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|
/*
* File Name:
* defxx.h
*
* Copyright Information:
* Copyright Digital Equipment Corporation 1996.
*
* This software may be used and distributed according to the terms of
* the GNU General Public License, incorporated herein by reference.
*
* Abstract:
* Contains all definitions specified by port specification and required
* by the defxx.c driver.
*
* Maintainers:
* LVS Lawrence V. Stefani
*
* Contact:
* The author may be reached at:
*
* Inet: stefani@lkg.dec.com
* Mail: Digital Equipment Corporation
* 550 King Street
* M/S: LKG1-3/M07
* Littleton, MA 01460
*
* Modification History:
* Date Name Description
* 16-Aug-96 LVS Created.
* 09-Sep-96 LVS Added group_prom field. Moved read/write I/O
* macros to DEFXX.C.
* 12-Sep-96 LVS Removed packet request header pointers.
*/
#ifndef _DEFXX_H_
#define _DEFXX_H_
/* Define basic types for unsigned chars, shorts, longs */
typedef u8 PI_UINT8;
typedef u16 PI_UINT16;
typedef u32 PI_UINT32;
/* Define general structures */
typedef struct /* 64-bit counter */
{
PI_UINT32 ms;
PI_UINT32 ls;
} PI_CNTR;
typedef struct /* LAN address */
{
PI_UINT32 lwrd_0;
PI_UINT32 lwrd_1;
} PI_LAN_ADDR;
typedef struct /* Station ID address */
{
PI_UINT32 octet_7_4;
PI_UINT32 octet_3_0;
} PI_STATION_ID;
/* Define general constants */
#define PI_ALIGN_K_DESC_BLK 8192 /* Descriptor block boundary */
#define PI_ALIGN_K_CONS_BLK 64 /* Consumer block boundary */
#define PI_ALIGN_K_CMD_REQ_BUFF 128 /* Xmt Command que buffer alignment */
#define PI_ALIGN_K_CMD_RSP_BUFF 128 /* Rcv Command que buffer alignment */
#define PI_ALIGN_K_UNSOL_BUFF 128 /* Unsol que buffer alignment */
#define PI_ALIGN_K_XMT_DATA_BUFF 0 /* Xmt data que buffer alignment */
#define PI_ALIGN_K_RCV_DATA_BUFF 128 /* Rcv que buffer alignment */
/* Define PHY index values */
#define PI_PHY_K_S 0 /* Index to S phy */
#define PI_PHY_K_A 0 /* Index to A phy */
#define PI_PHY_K_B 1 /* Index to B phy */
#define PI_PHY_K_MAX 2 /* Max number of phys */
/* Define FMC descriptor fields */
#define PI_FMC_DESCR_V_SOP 31
#define PI_FMC_DESCR_V_EOP 30
#define PI_FMC_DESCR_V_FSC 27
#define PI_FMC_DESCR_V_FSB_ERROR 26
#define PI_FMC_DESCR_V_FSB_ADDR_RECOG 25
#define PI_FMC_DESCR_V_FSB_ADDR_COPIED 24
#define PI_FMC_DESCR_V_FSB 22
#define PI_FMC_DESCR_V_RCC_FLUSH 21
#define PI_FMC_DESCR_V_RCC_CRC 20
#define PI_FMC_DESCR_V_RCC_RRR 17
#define PI_FMC_DESCR_V_RCC_DD 15
#define PI_FMC_DESCR_V_RCC_SS 13
#define PI_FMC_DESCR_V_RCC 13
#define PI_FMC_DESCR_V_LEN 0
#define PI_FMC_DESCR_M_SOP 0x80000000
#define PI_FMC_DESCR_M_EOP 0x40000000
#define PI_FMC_DESCR_M_FSC 0x38000000
#define PI_FMC_DESCR_M_FSB_ERROR 0x04000000
#define PI_FMC_DESCR_M_FSB_ADDR_RECOG 0x02000000
#define PI_FMC_DESCR_M_FSB_ADDR_COPIED 0x01000000
#define PI_FMC_DESCR_M_FSB 0x07C00000
#define PI_FMC_DESCR_M_RCC_FLUSH 0x00200000
#define PI_FMC_DESCR_M_RCC_CRC 0x00100000
#define PI_FMC_DESCR_M_RCC_RRR 0x000E0000
#define PI_FMC_DESCR_M_RCC_DD 0x00018000
#define PI_FMC_DESCR_M_RCC_SS 0x00006000
#define PI_FMC_DESCR_M_RCC 0x003FE000
#define PI_FMC_DESCR_M_LEN 0x00001FFF
#define PI_FMC_DESCR_K_RCC_FMC_INT_ERR 0x01AA
#define PI_FMC_DESCR_K_RRR_SUCCESS 0x00
#define PI_FMC_DESCR_K_RRR_SA_MATCH 0x01
#define PI_FMC_DESCR_K_RRR_DA_MATCH 0x02
#define PI_FMC_DESCR_K_RRR_FMC_ABORT 0x03
#define PI_FMC_DESCR_K_RRR_LENGTH_BAD 0x04
#define PI_FMC_DESCR_K_RRR_FRAGMENT 0x05
#define PI_FMC_DESCR_K_RRR_FORMAT_ERR 0x06
#define PI_FMC_DESCR_K_RRR_MAC_RESET 0x07
#define PI_FMC_DESCR_K_DD_NO_MATCH 0x0
#define PI_FMC_DESCR_K_DD_PROMISCUOUS 0x1
#define PI_FMC_DESCR_K_DD_CAM_MATCH 0x2
#define PI_FMC_DESCR_K_DD_LOCAL_MATCH 0x3
#define PI_FMC_DESCR_K_SS_NO_MATCH 0x0
#define PI_FMC_DESCR_K_SS_BRIDGE_MATCH 0x1
#define PI_FMC_DESCR_K_SS_NOT_POSSIBLE 0x2
#define PI_FMC_DESCR_K_SS_LOCAL_MATCH 0x3
/* Define some max buffer sizes */
#define PI_CMD_REQ_K_SIZE_MAX 512
#define PI_CMD_RSP_K_SIZE_MAX 512
#define PI_UNSOL_K_SIZE_MAX 512
#define PI_SMT_HOST_K_SIZE_MAX 4608 /* 4 1/2 K */
#define PI_RCV_DATA_K_SIZE_MAX 4608 /* 4 1/2 K */
#define PI_XMT_DATA_K_SIZE_MAX 4608 /* 4 1/2 K */
/* Define adapter states */
#define PI_STATE_K_RESET 0
#define PI_STATE_K_UPGRADE 1
#define PI_STATE_K_DMA_UNAVAIL 2
#define PI_STATE_K_DMA_AVAIL 3
#define PI_STATE_K_LINK_AVAIL 4
#define PI_STATE_K_LINK_UNAVAIL 5
#define PI_STATE_K_HALTED 6
#define PI_STATE_K_RING_MEMBER 7
#define PI_STATE_K_NUMBER 8
/* Define codes for command type */
#define PI_CMD_K_START 0x00
#define PI_CMD_K_FILTERS_SET 0x01
#define PI_CMD_K_FILTERS_GET 0x02
#define PI_CMD_K_CHARS_SET 0x03
#define PI_CMD_K_STATUS_CHARS_GET 0x04
#define PI_CMD_K_CNTRS_GET 0x05
#define PI_CMD_K_CNTRS_SET 0x06
#define PI_CMD_K_ADDR_FILTER_SET 0x07
#define PI_CMD_K_ADDR_FILTER_GET 0x08
#define PI_CMD_K_ERROR_LOG_CLEAR 0x09
#define PI_CMD_K_ERROR_LOG_GET 0x0A
#define PI_CMD_K_FDDI_MIB_GET 0x0B
#define PI_CMD_K_DEC_EXT_MIB_GET 0x0C
#define PI_CMD_K_DEVICE_SPECIFIC_GET 0x0D
#define PI_CMD_K_SNMP_SET 0x0E
#define PI_CMD_K_UNSOL_TEST 0x0F
#define PI_CMD_K_SMT_MIB_GET 0x10
#define PI_CMD_K_SMT_MIB_SET 0x11
#define PI_CMD_K_MAX 0x11 /* Must match last */
/* Define item codes for Chars_Set and Filters_Set commands */
#define PI_ITEM_K_EOL 0x00 /* End-of-Item list */
#define PI_ITEM_K_T_REQ 0x01 /* DECnet T_REQ */
#define PI_ITEM_K_TVX 0x02 /* DECnet TVX */
#define PI_ITEM_K_RESTRICTED_TOKEN 0x03 /* DECnet Restricted Token */
#define PI_ITEM_K_LEM_THRESHOLD 0x04 /* DECnet LEM Threshold */
#define PI_ITEM_K_RING_PURGER 0x05 /* DECnet Ring Purger Enable */
#define PI_ITEM_K_CNTR_INTERVAL 0x06 /* Chars_Set */
#define PI_ITEM_K_IND_GROUP_PROM 0x07 /* Filters_Set */
#define PI_ITEM_K_GROUP_PROM 0x08 /* Filters_Set */
#define PI_ITEM_K_BROADCAST 0x09 /* Filters_Set */
#define PI_ITEM_K_SMT_PROM 0x0A /* Filters_Set */
#define PI_ITEM_K_SMT_USER 0x0B /* Filters_Set */
#define PI_ITEM_K_RESERVED 0x0C /* Filters_Set */
#define PI_ITEM_K_IMPLEMENTOR 0x0D /* Filters_Set */
#define PI_ITEM_K_LOOPBACK_MODE 0x0E /* Chars_Set */
#define PI_ITEM_K_CONFIG_POLICY 0x10 /* SMTConfigPolicy */
#define PI_ITEM_K_CON_POLICY 0x11 /* SMTConnectionPolicy */
#define PI_ITEM_K_T_NOTIFY 0x12 /* SMTTNotify */
#define PI_ITEM_K_STATION_ACTION 0x13 /* SMTStationAction */
#define PI_ITEM_K_MAC_PATHS_REQ 0x15 /* MACPathsRequested */
#define PI_ITEM_K_MAC_ACTION 0x17 /* MACAction */
#define PI_ITEM_K_CON_POLICIES 0x18 /* PORTConnectionPolicies */
#define PI_ITEM_K_PORT_PATHS_REQ 0x19 /* PORTPathsRequested */
#define PI_ITEM_K_MAC_LOOP_TIME 0x1A /* PORTMACLoopTime */
#define PI_ITEM_K_TB_MAX 0x1B /* PORTTBMax */
#define PI_ITEM_K_LER_CUTOFF 0x1C /* PORTLerCutoff */
#define PI_ITEM_K_LER_ALARM 0x1D /* PORTLerAlarm */
#define PI_ITEM_K_PORT_ACTION 0x1E /* PORTAction */
#define PI_ITEM_K_FLUSH_TIME 0x20 /* Chars_Set */
#define PI_ITEM_K_MAC_T_REQ 0x29 /* MACTReq */
#define PI_ITEM_K_EMAC_RING_PURGER 0x2A /* eMACRingPurgerEnable */
#define PI_ITEM_K_EMAC_RTOKEN_TIMEOUT 0x2B /* eMACRestrictedTokenTimeout */
