src/vlibapi/api_common.h - fdio/vpp - Gitiles

 /*
  *------------------------------------------------------------------
  * api_common.h
  *
  * Copyright (c) 2009-2015 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 included_api_common_h
 #define included_api_common_h

 /** \file api_common.h
  *  API common definitions
  * See api_doc.md for more info
  */

 #include <vppinfra/clib_error.h>
 #include <vppinfra/elog.h>
 #include <vppinfra/cJSON.h>
 #include <vlibapi/api_types.h>
 #include <svm/svm_common.h>
 #include <svm/queue.h>

 /** API registration types
  */
 typedef enum
 {
   REGISTRATION_TYPE_FREE = 0,
   REGISTRATION_TYPE_SHMEM,	/**< Shared memory connection */
   REGISTRATION_TYPE_SOCKET_LISTEN, /**< Socket listener  */
   REGISTRATION_TYPE_SOCKET_SERVER, /**< Socket server */
   REGISTRATION_TYPE_SOCKET_CLIENT, /**< Socket client */
 } vl_registration_type_t;

 /** An API client registration, only in vpp/vlib */

 typedef struct vl_api_registration_
 {
   vl_registration_type_t registration_type; /**< type */

   /** Index in VLIB's brain (not shared memory). */
   u32 vl_api_registration_pool_index;

   u8 *name;			/**< Client name */

   /* Zombie apocalypse checking */
   f64 last_heard;
   int last_queue_head;
   int unanswered_pings;
   int is_being_removed;

   /** shared memory only: pointer to client input queue */
   svm_queue_t *vl_input_queue;
   svm_region_t *vlib_rp;
   void *shmem_hdr;

   /* socket server and client */
   u32 clib_file_index;		/**< Socket only: file index */
   i8 *unprocessed_input;	/**< Socket only: pending input */
   u32 unprocessed_msg_length;	/**< Socket only: unprocssed length */
   u8 *output_vector;		/**< Socket only: output vector */
   int *additional_fds_to_close;

   /* socket client only */
   u32 server_handle;		/**< Socket client only: server handle */
   u32 server_index;		/**< Socket client only: server index */

   bool keepalive; /**< Dead client scan */
 } vl_api_registration_t;

 #define VL_API_INVALID_FI ((u32)~0)

 /**
  * API trace state
  */
 typedef struct
 {
   u8 endian;			/**< trace endianness */
   u8 enabled;			/**< trace is enabled  */
   u8 wrapped;			/**< trace has wrapped */
   u8 pad;
   u32 nitems;			/**< Number of trace records */
   u32 curindex;			/**< Current index in circular buffer  */
   u8 **traces;			/**< Trace ring */
 } vl_api_trace_t;

 /** Trace RX / TX enum */
 typedef enum
 {
   VL_API_TRACE_TX,
   VL_API_TRACE_RX,
 } vl_api_trace_which_t;

 #define VL_API_LITTLE_ENDIAN 0x00
 #define VL_API_BIG_ENDIAN 0x01

 /** Message range (belonging to a plugin) */
 typedef struct
 {
   u8 *name;			/**< name of the plugin  */
   u16 first_msg_id;		/**< first assigned message ID */
   u16 last_msg_id;		/**< last assigned message ID */
 } vl_api_msg_range_t;

 /** Message configuration definition */
 typedef struct
 {
   int id;			/**< the message ID */
   char *name;			/**< the message name */
   u32 crc;			/**< message definition CRC  */
   void *handler;		/**< the message handler  */
   void *cleanup;		/**< non-default message cleanup handler */
   void *endian;			/**< message endian function  */
   void *format_fn;		/**< message format function  */
   void *tojson;			/**< binary to JSON convert function */
   void *fromjson;		/**< JSON to binary convert function */
   void *calc_size;		/**< message size calculation */
   int size;			/**< message size  */
   u32 traced : 1;		/**< is this message to be traced?  */
   u32 replay : 1;		/**< is this message to be replayed?  */
   u32 message_bounce : 1;	/**< do not free message after processing */
   u32 is_mp_safe : 1;		/**< worker thread barrier required?  */
   u32 is_autoendian : 1;	/**< endian conversion required?  */
 } vl_msg_api_msg_config_t;

