v/vlib/net/socket.v

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module net
#include <netdb.h>
#include <sys/types.h>
#include <netinet/in.h>
#include <sys/socket.h>
#include <errno.h>
struct Conn {
pub:
sockfd int
}
struct Listener {
listener int
their_addr voidptr
}
import const (
AF_UNSPEC
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AF_INET
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SOCK_STREAM
AI_PASSIVE
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PF_INET
SOL_SOCKET
SO_REUSEADDR
INADDR_ANY
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)
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
}
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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.sockaddr_storage {
}
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fn dial(addr string, port int) Conn {
println('net.dial("$addr":$port)')
mut hints := C.addrinfo{}
servinfo := &C.addrinfo{!}
mut rp := &C.addrinfo{!}
mut sockfd := -1
// allow IPv4 or IPv6
hints.ai_family = AF_UNSPEC
// avoid name lookup for port
// hints.ai_flags = AI_NUMERICSERV
hints.ai_socktype = SOCK_STREAM
hints.ai_flags = AI_PASSIVE
strport := '$port'
connbad := Conn{}
c_addr := addr.cstr()
rv := C.getaddrinfo(c_addr, strport.cstr(), &hints, &servinfo)
if rv != 0 {
println('Getaddrinfo failed ')
return connbad
}
// Loop through all the results and connect to the first we can
for rp = servinfo; !isnil(rp); rp = rp.ai_next {
sockfd = C.socket(rp.ai_family, rp.ai_socktype, rp.ai_protocol)
if sockfd == -1 {
continue
}
if C.connect(sockfd, rp.ai_addr, rp.ai_addrlen) {
C.close(sockfd)
continue
}
break
}
if sockfd == -1 {
println('socket: Cannot connect to host')
return connbad
}
C.freeaddrinfo(servinfo)
conn := Conn {
sockfd: sockfd,
}
return conn
}
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fn listen(addr string, port int) Listener {
mut hints := C.addrinfo{}
res := &C.addrinfo{!}
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new_fd := 0
BACKLOG := 10
strport := port.str()
option := 1
listener := C.socket(PF_INET, SOCK_STREAM, 0)
C.setsockopt(listener, SOL_SOCKET, SO_REUSEADDR, &option, sizeof(int))
bad_listener := Listener{their_addr: 0}
if listener < 0 {
println('couldnt create listen scoket')
return bad_listener
}
// socket address used for the server
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mut server_address := C.sockaddr_in{}
server_address.sin_family = AF_INET
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// htons: host to network short: transforms a value in host byte
// ordering format to a short value in network byte ordering format
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server_address.sin_port = C.htons(port)
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// htonl: host to network long: same as htons but to long
server_address.sin_addr.s_addr = C.htonl(INADDR_ANY)
size := 16 // sizeof(C.sockaddr_in)
if C.bind(listener, &server_address, size) < 0 {
println('cant bind')
return bad_listener
}
if C.listen(listener, BACKLOG) < 0 {
println('cant listen')
return bad_listener
}
l := Listener {
listener: listener,
their_addr: 0
}
return l
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}
// accept an incoming connection
fn (l Listener) accept() Conn {
their_addr := C.sockaddr_storage{}
addr_size := 128 // sizeof (l.their_addr)
return Conn {
sockfd: C.accept(l.listener, &their_addr, &addr_size)
}
}