# Unix SMB/CIFS implementation.
# Copyright (C) 2014 Catalyst.Net Ltd
#
# Auto generate param_functions.c
#
#   ** NOTE! The following LGPL license applies to the ldb
#   ** library. This does NOT imply that all of Samba is released
#   ** under the LGPL
#
#  This library is free software; you can redistribute it and/or
#  modify it under the terms of the GNU Lesser General Public
#  License as published by the Free Software Foundation; either
#  version 3 of the License, or (at your option) any later version.
#
#  This library is distributed in the hope that it will be useful,
#  but WITHOUT ANY WARRANTY; without even the implied warranty of
#  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
#  Lesser General Public License for more details.
#
#  You should have received a copy of the GNU Lesser General Public
#  License along with this library; if not, see <http://www.gnu.org/licenses/>.
#

import os
import xml.etree.ElementTree as ET
import optparse

# parse command line arguments
parser = optparse.OptionParser()
parser.add_option("-f", "--file", dest="filename",
                  help="input file", metavar="FILE")
parser.add_option("-o", "--output", dest="output",
                  help='output file', metavar="FILE")
parser.add_option("--mode", type="choice", metavar="<FUNCTIONS|S3PROTO|LIBPROTO|PARAMDEFS|PARAMTABLE>",
                  choices=["FUNCTIONS", "S3PROTO", "LIBPROTO", "PARAMDEFS", "PARAMTABLE"], default="FUNCTIONS")
parser.add_option("--scope", metavar="<GLOBAL|LOCAL>",
                  choices=["GLOBAL", "LOCAL"], default="GLOBAL")

(options, args) = parser.parse_args()

if options.filename is None:
    parser.error("No input file specified")
if options.output is None:
    parser.error("No output file specified")


def iterate_all(path):
    """Iterate and yield all the parameters.

    :param path: path to parameters xml file
    """

    try:
        p = open(path, 'r')
    except IOError as e:
        raise Exception("Error opening parameters file")
    out = p.read()

    # parse the parameters xml file
    root = ET.fromstring(out)
    for parameter in root:
        name = parameter.attrib.get("name")
        param_type = parameter.attrib.get("type")
        context = parameter.attrib.get("context")
        func = parameter.attrib.get("function")
        synonym = parameter.attrib.get("synonym")
        removed = parameter.attrib.get("removed")
        generated = parameter.attrib.get("generated_function")
        handler = parameter.attrib.get("handler")
        enumlist = parameter.attrib.get("enumlist")
        deprecated = parameter.attrib.get("deprecated")
        synonyms = parameter.findall('synonym')

        if removed == "1":
            continue

        constant = parameter.attrib.get("constant")
        substitution = parameter.attrib.get("substitution")
        parm = parameter.attrib.get("parm")
        if name is None or param_type is None or context is None:
            raise Exception("Error parsing parameter: " + name)
        if func is None:
            func = name.replace(" ", "_").lower()
        if enumlist is None:
            enumlist = "NULL"
        if handler is None:
            handler = "NULL"
        yield {'name': name,
               'type': param_type,
               'context': context,
               'function': func,
               'constant': (constant == '1'),
               'substitution': (substitution == '1'),
               'parm': (parm == '1'),
               'synonym' : synonym,
               'generated' : generated,
               'enumlist' : enumlist,
               'handler' : handler,
               'deprecated' : deprecated,
               'synonyms' : synonyms }


