linux/drivers/scsi/qla2xxx/qla_fw.h

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/* SPDX-License-Identifier: GPL-2.0-only */
/*
* QLogic Fibre Channel HBA Driver
* Copyright (c) 2003-2014 QLogic Corporation
*/
#ifndef __QLA_FW_H
#define __QLA_FW_H
#include <linux/nvme.h>
#include <linux/nvme-fc.h>
#include "qla_dsd.h"
#define MBS_CHECKSUM_ERROR 0x4010
#define MBS_INVALID_PRODUCT_KEY 0x4020
/*
* Firmware Options.
*/
#define FO1_ENABLE_PUREX BIT_10
#define FO1_DISABLE_LED_CTRL BIT_6
#define FO1_ENABLE_8016 BIT_0
#define FO2_ENABLE_SEL_CLASS2 BIT_5
#define FO3_NO_ABTS_ON_LINKDOWN BIT_14
#define FO3_HOLD_STS_IOCB BIT_12
/*
* Port Database structure definition for ISP 24xx.
*/
#define PDO_FORCE_ADISC BIT_1
#define PDO_FORCE_PLOGI BIT_0
struct buffer_credit_24xx {
u32 parameter[28];
};
#define PORT_DATABASE_24XX_SIZE 64
struct port_database_24xx {
uint16_t flags;
#define PDF_TASK_RETRY_ID BIT_14
#define PDF_FC_TAPE BIT_7
#define PDF_ACK0_CAPABLE BIT_6
#define PDF_FCP2_CONF BIT_5
#define PDF_CLASS_2 BIT_4
#define PDF_HARD_ADDR BIT_1
/*
* for NVMe, the login_state field has been
* split into nibbles.
* The lower nibble is for FCP.
* The upper nibble is for NVMe.
*/
uint8_t current_login_state;
uint8_t last_login_state;
#define PDS_PLOGI_PENDING 0x03
#define PDS_PLOGI_COMPLETE 0x04
#define PDS_PRLI_PENDING 0x05
#define PDS_PRLI_COMPLETE 0x06
#define PDS_PORT_UNAVAILABLE 0x07
#define PDS_PRLO_PENDING 0x09
#define PDS_LOGO_PENDING 0x11
#define PDS_PRLI2_PENDING 0x12
uint8_t hard_address[3];
uint8_t reserved_1;
uint8_t port_id[3];
uint8_t sequence_id;
uint16_t port_timer;
uint16_t nport_handle; /* N_PORT handle. */
uint16_t receive_data_size;
uint16_t reserved_2;
uint8_t prli_svc_param_word_0[2]; /* Big endian */
/* Bits 15-0 of word 0 */
uint8_t prli_svc_param_word_3[2]; /* Big endian */
/* Bits 15-0 of word 3 */
uint8_t port_name[WWN_SIZE];
uint8_t node_name[WWN_SIZE];
uint8_t reserved_3[2];
uint16_t nvme_first_burst_size;
uint16_t prli_nvme_svc_param_word_0; /* Bits 15-0 of word 0 */
uint16_t prli_nvme_svc_param_word_3; /* Bits 15-0 of word 3 */
uint8_t secure_login;
uint8_t reserved_4[14];
};
qla2xxx: Add framework for async fabric discovery Currently code performs a full scan of the fabric for every RSCN. Its an expensive process in a noisy large SAN. This patch optimizes expensive fabric discovery process by scanning switch for the affected port when RSCN is received. Currently Initiator Mode code makes login/logout decision without knowledge of target mode. This causes driver and firmware to go out-of-sync. This framework synchronizes both initiator mode personality and target mode personality in making login/logout decision. This patch adds following capabilities in the driver - Send Notification Acknowledgement asynchronously. - Update session/fcport state asynchronously. - Create a session or fcport struct asynchronously. - Send GNL asynchronously. The command will ask FW to provide a list of FC Port entries FW knows about. - Send GPDB asynchronously. The command will ask FW to provide detail data of an FC Port FW knows about or perform ADISC to verify the state of the session. - Send GPNID asynchronously. The command will ask switch to provide WWPN for provided NPort ID. - Send GPSC asynchronously. The command will ask switch to provide registered port speed for provided WWPN. - Send GIDPN asynchronously. The command will ask the switch to provide Nport ID for provided WWPN. - In driver unload path, schedule all session for deletion and wait for deletion to complete before allowing driver unload to proceed. Signed-off-by: Quinn Tran <quinn.tran@cavium.com> Signed-off-by: Himanshu Madhani <himanshu.madhani@cavium.com> [ bvanassche: fixed spelling in patch description ] Signed-off-by: Bart Van Assche <bart.vanassche@sandisk.com> Signed-off-by: Nicholas Bellinger <nab@linux-iscsi.org>
2017-01-20 14:28:00 +08:00
/*
* MB 75h returns a list of DB entries similar to port_database_24xx(64B).
* However, in this case it returns 1st 40 bytes.
*/
struct get_name_list_extended {
__le16 flags;
u8 current_login_state;
u8 last_login_state;
u8 hard_address[3];
u8 reserved_1;
u8 port_id[3];
u8 sequence_id;
__le16 port_timer;
__le16 nport_handle; /* N_PORT handle. */
__le16 receive_data_size;
__le16 reserved_2;
/* PRLI SVC Param are Big endian */
u8 prli_svc_param_word_0[2]; /* Bits 15-0 of word 0 */
u8 prli_svc_param_word_3[2]; /* Bits 15-0 of word 3 */
u8 port_name[WWN_SIZE];
u8 node_name[WWN_SIZE];
};
/* MB 75h: This is the short version of the database */
struct get_name_list {
u8 port_node_name[WWN_SIZE]; /* B7 most sig, B0 least sig */
__le16 nport_handle;
u8 reserved;
};
struct vp_database_24xx {
uint16_t vp_status;
uint8_t options;
uint8_t id;
uint8_t port_name[WWN_SIZE];
uint8_t node_name[WWN_SIZE];
uint16_t port_id_low;
uint16_t port_id_high;
};
struct nvram_24xx {
/* NVRAM header. */
uint8_t id[4];
__le16 nvram_version;
uint16_t reserved_0;
/* Firmware Initialization Control Block. */
__le16 version;
uint16_t reserved_1;
__le16 frame_payload_size;
__le16 execution_throttle;
__le16 exchange_count;
__le16 hard_address;
uint8_t port_name[WWN_SIZE];
uint8_t node_name[WWN_SIZE];
__le16 login_retry_count;
__le16 link_down_on_nos;
__le16 interrupt_delay_timer;
__le16 login_timeout;
__le32 firmware_options_1;
__le32 firmware_options_2;
__le32 firmware_options_3;
/* Offset 56. */
/*
* BIT 0 = Control Enable
* BIT 1-15 =
*
* BIT 0-7 = Reserved
* BIT 8-10 = Output Swing 1G
* BIT 11-13 = Output Emphasis 1G
* BIT 14-15 = Reserved
*
* BIT 0-7 = Reserved
* BIT 8-10 = Output Swing 2G
* BIT 11-13 = Output Emphasis 2G
* BIT 14-15 = Reserved
*
* BIT 0-7 = Reserved
* BIT 8-10 = Output Swing 4G
* BIT 11-13 = Output Emphasis 4G
* BIT 14-15 = Reserved
*/
__le16 seriallink_options[4];
uint16_t reserved_2[16];
/* Offset 96. */
uint16_t reserved_3[16];
/* PCIe table entries. */
uint16_t reserved_4[16];
/* Offset 160. */
uint16_t reserved_5[16];
/* Offset 192. */
uint16_t reserved_6[16];
/* Offset 224. */
uint16_t reserved_7[16];
/*
* BIT 0 = Enable spinup delay
* BIT 1 = Disable BIOS
* BIT 2 = Enable Memory Map BIOS
* BIT 3 = Enable Selectable Boot
* BIT 4 = Disable RISC code load
* BIT 5 = Disable Serdes
* BIT 6 =
* BIT 7 =
*
* BIT 8 =
* BIT 9 =
* BIT 10 = Enable lip full login
* BIT 11 = Enable target reset
* BIT 12 =
* BIT 13 =
* BIT 14 =
* BIT 15 = Enable alternate WWN
*
* BIT 16-31 =
*/
__le32 host_p;
uint8_t alternate_port_name[WWN_SIZE];
uint8_t alternate_node_name[WWN_SIZE];
uint8_t boot_port_name[WWN_SIZE];
__le16 boot_lun_number;
uint16_t reserved_8;
uint8_t alt1_boot_port_name[WWN_SIZE];
__le16 alt1_boot_lun_number;
uint16_t reserved_9;
uint8_t alt2_boot_port_name[WWN_SIZE];
__le16 alt2_boot_lun_number;
uint16_t reserved_10;
uint8_t alt3_boot_port_name[WWN_SIZE];
__le16 alt3_boot_lun_number;
uint16_t reserved_11;
/*
* BIT 0 = Selective Login
* BIT 1 = Alt-Boot Enable
* BIT 2 = Reserved
* BIT 3 = Boot Order List
* BIT 4 = Reserved
* BIT 5 = Selective LUN
* BIT 6 = Reserved
* BIT 7-31 =
*/
__le32 efi_parameters;
uint8_t reset_delay;
uint8_t reserved_12;
uint16_t reserved_13;
__le16 boot_id_number;
uint16_t reserved_14;
__le16 max_luns_per_target;
uint16_t reserved_15;
__le16 port_down_retry_count;
__le16 link_down_timeout;
/* FCode parameters. */
__le16 fcode_parameter;
uint16_t reserved_16[3];
/* Offset 352. */
uint8_t prev_drv_ver_major;
uint8_t prev_drv_ver_submajob;
uint8_t prev_drv_ver_minor;
uint8_t prev_drv_ver_subminor;
__le16 prev_bios_ver_major;
__le16 prev_bios_ver_minor;
__le16 prev_efi_ver_major;
__le16 prev_efi_ver_minor;
__le16 prev_fw_ver_major;
uint8_t prev_fw_ver_minor;
uint8_t prev_fw_ver_subminor;
uint16_t reserved_17[8];
/* Offset 384. */
uint16_t reserved_18[16];
/* Offset 416. */
uint16_t reserved_19[16];
/* Offset 448. */
uint16_t reserved_20[16];
/* Offset 480. */
uint8_t model_name[16];
uint16_t reserved_21[2];
/* Offset 500. */
/* HW Parameter Block. */
uint16_t pcie_table_sig;
uint16_t pcie_table_offset;
uint16_t subsystem_vendor_id;
uint16_t subsystem_device_id;
__le32 checksum;
};
/*
* ISP Initialization Control Block.
