mkdd/configure.py

"""
Creates a build script for ninja
"""
from argparse import ArgumentParser
from abc import ABC, abstractmethod
from collections import defaultdict
from dataclasses import dataclass
from io import StringIO
import json
import pickle
import os
import re
from sys import executable as PYTHON, platform
from typing import List, Tuple

from ninja_syntax import Writer

#############################
# Create build options file #
#############################

parser = ArgumentParser()
parser.add_argument("-r", "--region", type=str, action='store', help="Specify target region\nus targets the debug version, eu targets eu Release")
parser.add_argument("-j", "--jsys", action='store_true')
parser.add_argument("-m", "--map", action='store_true')

args = parser.parse_args()
ymlBuf = ""
jsystem_debug = False
make_map = False    

if args.region == "eu":
    print("Targetting EU Release")
    ymlBuf = "region: \"eu\"\nversion: \"Release\""
#elif(args.region == "us"):
    #ymlBuf = "region: \"us\"\nversion: \"MarioClub\""
else:
    print("Targetting Debug")
    ymlBuf = "region: \"us\"\nversion: \"MarioClub\""
if args.jsys is True:
    print("Targetting JSystem Debug, Only use this with TP Debug objects!")
    jsystem_debug = True
if args.map is True:
    print("Linker map generation is on")
    make_map = True

with open("config/build_opts.yml", 'w') as f:
    f.write(ymlBuf)

import common as c

####################
# Setup Validation #
####################

# Check CW was added
assert os.path.exists("tools/GC/2.6/mwcceppc.exe") and \
    os.path.exists("tools/GC/1.2.5n/mwcceppc.exe") and \
    os.path.exists("tools/GC/1.2.5/mwcceppc.exe") and \
    os.path.exists("tools/GC/2.6/mwldeppc.exe"), \
    "Error: Codewarrior compiler(s) not found!"

# Check binaries were added
assert os.path.exists(c.DOL), \
       "Error: Base binary not found"

# Check binaries are correct
dol_hash = c.get_file_sha1(c.DOL)
assert dol_hash == bytes.fromhex(c.DOL_SHA1_HASH), \
       "Error: Base dol hash isn't correct."

# Check submodules added
assert os.path.exists(c.PPCDIS), \
       "Error: Git submodules not initialised"

##########
# Assets #
##########

@dataclass
class Asset:
    binary: str
    path: str
    start: int
    end: int

    def load(yml_path: str):
        return {
            asset: Asset(binary, asset, *adat["addrs"])
            for binary, bdat in c.load_from_yaml(yml_path).items()
            for asset, adat in bdat.items()
        }

    def dump(self):
        # Needs fix: since multi version is now a thing it doesn't overwrite the files
        #if os.path.exists(f"{c.INCDIR}/{self.path}") == False:
        print(f"Ripping {self.path} from main.dol")
        os.system(
            f"{PYTHON} {c.PPCDIS}/assetrip.py {c.DOL_YML} 0x{self.start:x} {self.end:x} {c.INCDIR}/{self.path}")

assets = Asset.load(c.ASSETS_YML)

##############
# Rip Assets #
##############

for asset in assets.values():
    Asset.dump(asset)

###############
# Ninja Setup #
###############

outbuf = StringIO()
n = Writer(outbuf)
n.variable("ninja_required_version", "1.3")
n.newline()

################
# Project Dirs #
################

n.variable("builddir", c.BUILDDIR)
n.variable("outdir", c.OUTDIR)
n.variable("orig", c.ORIG)
n.variable("tools", c.TOOLS)
n.variable("config", c.CONFIG)
n.newline()

