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/*
* Copyright (c) 2012-2013, 2015-2016, 2018 ARM Limited
* All rights reserved.
*
* The license below extends only to copyright in the software and shall
* not be construed as granting a license to any other intellectual
* property including but not limited to intellectual property relating
* to a hardware implementation of the functionality of the software
* licensed hereunder. You may use the software subject to the license
* terms below provided that you ensure that this notice is replicated
* unmodified and in its entirety in all distributions of the software,
* modified or unmodified, in source code or in binary form.
*
* Copyright (c) 2002-2005 The Regents of The University of Michigan
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met: redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer;
* redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution;
* neither the name of the copyright holders nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 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
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Authors: Erik Hallnor
* Nikos Nikoleris
*/
/**
* @file
* Miss Status and Handling Register (MSHR) declaration.
*/
#ifndef __MEM_CACHE_MSHR_HH__
#define __MEM_CACHE_MSHR_HH__
#include <cassert>
#include <iosfwd>
#include <list>
#include <string>
#include <vector>
#include "base/printable.hh"
#include "base/types.hh"
#include "mem/cache/queue_entry.hh"
#include "mem/packet.hh"
#include "mem/request.hh"
#include "sim/core.hh"
class BaseCache;
/**
* Miss Status and handling Register. This class keeps all the information
* needed to handle a cache miss including a list of target requests.
* @sa \ref gem5MemorySystem "gem5 Memory System"
*/
class MSHR : public QueueEntry, public Printable
{
/**
* Consider the queues friends to avoid making everything public.
*/
template<typename Entry>
friend class Queue;
friend class MSHRQueue;
private:
/** Flag set by downstream caches */
bool downstreamPending;
/**
* Here we use one flag to track both if:
*
* 1. We are going to become owner or not, i.e., we will get the
* block in an ownership state (Owned or Modified) with BlkDirty
* set. This determines whether or not we are going to become the
* responder and ordering point for future requests that we snoop.
*
* 2. We know that we are going to get a writable block, i.e. we
* will get the block in writable state (Exclusive or Modified
* state) with BlkWritable set. That determines whether additional
* targets with needsWritable set will be able to be satisfied, or
* if not should be put on the deferred list to possibly wait for
* another request that does give us writable access.
*
* Condition 2 is actually just a shortcut that saves us from
* possibly building a deferred target list and calling
* promoteWritable() every time we get a writable block. Condition
* 1, tracking ownership, is what is important. However, we never
* receive ownership without marking the block dirty, and
* consequently use pendingModified to track both ownership and
* writability rather than having separate pendingDirty and
* pendingWritable flags.
*/
bool pendingModified;
/** Did we snoop an invalidate while waiting for data? */
bool postInvalidate;
/** Did we snoop a read while waiting for data? */
bool postDowngrade;
public:
/** Track if we sent this as a whole line write or not */
bool wasWholeLineWrite;
/** True if the entry is just a simple forward from an upper level */
bool isForward;
class Target {
public:
enum Source {
FromCPU,
FromSnoop,
FromPrefetcher
};
const Tick recvTime; //!< Time when request was received (for stats)
const Tick readyTime; //!< Time when request is ready to be serviced
const Counter order; //!< Global order (for memory consistency mgmt)
const PacketPtr pkt; //!< Pending request packet.
const Source source; //!< Request from cpu, memory, or prefetcher?
/**
* We use this flag to track whether we have cleared the
* downstreamPending flag for the MSHR of the cache above
* where this packet originates from and guard noninitial
* attempts to clear it.
*
* The flag markedPending needs to be updated when the
* TargetList is in service which can be:
* 1) during the Target instantiation if the MSHR is in
* service and the target is not deferred,
* 2) when the MSHR becomes in service if the target is not
* deferred,
* 3) or when the TargetList is promoted (deferredTargets ->
* targets).
*/
bool markedPending;
const bool allocOnFill; //!< Should the response servicing this
//!< target list allocate in the cache?
Target(PacketPtr _pkt, Tick _readyTime, Counter _order,
Source _source, bool _markedPending, bool alloc_on_fill)
: recvTime(curTick()), readyTime(_readyTime), order(_order),
pkt(_pkt), source(_source), markedPending(_markedPending),
allocOnFill(alloc_on_fill)
{}
};
class TargetList : public std::list<Target> {
public:
bool needsWritable;
bool hasUpgrade;
/** Set when the response should allocate on fill */
bool allocOnFill;
/**
* Determine whether there was at least one non-snooping
* target coming from another cache.
*/
bool hasFromCache;
TargetList();
/**
* Use the provided packet and the source to update the
* flags of this TargetList.
