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  • Hash : d97423eb
    Author : Sam Lantinga
    Date : 2023-06-18T12:19:54

    Fixed DualSense controllers not being picked up by the HIDAPI driver The hidraw device may take additional time to get the correct permissions for us to open it. In my tests on Steam Deck hardware, this ranges between 5-8ms. (cherry picked from commit c6ee9780df4286f66c38f3fa9732daa9afe0a8a3)

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  • README.txt

  •          HIDAPI library for Windows, Linux, FreeBSD and Mac OS X
            =========================================================
    
    About
    ======
    
    HIDAPI is a multi-platform library which allows an application to interface
    with USB and Bluetooth HID-Class devices on Windows, Linux, FreeBSD, and Mac
    OS X.  HIDAPI can be either built as a shared library (.so or .dll) or
    can be embedded directly into a target application by adding a single source
    file (per platform) and a single header.
    
    HIDAPI has four back-ends:
    	* Windows (using hid.dll)
    	* Linux/hidraw (using the Kernel's hidraw driver)
    	* Linux/libusb (using libusb-1.0)
    	* FreeBSD (using libusb-1.0)
    	* Mac (using IOHidManager)
    
    On Linux, either the hidraw or the libusb back-end can be used. There are
    tradeoffs, and the functionality supported is slightly different.
    
    Linux/hidraw (linux/hid.c):
    This back-end uses the hidraw interface in the Linux kernel.  While this
    back-end will support both USB and Bluetooth, it has some limitations on
    kernels prior to 2.6.39, including the inability to send or receive feature
    reports.  In addition, it will only communicate with devices which have
    hidraw nodes associated with them.  Keyboards, mice, and some other devices
    which are blacklisted from having hidraw nodes will not work. Fortunately,
    for nearly all the uses of hidraw, this is not a problem.
    
    Linux/FreeBSD/libusb (libusb/hid.c):
    This back-end uses libusb-1.0 to communicate directly to a USB device. This
    back-end will of course not work with Bluetooth devices.
    
    HIDAPI also comes with a Test GUI. The Test GUI is cross-platform and uses
    Fox Toolkit (http://www.fox-toolkit.org).  It will build on every platform
    which HIDAPI supports.  Since it relies on a 3rd party library, building it
    is optional but recommended because it is so useful when debugging hardware.
    
    What Does the API Look Like?
    =============================
    The API provides the the most commonly used HID functions including sending
    and receiving of input, output, and feature reports.  The sample program,
    which communicates with a heavily hacked up version of the Microchip USB
    Generic HID sample looks like this (with error checking removed for
    simplicity):
    
    #ifdef WIN32
    #include <windows.h>
    #endif
    #include <stdio.h>
    #include <stdlib.h>
    #include "hidapi.h"
    
    #define MAX_STR 255
    
    int main(int argc, char* argv[])
    {
    	int res;
    	unsigned char buf[65];
    	wchar_t wstr[MAX_STR];
    	hid_device *handle;
    	int i;
    
    	// Initialize the hidapi library
    	res = hid_init();
    
    	// Open the device using the VID, PID,
    	// and optionally the Serial number.
    	handle = hid_open(0x4d8, 0x3f, NULL);
    
    	// Read the Manufacturer String
    	res = hid_get_manufacturer_string(handle, wstr, MAX_STR);
    	wprintf(L"Manufacturer String: %s\n", wstr);
    
    	// Read the Product String
    	res = hid_get_product_string(handle, wstr, MAX_STR);
    	wprintf(L"Product String: %s\n", wstr);
    
    	// Read the Serial Number String
    	res = hid_get_serial_number_string(handle, wstr, MAX_STR);
    	wprintf(L"Serial Number String: (%d) %s\n", wstr[0], wstr);
    
    	// Read Indexed String 1
    	res = hid_get_indexed_string(handle, 1, wstr, MAX_STR);
    	wprintf(L"Indexed String 1: %s\n", wstr);
    
    	// Toggle LED (cmd 0x80). The first byte is the report number (0x0).
    	buf[0] = 0x0;
    	buf[1] = 0x80;
    	res = hid_write(handle, buf, 65);
    
    	// Request state (cmd 0x81). The first byte is the report number (0x0).
    	buf[0] = 0x0;
    	buf[1] = 0x81;
    	res = hid_write(handle, buf, 65);
    
    	// Read requested state
    	res = hid_read(handle, buf, 65);
    
    	// Print out the returned buffer.
    	for (i = 0; i < 4; i++)
    		printf("buf[%d]: %d\n", i, buf[i]);
    
    	// Finalize the hidapi library
    	res = hid_exit();
    
    	return 0;
    }
    
    If you have your own simple test programs which communicate with standard
    hardware development boards (such as those from Microchip, TI, Atmel,
    FreeScale and others), please consider sending me something like the above
    for inclusion into the HIDAPI source.  This will help others who have the
    same hardware as you do.
    
