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/*
* Definitions for low level routines and data structures
* for the Advanced Systems Inc. SCSI controllers chips.
*
* Copyright (c) 1998 Justin T. Gibbs.
* 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, immediately at the beginning of the file.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. 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.
*
* $Id$
*/
/*
* Ported from:
* advansys.c - Linux Host Driver for AdvanSys SCSI Adapters
*
* Copyright (c) 1995-1998 Advanced System Products, Inc.
* All Rights Reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that redistributions of source
* code retain the above copyright notice and this comment without
* modification.
*/
#ifndef _ADWLIB_H_
#define _ADWLIB_H_
#include "opt_adw.h"
#include <stddef.h> /* for offsetof */
#include <dev/advansys/adwmcode.h>
#define ADW_DEF_MAX_HOST_QNG 253
#define ADW_DEF_MIN_HOST_QNG 16
#define ADW_DEF_MAX_DVC_QNG 63
#define ADW_DEF_MIN_DVC_QNG 4
#define ADW_MAX_TID 15
#define ADW_MAX_LUN 7
/*
* Board Register offsets.
*/
#define ADW_INTR_STATUS_REG 0x0000
#define ADW_INTR_STATUS_INTRA 0x01
#define ADW_INTR_STATUS_INTRB 0x02
#define ADW_INTR_STATUS_INTRC 0x04
#define ADW_SIGNATURE_WORD 0x0000
#define ADW_CHIP_ID_WORD 0x04C1
#define ADW_SIGNATURE_BYTE 0x0001
#define ADW_CHIP_ID_BYTE 0x25
#define ADW_INTR_ENABLES 0x0002 /*8 bit */
#define ADW_INTR_ENABLE_HOST_INTR 0x01
#define ADW_INTR_ENABLE_SEL_INTR 0x02
#define ADW_INTR_ENABLE_DPR_INTR 0x04
#define ADW_INTR_ENABLE_RTA_INTR 0x08
#define ADW_INTR_ENABLE_RMA_INTR 0x10
#define ADW_INTR_ENABLE_RST_INTR 0x20
#define ADW_INTR_ENABLE_DPE_INTR 0x40
#define ADW_INTR_ENABLE_GLOBAL_INTR 0x80
#define ADW_CTRL_REG 0x0002 /*16 bit*/
#define ADW_CTRL_REG_HOST_INTR 0x0100
#define ADW_CTRL_REG_SEL_INTR 0x0200
#define ADW_CTRL_REG_DPR_INTR 0x0400
#define ADW_CTRL_REG_RTA_INTR 0x0800
#define ADW_CTRL_REG_RMA_INTR 0x1000
#define ADW_CTRL_REG_RES_BIT14 0x2000
#define ADW_CTRL_REG_DPE_INTR 0x4000
#define ADW_CTRL_REG_POWER_DONE 0x8000
#define ADW_CTRL_REG_ANY_INTR 0xFF00
#define ADW_CTRL_REG_CMD_RESET 0x00C6
#define ADW_CTRL_REG_CMD_WR_IO_REG 0x00C5
#define ADW_CTRL_REG_CMD_RD_IO_REG 0x00C4
#define ADW_CTRL_REG_CMD_WR_PCI_CFG 0x00C3
#define ADW_CTRL_REG_CMD_RD_PCI_CFG 0x00C2
#define ADW_RAM_ADDR 0x0004
#define ADW_RAM_DATA 0x0006
#define ADW_RISC_CSR 0x000A
#define ADW_RISC_CSR_STOP 0x0000
#define ADW_RISC_TEST_COND 0x2000
#define ADW_RISC_CSR_RUN 0x4000
#define ADW_RISC_CSR_SINGLE_STEP 0x8000
#define ADW_SCSI_CFG0 0x000C
#define ADW_SCSI_CFG0_TIMER_MODEAB 0xC000 /*
* Watchdog, Second,
* and Selto timer CFG
*/
#define ADW_SCSI_CFG0_PARITY_EN 0x2000
#define ADW_SCSI_CFG0_EVEN_PARITY 0x1000
#define ADW_SCSI_CFG0_WD_LONG 0x0800 /*
* Watchdog Interval,
* 1: 57 min, 0: 13 sec
*/
