#ifndef _SIM710_H #define _SIM710_H /* * sim710.h - Copyright (C) 1999 Richard Hirst */ #include int sim710_detect(Scsi_Host_Template *); int sim710_command(Scsi_Cmnd *); int sim710_queuecommand(Scsi_Cmnd *, void (*done)(Scsi_Cmnd *)); int sim710_abort(Scsi_Cmnd * SCpnt); int sim710_bus_reset(Scsi_Cmnd * SCpnt); int sim710_dev_reset(Scsi_Cmnd * SCpnt); int sim710_host_reset(Scsi_Cmnd * SCpnt); int sim710_biosparam(Disk *, kdev_t, int*); #ifdef MODULE int sim710_release(struct Scsi_Host *); #else #define sim710_release NULL #endif #include #define SIM710_SCSI { proc_name: "sim710", \ name: "Simple 53c710", \ detect: sim710_detect, \ release: sim710_release, \ queuecommand: sim710_queuecommand, \ eh_abort_handler: sim710_abort, \ eh_device_reset_handler: sim710_dev_reset, \ eh_bus_reset_handler: sim710_bus_reset, \ eh_host_reset_handler: sim710_host_reset, \ bios_param: scsicam_bios_param, \ can_queue: 8, \ this_id: 7, \ sg_tablesize: 128, \ cmd_per_lun: 1, \ use_clustering: DISABLE_CLUSTERING, \ use_new_eh_code: 1} #ifndef HOSTS_C #ifdef __BIG_ENDIAN #define bE 3 /* 0 for little endian, 3 for big endian */ #else #define bE 0 #endif /* SCSI control 0 rw, default = 0xc0 */ #define SCNTL0_REG (0x00^bE) #define SCNTL0_ARB1 0x80 /* 0 0 = simple arbitration */ #define SCNTL0_ARB2 0x40 /* 1 1 = full arbitration */ #define SCNTL0_STRT 0x20 /* Start Sequence */ #define SCNTL0_WATN 0x10 /* Select with ATN */ #define SCNTL0_EPC 0x08 /* Enable parity checking */ /* Bit 2 is reserved on 800 series chips */ #define SCNTL0_EPG_700 0x04 /* Enable parity generation */ #define SCNTL0_AAP 0x02 /* ATN/ on parity error */ #define SCNTL0_TRG 0x01 /* Target mode */ /* SCSI control 1 rw, default = 0x00 */ #define SCNTL1_REG (0x01^bE) #define SCNTL1_EXC 0x80 /* Extra Clock Cycle of Data setup */ #define SCNTL1_ADB 0x40 /* contents of SODL on bus */ #define SCNTL1_ESR_700 0x20 /* Enable SIOP response to selection and reselection */ #define SCNTL1_CON 0x10 /* Connected */ #define SCNTL1_RST 0x08 /* SCSI RST/ */ #define SCNTL1_AESP 0x04 /* Force bad parity */ #define SCNTL1_SND_700 0x02 /* Start SCSI send */ #define SCNTL1_IARB_800 0x02 /* Immediate Arbitration, start arbitration immediately after busfree is detected */ #define SCNTL1_RCV_700 0x01 /* Start SCSI receive */ #define SCNTL1_SST_800 0x01 /* Start SCSI transfer */ /* SCSI control 2 rw, */ #define SCNTL2_REG_800 (0x02^bE) #define SCNTL2_800_SDU 0x80 /* SCSI disconnect unexpected */ /* SCSI control 3 rw */ #define SCNTL3_REG_800 (0x03^bE) #define SCNTL3_800_SCF_SHIFT 4 #define SCNTL3_800_SCF_MASK 0x70 #define SCNTL3_800_SCF2 0x40 /* Synchronous divisor */ #define SCNTL3_800_SCF1 0x20 /* 0x00 = SCLK/3 */ #define SCNTL3_800_SCF0 0x10 /* 0x10 = SCLK/1 */ /* 0x20 = SCLK/1.5 0x30 = SCLK/2 0x40 = SCLK/3 */ #define SCNTL3_800_CCF_SHIFT 0 #define SCNTL3_800_CCF_MASK 0x07 #define SCNTL3_800_CCF2 0x04 /* 0x00 50.01 to 66 */ #define SCNTL3_800_CCF1 0x02 /* 0x01 16.67 to 25 */ #define SCNTL3_800_CCF0 0x01 /* 0x02 25.01 - 37.5 0x03 37.51 - 50 0x04 50.01 - 66 */ /* * SCSI destination ID rw - the appropriate bit is set for the selected * target ID. This is written by the SCSI SCRIPTS processor. * default = 0x00 */ #define SDID_REG_700 (0x02^bE) #define SDID_REG_800 (0x06^bE) #define GP_REG_800 (0x07^bE) /* General purpose IO */ #define GP_800_IO1 0x02 #define GP_800_IO2 0x01 /* SCSI interrupt enable rw, default = 0x00 */ #define SIEN_REG_700 (0x03^bE) #define SIEN0_REG_800 (0x40^bE) #define SIEN_MA 0x80 /* Phase mismatch (ini) or ATN (tgt) */ #define SIEN_FC 0x40 /* Function complete */ #define SIEN_700_STO 0x20 /* Selection or reselection timeout */ #define SIEN_800_SEL 0x20 /* Selected */ #define SIEN_700_SEL 0x10 /* Selected or reselected */ #define SIEN_800_RESEL 0x10 /* Reselected */ #define SIEN_SGE 0x08 /* SCSI gross error */ #define SIEN_UDC 0x04 /* Unexpected disconnect */ #define SIEN_RST 0x02 /* SCSI RST/ received */ #define SIEN_PAR 0x01 /* Parity error */ /* * SCSI chip ID rw * NCR53c700 : * When arbitrating, the highest bit is used, when reselection or selection * occurs, the chip responds to all IDs for which a bit is set. * default = 0x00 */ #define SCID_REG (0x04^bE) /* Bit 7 is reserved on 800 series chips */ #define SCID_800_RRE 0x40 /* Enable response to reselection */ #define SCID_800_SRE 0x20 /* Enable response to selection */ /* Bits four and three are reserved on 800 series chips */ #define SCID_800_ENC_MASK 0x07 /* Encoded SCSI ID */ /* SCSI transfer rw, default = 0x00 */ #define SXFER_REG (0x05^bE) #define SXFER_DHP 0x80 /* Disable halt on parity */ #define SXFER_TP2 0x40 /* Transfer period msb */ #define SXFER_TP1 0x20 #define SXFER_TP0 0x10 /* lsb */ #define SXFER_TP_MASK 0x70 /* FIXME : SXFER_TP_SHIFT == 5 is right for '8xx chips */ #define SXFER_TP_SHIFT 5 #define SXFER_TP_4 0x00 /* Divisors */ #define SXFER_TP_5 0x10<<1 #define SXFER_TP_6 0x20<<1 #define SXFER_TP_7 0x30<<1 #define SXFER_TP_8 0x40<<1 #define SXFER_TP_9 0x50<<1 #define SXFER_TP_10 0x60<<1 #define SXFER_TP_11 0x70<<1 #define SXFER_MO3 0x08 /* Max offset msb */ #define SXFER_MO2 0x04 #define SXFER_MO1 0x02 #define SXFER_MO0 0x01 /* lsb */ #define SXFER_MO_MASK 0x0f #define SXFER_MO_SHIFT 0 /* * SCSI output data latch rw * The contents of this register are driven onto the SCSI bus when * the Assert Data Bus bit of the SCNTL1 register is set and * the CD, IO, and MSG bits of the SOCL register match the SCSI phase */ #define SODL_REG_700 (0x06^bE) #define SODL_REG_800 (0x54^bE) /* * SCSI output control latch rw, default = 0 * Note that when the chip is being manually programmed as an initiator, * the MSG, CD, and IO bits must be set correctly for the phase the target * is driving the bus in. Otherwise no data transfer will occur due to * phase mismatch. */ #define SOCL_REG (0x07^bE) #define SOCL_REQ 0x80 /* REQ */ #define SOCL_ACK 0x40 /* ACK */ #define SOCL_BSY 0x20 /* BSY */ #define SOCL_SEL 0x10 /* SEL */ #define SOCL_ATN 0x08 /* ATN */ #define SOCL_MSG 0x04 /* MSG */ #define SOCL_CD 0x02 /* C/D */ #define SOCL_IO 0x01 /* I/O */ /* * SCSI first byte received latch ro * This register contains the first byte received during a block MOVE * SCSI SCRIPTS instruction, including * * Initiator mode Target mode * Message in Command * Status Message out * Data in Data out * * It also contains the selecting or reselecting device's ID and our * ID. * * Note that this is the register the various IF conditionals can * operate on. */ #define SFBR_REG (0x08^bE) /* * SCSI input data latch ro * In initiator mode, data is latched into this register on the rising * edge of REQ/. In target mode, data is latched on the rising edge of * ACK/ */ #define SIDL_REG_700 (0x09^bE) #define SIDL_REG_800 (0x50^bE) /* * SCSI bus data lines ro * This register reflects the instantaneous status of the SCSI data * lines. Note that SCNTL0 must be set to disable parity checking, * otherwise reading this register will latch new parity. */ #define SBDL_REG_700 (0x0a^bE) #define SBDL_REG_800 (0x58^bE) #define SSID_REG_800 (0x0a^bE) #define