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1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 | /* * PMC-Sierra SPCv/ve 8088/8089 SAS/SATA based host adapters driver * * Copyright (c) 2008-2009 USI Co., Ltd. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions, and the following disclaimer, * without modification. * 2. Redistributions in binary form must reproduce at minimum a disclaimer * substantially similar to the "NO WARRANTY" disclaimer below * ("Disclaimer") and any redistribution must be conditioned upon * including a substantially similar Disclaimer requirement for further * binary redistribution. * 3. Neither the names of the above-listed copyright holders nor the names * of any contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * Alternatively, this software may be distributed under the terms of the * GNU General Public License ("GPL") version 2 as published by the Free * Software Foundation. * * NO WARRANTY * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGES. * */ #ifndef _PMC8001_REG_H_ #define _PMC8001_REG_H_ #include <linux/types.h> #include <scsi/libsas.h> /* for Request Opcode of IOMB */ #define OPC_INB_ECHO 1 /* 0x000 */ #define OPC_INB_PHYSTART 4 /* 0x004 */ #define OPC_INB_PHYSTOP 5 /* 0x005 */ #define OPC_INB_SSPINIIOSTART 6 /* 0x006 */ #define OPC_INB_SSPINITMSTART 7 /* 0x007 */ /* 0x8 RESV IN SPCv */ #define OPC_INB_RSVD 8 /* 0x008 */ #define OPC_INB_DEV_HANDLE_ACCEPT 9 /* 0x009 */ #define OPC_INB_SSPTGTIOSTART 10 /* 0x00A */ #define OPC_INB_SSPTGTRSPSTART 11 /* 0x00B */ /* 0xC, 0xD, 0xE removed in SPCv */ #define OPC_INB_SSP_ABORT 15 /* 0x00F */ #define OPC_INB_DEREG_DEV_HANDLE 16 /* 0x010 */ #define OPC_INB_GET_DEV_HANDLE 17 /* 0x011 */ #define OPC_INB_SMP_REQUEST 18 /* 0x012 */ /* 0x13 SMP_RESPONSE is removed in SPCv */ #define OPC_INB_SMP_ABORT 20 /* 0x014 */ /* 0x16 RESV IN SPCv */ #define OPC_INB_RSVD1 22 /* 0x016 */ #define OPC_INB_SATA_HOST_OPSTART 23 /* 0x017 */ #define OPC_INB_SATA_ABORT 24 /* 0x018 */ #define OPC_INB_LOCAL_PHY_CONTROL 25 /* 0x019 */ /* 0x1A RESV IN SPCv */ #define OPC_INB_RSVD2 26 /* 0x01A */ #define OPC_INB_FW_FLASH_UPDATE 32 /* 0x020 */ #define OPC_INB_GPIO 34 /* 0x022 */ #define OPC_INB_SAS_DIAG_MODE_START_END 35 /* 0x023 */ #define OPC_INB_SAS_DIAG_EXECUTE 36 /* 0x024 */ /* 0x25 RESV IN SPCv */ #define OPC_INB_RSVD3 37 /* 0x025 */ #define OPC_INB_GET_TIME_STAMP 38 /* 0x026 */ #define OPC_INB_PORT_CONTROL 39 /* 0x027 */ #define OPC_INB_GET_NVMD_DATA 40 /* 0x028 */ #define OPC_INB_SET_NVMD_DATA 41 /* 0x029 */ #define OPC_INB_SET_DEVICE_STATE 42 /* 0x02A */ #define OPC_INB_GET_DEVICE_STATE 43 /* 0x02B */ #define OPC_INB_SET_DEV_INFO 44 /* 0x02C */ /* 0x2D RESV IN SPCv */ #define OPC_INB_RSVD4 45 /* 0x02D */ #define OPC_INB_SGPIO_REGISTER 46 /* 0x02E */ #define OPC_INB_PCIE_DIAG_EXEC 47 /* 0x02F */ #define OPC_INB_SET_CONTROLLER_CONFIG 48 /* 0x030 */ #define OPC_INB_GET_CONTROLLER_CONFIG 49 /* 0x031 */ #define OPC_INB_REG_DEV 50 /* 0x032 */ #define OPC_INB_SAS_HW_EVENT_ACK 51 /* 0x033 */ #define OPC_INB_GET_DEVICE_INFO 52 /* 0x034 */ #define OPC_INB_GET_PHY_PROFILE 53 /* 0x035 */ #define OPC_INB_FLASH_OP_EXT 54 /* 0x036 */ #define OPC_INB_SET_PHY_PROFILE 55 /* 0x037 */ #define OPC_INB_KEK_MANAGEMENT 256 /* 0x100 */ #define OPC_INB_DEK_MANAGEMENT 257 /* 0x101 */ #define OPC_INB_SSP_INI_DIF_ENC_IO 258 /* 0x102 */ #define OPC_INB_SATA_DIF_ENC_IO 259 /* 0x103 */ /* for Response Opcode of IOMB */ #define OPC_OUB_ECHO 1 /* 0x001 */ #define OPC_OUB_RSVD 4 /* 0x004 */ #define OPC_OUB_SSP_COMP 5 /* 0x005 */ #define OPC_OUB_SMP_COMP 6 /* 0x006 */ #define OPC_OUB_LOCAL_PHY_CNTRL 7 /* 0x007 */ #define OPC_OUB_RSVD1 10 /* 0x00A */ #define OPC_OUB_DEREG_DEV 11 /* 0x00B */ #define OPC_OUB_GET_DEV_HANDLE 12 /* 0x00C */ #define OPC_OUB_SATA_COMP 13 /* 0x00D */ #define OPC_OUB_SATA_EVENT 14 /* 0x00E */ #define OPC_OUB_SSP_EVENT 15 /* 0x00F */ #define OPC_OUB_RSVD2 16 /* 0x010 */ /* 0x11 - SMP_RECEIVED Notification removed in SPCv*/ #define OPC_OUB_SSP_RECV_EVENT 18 /* 0x012 */ #define OPC_OUB_RSVD3 19 /* 0x013 */ #define OPC_OUB_FW_FLASH_UPDATE 20 /* 0x014 */ #define OPC_OUB_GPIO_RESPONSE 22 /* 0x016 */ #define OPC_OUB_GPIO_EVENT 23 /* 0x017 */ #define OPC_OUB_GENERAL_EVENT 24 /* 0x018 */ #define OPC_OUB_SSP_ABORT_RSP 26 /* 0x01A */ #define OPC_OUB_SATA_ABORT_RSP 27 /* 0x01B */ #define OPC_OUB_SAS_DIAG_MODE_START_END 28 /* 0x01C */ #define OPC_OUB_SAS_DIAG_EXECUTE 29 /* 0x01D */ #define OPC_OUB_GET_TIME_STAMP 30 /* 0x01E */ #define OPC_OUB_RSVD4 31 /* 0x01F */ #define OPC_OUB_PORT_CONTROL 32 /* 0x020 */ #define OPC_OUB_SKIP_ENTRY 33 /* 0x021 */ #define OPC_OUB_SMP_ABORT_RSP 34 /* 0x022 */ #define OPC_OUB_GET_NVMD_DATA 35 /* 0x023 */ #define OPC_OUB_SET_NVMD_DATA 36 /* 0x024 */ #define OPC_OUB_DEVICE_HANDLE_REMOVAL 37 /* 0x025 */ #define OPC_OUB_SET_DEVICE_STATE 38 /* 0x026 */ #define OPC_OUB_GET_DEVICE_STATE 39 /* 0x027 */ #define OPC_OUB_SET_DEV_INFO 40 /* 0x028 */ #define OPC_OUB_RSVD5 41 /* 0x029 */ #define OPC_OUB_HW_EVENT 1792 /* 0x700 */ #define OPC_OUB_DEV_HANDLE_ARRIV 1824 /* 0x720 */ #define OPC_OUB_THERM_HW_EVENT 1840 /* 0x730 */ #define OPC_OUB_SGPIO_RESP 2094 /* 0x82E */ #define OPC_OUB_PCIE_DIAG_EXECUTE 2095 /* 0x82F */ #define OPC_OUB_DEV_REGIST 2098 /* 0x832 */ #define OPC_OUB_SAS_HW_EVENT_ACK 2099 /* 0x833 */ #define OPC_OUB_GET_DEVICE_INFO 2100 /* 0x834 */ /* spcv specific commands */ #define OPC_OUB_PHY_START_RESP 2052 /* 0x804 */ #define OPC_OUB_PHY_STOP_RESP 2053 /* 0x805 */ #define OPC_OUB_SET_CONTROLLER_CONFIG 2096 /* 0x830 */ #define OPC_OUB_GET_CONTROLLER_CONFIG 2097 /* 0x831 */ #define OPC_OUB_GET_PHY_PROFILE 2101 /* 0x835 */ #define OPC_OUB_FLASH_OP_EXT 2102 /* 0x836 */ #define OPC_OUB_SET_PHY_PROFILE 2103 /* 0x837 */ #define OPC_OUB_KEK_MANAGEMENT_RESP 2304 /* 0x900 */ #define OPC_OUB_DEK_MANAGEMENT_RESP 2305 /* 0x901 */ #define OPC_OUB_SSP_COALESCED_COMP_RESP 2306 /* 0x902 */ /* for phy start*/ #define SSC_DISABLE_15 (0x01 << 16) #define SSC_DISABLE_30 (0x02 << 16) #define SSC_DISABLE_60 (0x04 << 16) #define SAS_ASE (0x01 << 15) #define SPINHOLD_DISABLE (0x00 << 14) #define SPINHOLD_ENABLE (0x01 << 14) #define LINKMODE_SAS (0x01 << 12) #define LINKMODE_DSATA (0x02 << 12) #define LINKMODE_AUTO (0x03 << 12) #define LINKRATE_15 (0x01 << 8) #define LINKRATE_30 (0x02 << 8) #define LINKRATE_60 (0x04 << 8) #define LINKRATE_120 (0x08 << 8) /*phy_stop*/ #define PHY_STOP_SUCCESS 0x00 #define PHY_STOP_ERR_DEVICE_ATTACHED 0x1046 /* phy_profile */ #define SAS_PHY_ANALOG_SETTINGS_PAGE 0x04 #define PHY_DWORD_LENGTH 0xC /* Thermal related */ #define THERMAL_ENABLE 0x1 #define THERMAL_LOG_ENABLE 0x1 #define THERMAL_PAGE_CODE_7H 0x6 #define THERMAL_PAGE_CODE_8H 0x7 #define LTEMPHIL 70 #define RTEMPHIL 100 /* Encryption info */ #define SCRATCH_PAD3_ENC_DISABLED 0x00000000 #define SCRATCH_PAD3_ENC_DIS_ERR 0x00000001 #define SCRATCH_PAD3_ENC_ENA_ERR 0x00000002 #define SCRATCH_PAD3_ENC_READY 0x00000003 #define SCRATCH_PAD3_ENC_MASK SCRATCH_PAD3_ENC_READY #define SCRATCH_PAD3_XTS_ENABLED (1 << 14) #define SCRATCH_PAD3_SMA_ENABLED (1 << 4) #define SCRATCH_PAD3_SMB_ENABLED (1 << 5) #define SCRATCH_PAD3_SMF_ENABLED 0 #define SCRATCH_PAD3_SM_MASK 0x000000F0 #define SCRATCH_PAD3_ERR_CODE 0x00FF0000 #define SEC_MODE_SMF 0x0 #define SEC_MODE_SMA 0x100 #define SEC_MODE_SMB 0x200 #define CIPHER_MODE_ECB 0x00000001 #define CIPHER_MODE_XTS 0x00000002 #define KEK_MGMT_SUBOP_KEYCARDUPDATE 0x4 /* SAS protocol timer configuration page */ #define SAS_PROTOCOL_TIMER_CONFIG_PAGE 0x04 #define STP_MCT_TMO 32 #define SSP_MCT_TMO 32 #define SAS_MAX_OPEN_TIME 5 #define SMP_MAX_CONN_TIMER 0xFF #define STP_FRM_TIMER 0 #define STP_IDLE_TIME 5 /* 5 us; controller default */ #define SAS_MFD 0 #define SAS_OPNRJT_RTRY_INTVL 2 #define SAS_DOPNRJT_RTRY_TMO 128 #define SAS_COPNRJT_RTRY_TMO 128 #define SPCV_DOORBELL_CLEAR_TIMEOUT (30 * 1000 * 1000) /* 30 sec */ #define SPC_DOORBELL_CLEAR_TIMEOUT (15 * 1000 * 1000) /* 15 sec */ /* Making ORR bigger than IT NEXUS LOSS which is 2000000us = 2 second. Assuming a bigger value 3 second, 3000000/128 = 23437.5 where 128 is DOPNRJT_RTRY_TMO */ #define SAS_DOPNRJT_RTRY_THR 23438 #define SAS_COPNRJT_RTRY_THR 23438 #define SAS_MAX_AIP 0x200000 #define IT_NEXUS_TIMEOUT 0x7D0 #define PORT_RECOVERY_TIMEOUT ((IT_NEXUS_TIMEOUT/100) + 30) /* Port recovery timeout, 10000 ms for PM8006 controller */ #define CHIP_8006_PORT_RECOVERY_TIMEOUT 0x640000 #ifdef __LITTLE_ENDIAN_BITFIELD struct sas_identify_frame_local { /* Byte 0 */ u8 frame_type:4; u8 dev_type:3; u8 _un0:1; /* Byte 1 */ u8 _un1; /* Byte 2 */ union { struct { u8 _un20:1; u8 smp_iport:1; u8 stp_iport:1; u8 ssp_iport:1; u8 _un247:4; }; u8 initiator_bits; }; /* Byte 3 */ union { struct { u8 _un30:1; u8 smp_tport:1; u8 stp_tport:1; u8 ssp_tport:1; u8 _un347:4; }; u8 target_bits; }; /* Byte 4 - 11 */ u8 _un4_11[8]; /* Byte 12 - 19 */ u8 sas_addr[SAS_ADDR_SIZE]; /* Byte 20 */ u8 phy_id; u8 _un21_27[7]; } __packed; #elif defined(__BIG_ENDIAN_BITFIELD) struct sas_identify_frame_local { /* Byte 0 */ u8 _un0:1; u8 dev_type:3; u8 frame_type:4; /* Byte 1 */ u8 _un1; /* Byte 2 */ union { struct { u8 _un247:4; u8 ssp_iport:1; u8 stp_iport:1; u8 smp_iport:1; u8 _un20:1; }; u8 initiator_bits; }; /* Byte 3 */ union { struct { u8 _un347:4; u8 ssp_tport:1; u8 stp_tport:1; u8 smp_tport:1; u8 _un30:1; }; u8 target_bits; }; /* Byte 4 - 11 */ u8 _un4_11[8]; /* Byte 12 - 19 */ u8 sas_addr[SAS_ADDR_SIZE]; /* Byte 20 */ u8 phy_id; u8 _un21_27[7]; } __packed; #else #error "Bitfield order not defined!" #endif struct mpi_msg_hdr { __le32 header; /* Bits [11:0] - Message operation code */ /* Bits [15:12] - Message Category */ /* Bits [21:16] - Outboundqueue ID for the operation completion message */ /* Bits [23:22] - Reserved */ /* Bits [28:24] - Buffer Count, indicates how many buffer are allocated for the massage */ /* Bits [30:29] - Reserved */ /* Bits [31] - Message Valid bit */ } __attribute__((packed, aligned(4))); /* * brief the data structure of PHY Start Command * use to describe enable the phy (128 bytes) */ struct phy_start_req { __le32 tag; __le32 ase_sh_lm_slr_phyid; struct sas_identify_frame_local sas_identify; /* 28 Bytes */ __le32 spasti; u32 reserved[21]; } __attribute__((packed, aligned(4))); /* * brief the data structure of PHY Start Command * use to disable the phy (128 bytes) */ struct phy_stop_req { __le32 tag; __le32 phy_id; u32 reserved[29]; } __attribute__((packed, aligned(4))); /* set device bits fis - device to host */ struct set_dev_bits_fis { u8 fis_type; /* 0xA1*/ u8 n_i_pmport; /* b7 : n Bit. Notification bit. If set device needs attention. */ /* b6 : i Bit. Interrupt Bit */ /* b5-b4: reserved2 */ /* b3-b0: PM Port */ u8 status; u8 error; u32 _r_a; } __attribute__ ((packed)); /* PIO setup FIS - device to host */ struct pio_setup_fis { u8 fis_type; /* 0x5f */ u8 i_d_pmPort; /* b7 : reserved */ /* b6 : i bit. Interrupt bit */ /* b5 : d bit. data transfer direction. set to 1 for device to host xfer */ /* b4 : reserved */ /* b3-b0: PM Port */ u8 status; u8 error; u8 lbal; u8 lbam; u8 lbah; u8 device; u8 lbal_exp; u8 lbam_exp; u8 lbah_exp; u8 _r_a; u8 sector_count; u8 sector_count_exp; u8 _r_b; u8 e_status; u8 _r_c[2]; u8 transfer_count; } __attribute__ ((packed)); /* * brief the data structure of SATA Completion Response * use to describe the sata task response (64 bytes) */ struct sata_completion_resp { __le32 tag; __le32 status; __le32 param; u32 sata_resp[12]; } __attribute__((packed, aligned(4))); /* * brief the data structure of SAS HW Event Notification * use to alert the host about the hardware event(64 bytes) */ /* updated outbound struct for spcv */ struct hw_event_resp { __le32 lr_status_evt_portid; __le32 evt_param; __le32 phyid_npip_portstate; struct sas_identify_frame sas_identify; struct dev_to_host_fis sata_fis; } __attribute__((packed, aligned(4))); /* * brief the data structure