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clamav-devel/libclamav/yc.c

822930fc	/* * Copyright (C) 2005 Ivan Zlatev <pumqara@gmail.com> * * 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
48b7b4a7	* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, * MA 02110-1301, USA.
822930fc	/ / Decrypts files, protected by Y0da Cryptor 1.3 / / aCaB: * 13/01/2006 - merged standalone unpacker into libclamav * 14/01/2006 - major rewrite and bugfix */ #include <string.h> #if HAVE_CONFIG_H #include "clamav-config.h" #endif #include "cltypes.h" #include "pe.h" #include "others.h"
75282b5c	#define EC32(x) le32_to_host(x) /* Convert little endian to host / #define EC16(x) le16_to_host(x) / Convert little endian to host */
822930fc
e0264472	/* ========================================================================== / / "Emulates" the poly decryptors */
822930fc	static int yc_poly_emulator(char* decryptor_offset, char* code, unsigned int ecx) { /* This is the instruction set of the poly code. Numbers stand for example only. 2C 05 SUB AL,5 2AC1 SUB AL,CL 34 10 XOR AL,10 32C1 XOR AL,CL FEC8 DEC AL 04 10 ADD AL,10 02C1 ADD AL,CL C0C0 06 ROL AL,6 C0C8 05 ROR AL,5 D2C8 ROR AL,CL D2C0 ROL AL,CL */ unsigned char al; unsigned char cl = ecx & 0xff;
abee2cb8	unsigned int j,i;
822930fc
abee2cb8	for(i=0;i<ecx;i++) /* Byte looper - Decrypts every byte and write it back */
822930fc	{ al = code[i];
e0264472	for(j=0;j<0x30;j++) /* Poly Decryptor "Emulator" */
822930fc	{ switch(decryptor_offset[j]) {
e0264472	case '\xEB': /* JMP short */
822930fc	j++; j = j + decryptor_offset[j]; break;
e0264472	case '\xFE': /* DEC AL */
822930fc	al--; j++; break;
e0264472	case '\x2A': /* SUB AL,CL */
822930fc	al = al - cl; j++; break;
e0264472	case '\x02': /* ADD AL,CL */
822930fc	al = al + cl; j++; break ;
e0264472	case '\x32': /* XOR AL,CL */
822930fc	al = al ^ cl; j++; break; ;
e0264472	case '\x04': /* ADD AL,num */
822930fc	j++; al = al + decryptor_offset[j]; break; ;
e0264472	case '\x34': /* XOR AL,num */
822930fc	j++; al = al ^ decryptor_offset[j]; break;
e0264472	case '\x2C': /* SUB AL,num */
822930fc	j++; al = al - decryptor_offset[j]; break; case '\xC0': j++;
e0264472	if(decryptor_offset[j]=='\xC0') /* ROL AL,num */
822930fc	{ j++;
5150394a	ROL(al,decryptor_offset[j]);
822930fc	}
e0264472	else /* ROR AL,num */
822930fc	{ j++; ROR(al,decryptor_offset[j]); } break; case '\xD2': j++;
e0264472	if(decryptor_offset[j]=='\xC8') /* ROR AL,CL */
822930fc	{ j++; ROR(al,cl); }
e0264472	else /* ROL AL,CL */
822930fc	{ j++; ROL(al,cl); } break; case '\x90': case '\xf8': case '\xf9': break; default: cli_dbgmsg("yC: Unhandled opcode %x\n", (unsigned char)decryptor_offset[j]);
5150394a	return 1;
822930fc	} } cl--; code[i] = al; } return 0; }
e0264472	/* ========================================================================== / / Main routine which calls all others */
822930fc	int yc_decrypt(char fbuf, unsigned int filesize, struct pe_image_section_hdr sections, unsigned int sectcount, uint32_t peoffset, int desc) { uint32_t ycsect = EC32(sections[sectcount].PointerToRawData);
5150394a	unsigned int i;
822930fc	struct pe_image_file_hdr pe = (struct pe_image_file_hdr) (fbuf + peoffset); /* First layer (decryptor of the section decryptor) in last section Start offset for analyze: Start of yC Section + 0x93 End offset for analyze: Start of yC Section + 0xC3 Lenght to decrypt - ECX = 0xB97 / cli_dbgmsg("yC: decrypting decryptor on sect %d\n", sectcount); if (yc_poly_emulator(fbuf + ycsect + 0x93, fbuf + ycsect + 0xc6 ,0xB97)) return 1; filesize-=EC32(sections[sectcount].SizeOfRawData); / Second layer (decryptor of the sections) in last section Start offset for analyze: Start of yC Section + 0x457 End offset for analyze: Start of yC Section + 0x487 Lenght to decrypt - ECX = Raw Size of Section */
e0264472	/* Loop through all sections and decrypt them... */
abee2cb8	for(i=0;i<sectcount;i++)
822930fc	{ uint32_t name = (uint32_t) cli_readint32((char *)sections[i].Name);
e0264472	if ( name == 0x63727372 \|\| /* rsrc / name == 0x7273722E \|\| / .rsr / name == 0x6F6C6572 \|\| / relo / name == 0x6C65722E \|\| / .rel / name == 0x6164652E \|\| / .eda / name == 0x6164722E \|\| / .rda / name == 0x6164692E \|\| / .ida / name == 0x736C742E \|\| / .tls / name&0xffff == 0x4379 \|\| / yC */
822930fc	EC32(sections[i].PointerToRawData) == 0 \|\| EC32(sections[i].SizeOfRawData) == 0 ) continue; cli_dbgmsg("yC: decrypting sect%d\n",i); if (yc_poly_emulator(fbuf + ycsect + 0x457, fbuf + EC32(sections[i].PointerToRawData), EC32(sections[i].SizeOfRawData))) return 1; }
e0264472	/* Remove yC section */ pe->NumberOfSections=EC16(pe->NumberOfSections)-1;
822930fc
e0264472	/* Remove IMPORT_DIRECTORY information */
822930fc	memset((char *)pe + sizeof(struct pe_image_file_hdr) + 0x68, 0, 8);
e0264472	/* OEP resolving / / OEP = DWORD PTR [ Start of yC section+ A0F] */
822930fc	cli_writeint32((char *)pe + sizeof(struct pe_image_file_hdr) + 16, cli_readint32(fbuf + ycsect + 0xa0f));
e0264472	/* Fix SizeOfImage */
822930fc	cli_writeint32((char )pe + sizeof(struct pe_image_file_hdr) + 0x38, cli_readint32((char )pe + sizeof(struct pe_image_file_hdr) + 0x38) - EC32(sections[sectcount].VirtualSize)); if (cli_writen(desc, fbuf, filesize)==-1) {
e0264472	cli_dbgmsg("yC: Cannot write unpacked file\n");
822930fc	return 1; } return 0; }