#ifndef LLARP_BENCODE_HPP #define LLARP_BENCODE_HPP #include #include #include #include #include #include #include #include namespace llarp { template bool BEncodeReadList(List_t& result, llarp_buffer_t* buf); inline bool BEncodeWriteDictMsgType(llarp_buffer_t* buf, const char* k, const char* t) { return bencode_write_bytestring(buf, k, 1) && bencode_write_bytestring(buf, t, 1); } template bool BEncodeWriteDictString(const char* k, const Obj_t& str, llarp_buffer_t* buf) { return bencode_write_bytestring(buf, k, 1) && bencode_write_bytestring(buf, str.data(), str.size()); } template bool BEncodeWriteDictEntry(const char* k, const Obj_t& o, llarp_buffer_t* buf) { return bencode_write_bytestring(buf, k, 1) && o.BEncode(buf); } template bool BEncodeWriteDictInt(const char* k, const Int_t& i, llarp_buffer_t* buf) { return bencode_write_bytestring(buf, k, 1) && bencode_write_uint64(buf, i); } template bool BEncodeMaybeReadDictList( const char* k, List_t& item, bool& read, const llarp_buffer_t& key, llarp_buffer_t* buf) { if (key == k) { if (!BEncodeReadList(item, buf)) { return false; } read = true; } return true; } template bool BEncodeMaybeReadDictEntry( const char* k, Item_t& item, bool& read, const llarp_buffer_t& key, llarp_buffer_t* buf) { if (key == k) { if (!item.BDecode(buf)) { llarp::LogWarnTag("llarp/bencode.hpp", "failed to decode key ", k, " for entry in dict"); return false; } read = true; } return true; } template bool BEncodeMaybeReadDictInt( const char* k, Int_t& i, bool& read, const llarp_buffer_t& key, llarp_buffer_t* buf) { if (key == k) { uint64_t read_i; if (!bencode_read_integer(buf, &read_i)) { llarp::LogWarnTag("llarp/BEncode.hpp", "failed to decode key ", k, " for integer in dict"); return false; } i = Int_t(read_i); read = true; } return true; } /// If the key matches, reads in the version and ensures that it equals the /// expected version template bool BEncodeMaybeVerifyVersion( const char* k, Item_t& item, uint64_t expect, bool& read, const llarp_buffer_t& key, llarp_buffer_t* buf) { if (key == k) { if (!bencode_read_integer(buf, &item)) return false; read = item == expect; } return true; } template bool BEncodeWriteDictBEncodeList(const char* k, const List_t& l, llarp_buffer_t* buf) { if (!bencode_write_bytestring(buf, k, 1)) return false; if (!bencode_start_list(buf)) return false; for (const auto& item : l) if (!item->BEncode(buf)) return false; return bencode_end(buf); } template bool BEncodeWriteDictArray(const char* k, const Array& array, llarp_buffer_t* buf) { if (!bencode_write_bytestring(buf, k, 1)) return false; if (!bencode_start_list(buf)) return false; for (size_t idx = 0; idx < array.size(); ++idx) if (!array[idx].BEncode(buf)) return false; return bencode_end(buf); } template bool BEncodeWriteList(Iter itr, Iter end, llarp_buffer_t* buf) { if (!bencode_start_list(buf)) return false; while (itr != end) if (!itr->BEncode(buf)) return false; else ++itr; return bencode_end(buf); } template bool bencode_read_dict(Sink&& sink, llarp_buffer_t* buffer) { if (buffer->size_left() < 2) // minimum case is 'de' return false; if (*buffer->cur != 'd') // ensure is a dictionary return false; buffer->cur++; while (buffer->size_left() && *buffer->cur != 'e') { llarp_buffer_t strbuf; // temporary buffer for current element if (bencode_read_string(buffer, &strbuf)) { if (!sink(buffer, &strbuf)) // check for early abort return false; } else return false; } if (*buffer->cur != 'e') { llarp::LogWarn("reading dict not ending on 'e'"); // make sure we're at dictionary end return false; } buffer->cur++; return sink(buffer, nullptr); } template bool