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48 Commits
v1.3.2 ... v1.3.5

Author SHA1 Message Date
Dennis Klein
5e4876c947 Allow plugins to create channels 
This also fixes a bug, that prevented the usage of custom types with the
plugin config API.
 2018-10-31 15:42:04 +01:00
Alexey Rybalchenko
3b5b2b501f Use exceptions for fatal errors in device/channel 
- These will be caught by StateMachine::ProcessWork
   and lead to error state.
 - Solve issue where device goes into ready state if
   it encounters misconfigured channel in the Run.
 - deprecate WaitForInitialValidation().
 2018-10-31 15:26:43 +01:00
Alexey Rybalchenko
3561255cf9 Add missing channel update handlers 2018-10-31 15:26:43 +01:00
mkrzewic
cbab7649be Return unique_ptr by value to allow RVO 2018-10-31 13:12:38 +01:00
mkrzewic
6ac94b7bc7 Fix ctor 2018-10-31 13:12:38 +01:00
mkrzewic
f9658f69a4 Alias boost::container::pmr -> fair::mq::pmr 
so the eventual switch to std::pmr becomes easier
 2018-10-31 13:12:38 +01:00
mkrzewic
34286ef75e Remove container adoption code 2018-10-31 13:12:38 +01:00
mkrzewic
1a07137dda Rename adoptVector into getVector 2018-10-31 13:12:38 +01:00
mkrzewic
1f42f49ae5 Update some comments 2018-10-31 13:12:38 +01:00
mkrzewic
d40bbfe208 Equip FairMQMessage with pointer to factory (at creation) 
the patch seems big but most of it is just propagating the new notion of
constness of the factory - since it keeps track of created messages with
the internal allocator it no longer is const
 2018-10-31 13:12:38 +01:00
mkrzewic
310b9647b5 Adopt FairMQMessage backed memory resource collection from AliceO2 
Add a pmr interface to FairMQTransportFactory

refactor

Port the unit tests for MemoryResources

clang format
 2018-10-31 13:12:38 +01:00
Alexey Rybalchenko
919193a1ad Extend transfer timeout test 2018-10-30 10:39:35 +01:00
Alexey Rybalchenko
0cfa9192d7 Deprecate Send-/ReceiveAsync, use timeout variant instead 2018-10-30 10:39:35 +01:00
Alexey Rybalchenko
c40bd7d6a9 Apply clang-tidy suggestions [performance-faster-string-find] 2018-10-29 13:45:36 +01:00
Alexey Rybalchenko
4951433330 Apply clang-tidy suggestions [modernize-loop-convert] 2018-10-29 13:45:36 +01:00
Alexey Rybalchenko
1b53538d8c Move test helper devices to headers 2018-10-18 21:33:47 +02:00
Alexey Rybalchenko
d4a4ea14d2 Add example/test for built-in devices 2018-10-18 21:33:47 +02:00
Alexey Rybalchenko
ffab4ac78c Add options tests and (re-)/enable more nanomsg tests 2018-10-17 13:28:50 +02:00
Alexey Rybalchenko
ce4062f3a0 Remove GetSocket interface that exposes transport details 2018-10-17 13:28:50 +02:00
Alexey Rybalchenko
f8824335a5 Add setters/getters for socket options 2018-10-17 13:28:50 +02:00
Alexey Rybalchenko
2e7005225e Remove sleeps from tests that were helping broken linger 2018-10-17 13:28:50 +02:00
Alexey Rybalchenko
dfa1b68867 Make factory classes final (optimization potential) 2018-10-17 13:28:50 +02:00
Alexey Rybalchenko
00800f16f1 Remove support for nanomsg <= 0.6 2018-10-17 13:28:50 +02:00
Alexey Rybalchenko
44acd4997d Implement nanomsg linger in our transport 2018-10-17 13:28:50 +02:00
Alexey Rybalchenko
cfb727181f Remove set/get timeout from general socket interface 2018-10-12 20:29:50 +02:00
Alexey Rybalchenko
e090967645 Shmem: Build shmem names out of session id + user id 2018-10-11 17:06:39 +02:00
Alexey Rybalchenko
1d45095d75 Add session id to example tests 2018-10-11 17:06:39 +02:00
Dennis Klein
1fdf510ae7 Pick correct build type in CI 2018-10-10 20:28:10 +02:00
Dennis Klein
78acb954cd Test more cases with interactive controller 2018-10-10 19:35:18 +02:00
Dennis Klein
3a1b769937 Support feeding the child process data on stdin 2018-10-10 19:35:18 +02:00
Dennis Klein
9f325451e5 Make sure we reset terminal config also on exception 2018-10-10 19:35:18 +02:00
Dennis Klein
a78d35d90d Remove obsolete declaration 2018-10-10 19:35:18 +02:00
Alexey Rybalchenko
cb199e7283 Fix throw after quit signal case 2018-10-10 19:35:18 +02:00
Dennis Klein
e39316c866 Test exceptions thrown in user code 2018-10-10 19:35:18 +02:00
Alexey Rybalchenko
bde12f58b2 Handle errors in static and interactive controllers 2018-10-10 19:35:18 +02:00
Alexey Rybalchenko
45354f268b Use future instead of thread for device rateLogger 2018-10-10 19:35:18 +02:00
Dennis Klein
1aab354a5d Resolve hanging process in case of uncaught exception 2018-10-10 19:35:18 +02:00
Alexey Rybalchenko
e1f555bc05 Fix issues found by Codacy 2018-10-08 17:20:02 +02:00
Alexey Rybalchenko
985150437a Remove shmem prototype code - unused 2018-10-08 17:20:02 +02:00
Dennis Klein
cf9a2944c2 Introduce and export hotfix version component 
The cmake variable PROJECT_VERSION_HOTFIX contains the hotfix version
component. 0 means no hotfix, 1 means the first hotfix, 2 the second,
and so on.
 2018-09-20 18:09:07 +02:00
Dennis Klein
94297f9833 Tie builtin plugin version to the project version 2018-09-20 18:09:07 +02:00
Alexey Rybalchenko
957233cf95 Relocate some tests to more apropriate test suits 2018-09-20 14:05:44 +02:00
Alexey Rybalchenko
5397cef9d1 Use same runner.cxx/.h for all tests 2018-09-20 14:05:44 +02:00
Alexey Rybalchenko
f6c1f5dc0f Fix theoretical race in signal handler 2018-09-20 14:05:44 +02:00
Alexey Rybalchenko
c4145e9ef1 Add test for FairMQDevice::WaitFor() 2018-09-20 14:05:44 +02:00
Alexey Rybalchenko
4123ebc9d4 Add interruptable FairMQDevice::WaitFor(duration) method 2018-09-20 14:05:44 +02:00
Dennis Klein
88f897536e Add codacy.com integration 2018-09-19 19:58:09 +02:00
Dennis Klein
e3c55a0ff8 Fix nanomsg prefix in cmake configure table 2018-09-19 19:58:09 +02:00
146 changed files with 3267 additions and 3141 deletions
Expand all files Collapse all files

5
CMakeLists.txt
View File

@@ -49,7 +49,7 @@ find_package(Threads REQUIRED)
if(BUILD_FAIRMQ)
find_package2(PUBLIC Boost VERSION 1.64 REQUIRED
COMPONENTS program_options thread system filesystem regex date_time signals
COMPONENTS container program_options thread system filesystem regex date_time signals
)
find_package2(PUBLIC FairLogger VERSION 1.2.0 REQUIRED)
find_package2(PRIVATE ZeroMQ VERSION 4.1.5 REQUIRED)
@@ -220,6 +220,9 @@ if(PROJECT_PACKAGE_DEPENDENCIES)
get_filename_component(prefix ${msgpack_include}/.. ABSOLUTE)
elseif(${dep} STREQUAL OFI)
get_filename_component(prefix ${${dep}_INCLUDE_DIRS}/.. ABSOLUTE)
elseif(${dep} STREQUAL nanomsg)
get_target_property(nn_include nanomsg INTERFACE_INCLUDE_DIRECTORIES)
get_filename_component(prefix ${nn_include}/.. ABSOLUTE)
elseif(${dep} STREQUAL Doxygen)
get_target_property(doxygen_bin Doxygen::doxygen INTERFACE_LOCATION)
get_filename_component(prefix ${doxygen_bin} DIRECTORY)

2
FairMQTest.cmake
View File

@@ -19,7 +19,7 @@ Set(BUILD_COMMAND "make")
Set(CTEST_BUILD_COMMAND "${BUILD_COMMAND} -j$ENV{number_of_processors}")
String(TOUPPER $ENV{ctest_model} _Model)
Set(configure_options "-DCMAKE_BUILD_TYPE=${_Model}")
Set(configure_options "-DCMAKE_BUILD_TYPE=$ENV{ctest_model}")
Set(CTEST_USE_LAUNCHERS 1)
Set(configure_options "${configure_options};-DCTEST_USE_LAUNCHERS=${CTEST_USE_LAUNCHERS}")

2
README.md
View File

@@ -1,5 +1,5 @@
<!-- {#mainpage} -->
# FairMQ [![license](https://alfa-ci.gsi.de/shields/badge/license-LGPL--3.0-orange.svg)](COPYRIGHT) [![build status](https://alfa-ci.gsi.de/buildStatus/icon?job=FairRootGroup/FairMQ/master)](https://alfa-ci.gsi.de/blue/organizations/jenkins/FairRootGroup%2FFairMQ/branches) [![test coverage master branch](https://codecov.io/gh/FairRootGroup/FairMQ/branch/master/graph/badge.svg)](https://codecov.io/gh/FairRootGroup/FairMQ/branch/master)
# FairMQ [![license](https://alfa-ci.gsi.de/shields/badge/license-LGPL--3.0-orange.svg)](COPYRIGHT) [![build status](https://alfa-ci.gsi.de/buildStatus/icon?job=FairRootGroup/FairMQ/master)](https://alfa-ci.gsi.de/blue/organizations/jenkins/FairRootGroup%2FFairMQ/branches) [![test coverage master branch](https://codecov.io/gh/FairRootGroup/FairMQ/branch/master/graph/badge.svg)](https://codecov.io/gh/FairRootGroup/FairMQ/branch/master) [![Codacy Badge](https://api.codacy.com/project/badge/Grade/6b648d95d68d4c4eae833b84f84d299c)](https://www.codacy.com/app/dennisklein/FairMQ?utm_source=github.com&amp;utm_medium=referral&amp;utm_content=FairRootGroup/FairMQ&amp;utm_campaign=Badge_Grade)
C++ Message Queuing Library and Framework

1
cmake/FairMQConfig.cmake.in
View File

@@ -23,6 +23,7 @@ set_and_check(@PROJECT_NAME@_CMAKEMODDIR @PACKAGE_CMAKE_INSTALL_PREFIX@/@PROJECT
set(@PROJECT_NAME@_CXX_STANDARD_REQUIRED @CMAKE_CXX_STANDARD_REQUIRED@)
set(@PROJECT_NAME@_CXX_STANDARD @CMAKE_CXX_STANDARD@)
set(@PROJECT_NAME@_CXX_EXTENSIONS @CMAKE_CXX_EXTENSIONS@)
set(@PROJECT_NAME@_VERSION_HOTFIX @PROJECT_VERSION_HOTFIX@)
### Import cmake modules
set(CMAKE_MODULE_PATH ${@PROJECT_NAME@_CMAKEMODDIR} ${CMAKE_MODULE_PATH})

9
cmake/FairMQLib.cmake
View File

@@ -164,12 +164,13 @@ macro(set_fairmq_defaults)
set(PROJECT_EXPORT_SET ${PROJECT_NAME}Targets)
# Configure build types
set(CMAKE_CONFIGURATION_TYPES "Debug" "Release" "RelWithDebInfo" "Nightly" "Profile" "AdressSan" "ThreadSan")
set(CMAKE_CONFIGURATION_TYPES "Debug" "Release" "RelWithDebInfo" "Nightly" "Profile" "Experimental" "AdressSan" "ThreadSan")
set(CMAKE_CXX_FLAGS_DEBUG "-g -Wshadow -Wall -Wextra")
set(CMAKE_CXX_FLAGS_RELEASE "-O2 -DNDEBUG")
set(CMAKE_CXX_FLAGS_RELWITHDEBINFO "-O2 -g -Wshadow -Wall -Wextra -DNDEBUG")
set(CMAKE_CXX_FLAGS_NIGHTLY "-O2 -g -Wshadow -Wall -Wextra")
set(CMAKE_CXX_FLAGS_PROFILE "-g3 -Wshadow -Wall -Wextra -fno-inline -ftest-coverage -fprofile-arcs")
set(CMAKE_CXX_FLAGS_EXPERIMENTAL "-O2 -g -Wshadow -Wall -Wextra -DNDEBUG")
set(CMAKE_CXX_FLAGS_ADRESSSAN "-O2 -g -Wshadow -Wall -Wextra -fsanitize=address -fno-omit-frame-pointer")
set(CMAKE_CXX_FLAGS_THREADSAN "-O2 -g -Wshadow -Wall -Wextra -fsanitize=thread")
@@ -180,6 +181,12 @@ macro(set_fairmq_defaults)
# Rationale in https://github.com/ninja-build/ninja/issues/814
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} -fdiagnostics-color=always")
endif()
if(NOT PROJECT_VERSION_TWEAK)
set(PROJECT_VERSION_HOTFIX 0)
else()
set(PROJECT_VERSION_HOTFIX ${PROJECT_VERSION_TWEAK})
endif()
endmacro()
function(join VALUES GLUE OUTPUT)

4
examples/1-1/test-ex-1-1.sh.in
View File

@@ -8,6 +8,8 @@ if [[ $1 =~ ^[a-z]+$ ]]; then
transport=$1
fi
SESSION="$(@CMAKE_BINARY_DIR@/fairmq/fairmq-uuid-gen -h)"
# setup a trap to kill everything if the test fails/timeouts
trap 'kill -TERM $SAMPLER_PID; kill -TERM $SINK_PID; wait $SAMPLER_PID; wait $SINK_PID;' TERM
@@ -16,6 +18,7 @@ SAMPLER+=" --id sampler1"
SAMPLER+=" --rate 1"
SAMPLER+=" --transport $transport"
SAMPLER+=" --verbosity veryhigh"
SAMPLER+=" --session $SESSION"
SAMPLER+=" --control static --color false"
SAMPLER+=" --max-iterations 1"
SAMPLER+=" --channel-config name=data,type=push,method=bind,address=tcp://*:5555,rateLogging=0"
@@ -26,6 +29,7 @@ SINK="fairmq-ex-1-1-sink"
SINK+=" --id sink1"
SINK+=" --transport $transport"
SINK+=" --verbosity veryhigh"
SINK+=" --session $SESSION"
SINK+=" --control static --color false"
SINK+=" --max-iterations 1"
SINK+=" --channel-config name=data,type=pull,method=connect,address=tcp://localhost:5555,rateLogging=0"

5
examples/1-n-1/test-ex-1-n-1.sh.in
View File

@@ -9,6 +9,7 @@ if [[ $1 =~ ^[a-z]+$ ]]; then
fi
ex2config="@CMAKE_CURRENT_BINARY_DIR@/ex-1-n-1.json"
SESSION="$(@CMAKE_BINARY_DIR@/fairmq/fairmq-uuid-gen -h)"
# setup a trap to kill everything if the test fails/timeouts
trap 'kill -TERM $SAMPLER_PID; kill -TERM $SINK_PID; kill -TERM $PROCESSOR1_PID; kill -TERM $PROCESSOR2_PID; wait $SAMPLER_PID; wait $SINK_PID; wait $PROCESSOR1_PID; wait $PROCESSOR2_PID;' TERM
@@ -17,6 +18,7 @@ SAMPLER="fairmq-ex-1-n-1-sampler"
SAMPLER+=" --id sampler1"
SAMPLER+=" --transport $transport"
SAMPLER+=" --verbosity veryhigh"
SAMPLER+=" --session $SESSION"
SAMPLER+=" --control static --color false"
SAMPLER+=" --max-iterations 2"
SAMPLER+=" --mq-config $ex2config"
@@ -27,6 +29,7 @@ PROCESSOR1="fairmq-ex-1-n-1-processor"
PROCESSOR1+=" --id processor1"
PROCESSOR1+=" --transport $transport"
PROCESSOR1+=" --verbosity veryhigh"
PROCESSOR1+=" --session $SESSION"
PROCESSOR1+=" --control static --color false"
PROCESSOR1+=" --mq-config $ex2config"
PROCESSOR1+=" --config-key processor"
@@ -37,6 +40,7 @@ PROCESSOR2="fairmq-ex-1-n-1-processor"
PROCESSOR2+=" --id processor2"
PROCESSOR2+=" --transport $transport"
PROCESSOR2+=" --verbosity veryhigh"
PROCESSOR2+=" --session $SESSION"
PROCESSOR2+=" --control static --color false"
PROCESSOR2+=" --mq-config $ex2config"
PROCESSOR2+=" --config-key processor"
@@ -47,6 +51,7 @@ SINK="fairmq-ex-1-n-1-sink"
SINK+=" --id sink1"
SINK+=" --transport $transport"
SINK+=" --verbosity veryhigh"
SINK+=" --session $SESSION"
SINK+=" --control static --color false"
SINK+=" --max-iterations 2"
SINK+=" --mq-config $ex2config"

1
examples/CMakeLists.txt
View File

@@ -8,6 +8,7 @@
add_subdirectory(1-1)
add_subdirectory(1-n-1)
add_subdirectory(builtin-devices)
add_subdirectory(copypush)
add_subdirectory(dds)
add_subdirectory(multipart)

50
examples/builtin-devices/CMakeLists.txt Normal file
View File

@@ -0,0 +1,50 @@
################################################################################
# Copyright (C) 2014 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH #
# #
# This software is distributed under the terms of the #
# GNU Lesser General Public Licence (LGPL) version 3, #
# copied verbatim in the file "LICENSE" #
################################################################################
set(EX_BIN_DIR ${CMAKE_CURRENT_BINARY_DIR})
set(FAIRMQ_BIN_DIR ${CMAKE_BINARY_DIR}/fairmq)
configure_file(${CMAKE_CURRENT_SOURCE_DIR}/fairmq-start-ex-builtin-devices.sh.in ${CMAKE_CURRENT_BINARY_DIR}/fairmq-start-ex-builtin-devices.sh)
# test
configure_file(${CMAKE_CURRENT_SOURCE_DIR}/test-ex-builtin-devices.sh.in ${CMAKE_CURRENT_BINARY_DIR}/test-ex-builtin-devices.sh)
add_test(NAME Example-Builtin-Devices-zeromq COMMAND ${CMAKE_CURRENT_BINARY_DIR}/test-ex-builtin-devices.sh zeromq)
set_tests_properties(Example-Builtin-Devices-zeromq PROPERTIES TIMEOUT "30" RUN_SERIAL true PASS_REGULAR_EXPRESSION "Configured maximum number of iterations reached")
if(BUILD_NANOMSG_TRANSPORT)
add_test(NAME Example-Builtin-Devices-nanomsg COMMAND ${CMAKE_CURRENT_BINARY_DIR}/test-ex-builtin-devices.sh nanomsg)
set_tests_properties(Example-Builtin-Devices-nanomsg PROPERTIES TIMEOUT "30" RUN_SERIAL true PASS_REGULAR_EXPRESSION "Configured maximum number of iterations reached")
endif()
add_test(NAME Example-Builtin-Devices-shmem COMMAND ${CMAKE_CURRENT_BINARY_DIR}/test-ex-builtin-devices.sh shmem)
set_tests_properties(Example-Builtin-Devices-shmem PROPERTIES TIMEOUT "30" RUN_SERIAL true PASS_REGULAR_EXPRESSION "Configured maximum number of iterations reached")
add_test(NAME Example-Builtin-Devices-zeromq-multipart COMMAND ${CMAKE_CURRENT_BINARY_DIR}/test-ex-builtin-devices.sh zeromq true 2)
set_tests_properties(Example-Builtin-Devices-zeromq-multipart PROPERTIES TIMEOUT "30" RUN_SERIAL true PASS_REGULAR_EXPRESSION "Configured maximum number of iterations reached")
if(BUILD_NANOMSG_TRANSPORT)
add_test(NAME Example-Builtin-Devices-nanomsg-multipart COMMAND ${CMAKE_CURRENT_BINARY_DIR}/test-ex-builtin-devices.sh nanomsg true 2)
set_tests_properties(Example-Builtin-Devices-nanomsg-multipart PROPERTIES TIMEOUT "30" RUN_SERIAL true PASS_REGULAR_EXPRESSION "Configured maximum number of iterations reached")
endif()
add_test(NAME Example-Builtin-Devices-shmem-multipart COMMAND ${CMAKE_CURRENT_BINARY_DIR}/test-ex-builtin-devices.sh shmem true 2)
set_tests_properties(Example-Builtin-Devices-shmem-multipart PROPERTIES TIMEOUT "30" RUN_SERIAL true PASS_REGULAR_EXPRESSION "Configured maximum number of iterations reached")
# install
# configure run script with different executable paths for build and for install directories
set(EX_BIN_DIR ${CMAKE_INSTALL_PREFIX}/${PROJECT_INSTALL_BINDIR})
set(FAIRMQ_BIN_DIR ${CMAKE_INSTALL_PREFIX}/${PROJECT_INSTALL_BINDIR}/fairmq)
configure_file(${CMAKE_CURRENT_SOURCE_DIR}/fairmq-start-ex-builtin-devices.sh.in ${CMAKE_CURRENT_BINARY_DIR}/fairmq-start-ex-builtin-devices.sh_install)
install(
PROGRAMS ${CMAKE_CURRENT_BINARY_DIR}/fairmq-start-ex-builtin-devices.sh_install
DESTINATION ${PROJECT_INSTALL_BINDIR}
RENAME fairmq-start-ex-builtin-devices.sh
)

4
examples/builtin-devices/README.md Normal file
View File

@@ -0,0 +1,4 @@
Built-in devices
==========================
This example demonstrates use of generic devices that are provided with FairMQ - BenchmarkSampler, Merger, Multiplier, Proxy, Sink, Splitter. They are all connected in one topology and transfer some dummy buffers generated by the BenchmarkSampler.

93
examples/builtin-devices/fairmq-start-ex-builtin-devices.sh.in Executable file
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@@ -0,0 +1,93 @@
#!/bin/bash
export FAIRMQ_PATH=@FAIRMQ_BIN_DIR@
transport="zeromq"
multipart="false"
numParts="1"
if [[ $1 =~ ^[a-z]+$ ]]; then
transport=$1
fi
if [[ $2 =~ ^[a-z]+$ ]]; then
multipart=$2
fi
if [[ $3 =~ ^[0-9]+$ ]]; then
numParts=$3
fi
SAMPLER="fairmq-bsampler"
SAMPLER+=" --id bsampler1"
SAMPLER+=" --transport $transport"
SAMPLER+=" --control interactive"
SAMPLER+=" --severity debug"
SAMPLER+=" --msg-size 100000"
SAMPLER+=" --multipart $multipart"
SAMPLER+=" --num-parts $numParts"
SAMPLER+=" --msg-rate 100"
SAMPLER+=" --max-iterations 0"
SAMPLER+=" --out-channel data1"
SAMPLER+=" --channel-config name=data1,type=push,method=bind,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5555"
xterm -geometry 90x20+0+175 -hold -e @FAIRMQ_BIN_DIR@/$SAMPLER &
SPLITTER="fairmq-splitter"
SPLITTER+=" --id splitter"
SPLITTER+=" --transport $transport"
SPLITTER+=" --multipart $multipart"
SPLITTER+=" --in-channel data1"
SPLITTER+=" --out-channel data2"
SPLITTER+=" --channel-config name=data1,type=pull,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5555"
SPLITTER+=" name=data2,type=push,method=bind,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5556,address=tcp://localhost:5557"
xterm -geometry 90x20+0+475 -hold -e @FAIRMQ_BIN_DIR@/$SPLITTER &
PROXY1="fairmq-proxy"
PROXY1+=" --id proxy1"
PROXY1+=" --transport $transport"
PROXY1+=" --multipart $multipart"
PROXY1+=" --in-channel data2"
PROXY1+=" --out-channel data3"
PROXY1+=" --channel-config name=data2,type=pull,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5556"
PROXY1+=" name=data3,type=push,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5558"
xterm -geometry 90x20+550+175 -hold -e @FAIRMQ_BIN_DIR@/$PROXY1 &
PROXY2="fairmq-proxy"
PROXY2+=" --id proxy2"
PROXY2+=" --transport $transport"
PROXY2+=" --multipart $multipart"
PROXY2+=" --in-channel data2"
PROXY2+=" --out-channel data3"
PROXY2+=" --channel-config name=data2,type=pull,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5557"
PROXY2+=" name=data3,type=push,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5559"
xterm -geometry 90x20+550+475 -hold -e @FAIRMQ_BIN_DIR@/$PROXY2 &
MERGER="fairmq-merger"
MERGER+=" --id merger"
MERGER+=" --transport $transport"
MERGER+=" --multipart $multipart"
MERGER+=" --in-channel data3"
MERGER+=" --out-channel data4"
MERGER+=" --channel-config name=data3,type=pull,method=bind,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5558,address=tcp://localhost:5559"
MERGER+=" name=data4,type=push,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5560"
xterm -geometry 90x20+1100+50 -hold -e @FAIRMQ_BIN_DIR@/$MERGER &
MULTIPLIER="fairmq-multiplier"
MULTIPLIER+=" --id multiplier"
MULTIPLIER+=" --transport $transport"
MULTIPLIER+=" --multipart $multipart"
MULTIPLIER+=" --in-channel data4"
MULTIPLIER+=" --out-channel data5"
MULTIPLIER+=" --channel-config name=data4,type=pull,method=bind,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5560"
MULTIPLIER+=" name=data5,type=push,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5561,address=tcp://localhost:5561"
xterm -geometry 90x20+1100+350 -hold -e @FAIRMQ_BIN_DIR@/$MULTIPLIER &
SINK="fairmq-sink"
SINK+=" --id sink1"
SINK+=" --transport $transport"
SINK+=" --severity debug"
SINK+=" --multipart $multipart"
SINK+=" --max-iterations 0"
SINK+=" --in-channel data5"
SINK+=" --channel-config name=data5,type=pull,method=bind,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5561"
xterm -geometry 90x20+1100+650 -hold -e @FAIRMQ_BIN_DIR@/$SINK &

148
examples/builtin-devices/test-ex-builtin-devices.sh.in Executable file
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@@ -0,0 +1,148 @@
#!/bin/bash
export FAIRMQ_PATH=@FAIRMQ_BIN_DIR@
SESSION="$(@CMAKE_BINARY_DIR@/fairmq/fairmq-uuid-gen -h)"
transport="zeromq"
multipart="false"
numParts="1"
if [[ $1 =~ ^[a-z]+$ ]]; then
transport=$1
fi
if [[ $2 =~ ^[a-z]+$ ]]; then
multipart=$2
fi
if [[ $3 =~ ^[0-9]+$ ]]; then
numParts=$3
fi
# setup a trap to kill everything if the test fails/timeouts
trap 'kill -TERM $SAMPLER_PID; kill -TERM $SPLITTER_PID; kill -TERM $PROXY1_PID; kill -TERM $PROXY2_PID; kill -TERM $MERGER_PID; kill -TERM $MULTIPLIER_PID; kill -TERM $SINK_PID;' TERM
SAMPLER="fairmq-bsampler"
SAMPLER+=" --id bsampler1"
SAMPLER+=" --session $SESSION"
SAMPLER+=" --transport $transport"
SAMPLER+=" --color false"
SAMPLER+=" --control static"
SAMPLER+=" --verbosity veryhigh"
SAMPLER+=" --severity debug"
SAMPLER+=" --msg-size 100000"
SAMPLER+=" --multipart $multipart"
SAMPLER+=" --num-parts $numParts"
SAMPLER+=" --msg-rate 1"
SAMPLER+=" --max-iterations 0"
SAMPLER+=" --out-channel data1"
SAMPLER+=" --channel-config name=data1,type=push,method=bind,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5555"
@FAIRMQ_BIN_DIR@/$SAMPLER &
SAMPLER_PID=$!
SPLITTER="fairmq-splitter"
SPLITTER+=" --id splitter"
SPLITTER+=" --session $SESSION"
SPLITTER+=" --transport $transport"
SPLITTER+=" --color false"
SPLITTER+=" --control static"
SPLITTER+=" --verbosity veryhigh"
SPLITTER+=" --multipart $multipart"
SPLITTER+=" --in-channel data1"
SPLITTER+=" --out-channel data2"
SPLITTER+=" --channel-config name=data1,type=pull,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5555"
SPLITTER+=" name=data2,type=push,method=bind,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5556,address=tcp://localhost:5557"
@FAIRMQ_BIN_DIR@/$SPLITTER &
SPLITTER_PID=$!
PROXY1="fairmq-proxy"
PROXY1+=" --id proxy1"
PROXY1+=" --session $SESSION"
PROXY1+=" --transport $transport"
PROXY1+=" --color false"
PROXY1+=" --control static"
PROXY1+=" --verbosity veryhigh"
PROXY1+=" --multipart $multipart"
PROXY1+=" --in-channel data2"
PROXY1+=" --out-channel data3"
PROXY1+=" --channel-config name=data2,type=pull,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5556"
PROXY1+=" name=data3,type=push,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5558"
@FAIRMQ_BIN_DIR@/$PROXY1 &
PROXY1_PID=$!
PROXY2="fairmq-proxy"
PROXY2+=" --id proxy2"
PROXY2+=" --session $SESSION"
PROXY2+=" --transport $transport"
PROXY2+=" --color false"
PROXY2+=" --control static"
PROXY2+=" --verbosity veryhigh"
PROXY2+=" --multipart $multipart"
PROXY2+=" --in-channel data2"
PROXY2+=" --out-channel data3"
PROXY2+=" --channel-config name=data2,type=pull,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5557"
PROXY2+=" name=data3,type=push,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5559"
@FAIRMQ_BIN_DIR@/$PROXY2 &
PROXY2_PID=$!
MERGER="fairmq-merger"
MERGER+=" --id merger"
MERGER+=" --session $SESSION"
MERGER+=" --transport $transport"
MERGER+=" --color false"
MERGER+=" --control static"
MERGER+=" --verbosity veryhigh"
MERGER+=" --multipart $multipart"
MERGER+=" --in-channel data3"
MERGER+=" --out-channel data4"
MERGER+=" --channel-config name=data3,type=pull,method=bind,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5558,address=tcp://localhost:5559"
MERGER+=" name=data4,type=push,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5560"
@FAIRMQ_BIN_DIR@/$MERGER &
MERGER_PID=$!
MULTIPLIER="fairmq-multiplier"
MULTIPLIER+=" --id multiplier"
MULTIPLIER+=" --session $SESSION"
MULTIPLIER+=" --transport $transport"
MULTIPLIER+=" --color false"
MULTIPLIER+=" --control static"
MULTIPLIER+=" --verbosity veryhigh"
MULTIPLIER+=" --multipart $multipart"
MULTIPLIER+=" --in-channel data4"
MULTIPLIER+=" --out-channel data5"
MULTIPLIER+=" --channel-config name=data4,type=pull,method=bind,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5560"
MULTIPLIER+=" name=data5,type=push,method=connect,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5561,address=tcp://localhost:5561"
@FAIRMQ_BIN_DIR@/$MULTIPLIER &
MULTIPLIER_PID=$!
SINK="fairmq-sink"
SINK+=" --id sink1"
SINK+=" --session $SESSION"
SINK+=" --transport $transport"
SINK+=" --color false"
SINK+=" --control static"
SINK+=" --verbosity veryhigh"
SINK+=" --severity debug"
SINK+=" --multipart $multipart"
SINK+=" --max-iterations 2"
SINK+=" --in-channel data5"
SINK+=" --channel-config name=data5,type=pull,method=bind,sndBufSize=50,rcvBufSize=50,address=tcp://localhost:5561"
@FAIRMQ_BIN_DIR@/$SINK &
SINK_PID=$!
wait $SINK_PID
kill -SIGINT $SAMPLER_PID
kill -SIGINT $SPLITTER_PID
kill -SIGINT $PROXY1_PID
kill -SIGINT $PROXY2_PID
kill -SIGINT $MERGER_PID
kill -SIGINT $MULTIPLIER_PID
wait $SAMPLER_PID
wait $SPLITTER_PID
wait $PROXY1_PID
wait $PROXY2_PID
wait $MERGER_PID
wait $MULTIPLIER_PID

