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3422 3423 3424 3425 3426 3427 3428 3429 3430 3431 3432 3433 3434 3435 3436 3437 3438 3439 3440 3441 3442 3443 3444 3445 3446 3447 3448 3449 3450 3451 3452 3453 3454 3455 3456 3457 3458 3459 3460 3461 3462 3463 3464 3465 3466 3467 3468 3469 3470 3471 3472 3473 3474 3475 3476 3477 3478 3479 3480 3481 3482 3483 3484 3485 3486 3487 3488 3489 3490 3491 3492 3493 3494 3495 3496 3497 3498 3499 3500 3501 3502 3503 3504 3505 3506 3507 3508 3509 3510 3511 3512 3513 3514 3515 3516 3517 3518 3519 3520 3521 3522 3523 3524 3525 3526 3527 3528 3529 3530 3531 3532 3533 3534 3535 3536 3537 3538 3539 3540 3541 3542 3543 3544 3545 3546 3547 3548 3549 3550 3551 3552 3553 | /* * File...........: linux/drivers/s390/block/dasd.c * Author(s)......: Holger Smolinski <Holger.Smolinski@de.ibm.com> * Horst Hummel <Horst.Hummel@de.ibm.com> * Carsten Otte <Cotte@de.ibm.com> * Martin Schwidefsky <schwidefsky@de.ibm.com> * Bugreports.to..: <Linux390@de.ibm.com> * Copyright IBM Corp. 1999, 2009 */ #define KMSG_COMPONENT "dasd" #define pr_fmt(fmt) KMSG_COMPONENT ": " fmt #include <linux/kmod.h> #include <linux/init.h> #include <linux/interrupt.h> #include <linux/ctype.h> #include <linux/major.h> #include <linux/slab.h> #include <linux/buffer_head.h> #include <linux/hdreg.h> #include <linux/async.h> #include <linux/mutex.h> #include <linux/debugfs.h> #include <linux/seq_file.h> #include <linux/vmalloc.h> #include <asm/ccwdev.h> #include <asm/ebcdic.h> #include <asm/idals.h> #include <asm/itcw.h> #include <asm/diag.h> /* This is ugly... */ #define PRINTK_HEADER "dasd:" #include "dasd_int.h" /* * SECTION: Constant definitions to be used within this file */ #define DASD_CHANQ_MAX_SIZE 4 #define DASD_SLEEPON_START_TAG (void *) 1 #define DASD_SLEEPON_END_TAG (void *) 2 /* * SECTION: exported variables of dasd.c */ debug_info_t *dasd_debug_area; static struct dentry *dasd_debugfs_root_entry; struct dasd_discipline *dasd_diag_discipline_pointer; void dasd_int_handler(struct ccw_device *, unsigned long, struct irb *); MODULE_AUTHOR("Holger Smolinski <Holger.Smolinski@de.ibm.com>"); MODULE_DESCRIPTION("Linux on S/390 DASD device driver," " Copyright 2000 IBM Corporation"); MODULE_SUPPORTED_DEVICE("dasd"); MODULE_LICENSE("GPL"); /* * SECTION: prototypes for static functions of dasd.c */ static int dasd_alloc_queue(struct dasd_block *); static void dasd_setup_queue(struct dasd_block *); static void dasd_free_queue(struct dasd_block *); static void dasd_flush_request_queue(struct dasd_block *); static int dasd_flush_block_queue(struct dasd_block *); static void dasd_device_tasklet(struct dasd_device *); static void dasd_block_tasklet(struct dasd_block *); static void do_kick_device(struct work_struct *); static void do_restore_device(struct work_struct *); static void do_reload_device(struct work_struct *); static void dasd_return_cqr_cb(struct dasd_ccw_req *, void *); static void dasd_device_timeout(unsigned long); static void dasd_block_timeout(unsigned long); static void __dasd_process_erp(struct dasd_device *, struct dasd_ccw_req *); static void dasd_profile_init(struct dasd_profile *, struct dentry *); static void dasd_profile_exit(struct dasd_profile *); /* * SECTION: Operations on the device structure. */ static wait_queue_head_t dasd_init_waitq; static wait_queue_head_t dasd_flush_wq; static wait_queue_head_t generic_waitq; /* * Allocate memory for a new device structure. */ struct dasd_device *dasd_alloc_device(void) { struct dasd_device *device; device = kzalloc(sizeof(struct dasd_device), GFP_ATOMIC); if (!device) return ERR_PTR(-ENOMEM); /* Get two pages for normal block device operations. */ device->ccw_mem = (void *) __get_free_pages(GFP_ATOMIC | GFP_DMA, 1); if (!device->ccw_mem) { kfree(device); return ERR_PTR(-ENOMEM); } /* Get one page for error recovery. */ device->erp_mem = (void *) get_zeroed_page(GFP_ATOMIC | GFP_DMA); if (!device->erp_mem) { free_pages((unsigned long) device->ccw_mem, 1); kfree(device); return ERR_PTR(-ENOMEM); } dasd_init_chunklist(&device->ccw_chunks, device->ccw_mem, PAGE_SIZE*2); dasd_init_chunklist(&device->erp_chunks, device->erp_mem, PAGE_SIZE); spin_lock_init(&device->mem_lock); atomic_set(&device->tasklet_scheduled, 0); tasklet_init(&device->tasklet, (void (*)(unsigned long)) dasd_device_tasklet, (unsigned long) device); INIT_LIST_HEAD(&device->ccw_queue); init_timer(&device->timer); device->timer.function = dasd_device_timeout; device->timer.data = (unsigned long) device; INIT_WORK(&device->kick_work, do_kick_device); INIT_WORK(&device->restore_device, do_restore_device); INIT_WORK(&device->reload_device, do_reload_device); device->state = DASD_STATE_NEW; device->target = DASD_STATE_NEW; mutex_init(&device->state_mutex); spin_lock_init(&device->profile.lock); return device; } /* * Free memory of a device structure. */ void dasd_free_device(struct dasd_device *device) { kfree(device->private); free_page((unsigned long) device->erp_mem); free_pages((unsigned long) device->ccw_mem, 1); kfree(device); } /* * Allocate memory for a new device structure. */ struct dasd_block *dasd_alloc_block(void) { struct dasd_block *block; block = kzalloc(sizeof(*block), GFP_ATOMIC); if (!block) return ERR_PTR(-ENOMEM); /* open_count = 0 means device online but not in use */ atomic_set(&block->open_count, -1); spin_lock_init(&block->request_queue_lock); atomic_set(&block->tasklet_scheduled, 0); tasklet_init(&block->tasklet, (void (*)(unsigned long)) dasd_block_tasklet, (unsigned long) block); INIT_LIST_HEAD(&block->ccw_queue); spin_lock_init(&block->queue_lock); init_timer(&block->timer); block->timer.function = dasd_block_timeout; block->timer.data = (unsigned long) block; spin_lock_init(&block->profile.lock); return block; } /* * Free memory of a device structure. */ void dasd_free_block(struct dasd_block *block) { kfree(block); } /* * Make a new device known to the system. */ static int dasd_state_new_to_known(struct dasd_device *device) { int rc; /* * As long as the device is not in state DASD_STATE_NEW we want to * keep the reference count > 0. */ dasd_get_device(device); if (device->block) { rc = dasd_alloc_queue(device->block); if (rc) { dasd_put_device(device); return rc; } } device->state = DASD_STATE_KNOWN; return 0; } /* * Let the system forget about a device. */ static int dasd_state_known_to_new(struct dasd_device *device) { /* Disable extended error reporting for this device. */ dasd_eer_disable(device); /* Forget the discipline information. */ if (device->discipline) { if (device->discipline->uncheck_device) device->discipline->uncheck_device(device); module_put(device->discipline->owner); } device->discipline = NULL; if (device->base_discipline) module_put(device->base_discipline->owner); device->base_discipline = NULL; device->state = DASD_STATE_NEW; if (device->block) dasd_free_queue(device->block); /* Give up reference we took in dasd_state_new_to_known. */ dasd_put_device(device); return 0; } static struct dentry *dasd_debugfs_setup(const char *name, struct dentry *base_dentry) { struct dentry *pde; if (!base_dentry) return NULL; pde = debugfs_create_dir(name, base_dentry); if (!pde || IS_ERR(pde)) return NULL; return pde; } /* * Request the irq line for the device. */ static int dasd_state_known_to_basic(struct dasd_device *device) { struct dasd_block *block = device->block; int rc; /* Allocate and register gendisk structure. */ if (block) { rc = dasd_gendisk_alloc(block); if (rc) return rc; block->debugfs_dentry = dasd_debugfs_setup(block->gdp->disk_name, dasd_debugfs_root_entry); dasd_profile_init(&block->profile, block->debugfs_dentry); if (dasd_global_profile_level == DASD_PROFILE_ON) dasd_profile_on(&device->block->profile); } device->debugfs_dentry = dasd_debugfs_setup(dev_name(&device->cdev->dev), dasd_debugfs_root_entry); dasd_profile_init(&device->profile, device->debugfs_dentry); /* register 'device' debug area, used for all DBF_DEV_XXX calls */ device->debug_area = debug_register(dev_name(&device->cdev->dev), 4, 1, 8 * sizeof(long)); debug_register_view(device->debug_area, &debug_sprintf_view); debug_set_level(device->debug_area, DBF_WARNING); DBF_DEV_EVENT(DBF_EMERG, device, "%s", "debug area created"); device->state = DASD_STATE_BASIC; return 0; } /* * Release the irq line for the device. Terminate any running i/o. */ static int dasd_state_basic_to_known(struct dasd_device *device) { int rc; if (device->block) { dasd_profile_exit(&device->block->profile); if (device->block->debugfs_dentry) debugfs_remove(device->block->debugfs_dentry); dasd_gendisk_free(device->block); dasd_block_clear_timer(device->block); } rc = dasd_flush_device_queue(device); if (rc) return rc; dasd_device_clear_timer(device); dasd_profile_exit(&device->profile); if (device->debugfs_dentry) debugfs_remove(device->debugfs_dentry); DBF_DEV_EVENT(DBF_EMERG, device, "%p debug area deleted", device); if (device->debug_area != NULL) { debug_unregister(device->debug_area); device->debug_area = NULL; } device->state = DASD_STATE_KNOWN; return 0; } /* * Do the initial analysis. The do_analysis function may return * -EAGAIN in which case the device keeps the state DASD_STATE_BASIC * until the discipline decides to continue the startup sequence * by calling the function dasd_change_state. The eckd disciplines * uses this to start a ccw that detects the format. The completion * interrupt for this detection ccw uses the kernel event daemon to * trigger the call to dasd_change_state. All this is done in the * discipline code, see dasd_eckd.c. * After the analysis ccw is done (do_analysis returned 0) the block * device is setup. * In case the analysis returns an error, the device setup is stopped * (a fake disk was already added to allow formatting). */ static int dasd_state_basic_to_ready(struct dasd_device *device) { int rc; struct dasd_block *block; rc = 0; block = device->block; /* make disk known with correct capacity */ if (block) { if (block->base->discipline->do_analysis != NULL) rc = block->base->discipline->do_analysis(block); if (rc) { if (rc != -EAGAIN) device->state = DASD_STATE_UNFMT; return rc; } dasd_setup_queue(block); set_capacity(block->gdp, block->blocks << block->s2b_shift); device->state = DASD_STATE_READY; rc = dasd_scan_partitions(block); if (rc) device->state = DASD_STATE_BASIC; } else { device->state = DASD_STATE_READY; } return rc; } /* * Remove device from block device layer. Destroy dirty buffers. * Forget format information. Check if the target level is basic * and if it is create fake disk for formatting. */ static int dasd_state_ready_to_basic(struct dasd_device *device) { int rc; device->state = DASD_STATE_BASIC; if (device->block) { struct dasd_block *block = device->block; rc = dasd_flush_block_queue(block); if (rc) { device->state = DASD_STATE_READY; return rc; } dasd_flush_request_queue(block); dasd_destroy_partitions(block); block->blocks = 0; block->bp_block = 0; block->s2b_shift = 0; } return 0; } /* * Back to basic. */ static int dasd_state_unfmt_to_basic(struct dasd_device *device) { device->state = DASD_STATE_BASIC; return 0; } /* * Make the device online and schedule the bottom half to start * the requeueing of requests from the linux request queue to the * ccw queue. */ static int dasd_state_ready_to_online(struct dasd_device * device) { int rc; struct gendisk *disk; struct disk_part_iter piter; struct hd_struct *part; if (device->discipline->ready_to_online) { rc = device->discipline->ready_to_online(device); if (rc) return rc; } device->state = DASD_STATE_ONLINE; if (device->block) { dasd_schedule_block_bh(device->block); if ((device->features & DASD_FEATURE_USERAW)) { disk = device->block->gdp; kobject_uevent(&disk_to_dev(disk)->kobj, KOBJ_CHANGE); return 0; } disk = device->block->bdev->bd_disk; disk_part_iter_init(&piter, disk, DISK_PITER_INCL_PART0); while ((part = disk_part_iter_next(&piter))) kobject_uevent(&part_to_dev(part)->kobj, KOBJ_CHANGE); disk_part_iter_exit(&piter); } return 0; } /* * Stop the requeueing of requests again. */ static int dasd_state_online_to_ready(struct dasd_device *device) { int rc; struct gendisk *disk; struct disk_part_iter piter; struct hd_struct *part; if (device->discipline->online_to_ready) { rc = device->discipline->online_to_ready(device); if (rc) return rc; } device->state = DASD_STATE_READY; if (device->block && !