icinga2/lib/livestatus/livestatusquery.cpp

649 lines
17 KiB
C++

/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */
#include "livestatus/livestatusquery.hpp"
#include "livestatus/countaggregator.hpp"
#include "livestatus/sumaggregator.hpp"
#include "livestatus/minaggregator.hpp"
#include "livestatus/maxaggregator.hpp"
#include "livestatus/avgaggregator.hpp"
#include "livestatus/stdaggregator.hpp"
#include "livestatus/invsumaggregator.hpp"
#include "livestatus/invavgaggregator.hpp"
#include "livestatus/attributefilter.hpp"
#include "livestatus/negatefilter.hpp"
#include "livestatus/orfilter.hpp"
#include "livestatus/andfilter.hpp"
#include "icinga/externalcommandprocessor.hpp"
#include "base/debug.hpp"
#include "base/convert.hpp"
#include "base/objectlock.hpp"
#include "base/logger.hpp"
#include "base/exception.hpp"
#include "base/utility.hpp"
#include "base/json.hpp"
#include "base/serializer.hpp"
#include "base/timer.hpp"
#include "base/initialize.hpp"
#include <boost/algorithm/string/replace.hpp>
#include <boost/algorithm/string/join.hpp>
using namespace icinga;
static int l_ExternalCommands = 0;
static boost::mutex l_QueryMutex;
LivestatusQuery::LivestatusQuery(const std::vector<String>& lines, const String& compat_log_path)
: m_KeepAlive(false), m_OutputFormat("csv"), m_ColumnHeaders(true), m_Limit(-1), m_ErrorCode(0),
m_LogTimeFrom(0), m_LogTimeUntil(static_cast<long>(Utility::GetTime()))
{
if (lines.size() == 0) {
m_Verb = "ERROR";
m_ErrorCode = LivestatusErrorQuery;
m_ErrorMessage = "Empty Query. Aborting.";
return;
}
String msg;
for (const String& line : lines) {
msg += line + "\n";
}
Log(LogDebug, "LivestatusQuery", msg);
m_CompatLogPath = compat_log_path;
/* default separators */
m_Separators.emplace_back("\n");
m_Separators.emplace_back(";");
m_Separators.emplace_back(",");
m_Separators.emplace_back("|");
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_KeepAlive = true;
m_Command = target;
} else if (m_Verb == "GET") {
m_Table = target;
} else {
m_Verb = "ERROR";
m_ErrorCode = LivestatusErrorQuery;
m_ErrorMessage = "Unknown livestatus verb: " + m_Verb;
return;
}
std::deque<Filter::Ptr> filters, stats;
std::deque<Aggregator::Ptr> aggregators;
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;
//OutputFormat:json or OutputFormat: json
if (line.GetLength() > col_index + 1)
params = line.SubStr(col_index + 1).Trim();
if (header == "ResponseHeader")
m_ResponseHeader = params;
else if (header == "OutputFormat")
m_OutputFormat = params;
else if (header == "KeepAlive")
m_KeepAlive = (params == "on");
else if (header == "Columns") {
m_ColumnHeaders = false; // Might be explicitly re-enabled later on
m_Columns = params.Split(" ");
} else if (header == "Separators") {
std::vector<String> separators = params.Split(" ");
/* ugly ascii long to char conversion, but works */
if (separators.size() > 0)
m_Separators[0] = String(1, static_cast<char>(Convert::ToLong(separators[0])));
if (separators.size() > 1)
m_Separators[1] = String(1, static_cast<char>(Convert::ToLong(separators[1])));
if (separators.size() > 2)
m_Separators[2] = String(1, static_cast<char>(Convert::ToLong(separators[2])));
if (separators.size() > 3)
m_Separators[3] = String(1, static_cast<char>(Convert::ToLong(separators[3])));
} else if (header == "ColumnHeaders")
m_ColumnHeaders = (params == "on");
else if (header == "Limit")
m_Limit = Convert::ToLong(params);
else if (header == "Filter") {
Filter::Ptr filter = ParseFilter(params, m_LogTimeFrom, m_LogTimeUntil);
if (!filter) {
m_Verb = "ERROR";
m_ErrorCode = LivestatusErrorQuery;
m_ErrorMessage = "Invalid filter specification: " + line;
return;
}
filters.push_back(filter);
} else if (header == "Stats") {
m_ColumnHeaders = false; // Might be explicitly re-enabled later on
