bool cEnvelopeParser::ParseLine(const char * a_Data, size_t a_Size) { ASSERT(a_Size > 0); if (a_Data[0] <= ' ') { // This line is a continuation for the previous line if (m_LastKey.empty()) { return false; } // Append, including the whitespace in a_Data[0] m_LastValue.append(a_Data, a_Size); return true; } // This is a line with a new key: NotifyLast(); for (size_t i = 0; i < a_Size; i++) { if (a_Data[i] == ':') { m_LastKey.assign(a_Data, i); m_LastValue.assign(a_Data + i + 2, a_Size - i - 2); return true; } } // for i - a_Data[] // No colon was found, key-less header?? return false; }
size_t cEnvelopeParser::Parse(const char * a_Data, size_t a_Size) { if (!m_IsInHeaders) { return 0; } // Start searching 1 char from the end of the already received data, if available: auto searchStart = m_IncomingData.size(); searchStart = (searchStart > 1) ? searchStart - 1 : 0; m_IncomingData.append(a_Data, a_Size); size_t idxCRLF = m_IncomingData.find("\r\n", searchStart); if (idxCRLF == AString::npos) { // Not a complete line yet, all input consumed: return a_Size; } // Parse as many lines as found: size_t Last = 0; do { if (idxCRLF == Last) { // This was the last line of the data. Finish whatever value has been cached and return: NotifyLast(); m_IsInHeaders = false; return a_Size - (m_IncomingData.size() - idxCRLF) + 2; } if (!ParseLine(m_IncomingData.c_str() + Last, idxCRLF - Last)) { // An error has occurred m_IsInHeaders = false; return AString::npos; } Last = idxCRLF + 2; idxCRLF = m_IncomingData.find("\r\n", idxCRLF + 2); } while (idxCRLF != AString::npos); m_IncomingData.erase(0, Last); // Parsed all lines and still expecting more return a_Size; }