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|
/* mechanisms for preshared keys (public, private, and preshared secrets)
* Copyright (C) 1998-2001 D. Hugh Redelmeier.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at your
* option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*
* RCSID $Id: keys.c,v 1.24 2006/01/27 08:59:40 as Exp $
*/
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <unistd.h>
#include <errno.h>
#include <time.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <resolv.h>
#include <arpa/nameser.h> /* missing from <resolv.h> on old systems */
#include <sys/queue.h>
#include <glob.h>
#ifndef GLOB_ABORTED
# define GLOB_ABORTED GLOB_ABEND /* fix for old versions */
#endif
#include <freeswan.h>
#include <ipsec_policy.h>
#include "constants.h"
#include "defs.h"
#include "mp_defs.h"
#include "id.h"
#include "x509.h"
#include "pgp.h"
#include "certs.h"
#include "smartcard.h"
#include "connections.h"
#include "state.h"
#include "lex.h"
#include "keys.h"
#include "adns.h" /* needs <resolv.h> */
#include "dnskey.h" /* needs keys.h and adns.h */
#include "log.h"
#include "whack.h" /* for RC_LOG_SERIOUS */
#include "timer.h"
#include "fetch.h"
#include "xauth.h"
const char *shared_secrets_file = SHARED_SECRETS_FILE;
typedef struct id_list id_list_t;
struct id_list {
struct id id;
id_list_t *next;
};
typedef struct secret secret_t;
struct secret {
id_list_t *ids;
enum PrivateKeyKind kind;
union {
chunk_t preshared_secret;
RSA_private_key_t RSA_private_key;
xauth_t xauth_secret;
smartcard_t *smartcard;
} u;
secret_t *next;
};
static pubkey_t*
allocate_RSA_public_key(const cert_t cert)
{
pubkey_t *pk = alloc_thing(pubkey_t, "pubkey");
chunk_t e, n;
switch (cert.type)
{
case CERT_PGP:
e = cert.u.pgp->publicExponent;
n = cert.u.pgp->modulus;
break;
case CERT_X509_SIGNATURE:
e = cert.u.x509->publicExponent;
n = cert.u.x509->modulus;
break;
default:
plog("RSA public key allocation error");
}
init_RSA_public_key(&pk->u.rsa, e, n);
DBG(DBG_RAW,
RSA_show_public_key(&pk->u.rsa)
)
pk->alg = PUBKEY_ALG_RSA;
pk->id = empty_id;
pk->issuer = empty_chunk;
pk->serial = empty_chunk;
return pk;
}
/*
* free a public key struct
*/
static void
free_public_key(pubkey_t *pk)
{
free_id_content(&pk->id);
freeanychunk(pk->issuer);
freeanychunk(pk->serial);
/* algorithm-specific freeing */
switch (pk->alg)
{
case PUBKEY_ALG_RSA:
free_RSA_public_content(&pk->u.rsa);
break;
default:
bad_case(pk->alg);
}
pfree(pk);
}
secret_t *secrets = NULL;
/* find the struct secret associated with the combination of
* me and the peer. We match the Id (if none, the IP address).
* Failure is indicated by a NULL.
*/
static const secret_t *
get_secret(const struct connection *c, enum PrivateKeyKind kind, bool asym)
{
enum { /* bits */
match_default = 01,
match_him = 02,
match_me = 04
};
unsigned int best_match = 0;
secret_t *best = NULL;
secret_t *s;
const struct id *my_id = &c->spd.this.id
, *his_id = &c->spd.that.id;
struct id rw_id;
/* is there a certificate assigned to this connection? */
if (kind == PPK_RSA && c->spd.this.cert.type != CERT_NONE)
{
pubkey_t *my_public_key = allocate_RSA_public_key(c->spd.this.cert);
for (s = secrets; s != NULL; s = s->next)
{
if (s->kind == kind &&
same_RSA_public_key(&s->u.RSA_private_key.pub, &my_public_key->u.rsa))
{
best = s;
break; /* we have found the private key - no sense in searching further */
}
}
free_public_key(my_public_key);
return best;
}
if (his_id_was_instantiated(c))
{
/* roadwarrior: replace him with 0.0.0.0 */
rw_id.kind = c->spd.that.id.kind;
rw_id.name = empty_chunk;
happy(anyaddr(addrtypeof(&c->spd.that.host_addr), &rw_id.ip_addr));
his_id = &rw_id;
}
else if (kind == PPK_PSK
&& (c->policy & (POLICY_PSK | POLICY_XAUTH_PSK))
&& ((c->kind == CK_TEMPLATE && c->spd.that.id.kind == ID_NONE) ||
(c->kind == CK_INSTANCE && id_is_ipaddr(&c->spd.that.id))))
{
/* roadwarrior: replace him with 0.0.0.0 */
rw_id.kind = ID_IPV4_ADDR;
happy(anyaddr(addrtypeof(&c->spd.that.host_addr), &rw_id.ip_addr));
his_id = &rw_id;
}
for (s = secrets; s != NULL; s = s->next)
{
if (s->kind == kind)
{
unsigned int match = 0;
if (s->ids == NULL)
{
/* a default (signified by lack of ids):
* accept if no more specific match found
*/
match = match_default;
}
else
{
/* check if both ends match ids */
id_list_t *i;
for (i = s->ids; i != NULL; i = i->next)
{
if (same_id(my_id, &i->id))
match |= match_me;
if (same_id(his_id, &i->id))
match |= match_him;
}
/* If our end matched the only id in the list,
* default to matching any peer.