# This script requires the build folder
os.makedirs(c.BUILDDIR, exist_ok=True)

#########
# Tools #
#########

n.variable("python", c.PYTHON)
n.variable("ppcdis", c.PPCDIS)
n.variable("analyser", c.ANALYSER)
n.variable("disassembler", c.DISASSEMBLER)
n.variable("orderstrings", c.ORDERSTRINGS)
n.variable("orderfloats", c.ORDERFLOATS)
n.variable("forcefilesgen", c.FORCEFILESGEN)
n.variable("elf2dol", c.ELF2DOL)
n.variable("codewarrior", c.CODEWARRIOR)
n.variable("cc", c.CC)
n.variable("ld", c.LD)
n.variable("devkitppc", c.DEVKITPPC)
n.variable("as", c.AS)
n.variable("cpp", c.CPP)
n.variable("iconv", c.ICONV)
n.newline()

##############
# Tool flags #
##############

n.variable("asflags", c.ASFLAGS)
n.variable("cppflags", c.CPPFLAGS)
n.variable("ldflags", c.LDFLAGS)
n.variable("ppcdis_analysis_flags", c.PPCDIS_ANALYSIS_FLAGS)
n.variable("ppcdis_disasm_flags", c.PPCDIS_DISASM_FLAGS)
n.newline()

#########
# Rules #
#########

# Windows can't use && without this
ALLOW_CHAIN = "cmd /c " if os.name == "nt" else ""

n.rule(
    "analyse",
    command = "$analyser $in $out $analysisflags",
    description = "ppcdis analysis $in",
    pool="console"
)

n.rule(
    "disasm",
    command = "$disassembler $in $out -q $disasmflags",
    description = "ppcdis full disassembly $out"
)

n.rule(
    "disasm_slice",
    command = "$disassembler $in $out -q $disasmflags -s $slice",
    description = "ppcdis disassembly $out"
)

n.rule(
    "disasm_single",
    command = "$disassembler $in $out -f $addr -i -q $disasmflags",
    description = "ppcdis function disassembly $addr"
)

n.rule(
    "jumptable",
    command = "$disassembler $in $out -j $addr -q $disasmflags",
    description = "Jumptable $addr"
)

n.rule(
    "orderstrings",
    command = "$orderstrings $in $addrs $out $flags --enc shift-jis",
    description = "Order strings $in $addrs"
)

n.rule(
    "orderfloats",
    command = "$orderfloats $in $addrs $out $flags",
    description = "Order floats $in $addrs"
)

n.rule(
    "forcefiles",
    command = "$forcefilesgen $in $out $forcefiles",
    description = "LCF FORCEFILES generation $in"
)

n.rule(
    "elf2dol",
    command = "$elf2dol $in -o $out",
    description = "elf2dol $in"
)

n.rule(
    "sha1sum",
    command = ALLOW_CHAIN + "sha1sum -c $in && touch $out",
    description = "Verify $in",
    pool="console"
)

n.rule(
    "as",
    command = f"$as $asflags -c $in -o $out",
    description = "AS $in"
)

n.rule(
    "cc",
    command = ALLOW_CHAIN + f"$cpp -M $in -MF $out.d $cppflags && $cc $cflags -c $in -o $out",
    description = "CC $in",
    deps = "gcc",
    depfile = "$out.d"
)

n.rule(
    "ccs",
    command = ALLOW_CHAIN + f"$cpp -M $in -MF $out.d $cppflags && $cc $cflags -S $in -o $out",
    description = "CC -S $in",
    deps = "gcc",
    depfile = "$out.d"
)

if make_map is True:
    n.rule(
        "ld",
        command = "$ld $ldflags -mapunused -map $map -lcf $lcf @$out.rsp -o $out",
        rspfile  = "$out.rsp",
        rspfile_content = "$in_newline",
        description = "LD $out",
    )
else:
    n.rule(
        "ld",
        command = "$ld $ldflags -lcf $lcf @$out.rsp -o $out",
        rspfile  = "$out.rsp",
        rspfile_content = "$in_newline",
        description = "LD $out",
    )

n.rule(
    "iconv",
    command = "$iconv $in $out",
    description = "iconv $in",
)

