| // Copyright 2020 The Pigweed Authors |
| // |
| // 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 |
| // |
| // https://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. |
| |
| // Configuration macros for the pw_rpc module. |
| #pragma once |
| |
| #include <cstddef> |
| #include <type_traits> |
| |
| // In client and bidirectional RPCs, pw_rpc clients may signal that they have |
| // finished sending requests with a CLIENT_STREAM_END packet. While this can be |
| // useful in some circumstances, it is often not necessary. |
| // |
| // This option controls whether or not include a callback that is called when |
| // the client stream ends. The callback is included in all ServerReader/Writer |
| // objects as a pw::Function, so may have a significant cost. |
| #ifndef PW_RPC_CLIENT_STREAM_END_CALLBACK |
| #define PW_RPC_CLIENT_STREAM_END_CALLBACK 0 |
| #endif // PW_RPC_CLIENT_STREAM_END_CALLBACK |
| |
| // The Nanopb-based pw_rpc implementation allocates memory to use for Nanopb |
| // structs for the request and response protobufs. The template function that |
| // allocates these structs rounds struct sizes up to this value so that |
| // different structs can be allocated with the same function. Structs with sizes |
| // larger than this value cause an extra function to be created, which slightly |
| // increases code size. |
| // |
| // Ideally, this value will be set to the size of the largest Nanopb struct used |
| // as an RPC request or response. The buffer can be stack or globally allocated |
| // (see PW_RPC_NANOPB_STRUCT_BUFFER_STACK_ALLOCATE). |
| #ifndef PW_RPC_NANOPB_STRUCT_MIN_BUFFER_SIZE |
| #define PW_RPC_NANOPB_STRUCT_MIN_BUFFER_SIZE 64 |
| #endif // PW_RPC_NANOPB_STRUCT_MIN_BUFFER_SIZE |
| |
| // Enable global synchronization for RPC calls. If this is set, a backend must |
| // be configured for pw_sync:mutex. |
| #ifndef PW_RPC_USE_GLOBAL_MUTEX |
| #define PW_RPC_USE_GLOBAL_MUTEX 1 |
| #endif // PW_RPC_USE_GLOBAL_MUTEX |
| |
| // Whether pw_rpc should use dynamic memory allocation internally. If enabled, |
| // pw_rpc dynamically allocates channels and its encoding buffers. RPC users may |
| // use dynamic allocation independently of this option (e.g. to allocate pw_rpc |
| // call objects). |
| // |
| // The semantics for allocating and initializing channels change depending on |
| // this option. If dynamic allocation is disabled, pw_rpc endpoints (servers or |
| // clients) use an externally-allocated, fixed-size array of channels. |
| // That array must include unassigned channels or existing channels must be |
| // closed to add new channels. |
| // |
| // If dynamic allocation is enabled, an span of channels may be passed to the |
| // endpoint at construction, but these channels are only used to initialize its |
| // internal std::vector of channels. External channel objects are NOT used by |
| // the endpoint cannot be updated if dynamic allocation is enabled. No |
| // unassigned channels should be passed to the endpoint; they will be ignored. |
| // Any number of channels may be added to the endpoint, without closing existing |
| // channels, but adding channels will use more memory. |
| #ifndef PW_RPC_DYNAMIC_ALLOCATION |
| #define PW_RPC_DYNAMIC_ALLOCATION 0 |
| #endif // PW_RPC_DYNAMIC_ALLOCATION |
| |
| #if PW_RPC_DYNAMIC_ALLOCATION && defined(PW_RPC_ENCODING_BUFFER_SIZE_BYTES) |
| static_assert(false, |
| "PW_RPC_ENCODING_BUFFER_SIZE_BYTES cannot be set if " |
| "PW_RPC_DYNAMIC_ALLOCATION is enabled"); |
| #endif // PW_RPC_DYNAMIC_ALLOCATION && PW_RPC_ENCODING_BUFFER_SIZE_BYTES |
| |
| // Size of the global RPC packet encoding buffer in bytes. |
| #ifndef PW_RPC_ENCODING_BUFFER_SIZE_BYTES |
| #define PW_RPC_ENCODING_BUFFER_SIZE_BYTES 512 |
| #endif // PW_RPC_ENCODING_BUFFER_SIZE_BYTES |
| |
| // The log level to use for this module. Logs below this level are omitted. |
| #ifndef PW_RPC_CONFIG_LOG_LEVEL |
| #define PW_RPC_CONFIG_LOG_LEVEL PW_LOG_LEVEL_INFO |
| #endif // PW_RPC_CONFIG_LOG_LEVEL |
| |
| // The log module name to use for this module. |
| #ifndef PW_RPC_CONFIG_LOG_MODULE_NAME |
| #define PW_RPC_CONFIG_LOG_MODULE_NAME "PW_RPC" |
| #endif // PW_RPC_CONFIG_LOG_MODULE_NAME |
| |
| namespace pw::rpc::cfg { |
| |
| template <typename...> |
| constexpr std::bool_constant<PW_RPC_CLIENT_STREAM_END_CALLBACK> |
| kClientStreamEndCallbackEnabled; |
| |
| template <typename...> |
| constexpr std::bool_constant<PW_RPC_DYNAMIC_ALLOCATION> |
| kDynamicAllocationEnabled; |
| |
| inline constexpr size_t kNanopbStructMinBufferSize = |
| PW_RPC_NANOPB_STRUCT_MIN_BUFFER_SIZE; |
| |
| inline constexpr size_t kEncodingBufferSizeBytes = |
| PW_RPC_ENCODING_BUFFER_SIZE_BYTES; |
| |
| #undef PW_RPC_NANOPB_STRUCT_MIN_BUFFER_SIZE |
| #undef PW_RPC_ENCODING_BUFFER_SIZE_BYTES |
| |
| } // namespace pw::rpc::cfg |
| |
| // This option determines whether to allocate the Nanopb structs on the stack or |
| // in a global variable. Globally allocated structs are NOT thread safe, but |
| // work fine when the RPC server's ProcessPacket function is only called from |
| // one thread. |
| #ifndef PW_RPC_NANOPB_STRUCT_BUFFER_STACK_ALLOCATE |
| #define PW_RPC_NANOPB_STRUCT_BUFFER_STACK_ALLOCATE 1 |
| #endif // PW_RPC_NANOPB_STRUCT_BUFFER_STACK_ALLOCATE |
| |
| #if PW_RPC_NANOPB_STRUCT_BUFFER_STACK_ALLOCATE |
| #define _PW_RPC_NANOPB_STRUCT_STORAGE_CLASS |
| #else |
| #define _PW_RPC_NANOPB_STRUCT_STORAGE_CLASS static |
| #endif // PW_RPC_NANOPB_STRUCT_BUFFER_STACK_ALLOCATE |
| |
| #undef PW_RPC_NANOPB_STRUCT_BUFFER_STACK_ALLOCATE |