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https://github.com/shadps4-emu/ext-cryptopp.git
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493 lines
11 KiB
ArmAsm
493 lines
11 KiB
ArmAsm
;; rdrand.asm - written and placed in public domain by Jeffrey Walton and Uri Blumenthal.
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;; Copyright assigned to the Crypto++ project.
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;; This ASM file provides RDRAND and RDSEED to downlevel Unix and Linux tool
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;; chains. You will need a modern Nasm, however. You can also use it in place
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;; of intrinsics. The routines below run a little faster than the intrinsic
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;; based routines.
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;; nasm -f elf32 rdrand.s -DX86 -g -o rdrand-x86.o
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;; nasm -f elfx32 rdrand.s -DX32 -g -o rdrand-x32.o
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;; nasm -f elf64 rdrand.s -DX64 -g -o rdrand-x64.o
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; C/C++ Function prototypes
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;; X86, X32 and X64:
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;; extern "C" void NASM_RDRAND_GenerateBlock(byte* ptr, size_t size);
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;; extern "C" void NASM_RDSEED_GenerateBlock(byte* ptr, size_t size);
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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%ifdef X86 ;; Set via the command line
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%define arg1 [esp+04h]
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%define arg2 [esp+08h]
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%define buffer ecx
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%define bsize edx
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%define lsize dl ;; Used for tail bytes, 1-byte constants
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%define MWSIZE 04h ;; machine word size
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%elifdef X32 ;; Set via the command line
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%define buffer edi ;; Linux ABI
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%define bsize esi ;; Linux ABI
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%define lsize si
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%define MWSIZE 04h ;; machine word size
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%elifdef X64 ;; Set via the command line
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%ifdef CYGWIN ;; Cygwin follows Windows ABI here, not Linux ABI
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%define buffer rcx ;; Windows ABI
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%define bsize rdx ;; Windows ABI
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%define lsize dx ;; Used for tail bytes, 2-byte constants
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%else
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%define buffer rdi ;; Linux ABI
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%define bsize rsi ;; Linux ABI
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%define lsize si ;; Used for tail bytes, 2-byte constants
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%endif
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%define MWSIZE 08h ;; machine word size
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%else
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%error Missing or unknown architecture
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%endif
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; Fixups
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%ifdef DARWIN
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%define NASM_RDRAND_GenerateBlock _NASM_RDRAND_GenerateBlock
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%define NASM_RDSEED_GenerateBlock _NASM_RDSEED_GenerateBlock
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%endif
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%ifdef CYGWIN
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%ifdef X86
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%define NASM_RDRAND_GenerateBlock _NASM_RDRAND_GenerateBlock
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%define NASM_RDSEED_GenerateBlock _NASM_RDSEED_GenerateBlock
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%endif
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%endif
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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%ifdef X86 ;; Set via the command line
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global NASM_RDRAND_GenerateBlock
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section .text
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align 8
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NASM_RDRAND_GenerateBlock:
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.Load_Arguments:
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mov buffer, arg1
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mov bsize, arg2
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;; A block of 16-bytes appears to be optimal. Adding
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;; more rdrand calls degrades performance.
