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* 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.gnu.org/licenses/gpl-2.0.html
*
* GPL HEADER END
*/
/*
* Copyright (c) 2002, 2010, Oracle and/or its affiliates. All rights reserved.
* Use is subject to license terms.
*
* Copyright (c) 2011, 2015, Intel Corporation.
*/
/*
* This file is part of Lustre, http://www.lustre.org/
* Lustre is a trademark of Sun Microsystems, Inc.
*/
#define DEBUG_SUBSYSTEM S_OSC
#include "../../include/linux/libcfs/libcfs.h"
#include "../include/lustre_dlm.h"
#include "../include/lustre_net.h"
#include "../include/lustre/lustre_user.h"
#include "../include/obd_cksum.h"
#include "../include/lustre_ha.h"
#include "../include/lprocfs_status.h"
#include "../include/lustre/lustre_ioctl.h"
#include "../include/lustre_debug.h"
#include "../include/lustre_param.h"
#include "../include/lustre_fid.h"
#include "../include/obd_class.h"
#include "../include/obd.h"
#include "osc_internal.h"
#include "osc_cl_internal.h"
atomic_t osc_pool_req_count;
unsigned int osc_reqpool_maxreqcount;
struct ptlrpc_request_pool *osc_rq_pool;
/* max memory used for request pool, unit is MB */
static unsigned int osc_reqpool_mem_max = 5;
module_param(osc_reqpool_mem_max, uint, 0444);
struct osc_brw_async_args {
struct obdo *aa_oa;
int aa_requested_nob;
int aa_nio_count;
u32 aa_page_count;
int aa_resends;
struct brw_page **aa_ppga;
struct client_obd *aa_cli;
struct list_head aa_oaps;
struct list_head aa_exts;
struct cl_req *aa_clerq;
};
struct osc_async_args {
struct obd_info *aa_oi;
};
struct osc_setattr_args {
struct obdo *sa_oa;
obd_enqueue_update_f sa_upcall;
void *sa_cookie;
};
struct osc_fsync_args {
struct obd_info *fa_oi;
obd_enqueue_update_f fa_upcall;
void *fa_cookie;
};
struct osc_enqueue_args {
struct obd_export *oa_exp;
enum ldlm_type oa_type;
enum ldlm_mode oa_mode;
__u64 *oa_flags;
osc_enqueue_upcall_f oa_upcall;
void *oa_cookie;
struct ost_lvb *oa_lvb;
struct lustre_handle oa_lockh;
unsigned int oa_agl:1;
};
static void osc_release_ppga(struct brw_page **ppga, u32 count);
static int brw_interpret(const struct lu_env *env,
struct ptlrpc_request *req, void *data, int rc);
/* Unpack OSC object metadata from disk storage (LE byte order). */
static int osc_unpackmd(struct obd_export *exp, struct lov_stripe_md **lsmp,
struct lov_mds_md *lmm, int lmm_bytes)
{
int lsm_size;
struct obd_import *imp = class_exp2cliimp(exp);
if (lmm) {
if (lmm_bytes < sizeof(*lmm)) {
CERROR("%s: lov_mds_md too small: %d, need %d\n",
exp->exp_obd->obd_name, lmm_bytes,
(int)sizeof(*lmm));
return -EINVAL;
}
/* XXX LOV_MAGIC etc check? */
if (unlikely(ostid_id(&lmm->lmm_oi) == 0)) {
CERROR("%s: zero lmm_object_id: rc = %d\n",
exp->exp_obd->obd_name, -EINVAL);
return -EINVAL;
}
}
lsm_size = lov_stripe_md_size(1);
if (!lsmp)
return lsm_size;
if (*lsmp && !lmm) {
kfree((*lsmp)->lsm_oinfo[0]);
kfree(*lsmp);
*lsmp = NULL;
return 0;
}
if (!*lsmp) {
*lsmp = kzalloc(lsm_size, GFP_NOFS);
if (unlikely(!*lsmp))
return -ENOMEM;
(*lsmp)->lsm_oinfo[0] = kzalloc(sizeof(struct lov_oinfo),
GFP_NOFS);
if (unlikely(!(*lsmp)->lsm_oinfo[0])) {
kfree(*lsmp);
return -ENOMEM;
}
loi_init((*lsmp)->lsm_oinfo[0]);
} else if (unlikely(ostid_id(&(*lsmp)->lsm_oi) == 0)) {
return -EBADF;
}
if (lmm)
/* XXX zero *lsmp? */
ostid_le_to_cpu(&lmm->lmm_oi, &(*lsmp)->lsm_oi);
if (imp &&
(imp->imp_connect_data.ocd_connect_flags & OBD_CONNECT_MAXBYTES))
(*lsmp)->lsm_maxbytes = imp->imp_connect_data.ocd_maxbytes;
else
(*lsmp)->lsm_maxbytes = LUSTRE_EXT3_STRIPE_MAXBYTES;
return lsm_size;
}
static inline void osc_pack_req_body(struct ptlrpc_request *req,
struct obd_info *oinfo)
{
struct ost_body *body;
body = req_capsule_client_get(&req->rq_pill, &RMF_OST_BODY);
LASSERT(body);
lustre_set_wire_obdo(&req->rq_import->imp_connect_data, &body->oa,
oinfo->oi_oa);
}
static int osc_getattr_interpret(const struct lu_env *env,
struct ptlrpc_request *req,
struct osc_async_args *aa, int rc)
{
struct ost_body *body;
if (rc != 0)
goto out;
body = req_capsule_server_get(&req->rq_pill, &RMF_OST_BODY);
if (body) {
CDEBUG(D_INODE, "mode: %o\n", body->oa.o_mode);
lustre_get_wire_obdo(&req->rq_import->imp_connect_data,
aa->aa_oi->oi_oa, &body->oa);
/* This should really be sent by the OST */
aa->aa_oi->oi_oa->o_blksize = DT_MAX_BRW_SIZE;
aa->aa_oi->oi_oa->o_valid |= OBD_MD_FLBLKSZ;
} else {
CDEBUG(D_INFO, "can't unpack ost_body\n");
rc = -EPROTO;
aa->aa_oi->oi_oa->o_valid = 0;
}
out:
rc = aa->aa_oi->oi_cb_up(aa->aa_oi, rc);
return rc;
}
static int osc_getattr_async(struct obd_export *exp, struct obd_info *oinfo,
struct ptlrpc_request_set *set)
{
struct ptlrpc_request *req;
struct osc_async_args *aa;
int rc;
req = ptlrpc_request_alloc(class_exp2cliimp(exp), &RQF_OST_GETATTR);
if (!req)
return -ENOMEM;
rc = ptlrpc_request_pack(req, LUSTRE_OST_VERSION, OST_GETATTR);
if (rc) {
ptlrpc_request_free(req);
return rc;
}
osc_pack_req_body(req, oinfo);
ptlrpc_request_set_replen(req);
req->rq_interpret_reply = (ptlrpc_interpterer_t)osc_getattr_interpret;
CLASSERT(sizeof(*aa) <= sizeof(req->rq_async_args));
aa = ptlrpc_req_async_args(req);
aa->aa_oi = oinfo;
ptlrpc_set_add_req(set, req);
return 0;
}
static int osc_getattr(const struct lu_env *env, struct obd_export *exp,
struct obd_info *oinfo)
{
struct ptlrpc_request *req;
struct ost_body *body;
int rc;
req = ptlrpc_request_alloc(class_exp2cliimp(exp), &RQF_OST_GETATTR);
if (!req)
return -ENOMEM;
rc = ptlrpc_request_pack(req, LUSTRE_OST_VERSION, OST_GETATTR);
if (rc) {
ptlrpc_request_free(req);
return rc;
}
osc_pack_req_body(req, oinfo);
ptlrpc_request_set_replen(req);
rc = ptlrpc_queue_wait(req);
if (rc)
goto out;
body = req_capsule_server_get(&req->rq_pill, &RMF_OST_BODY);
if (!body) {
rc = -EPROTO;
goto out;
}
CDEBUG(D_INODE, "mode: %o\n", body->oa.o_mode);
lustre_get_wire_obdo(&req->rq_import->imp_connect_data, oinfo->oi_oa,
&body->oa);
oinfo->oi_oa->o_blksize = cli_brw_size(exp->exp_obd);
oinfo->oi_oa->o_valid |= OBD_MD_FLBLKSZ;
out:
ptlrpc_req_finished(req);
return rc;
}
static int osc_setattr(const struct lu_env *env, struct obd_export *exp,
struct obd_info *oinfo, struct obd_trans_info *oti)
{
struct ptlrpc_request *req;
struct ost_body *body;
int rc;
LASSERT(oinfo->oi_oa->o_valid & OBD_MD_FLGROUP);
req = ptlrpc_request_alloc(class_exp2cliimp(exp), &RQF_OST_SETATTR);
if (!req)
return -ENOMEM;
rc = ptlrpc_request_pack(req, LUSTRE_OST_VERSION, OST_SETATTR);
if (rc) {
ptlrpc_request_free(req);
return rc;
}
osc_pack_req_body(req, oinfo);
ptlrpc_request_set_replen(req);
rc = ptlrpc_queue_wait(req);
if (rc)
goto out;
body = req_capsule_server_get(&req->rq_pill, &RMF_OST_BODY);
if (!body) {
rc = -EPROTO;
goto out;
}
lustre_get_wire_obdo(&req->rq_import->imp_connect_data, oinfo->oi_oa,
&body->oa);
out:
ptlrpc_req_finished(req);
return rc;
}
static int osc_setattr_interpret(const struct lu_env *env,
struct ptlrpc_request *req,
struct osc_setattr_args *sa, int rc)
{
struct ost_body *body;
if (rc != 0)
goto out;
body = req_capsule_server_get(&req->rq_pill, &RMF_OST_BODY);
if (!body) {
rc = -EPROTO;
goto out;
}
lustre_get_wire_obdo(&req->rq_import->imp_connect_data, sa->sa_oa,
&body->oa);
out:
rc = sa->sa_upcall(sa->sa_cookie, rc);
return rc;
}
int osc_setattr_async_base(struct obd_export *exp, struct obd_info *oinfo,
struct obd_trans_info *oti,
obd_enqueue_update_f upcall, void *cookie,
struct ptlrpc_request_set *rqset)
{
struct ptlrpc_request *req;
struct osc_setattr_args *sa;
int rc;
req = ptlrpc_request_alloc(class_exp2cliimp(exp), &RQF_OST_SETATTR);
if (!req)
return -ENOMEM;
rc = ptlrpc_request_pack(req, LUSTRE_OST_VERSION, OST_SETATTR);
if (rc) {
ptlrpc_request_free(req);
return rc;
}
if (oti && oinfo->oi_oa->o_valid & OBD_MD_FLCOOKIE)
oinfo->oi_oa->o_lcookie = *oti->oti_logcookies;
osc_pack_req_body(req, oinfo);
ptlrpc_request_set_replen(req);
/* do mds to ost setattr asynchronously */
if (!rqset) {
/* Do not wait for response. */
ptlrpcd_add_req(req);
} else {
req->rq_interpret_reply =
(ptlrpc_interpterer_t)osc_setattr_interpret;
CLASSERT(sizeof(*sa) <= sizeof(req->rq_async_args));
sa = ptlrpc_req_async_args(req);
sa->sa_oa = oinfo->oi_oa;
sa->sa_upcall = upcall;
sa->sa_cookie = cookie;
if (rqset == PTLRPCD_SET)
ptlrpcd_add_req(req);
else
ptlrpc_set_add_req(rqset, req);
}
return 0;
}
static int osc_setattr_async(struct obd_export *exp, struct obd_info *oinfo,
struct obd_trans_info *oti,
struct ptlrpc_request_set *rqset)
{
return osc_setattr_async_base(exp, oinfo, oti,
oinfo->oi_cb_up, oinfo, rqset);
}
static int osc_create(const struct lu_env *env, struct obd_export *exp,
struct obdo *oa, struct obd_trans_info *oti)
{
struct ptlrpc_request *req;
struct ost_body *body;
int rc;
LASSERT(oa);
LASSERT(oa->o_valid & OBD_MD_FLGROUP);
LASSERT(fid_seq_is_echo(ostid_seq(&oa->o_oi)));
req = ptlrpc_request_alloc(class_exp2cliimp(exp), &RQF_OST_CREATE);
if (!req) {
rc = -ENOMEM;
goto out;
}
rc = ptlrpc_request_pack(req, LUSTRE_OST_VERSION, OST_CREATE);
if (rc) {
ptlrpc_request_free(req);
goto out;
}
body = req_capsule_client_get(&req->rq_pill, &RMF_OST_BODY);
LASSERT(body);
lustre_set_wire_obdo(&req->rq_import->imp_connect_data, &body->oa, oa);
ptlrpc_request_set_replen(req);
if ((oa->o_valid & OBD_MD_FLFLAGS) &&
oa->o_flags == OBD_FL_DELORPHAN) {
DEBUG_REQ(D_HA, req,
"delorphan from OST integration");
/* Don't resend the delorphan req */
req->rq_no_resend = 1;
req->rq_no_delay = 1;
}
rc = ptlrpc_queue_wait(req);
if (rc)
goto out_req;
body = req_capsule_server_get(&req->rq_pill, &RMF_OST_BODY);
if (!body) {
rc = -EPROTO;
goto out_req;
}
CDEBUG(D_INFO, "oa flags %x\n", oa->o_flags);
lustre_get_wire_obdo(&req->rq_import->imp_connect_data, oa, &body->oa);
oa->o_blksize = cli_brw_size(exp->exp_obd);
oa->o_valid |= OBD_MD_FLBLKSZ;
if (oti && oa->o_valid & OBD_MD_FLCOOKIE) {
if (!oti->oti_logcookies)
oti->oti_logcookies = &oti->oti_onecookie;
*oti->oti_logcookies = oa->o_lcookie;
}
CDEBUG(D_HA, "transno: %lld\n",
lustre_msg_get_transno(req->rq_repmsg));
out_req:
ptlrpc_req_finished(req);
out:
return rc;
}
int osc_punch_base(struct obd_export *exp, struct obd_info *oinfo,
obd_enqueue_update_f upcall, void *cookie,
struct ptlrpc_request_set *rqset)
{
struct ptlrpc_request *req;
struct osc_setattr_args *sa;
struct ost_body *body;
int rc;
req = ptlrpc_request_alloc(class_exp2cliimp(exp), &RQF_OST_PUNCH);
if (!req)
return -ENOMEM;
rc = ptlrpc_request_pack(req, LUSTRE_OST_VERSION, OST_PUNCH);
if (rc) {
ptlrpc_request_free(req);
return rc;
}
req->rq_request_portal = OST_IO_PORTAL; /* bug 7198 */
ptlrpc_at_set_req_timeout(req);
body = req_capsule_client_get(&req->rq_pill, &RMF_OST_BODY);
LASSERT(body);
lustre_set_wire_obdo(&req->rq_import->imp_connect_data, &body->oa,
oinfo->oi_oa);
ptlrpc_request_set_replen(req);
req->rq_interpret_reply = (ptlrpc_interpterer_t)osc_setattr_interpret;
CLASSERT(sizeof(*sa) <= sizeof(req->rq_async_args));
sa = ptlrpc_req_async_args(req);
sa->sa_oa = oinfo->oi_oa;
sa->sa_upcall = upcall;
sa->sa_cookie = cookie;
if (rqset == PTLRPCD_SET)
ptlrpcd_add_req(req);
else
ptlrpc_set_add_req(rqset, req);
return 0;
}
static int osc_sync_interpret(const struct lu_env *env,
struct ptlrpc_request *req,
void *arg, int rc)
{
struct osc_fsync_args *fa = arg;
struct ost_body *body;
if (rc)
goto out;
body = req_capsule_server_get(&req->rq_pill, &RMF_OST_BODY);
if (!body) {
CERROR("can't unpack ost_body\n");
rc = -EPROTO;
goto out;
}
*fa->fa_oi->oi_oa = body->oa;
out:
rc = fa->fa_upcall(fa->fa_cookie, rc);
return rc;
}
int osc_sync_base(struct obd_export *exp, struct obd_info *oinfo,
obd_enqueue_update_f upcall, void *cookie,
struct ptlrpc_request_set *rqset)
{
struct ptlrpc_request *req;
struct ost_body *body;
struct osc_fsync_args *fa;
int rc;
req = ptlrpc_request_alloc(class_exp2cliimp(exp), &RQF_OST_SYNC);
if (!req)
return -ENOMEM;
rc = ptlrpc_request_pack(req, LUSTRE_OST_VERSION, OST_SYNC);
if (rc) {
ptlrpc_request_free(req);
return rc;
}
/* overload the size and blocks fields in the oa with start/end */
body = req_capsule_client_get(&req->rq_pill, &RMF_OST_BODY);
LASSERT(body);
lustre_set_wire_obdo(&req->rq_import->imp_connect_data, &body->oa,
oinfo->oi_oa);
ptlrpc_request_set_replen(req);
req->rq_interpret_reply = osc_sync_interpret;
CLASSERT(sizeof(*fa) <= sizeof(req->rq_async_args));
fa = ptlrpc_req_async_args(req);
fa->fa_oi = oinfo;
fa->fa_upcall = upcall;
fa->fa_cookie = cookie;
if (rqset == PTLRPCD_SET)
ptlrpcd_add_req(req);
else
ptlrpc_set_add_req(rqset, req);
return 0;
}
/* Find and cancel locally locks matched by @mode in the resource found by
* @objid. Found locks are added into @cancel list. Returns the amount of
* locks added to @cancels list.
