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This is a set of changes that converts the PMAZ-A support to the driver model. The use of the driver model required switching to the hotplug SCSI initialization model, which in turn required a change to the core NCR53C9x driver. I decided not to break all the frontend drivers and introduced an additional parameter for esp_allocate() to select between the old and the new model. I hope this is OK, but I would be fine with converting NCR53C9x to the new model unconditionally as long as I do not have to fix all the other frontends (OK, perhaps I could do some of them ;-) ). Signed-off-by: Maciej W. Rozycki <macro@linux-mips.org> Cc: James Bottomley <James.Bottomley@steeleye.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Ralf Baechle <ralf@linux-mips.org>
669 lines
30 KiB
C
669 lines
30 KiB
C
/* NCR53C9x.c: Defines and structures for the NCR53C9x generic driver.
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*
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* Originaly esp.h: Defines and structures for the Sparc ESP
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* (Enhanced SCSI Processor) driver under Linux.
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*
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* Copyright (C) 1995 David S. Miller (davem@caip.rutgers.edu)
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*
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* Generalization by Jesper Skov (jskov@cygnus.co.uk)
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*
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* More generalization (for i386 stuff) by Tymm Twillman (tymm@computer.org)
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*/
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#ifndef NCR53C9X_H
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#define NCR53C9X_H
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#include <linux/interrupt.h>
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/* djweis for mac driver */
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#if defined(CONFIG_MAC)
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#define PAD_SIZE 15
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#else
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#define PAD_SIZE 3
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#endif
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/* Handle multiple hostadapters on Amiga
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* generally PAD_SIZE = 3
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* but there is one exception: Oktagon (PAD_SIZE = 1) */
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#if defined(CONFIG_OKTAGON_SCSI) || defined(CONFIG_OKTAGON_SCSI_MODULE)
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#undef PAD_SIZE
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#if defined(CONFIG_BLZ1230_SCSI) || defined(CONFIG_BLZ1230_SCSI_MODULE) || \
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defined(CONFIG_BLZ2060_SCSI) || defined(CONFIG_BLZ2060_SCSI_MODULE) || \
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defined(CONFIG_CYBERSTORM_SCSI) || defined(CONFIG_CYBERSTORM_SCSI_MODULE) || \
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defined(CONFIG_CYBERSTORMII_SCSI) || defined(CONFIG_CYBERSTORMII_SCSI_MODULE) || \
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defined(CONFIG_FASTLANE_SCSI) || defined(CONFIG_FASTLANE_SCSI_MODULE)
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#define MULTIPLE_PAD_SIZES
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#else
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#define PAD_SIZE 1
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#endif
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#endif
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/* Macros for debugging messages */
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#define DEBUG_ESP
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/* #define DEBUG_ESP_DATA */
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/* #define DEBUG_ESP_QUEUE */
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/* #define DEBUG_ESP_DISCONNECT */
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/* #define DEBUG_ESP_STATUS */
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/* #define DEBUG_ESP_PHASES */
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/* #define DEBUG_ESP_WORKBUS */
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/* #define DEBUG_STATE_MACHINE */
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/* #define DEBUG_ESP_CMDS */
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/* #define DEBUG_ESP_IRQS */
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/* #define DEBUG_SDTR */
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/* #define DEBUG_ESP_SG */
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/* Use the following to sprinkle debugging messages in a way which
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* suits you if combinations of the above become too verbose when
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* trying to track down a specific problem.
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*/
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/* #define DEBUG_ESP_MISC */
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#if defined(DEBUG_ESP)
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#define ESPLOG(foo) printk foo
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#else
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#define ESPLOG(foo)
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#endif /* (DEBUG_ESP) */
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#if defined(DEBUG_ESP_DATA)
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#define ESPDATA(foo) printk foo
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#else
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#define ESPDATA(foo)
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#endif
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#if defined(DEBUG_ESP_QUEUE)
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#define ESPQUEUE(foo) printk foo
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#else
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#define ESPQUEUE(foo)
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#endif
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#if defined(DEBUG_ESP_DISCONNECT)
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#define ESPDISC(foo) printk foo
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#else
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#define ESPDISC(foo)
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#endif
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#if defined(DEBUG_ESP_STATUS)
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#define ESPSTAT(foo) printk foo
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#else
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#define ESPSTAT(foo)
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#endif
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#if defined(DEBUG_ESP_PHASES)
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#define ESPPHASE(foo) printk foo
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#else
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#define ESPPHASE(foo)
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#endif
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#if defined(DEBUG_ESP_WORKBUS)
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#define ESPBUS(foo) printk foo
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#else
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#define ESPBUS(foo)
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#endif
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#if defined(DEBUG_ESP_IRQS)
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#define ESPIRQ(foo) printk foo
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#else
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#define ESPIRQ(foo)
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#endif
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#if defined(DEBUG_SDTR)
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#define ESPSDTR(foo) printk foo
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#else
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#define ESPSDTR(foo)
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#endif
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#if defined(DEBUG_ESP_MISC)
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#define ESPMISC(foo) printk foo
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#else
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#define ESPMISC(foo)
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#endif
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/*
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* padding for register structure
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*/
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#ifdef CONFIG_JAZZ_ESP
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#define EREGS_PAD(n)
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#else
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#ifndef MULTIPLE_PAD_SIZES
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#define EREGS_PAD(n) unchar n[PAD_SIZE];
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#endif
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#endif
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/* The ESP SCSI controllers have their register sets in three
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* "classes":
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*
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* 1) Registers which are both read and write.
