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-rw-r--r--drivers/scsi/blz1230.c353
1 files changed, 0 insertions, 353 deletions
diff --git a/drivers/scsi/blz1230.c b/drivers/scsi/blz1230.c
deleted file mode 100644
index 23f7c24..0000000
--- a/drivers/scsi/blz1230.c
+++ /dev/null
@@ -1,353 +0,0 @@
-/* blz1230.c: Driver for Blizzard 1230 SCSI IV Controller.
- *
- * Copyright (C) 1996 Jesper Skov (jskov@cygnus.co.uk)
- *
- * This driver is based on the CyberStorm driver, hence the occasional
- * reference to CyberStorm.
- */
-
-/* TODO:
- *
- * 1) Figure out how to make a cleaner merge with the sparc driver with regard
- * to the caches and the Sparc MMU mapping.
- * 2) Make as few routines required outside the generic driver. A lot of the
- * routines in this file used to be inline!
- */
-
-#include <linux/module.h>
-
-#include <linux/init.h>
-#include <linux/kernel.h>
-#include <linux/delay.h>
-#include <linux/types.h>
-#include <linux/string.h>
-#include <linux/slab.h>
-#include <linux/blkdev.h>
-#include <linux/proc_fs.h>
-#include <linux/stat.h>
-#include <linux/interrupt.h>
-
-#include "scsi.h"
-#include <scsi/scsi_host.h>
-#include "NCR53C9x.h"
-
-#include <linux/zorro.h>
-#include <asm/irq.h>
-#include <asm/amigaints.h>
-#include <asm/amigahw.h>
-
-#include <asm/pgtable.h>
-
-#define MKIV 1
-
-/* The controller registers can be found in the Z2 config area at these
- * offsets:
- */
-#define BLZ1230_ESP_ADDR 0x8000
-#define BLZ1230_DMA_ADDR 0x10000
-#define BLZ1230II_ESP_ADDR 0x10000
-#define BLZ1230II_DMA_ADDR 0x10021
-
-
-/* The Blizzard 1230 DMA interface
- * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
- * Only two things can be programmed in the Blizzard DMA:
- * 1) The data direction is controlled by the status of bit 31 (1 = write)
- * 2) The source/dest address (word aligned, shifted one right) in bits 30-0
- *
- * Program DMA by first latching the highest byte of the address/direction
- * (i.e. bits 31-24 of the long word constructed as described in steps 1+2
- * above). Then write each byte of the address/direction (starting with the
- * top byte, working down) to the DMA address register.
- *
- * Figure out interrupt status by reading the ESP status byte.
- */
-struct blz1230_dma_registers {
- volatile unsigned char dma_addr; /* DMA address [0x0000] */
- unsigned char dmapad2[0x7fff];
- volatile unsigned char dma_latch; /* DMA latch [0x8000] */
-};
-
-struct blz1230II_dma_registers {
- volatile unsigned char dma_addr; /* DMA address [0x0000] */
- unsigned char dmapad2[0xf];
- volatile unsigned char dma_latch; /* DMA latch [0x0010] */
-};
-
-#define BLZ1230_DMA_WRITE 0x80000000
-
-static int dma_bytes_sent(struct NCR_ESP *esp, int fifo_count);
-static int dma_can_transfer(struct NCR_ESP *esp, Scsi_Cmnd *sp);
-static void dma_dump_state(struct NCR_ESP *esp);
-static void dma_init_read(struct NCR_ESP *esp, __u32 addr, int length);
-static void dma_init_write(struct NCR_ESP *esp, __u32 addr, int length);
-static void dma_ints_off(struct NCR_ESP *esp);
-static void dma_ints_on(struct NCR_ESP *esp);
-static int dma_irq_p(struct NCR_ESP *esp);
-static int dma_ports_p(struct NCR_ESP *esp);
-static void dma_setup(struct NCR_ESP *esp, __u32 addr, int count, int write);
-
-static volatile unsigned char cmd_buffer[16];
- /* This is where all commands are put
- * before they are transferred to the ESP chip
- * via PIO.
