optimized speed and memory usage of salsa20.d and actions.d. Some more small fixes
This commit is contained in:
parent
7e3f2cc611
commit
20dc2ff534
4 changed files with 152 additions and 76 deletions
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@ -10,6 +10,7 @@ import cipher;
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public:
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enum chunkSize = 4096;
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enum base64ChunkSize = 57;
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enum string randomDeviceName = "/dev/random";
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@ -19,44 +20,71 @@ void encrypt(string keyFileName, Cipher cipher, bool armor)
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ubyte[8] nonce;
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if (armor)
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{
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ubyte[] buf;
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ubyte[base64ChunkSize] buf;
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char[Base64.encodeLength(base64ChunkSize)] buf2;
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int counter;
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foreach (b; stdin.byChunk(chunkSize).joiner.cipherFunction(key, nonce, cipher))
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{
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buf ~= [b];
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if (buf.length == 57)
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buf[counter] = b;
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++counter;
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if (counter == 57)
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{
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stdout.writeln(Base64.encode(buf));
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buf = [];
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Base64.encode(buf, buf2[]);
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stdout.writeln(buf2);
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counter = 0;
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}
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}
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if (buf !is null)
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stdout.writeln(Base64.encode(buf));
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if (counter > 0)
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{
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Base64.encode(buf[0..counter], buf2[]);
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stdout.writeln(buf2[0..Base64.encodeLength(counter)]);
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}
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}
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else
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{
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ubyte[chunkSize] buf;
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int counter;
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foreach (b; stdin.byChunk(chunkSize).joiner.cipherFunction(key, nonce, cipher))
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stdout.rawWrite([b]);
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{
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buf[counter] = b;
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++counter;
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if (counter == chunkSize)
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{
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stdout.rawWrite(buf);
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counter = 0;
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}
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}
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if (counter > 0)
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stdout.rawWrite(buf[0..counter]);
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}
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}
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void decrypt(string keyFileName, Cipher cipher, bool armor)
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{
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import std.range;
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auto key = loadKey(keyFileName, armor);
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ubyte[8] nonce;
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ubyte[chunkSize] buf;
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int counter;
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InputRange!ubyte r;
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if (armor)
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{
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ubyte[] buf;
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foreach (b; Base64.decoder(stdin.byLine).joiner.cipherFunction(key, nonce, cipher))
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{
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stdout.rawWrite([b]);
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}
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}
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r = Base64.decoder(stdin.byLine).joiner.cipherFunction(key, nonce, cipher).inputRangeObject;
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else
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r = stdin.byChunk(chunkSize).joiner.cipherFunction(key, nonce, cipher).inputRangeObject;
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foreach (b; r)
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{
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foreach (b; stdin.byChunk(chunkSize).joiner.cipherFunction(key, nonce, cipher))
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stdout.rawWrite([b]);
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buf[counter] = b;
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++counter;
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if (counter == 4096)
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{
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stdout.rawWrite(buf);
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counter = 0;
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}
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}
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if(counter > 0)
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stdout.rawWrite(buf[0..counter]);
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}
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void generateKey(bool armor)
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{
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@ -90,12 +118,11 @@ ubyte[32] loadKey(string filename, bool armor)
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scope (exit)
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keyFile.close();
