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nest-open-source / nest-cam / v366 / breakpad / refs/heads/main / . / src / third_party / libdisasm / ia32_implicit.c
blob: 8b075d2ee04003e5cbf790f7f47500a9e1c96f26 [file] [log] [blame]
#include <stdlib.h>
#include "ia32_implicit.h"
#include "ia32_insn.h"
#include "ia32_reg.h"
#include "x86_operand_list.h"
/* Conventions: Register operands which are aliases of another register
* operand (e.g. AX in one operand and AL in another) assume that the
* operands are different registers and that alias tracking will resolve
* data flow. This means that something like
* mov ax, al
* would have 'write only' access for AX and 'read only' access for AL,
* even though both AL and AX are read and written */
typedef struct {
uint32_t type;
uint32_t operand;
} op_implicit_list_t;
static op_implicit_list_t list_aaa[] =
/* 37 : AAA : rw AL */
/* 3F : AAS : rw AL */
{{ OP_R | OP_W, REG_BYTE_OFFSET }, {0}}; /* aaa */
static op_implicit_list_t list_aad[] =
/* D5 0A, D5 (ib) : AAD : rw AX */
/* D4 0A, D4 (ib) : AAM : rw AX */
{{ OP_R | OP_W, REG_WORD_OFFSET }, {0}}; /* aad */
static op_implicit_list_t list_call[] =
/* E8, FF, 9A, FF : CALL : rw ESP, rw EIP */
/* C2, C3, CA, CB : RET : rw ESP, rw EIP */
{{ OP_R | OP_W, REG_EIP_INDEX },
{ OP_R | OP_W, REG_ESP_INDEX }, {0}}; /* call, ret */
static op_implicit_list_t list_cbw[] =
/* 98 : CBW : r AL, rw AX */
{{ OP_R | OP_W, REG_WORD_OFFSET },
{ OP_R, REG_BYTE_OFFSET}, {0}}; /* cbw */
static op_implicit_list_t list_cwde[] =
/* 98 : CWDE : r AX, rw EAX */
{{ OP_R | OP_W, REG_DWORD_OFFSET },
{ OP_R, REG_WORD_OFFSET }, {0}}; /* cwde */
static op_implicit_list_t list_clts[] =
/* 0F 06 : CLTS : rw CR0 */
{{ OP_R | OP_W, REG_CTRL_OFFSET}, {0}}; /* clts */
static op_implicit_list_t list_cmpxchg[] =
/* 0F B0 : CMPXCHG : rw AL */
{{ OP_R | OP_W, REG_BYTE_OFFSET }, {0}}; /* cmpxchg */
static op_implicit_list_t list_cmpxchgb[] =
/* 0F B1 : CMPXCHG : rw EAX */
{{ OP_R | OP_W, REG_DWORD_OFFSET }, {0}}; /* cmpxchg */
static op_implicit_list_t list_cmpxchg8b[] =
/* 0F C7 : CMPXCHG8B : rw EDX, rw EAX, r ECX, r EBX */
{{ OP_R | OP_W, REG_DWORD_OFFSET },
{ OP_R | OP_W, REG_DWORD_OFFSET + 2 },
{ OP_R, REG_DWORD_OFFSET + 1 },
{ OP_R, REG_DWORD_OFFSET + 3 }, {0}}; /* cmpxchg8b */
static op_implicit_list_t list_cpuid[] =
/* 0F A2 : CPUID : rw EAX, w EBX, w ECX, w EDX */
{{ OP_R | OP_W, REG_DWORD_OFFSET },
{ OP_W, REG_DWORD_OFFSET + 1 },
{ OP_W, REG_DWORD_OFFSET + 2 },
{ OP_W, REG_DWORD_OFFSET + 3 }, {0}}; /* cpuid */
static op_implicit_list_t list_cwd[] =
/* 99 : CWD/CWQ : rw EAX, w EDX */
{{ OP_R | OP_W, REG_DWORD_OFFSET },
{ OP_W, REG_DWORD_OFFSET + 2 }, {0}}; /* cwd */
static op_implicit_list_t list_daa[] =
/* 27 : DAA : rw AL */
/* 2F : DAS : rw AL */
{{ OP_R | OP_W, REG_BYTE_OFFSET }, {0}}; /* daa */
static op_implicit_list_t list_idiv[] =
