freebsd-dev/sys/dev/isp/ispmbox.h

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1999-08-28 01:08:13 +00:00
/* $FreeBSD$ */
/*
* Mailbox and Queue Entry Definitions for for Qlogic ISP SCSI adapters.
*
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* Copyright (c) 1997, 1998, 1999, 2000 by Matthew Jacob
* 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 immediately at the beginning of the file, without modification,
* this list of conditions, and the following disclaimer.
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* 2. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, 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 DAMAGE.
*
*/
#ifndef _ISPMBOX_H
#define _ISPMBOX_H
/*
* Mailbox Command Opcodes
*/
#define MBOX_NO_OP 0x0000
#define MBOX_LOAD_RAM 0x0001
#define MBOX_EXEC_FIRMWARE 0x0002
#define MBOX_DUMP_RAM 0x0003
#define MBOX_WRITE_RAM_WORD 0x0004
#define MBOX_READ_RAM_WORD 0x0005
#define MBOX_MAILBOX_REG_TEST 0x0006
#define MBOX_VERIFY_CHECKSUM 0x0007
#define MBOX_ABOUT_FIRMWARE 0x0008
/* 9 */
/* a */
/* b */
/* c */
/* d */
#define MBOX_CHECK_FIRMWARE 0x000e
/* f */
#define MBOX_INIT_REQ_QUEUE 0x0010
#define MBOX_INIT_RES_QUEUE 0x0011
#define MBOX_EXECUTE_IOCB 0x0012
#define MBOX_WAKE_UP 0x0013
#define MBOX_STOP_FIRMWARE 0x0014
#define MBOX_ABORT 0x0015
#define MBOX_ABORT_DEVICE 0x0016
#define MBOX_ABORT_TARGET 0x0017
#define MBOX_BUS_RESET 0x0018
#define MBOX_STOP_QUEUE 0x0019
#define MBOX_START_QUEUE 0x001a
#define MBOX_SINGLE_STEP_QUEUE 0x001b
#define MBOX_ABORT_QUEUE 0x001c
#define MBOX_GET_DEV_QUEUE_STATUS 0x001d
/* 1e */
#define MBOX_GET_FIRMWARE_STATUS 0x001f
#define MBOX_GET_INIT_SCSI_ID 0x0020
#define MBOX_GET_SELECT_TIMEOUT 0x0021
#define MBOX_GET_RETRY_COUNT 0x0022
#define MBOX_GET_TAG_AGE_LIMIT 0x0023
#define MBOX_GET_CLOCK_RATE 0x0024
#define MBOX_GET_ACT_NEG_STATE 0x0025
#define MBOX_GET_ASYNC_DATA_SETUP_TIME 0x0026
#define MBOX_GET_SBUS_PARAMS 0x0027
#define MBOX_GET_PCI_PARAMS MBOX_GET_SBUS_PARAMS
#define MBOX_GET_TARGET_PARAMS 0x0028
#define MBOX_GET_DEV_QUEUE_PARAMS 0x0029
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#define MBOX_GET_RESET_DELAY_PARAMS 0x002a
/* 2b */
/* 2c */
/* 2d */
/* 2e */
/* 2f */
#define MBOX_SET_INIT_SCSI_ID 0x0030
#define MBOX_SET_SELECT_TIMEOUT 0x0031
#define MBOX_SET_RETRY_COUNT 0x0032
#define MBOX_SET_TAG_AGE_LIMIT 0x0033
#define MBOX_SET_CLOCK_RATE 0x0034
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#define MBOX_SET_ACT_NEG_STATE 0x0035
#define MBOX_SET_ASYNC_DATA_SETUP_TIME 0x0036
#define MBOX_SET_SBUS_CONTROL_PARAMS 0x0037
#define MBOX_SET_PCI_PARAMETERS 0x0037
#define MBOX_SET_TARGET_PARAMS 0x0038
#define MBOX_SET_DEV_QUEUE_PARAMS 0x0039
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#define MBOX_SET_RESET_DELAY_PARAMS 0x003a
/* 3b */
/* 3c */
/* 3d */
/* 3e */
/* 3f */
#define MBOX_RETURN_BIOS_BLOCK_ADDR 0x0040
#define MBOX_WRITE_FOUR_RAM_WORDS 0x0041
#define MBOX_EXEC_BIOS_IOCB 0x0042
#define MBOX_SET_FW_FEATURES 0x004a
#define MBOX_GET_FW_FEATURES 0x004b
#define FW_FEATURE_LVD_NOTIFY 0x2
#define FW_FEATURE_FAST_POST 0x1
#define MBOX_ENABLE_TARGET_MODE 0x0055
#define ENABLE_TARGET_FLAG 0x8000
#define ENABLE_TQING_FLAG 0x0004
