Commit 66db5b39 authored by Milan Broz's avatar Milan Broz

Change PBKDF insterface to allow forced iterations (time cost) count.

Also move functions to separate utils_pbkdf.c file.

PBKDF can be now set for any context.

TODO: new setting is not covered by tests.
parent a73bb733
......@@ -63,6 +63,7 @@ libcryptsetup_la_SOURCES = \
utils_device.c \
utils_keyring.c \
utils_keyring.h \
utils_pbkdf.c \
libdevmapper.c \
utils_dm.h \
volumekey.c \
......
......@@ -66,6 +66,12 @@ struct volume_key *crypt_alloc_volume_key(size_t keylength, const char *key);
struct volume_key *crypt_generate_volume_key(struct crypt_device *cd, size_t keylength);
void crypt_free_volume_key(struct volume_key *vk);
struct crypt_pbkdf_type *crypt_get_pbkdf(struct crypt_device *cd);
int init_pbkdf_type(struct crypt_device *cd,
const struct crypt_pbkdf_type *pbkdf,
const char *dev_type);
int verify_pbkdf_params(struct crypt_device *cd,
const struct crypt_pbkdf_type *pbkdf);
int crypt_benchmark_pbkdf_internal(struct crypt_device *cd,
struct crypt_pbkdf_type *pbkdf,
size_t volume_key_size);
......
......@@ -155,15 +155,6 @@ void crypt_set_confirm_callback(struct crypt_device *cd,
int (*confirm)(const char *msg, void *usrptr),
void *usrptr);
/**
* Set how long should cryptsetup iterate in PBKDF2 function.
* Default value heads towards the iterations which takes around 1 second.
*
* @param cd crypt device handle
* @param iteration_time_ms the time in ms
*/
void crypt_set_iteration_time(struct crypt_device *cd, uint64_t iteration_time_ms);
/**
* Set data device
* For LUKS it is encrypted data device when LUKS header is separated.
......@@ -216,9 +207,15 @@ struct crypt_pbkdf_type {
uint32_t iterations; /**< Iterations, 0 or benchmarked value. */
uint32_t max_memory_kb; /**< Requested or benchmarked memory cost [kilobytes] */
uint32_t parallel_threads;/**< Requested parallel cost [threads] */
uint32_t flags; /**< CRYPT_PBKDF* flags */
};
/** PBKDF2 for LUKS1 and LUKS2 */
/** Iteration time set by crypt_set_iteration_time(), for compatibility only. */
#define CRYPT_PBKDF_ITER_TIME_SET (1 << 0)
/** Never run benchmarks, use pre-set value or defaults. */
#define CRYPT_PBKDF_NO_BENCHMARK (1 << 1)
/** PBKDF2 according to RFC2898, LUKS1 legacy */
#define CRYPT_KDF_PBKDF2 "pbkdf2"
/** Argon2i according to RFC */
#define CRYPT_KDF_ARGON2I "argon2i"
......@@ -227,14 +224,15 @@ struct crypt_pbkdf_type {
/**
* Set default PBKDF (Password-Based Key Derivation Algorithm) for next keyslot
* about to get created with any crypt_keyslot_add_*() call. Works only with
* valid LUKSv2 device handles.
* about to get created with any crypt_keyslot_add_*() call.
*
* @param cd crypt device handle
* @param pbkdf PBKDF parameters
*
* @return 0 on success or negative errno value otherwise.
*
* @note For LUKS1, only PBKDF2 is suppported, other settings will be rejected.
* @note For non-LUKS context types the call succeeds, but PBKDF is not used.
*/
int crypt_set_pbkdf_type(struct crypt_device *cd,
const struct crypt_pbkdf_type *pbkdf);
......@@ -250,6 +248,18 @@ int crypt_set_pbkdf_type(struct crypt_device *cd,
*/
const struct crypt_pbkdf_type *crypt_get_pbkdf_type(struct crypt_device *cd);
/**
* Set how long should cryptsetup iterate in PBKDF2 function.
* Default value heads towards the iterations which takes around 1 second.
* \b Deprecated, only for backward compatibility. Use @link crypt_set_pbkdf_type.
*
* @param cd crypt device handle
* @param iteration_time_ms the time in ms
*
* @note If the time value is not acceptable for active PBKDF, value is quietly ignored.