 /** Message header structure */
 typedef struct msgbuf_
 {
   svm_queue_t *q; /**< message allocated in this shmem ring  */
   u32 data_len;			 /**< message length not including header  */
   u32 gc_mark_timestamp;	 /**< message garbage collector mark TS  */
   u8 data[0];			 /**< actual message begins here  */
 } msgbuf_t;

 __clib_nosanitize_addr static inline void
 VL_MSG_API_UNPOISON (const void *a)
 {
   const msgbuf_t *m = &((const msgbuf_t *) a)[-1];
   clib_mem_unpoison (m, sizeof (*m) + ntohl (m->data_len));
 }

 __clib_nosanitize_addr static inline void
 VL_MSG_API_SVM_QUEUE_UNPOISON (const svm_queue_t *q)
 {
   clib_mem_unpoison (q, sizeof (*q) + q->elsize * q->maxsize);
 }

 static inline void
 VL_MSG_API_POISON (const void *a)
 {
   const msgbuf_t *m = &((const msgbuf_t *) a)[-1];
   clib_mem_poison (m, sizeof (*m) + ntohl (m->data_len));
 }

 /* api_shared.c prototypes */
 void vl_msg_api_handler (void *the_msg, uword msg_len);
 void vl_msg_api_handler_no_free (void *the_msg, uword msg_len);
 void vl_msg_api_handler_no_trace_no_free (void *the_msg, uword msg_len);
 void vl_msg_api_trace_only (void *the_msg, uword msg_len);
 void vl_msg_api_cleanup_handler (void *the_msg);
 void vl_msg_api_replay_handler (void *the_msg);
 void vl_msg_api_socket_handler (void *the_msg, uword msg_len);
 void vl_msg_api_clean_handlers (int msg_id);
 void vl_msg_api_config (vl_msg_api_msg_config_t *);
 void vl_msg_api_set_cleanup_handler (int msg_id, void *fp);
 void vl_msg_api_queue_handler (svm_queue_t * q);

 void vl_msg_api_barrier_sync (void) __attribute__ ((weak));
 void vl_msg_api_barrier_release (void) __attribute__ ((weak));
 #ifdef BARRIER_TRACING
 void vl_msg_api_barrier_trace_context (const char *context)
   __attribute__ ((weak));
 #else
 #define vl_msg_api_barrier_trace_context(X)
 #endif
 void vl_msg_api_free (void *);
 void vl_msg_api_increment_missing_client_counter (void);
 void vl_msg_api_post_mortem_dump (void);
 void vl_msg_api_post_mortem_dump_enable_disable (int enable);
 void vl_msg_api_register_pd_handler (void *handler,
 				     u16 msg_id_host_byte_order);

 void vl_msg_api_set_first_available_msg_id (u16 first_avail);
 u16 vl_msg_api_get_msg_ids (const char *name, int n);
 u32 vl_msg_api_get_msg_index (u8 * name_and_crc);
 void *vl_msg_push_heap (void);
 void *vl_msg_push_heap_w_region (svm_region_t * vlib_rp);
 void vl_msg_pop_heap (void *oldheap);
 void vl_msg_pop_heap_w_region (svm_region_t * vlib_rp, void *oldheap);

 typedef clib_error_t *(vl_msg_api_init_function_t) (u32 client_index);

 typedef struct _vl_msg_api_init_function_list_elt
 {
   struct _vl_msg_api_init_function_list_elt *next_init_function;
   vl_msg_api_init_function_t *f;
 } _vl_msg_api_function_list_elt_t;

 typedef struct
 {
   u32 major;
   u32 minor;
   u32 patch;
   char name[64];
 } api_version_t;

 typedef struct
 {
   /** Message handler vector  */
   void (*handler) (void *);

   /** non-default message cleanup handler vector */
   void (*cleanup_handler) (void *);

   /** Message name vector */
   const char *name;

   /** Message format function */
   format_function_t *format_fn;

   /** Message convert function vector */
   cJSON *(*tojson_handler) (void *);

   /** Message convert function vector */
   void *(*fromjson_handler) (cJSON *, int *);

   /** Message endian handler vector. */
   void (*endian_handler) (void *, bool to_net);

   /** Message calc size function vector */
   uword (*calc_size_func) (void *);

   /** trace size for sanity checking */
   int trace_size;