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cmp bsize, 16
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jb .GenerateBlock_4
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.GenerateBlock_16:
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.Call_RDRAND_EAX_4:
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rdrand eax
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jnc .Call_RDRAND_EAX_4
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mov [buffer+0], eax
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.Call_RDRAND_EAX_3:
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rdrand eax
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jnc .Call_RDRAND_EAX_3
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mov [buffer+4], eax
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.Call_RDRAND_EAX_2:
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rdrand eax
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jnc .Call_RDRAND_EAX_2
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mov [buffer+8], eax
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.Call_RDRAND_EAX_1:
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rdrand eax
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jnc .Call_RDRAND_EAX_1
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mov [buffer+12], eax
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sub bsize, 16
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add buffer, 16
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cmp bsize, 16
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jae .GenerateBlock_16
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;; Fewer than 16 bytes remain
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.GenerateBlock_4:
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cmp lsize, 0
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je .GenerateBlock_Return
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.Call_RDRAND_EAX_0:
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rdrand eax
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jnc .Call_RDRAND_EAX_0
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cmp lsize, MWSIZE
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jb .Partial_Machine_Word
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.Full_Machine_Word:
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mov [buffer], eax
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add buffer, MWSIZE
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sub lsize, MWSIZE
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;; Continue
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jmp .GenerateBlock_4
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;; 1,2,3 bytes remain
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.Partial_Machine_Word:
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;; Test bit 1 to see if size is at least 2
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test lsize, 2
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jz .Bit_1_Not_Set
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mov [buffer], ax
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shr eax, 16
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add buffer, 2
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.Bit_1_Not_Set:
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;; Test bit 0 to see if size is at least 1
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test lsize, 1
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jz .Bit_0_Not_Set
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mov [buffer], al
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.Bit_0_Not_Set:
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;; We've hit all the bits
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.GenerateBlock_Return:
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xor eax, eax
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ret
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%endif ;; X86
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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%ifdef X64 or X32 ;; Set via the command line
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global NASM_RDRAND_GenerateBlock
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section .text
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align 16
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NASM_RDRAND_GenerateBlock:
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;; No need for Load_Arguments due to fastcall
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;; A block of 32-bytes appears to be optimal. Adding
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;; more rdrand calls degrades performance.
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cmp bsize, 32
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jb .GenerateBlock_8
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.GenerateBlock_32:
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.Call_RDRAND_RAX_4:
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rdrand rax
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jnc .Call_RDRAND_RAX_4
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mov [buffer+0], rax
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.Call_RDRAND_RAX_3:
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rdrand rax
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jnc .Call_RDRAND_RAX_3
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mov [buffer+8], rax
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.Call_RDRAND_RAX_2:
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rdrand rax
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jnc .Call_RDRAND_RAX_2
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mov [buffer+16], rax
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.Call_RDRAND_RAX_1:
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rdrand rax
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jnc .Call_RDRAND_RAX_1
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mov [buffer+24], rax
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sub bsize, 32
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add buffer, 32
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cmp bsize, 32
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jae .GenerateBlock_32
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;; Fewer than 32 bytes remain
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.GenerateBlock_8:
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cmp lsize, 0
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je .GenerateBlock_Return
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.Call_RDRAND_RAX_0:
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rdrand rax
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jnc .Call_RDRAND_RAX_0
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cmp lsize, MWSIZE
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jb .Partial_Machine_Word
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.Full_Machine_Word:
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mov [buffer], rax
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add buffer, MWSIZE
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sub lsize, MWSIZE
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;; Continue
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jmp .GenerateBlock_8
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;; 1,2,3,4,5,6,7 bytes remain
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.Partial_Machine_Word:
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;; Test bit 2 to see if size is at least 4
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test lsize, 4
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jz .Bit_2_Not_Set
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mov [buffer], eax
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shr rax, 32
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add buffer, 4
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.Bit_2_Not_Set:
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;; Test bit 1 to see if size is at least 2
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test lsize, 2
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jz .Bit_1_Not_Set
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mov [buffer], ax
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shr eax, 16
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add buffer, 2
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.Bit_1_Not_Set:
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;; Test bit 0 to see if size is at least 1
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test lsize, 1
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jz .Bit_0_Not_Set
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mov [buffer], al
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.Bit_0_Not_Set:
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;; We've hit all the bits
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.GenerateBlock_Return:
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xor rax, rax
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ret
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%endif ;; X64
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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%ifdef X86 ;; Set via the command line
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global NASM_RDSEED_GenerateBlock
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section .text
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align 8
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NASM_RDSEED_GenerateBlock:
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.Load_Arguments:
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mov buffer, arg1
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mov bsize, arg2
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;; A block of 16-bytes appears to be optimal. Adding
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;; more rdrand calls degrades performance.