#define ENABLE_MANDATORY_DISC 0x0002
#define MBOX_GET_TARGET_STATUS 0x0056
/* These are for the ISP2X00 FC cards */
#define MBOX_GET_LOOP_ID 0x0020
#define MBOX_GET_FIRMWARE_OPTIONS 0x0028
#define MBOX_SET_FIRMWARE_OPTIONS 0x0038
#define MBOX_GET_RESOURCE_COUNT 0x0042
#define MBOX_ENHANCED_GET_PDB 0x0047
#define MBOX_EXEC_COMMAND_IOCB_A64 0x0054
#define MBOX_INIT_FIRMWARE 0x0060
#define MBOX_GET_INIT_CONTROL_BLOCK 0x0061
#define MBOX_INIT_LIP 0x0062
#define MBOX_GET_FC_AL_POSITION_MAP 0x0063
#define MBOX_GET_PORT_DB 0x0064
#define MBOX_CLEAR_ACA 0x0065
#define MBOX_TARGET_RESET 0x0066
#define MBOX_CLEAR_TASK_SET 0x0067
#define MBOX_ABORT_TASK_SET 0x0068
#define MBOX_GET_FW_STATE 0x0069
#define MBOX_GET_PORT_NAME 0x006A
#define MBOX_GET_LINK_STATUS 0x006B
#define MBOX_INIT_LIP_RESET 0x006C
#define MBOX_SEND_SNS 0x006E
#define MBOX_FABRIC_LOGIN 0x006F
#define MBOX_SEND_CHANGE_REQUEST 0x0070
#define MBOX_FABRIC_LOGOUT 0x0071
#define MBOX_INIT_LIP_LOGIN 0x0072
#define MBOX_GET_SET_DATA_RATE 0x005D /* 23XX only */
#define MBGSD_GET_RATE 0
#define MBGSD_SET_RATE 1
#define MBGSD_ONEGB 0
#define MBGSD_TWOGB 1
#define MBGSD_AUTO 2
#define ISP2100_SET_PCI_PARAM 0x00ff
#define MBOX_BUSY 0x04
typedef struct {
u_int16_t param[8];
} mbreg_t;
/*
* Mailbox Command Complete Status Codes
*/
#define MBOX_COMMAND_COMPLETE 0x4000
#define MBOX_INVALID_COMMAND 0x4001
#define MBOX_HOST_INTERFACE_ERROR 0x4002
#define MBOX_TEST_FAILED 0x4003
#define MBOX_COMMAND_ERROR 0x4005
#define MBOX_COMMAND_PARAM_ERROR 0x4006
#define MBOX_PORT_ID_USED 0x4007
#define MBOX_LOOP_ID_USED 0x4008
#define MBOX_ALL_IDS_USED 0x4009
#define MBOX_NOT_LOGGED_IN 0x400A
#define MBLOGALL 0x000f
#define MBLOGNONE 0x0000
#define MBLOGMASK(x) ((x) & 0xf)
/*
* Asynchronous event status codes
*/
#define ASYNC_BUS_RESET 0x8001
#define ASYNC_SYSTEM_ERROR 0x8002
#define ASYNC_RQS_XFER_ERR 0x8003
#define ASYNC_RSP_XFER_ERR 0x8004
#define ASYNC_QWAKEUP 0x8005
#define ASYNC_TIMEOUT_RESET 0x8006
#define ASYNC_DEVICE_RESET 0x8007
#define ASYNC_EXTMSG_UNDERRUN 0x800A
#define ASYNC_SCAM_INT 0x800B
#define ASYNC_HUNG_SCSI 0x800C
#define ASYNC_KILLED_BUS 0x800D
#define ASYNC_BUS_TRANSIT 0x800E /* LVD -> HVD, eg. */
#define ASYNC_LIP_OCCURRED 0x8010
#define ASYNC_LOOP_UP 0x8011
#define ASYNC_LOOP_DOWN 0x8012
#define ASYNC_LOOP_RESET 0x8013
#define ASYNC_PDB_CHANGED 0x8014
#define ASYNC_CHANGE_NOTIFY 0x8015
#define ASYNC_LIP_F8 0x8016
#define ASYNC_CMD_CMPLT 0x8020
#define ASYNC_CTIO_DONE 0x8021
#define ASYNC_IP_XMIT_DONE 0x8022
#define ASYNC_IP_RECV_DONE 0x8023
#define ASYNC_IP_BROADCAST 0x8024
#define ASYNC_IP_RCVQ_LOW 0x8025
#define ASYNC_IP_RCVQ_EMPTY 0x8026
#define ASYNC_IP_RECV_DONE_ALIGNED 0x8027
#define ASYNC_PTPMODE 0x8030
#define ASYNC_RIO1 0x8031
#define ASYNC_RIO2 0x8032
#define ASYNC_RIO3 0x8033
#define ASYNC_RIO4 0x8034
#define ASYNC_RIO5 0x8035
#define ASYNC_CONNMODE 0x8036
#define ISP_CONN_LOOP 1
#define ISP_CONN_PTP 2
#define ISP_CONN_BADLIP 3
#define ISP_CONN_FATAL 4
#define ISP_CONN_LOOPBACK 5
#define ASYNC_RIO_RESP 0x8040
#define ASYNC_RIO_COMP 0x8042
/*
* 2.01.31 2200 Only. Need Bit 13 in Mailbox 1 for Set Firmware Options
* mailbox command to enable this.
