ClickHouse/src/Processors/Formats/Impl/PrometheusTextOutputFormat.cpp
2022-05-25 13:05:39 +02:00

346 lines
11 KiB
C++

#include <Processors/Formats/Impl/PrometheusTextOutputFormat.h>
#include <optional>
#include <type_traits>
#include <base/defines.h>
#include <base/types.h>
#include <base/sort.h>
#include <Columns/ColumnMap.h>
#include <Columns/IColumn.h>
#include <Common/assert_cast.h>
#include <DataTypes/DataTypeMap.h>
#include <DataTypes/DataTypeNullable.h>
#include <DataTypes/DataTypeString.h>
#include <DataTypes/Serializations/ISerialization.h>
#include <Formats/FormatFactory.h>
#include <Formats/registerWithNamesAndTypes.h>
#include <IO/ReadBufferFromString.h>
#include <IO/readFloatText.h>
#include <IO/WriteBufferFromString.h>
#include <IO/WriteHelpers.h>
namespace DB
{
namespace ErrorCodes
{
extern const int BAD_ARGUMENTS;
}
constexpr auto FORMAT_NAME = "Prometheus";
static bool isDataTypeMapString(const DataTypePtr & type)
{
if (!isMap(type))
return false;
const auto * type_map = assert_cast<const DataTypeMap *>(type.get());
return isStringOrFixedString(type_map->getKeyType()) && isStringOrFixedString(type_map->getValueType());
}
template <typename ResType, typename Pred>
static void getColumnPos(const Block & header, const String & col_name, Pred pred, ResType & res)
{
static_assert(std::is_same_v<ResType, size_t> || std::is_same_v<ResType, std::optional<size_t>>, "Illegal ResType");
constexpr bool is_optional = std::is_same_v<ResType, std::optional<size_t>>;
if (header.has(col_name, true))
{
res = header.getPositionByName(col_name);
const auto & col = header.getByName(col_name);
if (!pred(is_optional ? removeNullable(col.type) : col.type))
{
throw Exception(ErrorCodes::BAD_ARGUMENTS, "Illegal type '{}' of column '{}' for output format '{}'",
col.type->getName(), col_name, FORMAT_NAME);
}
}
else
{
if constexpr (is_optional)
res = std::nullopt;
else
throw Exception(ErrorCodes::BAD_ARGUMENTS, "Column '{}' is required for output format '{}'", col_name, FORMAT_NAME);
}
}
static Float64 tryParseFloat(const String & s)
{
Float64 t = 0;
ReadBufferFromString buf(s);
tryReadFloatText(t, buf);
return t;
}
PrometheusTextOutputFormat::PrometheusTextOutputFormat(
WriteBuffer & out_,
const Block & header_,
const RowOutputFormatParams & params_,
const FormatSettings & format_settings_)
: IRowOutputFormat(header_, out_, params_)
, string_serialization(DataTypeString().getDefaultSerialization())
, format_settings(format_settings_)
{
const Block & header = getPort(PortKind::Main).getHeader();
getColumnPos(header, "name", isStringOrFixedString<DataTypePtr>, pos.name);
getColumnPos(header, "value", isNumber<DataTypePtr>, pos.value);
getColumnPos(header, "help", isStringOrFixedString<DataTypePtr>, pos.help);
getColumnPos(header, "type", isStringOrFixedString<DataTypePtr>, pos.type);
getColumnPos(header, "timestamp", isNumber<DataTypePtr>, pos.timestamp);
getColumnPos(header, "labels", isDataTypeMapString, pos.labels);
}
/*
* https://prometheus.io/docs/instrumenting/exposition_formats/#histograms-and-summaries
*
* > A histogram must have a bucket with {le="+Inf"}. Its value must be identical to the value of x_count.
* > The buckets of a histogram and the quantiles of a summary must appear in increasing numerical order of their label values (for the le or the quantile label, respectively).
*/
void PrometheusTextOutputFormat::fixupBucketLabels(CurrentMetric & metric)
{
String bucket_label = metric.type == "histogram" ? "le" : "quantile";
::sort(metric.values.begin(), metric.values.end(),
[&bucket_label](const auto & lhs, const auto & rhs)
{
bool lhs_labels_contain_sum = lhs.labels.contains("sum");
bool lhs_labels_contain_count = lhs.labels.contains("count");
bool lhs_labels_contain_sum_or_count = lhs_labels_contain_sum || lhs_labels_contain_count;
bool rhs_labels_contain_sum = rhs.labels.contains("sum");
bool rhs_labels_contain_count = rhs.labels.contains("count");
bool rhs_labels_contain_sum_or_count = rhs_labels_contain_sum || rhs_labels_contain_count;
/// rows with labels at the beginning and then `_sum` and `_count`
if (lhs_labels_contain_sum && rhs_labels_contain_count)
return true;
else if (lhs_labels_contain_count && rhs_labels_contain_sum)
return false;
else if (rhs_labels_contain_sum_or_count && !lhs_labels_contain_sum_or_count)
return true;
else if (lhs_labels_contain_sum_or_count && !rhs_labels_contain_sum_or_count)
return false;
auto lit = lhs.labels.find(bucket_label);
auto rit = rhs.labels.find(bucket_label);
if (lit != lhs.labels.end() && rit != rhs.labels.end())
return tryParseFloat(lit->second) < tryParseFloat(rit->second);
return false;
});
if (metric.type == "histogram")
{
/// If we have only `_count` or metric with `le="+Inf" need to create both
std::optional<CurrentMetric::RowValue> inf_bucket;
std::optional<CurrentMetric::RowValue> count_bucket;
for (const auto & val : metric.values)