#define PI_ITEM_K_FDX_ENB_DIS 0x2C /* eFDXEnable */
#define PI_ITEM_K_MAX 0x2C /* Must equal high item */
/* Values for some of the items */
#define PI_K_FALSE 0 /* Generic false */
#define PI_K_TRUE 1 /* Generic true */
#define PI_SNMP_K_TRUE 1 /* SNMP true/false values */
#define PI_SNMP_K_FALSE 2
#define PI_FSTATE_K_BLOCK 0 /* Filter State */
#define PI_FSTATE_K_PASS 1
/* Define command return codes */
#define PI_RSP_K_SUCCESS 0x00
#define PI_RSP_K_FAILURE 0x01
#define PI_RSP_K_WARNING 0x02
#define PI_RSP_K_LOOP_MODE_BAD 0x03
#define PI_RSP_K_ITEM_CODE_BAD 0x04
#define PI_RSP_K_TVX_BAD 0x05
#define PI_RSP_K_TREQ_BAD 0x06
#define PI_RSP_K_TOKEN_BAD 0x07
#define PI_RSP_K_NO_EOL 0x0C
#define PI_RSP_K_FILTER_STATE_BAD 0x0D
#define PI_RSP_K_CMD_TYPE_BAD 0x0E
#define PI_RSP_K_ADAPTER_STATE_BAD 0x0F
#define PI_RSP_K_RING_PURGER_BAD 0x10
#define PI_RSP_K_LEM_THRESHOLD_BAD 0x11
#define PI_RSP_K_LOOP_NOT_SUPPORTED 0x12
#define PI_RSP_K_FLUSH_TIME_BAD 0x13
#define PI_RSP_K_NOT_IMPLEMENTED 0x14
#define PI_RSP_K_CONFIG_POLICY_BAD 0x15
#define PI_RSP_K_STATION_ACTION_BAD 0x16
#define PI_RSP_K_MAC_ACTION_BAD 0x17
#define PI_RSP_K_CON_POLICIES_BAD 0x18
#define PI_RSP_K_MAC_LOOP_TIME_BAD 0x19
#define PI_RSP_K_TB_MAX_BAD 0x1A
#define PI_RSP_K_LER_CUTOFF_BAD 0x1B
#define PI_RSP_K_LER_ALARM_BAD 0x1C
#define PI_RSP_K_MAC_PATHS_REQ_BAD 0x1D
#define PI_RSP_K_MAC_T_REQ_BAD 0x1E
#define PI_RSP_K_EMAC_RING_PURGER_BAD 0x1F
#define PI_RSP_K_EMAC_RTOKEN_TIME_BAD 0x20
#define PI_RSP_K_NO_SUCH_ENTRY 0x21
#define PI_RSP_K_T_NOTIFY_BAD 0x22
#define PI_RSP_K_TR_MAX_EXP_BAD 0x23
#define PI_RSP_K_MAC_FRM_ERR_THR_BAD 0x24
#define PI_RSP_K_MAX_T_REQ_BAD 0x25
#define PI_RSP_K_FDX_ENB_DIS_BAD 0x26
#define PI_RSP_K_ITEM_INDEX_BAD 0x27
#define PI_RSP_K_PORT_ACTION_BAD 0x28
/* Commonly used structures */
typedef struct /* Item list */
{
PI_UINT32 item_code;
PI_UINT32 value;
} PI_ITEM_LIST;
typedef struct /* Response header */
{
PI_UINT32 reserved;
PI_UINT32 cmd_type;
PI_UINT32 status;
} PI_RSP_HEADER;
/* Start Command */
typedef struct
{
PI_UINT32 cmd_type;
} PI_CMD_START_REQ;
/* Start Response */
typedef struct
{
PI_RSP_HEADER header;
} PI_CMD_START_RSP;
/* Filters_Set Request */
#define PI_CMD_FILTERS_SET_K_ITEMS_MAX 63 /* Fits in a 512 byte buffer */
typedef struct
{
PI_UINT32 cmd_type;
PI_ITEM_LIST item[PI_CMD_FILTERS_SET_K_ITEMS_MAX];
} PI_CMD_FILTERS_SET_REQ;
/* Filters_Set Response */
typedef struct
{
PI_RSP_HEADER header;
} PI_CMD_FILTERS_SET_RSP;
/* Filters_Get Request */
typedef struct
{
PI_UINT32 cmd_type;
} PI_CMD_FILTERS_GET_REQ;
/* Filters_Get Response */
typedef struct
{
PI_RSP_HEADER header;
PI_UINT32 ind_group_prom;
PI_UINT32 group_prom;
PI_UINT32 broadcast_all;
PI_UINT32 smt_all;
PI_UINT32 smt_user;
PI_UINT32 reserved_all;
PI_UINT32 implementor_all;
} PI_CMD_FILTERS_GET_RSP;
/* Chars_Set Request */
#define PI_CMD_CHARS_SET_K_ITEMS_MAX 42 /* Fits in a 512 byte buffer */
typedef struct
{
PI_UINT32 cmd_type;
struct /* Item list */
{
PI_UINT32 item_code;
PI_UINT32 value;
PI_UINT32 item_index;
} item[PI_CMD_CHARS_SET_K_ITEMS_MAX];
} PI_CMD_CHARS_SET_REQ;
/* Chars_Set Response */
typedef struct
{
PI_RSP_HEADER header;
} PI_CMD_CHARS_SET_RSP;
/* SNMP_Set Request */
#define PI_CMD_SNMP_SET_K_ITEMS_MAX 42 /* Fits in a 512 byte buffer */
typedef struct
{
PI_UINT32 cmd_type;
struct /* Item list */
{
PI_UINT32 item_code;
PI_UINT32 value;
PI_UINT32 item_index;
} item[PI_CMD_SNMP_SET_K_ITEMS_MAX];
} PI_CMD_SNMP_SET_REQ;
/* SNMP_Set Response */
typedef struct
{
PI_RSP_HEADER header;
} PI_CMD_SNMP_SET_RSP;
/* SMT_MIB_Set Request */
#define PI_CMD_SMT_MIB_SET_K_ITEMS_MAX 42 /* Max number of items */
typedef struct
{
PI_UINT32 cmd_type;
struct
{
PI_UINT32 item_code;
PI_UINT32 value;
PI_UINT32 item_index;
} item[PI_CMD_SMT_MIB_SET_K_ITEMS_MAX];
} PI_CMD_SMT_MIB_SET_REQ;
/* SMT_MIB_Set Response */
typedef struct
{
PI_RSP_HEADER header;
} PI_CMD_SMT_MIB_SET_RSP;
/* SMT_MIB_Get Request */
typedef struct
{
PI_UINT32 cmd_type;
} PI_CMD_SMT_MIB_GET_REQ;
/* SMT_MIB_Get Response */
typedef struct /* Refer to ANSI FDDI SMT Rev. 7.3 */
{
PI_RSP_HEADER header;
/* SMT GROUP */
PI_STATION_ID smt_station_id;
PI_UINT32 smt_op_version_id;
PI_UINT32 smt_hi_version_id;
PI_UINT32 smt_lo_version_id;
PI_UINT32 smt_user_data[8];
PI_UINT32 smt_mib_version_id;
PI_UINT32 smt_mac_ct;
PI_UINT32 smt_non_master_ct;
PI_UINT32 smt_master_ct;
PI_UINT32 smt_available_paths;
PI_UINT32 smt_config_capabilities;
PI_UINT32 smt_config_policy;
PI_UINT32 smt_connection_policy;
PI_UINT32 smt_t_notify;
PI_UINT32 smt_stat_rpt_policy;
PI_UINT32 smt_trace_max_expiration;
PI_UINT32 smt_bypass_present;
PI_UINT32 smt_ecm_state;
PI_UINT32 smt_cf_state;
PI_UINT32 smt_remote_disconnect_flag;
PI_UINT32 smt_station_status;
PI_UINT32 smt_peer_wrap_flag;
PI_CNTR smt_msg_time_stamp;
PI_CNTR smt_transition_time_stamp;
/* MAC GROUP */
PI_UINT32 mac_frame_status_functions;
PI_UINT32 mac_t_max_capability;
PI_UINT32 mac_tvx_capability;
PI_UINT32 mac_available_paths;
PI_UINT32 mac_current_path;
PI_LAN_ADDR mac_upstream_nbr;
PI_LAN_ADDR mac_downstream_nbr;
PI_LAN_ADDR mac_old_upstream_nbr;
PI_LAN_ADDR mac_old_downstream_nbr;
PI_UINT32 mac_dup_address_test;
PI_UINT32 mac_requested_paths;
PI_UINT32 mac_downstream_port_type;
PI_LAN_ADDR mac_smt_address;
PI_UINT32 mac_t_req;
PI_UINT32 mac_t_neg;
PI_UINT32 mac_t_max;
PI_UINT32 mac_tvx_value;
PI_UINT32 mac_frame_error_threshold;
PI_UINT32 mac_frame_error_ratio;
PI_UINT32 mac_rmt_state;
PI_UINT32 mac_da_flag;
PI_UINT32 mac_unda_flag;
PI_UINT32 mac_frame_error_flag;
PI_UINT32 mac_ma_unitdata_available;
PI_UINT32 mac_hardware_present;
PI_UINT32 mac_ma_unitdata_enable;
/* PATH GROUP */
PI_UINT32 path_configuration[8];
PI_UINT32 path_tvx_lower_bound;
PI_UINT32 path_t_max_lower_bound;
PI_UINT32 path_max_t_req;
/* PORT GROUP */
PI_UINT32 port_my_type[PI_PHY_K_MAX];
PI_UINT32 port_neighbor_type[PI_PHY_K_MAX];
PI_UINT32 port_connection_policies[PI_PHY_K_MAX];
PI_UINT32 port_mac_indicated[PI_PHY_K_MAX];
PI_UINT32 port_current_path[PI_PHY_K_MAX];
PI_UINT32 port_requested_paths[PI_PHY_K_MAX];
PI_UINT32 port_mac_placement[PI_PHY_K_MAX];
PI_UINT32 port_available_paths[PI_PHY_K_MAX];
PI_UINT32 port_pmd_class[PI_PHY_K_MAX];
PI_UINT32 port_connection_capabilities[PI_PHY_K_MAX];
PI_UINT32 port_bs_flag[PI_PHY_K_MAX];
PI_UINT32 port_ler_estimate[PI_PHY_K_MAX];
PI_UINT32 port_ler_cutoff[PI_PHY_K_MAX];
PI_UINT32 port_ler_alarm[PI_PHY_K_MAX];
PI_UINT32 port_connect_state[PI_PHY_K_MAX];
PI_UINT32 port_pcm_state[PI_PHY_K_MAX];
PI_UINT32 port_pc_withhold[PI_PHY_K_MAX];
PI_UINT32 port_ler_flag[PI_PHY_K_MAX];
PI_UINT32 port_hardware_present[PI_PHY_K_MAX];
/* GROUP for things that were added later, so must be at the end. */
PI_CNTR path_ring_latency;
} PI_CMD_SMT_MIB_GET_RSP;
/*
* Item and group code definitions for SMT 7.3 mandatory objects. These
* definitions are to be used as appropriate in SMT_MIB_SET commands and
* certain host-sent SMT frames such as PMF Get and Set requests. The
* codes have been taken from the MIB summary section of ANSI SMT 7.3.
