/* Minetest Copyright (C) 2015 nerzhul, Loic Blot 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 #include "networkexceptions.h" #include "util/serialize.h" #include "networkprotocol.h" NetworkPacket::NetworkPacket(u16 command, u32 datasize, session_t peer_id): m_datasize(datasize), m_command(command), m_peer_id(peer_id) { m_data.resize(m_datasize); } NetworkPacket::NetworkPacket(u16 command, u32 datasize): m_datasize(datasize), m_command(command) { m_data.resize(m_datasize); } NetworkPacket::~NetworkPacket() { m_data.clear(); } void NetworkPacket::checkReadOffset(u32 from_offset, u32 field_size) { if (from_offset + field_size > m_datasize) { std::stringstream ss; ss << "Reading outside packet (offset: " << from_offset << ", packet size: " << getSize() << ")"; throw PacketError(ss.str()); } } void NetworkPacket::putRawPacket(const u8 *data, u32 datasize, session_t 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; m_data.resize(m_datasize); // split command and datas m_command = readU16(&data[0]); memcpy(m_data.data(), &data[2], m_datasize); } void NetworkPacket::clear() { m_data.clear(); m_datasize = 0; m_read_offset = 0; m_command = 0; m_peer_id = 0; } const char* NetworkPacket::getString(u32 from_offset) { checkReadOffset(from_offset, 0); return (char*)&m_data[from_offset]; } void NetworkPacket::putRawString(const char* src, u32 len) { if (m_read_offset + len > m_datasize) { m_datasize = m_read_offset + len; m_data.resize(m_datasize); } if (len == 0) return; memcpy(&m_data[m_read_offset], src, len); m_read_offset += len; } NetworkPacket& NetworkPacket::operator>>(std::string& dst) { checkReadOffset(m_read_offset, 2); u16 strLen = readU16(&m_data[m_read_offset]); m_read_offset += 2; dst.clear(); if (strLen == 0) { return *this; } checkReadOffset(m_read_offset, strLen); dst.reserve(strLen); dst.append((char*)&m_data[m_read_offset], strLen); m_read_offset += strLen; return *this; } NetworkPacket& NetworkPacket::operator<<(const std::string &src) { if (src.size() > STRING_MAX_LEN) { throw PacketError("String too long"); } u16 msgsize = src.size(); *this << msgsize; putRawString(src.c_str(), (u32)msgsize); return *this; } void NetworkPacket::putLongString(const std::string &src) { if (src.size() > LONG_STRING_MAX_LEN) { throw PacketError("String too long"); } u32 msgsize = src.size(); *this << msgsize; putRawString(src.c_str(), msgsize); } static constexpr bool NEED_SURROGATE_CODING = sizeof(wchar_t) > 2; NetworkPacket& NetworkPacket::operator>>(std::wstring& dst) { checkReadOffset(m_read_offset, 2); u16 strLen = readU16(&m_data[m_read_offset]); m_read_offset += 2; dst.clear(); if (strLen == 0) { return *this; } checkReadOffset(m_read_offset, strLen * 2); dst.reserve(strLen); for (u16 i = 0; i < strLen; i++) { wchar_t c = readU16(&m_data[m_read_offset]); if (NEED_SURROGATE_CODING && c >= 0xD800 && c < 0xDC00 && i+1 < strLen) { i++; m_read_offset += sizeof(u16); wchar_t c2 = readU16(&m_data[m_read_offset]); c = 0x10000 + ( ((c & 0x3ff) << 10) | (c2 & 0x3ff) ); } dst.push_back(c); m_read_offset += sizeof(u16); } return *this; } NetworkPacket& NetworkPacket::operator<<(const std::wstring &src) { if (src.size() > WIDE_STRING_MAX_LEN) { throw PacketError("String too long"); } if (!NEED_SURROGATE_CODING || src.size() == 0) { *this << static_cast(src.size()); for (u16 i = 0; i < src.size(); i++) *this << static_cast(src[i]); return *this; } // write dummy value, to be overwritten later const u32 len_offset = m_read_offset; u32 written = 0; *this << static_cast(0xfff0); for (u16 i = 0; i < src.size(); i++) { wchar_t c = src[i]; if (c > 0xffff) { // Encode high code-points as surrogate pairs u32 n = c - 0x10000; *this << static_cast(0xD800 | (n >> 10)) << static_cast(0xDC00 | (n & 0x3ff)); written += 2; } else { *this << static_cast(c); written++; } } if (written > WIDE_STRING_MAX_LEN) throw PacketError("String too long"); writeU16(&m_data[len_offset], written); return *this; } std::string NetworkPacket::readLongString() { checkReadOffset(m_read_offset, 4); u32 strLen = readU32(&m_data[m_read_offset]); m_read_offset += 4; if (strLen == 0) { return ""; } if (strLen > LONG_STRING_MAX_LEN) { throw PacketError("String too long"); } checkReadOffset(m_read_offset, strLen); std::string dst; dst.reserve(strLen); dst.append((char*)&m_data[m_read_offset], strLen); m_read_offset += strLen; return