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Added @safe, nothorw, pure, @nogc attributes when possible. Catch exception thrown by getopt

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This commit is contained in:
Johannes Loher 2016-02-16 19:32:34 +01:00
parent a2ea77f667
commit cfd9651b65
5 changed files with 66 additions and 77 deletions
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56
source/app.d
View file

@ -11,19 +11,28 @@ int main(string[] args)
"encrypt" : false, "encrypt" : false,
"decrypt" : false ]; "decrypt" : false ];
Cipher cipher = Cipher.chacha20; Cipher cipher = Cipher.salsa20;
string keyFileName = "symkey.asc"; string keyFileName = "symkey.asc";
bool armor; bool armor;
auto helpInformation = getopt( GetoptResult result;
args, try
std.getopt.config.bundling, {
"gen-key|g", "Generate a new 256 bit key.", &actions["genKey"], result = getopt(
"encrypt|e", "Encrypt a message.", &actions["encrypt"], args,
"decrypt|d", "Decrypt a message.", &actions["decrypt"], std.getopt.config.bundling,
"cipher|c", "The cipher to use (default: %s).".format(cipher), &cipher, "gen-key|g", "Generate a new 256 bit key.", &actions["genKey"],
"key|k", "The file which contains the key (default: %s).".format(keyFileName), &keyFileName, "encrypt|e", "Encrypt a message.", &actions["encrypt"],
"armor|a", "use ascii-armored I/O.", &armor); "decrypt|d", "Decrypt a message.", &actions["decrypt"],
"cipher|c", "The cipher to use (default: %s).".format(cipher), &cipher,
"key|k", "The file which contains the key (default: %s).".format(keyFileName), &keyFileName,
"armor|a", "use ascii-armored I/O.", &armor);
}
catch(Exception e)
{
stderr.writeln(e.msg);
return 1;
}
size_t numberOfActions; size_t numberOfActions;
foreach(value; actions.values) foreach(value; actions.values)
@ -54,19 +63,22 @@ int main(string[] args)
} }
else else
{ {
helpInformation.helpWanted = true; result.helpWanted = true;
} }
if(helpInformation.helpWanted) printHelp(result.options);
{
defaultGetoptPrinter("Usage: mycrypt [options]\n\nCommon options:",
helpInformation.options[$-1..$]);
defaultGetoptPrinter("\nGlobal options:",
helpInformation.options[$-2..$-1]);
defaultGetoptPrinter("\nActions:",
helpInformation.options[0..3]);
defaultGetoptPrinter("\nAction options:",
helpInformation.options[3..5]);
}
return 0; return 0;
} }
void printHelp(Option[] options)
{
defaultGetoptPrinter("Usage: learncrypt [options]\n\nCommon options:",
options[$-1..$]);
defaultGetoptPrinter("\nGlobal options:",
options[$-2..$-1]);
defaultGetoptPrinter("\nActions:",
options[0..3]);
defaultGetoptPrinter("\nAction options:",
options[3..5]);
}

28
source/bitmanip.d
View file

@ -1,8 +1,9 @@
module bitmanip; module bitmanip;
private import std.traits : isUnsigned; private import std.traits : isUnsigned;
private import std.bitmanip : nativeToLittleEndian, littleEndianToNative;
UIntType rotateLeft(UIntType)(in UIntType val, in size_t len) nothrow @nogc pure UIntType rotateLeft(UIntType)(in UIntType val, in size_t len) nothrow @nogc pure @safe
if(isUnsigned!UIntType) if(isUnsigned!UIntType)
{ {
auto reducedLen = len % (8 * UIntType.sizeof); auto reducedLen = len % (8 * UIntType.sizeof);
@ -19,7 +20,7 @@ unittest
assert(test[1].rotateLeft(7) == 128); assert(test[1].rotateLeft(7) == 128);
} }
UIntType rotateRight(UIntType)(in UIntType val, in size_t len) nothrow @nogc pure UIntType rotateRight(UIntType)(in UIntType val, in size_t len) nothrow @nogc pure @safe
if(isUnsigned!UIntType) if(isUnsigned!UIntType)
{ {
auto reducedLen = len % (8 * UIntType.sizeof); auto reducedLen = len % (8 * UIntType.sizeof);
@ -35,3 +36,26 @@ unittest
assert(test[2].rotateRight(1) == 64); assert(test[2].rotateRight(1) == 64);
assert(test[2].rotateRight(7) == 1); assert(test[2].rotateRight(7) == 1);
} }
alias littleEndianInv = nativeToLittleEndian;
uint littleEndian(in ubyte[] input) @safe pure nothrow @nogc
in
{
assert(input.length == uint.sizeof);
}
body
{
ubyte[uint.sizeof] buf = input;
return littleEndianToNative!uint(buf);
}
unittest
{
ubyte[] test0 = [0, 0, 0, 0];
ubyte[] test1 = [86, 75, 30, 9];
ubyte[] test2 = [255, 255, 255, 250];
assert(littleEndian(test0) == 0x00000000);
assert(littleEndian(test1) == 0x091e4b56);
assert(littleEndian(test2) == 0xfaffffff);
}

