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alistair23-linux/drivers/scsi/libsas/sas_init.c
Linus Torvalds ba6d10ab80 SCSI misc on 20190709 
This is mostly update of the usual drivers: qla2xxx, hpsa, lpfc, ufs,
 mpt3sas, ibmvscsi, megaraid_sas, bnx2fc and hisi_sas as well as the
 removal of the osst driver (I heard from Willem privately that he
 would like the driver removed because all his test hardware has
 failed).  Plus number of minor changes, spelling fixes and other
 trivia.
 
 Signed-off-by: James E.J. Bottomley <jejb@linux.ibm.com>
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Merge tag 'scsi-misc' of git://git.kernel.org/pub/scm/linux/kernel/git/jejb/scsi

Pull SCSI updates from James Bottomley:
 "This is mostly update of the usual drivers: qla2xxx, hpsa, lpfc, ufs,
  mpt3sas, ibmvscsi, megaraid_sas, bnx2fc and hisi_sas as well as the
  removal of the osst driver (I heard from Willem privately that he
  would like the driver removed because all his test hardware has
  failed). Plus number of minor changes, spelling fixes and other
  trivia.

  The big merge conflict this time around is the SPDX licence tags.
  Following discussion on linux-next, we believe our version to be more
  accurate than the one in the tree, so the resolution is to take our
  version for all the SPDX conflicts"

Note on the SPDX license tag conversion conflicts: the SCSI tree had
done its own SPDX conversion, which in some cases conflicted with the
treewide ones done by Thomas & co.

In almost all cases, the conflicts were purely syntactic: the SCSI tree
used the old-style SPDX tags ("GPL-2.0" and "GPL-2.0+") while the
treewide conversion had used the new-style ones ("GPL-2.0-only" and
"GPL-2.0-or-later").

In these cases I picked the new-style one.

In a few cases, the SPDX conversion was actually different, though.  As
explained by James above, and in more detail in a pre-pull-request
thread:

 "The other problem is actually substantive: In the libsas code Luben
  Tuikov originally specified gpl 2.0 only by dint of stating:

  * This file is licensed under GPLv2.

  In all the libsas files, but then muddied the water by quoting GPLv2
  verbatim (which includes the or later than language). So for these
  files Christoph did the conversion to v2 only SPDX tags and Thomas
  converted to v2 or later tags"

So in those cases, where the spdx tag substantially mattered, I took the
SCSI tree conversion of it, but then also took the opportunity to turn
the old-style "GPL-2.0" into a new-style "GPL-2.0-only" tag.

Similarly, when there were whitespace differences or other differences
to the comments around the copyright notices, I took the version from
the SCSI tree as being the more specific conversion.

Finally, in the spdx conversions that had no conflicts (because the
treewide ones hadn't been done for those files), I just took the SCSI
tree version as-is, even if it was old-style.  The old-style conversions
are perfectly valid, even if the "-only" and "-or-later" versions are
perhaps more descriptive.

* tag 'scsi-misc' of git://git.kernel.org/pub/scm/linux/kernel/git/jejb/scsi: (185 commits)
  scsi: qla2xxx: move IO flush to the front of NVME rport unregistration
  scsi: qla2xxx: Fix NVME cmd and LS cmd timeout race condition
  scsi: qla2xxx: on session delete, return nvme cmd
  scsi: qla2xxx: Fix kernel crash after disconnecting NVMe devices
  scsi: megaraid_sas: Update driver version to 07.710.06.00-rc1
  scsi: megaraid_sas: Introduce various Aero performance modes
  scsi: megaraid_sas: Use high IOPS queues based on IO workload
  scsi: megaraid_sas: Set affinity for high IOPS reply queues
  scsi: megaraid_sas: Enable coalescing for high IOPS queues
  scsi: megaraid_sas: Add support for High IOPS queues
  scsi: megaraid_sas: Add support for MPI toolbox commands
  scsi: megaraid_sas: Offload Aero RAID5/6 division calculations to driver
  scsi: megaraid_sas: RAID1 PCI bandwidth limit algorithm is applicable for only Ventura
  scsi: megaraid_sas: megaraid_sas: Add check for count returned by HOST_DEVICE_LIST DCMD
  scsi: megaraid_sas: Handle sequence JBOD map failure at driver level
  scsi: megaraid_sas: Don't send FPIO to RL Bypass queue
  scsi: megaraid_sas: In probe context, retry IOC INIT once if firmware is in fault
  scsi: megaraid_sas: Release Mutex lock before OCR in case of DCMD timeout
  scsi: megaraid_sas: Call disable_irq from process IRQ poll
  scsi: megaraid_sas: Remove few debug counters from IO path
  ...
2019-07-11 15:14:01 -07:00