(device->features & DASD_FEATURE_USERAW)) { disk = device->block->bdev->bd_disk; disk_part_iter_init(&piter, disk, DISK_PITER_INCL_PART0); while ((part = disk_part_iter_next(&piter))) kobject_uevent(&part_to_dev(part)->kobj, KOBJ_CHANGE); disk_part_iter_exit(&piter); } return 0; } /* * Device startup state changes. */ static int dasd_increase_state(struct dasd_device *device) { int rc; rc = 0; if (device->state == DASD_STATE_NEW && device->target >= DASD_STATE_KNOWN) rc = dasd_state_new_to_known(device); if (!rc && device->state == DASD_STATE_KNOWN && device->target >= DASD_STATE_BASIC) rc = dasd_state_known_to_basic(device); if (!rc && device->state == DASD_STATE_BASIC && device->target >= DASD_STATE_READY) rc = dasd_state_basic_to_ready(device); if (!rc && device->state == DASD_STATE_UNFMT && device->target > DASD_STATE_UNFMT) rc = -EPERM; if (!rc && device->state == DASD_STATE_READY && device->target >= DASD_STATE_ONLINE) rc = dasd_state_ready_to_online(device); return rc; } /* * Device shutdown state changes. */ static int dasd_decrease_state(struct dasd_device *device) { int rc; rc = 0; if (device->state == DASD_STATE_ONLINE && device->target <= DASD_STATE_READY) rc = dasd_state_online_to_ready(device); if (!rc && device->state == DASD_STATE_READY && device->target <= DASD_STATE_BASIC) rc = dasd_state_ready_to_basic(device); if (!rc && device->state == DASD_STATE_UNFMT && device->target <= DASD_STATE_BASIC) rc = dasd_state_unfmt_to_basic(device); if (!rc && device->state == DASD_STATE_BASIC && device->target <= DASD_STATE_KNOWN) rc = dasd_state_basic_to_known(device); if (!rc && device->state == DASD_STATE_KNOWN && device->target <= DASD_STATE_NEW) rc = dasd_state_known_to_new(device); return rc; } /* * This is the main startup/shutdown routine. */ static void dasd_change_state(struct dasd_device *device) { int rc; if (device->state == device->target) /* Already where we want to go today... */ return; if (device->state < device->target) rc = dasd_increase_state(device); else rc = dasd_decrease_state(device); if (rc == -EAGAIN) return; if (rc) device->target = device->state; if (device->state == device->target) wake_up(&dasd_init_waitq); /* let user-space know that the device status changed */ kobject_uevent(&device->cdev->dev.kobj, KOBJ_CHANGE); } /* * Kick starter for devices that did not complete the startup/shutdown * procedure or were sleeping because of a pending state. * dasd_kick_device will schedule a call do do_kick_device to the kernel * event daemon. */ static void do_kick_device(struct work_struct *work) { struct dasd_device *device = container_of(work, struct dasd_device, kick_work); mutex_lock(&device->state_mutex); dasd_change_state(device); mutex_unlock(&device->state_mutex); dasd_schedule_device_bh(device); dasd_put_device(device); } void dasd_kick_device(struct dasd_device *device) { dasd_get_device(device); /* queue call to dasd_kick_device to the kernel event daemon. */ schedule_work(&device->kick_work); } /* * dasd_reload_device will schedule a call do do_reload_device to the kernel * event daemon. */ static void do_reload_device(struct work_struct *work) { struct dasd_device *device = container_of(work, struct dasd_device, reload_device); device->discipline->reload(device); dasd_put_device(device); } void dasd_reload_device(struct dasd_device *device) { dasd_get_device(device); /* queue call to dasd_reload_device to the kernel event daemon. */ schedule_work(&device->reload_device); } EXPORT_SYMBOL(dasd_reload_device); /* * dasd_restore_device will schedule a call do do_restore_device to the kernel * event daemon. */ static void do_restore_device(struct work_struct *work) { struct dasd_device *device = container_of(work, struct dasd_device, restore_device); device->cdev->drv->restore(device->cdev); dasd_put_device(device); } void dasd_restore_device(struct dasd_device *device) { dasd_get_device(device); /* queue call to dasd_restore_device to the kernel event daemon. */ schedule_work(&device->restore_device); } /* * Set the target state for a device and starts the state change. */ void dasd_set_target_state(struct dasd_device *device, int target) { dasd_get_device(device); mutex_lock(&device->state_mutex); /* If we are in probeonly mode stop at DASD_STATE_READY. */ if (dasd_probeonly && target > DASD_STATE_READY) target = DASD_STATE_READY; if (device->target != target) { if (device->state == target) wake_up(&dasd_init_waitq); device->target = target; } if (device->state != device->target) dasd_change_state(device); mutex_unlock(&device->state_mutex); dasd_put_device(device); } /* * Enable devices with device numbers in [from..to]. */ static inline int _wait_for_device(struct dasd_device *device) { return (device->state == device->target); } void dasd_enable_device(struct dasd_device *device) { dasd_set_target_state(device, DASD_STATE_ONLINE); if (device->state <= DASD_STATE_KNOWN) /* No discipline for device found. */ dasd_set_target_state(device, DASD_STATE_NEW); /* Now wait for the devices to come up. */ wait_event(dasd_init_waitq, _wait_for_device(device)); } /* * SECTION: device operation (interrupt handler, start i/o, term i/o ...) */ unsigned int dasd_global_profile_level = DASD_PROFILE_OFF; #ifdef CONFIG_DASD_PROFILE struct dasd_profile_info dasd_global_profile_data; static struct dentry *dasd_global_profile_dentry; static struct dentry *dasd_debugfs_global_entry; /* * Add profiling information for cqr before execution. */ static void dasd_profile_start(struct dasd_block *block, struct dasd_ccw_req *cqr, struct request *req) { struct list_head *l; unsigned int counter; struct dasd_device *device; /* count the length of the chanq for statistics */ counter = 0; if (dasd_global_profile_level || block->profile.data) list_for_each(l, &block->ccw_queue) if (++counter >= 31) break; if (dasd_global_profile_level) { dasd_global_profile_data.dasd_io_nr_req[counter]++; if (rq_data_dir(req) == READ) dasd_global_profile_data.dasd_read_nr_req[counter]++; } spin_lock(&block->profile.lock); if (block->profile.data) block->profile.data->dasd_io_nr_req[counter]++; if (rq_data_dir(req) == READ) block->profile.data->dasd_read_nr_req[counter]++; spin_unlock(&block->profile.lock); /* * We count the request for the start device, even though it may run on * some other device due to error recovery. This way we make sure that * we count each request only once. */ device = cqr->startdev; if (device->profile.data) { counter = 1; /* request is not yet queued on the start device */ list_for_each(l, &device->ccw_queue) if (++counter >= 31) break; } spin_lock(&device->profile.lock); if (device->profile.data) { device->profile.data->dasd_io_nr_req[counter]++; if (rq_data_dir(req) == READ) device->profile.data->dasd_read_nr_req[counter]++; } spin_unlock(&device->profile.lock); } /* * Add profiling information for cqr after execution. */ #define dasd_profile_counter(value, index) \ { \ for (index = 0; index < 31 && value >> (2+index); index++) \ ; \ } static void dasd_profile_end_add_data(struct dasd_profile_info *data, int is_alias, int is_tpm, int is_read, long sectors, int sectors_ind, int tottime_ind, int tottimeps_ind, int strtime_ind, int irqtime_ind, int irqtimeps_ind, int endtime_ind) { /* in case of an overflow, reset the whole profile */ if (data->dasd_io_reqs == UINT_MAX) { memset(data, 0, sizeof(*data)); getnstimeofday(&data->starttod); } data->dasd_io_reqs++; data->dasd_io_sects += sectors; if (is_alias) data->dasd_io_alias++; if (is_tpm) data->dasd_io_tpm++; data->dasd_io_secs[sectors_ind]++; data->dasd_io_times[tottime_ind]++; data->dasd_io_timps[tottimeps_ind]++; data->dasd_io_time1[strtime_ind]++; data->dasd_io_time2[irqtime_ind]++; data->dasd_io_time2ps[irqtimeps_ind]++; data->dasd_io_time3[endtime_ind]++; if (is_read) { data->dasd_read_reqs++; data->dasd_read_sects += sectors; if (is_alias) data->dasd_read_alias++; if (is_tpm) data->dasd_read_tpm++; data->dasd_read_secs[sectors_ind]++; data->dasd_read_times[tottime_ind]++; data->dasd_read_time1[strtime_ind]++; data->dasd_read_time2[irqtime_ind]++; data->dasd_read_time3[endtime_ind]++; } } static void dasd_profile_end(struct dasd_block *block, struct dasd_ccw_req *cqr, struct request *req) { long strtime, irqtime, endtime, tottime; /* in microseconds */ long tottimeps, sectors; struct dasd_device *device; int sectors_ind, tottime_ind, tottimeps_ind, strtime_ind; int irqtime_ind, irqtimeps_ind, endtime_ind; device = cqr->startdev; if (!(dasd_global_profile_level || block->profile.data || device->profile.data)) return; sectors = blk_rq_sectors(req); if (!cqr->buildclk || !cqr->startclk || !cqr->stopclk || !cqr->endclk || !sectors) return; strtime = ((cqr->startclk - cqr->buildclk) >> 12); irqtime = ((cqr->stopclk - cqr->startclk) >> 12); endtime = ((cqr->endclk - cqr->stopclk) >> 12); tottime = ((cqr->endclk - cqr->buildclk) >> 12); tottimeps = tottime / sectors; dasd_profile_counter(sectors, sectors_ind); dasd_profile_counter(tottime, tottime_ind); dasd_profile_counter(tottimeps, tottimeps_ind); dasd_profile_counter(strtime, strtime_ind); dasd_profile_counter(irqtime, irqtime_ind); dasd_profile_counter(irqtime / sectors, irqtimeps_ind); dasd_profile_counter(endtime, endtime_ind); if (dasd_global_profile_level) { dasd_profile_end_add_data(&dasd_global_profile_data, cqr->startdev != block->base, cqr->cpmode == 1, rq_data_dir(req) == READ, sectors, sectors_ind, tottime_ind, tottimeps_ind, strtime_ind, irqtime_ind, irqtimeps_ind, endtime_ind); } spin_lock(&block->profile.lock); if (block->profile.data) dasd_profile_end_add_data(block->profile.data, cqr->startdev != block->base, cqr->cpmode == 1, rq_data_dir(req) == READ, sectors, sectors_ind, tottime_ind, tottimeps_ind, strtime_ind, irqtime_ind, irqtimeps_ind, endtime_ind); spin_unlock(&block->profile.lock); spin_lock(&device->profile.lock); if (device->profile.data) dasd_profile_end_add_data(device->profile.data, cqr->startdev != block->base, cqr->cpmode == 1, rq_data_dir(req) == READ, sectors, sectors_ind, tottime_ind, tottimeps_ind, strtime_ind, irqtime_ind, irqtimeps_ind, endtime_ind); spin_unlock(&device->profile.lock); } void dasd_profile_reset(struct dasd_profile *profile) { struct dasd_profile_info *data; spin_lock_bh(&profile->lock); data = profile->data; if (!data) { spin_unlock_bh(&profile->lock); return; } memset(data, 0, sizeof(*data)); getnstimeofday(&data->starttod); spin_unlock_bh(&profile->lock); } void