5799d9a15b
Add some padding after non-ASCII comment |
||
---|---|---|
.. | ||
3rdpatry/http-client-lite | ||
core | ||
examples | ||
simpleapi | ||
.gitignore | ||
CMakeLists.txt | ||
LICENSE | ||
README.md |
C++ Header-only Prometheus client library
It is a tool for quickly adding metrics (and profiling) functionality to C++ projects.
Advantages:
- Written in pure C++,
- Header-only,
- Cross-platform,
- Compiles with C ++ 11, C ++ 14, C ++ 17 standards,
- Has no third-party dependencies,
- Several APIs for use in your projects,
- Saving metrics to a file (and then works with node_exporter) or sending via http (uses built-in header-only http-client-lite library),
- Possiblity to use different types for storing metrics data (default is uint32_t, but you can use double or uint64_t types if you want),
- Five types of metrics are supported: counter, gauge, summary, histogram and benchmark,
- Has detailed examples of use (see examples folder)
How it differs from the jupp0r/prometheus-cpp project:
- I need a simple header only wariant library without dependencies to write metrics to a .prom file,
- I need the fastest possible work using integer values of counters (original project use only floating pointer values),
- The origianl project have problems on compilers that do not know how to do LTO optimization,
- I did not like the python style of the original project and the large amount of extra code in it and I wanted to make it lighter and more c++ classic.
How to use it:
The library has two API:
- Complex API for those who want to control everything,
- Simple API for those who want to quickly add metrics to their C ++ (and it is actually just a wrapper around the complex API).
Let's start with a simple API because it's simple:
To add it to your C++ project add these lines to your CMakeLists.txt file:
add_subdirectory("prometheus-cpp-lite/core")
add_subdirectory("prometheus-cpp-lite/3rdpatry/http-client-lite")
add_subdirectory("prometheus-cpp-lite/simpleapi")
target_link_libraries(your_target prometheus-cpp-simpleapi)
The simplest way to create a metric would be like this:
prometheus::simpleapi::METRIC_metric_t metric1 { "metric1", "first simple metric without any tag" };
prometheus::simpleapi::METRIC_metric_t metric2 { "metric2", "second simple metric without any tag" };
where METRIC
can be counter
, gauge
, summary
, histogram
or benchmark
.
If you want to access an existing metric again elsewhere in the code, you can do this:
prometheus::simpleapi::METRIC_metric_t metric2_yet_another_link { "metric2", "" };
this works because when adding a metric, it checks whether there is already a metric with the same name and, if there is one, a link to it is returned.
You can create a family of metrics (metrics with tags) as follows:
prometheus::simpleapi::METRIC_family_t family { "metric_family", "metric family" };
prometheus::simpleapi::METRIC_metric_t metric1 { family.Add({{"name", "metric1"}}) };
prometheus::simpleapi::METRIC_metric_t metric2 { family.Add({{"name", "metric2"}}) };
where METRIC can be counter
, gauge
, summary
, histogram
or benchmark
.
Next, you can do the following things with metrics:
metric++; // for increment it (only for counter and gauge metrics)
metric += value; // for add value to metric (only for gauge metric)
metric -= value; // for sub value from metric (only for gauge metric)
metric = value; // save current value (only gauge metrics)
metric.start(); // start calculate time (only for benchmark metric)
metric.stop(); // stop calculate time (only for benchmark metric)
You can change the settings of save (or send) metrics data as follows:
prometheus::simpleapi::saver.set_delay(period_in_seconds); // change the period of saving (or sending) metrics data in seconds (5 seconds by default)
prometheus::simpleapi::saver.set_out_file(filename); // change the name of the output file (metrics.prom by default)
prometheus::simpleapi::saver.set_server_url(url); // change the name of prometheus server (unset by default)
Simple API complex example 1 (examples/simpleapi_example.cpp):
#include <prometheus/simpleapi.h>
void main() {
using namespace prometheus::simpleapi;
counter_family_t family { "simple_family", "simple family example" };
counter_metric_t metric1 { family.Add({{"name", "counter1"}}) };
counter_metric_t metric2 { family.Add({{"name", "counter2"}}) };
counter_metric_t metric3 { "simple_counter_1", "simple counter 1 without labels example" };
counter_metric_t metric4 { "simple_counter_2", "simple counter 2 without labels example" };
for (;; ) {
std::this_thread::sleep_for(std::chrono::seconds(1));
const int random_value = std::rand();
if (random_value & 1) metric1++;
if (random_value & 2) metric2++;
if (random_value & 4) metric3++;
if (random_value & 8) metric4++;
}
}
Output in "metrics.prom" file (by default) will be:
# HELP simple_family simple family example
# TYPE simple_family counter
simple_family{name="counter1"} 10
simple_family{name="counter2"} 9
# HELP simple_counter_1 simple counter 1 without labels example
# TYPE simple_counter_1 counter
simple_counter_1 6
# HELP simple_counter_2 simple counter 2 without labels example
# TYPE simple_counter_2 counter
simple_counter_2 8
Simple API complex example 2 (examples/simpleapi_use_in_class_example.cpp):
#include <prometheus/simpleapi.h>
using namespace prometheus::simpleapi;
class MyClass {
counter_family_t metric_family { "simple_family", "simple family example" };
counter_metric_t metric1 { metric_family.Add({{"name", "counter1"}}) };
counter_metric_t metric2 { metric_family.Add({{"name", "counter2"}}) };
counter_metric_t metric3 { "simple_counter_1", "simple counter 1 without labels example" };
counter_metric_t metric4 { "simple_counter_2", "simple counter 2 without labels example" };
benchmark_family_t benchmark_family { "simple_benchmark_family", "simple benchmark family example" };
benchmark_metric_t benchmark1 { benchmark_family.Add({{"benchmark", "1"}}) };
benchmark_metric_t benchmark2 { benchmark_family.Add({{"benchmark", "2"}}) };
public:
MyClass() = default;
void member_to_do_something() {
benchmark1.start();
const int random_value = std::rand();
benchmark1.stop();
benchmark2.start();
if (random_value & 1) metric1++;
if (random_value & 2) metric2++;
if (random_value & 4) metric3++;
if (random_value & 8) metric4++;
benchmark2.stop();
}
};
void main() {
MyClass myClass;
benchmark_metric_t benchmark { "simple_benchmark", "simple benchmark example" };
for (;; ) {
benchmark.start();
std::this_thread::sleep_for(std::chrono::seconds(1));
benchmark.stop();
myClass.member_to_do_something();
}
}
Output in "metrics.prom" file (by default) will be:
# HELP simple_family simple family example
# TYPE simple_family counter
simple_family{name="counter1"} 3
simple_family{name="counter2"} 2
# HELP simple_counter_1 simple counter 1 without labels example
# TYPE simple_counter_1 counter
simple_counter_1 3
# HELP simple_counter_2 simple counter 2 without labels example
# TYPE simple_counter_2 counter
simple_counter_2 3
# HELP simple_benchmark_family simple benchmark family example
# TYPE simple_benchmark_family counter
simple_benchmark_family{benchmark="1"} 0.0001088
simple_benchmark_family{benchmark="2"} 1.48e-05
# HELP simple_benchmark simple benchmark example
# TYPE simple_benchmark counter
simple_benchmark 6.0503248