path: root/Tools/scripts/freeze_modules.py

"""Freeze modules and regen related files (e.g. Python/frozen.c).

See the notes at the top of Python/frozen.c for more info.
"""

from collections import namedtuple
import hashlib
import os
import ntpath
import posixpath
import subprocess
import sys
import textwrap

from update_file import updating_file_with_tmpfile


ROOT_DIR = os.path.dirname(os.path.dirname(os.path.dirname(__file__)))
ROOT_DIR = os.path.abspath(ROOT_DIR)

STDLIB_DIR = os.path.join(ROOT_DIR, 'Lib')
# If MODULES_DIR is changed then the .gitattributes and .gitignore files
# need to be updated.
MODULES_DIR = os.path.join(ROOT_DIR, 'Python', 'frozen_modules')

if sys.platform != "win32":
    TOOL = os.path.join(ROOT_DIR, 'Programs', '_freeze_module')
    if not os.path.isfile(TOOL):
        # When building out of the source tree, get the tool from the current
        # directory
        TOOL = os.path.join('Programs', '_freeze_module')
        TOOL = os.path.abspath(TOOL)
        if not os.path.isfile(TOOL):
            sys.exit("ERROR: missing _freeze_module")
else:
    def find_tool():
        for arch in ['amd64', 'win32']:
            for exe in ['_freeze_module.exe', '_freeze_module_d.exe']:
                tool = os.path.join(ROOT_DIR, 'PCbuild', arch, exe)
                if os.path.isfile(tool):
                    return tool
        sys.exit("ERROR: missing _freeze_module.exe; you need to run PCbuild/build.bat")
    TOOL = find_tool()
    del find_tool

MANIFEST = os.path.join(MODULES_DIR, 'MANIFEST')
FROZEN_FILE = os.path.join(ROOT_DIR, 'Python', 'frozen.c')
MAKEFILE = os.path.join(ROOT_DIR, 'Makefile.pre.in')
PCBUILD_PROJECT = os.path.join(ROOT_DIR, 'PCbuild', '_freeze_module.vcxproj')
PCBUILD_FILTERS = os.path.join(ROOT_DIR, 'PCbuild', '_freeze_module.vcxproj.filters')
TEST_CTYPES = os.path.join(STDLIB_DIR, 'ctypes', 'test', 'test_values.py')


OS_PATH = 'ntpath' if os.name == 'nt' else 'posixpath'

# These are modules that get frozen.
FROZEN = [
    # See parse_frozen_spec() for the format.
    # In cases where the frozenid is duplicated, the first one is re-used.
    ('import system', [
        # These frozen modules are necessary for bootstrapping
        # the import system.
        'importlib._bootstrap : _frozen_importlib',
        'importlib._bootstrap_external : _frozen_importlib_external',
        # This module is important because some Python builds rely
        # on a builtin zip file instead of a filesystem.
        'zipimport',
        ]),
    ('stdlib - startup, without site (python -S)', [
        'abc',
        'codecs',
        # For now we do not freeze the encodings, due # to the noise all
        # those extra modules add to the text printed during the build.
        # (See https://github.com/python/cpython/pull/28398#pullrequestreview-756856469.)
        #'<encodings.*>',
        'io',
        ]),
    ('stdlib - startup, with site', [
        '_collections_abc',
        '_sitebuiltins',
        'genericpath',
        'ntpath',
        'posixpath',
        # We must explicitly mark os.path as a frozen module
        # even though it will never be imported.
        f'{OS_PATH} : os.path',
        'os',
        'site',
        'stat',
        ]),
    ('Test module', [
        '__hello__',
        '__hello__ : <__phello__>',
        '__hello__ : __phello__.spam',
        ]),
]
ESSENTIAL = {
    'importlib._bootstrap',
    'importlib._bootstrap_external',
    'zipimport',
}


#######################################
# platform-specific helpers

if os.path is posixpath:
    relpath_for_posix_display = os.path.relpath

    def relpath_for_windows_display(path, base):
        return ntpath.relpath(
            ntpath.join(*path.split(os.path.sep)),
            ntpath.join(*base.split(os.path.sep)),
        )

else:
    relpath_for_windows_display = ntpath.relpath

    def relpath_for_posix_display(path, base):
        return posixpath.relpath(
            posixpath.join(*path.split(os.path.sep)),
            posixpath.join(*base.split(os.path.sep)),
        )


