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java DES加密和解密

关于DES的加密和解密 和大家一起分享了哦! 希望大家互相学习了哦!
2011-11-17 上传大小:1KB
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最近做一个接口,与JAVA的关于DES/CBC/PKCS5Padding 互相解密。在网上找了很多资料,摸索了3天才摸索出来。同样的明文,用JAVA加密的密文死活都跟用DELPHI加密的不相等,有时候少于8个字符的就正常,多了8个字符的就有问题,原来是有个7把7改成8就可以了。害人啊,, function EncryDes(const str:string;const keystr:string;const ivstr:string):string ; var key:tkey64; Context:TDESContext; Block,iv:TDESBlock; i,j,len,posnum:smallint; poschar,xx:char; xuhuan:integer; begin for i:=0 to 7 do begin if i > (length(keystr)-1) then key[i] :=0 else key[i] := byte(keystr[i+1]); end; for i:=0 to 7 do begin if i > (length(ivstr)-1) then iv[i]:=0 else iv[i] := byte(ivstr[i+1]); end; InitEncryptDES(Key, Context, true); len := length(AnsiString(str)); xx:= char( 8- (len mod 8)); if len<=8 then xuhuan:=0 else xuhuan:=round(len/8); for i:=0 to xuhuan do begin for j:=0 to 7 do begin if ((i*8+j+1)<=len) then //关键这一步,网上好多参考资料都是((i*7+j+1)<=len),而不是((i*8+j+1)<=len) 害人啊,害得我摸索了3天,,哎 begin poschar:=str[i*8+j+1]; block[j]:=byte(poschar); end else block[j]:=byte(xx); end; EncryptDESCBC(Context, IV, Block); for j:= 0 to 7 do begin posnum:=block[j]; result := result + inttohex(posnum,2); end; iv:=block; end; end; //完整代码如下 unit dmdes; {*********************************************************} {* DELPHI、PHP、C#通用DES编码解码单元 *} {* 由TurboPower LockBox部分代码改写 *} {* 滕州市东鸣软件工作室制作 ZWF 2011-12-27 *} {*********************************************************} {EncryDes为编码函数,DecryDes为解码函数,keystr为密码,ivstr为偏移量, 一般设置keystr,ivstr相同,内容为八位字节长度的字符串,编码结果为十六进制字串} interface uses Windows,SysUtils; type PKey64 = ^TKey64; TKey64 = array [0..7] of Byte; type TDESBlock = array[0..7] of Byte; TDESContext = packed record TransformedKey : array [0..31] of LongInt; Encrypt : Boolean; end; function EncryDes(const str:string;const keystr:string;const ivstr:string):string ; function DecryDes(const str:string;const keystr:string;const ivstr:string):string ; function DecryDessec(const str:string;const keystr:string;const ivstr:string):string ; implementation procedure XorMemPrim(var Mem1; const Mem2; Count : Cardinal); register; asm push esi push edi mov esi, eax //esi = Mem1 mov edi, edx //edi = Mem2 push ecx //save byte count shr ecx, 2 //convert to dwords jz @Continue cld @Loop1: //xor dwords at a time mov eax, [edi] xor [esi], eax add esi, 4 add edi, 4 dec ecx jnz @Loop1 @Continue: //handle remaining bytes (3 or less) pop ecx and ecx, 3 jz @Done @Loop2: //xor remaining bytes mov al, [edi] xor [esi], al inc esi inc edi dec ecx jnz @Loop2 @Done: pop edi pop esi end; { -------------------------------------------------------------------------- } procedure XorMem(var Mem1; const Mem2; Count : Cardinal); begin XorMemPrim(Mem1, Mem2, Count); end; { -------------------------------------------------------------------------- } procedure EncryptDES(const Context : TDESContext; var Block : TDESBlock); const SPBox : array [0..7, 0..63] of DWord = (($01010400, $00000000, $00010000, $01010404, $01010004, $00010404, $00000004, $00010000, $00000400, $01010400, $01010404, $00000400, $01000404, $01010004, $01000000, $00000004, $00000404, $01000400, $01000400, $00010400, $00010400, $01010000, $01010000, $01000404, $00010004, $01000004, $01000004, $00010004, $00000000, $00000404, $00010404, $01000000, $00010000, $01010404, $00000004, $01010000, $01010400, $01000000, $01000000, $00000400, $01010004, $00010000, $00010400, $01000004, $00000400, $00000004, $01000404, $00010404, $01010404, $00010004, $01010000, $01000404, $01000004, $00000404, $00010404, $01010400, $00000404, $01000400, $01000400, $00000000, $00010004, $00010400, $00000000, $01010004), ($80108020, $80008000, $00008000, $00108020, $00100000, $00000020, $80100020, $80008020, $80000020, $80108020, $80108000, $80000000, $80008000, $00100000, $00000020, $80100020, $00108000, $00100020, $80008020, $00000000, $80000000, $00008000, $00108020, $80100000, $00100020, $80000020, $00000000, $00108000, $00008020, $80108000, $80100000, $00008020, $00000000, $00108020, $80100020, $00100000, $80008020, $80100000, $80