*/
#define PI_GRP_K_SMT_STATION_ID 0x100A
#define PI_ITEM_K_SMT_STATION_ID 0x100B
#define PI_ITEM_K_SMT_OP_VERS_ID 0x100D
#define PI_ITEM_K_SMT_HI_VERS_ID 0x100E
#define PI_ITEM_K_SMT_LO_VERS_ID 0x100F
#define PI_ITEM_K_SMT_USER_DATA 0x1011
#define PI_ITEM_K_SMT_MIB_VERS_ID 0x1012
#define PI_GRP_K_SMT_STATION_CONFIG 0x1014
#define PI_ITEM_K_SMT_MAC_CT 0x1015
#define PI_ITEM_K_SMT_NON_MASTER_CT 0x1016
#define PI_ITEM_K_SMT_MASTER_CT 0x1017
#define PI_ITEM_K_SMT_AVAIL_PATHS 0x1018
#define PI_ITEM_K_SMT_CONFIG_CAPS 0x1019
#define PI_ITEM_K_SMT_CONFIG_POL 0x101A
#define PI_ITEM_K_SMT_CONN_POL 0x101B
#define PI_ITEM_K_SMT_T_NOTIFY 0x101D
#define PI_ITEM_K_SMT_STAT_POL 0x101E
#define PI_ITEM_K_SMT_TR_MAX_EXP 0x101F
#define PI_ITEM_K_SMT_PORT_INDEXES 0x1020
#define PI_ITEM_K_SMT_MAC_INDEXES 0x1021
#define PI_ITEM_K_SMT_BYPASS_PRESENT 0x1022
#define PI_GRP_K_SMT_STATUS 0x1028
#define PI_ITEM_K_SMT_ECM_STATE 0x1029
#define PI_ITEM_K_SMT_CF_STATE 0x102A
#define PI_ITEM_K_SMT_REM_DISC_FLAG 0x102C
#define PI_ITEM_K_SMT_STATION_STATUS 0x102D
#define PI_ITEM_K_SMT_PEER_WRAP_FLAG 0x102E
#define PI_GRP_K_SMT_MIB_OPERATION 0x1032
#define PI_ITEM_K_SMT_MSG_TIME_STAMP 0x1033
#define PI_ITEM_K_SMT_TRN_TIME_STAMP 0x1034
#define PI_ITEM_K_SMT_STATION_ACT 0x103C
#define PI_GRP_K_MAC_CAPABILITIES 0x200A
#define PI_ITEM_K_MAC_FRM_STAT_FUNC 0x200B
#define PI_ITEM_K_MAC_T_MAX_CAP 0x200D
#define PI_ITEM_K_MAC_TVX_CAP 0x200E
#define PI_GRP_K_MAC_CONFIG 0x2014
#define PI_ITEM_K_MAC_AVAIL_PATHS 0x2016
#define PI_ITEM_K_MAC_CURRENT_PATH 0x2017
#define PI_ITEM_K_MAC_UP_NBR 0x2018
#define PI_ITEM_K_MAC_DOWN_NBR 0x2019
#define PI_ITEM_K_MAC_OLD_UP_NBR 0x201A
#define PI_ITEM_K_MAC_OLD_DOWN_NBR 0x201B
#define PI_ITEM_K_MAC_DUP_ADDR_TEST 0x201D
#define PI_ITEM_K_MAC_REQ_PATHS 0x2020
#define PI_ITEM_K_MAC_DOWN_PORT_TYPE 0x2021
#define PI_ITEM_K_MAC_INDEX 0x2022
#define PI_GRP_K_MAC_ADDRESS 0x2028
#define PI_ITEM_K_MAC_SMT_ADDRESS 0x2029
#define PI_GRP_K_MAC_OPERATION 0x2032
#define PI_ITEM_K_MAC_TREQ 0x2033
#define PI_ITEM_K_MAC_TNEG 0x2034
#define PI_ITEM_K_MAC_TMAX 0x2035
#define PI_ITEM_K_MAC_TVX_VALUE 0x2036
#define PI_GRP_K_MAC_COUNTERS 0x2046
#define PI_ITEM_K_MAC_FRAME_CT 0x2047
#define PI_ITEM_K_MAC_COPIED_CT 0x2048
#define PI_ITEM_K_MAC_TRANSMIT_CT 0x2049
#define PI_ITEM_K_MAC_ERROR_CT 0x2051
#define PI_ITEM_K_MAC_LOST_CT 0x2052
#define PI_GRP_K_MAC_FRM_ERR_COND 0x205A
#define PI_ITEM_K_MAC_FRM_ERR_THR 0x205F
#define PI_ITEM_K_MAC_FRM_ERR_RAT 0x2060
#define PI_GRP_K_MAC_STATUS 0x206E
#define PI_ITEM_K_MAC_RMT_STATE 0x206F
#define PI_ITEM_K_MAC_DA_FLAG 0x2070
#define PI_ITEM_K_MAC_UNDA_FLAG 0x2071
#define PI_ITEM_K_MAC_FRM_ERR_FLAG 0x2072
#define PI_ITEM_K_MAC_MA_UNIT_AVAIL 0x2074
#define PI_ITEM_K_MAC_HW_PRESENT 0x2075
#define PI_ITEM_K_MAC_MA_UNIT_ENAB 0x2076
#define PI_GRP_K_PATH_CONFIG 0x320A
#define PI_ITEM_K_PATH_INDEX 0x320B
#define PI_ITEM_K_PATH_CONFIGURATION 0x3212
#define PI_ITEM_K_PATH_TVX_LB 0x3215
#define PI_ITEM_K_PATH_T_MAX_LB 0x3216
#define PI_ITEM_K_PATH_MAX_T_REQ 0x3217
#define PI_GRP_K_PORT_CONFIG 0x400A
#define PI_ITEM_K_PORT_MY_TYPE 0x400C
#define PI_ITEM_K_PORT_NBR_TYPE 0x400D
#define PI_ITEM_K_PORT_CONN_POLS 0x400E
#define PI_ITEM_K_PORT_MAC_INDICATED 0x400F
#define PI_ITEM_K_PORT_CURRENT_PATH 0x4010
#define PI_ITEM_K_PORT_REQ_PATHS 0x4011
#define PI_ITEM_K_PORT_MAC_PLACEMENT 0x4012
#define PI_ITEM_K_PORT_AVAIL_PATHS 0x4013
#define PI_ITEM_K_PORT_PMD_CLASS 0x4016
#define PI_ITEM_K_PORT_CONN_CAPS 0x4017
#define PI_ITEM_K_PORT_INDEX 0x401D
#define PI_GRP_K_PORT_OPERATION 0x401E
#define PI_ITEM_K_PORT_BS_FLAG 0x4021
#define PI_GRP_K_PORT_ERR_CNTRS 0x4028
#define PI_ITEM_K_PORT_LCT_FAIL_CT 0x402A
#define PI_GRP_K_PORT_LER 0x4032
#define PI_ITEM_K_PORT_LER_ESTIMATE 0x4033
#define PI_ITEM_K_PORT_LEM_REJ_CT 0x4034
#define PI_ITEM_K_PORT_LEM_CT 0x4035
#define PI_ITEM_K_PORT_LER_CUTOFF 0x403A
#define PI_ITEM_K_PORT_LER_ALARM 0x403B
#define PI_GRP_K_PORT_STATUS 0x403C
#define PI_ITEM_K_PORT_CONNECT_STATE 0x403D
#define PI_ITEM_K_PORT_PCM_STATE 0x403E
#define PI_ITEM_K_PORT_PC_WITHHOLD 0x403F
#define PI_ITEM_K_PORT_LER_FLAG 0x4040
#define PI_ITEM_K_PORT_HW_PRESENT 0x4041
#define PI_ITEM_K_PORT_ACT 0x4046
/* Addr_Filter_Set Request */
#define PI_CMD_ADDR_FILTER_K_SIZE 62
typedef struct
{
PI_UINT32 cmd_type;
PI_LAN_ADDR entry[PI_CMD_ADDR_FILTER_K_SIZE];
} PI_CMD_ADDR_FILTER_SET_REQ;
/* Addr_Filter_Set Response */
typedef struct
{
PI_RSP_HEADER header;
} PI_CMD_ADDR_FILTER_SET_RSP;
/* Addr_Filter_Get Request */
typedef struct
{
PI_UINT32 cmd_type;
} PI_CMD_ADDR_FILTER_GET_REQ;
/* Addr_Filter_Get Response */
typedef struct
{
PI_RSP_HEADER header;
PI_LAN_ADDR entry[PI_CMD_ADDR_FILTER_K_SIZE];
} PI_CMD_ADDR_FILTER_GET_RSP;
/* Status_Chars_Get Request */
typedef struct
{
PI_UINT32 cmd_type;
} PI_CMD_STATUS_CHARS_GET_REQ;
/* Status_Chars_Get Response */
typedef struct
{
PI_RSP_HEADER header;
PI_STATION_ID station_id; /* Station */
PI_UINT32 station_type;
PI_UINT32 smt_ver_id;
PI_UINT32 smt_ver_id_max;
PI_UINT32 smt_ver_id_min;
PI_UINT32 station_state;
PI_LAN_ADDR link_addr; /* Link */
PI_UINT32 t_req;
PI_UINT32 tvx;
PI_UINT32 token_timeout;
PI_UINT32 purger_enb;
PI_UINT32 link_state;
PI_UINT32 tneg;
PI_UINT32 dup_addr_flag;
PI_LAN_ADDR una;
PI_LAN_ADDR una_old;
PI_UINT32 un_dup_addr_flag;
PI_LAN_ADDR dna;
PI_LAN_ADDR dna_old;
PI_UINT32 purger_state;
PI_UINT32 fci_mode;
PI_UINT32 error_reason;
PI_UINT32 loopback;
PI_UINT32 ring_latency;
PI_LAN_ADDR last_dir_beacon_sa;
PI_LAN_ADDR last_dir_beacon_una;
PI_UINT32 phy_type[PI_PHY_K_MAX]; /* Phy */
PI_UINT32 pmd_type[PI_PHY_K_MAX];
PI_UINT32 lem_threshold[PI_PHY_K_MAX];
PI_UINT32 phy_state[PI_PHY_K_MAX];
PI_UINT32 nbor_phy_type[PI_PHY_K_MAX];