* A more specific match will trump this.
*/
if (match == match_me
&& s->ids->next == NULL)
match |= match_default;
}
switch (match)
{
case match_me:
/* if this is an asymmetric (eg. public key) system,
* allow this-side-only match to count, even if
* there are other ids in the list.
*/
if (!asym)
break;
/* FALLTHROUGH */
case match_default: /* default all */
case match_me | match_default: /* default peer */
case match_me | match_him: /* explicit */
if (match == best_match)
{
/* two good matches are equally good:
* do they agree?
*/
bool same = FALSE;
switch (kind)
{
case PPK_PSK:
same = s->u.preshared_secret.len == best->u.preshared_secret.len
&& memcmp(s->u.preshared_secret.ptr, best->u.preshared_secret.ptr, s->u.preshared_secret.len) == 0;
break;
case PPK_RSA:
/* Dirty trick: since we have code to compare
* RSA public keys, but not private keys, we
* make the assumption that equal public keys
* mean equal private keys. This ought to work.
*/
same = same_RSA_public_key(&s->u.RSA_private_key.pub
, &best->u.RSA_private_key.pub);
break;
default:
bad_case(kind);
}
if (!same)
{
loglog(RC_LOG_SERIOUS, "multiple ipsec.secrets entries with distinct secrets match endpoints:"
" first secret used");
best = s; /* list is backwards: take latest in list */
}
}
else if (match > best_match)
{
/* this is the best match so far */
best_match = match;
best = s;
}
}
}
}
return best;
}
/* find the appropriate preshared key (see get_secret).
* Failure is indicated by a NULL pointer.
* Note: the result is not to be freed by the caller.
*/
const chunk_t *
get_preshared_secret(const struct connection *c)
{
const secret_t *s = get_secret(c, PPK_PSK, FALSE);
DBG(DBG_PRIVATE,
if (s == NULL)
DBG_log("no Preshared Key Found");
else
DBG_dump_chunk("Preshared Key", s->u.preshared_secret);
)
return s == NULL? NULL : &s->u.preshared_secret;
}
/* check the existence of an RSA private key matching an RSA public
* key contained in an X.509 or OpenPGP certificate
*/
bool
has_private_key(cert_t cert)
{
secret_t *s;
bool has_key = FALSE;
pubkey_t *pubkey = allocate_RSA_public_key(cert);
for (s = secrets; s != NULL; s = s->next)
{
if (s->kind == PPK_RSA &&
same_RSA_public_key(&s->u.RSA_private_key.pub, &pubkey->u.rsa))
{
has_key = TRUE;
break;
}
}
free_public_key(pubkey);
return has_key;
}
/*
* get the matching RSA private key belonging to a given X.509 certificate
*/
const RSA_private_key_t*
get_x509_private_key(const x509cert_t *cert)
{
secret_t *s;
const RSA_private_key_t *pri = NULL;
const cert_t c = {CERT_X509_SIGNATURE, {cert}};
pubkey_t *pubkey = allocate_RSA_public_key(c);
for (s = secrets; s != NULL; s = s->next)
{
if (s->kind == PPK_RSA &&
same_RSA_public_key(&s->u.RSA_private_key.pub, &pubkey->u.rsa))
{
pri = &s->u.RSA_private_key;
break;
}
}
free_public_key(pubkey);
return pri;
}
/* find the appropriate RSA private key (see get_secret).
* Failure is indicated by a NULL pointer.
*/
const RSA_private_key_t *
get_RSA_private_key(const struct connection *c)
{
const secret_t *s = get_secret(c, PPK_RSA, TRUE);
return s == NULL? NULL : &s->u.RSA_private_key;
}
/* digest a secrets file
*
* The file is a sequence of records. A record is a maximal sequence of
* tokens such that the first, and only the first, is in the first column
* of a line.
*
* Tokens are generally separated by whitespace and are key words, ids,
* strings, or data suitable for ttodata(3). As a nod to convention,
* a trailing ":" on what would otherwise be a token is taken as a
* separate token. If preceded by whitespace, a "#" is taken as starting
* a comment: it and the rest of the line are ignored.
*
* One kind of record is an include directive. It starts with "include".
* The filename is the only other token in the record.
* If the filename does not start with /, it is taken to
* be relative to the directory containing the current file.
*
* The other kind of record describes a key. It starts with a
* sequence of ids and ends with key information. Each id
* is an IP address, a Fully Qualified Domain Name (which will immediately
* be resolved), or @FQDN which will be left as a name.
*
* The key part can be in several forms.
*
* The old form of the key is still supported: a simple
* quoted strings (with no escapes) is taken as a preshred key.
*
* The new form starts the key part with a ":".
