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SOCKET(9) FreeBSD Kernel Developer's Manual SOCKET(9)
NAME
socket - kernel socket interface
SYNOPSIS
#include <sys/socket.h>
#include <sys/socketvar.h>
void
soabort(struct socket *so);
int
soaccept(struct socket *so, struct sockaddr **nam);
int
socheckuid(struct socket *so, uid_t uid);
int
sobind(struct socket *so, struct sockaddr *nam, struct thread *td);
void
soclose(struct socket *so);
int
soconnect(struct socket *so, struct sockaddr *nam, struct thread *td);
int
socreate(int dom, struct socket **aso, int type, int proto,
struct ucred *cred, struct thread *td);
int
sodisconnect(struct socket *so);
void
sodtor_set(struct socket *so, void (*func)(struct socket *));
struct sockaddr *
sodupsockaddr(const struct sockaddr *sa, int mflags);
void
sofree(struct socket *so);
void
sohasoutofband(struct socket *so);
int
solisten(struct socket *so, int backlog, struct thread *td);
void
solisten_proto(struct socket *so, int backlog);
int
solisten_proto_check(struct socket *so);
struct socket *
sonewconn(struct socket *head, int connstatus);
int
int
soreceive(struct socket *so, struct sockaddr **psa, struct uio *uio,
struct mbuf **mp0, struct mbuf **controlp, int *flagsp);
int
soreceive_stream(struct socket *so, struct sockaddr **paddr,
struct uio *uio, struct mbuf **mp0, struct mbuf **controlp,
int *flagsp);
int
soreceive_dgram(struct socket *so, struct sockaddr **paddr,
struct uio *uio, struct mbuf **mp0, struct mbuf **controlp,
int *flagsp);
int
soreceive_generic(struct socket *so, struct sockaddr **paddr,
struct uio *uio, struct mbuf **mp0, struct mbuf **controlp,
int *flagsp);
int
soreserve(struct socket *so, u_long sndcc, u_long rcvcc);
void
sorflush(struct socket *so);
int
sosend(struct socket *so, struct sockaddr *addr, struct uio *uio,
struct mbuf *top, struct mbuf *control, int flags,
struct thread *td);
int
sosend_dgram(struct socket *so, struct sockaddr *addr, struct uio *uio,
struct mbuf *top, struct mbuf *control, int flags,
struct thread *td);
int
sosend_generic(struct socket *so, struct sockaddr *addr, struct uio *uio,
struct mbuf *top, struct mbuf *control, int flags,
struct thread *td);
int
soshutdown(struct socket *so, int how);
void
sotoxsocket(struct socket *so, struct xsocket *xso);
void
soupcall_clear(struct socket *so, int which);
void
soupcall_set(struct socket *so, int which,
int (*func)(struct socket *, void *, int), void *arg);
void
sowakeup(struct socket *so, struct sockbuf *sb);
#include <sys/sockopt.h>
int
int
sooptcopyout(struct sockopt *sopt, const void *buf, size_t len);
DESCRIPTION
The kernel socket programming interface permits in-kernel consumers to
interact with local and network socket objects in a manner similar to
that permitted using the socket(2) user API. These interfaces are
appropriate for use by distributed file systems and other network-aware
kernel services. While the user API operates on file descriptors, the
kernel interfaces operate directly on struct socket pointers. Some
portions of the kernel API exist only to implement the user API, and are
not expected to be used by kernel code. The portions of the socket API
used by socket consumers and implementations of network protocols will
differ; some routines are only useful for protocol implementors.
Except where otherwise indicated, socket functions may sleep, and are not
appropriate for use in an interrupt thread context or while holding non-
sleepable kernel locks.
Creating and Destroying Sockets
A new socket may be created using socreate(). As with socket(2),
arguments specify the requested domain, type, and protocol via dom, type,
and proto. The socket is returned via aso on success. In addition, the
credential used to authorize operations associated with the socket will
be passed via cred (and will be cached for the lifetime of the socket),
and the thread performing the operation via td. Warning: authorization
of the socket creation operation will be performed using the thread
credential for some protocols (such as raw sockets).
