Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/hpt27xx/@/cam/ctl/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/hpt27xx/@/cam/ctl/ctl_backend_ramdisk.c |
/*- * Copyright (c) 2003, 2008 Silicon Graphics International Corp. * Copyright (c) 2012 The FreeBSD Foundation * All rights reserved. * * Portions of this software were developed by Edward Tomasz Napierala * under sponsorship from the FreeBSD Foundation. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions, and the following disclaimer, * without modification. * 2. Redistributions in binary form must reproduce at minimum a disclaimer * substantially similar to the "NO WARRANTY" disclaimer below * ("Disclaimer") and any redistribution must be conditioned upon * including a substantially similar Disclaimer requirement for further * binary redistribution. * * NO WARRANTY * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGES. * * $Id: //depot/users/kenm/FreeBSD-test2/sys/cam/ctl/ctl_backend_ramdisk.c#3 $ */ /* * CAM Target Layer backend for a "fake" ramdisk. * * Author: Ken Merry <ken@FreeBSD.org> */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/cam/ctl/ctl_backend_ramdisk.c 237821 2012-06-29 21:19:24Z ken $"); #include <sys/param.h> #include <sys/systm.h> #include <sys/kernel.h> #include <sys/condvar.h> #include <sys/types.h> #include <sys/lock.h> #include <sys/mutex.h> #include <sys/malloc.h> #include <sys/time.h> #include <sys/queue.h> #include <sys/conf.h> #include <sys/ioccom.h> #include <sys/module.h> #include <cam/scsi/scsi_all.h> #include <cam/ctl/ctl_io.h> #include <cam/ctl/ctl.h> #include <cam/ctl/ctl_util.h> #include <cam/ctl/ctl_backend.h> #include <cam/ctl/ctl_frontend_internal.h> #include <cam/ctl/ctl_debug.h> #include <cam/ctl/ctl_ioctl.h> #include <cam/ctl/ctl_error.h> typedef enum { CTL_BE_RAMDISK_LUN_UNCONFIGURED = 0x01, CTL_BE_RAMDISK_LUN_CONFIG_ERR = 0x02, CTL_BE_RAMDISK_LUN_WAITING = 0x04 } ctl_be_ramdisk_lun_flags; struct ctl_be_ramdisk_lun { uint64_t size_bytes; uint64_t size_blocks; struct ctl_be_ramdisk_softc *softc; ctl_be_ramdisk_lun_flags flags; STAILQ_ENTRY(ctl_be_ramdisk_lun) links; struct ctl_be_lun ctl_be_lun; }; struct ctl_be_ramdisk_softc { struct mtx lock; int rd_size; #ifdef CTL_RAMDISK_PAGES uint8_t **ramdisk_pages; int num_pages; #else uint8_t *ramdisk_buffer; #endif int num_luns; STAILQ_HEAD(, ctl_be_ramdisk_lun) lun_list; }; static struct ctl_be_ramdisk_softc rd_softc; int ctl_backend_ramdisk_init(void); void ctl_backend_ramdisk_shutdown(void); static int ctl_backend_ramdisk_move_done(union ctl_io *io); static int ctl_backend_ramdisk_submit(union ctl_io *io); static int ctl_backend_ramdisk_ioctl(struct cdev *dev, u_long cmd, caddr_t addr, int flag, struct thread *td); static int ctl_backend_ramdisk_rm(struct ctl_be_ramdisk_softc *softc, struct ctl_lun_req *req); static int ctl_backend_ramdisk_create(struct ctl_be_ramdisk_softc *softc, struct ctl_lun_req *req, int do_wait); static int ctl_backend_ramdisk_modify(struct ctl_be_ramdisk_softc *softc, struct ctl_lun_req *req); static void ctl_backend_ramdisk_lun_shutdown(void *be_lun); static void ctl_backend_ramdisk_lun_config_status(void *be_lun, ctl_lun_config_status