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-rw-r--r--src/arch/x86/instruction.c507
-rw-r--r--src/arch/x86/op_jump.c2
-rw-r--r--src/arch/x86/op_scas.c63
-rw-r--r--src/arch/x86/operand.c14
-rw-r--r--src/arch/x86/operand.h10
-rw-r--r--src/arch/x86/registers.c530
-rw-r--r--src/arch/x86/registers.h54
7 files changed, 1167 insertions, 13 deletions
diff --git a/src/arch/x86/instruction.c b/src/arch/x86/instruction.c
new file mode 100644
index 0000000..f68ec59
--- /dev/null
+++ b/src/arch/x86/instruction.c
@@ -0,0 +1,507 @@
+
+/* OpenIDA - Outil d'analyse de fichiers binaires
+ * instruction.c - gestion des instructions de l'architecture x86
+ *
+ * Copyright (C) 2009 Cyrille Bagard
+ *
+ * This file is part of OpenIDA.
+ *
+ * OpenIDA is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * OpenIDA is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with Foobar. If not, see <http://www.gnu.org/licenses/>.
+ */
+
+
+#include "instruction.h"
+
+
+#include "../instruction-int.h"
+#include "../../common/extstr.h"
+
+
+
+/* Définition générique d'une instruction d'architecture x86 (instance) */
+struct _GX86Instruction
+{
+ GArchInstruction parent; /* A laisser en premier */
+
+ X86Opcodes type; /* Position dans la liste */
+
+ X86Prefix prefixes; /* Préfixes finalement trouvés */
+
+};
+
+/* Définition générique d'une instruction d'architecture x86 (classe) */
+struct _GX86InstructionClass
+{
+ GArchInstructionClass parent; /* A laisser en premier */
+
+};
+
+
+/* Initialise la classe des instructions pour x86. */
+static void g_x86_instruction_class_init(GX86InstructionClass *);
+
+/* Initialise une instance d'opérande d'architecture x86. */
+static void g_x86_instruction_init(GX86Instruction *);
+
+
+
+/* --------------------- AIDE A LA MISE EN PLACE D'INSTRUCTIONS --------------------- */
+
+
+/* Répertoire de toutes les instructions x86 */
+typedef struct _x86_instruction
+{
+ bool care_of_data; /* Devinette = repas ? */
+ bin_t opcode; /* Opcode de l'instruction */
+ bin_t op_extension; /* Extension de l'opcode */
+
+ const char *keyword; /* Mot clef de la commande */
+
+ X86Prefix prefix; /* Eventuel(s) préfixe(s) */
+
+} x86_instruction;
+
+
+#define OPCODE_EXT(eop) ((eop) & 0x38)
+#define IDX_TO_EXT(idx) (idx == -1 ? 0xff : idx << 3)
+
+
+static x86_instruction _instructions[XOP_COUNT] = {
+
+ [XOP_ADD_RM8_R8] = { false, 0x00, IDX_TO_EXT(-1), "add", XPX_NONE },
+ [XOP_ADD_RM1632_R1632] = { false, 0x01, IDX_TO_EXT(-1), "add", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_ADD_R8_RM8] = { false, 0x02, IDX_TO_EXT(-1), "add", XPX_NONE },
+ [XOP_ADD_R1632_RM1632] = { false, 0x03, IDX_TO_EXT(-1), "add", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_ADD_AL_IMM8] = { false, 0x04, IDX_TO_EXT(-1), "add", XPX_NONE },
+ [XOP_ADD_E_AX_IMM1632] = { false, 0x05, IDX_TO_EXT(-1), "add", XPX_OPERAND_SIZE_OVERRIDE },
+
+ [XOP_OR_R8_RM8] = { false, 0x0a, IDX_TO_EXT(-1), "or", XPX_NONE },
+ [XOP_OR_AL_IMM8] = { false, 0x0c, IDX_TO_EXT(-1), "or", XPX_NONE },
+
+ [XOP_ADC_RM8_R8] = { false, 0x10, IDX_TO_EXT(-1), "adc", XPX_NONE },
+
+ [XOP_AND_RM8_R8] = { false, 0x20, IDX_TO_EXT(-1), "and", XPX_NONE },
+
+ [XOP_SUB_RM1632_R1632] = { false, 0x29, IDX_TO_EXT(-1), "sub", XPX_OPERAND_SIZE_OVERRIDE },
+
+ [XOP_SUB_R8_RM8] = { false, 0x2a, IDX_TO_EXT(-1), "sub", XPX_NONE },
+ [XOP_SUB_AL_IMM8] = { false, 0x2c, IDX_TO_EXT(-1), "sub", XPX_NONE },
+
+ [XOP_SUB_E_AX_IMM1632] = { false, 0x2d, IDX_TO_EXT(-1), "sub", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+
+ [XOP_XOR_RM8_R8] = { false, 0x30, IDX_TO_EXT(-1), "xor", XPX_NONE},
+ [XOP_XOR_RM1632_R1632] = { false, 0x31, IDX_TO_EXT(-1), "xor", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_XOR_R8_RM8] = { false, 0x32, IDX_TO_EXT(-1), "xor", XPX_NONE},
+ [XOP_XOR_R1632_RM1632] = { false, 0x33, IDX_TO_EXT(-1), "xor", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_XOR_AL_IMM8] = { false, 0x34, IDX_TO_EXT(-1), "xor", XPX_NONE },
+ [XOP_XOR_E_AX_IMM1632] = { false, 0x35, IDX_TO_EXT(-1), "xor", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+
+
+
+ [XOP_CMP_RM1632_R1632] = { false, 0x39, IDX_TO_EXT(-1), "cmp", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_INC_E_AX] = { true, 0x40, IDX_TO_EXT(-1), "inc", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_INC_E_CX] = { true, 0x41, IDX_TO_EXT(-1), "inc", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_INC_E_DX] = { true, 0x42, IDX_TO_EXT(-1), "inc", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_INC_E_BX] = { true, 0x43, IDX_TO_EXT(-1), "inc", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_INC_E_SP] = { true, 0x44, IDX_TO_EXT(-1), "inc", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_INC_E_BP] = { true, 0x45, IDX_TO_EXT(-1), "inc", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_INC_E_SI] = { true, 0x46, IDX_TO_EXT(-1), "inc", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_INC_E_DI] = { true, 