#!/usr/bin/env python3
#
# This file is part of the MicroPython project, http://micropython.org/
#
# The MIT License (MIT)
#
# Copyright (c) 2019 Damien P. George
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.

from __future__ import print_function
import sys
import os
import subprocess


###########################################################################
# Public functions to be used in the manifest


def include(manifest, **kwargs):
    """Include another manifest.

    The manifest argument can be a string (filename) or an iterable of
    strings.

    Relative paths are resolved with respect to the current manifest file.

    Optional kwargs can be provided which will be available to the
    included script via the `options` variable.

    e.g. include("path.py", extra_features=True)

    in path.py:
        options.defaults(standard_features=True)

        # freeze minimal modules.
        if options.standard_features:
            # freeze standard modules.
        if options.extra_features:
            # freeze extra modules.
    """

    if not isinstance(manifest, str):
        for m in manifest:
            include(m)
    else:
        manifest = convert_path(manifest)
        with open(manifest) as f:
            # Make paths relative to this manifest file while processing it.
            # Applies to includes and input files.
            prev_cwd = os.getcwd()
            os.chdir(os.path.dirname(manifest))
            exec(f.read(), globals(), {"options": IncludeOptions(**kwargs)})
            os.chdir(prev_cwd)


def freeze(path, script=None, opt=0):
    """Freeze the input, automatically determining its type.  A .py script
    will be compiled to a .mpy first then frozen, and a .mpy file will be
    frozen directly.

    `path` must be a directory, which is the base directory to search for
    files from.  When importing the resulting frozen modules, the name of
    the module will start after `path`, ie `path` is excluded from the
    module name.

    If `path` is relative, it is resolved to the current manifest.py.
    Use $(MPY_DIR), $(MPY_LIB_DIR), $(PORT_DIR), $(BOARD_DIR) if you need
    to access specific paths.

    If `script` is None all files in `path` will be frozen.

    If `script` is an iterable then freeze() is called on all items of the
    iterable (with the same `path` and `opt` passed through).

    If `script` is a string then it specifies the file or directory to
    freeze, and can include extra directories before the file or last
    directory.  The file or directory will be searched for in `path`.  If
    `script` is a directory then all files in that directory will be frozen.

    `opt` is the optimisation level to pass to mpy-cross when compiling .py
    to .mpy.
    """

    freeze_internal(KIND_AUTO, path, script, opt)


def freeze_as_str(path):
    """Freeze the given `path` and all .py scripts within it as a string,
    which will be compiled upon import.
    """

    freeze_internal(KIND_AS_STR, path, None, 0)


def freeze_as_mpy(path, script=None, opt=0):
    """Freeze the input (see above) by first compiling the .py scripts to
    .mpy files, then freezing the resulting .mpy files.
    """

    freeze_internal(KIND_AS_MPY, path, script, opt)


def freeze_mpy(path, script=None, opt=0):
    """Freeze the input (see above), which must be .mpy files that are
    frozen directly.
    """

    freeze_internal(KIND_MPY, path, script, opt)


###########################################################################
# Internal implementation

KIND_AUTO = 0
KIND_AS_STR = 1
KIND_AS_MPY = 2
KIND_MPY = 3

VARS = {}

manifest_list = []


class IncludeOptions:
    def __init__(self, **kwargs):
        self._kwargs = kwargs
        self._defaults = {}

    def defaults(self, **kwargs):
        self._defaults = kwargs

    def __getattr__(self, name):
        return self._kwargs.get(name, self._defaults.get(name, None))


class FreezeError(Exception):
    pass


def system(cmd):
    try:
        output = subprocess.check_output(cmd, stderr=subprocess.STDOUT)
        return 0, output
    except subprocess.CalledProcessError as er:
        return -1, er.output


def convert_path(path):
    # Perform variable substitution.
    for name, value in VARS.items():
        path = path.replace("$({})".format(name), value)
    # Convert to absolute path (so that future operations don't rely on
    # still being chdir'ed).
    return os.path.abspath(path)


def get_timestamp(path, default=None):
    try:
        stat = os.stat(path)
        return stat.st_mtime
    except OSError:
        if default is None:
            raise FreezeError("cannot stat {}".format(path))
        return default


def get_timestamp_newest(path):
    ts_newest = 0
    for dirpath, dirnames, filenames in os.walk(path, followlinks=True):
        for f in filenames:
            ts_newest = max(ts_newest, get_timestamp(os.path.join(dirpath, f)))
    return ts_newest


