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44 Commits
v0.2.14 ... master

Author SHA1 Message Date
holobay 5994b54c68 Bump up the version to v0.15.5 2025-04-01 23:16:01 +03:00
Tao He ba6216385f Bump up the version to v0.15.4 
Signed-off-by: Tao He <linzhu.ht@alibaba-inc.com>
 2023-12-20 18:28:15 +08:00
Tao He 5ccaccec43
Enable ipv6 endpoints support (#262) 
Resolves #250

Signed-off-by: Tao He <linzhu.ht@alibaba-inc.com>
 2023-12-20 17:56:18 +08:00
Tao He b82efea7a9
Enable -fno-exceptions support (#261) 
Resolves #259

Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-12-20 09:18:10 +08:00
Tao He 5aff57cce5
Fixes the noisy logs when meets invalid addresses. (#260) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-12-20 00:32:00 +08:00
penfree 84343ca9f0
Fix: keepalive exit without any message due to clock drift (#258) 
Fix:  #257

Co-authored-by: qiupengfei <qiupengfei@baidu.com>
 2023-12-19 23:45:19 +08:00
Diskein 59635008c0
Fixes compiler errors (#254) 
Co-authored-by: Denis Kalantaevsky <dkalantaevsky@gmail.com>
Co-authored-by: Tao He <sighingnow@gmail.com>
 2023-10-05 22:59:06 -05:00
Clément Péron 47f0d9e032
cmake: fix when cross compiling (#252) 
To compile protobuf, CMake needs to use the protoc and grpc-cpp-plugin
in the host architecture.

Unfortunately by default the protoc and grpc-cpp-plugin are the one for
the Target.
And since gRPC 1.52 they are explictly not exported when Cross Compiling
to avoid architecture mismatch.
See:
831d2a6855

Fix this by looking at the correct program

See example.
https://github.com/grpc/grpc/blob/master/examples/cpp/cmake/common.cmake#L54-L62

Signed-off-by: Clément Péron <peron.clem@gmail.com>
 2023-09-25 09:49:24 +08:00
Tao He 6fc1f164c0
Fixes the extra-smi error in code generated by protobuf (#251) 
Signed-off-by: Tao He <linzhu.ht@alibaba-inc.com>
 2023-09-19 20:42:49 +08:00
Tao He e31ac4d4ca Bump up etcd-cpp-apiv3 to v0.15.3 
Signed-off-by: Tao He <linzhu.ht@alibaba-inc.com>
 2023-07-27 11:28:00 +08:00
JonLiu1993 e5dc903a5d
Fix error LNK1107 and undeclared identifier 'IPPROTO_TCP' (#244) 
When I [Update](https://github.com/microsoft/vcpkg/pull/32747)
etcd-cpp-apiv3 version from 0.14.2 to 0.15.2, I get two build error:
````
fatal error LNK1107: invalid or corrupt file: cannot read at 0x330
````
````
error: use of undeclared identifier 'IPPROTO_TCP'
````

The first error was because the target `etcd-cpp-api-core-objects`
linked the wrong `libprotobufd.dll` file instead of the .lib file, I
used the usage provided by vcpkg to link the correct .lib file to fix
this error.

Another error was because `IPPROTO_TCP` was missing declaration
`"<netinet/in.h>"`, I added it to fix this error.

---------

Signed-off-by: Tao He <linzhu.ht@alibaba-inc.com>
Co-authored-by: Zhao Liu <v-zhli17@microsoft.com>
Co-authored-by: Tao He <linzhu.ht@alibaba-inc.com>
 2023-07-27 11:27:19 +08:00
Tao He 0eee75b52e
KeepAlive: auto grant a new lease if 0 is given as lease id (#242) 
Fixes #3037

Signed-off-by: Tao He <linzhu.ht@alibaba-inc.com>
 2023-07-20 14:21:27 +08:00
Tao He 15c022e36c Bump up etcd-cpp-apiv3 to v0.15.2 
Signed-off-by: Tao He <linzhu.ht@alibaba-inc.com>
 2023-07-17 10:44:06 +08:00
Tao He 3d344190d7
Fixes txn delete response to keep backwards compatibility (#239) 
Signed-off-by: Tao He <linzhu.ht@alibaba-inc.com>
 2023-07-17 10:43:19 +08:00
Tao He 2c0d824ebe Bump up etcd-cpp-apiv3 to v0.15.1 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-07-15 20:23:01 +08:00
Tao He 068f37ba5c
Fixes the watcher cannot be cancelled issue with etcd 3.x (#238) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-07-15 20:00:16 +08:00
Tao He 153546f965
Refactor the implementation of etcd transactions. (#236) 
Fixes #234.

Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-07-15 17:07:34 +08:00
Tao He 204038c4bc Fixes format issues 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-07-01 21:03:20 +08:00
Tao He d57dff2f86 Bump up etcd-cpp-apiv3 to v0.15.0 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-07-01 20:50:22 +08:00
Tao He 1d5128a7e8
Format source code using clformat (#233) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-07-01 20:49:16 +08:00
Tao He fe9f17e61e
Fixes a possible bug about watcher's id (#232) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-07-01 18:41:33 +08:00
Tao He 32fae70113
Fixes the implementation of Observe() (#231) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-07-01 13:30:43 +08:00
Tao He 09f665fe3e Format readme.md 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-06-30 15:37:27 +08:00
Tao He fcc5807748 Fixes a typo in README (fixes #229). 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-06-30 15:34:54 +08:00
Tao He dd2c0276aa
Find protobuf in CONFIG mode to fixes the absl dependencies. (#225) 
See also: https://github.com/protocolbuffers/protobuf/issues/12292.

Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-06-15 13:47:39 +08:00
Tao He a8d5980c76
Include watch_id in the response (#223) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-05-16 09:45:51 +08:00
Tao He 0ed7bee2c8
Merge the .hpp/.cpp into one to optimize build time (#220) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-05-11 14:09:41 +08:00
Tao He e771d2f6da
Drop the boost dependency on the sync runtime (#216) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-04-28 20:38:13 +08:00
Tao He 5e2884f362 Bump up etcd-cpp-apiv3 to v0.14.3 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-04-27 11:07:10 +08:00
Tao He ebf9c493f1
Get and list keys with specified revision. (#215) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-04-26 21:06:23 +08:00
Tao He a288eb5db4 Add the test case for issue #212 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-04-21 16:53:19 +08:00
Tao He 24b1414118 Ubuntu 18.04 is no longer available on Github actions 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-04-20 21:16:00 +08:00
Tao He 91c64e18d3 The grpc_cpp_plugin may failed to be found, and leads to conflicts 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-04-20 20:42:10 +08:00
Tao He af0c96f6ba
The grpc_cpp_plugin may failed to be found (#211) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-04-20 19:50:27 +08:00
Tao He 6e4b45f986 Bump up the version to v0.14.2 2023-03-19 11:32:49 +08:00
Tao He c72e072f77
Add an option `BUILD_ETCD_CORE_ONLY=ON/OFF` to select the runtime (#208) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-03-19 11:31:57 +08:00
Tao He 16a9638e3e Fixes a markup error in README.md 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-03-15 10:12:59 +08:00
Tao He 66cf911654 Bump up the version to v0.14.1 as a bugfix release 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-03-14 20:41:03 +08:00
Tao He 9fc0f37ef7
Fixes a bug in lease action when grpc timeout is set (#204) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-03-14 20:37:34 +08:00
Tao He 5e27ac33c6
Fixes the segmentation fault error in watcher (#206) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-03-14 20:36:53 +08:00
Tao He f0f9c4e8c2
Enhance the campaign test and document the behaviour when timeout is set (#205) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-03-14 19:43:37 +08:00
Tao He d27f0b9e81 Bump up the version to v0.14.0 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-03-10 15:06:11 +08:00
Tao He cad42fdf07
Fixes the wrong key setup in watcher (#201) 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-03-10 15:05:28 +08:00
Tao He 639c7e9f24 Fixes the wrong tag name by forceing the release version 
Signed-off-by: Tao He <sighingnow@gmail.com>
 2023-03-08 11:57:25 +08:00
94 changed files with 7856 additions and 6579 deletions
Show Stats Expand all files Collapse all files

15
.clang-format Normal file
View File

@ -0,0 +1,15 @@
BasedOnStyle: Google
DerivePointerAlignment: false
PointerAlignment: Left
Cpp11BracedListStyle: true
IndentCaseLabels: false
AllowShortBlocksOnASingleLine: true
AllowShortLoopsOnASingleLine: false
AllowShortIfStatementsOnASingleLine: false
Standard: 'Cpp11'
SpaceAfterCStyleCast: true
AlignAfterOpenBracket: Align
SortIncludes: true
IncludeBlocks: Preserve
ForEachMacros:
- BOOST_FOREACH

85
.github/workflows/build-test.yml vendored
View File

@ -13,17 +13,11 @@ jobs:
build:
runs-on: ${{ matrix.os }}
strategy:
fail-fast: false
matrix:
os: [ubuntu-18.04, ubuntu-20.04, ubuntu-22.04, macos-10.15, macos-11, macos-12]
etcd: [v3.2.26, v3.3.11, v3.4.13, v3.5.7]
os: [ubuntu-20.04, ubuntu-22.04, macos-11, macos-12]
etcd: [v3.2.32, v3.3.27, v3.4.27, v3.5.9]
exclude:
- os: ubuntu-18.04
etcd: v3.3.11
- os: ubuntu-18.04
etcd: v3.4.13
- os: ubuntu-18.04
etcd: v3.5.7
- os: ubuntu-20.04
etcd: v3.2.26
- os: ubuntu-20.04
@ -38,13 +32,6 @@ jobs:
- os: ubuntu-22.04
etcd: v3.5.7
- os: macos-10.15
etcd: v3.2.26
- os: macos-10.15
etcd: v3.3.11
- os: macos-10.15
etcd: v3.4.13
- os: macos-11
etcd: v3.2.26
- os: macos-11
@ -95,6 +82,10 @@ jobs:
wget https://github.com/Kitware/CMake/releases/download/v3.19.3/cmake-3.19.3-Linux-x86_64.sh
sudo bash cmake-3.19.3-Linux-x86_64.sh --prefix /usr --skip-license
# install clang-format
sudo curl -L https://github.com/muttleyxd/clang-tools-static-binaries/releases/download/master-1d7ec53d/clang-format-11_linux-amd64 --output /usr/bin/clang-format
sudo chmod +x /usr/bin/clang-format
- name: Install grpc v1.27.x for Ubuntu 18.04
if: matrix.os == 'ubuntu-18.04'
run: |
@ -183,7 +174,7 @@ jobs:
if: false
uses: mxschmitt/action-tmate@v3
- name: Build
- name: CMake
run: |
export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/usr/local/lib:/usr/local/lib/x86_64-linux-gnu
@ -195,6 +186,42 @@ jobs:
-DBUILD_ETCD_TESTS=ON \
-DCMAKE_C_COMPILER_LAUNCHER=ccache \
-DCMAKE_CXX_COMPILER_LAUNCHER=ccache
- name: Format
if: runner.os == 'Linux'
run: |
cd build
function prepend() { while read line; do echo "${1}${line}"; done; }
make etcd_cpp_apiv3_clformat
GIT_DIFF=$(git diff --ignore-submodules)
if [[ -n $GIT_DIFF ]]; then
echo "~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~"
echo "| clang-format failures found!"
echo "|"
echo "$GIT_DIFF" | prepend "| "
echo "|"
echo "| Run: "
echo "|"
echo "| make etcd_cpp_apiv3_clformat"
echo "|"
echo "| to fix this error."
echo "|"
echo "| Ensure you are working with clang-format-11, which can be obtained from"
echo "|"
echo "| https://github.com/muttleyxd/clang-tools-static-binaries/releases "
echo "|"
echo "~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~"
exit -1
fi
- name: Build
run: |
export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/usr/local/lib:/usr/local/lib/x86_64-linux-gnu
cd build
make -j`nproc`
sudo make install
@ -216,6 +243,10 @@ jobs:
# tests without auth
echo "Run the etcd resolver test ........................."
# there's no ipv6 on github CI runner
# ./build/bin/EtcdResolverTest
echo "Run the etcd sync test ........................."
./build/bin/EtcdSyncTest
@ -372,6 +403,26 @@ jobs:
killall -TERM etcd
sleep 5
- name: Etcd Member test
run: |
killall -TERM etcd || true
sleep 5
export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/usr/local/lib:/usr/local/lib/x86_64-linux-gnu
# use etcd v3 api
export ETCDCTL_API="3"
rm -rf default.etcd
/usr/local/bin/etcd &
sleep 5
./build/bin/EtcdMemberTest
killall -TERM etcd
sleep 5
- name: Check ccache
run: |
ccache --show-stats

134
CMakeLists.txt
View File

@ -4,8 +4,8 @@ project (etcd-cpp-api)
set(CMAKE_EXPORT_COMPILE_COMMANDS ON)
set(etcd-cpp-api_VERSION_MAJOR 0)
set(etcd-cpp-api_VERSION_MINOR 2)
set(etcd-cpp-api_VERSION_PATCH 14)
set(etcd-cpp-api_VERSION_MINOR 15)
set(etcd-cpp-api_VERSION_PATCH 5)
set(etcd-cpp-api_VERSION ${etcd-cpp-api_VERSION_MAJOR}.${etcd-cpp-api_VERSION_MINOR}.${etcd-cpp-api_VERSION_PATCH})
set(CMAKE_PROJECT_HOMEPAGE_URL https://github.com/etcd-cpp-apiv3/etcd-cpp-apiv3)
@ -26,7 +26,9 @@ if(NOT CMAKE_BUILD_TYPE AND NOT CMAKE_CONFIGURATION_TYPES)
)
endif()
option(BUILD_WITH_NO_EXCEPTIONS "Build etcd-cpp-apiv3 with disabling exception handling, i.e., -fno-exceptions" OFF)
option(BUILD_SHARED_LIBS "Build etcd-cpp-apiv3 shared libraries" ON)
option(BUILD_ETCD_CORE_ONLY "Build etcd-cpp-apiv3 core library (the synchronous runtime) only" OFF)
option(BUILD_ETCD_TESTS "Build etcd-cpp-apiv3 test cases" OFF)
option(CMAKE_POSITION_INDEPENDENT_CODE "Build etcd-cpp-apiv3 with -fPIC" ON)
option(ETCD_W_STRICT "Build etcd-cpp-apiv3 with -Werror" ON)
@ -87,7 +89,21 @@ macro(use_cxx target)
endif()
endmacro(use_cxx)
find_package(Boost REQUIRED COMPONENTS system thread random)
macro(set_exceptions target)
if(BUILD_WITH_NO_EXCEPTIONS)
if(CMAKE_CXX_COMPILER_ID STREQUAL "GNU")
target_compile_options(${target} PRIVATE "-fno-exceptions")
elseif(CMAKE_CXX_COMPILER_ID STREQUAL "Clang")
target_compile_options(${target} PRIVATE "-fno-exceptions")
elseif(CMAKE_CXX_COMPILER_ID STREQUAL "AppleClang")
target_compile_options(${target} PRIVATE "-fno-exceptions")
elseif(CMAKE_CXX_COMPILER_ID STREQUAL "MSVC")
target_compile_options(${target} PRIVATE "/EHs-c-")
endif()
target_compile_definitions(${target} PUBLIC -D_ETCD_NO_EXCEPTIONS)
endif()
endmacro(set_exceptions)
if(APPLE)
# If we're on OS X check for Homebrew's copy of OpenSSL instead of Apple's
if(NOT OpenSSL_DIR)
@ -106,7 +122,10 @@ if(APPLE)
endif()
find_package(OpenSSL REQUIRED)
find_package(Protobuf REQUIRED)
find_package(Protobuf CONFIG QUIET)
if (NOT Protobuf_FOUND)
find_package(Protobuf REQUIRED)
endif()
if(Protobuf_PROTOC_EXECUTABLE)
if(NOT TARGET protobuf::protoc)
add_executable(protobuf::protoc IMPORTED)
@ -116,19 +135,35 @@ if(Protobuf_PROTOC_EXECUTABLE)
endif()
endif()
endif()
find_package(cpprestsdk QUIET)
if(cpprestsdk_FOUND)
set(CPPREST_INCLUDE_DIR)
set(CPPREST_LIB cpprestsdk::cpprest)
else()
find_library(CPPREST_LIB NAMES cpprest)
find_path(CPPREST_INCLUDE_DIR NAMES cpprest/http_client.h)
# When cross compiling we look for the native protoc compiler
# overwrite protobuf::protoc with the proper protoc
if(CMAKE_CROSSCOMPILING)
find_program(Protobuf_PROTOC_EXECUTABLE REQUIRED NAMES protoc)
if(NOT TARGET protobuf::protoc)
add_executable(protobuf::protoc IMPORTED)
endif()
set_target_properties(protobuf::protoc PROPERTIES
IMPORTED_LOCATION "${Protobuf_PROTOC_EXECUTABLE}")
endif()
find_package(gRPC QUIET)
if(gRPC_FOUND)
if(gRPC_FOUND AND TARGET gRPC::grpc)
# When cross compiling we look for the native grpc_cpp_plugin
if(CMAKE_CROSSCOMPILING)
find_program(GRPC_CPP_PLUGIN REQUIRED NAMES grpc_cpp_plugin)
if(NOT TARGET gRPC::grpc_cpp_plugin)
add_executable(gRPC::grpc_cpp_plugin IMPORTED)
endif()
set_target_properties(gRPC::grpc_cpp_plugin PROPERTIES
IMPORTED_LOCATION "${GRPC_CPP_PLUGIN}")
elseif(TARGET gRPC::grpc_cpp_plugin)
get_target_property(GRPC_CPP_PLUGIN gRPC::grpc_cpp_plugin LOCATION)
else()
message(FATAL_ERROR "Found gRPC but no gRPC CPP plugin defined")
endif()
set(GRPC_LIBRARIES gRPC::gpr gRPC::grpc gRPC::grpc++)
get_target_property(GRPC_CPP_PLUGIN gRPC::grpc_cpp_plugin LOCATION)
get_target_property(GRPC_INCLUDE_DIR gRPC::grpc INTERFACE_INCLUDE_DIRECTORIES)
else()
include(${CMAKE_CURRENT_SOURCE_DIR}/cmake/FindGRPC.cmake)
@ -147,13 +182,36 @@ include(${CMAKE_CURRENT_SOURCE_DIR}/cmake/GenerateProtobufGRPC.cmake)
if(gRPC_VERSION VERSION_LESS "1.21" OR gRPC_VERSION VERSION_GREATER "1.31")
add_definitions(-DWITH_GRPC_CHANNEL_CLASS)
endif()
if(gRPC_VERSION VERSION_LESS "1.17")
add_definitions(-DWITH_GRPC_CREATE_CHANNEL_INTERNAL_UNIQUE_POINTER)
endif()
# will set `PROTOBUF_GENERATES`, indicates all generated .cc files, and a target `protobuf_generates`.
include(${CMAKE_CURRENT_SOURCE_DIR}/cmake/GenerateProtobuf.cmake)
add_subdirectory(${CMAKE_CURRENT_SOURCE_DIR}/proto)
include_directories(SYSTEM ${Boost_INCLUDE_DIR}
${CPPREST_INCLUDE_DIR}
# test cases requires the async runtime
if(BUILD_ETCD_TESTS)
message(STATUS "Building etcd-cpp-apiv3 with tests requires the async runtime, "
"setting BUILD_ETCD_CORE_ONLY to ON ...")
set(BUILD_ETCD_CORE_ONLY OFF)
endif()
if (NOT BUILD_ETCD_CORE_ONLY)
find_package(cpprestsdk QUIET)
if(cpprestsdk_FOUND)
set(CPPREST_INCLUDE_DIR)
set(CPPREST_LIB cpprestsdk::cpprest)
else()
find_library(CPPREST_LIB NAMES cpprest)
find_path(CPPREST_INCLUDE_DIR NAMES cpprest/http_client.h)
endif()
else()
set(CPPREST_INCLUDE_DIR)
set(CPPREST_LIB)
endif()
include_directories(SYSTEM ${CPPREST_INCLUDE_DIR}
${PROTOBUF_INCLUDE_DIRS}
${GRPC_INCLUDE_DIR}
${OPENSSL_INCLUDE_DIR})
@ -166,9 +224,13 @@ if(NOT CMAKE_CXX_COMPILER_ID MATCHES "MSVC")
endif()
check_cxx_compiler_flag(-Wno-c++17-extensions W_NO_CPP17_EXTENSIONS)
check_cxx_compiler_flag(-Wno-extra-semi W_NO_EXTRA_SEMI)
if(W_NO_CPP17_EXTENSIONS)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Wno-c++17-extensions")
endif()
if(W_NO_EXTRA_SEMI)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -Wno-extra-semi")
endif()
set(CMAKE_RUNTIME_OUTPUT_DIRECTORY ${PROJECT_BINARY_DIR}/bin)
@ -178,16 +240,20 @@ if(BUILD_ETCD_TESTS)
add_subdirectory(tst)
endif()
install (FILES ${CMAKE_CURRENT_SOURCE_DIR}/etcd/Client.hpp
${CMAKE_CURRENT_SOURCE_DIR}/etcd/KeepAlive.hpp
${CMAKE_CURRENT_SOURCE_DIR}/etcd/SyncClient.hpp
${CMAKE_CURRENT_SOURCE_DIR}/etcd/Response.hpp
${CMAKE_CURRENT_SOURCE_DIR}/etcd/Value.hpp
${CMAKE_CURRENT_SOURCE_DIR}/etcd/Watcher.hpp
DESTINATION include/etcd)
install (FILES ${CMAKE_CURRENT_SOURCE_DIR}/etcd/v3/action_constants.hpp
${CMAKE_CURRENT_SOURCE_DIR}/etcd/v3/Transaction.hpp
DESTINATION include/etcd/v3)
install(FILES ${CMAKE_CURRENT_SOURCE_DIR}/etcd/KeepAlive.hpp
${CMAKE_CURRENT_SOURCE_DIR}/etcd/SyncClient.hpp
${CMAKE_CURRENT_SOURCE_DIR}/etcd/Response.hpp
${CMAKE_CURRENT_SOURCE_DIR}/etcd/Value.hpp
${CMAKE_CURRENT_SOURCE_DIR}/etcd/Watcher.hpp
DESTINATION include/etcd)
if(NOT BUILD_ETCD_CORE_ONLY)
install(FILES ${CMAKE_CURRENT_SOURCE_DIR}/etcd/Client.hpp
DESTINATION include/etcd)
endif()
install(FILES ${CMAKE_CURRENT_SOURCE_DIR}/etcd/v3/action_constants.hpp
${CMAKE_CURRENT_SOURCE_DIR}/etcd/v3/Transaction.hpp
${CMAKE_CURRENT_SOURCE_DIR}/etcd/v3/Member.hpp
DESTINATION include/etcd/v3)
configure_file(etcd-cpp-api-config.in.cmake
"${PROJECT_BINARY_DIR}/etcd-cpp-api-config.cmake" @ONLY
@ -205,6 +271,17 @@ install(EXPORT etcd-targets
DESTINATION ${CMAKE_INSTALL_LIBDIR}/cmake/etcd-cpp-api
)
file(GLOB_RECURSE FILES_NEED_FORMAT
"etcd/*.hpp"
"src/*.cpp"
"tst/*.cpp"
)
add_custom_target(etcd_cpp_apiv3_clformat
COMMAND clang-format --style=file -i ${FILES_NEED_FORMAT}
COMMENT "Running clang-format, using clang-format-11 from https://github.com/muttleyxd/clang-tools-static-binaries/releases"
VERBATIM)
# deb/rpc packaging for Linux
set(CPACK_PACKAGE_NAME ${CMAKE_PROJECT_NAME})
@ -250,7 +327,7 @@ set(CPACK_DEBIAN_PACKAGE_DEPENDS "libcpprest-dev,
libgrpc++-dev,
libssl-dev")
set(CPACK_DEBIAN_PACKAGE_UPSTREAM_COPYRIGHT_YEAR 2016-2021)
set(CPACK_DEBIAN_PACKAGE_UPSTREAM_COPYRIGHT_YEAR 2016-2023)
set(CPACK_DEBIAN_PACKAGE_LICENSE bsd)
set(CPACK_DEBIAN_PACKAGE_MAINTAINER "Tao He <sighingnow@gmail.com>")
set(CPACK_DEBIAN_PACKAGE_HOMEPAGE "https://github.com/etcd-cpp-apiv3/etcd-cpp-apiv3/")
@ -261,14 +338,15 @@ set(CPACK_DEBIAN_PACKAGE_INSTALL "/usr/lib/lib*.so*"
"/usr/include/etcd/*.hpp"
"/usr/include/etcd/v3/action_constants.hpp"
"/usr/include/etcd/v3/Transaction.hpp"
"/usr/include/etcd/v3/Member.hpp"
)
set(CPACK_DEBIAN_PACKAGE_BUILD_NUMBER_PREFIX "")
set(CPACK_DEBIAN_PACKAGE_BUILD_NUMBER 0)
set(CPACK_DEBIAN_PACKAGE_DISTRIBUTION "focal")
set(DPUT_HOST "ppa:graphscope/etcd-cpp-api")
set(DPUT_SNAPSHOT_HOST "ppa:graphscope/etcd-cpp-api")
set(DPUT_HOST "ppa:etcd-cpp-apiv3/etcd-cpp-api")
set(DPUT_SNAPSHOT_HOST "ppa:etcd-cpp-apiv3/etcd-cpp-api")
find_program(DEBUILD_EXECUTABLE debuild)
find_program(DPUT_EXECUTABLE dput)

249
README.md
View File

@ -28,7 +28,7 @@ i.e., `ETCDCTL_API=3`.
## Requirements
1. boost and openssl
1. boost and openssl (**Note that boost is only required if you need the asynchronous runtime**)
+ On Ubuntu, above requirement could be installed as:
@ -51,7 +51,7 @@ i.e., `ETCDCTL_API=3`.
brew install grpc protobuf
+ When building grpc from source code (e.g., on [Ubuntu 18.04][https://github.com/etcd-cpp-apiv3/etcd-cpp-apiv3/blob/master/.github/workflows/build-test.yml#L73]
+ When building grpc from source code (e.g., on [Ubuntu 18.04](https://github.com/etcd-cpp-apiv3/etcd-cpp-apiv3/blob/master/.github/workflows/build-test.yml#L73)
and on [CentOS](https://github.com/etcd-cpp-apiv3/etcd-cpp-apiv3/blob/master/.github/workflows/centos-latest.yml#L44-L67)),
if the system-installed openssl is preferred, you need to add `-DgRPC_SSL_PROVIDER=package`
when building gRPC with CMake.
@ -83,6 +83,36 @@ dependencies have been successfully installed:
cmake ..
make -j$(nproc) && make install
## Using this package in your CMake project
To use this package in your CMake project, you can either
- install, then find the library using `find_package()`:
```cmake
find_package(etcd-cpp-apiv3 REQUIRED)
target_link_libraries(your_target PRIVATE etcd-cpp-api)
```
- or, add this repository as a subdirectory in your project, and link the library directly:
```cmake
add_subdirectory(thirdparty/etcd-cpp-apiv3)
target_link_libraries(your_target PRIVATE etcd-cpp-api)
```
- or, use [FetchContent](https://cmake.org/cmake/help/latest/module/FetchContent.html):
```cmake
include(FetchContent)
FetchContent_Declare(
etcd-cpp-apiv3
https://github.com/etcd-cpp-apiv3/etcd-cpp-apiv3.git
)
FetchContent_MakeAvailable(etcd-cpp-apiv3)
target_link_libraries(your_target PRIVATE etcd-cpp-api)
```
## Compatible etcd version
The _etcd-cpp-apiv3_ should work well with etcd > 3.0. Feel free to issue an issue to us on
@ -92,28 +122,27 @@ Github when you encounter problems when working with etcd 3.x releases.
There are various discussion about whether to support a user-transparent multi-thread executor in
the background, or, leaving the burden of thread management to the user (e.g., see
[issue#100](https://github.com/etcd-cpp-apiv3/etcd-cpp-apiv3/issues/100) for more discussion about
[issue#100](https://github.com/etcd-cpp-apiv3/etcd-cpp-apiv3/issues/100) and
[issue#207](https://github.com/etcd-cpp-apiv3/etcd-cpp-apiv3/issues/207) for more discussion about
the implementation of underlying thread model).
The _etcd-cpp-apiv3_ library supports both synchronous and asynchronous runtime, in two separate
library as follows:
The _etcd-cpp-apiv3_ library supports both synchronous and asynchronous runtime, controlled by the
cmake option `BUILD_ETCD_CORE_ONLY=ON/OFF` (defaults to `OFF`).
- **etcd-cpp-api-core**: the synchronous runtime, provides a blocking-style API and the users are responsible
for handling dispatch the request into separate thread to avoid been blocked by waiting for response.
- target found by cmake: `ETCD_CPP_CORE_LIBRARIES`
- **etcd-cpp-api**: the asynchronous runtime backed by the `pplx` library from
[cpprestsdk](https://github.com/microsoft/cpprestsdk), where a `boost::asio::io_context` and a pool
of threads is used to run the asynchronous operations in the background. By default the number of
threads in the thread pool equals to `std::thread::hardware_concurrency()`.
- target found by cmake: `ETCD_CPP_LIBRARIES`
- When it is set as `OFF`: the library artifact name will be `libetcd-cpp-api.{a,so,dylib,lib,dll}` and a
cmake target `etcd-cpp-api` is exported and pointed to it. The library provides both synchronous runtime
(`etcd/SyncClient.hpp`) and asynchronous runtime (`etcd/Client.hpp`), and the `cpprestsdk` is a
required dependency.
- When it is set as `ON`: the library artifact name will be `libetcd-cpp-api-core.{a,so,dylib,lib,dll}`
and a cmake target `etcd-cpp-api` is exported and pointed to it. The library provides only the
synchronous runtime (`etcd/SyncClient.hpp`), and the `cpprestsdk` won't be required.
We encourage the users to use the asynchronous runtime by default, as it provides more flexibility
and convenient APIs and less possibilities for errors that block the main thread. However, please note
that the asynchronous runtime will setup a thread pool in the background.
and convenient APIs and less possibilities for errors that block the main thread. Note that the
asynchronous runtime requires `cpprestsdk` and will setup a thread pool in the background.
Note that `etcd-cpp-api-core` and `etcd-cpp-api` are two separate target and don't depends on each other.
You should depends on either of them in your program.
**Warning: users cannot link both `libetcd-cpp-api.{a,so,dylib,lib,dll}` and `libetcd-cpp-api-core.{a,so,dylib,lib,dll}`
to same program.**
## Usage
@ -193,6 +222,14 @@ Connecting to multiple endpoints is supported:
etcd::Client etcd("http://a.com:2379;http://b.com:2379;http://c.com:2379");
```
### IPv6
Connecting to IPv6 endpoints is supported:
```c++
etcd::Client etcd("http://::1:2379");
```
Behind the screen, gRPC's load balancer is used and the round-robin strategy will
be used by default.
@ -496,10 +533,11 @@ some specific conditions.
Values can be deleted with the `rm` method passing the key to be deleted as a parameter. The key
should point to an existing value. There are conditional variations for deletion too.
* `rm_if(key, value, old_value)` deletes an already existing value but only if the previous
* `rm(std::string const& key)` unconditionally deletes the given key
* `rm_if(key, old_value)` deletes an already existing value but only if the previous
value equals with old_value. If the values does not match returns with "Compare failed" error
(code `ERROR_COMPARE_FAILED`)
* `rm_if(key, value, old_index)` deletes an already existing value but only if the index of
* `rm_if(key, old_index)` deletes an already existing value but only if the index of
the previous value equals with old_index. If the indices does not match returns with "Compare
failed" error (code `ERROR_COMPARE_FAILED`)
@ -515,81 +553,81 @@ keys defined by the prefix. mkdir method is removed since etcdv3 treats everythi
2. Listing a directory:
Listing directory in etcd3 cpp client will return all keys that matched the given prefix
recursively.
Listing directory in etcd3 cpp client will return all keys that matched the given prefix
recursively.
```c++
etcd.set("/test/key1", "value1").wait();
etcd.set("/test/key2", "value2").wait();
etcd.set("/test/key3", "value3").wait();
etcd.set("/test/subdir/foo", "foo").wait();
```c++
etcd.set("/test/key1", "value1").wait();
etcd.set("/test/key2", "value2").wait();
etcd.set("/test/key3", "value3").wait();
etcd.set("/test/subdir/foo", "foo").wait();
etcd::Response resp = etcd.ls("/test/new_dir").get();
```
etcd::Response resp = etcd.ls("/test").get();
```
```resp.key()``` will have the following values:
`resp.key()` will have the following values:
```
/test/key1
/test/key2
/test/key3
/test/subdir/foo
```
```
/test/key1s
/test/key2
/test/key3
/test/subdir/foo
```
Note: Regarding the returned keys when listing a directory:
Note: Regarding the returned keys when listing a directory:
+ In etcdv3 cpp client, resp.key(0) will return "/test/new_dir/key1" since everything is
treated as keys in etcdv3.
+ While in etcdv2 cpp client it will return "key1" and "/test/new_dir" directory should
be created first before you can set "key1".
+ In etcdv3 cpp client, resp.key(0) will return "/test/new_dir/key1" since everything is
treated as keys in etcdv3.
+ While in etcdv2 cpp client it will return "key1" and "/test/new_dir" directory should
be created first before you can set "key1".
When you list a directory the response object's `keys()` and `values()` methods gives
you a vector of key names and values. The `value()` method with an integer parameter also
returns with the i-th element of the values vector, so `response.values()[i] == response.value(i)`.
When you list a directory the response object's `keys()` and `values()` methods gives
you a vector of key names and values. The `value()` method with an integer parameter also
returns with the i-th element of the values vector, so `response.values()[i] == response.value(i)`.
```c++
etcd::Client etcd("http://127.0.0.1:2379");
etcd::Response resp = etcd.ls("/test/new_dir").get();
for (int i = 0; i < resp.keys().size(); ++i)
{
std::cout << resp.keys(i);
std::cout << " = " << resp.value(i).as_string() << std::endl;
}
```
```c++
etcd::Client etcd("http://127.0.0.1:2379");
etcd::Response resp = etcd.ls("/test/new_dir").get();
for (int i = 0; i < resp.keys().size(); ++i)
{
std::cout << resp.keys(i);
std::cout << " = " << resp.value(i).as_string() << std::endl;
}
```
etcd-cpp-apiv3 supports lists keys only without fetching values from etcd server:
etcd-cpp-apiv3 supports lists keys only without fetching values from etcd server:
```c++
etcd::Client etcd("http://127.0.0.1:2379");
etcd::Response resp = etcd.keys("/test/new_dir").get();
for (int i = 0; i < resp.keys().size(); ++i)
{
std::cout << resp.keys(i);
}
```
```c++
etcd::Client etcd("http://127.0.0.1:2379");
etcd::Response resp = etcd.keys("/test/new_dir").get();
for (int i = 0; i < resp.keys().size(); ++i)
{
std::cout << resp.keys(i);
}
```
3. Removing directory:
If you want the delete recursively then you have to pass a second `true` parameter
to rmdir and supply a key. This key will be treated as a prefix. All keys that match the
prefix will be deleted. All deleted keys will be placed in `response.values()` and
`response.keys()`. This parameter defaults to `false`.
If you want the delete recursively then you have to pass a second `true` parameter
to rmdir and supply a key. This key will be treated as a prefix. All keys that match the
prefix will be deleted. All deleted keys will be placed in `response.values()` and
`response.keys()`. This parameter defaults to `false`.
```c++
etcd::Client etcd("http://127.0.0.1:2379");
etcd.set("/test/key1", "foo");
etcd.set("/test/key2", "bar");
etcd.set("/test/key3", "foo_bar");
etcd::Response resp = etcd.rmdir("/test", true).get();
for (int i = 0; i < resp.keys().size(); ++i)
{
std::cout << resp.keys(i);
std::cout << " = " << resp.value(i).as_string() << std::endl;
}
```
```c++
etcd::Client etcd("http://127.0.0.1:2379");
etcd.set("/test/key1", "foo");
etcd.set("/test/key2", "bar");
etcd.set("/test/key3", "foo_bar");
etcd::Response resp = etcd.rmdir("/test", true).get();
for (int i = 0; i < resp.keys().size(); ++i)
{
std::cout << resp.keys(i);
std::cout << " = " << resp.value(i).as_string() << std::endl;
}
```
However, if recursive parameter is false, functionality will be the same as just deleting a key.
The key supplied will NOT be treated as a prefix and will be treated as a normal key name.
However, if recursive parameter is false, functionality will be the same as just deleting a key.
The key supplied will NOT be treated as a prefix and will be treated as a normal key name.
### Using binary data as key and value
@ -833,6 +871,8 @@ Without handler, the internal state can be checked via `KeepAlive::Check()` and
the async exception when there are errors during keeping the lease alive.
Note that even with `handler`, the `KeepAlive::Check()` still rethrow if there's an async exception.
When the library is built with `-fno-exceptions`, the `handler` argument and the `Check()` method
will abort the program when there are errors during keeping the lease alive.
### Etcd transactions
@ -853,11 +893,32 @@ Transactions in etcd supports set a set of comparison targets to specify the con
etcdv3::Transaction txn;
// setup the conditions
txn.reset_key("/test/x1");
txn.init_compare("1", etcdv3::CompareResult::EQUAL, etcdv3::CompareTarget::VALUE);
txn.add_compare_value("/test/x1", "1");
txn.add_compare_value("/test/x2", "2");
txn.reset_key("/test/x2");
txn.init_compare("2", etcdv3::CompareResult::EQUAL, etcdv3::CompareTarget::VALUE);
// or, compare the last modified revision
txn.add_compare_mod("/test/x3", 0); // not exists
txn.add_compare_mod("/test/x4", etcdv3::CompareResult::GREATER, 1234); // the modified revision is greater than 1234
```
High-level APIs (e.g., `compare_and_create`, `compare_and_swap`) are also provided, e.g.,
`fetch-and-add` operation can be implemented as
```cpp
auto fetch_and_add = [](etcd::Client& client,
std::string const& key) -> void {
auto value = stoi(client.get(key).get().value().as_string());
while (true) {
auto txn = etcdv3::Transaction();
txn.setup_compare_and_swap(key, std::to_string(value),
std::to_string(value + 1));
etcd::Response resp = client.txn(txn).get();
if (resp.is_ok()) {
break;
}
value = stoi(resp.value().as_string());
}
};
```
See full example of the usages of transaction APIs, please refer to [./tst/TransactionTest.cpp](./tst/TransactionTest.cpp),
@ -878,17 +939,21 @@ pplx::task<Response> proclaim(std::string const &name, int64_t lease_id,
pplx::task<Response> leader(std::string const &name);
std::unique_ptr<Observer> observe(std::string const &name);
std::unique_ptr<SyncClient::Observer> observe(std::string const &name);
pplx::task<Response> resign(std::string const &name, int64_t lease_id,
std::string const &key, int64_t revision);
```
Note that if grpc timeout is set, `campaign()` will return an timeout error response if it
cannot acquire the election ownership within the timeout period. Otherwise will block until
become the leader.
The `Observer` returned by `observe()` can be use to monitor the changes of election ownership.
The observer stream will be canceled when been destructed.
```c++
std::unique_ptr<etcd::Observer> observer = etcd.observe("test");
std::unique_ptr<etcd::SyncClient::Observer> observer = etcd.observe("test");
// wait one change event, blocked execution
etcd::Response resp = observer->WaitOnce();
@ -903,9 +968,17 @@ The observer stream will be canceled when been destructed.
observer.reset(nullptr);
```
for more details, please refer to [etcd/Client.hpp](./etcd/Client.hpp).
for more details, please refer to [etcd/Client.hpp](./etcd/Client.hpp) and [tst/ElectionTest.cpp](./tst/ElectionTest.cpp).
### TODO
## `-fno-exceptions`
The _etcd-cpp-apiv3_ library supports to be built with `-fno-exceptions` flag, controlled by the
cmake option `BUILD_WITH_NO_EXCEPTIONS=ON/OFF` (defaults to `OFF`).
When building with `-fno-exceptions`, the library will abort the program under certain circumstances,
e.g., when calling `.Check()` method of `KeepAlive` and there are errors during keeping the lease alive,
## TODO
1. Cancellation of asynchronous calls(except for watch)

