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/* cache.c - keep a cache of passphrases
* Copyright (C) 2002, 2010 Free Software Foundation, Inc.
*
* 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 <http://www.gnu.org/licenses/>.
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <assert.h>
#include <npth.h>
#include "agent.h"
/* The size of the encryption key in bytes. */
#define ENCRYPTION_KEYSIZE (128/8)
/* A mutex used to protect the encryption. This is required because
we use one context to do all encryption and decryption. */
static npth_mutex_t encryption_lock;
/* The encryption context. This is the only place where the
encryption key for all cached entries is available. It would be nice
to keep this (or just the key) in some hardware device, for example
a TPM. Libgcrypt could be extended to provide such a service.
With the current scheme it is easy to retrieve the cached entries
if access to Libgcrypt's memory is available. The encryption
merely avoids grepping for clear texts in the memory. Nevertheless
the encryption provides the necessary infrastructure to make it
more secure. */
static gcry_cipher_hd_t encryption_handle;
struct secret_data_s {
int totallen; /* This includes the padding and space for AESWRAP. */
char data[1]; /* A string. */
};
typedef struct cache_item_s *ITEM;
struct cache_item_s {
ITEM next;
time_t created;
time_t accessed;
int ttl; /* max. lifetime given in seconds, -1 one means infinite */
struct secret_data_s *pw;
cache_mode_t cache_mode;
char key[1];
};
/* The cache himself. */
static ITEM thecache;
/* This function must be called once to initialize this module. It
has to be done before a second thread is spawned. */
void
initialize_module_cache (void)
{
int err;
err = npth_mutex_init (&encryption_lock, NULL);
if (err)
log_fatal ("error initializing cache module: %s\n", strerror (err));
}
void
deinitialize_module_cache (void)
{
gcry_cipher_close (encryption_handle);
encryption_handle = NULL;
}
/* We do the encryption init on the fly. We can't do it in the module
init code because that is run before we listen for connections and
in case we are started on demand by gpg etc. it will only wait for
a few seconds to decide whether the agent may now accept
connections. Thus we should get into listen state as soon as
possible. */
static gpg_error_t
init_encryption (void)
{
gpg_error_t err;
void *key;
int res;
if (encryption_handle)
return 0; /* Shortcut - Already initialized. */
res = npth_mutex_lock (&encryption_lock);
if (res)
log_fatal ("failed to acquire cache encryption mutex: %s\n", strerror (res));
err = gcry_cipher_open (&encryption_handle, GCRY_CIPHER_AES128,
GCRY_CIPHER_MODE_AESWRAP, GCRY_CIPHER_SECURE);
if (!err)
{
key = gcry_random_bytes (ENCRYPTION_KEYSIZE, GCRY_STRONG_RANDOM);
if (!key)
err = gpg_error_from_syserror ();
else
{
err = gcry_cipher_setkey (encryption_handle, key, ENCRYPTION_KEYSIZE);
xfree (key);
}
if (err)
{
gcry_cipher_close (encryption_handle);
encryption_handle = NULL;
}
}
if (err)
log_error ("error initializing cache encryption context: %s\n",
gpg_strerror (err));
res = npth_mutex_unlock (&encryption_lock);
if (res)
log_fatal ("failed to release cache encryption mutex: %s\n", strerror (res));
return err? gpg_error (GPG_ERR_NOT_INITIALIZED) : 0;
}
static void
release_data (struct secret_data_s *data)
{
xfree (data);
}
static gpg_error_t
new_data (const char *string, struct secret_data_s **r_data)
{
gpg_error_t err;
struct secret_data_s *d, *d_enc;
size_t length;
int total;
int res;
*r_data = NULL;
err = init_encryption ();
if (err)
return err;
length = strlen (string) + 1;
/* We pad the data to 32 bytes so that it get more complicated
finding something out by watching allocation patterns. This is
usally not possible but we better assume nothing about our secure
storage provider. To support the AESWRAP mode we need to add 8
extra bytes as well. */
total = (length + 8) + 32 - ((length+8) % 32);
d = xtrymalloc_secure (sizeof *d + total - 1);
if (!d)
return gpg_error_from_syserror ();
memcpy (d->data, string, length);
d_enc = xtrymalloc (sizeof *d_enc + total - 1);
if (!d_enc)
{
err = gpg_error_from_syserror ();
xfree (d);
return err;
}
d_enc->totallen = total;
res = npth_mutex_lock (&encryption_lock);
if (res)
log_fatal ("failed to acquire cache encryption mutex: %s\n",
strerror (res));
err = gcry_cipher_encrypt (encryption_handle, d_enc->data, total,
d->data, total - 8);
xfree (d);
res = npth_mutex_unlock (&encryption_lock);
if (res)
log_fatal ("failed to release cache encryption mutex: %s\n", strerror (res));
if (err)
{
xfree (d_enc);
return err;
}
*r_data = d_enc;
return 0;
}
/* Check whether there are items to expire. */
static void
housekeeping (void)
{
ITEM r, rprev;
time_t current = gnupg_get_time ();
/* First expire the actual data */
for (r=thecache; r; r = r->next)
{
if (r->pw && r->ttl >= 0 && r->accessed + r->ttl < current)
{
if (DBG_CACHE)
log_debug (" expired '%s' (%ds after last access)\n",
r->key, r->ttl);
release_data (r->pw);
r->pw = NULL;
r->accessed = current;
}
}
/* Second, make sure that we also remove them based on the created stamp so
that the user has to enter it from time to time. */
for (r=thecache; r; r = r->next)
{
unsigned long maxttl;
switch (r->cache_mode)
{
case CACHE_MODE_SSH: maxttl = opt.max_cache_ttl_ssh; break;
default: maxttl = opt.max_cache_ttl; break;
}
if (r->pw && r->created + maxttl < current)
{
if (DBG_CACHE)
log_debug (" expired '%s' (%lus after creation)\n",
r->key, opt.max_cache_ttl);
release_data (r->pw);
r->pw = NULL;
r->accessed = current;
}
}
/* Third, make sure that we don't have too many items in the list.
