interceptor.h source code [include/grpcpp/impl/codegen/interceptor.h]

1	/*
2	*
3	* Copyright 2018 gRPC authors.
4	*
5	* Licensed under the Apache License, Version 2.0 (the "License");
6	* you may not use this file except in compliance with the License.
7	* You may obtain a copy of the License at
8	*
9	* http://www.apache.org/licenses/LICENSE-2.0
10	*
11	* Unless required by applicable law or agreed to in writing, software
12	* distributed under the License is distributed on an "AS IS" BASIS,
13	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
14	* See the License for the specific language governing permissions and
15	* limitations under the License.
16	*
17	*/
18
19	#ifndef GRPCPP_IMPL_CODEGEN_INTERCEPTOR_H
20	#define GRPCPP_IMPL_CODEGEN_INTERCEPTOR_H
21
22	#include <memory>
23
24	#include <grpc/impl/codegen/grpc_types.h>
25	#include <grpcpp/impl/codegen/byte_buffer.h>
26	#include <grpcpp/impl/codegen/config.h>
27	#include <grpcpp/impl/codegen/core_codegen_interface.h>
28	#include <grpcpp/impl/codegen/metadata_map.h>
29
30	namespace grpc {
31
32	class ChannelInterface;
33	class Status;
34
35	namespace experimental {
36
37	/// An enumeration of different possible points at which the \a Intercept
38	/// method of the \a Interceptor interface may be called. Any given call
39	/// to \a Intercept will include one or more of these hook points, and
40	/// each hook point makes certain types of information available to the
41	/// interceptor.
42	/// In these enumeration names, PRE_SEND means that an interception has taken
43	/// place between the time the application provided a certain type of data
44	/// (e.g., initial metadata, status) and the time that that data goes to the
45	/// other side. POST_SEND means that the data has been committed for going to
46	/// the other side (even if it has not yet been received at the other side).
47	/// PRE_RECV means an interception between the time that a certain
48	/// operation has been requested and it is available. POST_RECV means that a
49	/// result is available but has not yet been passed back to the application.
50	/// A batch of interception points will only contain either PRE or POST hooks
51	/// but not both types. For example, a batch with PRE_SEND hook points will not
52	/// contain POST_RECV or POST_SEND ops. Likewise, a batch with POST_ ops can*
53	/// not contain PRE_ ops.*
54	enum class InterceptionHookPoints {
55	/// The first three in this list are for clients and servers
56	PRE_SEND_INITIAL_METADATA,
57	PRE_SEND_MESSAGE,
58	POST_SEND_MESSAGE,
59	PRE_SEND_STATUS, // server only
60	PRE_SEND_CLOSE, // client only: WritesDone for stream; after write in unary
61	/// The following three are for hijacked clients only. A batch with PRE_RECV_*
62	/// hook points will never contain hook points of other types.
63	PRE_RECV_INITIAL_METADATA,
64	PRE_RECV_MESSAGE,
65	PRE_RECV_STATUS,
66	/// The following two are for all clients and servers
67	POST_RECV_INITIAL_METADATA,
68	POST_RECV_MESSAGE,
69	POST_RECV_STATUS, // client only
70	POST_RECV_CLOSE, // server only
71	/// This is a special hook point available to both clients and servers when
72	/// TryCancel() is performed.
73	/// - No other hook points will be present along with this.
74	/// - It is illegal for an interceptor to block/delay this operation.
75	/// - ALL interceptors see this hook point irrespective of whether the
76	/// RPC was hijacked or not.
