# Looking for DES algorithm tutorial [closed]

I am studying for cryptography and I somehow stuck on understanding how DES works. Because it is around for a long time there should be nice tutorials like fancy diagrams, videos etc around the net. I searched but with no luck. Has anyone spotted anything "easy-to-digest" for the brain?

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## closed as off-topic by David Eisenstat, gnat, S.L. Barth, manouti, 1615903Sep 21 at 8:02

This question appears to be off-topic. The users who voted to close gave this specific reason:

• "Questions asking us to recommend or find a book, tool, software library, tutorial or other off-site resource are off-topic for Stack Overflow as they tend to attract opinionated answers and spam. Instead, describe the problem and what has been done so far to solve it." – gnat, S.L. Barth, 1615903
If this question can be reworded to fit the rules in the help center, please edit the question.

About downvoting: This question was placed when such questions were acceptable in Stack Overflow. Down-voting penalises asking them with what makes sense today, which is a bit... meh –  dimitris mistriotis Sep 21 at 8:51

Bruce Schneier's Applied Cryptography is probably the funniest analysis you will find of it, but it is certainly not easy.

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I must also add, because I needed initially to understand DES for a cryptography class, it's as well what each professor wants to emphasize on... Certainly as many people pointed out it is not easy, I achieved understanding after many iterations and discussions with fellow students. –  dimitris mistriotis Jan 14 '09 at 14:37

have you checked Wikipedia? It also points to the FIPS standard.

Note that modern cryptography and "easy-on-the-brain" don't necessarily go hand in hand...

I am certain there are open source implementations you could check out if that is what you are interested in.

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des-3des encription decryption simulated with strings in java:

public class Filippakoc_Des {
static int[][] sb1={
{14 , 4 , 13 , 1 , 2 , 15 , 11 , 8 , 3 , 10 , 6 , 12 , 5 , 9 , 0 , 7 },
{0  , 15,  7 , 4 , 14, 2  ,  13,  1, 10,   6, 12,  11,  9,  5,  3,  8},
{4  ,  1,  14,  8, 13,   6,   2, 11, 15,  12,  9,   7,  3, 10,  5,  0},
{15 , 12,   8,  2,  4,   9,   1,  7,  5,  11,  3,  14, 10,  0,  6,  13}
};
static int[][] sb2={
{15 , 1 , 8 , 14, 6 ,  11,   3,  4, 9 , 7 ,  2, 13 , 12, 0, 5 ,  10},
{3  , 13,  4,  7, 15,   2,   8, 14, 12,  0,  1,  10,  6, 9, 11,   5},
{0  , 14,  7, 11, 10,   4,  13,  1, 5 ,  8, 12,   6,  9, 3,  2,  15},
{13 , 8 , 10,  1,  3,  15,   4,  2, 11,  6,  7,  12, 0 , 5,  14,  9}
};
static int[][] sb3={
{10 , 0 ,  9,14,  6,    3,  15,  5, 1, 13,  12, 7 , 11,  4,   2,   8},
{13 ,  7,  0, 9,  3,    4,   6, 10, 2,  8,   5, 14, 12, 11,  15,   1},
{13 ,  6,  4, 9,  8,   15,   3,  0,11,  1,   2, 12,  5, 10,  14,   7},
{1  , 10 ,13, 0,  6,    9,   8,  7, 4, 15,  14,  3, 11,  5,   2,  12}
};
static int[][] sb4={
{ 7 , 13, 14, 3,   0,  6,   9, 10, 1, 2,  8,  5, 11, 12,  4,  15},
{13 ,  8, 11, 5,   6, 15,   0,  3, 4, 7,  2, 12,  1, 10, 14,   9},
{10 ,  6,  9, 0,  12, 11,   7, 13,15, 1,  3, 14,  5,  2,  8,   4},
{3  , 15,  0, 6,  10,  1,   13, 8, 9, 4,  5, 11, 12,  7,  2,  14}
};
static int[][] sb5={
{ 2, 12,  4,  1,  7,  10, 11, 6,  8,  5,   3, 15, 13,  0, 14,  9},
{14, 11,  2, 12,  4,   7, 13, 1,  5,  0,  15, 10,  3,  9,  8,  6},
{4 ,  2,  1, 11, 10,  13,  7, 8, 15,  9,  12,  5,  6,  3,  0, 14},
{11,  8, 12, 7 ,  1,  14,  2, 13, 6, 15,   0,  9, 10,  4,  5,  3}
};
static int[][] sb6={
{ 12, 1, 10, 15,  9,  2,  6, 8,  0,  13,   3,  4, 14,  7,  5, 11},
{10, 15,  4,  2,  7, 12,  9, 5,  6,   1,  13, 14,  0,  11, 3,  8},
{9 , 14, 15,  5,  2,  8, 12, 3,  7,   0,   4, 10,  1,  13,11,  6},
{4,   3, 12, 12,  9,  5, 15, 10,11,  14,   1,  7,  6,   0, 8, 13}
};
static int[][] sb7={
{ 4,11,  2, 14,  15, 0,  8, 13,  3,  12,  9,  7,  5, 10, 6, 1},
{13, 0, 11,  7,  4,  9,  1, 10, 14,   3,  5, 12,  2, 15, 8,  6},
{1 , 4, 11, 13,  12, 3, 7,  14, 10,  15,  6,  8,  0,  5, 9,  2},
{6, 11, 13,  8,  1,  4, 10,  7,  9,   5,  0, 15, 14,  2, 3, 12}
};
static int[][] sb8={
{13,  2,  8,  4,   6,  15, 11,  1, 10,  9,  3,14,  5, 0, 12,  7},
{ 1, 15, 13,  8,  10,   3,  7,  4, 12,  5,  6,11,  0, 14, 9,  2},
{7 , 11,  4,  1,   9,  12, 14,  2,  0,  6, 10,13, 15,  3, 5,  8},
{ 2,  1, 14,  7,   4,  10,  8, 13, 15, 12,  9, 0,  3,  5, 6, 11}
};

