/* * LUKS - Linux Unified Key Setup * * Copyright (C) 2004-2006 Clemens Fruhwirth * Copyright (C) 2009-2019 Red Hat, Inc. All rights reserved. * Copyright (C) 2012-2019 Milan Broz * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include #include #include #include #include #include "luks.h" #include "af.h" #include "internal.h" static void _error_hint(struct crypt_device *ctx, const char *device, const char *cipher, const char *mode, size_t keyLength) { char *c, cipher_spec[MAX_CIPHER_LEN * 3]; if (snprintf(cipher_spec, sizeof(cipher_spec), "%s-%s", cipher, mode) < 0) return; log_err(ctx, _("Failed to setup dm-crypt key mapping for device %s.\n" "Check that kernel supports %s cipher (check syslog for more info)."), device, cipher_spec); if (!strncmp(mode, "xts", 3) && (keyLength != 256 && keyLength != 512)) log_err(ctx, _("Key size in XTS mode must be 256 or 512 bits.")); else if (!(c = strchr(mode, '-')) || strlen(c) < 4) log_err(ctx, _("Cipher specification should be in [cipher]-[mode]-[iv] format.")); } static int LUKS_endec_template(char *src, size_t srcLength, const char *cipher, const char *cipher_mode, struct volume_key *vk, unsigned int sector, ssize_t (*func)(int, size_t, size_t, void *, size_t), int mode, struct crypt_device *ctx) { char name[PATH_MAX], path[PATH_MAX]; char cipher_spec[MAX_CIPHER_LEN * 3]; struct crypt_dm_active_device dmd = { .flags = CRYPT_ACTIVATE_PRIVATE, }; int r, devfd = -1; size_t bsize, keyslot_alignment, alignment; log_dbg(ctx, "Using dmcrypt to access keyslot area."); bsize = device_block_size(ctx, crypt_metadata_device(ctx)); alignment = device_alignment(crypt_metadata_device(ctx)); if (!bsize || !alignment) return -EINVAL; if (bsize > LUKS_ALIGN_KEYSLOTS) keyslot_alignment = LUKS_ALIGN_KEYSLOTS; else keyslot_alignment = bsize; dmd.size = size_round_up(srcLength, keyslot_alignment) / SECTOR_SIZE; if (mode == O_RDONLY) dmd.flags |= CRYPT_ACTIVATE_READONLY; if (snprintf(name, sizeof(name), "temporary-cryptsetup-%d", getpid()) < 0) return -ENOMEM; if (snprintf(path, sizeof(path), "%s/%s", dm_get_dir(), name) < 0) return -ENOMEM; if (snprintf(cipher_spec, sizeof(cipher_spec), "%s-%s", cipher, cipher_mode) < 0) return -ENOMEM; r = device_block_adjust(ctx, crypt_metadata_device(ctx), DEV_OK, sector, &dmd.size, &dmd.flags); if (r < 0) { log_err(ctx, _("Device %s doesn't exist or access denied."), device_path(crypt_metadata_device(ctx))); return -EIO; } if (mode != O_RDONLY && dmd.flags & CRYPT_ACTIVATE_READONLY) { log_err(ctx, _("Cannot write to device %s, permission denied."), device_path(crypt_metadata_device(ctx))); return -EACCES; } r = dm_crypt_target_set(&dmd.segment, 0, dmd.size, crypt_metadata_device(ctx), vk, cipher_spec, 0, sector, NULL, 0, SECTOR_SIZE); if (r) goto out; r = dm_create_device(ctx, name, "TEMP", &dmd); if (r < 0) { if (r != -EACCES && r != -ENOTSUP) _error_hint(ctx, device_path(crypt_metadata_device(ctx)), cipher, cipher_mode, vk->keylength * 8); r = -EIO; goto out; } devfd = open(path, mode | O_DIRECT | O_SYNC); if (devfd == -1) { log_err(ctx, _("Failed to open temporary keystore device.")); r = -EIO; goto out; } r = func(devfd, bsize, alignment, src, srcLength); if (r < 0) { log_err(ctx, _("Failed to access