*/
#define ASYNC_QFULL_SENT 0x8049
/*
* Mailbox Usages
*/
#define WRITE_REQUEST_QUEUE_IN_POINTER(isp, value) \
ISP_WRITE(isp, isp->isp_rqstinrp, value)
#define READ_REQUEST_QUEUE_OUT_POINTER(isp) \
ISP_READ(isp, isp->isp_rqstoutrp)
#define READ_RESPONSE_QUEUE_IN_POINTER(isp) \
ISP_READ(isp, isp->isp_respinrp)
#define WRITE_RESPONSE_QUEUE_OUT_POINTER(isp, value) \
ISP_WRITE(isp, isp->isp_respoutrp, value)
/*
* Command Structure Definitions
*/
typedef struct {
u_int32_t ds_base;
u_int32_t ds_count;
} ispds_t;
typedef struct {
u_int32_t ds_base;
u_int32_t ds_basehi;
u_int32_t ds_count;
} ispds64_t;
Major restructuring for swizzling to the request queue and unswizzling from the response queue. Instead of the ad hoc ISP_SWIZZLE_REQUEST, we now have a complete set of inline functions in isp_inline.h. Each platform is responsible for providing just one of a set of ISP_IOX_{GET,PUT}{8,16,32} macros. The reason this needs to be done is that we need to have a single set of functions that will work correctly on multiple architectures for both little and big endian machines. It also needs to work correctly in the case that we have the request or response queues in memory that has to be treated specially (e.g., have ddi_dma_sync called on it for Solaris after we update it or before we read from it). It also has to handle the SBus cards (for platforms that have them) which, while on a Big Endian machine, do *not* require *most* of the request/response queue entry fields to be swizzled or unswizzled. One thing that falls out of this is that we no longer build requests in the request queue itself. Instead, we build the request locally (e.g., on the stack) and then as part of the swizzling operation, copy it to the request queue entry we've allocated. I thought long and hard about whether this was too expensive a change to make as it in a lot of cases requires an extra copy. On balance, the flexbility is worth it. With any luck, the entry that we build locally stays in a processor writeback cache (after all, it's only 64 bytes) so that the cost of actually flushing it to the memory area that is the shared queue with the PCI device is not all that expensive. We may examine this again and try to get clever in the future to try and avoid copies. Another change that falls out of this is that MEMORYBARRIER should be taken a lot more seriously. The macro ISP_ADD_REQUEST does a MEMORYBARRIER on the entry being added. But there had been many other places this had been missing. It's now very important that it be done. Additional changes: Fix a longstanding buglet of sorts. When we get an entry via isp_getrqentry, the iptr value that gets returned is the value we intend to eventually plug into the ISP registers as the entry *one past* the last one we've written- *not* the current entry we're updating. All along we've been calling sync functions on the wrong index value. Argh. The 'fix' here is to rename all 'iptr' variables as 'nxti' to remember that this is the 'next' pointer- not the current pointer. Devote a single bit to mboxbsy- and set aside bits for output mbox registers that we need to pick up- we can have at least one command which does not have any defined output registers (MBOX_EXECUTE_FIRMWARE). MFC after: 2 weeks
2001-12-11 00:18:45 +00:00
#define DSTYPE_32BIT 0
#define DSTYPE_64BIT 1
typedef struct {
u_int16_t ds_type; /* 0-> ispds_t, 1-> ispds64_t */
u_int32_t ds_segment; /* unused */
u_int32_t ds_base; /* 32 bit address of DSD list */
} ispdslist_t;
/*
* These elements get swizzled around for SBus instances.
*/
Major restructuring for swizzling to the request queue and unswizzling from the response queue. Instead of the ad hoc ISP_SWIZZLE_REQUEST, we now have a complete set of inline functions in isp_inline.h. Each platform is responsible for providing just one of a set of ISP_IOX_{GET,PUT}{8,16,32} macros. The reason this needs to be done is that we need to have a single set of functions that will work correctly on multiple architectures for both little and big endian machines. It also needs to work correctly in the case that we have the request or response queues in memory that has to be treated specially (e.g., have ddi_dma_sync called on it for Solaris after we update it or before we read from it). It also has to handle the SBus cards (for platforms that have them) which, while on a Big Endian machine, do *not* require *most* of the request/response queue entry fields to be swizzled or unswizzled. One thing that falls out of this is that we no longer build requests in the request queue itself. Instead, we build the request locally (e.g., on the stack) and then as part of the swizzling operation, copy it to the request queue entry we've allocated. I thought long and hard about whether this was too expensive a change to make as it in a lot of cases requires an extra copy. On balance, the flexbility is worth it. With any luck, the entry that we build locally stays in a processor writeback cache (after all, it's only 64 bytes) so that the cost of actually flushing it to the memory area that is the shared queue with the PCI device is not all that expensive. We may examine this again and try to get clever in the future to try and avoid copies. Another change that falls out of this is that MEMORYBARRIER should be taken a lot more seriously. The macro ISP_ADD_REQUEST does a MEMORYBARRIER on the entry being added. But there had been many other places this had been missing. It's now very important that it be done. Additional changes: Fix a longstanding buglet of sorts. When we get an entry via isp_getrqentry, the iptr value that gets returned is the value we intend to eventually plug into the ISP registers as the entry *one past* the last one we've written- *not* the current entry we're updating. All along we've been calling sync functions on the wrong index value. Argh. The 'fix' here is to rename all 'iptr' variables as 'nxti' to remember that this is the 'next' pointer- not the current pointer. Devote a single bit to mboxbsy- and set aside bits for output mbox registers that we need to pick up- we can have at least one command which does not have any defined output registers (MBOX_EXECUTE_FIRMWARE). MFC after: 2 weeks