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* 2) Registers which are read only.
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* 3) Registers which are write only.
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*
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* Yet, they all live within the same IO space.
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*/
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#if !defined(__i386__) && !defined(__x86_64__)
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#ifndef MULTIPLE_PAD_SIZES
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#ifdef CONFIG_CPU_HAS_WB
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#include <asm/wbflush.h>
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#define esp_write(__reg, __val) do{(__reg) = (__val); wbflush();} while(0)
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#else
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#define esp_write(__reg, __val) ((__reg) = (__val))
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#endif
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#define esp_read(__reg) (__reg)
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struct ESP_regs {
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/* Access Description Offset */
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volatile unchar esp_tclow; /* rw Low bits of the transfer count 0x00 */
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EREGS_PAD(tlpad1);
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volatile unchar esp_tcmed; /* rw Mid bits of the transfer count 0x04 */
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EREGS_PAD(fdpad);
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volatile unchar esp_fdata; /* rw FIFO data bits 0x08 */
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EREGS_PAD(cbpad);
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volatile unchar esp_cmnd; /* rw SCSI command bits 0x0c */
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EREGS_PAD(stpad);
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volatile unchar esp_status; /* ro ESP status register 0x10 */
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#define esp_busid esp_status /* wo Bus ID for select/reselect 0x10 */
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EREGS_PAD(irqpd);
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volatile unchar esp_intrpt; /* ro Kind of interrupt 0x14 */
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#define esp_timeo esp_intrpt /* wo Timeout value for select/resel 0x14 */
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EREGS_PAD(sspad);
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volatile unchar esp_sstep; /* ro Sequence step register 0x18 */
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#define esp_stp esp_sstep /* wo Transfer period per sync 0x18 */
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EREGS_PAD(ffpad);
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volatile unchar esp_fflags; /* ro Bits of current FIFO info 0x1c */
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#define esp_soff esp_fflags /* wo Sync offset 0x1c */
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EREGS_PAD(cf1pd);
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volatile unchar esp_cfg1; /* rw First configuration register 0x20 */
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EREGS_PAD(cfpad);
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volatile unchar esp_cfact; /* wo Clock conversion factor 0x24 */
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EREGS_PAD(ctpad);
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volatile unchar esp_ctest; /* wo Chip test register 0x28 */
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EREGS_PAD(cf2pd);
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volatile unchar esp_cfg2; /* rw Second configuration register 0x2c */
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EREGS_PAD(cf3pd);
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/* The following is only found on the 53C9X series SCSI chips */
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volatile unchar esp_cfg3; /* rw Third configuration register 0x30 */
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EREGS_PAD(cf4pd);
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volatile unchar esp_cfg4; /* rw Fourth configuration register 0x34 */
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EREGS_PAD(thpd);
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/* The following is found on all chips except the NCR53C90 (ESP100) */
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volatile unchar esp_tchi; /* rw High bits of transfer count 0x38 */
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#define esp_uid esp_tchi /* ro Unique ID code 0x38 */
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EREGS_PAD(fgpad);
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volatile unchar esp_fgrnd; /* rw Data base for fifo 0x3c */
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};
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#else /* MULTIPLE_PAD_SIZES */
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#define esp_write(__reg, __val) (*(__reg) = (__val))
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#define esp_read(__reg) (*(__reg))
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struct ESP_regs {
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unsigned char io_addr[64]; /* dummy */
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/* Access Description Offset */
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#define esp_tclow io_addr /* rw Low bits of the transfer count 0x00 */
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#define esp_tcmed io_addr + (1<<(esp->shift)) /* rw Mid bits of the transfer count 0x04 */
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#define esp_fdata io_addr + (2<<(esp->shift)) /* rw FIFO data bits 0x08 */
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#define esp_cmnd io_addr + (3<<(esp->shift)) /* rw SCSI command bits 0x0c */
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#define esp_status io_addr + (4<<(esp->shift)) /* ro ESP status register 0x10 */
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#define esp_busid esp_status /* wo Bus ID for select/reselect 0x10 */
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#define esp_intrpt io_addr + (5<<(esp->shift)) /* ro Kind of interrupt 0x14 */
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#define esp_timeo esp_intrpt /* wo Timeout value for select/resel 0x14 */
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#define esp_sstep io_addr + (6<<(esp->shift)) /* ro Sequence step register 0x18 */
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#define esp_stp esp_sstep /* wo Transfer period per sync 0x18 */
