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authoriximeow <me@iximeow.net>2020-07-27 01:13:58 -0700
committeriximeow <me@iximeow.net>2020-08-09 01:32:53 -0700
commit8f9cb0010ad933e308ab66bbac1caa712b6fed6b (patch)
tree57bdb433d9c2948ec577d7cd34e997e5ee6628e6 /src/long_mode
parentfdfec2663a2861f033145018ce1478981c16708b (diff)
change it all around
add `OperandCodeBuilder` to help manage allocation of enum variant values, since bit patterns of `OperandCode` are very load-bearing for decoding
Diffstat (limited to 'src/long_mode')
-rw-r--r--src/long_mode/mod.rs680
1 files changed, 489 insertions, 191 deletions
diff --git a/src/long_mode/mod.rs b/src/long_mode/mod.rs
index 35e9c60..5f594ad 100644
--- a/src/long_mode/mod.rs
+++ b/src/long_mode/mod.rs
@@ -3182,27 +3182,186 @@ impl PrefixRex {
}
}
+#[derive(Debug)]
+struct OperandCodeBuilder {
+ bits: u16
+}
+
+#[allow(non_camel_case_types)]
+enum ZOperandCategory {
+ Zv_R = 0,
+ Zv_AX = 1,
+ Zb_Ib_R = 2,
+ Zv_Ivq_R = 3,
+}
+
+struct ZOperandInstructions {
+ bits: u16
+}
+
+impl ZOperandInstructions {
+ fn category(&self) -> u8 {
+ (self.bits >> 4) as u8 & 0b11
+ }
+ fn reg(&self) -> u8 {
+ (self.bits & 0b111) as u8
+ }
+}
+
+struct EmbeddedOperandInstructions {
+ bits: u16
+}
+
+impl EmbeddedOperandInstructions {
+ fn bits(&self) -> u16 {
+ self.bits
+ }
+}
+
+impl OperandCodeBuilder {
+ const fn new() -> Self {
+ OperandCodeBuilder { bits: 0 }
+ }
+
+ const fn bits(&self) -> u16 {
+ self.bits
+ }
+
+ const fn from_bits(bits: u16) -> Self {
+ Self { bits }
+ }
+
+ const fn read_modrm(mut self) -> Self {
+ self.bits |= 0x8000;
+ self
+ }
+
+ const fn op0_is_rrr_and_embedded_instructions(mut self) -> Self {
+ self = self.set_embedded_instructions();
+ self.bits |= 0x2000;
+ self
+ }
+
+ const fn set_embedded_instructions(mut self) -> Self {
+ self.bits |= 0x4000;
+ self
+ }
+
+ fn op0_is_rrr(&self) -> bool {
+ self.bits & 0x2000 != 0
+ }
+
+ fn has_embedded_instructions(&self) -> bool {
+ self.bits & 0x4000 != 0
+ }
+
+ fn get_embedded_instructions(&self) -> Result<ZOperandInstructions, EmbeddedOperandInstructions> {
+ // 0x4000 indicates embedded instructions
+ // 0x3fff > 0x0080 indicates the embedded instructions are a Z-style operand
+ if self.bits & 0x7f80 <= 0x407f {
+ Ok(ZOperandInstructions { bits: self.bits })
+ } else {
+ Err(EmbeddedOperandInstructions { bits: self.bits })
+ }
+ }
+
+ fn special_case_handler_index(&self) -> u16 {
+ self.bits & 0x1ff
+ }
+
+ const fn special_case(mut self, case: u16) -> Self {
+ // leave 0x4000 unset
+ self.bits |= case & 0x1ff;
+ self
+ }
+
+ const fn operand_case(mut self, case: u16) -> Self {
+ // leave 0x4000 unset
+ self.bits |= case & 0xff;
+ self
+ }
+
+ const fn op0_is_rrr_and_Z_operand(mut self, category: ZOperandCategory, reg_num: u8) -> Self {
+ self = self.set_embedded_instructions();
+ // if op0 is rrr, 0x2000 unset indicates the operand category written in bits 11:10
+ // further, reg number is bits 0:2
+ //
+ // when 0x2000 is unset:
+ // 0x1cf8 are all unused bits, so far
+ //
+ // if you're counting, that's 8 bits remaining.