#define ADW_SCSI_CFG0_QUEUE_128 0x0400 /*
* Queue Size,
* 1: 128 byte,
* 0: 64 byte
*/
#define ADW_SCSI_CFG0_PRIM_MODE 0x0100
#define ADW_SCSI_CFG0_SCAM_EN 0x0080
#define ADW_SCSI_CFG0_SEL_TMO_LONG 0x0040 /*
* Sel/Resel Timeout,
* 1: 400 ms,
* 0: 1.6 ms
*/
#define ADW_SCSI_CFG0_CFRM_ID 0x0020 /* SCAM id sel. */
#define ADW_SCSI_CFG0_OUR_ID_EN 0x0010
#define ADW_SCSI_CFG0_OUR_ID 0x000F
#define ADW_SCSI_CFG1 0x000E
#define ADW_SCSI_CFG1_BIG_ENDIAN 0x8000
#define ADW_SCSI_CFG1_TERM_POL 0x2000
#define ADW_SCSI_CFG1_SLEW_RATE 0x1000
#define ADW_SCSI_CFG1_FILTER_MASK 0x0C00
#define ADW_SCSI_CFG1_FLTR_DISABLE 0x0000
#define ADW_SCSI_CFG1_FLTR_11_TO_20NS 0x0800
#define ADW_SCSI_CFG1_FLTR_21_TO_39NS 0x0C00
#define ADW_SCSI_CFG1_DIS_ACTIVE_NEG 0x0200
#define ADW_SCSI_CFG1_DIFF_MODE 0x0100
#define ADW_SCSI_CFG1_DIFF_SENSE 0x0080
#define ADW_SCSI_CFG1_TERM_CTL_MANUAL 0x0040 /* Global Term Switch */
#define ADW_SCSI_CFG1_TERM_CTL_MASK 0x0030
#define ADW_SCSI_CFG1_TERM_CTL_H 0x0020 /* Enable SCSI-H */
#define ADW_SCSI_CFG1_TERM_CTL_L 0x0010 /* Enable SCSI-L */
#define ADW_SCSI_CFG1_CABLE_DETECT 0x000F
#define ADW_SCSI_CFG1_EXT16_MASK 0x0008 /* Ext16 cable pres */
#define ADW_SCSI_CFG1_EXT8_MASK 0x0004 /* Ext8 cable pres */
#define ADW_SCSI_CFG1_INT8_MASK 0x0002 /* Int8 cable pres */
#define ADW_SCSI_CFG1_INT16_MASK 0x0001 /* Int16 cable pres */
#define ADW_SCSI_CFG1_ILLEGAL_CABLE_CONF_A_MASK \
(ADW_SCSI_CFG1_EXT16_MASK|ADW_SCSI_CFG1_INT8_MASK|ADW_SCSI_CFG1_INT16_MASK)
#define ADW_SCSI_CFG1_ILLEGAL_CABLE_CONF_B_MASK \
(ADW_SCSI_CFG1_EXT8_MASK|ADW_SCSI_CFG1_INT8_MASK|ADW_SCSI_CFG1_INT16_MASK)
#define ADW_MEM_CFG 0x0010
#define ADW_MEM_CFG_BIOS_EN 0x40
#define ADW_MEM_CFG_FAST_EE_CLK 0x20 /* Diagnostic Bit */
#define ADW_MEM_CFG_RAM_SZ_MASK 0x1C /* RISC RAM Size */
#define ADW_MEM_CFG_RAM_SZ_2KB 0x00
#define ADW_MEM_CFG_RAM_SZ_4KB 0x04
#define ADW_MEM_CFG_RAM_SZ_8KB 0x08
#define ADW_MEM_CFG_RAM_SZ_16KB 0x0C
#define ADW_MEM_CFG_RAM_SZ_32KB 0x10
#define ADW_MEM_CFG_RAM_SZ_64KB 0x14
#define ADW_EEP_CMD 0x001A
#define ADW_EEP_CMD_READ 0x0080 /* or in address */
#define ADW_EEP_CMD_WRITE 0x0040 /* or in address */
#define ADW_EEP_CMD_WRITE_ABLE 0x0030
#define ADW_EEP_CMD_WRITE_DISABLE 0x0000
#define ADW_EEP_CMD_DONE 0x0200
#define ADW_EEP_CMD_DONE_ERR 0x0001
#define ADW_EEP_DELAY_MS 100
#define ADW_EEP_DATA 0x001C
#define ADW_DMA_CFG0 0x0020
#define ADW_DMA_CFG0_BC_THRESH_ENB 0x80
#define ADW_DMA_CFG0_FIFO_THRESH 0x70
#define ADW_DMA_CFG0_FIFO_THRESH_16B 0x00
#define ADW_DMA_CFG0_FIFO_THRESH_32B 0x20
#define ADW_DMA_CFG0_IFO_THRESH_48B 0x30
#define ADW_DMA_CFG0_IFO_THRESH_64B 0x40
#define ADW_DMA_CFG0_IFO_THRESH_80B 0x50
#define ADW_DMA_CFG0_IFO_THRESH_96B 0x60
#define ADW_DMA_CFG0_IFO_THRESH_112B 0x70
#define ADW_DMA_CFG0_START_CTL_MASK 0x0C
#define ADW_DMA_CFG0_START_CTL_TH 0x00 /* Start on thresh */