* Little endian except where noted.
*/
#define ICB_VERSION 1
struct init_cb_24xx {
__le16 version;
uint16_t reserved_1;
__le16 frame_payload_size;
__le16 execution_throttle;
__le16 exchange_count;
__le16 hard_address;
uint8_t port_name[WWN_SIZE]; /* Big endian. */
uint8_t node_name[WWN_SIZE]; /* Big endian. */
__le16 response_q_inpointer;
__le16 request_q_outpointer;
__le16 login_retry_count;
__le16 prio_request_q_outpointer;
__le16 response_q_length;
__le16 request_q_length;
__le16 link_down_on_nos; /* Milliseconds. */
__le16 prio_request_q_length;
__le64 request_q_address __packed;
__le64 response_q_address __packed;
__le64 prio_request_q_address __packed;
__le16 msix;
__le16 msix_atio;
uint8_t reserved_2[4];
__le16 atio_q_inpointer;
__le16 atio_q_length;
__le64 atio_q_address __packed;
__le16 interrupt_delay_timer; /* 100us increments. */
__le16 login_timeout;
/*
* BIT 0 = Enable Hard Loop Id
* BIT 1 = Enable Fairness
* BIT 2 = Enable Full-Duplex
* BIT 3 = Reserved
* BIT 4 = Enable Target Mode
* BIT 5 = Disable Initiator Mode
* BIT 6 = Acquire FA-WWN
* BIT 7 = Enable D-port Diagnostics
*
* BIT 8 = Reserved
* BIT 9 = Non Participating LIP
* BIT 10 = Descending Loop ID Search
* BIT 11 = Acquire Loop ID in LIPA
* BIT 12 = Reserved
* BIT 13 = Full Login after LIP
* BIT 14 = Node Name Option
* BIT 15-31 = Reserved
*/
__le32 firmware_options_1;
/*
* BIT 0 = Operation Mode bit 0
* BIT 1 = Operation Mode bit 1
* BIT 2 = Operation Mode bit 2
* BIT 3 = Operation Mode bit 3
* BIT 4 = Connection Options bit 0
* BIT 5 = Connection Options bit 1
* BIT 6 = Connection Options bit 2
* BIT 7 = Enable Non part on LIHA failure
*
* BIT 8 = Enable Class 2
* BIT 9 = Enable ACK0
* BIT 10 = Reserved
* BIT 11 = Enable FC-SP Security
* BIT 12 = FC Tape Enable
* BIT 13 = Reserved
* BIT 14 = Enable Target PRLI Control
* BIT 15-31 = Reserved
*/
__le32 firmware_options_2;
/*
* BIT 0 = Reserved
* BIT 1 = Soft ID only
* BIT 2 = Reserved
* BIT 3 = Reserved
* BIT 4 = FCP RSP Payload bit 0
* BIT 5 = FCP RSP Payload bit 1
* BIT 6 = Enable Receive Out-of-Order data frame handling
* BIT 7 = Disable Automatic PLOGI on Local Loop
*
* BIT 8 = Reserved
* BIT 9 = Enable Out-of-Order FCP_XFER_RDY relative offset handling
* BIT 10 = Reserved
* BIT 11 = Reserved
* BIT 12 = Reserved
* BIT 13 = Data Rate bit 0
* BIT 14 = Data Rate bit 1
* BIT 15 = Data Rate bit 2
* BIT 16 = Enable 75 ohm Termination Select
* BIT 17-28 = Reserved
* BIT 29 = Enable response queue 0 in index shadowing
* BIT 30 = Enable request queue 0 out index shadowing
* BIT 31 = Reserved
*/
__le32 firmware_options_3;
__le16 qos;
__le16 rid;
uint8_t reserved_3[20];
};
/*
* ISP queue - command entry structure definition.
*/
#define COMMAND_BIDIRECTIONAL 0x75
struct cmd_bidir {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System defined */
uint8_t entry_status; /* Entry status. */
uint32_t handle; /* System handle. */
__le16 nport_handle; /* N_PORT handle. */
__le16 timeout; /* Command timeout. */
__le16 wr_dseg_count; /* Write Data segment count. */
__le16 rd_dseg_count; /* Read Data segment count. */
struct scsi_lun lun; /* FCP LUN (BE). */
__le16 control_flags; /* Control flags. */
#define BD_WRAP_BACK BIT_3
#define BD_READ_DATA BIT_1
#define BD_WRITE_DATA BIT_0
__le16 fcp_cmnd_dseg_len; /* Data segment length. */
__le64 fcp_cmnd_dseg_address __packed;/* Data segment address. */
uint16_t reserved[2]; /* Reserved */
__le32 rd_byte_count; /* Total Byte count Read. */
__le32 wr_byte_count; /* Total Byte count write. */
uint8_t port_id[3]; /* PortID of destination port.*/
uint8_t vp_index;
struct dsd64 fcp_dsd;
};
#define COMMAND_TYPE_6 0x48 /* Command Type 6 entry */
struct cmd_type_6 {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System defined. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
__le16 nport_handle; /* N_PORT handle. */
__le16 timeout; /* Command timeout. */
__le16 dseg_count; /* Data segment count. */
__le16 fcp_rsp_dsd_len; /* FCP_RSP DSD length. */
struct scsi_lun lun; /* FCP LUN (BE). */
__le16 control_flags; /* Control flags. */
#define CF_NEW_SA BIT_12
#define CF_EN_EDIF BIT_9
#define CF_ADDITIONAL_PARAM_BLK BIT_8
#define CF_DIF_SEG_DESCR_ENABLE BIT_3
#define CF_DATA_SEG_DESCR_ENABLE BIT_2
#define CF_READ_DATA BIT_1
#define CF_WRITE_DATA BIT_0
__le16 fcp_cmnd_dseg_len; /* Data segment length. */
/* Data segment address. */
__le64 fcp_cmnd_dseg_address __packed;
/* Data segment address. */
__le64 fcp_rsp_dseg_address __packed;
__le32 byte_count; /* Total byte count. */
uint8_t port_id[3]; /* PortID of destination port. */
uint8_t vp_index;
struct dsd64 fcp_dsd;
};
#define COMMAND_TYPE_7 0x18 /* Command Type 7 entry */
struct cmd_type_7 {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System defined. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
__le16 nport_handle; /* N_PORT handle. */
__le16 timeout; /* Command timeout. */
#define FW_MAX_TIMEOUT 0x1999
__le16 dseg_count; /* Data segment count. */
uint16_t reserved_1;
struct scsi_lun lun; /* FCP LUN (BE). */
__le16 task_mgmt_flags; /* Task management flags. */
#define TMF_CLEAR_ACA BIT_14
#define TMF_TARGET_RESET BIT_13
#define TMF_LUN_RESET BIT_12
#define TMF_CLEAR_TASK_SET BIT_10
#define TMF_ABORT_TASK_SET BIT_9
#define TMF_DSD_LIST_ENABLE BIT_2
#define TMF_READ_DATA BIT_1
#define TMF_WRITE_DATA BIT_0
uint8_t task;
#define TSK_SIMPLE 0
#define TSK_HEAD_OF_QUEUE 1
#define TSK_ORDERED 2
#define TSK_ACA 4
#define TSK_UNTAGGED 5
uint8_t crn;
uint8_t fcp_cdb[MAX_CMDSZ]; /* SCSI command words. */
__le32 byte_count; /* Total byte count. */
uint8_t port_id[3]; /* PortID of destination port. */
uint8_t vp_index;
struct dsd64 dsd;
};
#define COMMAND_TYPE_CRC_2 0x6A /* Command Type CRC_2 (Type 6)
* (T10-DIF) */
struct cmd_type_crc_2 {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System defined. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
__le16 nport_handle; /* N_PORT handle. */
__le16 timeout; /* Command timeout. */
__le16 dseg_count; /* Data segment count. */
__le16 fcp_rsp_dseg_len; /* FCP_RSP DSD length. */
struct scsi_lun lun; /* FCP LUN (BE). */
__le16 control_flags; /* Control flags. */
__le16 fcp_cmnd_dseg_len; /* Data segment length. */
__le64 fcp_cmnd_dseg_address __packed;
/* Data segment address. */
__le64 fcp_rsp_dseg_address __packed;
__le32 byte_count; /* Total byte count. */
uint8_t port_id[3]; /* PortID of destination port. */
uint8_t vp_index;
__le64 crc_context_address __packed; /* Data segment address. */
__le16 crc_context_len; /* Data segment length. */
uint16_t reserved_1; /* MUST be set to 0. */
};
/*
* ISP queue - status entry structure definition.