Sockets may be closed and freed using soclose(), which has similar
semantics to close(2).
In certain circumstances, it is appropriate to destroy a socket without
waiting for it to disconnect, for which soabort() is used. This is only
appropriate for incoming connections which are in a partially connected
state. It must be called on an unreferenced socket, by the thread which
removed the socket from its listen queue, to prevent races. It will call
into protocol code, so no socket locks may be held over the call. The
caller of soabort() is responsible for setting the VNET context. The
normal path to freeing a socket is sofree(), which handles reference
counting on the socket. It should be called whenever a reference is
released, and also whenever reference flags are cleared in socket or
protocol code. Calls to sofree() should not be made from outside the
socket layer; outside callers should use soclose() instead.
Connections and Addresses
The sobind() function is equivalent to the bind(2) system call, and binds
the socket so to the address nam. The operation would be authorized
using the credential on thread td.
The soconnect() function is equivalent to the connect(2) system call, and
initiates a connection on the socket so to the address nam. The
operation will be authorized using the credential on thread td. Unlike
the user system call, soconnect() returns immediately; the caller may
msleep(9) on so->so_timeo while holding the socket mutex and waiting for
the SS_ISCONNECTING flag to clear or so->so_error to become non-zero. If
soconnect() fails, the caller must manually clear the SS_ISCONNECTING
flag.
solisten().
Socket Options
The sogetopt() function is equivalent to the getsockopt(2) system call,
and retrieves a socket option on socket so. The sosetopt() function is
equivalent to the setsockopt(2) system call, and sets a socket option on
socket so.
The second argument in both sogetopt() and sosetopt() is the sopt pointer
to a struct sopt describing the socket option operation. The caller-
allocated structure must be zeroed, and then have its fields initialized
to specify socket option operation arguments:
sopt_dir Set to SOPT_SET or SOPT_GET depending on whether this is a
get or set operation.
sopt_level Specify the level in the network stack the operation is
targeted at; for example, SOL_SOCKET.
sopt_name Specify the name of the socket option to set.
sopt_val Kernel space pointer to the argument value for the socket
option.
sopt_valsize Size of the argument value in bytes.
Socket Upcalls
In order for the owner of a socket to be notified when the socket is
ready to send or receive data, an upcall may be registered on the socket.
The upcall is a function that will be called by the socket framework when
a socket buffer associated with the given socket is ready for reading or
writing. soupcall_set() is used to register a socket upcall. The
function func is registered, and the pointer arg will be passed as its
second argument when it is called by the framework. The possible values
for which are SO_RCV and SO_SND, which register upcalls for receive and
send events, respectively. The upcall function func() must return either
SU_OK or SU_ISCONNECTED, depending on whether or not a call to
soisconnected should be made by the socket framework after the upcall
returns. The upcall func cannot call soisconnected itself due to lock
ordering with the socket buffer lock. Only SO_RCV upcalls should return
SU_ISCONNECTED. When a SO_RCV upcall returns SU_ISCONNECTED, the upcall
will be removed from the socket.
Upcalls are removed from their socket by soupcall_clear(). The which
argument again specifies whether the sending or receiving upcall is to be
cleared, with SO_RCV or SO_SND.
Socket Destructor Callback
A kernel system can use the sodtor_set() function to set a destructor for
a socket. The destructor is called when the socket is about to be freed.
The destructor is called before the protocol detach routine. The
destructor can serve as a callback to initiate additional cleanup
actions.
Socket I/O
The soreceive() function is equivalent to the recvmsg(2) system call, and
attempts to receive bytes of data from the socket so, optionally blocking
awaiting for data if none is ready to read. Data may be retrieved
directly to kernel or user memory via the uio argument, or as an mbuf
recvmsg(2) system call.
