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path: root/src/lib/misc/roughtime/roughtime.cpp
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/*
* Roughtime
* (C) 2019 Nuno Goncalves <nunojpg@gmail.com>
*
* Botan is released under the Simplified BSD License (see license.txt)
*/

#include <botan/roughtime.h>

#include <botan/base64.h>
#include <botan/hash.h>
#include <botan/internal/socket_udp.h>
#include <botan/pubkey.h>
#include <botan/rng.h>

#include <cmath>
#include <map>
#include <sstream>

namespace Botan {

namespace {

// This exists to work around a LGTM false positive
static_assert(Roughtime::request_min_size == 1024, "Expected minimum size");

template< bool B, class T = void >
using enable_if_t = typename std::enable_if<B,T>::type;

template<class T>
struct is_array : std::false_type {};

template<class T, std::size_t N>
struct is_array<std::array<T,N>>:std::true_type{};

template<typename T>
T from_little_endian(const uint8_t* t, size_t N = sizeof(T))
   {
   static_assert(sizeof(T)<=sizeof(int64_t),"");
   return (N == 0) ? T(0) : (T(static_cast<int64_t>(t[N-1]) << ((N-1)*8)) + from_little_endian<T>(t,N-1));
   }

template<typename T, enable_if_t<is_array<T>::value>* = nullptr>
T copy(const uint8_t* t)
   {
   return typecast_copy<T>(t); //arrays are endianess indepedent, so we do a memcpy
   }

template<typename T, enable_if_t<!is_array<T>::value>* = nullptr>
T copy(const uint8_t* t)
   {
   return from_little_endian<T>(t); //other types are arithmetic, so we account that roughtime serializes as little endian
   }

template<typename T>
std::map<std::string, std::vector<uint8_t>> unpack_roughtime_packet(T bytes)
   {
   if(bytes.size() < 8)
      { throw Roughtime::Roughtime_Error("Map length is under minimum of 8 bytes"); }
   const auto buf = bytes.data();
   const uint32_t num_tags = buf[0];
   const uint32_t start_content = num_tags * 8;
   if(start_content > bytes.size())
      { throw Roughtime::Roughtime_Error("Map length too small to contain all tags"); }
   uint32_t start = start_content;
   std::map<std::string, std::vector<uint8_t>> tags;
   for(uint32_t i=0; i<num_tags; ++i)
      {
      const size_t end = ((i+1) == num_tags) ? bytes.size() : start_content + from_little_endian<uint32_t>(buf + 4 + i*4);
      if(end > bytes.size())
         { throw Roughtime::Roughtime_Error("Tag end index out of bounds"); }
      if(end < start)
         { throw Roughtime::Roughtime_Error("Tag offset must be more than previous tag offset"); }
      const char* label_ptr = cast_uint8_ptr_to_char(buf) + (num_tags+i)*4;
      const char label[] = {label_ptr[0], label_ptr[1], label_ptr[2], label_ptr[3], 0};
      auto ret = tags.emplace(label, std::vector<uint8_t>(buf+start, buf+end));
      if(!ret.second)
         { throw Roughtime::Roughtime_Error(std::string("Map has duplicated tag: ") + label); }
      start = static_cast<uint32_t>(end);
      }
   return tags;
   }

template<typename T>
T get(const std::map<std::string, std::vector<uint8_t>>& map, const std::string& label)
   {
   const auto& tag = map.find(label);
   if(tag == map.end())
      { throw Roughtime::Roughtime_Error("Tag " + label + " not found"); }
   if(tag->second.size() != sizeof(T))
      { throw Roughtime::Roughtime_Error("Tag " + label + " has unexpected size"); }
   return copy<T>(tag->second.data());
   }

const std::vector<uint8_t>& get_v(const std::map<std::string, std::vector<uint8_t>>& map, const std::string& label)
   {
   const auto& tag = map.find(label);
   if(tag == map.end())
      { throw Roughtime::Roughtime_Error("Tag " + label + " not found"); }
   return tag->second;
   }

bool verify_signature(const std::array<uint8_t, 32>& pk, const std::vector<uint8_t>& payload,
                      const std::array<uint8_t, 64>& signature)
   {
   const char context[] = "RoughTime v1 response signature";
   Ed25519_PublicKey key(std::vector<uint8_t>(pk.data(), pk.data()+pk.size()));
   PK_Verifier verifier(key, "Pure");
   verifier.update(cast_char_ptr_to_uint8(context), sizeof(context)); //add context including \0
   verifier.update(payload);
   return verifier.check_signature(signature.data(), signature.size());
   }

