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|
/*
* This file is part of the zfcp device driver for
* FCP adapters for IBM System z9 and zSeries.
*
* (C) Copyright IBM Corp. 2002, 2006
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#ifndef ZFCP_DEF_H
#define ZFCP_DEF_H
/*************************** INCLUDES *****************************************/
#include <linux/init.h>
#include <linux/moduleparam.h>
#include <linux/miscdevice.h>
#include <linux/major.h>
#include <linux/blkdev.h>
#include <linux/delay.h>
#include <linux/timer.h>
#include <linux/slab.h>
#include <linux/mempool.h>
#include <linux/syscalls.h>
#include <linux/scatterlist.h>
#include <linux/ioctl.h>
#include <scsi/scsi.h>
#include <scsi/scsi_tcq.h>
#include <scsi/scsi_cmnd.h>
#include <scsi/scsi_device.h>
#include <scsi/scsi_host.h>
#include <scsi/scsi_transport.h>
#include <scsi/scsi_transport_fc.h>
#include <asm/ccwdev.h>
#include <asm/qdio.h>
#include <asm/debug.h>
#include <asm/ebcdic.h>
#include "zfcp_fsf.h"
/********************* GENERAL DEFINES *********************************/
/* zfcp version number, it consists of major, minor, and patch-level number */
#define ZFCP_VERSION "4.8.0"
/**
* zfcp_sg_to_address - determine kernel address from struct scatterlist
* @list: struct scatterlist
* Return: kernel address
*/
static inline void *
zfcp_sg_to_address(struct scatterlist *list)
{
return sg_virt(list);
}
/**
* zfcp_address_to_sg - set up struct scatterlist from kernel address
* @address: kernel address
* @list: struct scatterlist
*/
static inline void
zfcp_address_to_sg(void *address, struct scatterlist *list)
{
sg_set_buf(list, address, 0);
}
#define REQUEST_LIST_SIZE 128
/********************* SCSI SPECIFIC DEFINES *********************************/
#define ZFCP_SCSI_ER_TIMEOUT (10*HZ)
/********************* CIO/QDIO SPECIFIC DEFINES *****************************/
/* Adapter Identification Parameters */
#define ZFCP_CONTROL_UNIT_TYPE 0x1731
#define ZFCP_CONTROL_UNIT_MODEL 0x03
#define ZFCP_DEVICE_TYPE 0x1732
#define ZFCP_DEVICE_MODEL 0x03
#define ZFCP_DEVICE_MODEL_PRIV 0x04
/* allow as many chained SBALs as are supported by hardware */
#define ZFCP_MAX_SBALS_PER_REQ FSF_MAX_SBALS_PER_REQ
#define ZFCP_MAX_SBALS_PER_CT_REQ FSF_MAX_SBALS_PER_REQ
#define ZFCP_MAX_SBALS_PER_ELS_REQ FSF_MAX_SBALS_PER_ELS_REQ
/* DMQ bug workaround: don't use last SBALE */
#define ZFCP_MAX_SBALES_PER_SBAL (QDIO_MAX_ELEMENTS_PER_BUFFER - 1)
/* index of last SBALE (with respect to DMQ bug workaround) */
#define ZFCP_LAST_SBALE_PER_SBAL (ZFCP_MAX_SBALES_PER_SBAL - 1)
/* max. number of (data buffer) SBALEs in largest SBAL chain */
#define ZFCP_MAX_SBALES_PER_REQ \
(ZFCP_MAX_SBALS_PER_REQ * ZFCP_MAX_SBALES_PER_SBAL - 2)
/* request ID + QTCB in SBALE 0 + 1 of first SBAL in chain */
#define ZFCP_MAX_SECTORS (ZFCP_MAX_SBALES_PER_REQ * 8)
/* max. number of (data buffer) SBALEs in largest SBAL chain
multiplied with number of sectors per 4k block */
/* FIXME(tune): free space should be one max. SBAL chain plus what? */
#define ZFCP_QDIO_PCI_INTERVAL (QDIO_MAX_BUFFERS_PER_Q \
- (ZFCP_MAX_SBALS_PER_REQ + 4))
#define ZFCP_SBAL_TIMEOUT (5*HZ)
#define ZFCP_TYPE2_RECOVERY_TIME (8*HZ)
/* queue polling (values in microseconds) */
#define ZFCP_MAX_INPUT_THRESHOLD 5000 /* FIXME: tune */
#define ZFCP_MAX_OUTPUT_THRESHOLD 1000 /* FIXME: tune */
#define ZFCP_MIN_INPUT_THRESHOLD 1 /* ignored by QDIO layer */
#define ZFCP_MIN_OUTPUT_THRESHOLD 1 /* ignored by QDIO layer */
#define QDIO_SCSI_QFMT 1 /* 1 for FSF */
#define QBUFF_PER_PAGE (PAGE_SIZE / sizeof(struct qdio_buffer))
/********************* FSF SPECIFIC DEFINES *********************************/
#define ZFCP_ULP_INFO_VERSION 26
#define ZFCP_QTCB_VERSION FSF_QTCB_CURRENT_VERSION
/* ATTENTION: value must not be used by hardware */
#define FSF_QTCB_UNSOLICITED_STATUS 0x6305