def mkdir(filename):
    path = os.path.dirname(filename)
    if not os.path.isdir(path):
        os.makedirs(path)


def freeze_internal(kind, path, script, opt):
    path = convert_path(path)
    if not os.path.isdir(path):
        raise FreezeError("freeze path must be a directory: {}".format(path))
    if script is None and kind == KIND_AS_STR:
        manifest_list.append((KIND_AS_STR, path, script, opt))
    elif script is None or isinstance(script, str) and script.find(".") == -1:
        # Recursively search `path` for files to freeze, optionally restricted
        # to a subdirectory specified by `script`
        if script is None:
            subdir = ""
        else:
            subdir = "/" + script
        for dirpath, dirnames, filenames in os.walk(path + subdir, followlinks=True):
            for f in filenames:
                freeze_internal(kind, path, (dirpath + "/" + f)[len(path) + 1 :], opt)
    elif not isinstance(script, str):
        # `script` is an iterable of items to freeze
        for s in script:
            freeze_internal(kind, path, s, opt)
    else:
        # `script` should specify an individual file to be frozen
        extension_kind = {KIND_AS_MPY: ".py", KIND_MPY: ".mpy"}
        if kind == KIND_AUTO:
            for k, ext in extension_kind.items():
                if script.endswith(ext):
                    kind = k
                    break
            else:
                print("warn: unsupported file type, skipped freeze: {}".format(script))
                return
        wanted_extension = extension_kind[kind]
        if not script.endswith(wanted_extension):
            raise FreezeError("expecting a {} file, got {}".format(wanted_extension, script))
        manifest_list.append((kind, path, script, opt))


# Formerly make-frozen.py.
# This generates:
# - MP_FROZEN_STR_NAMES macro
# - mp_frozen_str_sizes
# - mp_frozen_str_content
def generate_frozen_str_content(paths):
    def module_name(f):
        return f

    modules = []
    output = [b"#include <stdint.h>\n"]

    for path in paths:
        root = path.rstrip("/")
        root_len = len(root)

        for dirpath, dirnames, filenames in os.walk(root):
            for f in filenames:
                fullpath = dirpath + "/" + f
                st = os.stat(fullpath)
                modules.append((path, fullpath[root_len + 1 :], st))

    output.append(b"#define MP_FROZEN_STR_NAMES \\\n")
    for _path, f, st in modules:
        m = module_name(f)
        output.append(b'"%s\\0" \\\n' % m.encode())
    output.append(b"\n")

    output.append(b"const uint32_t mp_frozen_str_sizes[] = { ")

    for _path, f, st in modules:
        output.append(b"%d, " % st.st_size)
    output.append(b"0 };\n")

    output.append(b"const char mp_frozen_str_content[] = {\n")
    for path, f, st in modules:
        data = open(path + "/" + f, "rb").read()

        # We need to properly escape the script data to create a C string.
        # When C parses hex characters of the form \x00 it keeps parsing the hex
        # data until it encounters a non-hex character.  Thus one must create
        # strings of the form "data\x01" "abc" to properly encode this kind of
        # data.  We could just encode all characters as hex digits but it's nice
        # to be able to read the resulting C code as ASCII when possible.

        data = bytearray(data)  # so Python2 extracts each byte as an integer
        esc_dict = {ord("\n"): b"\\n", ord("\r"): b"\\r", ord('"'): b'\\"', ord("\\"): b"\\\\"}
        output.append(b'"')
        break_str = False
        for c in data:
            try:
                output.append(esc_dict[c])
            except KeyError:
                if 32 <= c <= 126:
                    if break_str:
                        output.append(b'" "')
                        break_str = False
                    output.append(chr(c).encode())
                else:
                    output.append(b"\\x%02x" % c)
                    break_str = True
        output.append(b'\\0"\n')

    output.append(b'"\\0"\n};\n\n')
    return b"".join(output)


def main():
    # Parse arguments
    import argparse

    cmd_parser = argparse.ArgumentParser(
        description="A tool to generate frozen content in MicroPython firmware images."
    )
    cmd_parser.add_argument("-o", "--output", help="output path")
    cmd_parser.add_argument("-b", "--build-dir", help="output path")
    cmd_parser.add_argument(
        "-f", "--mpy-cross-flags", default="", help="flags to pass to mpy-cross"
    )
    cmd_parser.add_argument("-v", "--var", action="append", help="variables to substitute")
    cmd_parser.add_argument("--mpy-tool-flags", default="", help="flags to pass to mpy-tool")
    cmd_parser.add_argument("files", nargs="+", help="input manifest list")
    args = cmd_parser.parse_args()

