xref: /freebsd/contrib/llvm-project/llvm/lib/MCA/HardwareUnits/RetireControlUnit.cpp (revision fe6060f10f634930ff71b7c50291ddc610da2475)
1 //===---------------------- RetireControlUnit.cpp ---------------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 /// \file
9 ///
10 /// This file simulates the hardware responsible for retiring instructions.
11 ///
12 //===----------------------------------------------------------------------===//
13 
14 #include "llvm/MCA/HardwareUnits/RetireControlUnit.h"
15 #include "llvm/Support/Debug.h"
16 
17 #define DEBUG_TYPE "llvm-mca"
18 
19 namespace llvm {
20 namespace mca {
21 
RetireControlUnit(const MCSchedModel & SM)22 RetireControlUnit::RetireControlUnit(const MCSchedModel &SM)
23     : NextAvailableSlotIdx(0), CurrentInstructionSlotIdx(0),
24       AvailableEntries(SM.isOutOfOrder() ? SM.MicroOpBufferSize : 0),
25       MaxRetirePerCycle(0) {
26   assert(SM.isOutOfOrder() &&
27          "RetireControlUnit is not available for in-order processors");
28   // Check if the scheduling model provides extra information about the machine
29   // processor. If so, then use that information to set the reorder buffer size
30   // and the maximum number of instructions retired per cycle.
31   if (SM.hasExtraProcessorInfo()) {
32     const MCExtraProcessorInfo &EPI = SM.getExtraProcessorInfo();
33     if (EPI.ReorderBufferSize)
34       AvailableEntries = EPI.ReorderBufferSize;
35     MaxRetirePerCycle = EPI.MaxRetirePerCycle;
36   }
37   NumROBEntries = AvailableEntries;
38   assert(NumROBEntries && "Invalid reorder buffer size!");
39   Queue.resize(2 * NumROBEntries);
40 }
41 
42 // Reserves a number of slots, and returns a new token.
dispatch(const InstRef & IR)43 unsigned RetireControlUnit::dispatch(const InstRef &IR) {
44   const Instruction &Inst = *IR.getInstruction();
45   unsigned Entries = normalizeQuantity(Inst.getNumMicroOps());
46   assert((AvailableEntries >= Entries) && "Reorder Buffer unavailable!");
47 
48   unsigned TokenID = NextAvailableSlotIdx;
49   Queue[NextAvailableSlotIdx] = {IR, Entries, false};
50   NextAvailableSlotIdx += std::max(1U, Entries);
51   NextAvailableSlotIdx %= Queue.size();
52   assert(TokenID < UnhandledTokenID && "Invalid token ID");
53 
54   AvailableEntries -= Entries;
55   return TokenID;
56 }
57 
getCurrentToken() const58 const RetireControlUnit::RUToken &RetireControlUnit::getCurrentToken() const {
59   const RetireControlUnit::RUToken &Current = Queue[CurrentInstructionSlotIdx];
60 #ifndef NDEBUG
61   const Instruction *Inst = Current.IR.getInstruction();
62   assert(Inst && "Invalid RUToken in the RCU queue.");
63 #endif
64   return Current;
65 }
66 
computeNextSlotIdx() const67 unsigned RetireControlUnit::computeNextSlotIdx() const {
68   const RetireControlUnit::RUToken &Current = getCurrentToken();
69   unsigned NextSlotIdx = CurrentInstructionSlotIdx + std::max(1U, Current.NumSlots);
70   return NextSlotIdx % Queue.size();
71 }
72 
peekNextToken() const73 const RetireControlUnit::RUToken &RetireControlUnit::peekNextToken() const {
74   return Queue[computeNextSlotIdx()];
75 }
76 
consumeCurrentToken()77 void RetireControlUnit::consumeCurrentToken() {
78   RetireControlUnit::RUToken &Current = Queue[CurrentInstructionSlotIdx];
79   Current.IR.getInstruction()->retire();
80 
81   // Update the slot index to be the next item in the circular queue.
82   CurrentInstructionSlotIdx += std::max(1U, Current.NumSlots);
83   CurrentInstructionSlotIdx %= Queue.size();
84   AvailableEntries += Current.NumSlots;
85   Current = { InstRef(), 0U, false };
86 }
87 
onInstructionExecuted(unsigned TokenID)88 void RetireControlUnit::onInstructionExecuted(unsigned TokenID) {
89   assert(Queue.size() > TokenID);
90   assert(Queue[TokenID].IR.getInstruction() && "Instruction was not dispatched!");
91   assert(Queue[TokenID].Executed == false && "Instruction already executed!");
92   Queue[TokenID].Executed = true;
93 }
94 
95 #ifndef NDEBUG
dump() const96 void RetireControlUnit::dump() const {
97   dbgs() << "Retire Unit: { Total ROB Entries =" << NumROBEntries
98          << ", Available ROB entries=" << AvailableEntries << " }\n";
99 }
100 #endif
101 
102 } // namespace mca
103 } // namespace llvm
104