path: root/lib9p/9p.gen

#!/usr/bin/env python
# lib9p/9p.gen - Generate C marshalers/unmarshalers for .txt files
#                defining 9P protocol variants.
#
# Copyright (C) 2024  Luke T. Shumaker <lukeshu@lukeshu.com>
# SPDX-Licence-Identifier: AGPL-3.0-or-later

import enum
import os.path
import re
from typing import Callable, Sequence

# This strives to be "general-purpose" in that it just acts on the
# *.txt inputs; but (unfortunately?) there are a few special-cases in
# this script, marked with "SPECIAL".

# Parse *.txt ##################################################################


class Atom(enum.Enum):
    u8 = 1
    u16 = 2
    u32 = 4
    u64 = 8

    @property
    def name(self) -> str:
        return str(self.value)

    @property
    def static_size(self) -> int:
        return self.value


class BitfieldVal:
    name: str
    val: str
    ver: set[str]

    def __init__(self) -> None:
        self.ver = set()


class Bitfield:
    name: str
    bits: list[str]
    names: dict[str, BitfieldVal]

    @property
    def static_size(self) -> int:
        return int((len(self.bits) + 7) / 8)

    def bitname_is_valid(self, bitname: str, ver: str | None = None) -> bool:
        assert bitname in self.bits
        if not bitname:
            return False
        if bitname.startswith("_"):
            return False
        if ver and (ver not in self.names[bitname].ver):
            return False
        return True


# `msgid/structname = "member1 member2..."`
# `structname = "member1 member2..."`
# `structname += "member1 member2..."`
class Struct:
    msgid: int | None = None
    msgver: set[str]
    name: str
    members: list["Member"]

    def __init__(self) -> None:
        self.msgver = set()

    @property
    def static_size(self) -> int | None:
        size = 0
        for member in self.members:
            msize = member.static_size
            if msize is None:
                return None
            size += msize
        return size


# `cnt*(name[typ])`
# the `cnt*(...)` wrapper is optional
class Member:
    cnt: str | None = None
    name: str
    typ: Atom | Bitfield | Struct
    max: int | None = None
    ver: set[str]

    @property
    def static_size(self) -> int | None:
        if self.cnt:
            return None
        return self.typ.static_size


re_membername = "(?:[a-zA-Z_][a-zA-Z_0-9]*)"
re_memberspec = f"(?:(?P<cnt>{re_membername})\\*\\()?(?P<name>{re_membername})\\[(?P<typ>[^,]*)(?:,max=(?P<max>[0-9]+))?\\]\\)?"


def parse_members(
    ver: str,
    env: dict[str, Atom | Bitfield | Struct],
    existing: list[Member],
    specs: str,
) -> list[Member]:
    ret = existing
    for spec in specs.split():
        m = re.fullmatch(re_memberspec, spec)
        if not m:
            raise SyntaxError(f"invalid member spec {repr(spec)}")

        member = Member()
        member.ver = {ver}

        member.name = m.group("name")
        if any(x.name == member.name for x in ret):
            raise ValueError(f"duplicate member name {repr(member.name)}")

        if m.group("typ") not in env:
            raise NameError(f"Unknown type {repr(m.group(2))}")
        member.typ = env[m.group("typ")]

        if cnt := m.group("cnt"):
            if len(ret) == 0 or ret[-1].name != cnt:
                raise ValueError(f"list count must be previous item: {repr(cnt)}")
            if not isinstance(ret[-1].typ, Atom):
                raise ValueError(f"list count must be an integer type: {repr(cnt)}")
            member.cnt = cnt

        if maxstr := m.group("max"):
            if (not isinstance(member.typ, Atom)) or member.cnt:
                raise ValueError(
                    f"',max=' may only be specified on a non-repeated atom"
                )
            member.max = int(maxstr)

        ret += [member]
    return ret


re_version = r'version\s+"(?P<version>[^"]+)"'
re_import = r"from\s+(?P<file>\S+)\s+import\s+(?P<syms>\S+(?:\s*,\s*\S+)*)\s*"
re_structspec = (
    r'(?:(?P<msgid>[0-9]+)/)?(?P<name>\S+)\s*(?P<op>\+?=)\s*"(?P<members>[^"]*)"'
)
re_structspec_cont = r'\s+"(?P<members>[^"]*)"'
re_bitfieldspec = r"bitfield\s+(?P<name>\S+)\s+(?P<size>[0-9]+)"
re_bitfieldspec_bit = r"(?:\s+|(?P<bitfield>\S+)\s*\+=\s*)(?P<bit>[0-9]+)/(?P<name>\S+)"
re_bitfieldspec_alias = (
    r"(?:\s+|(?P<bitfield>\S+)\s*\+=\s*)(?P<name>\S+)\s*=\s*(?P<val>.*)"
)