669 lines
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// SPDX-License-Identifier: GPL-2.0-only
/*
* Serial Attached SCSI (SAS) Transport Layer initialization
*
* Copyright (C) 2005 Adaptec, Inc. All rights reserved.
* Copyright (C) 2005 Luben Tuikov <luben_tuikov@adaptec.com>
*/
#include <linux/module.h>
#include <linux/slab.h>
#include <linux/init.h>
#include <linux/device.h>
#include <linux/spinlock.h>
#include <scsi/sas_ata.h>
#include <scsi/scsi_host.h>
#include <scsi/scsi_device.h>
#include <scsi/scsi_transport.h>
#include <scsi/scsi_transport_sas.h>
#include "sas_internal.h"
#include "../scsi_sas_internal.h"
static struct kmem_cache *sas_task_cache;
static struct kmem_cache *sas_event_cache;
struct sas_task *sas_alloc_task(gfp_t flags)
{
struct sas_task *task = kmem_cache_zalloc(sas_task_cache, flags);
if (task) {
spin_lock_init(&task->task_state_lock);
task->task_state_flags = SAS_TASK_STATE_PENDING;
}
return task;
}
EXPORT_SYMBOL_GPL(sas_alloc_task);
struct sas_task *sas_alloc_slow_task(gfp_t flags)
{
struct sas_task *task = sas_alloc_task(flags);
struct sas_task_slow *slow = kmalloc(sizeof(*slow), flags);
if (!task || !slow) {
if (task)
kmem_cache_free(sas_task_cache, task);
kfree(slow);
return NULL;
}
task->slow_task = slow;
slow->task = task;
timer_setup(&slow->timer, NULL, 0);
init_completion(&slow->completion);
return task;
}
EXPORT_SYMBOL_GPL(sas_alloc_slow_task);
void sas_free_task(struct sas_task *task)
{
if (task) {
kfree(task->slow_task);
kmem_cache_free(sas_task_cache, task);
}
}
EXPORT_SYMBOL_GPL(sas_free_task);
/*------------ SAS addr hash -----------*/
void sas_hash_addr(u8 *hashed, const u8 *sas_addr)
{
const u32 poly = 0x00DB2777;
u32 r = 0;
int i;
for (i = 0; i < SAS_ADDR_SIZE; i++) {
int b;
for (b = (SAS_ADDR_SIZE - 1); b >= 0; b--) {
r <<= 1;
if ((1 << b) & sas_addr[i]) {
if (!(r & 0x01000000))
r ^= poly;
} else if (r & 0x01000000) {
r ^= poly;
}
}
}
hashed[0] = (r >> 16) & 0xFF;
hashed[1] = (r >> 8) & 0xFF;
hashed[2] = r & 0xFF;
}
int sas_register_ha(struct sas_ha_struct *sas_ha)
{
char name[64];
int error = 0;
mutex_init(&sas_ha->disco_mutex);
spin_lock_init(&sas_ha->phy_port_lock);
sas_hash_addr(sas_ha->hashed_sas_addr, sas_ha->sas_addr);
set_bit(SAS_HA_REGISTERED, &sas_ha->state);
spin_lock_init(&sas_ha->lock);
mutex_init(&sas_ha->drain_mutex);
init_waitqueue_head(&sas_ha->eh_wait_q);
INIT_LIST_HEAD(&sas_ha->defer_q);
INIT_LIST_HEAD(&sas_ha->eh_dev_q);
sas_ha->event_thres = SAS_PHY_SHUTDOWN_THRES;
error = sas_register_phys(sas_ha);
if (error) {
pr_notice("couldn't register sas phys:%d\n", error);
return error;
}
error = sas_register_ports(sas_ha);
if (error) {
pr_notice("couldn't register sas ports:%d\n", error);
goto Undo_phys;
}
error = sas_init_events(sas_ha);
if (error) {
pr_notice("couldn't start event thread:%d\n", error);
goto Undo_ports;
}
error = -ENOMEM;
snprintf(name, sizeof(name), "%s_event_q", dev_name(sas_ha->dev));
sas_ha->event_q = create_singlethread_workqueue(name);
if (!sas_ha->event_q)
goto Undo_ports;
snprintf(name, sizeof(name), "%s_disco_q", dev_name(sas_ha->dev));
sas_ha->disco_q = create_singlethread_workqueue(name);
if (!sas_ha->disco_q)
goto Undo_event_q;
