBlockPlain,in,len); /* toss the data into it. */ + _TwoFish_BlockCrypt16(tfdata->qBlockPlain,tfdata->qBlockCrypt,decrypt,tfdata); /* encrypt just that block without CBC. */ + memcpy(out,tfdata->qBlockCrypt,TwoFish_BLOCK_SIZE); /* and return what we got */ + return TwoFish_BLOCK_SIZE; +} + +/* en/decryption without reset of CBC and output assignment */ +unsigned long _TwoFish_CryptRaw(char *in,char *out,unsigned long len,bool decrypt,TWOFISH *tfdata) +{ + if(in!=NULL && out!=NULL && len>0 && tfdata!=NULL) /* if we have valid data, then... */ + { if(len>TwoFish_BLOCK_SIZE) /* ...check if we have more than one block. */ + return _TwoFish_CryptRawCBC(in,out,len,decrypt,tfdata); /* if so, use the CBC routines... */ + else + return _TwoFish_CryptRaw16(in,out,len,decrypt,tfdata); /* ...otherwise just do one block. */ + } + return 0; +} + + +/* TwoFish Raw Encryption + * + * Does not use header, but does use CBC (if more than one block has to be encrypted). + * + * Input: Pointer to the buffer of the plaintext to be encrypted. + * Pointer to the buffer receiving the ciphertext. + * The length of the plaintext buffer. + * The TwoFish structure. + * + * Output: The amount of bytes encrypted if successful, otherwise 0. + */ + +unsigned long TwoFishEncryptRaw(char *in, + char *out, + unsigned long len, + TWOFISH *tfdata) +{ _TwoFish_ResetCBC(tfdata); /* reset CBC flag. */ + tfdata->output=out; /* output straight into output buffer. */ + return _TwoFish_CryptRaw(in,out,len,FALSE,tfdata); /* and go for it. */ +} + +/* TwoFish Raw Decryption + * + * Does not use header, but does use CBC (if more than one block has to be decrypted). + * + * Input: Pointer to the buffer of the ciphertext to be decrypted. + * Pointer to the buffer receiving the plaintext. + * The length of the ciphertext buffer (at least one cipher block). + * The TwoFish structure. + * + * Output: The amount of bytes decrypted if successful, otherwise 0. + */ + +unsigned long TwoFishDecryptRaw(char *in, + char *out, + unsigned long len, + TWOFISH *tfdata) +{ _TwoFish_ResetCBC(tfdata); /* reset CBC flag. */ + tfdata->output=out; /* output straight into output buffer. */ + return _TwoFish_CryptRaw(in,out,len,TRUE,tfdata); /* and go for it. */ +} + +/* TwoFish Free + * + * Free's the allocated buffer. + * + * Input: Pointer to the TwoFish structure + * + * Output: (none) + */ + +void TwoFishFree(TWOFISH *tfdata) +{ if(tfdata->output!=NULL) /* if a valid buffer is present... */ + { free(tfdata->output); /* ...then we free it for you... */ + tfdata->output=NULL; /* ...and mark as such. */ + } +} + +/* TwoFish Set Output + * + * If you want to allocate the output buffer yourself, + * then you can set it with this function. + * + * Input: Pointer to your output buffer + * Pointer to the TwoFish structure + * + * Output: (none) + */ + +void TwoFishSetOutput(char *outp,TWOFISH *tfdata) +{ tfdata->output=outp; /* (do we really need a function for this?) */ +} + +/* TwoFish Alloc + * + * Allocates enough memory for the output buffer that would be required + * + * Input: Length of the plaintext. + * Boolean flag for BinHex Output. + * Pointer to the TwoFish structure. + * + * Output: Returns a pointer to the memory allocated. + */ + +void *TwoFishAlloc(unsigned long len,bool binhex,bool decrypt,TWOFISH *tfdata) +{ +/* TwoFishFree(tfdata); */ /* (don't for now) discard whatever was allocated earlier. */ + if(decrypt) /* if decrypting... */ + { if(binhex) /* ...and input is binhex encoded... */ + len/=2; /* ...use half as much for output. */ + len-=TwoFish_BLOCK_SIZE; /* Also, subtract the size of the header. */ + } + else + { len+=TwoFish_BLOCK_SIZE; /* the size is just increased by the header... */ + if(binhex) + len*=2; /* ...and doubled if output is to be binhexed. */ + } + tfdata->output=malloc(len+TwoFish_BLOCK_SIZE);/* grab some memory...plus some extra (it's running over somewhere, crashes without extra padding) */ + + return tfdata->output; /* ...and return to caller. */ +} + +/* bin2hex and hex2bin conversion */ +void _TwoFish_BinHex(u_int8_t *buf,unsigned long len,bool bintohex) +{ u_int8_t *pi,*po,c; + + if(bintohex) + { for(pi=buf+len-1,po=buf+(2*len)-1;len>0;pi--,po--,len--) /* let's start from the end of the bin block. */ + { c=*pi; /* grab value. */ + c&=15; /* use lower 4 bits. */ + if(c>9) /* convert to ascii. */ + c+=('a'-10); + else + c+='0'; + *po--=c; /* set the lower nibble. */ + c=*pi; /* grab value again. */ + c>>=4; /* right shift 4 bits. */ + c&=15; /* make sure we only have 4 bits. */ + if(c>9) /* convert to ascii. */ + c+=('a'-10); + else + c+='0'; + *po=c; /* set the higher nibble. */ + } /* and keep going. */ + } + else + { for(pi=buf,po=buf;len>0;pi++,po++,len-=2) /* let's start from the beginning of the hex block. */ + { c=tolower(*pi++)-'0'; /* grab higher nibble. */ + if(c>9) /* convert to value. */ + c-=('0'-9); + *po=c<<4; /* left shit 4 bits. */ + c=tolower(*pi)-'0'; /* grab lower nibble. */ + if(c>9) /* convert to value. */ + c-=('0'-9); + *po|=c; /* and add to value. */ + } + } +} + + +/* TwoFish Encryption + * + * Uses header and CBC. If the output area has not been intialized with TwoFishAlloc, + * this routine will alloc the memory. In addition, it will include a small 'header' + * containing the magic and some salt. That way the decrypt routine can check if the + * packet got decrypted successfully, and return 0 instead of garbage. + * + * Input: Pointer to the buffer of the plaintext to be encrypted. + * Pointer to the pointer to the buffer receiving the ciphertext. + * The pointer either points to user allocated output buffer space, or to NULL, in which case + * this routine will set the pointer to the buffer allocated through the struct. + * The length of the plaintext buffer. + * Can be -1 if the input is a null terminated string, in which case we'll count for you. + * Boolean flag for BinHex Output (if used, output will be twice as large as input). + * Note: BinHex conversion overwrites (converts) input buffer! + * The TwoFish structure. + * + * Output: The amount of bytes encrypted if successful, otherwise 0. + */ + +unsigned long TwoFishEncrypt(char *in, + char **out, + signed long len, + bool binhex, + TWOFISH *tfdata) +{ unsigned long ilen,olen; + + + if(len== -1) /* if we got -1 for len, we'll assume IN is a... */ + ilen=strlen(in); /* ...\0 terminated string and figure len out ourselves... */ + else + ilen=len; /* ...otherwise we trust you supply a correct length. */ + + if(in!=NULL && out!=NULL && ilen>0 && tfdata!=NULL) /* if we got usable stuff, we'll do it. */ + { if(*out==NULL) /* if OUT points to a NULL pointer... */ + *out=TwoFishAlloc(ilen,binhex,FALSE,tfdata); /* ...we'll (re-)allocate buffer space. */ + if(*out!=NULL) + { tfdata->output=*out; /* set output buffer. */ + tfdata->header.salt=rand()*65536+rand(); /* toss in some salt. */ + tfdata->header.length[0]= (u_int8_t)(ilen); + tfdata->header.length[1]= (u_int8_t)(ilen>>8); + tfdata->header.length[2]= (u_int8_t)(ilen>>16); + tfdata->header.length[3]= (u_int8_t)(ilen>>24); + memcpy(tfdata->header.magic,TwoFish_MAGIC,TwoFish_MAGIC_LEN); /* set the magic. */ + olen=TwoFish_BLOCK_SIZE; /* set output counter. */ + _TwoFish_ResetCBC(tfdata); /* reset the CBC flag */ + _TwoFish_BlockCrypt((u_int8_t *)&(tfdata->header),*out,olen,FALSE,tfdata); /* encrypt first block (without flush on 16 byte boundary). */ + olen+=_TwoFish_CryptRawCBC(in,*out+TwoFish_BLOCK_SIZE,ilen,FALSE,tfdata); /* and encrypt the rest (we do not reset the CBC flag). */ + if(binhex) /* if binhex... */ + { _TwoFish_BinHex(*out,olen,TRUE); /* ...convert output to binhex... */ + olen*=2; /* ...and size twice as large. */ + } + tfdata->output=*out; + return olen; + } + } + return 0; +} + +/* TwoFish Decryption + * + * Uses header and CBC. If the output area has not been intialized with TwoFishAlloc, + * this routine will alloc the memory. In addition, it will check the small 'header' + * containing the magic. If magic does not match we return 0. Otherwise we return the + * amount of bytes decrypted (should be the same as the length in the header). + * + * Input: Pointer to the buffer of the ciphertext to be decrypted. + * Pointer to the pointer to the buffer receiving the plaintext. + * The pointer either points to user allocated output buffer space, or to NULL, in which case + * this routine will set the pointer to the buffer allocated through the struct. + * The length of the ciphertext buffer. + * Can be -1 if the input is a null terminated binhex string, in which case we'll count for you. + * Boolean flag for BinHex Input (if used, plaintext will be half as large as input). + * Note: BinHex conversion overwrites (converts) input buffer! + * The TwoFish structure. + * + * Output: The amount of bytes decrypted if successful, otherwise 0. + */ + +unsigned long TwoFishDecrypt(char *in, + char **out, + signed long len, + bool binhex, + TWOFISH *tfdata) +{ unsigned long ilen,elen,olen; + const u_int8_t cmagic[TwoFish_MAGIC_LEN]=TwoFish_MAGIC; + u_int8_t *tbuf; + + + + if(len== -1) /* if we got -1 for len, we'll assume IN is... */ + ilen=strlen(in); /* ...\0 terminated binhex and figure len out ourselves... */ + else + ilen=len; /* ...otherwise we trust you supply a correct length. */ + + if(in!=NULL && out!=NULL && ilen>0 && tfdata!=NULL) /* if we got usable stuff, we'll do it. */ + { if(*out==NULL) /* if OUT points to a NULL pointer... */ + *out=TwoFishAlloc(ilen,binhex,TRUE,tfdata); /* ...we'll (re-)allocate buffer space. */ + if(*out!=NULL) + { if(binhex) /* if binhex... */ + { _TwoFish_BinHex(in,ilen,FALSE); /* ...convert input to values... */ + ilen/=2; /* ...and size half as much. */ + } + _TwoFish_ResetCBC(tfdata); /* reset the CBC flag. */ + + tbuf=(u_int8_t *)malloc(ilen+TwoFish_BLOCK_SIZE); /* get memory for data and header. */ + if(tbuf==NULL) + return 0; + tfdata->output=tbuf; /* set output to temp buffer. */ + + olen=_TwoFish_CryptRawCBC(in,tbuf,ilen,TRUE,tfdata)-TwoFish_BLOCK_SIZE; /* decrypt the whole thing. */ + memcpy(&(tfdata->header),tbuf,TwoFish_BLOCK_SIZE); /* copy first block into header. */ + tfdata->output=*out; + for(elen=0;elenheader.magic[elen]!