Mercurial > lcfOS
view python/ppci/target/arm/instructions.py @ 353:b8ad45b3a573
Started with strings
| author | Windel Bouwman |
|---|---|
| date | Sun, 09 Mar 2014 18:49:10 +0100 |
| parents | 899ae3aea803 |
| children | 5477e499b039 |
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from ..basetarget import Instruction from ...bitfun import rotate_left from .token import ArmToken from .registers import R0, SP, ArmRegister def encode_imm32(v): """ Bundle 32 bit value into 4 bits rotation and 8 bits value """ for i in range(0, 16): v2 = rotate_left(v, i*2) if (v2 & 0xFFFFFF00) == 0: rotation = i val = v2 & 0xFF x = (rotation << 8) | val return x raise Exception("Invalid value {}".format(v)) # Instructions: class ArmInstruction(Instruction): def __init__(self): self.token = ArmToken() class ConstantData(ArmInstruction): def __init__(self, v): super().__init__() assert isinstance(v, int) self.v = v def __repr__(self): return 'DCD {}'.format(hex(self.v)) class Dcd(ConstantData): def encode(self): self.token[0:32] = self.v return self.token.encode() def __repr__(self): return 'DCD {}'.format(hex(self.v)) class Db(ConstantData): def encode(self): assert self.v < 256 return bytes([self.v]) def __repr__(self): return 'DB {}'.format(hex(self.v)) def Mov(*args): if len(args) == 2: if isinstance(args[1], int): return Mov1(*args) elif isinstance(args[1], ArmRegister): return Mov2(*args) raise Exception() class Mov1(ArmInstruction): """ Mov Rd, imm16 """ def __init__(self, reg, imm): super().__init__() assert type(imm) is int self.reg = reg self.imm = imm def encode(self): self.token[0:12] = encode_imm32(self.imm) self.token.Rd = self.reg.num self.token[16:20] = 0 self.token[20] = 0 # Set flags self.token[21:28] = 0b0011101 self.token.cond = AL return self.token.encode() def __repr__(self): return 'Mov {}, {}'.format(self.reg, self.imm) class Mov2(ArmInstruction): def __init__(self, rd, rm): super().__init__() self.rd = rd self.rm = rm def encode(self): self.token[0:4] = self.rm.num self.token[4:12] = 0 self.token[12:16] = self.rd.num self.token[16:20] = 0 self.token.S = 0 self.token[21:28] = 0xD self.token.cond = AL return self.token.encode() def __repr__(self): return 'MOV {}, {}'.format(self.rd, self.rm) def Cmp(*args): if len(args) == 2: if isinstance(args[1], int): return Cmp1(*args) elif isinstance(args[1], ArmRegister): return Cmp2(*args) raise Exception() class Cmp1(ArmInstruction): """ CMP Rn, imm """ def __init__(self, reg, imm): super().__init__() assert type(imm) is int self.reg = reg self.imm = imm def encode(self): self.token[0:12] = encode_imm32(self.imm) self.token.Rn = self.reg.num self.token[20:28] = 0b00110101 self.token.cond = AL return self.token.encode() def __repr__(self): return 'CMP {}, {}'.format(self.reg, self.imm) class Cmp2(ArmInstruction): """ CMP Rn, Rm """ def __init__(self, rn, rm): super().__init__() self.rn = rn self.rm = rm def encode(self): self.token.Rn = self.rn.num self.token.Rm = self.rm.num self.token[7:16] = 0 self.token[20:28] = 0b10101 self.token.cond = AL return self.token.encode() def __repr__(self): return 'CMP {}, {}'.format(self.rn, self.rm) def Add(*args): if len(args) == 3 and isinstance(args[0], ArmRegister) and \ isinstance(args[1], ArmRegister): if isinstance(args[2], ArmRegister): return Add1(args[0], args[1], args[2]) elif isinstance(args[2], int): return Add2(args[0], args[1], args[2]) raise Exception() def Sub(*args): if len(args) == 3 and isinstance(args[0], ArmRegister) and \ isinstance(args[1], ArmRegister): if isinstance(args[2], ArmRegister): return Sub1(args[0], args[1], args[2]) elif isinstance(args[2], int): return Sub2(args[0], args[1], args[2]) raise Exception() def Mul(*args): return Mul1(args[0], args[1], args[2]) class Mul(ArmInstruction): def __init__(self, rd, rn, rm): super().__init__() self.rd = rd self.rn = rn self.rm = rm def encode(self): self.token[0:4] = self.rn.num self.token[4:8] = 0b1001 self.token[8:12] = self.rm.num self.token[16:20] = self.rd.num self.token.S = 0 self.token.cond = AL return self.token.encode() class OpRegRegReg(ArmInstruction): """ add rd, rn, rm """ def __init__(self, rd, rn, rm, shift=0): super().