std::array<uint8_t, 64> hashLeaf(const std::array<uint8_t, 64>& leaf)
   {
   std::array<uint8_t, 64> ret;
   std::unique_ptr<HashFunction> hash(HashFunction::create_or_throw("SHA-512"));
   hash->update(0);
   hash->update(leaf.data(), leaf.size());
   hash->final(ret.data());
   return ret;
   }

void hashNode(std::array<uint8_t, 64>& hash, const std::array<uint8_t, 64>& node, bool reverse)
   {
   std::unique_ptr<HashFunction> h(HashFunction::create_or_throw("SHA-512"));
   h->update(1);
   if(reverse)
      {
      h->update(node.data(), node.size());
      h->update(hash.data(), hash.size());
      }
   else
      {
      h->update(hash.data(), hash.size());
      h->update(node.data(), node.size());
      }
   h->final(hash.data());
   }

template<size_t N, typename T>
std::array<uint8_t, N> vector_to_array(std::vector<uint8_t,T> vec)
   {
   if(vec.size() != N)
      { throw std::logic_error("Invalid vector size"); }
   return typecast_copy<std::array<uint8_t, N>>(vec.data());
   }
}

namespace Roughtime {

Nonce::Nonce(const std::vector<uint8_t>& nonce)
   {
   if(nonce.size() != 64)
      { throw Invalid_Argument("Nonce lenght must be 64"); }
   m_nonce = typecast_copy<std::array<uint8_t, 64>>(nonce.data());
   }
Nonce::Nonce(RandomNumberGenerator& rng)
   {
   rng.randomize(m_nonce.data(), m_nonce.size());
   }

std::array<uint8_t, request_min_size> encode_request(const Nonce& nonce)
   {
   std::array<uint8_t, request_min_size> buf = {2, 0, 0, 0, 64, 0, 0, 0, 'N', 'O', 'N', 'C', 'P', 'A', 'D', 0xff};
   std::memcpy(buf.data() + 16, nonce.get_nonce().data(), nonce.get_nonce().size());
   std::memset(buf.data() + 16 + nonce.get_nonce().size(), 0, buf.size() - 16 - nonce.get_nonce().size());
   return buf;
   }

Response Response::from_bits(const std::vector<uint8_t>& response,
                             const Nonce& nonce)
   {
   const auto response_v = unpack_roughtime_packet(response);
   const auto cert = unpack_roughtime_packet(get_v(response_v, "CERT"));
   const auto cert_dele = get<std::array<uint8_t, 72>>(cert, "DELE");
   const auto cert_sig =  get<std::array<uint8_t, 64>>(cert, "SIG");
   const auto cert_dele_v = unpack_roughtime_packet(cert_dele);
   const auto srep = get_v(response_v, "SREP");
   const auto srep_v = unpack_roughtime_packet(srep);

   const auto cert_dele_pubk = get<std::array<uint8_t, 32>>(cert_dele_v, "PUBK");
   const auto sig  = get<std::array<uint8_t, 64>>(response_v, "SIG");
   if(!verify_signature(cert_dele_pubk, srep, sig))
      { throw Roughtime_Error("Response signature invalid"); }

   const auto indx = get<uint32_t>(response_v, "INDX");
   const auto path = get_v(response_v, "PATH");
   const auto srep_root = get<std::array<uint8_t, 64>>(srep_v, "ROOT");
   const auto size = path.size();
   const auto levels = size/64;

   if(size % 64)
      { throw Roughtime_Error("Merkle tree path size must be multiple of 64 bytes"); }
   if(indx >= (1u << levels))
      { throw Roughtime_Error("Merkle tree path is too short"); }

   auto hash = hashLeaf(nonce.get_nonce());
   auto index = indx;
   auto level = 0u;
   while(level < levels)
      {
      hashNode(hash, typecast_copy<std::array<uint8_t, 64>>(path.data() + level*64), index&1);
      ++level;
      index>>=1;
      }

   if(srep_root != hash)
      { throw Roughtime_Error("Nonce verification failed"); }