#define ADW_DMA_CFG0_START_CTL_IDLE 0x04 /* Start when idle */
#define ADW_DMA_CFG0_START_CTL_TH_IDLE 0x08 /* Either */
#define ADW_DMA_CFG0_START_CTL_EM_FU 0x0C /* Start on full/empty */
#define ADW_DMA_CFG0_READ_CMD_MASK 0x03
#define ADW_DMA_CFG0_READ_CMD_MR 0x00
#define ADW_DMA_CFG0_READ_CMD_MRL 0x02
#define ADW_DMA_CFG0_READ_CMD_MRM 0x03
/* Program Counter */
#define ADW_PC 0x2A
#define ADW_SCSI_CTRL 0x0034
#define ADW_SCSI_CTRL_RSTOUT 0x2000
#define ADW_SCSI_RESET_HOLD_TIME_US 60
/* LRAM Constants */
#define ADW_CONDOR_MEMSIZE 0x2000 /* 8 KB Internal Memory */
#define ADW_MC_BIOSMEM 0x0040 /* BIOS RISC Memory Start */
#define ADW_MC_BIOSLEN 0x0050 /* BIOS RISC Memory Length */
/* ====================== SCSI Request Structures =========================== */
#define ADW_NO_OF_SG_PER_BLOCK 15
/*
* Although the adapter can deal with S/G lists of indefinite size,
* we limit the list to 30 to conserve space as the kernel can only send
* us buffers of at most 64KB currently.
*/
#define ADW_SG_BLOCKCNT 2
#define ADW_SGSIZE (ADW_NO_OF_SG_PER_BLOCK * ADW_SG_BLOCKCNT)
struct adw_sg_elm {
u_int32_t sg_addr;
u_int32_t sg_count;
};
/* sg block structure used by the microcode */
struct adw_sg_block {
u_int8_t reserved1;
u_int8_t reserved2;
u_int8_t first_entry_no; /* starting entry number */
u_int8_t last_entry_no; /* last entry number */
u_int32_t sg_busaddr_next; /* link to the next sg block */
struct adw_sg_elm sg_list[ADW_NO_OF_SG_PER_BLOCK];
};
/* Structure representing a single allocation block of adw sg blocks */
struct sg_map_node {
bus_dmamap_t sg_dmamap;
bus_addr_t sg_physaddr;
struct adw_sg_block* sg_vaddr;
SLIST_ENTRY(sg_map_node) links;
};
typedef enum {
QHSTA_NO_ERROR = 0x00,
QHSTA_M_SEL_TIMEOUT = 0x11,
QHSTA_M_DATA_OVER_RUN = 0x12,
QHSTA_M_UNEXPECTED_BUS_FREE = 0x13,
QHSTA_M_QUEUE_ABORTED = 0x15,
QHSTA_M_SXFR_SDMA_ERR = 0x16, /* SCSI DMA Error */
QHSTA_M_SXFR_SXFR_PERR = 0x17, /* SCSI Bus Parity Error */
QHSTA_M_RDMA_PERR = 0x18, /* RISC PCI DMA parity error */
QHSTA_M_SXFR_OFF_UFLW = 0x19, /* Offset Underflow */
QHSTA_M_SXFR_OFF_OFLW = 0x20, /* Offset Overflow */
QHSTA_M_SXFR_WD_TMO = 0x21, /* Watchdog Timeout */
QHSTA_M_SXFR_DESELECTED = 0x22, /* Deselected */
QHSTA_M_SXFR_XFR_PH_ERR = 0x24, /* Transfer Phase Error */
QHSTA_M_SXFR_UNKNOWN_ERROR = 0x25, /* SXFR_STATUS Unknown Error */
QHSTA_M_WTM_TIMEOUT = 0x41,
QHSTA_M_BAD_CMPL_STATUS_IN = 0x42,
QHSTA_M_NO_AUTO_REQ_SENSE = 0x43,
QHSTA_M_AUTO_REQ_SENSE_FAIL = 0x44,
QHSTA_M_INVALID_DEVICE = 0x45 /* Bad target ID */
} host_status_t;
typedef enum {
QD_NO_STATUS = 0x00, /* Request not completed yet. */
QD_NO_ERROR = 0x01,
QD_ABORTED_BY_HOST = 0x02,
QD_WITH_ERROR = 0x04
} done_status_t;
/*
* Microcode request structure
*
* All fields in this structure are used by the microcode so their
* size and ordering cannot be changed.
