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linux-stable/drivers/scsi/megaraid/megaraid_sas.h
Sumant Patro 1341c93922 [SCSI] megaraid_sas: new template defined to represent each type of controllers 
This patch defines a new template to represent each type of
controllers (identified by the processor used). The template has
members that is set with appropriate values during driver
initialisation. This change is done to support new controllers with
minimal change to existing code. In future, for a new controller
support, a template will be declared and its members initialised
appropriately.

Signed-off-by: Sumant Patro <Sumant.Patro@lsil.com>

Rejections fixed and
Signed-off-by: James Bottomley <James.Bottomley@SteelEye.com>
2006-01-29 11:25:30 -06:00

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/*
*
* Linux MegaRAID driver for SAS based RAID controllers
*
* Copyright (c) 2003-2005 LSI Logic Corporation.
*
* 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 of the License, or (at your option) any later version.
*
* FILE : megaraid_sas.h
*/
#ifndef LSI_MEGARAID_SAS_H
#define LSI_MEGARAID_SAS_H
/**
* MegaRAID SAS Driver meta data
*/
#define MEGASAS_VERSION "00.00.02.02"
#define MEGASAS_RELDATE "Jan 23, 2006"
#define MEGASAS_EXT_VERSION "Mon Jan 23 14:09:01 PST 2006"
/*
* =====================================
* MegaRAID SAS MFI firmware definitions
* =====================================
*/
/*
* MFI stands for MegaRAID SAS FW Interface. This is just a moniker for
* protocol between the software and firmware. Commands are issued using
* "message frames"
*/
/**
* FW posts its state in upper 4 bits of outbound_msg_0 register
*/
#define MFI_STATE_MASK 0xF0000000
#define MFI_STATE_UNDEFINED 0x00000000
#define MFI_STATE_BB_INIT 0x10000000
#define MFI_STATE_FW_INIT 0x40000000
#define MFI_STATE_WAIT_HANDSHAKE 0x60000000
#define MFI_STATE_FW_INIT_2 0x70000000
#define MFI_STATE_DEVICE_SCAN 0x80000000
#define MFI_STATE_FLUSH_CACHE 0xA0000000
#define MFI_STATE_READY 0xB0000000
#define MFI_STATE_OPERATIONAL 0xC0000000
#define MFI_STATE_FAULT 0xF0000000
#define MEGAMFI_FRAME_SIZE 64
/**
* During FW init, clear pending cmds & reset state using inbound_msg_0
*
* ABORT : Abort all pending cmds
* READY : Move from OPERATIONAL to READY state; discard queue info
* MFIMODE : Discard (possible) low MFA posted in 64-bit mode (??)
* CLR_HANDSHAKE: FW is waiting for HANDSHAKE from BIOS or Driver
*/
#define MFI_INIT_ABORT 0x00000000
#define MFI_INIT_READY 0x00000002
#define MFI_INIT_MFIMODE 0x00000004
#define MFI_INIT_CLEAR_HANDSHAKE 0x00000008
#define MFI_RESET_FLAGS MFI_INIT_READY|MFI_INIT_MFIMODE
/**
* MFI frame flags
*/
#define MFI_FRAME_POST_IN_REPLY_QUEUE 0x0000
#define MFI_FRAME_DONT_POST_IN_REPLY_QUEUE 0x0001
#define MFI_FRAME_SGL32 0x0000
#define MFI_FRAME_SGL64 0x0002
#define MFI_FRAME_SENSE32 0x0000
#define MFI_FRAME_SENSE64 0x0004
