include/grpc/grpc.h - platform/external/grpc-grpc - Gitiles

 /*
  *
  * Copyright 2015, Google Inc.
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are
  * met:
  *
  *     * Redistributions of source code must retain the above copyright
  * notice, this list of conditions and the following disclaimer.
  *     * Redistributions in binary form must reproduce the above
  * copyright notice, this list of conditions and the following disclaimer
  * in the documentation and/or other materials provided with the
  * distribution.
  *     * Neither the name of Google Inc. nor the names of its
  * contributors may be used to endorse or promote products derived from
  * this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
  * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  *
  */

 #ifndef GRPC_GRPC_H
 #define GRPC_GRPC_H

 #include <grpc/status.h>

 #include <stddef.h>
 #include <grpc/support/slice.h>
 #include <grpc/support/time.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /* Completion Queues enable notification of the completion of asynchronous
    actions. */
 typedef struct grpc_completion_queue grpc_completion_queue;

 /* The Channel interface allows creation of Call objects. */
 typedef struct grpc_channel grpc_channel;

 /* A server listens to some port and responds to request calls */
 typedef struct grpc_server grpc_server;

 /* A Call represents an RPC. When created, it is in a configuration state
    allowing properties to be set until it is invoked. After invoke, the Call
    can have messages written to it and read from it. */
 typedef struct grpc_call grpc_call;

 /* Type specifier for grpc_arg */
 typedef enum {
   GRPC_ARG_STRING,
   GRPC_ARG_INTEGER,
   GRPC_ARG_POINTER
 } grpc_arg_type;

 /* A single argument... each argument has a key and a value

    A note on naming keys:
      Keys are namespaced into groups, usually grouped by library, and are
      keys for module XYZ are named XYZ.key1, XYZ.key2, etc. Module names must
      be restricted to the regex [A-Za-z][_A-Za-z0-9]{,15}.
      Key names must be restricted to the regex [A-Za-z][_A-Za-z0-9]{,47}.

      GRPC core library keys are prefixed by grpc.

      Library authors are strongly encouraged to #define symbolic constants for
      their keys so that it's possible to change them in the future. */
 typedef struct {
   grpc_arg_type type;
   char *key;
   union {
     char *string;
     int integer;
     struct {
       void *p;
       void *(*copy)(void *p);
       void (*destroy)(void *p);
     } pointer;
   } value;
 } grpc_arg;

 /** An array of arguments that can be passed around.

     Used to set optional channel-level configuration.
     These configuration options are modelled as key-value pairs as defined
     by grpc_arg; keys are strings to allow easy backwards-compatible extension
     by arbitrary parties.
     All evaluation is performed at channel creation time. */
 typedef struct {
   size_t num_args;
   grpc_arg *args;
 } grpc_channel_args;

 /* Channel argument keys: */
 /* Enable census for tracing and stats collection */
 #define GRPC_ARG_ENABLE_CENSUS "grpc.census"
 /* Maximum number of concurrent incoming streams to allow on a http2
    connection */
 #define GRPC_ARG_MAX_CONCURRENT_STREAMS "grpc.max_concurrent_streams"
 /* Maximum message length that the channel can receive */
 #define GRPC_ARG_MAX_MESSAGE_LENGTH "grpc.max_message_length"
 /* Initial sequence number for http2 transports */
 #define GRPC_ARG_HTTP2_INITIAL_SEQUENCE_NUMBER \
   "grpc.http2.initial_sequence_number"

 /* Result of a grpc call. If the caller satisfies the prerequisites of a
    particular operation, the grpc_call_error returned will be GRPC_CALL_OK.
    Receiving any other value listed here is an indication of a bug in the
    caller. */
 typedef enum grpc_call_error {
   /* everything went ok */
   GRPC_CALL_OK = 0,
   /* something failed, we don't know what */
   GRPC_CALL_ERROR,
   /* this method is not available on the server */
   GRPC_CALL_ERROR_NOT_ON_SERVER,
   /* this method is not available on the client */
   GRPC_CALL_ERROR_NOT_ON_CLIENT,
   /* this method must be called before server_accept */
   GRPC_CALL_ERROR_ALREADY_ACCEPTED,
   /* this method must be called before invoke */
   GRPC_CALL_ERROR_ALREADY_INVOKED,
   /* this method must be called after invoke */
   GRPC_CALL_ERROR_NOT_INVOKED,
   /* this call is already finished
      (writes_done or write_status has already been called) */
   GRPC_CALL_ERROR_ALREADY_FINISHED,
   /* there is already an outstanding read/write operation on the call */
   GRPC_CALL_ERROR_TOO_MANY_OPERATIONS,
   /* the flags value was illegal for this call */
   GRPC_CALL_ERROR_INVALID_FLAGS,
   /* invalid metadata was passed to this call */
   GRPC_CALL_ERROR_INVALID_METADATA
 } grpc_call_error;

