#include <netinet/in.h>
#include <arpa/inet.h>
#include <netdb.h>
- #include <errno.h>
-
- typedef int S_DESCRIPTOR;
- typedef struct sockaddr_in S_ADDR_IN;
- typedef struct sockaddr S_ADDR;
- typedef struct in_addr S_IN_ADDR;
- typedef struct hostent S_HOSTENT;
- typedef struct timeval S_TIMEVAL;
- typedef struct sockaccept_result { S_ADDR_IN addr_in; S_DESCRIPTOR s_desc; } S_ACCEPT_RESULT;
- typedef fd_set S_FD_SET;
- typedef socklen_t S_LEN;
+ #include <sys/poll.h>
`}
-extern FFSocket `{ S_DESCRIPTOR* `}
- new socket(domain: FFSocketAddressFamilies, socketType: FFSocketTypes, protocol: FFSocketProtocolFamilies) `{
- S_DESCRIPTOR *d = NULL; d = (S_DESCRIPTOR*) malloc( sizeof(S_DESCRIPTOR) );
+in "C" `{
+ #include <fcntl.h>
+ #include <netinet/tcp.h>
+`}
+
+# Wrapper for the data structure PollFD used for polling on a socket
+class PollFD
+ super FinalizableOnce
+
+ # The PollFD object
+ private var poll_struct: NativeSocketPollFD
+
+ # A collection of the events to be watched
+ var events: Array[NativeSocketPollValues]
+
+ init(pid: Int, events: Array[NativeSocketPollValues])
+ do
+ assert events.length >= 1
+ self.events = events
+
+ var events_in_one = events[0]
+
+ for i in [1 .. events.length-1] do
+ events_in_one += events[i]
+ end
+
+ self.poll_struct = new NativeSocketPollFD(pid, events_in_one)
+ end
+
+ # Reads the response and returns an array with the type of events that have been found
+ private fun check_response(response: Int): Array[NativeSocketPollValues]
+ do
+ var resp_array = new Array[NativeSocketPollValues]
+ for i in events do
+ if c_check_resp(response, i) != 0 then
+ resp_array.push(i)
+ end
+ end
+ return resp_array
+ end
+
+ # Checks if the poll call has returned true for a particular type of event
+ private fun c_check_resp(response: Int, mask: NativeSocketPollValues): Int
+ `{
+ return response & mask;
+ `}
+
+ redef fun finalize_once
+ do
+ poll_struct.free
+ end
+end
+
+# Data structure used by the poll function
+private extern class NativeSocketPollFD `{ struct pollfd * `}
+
+ # File descriptor
+ fun fd: Int `{ return recv->fd; `}
+
+ # List of events to be watched
+ fun events: Int `{ return recv->events; `}
+
+ # List of events received by the last poll function
+ fun revents: Int `{ return recv->revents; `}
+
+ new (pid: Int, events: NativeSocketPollValues) `{
+ struct pollfd *poll = malloc(sizeof(struct pollfd));
+ poll->fd = pid;
+ poll->events = events;
+ return poll;
+ `}
+end
+
+extern class NativeSocket `{ int* `}
+
+ new socket(domain: NativeSocketAddressFamilies, socketType: NativeSocketTypes, protocol: NativeSocketProtocolFamilies) `{
int ds = socket(domain, socketType, protocol);
+ if(ds == -1){
+ return NULL;
+ }
+ int *d = malloc(sizeof(int));
memcpy(d, &ds, sizeof(ds));
return d;
`}
+
fun destroy `{ free(recv); `}
- fun close: Int `{ return close( *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 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 gethostbyname(n: String): NativeSocketHostent import String.to_cstring `{ return gethostbyname(String_to_cstring(n)); `}
+
+ fun connect(addrIn: NativeSocketAddrIn): Int `{
+ return connect(*recv, (struct sockaddr*)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 new_String_from_cstring(c);
+ 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);
`}
- fun bind(addrIn: FFSocketAddrIn): Int `{ return bind(*recv, (S_ADDR*)addrIn, sizeof(*addrIn)); `}
+ # Sets an option for the socket
+ #
+ # Returns `true` on success.