*/
#define STATUS_TYPE 0x03 /* Status entry. */
struct sts_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System defined. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
__le16 comp_status; /* Completion status. */
__le16 ox_id; /* OX_ID used by the firmware. */
__le32 residual_len; /* FW calc residual transfer length. */
union {
__le16 reserved_1;
__le16 nvme_rsp_pyld_len;
scsi: qla2xxx: edif: Add key update Some FC adapters from Marvell offer the ability to encrypt data in flight (EDIF). This feature requires an application to act as an authenticator. As part of the authentication process, the authentication application will generate a SADB entry (Security Association/SA, key, SPI value, etc). This SADB is then passed to driver to be programmed into hardware. There will be a pair of SADB's (Tx and Rx) for each connection. After some period, the application can choose to change the key. At that time, a new set of SADB pair is given to driver. The old set of SADB will be deleted. Add a new bsg call (QL_VND_SC_SA_UPDATE) to allow application to allow adding or deleting SADB entries. Driver will not keep the key in memory. It will pass it to HW. It is assumed that application will assign a unique SPI value to this SADB (SA + key). Driver + hardware will assign a handle to track this unique SPI/SADB. Link: https://lore.kernel.org/r/20210624052606.21613-6-njavali@marvell.com Reviewed-by: Hannes Reinecke <hare@suse.de> Reviewed-by: Himanshu Madhani <himanshu.madhani@oracle.com> Co-developed-by: Larry Wisneski <Larry.Wisneski@marvell.com> Signed-off-by: Larry Wisneski <Larry.Wisneski@marvell.com> Co-developed-by: Duane Grigsby <duane.grigsby@marvell.com> Signed-off-by: Duane Grigsby <duane.grigsby@marvell.com> Co-developed-by: Rick Hicksted Jr <rhicksted@marvell.com> Signed-off-by: Rick Hicksted Jr <rhicksted@marvell.com> Signed-off-by: Quinn Tran <qutran@marvell.com> Signed-off-by: Nilesh Javali <njavali@marvell.com> Signed-off-by: Martin K. Petersen <martin.petersen@oracle.com>
2021-06-24 13:26:00 +08:00
__le16 edif_sa_index; /* edif sa_index used for initiator read data */
};
__le16 state_flags; /* State flags. */
#define SF_TRANSFERRED_DATA BIT_11
#define SF_NVME_ERSP BIT_6
#define SF_FCP_RSP_DMA BIT_0
__le16 status_qualifier;
__le16 scsi_status; /* SCSI status. */
#define SS_CONFIRMATION_REQ BIT_12
__le32 rsp_residual_count; /* FCP RSP residual count. */
__le32 sense_len; /* FCP SENSE length. */
union {
struct {
__le32 rsp_data_len; /* FCP response data length */
uint8_t data[28]; /* FCP rsp/sense information */
};
struct nvme_fc_ersp_iu nvme_ersp;
uint8_t nvme_ersp_data[32];
};
/*
* If DIF Error is set in comp_status, these additional fields are
* defined:
*
* !!! NOTE: Firmware sends expected/actual DIF data in big endian
* format; but all of the "data" field gets swab32-d in the beginning
* of qla2x00_status_entry().
*
* &data[10] : uint8_t report_runt_bg[2]; - computed guard
* &data[12] : uint8_t actual_dif[8]; - DIF Data received
* &data[20] : uint8_t expected_dif[8]; - DIF Data computed
*/
};
/*
* Status entry completion status
*/
#define CS_DATA_REASSEMBLY_ERROR 0x11 /* Data Reassembly Error.. */
#define CS_ABTS_BY_TARGET 0x13 /* Target send ABTS to abort IOCB. */
#define CS_FW_RESOURCE 0x2C /* Firmware Resource Unavailable. */
#define CS_TASK_MGMT_OVERRUN 0x30 /* Task management overrun (8+). */
#define CS_ABORT_BY_TARGET 0x47 /* Abort By Target. */
/*
* ISP queue - marker entry structure definition.
*/
#define MARKER_TYPE 0x04 /* Marker entry. */
struct mrk_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t handle_count; /* Handle count. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
__le16 nport_handle; /* N_PORT handle. */
uint8_t modifier; /* Modifier (7-0). */
#define MK_SYNC_ID_LUN 0 /* Synchronize ID/LUN */
#define MK_SYNC_ID 1 /* Synchronize ID */
#define MK_SYNC_ALL 2 /* Synchronize all ID/LUN */
uint8_t reserved_1;
uint8_t reserved_2;
uint8_t vp_index;
uint16_t reserved_3;
uint8_t lun[8]; /* FCP LUN (BE). */
uint8_t reserved_4[40];
};
/*
* ISP queue - CT Pass-Through entry structure definition.
*/
#define CT_IOCB_TYPE 0x29 /* CT Pass-Through IOCB entry */
struct ct_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System Defined. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
__le16 comp_status; /* Completion status. */
__le16 nport_handle; /* N_PORT handle. */
__le16 cmd_dsd_count;
uint8_t vp_index;
uint8_t reserved_1;
__le16 timeout; /* Command timeout. */
uint16_t reserved_2;
__le16 rsp_dsd_count;
uint8_t reserved_3[10];
__le32 rsp_byte_count;
__le32 cmd_byte_count;
struct dsd64 dsd[2];
};
#define PURX_ELS_HEADER_SIZE 0x18
/*
* ISP queue - PUREX IOCB entry structure definition
*/
#define PUREX_IOCB_TYPE 0x51 /* CT Pass Through IOCB entry */
struct purex_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System defined. */
uint8_t entry_status; /* Entry Status. */
__le16 reserved1;
uint8_t vp_idx;
uint8_t reserved2;
__le16 status_flags;
__le16 nport_handle;
__le16 frame_size;
__le16 trunc_frame_size;
__le32 rx_xchg_addr;
uint8_t d_id[3];
uint8_t r_ctl;
uint8_t s_id[3];
uint8_t cs_ctl;
uint8_t f_ctl[3];
uint8_t type;
__le16 seq_cnt;
uint8_t df_ctl;
uint8_t seq_id;
__le16 rx_id;
__le16 ox_id;
__le32 param;
uint8_t els_frame_payload[20];
};
/*
* ISP queue - ELS Pass-Through entry structure definition.
*/
#define ELS_IOCB_TYPE 0x53 /* ELS Pass-Through IOCB entry */
struct els_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System Defined. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
__le16 comp_status; /* response only */
__le16 nport_handle;
__le16 tx_dsd_count;
uint8_t vp_index;
uint8_t sof_type;
#define EST_SOFI3 (1 << 4)
#define EST_SOFI2 (3 << 4)
__le32 rx_xchg_address; /* Receive exchange address. */
__le16 rx_dsd_count;
uint8_t opcode;
uint8_t reserved_2;
uint8_t d_id[3];
uint8_t s_id[3];
__le16 control_flags; /* Control flags. */
#define ECF_PAYLOAD_DESCR_MASK (BIT_15|BIT_14|BIT_13)
#define EPD_ELS_COMMAND (0 << 13)
#define EPD_ELS_ACC (1 << 13)
#define EPD_ELS_RJT (2 << 13)
#define EPD_RX_XCHG (3 << 13)
#define ECF_CLR_PASSTHRU_PEND BIT_12
#define ECF_INCL_FRAME_HDR BIT_11
union {
struct {
__le32 rx_byte_count;
__le32 tx_byte_count;
__le64 tx_address __packed; /* DSD 0 address. */
__le32 tx_len; /* DSD 0 length. */
__le64 rx_address __packed; /* DSD 1 address. */
__le32 rx_len; /* DSD 1 length. */
};
struct {
__le32 total_byte_count;
__le32 error_subcode_1;
__le32 error_subcode_2;
__le32 error_subcode_3;
};
};
};
struct els_sts_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System Defined. */
uint8_t entry_status; /* Entry Status. */
__le32 handle; /* System handle. */
__le16 comp_status;
__le16 nport_handle; /* N_PORT handle. */
__le16 reserved_1;
uint8_t vp_index;
uint8_t sof_type;
__le32 rx_xchg_address; /* Receive exchange address. */
__le16 reserved_2;
uint8_t opcode;
uint8_t reserved_3;
uint8_t d_id[3];
uint8_t s_id[3];
__le16 control_flags; /* Control flags. */
__le32 total_byte_count;
__le32 error_subcode_1;
__le32 error_subcode_2;
__le32 error_subcode_3;
__le32 reserved_4[4];
};
/*
* ISP queue - Mailbox Command entry structure definition.
