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223 lines
8.1 KiB
223 lines
8.1 KiB
title "Compute Checksum"
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;++
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;
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; Copyright (c) Microsoft Corporation. All rights reserved.
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;
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; Module Name:
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;
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; xsum.amd
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;
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; Abstract:
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;
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; This module implements the platform specific function to compute the
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; checksum of a buffer.
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;
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; Author:
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;
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; David N. Cutler (davec) 6-Jul-2000
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;
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; Environment:
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;
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; Any mode.
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;
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;--
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include ksamd64.inc
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;++
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;
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; ULONG
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; tcpxsum(
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; IN ULONG Checksum,
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; IN PUCHAR Source,
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; IN ULONG Length
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; )
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;
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; Routine Description:
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;
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; This function computes the checksum of the specified buffer and combines
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; the computed checksum with the specified checksum.
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;
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; Arguments:
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;
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; Checksum (ecx) - Suppiles the initial checksum value, in 16-bit form,
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; with the high word set to 0.
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;
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; Source (rdx) - Supplies a pointer to the checksum buffer.
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;
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; Length (r8d) - Supplies the length of the buffer in bytes.
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;
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; Return Value:
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;
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; The computed checksum, in 16-bit form, with the high word set to 0.
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;
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;--
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NESTED_ENTRY tcpxsum, _TEXT$00
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push_reg rbx ; save nonvolatile register
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END_PROLOGUE
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mov r11, rdx ; save initial buffer address
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mov bx, cx ; save initial checksum
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mov r10, rdx ; set checksum buffer address
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mov ecx, r8d ; set buffer length
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xor eax, eax ; clear computed checksum
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test ecx, ecx ; test if any bytes to checksum
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jz combine ; if z, no bytes to checksum
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;
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; If the checksum buffer is not word aligned, then add the first byte of
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; the buffer to the checksum.
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;
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; N.B. First buffer address check is done using rdx rather than r10 so
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; the register ah can be used.
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;
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test dl, 1 ; test if buffer word aligned
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jz short word_aligned ; if z, buffer word aligned
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mov ah, [rdx] ; get first byte of checksum
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inc r10 ; increment buffer address
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dec ecx ; decrement number of bytes
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jz done ; if z set, no more bytes
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;
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; If the buffer is not an even number of bytes, then add the last byte of
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; the buffer to the checksum.
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;
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word_aligned: ;
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shr ecx, 1 ; convert to word count
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jnc short word_count ; if nc, even number of bytes
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mov al, [r10][rcx * 2] ; initialize the computed checksum
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jz done ; if z set, no more bytes
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;
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; If the buffer is not quadword aligned, then add words to the checksum until
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; the buffer is quadword aligned.
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;
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word_count: ;
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test r10b, 6 ; test if buffer quadword aligned
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jz short qword_aligned ; if z, buffer quadword aligned
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qword_align: ;
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add ax, [r10] ; add next word of checksum
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adc eax, 0 ; propagate carry
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add r10, 2 ; increment buffer address
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dec ecx ; decrement number of words
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jz done ; if z, no more words
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test r10b, 6 ; test if buffer qword aligned
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jnz short qword_align ; if nz, buffer not qword aligned
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;
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; Compute checksum in large blocks of qwords.
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;
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qword_aligned: ;
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mov edx, ecx ; copy number or words remaining
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shr edx, 2 ; compute number of quadwords
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jz residual_words ; if z, no quadwords to checksum
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mov r8d, edx ; compute number of loop iterations
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shr r8d, 4 ;
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and edx, 16 - 1 ; isolate partial loop iteration
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jz short checksum_loop ; if z, no partial loop iteration
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sub rdx, 16 ; compute negative loop top offset
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lea r10, [r10][rdx * 8] ; bias initial buffer address
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neg rdx ; compute positive loop top offset
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add r8d, 1 ; increment loop iteration count
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lea r9, checksum_start ; get address of checksum array
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lea r9, [r9][rdx * 4] ; compute initial iteration address
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jmp r9 ; start checksum
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;
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; Checksum quadwords.
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;
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; N.B. This loop is entered with carry clear.
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;
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align 16
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checksum_loop: ;
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prefetchnta 0[r10] ; prefetch start of 128-byte block
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prefetchnta 120[r10] ; prefetch end of 128-byte block
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;
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; N.B. The first 16 of following instructions are exactly 4 bytes long.
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;
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checksum_start:
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; adc rax, 0[r10] ; Compute checksum
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;
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db 049h ; Manually encode the 4-byte
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db 013h ; version of the instruction
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db 042h ;
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db 000h ; adc rax, 0[r10]
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adc rax, 8[r10] ;
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adc rax, 16[r10] ;
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adc rax, 24[r10] ;
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adc rax, 32[r10] ;
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adc rax, 40[r10] ;
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adc rax, 48[r10] ;
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adc rax, 56[r10] ;
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adc rax, 64[r10] ;
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adc rax, 72[r10] ;
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adc rax, 80[r10] ;
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adc rax, 88[r10] ;
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adc rax, 96[r10] ;
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adc rax, 104[r10] ;
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adc rax, 112[r10] ;
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adc rax, 120[r10] ;
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.errnz (($ - checksum_start) - (4 * 16))
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lea r10, 128[r10] ; update source address
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dec r8d ; decrement loop count
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jnz short checksum_loop ; if nz, more iterations
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adc rax, 0 ; propagate last carry
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;
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; Compute checksum of residual words.
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;
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residual_words: ;
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and ecx, 3 ; isolate residual words
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jz short done ; if z, no residual words
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add_word: ;
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add ax, [r10] ; add word to checksum
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adc ax, 0 ; propagate carry
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add r10, 2 ; increment buffer address
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dec ecx ; decrement word count
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jnz short add_word ; if nz, more words remaining
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;
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; Fold the computed checksum to 32-bits and then to 16-bits.
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;
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done: ;
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mov rcx, rax ; fold the checksum to 32-bits
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ror rcx, 32 ; swap high and low dwords
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add rax, rcx ; produce sum + carry in high 32-bits
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shr rax, 32 ; extract 32-bit checksum
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mov ecx, eax ; fold the checksum to 16-bits
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ror ecx, 16 ; swap high and low words
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add eax, ecx ; produce sum + carry in high 16-bits
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shr eax, 16 ; extract 16-bit check sum
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test r11b, 1 ; test if buffer word aligned
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jz short combine ; if z set, buffer word aligned
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ror ax, 8 ; swap checksum bytes
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;
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; Combine the input checksum with the computed checksum.
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;
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combine: ;
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add ax, bx ; combine checksums
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adc eax, 0 ; add carry to low 16-bits
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pop rbx ; restore nonvolatile register
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retq ; return
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NESTED_END tcpxsum, _TEXT$00
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end
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