From ca61f10ab2b874b889e89d14ea09fae2dcccdca6 Mon Sep 17 00:00:00 2001
From: James Bottomley <jejb@mulgrave.(none)>
Date: Sat, 29 Oct 2005 10:01:24 -0500
Subject: [SCSI] remove broken driver cpqfc

Hopefully there should be a brand new replacement driver for this heap
of junk by the beginning of next year.

Acked By: Martin K. Petersen <mkp@mkp.net>
Signed-off-by: James Bottomley <James.Bottomley@SteelEye.com>
---
 drivers/scsi/cpqfcTSi2c.c | 493 ----------------------------------------------
 1 file changed, 493 deletions(-)
 delete mode 100644 drivers/scsi/cpqfcTSi2c.c

(limited to 'drivers/scsi/cpqfcTSi2c.c')

diff --git a/drivers/scsi/cpqfcTSi2c.c b/drivers/scsi/cpqfcTSi2c.c
deleted file mode 100644
index b38a6a9..0000000
--- a/drivers/scsi/cpqfcTSi2c.c
+++ /dev/null
@@ -1,493 +0,0 @@
-/* Copyright(c) 2000, Compaq Computer Corporation 
- * Fibre Channel Host Bus Adapter 
- * 64-bit, 66MHz PCI 
- * Originally developed and tested on:
- * (front): [chip] Tachyon TS HPFC-5166A/1.2  L2C1090 ...
- *          SP# P225CXCBFIEL6T, Rev XC
- *          SP# 161290-001, Rev XD
- * (back): Board No. 010008-001 A/W Rev X5, FAB REV X5
- *
- * This program is free software; you can redistribute it and/or modify it
- * under the terms of the GNU General Public License as published by the
- * Free Software Foundation; either version 2, or (at your option) any
- * later version.
- *
- * This program is distributed in the hope that it will be useful, but
- * WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
- * General Public License for more details.
- * Written by Don Zimmerman
-*/
-// These functions control the NVRAM I2C hardware on 
-// non-intelligent Fibre Host Adapters.
-// The primary purpose is to read the HBA's NVRAM to get adapter's 
-// manufactured WWN to copy into Tachyon chip registers
-// Orignal source author unknown
-
-#include <linux/types.h>
-enum boolean { FALSE, TRUE } ;
-
-
-#ifndef UCHAR
-typedef __u8 UCHAR;
-#endif
-#ifndef BOOLEAN
-typedef __u8 BOOLEAN;
-#endif
-#ifndef USHORT
-typedef __u16 USHORT;
-#endif
-#ifndef ULONG
-typedef __u32 ULONG;
-#endif
-
-
-#include <linux/string.h>
-#include <linux/pci.h>
-#include <linux/delay.h>
-#include <linux/sched.h>
-#include <asm/io.h>  // struct pt_regs for IRQ handler & Port I/O
-
-#include "cpqfcTSchip.h"
-
-static void tl_i2c_tx_byte( void* GPIOout, UCHAR data );
-/*static BOOLEAN tl_write_i2c_page_portion( void* GPIOin, void* GPIOout,
-  USHORT startOffset,  // e.g. 0x2f for WWN start
-  USHORT count,
-  UCHAR *buf );
-*/
-
-//
-// Tachlite GPIO2, GPIO3 (I2C) DEFINES
-// The NVRAM chip NM24C03 defines SCL (serial clock) and SDA (serial data)
-// GPIO2 drives SDA, and GPIO3 drives SCL
-// 
-// Since Tachlite inverts the state of the GPIO 0-3 outputs, SET writes 0
-// and clear writes 1. The input lines (read in TL status) is NOT inverted
-// This really helps confuse the code and debugging.
-
-#define SET_DATA_HI  0x0
-#define SET_DATA_LO  0x8
-#define SET_CLOCK_HI 0x0
-#define SET_CLOCK_LO 0x4
-
-#define SENSE_DATA_HI  0x8
-#define SENSE_DATA_LO  0x0
-#define SENSE_CLOCK_HI 0x4
-#define SENSE_CLOCK_LO 0x0
-
-#define SLAVE_READ_ADDRESS    0xA1
-#define SLAVE_WRITE_ADDRESS   0xA0
-					      
-
-static void i2c_delay(ULONG mstime);
-static void tl_i2c_clock_pulse( UCHAR , void* GPIOout);
-static UCHAR tl_read_i2c_data( void* );
-
-
-//-----------------------------------------------------------------------------
-//
-//      Name:   I2C_RX_ACK
-//
-//      This routine receives an acknowledge over the I2C bus.