=cmagic[elen]) + break; + if(elen==TwoFish_MAGIC_LEN) /* if magic matches then... */ + { elen=(tfdata->header.length[0]) | + (tfdata->header.length[1])<<8 | + (tfdata->header.length[2])<<16 | + (tfdata->header.length[3])<<24; /* .. we know how much to expect. */ + if(elen>olen) /* adjust if necessary. */ + elen=olen; + memcpy(*out,tbuf+TwoFish_BLOCK_SIZE,elen); /* copy data into intended output. */ + free(tbuf); + return elen; + } + free(tbuf); + } + } + return 0; +} + +void _TwoFish_PrecomputeMDSmatrix(void) /* precompute the TwoFish_MDS matrix */ +{ u_int32_t m1[2]; + u_int32_t mX[2]; + u_int32_t mY[2]; + u_int32_t i, j; + + for (i = 0; i < 256; i++) + { j = TwoFish_P[0][i] & 0xFF; /* compute all the matrix elements */ + m1[0] = j; + mX[0] = TwoFish_Mx_X( j ) & 0xFF; + mY[0] = TwoFish_Mx_Y( j ) & 0xFF; + + j = TwoFish_P[1][i] & 0xFF; + m1[1] = j; + mX[1] = TwoFish_Mx_X( j ) & 0xFF; + mY[1] = TwoFish_Mx_Y( j ) & 0xFF; + + TwoFish_MDS[0][i] = m1[TwoFish_P_00] | /* fill matrix w/ above elements */ + mX[TwoFish_P_00] << 8 | + mY[TwoFish_P_00] << 16 | + mY[TwoFish_P_00] << 24; + TwoFish_MDS[1][i] = mY[TwoFish_P_10] | + mY[TwoFish_P_10] << 8 | + mX[TwoFish_P_10] << 16 | + m1[TwoFish_P_10] << 24; + TwoFish_MDS[2][i] = mX[TwoFish_P_20] | + mY[TwoFish_P_20] << 8 | + m1[TwoFish_P_20] << 16 | + mY[TwoFish_P_20] << 24; + TwoFish_MDS[3][i] = mX[TwoFish_P_30] | + m1[TwoFish_P_30] << 8 | + mY[TwoFish_P_30] << 16 | + mX[TwoFish_P_30] << 24; + } + TwoFish_MDSready=TRUE; +} + + +void _TwoFish_MakeSubKeys(TWOFISH *tfdata) /* Expand a user-supplied key material into a session key. */ +{ u_int32_t k64Cnt = TwoFish_KEY_LENGTH / 8; + u_int32_t k32e[4]; /* even 32-bit entities */ + u_int32_t k32o[4]; /* odd 32-bit entities */ + u_int32_t sBoxKey[4]; + u_int32_t offset,i,j; + u_int32_t A, B, q=0; + u_int32_t k0,k1,k2,k3; + u_int32_t b0,b1,b2,b3; + + /* split user key material into even and odd 32-bit entities and */ + /* compute S-box keys using (12, 8) Reed-Solomon code over GF(256) */ + + + for (offset=0,i=0,j=k64Cnt-1;i<4 && offsetkey[offset++]; + k32e[i]|= tfdata->key[offset++]<<8; + k32e[i]|= tfdata->key[offset++]<<16; + k32e[i]|= tfdata->key[offset++]<<24; + k32o[i] = tfdata->key[offset++]; + k32o[i]|= tfdata->key[offset++]<<8; + k32o[i]|= tfdata->key[offset++]<<16; + k32o[i]|= tfdata->key[offset++]<<24; + sBoxKey[j] = _TwoFish_RS_MDS_Encode( k32e[i], k32o[i] ); /* reverse order */ + } + + /* compute the round decryption subkeys for PHT. these same subkeys */ + /* will be used in encryption but will be applied in reverse order. */ + i=0; + while(i < TwoFish_TOTAL_SUBKEYS) + { A = _TwoFish_F32( k64Cnt, q, k32e ); /* A uses even key entities */ + q += TwoFish_SK_BUMP; + + B = _TwoFish_F32( k64Cnt, q, k32o ); /* B uses odd key entities */ + q += TwoFish_SK_BUMP; + + B = B << 8 | B >> 24; + + A += B; + tfdata->subKeys[i++] = A; /* combine with a PHT */ + + A += B; + tfdata->subKeys[i++] = A << TwoFish_SK_ROTL | A >> (32-TwoFish_SK_ROTL); + } + + /* fully expand the table for speed */ + k0 = sBoxKey[0]; + k1 = sBoxKey[1]; + k2 = sBoxKey[2]; + k3 = sBoxKey[3]; + + for (i = 0; i < 256; i++) + { b0 = b1 = b2 = b3 = i; + switch (k64Cnt & 3) + { case 1: /* 64-bit keys */ + tfdata->sBox[ 2*i ] = TwoFish_MDS[0][(TwoFish_P[TwoFish_P_01][b0]) ^ TwoFish_b0(k0)]; + tfdata->sBox[ 2*i+1] = TwoFish_MDS[1][(TwoFish_P[TwoFish_P_11][b1]) ^ TwoFish_b1(k0)]; + tfdata->sBox[0x200+2*i ] = TwoFish_MDS[2][(TwoFish_P[TwoFish_P_21][b2]) ^ TwoFish_b2(k0)]; + tfdata->sBox[0x200+2*i+1] = TwoFish_MDS[3][(TwoFish_P[TwoFish_P_31][b3]) ^ TwoFish_b3(k0)]; + break; + case 0: /* 256-bit keys (same as 4) */ + b0 = (TwoFish_P[TwoFish_P_04][b0]) ^ TwoFish_b0(k3); + b1 = (TwoFish_P[TwoFish_P_14][b1]) ^ TwoFish_b1(k3); + b2 = (TwoFish_P[TwoFish_P_24][b2]) ^ TwoFish_b2(k3); + b3 = (TwoFish_P[TwoFish_P_34][b3]) ^ TwoFish_b3(k3); + case 3: /* 192-bit keys */ + b0 = (TwoFish_P[TwoFish_P_03][b0]) ^ TwoFish_b0(k2); + b1 = (TwoFish_P[TwoFish_P_13][b1]) ^ TwoFish_b1(k2); + b2 = (TwoFish_P[TwoFish_P_23][b2]) ^ TwoFish_b2(k2); + b3 = (TwoFish_P[TwoFish_P_33][b3]) ^ TwoFish_b3(k2); + case 2: /* 128-bit keys */ + tfdata->sBox[ 2*i ]= + TwoFish_MDS[0][(TwoFish_P[TwoFish_P_01][(TwoFish_P[TwoFish_P_02][b0]) ^ + TwoFish_b0(k1)]) ^ TwoFish_b0(k0)]; + + tfdata->sBox[ 2*i+1]= + TwoFish_MDS[1][(TwoFish_P[TwoFish_P_11][(TwoFish_P[TwoFish_P_12][b1]) ^ + TwoFish_b1(k1)]) ^ TwoFish_b1(k0)]; + + tfdata->sBox[0x200+2*i ]= + TwoFish_MDS[2][(TwoFish_P[TwoFish_P_21][(TwoFish_P[TwoFish_P_22][b2]) ^ + TwoFish_b2(k1)]) ^ TwoFish_b2(k0)]; + + tfdata->sBox[0x200+2*i+1]= + TwoFish_MDS[3][(TwoFish_P[TwoFish_P_31][(TwoFish_P[TwoFish_P_32][b3]) ^ + TwoFish_b3(k1)]) ^ TwoFish_b3(k0)]; + } + } +} + + +/** + * Encrypt or decrypt exactly one block of plaintext in CBC mode. + * Use "ciphertext stealing" technique described on pg. 196 + * of "Applied Cryptography" to encrypt the final partial + * (i.e. <16 byte) block if necessary. + * + * jojo: the "ciphertext stealing" requires we read ahead and have + * special handling for the last two blocks. Because of this, the + * output from the TwoFish algorithm is handled internally here. + * It would be better to have a higher level handle this as well as + * CBC mode. Unfortunately, I've mixed the two together, which is + * pretty crappy... The Java version separates these out correctly. + * + * fknobbe: I have reduced the CBC mode to work on memory buffer only. + * Higher routines should use an intermediate buffer and handle + * their output seperately (mainly so the data can be flushed + * in one chunk, not seperate 16 byte blocks...) + * + * @param in The plaintext. + * @param out The ciphertext + * @param size how much to encrypt + * @param tfdata: Pointer to the global data structure containing session keys. + * @return none + */ +void _TwoFish_BlockCrypt(u_int8_t *in,u_int8_t *out,unsigned long size,int decrypt,TWOFISH *tfdata) +{ u_int8_t PnMinusOne[TwoFish_BLOCK_SIZE]; + u_int8_t CnMinusOne[TwoFish_BLOCK_SIZE]; + u_int8_t CBCplusCprime[TwoFish_BLOCK_SIZE]; + u_int8_t Pn[TwoFish_BLOCK_SIZE]; + u_int8_t *p,*pout; + unsigned long i; + + /* here is where we implement CBC mode and cipher block stealing */ + if(size==TwoFish_BLOCK_SIZE) + { /* if we are encrypting, CBC means we XOR the plain text block with the */ + /* previous cipher text block before encrypting */ + if(!decrypt && tfdata->qBlockDefined) + { for(p=in,i=0;iqBlockCrypt[i]; /* FK: I'm copying the xor'ed input into Pn... */ + } + else + memcpy(Pn,in,TwoFish_BLOCK_SIZE); /* FK: same here. we work of Pn all the time. */ + + /* TwoFish block level encryption or decryption */ + _TwoFish_BlockCrypt16(Pn,out,decrypt,tfdata); + + /* if we are decrypting, CBC means we XOR the result of the decryption */ + /* with the previous cipher text block to get the resulting plain text */ + if(decrypt && tfdata->qBlockDefined) + { for (p=out,i=0;iqBlockPlain[i]; + } + + /* save the input and output blocks, since CBC needs these for XOR */ + /* operations */ + _TwoFish_qBlockPush(Pn,out,tfdata); + } + else + { /* cipher block stealing, we are at Pn, */ + /* but since Cn-1 must now be replaced with CnC' */ + /* we pop it off, and recalculate Cn-1 */ + + if(decrypt) + { /* We are on an odd block, and had to do cipher block stealing, */ + /* so the PnMinusOne has to be derived differently. */ + + /* First we decrypt it into CBC and C' */ + _TwoFish_qBlockPop(CnMinusOne,PnMinusOne,tfdata); + _TwoFish_BlockCrypt16(CnMinusOne,CBCplusCprime,decrypt,tfdata); + + /* we then xor the first few bytes with the "in" bytes (Cn) */ + /* to recover Pn, which we put in out */ + for(p=in,pout=out,i=0;iprevCipher[i]; + + /* So at this point, out has PnMinusOne */ + _TwoFish_qBlockPush(CnMinusOne,PnMinusOne,tfdata); + _TwoFish_FlushOutput(tfdata->qBlockCrypt,TwoFish_BLOCK_SIZE,tfdata); + _TwoFish_FlushOutput(out,size,tfdata); + } + else + { _TwoFish_qBlockPop(PnMinusOne,CnMinusOne,tfdata); + memset(Pn,0,TwoFish_BLOCK_SIZE); + memcpy(Pn,in,size); + for(i=0;iqBlockCrypt,TwoFish_BLOCK_SIZE,tfdata); + _TwoFish_FlushOutput(CnMinusOne,size,tfdata); /* old Cn-1 becomes new partial Cn */ + } + tfdata->qBlockDefined=FALSE; + } +} + +void _TwoFish_qBlockPush(u_int8_t *p,u_int8_t *c,TWOFISH *tfdata) +{ if(tfdata->qBlockDefined) + _TwoFish_FlushOutput(tfdata->qBlockCrypt,TwoFish_BLOCK_SIZE,tfdata); + memcpy(tfdata->prevCipher,tfdata->qBlockPlain,TwoFish_BLOCK_SIZE); + memcpy(tfdata->qBlockPlain,p,TwoFish_BLOCK_SIZE); + memcpy(tfdata->qBlockCrypt,c,TwoFish_BLOCK_SIZE); + tfdata->qBlockDefined=TRUE; +} + +void _TwoFish_qBlockPop(u_int8_t *p,u_int8_t *c,TWOFISH *tfdata) +{ memcpy(p,tfdata->qBlockPlain,TwoFish_BLOCK_SIZE ); + memcpy(c,tfdata->qBlockCrypt,TwoFish_BLOCK_SIZE ); + tfdata->qBlockDefined=FALSE; +} + +/* Reset's the CBC flag and zero's PrevCipher (through qBlockPlain) (important) */ +void _TwoFish_ResetCBC(TWOFISH *tfdata) +{ tfdata->qBlockDefined=FALSE; + memset(tfdata->qBlockPlain,0,TwoFish_BLOCK_SIZE); +} + +void _TwoFish_FlushOutput(u_int8_t *b,unsigned long len,TWOFISH *tfdata) +{ unsigned long i; + + for(i=0;idontflush;i++) + *tfdata->output++ = *b++; + tfdata->dontflush=FALSE; +} + +void _TwoFish_BlockCrypt16(u_int8_t *in,u_int8_t *out,bool decrypt,TWOFISH *tfdata) +{ u_int32_t x0,x1,x2,x3; + u_int32_t k,t0,t1,R; + + + x0=*in++; + x0|=(*in++ << 8 ); + x0|=(*in++ << 16); + x0|=(*in++ << 24); + x1=*in++; + x1|=(*in++ << 8 ); + x1|=(*in++ << 16); + x1|=(*in++ << 24); + x2=*in++; + x2|=(*in++ << 8 ); + x2|=(*in++ << 16); + x2|=(*in++ << 24); + x3=*in++; + x3|=(*in++ << 8 ); + x3|=(*in++ << 16); + x3|=(*in++ << 24); + + if(decrypt) + { x0 ^= tfdata->subKeys[4]; /* swap input and output whitening keys when decrypting */ + x1 ^= tfdata->subKeys[5]; + x2 ^= tfdata->subKeys[6]; + x3 ^= tfdata->subKeys[7]; + + k = 7+(TwoFish_ROUNDS*2); + for (R = 0; R < TwoFish_ROUNDS; R += 2) + { t0 = _TwoFish_Fe320( tfdata->sBox, x0); + t1 = _TwoFish_Fe323( tfdata->sBox, x1); + x3 ^= t0 + (t1<<1) + tfdata->subKeys[k--]; + x3 = x3 >> 1 | x3 << 31; + x2 = x2 << 1 | x2 >> 31; + x2 ^= t0 + t1 + tfdata->subKeys[k--]; + + t0 = _TwoFish_Fe320( tfdata->sBox, x2); + t1 = _TwoFish_Fe323( tfdata->sBox, x3); + x1 ^= t0 + (t1<<1) + tfdata->subKeys[k--]; + x1 = x1 >> 1 | x1 << 31; + x0 = x0 << 1 | x0 >> 31; + x0 ^= t0 + t1 + tfdata->subKeys[k--]; + } + + x2 ^= tfdata->subKeys[0]; + x3 ^= tfdata->subKeys[1]; + x0 ^= tfdata->subKeys[2]; + x1 ^= tfdata->subKeys[3]; + } + else + { x0 ^= tfdata->subKeys[0]; + x1 ^= tfdata->subKeys[1]; + x2 ^= tfdata->subKeys[2]; + x3 ^= tfdata->subKeys[3]; + + k = 8; + for (R = 0; R < TwoFish_ROUNDS; R += 2) + { t0 = _TwoFish_Fe320( tfdata->sBox, x0); + t1 = _TwoFish_Fe323( tfdata->sBox, x1); + x2 ^= t0 + t1 + tfdata->subKeys[k++]; + x2 = x2 >> 1 | x2 << 31; + x3 = x3 << 1 | x3 >> 31; + x3 ^= t0 + (t1<<1) + tfdata->subKeys[k++]; + + t0 = _TwoFish_Fe320( tfdata->sBox, x2); + t1 = _TwoFish_Fe323( tfdata->sBox, x3); + x0 ^= t0 + t1 + tfdata->subKeys[k++]; + x0 = x0 >> 1 | x0 << 31; + x1 = x1 << 1 | x1 >> 31; + x1 ^= t0 + (t1<<1) + tfdata->subKeys[k++]; + } + + x2 ^= tfdata->subKeys[4]; + x3 ^= tfdata->subKeys[5]; + x0 ^= tfdata->subKeys[6]; + x1 ^= tfdata->subKeys[7]; + } + + *out++ = (u_int8_t)(x2 ); + *out++ = (u_int8_t)(x2 >> 8); + *out++ = (u_int8_t)(x2 >> 16); + *out++ = (u_int8_t)(x2 >> 24); + + *out++ = (u_int8_t)(x3 ); + *out++ = (u_int8_t)(x3 >> 8); + *out++ = (u_int8_t)(x3 >> 16); + *out++ = (u_int8_t)(x3 >> 24); + + *out++ = (u_int8_t)(x0 ); + *out++ = (u_int8_t)(x0 >> 8); + *out++ = (u_int8_t)(x0 >> 16); + *out++ = (u_int8_t)(x0 >> 24); + + *out++ = (u_int8_t)(x1 ); + *out++ = (u_int8_t)(x1 >> 8); + *out++ = (u_int8_t)(x1 >> 16); + *out++ = (u_int8_t)(x1 >> 24); +} + +/** + * Use (12, 8) Reed-Solomon code over GF(256) to produce a key S-box + * 32-bit entity from two key material 32-bit entities. + * + * @param k0 1st 32-bit entity. + * @param k1 2nd 32-bit entity. + * @return Remainder polynomial generated using RS code + */ +u_int32_t _TwoFish_RS_MDS_Encode(u_int32_t k0,u_int32_t k1) +{ u_int32_t i,r; + + for(r=k1,i=0;i<4;i++) /* shift 1 byte at a time */ + TwoFish_RS_rem(r); + r ^= k0; + for(i=0;i<4;i++) + TwoFish_RS_rem(r); + + return r; +} + +u_int32_t _TwoFish_F32(u_int32_t k64Cnt,u_int32_t x,u_int32_t *k32) +{ u_int8_t b0,b1,b2,b3; + u_int32_t k0,k1,k2,k3,result = 0; + + b0=TwoFish_b0(x); + b1=TwoFish_b1(x); + b2=TwoFish_b2(x); + b3=TwoFish_b3(x); + k0=k32[0]; + k1=k32[1]; + k2=k32[2]; + k3=k32[3]; + + switch (k64Cnt & 3) + { case 1: /* 64-bit keys */ + result = + TwoFish_MDS[0][(TwoFish_P[TwoFish_P_01][b0] & 0xFF) ^ TwoFish_b0(k0)] ^ + TwoFish_MDS[1][(TwoFish_P[TwoFish_P_11][b1] & 0xFF) ^ TwoFish_b1(k0)] ^ + TwoFish_MDS[2][(TwoFish_P[TwoFish_P_21][b2] & 0xFF) ^ TwoFish_b2(k0)] ^ + TwoFish_MDS[3][(TwoFish_P[TwoFish_P_31][b3] & 0xFF) ^ TwoFish_b3(k0)]; + break; + case 0: /* 256-bit keys (same as 4) */ + b0 = (TwoFish_P[TwoFish_P_04][b0] & 0xFF) ^ TwoFish_b0(k3); + b1 = (TwoFish_P[TwoFish_P_14][b1] & 0xFF) ^ TwoFish_b1(k3); + b2 = (TwoFish_P[TwoFish_P_24][b2] & 0xFF) ^ TwoFish_b2(k3); + b3 = (TwoFish_P[TwoFish_P_34][b3] & 0xFF) ^ TwoFish_b3(k3); + + case 3: /* 192-bit keys */ + b0 = (TwoFish_P[TwoFish_P_03][b0] & 0xFF) ^ TwoFish_b0(k2); + b1 = (TwoFish_P[TwoFish_P_13][b1] & 0xFF) ^ TwoFish_b1(k2); + b2 = (TwoFish_P[TwoFish_P_23][b2] & 0xFF) ^ TwoFish_b2(k2); + b3 = (TwoFish_P[TwoFish_P_33][b3] & 0xFF) ^ TwoFish_b3(k2); + case 2: /* 128-bit keys (optimize for this case) */ + result = + TwoFish_MDS[0][(TwoFish_P[TwoFish_P_01][(TwoFish_P[TwoFish_P_02][b0] & 0xFF) ^ TwoFish_b0(k1)] & 0xFF) ^ TwoFish_b0(k0)] ^ + TwoFish_MDS[1][(TwoFish_P[TwoFish_P_11][(TwoFish_P[TwoFish_P_12][b1] & 0xFF) ^ TwoFish_b1(k1)] & 0xFF) ^ TwoFish_b1(k0)] ^ + TwoFish_MDS[2][(TwoFish_P[TwoFish_P_21][(TwoFish_P[TwoFish_P_22][b2] & 0xFF) ^ TwoFish_b2(k1)] & 0xFF) ^ TwoFish_b2(k0)] ^ + TwoFish_MDS[3][(TwoFish_P[TwoFish_P_31][(TwoFish_P[TwoFish_P_32][b3] & 0xFF) ^ TwoFish_b3(k1)] & 0xFF) ^ TwoFish_b3(k0)]; + break; + } + return result; +} + +u_int32_t _TwoFish_Fe320(u_int32_t *lsBox,u_int32_t x) +{ return lsBox[ TwoFish_b0(x)<<1 ]^ + lsBox[ ((TwoFish_b1(x)<<1)|1)]^ + lsBox[0x200+ (TwoFish_b2(x)<<1) ]^ + lsBox[0x200+((TwoFish_b3(x)<<1)|1)]; +} + +u_int32_t _TwoFish_Fe323(u_int32_t *lsBox,u_int32_t x) +{ return lsBox[ (TwoFish_b3(x)<<1) ]^ + lsBox[ ((TwoFish_b0(x)<<1)|1)]^ + lsBox[0x200+ (TwoFish_b1(x)<<1) ]^ + lsBox[0x200+((TwoFish_b2(x)<<1)|1)]; +} + +u_int32_t _TwoFish_Fe32(u_int32_t *lsBox,u_int32_t x,u_int32_t R) +{ return lsBox[ 2*TwoFish__b(x,R ) ]^ + lsBox[ 2*TwoFish__b(x,R+1)+1]^ + lsBox[0x200+2*TwoFish__b(x,R+2) ]^ + lsBox[0x200+2*TwoFish__b(x,R+3)+1]; +} + + +#endif --- snort-2.9.0/src/twofish.h 1970-01-01 01:00:00.000000000 +0100 +++ snort-2.9.0.dlucio/src/twofish.h 2010-10-08 18:05:37.000000000 +0200 @@ -0,0 +1,276 @@ +/* $Id: twofish.h,v 2.1 2008/12/15 20:36:05 fknobbe Exp $ + * + * + * Copyright (C) 1997-2000 The Cryptix Foundation Limited. + * Copyright (C) 2000 Farm9. + * Copyright (C) 2001 Frank Knobbe. + * All rights reserved. + * + * For Cryptix code: + * Use, modification, copying and distribution of this software is subject + * the terms and conditions of the Cryptix General Licence. You should have + * received a copy of the Cryptix General Licence along with this library; + * if not, you can download a copy from http://www.cryptix.org/ . + * + * For Farm9: + * --- jojo@farm9.com, August 2000, converted from Java to C++, added CBC mode and + * ciphertext stealing technique, added AsciiTwofish class for easy encryption + * decryption of text strings + * + * Frank Knobbe : + * --- April 2001, converted from C++ to C, prefixed global variables + * with TwoFish, substituted some defines, changed functions to make use of + * variables supplied in a struct, modified and added routines for modular calls. + * Cleaned up the code so that defines are used instead of fixed 16's and 32's. + * Created two general purpose crypt routines for one block and multiple block + * encryption using Joh's CBC code. + * Added crypt routines that use a header (with a magic and data length). + * (Basically a major rewrite). + * + * Note: Routines labeled _TwoFish are private and should not be used + * (or with extreme caution). + * + */ + +#ifndef __TWOFISH_LIBRARY_HEADER__ +#define __TWOFISH_LIBRARY_HEADER__ + +#ifndef FALSE +#define FALSE 0 +#endif +#ifndef TRUE +#define TRUE !FALSE +#endif +#ifndef bool +#define bool int +#endif + + +/* Constants */ + +#define TwoFish_DEFAULT_PW "SnortHas2FishEncryptionRoutines!" /* default password (not more than 32 chars) */ +#define TwoFish_MAGIC "TwoFish" /* to indentify a successful decryption */ + +enum +{ TwoFish_KEY_SIZE = 256, /* Valid values: 64, 128, 192, 256 */ + /* User 256, other key sizes have not been tested. */ + /* (But should work. I substituted as much as */ + /* I could with this define.) */ + TwoFish_ROUNDS = 16, + TwoFish_BLOCK_SIZE = 16, /* bytes in a data-block */ + TwoFish_KEY_LENGTH = TwoFish_KEY_SIZE/8, /* 32= 256-bit key */ + TwoFish_TOTAL_SUBKEYS = 4+4+2*TwoFish_ROUNDS, + TwoFish_MAGIC_LEN = TwoFish_BLOCK_SIZE-8, + TwoFish_SK_BUMP = 0x01010101, + TwoFish_SK_ROTL = 9, + TwoFish_P_00 = 1, + TwoFish_P_01 = 0, + TwoFish_P_02 = 0, + TwoFish_P_03 = TwoFish_P_01 ^ 1, + TwoFish_P_04 = 1, + TwoFish_P_10 = 0, + TwoFish_P_11 = 0, + TwoFish_P_12 = 1, + TwoFish_P_13 = TwoFish_P_11 ^ 1, + TwoFish_P_14 = 0, + TwoFish_P_20 = 1, + TwoFish_P_21 = 1, + TwoFish_P_22 = 0, + TwoFish_P_23 = TwoFish_P_21 ^ 1, + TwoFish_P_24 = 0, + TwoFish_P_30 = 0, + TwoFish_P_31 = 1, + TwoFish_P_32 = 1, + TwoFish_P_33 = TwoFish_P_31 ^ 1, + TwoFish_P_34 = 1, + TwoFish_GF256_FDBK = 0x169, + TwoFish_GF256_FDBK_2 = 0x169 / 2, + TwoFish_GF256_FDBK_4 = 0x169 / 4, + TwoFish_RS_GF_FDBK = 0x14D, /* field generator */ + TwoFish_MDS_GF_FDBK = 0x169 /* primitive polynomial for GF(256) */ +}; + + +/* Global data structure for callers */ + +typedef struct +{ u_int32_t sBox[4 * 256]; /* Key dependent S-box */ + u_int32_t subKeys[TwoFish_TOTAL_SUBKEYS]; /* Subkeys */ + u_int8_t key[TwoFish_KEY_LENGTH]; /* Encryption Key */ + u_int8_t *output; /* Pointer to output buffer */ + u_int8_t qBlockPlain[TwoFish_BLOCK_SIZE]; /* Used by CBC */ + u_int8_t qBlockCrypt[TwoFish_BLOCK_SIZE]; + u_int8_t prevCipher[TwoFish_BLOCK_SIZE]; + struct /* Header for crypt functions. Has to be at least one block long. */ + { u_int32_t salt; /* Random salt in first block (will salt the rest through CBC) */ + u_int8_t length[4]; /* The amount of data following the header */ + u_int8_t magic[TwoFish_MAGIC_LEN]; /* Magic to identify successful decryption */ + } header; + bool qBlockDefined; + bool dontflush; +} TWOFISH; + +#ifndef __TWOFISH_LIBRARY_SOURCE__ + +extern bool TwoFish_srand; /* if set to TRUE (default), first call of TwoFishInit will seed rand(); */ + /* call of TwoFishInit */ +#endif + + +/**** Public Functions ****/ + +/* TwoFish Initialization + * + * This routine generates a global data structure for use with TwoFish, + * initializes important values (such as subkeys, sBoxes), generates subkeys + * and precomputes the MDS matrix if not already done. + * + * Input: User supplied password (will be appended by default password of 'SnortHas2FishEncryptionRoutines!') + * + * Output: Pointer to TWOFISH structure. This data structure contains key dependent data. + * This pointer is used with all other crypt functions. + */ +TWOFISH *TwoFishInit(char *userkey); + + +/* TwoFish Destroy + * + * Nothing else but a free... + * + * Input: Pointer to the TwoFish structure. + * + */ +void TwoFishDestroy(TWOFISH *tfdata); + + +/* TwoFish Alloc + * + * Allocates enough memory for the output buffer as required. + * + * Input: Length of the plaintext. + * Boolean flag for BinHex Output. + * Pointer to the TwoFish structure. + * + * Output: Returns a pointer to the memory allocated. + */ +void *TwoFishAlloc(unsigned long len,bool binhex,bool decrypt,TWOFISH *tfdata); + + +/* TwoFish Free + * + * Free's the allocated buffer. + * + * Input: Pointer to the TwoFish structure + * + * Output: (none) + */ +void TwoFishFree(TWOFISH *tfdata); + + +/* TwoFish Set Output + * + * If you want to allocate the output buffer yourself, + * then you can set it with this function. + * + * Input: Pointer to your output buffer + * Pointer to the TwoFish structure + * + * Output: (none) + */ +void TwoFishSetOutput(char *outp,TWOFISH *tfdata); + + +/* TwoFish Raw Encryption + * + * Does not use header, but does use CBC (if more than one block has to be encrypted). + * + * Input: Pointer to the buffer of the plaintext to be encrypted. + * Pointer to the buffer receiving the ciphertext. + * The length of the plaintext buffer. + * The TwoFish structure. + * + * Output: The amount of bytes encrypted if successful, otherwise 0. + */ +unsigned long TwoFishEncryptRaw(char *in,char *out,unsigned long len,TWOFISH *tfdata); + +/* TwoFish Raw Decryption + * + * Does not use header, but does use CBC (if more than one block has to be decrypted). + * + * Input: Pointer to the buffer of the ciphertext to be decrypted. + * Pointer to the buffer receiving the plaintext. + * The length of the ciphertext buffer (at least one cipher block). + * The TwoFish structure. + * + * Output: The amount of bytes decrypted if successful, otherwise 0. + */ +unsigned long TwoFishDecryptRaw(char *in,char *out,unsigned long len,TWOFISH *tfdata); + + +/* TwoFish Encryption + * + * Uses header and CBC. If the output area has not been intialized with TwoFishAlloc, + * this routine will alloc the memory. In addition, it will include a small 'header' + * containing the magic and some salt. That way the decrypt routine can check if the + * packet got decrypted successfully, and return 0 instead of garbage. + * + * Input: Pointer to the buffer of the plaintext to be encrypted. + * Pointer to the pointer to the buffer receiving the ciphertext. + * The pointer either points to user allocated output buffer space, or to NULL, in which case + * this routine will set the pointer to the buffer allocated through the struct. + * The length of the plaintext buffer. + * Can be -1 if the input is a null terminated string, in which case we'll count for you. + * Boolean flag for BinHex Output (if used, output will be twice as large as input). + * Note: BinHex conversion overwrites (converts) input buffer! + * The TwoFish structure. + * + * Output: The amount of bytes encrypted if successful, otherwise 0. + */ +unsigned long TwoFishEncrypt(char *in,char **out,signed long len,bool binhex,TWOFISH *tfdata); + + +/* TwoFish Decryption + * + * Uses header and CBC. If the output area has not been intialized with TwoFishAlloc, + * this routine will alloc the memory. In addition, it will check the small 'header' + * containing the magic. If magic does not match we return 0. Otherwise we return the + * amount of bytes decrypted (should be the same as the length in the header). + * + * Input: Pointer to the buffer of the ciphertext to be decrypted. + * Pointer to the pointer to the buffer receiving the plaintext. + * The pointer either points to user allocated output buffer space, or to NULL, in which case + * this routine will set the pointer to the buffer allocated through the struct. + * The length of the ciphertext buffer. + * Can be -1 if the input is a null terminated binhex string, in which case we'll count for you. + * Boolean flag for BinHex Input (if used, plaintext will be half as large as input). + * Note: BinHex conversion overwrites (converts) input buffer! + * The TwoFish structure. + * + * Output: The amount of bytes decrypted if successful, otherwise 0. + */ +unsigned long TwoFishDecrypt(char *in,char **out,signed long len,bool binhex,TWOFISH *tfdata); + + +/**** Private Functions ****/ + +u_int8_t TwoFish__b(u_int32_t x,int n); +void _TwoFish_BinHex(u_int8_t *buf,unsigned long len,bool bintohex); +unsigned long _TwoFish_CryptRawCBC(char *in,char *out,unsigned long len,bool decrypt,TWOFISH *tfdata); +unsigned long _TwoFish_CryptRaw16(char *in,char *out,unsigned long len,bool decrypt,TWOFISH *tfdata); +unsigned long _TwoFish_CryptRaw(char *in,char *out,unsigned long len,bool decrypt,TWOFISH *tfdata); +void _TwoFish_PrecomputeMDSmatrix(void); +void _TwoFish_MakeSubKeys(TWOFISH *tfdata); +void _TwoFish_qBlockPush(u_int8_t *p,u_int8_t *c,TWOFISH *tfdata); +void _TwoFish_qBlockPop(u_int8_t *p,u_int8_t *c,TWOFISH *tfdata); +void _TwoFish_ResetCBC(TWOFISH *tfdata); +void _TwoFish_FlushOutput(u_int8_t *b,unsigned long len,TWOFISH *tfdata); +void _TwoFish_BlockCrypt(u_int8_t *in,u_int8_t *out,unsigned long size,int decrypt,TWOFISH *tfdata); +void _TwoFish_BlockCrypt16(u_int8_t *in,u_int8_t *out,bool decrypt,TWOFISH *tfdata); +u_int32_t _TwoFish_RS_MDS_Encode(u_int32_t k0,u_int32_t k1); +u_int32_t _TwoFish_F32(u_int32_t k64Cnt,u_int32_t x,u_int32_t *k32); +u_int32_t _TwoFish_Fe320(u_int32_t *lsBox,u_int32_t x); +u_int32_t _TwoFish_Fe323(u_int32_t *lsBox,u_int32_t x); +u_int32_t _TwoFish_Fe32(u_int32_t *lsBox,u_int32_t x,u_int32_t R); + + +#endif --- snort-2.9.0/src/plugin_enum.h 2010-06-10 00:04:54.000000000 +0200 +++ snort-2.9.0.dlucio/src/plugin_enum.h 2010-10-08 18:08:27.000000000 +0200 @@ -60,6 +60,7 @@ PLUGIN_URILEN_CHECK, PLUGIN_DYNAMIC, PLUGIN_FLOWBIT, + PLUGIN_FWSAM, PLUGIN_FILE_DATA, PLUGIN_BASE64_DECODE, PLUGIN_MAX /* sentinel value */ --- snort-2.9.0/src/fatal.h 1970-01-01 01:00:00.000000000 +0100 +++ snort-2.9.0.dlucio/src/fatal.h 2010-10-08 18:05:37.000000000 +0200 @@ -0,0 +1,40 @@ +/* $Id$ */ +/* +** Copyright (C) 2002-2008 Sourcefire, Inc. +** Copyright (C) 1998-2002 Martin Roesch +** +** This program is free software; you can redistribute it and/or modify +** it under the terms of the GNU General Public License Version 2 as +** published by the Free Software Foundation. You may not use, modify or +** distribute this program under any other version of the GNU General +** Public License. +** +** 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. +*/ + +#ifndef __FATAL_H__ +#define __FATAL_H__ + + +/* + * in debugging mode print out the filename and the line number where the + * failure have occured + */ + + +#ifdef DEBUG + #define FATAL(msg) { printf("%s:%d: ", __FILE__, __LINE__); FatalError( (char *) msg); } +#else + #define FATAL(msg) FatalError( (char *) msg) +#endif + + + +#endif /* __FATAL_H__ */ --- snort-2.9.0/src/output-plugins/spo_alert_fwsam.c 1970-01-01 01:00:00.000000000 +0100 +++ snort-2.9.0.dlucio/src/output-plugins/spo_alert_fwsam.c 2010-10-08 18:05:37.000000000 +0200 @@ -0,0 +1,1380 @@ +/* $id: snortpatchb,v 1.2 2002/10/26 03:32:35 fknobbe Exp $ +** +** spo_alert_fwsam.c +** +** Copyright (c) 2001-2004 Frank Knobbe +** +** 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. +*/ + +/* + * Purpose: + * + * This module sends alerts to a remote service on a host running SnortSam + * (the agent) which will block the intruding IP address on a variety of + * host and network firewalls. + * + * SnortSam also performs checks against a white-list of never-to-be-blocked IP addresses, + * can override block durations (for example for known proxies), and can detect attack conditions + * where too many blocks are received within a defined interval. If an attack is detected + * it will unblock the last x blocks and wait for the attack to end. + * + * See the SnortSam documentation for more information. + * + * + * Output Plugin Parameters: + *************************** + * + * output alert_fwsam: :/ + * + * : The IP address or host name of the host running SnortSam. + * : The port the remote SnortSam service listens on (default 898). + * : The key used for authentication (encryption really) + * of the communication to the remote service. + * + * Examples: + * + * output alert_fwsam: snortsambox/idspassword + * output alert_fwsam: fw1.domain.tld:898/mykey + * output alert_fwsam: 192.168.0.1/borderfw 192.168.1.254/wanfw + * + * + * Rule Options: + *************** + * + * fwsam: who[how],time; + * + * who: src, source, dst, dest, destination + * IP address to be blocked according to snort rule (some rules + * are reversed, i.e. homenet -> any [and you want to block any]). + * src denotes IP to the left of -> and dst denotes IP to the right + * + * how: Optional. In, out, src, dest, either, both, this, conn, connection + * Tells FW-1 to block packets INcoming from host, OUTgoing to host, + * EITHERway, or only THIS connection (IP/Service pair). + * See 'fw sam' for more information. May be ignored by other plugins. + * + * time: Duration of block in seconds. (Accepts 'days', 'months', 'weeks', + * 'years', 'minutes', 'seconds', 'hours'. Alternatively, a value of + * 0, or the keyword PERManent, INFinite, or ALWAYS, will block the + * host permanently. Be careful with this! + * Tells FW-1 (and others) how long to inhibit packets from the host. + * + * Examples: + * + * fwsam: src[either],15min; + * or dst[in], 2 days 4 hours + * or src, 1 hour + * + * (default: src[either],5min) + * + * + * Effect: + * + * Alerts are sent to the remote SnortSam services on Firewall-1 Management Stations + * or other hosts running SnortSam (as required for Cisco Routers and PIX). + * The remote services will invoke the SAM configuration via the fw sam + * command line, or by sending a packet to the SAM port 18183, or by using the official + * OPSEC API calls, or by telnetting into Cisco routers or PIX firewalls. + * The communication over the network is encrypted using two-fish. + * (Implementation ripped from CryptCat by Farm9 with permission.) + * + * Future Plans: + * + * - Custom alert trigger per rule (x alerts in y secs) --> Seems to exist in Snort 1.9 now. + * - Enable/Allow tagged fwsam: arguments to provide different values to + * different stations. --> Seems to be accomplished with custom rule-types + * + * + * Comments: + * + * It seem that above wishes can be implemented with todays setup. Feedback concerning + * these is greatly appreciated. + * +*/ + + +#include "spo_alert_fwsam.h" +#include "twofish.h" +/* external globals from rules.c */ +extern char *file_name; +extern int file_line; +extern OptTreeNode *otn_tmp; +extern char *snort_conf_dir; /* extern PV pv; */ + + +/* my globals */ + +FWsamList *FWsamStationList=NULL; /* Global (for all alert-types) list of snortsam stations */ +FWsamOptions *FWsamOptionField=NULL; +unsigned long FWsamMaxOptions=0; + + +/* + * Function: AlertFWsamSetup() + * + * Purpose: Registers the output plugin keyword and initialization + * function into the output plugin list. This is the function that + * gets called from InitOutputPlugins() in plugbase.c. + * It also registers itself as a plugin in order to parse every rule + * and to set the appropiate flags from fwsam: option. + * + * Arguments: None. + * + * Returns: void function + * +*/ +void AlertFWsamSetup(void) +{ + /* link the preprocessor keyword to the init function in + the preproc list */ + RegisterOutputPlugin("alert_fwsam", OUTPUT_TYPE_FLAG__ALERT, AlertFWsamInit); + RegisterRuleOption("fwsam", AlertFWsamOptionInit, NULL, OPT_TYPE_ACTION, NULL); + +#ifdef FWSAMDEBUG /* This allows debugging of fwsam only */ + LogMessage("DEBUG => [Alert_FWsam](AlertFWsamSetup) Output plugin is plugged in...\n"); +#endif +} + + +/* This function checks if a given snortsam station is already in + * a given list. +*/ +int FWsamStationExists(FWsamStation *who,FWsamList *list) +{ + while(list) + { + if(list->station) { +// if( who->stationip.s_addr==list->station->stationip.s_addr && + if(IP_EQUALITY(&who->stationip, &list->station->stationip) && + who->stationport==list->station->stationport) + return TRUE; + } + list=list->next; + } + return FALSE; +} + +/* + * Function: AlertFWsamInit(char *args) + * + * Purpose: Calls the argument parsing function, performs final setup on data + * structs, links the preproc function into the function list. + * + * Arguments: args => ptr to argument string + * + * Returns: void function + * +*/ +void AlertFWsamInit(char *args) +{ char *ap; + unsigned long statip,cnt,again,i; + char *stathost,*statport,*statpass; + FWsamStation *station; + FWsamList *fwsamlist=NULL; /* alert-type dependent list of snortsam stations */ + FWsamList *listp,*newlistp; + struct hostent *hoste; + char buf[1024]=""; + FILE *fp; + FWsamOptions tempopt; + +#ifdef FWSAMDEBUG + unsigned long hostcnt=0; + + + + LogMessage("DEBUG => [Alert_FWsam](AlertFWsamInit) Output plugin initializing...\n"); +#endif + + /* pv.alert_plugin_active = 1; */ + + /* parse the argument list from the rules file */ + + if(args == NULL) + FatalError("ERROR %s (%d) => [Alert_FWsam](AlertFWsamInit) No arguments to alert_fwsam preprocessor!\n", file_name, file_line); + + if(!FWsamOptionField && !FWsamMaxOptions) + { strncpy(buf,snort_conf_dir,sizeof(buf)-1); + strncpy(buf+strlen(buf),SID_MAPFILE,sizeof(buf)-strlen(buf)-1); +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam](AlertFWsamSetup) Using file: %s\n",buf); +#endif + fp=fopen(buf,"rt"); + if(!fp) + { strncpy(buf,snort_conf_dir,sizeof(buf)-1); + strncpy(buf+strlen(buf),SID_ALT_MAPFILE,sizeof(buf)-strlen(buf)-1); + fp=fopen(buf,"rt"); + } + if(fp) /* Check for presence of map file and read those in, sorted. */ + { LogMessage("INFO => [Alert_FWsam](AlertFWsamSetup) Using sid-map file: %s\n",buf); + + while(FWsamReadLine(buf,sizeof(buf),fp)) + if(*buf) + FWsamMaxOptions++; + if(FWsamMaxOptions) + { if((FWsamOptionField=(FWsamOptions *)malloc(sizeof(FWsamOptions)*FWsamMaxOptions))==NULL) + FatalError("ERROR => [Alert_FWsam](AlertFWsamSetup) malloc failed for OptionField!\n"); + fseek(fp,0,SEEK_SET); + for(cnt=0;cnt1) + { for(again=TRUE,cnt=FWsamMaxOptions-1;cnt>=1 && again;cnt--) + { for(again=FALSE,i=0;iFWsamOptionField[i+1].sid) + { memcpy(&tempopt,&(FWsamOptionField[i]),sizeof(FWsamOptions)); + memcpy(&(FWsamOptionField[i]),&(FWsamOptionField[i+1]),sizeof(FWsamOptions)); + memcpy(&(FWsamOptionField[i+1]),&tempopt,sizeof(FWsamOptions)); + again=TRUE; + } + } + } + } + } + else + FWsamMaxOptions=1; + fclose(fp); + } + else + FWsamMaxOptions=1; + } + + + ap=args; /* start at the beginning of the argument */ + while(*ap && isspace(*ap)) ap++; + while(*ap) + { stathost=ap; /* first argument should be host */ + statport=NULL; + statpass=NULL; + while(*ap && *ap!=':' && *ap!='/' && !isspace(*ap)) ap++; /* find token */ + switch(*ap) + { case ':': *ap++=0; /* grab the port */ + statport=ap; + while(*ap && *ap!='/' && !isspace(*ap)) ap++; + if(*ap!='/') + break; + case '/': *ap++=0; /* grab the key */ + statpass=ap; + while(*ap && !isspace(*ap)) ap++; + default: break; + } + if(*ap) + { *ap++=0; + while(isspace(*ap)) ap++; + } + /* now we have the first host with port and password (key) */ + /* next we check for valid/blank password/port */ + if(statpass!=NULL) + if(!*statpass) + statpass=NULL; + if(statport!=NULL) + if(!*statport) + statport=NULL; + statip=0; + /* now we check if a valid host was specified */ + if(inet_addr(stathost)==INADDR_NONE) + { hoste=gethostbyname(stathost); + if (!hoste) + LogMessage("WARNING %s (%d) => [Alert_FWsam](AlertFWsamInit) Unable to resolve host '%s'!\n",file_name,file_line,stathost); + else + statip=*(unsigned long *)hoste->h_addr; + } + else + { statip=inet_addr(stathost); + if(!statip) + LogMessage("WARNING %s (%d) => [Alert_FWsam](AlertFWsamInit) Invalid host address '%s'!\n",file_name,file_line,stathost); + } + if(statip) + { /* groovie, a valid host. Let's alloc and assemble the structure for it. */ + if((station=(FWsamStation *)malloc(sizeof(FWsamStation)))==NULL) + FatalError("ERROR => [Alert_FWsam](AlertFWsamInit) malloc failed for station!\n"); + +// station->stationip.s_addr=statip; /* the IP address */ + station->stationip.ip32[0] = statip; /* the IP address */ + if(statport!=NULL && atoi(statport)>0) /* if the user specified one */ + station->stationport=atoi(statport); /* use users setting */ + else + station->stationport=FWSAM_DEFAULTPORT; /* set the default port */ + + if(statpass!=NULL) /* if specified by user */ + strncpy(station->stationkey,statpass,TwoFish_KEY_LENGTH); /* use defined key */ + else + station->stationkey[0]=0; + station->stationkey[TwoFish_KEY_LENGTH]=0; /* make sure it's terminated. (damn strncpy...) */ + + strcpy(station->initialkey,station->stationkey); + station->stationfish=TwoFishInit(station->stationkey); + + station->localsocketaddr.sin_port=htons(0); /* let's use dynamic ports for now */ + station->localsocketaddr.sin_addr.s_addr=0; + station->localsocketaddr.sin_family=AF_INET; + station->stationsocketaddr.sin_port=htons(station->stationport); + //station->stationsocketaddr.sin_addr=station->stationip; + station->stationsocketaddr.sin_addr.s_addr=station->stationip.ip32[0]; + station->stationsocketaddr.sin_family=AF_INET; /* load all socket crap and keep for later */ + + do + station->myseqno=rand(); /* the seqno this host will use */ + while(station->myseqno<20 || station->myseqno>65500); + station->mykeymod[0]=rand(); + station->mykeymod[1]=rand(); + station->mykeymod[2]=rand(); + station->mykeymod[3]=rand(); + station->stationseqno=0; /* peer hasn't answered yet. */ + + + if(!FWsamStationExists(station,FWsamStationList)) /* If we don't have the station already in global list....