    License
    ========
    HIDAPI may be used by one of three licenses as outlined in LICENSE.txt.
    
    Download
    =========
    HIDAPI can be downloaded from github
    	git clone git://github.com/libusb/hidapi.git
    
    Build Instructions
    ===================
    
    This section is long. Don't be put off by this. It's not long because it's
    complicated to build HIDAPI; it's quite the opposite.  This section is long
    because of the flexibility of HIDAPI and the large number of ways in which
    it can be built and used.  You will likely pick a single build method.
    
    HIDAPI can be built in several different ways. If you elect to build a
    shared library, you will need to build it from the HIDAPI source
    distribution.  If you choose instead to embed HIDAPI directly into your
    application, you can skip the building and look at the provided platform
    Makefiles for guidance.  These platform Makefiles are located in linux/
    libusb/ mac/ and windows/ and are called Makefile-manual.  In addition,
    Visual Studio projects are provided.  Even if you're going to embed HIDAPI
    into your project, it is still beneficial to build the example programs.
    
    
    Prerequisites:
    ---------------
    
    	Linux:
    	-------
    	On Linux, you will need to install development packages for libudev,
    	libusb and optionally Fox-toolkit (for the test GUI). On
    	Debian/Ubuntu systems these can be installed by running:
    	    sudo apt-get install libudev-dev libusb-1.0-0-dev libfox-1.6-dev
    
    	If you downloaded the source directly from the git repository (using
    	git clone), you'll need Autotools:
    	    sudo apt-get install autotools-dev autoconf automake libtool
    
    	FreeBSD:
    	---------
    	On FreeBSD you will need to install GNU make, libiconv, and
    	optionally Fox-Toolkit (for the test GUI). This is done by running
    	the following:
    	    pkg_add -r gmake libiconv fox16
    
    	If you downloaded the source directly from the git repository (using
    	git clone), you'll need Autotools:
    	    pkg_add -r autotools
    
    	Mac:
    	-----
    	On Mac, you will need to install Fox-Toolkit if you wish to build
    	the Test GUI. There are two ways to do this, and each has a slight
    	complication. Which method you use depends on your use case.
    
    	If you wish to build the Test GUI just for your own testing on your
    	own computer, then the easiest method is to install Fox-Toolkit
    	using ports:
    		sudo port install fox
    
    	If you wish to build the TestGUI app bundle to redistribute to
    	others, you will need to install Fox-toolkit from source.  This is
    	because the version of fox that gets installed using ports uses the
    	ports X11 libraries which are not compatible with the Apple X11
    	libraries.  If you install Fox with ports and then try to distribute
    	your built app bundle, it will simply fail to run on other systems.
    	To install Fox-Toolkit manually, download the source package from
    	http://www.fox-toolkit.org, extract it, and run the following from
    	within the extracted source:
    		./configure && make && make install
    
    	Windows:
    	---------
    	On Windows, if you want to build the test GUI, you will need to get
    	the hidapi-externals.zip package from the download site.  This
    	contains pre-built binaries for Fox-toolkit.  Extract
    	hidapi-externals.zip just outside of hidapi, so that
    	hidapi-externals and hidapi are on the same level, as shown:
    
    	     Parent_Folder
    	       |
    	       +hidapi
    	       +hidapi-externals
    
    	Again, this step is not required if you do not wish to build the
    	test GUI.
    
    
    Building HIDAPI into a shared library on Unix Platforms:
    ---------------------------------------------------------
    
    On Unix-like systems such as Linux, FreeBSD, Mac, and even Windows, using
    Mingw or Cygwin, the easiest way to build a standard system-installed shared
    library is to use the GNU Autotools build system.  If you checked out the
    source from the git repository, run the following:
    
    	./bootstrap
    	./configure
    	make
    	make install     <----- as root, or using sudo
    
    If you downloaded a source package (ie: if you did not run git clone), you
    can skip the ./bootstrap step.
    