#######################################
# specs

def parse_frozen_specs(sectionalspecs=FROZEN, destdir=None):
    seen = {}
    for section, specs in sectionalspecs:
        parsed = _parse_specs(specs, section, seen)
        for frozenid, pyfile, modname, ispkg, section in parsed:
            try:
                source = seen[frozenid]
            except KeyError:
                source = FrozenSource.from_id(frozenid, pyfile, destdir)
                seen[frozenid] = source
            else:
                assert not pyfile
            yield FrozenModule(modname, ispkg, section, source)


def _parse_specs(specs, section, seen):
    for spec in specs:
        info, subs = _parse_spec(spec, seen, section)
        yield info
        for info in subs or ():
            yield info


def _parse_spec(spec, knownids=None, section=None):
    """Yield an info tuple for each module corresponding to the given spec.

    The info consists of: (frozenid, pyfile, modname, ispkg, section).

    Supported formats:

      frozenid
      frozenid : modname
      frozenid : modname = pyfile

    "frozenid" and "modname" must be valid module names (dot-separated
    identifiers).  If "modname" is not provided then "frozenid" is used.
    If "pyfile" is not provided then the filename of the module
    corresponding to "frozenid" is used.

    Angle brackets around a frozenid (e.g. '<encodings>") indicate
    it is a package.  This also means it must be an actual module
    (i.e. "pyfile" cannot have been provided).  Such values can have
    patterns to expand submodules:

      <encodings.*>    - also freeze all direct submodules
      <encodings.**.*> - also freeze the full submodule tree

    As with "frozenid", angle brackets around "modname" indicate
    it is a package.  However, in this case "pyfile" should not
    have been provided and patterns in "modname" are not supported.
    Also, if "modname" has brackets then "frozenid" should not,
    and "pyfile" should have been provided..
    """
    frozenid, _, remainder = spec.partition(':')
    modname, _, pyfile = remainder.partition('=')
    frozenid = frozenid.strip()
    modname = modname.strip()
    pyfile = pyfile.strip()

    submodules = None
    if modname.startswith('<') and modname.endswith('>'):
        assert check_modname(frozenid), spec
        modname = modname[1:-1]
        assert check_modname(modname), spec
        if frozenid in knownids:
            pass
        elif pyfile:
            assert not os.path.isdir(pyfile), spec
        else:
            pyfile = _resolve_module(frozenid, ispkg=False)
        ispkg = True
    elif pyfile:
        assert check_modname(frozenid), spec
        assert not knownids or frozenid not in knownids, spec
        assert check_modname(modname), spec
        assert not os.path.isdir(pyfile), spec
        ispkg = False
    elif knownids and frozenid in knownids:
        assert check_modname(frozenid), spec
        assert check_modname(modname), spec
        ispkg = False
    else:
        assert not modname or check_modname(modname), spec
        resolved = iter(resolve_modules(frozenid))
        frozenid, pyfile, ispkg = next(resolved)
        if not modname:
            modname = frozenid
        if ispkg:
            pkgid = frozenid
            pkgname = modname
            def iter_subs():
                for frozenid, pyfile, ispkg in resolved:
                    assert not knownids or frozenid not in knownids, (frozenid, spec)
                    if pkgname:
                        modname = frozenid.replace(pkgid, pkgname, 1)
                    else:
                        modname = frozenid
                    yield frozenid, pyfile, modname, ispkg, section
            submodules = iter_subs()

    info = (frozenid, pyfile or None, modname, ispkg, section)
    return info, submodules


#######################################
# frozen source files

class FrozenSource(namedtuple('FrozenSource', 'id pyfile frozenfile')):

    @classmethod
    def from_id(cls, frozenid, pyfile=None, destdir=MODULES_DIR):
        if not pyfile:
            pyfile = os.path.join(STDLIB_DIR, *frozenid.split('.')) + '.py'
            #assert os.path.exists(pyfile), (frozenid, pyfile)
        frozenfile = resolve_frozen_file(frozenid, destdir)
        return cls(frozenid, pyfile, frozenfile)

    @property
    def frozenid(self):
        return self.id

    @property
    def modname(self):
        if self.pyfile.startswith(STDLIB_DIR):
            return self.id
        return None

    @property
    def symbol(self):
        # This matches what we do in Programs/_freeze_module.c:
        name = self.frozenid.replace('.', '_')
        return '_Py_M__' + name


def resolve_frozen_file(frozenid, destdir=MODULES_DIR):
    """Return the filename corresponding to the given frozen ID.