{
if (auto it = val.labels.find("count"); it != val.labels.end())
{
inf_bucket = val;
inf_bucket->labels = {{"le", "+Inf"}};
}
if (auto it = val.labels.find("le"); it != val.labels.end() && it->second == "+Inf")
{
count_bucket = val;
count_bucket->labels = {{"count", ""}};
}
}
if (inf_bucket.has_value() && !count_bucket.has_value())
metric.values.emplace_back(*inf_bucket);
if (!inf_bucket.has_value() && count_bucket.has_value())
metric.values.emplace_back(*count_bucket);
}
}
void PrometheusTextOutputFormat::flushCurrentMetric()
{
if (current_metric.name.empty() || current_metric.values.empty())
{
current_metric = {};
return;
}
auto write_attribute = [this] (const char * name, const auto & value)
{
if (value.empty())
return;
writeCString(name, out);
writeString(current_metric.name, out);
writeChar(' ', out);
writeString(value, out);
writeChar('\n', out);
};
write_attribute("# HELP ", current_metric.help);
write_attribute("# TYPE ", current_metric.type);
bool use_buckets = current_metric.type == "histogram" || current_metric.type == "summary";
if (use_buckets)
{
fixupBucketLabels(current_metric);
}
for (auto & val : current_metric.values)
{
/* https://prometheus.io/docs/instrumenting/exposition_formats/#comments-help-text-and-type-information
```
metric_name [
"{" label_name "=" `"` label_value `"` { "," label_name "=" `"` label_value `"` } [ "," ] "}"
] value [ timestamp ]
```
*/
writeString(current_metric.name, out);
auto lable_to_suffix = [&val, this](const auto & key, const auto & suffix, bool erase)
{
if (auto it = val.labels.find(key); it != val.labels.end())
{
writeChar('_', out);
writeString(suffix, out);
if (erase)
val.labels.erase(it);
}
};
if (use_buckets)
{
lable_to_suffix("sum", "sum", true);
lable_to_suffix("count", "count", true);
lable_to_suffix("le", "bucket", false);
}
if (!val.labels.empty())
{
writeChar('{', out);
bool is_first = true;
for (const auto & [name, value] : val.labels)
{
if (!is_first)
writeChar(',', out);
is_first = false;
writeString(name, out);
writeChar('=', out);
writeDoubleQuotedString(value, out);
}
writeChar('}', out);
}
writeChar(' ', out);
if (val.value == "nan")
writeString("NaN", out);
else if (val.value == "inf")
writeString("+Inf", out);
else if (val.value == "-inf")
writeString("-Inf", out);
else
writeString(val.value, out);
if (!val.timestamp.empty())
{
writeChar(' ', out);
writeString(val.timestamp, out);
}
writeChar('\n', out);
}
writeChar('\n', out);
current_metric = {};
}
String PrometheusTextOutputFormat::getString(const Columns & columns, size_t row_num, size_t column_pos)
{
WriteBufferFromOwnString tout;
serializations[column_pos]->serializeText(*columns[column_pos], row_num, tout, format_settings);
return tout.str();
}
String PrometheusTextOutputFormat::getString(const IColumn & column, size_t row_num, SerializationPtr serialization)
{
WriteBufferFromOwnString tout;
serialization->serializeText(column, row_num, tout, format_settings);
return tout.str();
}
template <typename Container>
static void columnMapToContainer(const ColumnMap * col_map, size_t row_num, Container & result)
{
Field field;
col_map->get(row_num, field);
const auto & map_field = field.get<Map>();
for (size_t i = 0; i < map_field.size(); ++i)
{
const auto & map_entry = map_field[i].get<Tuple>();
String entry_key;
String entry_value;
if (map_entry.size() == 2
&& map_entry[0].tryGet<String>(entry_key)
&& map_entry[1].tryGet<String>(entry_value))
{
result.emplace(entry_key, entry_value);
}
}
}
void PrometheusTextOutputFormat::write(const Columns & columns, size_t row_num)
{
String name = getString(columns, row_num, pos.name);
if (current_metric.name != name)
{
flushCurrentMetric();
current_metric = CurrentMetric(name);
}
if (pos.help.has_value() && !columns[*pos.help]->isNullAt(row_num) && current_metric.help.empty())
current_metric.help = getString(columns, row_num, *pos.help);
if (pos.type.has_value() && !columns[*pos.type]->isNullAt(row_num) && current_metric.type.empty())
current_metric.type = getString(columns, row_num, *pos.type);
auto & row = current_metric.values.emplace_back();
row.value = getString(columns, row_num, pos.value);
if (pos.timestamp.has_value() && !columns[*pos.timestamp]->isNullAt(row_num) && columns[*pos.timestamp]->get64(row_num) != 0)
row.timestamp = getString(columns, row_num, *pos.timestamp);
if (pos.labels.has_value())
{
if (const ColumnMap * col_map = checkAndGetColumn<ColumnMap>(columns[*pos.labels].get()))
columnMapToContainer(col_map, row_num, row.labels);
}
}
void PrometheusTextOutputFormat::finalizeImpl()
{
flushCurrentMetric();
}
void registerOutputFormatPrometheus(FormatFactory & factory)
{
factory.registerOutputFormat(FORMAT_NAME, [](
WriteBuffer & buf,
const Block & sample,
const RowOutputFormatParams & params,
const FormatSettings & settings)
{
return std::make_shared<PrometheusTextOutputFormat>(buf, sample, params, settings);
});
}
}