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mpy-tool.py
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mpy-tool.py
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#!/usr/bin/env python3
#
# This file is part of the MicroPython project, http://micropython.org/
#
# The MIT License (MIT)
#
# Copyright (c) 2016-2019 Damien P. George
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
# Python 2/3 compatibility code
from __future__ import print_function
import platform
if platform.python_version_tuple()[0] == "2":
from binascii import hexlify as hexlify_py2
str_cons = lambda val, enc=None: str(val)
bytes_cons = lambda val, enc=None: bytearray(val)
is_str_type = lambda o: isinstance(o, str)
is_bytes_type = lambda o: type(o) is bytearray
is_int_type = lambda o: isinstance(o, int) or isinstance(o, long) # noqa: F821
def hexlify_to_str(b):
x = hexlify_py2(b)
return ":".join(x[i : i + 2] for i in range(0, len(x), 2))
else:
from binascii import hexlify
str_cons = str
bytes_cons = bytes
is_str_type = lambda o: isinstance(o, str)
is_bytes_type = lambda o: isinstance(o, bytes)
is_int_type = lambda o: isinstance(o, int)
def hexlify_to_str(b):
return str(hexlify(b, ":"), "ascii")
# end compatibility code
import sys
import struct
sys.path.append(sys.path[0] + "/../py")
import makeqstrdata as qstrutil
# Threshold of str length below which it will be turned into a qstr when freezing.
# This helps to reduce frozen code size because qstrs are more efficient to encode
# as objects than full mp_obj_str_t instances.
PERSISTENT_STR_INTERN_THRESHOLD = 25
class MPYReadError(Exception):
def __init__(self, filename, msg):
self.filename = filename
self.msg = msg
def __str__(self):
return "%s: %s" % (self.filename, self.msg)
class FreezeError(Exception):
def __init__(self, rawcode, msg):
self.rawcode = rawcode
self.msg = msg
def __str__(self):
return "error while freezing %s: %s" % (self.rawcode.source_file, self.msg)
class Config:
MPY_VERSION = 6
MPY_SUB_VERSION = 3
MICROPY_LONGINT_IMPL_NONE = 0
MICROPY_LONGINT_IMPL_LONGLONG = 1
MICROPY_LONGINT_IMPL_MPZ = 2
config = Config()
MP_CODE_BYTECODE = 2
MP_CODE_NATIVE_PY = 3
MP_CODE_NATIVE_VIPER = 4
MP_CODE_NATIVE_ASM = 5
MP_NATIVE_ARCH_NONE = 0
MP_NATIVE_ARCH_X86 = 1
MP_NATIVE_ARCH_X64 = 2
MP_NATIVE_ARCH_ARMV6 = 3
MP_NATIVE_ARCH_ARMV6M = 4
MP_NATIVE_ARCH_ARMV7M = 5
MP_NATIVE_ARCH_ARMV7EM = 6
MP_NATIVE_ARCH_ARMV7EMSP = 7
MP_NATIVE_ARCH_ARMV7EMDP = 8
MP_NATIVE_ARCH_XTENSA = 9
MP_NATIVE_ARCH_XTENSAWIN = 10
MP_PERSISTENT_OBJ_FUN_TABLE = 0
MP_PERSISTENT_OBJ_NONE = 1
MP_PERSISTENT_OBJ_FALSE = 2
MP_PERSISTENT_OBJ_TRUE = 3
MP_PERSISTENT_OBJ_ELLIPSIS = 4
MP_PERSISTENT_OBJ_STR = 5
MP_PERSISTENT_OBJ_BYTES = 6
MP_PERSISTENT_OBJ_INT = 7
MP_PERSISTENT_OBJ_FLOAT = 8
MP_PERSISTENT_OBJ_COMPLEX = 9
MP_PERSISTENT_OBJ_TUPLE = 10
MP_SCOPE_FLAG_GENERATOR = 0x01
MP_SCOPE_FLAG_VIPERRELOC = 0x10
MP_SCOPE_FLAG_VIPERRODATA = 0x20
MP_SCOPE_FLAG_VIPERBSS = 0x40
MP_BC_MASK_EXTRA_BYTE = 0x9E