#define ZFCP_STATUS_READ_FAILED_THRESHOLD 3
#define ZFCP_STATUS_READS_RECOM FSF_STATUS_READS_RECOM
/* Do 1st retry in 1 second, then double the timeout for each following retry */
#define ZFCP_EXCHANGE_CONFIG_DATA_FIRST_SLEEP 100
#define ZFCP_EXCHANGE_CONFIG_DATA_RETRIES 7
/* timeout value for "default timer" for fsf requests */
#define ZFCP_FSF_REQUEST_TIMEOUT (60*HZ)
/*************** FIBRE CHANNEL PROTOCOL SPECIFIC DEFINES ********************/
typedef unsigned long long wwn_t;
typedef unsigned long long fcp_lun_t;
/* data length field may be at variable position in FCP-2 FCP_CMND IU */
typedef unsigned int fcp_dl_t;
#define ZFCP_FC_SERVICE_CLASS_DEFAULT FSF_CLASS_3
/* timeout for name-server lookup (in seconds) */
#define ZFCP_NS_GID_PN_TIMEOUT 10
/* largest SCSI command we can process */
/* FCP-2 (FCP_CMND IU) allows up to (255-3+16) */
#define ZFCP_MAX_SCSI_CMND_LENGTH 255
/* maximum number of commands in LUN queue (tagged queueing) */
#define ZFCP_CMND_PER_LUN 32
/* task attribute values in FCP-2 FCP_CMND IU */
#define SIMPLE_Q 0
#define HEAD_OF_Q 1
#define ORDERED_Q 2
#define ACA_Q 4
#define UNTAGGED 5
/* task management flags in FCP-2 FCP_CMND IU */
#define FCP_CLEAR_ACA 0x40
#define FCP_TARGET_RESET 0x20
#define FCP_LOGICAL_UNIT_RESET 0x10
#define FCP_CLEAR_TASK_SET 0x04
#define FCP_ABORT_TASK_SET 0x02
#define FCP_CDB_LENGTH 16
#define ZFCP_DID_MASK 0x00FFFFFF
/* FCP(-2) FCP_CMND IU */
struct fcp_cmnd_iu {
fcp_lun_t fcp_lun; /* FCP logical unit number */
u8 crn; /* command reference number */
u8 reserved0:5; /* reserved */
u8 task_attribute:3; /* task attribute */
u8 task_management_flags; /* task management flags */
u8 add_fcp_cdb_length:6; /* additional FCP_CDB length */
u8 rddata:1; /* read data */
u8 wddata:1; /* write data */
u8 fcp_cdb[FCP_CDB_LENGTH];
} __attribute__((packed));
/* FCP(-2) FCP_RSP IU */
struct fcp_rsp_iu {
u8 reserved0[10];
union {
struct {
u8 reserved1:3;
u8 fcp_conf_req:1;
u8 fcp_resid_under:1;
u8 fcp_resid_over:1;
u8 fcp_sns_len_valid:1;
u8 fcp_rsp_len_valid:1;
} bits;
u8 value;
} validity;
u8 scsi_status;
u32 fcp_resid;
u32 fcp_sns_len;
u32 fcp_rsp_len;
} __attribute__((packed));
#define RSP_CODE_GOOD 0
#define RSP_CODE_LENGTH_MISMATCH 1
#define RSP_CODE_FIELD_INVALID 2
#define RSP_CODE_RO_MISMATCH 3
#define RSP_CODE_TASKMAN_UNSUPP 4
#define RSP_CODE_TASKMAN_FAILED 5
/* see fc-fs */
#define LS_RSCN 0x61040000
#define LS_LOGO 0x05000000
#define LS_PLOGI 0x03000000
struct fcp_rscn_head {
u8 command;
u8 page_length; /* always 0x04 */
u16 payload_len;
} __attribute__((packed));
struct fcp_rscn_element {
u8 reserved:2;
u8 event_qual:4;
u8 addr_format:2;
u32 nport_did:24;
} __attribute__((packed));
#define ZFCP_PORT_ADDRESS 0x0
#define ZFCP_AREA_ADDRESS 0x1
#define ZFCP_DOMAIN_ADDRESS 0x2
#define ZFCP_FABRIC_ADDRESS 0x3
#define ZFCP_PORTS_RANGE_PORT 0xFFFFFF
#define ZFCP_PORTS_RANGE_AREA 0xFFFF00
#define ZFCP_PORTS_RANGE_DOMAIN 0xFF0000
#define ZFCP_PORTS_RANGE_FABRIC 0x000000
#define ZFCP_NO_PORTS_PER_AREA 0x100
#define ZFCP_NO_PORTS_PER_DOMAIN 0x10000
#define ZFCP_NO_PORTS_PER_FABRIC 0x1000000
/* see fc-ph */
struct fcp_logo {
u32 command;
u32 nport_did;
wwn_t nport_wwpn;
} __attribute__((packed));
/*
* DBF stuff
*/
#define ZFCP_DBF_TAG_SIZE 4
struct zfcp_dbf_dump {
u8 tag[ZFCP_DBF_TAG_SIZE];
u32 total_size; /* size of total dump data */
u32 offset; /* how much data has being already dumped */
u32 size; /* how much data comes with this record */
u8 data[]; /* dump data */
} __attribute__ ((packed));
/* FIXME: to be inflated when reworking the erp dbf */
struct zfcp_erp_dbf_record {
u8 dummy[16];
} __attribute__ ((packed));
struct zfcp_hba_dbf_record_response {
u32 fsf_command;
u64 fsf_reqid;
u32 fsf_seqno;
u64 fsf_issued;
u32 fsf_prot_status;
u32 fsf_status;
u8 fsf_prot_status_qual[FSF_PROT_STATUS_QUAL_SIZE];