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#define esp_fflags io_addr + (7<<(esp->shift)) /* ro Bits of current FIFO info 0x1c */
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#define esp_soff esp_fflags /* wo Sync offset 0x1c */
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#define esp_cfg1 io_addr + (8<<(esp->shift)) /* rw First configuration register 0x20 */
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#define esp_cfact io_addr + (9<<(esp->shift)) /* wo Clock conversion factor 0x24 */
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#define esp_ctest io_addr + (10<<(esp->shift)) /* wo Chip test register 0x28 */
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#define esp_cfg2 io_addr + (11<<(esp->shift)) /* rw Second configuration register 0x2c */
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/* The following is only found on the 53C9X series SCSI chips */
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#define esp_cfg3 io_addr + (12<<(esp->shift)) /* rw Third configuration register 0x30 */
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#define esp_cfg4 io_addr + (13<<(esp->shift)) /* rw Fourth configuration register 0x34 */
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/* The following is found on all chips except the NCR53C90 (ESP100) */
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#define esp_tchi io_addr + (14<<(esp->shift)) /* rw High bits of transfer count 0x38 */
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#define esp_uid esp_tchi /* ro Unique ID code 0x38 */
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#define esp_fgrnd io_addr + (15<<(esp->shift)) /* rw Data base for fifo 0x3c */
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};
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#endif
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#else /* !defined(__i386__) && !defined(__x86_64__) */
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#define esp_write(__reg, __val) outb((__val), (__reg))
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#define esp_read(__reg) inb((__reg))
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struct ESP_regs {
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unsigned int io_addr;
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/* Access Description Offset */
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#define esp_tclow io_addr /* rw Low bits of the transfer count 0x00 */
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#define esp_tcmed io_addr + 1 /* rw Mid bits of the transfer count 0x04 */
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#define esp_fdata io_addr + 2 /* rw FIFO data bits 0x08 */
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#define esp_cmnd io_addr + 3 /* rw SCSI command bits 0x0c */
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#define esp_status io_addr + 4 /* ro ESP status register 0x10 */
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#define esp_busid esp_status /* wo Bus ID for select/reselect 0x10 */
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#define esp_intrpt io_addr + 5 /* ro Kind of interrupt 0x14 */
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#define esp_timeo esp_intrpt /* wo Timeout value for select/resel 0x14 */
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#define esp_sstep io_addr + 6 /* ro Sequence step register 0x18 */
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#define esp_stp esp_sstep /* wo Transfer period per sync 0x18 */
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#define esp_fflags io_addr + 7 /* ro Bits of current FIFO info 0x1c */
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#define esp_soff esp_fflags /* wo Sync offset 0x1c */
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#define esp_cfg1 io_addr + 8 /* rw First configuration register 0x20 */
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#define esp_cfact io_addr + 9 /* wo Clock conversion factor 0x24 */
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#define esp_ctest io_addr + 10 /* wo Chip test register 0x28 */
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#define esp_cfg2 io_addr + 11 /* rw Second configuration register 0x2c */
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/* The following is only found on the 53C9X series SCSI chips */
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#define esp_cfg3 io_addr + 12 /* rw Third configuration register 0x30 */
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#define esp_cfg4 io_addr + 13 /* rw Fourth configuration register 0x34 */
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/* The following is found on all chips except the NCR53C90 (ESP100) */
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#define esp_tchi io_addr + 14 /* rw High bits of transfer count 0x38 */
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#define esp_uid esp_tchi /* ro Unique ID code 0x38 */
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#define esp_fgrnd io_addr + 15 /* rw Data base for fifo 0x3c */
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};
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#endif /* !defined(__i386__) && !defined(__x86_64__) */
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/* Various revisions of the ESP board. */
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enum esp_rev {
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esp100 = 0x00, /* NCR53C90 - very broken */
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esp100a = 0x01, /* NCR53C90A */
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esp236 = 0x02,
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fas236 = 0x03,
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fas100a = 0x04,
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fast = 0x05,
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fas366 = 0x06,
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fas216 = 0x07,
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fsc = 0x08, /* SYM53C94-2 */
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espunknown = 0x09
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};
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/* We allocate one of these for each scsi device and attach it to
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* SDptr->hostdata for use in the driver
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*/
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struct esp_device {
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unsigned char sync_min_period;
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unsigned char sync_max_offset;
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unsigned sync:1;
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unsigned wide:1;
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unsigned disconnect:1;