*/
static int osc_resource_get_unused(struct obd_export *exp, struct obdo *oa,
struct list_head *cancels,
enum ldlm_mode mode, __u64 lock_flags)
{
struct ldlm_namespace *ns = exp->exp_obd->obd_namespace;
struct ldlm_res_id res_id;
struct ldlm_resource *res;
int count;
/* Return, i.e. cancel nothing, only if ELC is supported (flag in
* export) but disabled through procfs (flag in NS).
*
* This distinguishes from a case when ELC is not supported originally,
* when we still want to cancel locks in advance and just cancel them
* locally, without sending any RPC.
*/
if (exp_connect_cancelset(exp) && !ns_connect_cancelset(ns))
return 0;
ostid_build_res_name(&oa->o_oi, &res_id);
res = ldlm_resource_get(ns, NULL, &res_id, 0, 0);
if (IS_ERR(res))
return 0;
LDLM_RESOURCE_ADDREF(res);
count = ldlm_cancel_resource_local(res, cancels, NULL, mode,
lock_flags, 0, NULL);
LDLM_RESOURCE_DELREF(res);
ldlm_resource_putref(res);
return count;
}
static int osc_destroy_interpret(const struct lu_env *env,
struct ptlrpc_request *req, void *data,
int rc)
{
struct client_obd *cli = &req->rq_import->imp_obd->u.cli;
atomic_dec(&cli->cl_destroy_in_flight);
wake_up(&cli->cl_destroy_waitq);
return 0;
}
static int osc_can_send_destroy(struct client_obd *cli)
{
if (atomic_inc_return(&cli->cl_destroy_in_flight) <=
cli->cl_max_rpcs_in_flight) {
/* The destroy request can be sent */
return 1;
}
if (atomic_dec_return(&cli->cl_destroy_in_flight) <
cli->cl_max_rpcs_in_flight) {
/*
* The counter has been modified between the two atomic
* operations.
*/
wake_up(&cli->cl_destroy_waitq);
}
return 0;
}
/* Destroy requests can be async always on the client, and we don't even really
* care about the return code since the client cannot do anything at all about
* a destroy failure.
* When the MDS is unlinking a filename, it saves the file objects into a
* recovery llog, and these object records are cancelled when the OST reports
* they were destroyed and sync'd to disk (i.e. transaction committed).
* If the client dies, or the OST is down when the object should be destroyed,
* the records are not cancelled, and when the OST reconnects to the MDS next,
* it will retrieve the llog unlink logs and then sends the log cancellation
* cookies to the MDS after committing destroy transactions.
*/
static int osc_destroy(const struct lu_env *env, struct obd_export *exp,
struct obdo *oa, struct obd_trans_info *oti)
{
struct client_obd *cli = &exp->exp_obd->u.cli;
struct ptlrpc_request *req;
struct ost_body *body;
LIST_HEAD(cancels);
int rc, count;
if (!oa) {
CDEBUG(D_INFO, "oa NULL\n");
return -EINVAL;
}
count = osc_resource_get_unused(exp, oa, &cancels, LCK_PW,
LDLM_FL_DISCARD_DATA);
req = ptlrpc_request_alloc(class_exp2cliimp(exp), &RQF_OST_DESTROY);
if (!req) {
ldlm_lock_list_put(&cancels, l_bl_ast, count);
return -ENOMEM;
}
rc = ldlm_prep_elc_req(exp, req, LUSTRE_OST_VERSION, OST_DESTROY,
0, &cancels, count);
if (rc) {
ptlrpc_request_free(req);
return rc;
}
req->rq_request_portal = OST_IO_PORTAL; /* bug 7198 */
ptlrpc_at_set_req_timeout(req);
if (oti && oa->o_valid & OBD_MD_FLCOOKIE)
oa->o_lcookie = *oti->oti_logcookies;
body = req_capsule_client_get(&req->rq_pill, &RMF_OST_BODY);
LASSERT(body);
lustre_set_wire_obdo(&req->rq_import->imp_connect_data, &body->oa, oa);
ptlrpc_request_set_replen(req);
/* If osc_destroy is for destroying the unlink orphan,
* sent from MDT to OST, which should not be blocked here,
* because the process might be triggered by ptlrpcd, and
* it is not good to block ptlrpcd thread (b=16006
**/
if (!(oa->o_flags & OBD_FL_DELORPHAN)) {
req->rq_interpret_reply = osc_destroy_interpret;
if (!osc_can_send_destroy(cli)) {
struct l_wait_info lwi = LWI_INTR(LWI_ON_SIGNAL_NOOP,
NULL);
/*
* Wait until the number of on-going destroy RPCs drops
* under max_rpc_in_flight
*/
l_wait_event_exclusive(cli->cl_destroy_waitq,
osc_can_send_destroy(cli), &lwi);
}
}
/* Do not wait for response */
ptlrpcd_add_req(req);
return 0;
}
static void osc_announce_cached(struct client_obd *cli, struct obdo *oa,
long writing_bytes)
{
u32 bits = OBD_MD_FLBLOCKS | OBD_MD_FLGRANT;
LASSERT(!(oa->o_valid & bits));
oa->o_valid |= bits;
spin_lock(&cli->cl_loi_list_lock);
oa->o_dirty = cli->cl_dirty_pages << PAGE_SHIFT;
if (unlikely(cli->cl_dirty_pages - cli->cl_dirty_transit >
cli->cl_dirty_max_pages)) {
CERROR("dirty %lu - %lu > dirty_max %lu\n",
cli->cl_dirty_pages, cli->cl_dirty_transit,
cli->cl_dirty_max_pages);
oa->o_undirty = 0;
} else if (unlikely(atomic_long_read(&obd_dirty_pages) -
atomic_long_read(&obd_dirty_transit_pages) >
(obd_max_dirty_pages + 1))) {
/* The atomic_read() allowing the atomic_inc() are
* not covered by a lock thus they may safely race and trip
* this CERROR() unless we add in a small fudge factor (+1).
*/
CERROR("%s: dirty %ld + %ld > system dirty_max %lu\n",
cli->cl_import->imp_obd->obd_name,
atomic_long_read(&obd_dirty_pages),
atomic_long_read(&obd_dirty_transit_pages),
obd_max_dirty_pages);
oa->o_undirty = 0;
} else if (unlikely(cli->cl_dirty_max_pages - cli->cl_dirty_pages >
0x7fffffff)) {
CERROR("dirty %lu - dirty_max %lu too big???\n",
cli->cl_dirty_pages, cli->cl_dirty_max_pages);
oa->o_undirty = 0;
} else {
unsigned long max_in_flight;
max_in_flight = (cli->cl_max_pages_per_rpc << PAGE_SHIFT) *
(cli->cl_max_rpcs_in_flight + 1);
oa->o_undirty = max(cli->cl_dirty_max_pages << PAGE_SHIFT,
max_in_flight);
}
oa->o_grant = cli->cl_avail_grant + cli->cl_reserved_grant;
oa->o_dropped = cli->cl_lost_grant;
cli->cl_lost_grant = 0;
spin_unlock(&cli->cl_loi_list_lock);
CDEBUG(D_CACHE, "dirty: %llu undirty: %u dropped %u grant: %llu\n",
oa->o_dirty, oa->o_undirty, oa->o_dropped, oa->o_grant);
}
void osc_update_next_shrink(struct client_obd *cli)
{
cli->cl_next_shrink_grant =
cfs_time_shift(cli->cl_grant_shrink_interval);
CDEBUG(D_CACHE, "next time %ld to shrink grant\n",
cli->cl_next_shrink_grant);
}
static void __osc_update_grant(struct client_obd *cli, u64 grant)
{
spin_lock(&cli->cl_loi_list_lock);
cli->cl_avail_grant += grant;
spin_unlock(&cli->cl_loi_list_lock);
}
static void osc_update_grant(struct client_obd *cli, struct ost_body *body)
{
if (body->oa.o_valid & OBD_MD_FLGRANT) {
CDEBUG(D_CACHE, "got %llu extra grant\n", body->oa.o_grant);
__osc_update_grant(cli, body->oa.o_grant);
}
}
static int osc_set_info_async(const struct lu_env *env, struct obd_export *exp,
u32 keylen, void *key, u32 vallen,
void *val, struct ptlrpc_request_set *set);
static int osc_shrink_grant_interpret(const struct lu_env *env,
struct ptlrpc_request *req,
void *aa, int rc)
{
struct client_obd *cli = &req->rq_import->imp_obd->u.cli;
struct obdo *oa = ((struct osc_brw_async_args *)aa)->aa_oa;
struct ost_body *body;
if (rc != 0) {
__osc_update_grant(cli, oa->o_grant);
goto out;
}
body = req_capsule_server_get(&req->rq_pill, &RMF_OST_BODY);
LASSERT(body);
osc_update_grant(cli, body);
out:
kmem_cache_free(obdo_cachep, oa);
return rc;
}
static void osc_shrink_grant_local(struct client_obd *cli, struct obdo *oa)
{
spin_lock(&cli->cl_loi_list_lock);
oa->o_grant = cli->cl_avail_grant / 4;
cli->cl_avail_grant -= oa->o_grant;
spin_unlock(&cli->cl_loi_list_lock);
if (!(oa->o_valid & OBD_MD_FLFLAGS)) {
oa->o_valid |= OBD_MD_FLFLAGS;
oa->o_flags = 0;
}
oa->o_flags |= OBD_FL_SHRINK_GRANT;
osc_update_next_shrink(cli);
}
/* Shrink the current grant, either from some large amount to enough for a
* full set of in-flight RPCs, or if we have already shrunk to that limit
* then to enough for a single RPC. This avoids keeping more grant than
* needed, and avoids shrinking the grant piecemeal.
