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gnupg/scd/app-p15.c

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2004-12-02 08:48:09 +01:00
/* app-p15.c - The pkcs#15 card application.
* Copyright (C) 2005 Free Software Foundation, Inc.
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*
* 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
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* the Free Software Foundation; either version 3 of the License, or
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* (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
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* along with this program; if not, see <http://www.gnu.org/licenses/>.
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*/
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/* Information pertaining to the BELPIC developer card samples:
Unblock PUK: "222222111111"
Reset PIN: "333333111111")
e.g. the APDUs 00:20:00:02:08:2C:33:33:33:11:11:11:FF
2006-05-23 18:19:43 +02:00
and 00:24:01:01:08:24:12:34:FF:FF:FF:FF:FF
should change the PIN into 1234.
*/
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#include <config.h>
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include <time.h>
#include "scdaemon.h"
#include "iso7816.h"
#include "app-common.h"
#include "tlv.h"
#include "apdu.h" /* fixme: we should move the card detection to a
separate file */
/* Types of cards we know and which needs special treatment. */
typedef enum
{
CARD_TYPE_UNKNOWN,
CARD_TYPE_TCOS,
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CARD_TYPE_MICARDO,
CARD_TYPE_BELPIC /* Belgian eID card specs. */
}
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card_type_t;
/* A list card types with ATRs noticed with these cards. */
#define X(a) ((unsigned char const *)(a))
static struct
{
size_t atrlen;
unsigned char const *atr;
card_type_t type;
} card_atr_list[] = {
{ 19, X("\x3B\xBA\x13\x00\x81\x31\x86\x5D\x00\x64\x05\x0A\x02\x01\x31\x80"
"\x90\x00\x8B"),
CARD_TYPE_TCOS }, /* SLE44 */
{ 19, X("\x3B\xBA\x14\x00\x81\x31\x86\x5D\x00\x64\x05\x14\x02\x02\x31\x80"
"\x90\x00\x91"),
CARD_TYPE_TCOS }, /* SLE66S */
{ 19, X("\x3B\xBA\x96\x00\x81\x31\x86\x5D\x00\x64\x05\x60\x02\x03\x31\x80"
"\x90\x00\x66"),
CARD_TYPE_TCOS }, /* SLE66P */
{ 27, X("\x3B\xFF\x94\x00\xFF\x80\xB1\xFE\x45\x1F\x03\x00\x68\xD2\x76\x00"
"\x00\x28\xFF\x05\x1E\x31\x80\x00\x90\x00\x23"),
CARD_TYPE_MICARDO }, /* German BMI card */
{ 19, X("\x3B\x6F\x00\xFF\x00\x68\xD2\x76\x00\x00\x28\xFF\x05\x1E\x31\x80"
"\x00\x90\x00"),
CARD_TYPE_MICARDO }, /* German BMI card (ATR due to reader problem) */
{ 26, X("\x3B\xFE\x94\x00\xFF\x80\xB1\xFA\x45\x1F\x03\x45\x73\x74\x45\x49"
"\x44\x20\x76\x65\x72\x20\x31\x2E\x30\x43"),
CARD_TYPE_MICARDO }, /* EstEID (Estonian Big Brother card) */
{ 0 }
};
#undef X
/* The AID of PKCS15. */
static char const pkcs15_aid[] = { 0xA0, 0, 0, 0, 0x63,
0x50, 0x4B, 0x43, 0x53, 0x2D, 0x31, 0x35 };
/* The Belgian eID variant - they didn't understood why a shared AID
is useful for a standard. Oh well. */
static char const pkcs15be_aid[] = { 0xA0, 0, 0, 0x01, 0x77,
0x50, 0x4B, 0x43, 0x53, 0x2D, 0x31, 0x35 };
/* The PIN types as defined in pkcs#15 v1.1 */
typedef enum
{
PIN_TYPE_BCD = 0,
PIN_TYPE_ASCII_NUMERIC = 1,
PIN_TYPE_UTF8 = 2,
PIN_TYPE_HALF_NIBBLE_BCD = 3,
PIN_TYPE_ISO9564_1 = 4
} pin_type_t;
/* A bit array with for the key usage flags from the
commonKeyAttributes. */
struct keyusage_flags_s
{
unsigned int encrypt: 1;
unsigned int decrypt: 1;
unsigned int sign: 1;
unsigned int sign_recover: 1;
unsigned int wrap: 1;
unsigned int unwrap: 1;
unsigned int verify: 1;
unsigned int verify_recover: 1;
unsigned int derive: 1;
unsigned int non_repudiation: 1;
};
typedef struct keyusage_flags_s keyusage_flags_t;
/* This is an object to store information about a Certificate
Directory File (CDF) in a format suitable for further processing by
us. To keep memory management, simple we use a linked list of
items; i.e. one such object represents one certificate and the list
the entire CDF. */
struct cdf_object_s
{
/* Link to next item when used in a linked list. */
struct cdf_object_s *next;
/* Length and allocated buffer with the Id of this object. */
size_t objidlen;
unsigned char *objid;
/* To avoid reading a certificate more than once, we cache it in an
allocated memory IMAGE of IMAGELEN. */
size_t imagelen;
unsigned char *image;
/* Set to true if a length and offset is available. */
int have_off;
/* The offset and length of the object. They are only valid if
HAVE_OFF is true and set to 0 if HAVE_OFF is false. */
unsigned long off, len;
/* The length of the path as given in the CDF and the path itself.
path[0] is the top DF (usually 0x3f00). The path will never be
empty. */
size_t pathlen;
unsigned short path[1];
};
typedef struct cdf_object_s *cdf_object_t;
/* This is an object to store information about a Private Key
Directory File (PrKDF) in a format suitable for further processing
by us. To keep memory management, simple we use a linked list of
items; i.e. one such object represents one certificate and the list
the entire PrKDF. */
struct prkdf_object_s
{
/* Link to next item when used in a linked list. */
struct prkdf_object_s *next;
/* Length and allocated buffer with the Id of this object. */
size_t objidlen;
unsigned char *objid;
/* Length and allocated buffer with the authId of this object or
NULL if no authID is known. */
size_t authidlen;
unsigned char *authid;
/* The key's usage flags. */
keyusage_flags_t usageflags;
/* The keyReference and a flag telling whether it is valid. */
unsigned long key_reference;
int key_reference_valid;
/* Set to true if a length and offset is available. */
int have_off;
/* The offset and length of the object. They are only valid if
HAVE_OFF is true and set to 0 if HAVE_OFF is false. */
unsigned long off, len;
/* The length of the path as given in the PrKDF and the path itself.
path[0] is the top DF (usually 0x3f00). */
size_t pathlen;
unsigned short path[1];
};
typedef struct prkdf_object_s *prkdf_object_t;
/* This is an object to store information about a Authentication
Object Directory File (AODF) in a format suitable for further
processing by us. To keep memory management, simple we use a linked
list of items; i.e. one such object represents one authentication
object and the list the entire AOKDF. */
struct aodf_object_s
{
/* Link to next item when used in a linked list. */
struct aodf_object_s *next;
/* Length and allocated buffer with the Id of this object. */
size_t objidlen;
unsigned char *objid;
/* Length and allocated buffer with the authId of this object or
NULL if no authID is known. */
size_t authidlen;
unsigned char *authid;
/* The PIN Flags. */
struct
{
unsigned int case_sensitive: 1;
unsigned int local: 1;
unsigned int change_disabled: 1;
unsigned int unblock_disabled: 1;
unsigned int initialized: 1;
unsigned int needs_padding: 1;
unsigned int unblocking_pin: 1;
unsigned int so_pin: 1;
unsigned int disable_allowed: 1;
unsigned int integrity_protected: 1;
unsigned int confidentiality_protected: 1;
unsigned int exchange_ref_data: 1;
} pinflags;
/* The PIN Type. */
pin_type_t pintype;
/* The minimum length of a PIN. */
unsigned long min_length;
/* The stored length of a PIN. */
unsigned long stored_length;
/* The maximum length of a PIN and a flag telling whether it is valid. */
unsigned long max_length;
int max_length_valid;
/* The pinReference and a flag telling whether it is valid. */
unsigned long pin_reference;
int pin_reference_valid;
/* The padChar and a flag telling whether it is valid. */
char pad_char;
int pad_char_valid;
/* Set to true if a length and offset is available. */
int have_off;
/* The offset and length of the object. They are only valid if
HAVE_OFF is true and set to 0 if HAVE_OFF is false. */
unsigned long off, len;
/* The length of the path as given in the Aodf and the path itself.
path[0] is the top DF (usually 0x3f00). PATH is optional and thus
may be NULL. Malloced.*/
size_t pathlen;
unsigned short *path;
};
typedef struct aodf_object_s *aodf_object_t;
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/* Context local to this application. */
struct app_local_s
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{
/* The home DF. Note, that we don't yet support a multilevel
hierachy. Thus we assume this is directly below the MF. */
unsigned short home_df;
/* The type of the card. */
card_type_t card_type;
/* Flag indicating whether we may use direct path selection. */
int direct_path_selection;
/* Structure with the EFIDs of the objects described in the ODF
file. */
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struct
{
unsigned short private_keys;
unsigned short public_keys;
unsigned short trusted_public_keys;
unsigned short secret_keys;
unsigned short certificates;
unsigned short trusted_certificates;
unsigned short useful_certificates;
unsigned short data_objects;
unsigned short auth_objects;
} odf;
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/* The PKCS#15 serialnumber from EF(TokeiNFo) or NULL. Malloced. */
unsigned char *serialno;
size_t serialnolen;
/* Information on all certificates. */
cdf_object_t certificate_info;
/* Information on all trusted certificates. */
cdf_object_t trusted_certificate_info;
/* Information on all useful certificates. */
cdf_object_t useful_certificate_info;
/* Information on all private keys. */
prkdf_object_t private_key_info;
/* Information on all authentication objects. */
aodf_object_t auth_object_info;
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};
/*** Local prototypes. ***/
static gpg_error_t readcert_by_cdf (app_t app, cdf_object_t cdf,
unsigned char **r_cert, size_t *r_certlen);
/* Release the CDF object A */
static void
release_cdflist (cdf_object_t a)
{
while (a)
{
cdf_object_t tmp = a->next;
xfree (a->image);
xfree (a->objid);
xfree (a);
a = tmp;
}
}
/* Release the PrKDF object A. */
static void
release_prkdflist (prkdf_object_t a)
{
while (a)
{
prkdf_object_t tmp = a->next;
xfree (a->objid);
xfree (a->authid);
xfree (a);
a = tmp;
}
}
/* Release just one aodf object. */
void
release_aodf_object (aodf_object_t a)
{
if (a)
{
xfree (a->objid);
xfree (a->authid);
xfree (a->path);
xfree (a);
}
}
/* Release the AODF list A. */
static void
release_aodflist (aodf_object_t a)
{
while (a)
{
aodf_object_t tmp = a->next;
release_aodf_object (a);
a = tmp;
}
}
/* Release all local resources. */
static void
do_deinit (app_t app)
{
if (app && app->app_local)
{
release_cdflist (app->app_local->certificate_info);
release_cdflist (app->app_local->trusted_certificate_info);
release_cdflist (app->app_local->useful_certificate_info);
release_prkdflist (app->app_local->private_key_info);
release_aodflist (app->app_local->auth_object_info);
xfree (app->app_local->serialno);
xfree (app->app_local);
app->app_local = NULL;
}
}
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/* Do a select and a read for the file with EFID. EFID_DESC is a
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desctription of the EF to be used with error messages. On success
BUFFER and BUFLEN contain the entire content of the EF. The caller
must free BUFFER only on success. */
static gpg_error_t
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select_and_read_binary (int slot, unsigned short efid, const char *efid_desc,
unsigned char **buffer, size_t *buflen)
{
gpg_error_t err;
err = iso7816_select_file (slot, efid, 0, NULL, NULL);
if (err)
{
log_error ("error selecting %s (0x%04X): %s\n",
efid_desc, efid, gpg_strerror (err));
return err;
}
err = iso7816_read_binary (slot, 0, 0, buffer, buflen);
if (err)
{
log_error ("error reading %s (0x%04X): %s\n",
efid_desc, efid, gpg_strerror (err));
return err;
}
return 0;
}
/* This function calls select file to read a file using a complete
path which may or may not start at the master file (MF). */
static gpg_error_t
select_ef_by_path (app_t app, const unsigned short *path, size_t pathlen)
{
gpg_error_t err;
int i, j;
if (!pathlen)
return gpg_error (GPG_ERR_INV_VALUE);
if (pathlen && *path != 0x3f00 )
log_debug ("WARNING: relative path selection not yet implemented\n");
if (app->app_local->direct_path_selection)
{
err = iso7816_select_path (app->slot, path+1, pathlen-1, NULL, NULL);
if (err)
{
log_error ("error selecting path ");
for (j=0; j < pathlen; j++)
log_printf ("%04hX", path[j]);
log_printf (": %s\n", gpg_strerror (err));
return err;
}
}
else
{
/* FIXME: Need code to remember the last PATH so that we can decide
what select commands to send in case the path does not start off
with 3F00. We might also want to use direct path selection if
supported by the card. */
for (i=0; i < pathlen; i++)
{
err = iso7816_select_file (app->slot, path[i],
!(i+1 == pathlen), NULL, NULL);
if (err)
{
log_error ("error selecting part %d from path ", i);
for (j=0; j < pathlen; j++)
log_printf ("%04hX", path[j]);
log_printf (": %s\n", gpg_strerror (err));
return err;
}
}
}
return 0;
}
/* Parse a cert Id string (or a key Id string) and return the binary
object Id string in a newly allocated buffer stored at R_OBJID and
R_OBJIDLEN. On Error NULL will be stored there and an error code
returned. On success caller needs to free the buffer at R_OBJID. */
static gpg_error_t
parse_certid (app_t app, const char *certid,
unsigned char **r_objid, size_t *r_objidlen)
{
char tmpbuf[10];
const char *s;
size_t objidlen;
unsigned char *objid;
int i;
*r_objid = NULL;
*r_objidlen = 0;
if (app->app_local->home_df)
sprintf (tmpbuf, "P15-%04hX.", (app->app_local->home_df & 0xffff));
else
strcpy (tmpbuf, "P15.");
if (strncmp (certid, tmpbuf, strlen (tmpbuf)) )
{
if (!strncmp (certid, "P15.", 4)
|| (!strncmp (certid, "P15-", 4)
&& hexdigitp (certid+4)
&& hexdigitp (certid+5)
&& hexdigitp (certid+6)
&& hexdigitp (certid+7)
&& certid[8] == '.'))
