path: root/src/mem/cache/tags/base_set_assoc.hh

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 * The license below extends only to copyright in the software and shall
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 * to a hardware implementation of the functionality of the software
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 * modified or unmodified, in source code or in binary form.
 *
 * Copyright (c) 2003-2005,2014 The Regents of The University of Michigan
 * All rights reserved.
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 * 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;
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 * Authors: Erik Hallnor
 */

/**
 * @file
 * Declaration of a base set associative tag store.
 */

#ifndef __MEM_CACHE_TAGS_BASE_SET_ASSOC_HH__
#define __MEM_CACHE_TAGS_BASE_SET_ASSOC_HH__

#include <cassert>
#include <cstring>
#include <memory>
#include <vector>

#include "mem/cache/base.hh"
#include "mem/cache/blk.hh"
#include "mem/cache/tags/base.hh"
#include "mem/cache/tags/cacheset.hh"
#include "mem/packet.hh"
#include "params/BaseSetAssoc.hh"

/**
 * A BaseSetAssoc cache tag store.
 * @sa  \ref gem5MemorySystem "gem5 Memory System"
 *
 * The BaseSetAssoc tags provide a base, as well as the functionality
 * common to any set associative tags. Any derived class must implement
 * the methods related to the specifics of the actual replacment policy.
 * These are:
 *
 * BlkType* accessBlock();
 * BlkType* findVictim();
 * void insertBlock();
 * void invalidate();
 */
class BaseSetAssoc : public BaseTags
{
  public:
    /** Typedef the block type used in this tag store. */
    typedef CacheBlk BlkType;
    /** Typedef the set type used in this tag store. */
    typedef CacheSet<CacheBlk> SetType;


  protected:
    /** The associativity of the cache. */
    const unsigned assoc;
    /** The allocatable associativity of the cache (alloc mask). */
    unsigned allocAssoc;

    /** The cache blocks. */
    std::vector<BlkType> blks;
    /** The data blocks, 1 per cache block. */
    std::unique_ptr<uint8_t[]> dataBlks;

    /** The number of sets in the cache. */
    const unsigned numSets;

    /** Whether tags and data are accessed sequentially. */
    const bool sequentialAccess;

    /** The cache sets. */
    std::vector<SetType> sets;

    /** The amount to shift the address to get the set. */
    int setShift;
    /** The amount to shift the address to get the tag. */
    int tagShift;
    /** Mask out all bits that aren't part of the set index. */
    unsigned setMask;

public:

    /** Convenience typedef. */
     typedef BaseSetAssocParams Params;

    /**
     * Construct and initialize this tag store.
     */
    BaseSetAssoc(const Params *p);

    /**
     * Destructor
     */
    virtual ~BaseSetAssoc() {};

    /**
     * Find the cache block given set and way
     * @param set The set of the block.
     * @param way The way of the block.
     * @return The cache block.
     */
    CacheBlk *findBlockBySetAndWay(int set, int way) const override;

    /**
     * Invalidate the given block.
     * @param blk The block to invalidate.
     */
    void invalidate(CacheBlk *blk) override
    {
        assert(blk);
        assert(blk->isValid());
        tagsInUse--;
        assert(blk->srcMasterId < cache->system->maxMasters());
        occupancies[blk->srcMasterId]--;
        blk->srcMasterId = Request::invldMasterId;
        blk->task_id = ContextSwitchTaskId::Unknown;
        blk->tickInserted = curTick();
    }

    /**
     * Access block and update replacement data. May not succeed, in which case
     * nullptr is returned. This has all the implications of a cache
     * access and should only be used as such. Returns the access latency as a
     * side effect.
     * @param addr The address to find.
     * @param is_secure True if the target memory space is secure.
     * @param lat The access latency.
     * @return Pointer to the cache block if found.
     */
    CacheBlk* accessBlock(Addr addr, bool is_secure, Cycles &lat) override
    {
        BlkType *blk = findBlock(addr, is_secure);

        // Access all tags in parallel, hence one in each way.  The data side
        // either accesses all blocks in parallel, or one block sequentially on
        // a hit.  Sequential access with a miss doesn't access data.
        tagAccesses += allocAssoc;
        if (sequentialAccess) {
            if (blk != nullptr) {
                dataAccesses += 1;
            }
        } else {
            dataAccesses += allocAssoc;
        }

        if (blk != nullptr) {
            // If a cache hit
            lat = accessLatency;
            // Check if the block to be accessed is available. If not,
            // apply the accessLatency on top of block->whenReady.
            if (blk->whenReady > curTick() &&
                cache->ticksToCycles(blk->whenReady - curTick()) >
                accessLatency) {
                lat = cache->ticksToCycles(blk->whenReady - curTick()) +
                accessLatency;
            }
            blk->refCount += 1;
        } else {
            // If a cache miss
            lat = lookupLatency;
        }

        return blk;
    }

    /**
     * Finds the given address in the cache, do not update replacement data.
     * i.e. This is a no-side-effect find of a block.
     * @param addr The address to find.
     * @param is_secure True if the target memory space is secure.
     * @param asid The address space ID.
     * @return Pointer to the cache block if found.
     */
    CacheBlk* findBlock(Addr addr, bool is_secure) const override;