*/ + { if(FWsamCheckIn(station)) /* ...and we can talk to the agent... */ + { if((newlistp=(FWsamList *)malloc(sizeof(FWsamList)))==NULL) + FatalError("ERROR => [Alert_FWsam](AlertFWsamInit) malloc failed for global newlistp!\n"); + newlistp->station=station; + newlistp->next=NULL; + + if(!FWsamStationList) /* ... add it to the global list/ */ + FWsamStationList=newlistp; + else + { listp=FWsamStationList; + while(listp->next) + listp=listp->next; + listp->next=newlistp; + } + } + else + { TwoFishDestroy(station->stationfish); /* if not, we trash it. */ + free(station); + station=NULL; + } + } +#ifdef FWSAMDEBUG + else + LogMessage("DEBUG => [Alert_FWsam](AlertFWsamInit) Host %s:%i already in global list, skipping CheckIn.\n", sfip_ntoa(&station->stationip),station->stationport); +#endif + + if(station) + { if(!FWsamStationExists(station,fwsamlist)) /* If we don't have the station already in local list....*/ + { if((newlistp=(FWsamList *)malloc(sizeof(FWsamList)))==NULL) + FatalError("ERROR => [Alert_FWsam](AlertFWsamInit) malloc failed for local newlistp!\n"); + newlistp->station=station; + newlistp->next=NULL; + + if(!fwsamlist) /* ... add it to the local list/ */ + fwsamlist=newlistp; + else + { listp=fwsamlist; + while(listp->next) + listp=listp->next; + listp->next=newlistp; + } + } + +#ifdef FWSAMDEBUG + else + LogMessage("DEBUG => [Alert_FWsam](AlertFWsamInit) Host %s:%i already in local list, skipping.\n",sfip_ntoa(&station->stationip),station->stationport); + LogMessage("DEBUG => [Alert_FWsam](AlertFWsamInit) #%i: Host %s [%s] port %i password %s\n",++hostcnt,stathost,sfip_ntoa(&station->stationip),station->stationport,station->stationkey); +#endif + } + + } + } /* next one */ + +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam](AlertFWsamInit) Linking fwsam alert function to call list...\n"); +#endif + + /* Set the preprocessor function into the function list */ + AddFuncToOutputList(AlertFWsam, OUTPUT_TYPE_FLAG__ALERT, fwsamlist); + AddFuncToCleanExitList(AlertFWsamCleanExitFunc, fwsamlist); + AddFuncToRestartList(AlertFWsamRestartFunc, fwsamlist); +} + + +/* This routine reads in a str from a file, snips white-spaces + * off the front and back, removes comments, and pretties the + * string. Returns true or false if a line was read or not. +*/ +int FWsamReadLine(char *buf,unsigned long bufsize,FILE *fp) +{ char *p; + + if(fgets(buf,bufsize-1,fp)) + { buf[bufsize-1]=0; + +#ifdef FWSAMDEBUG_off + LogMessage("DEBUG => [Alert_FWsam](AlertFWsamReadLine) Line: %s\n",buf); +#endif + + p=buf; + while(isspace(*p)) + p++; + if(p>buf); + strcpy(buf,p); + if(*buf) + { p=buf+strlen(buf)-1; /* remove leading and trailing spaces */ + while(isspace(*p)) + *p-- =0; + } + p=buf; + if(*p=='#' || *p==';') + *p=0; + else + p++; + while(*p) /* remove inline comments (except escaped #'s and ;'s) */ + { if(*p=='#' || *p==';') + { if(*(p-1)=='\\') + strcpy(p-1,p); + else + *p=0; + } + else + p++; + } + return TRUE; + } + return FALSE; +} + + +/* Parses the duration of the argument, recognizing minutes, hours, etc.. +*/ +unsigned long FWsamParseDuration(char *p) +{ unsigned long dur=0,tdu; + char *tok,c1,c2; + + while(*p) + { tok=p; + while(*p && isdigit(*p)) + p++; + if(*p) + { c1=tolower(*p); + *p=0; + p++; + if(*p && !isdigit(*p)) + { c2=tolower(*p++); + while(*p && !isdigit(*p)) + p++; + } + else + c2=0; + tdu=atol(tok); + switch(c1) + { case 'm': if(c2=='o') /* month */ + tdu*=(60*60*24*30); /* use 30 days */ + else + tdu*=60; /* minutes */ + case 's': break; /* seconds */ + case 'h': tdu*=(60*60); /* hours */ + break; + case 'd': tdu*=(60*60*24); /* days */ + break; + case 'w': tdu*=(60*60*24*7); /* week */ + break; + case 'y': tdu*=(60*60*24*365); /* year */ + break; + } + dur+=tdu; + } + else + dur+=atol(tok); + } + + return dur; +} + + +/* This routine parses an option line. It is called by FWsamParseLine, + * which parses the sid-block.map file, and also by AlertFWsamOptionInit, + * which is called by Snort when processing fwsam: options in rules. + * It returns TRUE it there is a possible option problem, otherwise FALSE. +*/ +int FWsamParseOption(FWsamOptions *optp,char *ap) +{ int possprob=FALSE; + + /* set defaults */ + + optp->duration=300; /* default of 5 minute block */ + optp->how=FWSAM_HOW_INOUT; /* inbound and outbound block */ + optp->who=FWSAM_WHO_SRC; /* the source */ + optp->loglevel=FWSAM_LOG_LONGALERT; /* the log level default */ + /* parse the fwsam keywords */ + +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam](AlertFWamOptionInit) Parse Options Args: %s\n",ap); +#endif + + if(*ap) /* should be dst/src (the WHO) or duration */ + { if(isdigit(*ap)) + optp->duration=FWsamParseDuration(ap); + else + { switch(*ap) /* yeah, we're lazy and check only the first character */ + { case 'p': ; /* permanent, perm */ + case 'f': ; /* forever */ + case 'i': optp->duration=0; /* infinite, inf */ + break; + case 'd': optp->who=FWSAM_WHO_DST; /* destination, dest, dst */ + break; + case 's': optp->who=FWSAM_WHO_SRC; /* source, src */ + break; + default: possprob=TRUE; + } + while(*ap && *ap!=',' && *ap!='[') + ap++; + if(*ap=='[') + { ap++; /* now we have the HOW */ + switch(*ap) + { case 'i': ; /* in */ + case 's': optp->how=FWSAM_HOW_IN; /* source, src */ + break; + case 'o': ; /* out */ + case 'd': optp->how=FWSAM_HOW_OUT; /* destination, dest, dst */ + break; + case 'b': ; /* both */ + case 'e': optp->how=FWSAM_HOW_INOUT; /* either */ + break; + case 't': ; /* this */ + case 'c': optp->how=FWSAM_HOW_THIS; /* connection, conn */ + break; + default: possprob=TRUE; + } + while(*ap && *ap!=',') + ap++; + } + if(*ap==',') + { ap++; + if(isdigit(*ap)) /* and figure out how long to block */ + optp->duration=FWsamParseDuration(ap); + else if(*ap=='p' || *ap=='f' || *ap=='i') + optp->duration=0; + else + possprob=TRUE; + } + else if(!*ap) + possprob=TRUE; + } + } + else + possprob=TRUE; + + return possprob; +} + + +/* This goes through the lines of sid-block.map and sets the + * options for fwsam if the file is being used. +*/ +void FWsamParseLine(FWsamOptions *optp,char *buf) +{ char *ap; + + ap=buf; /* start at the beginning of the argument */ + + while(*ap) + { if(isspace(*ap)) /* normalize spaces (tabs into space, etc) */ + *ap=' '; + if(isupper(*ap)) /* and set to lower case */ + *ap=tolower(*ap); + ap++; + } + while((ap=strrchr(buf,' '))!=NULL) /* remove spaces */ + strcpy(ap,ap+1); + + ap=buf; + if(*ap) + { while(*ap && *ap!=':' && *ap!='|') + ap++; + *ap++ =0; + while(*ap && (*ap==':' || *ap=='|')) + ap++; + + optp->sid=(unsigned long)atol(buf); + + if(FWsamParseOption(optp,ap)) + LogMessage("WARNING %s (%d) => [Alert_FWsam](AlertFWamOptionInit) Possible option problem. Using %s[%s],%lu.\n",file_name,file_line,(optp->who==FWSAM_WHO_SRC)?"src":"dst",(optp->how==FWSAM_HOW_IN)?"in":((optp->how==FWSAM_HOW_OUT)?"out":"either"),optp->duration); + } + else + optp->sid=0; +} + + + +/* + * Function: AlertFWsamOptionInit(char *data, OptTreeNode *otn, int protocol) + * + * Purpose: Parses each rule and sets the option flags in the tree. + * + * Arguments: args => ptr to argument string + * + * Returns: void function + * +*/ +void AlertFWsamOptionInit(char *args,OptTreeNode *otn,int protocol) +{ + FWsamOptions *optp; + char *ap; + + +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam](AlertFWamOptionInit) FWsamOptionInit is parsing...\n"); +#endif + + if((optp=(FWsamOptions *)malloc(sizeof(FWsamOptions)))==NULL) + FatalError("ERROR => [Alert_FWsam](AlertFWamOptionInit) malloc failed for opt!\n"); + + + ap=args; /* start at the beginning of the argument */ + + while(*ap) + { if(isspace(*ap)) /* normalize spaces (tabs into space, etc) */ + *ap=' '; + if(isupper(*ap)) /* and set to lower case */ + *ap=tolower(*ap); + ap++; + } + while((ap=strrchr(args,' '))!=NULL) /* remove spaces */ + strcpy(ap,ap+1); + + + if(FWsamParseOption(optp,args)) + LogMessage("WARNING %s (%d) => [Alert_FWsam](AlertFWamOptionInit) Possible option problem. Using %s[%s],%lu.\n",file_name,file_line,(optp->who==FWSAM_WHO_SRC)?"src":"dst",(optp->how==FWSAM_HOW_IN)?"in":((optp->how==FWSAM_HOW_OUT)?"out":"either"),optp->duration); + + otn->ds_list[PLUGIN_FWSAM]=(FWsamOptions *)optp; +} + + +/* Generates a new encryption key for TwoFish based on seq numbers and a random that + * the SnortSam agents send on checkin (in protocol) +*/ +void FWsamNewStationKey(FWsamStation *station,FWsamPacket *packet) +{ + //unsigned char newkey[TwoFish_KEY_LENGTH+2]; + char newkey[TwoFish_KEY_LENGTH+2]; + int i; + + newkey[0]=packet->snortseqno[0]; /* current snort seq # (which both know) */ + newkey[1]=packet->snortseqno[1]; + newkey[2]=packet->fwseqno[0]; /* current SnortSam seq # (which both know) */ + newkey[3]=packet->fwseqno[1]; + newkey[4]=packet->protocol[0]; /* the random SnortSam chose */ + newkey[5]=packet->protocol[1]; + + strncpy(newkey+6,station->stationkey,TwoFish_KEY_LENGTH-6); /* append old key */ + newkey[TwoFish_KEY_LENGTH]=0; + + newkey[0]^=station->mykeymod[0]; /* modify key with key modifiers which were */ + newkey[1]^=station->mykeymod[1]; /* exchanged during the check-in handshake. */ + newkey[2]^=station->mykeymod[2]; + newkey[3]^=station->mykeymod[3]; + newkey[4]^=station->fwkeymod[0]; + newkey[5]^=station->fwkeymod[1]; + newkey[6]^=station->fwkeymod[2]; + newkey[7]^=station->fwkeymod[3]; + + for(i=0;i<=7;i++) + if(newkey[i]==0) + newkey[i]++; + + strcpy(station->stationkey,newkey); + TwoFishDestroy(station->stationfish); + station->stationfish=TwoFishInit(newkey); +} + + +/* This routine will search the option list as defined + * by the sid-block.map file and return a pointer + * to the matching record. +*/ +FWsamOptions *FWsamGetOption(unsigned long sid) +{ signed long i,step,diff,o,o2; + +#ifdef FWSAM_FANCYFETCH /* Fancy-fetch jumps in decreasing n/2 steps and takes much less lookups */ + o=o2= -1; + i=step=FWsamMaxOptions>>1; + while(i>=0 && i1) + step=step>>1; + o2=o; + o=i; + if(diff>0) + i+=step; + else + i-=step; + } +#else /* This is just a sequential list lookup */ + for(i=0;i pointer to the packet data struct + * msg => the message to print in the alert + * + * Returns: void function + * + ***************************************************************************/ +void AlertFWsam(Packet *p, char *msg, void *arg, Event *event) +{ FWsamOptions *optp; + FWsamPacket sampacket; + FWsamStation *station=NULL; + FWsamList *fwsamlist; + SOCKET stationsocket; + int i,len,deletestation,stationtry=0; + //unsigned char *encbuf,*decbuf; + char *encbuf,*decbuf; + static unsigned long lastbsip[FWSAM_REPET_BLOCKS],lastbdip[FWSAM_REPET_BLOCKS], + lastbduration[FWSAM_REPET_BLOCKS],lastbtime[FWSAM_REPET_BLOCKS]; + static unsigned short lastbsp[FWSAM_REPET_BLOCKS],lastbdp[FWSAM_REPET_BLOCKS], + lastbproto[FWSAM_REPET_BLOCKS],lastbpointer; + static unsigned char lastbmode[FWSAM_REPET_BLOCKS]; + static unsigned long btime=0; + + + if(otn_tmp==NULL) + { +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam] NULL otn_tmp!\n"); +#endif + return; + } + if(p == NULL) + { +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam] NULL packet!