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MindConnect Library (MCL) 4.x.x

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This is the introductory document for MindConnect Library, abbreviated as MCL. Please check MCL reference documentation for details. MCL reference documentation can be accessed online or a local copy can be generated when building MCL (see MCL Build Options).

Introduction

MindConnect Library (MCL), is a cross-platform C library wrapping APIs that clients or agents can securely access over TLS v1.2.

MindConnect Library is distributed as source code. The source code is organized as a core component and extensions to the core component.

Onboarding, key rotation and access token retrieval functionalities will be available to agents with the Core component. Including mcl_core.h in agent source code will enable all core component functionality.

Data exchange and data point mapping functionalities will be available to agents with Connectivity component which is an extension to Core component. Including mcl_connectivity.h in agent source code will enable all connectivity component functionality together with core component functionality.

Agents will be able to upload unstructured data to Integrated Data Lake with Data Lake component of MCL which is also an extension to Core component and it is independent of the Connectivity component. Including mcl_data_lake.h in agent source code will enable all data lake component functionality together with core component functionality.

Agents will be able to get and update any workflows assigned to them with Deployment component of MCL, an extension to Core component. Including mcl_deployment.h in agent source code will enable all deployment component functionality together with core component functionality.

MCL build process will generate separate output binaries for each component. Agents willing to exploit only the core functionality can do so by building and including only the core component. Agents willing to exploit any extension component functionality can do so by building and including that extension component together with any components that it depends on.

Dependencies

  • CMake is used for cross-platform building of MCL although developers can choose to use other options to build MCL. CMake version 3.10 or later is required.

  • LibCurl is used as the default HTTP client in MCL but developers have the option to easily replace LibCurl with other HTTP client implementations. Make sure LibCurl is installed on your system before building MCL if you are going to use LibCurl as the HTTP client. Steps to build LibCurl for your target system are described in the following sections of this document. Developers are encouraged to use newer versions of LibCurl but note that MCL is tested with LibCurl version 8.6.0.

    Please make sure your HTTP client implementation is configured to use TLS v1.2 implementation.

  • OpenSSL is used as the default TLS and cryptography library but developers have the option to easily replace OpenSSL with other implementations. Make sure OpenSSL is installed on your system before building MCL if you are going to use OpenSSL as TLS and cryptography library. Steps to build OpenSSL are described in the following sections of this document. Developers are encouraged to use newer versions of OpenSSL 3.0.x but note that MCL is tested with OpenSSL version 3.0.13.

Important

  • Certificates in examples are for demo purpose only. Developers should always refer and use latest certificate published at Insights Hub Documentation.
  • It is advised to use the system's Trusted Certificate Store or an external certificate file, rather than hardcoding the certificate, to simplify future certificate rotations. For Linux Systems Trusted Certificate Store location is /etc/ssl/certs, certificates present at this location will be referred while establishing connection. To understand more on Trusted Certificate Store, refer the openssl documentation.
One of following ciphers must be supported and configured for SSL handshaking:

		AES128-SHA256
		AES256-SHA256
		AES128-GCM-SHA256
		AES256-GCM-SHA384
		ECDHE-RSA-AES128-SHA256
		ECDHE-RSA-AES256-SHA384
		ECDHE-RSA-AES128-GCM-SHA256
		ECDHE-RSA-AES256-GCM-SHA384

In order to verify the correctness of the Certificate
please enable host and peer verification.
  • If you want to have unit and integration test executables also built with cmake, please ensure that ruby is installed and available on the path. If you do not have ruby on your path no test executables will be generated.

Replacing MCL Modules

Agent developers can provide custom implementations for the following modules and configure MCL build to use custom implementations in place of the default implementations.

HTTP Client

LibCurl is set as the default HTTP client library in MCL which can be replaced by implementing the functions declared in "mcl_core/include/mcl_core/mcl_http_client.h". Default implementation is located in "mcl_core/src/http_client/curl/http_client_libcurl.c". Note that default http client implementation depends on OpenSSL for TLS.

