Changeset 540 for branches


Ignore:
Timestamp:
Oct 3, 2013, 4:17:09 PM (11 years ago)
Author:
haoliu
Message:

RWT - merged the vci_mem_cache with the last
modification of the llsc table.

File:
1 edited

Legend:

Unmodified
Added
Removed
  • branches/RWT/modules/vci_mem_cache/caba/source/src/vci_mem_cache.cpp

    r539 r540  
    22522252        if(((m_cmd_read_pktid_fifo.read() & 0x7) == TYPE_LL) and not r_read_ll_done.read())   // access the global table ONLY when we have an LL cmd
    22532253        {
    2254           addr_t      nline      = m_nline[(addr_t)(m_cmd_read_addr_fifo.read())];
    2255           r_read_ll_key   = m_llsc_table.ll(nline);
    2256           //r_read_ll_key   = m_llsc_table.ll(m_cmd_read_addr_fifo.read());
     2254          r_read_ll_key   = m_llsc_table.ll(m_cmd_read_addr_fifo.read());
    22572255          /**//*std::cout << "MEMCACHE : from proc " << m_cmd_read_srcid_fifo.read()
    2258                         << " | @ " << std::hex << m_cmd_read_addr_fifo.read()
    2259                         << " | LL" << std::endl;*/
     2256                    << " | @ " << std::hex << m_cmd_read_addr_fifo.read()
     2257                    << " | LL" << std::endl;*/
    22602258          r_read_ll_done  = true;
    22612259        }
     
    22752273        // TYPE_READ_INS_MISS  0bX011 with TSAR encoding
    22762274        bool cached_read = (m_cmd_read_pktid_fifo.read() & 0x1);
    2277 
    22782275
    22792276        if(entry.valid)    // hit
     
    28702867        r_write_address     = (addr_t)(m_cmd_write_addr_fifo.read());
    28712868        r_write_word_index  = index;
    2872         r_write_word_count  = 1;
     2869        r_write_word_count  = 0;
    28732870        r_write_data[index] = m_cmd_write_data_fifo.read();
    28742871        r_write_srcid       = m_cmd_write_srcid_fifo.read();
    28752872        r_write_trdid       = m_cmd_write_trdid_fifo.read();
    28762873        r_write_pktid       = m_cmd_write_pktid_fifo.read();
    2877         r_write_pending_sc  = false;
     2874
     2875        if ((m_cmd_write_pktid_fifo.read() & 0x7) == TYPE_SC)
     2876        {
     2877            assert( not m_cmd_write_eop_fifo.read() &&
     2878                    "MEMC ERROR in WRITE_IDLE state: "
     2879                    "invalid packet format for SC command");
     2880
     2881            r_write_sc_key = m_cmd_write_data_fifo.read();
     2882        }
    28782883
    28792884        // initialize the be field for all words
     
    28842889        }
    28852890
    2886         if (m_cmd_write_eop_fifo.read() or ((m_cmd_write_pktid_fifo.read() & 0x7) == TYPE_SC))
     2891        if (m_cmd_write_eop_fifo.read())
    28872892        {
    28882893          r_write_fsm = WRITE_DIR_REQ;
     
    28982903          << " srcid = " << std::hex << m_cmd_write_srcid_fifo.read()
    28992904          << " / address = " << std::hex << m_cmd_write_addr_fifo.read()
    2900           << " / data = " << m_cmd_write_data_fifo.read() << std::endl;
     2905          << " / data = " << m_cmd_write_data_fifo.read()
     2906          << " / pktid = " << m_cmd_write_pktid_fifo.read()
     2907          << std::endl;
    29012908#endif
    29022909      }
     
