trezor-firmware/common/protob/pb2py

#!/usr/bin/env python3
# Converts Google's protobuf python definitions of Trezor wire messages
# to plain-python objects as used in Trezor Core and python-trezor

import itertools
import logging
import os
import re
import shutil
import subprocess
import sys
import tempfile
from pathlib import Path

from typing import List, Optional

import attr
import click
import construct as c
import mako
import mako.template

from google.protobuf import descriptor_pb2

FieldDescriptor = descriptor_pb2.FieldDescriptorProto

FIELD_TYPES_PYTHON = {
    FieldDescriptor.TYPE_UINT64: "int",
    FieldDescriptor.TYPE_UINT32: "int",
    FieldDescriptor.TYPE_SINT64: "int",
    FieldDescriptor.TYPE_SINT32: "int",
    FieldDescriptor.TYPE_BOOL: "bool",
    FieldDescriptor.TYPE_BYTES: "bytes",
    FieldDescriptor.TYPE_STRING: "str",
}

TYPE_NAMES = {
    FieldDescriptor.TYPE_UINT64: "uint64",
    FieldDescriptor.TYPE_UINT32: "uint32",
    FieldDescriptor.TYPE_SINT64: "sint64",
    FieldDescriptor.TYPE_SINT32: "sint32",
    FieldDescriptor.TYPE_BOOL: "bool",
    FieldDescriptor.TYPE_BYTES: "bytes",
    FieldDescriptor.TYPE_STRING: "string",
}

FIELD_TYPES_RUST_BLOB = {
    FieldDescriptor.TYPE_UINT64: 0,
    FieldDescriptor.TYPE_UINT32: 0,
    FieldDescriptor.TYPE_SINT64: 1,
    FieldDescriptor.TYPE_SINT32: 1,
    FieldDescriptor.TYPE_BOOL: 2,
    FieldDescriptor.TYPE_BYTES: 3,
    FieldDescriptor.TYPE_STRING: 4,
    FieldDescriptor.TYPE_ENUM: 5,
    FieldDescriptor.TYPE_MESSAGE: 6,
}

INT_TYPES = (
    FieldDescriptor.TYPE_UINT64,
    FieldDescriptor.TYPE_UINT32,
    FieldDescriptor.TYPE_SINT64,
    FieldDescriptor.TYPE_SINT32,
)

MESSAGE_TYPE_ENUM = "MessageType"

ListOfSimpleValues = c.GreedyRange(
    c.Struct(
        "key" / c.VarInt,
        "value" / c.VarInt,
    )
)


def parse_protobuf_simple(data):
    """Micro-parse protobuf-encoded data.

    Assume every field is of type 0 (varint), and parse to a dict of fieldnum: value.
    """
    return {v.key >> 3: v.value for v in ListOfSimpleValues.parse(data)}


PROTOC = shutil.which("protoc")
if not PROTOC:
    print("protoc command not found")
    sys.exit(1)

PROTOC_PREFIX = Path(PROTOC).resolve().parent.parent


ENUM_ENTRY = c.PrefixedArray(c.Byte, c.Int16ul)

FIELD_STRUCT = c.Struct(
    "tag" / c.Byte,
    "flags_and_type"
    / c.BitStruct(
        "is_required" / c.Flag,
        "is_repeated" / c.Flag,
        "is_experimental" / c.Flag,
        c.Padding(1),
        "type" / c.BitsInteger(4),
    ),
    "enum_or_msg_offset" / c.Int16ul,
    "name" / c.Int16ul,
)

MSG_ENTRY = c.Struct(
    "fields_count" / c.Rebuild(c.Byte, c.len_(c.this.fields)),
    "defaults_size" / c.Rebuild(c.Byte, c.len_(c.this.defaults)),
    # highest bit = is_experimental
    # the rest = wire_id, 0x7FFF iff unset
    "flags_and_wire_type" / c.Int16ul,
    "fields" / c.Array(c.this.fields_count, FIELD_STRUCT),
    "defaults" / c.Bytes(c.this.defaults_size),
)

