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Current File : //proc/self/root/usr/lib/Acronis/PyShell/site-tools/gtobview.py

import acrort
import acrobind
import shlex


class GtobOptions:
    def __init__(self, *, request_url=False):
        self.stop_on_error = False
        self.request_url = request_url

    def to_unit(self):
        result = acrort.plain.Unit()
        if self.stop_on_error:
            result = result.consolidate({'StopOnError': True})
        if self.request_url:
            result = result.consolidate({'ResolveHumanUrl': True})
        return result


class GtobCommandProcessor(acrobind.CommandShell):
    def __init__(self, connection, printer, config):
        acrobind.CommandShell.__init__(self, connection=connection, printer=printer, config=config)
        self._projection = None
        self._tree = connection.gtob.open_global_tree()
        self._current_item = self._tree.root

    def do_reset(self, arg):
        """Reset global tree to its default state."""
        tree = self.connection.gtob.open_global_tree()
        self._projection = None
        self._tree = tree
        self._current_item = self._tree.root
        self.print_browsing_details()

    def _open_logon_profile(self):
        return self.connection.access.open_logon_profile()

    def _open_logon_proxy_profile(self):
        host_id = self._current_item.attributes.HostID.ref
        return self.connection.access.open_logon_profile(target_machine=host_id)

    def _open_current_profile(self):
        return self.connection.access.open_user_profile()

    def _open_delegated_profile(self):
        host_id = self._current_item.attributes.HostID.ref
        return self.connection.access.open_user_profile(target_machine=host_id)

    def preloop(self):
        self.print_browsing_details()

    def print_browsing_details(self):
        self.printer.write("Hierarchy root: {}".format(self._tree.root.key))

    def item_to_display_name(self, item):
        return item.display_name

    def item_to_name(self, item):
        return item.name

    def item_to_key(self, item):
        return item.key

    def print_items(self, items, transform_handler):
        i = 0
        for item in items:
            i = i + 1
            msg = transform_handler(item)
            self.printer.write("{:<4} ...... {}".format(i, msg))

    def do_jump(self, arg):
        """Jump to the global tree inside managed machine assuming that
        current item has property 'HostID' property in attributes.
        """
        host_id = self._current_item.attributes.HostID.ref
        tree = self.connection.gtob.open_global_tree(projection=self._projection, target_machine=host_id)
        self._tree = tree
        self._current_item = tree.root
        self.print_browsing_details()

    def do_stat(self, arg):
        """List details about current item."""
        self.printer.write(self._current_item)

    def do_top(self, arg):
        """Change current item to hierarchy root."""
        self._current_item = self._tree.root

    def do_cd(self, arg):
        """Change current item. Default credentials is used if possible.
        | Synopsis:
        |     cd ..
        |     cd index
        |
        | Description:
        |     .. - change current item on parent.
        |  index - change current item on child by its index
        """
        options = GtobOptions()
        if arg == '..':
            parents = self._current_item.parents
            if not parents:
                acrort.common.make_logic_error("Current item {} doesn't have any parent.".format(self._current_item.key)).throw()
            subject = self._tree.resolve_item(key=parents[0], options=options)
        else:
            items = self._tree.select_children(key=self._current_item.key, options=options)
            idx = int(arg) - 1
            subject = items[idx]
        subject.throw_if_error_item()
        self._current_item = subject

    def do_ls(self, arg):
        """List child or parent items in specified mode. Default credentials is used if possible.
        | Synopsis:
        |     ls [d|k|n] [e]
        |
        | Description:
        |    d - print display names, used by default
        |    k - print keys
        |    n - print names
        |    e - turn on 'StopOnError' mode
        """
        options = GtobOptions()
        list_method = self.item_to_display_name

        args = shlex.split(arg)
        if 'd' in args:
            list_method = self.item_to_display_name
        if 'k' in args:
            list_method = self.item_to_key
        if 'n' in args:
            list_method = self.item_to_name
        if 'e' in args:
            options.stop_on_error = True

        items = self._tree.select_children(key=self._current_item.key, options=options)
        if items:
            items[0].throw_if_error_item()
            self.print_items(items, list_method)
        else:
            self.printer.write("No items.")