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ubyte[32] key;
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ubyte[33] temp;
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if (armor)
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{
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ubyte[] tempKey;
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foreach (line; keyFile.byLine)
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tempKey ~= Base64.decode(line);
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key = tempKey;
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import std.string : chomp;
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key = Base64.decode(keyFile.readln.chomp, temp[]);
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}
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else
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{
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23
source/app.d
23
source/app.d
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@ -16,14 +16,13 @@ int main(string[] args)
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GetoptResult result;
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try
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{
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result = getopt(args,
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std.getopt.config.bundling,
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"gen-key|g", "Generate a new 256 bit key.", &actions["genKey"],
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result = getopt(args, std.getopt.config.bundling, "gen-key|g",
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"Generate a new 256 bit key.", &actions["genKey"],
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"encrypt|e", "Encrypt a message.", &actions["encrypt"],
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"decrypt|d", "Decrypt a message.", &actions["decrypt"],
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"cipher|c", "The cipher to use (default: %s).".format(cipher), &cipher,
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"key|k", "The file which contains the key (default: %s).".format(keyFileName), &keyFileName,
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"armor|a", "use ascii-armored I/O.", &armor);
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"cipher|c", "The cipher to use (default: %s).".format(cipher), &cipher, "key|k",
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"The file which contains the key (default: %s).".format(keyFileName),
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&keyFileName, "armor|a", "use ascii-armored I/O.", &armor);
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}
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catch (Exception e)
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{
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@ -71,12 +70,8 @@ int main(string[] args)
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void printHelp(Option[] options)
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{
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defaultGetoptPrinter("Usage: ./learncrypt [options]\n\nCommon options:",
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options[$-1..$]);
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defaultGetoptPrinter("\nGlobal options:",
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options[$-2..$-1]);
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defaultGetoptPrinter("\nActions:",
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options[0..3]);
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defaultGetoptPrinter("\nAction options:",
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options[3..5]);
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defaultGetoptPrinter("Usage: ./learncrypt [options]\n\nCommon options:", options[$ - 1 .. $]);
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defaultGetoptPrinter("\nGlobal options:", options[$ - 2 .. $ - 1]);
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defaultGetoptPrinter("\nActions:", options[0 .. 3]);
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defaultGetoptPrinter("\nAction options:", options[3 .. 5]);
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}
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@ -1,9 +1,12 @@
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module cipher;
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private import std.range : isInputRange, isForwardRange, ElementType, InputRange, ForwardRange, inputRangeObject;
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private import std.range : isInputRange, isForwardRange, ElementType,
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InputRange, ForwardRange, inputRangeObject;
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private import std.string : format;
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private import salsa20;
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private import chacha20;
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public:
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@ -38,8 +41,8 @@ unittest
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{
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import std.array;
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ubyte[32] key;
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ubyte[8] nonce;
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immutable ubyte[32] key;
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immutable ubyte[8] nonce;
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ubyte[] a = [1, 2, 3];
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auto b = a.cipherFunction(key, nonce, Cipher.salsa20);
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InputRange!ubyte c = a.inputRangeObject;
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103
source/salsa20.d
103
source/salsa20.d
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@ -35,8 +35,10 @@ auto salsa20Cipher(R)(R range, ubyte[32] key, ubyte[8] nonce)
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salsaSection.popFront();
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if (salsaSection.empty)
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{
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++count;
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salsaSection = salsa20Exp(key, nonce ~ littleEndianInv(count));
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ubyte[16] n;
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n[0..8] = nonce;
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n[8..16] = littleEndianInv(0UL);
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salsaSection = salsa20Exp(key, n).dup;
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}
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range.popFront();
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}
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@ -48,7 +50,10 @@ auto salsa20Cipher(R)(R range, ubyte[32] key, ubyte[8] nonce)