/* F6 : DIV, IDIV : r AX, w AL, w AH */
/* FIXED: first op was EAX, not Aw. TODO: verify! */
{{ OP_R, REG_WORD_OFFSET },
{ OP_W, REG_BYTE_OFFSET },
{ OP_W, REG_BYTE_OFFSET + 4 }, {0}}; /* div */
static op_implicit_list_t list_div[] =
/* F7 : DIV, IDIV : rw EDX, rw EAX */
{{ OP_R | OP_W, REG_DWORD_OFFSET + 2 },
{ OP_R | OP_W, REG_DWORD_OFFSET }, {0}}; /* div */
static op_implicit_list_t list_enter[] =
/* C8 : ENTER : rw ESP w EBP */
{{ OP_R | OP_W, REG_DWORD_OFFSET + 4 },
{ OP_R, REG_DWORD_OFFSET + 5 }, {0}}; /* enter */
static op_implicit_list_t list_f2xm1[] =
/* D9 F0 : F2XM1 : rw ST(0) */
/* D9 E1 : FABS : rw ST(0) */
/* D9 E0 : FCHS : rw ST(0) */
/* D9 FF : FCOS : rw ST(0)*/
/* D8, DA : FDIV : rw ST(0) */
/* D8, DA : FDIVR : rw ST(0) */
/* D9 F2 : FPTAN : rw ST(0) */
/* D9 FC : FRNDINT : rw ST(0) */
/* D9 FB : FSINCOS : rw ST(0) */
/* D9 FE : FSIN : rw ST(0) */
/* D9 FA : FSQRT : rw ST(0) */
/* D9 F4 : FXTRACT : rw ST(0) */
{{ OP_R | OP_W, REG_FPU_OFFSET }, {0}}; /* f2xm1 */
static op_implicit_list_t list_fcom[] =
/* D8, DC, DE D9 : FCOM : r ST(0) */
/* DE, DA : FICOM : r ST(0) */
/* DF, D8 : FIST : r ST(0) */
/* D9 E4 : FTST : r ST(0) */
/* D9 E5 : FXAM : r ST(0) */
{{ OP_R, REG_FPU_OFFSET }, {0}}; /* fcom */
static op_implicit_list_t list_fpatan[] =
/* D9 F3 : FPATAN : r ST(0), rw ST(1) */
{{ OP_R, REG_FPU_OFFSET }, {0}}; /* fpatan */
static op_implicit_list_t list_fprem[] =
/* D9 F8, D9 F5 : FPREM : rw ST(0) r ST(1) */
/* D9 FD : FSCALE : rw ST(0), r ST(1) */
{{ OP_R | OP_W, REG_FPU_OFFSET },
{ OP_R, REG_FPU_OFFSET + 1 }, {0}}; /* fprem */
static op_implicit_list_t list_faddp[] =
/* DE C1 : FADDP : r ST(0), rw ST(1) */
/* DE E9 : FSUBP : r ST(0), rw ST(1) */
/* D9 F1 : FYL2X : r ST(0), rw ST(1) */
/* D9 F9 : FYL2XP1 : r ST(0), rw ST(1) */
{{ OP_R, REG_FPU_OFFSET },
{ OP_R | OP_W, REG_FPU_OFFSET + 1 }, {0}}; /* faddp */
static op_implicit_list_t list_fucompp[] =
/* DA E9 : FUCOMPP : r ST(0), r ST(1) */
{{ OP_R, REG_FPU_OFFSET },
{ OP_R, REG_FPU_OFFSET + 1 }, {0}}; /* fucompp */
static op_implicit_list_t list_imul[] =
/* F6 : IMUL : r AL, w AX */
/* F6 : MUL : r AL, w AX */
{{ OP_R, REG_BYTE_OFFSET },
{ OP_W, REG_WORD_OFFSET }, {0}}; /* imul */
static op_implicit_list_t list_mul[] =
/* F7 : IMUL : rw EAX, w EDX */
/* F7 : MUL : rw EAX, w EDX */
{{ OP_R | OP_W, REG_DWORD_OFFSET },
{ OP_W, REG_DWORD_OFFSET + 2 }, {0}}; /* imul */
static op_implicit_list_t list_lahf[] =
/* 9F : LAHF : r EFLAGS, w AH */
{{ OP_R, REG_FLAGS_INDEX },
{ OP_W, REG_BYTE_OFFSET + 4 }, {0}}; /* lahf */
static op_implicit_list_t list_ldmxcsr[] =
/* 0F AE : LDMXCSR : w MXCSR SSE Control Status Reg */
{{ OP_W, REG_MXCSG_INDEX }, {0}}; /* ldmxcsr */
static op_implicit_list_t list_leave[] =
/* C9 : LEAVE : rw ESP, w EBP */
{{ OP_R | OP_W, REG_ESP_INDEX },
{ OP_W, REG_DWORD_OFFSET + 5 }, {0}}; /* leave */