dasd_global_profile_reset(void) { memset(&dasd_global_profile_data, 0, sizeof(dasd_global_profile_data)); getnstimeofday(&dasd_global_profile_data.starttod); } int dasd_profile_on(struct dasd_profile *profile) { struct dasd_profile_info *data; data = kzalloc(sizeof(*data), GFP_KERNEL); if (!data) return -ENOMEM; spin_lock_bh(&profile->lock); if (profile->data) { spin_unlock_bh(&profile->lock); kfree(data); return 0; } getnstimeofday(&data->starttod); profile->data = data; spin_unlock_bh(&profile->lock); return 0; } void dasd_profile_off(struct dasd_profile *profile) { spin_lock_bh(&profile->lock); kfree(profile->data); profile->data = NULL; spin_unlock_bh(&profile->lock); } char *dasd_get_user_string(const char __user *user_buf, size_t user_len) { char *buffer; buffer = vmalloc(user_len + 1); if (buffer == NULL) return ERR_PTR(-ENOMEM); if (copy_from_user(buffer, user_buf, user_len) != 0) { vfree(buffer); return ERR_PTR(-EFAULT); } /* got the string, now strip linefeed. */ if (buffer[user_len - 1] == '\n') buffer[user_len - 1] = 0; else buffer[user_len] = 0; return buffer; } static ssize_t dasd_stats_write(struct file *file, const char __user *user_buf, size_t user_len, loff_t *pos) { char *buffer, *str; int rc; struct seq_file *m = (struct seq_file *)file->private_data; struct dasd_profile *prof = m->private; if (user_len > 65536) user_len = 65536; buffer = dasd_get_user_string(user_buf, user_len); if (IS_ERR(buffer)) return PTR_ERR(buffer); str = skip_spaces(buffer); rc = user_len; if (strncmp(str, "reset", 5) == 0) { dasd_profile_reset(prof); } else if (strncmp(str, "on", 2) == 0) { rc = dasd_profile_on(prof); if (!rc) rc = user_len; } else if (strncmp(str, "off", 3) == 0) { dasd_profile_off(prof); } else rc = -EINVAL; vfree(buffer); return rc; } static void dasd_stats_array(struct seq_file *m, unsigned int *array) { int i; for (i = 0; i < 32; i++) seq_printf(m, "%u ", array[i]); seq_putc(m, '\n'); } static void dasd_stats_seq_print(struct seq_file *m, struct dasd_profile_info *data) { seq_printf(m, "start_time %ld.%09ld\n", data->starttod.tv_sec, data->starttod.tv_nsec); seq_printf(m, "total_requests %u\n", data->dasd_io_reqs); seq_printf(m, "total_sectors %u\n", data->dasd_io_sects); seq_printf(m, "total_pav %u\n", data->dasd_io_alias); seq_printf(m, "total_hpf %u\n", data->dasd_io_tpm); seq_printf(m, "histogram_sectors "); dasd_stats_array(m, data->dasd_io_secs); seq_printf(m, "histogram_io_times "); dasd_stats_array(m, data->dasd_io_times); seq_printf(m, "histogram_io_times_weighted "); dasd_stats_array(m, data->dasd_io_timps); seq_printf(m, "histogram_time_build_to_ssch "); dasd_stats_array(m, data->dasd_io_time1); seq_printf(m, "histogram_time_ssch_to_irq "); dasd_stats_array(m, data->dasd_io_time2); seq_printf(m, "histogram_time_ssch_to_irq_weighted "); dasd_stats_array(m, data->dasd_io_time2ps); seq_printf(m, "histogram_time_irq_to_end "); dasd_stats_array(m, data->dasd_io_time3); seq_printf(m, "histogram_ccw_queue_length "); dasd_stats_array(m, data->dasd_io_nr_req); seq_printf(m, "total_read_requests %u\n", data->dasd_read_reqs); seq_printf(m, "total_read_sectors %u\n", data->dasd_read_sects); seq_printf(m, "total_read_pav %u\n", data->dasd_read_alias); seq_printf(m, "total_read_hpf %u\n", data->dasd_read_tpm); seq_printf(m, "histogram_read_sectors "); dasd_stats_array(m, data->dasd_read_secs); seq_printf(m, "histogram_read_times "); dasd_stats_array(m, data->dasd_read_times); seq_printf(m, "histogram_read_time_build_to_ssch "); dasd_stats_array(m, data->dasd_read_time1); seq_printf(m, "histogram_read_time_ssch_to_irq "); dasd_stats_array(m, data->dasd_read_time2); seq_printf(m, "histogram_read_time_irq_to_end "); dasd_stats_array(m, data->dasd_read_time3); seq_printf(m, "histogram_read_ccw_queue_length "); dasd_stats_array(m, data->dasd_read_nr_req); } static int dasd_stats_show(struct seq_file *m, void *v) { struct dasd_profile *profile; struct dasd_profile_info *data; profile = m->private; spin_lock_bh(&profile->lock); data = profile->data; if (!data) { spin_unlock_bh(&profile->lock); seq_printf(m, "disabled\n"); return 0; } dasd_stats_seq_print(m, data); spin_unlock_bh(&profile->lock); return 0; } static int dasd_stats_open(struct inode *inode, struct file *file) { struct dasd_profile *profile = inode->i_private; return single_open(file, dasd_stats_show, profile); } static const struct file_operations dasd_stats_raw_fops = { .owner = THIS_MODULE, .open = dasd_stats_open, .read = seq_read, .llseek = seq_lseek, .release = single_release, .write = dasd_stats_write, }; static ssize_t dasd_stats_global_write(struct file *file, const char __user *user_buf, size_t user_len, loff_t *pos) { char *buffer, *str; ssize_t rc; if (user_len > 65536) user_len = 65536; buffer = dasd_get_user_string(user_buf, user_len); if (IS_ERR(buffer)) return PTR_ERR(buffer); str = skip_spaces(buffer); rc = user_len; if (strncmp(str, "reset", 5) == 0) { dasd_global_profile_reset(); } else if (strncmp(str, "on", 2) == 0) { dasd_global_profile_reset(); dasd_global_profile_level = DASD_PROFILE_GLOBAL_ONLY; } else if (strncmp(str, "off", 3) == 0) { dasd_global_profile_level = DASD_PROFILE_OFF; } else rc = -EINVAL; vfree(buffer); return rc; } static int dasd_stats_global_show(struct seq_file *m, void *v) { if (!dasd_global_profile_level) { seq_printf(m, "disabled\n"); return 0; } dasd_stats_seq_print(m, &dasd_global_profile_data); return 0; } static int dasd_stats_global_open(struct inode *inode, struct file *file) { return single_open(file, dasd_stats_global_show, NULL); } static const struct file_operations dasd_stats_global_fops = { .owner = THIS_MODULE, .open = dasd_stats_global_open, .read = seq_read, .llseek = seq_lseek, .release = single_release, .write = dasd_stats_global_write, }; static void dasd_profile_init(struct dasd_profile *profile, struct dentry *base_dentry) { mode_t mode; struct dentry *pde; if (!base_dentry) return; profile->dentry = NULL; profile->data = NULL; mode = (S_IRUSR | S_IWUSR | S_IFREG); pde = debugfs_create_file("statistics", mode, base_dentry, profile, &dasd_stats_raw_fops); if (pde && !IS_ERR(pde)) profile->dentry = pde; return; } static void dasd_profile_exit(struct dasd_profile *profile) { dasd_profile_off(profile); if (profile->dentry) { debugfs_remove(profile->dentry); profile->dentry = NULL; } } static void dasd_statistics_removeroot(void) { dasd_global_profile_level = DASD_PROFILE_OFF; if (dasd_global_profile_dentry) { debugfs_remove(dasd_global_profile_dentry); dasd_global_profile_dentry = NULL; } if (dasd_debugfs_global_entry) debugfs_remove(dasd_debugfs_global_entry); if (dasd_debugfs_root_entry) debugfs_remove(dasd_debugfs_root_entry); } static void dasd_statistics_createroot(void) { mode_t mode; struct dentry *pde; dasd_debugfs_root_entry = NULL; dasd_debugfs_global_entry = NULL; dasd_global_profile_dentry = NULL; pde = debugfs_create_dir("dasd", NULL); if (!pde || IS_ERR(pde)) goto error; dasd_debugfs_root_entry = pde; pde = debugfs_create_dir("global", dasd_debugfs_root_entry); if (!pde || IS_ERR(pde)) goto error; dasd_debugfs_global_entry = pde; mode = (S_IRUSR | S_IWUSR | S_IFREG); pde = debugfs_create_file("statistics", mode, dasd_debugfs_global_entry, NULL, &dasd_stats_global_fops); if (!pde || IS_ERR(pde)) goto error; dasd_global_profile_dentry = pde; return; error: DBF_EVENT(DBF_ERR, "%s", "Creation of the dasd debugfs interface failed"); dasd_statistics_removeroot(); return; } #else #define dasd_profile_start(block, cqr, req) do {} while (0) #define dasd_profile_end(block, cqr, req) do {} while (0) static void dasd_statistics_createroot(void) { return; } static void dasd_statistics_removeroot(void) { return; } int dasd_stats_generic_show(struct seq_file *m, void *v) { seq_printf(m, "Statistics are not activated in this kernel\n"); return 0; } static void dasd_profile_init(struct dasd_profile *profile, struct dentry *base_dentry) { return; } static void dasd_profile_exit(struct dasd_profile *profile) { return; } int dasd_profile_on(struct dasd_profile *profile) { return 0; } #endif /* CONFIG_DASD_PROFILE */ /* * Allocate memory for a channel program with 'cplength' channel * command words and 'datasize' additional space. There are two * variantes: 1) dasd_kmalloc_request uses kmalloc to get the needed * memory and 2) dasd_smalloc_request uses the static ccw memory * that gets allocated for each device. */ struct dasd_ccw_req *dasd_kmalloc_request(int magic, int cplength, int datasize, struct dasd_device *device) { struct dasd_ccw_req *cqr; /* Sanity checks */ BUG_ON(datasize > PAGE_SIZE || (cplength*sizeof(struct ccw1)) > PAGE_SIZE); cqr = kzalloc(sizeof(struct dasd_ccw_req), GFP_ATOMIC); if (cqr == NULL) return ERR_PTR(-ENOMEM); cqr->cpaddr = NULL; if (cplength > 0) { cqr->cpaddr = kcalloc(cplength, sizeof(struct ccw1), GFP_ATOMIC | GFP_DMA); if (cqr->cpaddr == NULL) { kfree(cqr); return ERR_PTR(-ENOMEM); } } cqr->data = NULL; if (datasize > 0) { cqr->data = kzalloc(datasize, GFP_ATOMIC | GFP_DMA); if (cqr->data == NULL) { kfree(cqr->cpaddr); kfree(cqr); return ERR_PTR(-ENOMEM); } } cqr->magic = magic; set_bit(DASD_CQR_FLAGS_USE_ERP, &cqr->flags); dasd_get_device(device); return cqr; } struct dasd_ccw_req *dasd_smalloc_request(int magic, int cplength, int datasize, struct dasd_device *device) { unsigned long flags; struct dasd_ccw_req *cqr; char *data; int size; size = (sizeof(struct dasd_ccw_req) + 7L) & -8L; if (cplength > 0) size += cplength * sizeof(struct ccw1); if (datasize > 0) size += datasize; spin_lock_irqsave(&device->mem_lock, flags); cqr = (struct dasd_ccw_req *) dasd_alloc_chunk(&device->ccw_chunks, size); spin_unlock_irqrestore(&device->mem_lock, flags); if (cqr == NULL) return ERR_PTR(-ENOMEM); memset(cqr, 0, sizeof(struct dasd_ccw_req)); data = (char *) cqr + ((sizeof(struct dasd_ccw_req) + 7L) & -8L); cqr->cpaddr = NULL; if (cplength > 0) { cqr->cpaddr = (struct ccw1 *) data; data += cplength*sizeof(struct ccw1); memset(cqr->cpaddr, 0, cplength*sizeof(struct ccw1)); } cqr->data = NULL; if (datasize > 0) { cqr->data = data; memset(cqr->data, 0, datasize); } cqr->magic = magic; set_bit(DASD_CQR_FLAGS_USE_ERP, &cqr->flags); dasd_get_device(device); return cqr; } /* * Free memory of a channel program. This function needs to free all the * idal lists that might have been created by dasd_set_cda and the * struct dasd_ccw_req itself. */ void dasd_kfree_request(struct dasd_ccw_req *cqr, struct dasd_device *device) { #ifdef CONFIG_64BIT struct ccw1 *ccw; /* Clear any idals used for the request. */ ccw = cqr->cpaddr; do { clear_normalized_cda(ccw); } while (ccw++->flags & (CCW_FLAG_CC | CCW_FLAG_DC)); #endif kfree(cqr->cpaddr); kfree(cqr->data); kfree(cqr); dasd_put_device(device); } void dasd_sfree_request(struct dasd_ccw_req *cqr, struct dasd_device *device) { unsigned long flags; spin_lock_irqsave(&device->mem_lock, flags); dasd_free_chunk(&device->ccw_chunks, cqr); spin_unlock_irqrestore(&device->mem_lock, flags); dasd_put_device(device); } /* * Check discipline magic in cqr. */ static inline int dasd_check_cqr(struct dasd_ccw_req *cqr) { struct dasd_device *device; if (cqr == NULL) return -EINVAL; device = cqr->startdev; if (strncmp((char *) &cqr->magic, device->discipline->ebcname, 4)) { DBF_DEV_EVENT(DBF_WARNING, device, " dasd_ccw_req 0x%08x magic doesn't match" " discipline 0x%08x", cqr->magic, *(unsigned int *) device->discipline->name); return -EINVAL; } return 