return gpg_error (GPG_ERR_NOT_FOUND);
return gpg_error (GPG_ERR_INV_ID);
}
certid += strlen (tmpbuf);
for (s=certid, objidlen=0; hexdigitp (s); s++, objidlen++)
;
if (*s || !objidlen || (objidlen%2))
return gpg_error (GPG_ERR_INV_ID);
objidlen /= 2;
objid = xtrymalloc (objidlen);
if (!objid)
return gpg_error_from_syserror ();
for (s=certid, i=0; i < objidlen; i++, s+=2)
objid[i] = xtoi_2 (s);
*r_objid = objid;
*r_objidlen = objidlen;
return 0;
}
/* Find a certificate object by the certificate ID CERTID and store a
pointer to it at R_CDF. */
static gpg_error_t
cdf_object_from_certid (app_t app, const char *certid, cdf_object_t *r_cdf)
{
gpg_error_t err;
size_t objidlen;
unsigned char *objid;
cdf_object_t cdf;
err = parse_certid (app, certid, &objid, &objidlen);
if (err)
return err;
for (cdf = app->app_local->certificate_info; cdf; cdf = cdf->next)
if (cdf->objidlen == objidlen && !memcmp (cdf->objid, objid, objidlen))
break;
if (!cdf)
for (cdf = app->app_local->trusted_certificate_info; cdf; cdf = cdf->next)
if (cdf->objidlen == objidlen && !memcmp (cdf->objid, objid, objidlen))
break;
if (!cdf)
for (cdf = app->app_local->useful_certificate_info; cdf; cdf = cdf->next)
if (cdf->objidlen == objidlen && !memcmp (cdf->objid, objid, objidlen))
break;
xfree (objid);
if (!cdf)
return gpg_error (GPG_ERR_NOT_FOUND);
*r_cdf = cdf;
return 0;
}
/* Find a private key object by the key Id string KEYIDSTR and store a
pointer to it at R_PRKDF. */
static gpg_error_t
prkdf_object_from_keyidstr (app_t app, const char *keyidstr,
prkdf_object_t *r_prkdf)
{
gpg_error_t err;
size_t objidlen;
unsigned char *objid;
prkdf_object_t prkdf;
err = parse_certid (app, keyidstr, &objid, &objidlen);
if (err)
return err;
for (prkdf = app->app_local->private_key_info; prkdf; prkdf = prkdf->next)
if (prkdf->objidlen == objidlen && !memcmp (prkdf->objid, objid, objidlen))
break;
xfree (objid);
if (!prkdf)
return gpg_error (GPG_ERR_NOT_FOUND);
*r_prkdf = prkdf;
return 0;
}
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/* Read and parse the Object Directory File and store away the
pointers. ODF_FID shall contain the FID of the ODF.
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Example of such a file:
A0 06 30 04 04 02 60 34 = Private Keys
A4 06 30 04 04 02 60 35 = Certificates
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A5 06 30 04 04 02 60 36 = TrustedCertificates
A7 06 30 04 04 02 60 37 = DataObjects
A8 06 30 04 04 02 60 38 = AuthObjects
These are all PathOrObjects using the path CHOICE element. The
paths are octet strings of length 2. Using this Path CHOICE
element is recommended, so we only implement that for now.
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*/
static gpg_error_t
read_ef_odf (app_t app, unsigned short odf_fid)
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{
gpg_error_t err;
unsigned char *buffer, *p;
size_t buflen;
unsigned short value;
size_t offset;
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err = select_and_read_binary (app->slot, odf_fid, "ODF", &buffer, &buflen);
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if (err)
return err;
if (buflen < 8)
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{
log_error ("error: ODF too short\n");
xfree (buffer);
return gpg_error (GPG_ERR_INV_OBJ);
}
p = buffer;
while (buflen && *p && *p != 0xff)
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{
if ( buflen >= 8
&& (p[0] & 0xf0) == 0xA0
&& !memcmp (p+1, "\x06\x30\x04\x04\x02", 5) )
{
offset = 6;
}
else if ( buflen >= 12
&& (p[0] & 0xf0) == 0xA0
&& !memcmp (p+1, "\x0a\x30\x08\x04\x06\x3F\x00", 7)
&& app->app_local->home_df == ((p[8]<<8)|p[9]) )
{
/* We only allow a full path if all files are at the same
level and below the home directory. The extend this we
would need to make use of new data type capable of
keeping a full path. */
offset = 10;
}
else
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{
log_error ("ODF format is not supported by us\n");
xfree (buffer);
return gpg_error (GPG_ERR_INV_OBJ);
}
switch ((p[0] & 0x0f))
{
case 0: value = app->app_local->odf.private_keys; break;
case 1: value = app->app_local->odf.public_keys; break;
case 2: value = app->app_local->odf.trusted_public_keys; break;
case 3: value = app->app_local->odf.secret_keys; break;
case 4: value = app->app_local->odf.certificates; break;
case 5: value = app->app_local->odf.trusted_certificates; break;
case 6: value = app->app_local->odf.useful_certificates; break;
case 7: value = app->app_local->odf.data_objects; break;
case 8: value = app->app_local->odf.auth_objects; break;
default: value = 0; break;
}
if (value)
{
log_error ("duplicate object type %d in ODF ignored\n",(p[0]&0x0f));
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continue;
}
value = ((p[offset] << 8) | p[offset+1]);
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switch ((p[0] & 0x0f))
{
case 0: app->app_local->odf.private_keys = value; break;
case 1: app->app_local->odf.public_keys = value; break;
case 2: app->app_local->odf.trusted_public_keys = value; break;
case 3: app->app_local->odf.secret_keys = value; break;
case 4: app->app_local->odf.certificates = value; break;
case 5: app->app_local->odf.trusted_certificates = value; break;
case 6: app->app_local->odf.useful_certificates = value; break;
case 7: app->app_local->odf.data_objects = value; break;
case 8: app->app_local->odf.auth_objects = value; break;
default:
log_error ("unknown object type %d in ODF ignored\n", (p[0]&0x0f));
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}
offset += 2;
if (buflen < offset)
break;
p += offset;
buflen -= offset;
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}
if (buflen)
log_info ("warning: %u bytes of garbage detected at end of ODF\n",
(unsigned int)buflen);
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xfree (buffer);
return 0;
}
/* Parse the BIT STRING with the keyUsageFlags from teh
CommonKeyAttributes. */
static gpg_error_t
parse_keyusage_flags (const unsigned char *der, size_t derlen,
keyusage_flags_t *usageflags)
{
unsigned int bits, mask;
int i, unused, full;
memset (usageflags, 0, sizeof *usageflags);
if (!derlen)
return gpg_error (GPG_ERR_INV_OBJ);
unused = *der++; derlen--;
if ((!derlen && unused) || unused/8 > derlen)
return gpg_error (GPG_ERR_ENCODING_PROBLEM);
full = derlen - (unused+7)/8;
unused %= 8;
mask = 0;
for (i=1; unused; i <<= 1, unused--)
mask |= i;
/* First octet */
if (derlen)
{
bits = *der++; derlen--;
if (full)
full--;
else
{
bits &= ~mask;
mask = 0;
}
}
else
bits = 0;
if ((bits & 0x80)) usageflags->encrypt = 1;
if ((bits & 0x40)) usageflags->decrypt = 1;
if ((bits & 0x20)) usageflags->sign = 1;
if ((bits & 0x10)) usageflags->sign_recover = 1;
if ((bits & 0x08)) usageflags->wrap = 1;
if ((bits & 0x04)) usageflags->unwrap = 1;
if ((bits & 0x02)) usageflags->verify = 1;
if ((bits & 0x01)) usageflags->verify_recover = 1;
/* Second octet. */
if (derlen)
{
bits = *der++; derlen--;
if (full)
full--;
else
{
bits &= ~mask;
mask = 0;
}
}
else
bits = 0;
if ((bits & 0x80)) usageflags->derive = 1;
if ((bits & 0x40)) usageflags->non_repudiation = 1;
return 0;
}
2004-12-02 08:48:09 +01:00
/* Read and parse the Private Key Directory Files. */
/*
6034 (privatekeys)
30 33 30 11 0C 08 53 4B 2E 43 48 2E 44 53 03 02 030...SK.CH.DS..
06 80 04 01 07 30 0C 04 01 01 03 03 06 00 40 02 .....0........@.
02 00 50 A1 10 30 0E 30 08 04 06 3F 00 40 16 00 ..P..0.0...?.@..
50 02 02 04 00 30 33 30 11 0C 08 53 4B 2E 43 48 P....030...SK.CH
2E 4B 45 03 02 06 80 04 01 0A 30 0C 04 01 0C 03 .KE.......0.....
03 06 44 00 02 02 00 52 A1 10 30 0E 30 08 04 06 ..D....R..0.0...
3F 00 40 16 00 52 02 02 04 00 30 34 30 12 0C 09 ?.@..R....040...
53 4B 2E 43 48 2E 41 55 54 03 02 06 80 04 01 0A SK.CH.AUT.......
30 0C 04 01 0D 03 03 06 20 00 02 02 00 51 A1 10 0....... ....Q..
30 0E 30 08 04 06 3F 00 40 16 00 51 02 02 04 00 0.0...?.@..Q....
