patch-2.4.19 linux-2.4.19/arch/mips/galileo-boards/ev64120/i2o.c

• Lines: 690
• Date: Fri Aug 2 17:39:43 2002
• Orig file: linux-2.4.18/arch/mips/galileo-boards/ev64120/i2o.c
• Orig date: Wed Dec 31 16:00:00 1969

diff -urN linux-2.4.18/arch/mips/galileo-boards/ev64120/i2o.c linux-2.4.19/arch/mips/galileo-boards/ev64120/i2o.c
@@ -0,0 +1,689 @@
+/* i2o.c - Drivers for the I2O */
+
+/* Copyright - Galileo technology. */
+
+/*includes*/
+
+#include <linux/module.h>
+
+#ifdef __linux__
+#include <asm/galileo-boards/evb64120A/core.h>
+#include <asm/galileo-boards/evb64120A/i2o.h>
+#else
+#include "Core.h"
+#include "i2o.h"
+#endif
+
+/********************************************************************
+* getInBoundMessage - When the GT is configured for I2O support
+*                     it can receive a message from an agent on the pci bus.
+*                     This message is a 32 bit wide and can be read by
+*                     the CPU.
+*                     The messaging unit contains two sets of registers
+*                     so, actually it can receive a 64 bit message.
+* 
+* INPUTS: I2O_MESSAGE_REG messageRegNum - Selected set (0 or 1) register.
+* OUTPUT: N/A.
+* RETURNS: Data received from the remote agent.
+*********************************************************************/
+unsigned int getInBoundMessage(I2O_MESSAGE_REG messageRegNum)
+{
+	unsigned int regValue;
+
+	GT_REG_READ(INBOUND_MESSAGE_REGISTER0_CPU_SIDE + 4 * messageRegNum,
+		    &regValue);
+	return (regValue);
+}
+
+
+/********************************************************************
+* checkInboundIntAndClear - When a message is received an interrupt is 
+*                           generated, to enable polling instead the use of
+*                           an interrupt handler the user can use this fuction.
+*                           You will need to mask the incomming interrupt for
+*                           proper use.
+* 
+* INPUTS: I2O_MESSAGE_REG messageRegNum - Selected set (0 or 1) register.
+* OUTPUT: N/A.
+* RETURNS: true if the corresponding bit in the cause register is set otherwise
+*          false.
+*********************************************************************/
+bool checkInBoundIntAndClear(I2O_MESSAGE_REG messageRegNum)
+{
+	unsigned int regValue;
+
+	GT_REG_READ(INBOUND_INTERRUPT_CAUSE_REGISTER_CPU_SIDE, &regValue);
+	/* clears bit 0 for message register 0 or bit 1 for message register 1 */
+	GT_REG_WRITE(INBOUND_INTERRUPT_CAUSE_REGISTER_CPU_SIDE,
+		     BIT1 * messageRegNum);
+	switch (messageRegNum) {
+	case MESSAGE_REG_0:
+		if (regValue & BIT0)
+			return true;
+		break;
+	case MESSAGE_REG_1:
+		if (regValue & BIT1)
+			return true;
+		break;
+	}
+	return false;
+}
+
+/********************************************************************
+* sendOutBoundMessage - When the GT is configured for I2O support
+*                     it can send a message to an agent on the pci bus.
+*                     This message is a 32 bit wide and can be read by
+*                     the PCI agent.
+*                     The messaging unit contains two sets of registers
+*                     so, actually it can send a 64 bit message.
+* 
+* INPUTS: I2O_MESSAGE_REG messageRegNum - Selected set (0 or 1) register.
+*         unsigned int message - Message to be sent.   
+* OUTPUT: N/A.
+* RETURNS: true.
+*********************************************************************/
+bool sendOutBoundMessage(I2O_MESSAGE_REG messageRegNum,
+			 unsigned int message)
+{
+	GT_REG_WRITE(OUTBOUND_MESSAGE_REGISTER0_CPU_SIDE +
+		     4 * messageRegNum, message);
+	return true;
+}
+
+/********************************************************************
+* checkOutboundInt - When the CPU sends a message to the Outbound
+*                    register it generates an interrupt which is refelcted on
+*                    the Outbound Interrupt cause register, the interrupt can
+*                    be cleard only by the PCI agent which read the message. 
