// SPDX-License-Identifier: LGPL-2.1-or-later /* * libcryptsetup API - using LUKS device example * * Copyright (C) 2011-2024 Red Hat, Inc. All rights reserved. */ #include #include #include #include #include #include #include static int format_and_add_keyslots(const char *path) { struct crypt_device *cd; int r; /* * The crypt_init() call is used to initialize crypt_device context, * The path parameter specifies a device path. * * For path, you can use either link to a file or block device. * The loopback device will be detached automatically. */ r = crypt_init(&cd, path); if (r < 0) { printf("crypt_init() failed for %s.\n", path); return r; } printf("Context is attached to block device %s.\n", crypt_get_device_name(cd)); /* * So far, no data were written to the device. */ printf("Device %s will be formatted as a LUKS device after 5 seconds.\n" "Press CTRL+C now if you want to cancel this operation.\n", path); sleep(5); /* * NULLs for uuid and volume_key means that these attributes will be * generated during crypt_format(). */ r = crypt_format(cd, /* crypt context */ CRYPT_LUKS2, /* LUKS2 is a new LUKS format; use CRYPT_LUKS1 for LUKS1 */ "aes", /* used cipher */ "xts-plain64", /* used block mode and IV */ NULL, /* generate UUID */ NULL, /* generate volume key from RNG */ 512 / 8, /* 512bit key - here AES-256 in XTS mode, size is in bytes */ NULL); /* default parameters */ if (r < 0) { printf("crypt_format() failed on device %s\n", crypt_get_device_name(cd)); crypt_free(cd); return r; } /* * The device now contains a LUKS header, but there is no active keyslot. * * crypt_keyslot_add_* call stores the volume_key in the encrypted form into the keyslot. * * After format, the volume key is stored internally. */ r = crypt_keyslot_add_by_volume_key(cd, /* crypt context */ CRYPT_ANY_SLOT, /* just use first free slot */ NULL, /* use internal volume key */ 0, /* unused (size of volume key) */ "foo", /* passphrase - NULL means query*/ 3); /* size of passphrase */ if (r < 0) { printf("Adding keyslot failed.\n"); crypt_free(cd); return r; } printf("The first keyslot is initialized.\n"); /* * Add another keyslot, now authenticating with the first keyslot. * It decrypts the volume key from the first keyslot and creates a new one with the specified passphrase. */ r = crypt_keyslot_add_by_passphrase(cd, /* crypt context */ CRYPT_ANY_SLOT, /* just use first free slot */ "foo", 3, /* passphrase for the old keyslot */ "bar", 3); /* passphrase for the new kesylot */ if (r < 0) { printf("Adding keyslot failed.\n"); crypt_free(cd); return r; } printf("The second keyslot is initialized.\n"); crypt_free(cd); return 0; } static int activate_and_check_status(const char *path, const char *device_name) { struct crypt_device *cd; struct crypt_active_device cad; int r; /* * LUKS device activation example. */ r = crypt_init(&cd, path); if (r < 0) { printf("crypt_init() failed for %s.\n", path); return r; } /* * crypt_load() is used to load existing LUKS header from a block device */ r = crypt_load(cd, /* crypt context */ CRYPT_LUKS, /* requested type - here LUKS of any type */ NULL); /* additional parameters (not used) */ if (r < 0) { printf("crypt_load() failed on device %s.\n", crypt_get_device_name(cd)); crypt_free(cd); return r; } /* * Device activation creates a device-mapper device with the specified name. */ r = crypt_activate_by_passphrase(cd, /* crypt context */ device_name, /* device name to activate */ CRYPT_ANY_SLOT,/* the keyslot use (try all here) */ "foo", 3, /* passphrase */ CRYPT_ACTIVATE_READONLY); /* flags */ if (r < 0) { printf("Device %s activation failed.\n", device_name); crypt_free(cd); return r; } printf("%s device %s/%s is active.\n", crypt_get_type(cd), crypt_get_dir(), device_name); printf("\tcipher used: %s\n", crypt_get_cipher(cd)); printf("\tcipher mode: %s\n", crypt_get_cipher_mode(cd)); printf("\tdevice UUID: %s\n", crypt_get_uuid(cd)); /* * Get info about the active device. */ r = crypt_get_active_device(cd, device_name, &cad); if (r < 0) { printf("Get info about active device %s failed.\n", device_name); crypt_deactivate(cd, device_name); crypt_free(cd); return r; } printf("Active device parameters for %s:\n" "\tDevice offset (in sectors): %" PRIu64 "\n" "\tIV offset (in sectors) : %" PRIu64 "\n" "\tdevice size (in sectors) : %" PRIu64 "\n" "\tread-only flag : %s\n", device_name, cad.offset, cad.iv_offset, cad.size, cad.flags & CRYPT_ACTIVATE_READONLY ? "1" : "0"); crypt_free(cd); return 0; } static int handle_active_device(const char *device_name) { struct crypt_device *cd; int r; /* * crypt_init_by_name() initializes context by an active device-mapper name */ r = crypt_init_by_name(&cd, device_name); if (r < 0) { printf("crypt_init_by_name() failed for %s.\n", device_name); return r; } if (crypt_status(cd, device_name) == CRYPT_ACTIVE) printf("Device %s is still active.\n", device_name); else { printf("Something failed perhaps, device %s is not active.\n", device_name); crypt_free(cd); return -1; } /* * crypt_deactivate() is used to deactivate a device */ r = crypt_deactivate(cd, device_name); if (r < 0) { printf("crypt_deactivate() failed.\n"); crypt_free(cd); return r; } printf("Device %s is now deactivated.\n", device_name); crypt_free(cd); return 0; } int main(int argc, char **argv) { if (geteuid()) { printf("Using of libcryptsetup requires super user privileges.\n"); return 1; } if (argc != 2) { printf("usage: ./crypt_luks_usage \n" " refers to either a regular file or a block device.\n" " WARNING: the file or device will be wiped.\n"); return 2; } if (format_and_add_keyslots(argv[1])) return 3; if (activate_and_check_status(argv[1], "example_device")) return 4; if (handle_active_device("example_device")) return 5; return 0; }