DEFAULT_VARINT_ENTRY = c.Sequence(c.Byte, c.VarInt)
DEFAULT_LENGTH_ENTRY = c.Sequence(c.Byte, c.Prefixed(c.VarInt, c.GreedyRange(c.Byte)))

NAME_ENTRY = c.Sequence(
    "msg_name" / c.Int16ul,
    "msg_offset" / c.Int16ul,
)

WIRETYPE_ENTRY = c.Sequence(
    "wire_id" / c.Int16ul,
    "msg_offset" / c.Int16ul,
)

# QDEF(MP_QSTR_copysign, (const byte*)"\x33\x14\x08" "copysign")
QDEF_RE = re.compile(
    r'^QDEF\(MP_QSTR(\S+), \(const byte\*\)"(\\x..\\x..\\x..)" "(.*)"\)$'
)


@attr.s(auto_attribs=True)
class ProtoField:
    name: str
    number: int
    type: object
    extensions: dict
    orig: object
    # name of type without package path
    type_name: str

    descriptor: "Descriptor"

    @property
    def repeated(self):
        return self.orig.label == FieldDescriptor.LABEL_REPEATED

    @property
    def required(self):
        return self.orig.label == FieldDescriptor.LABEL_REQUIRED

    @property
    def optional(self):
        return not self.required and not self.repeated

    @property
    def experimental(self):
        return bool(self.extensions.get("experimental"))

    @property
    def is_message(self):
        return self.type == FieldDescriptor.TYPE_MESSAGE

    @property
    def is_enum(self):
        return self.type == FieldDescriptor.TYPE_ENUM

    @property
    def python_type(self):
        return FIELD_TYPES_PYTHON.get(self.type, self.type_name)

    @property
    def default_value(self):
        if not self.orig.HasField("default_value"):
            return None
        return self.orig.default_value

    @property
    def default_value_repr(self):
        if self.default_value is None:
            return "None"

        elif self.is_enum:
            selected_enum_value = strip_enum_prefix(self.type_name, self.default_value)
            return f"{self.type_name}.{selected_enum_value}"

        elif self.type == FieldDescriptor.TYPE_STRING:
            return repr(self.default_value)
        elif self.type == FieldDescriptor.TYPE_BYTES:
            return "b" + repr(self.default_value)
        elif self.type == FieldDescriptor.TYPE_BOOL:
            return "True" if self.default_value == "true" else "False"
        else:
            return str(self.default_value)

    @property
    def type_object(self):
        if self.is_enum:
            return find_by_name(self.descriptor.enums, self.type_name)
        if self.is_message:
            return find_by_name(self.descriptor.messages, self.type_name)
        return None

    @classmethod
    def from_field(cls, descriptor, field):
        if not field.type_name:
            type_name = TYPE_NAMES[field.type]
        else:
            type_name = field.type_name.rsplit(".")[-1]
        return cls(
            name=field.name,
            number=field.number,
            type=field.type,
            orig=field,
            extensions=descriptor.get_extensions(field),
            type_name=type_name,
            descriptor=descriptor,
        )


@attr.s(auto_attribs=True)
class ProtoMessage:
    name: str
    wire_type: Optional[int]
    orig: object
    extensions: dict

    fields: List[ProtoField]

    @classmethod
    def from_message(cls, descriptor: "Descriptor", message):
        message_type = find_by_name(descriptor.message_type_enum.value, message.name)
        # use extensions set on the message_type entry (if any)
        extensions = descriptor.get_extensions(message_type)
        # override with extensions set on the message itself
        extensions.update(descriptor.get_extensions(message))

        if "wire_type" in extensions:
            wire_type = extensions["wire_type"]
        elif message_type is not None:
            wire_type = message_type.number
        else:
            wire_type = None

        return cls(
            name=message.name,
            wire_type=wire_type,
            orig=message,
            extensions=extensions,
            fields=[
                ProtoField.from_field(descriptor, f)
                for f in descriptor._filter_items(message.field)
            ],
        )


def protoc(files):
    """Compile code with protoc and return the data."""
    include_dirs = set()
    include_dirs.add(str(PROTOC_PREFIX / "include"))
    if "PROTOC_INCLUDE" in os.environ:
        include_dirs.add(os.environ["PROTOC_INCLUDE"])

    for file in files:
        include_dirs.add(os.path.dirname(file) or ".")
    protoc_includes = ["-I" + dir for dir in include_dirs if dir]

    return subprocess.check_output(
        [PROTOC, "--descriptor_set_out=/dev/stdout"] + protoc_includes + list(files)
    )


def strip_enum_prefix(enum_name, value_name):
    """Generate stripped-down enum value name, given the enum type name.