*/
static int osc_shrink_grant(struct client_obd *cli)
{
__u64 target_bytes = (cli->cl_max_rpcs_in_flight + 1) *
(cli->cl_max_pages_per_rpc << PAGE_SHIFT);
spin_lock(&cli->cl_loi_list_lock);
if (cli->cl_avail_grant <= target_bytes)
target_bytes = cli->cl_max_pages_per_rpc << PAGE_SHIFT;
spin_unlock(&cli->cl_loi_list_lock);
return osc_shrink_grant_to_target(cli, target_bytes);
}
int osc_shrink_grant_to_target(struct client_obd *cli, __u64 target_bytes)
{
int rc = 0;
struct ost_body *body;
spin_lock(&cli->cl_loi_list_lock);
/* Don't shrink if we are already above or below the desired limit
* We don't want to shrink below a single RPC, as that will negatively
* impact block allocation and long-term performance.
*/
if (target_bytes < cli->cl_max_pages_per_rpc << PAGE_SHIFT)
target_bytes = cli->cl_max_pages_per_rpc << PAGE_SHIFT;
if (target_bytes >= cli->cl_avail_grant) {
spin_unlock(&cli->cl_loi_list_lock);
return 0;
}
spin_unlock(&cli->cl_loi_list_lock);
body = kzalloc(sizeof(*body), GFP_NOFS);
if (!body)
return -ENOMEM;
osc_announce_cached(cli, &body->oa, 0);
spin_lock(&cli->cl_loi_list_lock);
body->oa.o_grant = cli->cl_avail_grant - target_bytes;
cli->cl_avail_grant = target_bytes;
spin_unlock(&cli->cl_loi_list_lock);
if (!(body->oa.o_valid & OBD_MD_FLFLAGS)) {
body->oa.o_valid |= OBD_MD_FLFLAGS;
body->oa.o_flags = 0;
}
body->oa.o_flags |= OBD_FL_SHRINK_GRANT;
osc_update_next_shrink(cli);
rc = osc_set_info_async(NULL, cli->cl_import->imp_obd->obd_self_export,
sizeof(KEY_GRANT_SHRINK), KEY_GRANT_SHRINK,
sizeof(*body), body, NULL);
if (rc != 0)
__osc_update_grant(cli, body->oa.o_grant);
kfree(body);
return rc;
}
static int osc_should_shrink_grant(struct client_obd *client)
{
unsigned long time = cfs_time_current();
unsigned long next_shrink = client->cl_next_shrink_grant;
if ((client->cl_import->imp_connect_data.ocd_connect_flags &
OBD_CONNECT_GRANT_SHRINK) == 0)
return 0;
if (cfs_time_aftereq(time, next_shrink - 5 * CFS_TICK)) {
/* Get the current RPC size directly, instead of going via:
* cli_brw_size(obd->u.cli.cl_import->imp_obd->obd_self_export)
* Keep comment here so that it can be found by searching.
*/
int brw_size = client->cl_max_pages_per_rpc << PAGE_SHIFT;
if (client->cl_import->imp_state == LUSTRE_IMP_FULL &&
client->cl_avail_grant > brw_size)
return 1;
osc_update_next_shrink(client);
}
return 0;
}
static int osc_grant_shrink_grant_cb(struct timeout_item *item, void *data)
{
struct client_obd *client;
list_for_each_entry(client, &item->ti_obd_list, cl_grant_shrink_list) {
if (osc_should_shrink_grant(client))
osc_shrink_grant(client);
}
return 0;
}
static int osc_add_shrink_grant(struct client_obd *client)
{
int rc;
rc = ptlrpc_add_timeout_client(client->cl_grant_shrink_interval,
TIMEOUT_GRANT,
osc_grant_shrink_grant_cb, NULL,
&client->cl_grant_shrink_list);
if (rc) {
CERROR("add grant client %s error %d\n",
client->cl_import->imp_obd->obd_name, rc);
return rc;
}
CDEBUG(D_CACHE, "add grant client %s\n",
client->cl_import->imp_obd->obd_name);
osc_update_next_shrink(client);
return 0;
}
static int osc_del_shrink_grant(struct client_obd *client)
{
return ptlrpc_del_timeout_client(&client->cl_grant_shrink_list,
TIMEOUT_GRANT);
}
static void osc_init_grant(struct client_obd *cli, struct obd_connect_data *ocd)
{
/*
* ocd_grant is the total grant amount we're expect to hold: if we've
* been evicted, it's the new avail_grant amount, cl_dirty_pages will
* drop to 0 as inflight RPCs fail out; otherwise, it's avail_grant +
* dirty.
*
* race is tolerable here: if we're evicted, but imp_state already
* left EVICTED state, then cl_dirty_pages must be 0 already.
*/
spin_lock(&cli->cl_loi_list_lock);
if (cli->cl_import->imp_state == LUSTRE_IMP_EVICTED)
cli->cl_avail_grant = ocd->ocd_grant;
else
cli->cl_avail_grant = ocd->ocd_grant -
(cli->cl_dirty_pages << PAGE_SHIFT);
if (cli->cl_avail_grant < 0) {
CWARN("%s: available grant < 0: avail/ocd/dirty %ld/%u/%ld\n",
cli->cl_import->imp_obd->obd_name, cli->cl_avail_grant,
ocd->ocd_grant, cli->cl_dirty_pages << PAGE_SHIFT);
/* workaround for servers which do not have the patch from
* LU-2679
*/
cli->cl_avail_grant = ocd->ocd_grant;
}
/* determine the appropriate chunk size used by osc_extent. */
cli->cl_chunkbits = max_t(int, PAGE_SHIFT, ocd->ocd_blocksize);
spin_unlock(&cli->cl_loi_list_lock);
CDEBUG(D_CACHE, "%s, setting cl_avail_grant: %ld cl_lost_grant: %ld chunk bits: %d\n",
cli->cl_import->imp_obd->obd_name,
cli->cl_avail_grant, cli->cl_lost_grant, cli->cl_chunkbits);
if (ocd->ocd_connect_flags & OBD_CONNECT_GRANT_SHRINK &&
list_empty(&cli->cl_grant_shrink_list))
osc_add_shrink_grant(cli);
}
/* We assume that the reason this OSC got a short read is because it read
* beyond the end of a stripe file; i.e. lustre is reading a sparse file
* via the LOV, and it _knows_ it's reading inside the file, it's just that
* this stripe never got written at or beyond this stripe offset yet.
*/
static void handle_short_read(int nob_read, u32 page_count,
struct brw_page **pga)
{
char *ptr;
int i = 0;
/* skip bytes read OK */
while (nob_read > 0) {
LASSERT(page_count > 0);
if (pga[i]->count > nob_read) {
/* EOF inside this page */
ptr = kmap(pga[i]->pg) +
(pga[i]->off & ~PAGE_MASK);
memset(ptr + nob_read, 0, pga[i]->count - nob_read);
kunmap(pga[i]->pg);
page_count--;
i++;
break;
}
nob_read -= pga[i]->count;
page_count--;
i++;
}
/* zero remaining pages */
while (page_count-- > 0) {
ptr = kmap(pga[i]->pg) + (pga[i]->off & ~PAGE_MASK);
memset(ptr, 0, pga[i]->count);
kunmap(pga[i]->pg);
i++;
}
}
static int check_write_rcs(struct ptlrpc_request *req,
int requested_nob, int niocount,
u32 page_count, struct brw_page **pga)
{
int i;
__u32 *remote_rcs;
remote_rcs = req_capsule_server_sized_get(&req->rq_pill, &RMF_RCS,
sizeof(*remote_rcs) *
niocount);
if (!remote_rcs) {
CDEBUG(D_INFO, "Missing/short RC vector on BRW_WRITE reply\n");
return -EPROTO;
}
/* return error if any niobuf was in error */
for (i = 0; i < niocount; i++) {
if ((int)remote_rcs[i] < 0)
return remote_rcs[i];
if (remote_rcs[i] != 0) {
CDEBUG(D_INFO, "rc[%d] invalid (%d) req %p\n",
i, remote_rcs[i], req);
return -EPROTO;
}
}
if (req->rq_bulk->bd_nob_transferred != requested_nob) {
CERROR("Unexpected # bytes transferred: %d (requested %d)\n",
req->rq_bulk->bd_nob_transferred, requested_nob);
return -EPROTO;
}
return 0;
}
static inline int can_merge_pages(struct brw_page *p1, struct brw_page *p2)
{
if (p1->flag != p2->flag) {
unsigned mask = ~(OBD_BRW_FROM_GRANT | OBD_BRW_NOCACHE |
OBD_BRW_SYNC | OBD_BRW_ASYNC |
OBD_BRW_NOQUOTA | OBD_BRW_SOFT_SYNC);
/* warn if we try to combine flags that we don't know to be
* safe to combine
*/
if (unlikely((p1->flag & mask) != (p2->flag & mask))) {
CWARN("Saw flags 0x%x and 0x%x in the same brw, please report this at http://bugs.whamcloud.com/\n",
p1->flag, p2->flag);
}
return 0;
}
return (p1->off + p1->count == p2->off);
}
static u32 osc_checksum_bulk(int nob, u32 pg_count,
struct brw_page **pga, int opc,
enum cksum_type cksum_type)
{
__u32 cksum;
int i = 0;
struct cfs_crypto_hash_desc *hdesc;
unsigned int bufsize;
int err;
unsigned char cfs_alg = cksum_obd2cfs(cksum_type);
LASSERT(pg_count > 0);
hdesc = cfs_crypto_hash_init(cfs_alg, NULL, 0);
if (IS_ERR(hdesc)) {
CERROR("Unable to initialize checksum hash %s\n",
cfs_crypto_hash_name(cfs_alg));
return PTR_ERR(hdesc);
}
while (nob > 0 && pg_count > 0) {
unsigned int count = pga[i]->count > nob ? nob : pga[i]->count;
/* corrupt the data before we compute the checksum, to
* simulate an OST->client data error
*/
if (i == 0 && opc == OST_READ &&
OBD_FAIL_CHECK(OBD_FAIL_OSC_CHECKSUM_RECEIVE)) {
unsigned char *ptr = kmap(pga[i]->pg);
int off = pga[i]->off & ~PAGE_MASK;
memcpy(ptr + off, "bad1", min_t(typeof(nob), 4, nob));
kunmap(pga[i]->pg);
}
cfs_crypto_hash_update_page(hdesc, pga[i]->pg,
pga[i]->off & ~PAGE_MASK,
count);
CDEBUG(D_PAGE,
"page %p map %p index %lu flags %lx count %u priv %0lx: off %d\n",
pga[i]->pg, pga[i]->pg->mapping, pga[i]->pg->index,
(long)pga[i]->pg->flags, page_count(pga[i]->pg),
page_private(pga[i]->pg),
(int)(pga[i]->off & ~PAGE_MASK));
nob -= pga[i]->count;
pg_count--;
i++;
}
bufsize = sizeof(cksum);
err = cfs_crypto_hash_final(hdesc, (unsigned char *)&cksum, &bufsize);
/* For sending we only compute the wrong checksum instead
* of corrupting the data so it is still correct on a redo
*/
if (opc == OST_WRITE && OBD_FAIL_CHECK(OBD_FAIL_OSC_CHECKSUM_SEND))
cksum++;
return cksum;
}
static int osc_brw_prep_request(int cmd, struct client_obd *cli,
struct obdo *oa,
struct lov_stripe_md *lsm, u32 page_count,
struct brw_page **pga,
struct ptlrpc_request **reqp,
int reserve,
int resend)
{
struct ptlrpc_request *req;
struct ptlrpc_bulk_desc *desc;
struct ost_body *body;
struct obd_ioobj *ioobj;
struct niobuf_remote *niobuf;
int niocount, i, requested_nob, opc, rc;
struct osc_brw_async_args *aa;
struct req_capsule *pill;
struct brw_page *pg_prev;
if (OBD_FAIL_CHECK(OBD_FAIL_OSC_BRW_PREP_REQ))
return -ENOMEM; /* Recoverable */
if (OBD_FAIL_CHECK(OBD_FAIL_OSC_BRW_PREP_REQ2))
return -EINVAL; /* Fatal */
if ((cmd & OBD_BRW_WRITE) != 0) {
opc = OST_WRITE;
req = ptlrpc_request_alloc_pool(cli->cl_import,
osc_rq_pool,
&RQF_OST_BRW_WRITE);
} else {
opc = OST_READ;
req = ptlrpc_request_alloc(cli->cl_import, &RQF_OST_BRW_READ);
}
if (!req)
return -ENOMEM;
for (niocount = i = 1; i < page_count; i++) {
if (!can_merge_pages(pga[i - 1], pga[i]))
niocount++;
}
pill = &req->rq_pill;
req_capsule_set_size(pill, &RMF_OBD_IOOBJ, RCL_CLIENT,
sizeof(*ioobj));
req_capsule_set_size(pill, &RMF_NIOBUF_REMOTE, RCL_CLIENT,
niocount * sizeof(*niobuf));
rc = ptlrpc_request_pack(req, LUSTRE_OST_VERSION, opc);
if (rc) {
ptlrpc_request_free(req);
return rc;
}
req->rq_request_portal = OST_IO_PORTAL; /* bug 7198 */
ptlrpc_at_set_req_timeout(req);
/* ask ptlrpc not to resend on EINPROGRESS since BRWs have their own
* retry logic
*/
req->rq_no_retry_einprogress = 1;
desc = ptlrpc_prep_bulk_imp(req, page_count,
cli->cl_import->imp_connect_data.ocd_brw_size >> LNET_MTU_BITS,
opc == OST_WRITE ? BULK_GET_SOURCE : BULK_PUT_SINK,
OST_BULK_PORTAL);
if (!desc) {
rc = -ENOMEM;
goto out;
}
/* NB request now owns desc and will free it when it gets freed */
body = req_capsule_client_get(pill, &RMF_OST_BODY);
ioobj = req_capsule_client_get(pill, &RMF_OBD_IOOBJ);
niobuf = req_capsule_client_get(pill, &RMF_NIOBUF_REMOTE);
LASSERT(body && ioobj && niobuf);
lustre_set_wire_obdo(&req->rq_import->imp_connect_data, &body->oa, oa);
obdo_to_ioobj(oa, ioobj);
