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/*- * Copyright (c) 2001-2007, by Cisco Systems, Inc. All rights reserved. * Copyright (c) 2008-2012, by Randall Stewart. All rights reserved. * Copyright (c) 2008-2012, by Michael Tuexen. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * a) Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * b) Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the distribution. * * c) Neither the name of Cisco Systems, Inc. nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/netinet/sctp_lock_bsd.h 237896 2012-07-01 07:59:00Z tuexen $"); #ifndef _NETINET_SCTP_LOCK_BSD_H_ #define _NETINET_SCTP_LOCK_BSD_H_ /* * General locking concepts: The goal of our locking is to of course provide * consistency and yet minimize overhead. We will attempt to use * non-recursive locks which are supposed to be quite inexpensive. Now in * order to do this the goal is that most functions are not aware of locking. * Once we have a TCB we lock it and unlock when we are through. This means * that the TCB lock is kind-of a "global" lock when working on an * association. Caution must be used when asserting a TCB_LOCK since if we * recurse we deadlock. * * Most other locks (INP and INFO) attempt to localize the locking i.e. we try * to contain the lock and unlock within the function that needs to lock it. * This sometimes mean we do extra locks and unlocks and lose a bit of * efficency, but if the performance statements about non-recursive locks are * true this should not be a problem. One issue that arises with this only * lock when needed is that if an implicit association setup is done we have * a problem. If at the time I lookup an association I have NULL in the tcb * return, by the time I call to create the association some other processor * could have created it. This is what the CREATE lock on the endpoint. * Places where we will be implicitly creating the association OR just * creating an association (the connect call) will assert the CREATE_INP * lock. This will assure us that during all the lookup of INP and INFO if * another creator is also locking/looking up we can gate the two to * synchronize. So the CREATE_INP lock is also another one we must use * extreme caution in locking to make sure we don't hit a re-entrancy issue. * * For non FreeBSD 5.x we provide a bunch of EMPTY lock macros so we can * blatantly put locks everywhere and they reduce to nothing on * NetBSD/OpenBSD and FreeBSD 4.x * */ /* * When working with the global SCTP lists we lock and unlock the INP_INFO * lock. So when we go to lookup an association we will