   const auto cert_dele_maxt = sys_microseconds64(get<microseconds64>(cert_dele_v, "MAXT"));
   const auto cert_dele_mint = sys_microseconds64(get<microseconds64>(cert_dele_v, "MINT"));
   const auto srep_midp = sys_microseconds64(get<microseconds64>(srep_v, "MIDP"));
   const auto srep_radi = get<microseconds32>(srep_v, "RADI");
   if(srep_midp < cert_dele_mint)
      { throw Roughtime_Error("Midpoint earlier than delegation start"); }
   if(srep_midp > cert_dele_maxt)
      { throw Roughtime_Error("Midpoint later than delegation end"); }
   return {cert_dele, cert_sig, srep_midp, srep_radi};
   }

bool Response::validate(const Ed25519_PublicKey& pk) const
   {
   const char context[] = "RoughTime v1 delegation signature--";
   PK_Verifier verifier(pk, "Pure");
   verifier.update(cast_char_ptr_to_uint8(context), sizeof(context)); //add context including \0
   verifier.update(m_cert_dele.data(), m_cert_dele.size());
   return verifier.check_signature(m_cert_sig.data(), m_cert_sig.size());
   }

Nonce nonce_from_blind(const std::vector<uint8_t>& previous_response,
                       const Nonce& blind)
   {
   std::array<uint8_t, 64> ret;
   const auto blind_arr = blind.get_nonce();
   std::unique_ptr<Botan::HashFunction> hash(Botan::HashFunction::create_or_throw("SHA-512"));
   hash->update(previous_response);
   hash->update(hash->final());
   hash->update(blind_arr.data(), blind_arr.size());
   hash->final(ret.data());

   return ret;
   }

Chain::Chain(const std::string& str)
   {
   std::stringstream ss(str);
   const std::string ERROR_MESSAGE = "Line does not have 4 space separated fields";
   for(std::string s; std::getline(ss, s);)
      {
      size_t start = 0, end = 0;
      end = s.find(' ', start);
      if(end == std::string::npos)
         {
         throw Decoding_Error(ERROR_MESSAGE);
         }
      const auto publicKeyType = s.substr(start, end-start);
      if(publicKeyType != "ed25519")
         { throw Not_Implemented("Only ed25519 publicKeyType is implemented"); }

      start = end + 1;
      end = s.find(' ', start);
      if(end == std::string::npos)
         {
         throw Decoding_Error(ERROR_MESSAGE);
         }
      const auto serverPublicKey = Botan::Ed25519_PublicKey(Botan::base64_decode(s.substr(start, end-start)));

      start = end + 1;
      end = s.find(' ', start);
      if(end == std::string::npos)
         {
         throw Decoding_Error(ERROR_MESSAGE);
         }
      if((end - start) != 88)
         {
         throw Decoding_Error("Nonce has invalid length");
         }
      const auto vec = Botan::base64_decode(s.substr(start, end-start));
      const auto nonceOrBlind = Nonce(vector_to_array<64>(Botan::base64_decode(s.substr(start, end-start))));

      start = end + 1;
      end = s.find(' ', start);
      if(end != std::string::npos)
         {
         throw Decoding_Error(ERROR_MESSAGE);
         }
      const auto response = Botan::unlock(Botan::base64_decode(s.substr(start)));

      m_links.push_back({response, serverPublicKey, nonceOrBlind});
      }
   }
std::vector<Response> Chain::responses() const
   {
   std::vector<Response> responses;
   for(unsigned i = 0; i < m_links.size(); ++i)
      {
      const auto& l = m_links[i];
      const auto nonce = i ? nonce_from_blind(m_links[i-1].response(), l.nonce_or_blind()) : l.nonce_or_blind();
      const auto response = Response::from_bits(l.response(), nonce);
      if(!response.validate(l.public_key()))
         { throw Roughtime_Error("Invalid signature or public key"); }
      responses.push_back(response);
      }
   return responses;
   }
Nonce Chain::next_nonce(const Nonce& blind) const
   {
   return m_links.empty()
          ? blind
          : nonce_from_blind(m_links.back().response(), blind);
   }
void Chain::append(const Link& new_link, size_t max_chain_size)
   {
   if(max_chain_size <= 0)
      { throw Invalid_Argument("Max chain size must be positive"); }