public String Filippakoc_Des(String ptxt,String key,boolean encdes){
//String a=String.format("%64s", Integer.toBinaryString(255)).replace(' ', '0');
//String b="1011011111001001100001110000101110110000010001110101111101001010";
String ipa=IPpermutation(ptxt);
String ipb=IPpermutation(ptxt);
String[] keys=Keygenerate(key);
String[] rounds=new String[16];
String cripttext="";
if(encdes==true){
for(int i=0;i<rounds.length;i++){
if(i<1){
rounds[i]=round(ipa,keys[i]);
}else{
rounds[i]=round(rounds[i-1],keys[i]);
}

}

cripttext=IPpermutation_(rounds[15]);
//System.out.println(ptxt);
//System.out.println(cripttext);
}else{
for(int i=rounds.length-1;i>=0;i--){
if(i>14){
rounds[i]=dround(ipb,keys[i]);
}else{
rounds[i]=dround(rounds[i+1],keys[i]);
}

}
cripttext=IPpermutation_(rounds[0]);
//System.out.println(ptxt);
//System.out.println(cripttext);
}

return cripttext;

//String a=String.format("%32s", Integer.toBinaryString(255)).replace(' ', '0');
//String b=String.format("%48s", Integer.toBinaryString(21)).replace(' ', '0');
//System.out.println(functionf(a, b));
//System.out.println(xor(a,b));
}
public String Filippakoc_3des(String ptxt,String key1,String key2,String key3,boolean encdes){
String En="";
if(encdes){
En=Filippakoc_Des(ptxt, key1, true);
En=En=Filippakoc_Des(En, key2, false);
En=En=Filippakoc_Des(En, key3, true);
}else{
En=Filippakoc_Des(ptxt, key1, false);
En=En=Filippakoc_Des(En, key2, true);
En=En=Filippakoc_Des(En, key3, false);
}

return En;

}
public String round(String plain64,String keyi){

String li=plain64.substring(0,32);
String ri=plain64.substring(32);

String ro=xor(li,functionf(ri,keyi));
String lo=ri;
String resultround=lo+ro;
return resultround;
}
public String dround(String plain64,String keyi){
String li=plain64.substring(0,32);
String ri=plain64.substring(32);