   /** Flags */
   u8 bounce : 1;	 /**> Don't automatically free message buffer vetor */
   u8 is_mp_safe : 1;	 /**< Message is mp safe vector */
   u8 is_autoendian : 1;	 /**< Message requires us to do endian conversion */
   u8 trace_enable : 1;	 /**< trace this message  */
   u8 replay_allowed : 1; /**< This message can be replayed  */

 } vl_api_msg_data_t;

 /** API main structure, used by both vpp and binary API clients */
 typedef struct api_main_t
 {
   vl_api_msg_data_t *msg_data;

   /** API message ID by name hash table */
   uword *msg_id_by_name;

   /** Allocator ring vectors (in shared memory) */
   struct ring_alloc_ *arings;

   /** Number of times that the ring allocator failed */
   u32 ring_misses;

   /** Number of garbage-collected message buffers */
   u32 garbage_collects;

   /** Number of missing clients / failed message sends */
   u32 missing_clients;

   /** Received message trace configuration */
   vl_api_trace_t *rx_trace;

   /** Sent message trace configuration */
   vl_api_trace_t *tx_trace;

   /** Print every received message */
   int msg_print_flag;

   /** Current process PID */
   int our_pid;

   /** Current binary api segment descriptor */
   svm_region_t *vlib_rp;

   /** Primary api segment descriptor */
   svm_region_t *vlib_primary_rp;

   /** Vector of all mapped shared-VM segments */
   svm_region_t **vlib_private_rps;
   svm_region_t **mapped_shmem_regions;

   /** Binary API shared-memory segment header pointer */
   struct vl_shmem_hdr_ *shmem_hdr;

   /** vlib/vpp only: vector of client registrations */
   vl_api_registration_t **vl_clients;

   /** vlib/vpp only: serialized (message, name, crc) table */
   u8 *serialized_message_table_in_shmem;

   /** First available message ID, for theplugin msg allocator */
   u16 first_available_msg_id;

   /** Message range by name hash */
   uword *msg_range_by_name;

   /** vector of message ranges */
   vl_api_msg_range_t *msg_ranges;

   /** uid for the api shared memory region */
   int api_uid;

   /** gid for the api shared memory region */
   int api_gid;

   /** base virtual address for global VM region */
   u64 global_baseva;

   /** size of the global VM region */
   u64 global_size;

   /** size of the API region */
   u64 api_size;

   /** size of the global VM private mheap */
   u64 global_pvt_heap_size;

   /** size of the api private mheap */
   u64 api_pvt_heap_size;

   /** Peer input queue pointer */
   svm_queue_t *vl_input_queue;

   /**
    * All VLIB-side message handlers use my_client_index to identify
    * the queue / client. This works in sim replay.
    */
   int my_client_index;
   /**
    * This is the (shared VM) address of the registration,
    * don't use it to id the connection since it can't possibly
    * work in simulator replay.
    */
   vl_api_registration_t *my_registration;

   /** vpp/vlib input queue length */
   u32 vlib_input_queue_length;

   /** client message index hash table */
   uword *msg_index_by_name_and_crc;
   /** plugin JSON representation vector table */
   u8 **json_api_repr;

   /** api version list */
   api_version_t *api_version_list;

   /** Shared VM binary API region name */
   const char *region_name;

   /** Chroot path to the shared memory API files */
   const char *root_path;

   /** Replay in progress? */
   int replay_in_progress;

   /** Dump (msg-name, crc) snapshot here at startup */
   u8 *save_msg_table_filename;

   /** List of API client reaper functions */
   _vl_msg_api_function_list_elt_t *reaper_function_registrations;

   /** Bin API thread handle */
   pthread_t rx_thread_handle;

   /** event log */
   elog_main_t *elog_main;
   int elog_trace_api_messages;

   /** performance counter callback **/
   void (**perf_counter_cbs)
     (struct api_main_t *, u32 id, int before_or_after);
   void (**perf_counter_cbs_tmp)
     (struct api_main_t *, u32 id, int before_or_after);

 } api_main_t;

 extern __thread api_main_t *my_api_main;

 always_inline api_main_t *
 vlibapi_get_main (void)
 {
   return my_api_main;
 }

 always_inline vl_api_msg_data_t *
 vl_api_get_msg_data (api_main_t *am, u32 msg_id)
 {
   if (msg_id >= vec_len (am->msg_data))
     return 0;
   return am->msg_data + msg_id;
 }

 always_inline void
 vlibapi_set_main (api_main_t * am)
 {
   my_api_main = am;
 }

