📄 sockets.c
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remote_addr.addr = ((struct sockaddr_in *)to)->sin_addr.s_addr;
remote_port = ((struct sockaddr_in *)to)->sin_port;
#if SOCKETS_DEBUG
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_sendto(%d, data=%p, size=%d, flags=0x%x to=", s, data, size, flags));
ip_addr_debug_print(SOCKETS_DEBUG, &remote_addr);
LWIP_DEBUGF(SOCKETS_DEBUG, (" port=%u\n", ntohs(remote_port)));
#endif
netconn_connect(sock->conn, &remote_addr, ntohs(remote_port));
ret = lwip_send(s, data, size, flags);
/* reset the remote address and port number
of the connection */
if (connected)
netconn_connect(sock->conn, &addr, port);
else
netconn_disconnect(sock->conn);
return ret;
}
/*-----------------------------------------------------------------------------------*/
int
lwip_socket(int domain, int type, int protocol)
{
struct netconn *conn;
int i;
/* create a netconn */
switch (type) {
case SOCK_DGRAM:
conn = netconn_new_with_callback(NETCONN_UDP, event_callback);
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_socket(%s, SOCK_DGRAM, %d) = ", domain == PF_INET ? "PF_INET" : "UNKNOWN", protocol));
break;
case SOCK_STREAM:
conn = netconn_new_with_callback(NETCONN_TCP, event_callback);
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_socket(%s, SOCK_STREAM, %d) = ", domain == PF_INET ? "PF_INET" : "UNKNOWN", protocol));
break;
default:
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_socket(%d, %d/UNKNOWN, %d) = -1\n", domain, type, protocol));
set_errno(EINVAL);
return -1;
}
if (!conn) {
LWIP_DEBUGF(SOCKETS_DEBUG, ("-1 / ENOBUFS (could not create netconn)\n"));
set_errno(ENOBUFS);
return -1;
}
i = alloc_socket(conn);
if (i == -1) {
netconn_delete(conn);
set_errno(ENOBUFS);
return -1;
}
conn->socket = i;
LWIP_DEBUGF(SOCKETS_DEBUG, ("%d\n", i));
set_errno(0);
return i;
}
/*-----------------------------------------------------------------------------------*/
int
lwip_write(int s, void *data, int size)
{
return lwip_send(s, data, size, 0);
}
/*-----------------------------------------------------------------------------------*/
static int
lwip_selscan(int maxfdp1, fd_set *readset, fd_set *writeset, fd_set *exceptset)
{
int i, nready = 0;
fd_set lreadset, lwriteset, lexceptset;
struct lwip_socket *p_sock;
FD_ZERO(&lreadset);
FD_ZERO(&lwriteset);
FD_ZERO(&lexceptset);
/* Go through each socket in each list to count number of sockets which
currently match */
for(i = 0; i < maxfdp1; i++)
{
if (FD_ISSET(i, readset))
{
/* See if netconn of this socket is ready for read */
p_sock = get_socket(i);
if (p_sock && (p_sock->lastdata || p_sock->rcvevent))
{
FD_SET(i, &lreadset);
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_selscan: fd=%d ready for reading\n", i));
nready++;
}
}
if (FD_ISSET(i, writeset))
{
/* See if netconn of this socket is ready for write */
p_sock = get_socket(i);
if (p_sock && p_sock->sendevent)
{
FD_SET(i, &lwriteset);
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_selscan: fd=%d ready for writing\n", i));
nready++;
}
}
}
*readset = lreadset;
*writeset = lwriteset;
FD_ZERO(exceptset);
return nready;
}
/*-----------------------------------------------------------------------------------*/
int
lwip_select(int maxfdp1, fd_set *readset, fd_set *writeset, fd_set *exceptset,struct timeval *timeout)
{
int i;
int nready;
fd_set lreadset, lwriteset, lexceptset;
u32_t msectimeout;
struct lwip_select_cb select_cb;
struct lwip_select_cb *p_selcb;
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_select(%d, %p, %p, %p, tvsec=%ld tvusec=%ld)\n", maxfdp1, (void *)readset, (void *) writeset, (void *) exceptset, timeout ? timeout->tv_sec : -1L, timeout ? timeout->tv_usec : -1L));
select_cb.next = 0;
select_cb.readset = readset;
select_cb.writeset = writeset;
select_cb.exceptset = exceptset;
select_cb.sem_signalled = 0;
/* Protect ourselves searching through the list */
if (!selectsem)
selectsem = sys_sem_new(1);
sys_sem_wait(selectsem);
if (readset)
lreadset = *readset;
else
FD_ZERO(&lreadset);
if (writeset)
lwriteset = *writeset;
else
FD_ZERO(&lwriteset);
if (exceptset)
lexceptset = *exceptset;
else
FD_ZERO(&lexceptset);
/* Go through each socket in each list to count number of sockets which