66
cmake/FindGRPC.cmake
View File

@ -22,50 +22,60 @@ mark_as_advanced(GRPC_INCLUDE_DIR)
# Find gGPR library
find_library(GPR_LIBRARY NAMES gpr)
mark_as_advanced(GRPC_GPR_LIBRARY)
add_library(gRPC::gpr UNKNOWN IMPORTED)
set_target_properties(gRPC::gpr PROPERTIES
INTERFACE_INCLUDE_DIRECTORIES ${GRPC_INCLUDE_DIR}
INTERFACE_LINK_LIBRARIES "-lpthread;-ldl"
IMPORTED_LOCATION ${GPR_LIBRARY}
)
if(NOT TARGET gRPC::gpr)
add_library(gRPC::gpr UNKNOWN IMPORTED)
set_target_properties(gRPC::gpr PROPERTIES
INTERFACE_INCLUDE_DIRECTORIES ${GRPC_INCLUDE_DIR}
INTERFACE_LINK_LIBRARIES "-lpthread;-ldl"
IMPORTED_LOCATION ${GPR_LIBRARY}
)
endif()
# Find gRPC library
find_library(GRPC_LIBRARY NAMES grpc)
mark_as_advanced(GRPC_LIBRARY)
add_library(gRPC::grpc UNKNOWN IMPORTED)
set_target_properties(gRPC::grpc PROPERTIES
INTERFACE_INCLUDE_DIRECTORIES ${GRPC_INCLUDE_DIR}
INTERFACE_LINK_LIBRARIES gRPC::gpr
IMPORTED_LOCATION ${GRPC_LIBRARY}
)
if(NOT TARGET gRPC::grpc)
add_library(gRPC::grpc UNKNOWN IMPORTED)
set_target_properties(gRPC::grpc PROPERTIES
INTERFACE_INCLUDE_DIRECTORIES ${GRPC_INCLUDE_DIR}
INTERFACE_LINK_LIBRARIES gRPC::gpr
IMPORTED_LOCATION ${GRPC_LIBRARY}
)
endif()
# Find gRPC C++ library
find_library(GRPC_GRPC++_LIBRARY NAMES grpc++)
mark_as_advanced(GRPC_GRPC++_LIBRARY)
add_library(gRPC::grpc++ UNKNOWN IMPORTED)
set_target_properties(gRPC::grpc++ PROPERTIES
INTERFACE_INCLUDE_DIRECTORIES ${GRPC_INCLUDE_DIR}
INTERFACE_LINK_LIBRARIES gRPC::grpc
IMPORTED_LOCATION ${GRPC_GRPC++_LIBRARY}
)
if(NOT TARGET gRPC::grpc++)
add_library(gRPC::grpc++ UNKNOWN IMPORTED)
set_target_properties(gRPC::grpc++ PROPERTIES
INTERFACE_INCLUDE_DIRECTORIES ${GRPC_INCLUDE_DIR}
INTERFACE_LINK_LIBRARIES gRPC::grpc
IMPORTED_LOCATION ${GRPC_GRPC++_LIBRARY}
)
endif()
# Find gRPC C++ reflection library
find_library(GRPC_GRPC++_REFLECTION_LIBRARY NAMES grpc++_reflection)
mark_as_advanced(GRPC_GRPC++_REFLECTION_LIBRARY)
add_library(gRPC::grpc++_reflection UNKNOWN IMPORTED)
set_target_properties(gRPC::grpc++_reflection PROPERTIES
INTERFACE_INCLUDE_DIRECTORIES ${GRPC_INCLUDE_DIR}
INTERFACE_LINK_LIBRARIES gRPC::grpc++
IMPORTED_LOCATION ${GRPC_GRPC++_REFLECTION_LIBRARY}
)
if(NOT TARGET gRPC::grpc++_reflection)
add_library(gRPC::grpc++_reflection UNKNOWN IMPORTED)
set_target_properties(gRPC::grpc++_reflection PROPERTIES
INTERFACE_INCLUDE_DIRECTORIES ${GRPC_INCLUDE_DIR}
INTERFACE_LINK_LIBRARIES gRPC::grpc++
IMPORTED_LOCATION ${GRPC_GRPC++_REFLECTION_LIBRARY}
)
endif()
# Find gRPC CPP generator
find_program(GRPC_CPP_PLUGIN NAMES grpc_cpp_plugin)
mark_as_advanced(GRPC_CPP_PLUGIN)
add_executable(gRPC::grpc_cpp_plugin IMPORTED)
set_target_properties(gRPC::grpc_cpp_plugin PROPERTIES
IMPORTED_LOCATION ${GRPC_CPP_PLUGIN}
)
if(NOT TARGET gRPC::grpc_cpp_plugin)
add_executable(gRPC::grpc_cpp_plugin IMPORTED)
set_target_properties(gRPC::grpc_cpp_plugin PROPERTIES
IMPORTED_LOCATION ${GRPC_CPP_PLUGIN}
)
endif()
file(
WRITE "${CMAKE_BINARY_DIR}/get_gRPC_version.cc"

5
etcd-cpp-api-config.in.cmake
View File

@ -32,5 +32,8 @@ set(ETCD_CPP_INCLUDE_DIRS "${ETCD_CPP_INCLUDE_DIR}")
include(FindPackageMessage)
find_package_message(etcd
"Found etcd: ${CMAKE_CURRENT_LIST_FILE} (found version \"@etcd-cpp-api_VERSION@\")"
"etcd-cpp-apiv3 version: @etcd-cpp-api_VERSION@\netcd-cpp-apiv3 libraries: ${ETCD_CPP_LIBRARIES}, \netcd-cpp-apiv3 core libraries: ${ETCD_CPP_CORE_LIBRARIES}\ninclude directories: ${ETCD_CPP_INCLUDE_DIRS}"
"etcd-cpp-apiv3 version: @etcd-cpp-api_VERSION@\n"
"etcd-cpp-apiv3 libraries: ${ETCD_CPP_LIBRARIES}\n"
"etcd-cpp-apiv3 core libraries: ${ETCD_CPP_CORE_LIBRARIES}\n"
"include directories: ${ETCD_CPP_INCLUDE_DIRS}"
)

1312
etcd/Client.hpp
View File

File diff suppressed because it is too large Load Diff

212
etcd/KeepAlive.hpp
View File

@ -3,139 +3,121 @@
#include <atomic>
#include <chrono>
#include <condition_variable>
#include <exception>
#include <functional>
#include <mutex>
#include <string>
#include <thread>
#include "etcd/SyncClient.hpp"
#include "etcd/Response.hpp"
#include "etcd/SyncClient.hpp"
#include <boost/config.hpp>
#if BOOST_VERSION >= 106600
#include <boost/asio/io_context.hpp>
#else
#include <boost/asio/io_service.hpp>
#endif
#include <boost/asio/steady_timer.hpp>
namespace etcd {
// forward declaration to avoid header/library dependency
class Client;
namespace etcd
{
// forward declaration to avoid header/library dependency
class Client;
/**
* If ID is set to 0, the library will choose an ID, and can be accessed from
* ".Lease()".
*/
class KeepAlive {
public:
KeepAlive(Client const& client, int ttl, int64_t lease_id = 0);
KeepAlive(SyncClient const& client, int ttl, int64_t lease_id = 0);
KeepAlive(std::string const& address, int ttl, int64_t lease_id = 0);
KeepAlive(std::string const& address, std::string const& username,
std::string const& password, int ttl, int64_t lease_id = 0,
int const auth_token_ttl = 300);
KeepAlive(Client const& client,
std::function<void(std::exception_ptr)> const& handler, int ttl,
int64_t lease_id = 0);
KeepAlive(SyncClient const& client,
std::function<void(std::exception_ptr)> const& handler, int ttl,
int64_t lease_id = 0);
KeepAlive(std::string const& address,
std::function<void(std::exception_ptr)> const& handler, int ttl,
int64_t lease_id = 0);
KeepAlive(std::string const& address, std::string const& username,
std::string const& password,
std::function<void(std::exception_ptr)> const& handler, int ttl,
int64_t lease_id = 0, int const auth_token_ttl = 300);
KeepAlive(std::string const& address, std::string const& ca,
std::string const& cert, std::string const& privkey,
std::function<void(std::exception_ptr)> const& handler, int ttl,
int64_t lease_id = 0, std::string const& target_name_override = "");
KeepAlive(KeepAlive const&) = delete;
KeepAlive(KeepAlive&&) = delete;
int64_t Lease() const { return lease_id; }
/**
* If ID is set to 0, the library will choose an ID, and can be accessed from ".Lease()".
* Stop the keep alive action.
*/
class KeepAlive
{
public:
KeepAlive(Client const &client,
int ttl, int64_t lease_id = 0);
KeepAlive(SyncClient const &client,
int ttl, int64_t lease_id = 0);
KeepAlive(std::string const & address,
int ttl, int64_t lease_id = 0);
KeepAlive(std::string const & address,
std::string const & username, std::string const & password,
int ttl, int64_t lease_id = 0,
int const auth_token_ttl = 300);
void Cancel();
KeepAlive(Client const &client,
std::function<void (std::exception_ptr)> const &handler,
int ttl, int64_t lease_id = 0);
KeepAlive(SyncClient const &client,
std::function<void (std::exception_ptr)> const &handler,
int ttl, int64_t lease_id = 0);
KeepAlive(std::string const & address,
std::function<void (std::exception_ptr)> const &handler,
int ttl, int64_t lease_id = 0);
KeepAlive(std::string const & address,
std::string const & username, std::string const & password,
std::function<void (std::exception_ptr)> const &handler,
int ttl, int64_t lease_id = 0,
int const auth_token_ttl = 300);
KeepAlive(std::string const & address,
std::string const & ca,
std::string const & cert,
std::string const & privkey,
std::function<void (std::exception_ptr)> const &handler,
int ttl, int64_t lease_id = 0,
std::string const & target_name_override = "");
/**
* Check if the keep alive is still valid (invalid when there's an async
* exception).
*
* Nothing will happen if valid and an exception will be rethrowed if invalid.
*/
void Check();
KeepAlive(KeepAlive const &) = delete;
KeepAlive(KeepAlive &&) = delete;
/**
* Set a timeout value for grpc operations.
*/
template <typename Rep = std::micro>
void set_grpc_timeout(std::chrono::duration<Rep> const& timeout) {
this->grpc_timeout =
std::chrono::duration_cast<std::chrono::milliseconds>(timeout);
}
int64_t Lease() const { return lease_id; }
/**
* Get the current timeout value for grpc operations.
*/
std::chrono::microseconds get_grpc_timeout() const {
return this->grpc_timeout;
}
/**
* Stop the keep alive action.
*/
void Cancel();
~KeepAlive();
/**
* Check if the keep alive is still valid (invalid when there's an async exception).
*
* Nothing will happen if valid and an exception will be rethrowed if invalid.
*/
void Check();
protected:
// automatically refresh loop, returns the error message if failed
std::string refresh();
// refresh once immediately, returns the error message if failed
std::string refresh_once();
/**
* Set a timeout value for grpc operations.
*/
template <typename Rep = std::micro>
void set_grpc_timeout(std::chrono::duration<Rep> const &timeout) {
this->grpc_timeout = std::chrono::duration_cast<std::chrono::milliseconds>(timeout);
}
/**
* Get the current timeout value for grpc operations.
*/
std::chrono::microseconds get_grpc_timeout() const {
return this->grpc_timeout;
}
~KeepAlive();
protected:
// automatically refresh loop
void refresh();
// refresh once immediately
void refresh_once();
struct EtcdServerStubs;
struct EtcdServerStubsDeleter {
void operator()(EtcdServerStubs *stubs);
};
std::unique_ptr<EtcdServerStubs, EtcdServerStubsDeleter> stubs;
private:
// error handling
std::exception_ptr eptr_;
std::function<void (std::exception_ptr)> handler_;
// Don't use `pplx::task` to avoid sharing thread pool with other actions on the client
// to avoid any potential blocking, which may block the keepalive loop and evict the lease.
std::thread task_;
int ttl;
int64_t lease_id;
// protect the initializing status of `timer`.
std::recursive_mutex mutex_for_refresh_;
std::atomic_bool continue_next;
// grpc timeout in `refresh()`
mutable std::chrono::microseconds grpc_timeout = std::chrono::microseconds::zero();
#if BOOST_VERSION >= 106600
boost::asio::io_context context;
#else
boost::asio::io_service context;
#endif
std::unique_ptr<boost::asio::steady_timer> keepalive_timer_;
struct EtcdServerStubs;
struct EtcdServerStubsDeleter {
void operator()(EtcdServerStubs* stubs);
};
}
std::unique_ptr<EtcdServerStubs, EtcdServerStubsDeleter> stubs;
private:
// error handling
std::exception_ptr eptr_;
std::function<void(std::exception_ptr)> handler_;
// Don't use `pplx::task` to avoid sharing thread pool with other actions on
// the client to avoid any potential blocking, which may block the keepalive
// loop and evict the lease.
std::thread refresh_task_;
int ttl;
int64_t lease_id;
// protect the initializing status of `timer`.
std::mutex mutex_for_refresh_;
std::condition_variable cv_for_refresh_;
std::atomic_bool continue_next;
// grpc timeout in `refresh()`
mutable std::chrono::microseconds grpc_timeout =
std::chrono::microseconds::zero();
};
} // namespace etcd
#endif

401
etcd/Response.hpp
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@ -2,242 +2,261 @@
#define __ETCD_RESPONSE_HPP__
#include <chrono>
#include <iostream>
#include <functional>
#include <iostream>
#include <memory>
#include <string>
#include <vector>
#include "etcd/Value.hpp"
#include "etcd/v3/Member.hpp"
namespace etcdv3 {
class AsyncWatchAction;
class AsyncLeaseKeepAliveAction;
class AsyncObserveAction;
class V3Response;
class AsyncWatchAction;
class AsyncLeaseKeepAliveAction;
class AsyncObserveAction;
class V3Response;
} // namespace etcdv3
namespace etcd {
typedef std::vector<std::string> Keys;
namespace detail {
// Compute the duration between given start time point and now
inline const std::chrono::microseconds duration_till_now(
std::chrono::high_resolution_clock::time_point const& start_timepoint) {
return std::chrono::duration_cast<std::chrono::microseconds>(
std::chrono::high_resolution_clock::now() - start_timepoint);
}
} // namespace detail
namespace etcd
{
typedef std::vector<std::string> Keys;
// forward declaration
class KeepAlive;
class Watcher;
namespace detail {
// Compute the duration between given start time point and now
inline const std::chrono::microseconds duration_till_now(
std::chrono::high_resolution_clock::time_point const & start_timepoint) {
return std::chrono::duration_cast<std::chrono::microseconds>(
std::chrono::high_resolution_clock::now() - start_timepoint);
}
/**
* The Response object received for the requests of etcd::Client
*/
class Response {
public:
template <typename T>
static etcd::Response create(std::unique_ptr<T> call) {
call->waitForResponse();
auto v3resp = call->ParseResponse();
return etcd::Response(v3resp,
detail::duration_till_now(call->startTimepoint()));
}
// forward declaration
class KeepAlive;
class Watcher;
template <typename T>
static etcd::Response create(std::shared_ptr<T> call) {
call->waitForResponse();
auto v3resp = call->ParseResponse();
return etcd::Response(v3resp,
detail::duration_till_now(call->startTimepoint()));
}
template <typename T>
static etcd::Response create(std::unique_ptr<T> call,
std::function<void(Response)> callback) {
call->waitForResponse(callback);
auto v3resp = call->ParseResponse();
return etcd::Response(v3resp,
detail::duration_till_now(call->startTimepoint()));
}
template <typename T>
static etcd::Response create(std::function<std::unique_ptr<T>()> fn) {
auto call = fn();
call->waitForResponse();
auto v3resp = call->ParseResponse();
return etcd::Response(v3resp,
detail::duration_till_now(call->startTimepoint()));
}
template <typename T>
static etcd::Response create(std::function<std::shared_ptr<T>()> fn) {
auto call = fn();
call->waitForResponse();
auto v3resp = call->ParseResponse();
return etcd::Response(v3resp,
detail::duration_till_now(call->startTimepoint()));
}
Response();
Response(const Response&);
/**
* The Reponse object received for the requests of etcd::Client
* Returns the error code received from the etcd server. In case of success
* the error code is 0.
*/
class Response
{
public:
int error_code() const;
template <typename T>
static etcd::Response create(std::unique_ptr<T> call)
{
call->waitForResponse();
auto v3resp = call->ParseResponse();
return etcd::Response(v3resp, detail::duration_till_now(call->startTimepoint()));
}
/**
* Returns the string representation of the error code
*/
std::string const& error_message() const;
template <typename T>
static etcd::Response create(std::shared_ptr<T> call)
{
call->waitForResponse();
auto v3resp = call->ParseResponse();
return etcd::Response(v3resp, detail::duration_till_now(call->startTimepoint()));
}
/**
* Returns true if this is a successful response
*/
bool is_ok() const;
template <typename T>
static etcd::Response create(std::unique_ptr<T> call,
std::function<void(Response)> callback)
{
call->waitForResponse(callback);
auto v3resp = call->ParseResponse();
return etcd::Response(v3resp, detail::duration_till_now(call->startTimepoint()));
}
/**
* Returns true if the error is a network unavailable error.
*/
bool is_network_unavailable() const;
template <typename T>
static etcd::Response create(std::function<std::unique_ptr<T>()> fn)
{
auto call = fn();
/**
* Check whether the response contains a grpc TIMEOUT error.
*/
bool is_grpc_timeout() const;
call->waitForResponse();
auto v3resp = call->ParseResponse();
return etcd::Response(v3resp, detail::duration_till_now(call->startTimepoint()));
}
/**
* Returns the action type of the operation that this response belongs to.
*/
std::string const& action() const;
template <typename T>
static etcd::Response create(std::function<std::shared_ptr<T>()> fn)
{
auto call = fn();
/**
* Returns the current index value of etcd
*/
int64_t index() const;
call->waitForResponse();
auto v3resp = call->ParseResponse();
return etcd::Response(v3resp, detail::duration_till_now(call->startTimepoint()));
}
/**
* Returns the value object of the response to a get/set/modify operation.
*/
Value const& value() const;
Response();
/**
* Returns the previous value object of the response to a set/modify/rm
* operation.
*/
Value const& prev_value() const;
Response(const Response &);
/**
* Returns the index-th value of the response to an 'ls' operation. Equivalent
* to values()[index]
*/
Value const& value(int index) const;
/**
* Returns the error code received from the etcd server. In case of success the error code is 0.
*/
int error_code() const;
/**
* Returns the vector of values in a directory in response to an 'ls'
* operation.
*/
Values const& values() const;
/**
* Returns the string representation of the error code
*/
std::string const & error_message() const;
/**
* Returns the vector of keys in a directory in response to an 'ls' operation.
*/
Keys const& keys() const;
/**
* Returns true if this is a successful response
*/
bool is_ok() const;
/**
* Returns the index-th key in a directory listing. Same as keys()[index]
*/
std::string const& key(int index) const;
/**
* Returns true if the error is a network unavailable error.
*/
bool is_network_unavailable() const;
/**
* Returns the compact_revision if the response is a watch-cancelled revision.
* `-1` means uninitialized (the response is not watch-cancelled)
*/
int64_t compact_revision() const;
/**
* Check whether the response contains a grpc TIMEOUT error.
*/
bool is_grpc_timeout() const;
/**
* Returns the watcher id for client.watch() requests. `-1` means
* uninitialized (the response is not for watch).
*/
int64_t watch_id() const;
/**
* Returns the action type of the operation that this response belongs to.
*/
std::string const & action() const;
/**
* Returns the lock key.
*/
std::string const& lock_key() const;
/**
* Returns the current index value of etcd
*/
int64_t index() const;
/**
* Return the "name" in response.
*/
std::string const& name() const;
/**
* Returns the value object of the response to a get/set/modify operation.
*/
Value const & value() const;
/**
* Returns the watched events.
*/
std::vector<Event> const& events() const;
/**
* Returns the previous value object of the response to a set/modify/rm operation.
*/
Value const & prev_value() const;
/**
* Returns the duration of request execution in microseconds.
*/
std::chrono::microseconds const& duration() const;
/**
* Returns the index-th value of the response to an 'ls' operation. Equivalent to values()[index]
*/
Value const & value(int index) const;
/**
* Returns the current cluster id.
*/
uint64_t cluster_id() const;
/**
* Returns the vector of values in a directory in response to an 'ls' operation.
*/
Values const & values() const;
/**
* Returns the current member id.
*/
uint64_t member_id() const;
/**
* Returns the vector of keys in a directory in response to an 'ls' operation.
*/
Keys const & keys() const;
/**
* Returns ther current raft term.
*/
uint64_t raft_term() const;
/**
* Returns the index-th key in a directory listing. Same as keys()[index]
*/
std::string const & key(int index) const;
/**
* Returns ther current raft term.
*/
std::vector<int64_t> const& leases() const;
/**
* Returns the compact_revision if the response is a watch-cancelled revision.
* `-1` means uninitialized (the response is not watch-cancelled)
*/
int64_t compact_revision() const;
/**
* Returns the member list.
*/
std::vector<etcdv3::Member> const& members() const;
/**
* Returns the lock key.
*/
std::string const & lock_key() const;
protected:
Response(const etcdv3::V3Response& response,
std::chrono::microseconds const& duration);
Response(int error_code, std::string const& error_message);
Response(int error_code, char const* error_message);
/**
* Return the "name" in response.
*/
std::string const & name() const;
int _error_code;
std::string _error_message;
int64_t _index;
std::string _action;
Value _value;
Value _prev_value;
Values _values;
Keys _keys;
int64_t _compact_revision = -1; // for watch
int64_t _watch_id = -1; // for watch
std::string _lock_key; // for lock
std::string _name; // for campaign (in v3election)
std::vector<Event> _events; // for watch
// execute duration (in microseconds), during the action created and response
// parsed
std::chrono::microseconds _duration;
/**
* Returns the watched events.
*/
std::vector<Event> const & events() const;
// cluster metadata
uint64_t _cluster_id;
uint64_t _member_id;
uint64_t _raft_term;
/**
* Returns the duration of request execution in microseconds.
*/
std::chrono::microseconds const & duration() const;
// for lease list
std::vector<int64_t> _leases;
/**
* Returns the current cluster id.
*/
uint64_t cluster_id() const;
// for member list
std::vector<etcdv3::Member> _members;
/**
* Returns the current member id.
*/
uint64_t member_id() const;
friend class Client;
friend class SyncClient;
friend class KeepAlive;
friend class Watcher;
/**
* Returns ther current raft term.
*/
uint64_t raft_term() const;
/**
* Returns ther current raft term.
*/
std::vector<int64_t> const & leases() const;
protected:
Response(const etcdv3::V3Response& response, std::chrono::microseconds const& duration);
Response(int error_code, std::string const& error_message);
Response(int error_code, char const * error_message);
int _error_code;
std::string _error_message;
int64_t _index;
std::string _action;
Value _value;
Value _prev_value;
Values _values;
Keys _keys;
int64_t _compact_revision = -1; // for watch
std::string _lock_key; // for lock
std::string _name; // for campaign (in v3election)
std::vector<Event> _events; // for watch
// execute duration (in microseconds), during the action created and response parsed
std::chrono::microseconds _duration;
// cluster metadata
uint64_t _cluster_id;
uint64_t _member_id;
uint64_t _raft_term;
// for lease list
std::vector<int64_t> _leases;
friend class Client;
friend class SyncClient;
friend class KeepAlive;
friend class Watcher;
friend class etcdv3::AsyncWatchAction;
friend class etcdv3::AsyncLeaseKeepAliveAction;
friend class etcdv3::AsyncObserveAction;
};
}
friend class etcdv3::AsyncWatchAction;
friend class etcdv3::AsyncLeaseKeepAliveAction;
friend class etcdv3::AsyncObserveAction;
};
} // namespace etcd
#endif

1606
etcd/SyncClient.hpp
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185
etcd/Value.hpp
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@ -5,126 +5,131 @@
#include <vector>
namespace etcdv3 {
class KeyValue;
class KeyValue;
}
namespace mvccpb {
class KeyValue;
class Event;
}
class KeyValue;
class Event;
} // namespace mvccpb
namespace electionpb {
class LeaderKey;
class LeaderKey;
}
namespace etcd
{
class Value;
class Event;
class Response;
class Client;
class SyncClient;
namespace etcd {
class Value;
class Event;
class Response;
class Client;
class SyncClient;
/**
* Represents a value object received from the etcd server
*/
class Value {
public:
/**
* Returns true if this value represents a directory on the server. If true
* the as_string() method is meaningless.
*/
bool is_dir() const;
/**
* Represents a value object received from the etcd server
* Returns the key of this value as an "absolute path".
*/
class Value
{
public:
/**
* Returns true if this value represents a directory on the server. If true the as_string()
* method is meaningless.
*/
bool is_dir() const;
std::string const& key() const;
/**
* Returns the key of this value as an "absolute path".
*/
std::string const & key() const;
/**
* Returns the string representation of the value
*/
std::string const& as_string() const;
/**
* Returns the string representation of the value
*/
std::string const & as_string() const;
/**
* Returns the creation index of this value.
*/
int64_t created_index() const;
/**
* Returns the creation index of this value.
*/
int64_t created_index() const;
/**
* Returns the last modification's index of this value.
*/
int64_t modified_index() const;
/**
* Returns the last modification's index of this value.
*/
int64_t modified_index() const;
/**
* Returns the version of this value.
*/
int64_t version() const;
/**
* Returns the version of this value.
*/
int64_t version() const;
/**
* Returns the ttl of this value or 0 if ttl is not set
*/
int ttl() const;
/**
* Returns the ttl of this value or 0 if ttl is not set
*/
int ttl() const;
int64_t lease() const;
int64_t lease() const;
protected:
friend class Client;
friend class SyncClient;
friend class Response;
friend class BaseResponse; //deliberately done since Value class will be removed during full V3
friend class DeleteRpcResponse;
friend class AsyncDeleteResponse;
protected:
friend class Client;
friend class SyncClient;
friend class Response;
friend class BaseResponse; // deliberately done since Value class will be
// removed during full V3
friend class DeleteRpcResponse;
friend class AsyncDeleteResponse;
friend class Event;
friend class Event;
Value();
Value(etcdv3::KeyValue const & kvs);
Value(mvccpb::KeyValue const & kvs);
std::string _key;
bool dir;
std::string value;
int64_t created;
int64_t modified;
int64_t _version;
int _ttl;
int64_t leaseId;
Value();
Value(etcdv3::KeyValue const& kvs);
Value(mvccpb::KeyValue const& kvs);
std::string _key;
bool dir;
std::string value;
int64_t created;
int64_t modified;
int64_t _version;
int _ttl;
int64_t leaseId;
};
using Values = std::vector<Value>;
std::ostream& operator<<(std::ostream& os, const Value& value);
class Event {
public:
enum class EventType {
PUT,
DELETE_,
INVALID,
};
typedef std::vector<Value> Values;
enum EventType event_type() const;
class Event
{
public:
enum class EventType {
PUT,
DELETE_,
INVALID,
};
bool has_kv() const;
enum EventType event_type() const;
bool has_prev_kv() const;
bool has_kv() const;
const Value& kv() const;
bool has_prev_kv() const;
const Value& prev_kv() const;
const Value &kv() const;
protected:
friend class Response;
const Value &prev_kv() const;
Event(mvccpb::Event const& event);
protected:
friend class Response;
private:
enum EventType event_type_;
Value _kv, _prev_kv;
bool _has_kv, _has_prev_kv;
};
Event(mvccpb::Event const & event);
using Events = std::vector<Event>;
private:
enum EventType event_type_;
Value _kv, _prev_kv;
bool _has_kv, _has_prev_kv;
};
std::ostream& operator<<(std::ostream& os, const Event::EventType& value);
typedef std::vector<Event> Events;
}
std::ostream& operator<<(std::ostream& os, const Event& event);
} // namespace etcd
#endif

403
etcd/Watcher.hpp
View File

@ -8,237 +8,202 @@
#include "etcd/Response.hpp"
namespace etcd
{
// forward declaration to avoid header/library dependency
class Client;
namespace etcd {
// forward declaration to avoid header/library dependency
class Client;
class Watcher
{
public:
Watcher(Client const &client, std::string const & key,
std::function<void(Response)> callback,
bool recursive=false);
Watcher(SyncClient const &client, std::string const & key,
std::function<void(Response)> callback,
bool recursive=false);
Watcher(Client const &client, std::string const & key,
std::string const &range_end,
std::function<void(Response)> callback);
Watcher(SyncClient const &client, std::string const & key,
std::string const &range_end,
std::function<void(Response)> callback);
Watcher(Client const &client, std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
bool recursive=false);
Watcher(SyncClient const &client, std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
bool recursive=false);
Watcher(Client const &client, std::string const & key,
std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback);
Watcher(SyncClient const &client, std::string const & key,
std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback);
Watcher(std::string const & address, std::string const & key,
std::function<void(Response)> callback,
bool recursive=false);
Watcher(std::string const & address, std::string const & key,
std::string const &range_end,
std::function<void(Response)> callback);
Watcher(std::string const & address, std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
bool recursive=false);
Watcher(std::string const & address, std::string const & key,
std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback);
Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key,
std::function<void(Response)> callback,
bool recursive=false,
int const auth_token_ttl = 300);
Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key, std::string const &range_end,
std::function<void(Response)> callback,
int const auth_token_ttl = 300);
Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
bool recursive=false,
int const auth_token_ttl = 300);
Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key, std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback,
int const auth_token_ttl = 300);
Watcher(std::string const & address,
std::string const & ca,
std::string const & cert,
std::string const & privkey,
std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback, bool recursive=false,
std::string const & target_name_override = "");
Watcher(std::string const & address,
std::string const & ca,
std::string const & cert,
std::string const & privkey,
std::string const & key, std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::string const & target_name_override = "");
class Watcher {
public:
Watcher(Client const& client, std::string const& key,
std::function<void(Response)> callback, bool recursive = false);
Watcher(SyncClient const& client, std::string const& key,
std::function<void(Response)> callback, bool recursive = false);
Watcher(Client const& client, std::string const& key,
std::string const& range_end, std::function<void(Response)> callback);
Watcher(SyncClient const& client, std::string const& key,
std::string const& range_end, std::function<void(Response)> callback);
Watcher(Client const& client, std::string const& key, int64_t fromIndex,
std::function<void(Response)> callback, bool recursive = false);
Watcher(SyncClient const& client, std::string const& key, int64_t fromIndex,
std::function<void(Response)> callback, bool recursive = false);
Watcher(Client const& client, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback);
Watcher(SyncClient const& client, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback);
Watcher(std::string const& address, std::string const& key,
std::function<void(Response)> callback, bool recursive = false);
Watcher(std::string const& address, std::string const& key,
std::string const& range_end, std::function<void(Response)> callback);
Watcher(std::string const& address, std::string const& key, int64_t fromIndex,
std::function<void(Response)> callback, bool recursive = false);
Watcher(std::string const& address, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback);
Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
std::function<void(Response)> callback, bool recursive = false,
int const auth_token_ttl = 300);
Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
std::string const& range_end, std::function<void(Response)> callback,
int const auth_token_ttl = 300);
Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
int64_t fromIndex, std::function<void(Response)> callback,
bool recursive = false, int const auth_token_ttl = 300);
Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback,
int const auth_token_ttl = 300);
Watcher(std::string const& address, std::string const& ca,
std::string const& cert, std::string const& privkey,
std::string const& key, int64_t fromIndex,
std::function<void(Response)> callback, bool recursive = false,
std::string const& target_name_override = "");
Watcher(std::string const& address, std::string const& ca,
std::string const& cert, std::string const& privkey,
std::string const& key, std::string const& range_end,
int64_t fromIndex, std::function<void(Response)> callback,
std::string const& target_name_override = "");
Watcher(Client const &client, std::string const & key,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive=false);
Watcher(SyncClient const &client, std::string const & key,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive=false);
Watcher(Client const &client, std::string const & key,
std::string const &range_end,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback);
Watcher(SyncClient const &client, std::string const & key,
std::string const &range_end,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback);
Watcher(Client const &client, std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive=false);
Watcher(SyncClient const &client, std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive=false);
Watcher(Client const &client, std::string const & key,
std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback);
Watcher(SyncClient const &client, std::string const & key,
std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback);
Watcher(std::string const & address, std::string const & key,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive=false);
Watcher(std::string const & address, std::string const & key,
std::string const &range_end,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback);
Watcher(std::string const & address, std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive=false);
Watcher(std::string const & address, std::string const & key,
std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback);
Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive=false,
int const auth_token_ttl = 300);
Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key, std::string const &range_end,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
int const auth_token_ttl = 300);
Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive=false,
int const auth_token_ttl = 300);
Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key, std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
int const auth_token_ttl = 300);
Watcher(std::string const & address,
std::string const & ca,
std::string const & cert,
std::string const & privkey,
std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive=false,
std::string const & target_name_override = "");
Watcher(std::string const & address,
std::string const & ca,
std::string const & cert,
std::string const & privkey,
std::string const & key, std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
std::string const & target_name_override = "");
Watcher(Client const& client, std::string const& key,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback, bool recursive = false);
Watcher(SyncClient const& client, std::string const& key,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback, bool recursive = false);
Watcher(Client const& client, std::string const& key,
std::string const& range_end, std::function<void(Response)> callback,
std::function<void(bool)> wait_callback);
Watcher(SyncClient const& client, std::string const& key,
std::string const& range_end, std::function<void(Response)> callback,
std::function<void(bool)> wait_callback);
Watcher(Client const& client, std::string const& key, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback, bool recursive = false);
Watcher(SyncClient const& client, std::string const& key, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback, bool recursive = false);
Watcher(Client const& client, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback);
Watcher(SyncClient const& client, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback);
Watcher(std::string const& address, std::string const& key,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback, bool recursive = false);
Watcher(std::string const& address, std::string const& key,
std::string const& range_end, std::function<void(Response)> callback,
std::function<void(bool)> wait_callback);
Watcher(std::string const& address, std::string const& key, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback, bool recursive = false);
Watcher(std::string const& address, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback);
Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback, bool recursive = false,
int const auth_token_ttl = 300);
Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
std::string const& range_end, std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
int const auth_token_ttl = 300);
Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
int64_t fromIndex, std::function<void(Response)> callback,
std::function<void(bool)> wait_callback, bool recursive = false,
int const auth_token_ttl = 300);
Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
int const auth_token_ttl = 300);
Watcher(std::string const& address, std::string const& ca,
std::string const& cert, std::string const& privkey,
std::string const& key, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback, bool recursive = false,
std::string const& target_name_override = "");
Watcher(std::string const& address, std::string const& ca,
std::string const& cert, std::string const& privkey,
std::string const& key, std::string const& range_end,
int64_t fromIndex, std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
std::string const& target_name_override = "");
Watcher(Watcher const &) = delete;
Watcher(Watcher &&) = delete;
Watcher(Watcher const&) = delete;
Watcher(Watcher&&) = delete;
/**
* Wait util the task has been stopped, actively or passively, e.g., the watcher
* get cancelled or the server closes the connection.
*
* Returns true if the watcher is been normally cancelled, otherwise false.
*/
bool Wait();
/**
* Wait util the task has been stopped, actively or passively, e.g., the
* watcher get cancelled or the server closes the connection.
*
* Returns true if the watcher is been normally cancelled, otherwise false.
*/
bool Wait();
/**
* An async wait, the callback will be called when the task has been stopped.
*
* The callback parameter would be true if the watch is been normally cancelled.
*
* Note that you shouldn't use the watcher itself inside the `Wait()` callback
* as the callback will be invoked in a separate **detached** thread where the
* watcher may have been destroyed.
*/
void Wait(std::function<void(bool)> callback);
/**
* An async wait, the callback will be called when the task has been stopped.
*
* The callback parameter would be true if the watch is been normally
* cancelled.
*
* Note that you shouldn't use the watcher itself inside the `Wait()` callback
* as the callback will be invoked in a separate **detached** thread where the
* watcher may have been destroyed.
*
* @return true if the callback has been set successfully (no existing
* callback).
*/
bool Wait(std::function<void(bool)> callback);
/**
* Stop the watching action.
*/
bool Cancel();
/**
* Stop the watching action.
*/
bool Cancel();
/**
* Whether the watcher has been cancelled.
*/
bool Cancelled() const;
/**
* Whether the watcher has been cancelled.
*/
bool Cancelled() const;
~Watcher();
~Watcher();
protected:
void doWatch(std::string const & key,
std::string const & range_end,
std::string const & auth_token,
std::function<void(Response)> callback);
protected:
void doWatch(std::string const& key, std::string const& range_end,
std::string const& auth_token,
std::function<void(Response)> callback);
std::function<void(Response)> callback;
std::function<void(bool)> wait_callback;
std::function<void(Response)> callback;
std::function<void(bool)> wait_callback;
// Don't use `pplx::task` to avoid sharing thread pool with other actions on the client
// to avoid any potential blocking, which may block the keepalive loop and evict the lease.
std::thread task_;
// Don't use `pplx::task` to avoid sharing thread pool with other actions on
// the client to avoid any potential blocking, which may block the keepalive
// loop and evict the lease.
std::thread task_;
struct EtcdServerStubs;
struct EtcdServerStubsDeleter {
void operator()(etcd::Watcher::EtcdServerStubs *stubs);
};
std::unique_ptr<EtcdServerStubs, EtcdServerStubsDeleter> stubs;
private:
int64_t fromIndex;
bool recursive;
std::atomic_bool cancelled;
struct EtcdServerStubs;
struct EtcdServerStubsDeleter {
void operator()(etcd::Watcher::EtcdServerStubs* stubs);
};
}
std::unique_ptr<EtcdServerStubs, EtcdServerStubsDeleter> stubs;
private:
int64_t fromIndex;
bool recursive;
std::atomic_bool cancelled;
};
} // namespace etcd
#endif

146
etcd/v3/Action.hpp
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@ -6,86 +6,112 @@
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "proto/v3lock.grpc.pb.h"
#include "proto/v3election.grpc.pb.h"
#include "proto/v3lock.grpc.pb.h"
#include "etcd/v3/action_constants.hpp"
using grpc::ClientContext;
using grpc::CompletionQueue;
using grpc::Status;
using etcdserverpb::Cluster;
using etcdserverpb::KV;
using etcdserverpb::Watch;
using etcdserverpb::Lease;
using v3lockpb::Lock;
using etcdserverpb::Watch;
using v3electionpb::Election;
using v3lockpb::Lock;
namespace etcd {
class Response;
class Response;
}
namespace etcdv3
{
enum class AtomicityType
{
PREV_INDEX = 0,
PREV_VALUE = 1
};
namespace etcdv3 {
enum class AtomicityType { PREV_INDEX = 0, PREV_VALUE = 1 };
struct ActionParameters
{
ActionParameters();
bool withPrefix;
int64_t revision;
int64_t old_revision;
int64_t lease_id = 0; // no lease
int ttl;
int limit;
std::string name; // for campaign (in v3election)
std::string key;
std::string range_end;
bool keys_only;
bool count_only;
std::string value;
std::string old_value;
std::string auth_token;
std::chrono::microseconds grpc_timeout = std::chrono::microseconds::zero();
KV::Stub* kv_stub;
Watch::Stub* watch_stub;
Lease::Stub* lease_stub;
Lock::Stub* lock_stub;
Election::Stub* election_stub;
struct ActionParameters {
ActionParameters();
bool withPrefix;
int64_t revision = 0;
int64_t old_revision = 0;
int64_t lease_id = 0; // no lease
int ttl;
int limit;
std::string name; // for campaign (in v3election)
std::string key;
std::string range_end;
bool keys_only;
bool count_only;
std::string value;
std::string old_value;
std::string auth_token;
bool has_grpc_timeout() const;
std::chrono::system_clock::time_point grpc_deadline() const;
// for cluster management apis
std::vector<std::string> peer_urls;
bool is_learner;
uint64_t member_id;
void dump(std::ostream &os) const;
};
std::chrono::microseconds grpc_timeout = std::chrono::microseconds::zero();
KV::Stub* kv_stub;
Watch::Stub* watch_stub;
Cluster::Stub* cluster_stub;
Lease::Stub* lease_stub;
Lock::Stub* lock_stub;
Election::Stub* election_stub;
class Action
{
public:
Action(etcdv3::ActionParameters const &params);
Action(etcdv3::ActionParameters && params);
virtual ~Action();
bool has_grpc_timeout() const;
std::chrono::system_clock::time_point grpc_deadline() const;
void waitForResponse();
const std::chrono::high_resolution_clock::time_point startTimepoint();
protected:
Status status;
ClientContext context;
CompletionQueue cq_;
etcdv3::ActionParameters parameters;
std::chrono::high_resolution_clock::time_point start_timepoint;
private:
// Init things like auth token, etc.
void InitAction();
void dump(std::ostream& os) const;
};
friend class etcd::Response;
};
class Action {
public:
Action(etcdv3::ActionParameters const& params);
Action(etcdv3::ActionParameters&& params);
virtual ~Action();
namespace detail {
std::string string_plus_one(std::string const &value);
std::string resolve_etcd_endpoints(std::string const &default_endpoints);
void waitForResponse();
const std::chrono::high_resolution_clock::time_point startTimepoint();
protected:
Status status;
ClientContext context;
CompletionQueue cq_;
etcdv3::ActionParameters parameters;
std::chrono::high_resolution_clock::time_point start_timepoint;
private:
// Init things like auth token, etc.
void InitAction();
friend class etcd::Response;
};
namespace detail {
std::string string_plus_one(std::string const& value);
std::string resolve_etcd_endpoints(std::string const& default_endpoints);
template <typename Req>
void make_request_with_ranges(Req& req, std::string const& key,
std::string const& range_end,
bool const recursive) {
if (!recursive) {
req.set_key(key);
} else {
if (key.empty()) {
req.set_key(etcdv3::NUL);
req.set_range_end(etcdv3::NUL);
} else {
req.set_key(key);
req.set_range_end(detail::string_plus_one(key));
}
}
if (!range_end.empty()) {
req.set_range_end(range_end);
}
}
} // namespace detail
} // namespace etcdv3
#endif

27
etcd/v3/AsyncCompareAndDeleteAction.hpp
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@ -1,27 +0,0 @@
#ifndef __ASYNC_COMPAREANDDELETE_HPP__
#define __ASYNC_COMPAREANDDELETE_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncTxnResponse.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::TxnResponse;
using etcdserverpb::KV;
namespace etcdv3
{
class AsyncCompareAndDeleteAction : public etcdv3::Action
{
public:
AsyncCompareAndDeleteAction(etcdv3::ActionParameters && params, etcdv3::AtomicityType type);
AsyncTxnResponse ParseResponse();
private:
TxnResponse reply;
std::unique_ptr<ClientAsyncResponseReader<TxnResponse>> response_reader;
};
}
#endif

27
etcd/v3/AsyncCompareAndSwapAction.hpp
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@ -1,27 +0,0 @@
#ifndef __ASYNC_COMPAREANDSWAP_HPP__
#define __ASYNC_COMPAREANDSWAP_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncTxnResponse.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::TxnResponse;
using etcdserverpb::KV;
namespace etcdv3
{
class AsyncCompareAndSwapAction : public etcdv3::Action
{
public:
AsyncCompareAndSwapAction(etcdv3::ActionParameters && params, etcdv3::AtomicityType type);
AsyncTxnResponse ParseResponse();
private:
TxnResponse reply;
std::unique_ptr<ClientAsyncResponseReader<TxnResponse>> response_reader;
};
}
#endif

26
etcd/v3/AsyncDeleteAction.hpp
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@ -1,26 +0,0 @@
#ifndef __ASYNC_DELETE_HPP__
#define __ASYNC_DELETE_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncDeleteResponse.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::DeleteRangeResponse;
namespace etcdv3
{
class AsyncDeleteAction : public etcdv3::Action
{
public:
AsyncDeleteAction(etcdv3::ActionParameters && params);
AsyncDeleteResponse ParseResponse();
private:
DeleteRangeResponse reply;
std::unique_ptr<ClientAsyncResponseReader<DeleteRangeResponse>> response_reader;
};
}
#endif

