Cross-Referenced Linux and Device Driver Code

   /*
   *
   * 3780i.c -- helper routines for the 3780i DSP
   *
   *
   * Written By: Mike Sullivan IBM Corporation
   *
   * Copyright (C) 1999 IBM Corporation
   *
  * 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 of the License, 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.
  *
  * NO WARRANTY
  * THE PROGRAM IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OR
  * CONDITIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED INCLUDING, WITHOUT
  * LIMITATION, ANY WARRANTIES OR CONDITIONS OF TITLE, NON-INFRINGEMENT,
  * MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Each Recipient is
  * solely responsible for determining the appropriateness of using and
  * distributing the Program and assumes all risks associated with its
  * exercise of rights under this Agreement, including but not limited to
  * the risks and costs of program errors, damage to or loss of data,
  * programs or equipment, and unavailability or interruption of operations.
  *
  * DISCLAIMER OF LIABILITY
  * NEITHER RECIPIENT NOR ANY CONTRIBUTORS SHALL HAVE ANY LIABILITY FOR ANY
  * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  * DAMAGES (INCLUDING WITHOUT LIMITATION LOST PROFITS), HOWEVER CAUSED AND
  * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR
  * TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE
  * USE OR DISTRIBUTION OF THE PROGRAM OR THE EXERCISE OF ANY RIGHTS GRANTED
  * HEREUNDER, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGES
  *
  * You should have received a copy of the GNU General Public License
  * along with this program; if not, write to the Free Software
  * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
  *
  *
  * 10/23/2000 - Alpha Release
  *       First release to the public
  */
  
  #include <linux/kernel.h>
  #include <linux/unistd.h>
  #include <linux/delay.h>
  #include <linux/ioport.h>
  #include <linux/init.h>
  #include <linux/bitops.h>
  #include <linux/sched.h>        /* cond_resched() */
  
  #include <asm/io.h>
  #include <asm/uaccess.h>
  #include <asm/system.h>
  #include <asm/irq.h>
  #include "smapi.h"
  #include "mwavedd.h"
  #include "3780i.h"
  
  static DEFINE_SPINLOCK(dsp_lock);
  
  static void PaceMsaAccess(unsigned short usDspBaseIO)
  {
          cond_resched();
          udelay(100);
          cond_resched();
  }
  
  unsigned short dsp3780I_ReadMsaCfg(unsigned short usDspBaseIO,
                                     unsigned long ulMsaAddr)
  {
          unsigned long flags;
          unsigned short val;
  
          PRINTK_3(TRACE_3780I,
                  "3780i::dsp3780I_ReadMsaCfg entry usDspBaseIO %x ulMsaAddr %lx\n",
                  usDspBaseIO, ulMsaAddr);
  
          spin_lock_irqsave(&dsp_lock, flags);
          OutWordDsp(DSP_MsaAddrLow, (unsigned short) ulMsaAddr);
          OutWordDsp(DSP_MsaAddrHigh, (unsigned short) (ulMsaAddr >> 16));
          val = InWordDsp(DSP_MsaDataDSISHigh);
          spin_unlock_irqrestore(&dsp_lock, flags);
  
          PRINTK_2(TRACE_3780I, "3780i::dsp3780I_ReadMsaCfg exit val %x\n", val);
  
          return val;
  }
  
  void dsp3780I_WriteMsaCfg(unsigned short usDspBaseIO,
                            unsigned long ulMsaAddr, unsigned short usValue)
  {
          unsigned long flags;
  
         PRINTK_4(TRACE_3780I,
                 "3780i::dsp3780i_WriteMsaCfg entry usDspBaseIO %x ulMsaAddr %lx usValue %x\n",
                 usDspBaseIO, ulMsaAddr, usValue);
 
         spin_lock_irqsave(&dsp_lock, flags);
         OutWordDsp(DSP_MsaAddrLow, (unsigned short) ulMsaAddr);
         OutWordDsp(DSP_MsaAddrHigh, (unsigned short) (ulMsaAddr >> 16));
         OutWordDsp(DSP_MsaDataDSISHigh, usValue);
         spin_unlock_irqrestore(&dsp_lock, flags);
 }
 
 static void dsp3780I_WriteGenCfg(unsigned short usDspBaseIO, unsigned uIndex,
                                  unsigned char ucValue)
 {
         DSP_ISA_SLAVE_CONTROL rSlaveControl;
         DSP_ISA_SLAVE_CONTROL rSlaveControl_Save;
 
