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The idea behind a RAID class is to provide a uniform interface to all RAID subsystems (both hardware and software) in the kernel. To do that, I've made this class a transport class that's entirely subsystem independent (although the matching routines have to match per subsystem, as you'll see looking at the code). I put it in the scsi subdirectory purely because I needed somewhere to play with it, but it's not a scsi specific module. I used a fusion raid card as the test bed for this; with that kind of card, this is the type of class output you get: jejb@titanic> ls -l /sys/class/raid_devices/20\:0\:0\:0/ total 0 lrwxrwxrwx 1 root root 0 Aug 16 17:21 component-0 -> ../../../devices/pci0000:80/0000:80:04.0/host20/target20:1:0/20:1:0:0/ lrwxrwxrwx 1 root root 0 Aug 16 17:21 component-1 -> ../../../devices/pci0000:80/0000:80:04.0/host20/target20:1:1/20:1:1:0/ lrwxrwxrwx 1 root root 0 Aug 16 17:21 device -> ../../../devices/pci0000:80/0000:80:04.0/host20/target20:0:0/20:0:0:0/ -r--r--r-- 1 root root 16384 Aug 16 17:21 level -r--r--r-- 1 root root 16384 Aug 16 17:21 resync -r--r--r-- 1 root root 16384 Aug 16 17:21 state So it's really simple: for a SCSI device representing a hardware raid, it shows the raid level, the array state, the resync % complete (if the state is resyncing) and the underlying components of the RAID (these are exposed in fusion on the virtual channel 1). As you can see, this type of information can be exported by almost anything, including software raid. The more difficult trick, of course, is going to be getting it to perform configuration type actions with writable attributes. Signed-off-by: James Bottomley <James.Bottomley@SteelEye.com>
251 lines
6.0 KiB
C
251 lines
6.0 KiB
C
/*
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* RAID Attributes
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*/
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#include <linux/init.h>
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#include <linux/module.h>
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#include <linux/list.h>
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#include <linux/raid_class.h>
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#include <scsi/scsi_device.h>
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#include <scsi/scsi_host.h>
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#define RAID_NUM_ATTRS 3
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struct raid_internal {
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struct raid_template r;
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struct raid_function_template *f;
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/* The actual attributes */
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struct class_device_attribute private_attrs[RAID_NUM_ATTRS];
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/* The array of null terminated pointers to attributes
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* needed by scsi_sysfs.c */
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struct class_device_attribute *attrs[RAID_NUM_ATTRS + 1];
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};
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struct raid_component {
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struct list_head node;
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struct device *dev;
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int num;
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};
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#define to_raid_internal(tmpl) container_of(tmpl, struct raid_internal, r)
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#define tc_to_raid_internal(tcont) ({ \
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struct raid_template *r = \
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container_of(tcont, struct raid_template, raid_attrs); \
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to_raid_internal(r); \
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})
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#define ac_to_raid_internal(acont) ({ \
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struct transport_container *tc = \
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container_of(acont, struct transport_container, ac); \
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tc_to_raid_internal(tc); \
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})
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#define class_device_to_raid_internal(cdev) ({ \
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struct attribute_container *ac = \
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attribute_container_classdev_to_container(cdev); \
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ac_to_raid_internal(ac); \
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})
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static int raid_match(struct attribute_container *cont, struct device *dev)
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{
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/* We have to look for every subsystem that could house
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* emulated RAID devices, so start with SCSI */
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struct raid_internal *i = ac_to_raid_internal(cont);
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if (scsi_is_sdev_device(dev)) {
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struct scsi_device *sdev = to_scsi_device(dev);
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if (i->f->cookie != sdev->host->hostt)
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return 0;
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return i->f->is_raid(dev);
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}
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/* FIXME: look at other subsystems too */
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return 0;
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}
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static int raid_setup(struct transport_container *tc, struct device *dev,
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struct class_device *cdev)
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{
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struct raid_data *rd;
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BUG_ON(class_get_devdata(cdev));
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rd = kmalloc(sizeof(*rd), GFP_KERNEL);
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if (!rd)
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return -ENOMEM;
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memset(rd, 0, sizeof(*rd));
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INIT_LIST_HEAD(&rd->component_list);
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class_set_devdata(cdev, rd);
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return 0;
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}
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static int raid_remove(struct transport_container *tc, struct device *dev,
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struct class_device *cdev)
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{
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struct raid_data *rd = class_get_devdata(cdev);
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struct raid_component *rc, *next;
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class_set_devdata(cdev, NULL);
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list_for_each_entry_safe(rc, next, &rd->component_list, node) {
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char buf[40];
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snprintf(buf, sizeof(buf), "component-%d", rc->num);
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list_del(&rc->node);
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sysfs_remove_link(&cdev->kobj, buf);
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kfree(rc);
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}
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kfree(class_get_devdata(cdev));
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return 0;
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}
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static DECLARE_TRANSPORT_CLASS(raid_class,
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"raid_devices",
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raid_setup,
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raid_remove,
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NULL);
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static struct {
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enum raid_state value;