- */
-
-/***************************************************************** Detection */
-int __init blz1230_esp_detect(struct scsi_host_template *tpnt)
-{
- struct NCR_ESP *esp;
- struct zorro_dev *z = NULL;
- unsigned long address;
- struct ESP_regs *eregs;
- unsigned long board;
-
-#if MKIV
-#define REAL_BLZ1230_ID ZORRO_PROD_PHASE5_BLIZZARD_1230_IV_1260
-#define REAL_BLZ1230_ESP_ADDR BLZ1230_ESP_ADDR
-#define REAL_BLZ1230_DMA_ADDR BLZ1230_DMA_ADDR
-#else
-#define REAL_BLZ1230_ID ZORRO_PROD_PHASE5_BLIZZARD_1230_II_FASTLANE_Z3_CYBERSCSI_CYBERSTORM060
-#define REAL_BLZ1230_ESP_ADDR BLZ1230II_ESP_ADDR
-#define REAL_BLZ1230_DMA_ADDR BLZ1230II_DMA_ADDR
-#endif
-
- if ((z = zorro_find_device(REAL_BLZ1230_ID, z))) {
- board = z->resource.start;
- if (request_mem_region(board+REAL_BLZ1230_ESP_ADDR,
- sizeof(struct ESP_regs), "NCR53C9x")) {
- /* Do some magic to figure out if the blizzard is
- * equipped with a SCSI controller
- */
- address = ZTWO_VADDR(board);
- eregs = (struct ESP_regs *)(address + REAL_BLZ1230_ESP_ADDR);
- esp = esp_allocate(tpnt, (void *)board + REAL_BLZ1230_ESP_ADDR,
- 0);
-
- esp_write(eregs->esp_cfg1, (ESP_CONFIG1_PENABLE | 7));
- udelay(5);
- if(esp_read(eregs->esp_cfg1) != (ESP_CONFIG1_PENABLE | 7))
- goto err_out;
-
- /* Do command transfer with programmed I/O */
- esp->do_pio_cmds = 1;
-
- /* Required functions */
- esp->dma_bytes_sent = &dma_bytes_sent;
- esp->dma_can_transfer = &dma_can_transfer;
- esp->dma_dump_state = &dma_dump_state;
- esp->dma_init_read = &dma_init_read;
- esp->dma_init_write = &dma_init_write;
- esp->dma_ints_off = &dma_ints_off;
- esp->dma_ints_on = &dma_ints_on;
- esp->dma_irq_p = &dma_irq_p;
- esp->dma_ports_p = &dma_ports_p;
- esp->dma_setup = &dma_setup;
-
- /* Optional functions */
- esp->dma_barrier = 0;
- esp->dma_drain = 0;
- esp->dma_invalidate = 0;
- esp->dma_irq_entry = 0;
- esp->dma_irq_exit = 0;
- esp->dma_led_on = 0;
- esp->dma_led_off = 0;
- esp->dma_poll = 0;
- esp->dma_reset = 0;
-
- /* SCSI chip speed */
- esp->cfreq = 40000000;
-
- /* The DMA registers on the Blizzard are mapped
- * relative to the device (i.e. in the same Zorro
- * I/O block).
- */
- esp->dregs = (void *)(address + REAL_BLZ1230_DMA_ADDR);
-
- /* ESP register base */
- esp->eregs = eregs;
-
- /* Set the command buffer */
- esp->esp_command = cmd_buffer;
- esp->esp_command_dvma = virt_to_bus((void *)cmd_buffer);
-
- esp->irq = IRQ_AMIGA_PORTS;
- esp->slot = board+REAL_BLZ1230_ESP_ADDR;
- if (request_irq(IRQ_AMIGA_PORTS, esp_intr, IRQF_SHARED,
- "Blizzard 1230 SCSI IV", esp->ehost))
- goto err_out;
-
- /* Figure out our scsi ID on the bus */
- esp->scsi_id = 7;
-
- /* We don't have a differential SCSI-bus. */
- esp->diff = 0;
-
- esp_initialize(esp);
-
- printk("ESP: Total of %d ESP hosts found, %d actually in use.\n", nesps, esps_in_use);
- esps_running = esps_in_use;
- return esps_in_use;
- }
- }
- return 0;
-
- err_out:
- scsi_unregister(esp->ehost);
- esp_deallocate(esp);
- release_mem_region(board+REAL_BLZ1230_ESP_ADDR,
- sizeof(struct ESP_regs));
- return 0;
-}
-
-/************************************************************* DMA Functions */
-static int dma_bytes_sent(struct NCR_ESP *esp, int fifo_count)
-{
- /* Since the Blizzard DMA is fully dedicated to the ESP chip,
- * the number of bytes sent (to the ESP chip) equals the number
- * of bytes in the FIFO - there is no buffering in the DMA controller.
- * XXXX Do I read this right? It is from host to ESP, right?
- */
- return fifo_count;
-}
-
-static int dma_can_transfer(struct NCR_ESP *esp, Scsi_Cmnd *sp)
-{
- /* I don't think there's any limit on the Blizzard DMA. So we use what
- * the ESP chip can handle (24 bit).