PI_UINT32 link_error_est[PI_PHY_K_MAX];
PI_UINT32 broken_reason[PI_PHY_K_MAX];
PI_UINT32 reject_reason[PI_PHY_K_MAX];
PI_UINT32 cntr_interval; /* Miscellaneous */
PI_UINT32 module_rev;
PI_UINT32 firmware_rev;
PI_UINT32 mop_device_type;
PI_UINT32 phy_led[PI_PHY_K_MAX];
PI_UINT32 flush_time;
} PI_CMD_STATUS_CHARS_GET_RSP;
/* FDDI_MIB_Get Request */
typedef struct
{
PI_UINT32 cmd_type;
} PI_CMD_FDDI_MIB_GET_REQ;
/* FDDI_MIB_Get Response */
typedef struct
{
PI_RSP_HEADER header;
/* SMT GROUP */
PI_STATION_ID smt_station_id;
PI_UINT32 smt_op_version_id;
PI_UINT32 smt_hi_version_id;
PI_UINT32 smt_lo_version_id;
PI_UINT32 smt_mac_ct;
PI_UINT32 smt_non_master_ct;
PI_UINT32 smt_master_ct;
PI_UINT32 smt_paths_available;
PI_UINT32 smt_config_capabilities;
PI_UINT32 smt_config_policy;
PI_UINT32 smt_connection_policy;
PI_UINT32 smt_t_notify;
PI_UINT32 smt_status_reporting;
PI_UINT32 smt_ecm_state;
PI_UINT32 smt_cf_state;
PI_UINT32 smt_hold_state;
PI_UINT32 smt_remote_disconnect_flag;
PI_UINT32 smt_station_action;
/* MAC GROUP */
PI_UINT32 mac_frame_status_capabilities;
PI_UINT32 mac_t_max_greatest_lower_bound;
PI_UINT32 mac_tvx_greatest_lower_bound;
PI_UINT32 mac_paths_available;
PI_UINT32 mac_current_path;
PI_LAN_ADDR mac_upstream_nbr;
PI_LAN_ADDR mac_old_upstream_nbr;
PI_UINT32 mac_dup_addr_test;
PI_UINT32 mac_paths_requested;
PI_UINT32 mac_downstream_port_type;
PI_LAN_ADDR mac_smt_address;
PI_UINT32 mac_t_req;
PI_UINT32 mac_t_neg;
PI_UINT32 mac_t_max;
PI_UINT32 mac_tvx_value;
PI_UINT32 mac_t_min;
PI_UINT32 mac_current_frame_status;
/* mac_frame_cts */
/* mac_error_cts */
/* mac_lost_cts */
PI_UINT32 mac_frame_error_threshold;
PI_UINT32 mac_frame_error_ratio;
PI_UINT32 mac_rmt_state;
PI_UINT32 mac_da_flag;
PI_UINT32 mac_una_da_flag;
PI_UINT32 mac_frame_condition;
PI_UINT32 mac_chip_set;
PI_UINT32 mac_action;
/* PATH GROUP => Does not need to be implemented */
/* PORT GROUP */
PI_UINT32 port_pc_type[PI_PHY_K_MAX];
PI_UINT32 port_pc_neighbor[PI_PHY_K_MAX];
PI_UINT32 port_connection_policies[PI_PHY_K_MAX];
PI_UINT32 port_remote_mac_indicated[PI_PHY_K_MAX];
PI_UINT32 port_ce_state[PI_PHY_K_MAX];
PI_UINT32 port_paths_requested[PI_PHY_K_MAX];
PI_UINT32 port_mac_placement[PI_PHY_K_MAX];
PI_UINT32 port_available_paths[PI_PHY_K_MAX];
PI_UINT32 port_mac_loop_time[PI_PHY_K_MAX];
PI_UINT32 port_tb_max[PI_PHY_K_MAX];
PI_UINT32 port_bs_flag[PI_PHY_K_MAX];
/* port_lct_fail_cts[PI_PHY_K_MAX]; */
PI_UINT32 port_ler_estimate[PI_PHY_K_MAX];
/* port_lem_reject_cts[PI_PHY_K_MAX]; */
/* port_lem_cts[PI_PHY_K_MAX]; */
PI_UINT32 port_ler_cutoff[PI_PHY_K_MAX];
PI_UINT32 port_ler_alarm[PI_PHY_K_MAX];
PI_UINT32 port_connect_state[PI_PHY_K_MAX];
PI_UINT32 port_pcm_state[PI_PHY_K_MAX];
PI_UINT32 port_pc_withhold[PI_PHY_K_MAX];
PI_UINT32 port_ler_condition[PI_PHY_K_MAX];
PI_UINT32 port_chip_set[PI_PHY_K_MAX];
PI_UINT32 port_action[PI_PHY_K_MAX];
/* ATTACHMENT GROUP */
PI_UINT32 attachment_class;
PI_UINT32 attachment_ob_present;
PI_UINT32 attachment_imax_expiration;
PI_UINT32 attachment_inserted_status;
PI_UINT32 attachment_insert_policy;
/* CHIP SET GROUP => Does not need to be implemented */
} PI_CMD_FDDI_MIB_GET_RSP;
/* DEC_Ext_MIB_Get Request */
typedef struct
{
PI_UINT32 cmd_type;
} PI_CMD_DEC_EXT_MIB_GET_REQ;
/* DEC_Ext_MIB_Get (efddi and efdx groups only) Response */
typedef struct
{
PI_RSP_HEADER header;
/* SMT GROUP */
PI_UINT32 esmt_station_type;
/* MAC GROUP */
PI_UINT32 emac_link_state;
PI_UINT32 emac_ring_purger_state;
PI_UINT32 emac_ring_purger_enable;
PI_UINT32 emac_frame_strip_mode;
PI_UINT32 emac_ring_error_reason;
PI_UINT32 emac_up_nbr_dup_addr_flag;
PI_UINT32 emac_restricted_token_timeout;
/* PORT GROUP */
PI_UINT32 eport_pmd_type[PI_PHY_K_MAX];
PI_UINT32 eport_phy_state[PI_PHY_K_MAX];
PI_UINT32 eport_reject_reason[PI_PHY_K_MAX];
/* FDX (Full-Duplex) GROUP */
PI_UINT32 efdx_enable; /* Valid only in SMT 7.3 */
PI_UINT32 efdx_op; /* Valid only in SMT 7.3 */
PI_UINT32 efdx_state; /* Valid only in SMT 7.3 */
} PI_CMD_DEC_EXT_MIB_GET_RSP;
typedef struct
{
PI_CNTR traces_rcvd; /* Station */
PI_CNTR frame_cnt; /* Link */
PI_CNTR error_cnt;
PI_CNTR lost_cnt;
PI_CNTR octets_rcvd;
PI_CNTR octets_sent;
PI_CNTR pdus_rcvd;
PI_CNTR pdus_sent;
PI_CNTR mcast_octets_rcvd;
PI_CNTR mcast_octets_sent;
PI_CNTR mcast_pdus_rcvd;
PI_CNTR mcast_pdus_sent;
PI_CNTR xmt_underruns;
PI_CNTR xmt_failures;
PI_CNTR block_check_errors;
PI_CNTR frame_status_errors;
PI_CNTR pdu_length_errors;
PI_CNTR rcv_overruns;
PI_CNTR user_buff_unavailable;
PI_CNTR inits_initiated;
PI_CNTR inits_rcvd;
PI_CNTR beacons_initiated;
PI_CNTR dup_addrs;
PI_CNTR dup_tokens;
PI_CNTR purge_errors;
PI_CNTR fci_strip_errors;
PI_CNTR traces_initiated;
PI_CNTR directed_beacons_rcvd;
PI_CNTR emac_frame_alignment_errors;
PI_CNTR ebuff_errors[PI_PHY_K_MAX]; /* Phy */
PI_CNTR lct_rejects[PI_PHY_K_MAX];
PI_CNTR lem_rejects[PI_PHY_K_MAX];
PI_CNTR link_errors[PI_PHY_K_MAX];
PI_CNTR connections[PI_PHY_K_MAX];
PI_CNTR copied_cnt; /* Valid only if using SMT 7.3 */
PI_CNTR transmit_cnt; /* Valid only if using SMT 7.3 */
PI_CNTR tokens;
} PI_CNTR_BLK;
/* Counters_Get Request */
typedef struct
{
PI_UINT32 cmd_type;
} PI_CMD_CNTRS_GET_REQ;
/* Counters_Get Response */
typedef struct
{
PI_RSP_HEADER header;
PI_CNTR time_since_reset;
PI_CNTR_BLK cntrs;
} PI_CMD_CNTRS_GET_RSP;
/* Counters_Set Request */
typedef struct
{
PI_UINT32 cmd_type;
PI_CNTR_BLK cntrs;
} PI_CMD_CNTRS_SET_REQ;
/* Counters_Set Response */
typedef struct
{
PI_RSP_HEADER header;
} PI_CMD_CNTRS_SET_RSP;
/* Error_Log_Clear Request */
typedef struct
{
PI_UINT32 cmd_type;
} PI_CMD_ERROR_LOG_CLEAR_REQ;
/* Error_Log_Clear Response */
typedef struct
{
PI_RSP_HEADER header;