ioobj->ioo_bufcnt = niocount;
/* The high bits of ioo_max_brw tells server _maximum_ number of bulks
* that might be send for this request. The actual number is decided
* when the RPC is finally sent in ptlrpc_register_bulk(). It sends
* "max - 1" for old client compatibility sending "0", and also so the
* the actual maximum is a power-of-two number, not one less. LU-1431
*/
ioobj_max_brw_set(ioobj, desc->bd_md_max_brw);
LASSERT(page_count > 0);
pg_prev = pga[0];
for (requested_nob = i = 0; i < page_count; i++, niobuf++) {
struct brw_page *pg = pga[i];
int poff = pg->off & ~PAGE_MASK;
LASSERT(pg->count > 0);
/* make sure there is no gap in the middle of page array */
LASSERTF(page_count == 1 ||
(ergo(i == 0, poff + pg->count == PAGE_SIZE) &&
ergo(i > 0 && i < page_count - 1,
poff == 0 && pg->count == PAGE_SIZE) &&
ergo(i == page_count - 1, poff == 0)),
"i: %d/%d pg: %p off: %llu, count: %u\n",
i, page_count, pg, pg->off, pg->count);
LASSERTF(i == 0 || pg->off > pg_prev->off,
"i %d p_c %u pg %p [pri %lu ind %lu] off %llu prev_pg %p [pri %lu ind %lu] off %llu\n",
i, page_count,
pg->pg, page_private(pg->pg), pg->pg->index, pg->off,
pg_prev->pg, page_private(pg_prev->pg),
pg_prev->pg->index, pg_prev->off);
LASSERT((pga[0]->flag & OBD_BRW_SRVLOCK) ==
(pg->flag & OBD_BRW_SRVLOCK));
ptlrpc_prep_bulk_page_pin(desc, pg->pg, poff, pg->count);
requested_nob += pg->count;
if (i > 0 && can_merge_pages(pg_prev, pg)) {
niobuf--;
niobuf->rnb_len += pg->count;
} else {
niobuf->rnb_offset = pg->off;
niobuf->rnb_len = pg->count;
niobuf->rnb_flags = pg->flag;
}
pg_prev = pg;
}
LASSERTF((void *)(niobuf - niocount) ==
req_capsule_client_get(&req->rq_pill, &RMF_NIOBUF_REMOTE),
"want %p - real %p\n", req_capsule_client_get(&req->rq_pill,
&RMF_NIOBUF_REMOTE), (void *)(niobuf - niocount));
osc_announce_cached(cli, &body->oa, opc == OST_WRITE ? requested_nob:0);
if (resend) {
if ((body->oa.o_valid & OBD_MD_FLFLAGS) == 0) {
body->oa.o_valid |= OBD_MD_FLFLAGS;
body->oa.o_flags = 0;
}
body->oa.o_flags |= OBD_FL_RECOV_RESEND;
}
if (osc_should_shrink_grant(cli))
osc_shrink_grant_local(cli, &body->oa);
/* size[REQ_REC_OFF] still sizeof (*body) */
if (opc == OST_WRITE) {
if (cli->cl_checksum &&
!sptlrpc_flavor_has_bulk(&req->rq_flvr)) {
/* store cl_cksum_type in a local variable since
* it can be changed via lprocfs
*/
enum cksum_type cksum_type = cli->cl_cksum_type;
if ((body->oa.o_valid & OBD_MD_FLFLAGS) == 0) {
oa->o_flags &= OBD_FL_LOCAL_MASK;
body->oa.o_flags = 0;
}
body->oa.o_flags |= cksum_type_pack(cksum_type);
body->oa.o_valid |= OBD_MD_FLCKSUM | OBD_MD_FLFLAGS;
body->oa.o_cksum = osc_checksum_bulk(requested_nob,
page_count, pga,
OST_WRITE,
cksum_type);
CDEBUG(D_PAGE, "checksum at write origin: %x\n",
body->oa.o_cksum);
/* save this in 'oa', too, for later checking */
oa->o_valid |= OBD_MD_FLCKSUM | OBD_MD_FLFLAGS;
oa->o_flags |= cksum_type_pack(cksum_type);
} else {
/* clear out the checksum flag, in case this is a
* resend but cl_checksum is no longer set. b=11238
*/
oa->o_valid &= ~OBD_MD_FLCKSUM;
}
oa->o_cksum = body->oa.o_cksum;
/* 1 RC per niobuf */
req_capsule_set_size(pill, &RMF_RCS, RCL_SERVER,
sizeof(__u32) * niocount);
} else {
if (cli->cl_checksum &&
!sptlrpc_flavor_has_bulk(&req->rq_flvr)) {
if ((body->oa.o_valid & OBD_MD_FLFLAGS) == 0)
body->oa.o_flags = 0;
body->oa.o_flags |= cksum_type_pack(cli->cl_cksum_type);
body->oa.o_valid |= OBD_MD_FLCKSUM | OBD_MD_FLFLAGS;
}
}
ptlrpc_request_set_replen(req);
CLASSERT(sizeof(*aa) <= sizeof(req->rq_async_args));
aa = ptlrpc_req_async_args(req);
aa->aa_oa = oa;
aa->aa_requested_nob = requested_nob;
aa->aa_nio_count = niocount;
aa->aa_page_count = page_count;
aa->aa_resends = 0;
aa->aa_ppga = pga;
aa->aa_cli = cli;
INIT_LIST_HEAD(&aa->aa_oaps);
*reqp = req;
niobuf = req_capsule_client_get(pill, &RMF_NIOBUF_REMOTE);
CDEBUG(D_RPCTRACE, "brw rpc %p - object " DOSTID " offset %lld<>%lld\n",
req, POSTID(&oa->o_oi), niobuf[0].rnb_offset,
niobuf[niocount - 1].rnb_offset + niobuf[niocount - 1].rnb_len);
return 0;
out:
ptlrpc_req_finished(req);
return rc;
}
static int check_write_checksum(struct obdo *oa, const lnet_process_id_t *peer,
__u32 client_cksum, __u32 server_cksum, int nob,
u32 page_count, struct brw_page **pga,
enum cksum_type client_cksum_type)
{
__u32 new_cksum;
char *msg;
enum cksum_type cksum_type;
if (server_cksum == client_cksum) {
CDEBUG(D_PAGE, "checksum %x confirmed\n", client_cksum);
return 0;
}
cksum_type = cksum_type_unpack(oa->o_valid & OBD_MD_FLFLAGS ?
oa->o_flags : 0);
new_cksum = osc_checksum_bulk(nob, page_count, pga, OST_WRITE,
cksum_type);
if (cksum_type != client_cksum_type)
msg = "the server did not use the checksum type specified in the original request - likely a protocol problem"
;
else if (new_cksum == server_cksum)
msg = "changed on the client after we checksummed it - likely false positive due to mmap IO (bug 11742)"
;
else if (new_cksum == client_cksum)
msg = "changed in transit before arrival at OST";
else
msg = "changed in transit AND doesn't match the original - likely false positive due to mmap IO (bug 11742)"
;
LCONSOLE_ERROR_MSG(0x132, "BAD WRITE CHECKSUM: %s: from %s inode "DFID
" object "DOSTID" extent [%llu-%llu]\n",
msg, libcfs_nid2str(peer->nid),
oa->o_valid & OBD_MD_FLFID ? oa->o_parent_seq : (__u64)0,
oa->o_valid & OBD_MD_FLFID ? oa->o_parent_oid : 0,
oa->o_valid & OBD_MD_FLFID ? oa->o_parent_ver : 0,
POSTID(&oa->o_oi), pga[0]->off,
pga[page_count - 1]->off +
pga[page_count - 1]->count - 1);
CERROR("original client csum %x (type %x), server csum %x (type %x), client csum now %x\n",
client_cksum, client_cksum_type,
server_cksum, cksum_type, new_cksum);
return 1;
}
/* Note rc enters this function as number of bytes transferred */
static int osc_brw_fini_request(struct ptlrpc_request *req, int rc)
{
struct osc_brw_async_args *aa = (void *)&req->rq_async_args;
const lnet_process_id_t *peer =
&req->rq_import->imp_connection->c_peer;
struct client_obd *cli = aa->aa_cli;
struct ost_body *body;
__u32 client_cksum = 0;
if (rc < 0 && rc != -EDQUOT) {
DEBUG_REQ(D_INFO, req, "Failed request with rc = %d\n", rc);
return rc;
}
LASSERTF(req->rq_repmsg, "rc = %d\n", rc);
body = req_capsule_server_get(&req->rq_pill, &RMF_OST_BODY);
if (!body) {
DEBUG_REQ(D_INFO, req, "Can't unpack body\n");
return -EPROTO;
}
/* set/clear over quota flag for a uid/gid */
if (lustre_msg_get_opc(req->rq_reqmsg) == OST_WRITE &&
body->oa.o_valid & (OBD_MD_FLUSRQUOTA | OBD_MD_FLGRPQUOTA)) {
unsigned int qid[MAXQUOTAS] = { body->oa.o_uid, body->oa.o_gid };
CDEBUG(D_QUOTA, "setdq for [%u %u] with valid %#llx, flags %x\n",
body->oa.o_uid, body->oa.o_gid, body->oa.o_valid,
body->oa.o_flags);
osc_quota_setdq(cli, qid, body->oa.o_valid, body->oa.o_flags);
}
osc_update_grant(cli, body);
if (rc < 0)
return rc;
if (aa->aa_oa->o_valid & OBD_MD_FLCKSUM)
client_cksum = aa->aa_oa->o_cksum; /* save for later */
if (lustre_msg_get_opc(req->rq_reqmsg) == OST_WRITE) {
if (rc > 0) {
CERROR("Unexpected +ve rc %d\n", rc);
return -EPROTO;
}
LASSERT(req->rq_bulk->bd_nob == aa->aa_requested_nob);
if (sptlrpc_cli_unwrap_bulk_write(req, req->rq_bulk))
return -EAGAIN;
if ((aa->aa_oa->o_valid & OBD_MD_FLCKSUM) && client_cksum &&
check_write_checksum(&body->oa, peer, client_cksum,
body->oa.o_cksum, aa->aa_requested_nob,
aa->aa_page_count, aa->aa_ppga,
cksum_type_unpack(aa->aa_oa->o_flags)))
return -EAGAIN;
rc = check_write_rcs(req, aa->aa_requested_nob,
aa->aa_nio_count,
aa->aa_page_count, aa->aa_ppga);
goto out;
}
/* The rest of this function executes only for OST_READs */
/* if unwrap_bulk failed, return -EAGAIN to retry */
rc = sptlrpc_cli_unwrap_bulk_read(req, req->rq_bulk, rc);
if (rc < 0) {
rc = -EAGAIN;
goto out;
}
if (rc > aa->aa_requested_nob) {
CERROR("Unexpected rc %d (%d requested)\n", rc,
aa->aa_requested_nob);
return -EPROTO;
}
if (rc != req->rq_bulk->bd_nob_transferred) {
CERROR("Unexpected rc %d (%d transferred)\n",
rc, req->rq_bulk->bd_nob_transferred);
return -EPROTO;
}
if (rc < aa->aa_requested_nob)
handle_short_read(rc, aa->aa_page_count, aa->aa_ppga);
if (body->oa.o_valid & OBD_MD_FLCKSUM) {
static int cksum_counter;
__u32 server_cksum = body->oa.o_cksum;
char *via = "";
char *router = "";
enum cksum_type cksum_type;
cksum_type = cksum_type_unpack(body->oa.o_valid &
OBD_MD_FLFLAGS ?
body->oa.o_flags : 0);
client_cksum = osc_checksum_bulk(rc, aa->aa_page_count,
aa->aa_ppga, OST_READ,
cksum_type);
if (peer->nid != req->rq_bulk->bd_sender) {
via = " via ";
router = libcfs_nid2str(req->rq_bulk->bd_sender);
}
if (server_cksum != client_cksum) {
LCONSOLE_ERROR_MSG(0x133, "%s: BAD READ CHECKSUM: from %s%s%s inode " DFID " object " DOSTID " extent [%llu-%llu]\n",
req->rq_import->imp_obd->obd_name,
libcfs_nid2str(peer->nid),
via, router,
body->oa.o_valid & OBD_MD_FLFID ?
body->oa.o_parent_seq : (__u64)0,
body->oa.o_valid & OBD_MD_FLFID ?
body->oa.o_parent_oid : 0,
body->oa.o_valid & OBD_MD_FLFID ?
body->oa.o_parent_ver : 0,
POSTID(&body->oa.o_oi),
aa->aa_ppga[0]->off,
aa->aa_ppga[aa->aa_page_count-1]->off +
aa->aa_ppga[aa->aa_page_count-1]->count -
1);
CERROR("client %x, server %x, cksum_type %x\n",
client_cksum, server_cksum, cksum_type);
cksum_counter = 0;
aa->aa_oa->o_cksum = client_cksum;
rc = -EAGAIN;
} else {
cksum_counter++;
CDEBUG(D_PAGE, "checksum %x confirmed\n", client_cksum);
rc = 0;
}
} else if (unlikely(client_cksum)) {
static int cksum_missed;
cksum_missed++;
if ((cksum_missed & (-cksum_missed)) == cksum_missed)
CERROR("Checksum %u requested from %s but not sent\n",
cksum_missed, libcfs_nid2str(peer->nid));
} else {
rc = 0;
}
out:
if (rc >= 0)
lustre_get_wire_obdo(&req->rq_import->imp_connect_data,
aa->aa_oa, &body->oa);
return rc;
}
static int osc_brw_redo_request(struct ptlrpc_request *request,
struct osc_brw_async_args *aa, int rc)
{
struct ptlrpc_request *new_req;
struct osc_brw_async_args *new_aa;
struct osc_async_page *oap;
DEBUG_REQ(rc == -EINPROGRESS ? D_RPCTRACE : D_ERROR, request,
"redo for recoverable error %d", rc);
rc = osc_brw_prep_request(lustre_msg_get_opc(request->rq_reqmsg) ==
OST_WRITE ? OBD_BRW_WRITE : OBD_BRW_READ,
aa->aa_cli, aa->aa_oa,
NULL /* lsm unused by osc currently */,
aa->aa_page_count, aa->aa_ppga,
&new_req, 0, 1);
if (rc)
return rc;
list_for_each_entry(oap, &aa->aa_oaps, oap_rpc_item) {
if (oap->oap_request) {
LASSERTF(request == oap->oap_request,
"request %p != oap_request %p\n",
request, oap->oap_request);
if (oap->oap_interrupted) {
ptlrpc_req_finished(new_req);
return -EINTR;
}
}
}
/* New request takes over pga and oaps from old request.
