/* Obfuscated Tiny C Compiler Copyright (C) 2001-2003 Fabrice Bellard This software is provided 'as-is', without any express or implied warranty. In no event will the authors be held liable for any damages arising from the use of this software. Permission is granted to anyone to use this software for any purpose, including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions: 1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product and its documentation *is* required. 2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software. 3. This notice may not be removed or altered from any source distribution. */ #ifndef TINY #include #endif #include /* vars: value of variables loc : local variable index glo : global variable index ind : output code ptr rsym: return symbol prog: output code dstk: define stack dptr, dch: macro state */ int tok, tokc, tokl, ch, vars, rsym, prog, ind, loc, glo, file, sym_stk, dstk, dptr, dch, last_id; #define ALLOC_SIZE 99999 /* depends on the init string */ #define TOK_STR_SIZE 48 #define TOK_IDENT 0x100 #define TOK_INT 0x100 #define TOK_IF 0x120 #define TOK_ELSE 0x138 #define TOK_WHILE 0x160 #define TOK_BREAK 0x190 #define TOK_RETURN 0x1c0 #define TOK_FOR 0x1f8 #define TOK_DEFINE 0x218 #define TOK_MAIN 0x250 #define TOK_DUMMY 1 #define TOK_NUM 2 #define LOCAL 0x200 #define SYM_FORWARD 0 #define SYM_DEFINE 1 /* tokens in string heap */ #define TAG_TOK ' ' #define TAG_MACRO 2 pdef(t) { *(char *)dstk++ = t; } inp() { if (dptr) { ch = *(char *)dptr++; if (ch == TAG_MACRO) { dptr = 0; ch = dch; } } else ch = fgetc(file); /* printf("ch=%c 0x%x\n", ch, ch); */ } isid() { return isalnum(ch) | ch == '_'; } /* read a character constant */ getq() { if (ch == '\\') { inp(); if (ch == 'n') ch = '\n'; } } next() { int t, l, a; while (isspace(ch) | ch == '#') { if (ch == '#') { inp(); next(); if (tok == TOK_DEFINE) { next(); pdef(TAG_TOK); /* fill last ident tag */ *(int *)tok = SYM_DEFINE; *(int *)(tok + 4) = dstk; /* define stack */ } /* well we always save the values ! */ while (ch != '\n') { pdef(ch); inp(); } pdef(ch); pdef(TAG_MACRO); } inp(); } tokl = 0; tok = ch; /* encode identifiers & numbers */ if (isid()) { pdef(TAG_TOK); last_id = dstk; while (isid()) { pdef(ch); inp(); } if (isdigit(tok)) { tokc = strtol(last_id, 0, 0); tok = TOK_NUM; } else { *(char *)dstk = TAG_TOK; /* no need to mark end of string (we suppose data is initied to zero */ tok = strstr(sym_stk, last_id - 1) - sym_stk; *(char *)dstk = 0; /* mark real end of ident for dlsym() */ tok = tok * 8 + TOK_IDENT; if (tok > TOK_DEFINE) { tok = vars + tok; /* printf("tok=%s %x\n", last_id, tok); */ /* define handling */ if (*(int *)tok == SYM_DEFINE) { dptr = *(int *)(tok + 4); dch = ch; inp(); next(); } } } } else { inp(); if (tok == '\'') { tok = TOK_NUM; getq(); tokc = ch; inp(); inp(); } else if (tok == '/' & ch == '*') { inp(); while (ch) { while (ch != '*') inp(); inp(); if (ch == '/') ch = 0; } inp(); next(); } else { t = "++#m--%am*@R<^1c/@%[_[H3c%@%[_[H3c+@.B#d-@%:_^BKd<>`/03e<=0f>=/f<@.f>@1f==&g!=\'g&&k||#l&@.BCh^@.BSi|@.B+j~@/%Yd!