__init__() self.rd = rd self.rn = rn self.rm = rm def encode(self): self.token[0:4] = self.rm.num self.token[4] = 0 self.token[5:7] = 0 self.token[7:12] = 0 # Shift self.token.Rd = self.rd.num self.token.Rn = self.rn.num self.token.S = 0 # Set flags self.token[21:28] = self.opcode self.token.cond = 0xE # Always! return self.token.encode() def __repr__(self): return 'add {}, {}, {}'.format(self.rd, self.rn, self.rm) class Add1(OpRegRegReg): opcode = 0b0000100 class Sub1(OpRegRegReg): opcode = 0b0000010 class Orr1(OpRegRegReg): opcode = 0b0001100 class OpRegRegImm(ArmInstruction): """ add rd, rn, imm12 """ def __init__(self, rd, rn, imm): super().__init__() self.rd = rd self.rn = rn self.imm2 = encode_imm32(imm) self.imm = imm def encode(self): self.token[0:12] = self.imm2 self.token.Rd = self.rd.num self.token.Rn = self.rn.num self.token.S = 0 # Set flags self.token[21:28] = self.opcode self.token.cond = 0xE # Always! return self.token.encode() def __repr__(self): return 'add {}, {}, {}'.format(self.rd, self.rn, self.imm) class Add2(OpRegRegImm): opcode = 0b0010100 class Sub2(OpRegRegImm): opcode = 0b0010010 # Branches: class BranchBaseRoot(ArmInstruction): def __init__(self, target): super().__init__() self.target = target def encode(self): self.token.cond = self.cond self.token[24:28] = self.opcode return self.token.encode() def relocations(self): return [(self.target, 'b_imm24')] def __repr__(self): mnemonic = self.__class__.__name__ return '{} {}'.format(mnemonic, self.target) EQ, NE, CS, CC, MI, PL, VS, VC, HI, LS, GE, LT, GT, LE, AL = range(15) class BranchBase(BranchBaseRoot): opcode = 0b1010 class BranchLinkBase(BranchBaseRoot): opcode = 0b1011 class Bl(BranchLinkBase): cond = AL class B(BranchBase): cond = AL class Beq(BranchBase): cond = EQ class Bgt(BranchBase): cond = GT class Ble(BranchBase): cond = LE class Blt(BranchBase): cond = LT class Bne(BranchBase): cond = NE # Memory: def reg_list_to_mask(reg_list): mask = 0 for reg in reg_list: mask |= (1 << reg.num) return mask class Push(ArmInstruction): def __init__(self, register_set): super().__init__() self.reg_list = register_set def encode(self): self.token.cond = AL self.token[16:28] = 0b100100101101 reg_list = 0 self.token[0:16] = reg_list_to_mask(self.reg_list) return self.token.encode() def __repr__(self): return 'PUSH {}'.format(self.reg_list) class Pop(ArmInstruction): def __init__(self, register_set): super().__init__() self.reg_list = register_set def encode(self): self.token.cond = AL self.token[16:28] = 0b100010111101 self.token[0:16] = reg_list_to_mask(self.reg_list) return self.token.encode() def __repr__(self): return 'POP {}'.format(self.reg_list) def Ldr(*args): """ Convenience function that creates the correct instruction """ if len(args) == 3: if isinstance(args[1], ArmRegister): return Ldr1(*args) elif len(args) == 2: if isinstance(args[1], ArmRegister): return Ldr1(args[0], args[1], 0) elif isinstance(args[1], str): return Ldr3(*args) raise Exception() def Str(*args): if len(args) == 3 and isinstance(args[1], ArmRegister): return Str1(*args) elif len(args) == 2 and isinstance(args[1], ArmRegister): return Str1(args[0], args[1], 0) raise Exception() class LdrStrBase(ArmInstruction): def __init__(self, rt, rn, offset): super().__init__() self.rt = rt self.rn = rn self.offset = offset def encode(self): self.token.cond = AL self.token.Rn = self.rn.num self.token[25:28] = self.opcode self.token[20] = self.bit20 self.token[12:16] = self.rt.num self.token[24] = 1 # Index if self.offset >= 0: self.token[23] = 1 # U == 1 'add' self.token[0:12] = self.offset else: self.token[23] = 0 self.token[0:12] = -self.offset return self.token.encode() def __repr__(self): return '{} {}, [{}, {}]'.format(self.mnemonic, self.rt, self.rn, hex(self.offset)) class Str1(LdrStrBase): opcode = 0b010 bit20 = 0 mnemonic = 'STR' class Ldr1(LdrStrBase): opcode = 0b010 bit20 = 1 mnemonic = 'LDR' class Ldr3(ArmInstruction): """ Load PC relative constant value LDR rt, label encoding A1 """ def __init__(self, rt, label): super().__init__() self.rt = rt self.label = label def __repr__(self): return 'LDR {}, {}'.format(self.rt, self.label) def relocations(self): return [(self.label, 'ldr_imm12')] def encode(self): self.token.cond = AL self.token[0:12] = 0 # Filled by linker self.token[12:16] = self.rt.num self.token[16:23] = 0b0011111 self.token[24:28] = 0b0101 return self.token.encode()