MP_BC_FORMAT_BYTE = 0
MP_BC_FORMAT_QSTR = 1
MP_BC_FORMAT_VAR_UINT = 2
MP_BC_FORMAT_OFFSET = 3
mp_unary_op_method_name = (
"__pos__",
"__neg__",
"__invert__",
"<not>",
)
mp_binary_op_method_name = (
"__lt__",
"__gt__",
"__eq__",
"__le__",
"__ge__",
"__ne__",
"<in>",
"<is>",
"<exception match>",
"__ior__",
"__ixor__",
"__iand__",
"__ilshift__",
"__irshift__",
"__iadd__",
"__isub__",
"__imul__",
"__imatmul__",
"__ifloordiv__",
"__itruediv__",
"__imod__",
"__ipow__",
"__or__",
"__xor__",
"__and__",
"__lshift__",
"__rshift__",
"__add__",
"__sub__",
"__mul__",
"__matmul__",
"__floordiv__",
"__truediv__",
"__mod__",
"__pow__",
)
class Opcode:
# fmt: off
# Load, Store, Delete, Import, Make, Build, Unpack, Call, Jump, Exception, For, sTack, Return, Yield, Op
MP_BC_BASE_RESERVED = (0x00) # ----------------
MP_BC_BASE_QSTR_O = (0x10) # LLLLLLSSSDDII---
MP_BC_BASE_VINT_E = (0x20) # MMLLLLSSDDBBBBBB
MP_BC_BASE_VINT_O = (0x30) # UUMMCCCC--------
MP_BC_BASE_JUMP_E = (0x40) # J-JJJJJEEEEF----
MP_BC_BASE_BYTE_O = (0x50) # LLLLSSDTTTTTEEFF
MP_BC_BASE_BYTE_E = (0x60) # --BREEEYYI------
MP_BC_LOAD_CONST_SMALL_INT_MULTI = (0x70) # LLLLLLLLLLLLLLLL
# = (0x80) # LLLLLLLLLLLLLLLL
# = (0x90) # LLLLLLLLLLLLLLLL
# = (0xa0) # LLLLLLLLLLLLLLLL
MP_BC_LOAD_FAST_MULTI = (0xb0) # LLLLLLLLLLLLLLLL
MP_BC_STORE_FAST_MULTI = (0xc0) # SSSSSSSSSSSSSSSS
MP_BC_UNARY_OP_MULTI = (0xd0) # OOOOOOO
MP_BC_BINARY_OP_MULTI = (0xd7) # OOOOOOOOO
# = (0xe0) # OOOOOOOOOOOOOOOO
# = (0xf0) # OOOOOOOOOO------
MP_BC_LOAD_CONST_SMALL_INT_MULTI_NUM = 64
MP_BC_LOAD_CONST_SMALL_INT_MULTI_EXCESS = 16
MP_BC_LOAD_FAST_MULTI_NUM = 16
MP_BC_STORE_FAST_MULTI_NUM = 16
MP_BC_UNARY_OP_MULTI_NUM = 4 # MP_UNARY_OP_NUM_BYTECODE
MP_BC_BINARY_OP_MULTI_NUM = 35 # MP_BINARY_OP_NUM_BYTECODE
MP_BC_LOAD_CONST_FALSE = (MP_BC_BASE_BYTE_O + 0x00)
MP_BC_LOAD_CONST_NONE = (MP_BC_BASE_BYTE_O + 0x01)
MP_BC_LOAD_CONST_TRUE = (MP_BC_BASE_BYTE_O + 0x02)
MP_BC_LOAD_CONST_SMALL_INT = (MP_BC_BASE_VINT_E + 0x02) # signed var-int
MP_BC_LOAD_CONST_STRING = (MP_BC_BASE_QSTR_O + 0x00) # qstr
MP_BC_LOAD_CONST_OBJ = (MP_BC_BASE_VINT_E + 0x03) # ptr
MP_BC_LOAD_NULL = (MP_BC_BASE_BYTE_O + 0x03)
MP_BC_LOAD_FAST_N = (MP_BC_BASE_VINT_E + 0x04) # uint
MP_BC_LOAD_DEREF = (MP_BC_BASE_VINT_E + 0x05) # uint
MP_BC_LOAD_NAME = (MP_BC_BASE_QSTR_O + 0x01) # qstr
MP_BC_LOAD_GLOBAL = (MP_BC_BASE_QSTR_O + 0x02) # qstr
MP_BC_LOAD_ATTR = (MP_BC_BASE_QSTR_O + 0x03) # qstr
MP_BC_LOAD_METHOD = (MP_BC_BASE_QSTR_O + 0x04) # qstr
MP_BC_LOAD_SUPER_METHOD = (MP_BC_BASE_QSTR_O + 0x05) # qstr
MP_BC_LOAD_BUILD_CLASS = (MP_BC_BASE_BYTE_O + 0x04)
MP_BC_LOAD_SUBSCR = (MP_BC_BASE_BYTE_O + 0x05)
MP_BC_STORE_FAST_N = (MP_BC_BASE_VINT_E + 0x06) # uint
MP_BC_STORE_DEREF = (MP_BC_BASE_VINT_E + 0x07) # uint
MP_BC_STORE_NAME = (MP_BC_BASE_QSTR_O + 0x06) # qstr
MP_BC_STORE_GLOBAL = (MP_BC_BASE_QSTR_O + 0x07) # qstr
MP_BC_STORE_ATTR = (MP_BC_BASE_QSTR_O + 0x08) # qstr
MP_BC_STORE_SUBSCR = (MP_BC_BASE_BYTE_O + 0x06)