*/
struct adw_scsi_req_q {
u_int8_t cntl; /* Ucode flags and state. */
u_int8_t sg_entry_cnt; /* SG element count. Zero for no SG. */
u_int8_t target_id; /* Device target identifier. */
u_int8_t target_lun; /* Device target logical unit number. */
u_int32_t data_addr; /* Data buffer physical address. */
u_int32_t data_cnt; /* Data count. Ucode sets to residual. */
u_int32_t sense_addr; /* Sense buffer physical address. */
u_int32_t srb_ptr; /* Driver request pointer. */
u_int8_t a_flag; /* Adv Library flag field. */
u_int8_t sense_len; /* Auto-sense length. Residual on complete. */
u_int8_t cdb_len; /* SCSI CDB length. */
u_int8_t tag_code; /* SCSI-2 Tag Queue Code: 00, 20-22. */
u_int8_t done_status; /* Completion status. */
u_int8_t scsi_status; /* SCSI status byte. */
u_int8_t host_status; /* Ucode host status. */
u_int8_t ux_sg_ix; /* Ucode working SG variable. */
u_int8_t cdb[12]; /* SCSI command block. */
u_int32_t sg_real_addr; /* SG list physical address. */
u_int32_t free_scsiq_link;/* Unused */
u_int32_t ux_wk_data_cnt; /* Saved data count at disconnection. */
u_int32_t scsi_req_baddr; /* Bus address of this request. */
u_int32_t sg_block_index; /* sg_block tag (Unused) */
};
typedef enum {
ACB_FREE = 0x00,
ACB_ACTIVE = 0x01,
ACB_RELEASE_SIMQ = 0x02
} acb_state;
struct acb {
struct adw_scsi_req_q queue;
bus_dmamap_t dmamap;
acb_state state;
union ccb *ccb;
struct adw_sg_block* sg_blocks;
bus_addr_t sg_busaddr;
struct scsi_sense_data sense_data;
SLIST_ENTRY(acb) links;
};
typedef struct {
u_int16_t bios_init_dis :1,/* don't act as initiator. */
bios_ext_trans :1,/* > 1 GB support */
bios_more_2disk :1,/* > 2 Disk Support */
bios_no_removable:1,/* don't support removables */
bios_cd_boot :1,/* support bootable CD */
:1,
bios_multi_lun :1,/* support multiple LUNs */
bios_message :1,/* display BIOS message */
:1,
bios_reset_sb :1,/* Reset SCSI bus during init. */
:1,
bios_quiet :1,/* No verbose initialization. */
bios_scsi_par_en :1,/* SCSI parity enabled */
:3;
} adw_bios_ctrl;
/*
* EEPROM configuration format
*
* Field naming convention:
*
* *_enable indicates the field enables or disables the feature. The
* value is never reset.
*
* *_able indicates both whether a feature should be enabled or disabled
* and whether a device is capable of the feature. At initialization
* this field may be set, but later if a device is found to be incapable
* of the feature, the field is cleared.
*
* Default values are maintained in a_init.c in the structure
* Default_EEPROM_Config.