+ // it also means one of those (0x0400?) can be used to pick some other interpretation
+ // scheme.
+ self.bits |= (category as u8 as u16) << 4;
+ self.bits |= reg_num as u16 & 0b111;
+ self
+ }
+
+ const fn read_E(mut self) -> Self {
+ self.bits |= 0x1000;
+ self
+ }
+
+ const fn has_read_E(&self) -> bool {
+ self.bits & 0x1000 != 0
+ }
+
+ const fn byte_operands(mut self) -> Self {
+ self.bits |= 0x0800;
+ self
+ }
+
+ const fn mem_reg(mut self) -> Self {
+ self.bits |= 0x0400;
+ self
+ }
+
+ const fn reg_mem(self) -> Self {
+ // 0x0400 unset
+ self
+ }
+
+ const fn has_byte_operands(&self) -> bool {
+ (self.bits & 0x0800) != 0
+ }
+
+ const fn has_mem_reg(&self) -> bool {
+ (self.bits & 0x0400) != 0
+ }
+
+ const fn has_reg_mem(&self) -> bool {
+ (self.bits & 0x0400) == 0
+ }
+
+ const fn only_modrm_operands(mut self) -> Self {
+ self.bits |= 0x0200;
+ self
+ }
+
+ const fn is_only_modrm_operands(&self) -> bool {
+ self.bits & 0x0200 != 0
+ }
+}
+
#[allow(non_camel_case_types)]
// might be able to pack these into a u8, but with `Operand` being u16 as well now there's little
// point. table entries will have a padding byte per record already.
//
// many of the one-off per-opcode variants could be written as 'decide based on opcode' but trying
// to pack this more tightly only makes sense if opcode were smaller, to get some space savings.
+//
+// bit 15 is "read modrm?"
+// 0bMxxx_xxxx_xxxx_xxxx
+// |
+// |
+// |
+// |
+// |
+// |
+// ---------------------------> read modr/m?
#[repr(u16)]
#[derive(Copy, Clone, Debug, PartialEq)]
pub enum OperandCode {
- ModRM_0x0f00,
- ModRM_0x0f01,
- ModRM_0x0f0d,
- ModRM_0x0fae,
- ModRM_0x0fba,
- ModRM_0xf238,
- ModRM_0xf30fae,
- ModRM_0x660fae,
- ModRM_0xf30fc7,
- ModRM_0x660f38,
- ModRM_0xf30f38,
- ModRM_0x660f3a,
CVT_AA,
CVT_DA,
Rq_Cq_0,
@@ -3218,7 +3377,6 @@ pub enum OperandCode {
AH,
AX_Xv,
// DX_AX,
- E_G_xmm,
// Ev_Ivs,
Ew_Sw,
Fw,
@@ -3236,25 +3394,171 @@ pub enum OperandCode {
Yb_Xb,
Yv_AX,
Yv_Xv,
- G_E_q,
+ G_E_q = 0x8b00,
E_G_q,
- G_mm_Ew_Ib,
+ G_mm_Ew_Ib = 0x8c00,
Mq_Dq,
- ModRM_0x0f38,
- ModRM_0x0f3a,
- ModRM_0x0f71,
- ModRM_0x0f72,
- ModRM_0x0f73,
- ModRM_0x660f12,
- ModRM_0x660f16,
- ModRM_0x660f71,
- ModRM_0x660f72,
- ModRM_0x660f73,
- ModRM_0x660fc7,
- ModRM_0x0fc7,
Nothing,
// Implied,
Unsupported,