*/
void crypt_set_iteration_time(struct crypt_device *cd, uint64_t iteration_time_ms);
/** @} */
/**
......
......@@ -778,7 +778,7 @@ int LUKS_generate_phdr(struct luks_phdr *header,
}
/* Compute master key digest */
pbkdf = CONST_CAST(struct crypt_pbkdf_type *)crypt_get_pbkdf_type(ctx);
pbkdf = crypt_get_pbkdf(ctx);
r = crypt_benchmark_pbkdf_internal(ctx, pbkdf, vk->keylength);
if (r < 0)
return r;
......@@ -869,7 +869,7 @@ int LUKS_set_key(unsigned int keyIndex,
}
log_dbg("Calculating data for key slot %d", keyIndex);
pbkdf = CONST_CAST(struct crypt_pbkdf_type *)crypt_get_pbkdf_type(ctx);
pbkdf = crypt_get_pbkdf(ctx);
r = crypt_benchmark_pbkdf_internal(ctx, pbkdf, vk->keylength);
if (r < 0)
return r;
......
......@@ -48,7 +48,6 @@ struct crypt_device {
struct crypt_pbkdf_type pbkdf;
/* global context scope settings */
unsigned iter_time_set:1;
// FIXME: private binary headers and access it properly
// through sub-library (LUKS1, TCRYPT)
......@@ -546,168 +545,10 @@ int crypt_set_data_device(struct crypt_device *cd, const char *device)
return crypt_check_data_device_size(cd);
}
/*
* PBKDF configuration interface
*/
static int verify_pbkdf_params(struct crypt_device *cd,
const struct crypt_pbkdf_type *pbkdf)
{
const char *pbkdf_type;
int r = 0;
if (!pbkdf->type || !pbkdf->hash || !pbkdf->time_ms)
return -EINVAL;
/* TODO: initialise crypto and check the hash and pbkdf are both available */
r = crypt_parse_pbkdf(pbkdf->type, &pbkdf_type);
if (r < 0) {
log_err(cd, _("Unknown PBKDF type %s.\n"), pbkdf->type);
return r;
}
if (!strcmp(pbkdf_type, CRYPT_KDF_PBKDF2)) {
if (pbkdf->max_memory_kb || pbkdf->parallel_threads) {
log_err(cd, _("PBKDF max memory or parallel threads must not be set with pbkdf2.\n"));
return -EINVAL;
}
return 0;
}
if (pbkdf->max_memory_kb > MAX_PBKDF_MEMORY) {
log_err(cd, _("Requested maximum PBKDF memory cost is too high (maximum is %d kilobytes).\n"),
MAX_PBKDF_MEMORY);
r = -EINVAL;
}
if (!pbkdf->max_memory_kb) {
log_err(cd, _("Requested maximum PBKDF memory can not be zero.\n"));
r = -EINVAL;
}
if (!pbkdf->parallel_threads) {
log_err(cd, _("Requested PBKDF parallel threads can not be zero.\n"));
r = -EINVAL;
}
if (!pbkdf->time_ms) {
log_err(cd, _("Requested PBKDF target time can not be zero.\n"));
r = -EINVAL;
}
return r;
}
static int init_pbkdf_type(struct crypt_device *cd, const struct crypt_pbkdf_type *pbkdf)
{
const char *hash, *type;
unsigned cpus;
int r;
struct crypt_pbkdf_type default_luks1 = {
.type = CRYPT_KDF_PBKDF2,
.hash = DEFAULT_LUKS1_HASH,
.time_ms = cd->iter_time_set ? cd->pbkdf.time_ms : DEFAULT_LUKS1_ITER_TIME
};
if (!pbkdf) {
pbkdf = &default_luks1;
/*
* black magic due to crypt_set_iteration_time() but we don't
* want crypt_get_pbkdf_type() return invalid parameters
*/
r = verify_pbkdf_params(cd, pbkdf);
if (r)
return r;
}
/*
* Crypto backend may be not initialized here,
* cannot check if algorithms are really available.