*/
struct adw_eeprom
{
u_int16_t cfg_lsw; /* 00 power up initialization */
#define ADW_EEPROM_BIG_ENDIAN 0x8000
#define ADW_EEPROM_BIOS_ENABLE 0x4000
#define ADW_EEPROM_TERM_POL 0x2000
/* bit 13 set - Term Polarity Control */
/* bit 14 set - BIOS Enable */
/* bit 15 set - Big Endian Mode */
u_int16_t cfg_msw; /* unused */
u_int16_t disc_enable;
u_int16_t wdtr_able;
u_int16_t sdtr_able;
u_int16_t start_motor;
u_int16_t tagqng_able;
u_int16_t bios_scan;
u_int16_t scam_tolerant;
u_int8_t adapter_scsi_id;
u_int8_t bios_boot_delay;
u_int8_t scsi_reset_delay;
u_int8_t bios_id_lun; /* high nibble is lun */
/* low nibble is scsi id */
u_int8_t termination; /* 0 - automatic */
#define ADW_EEPROM_TERM_AUTO 0
#define ADW_EEPROM_TERM_OFF 1
#define ADW_EEPROM_TERM_HIGH_ON 2
#define ADW_EEPROM_TERM_BOTH_ON 3
u_int8_t reserved1; /* reserved byte (not used) */
adw_bios_ctrl bios_ctrl;
u_int16_t ultra_able; /* 13 ULTRA speed able */
u_int16_t reserved2; /* 14 reserved */
u_int8_t max_host_qng; /* 15 maximum host queuing */
u_int8_t max_dvc_qng; /* maximum per device queuing */
u_int16_t dvc_cntl; /* 16 control bit for driver */
u_int16_t bug_fix; /* 17 control bit for bug fix */
u_int16_t serial_number[3];
u_int16_t checksum;
u_int8_t oem_name[16];
u_int16_t dvc_err_code;
u_int16_t adv_err_code;
u_int16_t adv_err_addr;
u_int16_t saved_dvc_err_code;
u_int16_t saved_adv_err_code;
u_int16_t saved_adv_err_addr;
u_int16_t num_of_err;
};
/* EEProm Addresses */
#define ADW_EEP_DVC_CFG_BEGIN 0x00
#define ADW_EEP_DVC_CFG_END (offsetof(struct adw_eeprom, checksum)/2)
#define ADW_EEP_DVC_CTL_BEGIN (offsetof(struct adw_eeprom, oem_name)/2)
#define ADW_EEP_MAX_WORD_ADDR (sizeof(struct adw_eeprom)/2)
typedef enum {
ADW_STATE_NORMAL = 0x00,
ADW_RESOURCE_SHORTAGE = 0x01
} adw_state;
struct adw_softc
{
bus_space_tag_t tag;
bus_space_handle_t bsh;
adw_state state;
bus_dma_tag_t buffer_dmat;
struct acb *acbs;
LIST_HEAD(, ccb_hdr) pending_ccbs;
SLIST_HEAD(, acb) free_acb_list;
bus_dma_tag_t parent_dmat;
bus_dma_tag_t acb_dmat; /* dmat for our ccb array */
bus_dmamap_t acb_dmamap;
bus_dma_tag_t sg_dmat; /* dmat for our sg maps */
SLIST_HEAD(, sg_map_node) sg_maps;
bus_addr_t acb_busbase;
struct cam_path *path;
struct cam_sim *sim;
u_int max_acbs;
u_int num_acbs;
u_int initiator_id;
u_int init_level;
u_int unit;
char* name;
cam_status last_reset; /* Last reset type */
adw_bios_ctrl bios_ctrl;
adw_idle_cmd_t idle_cmd;
u_int idle_cmd_param;
volatile int idle_command_cmp;
u_int16_t user_wdtr;
u_int16_t user_sdtr;
u_int16_t user_ultra;
u_int16_t user_tagenb;
u_int16_t tagenb;
u_int16_t user_discenb;
u_int16_t serial_number[3];
};
extern struct adw_eeprom adw_default_eeprom;
#define adw_inb(adw, port) \
bus_space_read_1((adw)->tag, (adw)->bsh, port)
#define adw_inw(adw, port) \
bus_space_read_2((adw)->tag, (adw)->bsh, port)
#define adw_inl(adw, port) \
bus_space_read_4((adw)->tag, (adw)->bsh, port)
#define adw_outb(adw, port, value) \
bus_space_write_1((adw)->tag, (adw)->bsh, port, value)
#define adw_outw(adw, port, value) \
bus_space_write_2((adw)->tag, (adw)->bsh, port, value)
#define adw_outl(adw, port, value) \
bus_space_write_4((adw)->tag, (adw)->bsh, port, value)
static __inline const char* adw_name(struct adw_softc *adw);
static __inline u_int adw_lram_read_8(struct adw_softc *adw, u_int addr);
static __inline u_int adw_lram_read_16(struct adw_softc *adw, u_int addr);
