/* * cpu.c 6800 cpu description file * (c) in 2013-2016 by Esben Norby and Frank Wille */ #include "vasm.h" mnemonic mnemonics[] = { #include "opcodes.h" }; int mnemonic_cnt = sizeof(mnemonics) / sizeof(mnemonics[0]); int bitsperbyte = 8; int bytespertaddr = 2; char * cpu_copyright = "vasm 6800/6801/68hc11 cpu backend 0.3 (c) 2013-2016 Esben Norby"; char * cpuname = "6800"; static uint8_t cpu_type = M6800; static int modifier; /* set by find_base() */ int init_cpu() { return 1; } int cpu_args(char *p) { if (!strncmp(p, "-m68", 4)) { p += 4; if (p[0] == '0' && p[3] == '\0') { switch(p[1]) { case '0': case '2': case '8': /* 6802 and 6808 are a 6800 with embedded ROM/RAM */ cpu_type = M6800; break; case '1': case '3': /* 6803 is a 6801 with embedded ROM/RAM */ cpu_type = M6801; break; default: /* 6804 and 6805 are not opcode compatible * 6809 is somewhat compatible, but not completely * 6806 and 6807 do not exist, to my knowledge */ return 0; } } else if (!stricmp(p, "hc11")) cpu_type = M68HC11; else return 0; return 1; } return 0; } char * parse_cpu_special(char *start) { return start; } operand * new_operand() { operand *new = mymalloc(sizeof(*new)); new->type = -1; return new; } int parse_operand(char *p, int len, operand *op, int required) { char *start = p; op->value = NULL; switch (required) { case IMM: case IMM16: if (*p++ != '#') return PO_NOMATCH; p = skip(p); /* fall through */ case REL: case DATAOP: op->value = parse_expr(&p); break; case ADDR: if (*p == '<') { required = DIR; p++; } else if (*p == '>') { required = EXT; p++; } op->value = parse_expr(&p); break; case DIR: if (*p == '>') return PO_NOMATCH; else if (*p == '<') p++; op->value = parse_expr(&p); break; case EXT: if (*p == '<') return PO_NOMATCH; else if (*p == '>') p++; op->value = parse_expr(&p); break; case REGX: if (toupper((unsigned char)*p++) != 'X') return PO_NOMATCH; break; case REGY: if (toupper((unsigned char)*p++) != 'Y') return PO_NOMATCH; break; default: return PO_NOMATCH; } op->type = required; return PO_MATCH; } static size_t eval_oper(operand *op, section *sec, taddr pc, taddr offs, dblock *db) { size_t size = 0; symbol *base = NULL; int btype; taddr val; if (op->value != NULL && !eval_expr(op->value, &val, sec, pc)) { modifier = 0; btype = find_base(op->value, &base, sec, pc); } switch (op->type) { case ADDR: if (base != NULL || val < 0 || val > 0xff) { op->type = EXT; size = 2; } else { op->type = DIR; size = 1; } break; case DIR: size = 1; if (db != NULL && (val < 0 || val > 0xff)) cpu_error(1); /* operand doesn't fit into 8-bits */ break; case IMM: size = 1; if (db != NULL && !modifier && (val < -0x80 || val > 0xff)) cpu_error(1); /* operand doesn't fit into 8-bits */ break; case EXT: case IMM16: size = 2; break; case REL: size = 1; break; } if (size > 0 && db != NULL) { /* create relocation entry and code for this operand */ if (base != NULL && btype == BASE_OK && op->type == REL) { /* relative branches */ if (!is_pc_reloc(base, sec)) { val = val - (pc + offs + 1); if (val < -0x80 || val > 0x7f) cpu_error(2); /* branch out of range */ } else add_extnreloc(&db->relocs, base, val, REL_PC, 0, 8, offs); } else if (base != NULL && btype != BASE_ILLEGAL) { rlist *rl; rl = add_extnreloc(&db->relocs, base, val, btype==BASE_PCREL? REL_PC : REL_ABS, 0, size << 3, offs); switch (modifier) { case LOBYTE: if (rl) ((nreloc *)rl->reloc)->mask = 0xff; val &= 0xff; break; case HIBYTE: if (rl) ((nreloc *)rl->reloc)->mask = 0xff00; val = (val >> 8) & 0xff; break; } } else if (base != NULL) general_error(38); /* illegal relocation */ if (size == 1) { op->code[0] = val & 0xff; } else if (size == 2) { op->code[0] = (val >> 8) & 0xff; op->code[1] = val & 0xff; } else ierror(0); } return (size); } size_t instruction_size(instruction *ip, section *sec, taddr pc) { operand op; int i; size_t size; size = (mnemonics[ip->code].ext.prebyte != 0) ? 