def parse_file(
    filename: str, get_include: Callable[[str], tuple[str, list[Bitfield | Struct]]]
) -> tuple[str, list[Bitfield | Struct]]:
    version: str | None = None
    env: dict[str, Atom | Bitfield | Struct] = {
        "1": Atom.u8,
        "2": Atom.u16,
        "4": Atom.u32,
        "8": Atom.u64,
    }
    with open(filename, "r") as fh:
        prev: Struct | Bitfield | None = None
        for line in fh:
            line = line.split("#", 1)[0].rstrip()
            if not line:
                continue
            if m := re.fullmatch(re_version, line):
                if version:
                    raise SyntaxError("must have exactly 1 version line")
                version = m.group("version")
            elif m := re.fullmatch(re_import, line):
                if not version:
                    raise SyntaxError("must have exactly 1 version line")
                other_version, other_typs = get_include(m.group("file"))
                for symname in m.group("syms").split(sep=","):
                    symname = symname.strip()
                    for typ in other_typs:
                        if typ.name == symname or symname == "*":
                            match typ:
                                case Bitfield():
                                    for val in typ.names.values():
                                        if other_version in val.ver:
                                            val.ver.add(version)
                                case Struct():
                                    if typ.msgid:
                                        typ.msgver.add(version)
                                    for member in typ.members:
                                        if other_version in member.ver:
                                            member.ver.add(version)
                            env[typ.name] = typ
            elif m := re.fullmatch(re_structspec, line):
                if not version:
                    raise SyntaxError("must have exactly 1 version line")
                if m.group("op") == "+=" and m.group("msgid"):
                    raise SyntaxError("cannot += to a message that is not yet defined")
                match m.group("op"):
                    case "=":
                        struct = Struct()
                        if m.group("msgid"):
                            struct.msgid = int(m.group("msgid"))
                            struct.msgver.add(version)
                        struct.name = m.group("name")
                        struct.members = parse_members(
                            version, env, [], m.group("members")
                        )
                        env[struct.name] = struct
                        prev = struct
                    case "+=":
                        if m.group("name") not in env:
                            raise NameError(f"Unknown type {repr(m.group('name'))}")
                        _struct = env[m.group("name")]
                        if not isinstance(_struct, Struct):
                            raise NameError(
                                f"Type {repr(_struct.name)} is not a struct"
                            )
                        struct = _struct
                        struct.members = parse_members(
                            version, env, struct.members, m.group("members")
                        )
                        prev = struct
            elif m := re.fullmatch(re_structspec_cont, line):
                if not isinstance(prev, Struct):
                    raise SyntaxError(
                        "struct-continuation line must come after a struct line"
                    )
                assert version
                prev.members = parse_members(
                    version, env, prev.members, m.group("members")
                )
            elif m := re.fullmatch(re_bitfieldspec, line):
                if not version:
                    raise SyntaxError("must have exactly 1 version line")
                bf = Bitfield()
                bf.name = m.group("name")
                bf.bits = int(m.group("size")) * [""]
                bf.names = {}
                if len(bf.bits) not in [8, 16, 32, 64]:
                    raise ValueError(f"Bitfield {repr(bf.name)} has an unusual size")
                env[bf.name] = bf
                prev = bf
            elif m := re.fullmatch(re_bitfieldspec_bit, line):
                if m.group("bitfield"):
                    if m.group("bitfield") not in env:
                        raise NameError(f"Unknown bitfield {repr(m.group('bitfield'))}")
                    _bf = env[m.group("bitfield")]
                    if not isinstance(_bf, Bitfield):
                        raise NameError(f"Type {repr(_bf.name)} is not a bitfield")
                    bf = _bf
                    prev = bf
                else:
                    if not isinstance(prev, Bitfield):
                        raise SyntaxError(
                            "bitfield-continuation line must come after a bitfield line"
                        )
                    bf = prev
                bit = int(m.group("bit"))
                name = m.group("name")
                if bit < 0 or bit >= len(bf.bits):
                    raise ValueError(f"{bf.name}: bit {bit} is out-of-bounds")
                if bf.bits[bit]:
                    raise ValueError(f"{bf.name}: bit {bit} already assigned")
                if name in bf.names:
                    raise ValueError(f"{bf.name}: name {name} already assigned")

                bf.bits[bit] = name

                assert version
                val = BitfieldVal()
                val.name = name
                val.val = f"1<<{bit}"
                val.ver.add(version)
                bf.names[name] = val
            elif m := re.fullmatch(re_bitfieldspec_alias, line):
                if m.group("bitfield"):
                    if m.group("bitfield") not in env:
                        raise NameError(f"Unknown bitfield {repr(m.group('bitfield'))}")
                    _bf = env[m.group("bitfield")]
                    if not isinstance(_bf, Bitfield):
                        raise NameError(f"Type {repr(_bf.name)} is not a bitfield")
                    bf = _bf
                    prev = bf
                else:
                    if not isinstance(prev, Bitfield):
                        raise SyntaxError(
                            "bitfield-continuation line must come after a bitfield line"
                        )
                    bf = prev
                name = m.group("name")
                valstr = m.group("val")
                if name in bf.names:
                    raise ValueError(f"{bf.name}: name {name} already assigned")

                assert version
                val = BitfieldVal()
                val.name = name
                val.val = valstr
                val.ver.add(version)
                bf.names[name] = val
            else:
                raise SyntaxError(f"invalid line {repr(line)}")
    if not version:
        raise SyntaxError("must have exactly 1 version line")

    typs = [x for x in env.values() if not isinstance(x, Atom)]
    return version, typs