You may place your implementation in:

a) a subfolder under "mcl_core/src/http_client/" so that the directory structure looks like:

+-- mcl_core
    +-- src
        +-- http_client
            +-- curl
            +-- <your_implementation_folder>
                +-- <your_source_file(s)>
                +-- CMakeLists.txt

In this case, MCL can be configured to use the alternative implementation by setting -DMCL_HTTP_CLIENT=<your_implementation_folder> when building MCL.

b) any place out of MCL project so that the directory structure looks like:

+-- mcl_core
    +-- src
        +-- http_client
            +-- curl
            
+-- <any_place_out_of_MCL>
    +-- <your_implementation_folder>
        +-- <your_source_file(s)>
        +-- CMakeLists.txt

In this case, MCL can be configured to use the alternative implementation by setting -DMCL_HTTP_CLIENT=<absolute_path_to_your_implementation_folder> when building MCL.

If you are using CMake to build MCL, you also need to provide CMakeLists.txt file within your alternative implementation directory. CMakeLists.txt file must set the parameters MCL_HTTP_CLIENT_INCLUDE_DIRECTORIES, MCL_HTTP_CLIENT_LIBRARIES and MCL_HTTP_CLIENT_SOURCES for PARENT_SCOPE. Typical CMakeLists.txt would look like:

SET(MCL_HTTP_CLIENT_INCLUDE_DIRECTORIES <directory_to_include> <another_directory_to_include> PARENT_SCOPE)
SET(MCL_HTTP_CLIENT_LIBRARIES <library_to_be_linked> <another_library_to_be_linked> PARENT_SCOPE)
SET(MCL_HTTP_CLIENT_SOURCES <your_source_file> <your_another_source_file> PARENT_SCOPE)

If you are using CMake to build MCL, and your alternative implementation depends on another library, do not forget to add the directory (with contents including headers and the binaries) of that library to CMAKE_PREFIX_PATH option when building MCL. See section Building MCL for details.

Crypto

OpenSSL is set as the default cryptography library in MCL which can be replaced by implementing the functions declared in "mcl_core/src/security.h". Default implementation is located in "mcl_core/src/crypto/openssl/security_libcrypto.c".

You may place your implementation in:

a) a subfolder under "mcl_core/src/crypto/" so that the directory structure looks like:

+-- mcl_core
    +-- src
        +-- crypto
            +-- openssl
            +-- <your_implementation_folder>
                +-- <your_source_file(s)>
                +-- CMakeLists.txt

In this case, MCL can be configured to use the alternative implementation by setting -DMCL_CRYPTO=<your_implementation_folder> when building MCL.

b) any place out of MCL project so that the directory structure looks like:

+-- mcl_core
    +-- src
        +-- crypto
            +-- openssl
            
+-- <any_place_out_of_MCL>
    +-- <your_implementation_folder>
        +-- <your_source_file(s)>
        +-- CMakeLists.txt

In this case, MCL can be configured to use the alternative implementation by setting -DMCL_CRYPTO=<absolute_path_to_your_implementation_folder> when building MCL.

If you are using CMake to build MCL, you also need to provide CMakeLists.txt file within your alternative implementation directory. CMakeLists.txt file must set the parameters MCL_CRYPTO_INCLUDE_DIRECTORIES, MCL_CRYPTO_LIBRARIES and MCL_CRYPTO_SOURCES for PARENT_SCOPE. Typical CMakeLists.txt would look like:

SET(MCL_CRYPTO_INCLUDE_DIRECTORIES <directory_to_include> <another_directory_to_include> PARENT_SCOPE)
SET(MCL_CRYPTO_LIBRARIES <library_to_be_linked> <another_library_to_be_linked> PARENT_SCOPE)
SET(MCL_CRYPTO_SOURCES <your_source_file> <your_another_source_file> PARENT_SCOPE)

If you are using CMake to build MCL, and your alternative implementation depends on another library, do not forget to add the directory (with contents including headers and the binaries) of that library to CMAKE_PREFIX_PATH option when building MCL. See section Building MCL for details.