*
* @param pkt Packet considered for the flag update
* @param source Indicates the source of the packet
* @param alloc_on_fill Whether the pkt would allocate on a fill
*/
void updateFlags(PacketPtr pkt, Target::Source source,
bool alloc_on_fill);
/**
* Reset state
*
* @param blk_addr Address of the cache block
* @param blk_size Size of the cache block
*/
void init(Addr blk_addr, Addr blk_size) {
blkAddr = blk_addr;
blkSize = blk_size;
writesBitmap.resize(blk_size);
resetFlags();
}
void resetFlags() {
onlyWrites = true;
std::fill(writesBitmap.begin(), writesBitmap.end(), false);
needsWritable = false;
hasUpgrade = false;
allocOnFill = false;
hasFromCache = false;
}
/**
* Goes through the list of targets and uses them to populate
* the flags of this TargetList. When the function returns the
* flags are consistent with the properties of packets in the
* list.
*/
void populateFlags();
/**
* Add the specified packet in the TargetList. This function
* stores information related to the added packet and updates
* accordingly the flags.
*
* @param pkt Packet considered for adding
*/
void updateWriteFlags(PacketPtr pkt) {
const Request::FlagsType noMergeFlags =
Request::UNCACHEABLE |
Request::STRICT_ORDER | Request::MMAPPED_IPR |
Request::PRIVILEGED | Request::LLSC |
Request::MEM_SWAP | Request::MEM_SWAP_COND |
Request::SECURE;
// if we have already seen writes for the full block stop
// here, this might be a full line write followed by
// other compatible requests (e.g., reads)
if (!isWholeLineWrite()) {
bool can_merge_write = pkt->isWrite() &&
((pkt->req->getFlags() & noMergeFlags) == 0);
onlyWrites &= can_merge_write;
if (onlyWrites) {
auto offset = pkt->getOffset(blkSize);
auto begin = writesBitmap.begin() + offset;
std::fill(begin, begin + pkt->getSize(), true);
}
}
}
/**
* Tests if the flags of this TargetList have their default
* values.
*
* @return True if the TargetList are reset, false otherwise.
*/
bool isReset() const {
return !needsWritable && !hasUpgrade && !allocOnFill &&
!hasFromCache && onlyWrites;
}
/**
* Add the specified packet in the TargetList. This function
* stores information related to the added packet and updates
* accordingly the flags.
*
* @param pkt Packet considered for adding
* @param readTime Tick at which the packet is processed by this cache
* @param order A counter giving a unique id to each target
* @param source Indicates the source agent of the packet
* @param markPending Set for deferred targets or pending MSHRs
* @param alloc_on_fill Whether it should allocate on a fill
*/
void add(PacketPtr pkt, Tick readyTime, Counter order,
Target::Source source, bool markPending, bool alloc_on_fill);
/**
* Convert upgrades to the equivalent request if the cache line they
* refer to would have been invalid (Upgrade -> ReadEx, SC* -> Fail).
* Used to rejig ordering between targets waiting on an MSHR. */
void replaceUpgrades();
void clearDownstreamPending();
void clearDownstreamPending(iterator begin, iterator end);
bool trySatisfyFunctional(PacketPtr pkt);
void print(std::ostream &os, int verbosity,
const std::string &prefix) const;
/**
* Check if this list contains only compatible writes, and if they
* span the entire cache line. This is used as part of the
* miss-packet creation. Note that new requests may arrive after a
* miss-packet has been created, and for the fill we therefore use
* the wasWholeLineWrite field.
*/
bool isWholeLineWrite() const
{
return onlyWrites &&
std::all_of(writesBitmap.begin(),
writesBitmap.end(), [](bool i) { return i; });
}
private:
/** Address of the cache block for this list of targets. */
Addr blkAddr;
/** Size of the cache block. */
Addr blkSize;
/** Are we only dealing with writes. */
bool onlyWrites;
// NOTE: std::vector<bool> might not meet satisfy the
// ForwardIterator requirement and therefore cannot be used
// for writesBitmap.
/**
* Track which bytes are written by requests in this target
* list.
*/
std::vector<char> writesBitmap;
};
/** A list of MSHRs. */
typedef std::list<MSHR *> List;
/** MSHR list iterator. */
typedef List::iterator Iterator;
/** The pending* and post* flags are only valid if inService is
* true. Using the accessor functions lets us detect if these
* flags are accessed improperly.