*
* For Preshared Key, use the "PSK" keyword, and follow it by a string
* or a data token suitable for ttodata(3).
*
* For RSA Private Key, use the "RSA" keyword, followed by a
* brace-enclosed list of key field keywords and data values.
* The data values are large integers to be decoded by ttodata(3).
* The fields are a subset of those used by BIND 8.2 and have the
* same names.
*/
/* parse PSK from file */
static err_t
process_psk_secret(chunk_t *psk)
{
err_t ugh = NULL;
if (*tok == '"' || *tok == '\'')
{
clonetochunk(*psk, tok+1, flp->cur - tok - 2, "PSK");
(void) shift();
}
else
{
char buf[BUF_LEN]; /* limit on size of binary representation of key */
size_t sz;
ugh = ttodatav(tok, flp->cur - tok, 0, buf, sizeof(buf), &sz
, diag_space, sizeof(diag_space), TTODATAV_SPACECOUNTS);
if (ugh != NULL)
{
/* ttodata didn't like PSK data */
ugh = builddiag("PSK data malformed (%s): %s", ugh, tok);
}
else
{
clonetochunk(*psk, buf, sz, "PSK");
(void) shift();
}
}
return ugh;
}
/* Parse fields of RSA private key.
* A braced list of keyword and value pairs.
* At the moment, each field is required, in order.
* The fields come from BIND 8.2's representation
*/
static err_t
process_rsa_secret(RSA_private_key_t *rsak)
{
char buf[RSA_MAX_ENCODING_BYTES]; /* limit on size of binary representation of key */
const struct fld *p;
/* save bytes of Modulus and PublicExponent for keyid calculation */
unsigned char ebytes[sizeof(buf)];
unsigned char *eb_next = ebytes;
chunk_t pub_bytes[2];
chunk_t *pb_next = &pub_bytes[0];
for (p = RSA_private_field; p < &RSA_private_field[RSA_PRIVATE_FIELD_ELEMENTS]; p++)
{
size_t sz;
err_t ugh;
if (!shift())
{
return "premature end of RSA key";
}
else if (!tokeqword(p->name))
{
return builddiag("%s keyword not found where expected in RSA key"
, p->name);
}
else if (!(shift()
&& (!tokeq(":") || shift()))) /* ignore optional ":" */
{
return "premature end of RSA key";
}
else if (NULL != (ugh = ttodatav(tok, flp->cur - tok
, 0, buf, sizeof(buf), &sz, diag_space, sizeof(diag_space)
, TTODATAV_SPACECOUNTS)))
{
/* in RSA key, ttodata didn't like */
return builddiag("RSA data malformed (%s): %s", ugh, tok);
}
else
{
MP_INT *n = (MP_INT *) ((char *)rsak + p->offset);
n_to_mpz(n, buf, sz);
if (pb_next < &pub_bytes[elemsof(pub_bytes)])
{
if (eb_next - ebytes + sz > sizeof(ebytes))
return "public key takes too many bytes";
setchunk(*pb_next, eb_next, sz);
memcpy(eb_next, buf, sz);
eb_next += sz;
pb_next++;
}
#if 0 /* debugging info that compromises security */
{
size_t sz = mpz_sizeinbase(n, 16);
char buf[RSA_MAX_OCTETS * 2 + 2]; /* ought to be big enough */
passert(sz <= sizeof(buf));
mpz_get_str(buf, 16, n);
loglog(RC_LOG_SERIOUS, "%s: %s", p->name, buf);
}
#endif
}
}
/* We require an (indented) '}' and the end of the record.
* We break down the test so that the diagnostic will be
* more helpful. Some people don't seem to wish to indent
* the brace!