MP_BC_DELETE_FAST = (MP_BC_BASE_VINT_E + 0x08) # uint
MP_BC_DELETE_DEREF = (MP_BC_BASE_VINT_E + 0x09) # uint
MP_BC_DELETE_NAME = (MP_BC_BASE_QSTR_O + 0x09) # qstr
MP_BC_DELETE_GLOBAL = (MP_BC_BASE_QSTR_O + 0x0a) # qstr
MP_BC_DUP_TOP = (MP_BC_BASE_BYTE_O + 0x07)
MP_BC_DUP_TOP_TWO = (MP_BC_BASE_BYTE_O + 0x08)
MP_BC_POP_TOP = (MP_BC_BASE_BYTE_O + 0x09)
MP_BC_ROT_TWO = (MP_BC_BASE_BYTE_O + 0x0a)
MP_BC_ROT_THREE = (MP_BC_BASE_BYTE_O + 0x0b)
MP_BC_UNWIND_JUMP = (MP_BC_BASE_JUMP_E + 0x00) # signed relative bytecode offset; then a byte
MP_BC_JUMP = (MP_BC_BASE_JUMP_E + 0x02) # signed relative bytecode offset
MP_BC_POP_JUMP_IF_TRUE = (MP_BC_BASE_JUMP_E + 0x03) # signed relative bytecode offset
MP_BC_POP_JUMP_IF_FALSE = (MP_BC_BASE_JUMP_E + 0x04) # signed relative bytecode offset
MP_BC_JUMP_IF_TRUE_OR_POP = (MP_BC_BASE_JUMP_E + 0x05) # unsigned relative bytecode offset
MP_BC_JUMP_IF_FALSE_OR_POP = (MP_BC_BASE_JUMP_E + 0x06) # unsigned relative bytecode offset
MP_BC_SETUP_WITH = (MP_BC_BASE_JUMP_E + 0x07) # unsigned relative bytecode offset
MP_BC_SETUP_EXCEPT = (MP_BC_BASE_JUMP_E + 0x08) # unsigned relative bytecode offset
MP_BC_SETUP_FINALLY = (MP_BC_BASE_JUMP_E + 0x09) # unsigned relative bytecode offset
MP_BC_POP_EXCEPT_JUMP = (MP_BC_BASE_JUMP_E + 0x0a) # unsigned relative bytecode offset
MP_BC_FOR_ITER = (MP_BC_BASE_JUMP_E + 0x0b) # unsigned relative bytecode offset
MP_BC_WITH_CLEANUP = (MP_BC_BASE_BYTE_O + 0x0c)
MP_BC_END_FINALLY = (MP_BC_BASE_BYTE_O + 0x0d)
MP_BC_GET_ITER = (MP_BC_BASE_BYTE_O + 0x0e)
MP_BC_GET_ITER_STACK = (MP_BC_BASE_BYTE_O + 0x0f)
MP_BC_BUILD_TUPLE = (MP_BC_BASE_VINT_E + 0x0a) # uint
MP_BC_BUILD_LIST = (MP_BC_BASE_VINT_E + 0x0b) # uint
MP_BC_BUILD_MAP = (MP_BC_BASE_VINT_E + 0x0c) # uint
MP_BC_STORE_MAP = (MP_BC_BASE_BYTE_E + 0x02)
MP_BC_BUILD_SET = (MP_BC_BASE_VINT_E + 0x0d) # uint
MP_BC_BUILD_SLICE = (MP_BC_BASE_VINT_E + 0x0e) # uint
MP_BC_STORE_COMP = (MP_BC_BASE_VINT_E + 0x0f) # uint
MP_BC_UNPACK_SEQUENCE = (MP_BC_BASE_VINT_O + 0x00) # uint
MP_BC_UNPACK_EX = (MP_BC_BASE_VINT_O + 0x01) # uint
MP_BC_RETURN_VALUE = (MP_BC_BASE_BYTE_E + 0x03)
MP_BC_RAISE_LAST = (MP_BC_BASE_BYTE_E + 0x04)
MP_BC_RAISE_OBJ = (MP_BC_BASE_BYTE_E + 0x05)
MP_BC_RAISE_FROM = (MP_BC_BASE_BYTE_E + 0x06)
MP_BC_YIELD_VALUE = (MP_BC_BASE_BYTE_E + 0x07)
MP_BC_YIELD_FROM = (MP_BC_BASE_BYTE_E + 0x08)
MP_BC_MAKE_FUNCTION = (MP_BC_BASE_VINT_O + 0x02) # uint
MP_BC_MAKE_FUNCTION_DEFARGS = (MP_BC_BASE_VINT_O + 0x03) # uint
MP_BC_MAKE_CLOSURE = (MP_BC_BASE_VINT_E + 0x00) # uint; extra byte
MP_BC_MAKE_CLOSURE_DEFARGS = (MP_BC_BASE_VINT_E + 0x01) # uint; extra byte
MP_BC_CALL_FUNCTION = (MP_BC_BASE_VINT_O + 0x04) # uint
MP_BC_CALL_FUNCTION_VAR_KW = (MP_BC_BASE_VINT_O + 0x05) # uint
MP_BC_CALL_METHOD = (MP_BC_BASE_VINT_O + 0x06) # uint
MP_BC_CALL_METHOD_VAR_KW = (MP_BC_BASE_VINT_O + 0x07) # uint
MP_BC_IMPORT_NAME = (MP_BC_BASE_QSTR_O + 0x0b) # qstr
MP_BC_IMPORT_FROM = (MP_BC_BASE_QSTR_O + 0x0c) # qstr
MP_BC_IMPORT_STAR = (MP_BC_BASE_BYTE_E + 0x09)
