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1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 1648 1649 1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 | /* * 53c710 driver. Modified from Drew Eckhardts driver * for 53c810 by Richard Hirst [richard@sleepie.demon.co.uk] * * I have left the code for the 53c8xx family in here, because it didn't * seem worth removing it. The possibility of IO_MAPPED chips rather * than MEMORY_MAPPED remains, in case someone wants to add support for * 53c710 chips on Intel PCs (some older machines have them on the * motherboard). * * NOTE THERE MAY BE PROBLEMS WITH CASTS IN read8 AND Co. */ /* * NCR 53c{7,8}0x0 driver, header file * * Sponsored by * iX Multiuser Multitasking Magazine * Hannover, Germany * hm@ix.de * * Copyright 1993, 1994, 1995 Drew Eckhardt * Visionary Computing * (Unix and Linux consulting and custom programming) * drew@PoohSticks.ORG * +1 (303) 786-7975 * * TolerANT and SCSI SCRIPTS are registered trademarks of NCR Corporation. * * PRE-ALPHA * * For more information, please consult * * NCR 53C700/53C700-66 * SCSI I/O Processor * Data Manual * * NCR 53C810 * PCI-SCSI I/O Processor * Data Manual * * NCR Microelectronics * 1635 Aeroplaza Drive * Colorado Springs, CO 80916 * +1 (719) 578-3400 * * Toll free literature number * +1 (800) 334-5454 * */ #ifndef NCR53c710_H #define NCR53c710_H #if !defined(LINUX_1_2) && !defined(LINUX_1_3) #include <linux/version.h> #if LINUX_VERSION_CODE > 65536 + 3 * 256 #define LINUX_1_3 #else #define LINUX_1_2 #endif #endif /* * Prevent name space pollution in hosts.c, and only provide the * define we need to get the NCR53c7x0 driver into the host template * array. */ #if defined(HOSTS_C) || defined(MODULE) #include <scsi/scsicam.h> extern int NCR53c7xx_abort(Scsi_Cmnd *); extern int NCR53c7xx_detect(Scsi_Host_Template *tpnt); extern int NCR53c7xx_queue_command(Scsi_Cmnd *, void (*done)(Scsi_Cmnd *)); extern int NCR53c7xx_reset(Scsi_Cmnd *, unsigned int); #ifdef MODULE extern int NCR53c7xx_release(struct Scsi_Host *); #else #define NCR53c7xx_release NULL #endif #ifdef LINUX_1_2 #define NCR53c7xx {NULL, NULL, "NCR53c{7,8}xx (rel 17)", NCR53c7xx_detect,\ NULL, /* info */ NULL, /* command, deprecated */ NULL, \ NCR53c7xx_queue_command, NCR53c7xx_abort, NCR53c7xx_reset, \ NULL /* slave attach */, scsicam_bios_param, /* can queue */ 24, \ /* id */ 7, 127 /* old SG_ALL */, /* cmd per lun */ 3, \ /* present */ 0, /* unchecked isa dma */ 0, DISABLE_CLUSTERING} #else #define NCR53c7xx {NULL, NULL, NULL, NULL, \ "NCR53c{7,8}xx (rel 17)", NCR53c7xx_detect,\ NULL, /* info */ NULL, /* command, deprecated */ NULL, \ NCR53c7xx_queue_command, NCR53c7xx_abort, NCR53c7xx_reset, \ NULL /* slave attach */, scsicam_bios_param, /* can queue */ 24, \ /* id */ 7, 127 /* old SG_ALL */, /* cmd per lun */ 3, \ /* present */ 0, /* unchecked isa dma */ 0, DISABLE_CLUSTERING} #endif #endif /* defined(HOSTS_C) || defined(MODULE) */ #ifndef HOSTS_C #ifdef LINUX_1_2 /* * Change virtual addresses to physical addresses and vv. * These are trivial on the 1:1 Linux/i386 mapping (but if we ever * make the kernel segment mapped at 0, we need to do translation * on the i386 as well) */ extern inline unsigned long virt_to_phys(volatile void * address) { return (unsigned long) address; } extern inline void * phys_to_virt(unsigned long address) { return (void *) address; } /* * IO bus memory addresses are also 1:1 with the physical address */ #define virt_to_bus virt_to_phys #define bus_to_virt phys_to_virt /* * readX/writeX() are used to access memory mapped devices. On some * architectures the memory mapped IO stuff needs to be accessed * differently. On the x86 architecture, we just read/write the * memory location directly. */ #define readb(addr) (*(volatile unsigned char *) (addr)) #define readw(addr) (*(volatile unsigned short *) (addr)) #define readl(addr) (*(volatile unsigned int *) (addr)) #define writeb(b,addr) ((*(volatile unsigned char *) (addr)) = (b)) #define writew(b,addr) ((*(volatile unsigned short *) (addr)) = (b)) #define writel(b,addr) ((*(volatile unsigned int *) (addr)) = (b)) #define mb() #endif /* def LINUX_1_2 */ /* SCSI control 0 rw, default = 0xc0 */ #define SCNTL0_REG 0x00 #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 #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_DHP_800 0x20 /* Disable halt on parity error or ATN target mode only */ #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 #define SCNTL2_800_SDU 0x80 /* SCSI disconnect unexpected */ /* SCSI control 3 rw */ #define SCNTL3_REG_800 0x03 #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 #define SDID_REG_800 0x06 #define GP_REG_800 0x07 /* General purpose IO */ #define GP_800_IO1 0x02 #define GP_800_IO2 0x01 /* SCSI interrupt enable rw, default = 0x00 */ #define SIEN_REG_700 0x03 #define SIEN0_REG_800 0x40 #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 * NCR53c810 : * Uses bit mapping */ #define SCID_REG 0x04 /* 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 #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 #define SODL_REG_800 0x54 /* * 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 #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 /* * 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 #define SIDL_REG_800 0x50 /* * 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 #define SBDL_REG_800 0x58 #define SSID_REG_800 0x0a #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 #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 #define DSTAT_DFE 0x80 /* DMA FIFO empty */ #define DSTAT_800_MDPE 0x40 /* Master Data Parity Error */ #define DSTAT_800_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_800_IID 0x01 /* Same thing, different name */ /* NCR53c800 moves this stuff into SIST0 */ #define SSTAT0_REG 0x0d /* SCSI status 0 ro */ #define SIST0_REG_800 0x42 #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 SIST0_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 */ /* And uses SSTAT0 for what was SSTAT1 */ #define SSTAT1_REG 0x0e /* 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 /* 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) /* NCR53c700-66 only */ #define SCRATCHA_REG_00 0x10 /* through 0x13 Scratch A rw */ /* NCR53c710 and higher */ #define DSA_REG 0x10 /* DATA structure address */ #define CTEST0_REG_700 0x14 /* Chip test 0 ro */ #define CTEST0_REG_800 0x18 /* Chip test 0 rw, general purpose */ /* 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 /* Chip test 1 ro */ #define CTEST1_REG_800 0x19 /* 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 /* Chip test 2 ro */ #define CTEST2_REG_800 0x1a /* 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 /* Chip test 3 rw */ #define CTEST3_REG_800 0x1b #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_700 0x18 /* Chip test 4 rw */ #define CTEST4_REG_800 0x21 /* 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 /* Chip test 5 rw */ #define CTEST5_REG_800 0x22 /* 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 #define CTEST6_REG_800 0x23 #define CTEST7_REG 0x1b /* Chip test 7 rw */ /* 0x80 - 0x40 are reserved on NCR53c700 and NCR53c700-66 chips */ #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 /* 0x20 is reserved on the NCR53c700 */ #define CTEST7_0060_FM 0x20 /* Fetch mode */ #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_00_DC 0x02 /* Set to drive DC low during instruction fetch */ #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 /* DMA FIFO rw */ /* * 0x80 is reserved on the NCR53c710, the CLF and FLF bits have been * moved into the CTEST8 register. */ #define DFIFO_00_FLF 0x80 /* Flush DMA FIFO to memory */ #define DFIFO_00_CLF 0x40 /* Clear DMA and SCSI FIFOs */ #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 */ #define DFIFO_00_BO_MASK 0x3f /* 6 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 #define ISTAT_REG_800 0x14 #define ISTAT_ABRT 0x80 /* Software abort, write *1 to abort, wait for interrupt. */ /* 0x40 and 0x20 are reserved on NCR53c700 and NCR53c700-66 chips */ #define ISTAT_10_SRST 0x40 /* software reset */ #define ISTAT_10_SIGP 0x20 /* signal script */ /* 0x10 is reserved on NCR53c700 series chips */ #define ISTAT_800_SEM 0x10 /* semaphore */ #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 */ /* NCR53c700-66 and NCR53c710 only */ #define CTEST8_REG 0x22 /* Chip test 8 rw */ #define CTEST8_0066_EAS 0x80 /* Enable alternate SCSI clock, * ie read from SCLK/ rather than CLK/ */ #define CTEST8_0066_EFM 0x40 /* Enable fetch and master outputs */ #define CTEST8_0066_GRP 0x20 /* Generate Receive Parity for * pass through. This insures that * bad parity won't reach the host * bus. */ #define CTEST8_0066_TE 0x10 /* TolerANT enable. Enable * active negation, should only * be used for slow SCSI * non-differential. */ #define CTEST8_0066_HSC 0x08 /* Halt SCSI clock */ #define CTEST8_0066_SRA 0x04 /* Shorten REQ/ACK filtering, * must be set for fast SCSI-II * speeds. */ #define CTEST8_0066_DAS 0x02 /* Disable automatic target/initiator * switching. */ #define CTEST8_0066_LDE 0x01 /* Last disconnect enable. * The status of pending * disconnect is maintained by * the core, eliminating * the possibility of missing a * selection or reselection * while waiting to fetch a * WAIT DISCONNECT opcode. */ #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 */ /* * The CTEST9 register may be used to differentiate between a * NCR53c700 and a NCR53c710. * * Write 0xff to this register. * Read it. * If the contents are 0xff, it is a NCR53c700 * If the contents are 0x00, it is a NCR53c700-66 first revision * If the contents are some other value, it is some other NCR53c700-66 */ #define CTEST9_REG_00 0x23 /* Chip test 9 ro */ #define LCRC_REG_10 0x23 /* * 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 #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_REG_00 0x34 /* DMA mode rw */ #define DMODE_00_BL1 0x80 /* Burst length bits */ #define DMODE_00_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_700_BW16 0x20 /* Host buswidth = 16 */ #define DMODE_700_286 0x10 /* 286 mode */ #define DMODE_700_IOM 0x08 /* Transfer to IO port */ #define DMODE_700_FAM 0x04 /* Fixed address mode */ #define DMODE_700_PIPE 0x02 /* Pipeline mode disables * automatic fetch / exec */ #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 */ #define DMODE_700_SAVE ( DMODE_00_BL_MASK | DMODE_00_BW16 | DMODE_00_286 ) /* NCR53c800 series only */ #define SCRATCHA_REG_800 0x34 /* through 0x37 Scratch A rw */ /* NCR53c710 only */ #define SCRATCHB_REG_10 0x34 /* through 0x37 scratch B rw */ #define DMODE_REG_10 0x38 /* 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 */ /* 35-38 are reserved on 700 and 700-66 series chips */ #define DIEN_REG 0x39 /* 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 */ /* 0x02 is reserved on 800 series chips */ #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 /* DMA control rw */ #define DCNTL_REG 0x3b #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_00_RST 0x01 /* Software reset, resets everything * but 286 mode bit in DMODE. On the * NCR53c710, this bit moved to CTEST8 */ #define DCNTL_10_COM 0x01 /* 700 software compatibility mode */ #define DCNTL_10_EA 0x20 /* Enable Ack - needed for MVME16x */ #define DCNTL_700_SAVE ( DCNTL_CF_MASK | DCNTL_S16) /* NCR53c700-66 only */ #define SCRATCHB_REG_00 0x3c /* through 0x3f scratch b rw */ #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 #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 #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 /* Parity */ #define MACNTL_REG_800 0x46 /* 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 /* General Purpose Pin Control */ /* Timeouts are expressed such that 0=off, 1=100us, doubling after that */ #define STIME0_REG_800 0x48 /* 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 #define STIME1_800_GEN_MASK 0x0f /* General purpose timer */ #define RESPID_REG_800 0x4a /* Response ID, bit fielded. 