} PI_CMD_ERROR_LOG_CLEAR_RSP;
/* Error_Log_Get Request */
#define PI_LOG_ENTRY_K_INDEX_MIN 0 /* Minimum index for entry */
typedef struct
{
PI_UINT32 cmd_type;
PI_UINT32 entry_index;
} PI_CMD_ERROR_LOG_GET_REQ;
/* Error_Log_Get Response */
#define PI_K_LOG_FW_SIZE 111 /* Max number of fw longwords */
#define PI_K_LOG_DIAG_SIZE 6 /* Max number of diag longwords */
typedef struct
{
struct
{
PI_UINT32 fru_imp_mask;
PI_UINT32 test_id;
PI_UINT32 reserved[PI_K_LOG_DIAG_SIZE];
} diag;
PI_UINT32 fw[PI_K_LOG_FW_SIZE];
} PI_LOG_ENTRY;
typedef struct
{
PI_RSP_HEADER header;
PI_UINT32 event_status;
PI_UINT32 caller_id;
PI_UINT32 timestamp_l;
PI_UINT32 timestamp_h;
PI_UINT32 write_count;
PI_LOG_ENTRY entry_info;
} PI_CMD_ERROR_LOG_GET_RSP;
/* Define error log related constants and types. */
/* Not all of the caller id's can occur. The only ones currently */
/* implemented are: none, selftest, mfg, fw, console */
#define PI_LOG_EVENT_STATUS_K_VALID 0 /* Valid Event Status */
#define PI_LOG_EVENT_STATUS_K_INVALID 1 /* Invalid Event Status */
#define PI_LOG_CALLER_ID_K_NONE 0 /* No caller */
#define PI_LOG_CALLER_ID_K_SELFTEST 1 /* Normal power-up selftest */
#define PI_LOG_CALLER_ID_K_MFG 2 /* Mfg power-up selftest */
#define PI_LOG_CALLER_ID_K_ONLINE 3 /* On-line diagnostics */
#define PI_LOG_CALLER_ID_K_HW 4 /* Hardware */
#define PI_LOG_CALLER_ID_K_FW 5 /* Firmware */
#define PI_LOG_CALLER_ID_K_CNS_HW 6 /* CNS firmware */
#define PI_LOG_CALLER_ID_K_CNS_FW 7 /* CNS hardware */
#define PI_LOG_CALLER_ID_K_CONSOLE 8 /* Console Caller Id */
/*
* Place all DMA commands in the following request and response structures
* to simplify code.
*/
typedef union
{
PI_UINT32 cmd_type;
PI_CMD_START_REQ start;
PI_CMD_FILTERS_SET_REQ filter_set;
PI_CMD_FILTERS_GET_REQ filter_get;
PI_CMD_CHARS_SET_REQ char_set;
PI_CMD_ADDR_FILTER_SET_REQ addr_filter_set;
PI_CMD_ADDR_FILTER_GET_REQ addr_filter_get;
PI_CMD_STATUS_CHARS_GET_REQ stat_char_get;
PI_CMD_CNTRS_GET_REQ cntrs_get;
PI_CMD_CNTRS_SET_REQ cntrs_set;
PI_CMD_ERROR_LOG_CLEAR_REQ error_log_clear;
PI_CMD_ERROR_LOG_GET_REQ error_log_read;
PI_CMD_SNMP_SET_REQ snmp_set;
PI_CMD_FDDI_MIB_GET_REQ fddi_mib_get;
PI_CMD_DEC_EXT_MIB_GET_REQ dec_mib_get;
PI_CMD_SMT_MIB_SET_REQ smt_mib_set;
PI_CMD_SMT_MIB_GET_REQ smt_mib_get;
char pad[PI_CMD_REQ_K_SIZE_MAX];
} PI_DMA_CMD_REQ;
typedef union
{
PI_RSP_HEADER header;
PI_CMD_START_RSP start;
PI_CMD_FILTERS_SET_RSP filter_set;
PI_CMD_FILTERS_GET_RSP filter_get;
PI_CMD_CHARS_SET_RSP char_set;
PI_CMD_ADDR_FILTER_SET_RSP addr_filter_set;
PI_CMD_ADDR_FILTER_GET_RSP addr_filter_get;
PI_CMD_STATUS_CHARS_GET_RSP stat_char_get;
PI_CMD_CNTRS_GET_RSP cntrs_get;
PI_CMD_CNTRS_SET_RSP cntrs_set;
PI_CMD_ERROR_LOG_CLEAR_RSP error_log_clear;
PI_CMD_ERROR_LOG_GET_RSP error_log_get;
PI_CMD_SNMP_SET_RSP snmp_set;
PI_CMD_FDDI_MIB_GET_RSP fddi_mib_get;
PI_CMD_DEC_EXT_MIB_GET_RSP dec_mib_get;
PI_CMD_SMT_MIB_SET_RSP smt_mib_set;
PI_CMD_SMT_MIB_GET_RSP smt_mib_get;
char pad[PI_CMD_RSP_K_SIZE_MAX];
} PI_DMA_CMD_RSP;
typedef union
{
PI_DMA_CMD_REQ request;
PI_DMA_CMD_RSP response;
} PI_DMA_CMD_BUFFER;
/* Define format of Consumer Block (resident in host memory) */
typedef struct
{
volatile PI_UINT32 xmt_rcv_data;
volatile PI_UINT32 reserved_1;
volatile PI_UINT32 smt_host;
volatile PI_UINT32 reserved_2;
volatile PI_UINT32 unsol;
volatile PI_UINT32 reserved_3;
volatile PI_UINT32 cmd_rsp;
volatile PI_UINT32 reserved_4;
volatile PI_UINT32 cmd_req;
volatile PI_UINT32 reserved_5;
} PI_CONSUMER_BLOCK;
#define PI_CONS_M_RCV_INDEX 0x000000FF
#define PI_CONS_M_XMT_INDEX 0x00FF0000
#define PI_CONS_V_RCV_INDEX 0
#define PI_CONS_V_XMT_INDEX 16
/* Offsets into consumer block */
#define PI_CONS_BLK_K_XMT_RCV 0x00
#define PI_CONS_BLK_K_SMT_HOST 0x08
#define PI_CONS_BLK_K_UNSOL 0x10
#define PI_CONS_BLK_K_CMD_RSP 0x18
#define PI_CONS_BLK_K_CMD_REQ 0x20
/* Offsets into descriptor block */
#define PI_DESCR_BLK_K_RCV_DATA 0x0000
#define PI_DESCR_BLK_K_XMT_DATA 0x0800
#define PI_DESCR_BLK_K_SMT_HOST 0x1000
#define PI_DESCR_BLK_K_UNSOL 0x1200
#define PI_DESCR_BLK_K_CMD_RSP 0x1280
#define PI_DESCR_BLK_K_CMD_REQ 0x1300
/* Define format of a rcv descr (Rcv Data, Cmd Rsp, Unsolicited, SMT Host) */
/* Note a field has been added for later versions of the PDQ to allow for */
/* finer granularity of the rcv buffer alignment. For backwards */
/* compatibility, the two bits (which allow the rcv buffer to be longword */
/* aligned) have been added at the MBZ bits. To support previous drivers, */
/* the MBZ definition is left intact. */
typedef struct
{
PI_UINT32 long_0;
PI_UINT32 long_1;
} PI_RCV_DESCR;
#define PI_RCV_DESCR_M_SOP 0x80000000
#define PI_RCV_DESCR_M_SEG_LEN_LO 0x60000000
#define PI_RCV_DESCR_M_MBZ 0x60000000
#define PI_RCV_DESCR_M_SEG_LEN 0x1F800000
#define PI_RCV_DESCR_M_SEG_LEN_HI 0x1FF00000
#define PI_RCV_DESCR_M_SEG_CNT 0x000F0000
#define PI_RCV_DESCR_M_BUFF_HI 0x0000FFFF
#define PI_RCV_DESCR_V_SOP 31
#define PI_RCV_DESCR_V_SEG_LEN_LO 29
#define PI_RCV_DESCR_V_MBZ 29
#define PI_RCV_DESCR_V_SEG_LEN 23
#define PI_RCV_DESCR_V_SEG_LEN_HI 20
#define PI_RCV_DESCR_V_SEG_CNT 16
#define PI_RCV_DESCR_V_BUFF_HI 0
/* Define the format of a transmit descriptor (Xmt Data, Cmd Req) */
typedef struct
{
PI_UINT32 long_0;
PI_UINT32 long_1;
} PI_XMT_DESCR;
#define PI_XMT_DESCR_M_SOP 0x80000000
#define PI_XMT_DESCR_M_EOP 0x40000000
#define PI_XMT_DESCR_M_MBZ 0x20000000
#define PI_XMT_DESCR_M_SEG_LEN 0x1FFF0000
#define PI_XMT_DESCR_M_BUFF_HI 0x0000FFFF
#define PI_XMT_DESCR_V_SOP 31
#define PI_XMT_DESCR_V_EOP 30
#define PI_XMT_DESCR_V_MBZ 29
#define PI_XMT_DESCR_V_SEG_LEN 16
#define PI_XMT_DESCR_V_BUFF_HI 0
/* Define format of the Descriptor Block (resident in host memory) */
