"""Core data structures for compiled code templates.""" import dataclasses import enum import typing import _schema @enum.unique class HoleValue(enum.Enum): """ Different "base" values that can be patched into holes (usually combined with the address of a symbol and/or an addend). """ # The base address of the machine code for the current uop (exposed as _JIT_ENTRY): CODE = enum.auto() # The base address of the machine code for the next uop (exposed as _JIT_CONTINUE): CONTINUE = enum.auto() # The base address of the read-only data for this uop: DATA = enum.auto() # The address of the current executor (exposed as _JIT_EXECUTOR): EXECUTOR = enum.auto() # The base address of the "global" offset table located in the read-only data. # Shouldn't be present in the final stencils, since these are all replaced with # equivalent DATA values: GOT = enum.auto() # The current uop's oparg (exposed as _JIT_OPARG): OPARG = enum.auto() # The current uop's operand on 64-bit platforms (exposed as _JIT_OPERAND): OPERAND = enum.auto() # The current uop's operand on 32-bit platforms (exposed as _JIT_OPERAND_HI/LO): OPERAND_HI = enum.auto() OPERAND_LO = enum.auto() # The current uop's target (exposed as _JIT_TARGET): TARGET = enum.auto() # The base address of the machine code for the jump target (exposed as _JIT_JUMP_TARGET): JUMP_TARGET = enum.auto() # The base address of the machine code for the error jump target (exposed as _JIT_ERROR_TARGET): ERROR_TARGET = enum.auto() # A hardcoded value of zero (used for symbol lookups): ZERO = enum.auto() # Map relocation types to our JIT's patch functions. "r" suffixes indicate that # the patch function is relative. "x" suffixes indicate that they are "relaxing" # (see comments in jit.c for more info): _PATCH_FUNCS = { # aarch64-apple-darwin: "ARM64_RELOC_BRANCH26": "patch_aarch64_26r", "ARM64_RELOC_GOT_LOAD_PAGE21": "patch_aarch64_21rx", "ARM64_RELOC_GOT_LOAD_PAGEOFF12": "patch_aarch64_12x", "ARM64_RELOC_PAGE21": "patch_aarch64_21r", "ARM64_RELOC_PAGEOFF12": "patch_aarch64_12", "ARM64_RELOC_UNSIGNED": "patch_64", # x86_64-pc-windows-msvc: "IMAGE_REL_AMD64_REL32": "patch_x86_64_32rx", # aarch64-pc-windows-msvc: "IMAGE_REL_ARM64_BRANCH26": "patch_aarch64_26r", "IMAGE_REL_ARM64_PAGEBASE_REL21": "patch_aarch64_21rx", "IMAGE_REL_ARM64_PAGEOFFSET_12A": "patch_aarch64_12", "IMAGE_REL_ARM64_PAGEOFFSET_12L": "patch_aarch64_12x", # i686-pc-windows-msvc: "IMAGE_REL_I386_DIR32": "patch_32", "IMAGE_REL_I386_REL32": "patch_x86_64_32rx", # aarch64-unknown-linux-gnu: "R_AARCH64_ABS64": "patch_64", "R_AARCH64_ADD_ABS_LO12_NC": "patch_aarch64_12", "R_AARCH64_ADR_GOT_PAGE": "patch_aarch64_21rx", "R_AARCH64_ADR_PREL_PG_HI21": "patch_aarch64_21r", "R_AARCH64_CALL26": "patch_aarch64_26r", "R_AARCH64_JUMP26": "patch_aarch64_26r", "R_AARCH64_LD64_GOT_LO12_NC": "patch_aarch64_12x", "R_AARCH64_MOVW_UABS_G0_NC": "patch_aarch64_16a", "R_AARCH64_MOVW_UABS_G1_NC": "patch_aarch64_16b", "R_AARCH64_MOVW_UABS_G2_NC": "patch_aarch64_16c", "R_AARCH64_MOVW_UABS_G3": "patch_aarch64_16d", # x86_64-unknown-linux-gnu: "R_X86_64_64": "patch_64", "R_X86_64_GOTPCREL": "patch_32r", "R_X86_64_GOTPCRELX": "patch_x86_64_32rx", "R_X86_64_PC32": "patch_32r", "R_X86_64_REX_GOTPCRELX": "patch_x86_64_32rx", # x86_64-apple-darwin: "X86_64_RELOC_BRANCH": "patch_32r", "X86_64_RELOC_GOT": "patch_x86_64_32rx", "X86_64_RELOC_GOT_LOAD": "patch_x86_64_32rx", "X86_64_RELOC_SIGNED": "patch_32r", "X86_64_RELOC_UNSIGNED": "patch_64", } # Translate HoleValues to C expressions: _HOLE_EXPRS = { HoleValue.CODE: "(uintptr_t)code", HoleValue.CONTINUE: "(uintptr_t)code + sizeof(code_body)", HoleValue.DATA: "(uintptr_t)data", HoleValue.EXECUTOR: "(uintptr_t)executor", # These should all