*/
if (!shift() || !tokeq("}"))
{
return "malformed end of RSA private key -- indented '}' required";
}
else if (shift())
{
return "malformed end of RSA private key -- unexpected token after '}'";
}
else
{
unsigned bits = mpz_sizeinbase(&rsak->pub.n, 2);
rsak->pub.k = (bits + BITS_PER_BYTE - 1) / BITS_PER_BYTE;
rsak->pub.keyid[0] = '\0'; /* in case of splitkeytoid failure */
splitkeytoid(pub_bytes[1].ptr, pub_bytes[1].len
, pub_bytes[0].ptr, pub_bytes[0].len
, rsak->pub.keyid, sizeof(rsak->pub.keyid));
return RSA_private_key_sanity(rsak);
}
}
/* process rsa key file protected with optional passphrase which can either be
* read from ipsec.secrets or prompted for by using whack
*/
static err_t
process_rsa_keyfile(RSA_private_key_t *rsak, int whackfd)
{
char filename[BUF_LEN];
prompt_pass_t pass;
memset(filename,'\0', BUF_LEN);
memset(pass.secret,'\0', sizeof(pass.secret));
pass.prompt = FALSE;
pass.fd = whackfd;
/* we expect the filename of a PKCS#1 private key file */
if (*tok == '"' || *tok == '\'') /* quoted filename */
memcpy(filename, tok+1, flp->cur - tok - 2);
else
memcpy(filename, tok, flp->cur - tok);
if (shift())
{
/* we expect an appended passphrase or passphrase prompt*/
if (tokeqword("%prompt"))
{
if (pass.fd == NULL_FD)
return "RSA private key file -- enter passphrase using 'ipsec secrets'";
pass.prompt = TRUE;
}
else
{
char *passphrase = tok;
size_t len = flp->cur - passphrase;
if (*tok == '"' || *tok == '\'') /* quoted passphrase */
{
passphrase++;
len -= 2;
}
if (len > PROMPT_PASS_LEN)
return "RSA private key file -- passphrase exceeds 64 characters";
memcpy(pass.secret, passphrase, len);
}
if (shift())
return "RSA private key file -- unexpected token after passphrase";
}
return load_rsa_private_key(filename, &pass, rsak);
}
/*
* process xauth secret read from ipsec.secrets
*/
static err_t
process_xauth(secret_t *s)
{
chunk_t user_name;
s->kind = PPK_XAUTH;
if (!shift())
return "missing xauth user name";
if (*tok == '"' || *tok == '\'') /* quoted user name */
{
user_name.ptr = tok + 1;
user_name.len = flp->cur - tok - 2;
}
else
{
user_name.ptr = tok;
user_name.len = flp->cur - tok;
}
plog(" loaded xauth credentials of user '%.*s'"
, user_name.len
, user_name.ptr);
clonetochunk(s->u.xauth_secret.user_name
, user_name.ptr, user_name.len, "xauth user name");
if (!shift())
return "missing xauth user password";
return process_psk_secret(&s->u.xauth_secret.user_password);
}
/* get XAUTH secret from chained secrets lists
* only one entry is currently supported
*/
static bool
xauth_get_secret(xauth_t *xauth_secret)
{
secret_t *s;
bool found = FALSE;
for (s = secrets; s != NULL; s = s->next)
{
if (s->kind == PPK_XAUTH)
{
if (found)
{
plog("found multiple xauth secrets - first selected");
}
else
{
found = TRUE;
*xauth_secret = s->u.xauth_secret;
}
}
}
return found;
}
/*
* find a matching secret
*/
static bool
xauth_verify_secret(const char *conn_name, const xauth_t *xauth_secret)
{
bool found = FALSE;
secret_t *s;
for (s = secrets; s != NULL; s = s->next)
{
if (s->kind == PPK_XAUTH)
{
if (!same_chunk(xauth_secret->user_name, s->u.xauth_secret.user_name))
continue;
found = TRUE;
if (same_chunk(xauth_secret->user_password, s->u.xauth_secret.user_password))
return TRUE;
}
}
plog("xauth user '%.*s' %s"
, xauth_secret->user_name.len, xauth_secret->user_name.ptr
, found? "sent wrong password":"not found");
return FALSE;
}
/*
* the global xauth_module struct is defined here
*/
xauth_module_t xauth_module;
/*
* assign the default xauth functions to any null function pointers
*/
void
xauth_defaults(void)
{
if (xauth_module.get_secret == NULL)
{
DBG(DBG_CONTROL,
DBG_log("xauth module: using default get_secret() function")
)
xauth_module.get_secret = xauth_get_secret;
}
if (xauth_module.verify_secret == NULL)
{
DBG(DBG_CONTROL,
DBG_log("xauth module: using default verify_secret() function")
)
xauth_module.verify_secret = xauth_verify_secret;
}
};
/*
* process pin read from ipsec.secrets or prompted for it using whack
*/
static err_t
process_pin(secret_t *s, int whackfd)
{
smartcard_t *sc;
const char *pin_status = "no pin";
s->kind = PPK_PIN;
/* looking for the smartcard keyword */
if (!shift() || strncmp(tok, SCX_TOKEN, strlen(SCX_TOKEN)) != 0)
return "PIN keyword must be followed by %smartcard<reader>:<id>";
sc = scx_add(scx_parse_number_slot_id(tok + strlen(SCX_TOKEN)));
s->u.smartcard = sc;
scx_share(sc);
if (sc->pin.ptr != NULL)
{
scx_release_context(sc);
scx_free_pin(&sc->pin);
}
sc->valid = FALSE;
if (!shift())
return "PIN statement must be terminated either by <pin code>, %pinpad or %prompt";
if (tokeqword("%prompt"))
{
shift();
/* if whackfd exists, whack will be used to prompt for a pin */
if (whackfd != NULL_FD)
pin_status = scx_get_pin(sc, whackfd) ? "valid pin" : "invalid pin";
else
pin_status = "pin entry via prompt";
}
else if (tokeqword("%pinpad"))
{
shift();
/* pin will be entered via pin pad during verification */
clonetochunk(sc->pin, "", 0, "empty pin");
sc->pinpad = TRUE;
sc->valid = TRUE;
pin_status = "pin entry via pad";
if (pkcs11_keep_state)
scx_verify_pin(sc);
}
else
{
/* we read the pin directly from ipsec.secrets */
err_t ugh = process_psk_secret(&sc->pin);
if (ugh != NULL)
return ugh;
/* verify the pin */
pin_status = scx_verify_pin(sc) ? "valid PIN" : "invalid PIN";
}
#ifdef SMARTCARD
{
char buf[BUF_LEN];
if (sc->any_slot)
snprintf(buf, BUF_LEN, "any slot");
else
snprintf(buf, BUF_LEN, "slot: %lu", sc->slot);
plog(" %s for #%d (%s, id: %s)"
, pin_status, sc->number, scx_print_slot(sc, ""), sc->id);
}
#else
plog(" warning: SMARTCARD support is deactivated in pluto/Makefile!");
#endif
return NULL;
}
static void
process_secret(secret_t *s, int whackfd)
{
err_t ugh = NULL;
s->kind = PPK_PSK; /* default */
if (*tok == '"' || *tok == '\'')
{
/* old PSK format: just a string */
ugh = process_psk_secret(&s->u.preshared_secret);
}
else if (tokeqword("psk"))
{
/* preshared key: quoted string or ttodata format */
ugh = !shift()? "unexpected end of record in PSK"
: process_psk_secret(&s->u.preshared_secret);
}
else if (tokeqword("rsa"))
{
/* RSA key: the fun begins.
