#include <arpa/inet.h>
#include <netdb.h>
#include <sys/poll.h>
- #include <errno.h>
typedef int S_DESCRIPTOR;
typedef struct sockaddr_in S_ADDR_IN;
end
# Data structure used by the poll function
-private extern FFSocketPollFD `{ struct pollfd `}
+private extern class FFSocketPollFD `{ struct pollfd `}
# File descriptor id
private fun fd: Int `{ return recv.fd; `}
# List of events to be watched
end
-extern FFSocket `{ S_DESCRIPTOR* `}
+extern class FFSocket `{ S_DESCRIPTOR* `}
new socket(domain: FFSocketAddressFamilies, socketType: FFSocketTypes, protocol: FFSocketProtocolFamilies) `{
S_DESCRIPTOR *d = NULL; d = (S_DESCRIPTOR*) malloc( sizeof(S_DESCRIPTOR) );
int ds = socket(domain, socketType, protocol);
+ if(ds == -1){
+ free(d);
+ return NULL;
+ }
memcpy(d, &ds, sizeof(ds));
return d;
`}
fun destroy `{ free(recv); `}
fun close: Int `{ return close( *recv ); `}
fun descriptor: Int `{ return *recv; `}
- fun errno: Int `{ return errno; `}
- fun gethostbyname(n: String): FFSocketHostent import String::to_cstring `{ return gethostbyname(String_to_cstring(n)); `}
+ fun gethostbyname(n: String): FFSocketHostent import String.to_cstring `{ return gethostbyname(String_to_cstring(n)); `}
fun connect(addrIn: FFSocketAddrIn): Int `{ return connect( *recv, (S_ADDR*)addrIn, sizeof(*addrIn) ); `}
- fun write(buffer: String): Int import String::to_cstring, String::length `{ return write(*recv, (char*)String_to_cstring(buffer), String_length(buffer)); `}
-
- fun read: String `{
- char c[1024];
- int n = read(*recv, c, (sizeof(c)-1));
- if(n < 0) exit(-1);
- c[n] = '\0';
- return NativeString_to_s(c);
+ fun write(buffer: String): Int import String.to_cstring, String.length `{ return write(*recv, (char*)String_to_cstring(buffer), String_length(buffer)); `}
+
+ fun read: String import NativeString.to_s_with_length `{
+ static char c[1024];
+ int n = read(*recv, c, 1024);
+ if(n < 0) {
+ return NativeString_to_s_with_length("",0);
+ }
+ char* ret = malloc(n + 1);
+ memcpy(ret, c, n);
+ ret[n] = '\0';
+ return NativeString_to_s_with_length(ret, n);
+ `}
+
+ # Sets an option for the socket
+ fun setsockopt(level: FFSocketOptLevels, option_name: FFSocketOptNames, option_value: Int) `{
+ int err = setsockopt(*recv, level, option_name, &option_value, sizeof(int));
+ if(err != 0){
+ perror("Error on setsockopts : ");
+ exit(1);
+ }
`}
fun bind(addrIn: FFSocketAddrIn): Int `{ return bind(*recv, (S_ADDR*)addrIn, sizeof(*addrIn)); `}
private fun i_accept(addrIn: FFSocketAddrIn): FFSocket `{
S_LEN s = sizeof(S_ADDR);
S_DESCRIPTOR *d = NULL;
- d = malloc(sizeof(S_DESCRIPTOR*));
+ d = malloc(sizeof(S_DESCRIPTOR));
*d = accept(*recv,(S_ADDR*)addrIn, &s);
return d;
`}
end
end
-extern FFSocketAcceptResult `{ S_ACCEPT_RESULT* `}
+extern class FFSocketAcceptResult `{ S_ACCEPT_RESULT* `}
new (socket: FFSocket, addrIn: FFSocketAddrIn) `{
S_ACCEPT_RESULT *sar = NULL;
- sar = malloc( sizeof(S_ACCEPT_RESULT*) );
+ sar = malloc( sizeof(S_ACCEPT_RESULT) );
sar->s_desc = *socket;
sar->addr_in = *addrIn;
return sar;
fun destroy `{ free(recv); `}
end
-extern FFSocketAddrIn `{ S_ADDR_IN* `}
+extern class FFSocketAddrIn `{ S_ADDR_IN* `}
new `{
S_ADDR_IN *sai = NULL;
- sai = malloc( sizeof(S_ADDR_IN*) );
+ sai = malloc( sizeof(S_ADDR_IN) );
return sai;
`}
new with(port: Int, family: FFSocketAddressFamilies) `{
S_ADDR_IN *sai = NULL;
- sai = malloc( sizeof(S_ADDR_IN*) );
+ sai = malloc( sizeof(S_ADDR_IN) );
sai->sin_family = family;
sai->sin_port = htons(port);
sai->sin_addr.s_addr = INADDR_ANY;
`}
new with_hostent(hostent: FFSocketHostent, port: Int) `{
S_ADDR_IN *sai = NULL;
- sai = malloc( sizeof(S_ADDR_IN*) );
+ sai = malloc( sizeof(S_ADDR_IN) );
sai->sin_family = hostent->h_addrtype;
sai->sin_port = htons(port);
memcpy( (char*)&sai->sin_addr.s_addr, (char*)hostent->h_addr, hostent->h_length );
return sai;
`}
