/* * BinTreeNodeWriter.cpp * * Created on: 26/06/2012 * Author: Antonio */ #include "../stdafx.h" // #TODO Remove Miranda-dependency #include "BinTreeNodeWriter.h" #include "utilities.h" BinTreeNodeWriter::BinTreeNodeWriter(WAConnection *_conn, ISocketConnection *_connection, IMutex *_mutex) { bSecure = false; bFlush = true; mutex = _mutex; conn = _conn; out = new ByteArrayOutputStream(4096); realOut = _connection; dataBegin = 0; } BinTreeNodeWriter::~BinTreeNodeWriter() { delete out; } void BinTreeNodeWriter::writeDummyHeader() { dataBegin = (int)out->getPosition(); // save node start offset unsigned char zero3[3] = { 0, 0, 0 }; out->write(zero3, 3); } void BinTreeNodeWriter::processBuffer() { unsigned char num = 0; if (bSecure) { unsigned char zero4[4] = { 0, 0, 0, 0 }; out->write(zero4, 4); // reserve place for hmac num = 0x80; } int num3 = (int)out->getLength() - 3 - dataBegin; if (num3 >= 1048576L) throw WAException("Buffer too large: " + num3, WAException::CORRUPT_STREAM_EX, 0); std::vector &buffer = out->getBuffer(); if (bSecure) { int num4 = num3 - 4; conn->outputKey.encodeMessage(buffer.data(), dataBegin + 3 + num4, dataBegin + 3, num4); } buffer[dataBegin + 2] = (unsigned char)(num3 & 0xFF); num3 >>= 8; buffer[dataBegin + 1] = (unsigned char)(num3 & 0xFF); num3 >>= 8; buffer[dataBegin] = (unsigned char)(num3 & 0xFF) | num; } void BinTreeNodeWriter::streamStart(std::string domain, std::string resource) { this->mutex->lock(); try { out->setPosition(0); out->setLength(0); out->write('W'); out->write('A'); out->write(1); out->write(5); std::map attributes; attributes["to"] = domain; attributes["resource"] = resource; this->writeDummyHeader(); this->writeListStart((int)attributes.size() * 2 + 1); out->write(1); this->writeAttributes(&attributes); this->processBuffer(); this->flushBuffer(true); } catch (exception& ex) { this->mutex->unlock(); throw ex; } this->mutex->unlock(); } void BinTreeNodeWriter::writeListStart(int i) { if (i == 0) { out->write(0); } else if (i < 256) { out->write(248); writeInt8(i); } else { out->write(249); writeInt16(i); } } void BinTreeNodeWriter::writeInt8(int v) { out->write(v & 0xFF); } void BinTreeNodeWriter::writeInt16(int v, ISocketConnection* o) { o->write((v & 0xFF00) >> 8); o->write((v & 0xFF) >> 0); } void BinTreeNodeWriter::writeInt16(int v) { writeInt16(v, this->out); } void BinTreeNodeWriter::writeInt16(int v, ByteArrayOutputStream* o) { o->write((v & 0xFF00) >> 8); o->write((v & 0xFF) >> 0); } void BinTreeNodeWriter::writeAttributes(std::map* attributes) { if (attributes != NULL) { std::map::iterator ii; for (ii = attributes->begin(); ii != attributes->end(); ii++) { writeString(ii->first); writeString(ii->second); } } } void BinTreeNodeWriter::writeString(const std::string &tag) { int token = WAConnection::tokenLookup(tag); if (token != -1) writeToken(token); else { size_t atIndex = tag.find('@'); if (atIndex == 0 || atIndex == string::npos) writeBytes((unsigned char*)tag.data(), (int)tag.length()); else { std::string server = tag.substr(atIndex + 1); std::string user = tag.substr(0, atIndex); writeJid(&user, server); } } } void BinTreeNodeWriter::writeJid(std::string* user, const std::string &server) { out->write(250); if (user != NULL && !user->empty()) writeString(*user); else writeToken(0); writeString(server); } void BinTreeNodeWriter::writeToken(int intValue) { if (intValue & 0x100) { out->write(236); out->write(intValue & 0xFF); } else out->write(intValue); } void BinTreeNodeWriter::writeBytes(unsigned char* bytes, int length) { if (length >= 256) { out->write(253); writeInt24(length); } else { out->write(252); writeInt8(length); } out->write(bytes, length); } void BinTreeNodeWriter::writeInt24(int v) { out->write((v & 0xFF0000) >> 16); out->write((v & 0xFF00) >> 8); out->write(v & 0xFF); } void BinTreeNodeWriter::writeInternal(const ProtocolTreeNode &node) { writeListStart( 1 + (node.attributes == NULL ? 0 : (int)node.attributes->size() * 2) + (node.children == NULL ? 0 : 1) + (node.data == NULL ? 0 : 1)); writeString(node.tag); writeAttributes(node.attributes); if (node.data != NULL) writeBytes((unsigned char*)node.data->data(), (int)node.data->size()); if (node.children != NULL && !node.children->empty()) { writeListStart((int)node.children->size()); for (size_t a = 0; a < node.children->size(); a++) writeInternal(*(*node.children)[a]); } } void BinTreeNodeWriter::flushBuffer(bool flushNetwork) { try { this->processBuffer(); } catch (WAException& ex) { out->setPosition(0); out->setLength(0); throw ex; } if (!flushNetwork) return; std::vector &buffer = out->getBuffer(); this->realOut->write(buffer, (int)buffer.size()); if (out->getCapacity() - out->getLength() < 3L || out->getLength() > 4096L) { delete out; out = new ByteArrayOutputStream(4096); } else { out->setPosition(0); out->setLength(0); } dataBegin = 0; } void BinTreeNodeWriter::streamEnd() { this->mutex->lock(); try { writeListStart(1); out->write(2); flushBuffer(true); } catch (exception& ex) { this->mutex->unlock(); throw ex; } this->mutex->unlock(); } void BinTreeNodeWriter::write(const ProtocolTreeNode& node) { this->mutex->lock(); try { this->writeDummyHeader(); if (bSecure) { string tmp = node.toString(); this->realOut->log("XML written:\n", tmp.c_str()); } if (node.tag.empty()) out->write(0); else writeInternal(node); flushBuffer(bFlush); } catch (exception& ex) { this->mutex->unlock(); throw WAException(ex.what()); } this->mutex->unlock(); }