u8 fsf_status_qual[FSF_STATUS_QUALIFIER_SIZE];
u32 fsf_req_status;
u8 sbal_first;
u8 sbal_curr;
u8 sbal_last;
u8 pool;
u64 erp_action;
union {
struct {
u64 scsi_cmnd;
u64 scsi_serial;
} send_fcp;
struct {
u64 wwpn;
u32 d_id;
u32 port_handle;
} port;
struct {
u64 wwpn;
u64 fcp_lun;
u32 port_handle;
u32 lun_handle;
} unit;
struct {
u32 d_id;
u8 ls_code;
} send_els;
} data;
} __attribute__ ((packed));
struct zfcp_hba_dbf_record_status {
u8 failed;
u32 status_type;
u32 status_subtype;
struct fsf_queue_designator
queue_designator;
u32 payload_size;
#define ZFCP_DBF_UNSOL_PAYLOAD 80
#define ZFCP_DBF_UNSOL_PAYLOAD_SENSE_DATA_AVAIL 32
#define ZFCP_DBF_UNSOL_PAYLOAD_BIT_ERROR_THRESHOLD 56
#define ZFCP_DBF_UNSOL_PAYLOAD_FEATURE_UPDATE_ALERT 2 * sizeof(u32)
u8 payload[ZFCP_DBF_UNSOL_PAYLOAD];
} __attribute__ ((packed));
struct zfcp_hba_dbf_record_qdio {
u32 status;
u32 qdio_error;
u32 siga_error;
u8 sbal_index;
u8 sbal_count;
} __attribute__ ((packed));
struct zfcp_hba_dbf_record {
u8 tag[ZFCP_DBF_TAG_SIZE];
u8 tag2[ZFCP_DBF_TAG_SIZE];
union {
struct zfcp_hba_dbf_record_response response;
struct zfcp_hba_dbf_record_status status;
struct zfcp_hba_dbf_record_qdio qdio;
} type;
} __attribute__ ((packed));
struct zfcp_san_dbf_record_ct {
union {
struct {
u16 cmd_req_code;
u8 revision;
u8 gs_type;
u8 gs_subtype;
u8 options;
u16 max_res_size;
} request;
struct {
u16 cmd_rsp_code;
u8 revision;
u8 reason_code;
u8 reason_code_expl;
u8 vendor_unique;
} response;
} type;
u32 payload_size;
#define ZFCP_DBF_CT_PAYLOAD 24
u8 payload[ZFCP_DBF_CT_PAYLOAD];
} __attribute__ ((packed));
struct zfcp_san_dbf_record_els {
u8 ls_code;
u32 payload_size;
#define ZFCP_DBF_ELS_PAYLOAD 32
#define ZFCP_DBF_ELS_MAX_PAYLOAD 1024
u8 payload[ZFCP_DBF_ELS_PAYLOAD];
} __attribute__ ((packed));
struct zfcp_san_dbf_record {
u8 tag[ZFCP_DBF_TAG_SIZE];
u64 fsf_reqid;
u32 fsf_seqno;
u32 s_id;
u32 d_id;
union {
struct zfcp_san_dbf_record_ct ct;
struct zfcp_san_dbf_record_els els;
} type;
} __attribute__ ((packed));
struct zfcp_scsi_dbf_record {
u8 tag[ZFCP_DBF_TAG_SIZE];
u8 tag2[ZFCP_DBF_TAG_SIZE];
u32 scsi_id;
u32 scsi_lun;
u32 scsi_result;
u64 scsi_cmnd;
u64 scsi_serial;
#define ZFCP_DBF_SCSI_OPCODE 16
u8 scsi_opcode[ZFCP_DBF_SCSI_OPCODE];
u8 scsi_retries;
u8 scsi_allowed;
u64 fsf_reqid;
u32 fsf_seqno;
u64 fsf_issued;
union {
u64 old_fsf_reqid;
struct {
u8 rsp_validity;
u8 rsp_scsi_status;
u32 rsp_resid;
u8 rsp_code;
#define ZFCP_DBF_SCSI_FCP_SNS_INFO 16
#define ZFCP_DBF_SCSI_MAX_FCP_SNS_INFO 256
u32 sns_info_len;
u8 sns_info[ZFCP_DBF_SCSI_FCP_SNS_INFO];
} fcp;
} type;
} __attribute__ ((packed));
/*
* FC-FS stuff
*/
#define R_A_TOV 10 /* seconds */
#define ZFCP_ELS_TIMEOUT (2 * R_A_TOV)
#define ZFCP_LS_RLS 0x0f
#define ZFCP_LS_ADISC 0x52
#define ZFCP_LS_RPS 0x56
#define ZFCP_LS_RSCN 0x61
#define ZFCP_LS_RNID 0x78
struct zfcp_ls_rjt_par {
u8 action;
u8 reason_code;
u8 reason_expl;
u8 vendor_unique;
} __attribute__ ((packed));
struct zfcp_ls_adisc {
u8 code;
u8 field[3];
u32 hard_nport_id;
u64 wwpn;
u64 wwnn;
u32 nport_id;
} __attribute__ ((packed));
struct zfcp_ls_adisc_acc {
u8 code;
u8 field[3];
u32 hard_nport_id;
u64 wwpn;
u64 wwnn;
u32 nport_id;
} __attribute__ ((packed));
struct zfcp_rc_entry {
u8 code;
const char *description;
};
/*
* FC-GS-2 stuff
*/
#define ZFCP_CT_REVISION 0x01
#define ZFCP_CT_DIRECTORY_SERVICE 0xFC
#define ZFCP_CT_NAME_SERVER 0x02
#define ZFCP_CT_SYNCHRONOUS 0x00
#define ZFCP_CT_GID_PN 0x0121
#define ZFCP_CT_MAX_SIZE 0x1020
#define ZFCP_CT_ACCEPT 0x8002
#define ZFCP_CT_REJECT 0x8001
/*
* FC-GS-4 stuff
*/
#define ZFCP_CT_TIMEOUT (3 * R_A_TOV)
/******************** LOGGING MACROS AND DEFINES *****************************/
/*
* Logging may be applied on certain kinds of driver operations
* independently. Additionally, different log-levels are supported for
* each of these areas.