bencode_decode_dict(Sink&& sink, llarp_buffer_t* buff) { return bencode_read_dict( [&](llarp_buffer_t* buffer, llarp_buffer_t* key) { if (key == nullptr) return true; if (sink.DecodeKey(*key, buffer)) return true; llarp::LogWarnTag( "llarp/bencode.hpp", "undefined key '", *key->cur, "' for entry in dict"); return false; }, buff); } template bool bencode_read_list(Sink&& sink, llarp_buffer_t* buffer) { if (buffer->size_left() < 2) // minimum case is 'le' return false; if (*buffer->cur != 'l') // ensure is a list { llarp::LogWarn("bencode::bencode_read_list - expecting list got ", *buffer->cur); return false; } buffer->cur++; while (buffer->size_left() && *buffer->cur != 'e') { if (!sink(buffer, true)) // check for early abort return false; } if (*buffer->cur != 'e') // make sure we're at a list end return false; buffer->cur++; return sink(buffer, false); } template bool BEncodeReadArray(Array& array, llarp_buffer_t* buf) { size_t idx = 0; return bencode_read_list( [&array, &idx](llarp_buffer_t* buffer, bool has) { if (has) { if (idx >= array.size()) return false; if (!array[idx++].BDecode(buffer)) return false; } return true; }, buf); } template bool BEncodeReadList(List_t& result, llarp_buffer_t* buf) { return bencode_read_list( [&result](llarp_buffer_t* buffer, bool has) { if (has) { if (!result.emplace(result.end())->BDecode(buffer)) { return false; } } return true; }, buf); } template bool BEncodeWriteDictList(const char* k, List_t& list, llarp_buffer_t* buf) { return bencode_write_bytestring(buf, k, 1) && BEncodeWriteList(list.begin(), list.end(), buf); } template void Dump(const T& val) { std::array tmp; llarp_buffer_t buf(tmp); if (val.BEncode(&buf)) { llarp::DumpBuffer(buf); } } /// read entire file and decode its contents into t template bool BDecodeReadFile(const char* fpath, T& t) { std::vector ptr; { std::ifstream f; f.open(fpath); if (!f.is_open()) { return false; } f.seekg(0, std::ios::end); const std::streampos sz = f.tellg(); f.seekg(0, std::ios::beg); ptr.resize(sz); f.read((char*)ptr.data(), sz); } llarp_buffer_t buf(ptr); return t.BDecode(&buf); } /// read entire file and decode its contents into t template bool BDecodeReadFromFile(const char* fpath, T& t) { std::vector ptr; { std::ifstream f; f.open(fpath); if (!f.is_open()) { return false; } f.seekg(0, std::ios::end); const std::streampos sz = f.tellg(); f.seekg(0, std::ios::beg); ptr.resize(sz); f.read((char*)ptr.data(), sz); } llarp_buffer_t buf(ptr); auto result = bencode_decode_dict(t, &buf); if (!result) { LogError("BDecodeReadFromFile() failed for file ", fpath, " contents:"); DumpBuffer(buf); } return result; } /// bencode and write to file template bool BEncodeWriteFile(const char* fpath, const T& t) { std::array tmp; llarp_buffer_t buf(tmp); if (!t.BEncode(&buf)) return false; buf.sz = buf.cur - buf.base; { const fs::path path = std::string(fpath); auto f = llarp::util::OpenFileStream(path, std::ios::binary); if (not f or not f->is_open()) return false; f->write((char*)buf.base, buf.sz); } return true; } /// seek for an int in a dict with a key k used for version /// set v to parsed value if found /// this call rewinds the buffer unconditionally before return /// returns false only if there was template bool BEncodeSeekDictVersion(Int_t& v, llarp_buffer_t* buf, const byte_t k) { const auto ret = bencode_read_dict( [&v, k](llarp_buffer_t* buffer, llarp_buffer_t* key) -> bool { if (key == nullptr) return true; if (key->sz == 1 && *key->cur == k) { return bencode_read_integer(buffer, &v); } return bencode_discard(buffer); }, buf); // rewind buf->cur = buf->base; return ret; } } // namespace llarp #endif