INIT_LIST_HEAD(&sas_ha->eh_done_q);
INIT_LIST_HEAD(&sas_ha->eh_ata_q);
return 0;
Undo_event_q:
destroy_workqueue(sas_ha->event_q);
Undo_ports:
sas_unregister_ports(sas_ha);
Undo_phys:
return error;
}
static void sas_disable_events(struct sas_ha_struct *sas_ha)
{
/* Set the state to unregistered to avoid further unchained
* events to be queued, and flush any in-progress drainers
*/
mutex_lock(&sas_ha->drain_mutex);
spin_lock_irq(&sas_ha->lock);
clear_bit(SAS_HA_REGISTERED, &sas_ha->state);
spin_unlock_irq(&sas_ha->lock);
__sas_drain_work(sas_ha);
mutex_unlock(&sas_ha->drain_mutex);
}
int sas_unregister_ha(struct sas_ha_struct *sas_ha)
{
sas_disable_events(sas_ha);
sas_unregister_ports(sas_ha);
/* flush unregistration work */
mutex_lock(&sas_ha->drain_mutex);
__sas_drain_work(sas_ha);
mutex_unlock(&sas_ha->drain_mutex);
destroy_workqueue(sas_ha->disco_q);
destroy_workqueue(sas_ha->event_q);
return 0;
}
static int sas_get_linkerrors(struct sas_phy *phy)
{
if (scsi_is_sas_phy_local(phy)) {
struct Scsi_Host *shost = dev_to_shost(phy->dev.parent);
struct sas_ha_struct *sas_ha = SHOST_TO_SAS_HA(shost);
struct asd_sas_phy *asd_phy = sas_ha->sas_phy[phy->number];
struct sas_internal *i =
to_sas_internal(sas_ha->core.shost->transportt);
return i->dft->lldd_control_phy(asd_phy, PHY_FUNC_GET_EVENTS, NULL);
}
return sas_smp_get_phy_events(phy);
}
int sas_try_ata_reset(struct asd_sas_phy *asd_phy)
{
struct domain_device *dev = NULL;
/* try to route user requested link resets through libata */
if (asd_phy->port)
dev = asd_phy->port->port_dev;
/* validate that dev has been probed */
if (dev)
dev = sas_find_dev_by_rphy(dev->rphy);
if (dev && dev_is_sata(dev)) {
sas_ata_schedule_reset(dev);
sas_ata_wait_eh(dev);
return 0;
}
return -ENODEV;
}
/*
* transport_sas_phy_reset - reset a phy and permit libata to manage the link
*
* phy reset request via sysfs in host workqueue context so we know we
* can block on eh and safely traverse the domain_device topology
*/
static int transport_sas_phy_reset(struct sas_phy *phy, int hard_reset)
{
enum phy_func reset_type;
if (hard_reset)
reset_type = PHY_FUNC_HARD_RESET;
else
reset_type = PHY_FUNC_LINK_RESET;
if (scsi_is_sas_phy_local(phy)) {
struct Scsi_Host *shost = dev_to_shost(phy->dev.parent);
struct sas_ha_struct *sas_ha = SHOST_TO_SAS_HA(shost);
struct asd_sas_phy *asd_phy = sas_ha->sas_phy[phy->number];
struct sas_internal *i =
to_sas_internal(sas_ha->core.shost->transportt);
if (!hard_reset && sas_try_ata_reset(asd_phy) == 0)
return 0;
return i->dft->lldd_control_phy(asd_phy, reset_type, NULL);
} else {
struct sas_rphy *rphy = dev_to_rphy(phy->dev.parent);
struct domain_device *ddev = sas_find_dev_by_rphy(rphy);
struct domain_device *ata_dev = sas_ex_to_ata(ddev, phy->number);
if (ata_dev && !hard_reset) {
sas_ata_schedule_reset(ata_dev);
sas_ata_wait_eh(ata_dev);
return 0;
} else
return sas_smp_phy_control(ddev, phy->number, reset_type, NULL);
}
}
static int sas_phy_enable(struct sas_phy *phy, int enable)
{
int ret;
enum phy_func cmd;
if (enable)
cmd = PHY_FUNC_LINK_RESET;
else
cmd = PHY_FUNC_DISABLE;
if (scsi_is_sas_phy_local(phy)) {
struct Scsi_Host *shost = dev_to_shost(phy->dev.parent);
