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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/cam/cam_ccb.h |
/*- * Data structures and definitions for CAM Control Blocks (CCBs). * * Copyright (c) 1997, 1998 Justin T. Gibbs. * 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, immediately at the beginning of the file. * 2. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, 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 DAMAGE. * * $FreeBSD: release/9.1.0/sys/cam/cam_ccb.h 236786 2012-06-09 07:43:11Z mav $ */ #ifndef _CAM_CAM_CCB_H #define _CAM_CAM_CCB_H 1 #include <sys/queue.h> #include <sys/cdefs.h> #include <sys/time.h> #include <sys/limits.h> #ifndef _KERNEL #include <sys/callout.h> #endif #include <cam/cam_debug.h> #include <cam/scsi/scsi_all.h> #include <cam/ata/ata_all.h> /* General allocation length definitions for CCB structures */ #define IOCDBLEN CAM_MAX_CDBLEN /* Space for CDB bytes/pointer */ #define VUHBALEN 14 /* Vendor Unique HBA length */ #define SIM_IDLEN 16 /* ASCII string len for SIM ID */ #define HBA_IDLEN 16 /* ASCII string len for HBA ID */ #define DEV_IDLEN 16 /* ASCII string len for device names */ #define CCB_PERIPH_PRIV_SIZE 2 /* size of peripheral private area */ #define CCB_SIM_PRIV_SIZE 2 /* size of sim private area */ /* Struct definitions for CAM control blocks */ /* Common CCB header */ /* CAM CCB flags */ typedef enum { CAM_CDB_POINTER = 0x00000001,/* The CDB field is a pointer */ CAM_QUEUE_ENABLE = 0x00000002,/* SIM queue actions are enabled */ CAM_CDB_LINKED = 0x00000004,/* CCB contains a linked CDB */ CAM_NEGOTIATE = 0x00000008,/* * Perform transport negotiation * with this command. */ CAM_SCATTER_VALID = 0x00000010,/* Scatter/gather list is valid */ CAM_DIS_AUTOSENSE = 0x00000020,/* Disable autosense feature */ CAM_DIR_BOTH = 0x00000000,/* Data direction (00:IN/OUT) */ CAM_DIR_IN = 0x00000040,/* Data direction (01:DATA IN) */ CAM_DIR_OUT = 0x00000080,/* Data direction (10:DATA OUT) */ CAM_DIR_NONE = 0x000000C0,/* Data direction (11:no data) */ CAM_DIR_MASK = 0x000000C0,/* Data direction Mask */ CAM_SOFT_RST_OP = 0x00000100,/* Use Soft reset alternative */ CAM_ENG_SYNC = 0x00000200,/* Flush resid bytes on complete */ CAM_DEV_QFRZDIS = 0x00000400,/* Disable DEV Q freezing */ CAM_DEV_QFREEZE = 0x00000800,/* Freeze DEV Q on execution */ CAM_HIGH_POWER = 0x00001000,/* Command takes a lot of power */ CAM_SENSE_PTR = 0x00002000,/* Sense data is a pointer */ CAM_SENSE_PHYS = 0x00004000,/* Sense pointer is physical addr*/ CAM_TAG_ACTION_VALID = 0x00008000,/* Use the tag action in this ccb*/ CAM_PASS_ERR_RECOVER = 0x00010000,/* Pass driver does err. recovery*/ CAM_DIS_DISCONNECT = 0x00020000,/* Disable disconnect */ CAM_SG_LIST_PHYS = 0x00040000,/* SG list has physical addrs. */ CAM_MSG_BUF_PHYS = 0x00080000,/* Message buffer ptr is physical*/ CAM_SNS_BUF_PHYS = 0x00100000,/* Autosense data ptr is physical*/ CAM_DATA_PHYS = 0x00200000,/* SG/Buffer data ptrs are phys. */ CAM_CDB_PHYS = 0x00400000,/* CDB poiner is physical */ CAM_ENG_SGLIST = 0x00800000,/* SG list is for the HBA engine */ /* Phase cognizant mode flags */ CAM_DIS_AUTOSRP = 0x01000000,/* Disable autosave/restore ptrs */ CAM_DIS_AUTODISC = 0x02000000,/* Disable auto disconnect */ CAM_TGT_CCB_AVAIL = 0x04000000,/* Target CCB available */ CAM_TGT_PHASE_MODE = 0x08000000,/* The SIM runs in phase mode */ CAM_MSGB_VALID = 0x10000000,/* Message buffer valid */ CAM_STATUS_VALID = 0x20000000,/* Status buffer valid */ CAM_DATAB_VALID = 0x40000000,/* Data buffer valid */ /* Host target Mode flags */ CAM_SEND_SENSE = 0x08000000,/* Send sense data with status */ CAM_TERM_IO = 0x10000000,/* Terminate I/O Message sup. */ CAM_DISCONNECT = 0x20000000,/* Disconnects are mandatory */ CAM_SEND_STATUS = 0x40000000 /* Send status after data phase */ } ccb_flags; /* XPT Opcodes for xpt_action */ typedef enum { /* Function code flags are bits greater than 0xff */ XPT_FC_QUEUED = 0x100, /* Non-immediate function code */ XPT_FC_USER_CCB = 0x200, XPT_FC_XPT_ONLY = 0x400, /* Only for the transport layer device */ XPT_FC_DEV_QUEUED = 0x800 | XPT_FC_QUEUED, /* Passes through the device queues */ /* Common function commands: 0x00->0x0F */ XPT_NOOP = 0x00, /* Execute Nothing */ XPT_SCSI_IO = 0x01 | XPT_FC_DEV_QUEUED, /* Execute the requested I/O operation */ XPT_GDEV_TYPE = 0x02, /* Get type information for specified device */ XPT_GDEVLIST = 0x03, /* Get a list of peripheral devices */ XPT_PATH_INQ = 0x04, /* Path routing inquiry */ XPT_REL_SIMQ = 0x05, /* Release a frozen device queue */ XPT_SASYNC_CB = 0x06, /* Set Asynchronous Callback Parameters */ XPT_SDEV_TYPE = 0x07, /* Set