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/*
*------------------------------------------------------------------
* Copyright (c) 2017 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*------------------------------------------------------------------
*/
#ifndef vpp_api_h_included
#define vpp_api_h_included
#include <string.h>
#include <stdbool.h>
#include <vppinfra/types.h>
#include <vlibapi/api_types.h>
#include <vapi/vapi_common.h>
#include <svm/queue.h>
#ifdef __cplusplus
extern "C"
{
#endif
/**
* @file vapi.h
*
* common vpp api C declarations
*
* This file declares the common C API functions. These include connect,
* disconnect and utility functions as well as the low-level vapi_send and
* vapi_recv API. This is only the transport layer.
*
* Message formats and higher-level APIs are generated by running the
* vapi_c_gen.py script (which is run for in-tree APIs as part of the build
* process). It's not recommended to mix the higher and lower level APIs. Due
* to version issues, the higher-level APIs are not part of the shared library.
*/
typedef struct vapi_ctx_s *vapi_ctx_t;
/**
* @brief allocate vapi message of given size
*
* @note message must be freed by vapi_msg_free if not consumed by vapi_send
* call
*
* @param ctx opaque vapi context
*
* @return pointer to message or NULL if out of memory
*/
void *vapi_msg_alloc (vapi_ctx_t ctx, size_t size);
/**
* @brief free a vapi message
*
* @note messages received by vapi_recv must be freed when no longer needed
*
* @param ctx opaque vapi context
* @param msg message to be freed
*/
void vapi_msg_free (vapi_ctx_t ctx, void *msg);
/**
* @brief allocate vapi context
*
* @param[out] pointer to result variable
*
* @return VAPI_OK on success, other error code on error
*/
vapi_error_e vapi_ctx_alloc (vapi_ctx_t *result);
/**
* @brief free vapi context
*/
void vapi_ctx_free (vapi_ctx_t ctx);
/**
* @brief check if message identified by it's message id is known by the vpp to
* which the connection is open
*/
bool vapi_is_msg_available (vapi_ctx_t ctx, vapi_msg_id_t type);
/**
* @brief connect to vpp
*
* @param ctx opaque vapi context, must be allocated using vapi_ctx_alloc first
* @param name application name
* @param chroot_prefix shared memory prefix
* @param max_outstanding_requests max number of outstanding requests queued
* @param response_queue_size size of the response queue
* @param mode mode of operation - blocking or nonblocking
* @param handle_keepalives - if true, automatically handle memclnt_keepalive
*
* @return VAPI_OK on success, other error code on error
*/
vapi_error_e vapi_connect (vapi_ctx_t ctx, const char *name,
const char *chroot_prefix,
int max_outstanding_requests,
int response_queue_size, vapi_mode_e mode,
bool handle_keepalives);
/**
* @brief connect to vpp
*
* @param ctx opaque vapi context, must be allocated using vapi_ctx_alloc first
* @param name application name
* @param path shared memory prefix or path to unix socket
* @param max_outstanding_requests max number of outstanding requests queued
* @param response_queue_size size of the response queue
* @param mode mode of operation - blocking or nonblocking
* @param handle_keepalives - if true, automatically handle memclnt_keepalive
* @param use_uds - if true, use unix domain socket transport
*
* @return VAPI_OK on success, other error code on error
*/
vapi_error_e vapi_connect_ex (vapi_ctx_t ctx, const char *name,
const char *path, int max_outstanding_requests,
int response_queue_size, vapi_mode_e mode,
bool handle_keepalives, bool use_uds);
/**
* @brief connect to vpp from a client in same process
* @remark This MUST be called from a separate thread. If called
* from the main thread, it will deadlock.