108000, $00008000, $80100000, $80008000, $00000020, $80108020, $00108020, $00000020, $00008000, $80000000, $00008020, $80108000, $00100000, $80000020, $00100020, $80008020, $80000020, $00100020, $00108000, $00000000, $80008000, $00008020, $80000000, $80100020, $80108020, $00108000), ($00000208, $08020200, $00000000, $08020008, $08000200, $00000000, $00020208, $08000200, $00020008, $08000008, $08000008, $00020000, $08020208, $00020008, $08020000, $00000208, $08000000, $00000008, $08020200, $00000200, $00020200, $08020000, $08020008, $00020208, $08000208, $00020200, $00020000, $08000208, $00000008, $08020208, $00000200, $08000000, $08020200, $08000000, $00020008, $00000208, $00020000, $08020200, $08000200, $00000000, $00000200, $00020008, $08020208, $08000200, $08000008, $00000200, $00000000, $08020008, $08000208, $00020000, $08000000, $08020208, $00000008, $00020208, $00020200, $08000008, $08020000, $08000208, $00000208, $08020000, $00020208, $00000008, $08020008, $00020200), ($00802001, $00002081, $00002081, $00000080, $00802080, $00800081, $00800001, $00002001, $00000000, $00802000, $00802000, $00802081, $00000081, $00000000, $00800080, $00800001, $00000001, $00002000, $00800000, $00802001, $00000080, $00800000, $00002001, $00002080, $00800081, $00000001, $00002080, $00800080, $00002000, $00802080, $00802081, $00000081, $00800080, $00800001, $00802000, $00802081, $00000081, $00000000, $00000000, $00802000, $00002080, $00800080, $00800081, $00000001, $00802001, $00002081, $00002081, $00000080, $00802081, $00000081, $00000001, $00002000, $00800001, $00002001, $00802080, $00800081, $00002001, $00002080, $00800000, $00802001, $00000080, $00800000, $00002000, $00802080), ($00000100, $02080100, $02080000, $42000100, $00080000, $00000100, $40000000, $02080000, $40080100, $00080000, $02000100, $40080100, $42000100, $42080000, $00080100, $40000000, $02000000, $40080000, $40080000, $00000000, $40000100, $42080100, $42080100, $02000100, $42080000, $40000100, $00000000, $42000000, $02080100, $02000000, $42000000, $00080100, $00080000, $42000100, $00000100, $02000000, $40000000, $02080000, $42000100, $40080100, $02000100, $40000000, $42080000, $02080100, $40080100, $00000100, $02000000, $42080000, $42080100, $00080100, $42000000, $42080100, $02080000, $00000000, $40080000, $42000000, $00080100, $02000100, $40000100, $00080000, $00000000, $40080000, $02080100, $40000100), ($20000010, $20400000, $00004000, $20404010, $20400000, $00000010, $20404010, $00400000, $20004000, $00404010, $00400000, $20000010, $00400010, $20004000, $20000000, $00004010, $00000000, $00400010, $20004010, $00004000, $00404000, $20004010, $00000010, $20400010, $20400010, $00000000, $00404010, $20404000, $00004010, $00404000, $20404000, $20000000, $20004000, $00000010, $20400010, $00404000, $20404010, $00400000, $00004010, $20000010, $00400000, $20004000, $20000000, $00004010, $20000010, $20404010, $00404000, $20400000, $00404010, $20404000, $00000000, $20400010, $00000010, $00004000, $20400000, $00404010, $00004000, $00400010, $20004010, $00000000, $20404000, $20000000, $00400010, $20004010), ($00200000, $04200002, $04000802, $00000000, $00000800, $04000802, $00200802, $04200800, $04200802, $00200000, $00000000, $04000002, $00000002, $04000000, $04200002, $00000802, $04000800, $00200802, $00200002, $04000800, $04000002, $04200000, $04200800, $00200002, $04200000, $00000800, $00000802, $04200802, $00200800, $00000002, $04000000, $00200800, $04000000, $00200800, $00200000, $04000802, $04000802, $04200002, $04200002, $00000002, $00200002, $04000000, $04000800, $00200000, $04200800, $00000802, $00200802, $04200800, $00000802, $04000002, $04200802, $04200000, $00200800, $00000000, $00000002, $04200802, $00000000, $00200802, $04200000, $00000800, $04000002, $04000800, $00000800, $00200002), ($10001040, $00001000, $00040000, $10041040, $10000000, $10001040, $00000040, $10000000, $00040040, $10040000, $10041040, $00041000, $10041000, $00041040, $00001000, $00000040, $10040000, $10000040, $10001000, $00001040, $00041000, $00040040, $10040040, $10041000, $00001040, $00000000, $00000000, $10040040, $10000040, $10001000, $00041040, $00040000, $00041040, $00040000, $10041000, $00001000, $00000040, $10040040, $00001000, $00041040, $10001000, $00000040, $10000040, $10040000, $10040040, $10000000, $00040000, $10001040, $00000000, $10041040, $00040040, $10000040, $10040000, $10001000, $10001040, $00000000, $10041040, $00041000, $00041000, $00001040, $00001040, $00040040, $10000000, $10041000)); var