device type information */ XPT_SCAN_BUS = 0x08 | XPT_FC_QUEUED | XPT_FC_USER_CCB | XPT_FC_XPT_ONLY, /* (Re)Scan the SCSI Bus */ XPT_DEV_MATCH = 0x09 | XPT_FC_XPT_ONLY, /* Get EDT entries matching the given pattern */ XPT_DEBUG = 0x0a, /* Turn on debugging for a bus, target or lun */ XPT_PATH_STATS = 0x0b, /* Path statistics (error counts, etc.) */ XPT_GDEV_STATS = 0x0c, /* Device statistics (error counts, etc.) */ XPT_FREEZE_QUEUE = 0x0d, /* Freeze device queue */ XPT_DEV_ADVINFO = 0x0e, /* Get/Set Device advanced information */ /* SCSI Control Functions: 0x10->0x1F */ XPT_ABORT = 0x10, /* Abort the specified CCB */ XPT_RESET_BUS = 0x11 | XPT_FC_XPT_ONLY, /* Reset the specified SCSI bus */ XPT_RESET_DEV = 0x12 | XPT_FC_DEV_QUEUED, /* Bus Device Reset the specified SCSI device */ XPT_TERM_IO = 0x13, /* Terminate the I/O process */ XPT_SCAN_LUN = 0x14 | XPT_FC_QUEUED | XPT_FC_USER_CCB | XPT_FC_XPT_ONLY, /* Scan Logical Unit */ XPT_GET_TRAN_SETTINGS = 0x15, /* * Get default/user transfer settings * for the target */ XPT_SET_TRAN_SETTINGS = 0x16, /* * Set transfer rate/width * negotiation settings */ XPT_CALC_GEOMETRY = 0x17, /* * Calculate the geometry parameters for * a device give the sector size and * volume size. */ XPT_ATA_IO = 0x18 | XPT_FC_DEV_QUEUED, /* Execute the requested ATA I/O operation */ XPT_GET_SIM_KNOB = 0x18, /* * Get SIM specific knob values. */ XPT_SET_SIM_KNOB = 0x19, /* * Set SIM specific knob values. */ XPT_SMP_IO = 0x1b | XPT_FC_DEV_QUEUED, /* Serial Management Protocol */ XPT_SCAN_TGT = 0x1E | XPT_FC_QUEUED | XPT_FC_USER_CCB | XPT_FC_XPT_ONLY, /* Scan Target */ /* HBA engine commands 0x20->0x2F */ XPT_ENG_INQ = 0x20 | XPT_FC_XPT_ONLY, /* HBA engine feature inquiry */ XPT_ENG_EXEC = 0x21 | XPT_FC_DEV_QUEUED, /* HBA execute engine request */ /* Target mode commands: 0x30->0x3F */ XPT_EN_LUN = 0x30, /* Enable LUN as a target */ XPT_TARGET_IO = 0x31 | XPT_FC_DEV_QUEUED, /* Execute target I/O request */ XPT_ACCEPT_TARGET_IO = 0x32 | XPT_FC_QUEUED | XPT_FC_USER_CCB, /* Accept Host Target Mode CDB */ XPT_CONT_TARGET_IO = 0x33 | XPT_FC_DEV_QUEUED, /* Continue Host Target I/O Connection */ XPT_IMMED_NOTIFY = 0x34 | XPT_FC_QUEUED | XPT_FC_USER_CCB, /* Notify Host Target driver of event (obsolete) */ XPT_NOTIFY_ACK = 0x35, /* Acknowledgement of event (obsolete) */ XPT_IMMEDIATE_NOTIFY = 0x36 | XPT_FC_QUEUED | XPT_FC_USER_CCB, /* Notify Host Target driver of event */ XPT_NOTIFY_ACKNOWLEDGE = 0x37 | XPT_FC_QUEUED | XPT_FC_USER_CCB, /* Acknowledgement of event */ /* Vendor Unique codes: 0x80->0x8F */ XPT_VUNIQUE = 0x80 } xpt_opcode; #define XPT_FC_GROUP_MASK 0xF0 #define XPT_FC_GROUP(op) ((op) & XPT_FC_GROUP_MASK) #define XPT_FC_GROUP_COMMON 0x00 #define XPT_FC_GROUP_SCSI_CONTROL 0x10 #define XPT_FC_GROUP_HBA_ENGINE 0x20 #define XPT_FC_GROUP_TMODE 0x30 #define XPT_FC_GROUP_VENDOR_UNIQUE 0x80 #define XPT_FC_IS_DEV_QUEUED(ccb) \ (((ccb)->ccb_h.func_code & XPT_FC_DEV_QUEUED) == XPT_FC_DEV_QUEUED) #define XPT_FC_IS_QUEUED(ccb) \ (((ccb)->ccb_h.func_code & XPT_FC_QUEUED) != 0) typedef enum { PROTO_UNKNOWN, PROTO_UNSPECIFIED, PROTO_SCSI, /* Small Computer System Interface */ PROTO_ATA, /* AT Attachment */ PROTO_ATAPI, /* AT Attachment Packetized Interface */ PROTO_SATAPM, /* SATA Port Multiplier */ PROTO_SEMB, /* SATA Enclosure Management Bridge */ } cam_proto; typedef enum { XPORT_UNKNOWN, XPORT_UNSPECIFIED, XPORT_SPI, /* SCSI Parallel Interface */ XPORT_FC, /* Fiber Channel */ XPORT_SSA, /* Serial Storage Architecture */ XPORT_USB, /* Universal Serial Bus */ XPORT_PPB, /* Parallel Port Bus */ XPORT_ATA, /* AT Attachment */ XPORT_SAS, /* Serial Attached SCSI */ XPORT_SATA, /* Serial AT Attachment */ XPORT_ISCSI, /* iSCSI */ } cam_xport; #define XPORT_IS_ATA(t) ((t) == XPORT_ATA || (t) == XPORT_SATA) #define XPORT_IS_SCSI(t) ((t) != XPORT_UNKNOWN && \ (t) != XPORT_UNSPECIFIED && \ !XPORT_IS_ATA(t)) #define XPORT_DEVSTAT_TYPE(t) (XPORT_IS_ATA(t) ? DEVSTAT_TYPE_IF_IDE : \ XPORT_IS_SCSI(t) ? DEVSTAT_TYPE_IF_SCSI : \ DEVSTAT_TYPE_IF_OTHER) #define PROTO_VERSION_UNKNOWN (UINT_MAX - 1) #define PROTO_VERSION_UNSPECIFIED UINT_MAX #define XPORT_VERSION_UNKNOWN (UINT_MAX - 1) #define XPORT_VERSION_UNSPECIFIED UINT_MAX typedef union { LIST_ENTRY(ccb_hdr) le; SLIST_ENTRY(ccb_hdr) sle; TAILQ_ENTRY(ccb_hdr) tqe; STAILQ_ENTRY(ccb_hdr) stqe; } camq_entry; typedef union { void *ptr; u_long field; u_int8_t bytes[sizeof(uintptr_t)]; } ccb_priv_entry; typedef union { ccb_priv_entry entries[CCB_PERIPH_PRIV_SIZE]; u_int8_t bytes[CCB_PERIPH_PRIV_SIZE * sizeof(ccb_priv_entry)]; } ccb_ppriv_area; typedef union { ccb_priv_entry entries[CCB_SIM_PRIV_SIZE]; u_int8_t bytes[CCB_SIM_PRIV_SIZE * sizeof(ccb_priv_entry)]; } ccb_spriv_area; struct ccb_hdr { cam_pinfo pinfo; /* Info for priority scheduling */ camq_entry xpt_links; /* For chaining in the XPT layer */ camq_entry sim_links; /* For chaining in the SIM layer */ camq_entry periph_links; /* For chaining in the type driver */ u_int32_t retry_count; void (*cbfcnp)(struct cam_periph *, union ccb *); /* Callback on completion function */ xpt_opcode func_code; /* XPT function code */ u_int32_t status; /* Status returned by CAM subsystem */ struct cam_path *path; /* Compiled path for this ccb */ path_id_t path_id; /* Path ID for the request */ target_id_t target_id; /* Target device ID */ lun_id_t target_lun; /* Target LUN number */ u_int32_t flags; /* ccb_flags */ ccb_ppriv_area periph_priv; ccb_spriv_area sim_priv; u_int32_t timeout; /* Timeout value */ /* * Deprecated, only for use by non-MPSAFE SIMs. All others must * allocate and initialize their own callout storage. */ struct callout_handle timeout_ch; }; /* Get Device Information CCB */ struct ccb_getdev { struct ccb_hdr ccb_h; cam_proto protocol; struct scsi_inquiry_data inq_data; struct ata_params ident_data; u_int8_t serial_num[252]; u_int8_t inq_flags; u_int8_t serial_num_len; }; /* Device Statistics CCB */ struct ccb_getdevstats { struct ccb_hdr ccb_h; int dev_openings; /* Space left for more work on device*/ int dev_active; /* Transactions running on the device */ int devq_openings; /* Space left for more queued work */ int devq_queued; /* Transactions queued to be sent */ int held; /* * CCBs held by peripheral drivers * for this device */ int maxtags; /* * Boundary conditions for number of * tagged operations */ int mintags; struct timeval last_reset; /* Time of last bus reset/loop init */ }; typedef enum { CAM_GDEVLIST_LAST_DEVICE, CAM_GDEVLIST_LIST_CHANGED, CAM_GDEVLIST_MORE_DEVS, CAM_GDEVLIST_ERROR } ccb_getdevlist_status_e; struct ccb_getdevlist { struct ccb_hdr ccb_h; char periph_name[DEV_IDLEN]; u_int32_t unit_number; unsigned int generation; u_int32_t index; ccb_getdevlist_status_e status; }; typedef enum { PERIPH_MATCH_NONE = 0x000, PERIPH_MATCH_PATH = 0x001, PERIPH_MATCH_TARGET = 0x002, PERIPH_MATCH_LUN = 0x004, PERIPH_MATCH_NAME = 0x008, PERIPH_MATCH_UNIT = 0x010, PERIPH_MATCH_ANY = 0x01f } periph_pattern_flags; struct periph_match_pattern { char periph_name[DEV_IDLEN]; u_int32_t unit_number; path_id_t path_id; target_id_t target_id; lun_id_t target_lun; periph_pattern_flags flags; }; typedef enum { DEV_MATCH_NONE = 0x000, DEV_MATCH_PATH = 0x001, DEV_MATCH_TARGET = 0x002, DEV_MATCH_LUN = 0x004, DEV_MATCH_INQUIRY = 0x008, DEV_MATCH_DEVID = 0x010, DEV_MATCH_ANY = 0x00f } dev_pattern_flags; struct device_id_match_pattern { uint8_t id_len; uint8_t id[256]; }; struct device_match_pattern { path_id_t path_id; target_id_t target_id; lun_id_t target_lun; dev_pattern_flags flags; union { struct scsi_static_inquiry_pattern inq_pat; struct device_id_match_pattern devid_pat; } data; }; typedef enum { BUS_MATCH_NONE = 0x000, BUS_MATCH_PATH = 0x001, BUS_MATCH_NAME = 0x002, BUS_MATCH_UNIT = 0x004, BUS_MATCH_BUS_ID = 0x008, BUS_MATCH_ANY = 0x00f } bus_pattern_flags; struct bus_match_pattern { path_id_t path_id; char dev_name[DEV_IDLEN]; u_int32_t unit_number; u_int32_t bus_id; bus_pattern_flags flags; }; union match_pattern { struct periph_match_pattern periph_pattern; struct device_match_pattern device_pattern; struct bus_match_pattern bus_pattern; }; typedef enum { DEV_MATCH_PERIPH, DEV_MATCH_DEVICE, DEV_MATCH_BUS } dev_match_type; struct dev_match_pattern { dev_match_type type; union match_pattern pattern; }; struct periph_match_result { char periph_name[DEV_IDLEN]; u_int32_t unit_number; path_id_t path_id; target_id_t target_id; lun_id_t target_lun; }; typedef enum { DEV_RESULT_NOFLAG = 0x00, DEV_RESULT_UNCONFIGURED = 0x01 } dev_result_flags; struct device_match_result { path_id_t path_id; target_id_t target_id; lun_id_t target_lun; cam_proto protocol; struct scsi_inquiry_data inq_data; struct ata_params ident_data; dev_result_flags flags; }; struct bus_match_result { path_id_t path_id; char dev_name[DEV_IDLEN]; u_int32_t unit_number; u_int32_t bus_id; }; union match_result { struct periph_match_result periph_result; struct device_match_result device_result; struct bus_match_result bus_result; }; struct dev_match_result { dev_match_type type; union match_result result; }; typedef enum { CAM_DEV_MATCH_LAST, CAM_DEV_MATCH_MORE, CAM_DEV_MATCH_LIST_CHANGED, CAM_DEV_MATCH_SIZE_ERROR, CAM_DEV_MATCH_ERROR } ccb_dev_match_status; typedef enum { CAM_DEV_POS_NONE = 0x000, CAM_DEV_POS_BUS = 0x001, CAM_DEV_POS_TARGET = 0x002, CAM_DEV_POS_DEVICE = 0x004, CAM_DEV_POS_PERIPH = 0x008, CAM_DEV_POS_PDPTR = 0x010, CAM_DEV_POS_TYPEMASK = 0xf00, CAM_DEV_POS_EDT = 0x100, CAM_DEV_POS_PDRV = 0x200 } dev_pos_type; struct ccb_dm_cookie { void *bus; void *target; void *device; void *periph; void *pdrv; }; struct ccb_dev_position { u_int generations[4]; #define CAM_BUS_GENERATION 0x00 #define CAM_TARGET_GENERATION 0x01 #define CAM_DEV_GENERATION 0x02 #define CAM_PERIPH_GENERATION 0x03 dev_pos_type position_type; struct ccb_dm_cookie cookie; }; struct ccb_dev_match { struct ccb_hdr ccb_h; ccb_dev_match_status status; u_int32_t num_patterns; u_int32_t pattern_buf_len; struct dev_match_pattern *patterns; u_int32_t num_matches; u_int32_t match_buf_len; struct dev_match_result *matches; struct ccb_dev_position pos; }; /* * Definitions for the path inquiry CCB fields. */ #define CAM_VERSION 0x16 /* Hex value for current version */ typedef enum { PI_MDP_ABLE = 0x80, /* Supports MDP message */ PI_WIDE_32 = 0x40, /* Supports 32 bit wide SCSI */ PI_WIDE_16 = 0x20, /* Supports 16 bit wide SCSI */ PI_SDTR_ABLE = 0x10, /* Supports SDTR message */ PI_LINKED_CDB = 0x08, /* Supports linked CDBs */ PI_SATAPM = 0x04, /* Supports SATA PM */ PI_TAG_ABLE = 0x02, /* Supports tag queue messages */ PI_SOFT_RST = 0x01 /* Supports soft reset alternative */ } pi_inqflag; typedef enum { PIT_PROCESSOR = 0x80, /* Target mode processor mode */ PIT_PHASE = 0x40, /* Target mode phase cog. mode */ PIT_DISCONNECT = 0x20, /* Disconnects supported in target mode */ PIT_TERM_IO = 0x10, /* Terminate I/O message supported in TM */ PIT_GRP_6 = 0x08, /* Group 6 commands supported */ PIT_GRP_7 = 0x04 /* Group 7 commands supported */ } pi_tmflag; typedef enum { PIM_SCANHILO = 0x80, /* Bus scans from high ID to low ID */ PIM_NOREMOVE = 0x40, /* Removeable devices not included in scan */ PIM_NOINITIATOR = 0x20, /* Initiator role not supported. */ PIM_NOBUSRESET = 0x10, /* User has disabled initial BUS RESET */ PIM_NO_6_BYTE = 0x08, /* Do not send 6-byte commands */ PIM_SEQSCAN = 0x04 /* Do bus scans sequentially, not in parallel */ } pi_miscflag; /* Path Inquiry CCB */ struct ccb_pathinq_settings_spi { u_int8_t ppr_options; }; struct ccb_pathinq_settings_fc { u_int64_t wwnn; /* world wide node name */ u_int64_t wwpn; /* world wide port name */ u_int32_t port; /* 24 bit port id, if known */ u_int32_t bitrate; /* Mbps */ }; struct ccb_pathinq_settings_sas { u_int32_t bitrate; /* Mbps */ }; #define PATHINQ_SETTINGS_SIZE 128 struct ccb_pathinq { struct ccb_hdr ccb_h; u_int8_t version_num; /* Version number for the SIM/HBA */ u_int8_t hba_inquiry; /* Mimic of INQ byte 7 for the HBA */ u_int8_t target_sprt; /* Flags for target mode support */ u_int8_t hba_misc; /* Misc HBA features */ u_int16_t hba_eng_cnt; /* HBA engine count */ /* Vendor Unique capabilities */ u_int8_t vuhba_flags[VUHBALEN]; u_int32_t max_target; /* Maximum supported Target */ u_int32_t max_lun; /* Maximum supported Lun */ u_int32_t async_flags; /* Installed Async handlers */ path_id_t hpath_id; /* Highest Path ID in the subsystem */ target_id_t initiator_id; /* ID of the HBA on the SCSI bus */ char sim_vid[SIM_IDLEN]; /* Vendor ID of the SIM */ char hba_vid[HBA_IDLEN]; /* Vendor ID of the HBA */ char dev_name[DEV_IDLEN];/* Device name for SIM */ u_int32_t unit_number; /* Unit number for SIM */ u_int32_t bus_id; /* Bus ID for SIM */ u_int32_t base_transfer_speed;/* Base bus speed in KB/sec */ cam_proto protocol; u_int protocol_version; cam_xport transport; u_int transport_version; union { struct ccb_pathinq_settings_spi spi; struct ccb_pathinq_settings_fc fc; struct ccb_pathinq_settings_sas sas; char ccb_pathinq_settings_opaque[PATHINQ_SETTINGS_SIZE]; } xport_specific; u_int maxio; /* Max supported I/O size, in bytes. */ u_int16_t hba_vendor; /* HBA vendor ID */ u_int16_t hba_device; /* HBA device ID */ u_int16_t hba_subvendor; /* HBA subvendor ID */ u_int16_t hba_subdevice; /* HBA subdevice ID */ }; /* Path Statistics CCB */ struct ccb_pathstats { struct ccb_hdr ccb_h; struct timeval last_reset; /* Time of last bus reset/loop init */ }; typedef enum { SMP_FLAG_NONE = 0x00, SMP_FLAG_REQ_SG = 0x01, SMP_FLAG_RSP_SG = 0x02 } ccb_smp_pass_flags; /* * Serial Management Protocol CCB * XXX Currently the semantics for this CCB are that it is executed either * by the addressed device, or that device's parent (i.e. an expander for * any device on an expander) if the addressed device doesn't support SMP. * Later, once we have the ability to probe SMP-only devices and put them * in CAM's topology, the CCB will only be executed by the addressed device * if possible. */ struct ccb_smpio { struct ccb_hdr ccb_h; uint8_t *smp_request; int smp_request_len; uint16_t smp_request_sglist_cnt; uint8_t *smp_response; int smp_response_len; uint16_t smp_response_sglist_cnt; ccb_smp_pass_flags flags; }; typedef union { u_int8_t *sense_ptr; /* * Pointer to storage * for sense information */ /* Storage Area for sense information */ struct scsi_sense_data sense_buf; } sense_t; typedef union { u_int8_t *cdb_ptr; /* Pointer to the CDB bytes to send */ /* Area for the CDB send */ u_int8_t cdb_bytes[IOCDBLEN]; } cdb_t; /* * SCSI I/O Request CCB used for the XPT_SCSI_IO and XPT_CONT_TARGET_IO * function codes. */ struct ccb_scsiio { struct ccb_hdr ccb_h; union ccb *next_ccb; /* Ptr for next CCB for action */ u_int8_t *req_map; /* Ptr to mapping info */ u_int8_t *data_ptr; /* Ptr to the data buf/SG list */ u_int32_t dxfer_len; /* Data transfer length */ /* Autosense storage */ struct scsi_sense_data sense_data; u_int8_t sense_len; /* Number of bytes to autosense */ u_int8_t cdb_len; /* Number of bytes for the CDB */ u_int16_t sglist_cnt; /* Number of SG list entries */ u_int8_t scsi_status; /* Returned SCSI status */ u_int8_t sense_resid; /* Autosense resid length: 2's comp */ u_int32_t resid; /* Transfer residual length: 2's comp */ cdb_t cdb_io; /* Union for CDB bytes/pointer */ u_int8_t *msg_ptr; /* Pointer to the message buffer */ u_int16_t msg_len; /* Number of bytes for the Message */ u_int8_t tag_action; /* What to do for tag queueing */ /* * The tag action should be either the define below (to send a * non-tagged transaction) or one of the defined scsi tag messages * from scsi_message.h. */ #define CAM_TAG_ACTION_NONE 0x00 u_int tag_id; /* tag id from initator (target mode) */ u_int init_id; /* initiator id of who selected */ }; /* * ATA I/O Request CCB used for the XPT_ATA_IO function code. */ struct ccb_ataio { struct ccb_hdr ccb_h; union ccb *next_ccb; /* Ptr for next CCB for action */ struct ata_cmd cmd; /* ATA command register set */ struct ata_res res; /* ATA result register set */ u_int8_t *data_ptr; /* Ptr to the data buf/SG list */ u_int32_t dxfer_len; /* Data transfer length */ u_int32_t resid; /* Transfer residual length: 2's comp */ u_int8_t tag_action; /* What to do for tag queueing */ /* * The tag action should be either the define below (to send a * non-tagged transaction) or one of the defined scsi tag messages * from scsi_message.h. */ #define CAM_TAG_ACTION_NONE 0x00 u_int tag_id; /* tag id from initator (target mode) */ u_int init_id; /* initiator id of who selected */ }; struct ccb_accept_tio { struct ccb_hdr ccb_h; cdb_t cdb_io; /* Union for CDB bytes/pointer */ u_int8_t cdb_len; /* Number of bytes for the CDB */ u_int8_t tag_action; /* What to do for tag queueing */ u_int8_t sense_len; /* Number of bytes of Sense Data */ u_int tag_id; /* tag id from initator (target mode) */ u_int init_id; /* initiator id of who selected */ struct scsi_sense_data sense_data; }; /* Release SIM Queue */ struct ccb_relsim { struct ccb_hdr ccb_h; u_int32_t release_flags; #define RELSIM_ADJUST_OPENINGS 0x01 #define RELSIM_RELEASE_AFTER_TIMEOUT 0x02 #define RELSIM_RELEASE_AFTER_CMDCMPLT 0x04 #define RELSIM_RELEASE_AFTER_QEMPTY 0x08 #define RELSIM_RELEASE_RUNLEVEL 0x10 u_int32_t openings; u_int32_t release_timeout; /* Abstract argument. */ u_int32_t qfrozen_cnt; }; /* * Definitions for the asynchronous callback CCB fields. */ typedef enum { AC_ADVINFO_CHANGED = 0x2000,/* Advance info might have changes */ AC_CONTRACT = 0x1000,/* A contractual callback */ AC_GETDEV_CHANGED = 0x800,/* Getdev info might have changed */ AC_INQ_CHANGED = 0x400,/* Inquiry info might have changed */ AC_TRANSFER_NEG = 0x200,/* New transfer settings in effect */ AC_LOST_DEVICE = 0x100,/* A device went away */ AC_FOUND_DEVICE = 0x080,/* A new device was found */ AC_PATH_DEREGISTERED = 0x040,/* A path has de-registered */ AC_PATH_REGISTERED = 0x020,/* A new path has been registered */ AC_SENT_BDR = 0x010,/* A BDR message was sent to target */ AC_SCSI_AEN = 0x008,/* A SCSI AEN has been received */ AC_UNSOL_RESEL = 0x002,/* Unsolicited reselection occurred */ AC_BUS_RESET = 0x001 /* A SCSI bus reset occurred */ } ac_code; typedef void ac_callback_t (void *softc, u_int32_t code, struct cam_path *path, void *args); /* * Generic Asynchronous callbacks. * * Generic arguments passed bac which are then interpreted between a per-system * contract number. */ #define AC_CONTRACT_DATA_MAX (128 - sizeof (u_int64_t)) struct ac_contract { u_int64_t contract_number; u_int8_t contract_data[AC_CONTRACT_DATA_MAX]; }; #define AC_CONTRACT_DEV_CHG 1 struct ac_device_changed { u_int64_t wwpn; u_int32_t port; target_id_t target; u_int8_t