0x47, IDX_TO_EXT(-1), "inc", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_DEC_E_AX] = { true, 0x48, IDX_TO_EXT(-1), "dec", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_DEC_E_CX] = { true, 0x49, IDX_TO_EXT(-1), "dec", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_DEC_E_DX] = { true, 0x4a, IDX_TO_EXT(-1), "dec", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_DEC_E_BX] = { true, 0x4b, IDX_TO_EXT(-1), "dec", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_DEC_E_SP] = { true, 0x4c, IDX_TO_EXT(-1), "dec", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_DEC_E_BP] = { true, 0x4d, IDX_TO_EXT(-1), "dec", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_DEC_E_SI] = { true, 0x4e, IDX_TO_EXT(-1), "dec", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_DEC_E_DI] = { true, 0x4f, IDX_TO_EXT(-1), "dec", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_PUSH_E_AX] = { true, 0x50, IDX_TO_EXT(-1), "push", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_PUSH_E_CX] = { true, 0x51, IDX_TO_EXT(-1), "push", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_PUSH_E_DX] = { true, 0x52, IDX_TO_EXT(-1), "push", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_PUSH_E_BX] = { true, 0x53, IDX_TO_EXT(-1), "push", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_PUSH_E_SP] = { true, 0x54, IDX_TO_EXT(-1), "push", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_PUSH_E_BP] = { true, 0x55, IDX_TO_EXT(-1), "push", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_PUSH_E_SI] = { true, 0x56, IDX_TO_EXT(-1), "push", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_PUSH_E_DI] = { true, 0x57, IDX_TO_EXT(-1), "push", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_POP_E_AX] = { true, 0x58, IDX_TO_EXT(-1), "pop", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_POP_E_CX] = { true, 0x59, IDX_TO_EXT(-1), "pop", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_POP_E_DX] = { true, 0x5a, IDX_TO_EXT(-1), "pop", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_POP_E_BX] = { true, 0x5b, IDX_TO_EXT(-1), "pop", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_POP_E_SP] = { true, 0x5c, IDX_TO_EXT(-1), "pop", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_POP_E_BP] = { true, 0x5d, IDX_TO_EXT(-1), "pop", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_POP_E_SI] = { true, 0x5e, IDX_TO_EXT(-1), "pop", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_POP_E_DI] = { true, 0x5f, IDX_TO_EXT(-1), "pop", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+ [XOP_PUSH_IMM1632] = { false, 0x68, IDX_TO_EXT(-1), "push", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+
+ [XOP_JO_REL8] = { false, 0x70, IDX_TO_EXT(-1), "jo", XPX_NONE },
+ [XOP_JNO_REL8] = { false, 0x71, IDX_TO_EXT(-1), "jno", XPX_NONE },
+ [XOP_JB_REL8] = { false, 0x72, IDX_TO_EXT(-1), "jb", XPX_NONE },
+ [XOP_JNB_REL8] = { false, 0x73, IDX_TO_EXT(-1), "jnb", XPX_NONE },
+ [XOP_JE_REL8] = { false, 0x74, IDX_TO_EXT(-1), "je", XPX_NONE },
+ [XOP_JNE_REL8] = { false, 0x75, IDX_TO_EXT(-1), "jne", XPX_NONE },
+ [XOP_JNA_REL8] = { false, 0x76, IDX_TO_EXT(-1), "jna", XPX_NONE },
+ [XOP_JA_REL8] = { false, 0x77, IDX_TO_EXT(-1), "ja", XPX_NONE },
+ [XOP_JS_REL8] = { false, 0x78, IDX_TO_EXT(-1), "js", XPX_NONE },
+ [XOP_JNS_REL8] = { false, 0x79, IDX_TO_EXT(-1), "jns", XPX_NONE },
+ [XOP_JP_REL8] = { false, 0x7a, IDX_TO_EXT(-1), "jp", XPX_NONE },
+ [XOP_JNP_REL8] = { false, 0x7b, IDX_TO_EXT(-1), "jnp", XPX_NONE },
+ [XOP_JL_REL8] = { false, 0x7c, IDX_TO_EXT(-1), "jl", XPX_NONE },
+ [XOP_JNL_REL8] = { false, 0x7d, IDX_TO_EXT(-1), "jnl", XPX_NONE },
+ [XOP_JNG_REL8] = { false, 0x7e, IDX_TO_EXT(-1), "jng", XPX_NONE },
+ [XOP_JG_REL8] = { false, 0x7f, IDX_TO_EXT(-1), "jg", XPX_NONE },
+ [XOP_ADD_RM8_IMM8] = { false, 0x80, IDX_TO_EXT(0), "add", XPX_NONE },
+ [XOP_OR_RM8_IMM8] = { false, 0x80, IDX_TO_EXT(1), "or", XPX_NONE },
+ [XOP_ADC_RM8_IMM8] = { false, 0x80, IDX_TO_EXT(2), "adc", XPX_NONE },
+ [XOP_SBB_RM8_IMM8] = { false, 0x80, IDX_TO_EXT(3), "sbb", XPX_NONE },
+ [XOP_AND_RM8_IMM8] = { false, 0x80, IDX_TO_EXT(4), "and", XPX_NONE },
+ [XOP_SUB_RM8_IMM8] = { false, 0x80, IDX_TO_EXT(5), "sub", XPX_NONE },
+ [XOP_XOR_RM8_IMM8] = { false, 0x80, IDX_TO_EXT(6), "xor", XPX_NONE },
+ [XOP_CMP_RM8_IMM8] = { false, 0x80, IDX_TO_EXT(7), "cmp", XPX_NONE },
+ [XOP_ADD_RM1632_IMM1632] = { false, 0x81, IDX_TO_EXT(0), "add", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_OR_RM1632_IMM1632] = { false, 0x81, IDX_TO_EXT(0), "add", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_ADC_RM1632_IMM1632] = { false, 0x81, IDX_TO_EXT(2), "adc", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_SBB_RM1632_IMM1632] = { false, 0x81, IDX_TO_EXT(3), "sbb", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_AND_RM1632_IMM1632] = { false, 0x81, IDX_TO_EXT(4), "and", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_SUB_RM1632_IMM1632] = { false, 0x81, IDX_TO_EXT(5), "sub", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_XOR_RM1632_IMM1632] = { false, 0x81, IDX_TO_EXT(6), "xor", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_CMP_RM1632_IMM1632] = { false, 0x81, IDX_TO_EXT(7), "cmp", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+