2001-12-11 00:18:45 +00:00
#define ISP_SWAP8(a, b) { \
u_int8_t tmp; \
tmp = a; \
a = b; \
b = tmp; \
}
typedef struct {
u_int8_t rqs_entry_type;
u_int8_t rqs_entry_count;
u_int8_t rqs_seqno;
u_int8_t rqs_flags;
} isphdr_t;
/* RQS Flag definitions */
#define RQSFLAG_CONTINUATION 0x01
#define RQSFLAG_FULL 0x02
#define RQSFLAG_BADHEADER 0x04
#define RQSFLAG_BADPACKET 0x08
/* RQS entry_type definitions */
#define RQSTYPE_REQUEST 0x01
#define RQSTYPE_DATASEG 0x02
#define RQSTYPE_RESPONSE 0x03
#define RQSTYPE_MARKER 0x04
#define RQSTYPE_CMDONLY 0x05
#define RQSTYPE_ATIO 0x06 /* Target Mode */
#define RQSTYPE_CTIO 0x07 /* Target Mode */
#define RQSTYPE_SCAM 0x08
#define RQSTYPE_A64 0x09
#define RQSTYPE_A64_CONT 0x0a
#define RQSTYPE_ENABLE_LUN 0x0b /* Target Mode */
#define RQSTYPE_MODIFY_LUN 0x0c /* Target Mode */
#define RQSTYPE_NOTIFY 0x0d /* Target Mode */
#define RQSTYPE_NOTIFY_ACK 0x0e /* Target Mode */
#define RQSTYPE_CTIO1 0x0f /* Target Mode */
#define RQSTYPE_STATUS_CONT 0x10
#define RQSTYPE_T2RQS 0x11
#define RQSTYPE_IP_XMIT 0x13
#define RQSTYPE_T4RQS 0x15
#define RQSTYPE_ATIO2 0x16 /* Target Mode */
#define RQSTYPE_CTIO2 0x17 /* Target Mode */
#define RQSTYPE_CSET0 0x18
#define RQSTYPE_T3RQS 0x19
#define RQSTYPE_IP_XMIT_64 0x1b
#define RQSTYPE_CTIO4 0x1e /* Target Mode */
#define RQSTYPE_CTIO3 0x1f /* Target Mode */
#define RQSTYPE_RIO1 0x21
#define RQSTYPE_RIO2 0x22
#define RQSTYPE_IP_RECV 0x23
#define RQSTYPE_IP_RECV_CONT 0x24
#define ISP_RQDSEG 4
typedef struct {
isphdr_t req_header;
u_int32_t req_handle;
u_int8_t req_lun_trn;
u_int8_t req_target;
u_int16_t req_cdblen;
#define req_modifier req_cdblen /* marker packet */
u_int16_t req_flags;
u_int16_t req_reserved;
u_int16_t req_time;
u_int16_t req_seg_count;
u_int8_t req_cdb[12];
ispds_t req_dataseg[ISP_RQDSEG];
} ispreq_t;
/*
* A request packet can also be a marker packet.
*/
#define SYNC_DEVICE 0
#define SYNC_TARGET 1
#define SYNC_ALL 2
#define ISP_RQDSEG_T2 3
typedef struct {
isphdr_t req_header;
u_int32_t req_handle;
u_int8_t req_lun_trn;
u_int8_t req_target;
u_int16_t req_scclun;
u_int16_t req_flags;
u_int16_t _res2;
u_int16_t req_time;
u_int16_t req_seg_count;
Major restructuring for swizzling to the request queue and unswizzling from the response queue. Instead of the ad hoc ISP_SWIZZLE_REQUEST, we now have a complete set of inline functions in isp_inline.h. Each platform is responsible for providing just one of a set of ISP_IOX_{GET,PUT}{8,16,32} macros. The reason this needs to be done is that we need to have a single set of functions that will work correctly on multiple architectures for both little and big endian machines. It also needs to work correctly in the case that we have the request or response queues in memory that has to be treated specially (e.g., have ddi_dma_sync called on it for Solaris after we update it or before we read from it). It also has to handle the SBus cards (for platforms that have them) which, while on a Big Endian machine, do *not* require *most* of the request/response queue entry fields to be swizzled or unswizzled. One thing that falls out of this is that we no longer build requests in the request queue itself. Instead, we build the request locally (e.g., on the stack) and then as part of the swizzling operation, copy it to the request queue entry we've allocated. I thought long and hard about whether this was too expensive a change to make as it in a lot of cases requires an extra copy. On balance, the flexbility is worth it. With any luck, the entry that we build locally stays in a processor writeback cache (after all, it's only 64 bytes) so that the cost of actually flushing it to the memory area that is the shared queue with the PCI device is not all that expensive. We may examine this again and try to get clever in the future to try and avoid copies. Another change that falls out of this is that MEMORYBARRIER should be taken a lot more seriously. The macro ISP_ADD_REQUEST does a MEMORYBARRIER on the entry being added. But there had been many other places this had been missing. It's now very important that it be done. Additional changes: Fix a longstanding buglet of sorts. When we get an entry via isp_getrqentry, the iptr value that gets returned is the value we intend to eventually plug into the ISP registers as the entry *one past* the last one we've written- *not* the current entry we're updating. All along we've been calling sync functions on the wrong index value. Argh. The 'fix' here is to rename all 'iptr' variables as 'nxti' to remember that this is the 'next' pointer- not the current pointer. Devote a single bit to mboxbsy- and set aside bits for output mbox registers that we need to pick up- we can have at least one command which does not have any defined output registers (MBOX_EXECUTE_FIRMWARE). MFC after: 2 weeks
2001-12-11 00:18:45 +00:00
u_int8_t req_cdb[16];
u_int32_t req_totalcnt;
ispds_t req_dataseg[ISP_RQDSEG_T2];
} ispreqt2_t;
#define ISP_RQDSEG_T3 2
typedef struct {
isphdr_t req_header;
u_int32_t req_handle;
u_int8_t req_lun_trn;
u_int8_t req_target;
u_int16_t req_scclun;
u_int16_t req_flags;
u_int16_t _res2;
u_int16_t req_time;
u_int16_t req_seg_count;
Major restructuring for swizzling to the request queue and unswizzling from the response queue. Instead of the ad hoc ISP_SWIZZLE_REQUEST, we now have a complete set of inline functions in isp_inline.h. Each platform is responsible for providing just one of a set of ISP_IOX_{GET,PUT}{8,16,32} macros. The reason this needs to be done is that we need to have a single set of functions that will work correctly on multiple architectures for both little and big endian machines. It also needs to work correctly in the case that we have the request or response queues in memory that has to be treated specially (e.g., have ddi_dma_sync called on it for Solaris after we update it or before we read from it). It also has to handle the SBus cards (for platforms that have them) which, while on a Big Endian machine, do *not* require *most* of the request/response queue entry fields to be swizzled or unswizzled. One thing that falls out of this is that we no longer build requests in the