currently match */
nready = lwip_selscan(maxfdp1, &lreadset, &lwriteset, &lexceptset);
/* If we don't have any current events, then suspend if we are supposed to */
if (!nready)
{
if (timeout && timeout->tv_sec == 0 && timeout->tv_usec == 0)
{
sys_sem_signal(selectsem);
if (readset)
FD_ZERO(readset);
if (writeset)
FD_ZERO(writeset);
if (exceptset)
FD_ZERO(exceptset);
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_select: no timeout, returning 0\n"));
set_errno(0);
return 0;
}
/* add our semaphore to list */
/* We don't actually need any dynamic memory. Our entry on the
* list is only valid while we are in this function, so it's ok
* to use local variables */
select_cb.sem = sys_sem_new(0);
/* Note that we are still protected */
/* Put this select_cb on top of list */
select_cb.next = select_cb_list;
select_cb_list = &select_cb;
/* Now we can safely unprotect */
sys_sem_signal(selectsem);
/* Now just wait to be woken */
if (timeout == 0)
/* Wait forever */
msectimeout = 0;
else
msectimeout = ((timeout->tv_sec * 1000) + (timeout->tv_usec /1000));
i = sys_sem_wait_timeout(select_cb.sem, msectimeout);
/* Take us off the list */
sys_sem_wait(selectsem);
if (select_cb_list == &select_cb)
select_cb_list = select_cb.next;
else
for (p_selcb = select_cb_list; p_selcb; p_selcb = p_selcb->next)
if (p_selcb->next == &select_cb)
{
p_selcb->next = select_cb.next;
break;
}
sys_sem_signal(selectsem);
sys_sem_free(select_cb.sem);
if (i == 0) /* Timeout */
{
if (readset)
FD_ZERO(readset);
if (writeset)
FD_ZERO(writeset);
if (exceptset)
FD_ZERO(exceptset);
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_select: timeout expired\n"));
set_errno(0);
return 0;
}
if (readset)
lreadset = *readset;
else
FD_ZERO(&lreadset);
if (writeset)
lwriteset = *writeset;
else
FD_ZERO(&lwriteset);
if (exceptset)
lexceptset = *exceptset;
else
FD_ZERO(&lexceptset);
/* See what's set */
nready = lwip_selscan(maxfdp1, &lreadset, &lwriteset, &lexceptset);
}
else
sys_sem_signal(selectsem);
if (readset)
*readset = lreadset;
if (writeset)
*writeset = lwriteset;
if (exceptset)
*exceptset = lexceptset;
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_select: nready=%d\n", nready));
set_errno(0);
return nready;
}
/*-----------------------------------------------------------------------------------*/
static void
event_callback(struct netconn *conn, enum netconn_evt evt, u16_t len)
{
int s;
struct lwip_socket *sock;
struct lwip_select_cb *scb;
/* Get socket */
if (conn)
{
s = conn->socket;
if (s < 0)
{
/* Data comes in right away after an accept, even though
* the server task might not have created a new socket yet.
* Just count down (or up) if that's the case and we
* will use the data later. Note that only receive events
* can happen before the new socket is set up. */
if (evt == NETCONN_EVT_RCVPLUS)
conn->socket--;
return;
}
sock = get_socket(s);
if (!sock)
return;
}
else
return;
if (!selectsem)
selectsem = sys_sem_new(1);
sys_sem_wait(selectsem);
/* Set event as required */
switch (evt)
{
case NETCONN_EVT_RCVPLUS:
sock->rcvevent++;
break;
case NETCONN_EVT_RCVMINUS:
sock->rcvevent--;
break;
case NETCONN_EVT_SENDPLUS:
sock->sendevent = 1;
break;
case NETCONN_EVT_SENDMINUS:
sock->sendevent = 0;
break;
}
sys_sem_signal(selectsem);
/* Now decide if anyone is waiting for this socket */
/* NOTE: This code is written this way to protect the select link list
but to avoid a deadlock situation by releasing socksem before
signalling for the select. This means we need to go through the list
multiple times ONLY IF a select was actually waiting. We go through
the list the number of waiting select calls + 1. This list is
expected to be small. */
while (1)
{
sys_sem_wait(selectsem);
for (scb = select_cb_list; scb; scb = scb->next)
{
if (scb->sem_signalled == 0)
{
/* Test this select call for our socket */
if (scb->readset && FD_ISSET(s, scb->readset))
if (sock->rcvevent)
break;
if (scb->writeset && FD_ISSET(s, scb->writeset))
if (sock->sendevent)
break;
}
}
if (scb)
{
scb->sem_signalled = 1;
sys_sem_signal(selectsem);
sys_sem_signal(scb->sem);
} else {
sys_sem_signal(selectsem);
break;
}
}
}
/*-----------------------------------------------------------------------------------*/