std::vector<String> tokens = params.Split(" ");
if (tokens.size() < 2) {
m_Verb = "ERROR";
m_ErrorCode = LivestatusErrorQuery;
m_ErrorMessage = "Missing aggregator column name: " + line;
return;
}
String aggregate_arg = tokens[0];
String aggregate_attr = tokens[1];
Aggregator::Ptr aggregator;
Filter::Ptr filter;
if (aggregate_arg == "sum") {
aggregator = new SumAggregator(aggregate_attr);
} else if (aggregate_arg == "min") {
aggregator = new MinAggregator(aggregate_attr);
} else if (aggregate_arg == "max") {
aggregator = new MaxAggregator(aggregate_attr);
} else if (aggregate_arg == "avg") {
aggregator = new AvgAggregator(aggregate_attr);
} else if (aggregate_arg == "std") {
aggregator = new StdAggregator(aggregate_attr);
} else if (aggregate_arg == "suminv") {
aggregator = new InvSumAggregator(aggregate_attr);
} else if (aggregate_arg == "avginv") {
aggregator = new InvAvgAggregator(aggregate_attr);
} else {
filter = ParseFilter(params, m_LogTimeFrom, m_LogTimeUntil);
if (!filter) {
m_Verb = "ERROR";
m_ErrorCode = LivestatusErrorQuery;
m_ErrorMessage = "Invalid filter specification: " + line;
return;
}
aggregator = new CountAggregator();
}
aggregator->SetFilter(filter);
aggregators.push_back(aggregator);
stats.push_back(filter);
} else if (header == "Or" || header == "And" || header == "StatsOr" || header == "StatsAnd") {
std::deque<Filter::Ptr>& deq = (header == "Or" || header == "And") ? filters : stats;
unsigned int num = Convert::ToLong(params);
CombinerFilter::Ptr filter;
if (header == "Or" || header == "StatsOr") {
filter = new OrFilter();
Log(LogDebug, "LivestatusQuery")
<< "Add OR filter for " << params << " column(s). " << deq.size() << " filters available.";
} else {
filter = new AndFilter();
Log(LogDebug, "LivestatusQuery")
<< "Add AND filter for " << params << " column(s). " << deq.size() << " filters available.";
}
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(static_cast<long>(deq.size())) + " filters";
return;
}
while (num > 0 && num--) {
filter->AddSubFilter(deq.back());
Log(LogDebug, "LivestatusQuery")
<< "Add " << num << " filter.";
deq.pop_back();
if (&deq == &stats)
aggregators.pop_back();
}
deq.emplace_back(filter);
if (&deq == &stats) {
Aggregator::Ptr aggregator = new CountAggregator();
aggregator->SetFilter(filter);
aggregators.push_back(aggregator);
}
} else if (header == "Negate" || header == "StatsNegate") {
std::deque<Filter::Ptr>& 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();
deq.pop_back();
if (!filter) {
m_Verb = "ERROR";
m_ErrorCode = 451;
m_ErrorMessage = "Negate/StatsNegate used, however last stats doesn't have a filter";
return;
}
deq.push_back(new NegateFilter(filter));
if (deq == stats) {
Aggregator::Ptr aggregator = aggregators.back();
aggregator->SetFilter(filter);
}
}
}
/* Combine all top-level filters into a single filter. */
AndFilter::Ptr top_filter = new AndFilter();
for (const Filter::Ptr& filter : filters) {
top_filter->AddSubFilter(filter);
}
m_Filter = top_filter;
m_Aggregators.swap(aggregators);
}
int LivestatusQuery::GetExternalCommands()
{
boost::mutex::scoped_lock lock(l_QueryMutex);
return l_ExternalCommands;
}
Filter::Ptr LivestatusQuery::ParseFilter(const String& params, unsigned long& from, unsigned long& until)
{
/*
* time >= 1382696656
* type = SERVICE FLAPPING ALERT
*/
std::vector<String> tokens;
size_t sp_index;
String temp_buffer = params;
/* extract attr and op */
for (int i = 0; i < 2; i++) {
sp_index = temp_buffer.FindFirstOf(" ");
/* check if this is the last argument */
if (sp_index == String::NPos) {
/* 'attr op' or 'attr op val' is valid */
if (i < 1)
BOOST_THROW_EXCEPTION(std::runtime_error("Livestatus filter '" + params + "' does not contain all required fields."));
break;
