#include #include #include /* Test case supplied by Sergei Trofimovich */ /* * Real life example (MSDOS file INFO.EXE) has code like this * * I don't know why author/compiler done code like this. Only guess: * guess 1 (strong :]): * This archaic code was used by dynamic memory regeneration * handler (according to code around it's called from * interrupt handler). * * guess 2: cache flush (whether processors had caches at that time?) * * a disasmed snippet: * * mov byte ptr [bx], 0FFh * sti * mov cx, 0FFFFh ; 65535 * rep lods byte ptr es:[si] * jcxz short somewhere_1 ; it seems code could be * ; interrupted here * * call something_2 * cmp dx, 4 * mov byte ptr [bx], 0 * jmp somewhere_3 */ #define GET_BIT(var, bit_no) ((var >> bit_no) & 1) static char sz_eflags[] = " "; // 8 spaces static void pp_eflags (unsigned int _8bits_eflags) { assert (_8bits_eflags >= 0); assert (_8bits_eflags <= 0xFF); sz_eflags[0] = GET_BIT(_8bits_eflags, 7) ? 'S' : ' '; sz_eflags[1] = GET_BIT(_8bits_eflags, 6) ? 'Z' : ' '; sz_eflags[3] = GET_BIT(_8bits_eflags, 4) ? 'A' : ' '; sz_eflags[5] = GET_BIT(_8bits_eflags, 2) ? 'P' : ' '; sz_eflags[7] = GET_BIT(_8bits_eflags, 0) ? 'C' : ' '; } #define EMIT_CALL(dir_insn, insn, in_eax, in_esi, in_eflags, out_eax, out_esi, out_eflags, count) \ asm volatile( \ "movl %3, %%eax \t\n" \ "sahf \t\n" /* loading our eflags */ \ "movl %4, %%eax \t\n" \ "movl %5, %%esi \t\n" \ "movl %6, %%ecx \t\n" \ \ dir_insn "\t\n" \ insn "\t\n" \ \ /* return result */ \ "movl %%eax, %0 \t\n" \ "lahf \t\n" \ "movl %%eax, %1 \t\n" \ "movl %%esi, %2 \t\n" \ "cld \t\n" \ : "=d"(out_eax), \ "=b"(out_eflags), \ "=r"(out_esi) \ \ : "m"(in_eflags), \ "m"(in_eax), \ "m"(in_esi), \ "q"(count) \ \ : "%eax", "%esi", "%ecx", "cc" /* we mess up EFLAGS */); const signed char b_mem_buff[] = {-4, -3, -2, -1, 0xaa, 1, 2, 3, 4}; const signed long l_mem_buff[] = {-4, -3, -2, -1, 0xaa, 1, 2, 3, 4}; const signed short w_mem_buff[] = {-4, -3, -2, -1, 0xaa, 1, 2, 3, 4}; const int lens[] = { 4, 3, 2, 1, 0, 0, 1, 2, 3, 4}; int main () { const signed char * b_center = (signed char *) memchr(b_mem_buff, 0xaa, sizeof (b_mem_buff)); const signed char * w_center = (signed char *) memchr(w_mem_buff, 0xaa, sizeof (w_mem_buff)); const signed char * l_center = (signed char *) memchr(l_mem_buff, 0xaa, sizeof (l_mem_buff)); int insn; for (insn = 0; insn < 4; ++insn) //b,w[rep/addr],d,w[addr/rep] { int idx; for (idx = 0; idx < sizeof (lens)/sizeof(lens[0]); ++idx) { unsigned int eflags; unsigned int eax = 0x12348765; unsigned int esi; const char * i_name = NULL; unsigned int resulting_eflags; unsigned int resulting_eax; unsigned int resulting_esi; int len; int df; switch (insn) { case 0: //b esi = (unsigned int) b_center; i_name = "lodsb"; break; case 1: //w esi = (unsigned int) w_center; i_name = "lodsw[rep/addr]"; break; case 2: //d esi = (unsigned int) l_center; i_name = "lodsl"; break; case 3: //w esi = (unsigned int) w_center; i_name = "lodsw[addr/rep]"; break; } eflags = 0; pp_eflags ((eflags >> 8) & 0xFF); // scratching off AH printf ("REP %s (EAX = %08X, EFLAGS = %s) => ", i_name, eax, sz_eflags); resulting_eflags = 0; resulting_eax = 0; len = lens[idx]; df = (idx >= (sizeof(lens)/sizeof(lens[0]))/2); switch (insn) { case 0: //b if (df) { EMIT_CALL("cld", "rep lodsb", eax, esi, eflags, resulting_eax, resulting_esi, resulting_eflags, len); } else { EMIT_CALL("std", "rep lodsb", eax, esi, eflags, resulting_eax, resulting_esi, resulting_eflags, len); } break; case 1: //w[rep/addr] if (df) { EMIT_CALL("cld", // "rep lodsw", // explicit: rep-pref addr-pref op ".byte 0x66,0xf3,0xad", eax, esi, eflags, resulting_eax, resulting_esi, resulting_eflags, len); } else { EMIT_CALL("std", // "rep lodsw", // explicit: rep-pref addr-pref op ".byte 0x66,0xf3,0xad", eax, esi, eflags, resulting_eax, resulting_esi, resulting_eflags, len); } break; case 2: //d if (df) { EMIT_CALL("cld", "rep lodsl", eax, esi, eflags, resulting_eax, resulting_esi, resulting_eflags, len); } else { EMIT_CALL("std", "rep lodsl", eax, esi, eflags, resulting_eax, resulting_esi, resulting_eflags, len); } break; case 3: //w[addr/rep] if (df) { EMIT_CALL("cld", // "rep lodsw", // explicit: rep-pref addr-pref op ".byte 0xf3,0x66,0xad", eax, esi, eflags, resulting_eax, resulting_esi, resulting_eflags, len); } else { EMIT_CALL("std", // "rep lodsw", // explicit: rep-pref addr-pref op ".byte 0xf3,0x66,0xad", eax, esi, eflags, resulting_eax, resulting_esi, resulting_eflags, len); } break; } printf ("DF = %d, count = %2d ", df, len); pp_eflags ((resulting_eflags >> 8) & 0xFF); // scratching off AH printf ("(EAX = %08X, EFLAGS = %s)\n", resulting_eax, sz_eflags); } } return 0; }