0; } /* * Terminate the current i/o and set the request to clear_pending. * Timer keeps device runnig. * ccw_device_clear can fail if the i/o subsystem * is in a bad mood. */ int dasd_term_IO(struct dasd_ccw_req *cqr) { struct dasd_device *device; int retries, rc; char errorstring[ERRORLENGTH]; /* Check the cqr */ rc = dasd_check_cqr(cqr); if (rc) return rc; retries = 0; device = (struct dasd_device *) cqr->startdev; while ((retries < 5) && (cqr->status == DASD_CQR_IN_IO)) { rc = ccw_device_clear(device->cdev, (long) cqr); switch (rc) { case 0: /* termination successful */ cqr->status = DASD_CQR_CLEAR_PENDING; cqr->stopclk = get_clock(); cqr->starttime = 0; DBF_DEV_EVENT(DBF_DEBUG, device, "terminate cqr %p successful", cqr); break; case -ENODEV: DBF_DEV_EVENT(DBF_ERR, device, "%s", "device gone, retry"); break; case -EIO: DBF_DEV_EVENT(DBF_ERR, device, "%s", "I/O error, retry"); break; case -EINVAL: case -EBUSY: DBF_DEV_EVENT(DBF_ERR, device, "%s", "device busy, retry later"); break; default: /* internal error 10 - unknown rc*/ snprintf(errorstring, ERRORLENGTH, "10 %d", rc); dev_err(&device->cdev->dev, "An error occurred in the " "DASD device driver, reason=%s\n", errorstring); BUG(); break; } retries++; } dasd_schedule_device_bh(device); return rc; } /* * Start the i/o. This start_IO can fail if the channel is really busy. * In that case set up a timer to start the request later. */ int dasd_start_IO(struct dasd_ccw_req *cqr) { struct dasd_device *device; int rc; char errorstring[ERRORLENGTH]; /* Check the cqr */ rc = dasd_check_cqr(cqr); if (rc) { cqr->intrc = rc; return rc; } device = (struct dasd_device *) cqr->startdev; if (((cqr->block && test_bit(DASD_FLAG_LOCK_STOLEN, &cqr->block->base->flags)) || test_bit(DASD_FLAG_LOCK_STOLEN, &device->flags)) && !test_bit(DASD_CQR_ALLOW_SLOCK, &cqr->flags)) { DBF_DEV_EVENT(DBF_DEBUG, device, "start_IO: return request %p " "because of stolen lock", cqr); cqr->status = DASD_CQR_ERROR; cqr->intrc = -EPERM; return -EPERM; } if (cqr->retries < 0) { /* internal error 14 - start_IO run out of retries */ sprintf(errorstring, "14 %p", cqr); dev_err(&device->cdev->dev, "An error occurred in the DASD " "device driver, reason=%s\n", errorstring); cqr->status = DASD_CQR_ERROR; return -EIO; } cqr->startclk = get_clock(); cqr->starttime = jiffies; cqr->retries--; if (!test_bit(DASD_CQR_VERIFY_PATH, &cqr->flags)) { cqr->lpm &= device->path_data.opm; if (!cqr->lpm) cqr->lpm = device->path_data.opm; } if (cqr->cpmode == 1) { rc = ccw_device_tm_start(device->cdev, cqr->cpaddr, (long) cqr, cqr->lpm); } else { rc = ccw_device_start(device->cdev, cqr->cpaddr, (long) cqr, cqr->lpm, 0); } switch (rc) { case 0: cqr->status = DASD_CQR_IN_IO; break; case -EBUSY: DBF_DEV_EVENT(DBF_WARNING, device, "%s", "start_IO: device busy, retry later"); break; case -ETIMEDOUT: DBF_DEV_EVENT(DBF_WARNING, device, "%s", "start_IO: request timeout, retry later"); break; case -EACCES: /* -EACCES indicates that the request used only a subset of the * available paths and all these paths are gone. If the lpm of * this request was only a subset of the opm (e.g. the ppm) then * we just do a retry with all available paths. * If we already use the full opm, something is amiss, and we * need a full path verification. */ if (test_bit(DASD_CQR_VERIFY_PATH, &cqr->flags)) { DBF_DEV_EVENT(DBF_WARNING, device, "start_IO: selected paths gone (%x)", cqr->lpm); } else if (cqr->lpm != device->path_data.opm) { cqr->lpm = device->path_data.opm; DBF_DEV_EVENT(DBF_DEBUG, device, "%s", "start_IO: selected paths gone," " retry on all paths"); } else { DBF_DEV_EVENT(DBF_WARNING, device, "%s", "start_IO: all paths in opm gone," " do path verification"); dasd_generic_last_path_gone(device); device->path_data.opm = 0; device->path_data.ppm = 0; device->path_data.npm = 0; device->path_data.tbvpm = ccw_device_get_path_mask(device->cdev); } break; case -ENODEV: DBF_DEV_EVENT(DBF_WARNING, device, "%s", "start_IO: -ENODEV device gone, retry"); break; case -EIO: DBF_DEV_EVENT(DBF_WARNING, device, "%s", "start_IO: -EIO device gone, retry"); break; case -EINVAL: /* most likely caused in power management context */ DBF_DEV_EVENT(DBF_WARNING, device, "%s", "start_IO: -EINVAL device currently " "not accessible"); break; default: /* internal error 11 - unknown rc */ snprintf(errorstring, ERRORLENGTH, "11 %d", rc); dev_err(&device->cdev->dev, "An error occurred in the DASD device driver, " "reason=%s\n", errorstring); BUG(); break; } cqr->intrc = rc; return rc; } /* * Timeout function for dasd devices. This is used for different purposes * 1) missing interrupt handler for normal operation * 2) delayed start of request where start_IO failed with -EBUSY * 3) timeout for missing state change interrupts * The head of the ccw queue will have status DASD_CQR_IN_IO for 1), * DASD_CQR_QUEUED for 2) and 3). */ static void dasd_device_timeout(unsigned long ptr) { unsigned long flags; struct dasd_device *device; device = (struct dasd_device *) ptr; spin_lock_irqsave(get_ccwdev_lock(device->cdev), flags); /* re-activate request queue */ dasd_device_remove_stop_bits(device, DASD_STOPPED_PENDING); spin_unlock_irqrestore(get_ccwdev_lock(device->cdev), flags); dasd_schedule_device_bh(device); } /* * Setup timeout for a device in jiffies. */ void dasd_device_set_timer(struct dasd_device *device, int expires) { if (expires == 0) del_timer(&device->timer); else mod_timer(&device->timer, jiffies + expires); } /* * Clear timeout for a device. */ void dasd_device_clear_timer(struct dasd_device *device) { del_timer(&device->timer); } static void dasd_handle_killed_request(struct ccw_device *cdev, unsigned long intparm) { struct dasd_ccw_req *cqr; struct dasd_device *device; if (!intparm) return; cqr = (struct dasd_ccw_req *) intparm; if (cqr->status != DASD_CQR_IN_IO) { DBF_EVENT_DEVID(DBF_DEBUG, cdev, "invalid status in handle_killed_request: " "%02x", cqr->status); return; } device = dasd_device_from_cdev_locked(cdev); if (IS_ERR(device)) { DBF_EVENT_DEVID(DBF_DEBUG, cdev, "%s", "unable to get device from cdev"); return; } if (!cqr->startdev || device != cqr->startdev || strncmp(cqr->startdev->discipline->ebcname, (char *) &cqr->magic, 4)) { DBF_EVENT_DEVID(DBF_DEBUG, cdev, "%s", "invalid device in request"); dasd_put_device(device); return; } /* Schedule request to be retried. */ cqr->status = DASD_CQR_QUEUED; dasd_device_clear_timer(device); dasd_schedule_device_bh(device); dasd_put_device(device); } void dasd_generic_handle_state_change(struct dasd_device *device) { /* First of all start sense subsystem status request. */ dasd_eer_snss(device); dasd_device_remove_stop_bits(device, DASD_STOPPED_PENDING); dasd_schedule_device_bh(device); if (device->block) dasd_schedule_block_bh(device->block); } /* * Interrupt handler for "normal" ssch-io based dasd devices. */ void dasd_int_handler(struct ccw_device *cdev, unsigned long intparm, struct irb *irb) { struct dasd_ccw_req *cqr, *next; struct dasd_device *device; unsigned long long now; int expires; if (IS_ERR(irb)) { switch (PTR_ERR(irb)) { case -EIO: break; case -ETIMEDOUT: DBF_EVENT_DEVID(DBF_WARNING, cdev, "%s: " "request timed out\n", __func__); break; default: DBF_EVENT_DEVID(DBF_WARNING, cdev, "%s: " "unknown error %ld\n", __func__, PTR_ERR(irb)); } dasd_handle_killed_request(cdev, intparm); return; } now = get_clock(); cqr = (struct dasd_ccw_req *) intparm; /* check for conditions that should be handled immediately */ if (!cqr || !(scsw_dstat(&irb->scsw) == (DEV_STAT_CHN_END | DEV_STAT_DEV_END) && scsw_cstat(&irb->scsw) == 0)) { if (cqr) memcpy(&cqr->irb, irb, sizeof(*irb)); device = dasd_device_from_cdev_locked(cdev); if (IS_ERR(device)) return; /* ignore unsolicited interrupts for DIAG discipline */ if (device->discipline == dasd_diag_discipline_pointer) { dasd_put_device(device); return; } device->discipline->dump_sense_dbf(device, irb, "int"); if (device->features & DASD_FEATURE_ERPLOG) device->discipline->dump_sense(device, cqr, irb); device->discipline->check_for_device_change(device, cqr, irb); dasd_put_device(device); } if (!cqr) return; device = (struct dasd_device *) cqr->startdev; if (!device || strncmp(device->discipline->ebcname, (char *) &cqr->magic, 4)) { DBF_EVENT_DEVID(DBF_DEBUG, cdev, "%s", "invalid device in request"); return; } /* Check for clear pending */ if (cqr->status == DASD_CQR_CLEAR_PENDING && scsw_fctl(&irb->scsw) & SCSW_FCTL_CLEAR_FUNC) { cqr->status = DASD_CQR_CLEARED; dasd_device_clear_timer(device); wake_up(&dasd_flush_wq); dasd_schedule_device_bh(device); return; } /* check status - the request might have been killed by dyn detach */ if (cqr->status != DASD_CQR_IN_IO) { DBF_DEV_EVENT(DBF_DEBUG, device, "invalid status: bus_id %s, " "status %02x", dev_name(&cdev->dev), cqr->status); return; } next = NULL; expires = 0; if (scsw_dstat(&irb->scsw) == (DEV_STAT_CHN_END | DEV_STAT_DEV_END) && scsw_cstat(&irb->scsw) == 0) { /* request was completed successfully */ cqr->status = DASD_CQR_SUCCESS; cqr->stopclk = now; /* Start first request on queue if possible -> fast_io. */ if (cqr->devlist.next != &device->ccw_queue) { next = list_entry(cqr->devlist.next, struct dasd_ccw_req, devlist); } } else { /* error */ /* * If we don't want complex ERP for this request, then just * reset this and retry it in the fastpath */ if (!test_bit(DASD_CQR_FLAGS_USE_ERP, &cqr->flags) && cqr->retries > 0) { if (cqr->lpm == device->path_data.opm) DBF_DEV_EVENT(DBF_DEBUG, device, "default ERP in fastpath " "(%i retries left)", cqr->retries); if (!test_bit(DASD_CQR_VERIFY_PATH, &cqr->flags)) cqr->lpm = device->path_data.opm; cqr->status = DASD_CQR_QUEUED; next = cqr; } else cqr->status = DASD_CQR_ERROR; } if (next && (next->status == DASD_CQR_QUEUED) && (!device->stopped)) { if (device->discipline->start_IO(next) == 0) expires = next->expires; } if (expires != 0) dasd_device_set_timer(device, expires); else dasd_device_clear_timer(device); dasd_schedule_device_bh(device); } enum uc_todo dasd_generic_uc_handler(struct ccw_device *cdev, struct irb *irb) { struct dasd_device *device; device = dasd_device_from_cdev_locked(cdev); if (IS_ERR(device)) goto out; if (test_bit(DASD_FLAG_OFFLINE, &device->flags) || device->state != device->target || !device->discipline->check_for_device_change){ dasd_put_device(device); goto out; } if (device->discipline->dump_sense_dbf) device->discipline->dump_sense_dbf(device, irb, "uc"); device->discipline->check_for_device_change(device, NULL, irb); dasd_put_device(device); out: return UC_TODO_RETRY; } EXPORT_SYMBOL_GPL(dasd_generic_uc_handler); /* * If we have an error on a dasd_block layer request then we cancel * and return all further requests from the same dasd_block as well. */ static void __dasd_device_recovery(struct dasd_device *device, struct dasd_ccw_req *ref_cqr) { struct list_head *l, *n; struct dasd_ccw_req *cqr; /* * only requeue request that came from the dasd_block layer */ if (!ref_cqr->block) return; list_for_each_safe(l, n, &device->ccw_queue) { cqr = list_entry(l, struct dasd_ccw_req, devlist); if (cqr->status == DASD_CQR_QUEUED && ref_cqr->block == cqr->block) { cqr->status = DASD_CQR_CLEARED; } } }; /* * Remove those ccw requests from the queue that need to be returned * to the upper layer. */ static void __dasd_device_process_ccw_queue(struct dasd_device *device, struct list_head *final_queue) { struct list_head *l, *n; struct dasd_ccw_req *cqr; /* Process