ext/nomali/lib/gpublock.hh - public/gem5 - Git at Google

 /*
  * Copyright (c) 2014-2015 ARM Limited
  * All rights reserved
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  * Authors: Andreas Sandberg
  */

 #ifndef _LIBNOMALIMODEL_GPUBLOCK_HH
 #define _LIBNOMALIMODEL_GPUBLOCK_HH

 #include "types.hh"

 namespace NoMali {

 class GPU;

 /**
  * Base class for GPU function blocks providing common access
  * functions.
  */
 class GPUBlock
 {
   public:
     GPUBlock(GPU &_gpu);
     GPUBlock(GPU &_gpu, RegVector::size_type no_regs);
     GPUBlock(GPUBlock &&rhs);
     virtual ~GPUBlock() = 0;

     /**
      * Reset the function block.
      *
      * This method is called to simulated a hard reset of the GPU. It
      * resets all registers to their default state and resets any
      * block-specific state. The default implementation resets all
      * registers to 0.
      */
     virtual void reset();


     /**
      * @{
      * @name Register Interface
      */

     /**
      * Read a register within a function block.
      *
      * @param addr Function-block relative address.
      * @return Register value (32-bits)
      */
     virtual uint32_t readReg(RegAddr addr);

     /**
      * Write to a register within a function block.
      *
      * @param addr Function-block relative address.
      * @param value New value (32-bits)
      */
     virtual void writeReg(RegAddr addr, uint32_t value);


     /**
      * Read a register within a function block without side effects.
      *
      * Unlike a normal read (readReg()), this method does not include
      * any side effects and reads straight from the register file. It
      * is primarily intended for things checkpointing.
      *
      * @param addr Function-block relative address.
      * @return Register value (32-bits)
      */
     virtual uint32_t readRegRaw(RegAddr addr);

     /**
      * Write to a register within a function block without side
      * effects.
      *
      * Unlike a normal write (writeReg()), this method does not
      * include any side effects and writes straight into the register
      * file. It is primarily intended for things checkpointing.
      *
      * @param addr Function-block relative address.
      * @param value New value (32-bits)
      */
     virtual void writeRegRaw(RegAddr addr, uint32_t value);

     /** @} */

   protected:
     /** Reference to the top-level GPU component */
     GPU &gpu;

     /** GPU block register file */
     RegVector regs;


   private:
     /** Disable the default constructor */
     GPUBlock();

     /** Disable the copy constructor */
     GPUBlock(GPUBlock &_rhs);

     /** Disable the assignment operator */
     GPUBlock &operator=(GPUBlock &_rhs);
 };

 /**
  * Base class for interrupt enabled GPU function blocks.
  *
  * Function blocks with interrupt functionality implement four
  * different registers controlling interrupts:
  * <ul>
  *   <li>XX_IRQ_RAWSTAT -- Raw interrupt state bit mask. (RW)
  *   <li>XX_IRQ_CLEAR -- Interrupt clear register. (WO)
  *   <li>XX_IRQ_MASK -- Bitmaks of enabled interrupts. (RW)
  *   <li>XX_IRQ_STATUS -- Currently pending unmasked interrupts. (RO)
  * </ul>
  *
  * This class provides implements the handling of the registers above
  * and utility functions to raise interrupts from the function block
  * models.
  */
 class GPUBlockInt
     : public GPUBlock
 {
   public:
     GPUBlockInt(GPU &_gpu,
                 const RegAddr &irq_raw_stat,
                 const RegAddr &irq_clear,
                 const RegAddr &irq_mask,
                 const RegAddr &irq_stat);
     virtual ~GPUBlockInt() = 0;

     uint32_t readReg(RegAddr addr) override;
     void writeReg(RegAddr addr, uint32_t value) override;