}
tokens.emplace_back(temp_buffer.SubStr(0, sp_index));
temp_buffer = temp_buffer.SubStr(sp_index + 1);
}
/* add the rest as value */
tokens.emplace_back(std::move(temp_buffer));
if (tokens.size() == 2)
tokens.emplace_back("");
if (tokens.size() < 3)
return nullptr;
bool negate = false;
String attr = tokens[0];
String op = tokens[1];
String val = tokens[2];
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 = new AttributeFilter(attr, op, val);
if (negate)
filter = new NegateFilter(filter);
/* pre-filter log time duration */
if (attr == "time") {
if (op == "<" || op == "<=") {
until = Convert::ToLong(val);
} else if (op == ">" || op == ">=") {
from = Convert::ToLong(val);
}
}
Log(LogDebug, "LivestatusQuery")
<< "Parsed filter with attr: '" << attr << "' op: '" << op << "' val: '" << val << "'.";
return filter;
}
void LivestatusQuery::BeginResultSet(std::ostream& fp) const
{
if (m_OutputFormat == "json" || m_OutputFormat == "python")
fp << "[";
}
void LivestatusQuery::EndResultSet(std::ostream& fp) const
{
if (m_OutputFormat == "json" || m_OutputFormat == "python")
fp << "]";
}
void LivestatusQuery::AppendResultRow(std::ostream& fp, const Array::Ptr& row, bool& first_row) const
{
if (m_OutputFormat == "csv") {
bool first = true;
ObjectLock rlock(row);
for (const Value& value : row) {
if (first)
first = false;
else
fp << m_Separators[1];
if (value.IsObjectType<Array>())
PrintCsvArray(fp, value, 0);
else
fp << value;
}
fp << m_Separators[0];
} else if (m_OutputFormat == "json") {
if (!first_row)
fp << ", ";
fp << JsonEncode(row);
} else if (m_OutputFormat == "python") {
if (!first_row)
fp << ", ";
PrintPythonArray(fp, row);
}
first_row = false;
}
void LivestatusQuery::PrintCsvArray(std::ostream& fp, const Array::Ptr& array, int level) const
{
bool first = true;
ObjectLock olock(array);
for (const Value& value : array) {
if (first)
first = false;
else
fp << ((level == 0) ? m_Separators[2] : m_Separators[3]);
if (value.IsObjectType<Array>())
PrintCsvArray(fp, value, level + 1);
else if (value.IsBoolean())
fp << Convert::ToLong(value);
else
fp << value;
}
}
void LivestatusQuery::PrintPythonArray(std::ostream& fp, const Array::Ptr& rs) const
{
fp << "[ ";
bool first = true;
for (const Value& value : rs) {
if (first)
first = false;
else
fp << ", ";
if (value.IsObjectType<Array>())
PrintPythonArray(fp, value);
else if (value.IsNumber())
fp << value;
else
fp << QuoteStringPython(value);
}
fp << " ]";
}
String LivestatusQuery::QuoteStringPython(const String& str) {
String result = str;
boost::algorithm::replace_all(result, "\"", "\\\"");
return "r\"" + result + "\"";
}
void LivestatusQuery::ExecuteGetHelper(const Stream::Ptr& stream)
{
Log(LogNotice, "LivestatusQuery")
<< "Table: " << m_Table;
Table::Ptr table = Table::GetByName(m_Table, m_CompatLogPath, m_LogTimeFrom, m_LogTimeUntil);
if (!table) {
SendResponse(stream, LivestatusErrorNotFound, "Table '" + m_Table + "' does not exist.");
return;
}
std::vector<LivestatusRowValue> objects = table->FilterRows(m_Filter, m_Limit);
std::vector<String> columns;
if (m_Columns.size() > 0)
columns = m_Columns;
else
columns = table->GetColumnNames();
std::ostringstream result;
bool first_row = true;
BeginResultSet(result);
if (m_Aggregators.empty()) {
typedef std::pair<String, Column> ColumnPair;
std::vector<ColumnPair> column_objs;
column_objs.reserve(columns.size());
for (const String& columnName : columns)
column_objs.emplace_back(columnName, table->GetColumn(columnName));
ArrayData header;
for (const LivestatusRowValue& object : objects) {
ArrayData row;
row.reserve(column_objs.size());
for (const ColumnPair& cv : column_objs) {
if (m_ColumnHeaders)
header.push_back(cv.first);
row.push_back(cv.second.ExtractValue(object.Row, object.GroupByType, object.GroupByObject));
