/////////////////////////////////////////// // dcache (data cache) fsm // // Written: ross1728@gmail.com August 25, 2021 // Implements the L1 data cache fsm // // Purpose: Controller for the dcache fsm // // A component of the Wally configurable RISC-V project. // // Copyright (C) 2021 Harvey Mudd College & Oklahoma State University // // Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation // files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, // modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software // is furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES // OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS // BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT // OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. /////////////////////////////////////////// `include "wally-config.vh" module dcachefsm (input logic clk, input logic reset, // inputs from IEU input logic [1:0] MemRWM, input logic [1:0] AtomicM, // hazard inputs input logic ExceptionM, input logic PendingInterruptM, input logic StallWtoDCache, // mmu inputs input logic DTLBMissM, input logic ITLBMissF, input logic CacheableM, input logic DTLBWriteM, input logic ITLBWriteF, input logic WalkerInstrPageFaultF, // hptw inputs input logic SelPTW, input logic WalkerPageFaultM, // Bus inputs input logic AHBAck, // from ahb // dcache internals input logic CacheHit, input logic FetchCountFlag, input logic VictimDirty, // hazard outputs output logic DCacheStall, output logic CommittedM, // counter outputs output logic DCacheMiss, output logic DCacheAccess, // hptw outputs output logic MemAfterIWalkDone, // Bus outputs output logic AHBRead, output logic AHBWrite, // dcache internals output logic [1:0] SelAdrM, output logic CntEn, output logic SetValid, output logic ClearValid, output logic SetDirty, output logic ClearDirty, output logic SRAMWordWriteEnableM, output logic SRAMBlockWriteEnableM, output logic CntReset, output logic SelUncached, output logic SelEvict, output logic LRUWriteEn, output logic SelFlush ); logic PreCntEn; logic AnyCPUReqM; typedef enum {STATE_READY, STATE_MISS_FETCH_WDV, STATE_MISS_FETCH_DONE, STATE_MISS_EVICT_DIRTY, STATE_MISS_WRITE_CACHE_BLOCK, STATE_MISS_READ_WORD, STATE_MISS_READ_WORD_DELAY, STATE_MISS_WRITE_WORD, STATE_PTW_READY, STATE_PTW_READ_MISS_FETCH_WDV, STATE_PTW_READ_MISS_FETCH_DONE, STATE_PTW_READ_MISS_WRITE_CACHE_BLOCK, STATE_PTW_READ_MISS_EVICT_DIRTY, STATE_PTW_READ_MISS_READ_WORD, STATE_PTW_READ_MISS_READ_WORD_DELAY, STATE_PTW_ACCESS_AFTER_WALK, STATE_UNCACHED_WRITE, STATE_UNCACHED_WRITE_DONE, STATE_UNCACHED_READ, STATE_UNCACHED_READ_DONE, STATE_PTW_FAULT_READY, STATE_PTW_FAULT_CPU_BUSY, STATE_PTW_FAULT_MISS_FETCH_WDV, STATE_PTW_FAULT_MISS_FETCH_DONE, STATE_PTW_FAULT_MISS_WRITE_CACHE_BLOCK, STATE_PTW_FAULT_MISS_READ_WORD, STATE_PTW_FAULT_MISS_READ_WORD_DELAY, STATE_PTW_FAULT_MISS_WRITE_WORD, STATE_PTW_FAULT_MISS_WRITE_WORD_DELAY, STATE_PTW_FAULT_MISS_EVICT_DIRTY, STATE_PTW_FAULT_UNCACHED_WRITE, STATE_PTW_FAULT_UNCACHED_WRITE_DONE, STATE_PTW_FAULT_UNCACHED_READ, STATE_PTW_FAULT_UNCACHED_READ_DONE, STATE_CPU_BUSY, STATE_CPU_BUSY_FINISH_AMO} statetype; statetype