- */
- unsigned long sz = sp->SCp.this_residual;
- if(sz > 0x1000000)
- sz = 0x1000000;
- return sz;
-}
-
-static void dma_dump_state(struct NCR_ESP *esp)
-{
- ESPLOG(("intreq:<%04x>, intena:<%04x>\n",
- amiga_custom.intreqr, amiga_custom.intenar));
-}
-
-void dma_init_read(struct NCR_ESP *esp, __u32 addr, int length)
-{
-#if MKIV
- struct blz1230_dma_registers *dregs =
- (struct blz1230_dma_registers *) (esp->dregs);
-#else
- struct blz1230II_dma_registers *dregs =
- (struct blz1230II_dma_registers *) (esp->dregs);
-#endif
-
- cache_clear(addr, length);
-
- addr >>= 1;
- addr &= ~(BLZ1230_DMA_WRITE);
-
- /* First set latch */
- dregs->dma_latch = (addr >> 24) & 0xff;
-
- /* Then pump the address to the DMA address register */
-#if MKIV
- dregs->dma_addr = (addr >> 24) & 0xff;
-#endif
- dregs->dma_addr = (addr >> 16) & 0xff;
- dregs->dma_addr = (addr >> 8) & 0xff;
- dregs->dma_addr = (addr ) & 0xff;
-}
-
-void dma_init_write(struct NCR_ESP *esp, __u32 addr, int length)
-{
-#if MKIV
- struct blz1230_dma_registers *dregs =
- (struct blz1230_dma_registers *) (esp->dregs);
-#else
- struct blz1230II_dma_registers *dregs =
- (struct blz1230II_dma_registers *) (esp->dregs);
-#endif
-
- cache_push(addr, length);
-
- addr >>= 1;
- addr |= BLZ1230_DMA_WRITE;
-
- /* First set latch */
- dregs->dma_latch = (addr >> 24) & 0xff;
-
- /* Then pump the address to the DMA address register */
-#if MKIV
- dregs->dma_addr = (addr >> 24) & 0xff;
-#endif
- dregs->dma_addr = (addr >> 16) & 0xff;
- dregs->dma_addr = (addr >> 8) & 0xff;
- dregs->dma_addr = (addr ) & 0xff;
-}
-
-static void dma_ints_off(struct NCR_ESP *esp)
-{
- disable_irq(esp->irq);
-}
-
-static void dma_ints_on(struct NCR_ESP *esp)
-{
- enable_irq(esp->irq);
-}
-
-static int dma_irq_p(struct NCR_ESP *esp)
-{
- return (esp_read(esp->eregs->esp_status) & ESP_STAT_INTR);
-}
-
-static int dma_ports_p(struct NCR_ESP *esp)
-{
- return ((amiga_custom.intenar) & IF_PORTS);
-}
-
-static void dma_setup(struct NCR_ESP *esp, __u32 addr, int count, int write)
-{
- /* On the Sparc, DMA_ST_WRITE means "move data from device to memory"
- * so when (write) is true, it actually means READ!
- */
- if(write){
- dma_init_read(esp, addr, count);
- } else {
- dma_init_write(esp, addr, count);
- }
-}
-
-#define HOSTS_C
-
-int blz1230_esp_release(struct Scsi_Host *instance)
-{
-#ifdef MODULE
- unsigned long address = (unsigned long)((struct NCR_ESP *)instance->hostdata)->edev;
- esp_deallocate((struct NCR_ESP *)instance->hostdata);
- esp_release();
- release_mem_region(address, sizeof(struct ESP_regs));
- free_irq(IRQ_AMIGA_PORTS, esp_intr);
-#endif
- return 1;
-}
-
-
-static struct scsi_host_template driver_template = {
- .proc_name = "esp-blz1230",
- .proc_info = esp_proc_info,
- .name = "Blizzard1230 SCSI IV",
- .detect = blz1230_esp_detect,
- .slave_alloc = esp_slave_alloc,
- .slave_destroy = esp_slave_destroy,
- .release = blz1230_esp_release,
- .queuecommand = esp_queue,
- .eh_abort_handler = esp_abort,
- .eh_bus_reset_handler = esp_reset,
- .can_queue = 7,
- .this_id = 7,
- .sg_tablesize = SG_ALL,
- .cmd_per_lun = 1,
- .use_clustering = ENABLE_CLUSTERING
-};
-
-
-#include "scsi_module.c"
-
-MODULE_LICENSE("GPL");
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