+ ModRM_0x0f00 = OperandCodeBuilder::new().read_modrm().special_case(0).bits(),
+ ModRM_0x0f01 = OperandCodeBuilder::new().read_modrm().special_case(1).bits(),
+ ModRM_0x0f0d = OperandCodeBuilder::new().read_modrm().special_case(2).bits(),
+ ModRM_0x0fae = OperandCodeBuilder::new().read_modrm().special_case(3).bits(),
+ ModRM_0x0fba = OperandCodeBuilder::new().read_modrm().special_case(4).bits(),
+ ModRM_0xf238 = OperandCodeBuilder::new().read_modrm().special_case(5).bits(),
+ ModRM_0xf30fae = OperandCodeBuilder::new().read_modrm().special_case(6).bits(),
+ ModRM_0x660fae = OperandCodeBuilder::new().read_modrm().special_case(7).bits(),
+ ModRM_0xf30fc7 = OperandCodeBuilder::new().read_modrm().special_case(8).bits(),
+ ModRM_0x660f38 = OperandCodeBuilder::new().read_modrm().special_case(9).bits(),
+ ModRM_0xf30f38 = OperandCodeBuilder::new().read_modrm().special_case(10).bits(),
+ ModRM_0x660f3a = OperandCodeBuilder::new().read_modrm().special_case(11).bits(),
+ ModRM_0x0f38 = OperandCodeBuilder::new().read_modrm().special_case(12).bits(),
+ ModRM_0x0f3a = OperandCodeBuilder::new().read_modrm().special_case(13).bits(),
+ ModRM_0x0f71 = OperandCodeBuilder::new().read_modrm().special_case(14).bits(),
+ ModRM_0x0f72 = OperandCodeBuilder::new().read_modrm().special_case(15).bits(),
+ ModRM_0x0f73 = OperandCodeBuilder::new().read_modrm().special_case(16).bits(),
+ ModRM_0x660f12 = OperandCodeBuilder::new().read_modrm().special_case(17).bits(),
+ ModRM_0x660f16 = OperandCodeBuilder::new().read_modrm().special_case(18).bits(),
+ ModRM_0x660f71 = OperandCodeBuilder::new().read_modrm().special_case(19).bits(),
+ ModRM_0x660f72 = OperandCodeBuilder::new().read_modrm().special_case(20).bits(),
+ ModRM_0x660f73 = OperandCodeBuilder::new().read_modrm().special_case(21).bits(),
+ ModRM_0x660fc7 = OperandCodeBuilder::new().read_modrm().special_case(22).bits(),
+ ModRM_0x0fc7 = OperandCodeBuilder::new().read_modrm().special_case(23).bits(),
+ // xmmword?
+ ModRM_0x0f12 = OperandCodeBuilder::new()
+ .read_modrm()
+ .op0_is_rrr_and_embedded_instructions()
+ .read_E()
+ .reg_mem()
+ .operand_case(0)
+ .bits(),
+ // xmmword?
+ ModRM_0x0f16 = OperandCodeBuilder::new()
+ .read_modrm()
+ .op0_is_rrr_and_embedded_instructions()
+ .read_E()
+ .reg_mem()
+ .operand_case(1)
+ .bits(),
+ // encode immediates?