* Note that copying a list_head doesn't work, need to move it...
*/
aa->aa_resends++;
new_req->rq_interpret_reply = request->rq_interpret_reply;
new_req->rq_async_args = request->rq_async_args;
new_req->rq_commit_cb = request->rq_commit_cb;
/* cap resend delay to the current request timeout, this is similar to
* what ptlrpc does (see after_reply())
*/
if (aa->aa_resends > new_req->rq_timeout)
new_req->rq_sent = ktime_get_real_seconds() + new_req->rq_timeout;
else
new_req->rq_sent = ktime_get_real_seconds() + aa->aa_resends;
new_req->rq_generation_set = 1;
new_req->rq_import_generation = request->rq_import_generation;
new_aa = ptlrpc_req_async_args(new_req);
INIT_LIST_HEAD(&new_aa->aa_oaps);
list_splice_init(&aa->aa_oaps, &new_aa->aa_oaps);
INIT_LIST_HEAD(&new_aa->aa_exts);
list_splice_init(&aa->aa_exts, &new_aa->aa_exts);
new_aa->aa_resends = aa->aa_resends;
list_for_each_entry(oap, &new_aa->aa_oaps, oap_rpc_item) {
if (oap->oap_request) {
ptlrpc_req_finished(oap->oap_request);
oap->oap_request = ptlrpc_request_addref(new_req);
}
}
/* XXX: This code will run into problem if we're going to support
* to add a series of BRW RPCs into a self-defined ptlrpc_request_set
* and wait for all of them to be finished. We should inherit request
* set from old request.
*/
ptlrpcd_add_req(new_req);
DEBUG_REQ(D_INFO, new_req, "new request");
return 0;
}
/*
* ugh, we want disk allocation on the target to happen in offset order. we'll
* follow sedgewicks advice and stick to the dead simple shellsort -- it'll do
* fine for our small page arrays and doesn't require allocation. its an
* insertion sort that swaps elements that are strides apart, shrinking the
* stride down until its '1' and the array is sorted.
*/
static void sort_brw_pages(struct brw_page **array, int num)
{
int stride, i, j;
struct brw_page *tmp;
if (num == 1)
return;
for (stride = 1; stride < num ; stride = (stride * 3) + 1)
;
do {
stride /= 3;
for (i = stride ; i < num ; i++) {
tmp = array[i];
j = i;
while (j >= stride && array[j - stride]->off > tmp->off) {
array[j] = array[j - stride];
j -= stride;
}
array[j] = tmp;
}
} while (stride > 1);
}
static void osc_release_ppga(struct brw_page **ppga, u32 count)
{
LASSERT(ppga);
kfree(ppga);
}
static int brw_interpret(const struct lu_env *env,
struct ptlrpc_request *req, void *data, int rc)
{
struct osc_brw_async_args *aa = data;
struct osc_extent *ext;
struct osc_extent *tmp;
struct client_obd *cli = aa->aa_cli;
rc = osc_brw_fini_request(req, rc);
CDEBUG(D_INODE, "request %p aa %p rc %d\n", req, aa, rc);
/* When server return -EINPROGRESS, client should always retry
* regardless of the number of times the bulk was resent already.
*/
if (osc_recoverable_error(rc)) {
if (req->rq_import_generation !=
req->rq_import->imp_generation) {
CDEBUG(D_HA, "%s: resend cross eviction for object: " DOSTID ", rc = %d.\n",
req->rq_import->imp_obd->obd_name,
POSTID(&aa->aa_oa->o_oi), rc);
} else if (rc == -EINPROGRESS ||
client_should_resend(aa->aa_resends, aa->aa_cli)) {
rc = osc_brw_redo_request(req, aa, rc);
} else {
CERROR("%s: too many resent retries for object: %llu:%llu, rc = %d.\n",
req->rq_import->imp_obd->obd_name,
POSTID(&aa->aa_oa->o_oi), rc);
}
if (rc == 0)
return 0;
else if (rc == -EAGAIN || rc == -EINPROGRESS)
rc = -EIO;
}
if (rc == 0) {
struct obdo *oa = aa->aa_oa;
struct cl_attr *attr = &osc_env_info(env)->oti_attr;
unsigned long valid = 0;
struct cl_object *obj;
struct osc_async_page *last;
last = brw_page2oap(aa->aa_ppga[aa->aa_page_count - 1]);
obj = osc2cl(last->oap_obj);
cl_object_attr_lock(obj);
if (oa->o_valid & OBD_MD_FLBLOCKS) {
attr->cat_blocks = oa->o_blocks;
valid |= CAT_BLOCKS;
}
if (oa->o_valid & OBD_MD_FLMTIME) {
attr->cat_mtime = oa->o_mtime;
valid |= CAT_MTIME;
}
if (oa->o_valid & OBD_MD_FLATIME) {
attr->cat_atime = oa->o_atime;
valid |= CAT_ATIME;
}
if (oa->o_valid & OBD_MD_FLCTIME) {
attr->cat_ctime = oa->o_ctime;
valid |= CAT_CTIME;
}
if (lustre_msg_get_opc(req->rq_reqmsg) == OST_WRITE) {
struct lov_oinfo *loi = cl2osc(obj)->oo_oinfo;
loff_t last_off = last->oap_count + last->oap_obj_off +
last->oap_page_off;
/* Change file size if this is an out of quota or
* direct IO write and it extends the file size
*/
if (loi->loi_lvb.lvb_size < last_off) {
attr->cat_size = last_off;
valid |= CAT_SIZE;
}
/* Extend KMS if it's not a lockless write */
if (loi->loi_kms < last_off &&
oap2osc_page(last)->ops_srvlock == 0) {
attr->cat_kms = last_off;
valid |= CAT_KMS;
}
}
if (valid != 0)
cl_object_attr_update(env, obj, attr, valid);
cl_object_attr_unlock(obj);
}
kmem_cache_free(obdo_cachep, aa->aa_oa);
if (lustre_msg_get_opc(req->rq_reqmsg) == OST_WRITE && rc == 0)
osc_inc_unstable_pages(req);
list_for_each_entry_safe(ext, tmp, &aa->aa_exts, oe_link) {
list_del_init(&ext->oe_link);
osc_extent_finish(env, ext, 1, rc);
}
LASSERT(list_empty(&aa->aa_exts));
LASSERT(list_empty(&aa->aa_oaps));
cl_req_completion(env, aa->aa_clerq, rc < 0 ? rc :
req->rq_bulk->bd_nob_transferred);
osc_release_ppga(aa->aa_ppga, aa->aa_page_count);
ptlrpc_lprocfs_brw(req, req->rq_bulk->bd_nob_transferred);
spin_lock(&cli->cl_loi_list_lock);
/* We need to decrement before osc_ap_completion->osc_wake_cache_waiters
* is called so we know whether to go to sync BRWs or wait for more
* RPCs to complete
*/
if (lustre_msg_get_opc(req->rq_reqmsg) == OST_WRITE)
cli->cl_w_in_flight--;
else
cli->cl_r_in_flight--;
osc_wake_cache_waiters(cli);
spin_unlock(&cli->cl_loi_list_lock);
osc_io_unplug(env, cli, NULL);
return rc;
}
static void brw_commit(struct ptlrpc_request *req)
{
/*
* If osc_inc_unstable_pages (via osc_extent_finish) races with
* this called via the rq_commit_cb, I need to ensure
* osc_dec_unstable_pages is still called. Otherwise unstable
* pages may be leaked.
*/
spin_lock(&req->rq_lock);
if (unlikely(req->rq_unstable)) {
req->rq_unstable = 0;
spin_unlock(&req->rq_lock);
osc_dec_unstable_pages(req);
} else {
req->rq_committed = 1;
spin_unlock(&req->rq_lock);
}
}
/**
* Build an RPC by the list of extent @ext_list. The caller must ensure
* that the total pages in this list are NOT over max pages per RPC.
* Extents in the list must be in OES_RPC state.
*/
int osc_build_rpc(const struct lu_env *env, struct client_obd *cli,
struct list_head *ext_list, int cmd)
{
struct ptlrpc_request *req = NULL;
struct osc_extent *ext;
struct brw_page **pga = NULL;
struct osc_brw_async_args *aa = NULL;
struct obdo *oa = NULL;
struct osc_async_page *oap;
struct osc_async_page *tmp;
struct cl_req *clerq = NULL;
enum cl_req_type crt = (cmd & OBD_BRW_WRITE) ? CRT_WRITE : CRT_READ;
struct cl_req_attr *crattr = NULL;
u64 starting_offset = OBD_OBJECT_EOF;
u64 ending_offset = 0;
int mpflag = 0;
int mem_tight = 0;
int page_count = 0;
bool soft_sync = false;
int i;
int rc;
struct ost_body *body;
LIST_HEAD(rpc_list);
LASSERT(!list_empty(ext_list));
/* add pages into rpc_list to build BRW rpc */
list_for_each_entry(ext, ext_list, oe_link) {
LASSERT(ext->oe_state == OES_RPC);
mem_tight |= ext->oe_memalloc;
list_for_each_entry(oap, &ext->oe_pages, oap_pending_item) {
++page_count;
list_add_tail(&oap->oap_rpc_item, &rpc_list);
if (starting_offset > oap->oap_obj_off)
starting_offset = oap->oap_obj_off;
else
LASSERT(oap->oap_page_off == 0);
if (ending_offset < oap->oap_obj_off + oap->oap_count)
ending_offset = oap->oap_obj_off +
oap->oap_count;
else
LASSERT(oap->oap_page_off + oap->oap_count ==
PAGE_SIZE);
}
}
soft_sync = osc_over_unstable_soft_limit(cli);
if (mem_tight)
mpflag = cfs_memory_pressure_get_and_set();
crattr = kzalloc(sizeof(*crattr), GFP_NOFS);
if (!crattr) {
rc = -ENOMEM;
goto out;
}
pga = kcalloc(page_count, sizeof(*pga), GFP_NOFS);
if (!pga) {
rc = -ENOMEM;
goto out;
}
oa = kmem_cache_zalloc(obdo_cachep, GFP_NOFS);
if (!oa) {
rc = -ENOMEM;
goto out;
}
i = 0;
list_for_each_entry(oap, &rpc_list, oap_rpc_item) {
struct cl_page *page = oap2cl_page(oap);
if (!clerq) {
clerq = cl_req_alloc(env, page, crt,
1 /* only 1-object rpcs for now */);
if (IS_ERR(clerq)) {
rc = PTR_ERR(clerq);
goto out;
}
}
if (mem_tight)
oap->oap_brw_flags |= OBD_BRW_MEMALLOC;
if (soft_sync)
oap->oap_brw_flags |= OBD_BRW_SOFT_SYNC;
pga[i] = &oap->oap_brw_page;
pga[i]->off = oap->oap_obj_off + oap->oap_page_off;
CDEBUG(0, "put page %p index %lu oap %p flg %x to pga\n",
pga[i]->pg, oap->oap_page->index, oap,
pga[i]->flag);
i++;
cl_req_page_add(env, clerq, page);
}
/* always get the data for the obdo for the rpc */
LASSERT(clerq);
crattr->cra_oa = oa;
cl_req_attr_set(env, clerq, crattr, ~0ULL);
rc = cl_req_prep(env, clerq);
if (rc != 0) {
CERROR("cl_req_prep failed: %d\n", rc);
goto out;
}
sort_brw_pages(pga, page_count);
rc = osc_brw_prep_request(cmd, cli, oa, NULL, page_count,
pga, &req, 1, 0);
if (rc != 0) {
CERROR("prep_req failed: %d\n", rc);
goto out;
}
req->rq_commit_cb = brw_commit;
req->rq_interpret_reply = brw_interpret;
if (mem_tight != 0)
req->rq_memalloc = 1;
/* Need to update the timestamps after the request is built in case
* we race with setattr (locally or in queue at OST). If OST gets
* later setattr before earlier BRW (as determined by the request xid),
* the OST will not use BRW timestamps. Sadly, there is no obvious
* way to do this in a single call. bug 10150
*/
body = req_capsule_client_get(&req->rq_pill, &RMF_OST_BODY);
crattr->cra_oa = &body->oa;
cl_req_attr_set(env, clerq, crattr,
OBD_MD_FLMTIME | OBD_MD_FLCTIME | OBD_MD_FLATIME);
lustre_msg_set_jobid(req->rq_reqmsg, crattr->cra_jobid);
CLASSERT(sizeof(*aa) <= sizeof(req->rq_async_args));
aa = ptlrpc_req_async_args(req);
INIT_LIST_HEAD(&aa->aa_oaps);
list_splice_init(&rpc_list, &aa->aa_oaps);
INIT_LIST_HEAD(&aa->aa_exts);
list_splice_init(ext_list, &aa->aa_exts);
aa->aa_clerq = clerq;
/* queued sync pages can be torn down while the pages
* were between the pending list and the rpc
*/
tmp = NULL;
list_for_each_entry(oap, &aa->aa_oaps, oap_rpc_item) {
/* only one oap gets a request reference */
if (!tmp)
tmp = oap;
if (oap->oap_interrupted && !req->rq_intr) {
CDEBUG(D_INODE, "oap %p in req %p interrupted\n",
