OpenSolaris_b135/cmd/smserverd/smserver.h
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License, Version 1.0 only
* (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 2005 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#ifndef _SMSERVER_H_
#define _SMSERVER_H_
#pragma ident "%Z%%M% %I% %E% SMI"
#ifdef __cplusplus
extern "C" {
#endif
#include <door.h>
#include <thread.h>
#include <synch.h>
#include <sys/dkio.h>
#include <bsm/audit.h>
#define RQ_LEN 18
#define MAX_RQ_LEN 32
#define MAX_CDB_LEN 32
#define smedia_service "/var/run/smedia_svc"
#define DEFAULT_SMEDIAD_DEVDIR "/usr/lib/smedia"
#define INIT_NOT_DONE 0
#define INIT_DONE 1
#define INIT_IN_PROGRESS 2
/* SCSI FORMAT UNIT cdb[1] #defines */
#define FMTDATA 0x10
#define CMPLIST 0x08
/* Defect list header data[1] #defines */
#define VS 0x1
#define IMMED 0x2
#define DSP 0x4
#define IP 0x8
#define STPF 0x10
#define DCRT 0x20
#define DPRY 0x40
#define FOV 0x80
#define DEFERRED_ERROR 0x71
#define AWRE 0x80
#define MODE_SENSE_PARAM_HDR_LEN 4
#define MODE_PARAM_BLOCK_LEN 8
#define AWRE_OFFSET (MODE_SENSE_PARAM_HDR_LEN + MODE_PARAM_BLOCK_LEN + 2)
#define BLOCK_LEN_OFFSET (MODE_SENSE_PARAM_HDR_LEN + 5)
#define SKSV_FIELD 0x80
#define SKSV_OFFSET 15
#define FORMAT_PROGRESS_INDICATOR_OFFSET_0 16
#define FORMAT_PROGRESS_INDICATOR_OFFSET_1 17
/* #defines for protect medode field */
#define UNLOCK_MODE 0x0
#define WRITE_PROTECT_MODE 0x2
#define PASSWD_WRITE_PROTECT_MODE 0x3
#define READ_WRITE_PROTECT_MODE 0x5
#define TEMP_UNLOCK_MODE 0x8
/* #defines for CARTRIDGE STATUS PAGE */
#define CARTRIDGE_STATUS_PAGE 2
#define NON_SENSE_HDR_LEN 0x2
#define PROTECT_MODE_OFFSET 19
#define DISK_STATUS_OFFSET 1
/* error reporting mechanism */
void fatal(const char *, ...);
void info(const char *, ...);
void warning(const char *, ...);
void debug(uint_t, const char *, ...);
void setlog(const char *);
void flushlog();
void quit(const char *, ...);
void noise(const char *, ...);
typedef struct server_data {
char sd_init_state;
mutex_t sd_init_lock;
cond_t sd_init_cv;
int sd_door;
int sd_fd;
} server_data_t;
typedef enum {
SMEDIA_SUCCESS = 0x0,
SMEDIA_FAILURE /* general failure */
} smedia_errno_t;
typedef struct door_data {
mutex_t dd_lock; /* lock to protect entire structure */
mutex_t dd_threadlock; /* lock to protect dd_thread field */
sigset_t dd_newset; /* signal set handled by the server */
cond_t dd_cv; /* client_door_descriptor cv */
cond_t dd_cv_bind; /* client door descriptor bind cv */
int32_t dd_id; /* for future use. To store unique id */
door_desc_t dd_desc[2]; /* [0] : Client Door descriptor */
/* [1] : Death Door decriptor */
thread_t dd_thread; /* thread bound to the client door */
door_cred_t dd_cred; /* credentials of client */
int32_t dd_fd; /* device file descriptor */
void *dd_buf; /* mmapped buffer of client */
int32_t dd_buf_len; /* size of the mmapped buffer */
int32_t dd_buffd; /* mmapped file descriptor */
int32_t dd_sector_size; /* sector size of the device */
struct stat dd_stat; /* stat of the dd_fd */
struct dk_cinfo dd_dkinfo;
au_id_t audit_auid; /* auid of user writing audit record */
uid_t audit_uid; /* uid of user writing audit record */
uid_t audit_euid; /* euid of user writing audit record */
gid_t audit_gid; /* gid of user writing audit record */
gid_t audit_egid; /* euid of user writing audit record */
pid_t audit_pid; /* pid of user writing audit record */
au_tid_addr_t audit_tid; /* tid of user writing audit record */
int audit_na; /* 0 if event is attributable */
au_mask_t audit_namask; /* not attributable flags */
au_event_t audit_event; /* id of event being audited */
int audit_sorf; /* success or failure of audit_event */
char *audit_user; /* text version of audit_uid */
au_asid_t audit_asid; /* asid of process writing record */
