ad44834907
1. Make sure connectMemPorts() only gets called when the CPU's peer gets changed. This is done by making setPeer() virtual, and overriding it in the CPU's ports. When it gets called on a CPU's port (dcache specifically), it calls the normal setPeer() function, and also connectMemPorts(). 2. Consolidate redundant code that handles switching in a CPU. src/cpu/base.cc: Move common code of switching over peers to base CPU. src/cpu/base.hh: Move common code of switching over peers to BaseCPU. src/cpu/o3/cpu.cc: Add in function that updates thread context's ports. Also use updated function to takeOverFrom() in BaseCPU. This gets rid of some repeated code. src/cpu/o3/cpu.hh: Include function to update thread context's memory ports. src/cpu/o3/lsq.hh: Add function to dcache port that will update the memory ports upon getting a new peer. Also include a function that will tell the CPU to update those memory ports. src/cpu/o3/lsq_impl.hh: Add function that will update the memory ports upon getting a new peer. src/cpu/simple/atomic.cc: src/cpu/simple/timing.cc: Add function that will update thread context's memory ports upon getting a new peer. Also use the new BaseCPU's take over from function. src/cpu/simple/atomic.hh: Add in function (and dcache port) that will allow the dcache to update memory ports when it gets assigned a new peer. src/cpu/simple/timing.hh: Add function that will update thread context's memory ports upon getting a new peer. src/mem/port.hh: Make setPeer virtual so that other classes can override it. --HG-- extra : convert_revision : 2050f1241dd2e83875d281cfc5ad5c6c8705fdaf
300 lines
11 KiB
C++
300 lines
11 KiB
C++
/*
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* Copyright (c) 2002-2005 The Regents of The University of Michigan
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are
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* met: redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer;
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* redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution;
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* neither the name of the copyright holders nor the names of its
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* contributors may be used to endorse or promote products derived from
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* this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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* Authors: Ron Dreslinski
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*/
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/**
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* @file
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* Port Object Declaration. Ports are used to interface memory objects to
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* each other. They will always come in pairs, and we refer to the other
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* port object as the peer. These are used to make the design more
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* modular so that a specific interface between every type of objcet doesn't
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* have to be created.
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*/
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#ifndef __MEM_PORT_HH__
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#define __MEM_PORT_HH__
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#include <list>
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#include <inttypes.h>
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#include "base/misc.hh"
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#include "base/range.hh"
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#include "mem/packet.hh"
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#include "mem/request.hh"
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/** This typedef is used to clean up the parameter list of
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* getDeviceAddressRanges() and getPeerAddressRanges(). It's declared
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* outside the Port object since it's also used by some mem objects.
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* Eventually we should move this typedef to wherever Addr is
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* defined.
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*/
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typedef std::list<Range<Addr> > AddrRangeList;
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typedef std::list<Range<Addr> >::iterator AddrRangeIter;
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class MemObject;
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/**
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* Ports are used to interface memory objects to
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* each other. They will always come in pairs, and we refer to the other
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* port object as the peer. These are used to make the design more
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* modular so that a specific interface between every type of objcet doesn't
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* have to be created.
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*
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* Recv accesor functions are being called from the peer interface.
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* Send accessor functions are being called from the device the port is
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* associated with, and it will call the peer recv. accessor function.
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*/
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class Port
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{
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private:
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/** Descriptive name (for DPRINTF output) */
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mutable std::string portName;
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/** A pointer to the peer port. Ports always come in pairs, that way they
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can use a standardized interface to communicate between different
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memory objects. */
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Port *peer;
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/** A pointer to the MemObject that owns this port. This may not be set. */
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MemObject *owner;
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public:
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Port()
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: peer(NULL), owner(NULL)
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{ }
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/**
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* Constructor.
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*
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* @param _name Port name for DPRINTF output. Should include name
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* of memory system object to which the port belongs.
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* @param _owner Pointer to the MemObject that owns this port.
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* Will not necessarily be set.
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*/
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Port(const std::string &_name, MemObject *_owner = NULL)
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: portName(_name), peer(NULL), owner(_owner)
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{ }
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/** Return port name (for DPRINTF). */
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const std::string &name() const { return portName; }
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virtual ~Port() {};
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// mey be better to use subclasses & RTTI?
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/** Holds the ports status. Currently just that a range recomputation needs
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* to be done. */
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enum Status {
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RangeChange
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};
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void setName(const std::string &name)
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{ portName = name; }
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/** Function to set the pointer for the peer port. */
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virtual void setPeer(Port *port);
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/** Function to get the pointer to the peer port. */
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Port *getPeer() { return peer; }
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/** Function to set the owner of this port. */
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void setOwner(MemObject *_owner) { owner = _owner; }
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/** Function to return the owner of this port. */
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MemObject *getOwner() { return owner; }
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/** Inform the peer port to delete itself and notify it's owner about it's
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* demise. */
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void removeConn();
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protected:
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/** These functions are protected because they should only be
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* called by a peer port, never directly by any outside object. */
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/** Called to recive a timing call from the peer port. */
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virtual bool recvTiming(PacketPtr pkt) = 0;
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/** Called to recive a atomic call from the peer port. */
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virtual Tick recvAtomic(PacketPtr pkt) = 0;
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/** Called to recive a functional call from the peer port. */
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virtual void recvFunctional(PacketPtr pkt) = 0;
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/** Called to recieve a status change from the peer port. */
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virtual void recvStatusChange(Status status) = 0;
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/** Called by a peer port if the send was unsuccesful, and had to
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wait. This shouldn't be valid for response paths (IO Devices).