static __inline u_int adw_lram_read_32(struct adw_softc *adw, u_int addr);
static __inline void adw_lram_write_8(struct adw_softc *adw, u_int addr,
u_int value);
static __inline void adw_lram_write_16(struct adw_softc *adw, u_int addr,
u_int value);
static __inline void adw_lram_write_32(struct adw_softc *adw, u_int addr,
u_int value);
static __inline const char*
adw_name(struct adw_softc *adw)
{
return (adw->name);
}
static __inline u_int
adw_lram_read_8(struct adw_softc *adw, u_int addr)
{
adw_outw(adw, ADW_RAM_ADDR, addr);
return (adw_inb(adw, ADW_RAM_DATA));
}
static __inline u_int
adw_lram_read_16(struct adw_softc *adw, u_int addr)
{
adw_outw(adw, ADW_RAM_ADDR, addr);
return (adw_inw(adw, ADW_RAM_DATA));
}
static __inline u_int
adw_lram_read_32(struct adw_softc *adw, u_int addr)
{
u_int retval;
adw_outw(adw, ADW_RAM_ADDR, addr);
retval = adw_inw(adw, ADW_RAM_DATA);
retval |= (adw_inw(adw, ADW_RAM_DATA) << 16);
return (retval);
}
static __inline void
adw_lram_write_8(struct adw_softc *adw, u_int addr, u_int value)
{
adw_outw(adw, ADW_RAM_ADDR, addr);
adw_outb(adw, ADW_RAM_DATA, value);
}
static __inline void
adw_lram_write_16(struct adw_softc *adw, u_int addr, u_int value)
{
adw_outw(adw, ADW_RAM_ADDR, addr);
adw_outw(adw, ADW_RAM_DATA, value);
}
static __inline void
adw_lram_write_32(struct adw_softc *adw, u_int addr, u_int value)
{
adw_outw(adw, ADW_RAM_ADDR, addr);
adw_outw(adw, ADW_RAM_DATA, value);
adw_outw(adw, ADW_RAM_DATA, value >> 16);
}
/* Intialization */
int adw_find_signature(bus_space_tag_t tag, bus_space_handle_t bsh);
void adw_reset_chip(struct adw_softc *adw);
u_int16_t adw_eeprom_read(struct adw_softc *adw, struct adw_eeprom *buf);
void adw_eeprom_write(struct adw_softc *adw, struct adw_eeprom *buf);
int adw_init_chip(struct adw_softc *adw, u_int term_scsicfg1);
/* Idle Commands */
void adw_idle_cmd_send(struct adw_softc *adw, u_int cmd,
u_int parameter);
adw_idle_cmd_status_t adw_idle_cmd_wait(struct adw_softc *adw);
/* SCSI Transaction Processing */
static __inline void adw_send_acb(struct adw_softc *adw, struct acb *acb,
u_int32_t acb_baddr);
static __inline void
adw_send_acb(struct adw_softc *adw, struct acb *acb, u_int32_t acb_baddr)
{
u_int next_queue;
/* Determine the next free queue. */
next_queue = adw_lram_read_8(adw, ADW_MC_HOST_NEXT_READY);
next_queue = ADW_MC_RISC_Q_LIST_BASE
+ (next_queue * ADW_MC_RISC_Q_LIST_SIZE);
/*
* Write the physical address of the host Q to the free Q.
*/
adw_lram_write_32(adw, next_queue + RQL_PHYADDR, acb_baddr);
adw_lram_write_8(adw, next_queue + RQL_TID, acb->queue.target_id);
/*
* Set the ADW_MC_HOST_NEXT_READY (0x128) microcode variable to
* the 'next_queue' request forward pointer.
*
* Do this *before* changing the 'next_queue' queue to QS_READY.
* After the state is changed to QS_READY 'RQL_FWD' will be changed
* by the microcode.
*
*/
adw_lram_write_8(adw, ADW_MC_HOST_NEXT_READY,
adw_lram_read_8(adw, next_queue + RQL_FWD));
/*
* Change the state of 'next_queue' request from QS_FREE to
* QS_READY which will cause the microcode to pick it up and
* execute it.
*
* Can't reference 'next_queue' after changing the request
* state to QS_READY. The microcode now owns the request.
*/
adw_lram_write_8(adw, next_queue + RQL_STATE, ADW_MC_QS_READY);
}
#endif /* _ADWLIB_H_ */
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