 
         PRINTK_4(TRACE_3780I,
                 "3780i::dsp3780i_WriteGenCfg entry usDspBaseIO %x uIndex %x ucValue %x\n",
                 usDspBaseIO, uIndex, ucValue);
 
         MKBYTE(rSlaveControl) = InByteDsp(DSP_IsaSlaveControl);
 
         PRINTK_2(TRACE_3780I,
                 "3780i::dsp3780i_WriteGenCfg rSlaveControl %x\n",
                 MKBYTE(rSlaveControl));
 
         rSlaveControl_Save = rSlaveControl;
         rSlaveControl.ConfigMode = TRUE;
 
         PRINTK_2(TRACE_3780I,
                 "3780i::dsp3780i_WriteGenCfg entry rSlaveControl+ConfigMode %x\n",
                 MKBYTE(rSlaveControl));
 
         OutByteDsp(DSP_IsaSlaveControl, MKBYTE(rSlaveControl));
         OutByteDsp(DSP_ConfigAddress, (unsigned char) uIndex);
         OutByteDsp(DSP_ConfigData, ucValue);
         OutByteDsp(DSP_IsaSlaveControl, MKBYTE(rSlaveControl_Save));
 
         PRINTK_1(TRACE_3780I, "3780i::dsp3780i_WriteGenCfg exit\n");
 
 
 }
 
 #if 0
 unsigned char dsp3780I_ReadGenCfg(unsigned short usDspBaseIO,
                                   unsigned uIndex)
 {
         DSP_ISA_SLAVE_CONTROL rSlaveControl;
         DSP_ISA_SLAVE_CONTROL rSlaveControl_Save;
         unsigned char ucValue;
 
 
         PRINTK_3(TRACE_3780I,
                 "3780i::dsp3780i_ReadGenCfg entry usDspBaseIO %x uIndex %x\n",
                 usDspBaseIO, uIndex);
 
         MKBYTE(rSlaveControl) = InByteDsp(DSP_IsaSlaveControl);
         rSlaveControl_Save = rSlaveControl;
         rSlaveControl.ConfigMode = TRUE;
         OutByteDsp(DSP_IsaSlaveControl, MKBYTE(rSlaveControl));
         OutByteDsp(DSP_ConfigAddress, (unsigned char) uIndex);
         ucValue = InByteDsp(DSP_ConfigData);
         OutByteDsp(DSP_IsaSlaveControl, MKBYTE(rSlaveControl_Save));
 
         PRINTK_2(TRACE_3780I,
                 "3780i::dsp3780i_ReadGenCfg exit ucValue %x\n", ucValue);
 
 
         return ucValue;
 }
 #endif  /*  0  */
 
 int dsp3780I_EnableDSP(DSP_3780I_CONFIG_SETTINGS * pSettings,
                        unsigned short *pIrqMap,
                        unsigned short *pDmaMap)
 {
         unsigned long flags;
         unsigned short usDspBaseIO = pSettings->usDspBaseIO;
         int i;
         DSP_UART_CFG_1 rUartCfg1;
         DSP_UART_CFG_2 rUartCfg2;
         DSP_HBRIDGE_CFG_1 rHBridgeCfg1;
         DSP_HBRIDGE_CFG_2 rHBridgeCfg2;
         DSP_BUSMASTER_CFG_1 rBusmasterCfg1;
         DSP_BUSMASTER_CFG_2 rBusmasterCfg2;
         DSP_ISA_PROT_CFG rIsaProtCfg;
         DSP_POWER_MGMT_CFG rPowerMgmtCfg;
         DSP_HBUS_TIMER_CFG rHBusTimerCfg;
         DSP_LBUS_TIMEOUT_DISABLE rLBusTimeoutDisable;
         DSP_CHIP_RESET rChipReset;
         DSP_CLOCK_CONTROL_1 rClockControl1;
         DSP_CLOCK_CONTROL_2 rClockControl2;
         DSP_ISA_SLAVE_CONTROL rSlaveControl;
         DSP_HBRIDGE_CONTROL rHBridgeControl;
         unsigned short ChipID = 0;
         unsigned short tval;
 