status); static int ctl_backend_ramdisk_config_write(union ctl_io *io); static int ctl_backend_ramdisk_config_read(union ctl_io *io); static struct ctl_backend_driver ctl_be_ramdisk_driver = { .name = "ramdisk", .flags = CTL_BE_FLAG_HAS_CONFIG, .init = ctl_backend_ramdisk_init, .data_submit = ctl_backend_ramdisk_submit, .data_move_done = ctl_backend_ramdisk_move_done, .config_read = ctl_backend_ramdisk_config_read, .config_write = ctl_backend_ramdisk_config_write, .ioctl = ctl_backend_ramdisk_ioctl }; MALLOC_DEFINE(M_RAMDISK, "ramdisk", "Memory used for CTL RAMdisk"); CTL_BACKEND_DECLARE(cbr, ctl_be_ramdisk_driver); int ctl_backend_ramdisk_init(void) { struct ctl_be_ramdisk_softc *softc; #ifdef CTL_RAMDISK_PAGES int i, j; #endif softc = &rd_softc; memset(softc, 0, sizeof(*softc)); mtx_init(&softc->lock, "ramdisk", NULL, MTX_DEF); STAILQ_INIT(&softc->lun_list); softc->rd_size = 4 * 1024 * 1024; #ifdef CTL_RAMDISK_PAGES softc->num_pages = softc->rd_size / PAGE_SIZE; softc->ramdisk_pages = (uint8_t **)malloc(sizeof(uint8_t *) * softc->num_pages, M_RAMDISK, M_WAITOK); for (i = 0; i < softc->num_pages; i++) { softc->ramdisk_pages[i] = malloc(PAGE_SIZE, M_RAMDISK,M_WAITOK); if (softc->ramdisk_pages[i] == NULL) { for (j = 0; j < i; j++) { free(softc->ramdisk_pages[j], M_RAMDISK); } free(softc->ramdisk_pages, M_RAMDISK); panic("RAMDisk initialization failed\n"); return (1); /* NOTREACHED */ } } #else softc->ramdisk_buffer = (uint8_t *)malloc(softc->rd_size, M_RAMDISK, M_WAITOK); #endif return (0); } void ctl_backend_ramdisk_shutdown(void) { struct ctl_be_ramdisk_softc *softc; struct ctl_be_ramdisk_lun *lun, *next_lun; #ifdef CTL_RAMDISK_PAGES int i; #endif softc = &rd_softc; mtx_lock(&softc->lock); for (lun = STAILQ_FIRST(&softc->lun_list); lun != NULL; lun = next_lun){ /* * Grab the next LUN. The current LUN may get removed by * ctl_invalidate_lun(), which will call our LUN shutdown * routine, if there is no outstanding I/O for this LUN. */ next_lun = STAILQ_NEXT(lun, links); /* * Drop our lock here. Since ctl_invalidate_lun() can call * back into us, this could potentially lead to a recursive * lock of the same mutex, which would cause a hang. */ mtx_unlock(&softc->lock); ctl_disable_lun(&lun->ctl_be_lun); ctl_invalidate_lun(&lun->ctl_be_lun); mtx_lock(&softc->lock); } mtx_unlock(&softc->lock); #ifdef CTL_RAMDISK_PAGES for (i = 0; i < softc->num_pages; i++) free(softc->ramdisk_pages[i], M_RAMDISK); free(softc->ramdisk_pages, M_RAMDISK); #else free(softc->ramdisk_buffer, M_RAMDISK); #endif if (ctl_backend_deregister(&ctl_be_ramdisk_driver) != 0) { printf("ctl_backend_ramdisk_shutdown: " "ctl_backend_deregister() failed!\n"); } } static int ctl_backend_ramdisk_move_done(union ctl_io *io) { #ifdef CTL_TIME_IO struct bintime cur_bt; #endif CTL_DEBUG_PRINT(("ctl_backend_ramdisk_move_done\n")); if ((io->io_hdr.port_status == 0) && ((io->io_hdr.flags & CTL_FLAG_ABORT) == 0) && ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_STATUS_NONE)) io->io_hdr.status = CTL_SUCCESS; else if ((io->io_hdr.port_status != 0) && ((io->io_hdr.flags & CTL_FLAG_ABORT) == 0) && ((io->io_hdr.status & CTL_STATUS_MASK) == CTL_STATUS_NONE)){ /* * For hardware