CurrState, NextState; assign AnyCPUReqM = |MemRWM | (|AtomicM); assign CntEn = PreCntEn & AHBAck; always_ff @(posedge clk, posedge reset) if (reset) CurrState <= #1 STATE_READY; else CurrState <= #1 NextState; /* -----\/----- EXCLUDED -----\/----- flopenl #(.TYPE(statetype)) StateReg(.clk, .load(reset), .en(1'b1), .d(NextState), .q(CurrState), .val(STATE_READY)); -----/\----- EXCLUDED -----/\----- */ // next state logic and some state ouputs. always_comb begin DCacheStall = 1'b0; SelAdrM = 2'b00; PreCntEn = 1'b0; SetValid = 1'b0; ClearValid = 1'b0; SetDirty = 1'b0; ClearDirty = 1'b0; SRAMWordWriteEnableM = 1'b0; SRAMBlockWriteEnableM = 1'b0; CntReset = 1'b0; AHBRead = 1'b0; AHBWrite = 1'b0; CommittedM = 1'b0; SelUncached = 1'b0; SelEvict = 1'b0; DCacheAccess = 1'b0; DCacheMiss = 1'b0; LRUWriteEn = 1'b0; MemAfterIWalkDone = 1'b0; SelFlush = 1'b0; NextState = STATE_READY; case (CurrState) STATE_READY: begin CntReset = 1'b0; DCacheStall = 1'b0; AHBRead = 1'b0; AHBWrite = 1'b0; DCacheAccess = 1'b0; DCacheMiss = 1'b0; SelAdrM = 2'b00; SRAMWordWriteEnableM = 1'b0; SetDirty = 1'b0; LRUWriteEn = 1'b0; CommittedM = 1'b0; // TLB Miss if((AnyCPUReqM & DTLBMissM) | ITLBMissF) begin // the LSU arbiter has not yet selected the PTW. // The CPU needs to be stalled until that happens. // If we set DCacheStall for 1 cycle before going to // PTW ready the CPU will stall. // The page table walker asserts it's control 1 cycle // after the TLBs miss. CommittedM = 1'b1; DCacheStall = 1'b1; NextState = STATE_PTW_READY; end // amo hit else if(AtomicM[1] & (&MemRWM) & CacheableM & ~(ExceptionM | PendingInterruptM) & CacheHit & ~DTLBMissM) begin SelAdrM = 2'b10; DCacheStall = 1'b0; if(StallWtoDCache) begin NextState = STATE_CPU_BUSY_FINISH_AMO; SelAdrM = 2'b10; end else begin SRAMWordWriteEnableM = 1'b1; SetDirty = 1'b1; LRUWriteEn = 1'b1; NextState = STATE_READY; end end // read hit valid cached else if(MemRWM[1] & CacheableM & ~(ExceptionM | PendingInterruptM) & CacheHit & ~DTLBMissM) begin DCacheStall = 1'b0; DCacheAccess = 1'b1; LRUWriteEn = 1'b1; if(StallWtoDCache) begin NextState = STATE_CPU_BUSY; SelAdrM = 2'b10; end else begin NextState = STATE_READY; end end // write hit valid cached else if (MemRWM[0] & CacheableM & ~(ExceptionM | PendingInterruptM) & CacheHit & ~DTLBMissM) begin SelAdrM = 2'b10; DCacheStall = 1'b0; SRAMWordWriteEnableM = 1'b1; SetDirty = 1'b1; LRUWriteEn = 1'b1; if(StallWtoDCache) begin NextState = STATE_CPU_BUSY; SelAdrM = 2'b10; end else begin NextState = STATE_READY; end end // read or write miss valid cached else if((|MemRWM) & CacheableM & ~(ExceptionM | PendingInterruptM) & ~CacheHit & ~DTLBMissM) begin NextState = STATE_MISS_FETCH_WDV; CntReset = 1'b1; DCacheStall = 1'b1; DCacheAccess = 1'b1; DCacheMiss = 1'b1; end // uncached write else if(MemRWM[0] & ~CacheableM & ~(ExceptionM | PendingInterruptM) & ~DTLBMissM) begin NextState = STATE_UNCACHED_WRITE; CntReset = 1'b1; DCacheStall = 1'b1; AHBWrite = 1'b1; end // uncached read else