 /* Write Flags: */
 /* Hint that the write may be buffered and need not go out on the wire
    immediately. GRPC is free to buffer the message until the next non-buffered
    write, or until writes_done, but it need not buffer completely or at all. */
 #define GRPC_WRITE_BUFFER_HINT (0x00000001u)
 /* Force compression to be disabled for a particular write
    (start_write/add_metadata). Illegal on invoke/accept. */
 #define GRPC_WRITE_NO_COMPRESS (0x00000002u)

 /* A buffer of bytes */
 struct grpc_byte_buffer;
 typedef struct grpc_byte_buffer grpc_byte_buffer;

 /* Sample helpers to obtain byte buffers (these will certainly move
    someplace else) */
 grpc_byte_buffer *grpc_byte_buffer_create(gpr_slice *slices, size_t nslices);
 grpc_byte_buffer *grpc_byte_buffer_copy(grpc_byte_buffer *bb);
 size_t grpc_byte_buffer_length(grpc_byte_buffer *bb);
 void grpc_byte_buffer_destroy(grpc_byte_buffer *byte_buffer);

 /* Reader for byte buffers. Iterates over slices in the byte buffer */
 struct grpc_byte_buffer_reader;
 typedef struct grpc_byte_buffer_reader grpc_byte_buffer_reader;

 /** Initialize \a reader to read over \a buffer */
 void grpc_byte_buffer_reader_init(grpc_byte_buffer_reader *reader,
                                   grpc_byte_buffer *buffer);

 /** Cleanup and destroy \a reader */
 void grpc_byte_buffer_reader_destroy(grpc_byte_buffer_reader *reader);

 /* At the end of the stream, returns 0. Otherwise, returns 1 and sets slice to
    be the returned slice. Caller is responsible for calling gpr_slice_unref on
    the result. */
 int grpc_byte_buffer_reader_next(grpc_byte_buffer_reader *reader,
                                  gpr_slice *slice);

 /* A single metadata element */
 typedef struct grpc_metadata {
   const char *key;
   const char *value;
   size_t value_length;

   /* The following fields are reserved for grpc internal use.
      There is no need to initialize them, and they will be set to garbage during
      calls to grpc. */
   struct {
     void *obfuscated[3];
   } internal_data;
 } grpc_metadata;

 /** The type of completion (for grpc_event) */
 typedef enum grpc_completion_type {
   /** Shutting down */
   GRPC_QUEUE_SHUTDOWN,
   /** No event before timeout */
   GRPC_QUEUE_TIMEOUT,
   /** Operation completion */
   GRPC_OP_COMPLETE
 } grpc_completion_type;

 /** The result of an operation.

     Returned by a completion queue when the operation started with tag. */
 typedef struct grpc_event {
   /** The type of the completion. */
   grpc_completion_type type;
   /** non-zero if the operation was successful, 0 upon failure.
       Only GRPC_OP_COMPLETE can succeed or fail. */
   int success;
   /** The tag passed to grpc_call_start_batch etc to start this operation.
       Only GRPC_OP_COMPLETE has a tag. */
   void *tag;
 } grpc_event;

 typedef struct {
   size_t count;
   size_t capacity;
   grpc_metadata *metadata;
 } grpc_metadata_array;

 void grpc_metadata_array_init(grpc_metadata_array *array);
 void grpc_metadata_array_destroy(grpc_metadata_array *array);

 typedef struct {
   char *method;
   size_t method_capacity;
   char *host;
   size_t host_capacity;
   gpr_timespec deadline;
 } grpc_call_details;

 void grpc_call_details_init(grpc_call_details *details);
 void grpc_call_details_destroy(grpc_call_details *details);

 typedef enum {
   /* Send initial metadata: one and only one instance MUST be sent for each
      call,
      unless the call was cancelled - in which case this can be skipped */
   GRPC_OP_SEND_INITIAL_METADATA = 0,
   /* Send a message: 0 or more of these operations can occur for each call */
   GRPC_OP_SEND_MESSAGE,
   /* Send a close from the server: one and only one instance MUST be sent from
      the client,
      unless the call was cancelled - in which case this can be skipped */
   GRPC_OP_SEND_CLOSE_FROM_CLIENT,
   /* Send status from the server: one and only one instance MUST be sent from
      the server
      unless the call was cancelled - in which case this can be skipped */
   GRPC_OP_SEND_STATUS_FROM_SERVER,
   /* Receive initial metadata: one and only one MUST be made on the client, must
      not be made on the server */
   GRPC_OP_RECV_INITIAL_METADATA,
   /* Receive a message: 0 or more of these operations can occur for each call */
   GRPC_OP_RECV_MESSAGE,
   /* Receive status on the client: one and only one must be made on the client.
      This operation always succeeds, meaning ops paired with this operation
      will also appear to succeed, even though they may not have. In that case
      the status will indicate some failure.
      */
   GRPC_OP_RECV_STATUS_ON_CLIENT,
   /* Receive status on the server: one and only one must be made on the server
      */
   GRPC_OP_RECV_CLOSE_ON_SERVER
 } grpc_op_type;