    29102917      {
    29112918
    2912 #if DEBUG_MEMC_WRITE
    2913 if(m_debug)
    2914 std::cout << "  <MEMC " << name()
    2915           << " WRITE_NEXT> Write another word in local buffer"
    2916           << std::endl;
    2917 #endif
    29182919        m_cpt_write_cells++;
    29192920
    29202921        // check that the next word is in the same cache line
    2921         assert( (m_nline[(addr_t)(r_write_address.read())] ==
    2922                m_nline[(addr_t)(m_cmd_write_addr_fifo.read())]) and
    2923         "MEMC ERROR in WRITE_NEXT state: Illegal write burst");
    2924 
     2922        assert((m_nline[(addr_t)(r_write_address.read())] ==
     2923                m_nline[(addr_t)(m_cmd_write_addr_fifo.read())]) &&
     2924                "MEMC ERROR in WRITE_NEXT state: Illegal write burst");
     2925
     2926        size_t index = m_x[(addr_t)(m_cmd_write_addr_fifo.read())];
     2927        bool   is_sc = ((m_cmd_write_pktid_fifo.read() & 0x7) == TYPE_SC);
     2928
     2929        // check that SC command has constant address
     2930        assert((not is_sc or (index == r_write_word_index)) &&
     2931                "MEMC ERROR in WRITE_NEXT state: "
     2932                "the address must be constant on a SC command");
     2933
     2934        // check that SC command has two flits
     2935        assert((not is_sc or m_cmd_write_eop_fifo.read()) &&
     2936                 "MEMC ERROR in WRITE_NEXT state: "
     2937                            "invalid packet format for SC command");
    29252938        // consume a word in the FIFO & write it in the local buffer
    29262939        cmd_write_fifo_get  = true;
    2927         size_t index        = r_write_word_index.read() + r_write_word_count.read();
    29282940
    29292941        r_write_be[index]   = m_cmd_write_be_fifo.read();
    29302942        r_write_data[index] = m_cmd_write_data_fifo.read();
    2931         r_write_word_count  = r_write_word_count.read() + 1;
    2932 
    2933         if(m_cmd_write_eop_fifo.read())
    2934         {
    2935           r_write_fsm = WRITE_DIR_REQ;
    2936         }
     2943
     2944        // the first flit of a SC command is the reservation key and
     2945        // therefore it must not be counted as a data to write
     2946        if (not is_sc)
     2947        {
     2948            r_write_word_count = r_write_word_count.read() + 1;
     2949        }
     2950
     2951        if (m_cmd_write_eop_fifo.read()) r_write_fsm = WRITE_DIR_REQ;
     2952
     2953#if DEBUG_MEMC_WRITE
     2954            if (m_debug)
     2955                std::cout << "  <MEMC " << name()
     2956                    << " WRITE_NEXT> Write another word in local buffer"
     2957                    << std::endl;
     2958#endif
    29372959      }
    29382960      break;
     
    29462968      if(r_alloc_dir_fsm.read() == ALLOC_DIR_WRITE)
    29472969      {
    2948         ///////////////////////////////////////////////////////////////////////
    2949         // SC command handling
    2950         // We test the r_write_pending_sc register to know if we are returning
    2951         // from the WAIT state.
    2952         // In this case, the SC has already succeed and we cannot consume
    2953         // another time from the FIFO. Also, we don't have to test another
    2954         // time if the SC has succeed
    2955 
    2956         addr_t nline = m_nline[(addr_t)(r_write_address.read())];
    2957         if(((r_write_pktid.read() & 0x7) == TYPE_SC) and not r_write_pending_sc.read())
    2958         {
    2959           if(not m_cmd_write_addr_fifo.rok()) break;
    2960  
    2961           assert(m_cmd_write_eop_fifo.read() and
    2962                  "Error in VCI_MEM_CACHE : "
    2963                  "invalid packet format for SC command");
    2964           //BUG LLSC
    2965           size_t index    = r_write_word_index.read();
    2966           bool sc_success = m_llsc_table.sc(nline    ,
    2967                                             r_write_data[index].read());
    2968  
    2969           //bool sc_success = m_llsc_table.sc(r_write_address.read()    ,
    2970           //                                  r_write_data[index].read());
    2971           // consume a word in the FIFO & write it in the local buffer
    2972           cmd_write_fifo_get  = true;
    2973           r_write_data[index] = m_cmd_write_data_fifo.read();
     2970
     2971        if( (r_write_pktid.read() & 0x7) == TYPE_SC )
     2972        {
     2973           // test address and key match of the SC command on the
     2974           // LL/SC table without removing reservation. The reservation
     2975           // will be erased after in this FSM.
     2976          bool sc_success = m_llsc_table.check(r_write_address.read(),
     2977                                               r_write_sc_key.read());
     2978 
    29742979          r_write_sc_fail     = not sc_success;
    2975           //WARNING: if the SC is a success, it might still fail at next cycle if the line is NCC
    2976           r_write_pending_sc  = true;
    29772980 
    29782981          if(not sc_success) r_write_fsm = WRITE_RSP;
    29792982          else               r_write_fsm = WRITE_DIR_LOCK;
    2980  
     2983
     2984
     2985         //std::cout << "  <MEMC " << name()
     2986         //          << " WRITE_DIR_REQ>  sc fail = " << not sc_success
     2987         //          << " / addr" << std::hex << r_write_address.read()
     2988         //          << " / key"  << std::hex << r_write_sc_key.read()
     2989         //          << " / srcid"  << std::hex << r_write_srcid.read()
     2990         //          << std::endl;
     2991
    29812992          break;
    29822993        }
     