File Utility

MCL uses standard C Library as the default file utility for file operations which can be replaced by implementing the functions declared in "mcl_core/include/mcl_core/mcl_file_util.h". Default implementation is located in "mcl_core/src/file_util/standard/file_util.c".

You may place your implementation in:

a) a subfolder under "mcl_core/src/file_util/" so that the directory structure looks like:

+-- mcl_core
    +-- src
        +-- file_util
            +-- standard
            +-- <your_implementation_folder>
                +-- <your_source_file(s)>
                +-- CMakeLists.txt

In this case, MCL can be configured to use the alternative implementation by setting -DMCL_FILE_UTIL=<your_implementation_folder> when building MCL.

b) any place out of MCL project so that the directory structure looks like:

+-- mcl_core
    +-- src
        +-- file_util
            +-- standard
            
+-- <any_place_out_of_MCL>
    +-- <your_implementation_folder>
        +-- <your_source_file(s)>
        +-- CMakeLists.txt

In this case, MCL can be configured to use the alternative implementation by setting -DMCL_FILE_UTIL=<absolute_path_to_your_implementation_folder> when building MCL.

If you are using CMake to build MCL, you also need to provide CMakeLists.txt file within your alternative implementation directory. CMakeLists.txt file must set the parameters MCL_FILE_UTIL_INCLUDE_DIRECTORIES, MCL_FILE_UTIL_LIBRARIES and MCL_FILE_UTIL_SOURCES for PARENT_SCOPE. Typical CMakeLists.txt would look like:

SET(MCL_FILE_UTIL_INCLUDE_DIRECTORIES <directory_to_include> <another_directory_to_include> PARENT_SCOPE)
SET(MCL_FILE_UTIL_LIBRARIES <library_to_be_linked> <another_library_to_be_linked> PARENT_SCOPE)
SET(MCL_FILE_UTIL_SOURCES <your_source_file> <your_another_source_file> PARENT_SCOPE)

If you are using CMake to build MCL, and your alternative implementation depends on another library, do not forget to add the directory (with contents including headers and the binaries) of that library to CMAKE_PREFIX_PATH option when building MCL. See section Building MCL for details.

Memory

MCL uses standard C Library as the default utility for memory operations which can be replaced by implementing the functions declared in "mcl_core/include/mcl_core/mcl_memory.h". Default implementation is located in "mcl_core/src/memory/standard/memory.c".

You may place your implementation in:

a) a subfolder under "mcl_core/src/memory/" so that the directory structure looks like:

+-- mcl_core
    +-- src
        +-- memory
            +-- standard
            +-- <your_implementation_folder>
                +-- <your_source_file(s)>
                +-- CMakeLists.txt

In this case, MCL can be configured to use the alternative implementation by setting -DMCL_MCL_MEMORY=<your_implementation_folder> when building MCL.

b) any place out of MCL project so that the directory structure looks like:

+-- mcl_core
    +-- src
        +-- memory
            +-- standard
            
+-- <any_place_out_of_MCL>
    +-- <your_implementation_folder>
        +-- <your_source_file(s)>
        +-- CMakeLists.txt

In this case, MCL can be configured to use the alternative implementation by setting -DMCL_MEMORY=<absolute_path_to_your_implementation_folder> when building MCL.

If you are using CMake to build MCL, you also need to provide CMakeLists.txt file within your alternative implementation directory. CMakeLists.txt file must set the parameters MCL_MEMORY_INCLUDE_DIRECTORIES, MCL_MEMORY_LIBRARIES and MCL_MEMORY_SOURCES for PARENT_SCOPE. Typical CMakeLists.txt would look like:

SET(MCL_MEMORY_INCLUDE_DIRECTORIES <directory_to_include> <another_directory_to_include> PARENT_SCOPE)
SET(MCL_MEMORY_LIBRARIES <library_to_be_linked> <another_library_to_be_linked> PARENT_SCOPE)
SET(MCL_MEMORY_SOURCES <your_source_file> <your_another_source_file> PARENT_SCOPE)

If you are using CMake to build MCL, and your alternative implementation depends on another library, do not forget to add the directory (with contents including headers and the binaries) of that library to CMAKE_PREFIX_PATH option when building MCL. See section Building MCL for details.