-//
-//-----------------------------------------------------------------------------
-static unsigned short tl_i2c_rx_ack( void* GPIOin, void* GPIOout )
-{
-  unsigned long value;
-
-	// do clock pulse, let data line float high
-  tl_i2c_clock_pulse( SET_DATA_HI, GPIOout );
-
-	// slave must drive data low for acknowledge
-  value = tl_read_i2c_data( GPIOin);
-  if (value & SENSE_DATA_HI )
-    return( FALSE );
-
-  return( TRUE );
-}
-//-----------------------------------------------------------------------------
-//
-//      Name:   READ_I2C_REG
-//
-//      This routine reads the I2C control register using the global
-//      IO address stored in gpioreg.
-//
-//-----------------------------------------------------------------------------
-static UCHAR tl_read_i2c_data( void* gpioreg )
-{
-  return( (UCHAR)(readl( gpioreg ) & 0x08L) ); // GPIO3
-}
-//-----------------------------------------------------------------------------
-//
-//      Name:   WRITE_I2C_REG
-//
-//      This routine writes the I2C control register using the global
-//      IO address stored in gpioreg.
-//      In Tachlite, we don't want to modify other bits in TL Control reg.
-//
-//-----------------------------------------------------------------------------
-static void tl_write_i2c_reg( void* gpioregOUT, UCHAR value )
-{
-  ULONG  temp;
-
-	// First read the register and clear out the old bits
-  temp = readl( gpioregOUT ) & 0xfffffff3L;
-
-	// Now or in the new data and send it back out
-  writel( temp | value, gpioregOUT);
-}
-//-----------------------------------------------------------------------------
-//
-//      Name:   I2C_TX_START
-//
-//      This routine transmits a start condition over the I2C bus.
-//      1. Set SCL (clock, GPIO2) HIGH, set SDA (data, GPIO3) HIGH,
-//      wait 5us to stabilize.
-//      2. With SCL still HIGH, drive SDA low.  The low transition marks
-//         the start condition to NM24Cxx (the chip)
-//      NOTE! In TL control reg., output 1 means chip sees LOW
-//
-//-----------------------------------------------------------------------------
-static unsigned short tl_i2c_tx_start( void* GPIOin, void* GPIOout )
-{
-  unsigned short i;
-  ULONG value;
-
-  if ( !(tl_read_i2c_data(GPIOin) & SENSE_DATA_HI))
-  {
-    // start with clock high, let data float high
-    tl_write_i2c_reg(  GPIOout, SET_DATA_HI | SET_CLOCK_HI );
-
-    // keep sending clock pulses if slave is driving data line
-    for (i = 0; i < 10; i++)
-    {
-      tl_i2c_clock_pulse( SET_DATA_HI, GPIOout );
-
-      if ( tl_read_i2c_data(GPIOin) & SENSE_DATA_HI )
-	break;
-    }
-
-		// if he's still driving data low after 10 clocks, abort
-    value = tl_read_i2c_data( GPIOin ); // read status
-    if (!(value & 0x08) )
-      return( FALSE );
-  }
-
-
-	// To START, bring data low while clock high
-  tl_write_i2c_reg(  GPIOout, SET_CLOCK_HI | SET_DATA_LO );
-
-  i2c_delay(0);
-
-  return( TRUE );                           // TX start successful
-}
-//-----------------------------------------------------------------------------
-//
-//      Name:   I2C_TX_STOP
-//
-//      This routine transmits a stop condition over the I2C bus.