String lo=xor(ri,functionf(li,keyi));
String ro=li;
String resultround=lo+ro;
return resultround;
}
public String xor(String a,String b){
String res="";
for(int i=0;i<a.length();i++){
if(a.charAt(i)=='0' && b.charAt(i)=='0'){
res+='0';
}else  if(a.charAt(i)=='0' && b.charAt(i)=='1'){
res+='1';
}else  if(a.charAt(i)=='1' && b.charAt(i)=='0'){
res+='1';
}else  if(a.charAt(i)=='1' && b.charAt(i)=='1'){
res+='0';
}
}
return res;
}
public String sboxesrtn(int ff){
String sb=Integer.toBinaryString(ff);
if(ff<2){
sb="000"+sb;
}else if(ff<4){
sb="00"+sb;
}else if(ff<8){
sb="0"+sb;
}
return sb;
}
public String functionf(String r32,String k48){
String r48=Epermutation(r32);
String xorout=xor(r48, k48);
String[] splitto6=new String[8];
splitto6[0]=xorout.substring(0,6);
splitto6[1]=xorout.substring(6,12);
splitto6[2]=xorout.substring(12,18);
splitto6[3]=xorout.substring(18,24);
splitto6[4]=xorout.substring(24,30);
splitto6[5]=xorout.substring(30,36);
splitto6[6]=xorout.substring(36,42);
splitto6[7]=xorout.substring(42);
String rnew32="";
String row;
String column="";
for(int i=0;i<splitto6.length;i++){
row=""+splitto6[i].charAt(0)+splitto6[i].charAt(5);
column=splitto6[i].substring(1,5);
//System.out.println(splitto6[i]+"  "+row+"  "+column);
int irow=Integer.parseInt(row, 2);
int icolumn=Integer.parseInt(column, 2);
if(i==0){
//rnew32+=Integer.toBinaryString(sb1[irow][icolumn]);
rnew32+=String.format("%4s", Integer.toBinaryString(sb1[irow][icolumn])).replace(' ', '0');
}else if(i==1){
rnew32+=String.format("%4s", Integer.toBinaryString(sb2[irow][icolumn])).replace(' ', '0');
}else if(i==2){
rnew32+=String.format("%4s", Integer.toBinaryString(sb3[irow][icolumn])).replace(' ', '0');
}else if(i==3){
rnew32+=String.format("%4s", Integer.toBinaryString(sb4[irow][icolumn])).replace(' ', '0');
}else if(i==4){
rnew32+=String.format("%4s", Integer.toBinaryString(sb5[irow][icolumn])).replace(' ', '0');
}else if(i==5){
rnew32+=String.format("%4s", Integer.toBinaryString(sb6[irow][icolumn])).replace(' ', '0');
}else if(i==6){
rnew32+=String.format("%4s", Integer.toBinaryString(sb7[irow][icolumn])).replace(' ', '0');
}else if(i==7){
rnew32+=String.format("%4s", Integer.toBinaryString(sb8[irow][icolumn])).replace(' ', '0');
}
}

//System.out.println(rnew32.length());
//System.out.println(rnew32);
// System.out.print(splitto6[0]+"  "+splitto6[1]+"  "+splitto6[2]+"  "+splitto6[3]+"  "+splitto6[4]+"  "+splitto6[5]+"  "+splitto6[6]+"  "+splitto6[7]+"\n");
rnew32=Ppermutation(rnew32);
return rnew32;