    There are three kinds of enums in the codebase:

    (1) New-style:

    enum SomeEnum {
        First_Value = 1;
        SecondValue = 2;
    }

    (2) Old-style without "Type":

    enum SomeEnum {
        SomeEnum_First_Value = 1;
        SomeEnum_SecondValue = 2;
    }

    (3) Old-style with "Type":

    enum SomeEnumType {
        SomeEnum_First_Value = 1;
        SomeEnum_SecondValue = 2;
    }

    This function accepts the name of the enum ("SomeEnum") and the name of the value,
    and returns the name of the value as it would look in the new-style -- i.e.,
    for any variation of the above, the values returned would be "First_Value" and
    "SecondValue".
    """
    leader = enum_name + "_"
    if value_name.startswith(leader):
        return value_name[len(leader) :]

    if enum_name.endswith("Type"):
        leader = enum_name[: -len("Type")] + "_"
        if value_name.startswith(leader):
            return value_name[len(leader) :]

    return value_name


def find_by_name(haystack, name, default=None):
    return next((item for item in haystack if item.name == name), default)


class Descriptor:
    def __init__(self, data, include_deprecated: bool, bitcoin_only: bool):
        self.descriptor = descriptor_pb2.FileDescriptorSet()
        self.descriptor.ParseFromString(data)

        self.include_deprecated = include_deprecated
        self.bitcoin_only = bitcoin_only
        self.files = self.descriptor.file

        logging.debug(f"found {len(self.files)} files")

        # collect extensions across all files
        # this is required for self._get_extension() to work
        self.extensions = {
            ext.name: ext.number for file in self.files for ext in file.extension
        }

        # find message_type enum
        top_level_enums = itertools.chain.from_iterable(f.enum_type for f in self.files)
        self.message_type_enum = find_by_name(top_level_enums, MESSAGE_TYPE_ENUM, ())
        self.convert_enum_value_names(self.message_type_enum)

        # top-level message inclusion filter that takes bitcoin_only into account
        def should_include_message(message: ProtoMessage):
            return (
                # include all messages when not in bitcoin_only mode
                not self.bitcoin_only
                # include all non-wire messages
                or message.wire_type is None
                # include messages that are marked bitcoin_only
                or message.extensions.get("bitcoin_only")
            )

        # find messages and enums
        self.messages = []
        self.enums = []

        for file in self.files:
            messages = (
                ProtoMessage.from_message(self, m)
                for m in self._filter_items(file.message_type)
            )
            # use exclusion list on top-level messages
            messages = [m for m in messages if should_include_message(m)]
            self.messages += messages
            self.enums += self._filter_items(file.enum_type)

            for message in messages:
                # recursively search for nested types in newly added messages
                self._nested_types_from_message(message.orig)

        if not self.messages and not self.enums:
            raise RuntimeError("No messages and no enums found.")

        for enum in self.enums:
            self.convert_enum_value_names(enum)


    def _filter_items(self, iter):
        return [
            item
            for item in iter
            # exclude deprecated items unless specified
            if (self.include_deprecated or not item.options.deprecated)
        ]

    def _get_extension(self, something, extension_name, default=None):
        if something is None:
            return default
        if extension_name not in self.extensions:
            return default