    29903001        addr_t min = r_write_address.read();
    29913002        addr_t max = r_write_address.read() +
    2992                    ((r_write_word_count.read()-1) << L2(vci_param_int::B));
     3003                   ((r_write_word_count.read()) << L2(vci_param_int::B));
    29933004#undef L2
    29943005        m_llsc_table.sw(min, max);
     
    30393050            else
    30403051            {
    3041              r_write_fsm = WRITE_DIR_HIT;
     3052              r_write_fsm = WRITE_DIR_HIT;
    30423053            }
    30433054          }
     
    30513062            {
    30523063              r_write_fsm = WRITE_IVT_LOCK_HIT_WB;
    3053               if(r_write_pktid.read() == TYPE_SC)
    3054               {
    3055                 r_write_sc_fail = true;
    3056               }
     3064//            if(r_write_pktid.read() == TYPE_SC)
     3065//            {
     3066//              r_write_sc_fail = true;
     3067//            }
    30573068            }
    30583069          }
     
    30673078{
    30683079std::cout << "  <MEMC " << name() << " WRITE_DIR_LOCK> Check the directory: "
    3069           << " address = " << std::hex << r_write_address.read()
    3070           << " / hit = " << std::dec << entry.valid
    3071           << " / count = " << entry.count
    3072           << " / is_cnt = " << entry.is_cnt ;
     3080        << " address = " << std::hex << r_write_address.read()
     3081        << " / hit = " << std::dec << entry.valid
     3082        << " / count = " << entry.count
     3083        << " / is_cnt = " << entry.is_cnt ;
    30733084if((r_write_pktid.read() & 0x7) == TYPE_SC)
    30743085std::cout << " / SC access" << std::endl;
     