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};
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/* We get one of these for each ESP probed. */
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struct NCR_ESP {
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struct NCR_ESP *next; /* Next ESP on probed or NULL */
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struct ESP_regs *eregs; /* All esp registers */
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int dma; /* Who I do transfers with. */
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void *dregs; /* And his registers. */
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struct Scsi_Host *ehost; /* Backpointer to SCSI Host */
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void *edev; /* Pointer to controller base/SBus */
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int esp_id; /* Unique per-ESP ID number */
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/* ESP Configuration Registers */
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unsigned char config1; /* Copy of the 1st config register */
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unsigned char config2; /* Copy of the 2nd config register */
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unsigned char config3[16]; /* Copy of the 3rd config register */
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/* The current command we are sending to the ESP chip. This esp_command
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* ptr needs to be mapped in DVMA area so we can send commands and read
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* from the ESP fifo without burning precious CPU cycles. Programmed I/O
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* sucks when we have the DVMA to do it for us. The ESP is stupid and will
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* only send out 6, 10, and 12 byte SCSI commands, others we need to send
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* one byte at a time. esp_slowcmd being set says that we are doing one
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* of the command types ESP doesn't understand, esp_scmdp keeps track of
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* which byte we are sending, esp_scmdleft says how many bytes to go.
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*/
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volatile unchar *esp_command; /* Location of command (CPU view) */
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__u32 esp_command_dvma; /* Location of command (DVMA view) */
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unsigned char esp_clen; /* Length of this command */
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unsigned char esp_slowcmd;
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unsigned char *esp_scmdp;
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unsigned char esp_scmdleft;
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/* The following are used to determine the cause of an IRQ. Upon every
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* IRQ entry we synchronize these with the hardware registers.
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*/
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unchar ireg; /* Copy of ESP interrupt register */
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unchar sreg; /* Same for ESP status register */
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unchar seqreg; /* The ESP sequence register */
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/* The following is set when a premature interrupt condition is detected
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* in some FAS revisions.
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*/
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unchar fas_premature_intr_workaround;
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/* To save register writes to the ESP, which can be expensive, we
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* keep track of the previous value that various registers had for
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* the last target we connected to. If they are the same for the
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* current target, we skip the register writes as they are not needed.
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*/
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unchar prev_soff, prev_stp, prev_cfg3;
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/* For each target we keep track of save/restore data
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* pointer information. This needs to be updated majorly
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* when we add support for tagged queueing. -DaveM
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*/
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struct esp_pointers {
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char *saved_ptr;
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struct scatterlist *saved_buffer;
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int saved_this_residual;
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int saved_buffers_residual;
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} data_pointers[16] /*XXX [MAX_TAGS_PER_TARGET]*/;
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/* Clock periods, frequencies, synchronization, etc. */
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unsigned int cfreq; /* Clock frequency in HZ */
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unsigned int cfact; /* Clock conversion factor */
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unsigned int ccycle; /* One ESP clock cycle */
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unsigned int ctick; /* One ESP clock time */
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unsigned int radelay; /* FAST chip req/ack delay */
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unsigned int neg_defp; /* Default negotiation period */
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unsigned int sync_defp; /* Default sync transfer period */
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unsigned int max_period; /* longest our period can be */
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unsigned int min_period; /* shortest period we can withstand */
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/* For slow to medium speed input clock rates we shoot for 5mb/s,
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* but for high input clock rates we try to do 10mb/s although I
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* don't think a transfer can even run that fast with an ESP even
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* with DMA2 scatter gather pipelining.
