/***********************************************************************/ /* */ /* Objective Caml */ /* */ /* Xavier Leroy, projet Cristal, INRIA Rocquencourt */ /* */ /* Copyright 1996 Institut National de Recherche en Informatique et */ /* en Automatique. All rights reserved. This file is distributed */ /* under the terms of the GNU Library General Public License, with */ /* the special exception on linking described in file ../LICENSE. */ /* */ /***********************************************************************/ /* $Id$ */ /* Handling of blocks of bytecode (endianness switch, threading). */ #include "config.h" #ifdef HAS_UNISTD #include #endif #include "debugger.h" #include "fix_code.h" #include "instruct.h" #include "md5.h" #include "memory.h" #include "misc.h" #include "mlvalues.h" #include "reverse.h" code_t caml_start_code; asize_t caml_code_size; unsigned char * caml_saved_code; unsigned char caml_code_md5[16]; /* Read the main bytecode block from a file */ void caml_load_code(int fd, asize_t len) { int i; struct MD5Context ctx; caml_code_size = len; caml_start_code = (code_t) caml_stat_alloc(caml_code_size); if (read(fd, (char *) caml_start_code, caml_code_size) != caml_code_size) caml_fatal_error("Fatal error: truncated bytecode file.\n"); caml_MD5Init(&ctx); caml_MD5Update(&ctx, (unsigned char *) caml_start_code, caml_code_size); caml_MD5Final(caml_code_md5, &ctx); #ifdef ARCH_BIG_ENDIAN caml_fixup_endianness(caml_start_code, caml_code_size); #endif if (caml_debugger_in_use) { len /= sizeof(opcode_t); caml_saved_code = (unsigned char *) caml_stat_alloc(len); for (i = 0; i < len; i++) caml_saved_code[i] = caml_start_code[i]; } #ifdef THREADED_CODE /* Better to thread now than at the beginning of [caml_interprete], since the debugger interface needs to perform SET_EVENT requests on the code. */ caml_thread_code(caml_start_code, caml_code_size); #endif } /* This code is needed only if the processor is big endian */ #ifdef ARCH_BIG_ENDIAN void caml_fixup_endianness(code_t code, asize_t len) { code_t p; len /= sizeof(opcode_t); for (p = code; p < code + len; p++) { Reverse_32(p, p); } } #endif /* This code is needed only if we're using threaded code */ #ifdef THREADED_CODE char ** caml_instr_table; char * caml_instr_base; void caml_thread_code (code_t code, asize_t len) { code_t p; int l [STOP + 1]; int i; for (i = 0; i <= STOP; i++) { l [i] = 0; } /* Instructions with one operand */ l[PUSHACC] = l[ACC] = l[POP] = l[ASSIGN] = l[PUSHENVACC] = l[ENVACC] = l[PUSH_RETADDR] = l[APPLY] = l[APPTERM1] = l[APPTERM2] = l[APPTERM3] = l[RETURN] = l[GRAB] = l[PUSHGETGLOBAL] = l[GETGLOBAL] = l[SETGLOBAL] = l[PUSHATOM] = l[ATOM] = l[MAKEBLOCK1] = l[MAKEBLOCK2] = l[MAKEBLOCK3] = l[MAKEFLOATBLOCK] = l[GETFIELD] = l[GETFLOATFIELD] = l[SETFIELD] = l[SETFLOATFIELD] = l[BRANCH] = l[BRANCHIF] = l[BRANCHIFNOT] = l[PUSHTRAP] = l[C_CALL1] = l[C_CALL2] = l[C_CALL3] = l[C_CALL4] = l[C_CALL5] = l[CONSTINT] = l[PUSHCONSTINT] = l[OFFSETINT] = l[OFFSETREF] = l[OFFSETCLOSURE] = l[PUSHOFFSETCLOSURE] = 1; /* Instructions with two operands */ l[APPTERM] = l[CLOSURE] = l[PUSHGETGLOBALFIELD] = l[GETGLOBALFIELD] = l[MAKEBLOCK] = l[C_CALLN] = l[BEQ] = l[BNEQ] = l[BLTINT] = l[BLEINT] = l[BGTINT] = l[BGEINT] = l[BULTINT] = l[BUGEINT] = l[GETPUBMET] = 2; len /= sizeof(opcode_t); for (p = code; p < code + len; /*nothing*/) { opcode_t instr = *p; if (instr < 0 || instr > STOP){ /* FIXME -- should Assert(false) ? caml_fatal_error_arg ("Fatal error in fix_code: bad opcode (%lx)\n", (char *)(long)instr); */ instr = STOP; } *p++ = (opcode_t)(caml_instr_table[instr] - caml_instr_base); if (instr == SWITCH) { uint32 sizes = *p++; uint32 const_size = sizes & 0xFFFF; uint32 block_size = sizes >> 16; p += const_size + block_size; } else if (instr == CLOSUREREC) { uint32 nfuncs = *p++; p++; /* skip nvars */ p += nfuncs; } else { p += l[instr]; } } Assert(p == code + len); } #endif /* THREADED_CODE */ void caml_set_instruction(code_t pos, opcode_t instr) { #ifdef THREADED_CODE *pos = (opcode_t)(caml_instr_table[instr] - caml_instr_base); #else *pos = instr; #endif } int caml_is_instruction(opcode_t instr1, opcode_t instr2) { #ifdef THREADED_CODE return instr1 == (opcode_t)(caml_instr_table[instr2] - caml_instr_base); #else return instr1 == instr2; #endif }