*/
#define ZFCP_NAME "zfcp"
/* independent log areas */
#define ZFCP_LOG_AREA_OTHER 0
#define ZFCP_LOG_AREA_SCSI 1
#define ZFCP_LOG_AREA_FSF 2
#define ZFCP_LOG_AREA_CONFIG 3
#define ZFCP_LOG_AREA_CIO 4
#define ZFCP_LOG_AREA_QDIO 5
#define ZFCP_LOG_AREA_ERP 6
#define ZFCP_LOG_AREA_FC 7
/* log level values*/
#define ZFCP_LOG_LEVEL_NORMAL 0
#define ZFCP_LOG_LEVEL_INFO 1
#define ZFCP_LOG_LEVEL_DEBUG 2
#define ZFCP_LOG_LEVEL_TRACE 3
/*
* this allows removal of logging code by the preprocessor
* (the most detailed log level still to be compiled in is specified,
* higher log levels are removed)
*/
#define ZFCP_LOG_LEVEL_LIMIT ZFCP_LOG_LEVEL_TRACE
/* get "loglevel" nibble assignment */
#define ZFCP_GET_LOG_VALUE(zfcp_lognibble) \
((atomic_read(&zfcp_data.loglevel) >> (zfcp_lognibble<<2)) & 0xF)
/* set "loglevel" nibble */
#define ZFCP_SET_LOG_NIBBLE(value, zfcp_lognibble) \
(value << (zfcp_lognibble << 2))
/* all log-level defaults are combined to generate initial log-level */
#define ZFCP_LOG_LEVEL_DEFAULTS \
(ZFCP_SET_LOG_NIBBLE(ZFCP_LOG_LEVEL_NORMAL, ZFCP_LOG_AREA_OTHER) | \
ZFCP_SET_LOG_NIBBLE(ZFCP_LOG_LEVEL_NORMAL, ZFCP_LOG_AREA_SCSI) | \
ZFCP_SET_LOG_NIBBLE(ZFCP_LOG_LEVEL_NORMAL, ZFCP_LOG_AREA_FSF) | \
ZFCP_SET_LOG_NIBBLE(ZFCP_LOG_LEVEL_NORMAL, ZFCP_LOG_AREA_CONFIG) | \
ZFCP_SET_LOG_NIBBLE(ZFCP_LOG_LEVEL_NORMAL, ZFCP_LOG_AREA_CIO) | \
ZFCP_SET_LOG_NIBBLE(ZFCP_LOG_LEVEL_NORMAL, ZFCP_LOG_AREA_QDIO) | \
ZFCP_SET_LOG_NIBBLE(ZFCP_LOG_LEVEL_NORMAL, ZFCP_LOG_AREA_ERP) | \
ZFCP_SET_LOG_NIBBLE(ZFCP_LOG_LEVEL_NORMAL, ZFCP_LOG_AREA_FC))
/* check whether we have the right level for logging */
#define ZFCP_LOG_CHECK(level) \
((ZFCP_GET_LOG_VALUE(ZFCP_LOG_AREA)) >= level)
/* logging routine for zfcp */
#define _ZFCP_LOG(fmt, args...) \
printk(KERN_ERR ZFCP_NAME": %s(%d): " fmt, __FUNCTION__, \
__LINE__ , ##args)
#define ZFCP_LOG(level, fmt, args...) \
do { \
if (ZFCP_LOG_CHECK(level)) \
_ZFCP_LOG(fmt, ##args); \
} while (0)
#if ZFCP_LOG_LEVEL_LIMIT < ZFCP_LOG_LEVEL_NORMAL
# define ZFCP_LOG_NORMAL(fmt, args...) do { } while (0)
#else
# define ZFCP_LOG_NORMAL(fmt, args...) \
do { \
if (ZFCP_LOG_CHECK(ZFCP_LOG_LEVEL_NORMAL)) \
printk(KERN_ERR ZFCP_NAME": " fmt, ##args); \
} while (0)
#endif
#if ZFCP_LOG_LEVEL_LIMIT < ZFCP_LOG_LEVEL_INFO
# define ZFCP_LOG_INFO(fmt, args...) do { } while (0)
#else
# define ZFCP_LOG_INFO(fmt, args...) \
do { \
if (ZFCP_LOG_CHECK(ZFCP_LOG_LEVEL_INFO)) \
printk(KERN_ERR ZFCP_NAME": " fmt, ##args); \
} while (0)
#endif
#if ZFCP_LOG_LEVEL_LIMIT < ZFCP_LOG_LEVEL_DEBUG
# define ZFCP_LOG_DEBUG(fmt, args...) do { } while (0)
#else
# define ZFCP_LOG_DEBUG(fmt, args...) \
ZFCP_LOG(ZFCP_LOG_LEVEL_DEBUG, fmt , ##args)
#endif
#if ZFCP_LOG_LEVEL_LIMIT < ZFCP_LOG_LEVEL_TRACE
# define ZFCP_LOG_TRACE(fmt, args...) do { } while (0)
#else
# define ZFCP_LOG_TRACE(fmt, args...) \
ZFCP_LOG(ZFCP_LOG_LEVEL_TRACE, fmt , ##args)
#endif
/*************** ADAPTER/PORT/UNIT AND FSF_REQ STATUS FLAGS ******************/
/*
* Note, the leftmost status byte is common among adapter, port
* and unit
*/
#define ZFCP_COMMON_FLAGS 0xfff00000
/* common status bits */
#define ZFCP_STATUS_COMMON_REMOVE 0x80000000
#define ZFCP_STATUS_COMMON_RUNNING 0x40000000
#define ZFCP_STATUS_COMMON_ERP_FAILED 0x20000000
#define ZFCP_STATUS_COMMON_UNBLOCKED 0x10000000
#define ZFCP_STATUS_COMMON_OPENING 0x08000000
#define ZFCP_STATUS_COMMON_OPEN 0x04000000
#define ZFCP_STATUS_COMMON_CLOSING 0x02000000
#define ZFCP_STATUS_COMMON_ERP_INUSE 0x01000000
#define ZFCP_STATUS_COMMON_ACCESS_DENIED 0x00800000
#define ZFCP_STATUS_COMMON_ACCESS_BOXED 0x00400000
/* adapter status */
#define ZFCP_STATUS_ADAPTER_QDIOUP 0x00000002
#define ZFCP_STATUS_ADAPTER_REGISTERED 0x00000004
#define ZFCP_STATUS_ADAPTER_XCONFIG_OK 0x00000008
#define ZFCP_STATUS_ADAPTER_HOST_CON_INIT 0x00000010
#define ZFCP_STATUS_ADAPTER_ERP_THREAD_UP 0x00000020
#define ZFCP_STATUS_ADAPTER_ERP_THREAD_KILL 0x00000080
#define ZFCP_STATUS_ADAPTER_ERP_PENDING 0x00000100
#define ZFCP_STATUS_ADAPTER_LINK_UNPLUGGED 0x00000200
#define ZFCP_STATUS_ADAPTER_XPORT_OK 0x00000800