for thermal event notification */ struct thermal_hw_event { __le32 thermal_event; __le32 rht_lht; } __attribute__((packed, aligned(4))); /* * brief the data structure of REGISTER DEVICE Command * use to describe MPI REGISTER DEVICE Command (64 bytes) */ struct reg_dev_req { __le32 tag; __le32 phyid_portid; __le32 dtype_dlr_mcn_ir_retry; __le32 firstburstsize_ITNexustimeout; u8 sas_addr[SAS_ADDR_SIZE]; __le32 upper_device_id; u32 reserved[24]; } __attribute__((packed, aligned(4))); /* * brief the data structure of DEREGISTER DEVICE Command * use to request spc to remove all internal resources associated * with the device id (64 bytes) */ struct dereg_dev_req { __le32 tag; __le32 device_id; u32 reserved[29]; } __attribute__((packed, aligned(4))); /* * brief the data structure of DEVICE_REGISTRATION Response * use to notify the completion of the device registration (64 bytes) */ struct dev_reg_resp { __le32 tag; __le32 status; __le32 device_id; u32 reserved[12]; } __attribute__((packed, aligned(4))); /* * brief the data structure of Local PHY Control Command * use to issue PHY CONTROL to local phy (64 bytes) */ struct local_phy_ctl_req { __le32 tag; __le32 phyop_phyid; u32 reserved1[29]; } __attribute__((packed, aligned(4))); /** * brief the data structure of Local Phy Control Response * use to describe MPI Local Phy Control Response (64 bytes) */ struct local_phy_ctl_resp { __le32 tag; __le32 phyop_phyid; __le32 status; u32 reserved[12]; } __attribute__((packed, aligned(4))); #define OP_BITS 0x0000FF00 #define ID_BITS 0x000000FF /* * brief the data structure of PORT Control Command * use to control port properties (64 bytes) */ struct port_ctl_req { __le32 tag; __le32 portop_portid; __le32 param0; __le32 param1; u32 reserved1[27]; } __attribute__((packed, aligned(4))); /* * brief the data structure of HW Event Ack Command * use to acknowledge receive HW event (64 bytes) */ struct hw_event_ack_req { __le32 tag; __le32 phyid_sea_portid; __le32 param0; __le32 param1; u32 reserved1[27]; } __attribute__((packed, aligned(4))); /* * brief the data structure of PHY_START Response Command * indicates the completion of PHY_START command (64 bytes) */ struct phy_start_resp { __le32 tag; __le32 status; __le32 phyid; u32 reserved[12]; } __attribute__((packed, aligned(4))); /* * brief the data structure of PHY_STOP Response Command * indicates the completion of PHY_STOP command (64 bytes) */ struct phy_stop_resp { __le32 tag; __le32 status; __le32 phyid; u32 reserved[12]; } __attribute__((packed, aligned(4))); /* * brief the data structure of SSP Completion Response * use to indicate a SSP Completion (n bytes) */ struct ssp_completion_resp { __le32 tag; __le32 status; __le32 param; __le32 ssptag_rescv_rescpad; struct ssp_response_iu ssp_resp_iu; __le32 residual_count; } __attribute__((packed, aligned(4))); #define SSP_RESCV_BIT 0x00010000 /* * brief the data structure of SATA EVNET response * use to indicate a SATA Completion (64 bytes) */ struct sata_event_resp { __le32 tag; __le32 event; __le32 port_id; __le32 device_id; u32 reserved; __le32 event_param0; __le32 event_param1; __le32 sata_addr_h32; __le32 sata_addr_l32; __le32 e_udt1_udt0_crc; __le32 e_udt5_udt4_udt3_udt2; __le32 a_udt1_udt0_crc; __le32 a_udt5_udt4_udt3_udt2; __le32 hwdevid_diferr; __le32 err_framelen_byteoffset; __le32 err_dataframe; } __attribute__((packed, aligned(4))); /* * brief the data structure of SSP EVNET esponse * use to indicate a SSP Completion (64 bytes) */ struct ssp_event_resp { __le32 tag; __le32 event; __le32 port_id; __le32 device_id; __le32 ssp_tag; __le32 event_param0; __le32 event_param1; __le32 sas_addr_h32; __le32 sas_addr_l32; __le32 e_udt1_udt0_crc; __le32 e_udt5_udt4_udt3_udt2; __le32 a_udt1_udt0_crc; __le32 a_udt5_udt4_udt3_udt2; __le32 hwdevid_diferr; __le32 err_framelen_byteoffset; __le32 err_dataframe; } __attribute__((packed, aligned(4))); /** * brief the data structure of General Event Notification Response * use to describe MPI General Event Notification Response (64 bytes) */ struct general_event_resp { __le32 status; __le32 inb_IOMB_payload[14]; } __attribute__((packed, aligned(4))); #define GENERAL_EVENT_PAYLOAD 14 #define OPCODE_BITS 0x00000fff /* * brief the data structure of SMP Request Command * use to describe MPI SMP REQUEST Command (64 bytes) */ struct smp_req { __le32 tag; __le32 device_id; __le32 len_ip_ir; /* Bits [0] - Indirect response */ /* Bits [1] - Indirect Payload */ /* Bits [15:2] - Reserved */ /* Bits [23:16] - direct payload Len */ /* Bits [31:24] - Reserved */ u8 smp_req16[16]; union { u8 smp_req[32]; struct { __le64 long_req_addr;/* sg dma address, LE */ __le32 long_req_size;/* LE */ u32 _r_a; __le64 long_resp_addr;/* sg dma address, LE */ __le32 long_resp_size;/* LE */ u32 _r_b; } long_smp_req;/* sequencer extension */ }; __le32 rsvd[16]; } __attribute__((packed, aligned(4))); /* * brief the data structure of SMP Completion Response * use to describe MPI SMP Completion Response (64 bytes) */ struct smp_completion_resp { __le32 tag; __le32 status; __le32 param; u8 _r_a[252]; } __attribute__((packed, aligned(4))); /* *brief the data structure of SSP SMP SATA Abort Command * use to describe MPI SSP SMP & SATA Abort Command (64 bytes) */ struct task_abort_req { __le32 tag; __le32 device_id; __le32 tag_to_abort; __le32 abort_all; u32 reserved[27]; } __attribute__((packed, aligned(4))); /* These flags used for SSP SMP & SATA Abort */ #define ABORT_MASK 0x3 #define ABORT_SINGLE 0x0 #define ABORT_ALL 0x1 /** * brief the data structure of SSP SATA SMP Abort Response * use to describe SSP SMP & SATA Abort Response ( 64 bytes) */ struct task_abort_resp { __le32 tag; __le32 status; __le32 scp; u32 reserved[12]; } __attribute__((packed, aligned(4))); /** * brief the data structure of SAS Diagnostic Start/End Command * use to describe MPI SAS Diagnostic Start/End Command (64 bytes) */ struct sas_diag_start_end_req { __le32 tag; __le32 operation_phyid; u32 reserved[29]; } __attribute__((packed, aligned(4))); /** * brief the data structure of SAS Diagnostic Execute Command * use to describe MPI SAS Diagnostic Execute Command (64 bytes) */ struct sas_diag_execute_req { __le32 tag; __le32 cmdtype_cmddesc_phyid; __le32 pat1_pat2; __le32 threshold; __le32 codepat_errmsk; __le32 pmon; __le32 pERF1CTL; u32 reserved[24]; } __attribute__((packed, aligned(4))); #define SAS_DIAG_PARAM_BYTES 24 /* * brief the data structure of Set Device State Command * use to describe MPI Set Device State Command (64 bytes) */ struct set_dev_state_req { __le32 tag; __le32 device_id; __le32 nds; u32 reserved[28]; } __attribute__((packed, aligned(4))); /* * brief the data structure of SATA Start Command * use to describe MPI SATA IO Start Command (64 bytes) * Note: This structure is common for normal / encryption I/O */ struct sata_start_req { __le32 tag; __le32 device_id; __le32 data_len; __le32 ncqtag_atap_dir_m_dad; struct host_to_dev_fis sata_fis; u32 reserved1; u32 reserved2; /* dword 11. rsvd for normal I/O. */ /* EPLE Descl for enc I/O */ u32 addr_low; /* dword 12. rsvd for enc I/O */ u32 addr_high; /* dword 13. reserved for enc I/O */ __le32 len; /* dword 14: length for normal I/O. */ /* EPLE Desch for enc I/O */ __le32 esgl; /* dword 15. rsvd for enc I/O */ __le32 atapi_scsi_cdb[4]; /* dword 16-19. rsvd for enc I/O */ /* The below fields are reserved for normal I/O */ __le32 key_index_mode; /* dword 20 */ __le32 sector_cnt_enss;/* dword 21 */ __le32 keytagl; /* dword 22 */ __le32 keytagh; /* dword 23 */ __le32 twk_val0; /* dword 24 */ __le32 twk_val1; /* dword 25 */ __le32 twk_val2; /* dword 26 */ __le32 twk_val3; /* dword 27 */ __le32 enc_addr_low; /* dword 28. Encryption SGL address high */ __le32 enc_addr_high; /* dword 29. Encryption SGL address low */ __le32 enc_len; /* dword 30. Encryption length */ __le32 enc_esgl; /* dword 31. Encryption esgl bit */ } __attribute__((packed, aligned(4))); /** * brief the data structure of SSP INI TM Start Command * use to describe MPI SSP INI TM Start Command (64 bytes) */ struct ssp_ini_tm_start_req { __le32 tag; __le32 device_id; __le32 relate_tag; __le32 tmf; u8 lun[8]; __le32 ds_ads_m; u32 reserved[24]; } __attribute__((packed, aligned(4))); struct ssp_info_unit { u8 lun[8];/* SCSI Logical Unit Number */ u8 reserved1;/* reserved */ u8 efb_prio_attr; /* B7 : enabledFirstBurst */ /* B6-3 : taskPriority */ /* B2-0 : taskAttribute */ u8 reserved2; /* reserved */ u8 additional_cdb_len; /* B7-2 : additional_cdb_len */ /* B1-0 : reserved */ u8 cdb[16];/* The SCSI CDB up to 16 bytes length */ } __attribute__((packed, aligned(4))); /** * brief the data structure of SSP INI IO Start Command * use to describe MPI SSP INI IO Start Command (64 bytes) * Note: This structure is common for normal / encryption I/O */ struct ssp_ini_io_start_req { __le32 tag; __le32 device_id; __le32 data_len; __le32 dad_dir_m_tlr; struct ssp_info_unit ssp_iu; __le32 addr_low; /* dword 12: sgl low for normal I/O. */ /* epl_descl for encryption I/O */ __le32 addr_high; /* dword 13: sgl hi for normal I/O */ /* dpl_descl for encryption I/O */ __le32 len; /* dword 14: len for normal I/O. */ /* edpl_desch for encryption I/O */ __le32 esgl; /* dword 15: ESGL bit for normal I/O. */ /* user defined tag mask for enc I/O */ /* The below fields are reserved for normal I/O */ u8 udt[12]; /* dword 16-18 */ __le32 sectcnt_ios; /* dword 19 */ __le32 key_cmode; /* dword 20 */ __le32 ks_enss; /* dword 21 */ __le32 keytagl; /* dword 22 */ __le32 keytagh; /* dword 23 */ __le32 twk_val0; /* dword 24 */ __le32 twk_val1; /* dword 25 */ __le32 twk_val2; /* dword 26 */ __le32 twk_val3; /* dword 27 */ __le32 enc_addr_low; /* dword 28: Encryption sgl addr low */ __le32 enc_addr_high; /* dword 29: Encryption sgl addr hi */ __le32 enc_len; /* dword 30: Encryption length */ __le32 enc_esgl; /* dword 31: ESGL bit for encryption */ } __attribute__((packed, aligned(4))); /** * brief the data structure for SSP_INI_DIF_ENC_IO COMMAND * use to initiate SSP I/O operation with optional DIF/ENC */ struct ssp_dif_enc_io_req { __le32 tag; __le32 device_id; __le32 data_len; __le32 dirMTlr; __le32 sspiu0; __le32 sspiu1; __le32 sspiu2; __le32 sspiu3; __le32 sspiu4; __le32 sspiu5; __le32 sspiu6; __le32 epl_des; __le32 dpl_desl_ndplr; __le32 dpl_desh; __le32 uum_uuv_bss_difbits; u8 udt[12]; __le32 sectcnt_ios; __le32 key_cmode; __le32 ks_enss; __le32 keytagl; __le32 keytagh; __le32 twk_val0; __le32 twk_val1; __le32 twk_val2; __le32 twk_val3; __le32 addr_low; __le32 addr_high; __le32 len; __le32 esgl; } __attribute__((packed, aligned(4))); /** * brief the data structure of Firmware download * use to describe MPI FW DOWNLOAD Command (64 bytes) */ struct fw_flash_Update_req { __le32 tag; __le32 cur_image_offset; __le32 cur_image_len; __le32 total_image_len; u32 reserved0[7]; __le32 sgl_addr_lo; __le32 sgl_addr_hi; __le32 len; __le32 ext_reserved; u32 reserved1[16]; } __attribute__((packed, aligned(4))); #define FWFLASH_IOMB_RESERVED_LEN 0x07 /** * brief the data structure of FW_FLASH_UPDATE Response * use to describe MPI FW_FLASH_UPDATE Response (64 bytes) * */ struct fw_flash_Update_resp { __le32 tag; __le32 status; u32 reserved[13]; } __attribute__((packed, aligned(4))); /** * brief the data structure of Get NVM Data Command * use to get data from NVM in HBA(64 bytes) */ struct get_nvm_data_req { __le32 tag; __le32 len_ir_vpdd; __le32 vpd_offset; u32 reserved[8]; __le32 resp_addr_lo; __le32 resp_addr_hi; __le32 resp_len; u32 reserved1[17]; } __attribute__((packed, aligned(4))); struct set_nvm_data_req { __le32 tag; __le32 len_ir_vpdd; __le32 vpd_offset; u32 reserved[8]; __le32 resp_addr_lo; __le32 resp_addr_hi; __le32 resp_len; u32 reserved1[17]; } __attribute__((packed, aligned(4))); /** * brief the data structure for SET CONTROLLER CONFIG COMMAND * use to modify