struct sas_ha_struct *sas_ha = SHOST_TO_SAS_HA(shost);
struct asd_sas_phy *asd_phy = sas_ha->sas_phy[phy->number];
struct sas_internal *i =
to_sas_internal(sas_ha->core.shost->transportt);
if (enable)
ret = transport_sas_phy_reset(phy, 0);
else
ret = i->dft->lldd_control_phy(asd_phy, cmd, NULL);
} else {
struct sas_rphy *rphy = dev_to_rphy(phy->dev.parent);
struct domain_device *ddev = sas_find_dev_by_rphy(rphy);
if (enable)
ret = transport_sas_phy_reset(phy, 0);
else
ret = sas_smp_phy_control(ddev, phy->number, cmd, NULL);
}
return ret;
}
int sas_phy_reset(struct sas_phy *phy, int hard_reset)
{
int ret;
enum phy_func reset_type;
if (!phy->enabled)
return -ENODEV;
if (hard_reset)
reset_type = PHY_FUNC_HARD_RESET;
else
reset_type = PHY_FUNC_LINK_RESET;
if (scsi_is_sas_phy_local(phy)) {
struct Scsi_Host *shost = dev_to_shost(phy->dev.parent);
struct sas_ha_struct *sas_ha = SHOST_TO_SAS_HA(shost);
struct asd_sas_phy *asd_phy = sas_ha->sas_phy[phy->number];
struct sas_internal *i =
to_sas_internal(sas_ha->core.shost->transportt);
ret = i->dft->lldd_control_phy(asd_phy, reset_type, NULL);
} else {
struct sas_rphy *rphy = dev_to_rphy(phy->dev.parent);
struct domain_device *ddev = sas_find_dev_by_rphy(rphy);
ret = sas_smp_phy_control(ddev, phy->number, reset_type, NULL);
}
return ret;
}
int sas_set_phy_speed(struct sas_phy *phy,
struct sas_phy_linkrates *rates)
{
int ret;
if ((rates->minimum_linkrate &&
rates->minimum_linkrate > phy->maximum_linkrate) ||
(rates->maximum_linkrate &&
rates->maximum_linkrate < phy->minimum_linkrate))
return -EINVAL;
if (rates->minimum_linkrate &&
rates->minimum_linkrate < phy->minimum_linkrate_hw)
rates->minimum_linkrate = phy->minimum_linkrate_hw;
if (rates->maximum_linkrate &&
rates->maximum_linkrate > phy->maximum_linkrate_hw)
rates->maximum_linkrate = phy->maximum_linkrate_hw;
if (scsi_is_sas_phy_local(phy)) {
struct Scsi_Host *shost = dev_to_shost(phy->dev.parent);
struct sas_ha_struct *sas_ha = SHOST_TO_SAS_HA(shost);
struct asd_sas_phy *asd_phy = sas_ha->sas_phy[phy->number];
struct sas_internal *i =
to_sas_internal(sas_ha->core.shost->transportt);
ret = i->dft->lldd_control_phy(asd_phy, PHY_FUNC_SET_LINK_RATE,
rates);
} else {
struct sas_rphy *rphy = dev_to_rphy(phy->dev.parent);
struct domain_device *ddev = sas_find_dev_by_rphy(rphy);
ret = sas_smp_phy_control(ddev, phy->number,
PHY_FUNC_LINK_RESET, rates);
}
return ret;
}
void sas_prep_resume_ha(struct sas_ha_struct *ha)
{
int i;
set_bit(SAS_HA_REGISTERED, &ha->state);
/* clear out any stale link events/data from the suspension path */
for (i = 0; i < ha->num_phys; i++) {
struct asd_sas_phy *phy = ha->sas_phy[i];
memset(phy->attached_sas_addr, 0, SAS_ADDR_SIZE);
phy->frame_rcvd_size = 0;
}
}
EXPORT_SYMBOL(sas_prep_resume_ha);
static int phys_suspended(struct sas_ha_struct *ha)
{
int i, rc = 0;
for (i = 0; i < ha->num_phys; i++) {
struct asd_sas_phy *phy = ha->sas_phy[i];
if (phy->suspended)
rc++;
}
return rc;
}
void sas_resume_ha(struct sas_ha_struct *ha)
{
const unsigned long tmo = msecs_to_jiffies(25000);
int i;
/* deform ports on phys that did not resume
* at this point we may be racing the phy coming back (as posted