char *audit_path; /* path token */
int audit_policy; /* kernel audit policy */
struct auditpinfo_addr audit_ap;
char audit_text[128];
char audit_text1[128];
} door_data_t;
/* Symbols to simplify access of door_data_t */
#define dd_cdoor dd_desc[0] /* Client Door descriptor */
#define dd_ddoor dd_desc[1] /* Death Door descriptor */
#define dd_cdoor_descriptor dd_cdoor.d_data.d_desc.d_descriptor
#define dd_ddoor_descriptor dd_ddoor.d_data.d_desc.d_descriptor
typedef enum {
SMEDIA_CNUM_OPEN_FD = 0x1,
SMEDIA_CNUM_GET_DEVICE_INFO,
SMEDIA_CNUM_GET_MEDIUM_PROPERTY,
SMEDIA_CNUM_GET_PROTECTION_STATUS,
SMEDIA_CNUM_SET_PROTECTION_STATUS,
SMEDIA_CNUM_RAW_READ,
SMEDIA_CNUM_RAW_WRITE,
SMEDIA_CNUM_FORMAT,
SMEDIA_CNUM_CHECK_FORMAT_STATUS,
SMEDIA_CNUM_EJECT,
SMEDIA_CNUM_REASSIGN_BLOCK,
SMEDIA_CNUM_ERROR,
SMEDIA_CNUM_CLOSE,
SMEDIA_CNUM_SET_SHFD,
SMEDIA_CNUM_PING,
SMEDIA_CNUM_USCSI_CMD
} smedia_callnumber_t;
typedef struct {
smedia_callnumber_t cnum; /* service call number */
char buf[1]; /* buffer containing input arguments */
} smedia_req_t;
typedef struct {
smedia_callnumber_t cnum; /* service call number */
char buf[1]; /* buffer containing the results */
} smedia_ret_t;
typedef struct smedia_reqping {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_PING */
} smedia_reqping_t;
typedef struct smedia_retping {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_PING */
} smedia_retping_t;
/*
* SMEDIA open device
*/
typedef struct smedia_reqopen {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_OPEN */
int oflag;
int omode;
} smedia_reqopen_t;
typedef struct smedia_retopen {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_OPEN */
} smedia_retopen_t;
typedef struct smedia_requscsi_cmd {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_USCSI_CMD */
int32_t uscsi_flags;
short uscsi_timeout;
char uscsi_cdb[MAX_CDB_LEN];
int32_t uscsi_buflen;
uchar_t uscsi_cdblen;
uchar_t uscsi_rqlen;
} smedia_requscsi_cmd_t;
typedef struct smedia_retuscsi_cmd {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_USCSI_CMD */
int32_t uscsi_retval;
int32_t uscsi_errno;
short uscsi_status;
int32_t uscsi_resid;
uchar_t uscsi_rqstatus;
uchar_t uscsi_rqresid;
char uscsi_rqbuf[MAX_RQ_LEN];
} smedia_retuscsi_cmd_t;
typedef struct smedia_reqget_device_info {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_GET_DEVICE_INFO */
} smedia_reqget_device_info_t;
typedef struct smedia_reqset_shfd {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_SET_SHFD */
int32_t fdbuf_len;
} smedia_reqset_shfd_t;
typedef struct smedia_retget_device_info {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_GET_DEVICE_INFO */
smdevice_info_t smdevinfo;
uchar_t sm_version;
int32_t sm_interface_type;
char sm_vendor_name[32];
char sm_product_name[32];
char sm_firmware_version[32];
} smedia_retget_device_info_t;
typedef struct smedia_reqget_medium_property {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_GET_MEDIUM_PROPERTY */
} smedia_reqget_medium_property_t;
typedef struct smedia_retget_medium_property {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_GET_MEDIUM_PROPERTY */
smmedium_prop_t smprop;
} smedia_retget_medium_property_t;
typedef struct smedia_reqget_protection_status {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_GET_PROTECTION_STATUS */
} smedia_reqget_protection_status_t;
typedef struct smedia_retget_protection_status {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_GET_PROTECTION_STATUS */
smwp_state_t prot_state;
} smedia_retget_protection_status_t;
typedef struct smedia_reqset_protection_status {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_SET_PROTECTION_STATUS */
smwp_state_t prot_state;
} smedia_reqset_protection_status_t;
typedef struct smedia_retset_protection_status {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_SET_PROTECTION_STATUS */