request with final status. */ list_for_each_safe(l, n, &device->ccw_queue) { cqr = list_entry(l, struct dasd_ccw_req, devlist); /* Stop list processing at the first non-final request. */ if (cqr->status == DASD_CQR_QUEUED || cqr->status == DASD_CQR_IN_IO || cqr->status == DASD_CQR_CLEAR_PENDING) break; if (cqr->status == DASD_CQR_ERROR) { __dasd_device_recovery(device, cqr); } /* Rechain finished requests to final queue */ list_move_tail(&cqr->devlist, final_queue); } } /* * the cqrs from the final queue are returned to the upper layer * by setting a dasd_block state and calling the callback function */ static void __dasd_device_process_final_queue(struct dasd_device *device, struct list_head *final_queue) { struct list_head *l, *n; struct dasd_ccw_req *cqr; struct dasd_block *block; void (*callback)(struct dasd_ccw_req *, void *data); void *callback_data; char errorstring[ERRORLENGTH]; list_for_each_safe(l, n, final_queue) { cqr = list_entry(l, struct dasd_ccw_req, devlist); list_del_init(&cqr->devlist); block = cqr->block; callback = cqr->callback; callback_data = cqr->callback_data; if (block) spin_lock_bh(&block->queue_lock); switch (cqr->status) { case DASD_CQR_SUCCESS: cqr->status = DASD_CQR_DONE; break; case DASD_CQR_ERROR: cqr->status = DASD_CQR_NEED_ERP; break; case DASD_CQR_CLEARED: cqr->status = DASD_CQR_TERMINATED; break; default: /* internal error 12 - wrong cqr status*/ snprintf(errorstring, ERRORLENGTH, "12 %p %x02", cqr, cqr->status); dev_err(&device->cdev->dev, "An error occurred in the DASD device driver, " "reason=%s\n", errorstring); BUG(); } if (cqr->callback != NULL) (callback)(cqr, callback_data); if (block) spin_unlock_bh(&block->queue_lock); } } /* * Take a look at the first request on the ccw queue and check * if it reached its expire time. If so, terminate the IO. */ static void __dasd_device_check_expire(struct dasd_device *device) { struct dasd_ccw_req *cqr; if (list_empty(&device->ccw_queue)) return; cqr = list_entry(device->ccw_queue.next, struct dasd_ccw_req, devlist); if ((cqr->status == DASD_CQR_IN_IO && cqr->expires != 0) && (time_after_eq(jiffies, cqr->expires + cqr->starttime))) { if (device->discipline->term_IO(cqr) != 0) { /* Hmpf, try again in 5 sec */ dev_err(&device->cdev->dev, "cqr %p timed out (%lus) but cannot be " "ended, retrying in 5 s\n", cqr, (cqr->expires/HZ)); cqr->expires += 5*HZ; dasd_device_set_timer(device, 5*HZ); } else { dev_err(&device->cdev->dev, "cqr %p timed out (%lus), %i retries " "remaining\n", cqr, (cqr->expires/HZ), cqr->retries); } } } /* * Take a look at the first request on the ccw queue and check * if it needs to be started. */ static void __dasd_device_start_head(struct dasd_device *device) { struct dasd_ccw_req *cqr; int rc; if (list_empty(&device->ccw_queue)) return; cqr = list_entry(device->ccw_queue.next, struct dasd_ccw_req, devlist); if (cqr->status != DASD_CQR_QUEUED) return; /* when device is stopped, return request to previous layer * exception: only the disconnect or unresumed bits are set and the * cqr is a path verification request */ if (device->stopped && !(!(device->stopped & ~(DASD_STOPPED_DC_WAIT | DASD_UNRESUMED_PM)) && test_bit(DASD_CQR_VERIFY_PATH, &cqr->flags))) { cqr->intrc = -EAGAIN; cqr->status = DASD_CQR_CLEARED; dasd_schedule_device_bh(device); return; } rc = device->discipline->start_IO(cqr); if (rc == 0) dasd_device_set_timer(device, cqr->expires); else if (rc == -EACCES) { dasd_schedule_device_bh(device); } else /* Hmpf, try again in 1/2 sec */ dasd_device_set_timer(device, 50); } static void __dasd_device_check_path_events(struct dasd_device *device) { int rc; if (device->path_data.tbvpm) { if (device->stopped & ~(DASD_STOPPED_DC_WAIT | DASD_UNRESUMED_PM)) return; rc = device->discipline->verify_path( device, device->path_data.tbvpm); if (rc) dasd_device_set_timer(device, 50); else device->path_data.tbvpm = 0; } }; /* * Go through all request on the dasd_device request queue, * terminate them on the cdev if necessary, and return them to the * submitting layer via callback. * Note: * Make sure that all 'submitting layers' still exist when * this function is called!. In other words, when 'device' is a base * device then all block layer requests must have been removed before * via dasd_flush_block_queue. */ int dasd_flush_device_queue(struct dasd_device *device) { struct dasd_ccw_req *cqr, *n; int rc; struct list_head flush_queue; INIT_LIST_HEAD(&flush_queue); spin_lock_irq(get_ccwdev_lock(device->cdev)); rc = 0; list_for_each_entry_safe(cqr, n, &device->ccw_queue, devlist) { /* Check status and move request to flush_queue */ switch (cqr->status) { case DASD_CQR_IN_IO: rc = device->discipline->term_IO(cqr); if (rc) { /* unable to terminate requeust */ dev_err(&device->cdev->dev, "Flushing the DASD request queue " "failed for request %p\n", cqr); /* stop flush processing */ goto finished; } break; case DASD_CQR_QUEUED: cqr->stopclk = get_clock(); cqr->status = DASD_CQR_CLEARED; break; default: /* no need to modify the others */ break; } list_move_tail(&cqr->devlist, &flush_queue); } finished: spin_unlock_irq(get_ccwdev_lock(device->cdev)); /* * After this point all requests must be in state CLEAR_PENDING, * CLEARED, SUCCESS or ERROR. Now wait for CLEAR_PENDING to become * one of the others. */ list_for_each_entry_safe(cqr, n, &flush_queue, devlist) wait_event(dasd_flush_wq, (cqr->status != DASD_CQR_CLEAR_PENDING)); /* * Now set each request back to TERMINATED, DONE or NEED_ERP * and call the callback function of flushed requests */ __dasd_device_process_final_queue(device, &flush_queue); return rc; } /* * Acquire the device lock and process queues for the device. */ static void dasd_device_tasklet(struct dasd_device *device) { struct list_head final_queue; atomic_set (&device->tasklet_scheduled, 0); INIT_LIST_HEAD(&final_queue); spin_lock_irq(get_ccwdev_lock(device->cdev)); /* Check expire time of first request on the ccw queue. */ __dasd_device_check_expire(device); /* find final requests on ccw queue */ __dasd_device_process_ccw_queue(device, &final_queue); __dasd_device_check_path_events(device); spin_unlock_irq(get_ccwdev_lock(device->cdev)); /* Now call the callback function of requests with final status */ __dasd_device_process_final_queue(device, &final_queue); spin_lock_irq(get_ccwdev_lock(device->cdev)); /* Now check if the head of the ccw queue needs to be started. */ __dasd_device_start_head(device); spin_unlock_irq(get_ccwdev_lock(device->cdev)); dasd_put_device(device); } /* * Schedules a call to dasd_tasklet over the device tasklet. */ void dasd_schedule_device_bh(struct dasd_device *device) { /* Protect against rescheduling. */ if (atomic_cmpxchg (&device->tasklet_scheduled, 0, 1) != 0) return; dasd_get_device(device); tasklet_hi_schedule(&device->tasklet); } void dasd_device_set_stop_bits(struct dasd_device *device, int bits) { device->stopped |= bits; } EXPORT_SYMBOL_GPL(dasd_device_set_stop_bits); void dasd_device_remove_stop_bits(struct dasd_device *device, int bits) { device->stopped &= ~bits; if (!device->stopped) wake_up(&generic_waitq); } EXPORT_SYMBOL_GPL(dasd_device_remove_stop_bits); /* * Queue a request to the head of the device ccw_queue. * Start the I/O if possible. */ void dasd_add_request_head(struct dasd_ccw_req *cqr) { struct dasd_device *device; unsigned long flags; device = cqr->startdev; spin_lock_irqsave(get_ccwdev_lock(device->cdev), flags); cqr->status = DASD_CQR_QUEUED; list_add(&cqr->devlist, &device->ccw_queue); /* let the bh start the request to keep them in order */ dasd_schedule_device_bh(device); spin_unlock_irqrestore(get_ccwdev_lock(device->cdev), flags); } /* * Queue a request to the tail of the device ccw_queue. * Start the I/O if possible. */ void dasd_add_request_tail(struct dasd_ccw_req *cqr) { struct dasd_device *device; unsigned long flags; device = cqr->startdev; spin_lock_irqsave(get_ccwdev_lock(device->cdev), flags); cqr->status = DASD_CQR_QUEUED; list_add_tail(&cqr->devlist, &device->ccw_queue); /* let the bh start the request to keep them in order */ dasd_schedule_device_bh(device); spin_unlock_irqrestore(get_ccwdev_lock(device->cdev), flags); } /* * Wakeup helper for the 'sleep_on' functions. */ void dasd_wakeup_cb(struct dasd_ccw_req *cqr, void *data) { spin_lock_irq(get_ccwdev_lock(cqr->startdev->cdev)); cqr->callback_data = DASD_SLEEPON_END_TAG; spin_unlock_irq(get_ccwdev_lock(cqr->startdev->cdev)); wake_up(&generic_waitq); } EXPORT_SYMBOL_GPL(dasd_wakeup_cb); static inline int _wait_for_wakeup(struct dasd_ccw_req *cqr) { struct dasd_device *device; int rc; device = cqr->startdev; spin_lock_irq(get_ccwdev_lock(device->cdev)); rc = (cqr->callback_data == DASD_SLEEPON_END_TAG); spin_unlock_irq(get_ccwdev_lock(device->cdev)); return rc; } /* * checks if error recovery is necessary, returns 1 if yes, 0 otherwise. */ static int __dasd_sleep_on_erp(struct dasd_ccw_req *cqr) { struct dasd_device *device; dasd_erp_fn_t erp_fn; if (cqr->status == DASD_CQR_FILLED) return 0; device = cqr->startdev; if (test_bit(DASD_CQR_FLAGS_USE_ERP, &cqr->flags)) { if (cqr->status == DASD_CQR_TERMINATED) { device->discipline->handle_terminated_request(cqr); return 1; } if (cqr->status == DASD_CQR_NEED_ERP) { erp_fn = device->discipline->erp_action(cqr); erp_fn(cqr); return 1; } if (cqr->status == DASD_CQR_FAILED) dasd_log_sense(cqr, &cqr->irb); if (cqr->refers) { __dasd_process_erp(device, cqr); return 1; } } return 0; } static int __dasd_sleep_on_loop_condition(struct dasd_ccw_req *cqr) { if (test_bit(DASD_CQR_FLAGS_USE_ERP, &cqr->flags)) { if (cqr->refers) /* erp is not done yet */ return 1; return ((cqr->status != DASD_CQR_DONE) && (cqr->status != DASD_CQR_FAILED)); } else return (cqr->status == DASD_CQR_FILLED); } static int _dasd_sleep_on(struct dasd_ccw_req *maincqr, int interruptible) { struct dasd_device *device; int rc; struct list_head ccw_queue; struct dasd_ccw_req *cqr; INIT_LIST_HEAD(&ccw_queue); maincqr->status = DASD_CQR_FILLED; device = maincqr->startdev; list_add(&maincqr->blocklist, &ccw_queue); for (cqr = maincqr; __dasd_sleep_on_loop_condition(cqr); cqr = list_first_entry(&ccw_queue, struct dasd_ccw_req, blocklist)) { if (__dasd_sleep_on_erp(cqr)) continue; if (cqr->status != DASD_CQR_FILLED) /* could be failed */ continue; if (test_bit(DASD_FLAG_LOCK_STOLEN, &device->flags) && !test_bit(DASD_CQR_ALLOW_SLOCK, &cqr->flags)) { cqr->status = DASD_CQR_FAILED; cqr->intrc = -EPERM; continue; } /* Non-temporary stop condition will trigger fail fast */ if (device->stopped & ~DASD_STOPPED_PENDING && test_bit(DASD_CQR_FLAGS_FAILFAST, &cqr->flags) && (!dasd_eer_enabled(device))) { cqr->status = DASD_CQR_FAILED; continue; } /* Don't try to start requests if device is stopped */ if (interruptible) { rc = wait_event_interruptible( generic_waitq, !(device->stopped)); if (rc == -ERESTARTSYS) { cqr->status = DASD_CQR_FAILED; maincqr->intrc = rc; continue; } } else wait_event(generic_waitq, !