* It will fail later anyway :-)
*/
type = strdup(pbkdf->type);
hash = strdup(pbkdf->hash);
if (!type || !hash) {
free(CONST_CAST(void*)type);
free(CONST_CAST(void*)hash);
return -ENOMEM;
}
free(CONST_CAST(void*)cd->pbkdf.type);
free(CONST_CAST(void*)cd->pbkdf.hash);
cd->pbkdf.type = type;
cd->pbkdf.hash = hash;
/* Reset iteration count so benchmark must run again. */
cd->pbkdf.iterations = 0;
cd->pbkdf.time_ms = pbkdf->time_ms;
cd->pbkdf.max_memory_kb = pbkdf->max_memory_kb;
cd->pbkdf.parallel_threads = pbkdf->parallel_threads;
if (cd->pbkdf.parallel_threads > MAX_PBKDF_THREADS) {
log_dbg("Maximum PBKDF threads is %d (requested %d).",
MAX_PBKDF_THREADS, cd->pbkdf.parallel_threads);
cd->pbkdf.parallel_threads = MAX_PBKDF_THREADS;
}
if (cd->pbkdf.parallel_threads) {
cpus = crypt_cpusonline();
if (cd->pbkdf.parallel_threads > cpus) {
log_dbg("Only %u active CPUs detected, "
"PBKDF threads decreased from %d to %d.",
cpus, cd->pbkdf.parallel_threads, cpus);
cd->pbkdf.parallel_threads = cpus;
}
}
return 0;
}
int crypt_set_pbkdf_type(struct crypt_device *cd, const struct crypt_pbkdf_type *pbkdf)
{
int r;
if (!cd)
return -EINVAL;
if (!pbkdf) {
log_dbg("Resetting pbkdf type to default");
cd->iter_time_set = 0;
return init_pbkdf_type(cd, NULL);
}
log_dbg("PBKDF %s, hash %s, time_ms %u, max_memory_kb %u, parallel_threads %u.",
pbkdf->type ?: "(none)", pbkdf->hash ?: "(none)", pbkdf->time_ms,
pbkdf->max_memory_kb, pbkdf->parallel_threads);
if (verify_pbkdf_params(cd, pbkdf))
return -EINVAL;
r = init_pbkdf_type(cd, pbkdf);
if (!r)
cd->iter_time_set = 1;
return r;
}
const struct crypt_pbkdf_type *crypt_get_pbkdf_type(struct crypt_device *cd)
{
return (cd && cd->pbkdf.type) ? &cd->pbkdf : NULL;
}
void crypt_set_iteration_time(struct crypt_device *cd, uint64_t iteration_time_ms)
/* internal only */
struct crypt_pbkdf_type *crypt_get_pbkdf(struct crypt_device *cd)
{
int r = 0;
if (!cd)
return;
if (iteration_time_ms > UINT32_MAX)
iteration_time_ms = DEFAULT_LUKS1_ITER_TIME;
cd->pbkdf.time_ms = (uint32_t)iteration_time_ms;
cd->iter_time_set = 1;
if (!r)
log_dbg("Iteration time set to %" PRIu64 " miliseconds.", iteration_time_ms);
return &cd->pbkdf;
}
/*
......@@ -716,15 +557,14 @@ void crypt_set_iteration_time(struct crypt_device *cd, uint64_t iteration_time_m
static int _crypt_load_luks1(struct crypt_device *cd, int require_header, int repair)
{
struct luks_phdr hdr;
struct crypt_pbkdf_type pbkdf = {};
int r;
r = init_crypto(cd);
if (r < 0)
return r;
if (repair && !cd->pbkdf.type) {
r = init_pbkdf_type(cd, NULL);
if (verify_pbkdf_params(cd, &cd->pbkdf)) {
r = init_pbkdf_type(cd, NULL, CRYPT_LUKS1);
if (r)
return r;
}
......@@ -733,13 +573,14 @@ static int _crypt_load_luks1(struct crypt_device *cd, int require_header, int re
if (r < 0)
return r;
pbkdf.type = CRYPT_KDF_PBKDF2;
pbkdf.hash = hdr.hashSpec;
pbkdf.time_ms = cd->iter_time_set ? cd->pbkdf.time_ms : DEFAULT_LUKS1_ITER_TIME;
r = init_pbkdf_type(cd, &pbkdf);
if (r)
return r;
/* Set hash to the same as in the loaded header */
if (!cd->pbkdf.hash || strcmp(cd->pbkdf.hash, hdr.hashSpec)) {
free(CONST_CAST(void*)cd->pbkdf.hash);
cd->pbkdf.hash = strdup(hdr.hashSpec);
if (!cd->pbkdf.hash) {
return -ENOMEM;
}
}
if (!cd->type && !(cd->type = strdup(CRYPT_LUKS1)))
return -ENOMEM;
......@@ -1289,14 +1130,16 @@ static int _crypt_format_luks1(struct crypt_device *cd,
else
cd->volume_key = crypt_generate_volume_key(cd, volume_key_size);
if(!cd->volume_key)
if (!cd->volume_key)
return -ENOMEM;
r = init_pbkdf_type(cd, NULL);
if (r)
return r;
if (verify_pbkdf_params(cd, &cd->pbkdf)) {
r = init_pbkdf_type(cd, NULL, CRYPT_LUKS1);
if (r)
return r;
}
if (params && params->hash && strcmp(params->hash, DEFAULT_LUKS1_HASH)) {
if (params && params->hash && strcmp(params->hash, cd->pbkdf.hash)) {
free(CONST_CAST(void*)cd->pbkdf.hash);
cd->pbkdf.hash = strdup(params->hash);
if (!cd->pbkdf.hash)
......