30 37 30 15 0C 0C 53 4B 2E 43 48 2E 44 53 2D 53 070...SK.CH.DS-S
50 58 03 02 06 80 04 01 0A 30 0C 04 01 02 03 03 PX.......0......
06 20 00 02 02 00 53 A1 10 30 0E 30 08 04 06 3F . ....S..0.0...?
00 40 16 00 53 02 02 04 00 00 00 00 00 00 00 00 .@..S...........
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
0 30 51: SEQUENCE {
2 30 17: SEQUENCE { -- commonObjectAttributes
4 0C 8: UTF8String 'SK.CH.DS'
14 03 2: BIT STRING 6 unused bits
: '01'B (bit 0)
18 04 1: OCTET STRING --authid
: 07
: }
21 30 12: SEQUENCE { -- commonKeyAttributes
23 04 1: OCTET STRING
: 01
26 03 3: BIT STRING 6 unused bits
: '1000000000'B (bit 9)
31 02 2: INTEGER 80 -- keyReference (optional)
: }
35 A1 16: [1] { -- keyAttributes
37 30 14: SEQUENCE { -- privateRSAKeyAttributes
39 30 8: SEQUENCE { -- objectValue
41 04 6: OCTET STRING --path
: 3F 00 40 16 00 50
: }
49 02 2: INTEGER 1024 -- modulus
: }
: }
: }
2004-12-02 08:48:09 +01:00
*/
static gpg_error_t
read_ef_prkdf (app_t app, unsigned short fid, prkdf_object_t *result)
2004-12-02 08:48:09 +01:00
{
gpg_error_t err;
unsigned char *buffer = NULL;
size_t buflen;
const unsigned char *p;
size_t n, objlen, hdrlen;
int class, tag, constructed, ndef;
prkdf_object_t prkdflist = NULL;
int i;
2004-12-02 08:48:09 +01:00
if (!fid)
return gpg_error (GPG_ERR_NO_DATA); /* No private keys. */
err = select_and_read_binary (app->slot, fid, "PrKDF", &buffer, &buflen);
2004-12-02 08:48:09 +01:00
if (err)
return err;
2004-12-02 08:48:09 +01:00
p = buffer;
n = buflen;
/* FIXME: This shares a LOT of code with read_ef_cdf! */
2004-12-02 08:48:09 +01:00
/* Loop over the records. We stop as soon as we detect a new record
starting with 0x00 or 0xff as these values are commonly used to
pad data blocks and are no valid ASN.1 encoding. */
while (n && *p && *p != 0xff)
2004-12-02 08:48:09 +01:00
{
const unsigned char *pp;
size_t nn;
int where;
const char *errstr = NULL;
prkdf_object_t prkdf = NULL;
unsigned long ul;
const unsigned char *objid;
size_t objidlen;
const unsigned char *authid = NULL;
size_t authidlen = 0;
keyusage_flags_t usageflags;
unsigned long key_reference = 0;
int key_reference_valid = 0;
const char *s;
2004-12-02 08:48:09 +01:00
err = parse_ber_header (&p, &n, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > n || tag != TAG_SEQUENCE))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
{
log_error ("error parsing PrKDF record: %s\n", gpg_strerror (err));
2004-12-02 08:48:09 +01:00
goto leave;
}
pp = p;
nn = objlen;
p += objlen;
n -= objlen;
/* Parse the commonObjectAttributes. */
where = __LINE__;
2004-12-02 08:48:09 +01:00
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn || tag != TAG_SEQUENCE))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
{
const unsigned char *ppp = pp;
size_t nnn = objlen;
pp += objlen;
nn -= objlen;
/* Search the optional AuthId. We need to skip the optional
Label (UTF8STRING) and the optional CommonObjectFlags
(BITSTRING). */
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nnn || class != CLASS_UNIVERSAL))
err = gpg_error (GPG_ERR_INV_OBJ);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto no_authid;
if (err)
goto parse_error;
if (tag == TAG_UTF8_STRING)
{
ppp += objlen; /* Skip the Label. */
nnn -= objlen;
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nnn || class != CLASS_UNIVERSAL))
err = gpg_error (GPG_ERR_INV_OBJ);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto no_authid;
if (err)
goto parse_error;
}
if (tag == TAG_BIT_STRING)
{
ppp += objlen; /* Skip the CommonObjectFlags. */
nnn -= objlen;
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nnn || class != CLASS_UNIVERSAL))
err = gpg_error (GPG_ERR_INV_OBJ);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto no_authid;
if (err)
goto parse_error;
}
if (tag == TAG_OCTET_STRING && objlen)
{
authid = ppp;
authidlen = objlen;
}
no_authid:
;
}
/* Parse the commonKeyAttributes. */
where = __LINE__;
2004-12-02 08:48:09 +01:00
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn || tag != TAG_SEQUENCE))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
{
const unsigned char *ppp = pp;
size_t nnn = objlen;
2004-12-02 08:48:09 +01:00
pp += objlen;
nn -= objlen;
2004-12-02 08:48:09 +01:00
/* Get the Id. */
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nnn
|| class != CLASS_UNIVERSAL || tag != TAG_OCTET_STRING))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
objid = ppp;
objidlen = objlen;
ppp += objlen;
nnn -= objlen;
/* Get the KeyUsageFlags. */
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nnn
|| class != CLASS_UNIVERSAL || tag != TAG_BIT_STRING))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
err = parse_keyusage_flags (ppp, objlen, &usageflags);
if (err)
goto parse_error;
ppp += objlen;
nnn -= objlen;
/* Find the keyReference */
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto leave_cki;
if (!err && objlen > nnn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
if (class == CLASS_UNIVERSAL && tag == TAG_BOOLEAN)
{
/* Skip the native element. */
ppp += objlen;
nnn -= objlen;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto leave_cki;
if (!err && objlen > nnn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
}
if (class == CLASS_UNIVERSAL && tag == TAG_BIT_STRING)
{
/* Skip the accessFlags. */
ppp += objlen;
nnn -= objlen;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto leave_cki;
if (!err && objlen > nnn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
}
if (class == CLASS_UNIVERSAL && tag == TAG_INTEGER)
{
/* Yep, this is the keyReference. */
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*ppp++) & 0xff;
nnn--;
}
key_reference = ul;
key_reference_valid = 1;
}
2004-12-02 08:48:09 +01:00
leave_cki:
;
}
2004-12-02 08:48:09 +01:00
/* Skip subClassAttributes. */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && objlen > nn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
if (class == CLASS_CONTEXT && tag == 0)
{
pp += objlen;
nn -= objlen;
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
}
/* Parse the keyAttributes. */
if (!err && (objlen > nn || class != CLASS_CONTEXT || tag != 1))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
nn = objlen;
2004-12-02 08:48:09 +01:00
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && objlen > nn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
if (class == CLASS_UNIVERSAL && tag == TAG_SEQUENCE)
; /* RSA */
else if (class == CLASS_CONTEXT)
{
switch (tag)
{
case 0: errstr = "EC key objects are not supported"; break;
case 1: errstr = "DH key objects are not supported"; break;
case 2: errstr = "DSA key objects are not supported"; break;
case 3: errstr = "KEA key objects are not supported"; break;
default: errstr = "unknown privateKeyObject"; break;
}
goto parse_error;
}
else
{
err = gpg_error (GPG_ERR_INV_OBJ);
goto parse_error;
}
2004-12-02 08:48:09 +01:00
nn = objlen;
2004-12-02 08:48:09 +01:00
/* Check that the reference is a Path object. */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && objlen > nn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
if (class != CLASS_UNIVERSAL || tag != TAG_SEQUENCE)
{
errstr = "unsupported reference type";
goto parse_error;
}
nn = objlen;
2004-12-02 08:48:09 +01:00
/* Parse the Path object. */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && objlen > nn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
2004-12-02 08:48:09 +01:00
/* Make sure that the next element is a non zero path and of
even length (FID are two bytes each). */
if (class != CLASS_UNIVERSAL || tag != TAG_OCTET_STRING
|| !objlen || (objlen & 1) )
{
errstr = "invalid path reference";
goto parse_error;
}
/* Create a new PrKDF list item. */
prkdf = xtrycalloc (1, (sizeof *prkdf
- sizeof(unsigned short)
+ objlen/2 * sizeof(unsigned short)));
if (!prkdf)
{
err = gpg_error_from_syserror ();
goto leave;
}
prkdf->objidlen = objidlen;
prkdf->objid = xtrymalloc (objidlen);
if (!prkdf->objid)
{
err = gpg_error_from_syserror ();
xfree (prkdf);
goto leave;
}
memcpy (prkdf->objid, objid, objidlen);
if (authid)
{
prkdf->authidlen = authidlen;
prkdf->authid = xtrymalloc (authidlen);
if (!prkdf->authid)
{
err = gpg_error_from_syserror ();
xfree (prkdf->objid);
xfree (prkdf);
goto leave;
}
memcpy (prkdf->authid, authid, authidlen);
}
2004-12-02 08:48:09 +01:00
prkdf->pathlen = objlen/2;
for (i=0; i < prkdf->pathlen; i++, pp += 2, nn -= 2)
prkdf->path[i] = ((pp[0] << 8) | pp[1]);
2004-12-02 08:48:09 +01:00
prkdf->usageflags = usageflags;
prkdf->key_reference = key_reference;
prkdf->key_reference_valid = key_reference_valid;
2004-12-02 08:48:09 +01:00
if (nn)
{
/* An index and length follows. */
prkdf->have_off = 1;
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn
|| class != CLASS_UNIVERSAL || tag != TAG_INTEGER))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*pp++) & 0xff;
nn--;
}
prkdf->off = ul;
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn
|| class != CLASS_CONTEXT || tag != 0))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*pp++) & 0xff;
nn--;
}
prkdf->len = ul;
}
log_debug ("PrKDF %04hX: id=", fid);
for (i=0; i < prkdf->objidlen; i++)
log_printf ("%02X", prkdf->objid[i]);
log_printf (" path=");
for (i=0; i < prkdf->pathlen; i++)
log_printf ("%04hX", prkdf->path[i]);
if (prkdf->have_off)
log_printf ("[%lu/%lu]", prkdf->off, prkdf->len);
if (prkdf->authid)
{
log_printf (" authid=");
for (i=0; i < prkdf->authidlen; i++)
log_printf ("%02X", prkdf->authid[i]);
}
if (prkdf->key_reference_valid)
log_printf (" keyref=0x%02lX", prkdf->key_reference);
log_printf (" usage=");
s = "";
if (prkdf->usageflags.encrypt) log_printf ("%sencrypt", s), s = ",";
if (prkdf->usageflags.decrypt) log_printf ("%sdecrypt", s), s = ",";
if (prkdf->usageflags.sign ) log_printf ("%ssign", s), s = ",";
if (prkdf->usageflags.sign_recover)
log_printf ("%ssign_recover", s), s = ",";
if (prkdf->usageflags.wrap ) log_printf ("%swrap", s), s = ",";
if (prkdf->usageflags.unwrap ) log_printf ("%sunwrap", s), s = ",";
if (prkdf->usageflags.verify ) log_printf ("%sverify", s), s = ",";
if (prkdf->usageflags.verify_recover)
log_printf ("%sverify_recover", s), s = ",";
if (prkdf->usageflags.derive ) log_printf ("%sderive", s), s = ",";
if (prkdf->usageflags.non_repudiation)
log_printf ("%snon_repudiation", s), s = ",";
log_printf ("\n");
/* Put it into the list. */
prkdf->next = prkdflist;
prkdflist = prkdf;
prkdf = NULL;
continue; /* Ready. */
parse_error:
log_error ("error parsing PrKDF record (%d): %s - skipped\n",
where, errstr? errstr : gpg_strerror (err));
if (prkdf)
{
xfree (prkdf->objid);
xfree (prkdf->authid);
xfree (prkdf);
}
err = 0;
} /* End looping over all records. */
leave:
xfree (buffer);
if (err)
release_prkdflist (prkdflist);
else
*result = prkdflist;
return err;
}
/* Read and parse the Certificate Directory Files identified by FID.