77	PRE_SEND_CANCEL,
78	NUM_INTERCEPTION_HOOKS
79	};
80
81	/// Class that is passed as an argument to the \a Intercept method
82	/// of the application's \a Interceptor interface implementation. It has five
83	/// purposes:
84	/// 1. Indicate which hook points are present at a specific interception
85	/// 2. Allow an interceptor to inform the library that an RPC should
86	/// continue to the next stage of its processing (which may be another
87	/// interceptor or the main path of the library)
88	/// 3. Allow an interceptor to hijack the processing of the RPC (only for
89	/// client-side RPCs with PRE_SEND_INITIAL_METADATA) so that it does not
90	/// proceed with normal processing beyond that stage
91	/// 4. Access the relevant fields of an RPC at each interception point
92	/// 5. Set some fields of an RPC at each interception point, when possible
93	class InterceptorBatchMethods {
94	public:
95	virtual ~InterceptorBatchMethods() {}
96	/// Determine whether the current batch has an interception hook point
97	/// of type \a type
98	virtual bool QueryInterceptionHookPoint(InterceptionHookPoints type) = `0`;
99	/// Signal that the interceptor is done intercepting the current batch of the
100	/// RPC. Every interceptor must either call Proceed or Hijack on each
101	/// interception. In most cases, only Proceed will be used. Explicit use of
102	/// Proceed is what enables interceptors to delay the processing of RPCs
103	/// while they perform other work.
104	/// Proceed is a no-op if the batch contains PRE_SEND_CANCEL. Simply returning
105	/// from the Intercept method does the job of continuing the RPC in this case.
106	/// This is because PRE_SEND_CANCEL is always in a separate batch and is not
107	/// allowed to be delayed.
108	virtual void Proceed() = `0`;
109	/// Indicate that the interceptor has hijacked the RPC (only valid if the
110	/// batch contains send_initial_metadata on the client side). Later
111	/// interceptors in the interceptor list will not be called. Later batches
112	/// on the same RPC will go through interception, but only up to the point
113	/// of the hijacking interceptor.
114	virtual void Hijack() = `0`;
115
116	/// Send Message Methods
117	/// GetSerializedSendMessage and GetSendMessage/ModifySendMessage are the
118	/// available methods to view and modify the request payload. An interceptor
119	/// can access the payload in either serialized form or non-serialized form
120	/// but not both at the same time.
121	/// gRPC performs serialization in a lazy manner, which means
122	/// that a call to GetSerializedSendMessage will result in a serialization
123	/// operation if the payload stored is not in the serialized form already; the
124	/// non-serialized form will be lost and GetSendMessage will no longer return
125	/// a valid pointer, and this will remain true for later interceptors too.
126	/// This can change however if ModifySendMessage is used to replace the
127	/// current payload. Note that ModifySendMessage requires a new payload
128	/// message in the non-serialized form. This will overwrite the existing
129	/// payload irrespective of whether it had been serialized earlier. Also note
130	/// that gRPC Async API requires early serialization of the payload which
131	/// means that the payload would be available in the serialized form only
132	/// unless an interceptor replaces the payload with ModifySendMessage.
133
134	/// Returns a modifable ByteBuffer holding the serialized form of the message
135	/// that is going to be sent. Valid for PRE_SEND_MESSAGE interceptions.
136	/// A return value of nullptr indicates that this ByteBuffer is not valid.
137	virtual ByteBuffer* GetSerializedSendMessage() = `0`;
138
139	/// Returns a non-modifiable pointer to the non-serialized form of the message
140	/// to be sent. Valid for PRE_SEND_MESSAGE interceptions. A return value of
141	/// nullptr indicates that this field is not valid.
142	virtual const void* GetSendMessage() = `0`;
143
144	/// Overwrites the message to be sent with \a message. \a message should be in
145	/// the non-serialized form expected by the method. Valid for PRE_SEND_MESSAGE
146	/// interceptions. Note that the interceptor is responsible for maintaining
147	/// the life of the message till it is serialized or it receives the
148	/// POST_SEND_MESSAGE interception point, whichever happens earlier. The
149	/// modifying interceptor may itself force early serialization by calling
150	/// GetSerializedSendMessage.