* A braced list of keyword and value pairs.
*/
s->kind = PPK_RSA;
if (!shift())
{
ugh = "bad RSA key syntax";
}
else if (tokeq("{"))
{
ugh = process_rsa_secret(&s->u.RSA_private_key);
}
else
{
ugh = process_rsa_keyfile(&s->u.RSA_private_key, whackfd);
}
}
else if (tokeqword("xauth"))
{
ugh = process_xauth(s);
}
else if (tokeqword("pin"))
{
ugh = process_pin(s, whackfd);
}
else
{
ugh = builddiag("unrecognized key format: %s", tok);
}
if (ugh != NULL)
{
loglog(RC_LOG_SERIOUS, "\"%s\" line %d: %s"
, flp->filename, flp->lino, ugh);
pfree(s);
}
else if (flushline("expected record boundary in key"))
{
/* gauntlet has been run: install new secret */
lock_certs_and_keys("process_secret");
s->next = secrets;
secrets = s;
unlock_certs_and_keys("process_secrets");
}
}
static void process_secrets_file(const char *file_pat, int whackfd); /* forward declaration */
static void
process_secret_records(int whackfd)
{
/* read records from ipsec.secrets and load them into our table */
for (;;)
{
(void)flushline(NULL); /* silently ditch leftovers, if any */
if (flp->bdry == B_file)
break;
flp->bdry = B_none; /* eat the Record Boundary */
(void)shift(); /* get real first token */
if (tokeqword("include"))
{
/* an include directive */
char fn[MAX_TOK_LEN]; /* space for filename (I hope) */
char *p = fn;
char *end_prefix = strrchr(flp->filename, '/');
if (!shift())
{
loglog(RC_LOG_SERIOUS, "\"%s\" line %d: unexpected end of include directive"
, flp->filename, flp->lino);
continue; /* abandon this record */
}
/* if path is relative and including file's pathname has
* a non-empty dirname, prefix this path with that dirname.
*/
if (tok[0] != '/' && end_prefix != NULL)
{
size_t pl = end_prefix - flp->filename + 1;
/* "clamp" length to prevent problems now;
* will be rediscovered and reported later.
*/
if (pl > sizeof(fn))
pl = sizeof(fn);
memcpy(fn, flp->filename, pl);
p += pl;
}
if (flp->cur - tok >= &fn[sizeof(fn)] - p)
{
loglog(RC_LOG_SERIOUS, "\"%s\" line %d: include pathname too long"
, flp->filename, flp->lino);
continue; /* abandon this record */
}
strcpy(p, tok);
(void) shift(); /* move to Record Boundary, we hope */
if (flushline("ignoring malformed INCLUDE -- expected Record Boundary after filename"))
{
process_secrets_file(fn, whackfd);
tok = NULL; /* correct, but probably redundant */
}
}
else
{
/* expecting a list of indices and then the key info */
secret_t *s = alloc_thing(secret_t, "secret");
s->ids = NULL;
s->kind = PPK_PSK; /* default */
setchunk(s->u.preshared_secret, NULL, 0);
s->next = NULL;
for (;;)
{
if (tok[0] == '"' || tok[0] == '\'')
{
/* found key part */
process_secret(s, whackfd);
break;
}
else if (tokeq(":"))
{
/* found key part */
shift(); /* discard explicit separator */
process_secret(s, whackfd);
break;
}
else
{
/* an id
* See RFC2407 IPsec Domain of Interpretation 4.6.2
*/
struct id id;
err_t ugh;
if (tokeq("%any"))
{
id = empty_id;
id.kind = ID_IPV4_ADDR;
ugh = anyaddr(AF_INET, &id.ip_addr);
}
else if (tokeq("%any6"))
{
id = empty_id;
id.kind = ID_IPV6_ADDR;
ugh = anyaddr(AF_INET6, &id.ip_addr);
}
else
{
ugh = atoid(tok, &id, FALSE);
}
if (ugh != NULL)
{
loglog(RC_LOG_SERIOUS
, "ERROR \"%s\" line %d: index \"%s\" %s"