*/
#define MBX_IOCB_TYPE 0x39
struct mbx_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t handle_count; /* Handle count. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
uint16_t mbx[28];
};
#define LOGINOUT_PORT_IOCB_TYPE 0x52 /* Login/Logout Port entry. */
struct logio_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System defined. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
__le16 comp_status; /* Completion status. */
#define CS_LOGIO_ERROR 0x31 /* Login/Logout IOCB error. */
__le16 nport_handle; /* N_PORT handle. */
__le16 control_flags; /* Control flags. */
/* Modifiers. */
#define LCF_INCLUDE_SNS BIT_10 /* Include SNS (FFFFFC) during LOGO. */
#define LCF_FCP2_OVERRIDE BIT_9 /* Set/Reset word 3 of PRLI. */
#define LCF_CLASS_2 BIT_8 /* Enable class 2 during PLOGI. */
#define LCF_FREE_NPORT BIT_7 /* Release NPORT handle after LOGO. */
#define LCF_COMMON_FEAT BIT_7 /* PLOGI - Set Common Features Field */
#define LCF_EXPL_LOGO BIT_6 /* Perform an explicit LOGO. */
#define LCF_NVME_PRLI BIT_6 /* Perform NVME FC4 PRLI */
#define LCF_SKIP_PRLI BIT_5 /* Skip PRLI after PLOGI. */
#define LCF_IMPL_LOGO_ALL BIT_5 /* Implicit LOGO to all ports. */
#define LCF_COND_PLOGI BIT_4 /* PLOGI only if not logged-in. */
#define LCF_IMPL_LOGO BIT_4 /* Perform an implicit LOGO. */
#define LCF_IMPL_PRLO BIT_4 /* Perform an implicit PRLO. */
/* Commands. */
#define LCF_COMMAND_PLOGI 0x00 /* PLOGI. */
#define LCF_COMMAND_PRLI 0x01 /* PRLI. */
#define LCF_COMMAND_PDISC 0x02 /* PDISC. */
#define LCF_COMMAND_ADISC 0x03 /* ADISC. */
#define LCF_COMMAND_LOGO 0x08 /* LOGO. */
#define LCF_COMMAND_PRLO 0x09 /* PRLO. */
#define LCF_COMMAND_TPRLO 0x0A /* TPRLO. */
uint8_t vp_index;
uint8_t reserved_1;
uint8_t port_id[3]; /* PortID of destination port. */
uint8_t rsp_size; /* Response size in 32bit words. */
__le32 io_parameter[11]; /* General I/O parameters. */
#define LIO_COMM_FEAT_FCSP BIT_21
#define LIO_COMM_FEAT_CIO BIT_31
#define LSC_SCODE_NOLINK 0x01
#define LSC_SCODE_NOIOCB 0x02
#define LSC_SCODE_NOXCB 0x03
#define LSC_SCODE_CMD_FAILED 0x04
#define LSC_SCODE_NOFABRIC 0x05
#define LSC_SCODE_FW_NOT_READY 0x07
#define LSC_SCODE_NOT_LOGGED_IN 0x09
#define LSC_SCODE_NOPCB 0x0A
#define LSC_SCODE_ELS_REJECT 0x18
#define LSC_SCODE_CMD_PARAM_ERR 0x19
#define LSC_SCODE_PORTID_USED 0x1A
#define LSC_SCODE_NPORT_USED 0x1B
#define LSC_SCODE_NONPORT 0x1C
#define LSC_SCODE_LOGGED_IN 0x1D
#define LSC_SCODE_NOFLOGI_ACC 0x1F
};
#define TSK_MGMT_IOCB_TYPE 0x14
struct tsk_mgmt_entry {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t handle_count; /* Handle count. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
__le16 nport_handle; /* N_PORT handle. */
uint16_t reserved_1;
__le16 delay; /* Activity delay in seconds. */
__le16 timeout; /* Command timeout. */
struct scsi_lun lun; /* FCP LUN (BE). */
__le32 control_flags; /* Control Flags. */
#define TCF_NOTMCMD_TO_TARGET BIT_31
#define TCF_LUN_RESET BIT_4
#define TCF_ABORT_TASK_SET BIT_3
#define TCF_CLEAR_TASK_SET BIT_2
#define TCF_TARGET_RESET BIT_1
#define TCF_CLEAR_ACA BIT_0
uint8_t reserved_2[20];
uint8_t port_id[3]; /* PortID of destination port. */
uint8_t vp_index;
uint8_t reserved_3[12];
};
#define ABORT_IOCB_TYPE 0x33
struct abort_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t handle_count; /* Handle count. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
union {
__le16 nport_handle; /* N_PORT handle. */
__le16 comp_status; /* Completion status. */
};
__le16 options; /* Options. */
#define AOF_NO_ABTS BIT_0 /* Do not send any ABTS. */
#define AOF_NO_RRQ BIT_1 /* Do not send RRQ. */
#define AOF_ABTS_TIMEOUT BIT_2 /* Disable logout on ABTS timeout. */
#define AOF_ABTS_RTY_CNT BIT_3 /* Use driver specified retry count. */
#define AOF_RSP_TIMEOUT BIT_4 /* Use specified response timeout. */
uint32_t handle_to_abort; /* System handle to abort. */
__le16 req_que_no;
uint8_t reserved_1[30];
uint8_t port_id[3]; /* PortID of destination port. */
uint8_t vp_index;
u8 reserved_2[4];
union {
struct {
__le16 abts_rty_cnt;
__le16 rsp_timeout;
} drv;
struct {
u8 ba_rjt_vendorUnique;
u8 ba_rjt_reasonCodeExpl;
u8 ba_rjt_reasonCode;
u8 reserved_3;
} fw;
};
u8 reserved_4[4];
};
#define ABTS_RCV_TYPE 0x54
#define ABTS_RSP_TYPE 0x55
struct abts_entry_24xx {
uint8_t entry_type;
uint8_t entry_count;
uint8_t handle_count;
uint8_t entry_status;
__le32 handle; /* type 0x55 only */
__le16 comp_status; /* type 0x55 only */
__le16 nport_handle; /* type 0x54 only */
__le16 control_flags; /* type 0x55 only */
uint8_t vp_idx;
uint8_t sof_type; /* sof_type is upper nibble */
__le32 rx_xch_addr;
uint8_t d_id[3];
uint8_t r_ctl;
uint8_t s_id[3];
uint8_t cs_ctl;
uint8_t f_ctl[3];
uint8_t type;
__le16 seq_cnt;
uint8_t df_ctl;
uint8_t seq_id;
__le16 rx_id;
__le16 ox_id;
__le32 param;
union {
struct {
__le32 subcode3;
__le32 rsvd;
__le32 subcode1;
__le32 subcode2;
} error;
struct {
__le16 rsrvd1;
uint8_t last_seq_id;
uint8_t seq_id_valid;
__le16 aborted_rx_id;
__le16 aborted_ox_id;
__le16 high_seq_cnt;
__le16 low_seq_cnt;
} ba_acc;
struct {
uint8_t vendor_unique;
uint8_t explanation;
uint8_t reason;
} ba_rjt;
} payload;
__le32 rx_xch_addr_to_abort;
} __packed;
/* ABTS payload explanation values */
#define BA_RJT_EXP_NO_ADDITIONAL 0
#define BA_RJT_EXP_INV_OX_RX_ID 3
#define BA_RJT_EXP_SEQ_ABORTED 5
/* ABTS payload reason values */
#define BA_RJT_RSN_INV_CMD_CODE 1
#define BA_RJT_RSN_LOGICAL_ERROR 3
#define BA_RJT_RSN_LOGICAL_BUSY 5
#define BA_RJT_RSN_PROTOCOL_ERROR 7
#define BA_RJT_RSN_UNABLE_TO_PERFORM 9
#define BA_RJT_RSN_VENDOR_SPECIFIC 0xff
/* FC_F values */
#define FC_TYPE_BLD 0x000 /* Basic link data */
#define FC_F_CTL_RSP_CNTXT 0x800000 /* Responder of exchange */
#define FC_F_CTL_LAST_SEQ 0x100000 /* Last sequence */
#define FC_F_CTL_END_SEQ 0x80000 /* Last sequence */
#define FC_F_CTL_SEQ_INIT 0x010000 /* Sequence initiative */
#define FC_ROUTING_BLD 0x80 /* Basic link data frame */
#define FC_R_CTL_BLD_BA_ACC 0x04 /* BA_ACC (basic accept) */
/*
* ISP I/O Register Set structure definitions.
*/
struct device_reg_24xx {
__le32 flash_addr; /* Flash/NVRAM BIOS address. */
#define FARX_DATA_FLAG BIT_31
#define FARX_ACCESS_FLASH_CONF 0x7FFD0000
#define FARX_ACCESS_FLASH_DATA 0x7FF00000
#define FARX_ACCESS_NVRAM_CONF 0x7FFF0000
#define FARX_ACCESS_NVRAM_DATA 0x7FFE0000
#define FA_NVRAM_FUNC0_ADDR 0x80
#define FA_NVRAM_FUNC1_ADDR 0x180
#define FA_NVRAM_VPD_SIZE 0x200
#define FA_NVRAM_VPD0_ADDR 0x00
#define FA_NVRAM_VPD1_ADDR 0x100
#define FA_BOOT_CODE_ADDR 0x00000
/*
* RISC code begins at offset 512KB
* within flash. Consisting of two
* contiguous RISC code segments.
*/
#define FA_RISC_CODE_ADDR 0x20000
#define FA_RISC_CODE_SEGMENTS 2
#define FA_FLASH_DESCR_ADDR_24 0x11000
#define FA_FLASH_LAYOUT_ADDR_24 0x11400
#define FA_NPIV_CONF0_ADDR_24 0x16000
#define FA_NPIV_CONF1_ADDR_24 0x17000
#define FA_FW_AREA_ADDR 0x40000
#define FA_VPD_NVRAM_ADDR 0x48000
#define FA_FEATURE_ADDR 0x4C000
#define FA_FLASH_DESCR_ADDR 0x50000
#define FA_FLASH_LAYOUT_ADDR 0x50400
#define FA_HW_EVENT0_ADDR 0x54000
#define FA_HW_EVENT1_ADDR 0x54400
#define FA_HW_EVENT_SIZE 0x200
#define FA_HW_EVENT_ENTRY_SIZE 4
#define FA_NPIV_CONF0_ADDR 0x5C000
#define FA_NPIV_CONF1_ADDR 0x5D000
#define FA_FCP_PRIO0_ADDR 0x10000
#define FA_FCP_PRIO1_ADDR 0x12000
/*
* Flash Error Log Event Codes.