        # There doesn't seem to be a sane way to access extensions on a descriptor
        # via the google.protobuf API.
        # We do have access to descriptors of the extensions...
        extension_num = self.extensions[extension_name]
        # ...and the "options" descriptor _does_ include the extension data. But while
        # the API provides access to unknown fields, it hides the extensions.
        # What we do is re-encode the options descriptor...
        options_bytes = something.options.SerializeToString()
        # ...and re-parse it as a dict of uvarints...
        simple_values = parse_protobuf_simple(options_bytes)
        # ...and extract the value corresponding to the extension we care about.
        return simple_values.get(extension_num, default)

    def get_extensions(self, something):
        return {
            extension: self._get_extension(something, extension)
            for extension in self.extensions
            if self._get_extension(something, extension) is not None
        }

    def _nested_types_from_message(self, message):
        nested_messages = [
            ProtoMessage.from_message(self, m)
            for m in self._filter_items(message.nested_type)
        ]
        self.messages += nested_messages
        self.enums += self._filter_items(message.enum_type)
        for nested in nested_messages:
            self._nested_types_from_message(nested.orig)

    def convert_enum_value_names(self, enum):
        for value in enum.value:
            value.name = strip_enum_prefix(enum.name, value.name)


class PythonRenderer:
    def __init__(self, descriptor: Descriptor, out_dir="", python_extension="py"):
        self.descriptor = descriptor
        self.out_dir = Path(out_dir)
        self.python_extension = python_extension

    def process_message(self, template, message):
        logging.debug(f"Processing message {message.name}")
        return template.render(message=message)

    def process_enum(self, template, enum):
        logging.debug(f"Processing enum {enum.name}")

        all_values = self.descriptor._filter_items(enum.value)

        has_bitcoin_only_values = self.descriptor._get_extension(
            enum, "has_bitcoin_only_values"
        )
        if has_bitcoin_only_values:
            values_always = [
                v
                for v in all_values
                if self.descriptor._get_extension(v, "bitcoin_only")
            ]
            values_altcoin = [v for v in all_values if v not in values_always]

        else:
            values_always = all_values
            values_altcoin = []

        return template.render(
            enum=enum,
            values_always=values_always,
            values_altcoin=values_altcoin,
        )

    def write_to_file(self, item_name, content):
        dest = self.out_dir / (item_name + "." + self.python_extension)
        dest.write_text(content)

    def generate_messages(self, template_src):
        template = mako.template.Template(filename=str(template_src))
        for message in self.descriptor.messages:
            self.write_to_file(message.name, self.process_message(template, message))

    def generate_enums(self, template_src):
        template = mako.template.Template(filename=str(template_src))
        for enum in self.descriptor.enums:
            self.write_to_file(enum.name, self.process_enum(template, enum))

    def render_singlefile(self, template_src):
        template = mako.template.Template(filename=str(template_src))
        return template.render(
            messages=self.descriptor.messages,
            enums=self.descriptor.enums,
        )

    def generate_python(self):
        enum_template = self.out_dir / "_proto_enum_class.mako"
        message_template = self.out_dir / "_proto_message_class.mako"
        init_template = self.out_dir / "_proto_init.mako"
        if enum_template.exists():
            self.generate_enums(enum_template)
        if message_template.exists():
            self.generate_messages(message_template)
        if init_template.exists():
            init_py = self.render_singlefile(init_template)
            self.write_to_file("__init__", init_py)


class RustBlobRenderer:
    def __init__(self, descriptor: Descriptor, qstr_defs: str = None):
        self.descriptor = descriptor

        self.qstr_map = {}
        self.enum_map = {}
        self.msg_map = {}

        if qstr_defs:
            self.build_qstr_map(qstr_defs)

    def write_qstrs(self, qstr_path):
        logging.debug(f"Writing qstrings to {qstr_path}")
        message_names = {m.name for m in self.descriptor.messages}
        field_names = {
            f.name for message in self.descriptor.messages for f in message.fields
        }
        with open(qstr_path, "w") as f:
            for name in sorted(message_names | field_names):
                f.write(f"Q({name})\n")

    def write_blobs(self, blob_dir):
        logging.debug(f"Writing blobs to {blob_dir}")
        blob_dir = Path(blob_dir)

        enum_blob = self.build_enums_with_offsets()