 /* Operation data: one field for each op type (except SEND_CLOSE_FROM_CLIENT
    which has
    no arguments) */
 typedef struct grpc_op {
   grpc_op_type op;
   union {
     struct {
       size_t count;
       grpc_metadata *metadata;
     } send_initial_metadata;
     grpc_byte_buffer *send_message;
     struct {
       size_t trailing_metadata_count;
       grpc_metadata *trailing_metadata;
       grpc_status_code status;
       const char *status_details;
     } send_status_from_server;
     /* ownership of the array is with the caller, but ownership of the elements
        stays with the call object (ie key, value members are owned by the call
        object, recv_initial_metadata->array is owned by the caller).
        After the operation completes, call grpc_metadata_array_destroy on this
        value, or reuse it in a future op. */
     grpc_metadata_array *recv_initial_metadata;
     grpc_byte_buffer **recv_message;
     struct {
       /* ownership of the array is with the caller, but ownership of the
          elements
          stays with the call object (ie key, value members are owned by the call
          object, trailing_metadata->array is owned by the caller).
          After the operation completes, call grpc_metadata_array_destroy on this
          value, or reuse it in a future op. */
       grpc_metadata_array *trailing_metadata;
       grpc_status_code *status;
       /* status_details is a buffer owned by the application before the op
          completes
          and after the op has completed. During the operation status_details may
          be
          reallocated to a size larger than *status_details_capacity, in which
          case
          *status_details_capacity will be updated with the new array capacity.

          Pre-allocating space:
          size_t my_capacity = 8;
          char *my_details = gpr_malloc(my_capacity);
          x.status_details = &my_details;
          x.status_details_capacity = &my_capacity;

          Not pre-allocating space:
          size_t my_capacity = 0;
          char *my_details = NULL;
          x.status_details = &my_details;
          x.status_details_capacity = &my_capacity;

          After the call:
          gpr_free(my_details); */
       char **status_details;
       size_t *status_details_capacity;
     } recv_status_on_client;
     struct {
       /* out argument, set to 1 if the call failed in any way (seen as a
          cancellation
          on the server), or 0 if the call succeeded */
       int *cancelled;
     } recv_close_on_server;
   } data;
 } grpc_op;

 /** Initialize the grpc library.

     It is not safe to call any other grpc functions before calling this.
     (To avoid overhead, little checking is done, and some things may work. We
     do not warrant that they will continue to do so in future revisions of this
     library). */
 void grpc_init(void);

 /** Shut down the grpc library.

     No memory is used by grpc after this call returns, nor are any instructions
     executing within the grpc library.
     Prior to calling, all application owned grpc objects must have been
     destroyed. */
 void grpc_shutdown(void);

 /** Create a completion queue */
 grpc_completion_queue *grpc_completion_queue_create(void);

 /** Blocks until an event is available, the completion queue is being shut down,
     or deadline is reached.

     Returns NULL on timeout, otherwise the event that occurred.

     Callers must not call grpc_completion_queue_next and
     grpc_completion_queue_pluck simultaneously on the same completion queue. */
 grpc_event grpc_completion_queue_next(grpc_completion_queue *cq,
                                       gpr_timespec deadline);

 /** Blocks until an event with tag 'tag' is available, the completion queue is
     being shutdown or deadline is reached.

     Returns NULL on timeout, or a pointer to the event that occurred.

     Callers must not call grpc_completion_queue_next and
     grpc_completion_queue_pluck simultaneously on the same completion queue. */
 grpc_event grpc_completion_queue_pluck(grpc_completion_queue *cq, void *tag,
                                        gpr_timespec deadline);

 /* Begin destruction of a completion queue. Once all possible events are
    drained then grpc_completion_queue_next will start to produce
    GRPC_QUEUE_SHUTDOWN events only. At that point it's safe to call
    grpc_completion_queue_destroy.

    After calling this function applications should ensure that no
    NEW work is added to be published on this completion queue. */
 void grpc_completion_queue_shutdown(grpc_completion_queue *cq);

 /* Destroy a completion queue. The caller must ensure that the queue is
    drained and no threads are executing grpc_completion_queue_next */
 void grpc_completion_queue_destroy(grpc_completion_queue *cq);

 /* Create a call given a grpc_channel, in order to call 'method'. The request
    is not sent until grpc_call_invoke is called. All completions are sent to
    'completion_queue'. */
 grpc_call *grpc_channel_create_call(grpc_channel *channel,
                                     grpc_completion_queue *completion_queue,
                                     const char *method, const char *host,
                                     gpr_timespec deadline);

 /* Pre-register a method/host pair on a channel. */
 void *grpc_channel_register_call(grpc_channel *channel, const char *method,
                                  const char *host);

 /* Create a call given a handle returned from grpc_channel_register_call */
 grpc_call *grpc_channel_create_registered_call(
     grpc_channel *channel, grpc_completion_queue *completion_queue,
     void *registered_call_handle, gpr_timespec deadline);