+ ModRM_0xc0_Eb_Ib = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .byte_operands()
+ .operand_case(0)
+ .bits(),
+ ModRM_0xc1_Ev_Ib = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .operand_case(0)
+ .bits(),
+ ModRM_0xd0_Eb_1 = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .byte_operands()
+ .operand_case(1)
+ .bits(),
+ ModRM_0xd1_Ev_1 = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .operand_case(1)
+ .bits(),
+ ModRM_0xd2_Eb_CL = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .byte_operands()
+ .operand_case(2)
+ .bits(),
+ ModRM_0xd3_Ev_CL = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .operand_case(2)
+ .bits(),
+ ModRM_0x80_Eb_Ib = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .byte_operands()
+ .operand_case(3)
+ .bits(),
+ ModRM_0x83_Ev_Ibs = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .operand_case(3)
+ .bits(),
+ // this would be Eb_Ivs, 0x8e
+ ModRM_0x81_Ev_Ivs = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .operand_case(4)
+ .bits(),
+ ModRM_0xc6_Eb_Ib = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .byte_operands()
+ .operand_case(5)
+ .bits(),
+ ModRM_0xc7_Ev_Iv = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .operand_case(5)
+ .bits(),
+ ModRM_0xfe_Eb = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .byte_operands()
+ .operand_case(6)
+ .bits(),
+ ModRM_0x8f_Ev = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .operand_case(6)
+ .bits(),
+ // gap, 0x94
+ ModRM_0xff_Ev = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .operand_case(7)
+ .bits(),
+ ModRM_0x0f18 = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .operand_case(8)
+ .bits(),
+ ModRM_0xf6 = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .byte_operands()
+ .operand_case(9)
+ .bits(),
+ ModRM_0xf7 = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .operand_case(10)
+ .bits(),
+ Ev = OperandCodeBuilder::new()
+ .read_modrm()
+ .set_embedded_instructions()
+ .read_E()
+ .operand_case(11)
+ .bits(),
AL_Ib = 0x100,
AX_Ib = 0x101,
Ib_AL = 0x102,
@@ -3264,105 +3568,86 @@ pub enum OperandCode {
DX_AX = 0x106,
DX_AL = 0x107,
MOVQ_f30f = 0x108,
- G_xmm_Ed_Ib = 0x1ef, // mirror G_xmm_Edq, but also read an immediate
- Zv_R0 = 0x40,
- Zv_R1 = 0x41,
- Zv_R2 = 0x42,
- Zv_R3 = 0x43,
- Zv_R4 = 0x44,
- Zv_R5 = 0x45,
- Zv_R6 = 0x46,
- Zv_R7 = 0x47,
+ Zv_R0 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 0).bits(),
+ Zv_R1 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 1).bits(),
+ Zv_R2 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 2).bits(),
+ Zv_R3 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 3).bits(),
+ Zv_R4 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 4).bits(),
+ Zv_R5 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 5).bits(),
+ Zv_R6 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 6).bits(),
+ Zv_R7 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_R, 7).bits(),
// Zv_AX_R0 = 0x48,
- Zv_AX_R1 = 0x49,
- Zv_AX_R2 = 0x4a,
- Zv_AX_R3 = 0x4b,
- Zv_AX_R4 = 0x4c,
- Zv_AX_R5 = 0x4d,
- Zv_AX_R6 = 0x4e,
- Zv_AX_R7 = 0x4f,
- Zb_Ib_R0 = 0x50,
- Zb_Ib_R1 = 0x51,
- Zb_Ib_R2 = 0x52,
- Zb_Ib_R3 = 0x53,
- Zb_Ib_R4 = 0x54,
- Zb_Ib_R5 = 0x55,
- Zb_Ib_R6 = 0x56,
- Zb_Ib_R7 = 0x57,
- Zv_Ivq_R0 = 0x58,
- Zv_Ivq_R1 = 0x59,
- Zv_Ivq_R2 = 0x5a,
- Zv_Ivq_R3 = 0x5b,
- Zv_Ivq_R4 = 0x5c,
- Zv_Ivq_R5 = 0x5d,
- Zv_Ivq_R6 = 0x5e,
- Zv_Ivq_R7 = 0x5f,
- Gv_Eb = 0x60,
- Gv_Ew = 0x61,
- Gdq_Ed = 0x62,
- G_E_mm_Ib = 0x64,
- G_E_xmm_Ib = 0x65,
- AL_Ibs = 0x66,
- AX_Ivd = 0x67,
- AL_Ob = 0x68,
- AL_Xb = 0x69,
- AX_AL = 0x6a,
- AX_Ov = 0x6b,
-
- Eb_Gb = 0x80,
- Ev_Gv = 0x81,
- Gb_Eb = 0xc2,
- Gv_Ev = 0xc3,
- Gb_Eb_Ib = 0xc4,
- Gv_Ev_Iv = 0xc5,