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char *name;
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} raid_states[] = {
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{ RAID_ACTIVE, "active" },
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{ RAID_DEGRADED, "degraded" },
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{ RAID_RESYNCING, "resyncing" },
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{ RAID_OFFLINE, "offline" },
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};
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static const char *raid_state_name(enum raid_state state)
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{
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int i;
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char *name = NULL;
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for (i = 0; i < sizeof(raid_states)/sizeof(raid_states[0]); i++) {
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if (raid_states[i].value == state) {
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name = raid_states[i].name;
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break;
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}
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}
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return name;
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}
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#define raid_attr_show_internal(attr, fmt, var, code) \
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static ssize_t raid_show_##attr(struct class_device *cdev, char *buf) \
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{ \
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struct raid_data *rd = class_get_devdata(cdev); \
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code \
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return snprintf(buf, 20, #fmt "\n", var); \
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}
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#define raid_attr_ro_states(attr, states, code) \
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raid_attr_show_internal(attr, %s, name, \
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const char *name; \
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code \
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name = raid_##states##_name(rd->attr); \
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) \
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static CLASS_DEVICE_ATTR(attr, S_IRUGO, raid_show_##attr, NULL)
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#define raid_attr_ro_internal(attr, code) \
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raid_attr_show_internal(attr, %d, rd->attr, code) \
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static CLASS_DEVICE_ATTR(attr, S_IRUGO, raid_show_##attr, NULL)
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#define ATTR_CODE(attr) \
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struct raid_internal *i = class_device_to_raid_internal(cdev); \
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if (i->f->get_##attr) \
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i->f->get_##attr(cdev->dev);
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#define raid_attr_ro(attr) raid_attr_ro_internal(attr, )
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#define raid_attr_ro_fn(attr) raid_attr_ro_internal(attr, ATTR_CODE(attr))
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#define raid_attr_ro_state(attr) raid_attr_ro_states(attr, attr, ATTR_CODE(attr))
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raid_attr_ro(level);
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raid_attr_ro_fn(resync);
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raid_attr_ro_state(state);
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void raid_component_add(struct raid_template *r,struct device *raid_dev,
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struct device *component_dev)
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{
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struct class_device *cdev =
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attribute_container_find_class_device(&r->raid_attrs.ac,
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raid_dev);
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struct raid_component *rc;
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struct raid_data *rd = class_get_devdata(cdev);
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char buf[40];
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rc = kmalloc(sizeof(*rc), GFP_KERNEL);
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if (!rc)
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return;
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INIT_LIST_HEAD(&rc->node);
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rc->dev = component_dev;
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rc->num = rd->component_count++;
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snprintf(buf, sizeof(buf), "component-%d", rc->num);
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list_add_tail(&rc->node, &rd->component_list);
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sysfs_create_link(&cdev->kobj, &component_dev->kobj, buf);
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}
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EXPORT_SYMBOL(raid_component_add);
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struct raid_template *
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raid_class_attach(struct raid_function_template *ft)
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{
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struct raid_internal *i = kmalloc(sizeof(struct raid_internal),
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GFP_KERNEL);
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int count = 0;
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if (unlikely(!i))
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return NULL;
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memset(i, 0, sizeof(*i));
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i->f = ft;
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i->r.raid_attrs.ac.class = &raid_class.class;
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i->r.raid_attrs.ac.match = raid_match;
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i->r.raid_attrs.ac.attrs = &i->attrs[0];
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attribute_container_register(&i->r.raid_attrs.ac);
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i->attrs[count++] = &class_device_attr_level;
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i->attrs[count++] = &class_device_attr_resync;
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i->attrs[count++] = &class_device_attr_state;
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i->attrs[count] = NULL;
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BUG_ON(count > RAID_NUM_ATTRS);
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return &i->r;
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}
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EXPORT_SYMBOL(raid_class_attach);
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void
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raid_class_release(struct raid_template *r)
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{
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struct raid_internal *i = to_raid_internal(r);
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attribute_container_unregister(&i->r.raid_attrs.ac);
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kfree(i);
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}
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EXPORT_SYMBOL(raid_class_release);
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static __init int raid_init(void)
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{
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return transport_class_register(&raid_class);
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}
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static __exit void raid_exit(void)
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{
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transport_class_unregister(&raid_class);
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}
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MODULE_AUTHOR("James Bottomley");
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MODULE_DESCRIPTION("RAID device class");
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MODULE_LICENSE("GPL");
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module_init(raid_init);
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module_exit(raid_exit);
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