/* FC-PH/FC-GS well-known address identifiers for generic services */
#define ZFCP_DID_MANAGEMENT_SERVICE 0xFFFFFA
#define ZFCP_DID_TIME_SERVICE 0xFFFFFB
#define ZFCP_DID_DIRECTORY_SERVICE 0xFFFFFC
#define ZFCP_DID_ALIAS_SERVICE 0xFFFFF8
#define ZFCP_DID_KEY_DISTRIBUTION_SERVICE 0xFFFFF7
/* remote port status */
#define ZFCP_STATUS_PORT_PHYS_OPEN 0x00000001
#define ZFCP_STATUS_PORT_DID_DID 0x00000002
#define ZFCP_STATUS_PORT_PHYS_CLOSING 0x00000004
#define ZFCP_STATUS_PORT_NO_WWPN 0x00000008
#define ZFCP_STATUS_PORT_NO_SCSI_ID 0x00000010
#define ZFCP_STATUS_PORT_INVALID_WWPN 0x00000020
/* for ports with well known addresses */
#define ZFCP_STATUS_PORT_WKA \
(ZFCP_STATUS_PORT_NO_WWPN | \
ZFCP_STATUS_PORT_NO_SCSI_ID)
/* logical unit status */
#define ZFCP_STATUS_UNIT_NOTSUPPUNITRESET 0x00000001
#define ZFCP_STATUS_UNIT_TEMPORARY 0x00000002
#define ZFCP_STATUS_UNIT_SHARED 0x00000004
#define ZFCP_STATUS_UNIT_READONLY 0x00000008
#define ZFCP_STATUS_UNIT_REGISTERED 0x00000010
#define ZFCP_STATUS_UNIT_SCSI_WORK_PENDING 0x00000020
/* FSF request status (this does not have a common part) */
#define ZFCP_STATUS_FSFREQ_NOT_INIT 0x00000000
#define ZFCP_STATUS_FSFREQ_POOL 0x00000001
#define ZFCP_STATUS_FSFREQ_TASK_MANAGEMENT 0x00000002
#define ZFCP_STATUS_FSFREQ_COMPLETED 0x00000004
#define ZFCP_STATUS_FSFREQ_ERROR 0x00000008
#define ZFCP_STATUS_FSFREQ_CLEANUP 0x00000010
#define ZFCP_STATUS_FSFREQ_ABORTING 0x00000020
#define ZFCP_STATUS_FSFREQ_ABORTSUCCEEDED 0x00000040
#define ZFCP_STATUS_FSFREQ_ABORTNOTNEEDED 0x00000080
#define ZFCP_STATUS_FSFREQ_ABORTED 0x00000100
#define ZFCP_STATUS_FSFREQ_TMFUNCFAILED 0x00000200
#define ZFCP_STATUS_FSFREQ_TMFUNCNOTSUPP 0x00000400
#define ZFCP_STATUS_FSFREQ_RETRY 0x00000800
#define ZFCP_STATUS_FSFREQ_DISMISSED 0x00001000
/*********************** ERROR RECOVERY PROCEDURE DEFINES ********************/
#define ZFCP_MAX_ERPS 3
#define ZFCP_ERP_FSFREQ_TIMEOUT (30 * HZ)
#define ZFCP_ERP_MEMWAIT_TIMEOUT HZ
#define ZFCP_STATUS_ERP_TIMEDOUT 0x10000000
#define ZFCP_STATUS_ERP_CLOSE_ONLY 0x01000000
#define ZFCP_STATUS_ERP_DISMISSING 0x00100000
#define ZFCP_STATUS_ERP_DISMISSED 0x00200000
#define ZFCP_STATUS_ERP_LOWMEM 0x00400000
#define ZFCP_ERP_STEP_UNINITIALIZED 0x00000000
#define ZFCP_ERP_STEP_FSF_XCONFIG 0x00000001
#define ZFCP_ERP_STEP_PHYS_PORT_CLOSING 0x00000010
#define ZFCP_ERP_STEP_PORT_CLOSING 0x00000100
#define ZFCP_ERP_STEP_NAMESERVER_OPEN 0x00000200
#define ZFCP_ERP_STEP_NAMESERVER_LOOKUP 0x00000400
#define ZFCP_ERP_STEP_PORT_OPENING 0x00000800
#define ZFCP_ERP_STEP_UNIT_CLOSING 0x00001000
#define ZFCP_ERP_STEP_UNIT_OPENING 0x00002000
/* Ordered by escalation level (necessary for proper erp-code operation) */
#define ZFCP_ERP_ACTION_REOPEN_ADAPTER 0x4
#define ZFCP_ERP_ACTION_REOPEN_PORT_FORCED 0x3
#define ZFCP_ERP_ACTION_REOPEN_PORT 0x2
#define ZFCP_ERP_ACTION_REOPEN_UNIT 0x1
#define ZFCP_ERP_ACTION_RUNNING 0x1
#define ZFCP_ERP_ACTION_READY 0x2
#define ZFCP_ERP_SUCCEEDED 0x0
#define ZFCP_ERP_FAILED 0x1
#define ZFCP_ERP_CONTINUES 0x2
#define ZFCP_ERP_EXIT 0x3
#define ZFCP_ERP_DISMISSED 0x4
#define ZFCP_ERP_NOMEM 0x5
/******************** CFDC SPECIFIC STUFF *****************************/
/* Firewall data channel sense data record */
struct zfcp_cfdc_sense_data {
u32 signature; /* Request signature */
u32 devno; /* FCP adapter device number */
u32 command; /* Command code */
u32 fsf_status; /* FSF request status and status qualifier */
u8 fsf_status_qual[FSF_STATUS_QUALIFIER_SIZE];
u8 payloads[256]; /* Access conflicts list */
u8 control_file[0]; /* Access control table */
};
#define ZFCP_CFDC_SIGNATURE 0xCFDCACDF
#define ZFCP_CFDC_CMND_DOWNLOAD_NORMAL 0x00010001
#define ZFCP_CFDC_CMND_DOWNLOAD_FORCE 0x00010101
#define ZFCP_CFDC_CMND_FULL_ACCESS 0x00000201
#define ZFCP_CFDC_CMND_RESTRICTED_ACCESS 0x00000401
#define ZFCP_CFDC_CMND_UPLOAD 0x00010002
#define ZFCP_CFDC_DOWNLOAD 0x00000001
#define ZFCP_CFDC_UPLOAD 0x00000002
#define ZFCP_CFDC_WITH_CONTROL_FILE 0x00010000
#define ZFCP_CFDC_DEV_NAME "zfcp_cfdc"
#define ZFCP_CFDC_DEV_MAJOR MISC_MAJOR