+ Zv_AX_R1 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 1).bits(),
+ Zv_AX_R2 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 2).bits(),
+ Zv_AX_R3 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 3).bits(),
+ Zv_AX_R4 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 4).bits(),
+ Zv_AX_R5 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 5).bits(),
+ Zv_AX_R6 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 6).bits(),
+ Zv_AX_R7 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_AX, 7).bits(),
+ Zb_Ib_R0 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 0).bits(),
+ Zb_Ib_R1 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 1).bits(),
+ Zb_Ib_R2 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 2).bits(),
+ Zb_Ib_R3 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 3).bits(),
+ Zb_Ib_R4 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 4).bits(),
+ Zb_Ib_R5 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 5).bits(),
+ Zb_Ib_R6 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 6).bits(),
+ Zb_Ib_R7 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zb_Ib_R, 7).bits(),
+ Zv_Ivq_R0 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 0).bits(),
+ Zv_Ivq_R1 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 1).bits(),
+ Zv_Ivq_R2 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 2).bits(),
+ Zv_Ivq_R3 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 3).bits(),
+ Zv_Ivq_R4 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 4).bits(),
+ Zv_Ivq_R5 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 5).bits(),
+ Zv_Ivq_R6 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 6).bits(),
+ Zv_Ivq_R7 = OperandCodeBuilder::new().op0_is_rrr_and_Z_operand(ZOperandCategory::Zv_Ivq_R, 7).bits(),
+ Gv_Eb = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(4).bits(),
+ Gv_Ew = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(5).bits(),
+ Gdq_Ed = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(6).bits(),
+ G_E_mm_Ib = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(2).bits(),
+ G_E_xmm_Ib = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(8).bits(),
+ AL_Ob = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(0).bits(),
+ AL_Xb = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(1).bits(),
+ AX_AL = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(2).bits(),
+ AX_Ov = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(3).bits(),
+ AL_Ibs = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().byte_operands().operand_case(0).bits(),
+ AX_Ivd = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().operand_case(9).bits(),
+
+ Eb_Gb = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().byte_operands().only_modrm_operands().mem_reg().bits(),
+ Ev_Gv = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().only_modrm_operands().mem_reg().bits(),
+ Gb_Eb = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().byte_operands().only_modrm_operands().reg_mem().bits(),
+ Gv_Ev = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().only_modrm_operands().reg_mem().bits(),
+ Gb_Eb_Ib = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().byte_operands().reg_mem().operand_case(1).bits(),
+ Gv_Ev_Iv = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(1).bits(),
// gap: 0xc6
- Gd_U_xmm = 0xc7,
- Gv_E_xmm = 0x1c7,
- M_G_xmm = 0xc9,
- ModRM_0x0f12 = 0xcb,
- ModRM_0x0f16 = 0xce,
- ModRM_0xc0_Eb_Ib = 0x86,
- ModRM_0xc1_Ev_Ib = 0x87,
- ModRM_0xd0_Eb_1 = 0x88,
- ModRM_0xd1_Ev_1 = 0x89,
- ModRM_0xd2_Eb_CL = 0x8a,
- ModRM_0xd3_Ev_CL = 0x8b,
- ModRM_0x80_Eb_Ib = 0x8c,
- ModRM_0x83_Ev_Ibs = 0x8d,
- // this would be Eb_Ivs, 0x8e
- ModRM_0x81_Ev_Ivs = 0x8f,