I, L, R, Work : DWord; CPtr : PDWord; procedure SplitBlock(const Block : TDESBlock; var L, R : DWord); register; asm push ebx push eax mov eax, [eax] mov bh, al mov bl, ah rol ebx, 16 shr eax, 16 mov bh, al mov bl, ah mov [edx], ebx pop eax mov eax, [eax+4] mov bh, al mov bl, ah rol ebx, 16 shr eax, 16 mov bh, al mov bl, ah mov [ecx], ebx pop ebx end; procedure JoinBlock(const L, R : LongInt; var Block : TDESBlock); register; asm push ebx mov bh, al mov bl, ah rol ebx, 16 shr eax, 16 mov bh, al mov bl, ah mov [ecx+4], ebx mov bh, dl mov bl, dh rol ebx, 16 shr edx, 16 mov bh, dl mov bl, dh mov [ecx], ebx pop ebx end; procedure IPerm(var L, R : DWord); var Work : DWord; begin Work := ((L shr 4) xor R) and $0F0F0F0F; R := R xor Work; L := L xor Work shl 4; Work := ((L shr 16) xor R) and $0000FFFF; R := R xor Work; L := L xor Work shl 16; Work := ((R shr 2) xor L) and $33333333; L := L xor Work; R := R xor Work shl 2; Work := ((R shr 8) xor L) and $00FF00FF; L := L xor Work; R := R xor Work shl 8; R := (R shl 1) or (R shr 31); Work := (L xor R) and $AAAAAAAA; L := L xor Work; R := R xor Work; L := (L shl 1) or (L shr 31); end; procedure FPerm(var L, R : DWord); var Work : DWord; begin L := L; R := (R shl 31) or (R shr 1); Work := (L xor R) and $AAAAAAAA; L := L xor Work; R := R xor Work; L := (L shr 1) or (L shl 31); Work := ((L shr 8) xor R) and $00FF00FF; R := R xor Work; L := L xor Work shl 8; Work := ((L shr 2) xor R) and $33333333; R := R xor Work; L := L xor Work shl 2; Work := ((R shr 16) xor L) and $0000FFFF; L := L xor Work; R := R xor Work shl 16; Work := ((R shr 4) xor L) and $0F0F0F0F; L := L xor Work; R := R xor Work shl 4; end; begin SplitBlock(Block, L, R); IPerm(L, R); CPtr := @Context; for I := 0 to 7 do begin Work := (((R shr 4) or (R shl 28)) xor CPtr^); Inc(CPtr); L := L xor SPBox[6, Work and $3F]; L := L xor SPBox[4, Work shr 8 and $3F]; L := L xor SPBox[2, Work shr 16 and $3F]; L := L xor SPBox[0, Work shr 24 and $3F]; Work := (R xor CPtr^); Inc(CPtr); L := L xor SPBox[7, Work and $3F]; L := L xor SPBox[5, Work shr 8 and $3F]; L := L xor SPBox[3, Work shr 16 and $3F]; L := L xor SPBox[1, Work shr 24 and $3F]; Work := (((L shr 4) or (L shl 28)) xor CPtr^); Inc(CPtr); R := R xor SPBox[6, Work and $3F]; R := R xor SPBox[4, Work shr 8 and $3F]; R := R xor SPBox[2, Work shr 16 and $3F]; R := R xor SPBox[0, Work shr 24 and $3F]; Work := (L xor CPtr^); Inc(CPtr); R := R xor SPBox[7, Work and $3F]; R := R xor SPBox[5, Work shr 8 and $3F]; R := R xor SPBox[3, Work shr 16 and $3F]; R := R xor SPBox[1, Work shr 24 and $3F]; end; FPerm(L, R); JoinBlock(L, R, Block); end; procedure InitEncryptDES(const Key : TKey64; var Context : TDESContext; Encrypt : Boolean); const PC1 : array [0..55] of Byte = (56, 48, 40, 32, 24, 16, 8, 0, 57, 49, 41, 33, 25, 17, 9, 1, 58, 50, 42, 34, 26, 18, 10, 2, 59, 51, 43, 35, 62, 54, 46, 38, 30, 22, 14, 6, 61, 53, 45, 37, 29, 21, 13, 5, 60, 52, 44, 36, 28, 20, 12, 4, 27, 19, 11, 3); PC2 : array [0..47] of Byte = (13, 16, 10, 23, 0, 4, 2, 27, 14, 5, 20, 9, 22, 18, 11, 3, 25, 7, 15, 6, 26, 19, 12, 1, 40, 51, 30, 36, 46, 54, 29, 39, 50, 44, 32, 47, 43, 48, 38, 55, 33, 52, 45, 41, 49, 35, 28, 31); CTotRot : array [0..15] of Byte = (1, 2, 4, 6, 8, 10, 12, 14, 15, 17, 19, 21, 23, 25, 27, 28); CBitMask : array [0..7] of Byte = (128, 64, 32, 16, 8, 4, 2, 1); var PC1M : array [0..55] of Byte; PC1R : array [0..55] of Byte; KS : array [0..7] of Byte; I, J, L, M : LongInt; begin {convert PC1 to bits of key} for J := 0 to 55 do begin L := PC1[J]; M := L mod 8; PC1M[J] := Ord((Key[L div 8] and CBitMask[M]) <> 0); end; {key chunk for each iteration} for I := 0 to 15 do begin {rotate PC1 the right