Expire old and unused entries after 30 minutes */
for (rprev=NULL, r=thecache; r; )
{
if (!r->pw && r->ttl >= 0 && r->accessed + 60*30 < current)
{
ITEM r2 = r->next;
if (DBG_CACHE)
log_debug (" removed '%s' (mode %d) (slot not used for 30m)\n",
r->key, r->cache_mode);
xfree (r);
if (!rprev)
thecache = r2;
else
rprev->next = r2;
r = r2;
}
else
{
rprev = r;
r = r->next;
}
}
}
void
agent_flush_cache (void)
{
ITEM r;
if (DBG_CACHE)
log_debug ("agent_flush_cache\n");
for (r=thecache; r; r = r->next)
{
if (r->pw)
{
if (DBG_CACHE)
log_debug (" flushing '%s'\n", r->key);
release_data (r->pw);
r->pw = NULL;
r->accessed = 0;
}
}
}
/* Store the string DATA in the cache under KEY and mark it with a
maximum lifetime of TTL seconds. If there is already data under
this key, it will be replaced. Using a DATA of NULL deletes the
entry. A TTL of 0 is replaced by the default TTL and a TTL of -1
set infinite timeout. CACHE_MODE is stored with the cache entry
and used to select different timeouts. */
int
agent_put_cache (const char *key, cache_mode_t cache_mode,
const char *data, int ttl)
{
gpg_error_t err = 0;
ITEM r;
if (DBG_CACHE)
log_debug ("agent_put_cache '%s' (mode %d) requested ttl=%d\n",
key, cache_mode, ttl);
housekeeping ();
if (!ttl)
{
switch(cache_mode)
{
case CACHE_MODE_SSH: ttl = opt.def_cache_ttl_ssh; break;
default: ttl = opt.def_cache_ttl; break;
}
}
if ((!ttl && data) || cache_mode == CACHE_MODE_IGNORE)
return 0;
for (r=thecache; r; r = r->next)
{
if (((cache_mode != CACHE_MODE_USER
&& cache_mode != CACHE_MODE_NONCE)
|| r->cache_mode == cache_mode)
&& !strcmp (r->key, key))
break;
}
if (r) /* Replace. */
{
if (r->pw)
{
release_data (r->pw);
r->pw = NULL;
}
if (data)
{
r->created = r->accessed = gnupg_get_time ();
r->ttl = ttl;
r->cache_mode = cache_mode;
err = new_data (data, &r->pw);
if (err)
log_error ("error replacing cache item: %s\n", gpg_strerror (err));
}
}
else if (data) /* Insert. */
{
r = xtrycalloc (1, sizeof *r + strlen (key));
if (!r)
err = gpg_error_from_syserror ();
else
{
strcpy (r->key, key);
r->created = r->accessed = gnupg_get_time ();
r->ttl = ttl;
r->cache_mode = cache_mode;
err = new_data (data, &r->pw);
if (err)
xfree (r);
else
{
r->next = thecache;
thecache = r;
}
}
if (err)
log_error ("error inserting cache item: %s\n", gpg_strerror (err));
}
return err;
}
/* Try to find an item in the cache. Note that we currently don't
make use of CACHE_MODE except for CACHE_MODE_NONCE and
CACHE_MODE_USER. */
char *
agent_get_cache (const char *key, cache_mode_t cache_mode)
{
gpg_error_t err;
ITEM r;
char *value = NULL;
int res;
if (cache_mode == CACHE_MODE_IGNORE)
return NULL;
if (DBG_CACHE)
log_debug ("agent_get_cache '%s' (mode %d) ...\n", key, cache_mode);
housekeeping ();
for (r=thecache; r; r = r->next)
{
if (r->pw
&& ((cache_mode != CACHE_MODE_USER
&& cache_mode != CACHE_MODE_NONCE)
|| r->cache_mode == cache_mode)
&& !strcmp (r->key, key))
{
r->accessed = gnupg_get_time ();
if (DBG_CACHE)
log_debug ("... hit\n");
if (r->pw->totallen < 32)
err = gpg_error (GPG_ERR_INV_LENGTH);
else if ((err = init_encryption ()))
;
else if (!(value = xtrymalloc_secure (r->pw->totallen - 8)))
err = gpg_error_from_syserror ();
else
{
res = npth_mutex_lock (&encryption_lock);
if (res)
log_fatal ("failed to acquire cache encryption mutex: %s\n",
strerror (res));
err = gcry_cipher_decrypt (encryption_handle,
value, r->pw->totallen - 8,
r->pw->data, r->pw->totallen);
res = npth_mutex_unlock (&encryption_lock);
if (res)
log_fatal ("failed to release cache encryption mutex: %s\n",
strerror (res));
}
if (err)
{
xfree (value);
value = NULL;
log_error ("retrieving cache entry '%s' failed: %s\n",
key, gpg_strerror (err));
}
return value;
}
}
if (DBG_CACHE)
log_debug ("... miss\n");
return NULL;
}
|