*/
#define HW_EVENT_RESET_ERR 0xF00B
#define HW_EVENT_ISP_ERR 0xF020
#define HW_EVENT_PARITY_ERR 0xF022
#define HW_EVENT_NVRAM_CHKSUM_ERR 0xF023
#define HW_EVENT_FLASH_FW_ERR 0xF024
__le32 flash_data; /* Flash/NVRAM BIOS data. */
__le32 ctrl_status; /* Control/Status. */
#define CSRX_FLASH_ACCESS_ERROR BIT_18 /* Flash/NVRAM Access Error. */
#define CSRX_DMA_ACTIVE BIT_17 /* DMA Active status. */
#define CSRX_DMA_SHUTDOWN BIT_16 /* DMA Shutdown control status. */
#define CSRX_FUNCTION BIT_15 /* Function number. */
/* PCI-X Bus Mode. */
#define CSRX_PCIX_BUS_MODE_MASK (BIT_11|BIT_10|BIT_9|BIT_8)
#define PBM_PCI_33MHZ (0 << 8)
#define PBM_PCIX_M1_66MHZ (1 << 8)
#define PBM_PCIX_M1_100MHZ (2 << 8)
#define PBM_PCIX_M1_133MHZ (3 << 8)
#define PBM_PCIX_M2_66MHZ (5 << 8)
#define PBM_PCIX_M2_100MHZ (6 << 8)
#define PBM_PCIX_M2_133MHZ (7 << 8)
#define PBM_PCI_66MHZ (8 << 8)
/* Max Write Burst byte count. */
#define CSRX_MAX_WRT_BURST_MASK (BIT_5|BIT_4)
#define MWB_512_BYTES (0 << 4)
#define MWB_1024_BYTES (1 << 4)
#define MWB_2048_BYTES (2 << 4)
#define MWB_4096_BYTES (3 << 4)
#define CSRX_64BIT_SLOT BIT_2 /* PCI 64-Bit Bus Slot. */
#define CSRX_FLASH_ENABLE BIT_1 /* Flash BIOS Read/Write enable. */
#define CSRX_ISP_SOFT_RESET BIT_0 /* ISP soft reset. */
__le32 ictrl; /* Interrupt control. */
#define ICRX_EN_RISC_INT BIT_3 /* Enable RISC interrupts on PCI. */
__le32 istatus; /* Interrupt status. */
#define ISRX_RISC_INT BIT_3 /* RISC interrupt. */
__le32 unused_1[2]; /* Gap. */
/* Request Queue. */
__le32 req_q_in; /* In-Pointer. */
__le32 req_q_out; /* Out-Pointer. */
/* Response Queue. */
__le32 rsp_q_in; /* In-Pointer. */
__le32 rsp_q_out; /* Out-Pointer. */
/* Priority Request Queue. */
__le32 preq_q_in; /* In-Pointer. */
__le32 preq_q_out; /* Out-Pointer. */
__le32 unused_2[2]; /* Gap. */
/* ATIO Queue. */
__le32 atio_q_in; /* In-Pointer. */
__le32 atio_q_out; /* Out-Pointer. */
__le32 host_status;
#define HSRX_RISC_INT BIT_15 /* RISC to Host interrupt. */
#define HSRX_RISC_PAUSED BIT_8 /* RISC Paused. */
__le32 hccr; /* Host command & control register. */
/* HCCR statuses. */
#define HCCRX_HOST_INT BIT_6 /* Host to RISC interrupt bit. */
#define HCCRX_RISC_RESET BIT_5 /* RISC Reset mode bit. */
/* HCCR commands. */
/* NOOP. */
#define HCCRX_NOOP 0x00000000
/* Set RISC Reset. */
#define HCCRX_SET_RISC_RESET 0x10000000
/* Clear RISC Reset. */
#define HCCRX_CLR_RISC_RESET 0x20000000
/* Set RISC Pause. */
#define HCCRX_SET_RISC_PAUSE 0x30000000
/* Releases RISC Pause. */
#define HCCRX_REL_RISC_PAUSE 0x40000000
/* Set HOST to RISC interrupt. */
#define HCCRX_SET_HOST_INT 0x50000000
/* Clear HOST to RISC interrupt. */
#define HCCRX_CLR_HOST_INT 0x60000000
/* Clear RISC to PCI interrupt. */
#define HCCRX_CLR_RISC_INT 0xA0000000
__le32 gpiod; /* GPIO Data register. */
/* LED update mask. */
#define GPDX_LED_UPDATE_MASK (BIT_20|BIT_19|BIT_18)
/* Data update mask. */
#define GPDX_DATA_UPDATE_MASK (BIT_17|BIT_16)
/* Data update mask. */
#define GPDX_DATA_UPDATE_2_MASK (BIT_28|BIT_27|BIT_26|BIT_17|BIT_16)
/* LED control mask. */
#define GPDX_LED_COLOR_MASK (BIT_4|BIT_3|BIT_2)
/* LED bit values. Color names as
* referenced in fw spec.
*/
#define GPDX_LED_YELLOW_ON BIT_2
#define GPDX_LED_GREEN_ON BIT_3
#define GPDX_LED_AMBER_ON BIT_4
/* Data in/out. */
#define GPDX_DATA_INOUT (BIT_1|BIT_0)
__le32 gpioe; /* GPIO Enable register. */
/* Enable update mask. */
#define GPEX_ENABLE_UPDATE_MASK (BIT_17|BIT_16)
/* Enable update mask. */
#define GPEX_ENABLE_UPDATE_2_MASK (BIT_28|BIT_27|BIT_26|BIT_17|BIT_16)
/* Enable. */
#define GPEX_ENABLE (BIT_1|BIT_0)
__le32 iobase_addr; /* I/O Bus Base Address register. */
__le32 unused_3[10]; /* Gap. */
__le16 mailbox0;
__le16 mailbox1;
__le16 mailbox2;
__le16 mailbox3;
__le16 mailbox4;
__le16 mailbox5;
__le16 mailbox6;
__le16 mailbox7;
__le16 mailbox8;
__le16 mailbox9;
__le16 mailbox10;
__le16 mailbox11;
__le16 mailbox12;
__le16 mailbox13;
__le16 mailbox14;
__le16 mailbox15;
__le16 mailbox16;
__le16 mailbox17;
__le16 mailbox18;
__le16 mailbox19;
__le16 mailbox20;
__le16 mailbox21;
__le16 mailbox22;
__le16 mailbox23;
__le16 mailbox24;
__le16 mailbox25;
__le16 mailbox26;
__le16 mailbox27;
__le16 mailbox28;
__le16 mailbox29;
__le16 mailbox30;
__le16 mailbox31;
__le32 iobase_window;
__le32 iobase_c4;
__le32 iobase_c8;
__le32 unused_4_1[6]; /* Gap. */
__le32 iobase_q;
__le32 unused_5[2]; /* Gap. */
__le32 iobase_select;
__le32 unused_6[2]; /* Gap. */
__le32 iobase_sdata;
};
/* RISC-RISC semaphore register PCI offet */
#define RISC_REGISTER_BASE_OFFSET 0x7010
#define RISC_REGISTER_WINDOW_OFFSET 0x6
/* RISC-RISC semaphore/flag register (risc address 0x7016) */
#define RISC_SEMAPHORE 0x1UL
#define RISC_SEMAPHORE_WE (RISC_SEMAPHORE << 16)
#define RISC_SEMAPHORE_CLR (RISC_SEMAPHORE_WE | 0x0UL)
#define RISC_SEMAPHORE_SET (RISC_SEMAPHORE_WE | RISC_SEMAPHORE)
#define RISC_SEMAPHORE_FORCE 0x8000UL
#define RISC_SEMAPHORE_FORCE_WE (RISC_SEMAPHORE_FORCE << 16)
#define RISC_SEMAPHORE_FORCE_CLR (RISC_SEMAPHORE_FORCE_WE | 0x0UL)
#define RISC_SEMAPHORE_FORCE_SET \
(RISC_SEMAPHORE_FORCE_WE | RISC_SEMAPHORE_FORCE)
/* RISC semaphore timeouts (ms) */
#define TIMEOUT_SEMAPHORE 2500
#define TIMEOUT_SEMAPHORE_FORCE 2000
#define TIMEOUT_TOTAL_ELAPSED 4500
/* Trace Control *************************************************************/
#define TC_AEN_DISABLE 0
#define TC_EFT_ENABLE 4
#define TC_EFT_DISABLE 5
#define TC_FCE_ENABLE 8
#define TC_FCE_OPTIONS 0
#define TC_FCE_DEFAULT_RX_SIZE 2112
#define TC_FCE_DEFAULT_TX_SIZE 2112
#define TC_FCE_DISABLE 9
#define TC_FCE_DISABLE_TRACE BIT_0
/* MID Support ***************************************************************/
#define MIN_MULTI_ID_FABRIC 64 /* Must be power-of-2. */
#define MAX_MULTI_ID_FABRIC 256 /* ... */
struct mid_conf_entry_24xx {
uint16_t reserved_1;
/*
* BIT 0 = Enable Hard Loop Id
* BIT 1 = Acquire Loop ID in LIPA
* BIT 2 = ID not Acquired
* BIT 3 = Enable VP
* BIT 4 = Enable Initiator Mode
* BIT 5 = Disable Target Mode
* BIT 6-7 = Reserved
*/
uint8_t options;
uint8_t hard_address;
uint8_t port_name[WWN_SIZE];
uint8_t node_name[WWN_SIZE];
};
struct mid_init_cb_24xx {
struct init_cb_24xx init_cb;
__le16 count;
__le16 options;
struct mid_conf_entry_24xx entries[MAX_MULTI_ID_FABRIC];
};
struct mid_db_entry_24xx {
uint16_t status;
#define MDBS_NON_PARTIC BIT_3
#define MDBS_ID_ACQUIRED BIT_1
#define MDBS_ENABLED BIT_0
uint8_t options;
uint8_t hard_address;
uint8_t port_name[WWN_SIZE];
uint8_t node_name[WWN_SIZE];
uint8_t port_id[3];
uint8_t reserved_1;
};
/*
* Virtual Port Control IOCB
*/
#define VP_CTRL_IOCB_TYPE 0x30 /* Virtual Port Control entry. */
struct vp_ctrl_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System defined. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
__le16 vp_idx_failed;
__le16 comp_status; /* Completion status. */
#define CS_VCE_IOCB_ERROR 0x01 /* Error processing IOCB */
#define CS_VCE_ACQ_ID_ERROR 0x02 /* Error while acquireing ID. */
#define CS_VCE_BUSY 0x05 /* Firmware not ready to accept cmd. */
__le16 command;
#define VCE_COMMAND_ENABLE_VPS 0x00 /* Enable VPs. */
#define VCE_COMMAND_DISABLE_VPS 0x08 /* Disable VPs. */