On success a newlist of CDF object gets stored at RESULT and the
caller is then responsible of releasing this list. On error a
error code is returned and RESULT won't get changed. */
static gpg_error_t
read_ef_cdf (app_t app, unsigned short fid, cdf_object_t *result)
{
gpg_error_t err;
unsigned char *buffer = NULL;
size_t buflen;
const unsigned char *p;
size_t n, objlen, hdrlen;
int class, tag, constructed, ndef;
cdf_object_t cdflist = NULL;
int i;
if (!fid)
return gpg_error (GPG_ERR_NO_DATA); /* No certificates. */
err = select_and_read_binary (app->slot, fid, "CDF", &buffer, &buflen);
if (err)
return err;
p = buffer;
n = buflen;
/* Loop over the records. We stop as soon as we detect a new record
starting with 0x00 or 0xff as these values are commonly used to
pad data blocks and are no valid ASN.1 encoding. */
while (n && *p && *p != 0xff)
{
const unsigned char *pp;
size_t nn;
int where;
const char *errstr = NULL;
cdf_object_t cdf = NULL;
unsigned long ul;
const unsigned char *objid;
size_t objidlen;
err = parse_ber_header (&p, &n, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > n || tag != TAG_SEQUENCE))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
{
log_error ("error parsing CDF record: %s\n", gpg_strerror (err));
goto leave;
}
pp = p;
nn = objlen;
p += objlen;
n -= objlen;
/* Skip the commonObjectAttributes. */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn || tag != TAG_SEQUENCE))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
pp += objlen;
nn -= objlen;
/* Parse the commonCertificateAttributes. */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn || tag != TAG_SEQUENCE))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
{
const unsigned char *ppp = pp;
size_t nnn = objlen;
pp += objlen;
nn -= objlen;
/* Get the Id. */
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nnn
|| class != CLASS_UNIVERSAL || tag != TAG_OCTET_STRING))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
objid = ppp;
objidlen = objlen;
}
/* Parse the certAttribute. */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn || class != CLASS_CONTEXT || tag != 1))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
nn = objlen;
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn
|| class != CLASS_UNIVERSAL || tag != TAG_SEQUENCE))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
nn = objlen;
/* Check that the reference is a Path object. */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && objlen > nn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
if (class != CLASS_UNIVERSAL || tag != TAG_SEQUENCE)
{
errstr = "unsupported reference type";
continue;
}
nn = objlen;
/* Parse the Path object. */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && objlen > nn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
/* Make sure that the next element is a non zero path and of
even length (FID are two bytes each). */
if (class != CLASS_UNIVERSAL || tag != TAG_OCTET_STRING
|| !objlen || (objlen & 1) )
{
errstr = "invalid path reference";
goto parse_error;
}
/* Create a new CDF list item. */
cdf = xtrycalloc (1, (sizeof *cdf
- sizeof(unsigned short)
+ objlen/2 * sizeof(unsigned short)));
if (!cdf)
{
err = gpg_error_from_syserror ();
goto leave;
}
cdf->objidlen = objidlen;
cdf->objid = xtrymalloc (objidlen);
if (!cdf->objid)
{
err = gpg_error_from_syserror ();
xfree (cdf);
goto leave;
}
memcpy (cdf->objid, objid, objidlen);
cdf->pathlen = objlen/2;
for (i=0; i < cdf->pathlen; i++, pp += 2, nn -= 2)
cdf->path[i] = ((pp[0] << 8) | pp[1]);
if (nn)
{
/* An index and length follows. */
cdf->have_off = 1;
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn
|| class != CLASS_UNIVERSAL || tag != TAG_INTEGER))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*pp++) & 0xff;
nn--;
}
cdf->off = ul;
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn
|| class != CLASS_CONTEXT || tag != 0))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*pp++) & 0xff;
nn--;
}
cdf->len = ul;
}
log_debug ("CDF %04hX: id=", fid);
for (i=0; i < cdf->objidlen; i++)
log_printf ("%02X", cdf->objid[i]);
log_printf (" path=");
for (i=0; i < cdf->pathlen; i++)
log_printf ("%04hX", cdf->path[i]);
if (cdf->have_off)
log_printf ("[%lu/%lu]", cdf->off, cdf->len);
log_printf ("\n");
/* Put it into the list. */
cdf->next = cdflist;
cdflist = cdf;
cdf = NULL;
continue; /* Ready. */
parse_error:
log_error ("error parsing CDF record (%d): %s - skipped\n",
where, errstr? errstr : gpg_strerror (err));
xfree (cdf);
err = 0;
} /* End looping over all records. */
leave:
xfree (buffer);
if (err)
release_cdflist (cdflist);
else
*result = cdflist;
return err;
}
/*
SEQUENCE {
SEQUENCE { -- CommonObjectAttributes
UTF8String 'specific PIN for DS'
BIT STRING 0 unused bits
'00000011'B
}
SEQUENCE { -- CommonAuthenticationObjectAttributes
OCTET STRING
07 -- iD
}
[1] { -- typeAttributes
SEQUENCE { -- PinAttributes
BIT STRING 0 unused bits
'0000100000110010'B -- local,initialized,needs-padding
-- exchangeRefData
ENUMERATED 1 -- ascii-numeric
INTEGER 6 -- minLength
INTEGER 6 -- storedLength
INTEGER 8 -- maxLength
[0]
02 -- pinReference
GeneralizedTime 19/04/2002 12:12 GMT -- lastPinChange
SEQUENCE {
OCTET STRING
3F 00 40 16 -- path to DF of PIN
}
}
}
}
*/
/* Read and parse an Authentication Object Directory File identified
by FID. On success a newlist of AODF objects gets stored at RESULT
and the caller is responsible of releasing this list. On error a
error code is returned and RESULT won't get changed. */
static gpg_error_t
read_ef_aodf (app_t app, unsigned short fid, aodf_object_t *result)
{
gpg_error_t err;
unsigned char *buffer = NULL;
size_t buflen;
const unsigned char *p;
size_t n, objlen, hdrlen;
int class, tag, constructed, ndef;
aodf_object_t aodflist = NULL;
int i;
if (!fid)
return gpg_error (GPG_ERR_NO_DATA); /* No authentication objects. */
err = select_and_read_binary (app->slot, fid, "AODF", &buffer, &buflen);
if (err)
return err;
p = buffer;
n = buflen;
/* FIXME: This shares a LOT of code with read_ef_prkdf! */
/* Loop over the records. We stop as soon as we detect a new record
starting with 0x00 or 0xff as these values are commonly used to
pad data blocks and are no valid ASN.1 encoding. */
while (n && *p && *p != 0xff)
{
const unsigned char *pp;
size_t nn;
int where;
const char *errstr = NULL;
aodf_object_t aodf = NULL;
unsigned long ul;
const char *s;
err = parse_ber_header (&p, &n, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > n || tag != TAG_SEQUENCE))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
{
log_error ("error parsing AODF record: %s\n", gpg_strerror (err));
goto leave;
}
pp = p;
nn = objlen;
p += objlen;
n -= objlen;
/* Allocate memory for a new AODF list item. */
aodf = xtrycalloc (1, sizeof *aodf);
if (!aodf)
goto no_core;
/* Parse the commonObjectAttributes. */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn || tag != TAG_SEQUENCE))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
{
const unsigned char *ppp = pp;
size_t nnn = objlen;
pp += objlen;
nn -= objlen;
/* Search the optional AuthId. We need to skip the optional
Label (UTF8STRING) and the optional CommonObjectFlags
(BITSTRING). */
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nnn || class != CLASS_UNIVERSAL))
err = gpg_error (GPG_ERR_INV_OBJ);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto no_authid;
if (err)
goto parse_error;
if (tag == TAG_UTF8_STRING)
{
ppp += objlen; /* Skip the Label. */
nnn -= objlen;
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nnn || class != CLASS_UNIVERSAL))
err = gpg_error (GPG_ERR_INV_OBJ);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto no_authid;
if (err)
goto parse_error;
}
if (tag == TAG_BIT_STRING)
{
ppp += objlen; /* Skip the CommonObjectFlags. */
nnn -= objlen;
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nnn || class != CLASS_UNIVERSAL))
err = gpg_error (GPG_ERR_INV_OBJ);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto no_authid;
if (err)
goto parse_error;
}
if (tag == TAG_OCTET_STRING && objlen)
{
aodf->authidlen = objlen;
aodf->authid = xtrymalloc (objlen);
if (!aodf->authid)
goto no_core;
memcpy (aodf->authid, ppp, objlen);
}
no_authid:
;
}
/* Parse the CommonAuthenticationObjectAttributes. */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn || tag != TAG_SEQUENCE))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
{
const unsigned char *ppp = pp;
size_t nnn = objlen;
pp += objlen;
nn -= objlen;
/* Get the Id. */
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nnn
|| class != CLASS_UNIVERSAL || tag != TAG_OCTET_STRING))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
aodf->objidlen = objlen;
aodf->objid = xtrymalloc (objlen);
if (!aodf->objid)
goto no_core;
memcpy (aodf->objid, ppp, objlen);
}
/* Parse the typeAttributes. */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn || class != CLASS_CONTEXT || tag != 1))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
nn = objlen;
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && objlen > nn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
if (class == CLASS_UNIVERSAL && tag == TAG_SEQUENCE)
; /* PinAttributes */
else if (class == CLASS_CONTEXT)
{
switch (tag)
{
case 0: errstr = "biometric auth types are not supported"; break;
case 1: errstr = "authKey auth types are not supported"; break;
case 2: errstr = "external auth type are not supported"; break;
default: errstr = "unknown privateKeyObject"; break;
}
goto parse_error;
}
else
{
err = gpg_error (GPG_ERR_INV_OBJ);
goto parse_error;
}
nn = objlen;
/* PinFlags */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn || !objlen