......@@ -292,10 +292,15 @@ int crypt_benchmark_pbkdf_internal(struct crypt_device *cd,
/* Already benchmarked */
if (pbkdf->iterations) {
log_dbg("Reusing PBKDF benchmark values.");
log_dbg("Reusing PBKDF values.");
return 0;
}
if (pbkdf->flags & CRYPT_PBKDF_NO_BENCHMARK) {
log_err(cd, _("PBKDF benchmark disabled but iterations not set.\n"));
return -EINVAL;
}
if (!strcmp(pbkdf->type, CRYPT_KDF_PBKDF2)) {
/*
* For PBKDF2 it is enouch to run benchmark for only 1 second
......
/*
* utils_pbkdf - PBKDF ssettings for libcryptsetup
*
* Copyright (C) 2009-2017, Red Hat, Inc. All rights reserved.
* Copyright (C) 2009-2017, 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 <stdlib.h>
#include <errno.h>
#include "internal.h"
const struct crypt_pbkdf_type default_luks1 = {
.type = CRYPT_KDF_PBKDF2,
.hash = DEFAULT_LUKS1_HASH,
.time_ms = DEFAULT_LUKS1_ITER_TIME
};
/*
* PBKDF configuration interface
*/
int verify_pbkdf_params(struct crypt_device *cd,
const struct crypt_pbkdf_type *pbkdf)
{
const char *pbkdf_type;
int r = 0;
if (!pbkdf->type || !pbkdf->hash || !pbkdf->time_ms)
return -EINVAL;
/* TODO: initialise crypto and check the hash and pbkdf are both available */
r = crypt_parse_pbkdf(pbkdf->type, &pbkdf_type);
if (r < 0) {
log_err(cd, _("Unknown PBKDF type %s.\n"), pbkdf->type);
return r;
}
if (crypt_get_type(cd) &&
!strcmp(crypt_get_type(cd), CRYPT_LUKS1) &&
strcmp(pbkdf_type, CRYPT_KDF_PBKDF2)) {
log_err(cd, _("Requested PBKDF type is not supported for LUKS1.\n"));
return -EINVAL;
}
if (!strcmp(pbkdf_type, CRYPT_KDF_PBKDF2)) {
if (pbkdf->max_memory_kb || pbkdf->parallel_threads) {
log_err(cd, _("PBKDF max memory or parallel threads must not be set with pbkdf2.\n"));
return -EINVAL;
}
return 0;
}
if (pbkdf->max_memory_kb > MAX_PBKDF_MEMORY) {
log_err(cd, _("Requested maximum PBKDF memory cost is too high (maximum is %d kilobytes).\n"),
MAX_PBKDF_MEMORY);
r = -EINVAL;
}
if (!pbkdf->max_memory_kb) {
log_err(cd, _("Requested maximum PBKDF memory can not be zero.\n"));
r = -EINVAL;
}
if (!pbkdf->parallel_threads) {
log_err(cd, _("Requested PBKDF parallel threads can not be zero.\n"));
r = -EINVAL;
}
if (!pbkdf->time_ms) {
log_err(cd, _("Requested PBKDF target time can not be zero.\n"));
r = -EINVAL;
}
return r;
}
int init_pbkdf_type(struct crypt_device *cd,
const struct crypt_pbkdf_type *pbkdf,
const char *dev_type)
{
struct crypt_pbkdf_type *cd_pbkdf = crypt_get_pbkdf(cd);
const char *hash, *type;
unsigned cpus;
uint32_t old_flags;
int r;
if (!pbkdf)
pbkdf = &default_luks1;
r = verify_pbkdf_params(cd, pbkdf);
if (r)
return r;
/*
* Crypto backend may be not initialized here,
* cannot check if algorithms are really available.