 
         PRINTK_2(TRACE_3780I,
                 "3780i::dsp3780I_EnableDSP entry pSettings->bDSPEnabled %x\n",
                 pSettings->bDSPEnabled);
 
 
         if (!pSettings->bDSPEnabled) {
                 PRINTK_ERROR( KERN_ERR "3780i::dsp3780I_EnableDSP: Error: DSP not enabled. Aborting.\n" );
                 return -EIO;
         }
 
 
         PRINTK_2(TRACE_3780I,
                 "3780i::dsp3780i_EnableDSP entry pSettings->bModemEnabled %x\n",
                 pSettings->bModemEnabled);
 
         if (pSettings->bModemEnabled) {
                 rUartCfg1.Reserved = rUartCfg2.Reserved = 0;
                 rUartCfg1.IrqActiveLow = pSettings->bUartIrqActiveLow;
                 rUartCfg1.IrqPulse = pSettings->bUartIrqPulse;
                 rUartCfg1.Irq =
                         (unsigned char) pIrqMap[pSettings->usUartIrq];
                 switch (pSettings->usUartBaseIO) {
                 case 0x03F8:
                         rUartCfg1.BaseIO = 0;
                         break;
                 case 0x02F8:
                         rUartCfg1.BaseIO = 1;
                         break;
                 case 0x03E8:
                         rUartCfg1.BaseIO = 2;
                         break;
                 case 0x02E8:
                         rUartCfg1.BaseIO = 3;
                         break;
                 }
                 rUartCfg2.Enable = TRUE;
         }
 
         rHBridgeCfg1.Reserved = rHBridgeCfg2.Reserved = 0;
         rHBridgeCfg1.IrqActiveLow = pSettings->bDspIrqActiveLow;
         rHBridgeCfg1.IrqPulse = pSettings->bDspIrqPulse;
         rHBridgeCfg1.Irq = (unsigned char) pIrqMap[pSettings->usDspIrq];
         rHBridgeCfg1.AccessMode = 1;
         rHBridgeCfg2.Enable = TRUE;
 
 
         rBusmasterCfg2.Reserved = 0;
         rBusmasterCfg1.Dma = (unsigned char) pDmaMap[pSettings->usDspDma];
         rBusmasterCfg1.NumTransfers =
                 (unsigned char) pSettings->usNumTransfers;
         rBusmasterCfg1.ReRequest = (unsigned char) pSettings->usReRequest;
         rBusmasterCfg1.MEMCS16 = pSettings->bEnableMEMCS16;
         rBusmasterCfg2.IsaMemCmdWidth =
                 (unsigned char) pSettings->usIsaMemCmdWidth;
 
 
         rIsaProtCfg.Reserved = 0;
         rIsaProtCfg.GateIOCHRDY = pSettings->bGateIOCHRDY;
 
         rPowerMgmtCfg.Reserved = 0;
         rPowerMgmtCfg.Enable = pSettings->bEnablePwrMgmt;
 
         rHBusTimerCfg.LoadValue =
                 (unsigned char) pSettings->usHBusTimerLoadValue;
 
         rLBusTimeoutDisable.Reserved = 0;
         rLBusTimeoutDisable.DisableTimeout =
                 pSettings->bDisableLBusTimeout;
 
         MKWORD(rChipReset) = ~pSettings->usChipletEnable;
 
         rClockControl1.Reserved1 = rClockControl1.Reserved2 = 0;
         rClockControl1.N_Divisor = pSettings->usN_Divisor;
         rClockControl1.M_Multiplier = pSettings->usM_Multiplier;
 
         rClockControl2.Reserved = 0;
         rClockControl2.PllBypass = pSettings->bPllBypass;
 