SSID_800_VAL 0x80 /* Exactly two bits asserted at sel */ #define SSID_800_ENCID_MASK 0x07 /* Device which performed operation */ /* * SCSI bus control lines rw, * instantaneous readout of control lines */ #define SBCL_REG (0x0b^bE) #define SBCL_REQ 0x80 /* REQ ro */ #define SBCL_ACK 0x40 /* ACK ro */ #define SBCL_BSY 0x20 /* BSY ro */ #define SBCL_SEL 0x10 /* SEL ro */ #define SBCL_ATN 0x08 /* ATN ro */ #define SBCL_MSG 0x04 /* MSG ro */ #define SBCL_CD 0x02 /* C/D ro */ #define SBCL_IO 0x01 /* I/O ro */ #define SBCL_PHASE_CMDOUT SBCL_CD #define SBCL_PHASE_DATAIN SBCL_IO #define SBCL_PHASE_DATAOUT 0 #define SBCL_PHASE_MSGIN (SBCL_CD|SBCL_IO|SBCL_MSG) #define SBCL_PHASE_MSGOUT (SBCL_CD|SBCL_MSG) #define SBCL_PHASE_STATIN (SBCL_CD|SBCL_IO) #define SBCL_PHASE_MASK (SBCL_CD|SBCL_IO|SBCL_MSG) /* * Synchronous SCSI Clock Control bits * 0 - set by DCNTL * 1 - SCLK / 1.0 * 2 - SCLK / 1.5 * 3 - SCLK / 2.0 */ #define SBCL_SSCF1 0x02 /* wo, -66 only */ #define SBCL_SSCF0 0x01 /* wo, -66 only */ #define SBCL_SSCF_MASK 0x03 /* * XXX note : when reading the DSTAT and STAT registers to clear interrupts, * insure that 10 clocks elapse between the two */ /* DMA status ro */ #define DSTAT_REG (0x0c^bE) #define DSTAT_DFE 0x80 /* DMA FIFO empty */ #define DSTAT_800_MDPE 0x40 /* Master Data Parity Error */ #define DSTAT_BF 0x20 /* Bus Fault */ #define DSTAT_ABRT 0x10 /* Aborted - set on error */ #define DSTAT_SSI 0x08 /* SCRIPTS single step interrupt */ #define DSTAT_SIR 0x04 /* SCRIPTS interrupt received - set when INT instruction is executed */ #define DSTAT_WTD 0x02 /* Watchdog timeout detected */ #define DSTAT_OPC 0x01 /* Illegal instruction */ #define DSTAT_IID 0x01 /* Same thing, different name */ #define SSTAT0_REG (0x0d^bE) /* SCSI status 0 ro */ #define SIST0_REG_800 (0x42^bE) /* SCSI status 0 ro */ #define SSTAT0_MA 0x80 /* ini : phase mismatch, * tgt : ATN/ asserted */ #define SSTAT0_CMP 0x40 /* function complete */ #define SSTAT0_700_STO 0x20 /* Selection or reselection timeout */ #define SSTAT0_800_SEL 0x20 /* Selected */ #define SSTAT0_700_SEL 0x10 /* Selected or reselected */ #define SIST0_800_RSL 0x10 /* Reselected */ #define SSTAT0_SGE 0x08 /* SCSI gross error */ #define SSTAT0_UDC 0x04 /* Unexpected disconnect */ #define SSTAT0_RST 0x02 /* SCSI RST/ received */ #define SSTAT0_PAR 0x01 /* Parity error */ #define SSTAT1_REG (0x0e^bE) /* SCSI status 1 ro */ #define SSTAT1_ILF 0x80 /* SIDL full */ #define SSTAT1_ORF 0x40 /* SODR full */ #define SSTAT1_OLF 0x20 /* SODL full */ #define SSTAT1_AIP 0x10 /* Arbitration in progress */ #define SSTAT1_LOA 0x08 /* Lost arbitration */ #define SSTAT1_WOA 0x04 /* Won arbitration */ #define SSTAT1_RST 0x02 /* Instant readout of RST/ */ #define SSTAT1_SDP 0x01 /* Instant readout of SDP/ */ #define SSTAT2_REG (0x0f^bE) /* SCSI status 2 ro */ #define SSTAT2_FF3 0x80 /* number of bytes in synchronous */ #define SSTAT2_FF2 0x40 /* data FIFO */ #define SSTAT2_FF1 0x20 #define SSTAT2_FF0 0x10 #define SSTAT2_FF_MASK 0xf0 #define SSTAT2_FF_SHIFT 4 /* * Latched signals, latched on the leading edge of REQ/ for initiators, * ACK/ for targets. */ #define SSTAT2_SDP 0x08 /* SDP */ #define SSTAT2_MSG 0x04 /* MSG */ #define SSTAT2_CD 0x02 /* C/D */ #define SSTAT2_IO 0x01 /* I/O */ #define SSTAT2_PHASE_CMDOUT SSTAT2_CD #define SSTAT2_PHASE_DATAIN SSTAT2_IO #define SSTAT2_PHASE_DATAOUT 0 #define SSTAT2_PHASE_MSGIN (SSTAT2_CD|SSTAT2_IO|SSTAT2_MSG) #define SSTAT2_PHASE_MSGOUT (SSTAT2_CD|SSTAT2_MSG) #define SSTAT2_PHASE_STATIN (SSTAT2_CD|SSTAT2_IO) #define