* It will fail later anyway :-)
*/
type = strdup(pbkdf->type);
hash = strdup(pbkdf->hash);
if (!type || !hash) {
free(CONST_CAST(void*)type);
free(CONST_CAST(void*)hash);
return -ENOMEM;
}
free(CONST_CAST(void*)cd_pbkdf->type);
free(CONST_CAST(void*)cd_pbkdf->hash);
cd_pbkdf->type = type;
cd_pbkdf->hash = hash;
old_flags = cd_pbkdf->flags;
cd_pbkdf->flags = pbkdf->flags;
/* Reset iteration count so benchmark must run again. */
if (cd_pbkdf->flags & CRYPT_PBKDF_NO_BENCHMARK)
cd_pbkdf->iterations = pbkdf->iterations;
else
cd_pbkdf->iterations = 0;
if (old_flags & CRYPT_PBKDF_ITER_TIME_SET)
cd_pbkdf->flags |= CRYPT_PBKDF_ITER_TIME_SET;
else
cd_pbkdf->time_ms = pbkdf->time_ms;
cd_pbkdf->max_memory_kb = pbkdf->max_memory_kb;
cd_pbkdf->parallel_threads = pbkdf->parallel_threads;
if (cd_pbkdf->parallel_threads > MAX_PBKDF_THREADS) {
log_dbg("Maximum PBKDF threads is %d (requested %d).",
MAX_PBKDF_THREADS, cd_pbkdf->parallel_threads);
cd_pbkdf->parallel_threads = MAX_PBKDF_THREADS;
}
if (cd_pbkdf->parallel_threads) {
cpus = crypt_cpusonline();
if (cd_pbkdf->parallel_threads > cpus) {
log_dbg("Only %u active CPUs detected, "
"PBKDF threads decreased from %d to %d.",
cpus, cd_pbkdf->parallel_threads, cpus);
cd_pbkdf->parallel_threads = cpus;
}
}
log_dbg("PBKDF %s, hash %s, time_ms %u (iterations %u), max_memory_kb %u, parallel_threads %u.",
cd_pbkdf->type ?: "(none)", cd_pbkdf->hash ?: "(none)", cd_pbkdf->time_ms,
cd_pbkdf->iterations, cd_pbkdf->max_memory_kb, cd_pbkdf->parallel_threads);
return 0;
}
/* Libcryptsetup API */
int crypt_set_pbkdf_type(struct crypt_device *cd, const struct crypt_pbkdf_type *pbkdf)
{
if (!cd)
return -EINVAL;
if (!pbkdf)
log_dbg("Resetting pbkdf type to default");
crypt_get_pbkdf(cd)->flags = 0;
return init_pbkdf_type(cd, pbkdf, crypt_get_type(cd));
}
const struct crypt_pbkdf_type *crypt_get_pbkdf_type(struct crypt_device *cd)
{
if (!cd)
return NULL;
return crypt_get_pbkdf(cd)->type ? crypt_get_pbkdf(cd) : NULL;
}
void crypt_set_iteration_time(struct crypt_device *cd, uint64_t iteration_time_ms)
{
struct crypt_pbkdf_type *pbkdf;
uint32_t old_time_ms;
if (!cd || iteration_time_ms > UINT32_MAX)
return;
pbkdf = crypt_get_pbkdf(cd);
old_time_ms = pbkdf->time_ms;
pbkdf->time_ms = (uint32_t)iteration_time_ms;
if (pbkdf->type && verify_pbkdf_params(cd, pbkdf)) {
pbkdf->time_ms = old_time_ms;
log_dbg("Invalid iteration time.");
return;
}
pbkdf->flags |= CRYPT_PBKDF_ITER_TIME_SET;
/* iterations must be benchmarked now */
pbkdf->flags &= ~(CRYPT_PBKDF_NO_BENCHMARK);
pbkdf->iterations = 0;
log_dbg("Iteration time set to %" PRIu64 " miliseconds.", iteration_time_ms);
}
......@@ -9,6 +9,7 @@ lib/utils_loop.c
lib/utils_fips.c
lib/utils_device.c
lib/utils_devpath.c
lib/utils_pbkdf.c
lib/utils_benchmark.c
lib/utils_wipe.c
lib/utils_keyring.c
......