request queue itself. Instead, we build the request locally (e.g., on the stack) and then as part of the swizzling operation, copy it to the request queue entry we've allocated. I thought long and hard about whether this was too expensive a change to make as it in a lot of cases requires an extra copy. On balance, the flexbility is worth it. With any luck, the entry that we build locally stays in a processor writeback cache (after all, it's only 64 bytes) so that the cost of actually flushing it to the memory area that is the shared queue with the PCI device is not all that expensive. We may examine this again and try to get clever in the future to try and avoid copies. Another change that falls out of this is that MEMORYBARRIER should be taken a lot more seriously. The macro ISP_ADD_REQUEST does a MEMORYBARRIER on the entry being added. But there had been many other places this had been missing. It's now very important that it be done. Additional changes: Fix a longstanding buglet of sorts. When we get an entry via isp_getrqentry, the iptr value that gets returned is the value we intend to eventually plug into the ISP registers as the entry *one past* the last one we've written- *not* the current entry we're updating. All along we've been calling sync functions on the wrong index value. Argh. The 'fix' here is to rename all 'iptr' variables as 'nxti' to remember that this is the 'next' pointer- not the current pointer. Devote a single bit to mboxbsy- and set aside bits for output mbox registers that we need to pick up- we can have at least one command which does not have any defined output registers (MBOX_EXECUTE_FIRMWARE). MFC after: 2 weeks
2001-12-11 00:18:45 +00:00
u_int8_t req_cdb[16];
u_int32_t req_totalcnt;
ispds64_t req_dataseg[ISP_RQDSEG_T3];
} ispreqt3_t;
/* req_flag values */
#define REQFLAG_NODISCON 0x0001
#define REQFLAG_HTAG 0x0002
#define REQFLAG_OTAG 0x0004
#define REQFLAG_STAG 0x0008
#define REQFLAG_TARGET_RTN 0x0010
#define REQFLAG_NODATA 0x0000
#define REQFLAG_DATA_IN 0x0020
#define REQFLAG_DATA_OUT 0x0040
#define REQFLAG_DATA_UNKNOWN 0x0060
#define REQFLAG_DISARQ 0x0100
#define REQFLAG_FRC_ASYNC 0x0200
#define REQFLAG_FRC_SYNC 0x0400
#define REQFLAG_FRC_WIDE 0x0800
#define REQFLAG_NOPARITY 0x1000
#define REQFLAG_STOPQ 0x2000
#define REQFLAG_XTRASNS 0x4000
#define REQFLAG_PRIORITY 0x8000
typedef struct {
isphdr_t req_header;
u_int32_t req_handle;
u_int8_t req_lun_trn;
u_int8_t req_target;
u_int16_t req_cdblen;
u_int16_t req_flags;
u_int16_t _res1;
u_int16_t req_time;
u_int16_t req_seg_count;
u_int8_t req_cdb[44];
} ispextreq_t;
#define ISP_CDSEG 7
typedef struct {
isphdr_t req_header;
u_int32_t _res1;
ispds_t req_dataseg[ISP_CDSEG];
} ispcontreq_t;
#define ISP_CDSEG64 5
typedef struct {
isphdr_t req_header;
ispds64_t req_dataseg[ISP_CDSEG64];
} ispcontreq64_t;
typedef struct {
isphdr_t req_header;
u_int32_t req_handle;
u_int16_t req_scsi_status;
u_int16_t req_completion_status;
u_int16_t req_state_flags;
u_int16_t req_status_flags;
u_int16_t req_time;
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#define req_response_len req_time /* FC only */
u_int16_t req_sense_len;
u_int32_t req_resid;
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u_int8_t req_response[8]; /* FC only */
u_int8_t req_sense_data[32];
} ispstatusreq_t;
Major restructuring for swizzling to the request queue and unswizzling from the response queue. Instead of the ad hoc ISP_SWIZZLE_REQUEST, we now have a complete set of inline functions in isp_inline.h. Each platform is responsible for providing just one of a set of ISP_IOX_{GET,PUT}{8,16,32} macros. The reason this needs to be done is that we need to have a single set of functions that will work correctly on multiple architectures for both little and big endian machines. It also needs to work correctly in the case that we have the request or response queues in memory that has to be treated specially (e.g., have ddi_dma_sync called on it for Solaris after we update it or before we read from it). It also has to handle the SBus cards (for platforms that have them) which, while on a Big Endian machine, do *not* require *most* of the request/response queue entry fields to be swizzled or unswizzled. One thing that falls out of this is that we no longer build requests in the request queue itself. Instead, we build the request locally (e.g., on the stack) and then as part of the swizzling operation, copy it to the request queue entry we've allocated. I thought long and hard about whether this was too expensive a change to make as it in a lot of cases requires an extra copy. On balance, the flexbility is worth it. With any luck, the entry that we build locally stays in a processor writeback cache (after all, it's only 64 bytes) so that the cost of actually flushing it to the memory area that is the shared queue with the PCI device is not all that expensive. We may examine this again and try to get clever in the future to try and avoid copies. Another change that falls out of this is that MEMORYBARRIER should be taken a lot more seriously. The macro ISP_ADD_REQUEST does a MEMORYBARRIER on the entry being added. But there had been many other places this had been missing. It's now very important that it be done. Additional changes: Fix a longstanding buglet of sorts. When we get an entry via isp_getrqentry, the iptr value that gets returned is the value we intend to eventually plug into the ISP registers as the entry *one past* the last one we've written- *not* the current entry we're updating. All along we've been calling sync functions on the wrong index value. Argh. The 'fix' here is to rename all 'iptr' variables as 'nxti' to remember that this is the 'next' pointer- not the current pointer. Devote a single bit to mboxbsy- and set aside bits for output mbox registers that we need to pick up- we can have at least one command which does not have any defined output registers (MBOX_EXECUTE_FIRMWARE). MFC after: 2 weeks
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typedef struct {
isphdr_t req_header;
u_int8_t req_sense_data[60];
} ispstatus_cont_t;
/*
* For Qlogic 2X00, the high order byte of SCSI status has
* additional meaning.