23
etcd/v3/AsyncDeleteResponse.hpp
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@ -1,23 +0,0 @@
#ifndef __ASYNC_DELETERESPONSE_HPP__
#define __ASYNC_DELETERESPONSE_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/V3Response.hpp"
#include "etcd/v3/Action.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::DeleteRangeResponse;
namespace etcdv3
{
class AsyncDeleteResponse : public etcdv3::V3Response
{
public:
AsyncDeleteResponse(){};
void ParseResponse(std::string const& key, bool prefix, DeleteRangeResponse& resp);
};
}
#endif

80
etcd/v3/AsyncElectionAction.hpp
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@ -1,80 +0,0 @@
#ifndef __ASYNC_ELECTIONACTION_HPP__
#define __ASYNC_ELECTIONACTION_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "proto/v3election.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncElectionResponse.hpp"
#include "etcd/Response.hpp"
using grpc::ClientAsyncResponseReader;
using grpc::ClientAsyncReader;
using v3electionpb::CampaignRequest;
using v3electionpb::CampaignResponse;
using v3electionpb::ProclaimRequest;
using v3electionpb::ProclaimResponse;
using v3electionpb::LeaderRequest;
using v3electionpb::LeaderResponse;
using v3electionpb::ResignRequest;
using v3electionpb::ResignResponse;
namespace etcdv3
{
class AsyncCampaignAction : public etcdv3::Action
{
public:
AsyncCampaignAction(etcdv3::ActionParameters && params);
AsyncCampaignResponse ParseResponse();
private:
CampaignResponse reply;
std::unique_ptr<ClientAsyncResponseReader<CampaignResponse>> response_reader;
};
class AsyncProclaimAction : public etcdv3::Action
{
public:
AsyncProclaimAction(etcdv3::ActionParameters && params);
AsyncProclaimResponse ParseResponse();
private:
ProclaimResponse reply;
std::unique_ptr<ClientAsyncResponseReader<ProclaimResponse>> response_reader;
};
class AsyncLeaderAction : public etcdv3::Action
{
public:
AsyncLeaderAction(etcdv3::ActionParameters && params);
AsyncLeaderResponse ParseResponse();
private:
LeaderResponse reply;
std::unique_ptr<ClientAsyncResponseReader<LeaderResponse>> response_reader;
};
class AsyncObserveAction : public etcdv3::Action
{
public:
AsyncObserveAction(etcdv3::ActionParameters && params);
AsyncObserveResponse ParseResponse();
void waitForResponse();
void CancelObserve();
bool Cancelled() const;
private:
LeaderResponse reply;
std::unique_ptr<ClientAsyncReader<LeaderResponse>> response_reader;
std::atomic_bool isCancelled;
std::mutex protect_is_cancalled;
};
class AsyncResignAction : public etcdv3::Action
{
public:
AsyncResignAction(etcdv3::ActionParameters && params);
AsyncResignResponse ParseResponse();
private:
ResignResponse reply;
std::unique_ptr<ClientAsyncResponseReader<ResignResponse>> response_reader;
};
}
#endif

51
etcd/v3/AsyncElectionResponse.hpp
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@ -1,51 +0,0 @@
#ifndef __ASYNC_ELECTIONRESPONSE_HPP__
#define __ASYNC_ELECTIONRESPONSE_HPP__
#include "proto/rpc.pb.h"
#include "proto/v3election.pb.h"
#include "etcd/v3/V3Response.hpp"
using v3electionpb::CampaignResponse;
using v3electionpb::ProclaimResponse;
using v3electionpb::LeaderResponse;
using v3electionpb::ResignResponse;
namespace etcdv3
{
class AsyncCampaignResponse : public etcdv3::V3Response
{
public:
AsyncCampaignResponse(){};
void ParseResponse(CampaignResponse& resp);
};
class AsyncProclaimResponse : public etcdv3::V3Response
{
public:
AsyncProclaimResponse(){};
void ParseResponse(ProclaimResponse& resp);
};
class AsyncLeaderResponse : public etcdv3::V3Response
{
public:
AsyncLeaderResponse(){};
void ParseResponse(LeaderResponse& resp);
};
class AsyncObserveResponse : public etcdv3::V3Response
{
public:
AsyncObserveResponse(){};
void ParseResponse(LeaderResponse& resp);
};
class AsyncResignResponse : public etcdv3::V3Response
{
public:
AsyncResignResponse(){};
void ParseResponse(ResignResponse& resp);
};
}
#endif

491
etcd/v3/AsyncGRPC.hpp Normal file
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@ -0,0 +1,491 @@
#ifndef __ASYNC_GRPC_HPP__
#define __ASYNC_GRPC_HPP__
#include <atomic>
#include <mutex>
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "proto/rpc.pb.h"
#include "proto/v3election.grpc.pb.h"
#include "proto/v3election.pb.h"
#include "proto/v3lock.grpc.pb.h"
#include "proto/v3lock.pb.h"
#include "etcd/Response.hpp"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/V3Response.hpp"
using grpc::ClientAsyncReader;
using grpc::ClientAsyncReaderWriter;
using grpc::ClientAsyncResponseReader;
using etcdserverpb::KV;
using etcdserverpb::DeleteRangeRequest;
using etcdserverpb::DeleteRangeResponse;
using etcdserverpb::LeaseCheckpointRequest;
using etcdserverpb::LeaseCheckpointResponse;
using etcdserverpb::LeaseGrantRequest;
using etcdserverpb::LeaseGrantResponse;
using etcdserverpb::LeaseKeepAliveRequest;
using etcdserverpb::LeaseKeepAliveResponse;
using etcdserverpb::LeaseLeasesRequest;
using etcdserverpb::LeaseLeasesResponse;
using etcdserverpb::LeaseRevokeRequest;
using etcdserverpb::LeaseRevokeResponse;
using etcdserverpb::LeaseTimeToLiveRequest;
using etcdserverpb::LeaseTimeToLiveResponse;
using etcdserverpb::MemberAddRequest;
using etcdserverpb::MemberAddResponse;
using etcdserverpb::MemberListRequest;
using etcdserverpb::MemberListResponse;
using etcdserverpb::MemberRemoveRequest;
using etcdserverpb::MemberRemoveResponse;
using etcdserverpb::PutRequest;
using etcdserverpb::PutResponse;
using etcdserverpb::RangeRequest;
using etcdserverpb::RangeResponse;
using etcdserverpb::TxnRequest;
using etcdserverpb::TxnResponse;
using etcdserverpb::WatchRequest;
using etcdserverpb::WatchResponse;
using v3electionpb::CampaignRequest;
using v3electionpb::CampaignResponse;
using v3electionpb::LeaderRequest;
using v3electionpb::LeaderResponse;
using v3electionpb::ProclaimRequest;
using v3electionpb::ProclaimResponse;
using v3electionpb::ResignRequest;
using v3electionpb::ResignResponse;
using v3lockpb::LockRequest;
using v3lockpb::LockResponse;
using v3lockpb::UnlockRequest;
using v3lockpb::UnlockResponse;
namespace etcd {
class KeepAlive;
}
namespace etcdv3 {
class Transaction;
}
namespace etcdv3 {
class AsyncCampaignResponse : public etcdv3::V3Response {
public:
AsyncCampaignResponse(){};
void ParseResponse(CampaignResponse& resp);
};
class AsyncDeleteResponse : public etcdv3::V3Response {
public:
AsyncDeleteResponse(){};
void ParseResponse(DeleteRangeResponse& resp);
};
class AsyncHeadResponse : public etcdv3::V3Response {
public:
AsyncHeadResponse(){};
void ParseResponse(RangeResponse& resp);
};
class AsyncLeaderResponse : public etcdv3::V3Response {
public:
AsyncLeaderResponse(){};
void ParseResponse(LeaderResponse& resp);
};
class AsyncLeaseGrantResponse : public etcdv3::V3Response {
public:
AsyncLeaseGrantResponse(){};
void ParseResponse(LeaseGrantResponse& resp);
};
class AsyncLeaseKeepAliveResponse : public etcdv3::V3Response {
public:
AsyncLeaseKeepAliveResponse(){};
void ParseResponse(LeaseKeepAliveResponse& resp);
};
class AsyncMemberAddResponse : public etcdv3::V3Response {
public:
AsyncMemberAddResponse(){};
void ParseResponse(MemberAddResponse& resp);
};
class AsyncMemberListResponse : public etcdv3::V3Response {
public:
AsyncMemberListResponse(){};
void ParseResponse(MemberListResponse& resp);
};
class AsyncMemberRemoveResponse : public etcdv3::V3Response {
public:
AsyncMemberRemoveResponse(){};
void ParseResponse(MemberRemoveResponse& resp);
};
class AsyncLeaseLeasesResponse : public etcdv3::V3Response {
public:
AsyncLeaseLeasesResponse(){};
void ParseResponse(LeaseLeasesResponse& resp);
};
class AsyncLeaseRevokeResponse : public etcdv3::V3Response {
public:
AsyncLeaseRevokeResponse(){};
void ParseResponse(LeaseRevokeResponse& resp);
};
class AsyncLeaseTimeToLiveResponse : public etcdv3::V3Response {
public:
AsyncLeaseTimeToLiveResponse(){};
void ParseResponse(LeaseTimeToLiveResponse& resp);
};
class AsyncLockResponse : public etcdv3::V3Response {
public:
AsyncLockResponse(){};
void ParseResponse(LockResponse& resp);
};
class AsyncObserveResponse : public etcdv3::V3Response {
public:
AsyncObserveResponse(){};
void ParseResponse(LeaderResponse& resp);
};
class AsyncProclaimResponse : public etcdv3::V3Response {
public:
AsyncProclaimResponse(){};
void ParseResponse(ProclaimResponse& resp);
};
class AsyncPutResponse : public etcdv3::V3Response {
public:
AsyncPutResponse(){};
void ParseResponse(PutResponse& resp);
};
class AsyncRangeResponse : public etcdv3::V3Response {
public:
AsyncRangeResponse(){};
void ParseResponse(RangeResponse& resp, bool prefix = false);
};
class AsyncResignResponse : public etcdv3::V3Response {
public:
AsyncResignResponse(){};
void ParseResponse(ResignResponse& resp);
};
class AsyncTxnResponse : public etcdv3::V3Response {
public:
AsyncTxnResponse(){};
void ParseResponse(TxnResponse& resp);
};
class AsyncUnlockResponse : public etcdv3::V3Response {
public:
AsyncUnlockResponse(){};
void ParseResponse(UnlockResponse& resp);
};
class AsyncWatchResponse : public etcdv3::V3Response {
public:
AsyncWatchResponse(){};
void ParseResponse(WatchResponse& resp);
};
} // namespace etcdv3
namespace etcdv3 {
class AsyncCampaignAction : public etcdv3::Action {
public:
AsyncCampaignAction(etcdv3::ActionParameters&& params);
AsyncCampaignResponse ParseResponse();
private:
CampaignResponse reply;
std::unique_ptr<ClientAsyncResponseReader<CampaignResponse>> response_reader;
};
class AsyncCompareAndDeleteAction : public etcdv3::Action {
public:
AsyncCompareAndDeleteAction(etcdv3::ActionParameters&& params,
etcdv3::AtomicityType type);
AsyncTxnResponse ParseResponse();
private:
TxnResponse reply;
std::unique_ptr<ClientAsyncResponseReader<TxnResponse>> response_reader;
};
class AsyncCompareAndSwapAction : public etcdv3::Action {
public:
AsyncCompareAndSwapAction(etcdv3::ActionParameters&& params,
etcdv3::AtomicityType type);
AsyncTxnResponse ParseResponse();
private:
TxnResponse reply;
std::unique_ptr<ClientAsyncResponseReader<TxnResponse>> response_reader;
};
class AsyncDeleteAction : public etcdv3::Action {
public:
AsyncDeleteAction(etcdv3::ActionParameters&& params);
AsyncDeleteResponse ParseResponse();
private:
DeleteRangeResponse reply;
std::unique_ptr<ClientAsyncResponseReader<DeleteRangeResponse>>
response_reader;
};
class AsyncHeadAction : public etcdv3::Action {
public:
AsyncHeadAction(etcdv3::ActionParameters&& params);
AsyncHeadResponse ParseResponse();
private:
RangeResponse reply;
std::unique_ptr<ClientAsyncResponseReader<RangeResponse>> response_reader;
};
class AsyncLeaderAction : public etcdv3::Action {
public:
AsyncLeaderAction(etcdv3::ActionParameters&& params);
AsyncLeaderResponse ParseResponse();
private:
LeaderResponse reply;
std::unique_ptr<ClientAsyncResponseReader<LeaderResponse>> response_reader;
};
class AsyncLeaseGrantAction : public etcdv3::Action {
public:
AsyncLeaseGrantAction(etcdv3::ActionParameters&& params);
AsyncLeaseGrantResponse ParseResponse();
private:
LeaseGrantResponse reply;
std::unique_ptr<ClientAsyncResponseReader<LeaseGrantResponse>>
response_reader;
};
class AsyncLeaseKeepAliveAction : public etcdv3::Action {
public:
AsyncLeaseKeepAliveAction(etcdv3::ActionParameters&& params);
AsyncLeaseKeepAliveResponse ParseResponse();
etcd::Response Refresh();
void CancelKeepAlive();
bool Cancelled() const;
private:
etcdv3::ActionParameters& mutable_parameters();
LeaseKeepAliveResponse reply;
std::unique_ptr<
ClientAsyncReaderWriter<LeaseKeepAliveRequest, LeaseKeepAliveResponse>>
stream;
LeaseKeepAliveRequest req;
std::atomic_bool isCancelled;
std::recursive_mutex protect_is_cancelled;
friend class etcd::KeepAlive;
};
class AsyncAddMemberAction : public etcdv3::Action {
public:
AsyncAddMemberAction(etcdv3::ActionParameters&& params);
AsyncMemberAddResponse ParseResponse();
private:
MemberAddResponse reply;
std::unique_ptr<ClientAsyncResponseReader<MemberAddResponse>> response_reader;
};
class AsyncListMemberAction : public etcdv3::Action {
public:
AsyncListMemberAction(etcdv3::ActionParameters&& params);
AsyncMemberListResponse ParseResponse();
private:
MemberListResponse reply;
std::unique_ptr<ClientAsyncResponseReader<MemberListResponse>>
response_reader;
};
class AsyncRemoveMemberAction : public etcdv3::Action {
public:
AsyncRemoveMemberAction(etcdv3::ActionParameters&& params);
AsyncMemberRemoveResponse ParseResponse();
private:
MemberRemoveResponse reply;
std::unique_ptr<ClientAsyncResponseReader<MemberRemoveResponse>>
response_reader;
};
class AsyncLeaseLeasesAction : public etcdv3::Action {
public:
AsyncLeaseLeasesAction(etcdv3::ActionParameters&& params);
AsyncLeaseLeasesResponse ParseResponse();
private:
LeaseLeasesResponse reply;
std::unique_ptr<ClientAsyncResponseReader<LeaseLeasesResponse>>
response_reader;
};
class AsyncLeaseRevokeAction : public etcdv3::Action {
public:
AsyncLeaseRevokeAction(etcdv3::ActionParameters&& params);
AsyncLeaseRevokeResponse ParseResponse();
private:
LeaseRevokeResponse reply;
std::unique_ptr<ClientAsyncResponseReader<LeaseRevokeResponse>>
response_reader;
};
class AsyncLeaseTimeToLiveAction : public etcdv3::Action {
public:
AsyncLeaseTimeToLiveAction(etcdv3::ActionParameters&& params);
AsyncLeaseTimeToLiveResponse ParseResponse();
private:
LeaseTimeToLiveResponse reply;
std::unique_ptr<ClientAsyncResponseReader<LeaseTimeToLiveResponse>>
response_reader;
};
class AsyncLockAction : public etcdv3::Action {
public:
AsyncLockAction(etcdv3::ActionParameters&& params);
AsyncLockResponse ParseResponse();
private:
LockResponse reply;
std::unique_ptr<ClientAsyncResponseReader<LockResponse>> response_reader;
};
class AsyncObserveAction : public etcdv3::Action {
public:
AsyncObserveAction(etcdv3::ActionParameters&& params);
AsyncObserveResponse ParseResponse();
void waitForResponse();
void CancelObserve();
bool Cancelled() const;
private:
LeaderResponse reply;
std::unique_ptr<ClientAsyncReader<LeaderResponse>> response_reader;
std::atomic_bool isCancelled;
std::mutex protect_is_cancelled;
};
class AsyncProclaimAction : public etcdv3::Action {
public:
AsyncProclaimAction(etcdv3::ActionParameters&& params);
AsyncProclaimResponse ParseResponse();
private:
ProclaimResponse reply;
std::unique_ptr<ClientAsyncResponseReader<ProclaimResponse>> response_reader;
};
class AsyncPutAction : public etcdv3::Action {
public:
AsyncPutAction(etcdv3::ActionParameters&& params);
AsyncPutResponse ParseResponse();
private:
PutResponse reply;
std::unique_ptr<ClientAsyncResponseReader<PutResponse>> response_reader;
};
class AsyncRangeAction : public etcdv3::Action {
public:
AsyncRangeAction(etcdv3::ActionParameters&& params);
AsyncRangeResponse ParseResponse();
private:
RangeResponse reply;
std::unique_ptr<ClientAsyncResponseReader<RangeResponse>> response_reader;
};
class AsyncResignAction : public etcdv3::Action {
public:
AsyncResignAction(etcdv3::ActionParameters&& params);
AsyncResignResponse ParseResponse();
private:
ResignResponse reply;
std::unique_ptr<ClientAsyncResponseReader<ResignResponse>> response_reader;
};
class AsyncSetAction : public etcdv3::Action {
public:
AsyncSetAction(etcdv3::ActionParameters&& params, bool create = false);
AsyncTxnResponse ParseResponse();
private:
TxnResponse reply;
std::unique_ptr<ClientAsyncResponseReader<TxnResponse>> response_reader;
bool isCreate;
};
class AsyncTxnAction : public etcdv3::Action {
public:
AsyncTxnAction(etcdv3::ActionParameters&& params,
etcdv3::Transaction const& tx);
AsyncTxnResponse ParseResponse();
private:
TxnResponse reply;
std::unique_ptr<ClientAsyncResponseReader<TxnResponse>> response_reader;
};
class AsyncUnlockAction : public etcdv3::Action {
public:
AsyncUnlockAction(etcdv3::ActionParameters&& params);
AsyncUnlockResponse ParseResponse();
private:
UnlockResponse reply;
std::unique_ptr<ClientAsyncResponseReader<UnlockResponse>> response_reader;
};
class AsyncUpdateAction : public etcdv3::Action {
public:
AsyncUpdateAction(etcdv3::ActionParameters&& params);
AsyncTxnResponse ParseResponse();
private:
TxnResponse reply;
std::unique_ptr<ClientAsyncResponseReader<TxnResponse>> response_reader;
};
class AsyncWatchAction : public etcdv3::Action {
public:
AsyncWatchAction(etcdv3::ActionParameters&& params);
AsyncWatchResponse ParseResponse();
void waitForResponse();
void waitForResponse(std::function<void(etcd::Response)> callback);
void CancelWatch();
bool Cancelled() const;
private:
int64_t watch_id = -1;
WatchResponse reply;
std::unique_ptr<ClientAsyncReaderWriter<WatchRequest, WatchResponse>> stream;
std::atomic_bool isCancelled;
};
} // namespace etcdv3
#endif

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etcd/v3/AsyncHeadAction.hpp
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#ifndef __ASYNC_HEAD_HPP__
#define __ASYNC_HEAD_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncHeadResponse.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::RangeResponse;
namespace etcdv3
{
class AsyncHeadAction : public etcdv3::Action
{
public:
AsyncHeadAction(etcdv3::ActionParameters && params);
AsyncHeadResponse ParseResponse();
private:
RangeResponse reply;
std::unique_ptr<ClientAsyncResponseReader<RangeResponse>> response_reader;
};
}
#endif

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etcd/v3/AsyncHeadResponse.hpp
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#ifndef __ASYNC_HEADRESPONSE_HPP__
#define __ASYNC_HEADRESPONSE_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/V3Response.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::RangeResponse;
namespace etcdv3
{
class AsyncHeadResponse : public etcdv3::V3Response
{
public:
AsyncHeadResponse(){};
void ParseResponse(RangeResponse& resp);
};
}
#endif

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etcd/v3/AsyncLeaseAction.hpp
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#ifndef __ASYNC_LEASEACTION_HPP__
#define __ASYNC_LEASEACTION_HPP__
#include <mutex>
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncLeaseResponse.hpp"
#include "etcd/Response.hpp"
using grpc::ClientAsyncResponseReader;
using grpc::ClientAsyncReaderWriter;
using etcdserverpb::LeaseGrantResponse;
using etcdserverpb::LeaseRevokeResponse;
using etcdserverpb::LeaseCheckpoint;
using etcdserverpb::LeaseCheckpointResponse;
using etcdserverpb::LeaseKeepAliveRequest;
using etcdserverpb::LeaseKeepAliveResponse;
using etcdserverpb::LeaseTimeToLiveResponse;
using etcdserverpb::LeaseStatus;
using etcdserverpb::LeaseLeasesResponse;
namespace etcd {
class KeepAlive;
}
namespace etcdv3
{
class AsyncLeaseGrantAction : public etcdv3::Action {
public:
AsyncLeaseGrantAction(etcdv3::ActionParameters && params);
AsyncLeaseGrantResponse ParseResponse();
private:
LeaseGrantResponse reply;
std::unique_ptr<ClientAsyncResponseReader<LeaseGrantResponse>> response_reader;
};
class AsyncLeaseRevokeAction: public etcdv3::Action {
public:
AsyncLeaseRevokeAction(etcdv3::ActionParameters && params);
AsyncLeaseRevokeResponse ParseResponse();
private:
LeaseRevokeResponse reply;
std::unique_ptr<ClientAsyncResponseReader<LeaseRevokeResponse>> response_reader;
};
class AsyncLeaseKeepAliveAction: public etcdv3::Action {
public:
AsyncLeaseKeepAliveAction(etcdv3::ActionParameters && params);
AsyncLeaseKeepAliveResponse ParseResponse();
etcd::Response Refresh();
void CancelKeepAlive();
bool Cancelled() const;
private:
etcdv3::ActionParameters& mutable_parameters();
LeaseKeepAliveResponse reply;
std::unique_ptr<ClientAsyncReaderWriter<LeaseKeepAliveRequest, LeaseKeepAliveResponse>> stream;
LeaseKeepAliveRequest req;
bool isCancelled;
std::recursive_mutex protect_is_cancelled;
friend class etcd::KeepAlive;
};
class AsyncLeaseTimeToLiveAction: public etcdv3::Action {
public:
AsyncLeaseTimeToLiveAction(etcdv3::ActionParameters && params);
AsyncLeaseTimeToLiveResponse ParseResponse();
private:
LeaseTimeToLiveResponse reply;
std::unique_ptr<ClientAsyncResponseReader<LeaseTimeToLiveResponse>> response_reader;
};
class AsyncLeaseLeasesAction: public etcdv3::Action {
public:
AsyncLeaseLeasesAction(etcdv3::ActionParameters && params);
AsyncLeaseLeasesResponse ParseResponse();
private:
LeaseLeasesResponse reply;
std::unique_ptr<ClientAsyncResponseReader<LeaseLeasesResponse>> response_reader;
};
}
#endif

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etcd/v3/AsyncLeaseResponse.hpp
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#ifndef __ASYNC_LEASERESPONSE_HPP__
#define __ASYNC_LEASERESPONSE_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/V3Response.hpp"
using etcdserverpb::LeaseGrantResponse;
using etcdserverpb::LeaseRevokeResponse;
using etcdserverpb::LeaseCheckpoint;
using etcdserverpb::LeaseCheckpointResponse;
using etcdserverpb::LeaseKeepAliveResponse;
using etcdserverpb::LeaseTimeToLiveResponse;
using etcdserverpb::LeaseStatus;
using etcdserverpb::LeaseLeasesResponse;
namespace etcdv3
{
class AsyncLeaseGrantResponse : public etcdv3::V3Response
{
public:
AsyncLeaseGrantResponse(){};
void ParseResponse(LeaseGrantResponse& resp);
};
class AsyncLeaseRevokeResponse : public etcdv3::V3Response
{
public:
AsyncLeaseRevokeResponse(){};
void ParseResponse(LeaseRevokeResponse& resp);
};
class AsyncLeaseKeepAliveResponse : public etcdv3::V3Response
{
public:
AsyncLeaseKeepAliveResponse(){};
void ParseResponse(LeaseKeepAliveResponse& resp);
};
class AsyncLeaseTimeToLiveResponse : public etcdv3::V3Response
{
public:
AsyncLeaseTimeToLiveResponse(){};
void ParseResponse(LeaseTimeToLiveResponse& resp);
};
class AsyncLeaseLeasesResponse : public etcdv3::V3Response
{
public:
AsyncLeaseLeasesResponse(){};
void ParseResponse(LeaseLeasesResponse& resp);
};
}
#endif

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etcd/v3/AsyncLockAction.hpp
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#ifndef __ASYNC_LOCKACTION_HPP__
#define __ASYNC_LOCKACTION_HPP__
#include <grpc++/grpc++.h>
#include "proto/v3lock.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncLockResponse.hpp"
#include "etcd/Response.hpp"
using grpc::ClientAsyncResponseReader;
using v3lockpb::LockRequest;
using v3lockpb::LockResponse;
using v3lockpb::UnlockRequest;
using v3lockpb::UnlockResponse;
namespace etcdv3
{
class AsyncLockAction : public etcdv3::Action
{
public:
AsyncLockAction(etcdv3::ActionParameters && params);
AsyncLockResponse ParseResponse();
private:
LockResponse reply;
std::unique_ptr<ClientAsyncResponseReader<LockResponse>> response_reader;
};
class AsyncUnlockAction : public etcdv3::Action
{
public:
AsyncUnlockAction(etcdv3::ActionParameters && params);
AsyncUnlockResponse ParseResponse();
private:
UnlockResponse reply;
std::unique_ptr<ClientAsyncResponseReader<UnlockResponse>> response_reader;
};
}
#endif

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etcd/v3/AsyncLockResponse.hpp
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#ifndef __ASYNC_LOCK_HPP__
#define __ASYNC_LOCK_HPP__
#include <grpc++/grpc++.h>
#include "proto/v3lock.grpc.pb.h"
#include "etcd/v3/V3Response.hpp"
using grpc::ClientAsyncResponseReader;
using v3lockpb::LockRequest;
using v3lockpb::LockResponse;
using v3lockpb::UnlockRequest;
using v3lockpb::UnlockResponse;
namespace etcdv3
{
class AsyncLockResponse : public etcdv3::V3Response
{
public:
AsyncLockResponse(){};
void ParseResponse(LockResponse& resp);
};
class AsyncUnlockResponse : public etcdv3::V3Response
{
public:
AsyncUnlockResponse(){};
void ParseResponse(UnlockResponse& resp);
};
}
#endif

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etcd/v3/AsyncPutAction.hpp
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#ifndef __ASYNC_PUT_HPP__
#define __ASYNC_PUT_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncPutResponse.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::PutResponse;
namespace etcdv3
{
class AsyncPutAction : public etcdv3::Action
{
public:
AsyncPutAction(etcdv3::ActionParameters && params);
AsyncPutResponse ParseResponse();
private:
PutResponse reply;
std::unique_ptr<ClientAsyncResponseReader<PutResponse>> response_reader;
};
}
#endif

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etcd/v3/AsyncPutResponse.hpp
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#ifndef __ASYNC_PUTRESPONSE_HPP__
#define __ASYNC_PUTRESPONSE_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/V3Response.hpp"
#include "etcd/v3/Action.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::PutResponse;
namespace etcdv3
{
class AsyncPutResponse : public etcdv3::V3Response
{
public:
AsyncPutResponse(){};
void ParseResponse(PutResponse& resp);
};
}
#endif

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etcd/v3/AsyncRangeAction.hpp
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#ifndef __ASYNC_RANGE_HPP__
#define __ASYNC_RANGE_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncRangeResponse.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::RangeResponse;
namespace etcdv3
{
class AsyncRangeAction : public etcdv3::Action
{
public:
AsyncRangeAction(etcdv3::ActionParameters && params);
AsyncRangeResponse ParseResponse();
private:
RangeResponse reply;
std::unique_ptr<ClientAsyncResponseReader<RangeResponse>> response_reader;
};
}
#endif

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etcd/v3/AsyncRangeResponse.hpp
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#ifndef __ASYNC_RANGERESPONSE_HPP__
#define __ASYNC_RANGERESPONSE_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/V3Response.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::RangeResponse;
namespace etcdv3
{
class AsyncRangeResponse : public etcdv3::V3Response
{
public:
AsyncRangeResponse(){};
void ParseResponse(RangeResponse& resp, bool prefix=false);
};
}
#endif

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etcd/v3/AsyncSetAction.hpp
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#ifndef __ASYNC_SET_HPP__
#define __ASYNC_SET_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncTxnResponse.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::TxnResponse;
using etcdserverpb::KV;
namespace etcdv3
{
class AsyncSetAction : public etcdv3::Action
{
public:
AsyncSetAction(etcdv3::ActionParameters && params, bool create=false);
AsyncTxnResponse ParseResponse();
private:
TxnResponse reply;
std::unique_ptr<ClientAsyncResponseReader<TxnResponse>> response_reader;
bool isCreate;
};
}
#endif

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etcd/v3/AsyncTxnAction.hpp
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#ifndef __ASYNC_TXNACTION_HPP__
#define __ASYNC_TXNACTION_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncTxnResponse.hpp"
#include "etcd/v3/Transaction.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::TxnRequest;
using etcdserverpb::TxnResponse;
using etcdserverpb::KV;
namespace etcdv3
{
class AsyncTxnAction : public etcdv3::Action
{
public:
AsyncTxnAction(etcdv3::ActionParameters && params, etcdv3::Transaction const &tx);
AsyncTxnResponse ParseResponse();
private:
TxnResponse reply;
std::unique_ptr<ClientAsyncResponseReader<TxnResponse>> response_reader;
};
}
#endif

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etcd/v3/AsyncTxnResponse.hpp
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#ifndef __ASYNC_TXNRESPONSE_HPP__
#define __ASYNC_TXNRESPONSE_HPP__
#include "proto/rpc.pb.h"
#include "etcd/v3/V3Response.hpp"
using etcdserverpb::TxnResponse;
namespace etcdv3
{
class AsyncTxnResponse : public etcdv3::V3Response
{
public:
AsyncTxnResponse(){};
void ParseResponse(TxnResponse& resp);
void ParseResponse(std::string const& key, bool prefix, TxnResponse& resp);
};
}
#endif

27
etcd/v3/AsyncUpdateAction.hpp
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@ -1,27 +0,0 @@
#ifndef __ASYNC_UPDATE_HPP__
#define __ASYNC_UPDATE_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncTxnResponse.hpp"
using grpc::ClientAsyncResponseReader;
using etcdserverpb::TxnResponse;
using etcdserverpb::KV;
namespace etcdv3
{
class AsyncUpdateAction : public etcdv3::Action
{
public:
AsyncUpdateAction(etcdv3::ActionParameters && params);
AsyncTxnResponse ParseResponse();
private:
TxnResponse reply;
std::unique_ptr<ClientAsyncResponseReader<TxnResponse>> response_reader;
};
}
#endif

36
etcd/v3/AsyncWatchAction.hpp
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@ -1,36 +0,0 @@
#ifndef __ASYNC_WATCHACTION_HPP__
#define __ASYNC_WATCHACTION_HPP__
#include <atomic>
#include <mutex>
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "etcd/v3/Action.hpp"
#include "etcd/v3/AsyncWatchResponse.hpp"
#include "etcd/Response.hpp"
using grpc::ClientAsyncReaderWriter;
using etcdserverpb::WatchRequest;
using etcdserverpb::WatchResponse;
namespace etcdv3
{
class AsyncWatchAction : public etcdv3::Action
{
public:
AsyncWatchAction(etcdv3::ActionParameters && params);
AsyncWatchResponse ParseResponse();
void waitForResponse();
void waitForResponse(std::function<void(etcd::Response)> callback);
void CancelWatch();
bool Cancelled() const;
private:
int64_t watch_id = -1;
WatchResponse reply;
std::unique_ptr<ClientAsyncReaderWriter<WatchRequest,WatchResponse>> stream;
std::atomic_bool isCancelled;
};
}
#endif

25
etcd/v3/AsyncWatchResponse.hpp
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@ -1,25 +0,0 @@
#ifndef __ASYNC_WATCH_HPP__
#define __ASYNC_WATCH_HPP__
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
#include "proto/rpc.pb.h"
#include "etcd/v3/V3Response.hpp"
using etcdserverpb::WatchRequest;
using etcdserverpb::WatchResponse;
using etcdserverpb::KV;
namespace etcdv3
{
class AsyncWatchResponse : public etcdv3::V3Response
{
public:
AsyncWatchResponse(){};
void ParseResponse(WatchResponse& resp);
};
}
#endif

24
etcd/v3/KeyValue.hpp
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@ -3,18 +3,16 @@
#include "proto/kv.pb.h"
namespace etcdv3 {
class KeyValue {
public:
KeyValue();
mvccpb::KeyValue kvs;
void set_ttl(int ttl);
int get_ttl() const;
namespace etcdv3
{
class KeyValue
{
public:
KeyValue();
mvccpb::KeyValue kvs;
void set_ttl(int ttl);
int get_ttl() const;
private:
int ttl;
};
}
private:
int ttl;
};
} // namespace etcdv3
#endif

33
etcd/v3/Member.hpp Normal file
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@ -0,0 +1,33 @@
#ifndef __V3_ETCDV3MEMBERS_HPP__
#define __V3_ETCDV3MEMBERS_HPP__
#include <cstdint>
#include <string>
#include <vector>
using namespace std;
namespace etcdv3 {
class Member {
public:
Member();
void set_id(uint64_t const& id);
uint64_t const& get_id() const;
void set_name(std::string const& name);
std::string const& get_name() const;
void set_peerURLs(std::vector<std::string> const& peerURLs);
std::vector<std::string> const& get_peerURLs() const;
void set_clientURLs(std::vector<std::string> const& clientURLs);
std::vector<std::string> const& get_clientURLs() const;
void set_learner(bool isLearner);
bool get_learner() const;
private:
uint64_t id;
std::string name;
std::vector<std::string> peerURLs;
std::vector<std::string> clientURLs;
bool isLearner;
};
} // namespace etcdv3
#endif

231
etcd/v3/Transaction.hpp
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@ -1,60 +1,223 @@
#ifndef V3_SRC_TRANSACTION_HPP_
#define V3_SRC_TRANSACTION_HPP_
#include <string>
#include <memory>
#include <string>
namespace etcdserverpb {
class TxnRequest;
class TxnRequest;
}
namespace etcdv3 {
enum class CompareResult {
EQUAL = 0,
GREATER = 1,
LESS = 2,
NOT_EQUAL = 3,
EQUAL = 0,
GREATER = 1,
LESS = 2,
NOT_EQUAL = 3,
};
enum class CompareTarget {
VERSION = 0,
CREATE = 1,
MOD = 2,
VALUE = 3,
LEASE = 4,
VERSION = 0,
CREATE = 1,
MOD = 2,
VALUE = 3,
LEASE = 4,
};
class Transaction {
public:
Transaction();
Transaction(std::string const&);
virtual ~Transaction();
public:
Transaction();
~Transaction();
// Set a new key for different comparisons and /put/get/delete requests.
void reset_key(std::string const& newkey);
union Value {
int64_t version;
int64_t create_revision;
int64_t mod_revision;
std::string value;
int64_t lease;
};
void init_compare(CompareResult, CompareTarget);
void init_compare(std::string const &old_value, CompareResult, CompareTarget);
void init_compare(int64_t old_value, CompareResult, CompareTarget);
void add_compare(std::string const& key, CompareTarget const& target,
CompareResult const& result, Value const& target_value,
std::string const& range_end = "");
void setup_basic_failure_operation(std::string const &key);
void setup_set_failure_operation(std::string const &key, std::string const &value, int64_t leaseid);
void setup_basic_create_sequence(std::string const &key, std::string const &value, int64_t leaseid);
void setup_compare_and_swap_sequence(std::string const &valueToSwap, int64_t leaseid);
void setup_delete_sequence(std::string const &key, std::string const &range_end, bool recursive);
void setup_delete_failure_operation(std::string const &key, std::string const &range_end, bool recursive);
void setup_compare_and_delete_operation(std::string const& key);
void add_compare_version(std::string const& key, int64_t const& version,
std::string const& range_end = "");
void add_compare_version(std::string const& key, CompareResult const& result,
int64_t const& version,
std::string const& range_end = "");
void add_compare_create(std::string const& key,
int64_t const& create_revision,
std::string const& range_end = "");
void add_compare_create(std::string const& key, CompareResult const& result,
int64_t const& create_revision,
std::string const& range_end = "");
void add_compare_mod(std::string const& key, int64_t const& mod_revision,
std::string const& range_end = "");
void add_compare_mod(std::string const& key, CompareResult const& result,
int64_t const& mod_revision,
std::string const& range_end = "");
void add_compare_value(std::string const& key, std::string const& value,
std::string const& range_end = "");
void add_compare_value(std::string const& key, CompareResult const& result,
std::string const& value,
std::string const& range_end = "");
void add_compare_lease(std::string const& key, int64_t const& lease,
std::string const& range_end = "");
void add_compare_lease(std::string const& key, CompareResult const& result,
int64_t const& lease,
std::string const& range_end = "");
// update without `get` and no `prev_kv` returned
void setup_put(std::string const &key, std::string const &value);
void setup_delete(std::string const &key);
void add_success_range(std::string const& key,
std::string const& range_end = "",
bool const recursive = false, const int64_t limit = 0);
void add_success_put(std::string const& key, std::string const& value,
int64_t const leaseid = 0, const bool prev_kv = false);
void add_success_delete(std::string const& key,
std::string const& range_end = "",
bool const recursive = false,
const bool prev_kv = false);
void add_success_txn(const std::shared_ptr<Transaction> txn);
std::shared_ptr<etcdserverpb::TxnRequest> txn_request;
private:
std::string key;
void add_failure_range(std::string const& key,
std::string const& range_end = "",
bool const recursive = false, const int64_t limit = 0);
void add_failure_put(std::string const& key, std::string const& value,
int64_t const leaseid = 0, const bool prev_kv = false);
void add_failure_delete(std::string const& key,
std::string const& range_end = "",
bool const recursive = false,
const bool prev_kv = false);
void add_failure_txn(const std::shared_ptr<Transaction> txn);
/**
* @brief Compare, and create if succeed. If failed, the response will
* contains the previous value in "values()" field.
*/
void setup_compare_and_create(std::string const& key,
std::string const& prev_value,
std::string const& create_key,
std::string const& value,
int64_t const leaseid = 0);
/**
* @brief Compare, or create if failed. If failed, the response will contains
* the previous value in "values()" field.
*/
void setup_compare_or_create(std::string const& key,
std::string const& prev_value,
std::string const& create_key,
std::string const& value,
int64_t const leaseid = 0);
/**
* @brief Compare, and swap if succeed. If failed, the response will contains
* the previous value in "values()" field.
*/
void setup_compare_and_swap(std::string const& key,
std::string const& prev_value,
std::string const& value,
int64_t const leaseid = 0);
/**
* @brief Compare, and swap if failed. If failed, the response will contains
* the previous value in "values()" field.
*/
void setup_compare_or_swap(std::string const& key,
std::string const& prev_value,
std::string const& value,
int64_t const leaseid = 0);
/**
* @brief Compare, and delete if succeed. If failed, the response will
* contains the previous value in "values()" field.
*/
void setup_compare_and_delete(std::string const& key,
std::string const& prev_value,
std::string const& delete_key,
std::string const& range_end = "",
const bool recursive = false);
/**
* @brief Compare, or delete if failed. If failed, the response will contains
* the previous value in "values()" field.
*/
void setup_compare_or_delete(std::string const& key,
std::string const& prev_value,
std::string const& delete_key,
std::string const& range_end = "",
const bool recursive = false);
/**
* @brief Compare, and create if succeed. If failed, the response will
* contains the previous value in "values()" field.
*/
void setup_compare_and_create(std::string const& key,
const int64_t prev_revision,
std::string const& create_key,
std::string const& value,
int64_t const leaseid = 0);
/**
* @brief Compare, or create if failed. If failed, the response will contains
* the previous value in "values()" field.
*/
void setup_compare_or_create(std::string const& key,
const int64_t prev_revision,
std::string const& create_key,
std::string const& value,
int64_t const leaseid = 0);
/**
* @brief Compare, and swap if succeed. If failed, the response will contains
* the previous value in "values()" field.
*/
void setup_compare_and_swap(std::string const& key,
const int64_t prev_revision,
std::string const& value,
int64_t const leaseid = 0);
/**
* @brief Compare, and swap if failed. If failed, the response will contains
* the previous value in "values()" field.
*/
void setup_compare_or_swap(std::string const& key,
const int64_t prev_revision,
std::string const& value,
int64_t const leaseid = 0);
/**
* @brief Compare, and delete if succeed. If failed, the response will
* contains the previous value in "values()" field.
*/
void setup_compare_and_delete(std::string const& key,
const int64_t prev_revision,
std::string const& delete_key,
std::string const& range_end = "",
const bool recursive = false);
/**
* @brief Compare, or delete if failed. If failed, the response will contains
* the previous value in "values()" field.
*/
void setup_compare_or_delete(std::string const& key,
const int64_t prev_revision,
std::string const& delete_key,
std::string const& range_end = "",
const bool recursive = false);
// Keep for backwards compatibility.
// update without `get` and no `prev_kv` returned
void setup_put(std::string const& key, std::string const& value);
void setup_delete(std::string const& key);
void setup_delete(std::string const& key, std::string const& range_end,
const bool recursive = false);
std::shared_ptr<etcdserverpb::TxnRequest> txn_request;
};
}
} // namespace etcdv3
#endif