+ [XOP_ADD_RM1632_IMM8] = { false, 0x83, IDX_TO_EXT(0), "add", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_OR_RM1632_IMM8] = { false, 0x83, IDX_TO_EXT(1), "or", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_ADC_RM1632_IMM8] = { false, 0x83, IDX_TO_EXT(2), "adc", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_SBB_RM1632_IMM8] = { false, 0x83, IDX_TO_EXT(3), "sbb", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_AND_RM1632_IMM8] = { false, 0x83, IDX_TO_EXT(4), "and", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_SUB_RM1632_IMM8] = { false, 0x83, IDX_TO_EXT(5), "sub", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_XOR_RM1632_IMM8] = { false, 0x83, IDX_TO_EXT(6), "xor", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_CMP_RM1632_IMM8] = { false, 0x83, IDX_TO_EXT(7), "cmp", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+ [XOP_TEST_RM8_R8] = { false, 0x84, IDX_TO_EXT(-1), "test", XPX_NONE },
+ [XOP_TEST_RM1632_R1632] = { false, 0x85, IDX_TO_EXT(-1), "test", XPX_OPERAND_SIZE_OVERRIDE },
+
+ [XOP_MOV_RM8_R8] = { false, 0x88, IDX_TO_EXT(-1), "mov", XPX_NONE },
+ [XOP_MOV_RM1632_R1632] = { false, 0x89, IDX_TO_EXT(-1), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+ [XOP_MOV_R1632_RM1632] = { false, 0x8b, IDX_TO_EXT(-1), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+ [XOP_LEA_R1632_M] = { false, 0x8d, IDX_TO_EXT(-1), "lea", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+ [XOP_NOP] = { false, 0x90, IDX_TO_EXT(-1), "nop", XPX_NONE },
+ [XOP_XCHG_R1632_E_AX] = { true, 0x90, IDX_TO_EXT(-1), "xchg", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_XCHG_R1632_E_CX] = { true, 0x91, IDX_TO_EXT(-1), "xchg", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_XCHG_R1632_E_DX] = { true, 0x92, IDX_TO_EXT(-1), "xchg", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_XCHG_R1632_E_BX] = { true, 0x93, IDX_TO_EXT(-1), "xchg", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_XCHG_R1632_E_SP] = { true, 0x94, IDX_TO_EXT(-1), "xchg", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_XCHG_R1632_E_BP] = { true, 0x95, IDX_TO_EXT(-1), "xchg", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_XCHG_R1632_E_SI] = { true, 0x96, IDX_TO_EXT(-1), "xchg", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_XCHG_R1632_E_DI] = { true, 0x97, IDX_TO_EXT(-1), "xchg", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+
+ [XOP_MOV_AL_MOFFS8] = { false, 0xa0, IDX_TO_EXT(-1), "mov", XPX_NONE },
+ [XOP_MOV_E_AX_MOFFS1632] = { false, 0xa1, IDX_TO_EXT(-1), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_MOV_MOFFS8_AL] = { false, 0xa2, IDX_TO_EXT(-1), "mov", XPX_NONE },
+ [XOP_MOV_MOFFS1632_E_AX] = { false, 0xa3, IDX_TO_EXT(-1), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+ [XOP_TEST_AL_IMM8] = { false, 0xa8, IDX_TO_EXT(-1), "test", XPX_NONE },
+ [XOP_TEST_E_AX_IMM1632] = { false, 0xa9, IDX_TO_EXT(-1), "test", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+ [XOP_SCAS_AL_M8] = { false, 0xae, IDX_TO_EXT(-1), "scas", XPX_NONE },
+
+
+ [XOP_MOV_AL_IMM8] = { true, 0xb0, IDX_TO_EXT(-1), "mov", XPX_NONE },
+ [XOP_MOV_CL_IMM8] = { true, 0xb1, IDX_TO_EXT(-1), "mov", XPX_NONE },
+ [XOP_MOV_DL_IMM8] = { true, 0xb2, IDX_TO_EXT(-1), "mov", XPX_NONE },
+ [XOP_MOV_BL_IMM8] = { true, 0xb3, IDX_TO_EXT(-1), "mov", XPX_NONE },
+ [XOP_MOV_AH_IMM8] = { true, 0xb4, IDX_TO_EXT(-1), "mov", XPX_NONE },
+ [XOP_MOV_CH_IMM8] = { true, 0xb5, IDX_TO_EXT(-1), "mov", XPX_NONE },
+ [XOP_MOV_DH_IMM8] = { true, 0xb6, IDX_TO_EXT(-1), "mov", XPX_NONE },
+ [XOP_MOV_BH_IMM8] = { true, 0xb7, IDX_TO_EXT(-1), "mov", XPX_NONE },
+ [XOP_MOV_E_AX_IMM1632] = { true, 0xb8, IDX_TO_EXT(-1), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_MOV_E_CX_IMM1632] = { true, 0xb9, IDX_TO_EXT(-1), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_MOV_E_DX_IMM1632] = { true, 0xba, IDX_TO_EXT(-1), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_MOV_E_BX_IMM1632] = { true, 0xbb, IDX_TO_EXT(-1), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_MOV_E_SP_IMM1632] = { true, 0xbc, IDX_TO_EXT(-1), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_MOV_E_BP_IMM1632] = { true, 0xbd, IDX_TO_EXT(-1), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_MOV_E_SI_IMM1632] = { true, 0xbe, IDX_TO_EXT(-1), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_MOV_E_DI_IMM1632] = { true, 0xbf, IDX_TO_EXT(-1), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+
