Use unsigned int in for-loops. git-svn-id: https://svn.microneil.com/svn/CodeDweller/branches/adeniz_1@95 d34b734f-a00e-4b39-a726-e4eeb87269ab

il y a 9 ans · 3fb37aa4bf
--- a/onetimepad.cpp
+++ b/onetimepad.cpp
@@ -4,7 +4,7 @@
 #include "onetimepad.hpp"
 #include "timing.hpp"

 namespace CodeDweller {
 using namespace std;

 /*
 class OneTimePad {                                                              // One Time Pad generator.
@@ -31,6 +31,8 @@ class OneTimePad {
 #include <windows.h>
 #include <wincrypt.h>

 namespace CodeDweller {

 PadBuffer OneTimePad::Entropy(int Length) {                                     // Get a PadBuffer full of randomness.
    PadBuffer Buffer(Length, 0);                                                // Start by initializing the buffer.
    HCRYPTPROV provider = 0;                                                    // We will need a handle for the source.
@@ -65,6 +67,8 @@ PadBuffer OneTimePad::Entropy(int Length) {

 #include <fstream>

 namespace CodeDweller {

 PadBuffer OneTimePad::Entropy(int Length) {                                     // Get Length bytes of strong entropy.
    PadBuffer Buffer(Length, 0);                                                // Initialize a buffer to hold them.
    try {                                                                       // Handle this in a try block.
@@ -107,7 +111,7 @@ void OneTimePad::addLightweightEntropy() {
    CombinedFill = CombinedFill ^ LightweightEntropyBuffer;                     // Pick up some previous state entropy.
    unsigned char* PrimerBuffer = (unsigned char*) &CombinedFill;               // Treat the value as a bunch of bytes.
    unsigned char* EntropyBuffer = (unsigned char*) &LightweightEntropyBuffer;  // Likewise with the entropy buffer.
    for(int i = 0; i < sizeof(msclock); i++) {                                  // Fold bytes into the mangler one
    for(int unsigned i = 0; i < sizeof(msclock); i++) {                         // Fold bytes into the mangler one
        EntropyBuffer[i] +=                                                     // byte at a time, capturing the
          PadGenerator.Encrypt(                                                 // the results and using one extra
            PadGenerator.Encrypt(PrimerBuffer[i]));                             // round per byte to increase the
@@ -116,7 +120,7 @@ void OneTimePad::addLightweightEntropy() {

 void OneTimePad::addEntropy() {                                                 // Add strong entropy if available.
    PadBuffer Fill = Entropy();                                                 // Grab the entropy bits to add.
    for(int i = 0; i < Fill.size(); i++) {                                      // Pump them in one byte at a
    for(int unsigned i = 0; i < Fill.size(); i++) {                             // Pump them in one byte at a
        PadGenerator.Encrypt(                                                   // time and then run an extra
          PadGenerator.Encrypt(Fill.at(i)));                                    // round per byte to increase the
    }                                                                           // amount of guessing an attacker
@@ -124,7 +128,7 @@ void OneTimePad::addEntropy() {

 void OneTimePad::addEntropy(PadBuffer Entropy) {                                // Add entropy from a given source.
    addLightweightEntropy();                                                    // Start with some lightweight entropy.
    for(int i = 0; i < Entropy.size(); i++) {                                   // Then loop through the provided
    for(int unsigned i = 0; i < Entropy.size(); i++) {                          // Then loop through the provided
        PadGenerator.Encrypt(                                                   // entropy and mix it in with one
          PadGenerator.Encrypt(Entropy.at(i)));                                 // extra round per byte to increase
    }                                                                           // the amount of guessing an attacker