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*/
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#define SYNC_DEFP_SLOW 0x32 /* 5mb/s */
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#define SYNC_DEFP_FAST 0x19 /* 10mb/s */
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unsigned int snip; /* Sync. negotiation in progress */
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unsigned int wnip; /* WIDE negotiation in progress */
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unsigned int targets_present; /* targets spoken to before */
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int current_transfer_size; /* Set at beginning of data dma */
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unchar espcmdlog[32]; /* Log of current esp cmds sent. */
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unchar espcmdent; /* Current entry in esp cmd log. */
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/* Misc. info about this ESP */
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enum esp_rev erev; /* ESP revision */
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int irq; /* IRQ for this ESP */
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int scsi_id; /* Who am I as initiator? */
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int scsi_id_mask; /* Bitmask of 'me'. */
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int diff; /* Differential SCSI bus? */
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int slot; /* Slot the adapter occupies */
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/* Our command queues, only one cmd lives in the current_SC queue. */
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Scsi_Cmnd *issue_SC; /* Commands to be issued */
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Scsi_Cmnd *current_SC; /* Who is currently working the bus */
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Scsi_Cmnd *disconnected_SC; /* Commands disconnected from the bus */
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/* Message goo */
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unchar cur_msgout[16];
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unchar cur_msgin[16];
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unchar prevmsgout, prevmsgin;
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unchar msgout_len, msgin_len;
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unchar msgout_ctr, msgin_ctr;
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/* States that we cannot keep in the per cmd structure because they
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* cannot be assosciated with any specific command.
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*/
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unchar resetting_bus;
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wait_queue_head_t reset_queue;
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unchar do_pio_cmds; /* Do command transfer with pio */
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/* How much bits do we have to shift the registers */
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unsigned char shift;
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/* Functions handling DMA
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*/
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/* Required functions */
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int (*dma_bytes_sent)(struct NCR_ESP *, int);
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int (*dma_can_transfer)(struct NCR_ESP *, Scsi_Cmnd *);
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void (*dma_dump_state)(struct NCR_ESP *);
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void (*dma_init_read)(struct NCR_ESP *, __u32, int);
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void (*dma_init_write)(struct NCR_ESP *, __u32, int);
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void (*dma_ints_off)(struct NCR_ESP *);
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void (*dma_ints_on)(struct NCR_ESP *);
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int (*dma_irq_p)(struct NCR_ESP *);
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int (*dma_ports_p)(struct NCR_ESP *);
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void (*dma_setup)(struct NCR_ESP *, __u32, int, int);
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/* Optional functions (i.e. may be initialized to 0) */
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void (*dma_barrier)(struct NCR_ESP *);
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void (*dma_drain)(struct NCR_ESP *);
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void (*dma_invalidate)(struct NCR_ESP *);
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void (*dma_irq_entry)(struct NCR_ESP *);
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void (*dma_irq_exit)(struct NCR_ESP *);
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void (*dma_led_off)(struct NCR_ESP *);
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void (*dma_led_on)(struct NCR_ESP *);
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void (*dma_poll)(struct NCR_ESP *, unsigned char *);
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void (*dma_reset)(struct NCR_ESP *);
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/* Optional virtual DMA functions */
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void (*dma_mmu_get_scsi_one)(struct NCR_ESP *, Scsi_Cmnd *);
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void (*dma_mmu_get_scsi_sgl)(struct NCR_ESP *, Scsi_Cmnd *);
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void (*dma_mmu_release_scsi_one)(struct NCR_ESP *, Scsi_Cmnd *);
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void (*dma_mmu_release_scsi_sgl)(struct NCR_ESP *, Scsi_Cmnd *);
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void (*dma_advance_sg)(Scsi_Cmnd *);
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};
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/* Bitfield meanings for the above registers. */
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/* ESP config reg 1, read-write, found on all ESP chips */
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#define ESP_CONFIG1_ID 0x07 /* My BUS ID bits */
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#define ESP_CONFIG1_CHTEST 0x08 /* Enable ESP chip tests */
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#define ESP_CONFIG1_PENABLE 0x10 /* Enable parity checks */
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#define ESP_CONFIG1_PARTEST 0x20 /* Parity test mode enabled? */
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#define ESP_CONFIG1_SRRDISAB 0x40 /* Disable SCSI reset reports */
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#define ESP_CONFIG1_SLCABLE 0x80 /* Enable slow cable mode */
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/* ESP config reg 2, read-write, found only on esp100a+esp200+esp236+fsc chips */
