/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_CMLB_H #define _SYS_CMLB_H #pragma ident "%Z%%M% %I% %E% SMI" #ifdef __cplusplus extern "C" { #endif #include /* * structure used for getting phygeom and virtgeom from target driver */ typedef struct cmlb_geom { unsigned int g_ncyl; unsigned short g_acyl; unsigned short g_nhead; unsigned short g_nsect; unsigned short g_secsize; diskaddr_t g_capacity; unsigned short g_intrlv; unsigned short g_rpm; } cmlb_geom_t; typedef struct tg_attribute { int media_is_writable; } tg_attribute_t; /* bit definitions for alter_behavior passed to cmlb_attach */ #define CMLB_CREATE_ALTSLICE_VTOC_16_DTYPE_DIRECT 0x00000001 #define CMLB_FAKE_GEOM_LABEL_IOCTLS_VTOC8 0x00000002 #define CMLB_OFF_BY_ONE 0x00000004 #define CMLB_FAKE_LABEL_ONE_PARTITION 0x00000008 #define CMLB_INTERNAL_MINOR_NODES 0x00000010 /* bit definitions of flag passed to cmlb_validate */ #define CMLB_SILENT 0x00000001 /* version for tg_ops */ #define TG_DK_OPS_VERSION_0 0 #define TG_DK_OPS_VERSION_1 1 /* definitions for cmd passed to tg_rdwr */ #define TG_READ 0 #define TG_WRITE 1 /* definitions for cmd passed to tg_getinfo */ #define TG_GETPHYGEOM 1 #define TG_GETVIRTGEOM 2 #define TG_GETCAPACITY 3 #define TG_GETBLOCKSIZE 4 #define TG_GETATTR 5 /* * Ops vector including utility functions into target driver that cmlb uses. */ typedef struct cmlb_tg_ops { int tg_version; /* * tg_rdwr: * perform read/write on target device associated with devi. * * Arguments: * * devi: pointer to device's dev_info structure. * * cmd: operation to perform. * Possible values: TG_READ, TG_WRITE * * bufp: pointer to allocated buffer for transfer * * start_block: starting block number to read/write (based on * system blocksize, DEV_BSIZE) * * reqlength: requested transfer length (in bytes) * * tg_cookie cookie from target driver to be passed back to * target driver when we call back to it through * tg_ops. * * Note: It is the responsibility of caller to make sure * length of buffer pointed to by bufp is at least equal to * requested transfer length * * Return values: * 0 success * ENOMEM can not allocate memory * EACCESS reservation conflict * EIO I/O error * EFAULT copyin/copyout error * ENXIO internal error/ invalid devi * EINVAL invalid command value. */ int (*tg_rdwr)(dev_info_t *devi, uchar_t cmd, void *bufp, diskaddr_t start_block, size_t reqlength, void *tg_cookie); /* * tg_getinfo: * Report the information requested on device/media and * store the requested info in area pointed to by arg. * * Arguments: * devi: pointer to device's dev_info structure. * * cmd: operation to perform * * arg: arg for the operation for result. * * tg_cookie cookie from target driver to be passed back to * target driver when we call back to it through * tg_ops. * * Possible commands and the interpretation of arg: * * cmd: * TG_GETPHYGEOM * Obtain raw physical geometry from target, * and store in structure pointed to by arg, * a cmlb_geom_t structure. * * TG_GETVIRTGEOM: * Obtain HBA geometry for the target and * store in struct pointed to by arg, * a cmlb_geom_t structure. * * TG_GETCAPACITY: * Report the capacity of the target (in system * blocksize (DEV_BSIZE) and store in the * space pointed to by arg, a diskaddr_t. * * TG_GETBLOCKSIZE: * Report the block size of the target * in the space pointed to by arg, a uint32_t. * * TG_GETATTR: * Report the information requested on * device/media and store in area pointed to by * arg, a tg_attribute_t structure. * Return values: * * Return values: * 0 success * * EACCESS reservation conflict * * ENXIO internal error/invalid devi * * EINVAL When command is TG_GETPHYGEOM or * TG_GETVIRTGEOM, or TG_GETATTR, this return code * indicates the operation is not applicable to * target. * In case of TG_GETCAP, this return code * indicates no media in the drive. * * EIO An error occurred during obtaining info * from device/media. * * ENOTSUP In case of TG_GETCAP, target does not * support getting capacity info. * * ENOTTY Unknown command. * * */ int (*tg_getinfo)(dev_info_t *devi, int cmd, void *arg, void *tg_cookie); } cmlb_tg_ops_t; typedef struct __cmlb_handle *cmlb_handle_t; /* * * Functions exported from cmlb * * Note: Most these functions can callback to target driver through the * tg_ops functions. Target driver should consider this for synchronization. * Any functions that may adjust minor nodes should be called when * the target driver ensures it is safe to do so. */ /* * cmlb_alloc_handle: * * Allocates a handle. * * Arguments: * cmlbhandlep pointer to handle * * Notes: * Allocates a handle and stores the allocated handle in the area * pointed to by cmlbhandlep * * Context: * Kernel thread only (can sleep). */ void cmlb_alloc_handle(cmlb_handle_t *cmlbhandlep); /* * cmlb_attach: * * Attach handle to device, create minor nodes for device. * * * Arguments: * devi pointer to device's dev_info structure. * tgopsp pointer to array of functions cmlb can use to callback * to target driver. * * device_type Peripheral device type as defined in * scsi/generic/inquiry.h * * is_removable whether or not device is removable. * 0 non-removable, 1 removable. * * is_hotpluggable whether or not device is hotpluggable. * 0 non-hotpluggable, 1 hotpluggable. * * node_type minor node type (as used by ddi_create_minor_node) * * alter_behavior * bit flags: * * CMLB_CREATE_ALTSLICE_VTOC_16_DTYPE_DIRECT: create * an alternate slice for the default label, if * device type is DTYPE_DIRECT an architectures default * label type is VTOC16. * Otherwise alternate slice will no be created. * * * CMLB_FAKE_GEOM_LABEL_IOCTLS_VTOC8: report a default * geometry and label for DKIOCGGEOM and DKIOCGVTOC * on architecture with VTOC 8 label types. * * CMLB_OFF_BY_ONE: do the workaround for legacy off-by- * one bug in obtaining capacity (used for sd). * * * cmlbhandle cmlb handle associated with device * * tg_cookie cookie from target driver to be passed back to target * driver when we call back to it through tg_ops. * * cmlb does not interpret the values. It is currently * used for sd to indicate whether retries are allowed * on commands or not. e.g when cmlb entries are called * from interrupt context on removable media, sd rather * not have retries done. * * * * Notes: * Assumes a default label based on capacity for non-removable devices. * If capacity > 1TB, EFI is assumed otherwise VTOC (default VTOC * for the architecture). * For removable devices, default label type is assumed to be VTOC * type. Create minor nodes based on a default label type. * Label on the media is not validated. * minor number consists of: * if _SUNOS_VTOC_8 is defined * lowest 3 bits is taken as partition number * the rest is instance number * if _SUNOS_VTOC_16 is defined * lowest 6 bits is taken as partition number * the rest is instance number * * * Return values: * 0 Success * ENXIO creating minor nodes failed. * EINVAL invalid arg, unsupported tg_ops version * */ int cmlb_attach(dev_info_t *devi, cmlb_tg_ops_t *tgopsp, int device_type, int is_removable, int is_hotpluggable, char *node_type, int alter_behavior, cmlb_handle_t cmlbhandle, void *tg_cookie); /* * cmlb_validate: * * Validates label. * * Arguments * cmlbhandle cmlb handle associated with device. * * int flags * currently used for verbosity control. * CMLB_SILENT is the only current definition for it * tg_cookie cookie from target driver to be passed back to target * driver when we call back to it through tg_ops. * Notes: * If new label type is different from the current, adjust minor nodes * accordingly. * * Return values: * 0 success * Note: having fdisk but no solaris partition is assumed * success. * * ENOMEM memory allocation failed * EIO i/o errors during read or get capacity * EACCESS reservation conflicts * EINVAL label was corrupt, or no default label was assumed * ENXIO invalid handle * */ int cmlb_validate(cmlb_handle_t cmlbhandle, int flags, void *tg_cookie); /* * cmlb_invalidate: * Invalidate in core label data * * Arguments: * cmlbhandle cmlb handle associated with device. * tg_cookie cookie from target driver to be passed back to target * driver when we call back to it through tg_ops. */ void cmlb_invalidate(cmlb_handle_t cmlbhandle, void *tg_cookie); /* * cmlb_is_valid * Get status on whether the incore label/geom data is valid * * Arguments: * cmlbhandle cmlb handle associated with device. * * Return values: * TRUE if valid * FALSE otherwise. * */ int cmlb_is_valid(cmlb_handle_t cmlbhandle); /* * cmlb_partinfo: * Get partition info for specified partition number. * * Arguments: * cmlbhandle cmlb handle associated with device. * part partition number * driver when we call back to it through tg_ops. * nblocksp pointer to number of blocks * startblockp pointer to starting block * partnamep pointer to name of partition * tagp pointer to tag info * tg_cookie cookie from target driver to be passed back to target * * Notes: * If in-core label is not valid, this functions