5
examples/copypush/test-ex-copypush.sh.in
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@@ -8,6 +8,8 @@ if [[ $1 =~ ^[a-z]+$ ]]; then
transport=$1
fi
SESSION="$(@CMAKE_BINARY_DIR@/fairmq/fairmq-uuid-gen -h)"
# setup a trap to kill everything if the test fails/timeouts
trap 'kill -TERM $SAMPLER_PID; kill -TERM $SINK1_PID; kill -TERM $SINK2_PID; wait $SAMPLER_PID; wait $SINK1_PID; wait $SINK2_PID;' TERM
@@ -15,6 +17,7 @@ SAMPLER="fairmq-ex-copypush-sampler"
SAMPLER+=" --id sampler1"
SAMPLER+=" --transport $transport"
SAMPLER+=" --verbosity veryhigh"
SAMPLER+=" --session $SESSION"
SAMPLER+=" --control static --color false"
SAMPLER+=" --max-iterations 1"
SAMPLER+=" --channel-config name=data,type=push,method=bind,rateLogging=0,address=tcp://*:5555,address=tcp://*:5556"
@@ -25,6 +28,7 @@ SINK1="fairmq-ex-copypush-sink"
SINK1+=" --id sink1"
SINK1+=" --transport $transport"
SINK1+=" --verbosity veryhigh"
SINK1+=" --session $SESSION"
SINK1+=" --control static --color false"
SINK1+=" --max-iterations 1"
SINK1+=" --channel-config name=data,type=pull,method=connect,rateLogging=0,address=tcp://localhost:5555"
@@ -35,6 +39,7 @@ SINK2="fairmq-ex-copypush-sink"
SINK2+=" --id sink2"
SINK2+=" --transport $transport"
SINK2+=" --verbosity veryhigh"
SINK2+=" --session $SESSION"
SINK2+=" --control static --color false"
SINK2+=" --max-iterations 1"
SINK2+=" --channel-config name=data,type=pull,method=connect,rateLogging=0,address=tcp://localhost:5556"

4
examples/multipart/test-ex-multipart.sh.in
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@@ -8,6 +8,8 @@ if [[ $1 =~ ^[a-z]+$ ]]; then
transport=$1
fi
SESSION="$(@CMAKE_BINARY_DIR@/fairmq/fairmq-uuid-gen -h)"
# setup a trap to kill everything if the test fails/timeouts
trap 'kill -TERM $SAMPLER_PID; kill -TERM $SINK_PID; wait $SAMPLER_PID; wait $SINK_PID;' TERM
@@ -15,6 +17,7 @@ SAMPLER="fairmq-ex-multipart-sampler"
SAMPLER+=" --id sampler1"
SAMPLER+=" --transport $transport"
SAMPLER+=" --verbosity veryhigh"
SAMPLER+=" --session $SESSION"
SAMPLER+=" --max-iterations 1"
SAMPLER+=" --control static --color false"
SAMPLER+=" --channel-config name=data,type=push,method=connect,rateLogging=0,address=tcp://127.0.0.1:5555"
@@ -25,6 +28,7 @@ SINK="fairmq-ex-multipart-sink"
SINK+=" --id sink1"
SINK+=" --transport $transport"
SINK+=" --verbosity veryhigh"
SINK+=" --session $SESSION"
SINK+=" --control static --color false"
SINK+=" --channel-config name=data,type=pull,method=bind,rateLogging=0,address=tcp://127.0.0.1:5555"
@CMAKE_CURRENT_BINARY_DIR@/$SINK &

4
examples/region/fairmq-start-ex-region.sh.in
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@@ -14,12 +14,12 @@ SAMPLER+=" --severity debug"
SAMPLER+=" --msg-size $msgSize"
# SAMPLER+=" --rate 10"
SAMPLER+=" --transport shmem"
SAMPLER+=" --channel-config name=data,type=push,method=bind,address=tcp://127.0.0.1:7777"
SAMPLER+=" --channel-config name=data,type=push,method=bind,address=tcp://127.0.0.1:7777,sndKernelSize=212992"
xterm -geometry 80x23+0+0 -hold -e @EX_BIN_DIR@/$SAMPLER &
SINK="fairmq-ex-region-sink"
SINK+=" --id sink1"
SINK+=" --severity debug"
SINK+=" --transport shmem"
SINK+=" --channel-config name=data,type=pull,method=connect,address=tcp://127.0.0.1:7777"
SINK+=" --channel-config name=data,type=pull,method=connect,address=tcp://127.0.0.1:7777,rcvKernelSize=212992"
xterm -geometry 80x23+500+0 -hold -e @EX_BIN_DIR@/$SINK &

4
examples/req-rep/test-ex-req-rep.sh.in
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@@ -8,6 +8,8 @@ if [[ $1 =~ ^[a-z]+$ ]]; then
transport=$1
fi
SESSION="$(@CMAKE_BINARY_DIR@/fairmq/fairmq-uuid-gen -h)"
# setup a trap to kill everything if the test fails/timeouts
trap 'kill -TERM $CLIENT_PID; kill -TERM $SERVER_PID; wait $CLIENT_PID; wait $SERVER_PID;' TERM
@@ -15,6 +17,7 @@ CLIENT="fairmq-ex-req-rep-client"
CLIENT+=" --id client"
CLIENT+=" --transport $transport"
CLIENT+=" --verbosity veryhigh"
CLIENT+=" --session $SESSION"
CLIENT+=" --control static --color false"
CLIENT+=" --max-iterations 1"
CLIENT+=" --channel-config name=data,type=req,method=connect,rateLogging=0,address=tcp://127.0.0.1:5005"
@@ -25,6 +28,7 @@ SERVER="fairmq-ex-req-rep-server"
SERVER+=" --id server"
SERVER+=" --transport $transport"
SERVER+=" --verbosity veryhigh"
SERVER+=" --session $SESSION"
SERVER+=" --control static --color false"
SERVER+=" --max-iterations 1"
SERVER+=" --channel-config name=data,type=rep,method=bind,rateLogging=0,address=tcp://127.0.0.1:5005"

5
fairmq/CMakeLists.txt
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@@ -28,7 +28,6 @@ endif()
##################
# subdirectories #
##################
# add_subdirectory(shmem/prototype)
if(BUILD_OFI_TRANSPORT)
add_subdirectory(ofi)
endif()
@@ -50,6 +49,8 @@ set(FAIRMQ_PUBLIC_HEADER_FILES
FairMQSocket.h
FairMQStateMachine.h
FairMQTransportFactory.h
MemoryResources.h
MemoryResourceTools.h
Tools.h
Transports.h
options/FairMQProgOptions.h
@@ -156,6 +157,7 @@ set(FAIRMQ_SOURCE_FILES
zeromq/FairMQUnmanagedRegionZMQ.cxx
zeromq/FairMQSocketZMQ.cxx
zeromq/FairMQTransportFactoryZMQ.cxx
MemoryResources.cxx
)
if(BUILD_NANOMSG_TRANSPORT)
@@ -233,6 +235,7 @@ endif()
target_link_libraries(${_target}
INTERFACE # only consumers link against interface dependencies
Boost::container
PUBLIC # libFairMQ AND consumers of libFairMQ link aginst public dependencies
Threads::Threads

6
fairmq/DeviceRunner.cxx
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@@ -111,12 +111,10 @@ auto DeviceRunner::RunWithExceptionHandlers() -> int
try {
return Run();
} catch (std::exception& e) {
LOG(error) << "Unhandled exception reached the top of main: " << e.what()
<< ", application will now exit";
LOG(error) << "Uncaught exception reached the top of DeviceRunner: " << e.what();
return 1;
} catch (...) {
LOG(error) << "Non-exception instance being thrown. Please make sure you use "
"std::runtime_exception() instead. Application will now exit.";
LOG(error) << "Uncaught exception reached the top of DeviceRunner.";
return 1;
}
}

833
fairmq/FairMQChannel.cxx
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File diff suppressed because it is too large Load Diff

134
fairmq/FairMQChannel.h
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@@ -14,6 +14,7 @@
#include <vector>
#include <atomic>
#include <mutex>
#include <stdexcept>
#include <FairMQTransportFactory.h>
#include <FairMQSocket.h>
@@ -51,7 +52,9 @@ class FairMQChannel
/// Default destructor
virtual ~FairMQChannel();
FairMQSocket const & GetSocket() const;
struct ChannelConfigurationError : std::runtime_error { using std::runtime_error::runtime_error; };
FairMQSocket& GetSocket() const;
auto Bind(const std::string& address) -> bool
{
@@ -111,6 +114,10 @@ class FairMQChannel
/// @return Returns socket kernel transmit receive buffer size (in bytes)
int GetRcvKernelSize() const;
/// Get linger duration (in milliseconds)
/// @return Returns linger duration (in milliseconds)
int GetLinger() const;
/// Get socket rate logging interval (in seconds)
/// @return Returns socket rate logging interval (in seconds)
int GetRateLogging() const;
@@ -147,6 +154,10 @@ class FairMQChannel
/// @param rcvKernelSize Socket receive buffer size (in bytes)
void UpdateRcvKernelSize(const int rcvKernelSize);
/// Set linger duration (in milliseconds)
/// @param duration linger duration (in milliseconds)
void UpdateLinger(const int duration);
/// Set socket rate logging interval (in seconds)
/// @param rateLogging Socket rate logging interval (in seconds)
void UpdateRateLogging(const int rateLogging);
@@ -166,106 +177,62 @@ class FairMQChannel
/// Resets the channel (requires validation to be used again).
void ResetChannel();
int Send(FairMQMessagePtr& msg) const;
int Receive(FairMQMessagePtr& msg) const;
/// Sends a message to the socket queue.
/// @details Send method attempts to send a message by
/// putting it in the output queue. If the queue is full or queueing is not possible
/// for some other reason (e.g. no peers connected for a binding socket), the method blocks.
///
/// @param msg Constant reference of unique_ptr to a FairMQMessage
/// @return Number of bytes that have been queued. -2 If queueing was not possible or timed out.
/// In case of errors, returns -1.
int Send(FairMQMessagePtr& msg, int sndTimeoutInMs) const;
/// @param sndTimeoutInMs send timeout in ms. -1 will wait forever (or until interrupt (e.g. via state change)), 0 will not wait (return immediately if cannot send)
/// @return Number of bytes that have been queued. -2 If queueing was not possible or timed out. -1 if there was an error.
int Send(FairMQMessagePtr& msg, int sndTimeoutInMs = -1);
/// Receives a message from the socket queue.
/// @details Receive method attempts to receive a message from the input queue.
/// If the queue is empty the method blocks.
///
/// @param msg Constant reference of unique_ptr to a FairMQMessage
/// @return Number of bytes that have been received. -2 If reading from the queue was not possible or timed out.
/// In case of errors, returns -1.
int Receive(FairMQMessagePtr& msg, int rcvTimeoutInMs) const;
/// @param rcvTimeoutInMs receive timeout in ms. -1 will wait forever (or until interrupt (e.g. via state change)), 0 will not wait (return immediately if cannot receive)
/// @return Number of bytes that have been received. -2 if reading from the queue was not possible or timed out. -1 if there was an error.
int Receive(FairMQMessagePtr& msg, int rcvTimeoutInMs = -1);
/// Sends a message in non-blocking mode.
/// @details SendAsync method attempts to send a message without blocking by
/// putting it in the queue.
///
/// @param msg Constant reference of unique_ptr to a FairMQMessage
/// @return Number of bytes that have been queued. If queueing failed due to
/// full queue or no connected peers (when binding), returns -2.
/// In case of errors, returns -1.
int SendAsync(FairMQMessagePtr& msg) const;
/// Receives a message in non-blocking mode.
///
/// @param msg Constant reference of unique_ptr to a FairMQMessage
/// @return Number of bytes that have been received. If queue is empty, returns -2.
/// In case of errors, returns -1.
int ReceiveAsync(FairMQMessagePtr& msg) const;
int64_t Send(std::vector<FairMQMessagePtr>& msgVec) const;
int64_t Receive(std::vector<FairMQMessagePtr>& msgVec) const;
int SendAsync(FairMQMessagePtr& msg) __attribute__((deprecated("For non-blocking Send, use timeout version with timeout of 0: Send(msg, timeout);")));
int ReceiveAsync(FairMQMessagePtr& msg) __attribute__((deprecated("For non-blocking Receive, use timeout version with timeout of 0: Receive(msg, timeout);")));
/// Send a vector of messages
///
/// @param msgVec message vector reference
/// @return Number of bytes that have been queued. -2 If queueing was not possible or timed out.
/// In case of errors, returns -1.
int64_t Send(std::vector<FairMQMessagePtr>& msgVec, int sndTimeoutInMs) const;
/// @param sndTimeoutInMs send timeout in ms. -1 will wait forever (or until interrupt (e.g. via state change)), 0 will not wait (return immediately if cannot send)
/// @return Number of bytes that have been queued. -2 If queueing was not possible or timed out. -1 if there was an error.
int64_t Send(std::vector<FairMQMessagePtr>& msgVec, int sndTimeoutInMs = -1);
/// Receive a vector of messages
///
/// @param msgVec message vector reference
/// @return Number of bytes that have been received. -2 If reading from the queue was not possible or timed out.
/// In case of errors, returns -1.
int64_t Receive(std::vector<FairMQMessagePtr>& msgVec, int rcvTimeoutInMs) const;
/// @param rcvTimeoutInMs receive timeout in ms. -1 will wait forever (or until interrupt (e.g. via state change)), 0 will not wait (return immediately if cannot receive)
/// @return Number of bytes that have been received. -2 if reading from the queue was not possible or timed out. -1 if there was an error.
int64_t Receive(std::vector<FairMQMessagePtr>& msgVec, int rcvTimeoutInMs = -1);
/// Sends a vector of message in non-blocking mode.
/// @details SendAsync method attempts to send a vector of messages without blocking by
/// putting it them the queue.
///
/// @param msgVec message vector reference
/// @return Number of bytes that have been queued. If queueing failed due to
/// full queue or no connected peers (when binding), returns -2. In case of errors, returns -1.
int64_t SendAsync(std::vector<FairMQMessagePtr>& msgVec) const;
int64_t SendAsync(std::vector<FairMQMessagePtr>& msgVec) __attribute__((deprecated("For non-blocking Send, use timeout version with timeout of 0: Send(msgVec, timeout);")));
int64_t ReceiveAsync(std::vector<FairMQMessagePtr>& msgVec) __attribute__((deprecated("For non-blocking Receive, use timeout version with timeout of 0: Receive(msgVec, timeout);")));
/// Receives a vector of messages in non-blocking mode.
///
/// @param msgVec message vector reference
/// @return Number of bytes that have been received. If queue is empty, returns -2.
/// In case of errors, returns -1.
int64_t ReceiveAsync(std::vector<FairMQMessagePtr>& msgVec) const;
int64_t Send(FairMQParts& parts) const
{
return Send(parts.fParts);
}
int64_t Receive(FairMQParts& parts) const
{
return Receive(parts.fParts);
}
int64_t Send(FairMQParts& parts, int sndTimeoutInMs) const
/// Send FairMQParts
/// @param parts FairMQParts reference
/// @param sndTimeoutInMs send timeout in ms. -1 will wait forever (or until interrupt (e.g. via state change)), 0 will not wait (return immediately if cannot send)
/// @return Number of bytes that have been queued. -2 If queueing was not possible or timed out. -1 if there was an error.
int64_t Send(FairMQParts& parts, int sndTimeoutInMs = -1)
{
return Send(parts.fParts, sndTimeoutInMs);
}
int64_t Receive(FairMQParts& parts, int rcvTimeoutInMs) const
/// Receive FairMQParts
/// @param parts FairMQParts reference
/// @param rcvTimeoutInMs receive timeout in ms. -1 will wait forever (or until interrupt (e.g. via state change)), 0 will not wait (return immediately if cannot receive)
/// @return Number of bytes that have been received. -2 if reading from the queue was not possible or timed out. -1 if there was an error.
int64_t Receive(FairMQParts& parts, int rcvTimeoutInMs = -1)
{
return Receive(parts.fParts, rcvTimeoutInMs);
}
int64_t SendAsync(FairMQParts& parts) const
int64_t SendAsync(FairMQParts& parts) __attribute__((deprecated("For non-blocking Send, use timeout version with timeout of 0: Send(parts, timeout);")))
{
return SendAsync(parts.fParts);
return Send(parts.fParts, 0);
}
int64_t ReceiveAsync(FairMQParts& parts) const
int64_t ReceiveAsync(FairMQParts& parts) __attribute__((deprecated("For non-blocking Receive, use timeout version with timeout of 0: Receive(parts, timeout);")))
{
return ReceiveAsync(parts.fParts);
return Receive(parts.fParts, 0);
}
unsigned long GetBytesTx() const;
@@ -273,25 +240,25 @@ class FairMQChannel
unsigned long GetMessagesTx() const;
unsigned long GetMessagesRx() const;
auto Transport() const -> const FairMQTransportFactory*
auto Transport() -> FairMQTransportFactory*
{
return fTransportFactory.get();
};
template<typename... Args>
FairMQMessagePtr NewMessage(Args&&... args) const
FairMQMessagePtr NewMessage(Args&&... args)
{
return Transport()->CreateMessage(std::forward<Args>(args)...);
}
template<typename T>
FairMQMessagePtr NewSimpleMessage(const T& data) const
FairMQMessagePtr NewSimpleMessage(const T& data)
{
return Transport()->NewSimpleMessage(data);
}
template<typename T>
FairMQMessagePtr NewStaticMessage(const T& data) const
FairMQMessagePtr NewStaticMessage(const T& data)
{
return Transport()->NewStaticMessage(data);
}
@@ -307,6 +274,7 @@ class FairMQChannel
int fRcvBufSize;
int fSndKernelSize;
int fRcvKernelSize;
int fLinger;
int fRateLogging;
std::string fName;
@@ -314,10 +282,10 @@ class FairMQChannel
std::shared_ptr<FairMQTransportFactory> fTransportFactory;
void CheckSendCompatibility(FairMQMessagePtr& msg) const;
void CheckSendCompatibility(std::vector<FairMQMessagePtr>& msgVec) const;
void CheckReceiveCompatibility(FairMQMessagePtr& msg) const;
void CheckReceiveCompatibility(std::vector<FairMQMessagePtr>& msgVec) const;
void CheckSendCompatibility(FairMQMessagePtr& msg);
void CheckSendCompatibility(std::vector<FairMQMessagePtr>& msgVec);
void CheckReceiveCompatibility(FairMQMessagePtr& msg);
void CheckReceiveCompatibility(std::vector<FairMQMessagePtr>& msgVec);
void InitTransport(std::shared_ptr<FairMQTransportFactory> factory);

173
fairmq/FairMQDevice.cxx
View File

@@ -16,7 +16,6 @@
#include <list>
#include <cstdlib>
#include <stdexcept>
#include <random>
#include <chrono>
#include <mutex>
@@ -24,6 +23,7 @@
#include <functional>
#include <sstream>
#include <iomanip>
#include <future>
#include <algorithm> // std::max
using namespace std;
@@ -55,9 +55,6 @@ FairMQDevice::FairMQDevice(FairMQProgOptions* config, const fair::mq::tools::Ver
, fInternalConfig(config ? nullptr : fair::mq::tools::make_unique<FairMQProgOptions>())
, fConfig(config ? config : fInternalConfig.get())
, fId()
, fInitialValidationFinished(false)
, fInitialValidationCondition()
, fInitialValidationMutex()
, fPortRangeMin(22000)
, fPortRangeMax(32000)
, fDefaultTransportType(fair::mq::Transport::DEFAULT)
@@ -72,6 +69,10 @@ FairMQDevice::FairMQDevice(FairMQProgOptions* config, const fair::mq::tools::Ver
, fVersion(version)
, fRate(0.)
, fRawCmdLineArgs()
, fInterrupted(false)
, fInterruptedCV()
, fInterruptedMtx()
, fRateLogging(true)
{
}
@@ -82,13 +83,12 @@ void FairMQDevice::InitWrapper()
fPortRangeMin = fConfig->GetValue<int>("port-range-min");
fPortRangeMax = fConfig->GetValue<int>("port-range-max");
try
{
try {
fDefaultTransportType = fair::mq::TransportTypes.at(fConfig->GetValue<string>("transport"));
}
catch (const exception& e)
{
} catch (const exception& e) {
LOG(error) << "exception: " << e.what();
LOG(error) << "invalid transport type provided: " << fConfig->GetValue<string>("transport");
throw;
}
for (auto& c : fConfig->GetFairMQMap())
@@ -155,9 +155,8 @@ void FairMQDevice::InitWrapper()
}
else
{
LOG(error) << "Cannot update configuration. Socket method (bind/connect) not specified.";
ChangeState(ERROR_FOUND);
// throw runtime_error("Cannot update configuration. Socket method (bind/connect) not specified.");
LOG(error) << "Cannot update configuration. Socket method (bind/connect) for channel '" << vi->fName << "' not specified.";
throw runtime_error(fair::mq::tools::ToString("Cannot update configuration. Socket method (bind/connect) for channel ", vi->fName, " not specified."));
}
// }
}
@@ -167,22 +166,14 @@ void FairMQDevice::InitWrapper()
// If necessary this could be handled in the same way as the connecting channels
AttachChannels(uninitializedBindingChannels);
if (uninitializedBindingChannels.size() > 0)
if (!uninitializedBindingChannels.empty())
{
LOG(error) << uninitializedBindingChannels.size() << " of the binding channels could not initialize. Initial configuration incomplete.";
ChangeState(ERROR_FOUND);
// throw runtime_error(fair::mq::tools::ToString(uninitializedBindingChannels.size(), " of the binding channels could not initialize. Initial configuration incomplete."));
throw runtime_error(fair::mq::tools::ToString(uninitializedBindingChannels.size(), " of the binding channels could not initialize. Initial configuration incomplete."));
}
CallStateChangeCallbacks(INITIALIZING_DEVICE);
// notify parent thread about completion of first validation.
{
lock_guard<mutex> lock(fInitialValidationMutex);
fInitialValidationFinished = true;
fInitialValidationCondition.notify_one();
}
int initializationTimeoutInS = fConfig->GetValue<int>("initialization-timeout");
// go over the list of channels until all are initialized (and removed from the uninitialized list)
@@ -196,24 +187,20 @@ void FairMQDevice::InitWrapper()
{
this_thread::sleep_for(chrono::milliseconds(sleepTimeInMS));
if (fConfig)
for (auto& chan : uninitializedConnectingChannels)
{
for (auto& chan : uninitializedConnectingChannels)
string key{"chans." + chan->GetChannelPrefix() + "." + chan->GetChannelIndex() + ".address"};
string newAddress = fConfig->GetValue<string>(key);
if (newAddress != chan->GetAddress())
{
string key{"chans." + chan->GetChannelPrefix() + "." + chan->GetChannelIndex() + ".address"};
string newAddress = fConfig->GetValue<string>(key);
if (newAddress != chan->GetAddress())
{
chan->UpdateAddress(newAddress);
}
chan->UpdateAddress(newAddress);
}
}
if (numAttempts++ > maxAttempts)
{
LOG(error) << "could not connect all channels after " << initializationTimeoutInS << " attempts";
ChangeState(ERROR_FOUND);
// throw runtime_error(fair::mq::tools::ToString("could not connect all channels after ", initializationTimeoutInS, " attempts"));
throw runtime_error(fair::mq::tools::ToString("could not connect all channels after ", initializationTimeoutInS, " attempts"));
}
AttachChannels(uninitializedConnectingChannels);
@@ -221,13 +208,11 @@ void FairMQDevice::InitWrapper()
Init();
ChangeState(internal_DEVICE_READY);
}
if (fChannels.empty()) {
LOG(warn) << "No channels created after finishing initialization";
}
void FairMQDevice::WaitForInitialValidation()
{
unique_lock<mutex> lock(fInitialValidationMutex);
fInitialValidationCondition.wait(lock, [&] () { return fInitialValidationFinished; });
ChangeState(internal_DEVICE_READY);
}
void FairMQDevice::Init()
@@ -291,18 +276,21 @@ bool FairMQDevice::AttachChannel(FairMQChannel& ch)
}
}
// set high water marks
ch.fSocket->SetOption("snd-hwm", &(ch.fSndBufSize), sizeof(ch.fSndBufSize));
ch.fSocket->SetOption("rcv-hwm", &(ch.fRcvBufSize), sizeof(ch.fRcvBufSize));
// set linger duration (how long socket should wait for outstanding transfers before shutdown)
ch.fSocket->SetLinger(ch.fLinger);
// set kernel transmit size
// set high water marks
ch.fSocket->SetSndBufSize(ch.fSndBufSize);
ch.fSocket->SetRcvBufSize(ch.fRcvBufSize);
// set kernel transmit size (set it only if value is not the default value)
if (ch.fSndKernelSize != 0)
{
ch.fSocket->SetOption("snd-size", &(ch.fSndKernelSize), sizeof(ch.fSndKernelSize));
ch.fSocket->SetSndKernelSize(ch.fSndKernelSize);
}
if (ch.fRcvKernelSize != 0)
{
ch.fSocket->SetOption("rcv-size", &(ch.fRcvKernelSize), sizeof(ch.fRcvKernelSize));
ch.fSocket->SetRcvKernelSize(ch.fRcvKernelSize);
}
// attach
@@ -327,7 +315,7 @@ bool FairMQDevice::AttachChannel(FairMQChannel& ch)
if (address.compare(0, 6, "tcp://") == 0)
{
string addressString = address.substr(6);
auto pos = addressString.find(":");
auto pos = addressString.find(':');
string hostPart = addressString.substr(0, pos);
if (!(bind && hostPart == "*"))
{
@@ -361,7 +349,7 @@ bool FairMQDevice::AttachChannel(FairMQChannel& ch)
}
endpoint += address;
LOG(debug) << "Attached channel " << ch.fName << " to " << endpoint << (bind ? " (bind) " : " (connect) ");
LOG(debug) << "Attached channel " << ch.fName << " to " << endpoint << (bind ? " (bind) " : " (connect) ") << "(" << ch.fType << ")";
// after the book keeping is done, exit in case of errors
if (!success)
@@ -375,11 +363,8 @@ bool FairMQDevice::AttachChannel(FairMQChannel& ch)
if (newAddress != ch.fAddress)
{
ch.UpdateAddress(newAddress);
if (fConfig)
{
string key{"chans." + ch.GetChannelPrefix() + "." + ch.GetChannelIndex() + ".address"};
fConfig->SetValue(key, newAddress);
}
string key{"chans." + ch.GetChannelPrefix() + "." + ch.GetChannelIndex() + ".address"};
fConfig->SetValue(key, newAddress);
}
return true;
@@ -414,7 +399,7 @@ bool FairMQDevice::BindEndpoint(FairMQSocket& socket, string& endpoint)
return false;
}
size_t pos = endpoint.rfind(":");
size_t pos = endpoint.rfind(':');
endpoint = endpoint.substr(0, pos + 1) + fair::mq::tools::ToString(static_cast<int>(randomPort(generator)));
}
@@ -464,15 +449,15 @@ void FairMQDevice::PrintChannel(const string& name)
{
if (fChannels.find(name) != fChannels.end())
{
for (auto vi = fChannels[name].begin(); vi != fChannels[name].end(); ++vi)
for (const auto& vi : fChannels[name])
{
LOG(info) << vi->fName << ": "
<< vi->fType << " | "
<< vi->fMethod << " | "
<< vi->fAddress << " | "
<< vi->fSndBufSize << " | "
<< vi->fRcvBufSize << " | "
<< vi->fRateLogging;
LOG(info) << vi.fName << ": "
<< vi.fType << " | "
<< vi.fMethod << " | "
<< vi.fAddress << " | "
<< vi.fSndBufSize << " | "
<< vi.fRcvBufSize << " | "
<< vi.fRateLogging;
}
}
else
@@ -488,16 +473,20 @@ void FairMQDevice::RunWrapper()
LOG(info) << "DEVICE: Running...";
// start the rate logger thread
thread rateLogger(&FairMQDevice::LogSocketRates, this);
fRateLogging = true;
future<void> rateLogger = async(launch::async, &FairMQDevice::LogSocketRates, this);
// notify transports to resume transfers
{
lock_guard<mutex> guard(fInterruptedMtx);
fInterrupted = false;
}
for (auto& t : fTransports)
{
t.second->Resume();
}
try
{
try {
PreRun();
// process either data callbacks or ConditionalRun/Run
@@ -527,11 +516,14 @@ void FairMQDevice::RunWrapper()
Run();
}
}
catch (const out_of_range& oor)
{
} catch (const out_of_range& oor) {
LOG(error) << "out of range: " << oor.what();
LOG(error) << "incorrect/incomplete channel configuration?";
fRateLogging = false;
throw;
} catch (...) {
fRateLogging = false;
throw;
}
// if Run() exited and the state is still RUNNING, transition to READY.
@@ -542,7 +534,7 @@ void FairMQDevice::RunWrapper()
PostRun();
rateLogger.join();
rateLogger.get();
}
void FairMQDevice::HandleSingleChannelInput()
@@ -585,17 +577,17 @@ void FairMQDevice::HandleMultipleChannelInput()
for (const auto& mi : fMsgInputs)
{
for (unsigned int i = 0; i < fChannels.at(mi.first).size(); ++i)
for (auto& i : fChannels.at(mi.first))
{
fChannels.at(mi.first).at(i).fMultipart = false;
i.fMultipart = false;
}
}
for (const auto& mi : fMultipartInputs)
{
for (unsigned int i = 0; i < fChannels.at(mi.first).size(); ++i)
for (auto& i : fChannels.at(mi.first))
{
fChannels.at(mi.first).at(i).fMultipart = true;
i.fMultipart = true;
}
}
@@ -653,7 +645,7 @@ void FairMQDevice::HandleMultipleTransportInput()
for (const auto& i : fMultitransportInputs)
{
threads.push_back(thread(&FairMQDevice::PollForTransport, this, fTransports.at(i.first).get(), i.second));
threads.emplace_back(thread(&FairMQDevice::PollForTransport, this, fTransports.at(i.first).get(), i.second));
}
for (thread& t : threads)
@@ -710,11 +702,11 @@ void FairMQDevice::PollForTransport(const FairMQTransportFactory* factory, const
catch (exception& e)
{
LOG(error) << "FairMQDevice::PollForTransport() failed: " << e.what() << ", going to ERROR state.";
ChangeState(ERROR_FOUND);
throw runtime_error(fair::mq::tools::ToString("FairMQDevice::PollForTransport() failed: ", e.what(), ", going to ERROR state."));
}
}
bool FairMQDevice::HandleMsgInput(const string& chName, const InputMsgCallback& callback, int i) const
bool FairMQDevice::HandleMsgInput(const string& chName, const InputMsgCallback& callback, int i)
{
unique_ptr<FairMQMessage> input(fChannels.at(chName).at(i).fTransportFactory->CreateMessage());
@@ -728,7 +720,7 @@ bool FairMQDevice::HandleMsgInput(const string& chName, const InputMsgCallback&
}
}
bool FairMQDevice::HandleMultipartInput(const string& chName, const InputMultipartCallback& callback, int i) const
bool FairMQDevice::HandleMultipartInput(const string& chName, const InputMultipartCallback& callback, int i)
{
FairMQParts input;
@@ -809,8 +801,6 @@ void FairMQDevice::LogSocketRates()
chrono::time_point<chrono::high_resolution_clock> t0;
chrono::time_point<chrono::high_resolution_clock> t1;
unsigned long long msSinceLastLog;
vector<FairMQSocket*> filteredSockets;
vector<string> filteredChannelNames;
vector<int> logIntervals;
@@ -868,11 +858,11 @@ void FairMQDevice::LogSocketRates()
LOG(debug) << "<channel>: in: <#msgs> (<MB>) out: <#msgs> (<MB>)";
while (CheckCurrentState(RUNNING))
while (fRateLogging)
{
t1 = chrono::high_resolution_clock::now();
msSinceLastLog = chrono::duration_cast<chrono::milliseconds>(t1 - t0).count();
unsigned long long msSinceLastLog = chrono::duration_cast<chrono::milliseconds>(t1 - t0).count();
i = 0;
@@ -908,7 +898,7 @@ void FairMQDevice::LogSocketRates()
}
t0 = t1;
this_thread::sleep_for(chrono::milliseconds(1000));
WaitFor(chrono::milliseconds(1000));
}
}
}
@@ -919,6 +909,12 @@ void FairMQDevice::Unblock()
{
t.second->Interrupt();
}
{
lock_guard<mutex> guard(fInterruptedMtx);
fInterrupted = true;
fRateLogging = false;
}
fInterruptedCV.notify_all();
}
void FairMQDevice::ResetTaskWrapper()
@@ -938,13 +934,11 @@ void FairMQDevice::ResetWrapper()
{
CallStateChangeCallbacks(RESETTING_DEVICE);
Reset();
for (auto& t : fTransports)
{
t.second->Reset();
}
ChangeState(internal_IDLE);
}
void FairMQDevice::Reset()
{
// iterate over the channels map
for (auto& mi : fChannels)
{
@@ -955,11 +949,14 @@ void FairMQDevice::Reset()
vi.fSocket.reset(); // destroy FairMQSocket
}
}
Reset();
ChangeState(internal_IDLE);
}
const FairMQChannel& FairMQDevice::GetChannel(const string& channelName, const int index) const
void FairMQDevice::Reset()
{
return fChannels.at(channelName).at(index);
}
void FairMQDevice::Exit()