#define ZFCP_CFDC_DEV_MINOR MISC_DYNAMIC_MINOR
#define ZFCP_CFDC_MAX_CONTROL_FILE_SIZE 127 * 1024
/************************* STRUCTURE DEFINITIONS *****************************/
struct zfcp_fsf_req;
/* holds various memory pools of an adapter */
struct zfcp_adapter_mempool {
mempool_t *fsf_req_erp;
mempool_t *fsf_req_scsi;
mempool_t *fsf_req_abort;
mempool_t *fsf_req_status_read;
mempool_t *data_status_read;
mempool_t *data_gid_pn;
};
/*
* header for CT_IU
*/
struct ct_hdr {
u8 revision; // 0x01
u8 in_id[3]; // 0x00
u8 gs_type; // 0xFC Directory Service
u8 gs_subtype; // 0x02 Name Server
u8 options; // 0x00 single bidirectional exchange
u8 reserved0;
u16 cmd_rsp_code; // 0x0121 GID_PN, or 0x0100 GA_NXT
u16 max_res_size; // <= (4096 - 16) / 4
u8 reserved1;
u8 reason_code;
u8 reason_code_expl;
u8 vendor_unique;
} __attribute__ ((packed));
/* nameserver request CT_IU -- for requests where
* a port name is required */
struct ct_iu_gid_pn_req {
struct ct_hdr header;
wwn_t wwpn;
} __attribute__ ((packed));
/* FS_ACC IU and data unit for GID_PN nameserver request */
struct ct_iu_gid_pn_resp {
struct ct_hdr header;
u32 d_id;
} __attribute__ ((packed));
typedef void (*zfcp_send_ct_handler_t)(unsigned long);
/**
* struct zfcp_send_ct - used to pass parameters to function zfcp_fsf_send_ct
* @port: port where the request is sent to
* @req: scatter-gather list for request
* @resp: scatter-gather list for response
* @req_count: number of elements in request scatter-gather list
* @resp_count: number of elements in response scatter-gather list
* @handler: handler function (called for response to the request)
* @handler_data: data passed to handler function
* @pool: pointer to memory pool for ct request structure
* @timeout: FSF timeout for this request
* @completion: completion for synchronization purposes
* @status: used to pass error status to calling function
*/
struct zfcp_send_ct {
struct zfcp_port *port;
struct scatterlist *req;
struct scatterlist *resp;
unsigned int req_count;
unsigned int resp_count;
zfcp_send_ct_handler_t handler;
unsigned long handler_data;
mempool_t *pool;
int timeout;
struct completion *completion;
int status;
};
/* used for name server requests in error recovery */
struct zfcp_gid_pn_data {
struct zfcp_send_ct ct;
struct scatterlist req;
struct scatterlist resp;
struct ct_iu_gid_pn_req ct_iu_req;
struct ct_iu_gid_pn_resp ct_iu_resp;
struct zfcp_port *port;
};
typedef void (*zfcp_send_els_handler_t)(unsigned long);
/**
* struct zfcp_send_els - used to pass parameters to function zfcp_fsf_send_els
* @adapter: adapter where request is sent from
* @port: port where ELS is destinated (port reference count has to be increased)
* @d_id: destiniation id of port where request is sent to
* @req: scatter-gather list for request
* @resp: scatter-gather list for response
* @req_count: number of elements in request scatter-gather list
* @resp_count: number of elements in response scatter-gather list
* @handler: handler function (called for response to the request)
* @handler_data: data passed to handler function
* @completion: completion for synchronization purposes
* @ls_code: hex code of ELS command
* @status: used to pass error status to calling function
*/
struct zfcp_send_els {
struct zfcp_adapter *adapter;
struct zfcp_port *port;
u32 d_id;
struct scatterlist *req;
struct scatterlist *resp;
unsigned int req_count;
unsigned int resp_count;
zfcp_send_els_handler_t handler;
unsigned long handler_data;
struct completion *completion;
int ls_code;
int status;
};
struct zfcp_qdio_queue {
struct qdio_buffer *buffer[QDIO_MAX_BUFFERS_PER_Q]; /* SBALs */
u8 free_index; /* index of next free bfr
in queue (free_count>0) */
atomic_t free_count; /* number of free buffers
in queue */
rwlock_t queue_lock; /* lock for operations on queue */
int distance_from_int; /* SBALs used since PCI indication
was last set */
};
struct zfcp_erp_action {
struct list_head list;
int action; /* requested action code */
struct zfcp_adapter *adapter; /* device which should be recovered */
struct zfcp_port *port;