 /* Start a batch of operations defined in the array ops; when complete, post a
    completion of type 'tag' to the completion queue bound to the call.
    The order of ops specified in the batch has no significance.
    Only one operation of each type can be active at once in any given
    batch. */
 grpc_call_error grpc_call_start_batch(grpc_call *call, const grpc_op *ops,
                                       size_t nops, void *tag);

 /* Create a client channel to 'target'. Additional channel level configuration
    MAY be provided by grpc_channel_args, though the expectation is that most
    clients will want to simply pass NULL. See grpc_channel_args definition
    for more on this. */
 grpc_channel *grpc_channel_create(const char *target,
                                   const grpc_channel_args *args);

 /* Create a lame client: this client fails every operation attempted on it. */
 grpc_channel *grpc_lame_client_channel_create(void);

 /* Close and destroy a grpc channel */
 void grpc_channel_destroy(grpc_channel *channel);

 /* THREAD-SAFETY for grpc_call
    The following functions are thread-compatible for any given call:
      grpc_call_add_metadata
      grpc_call_invoke
      grpc_call_start_write
      grpc_call_writes_done
      grpc_call_start_read
      grpc_call_destroy
    The function grpc_call_cancel is thread-safe, and can be called at any
    point before grpc_call_destroy is called. */

 /* Error handling for grpc_call
    Most grpc_call functions return a grpc_error. If the error is not GRPC_OK
    then the operation failed due to some unsatisfied precondition.
    If a grpc_call fails, it's guaranteed that no change to the call state
    has been made. */

 /* Called by clients to cancel an RPC on the server.
    Can be called multiple times, from any thread. */
 grpc_call_error grpc_call_cancel(grpc_call *call);

 /* Called by clients to cancel an RPC on the server.
    Can be called multiple times, from any thread.
    If a status has not been received for the call, set it to the status code
    and description passed in.
    Importantly, this function does not send status nor description to the
    remote endpoint. */
 grpc_call_error grpc_call_cancel_with_status(grpc_call *call,
                                              grpc_status_code status,
                                              const char *description);

 /* Destroy a call. */
 void grpc_call_destroy(grpc_call *call);

 /* Request notification of a new call */
 grpc_call_error grpc_server_request_call(
     grpc_server *server, grpc_call **call, grpc_call_details *details,
     grpc_metadata_array *request_metadata,
     grpc_completion_queue *cq_bound_to_call,
     grpc_completion_queue *cq_for_notification, void *tag_new);

 /* Registers a method in the server.
    Methods to this (host, method) pair will not be reported by
    grpc_server_request_call, but instead be reported by
    grpc_server_request_registered_call when passed the appropriate
    registered_method (as returned by this function).
    Must be called before grpc_server_start.
    Returns NULL on failure. */
 void *grpc_server_register_method(grpc_server *server, const char *method,
                                   const char *host);

 /* Request notification of a new pre-registered call */
 grpc_call_error grpc_server_request_registered_call(
     grpc_server *server, void *registered_method, grpc_call **call,
     gpr_timespec *deadline, grpc_metadata_array *request_metadata,
     grpc_byte_buffer **optional_payload,
     grpc_completion_queue *cq_bound_to_call,
     grpc_completion_queue *cq_for_notification, void *tag_new);

 /* Create a server. Additional configuration for each incoming channel can
    be specified with args. If no additional configuration is needed, args can
    be NULL. See grpc_channel_args for more. */
 grpc_server *grpc_server_create(const grpc_channel_args *args);

 /* Register a completion queue with the server. Must be done for any completion
    queue that is passed to grpc_server_request_* call. Must be performed prior
    to grpc_server_start. */
 void grpc_server_register_completion_queue(grpc_server *server,
                                            grpc_completion_queue *cq);

 /* Add a HTTP2 over plaintext over tcp listener.
    Returns bound port number on success, 0 on failure.
    REQUIRES: server not started */
 int grpc_server_add_http2_port(grpc_server *server, const char *addr);

 /* Start a server - tells all listeners to start listening */
 void grpc_server_start(grpc_server *server);

 /* Begin shutting down a server.
    After completion, no new calls or connections will be admitted.
    Existing calls will be allowed to complete.
    Send a GRPC_OP_COMPLETE event when there are no more calls being serviced.
    Shutdown is idempotent, and all tags will be notified at once if multiple
    grpc_server_shutdown_and_notify calls are made. */
 void grpc_server_shutdown_and_notify(grpc_server *server,
                                      grpc_completion_queue *cq, void *tag);

 /* Cancel all in-progress calls.
    Only usable after shutdown. */
 void grpc_server_cancel_all_calls(grpc_server *server);

 /* Destroy a server.
    Shutdown must have completed beforehand (i.e. all tags generated by
    grpc_server_shutdown_and_notify must have been received, and at least
    one call to grpc_server_shutdown_and_notify must have been made). */
 void grpc_server_destroy(grpc_server *server);

 /** Enable or disable a tracer.

     Tracers (usually controlled by the environment variable GRPC_TRACE)
     allow printf-style debugging on GRPC internals, and are useful for
     tracking down problems in the field.