         /* Issue a soft reset to the chip */
         /* Note: Since we may be coming in with 3780i clocks suspended, we must keep
         * soft-reset active for 10ms.
         */
         rSlaveControl.ClockControl = 0;
         rSlaveControl.SoftReset = TRUE;
         rSlaveControl.ConfigMode = FALSE;
         rSlaveControl.Reserved = 0;
 
         PRINTK_4(TRACE_3780I,
                 "3780i::dsp3780i_EnableDSP usDspBaseIO %x index %x taddr %x\n",
                 usDspBaseIO, DSP_IsaSlaveControl,
                 usDspBaseIO + DSP_IsaSlaveControl);
 
         PRINTK_2(TRACE_3780I,
                 "3780i::dsp3780i_EnableDSP rSlaveContrl %x\n",
                 MKWORD(rSlaveControl));
 
         spin_lock_irqsave(&dsp_lock, flags);
         OutWordDsp(DSP_IsaSlaveControl, MKWORD(rSlaveControl));
         MKWORD(tval) = InWordDsp(DSP_IsaSlaveControl);
 
         PRINTK_2(TRACE_3780I,
                 "3780i::dsp3780i_EnableDSP rSlaveControl 2 %x\n", tval);
 
 
         for (i = 0; i < 11; i++)
                 udelay(2000);
 
         rSlaveControl.SoftReset = FALSE;
         OutWordDsp(DSP_IsaSlaveControl, MKWORD(rSlaveControl));
 
         MKWORD(tval) = InWordDsp(DSP_IsaSlaveControl);
 
         PRINTK_2(TRACE_3780I,
                 "3780i::dsp3780i_EnableDSP rSlaveControl 3 %x\n", tval);
 
 
         /* Program our general configuration registers */
         WriteGenCfg(DSP_HBridgeCfg1Index, MKBYTE(rHBridgeCfg1));
         WriteGenCfg(DSP_HBridgeCfg2Index, MKBYTE(rHBridgeCfg2));
         WriteGenCfg(DSP_BusMasterCfg1Index, MKBYTE(rBusmasterCfg1));
         WriteGenCfg(DSP_BusMasterCfg2Index, MKBYTE(rBusmasterCfg2));
         WriteGenCfg(DSP_IsaProtCfgIndex, MKBYTE(rIsaProtCfg));
         WriteGenCfg(DSP_PowerMgCfgIndex, MKBYTE(rPowerMgmtCfg));
         WriteGenCfg(DSP_HBusTimerCfgIndex, MKBYTE(rHBusTimerCfg));
 
         if (pSettings->bModemEnabled) {
                 WriteGenCfg(DSP_UartCfg1Index, MKBYTE(rUartCfg1));
                 WriteGenCfg(DSP_UartCfg2Index, MKBYTE(rUartCfg2));
         }
 
 
         rHBridgeControl.EnableDspInt = FALSE;
         rHBridgeControl.MemAutoInc = TRUE;
         rHBridgeControl.IoAutoInc = FALSE;
         rHBridgeControl.DiagnosticMode = FALSE;
 
         PRINTK_3(TRACE_3780I,
                 "3780i::dsp3780i_EnableDSP DSP_HBridgeControl %x rHBridgeControl %x\n",
                 DSP_HBridgeControl, MKWORD(rHBridgeControl));
 
         OutWordDsp(DSP_HBridgeControl, MKWORD(rHBridgeControl));
         spin_unlock_irqrestore(&dsp_lock, flags);
         WriteMsaCfg(DSP_LBusTimeoutDisable, MKWORD(rLBusTimeoutDisable));
         WriteMsaCfg(DSP_ClockControl_1, MKWORD(rClockControl1));
         WriteMsaCfg(DSP_ClockControl_2, MKWORD(rClockControl2));
         WriteMsaCfg(DSP_ChipReset, MKWORD(rChipReset));
 
         ChipID = ReadMsaCfg(DSP_ChipID);
 
