@ -27,11 +27,33 @@ On Linux you need to check-out and compile the `leechcore_ft601_driver_linux` pr
More information about these requirements can be found in the [LeechCore-Plugins](https://github.com/ufrisk/LeechCore-plugins) repository.
### Using the install script
### Running the example
To run the example simply execute:
```cargo run --example read_phys --release -- FPGA```
On Linux the example binary will be ran with `sudo -E` to elevate privileges.
Since the invoked binary is placed in the `target/release/examples` or `/target/debug/examples` folder the `leechcore_ft601_driver_linux.so` has to be placed in the corresponding folder.
On Windows the `FTD3XX.dll` has to be placed in the corresponding examples folder as well.
### Installing the library
The `./install.sh` script will just compile and install the plugin.
The connector will be installed to `~/.local/lib/memflow` by default.
Additionally the `--system` flag can be specified which will install the connector in /usr/lib/memflow as well.
Additionally the `--system` flag can be specified which will install the connector in `/usr/lib/memflow` as well.
Remarks: The `install.sh` script does currently not place the `leechcore_ft601_driver_linux.so` / `FTD3XX.dll` in the corresponding folders. Please make sure to provide it manually.
### Building the stand-alone connector for dynamic loading
The stand-alone connector of this library is feature-gated behind the `inventory` feature.
To compile a dynamic library for use with the connector inventory use the following command:
```cargo build --release --all-features```
As mentioned above the `leechcore_ft601_driver_linux.so` or `FTD3XX.dll` have to be placed in the same folder the connector library is placed in.
### Using the library in a rust project
@ -41,21 +63,23 @@ To use the plugin in a rust project just include it in your Cargo.toml
ko1N
4 years ago