+ [XOP_ROL_RM1632_IMM8] = { false, 0xc1, IDX_TO_EXT(0), "rol", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_ROR_RM1632_IMM8] = { false, 0xc1, IDX_TO_EXT(1), "ror", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_RCL_RM1632_IMM8] = { false, 0xc1, IDX_TO_EXT(2), "rcl", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_RCR_RM1632_IMM8] = { false, 0xc1, IDX_TO_EXT(3), "rcr", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_SHL_RM1632_IMM8] = { false, 0xc1, IDX_TO_EXT(4), "shl", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_SHR_RM1632_IMM8] = { false, 0xc1, IDX_TO_EXT(5), "shr", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_SAL_RM1632_IMM8] = { false, 0xc1, IDX_TO_EXT(6), "sal", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_SAR_RM1632_IMM8] = { false, 0xc1, IDX_TO_EXT(7), "sar", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+ [XOP_RET] = { false, 0xc3, IDX_TO_EXT(-1), "ret", XPX_NONE },
+
+
+ [XOP_MOV_RM8_IMM8] = { false, 0xc6, IDX_TO_EXT(0), "mov", XPX_NONE },
+ [XOP_MOV_RM1632_IMM1632] = { false, 0xc7, IDX_TO_EXT(0), "mov", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+
+ [XOP_LEAVE] = { false, 0xc9, IDX_TO_EXT(-1), "leave", XPX_NONE },
+
+
+ [XOP_INT_3] = { false, 0xcc, IDX_TO_EXT(-1), "int", XPX_NONE },
+ [XOP_INT] = { false, 0xcd, IDX_TO_EXT(-1), "int", XPX_NONE },
+
+
+ [XOP_SHL_RM1632_CL] = { false, 0xd3, IDX_TO_EXT(4), "shl", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+ [XOP_CALL_REL1632] = { false, 0xe8, IDX_TO_EXT(-1), "call", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_JMP_REL1632] = { false, 0xe9, IDX_TO_EXT(-1), "jmp", XPX_OPERAND_SIZE_OVERRIDE },
+
+ [XOP_JMP_REL8] = { false, 0xeb, IDX_TO_EXT(-1), "jmp", XPX_NONE },
+
+ [XOP_HLT] = { false, 0xf4, IDX_TO_EXT(-1), "hlt", XPX_NONE },
+
+ [XOP_NOT_RM1632] = { false, 0xf7, IDX_TO_EXT(2), "not", XPX_OPERAND_SIZE_OVERRIDE },
+
+
+ [XOP_CLD] = { false, 0xfc, IDX_TO_EXT(-1), "cld", XPX_NONE },
+
+ [XOP_CALL_RM1632] = { false, 0xff, IDX_TO_EXT(2), "call", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_JMP_RM1632] = { false, 0xff, IDX_TO_EXT(4), "jmp", XPX_OPERAND_SIZE_OVERRIDE },
+ [XOP_PUSH_RM1632] = { false, 0xff, IDX_TO_EXT(6), "push", XPX_OPERAND_SIZE_OVERRIDE }
+
+};
+
+
+
+
+
+/* Traduit une instruction en version humainement lisible. */
+static const char *x86_get_instruction_text(const GX86Instruction *, const exe_format *, AsmSyntax);
+
+
+
+
+
+
+/* Indique le type défini pour une instruction d'architecture x86. */
+G_DEFINE_TYPE(GX86Instruction, g_x86_instruction, G_TYPE_ARCH_INSTRUCTION);
+
+
+
+/******************************************************************************
+* *
+* Paramètres : klass = classe à initialiser. *
+* *
+* Description : Initialise la classe des instructions pour x86. *
+* *
+* Retour : - *
+* *
+* Remarques : - *
+* *
+******************************************************************************/
+
+static void g_x86_instruction_class_init(GX86InstructionClass *klass)
+{
+
+}
+
+
+/******************************************************************************
+* *
+* Paramètres : instr = instance à initialiser. *
+* *
+* Description : Initialise une instance d'instruction d'architecture x86. *
+* *
+* Retour : - *
+* *
+* Remarques : - *
+* *
+******************************************************************************/
+
+static void g_x86_instruction_init(GX86Instruction *instr)
+{
+ GArchInstruction *parent; /* Instance parente */
+
+ parent = G_ARCH_INSTRUCTION(instr);
+
+ parent->get_text = (get_instruction_text_fc)x86_get_instruction_text;
+
+}
+
+
+/******************************************************************************
+* *
+* Paramètres : type = type d'instruction à représenter. *
+* *
+* Description : Crée une instruction pour l'architecture x86. *
+* *
+* Retour : Architecture mise en place. *
+* *
+* Remarques : - *
+* *
+******************************************************************************/
+
+GArchInstruction *g_x86_instruction_new(X86Opcodes type)
+{
+ GArchInstruction *result; /* Structure à retourner */
+
+ result = g_object_new(G_TYPE_X86_INSTRUCTION, NULL);
+
+ G_X86_INSTRUCTION(result)->type = type;
+
+ return result;
+
+}
+
+
+/******************************************************************************
+* *
+* Paramètres : instr = instruction à venir compléter. *
+* prefixes = listes des préfixes rencontrés. *
+* *
+* Description : Attache à une instructions ses préfixes associés. *
+* *
+* Retour : - *
+* *
+* Remarques : - *
+* *
+******************************************************************************/
+
+void g_x86_instruction_set_prefixes(GX86Instruction *instr, X86Prefix prefixes)
+{
+ instr->prefixes = prefixes;
+
+}
+
+
+
+/* ---------------------------------------------------------------------------------- */
+/* AIDE A LA MISE EN PLACE D'INSTRUCTIONS */
+/* ---------------------------------------------------------------------------------- */
+
+
+/******************************************************************************
+* *
+* Paramètres : data = flux de données à analyser. *
+* pos = position courante dans ce flux. *
+* len = taille totale des données à analyser. *
+* prefix = éventuel(s) préfixe(s) remarqué(s). [OUT] *
