minetest/src/network/networkpacket.cpp
Loic Blot 1fe4256462 Connection::Receive(): receive Network Packet instead of SharedBuffer<u8>.
Because we get a Buffer<u8> from ConnectionEvent, don't convert it to SharedBuffer<u8> and return it to Server/Client::Receive which will convert it to NetworkPacket
Instead, put the Buffer<u8> directly to NetworkPacket and return it to packet processing
This remove a long existing memory copy
Also check the packet size directly into Connection::Receive instead of packet processing
2015-03-31 11:01:08 +02:00

527 lines
10 KiB
C++

/*
Minetest
Copyright (C) 2015 nerzhul, Loic Blot <loic.blot@unix-experience.fr>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include "networkpacket.h"
#include "debug.h"
#include "exceptions.h"
#include "util/serialize.h"
NetworkPacket::NetworkPacket(u16 command, u32 datasize, u16 peer_id):
m_datasize(datasize), m_read_offset(0), m_command(command), m_peer_id(peer_id)
{
m_data.resize(m_datasize);
}
NetworkPacket::NetworkPacket(u16 command, u32 datasize):
m_datasize(datasize), m_read_offset(0), m_command(command), m_peer_id(0)
{
m_data.resize(m_datasize);
}
NetworkPacket::~NetworkPacket()
{
m_data.clear();
}
void NetworkPacket::putRawPacket(u8 *data, u32 datasize, u16 peer_id)
{
// If a m_command is already set, we are rewriting on same packet
// This is not permitted
assert(m_command == 0);
m_datasize = datasize - 2;
m_peer_id = peer_id;
// split command and datas
m_command = readU16(&data[0]);
m_data = std::vector<u8>(&data[2], &data[2 + m_datasize]);
}
char* NetworkPacket::getString(u32 from_offset)
{
if (from_offset >= m_datasize)
throw SerializationError("Malformed packet read");
return (char*)&m_data[from_offset];
}
void NetworkPacket::putRawString(const char* src, u32 len)
{
if (m_read_offset + len * sizeof(char) >= m_datasize) {
m_datasize += len * sizeof(char);
m_data.resize(m_datasize);
}
memcpy(&m_data[m_read_offset], src, len);
m_read_offset += len;
}
NetworkPacket& NetworkPacket::operator>>(std::string& dst)
{
u16 strLen = readU16(&m_data[m_read_offset]);
m_read_offset += sizeof(u16);
dst.clear();
if (strLen == 0) {
return *this;
}
dst.reserve(strLen);
dst.append((char*)&m_data[m_read_offset], strLen);
m_read_offset += strLen * sizeof(char);
return *this;
}
NetworkPacket& NetworkPacket::operator<<(std::string src)
{
u16 msgsize = src.size();
if (msgsize > 0xFFFF) {
msgsize = 0xFFFF;
}
*this << msgsize;
if (m_read_offset + msgsize * sizeof(char) >= m_datasize) {
m_datasize += msgsize * sizeof(char);
m_data.resize(m_datasize);
}
memcpy(&m_data[m_read_offset], src.c_str(), msgsize);
m_read_offset += msgsize;
return *this;
}
void NetworkPacket::putLongString(std::string src)
{
u32 msgsize = src.size();
if (msgsize > 0xFFFFFFFF) {
msgsize = 0xFFFFFFFF;
}
*this << msgsize;
if (m_read_offset + msgsize * sizeof(char) >= m_datasize) {
m_datasize += msgsize * sizeof(char);
m_data.resize(m_datasize);
}
memcpy(&m_data[m_read_offset], src.c_str(), msgsize);
m_read_offset += msgsize;
}
NetworkPacket& NetworkPacket::operator>>(std::wstring& dst)
{
u16 strLen = readU16(&m_data[m_read_offset]);
m_read_offset += sizeof(u16);
dst.clear();
if (strLen == 0) {
return *this;
}
dst.reserve(strLen);
for(u16 i=0; i<strLen; i++) {
wchar_t c16 = readU16(&m_data[m_read_offset]);
dst.append(&c16, 1);
m_read_offset += sizeof(u16);
}
return *this;
}
NetworkPacket& NetworkPacket::operator<<(std::wstring src)
{
u16 msgsize = src.size();
if (msgsize > 0xFFFF) {
msgsize = 0xFFFF;
}
*this << msgsize;
// Write string
for (u16 i=0; i<msgsize; i++) {
*this << (u16) src[i];
}
return *this;
}
std::string NetworkPacket::readLongString()
{
u32 strLen = readU32(&m_data[m_read_offset]);
m_read_offset += sizeof(u32);
if (strLen == 0) {
return "";
}
std::string dst;
dst.reserve(strLen);
dst.append((char*)&m_data[m_read_offset], strLen);
m_read_offset += strLen*sizeof(char);
return dst;
}
NetworkPacket& NetworkPacket::operator>>(char& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readU8(&m_data[m_read_offset]);
incrOffset<char>();
return *this;
}
char NetworkPacket::getChar(u32 offset)
{
if (offset >= m_datasize)
throw SerializationError("Malformed packet read");
return readU8(&m_data[offset]);
}
NetworkPacket& NetworkPacket::operator<<(char src)
{
checkDataSize<u8>();
writeU8(&m_data[m_read_offset], src);
incrOffset<char>();
return *this;
}
NetworkPacket& NetworkPacket::operator<<(u8 src)
{
checkDataSize<u8>();
writeU8(&m_data[m_read_offset], src);
incrOffset<u8>();
return *this;
}
NetworkPacket& NetworkPacket::operator<<(bool src)
{
checkDataSize<u8>();
writeU8(&m_data[m_read_offset], src);
incrOffset<u8>();
return *this;
}