+*                    After sending the message you can acknowledge it by
+*                    monitoring the corresponding bit in the cause register.
+*
+* INPUTS: I2O_MESSAGE_REG messageRegNum - Selected set (0 or 1) register.
+* OUTPUT: N/A.
+* RETURNS: true if the corresponding bit in the cause register is set otherwise
+*          false.
+*********************************************************************/
+bool outBoundMessageAcknowledge(I2O_MESSAGE_REG messageRegNum)
+{
+	unsigned int regValue;
+
+	GT_REG_READ(OUTBOUND_INTERRUPT_CAUSE_REGISTER_CPU_SIDE, &regValue);
+	switch (messageRegNum) {
+	case MESSAGE_REG_0:
+		if (regValue & BIT0)
+			return true;
+		break;
+	case MESSAGE_REG_1:
+		if (regValue & BIT1)
+			return true;
+		break;
+	}
+	return false;
+}
+
+/********************************************************************
+* maskInBoundMessageInterrupt - Mask the inbound interrupt, when masking
+*                               the interrupt you can work in polling mode
+*                               using the checkInboundIntAndClear function. 
+* 
+* INPUTS: I2O_MESSAGE_REG messageRegNum - Selected set (0 or 1) register.
+* OUTPUT: N/A.
+* RETURNS: true.
+*********************************************************************/
+bool maskInBoundMessageInterrupt(I2O_MESSAGE_REG messageRegNum)
+{
+	switch (messageRegNum) {
+	case MESSAGE_REG_0:
+		SET_REG_BITS(INBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE,
+			     BIT0);
+		break;
+	case MESSAGE_REG_1:
+		SET_REG_BITS(INBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE,
+			     BIT1);
+		break;
+	}
+	return true;
+}
+
+/********************************************************************
+* enableInBoundMessageInterrupt - unMask the inbound interrupt. 
+* 
+* INPUTS: I2O_MESSAGE_REG messageRegNum - Selected set (0 or 1) register.
+* OUTPUT: N/A.
+* RETURNS: true.
+*********************************************************************/
+bool enableInBoundMessageInterrupt(I2O_MESSAGE_REG messageRegNum)
+{
+	switch (messageRegNum) {
+	case MESSAGE_REG_0:
+		RESET_REG_BITS(INBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE,
+			       BIT0);
+		break;
+	case MESSAGE_REG_1:
+		RESET_REG_BITS(INBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE,
+			       BIT1);
+		break;
+	}
+	return true;
+}
+
+/********************************************************************
+* maskOutboundMessageInterrupt - Mask the out bound interrupt, when doing so
+*                           the PCI agent needs to poll on the interrupt
+*                           cause register to monitor an incoming message. 
+* 
+* INPUTS: I2O_MESSAGE_REG messageRegNum - Selected set (0 or 1) register.
+* OUTPUT: N/A.
+* RETURNS: true.
+*********************************************************************/
+bool maskOutBoundMessageInterrupt(I2O_MESSAGE_REG messageRegNum)
+{
+	switch (messageRegNum) {
+	case MESSAGE_REG_0:
+		SET_REG_BITS(OUTBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE,
+			     BIT0);
+		break;
+	case MESSAGE_REG_1:
+		SET_REG_BITS(OUTBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE,
+			     BIT1);
+		break;
+	}
+	return true;
+}
+
+/********************************************************************
+* enableOutboundMessageInterrupt - Mask the out bound interrupt, when doing so
+*                           the PCI agent needs to poll on the interrupt
+*                           cause register to monitor an incoming message. 
+* 
+* INPUTS: I2O_MESSAGE_REG messageRegNum - Selected set (0 or 1) register.
+* OUTPUT: N/A.
+* RETURNS: true.