        # build msg entries and fill out map
        msg_entries = self.build_message_entries()
        # fill message offsets
        self.fill_enum_or_msg_offsets(msg_entries)
        # encode blob
        msg_blob = self.build_message_blob(msg_entries)

        name_blob = self.build_blob_names()
        wire_blob = self.build_blob_wire()

        (blob_dir / "proto_enums.data").write_bytes(enum_blob)
        (blob_dir / "proto_msgs.data").write_bytes(msg_blob)
        (blob_dir / "proto_names.data").write_bytes(name_blob)
        (blob_dir / "proto_wire.data").write_bytes(wire_blob)

    def build_qstr_map(self, qstr_defs):
        # QSTR defs are rolled out into an enum in py/qstr.h, the numeric
        # value is simply an incremented integer.
        qstr_counter = 0
        with open(qstr_defs, "r") as f:
            for line in f:
                match = QDEF_RE.match(line)
                if not match:
                    continue
                line = match.group(0)
                string = match.group(3)
                self.qstr_map[string] = qstr_counter
                qstr_counter += 1
        logging.debug(f"Found {qstr_counter} Qstr defs")

    def build_enums_with_offsets(self):
        enums = []
        cursor = 0
        for enum in sorted(self.descriptor.enums, key=lambda e: e.name):
            self.enum_map[enum.name] = cursor
            enum_blob = ENUM_ENTRY.build(sorted(v.number for v in enum.value))
            enums.append(enum_blob)
            cursor += len(enum_blob)

        return b"".join(enums)

    def encode_flags_and_wire_type(self, message):
        wire_type = message.wire_type
        if wire_type is None:
            wire_type = 0x7FFF
        if wire_type > 0x7FFF:
            raise ValueError("Unsupported wire type")

        flags_and_wire_type = wire_type
        if message.extensions.get("unstable"):
            flags_and_wire_type |= 0x8000

        return flags_and_wire_type

    def encode_field(self, field):
        return dict(
            tag=field.number,
            flags_and_type=dict(
                is_required=field.required,
                is_repeated=field.repeated,
                is_experimental=field.experimental,
                type=FIELD_TYPES_RUST_BLOB[field.type],
            ),
            enum_or_msg_offset=0,
            name=self.qstr_map[field.name],
            orig_field=field,
        )

    def fill_enum_or_msg_offsets(self, msg_entries):
        for msg_dict in msg_entries:
            for field_dict in msg_dict["fields"]:
                field = field_dict["orig_field"]
                if field.is_enum:
                    field_dict["enum_or_msg_offset"] = self.enum_map[field.type_name]
                elif field.is_message:
                    field_dict["enum_or_msg_offset"] = self.msg_map[field.type_name]

    def build_message_entries(self):
        messages = []
        cursor = 0

        for message in sorted(self.descriptor.messages, key=lambda m: m.name):
            self.msg_map[message.name] = cursor
            fields = sorted(message.fields, key=lambda f: f.number)

            defaults = b"".join(self.encode_field_default(f) for f in fields)
            flags_and_wire_type = self.encode_flags_and_wire_type(message)
            entry = dict(
                flags_and_wire_type=flags_and_wire_type,
                fields=[self.encode_field(f) for f in fields],
                defaults=defaults,
            )

            messages.append(entry)
            cursor += len(MSG_ENTRY.build(entry))

        return messages

    def build_message_blob(self, msg_entries):
        return b"".join(MSG_ENTRY.build(entry) for entry in msg_entries)

    def encode_field_default(self, field):
        if field.number > 0xFF:
            raise ValueError("Invalid field number")

        default = field.default_value

        if default is None:
            return b""

        elif field.type in INT_TYPES:
            return DEFAULT_VARINT_ENTRY.build((field.number, int(default)))

        elif field.type == FieldDescriptor.TYPE_BOOL:
            return DEFAULT_VARINT_ENTRY.build((field.number, int(default == "True")))

        elif field.type == FieldDescriptor.TYPE_BYTES:
            if default != "":
                raise ValueError(
                    "Bytes fields can only have empty bytes for default value"
                )
            return DEFAULT_LENGTH_ENTRY.build((field.number, b""))