(device->stopped)); if (!cqr->callback) cqr->callback = dasd_wakeup_cb; cqr->callback_data = DASD_SLEEPON_START_TAG; dasd_add_request_tail(cqr); if (interruptible) { rc = wait_event_interruptible( generic_waitq, _wait_for_wakeup(cqr)); if (rc == -ERESTARTSYS) { dasd_cancel_req(cqr); /* wait (non-interruptible) for final status */ wait_event(generic_waitq, _wait_for_wakeup(cqr)); cqr->status = DASD_CQR_FAILED; maincqr->intrc = rc; continue; } } else wait_event(generic_waitq, _wait_for_wakeup(cqr)); } maincqr->endclk = get_clock(); if ((maincqr->status != DASD_CQR_DONE) && (maincqr->intrc != -ERESTARTSYS)) dasd_log_sense(maincqr, &maincqr->irb); if (maincqr->status == DASD_CQR_DONE) rc = 0; else if (maincqr->intrc) rc = maincqr->intrc; else rc = -EIO; return rc; } /* * Queue a request to the tail of the device ccw_queue and wait for * it's completion. */ int dasd_sleep_on(struct dasd_ccw_req *cqr) { return _dasd_sleep_on(cqr, 0); } /* * Queue a request to the tail of the device ccw_queue and wait * interruptible for it's completion. */ int dasd_sleep_on_interruptible(struct dasd_ccw_req *cqr) { return _dasd_sleep_on(cqr, 1); } /* * Whoa nelly now it gets really hairy. For some functions (e.g. steal lock * for eckd devices) the currently running request has to be terminated * and be put back to status queued, before the special request is added * to the head of the queue. Then the special request is waited on normally. */ static inline int _dasd_term_running_cqr(struct dasd_device *device) { struct dasd_ccw_req *cqr; int rc; if (list_empty(&device->ccw_queue)) return 0; cqr = list_entry(device->ccw_queue.next, struct dasd_ccw_req, devlist); rc = device->discipline->term_IO(cqr); if (!rc) /* * CQR terminated because a more important request is pending. * Undo decreasing of retry counter because this is * not an error case. */ cqr->retries++; return rc; } int dasd_sleep_on_immediatly(struct dasd_ccw_req *cqr) { struct dasd_device *device; int rc; device = cqr->startdev; if (test_bit(DASD_FLAG_LOCK_STOLEN, &device->flags) && !test_bit(DASD_CQR_ALLOW_SLOCK, &cqr->flags)) { cqr->status = DASD_CQR_FAILED; cqr->intrc = -EPERM; return -EIO; } spin_lock_irq(get_ccwdev_lock(device->cdev)); rc = _dasd_term_running_cqr(device); if (rc) { spin_unlock_irq(get_ccwdev_lock(device->cdev)); return rc; } cqr->callback = dasd_wakeup_cb; cqr->callback_data = DASD_SLEEPON_START_TAG; cqr->status = DASD_CQR_QUEUED; /* * add new request as second * first the terminated cqr needs to be finished */ list_add(&cqr->devlist, device->ccw_queue.next); /* let the bh start the request to keep them in order */ dasd_schedule_device_bh(device); spin_unlock_irq(get_ccwdev_lock(device->cdev)); wait_event(generic_waitq, _wait_for_wakeup(cqr)); if (cqr->status == DASD_CQR_DONE) rc = 0; else if (cqr->intrc) rc = cqr->intrc; else rc = -EIO; return rc; } /* * Cancels a request that was started with dasd_sleep_on_req. * This is useful to timeout requests. The request will be * terminated if it is currently in i/o. * Returns 1 if the request has been terminated. * 0 if there was no need to terminate the request (not started yet) * negative error code if termination failed * Cancellation of a request is an asynchronous operation! The calling * function has to wait until the request is properly returned via callback. */ int dasd_cancel_req(struct dasd_ccw_req *cqr) { struct dasd_device *device = cqr->startdev; unsigned long flags; int rc; rc = 0; spin_lock_irqsave(get_ccwdev_lock(device->cdev), flags); switch (cqr->status) { case DASD_CQR_QUEUED: /* request was not started - just set to cleared */ cqr->status = DASD_CQR_CLEARED; break; case DASD_CQR_IN_IO: /* request in IO - terminate IO and release again */ rc = device->discipline->term_IO(cqr); if (rc) { dev_err(&device->cdev->dev, "Cancelling request %p failed with rc=%d\n", cqr, rc); } else { cqr->stopclk = get_clock(); } break; default: /* already finished or clear pending - do nothing */ break; } spin_unlock_irqrestore(get_ccwdev_lock(device->cdev), flags); dasd_schedule_device_bh(device); return rc; } /* * SECTION: Operations of the dasd_block layer. */ /* * Timeout function for dasd_block. This is used when the block layer * is waiting for something that may not come reliably, (e.g. a state * change interrupt) */ static void dasd_block_timeout(unsigned long ptr) { unsigned long flags; struct dasd_block *block; block = (struct dasd_block *) ptr; spin_lock_irqsave(get_ccwdev_lock(block->base->cdev), flags); /* re-activate request queue */ dasd_device_remove_stop_bits(block->base, DASD_STOPPED_PENDING); spin_unlock_irqrestore(get_ccwdev_lock(block->base->cdev), flags); dasd_schedule_block_bh(block); } /* * Setup timeout for a dasd_block in jiffies. */ void dasd_block_set_timer(struct dasd_block *block, int expires) { if (expires == 0) del_timer(&block->timer); else mod_timer(&block->timer, jiffies + expires); } /* * Clear timeout for a dasd_block. */ void dasd_block_clear_timer(struct dasd_block *block) { del_timer(&block->timer); } /* * Process finished error recovery ccw. */ static void __dasd_process_erp(struct dasd_device *device, struct dasd_ccw_req *cqr) { dasd_erp_fn_t erp_fn; if (cqr->status == DASD_CQR_DONE) DBF_DEV_EVENT(DBF_NOTICE, device, "%s", "ERP successful"); else dev_err(&device->cdev->dev, "ERP failed for the DASD\n"); erp_fn = device->discipline->erp_postaction(cqr); erp_fn(cqr); } /* * Fetch requests from the block device queue. */ static void __dasd_process_request_queue(struct dasd_block *block) { struct request_queue *queue; struct request *req; struct dasd_ccw_req *cqr; struct dasd_device *basedev; unsigned long flags; queue = block->request_queue; basedev = block->base; /* No queue ? Then there is nothing to do. */ if (queue == NULL) return; /* * We requeue request from the block device queue to the ccw * queue only in two states. In state DASD_STATE_READY the * partition detection is done and we need to requeue requests * for that. State DASD_STATE_ONLINE is normal block device * operation. */ if (basedev->state < DASD_STATE_READY) { while ((req = blk_fetch_request(block->request_queue))) __blk_end_request_all(req, -EIO); return; } /* Now we try to fetch requests from the request queue */ while ((req = blk_peek_request(queue))) { if (basedev->features & DASD_FEATURE_READONLY && rq_data_dir(req) == WRITE) { DBF_DEV_EVENT(DBF_ERR, basedev, "Rejecting write request %p", req); blk_start_request(req); __blk_end_request_all(req, -EIO); continue; } cqr = basedev->discipline->build_cp(basedev, block, req); if (IS_ERR(cqr)) { if (PTR_ERR(cqr) == -EBUSY) break; /* normal end condition */ if (PTR_ERR(cqr) == -ENOMEM) break; /* terminate request queue loop */ if (PTR_ERR(cqr) == -EAGAIN) { /* * The current request cannot be build right * now, we have to try later. If this request * is the head-of-queue we stop the device * for 1/2 second. */ if (!list_empty(&block->ccw_queue)) break; spin_lock_irqsave( get_ccwdev_lock(basedev->cdev), flags); dasd_device_set_stop_bits(basedev, DASD_STOPPED_PENDING); spin_unlock_irqrestore( get_ccwdev_lock(basedev->cdev), flags); dasd_block_set_timer(block, HZ/2); break; } DBF_DEV_EVENT(DBF_ERR, basedev, "CCW creation failed (rc=%ld) " "on request %p", PTR_ERR(cqr), req); blk_start_request(req); __blk_end_request_all(req, -EIO); continue; } /* * Note: callback is set to dasd_return_cqr_cb in * __dasd_block_start_head to cover erp requests as well */ cqr->callback_data = (void *) req; cqr->status = DASD_CQR_FILLED; blk_start_request(req); list_add_tail(&cqr->blocklist, &block->ccw_queue); dasd_profile_start(block, cqr, req); } } static void __dasd_cleanup_cqr(struct dasd_ccw_req *cqr) { struct request *req; int status; int error = 0; req = (struct request *) cqr->callback_data; dasd_profile_end(cqr->block, cqr, req); status = cqr->block->base->discipline->free_cp(cqr, req); if (status <= 0) error = status ? status : -EIO; __blk_end_request_all(req, error); } /* * Process ccw request queue. */ static void __dasd_process_block_ccw_queue(struct dasd_block *block, struct list_head *final_queue) { struct list_head *l, *n; struct dasd_ccw_req *cqr; dasd_erp_fn_t erp_fn; unsigned long flags; struct dasd_device *base = block->base; restart: /* Process request with final status. */ list_for_each_safe(l, n, &block->ccw_queue) { cqr = list_entry(l, struct dasd_ccw_req, blocklist); if (cqr->status != DASD_CQR_DONE && cqr->status != DASD_CQR_FAILED && cqr->status != DASD_CQR_NEED_ERP && cqr->status != DASD_CQR_TERMINATED) continue; if (cqr->status == DASD_CQR_TERMINATED) { base->discipline->handle_terminated_request(cqr); goto restart; } /* Process requests that may be recovered */ if (cqr->status == DASD_CQR_NEED_ERP) { erp_fn = base->discipline->erp_action(cqr); if (IS_ERR(erp_fn(cqr))) continue; goto restart; } /* log sense for fatal error */ if (cqr->status == DASD_CQR_FAILED) { dasd_log_sense(cqr, &cqr->irb); } /* First of all call extended error reporting. */ if (dasd_eer_enabled(base) && cqr->status == DASD_CQR_FAILED) { dasd_eer_write(base, cqr, DASD_EER_FATALERROR); /* restart request */ cqr->status = DASD_CQR_FILLED; cqr->retries = 255; spin_lock_irqsave(get_ccwdev_lock(base->cdev), flags); dasd_device_set_stop_bits(base, DASD_STOPPED_QUIESCE); spin_unlock_irqrestore(get_ccwdev_lock(base->cdev), flags); goto restart; } /* Process finished ERP request. */ if (cqr->refers) { __dasd_process_erp(base, cqr); goto restart; } /* Rechain finished requests to final queue */ cqr->endclk = get_clock(); list_move_tail(&cqr->blocklist, final_queue); } } static void dasd_return_cqr_cb(struct dasd_ccw_req *cqr, void *data) { dasd_schedule_block_bh(cqr->block); } static void __dasd_block_start_head(struct dasd_block *block) { struct dasd_ccw_req *cqr; if (list_empty(&block->ccw_queue)) return; /* We allways begin with the first requests on the queue, as some * of previously started requests have to be enqueued on a * dasd_device again for error recovery. */ list_for_each_entry(cqr, &block->ccw_queue, blocklist) { if (cqr->status != DASD_CQR_FILLED) continue; if (test_bit(DASD_FLAG_LOCK_STOLEN, &block->base->flags) && !test_bit(DASD_CQR_ALLOW_SLOCK, &cqr->flags)) { cqr->status = DASD_CQR_FAILED; cqr->intrc = -EPERM; dasd_schedule_block_bh(block); continue; } /* Non-temporary stop condition will trigger fail fast */ if (block->base->stopped & ~DASD_STOPPED_PENDING && test_bit(DASD_CQR_FLAGS_FAILFAST, &cqr->flags) && (!dasd_eer_enabled(block->base))) { cqr->status = DASD_CQR_FAILED; dasd_schedule_block_bh(block); continue; } /* Don't try to start requests if device is stopped */ if (block->base->stopped) return; /* just a fail safe check, should not happen */ if (!cqr->startdev) cqr->startdev = block->base; /* make sure that the requests we submit find their way back */ cqr->callback = dasd_return_cqr_cb; dasd_add_request_tail(cqr); } } /* * Central dasd_block layer routine. Takes requests from the generic * block layer request queue, creates ccw requests, enqueues them on * a dasd_device and processes ccw requests that have been returned. */ static void dasd_block_tasklet(struct dasd_block *block) { struct list_head final_queue; struct list_head *l, *n; struct dasd_ccw_req *cqr; atomic_set(&block->tasklet_scheduled, 0); INIT_LIST_HEAD(&final_queue); spin_lock(&block->queue_lock); /* Finish off requests on ccw queue */ __dasd_process_block_ccw_queue(block, &final_queue); spin_unlock(&block->queue_lock); /* Now call the callback function of requests with final status */ spin_lock_irq(&block->request_queue_lock); list_for_each_safe(l, n, &final_queue) { cqr = list_entry(l, struct dasd_ccw_req, blocklist); list_del_init(&cqr->blocklist); __dasd_cleanup_cqr(cqr); } spin_lock(&block->queue_lock); /* Get new request from the block device request queue */ __dasd_process_request_queue(block); /* Now check if the head of the ccw queue