- ModRM_0xc6_Eb_Ib = 0x90,
- ModRM_0xc7_Ev_Iv = 0x91,
- ModRM_0xfe_Eb = 0x92,
- ModRM_0x8f_Ev = 0x93,
- // gap, 0x94
- ModRM_0xff_Ev = 0x95,
- ModRM_0xf6 = 0x96,
- ModRM_0xf7 = 0x97,
Eb_R0 = 0x98,
- Ev = 0x99,
- ModRM_0x0f18 = 0x9b,
+ Rv_Gmm_Ib = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_modrm().read_E().reg_mem().operand_case(25).bits(),
// gap, 0x9a
- Gv_M = 0xdb,
- G_mm_Edq = 0xdd,
- G_mm_E = 0xdf,
- G_U_xmm = 0xe1,
- G_xmm_Eq = 0xe3,
- G_mm_E_xmm = 0xe5,
- G_E_mm = 0xe7,
- Edq_G_mm = 0xe9,
- Edq_G_xmm = 0x1e9,
- E_G_mm = 0xeb,
- G_xmm_E_mm = 0xed,
- G_xmm_U_mm = 0x1ed,
- U_mm_G_xmm = 0x2ed,
- Rv_Gmm_Ib = 0x3ed,
- G_xmm_Edq = 0xef,
- G_U_mm = 0xf1,
- Ev_Gv_Ib = 0xf3,
- Ev_Gv_CL = 0xf5,
- G_M_xmm = 0xf7,
- G_E_xmm = 0xf9,
+// Gv_M = 0xdb,
+ Gv_M = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().bits(),
+ G_xmm_E_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(23).bits(),
+ G_xmm_U_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(24).bits(),
+ U_mm_G_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(25).bits(),
+ G_xmm_Edq = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(26).bits(),
+ G_xmm_Eq = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(27).bits(),
+ G_mm_E_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(28).bits(),
+ Gd_U_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(29).bits(),
+ Gv_E_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(30).bits(),
+ //= 0x816f, // mirror G_xmm_Edq, but also read an immediate
+ G_xmm_Ed_Ib = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(31).bits(),
+ G_U_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(13).bits(),
+ G_M_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(10).bits(),
+ G_E_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(9).bits(),
+ E_G_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(11).bits(),
+ M_G_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(12).bits(),
+ G_E_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(14).bits(),
+ G_U_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(15).bits(),
+ E_G_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(16).bits(),
+ Edq_G_mm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(17).bits(),
+ Edq_G_xmm = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(18).bits(),
+ G_mm_Edq = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(19).bits(),
+ G_mm_E = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().mem_reg().operand_case(20).bits(),
+ Ev_Gv_Ib = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(21).bits(),
+ Ev_Gv_CL = OperandCodeBuilder::new().op0_is_rrr_and_embedded_instructions().read_E().reg_mem().operand_case(22).bits(),
}
fn base_opcode_map(v: u8) -> Opcode {
@@ -5229,68 +5514,85 @@ fn read_instr<T: Iterator<Item=u8>>(decoder: &InstDecoder, mut bytes_iter: T, in
Ok(())
}
fn read_operands<T: Iterator<Item=u8>>(decoder: &InstDecoder, mut bytes_iter: T, instruction: &mut Instruction, operand_code: OperandCode, length: &mut u8) -> Result<(), DecodeError> {
- if (operand_code as u8) & 0x40 == 0x40 {
- instruction.operands[0] = OperandSpec::RegRRR;
- }
- if (operand_code as u8) >= 0x40 && (operand_code as u8) < 0x60 {
- let reg = (operand_code as u8) & 0x07;
- let category = ((operand_code as u8) & 0x18) >> 3;
- if category == 0 {
- // these are Zv_R
- let opwidth = imm_width_from_prefixes_64(SizeCode::vq, instruction.prefixes);
- let bank = if opwidth == 4 {
- RegisterBank::D
- } else if opwidth == 2 {
- RegisterBank::W
- } else {
- RegisterBank::Q
- };
- instruction.modrm_rrr =
- RegSpec::from_parts(reg, instruction.prefixes.rex().b(), bank);
- instruction.operand_count = 1;
- // Zv_AX are missing!
