Mercurial > lcfOS
view python/ppci/target/thumb/instructions.py @ 342:86b02c98a717 devel
Moved target directory
| author | Windel Bouwman |
|---|---|
| date | Sat, 01 Mar 2014 15:40:31 +0100 |
| parents | python/target/arminstructions.py@4d204f6f7d4e |
| children | 3bb7dcfe5529 |
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from ..basetarget import Register, Instruction, Target, Label from ..basetarget import Imm32, Imm8, Imm7, Imm3 from ..token import u16, u32 from .armtoken import ThumbToken from ..arm.registers import R0, ArmRegister, SP # Instructions: class ThumbInstruction(Instruction): pass class Dcd(ThumbInstruction): def __init__(self, expr): if isinstance(expr, Imm32): self.expr = expr.imm self.label = None elif isinstance(expr, int): self.expr = expr self.label = None else: raise NotImplementedError() def encode(self): return u32(self.expr) def relocations(self): return [] def __repr__(self): return 'DCD 0x{0:X}'.format(self.expr) class nop_ins(ThumbInstruction): def encode(self): return bytes() def __repr__(self): return 'NOP' # Memory related class LS_imm5_base(ThumbInstruction): """ ??? Rt, [Rn, imm5] """ def __init__(self, rt, rn, imm5): assert imm5 % 4 == 0 self.imm5 = imm5 >> 2 self.rn = rn self.rt = rt assert self.rn.num < 8 assert self.rt.num < 8 self.token = ThumbToken() def encode(self): Rn = self.rn.num Rt = self.rt.num imm5 = self.imm5 self.token[0:3] = Rt self.token[3:6] = Rn self.token[6:11] = imm5 self.token[11:16] = self.opcode return self.token.encode() def __repr__(self): mnemonic = "???" return '{} {}, [{}, {}]'.format(mnemonic, self.rt, self.rn, self.imm5) class Str2(LS_imm5_base): opcode = 0xC @classmethod def fromim(cls, im): return cls(im.src[1], im.src[0], im.others[0]) class Ldr2(LS_imm5_base): opcode = 0xD @classmethod def fromim(cls, im): return cls(im.dst[0], im.src[0], im.others[0]) class ls_sp_base_imm8(ThumbInstruction): def __init__(self, rt, offset): self.rt = rt self.offset = offset def encode(self): rt = self.rt.num assert rt < 8 imm8 = self.offset >> 2 assert imm8 < 256 h = (self.opcode << 8) | (rt << 8) | imm8 return u16(h) def __repr__(self): mnemonic = self.__class__.__name__ return '{} {}, [sp,#{}]'.format(mnemonic, self.rt, self.offset) def align(x, m): while ((x % m) != 0): x = x + 1 return x def Ldr(*args): if len(args) == 2 and isinstance(args[0], ArmRegister) \ and isinstance(args[1], str): return Ldr3(*args) else: raise Exception() class Ldr3(ThumbInstruction): """ ldr Rt, LABEL, load value from pc relative position """ mnemonic = 'ldr' def __init__(self, rt, label): self.rt = rt self.label = label @classmethod def fromim(cls, im): return cls(im.dst[0], im.others[0]) def relocations(self): return [(self.label, 'lit_add_8')] def encode(self): rt = self.rt.num assert rt < 8 imm8 = 0 h = (0x9 << 11) | (rt << 8) | imm8 return u16(h) def __repr__(self): return 'LDR {}, {}'.format(self.rt, self.label) class Ldr1(ls_sp_base_imm8): """ ldr Rt, [SP, imm8] """ opcode = 0x98 class Str1(ls_sp_base_imm8): """ str Rt, [SP, imm8] """ opcode = 0x90 class Mov3(ThumbInstruction): """ mov Rd, imm8, move immediate value into register """ opcode = 4 # 00100 Rd(3) imm8 def __init__(self, rd, imm): assert imm < 256 self.imm = imm self.rd = rd self.token = ThumbToken() @classmethod def fromim(cls, im): return cls(im.dst[0], im.others[0]) def encode(self): rd = self.rd.num self.token[8:11] = rd self.token[0:8] = self.imm self.token[11:16] = self.opcode return self.token.encode() def __repr__(self): return 'MOV {}, {}'.format(self.rd, self.imm) # Arithmatics: class regregimm3_base(ThumbInstruction): def __init__(self, rd, rn, imm3): self.rd = rd self.rn = rn assert imm3 < 8 self.imm3 = imm3 self.token = ThumbToken() @classmethod def fromim(cls, im): return cls(im.dst[0], im.src[0], im.others[0]) def encode(self): rd = self.rd.num self.token[0:3] = rd self.token[3:6] = self.rn.num self.token[6:9] = self.imm3 self.token[9:16] = self.opcode return self.token.encode() def __repr__(self): mnemonic = self.__class__.__name__ return '{} {}, {}, {}'.format(mnemonic, self.rd, self.rn, self.imm3) class Add2(regregimm3_base): """ add Rd, Rn, imm3 """ opcode = 0b0001110 class Sub2(regregimm3_base): """ sub Rd, Rn, imm3 """ opcode = 0b0001111 def Sub(*args): if len(args) == 3 and args[0] is SP and args[1] is SP and \ isinstance(args[2], int) and args[2] < 256: return SubSp(args[2]) elif len(args) == 3 and isinstance(args[0], ArmRegister) and \ isinstance(args[1], ArmRegister) and isinstance(args[2], int) and \ args[2] < 8: return Sub2(args[0], args[1], args[2]) else: raise Exception() def Add(*args): if len(args) == 3 and args[0] is SP and args[1] is SP and \ isinstance(args[2], int) and args[2] < 256: return AddSp(args[2]) elif len(args) == 3 and isinstance(args[0], ArmRegister) and \ isinstance(args[1], ArmRegister) and isinstance(args[2], int) and \ args[2] < 8: return Add2(args[0], args[1], args[2]) else: raise Exception() class regregreg_base(ThumbInstruction): """ ??? Rd, Rn, Rm """ def __init__(self, rd, rn, rm): self.rd = rd self.rn = rn self.rm = rm @classmethod def fromim(cls, im): return cls(im.dst[0], im.src[0], im.src[1]) def encode(self): at = ThumbToken() at.rd = self.rd.num rn = self.rn.num rm = self.rm.num at[3:6] = rn at[6:9] = rm at[9:16] = self.opcode return at.encode() def __repr__(self): return '{} {}, {}, {}'.format(self.mnemonic, self.rd, self.rn, self.rm) class Add3(regregreg_base): mnemonic = 'ADD' opcode = 0b0001100 class Sub3(regregreg_base): mnemonic = 'SUB' opcode = 0b0001101 class Mov2(ThumbInstruction): """ mov rd, rm """ mnemonic = 'MOV' def __init__(self, rd, rm): self.rd = rd self.rm = rm @classmethod def fromim(cls, im): return cls(im.dst[0], im.src[0]) def encode(self): at = ThumbToken() at.rd = self.rd.num & 0x7 D = (self.rd.num >> 3) & 0x1 Rm = self.rm.num opcode = 0b01000110 at[8:16] = opcode at[3:7] = Rm at[7] = D return at.encode() def __repr__(self): return '{} {}, {}'.format(self.mnemonic, self.rd, self.rm) class Mul(ThumbInstruction): """ mul Rn, Rdm """ mnemonic = 'MUL' def __init__(self, rn, rdm): self.rn = rn self.rdm = rdm @classmethod def fromim(cls, im): assert im.src[1] is im.dst[0] return cls(im.src[0], im.dst[0]) def encode(self): at = ThumbToken() rn = self.rn.num at.rd = self.rdm.num opcode = 0b0100001101 #h = (opcode << 6) | (rn << 3) | rdm at[6:16] = opcode at[3:6] = rn return at.encode() def __repr__(self): return '{} {}, {}'.format(self.mnemonic, self.rn, self.rdm) class regreg_base(ThumbInstruction): """ ??? Rdn, Rm """ def __init__(self, rdn, rm): self.rdn = rdn self.rm = rm @classmethod def fromim(cls, im): return cls(im.src[0], im.src[1]) def encode(self): at = ThumbToken() at.rd = self.rdn.num rm = self.rm.num at[3:6] = rm at[6:16] = self.opcode return at.encode() def __repr__(self): mnemonic = self.