SSTAT2_PHASE_MASK (SSTAT2_CD|SSTAT2_IO|SSTAT2_MSG) #define DSA_REG 0x10 /* DATA structure address */ #define CTEST0_REG_700 (0x14^bE) /* Chip test 0 ro */ #define CTEST0_REG_800 (0x18^bE) /* Chip test 0 ro */ /* 0x80 - 0x04 are reserved */ #define CTEST0_700_RTRG 0x02 /* Real target mode */ #define CTEST0_700_DDIR 0x01 /* Data direction, 1 = * SCSI bus to host, 0 = * host to SCSI. */ #define CTEST1_REG_700 (0x15^bE) /* Chip test 1 ro */ #define CTEST1_REG_800 (0x19^bE) /* Chip test 1 ro */ #define CTEST1_FMT3 0x80 /* Identify which byte lanes are empty */ #define CTEST1_FMT2 0x40 /* in the DMA FIFO */ #define CTEST1_FMT1 0x20 #define CTEST1_FMT0 0x10 #define CTEST1_FFL3 0x08 /* Identify which bytes lanes are full */ #define CTEST1_FFL2 0x04 /* in the DMA FIFO */ #define CTEST1_FFL1 0x02 #define CTEST1_FFL0 0x01 #define CTEST2_REG_700 (0x16^bE) /* Chip test 2 ro */ #define CTEST2_REG_800 (0x1a^bE) /* Chip test 2 ro */ #define CTEST2_800_DDIR 0x80 /* 1 = SCSI->host */ #define CTEST2_800_SIGP 0x40 /* A copy of SIGP in ISTAT. Reading this register clears */ #define CTEST2_800_CIO 0x20 /* Configured as IO */. #define CTEST2_800_CM 0x10 /* Configured as memory */ /* 0x80 - 0x40 are reserved on 700 series chips */ #define CTEST2_700_SOFF 0x20 /* SCSI Offset Compare, * As an initiator, this bit is * one when the synchronous offset * is zero, as a target this bit * is one when the synchronous * offset is at the maximum * defined in SXFER */ #define CTEST2_700_SFP 0x10 /* SCSI FIFO parity bit, * reading CTEST3 unloads a byte * from the FIFO and sets this */ #define CTEST2_700_DFP 0x08 /* DMA FIFO parity bit, * reading CTEST6 unloads a byte * from the FIFO and sets this */ #define CTEST2_TEOP 0x04 /* SCSI true end of process, * indicates a totally finished * transfer */ #define CTEST2_DREQ 0x02 /* Data request signal */ /* 0x01 is reserved on 700 series chips */ #define CTEST2_800_DACK 0x01 /* * Chip test 3 ro * Unloads the bottom byte of the eight deep SCSI synchronous FIFO, * check SSTAT2 FIFO full bits to determine size. Note that a GROSS * error results if a read is attempted on this register. Also note * that 16 and 32 bit reads of this register will cause corruption. */ #define CTEST3_REG_700 (0x17^bE) /* Chip test 3 rw */ #define CTEST3_REG_800 (0x1b^bE) #define CTEST3_800_V3 0x80 /* Chip revision */ #define CTEST3_800_V2 0x40 #define CTEST3_800_V1 0x20 #define CTEST3_800_V0 0x10 #define CTEST3_800_FLF 0x08 /* Flush DMA FIFO */ #define CTEST3_800_CLF 0x04 /* Clear DMA FIFO */ #define CTEST3_800_FM 0x02 /* Fetch mode pin */ /* bit 0 is reserved on 800 series chips */ #define CTEST4_REG_400 (0x18^bE) /* Chip test 4 rw */ #define CTEST4_REG_800 (0x21^bE) /* Chip test 4 rw */ /* 0x80 is reserved on 700 series chips */ #define CTEST4_800_BDIS 0x80 /* Burst mode disable */ #define CTEST4_ZMOD 0x40 /* High impedance mode */ #define CTEST4_SZM 0x20 /* SCSI bus high impedance */ #define CTEST4_700_SLBE 0x10 /* SCSI loopback enabled */ #define CTEST4_800_SRTM 0x10 /* Shadow Register Test Mode */ #define CTEST4_700_SFWR 0x08 /* SCSI FIFO write enable, * redirects writes from SODL * to the SCSI FIFO. */ #define CTEST4_800_MPEE 0x08 /* Enable parity checking during master cycles on PCI bus */ /* * These bits send the contents of the CTEST6 register to the appropriate * byte lane of the 32 bit DMA FIFO. Normal operation is zero, otherwise * the high bit means the low two bits select the byte lane. */ #define CTEST4_FBL2 0x04 #define CTEST4_FBL1 0x02 #define CTEST4_FBL0 0x01 #define CTEST4_FBL_MASK 0x07 #define CTEST4_FBL_0 0x04 /* Select DMA FIFO byte lane 0 */ #define CTEST4_FBL_1 0x05 /* Select DMA FIFO byte lane 1 */ #define CTEST4_FBL_2 0x06 /* Select DMA FIFO byte lane 2 */ #define CTEST4_FBL_3 0x07 /* Select DMA FIFO byte lane 3 */ #define CTEST4_800_SAVE (CTEST4_800_BDIS) #define CTEST5_REG_700 (0x19^bE) /* Chip test 5 rw */ #define CTEST5_REG_800 (0x22^bE) /* Chip test 5 rw */ /* * Clock Address Incrementor. When set, it increments the * DNAD register to the next bus size boundary. It automatically * resets itself when the operation is complete. */ #define CTEST5_ADCK 0x80 /* * Clock Byte Counter. When set, it decrements the DBC register to * the next bus size boundary. */ #define CTEST5_BBCK 0x40 /* * Reset SCSI Offset. Setting this bit to 1 clears the current offset * pointer in the SCSI synchronous offset counter (SSTAT). This bit * is set to 1 if a SCSI Gross Error Condition occurs. The offset should * be cleared when a synchronous transfer fails. When written, it is * automatically cleared after the SCSI synchronous offset counter is * reset. */ /* Bit 5 is reserved on 800 series chips */ #define CTEST5_700_ROFF 0x20 /* * Master Control for Set or Reset pulses. When 1, causes the low * four bits of register to set when set, 0 causes the low bits to * clear when set. */ #define CTEST5_MASR 0x10 #define CTEST5_DDIR 0x08 /* DMA direction */ /* * Bits 2-0 are reserved on 800 series chips */ #define CTEST5_700_EOP 0x04 /* End of process */ #define CTEST5_700_DREQ 0x02 /* Data request */ #define CTEST5_700_DACK 0x01 /* Data acknowledge */ /* * Chip test 6 rw - writing to this register writes to the byte * lane in the DMA FIFO as determined by the FBL bits in the CTEST4 * register. */ #define CTEST6_REG_700 (0x1a^bE) #define CTEST6_REG_800 (0x23^bE) #define CTEST7_REG (0x1b^bE) /* Chip test 7 rw */ #define CTEST7_10_CDIS 0x80 /* Cache burst disable */ #define CTEST7_10_SC1 0x40 /* Snoop control bits */ #define CTEST7_10_SC0 0x20 #define CTEST7_10_SC_MASK 0x60 #define CTEST7_STD 0x10 /* Selection timeout disable */ #define CTEST7_DFP 0x08 /* DMA FIFO parity bit for CTEST6 */ #define CTEST7_EVP 0x04 /* 1 = host bus even parity, 0 = odd */ #define CTEST7_10_TT1 0x02 /* Transfer type */ #define CTEST7_DIFF 0x01 /* Differential mode */ #define CTEST7_SAVE ( CTEST7_EVP | CTEST7_DIFF ) #define TEMP_REG 0x1c /* through 0x1f Temporary stack rw */ #define DFIFO_REG (0x20^bE) /* DMA FIFO rw */ /* * 0x80 is reserved on the NCR53c710, the CLF and FLF bits have been * moved into the CTEST8 register. */ #define DFIFO_BO6 0x40 #define DFIFO_BO5 0x20 #define DFIFO_BO4 0x10 #define DFIFO_BO3 0x08 #define DFIFO_BO2 0x04 #define DFIFO_BO1 0x02 #define DFIFO_BO0 0x01 #define DFIFO_10_BO_MASK 0x7f /* 7 bit counter */ /* * Interrupt status rw * Note that this is the only register which can be read while SCSI * SCRIPTS are being executed. */ #define ISTAT_REG_700 (0x21^bE) #define ISTAT_REG_800 (0x14^bE) #define ISTAT_ABRT 0x80 /* Software abort, write *1 to abort, wait for interrupt. */ #define ISTAT_10_SRST 0x40 /* software reset */ #define ISTAT_10_SIGP 0x20 /* signal script */ #define ISTAT_CON 0x08 /* 1 when connected */ #define ISTAT_800_INTF 0x04 /* Interrupt on the fly */ #define ISTAT_700_PRE 0x04 /* Pointer register empty. * Set to 1 when DSPS and DSP * registers are empty in pipeline * mode, always set otherwise. */ #define ISTAT_SIP 0x02 /* SCSI interrupt pending from * SCSI portion of SIOP see * SSTAT0 */ #define ISTAT_DIP 0x01 /* DMA