// // Copyright 2016 Garrett D'Amore // // 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_TRANSPORT_H #define CORE_TRANSPORT_H // Transport implementation details. Transports must implement the // interfaces in this file. struct nni_transport { // tran_scheme is the transport scheme, such as "tcp" or "inproc". const char * tran_scheme; // tran_ep_ops links our endpoint operations. const nni_endpt_ops * tran_ep_ops; // tran_init, if not NULL, is called once during library // initialization. int (*tran_init)(void); // tran_fini, if not NULL, is called during library deinitialization. // It should release any global resources, close any open files, etc. void (*tran_fini)(void); }; // Endpoint operations are called by the socket in a protocol-independent // fashion. The socket makes individual calls, which are expected to block // if appropriate (except for destroy). Endpoints are unable to call back // into the socket, to prevent recusive entry and deadlock. struct nni_endpt_ops { // ep_create creates a vanilla endpoint. The value created is // used for the first argument for all other endpoint functions. int (*ep_create)(void **, const char *, uint16_t); // ep_destroy frees the resources associated with the endpoint. // The endpoint will already have been closed. void (*ep_destroy)(void *); // ep_connect establishes a connection, and creates a new pipe, // which is returned in the final argument. It can return errors // NNG_EACCESS, NNG_ECONNREFUSED, NNG_EBADADDR, NNG_ECONNFAILED, // NNG_ETIMEDOUT, and NNG_EPROTO. int (*ep_connect)(void *, void **); // ep_bind just does the bind() and listen() work, // reserving the address but not creating any connections. // It should return NNG_EADDRINUSE if the address is already // taken. It can also return NNG_EBADADDR for an unsuitable // address, or NNG_EACCESS for permission problems. int (*ep_bind)(void *); // ep_accept accepts an inbound connection, and creates // a transport pipe, which is returned in the final argument. int (*ep_accept)(void *, void **); // ep_close stops the endpoint from operating altogether. It does // not affect pipes that have already been created. void (*ep_close)(void *); // ep_setopt sets an endpoint (transport-specific) option. int (*ep_setopt)(void *, int, const void *, size_t); // ep_getopt gets an endpoint (transport-specific) option. int (*ep_getopt)(void *, int, void *, size_t *); // ep_pipe_ops links our pipe operations. const nni_pipe_ops * ep_pipe_ops; }; // Pipe operations are entry points called by the socket. These may be called // with socket locks held, so it is forbidden for the transport to call // back into the socket at this point. (Which is one reason pointers back // to socket or even enclosing pipe state, are not provided.) struct nni_pipe_ops { // p_destroy destroys the pipe. This should clean up all local // resources, including closing files and freeing memory, used by // the pipe. After this call returns, the system will not make // further calls on the same pipe. void (*p_destroy)(void *); // p_send sends the message. If the message cannot be received, then // the caller may try again with the same message (or free it). If // the call succeeds, then the transport has taken ownership of the // message, and the caller may not use it again. The transport will // have the responsibility to free the message (nng_msg_free()) when // it is finished with it. int (*p_send)(void *, nni_msg *); // p_recv recvs the message. This is a blocking operation, and a read // will be performed even for cases where no data is expected. This // allows the socket to detect a closed socket, by the returned error // NNG_ECLOSED. Note that the closed socket condition can arise as // either a result of a remote peer closing the connection, or a // synchronous call to p_close. int (*p_recv)(void *, nng_msg **); // p_close closes the pipe. Further recv or send operations should // return back NNG_ECLOSED. void (*p_close)(void *); // p_peer returns the peer protocol. This may arrive in whatever // transport specific manner is appropriate. uint16_t (*p_peer)(void *); // p_getopt gets an pipe (transport-specific) property. These values // may not be changed once the pipe is created. int (*p_getopt)(void *, int, void *, size_t *); }; // These APIs are used by the framework internally, and not for use by // transport implementations. extern nni_transport *nni_transport_find(const char *); extern void nni_transport_init(void); extern void nni_transport_fini(void); #endif // CORE_TRANSPORT_H