needs to be started. */ __dasd_block_start_head(block); spin_unlock(&block->queue_lock); spin_unlock_irq(&block->request_queue_lock); dasd_put_device(block->base); } static void _dasd_wake_block_flush_cb(struct dasd_ccw_req *cqr, void *data) { wake_up(&dasd_flush_wq); } /* * Go through all request on the dasd_block request queue, cancel them * on the respective dasd_device, and return them to the generic * block layer. */ static int dasd_flush_block_queue(struct dasd_block *block) { struct dasd_ccw_req *cqr, *n; int rc, i; struct list_head flush_queue; INIT_LIST_HEAD(&flush_queue); spin_lock_bh(&block->queue_lock); rc = 0; restart: list_for_each_entry_safe(cqr, n, &block->ccw_queue, blocklist) { /* if this request currently owned by a dasd_device cancel it */ if (cqr->status >= DASD_CQR_QUEUED) rc = dasd_cancel_req(cqr); if (rc < 0) break; /* Rechain request (including erp chain) so it won't be * touched by the dasd_block_tasklet anymore. * Replace the callback so we notice when the request * is returned from the dasd_device layer. */ cqr->callback = _dasd_wake_block_flush_cb; for (i = 0; cqr != NULL; cqr = cqr->refers, i++) list_move_tail(&cqr->blocklist, &flush_queue); if (i > 1) /* moved more than one request - need to restart */ goto restart; } spin_unlock_bh(&block->queue_lock); /* Now call the callback function of flushed requests */ restart_cb: list_for_each_entry_safe(cqr, n, &flush_queue, blocklist) { wait_event(dasd_flush_wq, (cqr->status < DASD_CQR_QUEUED)); /* Process finished ERP request. */ if (cqr->refers) { spin_lock_bh(&block->queue_lock); __dasd_process_erp(block->base, cqr); spin_unlock_bh(&block->queue_lock); /* restart list_for_xx loop since dasd_process_erp * might remove multiple elements */ goto restart_cb; } /* call the callback function */ spin_lock_irq(&block->request_queue_lock); cqr->endclk = get_clock(); list_del_init(&cqr->blocklist); __dasd_cleanup_cqr(cqr); spin_unlock_irq(&block->request_queue_lock); } return rc; } /* * Schedules a call to dasd_tasklet over the device tasklet. */ void dasd_schedule_block_bh(struct dasd_block *block) { /* Protect against rescheduling. */ if (atomic_cmpxchg(&block->tasklet_scheduled, 0, 1) != 0) return; /* life cycle of block is bound to it's base device */ dasd_get_device(block->base); tasklet_hi_schedule(&block->tasklet); } /* * SECTION: external block device operations * (request queue handling, open, release, etc.) */ /* * Dasd request queue function. Called from ll_rw_blk.c */ static void do_dasd_request(struct request_queue *queue) { struct dasd_block *block; block = queue->queuedata; spin_lock(&block->queue_lock); /* Get new request from the block device request queue */ __dasd_process_request_queue(block); /* Now check if the head of the ccw queue needs to be started. */ __dasd_block_start_head(block); spin_unlock(&block->queue_lock); } /* * Allocate and initialize request queue and default I/O scheduler. */ static int dasd_alloc_queue(struct dasd_block *block) { int rc; block->request_queue = blk_init_queue(do_dasd_request, &block->request_queue_lock); if (block->request_queue == NULL) return -ENOMEM; block->request_queue->queuedata = block; elevator_exit(block->request_queue->elevator); block->request_queue->elevator = NULL; rc = elevator_init(block->request_queue, "deadline"); if (rc) { blk_cleanup_queue(block->request_queue); return rc; } return 0; } /* * Allocate and initialize request queue. */ static void dasd_setup_queue(struct dasd_block *block) { int max; if (block->base->features & DASD_FEATURE_USERAW) { /* * the max_blocks value for raw_track access is 256 * it is higher than the native ECKD value because we * only need one ccw per track * so the max_hw_sectors are * 2048 x 512B = 1024kB = 16 tracks */ max = 2048; } else { max = block->base->discipline->max_blocks << block->s2b_shift; } blk_queue_logical_block_size(block->request_queue, block->bp_block); blk_queue_max_hw_sectors(block->request_queue, max); blk_queue_max_segments(block->request_queue, -1L); /* with page sized segments we can translate each segement into * one idaw/tidaw */ blk_queue_max_segment_size(block->request_queue, PAGE_SIZE); blk_queue_segment_boundary(block->request_queue, PAGE_SIZE - 1); } /* * Deactivate and free request queue. */ static void dasd_free_queue(struct dasd_block *block) { if (block->request_queue) { blk_cleanup_queue(block->request_queue); block->request_queue = NULL; } } /* * Flush request on the request queue. */ static void dasd_flush_request_queue(struct dasd_block *block) { struct request *req; if (!block->request_queue) return; spin_lock_irq(&block->request_queue_lock); while ((req = blk_fetch_request(block->request_queue))) __blk_end_request_all(req, -EIO); spin_unlock_irq(&block->request_queue_lock); } static int dasd_open(struct block_device *bdev, fmode_t mode) { struct dasd_device *base; int rc; base = dasd_device_from_gendisk(bdev->bd_disk); if (!base) return -ENODEV; atomic_inc(&base->block->open_count); if (test_bit(DASD_FLAG_OFFLINE, &base->flags)) { rc = -ENODEV; goto unlock; } if (!try_module_get(base->discipline->owner)) { rc = -EINVAL; goto unlock; } if (dasd_probeonly) { dev_info(&base->cdev->dev, "Accessing the DASD failed because it is in " "probeonly mode\n"); rc = -EPERM; goto out; } if (base->state <= DASD_STATE_BASIC) { DBF_DEV_EVENT(DBF_ERR, base, " %s", " Cannot open unrecognized device"); rc = -ENODEV; goto out; } if ((mode & FMODE_WRITE) && (test_bit(DASD_FLAG_DEVICE_RO, &base->flags) || (base->features & DASD_FEATURE_READONLY))) { rc = -EROFS; goto out; } dasd_put_device(base); return 0; out: module_put(base->discipline->owner); unlock: atomic_dec(&base->block->open_count); dasd_put_device(base); return rc; } static int dasd_release(struct gendisk *disk, fmode_t mode) { struct dasd_device *base; base = dasd_device_from_gendisk(disk); if (!base) return -ENODEV; atomic_dec(&base->block->open_count); module_put(base->discipline->owner); dasd_put_device(base); return 0; } /* * Return disk geometry. */ static int dasd_getgeo(struct block_device *bdev, struct hd_geometry *geo) { struct dasd_device *base; base = dasd_device_from_gendisk(bdev->bd_disk); if (!base) return -ENODEV; if (!base->discipline || !base->discipline->fill_geometry) { dasd_put_device(base); return -EINVAL; } base->discipline->fill_geometry(base->block, geo); geo->start = get_start_sect(bdev) >> base->block->s2b_shift; dasd_put_device(base); return 0; } const struct block_device_operations dasd_device_operations = { .owner = THIS_MODULE, .open = dasd_open, .release = dasd_release, .ioctl = dasd_ioctl, .compat_ioctl = dasd_ioctl, .getgeo = dasd_getgeo, }; /******************************************************************************* * end of block device operations */ static void dasd_exit(void) { #ifdef CONFIG_PROC_FS dasd_proc_exit(); #endif dasd_eer_exit(); if (dasd_page_cache != NULL) { kmem_cache_destroy(dasd_page_cache); dasd_page_cache = NULL; } dasd_gendisk_exit(); dasd_devmap_exit(); if (dasd_debug_area != NULL) { debug_unregister(dasd_debug_area); dasd_debug_area = NULL; } dasd_statistics_removeroot(); } /* * SECTION: common functions for ccw_driver use */ /* * Is the device read-only? * Note that this function does not report the setting of the * readonly device attribute, but how it is configured in z/VM. */ int dasd_device_is_ro(struct dasd_device *device) { struct ccw_dev_id dev_id; struct diag210 diag_data; int rc; if (!MACHINE_IS_VM) return 0; ccw_device_get_id(device->cdev, &dev_id); memset(&diag_data, 0, sizeof(diag_data)); diag_data.vrdcdvno = dev_id.devno; diag_data.vrdclen = sizeof(diag_data); rc = diag210(&diag_data); if (rc == 0 || rc == 2) { return diag_data.vrdcvfla & 0x80; } else { DBF_EVENT(DBF_WARNING, "diag210 failed for dev=%04x with rc=%d", dev_id.devno, rc); return 0; } } EXPORT_SYMBOL_GPL(dasd_device_is_ro); static void dasd_generic_auto_online(void *data, async_cookie_t cookie) { struct ccw_device *cdev = data; int ret; ret = ccw_device_set_online(cdev); if (ret) pr_warning("%s: Setting the DASD online failed with rc=%d\n", dev_name(&cdev->dev), ret); } /* * Initial attempt at a probe function. this can be simplified once * the other detection code is gone. */ int dasd_generic_probe(struct ccw_device *cdev, struct dasd_discipline *discipline) { int ret; ret = dasd_add_sysfs_files(cdev); if (ret) { DBF_EVENT_DEVID(DBF_WARNING, cdev, "%s", "dasd_generic_probe: could not add " "sysfs entries"); return ret; } cdev->handler = &dasd_int_handler; /* * Automatically online either all dasd devices (dasd_autodetect) * or all devices specified with dasd= parameters during * initial probe. */ if ((dasd_get_feature(cdev, DASD_FEATURE_INITIAL_ONLINE) > 0 ) || (dasd_autodetect && dasd_busid_known(dev_name(&cdev->dev)) != 0)) async_schedule(dasd_generic_auto_online, cdev); return 0; } /* * This will one day be called from a global not_oper handler. * It is also used by driver_unregister during module unload. */ void dasd_generic_remove(struct ccw_device *cdev) { struct dasd_device *device; struct dasd_block *block; cdev->handler = NULL; dasd_remove_sysfs_files(cdev); device = dasd_device_from_cdev(cdev); if (IS_ERR(device)) return; if (test_and_set_bit(DASD_FLAG_OFFLINE, &device->flags)) { /* Already doing offline processing */ dasd_put_device(device); return; } /* * This device is removed unconditionally. Set offline * flag to prevent dasd_open from opening it while it is * no quite down yet. */ dasd_set_target_state(device, DASD_STATE_NEW); /* dasd_delete_device destroys the device reference. */ block = device->block; dasd_delete_device(device); /* * life cycle of block is bound to device, so delete it after * device was safely removed */ if (block) dasd_free_block(block); } /* * Activate a device. This is called from dasd_{eckd,fba}_probe() when either * the device is detected for the first time and is supposed to be used * or the user has started activation through sysfs. */ int dasd_generic_set_online(struct ccw_device *cdev, struct dasd_discipline *base_discipline) { struct dasd_discipline *discipline; struct dasd_device *device; int rc; /* first online clears initial online feature flag */ dasd_set_feature(cdev, DASD_FEATURE_INITIAL_ONLINE, 0); device = dasd_create_device(cdev); if (IS_ERR(device)) return PTR_ERR(device); discipline = base_discipline; if (device->features & DASD_FEATURE_USEDIAG) { if (!dasd_diag_discipline_pointer) { pr_warning("%s Setting the DASD online failed because " "of missing DIAG discipline\n", dev_name(&cdev->dev)); dasd_delete_device(device); return -ENODEV; } discipline = dasd_diag_discipline_pointer; } if (!try_module_get(base_discipline->owner)) { dasd_delete_device(device); return -EINVAL; } if (!try_module_get(discipline->owner)) { module_put(base_discipline->owner); dasd_delete_device(device); return -EINVAL; } device->base_discipline = base_discipline; device->discipline = discipline; /* check_device will allocate block device if necessary */ rc = discipline->check_device(device); if (rc) { pr_warning("%s Setting the DASD online with discipline %s " "failed with rc=%i\n", dev_name(&cdev->dev), discipline->name, rc); module_put(discipline->owner); module_put(base_discipline->owner); dasd_delete_device(device); return rc; } dasd_set_target_state(device, DASD_STATE_ONLINE); if (device->state <= DASD_STATE_KNOWN) { pr_warning("%s Setting the DASD online failed because of a " "missing discipline\n", dev_name(&cdev->dev)); rc = -ENODEV; dasd_set_target_state(device, DASD_STATE_NEW); if (device->block) dasd_free_block(device->block); dasd_delete_device(device); } else pr_debug("dasd_generic device %s found\n", dev_name(&cdev->dev)); wait_event(dasd_init_waitq, _wait_for_device(device)); dasd_put_device(device); return rc; } int dasd_generic_set_offline(struct ccw_device *cdev) { struct dasd_device *device; struct dasd_block *block; int max_count, open_count; device = dasd_device_from_cdev(cdev); if (IS_ERR(device)) return PTR_ERR(device); if (test_and_set_bit(DASD_FLAG_OFFLINE, &device->flags)) { /* Already doing offline processing */ dasd_put_device(device); return 0; } /* * We must make sure that this device is currently not in use. * The open_count is increased for every opener, that includes * the blkdev_get in dasd_scan_partitions. We are only interested * in the other openers. */ if (device->block) { max_count = device->block->bdev ? 