    def do_resolve_key(self, arg):
        """Resolve specified item key. Default credentials is used if possible.
        | Synopsis:
        |     resolve-key <key>
        """
        options = GtobOptions()
        subject = self._tree.resolve_item(key=arg, options=options)
        subject.throw_if_error_item()
        self._current_item = subject

    def do_resolve(self, arg):
        """Resolve item by protocol and human path. Default credentials is used if possible.
        | Synopsis:
        |     resolve <protocol> <human path>
        """
        protocol, path = shlex.split(arg)
        options = GtobOptions()
        subject = self._tree.resolve_item(url=acrort.gtob.ItemUrl(protocol=protocol, path=path), options=options)
        subject.throw_if_error_item()
        self._current_item = subject

    def do_resolve_url(self, arg):
        """Resolve specified item by its URL. Default credentials is used if possible.
        | Synopsis:
        |     resolve-url <url>
        """
        url = shlex.split(arg)[0]
        key = acrort.gtob.ItemKey(url, 'url')
        self.do_resolve_key(key)

    def do_url(self, arg):
        """List URL for current item."""
        options = GtobOptions(request_url=True)
        subject = self._tree.resolve_item(key=self._current_item.key, options=options)
        subject.throw_if_error_item()
        self.printer.write(subject.attributes.HumanUrl.ref)

    def do_human(self, arg):
        """List all human paths supported by current item."""
        options = GtobOptions()
        url_list = self._tree.describe_item(key=self._current_item.key, options=options)
        if not url_list:
            self.printer.write("No human paths are supported by current item.")
            return
        for url in url_list:
            self.printer.write("protocol='{}', path='{}'".format(url.protocol, url.path))

    def do_credtmp(self, arg):
        """List temp credentials in the current logon session."""
        profile = self._open_logon_profile()
        accounts = profile.select()
        if not accounts:
            self.printer.write("There are no temp accounts in the logon profile.")
            return
        for account in accounts:
            self.printer.write(account)

    def do_credtmp_set(self, arg):
        """Set temp credentials for specified resource in the current logon session.
        | Synopsis:
        |     credtmp-set <resource-type> <resource-address> <username> <password>
        """
        resource_type, resource_address, user_name, password = shlex.split(arg)
        profile = self._open_logon_profile()
        profile.add_account(resource_type=resource_type, resource_address=resource_address, user_name=user_name, password=password)

    def do_credtmp_reset(self, arg):
        """Reset temp credentials for specified resource in the current logon session.
        | Synopsis:
        |     credtmp-reset <resource-type> <resource-address>
        """
        resource_type, resource_address = shlex.split(arg)
        profile = self._open_logon_profile()
        profile.delete_account(resource_type=resource_type, resource_address=resource_address)

    def do_credtmp_reset_all(self, arg):
        """Reset credentials for all resources in the current logon session."""
        profile = self._open_logon_profile()
        profile.clear()

    def do_credtmp_injected(self, arg):
        """List credentials injected to specified machine to the proxy-logon session."""
        profile = self._open_logon_proxy_profile()
        accounts = profile.select()
        if not accounts:
            self.printer.write("There are no temp accounts in the proxy-logon profile.")
            return
        for account in accounts:
            self.printer.write(account)

    def do_credtmp_inject(self, arg):
        """Inject credentials to specified machine in the proxy-logon session.
        | Synopsis:
        |     cred-inject <resource-type> <resource-address> <username> <password>
        """
        resource_type, resource_address, user_name, password = shlex.split(arg)
        profile = self._open_logon_proxy_profile()
        profile.add_account(resource_type=resource_type, resource_address=resource_address, user_name=user_name, password=password)

    def do_credtmp_revoke(self, arg):
        """Revoke credentials in specified machine from the proxy-logon session.
        | Synopsis:
        |     cred-revoke <resource-type> <resource-address>
        """
        resource_type, resource_address = shlex.split(arg)
        profile = self._open_logon_proxy_profile()
        profile.delete_account(resource_type=resource_type, resource_address=resource_address)

    def do_credtmp_revoke_all(self, arg):
        """Revoke credentials for all resources in specified machine from the proxy-logon session."""
        profile = self._open_logon_proxy_profile()
        profile.clear()

    def do_cred(self, arg):
        """List credentials for current user profile."""
        profile = self._open_current_profile()
        accounts = profile.select()
        if not accounts:
            self.printer.write("There are no accounts in the current user profile.")
            return
        for account in accounts:
            self.printer.write(account)

    def do_cred_set(self, arg):
        """Set credentials for specified resource in the current user profile.
        | Synopsis:
        |     cred-set <resource-type> <resource-address> <username> <password>
        """
        resource_type, resource_address, user_name, password = shlex.split(arg)
        profile = self._open_current_profile()
        profile.add_account(resource_type=resource_type, resource_address=resource_address, user_name=user_name, password=password)