}
if (m_ColumnHeaders) {
AppendResultRow(result, new Array(std::move(header)), first_row);
m_ColumnHeaders = false;
}
AppendResultRow(result, new Array(std::move(row)), first_row);
}
} else {
std::map<std::vector<Value>, std::vector<AggregatorState *> > allStats;
/* add aggregated stats */
for (const LivestatusRowValue& object : objects) {
std::vector<Value> statsKey;
for (const String& columnName : m_Columns) {
Column column = table->GetColumn(columnName);
statsKey.emplace_back(column.ExtractValue(object.Row, object.GroupByType, object.GroupByObject));
}
auto it = allStats.find(statsKey);
if (it == allStats.end()) {
std::vector<AggregatorState *> newStats(m_Aggregators.size(), nullptr);
it = allStats.insert(std::make_pair(statsKey, newStats)).first;
}
auto& stats = it->second;
int index = 0;
for (const Aggregator::Ptr& aggregator : m_Aggregators) {
aggregator->Apply(table, object.Row, &stats[index]);
index++;
}
}
/* add column headers both for raw and aggregated data */
if (m_ColumnHeaders) {
ArrayData header;
for (const String& columnName : m_Columns) {
header.push_back(columnName);
}
for (size_t i = 1; i <= m_Aggregators.size(); i++) {
header.push_back("stats_" + Convert::ToString(i));
}
AppendResultRow(result, new Array(std::move(header)), first_row);
}
for (const auto& kv : allStats) {
ArrayData row;
row.reserve(m_Columns.size() + m_Aggregators.size());
for (const Value& keyPart : kv.first) {
row.push_back(keyPart);
}
auto& stats = kv.second;
for (size_t i = 0; i < m_Aggregators.size(); i++)
row.push_back(m_Aggregators[i]->GetResultAndFreeState(stats[i]));
AppendResultRow(result, new Array(std::move(row)), first_row);
}
/* add a bogus zero value if aggregated is empty*/
if (allStats.empty()) {
ArrayData row;
row.reserve(m_Aggregators.size());
for (size_t i = 1; i <= m_Aggregators.size(); i++) {
row.push_back(0);
}
AppendResultRow(result, new Array(std::move(row)), first_row);
}
}
EndResultSet(result);
SendResponse(stream, LivestatusErrorOK, result.str());
}
void LivestatusQuery::ExecuteCommandHelper(const Stream::Ptr& stream)
{
{
boost::mutex::scoped_lock lock(l_QueryMutex);
l_ExternalCommands++;
}
Log(LogNotice, "LivestatusQuery")
<< "Executing command: " << m_Command;
ExternalCommandProcessor::Execute(m_Command);
SendResponse(stream, LivestatusErrorOK, "");
}
void LivestatusQuery::ExecuteErrorHelper(const Stream::Ptr& stream)
{
Log(LogDebug, "LivestatusQuery")
<< "ERROR: Code: '" << m_ErrorCode << "' Message: '" << m_ErrorMessage << "'.";
SendResponse(stream, m_ErrorCode, m_ErrorMessage);
}
void LivestatusQuery::SendResponse(const Stream::Ptr& stream, int code, const String& data)
{
if (m_ResponseHeader == "fixed16")
PrintFixed16(stream, code, data);
if (m_ResponseHeader == "fixed16" || code == LivestatusErrorOK) {
try {
stream->Write(data.CStr(), data.GetLength());
} catch (const std::exception&) {
Log(LogCritical, "LivestatusQuery", "Cannot write query response to socket.");
}
}
}
void LivestatusQuery::PrintFixed16(const Stream::Ptr& stream, int code, const String& data)
{
ASSERT(code >= 100 && code <= 999);
String sCode = Convert::ToString(code);
String sLength = Convert::ToString(static_cast<long>(data.GetLength()));
String header = sCode + String(16 - 3 - sLength.GetLength() - 1, ' ') + sLength + m_Separators[0];
try {
stream->Write(header.CStr(), header.GetLength());
} catch (const std::exception&) {
Log(LogCritical, "LivestatusQuery", "Cannot write to TCP socket.");
}
}
bool LivestatusQuery::Execute(const Stream::Ptr& stream)
{
try {
Log(LogNotice, "LivestatusQuery")
<< "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, LivestatusErrorQuery, DiagnosticInformation(ex));
}
if (!m_KeepAlive) {
stream->Close();
return false;
}
return true;
}