, flp->filename, flp->lino, tok, ugh);
}
else
{
id_list_t *i = alloc_thing(id_list_t
, "id_list");
i->id = id;
unshare_id_content(&i->id);
i->next = s->ids;
s->ids = i;
/* DBG_log("id type %d: %s %.*s", i->kind, ip_str(&i->ip_addr), (int)i->name.len, i->name.ptr); */
}
if (!shift())
{
/* unexpected Record Boundary or EOF */
loglog(RC_LOG_SERIOUS, "\"%s\" line %d: unexpected end of id list"
, flp->filename, flp->lino);
break;
}
}
}
}
}
}
static int
globugh(const char *epath, int eerrno)
{
log_errno_routine(eerrno, "problem with secrets file \"%s\"", epath);
return 1; /* stop glob */
}
static void
process_secrets_file(const char *file_pat, int whackfd)
{
struct file_lex_position pos;
char **fnp;
glob_t globbuf;
pos.depth = flp == NULL? 0 : flp->depth + 1;
if (pos.depth > 10)
{
loglog(RC_LOG_SERIOUS, "preshared secrets file \"%s\" nested too deeply", file_pat);
return;
}
/* do globbing */
{
int r = glob(file_pat, GLOB_ERR, globugh, &globbuf);
if (r != 0)
{
switch (r)
{
case GLOB_NOSPACE:
loglog(RC_LOG_SERIOUS, "out of space processing secrets filename \"%s\"", file_pat);
break;
case GLOB_ABORTED:
break; /* already logged */
case GLOB_NOMATCH:
loglog(RC_LOG_SERIOUS, "no secrets filename matched \"%s\"", file_pat);
break;
default:
loglog(RC_LOG_SERIOUS, "unknown glob error %d", r);
break;
}
globfree(&globbuf);
return;
}
}
/* for each file... */
for (fnp = globbuf.gl_pathv; *fnp != NULL; fnp++)
{
if (lexopen(&pos, *fnp, FALSE))
{
plog("loading secrets from \"%s\"", *fnp);
(void) flushline("file starts with indentation (continuation notation)");
process_secret_records(whackfd);
lexclose();
}
}
globfree(&globbuf);
}
void
free_preshared_secrets(void)
{
lock_certs_and_keys("free_preshared_secrets");
if (secrets != NULL)
{
secret_t *s, *ns;
plog("forgetting secrets");
for (s = secrets; s != NULL; s = ns)
{
id_list_t *i, *ni;
ns = s->next; /* grab before freeing s */
for (i = s->ids; i != NULL; i = ni)
{
ni = i->next; /* grab before freeing i */
free_id_content(&i->id);
pfree(i);
}
switch (s->kind)
{
case PPK_PSK:
pfree(s->u.preshared_secret.ptr);
break;
case PPK_RSA:
free_RSA_private_content(&s->u.RSA_private_key);
break;
case PPK_XAUTH:
pfree(s->u.xauth_secret.user_name.ptr);
pfree(s->u.xauth_secret.user_password.ptr);
break;
case PPK_PIN:
scx_release(s->u.smartcard);
break;
default:
bad_case(s->kind);
}
pfree(s);
}
secrets = NULL;
}
unlock_certs_and_keys("free_preshard_secrets");
}
void
load_preshared_secrets(int whackfd)
{
free_preshared_secrets();
(void) process_secrets_file(shared_secrets_file, whackfd);
}
/* public key machinery
* Note: caller must set dns_auth_level.
*/
pubkey_t *
public_key_from_rsa(const RSA_public_key_t *k)
{
pubkey_t *p = alloc_thing(pubkey_t, "pubkey");
p->id = empty_id; /* don't know, doesn't matter */
p->issuer = empty_chunk;
p->serial = empty_chunk;
p->alg = PUBKEY_ALG_RSA;
memcpy(p->u.rsa.keyid, k->keyid, sizeof(p->u.rsa.keyid));
p->u.rsa.k = k->k;
mpz_init_set(&p->u.rsa.e, &k->e);
mpz_init_set(&p->u.rsa.n, &k->n);
/* note that we return a 1 reference count upon creation:
* invariant: recount > 0.
*/
p->refcnt = 1;
time(&p->installed_time);
return p;
}
/* Free a public key record.
* As a convenience, this returns a pointer to next.