183
fairmq/FairMQDevice.h
View File

@@ -25,11 +25,13 @@
#include <memory> // unique_ptr
#include <algorithm> // std::sort()
#include <string>
#include <chrono>
#include <iostream>
#include <unordered_map>
#include <functional>
#include <assert.h> // static_assert
#include <type_traits> // is_trivially_copyable
#include <stdexcept>
#include <mutex>
#include <condition_variable>
@@ -95,154 +97,108 @@ class FairMQDevice : public FairMQStateMachine
Deserializer().Deserialize(msg, std::forward<DataType>(data), std::forward<Args>(args)...);
}
int Send(FairMQMessagePtr& msg, const std::string& chan, const int i = 0) const
{
return fChannels.at(chan).at(i).Send(msg);
}
int Receive(FairMQMessagePtr& msg, const std::string& chan, const int i = 0) const
{
return fChannels.at(chan).at(i).Receive(msg);
}
/// Shorthand method to send `msg` on `chan` at index `i`
/// @param msg message reference
/// @param chan channel name
/// @param i channel index
/// @return Number of bytes that have been queued. -2 If queueing was not possible or timed out.
/// In case of errors, returns -1.
int Send(FairMQMessagePtr& msg, const std::string& chan, const int i, int sndTimeoutInMs) const
/// @param sndTimeoutInMs send timeout in ms, -1 will wait forever (or until interrupt (e.g. via state change)), 0 will not wait (return immediately if cannot send)
/// @return Number of bytes that have been queued. -2 If queueing was not possible or timed out. -1 if there was an error.
int Send(FairMQMessagePtr& msg, const std::string& channel, const int index = 0, int sndTimeoutInMs = -1)
{
return fChannels.at(chan).at(i).Send(msg, sndTimeoutInMs);
return GetChannel(channel, index).Send(msg, sndTimeoutInMs);
}
/// Shorthand method to receive `msg` on `chan` at index `i`
/// @param msg message reference
/// @param chan channel name
/// @param i channel index
/// @return Number of bytes that have been received. -2 If reading from the queue was not possible or timed out.
/// In case of errors, returns -1.
int Receive(FairMQMessagePtr& msg, const std::string& chan, const int i, int rcvTimeoutInMs) const
/// @param rcvTimeoutInMs receive timeout in ms, -1 will wait forever (or until interrupt (e.g. via state change)), 0 will not wait (return immediately if cannot receive)
/// @return Number of bytes that have been received. -2 if reading from the queue was not possible or timed out. -1 if there was an error.
int Receive(FairMQMessagePtr& msg, const std::string& channel, const int index = 0, int rcvTimeoutInMs = -1)
{
return fChannels.at(chan).at(i).Receive(msg, rcvTimeoutInMs);
return GetChannel(channel, index).Receive(msg, rcvTimeoutInMs);
}
/// Shorthand method to send `msg` on `chan` at index `i` without blocking
/// @param msg message reference
/// @param chan channel name
/// @param i channel index
/// @return Number of bytes that have been queued. -2 If queueing was not possible or timed out.
/// In case of errors, returns -1.
int SendAsync(FairMQMessagePtr& msg, const std::string& chan, const int i = 0) const
int SendAsync(FairMQMessagePtr& msg, const std::string& channel, const int index = 0) __attribute__((deprecated("For non-blocking Send, use timeout version with timeout of 0: Send(msg, \"channelA\", subchannelIndex, timeout);")))
{
return fChannels.at(chan).at(i).SendAsync(msg);
return GetChannel(channel, index).Send(msg, 0);
}
/// Shorthand method to receive `msg` on `chan` at index `i` without blocking
/// @param msg message reference
/// @param chan channel name
/// @param i channel index
/// @return Number of bytes that have been received. -2 If reading from the queue was not possible or timed out.
/// In case of errors, returns -1.
int ReceiveAsync(FairMQMessagePtr& msg, const std::string& chan, const int i = 0) const
int ReceiveAsync(FairMQMessagePtr& msg, const std::string& channel, const int index = 0) __attribute__((deprecated("For non-blocking Receive, use timeout version with timeout of 0: Receive(msg, \"channelA\", subchannelIndex, timeout);")))
{
return fChannels.at(chan).at(i).ReceiveAsync(msg);
}
int64_t Send(FairMQParts& parts, const std::string& chan, const int i = 0) const
{
return fChannels.at(chan).at(i).Send(parts.fParts);
}
int64_t Receive(FairMQParts& parts, const std::string& chan, const int i = 0) const
{
return fChannels.at(chan).at(i).Receive(parts.fParts);
return GetChannel(channel, index).Receive(msg, 0);
}
/// Shorthand method to send FairMQParts on `chan` at index `i`
/// @param parts parts reference
/// @param chan channel name
/// @param i channel index
/// @return Number of bytes that have been queued. -2 If queueing was not possible or timed out.
/// In case of errors, returns -1.
int64_t Send(FairMQParts& parts, const std::string& chan, const int i, int sndTimeoutInMs) const
/// @param sndTimeoutInMs send timeout in ms, -1 will wait forever (or until interrupt (e.g. via state change)), 0 will not wait (return immediately if cannot send)
/// @return Number of bytes that have been queued. -2 If queueing was not possible or timed out. -1 if there was an error.
int64_t Send(FairMQParts& parts, const std::string& channel, const int index = 0, int sndTimeoutInMs = -1)
{
return fChannels.at(chan).at(i).Send(parts.fParts, sndTimeoutInMs);
return GetChannel(channel, index).Send(parts.fParts, sndTimeoutInMs);
}
/// Shorthand method to receive FairMQParts on `chan` at index `i`
/// @param parts parts reference
/// @param chan channel name
/// @param i channel index
/// @return Number of bytes that have been received. -2 If reading from the queue was not possible or timed out.
/// In case of errors, returns -1.
int64_t Receive(FairMQParts& parts, const std::string& chan, const int i, int rcvTimeoutInMs) const
/// @param rcvTimeoutInMs receive timeout in ms, -1 will wait forever (or until interrupt (e.g. via state change)), 0 will not wait (return immediately if cannot receive)
/// @return Number of bytes that have been received. -2 if reading from the queue was not possible or timed out. -1 if there was an error.
int64_t Receive(FairMQParts& parts, const std::string& channel, const int index = 0, int rcvTimeoutInMs = -1)
{
return fChannels.at(chan).at(i).Receive(parts.fParts, rcvTimeoutInMs);
return GetChannel(channel, index).Receive(parts.fParts, rcvTimeoutInMs);
}
/// Shorthand method to send FairMQParts on `chan` at index `i` without blocking
/// @param parts parts reference
/// @param chan channel name
/// @param i channel index
/// @return Number of bytes that have been queued. -2 If queueing was not possible or timed out.
/// In case of errors, returns -1.
int64_t SendAsync(FairMQParts& parts, const std::string& chan, const int i = 0) const
int64_t SendAsync(FairMQParts& parts, const std::string& channel, const int index = 0) __attribute__((deprecated("For non-blocking Send, use timeout version with timeout of 0: Send(parts, \"channelA\", subchannelIndex, timeout);")))
{
return fChannels.at(chan).at(i).SendAsync(parts.fParts);
return GetChannel(channel, index).Send(parts.fParts, 0);
}
/// Shorthand method to receive FairMQParts on `chan` at index `i` without blocking
/// @param parts parts reference
/// @param chan channel name
/// @param i channel index
/// @return Number of bytes that have been received. -2 If reading from the queue was not possible or timed out.
/// In case of errors, returns -1.
int64_t ReceiveAsync(FairMQParts& parts, const std::string& chan, const int i = 0) const
int64_t ReceiveAsync(FairMQParts& parts, const std::string& channel, const int index = 0) __attribute__((deprecated("For non-blocking Receive, use timeout version with timeout of 0: Receive(parts, \"channelA\", subchannelIndex, timeout);")))
{
return fChannels.at(chan).at(i).ReceiveAsync(parts.fParts);
return GetChannel(channel, index).Receive(parts.fParts, 0);
}
/// @brief Getter for default transport factory
auto Transport() const -> const FairMQTransportFactory*
auto Transport() const -> FairMQTransportFactory*
{
return fTransportFactory.get();
}
template<typename... Args>
FairMQMessagePtr NewMessage(Args&&... args) const
FairMQMessagePtr NewMessage(Args&&... args)
{
return Transport()->CreateMessage(std::forward<Args>(args)...);
}
template<typename... Args>
FairMQMessagePtr NewMessageFor(const std::string& channel, int index, Args&&... args) const
FairMQMessagePtr NewMessageFor(const std::string& channel, int index, Args&&... args)
{
return fChannels.at(channel).at(index).NewMessage(std::forward<Args>(args)...);
return GetChannel(channel, index).NewMessage(std::forward<Args>(args)...);
}
template<typename T>
FairMQMessagePtr NewStaticMessage(const T& data) const
FairMQMessagePtr NewStaticMessage(const T& data)
{
return Transport()->NewStaticMessage(data);
}
template<typename T>
FairMQMessagePtr NewStaticMessageFor(const std::string& channel, int index, const T& data) const
FairMQMessagePtr NewStaticMessageFor(const std::string& channel, int index, const T& data)
{
return fChannels.at(channel).at(index).NewStaticMessage(data);
return GetChannel(channel, index).NewStaticMessage(data);
}
template<typename T>
FairMQMessagePtr NewSimpleMessage(const T& data) const
FairMQMessagePtr NewSimpleMessage(const T& data)
{
return Transport()->NewSimpleMessage(data);
}
template<typename T>
FairMQMessagePtr NewSimpleMessageFor(const std::string& channel, int index, const T& data) const
FairMQMessagePtr NewSimpleMessageFor(const std::string& channel, int index, const T& data)
{
return fChannels.at(channel).at(index).NewSimpleMessage(data);
return GetChannel(channel, index).NewSimpleMessage(data);
}
FairMQUnmanagedRegionPtr NewUnmanagedRegion(const size_t size)
@@ -252,7 +208,7 @@ class FairMQDevice : public FairMQStateMachine
FairMQUnmanagedRegionPtr NewUnmanagedRegionFor(const std::string& channel, int index, const size_t size, FairMQRegionCallback callback = nullptr)
{
return fChannels.at(channel).at(index).Transport()->CreateUnmanagedRegion(size, callback);
return GetChannel(channel, index).Transport()->CreateUnmanagedRegion(size, callback);
}
template<typename ...Ts>
@@ -263,22 +219,22 @@ class FairMQDevice : public FairMQStateMachine
// if more than one channel provided, check compatibility
if (chans.size() > 1)
{
fair::mq::Transport type = fChannels.at(chans.at(0)).at(0).Transport()->GetType();
fair::mq::Transport type = GetChannel(chans.at(0), 0).Transport()->GetType();
for (unsigned int i = 1; i < chans.size(); ++i)
{
if (type != fChannels.at(chans.at(i)).at(0).Transport()->GetType())
if (type != GetChannel(chans.at(i), 0).Transport()->GetType())
{
LOG(error) << "poller failed: different transports within same poller are not yet supported. Going to ERROR state.";
ChangeState(ERROR_FOUND);
throw std::runtime_error("poller failed: different transports within same poller are not yet supported.");
}
}
}
return fChannels.at(chans.at(0)).at(0).Transport()->CreatePoller(fChannels, chans);
return GetChannel(chans.at(0), 0).Transport()->CreatePoller(fChannels, chans);
}
FairMQPollerPtr NewPoller(const std::vector<const FairMQChannel*>& channels)
FairMQPollerPtr NewPoller(const std::vector<FairMQChannel*>& channels)
{
// if more than one channel provided, check compatibility
if (channels.size() > 1)
@@ -290,7 +246,7 @@ class FairMQDevice : public FairMQStateMachine
if (type != channels.at(i)->Transport()->GetType())
{
LOG(error) << "poller failed: different transports within same poller are not yet supported. Going to ERROR state.";
ChangeState(ERROR_FOUND);
throw std::runtime_error("poller failed: different transports within same poller are not yet supported.");
}
}
}
@@ -299,7 +255,7 @@ class FairMQDevice : public FairMQStateMachine
}
/// Waits for the first initialization run to finish
void WaitForInitialValidation();
void WaitForInitialValidation() __attribute__((deprecated("This method will have no effect in future versions and will be removed. Instead subscribe for state changes and inspect configuration values."))) {}
/// Adds a transport to the device if it doesn't exist
/// @param transport Transport string ("zeromq"/"nanomsg"/"shmem")
@@ -318,6 +274,7 @@ class FairMQDevice : public FairMQStateMachine
/// @param rhs Left hand side value for comparison
static bool SortSocketsByAddress(const FairMQChannel &lhs, const FairMQChannel &rhs);
// overload to easily bind member functions
template<typename T>
void OnData(const std::string& channelName, bool (T::* memberFunction)(FairMQMessagePtr& msg, int index))
{
@@ -344,6 +301,7 @@ class FairMQDevice : public FairMQStateMachine
}
}
// overload to easily bind member functions
template<typename T>
void OnData(const std::string& channelName, bool (T::* memberFunction)(FairMQParts& parts, int index))
{
@@ -370,7 +328,15 @@ class FairMQDevice : public FairMQStateMachine
}
}
const FairMQChannel& GetChannel(const std::string& channelName, const int index = 0) const;
FairMQChannel& GetChannel(const std::string& channelName, const int index = 0)
try {
return fChannels.at(channelName).at(index);
} catch (const std::out_of_range& oor) {
LOG(error) << "out of range: " << oor.what();
LOG(error) << "requested channel has not been configured? check channel names/configuration.";
fRateLogging = false;
throw;
}
virtual void RegisterChannelEndpoints() {}
@@ -431,7 +397,21 @@ class FairMQDevice : public FairMQStateMachine
void SetRawCmdLineArgs(const std::vector<std::string>& args) { fRawCmdLineArgs = args; }
std::vector<std::string> GetRawCmdLineArgs() const { return fRawCmdLineArgs; }
void RunStateMachine() { ProcessWork(); };
void RunStateMachine()
{
CallStateChangeCallbacks(FairMQStateMachine::IDLE);
ProcessWork();
};
/// Wait for the supplied amount of time or for interruption.
/// If interrupted, returns false, otherwise true.
/// @param duration wait duration
template<class Rep, class Period>
bool WaitFor(std::chrono::duration<Rep, Period> const& duration)
{
std::unique_lock<std::mutex> lock(fInterruptedMtx);
return !fInterruptedCV.wait_for(lock, duration, [&] { return fInterrupted.load(); }); // return true if no interruption happened
}
protected:
std::shared_ptr<FairMQTransportFactory> fTransportFactory; ///< Default transport factory
@@ -451,47 +431,33 @@ class FairMQDevice : public FairMQStateMachine
std::string fId; ///< Device ID
/// Additional user initialization (can be overloaded in child classes). Prefer to use InitTask().
/// Executed in a worker thread
virtual void Init();
/// Task initialization (can be overloaded in child classes)
/// Executed in a worker thread
virtual void InitTask();
/// Runs the device (to be overloaded in child classes)
/// Executed in a worker thread
virtual void Run();
/// Called in the RUNNING state once before executing the Run()/ConditionalRun() method
/// Executed in a worker thread
virtual void PreRun();
/// Called during RUNNING state repeatedly until it returns false or device state changes
/// Executed in a worker thread
virtual bool ConditionalRun();
/// Called in the RUNNING state once after executing the Run()/ConditionalRun() method
/// Executed in a worker thread
virtual void PostRun();
/// Handles the PAUSE state
/// Executed in a worker thread
virtual void Pause();
/// Resets the user task (to be overloaded in child classes)
/// Executed in a worker thread
virtual void ResetTask();
/// Resets the device (can be overloaded in child classes)
/// Executed in a worker thread
virtual void Reset();
private:
// condition variable to notify parent thread about end of initial validation.
bool fInitialValidationFinished;
std::condition_variable fInitialValidationCondition;
std::mutex fInitialValidationMutex;
int fPortRangeMin; ///< Minimum value for the port range (if dynamic)
int fPortRangeMax; ///< Maximum value for the port range (if dynamic)
@@ -534,8 +500,8 @@ class FairMQDevice : public FairMQStateMachine
void HandleMultipleTransportInput();
void PollForTransport(const FairMQTransportFactory* factory, const std::vector<std::string>& channelKeys);
bool HandleMsgInput(const std::string& chName, const InputMsgCallback& callback, int i) const;
bool HandleMultipartInput(const std::string& chName, const InputMultipartCallback& callback, int i) const;
bool HandleMsgInput(const std::string& chName, const InputMsgCallback& callback, int i);
bool HandleMultipartInput(const std::string& chName, const InputMultipartCallback& callback, int i);
void CreateOwnConfig();
@@ -551,6 +517,11 @@ class FairMQDevice : public FairMQStateMachine
const fair::mq::tools::Version fVersion;
float fRate; ///< Rate limiting for ConditionalRun
std::vector<std::string> fRawCmdLineArgs;
std::atomic<bool> fInterrupted;
std::condition_variable fInterruptedCV;
std::mutex fInterruptedMtx;
mutable std::atomic<bool> fRateLogging;
};
#endif /* FAIRMQDEVICE_H_ */

8
fairmq/FairMQMessage.h
View File

@@ -15,10 +15,13 @@
#include <fairmq/Transports.h>
using fairmq_free_fn = void(void* data, void* hint);
class FairMQTransportFactory;
class FairMQMessage
{
public:
FairMQMessage() = default;
FairMQMessage(FairMQTransportFactory* factory):fTransport{factory} {}
virtual void Rebuild() = 0;
virtual void Rebuild(const size_t size) = 0;
virtual void Rebuild(void* data, const size_t size, fairmq_free_fn* ffn, void* hint = nullptr) = 0;
@@ -29,11 +32,16 @@ class FairMQMessage
virtual bool SetUsedSize(const size_t size) = 0;
virtual fair::mq::Transport GetType() const = 0;
FairMQTransportFactory* GetTransport() { return fTransport; }
//void SetTransport(FairMQTransportFactory* transport) { fTransport = transport; }
virtual void Copy(const std::unique_ptr<FairMQMessage>& msg) __attribute__((deprecated("Use 'Copy(const FairMQMessage& msg)'"))) = 0;
virtual void Copy(const FairMQMessage& msg) = 0;
virtual ~FairMQMessage() {};
private:
FairMQTransportFactory* fTransport{nullptr};
};
using FairMQMessagePtr = std::unique_ptr<FairMQMessage>;

4
fairmq/FairMQPoller.h
View File

@@ -18,8 +18,8 @@ class FairMQPoller
virtual void Poll(const int timeout) = 0;
virtual bool CheckInput(const int index) = 0;
virtual bool CheckOutput(const int index) = 0;
virtual bool CheckInput(const std::string channelKey, const int index) = 0;
virtual bool CheckOutput(const std::string channelKey, const int index) = 0;
virtual bool CheckInput(const std::string& channelKey, const int index) = 0;
virtual bool CheckOutput(const std::string& channelKey, const int index) = 0;
virtual ~FairMQPoller() {};
};

32
fairmq/FairMQSocket.h
View File

@@ -25,34 +25,32 @@ class FairMQSocket
virtual bool Bind(const std::string& address) = 0;
virtual void Connect(const std::string& address) = 0;
virtual int Send(FairMQMessagePtr& msg, int timeout = 0) = 0;
virtual int Receive(FairMQMessagePtr& msg, int timeout = 0) = 0;
virtual int64_t Send(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, int timeout = 0) = 0;
virtual int64_t Receive(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, int timeout = 0) = 0;
virtual int TrySend(FairMQMessagePtr& msg) = 0;
virtual int TryReceive(FairMQMessagePtr& msg) = 0;
virtual int64_t TrySend(std::vector<std::unique_ptr<FairMQMessage>>& msgVec) = 0;
virtual int64_t TryReceive(std::vector<std::unique_ptr<FairMQMessage>>& msgVec) = 0;
virtual void* GetSocket() const = 0;
virtual int GetSocket(int nothing) const = 0;
virtual int Send(FairMQMessagePtr& msg, int timeout = -1) = 0;
virtual int Receive(FairMQMessagePtr& msg, int timeout = -1) = 0;
virtual int64_t Send(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, int timeout = -1) = 0;
virtual int64_t Receive(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, int timeout = -1) = 0;
virtual void Close() = 0;
virtual void SetOption(const std::string& option, const void* value, size_t valueSize) = 0;
virtual void GetOption(const std::string& option, void* value, size_t* valueSize) = 0;
virtual void SetLinger(const int value) = 0;
virtual int GetLinger() const = 0;
virtual void SetSndBufSize(const int value) = 0;
virtual int GetSndBufSize() const = 0;
virtual void SetRcvBufSize(const int value) = 0;
virtual int GetRcvBufSize() const = 0;
virtual void SetSndKernelSize(const int value) = 0;
virtual int GetSndKernelSize() const = 0;
virtual void SetRcvKernelSize(const int value) = 0;
virtual int GetRcvKernelSize() const = 0;
virtual unsigned long GetBytesTx() const = 0;
virtual unsigned long GetBytesRx() const = 0;
virtual unsigned long GetMessagesTx() const = 0;
virtual unsigned long GetMessagesRx() const = 0;
virtual bool SetSendTimeout(const int timeout, const std::string& address, const std::string& method) = 0;
virtual int GetSendTimeout() const = 0;
virtual bool SetReceiveTimeout(const int timeout, const std::string& address, const std::string& method) = 0;
virtual int GetReceiveTimeout() const = 0;
virtual ~FairMQSocket() {};
};

18
fairmq/FairMQStateMachine.cxx
View File

@@ -175,12 +175,13 @@ struct Machine_ : public state_machine_def<Machine_>
using initial_state = boost::mpl::vector<IDLE_FSM_STATE, OK_FSM_STATE>;
template<typename Event, typename FSM>
void on_entry(Event const&, FSM& fsm)
void on_entry(Event const&, FSM& /*fsm*/)
{
LOG(state) << "Starting FairMQ state machine";
fState = FairMQStateMachine::IDLE;
LOG(state) << "Entering IDLE state";
fsm.CallStateChangeCallbacks(FairMQStateMachine::IDLE);
// fsm.CallStateChangeCallbacks(FairMQStateMachine::IDLE);
// we call this for now in FairMQDevice::RunStateMachine()
}
template<typename Event, typename FSM>
@@ -644,16 +645,27 @@ bool FairMQStateMachine::CheckCurrentState(int state) const
{
return state == static_pointer_cast<FairMQFSM>(fFsm)->fState;
}
bool FairMQStateMachine::CheckCurrentState(string state) const
bool FairMQStateMachine::CheckCurrentState(const string& state) const
{
return state == GetCurrentStateName();
}
void FairMQStateMachine::ProcessWork()
try
{
static_pointer_cast<FairMQFSM>(fFsm)->ProcessWork();
} catch(...) {
{
lock_guard<mutex> lock(static_pointer_cast<FairMQFSM>(fFsm)->fWorkMutex);
static_pointer_cast<FairMQFSM>(fFsm)->fWorkActive = false;
static_pointer_cast<FairMQFSM>(fFsm)->fWorkAvailable = false;
static_pointer_cast<FairMQFSM>(fFsm)->fWorkDoneCondition.notify_one();
}
ChangeState(ERROR_FOUND);
throw;
}
int FairMQStateMachine::GetEventNumber(const string& event)
{
return eventNumbers.at(event);

2
fairmq/FairMQStateMachine.h
View File

@@ -82,7 +82,7 @@ class FairMQStateMachine
static std::string GetStateName(const State);
int GetCurrentState() const;
bool CheckCurrentState(int state) const;
bool CheckCurrentState(std::string state) const;
bool CheckCurrentState(const std::string& state) const;
// actions to be overwritten by derived classes
virtual void InitWrapper() {}

38
fairmq/FairMQTransportFactory.h
View File

@@ -9,11 +9,12 @@
#ifndef FAIRMQTRANSPORTFACTORY_H_
#define FAIRMQTRANSPORTFACTORY_H_
#include <FairMQMessage.h>
#include <FairMQSocket.h>
#include <FairMQPoller.h>
#include <FairMQUnmanagedRegion.h>
#include <FairMQLogger.h>
#include <FairMQMessage.h>
#include <FairMQPoller.h>
#include <FairMQSocket.h>
#include <FairMQUnmanagedRegion.h>
#include <fairmq/MemoryResources.h>
#include <fairmq/Transports.h>
#include <string>
@@ -30,6 +31,9 @@ class FairMQTransportFactory
/// Topology wide unique id
const std::string fkId;
/// The polymorphic memory resource associated with the transport
fair::mq::ChannelResource fMemoryResource{this};
public:
/// ctor
/// @param id Topology wide unique id, usually the device id.
@@ -37,22 +41,25 @@ class FairMQTransportFactory
auto GetId() const -> const std::string { return fkId; };
/// Get a pointer to the associated polymorphic memory resource
fair::mq::ChannelResource* GetMemoryResource() { return &fMemoryResource; }
/// @brief Create empty FairMQMessage
/// @return pointer to FairMQMessage
virtual FairMQMessagePtr CreateMessage() const = 0;
virtual FairMQMessagePtr CreateMessage() = 0;
/// @brief Create new FairMQMessage of specified size
/// @param size message size
/// @return pointer to FairMQMessage
virtual FairMQMessagePtr CreateMessage(const size_t size) const = 0;
virtual FairMQMessagePtr CreateMessage(const size_t size) = 0;
/// @brief Create new FairMQMessage with user provided buffer and size
/// @param data pointer to user provided buffer
/// @param size size of the user provided buffer
/// @param ffn callback, called when the message is transfered (and can be deleted)
/// @param obj optional helper pointer that can be used in the callback
/// @return pointer to FairMQMessage
virtual FairMQMessagePtr CreateMessage(void* data, const size_t size, fairmq_free_fn* ffn, void* hint = nullptr) const = 0;
virtual FairMQMessagePtr CreateMessage(void* data, const size_t size, fairmq_free_fn* ffn, void* hint = nullptr) = 0;
virtual FairMQMessagePtr CreateMessage(FairMQUnmanagedRegionPtr& unmanagedRegion, void* data, const size_t size, void* hint = 0) const = 0;
virtual FairMQMessagePtr CreateMessage(FairMQUnmanagedRegionPtr& unmanagedRegion, void* data, const size_t size, void* hint = 0) = 0;
/// Create a socket
virtual FairMQSocketPtr CreateSocket(const std::string& type, const std::string& name) const = 0;
@@ -60,11 +67,9 @@ class FairMQTransportFactory
/// Create a poller for a single channel (all subchannels)
virtual FairMQPollerPtr CreatePoller(const std::vector<FairMQChannel>& channels) const = 0;
/// Create a poller for specific channels
virtual FairMQPollerPtr CreatePoller(const std::vector<const FairMQChannel*>& channels) const = 0;
virtual FairMQPollerPtr CreatePoller(const std::vector<FairMQChannel*>& channels) const = 0;
/// Create a poller for specific channels (all subchannels)
virtual FairMQPollerPtr CreatePoller(const std::unordered_map<std::string, std::vector<FairMQChannel>>& channelsMap, const std::vector<std::string>& channelList) const = 0;
/// Create a poller for two sockets
virtual FairMQPollerPtr CreatePoller(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket) const = 0;
virtual FairMQUnmanagedRegionPtr CreateUnmanagedRegion(const size_t size, FairMQRegionCallback callback = nullptr) const = 0;
@@ -73,6 +78,7 @@ class FairMQTransportFactory
virtual void Interrupt() = 0;
virtual void Resume() = 0;
virtual void Reset() = 0;
virtual ~FairMQTransportFactory() {};
@@ -89,7 +95,7 @@ class FairMQTransportFactory
}
template<typename T>
FairMQMessagePtr NewSimpleMessage(const T& data) const
FairMQMessagePtr NewSimpleMessage(const T& data)
{
// todo: is_trivially_copyable not available on gcc < 5, workaround?
// static_assert(std::is_trivially_copyable<T>::value, "The argument type for NewSimpleMessage has to be trivially copyable!");
@@ -98,13 +104,13 @@ class FairMQTransportFactory
}
template<std::size_t N>
FairMQMessagePtr NewSimpleMessage(const char(&data)[N]) const
FairMQMessagePtr NewSimpleMessage(const char(&data)[N])
{
std::string* msgStr = new std::string(data);
return CreateMessage(const_cast<char*>(msgStr->c_str()), msgStr->length(), FairMQSimpleMsgCleanup<std::string>, msgStr);
}
FairMQMessagePtr NewSimpleMessage(const std::string& str) const
FairMQMessagePtr NewSimpleMessage(const std::string& str)
{
std::string* msgStr = new std::string(str);
@@ -112,12 +118,12 @@ class FairMQTransportFactory
}
template<typename T>
FairMQMessagePtr NewStaticMessage(const T& data) const
FairMQMessagePtr NewStaticMessage(const T& data)
{
return CreateMessage(data, sizeof(T), FairMQNoCleanup, nullptr);
}
FairMQMessagePtr NewStaticMessage(const std::string& str) const
FairMQMessagePtr NewStaticMessage(const std::string& str)
{
return CreateMessage(const_cast<char*>(str.c_str()), str.length(), FairMQNoCleanup, nullptr);
}

60
fairmq/MemoryResourceTools.h Normal file
View File

@@ -0,0 +1,60 @@
/********************************************************************************
* Copyright (C) 2018 CERN and copyright holders of ALICE O2 *
* Copyright (C) 2018 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* *
* This software is distributed under the terms of the *
* GNU Lesser General Public Licence (LGPL) version 3, *
* copied verbatim in the file "LICENSE" *
********************************************************************************/
/// @brief Tools for interfacing containers to the transport via polymorphic
/// allocators
///
/// @author Mikolaj Krzewicki, mkrzewic@cern.ch
#include <fairmq/FairMQTransportFactory.h>
#include <fairmq/MemoryResources.h>
namespace fair {
namespace mq {
using BytePmrAllocator = pmr::polymorphic_allocator<fair::mq::byte>;
//_________________________________________________________________________________________________
// return the message associated with the container or throw if it is not possible
template<typename ContainerT>
// typename std::enable_if<
// std::is_base_of<
// pmr::polymorphic_allocator<typename
// ContainerT::value_type>,
// typename ContainerT::allocator_type>::value == true,
// FairMQMessagePtr>::type
FairMQMessagePtr getMessage(ContainerT &&container_, FairMQMemoryResource *targetResource = nullptr)
{
auto container = std::move(container_);
auto alloc = container.get_allocator();
auto resource = dynamic_cast<FairMQMemoryResource *>(alloc.resource());
if (!resource && !targetResource) {
throw std::runtime_error("Neither the container or target resource specified");
}
size_t containerSizeBytes = container.size() * sizeof(typename ContainerT::value_type);
if ((!targetResource && resource)
|| (resource && targetResource && resource->is_equal(*targetResource))) {
auto message = resource->getMessage(static_cast<void *>(
const_cast<typename std::remove_const<typename ContainerT::value_type>::type *>(
container.data())));
if (message)
message->SetUsedSize(containerSizeBytes);
return message;
} else {
auto message = targetResource->getTransportFactory()->CreateMessage(containerSizeBytes);
std::memcpy(static_cast<fair::mq::byte *>(message->GetData()),
container.data(),
containerSizeBytes);
return message;
}
};
} /* namespace mq */
} /* namespace fair */

22
fairmq/MemoryResources.cxx Normal file
View File

@@ -0,0 +1,22 @@
/********************************************************************************
* Copyright (C) 2018 CERN and copyright holders of ALICE O2 *
* Copyright (C) 2018 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* *
* This software is distributed under the terms of the *
* GNU Lesser General Public Licence (LGPL) version 3, *
* copied verbatim in the file "LICENSE" *
********************************************************************************/
/// @brief Memory allocators and interfaces related to managing memory via the
/// trasport layer
///
/// @author Mikolaj Krzewicki, mkrzewic@cern.ch
#include <fairmq/FairMQTransportFactory.h>
#include <fairmq/MemoryResources.h>
void *fair::mq::ChannelResource::do_allocate(std::size_t bytes, std::size_t /*alignment*/)
{
return setMessage(factory->CreateMessage(bytes));
};

116
fairmq/MemoryResources.h Normal file
View File

@@ -0,0 +1,116 @@
/********************************************************************************
* Copyright (C) 2018 CERN and copyright holders of ALICE O2 *
* Copyright (C) 2018 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* *
* This software is distributed under the terms of the *
* GNU Lesser General Public Licence (LGPL) version 3, *
* copied verbatim in the file "LICENSE" *
********************************************************************************/
/// @brief Memory allocators and interfaces related to managing memory via the
/// trasport layer
///
/// @author Mikolaj Krzewicki, mkrzewic@cern.ch
#ifndef FAIR_MQ_MEMORY_RESOURCES_H
#define FAIR_MQ_MEMORY_RESOURCES_H
#include <fairmq/FairMQMessage.h>
class FairMQTransportFactory;
#include <boost/container/flat_map.hpp>
#include <boost/container/pmr/memory_resource.hpp>
#include <boost/container/pmr/monotonic_buffer_resource.hpp>
#include <boost/container/pmr/polymorphic_allocator.hpp>
#include <cstring>
#include <string>
#include <type_traits>
#include <unordered_map>
#include <utility>
#include <vector>
namespace fair {
namespace mq {
using byte = unsigned char;
namespace pmr = boost::container::pmr;
/// All FairMQ related memory resources need to inherit from this interface
/// class for the
/// getMessage() api.
class FairMQMemoryResource : public pmr::memory_resource
{
public:
/// return the message containing data associated with the pointer (to start
/// of
/// buffer), e.g. pointer returned by std::vector::data() return nullptr if
/// returning
/// a message does not make sense!
virtual FairMQMessagePtr getMessage(void *p) = 0;
virtual void *setMessage(FairMQMessagePtr) = 0;
virtual FairMQTransportFactory *getTransportFactory() noexcept = 0;
virtual size_t getNumberOfMessages() const noexcept = 0;
};
/// This is the allocator that interfaces to FairMQ memory management. All
/// allocations are
/// delegated to FairMQ so standard (e.g. STL) containers can construct their
/// stuff in
/// memory regions appropriate for the data channel configuration.
class ChannelResource : public FairMQMemoryResource
{
protected:
FairMQTransportFactory *factory{nullptr};
// TODO: for now a map to keep track of allocations, something else would
// probably be
// faster, but for now this does not need to be fast.
boost::container::flat_map<void *, FairMQMessagePtr> messageMap;
public:
ChannelResource() = delete;
ChannelResource(FairMQTransportFactory *_factory)
: FairMQMemoryResource()
, factory(_factory)
, messageMap()
{
if (!_factory) {
throw std::runtime_error("Tried to construct from a nullptr FairMQTransportFactory");
}
};
FairMQMessagePtr getMessage(void *p) override
{
auto mes = std::move(messageMap[p]);
messageMap.erase(p);
return mes;
}
void *setMessage(FairMQMessagePtr message) override
{
void *addr = message->GetData();
messageMap[addr] = std::move(message);
return addr;
}
FairMQTransportFactory *getTransportFactory() noexcept override { return factory; }
size_t getNumberOfMessages() const noexcept override { return messageMap.size(); }
protected:
void *do_allocate(std::size_t bytes, std::size_t alignment) override;
void do_deallocate(void *p, std::size_t /*bytes*/, std::size_t /*alignment*/) override
{
messageMap.erase(p);
};
bool do_is_equal(const pmr::memory_resource &other) const noexcept override
{
return this == &other;
};
};
} /* namespace mq */
} /* namespace fair */
#endif /* FAIR_MQ_MEMORY_RESOURCES_H */

