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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 | /* * Copyright (c) International Business Machines Corp., 2006 * Copyright (c) Nokia Corporation, 2007 * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * 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 for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * Author: Artem Bityutskiy (Битюцкий Артём), * Frank Haverkamp */ /* * This file includes UBI initialization and building of UBI devices. * * When UBI is initialized, it attaches all the MTD devices specified as the * module load parameters or the kernel boot parameters. If MTD devices were * specified, UBI does not attach any MTD device, but it is possible to do * later using the "UBI control device". */ #include <linux/err.h> #include <linux/module.h> #include <linux/moduleparam.h> #include <linux/stringify.h> #include <linux/namei.h> #include <linux/stat.h> #include <linux/miscdevice.h> #include <linux/mtd/partitions.h> #include <linux/log2.h> #include <linux/kthread.h> #include <linux/kernel.h> #include <linux/slab.h> #include <linux/major.h> #include "ubi.h" /* Maximum length of the 'mtd=' parameter */ #define MTD_PARAM_LEN_MAX 64 /* Maximum number of comma-separated items in the 'mtd=' parameter */ #define MTD_PARAM_MAX_COUNT 4 /* Maximum value for the number of bad PEBs per 1024 PEBs */ #define MAX_MTD_UBI_BEB_LIMIT 768 #ifdef CONFIG_MTD_UBI_MODULE #define ubi_is_module() 1 #else #define ubi_is_module() 0 #endif /** * struct mtd_dev_param - MTD device parameter description data structure. * @name: MTD character device node path, MTD device name, or MTD device number * string * @vid_hdr_offs: VID header offset * @max_beb_per1024: maximum expected number of bad PEBs per 1024 PEBs */ struct mtd_dev_param { char name[MTD_PARAM_LEN_MAX]; int ubi_num; int vid_hdr_offs; int max_beb_per1024; }; /* Numbers of elements set in the @mtd_dev_param array */ static int mtd_devs; /* MTD devices specification parameters */ static struct mtd_dev_param mtd_dev_param[UBI_MAX_DEVICES]; #ifdef CONFIG_MTD_UBI_FASTMAP /* UBI module parameter to enable fastmap automatically on non-fastmap images */ static bool fm_autoconvert; static bool fm_debug; #endif /* Slab cache for wear-leveling entries */ struct kmem_cache *ubi_wl_entry_slab; /* UBI control character device */ static struct miscdevice ubi_ctrl_cdev = { .minor = MISC_DYNAMIC_MINOR, .name = "ubi_ctrl", .fops = &ubi_ctrl_cdev_operations, }; /* All UBI devices in system */ static struct ubi_device *ubi_devices[UBI_MAX_DEVICES]; /* Serializes UBI devices creations and removals */ DEFINE_MUTEX(ubi_devices_mutex); /* Protects @ubi_devices and @ubi->ref_count */ static DEFINE_SPINLOCK(ubi_devices_lock); /* "Show" method for files in '/<sysfs>/class/ubi/' */ /* UBI version attribute ('/<sysfs>/class/ubi/version') */ static ssize_t version_show(struct class *class, struct class_attribute *attr, char *buf) { return sprintf(buf, "%d\n", UBI_VERSION); } static CLASS_ATTR_RO(version); static struct attribute *ubi_class_attrs[] = { &class_attr_version.attr, NULL, }; ATTRIBUTE_GROUPS(ubi_class); /* Root UBI "class" object (corresponds to '/<sysfs>/class/ubi/') */ struct class ubi_class = { .name = UBI_NAME_STR, .owner = THIS_MODULE, .class_groups = ubi_class_groups, }; static ssize_t dev_attribute_show(struct device *dev, struct device_attribute *attr, char *buf); /* UBI device attributes (correspond to files in '/<sysfs>/class/ubi/ubiX') */ static struct device_attribute dev_eraseblock_size = __ATTR(eraseblock_size, S_IRUGO, dev_attribute_show, NULL); static struct device_attribute dev_avail_eraseblocks = __ATTR(avail_eraseblocks, S_IRUGO, dev_attribute_show, NULL); static struct device_attribute dev_total_eraseblocks = __ATTR(total_eraseblocks, S_IRUGO, dev_attribute_show, NULL); static struct device_attribute dev_volumes_count = __ATTR(volumes_count, S_IRUGO, dev_attribute_show, NULL); static struct device_attribute dev_max_ec = __ATTR(max_ec, S_IRUGO, dev_attribute_show, NULL); static struct device_attribute dev_reserved_for_bad = __ATTR(reserved_for_bad, S_IRUGO, dev_attribute_show, NULL); static struct device_attribute dev_bad_peb_count = __ATTR(bad_peb_count, S_IRUGO, dev_attribute_show, NULL); static struct device_attribute dev_max_vol_count = __ATTR(max_vol_count, S_IRUGO, dev_attribute_show, NULL); static struct device_attribute dev_min_io_size = __ATTR(min_io_size, S_IRUGO, dev_attribute_show, NULL); static struct device_attribute dev_bgt_enabled = __ATTR(bgt_enabled, S_IRUGO, dev_attribute_show, NULL); static struct device_attribute dev_mtd_num = __ATTR(mtd_num, S_IRUGO, dev_attribute_show, NULL); static struct device_attribute dev_ro_mode = __ATTR(ro_mode, S_IRUGO, dev_attribute_show, NULL); /** * ubi_volume_notify - send a volume change notification. * @ubi: UBI device description object * @vol: volume description object of the changed volume * @ntype: notification type to send (%UBI_VOLUME_ADDED, etc) * * This is a helper function which notifies all subscribers about a volume * change event (creation, removal, re-sizing, re-naming, updating). Returns * zero in case of success and a negative error code in case of failure. */ int ubi_volume_notify(struct ubi_device *ubi, struct ubi_volume *vol, int ntype) { int ret; struct ubi_notification nt; ubi_do_get_device_info(ubi, &nt.di); ubi_do_get_volume_info(ubi, vol, &nt.vi); switch (ntype) { case UBI_VOLUME_ADDED: case UBI_VOLUME_REMOVED: case UBI_VOLUME_RESIZED: case UBI_VOLUME_RENAMED: ret = ubi_update_fastmap(ubi); if (ret) ubi_msg(ubi, "Unable to write a new fastmap: %i", ret); } return blocking_notifier_call_chain(&ubi_notifiers, ntype, &nt); } /** * ubi_notify_all - send a notification to all volumes. * @ubi: UBI device description object * @ntype: notification type to send (%UBI_VOLUME_ADDED, etc) * @nb: the notifier to call * * This function walks all volumes of UBI device @ubi and sends the @ntype * notification for each volume. If @nb is %NULL, then all registered notifiers * are called, otherwise only the @nb notifier is called. Returns the number of * sent notifications. */ int ubi_notify_all(struct ubi_device *ubi, int ntype, struct notifier_block *nb) { struct ubi_notification nt; int i, count = 0; ubi_do_get_device_info(ubi, &nt.di); mutex_lock(&ubi->device_mutex); for (i = 0; i < ubi->vtbl_slots; i++) { /* * Since the @ubi->device is locked, and we are not going to * change @ubi->volumes, we do not have to lock * @ubi->volumes_lock. */ if (!ubi->volumes[i]) continue; ubi_do_get_volume_info(ubi, ubi->volumes[i], &nt.vi); if (nb) nb->notifier_call(nb, ntype, &nt); else blocking_notifier_call_chain(&ubi_notifiers, ntype, &nt); count += 1; } mutex_unlock(&ubi->device_mutex); return count; } /** * ubi_enumerate_volumes - send "add" notification for all existing volumes. * @nb: the notifier to call * * This function walks all UBI devices and volumes and sends the * %UBI_VOLUME_ADDED notification for each volume. If @nb is %NULL, then all * registered notifiers are called, otherwise only the @nb notifier is called. * Returns the number of sent notifications. */ int ubi_enumerate_volumes(struct notifier_block *nb) { int i, count = 0; /* * Since the @ubi_devices_mutex is locked, and we are not going to * change @ubi_devices, we do not have to lock @ubi_devices_lock. */ for (i = 0; i < UBI_MAX_DEVICES; i++) { struct ubi_device *ubi = ubi_devices[i]; if (!ubi) continue; count += ubi_notify_all(ubi, UBI_VOLUME_ADDED, nb); } return count; } /** * ubi_get_device - get UBI device. * @ubi_num: UBI device number * * This function returns UBI device description object for UBI device number * @ubi_num, or %NULL if the device does not exist. This function increases the * device reference count to prevent removal of the device. In other words, the * device cannot be removed if its reference count is not zero. */ struct ubi_device *ubi_get_device(int ubi_num) { struct ubi_device *ubi; spin_lock(&ubi_devices_lock); ubi = ubi_devices[ubi_num]; if (ubi) { ubi_assert(ubi->ref_count >= 0); ubi->ref_count += 1; get_device(&ubi->dev); } spin_unlock(&ubi_devices_lock); return ubi; } /** * ubi_put_device - drop an UBI device reference. * @ubi: UBI device description object */ void ubi_put_device(struct ubi_device *ubi) { spin_lock(&ubi_devices_lock); ubi->ref_count -= 1; put_device(&ubi->dev); spin_unlock(&ubi_devices_lock); } /** * ubi_get_by_major - get UBI device by character device major number. * @major: major number * * This function is similar to 'ubi_get_device()', but it searches the device * by its major number. */ struct ubi_device *ubi_get_by_major(int major) { int i; struct ubi_device *ubi; spin_lock(&ubi_devices_lock); for (i = 0; i < UBI_MAX_DEVICES; i++) { ubi = ubi_devices[i]; if (ubi && MAJOR(ubi->cdev.dev) == major) { ubi_assert(ubi->ref_count >= 0); ubi->ref_count += 1; get_device(&ubi->dev); spin_unlock(&ubi_devices_lock); return ubi; } } spin_unlock(&ubi_devices_lock); return NULL; } /** * ubi_major2num - get UBI device number by character device major number. * @major: major number * * This function searches UBI device number object by its major number. If UBI * device was not found, this function returns -ENODEV, otherwise the UBI device * number is returned. */ int ubi_major2num(int major) { int i, ubi_num = -ENODEV; spin_lock(&ubi_devices_lock); for (i = 0; i < UBI_MAX_DEVICES; i++) { struct ubi_device *ubi = ubi_devices[i]; if (ubi && MAJOR(ubi->cdev.dev) == major) { ubi_num = ubi->ubi_num; break; } } spin_unlock(&ubi_devices_lock); return ubi_num; } /* "Show" method for files in '/<sysfs>/class/ubi/ubiX/' */ static ssize_t dev_attribute_show(struct device *dev, struct device_attribute *attr, char *buf) { ssize_t ret; struct ubi_device *ubi; /* * The below code looks weird, but it actually makes sense. We get the * UBI device reference from the contained 'struct ubi_device'. But it * is unclear if the device was removed or not yet. Indeed, if the * device was removed before we increased its reference count, * 'ubi_get_device()' will return -ENODEV and we fail. * * Remember, 'struct ubi_device' is freed in the release function, so * we still can use 'ubi->ubi_num'. */ ubi = container_of(dev, struct