 #endif /* included_api_common_h */

 /*
  * fd.io coding-style-patch-verification: ON
  *
  * Local Variables:
  * eval: (c-set-style "gnu")
  * End:
  */
	/*
	*------------------------------------------------------------------
	* api_common.h
	*
	* Copyright (c) 2009-2015 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 included_api_common_h
	#define included_api_common_h

	/** \file api_common.h
	* API common definitions
	* See api_doc.md for more info
	*/

	#include <vppinfra/clib_error.h>
	#include <vppinfra/elog.h>
	#include <vppinfra/cJSON.h>
	#include <vlibapi/api_types.h>
	#include <svm/svm_common.h>
	#include <svm/queue.h>

	/** API registration types
	*/
	typedef enum
	{
	REGISTRATION_TYPE_FREE = 0,
	REGISTRATION_TYPE_SHMEM, /*< Shared memory connection /
	REGISTRATION_TYPE_SOCKET_LISTEN, /*< Socket listener /
	REGISTRATION_TYPE_SOCKET_SERVER, /*< Socket server /
	REGISTRATION_TYPE_SOCKET_CLIENT, /*< Socket client /
	} vl_registration_type_t;

	/** An API client registration, only in vpp/vlib */

	typedef struct vl_api_registration_
	{
	vl_registration_type_t registration_type; /*< type /

	/** Index in VLIB's brain (not shared memory). */
	u32 vl_api_registration_pool_index;

	u8 name; /< Client name /

	/* Zombie apocalypse checking */
	f64 last_heard;
	int last_queue_head;
	int unanswered_pings;
	int is_being_removed;

	/** shared memory only: pointer to client input queue */
	svm_queue_t *vl_input_queue;
	svm_region_t *vlib_rp;
	void *shmem_hdr;

	/* socket server and client */
	u32 clib_file_index; /*< Socket only: file index /
	i8 unprocessed_input; /< Socket only: pending input /
	u32 unprocessed_msg_length; /*< Socket only: unprocssed length /
	u8 output_vector; /< Socket only: output vector /
	int *additional_fds_to_close;

	/* socket client only */
	u32 server_handle; /*< Socket client only: server handle /
	u32 server_index; /*< Socket client only: server index /

	bool keepalive; /*< Dead client scan /
	} vl_api_registration_t;

	#define VL_API_INVALID_FI ((u32)~0)

	/**
	* API trace state
	*/
	typedef struct
	{
	u8 endian; /*< trace endianness /
	u8 enabled; /*< trace is enabled /
	u8 wrapped; /*< trace has wrapped /
	u8 pad;
	u32 nitems; /*< Number of trace records /
	u32 curindex; /*< Current index in circular buffer /
	u8 traces; /< Trace ring */
	} vl_api_trace_t;

	/** Trace RX / TX enum */
	typedef enum
	{
	VL_API_TRACE_TX,
	VL_API_TRACE_RX,
	} vl_api_trace_which_t;

	#define VL_API_LITTLE_ENDIAN 0x00
	#define VL_API_BIG_ENDIAN 0x01

	/** Message range (belonging to a plugin) */
	typedef struct
	{
	u8 name; /< name of the plugin /
	u16 first_msg_id; /*< first assigned message ID /
	u16 last_msg_id; /*< last assigned message ID /
	} vl_api_msg_range_t;

	/** Message configuration definition */
	typedef struct
	{
	int id; /*< the message ID /
	char name; /< the message name /
	u32 crc; /*< message definition CRC /
	void handler; /< the message handler /
	void cleanup; /< non-default message cleanup handler /
	void endian; /< message endian function /
	void format_fn; /< message format function /
	void tojson; /< binary to JSON convert function /
	void fromjson; /< JSON to binary convert function /
	void calc_size; /< message size calculation /
	int size; /*< message size /
	u32 traced : 1; /*< is this message to be traced? /
	u32 replay : 1; /*< is this message to be replayed? /
	u32 message_bounce : 1; /*< do not free message after processing /
	u32 is_mp_safe : 1; /*< worker thread barrier required? /
	u32 is_autoendian : 1; /*< endian conversion required? /
	} vl_msg_api_msg_config_t;

	/** Message header structure */
	typedef struct msgbuf_
	{
	svm_queue_t q; /< message allocated in this shmem ring /
	u32 data_len; /*< message length not including header /
	u32 gc_mark_timestamp; /*< message garbage collector mark TS /
	u8 data[0]; /*< actual message begins here /
	} msgbuf_t;