8
fairmq/PluginServices.h
View File

@@ -21,6 +21,7 @@
#include <unordered_map>
#include <mutex>
#include <condition_variable>
#include <stdexcept>
namespace fair
{
@@ -185,13 +186,16 @@ class PluginServices
auto SetProperty(const std::string& key, T val) -> void
{
auto currentState = GetCurrentDeviceState();
if (currentState == DeviceState::InitializingDevice)
if ( (currentState == DeviceState::InitializingDevice)
|| ((currentState == DeviceState::Idle) && (key == "channel-config")))
{
fConfig.SetValue(key, val);
}
else
{
throw InvalidStateError{tools::ToString("PluginServices::SetProperty is not supported in device state ", currentState, ". Supported state is ", DeviceState::InitializingDevice, ".")};
throw InvalidStateError{
tools::ToString("PluginServices::SetProperty is not supported in device state ", currentState, ". ",
"Supported state is ", DeviceState::InitializingDevice, ".")};
}
}
struct InvalidStateError : std::runtime_error { using std::runtime_error::runtime_error; };

6
fairmq/Version.h.in
View File

@@ -9,10 +9,14 @@
#ifndef FAIR_MQ_VERSION_H
#define FAIRMQ_VERSION "@PROJECT_VERSION@"
#define FAIRMQ_VERSION_DEC (@PROJECT_VERSION_MAJOR@ * 10000) + (@PROJECT_VERSION_MINOR@ * 100) + @PROJECT_VERSION_PATCH@
#define FAIRMQ_VERSION_DEC (@PROJECT_VERSION_MAJOR@ * 100000) \
+ (@PROJECT_VERSION_MINOR@ * 1000) \
+ (@PROJECT_VERSION_PATCH@ * 10) \
+ @PROJECT_VERSION_HOTFIX@
#define FAIRMQ_VERSION_MAJOR @PROJECT_VERSION_MAJOR@
#define FAIRMQ_VERSION_MINOR @PROJECT_VERSION_MINOR@
#define FAIRMQ_VERSION_PATCH @PROJECT_VERSION_PATCH@
#define FAIRMQ_VERSION_HOTFIX @PROJECT_VERSION_HOTFIX@
#define FAIRMQ_GIT_VERSION "@PROJECT_GIT_VERSION@"
#define FAIRMQ_GIT_DATE "@PROJECT_GIT_DATE@"
#define FAIRMQ_REPO_URL "https://github.com/FairRootGroup/FairMQ"

21
fairmq/devices/FairMQBenchmarkSampler.cxx
View File

@@ -18,7 +18,8 @@
using namespace std;
FairMQBenchmarkSampler::FairMQBenchmarkSampler()
: fSameMessage(true)
: fMultipart(false)
, fNumParts(1)
, fMsgSize(10000)
, fMsgRate(0)
, fNumIterations(0)
@@ -33,8 +34,9 @@ FairMQBenchmarkSampler::~FairMQBenchmarkSampler()
void FairMQBenchmarkSampler::InitTask()
{
fSameMessage = fConfig->GetValue<bool>("same-msg");
fMsgSize = fConfig->GetValue<int>("msg-size");
fMultipart = fConfig->GetValue<bool>("multipart");
fNumParts = fConfig->GetValue<size_t>("num-parts");
fMsgSize = fConfig->GetValue<size_t>("msg-size");
fMsgRate = fConfig->GetValue<float>("msg-rate");
fMaxIterations = fConfig->GetValue<uint64_t>("max-iterations");
fOutChannelName = fConfig->GetValue<string>("out-channel");
@@ -54,12 +56,16 @@ void FairMQBenchmarkSampler::Run()
while (CheckCurrentState(RUNNING))
{
if (fSameMessage)
if (fMultipart)
{
FairMQMessagePtr msg(dataOutChannel.NewMessage());
msg->Copy(*baseMsg);
FairMQParts parts;
if (dataOutChannel.Send(msg) >= 0)
for (size_t i = 0; i < fNumParts; ++i)
{
parts.AddPart(dataOutChannel.NewMessage(fMsgSize));
}
if (dataOutChannel.Send(parts) >= 0)
{
if (fMaxIterations > 0)
{
@@ -88,7 +94,6 @@ void FairMQBenchmarkSampler::Run()
}
}
if (fMsgRate > 0)
{
rateLimiter.maybe_sleep();

5
fairmq/devices/FairMQBenchmarkSampler.h
View File

@@ -26,8 +26,9 @@ class FairMQBenchmarkSampler : public FairMQDevice
virtual ~FairMQBenchmarkSampler();
protected:
bool fSameMessage;
int fMsgSize;
bool fMultipart;
size_t fNumParts;
size_t fMsgSize;
std::atomic<int> fMsgCounter;
float fMsgRate;
uint64_t fNumIterations;

8
fairmq/devices/FairMQMerger.cxx
View File

@@ -20,7 +20,7 @@
using namespace std;
FairMQMerger::FairMQMerger()
: fMultipart(1)
: fMultipart(true)
, fInChannelName("data-in")
, fOutChannelName("data-out")
{
@@ -30,6 +30,8 @@ void FairMQMerger::RegisterChannelEndpoints()
{
RegisterChannelEndpoint(fInChannelName, 1, 10000);
RegisterChannelEndpoint(fOutChannelName, 1, 1);
PrintRegisteredChannels();
}
FairMQMerger::~FairMQMerger()
@@ -38,7 +40,7 @@ FairMQMerger::~FairMQMerger()
void FairMQMerger::InitTask()
{
fMultipart = fConfig->GetValue<int>("multipart");
fMultipart = fConfig->GetValue<bool>("multipart");
fInChannelName = fConfig->GetValue<string>("in-channel");
fOutChannelName = fConfig->GetValue<string>("out-channel");
}
@@ -47,7 +49,7 @@ void FairMQMerger::Run()
{
int numInputs = fChannels.at(fInChannelName).size();
vector<const FairMQChannel*> chans;
vector<FairMQChannel*> chans;
for (auto& chan : fChannels.at(fInChannelName))
{

2
fairmq/devices/FairMQMerger.h
View File

@@ -26,7 +26,7 @@ class FairMQMerger : public FairMQDevice
virtual ~FairMQMerger();
protected:
int fMultipart;
bool fMultipart;
std::string fInChannelName;
std::string fOutChannelName;

4
fairmq/devices/FairMQMultiplier.cxx
View File

@@ -14,7 +14,7 @@
using namespace std;
FairMQMultiplier::FairMQMultiplier()
: fMultipart(1)
: fMultipart(true)
, fNumOutputs(0)
, fInChannelName()
, fOutChannelNames()
@@ -27,7 +27,7 @@ FairMQMultiplier::~FairMQMultiplier()
void FairMQMultiplier::InitTask()
{
fMultipart = fConfig->GetValue<int>("multipart");
fMultipart = fConfig->GetValue<bool>("multipart");
fInChannelName = fConfig->GetValue<string>("in-channel");
fOutChannelNames = fConfig->GetValue<vector<string>>("out-channel");
fNumOutputs = fChannels.at(fOutChannelNames.at(0)).size();

2
fairmq/devices/FairMQMultiplier.h
View File

@@ -20,7 +20,7 @@ class FairMQMultiplier : public FairMQDevice
virtual ~FairMQMultiplier();
protected:
int fMultipart;
bool fMultipart;
int fNumOutputs;
std::string fInChannelName;
std::vector<std::string> fOutChannelNames;

4
fairmq/devices/FairMQProxy.cxx
View File

@@ -20,7 +20,7 @@
using namespace std;
FairMQProxy::FairMQProxy()
: fMultipart(1)
: fMultipart(true)
, fInChannelName()
, fOutChannelName()
{
@@ -32,7 +32,7 @@ FairMQProxy::~FairMQProxy()
void FairMQProxy::InitTask()
{
fMultipart = fConfig->GetValue<int>("multipart");
fMultipart = fConfig->GetValue<bool>("multipart");
fInChannelName = fConfig->GetValue<string>("in-channel");
fOutChannelName = fConfig->GetValue<string>("out-channel");
}

2
fairmq/devices/FairMQProxy.h
View File

@@ -26,7 +26,7 @@ class FairMQProxy : public FairMQDevice
virtual ~FairMQProxy();
protected:
int fMultipart;
bool fMultipart;
std::string fInChannelName;
std::string fOutChannelName;

40
fairmq/devices/FairMQSink.h
View File

@@ -27,7 +27,8 @@ class FairMQSink : public FairMQDevice//, public OutputPolicy
{
public:
FairMQSink()
: fMaxIterations(0)
: fMultipart(false)
, fMaxIterations(0)
, fNumIterations(0)
, fInChannelName()
{}
@@ -36,12 +37,14 @@ class FairMQSink : public FairMQDevice//, public OutputPolicy
{}
protected:
bool fMultipart;
uint64_t fMaxIterations;
uint64_t fNumIterations;
std::string fInChannelName;
virtual void InitTask()
{
fMultipart = fConfig->GetValue<bool>("multipart");
fMaxIterations = fConfig->GetValue<uint64_t>("max-iterations");
fInChannelName = fConfig->GetValue<std::string>("in-channel");
}
@@ -56,18 +59,39 @@ class FairMQSink : public FairMQDevice//, public OutputPolicy
while (CheckCurrentState(RUNNING))
{
FairMQMessagePtr msg(dataInChannel.NewMessage());
if (dataInChannel.Receive(msg) >= 0)
if (fMultipart)
{
if (fMaxIterations > 0)
FairMQParts parts;
if (dataInChannel.Receive(parts) >= 0)
{
if (fNumIterations >= fMaxIterations)
if (fMaxIterations > 0)
{
break;
if (fNumIterations >= fMaxIterations)
{
LOG(info) << "Configured maximum number of iterations reached.";
break;
}
}
fNumIterations++;
}
}
else
{
FairMQMessagePtr msg(dataInChannel.NewMessage());
if (dataInChannel.Receive(msg) >= 0)
{
if (fMaxIterations > 0)
{
if (fNumIterations >= fMaxIterations)
{
LOG(info) << "Configured maximum number of iterations reached.";
break;
}
}
fNumIterations++;
}
fNumIterations++;
}
}

4
fairmq/devices/FairMQSplitter.cxx
View File

@@ -20,7 +20,7 @@
using namespace std;
FairMQSplitter::FairMQSplitter()
: fMultipart(1)
: fMultipart(true)
, fNumOutputs(0)
, fDirection(0)
, fInChannelName()
@@ -34,7 +34,7 @@ FairMQSplitter::~FairMQSplitter()
void FairMQSplitter::InitTask()
{
fMultipart = fConfig->GetValue<int>("multipart");
fMultipart = fConfig->GetValue<bool>("multipart");
fInChannelName = fConfig->GetValue<string>("in-channel");
fOutChannelName = fConfig->GetValue<string>("out-channel");
fNumOutputs = fChannels.at(fOutChannelName).size();

2
fairmq/devices/FairMQSplitter.h
View File

@@ -26,7 +26,7 @@ class FairMQSplitter : public FairMQDevice
virtual ~FairMQSplitter();
protected:
int fMultipart;
bool fMultipart;
int fNumOutputs;
int fDirection;
std::string fInChannelName;

20
fairmq/nanomsg/FairMQMessageNN.cxx
View File

@@ -24,8 +24,9 @@ using namespace std;
fair::mq::Transport FairMQMessageNN::fTransportType = fair::mq::Transport::NN;
FairMQMessageNN::FairMQMessageNN()
: fMessage(nullptr)
FairMQMessageNN::FairMQMessageNN(FairMQTransportFactory* factory)
: FairMQMessage{factory}
, fMessage(nullptr)
, fSize(0)
, fHint(0)
, fReceiving(false)
@@ -38,8 +39,9 @@ FairMQMessageNN::FairMQMessageNN()
}
}
FairMQMessageNN::FairMQMessageNN(const size_t size)
: fMessage(nullptr)
FairMQMessageNN::FairMQMessageNN(const size_t size, FairMQTransportFactory* factory)
: FairMQMessage{factory}
, fMessage(nullptr)
, fSize(0)
, fHint(0)
, fReceiving(false)
@@ -59,8 +61,9 @@ FairMQMessageNN::FairMQMessageNN(const size_t size)
* create FairMQMessage object only with size parameter and fill it with data.
* possible TODO: make this zero copy (will should then be as efficient as ZeroMQ).
*/
FairMQMessageNN::FairMQMessageNN(void* data, const size_t size, fairmq_free_fn* ffn, void* hint)
: fMessage(nullptr)
FairMQMessageNN::FairMQMessageNN(void* data, const size_t size, fairmq_free_fn* ffn, void* hint, FairMQTransportFactory* factory)
: FairMQMessage{factory}
, fMessage(nullptr)
, fSize(0)
, fHint(0)
, fReceiving(false)
@@ -86,8 +89,9 @@ FairMQMessageNN::FairMQMessageNN(void* data, const size_t size, fairmq_free_fn*
}
}
FairMQMessageNN::FairMQMessageNN(FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint)
: fMessage(data)
FairMQMessageNN::FairMQMessageNN(FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint, FairMQTransportFactory* factory)
: FairMQMessage{factory}
, fMessage(data)
, fSize(size)
, fHint(reinterpret_cast<size_t>(hint))
, fReceiving(false)

10
fairmq/nanomsg/FairMQMessageNN.h
View File

@@ -24,15 +24,15 @@
class FairMQSocketNN;
class FairMQMessageNN : public FairMQMessage
class FairMQMessageNN final : public FairMQMessage
{
friend class FairMQSocketNN;
public:
FairMQMessageNN();
FairMQMessageNN(const size_t size);
FairMQMessageNN(void* data, const size_t size, fairmq_free_fn* ffn, void* hint = nullptr);
FairMQMessageNN(FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint = 0);
FairMQMessageNN(FairMQTransportFactory* factory = nullptr);
FairMQMessageNN(const size_t size, FairMQTransportFactory* factory = nullptr);
FairMQMessageNN(void* data, const size_t size, fairmq_free_fn* ffn, void* hint = nullptr, FairMQTransportFactory* factory = nullptr);
FairMQMessageNN(FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint = 0, FairMQTransportFactory* factory = nullptr);
FairMQMessageNN(const FairMQMessageNN&) = delete;
FairMQMessageNN operator=(const FairMQMessageNN&) = delete;

43
fairmq/nanomsg/FairMQPollerNN.cxx
View File

@@ -19,6 +19,7 @@
#include <nanomsg/pair.h>
#include "FairMQPollerNN.h"
#include "FairMQSocketNN.h"
#include "FairMQLogger.h"
using namespace std;
@@ -33,17 +34,17 @@ FairMQPollerNN::FairMQPollerNN(const vector<FairMQChannel>& channels)
for (int i = 0; i < fNumItems; ++i)
{
fItems[i].fd = channels.at(i).GetSocket().GetSocket(1);
fItems[i].fd = static_cast<const FairMQSocketNN*>(&(channels.at(i).GetSocket()))->GetSocket();
int type = 0;
size_t sz = sizeof(type);
nn_getsockopt(channels.at(i).GetSocket().GetSocket(1), NN_SOL_SOCKET, NN_PROTOCOL, &type, &sz);
nn_getsockopt(static_cast<const FairMQSocketNN*>(&(channels.at(i).GetSocket()))->GetSocket(), NN_SOL_SOCKET, NN_PROTOCOL, &type, &sz);
SetItemEvents(fItems[i], type);
}
}
FairMQPollerNN::FairMQPollerNN(const vector<const FairMQChannel*>& channels)
FairMQPollerNN::FairMQPollerNN(const vector<FairMQChannel*>& channels)
: fItems()
, fNumItems(0)
, fOffsetMap()
@@ -53,11 +54,11 @@ FairMQPollerNN::FairMQPollerNN(const vector<const FairMQChannel*>& channels)
for (int i = 0; i < fNumItems; ++i)
{
fItems[i].fd = channels.at(i)->GetSocket().GetSocket(1);
fItems[i].fd = static_cast<const FairMQSocketNN*>(&(channels.at(i)->GetSocket()))->GetSocket();
int type = 0;
size_t sz = sizeof(type);
nn_getsockopt(channels.at(i)->GetSocket().GetSocket(1), NN_SOL_SOCKET, NN_PROTOCOL, &type, &sz);
nn_getsockopt(static_cast<const FairMQSocketNN*>(&(channels.at(i)->GetSocket()))->GetSocket(), NN_SOL_SOCKET, NN_PROTOCOL, &type, &sz);
SetItemEvents(fItems[i], type);
}
@@ -68,10 +69,9 @@ FairMQPollerNN::FairMQPollerNN(const unordered_map<string, vector<FairMQChannel>
, fNumItems(0)
, fOffsetMap()
{
int offset = 0;
try
{
int offset = 0;
// calculate offsets and the total size of the poll item set
for (string channel : channelList)
{
@@ -88,11 +88,11 @@ FairMQPollerNN::FairMQPollerNN(const unordered_map<string, vector<FairMQChannel>
for (unsigned int i = 0; i < channelsMap.at(channel).size(); ++i)
{
index = fOffsetMap[channel] + i;
fItems[index].fd = channelsMap.at(channel).at(i).GetSocket().GetSocket(1);
fItems[index].fd = static_cast<const FairMQSocketNN*>(&(channelsMap.at(channel).at(i).GetSocket()))->GetSocket();
int type = 0;
size_t sz = sizeof(type);
nn_getsockopt(channelsMap.at(channel).at(i).GetSocket().GetSocket(1), NN_SOL_SOCKET, NN_PROTOCOL, &type, &sz);
nn_getsockopt(static_cast<const FairMQSocketNN*>(&(channelsMap.at(channel).at(i).GetSocket()))->GetSocket(), NN_SOL_SOCKET, NN_PROTOCOL, &type, &sz);
SetItemEvents(fItems[index], type);
}
@@ -106,27 +106,6 @@ FairMQPollerNN::FairMQPollerNN(const unordered_map<string, vector<FairMQChannel>
}
}
FairMQPollerNN::FairMQPollerNN(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket)
: fItems()
, fNumItems(2)
, fOffsetMap()
{
fItems = new nn_pollfd[fNumItems];
fItems[0].fd = cmdSocket.GetSocket(1);
fItems[0].events = NN_POLLIN;
fItems[0].revents = 0;
fItems[1].fd = dataSocket.GetSocket(1);
fItems[1].revents = 0;
int type = 0;
size_t sz = sizeof(type);
nn_getsockopt(dataSocket.GetSocket(1), NN_SOL_SOCKET, NN_PROTOCOL, &type, &sz);
SetItemEvents(fItems[1], type);
}
void FairMQPollerNN::SetItemEvents(nn_pollfd& item, const int type)
{
if (type == NN_REQ || type == NN_REP || type == NN_PAIR)
@@ -184,7 +163,7 @@ bool FairMQPollerNN::CheckOutput(const int index)
return false;
}
bool FairMQPollerNN::CheckInput(const string channelKey, const int index)
bool FairMQPollerNN::CheckInput(const string& channelKey, const int index)
{
try
{
@@ -203,7 +182,7 @@ bool FairMQPollerNN::CheckInput(const string channelKey, const int index)
}
}
bool FairMQPollerNN::CheckOutput(const string channelKey, const int index)
bool FairMQPollerNN::CheckOutput(const string& channelKey, const int index)
{
try
{

20
fairmq/nanomsg/FairMQPollerNN.h
View File

@@ -26,14 +26,14 @@
class FairMQChannel;
struct nn_pollfd;
class FairMQPollerNN : public FairMQPoller
class FairMQPollerNN final : public FairMQPoller
{
friend class FairMQChannel;
friend class FairMQTransportFactoryNN;
public:
FairMQPollerNN(const std::vector<FairMQChannel>& channels);
FairMQPollerNN(const std::vector<const FairMQChannel*>& channels);
FairMQPollerNN(const std::vector<FairMQChannel*>& channels);
FairMQPollerNN(const std::unordered_map<std::string, std::vector<FairMQChannel>>& channelsMap, const std::vector<std::string>& channelList);
FairMQPollerNN(const FairMQPollerNN&) = delete;
@@ -41,21 +41,19 @@ class FairMQPollerNN : public FairMQPoller
void SetItemEvents(nn_pollfd& item, const int type);
virtual void Poll(const int timeout);
virtual bool CheckInput(const int index);
virtual bool CheckOutput(const int index);
virtual bool CheckInput(const std::string channelKey, const int index);
virtual bool CheckOutput(const std::string channelKey, const int index);
void Poll(const int timeout) override;
bool CheckInput(const int index) override;
bool CheckOutput(const int index) override;
bool CheckInput(const std::string& channelKey, const int index) override;
bool CheckOutput(const std::string& channelKey, const int index) override;
virtual ~FairMQPollerNN();
~FairMQPollerNN() override;
private:
FairMQPollerNN(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket);
nn_pollfd* fItems;
int fNumItems;
std::unordered_map<std::string, int> fOffsetMap;
};
#endif /* FAIRMQPOLLERNN_H_ */
#endif /* FAIRMQPOLLERNN_H_ */

201
fairmq/nanomsg/FairMQSocketNN.cxx
View File

@@ -16,6 +16,7 @@
#include "FairMQMessageNN.h"
#include "FairMQLogger.h"
#include "FairMQUnmanagedRegionNN.h"
#include <fairmq/Tools.h>
#include <nanomsg/nn.h>
#include <nanomsg/pipeline.h>
@@ -27,6 +28,7 @@
#include <msgpack.hpp>
using namespace std;
using namespace fair::mq;
atomic<bool> FairMQSocketNN::fInterrupted(false);
@@ -39,6 +41,7 @@ FairMQSocketNN::FairMQSocketNN(const string& type, const string& name, const str
, fMessagesRx(0)
, fSndTimeout(100)
, fRcvTimeout(100)
, fLinger(500)
{
if (type == "router" || type == "dealer")
{
@@ -116,18 +119,13 @@ void FairMQSocketNN::Connect(const string& address)
}
}
int FairMQSocketNN::Send(FairMQMessagePtr& msg, const int timeout) { return SendImpl(msg, 0, timeout); }
int FairMQSocketNN::Receive(FairMQMessagePtr& msg, const int timeout) { return ReceiveImpl(msg, 0, timeout); }
int64_t FairMQSocketNN::Send(vector<unique_ptr<FairMQMessage>>& msgVec, const int timeout) { return SendImpl(msgVec, 0, timeout); }
int64_t FairMQSocketNN::Receive(vector<unique_ptr<FairMQMessage>>& msgVec, const int timeout) { return ReceiveImpl(msgVec, 0, timeout); }
int FairMQSocketNN::TrySend(FairMQMessagePtr& msg) { return SendImpl(msg, NN_DONTWAIT, 0); }
int FairMQSocketNN::TryReceive(FairMQMessagePtr& msg) { return ReceiveImpl(msg, NN_DONTWAIT, 0); }
int64_t FairMQSocketNN::TrySend(vector<unique_ptr<FairMQMessage>>& msgVec) { return SendImpl(msgVec, NN_DONTWAIT, 0); }
int64_t FairMQSocketNN::TryReceive(vector<unique_ptr<FairMQMessage>>& msgVec) { return ReceiveImpl(msgVec, NN_DONTWAIT, 0); }
int FairMQSocketNN::SendImpl(FairMQMessagePtr& msg, const int flags, const int timeout)
int FairMQSocketNN::Send(FairMQMessagePtr& msg, const int timeout)
{
int flags = 0;
if (timeout == 0)
{
flags = NN_DONTWAIT;
}
int nbytes = -1;
int elapsed = 0;
@@ -155,15 +153,11 @@ int FairMQSocketNN::SendImpl(FairMQMessagePtr& msg, const int flags, const int t
return nbytes;
}
#if NN_VERSION_CURRENT>2 // backwards-compatibility with nanomsg version<=0.6
else if (nn_errno() == ETIMEDOUT)
#else
else if (nn_errno() == EAGAIN)
#endif
{
if (!fInterrupted && ((flags & NN_DONTWAIT) == 0))
{
if (timeout)
if (timeout > 0)
{
elapsed += fSndTimeout;
if (elapsed >= timeout)
@@ -195,9 +189,13 @@ int FairMQSocketNN::SendImpl(FairMQMessagePtr& msg, const int flags, const int t
}
}
int FairMQSocketNN::ReceiveImpl(FairMQMessagePtr& msg, const int flags, const int timeout)
int FairMQSocketNN::Receive(FairMQMessagePtr& msg, const int timeout)
{
int nbytes = -1;
int flags = 0;
if (timeout == 0)
{
flags = NN_DONTWAIT;
}
int elapsed = 0;
FairMQMessageNN* msgPtr = static_cast<FairMQMessageNN*>(msg.get());
@@ -205,7 +203,7 @@ int FairMQSocketNN::ReceiveImpl(FairMQMessagePtr& msg, const int flags, const in
while (true)
{
void* ptr = nullptr;
nbytes = nn_recv(fSocket, &ptr, NN_MSG, flags);
int nbytes = nn_recv(fSocket, &ptr, NN_MSG, flags);
if (nbytes >= 0)
{
fBytesRx += nbytes;
@@ -214,15 +212,11 @@ int FairMQSocketNN::ReceiveImpl(FairMQMessagePtr& msg, const int flags, const in
msgPtr->fReceiving = true;
return nbytes;
}
#if NN_VERSION_CURRENT>2 // backwards-compatibility with nanomsg version<=0.6
else if (nn_errno() == ETIMEDOUT)
#else
else if (nn_errno() == EAGAIN)
#endif
{
if (!fInterrupted && ((flags & NN_DONTWAIT) == 0))
{
if (timeout)
if (timeout > 0)
{
elapsed += fRcvTimeout;
if (elapsed >= timeout)
@@ -254,8 +248,13 @@ int FairMQSocketNN::ReceiveImpl(FairMQMessagePtr& msg, const int flags, const in
}
}
int64_t FairMQSocketNN::SendImpl(vector<FairMQMessagePtr>& msgVec, const int flags, const int timeout)
int64_t FairMQSocketNN::Send(vector<FairMQMessagePtr>& msgVec, const int timeout)
{
int flags = 0;
if (timeout == 0)
{
flags = NN_DONTWAIT;
}
const unsigned int vecSize = msgVec.size();
int elapsed = 0;
@@ -279,26 +278,20 @@ int64_t FairMQSocketNN::SendImpl(vector<FairMQMessagePtr>& msgVec, const int fla
}
}
int64_t nbytes = -1;
while (true)
{
nbytes = nn_send(fSocket, sbuf.data(), sbuf.size(), flags);
int64_t nbytes = nn_send(fSocket, sbuf.data(), sbuf.size(), flags);
if (nbytes >= 0)
{
fBytesTx += nbytes;
++fMessagesTx;
return nbytes;
}
#if NN_VERSION_CURRENT>2 // backwards-compatibility with nanomsg version<=0.6
else if (nn_errno() == ETIMEDOUT)
#else
else if (nn_errno() == EAGAIN)
#endif
{
if (!fInterrupted && ((flags & NN_DONTWAIT) == 0))
{
if (timeout)
if (timeout > 0)
{
elapsed += fSndTimeout;
if (elapsed >= timeout)
@@ -330,8 +323,13 @@ int64_t FairMQSocketNN::SendImpl(vector<FairMQMessagePtr>& msgVec, const int fla
}
}
int64_t FairMQSocketNN::ReceiveImpl(vector<FairMQMessagePtr>& msgVec, const int flags, const int timeout)
int64_t FairMQSocketNN::Receive(vector<FairMQMessagePtr>& msgVec, const int timeout)
{
int flags = 0;
if (timeout == 0)
{
flags = NN_DONTWAIT;
}
// Warn if the vector is filled before Receive() and empty it.
// if (msgVec.size() > 0)
// {
@@ -377,15 +375,11 @@ int64_t FairMQSocketNN::ReceiveImpl(vector<FairMQMessagePtr>& msgVec, const int
nn_freemsg(ptr);
return nbytes;
}
#if NN_VERSION_CURRENT>2 // backwards-compatibility with nanomsg version<=0.6
else if (nn_errno() == ETIMEDOUT)
#else
else if (nn_errno() == EAGAIN)
#endif
{
if (!fInterrupted && ((flags & NN_DONTWAIT) == 0))
{
if (timeout)
if (timeout > 0)
{
elapsed += fRcvTimeout;
if (elapsed >= timeout)
@@ -432,12 +426,7 @@ void FairMQSocketNN::Resume()
fInterrupted = false;
}
void* FairMQSocketNN::GetSocket() const
{
return nullptr; // dummy method to comply with the interface. functionality not possible in zeromq.
}
int FairMQSocketNN::GetSocket(int /*nothing*/) const
int FairMQSocketNN::GetSocket() const
{
return fSocket;
}
@@ -449,7 +438,7 @@ void FairMQSocketNN::SetOption(const string& option, const void* value, size_t v
int val = *(static_cast<int*>(const_cast<void*>(value)));
if (val <= 0)
{
LOG(warn) << "value for sndKernelSize/rcvKernelSize should be greater than 0, using defaults (128kB).";
LOG(warn) << "value for sndKernelSize/rcvKernelSize should be greater than 0, leaving unchanged.";
return;
}
}
@@ -459,6 +448,12 @@ void FairMQSocketNN::SetOption(const string& option, const void* value, size_t v
return;
}
if (option == "linger")
{
fLinger = *static_cast<int*>(const_cast<void*>(value));
return;
}
int rc = nn_setsockopt(fSocket, NN_SOL_SOCKET, GetConstant(option), value, valueSize);
if (rc < 0)
{
@@ -468,6 +463,19 @@ void FairMQSocketNN::SetOption(const string& option, const void* value, size_t v
void FairMQSocketNN::GetOption(const string& option, void* value, size_t* valueSize)
{
if (option == "linger")
{
*static_cast<int*>(value) = fLinger;
return;
}
if (option == "snd-hwm" || option == "rcv-hwm")
{
*static_cast<int*>(value) = -1;
return;
}
int rc = nn_getsockopt(fSocket, NN_SOL_SOCKET, GetConstant(option), value, valueSize);
if (rc < 0)
{
@@ -475,6 +483,73 @@ void FairMQSocketNN::GetOption(const string& option, void* value, size_t* valueS
}
}
void FairMQSocketNN::SetLinger(const int value)
{
fLinger = value;
}
int FairMQSocketNN::GetLinger() const
{
return fLinger;
}
void FairMQSocketNN::SetSndBufSize(const int /* value */)
{
// not used in nanomsg
}
int FairMQSocketNN::GetSndBufSize() const
{
// not used in nanomsg
return -1;
}
void FairMQSocketNN::SetRcvBufSize(const int /* value */)
{
// not used in nanomsg
}
int FairMQSocketNN::GetRcvBufSize() const
{
// not used in nanomsg
return -1;
}
void FairMQSocketNN::SetSndKernelSize(const int value)
{
if (nn_setsockopt(fSocket, NN_SOL_SOCKET, NN_SNDBUF, &value, sizeof(value)) < 0) {
throw SocketError(tools::ToString("failed setting NN_SNDBUF, reason: ", nn_strerror(errno)));
}
}
int FairMQSocketNN::GetSndKernelSize() const
{
int value = 0;
size_t valueSize;
if (nn_getsockopt(fSocket, NN_SOL_SOCKET, NN_SNDBUF, &value, &valueSize) < 0) {
throw SocketError(tools::ToString("failed getting NN_SNDBUF, reason: ", nn_strerror(errno)));
}
return value;
}
void FairMQSocketNN::SetRcvKernelSize(const int value)
{
if (nn_setsockopt(fSocket, NN_SOL_SOCKET, NN_RCVBUF, &value, sizeof(value)) < 0) {
throw SocketError(tools::ToString("failed setting NN_RCVBUF, reason: ", nn_strerror(errno)));
}
}
int FairMQSocketNN::GetRcvKernelSize() const
{
int value = 0;
size_t valueSize;
if (nn_getsockopt(fSocket, NN_SOL_SOCKET, NN_RCVBUF, &value, &valueSize) < 0) {
throw SocketError(tools::ToString("failed getting NN_RCVBUF, reason: ", nn_strerror(errno)));
}
return value;
}
unsigned long FairMQSocketNN::GetBytesTx() const
{
return fBytesTx;
@@ -495,40 +570,6 @@ unsigned long FairMQSocketNN::GetMessagesRx() const
return fMessagesRx;
}
bool FairMQSocketNN::SetSendTimeout(const int timeout, const string& /*address*/, const string& /*method*/)
{
fSndTimeout = timeout;
if (nn_setsockopt(fSocket, NN_SOL_SOCKET, NN_SNDTIMEO, &fSndTimeout, sizeof(fSndTimeout)) != 0)
{
LOG(error) << "Failed setting option 'send timeout' on socket " << fId << ", reason: " << nn_strerror(errno);
return false;
}
return true;
}
int FairMQSocketNN::GetSendTimeout() const
{
return fSndTimeout;
}
bool FairMQSocketNN::SetReceiveTimeout(const int timeout, const string& /*address*/, const string& /*method*/)
{
fRcvTimeout = timeout;
if (nn_setsockopt(fSocket, NN_SOL_SOCKET, NN_RCVTIMEO, &fRcvTimeout, sizeof(fRcvTimeout)) != 0)
{
LOG(error) << "Failed setting option 'receive timeout' on socket " << fId << ", reason: " << nn_strerror(errno);
return false;
}
return true;
}
int FairMQSocketNN::GetReceiveTimeout() const
{
return fRcvTimeout;
}
int FairMQSocketNN::GetConstant(const string& constant)
{
if (constant == "")

