1//===-- BPFInstrFormats.td - BPF Instruction Formats -------*- tablegen -*-===// 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 9class BPFOpClass<bits<3> val> { 10 bits<3> Value = val; 11} 12 13def BPF_LD : BPFOpClass<0x0>; 14def BPF_LDX : BPFOpClass<0x1>; 15def BPF_ST : BPFOpClass<0x2>; 16def BPF_STX : BPFOpClass<0x3>; 17def BPF_ALU : BPFOpClass<0x4>; 18def BPF_JMP : BPFOpClass<0x5>; 19def BPF_JMP32 : BPFOpClass<0x6>; 20def BPF_ALU64 : BPFOpClass<0x7>; 21 22class BPFSrcType<bits<1> val> { 23 bits<1> Value = val; 24} 25 26def BPF_K : BPFSrcType<0x0>; 27def BPF_X : BPFSrcType<0x1>; 28 29class BPFArithOp<bits<4> val> { 30 bits<4> Value = val; 31} 32 33def BPF_ADD : BPFArithOp<0x0>; 34def BPF_SUB : BPFArithOp<0x1>; 35def BPF_MUL : BPFArithOp<0x2>; 36def BPF_DIV : BPFArithOp<0x3>; 37def BPF_OR : BPFArithOp<0x4>; 38def BPF_AND : BPFArithOp<0x5>; 39def BPF_LSH : BPFArithOp<0x6>; 40def BPF_RSH : BPFArithOp<0x7>; 41def BPF_NEG : BPFArithOp<0x8>; 42def BPF_XOR : BPFArithOp<0xa>; 43def BPF_MOV : BPFArithOp<0xb>; 44def BPF_ARSH : BPFArithOp<0xc>; 45def BPF_END : BPFArithOp<0xd>; 46 47def BPF_XCHG : BPFArithOp<0xe>; 48def BPF_CMPXCHG : BPFArithOp<0xf>; 49 50class BPFEndDir<bits<1> val> { 51 bits<1> Value = val; 52} 53 54def BPF_TO_LE : BPFSrcType<0x0>; 55def BPF_TO_BE : BPFSrcType<0x1>; 56 57class BPFJumpOp<bits<4> val> { 58 bits<4> Value = val; 59} 60 61def BPF_JA : BPFJumpOp<0x0>; 62def BPF_JEQ : BPFJumpOp<0x1>; 63def BPF_JGT : BPFJumpOp<0x2>; 64def BPF_JGE : BPFJumpOp<0x3>; 65def BPF_JNE : BPFJumpOp<0x5>; 66def BPF_JSGT : BPFJumpOp<0x6>; 67def BPF_JSGE : BPFJumpOp<0x7>; 68def BPF_CALL : BPFJumpOp<0x8>; 69def BPF_EXIT : BPFJumpOp<0x9>; 70def BPF_JLT : BPFJumpOp<0xa>; 71def BPF_JLE : BPFJumpOp<0xb>; 72def BPF_JSLT : BPFJumpOp<0xc>; 73def BPF_JSLE : BPFJumpOp<0xd>; 74 75class BPFWidthModifer<bits<2> val> { 76 bits<2> Value = val; 77} 78 79def BPF_W : BPFWidthModifer<0x0>; 80def BPF_H : BPFWidthModifer<0x1>; 81def BPF_B : BPFWidthModifer<0x2>; 82def BPF_DW : BPFWidthModifer<0x3>; 83 84class BPFModeModifer<bits<3> val> { 85 bits<3> Value = val; 86} 87 88def BPF_IMM : BPFModeModifer<0x0>; 89def BPF_ABS : BPFModeModifer<0x1>; 90def BPF_IND : BPFModeModifer<0x2>; 91def BPF_MEM : BPFModeModifer<0x3>; 92def BPF_ATOMIC : BPFModeModifer<0x6>; 93 94class BPFAtomicFlag<bits<4> val> { 95 bits<4> Value = val; 96} 97 98def BPF_FETCH : BPFAtomicFlag<0x1>; 99 100class InstBPF<dag outs, dag ins, string asmstr, list<dag> pattern> 101 : Instruction { 102 field bits<64> Inst; 103 field bits<64> SoftFail = 0; 104 let Size = 8; 105 106 let Namespace = "BPF"; 107 let DecoderNamespace = "BPF"; 108 109 BPFOpClass BPFClass; 110 let Inst{58-56} = BPFClass.Value; 111 112 dag OutOperandList = outs; 113 dag InOperandList = ins; 114 let AsmString = asmstr; 115 let Pattern = pattern; 116} 117 118// Pseudo instructions 119class Pseudo<dag outs, dag ins, string asmstr, list<dag> pattern> 120 : InstBPF<outs, ins, asmstr, pattern> { 121 let Inst{63-0} = 0; 122 let isPseudo = 1; 123} 124