183 lines
4.5 KiB
Rust
183 lines
4.5 KiB
Rust
//! Emitting binary RISC-V machine code.
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use binemit::{bad_encoding, CodeSink, Reloc};
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use ir::{Function, Inst, InstructionData};
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use isa::{RegUnit, StackBaseMask, StackRef};
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use predicates::is_signed_int;
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use regalloc::RegDiversions;
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use std::u32;
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include!(concat!(env!("OUT_DIR"), "/binemit-riscv.rs"));
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/// R-type instructions.
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///
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/// 31 24 19 14 11 6
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/// funct7 rs2 rs1 funct3 rd opcode
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/// 25 20 15 12 7 0
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///
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/// Encoding bits: `opcode[6:2] | (funct3 << 5) | (funct7 << 8)`.
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fn put_r<CS: CodeSink + ?Sized>(bits: u16, rs1: RegUnit, rs2: RegUnit, rd: RegUnit, sink: &mut CS) {
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let bits = u32::from(bits);
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let opcode5 = bits & 0x1f;
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let funct3 = (bits >> 5) & 0x7;
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let funct7 = (bits >> 8) & 0x7f;
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let rs1 = u32::from(rs1) & 0x1f;
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let rs2 = u32::from(rs2) & 0x1f;
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let rd = u32::from(rd) & 0x1f;
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// 0-6: opcode
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let mut i = 0x3;
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i |= opcode5 << 2;
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i |= rd << 7;
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i |= funct3 << 12;
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i |= rs1 << 15;
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i |= rs2 << 20;
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i |= funct7 << 25;
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sink.put4(i);
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}
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/// R-type instructions with a shift amount instead of rs2.
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///
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/// 31 25 19 14 11 6
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/// funct7 shamt rs1 funct3 rd opcode
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/// 25 20 15 12 7 0
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///
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/// Both funct7 and shamt contribute to bit 25. In RV64, shamt uses it for shifts > 31.
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///
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/// Encoding bits: `opcode[6:2] | (funct3 << 5) | (funct7 << 8)`.
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fn put_rshamt<CS: CodeSink + ?Sized>(
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bits: u16,
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rs1: RegUnit,
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shamt: i64,
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rd: RegUnit,
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sink: &mut CS,
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) {
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let bits = u32::from(bits);
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let opcode5 = bits & 0x1f;
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let funct3 = (bits >> 5) & 0x7;
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let funct7 = (bits >> 8) & 0x7f;
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let rs1 = u32::from(rs1) & 0x1f;
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let shamt = shamt as u32 & 0x3f;
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let rd = u32::from(rd) & 0x1f;
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// 0-6: opcode
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let mut i = 0x3;
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i |= opcode5 << 2;
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i |= rd << 7;
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i |= funct3 << 12;
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i |= rs1 << 15;
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i |= shamt << 20;
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i |= funct7 << 25;
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sink.put4(i);
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}
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/// I-type instructions.
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///
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/// 31 19 14 11 6
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/// imm rs1 funct3 rd opcode
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/// 20 15 12 7 0
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///
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/// Encoding bits: `opcode[6:2] | (funct3 << 5)`
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fn put_i<CS: CodeSink + ?Sized>(bits: u16, rs1: RegUnit, imm: i64, rd: RegUnit, sink: &mut CS) {
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let bits = u32::from(bits);
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let opcode5 = bits & 0x1f;
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let funct3 = (bits >> 5) & 0x7;
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let rs1 = u32::from(rs1) & 0x1f;
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let rd = u32::from(rd) & 0x1f;
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// 0-6: opcode
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let mut i = 0x3;
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i |= opcode5 << 2;
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i |= rd << 7;
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i |= funct3 << 12;
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i |= rs1 << 15;
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i |= (imm << 20) as u32;
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sink.put4(i);
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}
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/// U-type instructions.
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///
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/// 31 11 6
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/// imm rd opcode
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/// 12 7 0
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///
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/// Encoding bits: `opcode[6:2] | (funct3 << 5)`
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fn put_u<CS: CodeSink + ?Sized>(bits: u16, imm: i64, rd: RegUnit, sink: &mut CS) {
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let bits = u32::from(bits);
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let opcode5 = bits & 0x1f;
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let rd = u32::from(rd) & 0x1f;
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// 0-6: opcode
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let mut i = 0x3;
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i |= opcode5 << 2;
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i |= rd << 7;
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i |= imm as u32 & 0xfffff000;
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sink.put4(i);
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}
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/// SB-type branch instructions.
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///
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/// 31 24 19 14 11 6
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/// imm rs2 rs1 funct3 imm opcode
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/// 25 20 15 12 7 0
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///
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/// Encoding bits: `opcode[6:2] | (funct3 << 5)`
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fn put_sb<CS: CodeSink + ?Sized>(bits: u16, imm: i64, rs1: RegUnit, rs2: RegUnit, sink: &mut CS) {
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let bits = u32::from(bits);
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let opcode5 = bits & 0x1f;
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let funct3 = (bits >> 5) & 0x7;
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let rs1 = u32::from(rs1) & 0x1f;
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let rs2 = u32::from(rs2) & 0x1f;
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debug_assert!(is_signed_int(imm, 13, 1), "SB out of range {:#x}", imm);
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let imm = imm as u32;
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// 0-6: opcode
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let mut i = 0x3;
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i |= opcode5 << 2;
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i |= funct3 << 12;
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i |= rs1 << 15;
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i |= rs2 << 20;
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// The displacement is completely hashed up.
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i |= ((imm >> 11) & 0x1) << 7;
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i |= ((imm >> 1) & 0xf) << 8;
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i |= ((imm >> 5) & 0x3f) << 25;
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i |= ((imm >> 12) & 0x1) << 31;
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sink.put4(i);
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}
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/// UJ-type jump instructions.
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///
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/// 31 11 6
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/// imm rd opcode
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/// 12 7 0
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///
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/// Encoding bits: `opcode[6:2]`
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fn put_uj<CS: CodeSink + ?Sized>(bits: u16, imm: i64, rd: RegUnit, sink: &mut CS) {
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let bits = u32::from(bits);
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let opcode5 = bits & 0x1f;
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let rd = u32::from(rd) & 0x1f;
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debug_assert!(is_signed_int(imm, 21, 1), "UJ out of range {:#x}", imm);
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let imm = imm as u32;
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// 0-6: opcode
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let mut i = 0x3;
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i |= opcode5 << 2;
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i |= rd << 7;
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// The displacement is completely hashed up.
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i |= imm & 0xff000;
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i |= ((imm >> 11) & 0x1) << 20;
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i |= ((imm >> 1) & 0x3ff) << 21;
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i |= ((imm >> 20) & 0x1) << 31;
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sink.put4(i);
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}
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