ubi_device, dev); ubi = ubi_get_device(ubi->ubi_num); if (!ubi) return -ENODEV; if (attr == &dev_eraseblock_size) ret = sprintf(buf, "%d\n", ubi->leb_size); else if (attr == &dev_avail_eraseblocks) ret = sprintf(buf, "%d\n", ubi->avail_pebs); else if (attr == &dev_total_eraseblocks) ret = sprintf(buf, "%d\n", ubi->good_peb_count); else if (attr == &dev_volumes_count) ret = sprintf(buf, "%d\n", ubi->vol_count - UBI_INT_VOL_COUNT); else if (attr == &dev_max_ec) ret = sprintf(buf, "%d\n", ubi->max_ec); else if (attr == &dev_reserved_for_bad) ret = sprintf(buf, "%d\n", ubi->beb_rsvd_pebs); else if (attr == &dev_bad_peb_count) ret = sprintf(buf, "%d\n", ubi->bad_peb_count); else if (attr == &dev_max_vol_count) ret = sprintf(buf, "%d\n", ubi->vtbl_slots); else if (attr == &dev_min_io_size) ret = sprintf(buf, "%d\n", ubi->min_io_size); else if (attr == &dev_bgt_enabled) ret = sprintf(buf, "%d\n", ubi->thread_enabled); else if (attr == &dev_mtd_num) ret = sprintf(buf, "%d\n", ubi->mtd->index); else if (attr == &dev_ro_mode) ret = sprintf(buf, "%d\n", ubi->ro_mode); else ret = -EINVAL; ubi_put_device(ubi); return ret; } static struct attribute *ubi_dev_attrs[] = { &dev_eraseblock_size.attr, &dev_avail_eraseblocks.attr, &dev_total_eraseblocks.attr, &dev_volumes_count.attr, &dev_max_ec.attr, &dev_reserved_for_bad.attr, &dev_bad_peb_count.attr, &dev_max_vol_count.attr, &dev_min_io_size.attr, &dev_bgt_enabled.attr, &dev_mtd_num.attr, &dev_ro_mode.attr, NULL }; ATTRIBUTE_GROUPS(ubi_dev); static void dev_release(struct device *dev) { struct ubi_device *ubi = container_of(dev, struct ubi_device, dev); kfree(ubi); } /** * kill_volumes - destroy all user volumes. * @ubi: UBI device description object */ static void kill_volumes(struct ubi_device *ubi) { int i; for (i = 0; i < ubi->vtbl_slots; i++) if (ubi->volumes[i]) ubi_free_volume(ubi, ubi->volumes[i]); } /** * uif_init - initialize user interfaces for an UBI device. * @ubi: UBI device description object * * This function initializes various user interfaces for an UBI device. If the * initialization fails at an early stage, this function frees all the * resources it allocated, returns an error. * * This function returns zero in case of success and a negative error code in * case of failure. */ static int uif_init(struct ubi_device *ubi) { int i, err; dev_t dev; sprintf(ubi->ubi_name, UBI_NAME_STR "%d", ubi->ubi_num); /* * Major numbers for the UBI character devices are allocated * dynamically. Major numbers of volume character devices are * equivalent to ones of the corresponding UBI character device. Minor * numbers of UBI character devices are 0, while minor numbers of * volume character devices start from 1. Thus, we allocate one major * number and ubi->vtbl_slots + 1 minor numbers. */ err = alloc_chrdev_region(&dev, 0, ubi->vtbl_slots + 1, ubi->ubi_name); if (err) { ubi_err(ubi, "cannot register UBI character devices"); return err; } ubi->dev.devt = dev; ubi_assert(MINOR(dev) == 0); cdev_init(&ubi->cdev, &ubi_cdev_operations); dbg_gen("%s major is %u", ubi->ubi_name, MAJOR(dev)); ubi->cdev.owner = THIS_MODULE; dev_set_name(&ubi->dev, UBI_NAME_STR "%d", ubi->ubi_num); err = cdev_device_add(&ubi->cdev, &ubi->dev); if (err) goto out_unreg; for (i = 0; i < ubi->vtbl_slots; i++) if (ubi->volumes[i]) { err = ubi_add_volume(ubi, ubi->volumes[i]); if (err) { ubi_err(ubi, "cannot add volume %d", i); goto out_volumes; } } return 0; out_volumes: kill_volumes(ubi); cdev_device_del(&ubi->cdev, &ubi->dev); out_unreg: unregister_chrdev_region(ubi->cdev.dev, ubi->vtbl_slots + 1); ubi_err(ubi, "cannot initialize UBI %s, error %d", ubi->ubi_name, err); return err; } /** * uif_close - close user interfaces for an UBI device. * @ubi: UBI device description object * * Note, since this function un-registers UBI volume device objects (@vol->dev), * the memory allocated voe the volumes is freed as well (in the release * function). */ static void uif_close(struct ubi_device *ubi) { kill_volumes(ubi); cdev_device_del(&ubi->cdev, &ubi->dev); unregister_chrdev_region(ubi->cdev.dev, ubi->vtbl_slots + 1); } /** * ubi_free_internal_volumes - free internal volumes. * @ubi: UBI device description object */ void ubi_free_internal_volumes(struct ubi_device *ubi) { int i; for (i = ubi->vtbl_slots; i < ubi->vtbl_slots + UBI_INT_VOL_COUNT; i++) { ubi_eba_replace_table(ubi->volumes[i], NULL); ubi_fastmap_destroy_checkmap(ubi->volumes[i]); kfree(ubi->volumes[i]); } } static int get_bad_peb_limit(const struct ubi_device *ubi, int max_beb_per1024) { int limit, device_pebs; uint64_t device_size; if (!max_beb_per1024) { /* * Since max_beb_per1024 has not been set by the user in either * the cmdline or Kconfig, use mtd_max_bad_blocks to set the * limit if it is supported by the device. */ limit = mtd_max_bad_blocks(ubi->mtd, 0, ubi->mtd->size); if (limit < 0) return 0; return limit; } /* * Here we are using size of the entire flash chip and * not just the MTD partition size because the maximum * number of bad eraseblocks is a percentage of the * whole device and bad eraseblocks are not fairly * distributed over the flash chip. So