- fun address: String `{ return NativeString_to_s( (char*)inet_ntoa(recv->sin_addr) ); `}
+ fun address: String import NativeString.to_s `{ return NativeString_to_s( (char*)inet_ntoa(recv->sin_addr) ); `}
fun family: FFSocketAddressFamilies `{ return recv->sin_family; `}
fun port: Int `{ return ntohs(recv->sin_port); `}
fun destroy `{ free(recv); `}
end
-extern FFSocketHostent `{ S_HOSTENT* `}
- private fun i_h_aliases(i: Int): String `{ return NativeString_to_s(recv->h_aliases[i]); `}
+extern class FFSocketHostent `{ S_HOSTENT* `}
+ private fun i_h_aliases(i: Int): String import NativeString.to_s `{ return NativeString_to_s(recv->h_aliases[i]); `}
private fun i_h_aliases_reachable(i: Int): Bool `{ return (recv->h_aliases[i] != NULL); `}
fun h_aliases: Array[String]
do
end
return d
end
- fun h_addr: String `{ return NativeString_to_s( (char*)inet_ntoa(*(S_IN_ADDR*)recv->h_addr) ); `}
+ fun h_addr: String import NativeString.to_s `{ return NativeString_to_s( (char*)inet_ntoa(*(S_IN_ADDR*)recv->h_addr) ); `}
fun h_addrtype: Int `{ return recv->h_addrtype; `}
fun h_length: Int `{ return recv->h_length; `}
- fun h_name: String `{ return NativeString_to_s(recv->h_name); `}
+ fun h_name: String import NativeString.to_s `{ return NativeString_to_s(recv->h_name); `}
end
-extern FFTimeval `{ S_TIMEVAL* `}
+extern class FFTimeval `{ S_TIMEVAL* `}
new (seconds: Int, microseconds: Int) `{
S_TIMEVAL* tv = NULL;
- tv = malloc( sizeof(S_TIMEVAL*) );
+ tv = malloc( sizeof(S_TIMEVAL) );
tv->tv_sec = seconds;
tv->tv_usec = microseconds;
return tv;
fun destroy `{ free( recv ); `}
end
-extern FFSocketSet `{ S_FD_SET* `}
+extern class FFSocketSet `{ S_FD_SET* `}
new `{
S_FD_SET *f = NULL;
- f = malloc( sizeof(S_FD_SET*) );
+ f = malloc( sizeof(S_FD_SET) );
return f;
`}
fun set(s: FFSocket) `{ FD_SET( *s, recv ); `}
`}
end
-extern FFSocketTypes `{ int `}
+extern class FFSocketTypes `{ int `}
new sock_stream `{ return SOCK_STREAM; `}
new sock_dgram `{ return SOCK_DGRAM; `}
new sock_raw `{ return SOCK_RAW; `}
new sock_seqpacket `{ return SOCK_SEQPACKET; `}
end
-extern FFSocketAddressFamilies `{ int `}
+extern class FFSocketAddressFamilies `{ int `}
new af_null `{ return 0; `}
new af_unspec `{ return AF_UNSPEC; `} # unspecified
new af_unix `{ return AF_UNIX; `} # local to host (pipes)
new af_inet6 `{ return AF_INET6; `} # IPv6
new af_max `{ return AF_MAX; `}
end
-extern FFSocketProtocolFamilies `{ int `}
+extern class FFSocketProtocolFamilies `{ int `}
new pf_null `{ return 0; `}
new pf_unspec `{ return PF_UNSPEC; `}
new pf_local `{ return PF_LOCAL; `}
new pf_inet6 `{ return PF_INET6; `}
new pf_max `{ return PF_MAX; `}
end
-
+# Level on which to set options
+extern class FFSocketOptLevels `{ int `}
+ # Dummy for IP (As defined in C)
+ new ip `{ return IPPROTO_IP;`}
+ # Control message protocol
+ new icmp `{ return IPPROTO_ICMP;`}
+ # Use TCP
+ new tcp `{ return IPPROTO_TCP; `}
+ # Socket level options
+ new socket `{ return SOL_SOCKET; `}
+end
+# Options for socket, use with setsockopt
+extern class FFSocketOptNames `{ int `}
+ # Enables debugging information
+ new debug `{ return SO_DEBUG; `}
+ # Authorizes the broadcasting of messages
+ new broadcast `{ return SO_BROADCAST; `}
+ # Authorizes the reuse of the local address
+ new reuseaddr `{ return SO_REUSEADDR; `}
+ # Authorizes the use of keep-alive packets in a connection
+ new keepalive `{ return SO_KEEPALIVE; `}
+end
# Used for the poll function of a socket, mix several Poll values to check for events on more than one type of event
-extern FFSocketPollValues `{ int `}
+extern class FFSocketPollValues `{ int `}
new pollin `{ return POLLIN; `} # Data other than high-priority data may be read without blocking.
new pollrdnorm `{ return POLLRDNORM; `} # Normal data may be read without blocking.
new pollrdband `{ return POLLRDBAND; `} # Priority data may be read without blocking.