temporary keystore device.")); r = -EIO; } else r = 0; out: dm_targets_free(ctx, &dmd); if (devfd != -1) close(devfd); dm_remove_device(ctx, name, CRYPT_DEACTIVATE_FORCE); return r; } int LUKS_encrypt_to_storage(char *src, size_t srcLength, const char *cipher, const char *cipher_mode, struct volume_key *vk, unsigned int sector, struct crypt_device *ctx) { struct device *device = crypt_metadata_device(ctx); struct crypt_storage *s; int devfd = -1, r = 0; /* Only whole sector writes supported */ if (MISALIGNED_512(srcLength)) return -EINVAL; /* Encrypt buffer */ r = crypt_storage_init(&s, 0, cipher, cipher_mode, vk->key, vk->keylength); if (r) log_dbg(ctx, "Userspace crypto wrapper cannot use %s-%s (%d).", cipher, cipher_mode, r); /* Fallback to old temporary dmcrypt device */ if (r == -ENOTSUP || r == -ENOENT) return LUKS_endec_template(src, srcLength, cipher, cipher_mode, vk, sector, write_blockwise, O_RDWR, ctx); if (r) { _error_hint(ctx, device_path(device), cipher, cipher_mode, vk->keylength * 8); return r; } log_dbg(ctx, "Using userspace crypto wrapper to access keyslot area."); r = crypt_storage_encrypt(s, 0, srcLength / SECTOR_SIZE, src); crypt_storage_destroy(s); if (r) return r; r = -EIO; /* Write buffer to device */ devfd = device_open(ctx, device, O_RDWR); if (devfd < 0) goto out; if (write_lseek_blockwise(devfd, device_block_size(ctx, device), device_alignment(device), src, srcLength, sector * SECTOR_SIZE) < 0) goto out; r = 0; out: if (devfd >= 0) { device_sync(ctx, device, devfd); close(devfd); } if (r) log_err(ctx, _("IO error while encrypting keyslot.")); return r; } int LUKS_decrypt_from_storage(char *dst, size_t dstLength, const char *cipher, const char *cipher_mode, struct volume_key *vk, unsigned int sector, struct crypt_device *ctx) { struct device *device = crypt_metadata_device(ctx); struct crypt_storage *s; struct stat st; int devfd = -1, r = 0; /* Only whole sector reads supported */ if (MISALIGNED_512(dstLength)) return -EINVAL; r = crypt_storage_init(&s, 0, cipher, cipher_mode, vk->key, vk->keylength); if (r) log_dbg(ctx, "Userspace crypto wrapper cannot use %s-%s (%d).", cipher, cipher_mode, r); /* Fallback to old temporary dmcrypt device */ if (r == -ENOTSUP || r == -ENOENT) return LUKS_endec_template(dst, dstLength, cipher, cipher_mode, vk, sector, read_blockwise, O_RDONLY, ctx); if (r) { _error_hint(ctx, device_path(device), cipher, cipher_mode, vk->keylength * 8); return r; } log_dbg(ctx, "Using userspace crypto wrapper to access keyslot area."); /* Read buffer from device */ devfd = device_open(ctx, device, O_RDONLY); if (devfd < 0) { log_err(ctx, _("Cannot open device %s."), device_path(device)); crypt_storage_destroy(s); return -EIO; } if (read_lseek_blockwise(devfd, device_block_size(ctx, device), device_alignment(device), dst, dstLength, sector * SECTOR_SIZE) < 0) { if (!fstat(devfd, &st) && (st.st_size < (off_t)dstLength)) log_err(ctx, _("Device %s is too small."), device_path(device)); else log_err(ctx, _("IO error while decrypting keyslot.")); close(devfd); crypt_storage_destroy(s); return -EIO; } close(devfd); /* Decrypt buffer */ r = crypt_storage_decrypt(s, 0, dstLength / SECTOR_SIZE, dst); crypt_storage_destroy(s); return r; }