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/*
* SRP-6a
* (C) 2011 Jack Lloyd
*
* Distributed under the terms of the Botan license
*/

#include <botan/srp6.h>
#include <botan/dl_group.h>
#include <botan/libstate.h>
#include <botan/numthry.h>
#include <memory>

namespace Botan {

namespace {

BigInt hash_seq(const std::string& hash_id,
                size_t pad_to,
                const BigInt& in1,
                const BigInt& in2)
   {
   std::unique_ptr<HashFunction> hash_fn(
      global_state().algorithm_factory().make_hash_function(hash_id));

   hash_fn->update(BigInt::encode_1363(in1, pad_to));
   hash_fn->update(BigInt::encode_1363(in2, pad_to));

   return BigInt::decode(hash_fn->final());
   }

BigInt hash_seq(const std::string& hash_id,
                size_t pad_to,
                const BigInt& in1,
                const BigInt& in2,
                const BigInt& in3)
   {
   std::unique_ptr<HashFunction> hash_fn(
      global_state().algorithm_factory().make_hash_function(hash_id));

   hash_fn->update(BigInt::encode_1363(in1, pad_to));
   hash_fn->update(BigInt::encode_1363(in2, pad_to));
   hash_fn->update(BigInt::encode_1363(in3, pad_to));

   return BigInt::decode(hash_fn->final());
   }

BigInt compute_x(const std::string& hash_id,
                 const std::string& identifier,
                 const std::string& password,
                 const MemoryRegion<byte>& salt)
   {
   std::unique_ptr<HashFunction> hash_fn(
      global_state().algorithm_factory().make_hash_function(hash_id));

   hash_fn->update(identifier);
   hash_fn->update(":");
   hash_fn->update(password);

   SecureVector<byte> inner_h = hash_fn->final();

   hash_fn->update(salt);
   hash_fn->update(inner_h);

   SecureVector<byte> outer_h = hash_fn->final();

   return BigInt::decode(outer_h);
   }

}

std::pair<BigInt, BigInt>
SRP6_Client_Session:: step1(const std::string& identifier,
                            const std::string& password,
                            const std::string& group_id,
                            const std::string& hash_id,
                            const MemoryRegion<byte>& salt,
                            const BigInt& B,
                            RandomNumberGenerator& rng)
   {
   DL_Group group(group_id);
   const BigInt& g = group.get_g();
   const BigInt& p = group.get_p();

   p_bytes = group.get_p().bytes();

   if(B % p == 0)
      throw std::runtime_error("Invalid SRP parameter from server");

   BigInt k = hash_seq(hash_id, p_bytes, p, g);

   BigInt a(rng, p.bits() - 1);

   A = power_mod(g, a, p);

   BigInt u = hash_seq(hash_id, p_bytes, A, B);

   const BigInt x = compute_x(hash_id, identifier, password, salt);

   S = power_mod((B - (k * power_mod(g, x, p))) % p, (a + (u * x)), p);

   this->hash_id = hash_id;

   M1 = hash_seq(hash_id, p_bytes, A, B, S);

   return std::make_pair(A, M1);
   }

SymmetricKey SRP6_Client_Session::step2(const BigInt& M2)
   {
   BigInt M2x = hash_seq(hash_id, p_bytes, A, M1, S);

   if(M2 != M2x)
      throw std::runtime_error("Bad verification value from server");

   return SymmetricKey(BigInt::encode_1363(S, p_bytes));
   }

BigInt SRP6_Client_Session::generate_verifier(const std::string& identifier,
                                              const std::string& password,
                                              const MemoryRegion<byte>& salt,
                                              const std::string& group_id,
                                              const std::string& hash_id)
   {
   const BigInt x = compute_x(hash_id, identifier, password, salt);

   DL_Group group(group_id);
   return power_mod(group.get_g(), x, group.get_p());
   }

BigInt SRP6_Server_Session::step1(const BigInt& v,
                                  const std::string& group_id,
                                  const std::string& hash_id,
                                  RandomNumberGenerator& rng)
   {
   DL_Group group(group_id);
   const BigInt& g = group.get_g();
   const BigInt& p = group.get_p();

   p_bytes = p.bytes();

   BigInt k = hash_seq(hash_id, p_bytes, p, g);

   BigInt b(rng, p.bits() - 1);

   B = (v*k + power_mod(g, b, p)) % p;

   this->v = v;
   this->b = b;
   this->p = p;
   this->hash_id = hash_id;

   return B;
   }

std::pair<SymmetricKey, BigInt> SRP6_Server_Session::step2(const BigInt& A, const BigInt& M1)
   {
   if(A % p == 0)
      throw std::runtime_error("Invalid SRP parameter from client");

   BigInt u = hash_seq(hash_id, p_bytes, A, B);

   BigInt S = power_mod(A * power_mod(v, u, p), b, p);

   BigInt M1x = hash_seq(hash_id, p_bytes, A, B, S);

   if(M1 != M1x)
      throw std::runtime_error("Bad verification value from client");

   BigInt M2 = hash_seq(hash_id, p_bytes, A, M1, S);

   SymmetricKey Sk = BigInt::encode_1363(S, p_bytes);

   return std::make_pair(Sk, M2);
   }

}