arrived; }; /* Set Asynchronous Callback CCB */ struct ccb_setasync { struct ccb_hdr ccb_h; u_int32_t event_enable; /* Async Event enables */ ac_callback_t *callback; void *callback_arg; }; /* Set Device Type CCB */ struct ccb_setdev { struct ccb_hdr ccb_h; u_int8_t dev_type; /* Value for dev type field in EDT */ }; /* SCSI Control Functions */ /* Abort XPT request CCB */ struct ccb_abort { struct ccb_hdr ccb_h; union ccb *abort_ccb; /* Pointer to CCB to abort */ }; /* Reset SCSI Bus CCB */ struct ccb_resetbus { struct ccb_hdr ccb_h; }; /* Reset SCSI Device CCB */ struct ccb_resetdev { struct ccb_hdr ccb_h; }; /* Terminate I/O Process Request CCB */ struct ccb_termio { struct ccb_hdr ccb_h; union ccb *termio_ccb; /* Pointer to CCB to terminate */ }; typedef enum { CTS_TYPE_CURRENT_SETTINGS, CTS_TYPE_USER_SETTINGS } cts_type; struct ccb_trans_settings_scsi { u_int valid; /* Which fields to honor */ #define CTS_SCSI_VALID_TQ 0x01 u_int flags; #define CTS_SCSI_FLAGS_TAG_ENB 0x01 }; struct ccb_trans_settings_ata { u_int valid; /* Which fields to honor */ #define CTS_ATA_VALID_TQ 0x01 u_int flags; #define CTS_ATA_FLAGS_TAG_ENB 0x01 }; struct ccb_trans_settings_spi { u_int valid; /* Which fields to honor */ #define CTS_SPI_VALID_SYNC_RATE 0x01 #define CTS_SPI_VALID_SYNC_OFFSET 0x02 #define CTS_SPI_VALID_BUS_WIDTH 0x04 #define CTS_SPI_VALID_DISC 0x08 #define CTS_SPI_VALID_PPR_OPTIONS 0x10 u_int flags; #define CTS_SPI_FLAGS_DISC_ENB 0x01 u_int sync_period; u_int sync_offset; u_int bus_width; u_int ppr_options; }; struct ccb_trans_settings_fc { u_int valid; /* Which fields to honor */ #define CTS_FC_VALID_WWNN 0x8000 #define CTS_FC_VALID_WWPN 0x4000 #define CTS_FC_VALID_PORT 0x2000 #define CTS_FC_VALID_SPEED 0x1000 u_int64_t wwnn; /* world wide node name */ u_int64_t wwpn; /* world wide port name */ u_int32_t port; /* 24 bit port id, if known */ u_int32_t bitrate; /* Mbps */ }; struct ccb_trans_settings_sas { u_int valid; /* Which fields to honor */ #define CTS_SAS_VALID_SPEED 0x1000 u_int32_t bitrate; /* Mbps */ }; struct ccb_trans_settings_pata { u_int valid; /* Which fields to honor */ #define CTS_ATA_VALID_MODE 0x01 #define CTS_ATA_VALID_BYTECOUNT 0x02 #define CTS_ATA_VALID_ATAPI 0x20 int mode; /* Mode */ u_int bytecount; /* Length of PIO transaction */ u_int atapi; /* Length of ATAPI CDB */ }; struct ccb_trans_settings_sata { u_int valid; /* Which fields to honor */ #define CTS_SATA_VALID_MODE 0x01 #define CTS_SATA_VALID_BYTECOUNT 0x02 #define CTS_SATA_VALID_REVISION 0x04 #define CTS_SATA_VALID_PM 0x08 #define CTS_SATA_VALID_TAGS 0x10 #define CTS_SATA_VALID_ATAPI 0x20 #define CTS_SATA_VALID_CAPS 0x40 int mode; /* Legacy PATA mode */ u_int bytecount; /* Length of PIO transaction */ int revision; /* SATA revision */ u_int pm_present; /* PM is present (XPT->SIM) */ u_int tags; /* Number of allowed tags */ u_int atapi; /* Length of ATAPI CDB */ u_int caps; /* Device and host SATA caps. */ #define CTS_SATA_CAPS_H 0x0000ffff #define CTS_SATA_CAPS_H_PMREQ 0x00000001 #define CTS_SATA_CAPS_H_APST 0x00000002 #define CTS_SATA_CAPS_H_DMAAA 0x00000010 /* Auto-activation */ #define CTS_SATA_CAPS_H_AN 0x00000020 /* Async. notification */ #define CTS_SATA_CAPS_D 0xffff0000 #define CTS_SATA_CAPS_D_PMREQ 0x00010000 #define CTS_SATA_CAPS_D_APST 0x00020000 }; /* Get/Set transfer rate/width/disconnection/tag queueing settings */ struct ccb_trans_settings { struct ccb_hdr ccb_h; cts_type type; /* Current or User settings */ cam_proto protocol; u_int protocol_version; cam_xport transport; u_int transport_version; union { u_int valid; /* Which fields to honor */ struct ccb_trans_settings_ata ata; struct ccb_trans_settings_scsi scsi; } proto_specific; union { u_int valid; /* Which fields to honor */ struct ccb_trans_settings_spi spi; struct ccb_trans_settings_fc fc; struct ccb_trans_settings_sas sas; struct ccb_trans_settings_pata ata; struct ccb_trans_settings_sata sata; } xport_specific; }; /* * Calculate the geometry parameters for a device * give the block size and volume size in blocks. */ struct ccb_calc_geometry { struct ccb_hdr ccb_h; u_int32_t block_size; u_int64_t volume_size; u_int32_t cylinders; u_int8_t heads; u_int8_t secs_per_track; }; /* * Set or get SIM (and transport) specific knobs */ #define KNOB_VALID_ADDRESS 0x1 #define KNOB_VALID_ROLE 0x2 #define KNOB_ROLE_NONE 0x0 #define KNOB_ROLE_INITIATOR 0x1 #define KNOB_ROLE_TARGET 0x2 #define KNOB_ROLE_BOTH 0x3 struct ccb_sim_knob_settings_spi { u_int valid; u_int initiator_id; u_int role; }; struct ccb_sim_knob_settings_fc { u_int valid; u_int64_t wwnn; /* world wide node name */ u_int64_t wwpn; /* world wide port name */ u_int