105
etcd/v3/V3Response.hpp
View File

@ -6,56 +6,63 @@
#include "proto/v3election.pb.h"
#include "etcd/v3/KeyValue.hpp"
#include "etcd/v3/Member.hpp"
namespace etcdv3
{
class V3Response
{
public:
V3Response(): error_code(0), index(0){};
void set_error_code(int code);
int get_error_code() const;
std::string const & get_error_message() const;
void set_error_message(std::string msg);
void set_action(std::string action);
int64_t get_index() const;
std::string const & get_action() const;
std::vector<etcdv3::KeyValue> const & get_values() const;
std::vector<etcdv3::KeyValue> const & get_prev_values() const;
etcdv3::KeyValue const & get_value() const;
etcdv3::KeyValue const & get_prev_value() const;
bool has_values() const;
int64_t get_compact_revision() const;
void set_lock_key(std::string const &key);
std::string const &get_lock_key() const;
void set_name(std::string const &name);
std::string const &get_name() const;
std::vector<mvccpb::Event> const & get_events() const;
uint64_t get_cluster_id() const;
uint64_t get_member_id() const;
uint64_t get_raft_term() const;
std::vector<int64_t> const &get_leases() const;
protected:
int error_code;
int64_t index;
std::string error_message;
std::string action;
etcdv3::KeyValue value;
etcdv3::KeyValue prev_value;
std::vector<etcdv3::KeyValue> values;
std::vector<etcdv3::KeyValue> prev_values;
int64_t compact_revision = -1;
std::string lock_key; // for lock
std::string name; // for campaign (in v3election)
std::vector<mvccpb::Event> events; // for watch
namespace etcdv3 {
class V3Response {
public:
V3Response() : error_code(0), index(0){};
void set_error_code(int code);
int get_error_code() const;
std::string const& get_error_message() const;
void set_error_message(std::string msg);
void set_action(std::string action);
int64_t get_index() const;
std::string const& get_action() const;
std::vector<etcdv3::KeyValue> const& get_values() const;
std::vector<etcdv3::KeyValue> const& get_prev_values() const;
etcdv3::KeyValue const& get_value() const;
etcdv3::KeyValue const& get_prev_value() const;
bool has_values() const;
int64_t get_compact_revision() const;
void set_compact_revision(const int64_t compact_revision);
int64_t get_watch_id() const;
void set_watch_id(const int64_t watch_id);
void set_lock_key(std::string const& key);
std::string const& get_lock_key() const;
void set_name(std::string const& name);
std::string const& get_name() const;
std::vector<mvccpb::Event> const& get_events() const;
uint64_t get_cluster_id() const;
uint64_t get_member_id() const;
uint64_t get_raft_term() const;
std::vector<int64_t> const& get_leases() const;
std::vector<etcdv3::Member> const& get_members() const;
// cluster metadata
uint64_t cluster_id;
uint64_t member_id;
uint64_t raft_term;
protected:
int error_code;
int64_t index;
std::string error_message;
std::string action;
etcdv3::KeyValue value;
etcdv3::KeyValue prev_value;
std::vector<etcdv3::KeyValue> values;
std::vector<etcdv3::KeyValue> prev_values;
int64_t compact_revision = -1;
int64_t watch_id = -1;
std::string lock_key; // for lock
std::string name; // for campaign (in v3election)
std::vector<mvccpb::Event> events; // for watch
// for lease list
std::vector<int64_t> leases;
};
}
// cluster metadata
uint64_t cluster_id;
uint64_t member_id;
uint64_t raft_term;
// for lease list
std::vector<int64_t> leases;
// for member list
std::vector<etcdv3::Member> members;
};
} // namespace etcdv3
#endif

120
etcd/v3/action_constants.hpp
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@ -3,71 +3,75 @@
#include <string>
namespace etcdv3
{
extern char const * CREATE_ACTION;
extern char const * UPDATE_ACTION;
extern char const * SET_ACTION;
extern char const * GET_ACTION;
extern char const * PUT_ACTION;
extern char const * DELETE_ACTION;
extern char const * COMPARESWAP_ACTION;
extern char const * COMPAREDELETE_ACTION;
extern char const * LOCK_ACTION;
extern char const * UNLOCK_ACTION;
extern char const * TXN_ACTION;
extern char const * WATCH_ACTION;
namespace etcdv3 {
extern char const* CREATE_ACTION;
extern char const* UPDATE_ACTION;
extern char const* SET_ACTION;
extern char const* GET_ACTION;
extern char const* PUT_ACTION;
extern char const* DELETE_ACTION;
extern char const* COMPARESWAP_ACTION;
extern char const* COMPAREDELETE_ACTION;
extern char const* LOCK_ACTION;
extern char const* UNLOCK_ACTION;
extern char const* TXN_ACTION;
extern char const* WATCH_ACTION;
extern char const * LEASEGRANT;
extern char const * LEASEREVOKE;
extern char const * LEASEKEEPALIVE;
extern char const * LEASETIMETOLIVE;
extern char const * LEASELEASES;
extern char const* LEASEGRANT;
extern char const* LEASEREVOKE;
extern char const* LEASEKEEPALIVE;
extern char const* LEASETIMETOLIVE;
extern char const* LEASELEASES;
extern char const * CAMPAIGN_ACTION;
extern char const * PROCLAIM_ACTION;
extern char const * LEADER_ACTION;
extern char const * OBSERVE_ACTION;
extern char const * RESIGN_ACTION;
extern char const* ADDMEMBER;
extern char const* LISTMEMBER;
extern char const* REMOVEMEMBER;
extern std::string const NUL;
extern char const* CAMPAIGN_ACTION;
extern char const* PROCLAIM_ACTION;
extern char const* LEADER_ACTION;
extern char const* OBSERVE_ACTION;
extern char const* RESIGN_ACTION;
extern char const * KEEPALIVE_CREATE;
extern char const * KEEPALIVE_WRITE;
extern char const * KEEPALIVE_READ;
extern char const * KEEPALIVE_DONE;
extern char const * KEEPALIVE_FINISH;
extern std::string const NUL;
extern char const * WATCH_CREATE;
extern char const * WATCH_WRITE;
extern char const * WATCH_WRITE_CANCEL;
extern char const * WATCH_WRITES_DONE;
extern char const * WATCH_FINISH;
extern char const* KEEPALIVE_CREATE;
extern char const* KEEPALIVE_WRITE;
extern char const* KEEPALIVE_READ;
extern char const* KEEPALIVE_DONE;
extern char const* KEEPALIVE_FINISH;
extern char const * ELECTION_OBSERVE_CREATE;
extern char const* WATCH_CREATE;
extern char const* WATCH_WRITE;
extern char const* WATCH_WRITE_CANCEL;
extern char const* WATCH_WRITES_DONE;
extern char const* WATCH_FINISH;
extern const int ERROR_GRPC_OK;
extern const int ERROR_GRPC_CANCELLED;
extern const int ERROR_GRPC_UNKNOWN;
extern const int ERROR_GRPC_INVALID_ARGUMENT;
extern const int ERROR_GRPC_DEADLINE_EXCEEDED;
extern const int ERROR_GRPC_NOT_FOUND;
extern const int ERROR_GRPC_ALREADY_EXISTS;
extern const int ERROR_GRPC_PERMISSION_DENIED;
extern const int ERROR_GRPC_UNAUTHENTICATED;
extern const int ERROR_GRPC_RESOURCE_EXHAUSTED;
extern const int ERROR_GRPC_FAILED_PRECONDITION;
extern const int ERROR_GRPC_ABORTED;
extern const int ERROR_GRPC_OUT_OF_RANGE;
extern const int ERROR_GRPC_UNIMPLEMENTED;
extern const int ERROR_GRPC_INTERNAL;
extern const int ERROR_GRPC_UNAVAILABLE;
extern const int ERROR_GRPC_DATA_LOSS;
extern char const* ELECTION_OBSERVE_CREATE;
extern char const* ELECTION_OBSERVE_FINISH;
extern const int ERROR_KEY_NOT_FOUND;
extern const int ERROR_COMPARE_FAILED;
extern const int ERROR_KEY_ALREADY_EXISTS;
extern const int ERROR_ACTION_CANCELLED;
}
extern const int ERROR_GRPC_OK;
extern const int ERROR_GRPC_CANCELLED;
extern const int ERROR_GRPC_UNKNOWN;
extern const int ERROR_GRPC_INVALID_ARGUMENT;
extern const int ERROR_GRPC_DEADLINE_EXCEEDED;
extern const int ERROR_GRPC_NOT_FOUND;
extern const int ERROR_GRPC_ALREADY_EXISTS;
extern const int ERROR_GRPC_PERMISSION_DENIED;
extern const int ERROR_GRPC_UNAUTHENTICATED;
extern const int ERROR_GRPC_RESOURCE_EXHAUSTED;
extern const int ERROR_GRPC_FAILED_PRECONDITION;
extern const int ERROR_GRPC_ABORTED;
extern const int ERROR_GRPC_OUT_OF_RANGE;
extern const int ERROR_GRPC_UNIMPLEMENTED;
extern const int ERROR_GRPC_INTERNAL;
extern const int ERROR_GRPC_UNAVAILABLE;
extern const int ERROR_GRPC_DATA_LOSS;
extern const int ERROR_KEY_NOT_FOUND;
extern const int ERROR_COMPARE_FAILED;
extern const int ERROR_KEY_ALREADY_EXISTS;
extern const int ERROR_ACTION_CANCELLED;
} // namespace etcdv3
#endif

70
src/CMakeLists.txt
View File

@ -19,38 +19,60 @@ file(GLOB_RECURSE CPP_CLIENT_CORE_SRC
add_library(etcd-cpp-api-core-objects OBJECT ${CPP_CLIENT_CORE_SRC} ${PROTOBUF_GENERATES})
use_cxx(etcd-cpp-api-core-objects)
set_exceptions(etcd-cpp-api-core-objects)
add_dependencies(etcd-cpp-api-core-objects protobuf_generates)
include_generated_protobuf_files(etcd-cpp-api-core-objects)
target_link_libraries(etcd-cpp-api-core-objects PUBLIC
${Boost_LIBRARIES}
${PROTOBUF_LIBRARIES}
${OPENSSL_LIBRARIES}
${GRPC_LIBRARIES}
)
if(TARGET protobuf::libprotobuf)
target_link_libraries(etcd-cpp-api-core-objects PUBLIC protobuf::libprotobuf)
else()
target_link_libraries(etcd-cpp-api-core-objects PUBLIC ${PROTOBUF_LIBRARIES})
endif()
# add the core library, includes the sycnhronous client only
add_library(etcd-cpp-api-core $<TARGET_OBJECTS:etcd-cpp-api-core-objects>)
use_cxx(etcd-cpp-api-core)
target_link_libraries(etcd-cpp-api-core PUBLIC
${Boost_LIBRARIES}
${PROTOBUF_LIBRARIES}
${OPENSSL_LIBRARIES}
${GRPC_LIBRARIES}
)
include_generated_protobuf_files(etcd-cpp-api-core)
if(BUILD_ETCD_CORE_ONLY)
# add the core library, includes the sycnhronous client only
add_library(etcd-cpp-api-core $<TARGET_OBJECTS:etcd-cpp-api-core-objects>)
use_cxx(etcd-cpp-api-core)
set_exceptions(etcd-cpp-api-core)
target_link_libraries(etcd-cpp-api-core PUBLIC
${OPENSSL_LIBRARIES}
${GRPC_LIBRARIES}
)
if(TARGET protobuf::libprotobuf)
target_link_libraries(etcd-cpp-api-core PUBLIC protobuf::libprotobuf)
else()
target_link_libraries(etcd-cpp-api-core PUBLIC ${PROTOBUF_LIBRARIES})
endif()
include_generated_protobuf_files(etcd-cpp-api-core)
else()
# add the client with asynchronus client
add_library(etcd-cpp-api $<TARGET_OBJECTS:etcd-cpp-api-core-objects>
"${CMAKE_CURRENT_SOURCE_DIR}/Client.cpp")
use_cxx(etcd-cpp-api)
set_exceptions(etcd-cpp-api)
target_link_libraries(etcd-cpp-api PUBLIC
${CPPREST_LIB} # n.b.: the asynchronous client requires pplx in cpprestsdk
${OPENSSL_LIBRARIES}
${GRPC_LIBRARIES}
)
if(TARGET protobuf::libprotobuf)
target_link_libraries(etcd-cpp-api PUBLIC protobuf::libprotobuf)
else()
target_link_libraries(etcd-cpp-api PUBLIC ${PROTOBUF_LIBRARIES})
endif()
include_generated_protobuf_files(etcd-cpp-api)
endif()
# add the client with asynchronus client
add_library(etcd-cpp-api $<TARGET_OBJECTS:etcd-cpp-api-core-objects>
"${CMAKE_CURRENT_SOURCE_DIR}/Client.cpp")
use_cxx(etcd-cpp-api)
target_link_libraries(etcd-cpp-api PUBLIC
${Boost_LIBRARIES}
${CPPREST_LIB} # n.b.: the asynchronous client requires pplx in cpprestsdk
${PROTOBUF_LIBRARIES}
${OPENSSL_LIBRARIES}
${GRPC_LIBRARIES}
)
include_generated_protobuf_files(etcd-cpp-api)
if(BUILD_ETCD_CORE_ONLY)
add_library(etcd-cpp-api INTERFACE)
target_link_libraries(etcd-cpp-api INTERFACE etcd-cpp-api-core)
else()
add_library(etcd-cpp-api-core INTERFACE)
target_link_libraries(etcd-cpp-api-core INTERFACE etcd-cpp-api)
endif()
if("${CMAKE_VERSION}" VERSION_LESS "3.14")
install(TARGETS etcd-cpp-api-core etcd-cpp-api

718
src/Client.cpp
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File diff suppressed because it is too large Load Diff

249
src/KeepAlive.cpp
View File

@ -1,14 +1,15 @@
#include <chrono>
#include <iostream>
#include <ratio>
#include "etcd/KeepAlive.hpp"
#include "etcd/v3/AsyncLeaseAction.hpp"
#include "etcd/v3/AsyncGRPC.hpp"
#include <grpc++/grpc++.h>
#include "proto/rpc.grpc.pb.h"
namespace etcdv3 {
class AsyncLeaseKeepAliveAction;
class AsyncLeaseKeepAliveAction;
}
struct etcd::KeepAlive::EtcdServerStubs {
@ -16,15 +17,22 @@ struct etcd::KeepAlive::EtcdServerStubs {
std::unique_ptr<etcdv3::AsyncLeaseKeepAliveAction> call;
};
void etcd::KeepAlive::EtcdServerStubsDeleter::operator()(etcd::KeepAlive::EtcdServerStubs *stubs) {
void etcd::KeepAlive::EtcdServerStubsDeleter::operator()(
etcd::KeepAlive::EtcdServerStubs* stubs) {
if (stubs) {
delete stubs;
}
}
etcd::KeepAlive::KeepAlive(SyncClient const &client, int ttl, int64_t lease_id):
ttl(ttl), lease_id(lease_id), continue_next(true),
grpc_timeout(client.get_grpc_timeout()) {
etcd::KeepAlive::KeepAlive(SyncClient const& client, int ttl, int64_t lease_id)
: ttl(ttl),
lease_id(lease_id),
continue_next(true),
grpc_timeout(client.get_grpc_timeout()) {
if (ttl > 0 && lease_id == 0) {
this->lease_id =
const_cast<SyncClient&>(client).leasegrant(ttl).value().lease();
}
stubs.reset(new EtcdServerStubs{});
stubs->leaseServiceStub = Lease::NewStub(client.grpc_channel());
@ -37,43 +45,56 @@ etcd::KeepAlive::KeepAlive(SyncClient const &client, int ttl, int64_t lease_id):
continue_next.store(true);
stubs->call.reset(new etcdv3::AsyncLeaseKeepAliveAction(std::move(params)));
task_ = std::thread([this]() {
refresh_task_ = std::thread([this]() {
#ifndef _ETCD_NO_EXCEPTIONS
try {
// start refresh
this->refresh();
context.run();
} catch (...) {
} catch (const std::exception& e) {
// propagate the exception
eptr_ = std::current_exception();
}
context.stop(); // clean up
#else
const std::string err = this->refresh();
if (!err.empty()) {
eptr_ = std::make_exception_ptr(std::runtime_error(err));
}
#endif
});
}
etcd::KeepAlive::KeepAlive(std::string const & address, int ttl, int64_t lease_id):
KeepAlive(SyncClient(address), ttl, lease_id) {
}
etcd::KeepAlive::KeepAlive(std::string const& address, int ttl,
int64_t lease_id)
: KeepAlive(SyncClient(address), ttl, lease_id) {}
etcd::KeepAlive::KeepAlive(std::string const & address,
std::string const & username, std::string const & password,
int ttl, int64_t lease_id, int const auth_token_ttl):
KeepAlive(SyncClient(address, username, password, auth_token_ttl), ttl, lease_id) {
}
etcd::KeepAlive::KeepAlive(std::string const& address,
std::string const& username,
std::string const& password, int ttl,
int64_t lease_id, int const auth_token_ttl)
: KeepAlive(SyncClient(address, username, password, auth_token_ttl), ttl,
lease_id) {}
etcd::KeepAlive::KeepAlive(std::string const & address,
std::string const & ca,
std::string const & cert,
std::string const & privkey,
std::function<void (std::exception_ptr)> const &handler,
int ttl, int64_t lease_id,
std::string const & target_name_override):
KeepAlive(SyncClient(address, ca, cert, privkey, target_name_override), ttl, lease_id) {
}
etcd::KeepAlive::KeepAlive(
std::string const& address, std::string const& ca, std::string const& cert,
std::string const& privkey,
std::function<void(std::exception_ptr)> const& handler, int ttl,
int64_t lease_id, std::string const& target_name_override)
: KeepAlive(SyncClient(address, ca, cert, privkey, target_name_override),
handler, ttl, lease_id) {}
etcd::KeepAlive::KeepAlive(SyncClient const &client,
std::function<void (std::exception_ptr)> const &handler,
int ttl, int64_t lease_id):
handler_(handler), ttl(ttl), lease_id(lease_id), continue_next(true),
grpc_timeout(client.get_grpc_timeout()) {
etcd::KeepAlive::KeepAlive(
SyncClient const& client,
std::function<void(std::exception_ptr)> const& handler, int ttl,
int64_t lease_id)
: handler_(handler),
ttl(ttl),
lease_id(lease_id),
continue_next(true),
grpc_timeout(client.get_grpc_timeout()) {
if (ttl > 0 && lease_id == 0) {
this->lease_id =
const_cast<SyncClient&>(client).leasegrant(ttl).value().lease();
}
stubs.reset(new EtcdServerStubs{});
stubs->leaseServiceStub = Lease::NewStub(client.grpc_channel());
@ -84,56 +105,57 @@ etcd::KeepAlive::KeepAlive(SyncClient const &client,
params.lease_stub = stubs->leaseServiceStub.get();
stubs->call.reset(new etcdv3::AsyncLeaseKeepAliveAction(std::move(params)));
task_ = std::thread([this]() {
refresh_task_ = std::thread([this]() {
#ifndef _ETCD_NO_EXCEPTIONS
try {
// start refresh
this->refresh();
context.run();
} catch (...) {
// run canceller first
this->Cancel();
// propogate the exception
// propagate the exception
eptr_ = std::current_exception();
if (handler_) {
handler_(eptr_);
}
}
#else
const std::string err = this->refresh();
if (!err.empty()) {
eptr_ = std::make_exception_ptr(std::runtime_error(err));
}
#endif
if (eptr_ && handler_) {
handler_(eptr_);
}
});
}
etcd::KeepAlive::KeepAlive(std::string const & address,
std::function<void (std::exception_ptr)> const &handler,
int ttl, int64_t lease_id):
KeepAlive(SyncClient(address), handler, ttl, lease_id) {
}
etcd::KeepAlive::KeepAlive(
std::string const& address,
std::function<void(std::exception_ptr)> const& handler, int ttl,
int64_t lease_id)
: KeepAlive(SyncClient(address), handler, ttl, lease_id) {}
etcd::KeepAlive::KeepAlive(std::string const & address,
std::string const & username, std::string const & password,
std::function<void (std::exception_ptr)> const &handler,
int ttl, int64_t lease_id, const int auth_token_ttl):
KeepAlive(SyncClient(address, username, password, auth_token_ttl), handler, ttl, lease_id) {
}
etcd::KeepAlive::KeepAlive(
std::string const& address, std::string const& username,
std::string const& password,
std::function<void(std::exception_ptr)> const& handler, int ttl,
int64_t lease_id, const int auth_token_ttl)
: KeepAlive(SyncClient(address, username, password, auth_token_ttl),
handler, ttl, lease_id) {}
etcd::KeepAlive::~KeepAlive()
{
this->Cancel();
// clean up
if (task_.joinable()) {
task_.join();
}
}
etcd::KeepAlive::~KeepAlive() { this->Cancel(); }
void etcd::KeepAlive::Cancel()
{
std::lock_guard<std::recursive_mutex> scope_lock(mutex_for_refresh_);
void etcd::KeepAlive::Cancel() {
if (!continue_next.exchange(false)) {
return;
}
stubs->call->CancelKeepAlive();
if (keepalive_timer_) {
keepalive_timer_->cancel();
// stop the thread
cv_for_refresh_.notify_all();
refresh_task_.join();
// send a cancel request
{
std::lock_guard<std::mutex> lock(mutex_for_refresh_);
stubs->call->CancelKeepAlive();
}
context.stop();
}
void etcd::KeepAlive::Check() {
@ -141,61 +163,96 @@ void etcd::KeepAlive::Check() {
std::rethrow_exception(eptr_);
}
// issue an refresh to make sure it still alive
#ifndef _ETCD_NO_EXCEPTIONS
try {
this->refresh_once();
} catch (...) {
// run canceller first
this->Cancel();
// propogate the exception, as we throw in `Check()`, the `handler` won't be touched
// propagate the exception, as we throw in `Check()`, the `handler` won't be
// touched
eptr_ = std::current_exception();
if (handler_) {
handler_(eptr_);
}
}
#else
const std::string err = this->refresh_once();
if (!err.empty()) {
// run canceller first
this->Cancel();
// propagate the exception, as we throw in `Check()`, the `handler` won't be
// touched
eptr_ = std::make_exception_ptr(std::runtime_error(err));
}
#endif
if (eptr_ && handler_) {
handler_(eptr_);
}
#ifndef _ETCD_NO_EXCEPTIONS
if (eptr_) {
// rethrow in `Check()` to keep the consistent semantics
std::rethrow_exception(eptr_);
}
#endif
return;
}
void etcd::KeepAlive::refresh()
{
std::lock_guard<std::recursive_mutex> scope_lock(mutex_for_refresh_);
if (!continue_next.load()) {
return;
}
// minimal resolution: 1 second
int keepalive_ttl = std::max(ttl - 1, 1);
keepalive_timer_.reset(new boost::asio::steady_timer(context, std::chrono::seconds(keepalive_ttl)));
keepalive_timer_->async_wait([this](const boost::system::error_code& error) {
if (error) {
std::string etcd::KeepAlive::refresh() {
while (true) {
if (!continue_next.load()) {
return std::string{};
}
// minimal resolution: 1 second
int keepalive_ttl = std::max(ttl - 1, 1);
{
std::unique_lock<std::mutex> lock(mutex_for_refresh_);
if (cv_for_refresh_.wait_for(lock, std::chrono::seconds(keepalive_ttl)) ==
std::cv_status::no_timeout) {
if (!continue_next.load()) {
return std::string{};
}
#ifndef NDEBUG
std::cerr << "keepalive timer cancelled: " << error << ", " << error.message() << std::endl;
std::cerr
<< "[warn] awaked from condition_variable but continue_next is "
"not set, maybe due to clock drift."
<< std::endl;
#endif
} else {
if (this->continue_next.load()) {
// execute refresh
this->refresh_once();
// trigger the next round;
this->refresh();
}
}
});
// execute refresh
const std::string err = this->refresh_once();
if (!err.empty()) {
return err;
}
}
return std::string{};
}
void etcd::KeepAlive::refresh_once()
{
std::lock_guard<std::recursive_mutex> scope_lock(mutex_for_refresh_);
std::string etcd::KeepAlive::refresh_once() {
std::lock_guard<std::mutex> scope_lock(mutex_for_refresh_);
if (!continue_next.load()) {
return;
return std::string{};
}
this->stubs->call->mutable_parameters().grpc_timeout = this->grpc_timeout;
auto resp = this->stubs->call->Refresh();
if (!resp.is_ok()) {
throw std::runtime_error("Failed to refresh lease: error code: " + std::to_string(resp.error_code()) +
", message: " + resp.error_message());
const std::string err = "Failed to refresh lease: error code: " +
std::to_string(resp.error_code()) +
", message: " + resp.error_message();
#ifndef _ETCD_NO_EXCEPTIONS
throw std::runtime_error(err);
#endif
return err;
}
if (resp.value().ttl() == 0) {
throw std::out_of_range("Failed to refresh lease due to expiration: the new TTL is 0.");
const std::string err =
"Failed to refresh lease due to expiration: the new TTL is 0.";
#ifndef _ETCD_NO_EXCEPTIONS
throw std::out_of_range(err);
#endif
return err;
}
return std::string{};
}

137
src/Response.cpp
View File

@ -3,13 +3,9 @@
#include <iostream>
etcd::Response::Response()
: _error_code(0),
_index(0)
{
}
etcd::Response::Response() : _error_code(0), _index(0) {}
etcd::Response::Response(const etcd::Response & response) {
etcd::Response::Response(const etcd::Response& response) {
this->_error_code = response._error_code;
this->_error_message = response._error_message;
this->_index = response._index;
@ -20,7 +16,7 @@ etcd::Response::Response(const etcd::Response & response) {
this->_keys = response._keys;
this->_compact_revision = response._compact_revision;
this->_lock_key = response._lock_key;
this->_name = response._name;
this->_name = response._name;
this->_events = response._events;
this->_duration = response._duration;
@ -29,34 +25,33 @@ etcd::Response::Response(const etcd::Response & response) {
this->_raft_term = response._raft_term;
this->_leases = response._leases;
this->_members = response._members;
}
etcd::Response::Response(const etcdv3::V3Response& reply, std::chrono::microseconds const& duration)
{
etcd::Response::Response(const etcdv3::V3Response& reply,
std::chrono::microseconds const& duration) {
_index = reply.get_index();
_action = reply.get_action();
_error_code = reply.get_error_code();
_error_message = reply.get_error_message();
if(reply.has_values())
{
if (reply.has_values()) {
auto val = reply.get_values();
for(unsigned int index = 0; index < val.size(); index++)
{
for (unsigned int index = 0; index < val.size(); index++) {
_values.push_back(Value(val[index]));
_keys.push_back(val[index].kvs.key());
}
}
else
{
_value = Value(reply.get_values()[0]);
} else {
_value = Value(reply.get_value());
}
_prev_value = Value(reply.get_prev_value());
_compact_revision = reply.get_compact_revision();
_watch_id = reply.get_watch_id();
_lock_key = reply.get_lock_key();
_name = reply.get_name();
for (auto const &ev: reply.get_events()) {
for (auto const& ev : reply.get_events()) {
_events.emplace_back(etcd::Event(ev));
}
@ -70,101 +65,59 @@ etcd::Response::Response(const etcdv3::V3Response& reply, std::chrono::microseco
// lease list
this->_leases = reply.get_leases();
// member list
this->_members = reply.get_members();
}
etcd::Response::Response(int error_code, std::string const& error_message)
: _error_code(error_code),
_error_message(error_message),
_index(0)
{
}
: _error_code(error_code), _error_message(error_message), _index(0) {}
etcd::Response::Response(int error_code, char const * error_message)
: _error_code(error_code),
_error_message(error_message),
_index(0)
{
}
etcd::Response::Response(int error_code, char const* error_message)
: _error_code(error_code), _error_message(error_message), _index(0) {}
int etcd::Response::error_code() const
{
return _error_code;
}
int etcd::Response::error_code() const { return _error_code; }
std::string const & etcd::Response::error_message() const
{
std::string const& etcd::Response::error_message() const {
return _error_message;
}
bool etcd::Response::is_ok() const
{
return error_code() == 0;
}
bool etcd::Response::is_ok() const { return error_code() == 0; }
bool etcd::Response::is_network_unavailable() const
{
bool etcd::Response::is_network_unavailable() const {
return error_code() == ::grpc::StatusCode::UNAVAILABLE;
}
bool etcd::Response::is_grpc_timeout() const
{
bool etcd::Response::is_grpc_timeout() const {
return _error_code == grpc::StatusCode::DEADLINE_EXCEEDED;
}
std::string const & etcd::Response::action() const
{
return _action;
}
std::string const& etcd::Response::action() const { return _action; }
int64_t etcd::Response::index() const
{
return _index;
}
int64_t etcd::Response::index() const { return _index; }
etcd::Value const & etcd::Response::value() const
{
return _value;
}
etcd::Value const& etcd::Response::value() const { return _value; }
etcd::Value const & etcd::Response::prev_value() const
{
return _prev_value;
}
etcd::Value const& etcd::Response::prev_value() const { return _prev_value; }
etcd::Values const & etcd::Response::values() const
{
return _values;
}
etcd::Values const& etcd::Response::values() const { return _values; }
etcd::Value const & etcd::Response::value(int index) const
{
etcd::Value const& etcd::Response::value(int index) const {
return _values[index];
}
etcd::Keys const & etcd::Response::keys() const
{
return _keys;
}
etcd::Keys const& etcd::Response::keys() const { return _keys; }
std::string const & etcd::Response::key(int index) const
{
return _keys[index];
}
std::string const& etcd::Response::key(int index) const { return _keys[index]; }
int64_t etcd::Response::compact_revision() const
{
return _compact_revision;
}
int64_t etcd::Response::compact_revision() const { return _compact_revision; }
std::string const & etcd::Response::lock_key() const {
return _lock_key;
}
int64_t etcd::Response::watch_id() const { return _watch_id; }
std::string const & etcd::Response::name() const {
return _name;
}
std::string const& etcd::Response::lock_key() const { return _lock_key; }
std::vector<etcd::Event> const & etcd::Response::events() const {
std::string const& etcd::Response::name() const { return _name; }
std::vector<etcd::Event> const& etcd::Response::events() const {
return this->_events;
}
@ -172,18 +125,16 @@ std::chrono::microseconds const& etcd::Response::duration() const {
return this->_duration;
}
uint64_t etcd::Response::cluster_id() const {
return this->_cluster_id;
}
uint64_t etcd::Response::cluster_id() const { return this->_cluster_id; }
uint64_t etcd::Response::member_id() const {
return this->_member_id;
}
uint64_t etcd::Response::member_id() const { return this->_member_id; }
uint64_t etcd::Response::raft_term() const {
return this->_raft_term;
}
uint64_t etcd::Response::raft_term() const { return this->_raft_term; }
std::vector<int64_t> const & etcd::Response::leases() const {
std::vector<int64_t> const& etcd::Response::leases() const {
return this->_leases;
}
std::vector<etcdv3::Member> const& etcd::Response::members() const {
return this->_members;
}

1041
src/SyncClient.cpp
View File

File diff suppressed because it is too large Load Diff

127
src/Value.cpp
View File

@ -1,21 +1,13 @@
#include <cstdint>
#include <iomanip>
#include "etcd/Value.hpp"
#include "etcd/v3/KeyValue.hpp"
etcd::Value::Value()
: dir(false),
created(0),
modified(0),
_version(0),
_ttl(0),
leaseId(0)
{
}
: dir(false), created(0), modified(0), _version(0), _ttl(0), leaseId(0) {}
etcd::Value::Value(etcdv3::KeyValue const & kv)
{
etcd::Value::Value(etcdv3::KeyValue const& kv) {
dir = false;
_key = kv.kvs.key();
value = kv.kvs.value();
@ -26,8 +18,7 @@ etcd::Value::Value(etcdv3::KeyValue const & kv)
_ttl = kv.get_ttl();
}
etcd::Value::Value(mvccpb::KeyValue const & kv)
{
etcd::Value::Value(mvccpb::KeyValue const& kv) {
dir = false;
_key = kv.key();
value = kv.value();
@ -38,47 +29,36 @@ etcd::Value::Value(mvccpb::KeyValue const & kv)
_ttl = -1;
}
std::string const & etcd::Value::key() const
{
return _key;
std::string const& etcd::Value::key() const { return _key; }
bool etcd::Value::is_dir() const { return dir; }
std::string const& etcd::Value::as_string() const { return value; }
int64_t etcd::Value::created_index() const { return created; }
int64_t etcd::Value::modified_index() const { return modified; }
int64_t etcd::Value::version() const { return _version; }
int etcd::Value::ttl() const { return _ttl; }
int64_t etcd::Value::lease() const { return leaseId; }
std::ostream& etcd::operator<<(std::ostream& os, const etcd::Value& value) {
os << "Event: {";
os << "Key: " << value.key() << ", ";
os << "Value: " << value.as_string() << ", ";
os << "Created: " << value.created_index() << ", ";
os << "Modified: " << value.modified_index() << ", ";
os << "Version: " << value.version() << ", ";
os << "TTL: " << value.ttl() << ", ";
os << "Lease: " << value.lease() << ", ";
os << "}";
return os;
}
bool etcd::Value::is_dir() const
{
return dir;
}
std::string const & etcd::Value::as_string() const
{
return value;
}
int64_t etcd::Value::created_index() const
{
return created;
}
int64_t etcd::Value::modified_index() const
{
return modified;
}
int64_t etcd::Value::version() const
{
return _version;
}
int etcd::Value::ttl() const
{
return _ttl;
}
int64_t etcd::Value::lease() const
{
return leaseId;
}
etcd::Event::Event(mvccpb::Event const & event) {
etcd::Event::Event(mvccpb::Event const& event) {
_has_kv = event.has_kv();
_has_prev_kv = event.has_prev_kv();
if (_has_kv) {
@ -100,18 +80,37 @@ enum etcd::Event::EventType etcd::Event::event_type() const {
return event_type_;
}
bool etcd::Event::has_kv() const {
return _has_kv;
bool etcd::Event::has_kv() const { return _has_kv; }
bool etcd::Event::has_prev_kv() const { return _has_prev_kv; }
const etcd::Value& etcd::Event::kv() const { return _kv; }
const etcd::Value& etcd::Event::prev_kv() const { return _prev_kv; }
std::ostream& etcd::operator<<(std::ostream& os,
const etcd::Event::EventType& value) {
switch (value) {
case etcd::Event::EventType::PUT:
os << "PUT";
break;
case etcd::Event::EventType::DELETE_:
os << "DELETE";
break;
case etcd::Event::EventType::INVALID:
os << "INVALID";
break;
}
return os;
}
bool etcd::Event::has_prev_kv() const {
return _has_prev_kv;
}
const etcd::Value &etcd::Event::kv() const {
return _kv;
}
const etcd::Value &etcd::Event::prev_kv() const {
return _prev_kv;
std::ostream& etcd::operator<<(std::ostream& os, const etcd::Event& event) {
os << "Event type: " << event.event_type();
if (event.has_kv()) {
os << ", KV: " << event.kv();
}
if (event.has_prev_kv()) {
os << ", Prev KV: " << event.prev_kv();
}
return os;
}