+ fun setsockopt(level: NativeSocketOptLevels, option_name: NativeSocketOptNames, option_value: Int): Bool `{
+ int err = setsockopt(*recv, level, option_name, &option_value, sizeof(int));
+ if(err != 0){
+ return 0;
+ }
+ return 1;
+ `}
+
+ fun bind(addrIn: NativeSocketAddrIn): Int `{ return bind(*recv, (struct sockaddr*)addrIn, sizeof(*addrIn)); `}
+
fun listen(size: Int): Int `{ return listen(*recv, size); `}
- private fun i_accept(addrIn: FFSocketAddrIn): FFSocket `{
- S_LEN s = sizeof(S_ADDR);
- S_DESCRIPTOR *d = NULL;
- d = malloc(sizeof(S_DESCRIPTOR*));
- *d = accept(*recv,(S_ADDR*)addrIn, &s);
- return d;
+ # Checks if the buffer is ready for any event specified when creating the pollfd structure
+ fun socket_poll(filedesc: PollFD, timeout: Int): Array[NativeSocketPollValues]
+ do
+ var result = native_poll(filedesc.poll_struct, timeout)
+ assert result != -1
+ return filedesc.check_response(result)
+ end
+
+ # Call to the poll function of the C socket
+ #
+ # Signature:
+ # int poll(struct pollfd fds[], nfds_t nfds, int timeout);
+ #
+ # Official documentation of the poll function:
+ #
+ # The poll() function provides applications with a mechanism for multiplexing input/output over a set of file descriptors.
+ # For each member of the array pointed to by fds, poll() shall examine the given file descriptor for the event(s) specified in events.
+ # The number of pollfd structures in the fds array is specified by nfds.
+ # The poll() function shall identify those file descriptors on which an application can read or write data, or on which certain events have occurred.
+ # The fds argument specifies the file descriptors to be examined and the events of interest for each file descriptor.
+ # It is a pointer to an array with one member for each open file descriptor of interest.
+ # The array's members are pollfd structures within which fd specifies an open file descriptor and events and revents are bitmasks constructed by
+ # OR'ing a combination of the pollfd flags.
+ private fun native_poll(filedesc: NativeSocketPollFD, timeout: Int): Int `{
+ int poll_return = poll(filedesc, 1, timeout);
+ return poll_return;
`}
- fun accept: FFSocketAcceptResult
+
+ private fun native_accept(addr_in: NativeSocketAddrIn): NativeSocket `{
+ socklen_t s = sizeof(struct sockaddr);
+ int socket = accept(*recv, (struct sockaddr*)addr_in, &s);
+ if (socket == -1) return NULL;
+
+ int *ptr = malloc(sizeof(int));
+ *ptr = socket;
+ return ptr;
+ `}
+
+ fun accept: nullable SocketAcceptResult
do
- var addrIn = new FFSocketAddrIn
- var s = i_accept(addrIn)
- return new FFSocketAcceptResult(s, addrIn)
+ var addrIn = new NativeSocketAddrIn
+ var s = native_accept(addrIn)
+ if s.address_is_null then return null
+ return new SocketAcceptResult(s, addrIn)
end
-end
-extern FFSocketAcceptResult `{ S_ACCEPT_RESULT* `}
- new (socket: FFSocket, addrIn: FFSocketAddrIn) `{
- S_ACCEPT_RESULT *sar = NULL;
- sar = malloc( sizeof(S_ACCEPT_RESULT*) );
- sar->s_desc = *socket;
- sar->addr_in = *addrIn;
- return sar;
+ # Set wether this socket is non blocking
+ fun non_blocking=(value: Bool) `{
+ int flags = fcntl(*recv, F_GETFL, 0);
+ if (flags == -1) flags = 0;
+
+ if (value) {
+ flags = flags | O_NONBLOCK;
+ } else if (flags & O_NONBLOCK) {
+ flags = flags - O_NONBLOCK;
+ } else {
+ return;
+ }
+ fcntl(*recv, F_SETFL, flags);
`}
- fun socket: FFSocket `{ return &recv->s_desc; `}
- fun addrIn: FFSocketAddrIn `{ return &recv->addr_in; `}
- fun destroy `{ free(recv); `}
end
-extern FFSocketAddrIn `{ S_ADDR_IN* `}
+# Result of a call to `NativeSocket::accept`
+class SocketAcceptResult
+
+ # Opened socket
+ var socket: NativeSocket
+
+ # Address of the remote client
+ var addr_in: NativeSocketAddrIn
+end
+
+extern class NativeSocketAddrIn `{ struct sockaddr_in* `}
new `{
- S_ADDR_IN *sai = NULL;
- sai = malloc( sizeof(S_ADDR_IN*) );
+ struct sockaddr_in *sai = NULL;
+ sai = malloc(sizeof(struct sockaddr_in));