role; }; struct ccb_sim_knob_settings_sas { u_int valid; u_int64_t wwnn; /* world wide node name */ u_int role; }; #define KNOB_SETTINGS_SIZE 128 struct ccb_sim_knob { struct ccb_hdr ccb_h; union { u_int valid; /* Which fields to honor */ struct ccb_sim_knob_settings_spi spi; struct ccb_sim_knob_settings_fc fc; struct ccb_sim_knob_settings_sas sas; char pad[KNOB_SETTINGS_SIZE]; } xport_specific; }; /* * Rescan the given bus, or bus/target/lun */ struct ccb_rescan { struct ccb_hdr ccb_h; cam_flags flags; }; /* * Turn on debugging for the given bus, bus/target, or bus/target/lun. */ struct ccb_debug { struct ccb_hdr ccb_h; cam_debug_flags flags; }; /* Target mode structures. */ struct ccb_en_lun { struct ccb_hdr ccb_h; u_int16_t grp6_len; /* Group 6 VU CDB length */ u_int16_t grp7_len; /* Group 7 VU CDB length */ u_int8_t enable; }; /* old, barely used immediate notify, binary compatibility */ struct ccb_immed_notify { struct ccb_hdr ccb_h; struct scsi_sense_data sense_data; u_int8_t sense_len; /* Number of bytes in sense buffer */ u_int8_t initiator_id; /* Id of initiator that selected */ u_int8_t message_args[7]; /* Message Arguments */ }; struct ccb_notify_ack { struct ccb_hdr ccb_h; u_int16_t seq_id; /* Sequence identifier */ u_int8_t event; /* Event flags */ }; struct ccb_immediate_notify { struct ccb_hdr ccb_h; u_int tag_id; /* Tag for immediate notify */ u_int seq_id; /* Tag for target of notify */ u_int initiator_id; /* Initiator Identifier */ u_int arg; /* Function specific */ }; struct ccb_notify_acknowledge { struct ccb_hdr ccb_h; u_int tag_id; /* Tag for immediate notify */ u_int seq_id; /* Tar for target of notify */ u_int initiator_id; /* Initiator Identifier */ u_int arg; /* Function specific */ }; /* HBA engine structures. */ typedef enum { EIT_BUFFER, /* Engine type: buffer memory */ EIT_LOSSLESS, /* Engine type: lossless compression */ EIT_LOSSY, /* Engine type: lossy compression */ EIT_ENCRYPT /* Engine type: encryption */ } ei_type; typedef enum { EAD_VUNIQUE, /* Engine algorithm ID: vendor unique */ EAD_LZ1V1, /* Engine algorithm ID: LZ1 var.1 */ EAD_LZ2V1, /* Engine algorithm ID: LZ2 var.1 */ EAD_LZ2V2 /* Engine algorithm ID: LZ2 var.2 */ } ei_algo; struct ccb_eng_inq { struct ccb_hdr ccb_h; u_int16_t eng_num; /* The engine number for this inquiry */ ei_type eng_type; /* Returned engine type */ ei_algo eng_algo; /* Returned engine algorithm type */ u_int32_t eng_memeory; /* Returned engine memory size */ }; struct ccb_eng_exec { /* This structure must match SCSIIO size */ struct ccb_hdr ccb_h; u_int8_t *pdrv_ptr; /* Ptr used by the peripheral driver */ u_int8_t *req_map; /* Ptr for mapping info on the req. */ u_int8_t *data_ptr; /* Pointer to the data buf/SG list */ u_int32_t dxfer_len; /* Data transfer length */ u_int8_t *engdata_ptr; /* Pointer to the engine buffer data */ u_int16_t sglist_cnt; /* Num of scatter gather list entries */ u_int32_t dmax_len; /* Destination data maximum length */ u_int32_t dest_len; /* Destination data length */ int32_t src_resid; /* Source residual length: 2's comp */ u_int32_t timeout; /* Timeout value */ u_int16_t eng_num; /* Engine number for this request */ u_int16_t vu_flags; /* Vendor Unique flags */ }; /* * Definitions for the timeout field in the SCSI I/O CCB. */ #define CAM_TIME_DEFAULT 0x00000000 /* Use SIM default value */ #define CAM_TIME_INFINITY 0xFFFFFFFF /* Infinite timeout */ #define CAM_SUCCESS 0 /* For signaling general success */ #define CAM_FAILURE 1 /* For signaling general failure */ #define CAM_FALSE 0 #define CAM_TRUE 1 #define XPT_CCB_INVALID -1 /* for signaling a bad CCB to free */ /* * CCB for working with advanced device information. This operates in a fashion * similar to XPT_GDEV_TYPE. Specify the target in ccb_h, the buffer * type requested, and provide a buffer size/buffer to write to. If the * buffer is too small, provsiz will be larger than bufsiz. */ struct ccb_dev_advinfo { struct ccb_hdr ccb_h; uint32_t flags; #define CDAI_FLAG_STORE 0x1 /* If set, action becomes store */ uint32_t buftype; /* IN: Type of data being requested */ /* NB: buftype is interpreted on a per-transport basis */ #define CDAI_TYPE_SCSI_DEVID 1 #define CDAI_TYPE_SERIAL_NUM 2 #define CDAI_TYPE_PHYS_PATH 3 off_t bufsiz; /* IN: Size of external buffer */ #define CAM_SCSI_DEVID_MAXLEN 65536 /* length in buffer is an uint16_t */ off_t provsiz; /* OUT: Size required/used */ uint8_t *buf; /* IN/OUT: Buffer for requested data */ }; /* * Union of all CCB types for kernel space allocation. This union should * never be used for manipulating CCBs - its only use is for the allocation * and deallocation of raw CCB