151	virtual void ModifySendMessage(const void* message) = `0`;
152
153	/// Checks whether the SEND MESSAGE op succeeded. Valid for POST_SEND_MESSAGE
154	/// interceptions.
155	virtual bool GetSendMessageStatus() = `0`;
156
157	/// Returns a modifiable multimap of the initial metadata to be sent. Valid
158	/// for PRE_SEND_INITIAL_METADATA interceptions. A value of nullptr indicates
159	/// that this field is not valid.
160	virtual std::multimap<grpc::string, grpc::string>*
161	GetSendInitialMetadata() = `0`;
162
163	/// Returns the status to be sent. Valid for PRE_SEND_STATUS interceptions.
164	virtual Status GetSendStatus() = `0`;
165
166	/// Overwrites the status with \a status. Valid for PRE_SEND_STATUS
167	/// interceptions.
168	virtual void ModifySendStatus(const Status& status) = `0`;
169
170	/// Returns a modifiable multimap of the trailing metadata to be sent. Valid
171	/// for PRE_SEND_STATUS interceptions. A value of nullptr indicates
172	/// that this field is not valid.
173	virtual std::multimap<grpc::string, grpc::string>*
174	GetSendTrailingMetadata() = `0`;
175
176	/// Returns a pointer to the modifiable received message. Note that the
177	/// message is already deserialized but the type is not set; the interceptor
178	/// should static_cast to the appropriate type before using it. This is valid
179	/// for PRE_RECV_MESSAGE and POST_RECV_MESSAGE interceptions; nullptr for not
180	/// valid
181	virtual void* GetRecvMessage() = `0`;
182
183	/// Returns a modifiable multimap of the received initial metadata.
184	/// Valid for PRE_RECV_INITIAL_METADATA and POST_RECV_INITIAL_METADATA
185	/// interceptions; nullptr if not valid
186	virtual std::multimap<grpc::string_ref, grpc::string_ref>*
187	GetRecvInitialMetadata() = `0`;
188
189	/// Returns a modifiable view of the received status on PRE_RECV_STATUS and
190	/// POST_RECV_STATUS interceptions; nullptr if not valid.
191	virtual Status* GetRecvStatus() = `0`;
192
193	/// Returns a modifiable multimap of the received trailing metadata on
194	/// PRE_RECV_STATUS and POST_RECV_STATUS interceptions; nullptr if not valid
195	virtual std::multimap<grpc::string_ref, grpc::string_ref>*
196	GetRecvTrailingMetadata() = `0`;
197
198	/// Gets an intercepted channel. When a call is started on this interceptor,
199	/// only interceptors after the current interceptor are created from the
200	/// factory objects registered with the channel. This allows calls to be
201	/// started from interceptors without infinite regress through the interceptor
202	/// list.
203	virtual std::unique_ptr<ChannelInterface> GetInterceptedChannel() = `0`;
204
205	/// On a hijacked RPC, an interceptor can decide to fail a PRE_RECV_MESSAGE
206	/// op. This would be a signal to the reader that there will be no more
207	/// messages, or the stream has failed or been cancelled.
208	virtual void FailHijackedRecvMessage() = `0`;
209
210	/// On a hijacked RPC/ to-be hijacked RPC, this can be called to fail a SEND
211	/// MESSAGE op
212	virtual void FailHijackedSendMessage() = `0`;
213	};
214
215	/// Interface for an interceptor. Interceptor authors must create a class
216	/// that derives from this parent class.
217	class Interceptor {
218	public:
219	virtual ~Interceptor() {}
220
221	/// The one public method of an Interceptor interface. Override this to
222	/// trigger the desired actions at the hook points described above.
223	virtual void Intercept(InterceptorBatchMethods* methods) = `0`;
224	};
225
226	} // namespace experimental
227	} // namespace grpc
228
229	#endif // GRPCPP_IMPL_CODEGEN_INTERCEPTOR_H
230

source code of include/grpcpp/impl/codegen/interceptor.h