40
fairmq/nanomsg/FairMQSocketNN.h
View File

@@ -15,7 +15,7 @@
#include "FairMQSocket.h"
#include "FairMQMessage.h"
class FairMQSocketNN : public FairMQSocket
class FairMQSocketNN final : public FairMQSocket
{
public:
FairMQSocketNN(const std::string& type, const std::string& name, const std::string& id = "");
@@ -27,18 +27,12 @@ class FairMQSocketNN : public FairMQSocket
bool Bind(const std::string& address) override;
void Connect(const std::string& address) override;
int Send(FairMQMessagePtr& msg, const int timeout = 0) override;
int Receive(FairMQMessagePtr& msg, const int timeout = 0) override;
int64_t Send(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, const int timeout = 0) override;
int64_t Receive(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, const int timeout = 0) override;
int Send(FairMQMessagePtr& msg, const int timeout = -1) override;
int Receive(FairMQMessagePtr& msg, const int timeout = -1) override;
int64_t Send(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, const int timeout = -1) override;
int64_t Receive(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, const int timeout = -1) override;
int TrySend(FairMQMessagePtr& msg) override;
int TryReceive(FairMQMessagePtr& msg) override;
int64_t TrySend(std::vector<std::unique_ptr<FairMQMessage>>& msgVec) override;
int64_t TryReceive(std::vector<std::unique_ptr<FairMQMessage>>& msgVec) override;
void* GetSocket() const override;
int GetSocket(int nothing) const override;
int GetSocket() const;
void Close() override;
@@ -48,16 +42,22 @@ class FairMQSocketNN : public FairMQSocket
void SetOption(const std::string& option, const void* value, size_t valueSize) override;
void GetOption(const std::string& option, void* value, size_t* valueSize) override;
void SetLinger(const int value) override;
int GetLinger() const override;
void SetSndBufSize(const int value) override;
int GetSndBufSize() const override;
void SetRcvBufSize(const int value) override;
int GetRcvBufSize() const override;
void SetSndKernelSize(const int value) override;
int GetSndKernelSize() const override;
void SetRcvKernelSize(const int value) override;
int GetRcvKernelSize() const override;
unsigned long GetBytesTx() const override;
unsigned long GetBytesRx() const override;
unsigned long GetMessagesTx() const override;
unsigned long GetMessagesRx() const override;
bool SetSendTimeout(const int timeout, const std::string& address, const std::string& method) override;
int GetSendTimeout() const override;
bool SetReceiveTimeout(const int timeout, const std::string& address, const std::string& method) override;
int GetReceiveTimeout() const override;
static int GetConstant(const std::string& constant);
~FairMQSocketNN() override;
@@ -74,11 +74,7 @@ class FairMQSocketNN : public FairMQSocket
int fSndTimeout;
int fRcvTimeout;
int SendImpl(FairMQMessagePtr& msg, const int flags, const int timeout);
int ReceiveImpl(FairMQMessagePtr& msg, const int flags, const int timeout);
int64_t SendImpl(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, const int flags, const int timeout);
int64_t ReceiveImpl(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, const int flags, const int timeout);
int fLinger;
};
#endif /* FAIRMQSOCKETNN_H_ */

41
fairmq/nanomsg/FairMQTransportFactoryNN.cxx
View File

@@ -9,6 +9,9 @@
#include "FairMQTransportFactoryNN.h"
#include <nanomsg/nn.h>
#include <algorithm>
#include <thread>
#include <chrono>
using namespace std;
@@ -20,29 +23,31 @@ FairMQTransportFactoryNN::FairMQTransportFactoryNN(const string& id, const FairM
LOG(debug) << "Transport: Using nanomsg library";
}
FairMQMessagePtr FairMQTransportFactoryNN::CreateMessage() const
FairMQMessagePtr FairMQTransportFactoryNN::CreateMessage()
{
return unique_ptr<FairMQMessage>(new FairMQMessageNN());
return unique_ptr<FairMQMessage>(new FairMQMessageNN(this));
}
FairMQMessagePtr FairMQTransportFactoryNN::CreateMessage(const size_t size) const
FairMQMessagePtr FairMQTransportFactoryNN::CreateMessage(const size_t size)
{
return unique_ptr<FairMQMessage>(new FairMQMessageNN(size));
return unique_ptr<FairMQMessage>(new FairMQMessageNN(size, this));
}
FairMQMessagePtr FairMQTransportFactoryNN::CreateMessage(void* data, const size_t size, fairmq_free_fn* ffn, void* hint) const
FairMQMessagePtr FairMQTransportFactoryNN::CreateMessage(void* data, const size_t size, fairmq_free_fn* ffn, void* hint)
{
return unique_ptr<FairMQMessage>(new FairMQMessageNN(data, size, ffn, hint));
return unique_ptr<FairMQMessage>(new FairMQMessageNN(data, size, ffn, hint, this));
}
FairMQMessagePtr FairMQTransportFactoryNN::CreateMessage(FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint) const
FairMQMessagePtr FairMQTransportFactoryNN::CreateMessage(FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint)
{
return unique_ptr<FairMQMessage>(new FairMQMessageNN(region, data, size, hint));
return unique_ptr<FairMQMessage>(new FairMQMessageNN(region, data, size, hint, this));
}
FairMQSocketPtr FairMQTransportFactoryNN::CreateSocket(const string& type, const string& name) const
{
return unique_ptr<FairMQSocket>(new FairMQSocketNN(type, name, GetId()));
unique_ptr<FairMQSocket> socket(new FairMQSocketNN(type, name, GetId()));
fSockets.push_back(socket.get());
return socket;
}
FairMQPollerPtr FairMQTransportFactoryNN::CreatePoller(const vector<FairMQChannel>& channels) const
@@ -50,7 +55,7 @@ FairMQPollerPtr FairMQTransportFactoryNN::CreatePoller(const vector<FairMQChanne
return unique_ptr<FairMQPoller>(new FairMQPollerNN(channels));
}
FairMQPollerPtr FairMQTransportFactoryNN::CreatePoller(const std::vector<const FairMQChannel*>& channels) const
FairMQPollerPtr FairMQTransportFactoryNN::CreatePoller(const std::vector<FairMQChannel*>& channels) const
{
return unique_ptr<FairMQPoller>(new FairMQPollerNN(channels));
}
@@ -60,11 +65,6 @@ FairMQPollerPtr FairMQTransportFactoryNN::CreatePoller(const unordered_map<strin
return unique_ptr<FairMQPoller>(new FairMQPollerNN(channelsMap, channelList));
}
FairMQPollerPtr FairMQTransportFactoryNN::CreatePoller(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket) const
{
return unique_ptr<FairMQPoller>(new FairMQPollerNN(cmdSocket, dataSocket));
}
FairMQUnmanagedRegionPtr FairMQTransportFactoryNN::CreateUnmanagedRegion(const size_t size, FairMQRegionCallback callback) const
{
return unique_ptr<FairMQUnmanagedRegion>(new FairMQUnmanagedRegionNN(size, callback));
@@ -75,6 +75,17 @@ fair::mq::Transport FairMQTransportFactoryNN::GetType() const
return fTransportType;
}
void FairMQTransportFactoryNN::Reset()
{
auto it = max_element(fSockets.begin(), fSockets.end(), [](FairMQSocket* s1, FairMQSocket* s2) {
return static_cast<FairMQSocketNN*>(s1)->GetLinger() < static_cast<FairMQSocketNN*>(s2)->GetLinger();
});
if (it != fSockets.end()) {
this_thread::sleep_for(chrono::milliseconds(static_cast<FairMQSocketNN*>(*it)->GetLinger()));
}
fSockets.clear();
}
FairMQTransportFactoryNN::~FairMQTransportFactoryNN()
{
// nn_term();

15
fairmq/nanomsg/FairMQTransportFactoryNN.h
View File

@@ -19,23 +19,22 @@
#include <vector>
#include <string>
class FairMQTransportFactoryNN : public FairMQTransportFactory
class FairMQTransportFactoryNN final : public FairMQTransportFactory
{
public:
FairMQTransportFactoryNN(const std::string& id = "", const FairMQProgOptions* config = nullptr);
~FairMQTransportFactoryNN() override;
FairMQMessagePtr CreateMessage() const override;
FairMQMessagePtr CreateMessage(const size_t size) const override;
FairMQMessagePtr CreateMessage(void* data, const size_t size, fairmq_free_fn* ffn, void* hint = nullptr) const override;
FairMQMessagePtr CreateMessage(FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint = 0) const override;
FairMQMessagePtr CreateMessage() override;
FairMQMessagePtr CreateMessage(const size_t size) override;
FairMQMessagePtr CreateMessage(void* data, const size_t size, fairmq_free_fn* ffn, void* hint = nullptr) override;
FairMQMessagePtr CreateMessage(FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint = 0) override;
FairMQSocketPtr CreateSocket(const std::string& type, const std::string& name) const override;
FairMQPollerPtr CreatePoller(const std::vector<FairMQChannel>& channels) const override;
FairMQPollerPtr CreatePoller(const std::vector<const FairMQChannel*>& channels) const override;
FairMQPollerPtr CreatePoller(const std::vector<FairMQChannel*>& channels) const override;
FairMQPollerPtr CreatePoller(const std::unordered_map<std::string, std::vector<FairMQChannel>>& channelsMap, const std::vector<std::string>& channelList) const override;
FairMQPollerPtr CreatePoller(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket) const override;
FairMQUnmanagedRegionPtr CreateUnmanagedRegion(const size_t size, FairMQRegionCallback callback) const override;
@@ -43,9 +42,11 @@ class FairMQTransportFactoryNN : public FairMQTransportFactory
void Interrupt() override { FairMQSocketNN::Interrupt(); }
void Resume() override { FairMQSocketNN::Resume(); }
void Reset() override;
private:
static fair::mq::Transport fTransportType;
mutable std::vector<FairMQSocket*> fSockets;
};
#endif /* FAIRMQTRANSPORTFACTORYNN_H_ */

2
fairmq/nanomsg/FairMQUnmanagedRegionNN.h
View File

@@ -13,7 +13,7 @@
#include <cstddef> // size_t
class FairMQUnmanagedRegionNN : public FairMQUnmanagedRegion
class FairMQUnmanagedRegionNN final : public FairMQUnmanagedRegion
{
friend class FairMQSocketNN;

2
fairmq/ofi/Message.h
View File

@@ -30,7 +30,7 @@ namespace ofi
*
* @todo TODO insert long description
*/
class Message : public fair::mq::Message
class Message final : public fair::mq::Message
{
public:
Message();

37
fairmq/ofi/Poller.cxx
View File

@@ -7,6 +7,7 @@
********************************************************************************/
#include <fairmq/ofi/Poller.h>
#include <fairmq/ofi/Socket.h>
#include <fairmq/Tools.h>
#include <FairMQLogger.h>
@@ -27,13 +28,13 @@ Poller::Poller(const vector<FairMQChannel>& channels)
fItems = new zmq_pollitem_t[fNumItems];
for (int i = 0; i < fNumItems; ++i) {
fItems[i].socket = channels.at(i).GetSocket().GetSocket();
fItems[i].socket = static_cast<const Socket*>(&(channels.at(i).GetSocket()))->GetSocket();
fItems[i].fd = 0;
fItems[i].revents = 0;
int type = 0;
size_t size = sizeof(type);
zmq_getsockopt(channels.at(i).GetSocket().GetSocket(), ZMQ_TYPE, &type, &size);
zmq_getsockopt(static_cast<const Socket*>(&(channels.at(i).GetSocket()))->GetSocket(), ZMQ_TYPE, &type, &size);
SetItemEvents(fItems[i], type);
}
@@ -45,13 +46,13 @@ Poller::Poller(const vector<const FairMQChannel*>& channels)
fItems = new zmq_pollitem_t[fNumItems];
for (int i = 0; i < fNumItems; ++i) {
fItems[i].socket = channels.at(i)->GetSocket().GetSocket();
fItems[i].socket = static_cast<const Socket*>(&(channels.at(i)->GetSocket()))->GetSocket();
fItems[i].fd = 0;
fItems[i].revents = 0;
int type = 0;
size_t size = sizeof(type);
zmq_getsockopt(channels.at(i)->GetSocket().GetSocket(), ZMQ_TYPE, &type, &size);
zmq_getsockopt(static_cast<const Socket*>(&(channels.at(i)->GetSocket()))->GetSocket(), ZMQ_TYPE, &type, &size);
SetItemEvents(fItems[i], type);
}
@@ -59,9 +60,8 @@ Poller::Poller(const vector<const FairMQChannel*>& channels)
Poller::Poller(const unordered_map<string, vector<FairMQChannel>>& channelsMap, const vector<string>& channelList)
{
int offset = 0;
try {
int offset = 0;
// calculate offsets and the total size of the poll item set
for (string channel : channelList) {
fOffsetMap[channel] = offset;
@@ -76,13 +76,13 @@ Poller::Poller(const unordered_map<string, vector<FairMQChannel>>& channelsMap,
for (unsigned int i = 0; i < channelsMap.at(channel).size(); ++i) {
index = fOffsetMap[channel] + i;
fItems[index].socket = channelsMap.at(channel).at(i).GetSocket().GetSocket();
fItems[index].socket = static_cast<const Socket*>(&(channelsMap.at(channel).at(i).GetSocket()))->GetSocket();
fItems[index].fd = 0;
fItems[index].revents = 0;
int type = 0;
size_t size = sizeof(type);
zmq_getsockopt(channelsMap.at(channel).at(i).GetSocket().GetSocket(), ZMQ_TYPE, &type, &size);
zmq_getsockopt(static_cast<const Socket*>(&(channelsMap.at(channel).at(i).GetSocket()))->GetSocket(), ZMQ_TYPE, &type, &size);
SetItemEvents(fItems[index], type);
}
@@ -94,27 +94,6 @@ Poller::Poller(const unordered_map<string, vector<FairMQChannel>>& channelsMap,
}
}
Poller::Poller(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket)
: fNumItems{2}
{
fItems = new zmq_pollitem_t[fNumItems];
fItems[0].socket = cmdSocket.GetSocket();
fItems[0].fd = 0;
fItems[0].events = ZMQ_POLLIN;
fItems[0].revents = 0;
fItems[1].socket = dataSocket.GetSocket();
fItems[1].fd = 0;
fItems[1].revents = 0;
int type = 0;
size_t size = sizeof(type);
zmq_getsockopt(dataSocket.GetSocket(), ZMQ_TYPE, &type, &size);
SetItemEvents(fItems[1], type);
}
auto Poller::SetItemEvents(zmq_pollitem_t& item, const int type) -> void
{
if (type == ZMQ_PAIR) {

4
fairmq/ofi/Poller.h
View File

@@ -33,7 +33,7 @@ class TransportFactory;
*
* @todo TODO insert long description
*/
class Poller : public FairMQPoller
class Poller final : public FairMQPoller
{
friend class FairMQChannel;
friend class TransportFactory;
@@ -57,8 +57,6 @@ class Poller : public FairMQPoller
~Poller() override;
private:
Poller(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket);
zmq_pollitem_t* fItems;
int fNumItems;

164
fairmq/ofi/Socket.cxx
View File

@@ -619,114 +619,82 @@ auto Socket::GetOption(const string& option, void* value, size_t* valueSize) ->
}
}
auto Socket::SetSendTimeout(const int timeout, const string& address, const string& method) -> bool
int Socket::GetLinger() const
{
throw SocketError{"Not yet implemented."};
// fSndTimeout = timeout;
// if (method == "bind")
// {
// if (zmq_unbind(fSocket, address.c_str()) != 0)
// {
// LOG(error) << "Failed unbinding socket " << fId << ", reason: " << zmq_strerror(errno);
// return false;
// }
// if (zmq_setsockopt(fSocket, ZMQ_SNDTIMEO, &fSndTimeout, sizeof(fSndTimeout)) != 0)
// {
// LOG(error) << "Failed setting option on socket " << fId << ", reason: " << zmq_strerror(errno);
// return false;
// }
// if (zmq_bind(fSocket, address.c_str()) != 0)
// {
// LOG(error) << "Failed binding socket " << fId << ", reason: " << zmq_strerror(errno);
// return false;
// }
// }
// else if (method == "connect")
// {
// if (zmq_disconnect(fSocket, address.c_str()) != 0)
// {
// LOG(error) << "Failed disconnecting socket " << fId << ", reason: " << zmq_strerror(errno);
// return false;
// }
// if (zmq_setsockopt(fSocket, ZMQ_SNDTIMEO, &fSndTimeout, sizeof(fSndTimeout)) != 0)
// {
// LOG(error) << "Failed setting option on socket " << fId << ", reason: " << zmq_strerror(errno);
// return false;
// }
// if (zmq_connect(fSocket, address.c_str()) != 0)
// {
// LOG(error) << "Failed connecting socket " << fId << ", reason: " << zmq_strerror(errno);
// return false;
// }
// }
// else
// {
// LOG(error) << "timeout failed - unknown method provided!";
// return false;
// }
//
// return true;
int value = 0;
size_t valueSize;
if (zmq_getsockopt(fControlSocket, ZMQ_LINGER, &value, &valueSize) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_LINGER, reason: ", zmq_strerror(errno)));
}
return value;
}
auto Socket::GetSendTimeout() const -> int
void Socket::SetSndBufSize(const int value)
{
throw SocketError{"Not yet implemented."};
// return fSndTimeout;
if (zmq_setsockopt(fControlSocket, ZMQ_SNDHWM, &value, sizeof(value)) < 0) {
throw SocketError(tools::ToString("failed setting ZMQ_SNDHWM, reason: ", zmq_strerror(errno)));
}
}
auto Socket::SetReceiveTimeout(const int timeout, const string& address, const string& method) -> bool
int Socket::GetSndBufSize() const
{
throw SocketError{"Not yet implemented."};
// fRcvTimeout = timeout;
// if (method == "bind")
// {
// if (zmq_unbind(fSocket, address.c_str()) != 0)
// {
// LOG(error) << "Failed unbinding socket " << fId << ", reason: " << zmq_strerror(errno);
// return false;
// }
// if (zmq_setsockopt(fSocket, ZMQ_RCVTIMEO, &fRcvTimeout, sizeof(fRcvTimeout)) != 0)
// {
// LOG(error) << "Failed setting option on socket " << fId << ", reason: " << zmq_strerror(errno);
// return false;
// }
// if (zmq_bind(fSocket, address.c_str()) != 0)
// {
// LOG(error) << "Failed binding socket " << fId << ", reason: " << zmq_strerror(errno);
// return false;
// }
// }
// else if (method == "connect")
// {
// if (zmq_disconnect(fSocket, address.c_str()) != 0)
// {
// LOG(error) << "Failed disconnecting socket " << fId << ", reason: " << zmq_strerror(errno);
// return false;
// }
// if (zmq_setsockopt(fSocket, ZMQ_RCVTIMEO, &fRcvTimeout, sizeof(fRcvTimeout)) != 0)
// {
// LOG(error) << "Failed setting option on socket " << fId << ", reason: " << zmq_strerror(errno);
// return false;
// }
// if (zmq_connect(fSocket, address.c_str()) != 0)
// {
// LOG(error) << "Failed connecting socket " << fId << ", reason: " << zmq_strerror(errno);
// return false;
// }
// }
// else
// {
// LOG(error) << "timeout failed - unknown method provided!";
// return false;
// }
//
// return true;
int value = 0;
size_t valueSize;
if (zmq_getsockopt(fControlSocket, ZMQ_SNDHWM, &value, &valueSize) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_SNDHWM, reason: ", zmq_strerror(errno)));
}
return value;
}
auto Socket::GetReceiveTimeout() const -> int
void Socket::SetRcvBufSize(const int value)
{
throw SocketError{"Not yet implemented."};
// return fRcvTimeout;
if (zmq_setsockopt(fControlSocket, ZMQ_RCVHWM, &value, sizeof(value)) < 0) {
throw SocketError(tools::ToString("failed setting ZMQ_RCVHWM, reason: ", zmq_strerror(errno)));
}
}
int Socket::GetRcvBufSize() const
{
int value = 0;
size_t valueSize;
if (zmq_getsockopt(fControlSocket, ZMQ_RCVHWM, &value, &valueSize) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_RCVHWM, reason: ", zmq_strerror(errno)));
}
return value;
}
void Socket::SetSndKernelSize(const int value)
{
if (zmq_setsockopt(fControlSocket, ZMQ_SNDBUF, &value, sizeof(value)) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_SNDBUF, reason: ", zmq_strerror(errno)));
}
}
int Socket::GetSndKernelSize() const
{
int value = 0;
size_t valueSize;
if (zmq_getsockopt(fControlSocket, ZMQ_SNDBUF, &value, &valueSize) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_SNDBUF, reason: ", zmq_strerror(errno)));
}
return value;
}
void Socket::SetRcvKernelSize(const int value)
{
if (zmq_setsockopt(fControlSocket, ZMQ_RCVBUF, &value, sizeof(value)) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_RCVBUF, reason: ", zmq_strerror(errno)));
}
}
int Socket::GetRcvKernelSize() const
{
int value = 0;
size_t valueSize;
if (zmq_getsockopt(fControlSocket, ZMQ_RCVBUF, &value, &valueSize) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_RCVBUF, reason: ", zmq_strerror(errno)));
}
return value;
}
auto Socket::GetConstant(const string& constant) -> int

21
fairmq/ofi/Socket.h
View File

@@ -32,7 +32,7 @@ namespace ofi
*
* @todo TODO insert long description
*/
class Socket : public fair::mq::Socket
class Socket final : public fair::mq::Socket
{
public:
Socket(Context& factory, const std::string& type, const std::string& name, const std::string& id = "");
@@ -54,8 +54,18 @@ class Socket : public fair::mq::Socket
auto TrySend(std::vector<MessagePtr>& msgVec) -> int64_t override;
auto TryReceive(std::vector<MessagePtr>& msgVec) -> int64_t override;
auto GetSocket() const -> void* override { return fControlSocket; }
auto GetSocket(int nothing) const -> int override { return -1; }
auto GetSocket() const -> void* { return fControlSocket; }
void SetLinger(const int value) override;
int GetLinger() const override;
void SetSndBufSize(const int value) override;
int GetSndBufSize() const override;
void SetRcvBufSize(const int value) override;
int GetRcvBufSize() const override;
void SetSndKernelSize(const int value) override;
int GetSndKernelSize() const override;
void SetRcvKernelSize(const int value) override;
int GetRcvKernelSize() const override;
auto Close() -> void override;
@@ -67,11 +77,6 @@ class Socket : public fair::mq::Socket
auto GetMessagesTx() const -> unsigned long override { return fMessagesTx; }
auto GetMessagesRx() const -> unsigned long override { return fMessagesRx; }
auto SetSendTimeout(const int timeout, const std::string& address, const std::string& method) -> bool override;
auto GetSendTimeout() const -> int override;
auto SetReceiveTimeout(const int timeout, const std::string& address, const std::string& method) -> bool override;
auto GetReceiveTimeout() const -> int override;
static auto GetConstant(const std::string& constant) -> int;
~Socket() override;

5
fairmq/ofi/TransportFactory.cxx
View File

@@ -76,11 +76,6 @@ auto TransportFactory::CreatePoller(const unordered_map<string, vector<FairMQCha
return PollerPtr{new Poller(channelsMap, channelList)};
}
auto TransportFactory::CreatePoller(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket) const -> PollerPtr
{
return PollerPtr{new Poller(cmdSocket, dataSocket)};
}
auto TransportFactory::CreateUnmanagedRegion(const size_t size, FairMQRegionCallback callback) const -> UnmanagedRegionPtr
{
throw runtime_error{"Not yet implemented UMR."};

4
fairmq/ofi/TransportFactory.h
View File

@@ -26,7 +26,7 @@ namespace ofi
*
* @todo TODO insert long description
*/
class TransportFactory : public FairMQTransportFactory
class TransportFactory final : public FairMQTransportFactory
{
public:
TransportFactory(const std::string& id = "", const FairMQProgOptions* config = nullptr);
@@ -43,7 +43,6 @@ class TransportFactory : public FairMQTransportFactory
auto CreatePoller(const std::vector<FairMQChannel>& channels) const -> PollerPtr override;
auto CreatePoller(const std::vector<const FairMQChannel*>& channels) const -> PollerPtr override;
auto CreatePoller(const std::unordered_map<std::string, std::vector<FairMQChannel>>& channelsMap, const std::vector<std::string>& channelList) const -> PollerPtr override;
auto CreatePoller(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket) const -> PollerPtr override;
auto CreateUnmanagedRegion(const size_t size, FairMQRegionCallback callback = nullptr) const -> UnmanagedRegionPtr override;
@@ -51,6 +50,7 @@ class TransportFactory : public FairMQTransportFactory
void Interrupt() override {}
void Resume() override {}
void Reset() override {}
private:
mutable Context fContext;

5
fairmq/options/FairMQParser.cxx
View File

@@ -153,6 +153,7 @@ void ChannelParser(const boost::property_tree::ptree& tree, FairMQChannelMap& ch
commonChannel.UpdateRcvBufSize(q.second.get<int>("rcvBufSize", commonChannel.GetRcvBufSize()));
commonChannel.UpdateSndKernelSize(q.second.get<int>("sndKernelSize", commonChannel.GetSndKernelSize()));
commonChannel.UpdateRcvKernelSize(q.second.get<int>("rcvKernelSize", commonChannel.GetRcvKernelSize()));
commonChannel.UpdateLinger(q.second.get<int>("linger", commonChannel.GetLinger()));
commonChannel.UpdateRateLogging(q.second.get<int>("rateLogging", commonChannel.GetRateLogging()));
// temporary FairMQChannel container
@@ -172,6 +173,7 @@ void ChannelParser(const boost::property_tree::ptree& tree, FairMQChannelMap& ch
LOG(debug) << "\trcvBufSize = " << commonChannel.GetRcvBufSize();
LOG(debug) << "\tsndKernelSize = " << commonChannel.GetSndKernelSize();
LOG(debug) << "\trcvKernelSize = " << commonChannel.GetRcvKernelSize();
LOG(debug) << "\tlinger = " << commonChannel.GetLinger();
LOG(debug) << "\trateLogging = " << commonChannel.GetRateLogging();
for (int i = 0; i < numSockets; ++i)
@@ -214,6 +216,7 @@ void SocketParser(const boost::property_tree::ptree& tree, vector<FairMQChannel>
channel.UpdateRcvBufSize(q.second.get<int>("rcvBufSize", channel.GetRcvBufSize()));
channel.UpdateSndKernelSize(q.second.get<int>("sndKernelSize", channel.GetSndKernelSize()));
channel.UpdateRcvKernelSize(q.second.get<int>("rcvKernelSize", channel.GetRcvKernelSize()));
channel.UpdateLinger(q.second.get<int>("linger", channel.GetLinger()));
channel.UpdateRateLogging(q.second.get<int>("rateLogging", channel.GetRateLogging()));
LOG(debug) << "" << channelName << "[" << socketCounter << "]:";
@@ -225,6 +228,7 @@ void SocketParser(const boost::property_tree::ptree& tree, vector<FairMQChannel>
LOG(debug) << "\trcvBufSize = " << channel.GetRcvBufSize();
LOG(debug) << "\tsndKernelSize = " << channel.GetSndKernelSize();
LOG(debug) << "\trcvKernelSize = " << channel.GetRcvKernelSize();
LOG(debug) << "\tlinger = " << channel.GetLinger();
LOG(debug) << "\trateLogging = " << channel.GetRateLogging();
channelList.push_back(channel);
@@ -253,6 +257,7 @@ void SocketParser(const boost::property_tree::ptree& tree, vector<FairMQChannel>
LOG(debug) << "\trcvBufSize = " << channel.GetRcvBufSize();
LOG(debug) << "\tsndKernelSize = " << channel.GetSndKernelSize();
LOG(debug) << "\trcvKernelSize = " << channel.GetRcvKernelSize();
LOG(debug) << "\tlinger = " << channel.GetLinger();
LOG(debug) << "\trateLogging = " << channel.GetRateLogging();
channelList.push_back(channel);

40
fairmq/options/FairMQProgOptions.cxx
View File

@@ -162,7 +162,7 @@ int FairMQProgOptions::ParseAll(const int argc, char const* const* argv, bool al
else if (fVarMap.count("channel-config"))
{
LOG(debug) << "channel-config: Parsing channel configuration";
UpdateChannelMap(parser::SUBOPT().UserParser(fVarMap.at("channel-config").as<vector<string>>(), idForParser));
ParseChannelsFromCmdLine();
}
else
{
@@ -185,6 +185,23 @@ int FairMQProgOptions::ParseAll(const int argc, char const* const* argv, bool al
return 0;
}
void FairMQProgOptions::ParseChannelsFromCmdLine()
{
string idForParser;
// check if config-key for config parser is provided
if (fVarMap.count("config-key"))
{
idForParser = fVarMap["config-key"].as<string>();
}
else if (fVarMap.count("id"))
{
idForParser = fVarMap["id"].as<string>();
}
UpdateChannelMap(parser::SUBOPT().UserParser(fVarMap.at("channel-config").as<vector<string>>(), idForParser));
}
void FairMQProgOptions::ParseCmdLine(const int argc, char const* const* argv, bool allowUnregistered)
{
fVarMap.clear();
@@ -268,6 +285,7 @@ void FairMQProgOptions::UpdateMQValues()
string rcvBufSizeKey = "chans." + p.first + "." + to_string(index) + ".rcvBufSize";
string sndKernelSizeKey = "chans." + p.first + "." + to_string(index) + ".sndKernelSize";
string rcvKernelSizeKey = "chans." + p.first + "." + to_string(index) + ".rcvKernelSize";
string lingerKey = "chans." + p.first + "." + to_string(index) + ".linger";
string rateLoggingKey = "chans." + p.first + "." + to_string(index) + ".rateLogging";
fChannelKeyMap[typeKey] = ChannelKey{p.first, index, "type"};
@@ -278,6 +296,7 @@ void FairMQProgOptions::UpdateMQValues()
fChannelKeyMap[rcvBufSizeKey] = ChannelKey{p.first, index, "rcvBufSize"};
fChannelKeyMap[sndKernelSizeKey] = ChannelKey{p.first, index, "sndKernelSize"};
fChannelKeyMap[rcvKernelSizeKey] = ChannelKey{p.first, index, "rcvkernelSize"};
fChannelKeyMap[lingerKey] = ChannelKey{p.first, index, "linger"};
fChannelKeyMap[rateLoggingKey] = ChannelKey{p.first, index, "rateLogging"};
UpdateVarMap<string>(typeKey, channel.GetType());
@@ -288,6 +307,7 @@ void FairMQProgOptions::UpdateMQValues()
UpdateVarMap<int>(rcvBufSizeKey, channel.GetRcvBufSize());
UpdateVarMap<int>(sndKernelSizeKey, channel.GetSndKernelSize());
UpdateVarMap<int>(rcvKernelSizeKey, channel.GetRcvKernelSize());
UpdateVarMap<int>(lingerKey, channel.GetLinger());
UpdateVarMap<int>(rateLoggingKey, channel.GetRateLogging());
index++;
@@ -343,6 +363,24 @@ int FairMQProgOptions::UpdateChannelValue(const string& channelName, int index,
return 0;
}
if (member == "sndKernelSize")
{
fFairMQChannelMap.at(channelName).at(index).UpdateSndKernelSize(val);
return 0;
}
if (member == "rcvKernelSize")
{
fFairMQChannelMap.at(channelName).at(index).UpdateRcvKernelSize(val);
return 0;
}
if (member == "linger")
{
fFairMQChannelMap.at(channelName).at(index).UpdateLinger(val);
return 0;
}
if (member == "rateLogging")
{
fFairMQChannelMap.at(channelName).at(index).UpdateRateLogging(val);