-//
-//-----------------------------------------------------------------------------
-
-static unsigned short tl_i2c_tx_stop( void* GPIOin, void* GPIOout )
-{
-  int i;
-
-  for (i = 0; i < 10; i++) 
-  {
-  // Send clock pulse, drive data line low
-    tl_i2c_clock_pulse( SET_DATA_LO, GPIOout );
-
-  // To STOP, bring data high while clock high
-    tl_write_i2c_reg(  GPIOout, SET_DATA_HI | SET_CLOCK_HI );
-
-  // Give the data line time to float high
-    i2c_delay(0);
-
-  // If slave is driving data line low, there's a problem; retry
-    if ( tl_read_i2c_data(GPIOin) & SENSE_DATA_HI )
-      return( TRUE );  // TX STOP successful!
-  }
-
-  return( FALSE );                      // error
-}
-//-----------------------------------------------------------------------------
-//
-//      Name:   I2C_TX_uchar
-//
-//      This routine transmits a byte across the I2C bus.
-//
-//-----------------------------------------------------------------------------
-static void tl_i2c_tx_byte( void* GPIOout, UCHAR data )
-{
-  UCHAR bit;
-
-  for (bit = 0x80; bit; bit >>= 1)
-  {
-    if( data & bit )
-      tl_i2c_clock_pulse( (UCHAR)SET_DATA_HI, GPIOout);
-    else
-      tl_i2c_clock_pulse( (UCHAR)SET_DATA_LO, GPIOout);
-  }  
-}
-//-----------------------------------------------------------------------------
-//
-//      Name:   I2C_RX_uchar
-//
-//      This routine receives a byte across the I2C bus.
-//
-//-----------------------------------------------------------------------------
-static UCHAR tl_i2c_rx_byte( void* GPIOin, void* GPIOout )
-{
-  UCHAR bit;
-  UCHAR data = 0;
-
-
-  for (bit = 0x80; bit; bit >>= 1) {
-    // do clock pulse, let data line float high
-    tl_i2c_clock_pulse( SET_DATA_HI, GPIOout );
-
-    // read data line
-    if ( tl_read_i2c_data( GPIOin) & 0x08 )
-      data |= bit;
-  }
-
-  return (data);
-}
-//*****************************************************************************
-//*****************************************************************************
-// Function:   read_i2c_nvram
-// Arguments:  UCHAR count     number of bytes to read
-//             UCHAR *buf      area to store the bytes read
-// Returns:    0 - failed
-//             1 - success
-//*****************************************************************************
-//*****************************************************************************
-unsigned long cpqfcTS_ReadNVRAM( void* GPIOin, void* GPIOout , USHORT count,
-	UCHAR *buf )
-{
-  unsigned short i;
-
-  if( !( tl_i2c_tx_start(GPIOin, GPIOout) ))
-    return FALSE;
-
-  // Select the NVRAM for "dummy" write, to set the address
-  tl_i2c_tx_byte( GPIOout , SLAVE_WRITE_ADDRESS );
-  if ( !tl_i2c_rx_ack(GPIOin, GPIOout ) )
-    return( FALSE );
-
-  // Now send the address where we want to start reading  
-  tl_i2c_tx_byte( GPIOout , 0 );
-  if ( !tl_i2c_rx_ack(GPIOin, GPIOout ) )
-    return( FALSE );
-
-  // Send a repeated start condition and select the
-  //  slave for reading now.
-  if( tl_i2c_tx_start(GPIOin, GPIOout) )
-    tl_i2c_tx_byte( GPIOout, SLAVE_READ_ADDRESS );
-
-  if ( !tl_i2c_rx_ack(GPIOin, GPIOout) )
-    return( FALSE );
-
-  // this loop will now read out the data and store it
-  //  in the buffer pointed to by buf
-  for ( i=0; i<count; i++) 
-  {
-    *buf++ = tl_i2c_rx_byte(GPIOin, GPIOout);
-
-    // Send ACK by holding data line low for 1 clock
-    if ( i < (count-1) )
-      tl_i2c_clock_pulse( 0x08, GPIOout );
-    else {
-	// Don't send ack for final byte
-      tl_i2c_clock_pulse( SET_DATA_HI, GPIOout );
-    }
-  }
-
-  tl_i2c_tx_stop(GPIOin, GPIOout);
-
-  return( TRUE );
-}
-
-//****************************************************************
-//
-//
-//
-// routines to set and clear the data and clock bits
-//
-//
-//
-//****************************************************************
-
-static void tl_set_clock(void* gpioreg)
-{
-  ULONG ret_val;
-
-  ret_val = readl( gpioreg );
-  ret_val &= 0xffffffFBL;  // clear GPIO2 (SCL)
-  writel( ret_val, gpioreg);
-}
-
-static void tl_clr_clock(void* gpioreg)
-{
-  ULONG ret_val;
-
-  ret_val = readl( gpioreg );
-  ret_val |= SET_CLOCK_LO;
-  writel( ret_val, gpioreg);
-}
-
-//*****************************************************************
-//
-//
-// This routine will advance the clock by one period
-//
-//
-//*****************************************************************
-static void tl_i2c_clock_pulse( UCHAR value, void* GPIOout  )
-{
-  ULONG ret_val;
-
-  // clear the clock bit
-  tl_clr_clock( GPIOout );
-
-  i2c_delay(0);
-
-
-  // read the port to preserve non-I2C bits
-  ret_val = readl( GPIOout );
-
-  // clear the data & clock bits
-  ret_val &= 0xFFFFFFf3;
-
-  // write the value passed in...