if(MemRWM[1] & ~CacheableM & ~(ExceptionM | PendingInterruptM) & ~DTLBMissM) begin NextState = STATE_UNCACHED_READ; CntReset = 1'b1; DCacheStall = 1'b1; AHBRead = 1'b1; end // fault else if(AnyCPUReqM & (ExceptionM | PendingInterruptM) & ~DTLBMissM) begin NextState = STATE_READY; end else NextState = STATE_READY; end STATE_MISS_FETCH_WDV: begin DCacheStall = 1'b1; PreCntEn = 1'b1; AHBRead = 1'b1; SelAdrM = 2'b10; CommittedM = 1'b1; if (FetchCountFlag & AHBAck) begin NextState = STATE_MISS_FETCH_DONE; end else begin NextState = STATE_MISS_FETCH_WDV; end end STATE_MISS_FETCH_DONE: begin DCacheStall = 1'b1; SelAdrM = 2'b10; CntReset = 1'b1; CommittedM = 1'b1; if(VictimDirty) begin NextState = STATE_MISS_EVICT_DIRTY; end else begin NextState = STATE_MISS_WRITE_CACHE_BLOCK; end end STATE_MISS_WRITE_CACHE_BLOCK: begin SRAMBlockWriteEnableM = 1'b1; DCacheStall = 1'b1; NextState = STATE_MISS_READ_WORD; SelAdrM = 2'b10; SetValid = 1'b1; ClearDirty = 1'b1; CommittedM = 1'b1; //LRUWriteEn = 1'b1; // DO not update LRU on SRAM fetch update. Wait for subsequent read/write end STATE_MISS_READ_WORD: begin SelAdrM = 2'b10; DCacheStall = 1'b1; CommittedM = 1'b1; if (MemRWM[0]) begin // handles stores and amo write. NextState = STATE_MISS_WRITE_WORD; end else begin NextState = STATE_MISS_READ_WORD_DELAY; // delay state is required as the read signal MemRWM[1] is still high when we // return to the ready state because the cache is stalling the cpu. end end STATE_MISS_READ_WORD_DELAY: begin //SelAdrM = 2'b10; CommittedM = 1'b1; SRAMWordWriteEnableM = 1'b0; SetDirty = 1'b0; LRUWriteEn = 1'b0; if(&MemRWM & AtomicM[1]) begin // amo write SelAdrM = 2'b10; if(StallWtoDCache) begin NextState = STATE_CPU_BUSY_FINISH_AMO; end else begin SRAMWordWriteEnableM = 1'b1; SetDirty = 1'b1; LRUWriteEn = 1'b1; NextState = STATE_READY; end end else begin LRUWriteEn = 1'b1; if(StallWtoDCache) begin NextState = STATE_CPU_BUSY; SelAdrM = 2'b10; end else begin NextState = STATE_READY; end end end STATE_MISS_WRITE_WORD: begin SRAMWordWriteEnableM = 1'b1; SetDirty = 1'b1; SelAdrM = 2'b10; CommittedM = 1'b1; LRUWriteEn = 1'b1; if(StallWtoDCache) begin NextState = STATE_CPU_BUSY; SelAdrM = 2'b10; end else begin NextState = STATE_READY; end end STATE_MISS_EVICT_DIRTY: begin DCacheStall = 1'b1; PreCntEn = 1'b1; AHBWrite = 1'b1; SelAdrM = 2'b10; CommittedM = 1'b1; SelEvict = 1'b1; if(FetchCountFlag & AHBAck) begin NextState = STATE_MISS_WRITE_CACHE_BLOCK; end else begin NextState = STATE_MISS_EVICT_DIRTY; end end STATE_PTW_READY: begin // now all output connect to PTW instead of CPU. CommittedM = 1'b1; SelAdrM = 2'b00; DCacheStall = 1'b0; LRUWriteEn = 1'b0; CntReset = 1'b0; // In this branch we remove stall and go back to ready. There is no request for memory from the // datapath or the walker had a fault. // types 3b, 4a, 4b, and 7c. if ((DTLBMissM & WalkerPageFaultM) | // 3b (ITLBMissF & (WalkerInstrPageFaultF | ITLBWriteF) & ~AnyCPUReqM & ~DTLBMissM) | // 4a and 4b (DTLBMissM & ITLBMissF & WalkerPageFaultM)) begin // 7c NextState = STATE_READY; DCacheStall = 1'b0; end // in this branch we go back to ready, but there is a memory operation from // the datapath so we MUST stall and replay the operation. // types 3a and 5a else if ((DTLBMissM & DTLBWriteM) | // 3a (ITLBMissF & ITLBWriteF & AnyCPUReqM)) begin // 5a NextState = STATE_READY; DCacheStall = 1'b1; SelAdrM = 2'b01; end // like 5a we want to stall and go to the ready state, but we also have to save // the WalkerInstrPageFaultF so it is held until the end of the memory operation // from the datapath. // types 5b else if (ITLBMissF & WalkerInstrPageFaultF & AnyCPUReqM) begin // 5b NextState = STATE_PTW_FAULT_READY; DCacheStall = 1'b1; SelAdrM = 2'b01; end // in this branch we stay in ptw_ready because we are doing an itlb walk // after a dtlb walk. // types 7a and 7b. else if (DTLBMissM & DTLBWriteM & ITLBMissF)begin NextState = STATE_PTW_READY; DCacheStall = 1'b0; // read hit valid cached end else if(MemRWM[1] & CacheableM & ~ExceptionM & CacheHit) begin NextState = STATE_PTW_READY; DCacheStall = 1'b0; LRUWriteEn = 1'b1; end // read miss valid cached else if(SelPTW & MemRWM[1] & CacheableM & ~ExceptionM & ~CacheHit) begin NextState = STATE_PTW_READ_MISS_FETCH_WDV; CntReset = 1'b1; DCacheStall = 1'b1; end else begin NextState = STATE_PTW_READY; DCacheStall = 1'b0; end end STATE_PTW_READ_MISS_FETCH_WDV: begin DCacheStall = 1'b1; PreCntEn = 1'b1; AHBRead = 1'b1; SelAdrM = 2'b10; CommittedM = 1'b1; if(FetchCountFlag & AHBAck) begin NextState = STATE_PTW_READ_MISS_FETCH_DONE; end else begin NextState = STATE_PTW_READ_MISS_FETCH_WDV; end end STATE_PTW_READ_MISS_FETCH_DONE: begin DCacheStall = 1'b1; SelAdrM = 2'b10; CntReset = 1'b1; CommittedM = 1'b1; CntReset = 1'b1; if(VictimDirty) begin NextState = STATE_PTW_READ_MISS_EVICT_DIRTY; end else begin NextState = STATE_PTW_READ_MISS_WRITE_CACHE_BLOCK; end end STATE_PTW_READ_MISS_EVICT_DIRTY: begin DCacheStall = 1'b1; PreCntEn = 1'b1; AHBWrite = 1'b1; SelAdrM = 2'b10; CommittedM = 1'b1; SelEvict = 1'b1; if(FetchCountFlag & AHBAck) begin NextState = STATE_PTW_READ_MISS_WRITE_CACHE_BLOCK; end else begin NextState = STATE_PTW_READ_MISS_EVICT_DIRTY; end end STATE_PTW_READ_MISS_WRITE_CACHE_BLOCK: begin SRAMBlockWriteEnableM = 1'b1; DCacheStall = 1'b1; NextState = STATE_PTW_READ_MISS_READ_WORD; SelAdrM = 2'b10; SetValid = 1'b1; ClearDirty = 1'b1; CommittedM = 1'b1; //LRUWriteEn = 1'b1; end STATE_PTW_READ_MISS_READ_WORD: begin SelAdrM = 2'b10; DCacheStall = 1'b1; CommittedM = 1'b1; NextState = STATE_PTW_READ_MISS_READ_WORD_DELAY; end STATE_PTW_READ_MISS_READ_WORD_DELAY: begin SelAdrM = 2'b10; NextState = STATE_PTW_READY; CommittedM = 1'b1; end STATE_PTW_ACCESS_AFTER_WALK: begin DCacheStall = 1'b1; SelAdrM = 2'b10; CommittedM = 1'b1; LRUWriteEn = 1'b1; NextState = STATE_READY; end STATE_CPU_BUSY: begin CommittedM = 1'b1; SelAdrM = 2'b00; if(StallWtoDCache) begin NextState = STATE_CPU_BUSY; SelAdrM = 2'b10; end else begin NextState = STATE_READY; end end STATE_CPU_BUSY_FINISH_AMO: begin CommittedM = 1'b1; SelAdrM = 2'b10; SRAMWordWriteEnableM = 1'b0; SetDirty = 1'b0; LRUWriteEn = 1'b0; if(StallWtoDCache) begin