static op_implicit_list_t list_lgdt[] =
/* 0F 01 : LGDT : w GDTR */
{{ OP_W, REG_GDTR_INDEX }, {0}}; /* lgdt */
static op_implicit_list_t list_lidt[] =
/* 0F 01 : LIDT : w IDTR */
{{ OP_W, REG_IDTR_INDEX }, {0}}; /* lidt */
static op_implicit_list_t list_lldt[] =
/* 0F 00 : LLDT : w LDTR */
{{ OP_W, REG_LDTR_INDEX }, {0}}; /* lldt */
static op_implicit_list_t list_lmsw[] =
/* 0F 01 : LMSW : w CR0 */
{{ OP_W, REG_CTRL_OFFSET }, {0}}; /* lmsw */
static op_implicit_list_t list_loop[] =
/* E0, E1, E2 : LOOP : rw ECX */
{{ OP_R | OP_W, REG_DWORD_OFFSET + 1 }, {0}};/* loop */
static op_implicit_list_t list_ltr[] =
/* 0F 00 : LTR : w Task Register */
{{ OP_W, REG_TR_INDEX }, {0}}; /* ltr */
static op_implicit_list_t list_pop[] =
/* 8F, 58, 1F, 07, 17, 0F A1, 0F A9 : POP : rw ESP */
/* FF, 50, 6A, 68, 0E, 16, 1E, 06, 0F A0, 0F A8 : PUSH : rw ESP */
{{ OP_R | OP_W, REG_ESP_INDEX }, {0}}; /* pop, push */
static op_implicit_list_t list_popad[] =
/* 61 : POPAD : rw esp, w edi esi ebp ebx edx ecx eax */
{{ OP_R | OP_W, REG_ESP_INDEX },
{ OP_W, REG_DWORD_OFFSET + 7 },
{ OP_W, REG_DWORD_OFFSET + 6 },
{ OP_W, REG_DWORD_OFFSET + 5 },
{ OP_W, REG_DWORD_OFFSET + 3 },
{ OP_W, REG_DWORD_OFFSET + 2 },
{ OP_W, REG_DWORD_OFFSET + 1 },
{ OP_W, REG_DWORD_OFFSET }, {0}}; /* popad */
static op_implicit_list_t list_popfd[] =
/* 9D : POPFD : rw esp, w eflags */
{{ OP_R | OP_W, REG_ESP_INDEX },
{ OP_W, REG_FLAGS_INDEX }, {0}}; /* popfd */
static op_implicit_list_t list_pushad[] =
/* FF, 50, 6A, 68, 0E, 16, 1E, 06, 0F A0, 0F A8 : PUSH : rw ESP */
/* 60 : PUSHAD : rw esp, r eax ecx edx ebx esp ebp esi edi */
{{ OP_R | OP_W, REG_ESP_INDEX },
{ OP_R, REG_DWORD_OFFSET },
{ OP_R, REG_DWORD_OFFSET + 1 },
{ OP_R, REG_DWORD_OFFSET + 2 },
{ OP_R, REG_DWORD_OFFSET + 3 },
{ OP_R, REG_DWORD_OFFSET + 5 },
{ OP_R, REG_DWORD_OFFSET + 6 },
{ OP_R, REG_DWORD_OFFSET + 7 }, {0}}; /* pushad */
static op_implicit_list_t list_pushfd[] =
/* 9C : PUSHFD : rw esp, r eflags */
{{ OP_R | OP_W, REG_ESP_INDEX },
{ OP_R, REG_FLAGS_INDEX }, {0}}; /* pushfd */
static op_implicit_list_t list_rdmsr[] =
/* 0F 32 : RDMSR : r ECX, w EDX, w EAX */
{{ OP_R, REG_DWORD_OFFSET + 1 },
{ OP_W, REG_DWORD_OFFSET + 2 },
{ OP_W, REG_DWORD_OFFSET }, {0}}; /* rdmsr */
static op_implicit_list_t list_rdpmc[] =
/* 0F 33 : RDPMC : r ECX, w EDX, w EAX */
{{ OP_R, REG_DWORD_OFFSET + 1 },
{ OP_W, REG_DWORD_OFFSET + 2 },
{ OP_W, REG_DWORD_OFFSET }, {0}}; /* rdpmc */
static op_implicit_list_t list_rdtsc[] =
/* 0F 31 : RDTSC : rw EDX, rw EAX */
{{ OP_R | OP_W, REG_DWORD_OFFSET + 2 },
{ OP_R | OP_W, REG_DWORD_OFFSET }, {0}}; /* rdtsc */
static op_implicit_list_t list_rep[] =
/* F3, F2 ... : REP : rw ECX */
{{ OP_R | OP_W, REG_DWORD_OFFSET + 1 }, {0}};/* rep */
static op_implicit_list_t list_rsm[] =
/* 0F AA : RSM : r CR4, r CR0 */
{{ OP_R, REG_CTRL_OFFSET + 4 },