19
fairmq/options/FairMQProgOptions.h
View File

@@ -59,13 +59,13 @@ class FairMQProgOptions
// update variable map
UpdateVarMap<typename std::decay<T>::type>(key, val);
// update FairMQChannel map if the key is a channel key
if (std::is_same<T, int>::value || std::is_same<T, std::string>::value)
if (key == "channel-config")
{
if (fChannelKeyMap.count(key))
{
UpdateChannelValue(fChannelKeyMap.at(key).channel, fChannelKeyMap.at(key).index, fChannelKeyMap.at(key).member, val);
}
ParseChannelsFromCmdLine();
}
else if (fChannelKeyMap.count(key))
{
UpdateChannelValue(fChannelKeyMap.at(key).channel, fChannelKeyMap.at(key).index, fChannelKeyMap.at(key).member, val);
}
lock.unlock();
@@ -210,6 +210,12 @@ class FairMQProgOptions
}
int UpdateChannelMap(const FairMQChannelMap& map);
template<typename T>
int UpdateChannelValue(const std::string&, int, const std::string&, T)
{
LOG(error) << "update of FairMQChannel map failed, because value type not supported";
return 1;
}
int UpdateChannelValue(const std::string& channelName, int index, const std::string& member, const std::string& val);
int UpdateChannelValue(const std::string& channelName, int index, const std::string& member, int val);
@@ -223,6 +229,7 @@ class FairMQProgOptions
vm[key].value() = boost::any(val);
}
void ParseChannelsFromCmdLine();
};
#endif /* FAIRMQPROGOPTIONS_H */

2
fairmq/options/FairMQSuboptParser.h
View File

@@ -56,6 +56,7 @@ struct SUBOPT
RCVBUFSIZE, // size of the receive queue
SNDKERNELSIZE,
RCVKERNELSIZE,
LINGER,
RATELOGGING, // logging rate
NUMSOCKETS,
lastsocketkey
@@ -71,6 +72,7 @@ struct SUBOPT
/*[RCVBUFSIZE] = */ "rcvBufSize",
/*[SNDKERNELSIZE] = */ "sndKernelSize",
/*[RCVKERNELSIZE] = */ "rcvKernelSize",
/*[LINGER] = */ "linger",
/*[RATELOGGING] = */ "rateLogging",
/*[NUMSOCKETS] = */ "numSockets",
nullptr

444
fairmq/plugins/Control.cxx
View File

@@ -1,5 +1,5 @@
/********************************************************************************
* Copyright (C) 2017 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* Copyright (C) 2017-2018 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* *
* This software is distributed under the terms of the *
* GNU Lesser General Public Licence (LGPL) version 3, *
@@ -11,17 +11,26 @@
#include <termios.h> // for the interactive mode
#include <poll.h> // for the interactive mode
#include <csignal> // catching system signals
#include <cstdlib>
#include <functional>
#include <atomic>
using namespace std;
namespace
{
volatile sig_atomic_t gSignalStatus = 0;
std::atomic<sig_atomic_t> gLastSignal(0);
std::atomic<int> gSignalCount(0);
extern "C" auto signal_handler(int signal) -> void
{
gSignalStatus = signal;
++gSignalCount;
gLastSignal = signal;
if (gSignalCount > 1)
{
std::abort();
}
}
}
@@ -32,18 +41,27 @@ namespace mq
namespace plugins
{
Control::Control(const string name, const Plugin::Version version, const string maintainer, const string homepage, PluginServices* pluginServices)
Control::Control(const string& name, const Plugin::Version version, const string& maintainer, const string& homepage, PluginServices* pluginServices)
: Plugin(name, version, maintainer, homepage, pluginServices)
, fControllerThread()
, fSignalHandlerThread()
, fShutdownThread()
, fEvents()
, fEventsMutex()
, fShutdownMutex()
, fControllerMutex()
, fNewEvent()
, fDeviceTerminationRequested(false)
, fHasShutdown(false)
, fDeviceShutdownRequested(false)
, fDeviceHasShutdown(false)
, fPluginShutdownRequested(false)
{
SubscribeToDeviceStateChange([&](DeviceState newState)
{
{
lock_guard<mutex> lock{fEventsMutex};
fEvents.push(newState);
}
fNewEvent.notify_one();
});
try
{
TakeDeviceControl();
@@ -95,124 +113,140 @@ auto ControlPluginProgramOptions() -> Plugin::ProgOptions
return pluginOptions;
}
auto Control::InteractiveMode() -> void
struct terminal_config
{
try
terminal_config()
{
RunStartupSequence();
char input; // hold the user console input
pollfd cinfd[1];
cinfd[0].fd = fileno(stdin);
cinfd[0].events = POLLIN;
struct termios t;
termios t;
tcgetattr(STDIN_FILENO, &t); // get the current terminal I/O structure
t.c_lflag &= ~ICANON; // disable canonical input
t.c_lflag &= ~ECHO; // do not echo input chars
tcsetattr(STDIN_FILENO, TCSANOW, &t); // apply the new settings
}
PrintInteractiveHelp();
bool keepRunning = true;
while (keepRunning)
{
if (poll(cinfd, 1, 500))
{
if (fDeviceTerminationRequested)
{
break;
}
cin >> input;
switch (input)
{
case 'i':
LOG(info) << "\n\n --> [i] init device\n";
ChangeDeviceState(DeviceStateTransition::InitDevice);
break;
case 'j':
LOG(info) << "\n\n --> [j] init task\n";
ChangeDeviceState(DeviceStateTransition::InitTask);
break;
case 'p':
LOG(info) << "\n\n --> [p] pause\n";
ChangeDeviceState(DeviceStateTransition::Pause);
break;
case 'r':
LOG(info) << "\n\n --> [r] run\n";
ChangeDeviceState(DeviceStateTransition::Run);
break;
case 's':
LOG(info) << "\n\n --> [s] stop\n";
ChangeDeviceState(DeviceStateTransition::Stop);
break;
case 't':
LOG(info) << "\n\n --> [t] reset task\n";
ChangeDeviceState(DeviceStateTransition::ResetTask);
break;
case 'd':
LOG(info) << "\n\n --> [d] reset device\n";
ChangeDeviceState(DeviceStateTransition::ResetDevice);
break;
case 'k':
LOG(info) << "\n\n --> [k] increase log severity\n";
CycleLogConsoleSeverityUp();
break;
case 'l':
LOG(info) << "\n\n --> [l] decrease log severity\n";
CycleLogConsoleSeverityDown();
break;
case 'n':
LOG(info) << "\n\n --> [n] increase log verbosity\n";
CycleLogVerbosityUp();
break;
case 'm':
LOG(info) << "\n\n --> [m] decrease log verbosity\n";
CycleLogVerbosityDown();
break;
case 'h':
LOG(info) << "\n\n --> [h] help\n";
PrintInteractiveHelp();
break;
// case 'x':
// LOG(info) << "\n\n --> [x] ERROR\n";
// ChangeDeviceState(DeviceStateTransition::ERROR_FOUND);
// break;
case 'q':
LOG(info) << "\n\n --> [q] end\n";
keepRunning = false;
break;
default:
LOG(info) << "Invalid input: [" << input << "]";
PrintInteractiveHelp();
break;
}
}
if (fDeviceTerminationRequested)
{
keepRunning = false;
}
}
~terminal_config()
{
termios t;
tcgetattr(STDIN_FILENO, &t); // get the current terminal I/O structure
t.c_lflag |= ICANON; // re-enable canonical input
t.c_lflag |= ECHO; // echo input chars
tcsetattr(STDIN_FILENO, TCSANOW, &t); // apply the new settings
}
};
if (!fDeviceTerminationRequested)
auto Control::InteractiveMode() -> void
try
{
RunStartupSequence();
char input; // hold the user console input
pollfd cinfd[1];
cinfd[0].fd = fileno(stdin);
cinfd[0].events = POLLIN;
cinfd[0].revents = 0;
terminal_config tconfig;
PrintInteractiveHelp();
bool keepRunning = true;
while (keepRunning)
{
if (poll(cinfd, 1, 500))
{
RunShutdownSequence();
if (fDeviceShutdownRequested)
{
break;
}
cin >> input;
switch (input)
{
case 'i':
LOG(info) << "\n\n --> [i] init device\n";
ChangeDeviceState(DeviceStateTransition::InitDevice);
break;
case 'j':
LOG(info) << "\n\n --> [j] init task\n";
ChangeDeviceState(DeviceStateTransition::InitTask);
break;
case 'p':
LOG(info) << "\n\n --> [p] pause\n";
ChangeDeviceState(DeviceStateTransition::Pause);
break;
case 'r':
LOG(info) << "\n\n --> [r] run\n";
ChangeDeviceState(DeviceStateTransition::Run);
break;
case 's':
LOG(info) << "\n\n --> [s] stop\n";
ChangeDeviceState(DeviceStateTransition::Stop);
break;
case 't':
LOG(info) << "\n\n --> [t] reset task\n";
ChangeDeviceState(DeviceStateTransition::ResetTask);
break;
case 'd':
LOG(info) << "\n\n --> [d] reset device\n";
ChangeDeviceState(DeviceStateTransition::ResetDevice);
break;
case 'k':
LOG(info) << "\n\n --> [k] increase log severity\n";
CycleLogConsoleSeverityUp();
break;
case 'l':
LOG(info) << "\n\n --> [l] decrease log severity\n";
CycleLogConsoleSeverityDown();
break;
case 'n':
LOG(info) << "\n\n --> [n] increase log verbosity\n";
CycleLogVerbosityUp();
break;
case 'm':
LOG(info) << "\n\n --> [m] decrease log verbosity\n";
CycleLogVerbosityDown();
break;
case 'h':
LOG(info) << "\n\n --> [h] help\n";
PrintInteractiveHelp();
break;
// case 'x':
// LOG(info) << "\n\n --> [x] ERROR\n";
// ChangeDeviceState(DeviceStateTransition::ERROR_FOUND);
// break;
case 'q':
LOG(info) << "\n\n --> [q] end\n";
keepRunning = false;
break;
default:
LOG(info) << "Invalid input: [" << input << "]";
PrintInteractiveHelp();
break;
}
}
if (GetCurrentDeviceState() == DeviceState::Error)
{
throw DeviceErrorState("Controlled device transitioned to error state.");
}
if (fDeviceShutdownRequested)
{
break;
}
}
catch (PluginServices::DeviceControlError& e)
{
// If we are here, it means another plugin has taken control. That's fine, just print the exception message and do nothing else.
LOG(debug) << e.what();
}
RunShutdownSequence();
}
catch (PluginServices::DeviceControlError& e)
{
// If we are here, it means another plugin has taken control. That's fine, just print the exception message and do nothing else.
LOG(debug) << e.what();
}
catch (DeviceErrorState&)
{
}
auto Control::PrintInteractiveHelp() -> void
@@ -233,137 +267,124 @@ auto Control::WaitForNextState() -> DeviceState
}
auto result = fEvents.front();
if (result == DeviceState::Error)
{
throw DeviceErrorState("Controlled device transitioned to error state.");
}
fEvents.pop();
return result;
}
auto Control::StaticMode() -> void
try
{
try
{
RunStartupSequence();
RunStartupSequence();
{
// Wait for next state, which is DeviceState::Ready,
// or for device shutdown request (Ctrl-C)
unique_lock<mutex> lock{fEventsMutex};
while (fEvents.empty() && !fDeviceShutdownRequested)
{
// Wait for next state, which is DeviceState::Ready,
// or for device termination request
unique_lock<mutex> lock{fEventsMutex};
while (fEvents.empty() && !fDeviceTerminationRequested)
{
fNewEvent.wait(lock);
}
fNewEvent.wait_for(lock, chrono::milliseconds(50));
}
if (!fDeviceTerminationRequested)
if (fEvents.front() == DeviceState::Error)
{
RunShutdownSequence();
throw DeviceErrorState("Controlled device transitioned to error state.");
}
}
catch (PluginServices::DeviceControlError& e)
{
// If we are here, it means another plugin has taken control. That's fine, just print the exception message and do nothing else.
LOG(debug) << e.what();
}
RunShutdownSequence();
}
catch (PluginServices::DeviceControlError& e)
{
// If we are here, it means another plugin has taken control. That's fine, just print the exception message and do nothing else.
LOG(debug) << e.what();
}
catch (DeviceErrorState&)
{
}
auto Control::SignalHandler() -> void
{
while (true)
while (gSignalCount == 0 && !fPluginShutdownRequested)
{
if (gSignalStatus != 0 && !fHasShutdown)
{
LOG(info) << "Received device shutdown request (signal " << gSignalStatus << ").";
LOG(info) << "Waiting for graceful device shutdown. Hit Ctrl-C again to abort immediately.";
if (!fDeviceTerminationRequested)
{
fDeviceTerminationRequested = true;
gSignalStatus = 0;
fShutdownThread = thread(&Control::HandleShutdownSignal, this);
}
else
{
LOG(warn) << "Received 2nd device shutdown request (signal " << gSignalStatus << ").";
LOG(warn) << "Aborting immediately!";
abort();
}
}
else if (fHasShutdown)
{
break;
}
this_thread::sleep_for(chrono::milliseconds(100));
}
}
auto Control::HandleShutdownSignal() -> void
{
StealDeviceControl();
UnsubscribeFromDeviceStateChange(); // In case, static or interactive mode have subscribed already
SubscribeToDeviceStateChange([&](DeviceState newState)
if (!fPluginShutdownRequested)
{
{
lock_guard<mutex> lock{fEventsMutex};
fEvents.push(newState);
}
fNewEvent.notify_one();
});
LOG(info) << "Received device shutdown request (signal " << gLastSignal << ").";
LOG(info) << "Waiting for graceful device shutdown. Hit Ctrl-C again to abort immediately.";
RunShutdownSequence();
// Signal and wait for controller thread, if we are controller
fDeviceShutdownRequested = true;
{
unique_lock<mutex> lock(fControllerMutex);
if (fControllerThread.joinable()) fControllerThread.join();
}
if (!fDeviceHasShutdown)
{
// Take over control and attempt graceful shutdown
StealDeviceControl();
try
{
RunShutdownSequence();
}
catch (PluginServices::DeviceControlError& e)
{
LOG(info) << "Graceful device shutdown failed: " << e.what() << " If hanging, hit Ctrl-C again to abort immediately.";
}
catch (...)
{
LOG(info) << "Graceful device shutdown failed. If hanging, hit Ctrl-C again to abort immediately.";
}
}
}
}
auto Control::RunShutdownSequence() -> void
{
lock_guard<mutex> lock(fShutdownMutex);
if (!fHasShutdown)
auto nextState = GetCurrentDeviceState();
EmptyEventQueue();
while (nextState != DeviceState::Exiting && nextState != DeviceState::Error)
{
auto nextState = GetCurrentDeviceState();
EmptyEventQueue();
while (nextState != DeviceState::Exiting)
switch (nextState)
{
switch (nextState)
{
case DeviceState::Idle:
ChangeDeviceState(DeviceStateTransition::End);
break;
case DeviceState::DeviceReady:
ChangeDeviceState(DeviceStateTransition::ResetDevice);
break;
case DeviceState::Ready:
ChangeDeviceState(DeviceStateTransition::ResetTask);
break;
case DeviceState::Running:
ChangeDeviceState(DeviceStateTransition::Stop);
break;
case DeviceState::Paused:
ChangeDeviceState(DeviceStateTransition::Resume);
break;
default:
// ignore other states
break;
}
nextState = WaitForNextState();
case DeviceState::Idle:
ChangeDeviceState(DeviceStateTransition::End);
break;
case DeviceState::DeviceReady:
ChangeDeviceState(DeviceStateTransition::ResetDevice);
break;
case DeviceState::Ready:
ChangeDeviceState(DeviceStateTransition::ResetTask);
break;
case DeviceState::Running:
ChangeDeviceState(DeviceStateTransition::Stop);
break;
case DeviceState::Paused:
ChangeDeviceState(DeviceStateTransition::Resume);
break;
default:
LOG(debug) << "Controller ignoring event: " << nextState;
break;
}
fHasShutdown = true;
UnsubscribeFromDeviceStateChange();
ReleaseDeviceControl();
nextState = WaitForNextState();
}
fDeviceHasShutdown = true;
ReleaseDeviceControl();
}
auto Control::RunStartupSequence() -> void
{
SubscribeToDeviceStateChange([&](DeviceState newState)
{
{
lock_guard<mutex> lock{fEventsMutex};
fEvents.push(newState);
}
fNewEvent.notify_one();
});
ChangeDeviceState(DeviceStateTransition::InitDevice);
while (WaitForNextState() != DeviceState::DeviceReady) {}
ChangeDeviceState(DeviceStateTransition::InitTask);
@@ -380,9 +401,16 @@ auto Control::EmptyEventQueue() -> void
Control::~Control()
{
if (fControllerThread.joinable()) fControllerThread.join();
// Notify threads to exit
fPluginShutdownRequested = true;
{
unique_lock<mutex> lock(fControllerMutex);
if (fControllerThread.joinable()) fControllerThread.join();
}
if (fSignalHandlerThread.joinable()) fSignalHandlerThread.join();
if (fShutdownThread.joinable()) fShutdownThread.join();
UnsubscribeFromDeviceStateChange();
}
} /* namespace plugins */

34
fairmq/plugins/Control.h
View File

@@ -10,6 +10,7 @@
#define FAIR_MQ_PLUGINS_CONTROL
#include <fairmq/Plugin.h>
#include <fairmq/Version.h>
#include <condition_variable>
#include <mutex>
@@ -17,6 +18,7 @@
#include <queue>
#include <thread>
#include <atomic>
#include <stdexcept>
namespace fair
{
@@ -28,42 +30,46 @@ namespace plugins
class Control : public Plugin
{
public:
Control(const std::string name, const Plugin::Version version, const std::string maintainer, const std::string homepage, PluginServices* pluginServices);
Control(const std::string& name, const Plugin::Version version, const std::string& maintainer, const std::string& homepage, PluginServices* pluginServices);
~Control();
private:
auto InteractiveMode() -> void;
auto PrintInteractiveHelp() -> void;
static auto PrintInteractiveHelp() -> void;
auto StaticMode() -> void;
auto WaitForNextState() -> DeviceState;
auto SignalHandler() -> void;
auto HandleShutdownSignal() -> void;
auto RunShutdownSequence() -> void;
auto RunStartupSequence() -> void;
auto EmptyEventQueue() -> void;
std::thread fControllerThread;
std::thread fSignalHandlerThread;
std::thread fShutdownThread;
std::queue<DeviceState> fEvents;
std::mutex fEventsMutex;
std::mutex fShutdownMutex;
std::mutex fControllerMutex;
std::condition_variable fNewEvent;
std::atomic<bool> fDeviceTerminationRequested;
std::atomic<bool> fHasShutdown;
std::atomic<bool> fDeviceShutdownRequested;
std::atomic<bool> fDeviceHasShutdown;
std::atomic<bool> fPluginShutdownRequested;
struct DeviceErrorState : std::runtime_error { using std::runtime_error::runtime_error; };
}; /* class Control */
auto ControlPluginProgramOptions() -> Plugin::ProgOptions;
REGISTER_FAIRMQ_PLUGIN(
Control, // Class name
control, // Plugin name (string, lower case chars only)
(Plugin::Version{1,0,1}), // Version
"FairRootGroup <fairroot@gsi.de>", // Maintainer
"https://github.com/FairRootGroup/FairRoot", // Homepage
ControlPluginProgramOptions // Free function which declares custom program options for the plugin
// signature: () -> boost::optional<boost::program_options::options_description>
Control, // Class name
control, // Plugin name (string, lower case chars only)
(Plugin::Version{FAIRMQ_VERSION_MAJOR,
FAIRMQ_VERSION_MINOR,
FAIRMQ_VERSION_PATCH}), // Version
"FairRootGroup <fairroot@gsi.de>", // Maintainer
"https://github.com/FairRootGroup/FairRoot", // Homepage
ControlPluginProgramOptions // Free function which declares custom program options for the
// plugin signature: () ->
// boost::optional<boost::program_options::options_description>
)
} /* namespace plugins */

2
fairmq/plugins/DDS/DDS.cxx
View File

@@ -31,7 +31,7 @@ namespace mq
namespace plugins
{
DDS::DDS(const string name, const Plugin::Version version, const string maintainer, const string homepage, PluginServices* pluginServices)
DDS::DDS(const string& name, const Plugin::Version version, const string& maintainer, const string& homepage, PluginServices* pluginServices)
: Plugin(name, version, maintainer, homepage, pluginServices)
, fService()
, fDDSCustomCmd(fService)

2
fairmq/plugins/DDS/DDS.h
View File

@@ -61,7 +61,7 @@ struct IofN
class DDS : public Plugin
{
public:
DDS(const std::string name, const Plugin::Version version, const std::string maintainer, const std::string homepage, PluginServices* pluginServices);
DDS(const std::string& name, const Plugin::Version version, const std::string& maintainer, const std::string& homepage, PluginServices* pluginServices);
~DDS();

2
fairmq/plugins/DDS/runDDSCommandUI.cxx
View File

@@ -33,7 +33,7 @@ int main(int argc, char* argv[])
{
try {
string sessionID;
char command;
char command = ' ';
string topologyPath;
bpo::options_description options("fairmq-dds-command-ui options");

4
fairmq/run/runBenchmarkSampler.cxx
View File

@@ -16,7 +16,9 @@ void addCustomOptions(bpo::options_description& options)
options.add_options()
("out-channel", bpo::value<std::string>()->default_value("data"), "Name of the output channel")
("same-msg", bpo::value<bool>()->default_value(false), "Re-send the same message, or recreate for each iteration")
("msg-size", bpo::value<int>()->default_value(1000000), "Message size in bytes")
("multipart", bpo::value<bool>()->default_value(false), "Handle multipart payloads")
("num-parts", bpo::value<size_t>()->default_value(1), "Number of parts to send. 1 will send single messages, not parts")
("msg-size", bpo::value<size_t>()->default_value(1000000), "Message size in bytes")
("max-iterations", bpo::value<uint64_t>()->default_value(0), "Number of run iterations (0 - infinite)")
("msg-rate", bpo::value<float>()->default_value(0), "Msg rate limit in maximum number of messages per second");
}

2
fairmq/run/runMerger.cxx
View File

@@ -16,7 +16,7 @@ void addCustomOptions(bpo::options_description& options)
options.add_options()
("in-channel", bpo::value<std::string>()->default_value("data-in"), "Name of the input channel")
("out-channel", bpo::value<std::string>()->default_value("data-out"), "Name of the output channel")
("multipart", bpo::value<int>()->default_value(1), "Handle multipart payloads");
("multipart", bpo::value<bool>()->default_value(true), "Handle multipart payloads");
}
FairMQDevicePtr getDevice(const FairMQProgOptions& /*config*/)

2
fairmq/run/runMultiplier.cxx
View File

@@ -16,7 +16,7 @@ void addCustomOptions(bpo::options_description& options)
options.add_options()
("in-channel", bpo::value<std::string>()->default_value("data-in"), "Name of the input channel")
("out-channel", bpo::value<std::vector<std::string>>()->multitoken(), "Names of the output channels")
("multipart", bpo::value<int>()->default_value(1), "Handle multipart payloads");
("multipart", bpo::value<bool>()->default_value(true), "Handle multipart payloads");
}
FairMQDevicePtr getDevice(const FairMQProgOptions& /*config*/)

2
fairmq/run/runProxy.cxx
View File

@@ -16,7 +16,7 @@ void addCustomOptions(bpo::options_description& options)
options.add_options()
("in-channel", bpo::value<std::string>()->default_value("data-in"), "Name of the input channel")
("out-channel", bpo::value<std::string>()->default_value("data-out"), "Name of the output channel")
("multipart", bpo::value<int>()->default_value(1), "Handle multipart payloads");
("multipart", bpo::value<bool>()->default_value(true), "Handle multipart payloads");
}
FairMQDevicePtr getDevice(const FairMQProgOptions& /*config*/)

3
fairmq/run/runSink.cxx
View File

@@ -15,7 +15,8 @@ void addCustomOptions(bpo::options_description& options)
{
options.add_options()
("in-channel", bpo::value<std::string>()->default_value("data"), "Name of the input channel")
("max-iterations", bpo::value<uint64_t>()->default_value(0), "Number of run iterations (0 - infinite)");
("max-iterations", bpo::value<uint64_t>()->default_value(0), "Number of run iterations (0 - infinite)")
("multipart", bpo::value<bool>()->default_value(false), "Handle multipart payloads");
}
FairMQDevicePtr getDevice(const FairMQProgOptions& /*config*/)

2
fairmq/run/runSplitter.cxx
View File

@@ -16,7 +16,7 @@ void addCustomOptions(bpo::options_description& options)
options.add_options()
("in-channel", bpo::value<std::string>()->default_value("data-in"), "Name of the input channel")
("out-channel", bpo::value<std::string>()->default_value("data-out"), "Name of the output channel")
("multipart", bpo::value<int>()->default_value(1), "Handle multipart payloads");
("multipart", bpo::value<bool>()->default_value(true), "Handle multipart payloads");
}
FairMQDevicePtr getDevice(const FairMQProgOptions& /*config*/)

18
fairmq/run/startMQBenchmark.sh.in
View File

@@ -5,7 +5,6 @@ export FAIRMQ_PATH=@FAIRMQ_BIN_DIR@
maxIterations="0"
msgSize="1000000"
transport="zeromq"
sameMsg="true"
affinity="false"
affinitySamp=""
affinitySink=""
@@ -24,11 +23,7 @@ if [[ $3 =~ ^[a-z]+$ ]]; then
fi
if [[ $4 =~ ^[a-z]+$ ]]; then
sameMsg=$4
fi
if [[ $5 =~ ^[a-z]+$ ]]; then
affinity=$5
affinity=$4
fi
@@ -45,12 +40,6 @@ fi
echo "transport: $transport"
if [ $sameMsg = "true" ]; then
echo "resend same message: yes, using Copy() method to resend the same message"
else
echo "resend same message: no, allocating each message separately"
fi
if [ $affinity = "true" ]; then
affinitySamp="taskset -c 0"
affinitySink="taskset -c 1"
@@ -60,7 +49,7 @@ else
fi
echo ""
echo "Usage: startBenchmark [message size=1000000] [number of iterations=0] [transport=zeromq/nanomsg/shmem] [resend same message=true] [affinity=false]"
echo "Usage: startBenchmark [message size=1000000] [number of iterations=0] [transport=zeromq/nanomsg/shmem] [affinity=false]"
SAMPLER="fairmq-bsampler"
SAMPLER+=" --id bsampler1"
@@ -69,7 +58,7 @@ SAMPLER+=" --id bsampler1"
SAMPLER+=" --transport $transport"
SAMPLER+=" --severity debug"
SAMPLER+=" --msg-size $msgSize"
SAMPLER+=" --same-msg $sameMsg"
SAMPLER+=" --num-parts 1"
# SAMPLER+=" --msg-rate 1000"
SAMPLER+=" --max-iterations $maxIterations"
SAMPLER+=" --channel-config name=data,type=push,method=bind,address=tcp://127.0.0.1:5555"
@@ -84,6 +73,7 @@ SINK+=" --id sink1"
#SINK+=" --control static"
SINK+=" --transport $transport"
SINK+=" --severity debug"
SINK+=" --multipart false"
SINK+=" --max-iterations $maxIterations"
SINK+=" --channel-config name=data,type=pull,method=connect,address=tcp://127.0.0.1:5555"
xterm -geometry 90x50+550+0 -hold -e $affinitySink @CMAKE_CURRENT_BINARY_DIR@/$SINK &

4
fairmq/runFairMQDevice.h
View File

@@ -56,12 +56,12 @@ int main(int argc, char* argv[])
}
catch (std::exception& e)
{
LOG(error) << "Unhandled exception reached the top of main: " << e.what() << ", application will now exit";
LOG(error) << "Uncaught exception reached the top of main: " << e.what();
return 1;
}
catch (...)
{
LOG(error) << "Non-exception instance being thrown. Please make sure you use std::runtime_exception() instead. Application will now exit.";
LOG(error) << "Uncaught exception reached the top of main.";
return 1;
}
}

15
fairmq/shmem/Common.h
View File

@@ -9,8 +9,13 @@
#define FAIR_MQ_SHMEM_COMMON_H_
#include <atomic>
#include <string>
#include <boost/interprocess/managed_shared_memory.hpp>
#include <boost/functional/hash.hpp>
#include <unistd.h>
#include <sys/types.h>
namespace fair
{
@@ -73,6 +78,16 @@ struct RegionBlock
size_t fHint;
};
// find id for unique shmem name:
// a hash of user id + session id, truncated to 8 characters (to accommodate for name size limit on some systems (MacOS)).
inline std::string buildShmIdFromSessionIdAndUserId(const std::string& sessionId)
{
boost::hash<std::string> stringHash;
std::string shmId(std::to_string(stringHash(std::string((std::to_string(geteuid()) + sessionId)))));
shmId.resize(8, '_');
return shmId;
}
} // namespace shmem
} // namespace mq
} // namespace fair

20
fairmq/shmem/FairMQMessageSHM.cxx
View File

@@ -25,8 +25,9 @@ namespace bpt = ::boost::posix_time;
atomic<bool> FairMQMessageSHM::fInterrupted(false);
fair::mq::Transport FairMQMessageSHM::fTransportType = fair::mq::Transport::SHM;
FairMQMessageSHM::FairMQMessageSHM(Manager& manager)
: fManager(manager)
FairMQMessageSHM::FairMQMessageSHM(Manager& manager, FairMQTransportFactory* factory)
: FairMQMessage{factory}
, fManager(manager)
, fMessage()
, fQueued(false)
, fMetaCreated(false)
@@ -44,8 +45,9 @@ FairMQMessageSHM::FairMQMessageSHM(Manager& manager)
fMetaCreated = true;
}
FairMQMessageSHM::FairMQMessageSHM(Manager& manager, const size_t size)
: fManager(manager)
FairMQMessageSHM::FairMQMessageSHM(Manager& manager, const size_t size, FairMQTransportFactory* factory)
: FairMQMessage{factory}
, fManager(manager)
, fMessage()
, fQueued(false)
, fMetaCreated(false)
@@ -59,8 +61,9 @@ FairMQMessageSHM::FairMQMessageSHM(Manager& manager, const size_t size)
InitializeChunk(size);
}
FairMQMessageSHM::FairMQMessageSHM(Manager& manager, void* data, const size_t size, fairmq_free_fn* ffn, void* hint)
: fManager(manager)
FairMQMessageSHM::FairMQMessageSHM(Manager& manager, void* data, const size_t size, fairmq_free_fn* ffn, void* hint, FairMQTransportFactory* factory)
: FairMQMessage{factory}
, fManager(manager)
, fMessage()
, fQueued(false)
, fMetaCreated(false)
@@ -85,8 +88,9 @@ FairMQMessageSHM::FairMQMessageSHM(Manager& manager, void* data, const size_t si
}
}
FairMQMessageSHM::FairMQMessageSHM(Manager& manager, FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint)
: fManager(manager)
FairMQMessageSHM::FairMQMessageSHM(Manager& manager, FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint, FairMQTransportFactory* factory)
: FairMQMessage{factory}
, fManager(manager)
, fMessage()
, fQueued(false)
, fMetaCreated(false)

10
fairmq/shmem/FairMQMessageSHM.h
View File

@@ -22,15 +22,15 @@
class FairMQSocketSHM;
class FairMQMessageSHM : public FairMQMessage
class FairMQMessageSHM final : public FairMQMessage
{
friend class FairMQSocketSHM;
public:
FairMQMessageSHM(fair::mq::shmem::Manager& manager);
FairMQMessageSHM(fair::mq::shmem::Manager& manager, const size_t size);
FairMQMessageSHM(fair::mq::shmem::Manager& manager, void* data, const size_t size, fairmq_free_fn* ffn, void* hint = nullptr);
FairMQMessageSHM(fair::mq::shmem::Manager& manager, FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint = 0);
FairMQMessageSHM(fair::mq::shmem::Manager& manager, FairMQTransportFactory* factory = nullptr);
FairMQMessageSHM(fair::mq::shmem::Manager& manager, const size_t size, FairMQTransportFactory* factory = nullptr);
FairMQMessageSHM(fair::mq::shmem::Manager& manager, void* data, const size_t size, fairmq_free_fn* ffn, void* hint = nullptr, FairMQTransportFactory* factory = nullptr);
FairMQMessageSHM(fair::mq::shmem::Manager& manager, FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint = 0, FairMQTransportFactory* factory = nullptr);
FairMQMessageSHM(const FairMQMessageSHM&) = delete;
FairMQMessageSHM operator=(const FairMQMessageSHM&) = delete;