+*********************************************************************/
+bool enableOutBoundMessageInterrupt(I2O_MESSAGE_REG messageRegNum)
+{
+	switch (messageRegNum) {
+	case MESSAGE_REG_0:
+		RESET_REG_BITS(OUTBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE,
+			       BIT0);
+		break;
+	case MESSAGE_REG_1:
+		RESET_REG_BITS(OUTBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE,
+			       BIT1);
+		break;
+	}
+	return true;
+}
+
+/********************************************************************
+* initiateOutBoundDoorBellInt - Setting a bit in this register to '1' by the 
+*                       CPU generates a PCI interrupt (if it is not masked by
+*                       the Outbound interrupt Mask register)
+*                       Only the PCI agent which recieved the interrupt can
+*                       clear it, only after clearing all the bits the
+*                       interrupt will be de-asserted.
+* 
+* INPUTS: unsigned int data - Requested interrupt bits.
+* OUTPUT: N/A.
+* RETURNS: true.
+*********************************************************************/
+bool initiateOutBoundDoorBellInt(unsigned int data)
+{
+	GT_REG_WRITE(OUTBOUND_DOORBELL_REGISTER_CPU_SIDE, data);
+	return true;
+}
+
+/********************************************************************
+* readInBoundDoorBellInt - Read the in bound door bell interrupt cause
+*                          register.
+* 
+* OUTPUT:  N/A.
+* RETURNS: The 32 bit interrupt cause register.
+*********************************************************************/
+unsigned int readInBoundDoorBellInt()
+{
+	unsigned int regData;
+	GT_REG_READ(INBOUND_DOORBELL_REGISTER_CPU_SIDE, &regData);
+	return regData;
+}
+
+/********************************************************************
+* clearInBoundDoorBellInt - An interrupt generated by a PCI agent through
+*                           the in bound door bell mechanisem can be cleared
+*                           only by the CPU. The interrupt will be de-asserted
+*                           only if all the bits which where set by the PCI
+*                           agent are cleared.
+* 
+* INPUTS:  unsigned int data - Bits to be cleared.
+* OUTPUT:  N/A.
+* RETURNS: true.
+*********************************************************************/
+bool clearInBoundDoorBellInt(unsigned int data)
+{
+	GT_REG_WRITE(INBOUND_DOORBELL_REGISTER_CPU_SIDE, data);
+	return true;
+}
+
+/********************************************************************
+* isInBoundDoorBellInterruptSet - Check if Inbound Doorbell Interrupt is set,
+*                                 can be used for polling mode.
+*
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: true if the corresponding bit in the cause register is set otherwise
+*          false.
+*********************************************************************/
+bool isInBoundDoorBellInterruptSet()
+{
+	unsigned int regData;
+
+	GT_REG_READ(INBOUND_INTERRUPT_CAUSE_REGISTER_CPU_SIDE, &regData);
+	return (regData & BIT2);
+}
+
+/********************************************************************
+* isOutBoundDoorBellInterruptSet - Check if out bound Doorbell Interrupt is 
+*                                  set, can be used for acknowledging interrupt
+*                                  handling by the agent who recieived the
+*                                  interrupt. 
+* 
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: true if the corresponding bit in the cause register is set otherwise
+*          false.
+*********************************************************************/
+bool isOutBoundDoorBellInterruptSet()
+{
+	unsigned int regData;
+
+	GT_REG_READ(OUTBOUND_INTERRUPT_CAUSE_REGISTER_CPU_SIDE, &regData);
+	return (regData & BIT2);
+}
+
+/********************************************************************
+* maskInboundDoorBellInterrupt - Mask the Inbound Doorbell Interrupt.
+*
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: true.
+*********************************************************************/
+bool maskInBoundDoorBellInterrupt()
+{
+	SET_REG_BITS(INBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE, BIT2);
+	return true;
+}
+
+/********************************************************************
+* enableInboundDoorBellInterrupt - unMask the Inbound Doorbell Interrupt.
+*
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: true.
