diff --git a/src/arch/riscv/isa/decoder.isa b/src/arch/riscv/isa/decoder.isa index 2f7d91ca8..e02d507de 100644 --- a/src/arch/riscv/isa/decoder.isa +++ b/src/arch/riscv/isa/decoder.isa @@ -150,6 +150,9 @@ decode OPCODE default Unknown::unknown() { 0x0: add({{ Rd = Rs1_sd + Rs2_sd; }}); + 0x1: mul({{ + Rd = Rs1_sd*Rs2_sd; + }}, IntMultOp); 0x20: sub({{ Rd = Rs1_sd - Rs2_sd; }}); @@ -158,26 +161,93 @@ decode OPCODE default Unknown::unknown() { 0x0: sll({{ Rd = Rs1 << Rs2<5:0>; }}); + 0x1: mulh({{ + bool negate = (Rs1_sd < 0) != (Rs2_sd < 0); + + uint64_t Rs1_lo = (uint32_t)std::abs(Rs1_sd); + uint64_t Rs1_hi = (uint64_t)std::abs(Rs1_sd) >> 32; + uint64_t Rs2_lo = (uint32_t)std::abs(Rs2_sd); + uint64_t Rs2_hi = (uint64_t)std::abs(Rs2_sd) >> 32; + + uint64_t hi = Rs1_hi*Rs2_hi; + uint64_t mid1 = Rs1_hi*Rs2_lo; + uint64_t mid2 = Rs1_lo*Rs2_hi; + uint64_t lo = Rs2_lo*Rs1_lo; + uint64_t carry = ((uint64_t)(uint32_t)mid1 + + (uint64_t)(uint32_t)mid2 + (lo >> 32)) >> 32; + + uint64_t res = hi + (mid1 >> 32) + (mid2 >> 32) + carry; + Rd = negate ? ~res + (Rs1_sd*Rs2_sd == 0 ? 1 : 0) : res; + }}, IntMultOp); } 0x2: decode FUNCT7 { 0x0: slt({{ Rd = (Rs1_sd < Rs2_sd) ? 1 : 0; }}); + 0x1: mulhsu({{ + bool negate = Rs1_sd < 0; + uint64_t Rs1_lo = (uint32_t)std::abs(Rs1_sd); + uint64_t Rs1_hi = (uint64_t)std::abs(Rs1_sd) >> 32; + uint64_t Rs2_lo = (uint32_t)Rs2; + uint64_t Rs2_hi = Rs2 >> 32; + + uint64_t hi = Rs1_hi*Rs2_hi; + uint64_t mid1 = Rs1_hi*Rs2_lo; + uint64_t mid2 = Rs1_lo*Rs2_hi; + uint64_t lo = Rs1_lo*Rs2_lo; + uint64_t carry = ((uint64_t)(uint32_t)mid1 + + (uint64_t)(uint32_t)mid2 + (lo >> 32)) >> 32; + + uint64_t res = hi + (mid1 >> 32) + (mid2 >> 32) + carry; + Rd = negate ? ~res + (Rs1_sd*Rs2 == 0 ? 1 : 0) : res; + }}, IntMultOp); } 0x3: decode FUNCT7 { 0x0: sltu({{ Rd = (Rs1 < Rs2) ? 1 : 0; }}); + 0x1: mulhu({{ + uint64_t Rs1_lo = (uint32_t)Rs1; + uint64_t Rs1_hi = Rs1 >> 32; + uint64_t Rs2_lo = (uint32_t)Rs2; + uint64_t Rs2_hi = Rs2 >> 32; + + uint64_t hi = Rs1_hi*Rs2_hi; + uint64_t mid1 = Rs1_hi*Rs2_lo; + uint64_t mid2 = Rs1_lo*Rs2_hi; + uint64_t lo = Rs1_lo*Rs2_lo; + uint64_t carry = ((uint64_t)(uint32_t)mid1 + + (uint64_t)(uint32_t)mid2 + (lo >> 32)) >> 32; + + Rd = hi + (mid1 >> 32) + (mid2 >> 32) + carry; + }}, IntMultOp); } 0x4: decode FUNCT7 { 0x0: xor({{ Rd = Rs1 ^ Rs2; }}); + 0x1: div({{ + if (Rs2_sd == 0) { + Rd_sd = -1; + } else if (Rs1_sd == std::numeric_limits::min() + && Rs2_sd == -1) { + Rd_sd = std::numeric_limits::min(); + } else { + Rd_sd = Rs1_sd/Rs2_sd; + } + }}, IntDivOp); } 0x5: decode FUNCT7 { 0x0: srl({{ Rd = Rs1 >> Rs2<5:0>; }}); + 0x1: divu({{ + if (Rs2 == 0) { + Rd = std::numeric_limits::max(); + } else { + Rd = Rs1/Rs2; + } + }}, IntDivOp); 0x20: sra({{ Rd_sd = Rs1_sd >> Rs2<5:0>; }}); @@ -186,11 +256,28 @@ decode OPCODE default Unknown::unknown() { 0x0: or({{ Rd = Rs1 | Rs2; }}); + 0x1: rem({{ + if (Rs2_sd == 0) { + Rd = Rs1_sd; + } else if (Rs1_sd == std::numeric_limits::min() + && Rs2_sd == -1) { + Rd = 0; + } else { + Rd = Rs1_sd%Rs2_sd; + } + }}, IntDivOp); } 0x7: decode FUNCT7 { 0x0: and({{ Rd = Rs1 & Rs2; }}); + 0x1: remu({{ + if (Rs2 == 0) { + Rd = Rs1; + } else { + Rd = Rs1%Rs2; + } + }}, IntDivOp); } } } @@ -205,6 +292,9 @@ decode OPCODE default Unknown::unknown() { 0x0: addw({{ Rd_sd = Rs1_sw + Rs2_sw; }}); + 0x1: mulw({{ + Rd_sd = (int32_t)(Rs1_sw*Rs2_sw); + }}, IntMultOp); 0x20: subw({{ Rd_sd = Rs1_sw - Rs2_sw; }}); @@ -212,14 +302,48 @@ decode OPCODE default Unknown::unknown() { 0x1: sllw({{ Rd_sd = Rs1_sw << Rs2<4:0>; }}); + 0x4: divw({{ + if (Rs2_sw == 0) { + Rd_sd = -1; + } else if (Rs1_sw == std::numeric_limits::min() + && Rs2_sw == -1) { + Rd_sd = std::numeric_limits::min(); + } else { + Rd_sd = Rs1_sw/Rs2_sw; + } + }}, IntDivOp); 0x5: decode FUNCT7 { 0x0: srlw({{ Rd_uw = Rs1_uw >> Rs2<4:0>; }}); + 0x1: divuw({{ + if (Rs2_uw == 0) { + Rd_sd = std::numeric_limits::max(); + } else { + Rd_sd = (int32_t)(Rs1_uw/Rs2_uw); + } + }}, IntDivOp); 0x20: sraw({{ Rd_sd = Rs1_sw >> Rs2<4:0>; }}); } + 0x6: remw({{ + if (Rs2_sw == 0) { + Rd_sd = Rs1_sw; + } else if (Rs1_sw == std::numeric_limits::min() + && Rs2_sw == -1) { + Rd_sd = 0; + } else { + Rd_sd = Rs1_sw%Rs2_sw; + } + }}, IntDivOp); + 0x7: remuw({{ + if (Rs2_uw == 0) { + Rd_sd = (int32_t)Rs1_uw; + } else { + Rd_sd = (int32_t)(Rs1_uw%Rs2_uw); + } + }}, IntDivOp); } }