0 : -1; open_count = atomic_read(&device->block->open_count); if (open_count > max_count) { if (open_count > 0) pr_warning("%s: The DASD cannot be set offline " "with open count %i\n", dev_name(&cdev->dev), open_count); else pr_warning("%s: The DASD cannot be set offline " "while it is in use\n", dev_name(&cdev->dev)); clear_bit(DASD_FLAG_OFFLINE, &device->flags); dasd_put_device(device); return -EBUSY; } } dasd_set_target_state(device, DASD_STATE_NEW); /* dasd_delete_device destroys the device reference. */ block = device->block; dasd_delete_device(device); /* * life cycle of block is bound to device, so delete it after * device was safely removed */ if (block) dasd_free_block(block); return 0; } int dasd_generic_last_path_gone(struct dasd_device *device) { struct dasd_ccw_req *cqr; dev_warn(&device->cdev->dev, "No operational channel path is left " "for the device\n"); DBF_DEV_EVENT(DBF_WARNING, device, "%s", "last path gone"); /* First of all call extended error reporting. */ dasd_eer_write(device, NULL, DASD_EER_NOPATH); if (device->state < DASD_STATE_BASIC) return 0; /* Device is active. We want to keep it. */ list_for_each_entry(cqr, &device->ccw_queue, devlist) if ((cqr->status == DASD_CQR_IN_IO) || (cqr->status == DASD_CQR_CLEAR_PENDING)) { cqr->status = DASD_CQR_QUEUED; cqr->retries++; } dasd_device_set_stop_bits(device, DASD_STOPPED_DC_WAIT); dasd_device_clear_timer(device); dasd_schedule_device_bh(device); return 1; } EXPORT_SYMBOL_GPL(dasd_generic_last_path_gone); int dasd_generic_path_operational(struct dasd_device *device) { dev_info(&device->cdev->dev, "A channel path to the device has become " "operational\n"); DBF_DEV_EVENT(DBF_WARNING, device, "%s", "path operational"); dasd_device_remove_stop_bits(device, DASD_STOPPED_DC_WAIT); if (device->stopped & DASD_UNRESUMED_PM) { dasd_device_remove_stop_bits(device, DASD_UNRESUMED_PM); dasd_restore_device(device); return 1; } dasd_schedule_device_bh(device); if (device->block) dasd_schedule_block_bh(device->block); return 1; } EXPORT_SYMBOL_GPL(dasd_generic_path_operational); int dasd_generic_notify(struct ccw_device *cdev, int event) { struct dasd_device *device; int ret; device = dasd_device_from_cdev_locked(cdev); if (IS_ERR(device)) return 0; ret = 0; switch (event) { case CIO_GONE: case CIO_BOXED: case CIO_NO_PATH: device->path_data.opm = 0; device->path_data.ppm = 0; device->path_data.npm = 0; ret = dasd_generic_last_path_gone(device); break; case CIO_OPER: ret = 1; if (device->path_data.opm) ret = dasd_generic_path_operational(device); break; } dasd_put_device(device); return ret; } void dasd_generic_path_event(struct ccw_device *cdev, int *path_event) { int chp; __u8 oldopm, eventlpm; struct dasd_device *device; device = dasd_device_from_cdev_locked(cdev); if (IS_ERR(device)) return; for (chp = 0; chp < 8; chp++) { eventlpm = 0x80 >> chp; if (path_event[chp] & PE_PATH_GONE) { oldopm = device->path_data.opm; device->path_data.opm &= ~eventlpm; device->path_data.ppm &= ~eventlpm; device->path_data.npm &= ~eventlpm; if (oldopm && !device->path_data.opm) dasd_generic_last_path_gone(device); } if (path_event[chp] & PE_PATH_AVAILABLE) { device->path_data.opm &= ~eventlpm; device->path_data.ppm &= ~eventlpm; device->path_data.npm &= ~eventlpm; device->path_data.tbvpm |= eventlpm; dasd_schedule_device_bh(device); } } dasd_put_device(device); } EXPORT_SYMBOL_GPL(dasd_generic_path_event); int dasd_generic_verify_path(struct dasd_device *device, __u8 lpm) { if (!device->path_data.opm && lpm) { device->path_data.opm = lpm; dasd_generic_path_operational(device); } else device->path_data.opm |= lpm; return 0; } EXPORT_SYMBOL_GPL(dasd_generic_verify_path); int dasd_generic_pm_freeze(struct ccw_device *cdev) { struct dasd_ccw_req *cqr, *n; int rc; struct list_head freeze_queue; struct dasd_device *device = dasd_device_from_cdev(cdev); if (IS_ERR(device)) return PTR_ERR(device); /* mark device as suspended */ set_bit(DASD_FLAG_SUSPENDED, &device->flags); if (device->discipline->freeze) rc = device->discipline->freeze(device); /* disallow new I/O */ dasd_device_set_stop_bits(device, DASD_STOPPED_PM); /* clear active requests */ INIT_LIST_HEAD(&freeze_queue); spin_lock_irq(get_ccwdev_lock(cdev)); rc = 0; list_for_each_entry_safe(cqr, n, &device->ccw_queue, devlist) { /* Check status and move request to flush_queue */ if (cqr->status == DASD_CQR_IN_IO) { rc = device->discipline->term_IO(cqr); if (rc) { /* unable to terminate requeust */ dev_err(&device->cdev->dev, "Unable to terminate request %p " "on suspend\n", cqr); spin_unlock_irq(get_ccwdev_lock(cdev)); dasd_put_device(device); return rc; } } list_move_tail(&cqr->devlist, &freeze_queue); } spin_unlock_irq(get_ccwdev_lock(cdev)); list_for_each_entry_safe(cqr, n, &freeze_queue, devlist) { wait_event(dasd_flush_wq, (cqr->status != DASD_CQR_CLEAR_PENDING)); if (cqr->status == DASD_CQR_CLEARED) cqr->status = DASD_CQR_QUEUED; } /* move freeze_queue to start of the ccw_queue */ spin_lock_irq(get_ccwdev_lock(cdev)); list_splice_tail(&freeze_queue, &device->ccw_queue); spin_unlock_irq(get_ccwdev_lock(cdev)); dasd_put_device(device); return rc; } EXPORT_SYMBOL_GPL(dasd_generic_pm_freeze); int dasd_generic_restore_device(struct ccw_device *cdev) { struct dasd_device *device = dasd_device_from_cdev(cdev); int rc = 0; if (IS_ERR(device)) return PTR_ERR(device); /* allow new IO again */ dasd_device_remove_stop_bits(device, (DASD_STOPPED_PM | DASD_UNRESUMED_PM)); dasd_schedule_device_bh(device); /* * call discipline restore function * if device is stopped do nothing e.g. for disconnected devices */ if (device->discipline->restore && !(device->stopped)) rc = device->discipline->restore(device); if (rc || device->stopped) /* * if the resume failed for the DASD we put it in * an UNRESUMED stop state */ device->stopped |= DASD_UNRESUMED_PM; if (device->block) dasd_schedule_block_bh(device->block); clear_bit(DASD_FLAG_SUSPENDED, &device->flags); dasd_put_device(device); return 0; } EXPORT_SYMBOL_GPL(dasd_generic_restore_device); static struct dasd_ccw_req *dasd_generic_build_rdc(struct dasd_device *device, void *rdc_buffer, int rdc_buffer_size, int magic) { struct dasd_ccw_req *cqr; struct ccw1 *ccw; unsigned long *idaw; cqr = dasd_smalloc_request(magic, 1 /* RDC */, rdc_buffer_size, device); if (IS_ERR(cqr)) { /* internal error 13 - Allocating the RDC request failed*/ dev_err(&device->cdev->dev, "An error occurred in the DASD device driver, " "reason=%s\n", "13"); return cqr; } ccw = cqr->cpaddr; ccw->cmd_code = CCW_CMD_RDC; if (idal_is_needed(rdc_buffer, rdc_buffer_size)) { idaw = (unsigned long *) (cqr->data); ccw->cda = (__u32)(addr_t) idaw; ccw->flags = CCW_FLAG_IDA; idaw = idal_create_words(idaw, rdc_buffer, rdc_buffer_size); } else { ccw->cda = (__u32)(addr_t) rdc_buffer; ccw->flags = 0; } ccw->count = rdc_buffer_size; cqr->startdev = device; cqr->memdev = device; cqr->expires = 10*HZ; cqr->retries = 256; cqr->buildclk = get_clock(); cqr->status = DASD_CQR_FILLED; return cqr; } int dasd_generic_read_dev_chars(struct dasd_device *device, int magic, void *rdc_buffer, int rdc_buffer_size) { int ret; struct dasd_ccw_req *cqr; cqr = dasd_generic_build_rdc(device, rdc_buffer, rdc_buffer_size, magic); if (IS_ERR(cqr)) return PTR_ERR(cqr); ret = dasd_sleep_on(cqr); dasd_sfree_request(cqr, cqr->memdev); return ret; } EXPORT_SYMBOL_GPL(dasd_generic_read_dev_chars); /* * In command mode and transport mode we need to look for sense * data in different places. The sense data itself is allways * an array of 32 bytes, so we can unify the sense data access * for both modes. */ char *dasd_get_sense(struct irb *irb) { struct tsb *tsb = NULL; char *sense = NULL; if (scsw_is_tm(&irb->scsw) && (irb->scsw.tm.fcxs == 0x01)) { if (irb->scsw.tm.tcw) tsb = tcw_get_tsb((struct tcw *)(unsigned long) irb->scsw.tm.tcw); if (tsb && tsb->length == 64 && tsb->flags) switch (tsb->flags & 0x07) { case 1: /* tsa_iostat */ sense = tsb->tsa.iostat.sense; break; case 2: /* tsa_ddpc */ sense = tsb->tsa.ddpc.sense; break; default: /* currently we don't use interrogate data */ break; } } else if (irb->esw.esw0.erw.cons) { sense = irb->ecw; } return sense; } EXPORT_SYMBOL_GPL(dasd_get_sense); static int __init dasd_init(void) { int rc; init_waitqueue_head(&dasd_init_waitq); init_waitqueue_head(&dasd_flush_wq); init_waitqueue_head(&generic_waitq); /* register 'common' DASD debug area, used for all DBF_XXX calls */ dasd_debug_area = debug_register("dasd", 1, 1, 8 * sizeof(long)); if (dasd_debug_area == NULL) { rc = -ENOMEM; goto failed; } debug_register_view(dasd_debug_area, &debug_sprintf_view); debug_set_level(dasd_debug_area, DBF_WARNING); DBF_EVENT(DBF_EMERG, "%s", "debug area created"); dasd_diag_discipline_pointer = NULL; dasd_statistics_createroot(); rc = dasd_devmap_init(); if (rc) goto failed; rc = dasd_gendisk_init(); if (rc) goto failed; rc = dasd_parse(); if (rc) goto failed; rc = dasd_eer_init(); if (rc) goto failed; #ifdef CONFIG_PROC_FS rc = dasd_proc_init(); if (rc) goto failed; #endif return 0; failed: pr_info("The DASD device driver could not be initialized\n"); dasd_exit(); return rc; } module_init(dasd_init); module_exit(dasd_exit); EXPORT_SYMBOL(dasd_debug_area); EXPORT_SYMBOL(dasd_diag_discipline_pointer); EXPORT_SYMBOL(dasd_add_request_head); EXPORT_SYMBOL(dasd_add_request_tail); EXPORT_SYMBOL(dasd_cancel_req); EXPORT_SYMBOL(dasd_device_clear_timer); EXPORT_SYMBOL(dasd_block_clear_timer); EXPORT_SYMBOL(dasd_enable_device); EXPORT_SYMBOL(dasd_int_handler); EXPORT_SYMBOL(dasd_kfree_request); EXPORT_SYMBOL(dasd_kick_device); EXPORT_SYMBOL(dasd_kmalloc_request); EXPORT_SYMBOL(dasd_schedule_device_bh); EXPORT_SYMBOL(dasd_schedule_block_bh); EXPORT_SYMBOL(dasd_set_target_state); EXPORT_SYMBOL(dasd_device_set_timer); EXPORT_SYMBOL(dasd_block_set_timer); EXPORT_SYMBOL(dasd_sfree_request); EXPORT_SYMBOL(dasd_sleep_on); EXPORT_SYMBOL(dasd_sleep_on_immediatly); EXPORT_SYMBOL(dasd_sleep_on_interruptible); EXPORT_SYMBOL(dasd_smalloc_request); EXPORT_SYMBOL(dasd_start_IO); EXPORT_SYMBOL(dasd_term_IO); EXPORT_SYMBOL_GPL(dasd_generic_probe); EXPORT_SYMBOL_GPL(dasd_generic_remove); EXPORT_SYMBOL_GPL(dasd_generic_notify); EXPORT_SYMBOL_GPL(dasd_generic_set_online); EXPORT_SYMBOL_GPL(dasd_generic_set_offline); EXPORT_SYMBOL_GPL(dasd_generic_handle_state_change); EXPORT_SYMBOL_GPL(dasd_flush_device_queue); EXPORT_SYMBOL_GPL(dasd_alloc_block); EXPORT_SYMBOL_GPL(dasd_free_block); |