dst; } NetworkPacket& NetworkPacket::operator>>(char& dst) { checkReadOffset(m_read_offset, 1); dst = readU8(&m_data[m_read_offset]); m_read_offset += 1; return *this; } NetworkPacket& NetworkPacket::operator<<(char src) { checkDataSize(1); writeU8(&m_data[m_read_offset], src); m_read_offset += 1; return *this; } NetworkPacket& NetworkPacket::operator<<(u8 src) { checkDataSize(1); writeU8(&m_data[m_read_offset], src); m_read_offset += 1; return *this; } NetworkPacket& NetworkPacket::operator<<(bool src) { checkDataSize(1); writeU8(&m_data[m_read_offset], src); m_read_offset += 1; return *this; } NetworkPacket& NetworkPacket::operator<<(u16 src) { checkDataSize(2); writeU16(&m_data[m_read_offset], src); m_read_offset += 2; return *this; } NetworkPacket& NetworkPacket::operator<<(u32 src) { checkDataSize(4); writeU32(&m_data[m_read_offset], src); m_read_offset += 4; return *this; } NetworkPacket& NetworkPacket::operator<<(u64 src) { checkDataSize(8); writeU64(&m_data[m_read_offset], src); m_read_offset += 8; return *this; } NetworkPacket& NetworkPacket::operator<<(float src) { checkDataSize(4); writeF32(&m_data[m_read_offset], src); m_read_offset += 4; return *this; } NetworkPacket& NetworkPacket::operator>>(bool& dst) { checkReadOffset(m_read_offset, 1); dst = readU8(&m_data[m_read_offset]); m_read_offset += 1; return *this; } NetworkPacket& NetworkPacket::operator>>(u8& dst) { checkReadOffset(m_read_offset, 1); dst = readU8(&m_data[m_read_offset]); m_read_offset += 1; return *this; } u8 NetworkPacket::getU8(u32 offset) { checkReadOffset(offset, 1); return readU8(&m_data[offset]); } u8* NetworkPacket::getU8Ptr(u32 from_offset) { if (m_datasize == 0) { return NULL; } checkReadOffset(from_offset, 1); return (u8*)&m_data[from_offset]; } NetworkPacket& NetworkPacket::operator>>(u16& dst) { checkReadOffset(m_read_offset, 2); dst = readU16(&m_data[m_read_offset]); m_read_offset += 2; return *this; } u16 NetworkPacket::getU16(u32 from_offset) { checkReadOffset(from_offset, 2); return readU16(&m_data[from_offset]); } NetworkPacket& NetworkPacket::operator>>(u32& dst) { checkReadOffset(m_read_offset, 4); dst = readU32(&m_data[m_read_offset]); m_read_offset += 4; return *this; } NetworkPacket& NetworkPacket::operator>>(u64& dst) { checkReadOffset(m_read_offset, 8); dst = readU64(&m_data[m_read_offset]); m_read_offset += 8; return *this; } NetworkPacket& NetworkPacket::operator>>(float& dst) { checkReadOffset(m_read_offset, 4); dst = readF32(&m_data[m_read_offset]); m_read_offset += 4; return *this; } NetworkPacket& NetworkPacket::operator>>(v2f& dst) { checkReadOffset(m_read_offset, 8); dst = readV2F32(&m_data[m_read_offset]); m_read_offset += 8; return *this; } NetworkPacket& NetworkPacket::operator>>(v3f& dst) { checkReadOffset(m_read_offset, 12); dst = readV3F32(&m_data[m_read_offset]); m_read_offset += 12; return *this; } NetworkPacket& NetworkPacket::operator>>(s16& dst) { checkReadOffset(m_read_offset, 2); dst = readS16(&m_data[m_read_offset]); m_read_offset += 2; return *this; } NetworkPacket& NetworkPacket::operator<<(s16 src) { *this << (u16) src; return *this; } NetworkPacket& NetworkPacket::operator>>(s32& dst) { checkReadOffset(m_read_offset, 4); dst = readS32(&m_data[m_read_offset]); m_read_offset += 4; return *this; } NetworkPacket& NetworkPacket::operator<<(s32 src) { *this << (u32) src; return *this; } NetworkPacket& NetworkPacket::operator>>(v3s16& dst) { checkReadOffset(m_read_offset, 6); dst = readV3S16(&m_data[m_read_offset]); m_read_offset += 6; return *this; } NetworkPacket& NetworkPacket::operator>>(v2s32& dst) { checkReadOffset(m_read_offset, 8); dst = readV2S32(&m_data[m_read_offset]); m_read_offset += 8; return *this; } NetworkPacket& NetworkPacket::operator>>(v3s32& dst) { checkReadOffset(m_read_offset, 12); dst = readV3S32(&m_data[m_read_offset]); m_read_offset += 12; 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) { checkReadOffset(m_read_offset, 4); dst = readARGB8(&m_data[m_read_offset]); m_read_offset += 4; return *this; } NetworkPacket& NetworkPacket::operator<<(video::SColor src) { checkDataSize(4); writeU32(&m_data[m_read_offset], src.color); m_read_offset += 4; return *this; } SharedBuffer NetworkPacket::oldForgePacket() { SharedBuffer sb(m_datasize + 2); writeU16(&sb[0], m_command); u8* datas = getU8Ptr(0); if (datas != NULL) memcpy(&sb[2], datas, m_datasize); return sb; }