size_t cksz, mksz; /* Key lengths for @c@ and @m@ */
} algswitch;
-extern algswitch algs;
+typedef struct kdata {
+ unsigned ref; /* Reference counter */
+ struct knode *kn; /* Pointer to cache entry */
+ char *tag; /* Full tag name of the key */
+ group *g; /* The group we work in */
+ size_t indexsz; /* Size of exponent for the group */
+ mp *kpriv; /* The private key (or null) */
+ ge *kpub; /* The public key */
+ time_t t_exp; /* Expiry time of the key */
+ algswitch algs; /* Collection of algorithms */
+} kdata;
+
+typedef struct knode {
+ sym_base _b; /* Symbol table intrusion */
+ unsigned f; /* Various flags */
+#define KNF_BROKEN 1u /* Don't use this key any more */
+ struct keyhalf *kh; /* Pointer to the home keyhalf */
+ kdata *kd; /* Pointer to the key data */
+} knode;
#define MAXHASHSZ 64 /* Largest possible hash size */
typedef struct keyexch {
struct peer *p; /* Pointer back to the peer */
+ kdata *kpriv; /* Private key and related info */
+ kdata *kpub; /* Peer's public key */
keyset **ks; /* Peer's list of keysets */
unsigned f; /* Various useful flags */
unsigned s; /* Current state in exchange */
sel_timer t; /* Timer for next exchange */
retry rs; /* Retry state */
- ge *kpub; /* Peer's public key */
- time_t texp_kpub; /* Expiry time for public key */
mp *alpha; /* My temporary secret */
ge *c; /* My challenge */
ge *rx; /* The expected response */
typedef struct peerspec {
char *name; /* Peer's name */
+ char *privtag; /* Private key tag */
char *tag; /* Public key tag */
const tunnel_ops *tops; /* Tunnel operations */
unsigned long t_ka; /* Keep alive interval */
/*----- Global variables --------------------------------------------------*/
extern sel_state sel; /* Global I/O event state */
-extern group *gg; /* The group we work in */
-extern size_t indexsz; /* Size of exponent for the group */
-extern mp *kpriv; /* Our private key */
-extern ge *kpub; /* Our public key */
extern octet buf_i[PKBUFSZ], buf_o[PKBUFSZ], buf_t[PKBUFSZ], buf_u[PKBUFSZ];
extern const tunnel_ops *tunnels[]; /* Table of tunnels (0-term) */
extern const tunnel_ops *tun_default; /* Default tunnel to use */
+extern kdata *master; /* Default private key */
+extern const char *tag_priv; /* Default private key tag */
#ifndef NTRACE
extern const trace_opt tr_opts[]; /* Trace options array */
/*----- Key management ----------------------------------------------------*/
+/* --- @km_init@ --- *
+ *
+ * Arguments: @const char *privkr@ = private keyring file
+ * @const char *pubkr@ = public keyring file
+ * @const char *ptag@ = default private-key tag
+ *
+ * Returns: ---
+ *
+ * Use: Initializes the key-management machinery, loading the
+ * keyrings and so on.
+ */
+
+extern void km_init(const char */*privkr*/, const char */*pubkr*/,
+ const char */*ptag*/);
+
/* --- @km_reload@ --- *
*
* Arguments: ---
extern int km_reload(void);
-/* --- @km_init@ --- *
+/* --- @km_findpub@, @km_findpriv@ --- *
+ *
+ * Arguments: @const char *tag@ = key tag to load
+ *
+ * Returns: Pointer to the kdata object if successful, or null on error.
+ *
+ * Use: Fetches a public or private key from the keyring.
+ */
+
+extern kdata *km_findpub(const char */*tag*/);
+extern kdata *km_findpriv(const char */*tag*/);
+
+/* --- @km_samealgsp@ --- *
+ *
+ * Arguments: @const kdata *kdx, *kdy@ = two key data objects
+ *
+ * Returns: Nonzero if their two algorithm selections are the same.
+ *
+ * Use: Checks sameness of algorithm selections: used to ensure that
+ * peers are using sensible algorithms.
+ */
+
+extern int km_samealgsp(const kdata */*kdx*/, const kdata */*kdy*/);
+
+/* --- @km_ref@ --- *
*
- * Arguments: @const char *kr_priv@ = private keyring file
- * @const char *kr_pub@ = public keyring file
- * @const char *tag@ = tag to load
+ * Arguments: @kdata *kd@ = pointer to the kdata object
*
* Returns: ---
*
- * Use: Initializes, and loads the private key.
+ * Use: Claim a new reference to a kdata object.
*/
-extern void km_init(const char */*kr_priv*/, const char */*kr_pub*/,
- const char */*tag*/);
+extern void km_ref(kdata */*kd*/);
-/* --- @km_getpubkey@ --- *
+/* --- @km_unref@ --- *
*
- * Arguments: @const char *tag@ = public key tag to load
- * @ge *kpub@ = where to put the public key
- * @time_t *t_exp@ = where to put the expiry time
+ * Arguments: @kdata *kd@ = pointer to the kdata object
*
- * Returns: Zero if OK, nonzero if it failed.
+ * Returns: ---
*
- * Use: Fetches a public key from the keyring.
+ * Use: Releases a reference to a kdata object.
*/
-extern int km_getpubkey(const char */*tag*/, ge */*kpub*/,
- time_t */*t_exp*/);
+extern void km_unref(kdata */*kd*/);
+
+/* --- @km_tag@ --- *
+ *
+ * Arguments: @kdata *kd@ - pointer to the kdata object
+ *
+ * Returns: A pointer to the short tag by which the kdata was loaded.
+ */
+
+extern const char *km_tag(kdata */*kd*/);
/*----- Key exchange ------------------------------------------------------*/
extern void a_vformat(dstr */*d*/, const char */*fmt*/, va_list /*ap*/);
+/* --- @a_format@ --- *
+ *
+ * Arguments: @dstr *d@ = where to leave the formatted message
+ * @const char *fmt@ = pointer to format string
+ *
+ * Returns: ---
+ *
+ * Use: Writes a tokenized message into a string, for later
+ * presentation.
+ */
+
+extern void a_format(dstr */*d*/, const char */*fmt*/, ...);
+
/* --- @a_warn@ --- *
*
* Arguments: @const char *fmt@ = pointer to format string
extern const char *p_tag(peer */*p*/);
+/* --- @p_privtag@ --- *
+ *
+ * Arguments: @peer *p@ = pointer to a peer block
+ *
+ * Returns: A pointer to the peer's private key tag.
+ */
+
+extern const char *p_privtag(peer */*p*/);
+
/* --- @p_spec@ --- *
*
* Arguments: @peer *p@ = pointer to a peer block