/* * Copyright (c) 2008-2017 Apple Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ /*! * @header kpi_socket.h * This header defines an API for creating and interacting with sockets * in the kernel. It is possible to create sockets in the kernel * without an associated file descriptor. In some cases, a reference to * the socket may be known while the file descriptor is not. These * functions can be used for interacting with sockets in the kernel. * The API is similar to the user space socket API. */ #ifndef __KPI_SOCKET__ #define __KPI_SOCKET__ #include #include #include #ifndef PRIVATE #include #define __NKE_API_DEPRECATED __API_DEPRECATED("Network Kernel Extension KPI is deprecated", macos(10.4, 10.15)) #else #define __NKE_API_DEPRECATED #endif /* PRIVATE */ __BEGIN_DECLS struct timeval; /*! * @typedef sock_upcall * * @discussion sock_upcall is used by a socket to notify an in kernel * client that data is waiting. Instead of making blocking calls in * the kernel, a client can specify an upcall which will be called * when data is available or the socket is ready for sending. * * Calls to your upcall function are not serialized and may be * called concurrently from multiple threads in the kernel. * * Your upcall function will be called: * when there is data more than the low water mark for reading, * or when there is space for a write, * or when there is a connection to accept, * or when a socket is connected, * or when a socket is closed or disconnected * * @param so A reference to the socket that's ready. * @param cookie The cookie passed in when the socket was created. * @param waitf Indicates whether or not it's safe to block. */ typedef void (*sock_upcall)(socket_t so, void *cookie, int waitf); #ifdef KERNEL_PRIVATE /*! * @typedef sock_evupcall * * @discussion sock_evupcall is used by a socket to notify an in kernel * client when an event occurs. Instead of making blocking calls in * the kernel, a client can specify an upcall which will be called * when an event status is available. * @param so A reference to the socket that's ready. * @param cookie The cookie passed in when the socket was created. * @param event Indicates the event as defined by SO_FILT_HINT_* */ typedef void (*sock_evupcall)(socket_t so, void *cookie, uint32_t event); #endif /* KERNEL_PRIVATE */ /*! * @function sock_accept * @discussion Accepts an incoming connection on a socket. See 'man 2 * accept' for more information. Allocating a socket in this manner * creates a socket with no associated file descriptor. * @param so The listening socket you'd like to accept a connection on. * @param from A pointer to a socket address that will be filled in * with the address the connection is from. * @param fromlen Maximum length of from. * @param flags Supports MSG_DONTWAIT and MSG_USEUPCALL. If * MSG_DONTWAIT is set, accept will return EWOULDBLOCK if there are * no connections ready to be accepted. If MSG_USEUPCALL is set, * the created socket will use the same upcall function attached to * the original socket. * @param callback A notifier function to be called when an event * occurs on the socket. This may be NULL. * @param cookie A cookie passed directly to the callback. * @param new_so Upon success, *new_so will be a reference to a new * socket for tracking the connection. * @result 0 on success otherwise the errno error. */ #ifdef KERNEL_PRIVATE extern errno_t sock_accept_internal(socket_t so, struct sockaddr *from, int fromlen, int flags, sock_upcall callback, void *cookie, socket_t *new_so); #define sock_accept(so, from, fromlen, flags, callback, cookie, new_so) \ sock_accept_internal((so), (from), (fromlen), (flags), (callback), \ (cookie), (new_so)) #else extern errno_t sock_accept(socket_t so, struct sockaddr *from, int fromlen, int flags, sock_upcall callback, void *cookie, socket_t *new_so) __NKE_API_DEPRECATED; #endif /* KERNEL_PRIVATE */ /*! * @function sock_bind * @discussion Binds a socket to a specific address. See 'man 2 bind' * for more information. * @param so The socket to be bound. * @param to The local address the socket should be bound to. * @result 0 on success otherwise the errno error. */ extern errno_t sock_bind(socket_t so, const struct sockaddr *to) __NKE_API_DEPRECATED; /*! * @function sock_connect * @discussion Initiates a connection on the socket. See 'man 2 * connect' for more information. * @param so The socket to be connect. * @param to The remote address the socket should connect to. * @param flags Flags for connecting. The only flag supported so far is * MSG_DONTWAIT. MSG_DONTWAIT will perform a non-blocking connect. * sock_connect will return immediately with EINPROGRESS. The * upcall, if supplied, will