NextState = STATE_CPU_BUSY_FINISH_AMO; end else begin SRAMWordWriteEnableM = 1'b1; SetDirty = 1'b1; LRUWriteEn = 1'b1; NextState = STATE_READY; end end STATE_UNCACHED_WRITE : begin DCacheStall = 1'b1; AHBWrite = 1'b1; CommittedM = 1'b1; if(AHBAck) begin NextState = STATE_UNCACHED_WRITE_DONE; end else begin NextState = STATE_UNCACHED_WRITE; end end STATE_UNCACHED_READ: begin DCacheStall = 1'b1; AHBRead = 1'b1; CommittedM = 1'b1; if(AHBAck) begin NextState = STATE_UNCACHED_READ_DONE; end else begin NextState = STATE_UNCACHED_READ; end end STATE_UNCACHED_WRITE_DONE: begin CommittedM = 1'b1; SelAdrM = 2'b00; if(StallWtoDCache) begin NextState = STATE_CPU_BUSY; SelAdrM = 2'b10; end else begin NextState = STATE_READY; end end STATE_UNCACHED_READ_DONE: begin CommittedM = 1'b1; SelUncached = 1'b1; SelAdrM = 2'b00; if(StallWtoDCache) begin NextState = STATE_CPU_BUSY; SelAdrM = 2'b10; end else begin NextState = STATE_READY; end end // itlb => instruction page fault states with memory request. STATE_PTW_FAULT_READY: begin DCacheStall = 1'b0; DCacheAccess = 1'b0; DCacheMiss = 1'b0; LRUWriteEn = 1'b0; SelAdrM = 2'b00; MemAfterIWalkDone = 1'b0; SetDirty = 1'b0; LRUWriteEn = 1'b0; CntReset = 1'b0; AHBWrite = 1'b0; AHBRead = 1'b0; CommittedM = 1'b0; NextState = STATE_READY; // read hit valid cached if(MemRWM[1] & CacheableM & CacheHit & ~DTLBMissM) begin DCacheStall = 1'b0; DCacheAccess = 1'b1; LRUWriteEn = 1'b1; if(StallWtoDCache) begin NextState = STATE_PTW_FAULT_CPU_BUSY; SelAdrM = 2'b10; end else begin MemAfterIWalkDone = 1'b1; NextState = STATE_READY; end end // write hit valid cached else if (MemRWM[0] & CacheableM & CacheHit & ~DTLBMissM) begin SelAdrM = 2'b10; DCacheStall = 1'b0; SRAMWordWriteEnableM = 1'b1; SetDirty = 1'b1; LRUWriteEn = 1'b1; if(StallWtoDCache) begin NextState = STATE_PTW_FAULT_CPU_BUSY; SelAdrM = 2'b10; end else begin MemAfterIWalkDone = 1'b1; NextState = STATE_READY; end end // read or write miss valid cached else if((|MemRWM) & CacheableM & ~CacheHit & ~DTLBMissM) begin NextState = STATE_PTW_FAULT_MISS_FETCH_WDV; CntReset = 1'b1; DCacheStall = 1'b1; DCacheAccess = 1'b1; DCacheMiss = 1'b1; end // uncached write else if(MemRWM[0] & ~CacheableM & ~DTLBMissM) begin NextState = STATE_PTW_FAULT_UNCACHED_WRITE; CntReset = 1'b1; DCacheStall = 1'b1; AHBWrite = 1'b1; end // uncached read else if(MemRWM[1] & ~CacheableM & ~DTLBMissM) begin NextState = STATE_PTW_FAULT_UNCACHED_READ; CntReset = 1'b1; DCacheStall = 1'b1; AHBRead = 1'b1; MemAfterIWalkDone = 1'b0; end // fault else begin MemAfterIWalkDone = 1'b1; NextState = STATE_READY; end end STATE_PTW_FAULT_CPU_BUSY: begin CommittedM = 1'b1; if(StallWtoDCache) begin NextState = STATE_PTW_FAULT_CPU_BUSY; MemAfterIWalkDone = 1'b0; SelAdrM = 2'b10; end else begin MemAfterIWalkDone = 1'b1; NextState = STATE_READY; SelAdrM = 2'b00; end end STATE_PTW_FAULT_MISS_FETCH_WDV: begin DCacheStall = 1'b1; PreCntEn = 1'b1; AHBRead = 1'b1; SelAdrM = 2'b10; CommittedM = 1'b1; if(FetchCountFlag & AHBAck) begin NextState = STATE_PTW_FAULT_MISS_FETCH_DONE; end else begin