45
fairmq/shmem/FairMQPollerSHM.cxx
View File

@@ -13,6 +13,7 @@
*/
#include "FairMQPollerSHM.h"
#include "FairMQSocketSHM.h"
#include "FairMQLogger.h"
#include <zmq.h>
@@ -29,19 +30,19 @@ FairMQPollerSHM::FairMQPollerSHM(const vector<FairMQChannel>& channels)
for (int i = 0; i < fNumItems; ++i)
{
fItems[i].socket = channels.at(i).GetSocket().GetSocket();
fItems[i].socket = static_cast<const FairMQSocketSHM*>(&(channels.at(i).GetSocket()))->GetSocket();
fItems[i].fd = 0;
fItems[i].revents = 0;
int type = 0;
size_t size = sizeof(type);
zmq_getsockopt(channels.at(i).GetSocket().GetSocket(), ZMQ_TYPE, &type, &size);
zmq_getsockopt(static_cast<const FairMQSocketSHM*>(&(channels.at(i).GetSocket()))->GetSocket(), ZMQ_TYPE, &type, &size);
SetItemEvents(fItems[i], type);
}
}
FairMQPollerSHM::FairMQPollerSHM(const vector<const FairMQChannel*>& channels)
FairMQPollerSHM::FairMQPollerSHM(const vector<FairMQChannel*>& channels)
: fItems()
, fNumItems(0)
, fOffsetMap()
@@ -51,13 +52,13 @@ FairMQPollerSHM::FairMQPollerSHM(const vector<const FairMQChannel*>& channels)
for (int i = 0; i < fNumItems; ++i)
{
fItems[i].socket = channels.at(i)->GetSocket().GetSocket();
fItems[i].socket = static_cast<const FairMQSocketSHM*>(&(channels.at(i)->GetSocket()))->GetSocket();
fItems[i].fd = 0;
fItems[i].revents = 0;
int type = 0;
size_t size = sizeof(type);
zmq_getsockopt(channels.at(i)->GetSocket().GetSocket(), ZMQ_TYPE, &type, &size);
zmq_getsockopt(static_cast<const FairMQSocketSHM*>(&(channels.at(i)->GetSocket()))->GetSocket(), ZMQ_TYPE, &type, &size);
SetItemEvents(fItems[i], type);
}
@@ -68,10 +69,9 @@ FairMQPollerSHM::FairMQPollerSHM(const unordered_map<string, vector<FairMQChanne
, fNumItems(0)
, fOffsetMap()
{
int offset = 0;
try
{
int offset = 0;
// calculate offsets and the total size of the poll item set
for (string channel : channelList)
{
@@ -89,13 +89,13 @@ FairMQPollerSHM::FairMQPollerSHM(const unordered_map<string, vector<FairMQChanne
{
index = fOffsetMap[channel] + i;
fItems[index].socket = channelsMap.at(channel).at(i).GetSocket().GetSocket();
fItems[index].socket = static_cast<const FairMQSocketSHM*>(&(channelsMap.at(channel).at(i).GetSocket()))->GetSocket();
fItems[index].fd = 0;
fItems[index].revents = 0;
int type = 0;
size_t size = sizeof(type);
zmq_getsockopt(channelsMap.at(channel).at(i).GetSocket().GetSocket(), ZMQ_TYPE, &type, &size);
zmq_getsockopt(static_cast<const FairMQSocketSHM*>(&(channelsMap.at(channel).at(i).GetSocket()))->GetSocket(), ZMQ_TYPE, &type, &size);
SetItemEvents(fItems[index], type);
}
@@ -109,29 +109,6 @@ FairMQPollerSHM::FairMQPollerSHM(const unordered_map<string, vector<FairMQChanne
}
}
FairMQPollerSHM::FairMQPollerSHM(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket)
: fItems()
, fNumItems(2)
, fOffsetMap()
{
fItems = new zmq_pollitem_t[fNumItems];
fItems[0].socket = cmdSocket.GetSocket();
fItems[0].fd = 0;
fItems[0].events = ZMQ_POLLIN;
fItems[0].revents = 0;
fItems[1].socket = dataSocket.GetSocket();
fItems[1].fd = 0;
fItems[1].revents = 0;
int type = 0;
size_t size = sizeof(type);
zmq_getsockopt(dataSocket.GetSocket(), ZMQ_TYPE, &type, &size);
SetItemEvents(fItems[1], type);
}
void FairMQPollerSHM::SetItemEvents(zmq_pollitem_t& item, const int type)
{
if (type == ZMQ_REQ || type == ZMQ_REP || type == ZMQ_PAIR || type == ZMQ_DEALER || type == ZMQ_ROUTER)
@@ -189,7 +166,7 @@ bool FairMQPollerSHM::CheckOutput(const int index)
return false;
}
bool FairMQPollerSHM::CheckInput(const string channelKey, const int index)
bool FairMQPollerSHM::CheckInput(const string& channelKey, const int index)
{
try
{
@@ -208,7 +185,7 @@ bool FairMQPollerSHM::CheckInput(const string channelKey, const int index)
}
}
bool FairMQPollerSHM::CheckOutput(const string channelKey, const int index)
bool FairMQPollerSHM::CheckOutput(const string& channelKey, const int index)
{
try
{

12
fairmq/shmem/FairMQPollerSHM.h
View File

@@ -19,14 +19,14 @@
class FairMQChannel;
class FairMQPollerSHM : public FairMQPoller
class FairMQPollerSHM final : public FairMQPoller
{
friend class FairMQChannel;
friend class FairMQTransportFactorySHM;
public:
FairMQPollerSHM(const std::vector<FairMQChannel>& channels);
FairMQPollerSHM(const std::vector<const FairMQChannel*>& channels);
FairMQPollerSHM(const std::vector<FairMQChannel*>& channels);
FairMQPollerSHM(const std::unordered_map<std::string, std::vector<FairMQChannel>>& channelsMap, const std::vector<std::string>& channelList);
FairMQPollerSHM(const FairMQPollerSHM&) = delete;
@@ -37,18 +37,16 @@ class FairMQPollerSHM : public FairMQPoller
void Poll(const int timeout) override;
bool CheckInput(const int index) override;
bool CheckOutput(const int index) override;
bool CheckInput(const std::string channelKey, const int index) override;
bool CheckOutput(const std::string channelKey, const int index) override;
bool CheckInput(const std::string& channelKey, const int index) override;
bool CheckOutput(const std::string& channelKey, const int index) override;
~FairMQPollerSHM() override;
private:
FairMQPollerSHM(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket);
zmq_pollitem_t* fItems;
int fNumItems;
std::unordered_map<std::string, int> fOffsetMap;
};
#endif /* FAIRMQPOLLERSHM_H_ */
#endif /* FAIRMQPOLLERSHM_H_ */

265
fairmq/shmem/FairMQSocketSHM.cxx
View File

@@ -11,6 +11,7 @@
#include "FairMQMessageSHM.h"
#include "FairMQUnmanagedRegionSHM.h"
#include "FairMQLogger.h"
#include <fairmq/Tools.h>
#include <zmq.h>
@@ -18,6 +19,7 @@
using namespace std;
using namespace fair::mq::shmem;
using namespace fair::mq;
atomic<bool> FairMQSocketSHM::fInterrupted(false);
@@ -109,24 +111,18 @@ void FairMQSocketSHM::Connect(const string& address)
}
}
int FairMQSocketSHM::Send(FairMQMessagePtr& msg, const int timeout) { return SendImpl(msg, 0, timeout); }
int FairMQSocketSHM::Receive(FairMQMessagePtr& msg, const int timeout) { return ReceiveImpl(msg, 0, timeout); }
int64_t FairMQSocketSHM::Send(vector<unique_ptr<FairMQMessage>>& msgVec, const int timeout) { return SendImpl(msgVec, 0, timeout); }
int64_t FairMQSocketSHM::Receive(vector<unique_ptr<FairMQMessage>>& msgVec, const int timeout) { return ReceiveImpl(msgVec, 0, timeout); }
int FairMQSocketSHM::TrySend(FairMQMessagePtr& msg) { return SendImpl(msg, ZMQ_DONTWAIT, 0); }
int FairMQSocketSHM::TryReceive(FairMQMessagePtr& msg) { return ReceiveImpl(msg, ZMQ_DONTWAIT, 0); }
int64_t FairMQSocketSHM::TrySend(vector<unique_ptr<FairMQMessage>>& msgVec) { return SendImpl(msgVec, ZMQ_DONTWAIT, 0); }
int64_t FairMQSocketSHM::TryReceive(vector<unique_ptr<FairMQMessage>>& msgVec) { return ReceiveImpl(msgVec, ZMQ_DONTWAIT, 0); }
int FairMQSocketSHM::SendImpl(FairMQMessagePtr& msg, const int flags, const int timeout)
int FairMQSocketSHM::Send(FairMQMessagePtr& msg, const int timeout)
{
int nbytes = -1;
int flags = 0;
if (timeout == 0)
{
flags = ZMQ_DONTWAIT;
}
int elapsed = 0;
while (true && !fInterrupted)
{
nbytes = zmq_msg_send(static_cast<FairMQMessageSHM*>(msg.get())->GetMessage(), fSocket, flags);
int nbytes = zmq_msg_send(static_cast<FairMQMessageSHM*>(msg.get())->GetMessage(), fSocket, flags);
if (nbytes == 0)
{
return nbytes;
@@ -145,7 +141,7 @@ int FairMQSocketSHM::SendImpl(FairMQMessagePtr& msg, const int flags, const int
{
if (!fInterrupted && ((flags & ZMQ_DONTWAIT) == 0))
{
if (timeout)
if (timeout > 0)
{
elapsed += fSndTimeout;
if (elapsed >= timeout)
@@ -175,15 +171,19 @@ int FairMQSocketSHM::SendImpl(FairMQMessagePtr& msg, const int flags, const int
return -1;
}
int FairMQSocketSHM::ReceiveImpl(FairMQMessagePtr& msg, const int flags, const int timeout)
int FairMQSocketSHM::Receive(FairMQMessagePtr& msg, const int timeout)
{
int nbytes = -1;
int flags = 0;
if (timeout == 0)
{
flags = ZMQ_DONTWAIT;
}
int elapsed = 0;
zmq_msg_t* msgPtr = static_cast<FairMQMessageSHM*>(msg.get())->GetMessage();
while (true)
{
nbytes = zmq_msg_recv(msgPtr, fSocket, flags);
int nbytes = zmq_msg_recv(msgPtr, fSocket, flags);
if (nbytes == 0)
{
++fMessagesRx;
@@ -218,7 +218,7 @@ int FairMQSocketSHM::ReceiveImpl(FairMQMessagePtr& msg, const int flags, const i
{
if (!fInterrupted && ((flags & ZMQ_DONTWAIT) == 0))
{
if (timeout)
if (timeout > 0)
{
elapsed += fRcvTimeout;
if (elapsed >= timeout)
@@ -246,14 +246,18 @@ int FairMQSocketSHM::ReceiveImpl(FairMQMessagePtr& msg, const int flags, const i
}
}
int64_t FairMQSocketSHM::SendImpl(vector<FairMQMessagePtr>& msgVec, const int flags, const int timeout)
int64_t FairMQSocketSHM::Send(vector<FairMQMessagePtr>& msgVec, const int timeout)
{
int flags = 0;
if (timeout == 0)
{
flags = ZMQ_DONTWAIT;
}
const unsigned int vecSize = msgVec.size();
int64_t totalSize = 0;
int elapsed = 0;
if (vecSize == 1) {
return SendImpl(msgVec.back(), flags, timeout);
return Send(msgVec.back(), timeout);
}
// put it into zmq message
@@ -263,7 +267,7 @@ int64_t FairMQSocketSHM::SendImpl(vector<FairMQMessagePtr>& msgVec, const int fl
// prepare the message with shm metas
MetaHeader* metas = static_cast<MetaHeader*>(zmq_msg_data(&zmqMsg));
for (auto &msg : msgVec)
for (auto& msg : msgVec)
{
zmq_msg_t* metaMsg = static_cast<FairMQMessageSHM*>(msg.get())->GetMessage();
memcpy(metas++, zmq_msg_data(metaMsg), sizeof(MetaHeader));
@@ -271,9 +275,8 @@ int64_t FairMQSocketSHM::SendImpl(vector<FairMQMessagePtr>& msgVec, const int fl
while (!fInterrupted)
{
int nbytes = -1;
nbytes = zmq_msg_send(&zmqMsg, fSocket, flags);
int64_t totalSize = 0;
int nbytes = zmq_msg_send(&zmqMsg, fSocket, flags);
if (nbytes == 0)
{
zmq_msg_close(&zmqMsg);
@@ -283,7 +286,7 @@ int64_t FairMQSocketSHM::SendImpl(vector<FairMQMessagePtr>& msgVec, const int fl
{
assert(nbytes == (vecSize * sizeof(MetaHeader))); // all or nothing
for (auto &msg : msgVec)
for (auto& msg : msgVec)
{
FairMQMessageSHM* shmMsg = static_cast<FairMQMessageSHM*>(msg.get());
shmMsg->fQueued = true;
@@ -301,7 +304,7 @@ int64_t FairMQSocketSHM::SendImpl(vector<FairMQMessagePtr>& msgVec, const int fl
{
if (!fInterrupted && ((flags & ZMQ_DONTWAIT) == 0))
{
if (timeout)
if (timeout > 0)
{
elapsed += fSndTimeout;
if (elapsed >= timeout)
@@ -336,9 +339,13 @@ int64_t FairMQSocketSHM::SendImpl(vector<FairMQMessagePtr>& msgVec, const int fl
return -1;
}
int64_t FairMQSocketSHM::ReceiveImpl(vector<FairMQMessagePtr>& msgVec, const int flags, const int timeout)
int64_t FairMQSocketSHM::Receive(vector<FairMQMessagePtr>& msgVec, const int timeout)
{
int64_t totalSize = 0;
int flags = 0;
if (timeout == 0)
{
flags = ZMQ_DONTWAIT;
}
int elapsed = 0;
zmq_msg_t zmqMsg;
@@ -346,6 +353,7 @@ int64_t FairMQSocketSHM::ReceiveImpl(vector<FairMQMessagePtr>& msgVec, const int
while (!fInterrupted)
{
int64_t totalSize = 0;
int nbytes = zmq_msg_recv(&zmqMsg, fSocket, flags);
if (nbytes == 0)
{
@@ -394,7 +402,7 @@ int64_t FairMQSocketSHM::ReceiveImpl(vector<FairMQMessagePtr>& msgVec, const int
{
if (!fInterrupted && ((flags & ZMQ_DONTWAIT) == 0))
{
if (timeout)
if (timeout > 0)
{
elapsed += fRcvTimeout;
if (elapsed >= timeout)
@@ -459,12 +467,6 @@ void* FairMQSocketSHM::GetSocket() const
return fSocket;
}
int FairMQSocketSHM::GetSocket(int) const
{
// dummy method to comply with the interface. functionality not possible in zeromq.
return -1;
}
void FairMQSocketSHM::SetOption(const string& option, const void* value, size_t valueSize)
{
if (zmq_setsockopt(fSocket, GetConstant(option), value, valueSize) < 0)
@@ -481,6 +483,91 @@ void FairMQSocketSHM::GetOption(const string& option, void* value, size_t* value
}
}
void FairMQSocketSHM::SetLinger(const int value)
{
if (zmq_setsockopt(fSocket, ZMQ_LINGER, &value, sizeof(value)) < 0) {
throw SocketError(tools::ToString("failed setting ZMQ_LINGER, reason: ", zmq_strerror(errno)));
}
}
int FairMQSocketSHM::GetLinger() const
{
int value = 0;
size_t valueSize = sizeof(value);
if (zmq_getsockopt(fSocket, ZMQ_LINGER, &value, &valueSize) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_LINGER, reason: ", zmq_strerror(errno)));
}
return value;
}
void FairMQSocketSHM::SetSndBufSize(const int value)
{
if (zmq_setsockopt(fSocket, ZMQ_SNDHWM, &value, sizeof(value)) < 0) {
throw SocketError(tools::ToString("failed setting ZMQ_SNDHWM, reason: ", zmq_strerror(errno)));
}
}
int FairMQSocketSHM::GetSndBufSize() const
{
int value = 0;
size_t valueSize = sizeof(value);
if (zmq_getsockopt(fSocket, ZMQ_SNDHWM, &value, &valueSize) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_SNDHWM, reason: ", zmq_strerror(errno)));
}
return value;
}
void FairMQSocketSHM::SetRcvBufSize(const int value)
{
if (zmq_setsockopt(fSocket, ZMQ_RCVHWM, &value, sizeof(value)) < 0) {
throw SocketError(tools::ToString("failed setting ZMQ_RCVHWM, reason: ", zmq_strerror(errno)));
}
}
int FairMQSocketSHM::GetRcvBufSize() const
{
int value = 0;
size_t valueSize = sizeof(value);
if (zmq_getsockopt(fSocket, ZMQ_RCVHWM, &value, &valueSize) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_RCVHWM, reason: ", zmq_strerror(errno)));
}
return value;
}
void FairMQSocketSHM::SetSndKernelSize(const int value)
{
if (zmq_setsockopt(fSocket, ZMQ_SNDBUF, &value, sizeof(value)) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_SNDBUF, reason: ", zmq_strerror(errno)));
}
}
int FairMQSocketSHM::GetSndKernelSize() const
{
int value = 0;
size_t valueSize = sizeof(value);
if (zmq_getsockopt(fSocket, ZMQ_SNDBUF, &value, &valueSize) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_SNDBUF, reason: ", zmq_strerror(errno)));
}
return value;
}
void FairMQSocketSHM::SetRcvKernelSize(const int value)
{
if (zmq_setsockopt(fSocket, ZMQ_RCVBUF, &value, sizeof(value)) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_RCVBUF, reason: ", zmq_strerror(errno)));
}
}
int FairMQSocketSHM::GetRcvKernelSize() const
{
int value = 0;
size_t valueSize = sizeof(value);
if (zmq_getsockopt(fSocket, ZMQ_RCVBUF, &value, &valueSize) < 0) {
throw SocketError(tools::ToString("failed getting ZMQ_RCVBUF, reason: ", zmq_strerror(errno)));
}
return value;
}
unsigned long FairMQSocketSHM::GetBytesTx() const
{
return fBytesTx;
@@ -501,112 +588,6 @@ unsigned long FairMQSocketSHM::GetMessagesRx() const
return fMessagesRx;
}
bool FairMQSocketSHM::SetSendTimeout(const int timeout, const string& address, const string& method)
{
fSndTimeout = timeout;
if (method == "bind")
{
if (zmq_unbind(fSocket, address.c_str()) != 0)
{
LOG(error) << "Failed unbinding socket " << fId << ", reason: " << zmq_strerror(errno);
return false;
}
if (zmq_setsockopt(fSocket, ZMQ_SNDTIMEO, &fSndTimeout, sizeof(fSndTimeout)) != 0)
{
LOG(error) << "Failed setting option on socket " << fId << ", reason: " << zmq_strerror(errno);
return false;
}
if (zmq_bind(fSocket, address.c_str()) != 0)
{
LOG(error) << "Failed binding socket " << fId << ", reason: " << zmq_strerror(errno);
return false;
}
}
else if (method == "connect")
{
if (zmq_disconnect(fSocket, address.c_str()) != 0)
{
LOG(error) << "Failed disconnecting socket " << fId << ", reason: " << zmq_strerror(errno);
return false;
}
if (zmq_setsockopt(fSocket, ZMQ_SNDTIMEO, &fSndTimeout, sizeof(fSndTimeout)) != 0)
{
LOG(error) << "Failed setting option on socket " << fId << ", reason: " << zmq_strerror(errno);
return false;
}
if (zmq_connect(fSocket, address.c_str()) != 0)
{
LOG(error) << "Failed connecting socket " << fId << ", reason: " << zmq_strerror(errno);
return false;
}
}
else
{
LOG(error) << "timeout failed - unknown method provided!";
return false;
}
return true;
}
int FairMQSocketSHM::GetSendTimeout() const
{
return fSndTimeout;
}
bool FairMQSocketSHM::SetReceiveTimeout(const int timeout, const string& address, const string& method)
{
fRcvTimeout = timeout;
if (method == "bind")
{
if (zmq_unbind(fSocket, address.c_str()) != 0)
{
LOG(error) << "Failed unbinding socket " << fId << ", reason: " << zmq_strerror(errno);
return false;
}
if (zmq_setsockopt(fSocket, ZMQ_RCVTIMEO, &fRcvTimeout, sizeof(fRcvTimeout)) != 0)
{
LOG(error) << "Failed setting option on socket " << fId << ", reason: " << zmq_strerror(errno);
return false;
}
if (zmq_bind(fSocket, address.c_str()) != 0)
{
LOG(error) << "Failed binding socket " << fId << ", reason: " << zmq_strerror(errno);
return false;
}
}
else if (method == "connect")
{
if (zmq_disconnect(fSocket, address.c_str()) != 0)
{
LOG(error) << "Failed disconnecting socket " << fId << ", reason: " << zmq_strerror(errno);
return false;
}
if (zmq_setsockopt(fSocket, ZMQ_RCVTIMEO, &fRcvTimeout, sizeof(fRcvTimeout)) != 0)
{
LOG(error) << "Failed setting option on socket " << fId << ", reason: " << zmq_strerror(errno);
return false;
}
if (zmq_connect(fSocket, address.c_str()) != 0)
{
LOG(error) << "Failed connecting socket " << fId << ", reason: " << zmq_strerror(errno);
return false;
}
}
else
{
LOG(error) << "timeout failed - unknown method provided!";
return false;
}
return true;
}
int FairMQSocketSHM::GetReceiveTimeout() const
{
return fRcvTimeout;
}
int FairMQSocketSHM::GetConstant(const string& constant)
{
if (constant == "") return 0;

40
fairmq/shmem/FairMQSocketSHM.h
View File

@@ -16,7 +16,7 @@
#include <atomic>
#include <memory> // unique_ptr
class FairMQSocketSHM : public FairMQSocket
class FairMQSocketSHM final : public FairMQSocket
{
public:
FairMQSocketSHM(fair::mq::shmem::Manager& manager, const std::string& type, const std::string& name, const std::string& id = "", void* context = nullptr);
@@ -28,18 +28,12 @@ class FairMQSocketSHM : public FairMQSocket
bool Bind(const std::string& address) override;
void Connect(const std::string& address) override;
int Send(FairMQMessagePtr& msg, const int timeout = 0) override;
int Receive(FairMQMessagePtr& msg, const int timeout = 0) override;
int64_t Send(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, const int timeout = 0) override;
int64_t Receive(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, const int timeout = 0) override;
int Send(FairMQMessagePtr& msg, const int timeout = -1) override;
int Receive(FairMQMessagePtr& msg, const int timeout = -1) override;
int64_t Send(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, const int timeout = -1) override;
int64_t Receive(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, const int timeout = -1) override;
int TrySend(FairMQMessagePtr& msg) override;
int TryReceive(FairMQMessagePtr& msg) override;
int64_t TrySend(std::vector<std::unique_ptr<FairMQMessage>>& msgVec) override;
int64_t TryReceive(std::vector<std::unique_ptr<FairMQMessage>>& msgVec) override;
void* GetSocket() const override;
int GetSocket(int nothing) const override;
void* GetSocket() const;
void Close() override;
@@ -49,16 +43,22 @@ class FairMQSocketSHM : public FairMQSocket
void SetOption(const std::string& option, const void* value, size_t valueSize) override;
void GetOption(const std::string& option, void* value, size_t* valueSize) override;
void SetLinger(const int value) override;
int GetLinger() const override;
void SetSndBufSize(const int value) override;
int GetSndBufSize() const override;
void SetRcvBufSize(const int value) override;
int GetRcvBufSize() const override;
void SetSndKernelSize(const int value) override;
int GetSndKernelSize() const override;
void SetRcvKernelSize(const int value) override;
int GetRcvKernelSize() const override;
unsigned long GetBytesTx() const override;
unsigned long GetBytesRx() const override;
unsigned long GetMessagesTx() const override;
unsigned long GetMessagesRx() const override;
bool SetSendTimeout(const int timeout, const std::string& address, const std::string& method) override;
int GetSendTimeout() const override;
bool SetReceiveTimeout(const int timeout, const std::string& address, const std::string& method) override;
int GetReceiveTimeout() const override;
static int GetConstant(const std::string& constant);
~FairMQSocketSHM() override;
@@ -76,12 +76,6 @@ class FairMQSocketSHM : public FairMQSocket
int fSndTimeout;
int fRcvTimeout;
int SendImpl(FairMQMessagePtr& msg, const int flags, const int timeout);
int ReceiveImpl(FairMQMessagePtr& msg, const int flags, const int timeout);
int64_t SendImpl(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, const int flags, const int timeout);
int64_t ReceiveImpl(std::vector<std::unique_ptr<FairMQMessage>>& msgVec, const int flags, const int timeout);
};
#endif /* FAIRMQSOCKETSHM_H_ */

46
fairmq/shmem/FairMQTransportFactorySHM.cxx
View File

@@ -37,7 +37,7 @@ fair::mq::Transport FairMQTransportFactorySHM::fTransportType = fair::mq::Transp
FairMQTransportFactorySHM::FairMQTransportFactorySHM(const string& id, const FairMQProgOptions* config)
: FairMQTransportFactory(id)
, fDeviceId(id)
, fSessionName("default")
, fShmId()
, fContext(nullptr)
, fHeartbeatThread()
, fSendHeartbeats(true)
@@ -58,12 +58,13 @@ FairMQTransportFactorySHM::FairMQTransportFactorySHM(const string& id, const Fai
}
int numIoThreads = 1;
string sessionName = "default";
size_t segmentSize = 2000000000;
bool autolaunchMonitor = false;
if (config)
{
numIoThreads = config->GetValue<int>("io-threads");
fSessionName = config->GetValue<string>("session");
sessionName = config->GetValue<string>("session");
segmentSize = config->GetValue<size_t>("shm-segment-size");
autolaunchMonitor = config->GetValue<bool>("shm-monitor");
}
@@ -72,11 +73,11 @@ FairMQTransportFactorySHM::FairMQTransportFactorySHM(const string& id, const Fai
LOG(debug) << "FairMQProgOptions not available! Using defaults.";
}
fSessionName.resize(8, '_'); // shorten the session name, to accommodate for name size limit on some systems (MacOS)
fShmId = buildShmIdFromSessionIdAndUserId(sessionName);
try
{
fShMutex = fair::mq::tools::make_unique<bipc::named_mutex>(bipc::open_or_create, string("fmq_" + fSessionName + "_mtx").c_str());
fShMutex = fair::mq::tools::make_unique<bipc::named_mutex>(bipc::open_or_create, string("fmq_" + fShmId + "_mtx").c_str());
if (zmq_ctx_set(fContext, ZMQ_IO_THREADS, numIoThreads) != 0)
{
@@ -89,8 +90,8 @@ FairMQTransportFactorySHM::FairMQTransportFactorySHM(const string& id, const Fai
LOG(error) << "failed configuring context, reason: " << zmq_strerror(errno);
}
fManager = fair::mq::tools::make_unique<Manager>(fSessionName, segmentSize);
LOG(debug) << "created/opened shared memory segment '" << "fmq_" << fSessionName << "_main" << "' of " << segmentSize << " bytes. Available are " << fManager->Segment().get_free_memory() << " bytes.";
fManager = fair::mq::tools::make_unique<Manager>(fShmId, segmentSize);
LOG(debug) << "created/opened shared memory segment '" << "fmq_" << fShmId << "_main" << "' of " << segmentSize << " bytes. Available are " << fManager->Segment().get_free_memory() << " bytes.";
{
bipc::scoped_lock<bipc::named_mutex> lock(*fShMutex);
@@ -145,8 +146,6 @@ FairMQTransportFactorySHM::FairMQTransportFactorySHM(const string& id, const Fai
void FairMQTransportFactorySHM::StartMonitor()
{
int numTries = 0;
auto env = boost::this_process::environment();
vector<bfs::path> ownPath = boost::this_process::path();
@@ -160,8 +159,8 @@ void FairMQTransportFactorySHM::StartMonitor()
if (!p.empty())
{
boost::process::spawn(p, "-x", "-s", fSessionName, "-d", "-t", "2000", env);
boost::process::spawn(p, "-x", "--shmid", fShmId, "-d", "-t", "2000", env);
int numTries = 0;
do
{
MonitorStatus* monitorStatus = fManager->ManagementSegment().find<MonitorStatus>(bipc::unique_instance).first;
@@ -190,7 +189,7 @@ void FairMQTransportFactorySHM::StartMonitor()
void FairMQTransportFactorySHM::SendHeartbeats()
{
string controlQueueName("fmq_" + fSessionName + "_cq");
string controlQueueName("fmq_" + fShmId + "_cq");
while (fSendHeartbeats)
{
try
@@ -214,24 +213,24 @@ void FairMQTransportFactorySHM::SendHeartbeats()
}
}
FairMQMessagePtr FairMQTransportFactorySHM::CreateMessage() const
FairMQMessagePtr FairMQTransportFactorySHM::CreateMessage()
{
return unique_ptr<FairMQMessage>(new FairMQMessageSHM(*fManager));
return unique_ptr<FairMQMessage>(new FairMQMessageSHM(*fManager, this));
}
FairMQMessagePtr FairMQTransportFactorySHM::CreateMessage(const size_t size) const
FairMQMessagePtr FairMQTransportFactorySHM::CreateMessage(const size_t size)
{
return unique_ptr<FairMQMessage>(new FairMQMessageSHM(*fManager, size));
return unique_ptr<FairMQMessage>(new FairMQMessageSHM(*fManager, size, this));
}
FairMQMessagePtr FairMQTransportFactorySHM::CreateMessage(void* data, const size_t size, fairmq_free_fn* ffn, void* hint) const
FairMQMessagePtr FairMQTransportFactorySHM::CreateMessage(void* data, const size_t size, fairmq_free_fn* ffn, void* hint)
{
return unique_ptr<FairMQMessage>(new FairMQMessageSHM(*fManager, data, size, ffn, hint));
return unique_ptr<FairMQMessage>(new FairMQMessageSHM(*fManager, data, size, ffn, hint, this));
}
FairMQMessagePtr FairMQTransportFactorySHM::CreateMessage(FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint) const
FairMQMessagePtr FairMQTransportFactorySHM::CreateMessage(FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint)
{
return unique_ptr<FairMQMessage>(new FairMQMessageSHM(*fManager, region, data, size, hint));
return unique_ptr<FairMQMessage>(new FairMQMessageSHM(*fManager, region, data, size, hint, this));
}
FairMQSocketPtr FairMQTransportFactorySHM::CreateSocket(const string& type, const string& name) const
@@ -245,7 +244,7 @@ FairMQPollerPtr FairMQTransportFactorySHM::CreatePoller(const vector<FairMQChann
return unique_ptr<FairMQPoller>(new FairMQPollerSHM(channels));
}
FairMQPollerPtr FairMQTransportFactorySHM::CreatePoller(const vector<const FairMQChannel*>& channels) const
FairMQPollerPtr FairMQTransportFactorySHM::CreatePoller(const vector<FairMQChannel*>& channels) const
{
return unique_ptr<FairMQPoller>(new FairMQPollerSHM(channels));
}
@@ -255,11 +254,6 @@ FairMQPollerPtr FairMQTransportFactorySHM::CreatePoller(const unordered_map<stri
return unique_ptr<FairMQPoller>(new FairMQPollerSHM(channelsMap, channelList));
}
FairMQPollerPtr FairMQTransportFactorySHM::CreatePoller(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket) const
{
return unique_ptr<FairMQPoller>(new FairMQPollerSHM(cmdSocket, dataSocket));
}
FairMQUnmanagedRegionPtr FairMQTransportFactorySHM::CreateUnmanagedRegion(const size_t size, FairMQRegionCallback callback) const
{
return unique_ptr<FairMQUnmanagedRegion>(new FairMQUnmanagedRegionSHM(*fManager, size, callback));
@@ -312,7 +306,7 @@ FairMQTransportFactorySHM::~FairMQTransportFactorySHM()
if (lastRemoved)
{
boost::interprocess::named_mutex::remove(string("fmq_" + fSessionName + "_mtx").c_str());
bipc::named_mutex::remove(string("fmq_" + fShmId + "_mtx").c_str());
}
}

16
fairmq/shmem/FairMQTransportFactorySHM.h
View File

@@ -26,24 +26,23 @@
#include <thread>
#include <atomic>
class FairMQTransportFactorySHM : public FairMQTransportFactory
class FairMQTransportFactorySHM final : public FairMQTransportFactory
{
public:
FairMQTransportFactorySHM(const std::string& id = "", const FairMQProgOptions* config = nullptr);
FairMQTransportFactorySHM(const FairMQTransportFactorySHM&) = delete;
FairMQTransportFactorySHM operator=(const FairMQTransportFactorySHM&) = delete;
FairMQMessagePtr CreateMessage() const override;
FairMQMessagePtr CreateMessage(const size_t size) const override;
FairMQMessagePtr CreateMessage(void* data, const size_t size, fairmq_free_fn* ffn, void* hint = nullptr) const override;
FairMQMessagePtr CreateMessage(FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint = 0) const override;
FairMQMessagePtr CreateMessage() override;
FairMQMessagePtr CreateMessage(const size_t size) override;
FairMQMessagePtr CreateMessage(void* data, const size_t size, fairmq_free_fn* ffn, void* hint = nullptr) override;
FairMQMessagePtr CreateMessage(FairMQUnmanagedRegionPtr& region, void* data, const size_t size, void* hint = 0) override;
FairMQSocketPtr CreateSocket(const std::string& type, const std::string& name) const override;
FairMQPollerPtr CreatePoller(const std::vector<FairMQChannel>& channels) const override;
FairMQPollerPtr CreatePoller(const std::vector<const FairMQChannel*>& channels) const override;
FairMQPollerPtr CreatePoller(const std::vector<FairMQChannel*>& channels) const override;
FairMQPollerPtr CreatePoller(const std::unordered_map<std::string, std::vector<FairMQChannel>>& channelsMap, const std::vector<std::string>& channelList) const override;
FairMQPollerPtr CreatePoller(const FairMQSocket& cmdSocket, const FairMQSocket& dataSocket) const override;
FairMQUnmanagedRegionPtr CreateUnmanagedRegion(const size_t size, FairMQRegionCallback callback = nullptr) const override;
@@ -51,6 +50,7 @@ class FairMQTransportFactorySHM : public FairMQTransportFactory
void Interrupt() override { FairMQSocketSHM::Interrupt(); }
void Resume() override { FairMQSocketSHM::Resume(); }
void Reset() override {}
~FairMQTransportFactorySHM() override;
@@ -60,7 +60,7 @@ class FairMQTransportFactorySHM : public FairMQTransportFactory
static fair::mq::Transport fTransportType;
std::string fDeviceId;
std::string fSessionName;
std::string fShmId;
void* fContext;
std::thread fHeartbeatThread;
std::atomic<bool> fSendHeartbeats;

