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v/vlib/net/socket.v
2019-08-16 09:02:09 +03:00

300 lines
6.2 KiB
Go

module net
struct Socket {
pub:
sockfd int
family int
_type int
proto int
}
import const (
AF_INET
AF_INET6
AF_UNSPEC
SOCK_STREAM
SOL_SOCKET
SO_REUSEADDR
SO_REUSEPORT
INADDR_ANY
AI_PASSIVE
SHUT_RD
SHUT_WR
SHUT_RDWR
SD_BOTH
)
struct C.WSAData {
mut:
wVersion u16
wHighVersion u16
szDescription [257]byte
szSystemStatus [129]byte
iMaxSockets u16
iMaxUdpDg u16
lpVendorInfo byteptr
}
const (
WSA_V1 = 0x100 // C.MAKEWORD(1, 0)
WSA_V11 = 0x101 // C.MAKEWORD(1, 1)
WSA_V2 = 0x200 // C.MAKEWORD(2, 0)
WSA_V21 = 0x201 // C.MAKEWORD(2, 1)
WSA_V22 = 0x202 // C.MAKEWORD(2, 2)
)
struct C.in_addr {
mut:
s_addr int
}
struct C.sockaddr_in {
mut:
sin_family int
sin_port int
sin_addr C.in_addr
}
struct C.addrinfo {
mut:
ai_family int
ai_socktype int
ai_flags int
ai_protocol int
ai_addrlen int
ai_next voidptr
ai_addr voidptr
}
struct C.sockaddr_storage {}
// create socket
pub fn socket(family int, _type int, proto int) ?Socket {
$if windows {
mut wsadata := C.WSAData{}
res := C.WSAStartup(WSA_V22, &wsadata)
if res != 0 {
return error('socket: WSAStartup failed')
}
}
sockfd := C.socket(family, _type, proto)
one:=1
// This is needed so that there are no problems with reusing the
// same port after the application exits.
C.setsockopt(sockfd, SOL_SOCKET, SO_REUSEADDR, &one, sizeof(int))
if sockfd == 0 {
return error('socket: init failed')
}
s := Socket {
sockfd: sockfd
family: family
_type: _type
proto: proto
}
return s
}
// set socket options
pub fn (s Socket) setsockopt(level int, optname int, optvalue *int) ?int {
res := C.setsockopt(s.sockfd, level, optname, optvalue, C.sizeof(optvalue))
if res < 0 {
return error('socket: setsockopt failed')
}
return int(res)
}
// bind socket to port
pub fn (s Socket) bind(port int) ?int {
mut addr := C.sockaddr_in{}
addr.sin_family = s.family
addr.sin_port = C.htons(port)
addr.sin_addr.s_addr = C.htonl(INADDR_ANY)
size := 16 // sizeof(C.sockaddr_in)
res := C.bind(s.sockfd, &addr, size)
if res < 0 {
return error('socket: bind failed')
}
return int(res)
}
// put socket into passive mode and wait to receive
pub fn (s Socket) listen() ?int {
backlog := 128
res := int(C.listen(s.sockfd, backlog))
if res < 0 {
return error('socket: listen failed')
}
println('listen res = $res')
return res
}
// put socket into passive mode with user specified backlog and wait to receive
pub fn (s Socket) listen_backlog(backlog int) ?int {
mut n := 0
if backlog > 0 {
n = backlog
}
res := C.listen(s.sockfd, n)
if res < 0 {
return error('socket: listen_backlog failed')
}
return int(res)
}
// helper method to create, bind, and listen given port number
pub fn listen(port int) ?Socket {
println('net.listen($port)')
s := socket(AF_INET, SOCK_STREAM, 0) or {
return error(err)
}
bind_res := s.bind(port) or {
return error(err)
}
listen_res := s.listen() or {
return error(err)
}
return s
}
// accept first connection request from socket queue
pub fn (s Socket) accept() ?Socket {
println('accept()')
addr := C.sockaddr_storage{}
size := 128 // sizeof(sockaddr_storage)
sockfd := C.accept(s.sockfd, &addr, &size)
if sockfd < 0 {
return error('socket: accept failed')
}
c := Socket {
sockfd: sockfd
family: s.family
_type: s._type
proto: s.proto
}
return c
}
// connect to given addrress and port
pub fn (s Socket) connect(address string, port int) ?int {
mut hints := C.addrinfo{}
hints.ai_family = AF_UNSPEC
hints.ai_socktype = SOCK_STREAM
hints.ai_flags = AI_PASSIVE
info := &C.addrinfo{!}
sport := '$port'
info_res := C.getaddrinfo(address.str, sport.str, &hints, &info)
if info_res != 0 {
return error('socket: connect failed')
}
res := int(C.connect(s.sockfd, info.ai_addr, info.ai_addrlen))
if res < 0 {
return error('socket: connect failed')
}
return int(res)
}
// helper method to create socket and connect
pub fn dial(address string, port int) ?Socket {
s := socket(AF_INET, SOCK_STREAM, 0) or {
return error(err)
}
res := s.connect(address, port) or {
return error(err)
}
return s
}
// send string data to socket
pub fn (s Socket) send(buf byteptr, len int) int {
res := C.send(s.sockfd, buf, len, 0)
// if res < 0 {
// return error('socket: send failed')
// }
return res
}
// receive string data from socket
pub fn (s Socket) recv(bufsize int) byteptr {
buf := malloc(bufsize)
res := C.recv(s.sockfd, buf, bufsize, 0)
// if res < 0 {
// return error('socket: recv failed')
// }
return buf
}
// shutdown and close socket
pub fn (s Socket) close() ?int {
mut shutdown_res := 0
$if windows {
shutdown_res = C.shutdown(s.sockfd, SD_BOTH)
}
$else {
shutdown_res = C.shutdown(s.sockfd, SHUT_RDWR)
}
// TODO: should shutdown throw an error? close will
// continue even if shutdown failed
// if shutdown_res < 0 {
// return error('socket: shutdown failed')
// }
mut res := 0
$if windows {
res = C.closesocket(s.sockfd)
}
$else {
res = C.close(s.sockfd)
}
if res < 0 {
return error('socket: close failed')
}
return 0
}
const (
MAX_READ = 400
)
pub fn (s Socket) write(str string) {
line := '$str\r\n'
C.write(s.sockfd, line.str, line.len)
}
pub fn (s Socket) read_line() string {
mut res := ''
for {
println('.')
mut buf := malloc(MAX_READ)
n := int(C.recv(s.sockfd, buf, MAX_READ-1, 0))
println('numbytes=$n')
if n == -1 {
println('recv failed')
// TODO
return ''
}
if n == 0 {
break
}
// println('resp len=$numbytes')
buf[n] = `\0`
// C.printf('!!buf= "%s" n=%d\n', buf,n)
line := string(buf)
res += line
// Reached a newline. That's an end of an IRC message
// TODO dont need ends_with check ?
if line.ends_with('\n') || n < MAX_READ - 1 {
// println('NL')
break
}
if line.ends_with('\r\n') {
// println('RNL')
break
}
}
return res
}