27
source/chacha20.d
View file

@ -212,30 +212,7 @@ enum string colRound(alias _x00, alias _x01, alias _x02, alias _x03,
0x481c2027, 0x53a8e4b5, 0x4c1f89c5, 0x3f78c9c8]); 0x481c2027, 0x53a8e4b5, 0x4c1f89c5, 0x3f78c9c8]);
}*/ }*/
alias littleEndianInv = nativeToLittleEndian; ubyte[] chacha20(in ubyte[] input) @safe nothrow pure
uint littleEndian(in ubyte[] input)
in
{
assert(input.length == uint.sizeof);
}
body
{
ubyte[uint.sizeof] buf = input;
return littleEndianToNative!uint(buf);
}
unittest
{
ubyte[] test0 = [0, 0, 0, 0];
ubyte[] test1 = [86, 75, 30, 9];
ubyte[] test2 = [255, 255, 255, 250];
assert(littleEndian(test0) == 0x00000000);
assert(littleEndian(test1) == 0x091e4b56);
assert(littleEndian(test2) == 0xfaffffff);
}
ubyte[] chacha20(in ubyte[] input)
in in
{ {
assert(input.length == 64); assert(input.length == 64);
@ -332,7 +309,7 @@ enum ubyte[4] σ1 = [110, 100, 32, 51];
enum ubyte[4] σ2 = [ 50, 45, 98, 121]; enum ubyte[4] σ2 = [ 50, 45, 98, 121];
enum ubyte[4] σ3 = [116, 101, 32, 107]; enum ubyte[4] σ3 = [116, 101, 32, 107];
ubyte[] chacha20Exp(in ubyte[] key, in ubyte[] n) ubyte[] chacha20Exp(in ubyte[] key, in ubyte[] n) @safe nothrow pure
in in
{ {
assert(key.length == 32); assert(key.length == 32);

4
source/cipher.d
View file

@ -19,9 +19,9 @@ auto cipherFunction(R)(R range, ubyte[32] key, ubyte[8] nonce, Cipher cipher)
final switch(cipher) final switch(cipher)
{ {
case Cipher.salsa20: case Cipher.salsa20:
return salsa20Cipher(range, key, nonce); return range.salsa20Cipher(key, nonce);
case Cipher.chacha20: case Cipher.chacha20:
return salsa20Cipher(range, key, nonce); return range.salsa20Cipher(key, nonce);
} }
} }

28
source/salsa20.d
View file

@ -3,7 +3,6 @@ module salsa20;
private import std.traits : isUnsigned; private import std.traits : isUnsigned;
private import std.string : format; private import std.string : format;
private import std.range : isInputRange, isForwardRange, ElementType; private import std.range : isInputRange, isForwardRange, ElementType;
private import std.bitmanip : nativeToLittleEndian, littleEndianToNative;
private import std.array; private import std.array;
private import bitmanip; private import bitmanip;
@ -212,30 +211,7 @@ unittest
0x481c2027, 0x53a8e4b5, 0x4c1f89c5, 0x3f78c9c8]); 0x481c2027, 0x53a8e4b5, 0x4c1f89c5, 0x3f78c9c8]);
} }
alias littleEndianInv = nativeToLittleEndian; ubyte[] salsa20(in ubyte[] input) @save pure nothrow @safe
uint littleEndian(in ubyte[] input)
in
{
assert(input.length == uint.sizeof);
}
body
{
ubyte[uint.sizeof] buf = input;
return littleEndianToNative!uint(buf);
}
unittest
{
ubyte[] test0 = [0, 0, 0, 0];
ubyte[] test1 = [86, 75, 30, 9];
ubyte[] test2 = [255, 255, 255, 250];
assert(littleEndian(test0) == 0x00000000);
assert(littleEndian(test1) == 0x091e4b56);
assert(littleEndian(test2) == 0xfaffffff);
}
ubyte[] salsa20(in ubyte[] input)
in in
{ {
assert(input.length == 64); assert(input.length == 64);
@ -332,7 +308,7 @@ enum ubyte[4] σ1 = [110, 100, 32, 51];
enum ubyte[4] σ2 = [ 50, 45, 98, 121]; enum ubyte[4] σ2 = [ 50, 45, 98, 121];
enum ubyte[4] σ3 = [116, 101, 32, 107]; enum ubyte[4] σ3 = [116, 101, 32, 107];
ubyte[] salsa20Exp(in ubyte[] key, in ubyte[] n) ubyte[] salsa20Exp(in ubyte[] key, in ubyte[] n) @safe pure nothrow
in in
{ {
assert(key.length == 32); assert(key.length == 32);