/* * GPL HEADER START * * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 only, * as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License version 2 for more details (a copy is included * in the LICENSE file that accompanied this code). * * You should have received a copy of the GNU General Public License * version 2 along with this program; If not, see * http://www.sun.com/software/products/lustre/docs/GPLv2.pdf * * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, * CA 95054 USA or visit www.sun.com if you need additional information or * have any questions. * * GPL HEADER END */ /* * Copyright (c) 2003, 2010, Oracle and/or its affiliates. All rights reserved. * Use is subject to license terms. * * Copyright (c) 2012, Intel Corporation. */ /* * This file is part of Lustre, http://www.lustre.org/ * Lustre is a trademark of Sun Microsystems, Inc. * * lnet/lnet/lib-me.c * * Match Entry management routines */ #define DEBUG_SUBSYSTEM S_LNET #include /** * Create and attach a match entry to the match list of \a portal. The new * ME is empty, i.e. not associated with a memory descriptor. LNetMDAttach() * can be used to attach a MD to an empty ME. * * \param portal The portal table index where the ME should be attached. * \param match_id Specifies the match criteria for the process ID of * the requester. The constants LNET_PID_ANY and LNET_NID_ANY can be * used to wildcard either of the identifiers in the lnet_process_id_t * structure. * \param match_bits,ignore_bits Specify the match criteria to apply * to the match bits in the incoming request. The ignore bits are used * to mask out insignificant bits in the incoming match bits. The resulting * bits are then compared to the ME's match bits to determine if the * incoming request meets the match criteria. * \param unlink Indicates whether the ME should be unlinked when the memory * descriptor associated with it is unlinked (Note that the check for * unlinking a ME only occurs when the memory descriptor is unlinked.). * Valid values are LNET_RETAIN and LNET_UNLINK. * \param pos Indicates whether the new ME should be prepended or * appended to the match list. Allowed constants: LNET_INS_BEFORE, * LNET_INS_AFTER. * \param handle On successful returns, a handle to the newly created ME * object is saved here. This handle can be used later in LNetMEInsert(), * LNetMEUnlink(), or LNetMDAttach() functions. * * \retval 0 On success. * \retval -EINVAL If \a portal is invalid. * \retval -ENOMEM If new ME object cannot be allocated. */ int LNetMEAttach(unsigned int portal, lnet_process_id_t match_id, __u64 match_bits, __u64 ignore_bits, lnet_unlink_t unlink, lnet_ins_pos_t pos, lnet_handle_me_t *handle) { struct lnet_match_table *mtable; struct lnet_me *me; cfs_list_t *head; LASSERT(the_lnet.ln_init); LASSERT(the_lnet.ln_refcount > 0); if ((int)portal >= the_lnet.ln_nportals) return -EINVAL; mtable = lnet_mt_of_attach(portal, match_id, match_bits, ignore_bits, pos); if (mtable == NULL) /* can't match portal type */ return -EPERM; me = lnet_me_alloc(); if (me == NULL) return -ENOMEM; lnet_res_lock(mtable->mt_cpt); me->me_portal = portal; me->me_match_id = match_id; me->me_match_bits = match_bits; me->me_ignore_bits = ignore_bits; me->me_unlink = unlink; me->me_md = NULL; lnet_res_lh_initialize(the_lnet.ln_me_containers[mtable->mt_cpt], &me->me_lh); if (ignore_bits != 0) head = &mtable->mt_mhash[LNET_MT_HASH_IGNORE]; else head = lnet_mt_match_head(mtable, match_id, match_bits); me->me_pos = head - &mtable->mt_mhash[0]; if (pos == LNET_INS_AFTER || pos == LNET_INS_LOCAL) cfs_list_add_tail(&me->me_list, head); else cfs_list_add(&me->me_list, head); lnet_me2handle(handle, me); lnet_res_unlock(mtable->mt_cpt); return 0; } EXPORT_SYMBOL(LNetMEAttach); /** * Create and a match entry and insert it before or after