# Generate C ###################################################################


def c_typename(idprefix: str, typ: Atom | Bitfield | Struct) -> str:
    match typ:
        case Atom():
            return f"uint{typ.value*8}_t"
        case Bitfield():
            return f"{idprefix}{typ.name}_t"
        case Struct():
            if typ.msgid is not None:
                return f"struct {idprefix}msg_{typ.name}"
            return f"struct {idprefix}{typ.name}"
        case _:
            raise ValueError(f"not a type: {typ.__class__.__name__}")


def c_verenum(idprefix: str, ver: str) -> str:
    return f"{idprefix.upper()}VER_{ver.replace('.', '_')}"


def c_vercomment(versions: set[str]) -> str | None:
    if "9P2000" in versions:
        return None
    return "/* " + (", ".join(sorted(versions))) + " */"


def c_vercond(idprefix: str, versions: set[str]) -> str:
    if len(versions) == 1:
        return f"(ctx->ctx->version=={c_verenum(idprefix, next(v for v in versions))})"
    return (
        "( " + (" || ".join(c_vercond(idprefix, {v}) for v in sorted(versions))) + " )"
    )


def just_structs_all(typs: list[Bitfield | Struct]) -> Sequence[Struct]:
    return list(typ for typ in typs if isinstance(typ, Struct))


def just_structs_nonmsg(typs: list[Bitfield | Struct]) -> Sequence[Struct]:
    return list(typ for typ in typs if isinstance(typ, Struct) and typ.msgid is None)


def just_structs_msg(typs: list[Bitfield | Struct]) -> Sequence[Struct]:
    return list(
        typ for typ in typs if isinstance(typ, Struct) and typ.msgid is not None
    )


def just_bitfields(typs: list[Bitfield | Struct]) -> Sequence[Bitfield]:
    return list(typ for typ in typs if isinstance(typ, Bitfield))


def gen_h(idprefix: str, versions: set[str], typs: list[Bitfield | Struct]) -> str:
    ret = f"""/* Generated by `{' '.join(sys.argv)}`.  DO NOT EDIT!  */

#ifndef _LIB9P_9P_H_
#	error Do not include <lib9p/9p.generated.h> directly; include <lib9p/9p.h> instead
#endif

#include <stdint.h> /* for uint{{n}}_t types */
"""

    ret += f"""
/* versions *******************************************************************/

enum {idprefix}version {{
"""
    fullversions = ["unknown = 0", *sorted(versions)]
    verwidth = max(len(v) for v in fullversions)
    for ver in fullversions:
        ret += f"\t{c_verenum(idprefix, ver)},"
        ret += (" " * (verwidth - len(ver))) + ' /* "' + ver.split()[0] + '" */\n'
    ret += f"\t{c_verenum(idprefix, 'NUM')},\n"
    ret += "};\n"
    ret += "\n"
    ret += f"const char *{idprefix}version_str(enum {idprefix}version);\n"

    ret += """
/* non-message types **********************************************************/
"""
    for bf in just_bitfields(typs):
        ret += "\n"
        ret += f"typedef uint{bf.static_size*8}_t {c_typename(idprefix, bf)};\n"
        names = [
            *reversed([bf.bits[n] or f"_UNUSED_{n}" for n in range(0, len(bf.bits))]),
            *[k for k in bf.names if k not in bf.bits],
        ]
        namewidth = max(len(name) for name in names)

        for name in names:
            if name.startswith("_"):
                cname = f"_{idprefix.upper()}{bf.name.upper()}_{name[1:]}"
            else:
                cname = f"{idprefix.upper()}{bf.name.upper()}_{name}"
            if name in bf.names:
                val = bf.names[name].val
            else:
                assert name.startswith("_UNUSED_")
                val = f"1<<{name[len('_UNUSED_'):]}"
            ret += f"#define {cname}{' '*(namewidth-len(name))}  (({c_typename(idprefix, bf)})({val}))"
            if (name in bf.names) and (comment := c_vercomment(bf.names[name].ver)):
                ret += " " + comment
            ret += "\n"