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so it is set to panic if it isn't already defined.
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*/
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virtual void recvRetry() { panic("??"); }
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/** Called by a peer port in order to determine the block size of the
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device connected to this port. It sometimes doesn't make sense for
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this function to be called, a DMA interface doesn't really have a
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block size, so it is defaulted to a panic.
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*/
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virtual int deviceBlockSize() { panic("??"); M5_DUMMY_RETURN }
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/** The peer port is requesting us to reply with a list of the ranges we
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are responsible for.
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@param resp is a list of ranges responded to
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@param snoop is a list of ranges snooped
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*/
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virtual void getDeviceAddressRanges(AddrRangeList &resp,
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AddrRangeList &snoop)
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{ panic("??"); }
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public:
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/** Function called by associated memory device (cache, memory, iodevice)
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in order to send a timing request to the port. Simply calls the peer
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port receive function.
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@return This function returns if the send was succesful in it's
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recieve. If it was a failure, then the port will wait for a recvRetry
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at which point it can possibly issue a successful sendTiming. This is used in
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case a cache has a higher priority request come in while waiting for
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the bus to arbitrate.
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*/
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bool sendTiming(PacketPtr pkt) { return peer->recvTiming(pkt); }
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/** Function called by the associated device to send an atomic
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* access, an access in which the data is moved and the state is
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* updated in one cycle, without interleaving with other memory
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* accesses. Returns estimated latency of access.
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*/
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Tick sendAtomic(PacketPtr pkt)
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{ return peer->recvAtomic(pkt); }
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/** Function called by the associated device to send a functional access,
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an access in which the data is instantly updated everywhere in the
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memory system, without affecting the current state of any block or
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moving the block.
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*/
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void sendFunctional(PacketPtr pkt)
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{ return peer->recvFunctional(pkt); }
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/** Called by the associated device to send a status change to the device
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connected to the peer interface.
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*/
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void sendStatusChange(Status status) {peer->recvStatusChange(status); }
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/** When a timing access doesn't return a success, some time later the
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Retry will be sent.
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*/
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void sendRetry() { return peer->recvRetry(); }
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/** Called by the associated device if it wishes to find out the blocksize
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of the device on attached to the peer port.
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*/
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int peerBlockSize() { return peer->deviceBlockSize(); }
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/** Called by the associated device if it wishes to find out the address
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ranges connected to the peer ports devices.
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*/
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void getPeerAddressRanges(AddrRangeList &resp, AddrRangeList &snoop)
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{ peer->getDeviceAddressRanges(resp, snoop); }
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/** This function is a wrapper around sendFunctional()
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that breaks a larger, arbitrarily aligned access into
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appropriate chunks. The default implementation can use
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getBlockSize() to determine the block size and go from there.
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*/
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virtual void readBlob(Addr addr, uint8_t *p, int size);
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/** This function is a wrapper around sendFunctional()
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that breaks a larger, arbitrarily aligned access into
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appropriate chunks. The default implementation can use
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getBlockSize() to determine the block size and go from there.
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*/
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virtual void writeBlob(Addr addr, uint8_t *p, int size);
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/** Fill size bytes starting at addr with byte value val. This
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should not need to be virtual, since it can be implemented in
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terms of writeBlob(). However, it shouldn't be
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performance-critical either, so it could be if we wanted to.
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*/
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virtual void memsetBlob(Addr addr, uint8_t val, int size);
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private:
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/** Internal helper function for read/writeBlob().
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*/
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void blobHelper(Addr addr, uint8_t *p, int size, MemCmd cmd);
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};
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/** A simple functional port that is only meant for one way communication to
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* physical memory. It is only meant to be used to load data into memory before
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* the simulation begins.
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*/
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class FunctionalPort : public Port
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{
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public:
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FunctionalPort(const std::string &_name, MemObject *_owner = NULL)
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: Port(_name, _owner)
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{}
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protected:
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virtual bool recvTiming(PacketPtr pkt) { panic("FuncPort is UniDir");
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M5_DUMMY_RETURN }
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virtual Tick recvAtomic(PacketPtr pkt) { panic("FuncPort is UniDir");
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M5_DUMMY_RETURN }
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virtual void recvFunctional(PacketPtr pkt) { panic("FuncPort is UniDir"); }
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virtual void recvStatusChange(Status status) {}
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public:
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/** a write function that also does an endian conversion. */
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template <typename T>
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inline void writeHtoG(Addr addr, T d);
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/** a read function that also does an endian conversion. */
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template <typename T>
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inline T readGtoH(Addr addr);
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template <typename T>
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inline void write(Addr addr, T d)
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{
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writeBlob(addr, (uint8_t*)&d, sizeof(T));
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}
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template <typename T>
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inline T read(Addr addr)
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{
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T d;
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readBlob(addr, (uint8_t*)&d, sizeof(T));
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return d;
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}
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};
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#endif //__MEM_PORT_HH__
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