8 bits on narrow chips, 16 on WIDE */ #define STEST0_REG_800 0x4c #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 #define STEST1_800_SCLK 0x80 /* Disable SCSI clock */ #define STEST2_REG_800 0x4e #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 #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 OPTION_PARITY 0x1 /* Enable parity checking */ #define OPTION_TAGGED_QUEUE 0x2 /* Enable SCSI-II tagged queuing */ #define OPTION_700 0x8 /* Always run NCR53c700 scripts */ #define OPTION_INTFLY 0x10 /* Use INTFLY interrupts */ #define OPTION_DEBUG_INTR 0x20 /* Debug interrupts */ #define OPTION_DEBUG_INIT_ONLY 0x40 /* Run initialization code and simple test code, return DID_NO_CONNECT if any SCSI commands are attempted. */ #define OPTION_DEBUG_READ_ONLY 0x80 /* Return DID_ERROR if any SCSI write is attempted */ #define OPTION_DEBUG_TRACE 0x100 /* Animated trace mode, print each address and instruction executed to debug buffer. */ #define OPTION_DEBUG_SINGLE 0x200 /* stop after executing one instruction */ #define OPTION_SYNCHRONOUS 0x400 /* Enable sync SCSI. */ #define OPTION_MEMORY_MAPPED 0x800 /* NCR registers have valid memory mapping */ #define OPTION_IO_MAPPED 0x1000 /* NCR registers have valid I/O mapping */ #define OPTION_DEBUG_PROBE_ONLY 0x2000 /* Probe only, don't even init */ #define OPTION_DEBUG_TESTS_ONLY 0x4000 /* Probe, init, run selected tests */ #define OPTION_DEBUG_TEST0 0x08000 /* Run test 0 */ #define OPTION_DEBUG_TEST1 0x10000 /* Run test 1 */ #define OPTION_DEBUG_TEST2 0x20000 /* Run test 2 */ #define OPTION_DEBUG_DUMP 0x40000 /* Dump commands */ #define OPTION_DEBUG_TARGET_LIMIT 0x80000 /* Only talk to target+luns specified */ #define OPTION_DEBUG_NCOMMANDS_LIMIT 0x100000 /* Limit the number of commands */ #define OPTION_DEBUG_SCRIPT 0x200000 /* Print when checkpoints are passed */ #define OPTION_DEBUG_FIXUP 0x400000 /* print fixup values */ #define OPTION_DEBUG_DSA 0x800000 #define OPTION_DEBUG_CORRUPTION 0x1000000 /* Detect script corruption */ #define OPTION_DEBUG_SDTR 0x2000000 /* Debug SDTR problem */ #define OPTION_DEBUG_MISMATCH 0x4000000 /* Debug phase mismatches */ #define OPTION_DISCONNECT 0x8000000 /* Allow disconnect */ #define OPTION_DEBUG_DISCONNECT 0x10000000 #define OPTION_ALWAYS_SYNCHRONOUS 0x20000000 /* Negotiate sync. transfers on power up */ #define OPTION_DEBUG_QUEUES 0x80000000 #define OPTION_DEBUG_ALLOCATION 0x100000000LL #define OPTION_DEBUG_SYNCHRONOUS 0x200000000LL /* Sanity check SXFER and SCNTL3 registers */ #define OPTION_NO_ASYNC 0x400000000LL /* Don't automagically send SDTR for async transfers when we haven't been told to do a synchronous transfer. */ #define OPTION_NO_PRINT_RACE 0x800000000LL /* Don't print message when the reselect/WAIT DISCONNECT race condition hits */ #if !defined(PERM_OPTIONS) #define PERM_OPTIONS 0 #endif /* * Some data which is accessed by the NCR chip must be 4-byte aligned. * For some hosts the default is less than that (eg. 68K uses 2-byte). * Alignment has only been forced where it is important; also if one * 32 bit structure field is aligned then it is assumed that following * 32 bit fields are also aligned. Take care when adding fields * which are other than 32 bit. */ struct NCR53c7x0_synchronous { u32 select_indirect /* Value used for indirect selection */ __attribute__ ((aligned (4))); u32 sscf_710; /* Used to set SSCF bits for 710 */ u32 script[8]; /* Size ?? Script used when target is reselected */ unsigned char synchronous_want[5]; /* Per target desired SDTR */ /* * Set_synchronous programs these, select_indirect and current settings after * int_debug_should show a match. */ unsigned char sxfer_sanity, scntl3_sanity; }; #define CMD_FLAG_SDTR 1 /* Initiating synchronous transfer negotiation */ #define CMD_FLAG_WDTR 2 /* Initiating wide transfer negotiation */ #define CMD_FLAG_DID_SDTR 4 /* did SDTR */ #define CMD_FLAG_DID_WDTR 8 /* did WDTR */ struct NCR53c7x0_table_indirect { u32 count; void *address; }; enum ncr_event { EVENT_NONE = 0, /* * Order is IMPORTANT, since these must correspond to the event interrupts * in 53c7,8xx.scr */ EVENT_ISSUE_QUEUE = 0x5000000, /* 0 Command was added to issue queue */ EVENT_START_QUEUE, /* 1 Command moved to start queue */ EVENT_SELECT, /* 2 Command completed selection */ EVENT_DISCONNECT, /* 3 Command disconnected */ EVENT_RESELECT, /* 4 Command reselected */ EVENT_COMPLETE, /* 5 Command completed */ EVENT_IDLE, /* 6 */ EVENT_SELECT_FAILED, /* 7 */ EVENT_BEFORE_SELECT, /* 8 */ EVENT_RESELECT_FAILED /* 9 */ }; struct NCR53c7x0_event { enum ncr_event event; /* What type of event */ unsigned char target; unsigned char lun; struct timeval time; u32 *dsa; /* What's in the DSA register now (virt) */ /* * A few things from that SCSI pid so we know what happened after * the Scsi_Cmnd structure in question may have disappeared. */ unsigned long pid; /* The SCSI PID which caused this event */ unsigned char cmnd[12]; }; /* * Things in the NCR53c7x0_cmd structure are split into two parts : * * 1. A fixed portion, for things which are not accessed directly by static NCR * code (ie, are referenced only by the Linux side of the driver, * or only by dynamically generated code). * * 2. The DSA portion, for things which are accessed directly by static NCR * code. * * This is a little ugly, but it * 1. Avoids conflicts between the NCR code's picture of the structure, and * Linux code's idea of what it looks like. * * 2. Minimizes the pain in the Linux side of the code needed * to calculate real dsa locations for things, etc. * */ struct NCR53c7x0_cmd { void *real; /* Real, unaligned address for free function */ void (* free)(void *, int); /* Command to deallocate; NULL for structures allocated with scsi_register, etc. */ Scsi_Cmnd *cmd; /* Associated Scsi_Cmnd structure, Scsi_Cmnd points at NCR53c7x0_cmd using host_scribble structure */ int size; /* scsi_malloc'd size of this structure */ int flags; /* CMD_* flags */ unsigned char cmnd[12]; /* CDB, copied from Scsi_Cmnd */ int result; /* Copy to Scsi_Cmnd when done */ struct { /* Private non-cached bounce buffer */ unsigned char buf[256]; u32 addr; u32 len; } bounce; /* * SDTR and WIDE messages are an either/or affair * in this message, since we will go into message out and send * _the whole mess_ without dropping out of message out to * let the target go into message in after sending the first * message. */ unsigned char select[11]; /* Select message, includes IDENTIFY (optional) QUEUE TAG (optional) SDTR or WDTR */ volatile struct NCR53c7x0_cmd *next; /* Linux maintained lists (free, running, eventually finished */ u32 *data_transfer_start; /* Start of data transfer routines */ u32 *data_transfer_end; /* Address after end of data transfer o routines */ /* * The following three fields were moved from the DSA proper to here * since only dynamically generated NCR code refers to them, meaning * we don't need dsa_* absolutes, and it is simpler to let the * host code refer to them directly. */ /* * HARD CODED : residual and saved_residual need to agree with the sizes * used in NCR53c7,8xx.scr. * * FIXME: we want to consider the case where we have odd-length * scatter/gather buffers and a WIDE transfer, in which case * we'll need to use the CHAIN MOVE instruction. Ick. */ u32 residual[6] __attribute__ ((aligned (4))); /* Residual data transfer which allows pointer code to work right. [0-1] : Conditional call to appropriate other transfer routine. [2-3] : Residual block transfer instruction. [4-5] : Jump to instruction after splice. */ u32 saved_residual[6]; /* Copy of old residual, so we can get another partial transfer and still recover */ u32 saved_data_pointer; /* Saved data pointer */ u32 dsa_next_addr; /* _Address_ of dsa_next field in this dsa for RISCy style constant. */ u32 dsa_addr; /* Address of dsa; RISCy style constant */ u32 dsa[0]; /* Variable length (depending on host type, number of scatter / gather buffers, etc). */ }; struct NCR53c7x0_break { u32 *address, old_instruction[2]; struct NCR53c7x0_break *next; unsigned char old_size; /* Size of old instruction */ }; /* Indicates that the NCR is not executing code */ #define STATE_HALTED 0 /* * Indicates that the NCR is executing the wait for select / reselect * script. Only used when running NCR53c700 compatible scripts, only * state during which an ABORT is _not_ considered an error condition. */ #define STATE_WAITING 1 /* Indicates that the NCR is executing other code. */ #define STATE_RUNNING 2 /* * Indicates that the NCR was being aborted. */ #define STATE_ABORTING 3 /* Indicates that the NCR was successfully aborted. */ #define STATE_ABORTED 4 /* Indicates that the NCR has been disabled due to a fatal error */ #define STATE_DISABLED 5 /* * Where knowledge of SCSI SCRIPT(tm) specified values are needed * in an interrupt handler, an interrupt handler exists for each * different SCSI script so we don't have name space problems. * * Return values of these handlers are as follows : */ #define SPECIFIC_INT_NOTHING 0 /* don't even restart */ #define SPECIFIC_INT_RESTART 1 /* restart at the next instruction */ #define SPECIFIC_INT_ABORT 2 /* recoverable error, abort cmd */ #define SPECIFIC_INT_PANIC 3 /* unrecoverable error, panic */ #define SPECIFIC_INT_DONE 4 /* normal command completion */ #define SPECIFIC_INT_BREAK 5 /* break point encountered */ struct NCR53c7x0_hostdata { int size; /* Size of entire Scsi_Host structure */ int board; /* set to board type, useful if we have host specific things, ie, a general purpose I/O bit is being used to enable termination, etc. */ int chip; /* set to chip type; 700-66 is 700-66, rest are last three digits of part number */ char valid_ids[8]; /* Valid SCSI ID's for adapter */ u32 *dsp; /* dsp to restart with after all stacked interrupts are handled. */ unsigned dsp_changed:1; /* Has dsp changed within this set of stacked interrupts ? */ unsigned char dstat; /* Most recent value of dstat */ unsigned dstat_valid:1; unsigned expecting_iid:1; /* Expect IID interrupt */ unsigned expecting_sto:1; /* Expect STO interrupt */ /* * The code stays cleaner if we use variables with function * pointers and offsets that are unique for the different * scripts rather than having a slew of switch(hostdata->chip) * statements. * * It also means that the #defines from the SCSI SCRIPTS(tm) * don't have to be visible outside of the script-specific * instructions, preventing name space pollution. */ void (* init_fixup)(struct Scsi_Host *host); void (* init_save_regs)(struct Scsi_Host *host); void (* dsa_fixup)(struct NCR53c7x0_cmd *cmd); void (* soft_reset)(struct Scsi_Host *host); int (* run_tests)(struct Scsi_Host *host); /* * Called when DSTAT_SIR is set, indicating an interrupt generated * by the INT instruction, where values are unique for each SCSI * script. Should return one of the SPEC_* values. */ int (* dstat_sir_intr)(struct Scsi_Host *host, struct NCR53c7x0_cmd *cmd); int dsa_len; /* Size of DSA structure */ /* * Location of DSA fields for the SCSI SCRIPT corresponding to this * chip. */ s32 dsa_start; s32 dsa_end; s32 dsa_next; s32 dsa_prev; s32 dsa_cmnd; s32 dsa_select; s32 dsa_msgout; s32 dsa_cmdout; s32 dsa_dataout; s32 dsa_datain; s32 dsa_msgin; s32 dsa_msgout_other; s32 dsa_write_sync; s32 dsa_write_resume; s32 dsa_check_reselect; s32 dsa_status; s32 dsa_saved_pointer; s32 dsa_jump_dest; /* * Important entry points that generic fixup code needs * to know about, fixed up. */ s32 E_accept_message; s32 E_command_complete; s32 E_data_transfer; s32 E_dsa_code_template; s32 E_dsa_code_template_end; s32 E_end_data_transfer; s32 E_msg_in; s32 E_initiator_abort; s32 E_other_transfer; s32 E_other_in; s32 E_other_out; s32 E_target_abort; s32 E_debug_break; s32 E_reject_message; s32 E_respond_message; s32 E_select; s32 E_select_msgout; s32 E_test_0; s32 E_test_1; s32 E_test_2; s32 E_test_3; s32 E_dsa_zero; s32 E_cmdout_cmdout; s32 E_wait_reselect; s32 E_dsa_code_begin; long long options; /* Bitfielded set of options enabled */ volatile u32 test_completed; /* Test completed */ int test_running; /* Test currently running */ s32 test_source __attribute__ ((aligned (4))); volatile s32 test_dest; volatile int state; /* state of driver, only used for OPTION_700 */ unsigned char dmode; /* * set to the address of the DMODE * register for this chip. */ unsigned char istat; /* * set to the address of the ISTAT * register for this chip. */ int scsi_clock; /* * SCSI clock in HZ. 0 may be used * for unknown, although this will * disable synchronous negotiation. */ volatile int intrs; /* Number of interrupts */ volatile int resets; /* Number of SCSI resets */ unsigned char saved_dmode; unsigned char saved_ctest4; unsigned char saved_ctest7; unsigned char saved_dcntl; unsigned char saved_scntl3; unsigned char this_id_mask; /* Debugger information */ struct NCR53c7x0_break *breakpoints, /* Linked list of all break points */ *breakpoint_current; /* Current breakpoint being stepped through, NULL if we are running normally. */ #ifdef NCR_DEBUG int debug_size; /* Size of debug buffer */ volatile int debug_count; /* Current data count */ volatile char *debug_buf; /* Output ring buffer */ volatile