+* care = la lecture de l'instr. veut-elle les opcodes ? [OUT]*
+* *
+* Description : Recherche l'identifiant de la prochaine instruction. *
+* *
+* Retour : Identifiant de la prochaine instruction à tenter de charger. *
+* *
+* Remarques : - *
+* *
+******************************************************************************/
+
+X86Opcodes x86_guess_next_instruction(const bin_t *data, off_t pos, off_t len, X86Prefix *prefix, bool *care)
+{
+ X86Opcodes result; /* Identifiant à retourner */
+ X86Prefix extra; /* Préfixes n'intervenant pas */
+ bin_t opcode; /* Opcode à trouver */
+
+ extra = XPX_NONE;
+ *prefix = XPX_NONE;
+
+ while (pos < len)
+ switch (data[pos])
+ {
+ case 0x66:
+ pos++;
+ *prefix |= XPX_OPERAND_SIZE_OVERRIDE;
+ break;
+ case 0xf2:
+ pos++;
+ extra |= XPX_REPEAT_STRING_OPERATION;
+ break;
+ default:
+ goto xgni_look_for;
+ break;
+ }
+
+ xgni_look_for:
+
+ if (pos == len) return XOP_COUNT;
+
+ opcode = data[pos];
+
+ for (result = 0; result < XOP_COUNT; result++)
+ {
+ if ((_instructions[result].prefix & *prefix) != *prefix) continue;
+
+ if (_instructions[result].opcode != opcode) continue;
+
+ if (_instructions[result].op_extension != IDX_TO_EXT(-1))
+ {
+ if ((pos + 1) == len) continue;
+ if (_instructions[result].op_extension != OPCODE_EXT(data[pos + 1])) continue;
+ }
+
+ *prefix |= extra;
+ *care = _instructions[result].care_of_data;
+ break;
+
+ }
+
+ return result;
+
+}
+
+
+/******************************************************************************
+* *
+* Paramètres : instr = instruction à traiter. *
+* format = format du binaire manipulé. *
+* syntax = type de représentation demandée. *
+* *
+* Description : Traduit une instruction en version humainement lisible. *
+* *
+* Retour : Chaîne de caractères à libérer de la mémoire. *
+* *
+* Remarques : - *
+* *
+******************************************************************************/
+
+static const char *x86_get_instruction_text(const GX86Instruction *instr, const exe_format *format, AsmSyntax syntax)
+{
+ const char *result; /* Chaîne à retourner */
+
+ result = strdup(_instructions[instr->type].keyword);
+
+ if (instr->prefixes & XPX_REPEAT_STRING_OPERATION)
+ result = strprep(result, "repnz ");
+
+ return result;
+
+}
diff --git a/src/arch/x86/op_jump.c b/src/arch/x86/op_jump.c
index 709ff24..be993f1 100644
--- a/src/arch/x86/op_jump.c
+++ b/src/arch/x86/op_jump.c
@@ -1,6 +1,6 @@
/* OpenIDA - Outil d'analyse de fichiers binaires
- * op_jump.c - décodage des sauts conditionnels
+ * op_jump.c - décodage des sauts inconditionnels
*
* Copyright (C) 2008 Cyrille Bagard
*
diff --git a/src/arch/x86/op_scas.c b/src/arch/x86/op_scas.c
new file mode 100644
index 0000000..2ec8230
--- /dev/null
+++ b/src/arch/x86/op_scas.c
@@ -0,0 +1,63 @@
+
+/* OpenIDA - Outil d'analyse de fichiers binaires
+ * op_scas.c - décodage des recherches dans des chaînes ASCII
+ *
+ * Copyright (C) 2009 Cyrille Bagard
+ *
+ * This file is part of OpenIDA.
+ *
+ * OpenIDA is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * OpenIDA is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with Foobar. If not, see <http://www.gnu.org/licenses/>.
+ */
+
+
+#include <malloc.h>
+
+
+#include "../instruction-int.h"
+#include "opcodes.h"
+#include "operand.h"
+
+
+
+/******************************************************************************
+* *
+* Paramètres : data = flux de données à analyser. *
+* pos = position courante dans ce flux. [OUT] *
+* len = taille totale des données à analyser. *
+* addr = adresse virtuelle de l'instruction. *
+* proc = architecture ciblée par le désassemblage. *
+* *
+* Description : Décode une instruction de type 'scas al, ...' (8 bits). *
+* *
+* Retour : Instruction mise en place ou NULL. *
+* *
+* Remarques : - *
+* *
+******************************************************************************/
+
+GArchInstruction *x86_read_instr_scas_al_m8(const bin_t *data, off_t *pos, off_t len, vmpa_t addr, X86Prefix prefix, const GX86Processor *proc)
+{
+ GArchInstruction *result; /* Instruction à retourner */
+
+ result = g_x86_instruction_new(XOP_SCAS_AL_M8);
+
+ if (!x86_read_two_operands(result, data, pos, len, X86_OTP_AL, X86_OTP_AL/*FIXME*/))
+ {
+ /* TODO free(result);*/
+ return NULL;
+ }
+
+ return result;
+
+}
diff --git a/src/arch/x86/operand.c b/src/arch/x86/operand.c
index e916541..5e01fd7 100644
--- a/src/arch/x86/operand.c
+++ b/src/arch/x86/operand.c
@@ -40,7 +40,7 @@
/* ---------------------- COQUILLE VIDE POUR LES OPERANDES X86 ---------------------- */
-/* Définition d'un opérande de la x86 (instance) */
+/* Définition d'un opérande de x86 (instance) */
struct _GX86Operand
{
GArchOperand parent; /* Instance parente */
@@ -48,7 +48,7 @@ struct _GX86Operand
};
-/* Définition d'un opérande de la x86 (classe) */
+/* Définition d'un opérande de x86 (classe) */
struct _GX86OperandClass
{
GArchOperandClass parent; /* Classe parente */
@@ -59,7 +59,7 @@ struct _GX86OperandClass
/* Initialise la classe des opérandes x86 de base. */
