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/*- * Copyright (c) 2003, 2004, 2005, 2008 Silicon Graphics International Corp. * All rights reserved. * * 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_private.h#7 $ * $FreeBSD: release/9.1.0/sys/cam/ctl/ctl_private.h 237824 2012-06-29 21:27:37Z ken $ */ /* * CAM Target Layer driver private data structures/definitions. * * Author: Ken Merry <ken@FreeBSD.org> */ #ifndef _CTL_PRIVATE_H_ #define _CTL_PRIVATE_H_ /* * SCSI vendor and product names. */ #define CTL_VENDOR "FREEBSD " #define CTL_DIRECT_PRODUCT "CTLDISK " #define CTL_PROCESSOR_PRODUCT "CTLPROCESSOR " #define CTL_UNKNOWN_PRODUCT "CTLDEVICE " struct ctl_fe_ioctl_startstop_info { struct cv sem; struct ctl_hard_startstop_info hs_info; }; struct ctl_fe_ioctl_bbrread_info { struct cv sem; struct ctl_bbrread_info *bbr_info; int wakeup_done; struct mtx *lock; }; typedef enum { CTL_IOCTL_INPROG, CTL_IOCTL_DATAMOVE, CTL_IOCTL_DONE } ctl_fe_ioctl_state; struct ctl_fe_ioctl_params { struct cv sem; struct mtx ioctl_mtx; ctl_fe_ioctl_state state; }; #define CTL_POOL_ENTRIES_INTERNAL 200 #define CTL_POOL_ENTRIES_EMERGENCY 300 #define CTL_POOL_ENTRIES_OTHER_SC 200 typedef enum { CTL_POOL_INTERNAL, CTL_POOL_FETD, CTL_POOL_EMERGENCY, CTL_POOL_IOCTL, CTL_POOL_4OTHERSC } ctl_pool_type; typedef enum { CTL_POOL_FLAG_NONE = 0x00, CTL_POOL_FLAG_INVALID = 0x01 } ctl_pool_flags; struct ctl_io_pool { ctl_pool_type type; ctl_pool_flags flags; uint32_t id; struct ctl_softc *ctl_softc; uint32_t refcount; uint64_t total_allocated; uint64_t total_freed; int32_t total_ctl_io; int32_t free_ctl_io; STAILQ_HEAD(, ctl_io_hdr) free_queue; STAILQ_ENTRY(ctl_io_pool) links; }; typedef enum { CTL_IOCTL_FLAG_NONE = 0x00, CTL_IOCTL_FLAG_ENABLED = 0x01 } ctl_ioctl_flags; struct ctl_ioctl_info { ctl_ioctl_flags flags; uint32_t cur_tag_num; struct ctl_frontend fe; char port_name[24]; }; typedef enum { CTL_SER_BLOCK, CTL_SER_EXTENT, CTL_SER_PASS, CTL_SER_SKIP } ctl_serialize_action; typedef enum { CTL_ACTION_BLOCK, CTL_ACTION_OVERLAP, CTL_ACTION_OVERLAP_TAG, CTL_ACTION_PASS, CTL_ACTION_SKIP, CTL_ACTION_ERROR } ctl_action; /* * WARNING: Keep the bottom nibble here free, we OR in the data direction * flags for each command. * * Note: "OK_ON_ALL_LUNS" == we don't have to have a lun configured * "OK_ON_BOTH" == we have to have a lun configured */ typedef enum { CTL_CMD_FLAG_NONE = 0x0000, CTL_CMD_FLAG_NO_SENSE = 0x0010, CTL_CMD_FLAG_OK_ON_ALL_LUNS = 0x0020, CTL_CMD_FLAG_ALLOW_ON_RESV = 0x0040, CTL_CMD_FLAG_OK_ON_PROC = 0x0100, CTL_CMD_FLAG_OK_ON_SLUN = 0x0200, CTL_CMD_FLAG_OK_ON_BOTH = 0x0300, CTL_CMD_FLAG_OK_ON_STOPPED = 0x0400, CTL_CMD_FLAG_OK_ON_INOPERABLE = 0x0800, CTL_CMD_FLAG_OK_ON_OFFLINE = 0x1000, CTL_CMD_FLAG_OK_ON_SECONDARY = 0x2000, CTL_CMD_FLAG_ALLOW_ON_PR_RESV = 0x4000 } ctl_cmd_flags; typedef enum { CTL_SERIDX_TUR = 0, CTL_SERIDX_READ, CTL_SERIDX_WRITE, CTL_SERIDX_MD_SNS, CTL_SERIDX_MD_SEL, CTL_SERIDX_RQ_SNS, CTL_SERIDX_INQ, CTL_SERIDX_RD_CAP, CTL_SERIDX_RESV, CTL_SERIDX_REL, CTL_SERIDX_LOG_SNS, CTL_SERIDX_FORMAT, CTL_SERIDX_START, CTL_SERIDX_PRES_IN, CTL_SERIDX_PRES_OUT, CTL_SERIDX_MAIN_IN, /* TBD: others to be filled in as needed */ CTL_SERIDX_COUNT, /* LAST, not a normal code, provides # codes */ CTL_SERIDX_INVLD = CTL_SERIDX_COUNT } ctl_seridx; typedef int ctl_opfunc(struct ctl_scsiio *ctsio); struct ctl_cmd_entry { ctl_opfunc *execute; ctl_seridx seridx; ctl_cmd_flags flags; ctl_lun_error_pattern pattern; }; typedef enum { CTL_LUN_NONE = 0x000, CTL_LUN_CONTROL = 0x001, CTL_LUN_RESERVED = 0x002, CTL_LUN_INVALID = 0x004, CTL_LUN_DISABLED = 0x008, CTL_LUN_MALLOCED = 0x010, CTL_LUN_STOPPED = 0x020, CTL_LUN_INOPERABLE = 0x040, CTL_LUN_OFFLINE = 0x080, CTL_LUN_PR_RESERVED = 0x100, CTL_LUN_PRIMARY_SC = 0x200, CTL_LUN_SENSE_DESC = 0x400 } ctl_lun_flags; typedef enum { CTLBLOCK_FLAG_NONE = 0x00, CTLBLOCK_FLAG_INVALID = 0x01 } ctlblock_flags; union ctl_softcs { struct ctl_softc *ctl_softc; struct ctlblock_softc *ctlblock_softc; }; /* * Mode page defaults. */ #if 0 /* * These values make Solaris trim off some of the capacity. */ #define CTL_DEFAULT_SECTORS_PER_TRACK 63 #define CTL_DEFAULT_HEADS 255 /* * These values seem to work okay. */ #define CTL_DEFAULT_SECTORS_PER_TRACK 63 #define CTL_DEFAULT_HEADS 16 /* * These values work reasonably well. */ #define CTL_DEFAULT_SECTORS_PER_TRACK 512 #define CTL_DEFAULT_HEADS 64 #endif /* * Solaris is somewhat picky about how many heads and sectors per track you * have defined in mode pages 3 and 4. These values seem to cause Solaris * to get the capacity more or less right when you run the format tool. * They still have problems when dealing with devices larger than 1TB, * but there isn't anything we can do about that. * * For smaller LUN sizes, this ends up causing the number of cylinders to * work out to 0. Solaris actually recognizes that and comes up with its * own bogus geometry to fit the actual capacity of the drive. They really * should just give up on geometry and stick to the read capacity * information alone for modern disk drives. * * One thing worth mentioning about Solaris' mkfs command is that it * doesn't like sectors per track values larger than 256. 512 seems to * work okay for format, but causes problems when you try to make a * filesystem. * * Another caveat about these values: the product of these two values * really should be a power of 2. This is because of the simplistic * shift-based calculation that we have to use on the i386 platform to * calculate the number of cylinders here. (If you use a divide, you end * up calling __udivdi3(), which is a hardware FP call on the PC. On the * XScale, it is done in software, so you can do that from inside the * kernel.) * * So for the current values (256 S/T, 128 H), we get 32768, which works * very nicely for calculating cylinders. * * If you want to change these values so that their product is no longer a * power of 2, re-visit the calculation in ctl_init_page_index(). You may * need to make it a bit more complicated to get the number of cylinders * right. */ #define CTL_DEFAULT_SECTORS_PER_TRACK 256 #define CTL_DEFAULT_HEADS 128 #define CTL_DEFAULT_ROTATION_RATE 10000 struct ctl_page_index; typedef int ctl_modesen_handler(struct ctl_scsiio *ctsio, struct ctl_page_index *page_index, int pc); typedef int ctl_modesel_handler(struct ctl_scsiio *ctsio, struct ctl_page_index *page_index, uint8_t *page_ptr); typedef enum { CTL_PAGE_FLAG_NONE = 0x00, CTL_PAGE_FLAG_DISK_ONLY = 0x01 } ctl_page_flags; struct ctl_page_index { uint8_t page_code; uint8_t subpage; uint16_t page_len; uint8_t *page_data; ctl_page_flags page_flags; ctl_modesen_handler *sense_handler; ctl_modesel_handler *select_handler; }; #define CTL_PAGE_CURRENT 0x00 #define CTL_PAGE_CHANGEABLE 0x01 #define CTL_PAGE_DEFAULT 0x02 #define CTL_PAGE_SAVED 0x03 static const struct ctl_page_index page_index_template[] = { {SMS_FORMAT_DEVICE_PAGE, 0, sizeof(struct scsi_format_page), NULL, CTL_PAGE_FLAG_DISK_ONLY, NULL, NULL}, {SMS_RIGID_DISK_PAGE, 0, sizeof(struct scsi_rigid_disk_page), NULL, CTL_PAGE_FLAG_DISK_ONLY, NULL, NULL}, {SMS_CACHING_PAGE, 0, sizeof(struct scsi_caching_page), NULL, CTL_PAGE_FLAG_DISK_ONLY, NULL, NULL}, {SMS_CONTROL_MODE_PAGE, 0, sizeof(struct scsi_control_page), NULL, CTL_PAGE_FLAG_NONE, NULL, ctl_control_page_handler}, {SMS_VENDOR_SPECIFIC_PAGE | SMPH_SPF, PWR_SUBPAGE_CODE, sizeof(struct copan_power_subpage), NULL, CTL_PAGE_FLAG_NONE, ctl_power_sp_sense_handler, ctl_power_sp_handler}, {SMS_VENDOR_SPECIFIC_PAGE | SMPH_SPF, APS_SUBPAGE_CODE, sizeof(struct copan_aps_subpage), NULL, CTL_PAGE_FLAG_NONE, NULL, ctl_aps_sp_handler}, {SMS_VENDOR_SPECIFIC_PAGE | SMPH_SPF, DBGCNF_SUBPAGE_CODE, sizeof(struct copan_debugconf_subpage), NULL, CTL_PAGE_FLAG_NONE, ctl_debugconf_sp_sense_handler, ctl_debugconf_sp_select_handler}, }; #define CTL_NUM_MODE_PAGES sizeof(page_index_template)/ \ sizeof(page_index_template[0]) struct ctl_mode_pages { struct scsi_format_page format_page[4]; struct scsi_rigid_disk_page rigid_disk_page[4]; struct scsi_caching_page caching_page[4]; struct scsi_control_page control_page[4]; struct copan_power_subpage power_subpage[4]; struct copan_aps_subpage aps_subpage[4]; struct copan_debugconf_subpage debugconf_subpage[4]; struct ctl_page_index index[CTL_NUM_MODE_PAGES]; }; struct ctl_pending_sense { ctl_ua_type ua_pending; struct scsi_sense_data sense; }; struct ctl_lun_delay_info { ctl_delay_type datamove_type; uint32_t datamove_delay; ctl_delay_type done_type; uint32_t done_delay; }; typedef enum { CTL_ERR_INJ_NONE = 0x00, CTL_ERR_INJ_ABORTED = 0x01 } ctl_err_inject_flags; typedef enum { CTL_PR_FLAG_NONE = 0x00, CTL_PR_FLAG_REGISTERED = 0x01, CTL_PR_FLAG_ACTIVE_RES = 0x02 } ctl_per_res_flags; struct ctl_per_res_info { struct scsi_per_res_key res_key; uint8_t registered; }; #define CTL_PR_ALL_REGISTRANTS 0xFFFF #define CTL_PR_NO_RESERVATION 0xFFF0 /* * For report target port groups. */ #define NUM_TARGET_PORT_GROUPS 2 #define NUM_PORTS_PER_GRP 2 struct ctl_lun { struct mtx lun_lock; struct ctl_id target; uint64_t lun; ctl_lun_flags flags; STAILQ_HEAD(,ctl_error_desc) error_list; uint64_t error_serial; struct ctl_softc *ctl_softc; struct ctl_be_lun *be_lun; struct ctl_backend_driver *backend; int io_count; struct ctl_lun_delay_info delay_info; int sync_interval; int sync_count; TAILQ_HEAD(ctl_ooaq, ctl_io_hdr) ooa_queue; TAILQ_HEAD(ctl_blockq,ctl_io_hdr) blocked_queue; STAILQ_ENTRY(ctl_lun) links; STAILQ_ENTRY(ctl_lun) run_links; struct ctl_nexus rsv_nexus; uint32_t have_ca[CTL_MAX_INITIATORS >> 5]; struct ctl_pending_sense