    /**
     * Find an invalid block to evict for the address provided.
     * If there are no invalid blocks, this will return the block
     * in the least-recently-used position.
     * @param addr The addr to a find a replacement candidate for.
     * @return The candidate block.
     */
    CacheBlk* findVictim(Addr addr) override
    {
        BlkType *blk = nullptr;
        int set = extractSet(addr);

        // prefer to evict an invalid block
        for (int i = 0; i < allocAssoc; ++i) {
            blk = sets[set].blks[i];
            if (!blk->isValid())
                break;
        }

        return blk;
    }

    /**
     * Insert the new block into the cache.
     * @param pkt Packet holding the address to update
     * @param blk The block to update.
     */
     void insertBlock(PacketPtr pkt, CacheBlk *blk) override
     {
         Addr addr = pkt->getAddr();
         MasterID master_id = pkt->req->masterId();
         uint32_t task_id = pkt->req->taskId();

         if (!blk->isTouched) {
             tagsInUse++;
             blk->isTouched = true;
             if (!warmedUp && tagsInUse.value() >= warmupBound) {
                 warmedUp = true;
                 warmupCycle = curTick();
             }
         }

         // If we're replacing a block that was previously valid update
         // stats for it. This can't be done in findBlock() because a
         // found block might not actually be replaced there if the
         // coherence protocol says it can't be.
         if (blk->isValid()) {
             replacements[0]++;
             totalRefs += blk->refCount;
             ++sampledRefs;

             invalidate(blk);
             blk->invalidate();
         }

         blk->isTouched = true;

         // Set tag for new block.  Caller is responsible for setting status.
         blk->tag = extractTag(addr);

         // deal with what we are bringing in
         assert(master_id < cache->system->maxMasters());
         occupancies[master_id]++;
         blk->srcMasterId = master_id;
         blk->task_id = task_id;
         blk->tickInserted = curTick();

         // We only need to write into one tag and one data block.
         tagAccesses += 1;
         dataAccesses += 1;
     }

    /**
     * Limit the allocation for the cache ways.
     * @param ways The maximum number of ways available for replacement.
     */
    virtual void setWayAllocationMax(int ways) override
    {
        fatal_if(ways < 1, "Allocation limit must be greater than zero");
        allocAssoc = ways;
    }

    /**
     * Get the way allocation mask limit.
     * @return The maximum number of ways available for replacement.
     */
    virtual int getWayAllocationMax() const override
    {
        return allocAssoc;
    }

    /**
     * Generate the tag from the given address.
     * @param addr The address to get the tag from.
     * @return The tag of the address.
     */
    Addr extractTag(Addr addr) const override
    {
        return (addr >> tagShift);
    }

    /**
     * Calculate the set index from the address.
     * @param addr The address to get the set from.
     * @return The set index of the address.
     */
    int extractSet(Addr addr) const override
    {
        return ((addr >> setShift) & setMask);
    }

    /**
     * Regenerate the block address from the tag.
     * @param tag The tag of the block.
     * @param set The set of the block.
     * @return The block address.
     */
    Addr regenerateBlkAddr(Addr tag, unsigned set) const override
    {
        return ((tag << tagShift) | ((Addr)set << setShift));
    }

    /**
     * Called at end of simulation to complete average block reference stats.
     */
    void cleanupRefs() override;

    /**
     * Print all tags used
     */
    std::string print() const override;

    /**
     * Called prior to dumping stats to compute task occupancy
     */
    void computeStats() override;

    /**
     * Visit each block in the tag store and apply a visitor to the
     * block.
     *
     * The visitor should be a function (or object that behaves like a
     * function) that takes a cache block reference as its parameter
     * and returns a bool. A visitor can request the traversal to be
     * stopped by returning false, returning true causes it to be
     * called for the next block in the tag store.
     *
     * \param visitor Visitor to call on each block.
     */
    void forEachBlk(CacheBlkVisitor &visitor) override {
        for (unsigned i = 0; i < numSets * assoc; ++i) {
            if (!visitor(blks[i]))
                return;
        }
    }
};

#endif //__MEM_CACHE_TAGS_BASE_SET_ASSOC_HH__