   while(m_links.size() >= max_chain_size)
      {
      if(m_links.size() == 1)
         {
         auto new_link_updated = new_link;
         new_link_updated.nonce_or_blind() =
            nonce_from_blind(m_links[0].response(), new_link.nonce_or_blind()); //we need to convert blind to nonce
         m_links.clear();
         m_links.push_back(new_link_updated);
         return;
         }
      if(m_links.size() >= 2)
         {
         m_links[1].nonce_or_blind() =
            nonce_from_blind(m_links[0].response(), m_links[1].nonce_or_blind()); //we need to convert blind to nonce
         }
      m_links.erase(m_links.begin());
      }
   m_links.push_back(new_link);
   }

std::string Chain::to_string() const
   {
   std::string s;
   s.reserve((7+1 + 88+1 + 44+1 + 480)*m_links.size());
   for(const auto& link : m_links)
      {
      s += "ed25519";
      s += ' ';
      s += Botan::base64_encode(link.public_key().get_public_key());
      s += ' ';
      s += Botan::base64_encode(link.nonce_or_blind().get_nonce().data(), link.nonce_or_blind().get_nonce().size());
      s += ' ';
      s += Botan::base64_encode(link.response());
      s += '\n';
      }
   return s;
   }

std::vector<uint8_t> online_request(const std::string& uri,
                                    const Nonce& nonce,
                                    std::chrono::milliseconds timeout)
   {
   const std::chrono::system_clock::time_point start_time = std::chrono::system_clock::now();
   auto socket = OS::open_socket_udp(uri, timeout);
   if(!socket)
      { throw Not_Implemented("No socket support enabled in build"); }

   const auto encoded = encode_request(nonce);
   socket->write(encoded.data(), encoded.size());

   if(std::chrono::system_clock::now() - start_time > timeout)
      { throw System_Error("Timeout during socket write"); }

   std::vector<uint8_t> buffer;
   buffer.resize(360+64*10+1); //response basic size is 360 bytes + 64 bytes for each level of merkle tree
                               //add one additional byte to be able to differentiate if datagram got truncated
   const auto n = socket->read(buffer.data(), buffer.size());

   if(!n || std::chrono::system_clock::now() - start_time > timeout)
      { throw System_Error("Timeout waiting for response"); }

   if(n == buffer.size())
      { throw System_Error("Buffer too small"); }

   buffer.resize(n);
   return buffer;
   }

std::vector<Server_Information> servers_from_str(const std::string& str)
   {
   std::vector<Server_Information> servers;
   std::stringstream ss(str);
   const std::string ERROR_MESSAGE = "Line does not have at least 5 space separated fields";
   for(std::string s; std::getline(ss, s);)
      {
      size_t start = 0, end = 0;
      end = s.find(' ', start);
      if(end == std::string::npos)
         {
         throw Decoding_Error(ERROR_MESSAGE);
         }
      const auto name = s.substr(start, end-start);

      start = end + 1;
      end = s.find(' ', start);
      if(end == std::string::npos)
         {
         throw Decoding_Error(ERROR_MESSAGE);
         }
      const auto publicKeyType = s.substr(start, end-start);
      if(publicKeyType != "ed25519")
         { throw Not_Implemented("Only ed25519 publicKeyType is implemented"); }

      start = end + 1;
      end = s.find(' ', start);

      if(end == std::string::npos)
         {
         throw Decoding_Error(ERROR_MESSAGE);
         }
      const auto publicKeyBase64 = s.substr(start, end-start);
      const auto publicKey = Botan::Ed25519_PublicKey(Botan::base64_decode(publicKeyBase64));

      start = end + 1;
      end = s.find(' ', start);
      if(end == std::string::npos)
         {
         throw Decoding_Error(ERROR_MESSAGE);
         }
      const auto protocol = s.substr(start, end-start);
      if(protocol != "udp")
         { throw Not_Implemented("Only UDP protocol is implemented"); }

      const auto addresses = [&]()
         {
         std::vector<std::string> addresses;
         for(;;)
            {
            start = end + 1;
            end = s.find(' ', start);
            const auto address = s.substr(start, (end == std::string::npos) ? std::string::npos : end-start);
            if(address.empty())
               { return addresses; }
            addresses.push_back(address);
            if(end == std::string::npos)
               { return addresses; }
            }
         }
      ();
      if(addresses.size() == 0)
         {
         throw Decoding_Error(ERROR_MESSAGE);
         }

      servers.push_back({name, publicKey, std::move(addresses)});
      }
   return servers;
   }

}

}