# fmt: on
# Create sets of related opcodes.
ALL_OFFSET_SIGNED = (
MP_BC_UNWIND_JUMP,
MP_BC_JUMP,
MP_BC_POP_JUMP_IF_TRUE,
MP_BC_POP_JUMP_IF_FALSE,
)
# Create a dict mapping opcode value to opcode name.
mapping = ["unknown" for _ in range(256)]
for op_name in list(locals()):
if op_name.startswith("MP_BC_"):
mapping[locals()[op_name]] = op_name[len("MP_BC_") :]
for i in range(MP_BC_LOAD_CONST_SMALL_INT_MULTI_NUM):
name = "LOAD_CONST_SMALL_INT %d" % (i - MP_BC_LOAD_CONST_SMALL_INT_MULTI_EXCESS)
mapping[MP_BC_LOAD_CONST_SMALL_INT_MULTI + i] = name
for i in range(MP_BC_LOAD_FAST_MULTI_NUM):
mapping[MP_BC_LOAD_FAST_MULTI + i] = "LOAD_FAST %d" % i
for i in range(MP_BC_STORE_FAST_MULTI_NUM):
mapping[MP_BC_STORE_FAST_MULTI + i] = "STORE_FAST %d" % i
for i in range(MP_BC_UNARY_OP_MULTI_NUM):
mapping[MP_BC_UNARY_OP_MULTI + i] = "UNARY_OP %d %s" % (i, mp_unary_op_method_name[i])
for i in range(MP_BC_BINARY_OP_MULTI_NUM):
mapping[MP_BC_BINARY_OP_MULTI + i] = "BINARY_OP %d %s" % (i, mp_binary_op_method_name[i])
def __init__(self, offset, fmt, opcode_byte, arg, extra_arg):
self.offset = offset
self.fmt = fmt
self.opcode_byte = opcode_byte
self.arg = arg
self.extra_arg = extra_arg
# This definition of a small int covers all possible targets, in the sense that every
# target can encode as a small int, an integer that passes this test. The minimum is set
# by MICROPY_OBJ_REPR_B on a 16-bit machine, where there are 14 bits for the small int.
def mp_small_int_fits(i):
return -0x2000 <= i <= 0x1FFF
def mp_encode_uint(val, signed=False):
encoded = bytearray([val & 0x7F])
val >>= 7
while val != 0 and val != -1:
encoded.insert(0, 0x80 | (val & 0x7F))
val >>= 7
if signed:
if val == -1 and encoded[0] & 0x40 == 0:
encoded.insert(0, 0xFF)
elif val == 0 and encoded[0] & 0x40 != 0:
encoded.insert(0, 0x80)
return encoded
def mp_opcode_decode(bytecode, ip):
opcode = bytecode[ip]
ip_start = ip
f = (0x000003A4 >> (2 * ((opcode) >> 4))) & 3
ip += 1
arg = None
extra_arg = None
if f in (MP_BC_FORMAT_QSTR, MP_BC_FORMAT_VAR_UINT):
arg = bytecode[ip] & 0x7F
if opcode == Opcode.MP_BC_LOAD_CONST_SMALL_INT and arg & 0x40 != 0:
arg |= -1 << 7
while bytecode[ip] & 0x80 != 0:
ip += 1
arg = arg << 7 | bytecode[ip] & 0x7F
ip += 1
elif f == MP_BC_FORMAT_OFFSET:
if bytecode[ip] & 0x80 == 0:
arg = bytecode[ip]
ip += 1
if opcode in Opcode.ALL_OFFSET_SIGNED:
arg -= 0x40
else:
arg = bytecode[ip] & 0x7F | bytecode[ip + 1] << 7
ip += 2
if opcode in Opcode.ALL_OFFSET_SIGNED:
arg -= 0x4000
if opcode & MP_BC_MASK_EXTRA_BYTE == 0:
extra_arg = bytecode[ip]
ip += 1
return f, ip - ip_start, arg, extra_arg
def mp_opcode_encode(opcode):
overflow = False
encoded = bytearray([opcode.opcode_byte])
if opcode.fmt in (MP_BC_FORMAT_QSTR, MP_BC_FORMAT_VAR_UINT):
signed = opcode.opcode_byte == Opcode.MP_BC_LOAD_CONST_SMALL_INT
encoded.extend(mp_encode_uint(opcode.arg, signed))
elif opcode.fmt == MP_BC_FORMAT_OFFSET:
is_signed = opcode.opcode_byte in Opcode.ALL_OFFSET_SIGNED
# The -2 accounts for this jump opcode taking 2 bytes (at least).
bytecode_offset = opcode.target.offset - opcode.offset - 2
# Check if the bytecode_offset is small enough to use a 1-byte encoding.
if (is_signed and -64 <= bytecode_offset <= 63) or (
not is_signed and bytecode_offset <= 127
):