- } else if category == 2 {
- // these are Zb_Ib_R
- instruction.modrm_rrr =
- RegSpec::gp_from_parts(reg, instruction.prefixes.rex().b(), 1, instruction.prefixes.rex().present());
- instruction.imm =
- read_imm_unsigned(&mut bytes_iter, 1, length)?;
- instruction.operands[1] = OperandSpec::ImmU8;
- instruction.operand_count = 2;
- } else {
- // category == 3, Zv_Ivq_R
- let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes);
- let bank = if opwidth == 4 {
- RegisterBank::D
- } else if opwidth == 2 {
- RegisterBank::W
- } else {
- RegisterBank::Q
- };
- instruction.modrm_rrr =
- RegSpec::from_parts(reg, instruction.prefixes.rex().b(), bank);
- instruction.imm =
- read_imm_ivq(&mut bytes_iter, opwidth, length)?;
- instruction.operands[1] = match opwidth {
- 1 => OperandSpec::ImmI8,
- 2 => OperandSpec::ImmI16,
- 4 => OperandSpec::ImmI32,
- 8 => OperandSpec::ImmI64,
- _ => unsafe { unreachable_unchecked() }
- };
- instruction.operand_count = 2;
+ let operand_code = OperandCodeBuilder::from_bits(operand_code as u16);
+ if operand_code.has_embedded_instructions() {
+ match operand_code.get_embedded_instructions() {
+ Ok(z_operand_code) => {
+ let reg = z_operand_code.reg();
+ match z_operand_code.category() {
+ 0 => {
+ // these are Zv_R
+ let opwidth = imm_width_from_prefixes_64(SizeCode::vq, instruction.prefixes);
+ let bank = if opwidth == 4 {
+ RegisterBank::D
+ } else if opwidth == 2 {
+ RegisterBank::W
+ } else {
+ RegisterBank::Q
+ };
+ instruction.operands[0] = OperandSpec::RegRRR;
+ instruction.modrm_rrr =
+ RegSpec::from_parts(reg, instruction.prefixes.rex().b(), bank);
+ instruction.operand_count = 1;
+ }
+ 1 => {
+ // Zv_AX
+ }
+ 2 => {
+ // these are Zb_Ib_R
+ instruction.operands[0] = OperandSpec::RegRRR;
+ instruction.modrm_rrr =
+ RegSpec::gp_from_parts(reg, instruction.prefixes.rex().b(), 1, instruction.prefixes.rex().present());
+ instruction.imm =
+ read_imm_unsigned(&mut bytes_iter, 1, length)?;
+ instruction.operands[1] = OperandSpec::ImmU8;
+ instruction.operand_count = 2;
+ }
+ 3 => {
+ // category == 3, Zv_Ivq_R
+ let opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes);
+ let bank = if opwidth == 4 {
+ RegisterBank::D
+ } else if opwidth == 2 {
+ RegisterBank::W
+ } else {
+ RegisterBank::Q
+ };
+ instruction.operands[0] = OperandSpec::RegRRR;
+ instruction.modrm_rrr =
+ RegSpec::from_parts(reg, instruction.prefixes.rex().b(), bank);
+ instruction.imm =
+ read_imm_ivq(&mut bytes_iter, opwidth, length)?;
+ instruction.operands[1] = match opwidth {
+ 1 => OperandSpec::ImmI8,
+ 2 => OperandSpec::ImmI16,
+ 4 => OperandSpec::ImmI32,
+ 8 => OperandSpec::ImmI64,
+ _ => unsafe { unreachable_unchecked() }
+ };
+ instruction.operand_count = 2;
+ }
+ _ => {
+ unreachable!("bad category");
+ }
+ }
+ return Ok(());
+ },
+ Err(embedded_operand_instructions) => {
+ if operand_code.op0_is_rrr() {
+ instruction.operands[0] = OperandSpec::RegRRR;
+ }
+ }
}
- return Ok(());
}
let mut modrm = 0;
let mut opwidth = 0;
let mut mem_oper = OperandSpec::Nothing;
let mut bank = RegisterBank::Q;
- let code_int = operand_code as u8;
- if ((code_int) & 0x80) == 0x80 {
+ if operand_code.has_read_E() {
// cool! we can precompute opwidth and know we need to read_E.