want to do a * SCTP_INP_INFO_RLOCK() and then when we want to add a new association to * the SCTP_BASE_INFO() list's we will do a SCTP_INP_INFO_WLOCK(). */ extern struct sctp_foo_stuff sctp_logoff[]; extern int sctp_logoff_stuff; #define SCTP_IPI_COUNT_INIT() #define SCTP_STATLOG_INIT_LOCK() #define SCTP_STATLOG_LOCK() #define SCTP_STATLOG_UNLOCK() #define SCTP_STATLOG_DESTROY() #define SCTP_INP_INFO_LOCK_DESTROY() do { \ if(rw_wowned(&SCTP_BASE_INFO(ipi_ep_mtx))) { \ rw_wunlock(&SCTP_BASE_INFO(ipi_ep_mtx)); \ } \ rw_destroy(&SCTP_BASE_INFO(ipi_ep_mtx)); \ } while (0) #define SCTP_INP_INFO_LOCK_INIT() \ rw_init(&SCTP_BASE_INFO(ipi_ep_mtx), "sctp-info"); #define SCTP_INP_INFO_RLOCK() do { \ rw_rlock(&SCTP_BASE_INFO(ipi_ep_mtx)); \ } while (0) #define SCTP_MCORE_QLOCK_INIT(cpstr) do { \ mtx_init(&(cpstr)->que_mtx, \ "sctp-mcore_queue","queue_lock", \ MTX_DEF|MTX_DUPOK); \ } while (0) #define SCTP_MCORE_QLOCK(cpstr) do { \ mtx_lock(&(cpstr)->que_mtx); \ } while (0) #define SCTP_MCORE_QUNLOCK(cpstr) do { \ mtx_unlock(&(cpstr)->que_mtx); \ } while (0) #define SCTP_MCORE_QDESTROY(cpstr) do { \ if(mtx_owned(&(cpstr)->core_mtx)) { \ mtx_unlock(&(cpstr)->que_mtx); \ } \ mtx_destroy(&(cpstr)->que_mtx); \ } while (0) #define SCTP_MCORE_LOCK_INIT(cpstr) do { \ mtx_init(&(cpstr)->core_mtx, \ "sctp-cpulck","cpu_proc_lock", \ MTX_DEF|MTX_DUPOK); \ } while (0) #define SCTP_MCORE_LOCK(cpstr) do { \ mtx_lock(&(cpstr)->core_mtx); \ } while (0) #define SCTP_MCORE_UNLOCK(cpstr) do { \ mtx_unlock(&(cpstr)->core_mtx); \ } while (0) #define SCTP_MCORE_DESTROY(cpstr) do { \ if(mtx_owned(&(cpstr)->core_mtx)) { \ mtx_unlock(&(cpstr)->core_mtx); \ } \ mtx_destroy(&(cpstr)->core_mtx); \ } while (0) #define SCTP_INP_INFO_WLOCK() do { \ rw_wlock(&SCTP_BASE_INFO(ipi_ep_mtx)); \ } while (0) #define SCTP_INP_INFO_RUNLOCK() rw_runlock(&SCTP_BASE_INFO(ipi_ep_mtx)) #define SCTP_INP_INFO_WUNLOCK() rw_wunlock(&SCTP_BASE_INFO(ipi_ep_mtx)) #define SCTP_IPI_ADDR_INIT() \ rw_init(&SCTP_BASE_INFO(ipi_addr_mtx), "sctp-addr") #define SCTP_IPI_ADDR_DESTROY() do { \ if(rw_wowned(&SCTP_BASE_INFO(ipi_addr_mtx))) { \ rw_wunlock(&SCTP_BASE_INFO(ipi_addr_mtx)); \ } \ rw_destroy(&SCTP_BASE_INFO(ipi_addr_mtx)); \ } while (0) #define SCTP_IPI_ADDR_RLOCK() do { \ rw_rlock(&SCTP_BASE_INFO(ipi_addr_mtx)); \ } while (0) #define SCTP_IPI_ADDR_WLOCK() do { \ rw_wlock(&SCTP_BASE_INFO(ipi_addr_mtx)); \ } while (0) #define SCTP_IPI_ADDR_RUNLOCK() rw_runlock(&SCTP_BASE_INFO(ipi_addr_mtx)) #define SCTP_IPI_ADDR_WUNLOCK() rw_wunlock(&SCTP_BASE_INFO(ipi_addr_mtx)) #define SCTP_IPI_ITERATOR_WQ_INIT() \ mtx_init(&sctp_it_ctl.ipi_iterator_wq_mtx, "sctp-it-wq", "sctp_it_wq", MTX_DEF) #define SCTP_IPI_ITERATOR_WQ_DESTROY() \ mtx_destroy(&sctp_it_ctl.ipi_iterator_wq_mtx) #define SCTP_IPI_ITERATOR_WQ_LOCK() do { \ mtx_lock(&sctp_it_ctl.ipi_iterator_wq_mtx); \ } while (0) #define SCTP_IPI_ITERATOR_WQ_UNLOCK() mtx_unlock(&sctp_it_ctl.ipi_iterator_wq_mtx) #define SCTP_IP_PKTLOG_INIT() \ mtx_init(&SCTP_BASE_INFO(ipi_pktlog_mtx), "sctp-pktlog", "packetlog", MTX_DEF) #define SCTP_IP_PKTLOG_LOCK() do { \ mtx_lock(&SCTP_BASE_INFO(ipi_pktlog_mtx)); \ } while (0) #define SCTP_IP_PKTLOG_UNLOCK() mtx_unlock(&SCTP_BASE_INFO(ipi_pktlog_mtx)) #define SCTP_IP_PKTLOG_DESTROY() \ mtx_destroy(&SCTP_BASE_INFO(ipi_pktlog_mtx)) /* * The INP locks we will use for locking an SCTP endpoint, so for example if * we want to change something at the endpoint level for example random_store * or cookie secrets we lock the INP level. */ #define SCTP_INP_READ_INIT(_inp) \ mtx_init(&(_inp)->inp_rdata_mtx, "sctp-read", "inpr", MTX_DEF | MTX_DUPOK) #define SCTP_INP_READ_DESTROY(_inp) \ mtx_destroy(&(_inp)->inp_rdata_mtx) #define SCTP_INP_READ_LOCK(_inp) do { \ mtx_lock(&(_inp)->inp_rdata_mtx); \ } while (0) #define SCTP_INP_READ_UNLOCK(_inp) mtx_unlock(&(_inp)->inp_rdata_mtx) #define SCTP_INP_LOCK_INIT(_inp) \ mtx_init(&(_inp)->inp_mtx, "sctp-inp", "inp", MTX_DEF | MTX_DUPOK) #define SCTP_ASOC_CREATE_LOCK_INIT(_inp) \ mtx_init(&(_inp)->inp_create_mtx, "sctp-create", "inp_create", \ MTX_DEF | MTX_DUPOK) #define SCTP_INP_LOCK_DESTROY(_inp) \ mtx_destroy(&(_inp)->inp_mtx) #define SCTP_INP_LOCK_CONTENDED(_inp) ((_inp)->inp_mtx.mtx_lock & MTX_CONTESTED) #define SCTP_INP_READ_CONTENDED(_inp) ((_inp)->inp_rdata_mtx.mtx_lock & MTX_CONTESTED) #define SCTP_ASOC_CREATE_LOCK_CONTENDED(_inp) ((_inp)->inp_create_mtx.mtx_lock & MTX_CONTESTED) #define SCTP_ASOC_CREATE_LOCK_DESTROY(_inp) \ mtx_destroy(&(_inp)->inp_create_mtx) #ifdef SCTP_LOCK_LOGGING #define SCTP_INP_RLOCK(_inp) do { \ if(SCTP_BASE_SYSCTL(sctp_logging_level) & SCTP_LOCK_LOGGING_ENABLE) sctp_log_lock(_inp, (struct sctp_tcb *)NULL, SCTP_LOG_LOCK_INP);\ mtx_lock(&(_inp)->inp_mtx); \ } while (0) #define SCTP_INP_WLOCK(_inp) do { \ if(SCTP_BASE_SYSCTL(sctp_logging_level) & SCTP_LOCK_LOGGING_ENABLE) sctp_log_lock(_inp, (struct sctp_tcb *)NULL, SCTP_LOG_LOCK_INP);\ mtx_lock(&(_inp)->inp_mtx); \ } while (0) #else #define SCTP_INP_RLOCK(_inp) do { \ mtx_lock(&(_inp)->inp_mtx); \ } while (0) #define SCTP_INP_WLOCK(_inp) do { \ mtx_lock(&(_inp)->inp_mtx); \ } while (0) #endif #define SCTP_TCB_SEND_LOCK_INIT(_tcb) \ mtx_init(&(_tcb)->tcb_send_mtx, "sctp-send-tcb", "tcbs", MTX_DEF | MTX_DUPOK) #define SCTP_TCB_SEND_LOCK_DESTROY(_tcb) mtx_destroy(&(_tcb)->tcb_send_mtx) #define SCTP_TCB_SEND_LOCK(_tcb) do { \ mtx_lock(&(_tcb)->tcb_send_mtx); \ } while (0) #define SCTP_TCB_SEND_UNLOCK(_tcb) mtx_unlock(&(_tcb)->tcb_send_mtx) #define SCTP_INP_INCR_REF(_inp) atomic_add_int(&((_inp)->refcount), 1) #define SCTP_INP_DECR_REF(_inp) atomic_add_int(&((_inp)->refcount), -1) #ifdef SCTP_LOCK_LOGGING #define SCTP_ASOC_CREATE_LOCK(_inp) \ do { \ if(SCTP_BASE_SYSCTL(sctp_logging_level) & SCTP_LOCK_LOGGING_ENABLE) sctp_log_lock(_inp, (struct sctp_tcb *)NULL, SCTP_LOG_LOCK_CREATE); \ mtx_lock(&(_inp)->inp_create_mtx); \ } while (0) #else #define SCTP_ASOC_CREATE_LOCK(_inp) \ do { \ mtx_lock(&(_inp)->inp_create_mtx); \ } while (0) #endif #define SCTP_INP_RUNLOCK(_inp) mtx_unlock(&(_inp)->inp_mtx) #define SCTP_INP_WUNLOCK(_inp) mtx_unlock(&(_inp)->inp_mtx) #define SCTP_ASOC_CREATE_UNLOCK(_inp) mtx_unlock(&(_inp)->inp_create_mtx) /* * For the majority of things (once we have found the association) we will * lock the actual association mutex. This will protect all the assoiciation * level queues and streams and such. We will need to lock the socket layer * when we stuff data up into the receiving sb_mb. I.e. we will need to do an * extra SOCKBUF_LOCK(&so->so_rcv) even though the association is locked. */ #define SCTP_TCB_LOCK_INIT(_tcb) \ mtx_init(&(_tcb)->tcb_mtx, "sctp-tcb", "tcb", MTX_DEF | MTX_DUPOK) #define SCTP_TCB_LOCK_DESTROY(_tcb) mtx_destroy(&(_tcb)->tcb_mtx) #ifdef SCTP_LOCK_LOGGING #define SCTP_TCB_LOCK(_tcb) do { \ if(SCTP_BASE_SYSCTL(sctp_logging_level) & SCTP_LOCK_LOGGING_ENABLE) sctp_log_lock(_tcb->sctp_ep, _tcb, SCTP_LOG_LOCK_TCB); \ mtx_lock(&(_tcb)->tcb_mtx); \ } while (0) #else #define SCTP_TCB_LOCK(_tcb) do { \ mtx_lock(&(_tcb)->tcb_mtx); \ } while (0) #endif #define SCTP_TCB_TRYLOCK(_tcb) mtx_trylock(&(_tcb)->tcb_mtx) #define SCTP_TCB_UNLOCK(_tcb) mtx_unlock(&(_tcb)->tcb_mtx) #define SCTP_TCB_UNLOCK_IFOWNED(_tcb) do { \ if (mtx_owned(&(_tcb)->tcb_mtx)) \ mtx_unlock(&(_tcb)->tcb_mtx); \ } while (0) #ifdef INVARIANTS #define SCTP_TCB_LOCK_ASSERT(_tcb) do { \ if (mtx_owned(&(_tcb)->tcb_mtx) == 0) \ panic("Don't own TCB lock"); \ } while (0) #else #define SCTP_TCB_LOCK_ASSERT(_tcb) #endif #define SCTP_ITERATOR_LOCK_INIT() \ mtx_init(&sctp_it_ctl.it_mtx, "sctp-it", "iterator", MTX_DEF) #ifdef INVARIANTS #define SCTP_ITERATOR_LOCK() \ do { \ if (mtx_owned(&sctp_it_ctl.it_mtx)) \ panic("Iterator Lock"); \ mtx_lock(&sctp_it_ctl.it_mtx); \ } while (0) #else #define SCTP_ITERATOR_LOCK() \ do { \ mtx_lock(&sctp_it_ctl.it_mtx); \ } while (0) #endif #define SCTP_ITERATOR_UNLOCK() mtx_unlock(&sctp_it_ctl.it_mtx) #define SCTP_ITERATOR_LOCK_DESTROY() mtx_destroy(&sctp_it_ctl.it_mtx) #define SCTP_WQ_ADDR_INIT() do { \ mtx_init(&SCTP_BASE_INFO(wq_addr_mtx), "sctp-addr-wq","sctp_addr_wq",MTX_DEF); \ } while (0) #define SCTP_WQ_ADDR_DESTROY() do { \ if(mtx_owned(&SCTP_BASE_INFO(wq_addr_mtx))) { \ mtx_unlock(&SCTP_BASE_INFO(wq_addr_mtx)); \ } \ mtx_destroy(&SCTP_BASE_INFO(wq_addr_mtx)); \ } while (0) #define SCTP_WQ_ADDR_LOCK() do { \ mtx_lock(&SCTP_BASE_INFO(wq_addr_mtx)); \ } while (0) #define SCTP_WQ_ADDR_UNLOCK() do { \ mtx_unlock(&SCTP_BASE_INFO(wq_addr_mtx)); \ } while (0) #define SCTP_INCR_EP_COUNT() \ do { \ atomic_add_int(&SCTP_BASE_INFO(ipi_count_ep), 1); \ } while (0) #define SCTP_DECR_EP_COUNT() \ do { \ atomic_subtract_int(&SCTP_BASE_INFO(ipi_count_ep), 1); \ } while (0) #define SCTP_INCR_ASOC_COUNT() \ do { \ atomic_add_int(&SCTP_BASE_INFO(ipi_count_asoc), 1); \ } while (0) #define SCTP_DECR_ASOC_COUNT() \ do { \ atomic_subtract_int(&SCTP_BASE_INFO(ipi_count_asoc), 1); \ } while (0) #define SCTP_INCR_LADDR_COUNT() \ do { \ atomic_add_int(&SCTP_BASE_INFO(ipi_count_laddr), 1); \ } while (0) #define SCTP_DECR_LADDR_COUNT() \ do { \ atomic_subtract_int(&SCTP_BASE_INFO(ipi_count_laddr), 1); \ } while (0) #define SCTP_INCR_RADDR_COUNT() \ do { \ atomic_add_int(&SCTP_BASE_INFO(ipi_count_raddr), 1); \ } while (0) #define SCTP_DECR_RADDR_COUNT() \ do { \ atomic_subtract_int(&SCTP_BASE_INFO(ipi_count_raddr),1); \ } while (0) #define SCTP_INCR_CHK_COUNT() \ do { \ atomic_add_int(&SCTP_BASE_INFO(ipi_count_chunk), 1); \ } while (0) #ifdef INVARIANTS #define SCTP_DECR_CHK_COUNT() \ do { \ if(SCTP_BASE_INFO(ipi_count_chunk) == 0) \ panic("chunk count to 0?"); \ atomic_subtract_int(&SCTP_BASE_INFO(ipi_count_chunk), 1); \ } while (0) #else #define SCTP_DECR_CHK_COUNT() \ do { \ if(SCTP_BASE_INFO(ipi_count_chunk) != 0) \ atomic_subtract_int(&SCTP_BASE_INFO(ipi_count_chunk), 1); \ } while (0) #endif #define SCTP_INCR_READQ_COUNT() \ do { \ atomic_add_int(&SCTP_BASE_INFO(ipi_count_readq),1); \ } while (0) #define SCTP_DECR_READQ_COUNT() \ do { \ atomic_subtract_int(&SCTP_BASE_INFO(ipi_count_readq), 1); \ } while (0) #define SCTP_INCR_STRMOQ_COUNT() \ do { \ atomic_add_int(&SCTP_BASE_INFO(ipi_count_strmoq), 1); \ } while (0) #define SCTP_DECR_STRMOQ_COUNT() \ do { \ atomic_subtract_int(&SCTP_BASE_INFO(ipi_count_strmoq), 1); \ } while (0) #if defined(SCTP_SO_LOCK_TESTING) #define SCTP_INP_SO(sctpinp) (sctpinp)->ip_inp.inp.inp_socket #define SCTP_SOCKET_LOCK(so, refcnt) #define SCTP_SOCKET_UNLOCK(so, refcnt) #endif #endif