tries to revalidate * the label. If label is valid, it stores the total number of blocks * in this partition in the area pointed to by nblocksp, starting * block number in area pointed to by startblockp, pointer to partition * name in area pointed to by partnamep, and tag value in area * pointed by tagp. * For EFI labels, tag value will be set to 0. * * For all nblocksp, startblockp and partnamep, tagp, a value of NULL * indicates the corresponding info is not requested. * * * Return values: * 0 success * EINVAL no valid label or requested partition number is invalid. * */ int cmlb_partinfo(cmlb_handle_t cmlbhandle, int part, diskaddr_t *nblocksp, diskaddr_t *startblockp, char **partnamep, uint16_t *tagp, void *tg_cookie); /* * cmlb_efi_label_capacity: * Get capacity stored in EFI disk label. * * Arguments: * cmlbhandle cmlb handle associated with device. * capacity pointer to capacity stored in EFI disk label. * tg_cookie cookie from target driver to be passed back to target * driver when we call back to it through tg_ops. * * * Notes: * If in-core label is not valid, this functions tries to revalidate * the label. If label is valid and is an EFI label, it stores the capacity * in disk label in the area pointed to by capacity. * * * Return values: * 0 success * EINVAL no valid EFI label or capacity is NULL. * */ int cmlb_efi_label_capacity(cmlb_handle_t cmlbhandle, diskaddr_t *capacity, void *tg_cookie); /* * cmlb_ioctl: * Ioctls for label handling will be handled by this function. * These are: * DKIOCGGEOM * DKIOCSGEOM * DKIOCGAPART * DKIOCSAPART * DKIOCGVTOC * DKIOCGETEFI * DKIOCPARTITION * DKIOCSVTOC * DKIOCSETEFI * DKIOCGMBOOT * DKIOCSMBOOT * DKIOCG_PHYGEOM * DKIOCG_VIRTGEOM * DKIOCPARTINFO * * * Arguments: * cmlbhandle handle associated with device. * cmd ioctl operation to be performed * arg user argument, contains data to be set or reference * parameter for get * flag bit flag, indicating open settings, 32/64 bit type * cred_p user credential pointer (not currently used) * rval_p not currently used * tg_cookie cookie from target driver to be passed back to target * driver when we call back to it through tg_ops. * * * * Return values: * 0 * EINVAL * ENOTTY * ENXIO * EIO * EFAULT * ENOTSUP * EPERM */ int cmlb_ioctl(cmlb_handle_t cmlbhandle, dev_t dev, int cmd, intptr_t arg, int flag, cred_t *cred_p, int *rval_p, void *tg_cookie); /* * cmlb_prop_op: * provide common label prop_op(9E) implementation that understands the * size(9p) properties. * * Arguments: * cmlbhandle cmlb handle associated with device. * dev See prop_op(9E) * dip " * prop_op " * mod_flags " * name " * valuep " * lengthp " * part partition number * tg_cookie cookie from target driver to be passed back to target */ int cmlb_prop_op(cmlb_handle_t cmlbhandle, dev_t dev, dev_info_t *dip, ddi_prop_op_t prop_op, int mod_flags, char *name, caddr_t valuep, int *lengthp, int part, void *tg_cookie); /* * cmlb_get_devid_block: * get the block number where device id is stored. * * Arguments: * cmlbhandle cmlb handle associated with device. * devidblockp pointer to block number. * tg_cookie cookie from target driver to be passed back to target * driver when we call back to it through tg_ops. * * Notes: * It stores the block number of device id in the area pointed to * by devidblockp. * * Return values: * 0 success * EINVAL device id does not apply to current label type. */ int cmlb_get_devid_block(cmlb_handle_t cmlbhandle, diskaddr_t *devidblockp, void *tg_cookie); /* * cmlb_close: * * Close the device, revert to a default label minor node for the device, * if it is removable. * * Arguments: * cmlbhandle cmlb handle associated with device. * * tg_cookie cookie from target driver to be passed back to target * driver when we call back to it through tg_ops. * Return values: * 0 Success * ENXIO Re-creating minor node failed. */ int cmlb_close(cmlb_handle_t cmlbhandle, void *tg_cookie); /* * cmlb_detach: * * Invalidate in-core labeling data and remove all minor nodes for * the device associate with handle. * * Arguments: * cmlbhandle cmlb handle associated with device. * tg_cookie cookie from target driver to be passed back to target * driver when we call back to it through tg_ops. * */ void cmlb_detach(cmlb_handle_t cmlbhandle, void *tg_cookie); /* * cmlb_free_handle * * Frees handle. * * Arguments: * cmlbhandlep pointer to handle * */ void cmlb_free_handle(cmlb_handle_t *cmlbhandlep); #ifdef __cplusplus } #endif #endif /* _SYS_CMLB_H */