    30793090      break;
    30803091    }
    3081     ////////////////////
    3082     case WRITE_IVT_LOCK_HIT_WB:
    3083     {
    3084       if(r_alloc_ivt_fsm.read() == ALLOC_IVT_WRITE)
    3085       {
    3086 
    3087         size_t index = 0;
    3088         bool   match_inval;
    3089         addr_t nline = m_nline[(addr_t)(r_write_address.read())];
    3090 
    3091         //std::cout << "WRITE on NCC on line" << std::hex << nline << std::dec << std::endl;
    3092         //if there is a matched updt req, we should wait until it is over. Because
    3093         //we need the lastest updt data.
    3094         match_inval = m_ivt.search_inval(nline, index);
    3095        
    3096         assert ((r_write_count.read() == 1) and "NCC to CC req without copy");
    3097         if(!match_inval and !r_write_to_cc_send_req.read())
    3098         {
    3099           r_write_to_cc_send_req = true;
    3100           r_write_to_cc_send_dest = r_write_copy;
    3101           r_write_to_cc_send_nline = nline;
    3102           r_write_to_cleanup_req = true;
    3103           r_write_to_cleanup_nline = nline;
    3104 
    3105           m_ivt.set(false,  // it's an inval transaction
    3106                     false,     // it's not a broadcast
    3107                     true,      // it needs no read response
    3108                     false,     // no acknowledge required
    3109                     m_cmd_write_srcid_fifo.read(), //never read, used for debug
    3110                     m_cmd_write_trdid_fifo.read(), //never read, used for debug
    3111                     m_cmd_write_pktid_fifo.read(), //never read, used for debug
    3112                     nline,
    3113                     0x1, //Expect only one answer
    3114                     index);
    3115         }
    3116         r_write_fsm = WRITE_WAIT;
     3092  ////////////////////
     3093  case WRITE_IVT_LOCK_HIT_WB:
     3094  {
     3095    if(r_alloc_ivt_fsm.read() == ALLOC_IVT_WRITE)
     3096    {
     3097
     3098      size_t index = 0;
     3099      bool   match_inval;
     3100      addr_t nline = m_nline[(addr_t)(r_write_address.read())];
     3101
     3102      //std::cout << "WRITE on NCC on line" << std::hex << nline << std::dec << std::endl;
     3103      //if there is a matched updt req, we should wait until it is over. Because
     3104      //we need the lastest updt data.
     3105      match_inval = m_ivt.search_inval(nline, index);
     3106     
     3107      assert ((r_write_count.read() == 1) and "NCC to CC req without copy");
     3108      if(!match_inval and !r_write_to_cc_send_req.read())
     3109      {
     3110        r_write_to_cc_send_req = true;
     3111        r_write_to_cc_send_dest = r_write_copy;
     3112        r_write_to_cc_send_nline = nline;
     3113        r_write_to_cleanup_req = true;
     3114        r_write_to_cleanup_nline = nline;
     3115
     3116        m_ivt.set(false,  // it's an inval transaction
     3117                  false,     // it's not a broadcast
     3118                  true,      // it needs no read response
     3119                  false,     // no acknowledge required
     3120                  m_cmd_write_srcid_fifo.read(), //never read, used for debug
     3121                  m_cmd_write_trdid_fifo.read(), //never read, used for debug
     3122                  m_cmd_write_pktid_fifo.read(), //never read, used for debug
     3123                  nline,
     3124                  0x1, //Expect only one answer
     3125                  index);
     3126      }
     3127      r_write_fsm = WRITE_WAIT;
    31173128#if DEBUG_MEMC_WRITE
    3118         if(m_debug)
    3119         {
    3120           std::cout << "  <MEMC " << name() << " WRITE_IVT_LOCK_HIT_WB> get access to the UPT: "
    3121                     << " Inval requested =  " << (!match_inval and !r_write_to_cc_send_req.read())
    3122                     << std::endl;
    3123         }
    3124 #endif
    3125       }
     3129      if(m_debug)
     3130      {
     3131        std::cout << "  <MEMC " << name() << " WRITE_IVT_LOCK_HIT_WB> get access to the UPT: "
     3132                  << " Inval requested =  " << (!match_inval and !r_write_to_cc_send_req.read())
     3133                  << std::endl;
     3134      }
     3135#endif
     3136    }
    31263137#if DEBUG_MEMC_WRITE
    3127         if(m_debug)
    3128         {
    3129           std::cout << "  <MEMC " << name() << " WRITE_IVT_LOCK_HIT_WB> failed to access to the UPT: "
    3130                     << std::endl;
    3131         }
    3132 #endif
    3133       break;
    3134     }
    3135 
    3136     ///////////////////
    3137     case WRITE_DIR_HIT:
     3138      if(m_debug)
     3139      {
     3140        std::cout << "  <MEMC " << name() << " WRITE_IVT_LOCK_HIT_WB> failed to access to the UPT: "
     3141                  << std::endl;
     3142      }
     3143#endif
     3144    break;
     3145  }
     3146
     3147  ///////////////////
     3148  case WRITE_DIR_HIT:
    31383149    {
    31393150      assert( (r_alloc_dir_fsm.read() == ALLOC_DIR_WRITE) and
     