###########
# Sources #
###########

class GeneratedInclude(ABC):
    def __init__(self, ctx: c.SourceContext, source_name: str, path: str):
        self.ctx = ctx
        self.source_name = source_name
        self.path = path

    @abstractmethod
    def build(self):
        raise NotImplementedError

    def find(ctx: c.SourceContext, source_name: str, txt: str) -> List["GeneratedInclude"]:
        return [
            cl(ctx, source_name, match)
            for cl in (
                AsmInclude,
                JumptableInclude,
                StringInclude,
                FloatInclude,
                DoubleInclude
            )
            for match in re.findall(cl.REGEX, txt)
        ]

class AsmInclude(GeneratedInclude):
    REGEX = r'#include "asm\/([0-9a-f]{8})\.s"'

    def __init__(self, ctx: c.SourceContext, source_name: str, match: str):
        self.addr = match
        super().__init__(ctx, source_name, f"{c.BUILD_INCDIR}/asm/{self.addr}.s")

    def build(includes: List["AsmInclude"]):
        # Skip empty list
        if len(includes) == 0:
            return

        # Get ctx from first include (all should be equal)
        ctx = includes[0].ctx

        # Sort by source name
        batches = defaultdict(list)
        for inc in includes:
            batches[inc.source_name].append(inc)
        
        # Compile by source name
        # TODO: subdivide large batches
        for source_name, incs in batches.items():
            n.build(
                [inc.path for inc in incs],
                rule="disasm_single",
                inputs=[ctx.binary, ctx.labels, ctx.relocs],
                implicit=[c.SYMBOLS, c.DISASM_OVERRIDES],
                variables={
                    "disasmflags" : f"$ppcdis_disasm_flags -n {source_name}",
                    "addr" : ' '.join(inc.addr for inc in incs)
                }
            )
    
    def __repr__(self):
        return f"AsmInclude({self.addr})"

class JumptableInclude(GeneratedInclude):
    REGEX = r'#include "jumptable\/([0-9a-f]{8})\.inc"'

    def __init__(self, ctx: c.SourceContext, source_name: str, match: str):
        self.addr = match
        super().__init__(ctx, source_name, f"{c.BUILD_INCDIR}/jumptable/{self.addr}.inc")
    
    def build(includes: List["JumptableInclude"]):
        # Skip empty list
        if len(includes) == 0:
            return

        # Get context from first include (all should be equal)
        ctx = includes[0].ctx

        # Sort by source name
        batches = defaultdict(list)
        for inc in includes:
            batches[inc.source_name].append(inc)
        
        # Compile by source name
        # TODO: subdivide large batches
        for source_name, incs in batches.items():
            n.build(
                [inc.path for inc in incs],
                rule="jumptable",
                inputs=[ctx.binary, ctx.labels, ctx.relocs],
                implicit=[c.SYMBOLS, c.DISASM_OVERRIDES],
                variables={
                    "disasmflags" : f"$ppcdis_disasm_flags -n {source_name}",
                    "addr" : ' '.join(inc.addr for inc in incs)
                }
            )

    def __repr__(self):
        return f"JumptableInclude({self.addr})"

class StringInclude(GeneratedInclude):
    REGEX = r'#include "(orderstrings(m?))\/([0-9a-f]{8})_([0-9a-f]{8})\.inc"'

    def __init__(self, ctx: c.SourceContext, source_name: str, match: Tuple[str]):
        folder, manual, self.start, self.end = match
        self.manual = folder == "orderstrings"
        print(folder)
        super().__init__(ctx, source_name,
                         f"{c.BUILD_INCDIR}/{folder}/{self.start}_{self.end}.inc")

    def build(includes: List["StringInclude"]):
        # Skip empty list
        if len(includes) == 0:
            return