#define VCE_COMMAND_DISABLE_VPS_REINIT 0x09 /* Disable VPs and reinit link. */
#define VCE_COMMAND_DISABLE_VPS_LOGO 0x0a /* Disable VPs and LOGO ports. */
#define VCE_COMMAND_DISABLE_VPS_LOGO_ALL 0x0b /* Disable VPs and LOGO ports. */
__le16 vp_count;
uint8_t vp_idx_map[16];
__le16 flags;
__le16 id;
uint16_t reserved_4;
__le16 hopct;
uint8_t reserved_5[24];
};
/*
* Modify Virtual Port Configuration IOCB
*/
#define VP_CONFIG_IOCB_TYPE 0x31 /* Virtual Port Config entry. */
struct vp_config_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t handle_count;
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
__le16 flags;
#define CS_VF_BIND_VPORTS_TO_VF BIT_0
#define CS_VF_SET_QOS_OF_VPORTS BIT_1
#define CS_VF_SET_HOPS_OF_VPORTS BIT_2
__le16 comp_status; /* Completion status. */
#define CS_VCT_STS_ERROR 0x01 /* Specified VPs were not disabled. */
#define CS_VCT_CNT_ERROR 0x02 /* Invalid VP count. */
#define CS_VCT_ERROR 0x03 /* Unknown error. */
#define CS_VCT_IDX_ERROR 0x02 /* Invalid VP index. */
#define CS_VCT_BUSY 0x05 /* Firmware not ready to accept cmd. */
uint8_t command;
#define VCT_COMMAND_MOD_VPS 0x00 /* Modify VP configurations. */
#define VCT_COMMAND_MOD_ENABLE_VPS 0x01 /* Modify configuration & enable VPs. */
uint8_t vp_count;
uint8_t vp_index1;
uint8_t vp_index2;
uint8_t options_idx1;
uint8_t hard_address_idx1;
uint16_t reserved_vp1;
uint8_t port_name_idx1[WWN_SIZE];
uint8_t node_name_idx1[WWN_SIZE];
uint8_t options_idx2;
uint8_t hard_address_idx2;
uint16_t reserved_vp2;
uint8_t port_name_idx2[WWN_SIZE];
uint8_t node_name_idx2[WWN_SIZE];
__le16 id;
uint16_t reserved_4;
__le16 hopct;
uint8_t reserved_5[2];
};
#define VP_RPT_ID_IOCB_TYPE 0x32 /* Report ID Acquisition entry. */
enum VP_STATUS {
VP_STAT_COMPL,
VP_STAT_FAIL,
VP_STAT_ID_CHG,
VP_STAT_SNS_TO, /* timeout */
VP_STAT_SNS_RJT,
VP_STAT_SCR_TO, /* timeout */
VP_STAT_SCR_RJT,
};
enum VP_FLAGS {
VP_FLAGS_CON_FLOOP = 1,
VP_FLAGS_CON_P2P = 2,
VP_FLAGS_CON_FABRIC = 3,
VP_FLAGS_NAME_VALID = BIT_5,
};
struct vp_rpt_id_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System defined. */
uint8_t entry_status; /* Entry Status. */
__le32 resv1;
uint8_t vp_acquired;
uint8_t vp_setup;
uint8_t vp_idx; /* Format 0=reserved */
uint8_t vp_status; /* Format 0=reserved */
uint8_t port_id[3];
uint8_t format;
union {
struct _f0 {
/* format 0 loop */
uint8_t vp_idx_map[16];
uint8_t reserved_4[32];
} f0;
struct _f1 {
/* format 1 fabric */
uint8_t vpstat1_subcode; /* vp_status=1 subcode */
uint8_t flags;
#define TOPO_MASK 0xE
#define TOPO_FL 0x2
#define TOPO_N2N 0x4
#define TOPO_F 0x6
uint16_t fip_flags;
uint8_t rsv2[12];
uint8_t ls_rjt_vendor;
uint8_t ls_rjt_explanation;
uint8_t ls_rjt_reason;
uint8_t rsv3[5];
uint8_t port_name[8];
uint8_t node_name[8];
uint16_t bbcr;
uint8_t reserved_5[6];
} f1;
struct _f2 { /* format 2: N2N direct connect */
uint8_t vpstat1_subcode;
uint8_t flags;
uint16_t fip_flags;
uint8_t rsv2[12];
uint8_t ls_rjt_vendor;
uint8_t ls_rjt_explanation;
uint8_t ls_rjt_reason;
uint8_t rsv3[5];
uint8_t port_name[8];
uint8_t node_name[8];
uint16_t bbcr;
uint8_t reserved_5[2];
uint8_t remote_nport_id[4];
} f2;
} u;
};
#define VF_EVFP_IOCB_TYPE 0x26 /* Exchange Virtual Fabric Parameters entry. */
struct vf_evfp_entry_24xx {
uint8_t entry_type; /* Entry type. */
uint8_t entry_count; /* Entry count. */
uint8_t sys_define; /* System defined. */
uint8_t entry_status; /* Entry Status. */
uint32_t handle; /* System handle. */
__le16 comp_status; /* Completion status. */
__le16 timeout; /* timeout */
__le16 adim_tagging_mode;
__le16 vfport_id;
uint32_t exch_addr;
__le16 nport_handle; /* N_PORT handle. */
__le16 control_flags;
uint32_t io_parameter_0;
uint32_t io_parameter_1;
__le64 tx_address __packed; /* Data segment 0 address. */
uint32_t tx_len; /* Data segment 0 length. */
__le64 rx_address __packed; /* Data segment 1 address. */
uint32_t rx_len; /* Data segment 1 length. */
};
/* END MID Support ***********************************************************/
/* Flash Description Table ***************************************************/
struct qla_fdt_layout {
uint8_t sig[4];
__le16 version;
__le16 len;
__le16 checksum;
uint8_t unused1[2];
uint8_t model[16];
__le16 man_id;
__le16 id;
uint8_t flags;
uint8_t erase_cmd;
uint8_t alt_erase_cmd;
uint8_t wrt_enable_cmd;
uint8_t wrt_enable_bits;
uint8_t wrt_sts_reg_cmd;
uint8_t unprotect_sec_cmd;
uint8_t read_man_id_cmd;
__le32 block_size;
__le32 alt_block_size;
__le32 flash_size;
__le32 wrt_enable_data;
uint8_t read_id_addr_len;
uint8_t wrt_disable_bits;
uint8_t read_dev_id_len;
uint8_t chip_erase_cmd;
__le16 read_timeout;
uint8_t protect_sec_cmd;
uint8_t unused2[65];
};
/* Flash Layout Table ********************************************************/
struct qla_flt_location {
uint8_t sig[4];
__le16 start_lo;
__le16 start_hi;
uint8_t version;
uint8_t unused[5];
__le16 checksum;
};
#define FLT_REG_FW 0x01
#define FLT_REG_BOOT_CODE 0x07
#define FLT_REG_VPD_0 0x14
#define FLT_REG_NVRAM_0 0x15
#define FLT_REG_VPD_1 0x16
#define FLT_REG_NVRAM_1 0x17
#define FLT_REG_VPD_2 0xD4
#define FLT_REG_NVRAM_2 0xD5
#define FLT_REG_VPD_3 0xD6
#define FLT_REG_NVRAM_3 0xD7
#define FLT_REG_FDT 0x1a
#define FLT_REG_FLT 0x1c
#define FLT_REG_HW_EVENT_0 0x1d
#define FLT_REG_HW_EVENT_1 0x1f
#define FLT_REG_NPIV_CONF_0 0x29
#define FLT_REG_NPIV_CONF_1 0x2a
#define FLT_REG_GOLD_FW 0x2f
#define FLT_REG_FCP_PRIO_0 0x87
#define FLT_REG_FCP_PRIO_1 0x88
#define FLT_REG_CNA_FW 0x97
#define FLT_REG_BOOT_CODE_8044 0xA2
#define FLT_REG_FCOE_FW 0xA4
#define FLT_REG_FCOE_NVRAM_0 0xAA
#define FLT_REG_FCOE_NVRAM_1 0xAC
/* 27xx */
#define FLT_REG_IMG_PRI_27XX 0x95
#define FLT_REG_IMG_SEC_27XX 0x96
#define FLT_REG_FW_SEC_27XX 0x02
#define FLT_REG_BOOTLOAD_SEC_27XX 0x9
#define FLT_REG_VPD_SEC_27XX_0 0x50
#define FLT_REG_VPD_SEC_27XX_1 0x52
#define FLT_REG_VPD_SEC_27XX_2 0xD8
#define FLT_REG_VPD_SEC_27XX_3 0xDA
/* 28xx */
#define FLT_REG_AUX_IMG_PRI_28XX 0x125
#define FLT_REG_AUX_IMG_SEC_28XX 0x126
#define FLT_REG_VPD_SEC_28XX_0 0x10C
#define FLT_REG_VPD_SEC_28XX_1 0x10E
#define FLT_REG_VPD_SEC_28XX_2 0x110
#define FLT_REG_VPD_SEC_28XX_3 0x112
#define FLT_REG_NVRAM_SEC_28XX_0 0x10D
#define FLT_REG_NVRAM_SEC_28XX_1 0x10F
#define FLT_REG_NVRAM_SEC_28XX_2 0x111
#define FLT_REG_NVRAM_SEC_28XX_3 0x113
#define FLT_REG_MPI_PRI_28XX 0xD3
#define FLT_REG_MPI_SEC_28XX 0xF0
#define FLT_REG_PEP_PRI_28XX 0xD1
#define FLT_REG_PEP_SEC_28XX 0xF1
struct qla_flt_region {
__le16 code;
uint8_t attribute;
uint8_t reserved;
__le32 size;
__le32 start;
__le32 end;
};
struct qla_flt_header {
__le16 version;
__le16 length;
__le16 checksum;
__le16 unused;
struct qla_flt_region region[0];
};
#define FLT_REGION_SIZE 16
#define FLT_MAX_REGIONS 0xFF
#define FLT_REGIONS_SIZE (FLT_REGION_SIZE * FLT_MAX_REGIONS)
/* Flash NPIV Configuration Table ********************************************/
struct qla_npiv_header {
uint8_t sig[2];
__le16 version;
__le16 entries;
__le16 unused[4];
__le16 checksum;
};
struct qla_npiv_entry {
__le16 flags;
__le16 vf_id;
uint8_t q_qos;
uint8_t f_qos;
__le16 unused1;
uint8_t port_name[WWN_SIZE];