2
fairmq/shmem/FairMQUnmanagedRegionSHM.h
View File

@@ -19,7 +19,7 @@
#include <cstddef> // size_t
class FairMQUnmanagedRegionSHM : public FairMQUnmanagedRegion
class FairMQUnmanagedRegionSHM final : public FairMQUnmanagedRegion
{
friend class FairMQSocketSHM;
friend class FairMQMessageSHM;

2
fairmq/shmem/Manager.cxx
View File

@@ -105,7 +105,7 @@ void Manager::RemoveSegment()
{
if (bipc::shared_memory_object::remove(fSegmentName.c_str()))
{
LOG(debug) << "successfully removed " << fSegmentName << " segment after the device has stopped.";
LOG(debug) << "successfully removed '" << fSegmentName << "' segment after the device has stopped.";
}
else
{

51
fairmq/shmem/Monitor.cxx
View File

@@ -51,17 +51,17 @@ void signalHandler(int signal)
gSignalStatus = signal;
}
Monitor::Monitor(const string& sessionName, bool selfDestruct, bool interactive, unsigned int timeoutInMS, bool runAsDaemon, bool cleanOnExit)
Monitor::Monitor(const string& shmId, bool selfDestruct, bool interactive, unsigned int timeoutInMS, bool runAsDaemon, bool cleanOnExit)
: fSelfDestruct(selfDestruct)
, fInteractive(interactive)
, fSeenOnce(false)
, fIsDaemon(runAsDaemon)
, fCleanOnExit(cleanOnExit)
, fTimeoutInMS(timeoutInMS)
, fSessionName(sessionName)
, fSegmentName("fmq_" + fSessionName + "_main")
, fManagementSegmentName("fmq_" + fSessionName + "_mng")
, fControlQueueName("fmq_" + fSessionName + "_cq")
, fShmId(shmId)
, fSegmentName("fmq_" + fShmId + "_main")
, fManagementSegmentName("fmq_" + fShmId + "_mng")
, fControlQueueName("fmq_" + fShmId + "_cq")
, fTerminating(false)
, fHeartbeatTriggered(false)
, fLastHeartbeat(chrono::high_resolution_clock::now())
@@ -201,7 +201,7 @@ void Monitor::Interactive()
break;
case 'x':
cout << "\n[x] --> closing shared memory:" << endl;
Cleanup(fSessionName);
Cleanup(fShmId);
break;
case 'h':
cout << "\n[h] --> help:" << endl << endl;
@@ -245,11 +245,11 @@ void Monitor::Interactive()
void Monitor::CheckSegment()
{
static uint64_t counter = 0;
char c = '#';
if (fInteractive)
{
static uint64_t counter = 0;
int mod = counter++ % 5;
switch (mod)
{
@@ -293,7 +293,7 @@ void Monitor::CheckSegment()
if (fHeartbeatTriggered && duration > fTimeoutInMS)
{
cout << "no heartbeats since over " << fTimeoutInMS << " milliseconds, cleaning..." << endl;
Cleanup(fSessionName);
Cleanup(fShmId);
fHeartbeatTriggered = false;
if (fSelfDestruct)
{
@@ -340,7 +340,7 @@ void Monitor::CheckSegment()
if (fIsDaemon && duration > fTimeoutInMS * 2)
{
Cleanup(fSessionName);
Cleanup(fShmId);
fHeartbeatTriggered = false;
if (fSelfDestruct)
{
@@ -360,9 +360,9 @@ void Monitor::CheckSegment()
}
}
void Monitor::Cleanup(const string& sessionName)
void Monitor::Cleanup(const string& shmId)
{
string managementSegmentName("fmq_" + sessionName + "_mng");
string managementSegmentName("fmq_" + shmId + "_mng");
try
{
bipc::managed_shared_memory managementSegment(bipc::open_only, managementSegmentName.c_str());
@@ -373,8 +373,8 @@ void Monitor::Cleanup(const string& sessionName)
unsigned int regionCount = rc->fCount;
for (unsigned int i = 1; i <= regionCount; ++i)
{
RemoveObject("fmq_" + sessionName + "_rg_" + to_string(i));
RemoveQueue(string("fmq_" + sessionName + "_rgq_" + to_string(i)));
RemoveObject("fmq_" + shmId + "_rg_" + to_string(i));
RemoveQueue(string("fmq_" + shmId + "_rgq_" + to_string(i)));
}
}
else
@@ -389,9 +389,8 @@ void Monitor::Cleanup(const string& sessionName)
cout << "Did not find '" << managementSegmentName << "' shared memory segment. No regions to cleanup." << endl;
}
RemoveObject("fmq_" + sessionName + "_main");
boost::interprocess::named_mutex::remove(string("fmq_" + sessionName + "_mtx").c_str());
RemoveObject("fmq_" + shmId + "_main");
RemoveMutex("fmq_" + shmId + "_mtx");
cout << endl;
}
@@ -420,6 +419,18 @@ void Monitor::RemoveQueue(const string& name)
}
}
void Monitor::RemoveMutex(const string& name)
{
if (bipc::named_mutex::remove(name.c_str()))
{
cout << "Successfully removed \"" << name << "\"." << endl;
}
else
{
cout << "Did not remove \"" << name << "\". Already removed?" << endl;
}
}
void Monitor::PrintQueues()
{
cout << '\n';
@@ -427,14 +438,14 @@ void Monitor::PrintQueues()
try
{
bipc::managed_shared_memory segment(bipc::open_only, fSegmentName.c_str());
StringVector* queues = segment.find<StringVector>(string("fmq_" + fSessionName + "_qs").c_str()).first;
StringVector* queues = segment.find<StringVector>(string("fmq_" + fShmId + "_qs").c_str()).first;
if (queues)
{
cout << "found " << queues->size() << " queue(s):" << endl;
for (unsigned int i = 0; i < queues->size(); ++i)
for (const auto& queue : *queues)
{
string name(queues->at(i).c_str());
string name(queue.c_str());
cout << '\t' << name << " : ";
atomic<int>* queueSize = segment.find<atomic<int>>(name.c_str()).first;
if (queueSize)
@@ -500,7 +511,7 @@ Monitor::~Monitor()
}
if (fCleanOnExit)
{
Cleanup(fSessionName);
Cleanup(fShmId);
}
}

5
fairmq/shmem/Monitor.h
View File

@@ -39,6 +39,7 @@ class Monitor
static void Cleanup(const std::string& sessionName);
static void RemoveObject(const std::string&);
static void RemoveQueue(const std::string&);
static void RemoveMutex(const std::string&);
private:
void PrintHeader();
@@ -55,7 +56,7 @@ class Monitor
bool fIsDaemon;
bool fCleanOnExit;
unsigned int fTimeoutInMS;
std::string fSessionName;
std::string fShmId;
std::string fSegmentName;
std::string fManagementSegmentName;
std::string fControlQueueName;
@@ -71,4 +72,4 @@ class Monitor
} // namespace mq
} // namespace fair
#endif /* FAIR_MQ_SHMEM_MONITOR_H_ */
#endif /* FAIR_MQ_SHMEM_MONITOR_H_ */

15
fairmq/shmem/README.md
View File

@@ -12,8 +12,9 @@ The shared memory monitor tool, supplied with the shared memory transport can be
With default arguments the monitor will run indefinitely with no output, and clean up shared memory segment if it is open and no heartbeats from devices arrive within a timeout period. It can be further customized with following parameters:
`--session <arg>`: customize the name of the shared memory segment via the session name (default is "default").
`--session <arg>`: for which session to run the monitor (default is "default"). The actual ressource names will be built out of session id, user id (hashed and truncated).
`--cleanup`: start monitor, perform cleanup of the memory and quit.
`--shmid <arg>`: if provided, this shmem id will be used instead of the one generated from session id. Use this if you know the name of the shared memory ressource, but do not have the used session id.
`--self-destruct`: run until the memory segment is closed (either naturally via cleanup performed by devices or in case of a crash (no heartbeats within timeout)).
`--interactive`: run interactively, with detailed segment details and user input for various shmem operations.
`--timeout <arg>`: specifiy the timeout for the heartbeats from shmem transports in milliseconds (default 5000).
@@ -27,9 +28,9 @@ The Monitor class can also be used independently from the supplied executable (b
FairMQ Shared Memory currently uses following names to register shared memory on the system:
`fmq_<sessionName>_main` - main segment name, used for user data (session name can be overridden via `--session`).
`fmq_<sessionName>_mng` - management segment name, used for storing management data.
`fmq_<sessionName>_cq` - message queue for communicating between shm transport and shm monitor (exists independent of above segments).
`fmq_<sessionName>_mtx` - boost::interprocess::named_mutex for management purposes (exists independent of above segments).
`fmq_<sessionName>_rg_<index>` - names of unmanaged regions.
`fmq_<sessionName>_rgq_<index>` - names of queues for the unmanaged regions.
`fmq_<shmId>_main` - main segment name, used for user data (the shmId is generated out of session id and user id).
`fmq_<shmId>_mng` - management segment name, used for storing management data.
`fmq_<shmId>_cq` - message queue for communicating between shm transport and shm monitor (exists independent of above segments).
`fmq_<shmId>_mtx` - boost::interprocess::named_mutex for management purposes (exists independent of above segments).
`fmq_<shmId>_rg_<index>` - names of unmanaged regions.
`fmq_<shmId>_rgq_<index>` - names of queues for the unmanaged regions.

76
fairmq/shmem/prototype/CMakeLists.txt
View File

@@ -1,76 +0,0 @@
################################################################################
# Copyright (C) 2014 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH #
# #
# This software is distributed under the terms of the #
# GNU Lesser General Public Licence (LGPL) version 3, #
# copied verbatim in the file "LICENSE" #
################################################################################
configure_file(${CMAKE_SOURCE_DIR}/fairmq/shmem/prototype/shm-prototype.json
${CMAKE_BINARY_DIR}/bin/config/shm-prototype.json)
configure_file(${CMAKE_SOURCE_DIR}/fairmq/shmem/prototype/startShmPrototype.sh.in
${CMAKE_BINARY_DIR}/bin/prototype/shmem/startShmPrototype.sh)
Set(INCLUDE_DIRECTORIES
${CMAKE_SOURCE_DIR}/fairmq
${CMAKE_SOURCE_DIR}/fairmq/zeromq
${CMAKE_SOURCE_DIR}/fairmq/nanomsg
${CMAKE_SOURCE_DIR}/fairmq/devices
${CMAKE_SOURCE_DIR}/fairmq/tools
${CMAKE_SOURCE_DIR}/fairmq/options
${CMAKE_SOURCE_DIR}/fairmq/shmem/prototype
${CMAKE_CURRENT_BINARY_DIR}
)
Set(SYSTEM_INCLUDE_DIRECTORIES
${Boost_INCLUDE_DIR}
${ZeroMQ_INCLUDE_DIR}
)
Include_Directories(${INCLUDE_DIRECTORIES})
Include_Directories(SYSTEM ${SYSTEM_INCLUDE_DIRECTORIES})
Set(LINK_DIRECTORIES
${Boost_LIBRARY_DIRS}
)
Link_Directories(${LINK_DIRECTORIES})
Set(SRCS
"FairMQShmPrototypeSampler.cxx"
"FairMQShmPrototypeSink.cxx"
)
Set(DEPENDENCIES
${DEPENDENCIES}
${Boost_INTERPROCESS_LIBRARY}
FairMQ
)
Set(LIBRARY_NAME FairMQShmPrototype)
GENERATE_LIBRARY()
Set(Exe_Names
shm-prototype-sampler
shm-prototype-sink
)
Set(Exe_Source
runShmPrototypeSampler.cxx
runShmPrototypeSink.cxx
)
list(LENGTH Exe_Names _length)
math(EXPR _length ${_length}-1)
set(EXECUTABLE_OUTPUT_PATH "${EXECUTABLE_OUTPUT_PATH}/prototype/shmem")
ForEach(_file RANGE 0 ${_length})
list(GET Exe_Names ${_file} _name)
list(GET Exe_Source ${_file} _src)
set(EXE_NAME ${_name})
set(SRCS ${_src})
set(DEPENDENCIES FairMQShmPrototype)
GENERATE_EXECUTABLE()
EndForEach(_file RANGE 0 ${_length})

227
fairmq/shmem/prototype/FairMQShmPrototypeSampler.cxx
View File

@@ -1,227 +0,0 @@
/********************************************************************************
* Copyright (C) 2014 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* *
* This software is distributed under the terms of the *
* GNU Lesser General Public Licence (LGPL) version 3, *
* copied verbatim in the file "LICENSE" *
********************************************************************************/
/**
* FairMQShmPrototypeSampler.cpp
*
* @since 2016-04-08
* @author A. Rybalchenko
*/
#include <string>
#include <thread>
#include <chrono>
#include <iomanip>
#include <boost/interprocess/managed_shared_memory.hpp>
#include <boost/interprocess/smart_ptr/shared_ptr.hpp>
#include "FairMQShmPrototypeSampler.h"
#include "FairMQProgOptions.h"
#include "FairMQLogger.h"
#include "ShmChunk.h"
using namespace std;
using namespace boost::interprocess;
FairMQShmPrototypeSampler::FairMQShmPrototypeSampler()
: fMsgSize(10000)
, fMsgCounter(0)
, fMsgRate(1)
, fBytesOut(0)
, fMsgOut(0)
, fBytesOutNew(0)
, fMsgOutNew(0)
{
if (shared_memory_object::remove("FairMQSharedMemoryPrototype"))
{
LOG(info) << "Successfully removed shared memory upon device start.";
}
else
{
LOG(info) << "Did not remove shared memory upon device start.";
}
}
FairMQShmPrototypeSampler::~FairMQShmPrototypeSampler()
{
if (shared_memory_object::remove("FairMQSharedMemoryPrototype"))
{
LOG(info) << "Successfully removed shared memory after the device has stopped.";
}
else
{
LOG(info) << "Did not remove shared memory after the device stopped. Still in use?";
}
}
void FairMQShmPrototypeSampler::Init()
{
fMsgSize = fConfig->GetValue<int>("msg-size");
fMsgRate = fConfig->GetValue<int>("msg-rate");
SegmentManager::Instance().InitializeSegment("open_or_create", "FairMQSharedMemoryPrototype", 2000000000);
LOG(info) << "Created/Opened shared memory segment of 2,000,000,000 bytes. Available are "
<< SegmentManager::Instance().Segment()->get_free_memory() << " bytes.";
}
void FairMQShmPrototypeSampler::Run()
{
// count sent messages (also used in creating ShmChunk container ID)
static uint64_t numSentMsgs = 0;
LOG(info) << "Starting the benchmark with message size of " << fMsgSize;
// start rate logger and acknowledgement listener in separate threads
thread rateLogger(&FairMQShmPrototypeSampler::Log, this, 1000);
// thread resetMsgCounter(&FairMQShmPrototypeSampler::ResetMsgCounter, this);
// int charnum = 97;
while (CheckCurrentState(RUNNING))
{
void* ptr = nullptr;
bipc::managed_shared_memory::handle_t handle;
while (!ptr)
{
try
{
ptr = SegmentManager::Instance().Segment()->allocate(fMsgSize);
}
catch (bipc::bad_alloc& ba)
{
this_thread::sleep_for(chrono::milliseconds(50));
if (CheckCurrentState(RUNNING))
{
continue;
}
else
{
break;
}
}
}
// // ShmChunk container ID
// string chunkID = "c" + to_string(numSentMsgs);
// // shared pointer ID
// string ownerID = "o" + to_string(numSentMsgs);
// ShPtrOwner* owner = nullptr;
// try
// {
// owner = SegmentManager::Instance().Segment()->construct<ShPtrOwner>(ownerID.c_str())(
// make_managed_shared_ptr(SegmentManager::Instance().Segment()->construct<ShmChunk>(chunkID.c_str())(fMsgSize),
// *(SegmentManager::Instance().Segment())));
// }
// catch (bipc::bad_alloc& ba)
// {
// LOG(warn) << "Shared memory full...";
// this_thread::sleep_for(chrono::milliseconds(100));
// continue;
// }
// void* ptr = owner->fPtr->GetData();
// write something to memory, otherwise only (incomplete) allocation will be measured
// memset(ptr, 0, fMsgSize);
// static_cast<char*>(ptr)[3] = charnum++;
// if (charnum == 123)
// {
// charnum = 97;
// }
// LOG(debug) << "chunk handle: " << owner->fPtr->GetHandle();
// LOG(debug) << "chunk size: " << owner->fPtr->GetSize();
// LOG(debug) << "owner (" << ownerID << ") use count: " << owner->fPtr.use_count();
// char* cptr = static_cast<char*>(ptr);
// LOG(debug) << "check: " << cptr[3];
// FairMQMessagePtr msg(NewSimpleMessage(ownerID));
if (ptr)
{
handle = SegmentManager::Instance().Segment()->get_handle_from_address(ptr);
FairMQMessagePtr msg(NewMessage(sizeof(ExMetaHeader)));
ExMetaHeader* metaPtr = new(msg->GetData()) ExMetaHeader();
metaPtr->fSize = fMsgSize;
metaPtr->fHandle = handle;
// LOG(info) << metaPtr->fSize;
// LOG(info) << metaPtr->fHandle;
// LOG(warn) << ptr;
if (Send(msg, "meta", 0) > 0)
{
fBytesOutNew += fMsgSize;
++fMsgOutNew;
++numSentMsgs;
}
else
{
SegmentManager::Instance().Segment()->deallocate(ptr);
// SegmentManager::Instance().Segment()->destroy_ptr(owner);
}
}
// --fMsgCounter;
// while (fMsgCounter == 0)
// {
// this_thread::sleep_for(chrono::milliseconds(1));
// }
}
LOG(info) << "Sent " << numSentMsgs << " messages, leaving RUNNING state.";
rateLogger.join();
// resetMsgCounter.join();
}
void FairMQShmPrototypeSampler::Log(const int intervalInMs)
{
chrono::time_point<chrono::high_resolution_clock> t0 = chrono::high_resolution_clock::now();
chrono::time_point<chrono::high_resolution_clock> t1;
unsigned long long msSinceLastLog;
double mbPerSecOut = 0;
double msgPerSecOut = 0;
while (CheckCurrentState(RUNNING))
{
t1 = chrono::high_resolution_clock::now();
msSinceLastLog = chrono::duration_cast<chrono::milliseconds>(t1 - t0).count();
mbPerSecOut = (static_cast<double>(fBytesOutNew - fBytesOut) / (1024. * 1024.)) / static_cast<double>(msSinceLastLog) * 1000.;
fBytesOut = fBytesOutNew;
msgPerSecOut = static_cast<double>(fMsgOutNew - fMsgOut) / static_cast<double>(msSinceLastLog) * 1000.;
fMsgOut = fMsgOutNew;
LOG(debug) << fixed
<< setprecision(0) << "out: " << msgPerSecOut << " msg ("
<< setprecision(2) << mbPerSecOut << " MB)\t("
<< SegmentManager::Instance().Segment()->get_free_memory() / (1024. * 1024.) << " MB free)";
t0 = t1;
this_thread::sleep_for(chrono::milliseconds(intervalInMs));
}
}
void FairMQShmPrototypeSampler::ResetMsgCounter()
{
while (CheckCurrentState(RUNNING))
{
fMsgCounter = fMsgRate / 100;
this_thread::sleep_for(chrono::milliseconds(10));
}
}

45
fairmq/shmem/prototype/FairMQShmPrototypeSampler.h
View File

@@ -1,45 +0,0 @@
/********************************************************************************
* Copyright (C) 2014 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* *
* This software is distributed under the terms of the *
* GNU Lesser General Public Licence (LGPL) version 3, *
* copied verbatim in the file "LICENSE" *
********************************************************************************/
/**
* FairMQShmPrototypeSampler.h
*
* @since 2016-04-08
* @author A. Rybalchenko
*/
#ifndef FAIRMQSHMPROTOTYPESAMPLER_H_
#define FAIRMQSHMPROTOTYPESAMPLER_H_
#include <atomic>
#include "FairMQDevice.h"
class FairMQShmPrototypeSampler : public FairMQDevice
{
public:
FairMQShmPrototypeSampler();
virtual ~FairMQShmPrototypeSampler();
void Log(const int intervalInMs);
void ResetMsgCounter();
protected:
unsigned int fMsgSize;
unsigned int fMsgCounter;
unsigned int fMsgRate;
unsigned long long fBytesOut;
unsigned long long fMsgOut;
std::atomic<unsigned long long> fBytesOutNew;
std::atomic<unsigned long long> fMsgOutNew;
virtual void Init();
virtual void Run();
};
#endif /* FAIRMQSHMPROTOTYPESAMPLER_H_ */

145
fairmq/shmem/prototype/FairMQShmPrototypeSink.cxx
View File

@@ -1,145 +0,0 @@
/********************************************************************************
* Copyright (C) 2014 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* *
* This software is distributed under the terms of the *
* GNU Lesser General Public Licence (LGPL) version 3, *
* copied verbatim in the file "LICENSE" *
********************************************************************************/
/**
* FairMQShmPrototypeSink.cxx
*
* @since 2016-04-08
* @author A. Rybalchenko
*/
#include <string>
#include <thread>
#include <chrono>
#include <iomanip>
#include <boost/interprocess/managed_shared_memory.hpp>
#include <boost/interprocess/smart_ptr/shared_ptr.hpp>
#include "FairMQShmPrototypeSink.h"
#include "FairMQProgOptions.h"
#include "FairMQLogger.h"
#include "ShmChunk.h"
using namespace std;
using namespace boost::interprocess;
FairMQShmPrototypeSink::FairMQShmPrototypeSink()
: fBytesIn(0)
, fMsgIn(0)
, fBytesInNew(0)
, fMsgInNew(0)
{
}
FairMQShmPrototypeSink::~FairMQShmPrototypeSink()
{
}
void FairMQShmPrototypeSink::Init()
{
SegmentManager::Instance().InitializeSegment("open_or_create", "FairMQSharedMemoryPrototype", 2000000000);
LOG(info) << "Created/Opened shared memory segment of 2,000,000,000 bytes. Available are "
<< SegmentManager::Instance().Segment()->get_free_memory() << " bytes.";
}
void FairMQShmPrototypeSink::Run()
{
static uint64_t numReceivedMsgs = 0;
thread rateLogger(&FairMQShmPrototypeSink::Log, this, 1000);
while (CheckCurrentState(RUNNING))
{
FairMQMessagePtr msg(NewMessage());
if (Receive(msg, "meta") > 0)
{
ExMetaHeader* hdr = static_cast<ExMetaHeader*>(msg->GetData());
size_t size = hdr->fSize;
bipc::managed_shared_memory::handle_t handle = hdr->fHandle;
void* ptr = SegmentManager::Instance().Segment()->get_address_from_handle(handle);
// LOG(info) << size;
// LOG(info) << handle;
// LOG(warn) << ptr;
fBytesInNew += size;
++fMsgInNew;
SegmentManager::Instance().Segment()->deallocate(ptr);
// get the shared pointer ID from the received message
// string ownerID(static_cast<char*>(msg->GetData()), msg->GetSize());
// find the shared pointer in shared memory with its ID
// ShPtrOwner* owner = SegmentManager::Instance().Segment()->find<ShPtrOwner>(ownerID.c_str()).first;
// LOG(debug) << "owner (" << ownerID << ") use count: " << owner->fPtr.use_count();
// if (owner)
// {
// // void* ptr = owner->fPtr->GetData();
// // LOG(debug) << "chunk handle: " << owner->fPtr->GetHandle();
// // LOG(debug) << "chunk size: " << owner->fPtr->GetSize();
// fBytesInNew += owner->fPtr->GetSize();
// ++fMsgInNew;
// // char* cptr = static_cast<char*>(ptr);
// // LOG(debug) << "check: " << cptr[3];
// SegmentManager::Instance().Segment()->deallocate(ptr);
// // SegmentManager::Instance().Segment()->destroy_ptr(owner);
// }
// else
// {
// LOG(warn) << "Shared pointer is zero.";
// }
++numReceivedMsgs;
}
}
LOG(info) << "Received " << numReceivedMsgs << " messages, leaving RUNNING state.";
rateLogger.join();
}
void FairMQShmPrototypeSink::Log(const int intervalInMs)
{
chrono::time_point<chrono::high_resolution_clock> t0 = chrono::high_resolution_clock::now();
chrono::time_point<chrono::high_resolution_clock> t1;
unsigned long long msSinceLastLog;
double mbPerSecIn = 0;
double msgPerSecIn = 0;
while (CheckCurrentState(RUNNING))
{
t1 = chrono::high_resolution_clock::now();
msSinceLastLog = chrono::duration_cast<chrono::milliseconds>(t1 - t0).count();
mbPerSecIn = (static_cast<double>(fBytesInNew - fBytesIn) / (1024. * 1024.)) / static_cast<double>(msSinceLastLog) * 1000.;
fBytesIn = fBytesInNew;
msgPerSecIn = static_cast<double>(fMsgInNew - fMsgIn) / static_cast<double>(msSinceLastLog) * 1000.;
fMsgIn = fMsgInNew;
LOG(debug) << fixed
<< setprecision(0) << "in: " << msgPerSecIn << " msg ("
<< setprecision(2) << mbPerSecIn << " MB)\t("
<< SegmentManager::Instance().Segment()->get_free_memory() / (1024. * 1024.) << " MB free)";
t0 = t1;
this_thread::sleep_for(chrono::milliseconds(intervalInMs));
}
}

40
fairmq/shmem/prototype/FairMQShmPrototypeSink.h
View File

@@ -1,40 +0,0 @@
/********************************************************************************
* Copyright (C) 2014 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* *
* This software is distributed under the terms of the *
* GNU Lesser General Public Licence (LGPL) version 3, *
* copied verbatim in the file "LICENSE" *
********************************************************************************/
/**
* FairMQShmPrototypeSink.h
*
* @since 2016-04-08
* @author A. Rybalchenko
*/
#ifndef FAIRMQSHMPROTOTYPESINK_H_
#define FAIRMQSHMPROTOTYPESINK_H_
#include <atomic>
#include "FairMQDevice.h"
class FairMQShmPrototypeSink : public FairMQDevice
{
public:
FairMQShmPrototypeSink();
virtual ~FairMQShmPrototypeSink();
void Log(const int intervalInMs);
protected:
unsigned long long fBytesIn;
unsigned long long fMsgIn;
std::atomic<unsigned long long> fBytesInNew;
std::atomic<unsigned long long> fMsgInNew;
virtual void Init();
virtual void Run();
};
#endif /* FAIRMQSHMPROTOTYPESINK_H_ */

182
fairmq/shmem/prototype/ShmChunk.h
View File

@@ -1,182 +0,0 @@
/********************************************************************************
* Copyright (C) 2014 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* *
* This software is distributed under the terms of the *
* GNU Lesser General Public Licence (LGPL) version 3, *
* copied verbatim in the file "LICENSE" *
********************************************************************************/
/**
* ShmChunk.h
*
* @since 2016-04-08
* @author A. Rybalchenko
*/
#ifndef SHMCHUNK_H_
#define SHMCHUNK_H_
#include <thread>
#include <chrono>
#include <boost/interprocess/managed_shared_memory.hpp>
#include <boost/interprocess/smart_ptr/shared_ptr.hpp>
#include "FairMQLogger.h"
namespace bipc = boost::interprocess;
class SegmentManager
{
public:
static SegmentManager& Instance()
{
static SegmentManager man;
return man;
}
void InitializeSegment(const std::string& op, const std::string& name, const size_t size = 0)
{
if (!fSegment)
{
try
{
if (op == "open_or_create")
{
fSegment = new bipc::managed_shared_memory(bipc::open_or_create, name.c_str(), size);
}
else if (op == "create_only")
{
fSegment = new bipc::managed_shared_memory(bipc::create_only, name.c_str(), size);
}
else if (op == "open_only")
{
int numTries = 0;
bool success = false;
do
{
try
{
fSegment = new bipc::managed_shared_memory(bipc::open_only, name.c_str());
success = true;
}
catch (bipc::interprocess_exception& ie)
{
if (++numTries == 5)
{
LOG(error) << "Could not open shared memory after " << numTries << " attempts, exiting!";
exit(EXIT_FAILURE);
}
else
{
LOG(debug) << "Could not open shared memory segment on try " << numTries << ". Retrying in 1 second...";
LOG(debug) << ie.what();
std::this_thread::sleep_for(std::chrono::milliseconds(1000));
}
}
}
while (!success);
}
else
{
LOG(error) << "Unknown operation when initializing shared memory segment: " << op;
}
}
catch (std::exception& e)
{
LOG(error) << "Exception during shared memory segment initialization: " << e.what() << ", application will now exit";
exit(EXIT_FAILURE);
}
}
else
{
LOG(info) << "Segment already initialized";
}
}
bipc::managed_shared_memory* Segment() const
{
if (fSegment)
{
return fSegment;
}
else
{
LOG(error) << "Segment not initialized";
exit(EXIT_FAILURE);
}
}
private:
SegmentManager()
: fSegment(nullptr)
{}
bipc::managed_shared_memory* fSegment;
};
struct alignas(16) ExMetaHeader
{
uint64_t fSize;
bipc::managed_shared_memory::handle_t fHandle;
};
// class ShmChunk
// {
// public:
// ShmChunk()
// : fHandle()
// , fSize(0)
// {
// }
// ShmChunk(const size_t size)
// : fHandle()
// , fSize(size)
// {
// void* ptr = SegmentManager::Instance().Segment()->allocate(size);
// fHandle = SegmentManager::Instance().Segment()->get_handle_from_address(ptr);
// }
// ~ShmChunk()
// {
// SegmentManager::Instance().Segment()->deallocate(SegmentManager::Instance().Segment()->get_address_from_handle(fHandle));
// }
// bipc::managed_shared_memory::handle_t GetHandle() const
// {
// return fHandle;
// }
// void* GetData() const
// {
// return SegmentManager::Instance().Segment()->get_address_from_handle(fHandle);
// }
// size_t GetSize() const
// {
// return fSize;
// }
// private:
// bipc::managed_shared_memory::handle_t fHandle;
// size_t fSize;
// };
// typedef bipc::managed_shared_ptr<ShmChunk, bipc::managed_shared_memory>::type ShPtrType;
// struct ShPtrOwner
// {
// ShPtrOwner(const ShPtrType& other)
// : fPtr(other)
// {}
// ShPtrOwner(const ShPtrOwner& other)
// : fPtr(other.fPtr)
// {}
// ShPtrType fPtr;
// };
#endif /* SHMCHUNK_H_ */

24
fairmq/shmem/prototype/runShmPrototypeSampler.cxx
View File

@@ -1,24 +0,0 @@
/********************************************************************************
* Copyright (C) 2014 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* *
* This software is distributed under the terms of the *
* GNU Lesser General Public Licence (LGPL) version 3, *
* copied verbatim in the file "LICENSE" *
********************************************************************************/
#include "runFairMQDevice.h"
#include "FairMQShmPrototypeSampler.h"
namespace bpo = boost::program_options;
void addCustomOptions(bpo::options_description& options)
{
options.add_options()
("msg-size", bpo::value<int>()->default_value(1000), "Message size in bytes")
("msg-rate", bpo::value<int>()->default_value(0), "Msg rate limit in maximum number of messages per second");
}
FairMQDevicePtr getDevice(const FairMQProgOptions& /*config*/)
{
return new FairMQShmPrototypeSampler();
}

21
fairmq/shmem/prototype/runShmPrototypeSink.cxx
View File

@@ -1,21 +0,0 @@
/********************************************************************************
* Copyright (C) 2014 GSI Helmholtzzentrum fuer Schwerionenforschung GmbH *
* *
* This software is distributed under the terms of the *
* GNU Lesser General Public Licence (LGPL) version 3, *
* copied verbatim in the file "LICENSE" *
********************************************************************************/
#include "runFairMQDevice.h"
#include "FairMQShmPrototypeSink.h"
namespace bpo = boost::program_options;
void addCustomOptions(bpo::options_description& /*options*/)
{
}
FairMQDevicePtr getDevice(const FairMQProgOptions& /*config*/)
{
return new FairMQShmPrototypeSink();
}

34
fairmq/shmem/prototype/shm-prototype.json
View File

@@ -1,34 +0,0 @@
{
"fairMQOptions": {
"devices": [
{
"id": "sampler1",
"channels": [
{
"name": "meta",
"type": "push",
"method": "bind",
"address": "tcp://127.0.0.1:5555",
"sndBufSize": 10,
"rcvBufSize": 10,
"rateLogging": 0
}
]
},
{
"id": "sink1",
"channels": [
{
"name": "meta",
"type": "pull",
"method": "connect",
"address": "tcp://127.0.0.1:5555",
"sndBufSize": 10,
"rcvBufSize": 10,
"rateLogging": 0
}
]
}
]
}
}

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