401
src/Watcher.cpp
View File

@ -2,14 +2,15 @@
#include "etcd/SyncClient.hpp"
#include "etcd/v3/AsyncWatchAction.hpp"
#include "etcd/v3/AsyncGRPC.hpp"
struct etcd::Watcher::EtcdServerStubs {
std::unique_ptr<Watch::Stub> watchServiceStub;
std::unique_ptr<etcdv3::AsyncWatchAction> call;
};
void etcd::Watcher::EtcdServerStubsDeleter::operator()(etcd::Watcher::EtcdServerStubs *stubs) {
void etcd::Watcher::EtcdServerStubsDeleter::operator()(
etcd::Watcher::EtcdServerStubs* stubs) {
if (stubs) {
if (stubs->watchServiceStub) {
stubs->watchServiceStub.reset();
@ -21,239 +22,205 @@ void etcd::Watcher::EtcdServerStubsDeleter::operator()(etcd::Watcher::EtcdServer
}
}
etcd::Watcher::Watcher(SyncClient const &client, std::string const & key,
etcd::Watcher::Watcher(SyncClient const& client, std::string const& key,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive):
Watcher(client, key, -1, callback, wait_callback, recursive) {
}
std::function<void(bool)> wait_callback, bool recursive)
: Watcher(client, key, -1, callback, wait_callback, recursive) {}
etcd::Watcher::Watcher(SyncClient const &client, std::string const & key,
std::string const &range_end,
etcd::Watcher::Watcher(SyncClient const& client, std::string const& key,
std::string const& range_end,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback):
Watcher(client, key, range_end, -1, callback, wait_callback) {
}
std::function<void(bool)> wait_callback)
: Watcher(client, key, range_end, -1, callback, wait_callback) {}
etcd::Watcher::Watcher(SyncClient const &client, std::string const & key, int64_t fromIndex,
etcd::Watcher::Watcher(SyncClient const& client, std::string const& key,
int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive):
wait_callback(wait_callback), fromIndex(fromIndex), recursive(recursive) {
std::function<void(bool)> wait_callback, bool recursive)
: wait_callback(wait_callback), fromIndex(fromIndex), recursive(recursive) {
stubs.reset(new EtcdServerStubs{});
stubs->watchServiceStub = Watch::NewStub(client.channel);
doWatch(key, "", client.current_auth_token(), callback);
}
etcd::Watcher::Watcher(SyncClient const &client, std::string const & key,
std::string const &range_end, int64_t fromIndex,
etcd::Watcher::Watcher(SyncClient const& client, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback):
wait_callback(wait_callback), fromIndex(fromIndex), recursive(false) {
std::function<void(bool)> wait_callback)
: wait_callback(wait_callback), fromIndex(fromIndex), recursive(false) {
stubs.reset(new EtcdServerStubs{});
stubs->watchServiceStub = Watch::NewStub(client.channel);
doWatch(key, range_end, client.current_auth_token(), callback);
}
etcd::Watcher::Watcher(std::string const & address, std::string const & key,
etcd::Watcher::Watcher(std::string const& address, std::string const& key,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback, bool recursive)
: Watcher(address, key, -1, callback, wait_callback, recursive) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& key,
std::string const& range_end,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback)
: Watcher(address, key, range_end, -1, callback, wait_callback) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& key,
int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback, bool recursive)
: Watcher(SyncClient(address), key, fromIndex, callback, wait_callback,
recursive) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback)
: Watcher(SyncClient(address), key, range_end, fromIndex, callback,
wait_callback) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback, bool recursive,
int const auth_token_ttl)
: Watcher(address, username, password, key, -1, callback, wait_callback,
recursive, auth_token_ttl) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
std::string const& range_end,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive):
Watcher(address, key, -1, callback, wait_callback, recursive) {
}
int const auth_token_ttl)
: Watcher(address, username, password, key, range_end, -1, callback,
wait_callback, auth_token_ttl) {}
etcd::Watcher::Watcher(std::string const & address, std::string const & key,
std::string const & range_end,
etcd::Watcher::Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback):
Watcher(address, key, range_end, -1, callback, wait_callback) {
}
std::function<void(bool)> wait_callback, bool recursive,
int const auth_token_ttl)
: Watcher(SyncClient(address, username, password, auth_token_ttl), key,
fromIndex, callback, wait_callback, recursive) {}
etcd::Watcher::Watcher(std::string const & address, std::string const & key, int64_t fromIndex,
etcd::Watcher::Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive):
Watcher(SyncClient(address), key, fromIndex, callback, wait_callback, recursive) {
}
int const auth_token_ttl)
: Watcher(SyncClient(address, username, password, auth_token_ttl), key,
range_end, fromIndex, callback, wait_callback) {}
etcd::Watcher::Watcher(std::string const & address, std::string const & key,
std::string const & range_end, int64_t fromIndex,
etcd::Watcher::Watcher(std::string const& address, std::string const& ca,
std::string const& cert, std::string const& privkey,
std::string const& key, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback):
Watcher(SyncClient(address), key, range_end, fromIndex, callback, wait_callback) {
}
std::function<void(bool)> wait_callback, bool recursive,
std::string const& target_name_override)
: Watcher(SyncClient(address, ca, cert, privkey, target_name_override), key,
fromIndex, callback, wait_callback, recursive) {}
etcd::Watcher::Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key,
etcd::Watcher::Watcher(std::string const& address, std::string const& ca,
std::string const& cert, std::string const& privkey,
std::string const& key, std::string const& range_end,
int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive,
int const auth_token_ttl):
Watcher(address, username, password, key, -1, callback, wait_callback, recursive, auth_token_ttl) {
}
std::string const& target_name_override)
: Watcher(SyncClient(address, ca, cert, privkey, target_name_override), key,
range_end, fromIndex, callback, wait_callback) {}
etcd::Watcher::Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key, std::string const & range_end,
etcd::Watcher::Watcher(SyncClient const& client, std::string const& key,
std::function<void(Response)> callback, bool recursive)
: Watcher(client, key, callback, nullptr, recursive) {}
etcd::Watcher::Watcher(SyncClient const& client, std::string const& key,
std::string const& range_end,
std::function<void(Response)> callback)
: Watcher(client, key, range_end, callback, nullptr) {}
etcd::Watcher::Watcher(SyncClient const& client, std::string const& key,
int64_t fromIndex,
std::function<void(Response)> callback, bool recursive)
: Watcher(client, key, fromIndex, callback, nullptr, recursive) {}
etcd::Watcher::Watcher(SyncClient const& client, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback)
: Watcher(client, key, range_end, fromIndex, callback, nullptr) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& key,
std::function<void(Response)> callback, bool recursive)
: Watcher(address, key, callback, nullptr, recursive) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& key,
std::string const& range_end,
std::function<void(Response)> callback)
: Watcher(address, key, range_end, callback, nullptr) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& key,
int64_t fromIndex,
std::function<void(Response)> callback, bool recursive)
: Watcher(address, key, fromIndex, callback, nullptr, recursive) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback)
: Watcher(address, key, range_end, fromIndex, callback, nullptr) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
std::function<void(Response)> callback, bool recursive,
int const auth_token_ttl)
: Watcher(address, username, password, key, callback, nullptr, recursive,
auth_token_ttl) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
std::string const& range_end,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
int const auth_token_ttl):
Watcher(address, username, password, key, range_end, -1, callback, wait_callback, auth_token_ttl) {
}
int const auth_token_ttl)
: Watcher(address, username, password, key, range_end, callback, nullptr,
auth_token_ttl) {}
etcd::Watcher::Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key, int64_t fromIndex,
etcd::Watcher::Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
int64_t fromIndex,
std::function<void(Response)> callback, bool recursive,
int const auth_token_ttl)
: Watcher(address, username, password, key, fromIndex, callback, nullptr,
recursive, auth_token_ttl) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& username,
std::string const& password, std::string const& key,
std::string const& range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive,
int const auth_token_ttl):
Watcher(SyncClient(address, username, password, auth_token_ttl), key, fromIndex, callback, wait_callback, recursive) {
}
int const auth_token_ttl)
: Watcher(address, username, password, key, range_end, fromIndex, callback,
nullptr, auth_token_ttl) {}
etcd::Watcher::Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key, std::string const & range_end, int64_t fromIndex,
etcd::Watcher::Watcher(std::string const& address, std::string const& ca,
std::string const& cert, std::string const& privkey,
std::string const& key, int64_t fromIndex,
std::function<void(Response)> callback, bool recursive,
std::string const& target_name_override)
: Watcher(address, ca, cert, privkey, key, fromIndex, callback, nullptr,
recursive, target_name_override) {}
etcd::Watcher::Watcher(std::string const& address, std::string const& ca,
std::string const& cert, std::string const& privkey,
std::string const& key, std::string const& range_end,
int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
int const auth_token_ttl):
Watcher(SyncClient(address, username, password, auth_token_ttl), key, range_end, fromIndex, callback, wait_callback) {
}
std::string const& target_name_override)
: Watcher(address, ca, cert, privkey, key, range_end, fromIndex, callback,
nullptr, target_name_override) {}
etcd::Watcher::Watcher(std::string const & address,
std::string const & ca,
std::string const & cert,
std::string const & privkey,
std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
bool recursive,
std::string const & target_name_override):
Watcher(SyncClient(address, ca, cert, privkey, target_name_override), key, fromIndex, callback, wait_callback, recursive) {
}
etcd::Watcher::~Watcher() { this->Cancel(); }
etcd::Watcher::Watcher(std::string const & address,
std::string const & ca,
std::string const & cert,
std::string const & privkey,
std::string const & key, std::string const & range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::function<void(bool)> wait_callback,
std::string const & target_name_override):
Watcher(SyncClient(address, ca, cert, privkey, target_name_override), key, range_end, fromIndex, callback, wait_callback) {
}
etcd::Watcher::Watcher(SyncClient const &client, std::string const & key,
std::function<void(Response)> callback,
bool recursive):
Watcher(client, key, callback, nullptr, recursive) {
}
etcd::Watcher::Watcher(SyncClient const &client, std::string const & key,
std::string const &range_end,
std::function<void(Response)> callback):
Watcher(client, key, range_end, callback, nullptr) {
}
etcd::Watcher::Watcher(SyncClient const &client, std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
bool recursive):
Watcher(client, key, fromIndex, callback, nullptr, recursive) {
}
etcd::Watcher::Watcher(SyncClient const &client, std::string const & key,
std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback):
Watcher(client, key, range_end, fromIndex, callback, nullptr) {
}
etcd::Watcher::Watcher(std::string const & address, std::string const & key,
std::function<void(Response)> callback,
bool recursive):
Watcher(address, key, callback, nullptr, recursive) {
}
etcd::Watcher::Watcher(std::string const & address, std::string const & key,
std::string const &range_end,
std::function<void(Response)> callback):
Watcher(address, key, range_end, callback, nullptr) {
}
etcd::Watcher::Watcher(std::string const & address, std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
bool recursive):
Watcher(address, key, fromIndex, callback, nullptr, recursive) {
}
etcd::Watcher::Watcher(std::string const & address, std::string const & key,
std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback):
Watcher(address, key, range_end, fromIndex, callback, nullptr) {
}
etcd::Watcher::Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key,
std::function<void(Response)> callback,
bool recursive,
int const auth_token_ttl):
Watcher(address, username, password, key, callback, nullptr, recursive, auth_token_ttl) {
}
etcd::Watcher::Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key, std::string const &range_end,
std::function<void(Response)> callback,
int const auth_token_ttl):
Watcher(address, username, password, key, range_end, callback, nullptr, auth_token_ttl) {
}
etcd::Watcher::Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
bool recursive,
int const auth_token_ttl):
Watcher(address, username, password, key, fromIndex, callback, nullptr, recursive, auth_token_ttl) {
}
etcd::Watcher::Watcher(std::string const & address,
std::string const & username, std::string const & password,
std::string const & key, std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback,
int const auth_token_ttl):
Watcher(address, username, password, key, range_end, fromIndex, callback, nullptr, auth_token_ttl) {
}
etcd::Watcher::Watcher(std::string const & address,
std::string const & ca,
std::string const & cert,
std::string const & privkey,
std::string const & key, int64_t fromIndex,
std::function<void(Response)> callback,
bool recursive,
std::string const & target_name_override):
Watcher(address, ca, cert, privkey, key, fromIndex, callback, nullptr, recursive, target_name_override) {
}
etcd::Watcher::Watcher(std::string const & address,
std::string const & ca,
std::string const & cert,
std::string const & privkey,
std::string const & key, std::string const &range_end, int64_t fromIndex,
std::function<void(Response)> callback,
std::string const & target_name_override):
Watcher(address, ca, cert, privkey, key, range_end, fromIndex, callback, nullptr, target_name_override) {
}
etcd::Watcher::~Watcher()
{
this->Cancel();
}
bool etcd::Watcher::Wait()
{
bool etcd::Watcher::Wait() {
if (!cancelled.exchange(true)) {
if (task_.joinable()) {
task_.join();
@ -262,31 +229,34 @@ bool etcd::Watcher::Wait()
return stubs->call->Cancelled();
}
void etcd::Watcher::Wait(std::function<void(bool)> callback)
{
bool etcd::Watcher::Wait(std::function<void(bool)> callback) {
if (wait_callback == nullptr) {
wait_callback = callback;
return true;
} else {
std::cerr << "Failed to set a asynchronous wait callback since it has already been set" << std::endl;
#ifndef NDEBUG
std::cerr
<< "[warn] failed to set a asynchronous wait callback since it has "
"already been set"
<< std::endl;
#endif
return false;
}
}
bool etcd::Watcher::Cancel()
{
bool etcd::Watcher::Cancel() {
stubs->call->CancelWatch();
return this->Wait();
}
bool etcd::Watcher::Cancelled() const
{
bool etcd::Watcher::Cancelled() const {
return cancelled.load() || stubs->call->Cancelled();
}
void etcd::Watcher::doWatch(std::string const & key,
std::string const & range_end,
std::string const & auth_token,
std::function<void(Response)> callback)
{
void etcd::Watcher::doWatch(std::string const& key,
std::string const& range_end,
std::string const& auth_token,
std::function<void(Response)> callback) {
etcdv3::ActionParameters params;
params.auth_token.assign(auth_token);
// n.b.: watch: no need for timeout
@ -304,13 +274,12 @@ void etcd::Watcher::doWatch(std::string const & key,
stubs->call->waitForResponse(callback);
if (wait_callback != nullptr) {
// issue the callback in another thread (detached) to avoid deadlock,
// it is ok to detach a pplx::task, but we don't want to use the pplx::task
// in the core library
// it is ok to detach a pplx::task, but we don't want to use the
// pplx::task in the core library
bool cancelled = stubs->call->Cancelled();
std::function<void(bool)> wait_callback = this->wait_callback;
std::thread canceller([wait_callback, cancelled]() {
wait_callback(cancelled);
});
std::thread canceller(
[wait_callback, cancelled]() { wait_callback(cancelled); });
canceller.detach();
}
});

67
src/v3/Action.cpp
View File

@ -1,16 +1,23 @@
#include "etcd/v3/Action.hpp"
#include <grpc/support/log.h>
#include <grpcpp/support/status.h>
#include "etcd/v3/action_constants.hpp"
#include "etcd/v3/Action.hpp"
#include <cstdlib>
etcdv3::Action::Action(etcdv3::ActionParameters const &params)
{
#ifndef GPR_ASSERT
#define GPR_ASSERT(x) \
if (!(x)) { \
fprintf(stderr, "%s:%d assert failed\n", __FILE__, __LINE__); \
abort(); \
}
#endif
etcdv3::Action::Action(etcdv3::ActionParameters const& params) {
parameters = params;
this->InitAction();
}
etcdv3::Action::Action(etcdv3::ActionParameters && params)
{
etcdv3::Action::Action(etcdv3::ActionParameters&& params) {
parameters = std::move(params);
this->InitAction();
}
@ -32,8 +39,7 @@ void etcdv3::Action::InitAction() {
start_timepoint = std::chrono::high_resolution_clock::now();
}
etcdv3::ActionParameters::ActionParameters()
{
etcdv3::ActionParameters::ActionParameters() {
withPrefix = false;
revision = 0;
old_revision = 0;
@ -50,11 +56,12 @@ bool etcdv3::ActionParameters::has_grpc_timeout() const {
return this->grpc_timeout != std::chrono::microseconds::zero();
}
std::chrono::system_clock::time_point etcdv3::ActionParameters::grpc_deadline() const {
std::chrono::system_clock::time_point etcdv3::ActionParameters::grpc_deadline()
const {
return std::chrono::system_clock::now() + this->grpc_timeout;
}
void etcdv3::ActionParameters::dump(std::ostream &os) const {
void etcdv3::ActionParameters::dump(std::ostream& os) const {
os << "ActionParameters:" << std::endl;
os << " withPrefix: " << withPrefix << std::endl;
os << " revision: " << revision << std::endl;
@ -73,36 +80,43 @@ void etcdv3::ActionParameters::dump(std::ostream &os) const {
os << " grpc_timeout: " << grpc_timeout.count() << "(ms)" << std::endl;
}
void etcdv3::Action::waitForResponse()
{
void etcdv3::Action::waitForResponse() {
void* got_tag;
bool ok = false;
if (parameters.has_grpc_timeout()) {
switch (cq_.AsyncNext(&got_tag, &ok, parameters.grpc_deadline())) {
case CompletionQueue::NextStatus::TIMEOUT: {
status = grpc::Status(grpc::StatusCode::DEADLINE_EXCEEDED, "gRPC timeout");
break;
}
case CompletionQueue::NextStatus::SHUTDOWN: {
status = grpc::Status(grpc::StatusCode::UNAVAILABLE, "gRPC already shutdown");
break;
}
case CompletionQueue::NextStatus::GOT_EVENT: {
break;
case CompletionQueue::NextStatus::TIMEOUT: {
status =
grpc::Status(grpc::StatusCode::DEADLINE_EXCEEDED, "gRPC timeout");
break;
}
case CompletionQueue::NextStatus::SHUTDOWN: {
status =
grpc::Status(grpc::StatusCode::UNAVAILABLE, "gRPC already shutdown");
break;
}
case CompletionQueue::NextStatus::GOT_EVENT: {
if (!ok) {
status =
grpc::Status(grpc::StatusCode::ABORTED,
"Failed to execute the action: not ok or invalid tag");
}
break;
}
}
} else {
cq_.Next(&got_tag, &ok);
GPR_ASSERT(got_tag == (void*)this);
GPR_ASSERT(got_tag == (void*) this);
}
}
const std::chrono::high_resolution_clock::time_point etcdv3::Action::startTimepoint() {
const std::chrono::high_resolution_clock::time_point
etcdv3::Action::startTimepoint() {
return this->start_timepoint;
}
std::string etcdv3::detail::string_plus_one(std::string const &value) {
std::string etcdv3::detail::string_plus_one(std::string const& value) {
// Referred from the Go implementation in etcd.
for (int32_t i = value.size() - 1; i >= 0; --i) {
if (static_cast<unsigned char>(value[i]) < 0xff) {
@ -114,7 +128,8 @@ std::string etcdv3::detail::string_plus_one(std::string const &value) {
return {etcdv3::NUL};
}
std::string etcdv3::detail::resolve_etcd_endpoints(std::string const&default_endpoints) {
const char *ep = std::getenv("ETCD_ENDPOINTS");
std::string etcdv3::detail::resolve_etcd_endpoints(
std::string const& default_endpoints) {
const char* ep = std::getenv("ETCD_ENDPOINTS");
return ep ? ep : default_endpoints;
}

59
src/v3/AsyncCompareAndDeleteAction.cpp
View File

@ -1,59 +0,0 @@
#include "etcd/v3/AsyncCompareAndDeleteAction.hpp"
#include "etcd/v3/action_constants.hpp"
#include "etcd/v3/Transaction.hpp"
using etcdserverpb::RangeRequest;
using etcdserverpb::PutRequest;
using etcdserverpb::RequestOp;
using etcdserverpb::ResponseOp;
using etcdserverpb::TxnRequest;
etcdv3::AsyncCompareAndDeleteAction::AsyncCompareAndDeleteAction(
etcdv3::ActionParameters && params, etcdv3::AtomicityType type)
:etcdv3::Action(std::move(params))
{
etcdv3::Transaction transaction(parameters.key);
if(type == etcdv3::AtomicityType::PREV_VALUE)
{
transaction.init_compare(parameters.old_value,
CompareResult::EQUAL,
CompareTarget::VALUE);
}
else if (type == etcdv3::AtomicityType::PREV_INDEX)
{
transaction.init_compare(parameters.old_revision,
CompareResult::EQUAL,
CompareTarget::MOD);
}
transaction.setup_compare_and_delete_operation(parameters.key);
transaction.setup_basic_failure_operation(parameters.key);
response_reader = parameters.kv_stub->AsyncTxn(&context, *transaction.txn_request, &cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncTxnResponse etcdv3::AsyncCompareAndDeleteAction::ParseResponse()
{
AsyncTxnResponse txn_resp;
txn_resp.set_action(etcdv3::COMPAREDELETE_ACTION);
if(!status.ok())
{
txn_resp.set_error_code(status.error_code());
txn_resp.set_error_message(status.error_message());
}
else
{
txn_resp.ParseResponse(parameters.key, parameters.withPrefix, reply);
if(!reply.succeeded())
{
txn_resp.set_error_code(ERROR_COMPARE_FAILED);
txn_resp.set_error_message("etcd-cpp-apiv3: compare failed");
}
}
return txn_resp;
}

61
src/v3/AsyncCompareAndSwapAction.cpp
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#include "etcd/v3/AsyncCompareAndSwapAction.hpp"
#include "etcd/v3/action_constants.hpp"
#include "etcd/v3/Transaction.hpp"
using etcdserverpb::RangeRequest;
using etcdserverpb::PutRequest;
using etcdserverpb::RequestOp;
using etcdserverpb::ResponseOp;
using etcdserverpb::TxnRequest;
etcdv3::AsyncCompareAndSwapAction::AsyncCompareAndSwapAction(
etcdv3::ActionParameters && params, etcdv3::AtomicityType type)
: etcdv3::Action(std::move(params))
{
etcdv3::Transaction transaction(parameters.key);
if(type == etcdv3::AtomicityType::PREV_VALUE)
{
transaction.init_compare(parameters.old_value,
CompareResult::EQUAL,
CompareTarget::VALUE);
}
else if (type == etcdv3::AtomicityType::PREV_INDEX)
{
transaction.init_compare(parameters.old_revision,
CompareResult::EQUAL,
CompareTarget::MOD);
}
transaction.setup_basic_failure_operation(parameters.key);
transaction.setup_compare_and_swap_sequence(parameters.value, parameters.lease_id);
response_reader = parameters.kv_stub->AsyncTxn(&context, *transaction.txn_request, &cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncTxnResponse etcdv3::AsyncCompareAndSwapAction::ParseResponse()
{
AsyncTxnResponse txn_resp;
txn_resp.set_action(etcdv3::COMPARESWAP_ACTION);
if(!status.ok())
{
txn_resp.set_error_code(status.error_code());
txn_resp.set_error_message(status.error_message());
}
else
{
txn_resp.ParseResponse(parameters.key, parameters.withPrefix, reply);
//if there is an error code returned by parseResponse, we must
//not overwrite it.
if(!reply.succeeded() && !txn_resp.get_error_code())
{
txn_resp.set_error_code(ERROR_COMPARE_FAILED);
txn_resp.set_error_message("etcd-cpp-apiv3: compare failed");
}
}
return txn_resp;
}

49
src/v3/AsyncDeleteAction.cpp
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#include "etcd/v3/AsyncDeleteAction.hpp"
#include "etcd/v3/action_constants.hpp"
using etcdserverpb::DeleteRangeRequest;
etcdv3::AsyncDeleteAction::AsyncDeleteAction(
ActionParameters && params)
: etcdv3::Action(std::move(params))
{
DeleteRangeRequest del_request;
if (!parameters.withPrefix) {
del_request.set_key(parameters.key);
} else {
if (parameters.key.empty()) {
// see: WithFromKey in etcdv3/client
del_request.set_key(etcdv3::NUL);
del_request.set_range_end(etcdv3::NUL);
} else {
del_request.set_key(parameters.key);
del_request.set_range_end(detail::string_plus_one(parameters.key));
}
}
if(!parameters.range_end.empty()) {
del_request.set_range_end(parameters.range_end);
}
del_request.set_prev_kv(true);
response_reader = parameters.kv_stub->AsyncDeleteRange(&context, del_request, &cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncDeleteResponse etcdv3::AsyncDeleteAction::ParseResponse()
{
AsyncDeleteResponse del_resp;
del_resp.set_action(etcdv3::DELETE_ACTION);
if(!status.ok())
{
del_resp.set_error_code(status.error_code());
del_resp.set_error_message(status.error_message());
}
else
{
del_resp.ParseResponse(parameters.key, parameters.withPrefix || !parameters.range_end.empty(), reply);
}
return del_resp;
}

32
src/v3/AsyncDeleteResponse.cpp
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#include "etcd/v3/AsyncDeleteResponse.hpp"
#include "etcd/v3/action_constants.hpp"
void etcdv3::AsyncDeleteResponse::ParseResponse(std::string const& key, bool prefix, DeleteRangeResponse& resp)
{
index = resp.header().revision();
if(resp.prev_kvs_size() == 0)
{
error_code = etcdv3::ERROR_KEY_NOT_FOUND;
error_message = "etcd-cpp-apiv3: key not found";
}
else
{
//get all previous values
for(int cnt=0; cnt < resp.prev_kvs_size(); cnt++)
{
etcdv3::KeyValue kv;
kv.kvs.CopyFrom(resp.prev_kvs(cnt));
values.push_back(kv);
}
if(!prefix)
{
prev_value = values[0];
value = values[0];
value.kvs.clear_value();
values.clear();
}
}
}

214
src/v3/AsyncElectionAction.cpp
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#include "etcd/v3/AsyncElectionAction.hpp"
#include <grpcpp/support/status.h>
#include "etcd/v3/action_constants.hpp"
using v3electionpb::LeaderKey;
using v3electionpb::CampaignRequest;
using v3electionpb::CampaignResponse;
using v3electionpb::ProclaimRequest;
using v3electionpb::ProclaimResponse;
using v3electionpb::LeaderRequest;
using v3electionpb::LeaderResponse;
using v3electionpb::ResignRequest;
using v3electionpb::ResignResponse;
etcdv3::AsyncCampaignAction::AsyncCampaignAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
CampaignRequest campaign_request;
campaign_request.set_name(parameters.name);
campaign_request.set_lease(parameters.lease_id);
campaign_request.set_value(parameters.value);
response_reader = parameters.election_stub->AsyncCampaign(&context, campaign_request, &cq_);
response_reader->Finish(&reply, &status, (void *)this);
}
etcdv3::AsyncCampaignResponse etcdv3::AsyncCampaignAction::ParseResponse()
{
AsyncCampaignResponse campaign_resp;
campaign_resp.set_action(etcdv3::CAMPAIGN_ACTION);
if(!status.ok()) {
campaign_resp.set_error_code(status.error_code());
campaign_resp.set_error_message(status.error_message());
}
else {
campaign_resp.ParseResponse(reply);
}
return campaign_resp;
}
etcdv3::AsyncProclaimAction::AsyncProclaimAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
auto leader = new LeaderKey();
leader->set_name(parameters.name);
leader->set_key(parameters.key);
leader->set_rev(parameters.revision);
leader->set_lease(parameters.lease_id);
ProclaimRequest proclaim_request;
proclaim_request.set_allocated_leader(leader);
proclaim_request.set_value(parameters.value);
response_reader = parameters.election_stub->AsyncProclaim(&context, proclaim_request, &cq_);
response_reader->Finish(&reply, &status, (void *)this);
}
etcdv3::AsyncProclaimResponse etcdv3::AsyncProclaimAction::ParseResponse()
{
AsyncProclaimResponse proclaim_resp;
proclaim_resp.set_action(etcdv3::PROCLAIM_ACTION);
if(!status.ok()) {
proclaim_resp.set_error_code(status.error_code());
proclaim_resp.set_error_message(status.error_message());
}
else {
proclaim_resp.ParseResponse(reply);
}
return proclaim_resp;
}
etcdv3::AsyncLeaderAction::AsyncLeaderAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
LeaderRequest leader_request;
leader_request.set_name(parameters.name);
response_reader = parameters.election_stub->AsyncLeader(&context, leader_request, &cq_);
response_reader->Finish(&reply, &status, (void *)this);
}
etcdv3::AsyncLeaderResponse etcdv3::AsyncLeaderAction::ParseResponse()
{
AsyncLeaderResponse leader_resp;
leader_resp.set_action(etcdv3::LEADER_ACTION);
if(!status.ok()) {
leader_resp.set_error_code(status.error_code());
leader_resp.set_error_message(status.error_message());
}
else {
leader_resp.ParseResponse(reply);
}
return leader_resp;
}
etcdv3::AsyncObserveAction::AsyncObserveAction(etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
LeaderRequest leader_request;
leader_request.set_name(parameters.name);
response_reader = parameters.election_stub->AsyncObserve(&context, leader_request, &cq_, (void *)etcdv3::ELECTION_OBSERVE_CREATE);
void *got_tag;
bool ok = false;
if (cq_.Next(&got_tag, &ok) && ok && got_tag == (void *)etcdv3::ELECTION_OBSERVE_CREATE) {
// n.b.: leave the issue of `Read` to the `waitForResponse`
} else {
throw std::runtime_error("failed to create a observe connection");
}
}
void etcdv3::AsyncObserveAction::waitForResponse()
{
void* got_tag;
bool ok = false;
if (isCancelled.load()) {
status = grpc::Status::CANCELLED;
}
if (!status.ok()) {
return;
}
response_reader->Read(&reply, (void *)this);
if (cq_.Next(&got_tag, &ok) && ok && got_tag == (void*)this) {
auto response = ParseResponse();
if (response.get_error_code() == 0) {
// issue the next read
response_reader->Read(&reply, (void *)this);
} else {
this->CancelObserve();
}
} else {
this->CancelObserve();
status = grpc::Status::CANCELLED;
}
}
void etcdv3::AsyncObserveAction::CancelObserve()
{
std::lock_guard<std::mutex> scope_lock(this->protect_is_cancalled);
if (!isCancelled.exchange(true)) {
void* got_tag;
bool ok = false;
response_reader->Finish(&status, (void *)this);
if (cq_.Next(&got_tag, &ok) && ok && got_tag == (void *)this) {
// ok
} else {
std::cerr << "Failed to finish a election observing connection" << std::endl;
}
cq_.Shutdown();
}
}
bool etcdv3::AsyncObserveAction::Cancelled() const {
return isCancelled.load();
}
etcdv3::AsyncObserveResponse etcdv3::AsyncObserveAction::ParseResponse()
{
AsyncObserveResponse leader_resp;
leader_resp.set_action(etcdv3::OBSERVE_ACTION);
if(!status.ok()) {
leader_resp.set_error_code(status.error_code());
leader_resp.set_error_message(status.error_message());
}
else {
leader_resp.ParseResponse(reply);
}
return leader_resp;
}
etcdv3::AsyncResignAction::AsyncResignAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
auto leader = new LeaderKey();
leader->set_name(parameters.name);
leader->set_key(parameters.key);
leader->set_rev(parameters.revision);
leader->set_lease(parameters.lease_id);
ResignRequest resign_request;
resign_request.set_allocated_leader(leader);
response_reader = parameters.election_stub->AsyncResign(&context, resign_request, &cq_);
response_reader->Finish(&reply, &status, (void *)this);
}
etcdv3::AsyncResignResponse etcdv3::AsyncResignAction::ParseResponse()
{
AsyncResignResponse resign_resp;
resign_resp.set_action(etcdv3::RESIGN_ACTION);
if(!status.ok()) {
resign_resp.set_error_code(status.error_code());
resign_resp.set_error_message(status.error_message());
}
else {
resign_resp.ParseResponse(reply);
}
return resign_resp;
}

35
src/v3/AsyncElectionResponse.cpp
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#include "etcd/v3/AsyncElectionResponse.hpp"
#include "etcd/v3/action_constants.hpp"
using etcdserverpb::ResponseOp;
void etcdv3::AsyncCampaignResponse::ParseResponse(CampaignResponse& reply) {
index = reply.header().revision();
auto const &leader = reply.leader();
name = leader.name();
value.kvs.set_key(leader.key());
value.kvs.set_create_revision(leader.rev());
value.kvs.set_lease(leader.lease());
}
void etcdv3::AsyncProclaimResponse::ParseResponse(ProclaimResponse& reply) {
index = reply.header().revision();
}
void etcdv3::AsyncLeaderResponse::ParseResponse(LeaderResponse& reply) {
index = reply.header().revision();
value.kvs = reply.kv();
}
void etcdv3::AsyncObserveResponse::ParseResponse(LeaderResponse& reply) {
index = reply.header().revision();
value.kvs = reply.kv();
}
void etcdv3::AsyncResignResponse::ParseResponse(ResignResponse& reply) {
index = reply.header().revision();
}

1496
src/v3/AsyncGRPC.cpp Normal file
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35
src/v3/AsyncHeadAction.cpp
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#include "etcd/v3/AsyncHeadAction.hpp"
#include <cstdlib>
#include "etcd/v3/action_constants.hpp"
using etcdserverpb::RangeRequest;
etcdv3::AsyncHeadAction::AsyncHeadAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
RangeRequest get_request;
get_request.set_key(etcdv3::NUL);
get_request.set_limit(1);
response_reader = parameters.kv_stub->AsyncRange(&context,get_request,&cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncHeadResponse etcdv3::AsyncHeadAction::ParseResponse()
{
AsyncHeadResponse head_resp;
head_resp.set_action(etcdv3::GET_ACTION);
if(!status.ok())
{
head_resp.set_error_code(status.error_code());
head_resp.set_error_message(status.error_message());
}
else
{
head_resp.ParseResponse(reply);
}
return head_resp;
}

11
src/v3/AsyncHeadResponse.cpp
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@ -1,11 +0,0 @@
#include "etcd/v3/AsyncHeadResponse.hpp"
#include "etcd/v3/action_constants.hpp"
void etcdv3::AsyncHeadResponse::ParseResponse(RangeResponse& resp)
{
cluster_id = resp.header().cluster_id();
member_id = resp.header().member_id();
index = resp.header().revision();
raft_term = resp.header().raft_term();
}

265
src/v3/AsyncLeaseAction.cpp
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#include "etcd/v3/AsyncLeaseAction.hpp"
#include "etcd/Response.hpp"
#include "etcd/v3/action_constants.hpp"
#include "etcd/v3/Transaction.hpp"
#include <grpcpp/support/status.h>
using etcdserverpb::LeaseGrantRequest;
using etcdserverpb::LeaseRevokeRequest;
using etcdserverpb::LeaseCheckpointRequest;
using etcdserverpb::LeaseKeepAliveRequest;
using etcdserverpb::LeaseTimeToLiveRequest;
using etcdserverpb::LeaseLeasesRequest;
etcdv3::AsyncLeaseGrantAction::AsyncLeaseGrantAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
LeaseGrantRequest leasegrant_request;
leasegrant_request.set_ttl(parameters.ttl);
// If ID is set to 0, etcd will choose an ID.
leasegrant_request.set_id(parameters.lease_id);
response_reader = parameters.lease_stub->AsyncLeaseGrant(&context, leasegrant_request, &cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncLeaseGrantResponse etcdv3::AsyncLeaseGrantAction::ParseResponse()
{
AsyncLeaseGrantResponse lease_resp;
lease_resp.set_action(etcdv3::LEASEGRANT);
if (!status.ok()) {
lease_resp.set_error_code(status.error_code());
lease_resp.set_error_message(status.error_message());
} else {
lease_resp.ParseResponse(reply);
}
return lease_resp;
}
etcdv3::AsyncLeaseRevokeAction::AsyncLeaseRevokeAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
LeaseRevokeRequest leaserevoke_request;
leaserevoke_request.set_id(parameters.lease_id);
response_reader = parameters.lease_stub->AsyncLeaseRevoke(&context, leaserevoke_request, &cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncLeaseRevokeResponse etcdv3::AsyncLeaseRevokeAction::ParseResponse()
{
AsyncLeaseRevokeResponse lease_resp;
lease_resp.set_action(etcdv3::LEASEREVOKE);
if (!status.ok()) {
lease_resp.set_error_code(status.error_code());
lease_resp.set_error_message(status.error_message());
} else {
lease_resp.ParseResponse(reply);
}
return lease_resp;
}
etcdv3::AsyncLeaseKeepAliveAction::AsyncLeaseKeepAliveAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
isCancelled = false;
stream = parameters.lease_stub->AsyncLeaseKeepAlive(&context, &cq_, (void*)etcdv3::KEEPALIVE_CREATE);
void *got_tag = nullptr;
bool ok = false;
if (cq_.Next(&got_tag, &ok) && ok && got_tag == (void *)etcdv3::KEEPALIVE_CREATE) {
// ok
} else {
throw std::runtime_error("Failed to create a lease keep-alive connection");
}
}
etcdv3::AsyncLeaseKeepAliveResponse etcdv3::AsyncLeaseKeepAliveAction::ParseResponse()
{
AsyncLeaseKeepAliveResponse lease_resp;
lease_resp.set_action(etcdv3::LEASEKEEPALIVE);
if (!status.ok()) {
lease_resp.set_error_code(status.error_code());
lease_resp.set_error_message(status.error_message());
} else {
lease_resp.ParseResponse(reply);
}
return lease_resp;
}
etcd::Response etcdv3::AsyncLeaseKeepAliveAction::Refresh()
{
std::lock_guard<std::recursive_mutex> scope_lock(this->protect_is_cancelled);
auto start_timepoint = std::chrono::high_resolution_clock::now();
if (isCancelled) {
status = grpc::Status::CANCELLED;
return etcd::Response(ParseResponse(), etcd::detail::duration_till_now(start_timepoint));
}
LeaseKeepAliveRequest leasekeepalive_request;
leasekeepalive_request.set_id(parameters.lease_id);
void *got_tag = nullptr;
bool ok = false;
if (parameters.has_grpc_timeout()) {
stream->Write(leasekeepalive_request, (void *)etcdv3::KEEPALIVE_WRITE);
// wait write finish
switch (cq_.AsyncNext(&got_tag, &ok, parameters.grpc_deadline())) {
case CompletionQueue::NextStatus::TIMEOUT: {
status = grpc::Status(grpc::StatusCode::DEADLINE_EXCEEDED, "gRPC timeout during keep alive write");
break;
}
case CompletionQueue::NextStatus::SHUTDOWN: {
status = grpc::Status(grpc::StatusCode::UNAVAILABLE, "gRPC already shutdown during keep alive write");
break;
}
case CompletionQueue::NextStatus::GOT_EVENT: {
if (!ok || got_tag != (void *)etcdv3::KEEPALIVE_WRITE) {
return etcd::Response(grpc::StatusCode::ABORTED, "Failed to create a lease keep-alive connection: write not ok or invalid tag");
}
}
}
if (!status.ok()) {
this->CancelKeepAlive();
return etcd::Response(ParseResponse(), etcd::detail::duration_till_now(start_timepoint));
}
stream->Read(&reply, (void*)etcdv3::KEEPALIVE_READ);
// wait read finish
switch (cq_.AsyncNext(&got_tag, &ok, parameters.grpc_deadline())) {
case CompletionQueue::NextStatus::TIMEOUT: {
status = grpc::Status(grpc::StatusCode::DEADLINE_EXCEEDED, "gRPC timeout during keep alive read");
break;
}
case CompletionQueue::NextStatus::SHUTDOWN: {
status = grpc::Status(grpc::StatusCode::UNAVAILABLE, "gRPC already shutdown during keep alive read");
break;
}
case CompletionQueue::NextStatus::GOT_EVENT: {
if (!ok || got_tag != (void *)etcdv3::KEEPALIVE_READ) {
return etcd::Response(grpc::StatusCode::ABORTED, "Failed to create a lease keep-alive connection: read not ok or invalid tag");
}
break;
}
}
this->CancelKeepAlive();
return etcd::Response(ParseResponse(), etcd::detail::duration_till_now(start_timepoint));
} else {
stream->Write(leasekeepalive_request, (void *)etcdv3::KEEPALIVE_WRITE);
// wait write finish
if (cq_.Next(&got_tag, &ok) && ok && got_tag == (void *)etcdv3::KEEPALIVE_WRITE) {
stream->Read(&reply, (void*)etcdv3::KEEPALIVE_READ);
// wait read finish
if (cq_.Next(&got_tag, &ok) && ok && got_tag == (void *)etcdv3::KEEPALIVE_READ) {
return etcd::Response(ParseResponse(), etcd::detail::duration_till_now(start_timepoint));
}
}
this->CancelKeepAlive();
return etcd::Response(grpc::StatusCode::ABORTED, "Failed to create a lease keep-alive connection");
}
}
void etcdv3::AsyncLeaseKeepAliveAction::CancelKeepAlive()
{
std::lock_guard<std::recursive_mutex> scope_lock(this->protect_is_cancelled);
if(isCancelled == false)
{
isCancelled = true;
void *got_tag = nullptr;
bool ok = false;
stream->WritesDone((void*)etcdv3::KEEPALIVE_DONE);
if (cq_.Next(&got_tag, &ok) && ok && got_tag == (void *)etcdv3::KEEPALIVE_DONE) {
// ok
} else {
std::cerr << "Failed to mark a lease keep-alive connection as DONE: "
<< context.debug_error_string() << std::endl;
}
grpc::Status status;
stream->Finish(&status, (void *)KEEPALIVE_FINISH);
if (cq_.Next(&got_tag, &ok) && ok && got_tag == (void *)KEEPALIVE_FINISH) {
// ok
} else {
std::cerr << "Failed to finish a lease keep-alive connection: "
<< status.error_message()
<< ", " << context.debug_error_string() << std::endl;
}
// cancel on-the-fly calls
context.TryCancel();
cq_.Shutdown();
}
}
bool etcdv3::AsyncLeaseKeepAliveAction::Cancelled() const
{
return isCancelled;
}
etcdv3::ActionParameters& etcdv3::AsyncLeaseKeepAliveAction::mutable_parameters() {
return this->parameters;
}
etcdv3::AsyncLeaseTimeToLiveAction::AsyncLeaseTimeToLiveAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
LeaseTimeToLiveRequest leasetimetolive_request;
leasetimetolive_request.set_id(parameters.lease_id);
// FIXME: unsupported parameters: "keys"
// leasetimetolive_request.set_keys(parameters.keys);
response_reader = parameters.lease_stub->AsyncLeaseTimeToLive(&context, leasetimetolive_request, &cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncLeaseTimeToLiveResponse etcdv3::AsyncLeaseTimeToLiveAction::ParseResponse()
{
AsyncLeaseTimeToLiveResponse lease_resp;
lease_resp.set_action(etcdv3::LEASETIMETOLIVE);
if (!status.ok()) {
lease_resp.set_error_code(status.error_code());
lease_resp.set_error_message(status.error_message());
} else {
lease_resp.ParseResponse(reply);
}
return lease_resp;
}
etcdv3::AsyncLeaseLeasesAction::AsyncLeaseLeasesAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
LeaseLeasesRequest leaseleases_request;
response_reader = parameters.lease_stub->AsyncLeaseLeases(&context, leaseleases_request, &cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncLeaseLeasesResponse etcdv3::AsyncLeaseLeasesAction::ParseResponse()
{
AsyncLeaseLeasesResponse lease_resp;
lease_resp.set_action(etcdv3::LEASELEASES);
if (!status.ok()) {
lease_resp.set_error_code(status.error_code());
lease_resp.set_error_message(status.error_message());
} else {
lease_resp.ParseResponse(reply);
}
return lease_resp;
}

34
src/v3/AsyncLeaseResponse.cpp
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@ -1,34 +0,0 @@
#include "etcd/v3/AsyncLeaseResponse.hpp"
#include "etcd/v3/action_constants.hpp"
void etcdv3::AsyncLeaseGrantResponse::ParseResponse(LeaseGrantResponse& resp) {
index = resp.header().revision();
value.kvs.set_lease(resp.id());
value.set_ttl(resp.ttl());
error_message = resp.error();
}
void etcdv3::AsyncLeaseRevokeResponse::ParseResponse(LeaseRevokeResponse& resp) {
index = resp.header().revision();
}
void etcdv3::AsyncLeaseKeepAliveResponse::ParseResponse(LeaseKeepAliveResponse& resp) {
index = resp.header().revision();
value.kvs.set_lease(resp.id());
value.set_ttl(resp.ttl());
}
void etcdv3::AsyncLeaseTimeToLiveResponse::ParseResponse(LeaseTimeToLiveResponse& resp) {
index = resp.header().revision();
value.kvs.set_lease(resp.id());
value.set_ttl(resp.ttl());
// FIXME: unsupported: fields "grantedTTL" and "keys"
}
void etcdv3::AsyncLeaseLeasesResponse::ParseResponse(LeaseLeasesResponse& resp) {
index = resp.header().revision();
for (auto lease : resp.leases()) {
leases.emplace_back(lease.id());
}
}

64
src/v3/AsyncLockAction.cpp
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#include "etcd/v3/AsyncLockAction.hpp"
#include "etcd/v3/action_constants.hpp"
using v3lockpb::LockRequest;
using v3lockpb::UnlockRequest;
etcdv3::AsyncLockAction::AsyncLockAction(
ActionParameters && params)
: etcdv3::Action(std::move(params))
{
LockRequest lock_request;
lock_request.set_name(parameters.key);
lock_request.set_lease(parameters.lease_id);
response_reader = parameters.lock_stub->AsyncLock(&context, lock_request, &cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncLockResponse etcdv3::AsyncLockAction::ParseResponse()
{
AsyncLockResponse lock_resp;
lock_resp.set_action(etcdv3::LOCK_ACTION);
if(!status.ok())
{
lock_resp.set_error_code(status.error_code());
lock_resp.set_error_message(status.error_message());
}
else
{
lock_resp.ParseResponse(reply);
}
return lock_resp;
}
etcdv3::AsyncUnlockAction::AsyncUnlockAction(
ActionParameters && params)
: etcdv3::Action(std::move(params))
{
UnlockRequest unlock_request;
unlock_request.set_key(parameters.key);
response_reader = parameters.lock_stub->AsyncUnlock(&context, unlock_request, &cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncUnlockResponse etcdv3::AsyncUnlockAction::ParseResponse()
{
AsyncUnlockResponse unlock_resp;
unlock_resp.set_action(etcdv3::UNLOCK_ACTION);
if(!status.ok())
{
unlock_resp.set_error_code(status.error_code());
unlock_resp.set_error_message(status.error_message());
}
else
{
unlock_resp.ParseResponse(reply);
}
return unlock_resp;
}

13
src/v3/AsyncLockResponse.cpp
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@ -1,13 +0,0 @@
#include "etcd/v3/AsyncLockResponse.hpp"
#include "etcd/v3/action_constants.hpp"
void etcdv3::AsyncLockResponse::ParseResponse(LockResponse& resp)
{
index = resp.header().revision();
lock_key = resp.key();
}
void etcdv3::AsyncUnlockResponse::ParseResponse(UnlockResponse& resp)
{
index = resp.header().revision();
}

36
src/v3/AsyncPutAction.cpp
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@ -1,36 +0,0 @@
#include "etcd/v3/AsyncPutAction.hpp"
#include "etcd/v3/action_constants.hpp"
using etcdserverpb::PutRequest;
etcdv3::AsyncPutAction::AsyncPutAction(
ActionParameters && params)
: etcdv3::Action(std::move(params))
{
PutRequest put_request;
put_request.set_key(parameters.key);
put_request.set_value(parameters.value);
put_request.set_lease(parameters.lease_id);
put_request.set_prev_kv(true);
response_reader = parameters.kv_stub->AsyncPut(&context, put_request, &cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncPutResponse etcdv3::AsyncPutAction::ParseResponse()
{
AsyncPutResponse put_resp;
put_resp.set_action(etcdv3::PUT_ACTION);
if(!status.ok())
{
put_resp.set_error_code(status.error_code());
put_resp.set_error_message(status.error_message());
}
else
{
put_resp.ParseResponse(reply);
}
return put_resp;
}

13
src/v3/AsyncPutResponse.cpp
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@ -1,13 +0,0 @@
#include "etcd/v3/AsyncPutResponse.hpp"
#include "etcd/v3/action_constants.hpp"
void etcdv3::AsyncPutResponse::ParseResponse(PutResponse& resp)
{
index = resp.header().revision();
//get all previous values
etcdv3::KeyValue kv;
kv.kvs.CopyFrom(resp.prev_kv());
prev_value = kv;
}