+*********************************************************************/
+bool enableInBoundDoorBellInterrupt()
+{
+	RESET_REG_BITS(INBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE, BIT2);
+	return true;
+}
+
+/********************************************************************
+* maskOutboundDoorBellInterrupt - Mask the Outbound Doorbell Interrupt.
+*
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: true.
+*********************************************************************/
+bool maskOutBoundDoorBellInterrupt()
+{
+	SET_REG_BITS(OUTBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE, BIT2);
+	return true;
+}
+
+/********************************************************************
+* enableOutboundDoorBellInterrupt - unMask the Outbound Doorbell Interrupt.
+*
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: true.
+*********************************************************************/
+bool enableOutBoundDoorBellInterrupt()
+{
+	RESET_REG_BITS(OUTBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE, BIT2);
+	return true;
+}
+
+/********************************************************************
+* circularQueueEnable - Initialize the I2O messaging mechanism.
+* 
+* INPUTS:   CIRCULE_QUEUE_SIZE cirQueSize - Bits 5:1 in the:
+*           Queue Control Register, Offset 0x50 (0x1c50).
+*           Defines the queues size (refer to the data sheet
+*           for more information)
+*          unsigned int queueBaseAddr - The base address for the first queue.
+*           The other queues base Address will be determined as follows:
+*           Inbound Free = queueBaseAddr
+*           Inbound Post = queueBaseAddr + cirQueSize
+*           Outbound Post = queueBaseAddr + cirQueSize
+*           
+* OUTPUT:  N/A.
+* RETURNS: true.
+*
+*  The Circular Queue Starting Addresses as written in the spec:
+*  ----------------------------------------
+*  |    Queue       |  Starting Address   |
+*  |----------------|---------------------|
+*  | Inbound Free   |       QBAR          |
+*  | Inbound Post   | QBAR + Queue Size   |
+*  | Outbound Post  | QBAR + 2*Queue Size |
+*  | Outbound Free  | QBAR + 3*Queue Size |
+*  ----------------------------------------
+*********************************************************************/
+bool circularQueueEnable(CIRCULAR_QUEUE_SIZE cirQueSize,
+			 unsigned int queueBaseAddr)
+{
+	unsigned int regData;
+
+	regData = BIT0 | (cirQueSize << 1);
+	/* Enable Queue Operation */
+	GT_REG_WRITE(QUEUE_CONTROL_REGISTER_CPU_SIDE, regData);
+	/* Writing The base Address for the 4 Queues */
+	GT_REG_WRITE(QUEUE_BASE_ADDRESS_REGISTER_CPU_SIDE, queueBaseAddr);
+	/* Update The Inbound Free Queue Base Address, offset=0 */
+	GT_REG_WRITE(INBOUND_FREE_HEAD_POINTER_REGISTER_CPU_SIDE, 0);
+	GT_REG_WRITE(INBOUND_FREE_TAIL_POINTER_REGISTER_CPU_SIDE, 0);
+	/* Update The Inbound Post Queue Base Address, offset=_16K*cirQueSize */
+	GT_REG_WRITE(INBOUND_POST_HEAD_POINTER_REGISTER_CPU_SIDE,
+		     _16K * cirQueSize);
+	GT_REG_WRITE(INBOUND_POST_TAIL_POINTER_REGISTER_CPU_SIDE,
+		     _16K * cirQueSize);
+	/* Update The Outbound Post Queue Base Address, offset=2*_16K*cirQueSize */
+	GT_REG_WRITE(OUTBOUND_POST_HEAD_POINTER_REGISTER_CPU_SIDE,
+		     2 * _16K * cirQueSize);
+	GT_REG_WRITE(OUTBOUND_POST_TAIL_POINTER_REGISTER_CPU_SIDE,
+		     2 * _16K * cirQueSize);
+	/* Update The Outbound Free Queue Base Address, offset=3*_16K*cirQueSize */
+	GT_REG_WRITE(OUTBOUND_FREE_HEAD_POINTER_REGISTER_CPU_SIDE,
+		     3 * _16K * cirQueSize);
+	GT_REG_WRITE(OUTBOUND_FREE_TAIL_POINTER_REGISTER_CPU_SIDE,
+		     3 * _16K * cirQueSize);
+	return true;
+}
+
+/********************************************************************
+* inBoundPostQueuePop - Two actions are being taken upon pop: 
+*           1) Getting out the data from the Queue`s head.