NetworkPacket& NetworkPacket::operator<<(u16 src)
{
checkDataSize<u16>();
writeU16(&m_data[m_read_offset], src);
incrOffset<u16>();
return *this;
}
NetworkPacket& NetworkPacket::operator<<(u32 src)
{
checkDataSize<u32>();
writeU32(&m_data[m_read_offset], src);
incrOffset<u32>();
return *this;
}
NetworkPacket& NetworkPacket::operator<<(u64 src)
{
checkDataSize<u64>();
writeU64(&m_data[m_read_offset], src);
incrOffset<u64>();
return *this;
}
NetworkPacket& NetworkPacket::operator<<(float src)
{
checkDataSize<float>();
writeF1000(&m_data[m_read_offset], src);
incrOffset<float>();
return *this;
}
NetworkPacket& NetworkPacket::operator>>(bool& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readU8(&m_data[m_read_offset]);
incrOffset<u8>();
return *this;
}
NetworkPacket& NetworkPacket::operator>>(u8& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readU8(&m_data[m_read_offset]);
incrOffset<u8>();
return *this;
}
u8 NetworkPacket::getU8(u32 offset)
{
if (offset >= m_datasize)
throw SerializationError("Malformed packet read");
return readU8(&m_data[offset]);
}
u8* NetworkPacket::getU8Ptr(u32 from_offset)
{
if (m_datasize == 0) {
return NULL;
}
if (from_offset >= m_datasize)
throw SerializationError("Malformed packet read");
return (u8*)&m_data[from_offset];
}
NetworkPacket& NetworkPacket::operator>>(u16& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readU16(&m_data[m_read_offset]);
incrOffset<u16>();
return *this;
}
u16 NetworkPacket::getU16(u32 from_offset)
{
if (from_offset >= m_datasize)
throw SerializationError("Malformed packet read");
return readU16(&m_data[from_offset]);
}
NetworkPacket& NetworkPacket::operator>>(u32& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readU32(&m_data[m_read_offset]);
incrOffset<u32>();
return *this;
}
NetworkPacket& NetworkPacket::operator>>(u64& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readU64(&m_data[m_read_offset]);
incrOffset<u64>();
return *this;
}
NetworkPacket& NetworkPacket::operator>>(float& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readF1000(&m_data[m_read_offset]);
incrOffset<float>();
return *this;
}
NetworkPacket& NetworkPacket::operator>>(v2f& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readV2F1000(&m_data[m_read_offset]);
incrOffset<v2f>();
return *this;
}
NetworkPacket& NetworkPacket::operator>>(v3f& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readV3F1000(&m_data[m_read_offset]);
incrOffset<v3f>();
return *this;
}
NetworkPacket& NetworkPacket::operator>>(s16& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readS16(&m_data[m_read_offset]);
incrOffset<s16>();
return *this;
}
NetworkPacket& NetworkPacket::operator<<(s16 src)
{
*this << (u16) src;
return *this;
}
NetworkPacket& NetworkPacket::operator>>(s32& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readS32(&m_data[m_read_offset]);
incrOffset<s32>();
return *this;
}
NetworkPacket& NetworkPacket::operator<<(s32 src)
{
*this << (u32) src;
return *this;
}
NetworkPacket& NetworkPacket::operator>>(v3s16& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readV3S16(&m_data[m_read_offset]);
incrOffset<v3s16>();
return *this;
}
NetworkPacket& NetworkPacket::operator>>(v2s32& dst)
{
dst = readV2S32(&m_data[m_read_offset]);
incrOffset<v2s32>();
return *this;
}
NetworkPacket& NetworkPacket::operator>>(v3s32& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readV3S32(&m_data[m_read_offset]);
incrOffset<v3s32>();
return *this;
}
NetworkPacket& NetworkPacket::operator<<(v2f src)
{
*this << (float) src.X;
*this << (float) src.Y;
return *this;
}
NetworkPacket& NetworkPacket::operator<<(v3f src)
{
*this << (float) src.X;
*this << (float) src.Y;
*this << (float) src.Z;
return *this;
}
NetworkPacket& NetworkPacket::operator<<(v3s16 src)
{
*this << (s16) src.X;
*this << (s16) src.Y;
*this << (s16) src.Z;
return *this;
}
NetworkPacket& NetworkPacket::operator<<(v2s32 src)
{
*this << (s32) src.X;
*this << (s32) src.Y;
return *this;
}
NetworkPacket& NetworkPacket::operator<<(v3s32 src)
{
*this << (s32) src.X;
*this << (s32) src.Y;
*this << (s32) src.Z;
return *this;
}
NetworkPacket& NetworkPacket::operator>>(video::SColor& dst)
{
if (m_read_offset >= m_datasize)
throw SerializationError("Malformed packet read");
dst = readARGB8(&m_data[m_read_offset]);
incrOffset<u32>();
return *this;
}
NetworkPacket& NetworkPacket::operator<<(video::SColor src)
{
checkDataSize<u32>();
writeU32(&m_data[m_read_offset], src.color);
incrOffset<u32>();
return *this;
}
Buffer<u8> NetworkPacket::oldForgePacket()
{
Buffer<u8> sb(m_datasize + 2);
writeU16(&sb[0], m_command);
u8* datas = getU8Ptr(0);
if (datas != NULL)
memcpy(&sb[2], datas, m_datasize);
return sb;
}