- if (code_int & 1) == 1 {
+ if !operand_code.has_byte_operands() {
// further, this is an vdq E
opwidth = imm_width_from_prefixes_64(SizeCode::vqp, instruction.prefixes);
if opwidth == 4 {
@@ -5313,9 +5615,8 @@ fn read_operands<T: Iterator<Item=u8>>(decoder: &InstDecoder, mut bytes_iter: T,
mem_oper = read_E(&mut bytes_iter, instruction, modrm, opwidth, length)?;
}
- let numeric_code = (operand_code as u8) & 0xbf;
- if numeric_code >= 0x80 && numeric_code < 0x84 {
- let (mmm, rrr) = if numeric_code & 0x02 == 2 {
+ if operand_code.is_only_modrm_operands() {
+ let (mmm, rrr) = if operand_code.has_reg_mem() {
(1, 0)
} else {
(0, 1)
@@ -5323,12 +5624,13 @@ fn read_operands<T: Iterator<Item=u8>>(decoder: &InstDecoder, mut bytes_iter: T,
instruction.operands[mmm] = mem_oper;
instruction.operands[rrr] = OperandSpec::RegRRR;
instruction.operand_count = 2;
- } else if operand_code == OperandCode::Ibs {
+ } else if operand_code.bits() == OperandCode::Ibs as u16 {
instruction.imm =
read_imm_signed(&mut bytes_iter, 1, length)? as u64;
instruction.operands[0] = OperandSpec::ImmI8;
instruction.operand_count = 1;
} else {
+ let operand_code: OperandCode = unsafe { core::mem::transmute(operand_code.bits()) };
match operand_code {
/*
Gv_Ev_Iv,
@@ -5639,14 +5941,14 @@ fn read_operands<T: Iterator<Item=u8>>(decoder: &InstDecoder, mut bytes_iter: T,
instruction.operand_count = 2;
},
OperandCode::E_G_xmm => {
- let modrm = read_modrm(&mut bytes_iter, length)?;
-
-// println!("mod_bits: {:2b}, r: {:3b}, m: {:3b}", mod_bits, r, m);
- instruction.operands[0] = read_E_xmm(&mut bytes_iter, instruction, modrm, length)?;
- instruction.modrm_rrr =
- RegSpec::from_parts((modrm >> 3) & 7, instruction.prefixes.rex().r(), RegisterBank::X);
+ instruction.modrm_rrr.bank = RegisterBank::X;
+ instruction.operands[0] = mem_oper;
instruction.operands[1] = OperandSpec::RegRRR;
instruction.operand_count = 2;
+ if instruction.operands[0] == OperandSpec::RegMMM {
+ // fix the register to XMM
+ instruction.modrm_mmm.bank = RegisterBank::X;
+ }
},
OperandCode::G_E_mm => {
instruction.operands[1] = mem_oper;
@@ -5680,7 +5982,6 @@ fn read_operands<T: Iterator<Item=u8>>(decoder: &InstDecoder, mut bytes_iter: T,
op @ OperandCode::G_M_xmm |
op @ OperandCode::G_E_xmm => {
instruction.modrm_rrr.bank = RegisterBank::X;
- instruction.operands[0] = OperandSpec::RegRRR;
instruction.operands[1] = mem_oper;
instruction.operand_count = 2;
if instruction.operands[1] == OperandSpec::RegMMM {
@@ -5707,10 +6008,7 @@ fn read_operands<T: Iterator<Item=u8>>(decoder: &InstDecoder, mut bytes_iter: T,
instruction.operand_count = 3;
},
OperandCode::G_E_mm_Ib => {
- let modrm = read_modrm(&mut bytes_iter, length)?;
-
-// println!("mod_bits: {:2b}, r: {:3b}, m: {:3b}", mod_bits, r, m);
- instruction.operands[1] = read_E_xmm(&mut bytes_iter, instruction, modrm, length)?;
+ instruction.operands[1] = mem_oper;
instruction.modrm_rrr = RegSpec { bank: RegisterBank::MM, num: (modrm >> 3) & 7 };
instruction.operands[0] = OperandSpec::RegRRR;
instruction.imm =