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docs/librclone: document use from C/C++ on Windows
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@ -4,13 +4,19 @@ This directory contains code to build rclone as a C library and the
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shims for accessing rclone from C and other languages.
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shims for accessing rclone from C and other languages.
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**Note** for the moment, the interfaces defined here are experimental
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**Note** for the moment, the interfaces defined here are experimental
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and may change in the future. Eventually they will stabilse and this
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and may change in the future. Eventually they will stabilise and this
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notice will be removed.
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notice will be removed.
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## C
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## C
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The shims are a thin wrapper over the rclone RPC.
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The shims are a thin wrapper over the rclone RPC.
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The implementation is based on cgo; to build it you need Go and a GCC compatible
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C compiler (GCC or Clang). On Windows you can use the MinGW port of GCC,
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installing it via the [MSYS2](https://www.msys2.org) distribution is recommended
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(make sure you install GCC in the classic mingw64 subsystem, the ucrt64 version
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is not compatible with cgo).
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Build a shared library like this:
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Build a shared library like this:
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go build --buildmode=c-shared -o librclone.so github.com/rclone/rclone/librclone
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go build --buildmode=c-shared -o librclone.so github.com/rclone/rclone/librclone
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@ -20,9 +26,12 @@ Build a static library like this:
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go build --buildmode=c-archive -o librclone.a github.com/rclone/rclone/librclone
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go build --buildmode=c-archive -o librclone.a github.com/rclone/rclone/librclone
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Both the above commands will also generate `librclone.h` which should
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Both the above commands will also generate `librclone.h` which should
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be `#include`d in `C` programs wishing to use the library.
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be `#include`d in `C` programs wishing to use the library (with some
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[exceptions](#include-file)).
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The library will depend on `libdl` and `libpthread`.
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The library will depend on `libdl` and `libpthread` on Linux/macOS, unless
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linking with a C standard library where their functionality is integrated,
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which is the case for glibc version 2.34 and newer.
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### Documentation
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### Documentation
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@ -33,9 +42,114 @@ For documentation see the Go documentation for:
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- [RcloneRPC](https://pkg.go.dev/github.com/rclone/rclone/librclone#RcloneRPC)
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- [RcloneRPC](https://pkg.go.dev/github.com/rclone/rclone/librclone#RcloneRPC)
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- [RcloneFreeString](https://pkg.go.dev/github.com/rclone/rclone/librclone#RcloneFreeString)
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- [RcloneFreeString](https://pkg.go.dev/github.com/rclone/rclone/librclone#RcloneFreeString)
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### C Example
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### Linux C example
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There is an example program `ctest.c` with `Makefile` in the `ctest` subdirectory.
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There is an example program `ctest.c`, with `Makefile`, in the `ctest`
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subdirectory. It can be built on Linux/macOS, but not Windows without
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changes - as described next.
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### Windows C/C++ guidelines
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The official [C example](#linux-c-example) is targeting Linux/macOS, and will
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not work on Windows. It is very possible to use `librclone` from a C/C++
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application on Windows, but there are some pitfalls that you can avoid by
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following these guidelines:
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- Build `librclone` as shared library, and use run-time dynamic linking (see [linking](#linking)).
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- Do not try to unload the library with `FreeLibrary` (see [unloading](#unloading)).
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- Deallocate returned strings with API function `RcloneFreeString` (see [memory management](#memory-management)).
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- Define struct `RcloneRPCResult`, instead of including `librclone.h` (see [include file](#include-file)).
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- Use UTF-8 encoded strings (see [encoding](#encoding)).
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- Properly escape JSON strings, beware of the native path separator (see [escaping](#escaping)).
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#### Linking
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Use of different compilers, compiler versions, build configuration, and
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dependency on different C runtime libraries for a library and the application
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that references it, may easily break compatibility. When building the librclone
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library with MinGW GCC compiler (via go build command), if you link it into an
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application built with Visual C++ for example, there will be more than enough
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differences to cause problems.
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Linking with static library requires most compatibility, and is less likely to
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work. Linking with shared library is therefore recommended. The library exposes
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a plain C interface, and by using run-time dynamic linking (by using Windows API
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functions `LoadLibrary` and `GetProcAddress`), you can make a boundary that
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ensures compatibility (and in any case, you will not have an import library).
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The only remaining concern is then memory allocations; you should make sure
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memory is deallocated in the same library where it was allocated, as explained
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[below](#memory-management).
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#### Unloading
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Do not try to unload the library with `FreeLibrary`, when using run-time dynamic
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linking. The library includes Go-specific runtime components, with garbage
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collection and other background threads, which do not handle unloading. Trying
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to call `FreeLibrary` will crash the application. I.e. after you have loaded
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`librclone.dll` into your application it must stay loaded until your application
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exits.
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#### Memory management
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The output string returned from `RcloneRPC` is allocated within the `librclone`
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library, and caller is responsible for freeing the memory. Due to C runtime
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library differences, as mentioned [above](#linking), it is not recommended to do
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this by calling `free` from the consuming application. You should instead use
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the API function `RcloneFreeString`, which will call `free` from within the
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`librclone` library, using the same runtime that allocated it in the first
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place.
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#### Include file
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Do not include `librclone.h`. It contains some plain C, golang/cgo and GCC
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specific type definitions that will not compile with all other compilers
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without adjustments, where Visual C++ is one notable example. When using
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run-time dynamic linking, you have no use of the extern declared functions
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either.
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The interface of librclone is so simple, that all you need is to define the
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small struct `RcloneRPCResult`, from [librclone.go](librclone.go):
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```C++
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struct RcloneRPCResult {
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char* Output;
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int Status;
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};
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```
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#### Encoding
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The API uses plain C strings (type `char*`, called "narrow" strings), and rclone
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assumes content is UTF-8 encoded. On Linux systems this normally matches the
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standard string representation, and no special considerations must be made. On
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Windows it is more complex.
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On Windows, narrow strings are traditionally used with native non-Unicode
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encoding, the so-called ANSI code page, while Unicode strings are instead
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represented with the alternative `wchar_t*` type, called "wide" strings, and
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encoded as UTF-16. This means, to correctly handle characters that are encoded
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differently in UTF-8, you will need to perform conversion at some level:
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Conversion between UTF-8 encoded narrow strings used by rclone, and either ANSI
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encoded narrow strings or wide UTF-16 encoded strings used in runtime function,
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Windows API, third party APIs, etc.
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#### Escaping
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The RPC method takes a string containing JSON. In addition to the normal
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escaping of strings constants in your C/C++ source code, the JSON needs its
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own escaping. This is not a Windows-specific issue, but there is the
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additional challenge that native filesystem path separator is the same as
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the escape character, and you may end up with strings like this:
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```C++
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const char* input = "{"
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"\"fs\": \"C:\\\\Temp\","
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"\"remote\": \"sub/folder\","
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"\"opt\": \"{\\\"showHash\\\": true}\""
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"}";
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```
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With C++11 you can use raw string literals to avoid the C++ escaping of string
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constants, leaving escaping only necessary for the contained JSON.
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## gomobile
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## gomobile
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