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SqMod/source/Library/Crypt.cpp

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// ------------------------------------------------------------------------------------------------
#include "Library/Crypt.hpp"
#include "Base/Shared.hpp"
// ------------------------------------------------------------------------------------------------
#include <cstdlib>
#include <cstring>
// ------------------------------------------------------------------------------------------------
#include <sqstdstring.h>
// ------------------------------------------------------------------------------------------------
#include <crc32.h>
#include <keccak.h>
#include <md5.h>
#include <sha1.h>
#include <sha256.h>
#include <sha3.h>
// ------------------------------------------------------------------------------------------------
namespace SqMod {
// ------------------------------------------------------------------------------------------------
SQInteger AES256::Typename(HSQUIRRELVM vm)
{
static SQChar name[] = _SC("SqAES");
sq_pushstring(vm, name, sizeof(name));
return 1;
}
// ------------------------------------------------------------------------------------------------
AES256::AES256()
: m_Context(), m_Buffer()
{
aes256_done(&m_Context);
}
// ------------------------------------------------------------------------------------------------
AES256::AES256(CSStr key)
: m_Context(), m_Buffer()
{
Init(key);
}
// ------------------------------------------------------------------------------------------------
Int32 AES256::Cmp(const AES256 & o) const
{
return memcmp(m_Buffer, o.m_Buffer, sizeof(m_Buffer));
}
// ------------------------------------------------------------------------------------------------
CSStr AES256::ToString() const
{
return ToStrF("%s", m_Buffer);
}
// ------------------------------------------------------------------------------------------------
CSStr AES256::GetKey() const
{
return reinterpret_cast< CSStr >(m_Buffer);
}
// ------------------------------------------------------------------------------------------------
void AES256::Init(CSStr key)
{
// Clear current key, if any
aes256_done(&m_Context);
// Is the specified key empty?
if (!key || *key == 0)
return; // Leave the context with an empty key
// Obtain the specified key size
const Uint32 size = (strlen(key) * sizeof(SQChar));
// See if the key size is accepted
if (size > sizeof(m_Buffer))
STHROWF("The specified key is out of bounds: %u > %u", size, sizeof(m_Buffer));
// Initialize the key buffer to 0
memset(m_Buffer, 0, sizeof(m_Buffer));
// Copy the key into the key buffer
memcpy(m_Buffer, key, size);
// Initialize the context with the specified key
aes256_init(&m_Context, m_Buffer);
}
// ------------------------------------------------------------------------------------------------
void AES256::Done()
{
aes256_done(&m_Context);
}
// ------------------------------------------------------------------------------------------------
String AES256::Encrypt(CSStr data)
{
// Is there any data to encrypt?
if (!data || *data == 0)
return String();
// Copy the data into an editable string
String str(data);
// Make sure that we have a size with a multiple of 16
if ((str.size() % 16) != 0)
str.resize(str.size() - (str.size() % 16) + 16);
// Encrypt in chunks of 16 characters
for (Uint32 n = 0; n < str.size(); n += 16)
aes256_encrypt_ecb(&m_Context, reinterpret_cast< Uint8 * >(&str[n]));
// Return ownership of the encrypted string
return std::move(str);
}
// ------------------------------------------------------------------------------------------------
String AES256::Decrypt(CSStr data)
{
// Is there any data to decrypt?
if (!data || *data == 0)
return String();
// Copy the data into an editable string
String str(data);
// Make sure that we have a size with a multiple of 16
if ((str.size() % 16) != 0)
str.resize(str.size() - (str.size() % 16) + 16);
// Decrypt inc chunks of 16 characters
for (Uint32 n = 0; n < str.size(); n += 16)
aes256_decrypt_ecb(&m_Context, reinterpret_cast< Uint8 * >(&str[n]));
// Remove null characters in case the string was not a multiple of 16 when encrypted
while (!str.empty() && str.back() == 0)
str.pop_back();
// Return ownership of the encrypted string
return std::move(str);
}
/* ------------------------------------------------------------------------------------------------
* Utility to avoid creating encoder instances for each call.