the worst case * is that all the bad eraseblocks of the chip are in * the MTD partition we are attaching (ubi->mtd). */ device_size = mtd_get_device_size(ubi->mtd); device_pebs = mtd_div_by_eb(device_size, ubi->mtd); limit = mult_frac(device_pebs, max_beb_per1024, 1024); /* Round it up */ if (mult_frac(limit, 1024, max_beb_per1024) < device_pebs) limit += 1; return limit; } /** * io_init - initialize I/O sub-system for a given UBI device. * @ubi: UBI device description object * @max_beb_per1024: maximum expected number of bad PEB per 1024 PEBs * * If @ubi->vid_hdr_offset or @ubi->leb_start is zero, default offsets are * assumed: * o EC header is always at offset zero - this cannot be changed; * o VID header starts just after the EC header at the closest address * aligned to @io->hdrs_min_io_size; * o data starts just after the VID header at the closest address aligned to * @io->min_io_size * * This function returns zero in case of success and a negative error code in * case of failure. */ static int io_init(struct ubi_device *ubi, int max_beb_per1024) { dbg_gen("sizeof(struct ubi_ainf_peb) %zu", sizeof(struct ubi_ainf_peb)); dbg_gen("sizeof(struct ubi_wl_entry) %zu", sizeof(struct ubi_wl_entry)); if (ubi->mtd->numeraseregions != 0) { /* * Some flashes have several erase regions. Different regions * may have different eraseblock size and other * characteristics. It looks like mostly multi-region flashes * have one "main" region and one or more small regions to * store boot loader code or boot parameters or whatever. I * guess we should just pick the largest region. But this is * not implemented. */ ubi_err(ubi, "multiple regions, not implemented"); return -EINVAL; } if (ubi->vid_hdr_offset < 0) return -EINVAL; /* * Note, in this implementation we support MTD devices with 0x7FFFFFFF * physical eraseblocks maximum. */ ubi->peb_size = ubi->mtd->erasesize; ubi->peb_count = mtd_div_by_eb(ubi->mtd->size, ubi->mtd); ubi->flash_size = ubi->mtd->size; if (mtd_can_have_bb(ubi->mtd)) { ubi->bad_allowed = 1; ubi->bad_peb_limit = get_bad_peb_limit(ubi, max_beb_per1024); } if (ubi->mtd->type == MTD_NORFLASH) { ubi_assert(ubi->mtd->writesize == 1); ubi->nor_flash = 1; } ubi->min_io_size = ubi->mtd->writesize; ubi->hdrs_min_io_size = ubi->mtd->writesize >> ubi->mtd->subpage_sft; /* * Make sure minimal I/O unit is power of 2. Note, there is no * fundamental reason for this assumption. It is just an optimization * which allows us to avoid costly division operations. */ if (!is_power_of_2(ubi->min_io_size)) { ubi_err(ubi, "min. I/O unit (%d) is not power of 2", ubi->min_io_size); return -EINVAL; } ubi_assert(ubi->hdrs_min_io_size > 0); ubi_assert(ubi->hdrs_min_io_size <= ubi->min_io_size); ubi_assert(ubi->min_io_size % ubi->hdrs_min_io_size == 0); ubi->max_write_size = ubi->mtd->writebufsize; /* * Maximum write size has to be greater or equivalent to min. I/O * size, and be multiple of min. I/O size. */ if (ubi->max_write_size < ubi->min_io_size || ubi->max_write_size % ubi->min_io_size || !is_power_of_2(ubi->max_write_size)) { ubi_err(ubi, "bad write buffer size %d for %d min. I/O unit", ubi->max_write_size, ubi->min_io_size); return -EINVAL; } /* Calculate default aligned sizes of EC and VID headers */ ubi->ec_hdr_alsize = ALIGN(UBI_EC_HDR_SIZE, ubi->hdrs_min_io_size); ubi->vid_hdr_alsize = ALIGN(UBI_VID_HDR_SIZE, ubi->hdrs_min_io_size); dbg_gen("min_io_size %d", ubi->min_io_size); dbg_gen("max_write_size %d", ubi->max_write_size); dbg_gen("hdrs_min_io_size %d", ubi->hdrs_min_io_size); dbg_gen("ec_hdr_alsize %d", ubi->ec_hdr_alsize); dbg_gen("vid_hdr_alsize %d", ubi->vid_hdr_alsize); if (ubi->vid_hdr_offset == 0) /* Default offset */ ubi->vid_hdr_offset = ubi->vid_hdr_aloffset = ubi->ec_hdr_alsize; else { ubi->vid_hdr_aloffset = ubi->vid_hdr_offset & ~(ubi->hdrs_min_io_size - 1); ubi->vid_hdr_shift = ubi->vid_hdr_offset - ubi->vid_hdr_aloffset; } /* Similar for the data offset */ ubi->leb_start = ubi->vid_hdr_offset + UBI_VID_HDR_SIZE; ubi->leb_start = ALIGN(ubi->leb_start, ubi->min_io_size); dbg_gen("vid_hdr_offset %d", ubi->vid_hdr_offset); dbg_gen("vid_hdr_aloffset %d", ubi->vid_hdr_aloffset); dbg_gen("vid_hdr_shift %d", ubi->vid_hdr_shift); dbg_gen("leb_start %d", ubi->leb_start); /* The shift must be aligned to 32-bit boundary */ if (ubi->vid_hdr_shift % 4) { ubi_err(ubi, "unaligned VID header shift %d", ubi->vid_hdr_shift); return -EINVAL; } /* Check sanity */ if (ubi->vid_hdr_offset < UBI_EC_HDR_SIZE || ubi->leb_start < ubi->vid_hdr_offset + UBI_VID_HDR_SIZE || ubi->leb_start > ubi->peb_size - UBI_VID_HDR_SIZE || ubi->leb_start & (ubi->min_io_size - 1)) { ubi_err(ubi, "bad VID header (%d) or data offsets (%d)", ubi->vid_hdr_offset, ubi->leb_start); return -EINVAL; } /* * Set maximum amount of physical erroneous eraseblocks to be 10%. * Erroneous PEB are those which have read errors. */ ubi->max_erroneous = ubi->peb_count / 10; if (ubi->max_erroneous < 16) ubi->max_erroneous = 16; dbg_gen("max_erroneous %d", ubi->max_erroneous); /* * It may happen that EC and VID headers are situated in one minimal * I/O unit. In this case we can only accept this UBI image in * read-only mode. */ if (ubi->vid_hdr_offset + UBI_VID_HDR_SIZE <= ubi->hdrs_min_io_size) { ubi_warn(ubi, "EC and VID headers are in the same minimal I/O unit, switch to read-only mode"); ubi->ro_mode = 1; } ubi->leb_size = ubi->peb_size - ubi->leb_start; if (!