static void g_x86_operand_class_init(GX86OperandClass *);
-/* Initialise une instance d'opérande de base pour la x86. */
+/* Initialise une instance d'opérande de base pour x86. */
static void g_x86_operand_init(GX86Operand *);
@@ -224,7 +224,7 @@ static void g_x86_operand_class_init(GX86OperandClass *klass)
* *
* Paramètres : operand = instance à initialiser. *
* *
-* Description : Initialise une instance d'opérande de registre x86. *
+* Description : Initialise une instance d'opérande de base pour x86. *
* *
* Retour : - *
* *
@@ -297,7 +297,7 @@ static void g_x86_register_operand_init(GX86RegisterOperand *operand)
* size = taille de l'opérande, et donc du registre. *
* base = indice du premier registre. *
* *
-* Description : Crée un opérande visant un registre X86. *
+* Description : Crée un opérande visant un registre x86. *
* *
* Retour : Opérande mis en place. *
* *
@@ -336,7 +336,7 @@ GArchOperand *g_x86_register_operand_new_from_opcode(const bin_t *data, off_t *p
* size = taille de l'opérande, et donc du registre. *
* first = indique la partie du ModR/M à traiter. *
* *
-* Description : Crée un opérande visant un registre X86. *
+* Description : Crée un opérande visant un registre x86. *
* *
* Retour : Opérande mis en place. *
* *
@@ -376,7 +376,7 @@ GArchOperand *g_x86_register_operand_new_from_mod_rm(const bin_t *data, off_t *p
* Paramètres : index = indice du registre visé. *
* size = taille de l'opérande, et donc du registre. *
* *
-* Description : Crée un opérande visant un registre X86 donnée. *
+* Description : Crée un opérande visant un registre x86 donné. *
* *
* Retour : Opérande mis en place. *
* *
diff --git a/src/arch/x86/operand.h b/src/arch/x86/operand.h
index ebab200..1139fe2 100644
--- a/src/arch/x86/operand.h
+++ b/src/arch/x86/operand.h
@@ -41,10 +41,10 @@
#define G_X86_OPERAND_GET_IFACE(inst) (G_TYPE_INSTANCE_GET_INTERFACE((inst), g_x86_operand_get_type(), GX86OperandIface))
-/* Définition d'un opérande de la x86 (instance) */
+/* Définition d'un opérande de x86 (instance) */
typedef struct _GX86Operand GX86Operand;
-/* Définition d'un opérande de la x86 (classe) */
+/* Définition d'un opérande de x86 (classe) */
typedef struct _GX86OperandClass GX86OperandClass;
@@ -72,13 +72,13 @@ typedef struct _GX86RegisterOperandClass GX86RegisterOperandClass;
/* Indique le type défini par la GLib pour un opérande de registre x86. */
GType g_x86_register_operand_get_type(void);
-/* Crée un opérande visant un registre X86. */
+/* Crée un opérande visant un registre x86. */
GArchOperand *g_x86_register_operand_new_from_opcode(const bin_t *, off_t *, off_t, AsmOperandSize, bin_t);
-/* Crée un opérande visant un registre X86. */
+/* Crée un opérande visant un registre x86. */
GArchOperand *g_x86_register_operand_new_from_mod_rm(const bin_t *, off_t *, off_t, AsmOperandSize, bool);
-/* Crée un opérande visant un registre X86 donnée. */
+/* Crée un opérande visant un registre x86 donné. */
GArchOperand *g_x86_register_operand_new_from_index(bin_t, AsmOperandSize);
diff --git a/src/arch/x86/registers.c b/src/arch/x86/registers.c
new file mode 100644
index 0000000..802e2f6
--- /dev/null
+++ b/src/arch/x86/registers.c
@@ -0,0 +1,530 @@
+
+/* OpenIDA - Outil d'analyse de fichiers binaires
+ * registers.c - aides auxiliaires relatives aux registres x86
+ *
+ * Copyright (C) 2009 Cyrille Bagard
+ *
+ * This file is part of OpenIDA.
+ *
+ * OpenIDA is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * OpenIDA is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with Foobar. If not, see <http://www.gnu.org/licenses/>.
+ */
+
+
+#include "registers.h"
+
+
+#include <malloc.h>
+#include <stdio.h>
+
+
+
+/* Liste des registres 8 bits */
+typedef enum _X868bRegister
+{
+ X86_REG8_AL = 0, /* Registre AL */
+ X86_REG8_CL = 1, /* Registre AL */
+ X86_REG8_DL = 2, /* Registre AL */
+ X86_REG8_BL = 3, /* Registre AL */
+ X86_REG8_AH = 4, /* Registre AH */
+ X86_REG8_CH = 5, /* Registre AH */
+ X86_REG8_DH = 6, /* Registre AH */
+ X86_REG8_BH = 7, /* Registre AH */
+
+ X86_REG8_NONE /* Aucun registre */
+
+} X868bRegister;
+
+/* Liste des registres 16 bits */
+typedef enum _X8616bRegister
+{
+ X86_REG16_AX = 0, /* Registre AX */
+ X86_REG16_CX = 1, /* Registre AX */
+ X86_REG16_DX = 2, /* Registre AX */
+ X86_REG16_BX = 3, /* Registre AX */
+ X86_REG16_SP = 4, /* Registre SP */
+ X86_REG16_BP = 5, /* Registre BP */
+ X86_REG16_SI = 6, /* Registre SI */
+ X86_REG16_DI = 7, /* Registre DI */
+
+ X86_REG16_NONE /* Aucun registre */
+
+} X8616bRegister;
+
+/* Liste des registres 32 bits */
+typedef enum _X8632bRegister
+{
+ X86_REG32_EAX = 0, /* Registre EAX */
+ X86_REG32_ECX = 1, /* Registre EAX */
+ X86_REG32_EDX = 2, /* Registre EAX */
+ X86_REG32_EBX = 3, /* Registre EAX */
+ X86_REG32_ESP = 4, /* Registre ESP */
+ X86_REG32_EBP = 5, /* Registre EBP */
+ X86_REG32_ESI = 6, /* Registre ESI */
+ X86_REG32_EDI = 7, /* Registre EDI */
+
+ X86_REG32_NONE /* Aucun registre */