# map doc attributes to a section of the generated function
context_dict = {"G": "_GLOBAL", "S": "_LOCAL"}
param_type_dict = {
                    "boolean"      : "_BOOL",
                    "list"         : "_LIST",
                    "string"       : "_STRING",
                    "integer"      : "_INTEGER",
                    "enum"         : "_INTEGER",
                    "char"         : "_CHAR",
                    "boolean-auto" : "_INTEGER",
                    "cmdlist"      : "_LIST",
                    "bytes"        : "_INTEGER",
                    "octal"        : "_INTEGER",
                    "ustring"      : "_STRING",
                  }


def generate_functions(path_in, path_out):
    f = open(path_out, 'w')
    try:
        f.write('/* This file was automatically generated by generate_param.py. DO NOT EDIT */\n\n')
        for parameter in iterate_all(options.filename):
            # filter out parameteric options
            if ':' in parameter['name']:
                continue
            if parameter['synonym'] == "1":
                continue
            if parameter['generated'] == "0":
                continue

            output_string = "FN"
            temp = context_dict.get(parameter['context'])
            if temp is None:
                raise Exception(parameter['name'] + " has an invalid context " + parameter['context'])
            output_string += temp
            if parameter['type'] == "string" or parameter['type'] == "ustring":
                if parameter['substitution']:
                    output_string += "_SUBSTITUTED"
                else:
                    output_string += "_CONST"
            if parameter['parm']:
                output_string += "_PARM"
            temp = param_type_dict.get(parameter['type'])
            if temp is None:
                raise Exception(parameter['name'] + " has an invalid param type " + parameter['type'])
            output_string += temp
            f.write(output_string + "(" + parameter['function'] + ", " + parameter['function'] + ')\n')
    finally:
        f.close()


mapping = {
            'boolean'      : 'bool ',
            'string'       : 'char *',
            'integer'      : 'int ',
            'char'         : 'char ',
            'list'         : 'const char **',
            'enum'         : 'int ',
            'boolean-auto' : 'int ',
            'cmdlist'      : 'const char **',
            'bytes'        : 'int ',
            'octal'        : 'int ',
            'ustring'      : 'char *',
          }


def make_s3_param_proto(path_in, path_out):
    file_out = open(path_out, 'w')
    try:
        file_out.write('/* This file was automatically generated by generate_param.py. DO NOT EDIT */\n\n')
        header = get_header(path_out)
        file_out.write("#ifndef %s\n" % header)
        file_out.write("#define %s\n\n" % header)
        file_out.write("struct share_params;\n")
        file_out.write("struct loadparm_substitution;\n")
        for parameter in iterate_all(path_in):
            # filter out parameteric options
            if ':' in parameter['name']:
                continue
            if parameter['synonym'] == "1":
                continue
            if parameter['generated'] == "0":
                continue

            output_string = ""
            param_type = mapping.get(parameter['type'])
            if param_type is None:
                raise Exception(parameter['name'] + " has an invalid context " + parameter['context'])
            output_string += param_type
            output_string += "lp_%s" % parameter['function']

            param = None
            if parameter['parm']:
                param = "const struct share_params *p"
            else:
                param = "int"

            if parameter['type'] == 'string' or parameter['type'] == 'ustring':
                if parameter['substitution']:
                    if parameter['context'] == 'G':
                        output_string += '(TALLOC_CTX *ctx, const struct loadparm_substitution *lp_sub);\n'
                    elif parameter['context'] == 'S':
                        output_string += '(TALLOC_CTX *ctx, const struct loadparm_substitution *lp_sub, %s);\n' % param
                    else:
                        raise Exception(parameter['name'] + " has an invalid param type " + parameter['type'])
                else:
                    if parameter['context'] == 'G':
                        output_string = 'const ' + output_string + '(void);\n'
                    elif parameter['context'] == 'S':
                        output_string = 'const ' + output_string + '(%s);\n' % param
                    else:
                        raise Exception(parameter['name'] + " has an invalid param type " + parameter['type'])
            else:
                if parameter['context'] == 'G':
                    output_string += '(void);\n'
                elif parameter['context'] == 'S':
                    output_string += '(%s);\n' % param
                else:
                    raise Exception(parameter['name'] + " has an invalid param type " + parameter['type'])

            file_out.write(output_string)

        file_out.write("\n#endif /* %s */\n\n" % header)
    finally:
        file_out.close()


