OWEALs
/
wolfssl
kopia lustrzana https://github.com/wolfSSL/wolfssl.git


			
				
					
						
						
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							0. Building on *nix from git repository

    Run the autogen script to generate configure, then proceed to step 1.
    Prerequisites: You'll need autoconf, automake and libtool installed.

    $ ./autogen.sh

1. Building on *nix from a release

    $ ./configure
    $ make
    $ make check   # (optional, but highly recommended)
    $ sudo make install

2. Building on iOS

    Use on the xcode project in IDE/iOS/wolfssl.xcodeproj
    There is a README in IDE/iOS with more information

3. Building for Apple ARM64

    When building for an Apple ARM64 platform, ensure the host CPU type is detected as "aarch64" during configure, if not, pass --host=aarch64-apple-darwin to configure.

4. Building on Windows

    Use the 32bit Visual Studio Solution wolfssl.sln
    For a 64bit solution please use wolfssl64.sln

5. Building with IAR

    Please see the README in IDE/IAR-EWARM for detailed instructions

6. Building with Keil

    Please see the Keil Projects in IDE/MDK5-ARM/Projects

7. Building with Microchip tools

    Please see the README in mplabx

8. Building with Freescale MQX

    Please see the README in mqx

9. Building with Rowley CrossWorks for ARM

    Use the CrossWorks project in IDE/ROWLEY-CROSSWORKS-ARM/wolfssl.hzp
    There is a README.md in IDE/ROWLEY-CROSSWORKS-ARM with more information

10. Building with Arduino

    Use the script IDE/ARDUINO/wolfssl-arduino.sh to reformat the wolfSSL
    library for compatibility with the Arduino IDE. There is a README.md in
    IDE/ARDUINO for detailed instructions.

11. Building for Android with Visual Studio 2017

    Please see the README in IDE/VS-ARM.
    Use the Visual Studio solution IDE/VS-ARM/wolfssl.sln.

12. Building for Yocto Project or OpenEmbedded

    Please see the README in the "meta-wolfssl" repository. This repository
    holds wolfSSL's Yocto and OpenEmbedded layer, which contains recipes
    for wolfSSL, wolfSSH, wolfMQTT, wolfTPM, wolfCrypt examples, and OSS
    project bbappend files.

    https://github.com/wolfssl/meta-wolfssl

    The wolfSSL recipe can also be found in the OpenEmbedded
    "meta-openembedded/meta-networking/recipes-connectivity" layer:

    https://github.com/openembedded/meta-openembedded

13. Porting to a new platform

    Please see section 2.4 in the manual:
    http://www.wolfssl.com/yaSSL/Docs-cyassl-manual-2-building-cyassl.html

14. Building with CMake
    Note: Primary development uses automake (./configure). The support for CMake
    is still under development.

    For configuring wolfssl using CMake, we recommend downloading the CMake
    GUI (https://cmake.org/download/). This tool allows you to see all of
    wolfssl's configuration variables, set them, and view their descriptions.
    Looking at the GUI or CMakeCache.txt (generated after running cmake once) is
    the best way to find out what configuration options are available and what
    they do. You can also invoke CMake from the GUI, which is described in the
    Windows instructions below. For Unix-based systems, we describe the command
    line work flow. Regardless of your chosen workflow, cmake will generate
    a header options.h in the wolfssl directory that contains the options used
    to configure the build.

    Unix-based Platforms
    ---
    1) Navigate to the wolfssl root directory containing "CMakeLists.txt".
    2) Create a directory called "build" and change into it. This is where
       CMake will store build files.
    3) Run `cmake ..` to generate the target build files (e.g. UNIX Makefiles).
       To enable or disable features, set them using -D<option>=[yes/no]. For
       example, to disable TLS 1.3 support, run cmake .. -DWOLFSSL_TLS13=no
       (autoconf equivalent: ./configure --disable-tls13) To enable DSA, run
       cmake .. -DWOLFSSL_DSA=yes (autoconf equivalent: ./configure
       --enable-dsa). Again, you can find a list of these options and their
       descriptions either using the CMake GUI or by looking at CMakeCache.txt.
    5) The build directory should now contain the generated build files. Build
       with `cmake --build .`. Under the hood, this runs the target build tool
       (by default, make). You can also invoke the target build tool directly
       (e.g. make).

       To build with debugging use: `cmake .. -DCMAKE_BUILD_TYPE=Debug`.

    Windows (Visual Studio)
    ---
    1) Go to this page, download the appropriate Windows installer, and install
       to get the CMake GUI: https://cmake.org/download/ Native CMake support in
       Visual Studio 16 2019 (and possibly older versions) has proven buggy. We
       recommend using the CMake GUI in concert with Visual Studio, as described
    in these steps.
    2) Open CMake.
    3) Where is the soure code: <root directory of wolfssl containing
       CMakeLists.txt>
    4) Where to build the binaries: <build directory, e.g. wolfssl/build>
    5) Hit Configure. CMake runs the code in CMakeLists.txt and builds up an
       internal representation of the project.
    6) Hit Generate. CMake generates the build files. For Windows, this will
       be Visual Studio project (.vcxproj) and solution (.sln) files.
    7) Open Visual Studio and select "Open a project or solution".
    8) Navigate to the build directory and select wolfssl.sln to load the
       project.

    Windows (command line)
    ---
    1) Open Command Prompt
    2) Run the Visual Studio batch to setup command line variables, e.g. C:\Program Files (x86)\Microsoft Visual   
       Studio\2017\Community\VC\Auxiliary\Build\vcvars64.bat
    3) Follow steps in "Unix-based Platforms" above.