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#define ESP_CONFIG2_DMAPARITY 0x01 /* enable DMA Parity (200,236,fsc) */
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#define ESP_CONFIG2_REGPARITY 0x02 /* enable reg Parity (200,236,fsc) */
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#define ESP_CONFIG2_BADPARITY 0x04 /* Bad parity target abort */
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#define ESP_CONFIG2_SCSI2ENAB 0x08 /* Enable SCSI-2 features (tmode only) */
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#define ESP_CONFIG2_HI 0x10 /* High Impedance DREQ ??? */
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#define ESP_CONFIG2_HMEFENAB 0x10 /* HME features enable */
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#define ESP_CONFIG2_BCM 0x20 /* Enable byte-ctrl (236,fsc) */
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#define ESP_CONFIG2_FENAB 0x40 /* Enable features (fas100,esp216,fsc) */
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#define ESP_CONFIG2_SPL 0x40 /* Enable status-phase latch (esp236) */
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#define ESP_CONFIG2_RFB 0x80 /* Reserve FIFO byte (fsc) */
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#define ESP_CONFIG2_MAGIC 0xe0 /* Invalid bits... */
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/* ESP config register 3 read-write, found only esp236+fas236+fas100a+fsc chips */
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#define ESP_CONFIG3_FCLOCK 0x01 /* FAST SCSI clock rate (esp100a/fas366) */
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#define ESP_CONFIG3_TEM 0x01 /* Enable thresh-8 mode (esp/fas236/fsc) */
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#define ESP_CONFIG3_FAST 0x02 /* Enable FAST SCSI (esp100a) */
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#define ESP_CONFIG3_ADMA 0x02 /* Enable alternate-dma (esp/fas236/fsc) */
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#define ESP_CONFIG3_TENB 0x04 /* group2 SCSI2 support (esp100a) */
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#define ESP_CONFIG3_SRB 0x04 /* Save residual byte (esp/fas236/fsc) */
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#define ESP_CONFIG3_TMS 0x08 /* Three-byte msg's ok (esp100a) */
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#define ESP_CONFIG3_FCLK 0x08 /* Fast SCSI clock rate (esp/fas236/fsc) */
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#define ESP_CONFIG3_IDMSG 0x10 /* ID message checking (esp100a) */
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#define ESP_CONFIG3_FSCSI 0x10 /* Enable FAST SCSI (esp/fas236/fsc) */
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#define ESP_CONFIG3_GTM 0x20 /* group2 SCSI2 support (esp/fas236/fsc) */
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#define ESP_CONFIG3_TBMS 0x40 /* Three-byte msg's ok (esp/fas236/fsc) */
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#define ESP_CONFIG3_IMS 0x80 /* ID msg chk'ng (esp/fas236/fsc) */
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/* ESP config register 4 read-write, found only on fsc chips */
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#define ESP_CONFIG4_BBTE 0x01 /* Back-to-Back transfer enable */
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#define ESP_CONFIG4_TEST 0x02 /* Transfer counter test mode */
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#define ESP_CONFIG4_EAN 0x04 /* Enable Active Negotiation */
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/* ESP command register read-write */
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/* Group 1 commands: These may be sent at any point in time to the ESP
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* chip. None of them can generate interrupts 'cept
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* the "SCSI bus reset" command if you have not disabled
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* SCSI reset interrupts in the config1 ESP register.
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*/
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#define ESP_CMD_NULL 0x00 /* Null command, ie. a nop */
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#define ESP_CMD_FLUSH 0x01 /* FIFO Flush */
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#define ESP_CMD_RC 0x02 /* Chip reset */
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#define ESP_CMD_RS 0x03 /* SCSI bus reset */
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/* Group 2 commands: ESP must be an initiator and connected to a target
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* for these commands to work.
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*/
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#define ESP_CMD_TI 0x10 /* Transfer Information */
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#define ESP_CMD_ICCSEQ 0x11 /* Initiator cmd complete sequence */
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#define ESP_CMD_MOK 0x12 /* Message okie-dokie */
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#define ESP_CMD_TPAD 0x18 /* Transfer Pad */
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#define ESP_CMD_SATN 0x1a /* Set ATN */
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#define ESP_CMD_RATN 0x1b /* De-assert ATN */
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/* Group 3 commands: ESP must be in the MSGOUT or MSGIN state and be connected
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* to a target as the initiator for these commands to work.
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*/
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#define ESP_CMD_SMSG 0x20 /* Send message */
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#define ESP_CMD_SSTAT 0x21 /* Send status */
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#define ESP_CMD_SDATA 0x22 /* Send data */
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#define ESP_CMD_DSEQ 0x23 /* Discontinue Sequence */
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#define ESP_CMD_TSEQ 0x24 /* Terminate Sequence */
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#define ESP_CMD_TCCSEQ 0x25 /* Target cmd cmplt sequence */
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#define ESP_CMD_DCNCT 0x27 /* Disconnect */
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#define ESP_CMD_RMSG 0x28 /* Receive Message */
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#define ESP_CMD_RCMD 0x29 /* Receive Command */
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#define ESP_CMD_RDATA 0x2a /* Receive Data */
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#define ESP_CMD_RCSEQ 0x2b /* Receive cmd sequence */
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|
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/* Group 4 commands: The ESP must be in the disconnected state and must
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* not be connected to any targets as initiator for
|
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* these commands to work.