#define MFI_FRAME_DIR_NONE 0x0000
#define MFI_FRAME_DIR_WRITE 0x0008
#define MFI_FRAME_DIR_READ 0x0010
#define MFI_FRAME_DIR_BOTH 0x0018
/**
* Definition for cmd_status
*/
#define MFI_CMD_STATUS_POLL_MODE 0xFF
/**
* MFI command opcodes
*/
#define MFI_CMD_INIT 0x00
#define MFI_CMD_LD_READ 0x01
#define MFI_CMD_LD_WRITE 0x02
#define MFI_CMD_LD_SCSI_IO 0x03
#define MFI_CMD_PD_SCSI_IO 0x04
#define MFI_CMD_DCMD 0x05
#define MFI_CMD_ABORT 0x06
#define MFI_CMD_SMP 0x07
#define MFI_CMD_STP 0x08
#define MR_DCMD_CTRL_GET_INFO 0x01010000
#define MR_DCMD_CTRL_CACHE_FLUSH 0x01101000
#define MR_FLUSH_CTRL_CACHE 0x01
#define MR_FLUSH_DISK_CACHE 0x02
#define MR_DCMD_CTRL_SHUTDOWN 0x01050000
#define MR_ENABLE_DRIVE_SPINDOWN 0x01
#define MR_DCMD_CTRL_EVENT_GET_INFO 0x01040100
#define MR_DCMD_CTRL_EVENT_GET 0x01040300
#define MR_DCMD_CTRL_EVENT_WAIT 0x01040500
#define MR_DCMD_LD_GET_PROPERTIES 0x03030000
#define MR_DCMD_CLUSTER 0x08000000
#define MR_DCMD_CLUSTER_RESET_ALL 0x08010100
#define MR_DCMD_CLUSTER_RESET_LD 0x08010200
/**
* MFI command completion codes
*/
enum MFI_STAT {
MFI_STAT_OK = 0x00,
MFI_STAT_INVALID_CMD = 0x01,
MFI_STAT_INVALID_DCMD = 0x02,
MFI_STAT_INVALID_PARAMETER = 0x03,
MFI_STAT_INVALID_SEQUENCE_NUMBER = 0x04,
MFI_STAT_ABORT_NOT_POSSIBLE = 0x05,
MFI_STAT_APP_HOST_CODE_NOT_FOUND = 0x06,
MFI_STAT_APP_IN_USE = 0x07,
MFI_STAT_APP_NOT_INITIALIZED = 0x08,
MFI_STAT_ARRAY_INDEX_INVALID = 0x09,
MFI_STAT_ARRAY_ROW_NOT_EMPTY = 0x0a,
MFI_STAT_CONFIG_RESOURCE_CONFLICT = 0x0b,
MFI_STAT_DEVICE_NOT_FOUND = 0x0c,
MFI_STAT_DRIVE_TOO_SMALL = 0x0d,
MFI_STAT_FLASH_ALLOC_FAIL = 0x0e,
MFI_STAT_FLASH_BUSY = 0x0f,
MFI_STAT_FLASH_ERROR = 0x10,
MFI_STAT_FLASH_IMAGE_BAD = 0x11,
MFI_STAT_FLASH_IMAGE_INCOMPLETE = 0x12,
MFI_STAT_FLASH_NOT_OPEN = 0x13,
MFI_STAT_FLASH_NOT_STARTED = 0x14,
MFI_STAT_FLUSH_FAILED = 0x15,
MFI_STAT_HOST_CODE_NOT_FOUNT = 0x16,
MFI_STAT_LD_CC_IN_PROGRESS = 0x17,
MFI_STAT_LD_INIT_IN_PROGRESS = 0x18,
MFI_STAT_LD_LBA_OUT_OF_RANGE = 0x19,
MFI_STAT_LD_MAX_CONFIGURED = 0x1a,
MFI_STAT_LD_NOT_OPTIMAL = 0x1b,
MFI_STAT_LD_RBLD_IN_PROGRESS = 0x1c,
MFI_STAT_LD_RECON_IN_PROGRESS = 0x1d,
MFI_STAT_LD_WRONG_RAID_LEVEL = 0x1e,
MFI_STAT_MAX_SPARES_EXCEEDED = 0x1f,
MFI_STAT_MEMORY_NOT_AVAILABLE = 0x20,
MFI_STAT_MFC_HW_ERROR = 0x21,
MFI_STAT_NO_HW_PRESENT = 0x22,
MFI_STAT_NOT_FOUND = 0x23,
MFI_STAT_NOT_IN_ENCL = 0x24,
MFI_STAT_PD_CLEAR_IN_PROGRESS = 0x25,
MFI_STAT_PD_TYPE_WRONG = 0x26,
MFI_STAT_PR_DISABLED = 0x27,
MFI_STAT_ROW_INDEX_INVALID = 0x28,
MFI_STAT_SAS_CONFIG_INVALID_ACTION = 0x29,
MFI_STAT_SAS_CONFIG_INVALID_DATA = 0x2a,
MFI_STAT_SAS_CONFIG_INVALID_PAGE = 0x2b,
MFI_STAT_SAS_CONFIG_INVALID_TYPE = 0x2c,
MFI_STAT_SCSI_DONE_WITH_ERROR = 0x2d,
MFI_STAT_SCSI_IO_FAILED = 0x2e,
MFI_STAT_SCSI_RESERVATION_CONFLICT = 0x2f,
MFI_STAT_SHUTDOWN_FAILED = 0x30,
MFI_STAT_TIME_NOT_SET = 0x31,
MFI_STAT_WRONG_STATE = 0x32,
MFI_STAT_LD_OFFLINE = 0x33,
MFI_STAT_PEER_NOTIFICATION_REJECTED = 0x34,