     /**
      * Raise an interrupt from this function block.
      *
      * Calling this method flags the interrupts in ints as pending in
      * the raw interrupt status register. If this operation asserts a
      * new unmasked interrupt (i.e., the state of the interrupt status
      * register changes), the onInterrupt() callback is called to
      * signal an interrupt state change.
      *
      * @param ints Bitfield representing interrupts to raise.
      */
     void raiseInterrupt(uint32_t ints);

     /**
      * Clear an interrupt from this function block.
      *
      * Calling this method clears the interrupts in ints in the raw
      * interrupt status register. If this operation clears a an
      * existing interrupt (i.e., the state of the interrupt status
      * register changes), the onInterrupt() callback is called to
      * signal an interrupt state change.
      *
      * @param ints Bitfield representing interrupts to raise.
      */
     void clearInterrupt(uint32_t ints);

     /**
      * Current interrupt status
      *
      * @return The value of the raw interrupt status register
      * logically anded with the interrupt mask register.
      */
     uint32_t irqStatus() const;

     /**
      * Are there unmasked interrupts pending?
      *
      * @return true if the interrupt status register is non-zero,
      * false otherwise.
      */
     bool intAsserted() const { return !!irqStatus(); }

   protected:
     /**
      * Callback method for interrupt status change.
      *
      * This method is called whenever the interrupt signal going out
      * of this GPU block changes. The new state of the signal can be
      * determined from the 'set' parameter which is non-zero if the
      * inerrupt is raised and zero if it is cleared. The state of the
      * interrupt signal can also be queried using the irqStatus()
      * method.
      *
      * @see raiseInterrupt()
      * @see clearInterrupt()
      * @see irqStatus()
      *
      * @param set Non-zero to raise interrupt, zero to clear
      * interrupt.
      */
     virtual void onInterrupt(int set) = 0;

   private:
     const RegAddr addrIrqRawStat;
     const RegAddr addrIrqClear;
     const RegAddr addrIrqMask;
     const RegAddr addrIrqStat;
 };

 }

 #endif // _LIBNOMALIMODEL_GPUBLOCK_HH
	/*
	* Copyright (c) 2014-2015 ARM Limited
	* All rights reserved
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	* Authors: Andreas Sandberg
	*/

	#ifndef _LIBNOMALIMODEL_GPUBLOCK_HH
	#define _LIBNOMALIMODEL_GPUBLOCK_HH

	#include "types.hh"

	namespace NoMali {

	class GPU;

	/**
	* Base class for GPU function blocks providing common access
	* functions.
	*/
	class GPUBlock
	{
	public:
	GPUBlock(GPU &_gpu);
	GPUBlock(GPU &_gpu, RegVector::size_type no_regs);
	GPUBlock(GPUBlock &&rhs);
	virtual ~GPUBlock() = 0;

	/**
	* Reset the function block.
	*
	* This method is called to simulated a hard reset of the GPU. It
	* resets all registers to their default state and resets any
	* block-specific state. The default implementation resets all
	* registers to 0.
	*/
	virtual void reset();


	/**
	* @{
	* @name Register Interface
	*/

	/**
	* Read a register within a function block.
	*
	* @param addr Function-block relative address.
	* @return Register value (32-bits)
	*/
	virtual uint32_t readReg(RegAddr addr);

	/**
	* Write to a register within a function block.
	*
	* @param addr Function-block relative address.
	* @param value New value (32-bits)
	*/
	virtual void writeReg(RegAddr addr, uint32_t value);


	/**
	* Read a register within a function block without side effects.
	*
	* Unlike a normal read (readReg()), this method does not include
	* any side effects and reads straight from the register file. It
	* is primarily intended for things checkpointing.
	*
	* @param addr Function-block relative address.
	* @return Register value (32-bits)
	*/
	virtual uint32_t readRegRaw(RegAddr addr);