*/
#define RQCS_RU 0x800 /* Residual Under */
#define RQCS_RO 0x400 /* Residual Over */
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#define RQCS_RESID (RQCS_RU|RQCS_RO)
#define RQCS_SV 0x200 /* Sense Length Valid */
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#define RQCS_RV 0x100 /* FCP Response Length Valid */
/*
* Completion Status Codes.
*/
#define RQCS_COMPLETE 0x0000
#define RQCS_DMA_ERROR 0x0002
#define RQCS_RESET_OCCURRED 0x0004
#define RQCS_ABORTED 0x0005
#define RQCS_TIMEOUT 0x0006
#define RQCS_DATA_OVERRUN 0x0007
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#define RQCS_DATA_UNDERRUN 0x0015
#define RQCS_QUEUE_FULL 0x001C
/* 1X00 Only Completion Codes */
#define RQCS_INCOMPLETE 0x0001
#define RQCS_TRANSPORT_ERROR 0x0003
#define RQCS_COMMAND_OVERRUN 0x0008
#define RQCS_STATUS_OVERRUN 0x0009
#define RQCS_BAD_MESSAGE 0x000a
#define RQCS_NO_MESSAGE_OUT 0x000b
#define RQCS_EXT_ID_FAILED 0x000c
#define RQCS_IDE_MSG_FAILED 0x000d
#define RQCS_ABORT_MSG_FAILED 0x000e
#define RQCS_REJECT_MSG_FAILED 0x000f
#define RQCS_NOP_MSG_FAILED 0x0010
#define RQCS_PARITY_ERROR_MSG_FAILED 0x0011
#define RQCS_DEVICE_RESET_MSG_FAILED 0x0012
#define RQCS_ID_MSG_FAILED 0x0013
#define RQCS_UNEXP_BUS_FREE 0x0014
#define RQCS_XACT_ERR1 0x0018
#define RQCS_XACT_ERR2 0x0019
#define RQCS_XACT_ERR3 0x001A
#define RQCS_BAD_ENTRY 0x001B
#define RQCS_PHASE_SKIPPED 0x001D
#define RQCS_ARQS_FAILED 0x001E
#define RQCS_WIDE_FAILED 0x001F
#define RQCS_SYNCXFER_FAILED 0x0020
#define RQCS_LVD_BUSERR 0x0021
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/* 2X00 Only Completion Codes */
#define RQCS_PORT_UNAVAILABLE 0x0028
#define RQCS_PORT_LOGGED_OUT 0x0029
#define RQCS_PORT_CHANGED 0x002A
#define RQCS_PORT_BUSY 0x002B
/*
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* 1X00 specific State Flags
*/
#define RQSF_GOT_BUS 0x0100
#define RQSF_GOT_TARGET 0x0200
#define RQSF_SENT_CDB 0x0400
#define RQSF_XFRD_DATA 0x0800
#define RQSF_GOT_STATUS 0x1000
#define RQSF_GOT_SENSE 0x2000
#define RQSF_XFER_COMPLETE 0x4000
/*
* 2X00 specific State Flags
* (same as 1X00 except RQSF_GOT_BUS/RQSF_GOT_TARGET are not available)
*/
#define RQSF_DATA_IN 0x0020
#define RQSF_DATA_OUT 0x0040
#define RQSF_STAG 0x0008
#define RQSF_OTAG 0x0004
#define RQSF_HTAG 0x0002
/*
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* 1X00 Status Flags
*/
#define RQSTF_DISCONNECT 0x0001
#define RQSTF_SYNCHRONOUS 0x0002
#define RQSTF_PARITY_ERROR 0x0004
#define RQSTF_BUS_RESET 0x0008
#define RQSTF_DEVICE_RESET 0x0010
#define RQSTF_ABORTED 0x0020
#define RQSTF_TIMEOUT 0x0040
#define RQSTF_NEGOTIATION 0x0080
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/*
* 2X00 specific state flags
*/
/* RQSF_SENT_CDB */
/* RQSF_XFRD_DATA */
/* RQSF_GOT_STATUS */
/* RQSF_XFER_COMPLETE */
/*
* 2X00 specific status flags
*/
/* RQSTF_ABORTED */
/* RQSTF_TIMEOUT */
#define RQSTF_DMA_ERROR 0x0080
#define RQSTF_LOGOUT 0x2000
/*
* Miscellaneous
*/
#ifndef ISP_EXEC_THROTTLE
#define ISP_EXEC_THROTTLE 16
#endif
/*
* About Firmware returns an 'attribute' word in mailbox 6.