__class__.__name__ return '{} {}, {}'.format(mnemonic, self.rdn, self.rm) class movregreg_ins(regreg_base): """ mov Rd, Rm (reg8 operands) """ opcode = 0 class And(regreg_base): opcode = 0b0100000000 class Orr(regreg_base): opcode = 0b0100001100 class Cmp(regreg_base): opcode = 0b0100001010 class Lsl(regreg_base): opcode = 0b0100000010 class Cmp2(ThumbInstruction): """ cmp Rn, imm8 """ opcode = 5 # 00101 def __init__(self, rn, imm): self.rn = rn self.imm = imm def encode(self): at = ThumbToken() at[0:8] = self.imm at[8:11] = self.rn.num at[11:16] = self.opcode return at.encode() # Jumping: class jumpBase_ins(ThumbInstruction): def __init__(self, target_label): assert type(target_label) is str self.target = target_label self.offset = 0 def __repr__(self): mnemonic = self.__class__.__name__ return '{} {}'.format(mnemonic, self.target) class B(jumpBase_ins): def encode(self): h = (0b11100 << 11) | 0 # | 1 # 1 to enable thumb mode return u16(h) def relocations(self): return [(self.target, 'wrap_new11')] class Bl(jumpBase_ins): def encode(self): imm11 = 0 imm10 = 0 j1 = 1 # TODO: what do these mean? j2 = 1 s = 0 h1 = (0b11110 << 11) | (s << 10) | imm10 h2 = (0b1101 << 12) | (j1 << 13) | (j2 << 11) | imm11 return u16(h1) + u16(h2) def relocations(self): return [(self.target, 'bl_imm11_imm10')] class cond_base_ins(jumpBase_ins): def encode(self): imm8 = 0 h = (0b1101 << 12) | (self.cond << 8) | imm8 return u16(h) def relocations(self): return [(self.target, 'rel8')] class cond_base_ins_long(jumpBase_ins): """ Encoding T3 """ def encode(self): j1 = 1 # TODO: what do these mean? j2 = 1 h1 = (0b11110 << 11) | (self.cond << 6) h2 = (0b1101 << 12) | (j1 << 13) | (j2 << 11) return u16(h1) + u16(h2) def relocations(self): return [(self.target, 'b_imm11_imm6')] class Beq(cond_base_ins): cond = 0 class Bne(cond_base_ins): cond = 1 class Blt(cond_base_ins): cond = 0b1011 class Bgt(cond_base_ins): cond = 0b1100 class Push(ThumbInstruction): def __init__(self, regs): assert type(regs) is set self.regs = regs def __repr__(self): return 'Push {{{}}}'.format(self.regs) def encode(self): at = ThumbToken() for n in register_numbers(self.regs): if n < 8: at[n] = 1 elif n == 14: at[8] = 1 else: raise NotImplementedError('not implemented for {}'.format(n)) at[9:16] = 0x5a return at.encode() def register_numbers(regs): for r in regs: yield r.num class Pop(ThumbInstruction): def __init__(self, regs): assert type(regs) is set self.regs = regs self.token = ThumbToken() def __repr__(self): return 'Pop {{{}}}'.format(self.regs) def encode(self): for n in register_numbers(self.regs): if n < 8: self.token[n] = 1 elif n == 15: self.token[8] = 1 else: raise NotImplementedError('not implemented for this register') self.token[9:16] = 0x5E return self.token.encode() class Yield(ThumbInstruction): def encode(self): return u16(0xbf10) # misc: # add/sub SP: class addspsp_base(ThumbInstruction): def __init__(self, imm7): self.imm7 = imm7 assert self.imm7 % 4 == 0 self.imm7 >>= 2 def encode(self): return u16((self.opcode << 7) | self.imm7) def __repr__(self): mnemonic = self.__class__.__name__ return '{} sp, sp, {}'.format(mnemonic, self.imm7 << 2) class AddSp(addspsp_base): opcode = 0b101100000 class SubSp(addspsp_base): opcode = 0b101100001