    For stdlib modules the ID will always be the full name
    of the source module.
    """
    if not isinstance(frozenid, str):
        try:
            frozenid = frozenid.frozenid
        except AttributeError:
            raise ValueError(f'unsupported frozenid {frozenid!r}')
    # We use a consistent naming convention for all frozen modules.
    frozenfile = frozenid.replace('.', '_') + '.h'
    if not destdir:
        return frozenfile
    return os.path.join(destdir, frozenfile)


#######################################
# frozen modules

class FrozenModule(namedtuple('FrozenModule', 'name ispkg section source')):

    def __getattr__(self, name):
        return getattr(self.source, name)

    @property
    def modname(self):
        return self.name

    def summarize(self):
        source = self.source.modname
        if source:
            source = f'<{source}>'
        else:
            source = relpath_for_posix_display(self.pyfile, ROOT_DIR)
        return {
            'module': self.name,
            'ispkg': self.ispkg,
            'source': source,
            'frozen': os.path.basename(self.frozenfile),
            'checksum': _get_checksum(self.frozenfile),
        }


def _iter_sources(modules):
    seen = set()
    for mod in modules:
        if mod.source not in seen:
            yield mod.source
            seen.add(mod.source)


#######################################
# generic helpers

def _get_checksum(filename):
    with open(filename) as infile:
        text = infile.read()
    m = hashlib.sha256()
    m.update(text.encode('utf8'))
    return m.hexdigest()


def resolve_modules(modname, pyfile=None):
    if modname.startswith('<') and modname.endswith('>'):
        if pyfile:
            assert os.path.isdir(pyfile) or os.path.basename(pyfile) == '__init__.py', pyfile
        ispkg = True
        modname = modname[1:-1]
        rawname = modname
        # For now, we only expect match patterns at the end of the name.
        _modname, sep, match = modname.rpartition('.')
        if sep:
            if _modname.endswith('.**'):
                modname = _modname[:-3]
                match = f'**.{match}'
            elif match and not match.isidentifier():
                modname = _modname
            # Otherwise it's a plain name so we leave it alone.
        else:
            match = None
    else:
        ispkg = False
        rawname = modname
        match = None

    if not check_modname(modname):
        raise ValueError(f'not a valid module name ({rawname})')

    if not pyfile:
        pyfile = _resolve_module(modname, ispkg=ispkg)
    elif os.path.isdir(pyfile):
        pyfile = _resolve_module(modname, pyfile, ispkg)
    yield modname, pyfile, ispkg

    if match:
        pkgdir = os.path.dirname(pyfile)
        yield from iter_submodules(modname, pkgdir, match)


def check_modname(modname):
    return all(n.isidentifier() for n in modname.split('.'))


def iter_submodules(pkgname, pkgdir=None, match='*'):
    if not pkgdir:
        pkgdir = os.path.join(STDLIB_DIR, *pkgname.split('.'))
    if not match:
        match = '**.*'
    match_modname = _resolve_modname_matcher(match, pkgdir)

    def _iter_submodules(pkgname, pkgdir):
        for entry in sorted(os.scandir(pkgdir), key=lambda e: e.name):
            matched, recursive = match_modname(entry.name)
            if not matched:
                continue
            modname = f'{pkgname}.{entry.name}'
            if modname.endswith('.py'):
                yield modname[:-3], entry.path, False
            elif entry.is_dir():
                pyfile = os.path.join(entry.path, '__init__.py')
                # We ignore namespace packages.
                if os.path.exists(pyfile):
                    yield modname, pyfile, True
                    if recursive:
                        yield from _iter_submodules(modname, entry.path)

    return _iter_submodules(pkgname, pkgdir)


def _resolve_modname_matcher(match, rootdir=None):
    if isinstance(match, str):
        if match.startswith('**.'):
            recursive = True
            pat = match[3:]
            assert match
        else:
            recursive = False
            pat = match

        if pat == '*':
            def match_modname(modname):
                return True, recursive
        else:
            raise NotImplementedError(match)
    elif callable(match):
        match_modname = match(rootdir)
    else:
        raise ValueError(f'unsupported matcher {match!r}')
    return match_modname


def _resolve_module(modname, pathentry=STDLIB_DIR, ispkg=False):
    assert pathentry, pathentry
    pathentry = os.path.normpath(pathentry)
    assert os.path.isabs(pathentry)
    if ispkg:
        return os.path.join(pathentry, *modname.split('.'), '__init__.py')
    return os.path.join(pathentry, *modname.split('.')) + '.py'