error sense keys, the sense key * specific value is defined to be a retry count, * but we use it to pass back an internal FETD * error code. XXX KDM Hopefully the FETD is only * using 16 bits for an error code, since that's * all the space we have in the sks field. */ ctl_set_internal_failure(&io->scsiio, /*sks_valid*/ 1, /*retry_count*/ io->io_hdr.port_status); } #ifdef CTL_TIME_IO getbintime(&cur_bt); bintime_sub(&cur_bt, &io->io_hdr.dma_start_bt); bintime_add(&io->io_hdr.dma_bt, &cur_bt); io->io_hdr.num_dmas++; #endif if (io->scsiio.kern_sg_entries > 0) free(io->scsiio.kern_data_ptr, M_RAMDISK); ctl_done(io); return(0); } static int ctl_backend_ramdisk_submit(union ctl_io *io) { struct ctl_lba_len lbalen; #ifdef CTL_RAMDISK_PAGES struct ctl_sg_entry *sg_entries; int len_filled; int i; #endif int num_sg_entries, len; struct ctl_be_ramdisk_softc *softc; struct ctl_be_lun *ctl_be_lun; struct ctl_be_ramdisk_lun *be_lun; softc = &rd_softc; ctl_be_lun = (struct ctl_be_lun *)io->io_hdr.ctl_private[ CTL_PRIV_BACKEND_LUN].ptr; be_lun = (struct ctl_be_ramdisk_lun *)ctl_be_lun->be_lun; memcpy(&lbalen, io->io_hdr.ctl_private[CTL_PRIV_LBA_LEN].bytes, sizeof(lbalen)); len = lbalen.len * ctl_be_lun->blocksize; /* * Kick out the request if it's bigger than we can handle. */ if (len > softc->rd_size) { ctl_set_internal_failure(&io->scsiio, /*sks_valid*/ 0, /*retry_count*/ 0); ctl_done(io); return (CTL_RETVAL_COMPLETE); } /* * Kick out the request if it's larger than the device size that * the user requested. */ if (((lbalen.lba * ctl_be_lun->blocksize) + len) > be_lun->size_bytes) { ctl_set_lba_out_of_range(&io->scsiio); ctl_done(io); return (CTL_RETVAL_COMPLETE); } #ifdef CTL_RAMDISK_PAGES num_sg_entries = len >> PAGE_SHIFT; if ((len & (PAGE_SIZE - 1)) != 0) num_sg_entries++; if (num_sg_entries > 1) { io->scsiio.kern_data_ptr = malloc(sizeof(struct ctl_sg_entry) * num_sg_entries, M_RAMDISK, M_WAITOK); if (io->scsiio.kern_data_ptr == NULL) { ctl_set_internal_failure(&io->scsiio, /*sks_valid*/ 0, /*retry_count*/ 0); ctl_done(io); return (CTL_RETVAL_COMPLETE); } sg_entries = (struct ctl_sg_entry *)io->scsiio.kern_data_ptr; for (i = 0, len_filled = 0; i < num_sg_entries; i++, len_filled += PAGE_SIZE) { sg_entries[i].addr = softc->ramdisk_pages[i]; sg_entries[i].len = ctl_min(PAGE_SIZE, len - len_filled); } } else { #endif /* CTL_RAMDISK_PAGES */ /* * If this is less than 1 page, don't bother allocating a * scatter/gather list for it. This saves time/overhead. */ num_sg_entries = 0; #ifdef CTL_RAMDISK_PAGES io->scsiio.kern_data_ptr = softc->ramdisk_pages[0]; #else io->scsiio.kern_data_ptr = softc->ramdisk_buffer; #endif #ifdef CTL_RAMDISK_PAGES } #endif io->scsiio.be_move_done = ctl_backend_ramdisk_move_done; io->scsiio.kern_data_len = len; io->scsiio.kern_total_len = len; io->scsiio.kern_rel_offset = 0; io->scsiio.kern_data_resid = 0; io->scsiio.kern_sg_entries = num_sg_entries; io->io_hdr.flags |= CTL_FLAG_ALLOCATED | CTL_FLAG_KDPTR_SGLIST; #ifdef CTL_TIME_IO getbintime(&io->io_hdr.dma_start_bt); #endif ctl_datamove(io); return (CTL_RETVAL_COMPLETE); } static int ctl_backend_ramdisk_ioctl(struct cdev *dev, u_long cmd, caddr_t addr, int