|| class != CLASS_UNIVERSAL || tag != TAG_BIT_STRING))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
{
unsigned int bits, mask;
int unused, full;
unused = *pp++; nn--; objlen--;
if ((!objlen && unused) || unused/8 > objlen)
{
err = gpg_error (GPG_ERR_ENCODING_PROBLEM);
goto parse_error;
}
full = objlen - (unused+7)/8;
unused %= 8;
mask = 0;
for (i=1; unused; i <<= 1, unused--)
mask |= i;
/* The first octet */
bits = 0;
if (objlen)
{
bits = *pp++; nn--; objlen--;
if (full)
full--;
else
{
bits &= ~mask;
mask = 0;
}
}
if ((bits & 0x80)) /* ASN.1 bit 0. */
aodf->pinflags.case_sensitive = 1;
if ((bits & 0x40)) /* ASN.1 bit 1. */
aodf->pinflags.local = 1;
if ((bits & 0x20))
aodf->pinflags.change_disabled = 1;
if ((bits & 0x10))
aodf->pinflags.unblock_disabled = 1;
if ((bits & 0x08))
aodf->pinflags.initialized = 1;
if ((bits & 0x04))
aodf->pinflags.needs_padding = 1;
if ((bits & 0x02))
aodf->pinflags.unblocking_pin = 1;
if ((bits & 0x01))
aodf->pinflags.so_pin = 1;
/* The second octet. */
bits = 0;
if (objlen)
{
bits = *pp++; nn--; objlen--;
if (full)
full--;
else
{
bits &= ~mask;
mask = 0;
}
}
if ((bits & 0x80))
aodf->pinflags.disable_allowed = 1;
if ((bits & 0x40))
aodf->pinflags.integrity_protected = 1;
if ((bits & 0x20))
aodf->pinflags.confidentiality_protected = 1;
if ((bits & 0x10))
aodf->pinflags.exchange_ref_data = 1;
/* Skip remaining bits. */
pp += objlen;
nn -= objlen;
}
/* PinType */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn
|| class != CLASS_UNIVERSAL || tag != TAG_ENUMERATED))
err = gpg_error (GPG_ERR_INV_OBJ);
if (!err && (objlen > sizeof (pin_type_t) || objlen > sizeof (ul)))
err = gpg_error (GPG_ERR_UNSUPPORTED_ENCODING);
if (err)
goto parse_error;
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*pp++) & 0xff;
nn--;
}
aodf->pintype = ul;
/* minLength */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn
|| class != CLASS_UNIVERSAL || tag != TAG_INTEGER))
err = gpg_error (GPG_ERR_INV_OBJ);
if (!err && objlen > sizeof (ul))
err = gpg_error (GPG_ERR_UNSUPPORTED_ENCODING);
if (err)
goto parse_error;
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*pp++) & 0xff;
nn--;
}
aodf->min_length = ul;
/* storedLength */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nn
|| class != CLASS_UNIVERSAL || tag != TAG_INTEGER))
err = gpg_error (GPG_ERR_INV_OBJ);
if (!err && objlen > sizeof (ul))
err = gpg_error (GPG_ERR_UNSUPPORTED_ENCODING);
if (err)
goto parse_error;
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*pp++) & 0xff;
nn--;
}
aodf->stored_length = ul;
/* optional maxLength */
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto ready;
if (!err && objlen > nn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
if (class == CLASS_UNIVERSAL && tag == TAG_INTEGER)
{
if (objlen > sizeof (ul))
{
err = gpg_error (GPG_ERR_UNSUPPORTED_ENCODING);
goto parse_error;
}
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*pp++) & 0xff;
nn--;
}
aodf->max_length = ul;
aodf->max_length_valid = 1;
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto ready;
if (!err && objlen > nn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
}
/* Optional pinReference. */
if (class == CLASS_CONTEXT && tag == 0)
{
if (objlen > sizeof (ul))
{
err = gpg_error (GPG_ERR_UNSUPPORTED_ENCODING);
goto parse_error;
}
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*pp++) & 0xff;
nn--;
}
aodf->pin_reference = ul;
aodf->pin_reference_valid = 1;
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto ready;
if (!err && objlen > nn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
}
/* Optional padChar. */
if (class == CLASS_UNIVERSAL && tag == TAG_OCTET_STRING)
{
if (objlen != 1)
{
errstr = "padChar is not of size(1)";
goto parse_error;
}
aodf->pad_char = *pp++; nn--;
aodf->pad_char_valid = 1;
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto ready;
if (!err && objlen > nn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
}
/* Skip optional lastPinChange. */
if (class == CLASS_UNIVERSAL && tag == TAG_GENERALIZED_TIME)
{
pp += objlen;
nn -= objlen;
where = __LINE__;
err = parse_ber_header (&pp, &nn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (gpg_err_code (err) == GPG_ERR_EOF)
goto ready;
if (!err && objlen > nn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
}
/* Optional Path object. */
if (class == CLASS_UNIVERSAL || tag == TAG_SEQUENCE)
{
const unsigned char *ppp = pp;
size_t nnn = objlen;
pp += objlen;
nn -= objlen;
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && objlen > nnn)
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
/* Make sure that the next element is a non zero FID and of
even length (FID are two bytes each). */
if (class != CLASS_UNIVERSAL || tag != TAG_OCTET_STRING
|| !objlen || (objlen & 1) )
{
errstr = "invalid path reference";
goto parse_error;
}
aodf->pathlen = objlen/2;
aodf->path = xtrymalloc (aodf->pathlen);
if (!aodf->path)
goto no_core;
for (i=0; i < aodf->pathlen; i++, ppp += 2, nnn -= 2)
aodf->path[i] = ((ppp[0] << 8) | ppp[1]);
if (nnn)
{
/* An index and length follows. */
aodf->have_off = 1;
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nnn
|| class != CLASS_UNIVERSAL || tag != TAG_INTEGER))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*ppp++) & 0xff;
nnn--;
}
aodf->off = ul;
where = __LINE__;
err = parse_ber_header (&ppp, &nnn, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > nnn
|| class != CLASS_CONTEXT || tag != 0))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto parse_error;
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*ppp++) & 0xff;
nnn--;
}
aodf->len = ul;
}
}
/* Igonore further objects which might be there due to future
extensions of pkcs#15. */
ready:
log_debug ("AODF %04hX: id=", fid);
for (i=0; i < aodf->objidlen; i++)
log_printf ("%02X", aodf->objid[i]);
if (aodf->authid)
{
log_printf (" authid=");
for (i=0; i < aodf->authidlen; i++)
log_printf ("%02X", aodf->authid[i]);
}
log_printf (" flags=");
s = "";
if (aodf->pinflags.case_sensitive)
log_printf ("%scase_sensitive", s), s = ",";
if (aodf->pinflags.local)
log_printf ("%slocal", s), s = ",";
if (aodf->pinflags.change_disabled)
log_printf ("%schange_disabled", s), s = ",";
if (aodf->pinflags.unblock_disabled)
log_printf ("%sunblock_disabled", s), s = ",";
if (aodf->pinflags.initialized)
log_printf ("%sinitialized", s), s = ",";
if (aodf->pinflags.needs_padding)
log_printf ("%sneeds_padding", s), s = ",";
if (aodf->pinflags.unblocking_pin)
log_printf ("%sunblocking_pin", s), s = ",";
if (aodf->pinflags.so_pin)
log_printf ("%sso_pin", s), s = ",";
if (aodf->pinflags.disable_allowed)
log_printf ("%sdisable_allowed", s), s = ",";
if (aodf->pinflags.integrity_protected)
log_printf ("%sintegrity_protected", s), s = ",";
if (aodf->pinflags.confidentiality_protected)
log_printf ("%sconfidentiality_protected", s), s = ",";
if (aodf->pinflags.exchange_ref_data)
log_printf ("%sexchange_ref_data", s), s = ",";
{
char numbuf[50];
switch (aodf->pintype)
{
case PIN_TYPE_BCD: s = "bcd"; break;
case PIN_TYPE_ASCII_NUMERIC: s = "ascii-numeric"; break;
case PIN_TYPE_UTF8: s = "utf8"; break;
case PIN_TYPE_HALF_NIBBLE_BCD: s = "half-nibble-bcd"; break;
case PIN_TYPE_ISO9564_1: s = "iso9564-1"; break;
default:
sprintf (numbuf, "%lu", (unsigned long)aodf->pintype);
s = numbuf;
}
log_printf (" type=%s", s);
}
log_printf (" min=%lu", aodf->min_length);
log_printf (" stored=%lu", aodf->stored_length);
if (aodf->max_length_valid)
log_printf (" max=%lu", aodf->max_length);
if (aodf->pad_char_valid)
log_printf (" pad=0x%02x", aodf->pad_char);
if (aodf->pin_reference_valid)
log_printf (" pinref=0x%02lX", aodf->pin_reference);
if (aodf->pathlen)
{
log_printf (" path=");
for (i=0; i < aodf->pathlen; i++)
log_printf ("%04hX", aodf->path[i]);
if (aodf->have_off)
log_printf ("[%lu/%lu]", aodf->off, aodf->len);
}
log_printf ("\n");
/* Put it into the list. */
aodf->next = aodflist;
aodflist = aodf;
aodf = NULL;
continue; /* Ready. */
no_core:
err = gpg_error_from_syserror ();
release_aodf_object (aodf);
goto leave;
parse_error:
log_error ("error parsing AODF record (%d): %s - skipped\n",
where, errstr? errstr : gpg_strerror (err));
err = 0;
release_aodf_object (aodf);
} /* End looping over all records. */
leave:
xfree (buffer);
if (err)
release_aodflist (aodflist);
else
*result = aodflist;
return err;
}
/* Read and parse the EF(TokenInfo).
TokenInfo ::= SEQUENCE {
version INTEGER {v1(0)} (v1,...),
serialNumber OCTET STRING,
2004-12-02 08:48:09 +01:00
manufacturerID Label OPTIONAL,
label [0] Label OPTIONAL,
tokenflags TokenFlags,
seInfo SEQUENCE OF SecurityEnvironmentInfo OPTIONAL,
recordInfo [1] RecordInfo OPTIONAL,
supportedAlgorithms [2] SEQUENCE OF AlgorithmInfo OPTIONAL,
...,
issuerId [3] Label OPTIONAL,
holderId [4] Label OPTIONAL,
lastUpdate [5] LastUpdate OPTIONAL,
preferredLanguage PrintableString OPTIONAL -- In accordance with
-- IETF RFC 1766
2004-12-02 08:48:09 +01:00
} (CONSTRAINED BY { -- Each AlgorithmInfo.reference value must be unique --})
TokenFlags ::= BIT STRING {
readOnly (0),
2004-12-02 08:48:09 +01:00
loginRequired (1),
prnGeneration (2),
eidCompliant (3)
}
5032:
30 31 02 01 00 04 04 05 45 36 9F 0C 0C 44 2D 54 01......E6...D-T
72 75 73 74 20 47 6D 62 48 80 14 4F 66 66 69 63 rust GmbH..Offic
65 20 69 64 65 6E 74 69 74 79 20 63 61 72 64 03 e identity card.
02 00 40 20 63 61 72 64 03 02 00 40 00 00 00 00 ..@ card...@....
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 ................
0 49: SEQUENCE {
2 1: INTEGER 0
5 4: OCTET STRING 05 45 36 9F
11 12: UTF8String 'D-Trust GmbH'
25 20: [0] 'Office identity card'
47 2: BIT STRING
: '00000010'B (bit 1)
: Error: Spurious zero bits in bitstring.