#######################################
# regenerating dependent files

def find_marker(lines, marker, file):
    for pos, line in enumerate(lines):
        if marker in line:
            return pos
    raise Exception(f"Can't find {marker!r} in file {file}")


def replace_block(lines, start_marker, end_marker, replacements, file):
    start_pos = find_marker(lines, start_marker, file)
    end_pos = find_marker(lines, end_marker, file)
    if end_pos <= start_pos:
        raise Exception(f"End marker {end_marker!r} "
                        f"occurs before start marker {start_marker!r} "
                        f"in file {file}")
    replacements = [line.rstrip() + '\n' for line in replacements]
    return lines[:start_pos + 1] + replacements + lines[end_pos:]


def regen_manifest(modules):
    header = 'module ispkg source frozen checksum'.split()
    widths = [5] * len(header)
    rows = []
    for mod in modules:
        info = mod.summarize()
        row = []
        for i, col in enumerate(header):
            value = info[col]
            if col == 'checksum':
                value = value[:12]
            elif col == 'ispkg':
                value = 'YES' if value else 'no'
            widths[i] = max(widths[i], len(value))
            row.append(value or '-')
        rows.append(row)

    modlines = [
        '# The list of frozen modules with key information.',
        '# Note that the "check_generated_files" CI job will identify',
        '# when source files were changed but regen-frozen wasn\'t run.',
        '# This file is auto-generated by Tools/scripts/freeze_modules.py.',
        ' '.join(c.center(w) for c, w in zip(header, widths)).rstrip(),
        ' '.join('-' * w for w in widths),
    ]
    for row in rows:
        for i, w in enumerate(widths):
            if header[i] == 'ispkg':
                row[i] = row[i].center(w)
            else:
                row[i] = row[i].ljust(w)
        modlines.append(' '.join(row).rstrip())

    print(f'# Updating {os.path.relpath(MANIFEST)}')
    with open(MANIFEST, 'w') as outfile:
        lines = (l + '\n' for l in modlines)
        outfile.writelines(lines)


def regen_frozen(modules):
    headerlines = []
    parentdir = os.path.dirname(FROZEN_FILE)
    for src in _iter_sources(modules):
        # Adding a comment to separate sections here doesn't add much,
        # so we don't.
        header = relpath_for_posix_display(src.frozenfile, parentdir)
        headerlines.append(f'#include "{header}"')

    deflines = []
    indent = '    '
    lastsection = None
    for mod in modules:
        if mod.section != lastsection:
            if lastsection is not None:
                deflines.append('')
            deflines.append(f'/* {mod.section} */')
        lastsection = mod.section

        symbol = mod.symbol
        pkg = '-' if mod.ispkg else ''
        line = ('{"%s", %s, %s(int)sizeof(%s)},'
                ) % (mod.name, symbol, pkg, symbol)
        # TODO: Consider not folding lines
        if len(line) < 80:
            deflines.append(line)
        else:
            line1, _, line2 = line.rpartition(' ')
            deflines.append(line1)
            deflines.append(indent + line2)

    if not deflines[0]:
        del deflines[0]
    for i, line in enumerate(deflines):
        if line:
            deflines[i] = indent + line

    print(f'# Updating {os.path.relpath(FROZEN_FILE)}')
    with updating_file_with_tmpfile(FROZEN_FILE) as (infile, outfile):
        lines = infile.readlines()
        # TODO: Use more obvious markers, e.g.
        # $START GENERATED FOOBAR$ / $END GENERATED FOOBAR$
        lines = replace_block(
            lines,
            "/* Includes for frozen modules: */",
            "/* End includes */",
            headerlines,
            FROZEN_FILE,
        )
        lines = replace_block(
            lines,
            "static const struct _frozen _PyImport_FrozenModules[] =",
            "/* sentinel */",
            deflines,
            FROZEN_FILE,
        )
        outfile.writelines(lines)


def regen_makefile(modules):
    frozenfiles = []
    rules = ['']
    for src in _iter_sources(modules):
        header = relpath_for_posix_display(src.frozenfile, ROOT_DIR)
        frozenfiles.append(f'\t\t{header} \\')