pending_sense[CTL_MAX_INITIATORS]; struct ctl_mode_pages mode_pages; struct ctl_lun_io_stats stats; struct ctl_per_res_info per_res[2*CTL_MAX_INITIATORS]; unsigned int PRGeneration; int pr_key_count; uint16_t pr_res_idx; uint8_t res_type; uint8_t write_buffer[524288]; }; typedef enum { CTL_FLAG_TASK_PENDING = 0x01, CTL_FLAG_REAL_SYNC = 0x02, CTL_FLAG_MASTER_SHELF = 0x04 } ctl_gen_flags; struct ctl_wwpn_iid { int in_use; uint64_t wwpn; uint32_t iid; int32_t port; }; struct ctl_softc { struct mtx ctl_lock; struct cdev *dev; int open_count; struct ctl_id target; int num_disks; int num_luns; ctl_gen_flags flags; ctl_ha_mode ha_mode; int inquiry_pq_no_lun; struct sysctl_ctx_list sysctl_ctx; struct sysctl_oid *sysctl_tree; struct ctl_ioctl_info ioctl_info; struct ctl_lun lun; struct ctl_io_pool *internal_pool; struct ctl_io_pool *emergency_pool; struct ctl_io_pool *othersc_pool; struct proc *work_thread; int targ_online; uint32_t ctl_lun_mask[CTL_MAX_LUNS >> 5]; struct ctl_lun *ctl_luns[CTL_MAX_LUNS]; struct ctl_wwpn_iid wwpn_iid[CTL_MAX_PORTS][CTL_MAX_INIT_PER_PORT]; uint32_t ctl_port_mask; uint64_t aps_locked_lun; STAILQ_HEAD(, ctl_lun) lun_list; STAILQ_HEAD(, ctl_be_lun) pending_lun_queue; STAILQ_HEAD(, ctl_io_hdr) task_queue; STAILQ_HEAD(, ctl_io_hdr) incoming_queue; STAILQ_HEAD(, ctl_io_hdr) rtr_queue; STAILQ_HEAD(, ctl_io_hdr) done_queue; STAILQ_HEAD(, ctl_io_hdr) isc_queue; uint32_t num_frontends; STAILQ_HEAD(, ctl_frontend) fe_list; struct ctl_frontend *ctl_ports[CTL_MAX_PORTS]; uint32_t num_backends; STAILQ_HEAD(, ctl_backend_driver) be_list; uint32_t num_pools; uint32_t cur_pool_id; STAILQ_HEAD(, ctl_io_pool) io_pools; time_t last_print_jiffies; uint32_t skipped_prints; }; #ifdef _KERNEL extern struct ctl_cmd_entry ctl_cmd_table[]; uint32_t ctl_get_initindex(struct ctl_nexus *nexus); int ctl_pool_create(struct ctl_softc *ctl_softc, ctl_pool_type pool_type, uint32_t total_ctl_io, struct ctl_io_pool **npool); int ctl_pool_acquire(struct ctl_io_pool *pool); int ctl_pool_invalidate(struct ctl_io_pool *pool); int ctl_pool_release(struct ctl_io_pool *pool); void ctl_pool_free(struct ctl_softc *ctl_softc, struct ctl_io_pool *pool); int ctl_scsi_release(struct ctl_scsiio *ctsio); int ctl_scsi_reserve(struct ctl_scsiio *ctsio); int ctl_start_stop(struct ctl_scsiio *ctsio); int ctl_sync_cache(struct ctl_scsiio *ctsio); int ctl_format(struct ctl_scsiio *ctsio); int ctl_write_buffer(struct ctl_scsiio *ctsio); int ctl_mode_select(struct ctl_scsiio *ctsio); int ctl_mode_sense(struct ctl_scsiio *ctsio); int ctl_read_capacity(struct ctl_scsiio *ctsio); int ctl_service_action_in(struct ctl_scsiio *ctsio); int ctl_read_write(struct ctl_scsiio *ctsio); int ctl_report_luns(struct ctl_scsiio *ctsio); int ctl_request_sense(struct ctl_scsiio *ctsio); int ctl_tur(struct ctl_scsiio *ctsio); int ctl_inquiry(struct ctl_scsiio *ctsio); int ctl_persistent_reserve_in(struct ctl_scsiio *ctsio); int ctl_persistent_reserve_out(struct ctl_scsiio *ctsio); int ctl_maintenance_in(struct ctl_scsiio *ctsio); void ctl_done_lock(union ctl_io *io, int have_lock); int ctl_isc(struct ctl_scsiio *ctsio); #endif /* _KERNEL */ #endif /* _CTL_PRIVATE_H_ */ /* * vim: ts=8 */