1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
|
//
// Copyright 2017 Garrett D'Amore <garrett@damore.org>
//
// This software is supplied under the terms of the MIT License, a
// copy of which should be located in the distribution where this
// file was obtained (LICENSE.txt). A copy of the license may also be
// found online at https://opensource.org/licenses/MIT.
//
#ifndef CORE_PROTOCOL_H
#define CORE_PROTOCOL_H
// Protocol implementation details. Protocols must implement the
// interfaces in this file. Note that implementing new protocols is
// not necessarily intended to be a trivial task. The protocol developer
// must understand the nature of nng, as they are responsible for handling
// most of the logic. The protocol generally does most of the work for
// locking, and calls into the transport's pipe functions to do actual
// work, and the pipe functions generally assume no locking is needed.
// As a consequence, most of the concurrency in nng exists in the protocol
// implementations.
// nni_proto_pipe contains protocol-specific per-pipe operations.
struct nni_proto_pipe_ops {
// pipe_init creates the protocol-specific per pipe data structure.
// The last argument is the per-socket protocol private data.
int (*pipe_init)(void **, nni_pipe *, void *);
// pipe_fini releases any pipe data structures. This is called after
// the pipe has been removed from the protocol, and the generic
// pipe threads have been stopped.
void (*pipe_fini)(void *);
// pipe_start is called to register a pipe with the protocol. The
// protocol can reject this, for example if another pipe is already
// active on a 1:1 protocol. The protocol may not block during this,
// as the socket lock is held.
int (*pipe_start)(void *);
// pipe_stop is called to unregister a pipe from the protocol.
// Threads may still acccess data structures, so the protocol
// should not free anything yet. This is called with the socket
// lock held, so the protocol may not call back into the socket, and
// must not block. This operation must be idempotent, and may
// be called even if pipe_start was not.
void (*pipe_stop)(void *);
};
struct nni_proto_sock_ops {
// sock_initf creates the protocol instance, which will be stored on
// the socket. This is run without the sock lock held, and allocates
// storage or other resources for the socket.
int (*sock_init)(void **, nni_sock *);
// sock_fini destroys the protocol instance. This is run without the
// socket lock held, and is intended to release resources. It may
// block as needed.
void (*sock_fini)(void *);
// Open the protocol instance. This is run with the lock held,
// and intended to allow the protocol to start any asynchronous
// processing.
void (*sock_open)(void *);
// Close the protocol instance. This is run with the lock held,
// and intended to initiate closure of the socket. For example,
// it can signal the socket worker threads to exit.
void (*sock_close)(void *);
// Option manipulation. These may be NULL.
int (*sock_setopt)(void *, int, const void *, size_t);
int (*sock_getopt)(void *, int, void *, size_t *);
// Receive filter. This may be NULL, but if it isn't, then
// messages coming into the system are routed here just before being
// delivered to the application. To drop the message, the prtocol
// should return NULL, otherwise the message (possibly modified).
nni_msg *(*sock_rfilter)(void *, nni_msg *);
// Send filter. This may be NULL, but if it isn't, then messages
// here are filtered just after they come from the application.
nni_msg *(*sock_sfilter)(void *, nni_msg *);
};
struct nni_proto {
uint16_t proto_self; // our 16-bit D
uint16_t proto_peer; // who we peer with (ID)
const char * proto_name; // Our name
uint32_t proto_flags; // Protocol flags
const nni_proto_sock_ops *proto_sock_ops; // Per-socket opeations
const nni_proto_pipe_ops *proto_pipe_ops; // Per-pipe operations.
};
// These flags determine which operations make sense. We use them so that
// we can reject attempts to create notification fds for operations that make
// no sense.
#define NNI_PROTO_FLAG_RCV 1 // Protocol can receive
#define NNI_PROTO_FLAG_SND 2 // Protocol can send
#define NNI_PROTO_FLAG_SNDRCV 3 // Protocol can both send & recv
// These functions are not used by protocols, but rather by the socket
// core implementation. The lookups can be used by transports as well.
extern nni_proto * nni_proto_find(uint16_t);
extern const char *nni_proto_name(uint16_t);
extern uint16_t nni_proto_number(const char *);
extern uint16_t nni_proto_peer(uint16_t);
#endif // CORE_PROTOCOL_H
|