MFI_STAT_PEER_NOTIFICATION_FAILED = 0x35,
MFI_STAT_RESERVATION_IN_PROGRESS = 0x36,
MFI_STAT_I2C_ERRORS_DETECTED = 0x37,
MFI_STAT_PCI_ERRORS_DETECTED = 0x38,
MFI_STAT_INVALID_STATUS = 0xFF
};
/*
* Number of mailbox bytes in DCMD message frame
*/
#define MFI_MBOX_SIZE 12
enum MR_EVT_CLASS {
MR_EVT_CLASS_DEBUG = -2,
MR_EVT_CLASS_PROGRESS = -1,
MR_EVT_CLASS_INFO = 0,
MR_EVT_CLASS_WARNING = 1,
MR_EVT_CLASS_CRITICAL = 2,
MR_EVT_CLASS_FATAL = 3,
MR_EVT_CLASS_DEAD = 4,
};
enum MR_EVT_LOCALE {
MR_EVT_LOCALE_LD = 0x0001,
MR_EVT_LOCALE_PD = 0x0002,
MR_EVT_LOCALE_ENCL = 0x0004,
MR_EVT_LOCALE_BBU = 0x0008,
MR_EVT_LOCALE_SAS = 0x0010,
MR_EVT_LOCALE_CTRL = 0x0020,
MR_EVT_LOCALE_CONFIG = 0x0040,
MR_EVT_LOCALE_CLUSTER = 0x0080,
MR_EVT_LOCALE_ALL = 0xffff,
};
enum MR_EVT_ARGS {
MR_EVT_ARGS_NONE,
MR_EVT_ARGS_CDB_SENSE,
MR_EVT_ARGS_LD,
MR_EVT_ARGS_LD_COUNT,
MR_EVT_ARGS_LD_LBA,
MR_EVT_ARGS_LD_OWNER,
MR_EVT_ARGS_LD_LBA_PD_LBA,
MR_EVT_ARGS_LD_PROG,
MR_EVT_ARGS_LD_STATE,
MR_EVT_ARGS_LD_STRIP,
MR_EVT_ARGS_PD,
MR_EVT_ARGS_PD_ERR,
MR_EVT_ARGS_PD_LBA,
MR_EVT_ARGS_PD_LBA_LD,
MR_EVT_ARGS_PD_PROG,
MR_EVT_ARGS_PD_STATE,
MR_EVT_ARGS_PCI,
MR_EVT_ARGS_RATE,
MR_EVT_ARGS_STR,
MR_EVT_ARGS_TIME,
MR_EVT_ARGS_ECC,
};
/*
* SAS controller properties
*/
struct megasas_ctrl_prop {
u16 seq_num;
u16 pred_fail_poll_interval;
u16 intr_throttle_count;
u16 intr_throttle_timeouts;
u8 rebuild_rate;
u8 patrol_read_rate;
u8 bgi_rate;
u8 cc_rate;
u8 recon_rate;
u8 cache_flush_interval;
u8 spinup_drv_count;
u8 spinup_delay;
u8 cluster_enable;
u8 coercion_mode;
u8 alarm_enable;
u8 disable_auto_rebuild;
u8 disable_battery_warn;
u8 ecc_bucket_size;
u16 ecc_bucket_leak_rate;
u8 restore_hotspare_on_insertion;
u8 expose_encl_devices;
u8 reserved[38];
} __attribute__ ((packed));
/*
* SAS controller information
*/
struct megasas_ctrl_info {
/*
* PCI device information
*/
struct {
u16 vendor_id;
u16 device_id;
u16 sub_vendor_id;
u16 sub_device_id;
u8 reserved[24];
} __attribute__ ((packed)) pci;
/*
* Host interface information
*/
struct {
u8 PCIX:1;
u8 PCIE:1;
u8 iSCSI:1;
u8 SAS_3G:1;
u8 reserved_0:4;
u8 reserved_1[6];
u8 port_count;
u64 port_addr[8];
} __attribute__ ((packed)) host_interface;
/*
* Device (backend) interface information
*/
struct {
u8 SPI:1;
u8 SAS_3G:1;
u8 SATA_1_5G:1;
u8 SATA_3G:1;
u8 reserved_0:4;
u8 reserved_1[6];
u8 port_count;
u64 port_addr[8];
} __attribute__ ((packed)) device_interface;
/*
* List of components residing in flash. All str are null terminated
*/
u32 image_check_word;
u32 image_component_count;
struct {
char name[8];
char version[32];
char build_date[16];
char built_time[16];
} __attribute__ ((packed)) image_component[8];
/*
* List of flash components that have been flashed on the card, but
* are not in use, pending reset of the adapter. This list will be
* empty if a flash operation has not occurred. All stings are null
* terminated
*/
u32 pending_image_component_count;