     Use of this function is not strictly thread-safe, but the
     thread-safety issues raised by it should not be of concern. */
 int grpc_tracer_set_enabled(const char *name, int enabled);

 #ifdef __cplusplus
 }
 #endif

 #endif /* GRPC_GRPC_H */
	/*
	*
	* Copyright 2015, Google Inc.
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are
	* met:
	*
	* * Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* * Redistributions in binary form must reproduce the above
	* copyright notice, this list of conditions and the following disclaimer
	* in the documentation and/or other materials provided with the
	* distribution.
	* * Neither the name of Google Inc. nor the names of its
	* contributors may be used to endorse or promote products derived from
	* this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*
	*/

	#ifndef GRPC_GRPC_H
	#define GRPC_GRPC_H

	#include <grpc/status.h>

	#include <stddef.h>
	#include <grpc/support/slice.h>
	#include <grpc/support/time.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/* Completion Queues enable notification of the completion of asynchronous
	actions. */
	typedef struct grpc_completion_queue grpc_completion_queue;

	/* The Channel interface allows creation of Call objects. */
	typedef struct grpc_channel grpc_channel;

	/* A server listens to some port and responds to request calls */
	typedef struct grpc_server grpc_server;

	/* A Call represents an RPC. When created, it is in a configuration state
	allowing properties to be set until it is invoked. After invoke, the Call
	can have messages written to it and read from it. */
	typedef struct grpc_call grpc_call;

	/* Type specifier for grpc_arg */
	typedef enum {
	GRPC_ARG_STRING,
	GRPC_ARG_INTEGER,
	GRPC_ARG_POINTER
	} grpc_arg_type;

	/* A single argument... each argument has a key and a value

	A note on naming keys:
	Keys are namespaced into groups, usually grouped by library, and are
	keys for module XYZ are named XYZ.key1, XYZ.key2, etc. Module names must
	be restricted to the regex [A-Za-z][_A-Za-z0-9]{,15}.
	Key names must be restricted to the regex [A-Za-z][_A-Za-z0-9]{,47}.

	GRPC core library keys are prefixed by grpc.

	Library authors are strongly encouraged to #define symbolic constants for
	their keys so that it's possible to change them in the future. */
	typedef struct {
	grpc_arg_type type;
	char *key;
	union {
	char *string;
	int integer;
	struct {
	void *p;
	void (copy)(void *p);
	void (destroy)(void p);
	} pointer;
	} value;
	} grpc_arg;

	/** An array of arguments that can be passed around.

	Used to set optional channel-level configuration.
	These configuration options are modelled as key-value pairs as defined
	by grpc_arg; keys are strings to allow easy backwards-compatible extension
	by arbitrary parties.
	All evaluation is performed at channel creation time. */
	typedef struct {
	size_t num_args;
	grpc_arg *args;
	} grpc_channel_args;

	/* Channel argument keys: */
	/* Enable census for tracing and stats collection */
	#define GRPC_ARG_ENABLE_CENSUS "grpc.census"
	/* Maximum number of concurrent incoming streams to allow on a http2
	connection */
	#define GRPC_ARG_MAX_CONCURRENT_STREAMS "grpc.max_concurrent_streams"
	/* Maximum message length that the channel can receive */
	#define GRPC_ARG_MAX_MESSAGE_LENGTH "grpc.max_message_length"
	/* Initial sequence number for http2 transports */
	#define GRPC_ARG_HTTP2_INITIAL_SEQUENCE_NUMBER \
	"grpc.http2.initial_sequence_number"

	/* Result of a grpc call. If the caller satisfies the prerequisites of a
	particular operation, the grpc_call_error returned will be GRPC_CALL_OK.
	Receiving any other value listed here is an indication of a bug in the
	caller. */
	typedef enum grpc_call_error {
	/* everything went ok */
	GRPC_CALL_OK = 0,
	/* something failed, we don't know what */
	GRPC_CALL_ERROR,
	/* this method is not available on the server */
	GRPC_CALL_ERROR_NOT_ON_SERVER,
	/* this method is not available on the client */
	GRPC_CALL_ERROR_NOT_ON_CLIENT,
	/* this method must be called before server_accept */
	GRPC_CALL_ERROR_ALREADY_ACCEPTED,
	/* this method must be called before invoke */
	GRPC_CALL_ERROR_ALREADY_INVOKED,
	/* this method must be called after invoke */
	GRPC_CALL_ERROR_NOT_INVOKED,
	/* this call is already finished
	(writes_done or write_status has already been called) */
	GRPC_CALL_ERROR_ALREADY_FINISHED,
	/* there is already an outstanding read/write operation on the call */
	GRPC_CALL_ERROR_TOO_MANY_OPERATIONS,
	/* the flags value was illegal for this call */
	GRPC_CALL_ERROR_INVALID_FLAGS,
	/* invalid metadata was passed to this call */
	GRPC_CALL_ERROR_INVALID_METADATA
	} grpc_call_error;