    for struct in just_structs_nonmsg(typs):
        all_the_same = len(struct.members) == 0 or all(
            m.ver == struct.members[0].ver for m in struct.members
        )
        typewidth = max(len(c_typename(idprefix, m.typ)) for m in struct.members)
        if not all_the_same:
            namewidth = max(len(m.name) for m in struct.members)

        ret += "\n"
        ret += c_typename(idprefix, struct) + " {\n"
        for member in struct.members:
            if struct.name == "stat" and member.name == "stat_size":  # SPECIAL
                continue
            ctype = c_typename(idprefix, member.typ)
            if (struct.name in ["d", "s"]) and member.cnt:  # SPECIAL
                ctype = "char"
            ret += f"\t{ctype.ljust(typewidth)}  {'*' if member.cnt else ' '}{member.name};"
            if (not all_the_same) and (comment := c_vercomment(member.ver)):
                ret += (" " * (namewidth - len(member.name))) + " " + comment
            ret += "\n"
        ret += "};\n"

    ret += """
/* messages *******************************************************************/

"""
    ret += f"enum {idprefix}msg_type {{ /* uint8_t */\n"
    namewidth = max(len(msg.name) for msg in just_structs_msg(typs))
    for msg in just_structs_msg(typs):
        ret += f"\t{idprefix.upper()}TYP_{msg.name.ljust(namewidth)} = {msg.msgid},"
        if comment := c_vercomment(msg.msgver):
            ret += " " + comment
        ret += "\n"
    ret += "};\n"
    ret += "\n"
    ret += f"const char *{idprefix}msg_type_str(enum {idprefix}msg_type);\n"

    for msg in just_structs_msg(typs):
        ret += "\n"
        if comment := c_vercomment(msg.msgver):
            ret += comment + "\n"
        ret += c_typename(idprefix, msg) + " {"
        if not msg.members:
            ret += "};\n"
            continue
        ret += "\n"

        all_the_same = len(msg.members) == 0 or all(
            m.ver == msg.members[0].ver for m in msg.members
        )
        typewidth = max(len(c_typename(idprefix, m.typ)) for m in msg.members)
        if not all_the_same:
            namewidth = max(len(m.name) for m in msg.members)

        for member in msg.members:
            ret += f"\t{c_typename(idprefix, member.typ).ljust(typewidth)}  {'*' if member.cnt else ' '}{member.name};"
            if (not all_the_same) and (comment := c_vercomment(member.ver)):
                ret += (" " * (namewidth - len(member.name))) + " " + comment
            ret += "\n"
        ret += "};\n"

    return ret


def gen_c(idprefix: str, versions: set[str], typs: list[Bitfield | Struct]) -> str:
    ret = f"""/* Generated by `{' '.join(sys.argv)}`.  DO NOT EDIT!  */

#include <assert.h>
#include <stdbool.h>
#include <stddef.h>   /* for size_t */
#include <inttypes.h> /* for PRI* macros */
#include <string.h>   /* for memset() */

#include <lib9p/9p.h>

#include "internal.h"
"""

    def used(arg: str) -> str:
        return arg

    def unused(arg: str) -> str:
        return f"UNUSED({arg})"

    # strings ##################################################################
    ret += f"""
/* strings ********************************************************************/

static const char *version_strs[{c_verenum(idprefix, 'NUM')}] = {{
"""
    for ver in ["unknown", *sorted(versions)]:
        ret += f'\t[{c_verenum(idprefix, ver)}] = "{ver}",\n'
    ret += "};\n"
    ret += f"""
const char *{idprefix}version_str(enum {idprefix}version ver) {{
    assert(0 <= ver && ver < {c_verenum(idprefix, 'NUM')});
    return version_strs[ver];
}}

static const char *msg_type_strs[0x100] = {{
"""
    id2name: dict[int, str] = {}
    for msg in just_structs_msg(typs):
        assert msg.msgid
        id2name[msg.msgid] = msg.name
    for n in range(0, 0x100):
        ret += '\t[0x{:02X}] = "{}",\n'.format(n, id2name.get(n, "0x{:02X}".format(n)))
    ret += "};\n"
    ret += f"""
const char *{idprefix}msg_type_str(enum {idprefix}msg_type typ) {{
    assert(0 <= typ && typ <= 0xFF);
    return msg_type_strs[typ];
}}
"""

