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gnupg/g13/suspend.c

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g13: Add commands --suspend and --remove. * g13/g13.c (aSuspend, aResume): New. (opts): Add commands --suspend and --resume. (main): Implement dummy command aUmount. Implement commands aResume and aSuspend. * g13/sh-cmd.c (cmd_suspend): New. (cmd_resume): New. (register_commands): Add commands RESUME and SUSPEND. * g13/server.c (cmd_suspend): New. (cmd_resume): New. (register_commands): Add commands RESUME and SUSPEND. * g13/be-dmcrypt.c (be_dmcrypt_suspend_container): New. (be_dmcrypt_resume_container): New. * g13/backend.c (be_suspend_container): New. (be_resume_container): New. * g13/suspend.c, g13/suspend.h: New. * g13/mount.c (parse_header, read_keyblob_prefix, read_keyblob) (decrypt_keyblob, g13_is_container): Move to ... * g13/keyblob.c: new file. (keyblob_read): Rename to g13_keyblob_read and make global. (keyblob_decrypt): Rename to g13_keyblob_decrypt and make global. * g13/sh-dmcrypt.c (check_blockdev): Add arg expect_busy. (sh_dmcrypt_suspend_container): New. (sh_dmcrypt_resume_container): New. * g13/call-syshelp.c (call_syshelp_run_suspend): New. (call_syshelp_run_resume): New. -- The --suspend command can be used before a hibernate operation to make the encrypted partition inaccessible and wipe the key from the memory. Before --suspend is called a sync(1) should be run to make sure that their are no dirty buffers (dmsetup, as called by g13, actually does this for you but it does not harm to do it anyway. After the partition has been suspended a echo 3 >proc/sys/vm/drop_caches required to flush all caches which may still have content from the encrypted partition. The --resume command reverses the effect of the suspend but to do this it needs to decrypt again. Now, if the .gnupg directory lives on the encrypted partition this will be problematic because due to the suspend all processes accessing data on the encrypted partition will be put into an uninterruptible sleep (ps(1) shows a state of 'D'). This needs to be avoided. A workaround is to have a separate GnuPG home directory (say, "~/.gnupg-fallback") with only the public keys required to decrypt the partition along with a properly setup conf files. A GNUPGHOME=$(pwd)/.gnupg-fallback g13 --resume should then be able to resume the encrypted partition using the private key stored on a smartcard. The implementation is pretty basic right now but useful to me. Signed-off-by: Werner Koch <wk@gnupg.org>
2016-02-23 14:32:46 +01:00
/* suspend.c - Suspend/Resume a crypto container
* Copyright (C) 2016 Werner Koch
*
* This file is part of GnuPG.
*
* GnuPG 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 3 of the License, or
* (at your option) any later version.
*
* GnuPG 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, see <https://www.gnu.org/licenses/>.
g13: Add commands --suspend and --remove. * g13/g13.c (aSuspend, aResume): New. (opts): Add commands --suspend and --resume. (main): Implement dummy command aUmount. Implement commands aResume and aSuspend. * g13/sh-cmd.c (cmd_suspend): New. (cmd_resume): New. (register_commands): Add commands RESUME and SUSPEND. * g13/server.c (cmd_suspend): New. (cmd_resume): New. (register_commands): Add commands RESUME and SUSPEND. * g13/be-dmcrypt.c (be_dmcrypt_suspend_container): New. (be_dmcrypt_resume_container): New. * g13/backend.c (be_suspend_container): New. (be_resume_container): New. * g13/suspend.c, g13/suspend.h: New. * g13/mount.c (parse_header, read_keyblob_prefix, read_keyblob) (decrypt_keyblob, g13_is_container): Move to ... * g13/keyblob.c: new file. (keyblob_read): Rename to g13_keyblob_read and make global. (keyblob_decrypt): Rename to g13_keyblob_decrypt and make global. * g13/sh-dmcrypt.c (check_blockdev): Add arg expect_busy. (sh_dmcrypt_suspend_container): New. (sh_dmcrypt_resume_container): New. * g13/call-syshelp.c (call_syshelp_run_suspend): New. (call_syshelp_run_resume): New. -- The --suspend command can be used before a hibernate operation to make the encrypted partition inaccessible and wipe the key from the memory. Before --suspend is called a sync(1) should be run to make sure that their are no dirty buffers (dmsetup, as called by g13, actually does this for you but it does not harm to do it anyway. After the partition has been suspended a echo 3 >proc/sys/vm/drop_caches required to flush all caches which may still have content from the encrypted partition. The --resume command reverses