        pyfile = relpath_for_posix_display(src.pyfile, ROOT_DIR)
        # Note that we freeze the module to the target .h file
        # instead of going through an intermediate file like we used to.
        rules.append(f'{header}: Programs/_freeze_module {pyfile}')
        rules.append(
            (f'\tPrograms/_freeze_module {src.frozenid} '
             f'$(srcdir)/{pyfile} $(srcdir)/{header}'))
        rules.append('')

    frozenfiles[-1] = frozenfiles[-1].rstrip(" \\")

    print(f'# Updating {os.path.relpath(MAKEFILE)}')
    with updating_file_with_tmpfile(MAKEFILE) as (infile, outfile):
        lines = infile.readlines()
        lines = replace_block(
            lines,
            "FROZEN_FILES =",
            "# End FROZEN_FILES",
            frozenfiles,
            MAKEFILE,
        )
        lines = replace_block(
            lines,
            "# BEGIN: freezing modules",
            "# END: freezing modules",
            rules,
            MAKEFILE,
        )
        outfile.writelines(lines)


def regen_pcbuild(modules):
    projlines = []
    filterlines = []
    for src in _iter_sources(modules):
        pyfile = relpath_for_windows_display(src.pyfile, ROOT_DIR)
        header = relpath_for_windows_display(src.frozenfile, ROOT_DIR)
        intfile = ntpath.splitext(ntpath.basename(header))[0] + '.g.h'
        projlines.append(f'    <None Include="..\\{pyfile}">')
        projlines.append(f'      <ModName>{src.frozenid}</ModName>')
        projlines.append(f'      <IntFile>$(IntDir){intfile}</IntFile>')
        projlines.append(f'      <OutFile>$(PySourcePath){header}</OutFile>')
        projlines.append(f'    </None>')

        filterlines.append(f'    <None Include="..\\{pyfile}">')
        filterlines.append('      <Filter>Python Files</Filter>')
        filterlines.append('    </None>')

    print(f'# Updating {os.path.relpath(PCBUILD_PROJECT)}')
    with updating_file_with_tmpfile(PCBUILD_PROJECT) as (infile, outfile):
        lines = infile.readlines()
        lines = replace_block(
            lines,
            '<!-- BEGIN frozen modules -->',
            '<!-- END frozen modules -->',
            projlines,
            PCBUILD_PROJECT,
        )
        outfile.writelines(lines)
    print(f'# Updating {os.path.relpath(PCBUILD_FILTERS)}')
    with updating_file_with_tmpfile(PCBUILD_FILTERS) as (infile, outfile):
        lines = infile.readlines()
        lines = replace_block(
            lines,
            '<!-- BEGIN frozen modules -->',
            '<!-- END frozen modules -->',
            filterlines,
            PCBUILD_FILTERS,
        )
        outfile.writelines(lines)


#######################################
# freezing modules

def freeze_module(modname, pyfile=None, destdir=MODULES_DIR):
    """Generate the frozen module .h file for the given module."""
    for modname, pyfile, ispkg in resolve_modules(modname, pyfile):
        frozenfile = resolve_frozen_file(modname, destdir)
        _freeze_module(modname, pyfile, frozenfile)


def _freeze_module(frozenid, pyfile, frozenfile):
    tmpfile = frozenfile + '.new'

    argv = [TOOL, frozenid, pyfile, tmpfile]
    print('#', '  '.join(os.path.relpath(a) for a in argv), flush=True)
    try:
        subprocess.run(argv, check=True)
    except (FileNotFoundError, subprocess.CalledProcessError):
        if not os.path.exists(TOOL):
            sys.exit(f'ERROR: missing {TOOL}; you need to run "make regen-frozen"')
        raise  # re-raise

    os.replace(tmpfile, frozenfile)


#######################################
# the script

def main():
    # Expand the raw specs, preserving order.
    modules = list(parse_frozen_specs(destdir=MODULES_DIR))

    # Freeze the target modules.
    for src in _iter_sources(modules):
        _freeze_module(src.frozenid, src.pyfile, src.frozenfile)

    # Regen build-related files.
    regen_manifest(modules)
    regen_frozen(modules)
    regen_makefile(modules)
    regen_pcbuild(modules)


if __name__ == '__main__':
    argv = sys.argv[1:]
    if argv:
        sys.exit('ERROR: got unexpected args {argv}')
    main()