Jan Tattermusch
0f1afec5a8
The very non-trivial upgrade of third_party/protobuf to 22.x This PR strives to be as small as possible and many changes that were compatible with protobuf 21.x and didn't have to be merged atomically with the upgrade were already merged. Due to the complexity of the upgrade, this PR wasn't created automatically by a tool, but manually. Subsequent upgraded of third_party/protobuf with our OSS release script should work again once this change is merged. This is best reviewed commit-by-commit, I tried to group changes in logical areas. Notable changes: - the upgrade of third_party/protobuf submodule, the bazel protobuf dependency itself - upgrade of UPB dependency to 22.x (in the past, we used to always upgrade upb to "main", but upb now has release branch as well). UPB needs to be upgraded atomically with protobuf since there's a de-facto circular dependency (new protobuf depends on new upb, which depends on new protobuf for codegen). - some protobuf and upb bazel rules are now aliases, so ` extract_metadata_from_bazel_xml.py` and `gen_upb_api_from_bazel_xml.py` had to be modified to be able to follow aliases and reach the actual aliased targets. - some protobuf public headers were renamed, so especially `src/compiler` needed to be updated to use the new headers. - protobuf and upb now both depend on utf8_range project, so since we bundle upb with grpc in some languages, we now have to bundle utf8_range as well (hence changes in build for python, PHP, objC, cmake etc). - protoc now depends on absl and utf8_range (previously protobuf had absl dependency, but not for the codegen part), so python's make_grpcio_tools.py required partial rewrite to be able to handle those dependencies in the grpcio_tools build. - many updates and fixes required for C++ distribtests (currently they all pass, but we'll probably need to follow up, make protobuf's and grpc's handling of dependencies more aligned and revisit the distribtests) - bunch of other changes mostly due to overhaul of protobuf's and upb's internal build layout. TODOs: - [DONE] make sure IWYU and clang_tidy_code pass - create a list of followups (e.g. work to reenable the few tests I had to disable and to remove workaround I had to use) - [DONE in cl/523706129] figure out problem(s) with internal import --------- Co-authored-by: Craig Tiller <ctiller@google.com> |
2 years ago | |
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BUILD |
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CMakeLists.txt |
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Makefile | [protobuf] Upgrade third_party/protobuf to 22.x (#32606) | 2 years ago |
README.md |
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greeter_client.cc |
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greeter_server.cc |
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README.md
gRPC C++ Message Compression Tutorial
Prerequisite
Make sure you have run the hello world example or understood the basics of gRPC. We will not dive into the details that have been discussed in the hello world example.
Get the tutorial source code
The example code for this and our other examples lives in the examples
directory. Clone this repository at the latest stable release tag to your local machine by running the following command:
$ git clone -b RELEASE_TAG_HERE https://github.com/grpc/grpc
Change your current directory to examples/cpp/compression
$ cd examples/cpp/compression/
Generating gRPC code
To generate the client and server side interfaces:
$ make helloworld.grpc.pb.cc helloworld.pb.cc
Which internally invokes the proto-compiler as:
$ protoc -I ../../protos/ --grpc_out=. --plugin=protoc-gen-grpc=grpc_cpp_plugin ../../protos/helloworld.proto
$ protoc -I ../../protos/ --cpp_out=. ../../protos/helloworld.proto
Writing a client and a server
The client and the server can be based on the hello world example.
Additionally, we can configure the compression settings.
In the client, set the default compression algorithm of the channel via the channel arg.
ChannelArguments args;
// Set the default compression algorithm for the channel.
args.SetCompressionAlgorithm(GRPC_COMPRESS_GZIP);
GreeterClient greeter(grpc::CreateCustomChannel(
"localhost:50051", grpc::InsecureChannelCredentials(), args));
Each call's compression configuration can be overwritten by client context.
// Overwrite the call's compression algorithm to DEFLATE.
context.set_compression_algorithm(GRPC_COMPRESS_DEFLATE);
In the server, set the default compression algorithm via the server builder.
ServerBuilder builder;
// Set the default compression algorithm for the server.
builder.SetDefaultCompressionAlgorithm(GRPC_COMPRESS_GZIP);
Each call's compression configuration can be overwritten by server context.
// Overwrite the call's compression algorithm to DEFLATE.
context->set_compression_algorithm(GRPC_COMPRESS_DEFLATE);
For a working example, refer to greeter_client.cc and greeter_server.cc.
Build and run the (compressing) client and the server by the following commands.
make
./greeter_server
./greeter_client