flag, struct thread *td) { struct ctl_be_ramdisk_softc *softc; int retval; retval = 0; softc = &rd_softc; switch (cmd) { case CTL_LUN_REQ: { struct ctl_lun_req *lun_req; lun_req = (struct ctl_lun_req *)addr; switch (lun_req->reqtype) { case CTL_LUNREQ_CREATE: retval = ctl_backend_ramdisk_create(softc, lun_req, /*do_wait*/ 1); break; case CTL_LUNREQ_RM: retval = ctl_backend_ramdisk_rm(softc, lun_req); break; case CTL_LUNREQ_MODIFY: retval = ctl_backend_ramdisk_modify(softc, lun_req); break; default: lun_req->status = CTL_LUN_ERROR; snprintf(lun_req->error_str, sizeof(lun_req->error_str), "%s: invalid LUN request type %d", __func__, lun_req->reqtype); break; } break; } default: retval = ENOTTY; break; } return (retval); } static int ctl_backend_ramdisk_rm(struct ctl_be_ramdisk_softc *softc, struct ctl_lun_req *req) { struct ctl_be_ramdisk_lun *be_lun; struct ctl_lun_rm_params *params; int retval; retval = 0; params = &req->reqdata.rm; be_lun = NULL; mtx_lock(&softc->lock); STAILQ_FOREACH(be_lun, &softc->lun_list, links) { if (be_lun->ctl_be_lun.lun_id == params->lun_id) break; } mtx_unlock(&softc->lock); if (be_lun == NULL) { snprintf(req->error_str, sizeof(req->error_str), "%s: LUN %u is not managed by the ramdisk backend", __func__, params->lun_id); goto bailout_error; } retval = ctl_disable_lun(&be_lun->ctl_be_lun); if (retval != 0) { snprintf(req->error_str, sizeof(req->error_str), "%s: error %d returned from ctl_disable_lun() for " "LUN %d", __func__, retval, params->lun_id); goto bailout_error; } /* * Set the waiting flag before we invalidate the LUN. Our shutdown * routine can be called any time after we invalidate the LUN, * and can be called from our context. * * This tells the shutdown routine that we're waiting, or we're * going to wait for the shutdown to happen. */ mtx_lock(&softc->lock); be_lun->flags |= CTL_BE_RAMDISK_LUN_WAITING; mtx_unlock(&softc->lock); retval = ctl_invalidate_lun(&be_lun->ctl_be_lun); if (retval != 0) { snprintf(req->error_str, sizeof(req->error_str), "%s: error %d returned from ctl_invalidate_lun() for " "LUN %d", __func__, retval, params->lun_id); goto bailout_error; } mtx_lock(&softc->lock); while ((be_lun->flags & CTL_BE_RAMDISK_LUN_UNCONFIGURED) == 0) { retval = msleep(be_lun, &softc->lock, PCATCH, "ctlram", 0); if (retval == EINTR) break; } be_lun->flags &= ~CTL_BE_RAMDISK_LUN_WAITING; /* * We only remove this LUN from the list and free it (below) if * retval == 0. If the user interrupted the wait, we just bail out * without actually freeing the LUN. We let the shutdown routine * free the LUN if that happens. */ if (retval == 0) { STAILQ_REMOVE(&softc->lun_list, be_lun, ctl_be_ramdisk_lun, links); softc->num_luns--; } mtx_unlock(&softc->lock); if (retval == 0) free(be_lun, M_RAMDISK); req->status = CTL_LUN_OK; return (retval); bailout_error: /* * Don't leave the waiting flag set. */ mtx_lock(&softc->lock); be_lun->flags &= ~CTL_BE_RAMDISK_LUN_WAITING; mtx_unlock(&softc->lock); req->status = CTL_LUN_ERROR; return (0); } static int ctl_backend_ramdisk_create(struct ctl_be_ramdisk_softc *softc, struct ctl_lun_req *req, int do_wait) { struct ctl_be_ramdisk_lun *be_lun; struct ctl_lun_create_params *params; uint32_t blocksize; char tmpstr[32]; int retval; retval = 0; params = &req->reqdata.create; if (params->blocksize_bytes != 0) blocksize = params->blocksize_bytes; else blocksize = 512; be_lun = malloc(sizeof(*be_lun), M_RAMDISK, M_ZERO | (do_wait ? M_WAITOK : M_NOWAIT)); if (be_lun == NULL) { snprintf(req->error_str, sizeof(req->error_str), "%s: error allocating %zd bytes", __func__, sizeof(*be_lun)); goto bailout_error; } if (params->flags & CTL_LUN_FLAG_DEV_TYPE) be_lun->ctl_be_lun.lun_type = params->device_type; else be_lun->ctl_be_lun.lun_type = T_DIRECT; if (be_lun->ctl_be_lun.lun_type == T_DIRECT) { if (params->lun_size_bytes < blocksize) { snprintf(req->error_str, sizeof(req->error_str), "%s: LUN size %ju < blocksize %u", __func__, params->lun_size_bytes, blocksize); goto bailout_error; } be_lun->size_blocks = params->lun_size_bytes / blocksize; be_lun->size_bytes = be_lun->size_blocks * blocksize; be_lun->ctl_be_lun.maxlba = be_lun->size_blocks - 1; } else { be_lun->ctl_be_lun.maxlba = 0; blocksize = 0; be_lun->size_bytes = 0; be_lun->size_blocks = 0; } be_lun->ctl_be_lun.blocksize = blocksize; /* Tell the user the blocksize we ended up using */ params->blocksize_bytes = blocksize; /* Tell the user the exact size we ended up using */ params->lun_size_bytes = be_lun->size_bytes; be_lun->softc = softc; be_lun->flags = CTL_BE_RAMDISK_LUN_UNCONFIGURED; be_lun->ctl_be_lun.flags = CTL_LUN_FLAG_PRIMARY; be_lun->ctl_be_lun.be_lun = be_lun; if (params->flags & CTL_LUN_FLAG_ID_REQ) { be_lun->ctl_be_lun.req_lun_id = params->req_lun_id; be_lun->ctl_be_lun.flags |= CTL_LUN_FLAG_ID_REQ; } else be_lun->ctl_be_lun.req_lun_id = 0; be_lun->ctl_be_lun.lun_shutdown = ctl_backend_ramdisk_lun_shutdown; be_lun->ctl_be_lun.lun_config_status = ctl_backend_ramdisk_lun_config_status; be_lun->ctl_be_lun.be = &ctl_be_ramdisk_driver; if ((params->flags & CTL_LUN_FLAG_SERIAL_NUM) == 0) { snprintf(tmpstr, sizeof(tmpstr), "MYSERIAL%4d", softc->num_luns); strncpy((char *)be_lun->ctl_be_lun.serial_num, tmpstr, ctl_min(sizeof(be_lun->ctl_be_lun.serial_num), sizeof(tmpstr))); /* Tell the user what we used for a serial number */ strncpy((char *)params->serial_num, tmpstr, ctl_min(sizeof(params->serial_num), sizeof(tmpstr))); } else { strncpy((char *)be_lun->ctl_be_lun.serial_num, params->serial_num, ctl_min(sizeof(be_lun->ctl_be_lun.serial_num), sizeof(params->serial_num))); } if ((params->flags & CTL_LUN_FLAG_DEVID) == 0) { snprintf(tmpstr, sizeof(tmpstr), "MYDEVID%4d", softc->num_luns); strncpy((char *)be_lun->ctl_be_lun.device_id, tmpstr, ctl_min(sizeof(be_lun->ctl_be_lun.device_id), sizeof(tmpstr))); /* Tell the user what we used for a device ID */ strncpy((char *)params->device_id, tmpstr, ctl_min(sizeof(params->device_id), sizeof(tmpstr))); } else { strncpy((char *)be_lun->ctl_be_lun.device_id, params->device_id, ctl_min(sizeof(be_lun->ctl_be_lun.device_id), sizeof(params->device_id))); } mtx_lock(&softc->lock); softc->num_luns++; STAILQ_INSERT_TAIL(&softc->lun_list, be_lun, links); mtx_unlock(&softc->lock); retval = ctl_add_lun(&be_lun->ctl_be_lun); if (retval != 