    def do_cred_reset(self, arg):
        """Reset credentials for specified resource in the current user profile.
        | Synopsis:
        |     cred-reset <resource-type> <resource-address>
        """
        resource_type, resource_address = shlex.split(arg)
        profile = self._open_current_profile()
        profile.delete_account(resource_type=resource_type, resource_address=resource_address)

    def do_cred_reset_all(self, arg):
        """Reset credentials for all resources in the current user profile."""
        profile = self._open_current_profile()
        profile.clear()

    def do_cred_injected(self, arg):
        """List credentials for the current user profile injected to specified machine."""
        profile = self._open_delegated_profile()
        accounts = profile.select()
        if not accounts:
            self.printer.write("There is no injected accounts.")
            return
        for account in accounts:
            self.printer.write(account)

    def do_cred_inject(self, arg):
        """Inject credentials to specified machine in the current user proxy-profile.
        | Synopsis:
        |     cred-inject <resource-type> <resource-address> <username> <password>
        """
        resource_type, resource_address, user_name, password = shlex.split(arg)
        profile = self._open_delegated_profile()
        profile.add_account(resource_type=resource_type, resource_address=resource_address, user_name=user_name, password=password)

    def do_cred_revoke(self, arg):
        """Revoke credentials in specified machine from the current user proxy-profile.
        | Synopsis:
        |     cred-revoke <resource-type> <resource-address>
        """
        resource_type, resource_address = shlex.split(arg)
        profile = self._open_delegated_profile()
        profile.delete_account(resource_type=resource_type, resource_address=resource_address)

    def do_cred_revoke_all(self, arg):
        """Revoke credentials for all resources in specified machine from the current user proxy-profile."""
        profile = self._open_delegated_profile()
        profile.clear()

    def do_types_list(self, arg):
        """List names for known item types."""
        for type_object in self._tree.types:
            self.printer.write("    {}".format(type_object.type_id))

    def do_ext(self, arg):
        """List extensions of specified item type. Type extensions of current item is listed by default.
        | Synopsis:
        |     ext
        |     ext <type-name>
        """
        subject = arg if arg else self._current_item.key.type_id
        for item_type in filter(lambda t: t.type_id == subject, self._tree.types):
            self.printer.write(item_type.extensions)
            return
        acrort.common.make_logic_error("Unknown type name '{}' is given.".format(subject)).throw()

    def do_types_like(self, arg):
        """List details about all types matching up the specified pattern(s).
        | Synopsis:
        |     types-like <pattern1> [<pattern2> ...]
        """
        matched_types = {}
        patterns = shlex.split(arg)
        if not patterns:
            acrort.common.make_logic_error("At least one argument must be specified for this command.").throw()
        for item_type in self._tree.types:
            for pattern in patterns:
                if item_type.type_id.startswith(pattern):
                    matched_types[item_type.type_id] = item_type
        if not matched_types:
            self.printer.write("No item types matching up the specified pattern(s) are found.")
            return
        for item_type in matched_types.values():
            self.printer.write(item_type)

    def do_projection_set(self, arg):
        """Set or reset current projection.
        | Synopsis:
        |     projection-set <name>
        |
        | Description:
        |    <name> - name of projection to be applied.
        |             Reset current projection if name is empty.
        """
        projection = None
        if arg:
            projection = arg
        tree = self.connection.gtob.open_global_tree(projection=projection)

        self._projection = projection
        self._tree = tree
        self._current_item = tree.root

        self.print_browsing_details()

    def do_projection(self, arg):
        """List current projection."""
        if self._projection is None:
            self.printer.write("No projection is currently set.")
        else:
            self.printer.write("Current projection: {}".format(self._projection))


def main():
    parser = acrobind.CommandLineParser()
    parser.append_processor(acrobind.ConnectionArgumentsProcessor())
    parser.append_processor(acrobind.CommandShellArgumentsProcessor())
    parser.append_processor(acrobind.OutputArgumentsProcessor())
    parser.append_processor(acrobind.DebugTraceArgumentsProcessor())

    try:
        config = parser.parse_arguments()
    except acrort.Exception as exception:
        error = exception.to_error()
        return error.to_exit_code()

    printer = acrobind.Output(config, end='\n')
    conn, error = acrobind.connect_to_service(config, printer=printer)
    if conn is None:
        return error.to_exit_code()

    processor = GtobCommandProcessor(connection=conn, printer=printer, config=config)
    return processor.cmdloop()


if __name__ == '__main__':
    exit(acrobind.interruptable_safe_execute(main))