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cmp bsize, 16
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jb .GenerateBlock_4
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.GenerateBlock_16:
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.Call_RDSEED_EAX_4:
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rdseed eax
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jnc .Call_RDSEED_EAX_4
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mov [buffer+0], eax
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.Call_RDSEED_EAX_3:
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rdseed eax
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jnc .Call_RDSEED_EAX_3
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mov [buffer+4], eax
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.Call_RDSEED_EAX_2:
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rdseed eax
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jnc .Call_RDSEED_EAX_2
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mov [buffer+8], eax
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.Call_RDSEED_EAX_1:
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rdseed eax
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jnc .Call_RDSEED_EAX_1
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mov [buffer+12], eax
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sub bsize, 16
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add buffer, 16
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cmp bsize, 16
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jae .GenerateBlock_16
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;; Fewer than 16 bytes remain
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.GenerateBlock_4:
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cmp lsize, 0
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je .GenerateBlock_Return
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.Call_RDSEED_EAX_0:
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rdseed eax
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jnc .Call_RDSEED_EAX_0
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cmp lsize, MWSIZE
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jb .Partial_Machine_Word
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.Full_Machine_Word:
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mov [buffer], eax
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add buffer, MWSIZE
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sub lsize, MWSIZE
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;; Continue
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jmp .GenerateBlock_4
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;; 1,2,3 bytes remain
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.Partial_Machine_Word:
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;; Test bit 1 to see if size is at least 2
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test lsize, 2
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jz .Bit_1_Not_Set
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mov [buffer], ax
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shr eax, 16
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add buffer, 2
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.Bit_1_Not_Set:
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;; Test bit 0 to see if size is at least 1
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test lsize, 1
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jz .Bit_0_Not_Set
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mov [buffer], al
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.Bit_0_Not_Set:
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;; We've hit all the bits
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.GenerateBlock_Return:
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xor eax, eax
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ret
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%endif ;; X86
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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%ifdef X64 or X32 ;; Set via the command line
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global NASM_RDSEED_GenerateBlock
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section .text
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align 16
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NASM_RDSEED_GenerateBlock:
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;; No need for Load_Arguments due to fastcall
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;; A block of 32-bytes appears to be optimal. Adding
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;; more rdrand calls degrades performance.
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cmp bsize, 32
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jb .GenerateBlock_8
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.GenerateBlock_32:
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.Call_RDSEED_RAX_4:
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rdseed rax
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jnc .Call_RDSEED_RAX_4
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mov [buffer+0], rax
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.Call_RDSEED_RAX_3:
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rdseed rax
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jnc .Call_RDSEED_RAX_3
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mov [buffer+8], rax
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.Call_RDSEED_RAX_2:
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rdseed rax
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jnc .Call_RDSEED_RAX_2
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mov [buffer+16], rax
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.Call_RDSEED_RAX_1:
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rdseed rax
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jnc .Call_RDSEED_RAX_1
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mov [buffer+24], rax
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sub bsize, 32
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add buffer, 32
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cmp bsize, 32
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jae .GenerateBlock_32
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;; Fewer than 32 bytes remain
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.GenerateBlock_8:
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cmp lsize, 0
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je .GenerateBlock_Return
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.Call_RDSEED_RAX_0:
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rdseed rax
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jnc .Call_RDSEED_RAX_0
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cmp lsize, MWSIZE
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jb .Partial_Machine_Word
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.Full_Machine_Word:
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mov [buffer], rax
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add buffer, MWSIZE
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sub lsize, MWSIZE
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;; Continue
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jmp .GenerateBlock_8
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;; 1,2,3,4,5,6,7 bytes remain
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.Partial_Machine_Word:
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;; Test bit 2 to see if size is at least 4
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test lsize, 4
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jz .Bit_2_Not_Set
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mov [buffer], eax
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shr rax, 32
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add buffer, 4
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.Bit_2_Not_Set:
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;; Test bit 1 to see if size is at least 2
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test lsize, 2
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jz .Bit_1_Not_Set
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mov [buffer], ax
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shr eax, 16
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add buffer, 2
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.Bit_1_Not_Set:
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;; Test bit 0 to see if size is at least 1
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test lsize, 1
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jz .Bit_0_Not_Set
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mov [buffer], al
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.Bit_0_Not_Set:
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;; We've hit all the bits
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.GenerateBlock_Return:
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xor rax, rax
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ret
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%endif ;; X64
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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