} smedia_retset_protection_status_t;
typedef struct smedia_reqraw_read {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_RAW_READ */
diskaddr_t blockno;
int32_t nbytes;
} smedia_reqraw_read_t;
typedef struct smedia_retraw_read {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_RAW_READ */
int32_t nbytes; /* bytes read */
char buf[1]; /* buffer size is nbytes long */
} smedia_retraw_read_t;
typedef struct smedia_reqraw_write {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_RAW_WRITE */
diskaddr_t blockno;
int32_t nbytes;
char buf[1]; /* buffer size is nbytes long */
} smedia_reqraw_write_t;
typedef struct smedia_retraw_write {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_RAW_WRITE */
int32_t nbytes; /* bytes written */
} smedia_retraw_write_t;
typedef struct smedia_reqformat {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_FORMAT */
uint_t flavor;
uint_t mode;
} smedia_reqformat_t;
typedef struct smedia_retformat {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_FORMAT */
} smedia_retformat_t;
typedef struct smedia_reqcheck_format_status {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_CHECK_FORMAT_STATUS */
} smedia_reqcheck_format_status_t;
typedef struct smedia_retcheck_format_status {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_CHECK_FORMAT_STATUS */
int percent_complete;
} smedia_retcheck_format_status_t;
typedef struct smedia_reqreassign_block {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_REASSIGN_BLOCK */
diskaddr_t blockno;
} smedia_reqreassign_block_t;
typedef struct smedia_retreassign_block {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_REASSIGN_BLOCK */
} smedia_retreassign_block_t;
typedef struct {
smedia_callnumber_t cnum; /* SMEDIA_CNUM_ERROR */
smedia_callnumber_t in_cnum; /* requested service number */
smedia_errno_t errnum;
} smedia_reterror_t;
typedef union {
smedia_req_t in; /* req arguments */
smedia_ret_t out; /* out results */
smedia_reqping_t reqping;
smedia_retping_t retping;
smedia_reqopen_t reqopen;
smedia_retopen_t retopen;
smedia_reqget_device_info_t reqget_device_info;
smedia_retget_device_info_t retget_device_info;
smedia_reqget_medium_property_t reqget_medium_property;
smedia_retget_medium_property_t retget_medium_property;
smedia_reqget_protection_status_t reqget_protection_status;
smedia_retget_protection_status_t retget_protection_status;
smedia_reqset_protection_status_t reqset_protection_status;
smedia_retset_protection_status_t retset_protection_status;
smedia_reqraw_read_t reqraw_read;
smedia_retraw_read_t retraw_read;
smedia_reqraw_write_t reqraw_write;
smedia_retraw_write_t retraw_write;
smedia_reqformat_t reqformat;
smedia_retformat_t retformat;
smedia_reqcheck_format_status_t reqcheck_format_status;
smedia_retcheck_format_status_t retcheck_format_status;
smedia_reqreassign_block_t reqreassign_block;
smedia_retreassign_block_t retreassign_block;
smedia_reterror_t reterror;
smedia_reqset_shfd_t reqset_shfd;
smedia_requscsi_cmd_t requscsi_cmd;
smedia_retuscsi_cmd_t retuscsi_cmd;
} smedia_services_t;
#define SCSI_GENERIC 1
#define SCSI_IOMEGA 2
#define SCSI_FLOPPY 3
/*
* Crude algorithm for calculating format timeout.
* 30min + 5min/100MB =>
* 35min for 100MB ZIP
* 42.5 min for 250MB ZIP
* 127 min for 2GB Jaz
* It is OK for now as this is just an upper limit by which the
* format should complete.
*/
#define FORMAT_TIMEOUT(n) (1800 + ((n)/682))
#define WA_BIT 0x10 /* The word align bit for ATAPI devices */
/*
* Non sense data length for catridge status page.
* Should be 63, but IDE driver panics with a non-aligned
* data transfer.
*/
#define ND_LENGTH 64
/*
* Vendor specific commands from Iomega
*/
#define IOMEGA_NONSENSE_CMD 0x6
#define IOMEGA_CATRIDGE_PROTECT 0xC
#ifdef __cplusplus
}
#endif
#endif /* _SMSERVER_H_ */