@&d*@b"; while (l = *(char *)t++) { a = *(char *)t++; tokc = 0; while ((tokl = *(char *)t++ - 'b') < 0) tokc = tokc * 64 + tokl + 64; if (l == tok & (a == ch | a == '@')) { #if 0 printf("%c%c -> tokl=%d tokc=0x%x\n", l, a, tokl, tokc); #endif if (a == ch) { inp(); tok = TOK_DUMMY; /* dummy token for double tokens */ } break; } } } } #if 0 { int p; printf("tok=0x%x ", tok); if (tok >= TOK_IDENT) { printf("'"); if (tok > TOK_DEFINE) p = sym_stk + 1 + (tok - vars - TOK_IDENT) / 8; else p = sym_stk + 1 + (tok - TOK_IDENT) / 8; while (*(char *)p != TAG_TOK && *(char *)p) printf("%c", *(char *)p++); printf("'\n"); } else if (tok == TOK_NUM) { printf("%d\n", tokc); } else { printf("'%c'\n", tok); } } #endif } #ifdef TINY #define skip(c) next() #else void error(char *fmt,...) { va_list ap; va_start(ap, fmt); fprintf(stderr, "%d: ", ftell((FILE *)file)); vfprintf(stderr, fmt, ap); fprintf(stderr, "\n"); exit(1); va_end(ap); } void skip(c) { if (tok != c) { error("'%c' expected", c); } next(); } #endif o(n) { /* cannot use unsigned, so we must do a hack */ while (n && n != -1) { *(char *)ind++ = n; n = n >> 8; } } /* output a symbol and patch all calls to it */ gsym(t) { int n; while (t) { n = *(int *)t; /* next value */ *(int *)t = ind - t - 4; t = n; } } /* psym is used to put an instruction with a data field which is a reference to a symbol. It is in fact the same as oad ! */ #define psym oad /* instruction + address */ oad(n, t) { o(n); *(int *)ind = t; t = ind; ind = ind + 4; return t; } /* load immediate value */ li(t) { oad(0xb8, t); /* mov $xx, %eax */ } gjmp(t) { return psym(0xe9, t); } /* l = 0: je, l == 1: jne */ gtst(l, t) { o(0x0fc085); /* test %eax, %eax, je/jne xxx */ return psym(0x84 + l, t); } gcmp(t) { o(0xc139); /* cmp %eax,%ecx */ li(0); o(0x0f); /* setxx %al */ o(t + 0x90); o(0xc0); } gmov(l, t) { o(l + 0x83); oad((t < LOCAL) << 7 | 5, t); } /* l is one if '=' parsing wanted (quick hack) */ unary(l) { int n, t, a, c; n = 1; /* type of expression 0 = forward, 1 = value, other = lvalue */ if (tok == '\"') { li(glo); while (ch != '\"') { getq(); *(char *)glo++ = ch; inp(); } *(char *)glo = 0; glo = glo + 4 & -4; /* align heap */ inp(); next(); } else { c = tokl; a = tokc; t = tok; next(); if (t == TOK_NUM) { li(a); } else if (c == 2) { /* -, +, !, ~ */ unary(0); oad(0xb9, 0); /* movl $0, %ecx */ if (t == '!') gcmp(a); else o(a); } else if (t == '(') { expr(); skip(')'); } else if (t == '*') { /* parse cast */ skip('('); t = tok; /* get type */ next(); /* skip int/char/void */ next(); /* skip '*' or '(' */ if (tok == '*') { /* function type */ skip('*'); skip(')'); skip('('); skip(')'); t = 0; } skip(')'); unary(0); if (tok == '=') { next(); o(0x50); /* push %eax */ expr(); o(0x59); /* pop %ecx */ o(0x0188 + (t == TOK_INT)); /* movl %eax/%al, (%ecx) */ } else if (t) { if (t == TOK_INT) o(0x8b); /* mov (%eax), %eax */ else o(0xbe0f); /* movsbl (%eax), %eax */ ind++; /* add zero in code */ } } else if (t == '&') { gmov(10, *(int *)tok); /* leal EA, %eax */ next(); } else { n = *(int *)t; /* forward reference: try dlsym */ if (!n) n = dlsym(0, last_id); if (tok == '=' & l) { /* assignment */ next(); expr(); gmov(6, n); /* mov %eax, EA */ } else if (tok != '(') { /* variable */ gmov(8, n); /* mov EA, %eax */ if (tokl == 11) { gmov(0, n); o(tokc); next(); } } } } /* function call */ if (tok == '(') { if (n == 1) o(0x50); /* push %eax */ /* push args