/* * Mnemonic instruction bytecode * * Copyright (C) 2005-2007 Peter Johnson * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND OTHER CONTRIBUTORS ``AS IS'' * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR OTHER CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "util.h" #include "libyasm-stdint.h" #include "coretype.h" #include "errwarn.h" #include "expr.h" #include "value.h" #include "bytecode.h" #include "insn.h" #include "arch.h" void yasm_ea_set_segreg(yasm_effaddr *ea, uintptr_t segreg) { if (!ea) return; if (segreg != 0 && ea->segreg != 0) yasm_warn_set(YASM_WARN_GENERAL, N_("multiple segment overrides, using leftmost")); ea->segreg = segreg; } yasm_insn_operand * yasm_operand_create_reg(uintptr_t reg) { yasm_insn_operand *retval = yasm_xmalloc(sizeof(yasm_insn_operand)); retval->type = YASM_INSN__OPERAND_REG; retval->data.reg = reg; retval->seg = 0; retval->targetmod = 0; retval->size = 0; retval->deref = 0; retval->strict = 0; return retval; } yasm_insn_operand * yasm_operand_create_segreg(uintptr_t segreg) { yasm_insn_operand *retval = yasm_xmalloc(sizeof(yasm_insn_operand)); retval->type = YASM_INSN__OPERAND_SEGREG; retval->data.reg = segreg; retval->seg = 0; retval->targetmod = 0; retval->size = 0; retval->deref = 0; retval->strict = 0; return retval; } yasm_insn_operand * yasm_operand_create_mem(/*@only@*/ yasm_effaddr *ea) { yasm_insn_operand *retval = yasm_xmalloc(sizeof(yasm_insn_operand)); retval->type = YASM_INSN__OPERAND_MEMORY; retval->data.ea = ea; retval->seg = 0; retval->targetmod = 0; retval->size = 0; retval->deref = 0; retval->strict = 0; retval->size = ea->data_len * 8; return retval; } yasm_insn_operand * yasm_operand_create_imm(/*@only@*/ yasm_expr *val) { yasm_insn_operand *retval; const uintptr_t *reg; reg = yasm_expr_get_reg(&val, 0); if (reg) { retval = yasm_operand_create_reg(*reg); yasm_expr_destroy(val); } else { retval = yasm_xmalloc(sizeof(yasm_insn_operand)); retval->type = YASM_INSN__OPERAND_IMM; retval->data.val = val; retval->seg = 0; retval->targetmod = 0; retval->size = 0; retval->deref = 0; retval->strict = 0; } return retval; } yasm_insn_operand * yasm_insn_ops_append(yasm_insn *insn, yasm_insn_operand *op) { if (op) { insn->num_operands++; STAILQ_INSERT_TAIL(&insn->operands, op, link); return op; } return (yasm_insn_operand *)NULL; } void yasm_insn_add_prefix(yasm_insn *insn, uintptr_t prefix) { insn->prefixes = yasm_xrealloc(insn->prefixes, (insn->num_prefixes+1)*sizeof(uintptr_t)); insn->prefixes[insn->num_prefixes] = prefix; insn->num_prefixes++; } void yasm_insn_add_seg_prefix(yasm_insn *insn, uintptr_t segreg) { insn->segregs = yasm_xrealloc(insn->segregs, (insn->num_segregs+1)*sizeof(uintptr_t)); insn->segregs[insn->num_segregs] = segreg; insn->num_segregs++; } void yasm_insn_initialize(yasm_insn *insn) { STAILQ_INIT(&insn->operands); insn->prefixes = NULL; insn->segregs = NULL; insn->num_operands = 0; insn->num_prefixes = 0; insn->num_segregs = 0; } void yasm_insn_delete(yasm_insn *insn, void (*ea_destroy) (/*@only@*/ yasm_effaddr *)) { if (insn->num_operands > 0) { yasm_insn_operand *cur, *next; cur = STAILQ_FIRST(&insn->operands); while (cur) { next = STAILQ_NEXT(cur, link); switch (cur->type) { case YASM_INSN__OPERAND_MEMORY: ea_destroy(cur->data.ea); break; case YASM_INSN__OPERAND_IMM: yasm_expr_destroy(cur->data.val); break; default: break; } yasm_xfree(cur); cur = next; } } if (insn->num_prefixes > 0) yasm_xfree(insn->prefixes); if (insn->num_segregs > 0) yasm_xfree(insn->segregs); } void yasm_insn_print(const yasm_insn *insn, FILE *f, int indent_level) { const yasm_insn_operand *op; STAILQ_FOREACH (op, &insn->operands, link) { switch (op->type) { case YASM_INSN__OPERAND_REG: fprintf(f, "%*sReg=", indent_level, ""); /*yasm_arch_reg_print(arch, op->data.reg, f);*/ fprintf(f, "\n"); break; case YASM_INSN__OPERAND_SEGREG: fprintf(f, "%*sSegReg=", indent_level, ""); /*yasm_arch_segreg_print(arch, op->data.reg, f);*/ fprintf(f, "\n"); break; case YASM_INSN__OPERAND_MEMORY: fprintf(f, "%*sMemory=\n", indent_level, ""); /*yasm_arch_ea_print(arch, op->data.ea, f, indent_level);*/ break; case YASM_INSN__OPERAND_IMM: fprintf(f, "%*sImm=", indent_level, ""); yasm_expr_print(op->data.val, f); fprintf(f, "\n"); break; } fprintf(f, "%*sTargetMod=%lx\n", indent_level+1, "", (unsigned long)op->targetmod); fprintf(f, "%*sSize=%u\n", indent_level+1, "", op->size); fprintf(f, "%*sDeref=%d, Strict=%d\n", indent_level+1, "", (int)op->deref, (int)op->strict); } } void yasm_insn_finalize(yasm_insn *insn) { unsigned int i; yasm_insn_operand *op; yasm_error_class eclass; char *str, *xrefstr; unsigned long xrefline; /* Simplify the operands' expressions first. */ for (i = 0, op = yasm_insn_ops_first(insn); op && inum_operands; op = yasm_insn_op_next(op), i++) { /* Check operand type */ switch (op->type) { case YASM_INSN__OPERAND_MEMORY: /* Don't get over-ambitious here; some archs' memory expr * parser are sensitive to the presence of *1, etc, so don't * simplify reg*1 identities. */ if (op->data.ea) op->data.ea->disp.abs = yasm_expr__level_tree(op->data.ea->disp.abs, 1, 1, 0, 0, NULL, NULL); if (yasm_error_occurred()) { /* Add a pointer to where it was used to the error */ yasm_error_fetch(&eclass, &str, &xrefline, &xrefstr); if (xrefstr) { yasm_error_set_xref(xrefline, "%s", xrefstr); yasm_xfree(xrefstr); } if (str) { yasm_error_set(eclass, "%s in memory expression", str); yasm_xfree(str); } return; } break; case YASM_INSN__OPERAND_IMM: op->data.val = yasm_expr__level_tree(op->data.val, 1, 1, 1, 0, NULL, NULL); if (yasm_error_occurred()) { /* Add a pointer to where it was used to the error */ yasm_error_fetch(&eclass, &str, &xrefline, &xrefstr); if (xrefstr) { yasm_error_set_xref(xrefline, "%s", xrefstr); yasm_xfree(xrefstr); } if (str) { yasm_error_set(eclass, "%s in immediate expression", str); yasm_xfree(str); } return; } break; default: break; } } }