be called when the connection is * completed. * @result 0 on success, EINPROGRESS for a non-blocking connect that * has not completed, otherwise the errno error. */ extern errno_t sock_connect(socket_t so, const struct sockaddr *to, int flags) __NKE_API_DEPRECATED; #ifdef KERNEL_PRIVATE /* * This function was added to support NFS. NFS does something funny, * setting a short timeout and checking to see if it should abort the * connect every two seconds. Ideally, NFS would use the upcall to be * notified when the connect is complete. * * If you feel you need to use this function, please contact us to * explain why. * * @function sock_connectwait * @discussion Allows a caller to wait on a socket connect. * @param so The socket being connected. * @param tv The amount of time to wait. * @result 0 on success otherwise the errno error. EINPROGRESS will be * returned if the connection did not complete in the timeout * specified. */ extern errno_t sock_connectwait(socket_t so, const struct timeval *tv); #endif /* KERNEL_PRIVATE */ /*! * @function sock_getpeername * @discussion Retrieves the remote address of a connected socket. See * 'man 2 getpeername'. * @param so The socket. * @param peername Storage for the peer name. * @param peernamelen Length of storage for the peer name. * @result 0 on success otherwise the errno error. */ extern errno_t sock_getpeername(socket_t so, struct sockaddr *peername, int peernamelen) __NKE_API_DEPRECATED; /*! * @function sock_getsockname * @discussion Retrieves the local address of a socket. See 'man 2 * getsockname'. * @param so The socket. * @param sockname Storage for the local name. * @param socknamelen Length of storage for the socket name. * @result 0 on success otherwise the errno error. */ extern errno_t sock_getsockname(socket_t so, struct sockaddr *sockname, int socknamelen) __NKE_API_DEPRECATED; /*! * @function sock_getsockopt * @discussion Retrieves a socket option. See 'man 2 getsockopt'. * @param so The socket. * @param level Level of the socket option. * @param optname The option name. * @param optval The option value. * @param optlen The length of optval, returns the actual length. * @result 0 on success otherwise the errno error. */ extern errno_t sock_getsockopt(socket_t so, int level, int optname, void *optval, int *optlen) __NKE_API_DEPRECATED; /*! * @function sock_ioctl * @discussion Performs an ioctl operation on a socket. See 'man 2 ioctl'. * @param so The socket. * @param request The ioctl name. * @param argp The argument. * @result 0 on success otherwise the errno error. */ extern errno_t sock_ioctl(socket_t so, unsigned long request, void *argp) __NKE_API_DEPRECATED; /*! * @function sock_setsockopt * @discussion Sets a socket option. See 'man 2 setsockopt'. * @param so The socket. * @param level Level of the socket option. * @param optname The option name. * @param optval The option value. * @param optlen The length of optval. * @result 0 on success otherwise the errno error. */ extern errno_t sock_setsockopt(socket_t so, int level, int optname, const void *optval, int optlen) __NKE_API_DEPRECATED; #ifdef KERNEL_PRIVATE /* * This function was added to support AFP setting the traffic class * for a backup stream within a wireless LAN or over link-local address. * * If you feel you need to use this function, please contact us to * explain why. * * @function sock_settclassopt * @discussion Allows a caller to set the traffic class. * @param so The socket. * @param optval The option value. * @param optlen The length of optval. * @result 0 on success otherwise the errno error. */ extern errno_t sock_settclassopt(socket_t so, const void* optval, size_t optlen); /* * This function was added to support AFP getting the traffic class * set on a stream. * * This is also a private API, please contact us if you need to use it. * * @function sockgettclassopt * @discussion Allows a caller to get the traffic class. * @param so The socket. * @param optval The option value. * @param optlen The length of optval, returns the actual length. * @result 0 on success otherwise the errno error. */ extern errno_t sock_gettclassopt(socket_t so, void* optval, size_t* optlen); #ifdef XNU_KERNEL_PRIVATE extern void socket_set_traffic_mgt_flags_locked(socket_t so, u_int8_t flags); extern void socket_clear_traffic_mgt_flags_locked(socket_t so, u_int8_t flags); #endif /* XNU_KERNEL_PRIVATE */ #ifdef BSD_KERNEL_PRIVATE extern void socket_set_traffic_mgt_flags(socket_t so, u_int8_t flags); extern void socket_clear_traffic_mgt_flags(socket_t so, u_int8_t flags); extern errno_t socket_defunct(struct proc *, socket_t so, int); extern errno_t sock_receive_internal(socket_t, struct msghdr *, mbuf_t *, int, size_t *); #endif /* BSD_KERNEL_PRIVATE */ #endif /* KERNEL_PRIVATE */ /*! * @function sock_listen * @discussion Indicate that the socket should start accepting incoming * connections. See 'man 2 listen'. * @param so The socket. * @param backlog The maximum length of the queue of pending connections. * @result 0 on success otherwise the errno error. */ extern errno_t sock_listen(socket_t so, int backlog) __NKE_API_DEPRECATED; /*! * @function sock_receive * @discussion Receive data from a socket. Similar to recvmsg. See 'man * 2 recvmsg' for more information about receiving data. * @param so The socket. * @param msg The msg describing how the data should be received. * @param flags See 'man 2 recvmsg'. * @param recvdlen Number of bytes received, same as return value of * userland recvmsg. * @result 0 on success, EWOULDBLOCK if non-blocking and operation * would cause the thread to block, otherwise the errno error. */ extern errno_t sock_receive(socket_t so, struct msghdr *msg, int flags, size_t *recvdlen) __NKE_API_DEPRECATED; /*! * @function sock_receivembuf * @discussion Receive data from a socket. Similar to sock_receive * though data is returned as a chain of mbufs. See 'man 2 recvmsg' * for more information about receiving data. * @param so The socket. * @param msg The msg describing how the data should be received. May * be NULL. The msg_iov is ignored. * @param data Upon return *data will be a reference to an mbuf chain * containing the data received. This eliminates copying the data * out of the mbufs. Caller is responsible for freeing the mbufs. * @param flags See 'man 2 recvmsg'. * @param recvlen Maximum number of bytes to receive in the mbuf chain. * Upon return, this value will be set to the number of bytes * received, same as return value of userland recvmsg. * @result 0 on success, EWOULDBLOCK if non-blocking and operation * would cause the thread to block, otherwise the errno error. */ extern errno_t sock_receivembuf(socket_t so, struct msghdr *msg, mbuf_t *data, int flags, size_t *recvlen) __NKE_API_DEPRECATED; /*! * @function sock_send * @discussion Send data on a socket. Similar to sendmsg. See 'man 2 * sendmsg' for more information about sending data. * @param so The socket. * @param msg The msg describing how the data should be sent. Any * pointers must point to data in the kernel. * @param flags See 'man 2 sendmsg'. * @param sentlen The number of bytes sent. * @result 0 on success, EWOULDBLOCK if non-blocking and operation * would cause the thread to block, otherwise the errno error. */ extern errno_t sock_send(socket_t so, const struct msghdr *msg, int flags, size_t *sentlen) __NKE_API_DEPRECATED; /*! * @function sock_sendmbuf * @discussion Send data in an mbuf on a socket. Similar to sock_send * only the data to be sent is taken from the mbuf chain. * @param so The socket. * @param msg The msg describing how the data should be sent. The * msg_iov is ignored. msg may be NULL. * @param data The mbuf chain of data to send. * @param flags See 'man 2 sendmsg'. * @param sentlen The number of bytes sent. * @result 0 on success, EWOULDBLOCK if non-blocking and operation * would cause the thread to block, otherwise the errno error. * Regardless of return value, the mbuf chain 'data' will be freed. */ extern errno_t sock_sendmbuf(socket_t so, const struct msghdr *msg, mbuf_t data, int flags, size_t *sentlen) __NKE_API_DEPRECATED; #ifdef KERNEL_PRIVATE /*! * @function sock_sendmbuf_can_wait * @discussion Variation of sock_sendmbuf that can wait for the send socket * buffer to drain when it is full instead of returning EMSGSIZE. * @param so The socket. * @param msg The msg describing how the data should be sent. The * msg_iov is ignored. msg may be NULL. * @param data The mbuf chain of data to send. * @param flags See 'man 2 sendmsg'. * @param sentlen The number of bytes sent. * @result 0 on success, EWOULDBLOCK if non-blocking and operation * would cause the thread to block, otherwise the errno error. * Regardless of return value, the mbuf chain 'data' will be freed. */ extern errno_t sock_sendmbuf_can_wait(socket_t so, const struct msghdr *msg, mbuf_t data, int flags, size_t *sentlen); #define HAS_SOCK_SENDMBUF_CAN_WAIT 1 #endif /* KERNEL_PRIVATE */ /*! * @function sock_shutdown * @discussion Shutdown one or both directions of a connection. See * 'man 2 shutdown' for more information. * @param so The socket. * @param how SHUT_RD - shutdown receive. * SHUT_WR - shutdown send. * SHUT_RDWR - shutdown both. * @result 0 on success otherwise the errno error. */ extern errno_t sock_shutdown(socket_t so, int how) __NKE_API_DEPRECATED; /*! * @function sock_socket * @discussion Allocate a socket. Allocating