v/vlib/net/tcp_simple_client_server_te...

151 lines
3.3 KiB
V

import io
import net
import strings
const (
server_port = ':22443'
)
fn accept(mut server net.TcpListener, c chan &net.TcpConn) {
c <- server.accept() or { panic(err) }
}
fn setup() (&net.TcpListener, &net.TcpConn, &net.TcpConn) {
mut server := net.listen_tcp(.ip6, server_port) or { panic(err) }
c := chan &net.TcpConn{}
go accept(mut server, c)
mut client := net.dial_tcp('localhost$server_port') or { panic(err) }
socket := <-c
$if debug_peer_ip ? {
eprintln('$server.addr()\n$client.peer_addr(), $client.addr()\n$socket.peer_addr(), $socket.addr()')
}
assert true
return server, client, socket
}
fn cleanup(mut server net.TcpListener, mut client net.TcpConn, mut socket net.TcpConn) {
server.close() or {}
client.close() or {}
socket.close() or {}
}
fn test_socket() {
mut server, mut client, mut socket := setup()
defer {
cleanup(mut server, mut client, mut socket)
}
message := 'Hello World'
socket.write_string(message) or {
assert false
return
}
assert true
$if debug {
println('message send: $message')
}
$if debug {
println('send socket: $socket.sock.handle')
}
mut buf := []byte{len: 1024}
nbytes := client.read(mut buf) or {
assert false
return
}
received := buf[0..nbytes].bytestr()
$if debug {
println('message received: $received')
}
$if debug {
println('client: $client.sock.handle')
}
assert message == received
}
fn test_socket_write_and_read() {
mut server, mut client, mut socket := setup()
defer {
cleanup(mut server, mut client, mut socket)
}
message1 := 'a message 1'
socket.write_string(message1) or { assert false }
mut rbuf := []byte{len: message1.len}
client.read(mut rbuf) or {
assert false
return
}
line := rbuf.bytestr()
assert line == message1
}
fn test_socket_read_line() {
mut server, mut client, mut socket := setup()
mut reader := io.new_buffered_reader(reader: client)
defer {
cleanup(mut server, mut client, mut socket)
}
message1, message2 := 'message1', 'message2'
message := '$message1\n$message2\n'
socket.write_string(message) or { assert false }
assert true
//
line1 := reader.read_line() or {
// println(reader.buf)
assert false
return
}
line2 := reader.read_line() or {
// println(reader.buf)
assert false
return
}
assert line1 == message1
assert line2 == message2
}
fn test_socket_write_fail_without_panic() {
mut server, mut client, mut socket := setup()
defer {
cleanup(mut server, mut client, mut socket)
}
message2 := 'a message 2'
// ensure that socket.write (i.e. done on the server side)
// continues to work, even when the client side has been disconnected
// this test is important for a stable long standing server
client.close() or {}
$if solaris {
return
}
// TODO: fix segfaulting on Solaris
for i := 0; i < 3; i++ {
socket.write_string(message2) or {
println('write to a socket without a recipient should produce an option fail: $err | $message2')
assert true
}
}
}
fn test_socket_read_line_long_line_without_eol() {
mut server, mut client, mut socket := setup()
mut reader := io.new_buffered_reader(reader: client)
defer {
cleanup(mut server, mut client, mut socket)
}
message := strings.repeat_string('123', 400)
socket.write_string(message) or {
assert false
return
}
socket.write_string('\n') or {
assert false
return
}
line := reader.read_line() or {
assert false
return
}
assert line == message
}