    # validate_* ###############################################################
    ret += """
/* validate_* *****************************************************************/

static ALWAYS_INLINE bool _validate_size_net(struct _validate_ctx *ctx, uint32_t n) {
	if (__builtin_add_overflow(ctx->net_offset, n, &ctx->net_offset))
		/* If needed-net-size overflowed uint32_t, then
		 * there's no way that actual-net-size will live up to
		 * that.  */
		return lib9p_error(ctx->ctx, LINUX_EBADMSG, "message is too short for content");
	if (ctx->net_offset > ctx->net_size)
		return lib9p_error(ctx->ctx, LINUX_EBADMSG, "message is too short for content");
	return false;
}

static ALWAYS_INLINE bool _validate_size_host(struct _validate_ctx *ctx, size_t n) {
	if (__builtin_add_overflow(ctx->host_extra, n, &ctx->host_extra))
		/* If needed-host-size overflowed size_t, then there's
		 * no way that actual-net-size will live up to
		 * that.  */
		return lib9p_error(ctx->ctx, LINUX_EBADMSG, "message is too short for content");
	return false;
}

static ALWAYS_INLINE bool _validate_list(struct _validate_ctx *ctx,
                                         size_t cnt,
                                         _validate_fn_t item_fn, size_t item_host_size) {
	for (size_t i = 0; i < cnt; i++)
		if (_validate_size_host(ctx, item_host_size) || item_fn(ctx))
			return true;
	return false;
}

#define validate_1(ctx) _validate_size_net(ctx, 1)
#define validate_2(ctx) _validate_size_net(ctx, 2)
#define validate_4(ctx) _validate_size_net(ctx, 4)
#define validate_8(ctx) _validate_size_net(ctx, 8)
"""
    for typ in typs:
        inline = (
            " FLATTEN"
            if (isinstance(typ, Struct) and typ.msgid is not None)
            else " ALWAYS_INLINE"
        )
        argfn = unused if (isinstance(typ, Struct) and not typ.members) else used
        ret += "\n"
        ret += f"static{inline} bool validate_{typ.name}(struct _validate_ctx *{argfn('ctx')}) {{"

        if typ.name == "d":  # SPECIAL
            # Optimize... maybe the compiler could figure out to do
            # this, but let's make it obvious.
            ret += "\n"
            ret += "\tuint32_t base_offset = ctx->net_offset;\n"
            ret += "\tif (validate_4(ctx))\n"
            ret += "\t\treturn true;\n"
            ret += "\tuint32_t len = decode_u32le(&ctx->net_bytes[base_offset]);\n"
            ret += "\treturn _validate_size_net(ctx, len) || _validate_size_host(ctx, len);\n"
            ret += "}\n"
            continue
        if typ.name == "s":  # SPECIAL
            # Add an extra nul-byte on the host, and validate UTF-8
            # (also, similar optimization to "d").
            ret += "\n"
            ret += "\tuint32_t base_offset = ctx->net_offset;\n"
            ret += "\tif (validate_2(ctx))\n"
            ret += "\t\treturn true;\n"
            ret += "\tuint16_t len = decode_u16le(&ctx->net_bytes[base_offset]);\n"
            ret += "\tif (_validate_size_net(ctx, len) || _validate_size_host(ctx, ((size_t)len)+1))\n"
            ret += "\t\treturn true;\n"
            ret += "\tif (!is_valid_utf8_without_nul(&ctx->net_bytes[base_offset+2], len))\n"
            ret += '\t\treturn lib9p_error(ctx->ctx, LINUX_EBADMSG, "message contains invalid UTF-8");\n'
            ret += "\treturn false;\n"
            ret += "}\n"
            continue

        match typ:
            case Bitfield():
                ret += "\n"
                all_the_same = all(
                    val.ver == [*typ.names.values()][0].ver
                    for val in typ.names.values()
                )
                if (
                    all_the_same
                    and (len(typ.bits) == typ.static_size * 8)
                    and all(typ.bitname_is_valid(bitname) for bitname in typ.bits)
                ):
                    ret += f"\treturn validate_{typ.static_size}(ctx));\n"
                else:
                    ret += f"\t if (validate_{typ.static_size}(ctx))\n"
                    ret += "\t\treturn true;\n"
                    if all_the_same:
                        ret += (
                            f"\tstatic const {c_typename(idprefix, typ)} mask = 0b"
                            + "".join(
                                "1" if typ.bitname_is_valid(bitname) else "0"
                                for bitname in reversed(typ.bits)
                            )
                            + ";\n"
                        )
                    else:
                        ret += f"\tstatic const {c_typename(idprefix, typ)} masks[{c_verenum(idprefix, 'NUM')}] = {{\n"
                        verwidth = max(len(ver) for ver in versions)
                        for ver in sorted(versions):
                            ret += (
                                f"\t\t[{c_verenum(idprefix, ver)}]{' '*(verwidth-len(ver))} = 0b"
                                + "".join(
                                    "1" if typ.bitname_is_valid(bitname, ver) else "0"
                                    for bitname in reversed(typ.bits)
                                )
                                + ",\n"
                            )
                        ret += "\t};\n"
                        ret += f"\t{c_typename(idprefix, typ)} mask = masks[ctx->ctx->version];\n"
                    ret += f"\t{c_typename(idprefix, typ)} val = decode_u{typ.static_size*8}le(&ctx->net_bytes[ctx->net_offset-{typ.static_size}]);\n"
                    ret += f"\tif (val & ~mask)\n"
                    ret += f'\t\treturn lib9p_errorf(ctx->ctx, LINUX_EBADMSG, "unknown bits in {typ.name} bitfield: %#0{typ.static_size}"PRIx{typ.static_size*8},\n'
                    ret += "\t\t                    val & ~mask);\n"
                    ret += "\treturn false;\n"
            case Struct():
                if len(typ.members) == 0:
                    ret += "\n\treturn false;\n"
                    ret += "}\n"
                    continue