*/
template < class T > struct BaseHash
{
static T Algo;
};
// ------------------------------------------------------------------------------------------------
template < class T > T BaseHash< T >::Algo;
/* ------------------------------------------------------------------------------------------------
* Hash the specified value or the result of a formatted string.
*/
template < class T > static SQInteger HashF(HSQUIRRELVM vm)
{
const Int32 top = sq_gettop(vm);
// Was the hash value specified?
if (top <= 1)
return sq_throwerror(vm, "Missing hash value");
// Do we have enough values to call the format function?
else if (top > 2)
{
SStr val = NULL;
SQInteger len = 0;
// Attempt to generate the specified string format
SQRESULT ret = sqstd_format(vm, 2, &len, &val);
// Did the format failed?
if (SQ_FAILED(ret))
return ret; // Propagate the exception
// Hash the resulted string
String str(BaseHash< T >::Algo(val));
// Push the string on the stack
sq_pushstring(vm, str.data(), str.size());
}
else
{
// Attempt to retrieve the value from the stack as a string
Var< CSStr > val(vm, 2);
// See if the obtained value is a valid string
if (!val.value)
return sq_throwerror(vm, "Unable to retrieve the value");
// Hash the resulted string
String str(BaseHash< T >::Algo(val.value));
// Push the string on the stack
sq_pushstring(vm, str.data(), str.size());
}
// At this point we have a valid string on the stack
return 1;
}
// ================================================================================================
template < class T > static void RegisterWrapper(Table & hashns, CCStr cname)
{
typedef HashWrapper< T > Hash;
hashns.Bind(cname, Class< Hash >(hashns.GetVM(), cname)
/* Constructors */
.Ctor()
/* Metamethods */
.Func(_SC("_tostring"), &Hash::ToString)
/* Properties */
.Prop(_SC("Hash"), &Hash::GetHash)
/* Functions */
.Func(_SC("Reset"), &Hash::Reset)
.Func(_SC("Compute"), &Hash::Compute)
.Func(_SC("GetHash"), &Hash::GetHash)
.Func(_SC("Add"), &Hash::AddStr)
.Func(_SC("AddStr"), &Hash::AddStr)
);
}
// ================================================================================================
void Register_Crypt(HSQUIRRELVM vm)
{
Table hashns(vm);
RegisterWrapper< CRC32 >(hashns, _SC("CRC32"));
RegisterWrapper< Keccak >(hashns, _SC("Keccak"));
RegisterWrapper< MD5 >(hashns, _SC("MD5"));
RegisterWrapper< SHA1 >(hashns, _SC("SHA1"));
RegisterWrapper< SHA256 >(hashns, _SC("SHA256"));
RegisterWrapper< SHA3 >(hashns, _SC("SHA3"));
hashns.SquirrelFunc(_SC("GetCRC32"), &HashF< CRC32 >);
hashns.SquirrelFunc(_SC("GetKeccak"), &HashF< Keccak >);
hashns.SquirrelFunc(_SC("GetMD5"), &HashF< MD5 >);
hashns.SquirrelFunc(_SC("GetSHA1"), &HashF< SHA1 >);
hashns.SquirrelFunc(_SC("GetSHA256"), &HashF< SHA256 >);
hashns.SquirrelFunc(_SC("GetSHA3"), &HashF< SHA3 >);
RootTable(vm).Bind(_SC("SqHash"), hashns);
RootTable(vm).Bind("SqAES256", Class< AES256 >(vm, "SqAES256")
/* Constructors */
.Ctor()
.Ctor< CSStr >()
/* Metamethods */
.Func(_SC("_cmp"), &AES256::Cmp)
.SquirrelFunc(_SC("_typename"), &AES256::Typename)
.Func(_SC("_tostring"), &AES256::ToString)
/* Properties */
.Prop(_SC("Key"), &AES256::GetKey)
/* Functions */
.Func(_SC("Init"), &AES256::Init)
.Func(_SC("Done"), &AES256::Done)
.Func(_SC("Encrypt"), &AES256::Encrypt)
.Func(_SC("Decrypt"), &AES256::Decrypt)
);
}
} // Namespace:: SqMod