return sai;
`}
- new with(port: Int, family: FFSocketAddressFamilies) `{
- S_ADDR_IN *sai = NULL;
- sai = malloc( sizeof(S_ADDR_IN*) );
+
+ new with(port: Int, family: NativeSocketAddressFamilies) `{
+ struct sockaddr_in *sai = NULL;
+ sai = malloc(sizeof(struct sockaddr_in));
sai->sin_family = family;
sai->sin_port = htons(port);
sai->sin_addr.s_addr = INADDR_ANY;
return sai;
`}
- new with_hostent(hostent: FFSocketHostent, port: Int) `{
- S_ADDR_IN *sai = NULL;
- sai = malloc( sizeof(S_ADDR_IN*) );
+
+ new with_hostent(hostent: NativeSocketHostent, port: Int) `{
+ struct sockaddr_in *sai = NULL;
+ sai = malloc(sizeof(struct sockaddr_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 );
+ memcpy((char*)&sai->sin_addr.s_addr, (char*)hostent->h_addr, hostent->h_length);
return sai;
`}
- fun address: String `{ return new_String_from_cstring( (char*)inet_ntoa(recv->sin_addr) ); `}
- fun family: FFSocketAddressFamilies `{ return recv->sin_family; `}
+
+ fun address: String import NativeString.to_s `{ return NativeString_to_s((char*)inet_ntoa(recv->sin_addr)); `}
+
+ fun family: NativeSocketAddressFamilies `{ 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 new_String_from_cstring(recv->h_aliases[i]); `}
- private fun i_h_aliases_reachable(i: Int): Bool `{ return (recv->h_aliases[i] != NULL); `}
+extern class NativeSocketHostent `{ struct hostent* `}
+ private fun native_h_aliases(i: Int): String import NativeString.to_s `{ return NativeString_to_s(recv->h_aliases[i]); `}
+
+ private fun native_h_aliases_reachable(i: Int): Bool `{ return (recv->h_aliases[i] != NULL); `}
+
fun h_aliases: Array[String]
do
var i=0
var d=new Array[String]
loop
- d.add(i_h_aliases(i))
- if i_h_aliases_reachable(i+1) == false then break
+ d.add(native_h_aliases(i))
+ if native_h_aliases_reachable(i+1) == false then break
i += 1
end
return d
end
- fun h_addr: String `{ return new_String_from_cstring( (char*)inet_ntoa(*(S_IN_ADDR*)recv->h_addr) ); `}
+
+ fun h_addr: String import NativeString.to_s `{ return NativeString_to_s((char*)inet_ntoa(*(struct 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 new_String_from_cstring(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 NativeTimeval `{ struct timeval* `}
new (seconds: Int, microseconds: Int) `{
- S_TIMEVAL* tv = NULL;
- tv = malloc( sizeof(S_TIMEVAL*) );
+ struct timeval* tv = NULL;
+ tv = malloc(sizeof(struct timeval));
tv->tv_sec = seconds;
tv->tv_usec = microseconds;
return tv;
`}
+
fun seconds: Int `{ return recv->tv_sec; `}
+
fun microseconds: Int `{ return recv->tv_usec; `}
- fun destroy `{ free( recv ); `}
+
+ fun destroy `{ free(recv); `}
end
-extern FFSocketSet `{ S_FD_SET* `}
+extern class NativeSocketSet `{ fd_set* `}
new `{
- S_FD_SET *f = NULL;
- f = malloc( sizeof(S_FD_SET*) );
+ fd_set *f = NULL;
+ f = malloc(sizeof(fd_set));
return f;
`}
- fun set(s: FFSocket) `{ FD_SET( *s, recv ); `}
- fun is_set(s: FFSocket): Bool `{ return FD_ISSET( *s, recv ); `}
- fun zero `{ FD_ZERO( recv ); `}
- fun clear(s: FFSocket) `{ FD_CLR( *s, recv ); `}
- fun destroy `{ free( recv ); `}
+
+ fun set(s: NativeSocket) `{ FD_SET(*s, recv); `}
+
+ fun is_set(s: NativeSocket): Bool `{ return FD_ISSET(*s, recv); `}
+
+ fun zero `{ FD_ZERO(recv); `}
+
+ fun clear(s: NativeSocket) `{ FD_CLR(*s, recv); `}
+
+ fun destroy `{ free(recv); `}
end
-class FFSocketObserver
- fun select(max: FFSocket, reads: nullable FFSocketSet, write: nullable FFSocketSet,
- except: nullable FFSocketSet, timeout: FFTimeval): Int `{
- S_FD_SET *rds, *wts, *exs = NULL;
- S_TIMEVAL *tm = NULL;
- if(reads != NULL) rds = (S_FD_SET*)reads;
- if(write != NULL) wts = (S_FD_SET*)write;
- if(except != NULL) exs = (S_FD_SET*)except;
- if(timeout != NULL) tm = (S_TIMEVAL*)timeout;
+class NativeSocketObserver
+ # FIXME this implementation is broken. `reads`, `write` and `except`
+ # are boxed objects, passing them to a C function is illegal.