-  // data can only change while clock is LOW!
-  ret_val |= value;           // the data
-  ret_val |= SET_CLOCK_LO;    // the clock
-  writel( ret_val, GPIOout );
-
-  i2c_delay(0);
-
-
-  //set clock bit
-  tl_set_clock( GPIOout);
-}
-
-
-
-
-//*****************************************************************
-//
-//
-// This routine returns the 64-bit WWN
-//
-//
-//*****************************************************************
-int cpqfcTS_GetNVRAM_data( UCHAR *wwnbuf, UCHAR *buf )
-{
-  ULONG len;
-  ULONG sub_len;
-  ULONG ptr_inc;
-  ULONG i;
-  ULONG j;
-  UCHAR *data_ptr;
-  UCHAR  z;
-  UCHAR  name;
-  UCHAR  sub_name;
-  UCHAR  done;
-  int iReturn=0;  // def. 0 offset is failure to find WWN field
-  
-
-	  
-  data_ptr = (UCHAR *)buf;
-
-  done = FALSE;
-  i = 0;
-
-  while ( (i < 128) && (!done) ) 
-  {
-    z = data_ptr[i];\
-    if ( !(z & 0x80) )  
-    {	
-      len  = 1 + (z & 0x07);
-
-      name = (z & 0x78) >> 3;
-      if (name == 0x0F)
-        done = TRUE;
-    }
-    else 
-    {
-      name = z & 0x7F;
-      len  = 3 + data_ptr[i+1] + (data_ptr[i+2] << 8);
-           
-      switch (name) 
-      {
-      case 0x0D:
-	//
-	  j = i + 3;
-	  //
-	  if ( data_ptr[j] == 0x3b ) {
-	    len = 6;
-	    break;
-	  }
-
-	  while ( j<(i+len) ) {
-	    sub_name = (data_ptr[j] & 0x3f);
-	    sub_len  = data_ptr[j+1] + 
-	               (data_ptr[j+2] << 8);
-            ptr_inc  = sub_len + 3; 
-	    switch (sub_name) 
-	    {
-	    case 0x3C:
-              memcpy( wwnbuf, &data_ptr[j+3], 8);
-              iReturn = j+3;
-              break;
-            default:
-              break;
-	    }
-	    j += ptr_inc;
-          }
-	  break;
-        default:
-	  break;
-      }  
-    }  
-  //
-    i += len;
-  }  // end while 
-  return iReturn;
-}
-
-
-
-
-
-// define a short 5 micro sec delay, and longer (ms) delay
-
-static void i2c_delay(ULONG mstime)
-{
-  ULONG i;
-  
-// NOTE: we only expect to use these delays when reading
-// our adapter's NVRAM, which happens only during adapter reset.
-// Delay technique from "Linux Device Drivers", A. Rubini 
-// (1st Ed.) pg 137.
-
-//  printk(" delay %lx  ", mstime);
-  if( mstime ) // ms delay?
-  {
-    // delay technique
-    for( i=0; i < mstime; i++)
-      udelay(1000); // 1ms per loop
-	
-  }
-  else  // 5 micro sec delay
-  
-    udelay( 5 ); // micro secs
-  
-//  printk("done\n");
-}
-
-
-
-- 
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