Building MCL

This section will guide you to build MCL as a dynamic library from source code using CMake in Linux environment and also show you how to import and use MCL inside an example agent application. Although the steps are described for Linux environment, they are expected to be informative enough for other environments as well.

Default implementations for replaceable modules (i.e. http client, crypto, memory and file utility) will be used. If you intend to use alternative implementation for any of the replaceable modules see section Replacing MCL Modules.

Both the core component and the connectivity extension will be built. See MCL Build Options to select components to build.

These are the steps of the build process in order:

Building OpenSSL

Download OpenSSL package openssl-3.0.13.tar.gz and in your download directory run the following commands where <OpenSSL_Install_Directory> refers to the directory you want to install OpenSSL:

$ tar -xvzf openssl-3.0.13.tar.gz
$ cd openssl-3.0.13
$ ./config --prefix=<OpenSSL_Install_Directory> -Wl,-rpath=<OpenSSL_Install_Directory>/lib shared -fPIC
$ sudo make install

Now, there must be a folder named openssl in <OpenSSL_Install_Directory>/include and shared objects named libcrypto.so and libssl.so in <OpenSSL_Install_Directory>/lib.

Building Libcurl

Download libcurl package curl-8.6.0.tar.gz and in your download directory run the following commands where <libcurl_Install_Directory> refers to the directory you want to install libcurl:

$ tar -xvzf curl-8.6.0.tar.gz
$ cd curl-8.6.0
$ LDFLAGS="-Wl,-R<OpenSSL_Install_Directory>/lib" ./configure --enable-http --with-ssl=<OpenSSL_Install_Directory> --prefix=<libcurl_Install_Directory> --without-libssh2 --disable-ftp --disable-tftp --disable-file --disable-ldap --disable-rtsp --disable-dict --disable-telnet --disable-pop3 --disable-imap --disable-smb --disable-scp --disable-sftp --disable-smtp --disable-gopher --disable-manual
$ sudo make install

Now, there must be a folder named curl in <libcurl_Install_Directory>/include and shared object named libcurl.so in <libcurl_Install_Directory>/lib.

Building MCL

After the dependencies of MCL are built, to build MCL, run the following commands where

<MCL_Source_Directory> refers to the directory of MCL source code (i.e. directory in which README.md, top level CMakeLists.txt and subfolders for each component exist),
<MCL_Build_Directory> refers to the intermediate directory used during build process,
<MCL_Install_Directory> refers to the directory in which build artifacts are located.

$ mkdir -p <MCL_Build_Directory>
$ cd <MCL_Build_Directory>
$ cmake -DCMAKE_PREFIX_PATH="<OpenSSL_Install_Directory>;<libcurl_Install_Directory>" -DCMAKE_BUILD_TYPE=RELEASE -DCMAKE_INSTALL_PREFIX:PATH=<MCL_Install_Directory> -DMCL_STATICLIB=OFF -DMCL_LOG_LEVEL=MCL_LOG_LEVEL_NONE <MCL_Source_Directory>
$ cmake --build . --clean-first --target install

Now, there must be folders named mcl_core, mcl_connectivity, mcl_data_lake and mcl_deployment containing MCL headers in <MCL_Install_Directory>/include and shared objects named libmcl_core.so, libmcl_connectivity.so, libmcl_data_lake.so and libmcl_deployment.so in <MCL_Install_Directory>/lib.