interrupt pending * see DSTAT */ #define CTEST8_REG (0x22^bE) /* Chip test 8 rw */ #define CTEST8_10_V3 0x80 /* Chip revision */ #define CTEST8_10_V2 0x40 #define CTEST8_10_V1 0x20 #define CTEST8_10_V0 0x10 #define CTEST8_10_V_MASK 0xf0 #define CTEST8_10_FLF 0x08 /* Flush FIFOs */ #define CTEST8_10_CLF 0x04 /* Clear FIFOs */ #define CTEST8_10_FM 0x02 /* Fetch pin mode */ #define CTEST8_10_SM 0x01 /* Snoop pin mode */ #define LCRC_REG_10 (0x23^bE) /* * 0x24 through 0x27 are the DMA byte counter register. Instructions * write their high 8 bits into the DCMD register, the low 24 bits into * the DBC register. * * Function is dependent on the command type being executed. */ #define DBC_REG 0x24 /* * For Block Move Instructions, DBC is a 24 bit quantity representing * the number of bytes to transfer. * For Transfer Control Instructions, DBC is bit fielded as follows : */ /* Bits 20 - 23 should be clear */ #define DBC_TCI_TRUE (1 << 19) /* Jump when true */ #define DBC_TCI_COMPARE_DATA (1 << 18) /* Compare data */ #define DBC_TCI_COMPARE_PHASE (1 << 17) /* Compare phase with DCMD field */ #define DBC_TCI_WAIT_FOR_VALID (1 << 16) /* Wait for REQ */ /* Bits 8 - 15 are reserved on some implementations ? */ #define DBC_TCI_MASK_MASK 0xff00 /* Mask for data compare */ #define DBC_TCI_MASK_SHIFT 8 #define DBC_TCI_DATA_MASK 0xff /* Data to be compared */ #define DBC_TCI_DATA_SHIFT 0 #define DBC_RWRI_IMMEDIATE_MASK 0xff00 /* Immediate data */ #define DBC_RWRI_IMMEDIATE_SHIFT 8 /* Amount to shift */ #define DBC_RWRI_ADDRESS_MASK 0x3f0000 /* Register address */ #define DBC_RWRI_ADDRESS_SHIFT 16 /* * DMA command r/w */ #define DCMD_REG (0x27^bE) #define DCMD_TYPE_MASK 0xc0 /* Masks off type */ #define DCMD_TYPE_BMI 0x00 /* Indicates a Block Move instruction */ #define DCMD_BMI_IO 0x01 /* I/O, CD, and MSG bits selecting */ #define DCMD_BMI_CD 0x02 /* the phase for the block MOVE */ #define DCMD_BMI_MSG 0x04 /* instruction */ #define DCMD_BMI_OP_MASK 0x18 /* mask for opcode */ #define DCMD_BMI_OP_MOVE_T 0x00 /* MOVE */ #define DCMD_BMI_OP_MOVE_I 0x08 /* MOVE Initiator */ #define DCMD_BMI_INDIRECT 0x20 /* Indirect addressing */ #define DCMD_TYPE_TCI 0x80 /* Indicates a Transfer Control instruction */ #define DCMD_TCI_IO 0x01 /* I/O, CD, and MSG bits selecting */ #define DCMD_TCI_CD 0x02 /* the phase for the block MOVE */ #define DCMD_TCI_MSG 0x04 /* instruction */ #define DCMD_TCI_OP_MASK 0x38 /* mask for opcode */ #define DCMD_TCI_OP_JUMP 0x00 /* JUMP */ #define DCMD_TCI_OP_CALL 0x08 /* CALL */ #define DCMD_TCI_OP_RETURN 0x10 /* RETURN */ #define DCMD_TCI_OP_INT 0x18 /* INT */ #define DCMD_TYPE_RWRI 0x40 /* Indicates I/O or register Read/Write instruction */ #define DCMD_RWRI_OPC_MASK 0x38 /* Opcode mask */ #define DCMD_RWRI_OPC_WRITE 0x28 /* Write SFBR to register */ #define DCMD_RWRI_OPC_READ 0x30 /* Read register to SFBR */ #define DCMD_RWRI_OPC_MODIFY 0x38 /* Modify in place */ #define DCMD_RWRI_OP_MASK 0x07 #define DCMD_RWRI_OP_MOVE 0x00 #define DCMD_RWRI_OP_SHL 0x01 #define DCMD_RWRI_OP_OR 0x02 #define DCMD_RWRI_OP_XOR 0x03 #define DCMD_RWRI_OP_AND 0x04 #define DCMD_RWRI_OP_SHR 0x05 #define DCMD_RWRI_OP_ADD 0x06 #define DCMD_RWRI_OP_ADDC 0x07 #define DCMD_TYPE_MMI 0xc0 /* Indicates a Memory Move instruction (three words) */ #define DNAD_REG 0x28 /* through 0x2b DMA next address for data */ #define DSP_REG 0x2c /* through 0x2f DMA SCRIPTS pointer rw */ #define DSPS_REG 0x30 /* through 0x33 DMA SCRIPTS pointer save rw */ #define DMODE_BL1 0x80 /* Burst length bits */ #define