2 : 1; for (i = 0; i < MAX_OPERANDS && ip->op[i] != NULL; i++) { op = *(ip->op[i]); size += eval_oper(&op, sec, pc, size, NULL); } return (size); } dblock * eval_instruction(instruction *ip, section *sec, taddr pc) { dblock *db = new_dblock(); uint8_t opcode; uint8_t *d; int i; size_t size; /* evaluate operands and determine instruction size */ opcode = mnemonics[ip->code].ext.opcode; size = (mnemonics[ip->code].ext.prebyte != 0) ? 2 : 1; for (i = 0; i < MAX_OPERANDS && ip->op[i] != NULL; i++) { size += eval_oper(ip->op[i], sec, pc, size, db); if (ip->op[i]->type == DIR) opcode = mnemonics[ip->code].ext.dir_opcode; } /* allocate and fill data block */ db->size = size; d = db->data = mymalloc(size); if (mnemonics[ip->code].ext.prebyte != 0) *d++ = mnemonics[ip->code].ext.prebyte; *d++ = opcode; /* write operands */ for (i = 0; i < MAX_OPERANDS && ip->op[i] != NULL; i++) { switch (ip->op[i]->type) { case IMM: case DIR: case REL: *d++ = ip->op[i]->code[0]; break; case IMM16: case EXT: *d++ = ip->op[i]->code[0]; *d++ = ip->op[i]->code[1]; break; } } return (db); } dblock * eval_data(operand *op, size_t bitsize, section *sec, taddr pc) { dblock *db = new_dblock(); uint8_t *d; taddr val; if (bitsize != 8 && bitsize != 16) cpu_error(0,bitsize); /* data size not supported */ db->size = bitsize >> 3; d = db->data = mymalloc(db->size); if (!eval_expr(op->value, &val, sec, pc)) { symbol *base; int btype; rlist *rl; modifier = 0; btype = find_base(op->value, &base, sec, pc); if (btype==BASE_OK || (btype==BASE_PCREL && modifier==0)) { rl = add_extnreloc(&db->relocs, base, val, btype==BASE_PCREL ? REL_PC : REL_ABS, 0, bitsize, 0); switch (modifier) { case LOBYTE: if (rl) ((nreloc *)rl->reloc)->mask = 0xff; val &= 0xff; break; case HIBYTE: if (rl) ((nreloc *)rl->reloc)->mask = 0xff00; val = (val >> 8) & 0xff; break; } } else if (btype != BASE_NONE) general_error(38); /* illegal relocation */ } if (bitsize == 8) { if (val < -0x80 || val > 0xff) cpu_error(1); /* operand doesn't fit into 8-bits */ } else /* 16 bits */ *d++ = (val >> 8) & 0xff; *d = val & 0xff; return (db); } int ext_unary_eval(int type, taddr val, taddr *result, int cnst) { switch (type) { case LOBYTE: *result = cnst ? (val & 0xff) : val; return 1; case HIBYTE: *result = cnst ? ((val >> 8) & 0xff) : val; return 1; default: break; } return 0; /* unknown type */ } int ext_find_base(symbol **base, expr *p, section *sec, taddr pc) { /* addr/256 equals >addr, addr%256 and addr&255 equal type==DIV || p->type==MOD) { if (p->right->type==NUM && p->right->c.val==256) p->type = p->type == DIV ? HIBYTE : LOBYTE; } else if (p->type==BAND && p->right->type==NUM && p->right->c.val==255) p->type = LOBYTE; if (p->type==LOBYTE || p->type==HIBYTE) { modifier = p->type; return find_base(p->left,base,sec,pc); } return BASE_ILLEGAL; } int cpu_available(int idx) { return (mnemonics[idx].ext.available & cpu_type) != 0; }