#define PI_RCV_DATA_K_NUM_ENTRIES 256
#define PI_XMT_DATA_K_NUM_ENTRIES 256
#define PI_SMT_HOST_K_NUM_ENTRIES 64
#define PI_UNSOL_K_NUM_ENTRIES 16
#define PI_CMD_RSP_K_NUM_ENTRIES 16
#define PI_CMD_REQ_K_NUM_ENTRIES 16
typedef struct
{
PI_RCV_DESCR rcv_data[PI_RCV_DATA_K_NUM_ENTRIES];
PI_XMT_DESCR xmt_data[PI_XMT_DATA_K_NUM_ENTRIES];
PI_RCV_DESCR smt_host[PI_SMT_HOST_K_NUM_ENTRIES];
PI_RCV_DESCR unsol[PI_UNSOL_K_NUM_ENTRIES];
PI_RCV_DESCR cmd_rsp[PI_CMD_RSP_K_NUM_ENTRIES];
PI_XMT_DESCR cmd_req[PI_CMD_REQ_K_NUM_ENTRIES];
} PI_DESCR_BLOCK;
/* Define Port Registers - offsets from PDQ Base address */
#define PI_PDQ_K_REG_PORT_RESET 0x00000000
#define PI_PDQ_K_REG_HOST_DATA 0x00000004
#define PI_PDQ_K_REG_PORT_CTRL 0x00000008
#define PI_PDQ_K_REG_PORT_DATA_A 0x0000000C
#define PI_PDQ_K_REG_PORT_DATA_B 0x00000010
#define PI_PDQ_K_REG_PORT_STATUS 0x00000014
#define PI_PDQ_K_REG_TYPE_0_STATUS 0x00000018
#define PI_PDQ_K_REG_HOST_INT_ENB 0x0000001C
#define PI_PDQ_K_REG_TYPE_2_PROD_NOINT 0x00000020
#define PI_PDQ_K_REG_TYPE_2_PROD 0x00000024
#define PI_PDQ_K_REG_CMD_RSP_PROD 0x00000028
#define PI_PDQ_K_REG_CMD_REQ_PROD 0x0000002C
#define PI_PDQ_K_REG_SMT_HOST_PROD 0x00000030
#define PI_PDQ_K_REG_UNSOL_PROD 0x00000034
/* Port Control Register - Command codes for primary commands */
#define PI_PCTRL_M_CMD_ERROR 0x8000
#define PI_PCTRL_M_BLAST_FLASH 0x4000
#define PI_PCTRL_M_HALT 0x2000
#define PI_PCTRL_M_COPY_DATA 0x1000
#define PI_PCTRL_M_ERROR_LOG_START 0x0800
#define PI_PCTRL_M_ERROR_LOG_READ 0x0400
#define PI_PCTRL_M_XMT_DATA_FLUSH_DONE 0x0200
#define PI_PCTRL_M_INIT 0x0100
#define PI_PCTRL_M_INIT_START 0x0080
#define PI_PCTRL_M_CONS_BLOCK 0x0040
#define PI_PCTRL_M_UNINIT 0x0020
#define PI_PCTRL_M_RING_MEMBER 0x0010
#define PI_PCTRL_M_MLA 0x0008
#define PI_PCTRL_M_FW_REV_READ 0x0004
#define PI_PCTRL_M_DEV_SPECIFIC 0x0002
#define PI_PCTRL_M_SUB_CMD 0x0001
/* Define sub-commands accessed via the PI_PCTRL_M_SUB_CMD command */
#define PI_SUB_CMD_K_LINK_UNINIT 0x0001
#define PI_SUB_CMD_K_BURST_SIZE_SET 0x0002
#define PI_SUB_CMD_K_PDQ_REV_GET 0x0004
#define PI_SUB_CMD_K_HW_REV_GET 0x0008
/* Define some Port Data B values */
#define PI_PDATA_B_DMA_BURST_SIZE_4 0 /* valid values for command */
#define PI_PDATA_B_DMA_BURST_SIZE_8 1
#define PI_PDATA_B_DMA_BURST_SIZE_16 2
#define PI_PDATA_B_DMA_BURST_SIZE_32 3 /* not supported on PCI */
#define PI_PDATA_B_DMA_BURST_SIZE_DEF PI_PDATA_B_DMA_BURST_SIZE_16
/* Port Data A Reset state */
#define PI_PDATA_A_RESET_M_UPGRADE 0x00000001
#define PI_PDATA_A_RESET_M_SOFT_RESET 0x00000002
#define PI_PDATA_A_RESET_M_SKIP_ST 0x00000004
/* Read adapter MLA address port control command constants */
#define PI_PDATA_A_MLA_K_LO 0
#define PI_PDATA_A_MLA_K_HI 1
/* Byte Swap values for init command */
#define PI_PDATA_A_INIT_M_DESC_BLK_ADDR 0x0FFFFE000
#define PI_PDATA_A_INIT_M_RESERVED 0x000001FFC
#define PI_PDATA_A_INIT_M_BSWAP_DATA 0x000000002
#define PI_PDATA_A_INIT_M_BSWAP_LITERAL 0x000000001
#define PI_PDATA_A_INIT_V_DESC_BLK_ADDR 13
#define PI_PDATA_A_INIT_V_RESERVED 3
#define PI_PDATA_A_INIT_V_BSWAP_DATA 1
#define PI_PDATA_A_INIT_V_BSWAP_LITERAL 0
/* Port Reset Register */
#define PI_RESET_M_ASSERT_RESET 1
/* Port Status register */
#define PI_PSTATUS_V_RCV_DATA_PENDING 31
#define PI_PSTATUS_V_XMT_DATA_PENDING 30
#define PI_PSTATUS_V_SMT_HOST_PENDING 29
#define PI_PSTATUS_V_UNSOL_PENDING 28
#define PI_PSTATUS_V_CMD_RSP_PENDING 27
#define PI_PSTATUS_V_CMD_REQ_PENDING 26
#define PI_PSTATUS_V_TYPE_0_PENDING 25
#define PI_PSTATUS_V_RESERVED_1 16
#define PI_PSTATUS_V_RESERVED_2 11
#define PI_PSTATUS_V_STATE 8
#define PI_PSTATUS_V_HALT_ID 0
#define PI_PSTATUS_M_RCV_DATA_PENDING 0x80000000
#define PI_PSTATUS_M_XMT_DATA_PENDING 0x40000000
#define PI_PSTATUS_M_SMT_HOST_PENDING 0x20000000
#define PI_PSTATUS_M_UNSOL_PENDING 0x10000000
#define PI_PSTATUS_M_CMD_RSP_PENDING 0x08000000
#define PI_PSTATUS_M_CMD_REQ_PENDING 0x04000000
#define PI_PSTATUS_M_TYPE_0_PENDING 0x02000000
#define PI_PSTATUS_M_RESERVED_1 0x01FF0000
#define PI_PSTATUS_M_RESERVED_2 0x0000F800
#define PI_PSTATUS_M_STATE 0x00000700
#define PI_PSTATUS_M_HALT_ID 0x000000FF
/* Define Halt Id's */
/* Do not insert into this list, only append. */
#define PI_HALT_ID_K_SELFTEST_TIMEOUT 0
#define PI_HALT_ID_K_PARITY_ERROR 1
#define PI_HALT_ID_K_HOST_DIR_HALT 2
#define PI_HALT_ID_K_SW_FAULT 3
#define PI_HALT_ID_K_HW_FAULT 4
#define PI_HALT_ID_K_PC_TRACE 5
#define PI_HALT_ID_K_DMA_ERROR 6 /* Host Data has error reg */
#define PI_HALT_ID_K_IMAGE_CRC_ERROR 7 /* Image is bad, update it */
#define PI_HALT_ID_K_BUS_EXCEPTION 8 /* 68K bus exception */
/* Host Interrupt Enable Register as seen by host */
#define PI_HOST_INT_M_XMT_DATA_ENB 0x80000000 /* Type 2 Enables */
#define PI_HOST_INT_M_RCV_DATA_ENB 0x40000000
#define PI_HOST_INT_M_SMT_HOST_ENB 0x10000000 /* Type 1 Enables */
#define PI_HOST_INT_M_UNSOL_ENB 0x20000000
#define PI_HOST_INT_M_CMD_RSP_ENB 0x08000000
#define PI_HOST_INT_M_CMD_REQ_ENB 0x04000000
#define PI_HOST_INT_M_TYPE_1_RESERVED 0x00FF0000
#define PI_HOST_INT_M_TYPE_0_RESERVED 0x0000FF00 /* Type 0 Enables */
#define PI_HOST_INT_M_1MS 0x00000080
#define PI_HOST_INT_M_20MS 0x00000040
#define PI_HOST_INT_M_CSR_CMD_DONE 0x00000020
#define PI_HOST_INT_M_STATE_CHANGE 0x00000010
#define PI_HOST_INT_M_XMT_FLUSH 0x00000008
#define PI_HOST_INT_M_NXM 0x00000004
#define PI_HOST_INT_M_PM_PAR_ERR 0x00000002
#define PI_HOST_INT_M_BUS_PAR_ERR 0x00000001
#define PI_HOST_INT_V_XMT_DATA_ENB 31 /* Type 2 Enables */
#define PI_HOST_INT_V_RCV_DATA_ENB 30
#define PI_HOST_INT_V_SMT_HOST_ENB 29 /* Type 1 Enables */
#define PI_HOST_INT_V_UNSOL_ENB 28
#define PI_HOST_INT_V_CMD_RSP_ENB 27