+
+} X8632bRegister;
+
+
+/* Registre x86 */
+struct _x86_register
+{
+ union
+ {
+ X868bRegister reg8; /* Registre 8 bits */
+ X8616bRegister reg16; /* Registre 16 bits */
+ X8632bRegister reg32; /* Registre 32 bits */
+
+ } reg;
+
+ AsmOperandSize size; /* Taille de ce registre */
+
+};
+
+
+
+/******************************************************************************
+* *
+* Paramètres : size = indique la taille du registre. *
+* value = valeur correspondant au registre. *
+* *
+* Description : Récupère l'indentifiant interne d'un registre. *
+* *
+* Retour : Registre définit ou NULL. *
+* *
+* Remarques : - *
+* *
+******************************************************************************/
+
+x86_register *get_x86_register(AsmOperandSize size, bin_t value)
+{
+ x86_register *result; /* Représentation à renvoyer */
+
+ result = (x86_register *)calloc(1, sizeof(x86_register));
+
+ result->size = size;
+
+ switch (size)
+ {
+ case AOS_8_BITS:
+ switch (value)
+ {
+ case 0 ... 7:
+ result->reg.reg8 = (X868bRegister)value;
+ break;
+ default:
+ goto gxr_error;
+ break;
+ }
+ break;
+
+ case AOS_16_BITS:
+ switch (value)
+ {
+ case 0 ... 7:
+ result->reg.reg16 = (X8616bRegister)value;
+ break;
+ default:
+ goto gxr_error;
+ break;
+ }
+ break;
+
+ case AOS_32_BITS:
+ switch (value)
+ {
+ case 0 ... 7:
+ result->reg.reg32 = (X8632bRegister)value;
+ break;
+ default:
+ goto gxr_error;
+ break;
+ }
+ break;
+
+ default:
+ goto gxr_error;
+ break;
+
+ }
+
+ return result;
+
+ gxr_error:
+
+ free(result);
+
+ return NULL;
+
+}
+
+
+/******************************************************************************
+* *
+* Paramètres : reg = registre à supprimer. *
+* *
+* Description : Efface de la mémoire l'indentifiant interne d'un registre. *
+* *
+* Retour : - *
+* *
+* Remarques : - *
+* *
+******************************************************************************/
+
+void free_x86_register(x86_register *reg)
+{
+ free(reg);
+
+}
+
+
+/******************************************************************************
+* *
+* Paramètres : reg = registre à consulter. *
+* *
+* Description : Indique si le registre correspond à ebp ou similaire. *
+* *
+* Retour : true si la correspondance est avérée, false sinon. *
+* *
+* Remarques : - *
+* *
+******************************************************************************/
+
+bool is_x86_register_base_pointer(const x86_register *reg)
+{
+ bool result; /* Bilan à remonter */
+
+ switch (reg->size)
+ {
+ case AOS_8_BITS_UNSIGNED:
+ case AOS_8_BITS_SIGNED:
+ result = (reg->reg.reg8 == X86_REG8_CH);
+ break;
+ case AOS_16_BITS_UNSIGNED:
+ case AOS_16_BITS_SIGNED:
+ result = (reg->reg.reg16 == X86_REG16_BP);
+ break;
+ case AOS_32_BITS_UNSIGNED:
+ case AOS_32_BITS_SIGNED:
+ result = (reg->reg.reg32 == X86_REG32_EBP);
+ break;
+ /*
+ case AOS_64_BITS_UNSIGNED:
+ case AOS_64_BITS_SIGNED:
+ result = (reg->reg.reg8 == X86_REG8_CH);
+ break;
+ */
+ default:
+ result = false;
+
+ }
+
+ return result;
+
+}
+
+
+/******************************************************************************
+* *
+* Paramètres : reg = registre à consulter. *
+* *
+* Description : Indique si le registre correspond à esp ou similaire. *
+* *
+* Retour : true si la correspondance est avérée, false sinon. *
+* *
+* Remarques : - *
+* *
+******************************************************************************/
+
+bool is_x86_register_stack_pointer(const x86_register *reg)
+{
+ bool result; /* Bilan à remonter */
+
+ switch (reg->size)
+ {
+ case AOS_8_BITS_UNSIGNED:
+ case AOS_8_BITS_SIGNED:
+ result = (reg->reg.reg8 == X86_REG8_AH);
+ break;
+ case AOS_16_BITS_UNSIGNED:
+ case AOS_16_BITS_SIGNED:
+ result = (reg->reg.reg16 == X86_REG16_SP);
+ break;
+ case AOS_32_BITS_UNSIGNED:
+ case AOS_32_BITS_SIGNED:
+ result = (reg->reg.reg32 == X86_REG32_ESP);
+ break;
+ /*
+ case AOS_64_BITS_UNSIGNED:
+ case AOS_64_BITS_SIGNED:
+ result = (reg->reg.reg8 == X86_REG8_CH);
+ break;
+ */
+ default:
+ result = false;
+
+ }
+
+ return result;
+
+}
+
+
+/******************************************************************************
+* *
+* Paramètres : reg = registre à imprimer. *
+* syntax = type de représentation demandée. *
+* *
+* Description : Traduit un registre x86 en texte. *
+* *
+* Retour : Traduction en chaîne à libérer de la mémoire. *
+* *
+* Remarques : - *
+* *
+******************************************************************************/
+
+char *x86_register_as_text(const x86_register *reg, AsmSyntax syntax)
+{
+ char *result; /* Chaîne à renvoyer */
+
+ result = (char *)calloc(5, sizeof(char));
+
+ switch (syntax)
+ {
+ case ASX_INTEL:
+ switch (reg->size)
+ {
+ case AOS_8_BITS:
+ switch (reg->reg.reg8)
+ {
+ case X86_REG8_AL:
+ snprintf(result, 5, "al");
+ break;
+ case X86_REG8_CL:
+ snprintf(result, 5, "cl");
+ break;
+ case X86_REG8_DL:
+ snprintf(result, 5, "dl");
+ break;
+ case X86_REG8_BL:
+ snprintf(result, 5, "bl");
+ break;