56
src/v3/AsyncRangeAction.cpp
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@ -1,56 +0,0 @@
#include "etcd/v3/AsyncRangeAction.hpp"
#include <cstdlib>
#include "etcd/v3/action_constants.hpp"
using etcdserverpb::RangeRequest;
etcdv3::AsyncRangeAction::AsyncRangeAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
RangeRequest get_request;
if (!parameters.withPrefix) {
get_request.set_key(parameters.key);
} else {
if (parameters.key.empty()) {
// see: WithFromKey in etcdv3/client
get_request.set_key(etcdv3::NUL);
get_request.set_range_end(etcdv3::NUL);
} else {
get_request.set_key(parameters.key);
get_request.set_range_end(detail::string_plus_one(parameters.key));
}
}
if(!parameters.range_end.empty()) {
get_request.set_range_end(parameters.range_end);
}
get_request.set_limit(parameters.limit);
get_request.set_sort_order(RangeRequest::SortOrder::RangeRequest_SortOrder_NONE);
// set keys_only and count_only
get_request.set_keys_only(params.keys_only);
get_request.set_count_only(params.count_only);
response_reader = parameters.kv_stub->AsyncRange(&context,get_request,&cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncRangeResponse etcdv3::AsyncRangeAction::ParseResponse()
{
AsyncRangeResponse range_resp;
range_resp.set_action(etcdv3::GET_ACTION);
if(!status.ok())
{
range_resp.set_error_code(status.error_code());
range_resp.set_error_message(status.error_message());
}
else
{
range_resp.ParseResponse(reply, parameters.withPrefix || !parameters.range_end.empty());
}
return range_resp;
}

29
src/v3/AsyncRangeResponse.cpp
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#include "etcd/v3/AsyncRangeResponse.hpp"
#include "etcd/v3/action_constants.hpp"
void etcdv3::AsyncRangeResponse::ParseResponse(RangeResponse& resp, bool prefix)
{
index = resp.header().revision();
if(resp.kvs_size() == 0 && !prefix)
{
error_code = etcdv3::ERROR_KEY_NOT_FOUND;
error_message = "etcd-cpp-apiv3: key not found";
return;
}
else
{
for(int index=0; index < resp.kvs_size(); index++)
{
etcdv3::KeyValue kv;
kv.kvs.CopyFrom(resp.kvs(index));
values.push_back(kv);
}
if(!prefix)
{
value = values[0];
values.clear();
}
}
}

51
src/v3/AsyncSetAction.cpp
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@ -1,51 +0,0 @@
#include "etcd/v3/AsyncSetAction.hpp"
#include "etcd/v3/action_constants.hpp"
#include "etcd/v3/Transaction.hpp"
etcdv3::AsyncSetAction::AsyncSetAction(
etcdv3::ActionParameters && params, bool create)
: etcdv3::Action(std::move(params))
{
etcdv3::Transaction transaction(parameters.key);
isCreate = create;
transaction.init_compare(CompareResult::EQUAL,
CompareTarget::VERSION);
transaction.setup_basic_create_sequence(parameters.key, parameters.value, parameters.lease_id);
if(isCreate)
{
transaction.setup_basic_failure_operation(parameters.key);
}
else
{
transaction.setup_set_failure_operation(parameters.key, parameters.value, parameters.lease_id);
}
response_reader = parameters.kv_stub->AsyncTxn(&context, *transaction.txn_request, &cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncTxnResponse etcdv3::AsyncSetAction::ParseResponse()
{
AsyncTxnResponse txn_resp;
txn_resp.set_action(isCreate? etcdv3::CREATE_ACTION : etcdv3::SET_ACTION);
if(!status.ok())
{
txn_resp.set_error_code(status.error_code());
txn_resp.set_error_message(status.error_message());
}
else
{
txn_resp.ParseResponse(parameters.key, parameters.withPrefix, reply);
if(!reply.succeeded() && isCreate)
{
txn_resp.set_error_code(etcdv3::ERROR_KEY_ALREADY_EXISTS);
txn_resp.set_error_message("etcd-cpp-apiv3: key already exists");
}
}
return txn_resp;
}

38
src/v3/AsyncTxnAction.cpp
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@ -1,38 +0,0 @@
#include "etcd/v3/action_constants.hpp"
#include "etcd/v3/AsyncTxnAction.hpp"
#include "etcd/v3/Transaction.hpp"
etcdv3::AsyncTxnAction::AsyncTxnAction(
etcdv3::ActionParameters && params, etcdv3::Transaction const &tx)
: etcdv3::Action(std::move(params))
{
response_reader = parameters.kv_stub->AsyncTxn(&context, *tx.txn_request, &cq_);
response_reader->Finish(&reply, &status, (void *)this);
}
etcdv3::AsyncTxnResponse etcdv3::AsyncTxnAction::ParseResponse()
{
AsyncTxnResponse txn_resp;
txn_resp.set_action(etcdv3::TXN_ACTION);
if(!status.ok())
{
txn_resp.set_error_code(status.error_code());
txn_resp.set_error_message(status.error_message());
}
else
{
txn_resp.ParseResponse(parameters.key, parameters.withPrefix, reply);
//if there is an error code returned by parseResponse, we must
//not overwrite it.
if(!reply.succeeded() && !txn_resp.get_error_code())
{
txn_resp.set_error_code(ERROR_COMPARE_FAILED);
txn_resp.set_error_message("etcd-cpp-apiv3: compare failed");
}
}
return txn_resp;
}

48
src/v3/AsyncTxnResponse.cpp
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@ -1,48 +0,0 @@
#include "etcd/v3/AsyncTxnResponse.hpp"
#include "etcd/v3/AsyncRangeResponse.hpp"
#include "etcd/v3/AsyncDeleteResponse.hpp"
#include "etcd/v3/action_constants.hpp"
using etcdserverpb::ResponseOp;
void etcdv3::AsyncTxnResponse::ParseResponse(TxnResponse& reply) {
index = reply.header().revision();
}
void etcdv3::AsyncTxnResponse::ParseResponse(std::string const& key, bool prefix, TxnResponse& reply)
{
index = reply.header().revision();
for(int index=0; index < reply.responses_size(); index++)
{
auto resp = reply.responses(index);
if(ResponseOp::ResponseCase::kResponseRange == resp.response_case())
{
AsyncRangeResponse response;
response.ParseResponse(*(resp.mutable_response_range()),prefix);
error_code = response.get_error_code();
error_message = response.get_error_message();
values = response.get_values();
value = response.get_value();
}
else if(ResponseOp::ResponseCase::kResponsePut == resp.response_case())
{
auto put_resp = resp.response_put();
if(put_resp.has_prev_kv())
{
prev_value.kvs.CopyFrom(put_resp.prev_kv());
}
}
else if(ResponseOp::ResponseCase::kResponseDeleteRange == resp.response_case())
{
AsyncDeleteResponse response;
response.ParseResponse(key,prefix,*(resp.mutable_response_delete_range()));
prev_value.kvs.CopyFrom(response.get_prev_value().kvs);
values = response.get_values();
value = response.get_value();
}
}
}

50
src/v3/AsyncUpdateAction.cpp
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@ -1,50 +0,0 @@
#include "etcd/v3/AsyncUpdateAction.hpp"
#include "etcd/v3/action_constants.hpp"
#include "etcd/v3/AsyncRangeResponse.hpp"
#include "etcd/v3/Transaction.hpp"
using etcdserverpb::RangeRequest;
using etcdserverpb::PutRequest;
using etcdserverpb::RequestOp;
using etcdserverpb::ResponseOp;
using etcdserverpb::TxnRequest;
etcdv3::AsyncUpdateAction::AsyncUpdateAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
etcdv3::Transaction transaction(parameters.key);
transaction.init_compare(CompareResult::GREATER,
CompareTarget::VERSION);
transaction.setup_compare_and_swap_sequence(parameters.value, parameters.lease_id);
response_reader = parameters.kv_stub->AsyncTxn(&context, *transaction.txn_request, &cq_);
response_reader->Finish(&reply, &status, (void*)this);
}
etcdv3::AsyncTxnResponse etcdv3::AsyncUpdateAction::ParseResponse()
{
AsyncTxnResponse txn_resp;
if(!status.ok())
{
txn_resp.set_error_code(status.error_code());
txn_resp.set_error_message(status.error_message());
}
else
{
if(reply.succeeded())
{
txn_resp.ParseResponse(parameters.key, parameters.withPrefix, reply);
txn_resp.set_action(etcdv3::UPDATE_ACTION);
}
else
{
txn_resp.set_error_code(etcdv3::ERROR_KEY_NOT_FOUND);
txn_resp.set_error_message("etcd-cpp-apiv3: key not found");
}
}
return txn_resp;
}

217
src/v3/AsyncWatchAction.cpp
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@ -1,217 +0,0 @@
#include "etcd/v3/AsyncWatchAction.hpp"
#include "etcd/v3/action_constants.hpp"
using etcdserverpb::WatchCreateRequest;
etcdv3::AsyncWatchAction::AsyncWatchAction(
etcdv3::ActionParameters && params)
: etcdv3::Action(std::move(params))
{
isCancelled.store(false);
stream = parameters.watch_stub->AsyncWatch(&context,&cq_,(void*)etcdv3::WATCH_CREATE);
WatchRequest watch_req;
WatchCreateRequest watch_create_req;
if(!parameters.withPrefix) {
watch_create_req.set_key(parameters.key);
} else {
if (parameters.key.empty()) {
watch_create_req.set_range_end(etcdv3::NUL);
watch_create_req.set_range_end(etcdv3::NUL);
} else {
watch_create_req.set_range_end(parameters.key);
watch_create_req.set_range_end(detail::string_plus_one(parameters.key));
}
}
if(!parameters.range_end.empty()) {
watch_create_req.set_range_end(parameters.range_end);
}
watch_create_req.set_prev_kv(true);
watch_create_req.set_start_revision(parameters.revision);
watch_req.mutable_create_request()->CopyFrom(watch_create_req);
// wait "create" success (the stream becomes ready)
void *got_tag;
bool ok = false;
if (cq_.Next(&got_tag, &ok) && ok && got_tag == (void *)etcdv3::WATCH_CREATE) {
stream->Write(watch_req, (void *)etcdv3::WATCH_WRITE);
} else {
throw std::runtime_error("failed to create a watch connection");
}
// wait "write" (WatchCreateRequest) success, and start to read the first reply
if (cq_.Next(&got_tag, &ok) && ok && got_tag == (void *)etcdv3::WATCH_WRITE) {
stream->Read(&reply, (void*)this);
this->watch_id = reply.watch_id();
} else {
throw std::runtime_error("failed to write WatchCreateRequest to server");
}
}
void etcdv3::AsyncWatchAction::waitForResponse()
{
void* got_tag;
bool ok = false;
while(cq_.Next(&got_tag, &ok))
{
if(ok == false)
{
break;
}
if(got_tag == (void *)etcdv3::WATCH_WRITE_CANCEL) {
stream->WritesDone((void*)etcdv3::WATCH_WRITES_DONE);
continue;
}
if(got_tag == (void*)etcdv3::WATCH_WRITES_DONE)
{
grpc::Status status;
stream->Finish(&status, (void *)etcdv3::WATCH_FINISH);
continue;
}
if (got_tag == (void *)etcdv3::WATCH_FINISH) {
// shutdown
cq_.Shutdown();
// cancel on-the-fly calls
context.TryCancel();
break;
}
if(got_tag == (void*)this) // read tag
{
if (reply.canceled()) {
// cancel on-the-fly calls, but don't shutdown the completion queue as there
// are still a inflight call to finish
context.TryCancel();
// cq_.Shutdown();
continue;
}
// we stop watch under two conditions:
//
// 1. watch for a future revision, return immediately with empty events set
// 2. receive any effective events.
if ((reply.created() && reply.header().revision() < parameters.revision) ||
reply.events_size() > 0) {
// leave a warning if the response is too large and been fragmented
if (reply.fragment()) {
std::cerr << "WARN: The response hasn't been fully received and parsed" << std::endl;
}
std::cout << "issue a watch cancel" << std::endl;
// cancel the watcher after receiving the good response
this->CancelWatch();
// start the next round to read finish messages, read into "&dummy"
// (use nullptr, as it won't be touched).
stream->Read(nullptr, (void*)etcdv3::WATCH_FINISH);
} else {
// start the next round to read reply, read into "&reply"
stream->Read(&reply, (void*)this);
}
continue;
}
if(isCancelled.load()) {
// invalid tag, and is cancelled
break;
}
}
}
void etcdv3::AsyncWatchAction::CancelWatch()
{
if (!isCancelled.exchange(true)) {
WatchRequest cancel_req;
cancel_req.mutable_cancel_request()->set_watch_id(this->watch_id);
stream->Write(cancel_req, (void *)etcdv3::WATCH_WRITE_CANCEL);
isCancelled.store(true);
}
}
bool etcdv3::AsyncWatchAction::Cancelled() const {
return isCancelled.load();
}
void etcdv3::AsyncWatchAction::waitForResponse(std::function<void(etcd::Response)> callback)
{
void* got_tag;
bool ok = false;
while(cq_.Next(&got_tag, &ok))
{
if(ok == false)
{
break;
}
if(got_tag == (void *)etcdv3::WATCH_WRITE_CANCEL) {
stream->WritesDone((void*)etcdv3::WATCH_WRITES_DONE);
continue;
}
if(got_tag == (void*)etcdv3::WATCH_WRITES_DONE)
{
grpc::Status status;
stream->Finish(&status, (void *)etcdv3::WATCH_FINISH);
continue;
}
if (got_tag == (void *)etcdv3::WATCH_FINISH) {
// shutdown
cq_.Shutdown();
// cancel on-the-fly calls
context.TryCancel();
break;
}
if(got_tag == (void*)this) // read tag
{
if (reply.canceled()) {
if (reply.compact_revision() != 0) {
auto resp = ParseResponse();
auto duration = std::chrono::duration_cast<std::chrono::microseconds>(
std::chrono::high_resolution_clock::now() - start_timepoint);
callback(etcd::Response(resp, duration));
}
// cancel on-the-fly calls, but don't shutdown the completion queue as there
// are still a inflight call to finish
context.TryCancel();
// cq_.Shutdown();
continue;
}
// for the callback case, we don't invoke callback immediately if watching
// for a future revision, we wait until there are some effective events.
if(reply.events_size())
{
auto resp = ParseResponse();
auto duration = std::chrono::duration_cast<std::chrono::microseconds>(
std::chrono::high_resolution_clock::now() - start_timepoint);
callback(etcd::Response(resp, duration));
start_timepoint = std::chrono::high_resolution_clock::now();
}
stream->Read(&reply, (void*)this);
continue;
}
if(isCancelled.load()) {
// invalid tag, and is cancelled
break;
}
}
}
etcdv3::AsyncWatchResponse etcdv3::AsyncWatchAction::ParseResponse()
{
AsyncWatchResponse watch_resp;
watch_resp.set_action(etcdv3::WATCH_ACTION);
if(!status.ok())
{
watch_resp.set_error_code(status.error_code());
watch_resp.set_error_message(status.error_message());
}
else
{
watch_resp.ParseResponse(reply);
}
return watch_resp;
}

46
src/v3/AsyncWatchResponse.cpp
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@ -1,46 +0,0 @@
#include "etcd/v3/AsyncWatchResponse.hpp"
#include "etcd/v3/action_constants.hpp"
void etcdv3::AsyncWatchResponse::ParseResponse(WatchResponse& reply)
{
if (reply.canceled() && reply.compact_revision() != 0) {
error_code = grpc::StatusCode::OUT_OF_RANGE;
error_message = "required revision has been compacted";
compact_revision = reply.compact_revision();
return;
}
index = reply.header().revision();
for (auto const &e: reply.events()) {
events.emplace_back(e);
}
for(int cnt =0; cnt < reply.events_size(); cnt++)
{
auto event = reply.events(cnt);
if(mvccpb::Event::EventType::Event_EventType_PUT == event.type())
{
if(event.kv().version() == 1)
{
action = etcdv3::CREATE_ACTION;
}
else
{
action = etcdv3::SET_ACTION;
}
value.kvs = event.kv();
}
else if(mvccpb::Event::EventType::Event_EventType_DELETE_ == event.type())
{
action = etcdv3::DELETE_ACTION;
value.kvs = event.kv();
}
if(event.has_prev_kv())
{
prev_value.kvs = event.prev_kv();
}
// just store the first occurence of the key in values.
// this is done so tas client will not need to change their behaviour.
// break immediately
break;
}
}

15
src/v3/KeyValue.cpp
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@ -1,16 +1,7 @@
#include "etcd/v3/KeyValue.hpp"
etcdv3::KeyValue::KeyValue()
{
ttl = 0;
}
etcdv3::KeyValue::KeyValue() { ttl = 0; }
void etcdv3::KeyValue::set_ttl(int ttl)
{
this->ttl = ttl;
}
void etcdv3::KeyValue::set_ttl(int ttl) { this->ttl = ttl; }
int etcdv3::KeyValue::get_ttl() const
{
return ttl;
}
int etcdv3::KeyValue::get_ttl() const { return ttl; }

40
src/v3/Member.cpp Normal file
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@ -0,0 +1,40 @@
#include "etcd/v3/Member.hpp"
etcdv3::Member::Member() {
id = 0;
name = "";
peerURLs = {};
clientURLs = {};
isLearner = false;
}
void etcdv3::Member::set_id(uint64_t const& id) { this->id = id; }
void etcdv3::Member::set_name(std::string const& name) { this->name = name; }
void etcdv3::Member::set_peerURLs(std::vector<std::string> const& peerURLs) {
this->peerURLs = peerURLs;
}
void etcdv3::Member::set_clientURLs(
std::vector<std::string> const& clientURLs) {
this->clientURLs = clientURLs;
}
void etcdv3::Member::set_learner(bool isLearner) {
this->isLearner = isLearner;
}
uint64_t const& etcdv3::Member::get_id() const { return id; }
std::string const& etcdv3::Member::get_name() const { return name; }
std::vector<std::string> const& etcdv3::Member::get_peerURLs() const {
return peerURLs;
}
std::vector<std::string> const& etcdv3::Member::get_clientURLs() const {
return clientURLs;
}
bool etcdv3::Member::get_learner() const { return isLearner; }

463
src/v3/Transaction.cpp
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@ -2,200 +2,359 @@
#include "proto/rpc.grpc.pb.h"
using etcdserverpb::Compare;
using etcdserverpb::RangeRequest;
using etcdserverpb::PutRequest;
using etcdserverpb::RequestOp;
using etcdserverpb::DeleteRangeRequest;
#include "etcd/v3/Action.hpp"
namespace etcdv3 {
namespace detail {
static etcdserverpb::Compare::CompareResult to_compare_result(CompareResult r) {
return static_cast<etcdserverpb::Compare::CompareResult>(static_cast<int>(r));
return static_cast<etcdserverpb::Compare::CompareResult>(static_cast<int>(r));
}
static etcdserverpb::Compare::CompareTarget to_compare_target(CompareTarget t) {
return static_cast<etcdserverpb::Compare::CompareTarget>(static_cast<int>(t));
return static_cast<etcdserverpb::Compare::CompareTarget>(static_cast<int>(t));
}
}
} // namespace detail
}
} // namespace etcdv3
etcdv3::Transaction::Transaction() {
txn_request.reset(new etcdserverpb::TxnRequest{});
txn_request.reset(new etcdserverpb::TxnRequest{});
}
etcdv3::Transaction::Transaction(const std::string& key) : key(key) {
txn_request.reset(new etcdserverpb::TxnRequest{});
etcdv3::Transaction::~Transaction() {}
void etcdv3::Transaction::add_compare(std::string const& key,
CompareTarget const& target,
CompareResult const& result,
Value const& target_value,
std::string const& range_end) {
switch (target) {
case CompareTarget::VERSION:
add_compare_version(key, result, target_value.version, range_end);
break;
case CompareTarget::CREATE:
add_compare_create(key, result, target_value.create_revision, range_end);
break;
case CompareTarget::MOD:
add_compare_mod(key, result, target_value.mod_revision, range_end);
break;
case CompareTarget::VALUE:
add_compare_value(key, result, target_value.value, range_end);
break;
case CompareTarget::LEASE:
add_compare_lease(key, result, target_value.lease, range_end);
break;
default:
// ignore invalid compare target
break;
}
}
void etcdv3::Transaction::reset_key(std::string const& newkey) {
key = newkey;
void etcdv3::Transaction::add_compare_version(std::string const& key,
int64_t const& version,
std::string const& range_end) {
this->add_compare_version(key, CompareResult::EQUAL, version, range_end);
}
void etcdv3::Transaction::init_compare(CompareResult result, CompareTarget target){
Compare* compare = txn_request->add_compare();
compare->set_result(detail::to_compare_result(result));
compare->set_target(detail::to_compare_target(target));
compare->set_key(key);
compare->set_version(0);
void etcdv3::Transaction::add_compare_version(std::string const& key,
CompareResult const& result,
int64_t const& version,
std::string const& range_end) {
auto compare = txn_request->add_compare();
compare->set_result(detail::to_compare_result(result));
compare->set_target(detail::to_compare_target(CompareTarget::VERSION));
compare->set_key(key);
compare->set_version(version);
compare->set_range_end(range_end);
}
void etcdv3::Transaction::init_compare(std::string const& old_value, CompareResult result, CompareTarget target){
Compare* compare = txn_request->add_compare();
compare->set_result(detail::to_compare_result(result));
compare->set_target(detail::to_compare_target(target));
compare->set_key(key);
compare->set_value(old_value);
void etcdv3::Transaction::add_compare_create(std::string const& key,
int64_t const& create_revision,
std::string const& range_end) {
this->add_compare_create(key, CompareResult::EQUAL, create_revision,
range_end);
}
void etcdv3::Transaction::init_compare(int64_t old_index, CompareResult result, CompareTarget target){
Compare* compare = txn_request->add_compare();
compare->set_result(detail::to_compare_result(result));
compare->set_target(detail::to_compare_target(target));
compare->set_key(key);
compare->set_mod_revision(old_index);
void etcdv3::Transaction::add_compare_create(std::string const& key,
CompareResult const& result,
int64_t const& create_revision,
std::string const& range_end) {
auto compare = txn_request->add_compare();
compare->set_result(detail::to_compare_result(result));
compare->set_target(detail::to_compare_target(CompareTarget::CREATE));
compare->set_key(key);
compare->set_create_revision(create_revision);
compare->set_range_end(range_end);
}
/**
* get key on failure
*/
void etcdv3::Transaction::setup_basic_failure_operation(std::string const& key) {
std::unique_ptr<RangeRequest> get_request(new RangeRequest());
get_request->set_key(key);
RequestOp* req_failure = txn_request->add_failure();
req_failure->set_allocated_request_range(get_request.release());
void etcdv3::Transaction::add_compare_mod(std::string const& key,
int64_t const& mod_revision,
std::string const& range_end) {
this->add_compare_mod(key, CompareResult::EQUAL, mod_revision, range_end);
}
/**
* get key on failure, get key before put, modify and then get updated key
*/
void etcdv3::Transaction::setup_set_failure_operation(std::string const &key, std::string const &value, int64_t leaseid) {
std::unique_ptr<PutRequest> put_request(new PutRequest());
put_request->set_key(key);
put_request->set_value(value);
put_request->set_prev_kv(true);
put_request->set_lease(leaseid);
RequestOp* req_failure = txn_request->add_failure();
req_failure->set_allocated_request_put(put_request.release());
std::unique_ptr<RangeRequest> get_request(new RangeRequest());
get_request->set_key(key);
req_failure = txn_request->add_failure();
req_failure->set_allocated_request_range(get_request.release());
void etcdv3::Transaction::add_compare_mod(std::string const& key,
CompareResult const& result,
int64_t const& mod_revision,
std::string const& range_end) {
auto compare = txn_request->add_compare();
compare->set_result(detail::to_compare_result(result));
compare->set_target(detail::to_compare_target(CompareTarget::MOD));
compare->set_key(key);
compare->set_mod_revision(mod_revision);
compare->set_range_end(range_end);
}
/**
* add key and then get new value of key
*/
void etcdv3::Transaction::setup_basic_create_sequence(std::string const& key, std::string const& value, int64_t leaseid) {
std::unique_ptr<PutRequest> put_request(new PutRequest());
put_request->set_key(key);
put_request->set_value(value);
put_request->set_prev_kv(true);
put_request->set_lease(leaseid);
RequestOp* req_success = txn_request->add_success();
req_success->set_allocated_request_put(put_request.release());
std::unique_ptr<RangeRequest> get_request(new RangeRequest());
get_request->set_key(key);
req_success = txn_request->add_success();
req_success->set_allocated_request_range(get_request.release());
void etcdv3::Transaction::add_compare_value(std::string const& key,
std::string const& value,
std::string const& range_end) {
this->add_compare_value(key, CompareResult::EQUAL, value, range_end);
}
/**
* get key value then modify and get new value
*/
void etcdv3::Transaction::setup_compare_and_swap_sequence(std::string const& value, int64_t leaseid) {
std::unique_ptr<PutRequest> put_request(new PutRequest());
put_request->set_key(key);
put_request->set_value(value);
put_request->set_prev_kv(true);
put_request->set_lease(leaseid);
RequestOp* req_success = txn_request->add_success();
req_success->set_allocated_request_put(put_request.release());
std::unique_ptr<RangeRequest> get_request(new RangeRequest());
get_request->set_key(key);
req_success = txn_request->add_success();
req_success->set_allocated_request_range(get_request.release());
void etcdv3::Transaction::add_compare_value(std::string const& key,
CompareResult const& result,
std::string const& value,
std::string const& range_end) {
auto compare = txn_request->add_compare();
compare->set_result(detail::to_compare_result(result));
compare->set_target(detail::to_compare_target(CompareTarget::VALUE));
compare->set_key(key);
compare->set_value(value);
compare->set_range_end(range_end);
}
/**
* get key, delete
*/
void etcdv3::Transaction::setup_delete_sequence(std::string const &key, std::string const &range_end, bool recursive) {
std::unique_ptr<DeleteRangeRequest> del_request(new DeleteRangeRequest());
del_request->set_key(key);
del_request->set_prev_kv(true);
if(recursive)
{
del_request->set_range_end(range_end);
}
RequestOp* req_success = txn_request->add_success();
req_success->set_allocated_request_delete_range(del_request.release());
void etcdv3::Transaction::add_compare_lease(std::string const& key,
int64_t const& lease,
std::string const& range_end) {
this->add_compare_lease(key, CompareResult::EQUAL, lease, range_end);
}
/**
* get key, delete
*/
void etcdv3::Transaction::setup_delete_failure_operation(std::string const &key, std::string const &range_end, bool recursive) {
std::unique_ptr<RangeRequest> get_request(new RangeRequest());
std::unique_ptr<DeleteRangeRequest> del_request(new DeleteRangeRequest());
get_request.reset(new RangeRequest());
get_request->set_key(key);
if(recursive)
{
get_request->set_range_end(range_end);
get_request->set_sort_target(RangeRequest::SortTarget::RangeRequest_SortTarget_KEY);
get_request->set_sort_order(RangeRequest::SortOrder::RangeRequest_SortOrder_ASCEND);
}
RequestOp* req_failure = txn_request->add_failure();
req_failure->set_allocated_request_range(get_request.release());
del_request.reset(new DeleteRangeRequest());
del_request->set_key(key);
if(recursive)
{
del_request->set_range_end(range_end);
}
req_failure = txn_request->add_failure();
req_failure->set_allocated_request_delete_range(del_request.release());
void etcdv3::Transaction::add_compare_lease(std::string const& key,
CompareResult const& result,
int64_t const& lease,
std::string const& range_end) {
auto compare = txn_request->add_compare();
compare->set_result(detail::to_compare_result(result));
compare->set_target(detail::to_compare_target(CompareTarget::LEASE));
compare->set_key(key);
compare->set_lease(lease);
compare->set_range_end(range_end);
}
void etcdv3::Transaction::setup_compare_and_delete_operation(std::string const& key) {
std::unique_ptr<DeleteRangeRequest> del_request(new DeleteRangeRequest());
del_request->set_key(key);
del_request->set_prev_kv(true);
RequestOp* req_success = txn_request->add_success();
req_success->set_allocated_request_delete_range(del_request.release());
void etcdv3::Transaction::add_success_range(std::string const& key,
std::string const& range_end,
bool const recursive,
const int64_t limit) {
auto succ = txn_request->add_success();
auto get_request = succ->mutable_request_range();
etcdv3::detail::make_request_with_ranges(*get_request, key, range_end,
recursive);
get_request->set_limit(limit);
}
void etcdv3::Transaction::setup_put(std::string const &key, std::string const &value) {
std::unique_ptr<PutRequest> put_request(new PutRequest());
put_request->set_key(key);
put_request->set_value(value);
put_request->set_prev_kv(false);
RequestOp* req_success = txn_request->add_success();
req_success->set_allocated_request_put(put_request.release());
void etcdv3::Transaction::add_success_put(std::string const& key,
std::string const& value,
int64_t const leaseid,
const bool prev_kv) {
auto succ = txn_request->add_success();
auto put_request = succ->mutable_request_put();
put_request->set_key(key);
put_request->set_value(value);
put_request->set_prev_kv(prev_kv);
put_request->set_lease(leaseid);
}
void etcdv3::Transaction::setup_delete(std::string const &key) {
std::unique_ptr<DeleteRangeRequest> del_request(new DeleteRangeRequest());
del_request->set_key(key);
del_request->set_prev_kv(false);
RequestOp* req_success = txn_request->add_success();
req_success->set_allocated_request_delete_range(del_request.release());
void etcdv3::Transaction::add_success_delete(std::string const& key,
std::string const& range_end,
bool const recursive,
const bool prev_kv) {
auto succ = txn_request->add_success();
auto del_request = succ->mutable_request_delete_range();
etcdv3::detail::make_request_with_ranges(*del_request, key, range_end,
recursive);
del_request->set_prev_kv(prev_kv);
}
etcdv3::Transaction::~Transaction() {
void etcdv3::Transaction::add_success_txn(
const std::shared_ptr<Transaction> txn) {
auto succ = txn_request->add_success();
auto txn_request = succ->mutable_request_txn();
txn_request->CopyFrom(*txn->txn_request);
}
void etcdv3::Transaction::add_failure_range(std::string const& key,
std::string const& range_end,
bool const recursive,
const int64_t limit) {
auto fail = txn_request->add_failure();
auto get_request = fail->mutable_request_range();
etcdv3::detail::make_request_with_ranges(*get_request, key, range_end,
recursive);
get_request->set_limit(limit);
}
void etcdv3::Transaction::add_failure_put(std::string const& key,
std::string const& value,
int64_t const leaseid,
const bool prev_kv) {
auto fail = txn_request->add_failure();
auto put_request = fail->mutable_request_put();
put_request->set_key(key);
put_request->set_value(value);
put_request->set_prev_kv(prev_kv);
put_request->set_lease(leaseid);
}
void etcdv3::Transaction::add_failure_delete(std::string const& key,
std::string const& range_end,
bool const recursive,
const bool prev_kv) {
auto fail = txn_request->add_failure();
auto del_request = fail->mutable_request_delete_range();
etcdv3::detail::make_request_with_ranges(*del_request, key, range_end,
recursive);
del_request->set_prev_kv(prev_kv);
}
void etcdv3::Transaction::add_failure_txn(
const std::shared_ptr<Transaction> txn) {
auto fail = txn_request->add_failure();
auto txn_request = fail->mutable_request_txn();
txn_request->CopyFrom(*txn->txn_request);
}
void etcdv3::Transaction::setup_compare_and_create(
std::string const& key, std::string const& prev_value,
std::string const& create_key, std::string const& value,
int64_t const leaseid) {
this->add_compare_value(key, CompareResult::EQUAL, prev_value);
this->add_success_put(create_key, value, leaseid);
this->add_failure_range(key);
}
void etcdv3::Transaction::setup_compare_or_create(std::string const& key,
std::string const& prev_value,
std::string const& create_key,
std::string const& value,
int64_t const leaseid) {
this->add_compare_value(key, CompareResult::NOT_EQUAL, prev_value);
this->add_success_put(create_key, value, leaseid);
this->add_failure_range(key);
}
void etcdv3::Transaction::setup_compare_and_swap(std::string const& key,
std::string const& prev_value,
std::string const& value,
int64_t const leaseid) {
this->add_compare_value(key, CompareResult::EQUAL, prev_value);
this->add_success_put(key, value, leaseid);
this->add_failure_range(key);
}
void etcdv3::Transaction::setup_compare_or_swap(std::string const& key,
std::string const& prev_value,
std::string const& value,
int64_t const leaseid) {
this->add_compare_value(key, CompareResult::NOT_EQUAL, prev_value);
this->add_success_put(key, value, leaseid);
this->add_failure_range(key);
}
void etcdv3::Transaction::setup_compare_and_delete(
std::string const& key, std::string const& prev_value,
std::string const& delete_key, std::string const& range_end,
const bool recursive) {
this->add_compare_value(key, CompareResult::EQUAL, prev_value);
this->add_success_delete(delete_key, range_end, recursive,
true /* for backwards compatibility */);
this->add_failure_range(key);
}
void etcdv3::Transaction::setup_compare_or_delete(std::string const& key,
std::string const& prev_value,
std::string const& delete_key,
std::string const& range_end,
const bool recursive) {
this->add_compare_value(key, CompareResult::NOT_EQUAL, prev_value);
this->add_success_delete(delete_key, range_end, recursive,
true /* for backwards compatibility */);
this->add_failure_range(key);
}
void etcdv3::Transaction::setup_compare_and_create(
std::string const& key, const int64_t prev_revision,
std::string const& create_key, std::string const& value,
int64_t const leaseid) {
this->add_compare_mod(key, CompareResult::EQUAL, prev_revision);
this->add_success_put(create_key, value, leaseid);
this->add_failure_range(key);
}
void etcdv3::Transaction::setup_compare_or_create(std::string const& key,
const int64_t prev_revision,
std::string const& create_key,
std::string const& value,
int64_t const leaseid) {
this->add_compare_mod(key, CompareResult::NOT_EQUAL, prev_revision);
this->add_success_put(create_key, value, leaseid);
this->add_failure_range(key);
}
void etcdv3::Transaction::setup_compare_and_swap(std::string const& key,
const int64_t prev_revision,
std::string const& value,
int64_t const leaseid) {
this->add_compare_mod(key, CompareResult::EQUAL, prev_revision);
this->add_success_put(key, value, leaseid);
this->add_failure_range(key);
}
void etcdv3::Transaction::setup_compare_or_swap(std::string const& key,
const int64_t prev_revision,
std::string const& value,
int64_t const leaseid) {
this->add_compare_mod(key, CompareResult::NOT_EQUAL, prev_revision);
this->add_success_put(key, value, leaseid);
this->add_failure_range(key);
}
void etcdv3::Transaction::setup_compare_and_delete(
std::string const& key, const int64_t prev_revision,
std::string const& delete_key, std::string const& range_end,
const bool recursive) {
this->add_compare_mod(key, CompareResult::EQUAL, prev_revision);
this->add_success_delete(delete_key, range_end, recursive,
true /* for backwards compatibility */);
this->add_failure_range(key);
}
void etcdv3::Transaction::setup_compare_or_delete(std::string const& key,
const int64_t prev_revision,
std::string const& delete_key,
std::string const& range_end,
const bool recursive) {
this->add_compare_mod(key, CompareResult::NOT_EQUAL, prev_revision);
this->add_success_delete(delete_key, range_end, recursive,
true /* for backwards compatibility */);
this->add_failure_range(key);
}
void etcdv3::Transaction::setup_put(std::string const& key,
std::string const& value) {
this->add_success_put(key, value);
}
void etcdv3::Transaction::setup_delete(std::string const& key) {
this->add_success_delete(key, "", false,
true /* for backwards compatibility */);
}
void etcdv3::Transaction::setup_delete(std::string const& key,
std::string const& range_end,
const bool recursive) {
this->add_success_delete(key, range_end, recursive,
true /* for backwards compatibility */);
}

93
src/v3/V3Response.cpp
View File

@ -1,103 +1,86 @@
#include "etcd/v3/V3Response.hpp"
#include "etcd/v3/Member.hpp"
#include "etcd/v3/action_constants.hpp"
void etcdv3::V3Response::set_error_code(int code)
{
error_code = code;
}
void etcdv3::V3Response::set_error_code(int code) { error_code = code; }
void etcdv3::V3Response::set_error_message(std::string msg)
{
void etcdv3::V3Response::set_error_message(std::string msg) {
error_message = msg;
}
int64_t etcdv3::V3Response::get_index() const
{
return index;
}
int64_t etcdv3::V3Response::get_index() const { return index; }
std::string const & etcdv3::V3Response::get_action() const
{
return action;
}
std::string const& etcdv3::V3Response::get_action() const { return action; }
int etcdv3::V3Response::get_error_code() const
{
return error_code;
}
int etcdv3::V3Response::get_error_code() const { return error_code; }
std::string const & etcdv3::V3Response::get_error_message() const
{
std::string const& etcdv3::V3Response::get_error_message() const {
return error_message;
}
void etcdv3::V3Response::set_action(std::string action)
{
void etcdv3::V3Response::set_action(std::string action) {
this->action = action;
}
std::vector<etcdv3::KeyValue> const & etcdv3::V3Response::get_values() const
{
std::vector<etcdv3::KeyValue> const& etcdv3::V3Response::get_values() const {
return values;
}
std::vector<etcdv3::KeyValue> const & etcdv3::V3Response::get_prev_values() const
{
std::vector<etcdv3::KeyValue> const& etcdv3::V3Response::get_prev_values()
const {
return prev_values;
}
etcdv3::KeyValue const & etcdv3::V3Response::get_value() const
{
return value;
}
etcdv3::KeyValue const& etcdv3::V3Response::get_value() const { return value; }
etcdv3::KeyValue const & etcdv3::V3Response::get_prev_value() const
{
etcdv3::KeyValue const& etcdv3::V3Response::get_prev_value() const {
return prev_value;
}
bool etcdv3::V3Response::has_values() const
{
return values.size() > 0;
}
bool etcdv3::V3Response::has_values() const { return values.size() > 0; }
int64_t etcdv3::V3Response::get_compact_revision() const
{
int64_t etcdv3::V3Response::get_compact_revision() const {
return compact_revision;
}
void etcdv3::V3Response::set_lock_key(std::string const &key) {
void etcdv3::V3Response::set_compact_revision(const int64_t compact_revision) {
this->compact_revision = compact_revision;
}
int64_t etcdv3::V3Response::get_watch_id() const { return watch_id; }
void etcdv3::V3Response::set_watch_id(const int64_t watch_id) {
this->watch_id = watch_id;
}
void etcdv3::V3Response::set_lock_key(std::string const& key) {
this->lock_key = key;
}
std::string const & etcdv3::V3Response::get_lock_key() const {
std::string const& etcdv3::V3Response::get_lock_key() const {
return this->lock_key;
}
void etcdv3::V3Response::set_name(std::string const &name) {
void etcdv3::V3Response::set_name(std::string const& name) {
this->name = name;
}
std::string const & etcdv3::V3Response::get_name() const {
return this->name;
}
std::string const& etcdv3::V3Response::get_name() const { return this->name; }
std::vector<mvccpb::Event> const & etcdv3::V3Response::get_events() const {
std::vector<mvccpb::Event> const& etcdv3::V3Response::get_events() const {
return this->events;
}
uint64_t etcdv3::V3Response::get_cluster_id() const {
return this->cluster_id;
}
uint64_t etcdv3::V3Response::get_cluster_id() const { return this->cluster_id; }
uint64_t etcdv3::V3Response::get_member_id() const {
return this->member_id;
}
uint64_t etcdv3::V3Response::get_member_id() const { return this->member_id; }
uint64_t etcdv3::V3Response::get_raft_term() const {
return this->raft_term;
}
uint64_t etcdv3::V3Response::get_raft_term() const { return this->raft_term; }
std::vector<int64_t> const & etcdv3::V3Response::get_leases() const {
std::vector<int64_t> const& etcdv3::V3Response::get_leases() const {
return this->leases;
}
std::vector<etcdv3::Member> const& etcdv3::V3Response::get_members() const {
return this->members;
}