# Use a 1-byte jump offset.
if is_signed:
bytecode_offset += 0x40
overflow = not (0 <= bytecode_offset <= 0x7F)
encoded.append(bytecode_offset & 0x7F)
else:
bytecode_offset -= 1
if is_signed:
bytecode_offset += 0x4000
overflow = not (0 <= bytecode_offset <= 0x7FFF)
encoded.append(0x80 | (bytecode_offset & 0x7F))
encoded.append((bytecode_offset >> 7) & 0xFF)
if opcode.extra_arg is not None:
encoded.append(opcode.extra_arg)
return overflow, encoded
def read_prelude_sig(read_byte):
z = read_byte()
# xSSSSEAA
S = (z >> 3) & 0xF
E = (z >> 2) & 0x1
F = 0
A = z & 0x3
K = 0
D = 0
n = 0
while z & 0x80:
z = read_byte()
# xFSSKAED
S |= (z & 0x30) << (2 * n)
E |= (z & 0x02) << n
F |= ((z & 0x40) >> 6) << n
A |= (z & 0x4) << n
K |= ((z & 0x08) >> 3) << n
D |= (z & 0x1) << n
n += 1
S += 1
return S, E, F, A, K, D
def read_prelude_size(read_byte):
I = 0
C = 0
n = 0
while True:
z = read_byte()
# xIIIIIIC
I |= ((z & 0x7E) >> 1) << (6 * n)
C |= (z & 1) << n
if not (z & 0x80):
break
n += 1
return I, C
# See py/bc.h:MP_BC_PRELUDE_SIZE_ENCODE macro.
def encode_prelude_size(I, C):
# Encode bit-wise as: xIIIIIIC
encoded = bytearray()
while True:
z = (I & 0x3F) << 1 | (C & 1)
C >>= 1
I >>= 6
if C | I:
z |= 0x80
encoded.append(z)
if not C | I:
return encoded
def extract_prelude(bytecode, ip):
def local_read_byte():
b = bytecode[ip_ref[0]]
ip_ref[0] += 1
return b
ip_ref = [ip] # to close over ip in Python 2 and 3
# Read prelude signature.
(
n_state,
n_exc_stack,
scope_flags,
n_pos_args,
n_kwonly_args,
n_def_pos_args,
) = read_prelude_sig(local_read_byte)
offset_prelude_size = ip_ref[0]
# Read prelude size.
n_info, n_cell = read_prelude_size(local_read_byte)
offset_source_info = ip_ref[0]
# Extract simple_name and argument qstrs (var uints).
args = []
for arg_num in range(1 + n_pos_args + n_kwonly_args):
value = 0
while True:
b = local_read_byte()
value = (value << 7) | (b & 0x7F)
if b & 0x80 == 0:
break
args.append(value)
offset_line_info = ip_ref[0]
offset_closure_info = offset_source_info + n_info
offset_opcodes = offset_source_info + n_info + n_cell
return (
offset_prelude_size,
offset_source_info,
offset_line_info,
offset_closure_info,
offset_opcodes,
(n_state, n_exc_stack, scope_flags, n_pos_args, n_kwonly_args, n_def_pos_args),
(n_info, n_cell),
args,
)
class QStrType:
def __init__(self, str):
self.str = str
self.qstr_esc = qstrutil.qstr_escape(self.str)
self.qstr_id = "MP_QSTR_" + self.qstr_esc
class GlobalQStrList:
def __init__(self):
# Initialise global list of qstrs with static qstrs
self.qstrs = [None] # MP_QSTRnull should never be referenced
for n in qstrutil.static_qstr_list:
self.qstrs.append(QStrType(n))
def add(self, s):
q = QStrType(s)
self.qstrs.append(q)
return q
def get_by_index(self, i):
return self.qstrs[i]
def find_by_str(self, s):
for q in self.qstrs:
if q is not None and q.str == s:
return q
return None
class MPFunTable:
def __repr__(self):
return "mp_fun_table"
class CompiledModule:
def __init__(
self,
mpy_source_file,
mpy_segments,
header,
qstr_table,
obj_table,
raw_code,
qstr_table_file_offset,
obj_table_file_offset,
raw_code_file_offset,
escaped_name,
):
self.mpy_source_file = mpy_source_file
self.mpy_segments = mpy_segments
self.source_file = qstr_table[0]
self.header = header
self.qstr_table = qstr_table
self.obj_table = obj_table
self.raw_code = raw_code
self.qstr_table_file_offset = qstr_table_file_offset
self.obj_table_file_offset = obj_table_file_offset
self.raw_code_file_offset = raw_code_file_offset
self.escaped_name = escaped_name
def hexdump(self):
with open(self.mpy_source_file, "rb") as f:
WIDTH = 16
COL_OFF = "\033[0m"
COL_TABLE = (
("", ""), # META
("\033[0;31m", "\033[0;91m"), # QSTR
("\033[0;32m", "\033[0;92m"), # OBJ
("\033[0;34m", "\033[0;94m"), # CODE
)
cur_col = ""
cur_col_index = 0
offset = 0
segment_index = 0
while True:
data = bytes_cons(f.read(WIDTH))
if not data:
break
# Print out the hex dump of this line of data.
line_hex = cur_col
line_chr = cur_col
line_comment = ""
for i in range(len(data)):
# Determine the colour of the data, if any, and the line comment.
while segment_index < len(self.mpy_segments):
if offset + i == self.mpy_segments[segment_index].start:
cur_col = COL_TABLE[self.mpy_segments[segment_index].kind][
cur_col_index
]
cur_col_index = 1 - cur_col_index
line_hex += cur_col
line_chr += cur_col
line_comment += " %s%s%s" % (
cur_col,
self.mpy_segments[segment_index].name,
COL_OFF,
)
if offset + i == self.mpy_segments[segment_index].end:
cur_col = ""
line_hex += COL_OFF
line_chr += COL_OFF
segment_index += 1
else:
break
# Add to the hex part of the line.
if i % 2 == 0:
line_hex += " "
line_hex += "%02x" % data[i]
# Add to the characters part of the line.
if 0x20 <= data[i] <= 0x7E:
line_chr += "%s" % chr(data[i])
else:
line_chr += "."
# Print out this line.
if cur_col:
line_hex += COL_OFF
line_chr += COL_OFF
pad = " " * ((WIDTH - len(data)) * 5 // 2)
print("%08x:%s%s %s %s" % (offset, line_hex, pad, line_chr, line_comment))
offset += WIDTH
def disassemble(self):
print("mpy_source_file:", self.mpy_source_file)
print("source_file:", self.source_file.str)
print("header:", hexlify_to_str(self.header))
print("qstr_table[%u]:" % len(self.qstr_table))
for q in self.qstr_table:
print(" %s" % q.str)
print("obj_table:", self.obj_table)
self.raw_code.disassemble()
def freeze(self, compiled_module_index):
print()
print("/" * 80)
print("// frozen module %s" % self.escaped_name)
print("// - original source file: %s" % self.mpy_source_file)
print("// - frozen file name: %s" % self.source_file.str)
print("// - .mpy header: %s" % ":".join("%02x" % b for b in self.header))
print()
self.raw_code.freeze()
print()
self.freeze_constants()
print()
print("static const mp_frozen_module_t frozen_module_%s = {" % self.escaped_name)
print(" .constants = {")
if len(self.qstr_table):
print(
" .qstr_table = (qstr_short_t *)&const_qstr_table_data_%s,"
% self.escaped_name
)
else:
print(" .qstr_table = NULL,")
if len(self.obj_table):
print(" .obj_table = (mp_obj_t *)&const_obj_table_data_%s," % self.escaped_name)
else:
print(" .obj_table = NULL,")
print(" },")
print(" .proto_fun = &proto_fun_%s," % self.raw_code.escaped_name)
print("};")
def freeze_constant_obj(self, obj_name, obj):
global const_str_content, const_int_content, const_obj_content
if isinstance(obj, MPFunTable):
return "&mp_fun_table"
elif obj is None:
return "MP_ROM_NONE"
elif obj is False:
return "MP_ROM_FALSE"
elif obj is True:
return "MP_ROM_TRUE"
elif obj is Ellipsis:
return "MP_ROM_PTR(&mp_const_ellipsis_obj)"
elif is_str_type(obj) or is_bytes_type(obj):
if len(obj) == 0:
if is_str_type(obj):
return "MP_ROM_QSTR(MP_QSTR_)"
else:
return "MP_ROM_PTR(&mp_const_empty_bytes_obj)"
if is_str_type(obj):
q = global_qstrs.find_by_str(obj)
if q:
return "MP_ROM_QSTR(%s)" % q.qstr_id
obj = bytes_cons(obj, "utf8")
obj_type = "mp_type_str"
else:
obj_type = "mp_type_bytes"
print(
'static const mp_obj_str_t %s = {{&%s}, %u, %u, (const byte*)"%s"};'
% (
obj_name,
obj_type,
qstrutil.compute_hash(obj, config.MICROPY_QSTR_BYTES_IN_HASH),
len(obj),
"".join(("\\x%02x" % b) for b in obj),
)
)
const_str_content += len(obj)
const_obj_content += 4 * 4
return "MP_ROM_PTR(&%s)" % obj_name
elif is_int_type(obj):
if mp_small_int_fits(obj):