a socket in this manner * creates a socket with no associated file descriptor. For more * information, see 'man 2 socket'. * @param domain The socket domain (PF_INET, etc...). * @param type The socket type (SOCK_STREAM, SOCK_DGRAM, etc...). * @param protocol The socket protocol. * @param callback A notifier function to be called when an event * occurs on the socket. This may be NULL. * @param cookie A cookie passed directly to the callback. * @param new_so Upon success, a reference to the new socket. * @result 0 on success otherwise the errno error. */ #ifdef KERNEL_PRIVATE extern errno_t sock_socket_internal(int domain, int type, int protocol, sock_upcall callback, void *cookie, socket_t *new_so); #define sock_socket(domain, type, protocol, callback, cookie, new_so) \ sock_socket_internal((domain), (type), (protocol), \ (callback), (cookie), (new_so)) #else extern errno_t sock_socket(int domain, int type, int protocol, sock_upcall callback, void *cookie, socket_t *new_so) __NKE_API_DEPRECATED; #endif /* KERNEL_PRIVATE */ /*! * @function sock_close * @discussion Close the socket. * @param so The socket to close. This should only ever be a socket * created with sock_socket. Closing a socket created in user space * using sock_close may leave a file descriptor pointing to the * closed socket, resulting in undefined behavior. */ extern void sock_close(socket_t so) __NKE_API_DEPRECATED; /* * @function sock_retain * @discussion Prevents the socket from closing * @param so The socket to close. Increment a retain count on the * socket, preventing it from being closed when sock_close is * called. This is used when a File Descriptor is passed (and * closed) from userland and the kext wants to keep ownership of * that socket. It is used in conjunction with * sock_release(socket_t so). */ extern void sock_retain(socket_t so) __NKE_API_DEPRECATED; /* * @function sock_release * @discussion Decrement the retain count and close the socket if the * retain count reaches zero. * @param so The socket to release. This is used to release ownership * on a socket acquired with sock_retain. When the last retain * count is reached, this will call sock_close to close the socket. */ extern void sock_release(socket_t so) __NKE_API_DEPRECATED; /*! * @function sock_setpriv * @discussion Set the privileged bit in the socket. Allows for * operations that require root privileges. * @param so The socket on which to modify the SS_PRIV flag. * @param on Indicate whether or not the SS_PRIV flag should be set. * @result 0 on success otherwise the errno error. */ extern errno_t sock_setpriv(socket_t so, int on) __NKE_API_DEPRECATED; /*! * @function sock_isconnected * @discussion Returns whether or not the socket is connected. * @param so The socket to check. * @result 0 - socket is not connected. 1 - socket is connected. */ extern int sock_isconnected(socket_t so) __NKE_API_DEPRECATED; /*! * @function sock_isnonblocking * @discussion Returns whether or not the socket is non-blocking. In * the context of this KPI, non-blocking means that functions to * perform operations on a socket will not wait for completion. * * To enable or disable blocking, use the FIONBIO ioctl. The * parameter is an int. If the int is zero, the socket will block. * If the parameter is non-zero, the socket will not block. * @result 0 - socket will block. 1 - socket will not block. */ extern int sock_isnonblocking(socket_t so) __NKE_API_DEPRECATED; /*! * @function sock_gettype * @discussion Retrieves information about the socket. This is the same * information that was used to create the socket. If any of the * parameters following so are NULL, that information is not * retrieved. * @param so The socket to check. * @param domain The domain of the socket (PF_INET, ...). May be NULL. * @param type The socket type (SOCK_STREAM, SOCK_DGRAM, ...). May be NULL. * @param protocol The socket protocol. May be NULL. * @result 0 on success otherwise the errno error. */ extern errno_t sock_gettype(socket_t so, int *domain, int *type, int *protocol) __NKE_API_DEPRECATED; #ifdef KERNEL_PRIVATE /* * @function sock_nointerrupt * @discussion Disables interrupt on socket buffers (sets SB_NOINTR on * send and receive socket buffers). * @param so The socket to modify. * @param on Indicate whether or not the SB_NOINTR flag should be set. * @result 0 on success otherwise the errno error. */ extern errno_t sock_nointerrupt(socket_t so, int on); /* * @function sock_getlistener * @discussion Retrieves the listening socket of a pre-accepted socket, * i.e. a socket which is still in the incomplete/completed list. * Once a socket has been accepted, the information pertaining * to its listener is