space and is the return type of xpt_ccb_alloc * and the argument to xpt_ccb_free. */ union ccb { struct ccb_hdr ccb_h; /* For convenience */ struct ccb_scsiio csio; struct ccb_getdev cgd; struct ccb_getdevlist cgdl; struct ccb_pathinq cpi; struct ccb_relsim crs; struct ccb_setasync csa; struct ccb_setdev csd; struct ccb_pathstats cpis; struct ccb_getdevstats cgds; struct ccb_dev_match cdm; struct ccb_trans_settings cts; struct ccb_calc_geometry ccg; struct ccb_sim_knob knob; struct ccb_abort cab; struct ccb_resetbus crb; struct ccb_resetdev crd; struct ccb_termio tio; struct ccb_accept_tio atio; struct ccb_scsiio ctio; struct ccb_en_lun cel; struct ccb_immed_notify cin; struct ccb_notify_ack cna; struct ccb_immediate_notify cin1; struct ccb_notify_acknowledge cna2; struct ccb_eng_inq cei; struct ccb_eng_exec cee; struct ccb_smpio smpio; struct ccb_rescan crcn; struct ccb_debug cdbg; struct ccb_ataio ataio; struct ccb_dev_advinfo cdai; }; __BEGIN_DECLS static __inline void cam_fill_csio(struct ccb_scsiio *csio, u_int32_t retries, void (*cbfcnp)(struct cam_periph *, union ccb *), u_int32_t flags, u_int8_t tag_action, u_int8_t *data_ptr, u_int32_t dxfer_len, u_int8_t sense_len, u_int8_t cdb_len, u_int32_t timeout); static __inline void cam_fill_ctio(struct ccb_scsiio *csio, u_int32_t retries, void (*cbfcnp)(struct cam_periph *, union ccb *), u_int32_t flags, u_int tag_action, u_int tag_id, u_int init_id, u_int scsi_status, u_int8_t *data_ptr, u_int32_t dxfer_len, u_int32_t timeout); static __inline void cam_fill_ataio(struct ccb_ataio *ataio, u_int32_t retries, void (*cbfcnp)(struct cam_periph *, union ccb *), u_int32_t flags, u_int tag_action, u_int8_t *data_ptr, u_int32_t dxfer_len, u_int32_t timeout); static __inline void cam_fill_smpio(struct ccb_smpio *smpio, uint32_t retries, void (*cbfcnp)(struct cam_periph *, union ccb *), uint32_t flags, uint8_t *smp_request, int smp_request_len, uint8_t *smp_response, int smp_response_len, uint32_t timeout); static __inline void cam_fill_csio(struct ccb_scsiio *csio, u_int32_t retries, void (*cbfcnp)(struct cam_periph *, union ccb *), u_int32_t flags, u_int8_t tag_action, u_int8_t *data_ptr, u_int32_t dxfer_len, u_int8_t sense_len, u_int8_t cdb_len, u_int32_t timeout) { csio->ccb_h.func_code = XPT_SCSI_IO; csio->ccb_h.flags = flags; csio->ccb_h.retry_count = retries; csio->ccb_h.cbfcnp = cbfcnp; csio->ccb_h.timeout = timeout; csio->data_ptr = data_ptr; csio->dxfer_len = dxfer_len; csio->sense_len = sense_len; csio->cdb_len = cdb_len; csio->tag_action = tag_action; } static __inline void cam_fill_ctio(struct ccb_scsiio *csio, u_int32_t retries, void (*cbfcnp)(struct cam_periph *, union ccb *), u_int32_t flags, u_int tag_action, u_int tag_id, u_int init_id, u_int scsi_status, u_int8_t *data_ptr, u_int32_t dxfer_len, u_int32_t timeout) { csio->ccb_h.func_code = XPT_CONT_TARGET_IO; csio->ccb_h.flags = flags; csio->ccb_h.retry_count = retries; csio->ccb_h.cbfcnp = cbfcnp; csio->ccb_h.timeout = timeout; csio->data_ptr = data_ptr; csio->dxfer_len = dxfer_len; csio->scsi_status = scsi_status; csio->tag_action = tag_action; csio->tag_id = tag_id; csio->init_id = init_id; } static __inline void cam_fill_ataio(struct ccb_ataio *ataio, u_int32_t retries, void (*cbfcnp)(struct cam_periph *, union ccb *), u_int32_t flags, u_int tag_action, u_int8_t *data_ptr, u_int32_t dxfer_len, u_int32_t timeout) { ataio->ccb_h.func_code = XPT_ATA_IO; ataio->ccb_h.flags = flags; ataio->ccb_h.retry_count = retries; ataio->ccb_h.cbfcnp = cbfcnp; ataio->ccb_h.timeout = timeout; ataio->data_ptr = data_ptr; ataio->dxfer_len = dxfer_len; ataio->tag_action = tag_action; } static __inline void cam_fill_smpio(struct ccb_smpio *smpio, uint32_t retries, void (*cbfcnp)(struct cam_periph *, union ccb *), uint32_t flags, uint8_t *smp_request, int smp_request_len, uint8_t *smp_response, int smp_response_len, uint32_t timeout) { #ifdef _KERNEL KASSERT((flags & CAM_DIR_MASK) == CAM_DIR_BOTH, ("direction != CAM_DIR_BOTH")); KASSERT((smp_request != NULL) && (smp_response != NULL), ("need valid request and response buffers")); KASSERT((smp_request_len != 0) && (smp_response_len != 0), ("need non-zero request and response lengths")); #endif /*_KERNEL*/ smpio->ccb_h.func_code = XPT_SMP_IO; smpio->ccb_h.flags = flags; smpio->ccb_h.retry_count = retries; smpio->ccb_h.cbfcnp = cbfcnp; smpio->ccb_h.timeout = timeout; smpio->smp_request = smp_request; smpio->smp_request_len = smp_request_len; smpio->smp_response = smp_response; smpio->smp_response_len = smp_response_len; } void cam_calc_geometry(struct ccb_calc_geometry *ccg, int extended); __END_DECLS #endif /* _CAM_CAM_CCB_H */