# Encode directly as a small integer object.
return "MP_ROM_INT(%d)" % obj
elif config.MICROPY_LONGINT_IMPL == config.MICROPY_LONGINT_IMPL_NONE:
raise FreezeError(self, "target does not support long int")
elif config.MICROPY_LONGINT_IMPL == config.MICROPY_LONGINT_IMPL_LONGLONG:
# TODO
raise FreezeError(self, "freezing int to long-long is not implemented")
elif config.MICROPY_LONGINT_IMPL == config.MICROPY_LONGINT_IMPL_MPZ:
neg = 0
if obj < 0:
obj = -obj
neg = 1
bits_per_dig = config.MPZ_DIG_SIZE
digs = []
z = obj
while z:
digs.append(z & ((1 << bits_per_dig) - 1))
z >>= bits_per_dig
ndigs = len(digs)
digs = ",".join(("%#x" % d) for d in digs)
print(
"static const mp_obj_int_t %s = {{&mp_type_int}, "
"{.neg=%u, .fixed_dig=1, .alloc=%u, .len=%u, .dig=(uint%u_t*)(const uint%u_t[]){%s}}};"
% (obj_name, neg, ndigs, ndigs, bits_per_dig, bits_per_dig, digs)
)
const_int_content += (digs.count(",") + 1) * bits_per_dig // 8
const_obj_content += 4 * 4
return "MP_ROM_PTR(&%s)" % obj_name
elif isinstance(obj, float):
macro_name = "%s_macro" % obj_name
print(
"#if MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_A || MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_B"
)
print(
"static const mp_obj_float_t %s = {{&mp_type_float}, (mp_float_t)%.16g};"
% (obj_name, obj)
)
print("#define %s MP_ROM_PTR(&%s)" % (macro_name, obj_name))
print("#elif MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_C")
n = struct.unpack("<I", struct.pack("<f", obj))[0]
n = ((n & ~0x3) | 2) + 0x80800000
print("#define %s ((mp_rom_obj_t)(0x%08x))" % (macro_name, n))
print("#elif MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_D")
n = struct.unpack("<Q", struct.pack("<d", obj))[0]
n += 0x8004000000000000
print("#define %s ((mp_rom_obj_t)(0x%016x))" % (macro_name, n))
print("#endif")
const_obj_content += 3 * 4
return macro_name
elif isinstance(obj, complex):
print(
"static const mp_obj_complex_t %s = {{&mp_type_complex}, (mp_float_t)%.16g, (mp_float_t)%.16g};"
% (obj_name, obj.real, obj.imag)
)
return "MP_ROM_PTR(&%s)" % obj_name
elif type(obj) is tuple:
if len(obj) == 0:
return "MP_ROM_PTR(&mp_const_empty_tuple_obj)"
else:
obj_refs = []
for i, sub_obj in enumerate(obj):
sub_obj_name = "%s_%u" % (obj_name, i)
obj_refs.append(self.freeze_constant_obj(sub_obj_name, sub_obj))
print(
"static const mp_rom_obj_tuple_t %s = {{&mp_type_tuple}, %d, {"
% (obj_name, len(obj))
)
for ref in obj_refs:
print(" %s," % ref)
print("}};")
return "MP_ROM_PTR(&%s)" % obj_name
else:
raise FreezeError(self, "freezing of object %r is not implemented" % (obj,))
def freeze_constants(self):
if len(self.qstr_table):
print(
"static const qstr_short_t const_qstr_table_data_%s[%u] = {"
% (self.escaped_name, len(self.qstr_table))
)
for q in self.qstr_table:
print(" %s," % q.qstr_id)
print("};")
if not len(self.obj_table):
return
# generate constant objects
print()
print("// constants")
obj_refs = []
for i, obj in enumerate(self.obj_table):
obj_name = "const_obj_%s_%u" % (self.escaped_name, i)
obj_refs.append(self.freeze_constant_obj(obj_name, obj))
# generate constant table
print()
print("// constant table")
print(
"static const mp_rom_obj_t const_obj_table_data_%s[%u] = {"
% (self.escaped_name, len(self.obj_table))
)
for ref in obj_refs:
print(" %s," % ref)
print("};")
global const_table_ptr_content
const_table_ptr_content += len(self.obj_table)
class RawCode(object):
# a set of all escaped names, to make sure they are unique
escaped_names = set()
# convert code kind number to string
code_kind_str = {
MP_CODE_BYTECODE: "MP_CODE_BYTECODE",
MP_CODE_NATIVE_PY: "MP_CODE_NATIVE_PY",
MP_CODE_NATIVE_VIPER: "MP_CODE_NATIVE_VIPER",
MP_CODE_NATIVE_ASM: "MP_CODE_NATIVE_ASM",
}
def __init__(self, parent_name, qstr_table, fun_data, prelude_offset, code_kind):
self.qstr_table = qstr_table
self.fun_data = fun_data
self.prelude_offset = prelude_offset
self.code_kind = code_kind
if code_kind in (MP_CODE_BYTECODE, MP_CODE_NATIVE_PY):
(
self.offset_prelude_size,
self.offset_source_info,
self.offset_line_info,
self.offset_closure_info,
self.offset_opcodes,
self.prelude_signature,
self.prelude_size,
self.names,
) = extract_prelude(self.fun_data, prelude_offset)
self.scope_flags = self.prelude_signature[2]
self.n_pos_args = self.prelude_signature[3]
self.simple_name = self.qstr_table[self.names[0]]
else:
self.simple_name = self.qstr_table[0]
escaped_name = parent_name + "_" + self.simple_name.qstr_esc
# make sure the escaped name is unique
i = 2
unique_escaped_name = escaped_name
while unique_escaped_name in self.escaped_names:
unique_escaped_name = escaped_name + str(i)
i += 1
self.escaped_names.add(unique_escaped_name)
self.escaped_name = unique_escaped_name
def disassemble_children(self):
print(" children:", [rc.simple_name.str for rc in self.children])
for rc in self.children:
rc.disassemble()
def freeze_children(self, prelude_ptr=None):