NextState = STATE_PTW_FAULT_MISS_FETCH_WDV; end end STATE_PTW_FAULT_MISS_FETCH_DONE: begin DCacheStall = 1'b1; SelAdrM = 2'b10; CntReset = 1'b1; CommittedM = 1'b1; if(VictimDirty) begin NextState = STATE_PTW_FAULT_MISS_EVICT_DIRTY; end else begin NextState = STATE_PTW_FAULT_MISS_WRITE_CACHE_BLOCK; end end STATE_PTW_FAULT_MISS_WRITE_CACHE_BLOCK: begin SRAMBlockWriteEnableM = 1'b1; DCacheStall = 1'b1; NextState = STATE_PTW_FAULT_MISS_READ_WORD; SelAdrM = 2'b10; SetValid = 1'b1; ClearDirty = 1'b1; CommittedM = 1'b1; //LRUWriteEn = 1'b1; // DO not update LRU on SRAM fetch update. Wait for subsequent read/write end STATE_PTW_FAULT_MISS_READ_WORD: begin SelAdrM = 2'b10; DCacheStall = 1'b1; CommittedM = 1'b1; if(MemRWM[1]) begin NextState = STATE_PTW_FAULT_MISS_READ_WORD_DELAY; // delay state is required as the read signal MemRWM[1] is still high when we // return to the ready state because the cache is stalling the cpu. end else begin NextState = STATE_PTW_FAULT_MISS_WRITE_WORD; end end STATE_PTW_FAULT_MISS_READ_WORD_DELAY: begin CommittedM = 1'b1; LRUWriteEn = 1'b1; if(StallWtoDCache) begin NextState = STATE_PTW_FAULT_CPU_BUSY; SelAdrM = 2'b10; MemAfterIWalkDone = 1'b0; end else begin MemAfterIWalkDone = 1'b1; NextState = STATE_READY; SelAdrM = 2'b00; end end STATE_PTW_FAULT_MISS_WRITE_WORD: begin SRAMWordWriteEnableM = 1'b1; SetDirty = 1'b1; SelAdrM = 2'b10; DCacheStall = 1'b1; CommittedM = 1'b1; LRUWriteEn = 1'b1; NextState = STATE_PTW_FAULT_MISS_WRITE_WORD_DELAY; end STATE_PTW_FAULT_MISS_WRITE_WORD_DELAY: begin CommittedM = 1'b1; if(StallWtoDCache) begin NextState = STATE_PTW_FAULT_CPU_BUSY; MemAfterIWalkDone = 1'b0; SelAdrM = 2'b10; end else begin MemAfterIWalkDone = 1'b1; NextState = STATE_READY; SelAdrM = 2'b00; end end STATE_PTW_FAULT_MISS_EVICT_DIRTY: begin DCacheStall = 1'b1; PreCntEn = 1'b1; AHBWrite = 1'b1; SelAdrM = 2'b10; CommittedM = 1'b1; SelEvict = 1'b1; if(FetchCountFlag & AHBAck) begin NextState = STATE_PTW_FAULT_MISS_WRITE_CACHE_BLOCK; end else begin NextState = STATE_PTW_FAULT_MISS_EVICT_DIRTY; end end STATE_PTW_FAULT_UNCACHED_WRITE : begin DCacheStall = 1'b1; AHBWrite = 1'b1; CommittedM = 1'b1; if(AHBAck) begin NextState = STATE_PTW_FAULT_UNCACHED_WRITE_DONE; end else begin NextState = STATE_PTW_FAULT_UNCACHED_WRITE; end end STATE_PTW_FAULT_UNCACHED_READ : begin DCacheStall = 1'b1; AHBRead = 1'b1; CommittedM = 1'b1; if(AHBAck) begin NextState = STATE_PTW_FAULT_UNCACHED_READ_DONE; end else begin NextState = STATE_PTW_FAULT_UNCACHED_READ; end end STATE_PTW_FAULT_UNCACHED_WRITE_DONE: begin CommittedM = 1'b1; if(StallWtoDCache) begin NextState = STATE_PTW_FAULT_CPU_BUSY; MemAfterIWalkDone = 1'b0; SelAdrM = 2'b10; end else begin MemAfterIWalkDone = 1'b1; NextState = STATE_READY; SelAdrM = 2'b00; end end STATE_PTW_FAULT_UNCACHED_READ_DONE: begin CommittedM = 1'b1; SelUncached = 1'b1; if(StallWtoDCache) begin NextState = STATE_PTW_FAULT_CPU_BUSY; SelAdrM = 2'b10; end else begin MemAfterIWalkDone = 1'b1; NextState = STATE_READY; end end default: begin NextState = STATE_READY; end endcase end endmodule // dcachefsm