{ OP_R, REG_CTRL_OFFSET }, {0}}; /* rsm */
static op_implicit_list_t list_sahf[] =
/* 9E : SAHF : r ah, rw eflags (set SF ZF AF PF CF) */
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* sahf */
static op_implicit_list_t list_sgdt[] =
/* 0F : SGDT : r gdtr */
/* TODO: finish this! */
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* sgdt */
static op_implicit_list_t list_sidt[] =
/* 0F : SIDT : r idtr */
/* TODO: finish this! */
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* sidt */
static op_implicit_list_t list_sldt[] =
/* 0F : SLDT : r ldtr */
/* TODO: finish this! */
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* sldt */
static op_implicit_list_t list_smsw[] =
/* 0F : SMSW : r CR0 */
/* TODO: finish this! */
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* smsw */
static op_implicit_list_t list_stmxcsr[] =
/* 0F AE : STMXCSR : r MXCSR */
/* TODO: finish this! */
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* stmxcsr */
static op_implicit_list_t list_str[] =
/* 0F 00 : STR : r TR (task register) */
/* TODO: finish this! */
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* str */
static op_implicit_list_t list_sysenter[] =
/* 0F 34 : SYSENTER : w cs, w eip, w ss, w esp, r CR0, w eflags
* r sysenter_cs_msr, sysenter_esp_msr, sysenter_eip_msr */
/* TODO: finish this! */
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* sysenter */
static op_implicit_list_t list_sysexit[] =
/* 0F 35 : SYSEXIT : r edx, r ecx, w cs, w eip, w ss, w esp
* r sysenter_cs_msr */
/* TODO: finish this! */
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* sysexit */
static op_implicit_list_t list_wrmsr[] =
/* 0F 30 : WRMST : r edx, r eax, r ecx */
/* TODO: finish this! */
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* wrmsr */
static op_implicit_list_t list_xlat[] =
/* D7 : XLAT : rw al r ebx (ptr) */
/* TODO: finish this! */
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* xlat */
/* TODO:
* monitor 0f 01 c8 eax OP_R ecx OP_R edx OP_R
* mwait 0f 01 c9 eax OP_R ecx OP_R
*/
static op_implicit_list_t list_monitor[] =
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* monitor */
static op_implicit_list_t list_mwait[] =
{{ OP_R, REG_DWORD_OFFSET }, {0}}; /* mwait */
op_implicit_list_t *op_implicit_list[] = {
/* This is a list of implicit operands which are read/written by
* various x86 instructions. Note that modifications to the stack
* register are mentioned here, but that additional information on
* the effect an instruction has on the stack is contained in the
* x86_insn_t 'stack_mod' and 'stack_mod_val' fields. Use of the
* eflags register, i.e. setting, clearing, and testing flags, is
* not recorded here but rather in the flags_set and flags_tested
* fields of the x86_insn_t.*/
NULL,
list_aaa, list_aad, list_call, list_cbw, /* 1 - 4 */