# Freeze children and generate table of children.
if len(self.children):
for rc in self.children:
print("// child of %s" % self.escaped_name)
rc.freeze()
print()
print("static const mp_raw_code_t *const children_%s[] = {" % self.escaped_name)
for rc in self.children:
print(" (const mp_raw_code_t *)&proto_fun_%s," % rc.escaped_name)
if prelude_ptr:
print(" (void *)%s," % prelude_ptr)
print("};")
print()
def freeze_raw_code(self, prelude_ptr=None, type_sig=0):
# Generate mp_raw_code_t.
if self.code_kind == MP_CODE_NATIVE_ASM:
raw_code_type = "mp_raw_code_t"
else:
raw_code_type = "mp_raw_code_truncated_t"
empty_children = len(self.children) == 0 and prelude_ptr is None
generate_minimal = self.code_kind == MP_CODE_BYTECODE and empty_children
if generate_minimal:
print("#if MICROPY_PERSISTENT_CODE_SAVE")
print("static const %s proto_fun_%s = {" % (raw_code_type, self.escaped_name))
print(" .proto_fun_indicator[0] = MP_PROTO_FUN_INDICATOR_RAW_CODE_0,")
print(" .proto_fun_indicator[1] = MP_PROTO_FUN_INDICATOR_RAW_CODE_1,")
print(" .kind = %s," % RawCode.code_kind_str[self.code_kind])
print(" .is_generator = %d," % bool(self.scope_flags & MP_SCOPE_FLAG_GENERATOR))
print(" .fun_data = fun_data_%s," % self.escaped_name)
if len(self.children):
print(" .children = (void *)&children_%s," % self.escaped_name)
elif prelude_ptr:
print(" .children = (void *)%s," % prelude_ptr)
else:
print(" .children = NULL,")
print(" #if MICROPY_PERSISTENT_CODE_SAVE")
print(" .fun_data_len = %u," % len(self.fun_data))
print(" .n_children = %u," % len(self.children))
print(" #if MICROPY_EMIT_MACHINE_CODE")
print(" .prelude_offset = %u," % self.prelude_offset)
print(" #endif")
if self.code_kind == MP_CODE_BYTECODE:
print(" #if MICROPY_PY_SYS_SETTRACE")
print(" .line_of_definition = %u," % 0) # TODO
print(" .prelude = {")
print(" .n_state = %u," % self.prelude_signature[0])
print(" .n_exc_stack = %u," % self.prelude_signature[1])
print(" .scope_flags = %u," % self.prelude_signature[2])
print(" .n_pos_args = %u," % self.prelude_signature[3])
print(" .n_kwonly_args = %u," % self.prelude_signature[4])
print(" .n_def_pos_args = %u," % self.prelude_signature[5])
print(" .qstr_block_name_idx = %u," % self.names[0])
print(
" .line_info = fun_data_%s + %u,"
% (self.escaped_name, self.offset_line_info)
)
print(
" .line_info_top = fun_data_%s + %u,"
% (self.escaped_name, self.offset_closure_info)
)
print(
" .opcodes = fun_data_%s + %u," % (self.escaped_name, self.offset_opcodes)
)
print(" },")
print(" #endif")
print(" #endif")
if self.code_kind == MP_CODE_NATIVE_ASM:
print(" .asm_n_pos_args = %u," % self.n_pos_args)
print(" .asm_type_sig = %u," % type_sig)
print("};")
if generate_minimal:
print("#else")
print("#define proto_fun_%s fun_data_%s[0]" % (self.escaped_name, self.escaped_name))
print("#endif")
global raw_code_count, raw_code_content
raw_code_count += 1
raw_code_content += 4 * 4
class RawCodeBytecode(RawCode):
def __init__(self, parent_name, qstr_table, obj_table, fun_data):
self.obj_table = obj_table
super(RawCodeBytecode, self).__init__(
parent_name, qstr_table, fun_data, 0, MP_CODE_BYTECODE
)
def disassemble(self):
bc = self.fun_data
print("simple_name:", self.simple_name.str)
print(" raw bytecode:", len(bc), hexlify_to_str(bc))
print(" prelude:", self.prelude_signature)
print(" args:", [self.qstr_table[i].str for i in self.names[1:]])
print(" line info:", hexlify_to_str(bc[self.offset_line_info : self.offset_opcodes]))
ip = self.offset_opcodes
while ip < len(bc):
fmt, sz, arg, _ = mp_opcode_decode(bc, ip)
if bc[ip] == Opcode.MP_BC_LOAD_CONST_OBJ:
arg = repr(self.obj_table[arg])
if fmt == MP_BC_FORMAT_QSTR:
arg = self.qstr_table[arg].str
elif fmt in (MP_BC_FORMAT_VAR_UINT, MP_BC_FORMAT_OFFSET):