+ fun select(max: NativeSocket, reads: nullable NativeSocketSet, write: nullable NativeSocketSet,
+ except: nullable NativeSocketSet, timeout: NativeTimeval): Int `{
+ fd_set *rds, *wts, *exs = NULL;
+ struct timeval *tm = NULL;
+ if (reads != NULL) rds = (fd_set*)reads;
+ if (write != NULL) wts = (fd_set*)write;
+ if (except != NULL) exs = (fd_set*)except;
+ if (timeout != NULL) tm = (struct timeval*)timeout;
return select(*max, rds, wts, exs, tm);
`}
end
-extern FFSocketTypes `{ int `}
+extern class NativeSocketTypes `{ 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 NativeSocketAddressFamilies `{ 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_local `{ return AF_LOCAL; `} # backward compatibility
- new af_inet `{ return AF_INET; `} # internetwork: UDP, TCP, etc.
- new af_sna `{ return AF_SNA; `} # IBM SNA
- new af_decnet `{ return AF_DECnet; `} # DECnet
- new af_route `{ return AF_ROUTE; `} # Internal Routing Protocol
- new af_ipx `{ return AF_IPX; `} # Novell Internet Protocol
- new af_isdn `{ return AF_ISDN; `} # Integrated Services Digital Network
- new af_inet6 `{ return AF_INET6; `} # IPv6
- new af_max `{ return AF_MAX; `}
+
+ # Unspecified
+ new af_unspec `{ return AF_UNSPEC; `}
+
+ # Local to host (pipes)
+ new af_unix `{ return AF_UNIX; `}
+
+ # For backward compatibility
+ new af_local `{ return AF_LOCAL; `}
+
+ # Internetwork: UDP, TCP, etc.
+ new af_inet `{ return AF_INET; `}
+
+ # IBM SNA
+ new af_sna `{ return AF_SNA; `}
+
+ # DECnet
+ new af_decnet `{ return AF_DECnet; `}
+
+ # Internal Routing Protocol
+ new af_route `{ return AF_ROUTE; `}
+
+ # Novell Internet Protocol
+ new af_ipx `{ return AF_IPX; `}
+
+ # IPv6
+ new af_inet6 `{ return AF_INET6; `}
+
+ new af_max `{ return AF_MAX; `}
end
-extern FFSocketProtocolFamilies `{ int `}
+
+extern class NativeSocketProtocolFamilies `{ int `}
new pf_null `{ return 0; `}
new pf_unspec `{ return PF_UNSPEC; `}
new pf_local `{ return PF_LOCAL; `}
new pf_decnet `{ return PF_DECnet; `}
new pf_route `{ return PF_ROUTE; `}
new pf_ipx `{ return PF_IPX; `}
- new pf_isdn `{ return PF_ISDN; `}
new pf_key `{ return PF_KEY; `}
new pf_inet6 `{ return PF_INET6; `}
new pf_max `{ return PF_MAX; `}
end
+# Level on which to set options
+extern class NativeSocketOptLevels `{ 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 NativeSocketOptNames `{ 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; `}
+
+ # Disable the Nagle algorithm and send data as soon as possible, in smaller packets
+ new tcp_nodelay `{ return TCP_NODELAY; `}
+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 class NativeSocketPollValues `{ int `}
+
+ # Data other than high-priority data may be read without blocking.
+ new pollin `{ return POLLIN; `}
+
+ # Normal data may be read without blocking.
+ new pollrdnorm `{ return POLLRDNORM; `}
+
+ # Priority data may be read without blocking.
+ new pollrdband `{ return POLLRDBAND; `}
+
+ # High-priority data may be read without blocking.
+ new pollpri `{ return POLLPRI; `}
+
+ # Normal data may be written without blocking.
+ new pollout `{ return POLLOUT; `}
+
+ # Equivalent to POLLOUT
+ new pollwrnorm `{ return POLLWRNORM; `}
+
+ # Priority data may be written.
+ new pollwrband `{ return POLLWRBAND; `}
+
+ # An error has occurred on the device or stream.
+ #
+ # This flag is only valid in the revents bitmask; it shall be ignored in the events member.
+ new pollerr `{ return POLLERR; `}
+
+ # The device has been disconnected.
+ #
+ # This event and POLLOUT are mutually-exclusive; a stream can never be
+ # writable if a hangup has occurred. However, this event and POLLIN,
+ # POLLRDNORM, POLLRDBAND, or POLLPRI are not mutually-exclusive.
+ #
+ # This flag is only valid in the revents bitmask; it shall be ignored in the events member.
+ new pollhup `{ return POLLHUP; `}
+
+ # The specified fd value is invalid.
+ #
+ # This flag is only valid in the revents member; it shall ignored in the events member.
+ new pollnval `{ return POLLNVAL; `}
+
+ # Combines two NativeSocketPollValues
+ private fun +(other: NativeSocketPollValues): NativeSocketPollValues `{
+ return recv | other;
+ `}
+end