The current development version of Fluent Bit, integrates support to load shared plugins built in Golang. The interface still needs some adjustment but is functional. The expectation is to release Fluent Bit v0.10 with full support for Go.
Compile Fluent Bit with Golang support, e.g:
$ cd build/
$ cmake -DFLB_DEBUG=On -DFLB_PROXY_GO=On ../
$ make
Once compiled, we can see a new option in the binary -e
which stands for
external plugin, e.g:
$ bin/fluent-bit -h
Usage: fluent-bit [OPTION]
Available Options
-c --config=FILE specify an optional configuration file
-d, --daemon run Fluent Bit in background mode
-f, --flush=SECONDS flush timeout in seconds (default: 5)
-i, --input=INPUT set an input
-m, --match=MATCH set plugin match, same as '-p match=abc'
-o, --output=OUTPUT set an output
-p, --prop="A=B" set plugin configuration property
-e, --plugin=FILE load an external plugin (shared lib)
...
To make easier to build plugins, we have published a fluent-bit-go package:
http://github.com/fluent/fluent-bit-go
In the same repository we have published a plugin example called out_multiinstance that just prints the records to the standard output:
https://github.com/fluent/fluent-bit-go/tree/master/examples/out_multiinstance
At a minimum, a Go plugin looks like this:
package main
import "github.com/fluent/fluent-bit-go/output"
//export FLBPluginRegister
func FLBPluginRegister(def unsafe.Pointer) int {
// Gets called only once when the plugin.so is loaded
return output.FLBPluginRegister(ctx, "gstdout", "Stdout GO!")
}
//export FLBPluginInit
func FLBPluginInit(plugin unsafe.Pointer) int {
// Gets called only once for each instance you have configured.
return output.FLB_OK
}
//export FLBPluginFlushCtx
func FLBPluginFlushCtx(ctx, data unsafe.Pointer, length C.int, tag *C.char) int {
// Gets called with a batch of records to be written to an instance.
return output.FLB_OK
}
//export FLBPluginExit
func FLBPluginExit() int {
return output.FLB_OK
}
func main() {
}
The code above is a template to write an output plugin. It's really important
to keep the package name as main
and add an explicit main()
function.
This is a requirement as the code will be built as a shared library.
To build the code above, use the following line:
$ go build -buildmode=c-shared -o out_gstdout.so out_gstdout.go
Once built, a shared library called out_gstdout.so
will be available. It's
really important to double check the final .so file is what we expect. Doing a
ldd
over the library we should see something similar to this:
$ ldd out_gstdout.so
linux-vdso.so.1 => (0x00007fff561dd000)
libpthread.so.0 => /lib/x86_64-linux-gnu/libpthread.so.0 (0x00007fc4aeef0000)
libc.so.6 => /lib/x86_64-linux-gnu/libc.so.6 (0x00007fc4aeb27000)
/lib64/ld-linux-x86-64.so.2 (0x000055751a4fd000)
$ bin/fluent-bit -e /path/to/out_gstdout.so -i cpu -o gstdout
For more details or assistance write to eduardo@treasure-data.com