struct zfcp_unit *unit;
volatile u32 status; /* recovery status */
u32 step; /* active step of this erp action */
struct zfcp_fsf_req *fsf_req; /* fsf request currently pending
for this action */
struct timer_list timer;
};
struct zfcp_adapter {
struct list_head list; /* list of adapters */
atomic_t refcount; /* reference count */
wait_queue_head_t remove_wq; /* can be used to wait for
refcount drop to zero */
wwn_t peer_wwnn; /* P2P peer WWNN */
wwn_t peer_wwpn; /* P2P peer WWPN */
u32 peer_d_id; /* P2P peer D_ID */
struct ccw_device *ccw_device; /* S/390 ccw device */
u32 hydra_version; /* Hydra version */
u32 fsf_lic_version;
u32 adapter_features; /* FCP channel features */
u32 connection_features; /* host connection features */
u32 hardware_version; /* of FCP channel */
struct Scsi_Host *scsi_host; /* Pointer to mid-layer */
struct list_head port_list_head; /* remote port list */
struct list_head port_remove_lh; /* head of ports to be
removed */
u32 ports; /* number of remote ports */
atomic_t reqs_active; /* # active FSF reqs */
unsigned long req_no; /* unique FSF req number */
struct list_head *req_list; /* list of pending reqs */
spinlock_t req_list_lock; /* request list lock */
struct zfcp_qdio_queue request_queue; /* request queue */
u32 fsf_req_seq_no; /* FSF cmnd seq number */
wait_queue_head_t request_wq; /* can be used to wait for
more avaliable SBALs */
struct zfcp_qdio_queue response_queue; /* response queue */
rwlock_t abort_lock; /* Protects against SCSI
stack abort/command
completion races */
u16 status_read_failed; /* # failed status reads */
atomic_t status; /* status of this adapter */
struct list_head erp_ready_head; /* error recovery for this
adapter/devices */
struct list_head erp_running_head;
rwlock_t erp_lock;
struct semaphore erp_ready_sem;
wait_queue_head_t erp_thread_wqh;
wait_queue_head_t erp_done_wqh;
struct zfcp_erp_action erp_action; /* pending error recovery */
atomic_t erp_counter;
u32 erp_total_count; /* total nr of enqueued erp
actions */
u32 erp_low_mem_count; /* nr of erp actions waiting
for memory */
struct zfcp_port *nameserver_port; /* adapter's nameserver */
debug_info_t *erp_dbf;
debug_info_t *hba_dbf;
debug_info_t *san_dbf; /* debug feature areas */
debug_info_t *scsi_dbf;
spinlock_t erp_dbf_lock;
spinlock_t hba_dbf_lock;
spinlock_t san_dbf_lock;
spinlock_t scsi_dbf_lock;
struct zfcp_erp_dbf_record erp_dbf_buf;
struct zfcp_hba_dbf_record hba_dbf_buf;
struct zfcp_san_dbf_record san_dbf_buf;
struct zfcp_scsi_dbf_record scsi_dbf_buf;
struct zfcp_adapter_mempool pool; /* Adapter memory pools */
struct qdio_initialize qdio_init_data; /* for qdio_establish */
struct device generic_services; /* directory for WKA ports */
struct fc_host_statistics *fc_stats;
struct fsf_qtcb_bottom_port *stats_reset_data;
unsigned long stats_reset;
};
/*
* the struct device sysfs_device must be at the beginning of this structure.
* pointer to struct device is used to free port structure in release function
* of the device. don't change!
*/
struct zfcp_port {
struct device sysfs_device; /* sysfs device */
struct fc_rport *rport; /* rport of fc transport class */
struct list_head list; /* list of remote ports */
atomic_t refcount; /* reference count */
wait_queue_head_t remove_wq; /* can be used to wait for
refcount drop to zero */
struct zfcp_adapter *adapter; /* adapter used to access port */
struct list_head unit_list_head; /* head of logical unit list */
struct list_head unit_remove_lh; /* head of luns to be removed
list */
u32 units; /* # of logical units in list */
atomic_t status; /* status of this remote port */
wwn_t wwnn; /* WWNN if known */
wwn_t wwpn; /* WWPN */
u32 d_id; /* D_ID */
u32 handle; /* handle assigned by FSF */
struct zfcp_erp_action erp_action; /* pending error recovery */
atomic_t erp_counter;
u32 maxframe_size;
u32 supported_classes;
};
/* the struct device sysfs_device must be at the beginning of this structure.
* pointer to struct device is used to free unit structure in release function
* of the device. don't change!