have been turned into DATA values by process_relocations: # HoleValue.GOT: "", HoleValue.OPARG: "instruction->oparg", HoleValue.OPERAND: "instruction->operand", HoleValue.OPERAND_HI: "(instruction->operand >> 32)", HoleValue.OPERAND_LO: "(instruction->operand & UINT32_MAX)", HoleValue.TARGET: "instruction->target", HoleValue.JUMP_TARGET: "state->instruction_starts[instruction->jump_target]", HoleValue.ERROR_TARGET: "state->instruction_starts[instruction->error_target]", HoleValue.ZERO: "", } @dataclasses.dataclass class Hole: """ A "hole" in the stencil to be patched with a computed runtime value. Analogous to relocation records in an object file. """ offset: int kind: _schema.HoleKind # Patch with this base value: value: HoleValue # ...plus the address of this symbol: symbol: str | None # ...plus this addend: addend: int need_state: bool = False func: str = dataclasses.field(init=False) # Convenience method: replace = dataclasses.replace def __post_init__(self) -> None: self.func = _PATCH_FUNCS[self.kind] def fold(self, other: typing.Self) -> typing.Self | None: """Combine two holes into a single hole, if possible.""" if ( self.offset + 4 == other.offset and self.value == other.value and self.symbol == other.symbol and self.addend == other.addend and self.func == "patch_aarch64_21rx" and other.func == "patch_aarch64_12x" ): # These can *only* be properly relaxed when they appear together and # patch the same value: folded = self.replace() folded.func = "patch_aarch64_33rx" return folded return None def as_c(self, where: str) -> str: """Dump this hole as a call to a patch_* function.""" location = f"{where} + {self.offset:#x}" value = _HOLE_EXPRS[self.value] if self.symbol: if value: value += " + " value += f"(uintptr_t)&{self.symbol}" if _signed(self.addend) or not value: if value: value += " + " value += f"{_signed(self.addend):#x}" if self.need_state: return f"{self.func}({location}, {value}, state);" return f"{self.func}({location}, {value});" @dataclasses.dataclass class Stencil: """ A contiguous block of machine code or data to be copied-and-patched. Analogous to a section or segment in an object file. """ body: bytearray = dataclasses.field(default_factory=bytearray, init=False) holes: list[Hole] = dataclasses.field(default_factory=list, init=False) disassembly: list[str] = dataclasses.field(default_factory=list, init=False) def pad(self, alignment: int) -> None: """Pad the stencil to the given alignment.""" offset = len(self.body) padding = -offset % alignment self.disassembly.append(f"{offset:x}: {' '.join(['00'] * padding)}") self.body.extend([0] * padding) def remove_jump(self, *, alignment: int = 1) -> None: """Remove a zero-length continuation jump, if it exists.""" hole = max(self.holes, key=lambda hole: hole.offset) match hole: case Hole( offset=offset, kind="IMAGE_REL_AMD64_REL32", value=HoleValue.GOT, symbol="_JIT_CONTINUE", addend=-4, ) as hole: # jmp qword ptr [rip] jump = b"\x48\xFF\x25\x00\x00\x00\x00" offset -= 3 case Hole( offset=offset, kind="IMAGE_REL_I386_REL32" | "X86_64_RELOC_BRANCH", value=HoleValue.CONTINUE, symbol=None, addend=-4, ) as hole: # jmp 5 jump = b"\xE9\x00\x00\x00\x00" offset -= 1 case Hole( offset=offset, kind="R_AARCH64_JUMP26", value=HoleValue.CONTINUE, symbol=None, addend=0, ) as hole: # b #4 jump = b"\x00\x00\x00\x14" case Hole( offset=offset, kind="R_X86_64_GOTPCRELX", value=HoleValue.GOT, symbol="_JIT_CONTINUE", addend=addend, ) as hole: assert _signed(addend) == -4 # jmp qword ptr [rip] jump = b"\xFF\x25\x00\x00\x00\x00" offset -= 2 case _: return if self.body[offset:] == jump and offset % alignment == 0: self.body = self.body[:offset] self.holes.remove(hole) @dataclasses.dataclass class