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*/
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#define ESP_CMD_RSEL 0x40 /* Reselect */
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#define ESP_CMD_SEL 0x41 /* Select w/o ATN */
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#define ESP_CMD_SELA 0x42 /* Select w/ATN */
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#define ESP_CMD_SELAS 0x43 /* Select w/ATN & STOP */
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#define ESP_CMD_ESEL 0x44 /* Enable selection */
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#define ESP_CMD_DSEL 0x45 /* Disable selections */
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#define ESP_CMD_SA3 0x46 /* Select w/ATN3 */
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#define ESP_CMD_RSEL3 0x47 /* Reselect3 */
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/* This bit enables the ESP's DMA */
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#define ESP_CMD_DMA 0x80 /* Do DMA? */
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|
|
|
/* ESP status register read-only */
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#define ESP_STAT_PIO 0x01 /* IO phase bit */
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#define ESP_STAT_PCD 0x02 /* CD phase bit */
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#define ESP_STAT_PMSG 0x04 /* MSG phase bit */
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#define ESP_STAT_PMASK 0x07 /* Mask of phase bits */
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#define ESP_STAT_TDONE 0x08 /* Transfer Completed */
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#define ESP_STAT_TCNT 0x10 /* Transfer Counter Is Zero */
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#define ESP_STAT_PERR 0x20 /* Parity error */
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|
#define ESP_STAT_SPAM 0x40 /* Real bad error */
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|
/* This indicates the 'interrupt pending' condition, it is a reserved
|
|
* bit on old revs of the ESP (ESP100, ESP100A, FAS100A).
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|
*/
|
|
#define ESP_STAT_INTR 0x80 /* Interrupt */
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|
|
|
/* The status register can be masked with ESP_STAT_PMASK and compared
|
|
* with the following values to determine the current phase the ESP
|
|
* (at least thinks it) is in. For our purposes we also add our own
|
|
* software 'done' bit for our phase management engine.
|
|
*/
|
|
#define ESP_DOP (0) /* Data Out */
|
|
#define ESP_DIP (ESP_STAT_PIO) /* Data In */
|
|
#define ESP_CMDP (ESP_STAT_PCD) /* Command */
|
|
#define ESP_STATP (ESP_STAT_PCD|ESP_STAT_PIO) /* Status */
|
|
#define ESP_MOP (ESP_STAT_PMSG|ESP_STAT_PCD) /* Message Out */
|
|
#define ESP_MIP (ESP_STAT_PMSG|ESP_STAT_PCD|ESP_STAT_PIO) /* Message In */
|
|
|
|
/* ESP interrupt register read-only */
|
|
#define ESP_INTR_S 0x01 /* Select w/o ATN */
|
|
#define ESP_INTR_SATN 0x02 /* Select w/ATN */
|
|
#define ESP_INTR_RSEL 0x04 /* Reselected */
|
|
#define ESP_INTR_FDONE 0x08 /* Function done */
|
|
#define ESP_INTR_BSERV 0x10 /* Bus service */
|
|
#define ESP_INTR_DC 0x20 /* Disconnect */
|
|
#define ESP_INTR_IC 0x40 /* Illegal command given */
|
|
#define ESP_INTR_SR 0x80 /* SCSI bus reset detected */
|
|
|
|
/* Interrupt status macros */
|
|
#define ESP_SRESET_IRQ(esp) ((esp)->intreg & (ESP_INTR_SR))
|
|
#define ESP_ILLCMD_IRQ(esp) ((esp)->intreg & (ESP_INTR_IC))
|
|
#define ESP_SELECT_WITH_ATN_IRQ(esp) ((esp)->intreg & (ESP_INTR_SATN))
|
|
#define ESP_SELECT_WITHOUT_ATN_IRQ(esp) ((esp)->intreg & (ESP_INTR_S))