    ./configure can take several arguments which control the build. The two most
    likely to be used are:
    	--enable-testgui
    		Enable build of the Test GUI. This requires Fox toolkit to
    		be installed.  Instructions for installing Fox-Toolkit on
    		each platform are in the Prerequisites section above.
    
    	--prefix=/usr
    		Specify where you want the output headers and libraries to
    		be installed. The example above will put the headers in
    		/usr/include and the binaries in /usr/lib. The default is to
    		install into /usr/local which is fine on most systems.
    
    Building the manual way on Unix platforms:
    -------------------------------------------
    
    Manual Makefiles are provided mostly to give the user and idea what it takes
    to build a program which embeds HIDAPI directly inside of it. These should
    really be used as examples only. If you want to build a system-wide shared
    library, use the Autotools method described above.
    
    	To build HIDAPI using the manual makefiles, change to the directory
    	of your platform and run make. For example, on Linux run:
    		cd linux/
    		make -f Makefile-manual
    
    	To build the Test GUI using the manual makefiles:
    		cd testgui/
    		make -f Makefile-manual
    
    Building on Windows:
    ---------------------
    
    To build the HIDAPI DLL on Windows using Visual Studio, build the .sln file
    in the windows/ directory.
    
    To build the Test GUI on windows using Visual Studio, build the .sln file in
    the testgui/ directory.
    
    To build HIDAPI using MinGW or Cygwin using Autotools, use the instructions
    in the section titled "Building HIDAPI into a shared library on Unix
    Platforms" above.  Note that building the Test GUI with MinGW or Cygwin will
    require the Windows procedure in the Prerequisites section above (ie:
    hidapi-externals.zip).
    
    To build HIDAPI using MinGW using the Manual Makefiles, see the section
    "Building the manual way on Unix platforms" above.
    
    HIDAPI can also be built using the Windows DDK (now also called the Windows
    Driver Kit or WDK). This method was originally required for the HIDAPI build
    but not anymore. However, some users still prefer this method. It is not as
    well supported anymore but should still work. Patches are welcome if it does
    not. To build using the DDK:
    
       1. Install the Windows Driver Kit (WDK) from Microsoft.
       2. From the Start menu, in the Windows Driver Kits folder, select Build
          Environments, then your operating system, then the x86 Free Build
          Environment (or one that is appropriate for your system).
       3. From the console, change directory to the windows/ddk_build/ directory,
          which is part of the HIDAPI distribution.
       4. Type build.
       5. You can find the output files (DLL and LIB) in a subdirectory created
          by the build system which is appropriate for your environment. On
          Windows XP, this directory is objfre_wxp_x86/i386.
    
    Cross Compiling
    ================
    
    This section talks about cross compiling HIDAPI for Linux using autotools.
    This is useful for using HIDAPI on embedded Linux targets.  These
    instructions assume the most raw kind of embedded Linux build, where all
    prerequisites will need to be built first.  This process will of course vary
    based on your embedded Linux build system if you are using one, such as
    OpenEmbedded or Buildroot.
    
    For the purpose of this section, it will be assumed that the following
    environment variables are exported.
    
    	$ export STAGING=$HOME/out
    	$ export HOST=arm-linux
    
    STAGING and HOST can be modified to suit your setup.
    
    Prerequisites
    --------------
    
    Note that the build of libudev is the very basic configuration.
    
    Build Libusb. From the libusb source directory, run:
    	./configure --host=$HOST --prefix=$STAGING
    	make
    	make install
    
    Build libudev. From the libudev source directory, run:
    	./configure --disable-gudev --disable-introspection --disable-hwdb \
    		 --host=$HOST --prefix=$STAGING
    	make
    	make install
    
    Building HIDAPI
    ----------------
    
    Build HIDAPI:
    
    	PKG_CONFIG_DIR= \
    	PKG_CONFIG_LIBDIR=$STAGING/lib/pkgconfig:$STAGING/share/pkgconfig \
    	PKG_CONFIG_SYSROOT_DIR=$STAGING \
    	./configure --host=$HOST --prefix=$STAGING
    
    
    Signal 11 Software - 2010-04-11
                         2010-07-28
                         2011-09-10
                         2012-05-01
                         2012-07-03