*/
/** True if we need to get a writable copy of the block. */
bool needsWritable() const { return targets.needsWritable; }
bool isCleaning() const {
PacketPtr pkt = targets.front().pkt;
return pkt->isClean();
}
bool isPendingModified() const {
assert(inService); return pendingModified;
}
bool hasPostInvalidate() const {
assert(inService); return postInvalidate;
}
bool hasPostDowngrade() const {
assert(inService); return postDowngrade;
}
bool sendPacket(BaseCache &cache);
bool allocOnFill() const {
return targets.allocOnFill;
}
/**
* Determine if there are non-deferred requests from other caches
*
* @return true if any of the targets is from another cache
*/
bool hasFromCache() const {
return targets.hasFromCache;
}
private:
/**
* Promotes deferred targets that satisfy a predicate
*
* Deferred targets are promoted to the target list if they
* satisfy a given condition. The operation stops at the first
* deferred target that doesn't satisfy the condition.
*
* @param pred A condition on a Target
*/
void promoteIf(const std::function<bool (Target &)>& pred);
/**
* Pointer to this MSHR on the ready list.
* @sa MissQueue, MSHRQueue::readyList
*/
Iterator readyIter;
/**
* Pointer to this MSHR on the allocated list.
* @sa MissQueue, MSHRQueue::allocatedList
*/
Iterator allocIter;
/** List of all requests that match the address */
TargetList targets;
TargetList deferredTargets;
public:
/**
* Check if this MSHR contains only compatible writes, and if they
* span the entire cache line. This is used as part of the
* miss-packet creation. Note that new requests may arrive after a
* miss-packet has been created, and for the fill we therefore use
* the wasWholeLineWrite field.
*/
bool isWholeLineWrite() const {
return targets.isWholeLineWrite();
}
/**
* Allocate a miss to this MSHR.
* @param blk_addr The address of the block.
* @param blk_size The number of bytes to request.
* @param pkt The original miss.
* @param when_ready When should the MSHR be ready to act upon.
* @param _order The logical order of this MSHR
* @param alloc_on_fill Should the cache allocate a block on fill
*/
void allocate(Addr blk_addr, unsigned blk_size, PacketPtr pkt,
Tick when_ready, Counter _order, bool alloc_on_fill);
void markInService(bool pending_modified_resp);
void clearDownstreamPending();
/**
* Mark this MSHR as free.
*/
void deallocate();
/**
* Add a request to the list of targets.
* @param target The target.
*/
void allocateTarget(PacketPtr target, Tick when, Counter order,
bool alloc_on_fill);
bool handleSnoop(PacketPtr target, Counter order);
/** A simple constructor. */
MSHR();
/**
* Returns the current number of allocated targets.
* @return The current number of allocated targets.
*/
int getNumTargets() const
{ return targets.size() + deferredTargets.size(); }
/**
* Extracts the subset of the targets that can be serviced given a
* received response. This function returns the targets list
* unless the response is a ReadRespWithInvalidate. The
* ReadRespWithInvalidate is only invalidating response that its
* invalidation was not expected when the request (a
* ReadSharedReq) was sent out. For ReadRespWithInvalidate we can
* safely service only the first FromCPU target and all FromSnoop
* targets (inform all snoopers that we no longer have the block).
*
* @param pkt The response from the downstream memory
*/
TargetList extractServiceableTargets(PacketPtr pkt);
/**
* Returns true if there are targets left.
* @return true if there are targets
*/
bool hasTargets() const { return !targets.empty(); }
/**
* Returns a reference to the first target.
* @return A pointer to the first target.
*/
Target *getTarget()
{
assert(hasTargets());
return &targets.front();
}
/**
* Pop first target.
*/
void popTarget()
{
targets.pop_front();
}
bool promoteDeferredTargets();
/**
* Promotes deferred targets that do not require writable
*
* Move targets from the deferred targets list to the target list
* starting from the first deferred target until the first target
* that is a cache maintenance operation or needs a writable copy
* of the block
*/
void promoteReadable();
/**
* Promotes deferred targets that do not require writable
*
* Requests in the deferred target list are moved to the target
* list up until the first target that is a cache maintenance
* operation or needs a writable copy of the block
*/
void promoteWritable();
bool trySatisfyFunctional(PacketPtr pkt);
/**
* Adds a delay relative to the current tick to the current MSHR
* @param delay_ticks the desired delay in ticks
*/
void delay(Tick delay_ticks)
{
assert(readyTime <= curTick());
readyTime = curTick() + delay_ticks;
}
/**
* Prints the contents of this MSHR for debugging.
*/
void print(std::ostream &os,
int verbosity = 0,
const std::string &prefix = "") const;
/**
* A no-args wrapper of print(std::ostream...) meant to be
* invoked from DPRINTFs avoiding string overheads in fast mode
*
* @return string with mshr fields + [deferred]targets
*/
std::string print() const;
};
#endif // __MEM_CACHE_MSHR_HH__