no longer available. Therefore, modules * interested in finding out the listening socket should install * the appropriate socket filter callback (sf_attach) which gets * invoked prior to the socket being fully accepted, and call * this routine at such a time to obtain the listener. Callers * are guaranteed that the listener socket will not go away * during the sf_attach callback, and therefore the value is * safe to be used only in that callback context. Callers should * therefore take note that the listening socket's lock will be * held throughout the duration of the callback. * @param so The pre-accepted socket. * @result Non-NULL value which indicates the listening socket; otherwise, * NULL if the socket is not in the incomplete/completed list * of a listener. */ extern socket_t sock_getlistener(socket_t so); /* * @function sock_getaddr * @discussion Retrieves the local or remote address of a socket. * This is a composite of sock_getpeername and sock_getsockname, * except that the allocated socket address is returned to the * caller, and that the caller is reponsible for calling * sock_freeaddr once finished with it. * @param so The socket. * @param psockname Pointer to the storage for the socket name. * @param peername 0 for local address, and non-zero for peer address. * @result 0 on success otherwise the errno error. */ extern errno_t sock_getaddr(socket_t so, struct sockaddr **psockname, int peername); /* * @function sock_freeaddr * @discussion Frees the socket address allocated by sock_getaddr. * @param sockname The socket name to be freed. */ extern void sock_freeaddr(struct sockaddr *sockname); /* * @function sock_setupcall * @discussion Set the notifier function to be called when an event * occurs on the socket. This may be set to NULL to disable * further notifications. Setting the function does not * affect currently notifications about to be sent or being sent. * Note: When this function is used on a socket passed from * userspace it is crucial to call sock_retain() on the socket * otherwise a callback could be dispatched on a closed socket * and cause a crash. * @param sock The socket. * @param callback The notifier function * @param context A cookie passed directly to the callback */ extern errno_t sock_setupcall(socket_t sock, sock_upcall callback, void *context); /* * @function sock_setupcalls * @discussion Set the notifier function to be called when an event * occurs on the socket. This may be set to NULL to disable * further notifications. Setting the function does not * affect currently notifications about to be sent or being sent. * Note: When this function is used on a socket passed from * userspace it is crucial to call sock_retain() on the socket * otherwise a callback could be dispatched on a closed socket * and cause a crash. * @param sock The socket. * @param read_callback The read notifier function * @param read_context A cookie passed directly to the read callback * @param write_callback The write notifier function * @param write_context A cookie passed directly to the write callback */ extern errno_t sock_setupcalls(socket_t sock, sock_upcall read_callback, void *read_context, sock_upcall write_callback, void *write_context); /* * @function sock_setupcalls_locked * @discussion The locked version of sock_setupcalls * @param locked: When sets, indicates that the callbacks expect to be * on a locked socket. Thus, no unlock is done prior to * calling the callback. */ extern void sock_setupcalls_locked(socket_t sock, sock_upcall rcallback, void *rcontext, sock_upcall wcallback, void *wcontext, int locked); /* * @function sock_catchevents * @discussion Set the notifier function to be called when an event * occurs on the socket. This may be set to NULL to disable * further notifications. Setting the function does not * affect currently notifications about to be sent or being sent. * @param sock The socket. * @param event_callback The event notifier function * @param event_context A cookie passed directly to the event callback * @param event_mask One or more SO_FILT_HINT_* values OR'ed together, * indicating the registered event(s). */ extern errno_t sock_catchevents(socket_t sock, sock_evupcall event_callback, void *event_context, uint32_t event_mask); extern void sock_catchevents_locked(socket_t sock, sock_evupcall ecallback, void *econtext, uint32_t emask); /* * @function sock_iskernel * @discussion Returns true if the socket was created by the kernel or * is owned by the kernel. * @param sock The socket. * @result True if the kernel owns the socket. */ extern int sock_iskernel(socket_t); #endif /* KERNEL_PRIVATE */ __END_DECLS #undef __NKE_API_DEPRECATED #endif /* __KPI_SOCKET__ */