	/* Write Flags: */
	/* Hint that the write may be buffered and need not go out on the wire
	immediately. GRPC is free to buffer the message until the next non-buffered
	write, or until writes_done, but it need not buffer completely or at all. */
	#define GRPC_WRITE_BUFFER_HINT (0x00000001u)
	/* Force compression to be disabled for a particular write
	(start_write/add_metadata). Illegal on invoke/accept. */
	#define GRPC_WRITE_NO_COMPRESS (0x00000002u)

	/* A buffer of bytes */
	struct grpc_byte_buffer;
	typedef struct grpc_byte_buffer grpc_byte_buffer;

	/* Sample helpers to obtain byte buffers (these will certainly move
	someplace else) */
	grpc_byte_buffer grpc_byte_buffer_create(gpr_slice slices, size_t nslices);
	grpc_byte_buffer grpc_byte_buffer_copy(grpc_byte_buffer bb);
	size_t grpc_byte_buffer_length(grpc_byte_buffer *bb);
	void grpc_byte_buffer_destroy(grpc_byte_buffer *byte_buffer);

	/* Reader for byte buffers. Iterates over slices in the byte buffer */
	struct grpc_byte_buffer_reader;
	typedef struct grpc_byte_buffer_reader grpc_byte_buffer_reader;

	/** Initialize \a reader to read over \a buffer */
	void grpc_byte_buffer_reader_init(grpc_byte_buffer_reader *reader,
	grpc_byte_buffer *buffer);

	/** Cleanup and destroy \a reader */
	void grpc_byte_buffer_reader_destroy(grpc_byte_buffer_reader *reader);

	/* At the end of the stream, returns 0. Otherwise, returns 1 and sets slice to
	be the returned slice. Caller is responsible for calling gpr_slice_unref on
	the result. */
	int grpc_byte_buffer_reader_next(grpc_byte_buffer_reader *reader,
	gpr_slice *slice);

	/* A single metadata element */
	typedef struct grpc_metadata {
	const char *key;
	const char *value;
	size_t value_length;

	/* The following fields are reserved for grpc internal use.
	There is no need to initialize them, and they will be set to garbage during
	calls to grpc. */
	struct {
	void *obfuscated[3];
	} internal_data;
	} grpc_metadata;

	/** The type of completion (for grpc_event) */
	typedef enum grpc_completion_type {
	/** Shutting down */
	GRPC_QUEUE_SHUTDOWN,
	/** No event before timeout */
	GRPC_QUEUE_TIMEOUT,
	/** Operation completion */
	GRPC_OP_COMPLETE
	} grpc_completion_type;

	/** The result of an operation.

	Returned by a completion queue when the operation started with tag. */
	typedef struct grpc_event {
	/** The type of the completion. */
	grpc_completion_type type;
	/** non-zero if the operation was successful, 0 upon failure.
	Only GRPC_OP_COMPLETE can succeed or fail. */
	int success;
	/** The tag passed to grpc_call_start_batch etc to start this operation.
	Only GRPC_OP_COMPLETE has a tag. */
	void *tag;
	} grpc_event;

	typedef struct {
	size_t count;
	size_t capacity;
	grpc_metadata *metadata;
	} grpc_metadata_array;

	void grpc_metadata_array_init(grpc_metadata_array *array);
	void grpc_metadata_array_destroy(grpc_metadata_array *array);

	typedef struct {
	char *method;
	size_t method_capacity;
	char *host;
	size_t host_capacity;
	gpr_timespec deadline;
	} grpc_call_details;

	void grpc_call_details_init(grpc_call_details *details);
	void grpc_call_details_destroy(grpc_call_details *details);

	typedef enum {
	/* Send initial metadata: one and only one instance MUST be sent for each
	call,
	unless the call was cancelled - in which case this can be skipped */
	GRPC_OP_SEND_INITIAL_METADATA = 0,
	/* Send a message: 0 or more of these operations can occur for each call */
	GRPC_OP_SEND_MESSAGE,
	/* Send a close from the server: one and only one instance MUST be sent from
	the client,
	unless the call was cancelled - in which case this can be skipped */
	GRPC_OP_SEND_CLOSE_FROM_CLIENT,
	/* Send status from the server: one and only one instance MUST be sent from
	the server
	unless the call was cancelled - in which case this can be skipped */
	GRPC_OP_SEND_STATUS_FROM_SERVER,
	/* Receive initial metadata: one and only one MUST be made on the client, must
	not be made on the server */
	GRPC_OP_RECV_INITIAL_METADATA,
	/* Receive a message: 0 or more of these operations can occur for each call */
	GRPC_OP_RECV_MESSAGE,
	/* Receive status on the client: one and only one must be made on the client.
	This operation always succeeds, meaning ops paired with this operation
	will also appear to succeed, even though they may not have. In that case
	the status will indicate some failure.
	*/
	GRPC_OP_RECV_STATUS_ON_CLIENT,
	/* Receive status on the server: one and only one must be made on the server
	*/
	GRPC_OP_RECV_CLOSE_ON_SERVER
	} grpc_op_type;