        # Get context from first include (all should be equal)
        ctx = includes[0].ctx

        # Build
        for inc in includes:
            flags = ""
            if (inc.manual == False):
                if (ctx.sdata2_threshold >= 4):
                    flags = "--sda"        
            print(f"{inc.start} {flags}")
            n.build(
                inc.path,
                rule="orderstrings",
                inputs=ctx.binary,
                variables={
                    "addrs" : f"{inc.start} {inc.end}",
                    "flags": f"{flags}"
                }
            )

    def __repr__(self):
        return f"StringInclude({self.start}, {self.end})"

class FloatInclude(GeneratedInclude):
    REGEX = r'#include "(orderfloats(m?))\/([0-9a-f]{8})_([0-9a-f]{8})\.inc"'

    def __init__(self, ctx: c.SourceContext, source_name: str, match: Tuple[str]):
        folder, manual, self.start, self.end = match
        self.manual = manual != ''
        super().__init__(ctx, source_name,
                         f"{c.BUILD_INCDIR}/{folder}/{self.start}_{self.end}.inc")

    def build(includes: List["FloatInclude"]):
        # Skip empty list
        if len(includes) == 0:
            return

        # Get context from first include (all should be equal)
        ctx = includes[0].ctx

        # Build
        for inc in includes:
            sda = "--sda " if ctx.sdata2_threshold >= 4 else ""
            asm = "" if inc.manual else "--asm"
            n.build(
                inc.path,
                rule="orderfloats",
                inputs=inc.ctx.binary,
                variables={
                    "addrs" : f"{inc.start} {inc.end}",
                    "flags" : f"{sda} {asm}"
                }
            )

    def __repr__(self):
        return f"FloatInclude({self.start}, {self.end})"

class DoubleInclude(GeneratedInclude):
    REGEX = r'#include "(orderdoubles(m?))\/([0-9a-f]{8})_([0-9a-f]{8})\.inc"'

    def __init__(self, ctx: c.SourceContext, source_name: str, match: Tuple[str]):
        folder, manual, self.start, self.end = match
        self.manual = manual != ''
        super().__init__(ctx, source_name,
                         f"{c.BUILD_INCDIR}/{folder}/{self.start}_{self.end}.inc")

    def build(includes: List["DoubleInclude"]):
        # Skip empty list
        if len(includes) == 0:
            return

        # Get context from first include (all should be equal)
        ctx = includes[0].ctx

        # Build
        for inc in includes:
            sda = "--sda " if ctx.sdata2_threshold >= 4 else ""
            asm = "" if inc.manual else "--asm"
            n.build(
                inc.path,
                rule="orderfloats",
                inputs=ctx.binary,
                variables={
                    "addrs" : f"{inc.start} {inc.end}",
                    "flags": f"--double {sda} {asm}"
                }
            )

    def __repr__(self):
        return f"DoubleInclude({self.start}, {self.end})"


class Source(ABC):
    def __init__(self, decompiled: bool, src_path: str, o_path: str,
                 gen_includes: List[GeneratedInclude] = []):
        self.decompiled = decompiled
        self.src_path = src_path
        self.o_path = o_path
        filename = src_path.split('/')[-1]
        self.dep = filename.rpartition('.')[0] + '.d'
        self.gen_includes = gen_includes

    def build(self):
        raise NotImplementedError
    
    def make(ctx: c.SourceContext, source: c.SourceDesc):
        if isinstance(source, str):
            ext = source.split('.')[-1].lower()
            if ext in ("c", "cpp", "cp", "cxx", "cc"):
                return CSource(ctx, source)
            elif ext == "s":
                return AsmSource(ctx, source)
            else:
                assert 0, f"Unknown source type .{ext}"
        else:
            return GenAsmSource(ctx, *source)

class GenAsmSource(Source):
    def __init__(self, ctx: c.SourceContext, section: str, start: int, end: int):
        self.start = start
        self.end = end
        self.ctx = ctx
        name = f"{section}_{start:x}_{end:x}.s"
        src_path = f"$builddir/asm/{section}_{start:x}_{end:x}.s"
        super().__init__(False, src_path, src_path + ".o")

