/****************************************************************************** * Icinga 2 * * Copyright (C) 2012 Icinga Development Team (http://www.icinga.org/) * * * * This program is free software; you can redistribute it and/or * * modify it under the terms of the GNU General Public License * * as published by the Free Software Foundation; either version 2 * * 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 General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the Free Software Foundation * * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. * ******************************************************************************/ #include "livestatus/query.h" #include "livestatus/attributefilter.h" #include "livestatus/negatefilter.h" #include "livestatus/orfilter.h" #include "livestatus/andfilter.h" #include "icinga/externalcommandprocessor.h" #include "base/utility.h" #include "base/convert.h" #include "base/objectlock.h" #include "base/logger_fwd.h" #include #include #include #include using namespace icinga; using namespace livestatus; Query::Query(const std::vector& lines) : m_KeepAlive(false), m_OutputFormat("csv"), m_ColumnHeaders(true), m_Limit(-1) { String line = lines[0]; size_t sp_index = line.FindFirstOf(" "); if (sp_index == String::NPos) BOOST_THROW_EXCEPTION(std::runtime_error("Livestatus header must contain a verb.")); String verb = line.SubStr(0, sp_index); String target = line.SubStr(sp_index + 1); m_Verb = verb; if (m_Verb == "COMMAND") { m_Command = target; } else if (m_Verb == "GET") { m_Table = target; } else { m_Verb = "ERROR"; m_ErrorCode = 452; m_ErrorMessage = "Unknown livestatus verb: " + m_Verb; return; } std::deque filters, stats; for (unsigned int i = 1; i < lines.size(); i++) { line = lines[i]; size_t col_index = line.FindFirstOf(":"); String header = line.SubStr(0, col_index); String params = line.SubStr(col_index + 2); if (header == "ResponseHeader") m_ResponseHeader = params; else if (header == "OutputFormat") m_OutputFormat = params; else if (header == "Columns") boost::algorithm::split(m_Columns, params, boost::is_any_of(" ")); else if (header == "ColumnHeaders") m_ColumnHeaders = (params == "on"); else if (header == "Filter" || header == "Stats") { std::vector tokens; boost::algorithm::split(tokens, params, boost::is_any_of(" ")); if (tokens.size() == 2) tokens.push_back(""); if (tokens.size() < 3) { m_Verb = "ERROR"; m_ErrorCode = 452; m_ErrorMessage = "Expected 3 parameters in the filter specification."; return; } String op = tokens[1]; bool negate = false; if (op == "!=") { op = "="; negate = true; } else if (op == "!~") { op = "~"; negate = true; } else if (op == "!=~") { op = "=~"; negate = true; } else if (op == "!~~") { op = "~~"; negate = true; } Filter::Ptr filter = boost::make_shared(tokens[0], op, tokens[2]); if (negate) filter = boost::make_shared(filter); std::deque& deq = (header == "Filter") ? filters : stats; deq.push_back(filter); } else if (header == "Or" || header == "And") { std::deque& deq = (header == "Or" || header == "And") ? filters : stats; int num = Convert::ToLong(params); CombinerFilter::Ptr filter; if (header == "Or" || header == "StatsOr") filter = boost::make_shared(); else filter = boost::make_shared(); if (num > deq.size()) { m_Verb = "ERROR"; m_ErrorCode = 451; m_ErrorMessage = "Or/StatsOr is referencing " + Convert::ToString(num) + " filters; stack only contains " + Convert::ToString(deq.size()) + " filters"; return; } while (num--) { filter->AddSubFilter(deq.back()); deq.pop_back(); } deq.push_back(filter); } else if (header == "Negate" || header == "StatsNegate") { std::deque& deq = (header == "Negate") ? filters : stats; if (deq.empty()) { m_Verb = "ERROR"; m_ErrorCode = 451; m_ErrorMessage = "Negate/StatsNegate used, however the filter stack is empty"; return; } Filter::Ptr filter = deq.back(); filters.pop_back(); deq.push_back(boost::make_shared(filter)); } } /* Combine all top-level filters into a single filter. */ AndFilter::Ptr top_filter = boost::make_shared(); BOOST_FOREACH(const Filter::Ptr& filter, filters) { top_filter->AddSubFilter(filter); } m_Filter = top_filter; m_Stats.swap(stats); } void Query::PrintResultSet(std::ostream& fp, const std::vector& columns, const Array::Ptr& rs) { if (m_OutputFormat == "csv" && m_Columns.size() == 0 && m_ColumnHeaders) { bool first = true; BOOST_FOREACH(const String& column, columns) { if (first) first = false; else fp << ";"; fp << column; } fp << "\n"; } if (m_OutputFormat == "csv") { ObjectLock olock(rs); BOOST_FOREACH(const Array::Ptr& row, rs) { bool first = true; ObjectLock rlock(row); BOOST_FOREACH(const Value& value, row) { if (first) first = false; else fp << ";"; fp << Convert::ToString(value); } fp << "\n"; } } else if (m_OutputFormat == "json") { fp << Value(rs).Serialize(); } } void Query::ExecuteGetHelper(const Stream::Ptr& stream) { Log(LogInformation, "livestatus", "Table: " + m_Table); Table::Ptr table = Table::GetByName(m_Table); if (!table) { SendResponse(stream, 404, "Table '" + m_Table + "' does not exist."); return; } std::vector objects = table->FilterRows(m_Filter); std::vector columns; if (m_Columns.size() > 0) columns = m_Columns; else columns = table->GetColumnNames(); Array::Ptr rs = boost::make_shared(); if (m_Stats.empty()) { BOOST_FOREACH(const Object::Ptr& object, objects) { Array::Ptr row = boost::make_shared(); BOOST_FOREACH(const String& columnName, columns) { Column column = table->GetColumn(columnName); row->Add(column.ExtractValue(object)); } rs->Add(row); } } else { std::vector stats(m_Stats.size(), 0); BOOST_FOREACH(const Object::Ptr& object, objects) { int index = 0; BOOST_FOREACH(const Filter::Ptr filter, m_Stats) { if (filter->Apply(table, object)) stats[index]++; index++; } } Array::Ptr row = boost::make_shared(); for (int i = 0; i < m_Stats.size(); i++) row->Add(stats[i]); rs->Add(row); m_ColumnHeaders = false; } std::ostringstream result; PrintResultSet(result, columns, rs); SendResponse(stream, 200, result.str()); } void Query::ExecuteCommandHelper(const Stream::Ptr& stream) { Log(LogInformation, "livestatus", "Executing command: " + m_Command); ExternalCommandProcessor::Execute(m_Command); SendResponse(stream, 200, ""); } void Query::ExecuteErrorHelper(const Stream::Ptr& stream) { SendResponse(stream, m_ErrorCode, m_ErrorMessage); } void Query::SendResponse(const Stream::Ptr& stream, int code, const String& data) { if (m_ResponseHeader == "fixed16") PrintFixed16(stream, code, data); if (m_ResponseHeader == "fixed16" || code == 200) stream->Write(data.CStr(), data.GetLength()); } void Query::PrintFixed16(const Stream::Ptr& stream, int code, const String& data) { ASSERT(code >= 100 && code <= 999); String sCode = Convert::ToString(code); String sLength = Convert::ToString(data.GetLength()); String header = sCode + String(16 - 3 - sLength.GetLength() - 1, ' ') + sLength + "\n"; stream->Write(header.CStr(), header.GetLength()); } void Query::Execute(const Stream::Ptr& stream) { try { Log(LogInformation, "livestatus", "Executing livestatus query: " + m_Verb); if (m_Verb == "GET") ExecuteGetHelper(stream); else if (m_Verb == "COMMAND") ExecuteCommandHelper(stream); else if (m_Verb == "ERROR") ExecuteErrorHelper(stream); else BOOST_THROW_EXCEPTION(std::runtime_error("Invalid livestatus query verb.")); } catch (const std::exception& ex) { SendResponse(stream, 452, boost::diagnostic_information(ex)); } if (!m_KeepAlive) stream->Close(); }