         PRINTK_2(TRACE_3780I,
                 "3780i::dsp3780I_EnableDSP exiting bRC=TRUE, ChipID %x\n",
                 ChipID);
 
         return 0;
 }
 
 int dsp3780I_DisableDSP(DSP_3780I_CONFIG_SETTINGS * pSettings)
 {
         unsigned long flags;
         unsigned short usDspBaseIO = pSettings->usDspBaseIO;
         DSP_ISA_SLAVE_CONTROL rSlaveControl;
 
 
         PRINTK_1(TRACE_3780I, "3780i::dsp3780i_DisableDSP entry\n");
 
         rSlaveControl.ClockControl = 0;
         rSlaveControl.SoftReset = TRUE;
         rSlaveControl.ConfigMode = FALSE;
         rSlaveControl.Reserved = 0;
         spin_lock_irqsave(&dsp_lock, flags);
         OutWordDsp(DSP_IsaSlaveControl, MKWORD(rSlaveControl));
 
         udelay(5);
 
         rSlaveControl.ClockControl = 1;
         OutWordDsp(DSP_IsaSlaveControl, MKWORD(rSlaveControl));
         spin_unlock_irqrestore(&dsp_lock, flags);
 
         udelay(5);
 
 
         PRINTK_1(TRACE_3780I, "3780i::dsp3780i_DisableDSP exit\n");
 
         return 0;
 }
 
 int dsp3780I_Reset(DSP_3780I_CONFIG_SETTINGS * pSettings)
 {
         unsigned long flags;
         unsigned short usDspBaseIO = pSettings->usDspBaseIO;
         DSP_BOOT_DOMAIN rBootDomain;
         DSP_HBRIDGE_CONTROL rHBridgeControl;
 
 
         PRINTK_1(TRACE_3780I, "3780i::dsp3780i_Reset entry\n");
 
         spin_lock_irqsave(&dsp_lock, flags);
         /* Mask DSP to PC interrupt */
         MKWORD(rHBridgeControl) = InWordDsp(DSP_HBridgeControl);
 
         PRINTK_2(TRACE_3780I, "3780i::dsp3780i_Reset rHBridgeControl %x\n",
                 MKWORD(rHBridgeControl));
 
         rHBridgeControl.EnableDspInt = FALSE;
         OutWordDsp(DSP_HBridgeControl, MKWORD(rHBridgeControl));
         spin_unlock_irqrestore(&dsp_lock, flags);
 
         /* Reset the core via the boot domain register */
         rBootDomain.ResetCore = TRUE;
         rBootDomain.Halt = TRUE;
         rBootDomain.NMI = TRUE;
         rBootDomain.Reserved = 0;
 
         PRINTK_2(TRACE_3780I, "3780i::dsp3780i_Reset rBootDomain %x\n",
                 MKWORD(rBootDomain));
 
         WriteMsaCfg(DSP_MspBootDomain, MKWORD(rBootDomain));
 
         /* Reset all the chiplets and then reactivate them */
         WriteMsaCfg(DSP_ChipReset, 0xFFFF);
         udelay(5);
         WriteMsaCfg(DSP_ChipReset,
                         (unsigned short) (~pSettings->usChipletEnable));
 
 
         PRINTK_1(TRACE_3780I, "3780i::dsp3780i_Reset exit bRC=0\n");
 
         return 0;
 }
 
 
 int dsp3780I_Run(DSP_3780I_CONFIG_SETTINGS * pSettings)
 {
         unsigned long flags;
         unsigned short usDspBaseIO = pSettings->usDspBaseIO;
         DSP_BOOT_DOMAIN rBootDomain;
         DSP_HBRIDGE_CONTROL rHBridgeControl;
 
 
         PRINTK_1(TRACE_3780I, "3780i::dsp3780i_Run entry\n");
 
 
         /* Transition the core to a running state */
         rBootDomain.ResetCore = TRUE;
         rBootDomain.Halt = FALSE;
         rBootDomain.NMI = TRUE;
         rBootDomain.Reserved = 0;
         WriteMsaCfg(DSP_MspBootDomain, MKWORD(rBootDomain));
 
         udelay(5);
 
         rBootDomain.ResetCore = FALSE;
         WriteMsaCfg(DSP_MspBootDomain, MKWORD(rBootDomain));
         udelay(5);
 
         rBootDomain.NMI = FALSE;
         WriteMsaCfg(DSP_MspBootDomain, MKWORD(rBootDomain));
         udelay(5);
 