+*           2) Increment the tail pointer in a cyclic way (The HEAD is
+*              incremented automaticaly by the GT) 
+*
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: Data pointed by tail.
+*********************************************************************/
+unsigned int inBoundPostQueuePop()
+{
+	unsigned int tailAddrPointer;
+	unsigned int data;
+	unsigned int cirQueSize;
+	unsigned int qBar;
+	unsigned int inBoundPostQbase;
+
+	/* Gets the Inbound Post TAIL pointer */
+	GT_REG_READ(INBOUND_POST_TAIL_POINTER_REGISTER_CPU_SIDE,
+		    &tailAddrPointer);
+	/* Gets the Data From the pointer Address */
+	READ_WORD(tailAddrPointer, &data);
+	/* incrementing head process: */
+	/* Gets the fifo's base Address */
+	GT_REG_READ(QUEUE_BASE_ADDRESS_REGISTER_CPU_SIDE, &qBar);
+	qBar = qBar & 0xfff00000;
+	/* Gets the fifo's size */
+	GT_REG_READ(QUEUE_CONTROL_REGISTER_CPU_SIDE, &cirQueSize);
+	cirQueSize = 0x1f && (cirQueSize >> 1);
+	/* calculating The Inbound Post Queue Base Address */
+	inBoundPostQbase = qBar + 1 * cirQueSize * _16K;
+	/* incrementing Inbound Post queue TAIL in a cyclic loop */
+	tailAddrPointer = inBoundPostQbase + ((tailAddrPointer + 4) %
+					      (_16K * cirQueSize));
+	/* updating the pointer back to INBOUND_POST_TAIL_POINTER_REGISTER */
+	GT_REG_WRITE(INBOUND_POST_TAIL_POINTER_REGISTER_CPU_SIDE,
+		     tailAddrPointer);
+	return data;
+}
+
+/********************************************************************
+* isInBoundPostQueueInterruptSet - Check if in bound interrupt is set.
+*                                  can be used for polling mode.
+*
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: true if the corresponding bit in the cause register is set otherwise
+*          false.
+*********************************************************************/
+bool isInBoundPostQueueInterruptSet()
+{
+	unsigned int regData;
+
+	GT_REG_READ(INBOUND_INTERRUPT_CAUSE_REGISTER_CPU_SIDE, &regData);
+	return (regData & BIT4);	/* if set return '1' (true), else '0' (false) */
+}
+
+/********************************************************************
+* clearInBoundPostQueueInterrupt - Clears the Post queue interrupt.
+* 
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: true.
+*********************************************************************/
+bool clearInBoundPostQueueInterrupt()
+{
+	GT_REG_WRITE(INBOUND_INTERRUPT_CAUSE_REGISTER_CPU_SIDE, BIT4);
+	return true;
+}
+
+/********************************************************************
+* maskInBoundPostQueueInterrupt - Mask the inbound interrupt, when masking
+*                                 the interrupt you can work in polling mode.
+*
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: 
+*********************************************************************/
+void maskInBoundPostQueueInterrupt()
+{
+	unsigned int regData;
+
+	GT_REG_READ(INBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE, &regData);
+	GT_REG_WRITE(INBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE,
+		     regData | BIT4);
+
+}
+
+/********************************************************************
+* enableInBoundPostQueueInterrupt - Enable interrupt when ever there is a new
+*                                   message from the PCI agent.
+* 
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS:
+*********************************************************************/
+void enableInBoundPostQueueInterrupt()
+{
+	unsigned int regData;
+
+	GT_REG_READ(INBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE, &regData);
+	GT_REG_WRITE(INBOUND_INTERRUPT_MASK_REGISTER_CPU_SIDE,
+		     regData & 0xfffffffb);
+}
+
+/********************************************************************
+* inBoundFreeQueuePush - Two actions are being taken upon push: 
+*           1) Place the user`s data on the Queue`s head.