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}
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}
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}
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return rangeResult(0UL, range, salsa20Exp(key, nonce ~ littleEndianInv(0UL)));
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ubyte[16] n;
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n[0..8] = nonce;
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n[8..16] = littleEndianInv(0UL);
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return rangeResult(0UL, range, salsa20Exp(key, n).dup);
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}
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private:
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@ -176,10 +181,10 @@ unittest
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mixin(colRound!(x00, x01, x02, x03, x04, x05, x06, x07,
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x08, x09, x10, x11, x12, x13, x14, x15));
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uint[] test0 = [y00, y01, y02, y03, y04, y05, y06, y07,
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immutable uint[] test0 = [y00, y01, y02, y03, y04, y05, y06, y07,
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y08, y09, y10, y11, y12, y13, y14, y15];
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uint[] test1 = [x00, x01, x02, x03, x04, x05, x06, x07,
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immutable uint[] test1 = [x00, x01, x02, x03, x04, x05, x06, x07,
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x08, x09, x10, x11, x12, x13, x14, x15];
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assert(test0 == [0x10090288, 0x00000000, 0x00000000, 0x00000000,
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@ -193,8 +198,8 @@ unittest
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0x481c2027, 0x53a8e4b5, 0x4c1f89c5, 0x3f78c9c8]);
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}
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ubyte[] salsa20(in ubyte[] input) pure nothrow @safe
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in
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ubyte[64] salsa20(in ubyte[64] input) pure nothrow @safe
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/*in
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{
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assert(input.length == 64);
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}
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@ -202,7 +207,7 @@ out(result)
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{
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assert(result.length == 64);
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}
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body
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body*/
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{
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auto x00 = littleEndian(input[00..04]), x01 = littleEndian(input[04..08]),
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x02 = littleEndian(input[08..12]), x03 = littleEndian(input[12..16]),
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@ -227,37 +232,55 @@ body
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x08, x09, x10, x11, x12, x13, x14, x15));
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}
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return littleEndianInv(x00 + y00) ~ littleEndianInv(x01 + y01) ~
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ubyte[64] buf;
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buf[00..04] = littleEndianInv(x00 + y00);
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buf[04..08] = littleEndianInv(x01 + y01);
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buf[08..12] = littleEndianInv(x02 + y02);
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buf[12..16] = littleEndianInv(x03 + y03);
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buf[16..20] = littleEndianInv(x04 + y04);
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buf[20..24] = littleEndianInv(x05 + y05);
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buf[24..28] = littleEndianInv(x06 + y06);
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buf[28..32] = littleEndianInv(x07 + y07);
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buf[32..36] = littleEndianInv(x08 + y08);
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buf[36..40] = littleEndianInv(x09 + y09);
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buf[40..44] = littleEndianInv(x10 + y10);
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buf[44..48] = littleEndianInv(x11 + y11);
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buf[48..52] = littleEndianInv(x12 + y12);
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buf[52..56] = littleEndianInv(x13 + y13);
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buf[56..60] = littleEndianInv(x14 + y14);
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buf[60..64] = littleEndianInv(x15 + y15);
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return buf;
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/* return littleEndianInv(x00 + y00) ~ littleEndianInv(x01 + y01) ~
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littleEndianInv(x02 + y02) ~ littleEndianInv(x03 + y03) ~
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littleEndianInv(x04 + y04) ~ littleEndianInv(x05 + y05) ~
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littleEndianInv(x06 + y06) ~ littleEndianInv(x07 + y07) ~
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littleEndianInv(x08 + y08) ~ littleEndianInv(x09 + y09) ~
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littleEndianInv(x10 + y10) ~ littleEndianInv(x11 + y11) ~
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littleEndianInv(x12 + y12) ~ littleEndianInv(x13 + y13) ~
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littleEndianInv(x14 + y14) ~ littleEndianInv(x15 + y15);
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littleEndianInv(x14 + y14) ~ littleEndianInv(x15 + y15);*/
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}
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unittest
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{
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ubyte[] test0 = [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
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ubyte[64] test0 = [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
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0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
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0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
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0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
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test0 = salsa20(test0);
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ubyte[] test1 = [211,159, 13,115, 76, 55, 82,183, 3,117,222, 37,191,187,234,136,
