serval-dna/meshms.h
Jeremy Lakeman 16a14269af Encrypt payloads without needing a sender
- reworked keyring identity handling to reduce memory searching
2016-05-31 12:50:32 +09:30

197 lines
7.3 KiB
C

/*
Serval DNA MeshMS
Copyright (C) 2014 Serval Project Inc.
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.
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, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#ifndef __SERVAL_DNA__MESHMS_H
#define __SERVAL_DNA__MESHMS_H
#ifndef __MESHMS_INLINE
# if __GNUC__ && !__GNUC_STDC_INLINE__
# define __MESHMS_INLINE extern inline
# else
# define __MESHMS_INLINE inline
# endif
#endif
#include "rhizome.h"
#define MESHMS_MESSAGE_MAX_LEN 4095
/* The result of a MeshMS operation. Negative indicates failure, zero or
* positive success.
*/
enum meshms_status {
MESHMS_STATUS_ERROR = -1, // unexpected error (underlying failure)
MESHMS_STATUS_OK = 0, // operation succeeded, no bundle changed
MESHMS_STATUS_UPDATED = 1, // operation succeeded, bundle updated
MESHMS_STATUS_SID_LOCKED = 2, // cannot decode or send messages for that SID
MESHMS_STATUS_PROTOCOL_FAULT = 3, // missing or faulty ply bundle
};
__MESHMS_INLINE int meshms_failed(enum meshms_status status) {
return status != MESHMS_STATUS_OK && status != MESHMS_STATUS_UPDATED;
}
const char *meshms_status_message(enum meshms_status);
// the manifest details for one half of a conversation
struct meshms_ply {
rhizome_bid_t bundle_id;
uint64_t version;
uint64_t tail;
uint64_t size;
uint8_t found;
};
struct meshms_conversations {
struct meshms_conversations *_next;
// who are we talking to?
sid_t them;
struct meshms_ply my_ply;
struct meshms_ply their_ply;
// what is the offset of their last message
uint64_t their_last_message;
// what is the last message we marked as read
uint64_t read_offset;
// our cached value for the last known size of their ply
uint64_t their_size;
};
// cursor state for reading one half of a conversation
struct meshms_ply_read {
// rhizome payload
struct rhizome_read read;
// block buffer
struct rhizome_read_buffer buff;
// details of the current record
uint64_t record_end_offset;
uint16_t record_length;
size_t record_size;
char type;
// raw record data
unsigned char *record;
};
/* Fetch the list of all MeshMS conversations into a binary tree whose nodes
* are all allocated by malloc(3).
*/
enum meshms_status meshms_conversations_list(const struct keyring_identity *id, const sid_t *my_sid, const sid_t *their_sid, struct meshms_conversations **conv);
void meshms_free_conversations(struct meshms_conversations *conv);
/* For iterating over a binary tree of all MeshMS conversations, as created by
* meshms_conversations_list().
*
* struct meshms_conversation_iterator it;
* meshms_conversation_iterator_start(&it, conv);
* while (it.current) {
* ...
* meshms_conversation_iterator_advance(&it);
* }
*/
struct meshms_conversation_iterator {
struct meshms_conversations *current;
};
void meshms_conversation_iterator_start(struct meshms_conversation_iterator *, struct meshms_conversations *);
void meshms_conversation_iterator_advance(struct meshms_conversation_iterator *);
/* For iterating through the messages in a single MeshMS conversation; both
* plys threaded (interleaved) in the order as seen by the sender. The
* meshms_message_iterator_prev() function returns MESHMS_STATUS_UPDATED if it
* advances the iterator to a message, or MESHMS_STATUS_OK if there are no more
* messages. Any other return value indicates failure.
*
* struct meshms_message_iterator it;
* enum meshms_status status;
* if (meshms_failed(status = meshms_message_iterator_open(&it, &sender_sid, &recip_sid)))
* return -1;
* while ((status = meshms_message_iterator_prev(&it)) == MESHMS_STATUS_UPDATED) {
* ...
* }
* meshms_message_iterator_close(&it);
* if (meshms_failed(status))
* return -1;
* ...
*/
struct meshms_message_iterator {
// Public fields that remain fixed for the life of the iterator:
struct keyring_identity *identity;
const sid_t *my_sid;
const sid_t *their_sid;
const rhizome_bid_t *my_ply_bid;
const rhizome_bid_t *their_ply_bid;
uint64_t latest_ack_offset; // offset in remote (their) ply of most recent ACK
uint64_t latest_ack_my_offset; // offset in my ply of most recent message ACKed by them
uint64_t read_offset; // offset in remote (their) ply of most recent message read by me
// The following public fields change per message:
enum meshms_which_ply { NEITHER_PLY, MY_PLY, THEIR_PLY } which_ply;
enum { MESSAGE_SENT, MESSAGE_RECEIVED, ACK_RECEIVED } type;
// For MESSAGE_SENT 'offset' is the byte position within the local ply
// (mine). For MESSAGE_RECEIVED and ACK_RECEIVED, it is the byte position
// within the remote ply (theirs).
time_s_t timestamp;
uint64_t offset;
const char *text; // text of UTF8 message (NUL terminated)
size_t text_length; // excluding terminating NUL
union {
bool_t delivered; // for MESSAGE_SENT
bool_t read; // for MESSAGE_RECEIVED
uint64_t ack_offset; // for ACK_RECEIVED
};
// Private implementation -- could change, so don't use them.
sid_t _my_sid;
struct meshms_conversations *_conv;
rhizome_manifest *_my_manifest;
rhizome_manifest *_their_manifest;
struct meshms_ply_read _my_reader;
struct meshms_ply_read _their_reader;
uint64_t _end_range;
bool_t _in_ack;
};
enum meshms_status meshms_message_iterator_open(struct meshms_message_iterator *, const sid_t *me, const sid_t *them);
int meshms_message_iterator_is_open(const struct meshms_message_iterator *);
void meshms_message_iterator_close(struct meshms_message_iterator *);
enum meshms_status meshms_message_iterator_prev(struct meshms_message_iterator *);
/* Append a message ('message_len' bytes of UTF8 at 'message') to the sender's
* ply in the conversation between 'sender' and 'recipient'. If no
* conversation (ply bundle) exists, then create it. Returns
* MESHMS_STATUS_UPDATED on success, any other value indicates a failure or
* error (which is already logged).
*/
enum meshms_status meshms_send_message(const sid_t *sender, const sid_t *recipient, const char *message, size_t message_len);
/* Update the read offset for one or more conversations. Returns
* MESHMS_STATUS_UPDATED on success, any other value indicates a failure or
* error (which is already logged).
*
* If 'offset' is greater than a conversation's last-received offset, then it
* is clamped to the last-received offset. This means that passing an offset
* of UINT64_MAX will mark the conversation as fully read, and an offset of
* zero will have no effect.
*
* If 'recipient' is NULL then all of the sender's conversations are marked
* with the given read offset. In this case it only makes sense to pass an
* offest of UINT64_MAX.
*/
enum meshms_status meshms_mark_read(const sid_t *sender, const sid_t *recipient, uint64_t offset);
#endif // __SERVAL_DNA__MESHMS_H