+ case X86_REG8_AH:
+ snprintf(result, 5, "ah");
+ break;
+ case X86_REG8_CH:
+ snprintf(result, 5, "ch");
+ break;
+ case X86_REG8_DH:
+ snprintf(result, 5, "dh");
+ break;
+ case X86_REG8_BH:
+ snprintf(result, 5, "bh");
+ break;
+ case X86_REG8_NONE:
+ /* Ne devrait jamais arriver */
+ break;
+ }
+ break;
+
+ case AOS_16_BITS:
+ switch (reg->reg.reg16)
+ {
+ case X86_REG16_AX:
+ snprintf(result, 5, "ax");
+ break;
+ case X86_REG16_CX:
+ snprintf(result, 5, "cx");
+ break;
+ case X86_REG16_DX:
+ snprintf(result, 5, "dx");
+ break;
+ case X86_REG16_BX:
+ snprintf(result, 5, "bx");
+ break;
+ case X86_REG16_SP:
+ snprintf(result, 5, "sp");
+ break;
+ case X86_REG16_BP:
+ snprintf(result, 5, "bp");
+ break;
+ case X86_REG16_SI:
+ snprintf(result, 5, "si");
+ break;
+ case X86_REG16_DI:
+ snprintf(result, 5, "di");
+ break;
+ case X86_REG16_NONE:
+ /* Ne devrait jamais arriver */
+ break;
+ }
+ break;
+
+ case AOS_32_BITS:
+ switch (reg->reg.reg32)
+ {
+ case X86_REG32_EAX:
+ snprintf(result, 5, "eax");
+ break;
+ case X86_REG32_ECX:
+ snprintf(result, 5, "ecx");
+ break;
+ case X86_REG32_EDX:
+ snprintf(result, 5, "edx");
+ break;
+ case X86_REG32_EBX:
+ snprintf(result, 5, "ebx");
+ break;
+ case X86_REG32_ESP:
+ snprintf(result, 5, "esp");
+ break;
+ case X86_REG32_EBP:
+ snprintf(result, 5, "ebp");
+ break;
+ case X86_REG32_ESI:
+ snprintf(result, 5, "esi");
+ break;
+ case X86_REG32_EDI:
+ snprintf(result, 5, "edi");
+ break;
+ case X86_REG32_NONE:
+ printf("null reg\n");
+ /* Ne devrait jamais arriver */
+ break;
+ }
+ break;
+
+ default:
+ break;
+
+ }
+ break;
+
+ case ASX_ATT:
+ switch (reg->size)
+ {
+ case AOS_8_BITS:
+ switch (reg->reg.reg8)
+ {
+ case X86_REG8_AL:
+ snprintf(result, 5, "%%al");
+ break;
+ case X86_REG8_CL:
+ snprintf(result, 5, "%%cl");
+ break;
+ case X86_REG8_DL:
+ snprintf(result, 5, "%%dl");
+ break;
+ case X86_REG8_BL:
+ snprintf(result, 5, "%%bl");
+ break;
+ case X86_REG8_AH:
+ snprintf(result, 5, "%%ah");
+ break;
+ case X86_REG8_CH:
+ snprintf(result, 5, "%%ch");
+ break;
+ case X86_REG8_DH:
+ snprintf(result, 5, "%%dh");
+ break;
+ case X86_REG8_BH:
+ snprintf(result, 5, "%%bh");
+ break;
+ case X86_REG8_NONE:
+ /* Ne devrait jamais arriver */
+ break;
+ }
+ break;
+
+ case AOS_16_BITS:
+ switch (reg->reg.reg16)
+ {
+ case X86_REG16_AX:
+ snprintf(result, 5, "%%ax");
+ break;
+ case X86_REG16_CX:
+ snprintf(result, 5, "%%cx");
+ break;
+ case X86_REG16_DX:
+ snprintf(result, 5, "%%dx");
+ break;
+ case X86_REG16_BX:
+ snprintf(result, 5, "%%bx");
+ break;
+ case X86_REG16_SP:
+ snprintf(result, 5, "%%sp");
+ break;
+ case X86_REG16_BP:
+ snprintf(result, 5, "%%bp");
+ break;
+ case X86_REG16_SI:
+ snprintf(result, 5, "%%si");
+ break;
+ case X86_REG16_DI:
+ snprintf(result, 5, "%%di");
+ break;
+ case X86_REG16_NONE:
+ /* Ne devrait jamais arriver */
+ break;
+ }
+ break;
+
+ case AOS_32_BITS:
+ switch (reg->reg.reg32)
+ {
+ case X86_REG32_EAX:
+ snprintf(result, 5, "%%eax");
+ break;
+ case X86_REG32_ECX:
+ snprintf(result, 5, "%%ecx");
+ break;
+ case X86_REG32_EDX:
+ snprintf(result, 5, "%%edx");
+ break;
+ case X86_REG32_EBX:
+ snprintf(result, 5, "%%ebx");
+ break;
+ case X86_REG32_ESP:
+ snprintf(result, 5, "%%esp");
+ break;
+ case X86_REG32_EBP:
+ snprintf(result, 5, "%%ebp");
+ break;
+ case X86_REG32_ESI:
+ snprintf(result, 5, "%%esi");
+ break;
+ case X86_REG32_EDI:
+ snprintf(result, 5, "%%edi");
+ break;
+ case X86_REG32_NONE:
+ /* Ne devrait jamais arriver */
+ break;
+ }
+ break;
+
+ default:
+ break;
+
+ }
+ break;
+
+ default:
+ break;
+
+ }
+
+ return result;
+
+}
diff --git a/src/arch/x86/registers.h b/src/arch/x86/registers.h
new file mode 100644
index 0000000..491d5bc
--- /dev/null
+++ b/src/arch/x86/registers.h
@@ -0,0 +1,54 @@
+
+/* OpenIDA - Outil d'analyse de fichiers binaires
+ * registers.h - prototypes pour les aides auxiliaires relatives aux registres x86
+ *
+ * Copyright (C) 2009 Cyrille Bagard
+ *
+ * This file is part of OpenIDA.
+ *
+ * OpenIDA is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * OpenIDA is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with Foobar. If not, see <http://www.gnu.org/licenses/>.
+ */
+
+
+#ifndef _ARCH_X86_REGISTERS_H
+#define _ARCH_X86_REGISTERS_H
+
+
+#include "../archbase.h"
+#include "../operand.h"
+
+
+
+/* Registre x86 */
+typedef struct _x86_register x86_register;
+
+
+/* Récupère l'indentifiant interne d'un registre. */
+x86_register *get_x86_register(AsmOperandSize, bin_t);
+
+/* Efface de la mémoire l'indentifiant interne d'un registre. */
+void free_x86_register(x86_register *);
+
+/* Indique si le registre correspond à ebp ou similaire. */
+bool is_x86_register_base_pointer(const x86_register *);
+
+/* Indique si le registre correspond à esp ou similaire. */
+bool is_x86_register_stack_pointer(const x86_register *);
+
+/* Traduit un registre x86 en texte. */
+char *x86_register_as_text(const x86_register *, AsmSyntax);
+
+
+
+#endif /* _ARCH_X86_REGISTERS_H */