uint8_t node_name[WWN_SIZE];
};
/* 84XX Support **************************************************************/
#define MBA_ISP84XX_ALERT 0x800f /* Alert Notification. */
#define A84_PANIC_RECOVERY 0x1
#define A84_OP_LOGIN_COMPLETE 0x2
#define A84_DIAG_LOGIN_COMPLETE 0x3
#define A84_GOLD_LOGIN_COMPLETE 0x4
#define MBC_ISP84XX_RESET 0x3a /* Reset. */
#define FSTATE_REMOTE_FC_DOWN BIT_0
#define FSTATE_NSL_LINK_DOWN BIT_1
#define FSTATE_IS_DIAG_FW BIT_2
#define FSTATE_LOGGED_IN BIT_3
#define FSTATE_WAITING_FOR_VERIFY BIT_4
#define VERIFY_CHIP_IOCB_TYPE 0x1B
struct verify_chip_entry_84xx {
uint8_t entry_type;
uint8_t entry_count;
uint8_t sys_defined;
uint8_t entry_status;
uint32_t handle;
__le16 options;
#define VCO_DONT_UPDATE_FW BIT_0
#define VCO_FORCE_UPDATE BIT_1
#define VCO_DONT_RESET_UPDATE BIT_2
#define VCO_DIAG_FW BIT_3
#define VCO_END_OF_DATA BIT_14
#define VCO_ENABLE_DSD BIT_15
__le16 reserved_1;
__le16 data_seg_cnt;
__le16 reserved_2[3];
__le32 fw_ver;
__le32 exchange_address;
__le32 reserved_3[3];
__le32 fw_size;
__le32 fw_seq_size;
__le32 relative_offset;
struct dsd64 dsd;
};
struct verify_chip_rsp_84xx {
uint8_t entry_type;
uint8_t entry_count;
uint8_t sys_defined;
uint8_t entry_status;
uint32_t handle;
__le16 comp_status;
#define CS_VCS_CHIP_FAILURE 0x3
#define CS_VCS_BAD_EXCHANGE 0x8
#define CS_VCS_SEQ_COMPLETEi 0x40
__le16 failure_code;
#define VFC_CHECKSUM_ERROR 0x1
#define VFC_INVALID_LEN 0x2
#define VFC_ALREADY_IN_PROGRESS 0x8
__le16 reserved_1[4];
__le32 fw_ver;
__le32 exchange_address;
__le32 reserved_2[6];
};
#define ACCESS_CHIP_IOCB_TYPE 0x2B
struct access_chip_84xx {
uint8_t entry_type;
uint8_t entry_count;
uint8_t sys_defined;
uint8_t entry_status;
uint32_t handle;
__le16 options;
#define ACO_DUMP_MEMORY 0x0
#define ACO_LOAD_MEMORY 0x1
#define ACO_CHANGE_CONFIG_PARAM 0x2
#define ACO_REQUEST_INFO 0x3
__le16 reserved1;
__le16 dseg_count;
__le16 reserved2[3];
__le32 parameter1;
__le32 parameter2;
__le32 parameter3;
__le32 reserved3[3];
__le32 total_byte_cnt;
__le32 reserved4;
struct dsd64 dsd;
};
struct access_chip_rsp_84xx {
uint8_t entry_type;
uint8_t entry_count;
uint8_t sys_defined;
uint8_t entry_status;
uint32_t handle;
__le16 comp_status;
__le16 failure_code;
__le32 residual_count;
__le32 reserved[12];
};
/* 81XX Support **************************************************************/
#define MBA_DCBX_START 0x8016
#define MBA_DCBX_COMPLETE 0x8030
#define MBA_FCF_CONF_ERR 0x8031
#define MBA_DCBX_PARAM_UPDATE 0x8032
#define MBA_IDC_COMPLETE 0x8100
#define MBA_IDC_NOTIFY 0x8101
#define MBA_IDC_TIME_EXT 0x8102
#define MBC_IDC_ACK 0x101
#define MBC_RESTART_MPI_FW 0x3d
#define MBC_FLASH_ACCESS_CTRL 0x3e /* Control flash access. */
#define MBC_GET_XGMAC_STATS 0x7a
#define MBC_GET_DCBX_PARAMS 0x51
/*
* ISP83xx mailbox commands
*/
#define MBC_WRITE_REMOTE_REG 0x0001 /* Write remote register */
#define MBC_READ_REMOTE_REG 0x0009 /* Read remote register */
#define MBC_RESTART_NIC_FIRMWARE 0x003d /* Restart NIC firmware */
#define MBC_SET_ACCESS_CONTROL 0x003e /* Access control command */
/* Flash access control option field bit definitions */
#define FAC_OPT_FORCE_SEMAPHORE BIT_15
#define FAC_OPT_REQUESTOR_ID BIT_14
#define FAC_OPT_CMD_SUBCODE 0xff
/* Flash access control command subcodes */
#define FAC_OPT_CMD_WRITE_PROTECT 0x00
#define FAC_OPT_CMD_WRITE_ENABLE 0x01
#define FAC_OPT_CMD_ERASE_SECTOR 0x02
#define FAC_OPT_CMD_LOCK_SEMAPHORE 0x03
#define FAC_OPT_CMD_UNLOCK_SEMAPHORE 0x04
#define FAC_OPT_CMD_GET_SECTOR_SIZE 0x05
/* enhanced features bit definitions */
#define NEF_LR_DIST_ENABLE BIT_0
/* LR Distance bit positions */
#define LR_DIST_NV_POS 2
#define LR_DIST_NV_MASK 0xf
#define LR_DIST_FW_POS 12
/* FAC semaphore defines */
#define FAC_SEMAPHORE_UNLOCK 0
#define FAC_SEMAPHORE_LOCK 1
struct nvram_81xx {
/* NVRAM header. */
uint8_t id[4];
__le16 nvram_version;
__le16 reserved_0;
/* Firmware Initialization Control Block. */
__le16 version;
__le16 reserved_1;
__le16 frame_payload_size;
__le16 execution_throttle;
__le16 exchange_count;
__le16 reserved_2;
uint8_t port_name[WWN_SIZE];
uint8_t node_name[WWN_SIZE];
__le16 login_retry_count;
__le16 reserved_3;
__le16 interrupt_delay_timer;
__le16 login_timeout;
__le32 firmware_options_1;
__le32 firmware_options_2;
__le32 firmware_options_3;
__le16 reserved_4[4];
/* Offset 64. */
uint8_t enode_mac[6];
__le16 reserved_5[5];
/* Offset 80. */
__le16 reserved_6[24];
/* Offset 128. */
__le16 ex_version;
uint8_t prio_fcf_matching_flags;
uint8_t reserved_6_1[3];
__le16 pri_fcf_vlan_id;
uint8_t pri_fcf_fabric_name[8];
__le16 reserved_6_2[7];
uint8_t spma_mac_addr[6];
__le16 reserved_6_3[14];
/* Offset 192. */
uint8_t min_supported_speed;
uint8_t reserved_7_0;
__le16 reserved_7[31];
/*
* BIT 0 = Enable spinup delay
* BIT 1 = Disable BIOS
* BIT 2 = Enable Memory Map BIOS
* BIT 3 = Enable Selectable Boot
* BIT 4 = Disable RISC code load
* BIT 5 = Disable Serdes
* BIT 6 = Opt boot mode
* BIT 7 = Interrupt enable
*
* BIT 8 = EV Control enable
* BIT 9 = Enable lip reset
* BIT 10 = Enable lip full login
* BIT 11 = Enable target reset
* BIT 12 = Stop firmware
* BIT 13 = Enable nodename option
* BIT 14 = Default WWPN valid
* BIT 15 = Enable alternate WWN
*
* BIT 16 = CLP LUN string
* BIT 17 = CLP Target string
* BIT 18 = CLP BIOS enable string
* BIT 19 = CLP Serdes string
* BIT 20 = CLP WWPN string
* BIT 21 = CLP WWNN string
* BIT 22 =
* BIT 23 =
* BIT 24 = Keep WWPN
* BIT 25 = Temp WWPN
* BIT 26-31 =
*/
__le32 host_p;
uint8_t alternate_port_name[WWN_SIZE];
uint8_t alternate_node_name[WWN_SIZE];
uint8_t boot_port_name[WWN_SIZE];
__le16 boot_lun_number;
__le16 reserved_8;
uint8_t alt1_boot_port_name[WWN_SIZE];
__le16 alt1_boot_lun_number;
__le16 reserved_9;
uint8_t alt2_boot_port_name[WWN_SIZE];
__le16 alt2_boot_lun_number;
__le16 reserved_10;
uint8_t alt3_boot_port_name[WWN_SIZE];
__le16 alt3_boot_lun_number;
__le16 reserved_11;
/*
* BIT 0 = Selective Login
* BIT 1 = Alt-Boot Enable
* BIT 2 = Reserved
* BIT 3 = Boot Order List
* BIT 4 = Reserved
* BIT 5 = Selective LUN
* BIT 6 = Reserved
* BIT 7-31 =
*/
__le32 efi_parameters;
uint8_t reset_delay;
uint8_t reserved_12;
__le16 reserved_13;
__le16 boot_id_number;
__le16 reserved_14;
__le16 max_luns_per_target;
__le16 reserved_15;
__le16 port_down_retry_count;
__le16 link_down_timeout;
/* FCode parameters. */
__le16 fcode_parameter;
__le16 reserved_16[3];
/* Offset 352. */
uint8_t reserved_17[4];
__le16 reserved_18[5];
uint8_t reserved_19[2];
__le16 reserved_20[8];
/* Offset 384. */
uint8_t reserved_21[16];
__le16 reserved_22[3];
/* Offset 406 (0x196) Enhanced Features
* BIT 0 = Extended BB credits for LR
* BIT 1 = Virtual Fabric Enable
* BIT 2-5 = Distance Support if BIT 0 is on
* BIT 6 = Prefer FCP
* BIT 7 = SCM Disabled if BIT is set (1)
* BIT 8-15 = Unused
*/
uint16_t enhanced_features;
uint16_t reserved_24[4];
/* Offset 416. */
__le16 reserved_25[32];
/* Offset 480. */
uint8_t model_name[16];
/* Offset 496. */
__le16 feature_mask_l;
__le16 feature_mask_h;
__le16 reserved_26[2];
__le16 subsystem_vendor_id;
__le16 subsystem_device_id;
__le32 checksum;
};
/*
* ISP Initialization Control Block.