: }
*/
static gpg_error_t
read_ef_tokeninfo (app_t app)
{
gpg_error_t err;
unsigned char *buffer = NULL;
size_t buflen;
const unsigned char *p;
size_t n, objlen, hdrlen;
int class, tag, constructed, ndef;
unsigned long ul;
err = select_and_read_binary (app->slot, 0x5032, "TokenInfo",
&buffer, &buflen);
if (err)
return err;
p = buffer;
n = buflen;
err = parse_ber_header (&p, &n, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > n || tag != TAG_SEQUENCE))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
{
log_error ("error parsing TokenInfo: %s\n", gpg_strerror (err));
goto leave;
}
n = objlen;
/* Version. */
err = parse_ber_header (&p, &n, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > n || tag != TAG_INTEGER))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto leave;
for (ul=0; objlen; objlen--)
{
ul <<= 8;
ul |= (*p++) & 0xff;
n--;
}
if (ul)
{
log_error ("invalid version %lu in TokenInfo\n", ul);
err = gpg_error (GPG_ERR_INV_OBJ);
goto leave;
}
/* serialNumber. */
err = parse_ber_header (&p, &n, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (!err && (objlen > n || tag != TAG_OCTET_STRING || !objlen))
err = gpg_error (GPG_ERR_INV_OBJ);
if (err)
goto leave;
xfree (app->app_local->serialno);
app->app_local->serialno = xtrymalloc (objlen);
if (!app->app_local->serialno)
{
err = gpg_error_from_syserror ();
goto leave;
}
memcpy (app->app_local->serialno, p, objlen);
app->app_local->serialnolen = objlen;
log_printhex ("Serialnumber from EF(TokenInfo) is:", p, objlen);
leave:
xfree (buffer);
return err;
}
/* Get all the basic information from the pkcs#15 card, check the
structure and initialize our local context. This is used once at
application initialization. */
2004-12-02 08:48:09 +01:00
static gpg_error_t
read_p15_info (app_t app)
2004-12-02 08:48:09 +01:00
{
gpg_error_t err;
if (!read_ef_tokeninfo (app))
{
/* If we don't have a serial number yet but the TokenInfo provides
one, use that. */
if (!app->serialno && app->app_local->serialno)
{
app->serialno = app->app_local->serialno;
app->serialnolen = app->app_local->serialnolen;
app->app_local->serialno = NULL;
app->app_local->serialnolen = 0;
err = app_munge_serialno (app);
if (err)
return err;
}
}
/* Read the ODF so that we know the location of all directory
files. */
/* Fixme: We might need to get a non-standard ODF FID from TokenInfo. */
err = read_ef_odf (app, 0x5031);
if (err)
return err;
/* Read certificate information. */
assert (!app->app_local->certificate_info);
assert (!app->app_local->trusted_certificate_info);
assert (!app->app_local->useful_certificate_info);
err = read_ef_cdf (app, app->app_local->odf.certificates,
&app->app_local->certificate_info);
if (!err || gpg_err_code (err) == GPG_ERR_NO_DATA)
err = read_ef_cdf (app, app->app_local->odf.trusted_certificates,
&app->app_local->trusted_certificate_info);
if (!err || gpg_err_code (err) == GPG_ERR_NO_DATA)
err = read_ef_cdf (app, app->app_local->odf.useful_certificates,
&app->app_local->useful_certificate_info);
if (gpg_err_code (err) == GPG_ERR_NO_DATA)
err = 0;
if (err)
return err;
2004-12-02 08:48:09 +01:00
/* Read information about private keys. */
assert (!app->app_local->private_key_info);
err = read_ef_prkdf (app, app->app_local->odf.private_keys,
&app->app_local->private_key_info);
if (gpg_err_code (err) == GPG_ERR_NO_DATA)
err = 0;
if (err)
return err;
/* Read information about authentication objects. */
assert (!app->app_local->auth_object_info);
err = read_ef_aodf (app, app->app_local->odf.auth_objects,
&app->app_local->auth_object_info);
if (gpg_err_code (err) == GPG_ERR_NO_DATA)
err = 0;
return err;
2004-12-02 08:48:09 +01:00
}
/* Helper to do_learn_status: Send information about all certificates
listed in CERTINFO back. Use CERTTYPE as type of the
certificate. */
2004-12-02 08:48:09 +01:00
static gpg_error_t
send_certinfo (app_t app, ctrl_t ctrl, const char *certtype,
cdf_object_t certinfo)
2004-12-02 08:48:09 +01:00
{
for (; certinfo; certinfo = certinfo->next)
{
char *buf, *p;
buf = xtrymalloc (9 + certinfo->objidlen*2 + 1);
if (!buf)
return gpg_error_from_syserror ();
p = stpcpy (buf, "P15");
if (app->app_local->home_df)
{
sprintf (p, "-%04hX", (app->app_local->home_df & 0xffff));
p += 5;
}
p = stpcpy (p, ".");
2008-11-03 11:54:18 +01:00
bin2hex (certinfo->objid, certinfo->objidlen, p);
send_status_info (ctrl, "CERTINFO",
certtype, strlen (certtype),
buf, strlen (buf),
NULL, (size_t)0);
xfree (buf);
}
return 0;
}
2004-12-02 08:48:09 +01:00
/* Get the keygrip of the private key object PRKDF. On success the
keygrip gets returned in the caller provided 41 byte buffer
R_GRIPSTR. */
static gpg_error_t
keygripstr_from_prkdf (app_t app, prkdf_object_t prkdf, char *r_gripstr)
{
gpg_error_t err;
cdf_object_t cdf;
unsigned char *der;
size_t derlen;
ksba_cert_t cert;
/* FIXME: We should check whether a public key directory file and a
matching public key for PRKDF is available. This should make
extraction of the key much easier. My current test card doesn't
have one, so we can only use the fallback solution bu looking for
a matching certificate and extract the key from there. */
/* Look for a matching certificate. A certificate matches if the Id
matches the obne of the private key info. */
for (cdf = app->app_local->certificate_info; cdf; cdf = cdf->next)
if (cdf->objidlen == prkdf->objidlen
&& !memcmp (cdf->objid, prkdf->objid, prkdf->objidlen))
break;
if (!cdf)
for (cdf = app->app_local->trusted_certificate_info; cdf; cdf = cdf->next)
if (cdf->objidlen == prkdf->objidlen
&& !memcmp (cdf->objid, prkdf->objid, prkdf->objidlen))
break;
if (!cdf)
for (cdf = app->app_local->useful_certificate_info; cdf; cdf = cdf->next)
if (cdf->objidlen == prkdf->objidlen
&& !memcmp (cdf->objid, prkdf->objid, prkdf->objidlen))
break;
if (!cdf)
return gpg_error (GPG_ERR_NOT_FOUND);
err = readcert_by_cdf (app, cdf, &der, &derlen);
2004-12-02 08:48:09 +01:00
if (err)
return err;
err = ksba_cert_new (&cert);
if (!err)
err = ksba_cert_init_from_mem (cert, der, derlen);
xfree (der);
if (!err)
err = app_help_get_keygrip_string (cert, r_gripstr);
ksba_cert_release (cert);
return err;
}
/* Helper to do_learn_status: Send information about all known
keypairs back. FIXME: much code duplication from
send_sertinfo(). */
static gpg_error_t
send_keypairinfo (app_t app, ctrl_t ctrl, prkdf_object_t keyinfo)
{
gpg_error_t err;
for (; keyinfo; keyinfo = keyinfo->next)
{
char gripstr[40+1];
char *buf, *p;
2008-11-03 11:54:18 +01:00
int j;
buf = xtrymalloc (9 + keyinfo->objidlen*2 + 1);
if (!buf)
return gpg_error_from_syserror ();
p = stpcpy (buf, "P15");
if (app->app_local->home_df)
{
sprintf (p, "-%04hX", (app->app_local->home_df & 0xffff));
p += 5;
}
p = stpcpy (p, ".");
2008-11-03 11:54:18 +01:00
bin2hex (keyinfo->objid, keyinfo->objidlen, p);
err = keygripstr_from_prkdf (app, keyinfo, gripstr);
if (err)
{
log_error ("can't get keygrip from ");
for (j=0; j < keyinfo->pathlen; j++)
log_printf ("%04hX", keyinfo->path[j]);
log_printf (": %s\n", gpg_strerror (err));
}
else
{
assert (strlen (gripstr) == 40);
send_status_info (ctrl, "KEYPAIRINFO",
gripstr, 40,
buf, strlen (buf),
NULL, (size_t)0);
}
xfree (buf);
}
return 0;
}
/* This is the handler for the LEARN command. */
static gpg_error_t
do_learn_status (app_t app, ctrl_t ctrl, unsigned int flags)
{
gpg_error_t err;
if ((flags & 1))
err = 0;
else
{
err = send_certinfo (app, ctrl, "100", app->app_local->certificate_info);
if (!err)
err = send_certinfo (app, ctrl, "101",
app->app_local->trusted_certificate_info);
if (!err)
err = send_certinfo (app, ctrl, "102",
app->app_local->useful_certificate_info);
}
if (!err)
err = send_keypairinfo (app, ctrl, app->app_local->private_key_info);
return err;
}
/* Read a certifciate using the information in CDF and return the
certificate in a newly llocated buffer R_CERT and its length
R_CERTLEN. */
static gpg_error_t
readcert_by_cdf (app_t app, cdf_object_t cdf,
unsigned char **r_cert, size_t *r_certlen)
{
gpg_error_t err;
unsigned char *buffer = NULL;
const unsigned char *p, *save_p;
size_t buflen, n;
int class, tag, constructed, ndef;
size_t totobjlen, objlen, hdrlen;
int rootca;
int i;
*r_cert = NULL;
*r_certlen = 0;
/* First check whether it has been cached. */
if (cdf->image)
{
*r_cert = xtrymalloc (cdf->imagelen);
if (!*r_cert)
return gpg_error_from_syserror ();
memcpy (*r_cert, cdf->image, cdf->imagelen);
*r_certlen = cdf->imagelen;
return 0;
}
/* Read the entire file. fixme: This could be optimized by first
reading the header to figure out how long the certificate
actually is. */
err = select_ef_by_path (app, cdf->path, cdf->pathlen);
if (err)
goto leave;
err = iso7816_read_binary (app->slot, cdf->off, cdf->len, &buffer, &buflen);
if (!err && (!buflen || *buffer == 0xff))
err = gpg_error (GPG_ERR_NOT_FOUND);
if (err)
{
log_error ("error reading certificate with Id ");
for (i=0; i < cdf->objidlen; i++)
log_printf ("%02X", cdf->objid[i]);
log_printf (": %s\n", gpg_strerror (err));
goto leave;
}
/* Check whether this is really a certificate. */
p = buffer;
n = buflen;
err = parse_ber_header (&p, &n, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (err)
goto leave;
if (class == CLASS_UNIVERSAL && tag == TAG_SEQUENCE && constructed)
rootca = 0;
else if ( class == CLASS_UNIVERSAL && tag == TAG_SET && constructed )
rootca = 1;
else
{
err = gpg_error (GPG_ERR_INV_OBJ);
goto leave;
}
totobjlen = objlen + hdrlen;
assert (totobjlen <= buflen);
err = parse_ber_header (&p, &n, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (err)
goto leave;
if (!rootca
&& class == CLASS_UNIVERSAL && tag == TAG_OBJECT_ID && !constructed)
{
/* The certificate seems to be contained in a userCertificate
container. Skip this and assume the following sequence is
the certificate. */
if (n < objlen)
{
err = gpg_error (GPG_ERR_INV_OBJ);
goto leave;
}
p += objlen;
n -= objlen;
save_p = p;
err = parse_ber_header (&p, &n, &class, &tag, &constructed,
&ndef, &objlen, &hdrlen);
if (err)
goto leave;
if ( !(class == CLASS_UNIVERSAL && tag == TAG_SEQUENCE && constructed) )
{
err = gpg_error (GPG_ERR_INV_OBJ);
goto leave;
}
totobjlen = objlen + hdrlen;
assert (save_p + totobjlen <= buffer + buflen);
memmove (buffer, save_p, totobjlen);
}
*r_cert = buffer;
buffer = NULL;
*r_certlen = totobjlen;
/* Try to cache it. */
if (!cdf->image && (cdf->image = xtrymalloc (*r_certlen)))
{
memcpy (cdf->image, *r_cert, *r_certlen);
cdf->imagelen = *r_certlen;
}
leave:
xfree (buffer);
return err;
}
/* Handler for the READCERT command.