oap, req);
ptlrpc_mark_interrupted(req);
}
}
if (tmp)
tmp->oap_request = ptlrpc_request_addref(req);
spin_lock(&cli->cl_loi_list_lock);
starting_offset >>= PAGE_SHIFT;
if (cmd == OBD_BRW_READ) {
cli->cl_r_in_flight++;
lprocfs_oh_tally_log2(&cli->cl_read_page_hist, page_count);
lprocfs_oh_tally(&cli->cl_read_rpc_hist, cli->cl_r_in_flight);
lprocfs_oh_tally_log2(&cli->cl_read_offset_hist,
starting_offset + 1);
} else {
cli->cl_w_in_flight++;
lprocfs_oh_tally_log2(&cli->cl_write_page_hist, page_count);
lprocfs_oh_tally(&cli->cl_write_rpc_hist, cli->cl_w_in_flight);
lprocfs_oh_tally_log2(&cli->cl_write_offset_hist,
starting_offset + 1);
}
spin_unlock(&cli->cl_loi_list_lock);
DEBUG_REQ(D_INODE, req, "%d pages, aa %p. now %ur/%dw in flight",
page_count, aa, cli->cl_r_in_flight,
cli->cl_w_in_flight);
ptlrpcd_add_req(req);
rc = 0;
out:
if (mem_tight != 0)
cfs_memory_pressure_restore(mpflag);
kfree(crattr);
if (rc != 0) {
LASSERT(!req);
if (oa)
kmem_cache_free(obdo_cachep, oa);
kfree(pga);
/* this should happen rarely and is pretty bad, it makes the
* pending list not follow the dirty order
*/
while (!list_empty(ext_list)) {
ext = list_entry(ext_list->next, struct osc_extent,
oe_link);
list_del_init(&ext->oe_link);
osc_extent_finish(env, ext, 0, rc);
}
if (clerq && !IS_ERR(clerq))
cl_req_completion(env, clerq, rc);
}
return rc;
}
static int osc_set_lock_data_with_check(struct ldlm_lock *lock,
struct ldlm_enqueue_info *einfo)
{
void *data = einfo->ei_cbdata;
int set = 0;
LASSERT(lock->l_blocking_ast == einfo->ei_cb_bl);
LASSERT(lock->l_resource->lr_type == einfo->ei_type);
LASSERT(lock->l_completion_ast == einfo->ei_cb_cp);
LASSERT(lock->l_glimpse_ast == einfo->ei_cb_gl);
lock_res_and_lock(lock);
if (!lock->l_ast_data)
lock->l_ast_data = data;
if (lock->l_ast_data == data)
set = 1;
unlock_res_and_lock(lock);
return set;
}
static int osc_set_data_with_check(struct lustre_handle *lockh,
struct ldlm_enqueue_info *einfo)
{
struct ldlm_lock *lock = ldlm_handle2lock(lockh);
int set = 0;
if (lock) {
set = osc_set_lock_data_with_check(lock, einfo);
LDLM_LOCK_PUT(lock);
} else
CERROR("lockh %p, data %p - client evicted?\n",
lockh, einfo->ei_cbdata);
return set;
}
static int osc_enqueue_fini(struct ptlrpc_request *req,
osc_enqueue_upcall_f upcall, void *cookie,
struct lustre_handle *lockh, enum ldlm_mode mode,
__u64 *flags, int agl, int errcode)
{
bool intent = *flags & LDLM_FL_HAS_INTENT;
int rc;
/* The request was created before ldlm_cli_enqueue call. */
if (intent && errcode == ELDLM_LOCK_ABORTED) {
struct ldlm_reply *rep;
rep = req_capsule_server_get(&req->rq_pill, &RMF_DLM_REP);
rep->lock_policy_res1 =
ptlrpc_status_ntoh(rep->lock_policy_res1);
if (rep->lock_policy_res1)
errcode = rep->lock_policy_res1;
if (!agl)
*flags |= LDLM_FL_LVB_READY;
} else if (errcode == ELDLM_OK) {
*flags |= LDLM_FL_LVB_READY;
}
/* Call the update callback. */
rc = (*upcall)(cookie, lockh, errcode);
/* release the reference taken in ldlm_cli_enqueue() */
if (errcode == ELDLM_LOCK_MATCHED)
errcode = ELDLM_OK;
if (errcode == ELDLM_OK && lustre_handle_is_used(lockh))
ldlm_lock_decref(lockh, mode);
return rc;
}
static int osc_enqueue_interpret(const struct lu_env *env,
struct ptlrpc_request *req,
struct osc_enqueue_args *aa, int rc)
{
struct ldlm_lock *lock;
struct lustre_handle *lockh = &aa->oa_lockh;
enum ldlm_mode mode = aa->oa_mode;
struct ost_lvb *lvb = aa->oa_lvb;
__u32 lvb_len = sizeof(*lvb);
__u64 flags = 0;
/* ldlm_cli_enqueue is holding a reference on the lock, so it must
* be valid.
*/
lock = ldlm_handle2lock(lockh);
LASSERTF(lock, "lockh %llx, req %p, aa %p - client evicted?\n",
lockh->cookie, req, aa);
/* Take an additional reference so that a blocking AST that
* ldlm_cli_enqueue_fini() might post for a failed lock, is guaranteed
* to arrive after an upcall has been executed by
* osc_enqueue_fini().
*/
ldlm_lock_addref(lockh, mode);
/* Let cl_lock_state_wait fail with -ERESTARTSYS to unuse sublocks. */
OBD_FAIL_TIMEOUT(OBD_FAIL_LDLM_ENQUEUE_HANG, 2);
/* Let CP AST to grant the lock first. */
OBD_FAIL_TIMEOUT(OBD_FAIL_OSC_CP_ENQ_RACE, 1);
if (aa->oa_agl) {
LASSERT(!aa->oa_lvb);
LASSERT(!aa->oa_flags);
aa->oa_flags = &flags;
}
/* Complete obtaining the lock procedure. */
rc = ldlm_cli_enqueue_fini(aa->oa_exp, req, aa->oa_type, 1,
aa->oa_mode, aa->oa_flags, lvb, lvb_len,
lockh, rc);
/* Complete osc stuff. */
rc = osc_enqueue_fini(req, aa->oa_upcall, aa->oa_cookie, lockh, mode,
aa->oa_flags, aa->oa_agl, rc);
OBD_FAIL_TIMEOUT(OBD_FAIL_OSC_CP_CANCEL_RACE, 10);
ldlm_lock_decref(lockh, mode);
LDLM_LOCK_PUT(lock);
return rc;
}
struct ptlrpc_request_set *PTLRPCD_SET = (void *)1;
/* When enqueuing asynchronously, locks are not ordered, we can obtain a lock
* from the 2nd OSC before a lock from the 1st one. This does not deadlock with
* other synchronous requests, however keeping some locks and trying to obtain
* others may take a considerable amount of time in a case of ost failure; and
* when other sync requests do not get released lock from a client, the client
* is evicted from the cluster -- such scenaries make the life difficult, so
* release locks just after they are obtained.
*/
int osc_enqueue_base(struct obd_export *exp, struct ldlm_res_id *res_id,
__u64 *flags, ldlm_policy_data_t *policy,
struct ost_lvb *lvb, int kms_valid,
osc_enqueue_upcall_f upcall, void *cookie,
struct ldlm_enqueue_info *einfo,
struct ptlrpc_request_set *rqset, int async, int agl)
{
struct obd_device *obd = exp->exp_obd;
struct lustre_handle lockh = { 0 };
struct ptlrpc_request *req = NULL;
int intent = *flags & LDLM_FL_HAS_INTENT;
__u64 match_flags = *flags;
enum ldlm_mode mode;
int rc;
/* Filesystem lock extents are extended to page boundaries so that
* dealing with the page cache is a little smoother.
*/
policy->l_extent.start -= policy->l_extent.start & ~PAGE_MASK;
policy->l_extent.end |= ~PAGE_MASK;
/*
* kms is not valid when either object is completely fresh (so that no
* locks are cached), or object was evicted. In the latter case cached
* lock cannot be used, because it would prime inode state with
* potentially stale LVB.
*/
if (!kms_valid)
goto no_match;
/* Next, search for already existing extent locks that will cover us */
/* If we're trying to read, we also search for an existing PW lock. The
* VFS and page cache already protect us locally, so lots of readers/
* writers can share a single PW lock.
*
* There are problems with conversion deadlocks, so instead of
* converting a read lock to a write lock, we'll just enqueue a new
* one.
*
* At some point we should cancel the read lock instead of making them
* send us a blocking callback, but there are problems with canceling
* locks out from other users right now, too.
*/
mode = einfo->ei_mode;
if (einfo->ei_mode == LCK_PR)
mode |= LCK_PW;
if (agl == 0)
match_flags |= LDLM_FL_LVB_READY;
if (intent != 0)
match_flags |= LDLM_FL_BLOCK_GRANTED;
mode = ldlm_lock_match(obd->obd_namespace, match_flags, res_id,
einfo->ei_type, policy, mode, &lockh, 0);
if (mode) {
struct ldlm_lock *matched;
if (*flags & LDLM_FL_TEST_LOCK)
return ELDLM_OK;
matched = ldlm_handle2lock(&lockh);
if (agl) {
/* AGL enqueues DLM locks speculatively. Therefore if
* it already exists a DLM lock, it wll just inform the
* caller to cancel the AGL process for this stripe.
*/
ldlm_lock_decref(&lockh, mode);
LDLM_LOCK_PUT(matched);
return -ECANCELED;
} else if (osc_set_lock_data_with_check(matched, einfo)) {
*flags |= LDLM_FL_LVB_READY;
/* We already have a lock, and it's referenced. */
(*upcall)(cookie, &lockh, ELDLM_LOCK_MATCHED);
ldlm_lock_decref(&lockh, mode);
LDLM_LOCK_PUT(matched);
return ELDLM_OK;
} else {
ldlm_lock_decref(&lockh, mode);
LDLM_LOCK_PUT(matched);
}
}
no_match:
if (*flags & LDLM_FL_TEST_LOCK)
return -ENOLCK;
if (intent) {
req = ptlrpc_request_alloc(class_exp2cliimp(exp),
&RQF_LDLM_ENQUEUE_LVB);
if (!req)
return -ENOMEM;
rc = ldlm_prep_enqueue_req(exp, req, NULL, 0);
if (rc) {
ptlrpc_request_free(req);
return rc;
}
req_capsule_set_size(&req->rq_pill, &RMF_DLM_LVB, RCL_SERVER,
sizeof(*lvb));
ptlrpc_request_set_replen(req);
}
/* users of osc_enqueue() can pass this flag for ldlm_lock_match() */
*flags &= ~LDLM_FL_BLOCK_GRANTED;
rc = ldlm_cli_enqueue(exp, &req, einfo, res_id, policy, flags, lvb,
sizeof(*lvb), LVB_T_OST, &lockh, async);
if (async) {
if (!rc) {
struct osc_enqueue_args *aa;
CLASSERT(sizeof(*aa) <= sizeof(req->rq_async_args));
aa = ptlrpc_req_async_args(req);
aa->oa_exp = exp;
aa->oa_mode = einfo->ei_mode;
aa->oa_type = einfo->ei_type;
lustre_handle_copy(&aa->oa_lockh, &lockh);
aa->oa_upcall = upcall;
aa->oa_cookie = cookie;
aa->oa_agl = !!agl;
if (!agl) {
aa->oa_flags = flags;
aa->oa_lvb = lvb;
} else {
/* AGL is essentially to enqueue an DLM lock
* in advance, so we don't care about the
* result of AGL enqueue.
*/
aa->oa_lvb = NULL;
aa->oa_flags = NULL;
}
req->rq_interpret_reply =
(ptlrpc_interpterer_t)osc_enqueue_interpret;
if (rqset == PTLRPCD_SET)
ptlrpcd_add_req(req);
else
ptlrpc_set_add_req(rqset, req);
} else if (intent) {
ptlrpc_req_finished(req);
}
return rc;
}
rc = osc_enqueue_fini(req, upcall, cookie, &lockh, einfo->ei_mode,
flags, agl, rc);
if (intent)
ptlrpc_req_finished(req);
return rc;
}
int osc_match_base(struct obd_export *exp, struct ldlm_res_id *res_id,
__u32 type, ldlm_policy_data_t *policy, __u32 mode,
__u64 *flags, void *data, struct lustre_handle *lockh,
int unref)
{
struct obd_device *obd = exp->exp_obd;
__u64 lflags = *flags;
enum ldlm_mode rc;
if (OBD_FAIL_CHECK(OBD_FAIL_OSC_MATCH))
return -EIO;
/* Filesystem lock extents are extended to page boundaries so that
* dealing with the page cache is a little smoother
*/
policy->l_extent.start -= policy->l_extent.start & ~PAGE_MASK;
policy->l_extent.end |= ~PAGE_MASK;
/* Next, search for already existing extent locks that will cover us */
/* If we're trying to read, we also search for an existing PW lock. The
* VFS and page cache already protect us locally, so lots of readers/
* writers can share a single PW lock.