controller configuration */ struct set_ctrl_cfg_req { __le32 tag; __le32 cfg_pg[14]; u32 reserved[16]; } __attribute__((packed, aligned(4))); /** * brief the data structure for GET CONTROLLER CONFIG COMMAND * use to get controller configuration page */ struct get_ctrl_cfg_req { __le32 tag; __le32 pgcd; __le32 int_vec; u32 reserved[28]; } __attribute__((packed, aligned(4))); /** * brief the data structure for KEK_MANAGEMENT COMMAND * use for KEK management */ struct kek_mgmt_req { __le32 tag; __le32 new_curidx_ksop; u32 reserved; __le32 kblob[12]; u32 reserved1[16]; } __attribute__((packed, aligned(4))); /** * brief the data structure for DEK_MANAGEMENT COMMAND * use for DEK management */ struct dek_mgmt_req { __le32 tag; __le32 kidx_dsop; __le32 dekidx; __le32 addr_l; __le32 addr_h; __le32 nent; __le32 dbf_tblsize; u32 reserved[24]; } __attribute__((packed, aligned(4))); /** * brief the data structure for SET PHY PROFILE COMMAND * use to retrive phy specific information */ struct set_phy_profile_req { __le32 tag; __le32 ppc_phyid; u32 reserved[29]; } __attribute__((packed, aligned(4))); /** * brief the data structure for GET PHY PROFILE COMMAND * use to retrive phy specific information */ struct get_phy_profile_req { __le32 tag; __le32 ppc_phyid; __le32 profile[29]; } __attribute__((packed, aligned(4))); /** * brief the data structure for EXT FLASH PARTITION * use to manage ext flash partition */ struct ext_flash_partition_req { __le32 tag; __le32 cmd; __le32 offset; __le32 len; u32 reserved[7]; __le32 addr_low; __le32 addr_high; __le32 len1; __le32 ext; u32 reserved1[16]; } __attribute__((packed, aligned(4))); #define TWI_DEVICE 0x0 #define C_SEEPROM 0x1 #define VPD_FLASH 0x4 #define AAP1_RDUMP 0x5 #define IOP_RDUMP 0x6 #define EXPAN_ROM 0x7 #define IPMode 0x80000000 #define NVMD_TYPE 0x0000000F #define NVMD_STAT 0x0000FFFF #define NVMD_LEN 0xFF000000 /** * brief the data structure of Get NVMD Data Response * use to describe MPI Get NVMD Data Response (64 bytes) */ struct get_nvm_data_resp { __le32 tag; __le32 ir_tda_bn_dps_das_nvm; __le32 dlen_status; __le32 nvm_data[12]; } __attribute__((packed, aligned(4))); /** * brief the data structure of SAS Diagnostic Start/End Response * use to describe MPI SAS Diagnostic Start/End Response (64 bytes) * */ struct sas_diag_start_end_resp { __le32 tag; __le32 status; u32 reserved[13]; } __attribute__((packed, aligned(4))); /** * brief the data structure of SAS Diagnostic Execute Response * use to describe MPI SAS Diagnostic Execute Response (64 bytes) * */ struct sas_diag_execute_resp { __le32 tag; __le32 cmdtype_cmddesc_phyid; __le32 Status; __le32 ReportData; u32 reserved[11]; } __attribute__((packed, aligned(4))); /** * brief the data structure of Set Device State Response * use to describe MPI Set Device State Response (64 bytes) * */ struct set_dev_state_resp { __le32 tag; __le32 status; __le32 device_id; __le32 pds_nds; u32 reserved[11]; } __attribute__((packed, aligned(4))); /* new outbound structure for spcv - begins */ /** * brief the data structure for SET CONTROLLER CONFIG COMMAND * use to modify controller configuration */ struct set_ctrl_cfg_resp { __le32 tag; __le32 status; __le32 err_qlfr_pgcd; u32 reserved[12]; } __attribute__((packed, aligned(4))); struct get_ctrl_cfg_resp { __le32 tag; __le32 status; __le32 err_qlfr; __le32 confg_page[12]; } __attribute__((packed, aligned(4))); struct kek_mgmt_resp { __le32 tag; __le32 status; __le32 kidx_new_curr_ksop; __le32 err_qlfr; u32 reserved[11]; } __attribute__((packed, aligned(4))); struct dek_mgmt_resp { __le32 tag; __le32 status; __le32 kekidx_tbls_dsop; __le32 dekidx; __le32 err_qlfr; u32 reserved[10]; } __attribute__((packed, aligned(4))); struct get_phy_profile_resp { __le32 tag; __le32 status; __le32 ppc_phyid; __le32 ppc_specific_rsp[12]; } __attribute__((packed, aligned(4))); struct flash_op_ext_resp { __le32 tag; __le32 cmd; __le32 status; __le32 epart_size; __le32 epart_sect_size; u32 reserved[10]; } __attribute__((packed, aligned(4))); struct set_phy_profile_resp { __le32 tag; __le32 status; __le32 ppc_phyid; __le32 ppc_specific_rsp[12]; } __attribute__((packed, aligned(4))); struct ssp_coalesced_comp_resp { __le32 coal_cnt; __le32 tag0; __le32 ssp_tag0; __le32 tag1; __le32 ssp_tag1; __le32 add_tag_ssp_tag[10]; } __attribute__((packed, aligned(4))); /* new outbound structure for spcv - ends */ /* brief data structure for SAS protocol timer configuration page. * */ struct SASProtocolTimerConfig { __le32 pageCode; /* 0 */ __le32 MST_MSI; /* 1 */ __le32 STP_SSP_MCT_TMO; /* 2 */ __le32 STP_FRM_TMO; /* 3 */ __le32 STP_IDLE_TMO; /* 4 */ __le32 OPNRJT_RTRY_INTVL; /* 5 */ __le32 Data_Cmd_OPNRJT_RTRY_TMO; /* 6 */ __le32 Data_Cmd_OPNRJT_RTRY_THR; /* 7 */ __le32 MAX_AIP; /* 8 */ } __attribute__((packed, aligned(4))); typedef struct SASProtocolTimerConfig SASProtocolTimerConfig_t; #define NDS_BITS 0x0F #define PDS_BITS 0xF0 /* * HW Events type */ #define HW_EVENT_RESET_START 0x01 #define HW_EVENT_CHIP_RESET_COMPLETE 0x02 #define HW_EVENT_PHY_STOP_STATUS 0x03 #define HW_EVENT_SAS_PHY_UP 0x04 #define HW_EVENT_SATA_PHY_UP 0x05 #define HW_EVENT_SATA_SPINUP_HOLD 0x06 #define HW_EVENT_PHY_DOWN 0x07 #define HW_EVENT_PORT_INVALID 0x08 #define HW_EVENT_BROADCAST_CHANGE 0x09 #define HW_EVENT_PHY_ERROR 0x0A #define HW_EVENT_BROADCAST_SES 0x0B #define HW_EVENT_INBOUND_CRC_ERROR 0x0C #define HW_EVENT_HARD_RESET_RECEIVED 0x0D #define HW_EVENT_MALFUNCTION 0x0E #define HW_EVENT_ID_FRAME_TIMEOUT 0x0F #define HW_EVENT_BROADCAST_EXP 0x10 #define HW_EVENT_PHY_START_STATUS 0x11 #define HW_EVENT_LINK_ERR_INVALID_DWORD 0x12 #define HW_EVENT_LINK_ERR_DISPARITY_ERROR 0x13 #define HW_EVENT_LINK_ERR_CODE_VIOLATION 0x14 #define HW_EVENT_LINK_ERR_LOSS_OF_DWORD_SYNCH 0x15 #define HW_EVENT_LINK_ERR_PHY_RESET_FAILED 0x16 #define HW_EVENT_PORT_RECOVERY_TIMER_TMO 0x17 #define HW_EVENT_PORT_RECOVER 0x18 #define HW_EVENT_PORT_RESET_TIMER_TMO 