MCL Build Options

You can build MCL with different configurations with the options listed in the table below:

Variable Default Value Description
MCL_STATICLIB OFF If set to ON, MCL components are built as static library.
MCL_DOC OFF If set to ON, MCL reference documentation is also built.
MCL_TEST OFF If set to ON and if ruby is found in path MCL is built with tests.
MCL_CONNECTIVITY ON If set to ON, MCL Connectivity component will also be built.
MCL_DATA_LAKE ON If set to ON, MCL Data Lake component will also be built.
MCL_DEPLOYMENT ON If set to ON, MCL Deployment component will also be built.
MCL_CRYPTO "openssl" See "Replacing MCL Modules" section.
MCL_HTTP_CLIENT "curl" See "Replacing MCL Modules" section.
MCL_FILE_UTIL "standard" See "Replacing MCL Modules" section.
MCL_MEMORY "standard" See "Replacing MCL Modules" section.
MCL_LOG_LEVEL MCL_LOG_LEVEL_INFO MCL logging level. See MCL Logging section.

MCL Logging

MCL logging level can be configured when building MCL by setting MCL_LOG_LEVEL option to one of the values listed in the table below:

MCL Logging Level Description
MCL_LOG_LEVEL_VERBOSE Extensive details of operation are logged together with MCL_LOG_LEVEL_DEBUG level logs.
MCL_LOG_LEVEL_DEBUG Diagnostically helpful information are logged together with MCL_LOG_LEVEL_INFO level logs.
MCL_LOG_LEVEL_INFO Information for the stages of operation are logged together with MCL_LOG_LEVEL_WARN level logs.
MCL_LOG_LEVEL_WARN Warnings are logged together with MCL_LOG_LEVEL_ERROR level logs.
MCL_LOG_LEVEL_ERROR Operational errors are logged together with MCL_LOG_LEVEL_FATAL level logs.
MCL_LOG_LEVEL_FATAL Only fatal errors are logged.
MCL_LOG_LEVEL_NONE Nothing is logged.

Scope of logging can be reduced in agent application code from the level set at build time but can not be extended. See reference documentation for details.

Building Custom Agent Application

MCL source code is distributed with several example agent applications. See Examples section for details. To build an example agent application, you can copy the source code of one of the examples to a directory, referred as <Custom_Agent_Project_Directory>, and create a CMakeLists.txt file in that directory with the content below:

CMAKE_MINIMUM_REQUIRED(VERSION 3.10 FATAL_ERROR)
PROJECT(CustomAgentApplication LANGUAGES C)
SET(CMAKE_C_STANDARD 99)
SET(CMAKE_C_STANDARD_REQUIRED ON)
FILE(GLOB SOURCES *.c)
LIST(APPEND AGENT_SOURCES ${SOURCES})
SET(MCL_CORE "<MCL_Install_Directory>/lib/libmcl_core.so")
SET(MCL_CONNECTIVITY "<MCL_Install_Directory>/lib/libmcl_connectivity.so")
SET(MCL_INCLUDE_DIRECTORY "<MCL_Install_Directory>/include/")

SET(AGENT_OUTPUT_DIR ${CMAKE_BINARY_DIR}/build)
SET(CMAKE_ARCHIVE_OUTPUT_DIRECTORY ${AGENT_OUTPUT_DIR})
SET(CMAKE_LIBRARY_OUTPUT_DIRECTORY ${AGENT_OUTPUT_DIR})
SET(CMAKE_RUNTIME_OUTPUT_DIRECTORY ${AGENT_OUTPUT_DIR})
ADD_EXECUTABLE(${PROJECT_NAME} ${AGENT_SOURCES})
TARGET_INCLUDE_DIRECTORIES(${PROJECT_NAME} PUBLIC ${MCL_INCLUDE_DIRECTORY})
TARGET_LINK_LIBRARIES(${PROJECT_NAME} ${MCL_CORE} ${MCL_CONNECTIVITY})

Now, you can compile your agent application by running the following commands where <Custom_Agent_Build_Directory> refers to the build directory for your project:

$ mkdir -p <Custom_Agent_Build_Directory>
$ cd <Custom_Agent_Build_Directory>
$ cmake <Custom_Agent_Project_Directory>
$ cmake --build . --clean-first

You will find agent application executable named <CustomAgentApplication> in **<Custom_Agent_Build_Directory>**.