+*           2) Increment the haed pointer in a cyclic way (The tail is
+*              decremented automaticaly by the GT)
+* 
+* INPUTS:  unsigned int data - Data to be placed in the queue.
+* OUTPUT:  N/A.
+* RETURNS: true.
+*********************************************************************/
+bool inBoundFreeQueuePush(unsigned int data)
+{
+	unsigned int headPointer;
+	unsigned int cirQueSize;
+	unsigned int qBar;
+	unsigned int inBoundFreeQbase;
+
+	GT_REG_READ(INBOUND_FREE_HEAD_POINTER_REGISTER_CPU_SIDE,
+		    &headPointer);
+	/* placing the data in the queue */
+	WRITE_WORD(headPointer, data);
+	/* incrementing head process: */
+	/* Gets the fifo's base Address */
+	GT_REG_READ(QUEUE_BASE_ADDRESS_REGISTER_CPU_SIDE, &qBar);
+	qBar = qBar & 0xfff00000;
+	/* Gets the fifo's size */
+	GT_REG_READ(QUEUE_CONTROL_REGISTER_CPU_SIDE, &cirQueSize);
+	cirQueSize = 0x1f && (cirQueSize >> 1);
+	/* calculating The Inbound Free Queue Base Address */
+	inBoundFreeQbase = qBar;
+	/* incrementing Inbound Free queue HEAD in a cyclic loop */
+	headPointer =
+	    inBoundFreeQbase + ((headPointer + 4) % (_16K * cirQueSize));
+	/* updating the pointer back to OUTBOUND_POST_HEAD_POINTER_REGISTER */
+	GT_REG_WRITE(INBOUND_FREE_HEAD_POINTER_REGISTER_CPU_SIDE,
+		     headPointer);
+	return true;
+}
+
+/********************************************************************
+* isInBoundFreeQueueEmpty - Check if Inbound Free Queue Empty.
+*                           Can be used for acknowledging the messages
+*                           being sent by us to the PCI agent.
+* 
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: true if the queue is empty , otherwise false.
+*********************************************************************/
+bool isInBoundFreeQueueEmpty()
+{
+	unsigned int inBoundFreeQueHead;
+	unsigned int inBoundFreeQueTail;
+
+	GT_REG_READ(INBOUND_FREE_HEAD_POINTER_REGISTER_CPU_SIDE,
+		    &inBoundFreeQueHead);
+	GT_REG_READ(INBOUND_FREE_TAIL_POINTER_REGISTER_CPU_SIDE,
+		    &inBoundFreeQueTail);
+	if (inBoundFreeQueHead == inBoundFreeQueTail) {
+		return true;
+	} else
+		return false;
+}
+
+/********************************************************************
+* outBoundPostQueuePush  - Two actions are being taken upon push: 
+*           1) Place the user`s data on the Queue`s head.
+*           2) Increment the haed pointer in a cyclic way (The tail is
+*              decremented automaticaly by the GT when the Agent on the
+*              PCI have read data from the Outbound Port).
+* 
+* INPUTS:  unsigned int data - Data to be placed in the queue`s head.
+* OUTPUT:  N/A.
+* RETURNS: true.