......@@ -48,7 +48,6 @@ static uint64_t opt_offset = 0;
static uint64_t opt_skip = 0;
static int opt_skip_valid = 0;
static int opt_readonly = 0;
static int opt_iteration_time = DEFAULT_LUKS1_ITER_TIME;
static int opt_version_mode = 0;
static int opt_timeout = 0;
static int opt_tries = 3;
......@@ -68,9 +67,12 @@ static int opt_veracrypt = 0;
static int opt_veracrypt_pim = -1;
static int opt_veracrypt_query_pim = 0;
static int opt_deferred_remove = 0;
//FIXME: check uint32 overflow for long type
static const char *opt_pbkdf = NULL;
static long opt_pbkdf_memory = 1024;
static long opt_pbkdf_parallel = 2;
static long opt_pbkdf_iterations = 0;
static int opt_iteration_time = 0;
static const char **action_argv;
static int action_argc;
......@@ -753,6 +755,27 @@ fail:
return -EINVAL;
}
static int set_pbkdf_params(struct crypt_device *cd, const char *dev_type)
{
struct crypt_pbkdf_type pbkdf = {};
if (!strcmp(dev_type, CRYPT_LUKS1)) {
if (opt_pbkdf && strcmp(opt_pbkdf, CRYPT_KDF_PBKDF2))
return -EINVAL;
pbkdf.type = CRYPT_KDF_PBKDF2;
pbkdf.hash = opt_hash ?: DEFAULT_LUKS1_HASH;
pbkdf.time_ms = opt_iteration_time ?: DEFAULT_LUKS1_ITER_TIME;
} else
return 0;
if (opt_pbkdf_iterations) {
pbkdf.iterations = opt_pbkdf_iterations;
pbkdf.flags |= CRYPT_PBKDF_NO_BENCHMARK;
}
return crypt_set_pbkdf_type(cd, &pbkdf);
}
static int action_luksRepair(void)
{
struct crypt_device *cd = NULL;
......@@ -825,9 +848,6 @@ static int action_luksFormat(void)
keysize = (opt_key_size ?: DEFAULT_LUKS1_KEYBITS) / 8;
if (opt_iteration_time)
crypt_set_iteration_time(cd, opt_iteration_time);
if (opt_random)
crypt_set_rng_type(cd, CRYPT_RNG_RANDOM);
else if (opt_urandom)
......@@ -845,6 +865,12 @@ static int action_luksFormat(void)
goto out;
}
r = set_pbkdf_params(cd, CRYPT_LUKS1);
if (r) {
log_err(_("Failed to set pbkdf parameters.\n"));
goto out;
}
r = crypt_format(cd, CRYPT_LUKS1, cipher, cipher_mode,
opt_uuid, key, keysize, &params);
check_signal(&r);
......@@ -892,9 +918,6 @@ static int action_open_luks(void)
goto out;
}
if (opt_iteration_time)
crypt_set_iteration_time(cd, opt_iteration_time);
_set_activation_flags(&activate_flags);
if (opt_master_key_file) {
......@@ -1094,8 +1117,11 @@ static int action_luksAddKey(void)
opt_force_password = 1;
keysize = crypt_get_volume_key_size(cd);
if (opt_iteration_time)
crypt_set_iteration_time(cd, opt_iteration_time);
r = set_pbkdf_params(cd, crypt_get_type(cd));
if (r) {
log_err(_("Failed to set pbkdf parameters.\n"));
goto out;
}
if (opt_master_key_file) {
r = _read_mk(opt_master_key_file, &key, keysize);
......@@ -1175,8 +1201,11 @@ static int action_luksChangeKey(void)
if (tools_is_cipher_null(crypt_get_cipher(cd)))
opt_force_password = 1;
if (opt_iteration_time)
crypt_set_iteration_time(cd, opt_iteration_time);
r = set_pbkdf_params(cd, crypt_get_type(cd));
if (r) {
log_err(_("Failed to set pbkdf parameters.\n"));
goto out;
}
r = tools_get_key(_("Enter passphrase to be changed: "),
&password, &password_size,
......@@ -1632,7 +1661,6 @@ int main(int argc, const char **argv)