char *debug_write; /* Current write pointer */ volatile char *debug_read; /* Current read pointer */ #endif /* def NCR_DEBUG */ /* XXX - primitive debugging junk, remove when working ? */ int debug_print_limit; /* Number of commands to print out exhaustive debugging information for if OPTION_DEBUG_DUMP is set */ unsigned char debug_lun_limit[16]; /* If OPTION_DEBUG_TARGET_LIMIT set, puke if commands are sent to other target/lun combinations */ int debug_count_limit; /* Number of commands to execute before puking to limit debugging output */ volatile unsigned idle:1; /* set to 1 if idle */ /* * Table of synchronous+wide transfer parameters set on a per-target * basis. */ volatile struct NCR53c7x0_synchronous sync[16] __attribute__ ((aligned (4))); volatile Scsi_Cmnd *issue_queue __attribute__ ((aligned (4))); /* waiting to be issued by Linux driver */ volatile struct NCR53c7x0_cmd *running_list; /* commands running, maintained by Linux driver */ volatile struct NCR53c7x0_cmd *ncrcurrent; /* currently connected nexus, ONLY valid for NCR53c700/NCR53c700-66 */ volatile struct NCR53c7x0_cmd *spare; /* pointer to spare, allocated at probe time, which we can use for initialization */ volatile struct NCR53c7x0_cmd *free; int max_cmd_size; /* Maximum size of NCR53c7x0_cmd based on number of scatter/gather segments, etc. */ volatile int num_cmds; /* Number of commands allocated */ volatile int extra_allocate; volatile unsigned char cmd_allocated[16]; /* Have we allocated commands for this target yet? If not, do so ASAP */ volatile unsigned char busy[16][8]; /* number of commands executing on each target */ /* * Eventually, I'll switch to a coroutine for calling * cmd->done(cmd), etc. so that we can overlap interrupt * processing with this code for maximum performance. */ volatile struct NCR53c7x0_cmd *finished_queue; /* Shared variables between SCRIPT and host driver */ volatile u32 *schedule __attribute__ ((aligned (4))); /* Array of JUMPs to dsa_begin routines of various DSAs. When not in use, replace with jump to next slot */ volatile unsigned char msg_buf[16]; /* buffer for messages other than the command complete message */ /* Per-target default synchronous and WIDE messages */ volatile unsigned char synchronous_want[16][5]; volatile unsigned char wide_want[16][4]; /* Bit fielded set of targets we want to speak synchronously with */ volatile u16 initiate_sdtr; /* Bit fielded set of targets we want to speak wide with */ volatile u16 initiate_wdtr; /* Bit fielded list of targets we've talked to. */ volatile u16 talked_to; /* Array of bit-fielded lun lists that we need to request_sense */ volatile unsigned char request_sense[16]; u32 addr_reconnect_dsa_head __attribute__ ((aligned (4))); /* RISCy style constant, address of following */ volatile u32 reconnect_dsa_head; /* Data identifying nexus we are trying to match during reselection */ volatile unsigned char reselected_identify; /* IDENTIFY message */ volatile unsigned char reselected_tag; /* second byte of queue tag message or 0 */ /* These were static variables before we moved them */ s32 NCR53c7xx_zero __attribute__ ((aligned (4))); s32 NCR53c7xx_sink; u32 NOP_insn; char NCR53c7xx_msg_reject; char NCR53c7xx_msg_abort; char NCR53c7xx_msg_nop; /* * Following item introduced by RGH to support NCRc710, which is * VERY brain-dead when it come to memory moves */ /* DSA save area used only by the NCR chip */ volatile unsigned long saved2_dsa __attribute__ ((aligned (4))); volatile unsigned long emulated_intfly __attribute__ ((aligned (4))); volatile int event_size, event_index; volatile struct NCR53c7x0_event *events; /* If we need to generate code to kill off the currently connected command, this is where we do it. Should have a BMI instruction to source or sink the current data, followed by a JUMP to abort_connected */ u32 *abort_script; int script_count; /* Size of script in words */ u32 script[0]; /* Relocated SCSI script */ }; #define IRQ_NONE 255 #define DMA_NONE 255 #define IRQ_AUTO 254 #define DMA_AUTO 254 #define BOARD_GENERIC 0 #define NCR53c7x0_insn_size(insn) \ (((insn) & DCMD_TYPE_MASK) == DCMD_TYPE_MMI ? 