diff options
author | Miles Bader <miles@gnu.org> | 1995-07-16 03:40:39 +0000 |
---|---|---|
committer | Miles Bader <miles@gnu.org> | 1995-07-16 03:40:39 +0000 |
commit | 8efd3ff1b7caa4344d70ad5916c54395b13a0ebd (patch) | |
tree | 8244c607c9c8efabd145cacd316acfefc9ff9928 | |
parent | 45dc410fdd43cba826092e39de153fbfbea1ce28 (diff) |
Formerly sock.c.~7~
-rw-r--r-- | pflocal/sock.c | 127 |
1 files changed, 98 insertions, 29 deletions
diff --git a/pflocal/sock.c b/pflocal/sock.c index 056f632a..667ab708 100644 --- a/pflocal/sock.c +++ b/pflocal/sock.c @@ -129,21 +129,8 @@ sock_free (struct sock *sock) /* But we must do the read pipe ourselves. */ pipe_release (sock->read_pipe); - - free (sock); } - -/* Remove a reference from SOCK, possibly freeing it. */ -void -sock_unref (struct sock *sock) -{ - mutex_lock (&sock->lock); - if (--sock->refs == 0) - sock_free (sock); - else - mutex_unlock (&sock->lock); -} /* ---------------------------------------------------------------- */ @@ -154,7 +141,19 @@ static void clean_sock_user (void *vuser) { struct sock_user *user = vuser; - sock_unref (user->sock); + struct sock *sock = user->sock; + + /* Remove a reference from SOCK, possibly freeing it. */ + mutex_lock (&sock->lock); + if (--sock->refs == 0) + { + /* A sock should never have an address when it has 0 refs, as the + address should hold a reference to the sock! */ + assert (sock->addr == NULL); + sock_free (sock); + } + else + mutex_unlock (&sock->lock); } /* Return a new user port on SOCK in PORT. */ @@ -167,8 +166,8 @@ sock_create_port (struct sock *sock, mach_port_t *port) sock_user_port_class = ports_create_class (NULL, clean_sock_user); user = - port_allocate_port (pflocal_port_bucket, - sizeof (struct sock_user), sock_user_port_class); + ports_allocate_port (pflocal_port_bucket, + sizeof (struct sock_user), sock_user_port_class); if (!user) return ENOMEM; @@ -185,45 +184,94 @@ sock_create_port (struct sock *sock, mach_port_t *port) } /* ---------------------------------------------------------------- */ +/* Address manipulation. */ + +struct port_class *addr_port_class = NULL; + +/* Cleanup after the address ADDR, which is going away... */ +static void +clean_addr (void *vaddr) +{ + struct addr *addr = vaddr; + + struct sock *sock = addr->sock; + /* ... */ +} + +inline error_t +addr_create (struct addr **addr) +{ + if (addr_port_class == NULL) + addr_port_class = ports_create_class (NULL, clean_addr); + + *addr = + ports_allocate_port (pflocal_port_bucket, + sizeof (struct addr), addr_port_class); + if (! *addr) + return ENOMEM; + + (*addr)->sock = NULL; + return 0; +} + /* Bind SOCK to ADDR. */ error_t sock_bind (struct sock *sock, struct addr *addr) { error_t err = 0; + struct addr *old_addr; - mutex_lock (&sock->lock); mutex_lock (&addr->lock); + mutex_lock (&sock->lock); - if (addr && sock->addr) + old_addr = sock->addr + if (addr && old_addr) err = EINVAL; /* SOCK already bound. */ else if (addr && addr->sock) err = EADDRINUSE; /* Something else already bound ADDR. */ else if (addr) addr->sock = sock; /* First binding for SOCK. */ else - sock->addr->sock = NULL; /* Unbinding SOCK. */ + old_addr->sock = NULL; /* Unbinding SOCK. */ if (!err) sock->addr = addr; - mutex_unlock (&addr->lock); + if (addr) + sock->refs++; + if (old_addr) + { + /* Note that we don't have to worry about SOCK's ref count going to zero + because whoever's calling us should be holding a ref somehow. */ + sock->refs--; + assert (sock->refs > 0); /* But make sure... */ + } + mutex_unlock (&sock->lock); + mutex_unlock (&addr->lock); return err; } /* Returns SOCK's addr, fabricating one if necessary. SOCK should be locked. */ -static struct addr * -ensure_addr (struct sock *sock) +static inline error_t +ensure_addr (struct sock *sock, struct addr **addr) { - if (! sock->addr) + error_t err = 0; + + if (! sock->addr || sock->addr->refcnt == 0) { - addr_create (&sock->addr); - sock->addr->sock = sock; + err = addr_create (&sock->addr); + if (!err) + { + sock->addr->sock = sock; + sock->refs++; + } } - return sock->addr; + *addr = sock->addr; + return err; } /* Returns a send right to SOCK's address in ADDR_PORT. If SOCK doesn't @@ -231,10 +279,32 @@ ensure_addr (struct sock *sock) error_t sock_get_addr_port (struct sock *sock, mach_port_t *addr_port) { + error_t err; + struct addr *addr; + mutex_lock (&sock->lock); - *addr_port = ports_get_right (ensure_addr (sock)); + err = ensure_addr (sock, addr); + if (!err) + *addr_port = ports_get_right (addr); + mutex_unlock (&sock->lock); + + return err; +} + +/* Returns SOCK's address in ADDR, with an additional reference added. If + SOCK doesn't currently have an address, one is fabricated first. */ +error_t +sock_get_addr (struct sock *sock, struct addr *addr) +{ + error_t err; + + mutex_lock (&sock->lock); + err = ensure_addr (sock, addr); + if (!err) + ports_port_ref (*addr); mutex_unlock (&sock->lock); - return 0; /* XXX */ + + return err; /* XXX */ } /* If SOCK is a connected socket, returns a send right to SOCK's peer's @@ -363,4 +433,3 @@ sock_shutdown (struct sock *sock, unsigned flags) else mutex_unlock (&sock->lock); } - |