* by the lldd). So we post the event and once we are in the
* libsas context check that the phy remains suspended before
* tearing it down.
*/
i = phys_suspended(ha);
if (i)
dev_info(ha->dev, "waiting up to 25 seconds for %d phy%s to resume\n",
i, i > 1 ? "s" : "");
wait_event_timeout(ha->eh_wait_q, phys_suspended(ha) == 0, tmo);
for (i = 0; i < ha->num_phys; i++) {
struct asd_sas_phy *phy = ha->sas_phy[i];
if (phy->suspended) {
dev_warn(&phy->phy->dev, "resume timeout\n");
sas_notify_phy_event(phy, PHYE_RESUME_TIMEOUT);
}
}
/* all phys are back up or timed out, turn on i/o so we can
* flush out disks that did not return
*/
scsi_unblock_requests(ha->core.shost);
sas_drain_work(ha);
}
EXPORT_SYMBOL(sas_resume_ha);
void sas_suspend_ha(struct sas_ha_struct *ha)
{
int i;
sas_disable_events(ha);
scsi_block_requests(ha->core.shost);
for (i = 0; i < ha->num_phys; i++) {
struct asd_sas_port *port = ha->sas_port[i];
sas_discover_event(port, DISCE_SUSPEND);
}
/* flush suspend events while unregistered */
mutex_lock(&ha->drain_mutex);
__sas_drain_work(ha);
mutex_unlock(&ha->drain_mutex);
}
EXPORT_SYMBOL(sas_suspend_ha);
static void sas_phy_release(struct sas_phy *phy)
{
kfree(phy->hostdata);
phy->hostdata = NULL;
}
static void phy_reset_work(struct work_struct *work)
{
struct sas_phy_data *d = container_of(work, typeof(*d), reset_work.work);
d->reset_result = transport_sas_phy_reset(d->phy, d->hard_reset);
}
static void phy_enable_work(struct work_struct *work)
{
struct sas_phy_data *d = container_of(work, typeof(*d), enable_work.work);
d->enable_result = sas_phy_enable(d->phy, d->enable);
}
static int sas_phy_setup(struct sas_phy *phy)
{
struct sas_phy_data *d = kzalloc(sizeof(*d), GFP_KERNEL);
if (!d)
return -ENOMEM;
mutex_init(&d->event_lock);
INIT_SAS_WORK(&d->reset_work, phy_reset_work);
INIT_SAS_WORK(&d->enable_work, phy_enable_work);
d->phy = phy;
phy->hostdata = d;
return 0;
}
static int queue_phy_reset(struct sas_phy *phy, int hard_reset)
{
struct Scsi_Host *shost = dev_to_shost(phy->dev.parent);
struct sas_ha_struct *ha = SHOST_TO_SAS_HA(shost);
struct sas_phy_data *d = phy->hostdata;
int rc;
if (!d)
return -ENOMEM;
/* libsas workqueue coordinates ata-eh reset with discovery */
mutex_lock(&d->event_lock);
d->reset_result = 0;
d->hard_reset = hard_reset;
spin_lock_irq(&ha->lock);
sas_queue_work(ha, &d->reset_work);
spin_unlock_irq(&ha->lock);
rc = sas_drain_work(ha);
if (rc == 0)
rc = d->reset_result;
mutex_unlock(&d->event_lock);
return rc;
}
static int queue_phy_enable(struct sas_phy *phy, int enable)
{
struct Scsi_Host *shost = dev_to_shost(phy->dev.parent);
struct sas_ha_struct *ha = SHOST_TO_SAS_HA(shost);
struct sas_phy_data *d = phy->hostdata;
int rc;
if (!d)
return -ENOMEM;
/* libsas workqueue coordinates ata-eh reset with discovery */
mutex_lock(&d->event_lock);
d->enable_result = 0;
d->enable = enable;
spin_lock_irq(&ha->lock);
sas_queue_work(ha, &d->enable_work);
spin_unlock_irq(&ha->lock);
rc = sas_drain_work(ha);
if (rc == 0)
rc = d->enable_result;
mutex_unlock(&d->event_lock);
return rc;
}
static struct sas_function_template sft = {
.phy_enable = queue_phy_enable,
.phy_reset = queue_phy_reset,