+*********************************************************************/
+bool outBoundPostQueuePush(unsigned int data)
+{
+	unsigned int headPointer;
+	unsigned int cirQueSize;
+	unsigned int qBar;
+	unsigned int outBoundPostQbase;
+
+	GT_REG_READ(OUTBOUND_POST_HEAD_POINTER_REGISTER_CPU_SIDE,
+		    &headPointer);
+	/* placing the data in the queue (where the head point to..) */
+	WRITE_WORD(headPointer, data);
+	/* incrementing head process: */
+	/* Gets the fifo's base Address */
+	GT_REG_READ(QUEUE_BASE_ADDRESS_REGISTER_CPU_SIDE, &qBar);
+	qBar = qBar & 0xfff00000;
+	/* Gets the fifo's size */
+	GT_REG_READ(QUEUE_CONTROL_REGISTER_CPU_SIDE, &cirQueSize);
+	cirQueSize = 0x1f && (cirQueSize >> 1);
+	/* calculating The Outbound Post Queue Base Address */
+	outBoundPostQbase = qBar + 2 * cirQueSize * _16K;
+	/* incrementing Outbound Post queue in a cyclic loop */
+	headPointer =
+	    outBoundPostQbase + ((headPointer + 4) % (_16K * cirQueSize));
+	/* updating the pointer back to OUTBOUND_POST_HEAD_POINTER_REGISTER */
+	GT_REG_WRITE(OUTBOUND_POST_HEAD_POINTER_REGISTER_CPU_SIDE,
+		     headPointer);
+	return true;
+}
+
+/********************************************************************
+* isOutBoundPostQueueEmpty - Check if Outbound Post Queue Empty.
+*                            Can be used for acknowledging the messages
+*                            being sent by us to the PCI agent.
+* 
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: true if the queue is empty , otherwise false.
+*********************************************************************/
+bool isOutBoundPostQueueEmpty()
+{
+	unsigned int outBoundPostQueHead;
+	unsigned int outBoundPostQueTail;
+
+	GT_REG_READ(INBOUND_FREE_HEAD_POINTER_REGISTER_CPU_SIDE,
+		    &outBoundPostQueHead);
+	GT_REG_READ(INBOUND_FREE_TAIL_POINTER_REGISTER_CPU_SIDE,
+		    &outBoundPostQueTail);
+	if (outBoundPostQueHead == outBoundPostQueTail) {
+		return true;
+	} else
+		return false;
+}
+
+/********************************************************************
+* outBoundFreeQueuePop - Two actions are being taken upon pop: 
+*           1) Getting out the data from the Queue`s head.
+*           2) Increment the tail pointer in a cyclic way (The HEAD is
+*              incremented automaticaly by the GT)
+* 
+* INPUTS:  N/A.
+* OUTPUT:  N/A.
+* RETURNS: Data pointed by tail.
+*********************************************************************/
+unsigned int outBoundFreeQueuePop()
+{
+	unsigned int tailAddrPointer;
+	unsigned int data;
+	unsigned int cirQueSize;
+	unsigned int qBar;
+	unsigned int outBoundFreeQbase;
+
+	/* Gets the Inbound Post TAIL pointer */
+	GT_REG_READ(OUTBOUND_FREE_TAIL_POINTER_REGISTER_CPU_SIDE,
+		    &tailAddrPointer);
+	/* Gets the Data From the pointer Address */
+	READ_WORD(tailAddrPointer, &data);
+	/* incrementing head process: */
+	/* Gets the fifo's base Address */
+	GT_REG_READ(QUEUE_BASE_ADDRESS_REGISTER_CPU_SIDE, &qBar);
+	qBar = qBar & 0xfff00000;
+	/* Gets the fifo's size */
+	GT_REG_READ(QUEUE_CONTROL_REGISTER_CPU_SIDE, &cirQueSize);
+	cirQueSize = 0x1f && (cirQueSize >> 1);
+	/* calculating The Inbound Post Queue Base Address */
+	outBoundFreeQbase = qBar + 3 * cirQueSize * _16K;
+	/* incrementing Outbound Free queue TAlL in a cyclic loop */
+	tailAddrPointer = outBoundFreeQbase + ((tailAddrPointer + 4) %
+					       (_16K * cirQueSize));
+	/* updating the pointer back to OUTBOUND_FREE_TAIL_POINTER_REGISTER */
+	GT_REG_WRITE(OUTBOUND_FREE_TAIL_POINTER_REGISTER_CPU_SIDE,
+		     tailAddrPointer);
+	return data;
+}
+
+
+EXPORT_SYMBOL(isInBoundDoorBellInterruptSet);
+EXPORT_SYMBOL(initiateOutBoundDoorBellInt);
+EXPORT_SYMBOL(clearInBoundDoorBellInt);