* Little endian except where noted.
*/
#define ICB_VERSION 1
struct init_cb_81xx {
__le16 version;
__le16 reserved_1;
__le16 frame_payload_size;
__le16 execution_throttle;
__le16 exchange_count;
__le16 reserved_2;
uint8_t port_name[WWN_SIZE]; /* Big endian. */
uint8_t node_name[WWN_SIZE]; /* Big endian. */
__le16 response_q_inpointer;
__le16 request_q_outpointer;
__le16 login_retry_count;
__le16 prio_request_q_outpointer;
__le16 response_q_length;
__le16 request_q_length;
__le16 reserved_3;
__le16 prio_request_q_length;
__le64 request_q_address __packed;
__le64 response_q_address __packed;
__le64 prio_request_q_address __packed;
uint8_t reserved_4[8];
__le16 atio_q_inpointer;
__le16 atio_q_length;
__le64 atio_q_address __packed;
__le16 interrupt_delay_timer; /* 100us increments. */
__le16 login_timeout;
/*
* BIT 0-3 = Reserved
* BIT 4 = Enable Target Mode
* BIT 5 = Disable Initiator Mode
* BIT 6 = Reserved
* BIT 7 = Reserved
*
* BIT 8-13 = Reserved
* BIT 14 = Node Name Option
* BIT 15-31 = Reserved
*/
__le32 firmware_options_1;
/*
* BIT 0 = Operation Mode bit 0
* BIT 1 = Operation Mode bit 1
* BIT 2 = Operation Mode bit 2
* BIT 3 = Operation Mode bit 3
* BIT 4-7 = Reserved
*
* BIT 8 = Enable Class 2
* BIT 9 = Enable ACK0
* BIT 10 = Reserved
* BIT 11 = Enable FC-SP Security
* BIT 12 = FC Tape Enable
* BIT 13 = Reserved
* BIT 14 = Enable Target PRLI Control
* BIT 15-31 = Reserved
*/
__le32 firmware_options_2;
/*
* BIT 0-3 = Reserved
* BIT 4 = FCP RSP Payload bit 0
* BIT 5 = FCP RSP Payload bit 1
* BIT 6 = Enable Receive Out-of-Order data frame handling
* BIT 7 = Reserved
*
* BIT 8 = Reserved
* BIT 9 = Enable Out-of-Order FCP_XFER_RDY relative offset handling
* BIT 10-16 = Reserved
* BIT 17 = Enable multiple FCFs
* BIT 18-20 = MAC addressing mode
* BIT 21-25 = Ethernet data rate
* BIT 26 = Enable ethernet header rx IOCB for ATIO q
* BIT 27 = Enable ethernet header rx IOCB for response q
* BIT 28 = SPMA selection bit 0
* BIT 28 = SPMA selection bit 1
* BIT 30-31 = Reserved
*/
__le32 firmware_options_3;
uint8_t reserved_5[8];
uint8_t enode_mac[6];
uint8_t reserved_6[10];
};
struct mid_init_cb_81xx {
struct init_cb_81xx init_cb;
uint16_t count;
uint16_t options;
struct mid_conf_entry_24xx entries[MAX_MULTI_ID_FABRIC];
};
struct ex_init_cb_81xx {
uint16_t ex_version;
uint8_t prio_fcf_matching_flags;
uint8_t reserved_1[3];
uint16_t pri_fcf_vlan_id;
uint8_t pri_fcf_fabric_name[8];
uint16_t reserved_2[7];
uint8_t spma_mac_addr[6];
uint16_t reserved_3[14];
};
#define FARX_ACCESS_FLASH_CONF_81XX 0x7FFD0000
#define FARX_ACCESS_FLASH_DATA_81XX 0x7F800000
#define FARX_ACCESS_FLASH_CONF_28XX 0x7FFD0000
#define FARX_ACCESS_FLASH_DATA_28XX 0x7F7D0000
/* FCP priority config defines *************************************/
/* operations */
#define QLFC_FCP_PRIO_DISABLE 0x0
#define QLFC_FCP_PRIO_ENABLE 0x1
#define QLFC_FCP_PRIO_GET_CONFIG 0x2
#define QLFC_FCP_PRIO_SET_CONFIG 0x3
struct qla_fcp_prio_entry {
uint16_t flags; /* Describes parameter(s) in FCP */
/* priority entry that are valid */
#define FCP_PRIO_ENTRY_VALID 0x1
#define FCP_PRIO_ENTRY_TAG_VALID 0x2
#define FCP_PRIO_ENTRY_SPID_VALID 0x4
#define FCP_PRIO_ENTRY_DPID_VALID 0x8
#define FCP_PRIO_ENTRY_LUNB_VALID 0x10
#define FCP_PRIO_ENTRY_LUNE_VALID 0x20
#define FCP_PRIO_ENTRY_SWWN_VALID 0x40
#define FCP_PRIO_ENTRY_DWWN_VALID 0x80
uint8_t tag; /* Priority value */
uint8_t reserved; /* Reserved for future use */
uint32_t src_pid; /* Src port id. high order byte */
/* unused; -1 (wild card) */
uint32_t dst_pid; /* Src port id. high order byte */
/* unused; -1 (wild card) */
uint16_t lun_beg; /* 1st lun num of lun range. */
/* -1 (wild card) */
uint16_t lun_end; /* 2nd lun num of lun range. */
/* -1 (wild card) */
uint8_t src_wwpn[8]; /* Source WWPN: -1 (wild card) */
uint8_t dst_wwpn[8]; /* Destination WWPN: -1 (wild card) */
};
struct qla_fcp_prio_cfg {
uint8_t signature[4]; /* "HQOS" signature of config data */
uint16_t version; /* 1: Initial version */
uint16_t length; /* config data size in num bytes */
uint16_t checksum; /* config data bytes checksum */
uint16_t num_entries; /* Number of entries */
uint16_t size_of_entry; /* Size of each entry in num bytes */
uint8_t attributes; /* enable/disable, persistence */
#define FCP_PRIO_ATTR_DISABLE 0x0
#define FCP_PRIO_ATTR_ENABLE 0x1
#define FCP_PRIO_ATTR_PERSIST 0x2
uint8_t reserved; /* Reserved for future use */
#define FCP_PRIO_CFG_HDR_SIZE offsetof(struct qla_fcp_prio_cfg, entry)
struct qla_fcp_prio_entry entry[1023]; /* fcp priority entries */
uint8_t reserved2[16];
};
#define FCP_PRIO_CFG_SIZE (32*1024) /* fcp prio data per port*/
/* 25XX Support ****************************************************/
#define FA_FCP_PRIO0_ADDR_25 0x3C000
#define FA_FCP_PRIO1_ADDR_25 0x3E000
/* 81XX Flash locations -- occupies second 2MB region. */
#define FA_BOOT_CODE_ADDR_81 0x80000
#define FA_RISC_CODE_ADDR_81 0xA0000
#define FA_FW_AREA_ADDR_81 0xC0000
#define FA_VPD_NVRAM_ADDR_81 0xD0000
#define FA_VPD0_ADDR_81 0xD0000
#define FA_VPD1_ADDR_81 0xD0400
#define FA_NVRAM0_ADDR_81 0xD0080
#define FA_NVRAM1_ADDR_81 0xD0180
#define FA_FEATURE_ADDR_81 0xD4000
#define FA_FLASH_DESCR_ADDR_81 0xD8000
#define FA_FLASH_LAYOUT_ADDR_81 0xD8400
#define FA_HW_EVENT0_ADDR_81 0xDC000
#define FA_HW_EVENT1_ADDR_81 0xDC400
#define FA_NPIV_CONF0_ADDR_81 0xD1000
#define FA_NPIV_CONF1_ADDR_81 0xD2000
/* 83XX Flash locations -- occupies second 8MB region. */
#define FA_FLASH_LAYOUT_ADDR_83 (0x3F1000/4)
#define FA_FLASH_LAYOUT_ADDR_28 (0x11000/4)
#define NVRAM_DUAL_FCP_NVME_FLAG_OFFSET 0x196
#endif