}
public String Epermutation(String r32){
r32=" "+r32;
String r48=""+r32.charAt(31)+r32.charAt(1)+r32.charAt(2)+r32.charAt(3)+r32.charAt(4)+r32.charAt(5)+r32.charAt(4)+r32.charAt(5)+r32.charAt(6)+r32.charAt(7)+r32.charAt(8)+r32.charAt(9)+r32.charAt(8)+r32.charAt(9)+r32.charAt(10)+r32.charAt(11)+r32.charAt(12)+r32.charAt(13)+r32.charAt(12)+r32.charAt(13)+r32.charAt(14)+r32.charAt(15)+r32.charAt(16)+r32.charAt(17)+r32.charAt(16)+r32.charAt(17)+r32.charAt(18)+r32.charAt(19)+r32.charAt(20)+r32.charAt(21)+r32.charAt(20)+r32.charAt(21)+r32.charAt(22)+r32.charAt(23)+r32.charAt(24)+r32.charAt(25)+r32.charAt(24)+r32.charAt(25)+r32.charAt(26)+r32.charAt(27)+r32.charAt(28)+r32.charAt(29)+r32.charAt(28)+r32.charAt(29)+r32.charAt(30)+r32.charAt(31)+r32.charAt(32)+r32.charAt(1);
return r48;
}
public String Ppermutation(String r32){
r32=" "+r32;
String r32p=""+r32.charAt(17)+r32.charAt(7)+r32.charAt(20)+r32.charAt(21)+r32.charAt(29)+r32.charAt(12)+r32.charAt(28)+r32.charAt(17)+r32.charAt(1)+r32.charAt(15)+r32.charAt(23)+r32.charAt(26)+r32.charAt(5)+r32.charAt(18)+r32.charAt(31)+r32.charAt(10)+r32.charAt(2)+r32.charAt(8)+r32.charAt(24)+r32.charAt(14)+r32.charAt(32)+r32.charAt(27)+r32.charAt(3)+r32.charAt(9)+r32.charAt(19)+r32.charAt(13)+r32.charAt(30)+r32.charAt(6)+r32.charAt(22)+r32.charAt(11)+r32.charAt(4)+r32.charAt(25);
return r32p;
}
public String IPpermutation(String r64){
r64=" "+r64;
String r64p=""+r64.charAt(58)+r64.charAt(50)+r64.charAt(42)+ r64.charAt(34)+r64.charAt(26)+r64.charAt(18)+r64.charAt(10)+r64.charAt(2)
+r64.charAt(60)+r64.charAt(52)+r64.charAt(44)+r64.charAt(36)+r64.charAt(28)+r64.charAt(20)+r64.charAt(12)+r64.charAt(4)+
r64.charAt(62)+r64.charAt(54)+r64.charAt(46)+r64.charAt(38)+r64.charAt(30)+r64.charAt(22)+r64.charAt(14)+r64.charAt(6)+
r64.charAt(64)+r64.charAt(56)+r64.charAt(48)+r64.charAt(40)+r64.charAt(32)+r64.charAt(24)+r64.charAt(16)+r64.charAt(8)+
r64.charAt(57)+r64.charAt(49)+ r64.charAt(41)+r64.charAt(33)+r64.charAt(25)+r64.charAt(17)+r64.charAt(9)+r64.charAt(1)+
r64.charAt(59)+r64.charAt(51)+r64.charAt(43)+r64.charAt(35)+r64.charAt(27)+r64.charAt(19)+r64.charAt(11)+r64.charAt(3)+
r64.charAt(61)+r64.charAt(53)+r64.charAt(45)+r64.charAt(37)+r64.charAt(29)+r64.charAt(21)+r64.charAt(13)+r64.charAt(5)+
r64.charAt(63)+r64.charAt(55)+r64.charAt(47)+r64.charAt(39)+r64.charAt(31)+r64.charAt(23)+r64.charAt(15)+r64.charAt(7);
return r64p;
}
public String IPpermutation_(String r64){
r64=" "+r64;
String r64p=""+
r64.charAt(40)+r64.charAt(8)+r64.charAt(48)+ r64.charAt(16)+r64.charAt(56)+r64.charAt(24)+r64.charAt(64)+r64.charAt(32)+
r64.charAt(39)+r64.charAt(7)+r64.charAt(47)+r64.charAt(15)+r64.charAt(55)+r64.charAt(23)+r64.charAt(63)+r64.charAt(31)+
r64.charAt(38)+r64.charAt(6)+r64.charAt(46)+r64.charAt(14)+r64.charAt(54)+r64.charAt(22)+r64.charAt(62)+r64.charAt(30)+
r64.charAt(37)+r64.charAt(5)+r64.charAt(45)+r64.charAt(13)+r64.charAt(53)+r64.charAt(21)+r64.charAt(61)+r64.charAt(29)+
r64.charAt(36)+r64.charAt(4)+ r64.charAt(44)+r64.charAt(12)+r64.charAt(52)+r64.charAt(20)+r64.charAt(60)+r64.charAt(28)+
r64.charAt(35)+r64.charAt(3)+r64.charAt(43)+r64.charAt(11)+r64.charAt(51)+r64.charAt(19)+r64.charAt(59)+r64.charAt(27)+
r64.charAt(34)+r64.charAt(2)+r64.charAt(42)+r64.charAt(10)+r64.charAt(50)+r64.charAt(18)+r64.charAt(58)+r64.charAt(26)+
r64.charAt(33)+r64.charAt(1)+r64.charAt(41)+r64.charAt(9)+r64.charAt(49)+r64.charAt(17)+r64.charAt(57)+r64.charAt(25);
return r64p;
}
public String[] Keygenerate(String key){
String[] keys=new String[16];
String key56=pc_1(key);
String lkey28=key56.substring(0,28);
String rkey28=key56.substring(28);
for(int i=0;i<keys.length;i++){
if(i==0 || i==1 || i==8 || i==15){
lkey28=Lbitrotate(lkey28, 1);
rkey28=Lbitrotate(rkey28, 1);
keys[i]=pc_2(lkey28+rkey28);
}else{
lkey28=Lbitrotate(lkey28, 2);
rkey28=Lbitrotate(rkey28, 2);
keys[i]=pc_2(lkey28+rkey28);
}
}

return keys;