Read the certificate with id CERTID (as returned by learn_status in
the CERTINFO status lines) and return it in the freshly allocated
buffer to be stored at R_CERT and its length at R_CERTLEN. A error
code will be returned on failure and R_CERT and R_CERTLEN will be
set to NULL/0. */
static gpg_error_t
do_readcert (app_t app, const char *certid,
unsigned char **r_cert, size_t *r_certlen)
{
gpg_error_t err;
cdf_object_t cdf;
*r_cert = NULL;
*r_certlen = 0;
err = cdf_object_from_certid (app, certid, &cdf);
if (!err)
err =readcert_by_cdf (app, cdf, r_cert, r_certlen);
return err;
2004-12-02 08:48:09 +01:00
}
/* Implement the GETATTR command. This is similar to the LEARN
command but returns just one value via the status interface. */
static gpg_error_t
do_getattr (app_t app, ctrl_t ctrl, const char *name)
{
gpg_error_t err;
if (!strcmp (name, "$AUTHKEYID"))
{
char *buf, *p;
prkdf_object_t prkdf;
/* We return the ID of the first private keycapable of
signing. */
for (prkdf = app->app_local->private_key_info; prkdf;
prkdf = prkdf->next)
if (prkdf->usageflags.sign)
break;
if (prkdf)
{
buf = xtrymalloc (9 + prkdf->objidlen*2 + 1);
if (!buf)
return gpg_error_from_syserror ();
p = stpcpy (buf, "P15");
if (app->app_local->home_df)
{
sprintf (p, "-%04hX", (app->app_local->home_df & 0xffff));
p += 5;
}
p = stpcpy (p, ".");
2008-11-03 11:54:18 +01:00
bin2hex (prkdf->objid, prkdf->objidlen, p);
send_status_info (ctrl, name, buf, strlen (buf), NULL, 0);
xfree (buf);
return 0;
}
}
else if (!strcmp (name, "$DISPSERIALNO"))
{
/* For certain cards we return special IDs. There is no
general rule for it so we need to decide case by case. */
if (app->app_local->card_type == CARD_TYPE_BELPIC)
{
2006-10-23 16:02:13 +02:00
/* The eID card has a card number printed on the front matter
which seems to be a good indication. */
unsigned char *buffer;
const unsigned char *p;
size_t buflen, n;
unsigned short path[] = { 0x3F00, 0xDF01, 0x4031 };
err = select_ef_by_path (app, path, DIM(path) );
if (!err)
err = iso7816_read_binary (app->slot, 0, 0, &buffer, &buflen);
if (err)
{
log_error ("error accessing EF(ID): %s\n", gpg_strerror (err));
return err;
}
p = find_tlv (buffer, buflen, 1, &n);
if (p && n == 12)
{
char tmp[12+2+1];
memcpy (tmp, p, 3);
tmp[3] = '-';
memcpy (tmp+4, p+3, 7);
tmp[11] = '-';
memcpy (tmp+12, p+10, 2);
tmp[14] = 0;
send_status_info (ctrl, name, tmp, strlen (tmp), NULL, 0);
xfree (buffer);
return 0;
}
xfree (buffer);
}
}
return gpg_error (GPG_ERR_INV_NAME);
}
/* Micardo cards require special treatment. This is a helper for the
crypto functions to manage the security environment. We expect that
the key file has already been selected. FID is the one of the
selected key. */
static gpg_error_t
micardo_mse (app_t app, unsigned short fid)
{
gpg_error_t err;
int recno;
unsigned short refdata = 0;
int se_num;
unsigned char msebuf[10];
/* Read the KeyD file containing extra information on keys. */
err = iso7816_select_file (app->slot, 0x0013, 0, NULL, NULL);
if (err)
{
log_error ("error reading EF_keyD: %s\n", gpg_strerror (err));
return err;
}
for (recno = 1, se_num = -1; ; recno++)
{
unsigned char *buffer;
size_t buflen;
size_t n, nn;
const unsigned char *p, *pp;
err = iso7816_read_record (app->slot, recno, 1, 0, &buffer, &buflen);
if (gpg_err_code (err) == GPG_ERR_NOT_FOUND)
break; /* ready */
if (err)
{
log_error ("error reading EF_keyD record: %s\n",
gpg_strerror (err));
return err;
}
log_printhex ("keyD record:", buffer, buflen);
p = find_tlv (buffer, buflen, 0x83, &n);
if (p && n == 4 && ((p[2]<<8)|p[3]) == fid)
{
refdata = ((p[0]<<8)|p[1]);
/* Locate the SE DO and the there included sec env number. */
p = find_tlv (buffer, buflen, 0x7b, &n);
if (p && n)
{
pp = find_tlv (p, n, 0x80, &nn);
if (pp && nn == 1)
{
se_num = *pp;
xfree (buffer);
break; /* found. */
}
}
}
xfree (buffer);
}
if (se_num == -1)
{
log_error ("CRT for keyfile %04hX not found\n", fid);
return gpg_error (GPG_ERR_NOT_FOUND);
}
/* Restore the security environment to SE_NUM if needed */
if (se_num)
{
err = iso7816_manage_security_env (app->slot, 0xf3, se_num, NULL, 0);
if (err)
{
log_error ("restoring SE to %d failed: %s\n",
se_num, gpg_strerror (err));
return err;
}
}
/* Set the DST reference data. */
msebuf[0] = 0x83;
msebuf[1] = 0x03;
msebuf[2] = 0x80;
msebuf[3] = (refdata >> 8);
msebuf[4] = refdata;
err = iso7816_manage_security_env (app->slot, 0x41, 0xb6, msebuf, 5);
if (err)
{
log_error ("setting SE to reference file %04hX failed: %s\n",
refdata, gpg_strerror (err));
return err;
}
return 0;
}
/* Handler for the PKSIGN command.
Create the signature and return the allocated result in OUTDATA.
If a PIN is required, the PINCB will be used to ask for the PIN;
that callback should return the PIN in an allocated buffer and
store that as the 3rd argument. */
static gpg_error_t
do_sign (app_t app, const char *keyidstr, int hashalgo,
gpg_error_t (*pincb)(void*, const char *, char **),
void *pincb_arg,
const void *indata, size_t indatalen,
unsigned char **outdata, size_t *outdatalen )
2004-12-02 08:48:09 +01:00
{
static unsigned char sha1_prefix[15] = /* Object ID is 1.3.14.3.2.26 */
{ 0x30, 0x21, 0x30, 0x09, 0x06, 0x05, 0x2b, 0x0e, 0x03,
0x02, 0x1a, 0x05, 0x00, 0x04, 0x14 };
static unsigned char rmd160_prefix[15] = /* Object ID is 1.3.36.3.2.1 */
{ 0x30, 0x21, 0x30, 0x09, 0x06, 0x05, 0x2b, 0x24, 0x03,
0x02, 0x01, 0x05, 0x00, 0x04, 0x14 };
2004-12-02 08:48:09 +01:00
gpg_error_t err;
int i;
2006-10-24 16:45:34 +02:00
unsigned char data[36]; /* Must be large enough for a SHA-1 digest
+ the largest OID prefix above and also
fit the 36 bytes of md5sha1. */
prkdf_object_t prkdf; /* The private key object. */
aodf_object_t aodf; /* The associated authentication object. */
2005-09-06 20:42:13 +02:00
int no_data_padding = 0; /* True if the card want the data without padding.*/
int mse_done = 0; /* Set to true if the MSE has been done. */
if (!keyidstr || !*keyidstr)
return gpg_error (GPG_ERR_INV_VALUE);
2006-10-24 16:45:34 +02:00
if (indatalen != 20 && indatalen != 16 && indatalen != 35 && indatalen != 36)
return gpg_error (GPG_ERR_INV_VALUE);
err = prkdf_object_from_keyidstr (app, keyidstr, &prkdf);
if (err)
return err;
if (!(prkdf->usageflags.sign || prkdf->usageflags.sign_recover
||prkdf->usageflags.non_repudiation))
{
log_error ("key %s may not be used for signing\n", keyidstr);
return gpg_error (GPG_ERR_WRONG_KEY_USAGE);
}
if (!prkdf->authid)
{
log_error ("no authentication object defined for %s\n", keyidstr);
/* fixme: we might want to go ahead and do without PIN
verification. */
return gpg_error (GPG_ERR_UNSUPPORTED_OPERATION);
}
/* Find the authentication object to this private key object. */
for (aodf = app->app_local->auth_object_info; aodf; aodf = aodf->next)
if (aodf->objidlen == prkdf->authidlen
&& !memcmp (aodf->objid, prkdf->authid, prkdf->authidlen))
break;
if (!aodf)
{
log_error ("authentication object for %s missing\n", keyidstr);
return gpg_error (GPG_ERR_INV_CARD);
}
if (aodf->authid)
{
log_error ("PIN verification is protected by an "
"additional authentication token\n");
return gpg_error (GPG_ERR_BAD_PIN_METHOD);
}
if (aodf->pinflags.integrity_protected
|| aodf->pinflags.confidentiality_protected)
{
log_error ("PIN verification requires unsupported protection method\n");
return gpg_error (GPG_ERR_BAD_PIN_METHOD);
}
if (!aodf->stored_length && aodf->pinflags.needs_padding)
{
log_error ("PIN verification requires padding but no length known\n");
return gpg_error (GPG_ERR_INV_CARD);
}
2004-12-02 08:48:09 +01:00
/* Select the key file. Note that this may change the security
environment thus we do it before PIN verification. */
err = select_ef_by_path (app, prkdf->path, prkdf->pathlen);
if (err)
{
log_error ("error selecting file for key %s: %s\n",
keyidstr, gpg_strerror (errno));
return err;
}
2005-09-06 20:42:13 +02:00
/* Due to the fact that the non-repudiation signature on a BELPIC
2006-10-23 16:02:13 +02:00
card requires a verify immediately before the DSO we set the
2005-09-06 20:42:13 +02:00
MSE before we do the verification. Other cards might allow to do
this also but I don't want to break anything, thus we do it only
for the BELPIC card here. */
if (app->app_local->card_type == CARD_TYPE_BELPIC)
{
unsigned char mse[5];
2005-09-06 20:42:13 +02:00
mse[0] = 4; /* Length of the template. */
mse[1] = 0x80; /* Algorithm reference tag. */
if (hashalgo == MD_USER_TLS_MD5SHA1)
2006-10-24 16:45:34 +02:00
mse[2] = 0x01; /* Let card do pkcs#1 0xFF padding. */
else
mse[2] = 0x02; /* RSASSA-PKCS1-v1.5 using SHA1. */
2005-09-06 20:42:13 +02:00
mse[3] = 0x84; /* Private key reference tag. */
mse[4] = prkdf->key_reference_valid? prkdf->key_reference : 0x82;
err = iso7816_manage_security_env (app->slot,
2005-09-06 20:42:13 +02:00
0x41, 0xB6,
mse, sizeof mse);
no_data_padding = 1;
mse_done = 1;
}
if (err)
{
log_error ("MSE failed: %s\n", gpg_strerror (err));
return err;
}
/* Now that we have all the information available, prepare and run
the PIN verification.*/
if (1)
2004-12-02 08:48:09 +01:00
{
char *pinvalue;
size_t pinvaluelen;
const char *errstr;
const char *s;
2005-09-06 20:42:13 +02:00
if (prkdf->usageflags.non_repudiation
&& app->app_local->card_type == CARD_TYPE_BELPIC)
err = pincb (pincb_arg, "PIN (qualified signature!)", &pinvalue);
else
err = pincb (pincb_arg, "PIN", &pinvalue);
if (err)
{
log_info ("PIN callback returned error: %s\n", gpg_strerror (err));
return err;
}
/* We might need to cope with UTF8 things here. Not sure how
min_length etc. are exactly defined, for now we take them as
a plain octet count. */
if (strlen (pinvalue) < aodf->min_length)
{
log_error ("PIN is too short; minimum length is %lu\n",
aodf->min_length);
err = gpg_error (GPG_ERR_BAD_PIN);
}
else if (aodf->stored_length && strlen (pinvalue) > aodf->stored_length)
{
/* This would otherwise truncate the PIN silently. */
log_error ("PIN is too large; maximum length is %lu\n",
aodf->stored_length);
err = gpg_error (GPG_ERR_BAD_PIN);
}
else if (aodf->max_length_valid && strlen (pinvalue) > aodf->max_length)
{
log_error ("PIN is too large; maximum length is %lu\n",
aodf->max_length);
err = gpg_error (GPG_ERR_BAD_PIN);
}
if (err)
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{
xfree (pinvalue);
return err;
}
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errstr = NULL;
err = 0;
switch (aodf->pintype)
{
case PIN_TYPE_BCD:
case PIN_TYPE_ASCII_NUMERIC:
for (s=pinvalue; digitp (s); s++)
;
if (*s)
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{
errstr = "Non-numeric digits found in PIN";
err = gpg_error (GPG_ERR_BAD_PIN);
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}
break;
case PIN_TYPE_UTF8:
break;
case PIN_TYPE_HALF_NIBBLE_BCD:
errstr = "PIN type Half-Nibble-BCD is not supported";
break;
case PIN_TYPE_ISO9564_1:
errstr = "PIN type ISO9564-1 is not supported";
break;
default:
errstr = "Unknown PIN type";
break;
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}
if (errstr)
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{
log_error ("can't verify PIN: %s\n", errstr);
xfree (pinvalue);
return err? err : gpg_error (GPG_ERR_BAD_PIN_METHOD);
}
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if (aodf->pintype == PIN_TYPE_BCD )
{
char *paddedpin;
int ndigits;
for (ndigits=0, s=pinvalue; *s; ndigits++, s++)
;
paddedpin = xtrymalloc (aodf->stored_length+1);
if (!paddedpin)
{
err = gpg_error_from_syserror ();
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xfree (pinvalue);
return err;
}
i = 0;
paddedpin[i++] = 0x20 | (ndigits & 0x0f);
for (s=pinvalue; i < aodf->stored_length && *s && s[1]; s = s+2 )
paddedpin[i++] = (((*s - '0') << 4) | ((s[1] - '0') & 0x0f));
if (i < aodf->stored_length && *s)
paddedpin[i++] = (((*s - '0') << 4)
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|((aodf->pad_char_valid?aodf->pad_char:0)&0x0f));
if (aodf->pinflags.needs_padding)
while (i < aodf->stored_length)
paddedpin[i++] = aodf->pad_char_valid? aodf->pad_char : 0;
xfree (pinvalue);
pinvalue = paddedpin;
pinvaluelen = i;
}
else if (aodf->pinflags.needs_padding)
{
char *paddedpin;
paddedpin = xtrymalloc (aodf->stored_length+1);
if (!paddedpin)
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{
err = gpg_error_from_syserror ();
xfree (pinvalue);
return err;
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}
for (i=0, s=pinvalue; i < aodf->stored_length && *s; i++, s++)
paddedpin[i] = *s;
/* Not sure what padding char to use if none has been set.