struct {
char name[8];
char version[32];
char build_date[16];
char build_time[16];
} __attribute__ ((packed)) pending_image_component[8];
u8 max_arms;
u8 max_spans;
u8 max_arrays;
u8 max_lds;
char product_name[80];
char serial_no[32];
/*
* Other physical/controller/operation information. Indicates the
* presence of the hardware
*/
struct {
u32 bbu:1;
u32 alarm:1;
u32 nvram:1;
u32 uart:1;
u32 reserved:28;
} __attribute__ ((packed)) hw_present;
u32 current_fw_time;
/*
* Maximum data transfer sizes
*/
u16 max_concurrent_cmds;
u16 max_sge_count;
u32 max_request_size;
/*
* Logical and physical device counts
*/
u16 ld_present_count;
u16 ld_degraded_count;
u16 ld_offline_count;
u16 pd_present_count;
u16 pd_disk_present_count;
u16 pd_disk_pred_failure_count;
u16 pd_disk_failed_count;
/*
* Memory size information
*/
u16 nvram_size;
u16 memory_size;
u16 flash_size;
/*
* Error counters
*/
u16 mem_correctable_error_count;
u16 mem_uncorrectable_error_count;
/*
* Cluster information
*/
u8 cluster_permitted;
u8 cluster_active;
/*
* Additional max data transfer sizes
*/
u16 max_strips_per_io;
/*
* Controller capabilities structures
*/
struct {
u32 raid_level_0:1;
u32 raid_level_1:1;
u32 raid_level_5:1;
u32 raid_level_1E:1;
u32 raid_level_6:1;
u32 reserved:27;
} __attribute__ ((packed)) raid_levels;
struct {
u32 rbld_rate:1;
u32 cc_rate:1;
u32 bgi_rate:1;
u32 recon_rate:1;
u32 patrol_rate:1;
u32 alarm_control:1;
u32 cluster_supported:1;
u32 bbu:1;
u32 spanning_allowed:1;
u32 dedicated_hotspares:1;
u32 revertible_hotspares:1;
u32 foreign_config_import:1;
u32 self_diagnostic:1;
u32 mixed_redundancy_arr:1;
u32 global_hot_spares:1;
u32 reserved:17;
} __attribute__ ((packed)) adapter_operations;
struct {
u32 read_policy:1;
u32 write_policy:1;
u32 io_policy:1;
u32 access_policy:1;
u32 disk_cache_policy:1;
u32 reserved:27;
} __attribute__ ((packed)) ld_operations;
struct {
u8 min;
u8 max;
u8 reserved[2];
} __attribute__ ((packed)) stripe_sz_ops;
struct {
u32 force_online:1;
u32 force_offline:1;
u32 force_rebuild:1;
u32 reserved:29;
} __attribute__ ((packed)) pd_operations;
struct {
u32 ctrl_supports_sas:1;
u32 ctrl_supports_sata:1;
u32 allow_mix_in_encl:1;
u32 allow_mix_in_ld:1;
u32 allow_sata_in_cluster:1;
u32 reserved:27;
} __attribute__ ((packed)) pd_mix_support;
/*
* Define ECC single-bit-error bucket information
*/
u8 ecc_bucket_count;
u8 reserved_2[11];
/*
* Include the controller properties (changeable items)
*/
struct megasas_ctrl_prop properties;
/*
* Define FW pkg version (set in envt v'bles on OEM basis)
*/
char package_version[0x60];
u8 pad[0x800 - 0x6a0];
} __attribute__ ((packed));
/*
* ===============================
* MegaRAID SAS driver definitions
* ===============================
*/
#define MEGASAS_MAX_PD_CHANNELS 2
#define MEGASAS_MAX_LD_CHANNELS 2
#define MEGASAS_MAX_CHANNELS (MEGASAS_MAX_PD_CHANNELS + \
MEGASAS_MAX_LD_CHANNELS)
