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Where can I find the names of the new registers for assembly on this architecture?

I am referring to registers in X86 like EAX, ESP, EBX, etc. But I'd like them in 64bit.

I don't think they are the same as when I disassemble my C code, I get r's instead of e's.

  • Guys How can I tell what registers correlate to parameters when doing a system call. Ive been reading and documentation and haven't found a clear answer. – Recursion Nov 20 '09 at 3:49
  • Note that the old upper 8 bits registers (ah, bh etc) no longer work for all opcodes. e.g. inc ah is not valid in x64 because that opcode has been reused for one of the new 64bit registers. – Johan Sep 26 '13 at 22:55
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    @Johan: also note that with the REX prefix, the register codes for ah bh ch dh becomes the new byte registers sil dil bpl spl – phuclv Oct 3 '13 at 7:43
71

The old 32-bit registers have been extended to 64 bits, the r registers (rax, rbx, rsp and so on).

In addition, there's some extra general purpose registers r8 through r15 which can also be accessed as (for example) r8d, r8w and r8b (the lower 32-bit double-word, 16-bit word and 8-bit byte respectively). The b suffix is the original AMD nomenclature but you'll sometimes see it written as l (lower case L) for "low byte".

I tend to prefer the b suffix myself (even though the current low-byte registers are al, bl, and so on) since it matches the d/w = double/word names and l could potentially be mistaken for long. Or, worse, the digit 1, leading you to question what the heck register number 81 is :-)

The high bytes of the old 16-bit registers are still accessible, under many circumstances, as ah, bh, and so on (though this appears to not be the case for the new r8 through r15 registers). There are some new instruction encodings, specifically those using the REX prefix, that can not access those original high bytes, but others are still free to use them.

In addition, there's some new SSE registers, xmm8 though xmm15.

The eip and eflags registers have also been extended to rip and rflags(though the high 32 bits of rflags are, for now, still unused).

See the wikipedia page and MSDN for more details.

Whether these are supported in the asm keyword for a particular C compiler, I couldn't say. What little assembly I do (and it's becoming about one day a year) is done in assembly rather than C.


Related:

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    @int80, no idea. Perhaps e means extended and r means really extended :-) – paxdiablo Oct 9 '14 at 11:43
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    i know that "e" stands for extended (from 16bit). but r? but your answer is just logic %) – user3151614 Oct 9 '14 at 13:40
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    This is not correct. When using the REX prefix you cannot use the upper halves (ah, bh, ch, dh) because they are mapped to the lower halves of other registers (si, bp, sp, di respectively). This means that if you have an address stored in r8 you cannot move the contents of ah to this address. – Fotis Dec 28 '14 at 19:36
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    @Fotis, which bit is "not correct" exactly? If you're referring to the x86-64 inability to access upper halves (ah, etc) in instructions with the REX prefix, that's a limitation I didn't even cover, though I'll add a short note. That just means some instructions cannot access those upper halves, it doesn't mean the registers don't exist or that you can't use them at all. And, just to clarify, the registers themselves aren't mapped, it's the instruction encodings - if you change sil, that doesn't affect the ah content going forward. – paxdiablo Dec 28 '14 at 23:54
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    "r" stands for register, as in R8, R9, R10, etc. With respect to rax through rbp, the "r" is for consistency. – vy32 Mar 2 '15 at 16:39
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The MSDN documentation includes information about the x64 registers.

x64 extends x64's 8 general-purpose registers to be 64-bit, and adds 8 new 64-bit registers. The 64-bit registers have names beginning with "r", so for example the 64-bit extension of eax is called rax. The new registers are named r8 through r15.

The lower 32 bits, 16 bits, and 8 bits of each register are directly addressable in operands. This includes registers, like esi, whose lower 8 bits were not previously addressable. The following table specifies the assembly-language names for the lower portions of 64-bit registers.

64-bit register | Lower 32 bits | Lower 16 bits | Lower 8 bits
==============================================================
rax             | eax           | ax            | al
rbx             | ebx           | bx            | bl
rcx             | ecx           | cx            | cl
rdx             | edx           | dx            | dl
rsi             | esi           | si            | sil
rdi             | edi           | di            | dil
rbp             | ebp           | bp            | bpl
rsp             | esp           | sp            | spl
r8              | r8d           | r8w           | r8b
r9              | r9d           | r9w           | r9b
r10             | r10d          | r10w          | r10b
r11             | r11d          | r11w          | r11b
r12             | r12d          | r12w          | r12b
r13             | r13d          | r13w          | r13b
r14             | r14d          | r14w          | r14b
r15             | r15d          | r15w          | r15b
  • This is clear, but the lower 8 bits mode seems invalid for r8 ~ r15 on my intel x86-64 cpu, though it works for the other 8 general purpose registers. Also rax ~ rdx support to access the 8 bits in high mode, means access the most significant 8 bits of the 16 bit mode, using ah ~ dh . – Eric Wang Jun 1 '16 at 4:28
  • @EricWang: Did you try to use mov ah, r8b or something? You can't use a high-8 register with a REX prefix. REX mov ah, 0 is mov spl, 0, and so on (the encodings for AH/CH/DH/BH mean spl/bpl/sil/dil when there's a REX prefix (in that order in machine code) – Peter Cordes Nov 23 '17 at 11:50
  • Note that the low 8-bit register is called l instead of b on some manuals, for example r8l vs r8b. See Why does Apple use R8l for the byte registers instead of R8b? – phuclv May 11 at 3:43
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X64 extends the 32-bit general purpose registers as follows:

EAX -> RAX
EBX -> RBX
ECX -> RCX
EDX -> RDX
ESI -> RSI
EDI -> RDI
ESP -> RSP
EBP -> RBP

X64 also adds the following 64-bit general purpose registers:

R8, R9, R10, R11, R12, R13, R14, R15

Additionally, SSE is part of the X64 specification, so the xmm0-xmm15 vector registers are available as well

You can find some basic info on the architecture at Wikipedia/X86-64 or go to Intel's website.

6

Let's read the Intel manual

Where can I find the names of the new registers for assembly on this architecture.

In the processor's manual "Intel 64 and IA-32 Architectures Software Developer’s Manual Volume 1: Basic Architecture", e.g. version 253665-053US:

  • search for "registers"
  • the first match is the index "3.4 BASIC PROGRAM EXECUTION REGISTER"
  • two items below "3.4.1.1 General-Purpose Registers in 64-Bit Mode"

On that section:

if a 64-bit operand size is specified: RAX, RBX, RCX, RDX, RDI, RSI, RBP, RSP, R8-R15 are available. R8D-R 15D/R8-R15 represent eight new general-purpose registers.

Reminder: 64 bit mode is the "normal" mode in x86-64. The other main mode is "compatibility mode" which emulates IA32.

If you keep searching for "register" on the TOC, you will also find sections on "number crushing" registers for floating point and SIMD scattered in the manual:

  • 8.1.2 - x87 FPU Data Registers (STx)
  • 9.9.2 - MMX Registers
  • 10.2.2 - XMM Registers
  • 14.1.1 - 256-Bit Wide SIMD Register Support (YMM)

There are many more control registers which have various side effects and can generally not be written to unless you want those effects (and often require ring 0). These are summarized in "Volume 3 System Programming Guide - 2.1.6 System Registers", which is more for OS developers.

A good empirical approach is to run info all-registers in GDB: How to print register values in GDB?

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