int lwip_shutdown(int s, int how)
{
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_shutdown(%d, how=%d)\n", s, how));
return lwip_close(s); /* XXX temporary hack until proper implementation */
}
int lwip_getpeername (int s, struct sockaddr *name, socklen_t *namelen)
{
struct lwip_socket *sock;
struct sockaddr_in sin;
struct ip_addr naddr;
sock = get_socket(s);
if (!sock) {
return -1;
}
memset(&sin, 0, sizeof(sin));
sin.sin_len = sizeof(sin);
sin.sin_family = AF_INET;
/* get the IP address and port of the remote host */
netconn_peer(sock->conn, &naddr, &sin.sin_port);
#if SOCKETS_DEBUG
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_getpeername(%d, addr=", s));
ip_addr_debug_print(SOCKETS_DEBUG, &naddr);
LWIP_DEBUGF(SOCKETS_DEBUG, (" port=%d)\n", sin.sin_port));
#endif
sin.sin_port = htons(sin.sin_port);
sin.sin_addr.s_addr = naddr.addr;
if (*namelen > sizeof(sin))
*namelen = sizeof(sin);
memcpy(name, &sin, *namelen);
sock_set_errno(sock, 0);
return 0;
}
int lwip_getsockname (int s, struct sockaddr *name, socklen_t *namelen)
{
struct lwip_socket *sock;
struct sockaddr_in sin;
struct ip_addr *naddr;
sock = get_socket(s);
if (!sock) {
return -1;
}
memset(&sin, 0, sizeof(sin));
sin.sin_len = sizeof(sin);
sin.sin_family = AF_INET;
/* get the IP address and port of the remote host */
netconn_addr(sock->conn, &naddr, &sin.sin_port);
#if SOCKETS_DEBUG
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_getsockname(%d, addr=", s));
ip_addr_debug_print(SOCKETS_DEBUG, naddr);
LWIP_DEBUGF(SOCKETS_DEBUG, (" port=%d)\n", sin.sin_port));
#endif
sin.sin_port = htons(sin.sin_port);
sin.sin_addr.s_addr = naddr->addr;
if (*namelen > sizeof(sin))
*namelen = sizeof(sin);
memcpy(name, &sin, *namelen);
sock_set_errno(sock, 0);
return 0;
}
int lwip_getsockopt (int s, int level, int optname, void *optval, socklen_t *optlen)
{
int err = ENOSYS;
struct lwip_socket *sock = get_socket(s);
if (!sock) {
return -1;
}
if (level == SOL_SOCKET) {
switch (optname) {
case SO_ERROR:
if (!optval || !optlen || (*optlen != sizeof(int))) {
err = EINVAL;
break;
}
*(int *)optval = sock->err;
sock->err = 0;
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_getsockopt(%d, SOL_SOCKET, SO_ERROR) = %d\n", s, *(int *)optval));
err = 0;
break;
default:
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_getsockopt(%d, SOL_SOCKET, UNIMPL: optname=0x%x, ..)\n", s, optname));
break;
}
} else {
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_getsockopt(%d, level=0x%x, UNIMPL: optname=0x%x, ..)\n", s, level, optname));
}
sock_set_errno(sock, err);
return err ? -1 : 0;
}
int lwip_setsockopt (int s, int level, int optname, const void *optval, socklen_t optlen)
{
struct lwip_socket *sock = get_socket(s);
int err = ENOSYS;
if (!sock) {
return -1;
}
if (level == SOL_SOCKET) {
switch (optname) {
case SO_REUSEADDR:
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_setsockopt(%d, SOL_SOCKET, SO_REUSEADDR, ..)\n", s));
/* XXX just pretend we support this for now */
err = 0;
break;
default:
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_setsockopt(%d, SOL_SOCKET, UNIMPL: optname=0x%x, ..)\n", s, optname));
break;
}
} else {
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_setsockopt(%d, level=0x%x, UNIMPL: optname=0x%x, ..)\n", s, level, optname));
}
sock_set_errno(sock, err);
return err ? -1 : 0;
}
int lwip_ioctl(int s, long cmd, void *argp)
{
struct lwip_socket *sock = get_socket(s);
if (!sock) {
return -1;
}
switch (cmd) {
case FIONREAD:
if (!argp) {
sock_set_errno(sock, EINVAL);
return -1;
}
*((u16_t*)argp) = sock->conn->recv_avail;
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_ioctl(%d, FIONREAD, %p) = %u\n", s, argp, *((u16_t*)argp)));
sock_set_errno(sock, 0);
return 0;
case FIONBIO:
if (argp && *(u32_t*)argp)
sock->flags |= O_NONBLOCK;
else
sock->flags &= ~O_NONBLOCK;
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_ioctl(%d, FIONBIO, %d)\n", s, !!(sock->flags & O_NONBLOCK)));
sock_set_errno(sock, 0);
return 0;
default:
LWIP_DEBUGF(SOCKETS_DEBUG, ("lwip_ioctl(%d, UNIMPL: 0x%lx, %p)\n", s, cmd, argp));
sock_set_errno(sock, ENOSYS); /* not yet implemented */
return -1;
}
}
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