#define MEGASAS_MAX_DEV_PER_CHANNEL 128
#define MEGASAS_DEFAULT_INIT_ID -1
#define MEGASAS_MAX_LUN 8
#define MEGASAS_MAX_LD 64
/*
* When SCSI mid-layer calls driver's reset routine, driver waits for
* MEGASAS_RESET_WAIT_TIME seconds for all outstanding IO to complete. Note
* that the driver cannot _actually_ abort or reset pending commands. While
* it is waiting for the commands to complete, it prints a diagnostic message
* every MEGASAS_RESET_NOTICE_INTERVAL seconds
*/
#define MEGASAS_RESET_WAIT_TIME 180
#define MEGASAS_RESET_NOTICE_INTERVAL 5
#define MEGASAS_IOCTL_CMD 0
/*
* FW reports the maximum of number of commands that it can accept (maximum
* commands that can be outstanding) at any time. The driver must report a
* lower number to the mid layer because it can issue a few internal commands
* itself (E.g, AEN, abort cmd, IOCTLs etc). The number of commands it needs
* is shown below
*/
#define MEGASAS_INT_CMDS 32
/*
* FW can accept both 32 and 64 bit SGLs. We want to allocate 32/64 bit
* SGLs based on the size of dma_addr_t
*/
#define IS_DMA64 (sizeof(dma_addr_t) == 8)
#define MFI_OB_INTR_STATUS_MASK 0x00000002
#define MFI_POLL_TIMEOUT_SECS 10
struct megasas_register_set {
u32 reserved_0[4]; /*0000h */
u32 inbound_msg_0; /*0010h */
u32 inbound_msg_1; /*0014h */
u32 outbound_msg_0; /*0018h */
u32 outbound_msg_1; /*001Ch */
u32 inbound_doorbell; /*0020h */
u32 inbound_intr_status; /*0024h */
u32 inbound_intr_mask; /*0028h */
u32 outbound_doorbell; /*002Ch */
u32 outbound_intr_status; /*0030h */
u32 outbound_intr_mask; /*0034h */
u32 reserved_1[2]; /*0038h */
u32 inbound_queue_port; /*0040h */
u32 outbound_queue_port; /*0044h */
u32 reserved_2; /*004Ch */
u32 index_registers[1004]; /*0050h */
} __attribute__ ((packed));
struct megasas_sge32 {
u32 phys_addr;
u32 length;
} __attribute__ ((packed));
struct megasas_sge64 {
u64 phys_addr;
u32 length;
} __attribute__ ((packed));
union megasas_sgl {
struct megasas_sge32 sge32[1];
struct megasas_sge64 sge64[1];
} __attribute__ ((packed));
struct megasas_header {
u8 cmd; /*00h */
u8 sense_len; /*01h */
u8 cmd_status; /*02h */
u8 scsi_status; /*03h */
u8 target_id; /*04h */
u8 lun; /*05h */
u8 cdb_len; /*06h */
u8 sge_count; /*07h */
u32 context; /*08h */
u32 pad_0; /*0Ch */
u16 flags; /*10h */
u16 timeout; /*12h */
u32 data_xferlen; /*14h */
} __attribute__ ((packed));
union megasas_sgl_frame {
struct megasas_sge32 sge32[8];
struct megasas_sge64 sge64[5];
} __attribute__ ((packed));
struct megasas_init_frame {
u8 cmd; /*00h */
u8 reserved_0; /*01h */
u8 cmd_status; /*02h */
u8 reserved_1; /*03h */
u32 reserved_2; /*04h */
u32 context; /*08h */
u32 pad_0; /*0Ch */
u16 flags; /*10h */
u16 reserved_3; /*12h */
u32 data_xfer_len; /*14h */
u32 queue_info_new_phys_addr_lo; /*18h */
u32 queue_info_new_phys_addr_hi; /*1Ch */
u32 queue_info_old_phys_addr_lo; /*20h */
u32 queue_info_old_phys_addr_hi; /*24h */