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ubyte[64] test1 = [211,159, 13,115, 76, 55, 82,183, 3,117,222, 37,191,187,234,136,
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49,237,179, 48, 1,106,178,219,175,199,166, 48, 86, 16,179,207,
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31,240, 32, 63, 15, 83, 93,161,116,147, 48,113,238, 55,204, 36,
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79,201,235, 79, 3, 81,156, 47,203, 26,244,243, 88,118,104, 54];
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test1 = salsa20(test1);
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ubyte[] test2 = [ 88,118,104, 54, 79,201,235, 79, 3, 81,156, 47,203, 26,244,243,
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ubyte[64] test2 = [ 88,118,104, 54, 79,201,235, 79, 3, 81,156, 47,203, 26,244,243,
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191,187,234,136,211,159, 13,115, 76, 55, 82,183, 3,117,222, 37,
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86, 16,179,207, 49,237,179, 48, 1,106,178,219,175,199,166, 48,
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238, 55,204, 36, 31,240, 32, 63, 15, 83, 93,161,116,147, 48,113];
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test2 = salsa20(test2);
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ubyte[] test3 = [ 6,124, 83,146, 38,191, 9, 50, 4,161, 47,222,122,182,223,185,
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ubyte[64] test3 = [ 6,124, 83,146, 38,191, 9, 50, 4,161, 47,222,122,182,223,185,
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75, 27, 0,216, 16,122, 7, 89,162,104,101,147,213, 21, 54, 95,
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225,253,139,176,105,132, 23,116, 76, 41,176,207,221, 34,157,108,
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94, 94, 99, 52, 90,117, 91,220,146,190,239,143,196,176,130,186];
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@ -285,13 +308,24 @@ unittest
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122,127,195,185,185,204,188, 90,245, 9,183,248,226, 85,245,104]);
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}
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enum ubyte[4] σ0 = [101, 120, 112, 97];
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enum ubyte[4] σ1 = [110, 100, 32, 51];
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enum ubyte[4] σ2 = [ 50, 45, 98, 121];
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enum ubyte[4] σ3 = [116, 101, 32, 107];
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static immutable ubyte[4] sigma0 = [101, 120, 112, 97];
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static immutable ubyte[4] sigma1 = [110, 100, 32, 51];
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static immutable ubyte[4] sigma2 = [ 50, 45, 98, 121];
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static immutable ubyte[4] sigma3 = [116, 101, 32, 107];
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ubyte[] salsa20Exp(in ubyte[] key, in ubyte[] n) @safe pure nothrow
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in
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import std.range;
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import std.algorithm;
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import std.typetuple;
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template expand(alias A, alias C="A[I]") {
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auto ref M(alias I)() @property { return mixin(C); }
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mixin(q{alias expand = TypeTuple!(}
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~ iota(A.length).map!q{"M!"~text(a)}().join(",")
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~ q{);});
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}
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ubyte[64] salsa20Exp(in ubyte[32] key, in ubyte[16] n) @safe pure nothrow
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/*in
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{
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assert(key.length == 32);
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assert(n.length == 16);
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@ -300,17 +334,34 @@ out(result)
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{
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assert(result.length == 64);
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}
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body
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body*/
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{
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return salsa20(σ0 ~ key[0..16] ~ σ1 ~ n ~ σ2 ~ key[16..$] ~ σ3);
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ubyte[64] buf = [
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expand!sigma0,
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expand!key[0..16],
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expand!sigma1,
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expand!n,
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expand!sigma2,
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expand!key[16..$],
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expand!sigma3
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];
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/* buf[0..4] = sigma0;
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buf[4..20] = key[0..16];
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buf[20..24] = sigma1;
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buf[24..40] = n;
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buf[40..44] = sigma2;
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buf[44..60] = key[16..$];
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buf[60..64] = sigma3;*/
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return salsa20(buf);
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//return salsa20(σ0 ~ key[0..16] ~ σ1 ~ n ~ σ2 ~ key[16..$] ~ σ3);
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}
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unittest
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{
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ubyte[] key;
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ubyte[] n;
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key.length = 32;
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n.length = 16;
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ubyte[32] key;
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ubyte[16] n;
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/* key.length = 32;
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n.length = 16;*/
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foreach (i; 0..16)
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key[i] = cast(ubyte)(i + 1);
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foreach (i; 16..32)
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