}
public String pc_1(String key){
String key56="";
key56=""+key.charAt(56)+key.charAt(48)+key.charAt(40)+key.charAt(32)+key.charAt(24)+key.charAt(16)+key.charAt(8)+key.charAt(0)+key.charAt(57)+key.charAt(49)+key.charAt(41)+key.charAt(33)+key.charAt(25)+key.charAt(17)+key.charAt(9)+key.charAt(1)+key.charAt(58)+key.charAt(50)+key.charAt(42)+key.charAt(34)+key.charAt(26)+key.charAt(18)+key.charAt(10)+key.charAt(2)+key.charAt(59)+key.charAt(51)+key.charAt(43)+key.charAt(35)+key.charAt(62)+key.charAt(54)+key.charAt(46)+key.charAt(38)+key.charAt(30)+key.charAt(23)+key.charAt(14)+key.charAt(6)+key.charAt(61)+key.charAt(53)+key.charAt(45)+key.charAt(37)+key.charAt(29)+key.charAt(21)+key.charAt(13)+key.charAt(5)+key.charAt(60)+key.charAt(52)+key.charAt(44)+key.charAt(36)+key.charAt(28)+key.charAt(20)+key.charAt(12)+key.charAt(4)+key.charAt(27)+key.charAt(19)+key.charAt(11)+key.charAt(3);
return key56;
}
public String pc_2(String key){
String key48="";
key48=""+key.charAt(13)+key.charAt(16)+key.charAt(10)+key.charAt(23)+key.charAt(0)+key.charAt(4)+key.charAt(2)+key.charAt(27)+key.charAt(14)+key.charAt(5)+key.charAt(20)+key.charAt(9)+key.charAt(22)+key.charAt(18)+key.charAt(11)+key.charAt(3)+key.charAt(25)+key.charAt(7)+key.charAt(15)+key.charAt(6)+key.charAt(26)+key.charAt(19)+key.charAt(12)+key.charAt(1)+key.charAt(40)+key.charAt(51)+key.charAt(30)+key.charAt(36)+key.charAt(46)+key.charAt(54)+key.charAt(29)+key.charAt(39)+key.charAt(50)+key.charAt(44)+key.charAt(32)+key.charAt(47)+key.charAt(43)+key.charAt(48)+key.charAt(38)+key.charAt(55)+key.charAt(33)+key.charAt(52)+key.charAt(45)+key.charAt(41)+key.charAt(49)+key.charAt(35)+key.charAt(28)+key.charAt(31);
return key48;
}

public String Lbitrotate(String bin,int times){
String binary=bin;
String binary2="";
String binarynew="";
for(int i=0;i<times;i++){
if(i<1){
binary2=binary.substring(1)+binary.charAt(0);
}else{
binary2=binarynew.substring(1)+binarynew.charAt(0);
}
binarynew=binary2;

}
return binary2;

} }

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The DES Algorithm Illustrated is the best simple summary (easy to digest) of DES I have seen.

As for an actual picture see How DES Works or a Mirror of How DES Works

For AES there is A Stick Figure Guide to the Advanced Encryption Standard (AES).

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Loved the AES comic (will read it when I find time), "How DES works" gave me a 403, "The DES..." is actually straightforward and what I needed at that time. –  dimitris mistriotis Mar 10 '12 at 9:00
I checked fist two links and they are not working. Can anyone give the updated link? -thanks. –  Nusrat Mar 17 at 18:10
Updated the first link and the second link works here –  Appleman1234 Mar 17 at 18:36
How DES Works is not working. Other two links are fine. –  Nusrat Mar 17 at 18:48

I have checked wikipedia, seems that I needed more. I also think that Schneier's book is perfect, I have it back home and could not transport it to where I study :-( shame....
Nobody said this was going to be easy perhaps I should just read it many times and write it down on paper until it gets stuck to my brain (or have Applied Cryptography posted).
Thanks for the very quick answers.

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I found out that the more repetitions I do the better it gets! Also found out the hard way, that doing it day after day helps more than all-in-once. At least I could get a copy of Schneier's book which helps a lot.
Writing my own is not an option since it is a new algorithm each week, but it is a very interesting, helpful (and obvious sometimes) idea.
It has not to do with DES, you convinced me to learn Python :-)

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Funny - that's the same thing with DES - they usually have three repetitions nowadays ;-) –  Olaf Kock Oct 16 '08 at 20:10