lokinet/llarp/address_info.cpp

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#include "address_info.hpp"
#ifndef _WIN32
#include <arpa/inet.h>
#endif
#include <llarp/bencode.h>
#include <llarp/mem.h>
#include <llarp/string.h>
static bool
llarp_ai_decode_key(struct dict_reader *r, llarp_buffer_t *key)
{
uint64_t i;
char tmp[128] = {0};
llarp_buffer_t strbuf;
llarp_ai *ai = static_cast< llarp_ai * >(r->user);
// done
if(!key)
return true;
// rank
if(llarp_buffer_eq(*key, "c"))
{
if(!bencode_read_integer(r->buffer, &i))
return false;
if(i > 65536 || i <= 0)
return false;
ai->rank = i;
return true;
}
// dialect
if(llarp_buffer_eq(*key, "d"))
{
if(!bencode_read_string(r->buffer, &strbuf))
return false;
if(strbuf.sz >= sizeof(ai->dialect))
return false;
memcpy(ai->dialect, strbuf.base, strbuf.sz);
ai->dialect[strbuf.sz] = 0;
return true;
}
// encryption public key
if(llarp_buffer_eq(*key, "e"))
{
if(!bencode_read_string(r->buffer, &strbuf))
return false;
if(strbuf.sz != PUBKEYSIZE)
return false;
memcpy(ai->enc_key, strbuf.base, PUBKEYSIZE);
return true;
}
// ip address
if(llarp_buffer_eq(*key, "i"))
{
if(!bencode_read_string(r->buffer, &strbuf))
return false;
if(strbuf.sz >= sizeof(tmp))
return false;
memcpy(tmp, strbuf.base, strbuf.sz);
tmp[strbuf.sz] = 0;
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return inet_pton(AF_INET6, tmp, &ai->ip.s6_addr[0]) == 1;
}
// port
if(llarp_buffer_eq(*key, "p"))
{
if(!bencode_read_integer(r->buffer, &i))
return false;
if(i > 65536 || i <= 0)
return false;
ai->port = i;
return true;
}
// version
if(llarp_buffer_eq(*key, "v"))
{
if(!bencode_read_integer(r->buffer, &i))
return false;
return i == LLARP_PROTO_VERSION;
}
// bad key
return false;
}
static bool
llarp_ai_list_bdecode_item(struct list_reader *r, bool more)
{
if(!more)
return true;
llarp_ai_list *l = static_cast< llarp_ai_list * >(r->user);
llarp_ai ai;
if(!llarp_ai_bdecode(&ai, r->buffer))
return false;
llarp_ai_list_pushback(l, &ai);
return true;
}
static bool
llarp_ai_list_iter_bencode(struct llarp_ai_list_iter *iter, struct llarp_ai *ai)
{
return llarp_ai_bencode(ai, static_cast< llarp_buffer_t * >(iter->user));
}
bool
llarp_ai_bdecode(struct llarp_ai *ai, llarp_buffer_t *buff)
{
#ifndef _MSC_VER
struct dict_reader reader = {
.buffer = nullptr, .user = ai, .on_key = &llarp_ai_decode_key};
#else
struct dict_reader reader = { nullptr, ai, &llarp_ai_decode_key };
#endif
return bencode_read_dict(buff, &reader);
}
bool
llarp_ai_bencode(struct llarp_ai *ai, llarp_buffer_t *buff)
{
char ipbuff[128] = {0};
const char *ipstr;
if(!bencode_start_dict(buff))
return false;
/* rank */
if(!bencode_write_bytestring(buff, "c", 1))
return false;
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if(!bencode_write_uint64(buff, ai->rank))
return false;
/* dialect */
if(!bencode_write_bytestring(buff, "d", 1))
return false;
if(!bencode_write_bytestring(buff, ai->dialect,
strnlen(ai->dialect, sizeof(ai->dialect))))
return false;
/* encryption key */
if(!bencode_write_bytestring(buff, "e", 1))
return false;
if(!bencode_write_bytestring(buff, ai->enc_key, PUBKEYSIZE))
return false;
/** ip */
ipstr = inet_ntop(AF_INET6, &ai->ip, ipbuff, sizeof(ipbuff));
if(!ipstr)
return false;
if(!bencode_write_bytestring(buff, "i", 1))
return false;
if(!bencode_write_bytestring(buff, ipstr, strnlen(ipstr, sizeof(ipbuff))))
return false;
/** port */
if(!bencode_write_bytestring(buff, "p", 1))
return false;
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if(!bencode_write_uint64(buff, ai->port))
return false;
/** version */
if(!bencode_write_version_entry(buff))
return false;
/** end */
return bencode_end(buff);
}
bool
llarp_ai_list_bencode(struct llarp_ai_list *l, llarp_buffer_t *buff)
{
if(!bencode_start_list(buff))
return false;
#ifndef _MSC_VER
struct llarp_ai_list_iter ai_itr = {
.user = buff, .list = nullptr, .visit = &llarp_ai_list_iter_bencode};
#else
struct llarp_ai_list_iter ai_itr = {buff, nullptr,
&llarp_ai_list_iter_bencode};
#endif
llarp_ai_list_iterate(l, &ai_itr);
return bencode_end(buff);
}
struct llarp_ai_list *
llarp_ai_list_new()
{
return new llarp_ai_list;
}
void
llarp_ai_list_free(struct llarp_ai_list *l)
{
if(l)
{
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l->list.clear();
delete l;
}
}
void
llarp_ai_copy(struct llarp_ai *dst, struct llarp_ai *src)
{
memcpy(dst, src, sizeof(struct llarp_ai));
}
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void
llarp_ai_list_copy(struct llarp_ai_list *dst, struct llarp_ai_list *src)
{
dst->list.clear();
for(auto &itr : src->list)
dst->list.emplace_back(itr);
}
void
llarp_ai_list_pushback(struct llarp_ai_list *l, struct llarp_ai *ai)
{
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l->list.push_back(*ai);
}
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size_t
llarp_ai_list_size(struct llarp_ai_list *l)
{
if(l)
{
return l->list.size();
}
return 0;
}
void
llarp_ai_list_iterate(struct llarp_ai_list *l, struct llarp_ai_list_iter *itr)
{
itr->list = l;
for(auto &ai : l->list)
if(!itr->visit(itr, &ai))
return;
}
bool
llarp_ai_list_index(struct llarp_ai_list *l, ssize_t idx, struct llarp_ai *dst)
{
// TODO: implement negative indexes
if(idx < 0)
return false;
size_t i = idx;
if(l->list.size() > i)
{
llarp_ai_copy(dst, &l->list[i]);
return true;
}
return false;
}
bool
llarp_ai_list_bdecode(struct llarp_ai_list *l, llarp_buffer_t *buff)
{
#ifndef _MSC_VER
struct list_reader r = {
.buffer = nullptr, .user = l, .on_item = &llarp_ai_list_bdecode_item};
#else
struct list_reader r = {
nullptr, l, &llarp_ai_list_bdecode_item};
#endif
return bencode_read_list(buff, &r);
}