amount} for J := 0 to 27 do begin L := J + CTotRot[I]; if (L < 28) then begin PC1R[J] := PC1M[L]; PC1R[J + 28] := PC1M[L + 28]; end else begin PC1R[J] := PC1M[L - 28]; PC1R[J + 28] := PC1M[L]; end; end; {select bits individually} FillChar(KS, SizeOf(KS), 0); for J := 0 to 47 do if Boolean(PC1R[PC2[J]]) then begin L := J div 6; KS[L] := KS[L] or CBitMask[J mod 6] shr 2; end; {now convert to odd/even interleaved form for use in F} if Encrypt then begin Context.TransformedKey[I * 2] := (LongInt(KS[0]) shl 24) or (LongInt(KS[2]) shl 16) or (LongInt(KS[4]) shl 8) or (LongInt(KS[6])); Context.TransformedKey[I * 2 + 1] := (LongInt(KS[1]) shl 24) or (LongInt(KS[3]) shl 16) or (LongInt(KS[5]) shl 8) or (LongInt(KS[7])); end else begin Context.TransformedKey[31 - (I * 2 + 1)] := (LongInt(KS[0]) shl 24) or (LongInt(KS[2]) shl 16) or (LongInt(KS[4]) shl 8) or (LongInt(KS[6])); Context.TransformedKey[31 - (I * 2)] := (LongInt(KS[1]) shl 24) or (LongInt(KS[3]) shl 16) or (LongInt(KS[5]) shl 8) or (LongInt(KS[7])); end; end; Context.Encrypt := Encrypt; end; procedure EncryptDESCBC(const Context : TDESContext; const Prev : TDESBlock; var Block : TDESBlock); begin if Context.Encrypt then begin XorMem(Block, Prev, SizeOf(Block)); EncryptDES(Context, Block); end else begin EncryptDES(Context, Block); XorMem(Block, Prev, SizeOf(Block)); end; end; function EncryDes(const str:string;const keystr:string;const ivstr:string):string ; var key:tkey64; Context:TDESContext; Block,iv:TDESBlock; i,j,len,posnum:smallint; poschar,xx:char; xuhuan:integer; begin for i:=0 to 7 do begin if i > (length(keystr)-1) then key[i] :=0 else key[i] := byte(keystr[i+1]); end; for i:=0 to 7 do begin if i > (length(ivstr)-1) then iv[i]:=0 else iv[i] := byte(ivstr[i+1]); end; InitEncryptDES(Key, Context, true); len := length(AnsiString(str)); xx:= char( 8- (len mod 8)); if len<=8 then xuhuan:=0 else xuhuan:=round(len/8); for i:=0 to xuhuan do begin for j:=0 to 7 do begin if ((i*8+j+1)<=len) then begin poschar:=str[i*8+j+1]; block[j]:=byte(poschar); end else block[j]:=byte(xx); end; EncryptDESCBC(Context, IV, Block); for j:= 0 to 7 do begin posnum:=block[j]; result := result + inttohex(posnum,2); end; iv:=block; end; end; function DecryDessec(const str:string;const keystr:string;const ivstr:string):string ; var key:tkey64; Context:TDESContext; bak,Block,iv:TDESBlock; i,j,len,posnum:smallint; poschar,xx:char; res,lss,temp:string; begin temp := keystr; res := ''; for i:=0 to 7 do begin if i > (length(temp)-1) then key[i] :=0 else key[i] := byte(temp[i+1]); end; temp := ivstr; for i:=0 to 7 do begin if i > (length(temp)-1) then iv[i] := 0 else iv[i] := byte(temp[i+1]); end; InitEncryptDES(Key, Context, False); temp := str; posnum := 0; for i:=0 to length(temp)-1 do begin Block[posnum] := byte(temp[i+1]); posnum := posnum+1; if posnum = 8 then begin bak := block; EncryptDESCBC(Context, IV, Block); for j:= 0 to 7 do begin // temp := temp+inttostr(byte(block[i]))+' '; res := res + char(block[j]); end; iv := bak; posnum := 0; end; end; if posnum <> 0 then begin // end else begin temp:=''; for i:= 1 to length(res) do begin temp := temp+char(res[i]); end; Result:= trim(temp); end; end; function DecryDes(const str:string;const keystr:string;const ivstr:string):string ; var key:tkey64; Context:TDESContext; bak,Block,iv:TDESBlock; i,j,len,posnum:smallint; poschar,xx:char; res,lss:string; begin for i:=0 to 7 do begin if i > (length(keystr)-1) then key[i] :=0 else key[i] := byte(keystr[i+1]); end; for i:=0 to 15 do begin if i > (length(ivstr)-1) then iv[i]:=0 else iv[i] := byte(ivstr[i+1]); end; InitEncryptDES(Key, Context, false); res:=''; for j:= 0 to (length(str) div 2)-1 do begin lss:=copy(str,j*2+1,2); res:=res+ char(StrToInt('$'+lss)) ; end; len := length(AnsiString(res)); for i:=0 to round(len/8)-1 do begin for j:=0 to 7 do begin if ((i*7+j+1)<=len) then begin poschar:=res[i*8+j+1]; block[j]:=byte(poschar); end else begin block[j]:=byte(xx); end; end; bak:=block; EncryptDESCBC(Context, IV, Block); for j:= 0 to 7 do begin result := result + char(block[j]); end; iv:=bak; end; end; end.