    31673178      // (tests for sc requests)
    31683179      bool no_update = ((r_write_count.read() ==0) || //no need for coherency
    3169                         (owner && (r_write_count.read() ==1) && (r_write_pktid.read() != TYPE_SC)) || //writer is owner
    3170                         ((r_write_pktid.read() == TYPE_SC) && r_write_sc_fail.read())); //SC failed: no data update
     3180                        (owner && (r_write_count.read() ==1) && (r_write_pktid.read() != TYPE_SC))); //|| //writer is owner
     3181                       // ((r_write_pktid.read() == TYPE_SC) && r_write_sc_fail.read())); //SC failed: no data update
    31713182
    31723183      // write data in the cache if no coherence transaction
    3173       if(no_update and ((r_write_pktid.read() != TYPE_SC) or !r_write_sc_fail.read()))
    3174       {
     3184      if(no_update)
     3185      {
     3186         // SC command but zero copies
     3187         if ((r_write_pktid.read() & 0x7) == TYPE_SC)
     3188         {
     3189             m_llsc_table.sc(r_write_address.read(),
     3190                             r_write_sc_key.read());
     3191         }
     3192
    31753193        for(size_t word=0 ; word<m_words ; word++)
    31763194        {
     
    32523270        if(wok)       // write data in cache
    32533271        {
     3272
     3273          if ((r_write_pktid.read() & 0x7) == TYPE_SC)
     3274          {
     3275             m_llsc_table.sc(r_write_address.read(),
     3276                             r_write_sc_key.read());
     3277          }
     3278
    32543279          for(size_t word=0 ; word<m_words ; word++)
    32553280          {
     
    33283353      size_t min = r_write_word_index.read();
    33293354      size_t max = r_write_word_index.read() + r_write_word_count.read();
    3330       for(size_t i=min ; i<max ; i++) r_write_to_cc_send_data[i] = r_write_data[i];
     3355      for(size_t i=min ; i<=max ; i++) r_write_to_cc_send_data[i] = r_write_data[i];
    33313356
    33323357      if((r_write_copy.read() != r_write_srcid.read()) or(r_write_pktid.read() == TYPE_SC) or r_write_copy_inst.read())
     
    34943519          r_write_address     = (addr_t)(m_cmd_write_addr_fifo.read());
    34953520          r_write_word_index  = index;
    3496           r_write_word_count  = 1;
     3521          r_write_word_count  = 0;
    34973522          r_write_data[index] = m_cmd_write_data_fifo.read();
    34983523          r_write_srcid       = m_cmd_write_srcid_fifo.read();
    34993524          r_write_trdid       = m_cmd_write_trdid_fifo.read();
    35003525          r_write_pktid       = m_cmd_write_pktid_fifo.read();
    3501           r_write_pending_sc  = false;
     3526
     3527          if ((m_cmd_write_pktid_fifo.read() & 0x7) == TYPE_SC)
     3528          {
     3529              assert( not m_cmd_write_eop_fifo.read() &&
     3530                      "MEMC ERROR in WRITE_RSP state: "
     3531                      "invalid packet format for SC command");
     3532     
     3533              r_write_sc_key = m_cmd_write_data_fifo.read();
     3534          }
     3535
    35023536
    35033537          // initialize the be field for all words
     
    35053539          {
    35063540            if(word == index) r_write_be[word] = m_cmd_write_be_fifo.read();
    3507             else                 r_write_be[word] = 0x0;
     3541            else              r_write_be[word] = 0x0;
    35083542          }
    35093543
    3510           if(m_cmd_write_eop_fifo.read() or ((m_cmd_write_pktid_fifo.read() & 0x7)  == TYPE_SC))
     3544          if( m_cmd_write_eop_fifo.read())
    35113545          {
    35123546            r_write_fsm = WRITE_DIR_REQ;
     
    35263560{
    35273561    std::cout << "  <MEMC " << name() << " WRITE_RSP> Post a request to TGT_RSP FSM"
    3528               << " : rsrcid = " << std::hex << r_write_srcid.read() << std::endl;
     3562              << " : rsrcid = " << std::hex << r_write_srcid.read()
     3563              << " : rpktid = " << std::hex << r_write_pktid.read()
     3564              << " : sc_fail= " << std::hex << r_write_sc_fail.read()
     3565              << std::endl;
    35293566    if(m_cmd_write_addr_fifo.rok())
    35303567    {
     