*
* @param ctx opaque vapi context, must be allocated using vapi_ctx_alloc first
* @param name application name
* @param max_outstanding_requests max number of outstanding requests queued
* @param response_queue_size size of the response queue
* @param mode mode of operation - blocking or nonblocking
* @param handle_keepalives - if true, automatically handle memclnt_keepalive
*
* @return VAPI_OK on success, other error code on error
*/
vapi_error_e vapi_connect_from_vpp (vapi_ctx_t ctx, const char *name,
int max_outstanding_requests,
int response_queue_size, vapi_mode_e mode,
bool handle_keepalives);
/**
* @brief disconnect from vpp
*
* @param ctx opaque vapi context
*
* @return VAPI_OK on success, other error code on error
*/
vapi_error_e vapi_disconnect (vapi_ctx_t ctx);
vapi_error_e vapi_disconnect_from_vpp (vapi_ctx_t ctx);
/**
* @brief get event file descriptor
*
* @note this file descriptor becomes readable when messages (from vpp)
* are waiting in queue
*
* @param ctx opaque vapi context
* @param[out] fd pointer to result variable
*
* @return VAPI_OK on success, other error code on error
*/
vapi_error_e vapi_get_fd (vapi_ctx_t ctx, int *fd);
/**
* @brief low-level api for sending messages to vpp
*
* @note it is not recommended to use this api directly, use generated api
* instead
*
* @param ctx opaque vapi context
* @param msg message to send
*
* @return VAPI_OK on success, other error code on error
*/
vapi_error_e vapi_send (vapi_ctx_t ctx, void *msg);
/**
* @brief low-level api for atomically sending two messages to vpp - either
* both messages are sent or neither one is
*
* @note it is not recommended to use this api directly, use generated api
* instead
*
* @param ctx opaque vapi context
* @param msg1 first message to send
* @param msg2 second message to send
*
* @return VAPI_OK on success, other error code on error
*/
vapi_error_e vapi_send2 (vapi_ctx_t ctx, void *msg1, void *msg2);
/**
* @brief low-level api for reading messages from vpp
*
* @note it is not recommended to use this api directly, use generated api
* instead
*
* @param ctx opaque vapi context
* @param[out] msg pointer to result variable containing message
* @param[out] msg_size pointer to result variable containing message size
* @param cond enum type for blocking, non-blocking or timed wait call
* @param time in sec for timed wait
*
* @return VAPI_OK on success, other error code on error
*/
vapi_error_e vapi_recv (vapi_ctx_t ctx, void **msg, size_t *msg_size,
svm_q_conditional_wait_t cond, u32 time);
/**
* @brief wait for connection to become readable
*
* @param ctx opaque vapi context
*
* @return VAPI_OK on success, other error code on error
*/
vapi_error_e vapi_wait (vapi_ctx_t ctx);
/**
* @brief pick next message sent by vpp and call the appropriate callback
*
* @return VAPI_OK on success, other error code on error
*/
vapi_error_e vapi_dispatch_one (vapi_ctx_t ctx);
/**
* @brief loop vapi_dispatch_one until responses to all currently outstanding
* requests have been received and their callbacks called
*
* @note the dispatch loop is interrupted if any error is encountered or
* returned from the callback, in which case this error is returned as the
* result of vapi_dispatch. In this case it might be necessary to call dispatch
* again to process the remaining messages. Returning VAPI_EUSER from
* a callback allows the user to break the dispatch loop (and distinguish
* this case in the calling code from other failures). VAPI never returns
* VAPI_EUSER on its own.
*
* @return VAPI_OK on success, other error code on error
*/
vapi_error_e vapi_dispatch (vapi_ctx_t ctx);
/** generic vapi event callback */
typedef vapi_error_e (*vapi_event_cb) (vapi_ctx_t ctx, void *callback_ctx,
void *payload);
/**
* @brief set event callback to call when message with given id is dispatched
*
* @param ctx opaque vapi context
* @param id message id
* @param callback callback
* @param callback_ctx context pointer stored and passed to callback
*/
void vapi_set_event_cb (vapi_ctx_t ctx, vapi_msg_id_t id,
vapi_event_cb callback, void *callback_ctx);
/**
* @brief clear event callback for given message id
*
* @param ctx opaque vapi context
* @param id message id
*/
void vapi_clear_event_cb (vapi_ctx_t ctx, vapi_msg_id_t id);
/** generic vapi event callback */
typedef vapi_error_e (*vapi_generic_event_cb) (vapi_ctx_t ctx,
void *callback_ctx,
vapi_msg_id_t id, void *msg);
/**
* @brief set generic event callback
*
* @note this callback is called by dispatch if no message-type specific
* callback is set (so it's a fallback callback)
*
* @param ctx opaque vapi context
* @param callback callback
* @param callback_ctx context pointer stored and passed to callback
*/
void vapi_set_generic_event_cb (vapi_ctx_t ctx, vapi_generic_event_cb callback,
void *callback_ctx);
/**
* @brief clear generic event callback
*
* @param ctx opaque vapi context
*/
void vapi_clear_generic_event_cb (vapi_ctx_t ctx);
/**
* @brief signal RX thread to exit
*
* @note This adds a message to the client input queue that indicates that
* an RX thread should stop processing incoming messages and exit. If an
* application has an RX thread which sleeps while waiting for incoming
* messages using vapi_wait(), this call will allow the application to
* wake up from the vapi_wait() call and figure out that it should stop
* running.
*
* @param ctx opaque vapi context
*/
void vapi_stop_rx_thread (vapi_ctx_t ctx);
#ifdef __cplusplus
}
#endif
#endif
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/
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