	/* Operation data: one field for each op type (except SEND_CLOSE_FROM_CLIENT
	which has
	no arguments) */
	typedef struct grpc_op {
	grpc_op_type op;
	union {
	struct {
	size_t count;
	grpc_metadata *metadata;
	} send_initial_metadata;
	grpc_byte_buffer *send_message;
	struct {
	size_t trailing_metadata_count;
	grpc_metadata *trailing_metadata;
	grpc_status_code status;
	const char *status_details;
	} send_status_from_server;
	/* ownership of the array is with the caller, but ownership of the elements
	stays with the call object (ie key, value members are owned by the call
	object, recv_initial_metadata->array is owned by the caller).
	After the operation completes, call grpc_metadata_array_destroy on this
	value, or reuse it in a future op. */
	grpc_metadata_array *recv_initial_metadata;
	grpc_byte_buffer **recv_message;
	struct {
	/* ownership of the array is with the caller, but ownership of the
	elements
	stays with the call object (ie key, value members are owned by the call
	object, trailing_metadata->array is owned by the caller).
	After the operation completes, call grpc_metadata_array_destroy on this
	value, or reuse it in a future op. */
	grpc_metadata_array *trailing_metadata;
	grpc_status_code *status;
	/* status_details is a buffer owned by the application before the op
	completes
	and after the op has completed. During the operation status_details may
	be
	reallocated to a size larger than *status_details_capacity, in which
	case
	*status_details_capacity will be updated with the new array capacity.

	Pre-allocating space:
	size_t my_capacity = 8;
	char *my_details = gpr_malloc(my_capacity);
	x.status_details = &my_details;
	x.status_details_capacity = &my_capacity;

	Not pre-allocating space:
	size_t my_capacity = 0;
	char *my_details = NULL;
	x.status_details = &my_details;
	x.status_details_capacity = &my_capacity;

	After the call:
	gpr_free(my_details); */
	char **status_details;
	size_t *status_details_capacity;
	} recv_status_on_client;
	struct {
	/* out argument, set to 1 if the call failed in any way (seen as a
	cancellation
	on the server), or 0 if the call succeeded */
	int *cancelled;
	} recv_close_on_server;
	} data;
	} grpc_op;

	/** Initialize the grpc library.

	It is not safe to call any other grpc functions before calling this.
	(To avoid overhead, little checking is done, and some things may work. We
	do not warrant that they will continue to do so in future revisions of this
	library). */
	void grpc_init(void);

	/** Shut down the grpc library.

	No memory is used by grpc after this call returns, nor are any instructions
	executing within the grpc library.
	Prior to calling, all application owned grpc objects must have been
	destroyed. */
	void grpc_shutdown(void);

	/** Create a completion queue */
	grpc_completion_queue *grpc_completion_queue_create(void);

	/** Blocks until an event is available, the completion queue is being shut down,
	or deadline is reached.

	Returns NULL on timeout, otherwise the event that occurred.

	Callers must not call grpc_completion_queue_next and
	grpc_completion_queue_pluck simultaneously on the same completion queue. */
	grpc_event grpc_completion_queue_next(grpc_completion_queue *cq,
	gpr_timespec deadline);

	/** Blocks until an event with tag 'tag' is available, the completion queue is
	being shutdown or deadline is reached.

	Returns NULL on timeout, or a pointer to the event that occurred.

	Callers must not call grpc_completion_queue_next and
	grpc_completion_queue_pluck simultaneously on the same completion queue. */
	grpc_event grpc_completion_queue_pluck(grpc_completion_queue cq, void tag,
	gpr_timespec deadline);

	/* Begin destruction of a completion queue. Once all possible events are
	drained then grpc_completion_queue_next will start to produce
	GRPC_QUEUE_SHUTDOWN events only. At that point it's safe to call
	grpc_completion_queue_destroy.

	After calling this function applications should ensure that no
	NEW work is added to be published on this completion queue. */
	void grpc_completion_queue_shutdown(grpc_completion_queue *cq);

	/* Destroy a completion queue. The caller must ensure that the queue is
	drained and no threads are executing grpc_completion_queue_next */
	void grpc_completion_queue_destroy(grpc_completion_queue *cq);

	/* Create a call given a grpc_channel, in order to call 'method'. The request
	is not sent until grpc_call_invoke is called. All completions are sent to
	'completion_queue'. */
	grpc_call grpc_channel_create_call(grpc_channel channel,
	grpc_completion_queue *completion_queue,
	const char method, const char host,
	gpr_timespec deadline);

	/* Pre-register a method/host pair on a channel. */
	void grpc_channel_register_call(grpc_channel channel, const char *method,
	const char *host);

	/* Create a call given a handle returned from grpc_channel_register_call */
	grpc_call *grpc_channel_create_registered_call(
	grpc_channel channel, grpc_completion_queue completion_queue,
	void *registered_call_handle, gpr_timespec deadline);

	/* Start a batch of operations defined in the array ops; when complete, post a
	completion of type 'tag' to the completion queue bound to the call.
	The order of ops specified in the batch has no significance.
	Only one operation of each type can be active at once in any given
	batch. */
	grpc_call_error grpc_call_start_batch(grpc_call call, const grpc_op ops,
	size_t nops, void *tag);