and invert order */ a = oad(0xec81, 0); /* sub $xxx, %esp */ next(); l = 0; while(tok != ')') { expr(); oad(0x248489, l); /* movl %eax, xxx(%esp) */ if (tok == ',') next(); l = l + 4; } *(int *)a = l; next(); if (!n) { /* forward reference */ t = t + 4; *(int *)t = psym(0xe8, *(int *)t); } else if (n == 1) { oad(0x2494ff, l); /* call *xxx(%esp) */ l = l + 4; } else { oad(0xe8, n - ind - 5); /* call xxx */ } if (l) oad(0xc481, l); /* add $xxx, %esp */ } } sum(l) { int t, n, a; if (l-- == 1) unary(1); else { sum(l); a = 0; while (l == tokl) { n = tok; t = tokc; next(); if (l > 8) { a = gtst(t, a); /* && and || output code generation */ sum(l); } else { o(0x50); /* push %eax */ sum(l); o(0x59); /* pop %ecx */ if (l == 4 | l == 5) { gcmp(t); } else { o(t); if (n == '%') o(0x92); /* xchg %edx, %eax */ } } } /* && and || output code generation */ if (a && l > 8) { a = gtst(t, a); li(t ^ 1); gjmp(5); /* jmp $ + 5 */ gsym(a); li(t); } } } expr() { sum(11); } test_expr() { expr(); return gtst(0, 0); } block(l) { int a, n, t; if (tok == TOK_IF) { next(); skip('('); a = test_expr(); skip(')'); block(l); if (tok == TOK_ELSE) { next(); n = gjmp(0); /* jmp */ gsym(a); block(l); gsym(n); /* patch else jmp */ } else { gsym(a); /* patch if test */ } } else if (tok == TOK_WHILE | tok == TOK_FOR) { t = tok; next(); skip('('); if (t == TOK_WHILE) { n = ind; a = test_expr(); } else { if (tok != ';') expr(); skip(';'); n = ind; a = 0; if (tok != ';') a = test_expr(); skip(';'); if (tok != ')') { t = gjmp(0); expr(); gjmp(n - ind - 5); gsym(t); n = t + 4; } } skip(')'); block(&a); gjmp(n - ind - 5); /* jmp */ gsym(a); } else if (tok == '{') { next(); /* declarations */ decl(1); while(tok != '}') block(l); next(); } else { if (tok == TOK_RETURN) { next(); if (tok != ';') expr(); rsym = gjmp(rsym); /* jmp */ } else if (tok == TOK_BREAK) { next(); *(int *)l = gjmp(*(int *)l); } else if (tok != ';') expr(); skip(';'); } } /* 'l' is true if local declarations */ decl(l) { int a; while (tok == TOK_INT | tok != -1 & !l) { if (tok == TOK_INT) { next(); while (tok != ';') { if (l) { loc = loc + 4; *(int *)tok = -loc; } else { *(int *)tok = glo; glo = glo + 4; } next(); if (tok == ',') next(); } skip(';'); } else { /* patch forward references (XXX: do not work for function pointers) */ gsym(*(int *)(tok + 4)); /* put function address */ *(int *)tok = ind; next(); skip('('); a = 8; while (tok != ')') { /* read param name and compute offset */ *(int *)tok = a; a = a + 4; next(); if (tok == ',') next(); } next(); /* skip ')' */ rsym = loc = 0; o(0xe58955); /* push %ebp, mov %esp, %ebp */ a = oad(0xec81, 0); /* sub $xxx, %esp */ block(0); gsym(rsym); o(0xc3c9); /* leave, ret */ *(int *)a = loc; /* save local variables */ } } } main(n, t) { file = stdin; if (n-- > 1) { t = t + 4; file = fopen(*(int *)t, "r"); } dstk = strcpy(sym_stk = calloc(1, ALLOC_SIZE), " int if else while break return for define main ") + TOK_STR_SIZE; glo = calloc(1, ALLOC_SIZE); ind = prog = calloc(1, ALLOC_SIZE); vars = calloc(1, ALLOC_SIZE); inp(); next(); decl(0); #ifdef TEST { FILE *f; f = fopen(*(char **)(t + 4), "w"); fwrite((void *)prog, 1, ind - prog, f); fclose(f); return 0; } #else return (*(int (*)())*(int *)(vars + TOK_MAIN)) (n, t); #endif }