                if typ.name == "stat":  # SPECIAL
                    ret += f"\n\tuint32_t size_offset = ctx->net_offset;"

                prefix0 = "\treturn "
                prefix1 = "\t    || "
                prefix2 = "\t       "

                struct_versions = typ.members[0].ver

                prefix = prefix0
                prev_size: int | None = None
                for member in typ.members:
                    ret += f"\n{prefix}"
                    if member.ver != struct_versions:
                        ret += "( " + c_vercond(idprefix, member.ver) + " && "
                    if member.cnt is not None:
                        assert prev_size
                        ret += f"_validate_list(ctx, decode_u{prev_size*8}le(&ctx->net_bytes[ctx->net_offset-{prev_size}]), validate_{member.typ.name}, sizeof({c_typename(idprefix, member.typ)}))"
                    else:
                        ret += f"validate_{member.typ.name}(ctx)"
                        if member.max:
                            assert member.static_size
                            ret += f"\n{prefix1}(decode_u{member.static_size*8}le(&ctx->net_bytes[ctx->net_offset-{member.static_size}]) > ({c_typename(idprefix, member.typ)})({member.max})"
                            ret += f'\n{prefix2}\t? lib9p_errorf(ctx->ctx, LINUX_EBADMSG, "list size is too large (%"PRIu{member.static_size*8}" > %"PRIu{member.static_size*8}")",'
                            ret += f"\n{prefix2}\t\tdecode_u{member.static_size*8}le(&ctx->net_bytes[ctx->net_offset-{member.static_size}]), ({c_typename(idprefix, member.typ)})({member.max}))"
                            ret += f"\n{prefix2}\t: false)"
                    if member.ver != struct_versions:
                        ret += " )"
                    prefix = prefix1
                    prev_size = member.static_size
                if typ.name == "stat":  # SPECIAL
                    assert typ.members[0].static_size
                    ret += f"\n{prefix1}((uint32_t)decode_u{typ.members[0].static_size*8}le(&ctx->net_bytes[size_offset]) != ctx->net_offset - size_offset"
                    ret += f'\n{prefix2}\t? lib9p_error(ctx->ctx, LINUX_EBADMSG, "stat size does not match stat contents")'
                    ret += f"\n{prefix2}\t: false)"
                ret += ";\n"
        ret += "}\n"

    # unmarshal_* ##############################################################
    ret += """
/* unmarshal_* ****************************************************************/

static ALWAYS_INLINE void unmarshal_1(struct _unmarshal_ctx *ctx, uint8_t *out) {
	*out = decode_u8le(&ctx->net_bytes[ctx->net_offset]);
	ctx->net_offset += 1;
}

static ALWAYS_INLINE void unmarshal_2(struct _unmarshal_ctx *ctx, uint16_t *out) {
	*out = decode_u16le(&ctx->net_bytes[ctx->net_offset]);
	ctx->net_offset += 2;
}

static ALWAYS_INLINE void unmarshal_4(struct _unmarshal_ctx *ctx, uint32_t *out) {
	*out = decode_u32le(&ctx->net_bytes[ctx->net_offset]);
	ctx->net_offset += 4;
}

static ALWAYS_INLINE void unmarshal_8(struct _unmarshal_ctx *ctx, uint64_t *out) {
	*out = decode_u64le(&ctx->net_bytes[ctx->net_offset]);
	ctx->net_offset += 8;
}
"""
    for typ in typs:
        inline = (
            " FLATTEN"
            if (isinstance(typ, Struct) and typ.msgid is not None)
            else " ALWAYS_INLINE"
        )
        argfn = unused if (isinstance(typ, Struct) and not typ.members) else used
        ret += "\n"
        ret += f"static{inline} void unmarshal_{typ.name}(struct _unmarshal_ctx *{argfn('ctx')}, {c_typename(idprefix, typ)} *out) {{\n"
        match typ:
            case Bitfield():
                ret += f"\tunmarshal_{typ.static_size}(ctx, (uint{typ.static_size*8}_t *)out);\n"
            case Struct():
                ret += "\tmemset(out, 0, sizeof(*out));\n"

