* marshal.h - SKS compatible marshalling routines
*
* Copyright 2011 Jonathan McDowell <noodles@earth.li>
+ *
+ * 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; version 2 of the License.
+ *
+ * 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.
+ *
+ * You should have received a copy of the GNU General Public License along with
+ * this program. If not, see <https://www.gnu.org/licenses/>.
*/
#ifndef __MARSHAL_H__
* a 32 bit size of the forthcoming data in network byte order and
* then the flattened byte representation of the key.
*/
-void marshal_publickey(int (*putchar_func)(void *ctx, size_t count,
+void marshal_publickey(size_t (*putchar_func)(void *ctx, size_t count,
void *c),
void *ctx,
const struct openpgp_publickey *key);
* Returns an OpenPGP structure which is the unmarshalled result of
* the input byte stream - ie the inverse of marshal_publickey.
*/
-struct openpgp_publickey *unmarshal_publickey(int (*getchar_func)(void *ctx,
+struct openpgp_publickey *unmarshal_publickey(size_t (*getchar_func)(void *ctx,
size_t count,
void *c),
void *ctx);
* a 32 bit size of the forthcoming data (16 bytes) in network byte order
* and then the byte representation of the hash.
*/
-void marshal_skshash(int (*putchar_func)(void *ctx, size_t count,
+void marshal_skshash(size_t (*putchar_func)(void *ctx, size_t count,
void *c),
void *ctx,
const struct skshash *hash);
* Returns an SKS hash structure which is the unmarshalled result of
* the input byte stream - ie the inverse of marshal_skshash.
*/
-struct skshash *unmarshal_skshash(int (*getchar_func)(void *ctx, size_t count,
+struct skshash *unmarshal_skshash(size_t (*getchar_func)(void *ctx, size_t count,
void *c),
void *ctx);
* Takes a string and marshals it to a byte stream - writes a 32 bit size
* of the forthcoming data in network byte order and then the string.
*/
-void marshal_string(int (*putchar_func)(void *ctx, size_t count,
+void marshal_string(size_t (*putchar_func)(void *ctx, size_t count,
void *c),
void *ctx,
const char *string);
* Returns a string which is the unmarshalled result of the input byte
* stream - ie the inverse of marshal_string.
*/
-char *unmarshal_string(int (*getchar_func)(void *ctx, size_t count,
+char *unmarshal_string(size_t (*getchar_func)(void *ctx, size_t count,
void *c),
void *ctx);
* calls marshal_func for each element in the array to provide the
* marshalled contents.
*/
-void marshal_array(int (*putchar_func)(void *ctx, size_t count,
+void marshal_array(size_t (*putchar_func)(void *ctx, size_t count,
void *c),
void *ctx,
- void (*marshal_func)(int
+ void (*marshal_func)(size_t
(*putchar_func)(void *ctx,
size_t count, void *c),
void *ctx, const void *item),
* as determined by the supplied unmarshal_func function. ie the reverse
* of marshal_array.
*/
-void **unmarshal_array(int (*getchar_func)(void *ctx, size_t count,
+void **unmarshal_array(size_t (*getchar_func)(void *ctx, size_t count,
void *c),
void *ctx,
- void *(*unmarshal_func)(int
+ void *(*unmarshal_func)(size_t
(*getchar_func)(void *ctx,
size_t count, void *c),
void *ctx),