         /* Enable DSP to PC interrupt */
         spin_lock_irqsave(&dsp_lock, flags);
         MKWORD(rHBridgeControl) = InWordDsp(DSP_HBridgeControl);
         rHBridgeControl.EnableDspInt = TRUE;
 
         PRINTK_2(TRACE_3780I, "3780i::dsp3780i_Run rHBridgeControl %x\n",
                 MKWORD(rHBridgeControl));
 
         OutWordDsp(DSP_HBridgeControl, MKWORD(rHBridgeControl));
         spin_unlock_irqrestore(&dsp_lock, flags);
 
 
         PRINTK_1(TRACE_3780I, "3780i::dsp3780i_Run exit bRC=TRUE\n");
 
         return 0;
 }
 
 
 int dsp3780I_ReadDStore(unsigned short usDspBaseIO, void __user *pvBuffer,
                         unsigned uCount, unsigned long ulDSPAddr)
 {
         unsigned long flags;
         unsigned short __user *pusBuffer = pvBuffer;
         unsigned short val;
 
 
         PRINTK_5(TRACE_3780I,
                 "3780i::dsp3780I_ReadDStore entry usDspBaseIO %x, pusBuffer %p, uCount %x, ulDSPAddr %lx\n",
                 usDspBaseIO, pusBuffer, uCount, ulDSPAddr);
 
 
         /* Set the initial MSA address. No adjustments need to be made to data store addresses */
         spin_lock_irqsave(&dsp_lock, flags);
         OutWordDsp(DSP_MsaAddrLow, (unsigned short) ulDSPAddr);
         OutWordDsp(DSP_MsaAddrHigh, (unsigned short) (ulDSPAddr >> 16));
         spin_unlock_irqrestore(&dsp_lock, flags);
 
         /* Transfer the memory block */
         while (uCount-- != 0) {
                 spin_lock_irqsave(&dsp_lock, flags);
                 val = InWordDsp(DSP_MsaDataDSISHigh);
                 spin_unlock_irqrestore(&dsp_lock, flags);
                 if(put_user(val, pusBuffer++))
                         return -EFAULT;
 
                 PRINTK_3(TRACE_3780I,
                         "3780I::dsp3780I_ReadDStore uCount %x val %x\n",
                         uCount, val);
 
                 PaceMsaAccess(usDspBaseIO);
         }
 
 
         PRINTK_1(TRACE_3780I,
                 "3780I::dsp3780I_ReadDStore exit bRC=TRUE\n");
 
         return 0;
 }
 
 int dsp3780I_ReadAndClearDStore(unsigned short usDspBaseIO,
                                 void __user *pvBuffer, unsigned uCount,
                                 unsigned long ulDSPAddr)
 {
         unsigned long flags;
         unsigned short __user *pusBuffer = pvBuffer;
         unsigned short val;
 
 
         PRINTK_5(TRACE_3780I,
                 "3780i::dsp3780I_ReadAndDStore entry usDspBaseIO %x, pusBuffer %p, uCount %x, ulDSPAddr %lx\n",
                 usDspBaseIO, pusBuffer, uCount, ulDSPAddr);
 
 
         /* Set the initial MSA address. No adjustments need to be made to data store addresses */
         spin_lock_irqsave(&dsp_lock, flags);
         OutWordDsp(DSP_MsaAddrLow, (unsigned short) ulDSPAddr);
         OutWordDsp(DSP_MsaAddrHigh, (unsigned short) (ulDSPAddr >> 16));
         spin_unlock_irqrestore(&dsp_lock, flags);
 
         /* Transfer the memory block */
         while (uCount-- != 0) {
                 spin_lock_irqsave(&dsp_lock, flags);
                 val = InWordDsp(DSP_ReadAndClear);
                 spin_unlock_irqrestore(&dsp_lock, flags);
                 if(put_user(val, pusBuffer++))
                         return -EFAULT;
 