*/
pubkey_list_t *
free_public_keyentry(pubkey_list_t *p)
{
pubkey_list_t *nxt = p->next;
if (p->key != NULL)
unreference_key(&p->key);
pfree(p);
return nxt;
}
void
free_public_keys(pubkey_list_t **keys)
{
while (*keys != NULL)
*keys = free_public_keyentry(*keys);
}
/* root of chained public key list */
pubkey_list_t *pubkeys = NULL; /* keys from ipsec.conf */
void
free_remembered_public_keys(void)
{
free_public_keys(&pubkeys);
}
/* transfer public keys from *keys list to front of pubkeys list */
void
transfer_to_public_keys(struct gw_info *gateways_from_dns
#ifdef USE_KEYRR
, pubkey_list_t **keys
#endif /* USE_KEYRR */
)
{
{
struct gw_info *gwp;
for (gwp = gateways_from_dns; gwp != NULL; gwp = gwp->next)
{
pubkey_list_t *pl = alloc_thing(pubkey_list_t, "from TXT");
pl->key = gwp->key; /* note: this is a transfer */
gwp->key = NULL; /* really, it is! */
pl->next = pubkeys;
pubkeys = pl;
}
}
#ifdef USE_KEYRR
{
pubkey_list_t **pp = keys;
while (*pp != NULL)
pp = &(*pp)->next;
*pp = pubkeys;
pubkeys = *keys;
*keys = NULL;
}
#endif /* USE_KEYRR */
}
/* decode of RSA pubkey chunk
* - format specified in RFC 2537 RSA/MD5 Keys and SIGs in the DNS
* - exponent length in bytes (1 or 3 octets)
* + 1 byte if in [1, 255]
* + otherwise 0x00 followed by 2 bytes of length
* - exponent
* - modulus
*/
err_t
unpack_RSA_public_key(RSA_public_key_t *rsa, const chunk_t *pubkey)
{
chunk_t exp;
chunk_t mod;
if (pubkey->len < 3)
return "RSA public key blob way to short"; /* not even room for length! */
if (pubkey->ptr[0] != 0x00)
{
setchunk(exp, pubkey->ptr + 1, pubkey->ptr[0]);
}
else
{
setchunk(exp, pubkey->ptr + 3
, (pubkey->ptr[1] << BITS_PER_BYTE) + pubkey->ptr[2]);
}
if (pubkey->len - (exp.ptr - pubkey->ptr) < exp.len + RSA_MIN_OCTETS_RFC)
return "RSA public key blob too short";
mod.ptr = exp.ptr + exp.len;
mod.len = &pubkey->ptr[pubkey->len] - mod.ptr;
if (mod.len < RSA_MIN_OCTETS)
return RSA_MIN_OCTETS_UGH;
if (mod.len > RSA_MAX_OCTETS)
return RSA_MAX_OCTETS_UGH;
init_RSA_public_key(rsa, exp, mod);
rsa->k = mpz_sizeinbase(&rsa->n, 2); /* size in bits, for a start */
rsa->k = (rsa->k + BITS_PER_BYTE - 1) / BITS_PER_BYTE; /* now octets */
DBG(DBG_RAW,
RSA_show_public_key(rsa)
)
if (rsa->k != mod.len)
{
mpz_clear(&rsa->e);
mpz_clear(&rsa->n);
return "RSA modulus shorter than specified";
}
return NULL;
}
static void
install_public_key(pubkey_t *pk, pubkey_list_t **head)
{
pubkey_list_t *p = alloc_thing(pubkey_list_t, "pubkey entry");
unshare_id_content(&pk->id);
/* copy issuer dn */
if (pk->issuer.ptr != NULL)
pk->issuer.ptr = clone_bytes(pk->issuer.ptr, pk->issuer.len, "issuer dn");
/* copy serial number */
if (pk->serial.ptr != NULL)
pk->serial.ptr = clone_bytes(pk->serial.ptr, pk->serial.len, "serialNumber");
/* store the time the public key was installed */
time(&pk->installed_time);
/* install new key at front */
p->key = reference_key(pk);
p->next = *head;
*head = p;
}
void
delete_public_keys(const struct id *id, enum pubkey_alg alg
, chunk_t issuer, chunk_t serial)
{
pubkey_list_t **pp, *p;
pubkey_t *pk;
for (pp = &pubkeys; (p = *pp) != NULL; )
{
pk = p->key;
if (same_id(id, &pk->id) && pk->alg == alg
&& (issuer.ptr == NULL || pk->issuer.ptr == NULL
|| same_dn(issuer, pk->issuer))
&& same_serial(serial, pk->serial))
*pp = free_public_keyentry(p);
else
pp = &p->next;
}
}
pubkey_t *
reference_key(pubkey_t *pk)
{
pk->refcnt++;
return pk;
}
void
unreference_key(pubkey_t **pkp)
{
pubkey_t *pk = *pkp;
char b[BUF_LEN];
if (pk == NULL)
return;
/* print stuff */
DBG(DBG_CONTROLMORE,
idtoa(&pk->id, b, sizeof(b));
DBG_log("unreference key: %p %s cnt %d--", pk, b, pk->refcnt)
)
/* cancel out the pointer */
*pkp = NULL;
passert(pk->refcnt != 0);
pk->refcnt--;
if (pk->refcnt == 0)
free_public_key(pk);
}
err_t
add_public_key(const struct id *id
, enum dns_auth_level dns_auth_level
, enum pubkey_alg alg
, const chunk_t *key
, pubkey_list_t **head)
{
