SNIPPETS
stringlengths 2
1.64k
| INTENTS
stringlengths 4
1.66k
|
|---|---|
xor ecx,ecx
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zero out ecx register
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xor ecx,ecx
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clear ecx
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xor ecx,ecx
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zero out ecx
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xor ecx,ecx \n mul ecx
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clear ecx and eax
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xor ecx,ecx \n mul ecx
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clear ecx and eax register
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xor ecx,ecx \n mul ecx
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clear ecx and eax registers
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xor ecx,ecx \n mul ecx
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clear eax and ebx registers
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xor ecx,ecx \n xor eax, eax
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clear eax and ecx registers
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xor edi, ebp
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xoring ebp with edi register
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xor edi, edi
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zero out edi register
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xor edi, edi
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initialize edi with 0
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xor edi, edi
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clear the edi register
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xor edi, edi
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init edi 0
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xor edi, edi \n xor eax, eax \n xor ebx, ebx \n xor edx, edx
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zero out the edi, eax, ebx and edx registers
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xor edx, ecx \n mov dl, [esi+1]
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clean the edx register and move the next byte of the shellcode into the lower byte of the register
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xor edx, ecx \n mov dl, [esi+1]
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clear the edx register and move the next byte of the shellcode into the lower byte of the register
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xor edx, ecx \n mov dl, [esi+1]
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zero out the edx register and move the next byte of the shellcode into the lower byte of the register
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xor edx, edx
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clear edx
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xor edx, edx
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clear edx register
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xor edx, edx
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zero out edx register
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xor edx, edx
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zero out edx
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xor edx, edx
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zero out edx register using xor operation
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xor edx, edx
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initialize edx with the decimal value 0
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xor edx, edx
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initialize edx with the hexadecimal value 0x0
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xor edx, edx
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clear the edx register
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xor edx, edx
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set the contents of edx to zero
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xor edx, edx
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set the edx register to null
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xor edx, edx
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zero out the edx register
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xor edx, edx
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reset edx to 0
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xor edx, edx \n cmp ecx, edx \n je l2
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zero out the edx register and jump to the l2 label if the contents of the ecx register is equal to the contents of the edx register
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xor edx, edx \n cmp ecx, edx \n jne l2
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zero out the edx register and jump to the l2 label if the contents of the ecx register is not equal to the contents of the edx register
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xor edx, edx \n mov dl, [esi]
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clear the edx register and move the current byte of the shellcode into the lowest byte of the register
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xor edx, edx \n mov dl, 0x3
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zero out edx and move 0x3 in the lowest byte of the register
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xor edx, edx \n mov dl, 0x4
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clear edx and move 0x4 in the lowest byte of the register
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xor edx, edx \n mov dl, 2
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clear the edx register and move 2 in the lowest byte of the register
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xor edx, edx \n mov dl, 5
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clean the edx register and move 5 in the lowest byte of the register
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xor edx, edx \n mul edx
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zero out eax and edx
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xor edx, edx \n mul edx
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zero out the eax and edx register
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xor edx, edx \n push edx
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clear edx and push it on the stack
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xor edx, edx \n push edx
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push null into stack
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xor edx, edx \n push edx
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zero out edx register then push its content on stack
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xor edx, edx \n push edx
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zero out the edx register and push zero onto the stack
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xor edx, edx \n push edx
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push zero onto the stack
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xor edx, edx \n push edx
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clear the edx register and push its contents onto the stack
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xor edx, edx \n push edx \n push 0x01 \n push 0x02 \n mov ecx, esp
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zero out edx register and save af_inet, sock_stream and edx contents in ecx
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xor edx, edx \n xor ecx, ecx
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clear edx and ecx reegsiter
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xor edx, edx \n xor esi, esi
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zero out edx and esi register
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xor edx,edx
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clear edx
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xor edx,edx
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clear edx register
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xor edx,edx
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zero out edx
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xor edx,edx
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zero out edx register
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xor edx,edx \n mul edx
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clear edx and eaz registers
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xor edx,edx \n push edx
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clear edx adn push null terminating string on stack
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xor esi, esi
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zero out esi register
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xor esi, esi
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zero out esi content
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xor esi, esi
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clean esi
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xor esi, esi
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initialize the esi register with the decimal value 0
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xor esi, esi
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init the esi register to 0
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xor esi, esi
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clear the esi register
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xor rdx, rdx \n push rdx
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zero out rdx and push it on stack
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xor zero_reg, zero_reg
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clear zero_reg
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xor zero_reg, zero_reg
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zero out zero_reg
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xor_decode:
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define xor_decode_label
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xordecode:
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declare _xordecode label
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xordecode:
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define xordecode
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y dd 3000
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declare a doubleword at address y initialized to contain 3000
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y: dd 0x0
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create the doubleword variable y in memory and initialize it to zero
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ymmval: resw 1
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reserve one word for ymmval
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z dd 1, 2, 3
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declare three doubleword values initialized to 1 2 and 3 at address z
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z dd 1,2,3
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declare three doublewords of memory starting at address z and initialized to 1 2 and 3
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z: dd 0x0
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create the doubleword variable z in memory and initialize it to zero
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zero10:
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define _zeero10 label
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zero11:
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define _zero11 label
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zero12:
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define _zero12 label
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zero13:
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define _zero13 label
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zero14:
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define _zero14 label
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zero15:
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define _zero15 label
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zero16:
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define _zero16 label
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zero17:
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define _zero17 label
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zero18:
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define _zero18 label
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zero19:
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define _zero19 label
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zero1a:
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define _zero1a label
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zero1b:
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define _zero1b label
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zero1c:
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define _zero1c label
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zero1d:
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define _zero1d label
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zero1e:
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define _zero1e label
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zero2:
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define _zero2 label
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zero3:
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define _zero3 label
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zero4:
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define _zero4 label
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zero5:
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define _zero 5 label
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zero6:
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define _zero6 label
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zero7:
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define _zero7 label
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zero8:
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define _zero8 label
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zero9:
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define _zero9 label
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zeroa:
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define _zeroa label
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zerob:
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define _zerob label
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zeroc:
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define _zeroc label
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zerod:
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define _zerod label
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zeroe:
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define _zeroe label
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zerof:
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define _zerof label
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