*/
struct zfcp_unit {
struct device sysfs_device; /* sysfs device */
struct list_head list; /* list of logical units */
atomic_t refcount; /* reference count */
wait_queue_head_t remove_wq; /* can be used to wait for
refcount drop to zero */
struct zfcp_port *port; /* remote port of unit */
atomic_t status; /* status of this logical unit */
unsigned int scsi_lun; /* own SCSI LUN */
fcp_lun_t fcp_lun; /* own FCP_LUN */
u32 handle; /* handle assigned by FSF */
struct scsi_device *device; /* scsi device struct pointer */
struct zfcp_erp_action erp_action; /* pending error recovery */
atomic_t erp_counter;
wait_queue_head_t scsi_scan_wq; /* can be used to wait until
all scsi_scan_target
requests have been
completed. */
};
/* FSF request */
struct zfcp_fsf_req {
struct list_head list; /* list of FSF requests */
unsigned long req_id; /* unique request ID */
struct zfcp_adapter *adapter; /* adapter request belongs to */
u8 sbal_number; /* nr of SBALs free for use */
u8 sbal_first; /* first SBAL for this request */
u8 sbal_last; /* last possible SBAL for
this reuest */
u8 sbal_curr; /* current SBAL during creation
of request */
u8 sbale_curr; /* current SBALE during creation
of request */
wait_queue_head_t completion_wq; /* can be used by a routine
to wait for completion */
volatile u32 status; /* status of this request */
u32 fsf_command; /* FSF Command copy */
struct fsf_qtcb *qtcb; /* address of associated QTCB */
u32 seq_no; /* Sequence number of request */
unsigned long data; /* private data of request */
struct timer_list timer; /* used for erp or scsi er */
struct zfcp_erp_action *erp_action; /* used if this request is
issued on behalf of erp */
mempool_t *pool; /* used if request was alloacted
from emergency pool */
unsigned long long issued; /* request sent time (STCK) */
struct zfcp_unit *unit;
};
typedef void zfcp_fsf_req_handler_t(struct zfcp_fsf_req*);
/* driver data */
struct zfcp_data {
struct scsi_host_template scsi_host_template;
struct scsi_transport_template *scsi_transport_template;
atomic_t status; /* Module status flags */
struct list_head adapter_list_head; /* head of adapter list */
struct list_head adapter_remove_lh; /* head of adapters to be
removed */
u32 adapters; /* # of adapters in list */
rwlock_t config_lock; /* serialises changes
to adapter/port/unit
lists */
struct semaphore config_sema; /* serialises configuration
changes */
atomic_t loglevel; /* current loglevel */
char init_busid[BUS_ID_SIZE];
wwn_t init_wwpn;
fcp_lun_t init_fcp_lun;
char *driver_version;
struct kmem_cache *fsf_req_qtcb_cache;
struct kmem_cache *sr_buffer_cache;
struct kmem_cache *gid_pn_cache;
};
/**
* struct zfcp_sg_list - struct describing a scatter-gather list
* @sg: pointer to array of (struct scatterlist)
* @count: number of elements in scatter-gather list
*/
struct zfcp_sg_list {
struct scatterlist *sg;
unsigned int count;
};
/* number of elements for various memory pools */
#define ZFCP_POOL_FSF_REQ_ERP_NR 1
#define ZFCP_POOL_FSF_REQ_SCSI_NR 1
#define ZFCP_POOL_FSF_REQ_ABORT_NR 1
#define ZFCP_POOL_STATUS_READ_NR ZFCP_STATUS_READS_RECOM
#define ZFCP_POOL_DATA_GID_PN_NR 1
/* struct used by memory pools for fsf_requests */
struct zfcp_fsf_req_qtcb {
struct zfcp_fsf_req fsf_req;
struct fsf_qtcb qtcb;
};
/********************** ZFCP SPECIFIC DEFINES ********************************/
#define ZFCP_REQ_AUTO_CLEANUP 0x00000002
#define ZFCP_WAIT_FOR_SBAL 0x00000004
#define ZFCP_REQ_NO_QTCB 0x00000008
#define ZFCP_SET 0x00000100
#define ZFCP_CLEAR 0x00000200
#ifndef atomic_test_mask
#define atomic_test_mask(mask, target) \
((atomic_read(target) & mask) == mask)
#endif
extern void _zfcp_hex_dump(char *, int);
#define ZFCP_HEX_DUMP(level, addr, count) \
if (ZFCP_LOG_CHECK(level)) { \
_zfcp_hex_dump(addr, count); \
}
#define zfcp_get_busid_by_adapter(adapter) (adapter->ccw_device->dev.bus_id)
#define zfcp_get_busid_by_port(port) (zfcp_get_busid_by_adapter(port->adapter))
#define zfcp_get_busid_by_unit(unit) (zfcp_get_busid_by_port(unit->port))
/*
* Helper functions for request ID management.
*/
static inline int zfcp_reqlist_hash(unsigned long req_id)
{
return req_id % REQUEST_LIST_SIZE;
}
static inline void zfcp_reqlist_add(struct zfcp_adapter *adapter,
struct zfcp_fsf_req *fsf_req)
{
unsigned int idx;
idx = zfcp_reqlist_hash(fsf_req->req_id);
list_add_tail(&fsf_req->list, &adapter->req_list[idx]);
}
static inline void zfcp_reqlist_remove(struct zfcp_adapter *adapter,
struct zfcp_fsf_req *fsf_req)
{
list_del(&fsf_req->list);
}
static inline struct zfcp_fsf_req *
zfcp_reqlist_find(struct zfcp_adapter *adapter, unsigned long req_id)
{
struct zfcp_fsf_req *request;
unsigned int idx;
idx = zfcp_reqlist_hash(req_id);
list_for_each_entry(request, &adapter->req_list[idx], list)
if (request->req_id == req_id)
return request;
return NULL;
}
/*
* functions needed for reference/usage counting
*/
static inline void
zfcp_unit_get(struct zfcp_unit *unit)
{
atomic_inc(&unit->refcount);
}
static inline void
zfcp_unit_put(struct zfcp_unit *unit)
{
if (atomic_dec_return(&unit->refcount) == 0)
wake_up(&unit->remove_wq);
}
static inline void
zfcp_unit_wait(struct zfcp_unit *unit)
{
wait_event(unit->remove_wq, atomic_read(&unit->refcount) == 0);
}
static inline void
zfcp_port_get(struct zfcp_port *port)
{
atomic_inc(&port->refcount);
}
static inline void
zfcp_port_put(struct zfcp_port *port)
{
if (atomic_dec_return(&port->refcount) == 0)
wake_up(&port->remove_wq);
}
static inline void
zfcp_port_wait(struct zfcp_port *port)
{
wait_event(port->remove_wq, atomic_read(&port->refcount) == 0);
}
static inline void
zfcp_adapter_get(struct zfcp_adapter *adapter)
{
atomic_inc(&adapter->refcount);
}
static inline void
zfcp_adapter_put(struct zfcp_adapter *adapter)
{
if (atomic_dec_return(&adapter->refcount) == 0)
wake_up(&adapter->remove_wq);
}
static inline void
zfcp_adapter_wait(struct zfcp_adapter *adapter)
{
wait_event(adapter->remove_wq, atomic_read(&adapter->refcount) == 0);
}
#endif /* ZFCP_DEF_H */
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