Golang-p2p is a small client and server to make p2p communication over TCP with RSA encryption.
Main aim the package is to create an easy way of microservices communication.
Feature | Description |
---|---|
Gob, Json and Bytes support | You can send you structure or data in binary presentation or binary serialized |
RSA handshake | Every communication between a client and a server starts with RSA public keys handshake. All sending data are encrypted before sending. |
import "github.com/leprosus/golang-p2p"
package main
import (
"context"
"fmt"
"log"
p2p "github.com/leprosus/golang-p2p"
)
type Hello struct {
Text string
}
type Buy struct {
Text string
}
func main() {
tcp := p2p.NewTCP("localhost", "8080")
server, err := p2p.NewServer(tcp)
if err != nil {
log.Panicln(err)
}
server.SetHandler("dialog", func(ctx context.Context, req p2p.Data) (res p2p.Data, err error) {
hello := Hello{}
err = req.GetGob(&hello)
if err != nil {
return
}
fmt.Printf("> Hello: %s\n", hello.Text)
res = p2p.Data{}
err = res.SetGob(Buy{
Text: hello.Text,
})
return
})
err = server.Serve()
if err != nil {
log.Panicln(err)
}
}
package main
import (
"fmt"
"log"
p2p "github.com/leprosus/golang-p2p"
)
type Hello struct {
Text string
}
type Buy struct {
Text string
}
func main() {
tcp := p2p.NewTCP("localhost", "8080")
client, err := p2p.NewClient(tcp)
if err != nil {
log.Panicln(err)
}
var req, res p2p.Data
for i := 0; i < 10; i++ {
req = p2p.Data{}
err = req.SetGob(Hello{
Text: fmt.Sprintf("User #%d", i+1),
})
if err != nil {
log.Panicln(err)
}
res = p2p.Data{}
res, err = client.Send("dialog", req)
if err != nil {
log.Panicln(err)
}
var buy Buy
err = res.GetGob(&buy)
if err != nil {
log.Panicln(err)
}
fmt.Printf("> Buy: %s\n", buy.Text)
}
}
If you run the server and the client separately then you see:
- in the server stdout:
> Hello: User #1
dialog: addr (127.0.0.1:50099), handshake (2 ms), read (7 ms), handle (278 µs), write (301 µs), total (10 ms)
> Hello: User #2
dialog: addr (127.0.0.1:50100), read (743 µs), handle (238 µs), write (219 µs), total (1 ms)
> Hello: User #3
dialog: addr (127.0.0.1:50101), read (834 µs), handle (233 µs), write (228 µs), total (1 ms)
> Hello: User #4
dialog: addr (127.0.0.1:50102), read (547 µs), handle (227 µs), write (260 µs), total (1 ms)
> Hello: User #5
dialog: addr (127.0.0.1:50103), read (625 µs), handle (230 µs), write (271 µs), total (1 ms)
> Hello: User #6
dialog: addr (127.0.0.1:50104), read (602 µs), handle (241 µs), write (234 µs), total (1 ms)
> Hello: User #7
dialog: addr (127.0.0.1:50105), read (589 µs), handle (258 µs), write (227 µs), total (1 ms)
> Hello: User #8
dialog: addr (127.0.0.1:50106), read (635 µs), handle (232 µs), write (221 µs), total (1 ms)
> Hello: User #9
dialog: addr (127.0.0.1:50107), read (1 ms), handle (376 µs), write (365 µs), total (1 ms)
> Hello: User #10
dialog: addr (127.0.0.1:50108), read (635 µs), handle (370 µs), write (434 µs), total (1 ms)
- in the client stdout:
dialog: addr (127.0.0.1:8080), handshake (8 ms), write (480 µs), read (1 ms), total (10 ms)
> Buy: User #1
dialog: addr (127.0.0.1:8080), write (342 µs), read (1 ms), total (1 ms)
> Buy: User #2
dialog: addr (127.0.0.1:8080), write (451 µs), read (1 ms), total (1 ms)
> Buy: User #3
dialog: addr (127.0.0.1:8080), write (226 µs), read (1 ms), total (1 ms)
> Buy: User #4
dialog: addr (127.0.0.1:8080), write (246 µs), read (1 ms), total (1 ms)
> Buy: User #5
dialog: addr (127.0.0.1:8080), write (262 µs), read (1 ms), total (1 ms)
> Buy: User #6
dialog: addr (127.0.0.1:8080), write (262 µs), read (1 ms), total (1 ms)
> Buy: User #7
dialog: addr (127.0.0.1:8080), write (247 µs), read (1 ms), total (1 ms)
> Buy: User #8
dialog: addr (127.0.0.1:8080), write (599 µs), read (2 ms), total (2 ms)
> Buy: User #9
dialog: addr (127.0.0.1:8080), write (259 µs), read (2 ms), total (2 ms)
> Buy: User #10
- logging
All lines that start from dialog
is the topic for the communication.
All log lines write to StdOut.
If you want to reassign this logger you need to implement your own with the following interface:
type Logger interface {
Info(msg string)
Warn(msg string)
Error(msg string)
}
and set it up in your server or client implementation this way:
settings.SetLogger(yourLogger)
- p2p.NewTCP(host, port) (tcp, err) - creates TCP connection
- p2p.NewServerSettings() (settings) - creates a new server's settings
- settings.SetConnTimeout(duration) - sets connection timout
- settings.SetHandleTimeout(duration) - sets handle timout
- settings.SetBodyLimit(limit) - sets max body size for reading
- p2p.NewServer(tcp) (server, error) - creates a new server
- server.SetSettings(settings) - sets server settings
- server.SetLogger(logger) - reassigns server's logger
- server.SetHandler(topic, handler) - sets a handler that processes all request with defined topic
- server.SetContext(context) - sets context
- server.GetContext() (context) - returns context
- server.Serve() (error) - starts to serve
- p2p.NewClientSettings() (settings) - creates a new server's settings
- settings.SetConnTimeout(duration) - sets connection timout
- settings.SetBodyLimit(limit) - sets max body size for writing
- settings.SetRetry(retries, delay) - sets retry parameters
- NewClient(tcp, settings) (client, error) - creates a new client
- client.SetSettings(settings) - sets client settings
- client.SetLogger(logger) - reassigns client's logger
- client.Send(topic, request) (response, error) - sends a request to a server by the topic
- data.SetBytes(bytes) - sets bytes to the request/response
- data.GetBytes() (bytes) - gets bytes from the request/response
- data.SetGob(obj) (error) - encodes to Gob and sets structure to the request/response
- data.GetGob(obj) (error) - decode from Gob and gets structure from the request/response
- data.SetJson(obj) (error) - encodes to JSON and sets structure to the request/response
- data.GetJson(obj) (error) - decode from JSON and gets structure from the request/response
- data.String() (string) - returns string from the request/response