        # Add ctors to forcefiles
        if section == ".ctors":
            forcefiles.append(name + ".o")

    def build(self):
        n.build(
            self.src_path,
            rule = "disasm_slice",
            inputs = [self.ctx.binary, self.ctx.labels, self.ctx.relocs],
            implicit = [c.SYMBOLS, c.DISASM_OVERRIDES],
            variables = {
                "slice" : f"{self.start:x} {self.end:x}",
                "disasmflags" : f"$ppcdis_disasm_flags"
            }
        )
        n.build(
            self.o_path,
            rule="as",
            inputs=self.src_path
        )
    
    def batch_build(sources: List["GenAsmSource"], batch_size=20):
        # TODO: configure batch size based on cpu core count

        # Skip empty list
        if len(sources) == 0:
            return

        # Get context from first include (all should be equal)
        ctx = sources[0].ctx

        for src in sources:
            n.build(
                src.o_path,
                rule="as",
                inputs=src.src_path
            )

        while len(sources) > 0:
            batch, sources = sources[:batch_size], sources[batch_size:]
            n.build(
                [src.src_path for src in batch],
                rule = "disasm_slice",
                inputs = [ctx.binary, ctx.labels, ctx.relocs],
                implicit = [c.SYMBOLS, c.DISASM_OVERRIDES],
                variables = {
                    "slice" : ' '.join(
                        f"{src.start:x} {src.end:x}"
                        for src in batch
                    ),
                    "disasmflags" : f"$ppcdis_disasm_flags"
                }
            )

class AsmSource(Source):
    def __init__(self, ctx: c.SourceContext, path: str):
        super().__init__(True, path, f"$builddir/{path}.o")

    def build(self):
        n.build(
            self.o_path,
            rule = "as",
            inputs = self.src_path
        )


class CSource(Source):
    def __init__(self, ctx: c.SourceContext, path: str):
        self.cc = c.CC
        self.cflags = ctx.cflags

        if path.startswith("libs/dolphin/"):
            self.cc = c.SDK_PACTHED_CC
            self.cflags = c.SDK_CFLAGS
        elif path.startswith("libs/PowerPC_EABI_Support/src/MSL_C/"):            
            self.cflags = c.MSL_C_DEBUG_CFLAGS
            if path.startswith("libs/PowerPC_EABI_Support/src/MSL_C/MSL_Common_Embedded/Math") or path.endswith("math_ppc.c") or path.endswith("extras.c"):
                self.cflags = c.MSL_C_CFLAGS
        elif path.startswith("libs/PowerPC_EABI_Support/src/Runtime/"):
            self.cflags = c.MSL_C_CFLAGS

        elif path.startswith("src/Kaneshige/") or path.startswith("src/Yamamoto/"):
            self.cflags = c.KANESHIGE_CFLAGS # TODO: Rename
        if c.VERSION == "Release":       
            if path.startswith("libs/JSystem/JAudio/"):
                self.cflags = c.JAUDIO_RELEASE_CFLAGS
            elif path.startswith("libs/JSystem/"):
                self.cflags = c.JSYSTEM_RELEASE_CFLAGS
        else:
            if path.startswith("libs/JSystem/JUtility/") or path.startswith("libs/JSystem/JKernel/") or path.startswith("libs/JSystem/J2DGraph/"):
                self.cflags = c.DOL_CFLAGS
            elif path.startswith("libs/JSystem/"): # once i have a file for every library this can finally be removed
                self.cflags = c.JSYSTEM_SPEED_CFLAGS
                #if(path.startswith("libs/JSystem/JAudio/Interface")):
                    #self.cflags += " -sym on"
        if path.startswith("libs/JSystem/JAudio/Task/"):
            self.cflags = c.JAUDIO_DSP_CFLAGS
        
        if jsystem_debug is True and path.startswith("libs/JSystem/"):
            self.cc = c.JSYSTEM_O0_CC
            self.cflags = c.JSYSTEM_O0_CFLAGS

        self.iconv_path = f"$builddir/iconv/{path}"