\n"); +#endif + return; + } + if(arg == NULL) + { +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam] NULL arg!\n"); +#endif + return; + } + + /* SnortSam does no IPv6 */ + if (!IS_IP4(p)) { +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam] not acting on non-IP4 packet!\n"); +#endif + return; + } + + optp=NULL; + + if(FWsamOptionField) /* If using the file (field present), let's use that */ + optp=FWsamGetOption(event->sig_id); + + if(!optp) /* If file not present, check if an fwsam option was defined on the triggering rule */ + optp=otn_tmp->ds_list[PLUGIN_FWSAM]; + + if(optp) /* if options specified for this rule */ + { if(!btime) /* if this is the first time this function is */ + { for(i=0;i [Alert_FWsam] Alert -> Msg=\"%s\"\n",msg); + + LogMessage("DEBUG => [Alert_FWsam] Alert -> Option: %s[%s],%lu.\n",(optp->who==FWSAM_WHO_SRC)?"src":"dst",(optp->how==FWSAM_HOW_IN)?"in":((optp->how==FWSAM_HOW_OUT)?"out":"either"),optp->duration); +#endif + + len=TRUE; + btime=(unsigned long)time(NULL); /* get current time */ + /* This is a cheap check to see if the blocking request matches any of the previous requests. */ + for(i=0;ihow==FWSAM_HOW_THIS)? /* if blocking mode SERVICE, check for src and dst */ + ( lastbsip[i]==p->iph->ip_src.s_addr && lastbdip[i]==p->iph->ip_dst.s_addr &&lastbproto[i]==p->iph->ip_proto && + ((p->iph->ip_proto==IPPROTO_TCP || p->iph->ip_proto==IPPROTO_UDP)? /* check port only of TCP or UDP */ +/* ((optp->who==FWSAM_WHO_SRC)?(lastbsp[i]==p->sp):(lastbdp[i]==p->dp)):TRUE) ): */ + lastbdp[i]==p->dp:TRUE) ): + ((optp->who==FWSAM_WHO_SRC)?(lastbsip[i]==p->iph->ip_src.s_addr):(lastbdip[i]==p->iph->ip_dst.s_addr))) && /* otherwise if we block source, only compare source. Same for dest. */ + lastbduration[i]==optp->duration && + (lastbmode[i]&(FWSAM_HOW|FWSAM_WHO))==(optp->how|optp->who) && + (btime-lastbtime[i]<((optp->duration>FWSAM_REPET_TIME)?FWSAM_REPET_TIME:optp->duration))) + { len=FALSE; /* If so, we don't need to block again. */ + } + } + if(len) + { if(++lastbpointer>=FWSAM_REPET_BLOCKS) /* increase repetitive check pointer */ + lastbpointer=0; + lastbsip[lastbpointer]=p->iph->ip_src.s_addr; /* and note packet details */ + lastbdip[lastbpointer]=p->iph->ip_dst.s_addr; + lastbduration[lastbpointer]=optp->duration; + lastbmode[lastbpointer]=optp->how|optp->who|optp->loglevel; + lastbproto[lastbpointer]=p->iph->ip_proto; + if(p->iph->ip_proto==IPPROTO_TCP || p->iph->ip_proto==IPPROTO_UDP) + { lastbsp[lastbpointer]=p->sp; /* set ports if TCP or UDP */ + lastbdp[lastbpointer]=p->dp; + } + lastbtime[lastbpointer]=btime; + + + while(fwsamlist!=NULL) + { station=fwsamlist->station; + //if(station->stationip.s_addr) + if(station->stationip.ip32[0]) + { deletestation=FALSE; + stationtry++; /* first try */ + /* create a socket for the station */ + stationsocket=socket(PF_INET,SOCK_STREAM,IPPROTO_TCP); + if(stationsocket==INVALID_SOCKET) + FatalError("ERROR => [Alert_FWsam] Funky socket error (socket)!\n"); + if(bind(stationsocket,(struct sockaddr *)&(station->localsocketaddr),sizeof(struct sockaddr))) + FatalError("ERROR => [Alert_FWsam] Could not bind socket!\n"); + + /* let's connect to the agent */ + if(connect(stationsocket,(struct sockaddr *)&station->stationsocketaddr,sizeof(struct sockaddr))) + { + LogMessage("WARNING => [Alert_FWsam] Could not send block to host %s. Will try later.\n",sfip_ntoa(&station->stationip)); +#ifdef WIN32 + closesocket(stationsocket); +#else + close(stationsocket); +#endif + stationtry=0; + } + else + { +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam] Connected to host %s.\n",sfip_ntoa(&station->stationip)); +#endif + /* now build the packet */ + station->myseqno+=station->stationseqno; /* increase my seqno by adding agent seq no */ + sampacket.endiancheck=1; /* This is an endian indicator for Snortsam */ + sampacket.snortseqno[0]=(char)station->myseqno; + sampacket.snortseqno[1]=(char)(station->myseqno>>8); + sampacket.fwseqno[0]=(char)station->stationseqno;/* fill station seqno */ + sampacket.fwseqno[1]=(char)(station->stationseqno>>8); + sampacket.status=FWSAM_STATUS_BLOCK; /* set block mode */ + sampacket.version=FWSAM_PACKETVERSION; /* set packet version */ + sampacket.duration[0]=(char)optp->duration; /* set duration */ + sampacket.duration[1]=(char)(optp->duration>>8); + sampacket.duration[2]=(char)(optp->duration>>16); + sampacket.duration[3]=(char)(optp->duration>>24); + sampacket.fwmode=optp->how|optp->who|optp->loglevel; /* set the mode */ + sampacket.dstip[0]=(char)p->iph->ip_dst.s_addr; /* destination IP */ + sampacket.dstip[1]=(char)(p->iph->ip_dst.s_addr>>8); + sampacket.dstip[2]=(char)(p->iph->ip_dst.s_addr>>16); + sampacket.dstip[3]=(char)(p->iph->ip_dst.s_addr>>24); + sampacket.srcip[0]=(char)p->iph->ip_src.s_addr; /* source IP */ + sampacket.srcip[1]=(char)(p->iph->ip_src.s_addr>>8); + sampacket.srcip[2]=(char)(p->iph->ip_src.s_addr>>16); + sampacket.srcip[3]=(char)(p->iph->ip_src.s_addr>>24); + sampacket.protocol[0]=(char)p->iph->ip_proto; /* protocol */ + sampacket.protocol[1]=(char)(p->iph->ip_proto>>8);/* protocol */ + + if(p->iph->ip_proto==IPPROTO_TCP || p->iph->ip_proto==IPPROTO_UDP) + { sampacket.srcport[0]=(char)p->sp; /* set ports */ + sampacket.srcport[1]=(char)(p->sp>>8); + sampacket.dstport[0]=(char)p->dp; + sampacket.dstport[1]=(char)(p->dp>>8); + } + else + sampacket.srcport[0]=sampacket.srcport[1]=sampacket.dstport[0]=sampacket.dstport[1]=0; + + sampacket.sig_id[0]=(char)event->sig_id; /* set signature ID */ + sampacket.sig_id[1]=(char)(event->sig_id>>8); + sampacket.sig_id[2]=(char)(event->sig_id>>16); + sampacket.sig_id[3]=(char)(event->sig_id>>24); + +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam] Sending BLOCK\n"); + LogMessage("DEBUG => [Alert_FWsam] Snort SeqNo: %x\n",station->myseqno); + LogMessage("DEBUG => [Alert_FWsam] Mgmt SeqNo : %x\n",station->stationseqno); + LogMessage("DEBUG => [Alert_FWsam] Status : %i\n",FWSAM_STATUS_BLOCK); + LogMessage("DEBUG => [Alert_FWsam] Mode : %i\n",optp->how|optp->who|optp->loglevel); + LogMessage("DEBUG => [Alert_FWsam] Duration : %li\n",optp->duration); + LogMessage("DEBUG => [Alert_FWsam] Protocol : %i\n",GET_IPH_PROTO(p)); +#ifdef SUP_IP6 + LogMessage("DEBUG => [Alert_FWsam] Src IP : %s\n",sfip_ntoa(GET_SRC_IP(p))); + LogMessage("DEBUG => [Alert_FWsam] Dest IP : %s\n",sfip_ntoa(GET_DST_IP(p))); +#else + LogMessage("DEBUG => [Alert_FWsam] Src IP : %s\n",inet_ntoa(p->iph->ip_src)); + LogMessage("DEBUG => [Alert_FWsam] Dest IP : %s\n",inet_ntoa(p->iph->ip_dst)); +#endif + LogMessage("DEBUG => [Alert_FWsam] Src Port : %i\n",p->sp); + LogMessage("DEBUG => [Alert_FWsam] Dest Port : %i\n",p->dp); + LogMessage("DEBUG => [Alert_FWsam] Sig_ID : %lu\n",event->sig_id); + +#endif + + encbuf=TwoFishAlloc(sizeof(FWsamPacket),FALSE,FALSE,station->stationfish); /* get the encryption buffer */ + len=TwoFishEncrypt((char *)&sampacket,&encbuf,sizeof(FWsamPacket),FALSE,station->stationfish); /* encrypt the packet with current key */ + + if(send(stationsocket,encbuf,len,0)!=len) /* weird...could not send */ + { LogMessage("WARNING => [Alert_FWsam] Could not send to host %s. Will try again later.\n",sfip_ntoa(&station->stationip)); +#ifdef WIN32 + closesocket(stationsocket); +#else + close(stationsocket); +#endif + stationtry=0; + } + else + { i=FWSAM_NETWAIT; +#ifdef WIN32 + ioctlsocket(stationsocket,FIONBIO,&i); /* set non blocking and wait for */ +#else + ioctl(stationsocket,FIONBIO,&i); /* set non blocking and wait for */ +#endif + while(i-- >1) /* the response packet */ + { waitms(10); /* wait for response (default maximum 3 secs */ + if(recv(stationsocket,encbuf,len,0)==len) + i=0; /* if we received packet we set the counter to 0. */ + /* by the time we check with if, it's already dec'ed to -1 */ + } + if(!i) /* id we timed out (i was one, then dec'ed)... */ + { LogMessage("WARNING => [Alert_FWsam] Did not receive response from host %s. Will try again later.\n",sfip_ntoa(&station->stationip)); +#ifdef WIN32 + closesocket(stationsocket); +#else + close(stationsocket); +#endif + stationtry=0; + } + else /* got a packet */ + { decbuf=(char *)&sampacket; /* get the pointer to the packet struct */ + len=TwoFishDecrypt(encbuf,&decbuf,sizeof(FWsamPacket)+TwoFish_BLOCK_SIZE,FALSE,station->stationfish); /* try to decrypt the packet with current key */ + + if(len!=sizeof(FWsamPacket)) /* invalid decryption */ + { strcpy(station->stationkey,station->initialkey); /* try the intial key */ + TwoFishDestroy(station->stationfish); + station->stationfish=TwoFishInit(station->stationkey); /* re-initialize the TwoFish with the intial key */ + len=TwoFishDecrypt(encbuf,&decbuf,sizeof(FWsamPacket)+TwoFish_BLOCK_SIZE,FALSE,station->stationfish); /* try again to decrypt */ + LogMessage("INFO => [Alert_FWsam] Had to use initial key!\n"); + } + if(len==sizeof(FWsamPacket)) /* valid decryption */ + { if(sampacket.version==FWSAM_PACKETVERSION)/* master speaks my language */ + { if(sampacket.status==FWSAM_STATUS_OK || sampacket.status==FWSAM_STATUS_NEWKEY + || sampacket.status==FWSAM_STATUS_RESYNC || sampacket.status==FWSAM_STATUS_HOLD) + { station->stationseqno=sampacket.fwseqno[0] | (sampacket.fwseqno[1]<<8); /* get stations seqno */ + station->lastcontact=(unsigned long)time(NULL); /* set the last contact time (not used yet) */ +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam] Received %s\n",sampacket.status==FWSAM_STATUS_OK?"OK": + sampacket.status==FWSAM_STATUS_NEWKEY?"NEWKEY": + sampacket.status==FWSAM_STATUS_RESYNC?"RESYNC": + sampacket.status==FWSAM_STATUS_HOLD?"HOLD":"ERROR"); + LogMessage("DEBUG => [Alert_FWsam] Snort SeqNo: %x\n",sampacket.snortseqno[0]|(sampacket.snortseqno[1]<<8)); + LogMessage("DEBUG => [Alert_FWsam] Mgmt SeqNo : %x\n",station->stationseqno); + LogMessage("DEBUG => [Alert_FWsam] Status : %i\n",sampacket.status); + LogMessage("DEBUG => [Alert_FWsam] Version : %i\n",sampacket.version); +#endif + if(sampacket.status==FWSAM_STATUS_HOLD) + { i=FWSAM_NETHOLD; /* Stay on hold for a maximum of 60 secs (default) */ + while(i-- >1) /* the response packet */ + { waitms(10); /* wait for response */ + if(recv(stationsocket,encbuf,sizeof(FWsamPacket)+TwoFish_BLOCK_SIZE,0)==sizeof(FWsamPacket)+TwoFish_BLOCK_SIZE) + i=0; /* if we received packet we set the counter to 0. */ + } + if(!i) /* id we timed out (i was one, then dec'ed)... */ + { LogMessage("WARNING => [Alert_FWsam] Did not receive response from host %s. Will try again later.\n",sfip_ntoa(&station->stationip)); + stationtry=0; + sampacket.status=FWSAM_STATUS_ERROR; + } + else /* got a packet */ + { decbuf=(char *)&sampacket; /* get the pointer to the packet struct */ + len=TwoFishDecrypt(encbuf,&decbuf,sizeof(FWsamPacket)+TwoFish_BLOCK_SIZE,FALSE,station->stationfish); /* try to decrypt the packet with current key */ + + if(len!=sizeof(FWsamPacket)) /* invalid decryption */ + { strcpy(station->stationkey,station->initialkey); /* try the intial key */ + TwoFishDestroy(station->stationfish); + station->stationfish=TwoFishInit(station->stationkey); /* re-initialize the TwoFish with the intial key */ + len=TwoFishDecrypt(encbuf,&decbuf,sizeof(FWsamPacket)+TwoFish_BLOCK_SIZE,FALSE,station->stationfish); /* try again to decrypt */ + LogMessage("INFO => [Alert_FWsam] Had to use initial key again!\n"); + } +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam] Received %s\n",sampacket.status==FWSAM_STATUS_OK?"OK": + sampacket.status==FWSAM_STATUS_NEWKEY?"NEWKEY": + sampacket.status==FWSAM_STATUS_RESYNC?"RESYNC": + sampacket.status==FWSAM_STATUS_HOLD?"HOLD":"ERROR"); + LogMessage("DEBUG => [Alert_FWsam] Snort SeqNo: %x\n",sampacket.snortseqno[0]|(sampacket.snortseqno[1]<<8)); + LogMessage("DEBUG => [Alert_FWsam] Mgmt SeqNo : %x\n",station->stationseqno); + LogMessage("DEBUG => [Alert_FWsam] Status : %i\n",sampacket.status); + LogMessage("DEBUG => [Alert_FWsam] Version : %i\n",sampacket.version); +#endif + if(len!