                 PRINTK_3(TRACE_3780I,
                         "3780I::dsp3780I_ReadAndCleanDStore uCount %x val %x\n",
                         uCount, val);
 
                 PaceMsaAccess(usDspBaseIO);
         }
 
 
         PRINTK_1(TRACE_3780I,
                 "3780I::dsp3780I_ReadAndClearDStore exit bRC=TRUE\n");
 
         return 0;
 }
 
 
 int dsp3780I_WriteDStore(unsigned short usDspBaseIO, void __user *pvBuffer,
                          unsigned uCount, unsigned long ulDSPAddr)
 {
         unsigned long flags;
         unsigned short __user *pusBuffer = pvBuffer;
 
 
         PRINTK_5(TRACE_3780I,
                 "3780i::dsp3780D_WriteDStore entry usDspBaseIO %x, pusBuffer %p, uCount %x, ulDSPAddr %lx\n",
                 usDspBaseIO, pusBuffer, uCount, ulDSPAddr);
 
 
         /* Set the initial MSA address. No adjustments need to be made to data store addresses */
         spin_lock_irqsave(&dsp_lock, flags);
         OutWordDsp(DSP_MsaAddrLow, (unsigned short) ulDSPAddr);
         OutWordDsp(DSP_MsaAddrHigh, (unsigned short) (ulDSPAddr >> 16));
         spin_unlock_irqrestore(&dsp_lock, flags);
 
         /* Transfer the memory block */
         while (uCount-- != 0) {
                 unsigned short val;
                 if(get_user(val, pusBuffer++))
                         return -EFAULT;
                 spin_lock_irqsave(&dsp_lock, flags);
                 OutWordDsp(DSP_MsaDataDSISHigh, val);
                 spin_unlock_irqrestore(&dsp_lock, flags);
 
                 PRINTK_3(TRACE_3780I,
                         "3780I::dsp3780I_WriteDStore uCount %x val %x\n",
                         uCount, val);
 
                 PaceMsaAccess(usDspBaseIO);
         }
 
 
         PRINTK_1(TRACE_3780I,
                 "3780I::dsp3780D_WriteDStore exit bRC=TRUE\n");
 
         return 0;
 }
 
 
 int dsp3780I_ReadIStore(unsigned short usDspBaseIO, void __user *pvBuffer,
                         unsigned uCount, unsigned long ulDSPAddr)
 {
         unsigned long flags;
         unsigned short __user *pusBuffer = pvBuffer;
 
         PRINTK_5(TRACE_3780I,
                 "3780i::dsp3780I_ReadIStore entry usDspBaseIO %x, pusBuffer %p, uCount %x, ulDSPAddr %lx\n",
                 usDspBaseIO, pusBuffer, uCount, ulDSPAddr);
 
         /*
         * Set the initial MSA address. To convert from an instruction store
         * address to an MSA address
         * shift the address two bits to the left and set bit 22
         */
         ulDSPAddr = (ulDSPAddr << 2) | (1 << 22);
         spin_lock_irqsave(&dsp_lock, flags);
         OutWordDsp(DSP_MsaAddrLow, (unsigned short) ulDSPAddr);
         OutWordDsp(DSP_MsaAddrHigh, (unsigned short) (ulDSPAddr >> 16));
         spin_unlock_irqrestore(&dsp_lock, flags);
 
         /* Transfer the memory block */
         while (uCount-- != 0) {
                 unsigned short val_lo, val_hi;
                 spin_lock_irqsave(&dsp_lock, flags);
                 val_lo = InWordDsp(DSP_MsaDataISLow);
                 val_hi = InWordDsp(DSP_MsaDataDSISHigh);
                 spin_unlock_irqrestore(&dsp_lock, flags);
                 if(put_user(val_lo, pusBuffer++))
                         return -EFAULT;
                 if(put_user(val_hi, pusBuffer++))
                         return -EFAULT;
 
                 PRINTK_4(TRACE_3780I,
                         "3780I::dsp3780I_ReadIStore uCount %x val_lo %x val_hi %x\n",
                         uCount, val_lo, val_hi);
 
                 PaceMsaAccess(usDspBaseIO);
 