the ME pointed to by * \a current_meh. The new ME is empty, i.e. not associated with a memory * descriptor. LNetMDAttach() can be used to attach a MD to an empty ME. * * This function is identical to LNetMEAttach() except for the position * where the new ME is inserted. * * \param current_meh A handle for a ME. The new ME will be inserted * immediately before or immediately after this ME. * \param match_id,match_bits,ignore_bits,unlink,pos,handle See the discussion * for LNetMEAttach(). * * \retval 0 On success. * \retval -ENOMEM If new ME object cannot be allocated. * \retval -ENOENT If \a current_meh does not point to a valid match entry. */ int LNetMEInsert(lnet_handle_me_t current_meh, lnet_process_id_t match_id, __u64 match_bits, __u64 ignore_bits, lnet_unlink_t unlink, lnet_ins_pos_t pos, lnet_handle_me_t *handle) { struct lnet_me *current_me; struct lnet_me *new_me; struct lnet_portal *ptl; int cpt; LASSERT(the_lnet.ln_init); LASSERT(the_lnet.ln_refcount > 0); if (pos == LNET_INS_LOCAL) return -EPERM; new_me = lnet_me_alloc(); if (new_me == NULL) return -ENOMEM; cpt = lnet_cpt_of_cookie(current_meh.cookie); lnet_res_lock(cpt); current_me = lnet_handle2me(¤t_meh); if (current_me == NULL) { lnet_me_free_locked(new_me); lnet_res_unlock(cpt); return -ENOENT; } LASSERT(current_me->me_portal < the_lnet.ln_nportals); ptl = the_lnet.ln_portals[current_me->me_portal]; if (lnet_ptl_is_unique(ptl)) { /* nosense to insertion on unique portal */ lnet_me_free_locked(new_me); lnet_res_unlock(cpt); return -EPERM; } new_me->me_pos = current_me->me_pos; new_me->me_portal = current_me->me_portal; new_me->me_match_id = match_id; new_me->me_match_bits = match_bits; new_me->me_ignore_bits = ignore_bits; new_me->me_unlink = unlink; new_me->me_md = NULL; lnet_res_lh_initialize(the_lnet.ln_me_containers[cpt], &new_me->me_lh); if (pos == LNET_INS_AFTER) cfs_list_add(&new_me->me_list, ¤t_me->me_list); else cfs_list_add_tail(&new_me->me_list, ¤t_me->me_list); lnet_me2handle(handle, new_me); lnet_res_unlock(cpt); return 0; } EXPORT_SYMBOL(LNetMEInsert); /** * Unlink a match entry from its match list. * * This operation also releases any resources associated with the ME. If a * memory descriptor is attached to the ME, then it will be unlinked as well * and an unlink event will be generated. It is an error to use the ME handle * after calling LNetMEUnlink(). * * \param meh A handle for the ME to be unlinked. * * \retval 0 On success. * \retval -ENOENT If \a meh does not point to a valid ME. * \see LNetMDUnlink() for the discussion on delivering unlink event. */ int LNetMEUnlink(lnet_handle_me_t meh) { lnet_me_t *me; lnet_libmd_t *md; lnet_event_t ev; int cpt; LASSERT(the_lnet.ln_init); LASSERT(the_lnet.ln_refcount > 0); cpt = lnet_cpt_of_cookie(meh.cookie); lnet_res_lock(cpt); me = lnet_handle2me(&meh); if (me == NULL) { lnet_res_unlock(cpt); return -ENOENT; } md = me->me_md; if (md != NULL && md->md_eq != NULL && md->md_refcount == 0) { lnet_build_unlink_event(md, &ev); lnet_eq_enqueue_event(md->md_eq, &ev); } lnet_me_unlink(me); lnet_res_unlock(cpt); return 0; } EXPORT_SYMBOL(LNetMEUnlink); /* call with lnet_res_lock please */ void lnet_me_unlink(lnet_me_t *me) { cfs_list_del(&me->me_list); if (me->me_md != NULL) { lnet_libmd_t *md = me->me_md; /* detach MD from portal of this ME */ lnet_ptl_detach_md(me, md); lnet_md_unlink(md); } lnet_res_lh_invalidate(&me->me_lh); lnet_me_free_locked(me); } #if 0 static void lib_me_dump(lnet_me_t *me) { CWARN("Match Entry %p ("LPX64")\n", me, me->me_lh.lh_cookie); CWARN("\tMatch/Ignore\t= %016lx / %016lx\n", me->me_match_bits, me->me_ignore_bits); CWARN("\tMD\t= %p\n", me->md); CWARN("\tprev\t= %p\n", cfs_list_entry(me->me_list.prev, lnet_me_t, me_list)); CWARN("\tnext\t= %p\n", cfs_list_entry(me->me_list.next, lnet_me_t, me_list)); } #endif