3 : 2) #define NCR53c7x0_local_declare() \ volatile unsigned char *NCR53c7x0_address_memory; \ unsigned int NCR53c7x0_address_io; \ int NCR53c7x0_memory_mapped #define NCR53c7x0_local_setup(host) \ NCR53c7x0_address_memory = (void *) (host)->base; \ NCR53c7x0_address_io = (unsigned int) (host)->io_port; \ NCR53c7x0_memory_mapped = ((struct NCR53c7x0_hostdata *) \ host->hostdata[0])-> options & OPTION_MEMORY_MAPPED #ifdef BIG_ENDIAN /* These could be more efficient, given that we are always memory mapped, * but they don't give the same problems as the write macros, so leave * them. */ #define NCR53c7x0_read8(address) \ (NCR53c7x0_memory_mapped ? \ (unsigned int)readb((u32)NCR53c7x0_address_memory + ((u32)(address)^3)) : \ inb(NCR53c7x0_address_io + (address))) #define NCR53c7x0_read16(address) \ (NCR53c7x0_memory_mapped ? \ (unsigned int)readw((u32)NCR53c7x0_address_memory + ((u32)(address)^2)) : \ inw(NCR53c7x0_address_io + (address))) #else #define NCR53c7x0_read8(address) \ (NCR53c7x0_memory_mapped ? \ (unsigned int)readb((u32)NCR53c7x0_address_memory + (u32)(address)) : \ inb(NCR53c7x0_address_io + (address))) #define NCR53c7x0_read16(address) \ (NCR53c7x0_memory_mapped ? \ (unsigned int)readw((u32)NCR53c7x0_address_memory + (u32)(address)) : \ inw(NCR53c7x0_address_io + (address))) #endif #define NCR53c7x0_read32(address) \ (NCR53c7x0_memory_mapped ? \ (unsigned int) readl((u32)NCR53c7x0_address_memory + (u32)(address)) : \ inl(NCR53c7x0_address_io + (address))) #ifdef BIG_ENDIAN /* If we are big-endian, then we are not Intel, so probably don't have * an i/o map as well as a memory map. So, let's assume memory mapped. * Also, I am having terrible problems trying to persuade the compiler * not to lay down code which does a read after write for these macros. * If you remove 'volatile' from writeb() and friends it is ok.... */ #define NCR53c7x0_write8(address,value) \ *(volatile unsigned char *) \ ((u32)NCR53c7x0_address_memory + ((u32)(address)^3)) = (value) #define NCR53c7x0_write16(address,value) \ *(volatile unsigned short *) \ ((u32)NCR53c7x0_address_memory + ((u32)(address)^2)) = (value) #define NCR53c7x0_write32(address,value) \ *(volatile unsigned long *) \ ((u32)NCR53c7x0_address_memory + ((u32)(address))) = (value) #else #define NCR53c7x0_write8(address,value) \ (NCR53c7x0_memory_mapped ? \ ({writeb((value), (u32)NCR53c7x0_address_memory + (u32)(address)); mb();}) : \ outb((value), NCR53c7x0_address_io + (address))) #define NCR53c7x0_write16(address,value) \ (NCR53c7x0_memory_mapped ? \ ({writew((value), (u32)NCR53c7x0_address_memory + (u32)(address)); mb();}) : \ outw((value), NCR53c7x0_address_io + (address))) #define NCR53c7x0_write32(address,value) \ (NCR53c7x0_memory_mapped ? \ ({writel((value), (u32)NCR53c7x0_address_memory + (u32)(address)); mb();}) : \ outl((value), NCR53c7x0_address_io + (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); \ if (hostdata->options & OPTION_DEBUG_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)]); \ } /* Patch read/write instruction immediate field */ #define patch_abs_rwri_data(script, offset, symbol, value) \ for (i = 0; i < (sizeof (A_##symbol##_used) / sizeof \ (u32)); ++i) \ (script)[A_##symbol##_used[i] - (offset)] = \ ((script)[A_##symbol##_used[i] - (offset)] & \ ~DBC_RWRI_IMMEDIATE_MASK) | \ (((value) << DBC_RWRI_IMMEDIATE_SHIFT) & \ DBC_RWRI_IMMEDIATE_MASK) /* Patch transfer control instruction data field */ #define patch_abs_tci_data(script, offset, symbol, value) \ for (i = 0; i < (sizeof (A_##symbol##_used) / sizeof \ (u32)); ++i) \ (script)[A_##symbol##_used[i] - (offset)] = \ ((script)[A_##symbol##_used[i] - (offset)] & \ ~DBC_TCI_DATA_MASK) | \ (((value) << DBC_TCI_DATA_SHIFT) & \ DBC_TCI_DATA_MASK) /* Patch field in dsa structure (assignment should be +=?) */ #define patch_dsa_32(dsa, symbol, word, value) \ { \ (dsa)[(hostdata->##symbol - hostdata->dsa_start) / sizeof(u32) \ + (word)] = (value); \ if (hostdata->options & OPTION_DEBUG_DSA) \ printk("scsi : dsa %s symbol %s(%d) word %d now 0x%x\n", \ #dsa, #symbol, hostdata->##symbol, \ (word), (u32) (value)); \ } /* Paranoid people could use panic() here. */ #define FATAL(host) shutdown((host)); #endif /* NCR53c710_C */ #endif /* NCR53c710_H */ |