         }
 
         PRINTK_1(TRACE_3780I,
                 "3780I::dsp3780I_ReadIStore exit bRC=TRUE\n");
 
         return 0;
 }
 
 
 int dsp3780I_WriteIStore(unsigned short usDspBaseIO, void __user *pvBuffer,
                          unsigned uCount, unsigned long ulDSPAddr)
 {
         unsigned long flags;
         unsigned short __user *pusBuffer = pvBuffer;
 
         PRINTK_5(TRACE_3780I,
                 "3780i::dsp3780I_WriteIStore entry usDspBaseIO %x, pusBuffer %p, uCount %x, ulDSPAddr %lx\n",
                 usDspBaseIO, pusBuffer, uCount, ulDSPAddr);
 
 
         /*
         * Set the initial MSA address. To convert from an instruction store
         * address to an MSA address
         * shift the address two bits to the left and set bit 22
         */
         ulDSPAddr = (ulDSPAddr << 2) | (1 << 22);
         spin_lock_irqsave(&dsp_lock, flags);
         OutWordDsp(DSP_MsaAddrLow, (unsigned short) ulDSPAddr);
         OutWordDsp(DSP_MsaAddrHigh, (unsigned short) (ulDSPAddr >> 16));
         spin_unlock_irqrestore(&dsp_lock, flags);
 
         /* Transfer the memory block */
         while (uCount-- != 0) {
                 unsigned short val_lo, val_hi;
                 if(get_user(val_lo, pusBuffer++))
                         return -EFAULT;
                 if(get_user(val_hi, pusBuffer++))
                         return -EFAULT;
                 spin_lock_irqsave(&dsp_lock, flags);
                 OutWordDsp(DSP_MsaDataISLow, val_lo);
                 OutWordDsp(DSP_MsaDataDSISHigh, val_hi);
                 spin_unlock_irqrestore(&dsp_lock, flags);
 
                 PRINTK_4(TRACE_3780I,
                         "3780I::dsp3780I_WriteIStore uCount %x val_lo %x val_hi %x\n",
                         uCount, val_lo, val_hi);
 
                 PaceMsaAccess(usDspBaseIO);
 
         }
 
         PRINTK_1(TRACE_3780I,
                 "3780I::dsp3780I_WriteIStore exit bRC=TRUE\n");
 
         return 0;
 }
 
 
 int dsp3780I_GetIPCSource(unsigned short usDspBaseIO,
                           unsigned short *pusIPCSource)
 {
         unsigned long flags;
         DSP_HBRIDGE_CONTROL rHBridgeControl;
         unsigned short temp;
 
 
         PRINTK_3(TRACE_3780I,
                 "3780i::dsp3780I_GetIPCSource entry usDspBaseIO %x pusIPCSource %p\n",
                 usDspBaseIO, pusIPCSource);
 
         /*
         * Disable DSP to PC interrupts, read the interrupt register,
         * clear the pending IPC bits, and reenable DSP to PC interrupts
         */
         spin_lock_irqsave(&dsp_lock, flags);
         MKWORD(rHBridgeControl) = InWordDsp(DSP_HBridgeControl);
         rHBridgeControl.EnableDspInt = FALSE;
         OutWordDsp(DSP_HBridgeControl, MKWORD(rHBridgeControl));
 
         *pusIPCSource = InWordDsp(DSP_Interrupt);
         temp = (unsigned short) ~(*pusIPCSource);
 
         PRINTK_3(TRACE_3780I,
                 "3780i::dsp3780I_GetIPCSource, usIPCSource %x ~ %x\n",
                 *pusIPCSource, temp);
 
         OutWordDsp(DSP_Interrupt, (unsigned short) ~(*pusIPCSource));
 
         rHBridgeControl.EnableDspInt = TRUE;
         OutWordDsp(DSP_HBridgeControl, MKWORD(rHBridgeControl));
         spin_unlock_irqrestore(&dsp_lock, flags);
 
 
         PRINTK_2(TRACE_3780I,
                 "3780i::dsp3780I_GetIPCSource exit usIPCSource %x\n",
                 *pusIPCSource);
 
         return 0;
 }