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How to add a new instruction

Peng Wu edited this page Sep 30, 2020 · 6 revisions

For an evolving ISA like RISC-V, it is common that we will have support for new instructions or new ISA extensions to the backend. In this post, we explain the steps to add a new instruction to an existing backend. In this case, we use the riscv64 backend as an example, but the process is similar to other backends as well.

Table of contents generated with markdown-toc

1. Add constants (src/codegen/riscv64/constants-riscv64.h)

constants-riscv64.h defines constants that are related to instruction classes and encodings that are shared by the Assembler, Disasm, and Simulator. You will need to add new opcode to enum Opcode_t and other constants if it uses a new instruction format. Sometimes, a new instruction uses a new class of registers. Then one needs to add new register classes to register-riscv64.h.

2. Add to the assembler (src/codegen/riscv64/assembler-riscv64.h/cc)

Add a new Assembler API to assembler-riscv64.cc and assembler-riscv64.h as the generator for the new instruction. These Assembler APIs are typically named after the instruction name unless there is a naming conflict, such as and is named as and_.

// assembler-riscv64.h
void add(Register rd, Register rs1, Register rs2);

// assembler-riscv64.cc
void Assembler::add(Register rd, Register rs1, Register rs2) {
  GenInstrALU_rr(0b0000000, 0b000, rd, rs1, rs2);
}

If the instruction uses a new instruction format, one needs to add a new generator function for this new instruction format (e.g., GenInstrALU_rr).

3. Add to the simulator (src/codegen/riscv64/simulator-riscv64.h/cc)

Implement the behavior of the instruction in the simulator as shown blow:

void Simulator::DecodeRVRType() {
  switch (instr_.InstructionBits() & kRTypeMask) {
    case RO_ADD: {
      set_rd(sext_xlen(rs1() + rs2()));
      break;
    }

Note that constants like kRTypeMask is defined in constants-riscv64.h and is shared by both Assembler, Simulator, and Disasm.

4. Test the instruction

Once an instruction is added to the Assembler and the Simulator, it can be tested under the simulator build run. The new instruction needs to be added test/cctest/test-assembler-riscv64.cc

UTEST_R2_FORM_WITH_OP(add, int64_t, LARGE_INT_EXCEED_32_BIT, MIN_VAL_IMM12, +)

which is a macro that specifies two input operands to add and compare it against the expected result computing by + the two operands.

5. Add to the disassembler (src/diagnostics/riscv64/disasm-riscv64.h/cc)

Add the disassembler for the new instruction, as shown below:

void Decoder::DecodeRType(Instruction* instr) {
  switch (instr->InstructionBits() & kRTypeMask) {
    case RO_ADD:
      Format(instr, "add       'rd, 'rs1, 'rs2");
      break;

6. Test disassembler

Add a test for disassembly the new instruction in test/cctest/test-disam-riscv64.cc as shown below:

  COMPARE(add(s6, t0, t4), "01d28b33       add       s6, t0, t4");

7. Use the new instruction

Simply adding a new instruction to the Assembler does not mean that the instruction is generated during code-gen. You have to use these "assembler" APIs in the code-gen routines such as in TurboAssembler (src/codegen/riscv64/macro-assembler-riscv64.cc), in ASM built-in functions (src/builtins/riscv64/builtins-riscv64.cc), during the lowering from TF machine-node IR to target-specific codes (src/compiler/backend/riscv64/code-generator-riscv64.cc), in the lowering from WASM IR to target-specific codes in the liftoff-compiler (src/wasm/riscv64/liftoff-assembler-riscv64.h), in regexp assembler (src/regexp/riscv64/regexp-assembler-riscv64.cc).

Sometimes a sequence of TF machine-node IRs may be represented by the new instruction being added. In this case, you need to introduce a new architecture-specific machine-node IR and add the new instruction to the instruction selector (src/compiler/backend/riscv64/instruction-selector-riscv64.cc), and a test case for the instruction selection (test/unittests/riscv64/instruction-selection-riscv64-unittest.cc).

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