*/
rc = mode;
if (mode == LCK_PR)
rc |= LCK_PW;
rc = ldlm_lock_match(obd->obd_namespace, lflags,
res_id, type, policy, rc, lockh, unref);
if (rc) {
if (data) {
if (!osc_set_data_with_check(lockh, data)) {
if (!(lflags & LDLM_FL_TEST_LOCK))
ldlm_lock_decref(lockh, rc);
return 0;
}
}
if (!(lflags & LDLM_FL_TEST_LOCK) && mode != rc) {
ldlm_lock_addref(lockh, LCK_PR);
ldlm_lock_decref(lockh, LCK_PW);
}
return rc;
}
return rc;
}
int osc_cancel_base(struct lustre_handle *lockh, __u32 mode)
{
if (unlikely(mode == LCK_GROUP))
ldlm_lock_decref_and_cancel(lockh, mode);
else
ldlm_lock_decref(lockh, mode);
return 0;
}
static int osc_statfs_interpret(const struct lu_env *env,
struct ptlrpc_request *req,
struct osc_async_args *aa, int rc)
{
struct obd_statfs *msfs;
if (rc == -EBADR)
/* The request has in fact never been sent
* due to issues at a higher level (LOV).
* Exit immediately since the caller is
* aware of the problem and takes care
* of the clean up
*/
return rc;
if ((rc == -ENOTCONN || rc == -EAGAIN) &&
(aa->aa_oi->oi_flags & OBD_STATFS_NODELAY)) {
rc = 0;
goto out;
}
if (rc != 0)
goto out;
msfs = req_capsule_server_get(&req->rq_pill, &RMF_OBD_STATFS);
if (!msfs) {
rc = -EPROTO;
goto out;
}
*aa->aa_oi->oi_osfs = *msfs;
out:
rc = aa->aa_oi->oi_cb_up(aa->aa_oi, rc);
return rc;
}
static int osc_statfs_async(struct obd_export *exp,
struct obd_info *oinfo, __u64 max_age,
struct ptlrpc_request_set *rqset)
{
struct obd_device *obd = class_exp2obd(exp);
struct ptlrpc_request *req;
struct osc_async_args *aa;
int rc;
/* We could possibly pass max_age in the request (as an absolute
* timestamp or a "seconds.usec ago") so the target can avoid doing
* extra calls into the filesystem if that isn't necessary (e.g.
* during mount that would help a bit). Having relative timestamps
* is not so great if request processing is slow, while absolute
* timestamps are not ideal because they need time synchronization.
*/
req = ptlrpc_request_alloc(obd->u.cli.cl_import, &RQF_OST_STATFS);
if (!req)
return -ENOMEM;
rc = ptlrpc_request_pack(req, LUSTRE_OST_VERSION, OST_STATFS);
if (rc) {
ptlrpc_request_free(req);
return rc;
}
ptlrpc_request_set_replen(req);
req->rq_request_portal = OST_CREATE_PORTAL;
ptlrpc_at_set_req_timeout(req);
if (oinfo->oi_flags & OBD_STATFS_NODELAY) {
/* procfs requests not want stat in wait for avoid deadlock */
req->rq_no_resend = 1;
req->rq_no_delay = 1;
}
req->rq_interpret_reply = (ptlrpc_interpterer_t)osc_statfs_interpret;
CLASSERT(sizeof(*aa) <= sizeof(req->rq_async_args));
aa = ptlrpc_req_async_args(req);
aa->aa_oi = oinfo;
ptlrpc_set_add_req(rqset, req);
return 0;
}
static int osc_statfs(const struct lu_env *env, struct obd_export *exp,
struct obd_statfs *osfs, __u64 max_age, __u32 flags)
{
struct obd_device *obd = class_exp2obd(exp);
struct obd_statfs *msfs;
struct ptlrpc_request *req;
struct obd_import *imp = NULL;
int rc;
/* Since the request might also come from lprocfs, so we need
* sync this with client_disconnect_export Bug15684
*/
down_read(&obd->u.cli.cl_sem);
if (obd->u.cli.cl_import)
imp = class_import_get(obd->u.cli.cl_import);
up_read(&obd->u.cli.cl_sem);
if (!imp)
return -ENODEV;
/* We could possibly pass max_age in the request (as an absolute
* timestamp or a "seconds.usec ago") so the target can avoid doing
* extra calls into the filesystem if that isn't necessary (e.g.
* during mount that would help a bit). Having relative timestamps
* is not so great if request processing is slow, while absolute
* timestamps are not ideal because they need time synchronization.
*/
req = ptlrpc_request_alloc(imp, &RQF_OST_STATFS);
class_import_put(imp);
if (!req)
return -ENOMEM;
rc = ptlrpc_request_pack(req, LUSTRE_OST_VERSION, OST_STATFS);
if (rc) {
ptlrpc_request_free(req);
return rc;
}
ptlrpc_request_set_replen(req);
req->rq_request_portal = OST_CREATE_PORTAL;
ptlrpc_at_set_req_timeout(req);
if (flags & OBD_STATFS_NODELAY) {
/* procfs requests not want stat in wait for avoid deadlock */
req->rq_no_resend = 1;
req->rq_no_delay = 1;
}
rc = ptlrpc_queue_wait(req);
if (rc)
goto out;
msfs = req_capsule_server_get(&req->rq_pill, &RMF_OBD_STATFS);
if (!msfs) {
rc = -EPROTO;
goto out;
}
*osfs = *msfs;
out:
ptlrpc_req_finished(req);
return rc;
}
static int osc_iocontrol(unsigned int cmd, struct obd_export *exp, int len,
void *karg, void __user *uarg)
{
struct obd_device *obd = exp->exp_obd;
struct obd_ioctl_data *data = karg;
int err = 0;
if (!try_module_get(THIS_MODULE)) {
CERROR("%s: cannot get module '%s'\n", obd->obd_name,
module_name(THIS_MODULE));
return -EINVAL;
}
switch (cmd) {
case OBD_IOC_CLIENT_RECOVER:
err = ptlrpc_recover_import(obd->u.cli.cl_import,
data->ioc_inlbuf1, 0);
if (err > 0)
err = 0;
goto out;
case IOC_OSC_SET_ACTIVE:
err = ptlrpc_set_import_active(obd->u.cli.cl_import,
data->ioc_offset);
goto out;
case OBD_IOC_POLL_QUOTACHECK:
err = osc_quota_poll_check(exp, karg);
goto out;
case OBD_IOC_PING_TARGET:
err = ptlrpc_obd_ping(obd);
goto out;
default:
CDEBUG(D_INODE, "unrecognised ioctl %#x by %s\n",
cmd, current_comm());
err = -ENOTTY;
goto out;
}
out:
module_put(THIS_MODULE);
return err;
}
static int osc_get_info(const struct lu_env *env, struct obd_export *exp,
u32 keylen, void *key, __u32 *vallen, void *val,
struct lov_stripe_md *lsm)
{
if (!vallen || !val)
return -EFAULT;
if (KEY_IS(KEY_FIEMAP)) {
struct ll_fiemap_info_key *fm_key = key;
struct ldlm_res_id res_id;
ldlm_policy_data_t policy;
struct lustre_handle lockh;
enum ldlm_mode mode = 0;
struct ptlrpc_request *req;
struct ll_user_fiemap *reply;
char *tmp;
int rc;
if (!(fm_key->fiemap.fm_flags & FIEMAP_FLAG_SYNC))
goto skip_locking;
policy.l_extent.start = fm_key->fiemap.fm_start &
PAGE_MASK;
if (OBD_OBJECT_EOF - fm_key->fiemap.fm_length <=
fm_key->fiemap.fm_start + PAGE_SIZE - 1)
policy.l_extent.end = OBD_OBJECT_EOF;
else
policy.l_extent.end = (fm_key->fiemap.fm_start +
fm_key->fiemap.fm_length +
PAGE_SIZE - 1) & PAGE_MASK;
ostid_build_res_name(&fm_key->oa.o_oi, &res_id);
mode = ldlm_lock_match(exp->exp_obd->obd_namespace,
LDLM_FL_BLOCK_GRANTED |
LDLM_FL_LVB_READY,
&res_id, LDLM_EXTENT, &policy,
LCK_PR | LCK_PW, &lockh, 0);
if (mode) { /* lock is cached on client */
if (mode != LCK_PR) {
ldlm_lock_addref(&lockh, LCK_PR);
ldlm_lock_decref(&lockh, LCK_PW);
}
} else { /* no cached lock, needs acquire lock on server side */
fm_key->oa.o_valid |= OBD_MD_FLFLAGS;
fm_key->oa.o_flags |= OBD_FL_SRVLOCK;
}
skip_locking:
req = ptlrpc_request_alloc(class_exp2cliimp(exp),
&RQF_OST_GET_INFO_FIEMAP);
if (!req) {
rc = -ENOMEM;
goto drop_lock;
}
req_capsule_set_size(&req->rq_pill, &RMF_FIEMAP_KEY,
RCL_CLIENT, keylen);
req_capsule_set_size(&req->rq_pill, &RMF_FIEMAP_VAL,
RCL_CLIENT, *vallen);
req_capsule_set_size(&req->rq_pill, &RMF_FIEMAP_VAL,
RCL_SERVER, *vallen);
rc = ptlrpc_request_pack(req, LUSTRE_OST_VERSION, OST_GET_INFO);
if (rc) {
ptlrpc_request_free(req);
goto drop_lock;
}
tmp = req_capsule_client_get(&req->rq_pill, &RMF_FIEMAP_KEY);
memcpy(tmp, key, keylen);
tmp = req_capsule_client_get(&req->rq_pill, &RMF_FIEMAP_VAL);
memcpy(tmp, val, *vallen);
ptlrpc_request_set_replen(req);
rc = ptlrpc_queue_wait(req);
if (rc)
goto fini_req;
reply = req_capsule_server_get(&req->rq_pill, &RMF_FIEMAP_VAL);
if (!reply) {
rc = -EPROTO;
goto fini_req;
}
memcpy(val, reply, *vallen);
fini_req:
ptlrpc_req_finished(req);
drop_lock:
if (mode)
ldlm_lock_decref(&lockh, LCK_PR);
return rc;
}
return -EINVAL;
}
static int osc_set_info_async(const struct lu_env *env, struct obd_export *exp,
u32 keylen, void *key, u32 vallen,
void *val, struct ptlrpc_request_set *set)
{
struct ptlrpc_request *req;
struct obd_device *obd = exp->exp_obd;
struct obd_import *imp = class_exp2cliimp(exp);
char *tmp;
int rc;
OBD_FAIL_TIMEOUT(OBD_FAIL_OSC_SHUTDOWN, 10);
if (KEY_IS(KEY_CHECKSUM)) {
if (vallen != sizeof(int))
return -EINVAL;
exp->exp_obd->u.cli.cl_checksum = (*(int *)val) ? 1 : 0;
return 0;
}
if (KEY_IS(KEY_SPTLRPC_CONF)) {
sptlrpc_conf_client_adapt(obd);
return 0;
}
if (KEY_IS(KEY_FLUSH_CTX)) {
sptlrpc_import_flush_my_ctx(imp);
return 0;
}
if (KEY_IS(KEY_CACHE_SET)) {
struct client_obd *cli = &obd->u.cli;
LASSERT(!cli->cl_cache); /* only once */
cli->cl_cache = val;
cl_cache_incref(cli->cl_cache);
cli->cl_lru_left = &cli->cl_cache->ccc_lru_left;
/* add this osc into entity list */
LASSERT(list_empty(&cli->cl_lru_osc));
spin_lock(&cli->cl_cache->ccc_lru_lock);
list_add(&cli->cl_lru_osc, &cli->cl_cache->ccc_lru);
spin_unlock(&cli->cl_cache->ccc_lru_lock);
return 0;
}
if (KEY_IS(KEY_CACHE_LRU_SHRINK)) {
struct client_obd *cli = &obd->u.cli;
long nr = atomic_long_read(&cli->cl_lru_in_list) >> 1;
long target = *(long *)val;
nr = osc_lru_shrink(env, cli, min(nr, target), true);
*(long *)val -= nr;
return 0;
}
if (!set && !KEY_IS(KEY_GRANT_SHRINK))
return -EINVAL;
/* We pass all other commands directly to OST. Since nobody calls osc
* methods directly and everybody is supposed to go through LOV, we
* assume lov checked invalid values for us.
* The only recognised values so far are evict_by_nid and mds_conn.
* Even if something bad goes through, we'd get a -EINVAL from OST
* anyway.
*/
req = ptlrpc_request_alloc(imp, KEY_IS(KEY_GRANT_SHRINK) ?
&RQF_OST_SET_GRANT_INFO :
&RQF_OBD_SET_INFO);
if (!req)
return -ENOMEM;
req_capsule_set_size(&req->rq_pill, &RMF_SETINFO_KEY,
RCL_CLIENT, keylen);
if (!KEY_IS(KEY_GRANT_SHRINK))
req_capsule_set_size(&req->rq_pill, &RMF_SETINFO_VAL,
RCL_CLIENT, vallen);
rc = ptlrpc_request_pack(req, LUSTRE_OST_VERSION, OST_SET_INFO);
if (rc) {
ptlrpc_request_free(req);
return rc;
}
tmp = req_capsule_client_get(&req->rq_pill, &RMF_SETINFO_KEY);
memcpy(tmp, key, keylen);
tmp = req_capsule_client_get(&req->rq_pill, KEY_IS(KEY_GRANT_SHRINK) ?
