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use bitflags::bitflags;
bitflags! {
pub struct CryptActivate: u32 {
const READONLY = libcryptsetup_rs_sys::crypt_activate_readonly;
const NO_UUID = libcryptsetup_rs_sys::crypt_activate_no_uuid;
const SHARED = libcryptsetup_rs_sys::crypt_activate_shared;
const ALLOW_DISCARDS = libcryptsetup_rs_sys::crypt_activate_allow_discards;
const PRIVATE = libcryptsetup_rs_sys::crypt_activate_private;
const CORRUPTED = libcryptsetup_rs_sys::crypt_activate_corrupted;
const SAME_CPU_CRYPT = libcryptsetup_rs_sys::crypt_activate_same_cpu_crypt;
const SUBMIT_FROM_CRYPT_CPUS = libcryptsetup_rs_sys::crypt_activate_submit_from_crypt_cpus;
const IGNORE_CORRUPTION = libcryptsetup_rs_sys::crypt_activate_ignore_corruption;
const RESTART_ON_CORRUPTION = libcryptsetup_rs_sys::crypt_activate_restart_on_corruption;
const IGNORE_ZERO_BLOCKS = libcryptsetup_rs_sys::crypt_activate_ignore_zero_blocks;
const KEYRING_KEY = libcryptsetup_rs_sys::crypt_activate_keyring_key;
const NO_JOURNAL = libcryptsetup_rs_sys::crypt_activate_no_journal;
const RECOVERY = libcryptsetup_rs_sys::crypt_activate_recovery;
const IGNORE_PERSISTENT = libcryptsetup_rs_sys::crypt_activate_ignore_persistent;
const CHECK_AT_MOST_ONCE = libcryptsetup_rs_sys::crypt_activate_check_at_most_once;
const ALLOW_UNBOUND_KEY = libcryptsetup_rs_sys::crypt_activate_allow_unbound_key;
const RECALCULATE = libcryptsetup_rs_sys::crypt_activate_recalculate;
const REFRESH = libcryptsetup_rs_sys::crypt_activate_refresh;
const SERIALIZE_MEMORY_HARD_PBKDF = libcryptsetup_rs_sys::crypt_activate_serialize_memory_hard_pbkdf;
const NO_JOURNAL_BITMAP = libcryptsetup_rs_sys::crypt_activate_no_journal_bitmap;
}
}
bitflags! {
pub struct CryptDeactivate: u32 {
const DEFERRED = libcryptsetup_rs_sys::crypt_deactivate_deferred;
const FORCE = libcryptsetup_rs_sys::crypt_deactivate_force;
}
}
bitflags! {
pub struct CryptVerity: u32 {
const NO_HEADER = libcryptsetup_rs_sys::crypt_verity_no_header;
const CHECK_HASH = libcryptsetup_rs_sys::crypt_verity_check_hash;
const CREATE_HASH = libcryptsetup_rs_sys::crypt_verity_create_hash;
}
}
bitflags! {
pub struct CryptTcrypt: u32 {
const LEGACY_MODES = libcryptsetup_rs_sys::crypt_tcrypt_legacy_modes;
const HIDDEN_HEADER = libcryptsetup_rs_sys::crypt_tcrypt_hidden_header;
const BACKUP_HEADER = libcryptsetup_rs_sys::crypt_tcrypt_backup_header;
const SYSTEM_HEADER = libcryptsetup_rs_sys::crypt_tcrypt_system_header;
const VERA_MODES = libcryptsetup_rs_sys::crypt_tcrypt_vera_modes;
}
}
bitflags! {
pub struct CryptKeyfile: u32 {
const STOP_EOL = libcryptsetup_rs_sys::crypt_keyfile_stop_eol;
}
}
bitflags! {
pub struct CryptVolumeKey: u32 {
const NO_SEGMENT = libcryptsetup_rs_sys::crypt_volume_key_no_segment;
const SET = libcryptsetup_rs_sys::crypt_volume_key_set;
const DIGEST_REUSE = libcryptsetup_rs_sys::crypt_volume_key_digest_reuse;
}
}
bitflags! {
pub struct CryptRequirement: u32 {
const OFFLINE_REENCRYPT = libcryptsetup_rs_sys::crypt_requirement_offline_reencrypt;
const ONLINE_REENCRYPT = libcryptsetup_rs_sys::crypt_requirement_online_reencrypt;
const UNKNOWN = libcryptsetup_rs_sys::crypt_requirement_unknown;
}
}
bitflags! {
pub struct CryptReencrypt: u32 {
const INITIALIZE_ONLY = libcryptsetup_rs_sys::crypt_reencrypt_initialize_only;
const MOVE_FIRST_SEGMENT = libcryptsetup_rs_sys::crypt_reencrypt_move_first_segment;
const RESUME_ONLY = libcryptsetup_rs_sys::crypt_reencrypt_resume_only;
const RECOVERY = libcryptsetup_rs_sys::crypt_reencrypt_recovery;
}
}
bitflags! {
pub struct CryptPbkdf: u32 {
const ITER_TIME_SET = libcryptsetup_rs_sys::crypt_pbkdf_iter_time_set;
const NO_BENCHMARK = libcryptsetup_rs_sys::crypt_pbkdf_no_benchmark;
}
}
bitflags! {
pub struct CryptWipe: u32 {
const NO_DIRECT_IO = libcryptsetup_rs_sys::crypt_wipe_no_direct_io;
}
}