	/**
	* Write to a register within a function block without side
	* effects.
	*
	* Unlike a normal write (writeReg()), this method does not
	* include any side effects and writes straight into the register
	* file. It is primarily intended for things checkpointing.
	*
	* @param addr Function-block relative address.
	* @param value New value (32-bits)
	*/
	virtual void writeRegRaw(RegAddr addr, uint32_t value);

	/** @} */

	protected:
	/** Reference to the top-level GPU component */
	GPU &gpu;

	/** GPU block register file */
	RegVector regs;


	private:
	/** Disable the default constructor */
	GPUBlock();

	/** Disable the copy constructor */
	GPUBlock(GPUBlock &_rhs);

	/** Disable the assignment operator */
	GPUBlock &operator=(GPUBlock &_rhs);
	};

	/**
	* Base class for interrupt enabled GPU function blocks.
	*
	* Function blocks with interrupt functionality implement four
	* different registers controlling interrupts:
	* <ul>
	* <li>XX_IRQ_RAWSTAT -- Raw interrupt state bit mask. (RW)
	* <li>XX_IRQ_CLEAR -- Interrupt clear register. (WO)
	* <li>XX_IRQ_MASK -- Bitmaks of enabled interrupts. (RW)
	* <li>XX_IRQ_STATUS -- Currently pending unmasked interrupts. (RO)
	* </ul>
	*
	* This class provides implements the handling of the registers above
	* and utility functions to raise interrupts from the function block
	* models.
	*/
	class GPUBlockInt
	: public GPUBlock
	{
	public:
	GPUBlockInt(GPU &_gpu,
	const RegAddr &irq_raw_stat,
	const RegAddr &irq_clear,
	const RegAddr &irq_mask,
	const RegAddr &irq_stat);
	virtual ~GPUBlockInt() = 0;

	uint32_t readReg(RegAddr addr) override;
	void writeReg(RegAddr addr, uint32_t value) override;

	/**
	* Raise an interrupt from this function block.
	*
	* Calling this method flags the interrupts in ints as pending in
	* the raw interrupt status register. If this operation asserts a
	* new unmasked interrupt (i.e., the state of the interrupt status
	* register changes), the onInterrupt() callback is called to
	* signal an interrupt state change.
	*
	* @param ints Bitfield representing interrupts to raise.
	*/
	void raiseInterrupt(uint32_t ints);

	/**
	* Clear an interrupt from this function block.
	*
	* Calling this method clears the interrupts in ints in the raw
	* interrupt status register. If this operation clears a an
	* existing interrupt (i.e., the state of the interrupt status
	* register changes), the onInterrupt() callback is called to
	* signal an interrupt state change.
	*
	* @param ints Bitfield representing interrupts to raise.
	*/
	void clearInterrupt(uint32_t ints);

	/**
	* Current interrupt status
	*
	* @return The value of the raw interrupt status register
	* logically anded with the interrupt mask register.
	*/
	uint32_t irqStatus() const;

	/**
	* Are there unmasked interrupts pending?
	*
	* @return true if the interrupt status register is non-zero,
	* false otherwise.
	*/
	bool intAsserted() const { return !!irqStatus(); }

	protected:
	/**
	* Callback method for interrupt status change.
	*
	* This method is called whenever the interrupt signal going out
	* of this GPU block changes. The new state of the signal can be
	* determined from the 'set' parameter which is non-zero if the
	* inerrupt is raised and zero if it is cleared. The state of the
	* interrupt signal can also be queried using the irqStatus()
	* method.
	*
	* @see raiseInterrupt()
	* @see clearInterrupt()
	* @see irqStatus()
	*
	* @param set Non-zero to raise interrupt, zero to clear
	* interrupt.
	*/
	virtual void onInterrupt(int set) = 0;

	private:
	const RegAddr addrIrqRawStat;
	const RegAddr addrIrqClear;
	const RegAddr addrIrqMask;
	const RegAddr addrIrqStat;
	};

	}

	#endif // _LIBNOMALIMODEL_GPUBLOCK_HH