0) { mtx_lock(&softc->lock); STAILQ_REMOVE(&softc->lun_list, be_lun, ctl_be_ramdisk_lun, links); softc->num_luns--; mtx_unlock(&softc->lock); snprintf(req->error_str, sizeof(req->error_str), "%s: ctl_add_lun() returned error %d, see dmesg for " "details", __func__, retval); retval = 0; goto bailout_error; } if (do_wait == 0) return (retval); mtx_lock(&softc->lock); /* * Tell the config_status routine that we're waiting so it won't * clean up the LUN in the event of an error. */ be_lun->flags |= CTL_BE_RAMDISK_LUN_WAITING; while (be_lun->flags & CTL_BE_RAMDISK_LUN_UNCONFIGURED) { retval = msleep(be_lun, &softc->lock, PCATCH, "ctlram", 0); if (retval == EINTR) break; } be_lun->flags &= ~CTL_BE_RAMDISK_LUN_WAITING; if (be_lun->flags & CTL_BE_RAMDISK_LUN_CONFIG_ERR) { snprintf(req->error_str, sizeof(req->error_str), "%s: LUN configuration error, see dmesg for details", __func__); STAILQ_REMOVE(&softc->lun_list, be_lun, ctl_be_ramdisk_lun, links); softc->num_luns--; mtx_unlock(&softc->lock); goto bailout_error; } else { params->req_lun_id = be_lun->ctl_be_lun.lun_id; } mtx_unlock(&softc->lock); req->status = CTL_LUN_OK; return (retval); bailout_error: req->status = CTL_LUN_ERROR; free(be_lun, M_RAMDISK); return (retval); } static int ctl_backend_ramdisk_modify(struct ctl_be_ramdisk_softc *softc, struct ctl_lun_req *req) { struct ctl_be_ramdisk_lun *be_lun; struct ctl_lun_modify_params *params; uint32_t blocksize; params = &req->reqdata.modify; be_lun = NULL; mtx_lock(&softc->lock); STAILQ_FOREACH(be_lun, &softc->lun_list, links) { if (be_lun->ctl_be_lun.lun_id == params->lun_id) break; } mtx_unlock(&softc->lock); if (be_lun == NULL) { snprintf(req->error_str, sizeof(req->error_str), "%s: LUN %u is not managed by the ramdisk backend", __func__, params->lun_id); goto bailout_error; } if (params->lun_size_bytes == 0) { snprintf(req->error_str, sizeof(req->error_str), "%s: LUN size \"auto\" not supported " "by the ramdisk backend", __func__); goto bailout_error; } blocksize = be_lun->ctl_be_lun.blocksize; if (params->lun_size_bytes < blocksize) { snprintf(req->error_str, sizeof(req->error_str), "%s: LUN size %ju < blocksize %u", __func__, params->lun_size_bytes, blocksize); goto bailout_error; } be_lun->size_blocks = params->lun_size_bytes / blocksize; be_lun->size_bytes = be_lun->size_blocks * blocksize; /* * The maximum LBA is the size - 1. * * XXX: Note that this field is being updated without locking, * which might cause problems on 32-bit architectures. */ be_lun->ctl_be_lun.maxlba = be_lun->size_blocks - 1; ctl_lun_capacity_changed(&be_lun->ctl_be_lun); /* Tell the user the exact size we ended up using */ params->lun_size_bytes = be_lun->size_bytes; req->status = CTL_LUN_OK; return (0); bailout_error: req->status = CTL_LUN_ERROR; return (0); } static void ctl_backend_ramdisk_lun_shutdown(void *be_lun) { struct ctl_be_ramdisk_lun *lun; struct ctl_be_ramdisk_softc *softc; int do_free; lun = (struct ctl_be_ramdisk_lun *)be_lun; softc = lun->softc; do_free = 0; mtx_lock(&softc->lock); lun->flags |= CTL_BE_RAMDISK_LUN_UNCONFIGURED; if (lun->flags & CTL_BE_RAMDISK_LUN_WAITING) { wakeup(lun); } else { STAILQ_REMOVE(&softc->lun_list, be_lun, ctl_be_ramdisk_lun, links); softc->num_luns--; do_free = 