the effect of the suspend but to do this it needs to decrypt again. Now, if the .gnupg directory lives on the encrypted partition this will be problematic because due to the suspend all processes accessing data on the encrypted partition will be put into an uninterruptible sleep (ps(1) shows a state of 'D'). This needs to be avoided. A workaround is to have a separate GnuPG home directory (say, "~/.gnupg-fallback") with only the public keys required to decrypt the partition along with a properly setup conf files. A GNUPGHOME=$(pwd)/.gnupg-fallback g13 --resume should then be able to resume the encrypted partition using the private key stored on a smartcard. The implementation is pretty basic right now but useful to me. Signed-off-by: Werner Koch <wk@gnupg.org>
2016-02-23 14:32:46 +01:00
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <unistd.h>
#include <sys/stat.h>
#include <assert.h>
#include "g13.h"
#include "../common/i18n.h"
#include "../common/sysutils.h"
g13: Add commands --suspend and --remove. * g13/g13.c (aSuspend, aResume): New. (opts): Add commands --suspend and --resume. (main): Implement dummy command aUmount. Implement commands aResume and aSuspend. * g13/sh-cmd.c (cmd_suspend): New. (cmd_resume): New. (register_commands): Add commands RESUME and SUSPEND. * g13/server.c (cmd_suspend): New. (cmd_resume): New. (register_commands): Add commands RESUME and SUSPEND. * g13/be-dmcrypt.c (be_dmcrypt_suspend_container): New. (be_dmcrypt_resume_container): New. * g13/backend.c (be_suspend_container): New. (be_resume_container): New. * g13/suspend.c, g13/suspend.h: New. * g13/mount.c (parse_header, read_keyblob_prefix, read_keyblob) (decrypt_keyblob, g13_is_container): Move to ... * g13/keyblob.c: new file. (keyblob_read): Rename to g13_keyblob_read and make global. (keyblob_decrypt): Rename to g13_keyblob_decrypt and make global. * g13/sh-dmcrypt.c (check_blockdev): Add arg expect_busy. (sh_dmcrypt_suspend_container): New. (sh_dmcrypt_resume_container): New. * g13/call-syshelp.c (call_syshelp_run_suspend): New. (call_syshelp_run_resume): New. -- The --suspend command can be used before a hibernate operation to make the encrypted partition inaccessible and wipe the key from the memory. Before --suspend is called a sync(1) should be run to make sure that their are no dirty buffers (dmsetup, as called by g13, actually does this for you but it does not harm to do it anyway. After the partition has been suspended a echo 3 >proc/sys/vm/drop_caches required to flush all caches which may still have content from the encrypted partition. The --resume command reverses the effect of the suspend but to do this it needs to decrypt again. Now, if the .gnupg directory lives on the encrypted partition this will be problematic because due to the suspend all processes accessing data on the encrypted partition will be put into an uninterruptible sleep (ps(1) shows a state of 'D'). This needs to be avoided. A workaround is to have a separate GnuPG home directory (say, "~/.gnupg-fallback") with only the public keys required to decrypt the partition along with a properly setup conf files. A GNUPGHOME=$(pwd)/.gnupg-fallback g13 --resume should then be able to resume the encrypted partition using the private key stored on a smartcard. The implementation is pretty basic right now but useful to me. Signed-off-by: Werner Koch <wk@gnupg.org>
2016-02-23 14:32:46 +01:00
#include "suspend.h"
#include "keyblob.h"
#include "backend.h"
#include "g13tuple.h"
#include "server.h" /*(g13_keyblob_decrypt)*/
g13: Add commands --suspend and --remove. * g13/g13.c (aSuspend, aResume): New. (opts): Add commands --suspend and --resume. (main): Implement dummy command aUmount. Implement commands aResume and aSuspend. * g13/sh-cmd.c (cmd_suspend): New. (cmd_resume): New. (register_commands): Add commands RESUME and SUSPEND. * g13/server.c (cmd_suspend): New. (cmd_resume): New. (register_commands): Add commands RESUME and SUSPEND. * g13/be-dmcrypt.c (be_dmcrypt_suspend_container): New. (be_dmcrypt_resume_container): New. * g13/backend.c (be_suspend_container): New. (be_resume_container): New. * g13/suspend.c, g13/suspend.h: New. * g13/mount.c (parse_header, read_keyblob_prefix, read_keyblob) (decrypt_keyblob, g13_is_container): Move to ... * g13/keyblob.c: new file. (keyblob_read): Rename to g13_keyblob_read and make global. (keyblob_decrypt): Rename to g13_keyblob_decrypt and make global. * g13/sh-dmcrypt.c (check_blockdev): Add arg