=sizeof(FWsamPacket)) /* invalid decryption */ + { ErrorMessage("ERROR => [Alert_FWsam] Password mismatch! Ignoring host %s.\n",sfip_ntoa(&station->stationip)); + deletestation=TRUE; + sampacket.status=FWSAM_STATUS_ERROR; + } + else if(sampacket.version!=FWSAM_PACKETVERSION) /* invalid protocol version */ + { ErrorMessage("ERROR => [Alert_FWsam] Protocol version error! Ignoring host %s.\n",sfip_ntoa(&station->stationip)); + deletestation=TRUE; + sampacket.status=FWSAM_STATUS_ERROR; + } + else if(sampacket.status!=FWSAM_STATUS_OK && sampacket.status!=FWSAM_STATUS_NEWKEY && sampacket.status!=FWSAM_STATUS_RESYNC) + { ErrorMessage("ERROR => [Alert_FWsam] Funky handshake error! Ignoring host %s.\n",sfip_ntoa(&station->stationip)); + deletestation=TRUE; + sampacket.status=FWSAM_STATUS_ERROR; + } + } + } + if(sampacket.status==FWSAM_STATUS_RESYNC) /* if station want's to resync... */ + { strcpy(station->stationkey,station->initialkey); /* ...we use the intial key... */ + memcpy(station->fwkeymod,sampacket.duration,4); /* and note the random key modifier */ + } + if(sampacket.status==FWSAM_STATUS_NEWKEY || sampacket.status==FWSAM_STATUS_RESYNC) + { + FWsamNewStationKey(station,&sampacket); /* generate new TwoFish keys */ +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam] Generated new encryption key...\n"); +#endif + } +#ifdef WIN32 + closesocket(stationsocket); +#else + close(stationsocket); +#endif + stationtry=0; + } + else if(sampacket.status==FWSAM_STATUS_ERROR) /* if SnortSam reports an error on second try, */ + { +#ifdef WIN32 + closesocket(stationsocket); /* something is messed up and ... */ +#else + close(stationsocket); +#endif + if(stationtry>1) /* we ignore that station. */ + { deletestation=TRUE; /* flag for deletion */ + ErrorMessage("ERROR => [Alert_FWsam] Could not renegotiate key! Ignoring host %s.\n",sfip_ntoa(&station->stationip)); + } + else /* if we get an error on the first try, */ + { if(!FWsamCheckIn(station)) /* we first try to check in again. */ + { deletestation=TRUE; + ErrorMessage("ERROR => [Alert_FWsam] Password mismatch! Ignoring host %s.\n",sfip_ntoa(&station->stationip)); + } + } + } + else /* an unknown status means trouble... */ + { ErrorMessage("ERROR => [Alert_FWsam] Funky handshake error! Ignoring host %s.\n",sfip_ntoa(&station->stationip)); +#ifdef WIN32 + closesocket(stationsocket); +#else + close(stationsocket); +#endif + deletestation=TRUE; + } + } + else /* if the SnortSam agent uses a different packet version, we have no choice but to ignore it. */ + { ErrorMessage("ERROR => [Alert_FWsam] Protocol version error! Ignoring host %s.\n",sfip_ntoa(&station->stationip)); +#ifdef WIN32 + closesocket(stationsocket); +#else + close(stationsocket); +#endif + deletestation=TRUE; + } + } + else /* if the intial key failed to decrypt as well, the keys are not configured the same, and we ignore that SnortSam station. */ + { ErrorMessage("ERROR => [Alert_FWsam] Password mismatch! Ignoring host %s.\n",sfip_ntoa(&station->stationip)); +#ifdef WIN32 + closesocket(stationsocket); +#else + close(stationsocket); +#endif + deletestation=TRUE; + } + } + } + free(encbuf); /* release of the TwoFishAlloc'ed encryption buffer */ + } + if(stationtry==0 || deletestation) /* if everything went real well, or real bad... */ + { if(deletestation){ /* If it went bad, we remove the station from the list by marking the IP */ +// station->stationip.s_addr=0; + station->stationip.ip32[0]=0; + } + fwsamlist=fwsamlist->next; + } + } + else + fwsamlist=fwsamlist->next; + } + } + else + { +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam] Skipping repetitive block.\n"); +#endif + } + } +} + +/* FWsamCheckOut will be called when Snort exists. It de-registeres this snort sensor + * from the list of sensor that the SnortSam agent keeps. + */ +void FWsamCheckOut(FWsamStation *station) +{ FWsamPacket sampacket; + SOCKET stationsocket; + int i,len; + char *encbuf,*decbuf; + //unsigned char *encbuf,*decbuf; + + + stationsocket=socket(PF_INET,SOCK_STREAM,IPPROTO_TCP); + if(stationsocket==INVALID_SOCKET) + FatalError("ERROR => [Alert_FWsam](FWsamCheckOut) Funky socket error (socket)!\n"); + if(bind(stationsocket,(struct sockaddr *)&(station->localsocketaddr),sizeof(struct sockaddr))) + FatalError("ERROR => [Alert_FWsam](FWsamCheckOut) Could not bind socket!\n"); + + /* let's connect to the agent */ + if(!connect(stationsocket,(struct sockaddr *)&station->stationsocketaddr,sizeof(struct sockaddr))) + { LogMessage("INFO => [Alert_FWsam](FWsamCheckOut) Disconnecting from host %s.\n",sfip_ntoa(&station->stationip)); + /* now build the packet */ + station->myseqno+=station->stationseqno; /* increase my seqno */ + sampacket.endiancheck=1; + sampacket.snortseqno[0]=(char)station->myseqno; + sampacket.snortseqno[1]=(char)(station->myseqno>>8); + sampacket.fwseqno[0]=(char)station->stationseqno; /* fill station seqno */ + sampacket.fwseqno[1]=(char)(station->stationseqno>>8); + sampacket.status=FWSAM_STATUS_CHECKOUT; /* checking out... */ + sampacket.version=FWSAM_PACKETVERSION; + +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckOut) Sending CHECKOUT\n"); + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckOut) Snort SeqNo: %x\n",station->myseqno); + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckOut) Mgmt SeqNo : %x\n",station->stationseqno); + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckOut) Status : %i\n",sampacket.status); + +#endif + + encbuf=TwoFishAlloc(sizeof(FWsamPacket),FALSE,FALSE,station->stationfish); /* get encryption buffer */ + len=TwoFishEncrypt((char *)&sampacket,&encbuf,sizeof(FWsamPacket),FALSE,station->stationfish); /* encrypt packet with current key */ + + if(send(stationsocket,encbuf,len,0)==len) + { i=FWSAM_NETWAIT; +#ifdef WIN32 + ioctlsocket(stationsocket,FIONBIO,&i); /* set non blocking and wait for */ +#else + ioctl(stationsocket,FIONBIO,&i); /* set non blocking and wait for */ +#endif + while(i-- >1) + { waitms(10); /* ...wait a maximum of 3 secs for response... */ + if(recv(stationsocket,encbuf,len,0)==len) /* ... for the status packet */ + i=0; + } + if(i) /* if we got the packet */ + { decbuf=(char *)&sampacket; + len=TwoFishDecrypt(encbuf,&decbuf,sizeof(FWsamPacket)+TwoFish_BLOCK_SIZE,FALSE,station->stationfish); + + if(len!=sizeof(FWsamPacket)) /* invalid decryption */ + { strcpy(station->stationkey,station->initialkey); /* try initial key */ + TwoFishDestroy(station->stationfish); /* toss this fish */ + station->stationfish=TwoFishInit(station->stationkey); /* re-initialze TwoFish with initial key */ + len=TwoFishDecrypt(encbuf,&decbuf,sizeof(FWsamPacket)+TwoFish_BLOCK_SIZE,FALSE,station->stationfish); /* and try to decrypt again */ + LogMessage("INFO => [Alert_FWsam](FWsamCheckOut) Had to use initial key!\n"); + } + if(len==sizeof(FWsamPacket)) /* valid decryption */ + { if(sampacket.version!=FWSAM_PACKETVERSION) /* but don't really care since we are on the way out */ + ErrorMessage("WARNING => [Alert_FWsam](FWsamCheckOut) Protocol version error! What the hell, we're quitting anyway! :)\n"); + } + else + ErrorMessage("WARNING => [Alert_FWsam](FWsamCheckOut) Password mismatch! What the hell, we're quitting anyway! :)\n"); + } + } + free(encbuf); /* release TwoFishAlloc'ed buffer */ + } + else + LogMessage("WARNING => [Alert_FWsam] Could not connect to host %s for CheckOut. What the hell, we're quitting anyway! :)\n",sfip_ntoa(&station->stationip)); +#ifdef WIN32 + closesocket(stationsocket); +#else + close(stationsocket); +#endif +} + + +/* FWSamFree: Disconnects all FW-1 management stations, + * closes sockets, and frees the structures. + */ +void FWsamFree(FWsamList *list) +{ + FWsamList *next; + + while(list) /* Free pointer list for rule type */ + { + next=list->next; + free(list); + list=next; + } + list=FWsamStationList; + + while(list) /* Free global pointer list and stations */ + { + next=list->next; + if (list->station) + { + if(list->station->stationip.ip32[0]) + //if(list->station->stationip.s_addr) + FWsamCheckOut(list->station); /* Send a Check-Out to SnortSam, */ + + TwoFishDestroy(list->station->stationfish); /* toss the fish, */ + free(list->station); /* free station, */ + } + free(list); /* free pointer, */ + list=next; /* and move to next. */ + } + FWsamStationList=NULL; + if(FWsamOptionField) + free(FWsamOptionField); +} + +void AlertFWsamCleanExitFunc(int signal, void *arg) +{ FWsamList *fwsamlist; + +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam](AlertFWsamCleanExitFunc) Exiting...\n"); +#endif + + fwsamlist=(FWsamList *)arg; + FWsamFree(fwsamlist); /* Free all elements */ +} + +void AlertFWsamRestartFunc(int signal, void *arg) +{ FWsamList *fwsamlist; + +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam](AlertFWsamRestartFunc) Restarting...\n"); +#endif + + fwsamlist=(FWsamList *)arg; + FWsamFree(fwsamlist); /* Free all elements */ +} + +/* This routine registers this Snort sensor with SnortSam. + * It will also change the encryption key based on some variables. + */ +int FWsamCheckIn(FWsamStation *station) +{ int i,len,stationok=TRUE; + FWsamPacket sampacket; + char *encbuf,*decbuf; + //unsigned char *encbuf,*decbuf; + SOCKET stationsocket; + + + /* create a socket for the station */ + stationsocket=socket(PF_INET,SOCK_STREAM,IPPROTO_TCP); + if(stationsocket==INVALID_SOCKET) + FatalError("ERROR => [Alert_FWsam](FWsamCheckIn) Funky socket error (socket)!\n"); + if(bind(stationsocket,(struct sockaddr *)&(station->localsocketaddr),sizeof(struct sockaddr))) + FatalError("ERROR => [Alert_FWsam](FWsamCheckIn) Could not bind socket!\n"); + + i=TRUE; + /* let's connect to the agent */ + if(connect(stationsocket,(struct sockaddr *)&station->stationsocketaddr,sizeof(struct sockaddr))) + LogMessage("WARNING => [Alert_FWsam](FWsamCheckIn) Could not connect to host %s. Will try later.\n",sfip_ntoa(&station->stationip)); + else + { LogMessage("INFO => [Alert_FWsam](FWsamCheckIn) Connected to host %s.\n",sfip_ntoa(&station->stationip)); + /* now build the packet */ + sampacket.endiancheck=1; + sampacket.snortseqno[0]=(char)station->myseqno; /* fill my sequence number number */ + sampacket.snortseqno[1]=(char)(station->myseqno>>8); /* fill my sequence number number */ + sampacket.status=FWSAM_STATUS_CHECKIN; /* let's check in */ + sampacket.version=FWSAM_PACKETVERSION; /* set the packet version */ + memcpy(sampacket.duration,station->mykeymod,4); /* we'll send SnortSam our key modifier in the duration slot */ + /* (the checkin packet is just the plain initial key) */ +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckIn) Sending CheckIn\n"); + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckIn) Snort SeqNo: %x\n",station->myseqno); + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckIn) Mode : %i\n",sampacket.status); + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckIn) Version : %i\n",sampacket.version); +#endif + encbuf=TwoFishAlloc(sizeof(FWsamPacket),FALSE,FALSE,station->stationfish); /* get buffer for encryption */ + len=TwoFishEncrypt((char *)&sampacket,&encbuf,sizeof(FWsamPacket),FALSE,station->stationfish); /* encrypt with initial key */ + if(send(stationsocket,encbuf,len,0)!=len) /* weird...could not send */ + LogMessage("WARNING => [Alert_FWsam](FWsamCheckIn) Could not send to host %s. Will try again later.