u32 reserved_4[6]; /*28h */
} __attribute__ ((packed));
struct megasas_init_queue_info {
u32 init_flags; /*00h */
u32 reply_queue_entries; /*04h */
u32 reply_queue_start_phys_addr_lo; /*08h */
u32 reply_queue_start_phys_addr_hi; /*0Ch */
u32 producer_index_phys_addr_lo; /*10h */
u32 producer_index_phys_addr_hi; /*14h */
u32 consumer_index_phys_addr_lo; /*18h */
u32 consumer_index_phys_addr_hi; /*1Ch */
} __attribute__ ((packed));
struct megasas_io_frame {
u8 cmd; /*00h */
u8 sense_len; /*01h */
u8 cmd_status; /*02h */
u8 scsi_status; /*03h */
u8 target_id; /*04h */
u8 access_byte; /*05h */
u8 reserved_0; /*06h */
u8 sge_count; /*07h */
u32 context; /*08h */
u32 pad_0; /*0Ch */
u16 flags; /*10h */
u16 timeout; /*12h */
u32 lba_count; /*14h */
u32 sense_buf_phys_addr_lo; /*18h */
u32 sense_buf_phys_addr_hi; /*1Ch */
u32 start_lba_lo; /*20h */
u32 start_lba_hi; /*24h */
union megasas_sgl sgl; /*28h */
} __attribute__ ((packed));
struct megasas_pthru_frame {
u8 cmd; /*00h */
u8 sense_len; /*01h */
u8 cmd_status; /*02h */
u8 scsi_status; /*03h */
u8 target_id; /*04h */
u8 lun; /*05h */
u8 cdb_len; /*06h */
u8 sge_count; /*07h */
u32 context; /*08h */
u32 pad_0; /*0Ch */
u16 flags; /*10h */
u16 timeout; /*12h */
u32 data_xfer_len; /*14h */
u32 sense_buf_phys_addr_lo; /*18h */
u32 sense_buf_phys_addr_hi; /*1Ch */
u8 cdb[16]; /*20h */
union megasas_sgl sgl; /*30h */
} __attribute__ ((packed));
struct megasas_dcmd_frame {
u8 cmd; /*00h */
u8 reserved_0; /*01h */
u8 cmd_status; /*02h */
u8 reserved_1[4]; /*03h */
u8 sge_count; /*07h */
u32 context; /*08h */
u32 pad_0; /*0Ch */
u16 flags; /*10h */
u16 timeout; /*12h */
u32 data_xfer_len; /*14h */
u32 opcode; /*18h */
union { /*1Ch */
u8 b[12];
u16 s[6];
u32 w[3];
} mbox;
union megasas_sgl sgl; /*28h */
} __attribute__ ((packed));
struct megasas_abort_frame {
u8 cmd; /*00h */
u8 reserved_0; /*01h */
u8 cmd_status; /*02h */
u8 reserved_1; /*03h */
u32 reserved_2; /*04h */
u32 context; /*08h */
u32 pad_0; /*0Ch */
u16 flags; /*10h */
u16 reserved_3; /*12h */
u32 reserved_4; /*14h */
u32 abort_context; /*18h */
u32 pad_1; /*1Ch */
u32 abort_mfi_phys_addr_lo; /*20h */
u32 abort_mfi_phys_addr_hi; /*24h */
u32 reserved_5[6]; /*28h */
} __attribute__ ((packed));
struct megasas_smp_frame {
u8 cmd; /*00h */
u8 reserved_1; /*01h */
u8 cmd_status; /*02h */
u8 connection_status; /*03h */
u8 reserved_2[3]; /*04h */
u8 sge_count; /*07h */
u32 context; /*08h */
u32 pad_0; /*0Ch */
u16 flags; /*10h */
u16 timeout; /*12h */
u32 data_xfer_len; /*14h */
u64 sas_addr; /*18h */
union {
struct megasas_sge32 sge32[2]; /* [0]: resp [1]: req */
struct megasas_sge64 sge64[2]; /* [0]: resp [1]: req */
} sgl;
} __attribute__ ((packed));
struct megasas_stp_frame {
u8 cmd; /*00h */
u8 reserved_1; /*01h */
u8 cmd_status; /*02h */
u8 reserved_2; /*03h */
u8 target_id; /*04h */
u8 reserved_3[2]; /*05h */
u8 sge_count; /*07h */
u32 context; /*08h */