expect_busy. (sh_dmcrypt_suspend_container): New. (sh_dmcrypt_resume_container): New. * g13/call-syshelp.c (call_syshelp_run_suspend): New. (call_syshelp_run_resume): New. -- The --suspend command can be used before a hibernate operation to make the encrypted partition inaccessible and wipe the key from the memory. Before --suspend is called a sync(1) should be run to make sure that their are no dirty buffers (dmsetup, as called by g13, actually does this for you but it does not harm to do it anyway. After the partition has been suspended a echo 3 >proc/sys/vm/drop_caches required to flush all caches which may still have content from the encrypted partition. The --resume command reverses the effect of the suspend but to do this it needs to decrypt again. Now, if the .gnupg directory lives on the encrypted partition this will be problematic because due to the suspend all processes accessing data on the encrypted partition will be put into an uninterruptible sleep (ps(1) shows a state of 'D'). This needs to be avoided. A workaround is to have a separate GnuPG home directory (say, "~/.gnupg-fallback") with only the public keys required to decrypt the partition along with a properly setup conf files. A GNUPGHOME=$(pwd)/.gnupg-fallback g13 --resume should then be able to resume the encrypted partition using the private key stored on a smartcard. The implementation is pretty basic right now but useful to me. Signed-off-by: Werner Koch <wk@gnupg.org>
2016-02-23 14:32:46 +01:00
/* Suspend the container with name FILENAME. */
gpg_error_t
g13_suspend_container (ctrl_t ctrl, const char *filename)
{
gpg_error_t err;
int needs_syshelp;
/* A quick check to see whether the container exists. */
if (gnupg_access (filename, R_OK))
g13: Add commands --suspend and --remove. * g13/g13.c (aSuspend, aResume): New. (opts): Add commands --suspend and --resume. (main): Implement dummy command aUmount. Implement commands aResume and aSuspend. * g13/sh-cmd.c (cmd_suspend): New. (cmd_resume): New. (register_commands): Add commands RESUME and SUSPEND. * g13/server.c (cmd_suspend): New. (cmd_resume): New. (register_commands): Add commands RESUME and SUSPEND. * g13/be-dmcrypt.c (be_dmcrypt_suspend_container): New. (be_dmcrypt_resume_container): New. * g13/backend.c (be_suspend_container): New. (be_resume_container): New. * g13/suspend.c, g13/suspend.h: New. * g13/mount.c (parse_header, read_keyblob_prefix, read_keyblob) (decrypt_keyblob, g13_is_container): Move to ... * g13/keyblob.c: new file. (keyblob_read): Rename to g13_keyblob_read and make global. (keyblob_decrypt): Rename to g13_keyblob_decrypt and make global. * g13/sh-dmcrypt.c (check_blockdev): Add arg expect_busy. (sh_dmcrypt_suspend_container): New. (sh_dmcrypt_resume_container): New. * g13/call-syshelp.c (call_syshelp_run_suspend): New. (call_syshelp_run_resume): New. -- The --suspend command can be used before a hibernate operation to make the encrypted partition inaccessible and wipe the key from the memory. Before --suspend is called a sync(1) should be run to make sure that their are no dirty buffers (dmsetup, as called by g13, actually does this for you but it does not harm to do it anyway. After the partition has been suspended a echo 3 >proc/sys/vm/drop_caches required to flush all caches which may still have content from the encrypted partition. The --resume command reverses the effect of the suspend but to do this it needs to decrypt again. Now, if the .gnupg directory lives on the encrypted partition this will be problematic because due to the suspend all processes accessing data on the encrypted partition will be put into an uninterruptible sleep (ps(1) shows a state of 'D'). This needs to be avoided. A workaround is to have a separate GnuPG home directory (say, "~/.gnupg-fallback") with only the public keys required to decrypt the partition along with a properly setup conf files. A GNUPGHOME=$(pwd)/.gnupg-fallback g13 --resume should then be able to resume the encrypted partition using the private key stored on a smartcard. The implementation is pretty basic right now but useful to me. Signed-off-by: Werner Koch <wk@gnupg.org>
2016-02-23 14:32:46 +01:00
return gpg_error_from_syserror ();
/* Decide whether we need to use the g13-syshelp because we can't
use lock files for them. This is most likely the case for device
files; thus we test for this. FIXME: The correct solution would
be to call g13-syshelp to match the file against the g13tab. */
needs_syshelp = !strncmp (filename, "/dev/", 5);
if (!needs_syshelp)
err = gpg_error (GPG_ERR_NOT_SUPPORTED);