    35323569                  << " srcid = " << std::hex << m_cmd_write_srcid_fifo.read()
    35333570                  << " / address = " << m_cmd_write_addr_fifo.read()
    3534                   << " / data = " << m_cmd_write_data_fifo.read() << std::endl;
     3571                  << " / data = " << m_cmd_write_data_fifo.read()
     3572                  << " / pktid = " << m_cmd_write_pktid_fifo.read()
     3573                  << std::endl;
    35353574    }
    35363575}
     
    35733612        bool    hit_write = m_trt.hit_write(m_nline[addr]);
    35743613        bool    wok       = not m_trt.full(wok_index);
     3614
     3615        // wait an empty entry in TRT
     3616        if(not hit_read and (not wok or hit_write))
     3617        {
     3618            r_write_fsm       = WRITE_WAIT;
     3619            m_cpt_trt_full++;
     3620            break;
     3621        }
     3622
     3623        if ((r_write_pktid.read() & 0x7) == TYPE_SC)
     3624        {
     3625            m_llsc_table.sc(r_write_address.read(),
     3626                            r_write_sc_key.read());
     3627        }
     3628
    35753629        //std::cout << "MEMCACHE : WRITE MISS at " << std::hex << (uint32_t)addr << std::dec << std::endl;
    35763630        if(hit_read)      // register the modified data in TRT
     
    35793633          r_write_fsm       = WRITE_MISS_TRT_DATA;
    35803634          m_cpt_write_miss++;
    3581         }
    3582         else if(wok and !hit_write)      // set a new entry in TRT
     3635          break;
     3636        }
     3637
     3638        if(wok and not hit_write)      // set a new entry in TRT
    35833639        {
    35843640          r_write_trt_index = wok_index;
    35853641          r_write_fsm       = WRITE_MISS_TRT_SET;
    35863642          m_cpt_write_miss++;
    3587         }
    3588         else    // wait an empty entry in TRT
    3589         {
    3590           r_write_fsm       = WRITE_WAIT;
    3591           m_cpt_trt_full++;
    3592         }
     3643          break;
     3644        }
     3645        assert(false && "VCI_MEM_CACHE ERROR: this part must not be reached");
    35933646        m_cpt_write_fsm_n_trt_lock++;
    35943647      }
     
    38493902
    38503903      m_cache_directory.write(set, way, entry);
     3904
     3905      if ((r_write_pktid.read() & 0x7) == TYPE_SC)
     3906      {
     3907          m_llsc_table.sc(r_write_address.read(),
     3908                          r_write_sc_key.read());
     3909      }
     3910
    38513911
    38523912#if DEBUG_MEMC_WRITE
     
    73097369      {
    73107370        if(not p_dspin_m2p.read) break;
    7311         if(r_cc_send_cpt.read() == (r_write_to_cc_send_count.read()-1))
     7371        if(r_cc_send_cpt.read() == r_write_to_cc_send_count.read())
    73127372        {
    73137373          write_to_cc_send_fifo_get = true;
     
    86938753          r_alloc_trt_fsm = ALLOC_TRT_IXR_RSP;
    86948754
    8695          else if( r_config_fsm.read() == CONFIG_TRT_LOCK )
     8755        else if( r_config_fsm.read() == CONFIG_TRT_LOCK )
    86968756          r_alloc_trt_fsm = ALLOC_TRT_CONFIG;
    86978757       
     
    90219081          r_alloc_heap_fsm = ALLOC_HEAP_CLEANUP;
    90229082
    9023         if(r_xram_rsp_fsm.read() == XRAM_RSP_HEAP_REQ)
     9083        else if(r_xram_rsp_fsm.read() == XRAM_RSP_HEAP_REQ)
    90249084          r_alloc_heap_fsm = ALLOC_HEAP_XRAM_RSP;
    90259085
     
    98209880
    98219881        p_dspin_m2p.write = true;
    9822         p_dspin_m2p.eop   = (r_cc_send_cpt.read() == (r_write_to_cc_send_count.read()-1));
     9882        p_dspin_m2p.eop   = (r_cc_send_cpt.read() == r_write_to_cc_send_count.read());
    98239883        p_dspin_m2p.data  = flit;
    98249884
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