DMODE_BL0 0x40 #define DMODE_BL_MASK 0xc0 /* Burst lengths (800) */ #define DMODE_BL_2 0x00 /* 2 transfer */ #define DMODE_BL_4 0x40 /* 4 transfers */ #define DMODE_BL_8 0x80 /* 8 transfers */ #define DMODE_BL_16 0xc0 /* 16 transfers */ #define DMODE_10_BL_1 0x00 /* 1 transfer */ #define DMODE_10_BL_2 0x40 /* 2 transfers */ #define DMODE_10_BL_4 0x80 /* 4 transfers */ #define DMODE_10_BL_8 0xc0 /* 8 transfers */ #define DMODE_10_FC2 0x20 /* Driven to FC2 pin */ #define DMODE_10_FC1 0x10 /* Driven to FC1 pin */ #define DMODE_710_PD 0x08 /* Program/data on FC0 pin */ #define DMODE_710_UO 0x02 /* User prog. output */ #define DMODE_MAN 0x01 /* Manual start mode, * requires a 1 to be written * to the start DMA bit in the DCNTL * register to run scripts */ /* NCR53c800 series only */ #define SCRATCHA_REG_800 0x34 /* through 0x37 Scratch A rw */ /* NCR53c710 only */ #define SCRATCHB_REG_10 0x34 /* through 0x37 scratch rw */ #define DMODE_REG (0x38^bE) /* DMA mode rw, NCR53c710 and newer */ #define DMODE_800_SIOM 0x20 /* Source IO = 1 */ #define DMODE_800_DIOM 0x10 /* Destination IO = 1 */ #define DMODE_800_ERL 0x08 /* Enable Read Line */ #define DIEN_REG (0x39^bE) /* DMA interrupt enable rw */ /* 0x80, 0x40, and 0x20 are reserved on 700-series chips */ #define DIEN_800_MDPE 0x40 /* Master data parity error */ #define DIEN_800_BF 0x20 /* BUS fault */ #define DIEN_700_BF 0x20 /* BUS fault */ #define DIEN_ABRT 0x10 /* Enable aborted interrupt */ #define DIEN_SSI 0x08 /* Enable single step interrupt */ #define DIEN_SIR 0x04 /* Enable SCRIPTS INT command * interrupt */ #define DIEN_700_WTD 0x02 /* Enable watchdog timeout interrupt */ #define DIEN_700_OPC 0x01 /* Enable illegal instruction * interrupt */ #define DIEN_800_IID 0x01 /* Same meaning, different name */ /* * DMA watchdog timer rw * set in 16 CLK input periods. */ #define DWT_REG (0x3a^bE) /* DMA control rw */ #define DCNTL_REG (0x3b^bE) #define DCNTL_700_CF1 0x80 /* Clock divisor bits */ #define DCNTL_700_CF0 0x40 #define DCNTL_700_CF_MASK 0xc0 /* Clock divisors Divisor SCLK range (MHZ) */ #define DCNTL_700_CF_2 0x00 /* 2.0 37.51-50.00 */ #define DCNTL_700_CF_1_5 0x40 /* 1.5 25.01-37.50 */ #define DCNTL_700_CF_1 0x80 /* 1.0 16.67-25.00 */ #define DCNTL_700_CF_3 0xc0 /* 3.0 50.01-66.67 (53c700-66) */ #define DCNTL_700_S16 0x20 /* Load scripts 16 bits at a time */ #define DCNTL_SSM 0x10 /* Single step mode */ #define DCNTL_700_LLM 0x08 /* Low level mode, can only be set * after selection */ #define DCNTL_800_IRQM 0x08 /* Totem pole IRQ pin */ #define DCNTL_STD 0x04 /* Start DMA / SCRIPTS */ /* 0x02 is reserved */ #define DCNTL_10_COM 0x01 /* 700 software compatibility mode */ #define DCNTL_10_EA 0x20 /* Enable Ack - needed for MVME16x */ #define SCRATCHB_REG_800 0x5c /* through 0x5f scratch b rw */ /* NCR53c710 only */ #define ADDER_REG_10 0x3c /* Adder, NCR53c710 only */ #define SIEN1_REG_800 (0x41^bE) #define SIEN1_800_STO 0x04 /* selection/reselection timeout */ #define SIEN1_800_GEN 0x02 /* general purpose timer */ #define SIEN1_800_HTH 0x01 /* handshake to handshake */ #define SIST1_REG_800 (0x43^bE) #define SIST1_800_STO 0x04 /* selection/reselection timeout */ #define SIST1_800_GEN 0x02 /* general purpose timer */ #define SIST1_800_HTH 0x01 /* handshake to handshake */ #define SLPAR_REG_800 (0x44^bE) /* Parity */ #define MACNTL_REG_800 (0x46^bE) /* Memory access control */ #define MACNTL_800_TYP3 0x80 #define MACNTL_800_TYP2 0x40 #define MACNTL_800_TYP1 0x20 #define MACNTL_800_TYP0 0x10 #define MACNTL_800_DWR 