(ubi->mtd->flags & MTD_WRITEABLE)) { ubi_msg(ubi, "MTD device %d is write-protected, attach in read-only mode", ubi->mtd->index); ubi->ro_mode = 1; } /* * Note, ideally, we have to initialize @ubi->bad_peb_count here. But * unfortunately, MTD does not provide this information. We should loop * over all physical eraseblocks and invoke mtd->block_is_bad() for * each physical eraseblock. So, we leave @ubi->bad_peb_count * uninitialized so far. */ return 0; } /** * autoresize - re-size the volume which has the "auto-resize" flag set. * @ubi: UBI device description object * @vol_id: ID of the volume to re-size * * This function re-sizes the volume marked by the %UBI_VTBL_AUTORESIZE_FLG in * the volume table to the largest possible size. See comments in ubi-header.h * for more description of the flag. Returns zero in case of success and a * negative error code in case of failure. */ static int autoresize(struct ubi_device *ubi, int vol_id) { struct ubi_volume_desc desc; struct ubi_volume *vol = ubi->volumes[vol_id]; int err, old_reserved_pebs = vol->reserved_pebs; if (ubi->ro_mode) { ubi_warn(ubi, "skip auto-resize because of R/O mode"); return 0; } /* * Clear the auto-resize flag in the volume in-memory copy of the * volume table, and 'ubi_resize_volume()' will propagate this change * to the flash. */ ubi->vtbl[vol_id].flags &= ~UBI_VTBL_AUTORESIZE_FLG; if (ubi->avail_pebs == 0) { struct ubi_vtbl_record vtbl_rec; /* * No available PEBs to re-size the volume, clear the flag on * flash and exit. */ vtbl_rec = ubi->vtbl[vol_id]; err = ubi_change_vtbl_record(ubi, vol_id, &vtbl_rec); if (err) ubi_err(ubi, "cannot clean auto-resize flag for volume %d", vol_id); } else { desc.vol = vol; err = ubi_resize_volume(&desc, old_reserved_pebs + ubi->avail_pebs); if (err) ubi_err(ubi, "cannot auto-resize volume %d", vol_id); } if (err) return err; ubi_msg(ubi, "volume %d (\"%s\") re-sized from %d to %d LEBs", vol_id, vol->name, old_reserved_pebs, vol->reserved_pebs); return 0; } /** * ubi_attach_mtd_dev - attach an MTD device. * @mtd: MTD device description object * @ubi_num: number to assign to the new UBI device * @vid_hdr_offset: VID header offset * @max_beb_per1024: maximum expected number of bad PEB per 1024 PEBs * * This function attaches MTD device @mtd_dev to UBI and assign @ubi_num number * to the newly created UBI device, unless @ubi_num is %UBI_DEV_NUM_AUTO, in * which case this function finds a vacant device number and assigns it * automatically. Returns the new UBI device number in case of success and a * negative error code in case of failure. * * Note, the invocations of this function has to be serialized by the * @ubi_devices_mutex. */ int ubi_attach_mtd_dev(struct mtd_info *mtd, int ubi_num, int vid_hdr_offset, int max_beb_per1024) { struct ubi_device *ubi; int i, err; if (max_beb_per1024 < 0 || max_beb_per1024 > MAX_MTD_UBI_BEB_LIMIT) return -EINVAL; if (!max_beb_per1024) max_beb_per1024 = CONFIG_MTD_UBI_BEB_LIMIT; /* * Check if we already have the same MTD device attached. * * Note, this function assumes that UBI devices creations and deletions * are serialized, so it does not take the &ubi_devices_lock. */ for (i = 0; i < UBI_MAX_DEVICES; i++) { ubi = ubi_devices[i]; if (ubi && mtd->index == ubi->mtd->index) { pr_err("ubi: mtd%d is already attached to ubi%d\n", mtd->index, i); return -EEXIST; } } /* * Make sure this MTD device is not emulated on top of an UBI volume * already. Well, generally this recursion works fine, but there are * different problems like the UBI module takes a reference to itself * by attaching (and thus, opening) the emulated MTD device. This * results in inability to unload the module. And in general it makes * no sense to attach emulated MTD devices, so we prohibit this. */ if (mtd->type == MTD_UBIVOLUME) { pr_err("ubi: refuse attaching mtd%d - it is already emulated on top of UBI\n", mtd->index); return -EINVAL; } /* * Both UBI and UBIFS have been designed for SLC NAND and NOR flashes. * MLC NAND is different and needs special care, otherwise UBI or UBIFS * will die soon and you will lose all your data. */ if (mtd->type == MTD_MLCNANDFLASH) { pr_err("ubi: refuse attaching mtd%d - MLC NAND is not supported\n", mtd->index); return -EINVAL; } if (ubi_num == UBI_DEV_NUM_AUTO) { /* Search for an empty slot in the @ubi_devices array */ for (ubi_num = 0; ubi_num < UBI_MAX_DEVICES; ubi_num++) if (!ubi_devices[ubi_num]) break; if (ubi_num == UBI_MAX_DEVICES) { pr_err("ubi: only %d UBI devices may be created\n", UBI_MAX_DEVICES); return -ENFILE; } } else { if (ubi_num >= UBI_MAX_DEVICES) return -EINVAL; /* Make sure ubi_num is not busy */ if (ubi_devices[ubi_num]) { pr_err("ubi: ubi%i already exists\n", ubi_num); return -EEXIST; } } ubi = kzalloc(sizeof(struct ubi_device), GFP_KERNEL); if (!ubi) return -ENOMEM; device_initialize(&ubi->dev); ubi->dev.release = dev_release; ubi->dev.class = &ubi_class; ubi->dev.groups = ubi_dev_groups; ubi->mtd = mtd; ubi->ubi_num = ubi_num; ubi->vid_hdr_offset = vid_hdr_offset; ubi->autoresize_vol_id = -1; #ifdef CONFIG_MTD_UBI_FASTMAP ubi->fm_pool.used = ubi->fm_pool.size = 0; ubi->fm_wl_pool.used = ubi->fm_wl_pool.size = 0; /* * fm_pool.max_size is 5% of the total number of PEBs but it's also * between UBI_FM_MAX_POOL_SIZE and UBI_FM_MIN_POOL_SIZE. */ ubi->fm_pool.max_size = min(((int)mtd_div_by_eb(ubi->mtd->size, ubi->mtd) / 100) * 5, UBI_FM_MAX_POOL_SIZE); ubi->fm_pool.max_size = max(ubi->fm_pool.max_size, UBI_FM_MIN_POOL_SIZE); ubi->fm_wl_pool.max_size = ubi->fm_pool.max_size / 2; ubi->fm_disabled = !fm_autoconvert; if (fm_debug) ubi_enable_dbg_chk_fastmap(ubi); if (!ubi->fm_disabled && (int)mtd_div_by_eb(ubi->mtd->size, ubi->mtd) <= UBI_FM_MAX_START) { ubi_err(ubi, "More than %i PEBs are needed for fastmap, sorry.", UBI_FM_MAX_START); ubi->fm_disabled = 1; } ubi_msg(ubi, "default fastmap pool size: %d", ubi->fm_pool.max_size); ubi_msg(ubi, "default fastmap WL pool size: %d", ubi->fm_wl_pool.max_size); #else ubi->fm_disabled = 1; #endif mutex_init(&ubi->buf_mutex); mutex_init(&ubi->ckvol_mutex); mutex_init(&ubi->device_mutex); spin_lock_init(&ubi->volumes_lock); init_rwsem(&ubi->fm_protect); init_rwsem(&ubi->fm_eba_sem); ubi_msg(ubi, "attaching mtd%d", mtd->index); err = io_init(ubi, max_beb_per1024); if (err) goto out_free; err = -ENOMEM; ubi->peb_buf = vmalloc(ubi->peb_size); if (!ubi->peb_buf) goto out_free; #ifdef CONFIG_MTD_UBI_FASTMAP ubi->fm_size = ubi_calc_fm_size(ubi); ubi->fm_buf = vzalloc(ubi->fm_size); if (!ubi->fm_buf) goto out_free; #endif err = ubi_attach(ubi, 0); if (err) { ubi_err(ubi, "failed to attach mtd%d, error %d", mtd->index, err); goto out_free; } if (ubi->autoresize_vol_id != -1) { err = autoresize(ubi, ubi->autoresize_vol_id); if (err) goto out_detach; } /* Make device "available" before it becomes accessible via sysfs */ ubi_devices[ubi_num] = ubi; err = uif_init(ubi); if (err) goto out_detach; err = ubi_debugfs_init_dev(ubi); if (err) goto out_uif; ubi->bgt_thread = kthread_create(ubi_thread, ubi, "%s", ubi->bgt_name); if (IS_ERR(ubi->bgt_thread)) { err = PTR_ERR(ubi->bgt_thread); ubi_err(ubi, "cannot spawn \"%s\", error %d", ubi->bgt_name, err); goto out_debugfs; } ubi_msg(ubi, "attached mtd%d (name \"%s\", size %llu MiB)", mtd->index, mtd->name, ubi->flash_size >> 20); ubi_msg(ubi, "PEB size: %d bytes (%d KiB), LEB size: %d bytes", ubi->peb_size, ubi->peb_size >> 10, ubi->leb_size); ubi_msg(ubi, "min./max. I/O unit sizes: %d/%d, sub-page size %d", ubi->min_io_size, ubi->max_write_size, ubi->hdrs_min_io_size); ubi_msg(ubi, "VID header offset: %d (aligned %d), data offset: %d", ubi->vid_hdr_offset, ubi->vid_hdr_aloffset, ubi->leb_start); ubi_msg(ubi, "good PEBs: %d, bad PEBs: %d, corrupted PEBs: %d", ubi->good_peb_count, ubi->bad_peb_count, ubi->corr_peb_count); ubi_msg(ubi, "user volume: %d, internal volumes: %d, max. volumes count: %d", ubi->vol_count - UBI_INT_VOL_COUNT, UBI_INT_VOL_COUNT, ubi->vtbl_slots); ubi_msg(ubi, "max/mean erase counter: %d/%d, WL threshold: %d, image sequence number: %u", ubi->max_ec, ubi->mean_ec, CONFIG_MTD_UBI_WL_THRESHOLD, ubi->image_seq); ubi_msg(ubi, "available PEBs: %d, total reserved PEBs: %d, PEBs reserved for bad PEB handling: %d", ubi->avail_pebs, ubi->rsvd_pebs, ubi->beb_rsvd_pebs); /* * The below lock makes sure we do not race with 'ubi_thread()' which * checks @ubi->thread_enabled. Otherwise we may fail to wake it up. */ spin_lock(&ubi->wl_lock); ubi->thread_enabled = 1; wake_up_process(ubi->bgt_thread); spin_unlock(&ubi->wl_lock); ubi_notify_all(ubi, UBI_VOLUME_ADDED, NULL); return ubi_num; out_debugfs: ubi_debugfs_exit_dev(ubi); out_uif: uif_close(ubi); out_detach: ubi_devices[ubi_num] = NULL; ubi_wl_close(ubi); ubi_free_internal_volumes(ubi); vfree(ubi->vtbl); out_free: vfree(ubi->peb_buf); vfree(ubi->fm_buf); put_device(&ubi->dev); return err; } /** * ubi_detach_mtd_dev - detach an MTD device. * @ubi_num: UBI device number to detach from * @anyway: detach MTD even if device reference count is not zero * * This function destroys an UBI device number @ubi_num and detaches the * underlying MTD device. Returns zero in case of success and %-EBUSY if the * UBI device is busy and cannot be destroyed, and %-EINVAL if it does not * exist. * * Note, the invocations of this function has to be serialized by the * @ubi_devices_mutex. */ int ubi_detach_mtd_dev(int ubi_num, int anyway) { struct ubi_device *ubi; if (ubi_num < 0 || ubi_num >= UBI_MAX_DEVICES) return -EINVAL; ubi = ubi_get_device(ubi_num); if (!ubi) return -EINVAL; spin_lock(&ubi_devices_lock); put_device(&ubi->dev); ubi->ref_count -= 1; if (ubi->ref_count) { if (!anyway) { spin_unlock(&ubi_devices_lock); return -EBUSY; } /* This may only happen if there is a bug */ ubi_err(ubi, "%s reference count %d, destroy anyway", ubi->ubi_name, ubi->ref_count); } ubi_devices[ubi_num] = NULL; spin_unlock(&ubi_devices_lock); ubi_assert(ubi_num == ubi->ubi_num); ubi_notify_all(ubi, UBI_VOLUME_REMOVED, NULL); ubi_msg(ubi, "detaching