#define PI_HOST_INT_V_CMD_REQ_ENB 26
#define PI_HOST_INT_V_TYPE_1_RESERVED 16
#define PI_HOST_INT_V_TYPE_0_RESERVED 8 /* Type 0 Enables */
#define PI_HOST_INT_V_1MS_ENB 7
#define PI_HOST_INT_V_20MS_ENB 6
#define PI_HOST_INT_V_CSR_CMD_DONE_ENB 5
#define PI_HOST_INT_V_STATE_CHANGE_ENB 4
#define PI_HOST_INT_V_XMT_FLUSH_ENB 3
#define PI_HOST_INT_V_NXM_ENB 2
#define PI_HOST_INT_V_PM_PAR_ERR_ENB 1
#define PI_HOST_INT_V_BUS_PAR_ERR_ENB 0
#define PI_HOST_INT_K_ACK_ALL_TYPE_0 0x000000FF
#define PI_HOST_INT_K_DISABLE_ALL_INTS 0x00000000
#define PI_HOST_INT_K_ENABLE_ALL_INTS 0xFFFFFFFF
#define PI_HOST_INT_K_ENABLE_DEF_INTS 0xC000001F
/* Type 0 Interrupt Status Register */
#define PI_TYPE_0_STAT_M_1MS 0x00000080
#define PI_TYPE_0_STAT_M_20MS 0x00000040
#define PI_TYPE_0_STAT_M_CSR_CMD_DONE 0x00000020
#define PI_TYPE_0_STAT_M_STATE_CHANGE 0x00000010
#define PI_TYPE_0_STAT_M_XMT_FLUSH 0x00000008
#define PI_TYPE_0_STAT_M_NXM 0x00000004
#define PI_TYPE_0_STAT_M_PM_PAR_ERR 0x00000002
#define PI_TYPE_0_STAT_M_BUS_PAR_ERR 0x00000001
#define PI_TYPE_0_STAT_V_1MS 7
#define PI_TYPE_0_STAT_V_20MS 6
#define PI_TYPE_0_STAT_V_CSR_CMD_DONE 5
#define PI_TYPE_0_STAT_V_STATE_CHANGE 4
#define PI_TYPE_0_STAT_V_XMT_FLUSH 3
#define PI_TYPE_0_STAT_V_NXM 2
#define PI_TYPE_0_STAT_V_PM_PAR_ERR 1
#define PI_TYPE_0_STAT_V_BUS_PAR_ERR 0
/* Register definition structures are defined for both big and little endian systems */
#ifndef BIG_ENDIAN
/* Little endian format of Type 1 Producer register */
typedef union
{
PI_UINT32 lword;
struct
{
PI_UINT8 prod;
PI_UINT8 comp;
PI_UINT8 mbz_1;
PI_UINT8 mbz_2;
} index;
} PI_TYPE_1_PROD_REG;
/* Little endian format of Type 2 Producer register */
typedef union
{
PI_UINT32 lword;
struct
{
PI_UINT8 rcv_prod;
PI_UINT8 xmt_prod;
PI_UINT8 rcv_comp;
PI_UINT8 xmt_comp;
} index;
} PI_TYPE_2_PROD_REG;
/* Little endian format of Type 1 Consumer Block longword */
typedef union
{
PI_UINT32 lword;
struct
{
PI_UINT8 cons;
PI_UINT8 res0;
PI_UINT8 res1;
PI_UINT8 res2;
} index;
} PI_TYPE_1_CONSUMER;
/* Little endian format of Type 2 Consumer Block longword */
typedef union
{
PI_UINT32 lword;
struct
{
PI_UINT8 rcv_cons;
PI_UINT8 res0;
PI_UINT8 xmt_cons;
PI_UINT8 res1;
} index;
} PI_TYPE_2_CONSUMER;
#else
/* Big endian format of Type 1 Producer register */
typedef union
{
PI_UINT32 lword;
struct
{
PI_UINT8 mbz_2;
PI_UINT8 mbz_1;
PI_UINT8 comp;
PI_UINT8 prod;
} index;
} PI_TYPE_1_PROD_REG;
/* Big endian format of Type 2 Producer register */
typedef union
{
PI_UINT32 lword;
struct
{
PI_UINT8 xmt_comp;
PI_UINT8 rcv_comp;
PI_UINT8 xmt_prod;
PI_UINT8 rcv_prod;
} index;
} PI_TYPE_2_PROD_REG;
/* Big endian format of Type 1 Consumer Block longword */
typedef union
{
PI_UINT32 lword;
struct
{
PI_UINT8 res2;
PI_UINT8 res1;
PI_UINT8 res0;
PI_UINT8 cons;
} index;
} PI_TYPE_1_CONSUMER;
/* Big endian format of Type 2 Consumer Block longword */
typedef union
{
PI_UINT32 lword;
struct
{
PI_UINT8 res1;
PI_UINT8 xmt_cons;
PI_UINT8 res0;
PI_UINT8 rcv_cons;
} index;
} PI_TYPE_2_CONSUMER;
#endif /* #ifndef BIG_ENDIAN */
/* Define EISA controller register offsets */
#define PI_ESIC_K_BURST_HOLDOFF 0x040
#define PI_ESIC_K_SLOT_ID 0xC80
#define PI_ESIC_K_SLOT_CNTRL 0xC84
#define PI_ESIC_K_MEM_ADD_CMP_0 0xC85
#define PI_ESIC_K_MEM_ADD_CMP_1 0xC86
#define PI_ESIC_K_MEM_ADD_CMP_2 0xC87
#define PI_ESIC_K_MEM_ADD_HI_CMP_0 0xC88
#define PI_ESIC_K_MEM_ADD_HI_CMP_1 0xC89
#define PI_ESIC_K_MEM_ADD_HI_CMP_2 0xC8A
#define PI_ESIC_K_MEM_ADD_MASK_0 0xC8B
#define PI_ESIC_K_MEM_ADD_MASK_1 0xC8C
#define PI_ESIC_K_MEM_ADD_MASK_2 0xC8D
#define PI_ESIC_K_MEM_ADD_LO_CMP_0 0xC8E
#define PI_ESIC_K_MEM_ADD_LO_CMP_1 0xC8F
#define PI_ESIC_K_MEM_ADD_LO_CMP_2 0xC90
#define PI_ESIC_K_IO_CMP_0_0 0xC91
#define PI_ESIC_K_IO_CMP_0_1 0xC92
#define PI_ESIC_K_IO_CMP_1_0 0xC93
#define PI_ESIC_K_IO_CMP_1_1 0xC94
#define PI_ESIC_K_IO_CMP_2_0 0xC95
#define PI_ESIC_K_IO_CMP_2_1 0xC96
#define PI_ESIC_K_IO_CMP_3_0 0xC97
#define PI_ESIC_K_IO_CMP_3_1 0xC98
#define PI_ESIC_K_IO_ADD_MASK_0_0 0xC99
#define PI_ESIC_K_IO_ADD_MASK_0_1 0xC9A
#define PI_ESIC_K_IO_ADD_MASK_1_0 0xC9B
#define PI_ESIC_K_IO_ADD_MASK_1_1 0xC9C
#define PI_ESIC_K_IO_ADD_MASK_2_0 0xC9D
#define PI_ESIC_K_IO_ADD_MASK_2_1 0xC9E
#define PI_ESIC_K_IO_ADD_MASK_3_0 0xC9F
#define PI_ESIC_K_IO_ADD_MASK_3_1 0xCA0
#define PI_ESIC_K_MOD_CONFIG_1 0xCA1
#define PI_ESIC_K_MOD_CONFIG_2 0xCA2
#define PI_ESIC_K_MOD_CONFIG_3 0xCA3
#define PI_ESIC_K_MOD_CONFIG_4 0xCA4
#define PI_ESIC_K_MOD_CONFIG_5 0xCA5
#define PI_ESIC_K_MOD_CONFIG_6 0xCA6
#define PI_ESIC_K_MOD_CONFIG_7 0xCA7
#define PI_ESIC_K_DIP_SWITCH 0xCA8
#define PI_ESIC_K_IO_CONFIG_STAT_0 0xCA9
#define PI_ESIC_K_IO_CONFIG_STAT_1 0xCAA
#define PI_ESIC_K_DMA_CONFIG 0xCAB
#define PI_ESIC_K_INPUT_PORT 0xCAC
#define PI_ESIC_K_OUTPUT_PORT 0xCAD
#define PI_ESIC_K_FUNCTION_CNTRL 0xCAE
#define PI_ESIC_K_CSR_IO_LEN PI_ESIC_K_FUNCTION_CNTRL+1 /* always last reg + 1 */
/* Define the value all drivers must write to the function control register. */
#define PI_ESIC_K_FUNCTION_CNTRL_IO_ENB 0x03
/* Define the bits in the slot control register. */
#define PI_SLOT_CNTRL_M_RESET 0x04 /* Don't use. */
#define PI_SLOT_CNTRL_M_ERROR 0x02 /* Not implemented. */
#define PI_SLOT_CNTRL_M_ENB 0x01 /* Must be set. */
/* Define the bits in the burst holdoff register. */
#define PI_BURST_HOLDOFF_M_HOLDOFF 0xFC
#define PI_BURST_HOLDOFF_M_RESERVED 0x02
#define PI_BURST_HOLDOFF_M_MEM_MAP 0x01
#define PI_BURST_HOLDOFF_V_HOLDOFF 2
#define PI_BURST_HOLDOFF_V_RESERVED 1
#define PI_BURST_HOLDOFF_V_MEM_MAP 0
/*
* Define the fields in the IO Compare registers.
* The driver must initialize the slot field with the slot ID shifted by the
* amount shown below.