&RMF_OST_BODY :
&RMF_SETINFO_VAL);
memcpy(tmp, val, vallen);
if (KEY_IS(KEY_GRANT_SHRINK)) {
struct osc_brw_async_args *aa;
struct obdo *oa;
CLASSERT(sizeof(*aa) <= sizeof(req->rq_async_args));
aa = ptlrpc_req_async_args(req);
oa = kmem_cache_zalloc(obdo_cachep, GFP_NOFS);
if (!oa) {
ptlrpc_req_finished(req);
return -ENOMEM;
}
*oa = ((struct ost_body *)val)->oa;
aa->aa_oa = oa;
req->rq_interpret_reply = osc_shrink_grant_interpret;
}
ptlrpc_request_set_replen(req);
if (!KEY_IS(KEY_GRANT_SHRINK)) {
LASSERT(set);
ptlrpc_set_add_req(set, req);
ptlrpc_check_set(NULL, set);
} else {
ptlrpcd_add_req(req);
}
return 0;
}
static int osc_reconnect(const struct lu_env *env,
struct obd_export *exp, struct obd_device *obd,
struct obd_uuid *cluuid,
struct obd_connect_data *data,
void *localdata)
{
struct client_obd *cli = &obd->u.cli;
if (data && (data->ocd_connect_flags & OBD_CONNECT_GRANT)) {
long lost_grant;
spin_lock(&cli->cl_loi_list_lock);
data->ocd_grant = (cli->cl_avail_grant +
(cli->cl_dirty_pages << PAGE_SHIFT)) ?:
2 * cli_brw_size(obd);
lost_grant = cli->cl_lost_grant;
cli->cl_lost_grant = 0;
spin_unlock(&cli->cl_loi_list_lock);
CDEBUG(D_RPCTRACE, "ocd_connect_flags: %#llx ocd_version: %d ocd_grant: %d, lost: %ld.\n",
data->ocd_connect_flags,
data->ocd_version, data->ocd_grant, lost_grant);
}
return 0;
}
static int osc_disconnect(struct obd_export *exp)
{
struct obd_device *obd = class_exp2obd(exp);
int rc;
rc = client_disconnect_export(exp);
/**
* Initially we put del_shrink_grant before disconnect_export, but it
* causes the following problem if setup (connect) and cleanup
* (disconnect) are tangled together.
* connect p1 disconnect p2
* ptlrpc_connect_import
* ............... class_manual_cleanup
* osc_disconnect
* del_shrink_grant
* ptlrpc_connect_interrupt
* init_grant_shrink
* add this client to shrink list
* cleanup_osc
* Bang! pinger trigger the shrink.
* So the osc should be disconnected from the shrink list, after we
* are sure the import has been destroyed. BUG18662
*/
if (!obd->u.cli.cl_import)
osc_del_shrink_grant(&obd->u.cli);
return rc;
}
static int osc_import_event(struct obd_device *obd,
struct obd_import *imp,
enum obd_import_event event)
{
struct client_obd *cli;
int rc = 0;
LASSERT(imp->imp_obd == obd);
switch (event) {
case IMP_EVENT_DISCON: {
cli = &obd->u.cli;
spin_lock(&cli->cl_loi_list_lock);
cli->cl_avail_grant = 0;
cli->cl_lost_grant = 0;
spin_unlock(&cli->cl_loi_list_lock);
break;
}
case IMP_EVENT_INACTIVE: {
rc = obd_notify_observer(obd, obd, OBD_NOTIFY_INACTIVE, NULL);
break;
}
case IMP_EVENT_INVALIDATE: {
struct ldlm_namespace *ns = obd->obd_namespace;
struct lu_env *env;
int refcheck;
env = cl_env_get(&refcheck);
if (!IS_ERR(env)) {
/* Reset grants */
cli = &obd->u.cli;
/* all pages go to failing rpcs due to the invalid
* import
*/
osc_io_unplug(env, cli, NULL);
ldlm_namespace_cleanup(ns, LDLM_FL_LOCAL_ONLY);
cl_env_put(env, &refcheck);
} else {
rc = PTR_ERR(env);
}
break;
}
case IMP_EVENT_ACTIVE: {
rc = obd_notify_observer(obd, obd, OBD_NOTIFY_ACTIVE, NULL);
break;
}
case IMP_EVENT_OCD: {
struct obd_connect_data *ocd = &imp->imp_connect_data;
if (ocd->ocd_connect_flags & OBD_CONNECT_GRANT)
osc_init_grant(&obd->u.cli, ocd);
/* See bug 7198 */
if (ocd->ocd_connect_flags & OBD_CONNECT_REQPORTAL)
imp->imp_client->cli_request_portal = OST_REQUEST_PORTAL;
rc = obd_notify_observer(obd, obd, OBD_NOTIFY_OCD, NULL);
break;
}
case IMP_EVENT_DEACTIVATE: {
rc = obd_notify_observer(obd, obd, OBD_NOTIFY_DEACTIVATE, NULL);
break;
}
case IMP_EVENT_ACTIVATE: {
rc = obd_notify_observer(obd, obd, OBD_NOTIFY_ACTIVATE, NULL);
break;
}
default:
CERROR("Unknown import event %d\n", event);
LBUG();
}
return rc;
}
/**
* Determine whether the lock can be canceled before replaying the lock
* during recovery, see bug16774 for detailed information.
*
* \retval zero the lock can't be canceled
* \retval other ok to cancel
*/
static int osc_cancel_weight(struct ldlm_lock *lock)
{
/*
* Cancel all unused and granted extent lock.
*/
if (lock->l_resource->lr_type == LDLM_EXTENT &&
lock->l_granted_mode == lock->l_req_mode &&
osc_ldlm_weigh_ast(lock) == 0)
return 1;
return 0;
}
static int brw_queue_work(const struct lu_env *env, void *data)
{
struct client_obd *cli = data;
CDEBUG(D_CACHE, "Run writeback work for client obd %p.\n", cli);
osc_io_unplug(env, cli, NULL);
return 0;
}
int osc_setup(struct obd_device *obd, struct lustre_cfg *lcfg)
{
struct lprocfs_static_vars lvars = { NULL };
struct client_obd *cli = &obd->u.cli;
void *handler;
int rc;
int adding;
int added;
int req_count;
rc = ptlrpcd_addref();
if (rc)
return rc;
rc = client_obd_setup(obd, lcfg);
if (rc)
goto out_ptlrpcd;
handler = ptlrpcd_alloc_work(cli->cl_import, brw_queue_work, cli);
if (IS_ERR(handler)) {
rc = PTR_ERR(handler);
goto out_client_setup;
}
cli->cl_writeback_work = handler;
handler = ptlrpcd_alloc_work(cli->cl_import, lru_queue_work, cli);
if (IS_ERR(handler)) {
rc = PTR_ERR(handler);
goto out_ptlrpcd_work;
}
cli->cl_lru_work = handler;
rc = osc_quota_setup(obd);
if (rc)
goto out_ptlrpcd_work;
cli->cl_grant_shrink_interval = GRANT_SHRINK_INTERVAL;
lprocfs_osc_init_vars(&lvars);
if (lprocfs_obd_setup(obd, lvars.obd_vars, lvars.sysfs_vars) == 0) {
lproc_osc_attach_seqstat(obd);
sptlrpc_lprocfs_cliobd_attach(obd);
ptlrpc_lprocfs_register_obd(obd);
}
/*
* We try to control the total number of requests with a upper limit
* osc_reqpool_maxreqcount. There might be some race which will cause
* over-limit allocation, but it is fine.
*/
req_count = atomic_read(&osc_pool_req_count);
if (req_count < osc_reqpool_maxreqcount) {
adding = cli->cl_max_rpcs_in_flight + 2;
if (req_count + adding > osc_reqpool_maxreqcount)
adding = osc_reqpool_maxreqcount - req_count;
added = ptlrpc_add_rqs_to_pool(osc_rq_pool, adding);
atomic_add(added, &osc_pool_req_count);
}
INIT_LIST_HEAD(&cli->cl_grant_shrink_list);
ns_register_cancel(obd->obd_namespace, osc_cancel_weight);
return rc;
out_ptlrpcd_work:
if (cli->cl_writeback_work) {
ptlrpcd_destroy_work(cli->cl_writeback_work);
cli->cl_writeback_work = NULL;
}
if (cli->cl_lru_work) {
ptlrpcd_destroy_work(cli->cl_lru_work);
cli->cl_lru_work = NULL;
}
out_client_setup:
client_obd_cleanup(obd);
out_ptlrpcd:
ptlrpcd_decref();
return rc;
}
static int osc_precleanup(struct obd_device *obd, enum obd_cleanup_stage stage)
{
switch (stage) {
case OBD_CLEANUP_EARLY: {
struct obd_import *imp;
imp = obd->u.cli.cl_import;
CDEBUG(D_HA, "Deactivating import %s\n", obd->obd_name);
/* ptlrpc_abort_inflight to stop an mds_lov_synchronize */
ptlrpc_deactivate_import(imp);
spin_lock(&imp->imp_lock);
imp->imp_pingable = 0;
spin_unlock(&imp->imp_lock);
break;
}
case OBD_CLEANUP_EXPORTS: {
struct client_obd *cli = &obd->u.cli;
/* LU-464
* for echo client, export may be on zombie list, wait for
* zombie thread to cull it, because cli.cl_import will be
* cleared in client_disconnect_export():
* class_export_destroy() -> obd_cleanup() ->
* echo_device_free() -> echo_client_cleanup() ->
* obd_disconnect() -> osc_disconnect() ->
* client_disconnect_export()
*/
obd_zombie_barrier();
if (cli->cl_writeback_work) {
ptlrpcd_destroy_work(cli->cl_writeback_work);
cli->cl_writeback_work = NULL;
}
if (cli->cl_lru_work) {
ptlrpcd_destroy_work(cli->cl_lru_work);
cli->cl_lru_work = NULL;
}
obd_cleanup_client_import(obd);
ptlrpc_lprocfs_unregister_obd(obd);
lprocfs_obd_cleanup(obd);
break;
}
}
return 0;
}
static int osc_cleanup(struct obd_device *obd)
{
struct client_obd *cli = &obd->u.cli;
int rc;
/* lru cleanup */
if (cli->cl_cache) {
LASSERT(atomic_read(&cli->cl_cache->ccc_users) > 0);
spin_lock(&cli->cl_cache->ccc_lru_lock);
list_del_init(&cli->cl_lru_osc);
spin_unlock(&cli->cl_cache->ccc_lru_lock);
cli->cl_lru_left = NULL;
cl_cache_decref(cli->cl_cache);
cli->cl_cache = NULL;
}
/* free memory of osc quota cache */
osc_quota_cleanup(obd);
rc = client_obd_cleanup(obd);
ptlrpcd_decref();
return rc;
}
int osc_process_config_base(struct obd_device *obd, struct lustre_cfg *lcfg)
{
struct lprocfs_static_vars lvars = { NULL };
int rc = 0;
lprocfs_osc_init_vars(&lvars);
switch (lcfg->lcfg_command) {
default:
rc = class_process_proc_param(PARAM_OSC, lvars.obd_vars,
lcfg, obd);
if (rc > 0)
rc = 0;
break;
}
return rc;
}
static int osc_process_config(struct obd_device *obd, u32 len, void *buf)
{
return osc_process_config_base(obd, buf);
}
static struct obd_ops osc_obd_ops = {
.owner = THIS_MODULE,
.setup = osc_setup,
.precleanup = osc_precleanup,
.cleanup = osc_cleanup,
.add_conn = client_import_add_conn,
.del_conn = client_import_del_conn,
.connect = client_connect_import,
.reconnect = osc_reconnect,
.disconnect = osc_disconnect,
.statfs = osc_statfs,
.statfs_async = osc_statfs_async,
.unpackmd = osc_unpackmd,
.create = osc_create,
.destroy = osc_destroy,
.getattr = osc_getattr,
.getattr_async = osc_getattr_async,
.setattr = osc_setattr,
.setattr_async = osc_setattr_async,
.iocontrol = osc_iocontrol,
.get_info = osc_get_info,
.set_info_async = osc_set_info_async,
.import_event = osc_import_event,
.process_config = osc_process_config,
.quotactl = osc_quotactl,
.quotacheck = osc_quotacheck,
};
extern struct lu_kmem_descr osc_caches[];
extern struct lock_class_key osc_ast_guard_class;
static int __init osc_init(void)
{
struct lprocfs_static_vars lvars = { NULL };
unsigned int reqpool_size;
unsigned int reqsize;
int rc;
/* print an address of _any_ initialized kernel symbol from this
* module, to allow debugging with gdb that doesn't support data
* symbols from modules.
*/
CDEBUG(D_INFO, "Lustre OSC module (%p).\n", &osc_caches);
rc = lu_kmem_init(osc_caches);
if (rc)
return rc;
lprocfs_osc_init_vars(&lvars);
rc = class_register_type(&osc_obd_ops, NULL,
LUSTRE_OSC_NAME, &osc_device_type);
if (rc)
goto out_kmem;
/* This is obviously too much memory, only prevent overflow here */
if (osc_reqpool_mem_max >= 1 << 12 || osc_reqpool_mem_max == 0) {
rc = -EINVAL;
goto out_type;
}
reqpool_size = osc_reqpool_mem_max << 20;
reqsize = 1;
while (reqsize < OST_MAXREQSIZE)
reqsize = reqsize << 1;
/*
* We don't enlarge the request count in OSC pool according to
* cl_max_rpcs_in_flight. The allocation from the pool will only be
* tried after normal allocation failed. So a small OSC pool won't
* cause much performance degression in most of cases.
*/
osc_reqpool_maxreqcount = reqpool_size / reqsize;
atomic_set(&osc_pool_req_count, 0);
osc_rq_pool = ptlrpc_init_rq_pool(0, OST_MAXREQSIZE,
ptlrpc_add_rqs_to_pool);
if (osc_rq_pool)
return 0;
rc = -ENOMEM;
out_type:
class_unregister_type(LUSTRE_OSC_NAME);
out_kmem:
lu_kmem_fini(osc_caches);
return rc;
}
static void /*__exit*/ osc_exit(void)
{
class_unregister_type(LUSTRE_OSC_NAME);
lu_kmem_fini(osc_caches);
ptlrpc_free_rq_pool(osc_rq_pool);
}
MODULE_AUTHOR("OpenSFS, Inc. <http://www.lustre.org/>");
MODULE_DESCRIPTION("Lustre Object Storage Client (OSC)");
MODULE_LICENSE("GPL");
MODULE_VERSION(LUSTRE_VERSION_STRING);
module_init(osc_init);
module_exit(osc_exit);
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