mtd%d", ubi->mtd->index); #ifdef CONFIG_MTD_UBI_FASTMAP /* If we don't write a new fastmap at detach time we lose all * EC updates that have been made since the last written fastmap. * In case of fastmap debugging we omit the update to simulate an * unclean shutdown. */ if (!ubi_dbg_chk_fastmap(ubi)) ubi_update_fastmap(ubi); #endif /* * Before freeing anything, we have to stop the background thread to * prevent it from doing anything on this device while we are freeing. */ if (ubi->bgt_thread) kthread_stop(ubi->bgt_thread); #ifdef CONFIG_MTD_UBI_FASTMAP cancel_work_sync(&ubi->fm_work); #endif ubi_debugfs_exit_dev(ubi); uif_close(ubi); ubi_wl_close(ubi); ubi_free_internal_volumes(ubi); vfree(ubi->vtbl); vfree(ubi->peb_buf); vfree(ubi->fm_buf); ubi_msg(ubi, "mtd%d is detached", ubi->mtd->index); put_mtd_device(ubi->mtd); put_device(&ubi->dev); return 0; } /** * open_mtd_by_chdev - open an MTD device by its character device node path. * @mtd_dev: MTD character device node path * * This helper function opens an MTD device by its character node device path. * Returns MTD device description object in case of success and a negative * error code in case of failure. */ static struct mtd_info * __init open_mtd_by_chdev(const char *mtd_dev) { int err, minor; struct path path; struct kstat stat; /* Probably this is an MTD character device node path */ err = kern_path(mtd_dev, LOOKUP_FOLLOW, &path); if (err) return ERR_PTR(err); err = vfs_getattr(&path, &stat, STATX_TYPE, AT_STATX_SYNC_AS_STAT); path_put(&path); if (err) return ERR_PTR(err); /* MTD device number is defined by the major / minor numbers */ if (MAJOR(stat.rdev) != MTD_CHAR_MAJOR || !S_ISCHR(stat.mode)) return ERR_PTR(-EINVAL); minor = MINOR(stat.rdev); if (minor & 1) /* * Just do not think the "/dev/mtdrX" devices support is need, * so do not support them to avoid doing extra work. */ return ERR_PTR(-EINVAL); return get_mtd_device(NULL, minor / 2); } /** * open_mtd_device - open MTD device by name, character device path, or number. * @mtd_dev: name, character device node path, or MTD device device number * * This function tries to open and MTD device described by @mtd_dev string, * which is first treated as ASCII MTD device number, and if it is not true, it * is treated as MTD device name, and if that is also not true, it is treated * as MTD character device node path. Returns MTD device description object in * case of success and a negative error code in case of failure. */ static struct mtd_info * __init open_mtd_device(const char *mtd_dev) { struct mtd_info *mtd; int mtd_num; char *endp; mtd_num = simple_strtoul(mtd_dev, &endp, 0); if (*endp != '\0' || mtd_dev == endp) { /* * This does not look like an ASCII integer, probably this is * MTD device name. */ mtd = get_mtd_device_nm(mtd_dev); if (IS_ERR(mtd) && PTR_ERR(mtd) == -ENODEV) /* Probably this is an MTD character device node path */ mtd = open_mtd_by_chdev(mtd_dev); } else mtd = get_mtd_device(NULL, mtd_num); return mtd; } static int __init ubi_init(void) { int err, i, k; /* Ensure that EC and VID headers have correct size */ BUILD_BUG_ON(sizeof(struct ubi_ec_hdr) != 64); BUILD_BUG_ON(sizeof(struct ubi_vid_hdr) != 64); if (mtd_devs > UBI_MAX_DEVICES) { pr_err("UBI error: too many MTD devices, maximum is %d\n", UBI_MAX_DEVICES); return -EINVAL; } /* Create base sysfs directory and sysfs files */ err = class_register(&ubi_class); if (err < 0) return err; err = misc_register(&ubi_ctrl_cdev); if (err) { pr_err("UBI error: cannot register device\n"); goto out; } ubi_wl_entry_slab = kmem_cache_create("ubi_wl_entry_slab", sizeof(struct ubi_wl_entry), 0, 0, NULL); if (!ubi_wl_entry_slab) { err = -ENOMEM; goto out_dev_unreg; } err = ubi_debugfs_init(); if (err) goto out_slab; /* Attach MTD devices */ for (i = 0; i < mtd_devs; i++) { struct mtd_dev_param *p = &mtd_dev_param[i]; struct mtd_info *mtd; cond_resched(); mtd = open_mtd_device(p->name); if (IS_ERR(mtd)) { err = PTR_ERR(mtd); pr_err("UBI error: cannot open mtd %s, error %d\n", p->name, err); /* See comment below re-ubi_is_module(). */ if (ubi_is_module()) goto out_detach; continue; } mutex_lock(&ubi_devices_mutex); err = ubi_attach_mtd_dev(mtd, p->ubi_num, p->vid_hdr_offs, p->max_beb_per1024); mutex_unlock(&ubi_devices_mutex); if (err < 0) { pr_err("UBI error: cannot attach mtd%d\n", mtd->index); put_mtd_device(mtd); /* * Originally UBI stopped initializing on any error. * However, later on it was found out that this * behavior is not very good when UBI is compiled into * the kernel and the MTD devices to attach are passed * through the command line. Indeed, UBI failure * stopped whole boot sequence. * * To fix this, we changed the behavior for the * non-module case, but preserved the old behavior for * the module case, just for compatibility. This is a * little inconsistent, though. */ if (ubi_is_module()) goto out_detach; } } err = ubiblock_init(); if (err) { pr_err("UBI error: block: cannot initialize, error %d\n", err); /* See comment above re-ubi_is_module(). */ if (ubi_is_module()) goto out_detach; } return 0; out_detach: for (k = 0; k < i; k++) if (ubi_devices[k]) { mutex_lock(&ubi_devices_mutex); ubi_detach_mtd_dev(ubi_devices[k]->ubi_num, 1); mutex_unlock(&ubi_devices_mutex); } ubi_debugfs_exit(); out_slab: kmem_cache_destroy(ubi_wl_entry_slab); out_dev_unreg: misc_deregister(&ubi_ctrl_cdev); out: class_unregister(&ubi_class); pr_err("UBI error: cannot initialize UBI, error %d\n", err); return err; } late_initcall(ubi_init); static void __exit ubi_exit(void) { int i; ubiblock_exit(); for (i = 0; i < UBI_MAX_DEVICES; i++) if (ubi_devices[i]) { mutex_lock(&ubi_devices_mutex); ubi_detach_mtd_dev(ubi_devices[i]->ubi_num, 1); mutex_unlock(&ubi_devices_mutex); } ubi_debugfs_exit(); kmem_cache_destroy(ubi_wl_entry_slab); misc_deregister(&ubi_ctrl_cdev); class_unregister(&ubi_class); } module_exit(ubi_exit); /** * bytes_str_to_int - convert a number of bytes string into an integer. * @str: the string to convert * * This function returns positive resulting integer in case of success and a * negative error code in case of failure. */ static int bytes_str_to_int(const char *str) { char *endp; unsigned long result; result = simple_strtoul(str, &endp, 0); if (str == endp || result >= INT_MAX) { pr_err("UBI error: incorrect bytes count: \"%s\"\n", str); return -EINVAL; } switch (*endp) { case 'G': result *= 1024; case 'M': result *= 1024; case 'K': result *= 1024; if (endp[1] == 'i' && endp[2] == 'B') endp += 2; case '\0': break; default: pr_err("UBI error: incorrect bytes count: \"%s\"\n", str); return -EINVAL; } return result; } /** * ubi_mtd_param_parse - parse the 'mtd=' UBI parameter. * @val: the parameter value to parse * @kp: not used * * This function returns zero in case of success and a negative error code in * case of error. */ static int ubi_mtd_param_parse(const char *val, const struct kernel_param *kp) { int i, len; struct mtd_dev_param *p; char buf[MTD_PARAM_LEN_MAX]; char *pbuf = &buf[0]; char *tokens[MTD_PARAM_MAX_COUNT], *token; if (!val) return -EINVAL; if (mtd_devs == UBI_MAX_DEVICES) { pr_err("UBI error: too many parameters, max. is %d\n", UBI_MAX_DEVICES); return -EINVAL; } len = strnlen(val, MTD_PARAM_LEN_MAX); if (len == MTD_PARAM_LEN_MAX) { pr_err("UBI error: parameter \"%s\" is too long, max. is %d\n", val, MTD_PARAM_LEN_MAX); return -EINVAL; } if (len == 0) { pr_warn("UBI warning: empty 'mtd=' parameter - ignored\n"); return 0; } strcpy(buf, val); /* Get rid of the final newline */ if (buf[len - 1] == '\n') buf[len - 1] = '\0'; for (i = 0; i < MTD_PARAM_MAX_COUNT; i++) tokens[i] = strsep(&pbuf, ","); if (pbuf) { pr_err("UBI error: too many arguments at \"%s\"\n", val); return -EINVAL; } p = &mtd_dev_param[mtd_devs]; strcpy(&p->name[0], tokens[0]); token = tokens[1]; if (token) { p->vid_hdr_offs = bytes_str_to_int(token); if (p->vid_hdr_offs < 0) return p->vid_hdr_offs; } token = tokens[2]; if (token) { int err = kstrtoint(token, 10, &p->max_beb_per1024); if (err) { pr_err("UBI error: bad value for max_beb_per1024 parameter: %s", token); return -EINVAL; } } token = tokens[3]; if (token) { int err = kstrtoint(token, 10, &p->ubi_num); if (err) { pr_err("UBI error: bad value for ubi_num parameter: %s", token); return -EINVAL; } } else p->ubi_num = UBI_DEV_NUM_AUTO; mtd_devs += 1; return 0; } module_param_call(mtd, ubi_mtd_param_parse, NULL, NULL, 0400); MODULE_PARM_DESC(mtd, "MTD devices to attach. Parameter format: mtd=<name|num|path>[,<vid_hdr_offs>[,max_beb_per1024[,ubi_num]]].\n" "Multiple \"mtd\" parameters may be specified.\n" "MTD devices may be specified by their number, name, or path to the MTD character device node.\n" "Optional \"vid_hdr_offs\" parameter specifies UBI VID header position to be used by UBI. (default value if 0)\n" "Optional \"max_beb_per1024\" parameter specifies the maximum expected bad eraseblock per 1024 eraseblocks. (default value (" __stringify(CONFIG_MTD_UBI_BEB_LIMIT) ") if 0)\n" "Optional \"ubi_num\" parameter specifies UBI device number which have to be assigned to the newly created UBI device (assigned automatically by default)\n" "\n" "Example 1: mtd=/dev/mtd0 - attach MTD device /dev/mtd0.\n" "Example 2: mtd=content,1984 mtd=4 - attach MTD device with name \"content\" using VID header offset 1984, and MTD device number 4 with default VID header offset.\n" "Example 3: mtd=/dev/mtd1,0,25 - attach MTD device /dev/mtd1 using default VID header offset and reserve 25*nand_size_in_blocks/1024 erase blocks for bad block handling.\n" "Example 4: mtd=/dev/mtd1,0,0,5 - attach MTD device /dev/mtd1 to UBI 5 and using default values for the other fields.\n" "\t(e.g. if the NAND *chipset* has 4096 PEB, 100 will be reserved for this UBI device)."); #ifdef CONFIG_MTD_UBI_FASTMAP module_param(fm_autoconvert, bool, 0644); MODULE_PARM_DESC(fm_autoconvert, "Set this parameter to enable fastmap automatically on images without a fastmap."); module_param(fm_debug, bool, 0); MODULE_PARM_DESC(fm_debug, "Set this parameter to enable fastmap debugging by default. Warning, this will make fastmap slow!"); #endif MODULE_VERSION(__stringify(UBI_VERSION)); MODULE_DESCRIPTION("UBI - Unsorted Block Images"); MODULE_AUTHOR("Artem Bityutskiy"); MODULE_LICENSE("GPL"); |