        # Find generated includes
        try:
            with open(path, encoding="utf-8") as f:
                gen_includes = GeneratedInclude.find(ctx, path, f.read())
        except:
            with open(path, encoding="shift-jis") as f:
                gen_includes = GeneratedInclude.find(ctx, path, f.read())

        self.s_path = f"$builddir/{path}.s"
        super().__init__(True, path, f"$builddir/{path}.o", gen_includes)

    def build(self):
        n.build(
            self.iconv_path,
            rule="iconv",
            inputs=self.src_path
        )
        n.build(
            self.o_path,
            rule = "cc",
            inputs = self.iconv_path,
            implicit = [inc.path for inc in self.gen_includes],
            variables = {
                "cc": self.cc,
                "cflags" : self.cflags,
                "dep" : self.dep
            }
        )
        # Optional manual debug target
        n.build(
            self.s_path,
            rule = "ccs",
            inputs = self.iconv_path,
            implicit = [inc.path for inc in self.gen_includes],
            variables = {
                "cflags" : self.cflags,
                "dep" : self.dep
            }
        )

def load_sources(ctx: c.SourceContext):
    raw = c.get_cmd_stdout(
        f"{c.SLICES} {ctx.binary} {ctx.slices} -o"
    )
    return [Source.make(ctx, s) for s in json.loads(raw)]

def find_gen_includes(sources: List[Source]):
    ret = defaultdict(list)
    for source in sources:
        if not isinstance(source, CSource):
            continue
        
        for inc in source.gen_includes:
            ret[type(inc)].append(inc)

    return ret

def make_asm_list(path: str, asm_includes: List[AsmInclude]):
    with open(path, 'wb') as f:
        pickle.dump(
            [
                int(inc.addr, 16)
                for inc in asm_includes
            ],
            f
        )

forcefiles = []

dol_sources = load_sources(c.DOL_CTX)
dol_gen_includes = find_gen_includes(dol_sources)
make_asm_list(c.DOL_ASM_LIST, dol_gen_includes[AsmInclude])

##########
# Builds #
##########

n.build(
    [c.DOL_LABELS, c.DOL_RELOCS],
    rule = "analyse",
    inputs = c.DOL_YML,
    implicit = [c.ANALYSIS_OVERRIDES],
    variables = {
        "analysisflags" : f"$ppcdis_analysis_flags"
    }
)

for cl, includes in dol_gen_includes.items():
    cl.build(includes)

dol_gen_asm = []
for source in dol_sources:
    if isinstance(source, GenAsmSource):
        dol_gen_asm.append(source)
    else:
        source.build()
GenAsmSource.batch_build(dol_gen_asm)

n.build(
    c.DOL_LCF,
    rule="forcefiles",
    inputs=c.DOL_LCF_TEMPLATE,
    variables={
        "forcefiles" : ' '.join(forcefiles)
    }
)

n.build(
    c.DOL_ELF,
    rule="ld",
    inputs=[s.o_path for s in dol_sources],
    implicit=c.DOL_LCF,
    implicit_outputs=c.DOL_MAP,
    variables={
        "map" : c.DOL_MAP,
        "lcf" : c.DOL_LCF
    }
)

n.build(
    c.DOL_OUT,
    rule="elf2dol",
    inputs=c.DOL_ELF,
)

n.build(
    c.DOL_OK,
    rule = "sha1sum",
    inputs = c.DOL_SHA,
    implicit = [c.DOL_OUT]
)
n.default(c.DOL_OK)

# Optional full binary disassembly
n.build(
    c.DOL_FULL,
    rule = "disasm",
    inputs=[c.DOL_YML, c.DOL_LABELS, c.DOL_RELOCS],
    implicit=[c.SYMBOLS, c.DISASM_OVERRIDES],
    variables={
        "disasmflags" : "$ppcdis_disasm_flags"
    }
)

##########
# Output #
##########

with open("build.ninja", 'w') as f:
    f.write(outbuf.getvalue())
n.close()