lokinet/include/llarp/bencode.hpp

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#ifndef LLARP_BENCODE_HPP
#define LLARP_BENCODE_HPP
#include <llarp/bencode.h>
#include <llarp/buffer.hpp>
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#include <llarp/logger.hpp>
#include <llarp/mem.hpp>
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#include <set>
#include <fstream>
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namespace llarp
{
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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);
}
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template < typename Obj_t >
bool
BEncodeWriteDictString(const char* k, const Obj_t& str, llarp_buffer_t* buf)
{
return bencode_write_bytestring(buf, k, 1)
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&& bencode_write_bytestring(buf, str.data(), str.size());
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}
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);
}
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template < typename Int_t >
bool
BEncodeWriteDictInt(const char* k, const Int_t& i, llarp_buffer_t* buf)
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{
return bencode_write_bytestring(buf, k, 1) && bencode_write_uint64(buf, i);
}
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template < typename List_t >
bool
BEncodeMaybeReadDictList(const char* k, List_t& item, bool& read,
llarp_buffer_t key, llarp_buffer_t* buf)
{
if(llarp_buffer_eq(key, k))
{
if(!BEncodeReadList(item, buf))
return false;
read = true;
}
return true;
}
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))
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{
llarp::LogWarnTag("llarp/BEncode.hpp", "failed to decode key ", k,
" for entry in dict");
return false;
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}
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::LogWarnTag("llarp/BEncode.hpp", "failed to decode key ", k,
" for integer in dict");
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;
}
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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);
}
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template < typename Array >
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 < typename Array >
bool
BEncodeReadArray(Array& array, llarp_buffer_t* buf)
{
if(*buf->cur != 'l') // ensure is a list
return false;
buf->cur++;
size_t idx = 0;
while(llarp_buffer_size_left(*buf) && *buf->cur != 'e')
{
if(idx >= array.size())
return false;
if(!array[idx++].BDecode(buf))
return false;
}
if(*buf->cur != 'e') // make sure we're at a list end
return false;
buf->cur++;
return true;
}
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;
}
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template < typename T >
bool
BEncodeReadSet(std::set< 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')
{
T item;
if(!item.BDecode(buf))
return false;
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return result.insert(item).second;
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}
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);
}
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/// bencode serializable message
struct IBEncodeMessage
{
virtual ~IBEncodeMessage(){};
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IBEncodeMessage(uint64_t v = LLARP_PROTO_VERSION)
{
version = v;
}
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virtual bool
DecodeKey(llarp_buffer_t key, llarp_buffer_t* val) = 0;
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virtual bool
BEncode(llarp_buffer_t* buf) const = 0;
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virtual bool
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BDecode(llarp_buffer_t* buf)
{
dict_reader r;
r.user = this;
r.on_key = &OnKey;
return bencode_read_dict(buf, &r);
}
// TODO: check for shadowed values elsewhere
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uint64_t version = 0;
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static bool
OnKey(dict_reader* r, llarp_buffer_t* k)
{
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return static_cast< IBEncodeMessage* >(r->user)->HandleKey(k, r->buffer);
}
bool
HandleKey(llarp_buffer_t* k, llarp_buffer_t* val)
{
if(k == nullptr)
return true;
if(DecodeKey(*k, val))
return true;
llarp::LogError("unhandled key '", *k->cur, "'");
return false;
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}
template < size_t bufsz, size_t align = 128 >
void
Dump() const
{
byte_t tmp[bufsz] = {0};
auto buf = llarp::StackBuffer< decltype(tmp) >(tmp);
if(BEncode(&buf))
llarp::DumpBuffer< decltype(buf), align >(buf);
}
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};
/// read entire file and decode its contents into t
template < typename T >
bool
BDecodeReadFile(const char* fpath, T& t)
{
byte_t* ptr = nullptr;
size_t sz = 0;
{
std::ifstream f;
f.open(fpath);
if(!f.is_open())
return false;
f.seekg(0, std::ios::end);
sz = f.tellg();
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f.seekg(0, std::ios::beg);
ptr = new byte_t[sz];
f.read((char*)ptr, sz);
}
llarp_buffer_t buf = InitBuffer(ptr, sz);
auto result = t.BDecode(&buf);
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if(!result)
DumpBuffer(buf);
delete[] ptr;
return result;
}
/// bencode and write to file
template < typename T, size_t bufsz >
bool
BEncodeWriteFile(const char* fpath, const T& t)
{
uint8_t tmp[bufsz] = {0};
auto buf = StackBuffer< decltype(tmp) >(tmp);
if(!t.BEncode(&buf))
return false;
buf.sz = buf.cur - buf.base;
{
std::ofstream f;
f.open(fpath);
if(!f.is_open())
return false;
f.write((char*)buf.base, buf.sz);
}
return true;
}
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} // namespace llarp
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#endif