# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#   http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

import copy

from ironic_lib import utils as il_utils

from ironic_python_agent import errors
from ironic_python_agent import utils


# NOTE(dtantsur): 550 MiB is used by DIB and seems a common guidance:
# https://www.rodsbooks.com/efi-bootloaders/principles.html
ESP_SIZE_MIB = 550


def get_block_devices_for_raid(block_devices, logical_disks):
    """Get block devices that are involved in the RAID configuration.

    This call does two things:
    * Collect all block devices that are involved in RAID.
    * Update each logical disks with suitable block devices.
    """
    serialized_devs = [dev.serialize() for dev in block_devices]
    # NOTE(dtantsur): we're going to modify the structure, so make a copy
    logical_disks = copy.deepcopy(logical_disks)
    # NOTE(dtantsur): using a list here is less efficient than a set, but
    # allows keeping the original ordering.
    result = []
    for logical_disk in logical_disks:
        if logical_disk.get('physical_disks'):
            matching = []
            for phys_disk in logical_disk['physical_disks']:
                candidates = [
                    dev['name'] for dev in il_utils.find_devices_by_hints(
                        serialized_devs, phys_disk)
                ]
                if not candidates:
                    raise errors.SoftwareRAIDError(
                        "No candidates for physical disk %(hints)s "
                        "from the list %(devices)s"
                        % {'hints': phys_disk, 'devices': serialized_devs})

                try:
                    matching.append(next(x for x in candidates
                                         if x not in matching))
                except StopIteration:
                    raise errors.SoftwareRAIDError(
                        "No candidates left for physical disk %(hints)s "
                        "from the list %(candidates)s after picking "
                        "%(matching)s for previous volumes"
                        % {'hints': phys_disk, 'matching': matching,
                           'candidates': candidates})
        else:
            # This RAID device spans all disks.
            matching = [dev.name for dev in block_devices]

        # Update the result keeping the ordering and avoiding duplicates.
        result.extend(disk for disk in matching if disk not in result)
        logical_disk['block_devices'] = matching

    return result, logical_disks


def calculate_raid_start(target_boot_mode, partition_table_type, dev_name):
    """Define the start sector for the raid partition.

    :param target_boot_mode: the node boot mode.
    :param partition_table_type: the node partition label, gpt or msdos.
    :param dev_name: block device in the raid configuration.
    :return: The start sector for the raid partition.
    """
    # TODO(rg): TBD, several options regarding boot part slots here:
    # 1. Create boot partitions in prevision
    # 2. Just leave space
    # 3. Do nothing: rely on the caller to specify target_raid_config
    # correctly according to what they intend to do (e.g. not set MAX
    # if they know they will need some space for bios boot or efi
    # parts). Best option imo, if we accept that the target volume
    # granularity is GiB, so you lose up to 1GiB just for a bios boot
    # partition...
    if target_boot_mode == 'uefi':
        # Leave 551MiB - start_sector s for the esp (approx 550 MiB)
        # TODO(dtantsur): 550 MiB is a waste in most cases, make it
        # configurable?
        raid_start = '%sMiB' % (ESP_SIZE_MIB + 1)
    else:
        if partition_table_type == 'gpt':
            # Leave 8MiB - start_sector s (approx 7MiB)
            # for the bios boot partition or the ppc prepboot part
            # This should avoid grub errors saying that it cannot
            # install boot stage 1.5/2 (since the mbr gap does not
            # exist on disk holders with gpt tables)
            raid_start = '8MiB'
        else:
            # sgdisk works fine for display data on mbr tables too
            out, _u = utils.execute('sgdisk', '-F', dev_name)
            raid_start = "{}s".format(out.splitlines()[-1])

    return raid_start


def calc_raid_partition_sectors(psize, start):
    """Calculates end sector and converts start and end sectors including

    the unit of measure, compatible with parted.
    :param psize: size of the raid partition
    :param start: start sector of the raid partion in integer format
    :return: start and end sector in parted compatible format, end sector
        as integer
    """

    if isinstance(start, int):
        start_str = '%dGiB' % start
    else:
        start_str = start

    if psize == -1:
        end_str = '-1'
        end = '-1'
    else:
        if isinstance(start, int):
            end = start + psize
        else:
            # First partition case, start is sth like 2048s
            end = psize
        end_str = '%dGiB' % end

    return start_str, end_str, end