0x19 #define HW_EVENT_PORT_RESET_COMPLETE 0x20 #define EVENT_BROADCAST_ASYNCH_EVENT 0x21 /* port state */ #define PORT_NOT_ESTABLISHED 0x00 #define PORT_VALID 0x01 #define PORT_LOSTCOMM 0x02 #define PORT_IN_RESET 0x04 #define PORT_3RD_PARTY_RESET 0x07 #define PORT_INVALID 0x08 /* * SSP/SMP/SATA IO Completion Status values */ #define IO_SUCCESS 0x00 #define IO_ABORTED 0x01 #define IO_OVERFLOW 0x02 #define IO_UNDERFLOW 0x03 #define IO_FAILED 0x04 #define IO_ABORT_RESET 0x05 #define IO_NOT_VALID 0x06 #define IO_NO_DEVICE 0x07 #define IO_ILLEGAL_PARAMETER 0x08 #define IO_LINK_FAILURE 0x09 #define IO_PROG_ERROR 0x0A #define IO_EDC_IN_ERROR 0x0B #define IO_EDC_OUT_ERROR 0x0C #define IO_ERROR_HW_TIMEOUT 0x0D #define IO_XFER_ERROR_BREAK 0x0E #define IO_XFER_ERROR_PHY_NOT_READY 0x0F #define IO_OPEN_CNX_ERROR_PROTOCOL_NOT_SUPPORTED 0x10 #define IO_OPEN_CNX_ERROR_ZONE_VIOLATION 0x11 #define IO_OPEN_CNX_ERROR_BREAK 0x12 #define IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS 0x13 #define IO_OPEN_CNX_ERROR_BAD_DESTINATION 0x14 #define IO_OPEN_CNX_ERROR_CONNECTION_RATE_NOT_SUPPORTED 0x15 #define IO_OPEN_CNX_ERROR_STP_RESOURCES_BUSY 0x16 #define IO_OPEN_CNX_ERROR_WRONG_DESTINATION 0x17 /* This error code 0x18 is not used on SPCv */ #define IO_OPEN_CNX_ERROR_UNKNOWN_ERROR 0x18 #define IO_XFER_ERROR_NAK_RECEIVED 0x19 #define IO_XFER_ERROR_ACK_NAK_TIMEOUT 0x1A #define IO_XFER_ERROR_PEER_ABORTED 0x1B #define IO_XFER_ERROR_RX_FRAME 0x1C #define IO_XFER_ERROR_DMA 0x1D #define IO_XFER_ERROR_CREDIT_TIMEOUT 0x1E #define IO_XFER_ERROR_SATA_LINK_TIMEOUT 0x1F #define IO_XFER_ERROR_SATA 0x20 /* This error code 0x22 is not used on SPCv */ #define IO_XFER_ERROR_ABORTED_DUE_TO_SRST 0x22 #define IO_XFER_ERROR_REJECTED_NCQ_MODE 0x21 #define IO_XFER_ERROR_ABORTED_NCQ_MODE 0x23 #define IO_XFER_OPEN_RETRY_TIMEOUT 0x24 /* This error code 0x25 is not used on SPCv */ #define IO_XFER_SMP_RESP_CONNECTION_ERROR 0x25 #define IO_XFER_ERROR_UNEXPECTED_PHASE 0x26 #define IO_XFER_ERROR_XFER_RDY_OVERRUN 0x27 #define IO_XFER_ERROR_XFER_RDY_NOT_EXPECTED 0x28 #define IO_XFER_ERROR_CMD_ISSUE_ACK_NAK_TIMEOUT 0x30 /* The following error code 0x31 and 0x32 are not using (obsolete) */ #define IO_XFER_ERROR_CMD_ISSUE_BREAK_BEFORE_ACK_NAK 0x31 #define IO_XFER_ERROR_CMD_ISSUE_PHY_DOWN_BEFORE_ACK_NAK 0x32 #define IO_XFER_ERROR_OFFSET_MISMATCH 0x34 #define IO_XFER_ERROR_XFER_ZERO_DATA_LEN 0x35 #define IO_XFER_CMD_FRAME_ISSUED 0x36 #define IO_ERROR_INTERNAL_SMP_RESOURCE 0x37 #define IO_PORT_IN_RESET 0x38 #define IO_DS_NON_OPERATIONAL 0x39 #define IO_DS_IN_RECOVERY 0x3A #define IO_TM_TAG_NOT_FOUND 0x3B #define IO_XFER_PIO_SETUP_ERROR 0x3C #define IO_SSP_EXT_IU_ZERO_LEN_ERROR 0x3D #define IO_DS_IN_ERROR 0x3E #define IO_OPEN_CNX_ERROR_HW_RESOURCE_BUSY 0x3F #define IO_ABORT_IN_PROGRESS 0x40 #define IO_ABORT_DELAYED 0x41 #define IO_INVALID_LENGTH 0x42 /********** additional response event values *****************/ #define IO_OPEN_CNX_ERROR_HW_RESOURCE_BUSY_ALT 0x43 #define IO_XFER_OPEN_RETRY_BACKOFF_THRESHOLD_REACHED 0x44 #define IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_OPEN_TMO 0x45 #define IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_NO_DEST 0x46 #define IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_OPEN_COLLIDE 0x47 #define IO_OPEN_CNX_ERROR_IT_NEXUS_LOSS_PATHWAY_BLOCKED 0x48 #define IO_DS_INVALID 0x49 /* WARNING: the value is not contiguous from here */ #define IO_XFER_ERR_LAST_PIO_DATAIN_CRC_ERR 0x52 #define IO_XFER_DMA_ACTIVATE_TIMEOUT 0x53 #define IO_XFER_ERROR_INTERNAL_CRC_ERROR 0x54 #define MPI_IO_RQE_BUSY_FULL 0x55 #define IO_XFER_ERR_EOB_DATA_OVERRUN 0x56 #define IO_XFER_ERROR_INVALID_SSP_RSP_FRAME 0x57 #define IO_OPEN_CNX_ERROR_OPEN_PREEMPTED 0x58 #define MPI_ERR_IO_RESOURCE_UNAVAILABLE 0x1004 #define MPI_ERR_ATAPI_DEVICE_BUSY 0x1024 #define IO_XFR_ERROR_DEK_KEY_CACHE_MISS 0x2040 /* * An encryption IO request failed due to DEK Key Tag mismatch. * The key tag supplied in the encryption IOMB does not match with * the Key Tag in the referenced DEK Entry. */ #define IO_XFR_ERROR_DEK_KEY_TAG_MISMATCH 0x2041 #define IO_XFR_ERROR_CIPHER_MODE_INVALID 0x2042 /* * An encryption I/O request failed because the initial value (IV) * in the unwrapped DEK blob didn't match the IV used to unwrap it. */ #define IO_XFR_ERROR_DEK_IV_MISMATCH 0x2043 /* An encryption I/O request failed due to an internal RAM ECC or * interface error while unwrapping the DEK. */ #define IO_XFR_ERROR_DEK_RAM_INTERFACE_ERROR 0x2044 /* An encryption I/O request failed due to an internal RAM ECC or * interface error while unwrapping the DEK. */ #define IO_XFR_ERROR_INTERNAL_RAM 0x2045 /* * An encryption I/O request failed * because the DEK index specified in the I/O was outside the bounds of * the total number of entries in the host DEK table. */ #define IO_XFR_ERROR_DEK_INDEX_OUT_OF_BOUNDS0x2046 /* define DIF IO response error status code */ #define IO_XFR_ERROR_DIF_MISMATCH 0x3000 #define IO_XFR_ERROR_DIF_APPLICATION_TAG_MISMATCH 0x3001 #define IO_XFR_ERROR_DIF_REFERENCE_TAG_MISMATCH 0x3002 #define IO_XFR_ERROR_DIF_CRC_MISMATCH 0x3003 /* define operator management response status and error qualifier code */ #define OPR_MGMT_OP_NOT_SUPPORTED 0x2060 #define OPR_MGMT_MPI_ENC_ERR_OPR_PARAM_ILLEGAL 0x2061 #define OPR_MGMT_MPI_ENC_ERR_OPR_ID_NOT_FOUND 0x2062 #define OPR_MGMT_MPI_ENC_ERR_OPR_ROLE_NOT_MATCH 0x2063 #define OPR_MGMT_MPI_ENC_ERR_OPR_MAX_NUM_EXCEEDED 0x2064 #define OPR_MGMT_MPI_ENC_ERR_KEK_UNWRAP_FAIL 0x2022 #define OPR_MGMT_MPI_ENC_ERR_NVRAM_OPERATION_FAILURE 0x2023 /***************** additional response event values ***************/ /* WARNING: This error code must always be the last number. * If you add error code, modify this code also * It is used as an index */ #define IO_ERROR_UNKNOWN_GENERIC 0x2023 /* MSGU CONFIGURATION TABLE*/ #define SPCv_MSGU_CFG_TABLE_UPDATE 0x001 #define SPCv_MSGU_CFG_TABLE_RESET 0x002 #define SPCv_MSGU_CFG_TABLE_FREEZE 0x004 #define SPCv_MSGU_CFG_TABLE_UNFREEZE 0x008 #define MSGU_IBDB_SET 0x00 #define MSGU_HOST_INT_STATUS 0x08 #define MSGU_HOST_INT_MASK 0x0C #define MSGU_IOPIB_INT_STATUS 0x18 #define MSGU_IOPIB_INT_MASK 0x1C #define MSGU_IBDB_CLEAR 0x20 #define MSGU_MSGU_CONTROL 0x24 #define MSGU_ODR 0x20 #define MSGU_ODCR 0x28 #define MSGU_ODMR 0x30 #define MSGU_ODMR_U 0x34 #define MSGU_ODMR_CLR 0x38 #define MSGU_ODMR_CLR_U 0x3C #define MSGU_OD_RSVD 0x40 #define MSGU_SCRATCH_PAD_0 0x44 #define MSGU_SCRATCH_PAD_1 0x48 #define MSGU_SCRATCH_PAD_2 0x4C #define MSGU_SCRATCH_PAD_3 0x50 #define MSGU_HOST_SCRATCH_PAD_0 0x54 #define MSGU_HOST_SCRATCH_PAD_1 0x58 #define MSGU_HOST_SCRATCH_PAD_2 0x5C #define MSGU_HOST_SCRATCH_PAD_3 0x60 #define MSGU_HOST_SCRATCH_PAD_4 0x64 #define MSGU_HOST_SCRATCH_PAD_5 0x68 #define MSGU_HOST_SCRATCH_PAD_6 0x6C #define MSGU_HOST_SCRATCH_PAD_7 0x70 /* bit definition for ODMR register */ #define ODMR_MASK_ALL 0xFFFFFFFF/* mask all interrupt vector */ #define ODMR_CLEAR_ALL 0 /* clear all interrupt vector */ /* bit definition for ODCR register */ #define ODCR_CLEAR_ALL 0xFFFFFFFF /* mask all interrupt vector*/ /* MSIX Interupts */ #define MSIX_TABLE_OFFSET 0x2000 #define MSIX_TABLE_ELEMENT_SIZE 0x10 #define MSIX_INTERRUPT_CONTROL_OFFSET 0xC #define MSIX_TABLE_BASE (MSIX_TABLE_OFFSET + \ MSIX_INTERRUPT_CONTROL_OFFSET) #define MSIX_INTERRUPT_DISABLE 0x1 #define MSIX_INTERRUPT_ENABLE 0x0 /* state definition for Scratch Pad1 register */ #define SCRATCH_PAD_RAAE_READY 0x3 #define SCRATCH_PAD_ILA_READY 0xC #define SCRATCH_PAD_BOOT_LOAD_SUCCESS 0x0 #define SCRATCH_PAD_IOP0_READY 0xC00 #define SCRATCH_PAD_IOP1_READY 0x3000 #define SCRATCH_PAD_MIPSALL_READY (SCRATCH_PAD_IOP1_READY | \ SCRATCH_PAD_IOP0_READY | \ SCRATCH_PAD_RAAE_READY) /* boot loader state */ #define SCRATCH_PAD1_BOOTSTATE_MASK 0x70 /* Bit 4-6 */ #define SCRATCH_PAD1_BOOTSTATE_SUCESS 0x0 /* Load successful */ #define SCRATCH_PAD1_BOOTSTATE_HDA_SEEPROM 0x10 /* HDA SEEPROM */ #define SCRATCH_PAD1_BOOTSTATE_HDA_BOOTSTRAP 0x20 /* HDA BootStrap Pins */ #define SCRATCH_PAD1_BOOTSTATE_HDA_SOFTRESET 0x30 /* HDA Soft Reset */ #define SCRATCH_PAD1_BOOTSTATE_CRIT_ERROR 0x40 /* HDA critical error */ #define SCRATCH_PAD1_BOOTSTATE_R1 0x50 /* Reserved */ #define SCRATCH_PAD1_BOOTSTATE_R2 0x60 /* Reserved */ #define SCRATCH_PAD1_BOOTSTATE_FATAL 0x70 /* Fatal Error */ /* state definition for Scratch Pad2 register */ #define SCRATCH_PAD2_POR 0x00 /* power on state */ #define SCRATCH_PAD2_SFR 0x01 /* soft reset state */ #define SCRATCH_PAD2_ERR 0x02 /* error state */ #define SCRATCH_PAD2_RDY 0x03 /* ready state */ #define SCRATCH_PAD2_FWRDY_RST 0x04 /* FW rdy for soft reset flag */ #define SCRATCH_PAD2_IOPRDY_RST 0x08 /* IOP ready for soft reset */ #define SCRATCH_PAD2_STATE_MASK 0xFFFFFFF4 /* ScratchPad 2 Mask, bit1-0 State */ #define SCRATCH_PAD2_RESERVED 0x000003FC/* Scratch Pad1 Reserved bit 2 to 9 */ #define SCRATCH_PAD_ERROR_MASK 0xFFFFFC00 /* Error mask bits */ #define SCRATCH_PAD_STATE_MASK 0x00000003 /* State Mask bits */ /* main configuration offset - byte offset */ #define MAIN_SIGNATURE_OFFSET 0x00 /* DWORD 0x00 */ #define MAIN_INTERFACE_REVISION 0x04 /* DWORD 0x01 */ #define MAIN_FW_REVISION 0x08 /* DWORD 0x02 */ #define MAIN_MAX_OUTSTANDING_IO_OFFSET 0x0C /* DWORD 0x03 */ #define MAIN_MAX_SGL_OFFSET 0x10 /* DWORD 0x04 */ #define MAIN_CNTRL_CAP_OFFSET 0x14 /* DWORD 0x05 */ #define MAIN_GST_OFFSET 0x18 /* DWORD 0x06 */ #define MAIN_IBQ_OFFSET 0x1C /* DWORD 0x07 */ #define MAIN_OBQ_OFFSET 0x20 /* DWORD 0x08 */ #define MAIN_IQNPPD_HPPD_OFFSET 0x24 /* DWORD 0x09 */ /* 0x28 - 0x4C - RSVD */ #define MAIN_EVENT_CRC_CHECK 0x48 /* DWORD 0x12 */ #define MAIN_EVENT_LOG_ADDR_HI 0x50 /* DWORD 0x14 */ #define MAIN_EVENT_LOG_ADDR_LO 0x54 /* DWORD 0x15 */ #define MAIN_EVENT_LOG_BUFF_SIZE 0x58 /* DWORD 0x16 */ #define MAIN_EVENT_LOG_OPTION 0x5C /* DWORD 0x17 */ #define MAIN_PCS_EVENT_LOG_ADDR_HI 0x60 /* DWORD 0x18 */ #define MAIN_PCS_EVENT_LOG_ADDR_LO 0x64 /* DWORD 0x19 */ #define MAIN_PCS_EVENT_LOG_BUFF_SIZE 0x68 /* DWORD 0x1A */ #define MAIN_PCS_EVENT_LOG_OPTION 0x6C /* DWORD 0x1B */ #define MAIN_FATAL_ERROR_INTERRUPT 0x70 /* DWORD 0x1C */ #define MAIN_FATAL_ERROR_RDUMP0_OFFSET 0x74 /* DWORD 0x1D */ #define MAIN_FATAL_ERROR_RDUMP0_LENGTH 0x78 /* DWORD 0x1E */ #define MAIN_FATAL_ERROR_RDUMP1_OFFSET 0x7C /* DWORD 0x1F */ #define MAIN_FATAL_ERROR_RDUMP1_LENGTH 0x80 /* DWORD 0x20 */ #define MAIN_GPIO_LED_FLAGS_OFFSET 0x84 /* DWORD 0x21 */ #define MAIN_ANALOG_SETUP_OFFSET 0x88 /* DWORD 0x22 */ #define MAIN_INT_VECTOR_TABLE_OFFSET 0x8C /* DWORD 0x23 */ #define MAIN_SAS_PHY_ATTR_TABLE_OFFSET 0x90 /* DWORD 0x24 */ #define MAIN_PORT_RECOVERY_TIMER 0x94 /* DWORD 0x25 */ #define MAIN_INT_REASSERTION_DELAY 0x98 /* DWORD 0x26 */ #define MAIN_MPI_ILA_RELEASE_TYPE 0xA4 /* DWORD 0x29 */ #define MAIN_MPI_INACTIVE_FW_VERSION 0XB0 /* DWORD 0x2C */ /* Gereral Status Table offset - byte offset */ #define GST_GSTLEN_MPIS_OFFSET 0x00 #define GST_IQ_FREEZE_STATE0_OFFSET 0x04 #define GST_IQ_FREEZE_STATE1_OFFSET 0x08 #define GST_MSGUTCNT_OFFSET 0x0C #define GST_IOPTCNT_OFFSET 0x10 /* 0x14 - 0x34 - RSVD */ #define GST_GPIO_INPUT_VAL 0x38 /* 0x3c - 0x40 - RSVD */ #define GST_RERRINFO_OFFSET0 0x44 #define GST_RERRINFO_OFFSET1 0x48 #define GST_RERRINFO_OFFSET2 0x4c #define GST_RERRINFO_OFFSET3 0x50 #define GST_RERRINFO_OFFSET4 0x54 #define GST_RERRINFO_OFFSET5 0x58 #define GST_RERRINFO_OFFSET6 0x5c #define GST_RERRINFO_OFFSET7 0x60 /* General Status Table - MPI state */ #define GST_MPI_STATE_UNINIT 0x00 #define GST_MPI_STATE_INIT 0x01 #define GST_MPI_STATE_TERMINATION 0x02 #define GST_MPI_STATE_ERROR 0x03 #define GST_MPI_STATE_MASK 0x07 /* Per SAS PHY Attributes */ #define PSPA_PHYSTATE0_OFFSET 0x00 /* Dword V */ #define PSPA_OB_HW_EVENT_PID0_OFFSET 0x04 /* DWORD V+1 */ #define PSPA_PHYSTATE1_OFFSET 0x08 /* Dword V+2 */ #define PSPA_OB_HW_EVENT_PID1_OFFSET 0x0C /* DWORD V+3 */ #define PSPA_PHYSTATE2_OFFSET 