The sosend() function is equivalent to the sendmsg(2) system call, and
attempts to send bytes of data via the socket so, optionally blocking if
data cannot be immediately sent. Data may be sent directly from kernel
or user memory via the uio argument, or as an mbuf chain via top,
avoiding a data copy. Only one of the uio or top pointers may be
non-NULL. An optional destination address may be specified via a
non-NULL addr argument, which may result in an implicit connect if
supported by the protocol. The caller may optionally send control data
mbufs via a non-NULL control argument. Flags may be passed to sosend()
using the flags argument, and use the same flag name space as the
sendmsg(2) system call.
Kernel callers running in an interrupt thread context, or with a mutex
held, will wish to use non-blocking sockets and pass the MSG_DONTWAIT
flag in order to prevent these functions from sleeping.
A socket can be queried for readability, writability, out-of-band data,
or end-of-file using sopoll(). The possible values for events are as for
poll(2), with symbolic values POLLIN, POLLPRI, POLLOUT, POLLRDNORM,
POLLWRNORM, POLLRDBAND, and POLLINGEOF taken from <sys/poll.h>.
Calls to soaccept() pass through to the protocol's accept routine to
accept an incoming connection.
Socket Utility Functions
The uid of a socket's credential may be compared against a uid with
socheckuid().
A copy of an existing struct sockaddr may be made using sodupsockaddr().
Protocol implementations notify the socket layer of the arrival of out-
of-band data using sohasoutofband(), so that the socket layer can notify
socket consumers of the available data.
An "external-format" version of a struct socket can be created using
sotoxsocket(), suitable for isolating user code from changes in the
kernel structure.
Protocol Implementations
Protocols must supply an implementation for solisten(); such protocol
implementations can call back into the socket layer using
solisten_proto_check() and solisten_proto() to check and set the socket-
layer listen state. These callbacks are provided so that the protocol
implementation can order the socket layer and protocol locks as
necessary. Protocols must supply an implementation of soreceive(); the
functions soreceive_stream(), soreceive_dgram(), and soreceive_generic()
are supplied for use by such implementations.
Protocol implementations can use sonewconn() to create a socket and
attach protocol state to that socket. This can be used to create new
sockets available for soaccept() on a listen socket. The returned socket
has a reference count of zero.
Protocols must supply an implementation for sopoll(); sopoll_generic() is
provided for the use by protocol implementations.
The functions sosend_dgram() and sosend_generic() are supplied to assist
When a protocol needs to wake up threads waiting for the socket to become
ready to read or write, variants of sowakeup() are used. The sowakeup()
function should not be called directly by protocol code, instead use the
wrappers sorwakeup(), sorwakeup_locked(), sowwakeup(), and
sowwakeup_locked() for readers and writers, with the corresponding socket
buffer lock not already locked, or already held, respectively.
The functions sooptcopyin() and sooptcopyout() are useful for
transferring struct sockopt data between user and kernel code.
SEE ALSO
bind(2), close(2), connect(2), getsockopt(2), recv(2), send(2),
setsockopt(2), shutdown(2), socket(2), ng_ksocket(4), intr_event(9),
msleep(9), ucred(9)
HISTORY
The socket(2) system call appeared in 4.2BSD. This manual page was
introduced in FreeBSD 7.0.
AUTHORS
This manual page was written by Robert Watson and
Benjamin Kaduk.
BUGS
The use of explicitly passed credentials, credentials hung from
explicitly passed threads, the credential on curthread, and the cached
credential from socket creation time is inconsistent, and may lead to
unexpected behaviour. It is possible that several of the td arguments
should be cred arguments, or simply not be present at all.
The caller may need to manually clear SS_ISCONNECTING if soconnect()
returns an error.
The MSG_DONTWAIT flag is not implemented for sosend(), and may not always
work with soreceive() when zero copy sockets are enabled.
This manual page does not describe how to register socket upcalls or
monitor a socket for readability/writability without using blocking I/O.
The soref() and sorele() functions are not described, and in most cases
should not be used, due to confusing and potentially incorrect
interactions when sorele() is last called after soclose().
FreeBSD 14.0-RELEASE-p11 September 6, 2022 FreeBSD 14.0-RELEASE-p11