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159 lines
6.8 KiB
Text
159 lines
6.8 KiB
Text
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Cytoplasm (libcytoplasm)
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========================================================================
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Cytoplasm is a general-purpose C library and runtime stub for
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creating high-level (particularly networked and multi-threaded) C
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applications. It allows applications to take advantage of the speed,
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flexibility, and simplicity of the C programming language, while
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providing helpful code to perform various complex tasks. Cytoplasm
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provides high-level data structures, a basic logging facility, an
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HTTP client and server, and more.
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Cytoplasm aims not to only do one thing well, but to do many things
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good enough. The primary target of Cytoplasm is simple, yet higher
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level C applications that have to perform relatively complex tasks,
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but don't want to pull in a large number of dependencies.
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Cytoplasm is extremely opinionated on the way programs using it are
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written. It strives to create a comprehensive and tightly-integrated
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programming environment, while also maintaining C programming
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correctness. It doesn't do any macro magic or make C look like
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anything other than C. It is written entirely in C89, and depends
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only on a POSIX environment. This differentiates it from other
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general-purpose libraries that often require modern compilers and
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non-standard language and environment features. Cytoplasm is intended
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to be extremely portable and simple, while still providing some of
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the functionality expected in higher-level programming languages
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in a platform-agnostic manner. In the case of TLS, Cytoplasm wraps
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low-level TLS libraries to offer a single, unified interface to TLS
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so that programs do not have to care about the underlying
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implementation.
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Cytoplasm is probably not suitable for embedded programming. It makes
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liberal use of the heap, and while data structures are designed to
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conserve memory where possible and practical, minimal memory usage
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is not really a design goal for Cytoplasm, although Cytoplasm takes
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care not to use any more memory than it absolutely needs. Cytoplasm
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also wraps a few standard libraries with additional logic and
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checking. While this ensures better runtime safetly, this inevitably
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adds a little overhead.
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Originally a part of Telodendria (https://telodendria.io), a Matrix
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homeserver written in C, Cytoplasm was split off into its own project
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due to the desire of some Telodendria developers to use Telodendria's
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code in other projects. Cytoplasm is still a Telodendria project,
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and is maintained along side of Telodendria itself, even living in
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the same CVS module, but it is designed specifically to be distributed
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and used totally independent of Telodendria.
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The name "Cytoplasm" was chosen for a few reasons. It plays off the
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precedent set up by the Matrix organization in naming projects after
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the parts of a neuron. It also speaks to the function of Cytoplasm.
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The cytoplasm of a cell is the supporting material. It is what gives
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the cell its shape, and it facilitates the movement of materials
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to the other cell parts. Likewise, Cytoplasm aims to provide a
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support mechanism for C applications that have to perform complex
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tasks.
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Cytoplasm also starts with a C, which I think is a nice touch for C
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libraries. It's also fun to say and unique enough that searching for
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"libcytoplasm" should bring you to this project and not some other
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one.
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Building
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------------------------------------------------------------------------
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If your operating system or software distribution provides a pre-built
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package of Cytoplasm, you should prefer to use that instead of
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building it from source.
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Cytoplasm aims to have zero dependencies beyond what is mandated
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by POSIX. You only need the standard math and pthread libraries to
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build it. TLS support can optionally be enabled by setting the
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TLS_IMPL environment variable. The supported TLS implementations
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are as follows:
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* OpenSSL
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* LibreSSL
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If TLS support is not enabled, all APIs that use it should fall
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back to non-TLS behavior in a sensible manner. For example, if TLS
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support is not enabled, then the HTTP client API will simply return
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an error if a TLS connection is requested.
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Cytoplasm uses a custom build script instead of Make, for the sake
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of portability. To build everything, just run the script:
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$ sh make.sh
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This will produce the following out/ directory:
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out/
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lib/
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libcytoplasm.so - The Cytoplasm shared library.
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libcytoplasm.a - The Cytoplasm static library.
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cytoplasm.o - The Cytoplasm runtime stub.
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bin/
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hdoc - The documentation generator tool.
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man/ - All Cytoplasm API documentation.
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Usage
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------------------------------------------------------------------------
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Cytoplasm provides the typical .so and .a files, which can be used
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to link programs with it in the usual way. However, Cytoplasm also
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provides a minimal runtime environment that is intended to be used
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with the library. As such, it also provides a runtime stub, which
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is intended to be linked in with programs using Cytoplasm. This
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stub is responsible for setting up and tearing down some Cytoplasm
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APIs. While it isn't required by any means, it makes Cytoplasm a
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lot easier to use for programmers by abstracting out all of the
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common logic that most programs will want to use.
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Here is the canonical Hello World written with Cytoplasm:
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#include <Log.h>
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int Main(void)
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{
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Log(LOG_INFO, "Hello World!");
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return 0;
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}
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If this file is Hello.c, then you can compile it by doing something
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like this:
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$ cc -o hello Hello.c cytoplasm.o -lcytoplasm
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This command assumes that the runtime stub resides in the current
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working directory, and that libcytoplasm.so is in your library path.
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If you're using the version of Cytoplasm installed by your operating
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system or software distribution, consult the documentation for the
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location of the runtime stub. It may be located in
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/usr/local/libexec or some other similar location. If you've built
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Cytoplasm from source and wish to link to it from there, you may wish
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to do something like this:
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$ export CYTOPLASM=/path/to/Cytoplasm/out/lib
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$ cc -o hello Hello.c "${CYTOPLASM}/cytoplasm.o" \
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"-L${CYTOPLASM}" -lcytoplasm
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As you may have noticed, C programs using Cytoplasm's runtime stub
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don't write the main() function. Instead, they use Main(). The main()
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function is provided by the runtime stub. The full form of Main()
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expected by the stub is as follows:
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int Main(Array *args, HashMap *env);
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The first argument is a Cytoplasm array of the command line
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arguments, and the second is a Cytoplasm hash map of environment
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variables. Most linkers will let programs omit the env argument,
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or both arguments if you don't need either. The return value of
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Main() is returned to the operating system.
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Note that both arguments to Main may be treated like any other
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array or hash map. However, do not invoke ArrayFree() or HashMapFree()
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on the passed pointers, because memory is cleaned up after Main()
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returns.
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