    # Extract variables for substitution.
    for var in args.var:
        name, value = var.split("=", 1)
        if os.path.exists(value):
            value = os.path.abspath(value)
        VARS[name] = value

    if "MPY_DIR" not in VARS or "PORT_DIR" not in VARS:
        print("MPY_DIR and PORT_DIR variables must be specified")
        sys.exit(1)

    # Get paths to tools
    MPY_CROSS = VARS["MPY_DIR"] + "/mpy-cross/mpy-cross"
    if sys.platform == "win32":
        MPY_CROSS += ".exe"
    MPY_CROSS = os.getenv("MICROPY_MPYCROSS", MPY_CROSS)
    MPY_TOOL = VARS["MPY_DIR"] + "/tools/mpy-tool.py"

    # Ensure mpy-cross is built
    if not os.path.exists(MPY_CROSS):
        print("mpy-cross not found at {}, please build it first".format(MPY_CROSS))
        sys.exit(1)

    # Include top-level inputs, to generate the manifest
    for input_manifest in args.files:
        try:
            if input_manifest.endswith(".py"):
                include(input_manifest)
            else:
                exec(input_manifest)
        except FreezeError as er:
            print('freeze error executing "{}": {}'.format(input_manifest, er.args[0]))
            sys.exit(1)

    # Process the manifest
    str_paths = []
    mpy_files = []
    ts_newest = 0
    for kind, path, script, opt in manifest_list:
        if kind == KIND_AS_STR:
            str_paths.append(path)
            ts_outfile = get_timestamp_newest(path)
        elif kind == KIND_AS_MPY:
            infile = "{}/{}".format(path, script)
            outfile = "{}/frozen_mpy/{}.mpy".format(args.build_dir, script[:-3])
            ts_infile = get_timestamp(infile)
            ts_outfile = get_timestamp(outfile, 0)
            if ts_infile >= ts_outfile:
                print("MPY", script)
                mkdir(outfile)
                res, out = system(
                    [MPY_CROSS]
                    + args.mpy_cross_flags.split()
                    + ["-o", outfile, "-s", script, "-O{}".format(opt), infile]
                )
                if res != 0:
                    print("error compiling {}:".format(infile))
                    sys.stdout.buffer.write(out)
                    raise SystemExit(1)
                ts_outfile = get_timestamp(outfile)
            mpy_files.append(outfile)
        else:
            assert kind == KIND_MPY
            infile = "{}/{}".format(path, script)
            mpy_files.append(infile)
            ts_outfile = get_timestamp(infile)
        ts_newest = max(ts_newest, ts_outfile)

    # Check if output file needs generating
    if ts_newest < get_timestamp(args.output, 0):
        # No files are newer than output file so it does not need updating
        return

    # Freeze paths as strings
    output_str = generate_frozen_str_content(str_paths)

    # Freeze .mpy files
    if mpy_files:
        res, output_mpy = system(
            [
                sys.executable,
                MPY_TOOL,
                "-f",
                "-q",
                args.build_dir + "/genhdr/qstrdefs.preprocessed.h",
            ]
            + args.mpy_tool_flags.split()
            + mpy_files
        )
        if res != 0:
            print("error freezing mpy {}:".format(mpy_files))
            print(output_mpy.decode())
            sys.exit(1)
    else:
        output_mpy = (
            b'#include "py/emitglue.h"\n'
            b"extern const qstr_pool_t mp_qstr_const_pool;\n"
            b"const qstr_pool_t mp_qstr_frozen_const_pool = {\n"
            b"    (qstr_pool_t*)&mp_qstr_const_pool, MP_QSTRnumber_of, 0, 0\n"
            b"};\n"
            b'const char mp_frozen_names[] = { MP_FROZEN_STR_NAMES "\\0"};\n'
            b"const mp_raw_code_t *const mp_frozen_mpy_content[] = {NULL};\n"
        )

    # Generate output
    print("GEN", args.output)
    mkdir(args.output)
    with open(args.output, "wb") as f:
        f.write(b"//\n// Content for MICROPY_MODULE_FROZEN_STR\n//\n")
        f.write(output_str)
        f.write(b"//\n// Content for MICROPY_MODULE_FROZEN_MPY\n//\n")
        f.write(output_mpy)


if __name__ == "__main__":
    main()