#ifndef LLARP_BENCODE_HPP #define LLARP_BENCODE_HPP #include #include namespace llarp { 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 < typename Obj_t > 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.c_str(), str.size()); } template < typename Obj_t > bool BEncodeWriteDictEntry(const char* k, const Obj_t& o, llarp_buffer_t* buf) { return bencode_write_bytestring(buf, k, 1) && o.BEncode(buf); } template < typename Int_t > bool BEncodeWriteDictInt(llarp_buffer_t* buf, const char* k, const Int_t& i) { return bencode_write_bytestring(buf, k, 1) && bencode_write_uint64(buf, i); } template < typename Item_t > bool BEncodeRead(Item_t& item, llarp_buffer_t* buf); template < typename Item_t > bool BEncodeMaybeReadDictEntry(const char* k, Item_t& item, bool& read, llarp_buffer_t key, llarp_buffer_t* buf) { if(llarp_buffer_eq(key, k)) { if(!item.BDecode(buf)) { llarp::LogWarn("failed to decode key ", k); return false; } read = true; } return true; } template < typename Int_t > bool BEncodeMaybeReadDictInt(const char* k, Int_t& i, bool& read, llarp_buffer_t key, llarp_buffer_t* buf) { if(llarp_buffer_eq(key, k)) { if(!bencode_read_integer(buf, &i)) { llarp::LogWarn("failed to decode key ", k); return false; } read = true; } return true; } template < typename Item_t > bool BEncodeMaybeReadVersion(const char* k, Item_t& item, uint64_t expect, bool& read, llarp_buffer_t key, llarp_buffer_t* buf) { if(llarp_buffer_eq(key, k)) { if(!bencode_read_integer(buf, &item)) return false; read = item == expect; } return true; } template < typename List_t > 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 < typename Iter > 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 < typename List_t > bool BEncodeReadList(List_t& result, llarp_buffer_t* buf) { if(*buf->cur != 'l') // ensure is a list return false; buf->cur++; while(llarp_buffer_size_left(*buf) && *buf->cur != 'e') { if(!result.emplace(result.end())->BDecode(buf)) return false; } if(*buf->cur != 'e') // make sure we're at a list end return false; buf->cur++; return true; } template < typename List_t > 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); } /// bencode serializable message struct IBEncodeMessage { virtual ~IBEncodeMessage(){}; virtual bool DecodeKey(llarp_buffer_t key, llarp_buffer_t* val) = 0; virtual bool BEncode(llarp_buffer_t* buf) const = 0; }; } // namespace llarp #endif