|
|
#define ESP_SELECTION_IRQ(esp) ((ESP_SELECT_WITH_ATN_IRQ(esp)) || \
|
|
(ESP_SELECT_WITHOUT_ATN_IRQ(esp)))
|
|
#define ESP_RESELECTION_IRQ(esp) ((esp)->intreg & (ESP_INTR_RSEL))
|
|
|
|
/* ESP sequence step register read-only */
|
|
#define ESP_STEP_VBITS 0x07 /* Valid bits */
|
|
#define ESP_STEP_ASEL 0x00 /* Selection&Arbitrate cmplt */
|
|
#define ESP_STEP_SID 0x01 /* One msg byte sent */
|
|
#define ESP_STEP_NCMD 0x02 /* Was not in command phase */
|
|
#define ESP_STEP_PPC 0x03 /* Early phase chg caused cmnd
|
|
* bytes to be lost
|
|
*/
|
|
#define ESP_STEP_FINI4 0x04 /* Command was sent ok */
|
|
|
|
/* Ho hum, some ESP's set the step register to this as well... */
|
|
#define ESP_STEP_FINI5 0x05
|
|
#define ESP_STEP_FINI6 0x06
|
|
#define ESP_STEP_FINI7 0x07
|
|
#define ESP_STEP_SOM 0x08 /* Synchronous Offset Max */
|
|
|
|
/* ESP chip-test register read-write */
|
|
#define ESP_TEST_TARG 0x01 /* Target test mode */
|
|
#define ESP_TEST_INI 0x02 /* Initiator test mode */
|
|
#define ESP_TEST_TS 0x04 /* Tristate test mode */
|
|
|
|
/* ESP unique ID register read-only, found on fas236+fas100a+fsc only */
|
|
#define ESP_UID_F100A 0x00 /* FAS100A */
|
|
#define ESP_UID_F236 0x02 /* FAS236 */
|
|
#define ESP_UID_FSC 0xa2 /* NCR53CF9x-2 */
|
|
#define ESP_UID_REV 0x07 /* ESP revision */
|
|
#define ESP_UID_FAM 0xf8 /* ESP family */
|
|
|
|
/* ESP fifo flags register read-only */
|
|
/* Note that the following implies a 16 byte FIFO on the ESP. */
|
|
#define ESP_FF_FBYTES 0x1f /* Num bytes in FIFO */
|
|
#define ESP_FF_ONOTZERO 0x20 /* offset ctr not zero (esp100,fsc) */
|
|
#define ESP_FF_SSTEP 0xe0 /* Sequence step */
|
|
|
|
/* ESP clock conversion factor register write-only */
|
|
#define ESP_CCF_F0 0x00 /* 35.01MHz - 40MHz */
|
|
#define ESP_CCF_NEVER 0x01 /* Set it to this and die */
|
|
#define ESP_CCF_F2 0x02 /* 10MHz */
|
|
#define ESP_CCF_F3 0x03 /* 10.01MHz - 15MHz */
|
|
#define ESP_CCF_F4 0x04 /* 15.01MHz - 20MHz */
|
|
#define ESP_CCF_F5 0x05 /* 20.01MHz - 25MHz */
|
|
#define ESP_CCF_F6 0x06 /* 25.01MHz - 30MHz */
|
|
#define ESP_CCF_F7 0x07 /* 30.01MHz - 35MHz */
|
|
|
|
#define ESP_BUS_TIMEOUT 275 /* In milli-seconds */
|
|
#define ESP_TIMEO_CONST 8192
|
|
#define FSC_TIMEO_CONST 7668
|
|
#define ESP_NEG_DEFP(mhz, cfact) \
|
|
((ESP_BUS_TIMEOUT * ((mhz) / 1000)) / (8192 * (cfact)))
|
|
#define FSC_NEG_DEFP(mhz, cfact) \
|
|
((ESP_BUS_TIMEOUT * ((mhz) / 1000)) / (7668 * (cfact)))
|
|
#define ESP_MHZ_TO_CYCLE(mhertz) ((1000000000) / ((mhertz) / 1000))
|
|
#define ESP_TICK(ccf, cycle) ((7682 * (ccf) * (cycle) / 1000))
|
|
|
|
|
|
/* UGLY, UGLY, UGLY! */
|
|
extern int nesps, esps_in_use, esps_running;
|
|
|
|
/* For our interrupt engine. */
|
|
#define for_each_esp(esp) \
|
|
for((esp) = espchain; (esp); (esp) = (esp)->next)
|
|
|
|
|
|
/* External functions */
|
|
extern void esp_bootup_reset(struct NCR_ESP *esp, struct ESP_regs *eregs);
|
|
extern struct NCR_ESP *esp_allocate(struct scsi_host_template *, void *, int);
|
|
extern void esp_deallocate(struct NCR_ESP *);
|
|
extern void esp_release(void);
|
|
extern void esp_initialize(struct NCR_ESP *);
|
|
extern irqreturn_t esp_intr(int, void *);
|
|
extern const char *esp_info(struct Scsi_Host *);
|
|
extern int esp_queue(Scsi_Cmnd *, void (*done)(Scsi_Cmnd *));
|
|
extern int esp_abort(Scsi_Cmnd *);
|
|
extern int esp_reset(Scsi_Cmnd *);
|
|
extern int esp_proc_info(struct Scsi_Host *shost, char *buffer, char **start, off_t offset, int length,
|
|
int inout);
|
|
extern int esp_slave_alloc(struct scsi_device *);
|
|
extern void esp_slave_destroy(struct scsi_device *);
|
|
#endif /* !(NCR53C9X_H) */
|