def make_lib_proto(path_in, path_out):
    file_out = open(path_out, 'w')
    try:
        file_out.write('/* This file was automatically generated by generate_param.py. DO NOT EDIT */\n\n')
        for parameter in iterate_all(path_in):
            # filter out parameteric options
            if ':' in parameter['name']:
                continue
            if parameter['synonym'] == "1":
                continue
            if parameter['generated'] == "0":
                continue

            output_string = ""
            param_type = mapping.get(parameter['type'])
            if param_type is None:
                raise Exception(parameter['name'] + " has an invalid context " + parameter['context'])
            output_string += param_type

            output_string += "lpcfg_%s" % parameter['function']

            if parameter['type'] == 'string' or parameter['type'] == 'ustring':
                if parameter['substitution']:
                    if parameter['context'] == 'G':
                        output_string += '(struct loadparm_context *, const struct loadparm_substitution *lp_sub, TALLOC_CTX *ctx);\n'
                    elif parameter['context'] == 'S':
                        output_string += '(struct loadparm_service *, struct loadparm_service *, TALLOC_CTX *ctx);\n'
                    else:
                        raise Exception(parameter['name'] + " has an invalid context " + parameter['context'])
                else:
                    if parameter['context'] == 'G':
                        output_string = 'const ' + output_string + '(struct loadparm_context *);\n'
                    elif parameter['context'] == 'S':
                        output_string = 'const ' + output_string + '(struct loadparm_service *, struct loadparm_service *);\n'
                    else:
                        raise Exception(parameter['name'] + " has an invalid param type " + parameter['type'])
            else:
                if parameter['context'] == 'G':
                    output_string += '(struct loadparm_context *);\n'
                elif parameter['context'] == 'S':
                    output_string += '(struct loadparm_service *, struct loadparm_service *);\n'
                else:
                    raise Exception(parameter['name'] + " has an invalid param type " + parameter['type'])

            file_out.write(output_string)
    finally:
        file_out.close()


def get_header(path):
    header = os.path.basename(path).upper()
    header = header.replace(".", "_").replace("\\", "_").replace("-", "_")
    return "__%s__" % header


def make_param_defs(path_in, path_out, scope):
    file_out = open(path_out, 'w')
    try:
        file_out.write('/* This file was automatically generated by generate_param.py. DO NOT EDIT */\n\n')
        header = get_header(path_out)
        file_out.write("#ifndef %s\n" % header)
        file_out.write("#define %s\n\n" % header)
        if scope == "GLOBAL":
            file_out.write("/**\n")
            file_out.write(" * This structure describes global (ie., server-wide) parameters.\n")
            file_out.write(" */\n")
            file_out.write("struct loadparm_global \n")
            file_out.write("{\n")
            file_out.write("\tTALLOC_CTX *ctx; /* Context for talloced members */\n")
        elif scope == "LOCAL":
            file_out.write("/**\n")
            file_out.write(" * This structure describes a single service.\n")
            file_out.write(" */\n")
            file_out.write("struct loadparm_service \n")
            file_out.write("{\n")
            file_out.write("\tbool   autoloaded;\n")

        for parameter in iterate_all(path_in):
            # filter out parameteric options
            if ':' in parameter['name']:
                continue
            if parameter['synonym'] == "1":
                continue

            if (scope == "GLOBAL" and parameter['context'] != "G" or
                scope == "LOCAL" and parameter['context'] != "S"):
                continue

            output_string = "\t"
            param_type = mapping.get(parameter['type'])
            if param_type is None:
                raise Exception(parameter['name'] + " has an invalid context " + parameter['context'])
            output_string += param_type

            output_string += "  %s;\n" % parameter['function']
            file_out.write(output_string)

        file_out.write("LOADPARM_EXTRA_%sS\n" % scope)
        file_out.write("};\n")
        file_out.write("\n#endif /* %s */\n\n" % header)
    finally:
        file_out.close()