.phy_setup = sas_phy_setup,
.phy_release = sas_phy_release,
.set_phy_speed = sas_set_phy_speed,
.get_linkerrors = sas_get_linkerrors,
.smp_handler = sas_smp_handler,
};
static inline ssize_t phy_event_threshold_show(struct device *dev,
struct device_attribute *attr, char *buf)
{
struct Scsi_Host *shost = class_to_shost(dev);
struct sas_ha_struct *sha = SHOST_TO_SAS_HA(shost);
return scnprintf(buf, PAGE_SIZE, "%u\n", sha->event_thres);
}
static inline ssize_t phy_event_threshold_store(struct device *dev,
struct device_attribute *attr,
const char *buf, size_t count)
{
struct Scsi_Host *shost = class_to_shost(dev);
struct sas_ha_struct *sha = SHOST_TO_SAS_HA(shost);
sha->event_thres = simple_strtol(buf, NULL, 10);
/* threshold cannot be set too small */
if (sha->event_thres < 32)
sha->event_thres = 32;
return count;
}
DEVICE_ATTR(phy_event_threshold,
S_IRUGO|S_IWUSR,
phy_event_threshold_show,
phy_event_threshold_store);
EXPORT_SYMBOL_GPL(dev_attr_phy_event_threshold);
struct scsi_transport_template *
sas_domain_attach_transport(struct sas_domain_function_template *dft)
{
struct scsi_transport_template *stt = sas_attach_transport(&sft);
struct sas_internal *i;
if (!stt)
return stt;
i = to_sas_internal(stt);
i->dft = dft;
stt->create_work_queue = 1;
stt->eh_strategy_handler = sas_scsi_recover_host;
return stt;
}
EXPORT_SYMBOL_GPL(sas_domain_attach_transport);
struct asd_sas_event *sas_alloc_event(struct asd_sas_phy *phy)
{
struct asd_sas_event *event;
gfp_t flags = in_interrupt() ? GFP_ATOMIC : GFP_KERNEL;
struct sas_ha_struct *sas_ha = phy->ha;
struct sas_internal *i =
to_sas_internal(sas_ha->core.shost->transportt);
event = kmem_cache_zalloc(sas_event_cache, flags);
if (!event)
return NULL;
atomic_inc(&phy->event_nr);
if (atomic_read(&phy->event_nr) > phy->ha->event_thres) {
if (i->dft->lldd_control_phy) {
if (cmpxchg(&phy->in_shutdown, 0, 1) == 0) {
pr_notice("The phy%d bursting events, shut it down.\n",
phy->id);
sas_notify_phy_event(phy, PHYE_SHUTDOWN);
}
} else {
/* Do not support PHY control, stop allocating events */
WARN_ONCE(1, "PHY control not supported.\n");
kmem_cache_free(sas_event_cache, event);
atomic_dec(&phy->event_nr);
event = NULL;
}
}
return event;
}
void sas_free_event(struct asd_sas_event *event)
{
struct asd_sas_phy *phy = event->phy;
kmem_cache_free(sas_event_cache, event);
atomic_dec(&phy->event_nr);
}
/* ---------- SAS Class register/unregister ---------- */
static int __init sas_class_init(void)
{
sas_task_cache = KMEM_CACHE(sas_task, SLAB_HWCACHE_ALIGN);
if (!sas_task_cache)
goto out;
sas_event_cache = KMEM_CACHE(asd_sas_event, SLAB_HWCACHE_ALIGN);
if (!sas_event_cache)
goto free_task_kmem;
return 0;
free_task_kmem:
kmem_cache_destroy(sas_task_cache);
out:
return -ENOMEM;
}
static void __exit sas_class_exit(void)
{
kmem_cache_destroy(sas_task_cache);
kmem_cache_destroy(sas_event_cache);
}
MODULE_AUTHOR("Luben Tuikov <luben_tuikov@adaptec.com>");
MODULE_DESCRIPTION("SAS Transport Layer");
MODULE_LICENSE("GPL v2");
module_init(sas_class_init);
module_exit(sas_class_exit);
EXPORT_SYMBOL_GPL(sas_register_ha);
EXPORT_SYMBOL_GPL(sas_unregister_ha);
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