StencilGroup: """ Code and data corresponding to a given micro-opcode. Analogous to an entire object file. """ code: Stencil = dataclasses.field(default_factory=Stencil, init=False) data: Stencil = dataclasses.field(default_factory=Stencil, init=False) symbols: dict[int | str, tuple[HoleValue, int]] = dataclasses.field( default_factory=dict, init=False ) _got: dict[str, int] = dataclasses.field(default_factory=dict, init=False) _trampolines: set[int] = dataclasses.field(default_factory=set, init=False) def process_relocations( self, known_symbols: dict[str, int], *, alignment: int = 1, ) -> None: """Fix up all GOT and internal relocations for this stencil group.""" for hole in self.code.holes.copy(): if ( hole.kind in {"R_AARCH64_CALL26", "R_AARCH64_JUMP26", "ARM64_RELOC_BRANCH26"} and hole.value is HoleValue.ZERO ): hole.func = "patch_aarch64_trampoline" hole.need_state = True assert hole.symbol is not None if hole.symbol in known_symbols: ordinal = known_symbols[hole.symbol] else: ordinal = len(known_symbols) known_symbols[hole.symbol] = ordinal self._trampolines.add(ordinal) hole.addend = ordinal hole.symbol = None self.code.remove_jump(alignment=alignment) self.code.pad(alignment) self.data.pad(8) for stencil in [self.code, self.data]: for hole in stencil.holes: if hole.value is HoleValue.GOT: assert hole.symbol is not None hole.value = HoleValue.DATA hole.addend += self._global_offset_table_lookup(hole.symbol) hole.symbol = None elif hole.symbol in self.symbols: hole.value, addend = self.symbols[hole.symbol] hole.addend += addend hole.symbol = None elif ( hole.kind in {"IMAGE_REL_AMD64_REL32"} and hole.value is HoleValue.ZERO ): raise ValueError( f"Add PyAPI_FUNC(...) or PyAPI_DATA(...) to declaration of {hole.symbol}!" ) self._emit_global_offset_table() self.code.holes.sort(key=lambda hole: hole.offset) self.data.holes.sort(key=lambda hole: hole.offset) def _global_offset_table_lookup(self, symbol: str) -> int: return len(self.data.body) + self._got.setdefault(symbol, 8 * len(self._got)) def _emit_global_offset_table(self) -> None: got = len(self.data.body) for s, offset in self._got.items(): if s in self.symbols: value, addend = self.symbols[s] symbol = None else: value, symbol = symbol_to_value(s) addend = 0 self.data.holes.append( Hole(got + offset, "R_X86_64_64", value, symbol, addend) ) value_part = value.name if value is not HoleValue.ZERO else "" if value_part and not symbol and not addend: addend_part = "" else: signed = "+" if symbol is not None else "" addend_part = f"&{symbol}" if symbol else "" addend_part += f"{_signed(addend):{signed}#x}" if value_part: value_part += "+" self.data.disassembly.append( f"{len(self.data.body):x}: {value_part}{addend_part}" ) self.data.body.extend([0] * 8) def _get_trampoline_mask(self) -> str: bitmask: int = 0 trampoline_mask: list[str] = [] for ordinal in self._trampolines: bitmask |= 1 << ordinal while bitmask: word = bitmask & ((1 << 32) - 1) trampoline_mask.append(f"{word:#04x}") bitmask >>= 32 return "{" + ", ".join(trampoline_mask) + "}" def as_c(self, opname: str) -> str: """Dump this hole as a StencilGroup initializer.""" return f"{{emit_{opname}, {len(self.code.body)}, {len(self.data.body)}, {self._get_trampoline_mask()}}}" def symbol_to_value(symbol: str) -> tuple[HoleValue, str | None]: """ Convert a symbol name to a HoleValue and a symbol name. Some symbols (starting with "_JIT_") are special and are converted to their own HoleValues. """ if symbol.startswith("_JIT_"): try: return HoleValue[symbol.removeprefix("_JIT_")], None except KeyError: pass return HoleValue.ZERO, symbol def _signed(value: int) -> int: value %= 1 << 64 if value & (1 << 63): value -= 1 << 64 return value