*/
#define ISP_FW_ATTR_TMODE 0x01
#define ISP_FW_ATTR_SCCLUN 0x02
#define ISP_FW_ATTR_FABRIC 0x04
#define ISP_FW_ATTR_CLASS2 0x08
#define ISP_FW_ATTR_FCTAPE 0x10
#define ISP_FW_ATTR_IP 0x20
/*
* Reduced Interrupt Operation Response Queue Entreis
*/
typedef struct {
isphdr_t req_header;
u_int32_t req_handles[15];
} isp_rio1_t;
typedef struct {
isphdr_t req_header;
u_int16_t req_handles[30];
} isp_rio2_t;
/*
* FC (ISP2100) specific data structures
*/
/*
* Initialization Control Block
*
* Version One (prime) format.
*/
typedef struct isp_icb {
u_int8_t icb_version;
u_int8_t _reserved0;
u_int16_t icb_fwoptions;
u_int16_t icb_maxfrmlen;
u_int16_t icb_maxalloc;
u_int16_t icb_execthrottle;
u_int8_t icb_retry_count;
u_int8_t icb_retry_delay;
u_int8_t icb_portname[8];
u_int16_t icb_hardaddr;
u_int8_t icb_iqdevtype;
u_int8_t icb_logintime;
u_int8_t icb_nodename[8];
u_int16_t icb_rqstout;
u_int16_t icb_rspnsin;
u_int16_t icb_rqstqlen;
u_int16_t icb_rsltqlen;
u_int16_t icb_rqstaddr[4];
u_int16_t icb_respaddr[4];
u_int16_t icb_lunenables;
u_int8_t icb_ccnt;
u_int8_t icb_icnt;
u_int16_t icb_lunetimeout;
u_int16_t _reserved1;
u_int16_t icb_xfwoptions;
u_int8_t icb_racctimer;
u_int8_t icb_idelaytimer;
u_int16_t icb_zfwoptions;
u_int16_t _reserved2[13];
} isp_icb_t;
#define ICB_VERSION1 1
#define ICBOPT_HARD_ADDRESS 0x0001
#define ICBOPT_FAIRNESS 0x0002
#define ICBOPT_FULL_DUPLEX 0x0004
#define ICBOPT_FAST_POST 0x0008
#define ICBOPT_TGT_ENABLE 0x0010
#define ICBOPT_INI_DISABLE 0x0020
#define ICBOPT_INI_ADISC 0x0040
#define ICBOPT_INI_TGTTYPE 0x0080
#define ICBOPT_PDBCHANGE_AE 0x0100
#define ICBOPT_NOLIP 0x0200
#define ICBOPT_SRCHDOWN 0x0400
#define ICBOPT_PREVLOOP 0x0800
#define ICBOPT_STOP_ON_QFULL 0x1000
#define ICBOPT_FULL_LOGIN 0x2000
#define ICBOPT_BOTH_WWNS 0x4000
#define ICBOPT_EXTENDED 0x8000
#define ICBXOPT_CLASS2_ACK0 0x0200
#define ICBXOPT_CLASS2 0x0100
#define ICBXOPT_LOOP_ONLY (0 << 4)
#define ICBXOPT_PTP_ONLY (1 << 4)
#define ICBXOPT_LOOP_2_PTP (2 << 4)
#define ICBXOPT_PTP_2_LOOP (3 << 4)
#define ICBXOPT_RIO_OFF 0
#define ICBXOPT_RIO_16BIT 1
#define ICBXOPT_RIO_32BIT 2
#define ICBXOPT_RIO_16BIT_DELAY 3
#define ICBXOPT_RIO_32BIT_DELAY 4
/* These 3 only apply to the 2300 */
#define ICBZOPT_RATE_ONEGB (MBGSD_ONEGB << 14)
#define ICBZOPT_RATE_TWOGB (MBGSD_TWOGB << 14)
#define ICBZOPT_RATE_AUTO (MBGSD_AUTO << 14)
#define ICB_MIN_FRMLEN 256
#define ICB_MAX_FRMLEN 2112
#define ICB_DFLT_FRMLEN 1024
#define ICB_DFLT_ALLOC 256
#define ICB_DFLT_THROTTLE 16
#define ICB_DFLT_RDELAY 5
#define ICB_DFLT_RCOUNT 3
#define RQRSP_ADDR0015 0
#define RQRSP_ADDR1631 1
#define RQRSP_ADDR3247 2
#define RQRSP_ADDR4863 3
#define ICB_NNM0 7
#define ICB_NNM1 6
#define ICB_NNM2 5
#define ICB_NNM3 4
#define ICB_NNM4 3
#define ICB_NNM5 2
#define ICB_NNM6 1
#define ICB_NNM7 0
#define MAKE_NODE_NAME_FROM_WWN(array, wwn) \
array[ICB_NNM0] = (u_int8_t) ((wwn >> 0) & 0xff), \
array[ICB_NNM1] = (u_int8_t) ((wwn >> 8) & 0xff), \
array[ICB_NNM2] = (u_int8_t) ((wwn >> 16) & 0xff), \
array[ICB_NNM3] = (u_int8_t) ((wwn >> 24) & 0xff), \
array[ICB_NNM4] = (u_int8_t) ((wwn >> 32) & 0xff), \
array[ICB_NNM5] = (u_int8_t) ((wwn >> 40) & 0xff), \
array[ICB_NNM6] = (u_int8_t) ((wwn >> 48) & 0xff), \
array[ICB_NNM7] = (u_int8_t) ((wwn >> 56) & 0xff)
/*
* FC-AL Position Map
*
* This is an at most 128 byte map that returns either
* the LILP or Firmware generated list of ports.