        elif field.type == FieldDescriptor.TYPE_STRING:
            return DEFAULT_LENGTH_ENTRY.build((field.number, default.encode()))

        elif field.is_enum:
            # find the right value
            value = find_by_name(field.type_object.value, default)
            if value is None:
                raise ValueError(f"Default not found for field {field.name}")
            return DEFAULT_VARINT_ENTRY.build((field.number, value.number))

        else:
            raise ValueError(f"Cannot encode default value for field {field.name}")

    def build_blob_names(self):
        # sorting by Qstr value of the message name
        messages = sorted(self.descriptor.messages, key=lambda m: self.qstr_map[m.name])
        return b"".join(
            NAME_ENTRY.build((self.qstr_map[m.name], self.msg_map[m.name]))
            for m in messages
        )

    def build_blob_wire(self):
        # create wire-type -> message mapping
        wire_messages = [m for m in self.descriptor.messages if m.wire_type is not None]
        # sorting by wire-type
        wire_messages.sort(key=lambda m: m.wire_type)
        return b"".join(
            WIRETYPE_ENTRY.build((m.wire_type, self.msg_map[m.name]))
            for m in wire_messages
        )


ReadableFile = click.Path(exists=True, dir_okay=False, readable=True)
WritableFile = click.Path(dir_okay=False, writable=True)
WritableDirectory = click.Path(exists=True, file_okay=False, writable=True)


@click.command()
# fmt: off
@click.argument("proto", nargs=-1, type=ReadableFile, required=True)
@click.option("--python-outdir", type=WritableDirectory, help="Output directory for Python classes (contents will be deleted)")
@click.option("--python-extension", default="py", help="Use .pyi to generate type stubs")
@click.option("--outfile", type=WritableFile, help="Output file for single-file generated definitions")
@click.option("--template", type=ReadableFile, help="Template for single-file entry")
@click.option("--blob-outdir", type=WritableDirectory, help="Output directory for protobuf blob files")
@click.option("--qstr-defs", type=ReadableFile, help="Collected Qstr definitions")
@click.option("--qstr-out", type=WritableFile, help="Output Qstr header")
@click.option("-v", "--verbose", is_flag=True)
@click.option("-d", "--include-deprecated", is_flag=True, help="Include deprecated fields, messages and enums")
@click.option("-b", "--bitcoin-only", type=int, default=0, help="Exclude fields, messages and enums that do not belong to bitcoin_only builds")
# fmt: on
def main(
    proto,
    python_outdir,
    python_extension,
    outfile,
    template,
    blob_outdir,
    qstr_defs,
    qstr_out,
    verbose,
    include_deprecated,
    bitcoin_only,
):
    if verbose:
        logging.basicConfig(level=logging.DEBUG)

    descriptor_proto = protoc(proto)
    descriptor = Descriptor(
        descriptor_proto,
        include_deprecated=include_deprecated,
        bitcoin_only=bitcoin_only,
    )

    if python_outdir:
        outdir = Path(python_outdir)
        with tempfile.TemporaryDirectory() as tmpdir:
            tmpdir_path = Path(tmpdir)
            for file in outdir.glob("_proto*.mako"):
                shutil.copy(file, tmpdir)

            renderer = PythonRenderer(descriptor, tmpdir_path, python_extension)
            renderer.generate_python()

            for file in outdir.glob("*." + python_extension):
                if file.name == "__init__." + python_extension:
                    continue
                file.unlink()

            for file in tmpdir_path.iterdir():
                shutil.copy(file, outdir)

    if outfile:
        if not template:
            raise click.ClickException("Please specify --template")

        renderer = PythonRenderer(descriptor)
        with open(outfile, "w") as f:
            f.write(renderer.render_singlefile(template))

    if qstr_out:
        renderer = RustBlobRenderer(descriptor)
        renderer.write_qstrs(qstr_out)

    if blob_outdir:
        if not qstr_defs:
            raise click.ClickException("Qstr defs not provided")

        renderer = RustBlobRenderer(descriptor, qstr_defs)
        renderer.write_blobs(blob_outdir)


if __name__ == "__main__":
    main()