else
err = be_suspend_container (ctrl, CONTTYPE_DM_CRYPT, filename);
return err;
}
/* Resume the container with name FILENAME. */
gpg_error_t
g13_resume_container (ctrl_t ctrl, const char *filename)
{
gpg_error_t err;
int needs_syshelp;
void *enckeyblob = NULL;
size_t enckeybloblen;
void *keyblob = NULL;
size_t keybloblen;
tupledesc_t tuples = NULL;
size_t n;
const unsigned char *value;
int conttype;
char *mountpoint_buffer = NULL;
/* A quick check to see whether the container exists. */
if (gnupg_access (filename, R_OK))
g13: Add commands --suspend and --remove. * g13/g13.c (aSuspend, aResume): New. (opts): Add commands --suspend and --resume. (main): Implement dummy command aUmount. Implement commands aResume and aSuspend. * g13/sh-cmd.c (cmd_suspend): New. (cmd_resume): New. (register_commands): Add commands RESUME and SUSPEND. * g13/server.c (cmd_suspend): New. (cmd_resume): New. (register_commands): Add commands RESUME and SUSPEND. * g13/be-dmcrypt.c (be_dmcrypt_suspend_container): New. (be_dmcrypt_resume_container): New. * g13/backend.c (be_suspend_container): New. (be_resume_container): New. * g13/suspend.c, g13/suspend.h: New. * g13/mount.c (parse_header, read_keyblob_prefix, read_keyblob) (decrypt_keyblob, g13_is_container): Move to ... * g13/keyblob.c: new file. (keyblob_read): Rename to g13_keyblob_read and make global. (keyblob_decrypt): Rename to g13_keyblob_decrypt and make global. * g13/sh-dmcrypt.c (check_blockdev): Add arg expect_busy. (sh_dmcrypt_suspend_container): New. (sh_dmcrypt_resume_container): New. * g13/call-syshelp.c (call_syshelp_run_suspend): New. (call_syshelp_run_resume): New. -- The --suspend command can be used before a hibernate operation to make the encrypted partition inaccessible and wipe the key from the memory. Before --suspend is called a sync(1) should be run to make sure that their are no dirty buffers (dmsetup, as called by g13, actually does this for you but it does not harm to do it anyway. After the partition has been suspended a echo 3 >proc/sys/vm/drop_caches required to flush all caches which may still have content from the encrypted partition. The --resume command reverses the effect of the suspend but to do this it needs to decrypt again. Now, if the .gnupg directory lives on the encrypted partition this will be problematic because due to the suspend all processes accessing data on the encrypted partition will be put into an uninterruptible sleep (ps(1) shows a state of 'D'). This needs to be avoided. A workaround is to have a separate GnuPG home directory (say, "~/.gnupg-fallback") with only the public keys required to decrypt the partition along with a properly setup conf files. A GNUPGHOME=$(pwd)/.gnupg-fallback g13 --resume should then be able to resume the encrypted partition using the private key stored on a smartcard. The implementation is pretty basic right now but useful to me. Signed-off-by: Werner Koch <wk@gnupg.org>
2016-02-23 14:32:46 +01:00
return gpg_error_from_syserror ();
/* Decide whether we need to use the g13-syshelp because we can't
use lock files for them. This is most likely the case for device
files; thus we test for this. FIXME: The correct solution would
be to call g13-syshelp to match the file against the g13tab. */
needs_syshelp = !strncmp (filename, "/dev/", 5);
if (!needs_syshelp)
{
err = gpg_error (GPG_ERR_NOT_SUPPORTED);
goto leave;
}
/* Read the encrypted keyblob. */
/* Fixme: Should we move this to syshelp for dm-crypt or do we
assume that the encrypted device is world readable? */
err = g13_keyblob_read (filename, &enckeyblob, &enckeybloblen);
if (err)
goto leave;
/* Decrypt that keyblob and store it in a tuple descriptor. */
err = g13_keyblob_decrypt (ctrl, enckeyblob, enckeybloblen,
&keyblob, &keybloblen);
if (err)
goto leave;
xfree (enckeyblob);
enckeyblob = NULL;
err = create_tupledesc (&tuples, keyblob, keybloblen);
if (!err)
keyblob = NULL;
else
{
if (gpg_err_code (err) == GPG_ERR_NOT_SUPPORTED)
log_error ("unknown keyblob version\n");
goto leave;
}
if (opt.verbose)
dump_tupledesc (tuples);
value = find_tuple (tuples, KEYBLOB_TAG_CONTTYPE, &n);
if (!value || n != 2)
conttype = 0;
else
conttype = (value[0] << 8 | value[1]);
if (!be_is_supported_conttype (conttype))
{
log_error ("content type %d is not supported\n", conttype);
err = gpg_error (GPG_ERR_NOT_SUPPORTED);
goto leave;
}
err = be_resume_container (ctrl, conttype, filename, tuples);
leave:
destroy_tupledesc (tuples);
xfree (keyblob);
xfree (enckeyblob);
xfree (mountpoint_buffer);
return err;
}