71
src/v3/action_constants.cpp
View File

@ -1,47 +1,52 @@
#include "etcd/v3/action_constants.hpp"
char const * etcdv3::CREATE_ACTION = "create";
char const * etcdv3::COMPARESWAP_ACTION = "compareAndSwap";
char const * etcdv3::UPDATE_ACTION = "update";
char const * etcdv3::SET_ACTION = "set";
char const * etcdv3::GET_ACTION = "get";
char const * etcdv3::PUT_ACTION = "put";
char const * etcdv3::DELETE_ACTION = "delete";
char const * etcdv3::COMPAREDELETE_ACTION = "compareAndDelete";
char const * etcdv3::LOCK_ACTION = "lock";
char const * etcdv3::UNLOCK_ACTION = "unlock";
char const * etcdv3::TXN_ACTION = "txn";
char const * etcdv3::WATCH_ACTION = "watch";
char const* etcdv3::CREATE_ACTION = "create";
char const* etcdv3::COMPARESWAP_ACTION = "compareAndSwap";
char const* etcdv3::UPDATE_ACTION = "update";
char const* etcdv3::SET_ACTION = "set";
char const* etcdv3::GET_ACTION = "get";
char const* etcdv3::PUT_ACTION = "set"; // alias
char const* etcdv3::DELETE_ACTION = "delete";
char const* etcdv3::COMPAREDELETE_ACTION = "compareAndDelete";
char const* etcdv3::LOCK_ACTION = "lock";
char const* etcdv3::UNLOCK_ACTION = "unlock";
char const* etcdv3::TXN_ACTION = "txn";
char const* etcdv3::WATCH_ACTION = "watch";
char const * etcdv3::LEASEGRANT = "leasegrant";
char const * etcdv3::LEASEREVOKE = "leaserevoke";
char const * etcdv3::LEASEKEEPALIVE = "leasekeepalive";
char const * etcdv3::LEASETIMETOLIVE = "leasetimetolive";
char const * etcdv3::LEASELEASES = "leaseleases";
char const* etcdv3::LEASEGRANT = "leasegrant";
char const* etcdv3::LEASEREVOKE = "leaserevoke";
char const* etcdv3::LEASEKEEPALIVE = "leasekeepalive";
char const* etcdv3::LEASETIMETOLIVE = "leasetimetolive";
char const* etcdv3::LEASELEASES = "leaseleases";
char const * etcdv3::CAMPAIGN_ACTION = "campaign";
char const * etcdv3::PROCLAIM_ACTION = "preclaim";
char const * etcdv3::LEADER_ACTION = "leader";
char const * etcdv3::OBSERVE_ACTION = "obverse";
char const * etcdv3::RESIGN_ACTION = "resign";
char const* etcdv3::ADDMEMBER = "addmember";
char const* etcdv3::LISTMEMBER = "listmember";
char const* etcdv3::REMOVEMEMBER = "removemember";
char const* etcdv3::CAMPAIGN_ACTION = "campaign";
char const* etcdv3::PROCLAIM_ACTION = "preclaim";
char const* etcdv3::LEADER_ACTION = "leader";
char const* etcdv3::OBSERVE_ACTION = "obverse";
char const* etcdv3::RESIGN_ACTION = "resign";
// see: noPrefixEnd in etcd, however c++ doesn't allows naive '\0' inside
// a string, thus we use std::string(1, '\x00') as the constructor.
std::string const etcdv3::NUL = std::string(1, '\x00');
char const * etcdv3::KEEPALIVE_CREATE = "keepalive create";
char const * etcdv3::KEEPALIVE_WRITE = "keepalive write";
char const * etcdv3::KEEPALIVE_READ = "keepalive read";
char const * etcdv3::KEEPALIVE_DONE = "keepalive done";
char const * etcdv3::KEEPALIVE_FINISH = "keepalive finish";
char const* etcdv3::KEEPALIVE_CREATE = "keepalive create";
char const* etcdv3::KEEPALIVE_WRITE = "keepalive write";
char const* etcdv3::KEEPALIVE_READ = "keepalive read";
char const* etcdv3::KEEPALIVE_DONE = "keepalive done";
char const* etcdv3::KEEPALIVE_FINISH = "keepalive finish";
char const * etcdv3::WATCH_CREATE = "watch create";
char const * etcdv3::WATCH_WRITE = "watch write";
char const * etcdv3::WATCH_WRITE_CANCEL = "watch write cancel";
char const * etcdv3::WATCH_WRITES_DONE = "watch writes done";
char const * etcdv3::WATCH_FINISH = "watch finish";
char const* etcdv3::WATCH_CREATE = "watch create";
char const* etcdv3::WATCH_WRITE = "watch write";
char const* etcdv3::WATCH_WRITE_CANCEL = "watch write cancel";
char const* etcdv3::WATCH_WRITES_DONE = "watch writes done";
char const* etcdv3::WATCH_FINISH = "watch finish";
char const * etcdv3::ELECTION_OBSERVE_CREATE = "observe create";
char const* etcdv3::ELECTION_OBSERVE_CREATE = "observe create";
char const* etcdv3::ELECTION_OBSERVE_FINISH = "observe finish";
const int etcdv3::ERROR_GRPC_OK = 0;
const int etcdv3::ERROR_GRPC_CANCELLED = 1;

39
tst/AuthTest.cpp
View File

@ -5,22 +5,21 @@
#include "etcd/Client.hpp"
static const std::string etcd_url = etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
TEST_CASE("setup with auth")
{
etcd::Client *etcd = etcd::Client::WithUser(etcd_url, "root", "root");
TEST_CASE("setup with auth") {
etcd::Client* etcd = etcd::Client::WithUser(etcd_url, "root", "root");
etcd->rmdir("/test", true).wait();
}
TEST_CASE("add a new key after authenticate")
{
etcd::Client *etcd = etcd::Client::WithUser(etcd_url, "root", "root");
TEST_CASE("add a new key after authenticate") {
etcd::Client* etcd = etcd::Client::WithUser(etcd_url, "root", "root");
etcd->rmdir("/test", true).wait();
etcd::Response resp = etcd->add("/test/key1", "42").get();
REQUIRE(0 == resp.error_code());
CHECK("create" == resp.action());
etcd::Value const & val = resp.value();
etcd::Value const& val = resp.value();
CHECK("42" == val.as_string());
CHECK("/test/key1" == val.key());
CHECK(!val.is_dir());
@ -28,24 +27,28 @@ TEST_CASE("add a new key after authenticate")
CHECK(0 < val.modified_index());
CHECK(1 == val.version());
CHECK(0 < resp.index());
CHECK(etcd::ERROR_KEY_ALREADY_EXISTS == etcd->add("/test/key1", "43").get().error_code()); // Key already exists
CHECK(etcd::ERROR_KEY_ALREADY_EXISTS == etcd->add("/test/key1", "42").get().error_code()); // Key already exists
CHECK("etcd-cpp-apiv3: key already exists" == etcd->add("/test/key1", "42").get().error_message());
CHECK(
etcd::ERROR_KEY_ALREADY_EXISTS ==
etcd->add("/test/key1", "43").get().error_code()); // Key already exists
CHECK(
etcd::ERROR_KEY_ALREADY_EXISTS ==
etcd->add("/test/key1", "42").get().error_code()); // Key already exists
CHECK("etcd-cpp-apiv3: key already exists" ==
etcd->add("/test/key1", "42").get().error_message());
}
TEST_CASE("read a value from etcd")
{
etcd::Client *etcd = etcd::Client::WithUser(etcd_url, "root", "root");
TEST_CASE("read a value from etcd") {
etcd::Client* etcd = etcd::Client::WithUser(etcd_url, "root", "root");
etcd::Response resp = etcd->get("/test/key1").get();
CHECK("get" == resp.action());
REQUIRE(resp.is_ok());
REQUIRE(0 == resp.error_code());
CHECK("42" == resp.value().as_string());
CHECK("" == etcd->get("/test").get().value().as_string()); // key points to a directory
CHECK("" == etcd->get("/test").get().value().as_string()); // key points to a
// directory
}
TEST_CASE("cleanup")
{
etcd::Client *etcd = etcd::Client::WithUser(etcd_url, "root", "root");
TEST_CASE("cleanup") {
etcd::Client* etcd = etcd::Client::WithUser(etcd_url, "root", "root");
REQUIRE(0 == etcd->rmdir("/test", true).get().error_code());
}

1
tst/CMakeLists.txt
View File

@ -19,6 +19,7 @@ foreach(testfile ${TEST_FILES})
add_executable(${test_name} EXCLUDE_FROM_ALL ${CMAKE_CURRENT_SOURCE_DIR}/${testfile})
endif()
use_cxx(${test_name})
set_exceptions(${test_name})
add_test(NAME ${test_name} COMMAND $<TARGET_FILE:${test_name}>)
target_include_directories(${test_name} PRIVATE ${CMAKE_CURRENT_BINARY_DIR}/../proto/gen)

76
tst/CampaignTest.cpp
View File

@ -11,9 +11,9 @@
#include "etcd/Value.hpp"
static std::string etcd_uri = etcdv3::detail::resolve_etcd_endpoints(
"http://127.0.0.1:2379,http://127.0.0.1:2479,http://127.0.0.1:2579");
"http://127.0.0.1:2379,http://127.0.0.1:2479,http://127.0.0.1:2579");
TEST_CASE("campaign and loadership using keepalive") {
TEST_CASE("campaign and leadership using keepalive") {
etcd::Client etcd(etcd_uri);
auto keepalive = etcd.leasekeepalive(5).get();
auto lease_id = keepalive->Lease();
@ -32,8 +32,78 @@ TEST_CASE("campaign and loadership using keepalive") {
std::cout << "finish campaign" << std::endl;
auto resp2 = etcd.leader("/leader").get();
std::cout << resp2.value().as_string() << std::endl;
CHECK(0 == resp2.error_code());
CHECK(value == resp2.value().as_string());
CHECK(resp1.value().key() == resp2.value().key());
std::cout << resp2.value().key() << std::endl;
std::cout << "finish leader" << std::endl;
auto resp3 = etcd.resign("/leader", resp1.value().lease(),
resp1.value().key(), resp1.value().created_index())
.get();
CHECK(0 == resp3.error_code());
std::cout << "finish resign" << std::endl;
}
TEST_CASE("concurrent campaign with grpc timeout") {
std::string value1 = std::string("192.168.1.6:1880");
std::string value2 = std::string("192.168.1.6:1890");
auto fn1 = [&]() {
etcd::Client etcd(etcd_uri);
auto keepalive = etcd.leasekeepalive(5).get();
auto lease_id = keepalive->Lease();
auto resp1 = etcd.campaign("/leader", lease_id, value1).get();
CHECK(0 == resp1.error_code());
std::this_thread::sleep_for(std::chrono::seconds(10));
// resign
auto resp2 = etcd.resign("/leader", resp1.value().lease(),
resp1.value().key(), resp1.value().created_index())
.get();
CHECK(0 == resp2.error_code());
};
auto fn2 = [&]() {
etcd::Client etcd(etcd_uri);
auto keepalive = etcd.leasekeepalive(5).get();
auto lease_id = keepalive->Lease();
// set client timeout
etcd.set_grpc_timeout(std::chrono::seconds(3));
std::this_thread::sleep_for(std::chrono::seconds(3));
auto resp1 = etcd.campaign("/leader", lease_id, value2).get();
std::cout << resp1.error_code() << resp1.error_message() << std::endl;
CHECK(0 != resp1.error_code());
// wait until success
while (true) {
resp1 = etcd.campaign("/leader", lease_id, value2).get();
if (resp1.error_code() == 0) {
// check value
auto resp2 = etcd.leader("/leader").get();
CHECK(0 == resp2.error_code());
CHECK(value2 == resp2.value().as_string());
CHECK(resp1.value().key() == resp2.value().key());
// break the loop
break;
}
}
auto resp2 = etcd.resign("/leader", resp1.value().lease(),
resp1.value().key(), resp1.value().created_index())
.get();
CHECK(0 == resp2.error_code());
};
std::thread t1(fn1);
std::thread t2(fn2);
t1.join();
t2.join();
}

77
tst/ElectionTest.cpp
View File

@ -8,16 +8,15 @@
#include "etcd/Client.hpp"
#include "etcd/KeepAlive.hpp"
static const std::string etcd_url = etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
TEST_CASE("setup")
{
TEST_CASE("setup") {
etcd::Client etcd(etcd_url);
etcd.rmdir("/test", true).wait();
}
TEST_CASE("campaign and resign")
{
TEST_CASE("campaign and resign") {
etcd::Client etcd(etcd_url);
auto keepalive = etcd.leasekeepalive(60).get();
@ -36,9 +35,9 @@ TEST_CASE("campaign and resign")
}
// proclaim
auto resp3 = etcd.proclaim("test", lease_id,
resp1.value().key(), resp1.value().created_index(),
"tttt").get();
auto resp3 = etcd.proclaim("test", lease_id, resp1.value().key(),
resp1.value().created_index(), "tttt")
.get();
REQUIRE(0 == resp3.error_code());
// leader
@ -50,13 +49,67 @@ TEST_CASE("campaign and resign")
}
// resign
auto resp5 = etcd.resign("test", lease_id,
resp1.value().key(), resp1.value().created_index()).get();
auto resp5 = etcd.resign("test", lease_id, resp1.value().key(),
resp1.value().created_index())
.get();
REQUIRE(0 == resp5.error_code());
}
TEST_CASE("cleanup")
{
TEST_CASE("campaign and observe") {
etcd::Client etcd(etcd_url);
auto keepalive = etcd.leasekeepalive(60).get();
auto lease_id = keepalive->Lease();
auto observer_thread = std::thread([&etcd]() {
std::unique_ptr<etcd::SyncClient::Observer> observer = etcd.observe("test");
// wait many change events, blocked execution
for (size_t i = 0; i < 10; ++i) {
etcd::Response resp = observer->WaitOnce();
std::cout << "observe " << resp.value().key()
<< " as the leader: " << resp.value().as_string() << std::endl;
}
std::cout << "finish the observe" << std::endl;
// cancel the observers
observer.reset(nullptr);
});
std::this_thread::sleep_for(std::chrono::seconds(1));
for (int i = 0; i < 5; ++i) {
// campaign
auto resp1 = etcd.campaign("test", lease_id, "xxxx").get();
REQUIRE(0 == resp1.error_code());
std::cout << "key " << resp1.value().key() << " becomes the leader"
<< std::endl;
// proclaim
auto resp3 = etcd.proclaim("test", lease_id, resp1.value().key(),
resp1.value().created_index(),
"tttt - " + std::to_string(i))
.get();
REQUIRE(0 == resp3.error_code());
// leader
{
auto resp4 = etcd.leader("test").get();
REQUIRE(0 == resp4.error_code());
REQUIRE(resp1.value().key() == resp4.value().key());
REQUIRE("tttt - " + std::to_string(i) == resp4.value().as_string());
}
// resign
auto resp5 = etcd.resign("test", lease_id, resp1.value().key(),
resp1.value().created_index())
.get();
REQUIRE(0 == resp5.error_code());
std::this_thread::sleep_for(std::chrono::seconds(1));
}
observer_thread.join();
}
TEST_CASE("cleanup") {
etcd::Client etcd(etcd_url);
etcd.rmdir("/test", true).get();
}

136
tst/EtcdMemberTest.cpp Normal file
View File

@ -0,0 +1,136 @@
#include <cmath>
#define CATCH_CONFIG_MAIN
#include <catch.hpp>
#include <sys/types.h>
#include <sys/wait.h>
#include <unistd.h>
#include <chrono>
#include <cstring>
#include <iostream>
#include <thread>
#include <vector>
#include "etcd/Client.hpp"
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
pid_t new_etcd_pid = 0;
pid_t start_etcd_server(const std::string& etcd_path,
const std::vector<std::string>& args) {
pid_t pid = fork();
if (pid == -1) {
std::cout << "Failed to fork process" << std::endl;
exit(EXIT_FAILURE);
} else if (pid == 0) {
std::vector<char*> c_args;
c_args.push_back(const_cast<char*>(etcd_path.c_str()));
for (const auto& arg : args) {
c_args.push_back(const_cast<char*>(arg.c_str()));
}
c_args.push_back(nullptr);
if (execvp(etcd_path.c_str(), c_args.data()) == -1) {
std::cout << "Failed to exec etcd process: " << std::strerror(errno)
<< std::endl;
exit(EXIT_FAILURE);
}
}
return pid;
}
TEST_CASE("add member") {
etcd::Client etcd(etcd_url);
etcd::Response res = etcd.list_member().get();
REQUIRE(res.is_ok());
CHECK(1 == res.members().size());
std::string member_name = res.members()[0].get_name();
std::string prev_peer_urls = res.members()[0].get_peerURLs()[0];
// Add a new member
std::string peer_urls = "http://127.0.0.1:33691";
std::string client_urls = "http://127.0.0.1:33690";
bool is_learner = false;
res = etcd.add_member(peer_urls, is_learner).get();
REQUIRE(res.is_ok());
// Create the directory for the new etcd server
std::string cmd = "mkdir -p /tmp/new_etcd_member";
system(cmd.c_str());
// Start a new etcd server
std::vector<std::string> args = {
"--name",
"new_etcd_member",
"--initial-advertise-peer-urls",
peer_urls,
"--listen-peer-urls",
peer_urls,
"--initial-cluster",
member_name + "=" + prev_peer_urls + ",new_etcd_member=" + peer_urls,
"--initial-cluster-state",
"existing",
"--listen-client-urls",
client_urls,
"--advertise-client-urls",
client_urls,
"--data-dir",
"/tmp/new_etcd_member",
};
new_etcd_pid = start_etcd_server("/usr/local/bin/etcd", args);
std::this_thread::sleep_for(std::chrono::seconds(30));
// Check the member's number
{
etcd::Response res = etcd.list_member().get();
REQUIRE(res.is_ok());
CHECK(2 == res.members().size());
}
}
TEST_CASE("member remove") {
etcd::Client etcd(etcd_url);
etcd::Response res = etcd.list_member().get();
REQUIRE(res.is_ok());
CHECK(2 == res.members().size());
uint64_t member_id = 0;
for (const auto& member : res.members()) {
if (member.get_name() == "new_etcd_member") {
member_id = member.get_id();
break;
}
}
REQUIRE(member_id != 0);
// Remove the new member
res = etcd.remove_member(member_id).get();
std::this_thread::sleep_for(std::chrono::seconds(30));
// Check whether the new etcd server is quited
{
int status;
pid_t wpid = waitpid(new_etcd_pid, &status, WNOHANG);
REQUIRE(wpid == new_etcd_pid);
REQUIRE(WIFEXITED(status));
REQUIRE(WEXITSTATUS(status) == 0);
}
// Remove the directory for the new etcd server
std::string cmd = "rm -rf /tmp/new_etcd_member";
system(cmd.c_str());
// Check the member's number
{
etcd::Response res = etcd.list_member().get();
REQUIRE(res.is_ok());
CHECK(1 == res.members().size());
}
}

30
tst/EtcdResolverTest.cpp Normal file
View File

@ -0,0 +1,30 @@
#define CATCH_CONFIG_MAIN
#include <catch.hpp>
#include <iostream>
#include "etcd/Client.hpp"
static const std::string etcd_v4_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static const std::string etcd_v6_url =
etcdv3::detail::resolve_etcd_endpoints("http://::1:2379");
// http://[ipv6]:port url
static const std::string etcd_ipv6_url =
etcdv3::detail::resolve_etcd_endpoints("http://[::1]:2379");
TEST_CASE("test ipv4 connection") {
std::cout << "ipv4 endpoints: " << etcd_v4_url << std::endl;
etcd::Client etcd(etcd_v4_url);
REQUIRE(etcd.head().get().is_ok());
}
TEST_CASE("test ipv6 connection") {
std::cout << "ipv6 endpoints: " << etcd_v6_url << std::endl;
etcd::Client etcd(etcd_v6_url);
REQUIRE(etcd.head().get().is_ok());
std::cout << "ipv6 endpoints: " << etcd_ipv6_url << std::endl;
etcd::Client etcd1(etcd_ipv6_url);
REQUIRE(etcd1.head().get().is_ok());
}

93
tst/EtcdSyncTest.cpp
View File

@ -5,38 +5,46 @@
#include "etcd/SyncClient.hpp"
static const std::string etcd_url = etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
TEST_CASE("sync operations")
{
TEST_CASE("sync operations") {
etcd::SyncClient etcd(etcd_url);
etcd.rmdir("/test", true);
etcd::Response res;
int64_t index;
// add
CHECK(0 == etcd.add("/test/key1", "42").error_code());
CHECK(etcd::ERROR_KEY_ALREADY_EXISTS == etcd.add("/test/key1", "42").error_code()); // Key already exists
CHECK(etcd::ERROR_KEY_ALREADY_EXISTS ==
etcd.add("/test/key1", "41").error_code()); // Key already exists
CHECK("42" == etcd.get("/test/key1").value().as_string());
// modify
CHECK(0 == etcd.modify("/test/key1", "43").error_code());
CHECK(etcd::ERROR_KEY_NOT_FOUND == etcd.modify("/test/key2", "43").error_code()); // Key not found
CHECK("43" == etcd.modify("/test/key1", "42").prev_value().as_string());
CHECK(etcd::ERROR_KEY_NOT_FOUND ==
etcd.modify("/test/key2", "43").error_code()); // Key not found
res = etcd.modify("/test/key1", "42");
CHECK(0 == res.error_code());
CHECK("43" == res.prev_value().as_string());
// set
CHECK(0 == etcd.set("/test/key1", "43").error_code()); // overwrite
CHECK(0 == etcd.set("/test/key2", "43").error_code()); // create new
CHECK(0 == etcd.set("/test/key1", "43").error_code()); // overwrite
CHECK(0 == etcd.set("/test/key2", "43").error_code()); // create new
CHECK("43" == etcd.set("/test/key2", "44").prev_value().as_string());
CHECK("" == etcd.set("/test/key3", "44").prev_value().as_string());
CHECK("" == etcd.set("/test/key3", "44").prev_value().as_string());
// get
CHECK("43" == etcd.get("/test/key1").value().as_string());
CHECK("44" == etcd.get("/test/key2").value().as_string());
CHECK("44" == etcd.get("/test/key3").value().as_string());
CHECK(etcd::ERROR_KEY_NOT_FOUND == etcd.get("/test/key4").error_code()); // key not found
CHECK(etcd::ERROR_KEY_NOT_FOUND ==
etcd.get("/test/key4").error_code()); // key not found
// rm
CHECK(3 == etcd.ls("/test").keys().size());
CHECK(0 == etcd.rm("/test/key1").error_code());
CHECK(0 == etcd.rm("/test/key1").error_code());
CHECK(2 == etcd.ls("/test").keys().size());
// ls
@ -51,71 +59,80 @@ TEST_CASE("sync operations")
CHECK(2 == etcd.keys("/test/new_dir").keys().size());
// rmdir
CHECK(etcd::ERROR_KEY_NOT_FOUND == etcd.rmdir("/test/new_dir").error_code()); // key not found
CHECK(etcd::ERROR_KEY_NOT_FOUND ==
etcd.rmdir("/test/new_dir").error_code()); // key not found
CHECK(0 == etcd.rmdir("/test/new_dir", true).error_code());
// compare and swap
etcd.set("/test/key1", "42");
int64_t index = etcd.modify_if("/test/key1", "43", "42").index();
CHECK(etcd::ERROR_COMPARE_FAILED == etcd.modify_if("/test/key1", "44", "42").error_code());
index = etcd.modify_if("/test/key1", "43", "42").index();
CHECK(etcd::ERROR_COMPARE_FAILED ==
etcd.modify_if("/test/key1", "44", "42").error_code());
REQUIRE(etcd.modify_if("/test/key1", "44", index).is_ok());
CHECK(etcd::ERROR_COMPARE_FAILED == etcd.modify_if("/test/key1", "45", index).error_code());
CHECK(etcd::ERROR_COMPARE_FAILED ==
etcd.modify_if("/test/key1", "45", index).error_code());
// atomic compare-and-delete based on prevValue
etcd.set("/test/key1", "42");
CHECK(etcd::ERROR_COMPARE_FAILED == etcd.rm_if("/test/key1", "43").error_code());
CHECK(0 == etcd.rm_if("/test/key1", "42").error_code());
CHECK(etcd::ERROR_COMPARE_FAILED ==
etcd.rm_if("/test/key1", "43").error_code());
res = etcd.rm_if("/test/key1", "42");
CHECK(
(0 == res.error_code() || etcd::ERROR_KEY_NOT_FOUND == res.error_code()));
// atomic compare-and-delete based on prevIndex
index = etcd.set("/test/key1", "42").index();
CHECK(etcd::ERROR_COMPARE_FAILED == etcd.rm_if("/test/key1", index - 1).error_code());
CHECK(0 == etcd.rm_if("/test/key1", index).error_code());
CHECK(etcd::ERROR_COMPARE_FAILED ==
etcd.rm_if("/test/key1", index - 1).error_code());
res = etcd.rm_if("/test/key1", index);
CHECK(
(0 == res.error_code() || etcd::ERROR_KEY_NOT_FOUND == res.error_code()));
//leasegrant
etcd::Response res = etcd.leasegrant(60);
// leasegrant
res = etcd.leasegrant(60);
REQUIRE(res.is_ok());
CHECK(60 == res.value().ttl());
CHECK(0 < res.value().lease());
CHECK(0 < res.value().lease());
int64_t leaseid = res.value().lease();
//add with lease
// add with lease
res = etcd.add("/test/key1111", "43", leaseid);
REQUIRE(0 == res.error_code()); // overwrite
REQUIRE(0 == res.error_code()); // overwrite
CHECK("create" == res.action());
CHECK(leaseid == res.value().lease());
CHECK(leaseid == res.value().lease());
//set with lease
// set with lease
res = etcd.set("/test/key1", "43", leaseid);
REQUIRE(0 == res.error_code());
CHECK("set" == res.action());
CHECK(leaseid == res.value().lease());
res = etcd.get("/test/key1");
CHECK(leaseid == res.value().lease());
//modify with lease
// modify with lease
res = etcd.modify("/test/key1", "44", leaseid);
REQUIRE(0 == res.error_code());
REQUIRE(0 == res.error_code());
CHECK("update" == res.action());
CHECK(leaseid == res.value().lease());
CHECK("44" == res.value().as_string());
CHECK(leaseid == res.value().lease());
CHECK("44" == res.value().as_string());
res = etcd.modify_if("/test/key1", "45", "44", leaseid);
index = res.index();
REQUIRE(res.is_ok());
CHECK("compareAndSwap" == res.action());
CHECK(leaseid == res.value().lease());
CHECK(leaseid == res.value().lease());
CHECK("45" == res.value().as_string());
res = etcd.modify_if("/test/key1", "44", index, leaseid);
index = res.index();
REQUIRE(res.is_ok());
CHECK("compareAndSwap" == res.action());
CHECK(leaseid == res.value().lease());
CHECK(leaseid == res.value().lease());
CHECK("44" == res.value().as_string());
REQUIRE(0 == etcd.rmdir("/test", true).error_code());
}
TEST_CASE("wait for a value change")
{
TEST_CASE("wait for a value change") {
etcd::SyncClient etcd(etcd_url);
etcd.set("/test/key1", "42");
@ -132,8 +149,7 @@ TEST_CASE("wait for a value change")
REQUIRE(0 == etcd.rmdir("/test", true).error_code());
}
TEST_CASE("wait for a directory change")
{
TEST_CASE("wait for a directory change") {
etcd::SyncClient etcd(etcd_url);
std::thread watch_thrd1([&]() {
@ -159,8 +175,7 @@ TEST_CASE("wait for a directory change")
REQUIRE(0 == etcd.rmdir("/test", true).error_code());
}
TEST_CASE("watch changes in the past")
{
TEST_CASE("watch changes in the past") {
etcd::SyncClient etcd(etcd_url);
int64_t index = etcd.set("/test/key1", "42").index();

249
tst/EtcdTest.cpp
View File

@ -7,22 +7,21 @@
#include "etcd/Client.hpp"
static const std::string etcd_url = etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
TEST_CASE("setup")
{
TEST_CASE("setup") {
etcd::Client etcd(etcd_url);
etcd.rmdir("/test", true).wait();
}
TEST_CASE("add a new key")
{
TEST_CASE("add a new key") {
etcd::Client etcd(etcd_url);
etcd.rmdir("/test", true).wait();
etcd::Response resp = etcd.add("/test/key1", "42").get();
REQUIRE(0 == resp.error_code());
CHECK("create" == resp.action());
etcd::Value const & val = resp.value();
etcd::Value const& val = resp.value();
CHECK("42" == val.as_string());
CHECK("/test/key1" == val.key());
CHECK(!val.is_dir());
@ -30,62 +29,78 @@ TEST_CASE("add a new key")
CHECK(0 < val.modified_index());
CHECK(1 == val.version());
CHECK(0 < resp.index());
CHECK(etcd::ERROR_KEY_ALREADY_EXISTS == etcd.add("/test/key1", "43").get().error_code()); // Key already exists
CHECK(etcd::ERROR_KEY_ALREADY_EXISTS == etcd.add("/test/key1", "42").get().error_code()); // Key already exists
CHECK("etcd-cpp-apiv3: key already exists" == etcd.add("/test/key1", "42").get().error_message());
CHECK(etcd::ERROR_KEY_ALREADY_EXISTS ==
etcd.add("/test/key1", "43").get().error_code()); // Key already exists
CHECK(etcd::ERROR_KEY_ALREADY_EXISTS ==
etcd.add("/test/key1", "42").get().error_code()); // Key already exists
CHECK("etcd-cpp-apiv3: key already exists" ==
etcd.add("/test/key1", "42").get().error_message());
}
TEST_CASE("read a value from etcd")
{
TEST_CASE("read a value from etcd") {
etcd::Client etcd(etcd_url);
etcd::Response resp = etcd.get("/test/key1").get();
CHECK("get" == resp.action());
REQUIRE(resp.is_ok());
REQUIRE(0 == resp.error_code());
CHECK("42" == resp.value().as_string());
CHECK("" == etcd.get("/test").get().value().as_string()); // key points to a directory
CHECK("" == etcd.get("/test").get().value().as_string()); // key points to a
// directory
}
TEST_CASE("simplified read")
{
TEST_CASE("simplified read") {
etcd::Client etcd(etcd_url);
CHECK("42" == etcd.get("/test/key1").get().value().as_string());
CHECK(etcd::ERROR_KEY_NOT_FOUND == etcd.get("/test/key2").get().error_code()); // Key not found
CHECK("" == etcd.get("/test/key2").get().value().as_string()); // Key not found
CHECK(etcd::ERROR_KEY_NOT_FOUND ==
etcd.get("/test/key2").get().error_code()); // Key not found
CHECK("" ==
etcd.get("/test/key2").get().value().as_string()); // Key not found
}
TEST_CASE("modify a key")
{
TEST_CASE("modify a key") {
etcd::Client etcd(etcd_url);
etcd::Response resp = etcd.modify("/test/key1", "43").get();
REQUIRE(0 == resp.error_code()); // overwrite
// get
etcd::Response resp = etcd.get("/test/key1").get();
REQUIRE(resp.is_ok());
int64_t revision = resp.value().modified_index();
CHECK("42" == resp.value().as_string());
// modify
resp = etcd.modify("/test/key1", "43").get();
REQUIRE(0 == resp.error_code()); // overwrite
CHECK("update" == resp.action());
CHECK(etcd::ERROR_KEY_NOT_FOUND == etcd.modify("/test/key2", "43").get().error_code()); // Key not found
CHECK(etcd::ERROR_KEY_NOT_FOUND ==
etcd.modify("/test/key2", "43").get().error_code()); // Key not found
CHECK("43" == etcd.modify("/test/key1", "42").get().prev_value().as_string());
// check previous
resp = etcd.get("/test/key1", revision).get();
REQUIRE(resp.is_ok());
CHECK("42" == resp.value().as_string());
}
TEST_CASE("set a key")
{
TEST_CASE("set a key") {
etcd::Client etcd(etcd_url);
etcd::Response resp = etcd.set("/test/key1", "43").get();
REQUIRE(0 == resp.error_code()); // overwrite
REQUIRE(0 == resp.error_code()); // overwrite
CHECK("set" == resp.action());
CHECK(0 == etcd.set("/test/key2", "43").get().error_code()); // create new
CHECK(0 == etcd.set("/test/key2", "43").get().error_code()); // create new
CHECK("43" == etcd.set("/test/key2", "44").get().prev_value().as_string());
CHECK("" == etcd.set("/test/key3", "44").get().prev_value().as_string());
CHECK(0 == etcd.set("/test", "42").get().error_code()); // Not a file
CHECK(0 == etcd.set("/test", "42").get().error_code()); // Not a file
//set with ttl
resp = etcd.set("/test/key1", "50", 10).get();
REQUIRE(0 == resp.error_code()); // overwrite
// set with ttl
resp = etcd.set("/test/key1", "50").get();
REQUIRE(0 == resp.error_code()); // overwrite
CHECK("set" == resp.action());
CHECK("43" == resp.prev_value().as_string());
resp = etcd.get("/test/key1").get();
CHECK("50" == resp.value().as_string());
CHECK( 0 < resp.value().lease());
CHECK(0 == resp.value().lease());
}
TEST_CASE("atomic compare-and-swap")
{
TEST_CASE("atomic compare-and-swap") {
etcd::Client etcd(etcd_url);
etcd.set("/test/key1", "42").wait();
@ -101,15 +116,14 @@ TEST_CASE("atomic compare-and-swap")
CHECK(etcd::ERROR_COMPARE_FAILED == res.error_code());
CHECK("etcd-cpp-apiv3: compare failed" == res.error_message());
// modify fails the second time
// modify fails on non-existing keys
res = etcd.modify_if("/test/key222", "44", "42").get();
CHECK(!res.is_ok());
CHECK(etcd::ERROR_KEY_NOT_FOUND == res.error_code());
CHECK("etcd-cpp-apiv3: key not found" == res.error_message());
CHECK(etcd::ERROR_COMPARE_FAILED == res.error_code());
CHECK("etcd-cpp-apiv3: compare failed" == res.error_message());
}
TEST_CASE("delete a value")
{
TEST_CASE("delete a value") {
etcd::Client etcd(etcd_url);
etcd::Response resp = etcd.rm("/test/key11111").get();
CHECK(!resp.is_ok());
@ -126,20 +140,19 @@ TEST_CASE("delete a value")
resp = etcd.rm("/test/key1").get();
CHECK("43" == resp.prev_value().as_string());
CHECK( "/test/key1" == resp.prev_value().key());
CHECK( create_index == resp.prev_value().created_index());
CHECK( modify_index == resp.prev_value().modified_index());
CHECK( version == resp.prev_value().version());
CHECK("/test/key1" == resp.prev_value().key());
CHECK(create_index == resp.prev_value().created_index());
CHECK(modify_index == resp.prev_value().modified_index());
CHECK(version == resp.prev_value().version());
CHECK("delete" == resp.action());
CHECK( modify_index == resp.value().modified_index());
CHECK( create_index == resp.value().created_index());
CHECK( version == resp.value().version());
CHECK("" == resp.value().as_string());
CHECK( "/test/key1" == resp.value().key());
CHECK(create_index == resp.value().created_index());
CHECK(modify_index == resp.value().modified_index());
CHECK(version == resp.value().version());
CHECK("43" == resp.value().as_string());
CHECK("/test/key1" == resp.value().key());
}
TEST_CASE("atomic compare-and-delete based on prevValue")
{
TEST_CASE("atomic compare-and-delete based on prevValue") {
etcd::Client etcd(etcd_url);
etcd.set("/test/key1", "42").wait();
@ -154,8 +167,7 @@ TEST_CASE("atomic compare-and-delete based on prevValue")
CHECK("42" == res.prev_value().as_string());
}
TEST_CASE("atomic compare-and-delete based on prevIndex")
{
TEST_CASE("atomic compare-and-delete based on prevIndex") {
etcd::Client etcd(etcd_url);
int64_t index = etcd.set("/test/key1", "42").get().index();
@ -170,8 +182,7 @@ TEST_CASE("atomic compare-and-delete based on prevIndex")
CHECK("42" == res.prev_value().as_string());
}
TEST_CASE("deep atomic compare-and-swap")
{
TEST_CASE("deep atomic compare-and-swap") {
etcd::Client etcd(etcd_url);
etcd.set("/test/key1", "42").wait();
@ -201,8 +212,7 @@ TEST_CASE("deep atomic compare-and-swap")
CHECK("etcd-cpp-apiv3: compare failed" == res.error_message());
}
TEST_CASE("using binary keys and values, raw char pointer doesn't work")
{
TEST_CASE("using binary keys and values, raw char pointer doesn't work") {
etcd::Client etcd(etcd_url);
etcd.rmdir("/test", true).wait();
{
@ -231,12 +241,13 @@ TEST_CASE("using binary keys and values, raw char pointer doesn't work")
}
}
TEST_CASE("using binary keys and values, std::string is ok for \\0")
{
TEST_CASE("using binary keys and values, std::string is ok for \\0") {
etcd::Client etcd(etcd_url);
etcd.rmdir("/test", true).wait();
{
etcd::Response resp = etcd.put(std::string("/test/key1\0xyz", 14), std::string("42\0foo", 6)).get();
etcd::Response resp =
etcd.put(std::string("/test/key1\0xyz", 14), std::string("42\0foo", 6))
.get();
REQUIRE(resp.is_ok());
}
{
@ -254,8 +265,7 @@ TEST_CASE("using binary keys and values, std::string is ok for \\0")
}
}
TEST_CASE("list a directory")
{
TEST_CASE("list a directory") {
etcd::Client etcd(etcd_url);
CHECK(0 == etcd.ls("/test/new_dir").get().keys().size());
@ -291,8 +301,7 @@ TEST_CASE("list a directory")
CHECK(etcd.rmdir("/test/new_dir", true).get().is_ok());
}
TEST_CASE("list by range")
{
TEST_CASE("list by range") {
etcd::Client etcd(etcd_url);
CHECK(0 == etcd.ls("/test/new_dir").get().keys().size());
@ -302,13 +311,15 @@ TEST_CASE("list by range")
etcd.set("/test/new_dir/key3", "value3").wait();
etcd.set("/test/new_dir/key4", "value4").wait();
etcd::Response resp1 = etcd.ls("/test/new_dir/key1", "/test/new_dir/key3").get();
etcd::Response resp1 =
etcd.ls("/test/new_dir/key1", "/test/new_dir/key3").get();
REQUIRE(resp1.is_ok());
CHECK("get" == resp1.action());
REQUIRE(2 == resp1.keys().size());
REQUIRE(2 == resp1.values().size());
etcd::Response resp2 = etcd.ls("/test/new_dir/key1", "/test/new_dir/key4").get();
etcd::Response resp2 =
etcd.ls("/test/new_dir/key1", "/test/new_dir/key4").get();
REQUIRE(resp2.is_ok());
CHECK("get" == resp2.action());
REQUIRE(3 == resp2.keys().size());
@ -320,7 +331,10 @@ TEST_CASE("list by range")
REQUIRE(4 == resp3.keys().size());
REQUIRE(4 == resp3.values().size());
etcd::Response resp4 = etcd.ls("/test/new_dir/key1", etcdv3::detail::string_plus_one("/test/new_dir/key")).get();
etcd::Response resp4 =
etcd.ls("/test/new_dir/key1",
etcdv3::detail::string_plus_one("/test/new_dir/key"))
.get();
REQUIRE(resp4.is_ok());
CHECK("get" == resp4.action());
REQUIRE(4 == resp4.keys().size());
@ -331,8 +345,7 @@ TEST_CASE("list by range")
CHECK(etcd.rmdir("/test/new_dir", true).get().is_ok());
}
TEST_CASE("list by range, w/o values")
{
TEST_CASE("list by range, w/o values") {
etcd::Client etcd(etcd_url);
CHECK(0 == etcd.ls("/test/new_dir").get().keys().size());
@ -342,14 +355,16 @@ TEST_CASE("list by range, w/o values")
etcd.set("/test/new_dir/key3", "value3").wait();
etcd.set("/test/new_dir/key4", "value4").wait();
etcd::Response resp1 = etcd.ls("/test/new_dir/key1", "/test/new_dir/key2").get();
etcd::Response resp1 =
etcd.ls("/test/new_dir/key1", "/test/new_dir/key2").get();
REQUIRE(resp1.is_ok());
CHECK("get" == resp1.action());
REQUIRE(1 == resp1.keys().size());
REQUIRE(1 == resp1.values().size());
REQUIRE(resp1.values()[0].as_string() == "value1");
etcd::Response resp2 = etcd.keys("/test/new_dir/key1", "/test/new_dir/key2").get();
etcd::Response resp2 =
etcd.keys("/test/new_dir/key1", "/test/new_dir/key2").get();
REQUIRE(resp1.is_ok());
CHECK("get" == resp2.action());
REQUIRE(1 == resp2.keys().size());
@ -359,15 +374,15 @@ TEST_CASE("list by range, w/o values")
CHECK(etcd.rmdir("/test/new_dir", true).get().is_ok());
}
TEST_CASE("delete a directory")
{
TEST_CASE("delete a directory") {
etcd::Client etcd(etcd_url);
etcd.set("/test/new_dir/key1", "value1").wait();
etcd.set("/test/new_dir/key2", "value2").wait();
etcd.set("/test/new_dir/key3", "value3").wait();
CHECK(etcd::ERROR_KEY_NOT_FOUND == etcd.rmdir("/test/new_dir").get().error_code()); // key not found
CHECK(etcd::ERROR_KEY_NOT_FOUND ==
etcd.rmdir("/test/new_dir").get().error_code()); // key not found
etcd::Response resp = etcd.ls("/test/new_dir").get();
resp = etcd.rmdir("/test/new_dir", true).get();
@ -378,7 +393,6 @@ TEST_CASE("delete a directory")
CHECK("value1" == resp.value(0).as_string());
CHECK("value2" == resp.value(1).as_string());
resp = etcd.rmdir("/test/dirnotfound", true).get();
CHECK(!resp.is_ok());
CHECK(etcd::ERROR_KEY_NOT_FOUND == resp.error_code());
@ -390,8 +404,7 @@ TEST_CASE("delete a directory")
CHECK("etcd-cpp-apiv3: key not found" == resp.error_message());
}
TEST_CASE("delete all keys with rmdir(\"\", true)")
{
TEST_CASE("delete all keys with rmdir(\"\", true)") {
etcd::Client etcd(etcd_url);
etcd.rmdir("", true).wait();
@ -404,11 +417,11 @@ TEST_CASE("delete all keys with rmdir(\"\", true)")
CHECK(resp.values().size() == 3);
}
TEST_CASE("delete by range")
{
TEST_CASE("delete by range") {
etcd::Client etcd(etcd_url);
CHECK(etcd::ERROR_KEY_NOT_FOUND == etcd.rmdir("/test/new_dir").get().error_code()); // key not found
CHECK(etcd::ERROR_KEY_NOT_FOUND ==
etcd.rmdir("/test/new_dir").get().error_code()); // key not found
etcd::Response resp = etcd.ls("/test/new_dir").get();
etcd.set("/test/new_dir/key1", "value1").wait();
@ -425,8 +438,7 @@ TEST_CASE("delete by range")
CHECK("value2" == resp.value(1).as_string());
}
TEST_CASE("wait for a value change")
{
TEST_CASE("wait for a value change") {
etcd::Client etcd(etcd_url);
etcd.set("/test/key1", "42").wait();
@ -434,7 +446,7 @@ TEST_CASE("wait for a value change")
CHECK(!res.is_done());
std::this_thread::sleep_for(std::chrono::seconds(1));
CHECK(!res.is_done());
etcd.set("/test/key1", "43").get();
std::this_thread::sleep_for(std::chrono::seconds(1));
REQUIRE(res.is_done());
@ -443,8 +455,7 @@ TEST_CASE("wait for a value change")
CHECK("42" == res.get().prev_value().as_string());
}
TEST_CASE("wait for a directory change")
{
TEST_CASE("wait for a directory change") {
etcd::Client etcd(etcd_url);
pplx::task<etcd::Response> res = etcd.watch("/test", true);
@ -470,8 +481,7 @@ TEST_CASE("wait for a directory change")
CHECK("45" == res2.get().value().as_string());
}
TEST_CASE("watch changes in the past")
{
TEST_CASE("watch changes in the past") {
etcd::Client etcd(etcd_url);
REQUIRE(0 == etcd.rmdir("/test", true).get().error_code());
int64_t index = etcd.set("/test/key1", "42").get().index();
@ -497,8 +507,7 @@ TEST_CASE("watch changes in the past")
CHECK("45" == res.value().as_string());
}
TEST_CASE("watch range changes in the past")
{
TEST_CASE("watch range changes in the past") {
etcd::Client etcd(etcd_url);
REQUIRE(0 == etcd.rmdir("/test", true).get().error_code());
int64_t index = etcd.set("/test/key1", "42").get().index();
@ -529,53 +538,57 @@ TEST_CASE("watch multiple keys and use promise") {
int64_t start_index = etcd.set("/test/key1", "value1").get().index();
etcd.set("/test/key2", "value2").get();
pplx::task<size_t> res = etcd.watch("/test", start_index, true)
.then([](pplx::task<etcd::Response> const &resp_task) -> size_t {
auto const &resp = resp_task.get();
return resp.events().size();
});
pplx::task<size_t> res =
etcd.watch("/test", start_index, true)
.then([](pplx::task<etcd::Response> const& resp_task) -> size_t {
auto const& resp = resp_task.get();
return resp.events().size();
});
size_t event_size = res.get();
CHECK(2 == event_size);
}
TEST_CASE("lease grant")
{
TEST_CASE("lease grant") {
etcd::Client etcd(etcd_url);
etcd::Response res = etcd.leasegrant(60).get();
REQUIRE(res.is_ok());
CHECK(60 == res.value().ttl());
CHECK(0 < res.value().lease());
CHECK(0 < res.value().lease());
int64_t leaseid = res.value().lease();
res = etcd.set("/test/key1", "43", leaseid).get();
REQUIRE(0 == res.error_code()); // overwrite
REQUIRE(0 == res.error_code()); // overwrite
CHECK("set" == res.action());
CHECK(leaseid == res.value().lease());
res = etcd.get("/test/key1").get();
REQUIRE(0 == res.error_code()); // overwrite
CHECK(leaseid == res.value().lease());
// change with lease id
res = etcd.leasegrant(10).get();
leaseid = res.value().lease();
res = etcd.set("/test/key1", "43", leaseid).get();
REQUIRE(0 == res.error_code()); // overwrite
REQUIRE(0 == res.error_code()); // overwrite
CHECK("set" == res.action());
res = etcd.get("/test/key1").get();
REQUIRE(0 == res.error_code()); // overwrite
CHECK(leaseid == res.value().lease());
// failure to attach lease id
res = etcd.set("/test/key1", "43", leaseid+1).get();
res = etcd.set("/test/key1", "43", leaseid + 1).get();
REQUIRE(!res.is_ok());
REQUIRE(5 == res.error_code());
REQUIRE(5 == res.error_code());
CHECK("etcdserver: requested lease not found" == res.error_message());
res = etcd.modify("/test/key1", "44", leaseid).get();
REQUIRE(0 == res.error_code()); // overwrite
REQUIRE(0 == res.error_code()); // overwrite
CHECK("update" == res.action());
CHECK(leaseid == res.value().lease());
CHECK("44" == res.value().as_string());
CHECK(leaseid == res.value().lease());
CHECK("44" == res.value().as_string());
// failure to attach invalid lease id
res = etcd.modify("/test/key1", "45", leaseid+1).get();
res = etcd.modify("/test/key1", "45", leaseid + 1).get();
REQUIRE(!res.is_ok());
REQUIRE(5 == res.error_code());
REQUIRE(5 == res.error_code());
CHECK("etcdserver: requested lease not found" == res.error_message());
res = etcd.modify_if("/test/key1", "45", "44", leaseid).get();
@ -585,9 +598,9 @@ TEST_CASE("lease grant")
CHECK("45" == res.value().as_string());
// failure to attach invalid lease id
res = etcd.modify_if("/test/key1", "46", "45", leaseid+1).get();
res = etcd.modify_if("/test/key1", "46", "45", leaseid + 1).get();
REQUIRE(!res.is_ok());
REQUIRE(5 == res.error_code());
REQUIRE(5 == res.error_code());
CHECK("etcdserver: requested lease not found" == res.error_message());
// succes with the correct index & lease id
@ -597,36 +610,35 @@ TEST_CASE("lease grant")
CHECK("compareAndSwap" == res.action());
CHECK("44" == res.value().as_string());
res = etcd.modify_if("/test/key1", "44", index, leaseid+1).get();
res = etcd.modify_if("/test/key1", "44", index, leaseid + 1).get();
REQUIRE(!res.is_ok());
REQUIRE(5 == res.error_code());
REQUIRE(5 == res.error_code());
CHECK("etcdserver: requested lease not found" == res.error_message());
res = etcd.add("/test/key11111", "43", leaseid).get();
REQUIRE(0 == res.error_code());
REQUIRE(0 == res.error_code());
CHECK("create" == res.action());
CHECK(leaseid == res.value().lease());
CHECK(leaseid == res.value().lease());
//failure to attach invalid lease id
res = etcd.set("/test/key11111", "43", leaseid+1).get();
// failure to attach invalid lease id
res = etcd.set("/test/key11111", "43", leaseid + 1).get();
REQUIRE(!res.is_ok());
REQUIRE(5 == res.error_code());
REQUIRE(5 == res.error_code());
CHECK("etcdserver: requested lease not found" == res.error_message());
}
TEST_CASE("lease list")
{
TEST_CASE("lease list") {
etcd::Client etcd(etcd_url);
etcd::Response res = etcd.leasegrant(60).get();
REQUIRE(res.is_ok());
CHECK(60 == res.value().ttl());
CHECK(0 < res.value().lease());
CHECK(0 < res.value().lease());
int64_t leaseid = res.value().lease();
etcd::Response leasesresp = etcd.leases().get();
if (leasesresp.is_ok()) {
REQUIRE(leasesresp.is_ok());
auto const &leases = leasesresp.leases();
auto const& leases = leasesresp.leases();
REQUIRE(leases.size() > 0);
CHECK(std::find(leases.begin(), leases.end(), leaseid) != leases.end());
} else {
@ -634,8 +646,7 @@ TEST_CASE("lease list")
}
}
TEST_CASE("cleanup")
{
TEST_CASE("cleanup") {
etcd::Client etcd(etcd_url);
REQUIRE(0 == etcd.rmdir("/test", true).get().error_code());
}