list_cwde, list_clts, list_cmpxchg, list_cmpxchgb, /* 5 - 8 */
list_cmpxchg8b, list_cpuid, list_cwd, list_daa, /* 9 - 12 */
list_idiv, list_div, list_enter, list_f2xm1, /* 13 - 16 */
list_fcom, list_fpatan, list_fprem, list_faddp, /* 17 - 20 */
list_fucompp, list_imul, list_mul, list_lahf, /* 21 - 24 */
list_ldmxcsr, list_leave, list_lgdt, list_lidt, /* 25 - 28 */
list_lldt, list_lmsw, list_loop, list_ltr, /* 29 - 32 */
list_pop, list_popad, list_popfd, list_pushad, /* 33 - 36 */
list_pushfd, list_rdmsr, list_rdpmc, list_rdtsc, /* 37 - 40 */
/* NOTE: 'REP' is a hack since it is a prefix: if its position
* in the table changes, then change IDX_IMPLICIT_REP in the .h */
list_rep, list_rsm, list_sahf, list_sgdt, /* 41 - 44 */
list_sidt, list_sldt, list_smsw, list_stmxcsr, /* 45 - 48 */
list_str, list_sysenter, list_sysexit, list_wrmsr, /* 49 - 52 */
list_xlat, list_monitor, list_mwait, /* 53 - 55*/
NULL /* end of list */
};
#define LAST_IMPL_IDX 55
static void handle_impl_reg( x86_op_t *op, uint32_t val ) {
x86_reg_t *reg = &op->data.reg;
op->type = op_register;
ia32_handle_register( reg, (unsigned int) val );
switch (reg->size) {
case 1:
op->datatype = op_byte; break;
case 2:
op->datatype = op_word; break;
case 4:
op->datatype = op_dword; break;
case 8:
op->datatype = op_qword; break;
case 10:
op->datatype = op_extreal; break;
case 16:
op->datatype = op_dqword; break;
}
return;
}
/* 'impl_idx' is the value from the opcode table: between 1 and LAST_IMPL_IDX */
/* returns number of operands added */
unsigned int ia32_insn_implicit_ops( x86_insn_t *insn, unsigned int impl_idx ) {
op_implicit_list_t *list;
x86_op_t *op;
unsigned int num = 0;
if (! impl_idx || impl_idx > LAST_IMPL_IDX ) {
return 0;
}
for ( list = op_implicit_list[impl_idx]; list->type; list++, num++ ) {
enum x86_op_access access = (enum x86_op_access) OP_PERM(list->type);
enum x86_op_flags flags = (enum x86_op_flags) (OP_FLAGS(list->type) >> 12);
op = NULL;
/* In some cases (MUL), EAX is an implicit operand hardcoded in
* the instruction without being explicitly listed in assembly.
* For this situation, find the hardcoded operand and add the
* implied flag rather than adding a new implicit operand. */
x86_oplist_t * existing;
if (ia32_true_register_id(list->operand) == REG_DWORD_OFFSET) {
for ( existing = insn->operands; existing; existing = existing->next ) {
if (existing->op.type == op_register &&
existing->op.data.reg.id == list->operand) {
op = &existing->op;
break;
}
}
}
if (!op) {
op = x86_operand_new( insn );
/* all implicit operands are registers */
handle_impl_reg( op, list->operand );
/* decrement the 'explicit count' incremented by default in
* x86_operand_new */
insn->explicit_count = insn->explicit_count -1;
}
if (!op) {
return num; /* gah! return early */
}
op->access |= access;
op->flags |= flags;
op->flags |= op_implied;
}
return num;
}