\n",sfip_ntoa(&station->stationip)); + else + { i=FWSAM_NETWAIT; +#ifdef WIN32 + ioctlsocket(stationsocket,FIONBIO,&i); /* set non blocking and wait for */ +#else + ioctl(stationsocket,FIONBIO,&i); /* set non blocking and wait for */ +#endif + while(i-- >1) + { waitms(10); /* wait a maximum of 3 secs for response */ + if(recv(stationsocket,encbuf,len,0)==len) + i=0; + } + if(!i) /* time up? */ + LogMessage("WARNING => [Alert_FWsam](FWsamCheckIn) Did not receive response from host %s. Will try again later.\n",sfip_ntoa(&station->stationip)); + else + { decbuf=(char *)&sampacket; /* got status packet */ + len=TwoFishDecrypt(encbuf,&decbuf,sizeof(FWsamPacket)+TwoFish_BLOCK_SIZE,FALSE,station->stationfish); /* try to decrypt with initial key */ + if(len==sizeof(FWsamPacket)) /* valid decryption */ + { +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckIn) Received %s\n",sampacket.status==FWSAM_STATUS_OK?"OK": + sampacket.status==FWSAM_STATUS_NEWKEY?"NEWKEY": + sampacket.status==FWSAM_STATUS_RESYNC?"RESYNC": + sampacket.status==FWSAM_STATUS_HOLD?"HOLD":"ERROR"); + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckIn) Snort SeqNo: %x\n",sampacket.snortseqno[0]|(sampacket.snortseqno[1]<<8)); + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckIn) Mgmt SeqNo : %x\n",sampacket.fwseqno[0]|(sampacket.fwseqno[1]<<8)); + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckIn) Status : %i\n",sampacket.status); + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckIn) Version : %i\n",sampacket.version); +#endif + if(sampacket.version==FWSAM_PACKETVERSION) /* master speaks my language */ + { if(sampacket.status==FWSAM_STATUS_OK || sampacket.status==FWSAM_STATUS_NEWKEY || sampacket.status==FWSAM_STATUS_RESYNC) + { station->stationseqno=sampacket.fwseqno[0]|(sampacket.fwseqno[1]<<8); /* get stations seqno */ + station->lastcontact=(unsigned long)time(NULL); + + if(sampacket.status==FWSAM_STATUS_NEWKEY || sampacket.status==FWSAM_STATUS_RESYNC) /* generate new keys */ + { memcpy(station->fwkeymod,sampacket.duration,4); /* note the key modifier */ + FWsamNewStationKey(station,&sampacket); /* and generate new TwoFish keys (with key modifiers) */ +#ifdef FWSAMDEBUG + LogMessage("DEBUG => [Alert_FWsam](FWsamCheckIn) Generated new encryption key...\n"); +#endif + } + } + else /* weird, got a strange status back */ + { ErrorMessage("ERROR => [Alert_FWsam](FWsamCheckIn) Funky handshake error! Ignoring host %s.\n",sfip_ntoa(&station->stationip)); + stationok=FALSE; + } + } + else /* packet version does not match */ + { ErrorMessage("ERROR =>[Alert_FWsam](FWsamCheckIn) Protocol version error! Ignoring host %s.\n",sfip_ntoa(&station->stationip)); + stationok=FALSE; + } + } + else /* key does not match */ + { ErrorMessage("ERROR => [Alert_FWsam](FWsamCheckIn) Password mismatch! Ignoring host %s.\n",sfip_ntoa(&station->stationip)); + stationok=FALSE; + } + } + } + free(encbuf); /* release TwoFishAlloc'ed buffer */ + } +#ifdef WIN32 + closesocket(stationsocket); +#else + close(stationsocket); +#endif + return stationok; +} +#undef FWSAMDEBUG + --- snort-2.9.0/src/output-plugins/spo_alert_fwsam.h 1970-01-01 01:00:00.000000000 +0100 +++ snort-2.9.0.dlucio/src/output-plugins/spo_alert_fwsam.h 2010-10-08 18:05:37.000000000 +0200 @@ -0,0 +1,216 @@ +/* $Id: snortpatchb,v 1.5 2005/10/06 08:50:39 fknobbe Exp $ +** +** spo_alert_fwsam.h +** +** Copyright (c) 2001-2004 Frank Knobbe +** +** 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. +*/ + +/* This file gets included in plugbase.c when it is integrated into the rest + * of the program. + * + * For more info, see the beginning of spo_alert_fwsam.c + * + */ + +#ifndef __SPO_FWSAM_H__ +#define __SPO_FWSAM_H__ + +#include "snort.h" +#include "rules.h" +#include "plugbase.h" +#include "plugin_enum.h" +#include "fatal.h" +#include "util.h" +#include "twofish.h" + +#include +#include +#include +#include +#include +#include + + +/* just some compatibility stuff */ +#ifdef WIN32 +#if !defined(_WINSOCKAPI_) && !defined(_WINSOCK2API_) +#include +#endif +#define waitms(x) Sleep(x) + +#else + +#include +#include +#include +#include +#include + +#ifdef SOLARIS +#include +#endif + +typedef int SOCKET; + +#ifndef INVALID_SOCKET +#define INVALID_SOCKET -1 +#endif + +#define waitms(x) usleep((x)*1000) + +#endif + +#ifndef FALSE +#define FALSE 0 +#endif +#ifndef TRUE +#define TRUE !FALSE +#endif +#ifndef bool +#define bool int +#endif + + +#if defined(_DEBUG) || defined(DEBUG) +#ifndef FWSAMDEBUG +#define FWSAMDEBUG +#endif +#else +#endif + + +/* Official Snort PlugIn Number has been moved into plugin_enum.h */ + + +/* fixed defines */ + +#define FWSAM_DEFAULTPORT 898 /* Default port if user does not specify one in snort.conf */ + /* (Was unused last time I checked...) */ +#define FWSAM_PACKETVERSION 14 /* version of the packet. Will increase with enhancements. */ + +#define FWSAM_STATUS_CHECKIN 1 /* snort to fw */ +#define FWSAM_STATUS_CHECKOUT 2 +#define FWSAM_STATUS_BLOCK 3 +#define FWSAM_STATUS_UNBLOCK 9 + +#define FWSAM_STATUS_OK 4 /* fw to snort */ +#define FWSAM_STATUS_ERROR 5 +#define FWSAM_STATUS_NEWKEY 6 +#define FWSAM_STATUS_RESYNC 7 +#define FWSAM_STATUS_HOLD 8 + +#define FWSAM_LOG_NONE 0 +#define FWSAM_LOG_SHORTLOG 1 +#define FWSAM_LOG_SHORTALERT 2 +#define FWSAM_LOG_LONGLOG 3 +#define FWSAM_LOG_LONGALERT 4 +#define FWSAM_LOG (FWSAM_LOG_SHORTLOG|FWSAM_LOG_SHORTALERT|FWSAM_LOG_LONGLOG|FWSAM_LOG_LONGALERT) +#define FWSAM_WHO_DST 8 +#define FWSAM_WHO_SRC 16 +#define FWSAM_WHO (FWSAM_WHO_DST|FWSAM_WHO_SRC) +#define FWSAM_HOW_IN 32 +#define FWSAM_HOW_OUT 64 +#define FWSAM_HOW_INOUT (FWSAM_HOW_IN|FWSAM_HOW_OUT) +#define FWSAM_HOW_THIS 128 +#define FWSAM_HOW (FWSAM_HOW_IN|FWSAM_HOW_OUT|FWSAM_HOW_THIS) + + +/* user adjustable defines */ + +#define FWSAM_REPET_BLOCKS 10 /* Snort remembers this amount of last blocks and... */ +#define FWSAM_REPET_TIME 20 /* ...checks if they fall within this time. If so,... */ + /* ...the blocking request is not send. */ + +#define FWSAM_NETWAIT 300 /* 100th of a second. 3 sec timeout for network connections */ +#define FWSAM_NETHOLD 6000 /* 100th of a second. 60 sec timeout for holding */ + +#define SID_MAPFILE "sid-block.map" +#define SID_ALT_MAPFILE "sid-fwsam.map" + +#define FWSAM_FANCYFETCH /* This will invoke a fast sid lookup routine */ + + +/* vars */ + +typedef struct _FWsamstation /* structure of a mgmt station */ +{ unsigned short myseqno; + unsigned short stationseqno; + unsigned char mykeymod[4]; + unsigned char fwkeymod[4]; + unsigned short stationport; + //struct in_addr stationip; + sfip_t stationip; + struct sockaddr_in localsocketaddr; + struct sockaddr_in stationsocketaddr; + TWOFISH *stationfish; + char initialkey[TwoFish_KEY_LENGTH+2]; + char stationkey[TwoFish_KEY_LENGTH+2]; + time_t lastcontact; +/* time_t sleepstart; */ +} FWsamStation; + +typedef struct _FWsampacket /* 2 blocks (3rd block is header from TwoFish) */ +{ unsigned short endiancheck; /* 0 */ + unsigned char srcip[4]; /* 2 */ + unsigned char dstip[4]; /* 6 */ + unsigned char duration[4]; /* 10 */ + unsigned char snortseqno[2]; /* 14 */ + unsigned char fwseqno[2]; /* 16 */ + unsigned char srcport[2]; /* 18 */ + unsigned char dstport[2]; /* 20 */ + unsigned char protocol[2]; /* 22 */ + unsigned char fwmode; /* 24 */ + unsigned char version; /* 25 */ + unsigned char status; /* 26 */ + unsigned char sig_id[4]; /* 27 */ + unsigned char fluff; /* 31 */ +} FWsamPacket; /* 32 bytes in size */ + +typedef struct _FWsamoptions /* snort rule options */ +{ unsigned long sid; + unsigned long duration; + unsigned char who; + unsigned char how; + unsigned char loglevel; +} FWsamOptions; + +typedef struct _FWsamlistpointer +{ FWsamStation *station; + struct _FWsamlistpointer *next; +} FWsamList; + + +/* functions */ +void AlertFWsamSetup(void); +void AlertFWsamInit(char *args); +void AlertFWsamOptionInit(char *args,OptTreeNode *otn,int protocol); +void AlertFWsamCleanExitFunc(int signal, void *arg); +void AlertFWsamRestartFunc(int signal, void *arg); +void AlertFWsam(Packet *p, char *msg, void *arg, Event *event); +int FWsamCheckIn(FWsamStation *station); +void FWsamCheckOut(FWsamStation *station); +void FWsamNewStationKey(FWsamStation *station,FWsamPacket *packet); +void FWsamFixPacketEndian(FWsamPacket *p); +unsigned long FWsamParseDuration(char *p); +void FWsamFree(FWsamList *fwsamlist); +int FWsamStationExists(FWsamStation *who,FWsamList *list); +int FWsamReadLine(char *,unsigned long,FILE *); +void FWsamParseLine(FWsamOptions *,char *); +FWsamOptions *FWsamGetOption(unsigned long); +int FWsamParseOption(FWsamOptions *,char *); + +#endif /* __SPO_FWSAM_H__ */ --- snort-2.9.0/src/output-plugins/Makefile.am 2010-06-10 00:05:17.000000000 +0200 +++ snort-2.9.0.dlucio/src/output-plugins/Makefile.am 2010-10-08 18:07:33.000000000 +0200 @@ -15,6 +15,7 @@ spo_log_tcpdump.h spo_unified.c spo_unified2.c spo_unified.h spo_unified2.h \ spo_log_ascii.c spo_log_ascii.h spo_alert_sf_socket.h spo_alert_sf_socket.c \ $(PRELUDE_CODE) spo_alert_arubaaction.c spo_alert_arubaaction.h \ +spo_alert_fwsam.c spo_alert_fwsam.h \ spo_alert_test.c spo_alert_test.h INCLUDES = @INCLUDES@ --- snort-2.9.0/src/plugbase.c 2010-08-25 22:22:38.000000000 +0200 +++ snort-2.9.0.dlucio/src/plugbase.c 2010-10-08 18:05:37.000000000 +0200 @@ -129,6 +129,7 @@ #endif #include "output-plugins/spo_alert_test.h" +#include "output-plugins/spo_alert_fwsam.h" extern ListHead *head_tmp; extern PreprocConfigFuncNode *preproc_config_funcs; @@ -1400,6 +1401,7 @@ #endif AlertTestSetup(); + AlertFWsamSetup(); } /**************************************************************************** --- snort-2.9.0/src/Makefile.am 2010-06-10 00:04:50.000000000 +0200 +++ snort-2.9.0.dlucio/src/Makefile.am 2010-10-08 18:09:34.000000000 +0200 @@ -60,6 +60,7 @@ rate_filter.c rate_filter.h \ obfuscation.c obfuscation.h \ rule_option_types.h \ +twofish.c twofish.h \ sfdaq.c sfdaq.h snort_LDADD = output-plugins/libspo.a \ --- snort-2.9.0/autojunk.sh 1970-01-01 01:00:00.000000000 +0100 +++ snort-2.9.0.dlucio/autojunk.sh 2010-10-08 18:05:37.000000000 +0200 @@ -0,0 +1,7 @@ +#!/bin/sh +# the list of commands that need to run before we do a compile +libtoolize --automake --copy +aclocal -I m4 +autoheader +automake --add-missing --copy +autoconf --- snort-2.9.0/etc/snort.conf 2010-09-27 18:16:37.000000000 +0200 +++ snort-2.9.0.dlucio/etc/snort.conf 2010-10-08 18:05:37.000000000 +0200 @@ -354,6 +354,32 @@ # prelude # output alert_prelude +# snortsam +# In order to cause Snort to send a blocking request to the SnortSam agent, +# that agent has to be listed, including the port it listens on, +# and the encryption key it is using. The statement for that is: +# +# output alert_fwsam: {SnortSam Station}:{port}/{password} +# +# {SnortSam Station}: IP address or host name of the host where SnortSam is running. +# {port}: The port the remote SnortSam agent listens on. +# {password}: The password, or key, used for encryption of the +# communication to the remote agent. +# +# At the very least, the IP address or host name of the host running SnortSam +# needs to be specified. If the port is omitted, it defaults to TCP port 898. +# If the password is omitted, it defaults to a preset password. +# (In which case it needs to be omitted on the SnortSam agent as well) +# +# More than one host can be specified, but has to be done on the same line. +# Just separate them with one or more spaces. +# +# Examples: +# +# output alert_fwsam: firewall/idspassword +# output alert_fwsam: fw1.domain.tld:898/mykey +# output alert_fwsam: 192.168.0.1/borderfw 192.168.1.254/wanfw + # metadata reference data. do not modify these lines include classification.config include reference.config