24
tst/ForkTest.cpp
View File

@ -12,10 +12,10 @@
#include "etcd/Client.hpp"
#include "etcd/KeepAlive.hpp"
static const std::string etcd_url = etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
TEST_CASE("fork: set in child and get from self")
{
TEST_CASE("fork: set in child and get from self") {
pid_t pid = fork();
REQUIRE(pid >= 0);
@ -29,15 +29,15 @@ TEST_CASE("fork: set in child and get from self")
etcd::Client etcd(etcd_url);
size_t check = 0;
while (check < 10) {
auto resp = etcd.get("/test/fork-key1").get();
if (!resp.is_ok()) {
check += 1;
std::this_thread::sleep_for(std::chrono::seconds(1));
continue;
} else {
CHECK(resp.value().as_string() == "fork: abcdefgh");
break;
}
auto resp = etcd.get("/test/fork-key1").get();
if (!resp.is_ok()) {
check += 1;
std::this_thread::sleep_for(std::chrono::seconds(1));
continue;
} else {
CHECK(resp.value().as_string() == "fork: abcdefgh");
break;
}
}
std::cout << "self: get finished ..." << std::endl;
}

50
tst/KeepAliveTest.cpp
View File

@ -10,8 +10,8 @@
#include "etcd/SyncClient.hpp"
#include "etcd/Value.hpp"
static std::string etcd_uri = etcdv3::detail::resolve_etcd_endpoints(
"http://127.0.0.1:2379,http://127.0.0.1:2479,http://127.0.0.1:2579");
static std::string etcd_uri =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
TEST_CASE("keepalive revoke and check if alive") {
etcd::Client etcd(etcd_uri);
@ -31,5 +31,51 @@ TEST_CASE("keepalive revoke and check if alive") {
std::this_thread::sleep_for(std::chrono::seconds(1));
// expect keep_alive->Check() to throw exception
#ifndef _ETCD_NO_EXCEPTIONS
REQUIRE_THROWS(keepalive->Check());
#endif
}
TEST_CASE("keepalive won't expire") {
etcd::Client etcd(etcd_uri);
const int64_t ttl = 3;
const std::string key = "key";
const std::string meta_str = "meta ....";
etcd::Response resp = etcd.leasegrant(ttl).get();
auto lease_id = resp.value().lease();
etcd.add(key, meta_str, lease_id);
#ifndef _ETCD_NO_EXCEPTIONS
std::function<void(std::exception_ptr)> handler =
[](std::exception_ptr eptr) {
try {
if (eptr) {
std::rethrow_exception(eptr);
}
} catch (const std::runtime_error& e) {
std::cerr << "Connection failure \"" << e.what() << "\"\n";
} catch (const std::out_of_range& e) {
std::cerr << "Lease expiry \"" << e.what() << "\"\n";
}
};
#else
std::function<void(std::exception_ptr)> handler;
#endif
etcd::KeepAlive keepalive(etcd, handler, ttl, lease_id);
std::this_thread::sleep_for(std::chrono::seconds(5));
}
TEST_CASE("keepalive auto-grant") {
etcd::Client etcd(etcd_uri);
// create a lease without pre-granted lease id
auto keepalive = std::make_shared<etcd::KeepAlive>(etcd, 10 /* ttl */);
auto lease_id = keepalive->Lease();
REQUIRE(lease_id != 0);
// sleep for a while, and cancel
std::this_thread::sleep_for(std::chrono::seconds(5));
keepalive->Cancel();
}

99
tst/LockTest.cpp
View File

@ -10,10 +10,10 @@
#include "etcd/Client.hpp"
#include "etcd/KeepAlive.hpp"
static const std::string etcd_url = etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
TEST_CASE("lock and unlock")
{
TEST_CASE("lock and unlock") {
etcd::Client etcd(etcd_url);
// lock
@ -29,8 +29,7 @@ TEST_CASE("lock and unlock")
REQUIRE(0 == resp2.error_code());
}
TEST_CASE("double lock will fail")
{
TEST_CASE("double lock will fail") {
etcd::Client etcd(etcd_url);
// lock
@ -42,7 +41,7 @@ TEST_CASE("double lock will fail")
bool first_lock_release = false;
std::string lock_key = resp1.lock_key();
auto second_lock_thr = std::thread([&](){
auto second_lock_thr = std::thread([&]() {
// lock again
etcd::Response resp2 = etcd.lock("/test/abcd").get();
CHECK("lock" == resp2.action());
@ -62,7 +61,8 @@ TEST_CASE("double lock will fail")
REQUIRE(0 == resp3.error_code());
// create a duration
// using a duration longer than default lease TTL for lock (see: DEFAULT_LEASE_TTL_FOR_LOCK)
// using a duration longer than default lease TTL for lock (see:
// DEFAULT_LEASE_TTL_FOR_LOCK)
std::this_thread::sleep_for(std::chrono::seconds(15));
// unlock the first lock
@ -84,8 +84,7 @@ TEST_CASE("double lock will fail")
REQUIRE(0 == resp5.error_code());
}
TEST_CASE("lock could be timeout")
{
TEST_CASE("lock could be timeout") {
etcd::Client etcd(etcd_url);
// setup the timeout
@ -97,7 +96,7 @@ TEST_CASE("lock could be timeout")
REQUIRE(resp1.is_ok());
REQUIRE(0 == resp1.error_code());
auto lock_in_another_thread = std::thread([&](){
auto lock_in_another_thread = std::thread([&]() {
// lock again
etcd::Response resp2 = etcd.lock("/test/abcd").get();
CHECK("lock" == resp2.action());
@ -113,22 +112,26 @@ TEST_CASE("lock could be timeout")
REQUIRE(0 == resp5.error_code());
}
TEST_CASE("lock using lease")
{
TEST_CASE("lock using lease") {
etcd::Client etcd(etcd_url);
bool failed = false;
std::function<void (std::exception_ptr)> handler = [&failed](std::exception_ptr eptr) {
try {
if (eptr) {
#ifndef _ETCD_NO_EXCEPTIONS
std::function<void(std::exception_ptr)> handler =
[&failed](std::exception_ptr eptr) {
try {
if (eptr) {
std::rethrow_exception(eptr);
}
} catch (const std::exception& e) {
std::cerr << "Caught exception \"" << e.what() << "\"\n";
failed = true;
}
} catch(const std::exception& e) {
std::cerr << "Caught exception \"" << e.what() << "\"\n";
failed = true;
}
};
};
#else
std::function<void(std::exception_ptr)> handler;
#endif
// with handler
{
@ -197,24 +200,31 @@ TEST_CASE("lock using lease")
}
}
TEST_CASE("concurrent lock & unlock")
{
TEST_CASE("concurrent lock & unlock") {
etcd::Client etcd(etcd_url);
std::string const lock_key = "/test/test_key";
constexpr size_t trials = 192;
std::function<void(std::string const &, const size_t)> locker = [&etcd](std::string const &key, const size_t index) {
auto resp = etcd.lock(key).get();
std::cout << "lock for " << index << " is ok, starts sleeping: ..." << resp.error_message() << std::endl << std::flush;
REQUIRE(resp.is_ok());
std::srand(index);
size_t time_to_sleep = 1;
std::this_thread::sleep_for(std::chrono::seconds(time_to_sleep));
std::cout << "lock for " << index << " resumes from sleep: ..." << resp.error_message() << std::endl << std::flush;
REQUIRE(etcd.unlock(resp.lock_key()).get().is_ok());
std::cout << "thread " << index << " been unlocked" << std::endl << std::flush;
};
std::function<void(std::string const&, const size_t)> locker =
[&etcd](std::string const& key, const size_t index) {
std::cout << "start lock for " << key << ", index is " << index
<< std::endl;
auto resp = etcd.lock(key).get();
std::cout << "lock for " << index << " is ok, starts sleeping: ..."
<< resp.error_message() << std::endl
<< std::flush;
REQUIRE(resp.is_ok());
std::srand(index);
size_t time_to_sleep = 1;
std::this_thread::sleep_for(std::chrono::seconds(time_to_sleep));
std::cout << "lock for " << index << " resumes from sleep: ..."
<< resp.error_message() << std::endl
<< std::flush;
REQUIRE(etcd.unlock(resp.lock_key()).get().is_ok());
std::cout << "thread " << index << " been unlocked" << std::endl
<< std::flush;
};
std::vector<std::thread> locks(trials);
for (size_t index = 0; index < trials; ++index) {
@ -232,16 +242,19 @@ TEST_CASE("concurrent lock & unlock with a put in between") {
constexpr size_t trials = 128;
std::function<void(std::string const &, const size_t)> locker = [&etcd](std::string const &key, const size_t index) {
std::cout << "start lock for " << index << std::endl;
auto resp = etcd.lock(key, true).get();
std::cout << "lock for " << index << " is ok, start put and unlock: ..." << resp.error_message() << std::endl;
REQUIRE(resp.is_ok());
auto put_resp = etcd.put("/test/test_put", "hello" + std::to_string(index)).get();
REQUIRE(put_resp.is_ok());
REQUIRE(etcd.unlock(resp.lock_key()).get().is_ok());
std::cout << "thread " << index << " been unlocked" << std::endl;
};
std::function<void(std::string const&, const size_t)> locker =
[&etcd](std::string const& key, const size_t index) {
std::cout << "start lock for " << index << std::endl;
auto resp = etcd.lock(key, true).get();
std::cout << "lock for " << index << " is ok, start put and unlock: ..."
<< resp.error_message() << std::endl;
REQUIRE(resp.is_ok());
auto put_resp =
etcd.put("/test/test_put", "hello" + std::to_string(index)).get();
REQUIRE(put_resp.is_ok());
REQUIRE(etcd.unlock(resp.lock_key()).get().is_ok());
std::cout << "thread " << index << " been unlocked" << std::endl;
};
std::vector<std::thread> locks(trials);
for (size_t index = 0; index < trials; ++index) {

78
tst/MemLeakTest.cpp
View File

@ -6,55 +6,49 @@
#include "etcd/Client.hpp"
#include "etcd/KeepAlive.hpp"
static const std::string etcd_url = etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
class DistributedLock {
public:
DistributedLock(const std::string &lock_name,
uint timeout = 0);
~DistributedLock() noexcept;
inline bool lock_acquired() {
return _acquired;
}
public:
DistributedLock(const std::string& lock_name, uint timeout = 0);
~DistributedLock() noexcept;
inline bool lock_acquired() { return _acquired; }
private:
bool _acquired = false;
std::string _lock_key;
std::unique_ptr<::etcd::Client> _etcd_client;
private:
bool _acquired = false;
std::string _lock_key;
std::unique_ptr<::etcd::Client> _etcd_client;
};
DistributedLock::DistributedLock(const std::string &lock_name,
uint timeout) {
DistributedLock::DistributedLock(const std::string& lock_name, uint timeout) {
_etcd_client = std::unique_ptr<etcd::Client>(new etcd::Client(etcd_url));
try {
if (timeout == 0) {
if (timeout == 0) {
etcd::Response resp = _etcd_client->lock(lock_name).get();
if (resp.is_ok()) {
_lock_key = resp.lock_key();
_acquired = true;
}
} else {
std::future<etcd::Response> future = std::async(std::launch::async, [&]() {
etcd::Response resp = _etcd_client->lock(lock_name).get();
return resp;
});
std::future_status status = future.wait_for(std::chrono::seconds(timeout));
if (status == std::future_status::ready) {
auto resp = future.get();
if (resp.is_ok()) {
_lock_key = resp.lock_key();
_acquired = true;
}
} else if (status == std::future_status::timeout) {
std::cerr << "failed to acquire distributed because of lock timeout"
<< std::endl;
} else {
std::future<etcd::Response> future = std::async(std::launch::async, [&]() {
etcd::Response resp = _etcd_client->lock(lock_name).get();
return resp;
});
std::future_status status = future.wait_for(std::chrono::seconds(timeout));
if (status == std::future_status::ready) {
auto resp = future.get();
if (resp.is_ok()) {
_lock_key = resp.lock_key();
_acquired = true;
}
} else if (status == std::future_status::timeout) {
std::cerr << "failed to acquire distributed because of lock timeout" << std::endl;
} else {
std::cerr << "failed to acquire distributed lock" << std::endl;
}
std::cerr << "failed to acquire distributed lock" << std::endl;
}
} catch (std::exception &e) {
std::cerr << "failed to construct: " << e.what() << std::endl;
}
}
@ -63,22 +57,18 @@ DistributedLock::~DistributedLock() noexcept {
return;
}
try {
auto resp = _etcd_client->unlock(_lock_key).get();
if (!resp.is_ok()) {
std::cout << resp.error_code() << std::endl;
}
} catch (std::exception &e) {
std::cerr << "failed to destruct: " << e.what() << std::endl;
auto resp = _etcd_client->unlock(_lock_key).get();
if (!resp.is_ok()) {
std::cout << resp.error_code() << std::endl;
}
}
int main() {
int i = 0, t = 0;
while(t < 100 /* update this value to make it run for longer */) {
while (t < 100 /* update this value to make it run for longer */) {
{
DistributedLock lock(std::to_string(i), 0);
if(!lock.lock_acquired()) {
if (!lock.lock_acquired()) {
std::cerr << "failed to acquire lock" << std::endl;
}
std::this_thread::sleep_for(std::chrono::milliseconds(1));

20
tst/MemLeakWatcherTest.cpp
View File

@ -8,14 +8,12 @@
#include "etcd/KeepAlive.hpp"
#include "etcd/Watcher.hpp"
static const std::string etcd_url = etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static std::atomic_int watcher_called;
void print_response(etcd::Response const & resp)
{
watcher_called.fetch_add(1);
}
void print_response(etcd::Response const& resp) { watcher_called.fetch_add(1); }
/**
* @brief emulate the behavior of creating watcher many times:
@ -24,7 +22,8 @@ void print_response(etcd::Response const & resp)
* 2. change a value
* 3. cancel the watcher
*/
void watch_once(etcd::Client & client, std::unique_ptr<etcd::Watcher> &watcher, const size_t round) {
void watch_once(etcd::Client& client, std::unique_ptr<etcd::Watcher>& watcher,
const size_t round) {
const std::string my_prefix = "/test";
const std::string my_key = my_prefix + "/foo";
watcher.reset(new etcd::Watcher(client, my_prefix, print_response, true));
@ -42,19 +41,20 @@ void watch_once(etcd::Client & client, std::unique_ptr<etcd::Watcher> &watcher,
watcher->Cancel();
}
TEST_CASE("watch shouldn't leak memory")
{
TEST_CASE("watch shouldn't leak memory") {
watcher_called.store(0);
// issue some changes to see if the watcher works
etcd::Client client(etcd_url);
std::unique_ptr<etcd::Watcher> watcher;
for (int round = 0; round < 10 /* update this value to make it run for longer */; ++round) {
for (int round = 0;
round < 10 /* update this value to make it run for longer */; ++round) {
if (round % 50 == 0) {
std::cout << "starting round " << round << std::endl;
}
watch_once(client, watcher, round);
}
std::cout << "watcher been called for " << watcher_called.load() << " times" << std::endl;
std::cout << "watcher been called for " << watcher_called.load() << " times"
<< std::endl;
}

74
tst/RewatchTest.cpp
View File

@ -8,27 +8,28 @@
#include "etcd/SyncClient.hpp"
#include "etcd/Watcher.hpp"
static const std::string etcd_url = etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static int watcher_called = 0;
void print_response(etcd::Response const & resp)
{
void print_response(etcd::Response const& resp) {
++watcher_called;
std::cout << "print response called" << std::endl;
if (resp.error_code()) {
std::cout << resp.error_code() << ": " << resp.error_message() << std::endl;
}
else {
} else {
std::cout << resp.action() << " " << resp.value().as_string() << std::endl;
std::cout << "Previous value: " << resp.prev_value().as_string() << std::endl;
std::cout << "Previous value: " << resp.prev_value().as_string()
<< std::endl;
std::cout << "Events size: " << resp.events().size() << std::endl;
for (auto const &ev: resp.events()) {
std::cout << "Value change in events: " << static_cast<int>(ev.event_type())
<< ", prev kv = " << ev.prev_kv().key() << " -> " << ev.prev_kv().as_string()
<< ", kv = " << ev.kv().key() << " -> " << ev.kv().as_string()
<< std::endl;
for (auto const& ev : resp.events()) {
std::cout << "Value change in events: "
<< static_cast<int>(ev.event_type())
<< ", prev kv = " << ev.prev_kv().key() << " -> "
<< ev.prev_kv().as_string() << ", kv = " << ev.kv().key()
<< " -> " << ev.kv().as_string() << std::endl;
}
}
}
@ -36,6 +37,7 @@ void print_response(etcd::Response const & resp)
void wait_for_connection(std::string endpoints) {
// wait until the client connects to etcd server
while (true) {
#ifndef _ETCD_NO_EXCEPTIONS
try {
etcd::Client client(endpoints);
if (client.head().get().is_ok()) {
@ -44,12 +46,17 @@ void wait_for_connection(std::string endpoints) {
} catch (...) {
// pass
}
#else
etcd::Client client(endpoints);
if (client.head().get().is_ok()) {
break;
}
#endif
sleep(1);
}
}
void initialize_watcher(const std::string& endpoints,
const std::string& prefix,
void initialize_watcher(const std::string& endpoints, const std::string& prefix,
std::function<void(etcd::Response)> callback,
std::shared_ptr<etcd::Watcher>& watcher) {
// wait until the endpoints turn to be available
@ -64,18 +71,19 @@ void initialize_watcher(const std::string& endpoints,
watcher.reset(new etcd::Watcher(client, prefix, callback, true));
// Note that lambda requires `mutable`qualifier.
watcher->Wait([endpoints, prefix, callback,
/* By reference for renewing */ &watcher](bool cancelled) mutable {
if (cancelled) {
std::cout << "watcher's reconnect loop stopped as been cancelled" << std::endl;
return;
}
initialize_watcher(endpoints, prefix, callback, watcher);
});
watcher->Wait(
[endpoints, prefix, callback,
/* By reference for renewing */ &watcher](bool cancelled) mutable {
if (cancelled) {
std::cout << "watcher's reconnect loop stopped as been cancelled"
<< std::endl;
return;
}
initialize_watcher(endpoints, prefix, callback, watcher);
});
}
TEST_CASE("watch should can be re-established")
{
TEST_CASE("watch should can be re-established") {
const std::string my_prefix = "/test";
// the watcher initialized in this way will auto re-connect to etcd
@ -84,13 +92,19 @@ TEST_CASE("watch should can be re-established")
// issue some changes to see if the watcher works
for (int round = 0; round < 100000; ++round) {
#ifndef _ETCD_NO_EXCEPTIONS
try {
etcd::Client client(etcd_url);
auto response = client.set(
my_prefix + "/foo", "bar-" + std::to_string(round)).get();
auto response =
client.set(my_prefix + "/foo", "bar-" + std::to_string(round)).get();
} catch (...) {
// pass
}
#else
etcd::Client client(etcd_url);
auto response =
client.set(my_prefix + "/foo", "bar-" + std::to_string(round)).get();
#endif
std::this_thread::sleep_for(std::chrono::seconds(2));
}
@ -100,13 +114,19 @@ TEST_CASE("watch should can be re-established")
// the watcher has been cancelled and shouldn't work anymore
for (int round = 10; round < 20; ++round) {
#ifndef _ETCD_NO_EXCEPTIONS
try {
etcd::Client client(etcd_url);
auto response = client.set(
my_prefix + "/foo", "bar-" + std::to_string(round)).get();
auto response =
client.set(my_prefix + "/foo", "bar-" + std::to_string(round)).get();
} catch (...) {
// pass
}
#else
etcd::Client client(etcd_url);
auto response =
client.set(my_prefix + "/foo", "bar-" + std::to_string(round)).get();
#endif
std::this_thread::sleep_for(std::chrono::seconds(2));
}

39
tst/SecurityChannelTest.cpp
View File

@ -9,22 +9,21 @@ static std::string ca = "security-config/certs/ca.crt";
static std::string cert = "security-config/certs/etcd0.example.com.crt";
static std::string key = "security-config/private/etcd0.example.com.key";
static const std::string etcd_url = etcdv3::detail::resolve_etcd_endpoints("https://127.0.0.1:2379");
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("https://127.0.0.1:2379");
TEST_CASE("setup with auth")
{
etcd::Client *etcd = etcd::Client::WithSSL(etcd_url, ca, cert, key);
TEST_CASE("setup with auth") {
etcd::Client* etcd = etcd::Client::WithSSL(etcd_url, ca, cert, key);
etcd->rmdir("/test", true).wait();
}
TEST_CASE("add a new key after authenticate")
{
etcd::Client *etcd = etcd::Client::WithSSL(etcd_url, ca, cert, key);
TEST_CASE("add a new key after authenticate") {
etcd::Client* etcd = etcd::Client::WithSSL(etcd_url, ca, cert, key);
etcd->rmdir("/test", true).wait();
etcd::Response resp = etcd->add("/test/key1", "42").get();
REQUIRE(0 == resp.error_code());
CHECK("create" == resp.action());
etcd::Value const & val = resp.value();
etcd::Value const& val = resp.value();
CHECK("42" == val.as_string());
CHECK("/test/key1" == val.key());
CHECK(!val.is_dir());
@ -32,24 +31,28 @@ TEST_CASE("add a new key after authenticate")
CHECK(0 < val.modified_index());
CHECK(1 == val.version());
CHECK(0 < resp.index());
CHECK(etcd::ERROR_KEY_ALREADY_EXISTS == etcd->add("/test/key1", "43").get().error_code()); // Key already exists
CHECK(etcd::ERROR_KEY_ALREADY_EXISTS == etcd->add("/test/key1", "42").get().error_code()); // Key already exists
CHECK("etcd-cpp-apiv3: key already exists" == etcd->add("/test/key1", "42").get().error_message());
CHECK(
etcd::ERROR_KEY_ALREADY_EXISTS ==
etcd->add("/test/key1", "43").get().error_code()); // Key already exists
CHECK(
etcd::ERROR_KEY_ALREADY_EXISTS ==
etcd->add("/test/key1", "42").get().error_code()); // Key already exists
CHECK("etcd-cpp-apiv3: key already exists" ==
etcd->add("/test/key1", "42").get().error_message());
}
TEST_CASE("read a value from etcd")
{
etcd::Client *etcd = etcd::Client::WithSSL(etcd_url, ca, cert, key);
TEST_CASE("read a value from etcd") {
etcd::Client* etcd = etcd::Client::WithSSL(etcd_url, ca, cert, key);
etcd::Response resp = etcd->get("/test/key1").get();
CHECK("get" == resp.action());
REQUIRE(resp.is_ok());
REQUIRE(0 == resp.error_code());
CHECK("42" == resp.value().as_string());
CHECK("" == etcd->get("/test").get().value().as_string()); // key points to a directory
CHECK("" == etcd->get("/test").get().value().as_string()); // key points to a
// directory
}
TEST_CASE("cleanup")
{
etcd::Client *etcd = etcd::Client::WithSSL(etcd_url, ca, cert, key);
TEST_CASE("cleanup") {
etcd::Client* etcd = etcd::Client::WithSSL(etcd_url, ca, cert, key);
REQUIRE(0 == etcd->rmdir("/test", true).get().error_code());
}

66
tst/TransactionTest.cpp
View File

@ -8,16 +8,15 @@
#include "etcd/Client.hpp"
#include "etcd/v3/Transaction.hpp"
static const std::string etcd_url = etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
TEST_CASE("setup")
{
TEST_CASE("setup") {
etcd::Client etcd(etcd_url);
etcd.rmdir("/test", true).wait();
}
TEST_CASE("add a new key")
{
TEST_CASE("add a new key") {
etcd::Client etcd(etcd_url);
etcd.rmdir("/test", true).wait();
@ -49,13 +48,10 @@ TEST_CASE("add a new key")
// do some put and delete using txn
{
etcdv3::Transaction txn;
// setup the conditions
txn.reset_key("/test/x1");
txn.init_compare("1", etcdv3::CompareResult::EQUAL, etcdv3::CompareTarget::VALUE);
txn.reset_key("/test/x2");
txn.init_compare("2", etcdv3::CompareResult::EQUAL, etcdv3::CompareTarget::VALUE);
// setup the conditions
txn.add_compare_value("/test/x1", "1");
txn.add_compare_value("/test/x2", "2");
txn.setup_put("/test/x1", "111");
txn.setup_delete("/test/x2");
@ -83,8 +79,52 @@ TEST_CASE("add a new key")
}
}
TEST_CASE("cleanup")
{
TEST_CASE("fetch & add") {
etcd::Client etcd(etcd_url);
etcd.rmdir("/test", true).wait();
etcd.set("/test/key", "0").wait();
auto fetch_and_add = [](etcd::Client& client,
std::string const& key) -> void {
auto value = stoi(client.get(key).get().value().as_string());
while (true) {
auto txn = etcdv3::Transaction();
txn.setup_compare_and_swap(key, std::to_string(value),
std::to_string(value + 1));
etcd::Response resp = client.txn(txn).get();
if (resp.is_ok()) {
break;
}
value = stoi(resp.value().as_string());
}
};
// run 1000 times
const size_t rounds = 100;
std::atomic_size_t counter(0);
std::vector<std::thread> threads;
for (size_t i = 0; i < 10; ++i) {
threads.emplace_back([&]() {
while (counter.fetch_add(1) < rounds) {
fetch_and_add(etcd, "/test/key");
}
});
}
for (auto& thr : threads) {
thr.join();
}
// check the value
{
etcd::Response resp = etcd.get("/test/key").get();
REQUIRE(0 == resp.error_code());
CHECK(resp.value().as_string() == std::to_string(rounds));
}
}
TEST_CASE("cleanup") {
etcd::Client etcd(etcd_url);
REQUIRE(0 == etcd.rmdir("/test", true).get().error_code());
}

257
tst/WatcherTest.cpp
View File

@ -4,123 +4,228 @@
#include <chrono>
#include <thread>
#include "etcd/Watcher.hpp"
#include "etcd/SyncClient.hpp"
#include "etcd/Watcher.hpp"
static const std::string etcd_url = etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static const std::string etcd_url =
etcdv3::detail::resolve_etcd_endpoints("http://127.0.0.1:2379");
static int watcher_called = 0;
void printResponse(etcd::Response const & resp)
{
void printResponse(etcd::Response const& resp) {
if (resp.error_code()) {
std::cout << resp.error_code() << ": " << resp.error_message() << std::endl;
}
else {
std::cout << resp.action() << " " << resp.value().as_string() << std::endl;
std::cout << "Previous value: " << resp.prev_value().as_string() << std::endl;
std::cout << "Watcher " << resp.watch_id() << " fails with "
<< resp.error_code() << ": " << resp.error_message() << std::endl;
} else {
std::cout << "Watcher " << resp.watch_id() << " responses with "
<< resp.action() << " " << resp.value().as_string() << std::endl;
std::cout << "Previous value: " << resp.prev_value().as_string()
<< std::endl;
std::cout << "Events size: " << resp.events().size() << std::endl;
for (auto const &ev: resp.events()) {
if (ev.prev_kv().key().find("/leader") == 0 || ev.kv().key().find("/leader") == 0) {
for (auto const& ev : resp.events()) {
if (ev.prev_kv().key().find("/leader") == 0 ||
ev.kv().key().find("/leader") == 0) {
return;
}
std::cout << "Value change in events: " << static_cast<int>(ev.event_type())
<< ", prev kv = " << ev.prev_kv().key() << " -> " << ev.prev_kv().as_string()
<< ", kv = " << ev.kv().key() << " -> " << ev.kv().as_string()
<< std::endl;
std::cout << "Value change in events: "
<< static_cast<int>(ev.event_type())
<< ", prev kv = " << ev.prev_kv().key() << " -> "
<< ev.prev_kv().as_string() << ", kv = " << ev.kv().key()
<< " -> " << ev.kv().as_string() << std::endl;
}
}
std::cout << "print response called" << std::endl;
++watcher_called;
}
TEST_CASE("create watcher with cancel")
{
etcd::SyncClient etcd(etcd_url);
etcd.rmdir("/test", true);
watcher_called = 0;
etcd::Watcher watcher(etcd_url, "/test", printResponse, true);
std::this_thread::sleep_for(std::chrono::seconds(2));
etcd.set("/test/key", "42");
etcd.set("/test/key", "43");
etcd.rm("/test/key");
etcd.set("/test/key", "44");
std::this_thread::sleep_for(std::chrono::seconds(2));
CHECK(4 == watcher_called);
watcher.Cancel();
etcd.set("/test/key", "50");
etcd.set("/test/key", "51");
std::this_thread::sleep_for(std::chrono::seconds(2));
CHECK(4 == watcher_called);
etcd.rmdir("/test", true);
}
TEST_CASE("create watcher on ranges with cancel")
{
etcd::SyncClient etcd(etcd_url);
etcd.rmdir("/test", true);
watcher_called = 0;
etcd::Watcher watcher(etcd_url, "/test/key1", "/test/key5", printResponse);
std::this_thread::sleep_for(std::chrono::seconds(2));
etcd.set("/test/key1", "42");
etcd.set("/test/key2", "43");
etcd.rm("/test/key1");
etcd.set("/test/key5", "44");
std::this_thread::sleep_for(std::chrono::seconds(2));
CHECK(3 == watcher_called);
watcher.Cancel();
etcd.set("/test/key3", "50");
etcd.set("/test/key4", "51");
std::this_thread::sleep_for(std::chrono::seconds(2));
CHECK(3 == watcher_called);
etcd.rmdir("/test", true);
}
TEST_CASE("create watcher")
{
TEST_CASE("create watcher") {
etcd::SyncClient etcd(etcd_url);
etcd.rmdir("/test", true);
watcher_called = 0;
{
etcd::Watcher watcher(etcd_url, "/test", printResponse, true);
std::this_thread::sleep_for(std::chrono::seconds(2));
std::this_thread::sleep_for(std::chrono::seconds(5));
etcd.set("/test/key", "42");
std::this_thread::sleep_for(std::chrono::seconds(2));
std::this_thread::sleep_for(std::chrono::seconds(5));
etcd.set("/test/key", "43");
std::this_thread::sleep_for(std::chrono::seconds(2));
std::this_thread::sleep_for(std::chrono::seconds(5));
}
CHECK(2 == watcher_called);
etcd.rmdir("/test", true).error_code();
etcd.rmdir("/test", true);
}
TEST_CASE("watch should exit normally")
{
// cancal immediately after start watch.
TEST_CASE("watch with correct prefix") {
etcd::SyncClient etcd(etcd_url);
etcd.rmdir("/test", true);
watcher_called = 0;
etcd::Watcher watcher(etcd_url, "/test/key_prefix", printResponse, true);
{
etcd.set("/test/key1", "42");
std::this_thread::sleep_for(std::chrono::seconds(5));
CHECK(0 == watcher_called);
}
{
etcd.set("/test/key_prefix", "42");
std::this_thread::sleep_for(std::chrono::seconds(5));
CHECK(1 == watcher_called);
}
{
etcd.set("/test/key_prefix1", "42");
std::this_thread::sleep_for(std::chrono::seconds(5));
CHECK(2 == watcher_called);
}
{
etcd.set("/test/key_prefiy", "42");
std::this_thread::sleep_for(std::chrono::seconds(5));
CHECK(2 == watcher_called);
}
{
etcd.set("/test/key1", "42");
std::this_thread::sleep_for(std::chrono::seconds(5));
CHECK(2 == watcher_called);
}
etcd.rmdir("/test", true);
}
TEST_CASE("create watcher with cancel") {
etcd::SyncClient etcd(etcd_url);
etcd.rmdir("/test", true);
watcher_called = 0;
etcd::Watcher watcher(etcd_url, "/test", printResponse, true);
std::this_thread::sleep_for(std::chrono::seconds(5));
etcd.set("/test/key", "42");
etcd.set("/test/key", "43");
etcd.rm("/test/key");
etcd.set("/test/key", "44");
std::this_thread::sleep_for(std::chrono::seconds(5));
CHECK(4 == watcher_called);
watcher.Cancel();
etcd.set("/test/key", "50");
etcd.set("/test/key", "51");
std::this_thread::sleep_for(std::chrono::seconds(5));
CHECK(4 == watcher_called);
etcd.rmdir("/test", true);
}
TEST_CASE("create watcher on ranges with cancel") {
etcd::SyncClient etcd(etcd_url);
etcd.rmdir("/test", true);
watcher_called = 0;
etcd::Watcher watcher(etcd_url, "/test/key1", "/test/key5", printResponse);
std::this_thread::sleep_for(std::chrono::seconds(5));
etcd.set("/test/key1", "42");
etcd.set("/test/key2", "43");
etcd.rm("/test/key1");
etcd.set("/test/key5", "44");
std::this_thread::sleep_for(std::chrono::seconds(5));
CHECK(3 == watcher_called);
watcher.Cancel();
etcd.set("/test/key3", "50");
etcd.set("/test/key4", "51");
std::this_thread::sleep_for(std::chrono::seconds(5));
CHECK(3 == watcher_called);
etcd.rmdir("/test", true);
}
TEST_CASE("watch should exit normally") {
// cancel immediately after start watch.
etcd::Watcher watcher(etcd_url, "/test", printResponse, true);
watcher.Cancel();
}
TEST_CASE("watch should can be cancelled repeatedly")
{
// cancal immediately after start watch.
TEST_CASE("watch should can be cancelled repeatedly") {
etcd::Watcher watcher(etcd_url, "/test", printResponse, true);
std::vector<std::thread> threads(10);
for (size_t i = 0; i < 10; ++i) {
threads[i] = std::thread([&]() {
watcher.Cancel();
});
threads[i] = std::thread([&]() { watcher.Cancel(); });
}
for (size_t i = 0; i < 10; ++i) {
threads[i].join();
}
}
TEST_CASE("watch changes on the same key (#212)") {
std::string key_watch = "key watch";
etcd::SyncClient client(etcd_url);
client.put(key_watch, "inittt");
auto current_index = client.head().index();
std::cout << "Current index " << current_index << std::endl;
auto internal_cb = [&](etcd::Response resp) -> void {
if (!resp.is_ok()) {
std::cout << "Error: " << resp.error_message() << std::endl;
return;
}
for (auto const& event : resp.events()) {
std::cout << "Watch '" << event.kv().key()
<< "'. ModifedRevision : " << event.kv().modified_index()
<< "', Vision : " << event.kv().version()
<< ", value = " << event.kv().as_string() << std::endl;
}
};
auto wait_cb = [&](bool) {};
etcd::Watcher w(client, key_watch, current_index, std::move(internal_cb),
std::move(wait_cb), false);
std::this_thread::sleep_for(std::chrono::milliseconds(10));
for (int i = 0; i < 10; ++i) {
std::string value = "watch_" + std::to_string(i);
client.put(key_watch, value);
std::this_thread::sleep_for(std::chrono::milliseconds(100));
}
}
TEST_CASE("create two watcher") {
etcd::Watcher w1(etcd_url, "/test", printResponse, true);
etcd::Watcher w2(etcd_url, "/test", printResponse, true);
std::this_thread::sleep_for(std::chrono::seconds(5));
}
TEST_CASE("using two watcher") {
etcd::SyncClient etcd(etcd_url);
int watched1 = 0;
int watched2 = 0;
etcd::Watcher w1(
etcd, "/test/def",
[&](etcd::Response const& resp) {
std::cout << "w1 called: " << resp.events().at(0).event_type() << " on "
<< resp.events().at(0).kv().key() << std::endl;
++watched1;
},
true);
etcd::Watcher w2(
etcd, "/test",
[&](etcd::Response const& resp) {
std::cout << "w2 called: " << resp.events().at(0).event_type() << " on "
<< resp.events().at(0).kv().key() << std::endl;
++watched2;
},
true);
std::this_thread::sleep_for(std::chrono::seconds(5));
etcd.put("/test/def/xxx", "42");
etcd.put("/test/abc", "42");
etcd.rm("/test/def/xxx");
etcd.rm("/test/abc");
std::this_thread::sleep_for(std::chrono::seconds(5));
CHECK(2 == watched1);
CHECK(4 == watched2);
}
// TEST_CASE("request cancellation")
// {
// etcd::Client etcd(etcd_url);