	/* Create a client channel to 'target'. Additional channel level configuration
	MAY be provided by grpc_channel_args, though the expectation is that most
	clients will want to simply pass NULL. See grpc_channel_args definition
	for more on this. */
	grpc_channel grpc_channel_create(const char target,
	const grpc_channel_args *args);

	/* Create a lame client: this client fails every operation attempted on it. */
	grpc_channel *grpc_lame_client_channel_create(void);

	/* Close and destroy a grpc channel */
	void grpc_channel_destroy(grpc_channel *channel);

	/* THREAD-SAFETY for grpc_call
	The following functions are thread-compatible for any given call:
	grpc_call_add_metadata
	grpc_call_invoke
	grpc_call_start_write
	grpc_call_writes_done
	grpc_call_start_read
	grpc_call_destroy
	The function grpc_call_cancel is thread-safe, and can be called at any
	point before grpc_call_destroy is called. */

	/* Error handling for grpc_call
	Most grpc_call functions return a grpc_error. If the error is not GRPC_OK
	then the operation failed due to some unsatisfied precondition.
	If a grpc_call fails, it's guaranteed that no change to the call state
	has been made. */

	/* Called by clients to cancel an RPC on the server.
	Can be called multiple times, from any thread. */
	grpc_call_error grpc_call_cancel(grpc_call *call);

	/* Called by clients to cancel an RPC on the server.
	Can be called multiple times, from any thread.
	If a status has not been received for the call, set it to the status code
	and description passed in.
	Importantly, this function does not send status nor description to the
	remote endpoint. */
	grpc_call_error grpc_call_cancel_with_status(grpc_call *call,
	grpc_status_code status,
	const char *description);

	/* Destroy a call. */
	void grpc_call_destroy(grpc_call *call);

	/* Request notification of a new call */
	grpc_call_error grpc_server_request_call(
	grpc_server server, grpc_call call, grpc_call_details details,
	grpc_metadata_array *request_metadata,
	grpc_completion_queue *cq_bound_to_call,
	grpc_completion_queue cq_for_notification, void tag_new);

	/* Registers a method in the server.
	Methods to this (host, method) pair will not be reported by
	grpc_server_request_call, but instead be reported by
	grpc_server_request_registered_call when passed the appropriate
	registered_method (as returned by this function).
	Must be called before grpc_server_start.
	Returns NULL on failure. */
	void grpc_server_register_method(grpc_server server, const char *method,
	const char *host);

	/* Request notification of a new pre-registered call */
	grpc_call_error grpc_server_request_registered_call(
	grpc_server server, void registered_method, grpc_call **call,
	gpr_timespec deadline, grpc_metadata_array request_metadata,
	grpc_byte_buffer **optional_payload,
	grpc_completion_queue *cq_bound_to_call,
	grpc_completion_queue cq_for_notification, void tag_new);

	/* Create a server. Additional configuration for each incoming channel can
	be specified with args. If no additional configuration is needed, args can
	be NULL. See grpc_channel_args for more. */
	grpc_server grpc_server_create(const grpc_channel_args args);

	/* Register a completion queue with the server. Must be done for any completion
	queue that is passed to grpc_server_request_* call. Must be performed prior
	to grpc_server_start. */
	void grpc_server_register_completion_queue(grpc_server *server,
	grpc_completion_queue *cq);

	/* Add a HTTP2 over plaintext over tcp listener.
	Returns bound port number on success, 0 on failure.
	REQUIRES: server not started */
	int grpc_server_add_http2_port(grpc_server server, const char addr);

	/* Start a server - tells all listeners to start listening */
	void grpc_server_start(grpc_server *server);

	/* Begin shutting down a server.
	After completion, no new calls or connections will be admitted.
	Existing calls will be allowed to complete.
	Send a GRPC_OP_COMPLETE event when there are no more calls being serviced.
	Shutdown is idempotent, and all tags will be notified at once if multiple
	grpc_server_shutdown_and_notify calls are made. */
	void grpc_server_shutdown_and_notify(grpc_server *server,
	grpc_completion_queue cq, void tag);

	/* Cancel all in-progress calls.
	Only usable after shutdown. */
	void grpc_server_cancel_all_calls(grpc_server *server);

	/* Destroy a server.
	Shutdown must have completed beforehand (i.e. all tags generated by
	grpc_server_shutdown_and_notify must have been received, and at least
	one call to grpc_server_shutdown_and_notify must have been made). */
	void grpc_server_destroy(grpc_server *server);

	/** Enable or disable a tracer.

	Tracers (usually controlled by the environment variable GRPC_TRACE)
	allow printf-style debugging on GRPC internals, and are useful for
	tracking down problems in the field.

	Use of this function is not strictly thread-safe, but the
	thread-safety issues raised by it should not be of concern. */
	int grpc_tracer_set_enabled(const char *name, int enabled);

	#ifdef __cplusplus
	}
	#endif

	#endif /* GRPC_GRPC_H */