u32 pad_0; /*0Ch */
u16 flags; /*10h */
u16 timeout; /*12h */
u32 data_xfer_len; /*14h */
u16 fis[10]; /*18h */
u32 stp_flags;
union {
struct megasas_sge32 sge32[2]; /* [0]: resp [1]: data */
struct megasas_sge64 sge64[2]; /* [0]: resp [1]: data */
} sgl;
} __attribute__ ((packed));
union megasas_frame {
struct megasas_header hdr;
struct megasas_init_frame init;
struct megasas_io_frame io;
struct megasas_pthru_frame pthru;
struct megasas_dcmd_frame dcmd;
struct megasas_abort_frame abort;
struct megasas_smp_frame smp;
struct megasas_stp_frame stp;
u8 raw_bytes[64];
};
struct megasas_cmd;
union megasas_evt_class_locale {
struct {
u16 locale;
u8 reserved;
s8 class;
} __attribute__ ((packed)) members;
u32 word;
} __attribute__ ((packed));
struct megasas_evt_log_info {
u32 newest_seq_num;
u32 oldest_seq_num;
u32 clear_seq_num;
u32 shutdown_seq_num;
u32 boot_seq_num;
} __attribute__ ((packed));
struct megasas_progress {
u16 progress;
u16 elapsed_seconds;
} __attribute__ ((packed));
struct megasas_evtarg_ld {
u16 target_id;
u8 ld_index;
u8 reserved;
} __attribute__ ((packed));
struct megasas_evtarg_pd {
u16 device_id;
u8 encl_index;
u8 slot_number;
} __attribute__ ((packed));
struct megasas_evt_detail {
u32 seq_num;
u32 time_stamp;
u32 code;
union megasas_evt_class_locale cl;
u8 arg_type;
u8 reserved1[15];
union {
struct {
struct megasas_evtarg_pd pd;
u8 cdb_length;
u8 sense_length;
u8 reserved[2];
u8 cdb[16];
u8 sense[64];
} __attribute__ ((packed)) cdbSense;
struct megasas_evtarg_ld ld;
struct {
struct megasas_evtarg_ld ld;
u64 count;
} __attribute__ ((packed)) ld_count;
struct {
u64 lba;
struct megasas_evtarg_ld ld;
} __attribute__ ((packed)) ld_lba;
struct {
struct megasas_evtarg_ld ld;
u32 prevOwner;
u32 newOwner;
} __attribute__ ((packed)) ld_owner;
struct {
u64 ld_lba;
u64 pd_lba;
struct megasas_evtarg_ld ld;
struct megasas_evtarg_pd pd;
} __attribute__ ((packed)) ld_lba_pd_lba;
struct {
struct megasas_evtarg_ld ld;
struct megasas_progress prog;
} __attribute__ ((packed)) ld_prog;
struct {
struct megasas_evtarg_ld ld;
u32 prev_state;
u32 new_state;
} __attribute__ ((packed)) ld_state;
struct {
u64 strip;
struct megasas_evtarg_ld ld;
} __attribute__ ((packed)) ld_strip;
struct megasas_evtarg_pd pd;
struct {
struct megasas_evtarg_pd pd;
u32 err;
} __attribute__ ((packed)) pd_err;
struct {
u64 lba;
struct megasas_evtarg_pd pd;
} __attribute__ ((packed)) pd_lba;
struct {
u64 lba;
struct megasas_evtarg_pd pd;
struct megasas_evtarg_ld ld;
} __attribute__ ((packed)) pd_lba_ld;
struct {
struct megasas_evtarg_pd pd;
struct megasas_progress prog;
} __attribute__ ((packed)) pd_prog;
struct {
struct megasas_evtarg_pd pd;
u32 prevState;
u32 newState;
} __attribute__ ((packed)) pd_state;
struct {
u16 vendorId;
u16 deviceId;
u16 subVendorId;
u16 subDeviceId;
} __attribute__ ((packed)) pci;
u32 rate;
char str[96];
struct {
u32 rtc;
u32 elapsedSeconds;