{ "offset", 'o', POPT_ARG_STRING, &popt_tmp, 2, N_("The start offset in the backend device"), N_("SECTORS") },
{ "skip", 'p', POPT_ARG_STRING, &popt_tmp, 3, N_("How many sectors of the encrypted data to skip at the beginning"), N_("SECTORS") },
{ "readonly", 'r', POPT_ARG_NONE, &opt_readonly, 0, N_("Create a readonly mapping"), NULL },
{ "iter-time", 'i', POPT_ARG_INT, &opt_iteration_time, 0, N_("PBKDF2 iteration time for LUKS (in ms)"), N_("msecs") },
{ "batch-mode", 'q', POPT_ARG_NONE, &opt_batch_mode, 0, N_("Do not ask for confirmation"), NULL },
{ "timeout", 't', POPT_ARG_INT, &opt_timeout, 0, N_("Timeout for interactive passphrase prompt (in seconds)"), N_("secs") },
{ "tries", 'T', POPT_ARG_INT, &opt_tries, 0, N_("How often the input of the passphrase can be retried"), NULL },
......@@ -1656,9 +1684,11 @@ int main(int argc, const char **argv)
{ "perf-same_cpu_crypt",'\0', POPT_ARG_NONE, &opt_perf_same_cpu_crypt, 0, N_("Use dm-crypt same_cpu_crypt performance compatibility option."), NULL },
{ "perf-submit_from_crypt_cpus",'\0', POPT_ARG_NONE, &opt_perf_submit_from_crypt_cpus,0,N_("Use dm-crypt submit_from_crypt_cpus performance compatibility option."), NULL },
{ "deferred", '\0', POPT_ARG_NONE, &opt_deferred_remove, 0, N_("Device removal is deferred until the last user closes it."), NULL },
{ "pbkdf", '\0', POPT_ARG_STRING, &opt_pbkdf, 0, N_("Password-based key derivation algorithm (PBKDF) for LUKS2 (argon2/pbkdf2)."), NULL },
{ "pbkdf-memory", '\0', POPT_ARG_LONG, &opt_pbkdf_memory, 0, N_("Password-based key derivation algorithm (PBKDF) memory cost limit"), N_("kilobytes") },
{ "pbkdf-parallel", '\0', POPT_ARG_LONG, &opt_pbkdf_parallel, 0, N_("Password-based key derivation algorithm (PBKDF) parallel cost "), N_("threads") },
{ "iter-time", 'i', POPT_ARG_INT, &opt_iteration_time, 0, N_("PBKDF iteration time for LUKS (in ms)"), N_("msecs") },
{ "pbkdf", '\0', POPT_ARG_STRING, &opt_pbkdf, 0, N_("PBKDF algorithm (for LUKS2) (argon2i/argon2id/pbkdf2)."), NULL },
{ "pbkdf-memory", '\0', POPT_ARG_LONG, &opt_pbkdf_memory, 0, N_("PBKDF memory cost limit"), N_("kilobytes") },
{ "pbkdf-parallel", '\0', POPT_ARG_LONG, &opt_pbkdf_parallel, 0, N_("PBKDF parallel cost "), N_("threads") },
{ "pbkdf-force-iterations",'\0',POPT_ARG_LONG, &opt_pbkdf_iterations, 0, N_("PBKDF iterations cost (forced, disables benchmark)"), NULL },
POPT_TABLEEND
};
poptContext popt_context;
......@@ -1915,6 +1945,16 @@ int main(int argc, const char **argv)
}
}
if (opt_pbkdf && crypt_parse_pbkdf(opt_pbkdf, &opt_pbkdf))
usage(popt_context, EXIT_FAILURE,
_("PBKDF can be only pbkdf2 or argon2i/argon2id.\n"),
poptGetInvocationName(popt_context));
if (opt_pbkdf_iterations && opt_iteration_time)
usage(popt_context, EXIT_FAILURE,
_("PBKDF forced iterations cannot be combined with iteration time option.\n"),
poptGetInvocationName(popt_context));
if (opt_debug) {
opt_verbose = 1;
crypt_set_debug_level(-1);
......
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