#include #include "buffer.hpp" #include "ini.hpp" #include "router.hpp" namespace llarp { namespace service { std::string AddressToString(const Address& addr) { char tmp[(1 + 32) * 2] = {0}; std::string str = Base32Encode(addr, tmp); return str + ".loki"; } ServiceInfo::ServiceInfo() { vanity.Zero(); } ServiceInfo::~ServiceInfo() { } bool ServiceInfo::DecodeKey(llarp_buffer_t key, llarp_buffer_t* val) { bool read = false; if(!BEncodeMaybeReadDictEntry("e", enckey, read, key, val)) return false; if(!BEncodeMaybeReadDictEntry("s", signkey, read, key, val)) return false; if(!BEncodeMaybeReadDictInt("v", version, read, key, val)) return false; if(!BEncodeMaybeReadDictEntry("x", vanity, read, key, val)) return false; return read; } bool ServiceInfo::BEncode(llarp_buffer_t* buf) const { if(!bencode_start_dict(buf)) return false; if(!BEncodeWriteDictEntry("e", enckey, buf)) return false; if(!BEncodeWriteDictEntry("s", signkey, buf)) return false; if(!BEncodeWriteDictInt(buf, "v", LLARP_PROTO_VERSION)) return false; if(!vanity.IsZero()) { if(!BEncodeWriteDictEntry("x", vanity, buf)) return false; } return bencode_end(buf); } bool ServiceInfo::CalculateAddress(byte_t* addr) const { byte_t tmp[128]; auto buf = llarp::StackBuffer< decltype(tmp) >(tmp); if(!BEncode(&buf)) return false; return crypto_generichash(addr, 32, buf.base, buf.cur - buf.base, nullptr, 0) != -1; } IntroSet::~IntroSet() { if(W) delete W; } bool IntroSet::DecodeKey(llarp_buffer_t key, llarp_buffer_t* buf) { bool read = false; if(!BEncodeMaybeReadDictEntry("a", A, read, key, buf)) return false; if(llarp_buffer_eq(key, "i")) { return BEncodeReadList(I, buf); } if(!BEncodeMaybeReadDictInt("v", version, read, key, buf)) return false; if(!BEncodeMaybeReadDictEntry("z", Z, read, key, buf)) return false; return read; } bool IntroSet::BEncode(llarp_buffer_t* buf) const { if(!bencode_start_dict(buf)) return false; if(!BEncodeWriteDictEntry("a", A, buf)) return false; // start introduction list if(!bencode_write_bytestring(buf, "i", 1)) return false; if(!BEncodeWriteList(I.begin(), I.end(), buf)) return false; // end introduction list // write version if(!BEncodeWriteDictInt(buf, "v", version)) return false; /* if(W) { if(!BEncodeWriteDictEntry("w", *W, buf)) return false; } */ if(!BEncodeWriteDictEntry("z", Z, buf)) return false; return bencode_end(buf); } Introduction::~Introduction() { } bool Introduction::DecodeKey(llarp_buffer_t key, llarp_buffer_t* buf) { bool read = false; if(!BEncodeMaybeReadDictEntry("k", router, read, key, buf)) return false; if(!BEncodeMaybeReadDictInt("l", latency, read, key, buf)) return false; if(!BEncodeMaybeReadDictEntry("p", pathID, read, key, buf)) return false; if(!BEncodeMaybeReadDictInt("v", version, read, key, buf)) return false; if(!BEncodeMaybeReadDictInt("x", expiresAt, read, key, buf)) return false; return read; } bool Introduction::BEncode(llarp_buffer_t* buf) const { if(!bencode_start_dict(buf)) return false; if(!BEncodeWriteDictEntry("k", router, buf)) return false; if(latency) { if(!BEncodeWriteDictInt(buf, "l", latency)) return false; } if(!BEncodeWriteDictEntry("p", pathID, buf)) return false; if(!BEncodeWriteDictInt(buf, "v", version)) return false; if(!BEncodeWriteDictInt(buf, "x", expiresAt)) return false; return bencode_end(buf); } Identity::~Identity() { } bool Identity::BEncode(llarp_buffer_t* buf) const { /// TODO: implement me return false; } bool Identity::DecodeKey(llarp_buffer_t key, llarp_buffer_t* buf) { /// TODO: implement me return false; } void Identity::RegenerateKeys(llarp_crypto* crypto) { crypto->encryption_keygen(enckey); crypto->identity_keygen(signkey); pub.enckey = llarp::seckey_topublic(enckey); pub.signkey = llarp::seckey_topublic(signkey); pub.vanity.Zero(); } bool Identity::EnsureKeys(const std::string& fname, llarp_crypto* c) { // TODO: implement me return false; } bool Identity::SignIntroSet(IntroSet& i, llarp_crypto* crypto) const { if(i.I.size() == 0) return false; i.A = pub; // zero out signature for signing process i.Z.Zero(); byte_t tmp[MAX_INTROSET_SIZE]; auto buf = llarp::StackBuffer< decltype(tmp) >(tmp); if(!i.BEncode(&buf)) return false; // rewind and resize buffer buf.sz = buf.cur - buf.base; buf.cur = buf.base; return crypto->sign(i.Z, signkey, buf); } bool IntroSet::VerifySignature(llarp_crypto* crypto) const { byte_t tmp[MAX_INTROSET_SIZE]; auto buf = llarp::StackBuffer< decltype(tmp) >(tmp); IntroSet copy; copy = *this; copy.Z.Zero(); if(!copy.BEncode(&buf)) return false; // rewind and resize buffer buf.sz = buf.cur - buf.base; buf.cur = buf.base; return crypto->verify(A.signkey, buf, Z); } bool Config::Load(const std::string& fname) { // TODO: implement me ini::Parser parser(fname); for(const auto& sec : parser.top().ordered_sections) { services.push_back({sec->first, sec->second.values}); } return services.size() > 0; } } // namespace service } // namespace llarp