                if typ.members:
                    struct_versions = typ.members[0].ver
                for member in typ.members:
                    if typ.name == "stat" and member.name == "stat_size":  # SPECIAL
                        ret += f"\tctx->net_offset += {member.static_size};\n"
                        continue
                    ret += "\t"
                    prefix = "\t"
                    if member.ver != struct_versions:
                        ret += "if ( " + c_vercond(idprefix, member.ver) + " ) "
                        prefix = "\t\t"
                    if member.cnt:
                        if member.ver != struct_versions:
                            ret += "{\n"
                        ret += f"{prefix}out->{member.name} = ctx->extra;\n"
                        ret += f"{prefix}ctx->extra += sizeof(out->{member.name}[0]) * out->{member.cnt};\n"
                        ret += f"{prefix}for (typeof(out->{member.cnt}) i = 0; i < out->{member.cnt}; i++)\n"
                        if typ.name in ['d', 's']: # SPECIAL
                            ret += f"{prefix}\tunmarshal_{member.typ.name}(ctx, (uint8_t *)&out->{member.name}[i]);\n"
                        else:
                            ret += f"{prefix}\tunmarshal_{member.typ.name}(ctx, &out->{member.name}[i]);\n"
                        if member.ver != struct_versions:
                            ret += "\t}\n"
                    else:
                        ret += (
                            f"unmarshal_{member.typ.name}(ctx, &out->{member.name});\n"
                        )
        ret += "}\n"

    # marshal_* ################################################################
    ret += """
/* marshal_* ******************************************************************/

static ALWAYS_INLINE bool _marshal_too_large(struct _marshal_ctx *ctx) {
	lib9p_errorf(ctx->ctx, LINUX_ERANGE, "%s too large to marshal into %s limit (limit=%"PRIu32")",
		(ctx->net_bytes[4] % 2 == 0) ? "T-message" : "R-message",
		ctx->ctx->version ? "negotiated" : ((ctx->net_bytes[4] % 2 == 0) ? "client" : "server"),
		ctx->ctx->max_msg_size);
	return true;
}

static ALWAYS_INLINE bool marshal_1(struct _marshal_ctx *ctx, uint8_t *val) {
	if (ctx->net_offset + 1 > ctx->ctx->max_msg_size)
		return _marshal_too_large(ctx);
	ctx->net_bytes[ctx->net_offset] = *val;
	ctx->net_offset += 1;
	return false;
}

static ALWAYS_INLINE bool marshal_2(struct _marshal_ctx *ctx, uint16_t *val) {
	if (ctx->net_offset + 2 > ctx->ctx->max_msg_size)
		return _marshal_too_large(ctx);
	encode_u16le(*val, &ctx->net_bytes[ctx->net_offset]);
	ctx->net_offset += 2;
	return false;
}

static ALWAYS_INLINE bool marshal_4(struct _marshal_ctx *ctx, uint32_t *val) {
	if (ctx->net_offset + 4 > ctx->ctx->max_msg_size)
		return true;
	encode_u32le(*val, &ctx->net_bytes[ctx->net_offset]);
	ctx->net_offset += 4;
	return false;
}

static ALWAYS_INLINE bool marshal_8(struct _marshal_ctx *ctx, uint64_t *val) {
	if (ctx->net_offset + 8 > ctx->ctx->max_msg_size)
		return true;
	encode_u64le(*val, &ctx->net_bytes[ctx->net_offset]);
	ctx->net_offset += 8;
	return false;
}
"""
    for typ in typs:
        inline = (
            " FLATTEN"
            if (isinstance(typ, Struct) and typ.msgid is not None)
            else " ALWAYS_INLINE"
        )
        argfn = unused if (isinstance(typ, Struct) and not typ.members) else used
        ret += "\n"
        ret += f"static{inline} bool marshal_{typ.name}(struct _marshal_ctx *{argfn('ctx')}, {c_typename(idprefix, typ)} *{argfn('val')}) {{"
        match typ:
            case Bitfield():
                ret += "\n"
                ret += f"\treturn marshal_{typ.static_size}(ctx, (uint{typ.static_size*8}_t *)val);\n"
            case Struct():
                if len(typ.members) == 0:
                    ret += "\n\treturn false;\n"
                    ret += "}\n"
                    continue

                if typ.name == "stat":  # SPECIAL
                    ret += "\n\tuint32_t size_offset = ctx->net_offset;"

                prefix0 = "\treturn "
                prefix1 = "\t    || "
                prefix2 = "\t       "