*
* We deviate a bit from the returned qlogic format to
* use an extra bit to say whether this was a LILP or
* f/w generated map.
*/
typedef struct {
u_int8_t fwmap : 1,
count : 7;
u_int8_t map[127];
} fcpos_map_t;
/*
* Port Data Base Element
*/
typedef struct {
u_int16_t pdb_options;
u_int8_t pdb_mstate;
u_int8_t pdb_sstate;
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#define BITS2WORD(x) ((x)[0] << 16 | (x)[3] << 8 | (x)[2])
u_int8_t pdb_hardaddr_bits[4];
u_int8_t pdb_portid_bits[4];
u_int8_t pdb_nodename[8];
u_int8_t pdb_portname[8];
u_int16_t pdb_execthrottle;
u_int16_t pdb_exec_count;
u_int8_t pdb_retry_count;
u_int8_t pdb_retry_delay;
u_int16_t pdb_resalloc;
u_int16_t pdb_curalloc;
u_int16_t pdb_qhead;
u_int16_t pdb_qtail;
u_int16_t pdb_tl_next;
u_int16_t pdb_tl_last;
u_int16_t pdb_features; /* PLOGI, Common Service */
u_int16_t pdb_pconcurrnt; /* PLOGI, Common Service */
u_int16_t pdb_roi; /* PLOGI, Common Service */
u_int8_t pdb_target;
u_int8_t pdb_initiator; /* PLOGI, Class 3 Control Flags */
u_int16_t pdb_rdsiz; /* PLOGI, Class 3 */
u_int16_t pdb_ncseq; /* PLOGI, Class 3 */
u_int16_t pdb_noseq; /* PLOGI, Class 3 */
u_int16_t pdb_labrtflg;
u_int16_t pdb_lstopflg;
u_int16_t pdb_sqhead;
u_int16_t pdb_sqtail;
u_int16_t pdb_ptimer;
u_int16_t pdb_nxt_seqid;
u_int16_t pdb_fcount;
u_int16_t pdb_prli_len;
u_int16_t pdb_prli_svc0;
u_int16_t pdb_prli_svc3;
u_int16_t pdb_loopid;
u_int16_t pdb_il_ptr;
u_int16_t pdb_sl_ptr;
} isp_pdb_t;
#define PDB_OPTIONS_XMITTING (1<<11)
#define PDB_OPTIONS_LNKXMIT (1<<10)
#define PDB_OPTIONS_ABORTED (1<<9)
#define PDB_OPTIONS_ADISC (1<<1)
#define PDB_STATE_DISCOVERY 0
#define PDB_STATE_WDISC_ACK 1
#define PDB_STATE_PLOGI 2
#define PDB_STATE_PLOGI_ACK 3
#define PDB_STATE_PRLI 4
#define PDB_STATE_PRLI_ACK 5
#define PDB_STATE_LOGGED_IN 6
#define PDB_STATE_PORT_UNAVAIL 7
#define PDB_STATE_PRLO 8
#define PDB_STATE_PRLO_ACK 9
#define PDB_STATE_PLOGO 10
#define PDB_STATE_PLOG_ACK 11
#define SVC3_TGT_ROLE 0x10
#define SVC3_INI_ROLE 0x20
#define SVC3_ROLE_MASK 0x30
#define SVC3_ROLE_SHIFT 4
#define SNS_GAN 0x100
#define SNS_GP3 0x171
#define SNS_RFT 0x217
typedef struct {
u_int16_t snscb_rblen; /* response buffer length (words) */
u_int16_t snscb_res0;
u_int16_t snscb_addr[4]; /* response buffer address */
u_int16_t snscb_sblen; /* subcommand buffer length (words) */
u_int16_t snscb_res1;
u_int16_t snscb_data[1]; /* variable data */
} sns_screq_t; /* Subcommand Request Structure */
#define SNS_GAN_REQ_SIZE (sizeof (sns_screq_t)+(5*(sizeof (u_int16_t))))
#define SNS_GP3_REQ_SIZE (sizeof (sns_screq_t)+(5*(sizeof (u_int16_t))))
#define SNS_RFT_REQ_SIZE (sizeof (sns_screq_t)+(21*(sizeof (u_int16_t))))
typedef struct {
u_int8_t snscb_cthdr[16];
u_int8_t snscb_port_type;
u_int8_t snscb_port_id[3];
u_int8_t snscb_portname[8];
u_int16_t snscb_data[1]; /* variable data */
} sns_scrsp_t; /* Subcommand Response Structure */
#define SNS_GAN_RESP_SIZE 608 /* Maximum response size (bytes) */
#define SNS_GP3_RESP_SIZE 532 /* XXX: For 128 ports */
#define SNS_RFT_RESP_SIZE 16
typedef struct {
u_int8_t snscb_cthdr[16];
u_int8_t snscb_port_type;
u_int8_t snscb_port_id[3];
u_int8_t snscb_portname[8];
u_int8_t snscb_pnlen; /* symbolic port name length */
u_int8_t snscb_pname[255]; /* symbolic port name */
u_int8_t snscb_nodename[8];
u_int8_t snscb_nnlen; /* symbolic node name length */
u_int8_t snscb_nname[255]; /* symbolic node name */
u_int8_t snscb_ipassoc[8];
u_int8_t snscb_ipaddr[16];
u_int8_t snscb_svc_class[4];
u_int8_t snscb_fc4_types[32];
u_int8_t snscb_fpname[8];
u_int8_t snscb_reserved;
u_int8_t snscb_hardaddr[3];
} sns_ganrsp_t; /* Subcommand Response Structure */
#endif /* _ISPMBOX_H */