Building MCL In Specific Environments

Although the default build tool is CMake, MCL is ported to be built as part of other SDK in specific environments. You can build MCL as part of an mbedOS application by importing MCL as a library to your application in mbedOS development environment. You can integrate MCL to Sony Spresense environment to be built together with Sony Spresense SDK by following the document Sony Spresense Guide provided with MCL source code.

Accessing Reference Documentation

You can access reference documentation online from https://developer.mindsphere.io/resources/mindconnect-lib-v4/doxygen/html/index.html. Alternatively, you can generate a local copy of the reference documentation using Doxygen.

Developing Agent Application Using MCL

For an agent application to use MCL, first step would be to initialize core configuration data structure (mcl_core_configuration_t) and set the values of configuration parameters. See mcl_core_configuration.h for details.

Core configuration data structure is then used to initialize MCL core component. The core component instance (mcl_core_t) is later used to onboard the agent, rotate keys when required and retrieve access token for connectivity services. The core component handle is also required to initialize MCL connectivity extension. See mcl_core.h for details.

To access to connectivity services, the agent must initialize MCL connectivity extension component. The connectivity extension instance (mcl_connectivity_t) is later used to exchange data. See mcl_connectivity.h for details.

The agent can exchange predefined data types or any custom data type using MCL. The predefined data types are data source configuration, timeseries, event and file. See mcl_data_source_configuration.h, mcl_timeseries.h, mcl_event.h and mcl_file.h for details on how to create and exchange predefined data types. For custom data type, see mcl_custom_data.h.

Note that, before exchanging timeseries data, data source configuration, which describes the timeseries data has to be uploaded. Then the data points in the data source configuration must be mapped to the corresponding properties of the asset. See mcl_mapping.h for data point mapping details.

Agents have the option to exchange each data item a a single or they have the option to exchange multiple data items independent of their types together in a store (**mcl_store_t). See mcl_store.h for details.

Examples

You can find agent application examples using MCL in /examples folder of each component of MCL distribution.

Example : Onboard

This example onboards an agent. Check <MCL_Source_Directory>/mcl_core/examples/onboard.c file for the implementation.

Example : Data Source Configuration Upload

This example uploads a data source configuration of the Agent. Check <MCL_Source_Directory>/mcl_connectivity/examples/dsc_upload.c file for the implementation.

Example : Data Point Mapping

This example creates mappings between the data points in the data source configuration of the Agent and the properties of the asset. Check <MCL_Source_Directory>/mcl_connectivity/examples/create_mapping.c file for the implementation.

Example : Timeseries Upload

This example agent uploads timeseries data if its data source configuration is  already uploaded and data point mappings are created. Check <MCL_Source_Directory>/mcl_connectivity/examples/timeseries_upload.c file for the implementation.

Example : File Upload

This example agent uploads a file. Check <MCL_Source_Directory>/mcl_connectivity/examples/file_upload.c file for the implementation.

Example : Event Upload

This example agent uploads an event. Check <MCL_Source_Directory>/mcl_connectivity/examples/event_upload.c file for the implementation.

Example : Store Upload

This example agent uploads a store containing file and timeseries items. Check <MCL_Source_Directory>/mcl_connectivity/examples/event_upload.c file for the implementation.

Example : Data Lake Object Upload

This example agent uploads an object to Integrated Data Lake. Check <MCL_Source_Directory>/mcl_data_lake/examples/data_lake_upload.c file for the implementation.

Example : Deployment Workflow

This example agent gets and updates deployment workflow assigned to it. Check <MCL_Source_Directory>/mcl_deployment/examples/manage_deployment.c file for the implementation.

Licensing

Please see the files called LICENSE.md and ReadMe_OSS.htm.