0x10 /* Dword V+4 */ #define PSPA_OB_HW_EVENT_PID2_OFFSET 0x14 /* DWORD V+5 */ #define PSPA_PHYSTATE3_OFFSET 0x18 /* Dword V+6 */ #define PSPA_OB_HW_EVENT_PID3_OFFSET 0x1C /* DWORD V+7 */ #define PSPA_PHYSTATE4_OFFSET 0x20 /* Dword V+8 */ #define PSPA_OB_HW_EVENT_PID4_OFFSET 0x24 /* DWORD V+9 */ #define PSPA_PHYSTATE5_OFFSET 0x28 /* Dword V+10 */ #define PSPA_OB_HW_EVENT_PID5_OFFSET 0x2C /* DWORD V+11 */ #define PSPA_PHYSTATE6_OFFSET 0x30 /* Dword V+12 */ #define PSPA_OB_HW_EVENT_PID6_OFFSET 0x34 /* DWORD V+13 */ #define PSPA_PHYSTATE7_OFFSET 0x38 /* Dword V+14 */ #define PSPA_OB_HW_EVENT_PID7_OFFSET 0x3C /* DWORD V+15 */ #define PSPA_PHYSTATE8_OFFSET 0x40 /* DWORD V+16 */ #define PSPA_OB_HW_EVENT_PID8_OFFSET 0x44 /* DWORD V+17 */ #define PSPA_PHYSTATE9_OFFSET 0x48 /* DWORD V+18 */ #define PSPA_OB_HW_EVENT_PID9_OFFSET 0x4C /* DWORD V+19 */ #define PSPA_PHYSTATE10_OFFSET 0x50 /* DWORD V+20 */ #define PSPA_OB_HW_EVENT_PID10_OFFSET 0x54 /* DWORD V+21 */ #define PSPA_PHYSTATE11_OFFSET 0x58 /* DWORD V+22 */ #define PSPA_OB_HW_EVENT_PID11_OFFSET 0x5C /* DWORD V+23 */ #define PSPA_PHYSTATE12_OFFSET 0x60 /* DWORD V+24 */ #define PSPA_OB_HW_EVENT_PID12_OFFSET 0x64 /* DWORD V+25 */ #define PSPA_PHYSTATE13_OFFSET 0x68 /* DWORD V+26 */ #define PSPA_OB_HW_EVENT_PID13_OFFSET 0x6c /* DWORD V+27 */ #define PSPA_PHYSTATE14_OFFSET 0x70 /* DWORD V+28 */ #define PSPA_OB_HW_EVENT_PID14_OFFSET 0x74 /* DWORD V+29 */ #define PSPA_PHYSTATE15_OFFSET 0x78 /* DWORD V+30 */ #define PSPA_OB_HW_EVENT_PID15_OFFSET 0x7c /* DWORD V+31 */ /* end PSPA */ /* inbound queue configuration offset - byte offset */ #define IB_PROPERITY_OFFSET 0x00 #define IB_BASE_ADDR_HI_OFFSET 0x04 #define IB_BASE_ADDR_LO_OFFSET 0x08 #define IB_CI_BASE_ADDR_HI_OFFSET 0x0C #define IB_CI_BASE_ADDR_LO_OFFSET 0x10 #define IB_PIPCI_BAR 0x14 #define IB_PIPCI_BAR_OFFSET 0x18 #define IB_RESERVED_OFFSET 0x1C /* outbound queue configuration offset - byte offset */ #define OB_PROPERITY_OFFSET 0x00 #define OB_BASE_ADDR_HI_OFFSET 0x04 #define OB_BASE_ADDR_LO_OFFSET 0x08 #define OB_PI_BASE_ADDR_HI_OFFSET 0x0C #define OB_PI_BASE_ADDR_LO_OFFSET 0x10 #define OB_CIPCI_BAR 0x14 #define OB_CIPCI_BAR_OFFSET 0x18 #define OB_INTERRUPT_COALES_OFFSET 0x1C #define OB_DYNAMIC_COALES_OFFSET 0x20 #define OB_PROPERTY_INT_ENABLE 0x40000000 #define MBIC_NMI_ENABLE_VPE0_IOP 0x000418 #define MBIC_NMI_ENABLE_VPE0_AAP1 0x000418 /* PCIE registers - BAR2(0x18), BAR1(win) 0x010000 */ #define PCIE_EVENT_INTERRUPT_ENABLE 0x003040 #define PCIE_EVENT_INTERRUPT 0x003044 #define PCIE_ERROR_INTERRUPT_ENABLE 0x003048 #define PCIE_ERROR_INTERRUPT 0x00304C /* SPCV soft reset */ #define SPC_REG_SOFT_RESET 0x00001000 #define SPCv_NORMAL_RESET_VALUE 0x1 #define SPCv_SOFT_RESET_READ_MASK 0xC0 #define SPCv_SOFT_RESET_NO_RESET 0x0 #define SPCv_SOFT_RESET_NORMAL_RESET_OCCURED 0x40 #define SPCv_SOFT_RESET_HDA_MODE_OCCURED 0x80 #define SPCv_SOFT_RESET_CHIP_RESET_OCCURED 0xC0 /* signature definition for host scratch pad0 register */ #define SPC_SOFT_RESET_SIGNATURE 0x252acbcd /* Signature for Soft Reset */ /* SPC Reset register - BAR4(0x20), BAR2(win) (need dynamic mapping) */ #define SPC_REG_RESET 0x000000/* reset register */ /* bit definition for SPC_RESET register */ #define SPC_REG_RESET_OSSP 0x00000001 #define SPC_REG_RESET_RAAE 0x00000002 #define SPC_REG_RESET_PCS_SPBC 0x00000004 #define SPC_REG_RESET_PCS_IOP_SS 0x00000008 #define SPC_REG_RESET_PCS_AAP1_SS 0x00000010 #define SPC_REG_RESET_PCS_AAP2_SS 0x00000020 #define SPC_REG_RESET_PCS_LM 0x00000040 #define SPC_REG_RESET_PCS 0x00000080 #define SPC_REG_RESET_GSM 0x00000100 #define SPC_REG_RESET_DDR2 0x00010000 #define SPC_REG_RESET_BDMA_CORE 0x00020000 #define SPC_REG_RESET_BDMA_SXCBI 0x00040000 #define SPC_REG_RESET_PCIE_AL_SXCBI 0x00080000 #define SPC_REG_RESET_PCIE_PWR 0x00100000 #define SPC_REG_RESET_PCIE_SFT 0x00200000 #define SPC_REG_RESET_PCS_SXCBI 0x00400000 #define SPC_REG_RESET_LMS_SXCBI 0x00800000 #define SPC_REG_RESET_PMIC_SXCBI 0x01000000 #define SPC_REG_RESET_PMIC_CORE 0x02000000 #define SPC_REG_RESET_PCIE_PC_SXCBI 0x04000000 #define SPC_REG_RESET_DEVICE 0x80000000 /* registers for BAR Shifting - BAR2(0x18), BAR1(win) */ #define SPCV_IBW_AXI_TRANSLATION_LOW 0x001010 #define MBIC_AAP1_ADDR_BASE 0x060000 #define MBIC_IOP_ADDR_BASE 0x070000 #define GSM_ADDR_BASE 0x0700000 /* Dynamic map through Bar4 - 0x00700000 */ #define GSM_CONFIG_RESET 0x00000000 #define RAM_ECC_DB_ERR 0x00000018 #define GSM_READ_ADDR_PARITY_INDIC 0x00000058 #define GSM_WRITE_ADDR_PARITY_INDIC 0x00000060 #define GSM_WRITE_DATA_PARITY_INDIC 0x00000068 #define GSM_READ_ADDR_PARITY_CHECK 0x00000038 #define GSM_WRITE_ADDR_PARITY_CHECK 0x00000040 #define GSM_WRITE_DATA_PARITY_CHECK 0x00000048 #define RB6_ACCESS_REG 0x6A0000 #define HDAC_EXEC_CMD 0x0002 #define HDA_C_PA 0xcb #define HDA_SEQ_ID_BITS 0x00ff0000 #define HDA_GSM_OFFSET_BITS 0x00FFFFFF #define HDA_GSM_CMD_OFFSET_BITS 0x42C0 #define HDA_GSM_RSP_OFFSET_BITS 0x42E0 #define MBIC_AAP1_ADDR_BASE 0x060000 #define MBIC_IOP_ADDR_BASE 0x070000 #define GSM_ADDR_BASE 0x0700000 #define SPC_TOP_LEVEL_ADDR_BASE 0x000000 #define GSM_CONFIG_RESET_VALUE 0x00003b00 #define GPIO_ADDR_BASE 0x00090000 #define GPIO_GPIO_0_0UTPUT_CTL_OFFSET 0x0000010c /* RB6 offset */ #define SPC_RB6_OFFSET 0x80C0 /* Magic number of soft reset for RB6 */ #define RB6_MAGIC_NUMBER_RST 0x1234 /* Device Register status */ #define DEVREG_SUCCESS 0x00 #define DEVREG_FAILURE_OUT_OF_RESOURCE 0x01 #define DEVREG_FAILURE_DEVICE_ALREADY_REGISTERED 0x02 #define DEVREG_FAILURE_INVALID_PHY_ID 0x03 #define DEVREG_FAILURE_PHY_ID_ALREADY_REGISTERED 0x04 #define DEVREG_FAILURE_PORT_ID_OUT_OF_RANGE 0x05 #define DEVREG_FAILURE_PORT_NOT_VALID_STATE 0x06 #define DEVREG_FAILURE_DEVICE_TYPE_NOT_VALID 0x07 #define MEMBASE_II_SHIFT_REGISTER 0x1010 #endif /** * As we know sleep (1~20) ms may result in sleep longer than ~20 ms, hence we * choose 20 ms interval. */ #define FW_READY_INTERVAL 20 |