	__clib_nosanitize_addr static inline void
	VL_MSG_API_UNPOISON (const void *a)
	{
	const msgbuf_t m = &((const msgbuf_t ) a)[-1];
	clib_mem_unpoison (m, sizeof (*m) + ntohl (m->data_len));
	}

	__clib_nosanitize_addr static inline void
	VL_MSG_API_SVM_QUEUE_UNPOISON (const svm_queue_t *q)
	{
	clib_mem_unpoison (q, sizeof (q) + q->elsize q->maxsize);
	}

	static inline void
	VL_MSG_API_POISON (const void *a)
	{
	const msgbuf_t m = &((const msgbuf_t ) a)[-1];
	clib_mem_poison (m, sizeof (*m) + ntohl (m->data_len));
	}

	/* api_shared.c prototypes */
	void vl_msg_api_handler (void *the_msg, uword msg_len);
	void vl_msg_api_handler_no_free (void *the_msg, uword msg_len);
	void vl_msg_api_handler_no_trace_no_free (void *the_msg, uword msg_len);
	void vl_msg_api_trace_only (void *the_msg, uword msg_len);
	void vl_msg_api_cleanup_handler (void *the_msg);
	void vl_msg_api_replay_handler (void *the_msg);
	void vl_msg_api_socket_handler (void *the_msg, uword msg_len);
	void vl_msg_api_clean_handlers (int msg_id);
	void vl_msg_api_config (vl_msg_api_msg_config_t *);
	void vl_msg_api_set_cleanup_handler (int msg_id, void *fp);
	void vl_msg_api_queue_handler (svm_queue_t * q);

	void vl_msg_api_barrier_sync (void) __attribute__ ((weak));
	void vl_msg_api_barrier_release (void) __attribute__ ((weak));
	#ifdef BARRIER_TRACING
	void vl_msg_api_barrier_trace_context (const char *context)
	__attribute__ ((weak));
	#else
	#define vl_msg_api_barrier_trace_context(X)
	#endif
	void vl_msg_api_free (void *);
	void vl_msg_api_increment_missing_client_counter (void);
	void vl_msg_api_post_mortem_dump (void);
	void vl_msg_api_post_mortem_dump_enable_disable (int enable);
	void vl_msg_api_register_pd_handler (void *handler,
	u16 msg_id_host_byte_order);

	void vl_msg_api_set_first_available_msg_id (u16 first_avail);
	u16 vl_msg_api_get_msg_ids (const char *name, int n);
	u32 vl_msg_api_get_msg_index (u8 * name_and_crc);
	void *vl_msg_push_heap (void);
	void vl_msg_push_heap_w_region (svm_region_t vlib_rp);
	void vl_msg_pop_heap (void *oldheap);
	void vl_msg_pop_heap_w_region (svm_region_t * vlib_rp, void *oldheap);

	typedef clib_error_t *(vl_msg_api_init_function_t) (u32 client_index);

	typedef struct _vl_msg_api_init_function_list_elt
	{
	struct _vl_msg_api_init_function_list_elt *next_init_function;
	vl_msg_api_init_function_t *f;
	} _vl_msg_api_function_list_elt_t;

	typedef struct
	{
	u32 major;
	u32 minor;
	u32 patch;
	char name[64];
	} api_version_t;

	typedef struct
	{
	/** Message handler vector */
	void (handler) (void );

	/** non-default message cleanup handler vector */
	void (cleanup_handler) (void );

	/** Message name vector */
	const char *name;

	/** Message format function */
	format_function_t *format_fn;

	/** Message convert function vector */
	cJSON (tojson_handler) (void *);

	/** Message convert function vector */
	void (fromjson_handler) (cJSON , int );

	/** Message endian handler vector. */
	void (endian_handler) (void , bool to_net);

	/** Message calc size function vector */
	uword (calc_size_func) (void );

	/** trace size for sanity checking */
	int trace_size;

	/** Flags */
	u8 bounce : 1; /*> Don't automatically free message buffer vetor /
	u8 is_mp_safe : 1; /*< Message is mp safe vector /
	u8 is_autoendian : 1; /*< Message requires us to do endian conversion /
	u8 trace_enable : 1; /*< trace this message /
	u8 replay_allowed : 1; /*< This message can be replayed /