                struct_versions = typ.members[0].ver
                prefix = prefix0
                for member in typ.members:
                    if typ.name == "stat" and member.name == "stat_size":  # SPECIAL:
                        assert member.static_size
                        ret += f"\n{prefix }(ctx->net_offset + {member.static_size} > ctx->ctx->max_msg_size"
                        ret += f"\n{prefix2}\t? _marshal_too_large(ctx)"
                        ret += f"\n{prefix2}\t: ({{ ctx->net_offset += {member.static_size}; false; }}))"
                        prefix = prefix1
                        continue
                    ret += f"\n{prefix}"
                    if member.ver != struct_versions:
                        ret += "( " + c_vercond(idprefix, member.ver) + " && "
                    if member.cnt:
                        ret += "({"
                        ret += f"\n{prefix2}\tbool err = false;"
                        ret += f"\n{prefix2}\tfor (typeof(val->{member.cnt}) i = 0; i < val->{member.cnt} && !err; i++)"
                        if typ.name in ['d', 's']: # SPECIAL
                            ret += f"\n{prefix2}\t\terr = marshal_{member.typ.name}(ctx, (uint8_t *)&val->{member.name}[i]);"
                        else:
                            ret += f"\n{prefix2}\t\terr = marshal_{member.typ.name}(ctx, &val->{member.name}[i]);"
                        ret += f"\n{prefix2}\terr;"
                        ret += f"\n{prefix2}}})"
                    else:
                        ret += f"marshal_{member.typ.name}(ctx, &val->{member.name})"
                    if member.ver != struct_versions:
                        ret += " )"
                    prefix = prefix1
                if typ.name == "stat":  # SPECIAL
                    assert typ.members[0].static_size
                    ret += f"\n{prefix1}((ctx->net_offset - size_offset > UINT16_MAX)"
                    ret += f'\n{prefix2}\t? lib9p_error(ctx->ctx, LINUX_ERANGE, "stat object too large")'
                    ret += f"\n{prefix2}\t: ({{ encode_u{typ.members[0].static_size*8}le((uint{typ.members[0].static_size*8}_t)(ctx->net_offset - size_offset), &ctx->net_bytes[size_offset]);"
                    ret += f"\n{prefix2}        false; }}))"
                ret += ";\n"
        ret += "}\n"

    # vtables ##################################################################
    ret += f"""
/* vtables ********************************************************************/

#define _MSG(typ) [{idprefix.upper()}TYP_##typ] = {{                          \\
		.basesize  = sizeof(struct {idprefix}msg_##typ),     \\
		.validate  = validate_##typ,                     \\
		.unmarshal = (_unmarshal_fn_t)unmarshal_##typ,   \\
		.marshal   = (_marshal_fn_t)marshal_##typ,       \\
	}}

struct _vtable_version _{idprefix}vtables[{c_verenum(idprefix, 'NUM')}] = {{
"""

    ret += f"\t[{c_verenum(idprefix, 'unknown')}] = {{ .msgs = {{\n"
    for msg in just_structs_msg(typs):
        if msg.name in ["Tversion", "Rversion", "Rerror"]:  # SPECIAL
            ret += f"\t\t_MSG({msg.name}),\n"
    ret += "\t}},\n"

    for ver in sorted(versions):
        ret += f"\t[{c_verenum(idprefix, ver)}] = {{ .msgs = {{\n"
        for msg in just_structs_msg(typs):
            if ver not in msg.msgver:
                continue
            ret += f"\t\t_MSG({msg.name}),\n"
        ret += "\t}},\n"
    ret += "};\n"

    ############################################################################
    return ret


################################################################################


class Parser:
    cache: dict[str, tuple[str, list[Bitfield | Struct]]] = {}

    def parse_file(self, filename: str) -> tuple[str, list[Bitfield | Struct]]:
        filename = os.path.normpath(filename)
        if filename not in self.cache:

            def get_include(other_filename: str) -> tuple[str, list[Bitfield | Struct]]:
                return self.parse_file(os.path.join(filename, "..", other_filename))

            self.cache[filename] = parse_file(filename, get_include)
        return self.cache[filename]

    def all(self) -> tuple[set[str], list[Bitfield | Struct]]:
        ret_versions: set[str] = set()
        ret_typs: dict[str, Bitfield | Struct] = {}
        for version, typs in self.cache.values():
            if version in ret_versions:
                raise ValueError(f"duplicate protocol version {repr(version)}")
            ret_versions.add(version)
            for typ in typs:
                if typ.name in ret_typs:
                    if typ != ret_typs[typ.name]:
                        raise ValueError(f"duplicate type name {repr(typ.name)}")
                else:
                    ret_typs[typ.name] = typ
        return ret_versions, list(ret_typs.values())


if __name__ == "__main__":
    import sys

    if len(sys.argv) < 2:
        raise ValueError("requires at least 1 .txt filename")
    parser = Parser()
    for txtname in sys.argv[1:]:
        parser.parse_file(txtname)
    versions, typs = parser.all()
    outdir = os.path.normpath(os.path.join(sys.argv[0], ".."))
    with open(os.path.join(outdir, "include/lib9p/9p.generated.h"), "w") as fh:
        fh.write(gen_h("lib9p_", versions, typs))
    with open(os.path.join(outdir, "9p.generated.c"), "w") as fh:
        fh.write(gen_c("lib9p_", versions, typs))