For now we use 0x00; maybe a space would be better. */
for (; i < aodf->stored_length; i++)
paddedpin[i] = aodf->pad_char_valid? aodf->pad_char : 0;
paddedpin[i] = 0;
pinvaluelen = i;
xfree (pinvalue);
pinvalue = paddedpin;
}
else
pinvaluelen = strlen (pinvalue);
err = iso7816_verify (app->slot,
aodf->pin_reference_valid? aodf->pin_reference : 0,
pinvalue, pinvaluelen);
xfree (pinvalue);
if (err)
{
log_error ("PIN verification failed: %s\n", gpg_strerror (err));
return err;
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}
log_debug ("PIN verification succeeded\n");
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}
/* Prepare the DER object from INDATA. */
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if (indatalen == 36)
{
/* No ASN.1 container used. */
if (hashalgo != MD_USER_TLS_MD5SHA1)
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return gpg_error (GPG_ERR_UNSUPPORTED_ALGORITHM);
memcpy (data, indata, indatalen);
}
else if (indatalen == 35)
{
/* Alright, the caller was so kind to send us an already
prepared DER object. Check that it is what we want and that
it matches the hash algorithm. */
if (hashalgo == GCRY_MD_SHA1 && !memcmp (indata, sha1_prefix, 15))
;
else if (hashalgo == GCRY_MD_RMD160
&& !memcmp (indata, rmd160_prefix, 15))
;
else
return gpg_error (GPG_ERR_UNSUPPORTED_ALGORITHM);
memcpy (data, indata, indatalen);
}
else
{
/* Need to prepend the prefix. */
if (hashalgo == GCRY_MD_SHA1)
memcpy (data, sha1_prefix, 15);
else if (hashalgo == GCRY_MD_RMD160)
memcpy (data, rmd160_prefix, 15);
else
return gpg_error (GPG_ERR_UNSUPPORTED_ALGORITHM);
memcpy (data+15, indata, indatalen);
}
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/* Manage security environment needs to be weaked for certain cards. */
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if (mse_done)
err = 0;
else if (app->app_local->card_type == CARD_TYPE_TCOS)
{
/* TCOS creates signatures always using the local key 0. MSE
may not be used. */
}
else if (app->app_local->card_type == CARD_TYPE_MICARDO)
{
if (!prkdf->pathlen)
err = gpg_error (GPG_ERR_BUG);
else
err = micardo_mse (app, prkdf->path[prkdf->pathlen-1]);
}
else if (prkdf->key_reference_valid)
{
unsigned char mse[3];
mse[0] = 0x84; /* Select asym. key. */
mse[1] = 1;
mse[2] = prkdf->key_reference;
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err = iso7816_manage_security_env (app->slot,
0x41, 0xB6,
mse, sizeof mse);
}
if (err)
{
log_error ("MSE failed: %s\n", gpg_strerror (err));
return err;
}
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if (hashalgo == MD_USER_TLS_MD5SHA1)
2009-07-10 12:15:33 +02:00
err = iso7816_compute_ds (app->slot, 0, data, 36, 0, outdata, outdatalen);
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else if (no_data_padding)
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err = iso7816_compute_ds (app->slot, 0, data+15, 20, 0,outdata,outdatalen);
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else
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err = iso7816_compute_ds (app->slot, 0, data, 35, 0, outdata, outdatalen);
return err;
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}
/* Handler for the PKAUTH command.
2006-10-10 13:11:04 +02:00
This is basically the same as the PKSIGN command but we first check
that the requested key is suitable for authentication; that is, it
must match the criteria used for the attribute $AUTHKEYID. See
do_sign for calling conventions; there is no HASHALGO, though. */
static gpg_error_t
do_auth (app_t app, const char *keyidstr,
gpg_error_t (*pincb)(void*, const char *, char **),
void *pincb_arg,
const void *indata, size_t indatalen,
unsigned char **outdata, size_t *outdatalen )
{
gpg_error_t err;
prkdf_object_t prkdf;
2006-10-24 16:45:34 +02:00
int algo;
if (!keyidstr || !*keyidstr)
return gpg_error (GPG_ERR_INV_VALUE);
err = prkdf_object_from_keyidstr (app, keyidstr, &prkdf);
if (err)
return err;
if (!prkdf->usageflags.sign)
{
log_error ("key %s may not be used for authentication\n", keyidstr);
return gpg_error (GPG_ERR_WRONG_KEY_USAGE);
}
2006-10-24 16:45:34 +02:00
algo = indatalen == 36? MD_USER_TLS_MD5SHA1 : GCRY_MD_SHA1;
return do_sign (app, keyidstr, algo, pincb, pincb_arg,
indata, indatalen, outdata, outdatalen);
}
/* Assume that EF(DIR) has been selected. Read its content and figure
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out the home EF of pkcs#15. Return that home DF or 0 if not found
and the value at the address of BELPIC indicates whether it was
found by the belpic aid. */
static unsigned short
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read_home_df (int slot, int *r_belpic)
{
gpg_error_t err;
unsigned char *buffer;
const unsigned char *p, *pp;
size_t buflen, n, nn;
unsigned short result = 0;
2005-09-06 20:42:13 +02:00
*r_belpic = 0;
err = iso7816_read_binary (slot, 0, 0, &buffer, &buflen);
if (err)
{
log_error ("error reading EF{DIR}: %s\n", gpg_strerror (err));
return 0;
}
/* FIXME: We need to scan all records. */
p = find_tlv (buffer, buflen, 0x61, &n);
if (p && n)
{
pp = find_tlv (p, n, 0x4f, &nn);
2005-09-06 20:42:13 +02:00
if (pp && ((nn == sizeof pkcs15_aid && !memcmp (pp, pkcs15_aid, nn))
|| (*r_belpic = (nn == sizeof pkcs15be_aid
&& !memcmp (pp, pkcs15be_aid, nn)))))
{
pp = find_tlv (p, n, 0x50, &nn);
if (pp) /* fixme: Filter log value? */
log_info ("pkcs#15 application label from EF(DIR) is `%.*s'\n",
(int)nn, pp);
pp = find_tlv (p, n, 0x51, &nn);
if (pp && nn == 4 && *pp == 0x3f && !pp[1])
{
result = ((pp[2] << 8) | pp[3]);
log_info ("pkcs#15 application directory is 0x%04hX\n", result);
}
}
}
xfree (buffer);
return result;
}
/*
Select the PKCS#15 application on the card in SLOT.
*/
gpg_error_t
app_select_p15 (app_t app)
2004-12-02 08:48:09 +01:00
{
int slot = app->slot;
int rc;
unsigned short def_home_df = 0;
card_type_t card_type = CARD_TYPE_UNKNOWN;
int direct = 0;
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int is_belpic = 0;
2005-11-28 12:52:25 +01:00
rc = iso7816_select_application (slot, pkcs15_aid, sizeof pkcs15_aid, 0);
if (rc)
{ /* Not found: Try to locate it from 2F00. We use direct path
selection here because it seems that the Belgian eID card
does only allow for that. Many other cards supports this
2005-11-28 12:52:25 +01:00
selection method too. Note, that we don't use
select_application above for the Belgian card - the call
works but it seems that it did not switch to the correct DF.
Using the 2f02 just works. */
unsigned short path[1] = { 0x2f00 };
rc = iso7816_select_path (app->slot, path, 1, NULL, NULL);
if (!rc)
{
direct = 1;
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def_home_df = read_home_df (slot, &is_belpic);
if (def_home_df)
{
path[0] = def_home_df;
rc = iso7816_select_path (app->slot, path, 1, NULL, NULL);
}
}
}
if (rc)
{ /* Still not found: Try the default DF. */
def_home_df = 0x5015;
rc = iso7816_select_file (slot, def_home_df, 1, NULL, NULL);
}
if (!rc)
{
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/* Determine the type of the card. The general case is to look
it up from the ATR table. For the Belgian eID card we know
it instantly from the AID. */
if (is_belpic)
{
card_type = CARD_TYPE_BELPIC;
}
else
{
2005-09-06 20:42:13 +02:00
unsigned char *atr;
size_t atrlen;
int i;
atr = apdu_get_atr (app->slot, &atrlen);
if (!atr)
rc = gpg_error (GPG_ERR_INV_CARD);
else
{
for (i=0; card_atr_list[i].atrlen; i++)
if (card_atr_list[i].atrlen == atrlen
&& !memcmp (card_atr_list[i].atr, atr, atrlen))
{
card_type = card_atr_list[i].type;
break;
}
xfree (atr);
}
}
}
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if (!rc)
{
app->apptype = "P15";
app->app_local = xtrycalloc (1, sizeof *app->app_local);
if (!app->app_local)
{
rc = gpg_error_from_syserror ();
2004-12-02 08:48:09 +01:00
goto leave;
}
/* Set the home DF. Note that we currently can't do that if the
selection via application ID worked. This will store 0 there
instead. FIXME: We either need to figure the home_df via the
DIR file or using the return values from the select file
APDU. */
app->app_local->home_df = def_home_df;
/* Store the card type. FIXME: We might want to put this into
the common APP structure. */
app->app_local->card_type = card_type;
/* Store whether we may and should use direct path selection. */
app->app_local->direct_path_selection = direct;
/* Read basic information and thus check whether this is a real
2004-12-02 08:48:09 +01:00
card. */
rc = read_p15_info (app);
if (rc)
goto leave;
/* Special serial number munging. We need to check for a German
prototype card right here because we need to access to
EF(TokenInfo). We mark such a serial number by the using a
prefix of FF0100. */
2004-12-02 08:48:09 +01:00
if (app->serialnolen == 12
&& !memcmp (app->serialno, "\xD2\x76\0\0\0\0\0\0\0\0\0\0", 12))
2004-12-02 08:48:09 +01:00
{
/* This is a German card with a silly serial number. Try to get
the serial number from the EF(TokenInfo). . */
unsigned char *p;
/* FIXME: actually get it from EF(TokenInfo). */
p = xtrymalloc (3 + app->serialnolen);
2004-12-02 08:48:09 +01:00
if (!p)
rc = gpg_error (gpg_err_code_from_errno (errno));
else
{
memcpy (p, "\xff\x01", 3);
memcpy (p+3, app->serialno, app->serialnolen);
app->serialnolen += 3;
xfree (app->serialno);
app->serialno = p;
2004-12-02 08:48:09 +01:00
}
}
app->fnc.deinit = do_deinit;
app->fnc.learn_status = do_learn_status;
app->fnc.readcert = do_readcert;
app->fnc.getattr = do_getattr;
2004-12-02 08:48:09 +01:00
app->fnc.setattr = NULL;
app->fnc.genkey = NULL;
app->fnc.sign = do_sign;
app->fnc.auth = do_auth;
app->fnc.decipher = NULL;
2004-12-02 08:48:09 +01:00
app->fnc.change_pin = NULL;
app->fnc.check_pin = NULL;
leave:
if (rc)
do_deinit (app);
2004-12-02 08:48:09 +01:00
}
return rc;
}