	} vl_api_msg_data_t;

	/** API main structure, used by both vpp and binary API clients */
	typedef struct api_main_t
	{
	vl_api_msg_data_t *msg_data;

	/** API message ID by name hash table */
	uword *msg_id_by_name;

	/** Allocator ring vectors (in shared memory) */
	struct ring_alloc_ *arings;

	/** Number of times that the ring allocator failed */
	u32 ring_misses;

	/** Number of garbage-collected message buffers */
	u32 garbage_collects;

	/** Number of missing clients / failed message sends */
	u32 missing_clients;

	/** Received message trace configuration */
	vl_api_trace_t *rx_trace;

	/** Sent message trace configuration */
	vl_api_trace_t *tx_trace;

	/** Print every received message */
	int msg_print_flag;

	/** Current process PID */
	int our_pid;

	/** Current binary api segment descriptor */
	svm_region_t *vlib_rp;

	/** Primary api segment descriptor */
	svm_region_t *vlib_primary_rp;

	/** Vector of all mapped shared-VM segments */
	svm_region_t **vlib_private_rps;
	svm_region_t **mapped_shmem_regions;

	/** Binary API shared-memory segment header pointer */
	struct vl_shmem_hdr_ *shmem_hdr;

	/** vlib/vpp only: vector of client registrations */
	vl_api_registration_t **vl_clients;

	/** vlib/vpp only: serialized (message, name, crc) table */
	u8 *serialized_message_table_in_shmem;

	/** First available message ID, for theplugin msg allocator */
	u16 first_available_msg_id;

	/** Message range by name hash */
	uword *msg_range_by_name;

	/** vector of message ranges */
	vl_api_msg_range_t *msg_ranges;

	/** uid for the api shared memory region */
	int api_uid;

	/** gid for the api shared memory region */
	int api_gid;

	/** base virtual address for global VM region */
	u64 global_baseva;

	/** size of the global VM region */
	u64 global_size;

	/** size of the API region */
	u64 api_size;

	/** size of the global VM private mheap */
	u64 global_pvt_heap_size;

	/** size of the api private mheap */
	u64 api_pvt_heap_size;

	/** Peer input queue pointer */
	svm_queue_t *vl_input_queue;

	/**
	* All VLIB-side message handlers use my_client_index to identify
	* the queue / client. This works in sim replay.
	*/
	int my_client_index;
	/**
	* This is the (shared VM) address of the registration,
	* don't use it to id the connection since it can't possibly
	* work in simulator replay.
	*/
	vl_api_registration_t *my_registration;

	/** vpp/vlib input queue length */
	u32 vlib_input_queue_length;

	/** client message index hash table */
	uword *msg_index_by_name_and_crc;
	/** plugin JSON representation vector table */
	u8 **json_api_repr;

	/** api version list */
	api_version_t *api_version_list;

	/** Shared VM binary API region name */
	const char *region_name;

	/** Chroot path to the shared memory API files */
	const char *root_path;

	/** Replay in progress? */
	int replay_in_progress;

	/** Dump (msg-name, crc) snapshot here at startup */
	u8 *save_msg_table_filename;

	/** List of API client reaper functions */
	_vl_msg_api_function_list_elt_t *reaper_function_registrations;

	/** Bin API thread handle */
	pthread_t rx_thread_handle;

	/** event log */
	elog_main_t *elog_main;
	int elog_trace_api_messages;

	/ performance counter callback /
	void (**perf_counter_cbs)
	(struct api_main_t *, u32 id, int before_or_after);
	void (**perf_counter_cbs_tmp)
	(struct api_main_t *, u32 id, int before_or_after);

	} api_main_t;

	extern __thread api_main_t *my_api_main;

	always_inline api_main_t *
	vlibapi_get_main (void)
	{
	return my_api_main;
	}

	always_inline vl_api_msg_data_t *
	vl_api_get_msg_data (api_main_t *am, u32 msg_id)
	{
	if (msg_id >= vec_len (am->msg_data))
	return 0;
	return am->msg_data + msg_id;
	}

	always_inline void
	vlibapi_set_main (api_main_t * am)
	{
	my_api_main = am;
	}

	#endif /* included_api_common_h */

	/*
	* fd.io coding-style-patch-verification: ON
	*
	* Local Variables:
	* eval: (c-set-style "gnu")
	* End:
	*/