1; } mtx_unlock(&softc->lock); if (do_free != 0) free(be_lun, M_RAMDISK); } static void ctl_backend_ramdisk_lun_config_status(void *be_lun, ctl_lun_config_status status) { struct ctl_be_ramdisk_lun *lun; struct ctl_be_ramdisk_softc *softc; lun = (struct ctl_be_ramdisk_lun *)be_lun; softc = lun->softc; if (status == CTL_LUN_CONFIG_OK) { mtx_lock(&softc->lock); lun->flags &= ~CTL_BE_RAMDISK_LUN_UNCONFIGURED; if (lun->flags & CTL_BE_RAMDISK_LUN_WAITING) wakeup(lun); mtx_unlock(&softc->lock); /* * We successfully added the LUN, attempt to enable it. */ if (ctl_enable_lun(&lun->ctl_be_lun) != 0) { printf("%s: ctl_enable_lun() failed!\n", __func__); if (ctl_invalidate_lun(&lun->ctl_be_lun) != 0) { printf("%s: ctl_invalidate_lun() failed!\n", __func__); } } return; } mtx_lock(&softc->lock); lun->flags &= ~CTL_BE_RAMDISK_LUN_UNCONFIGURED; /* * If we have a user waiting, let him handle the cleanup. If not, * clean things up here. */ if (lun->flags & CTL_BE_RAMDISK_LUN_WAITING) { lun->flags |= CTL_BE_RAMDISK_LUN_CONFIG_ERR; wakeup(lun); } else { STAILQ_REMOVE(&softc->lun_list, lun, ctl_be_ramdisk_lun, links); softc->num_luns--; free(lun, M_RAMDISK); } mtx_unlock(&softc->lock); } static int ctl_backend_ramdisk_config_write(union ctl_io *io) { struct ctl_be_ramdisk_softc *softc; int retval; retval = 0; softc = &rd_softc; switch (io->scsiio.cdb[0]) { case SYNCHRONIZE_CACHE: case SYNCHRONIZE_CACHE_16: /* * The upper level CTL code will filter out any CDBs with * the immediate bit set and return the proper error. It * will also not allow a sync cache command to go to a LUN * that is powered down. * * We don't really need to worry about what LBA range the * user asked to be synced out. When they issue a sync * cache command, we'll sync out the whole thing. * * This is obviously just a stubbed out implementation. * The real implementation will be in the RAIDCore/CTL * interface, and can only really happen when RAIDCore * implements a per-array cache sync. */ ctl_set_success(&io->scsiio); ctl_config_write_done(io); break; case START_STOP_UNIT: { struct scsi_start_stop_unit *cdb; struct ctl_be_lun *ctl_be_lun; struct ctl_be_ramdisk_lun *be_lun; cdb = (struct scsi_start_stop_unit *)io->scsiio.cdb; ctl_be_lun = (struct ctl_be_lun *)io->io_hdr.ctl_private[ CTL_PRIV_BACKEND_LUN].ptr; be_lun = (struct ctl_be_ramdisk_lun *)ctl_be_lun->be_lun; if (cdb->how & SSS_START) retval = ctl_start_lun(ctl_be_lun); else { retval = ctl_stop_lun(ctl_be_lun); #ifdef NEEDTOPORT if ((retval == 0) && (cdb->byte2 & SSS_ONOFFLINE)) retval = ctl_lun_offline(ctl_be_lun); #endif } /* * In general, the above routines should not fail. They * just set state for the LUN. So we've got something * pretty wrong here if we can't start or stop the LUN. */ if (retval != 0) { ctl_set_internal_failure(&io->scsiio, /*sks_valid*/ 1, /*retry_count*/ 0xf051); retval = CTL_RETVAL_COMPLETE; } else { ctl_set_success(&io->scsiio); } ctl_config_write_done(io); break; } default: ctl_set_invalid_opcode(&io->scsiio); ctl_config_write_done(io); retval = CTL_RETVAL_COMPLETE; break; } return (retval); } static int ctl_backend_ramdisk_config_read(union ctl_io *io) { /* * XXX KDM need to implement!! */ return (0); }