type_dict = {
              "boolean"      : "P_BOOL",
              "boolean-rev"  : "P_BOOLREV",
              "boolean-auto" : "P_ENUM",
              "list"         : "P_LIST",
              "string"       : "P_STRING",
              "integer"      : "P_INTEGER",
              "enum"         : "P_ENUM",
              "char"         : "P_CHAR",
              "cmdlist"      : "P_CMDLIST",
              "bytes"        : "P_BYTES",
              "octal"        : "P_OCTAL",
              "ustring"      : "P_USTRING",
            }


def make_param_table(path_in, path_out):
    file_out = open(path_out, 'w')
    try:
        file_out.write('/* This file was automatically generated by generate_param.py. DO NOT EDIT */\n\n')
        header = get_header(path_out)
        file_out.write("#ifndef %s\n" % header)
        file_out.write("#define %s\n\n" % header)

        file_out.write("struct parm_struct parm_table[] = {\n")

        for parameter in iterate_all(path_in):
            # filter out parameteric options
            if ':' in parameter['name']:
                continue
            if parameter['context'] == 'G':
                p_class = "P_GLOBAL"
            else:
                p_class = "P_LOCAL"

            p_type = type_dict.get(parameter['type'])

            if parameter['context'] == 'G':
                temp = "GLOBAL"
            else:
                temp = "LOCAL"
            offset = "%s_VAR(%s)" % (temp, parameter['function'])

            enumlist = parameter['enumlist']
            handler = parameter['handler']
            synonym = parameter['synonym']
            deprecated = parameter['deprecated']
            flags_list = []
            if synonym == "1":
                flags_list.append("FLAG_SYNONYM")
            if deprecated == "1":
                flags_list.append("FLAG_DEPRECATED")
            flags = "|".join(flags_list)
            synonyms = parameter['synonyms']

            file_out.write("\t{\n")
            file_out.write("\t\t.label\t\t= \"%s\",\n" % parameter['name'])
            file_out.write("\t\t.type\t\t= %s,\n" % p_type)
            file_out.write("\t\t.p_class\t= %s,\n" % p_class)
            file_out.write("\t\t.offset\t\t= %s,\n" % offset)
            file_out.write("\t\t.special\t= %s,\n" % handler)
            file_out.write("\t\t.enum_list\t= %s,\n" % enumlist)
            if flags != "":
                file_out.write("\t\t.flags\t\t= %s,\n" % flags)
            file_out.write("\t},\n")

            if synonyms is not None:
                # for synonyms, we only list the synonym flag:
                flags = "FLAG_SYNONYM"
                for syn in synonyms:
                    file_out.write("\t{\n")
                    file_out.write("\t\t.label\t\t= \"%s\",\n" % syn.text)
                    file_out.write("\t\t.type\t\t= %s,\n" % p_type)
                    file_out.write("\t\t.p_class\t= %s,\n" % p_class)
                    file_out.write("\t\t.offset\t\t= %s,\n" % offset)
                    file_out.write("\t\t.special\t= %s,\n" % handler)
                    file_out.write("\t\t.enum_list\t= %s,\n" % enumlist)
                    if flags != "":
                        file_out.write("\t\t.flags\t\t= %s,\n" % flags)
                    file_out.write("\t},\n")

        file_out.write("\n\t{ .label = NULL }\n")
        file_out.write("};\n")
        file_out.write("\n#endif /* %s */\n\n" % header)
    finally:
        file_out.close()


if options.mode == 'FUNCTIONS':
    generate_functions(options.filename, options.output)
elif options.mode == 'S3PROTO':
    make_s3_param_proto(options.filename, options.output)
elif options.mode == 'LIBPROTO':
    make_lib_proto(options.filename, options.output)
elif options.mode == 'PARAMDEFS':
    make_param_defs(options.filename, options.output, options.scope)
elif options.mode == 'PARAMTABLE':
    make_param_table(options.filename, options.output)