} __attribute__ ((packed)) time;
struct {
u32 ecar;
u32 elog;
char str[64];
} __attribute__ ((packed)) ecc;
u8 b[96];
u16 s[48];
u32 w[24];
u64 d[12];
} args;
char description[128];
} __attribute__ ((packed));
struct megasas_instance_template {
void (*fire_cmd)(dma_addr_t ,u32 ,struct megasas_register_set __iomem *);
void (*enable_intr)(struct megasas_register_set __iomem *) ;
int (*clear_intr)(struct megasas_register_set __iomem *);
u32 (*read_fw_status_reg)(struct megasas_register_set __iomem *);
};
struct megasas_instance {
u32 *producer;
dma_addr_t producer_h;
u32 *consumer;
dma_addr_t consumer_h;
u32 *reply_queue;
dma_addr_t reply_queue_h;
unsigned long base_addr;
struct megasas_register_set __iomem *reg_set;
s8 init_id;
u8 reserved[3];
u16 max_num_sge;
u16 max_fw_cmds;
u32 max_sectors_per_req;
struct megasas_cmd **cmd_list;
struct list_head cmd_pool;
spinlock_t cmd_pool_lock;
struct dma_pool *frame_dma_pool;
struct dma_pool *sense_dma_pool;
struct megasas_evt_detail *evt_detail;
dma_addr_t evt_detail_h;
struct megasas_cmd *aen_cmd;
struct semaphore aen_mutex;
struct semaphore ioctl_sem;
struct Scsi_Host *host;
wait_queue_head_t int_cmd_wait_q;
wait_queue_head_t abort_cmd_wait_q;
struct pci_dev *pdev;
u32 unique_id;
u32 fw_outstanding;
u32 hw_crit_error;
spinlock_t instance_lock;
struct megasas_instance_template *instancet;
};
#define MEGASAS_IS_LOGICAL(scp) \
(scp->device->channel < MEGASAS_MAX_PD_CHANNELS) ? 0 : 1
#define MEGASAS_DEV_INDEX(inst, scp) \
((scp->device->channel % 2) * MEGASAS_MAX_DEV_PER_CHANNEL) + \
scp->device->id
struct megasas_cmd {
union megasas_frame *frame;
dma_addr_t frame_phys_addr;
u8 *sense;
dma_addr_t sense_phys_addr;
u32 index;
u8 sync_cmd;
u8 cmd_status;
u16 abort_aen;
struct list_head list;
struct scsi_cmnd *scmd;
struct megasas_instance *instance;
u32 frame_count;
};
#define MAX_MGMT_ADAPTERS 1024
#define MAX_IOCTL_SGE 16
struct megasas_iocpacket {
u16 host_no;
u16 __pad1;
u32 sgl_off;
u32 sge_count;
u32 sense_off;
u32 sense_len;
union {
u8 raw[128];
struct megasas_header hdr;
} frame;
struct iovec sgl[MAX_IOCTL_SGE];
} __attribute__ ((packed));
struct megasas_aen {
u16 host_no;
u16 __pad1;
u32 seq_num;
u32 class_locale_word;
} __attribute__ ((packed));
#ifdef CONFIG_COMPAT
struct compat_megasas_iocpacket {
u16 host_no;
u16 __pad1;
u32 sgl_off;
u32 sge_count;
u32 sense_off;
u32 sense_len;
union {
u8 raw[128];
struct megasas_header hdr;
} frame;
struct compat_iovec sgl[MAX_IOCTL_SGE];
} __attribute__ ((packed));
#endif
#define MEGASAS_IOC_FIRMWARE _IOWR('M', 1, struct megasas_iocpacket)
#define MEGASAS_IOC_FIRMWARE32 _IOWR('M', 1, struct compat_megasas_iocpacket)
#define MEGASAS_IOC_GET_AEN _IOW('M', 3, struct megasas_aen)
struct megasas_mgmt_info {
u16 count;
struct megasas_instance *instance[MAX_MGMT_ADAPTERS];
int max_index;
};
#endif /*LSI_MEGARAID_SAS_H */
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