forked from suyu/suyu
1ec8d2123d
The Ryujinx macro interpreter and envydis were used as reference. Macros are programs that are uploaded by the games during boot and can later be called by writing to their method id in a GPU command buffer.
164 lines
5 KiB
C++
164 lines
5 KiB
C++
// Copyright 2018 yuzu Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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#pragma once
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#include <array>
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#include <vector>
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#include <boost/optional.hpp>
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#include "common/bit_field.h"
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#include "common/common_types.h"
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namespace Tegra {
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namespace Engines {
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class Maxwell3D;
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}
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class MacroInterpreter final {
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public:
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explicit MacroInterpreter(Engines::Maxwell3D& maxwell3d);
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/**
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* Executes the macro code with the specified input parameters.
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* @param code The macro byte code to execute
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* @param parameters The parameters of the macro
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*/
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void Execute(const std::vector<u32>& code, std::vector<u32> parameters);
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private:
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enum class Operation : u32 {
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ALU = 0,
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AddImmediate = 1,
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ExtractInsert = 2,
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ExtractShiftLeftImmediate = 3,
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ExtractShiftLeftRegister = 4,
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Read = 5,
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Unused = 6, // This operation doesn't seem to be a valid encoding.
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Branch = 7,
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};
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enum class ALUOperation : u32 {
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Add = 0,
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AddWithCarry = 1,
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Subtract = 2,
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SubtractWithBorrow = 3,
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// Operations 4-7 don't seem to be valid encodings.
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Xor = 8,
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Or = 9,
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And = 10,
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AndNot = 11,
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Nand = 12
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};
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enum class ResultOperation : u32 {
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IgnoreAndFetch = 0,
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Move = 1,
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MoveAndSetMethod = 2,
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FetchAndSend = 3,
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MoveAndSend = 4,
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FetchAndSetMethod = 5,
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MoveAndSetMethodFetchAndSend = 6,
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MoveAndSetMethodSend = 7
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};
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enum class BranchCondition : u32 {
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Zero = 0,
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NotZero = 1,
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};
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union Opcode {
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u32 raw;
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BitField<0, 3, Operation> operation;
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BitField<4, 3, ResultOperation> result_operation;
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BitField<4, 1, BranchCondition> branch_condition;
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BitField<5, 1, u32>
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branch_annul; // If set on a branch, then the branch doesn't have a delay slot.
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BitField<7, 1, u32> is_exit;
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BitField<8, 3, u32> dst;
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BitField<11, 3, u32> src_a;
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BitField<14, 3, u32> src_b;
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// The signed immediate overlaps the second source operand and the alu operation.
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BitField<14, 18, s32> immediate;
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BitField<17, 5, ALUOperation> alu_operation;
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// Bitfield instructions data
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BitField<17, 5, u32> bf_src_bit;
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BitField<22, 5, u32> bf_size;
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BitField<27, 5, u32> bf_dst_bit;
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u32 GetBitfieldMask() const {
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return (1 << bf_size) - 1;
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}
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};
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union MethodAddress {
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u32 raw;
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BitField<0, 12, u32> address;
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BitField<12, 6, u32> increment;
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};
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/// Resets the execution engine state, zeroing registers, etc.
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void Reset();
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/**
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* Executes a single macro instruction located at the current program counter. Returns whether
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* the interpreter should keep running.
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* @param code The macro code to execute.
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* @param is_delay_slot Whether the current step is being executed due to a delay slot in a
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* previous instruction.
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*/
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bool Step(const std::vector<u32>& code, bool is_delay_slot);
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/// Calculates the result of an ALU operation. src_a OP src_b;
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u32 GetALUResult(ALUOperation operation, u32 src_a, u32 src_b) const;
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/// Performs the result operation on the input result and stores it in the specified register
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/// (if necessary).
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void ProcessResult(ResultOperation operation, u32 reg, u32 result);
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/// Evaluates the branch condition and returns whether the branch should be taken or not.
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bool EvaluateBranchCondition(BranchCondition cond, u32 value) const;
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/// Reads an opcode at the current program counter location.
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Opcode GetOpcode(const std::vector<u32>& code) const;
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/// Returns the specified register's value. Register 0 is hardcoded to always return 0.
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u32 GetRegister(u32 register_id) const;
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/// Sets the register to the input value.
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void SetRegister(u32 register_id, u32 value);
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/// Sets the method address to use for the next Send instruction.
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void SetMethodAddress(u32 address);
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/// Calls a GPU Engine method with the input parameter.
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void Send(u32 value);
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/// Reads a GPU register located at the method address.
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u32 Read(u32 method) const;
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/// Returns the next parameter in the parameter queue.
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u32 FetchParameter();
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Engines::Maxwell3D& maxwell3d;
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u32 pc; ///< Current program counter
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boost::optional<u32>
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delayed_pc; ///< Program counter to execute at after the delay slot is executed.
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static constexpr size_t NumMacroRegisters = 8;
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/// General purpose macro registers.
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std::array<u32, NumMacroRegisters> registers = {};
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/// Method address to use for the next Send instruction.
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MethodAddress method_address = {};
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/// Input parameters of the current macro.
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std::vector<u32> parameters;
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/// Index of the next parameter that will be fetched by the 'parm' instruction.
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u32 next_parameter_index = 0;
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};
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} // namespace Tegra
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