0x08 #define MACNTL_800_DRD 0x04 #define MACNTL_800_PSCPT 0x02 #define MACNTL_800_SCPTS 0x01 #define GPCNTL_REG_800 (0x47^bE) /* General Purpose Pin Control */ /* Timeouts are expressed such that 0=off, 1=100us, doubling after that */ #define STIME0_REG_800 (0x48^bE) /* SCSI Timer Register 0 */ #define STIME0_800_HTH_MASK 0xf0 /* Handshake to Handshake timeout */ #define STIME0_800_HTH_SHIFT 4 #define STIME0_800_SEL_MASK 0x0f /* Selection timeout */ #define STIME0_800_SEL_SHIFT 0 #define STIME1_REG_800 (0x49^bE) #define STIME1_800_GEN_MASK 0x0f /* General purpose timer */ #define RESPID_REG_800 (0x4a^bE) /* Response ID, bit fielded. 8 bits on narrow chips, 16 on WIDE */ #define STEST0_REG_800 (0x4c^bE) #define STEST0_800_SLT 0x08 /* Selection response logic test */ #define STEST0_800_ART 0x04 /* Arbitration priority encoder test */ #define STEST0_800_SOZ 0x02 /* Synchronous offset zero */ #define STEST0_800_SOM 0x01 /* Synchronous offset maximum */ #define STEST1_REG_800 (0x4d^bE) #define STEST1_800_SCLK 0x80 /* Disable SCSI clock */ #define STEST2_REG_800 (0x4e^bE) #define STEST2_800_SCE 0x80 /* Enable SOCL/SODL */ #define STEST2_800_ROF 0x40 /* Reset SCSI sync offset */ #define STEST2_800_SLB 0x10 /* Enable SCSI loopback mode */ #define STEST2_800_SZM 0x08 /* SCSI high impedance mode */ #define STEST2_800_EXT 0x02 /* Extend REQ/ACK filter 30 to 60ns */ #define STEST2_800_LOW 0x01 /* SCSI low level mode */ #define STEST3_REG_800 (0x4f^bE) #define STEST3_800_TE 0x80 /* Enable active negation */ #define STEST3_800_STR 0x40 /* SCSI FIFO test read */ #define STEST3_800_HSC 0x20 /* Halt SCSI clock */ #define STEST3_800_DSI 0x10 /* Disable single initiator response */ #define STEST3_800_TTM 0x04 /* Time test mode */ #define STEST3_800_CSF 0x02 /* Clear SCSI FIFO */ #define STEST3_800_STW 0x01 /* SCSI FIFO test write */ #define ISTAT_REG ISTAT_REG_700 #define SCRATCH_REG SCRATCHB_REG_10 #ifdef MEM_MAPPED #define NCR_read8(address) \ (unsigned int)readb((u32)(host->base) + ((u32)(address))) #define NCR_read32(address) \ (unsigned int) readl((u32)(host->base) + (u32)(address)) #define NCR_write8(address,value) \ { DEB(DEB_REGS, printk("NCR: %02x => %08x\n", (u32)(value), ((u32)(host->base) + (u32)(address)))); \ *(volatile unsigned char *) \ ((u32)(host->base) + (u32)(address)) = (value); } #define NCR_write32(address,value) \ { DEB(DEB_REGS, printk("NCR: %08x => %08x\n", (u32)(value), ((u32)(host->base) + (u32)(address)))); \ *(volatile unsigned long *) \ ((u32)(host->base) + (u32)(address)) = (value); } #else #define NCR_read8(address) \ inb((u32)(host->base) + (address)) #define NCR_read32(address) \ inl((u32)(host->base) + (address)) #define NCR_write8(address,value) \ { DEB(DEB_REGS, printk("NCR: %02x => %08x\n", (u32)(value), ((u32)(host->base) + (u32)(address)))); \ outb((value), (u32)(host->base) + (u32)(address)); } #define NCR_write32(address,value) \ { DEB(DEB_REGS, printk("NCR: %08x => %08x\n", (u32)(value), ((u32)(host->base) + (u32)(address)))); \ outl((value), (u32)(host->base) + (u32)(address)); } #endif /* Patch arbitrary 32 bit words in the script */ #define patch_abs_32(script, offset, symbol, value) \ for (i = 0; i < (sizeof (A_##symbol##_used) / sizeof \ (u32)); ++i) { \ (script)[A_##symbol##_used[i] - (offset)] += (value); \ DEB(DEB_FIXUP, printk("scsi%d: %s reference %d at 0x%x in %s is now 0x%x\n",\ host->host_no, #symbol, i, A_##symbol##_used[i] - \ (int)(offset), #script, (script)[A_##symbol##_used[i] - \ (offset)])); \ } #endif #endif