*/
#define PI_IO_CMP_V_SLOT 4
/* Define the fields in the Interrupt Channel Configuration and Status reg */
#define PI_CONFIG_STAT_0_M_PEND 0x80
#define PI_CONFIG_STAT_0_M_RES_1 0x40
#define PI_CONFIG_STAT_0_M_IREQ_OUT 0x20
#define PI_CONFIG_STAT_0_M_IREQ_IN 0x10
#define PI_CONFIG_STAT_0_M_INT_ENB 0x08
#define PI_CONFIG_STAT_0_M_RES_0 0x04
#define PI_CONFIG_STAT_0_M_IRQ 0x03
#define PI_CONFIG_STAT_0_V_PEND 7
#define PI_CONFIG_STAT_0_V_RES_1 6
#define PI_CONFIG_STAT_0_V_IREQ_OUT 5
#define PI_CONFIG_STAT_0_V_IREQ_IN 4
#define PI_CONFIG_STAT_0_V_INT_ENB 3
#define PI_CONFIG_STAT_0_V_RES_0 2
#define PI_CONFIG_STAT_0_V_IRQ 0
#define PI_CONFIG_STAT_0_IRQ_K_9 0
#define PI_CONFIG_STAT_0_IRQ_K_10 1
#define PI_CONFIG_STAT_0_IRQ_K_11 2
#define PI_CONFIG_STAT_0_IRQ_K_15 3
/* Define DEC FDDIcontroller/EISA (DEFEA) EISA hardware ID's */
#define DEFEA_PRODUCT_ID 0x0030A310 /* DEC product 300 (no rev) */
#define DEFEA_PROD_ID_1 0x0130A310 /* DEC product 300, rev 1 */
#define DEFEA_PROD_ID_2 0x0230A310 /* DEC product 300, rev 2 */
#define DEFEA_PROD_ID_3 0x0330A310 /* DEC product 300, rev 3 */
/**********************************************/
/* Digital PFI Specification v1.0 Definitions */
/**********************************************/
/* PCI Configuration Space Constants */
#define PFI_K_LAT_TIMER_DEF 0x88 /* def max master latency timer */
#define PFI_K_LAT_TIMER_MIN 0x20 /* min max master latency timer */
#define PFI_K_CSR_MEM_LEN 0x80 /* 128 bytes */
#define PFI_K_CSR_IO_LEN 0x80 /* 128 bytes */
#define PFI_K_PKT_MEM_LEN 0x10000 /* 64K bytes */
/* PFI Register Offsets (starting at PDQ Register Base Address) */
#define PFI_K_REG_RESERVED_0 0X00000038
#define PFI_K_REG_RESERVED_1 0X0000003C
#define PFI_K_REG_MODE_CTRL 0X00000040
#define PFI_K_REG_STATUS 0X00000044
#define PFI_K_REG_FIFO_WRITE 0X00000048
#define PFI_K_REG_FIFO_READ 0X0000004C
/* PFI Mode Control Register Constants */
#define PFI_MODE_M_RESERVED 0XFFFFFFF0
#define PFI_MODE_M_TGT_ABORT_ENB 0X00000008
#define PFI_MODE_M_PDQ_INT_ENB 0X00000004
#define PFI_MODE_M_PFI_INT_ENB 0X00000002
#define PFI_MODE_M_DMA_ENB 0X00000001
#define PFI_MODE_V_RESERVED 4
#define PFI_MODE_V_TGT_ABORT_ENB 3
#define PFI_MODE_V_PDQ_INT_ENB 2
#define PFI_MODE_V_PFI_INT_ENB 1
#define PFI_MODE_V_DMA_ENB 0
#define PFI_MODE_K_ALL_DISABLE 0X00000000
/* PFI Status Register Constants */
#define PFI_STATUS_M_RESERVED 0XFFFFFFC0
#define PFI_STATUS_M_PFI_ERROR 0X00000020 /* only valid in rev 1 or later PFI */
#define PFI_STATUS_M_PDQ_INT 0X00000010
#define PFI_STATUS_M_PDQ_DMA_ABORT 0X00000008
#define PFI_STATUS_M_FIFO_FULL 0X00000004
#define PFI_STATUS_M_FIFO_EMPTY 0X00000002
#define PFI_STATUS_M_DMA_IN_PROGRESS 0X00000001
#define PFI_STATUS_V_RESERVED 6
#define PFI_STATUS_V_PFI_ERROR 5 /* only valid in rev 1 or later PFI */
#define PFI_STATUS_V_PDQ_INT 4
#define PFI_STATUS_V_PDQ_DMA_ABORT 3
#define PFI_STATUS_V_FIFO_FULL 2
#define PFI_STATUS_V_FIFO_EMPTY 1
#define PFI_STATUS_V_DMA_IN_PROGRESS 0
#define DFX_MAX_EISA_SLOTS 16 /* maximum number of EISA slots to scan */
#define DFX_MAX_NUM_BOARDS 8 /* maximum number of adapters supported */
#define DFX_BUS_TYPE_PCI 0 /* type code for DEC FDDIcontroller/PCI */
#define DFX_BUS_TYPE_EISA 1 /* type code for DEC FDDIcontroller/EISA */
#define DFX_FC_PRH2_PRH1_PRH0 0x54003820 /* Packet Request Header bytes + FC */
#define DFX_PRH0_BYTE 0x20 /* Packet Request Header byte 0 */
#define DFX_PRH1_BYTE 0x38 /* Packet Request Header byte 1 */
#define DFX_PRH2_BYTE 0x00 /* Packet Request Header byte 2 */
/* Driver routine status (return) codes */
#define DFX_K_SUCCESS 0 /* routine succeeded */
#define DFX_K_FAILURE 1 /* routine failed */
#define DFX_K_OUTSTATE 2 /* bad state for command */
#define DFX_K_HW_TIMEOUT 3 /* command timed out */
/* Define LLC host receive buffer min/max/default values */
#define RCV_BUFS_MIN 2 /* minimum pre-allocated receive buffers */
#define RCV_BUFS_MAX 32 /* maximum pre-allocated receive buffers */
#define RCV_BUFS_DEF 8 /* default pre-allocated receive buffers */
/* Define offsets into FDDI LLC or SMT receive frame buffers - used when indicating frames */
#define RCV_BUFF_K_DESCR 0 /* four byte FMC descriptor */
#define RCV_BUFF_K_PADDING 4 /* three null bytes */
#define RCV_BUFF_K_FC 7 /* one byte frame control */
#define RCV_BUFF_K_DA 8 /* six byte destination address */
#define RCV_BUFF_K_SA 14 /* six byte source address */
#define RCV_BUFF_K_DATA 20 /* offset to start of packet data */
/* Define offsets into FDDI LLC transmit frame buffers - used when sending frames */
#define XMT_BUFF_K_FC 0 /* one byte frame control */
#define XMT_BUFF_K_DA 1 /* six byte destination address */
#define XMT_BUFF_K_SA 7 /* six byte source address */
#define XMT_BUFF_K_DATA 13 /* offset to start of packet data */
/*
* Macro evaluates to "value" aligned to "size" bytes. Make sure that
* "size" is greater than 0 bytes.
*/
#define ALIGN(value,size) ((value + (size - 1)) & ~(size - 1))
/* Macro for checking a "value" is within a specific range */
#define IN_RANGE(value,low,high) ((value >= low) && (value <= high))
/* Only execute special print call when debug driver was built */
#ifdef DEFXX_DEBUG
#define DBG_printk(args...) printk(## args)
#else
#define DBG_printk(args...)
#endif
/* Define constants for masking/unmasking interrupts */
#define DFX_MASK_INTERRUPTS 1
#define DFX_UNMASK_INTERRUPTS 0
/* Define structure for driver transmit descriptor block */
typedef struct
{
struct sk_buff *p_skb; /* ptr to skb */
} XMT_DRIVER_DESCR;
typedef struct DFX_board_tag
{
/* Keep virtual and physical pointers to locked, physically contiguous memory */
char *kmalloced; /* kfree this on unload */
PI_DESCR_BLOCK *descr_block_virt; /* PDQ descriptor block virt address */
u32 descr_block_phys; /* PDQ descriptor block phys address */
PI_DMA_CMD_REQ *cmd_req_virt; /* Command request buffer virt address */
u32 cmd_req_phys; /* Command request buffer phys address */
PI_DMA_CMD_RSP *cmd_rsp_virt; /* Command response buffer virt address */
u32 cmd_rsp_phys; /* Command response buffer phys address */
char *rcv_block_virt; /* LLC host receive queue buf blk virt */
u32 rcv_block_phys; /* LLC host receive queue buf blk phys */
PI_CONSUMER_BLOCK *cons_block_virt; /* PDQ consumer block virt address */
u32 cons_block_phys; /* PDQ consumer block phys address */
/* Keep local copies of Type 1 and Type 2 register data */
PI_TYPE_1_PROD_REG cmd_req_reg; /* Command Request register */
PI_TYPE_1_PROD_REG cmd_rsp_reg; /* Command Response register */
PI_TYPE_2_PROD_REG rcv_xmt_reg; /* Type 2 (RCV/XMT) register */
/* Storage for unicast and multicast address entries in adapter CAM */
u8 uc_table[1*FDDI_K_ALEN];
u32 uc_count; /* number of unicast addresses */
u8 mc_table[PI_CMD_ADDR_FILTER_K_SIZE*FDDI_K_ALEN];
u32 mc_count; /* number of multicast addresses */
/* Current packet filter settings */
u32 ind_group_prom; /* LLC individual & group frame prom mode */
u32 group_prom; /* LLC group (multicast) frame prom mode */
/* Link available flag needed to determine whether to drop outgoing packet requests */
u32 link_available; /* is link available? */
/* Resources to indicate reset type when resetting adapter */
u32 reset_type; /* skip or rerun diagnostics */
/* Store pointers to receive buffers for queue processing code */
char *p_rcv_buff_va[PI_RCV_DATA_K_NUM_ENTRIES];
/* Store pointers to transmit buffers for transmit completion code */
XMT_DRIVER_DESCR xmt_drv_descr_blk[PI_XMT_DATA_K_NUM_ENTRIES];
/* Transmit spinlocks */
spinlock_t lock;
/* Store device, bus-specific, and parameter information for this adapter */
struct net_device *dev; /* pointer to device structure */
struct net_device *next;
u32 bus_type; /* bus type (0 == PCI, 1 == EISA) */
u16 base_addr; /* base I/O address (same as dev->base_addr) */
struct pci_dev * pci_dev;
u32 full_duplex_enb; /* FDDI Full Duplex enable (1 == on, 2 == off) */
u32 req_ttrt; /* requested TTRT value (in 80ns units) */
u32 burst_size; /* adapter burst size (enumerated) */
u32 rcv_bufs_to_post; /* receive buffers to post for LLC host queue */
u8 factory_mac_addr[FDDI_K_ALEN]; /* factory (on-board) MAC address */
/* Common FDDI statistics structure and private counters */
struct fddi_statistics stats;
u32 rcv_discards;
u32 rcv_crc_errors;
u32 rcv_frame_status_errors;
u32 rcv_length_errors;
u32 rcv_total_frames;
u32 rcv_multicast_frames;
u32 rcv_total_bytes;
u32 xmt_discards;
u32 xmt_length_errors;
u32 xmt_total_frames;
u32 xmt_total_bytes;
} DFX_board_t;
#endif /* #ifndef _DEFXX_H_ */
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