pubkey_t *pk = alloc_thing(pubkey_t, "pubkey");
/* first: algorithm-specific decoding of key chunk */
switch (alg)
{
case PUBKEY_ALG_RSA:
{
err_t ugh = unpack_RSA_public_key(&pk->u.rsa, key);
if (ugh != NULL)
{
pfree(pk);
return ugh;
}
}
break;
default:
bad_case(alg);
}
pk->id = *id;
pk->dns_auth_level = dns_auth_level;
pk->alg = alg;
pk->until_time = UNDEFINED_TIME;
pk->issuer = empty_chunk;
pk->serial = empty_chunk;
install_public_key(pk, head);
return NULL;
}
/* extract id and public key from x.509 certificate and
* insert it into a pubkeyrec
*/
void
add_x509_public_key(x509cert_t *cert , time_t until
, enum dns_auth_level dns_auth_level)
{
generalName_t *gn;
pubkey_t *pk;
cert_t c = { CERT_X509_SIGNATURE, {cert} };
/* we support RSA only */
if (cert->subjectPublicKeyAlgorithm != PUBKEY_ALG_RSA)
return;
/* ID type: ID_DER_ASN1_DN (X.509 subject field) */
pk = allocate_RSA_public_key(c);
pk->id.kind = ID_DER_ASN1_DN;
pk->id.name = cert->subject;
pk->dns_auth_level = dns_auth_level;
pk->until_time = until;
pk->issuer = cert->issuer;
pk->serial = cert->serialNumber;
delete_public_keys(&pk->id, pk->alg, pk->issuer, pk->serial);
install_public_key(pk, &pubkeys);
gn = cert->subjectAltName;
while (gn != NULL) /* insert all subjectAltNames */
{
struct id id = empty_id;
gntoid(&id, gn);
if (id.kind != ID_NONE)
{
pk = allocate_RSA_public_key(c);
pk->id = id;
pk->dns_auth_level = dns_auth_level;
pk->until_time = until;
pk->issuer = cert->issuer;
pk->serial = cert->serialNumber;
delete_public_keys(&pk->id, pk->alg, pk->issuer, pk->serial);
install_public_key(pk, &pubkeys);
}
gn = gn->next;
}
}
/* extract id and public key from OpenPGP certificate and
* insert it into a pubkeyrec
*/
void
add_pgp_public_key(pgpcert_t *cert , time_t until
, enum dns_auth_level dns_auth_level)
{
pubkey_t *pk;
cert_t c;
c.type = CERT_PGP;
c.u.pgp = cert;
/* we support RSA only */
if (cert->pubkeyAlg != PUBKEY_ALG_RSA)
{
plog(" RSA public keys supported only");
return;
}
pk = allocate_RSA_public_key(c);
pk->id.kind = ID_KEY_ID;
pk->id.name.ptr = cert->fingerprint;
pk->id.name.len = PGP_FINGERPRINT_SIZE;
pk->dns_auth_level = dns_auth_level;
pk->until_time = until;
delete_public_keys(&pk->id, pk->alg, empty_chunk, empty_chunk);
install_public_key(pk, &pubkeys);
}
/* when a X.509 certificate gets revoked, all instances of
* the corresponding public key must be removed
*/
void
remove_x509_public_key(const x509cert_t *cert)
{
const cert_t c = {CERT_X509_SIGNATURE, {cert}};
pubkey_list_t *p, **pp;
pubkey_t *revoked_pk;
revoked_pk = allocate_RSA_public_key(c);
p = pubkeys;
pp = &pubkeys;
while(p != NULL)
{
if (same_RSA_public_key(&p->key->u.rsa, &revoked_pk->u.rsa))
{
/* remove p from list and free memory */
*pp = free_public_keyentry(p);
loglog(RC_LOG_SERIOUS,
"invalid RSA public key deleted");
}
else
{
pp = &p->next;
}
p =*pp;
}
free_public_key(revoked_pk);
}
/*
* list all public keys in the chained list
*/
void list_public_keys(bool utc)
{
pubkey_list_t *p = pubkeys;
if (p != NULL)
{
whack_log(RC_COMMENT, " ");
whack_log(RC_COMMENT, "List of Public Keys:");
whack_log(RC_COMMENT, " ");
}
while (p != NULL)
{
pubkey_t *key = p->key;
if (key->alg == PUBKEY_ALG_RSA)
{
char buf[BUF_LEN];
char expires_buf[TIMETOA_BUF];
idtoa(&key->id, buf, BUF_LEN);
strcpy(expires_buf, timetoa(&key->until_time, utc));
whack_log(RC_COMMENT, "%s, %4d RSA Key %s, until %s %s",
timetoa(&key->installed_time, utc), 8*key->u.rsa.k, key->u.rsa.keyid,
expires_buf,
check_expiry(key->until_time, PUBKEY_WARNING_INTERVAL, TRUE));
whack_log(RC_COMMENT," %s '%s'",
enum_show(&ident_names, key->id.kind), buf);
if (key->issuer.len > 0)
{
dntoa(buf, BUF_LEN, key->issuer);
whack_log(RC_COMMENT," issuer: '%s'", buf);
}
if (key->serial.len > 0)
{
datatot(key->serial.ptr, key->serial.len, ':'
, buf, BUF_LEN);
whack_log(RC_COMMENT," serial: %s", buf);
}
}
p = p->next;
}
}
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