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DES加密解密源代码

这是我学习DES时编写的DES加密解密程序。源代码中有详细注释。运行程序时,16轮加密解密的每一步都会输出中间结果,便于学习和研究DES。

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des加密解密jar(utf-8编码)

java des加密解密jar包,实现了utf-8防止乱码,这个是jar包,可以直接使用,需要源码可以找我

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java Des/3Des/含向量DES加解密可与C语言DES互相加解密(包含 javabase64 )

包含三种DES的加解密方法(DES加解密、3DES加解密、含IV向量的DES加解密),其中含IV向量的DES加解密可以与C语言的DES加解密实现互解。

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DES原理及实现步骤,以及VC++关于DES加密解密的详细源程序

DES算法是这样工作的:如Mode为加密,则用Key 去把数据Data进行加密, 生成Data的密码形式(64位)作为DES的输出结果;如Mode为解密,则用Key去把密码形式的数据Data解密,还原为Data的明码形式(64位)作为DES的输出结果。在通信网络的两端,双方约定一致的Key,在通信的源点用Key对核心数据进行DES加密,然后以密码形式在公共通信网(如电话网)中传输到通信网络的终点,数据到达目的地后,用同样的Key对密码数据进行解密,便再现了明码形式的核心数据。这样,便保证了核心数据(如PIN、MAC等)在公共通信网中传输的安全性和可靠性。   通过定期在通信网络的源端和目的端同时改用新的Key,便能更进一步提高数据的保密性,这正是现在金融交易网络的流行做法。 下面是DES原理及实现步骤,以及VC++关于DES加密解密的详细源程序

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小程序+java后端统一 des 加密解密

小程序des加密,后台java解密配套使用的,需要的同学可以看一下

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CryptoJS v3.1.2+Java前后台加解密

亲测可用。前后端,通过代码生成加密和解密。javascript可以解密和加密,反之,后端java代码可以加密和解密。包中有详细说明和例子代码。保证可以正确运行。

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java DES加密和解密

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