gojimmypi 4cce3db0d5 remove trailing exit code há 2 semanas atrás
..
examples 34298e8ada More spelling fixes há 4 semanas atrás
libs a3fb5029f8 clean up trailing whitespace and misplaced CRLFs, add missing final newlines, remove stray UTF8 nonprintables (BOMs) and ASCIIfy stray homoglyphs (spaces and apostrophes), guided by expanded coverage in wolfssl-multi-test check-source-text. há 2 meses atrás
test a13f48aea0 Update Espressif Examples há 1 mês atrás
README.md a13f48aea0 Update Espressif Examples há 1 mês atrás
README_32se.md a13f48aea0 Update Espressif Examples há 1 mês atrás
UPDATE.md 54f2d56300 ssl.c: Move out crypto compat APIs há 1 ano atrás
compileAllExamples.sh 1c68da282c portability enhancement: use "#!/usr/bin/env <interpreter>" on all perl scripts and shell scripts that use bash extensions, and use "#!/bin/sh" on the rest. há 3 meses atrás
dummy_config_h 31a6a2bf59 update copyright to 2024 há 4 meses atrás
dummy_test_paths.h 5cab707d8e Update Espressif Examples and Libraries há 7 meses atrás
setup.sh 4cce3db0d5 remove trailing exit code há 2 semanas atrás
setup_win.bat 50752f5a2b Fix typos found by codespell há 1 ano atrás
user_settings.h b8253ac4c5 Final set of spelling fixes há 4 semanas atrás

README.md

ESP-IDF Port

These Espressif examples have been created and tested with the latest stable release branch of ESP-IDF v5.2, v5.3 and the master branch

The prior version 4.4 ESP-IDF is still supported, however version 5.2 or greater is recommended. Espressif has a list of all ESP-IDF versions.

See the latest Espressif Migration Guides.

Examples

Included are the following examples:

Important Usage Details

The wolfSSL code specific to the Espressif ESP-IDF development framework is gated in code with the WOLFSSL_ESPIDF definition. This is enabled automatically when the WOLFSSL_USER_SETTINGS is defined. The recommended method is to have this line in the main CMakeLists.txt file as shown in the example:

set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -DWOLFSSL_USER_SETTINGS")

When defining WOLFSSL_USER_SETTINGS, this tells the settings.h file to looks for the wolfSSL user_settings.h in the project as described below.

File: sdkconfig.h

The Espressif sdkconfig.h, generated automatically from your sdkconfig file at build time, should be included before any other files.

File: user_settings.h

The user_settings.h file enables some of the hardened security settings. There are also some default configuration items in the wolfssl settings.h. With the latest version of wolfSSL, some of these defaults can be disabled with NO_ESPIDF_DEFAULT and customized in your project user_settings.h as desired.

The user_settings.h include file should not be explicitly included in an project source files. Be sure to include settings.h (which pulls in user_settings.h) before any other wolfSSL include files.

A new project should also include a compiler option suc as CFLAGS +=-DWOLFSSL_USER_SETTINGS" to ensure the user_settings.h is included properly. See the template example.

#ifdef WOLFSSL_USER_SETTINGS
    #include <wolfssl/wolfcrypt/settings.h>
    #ifndef WOLFSSL_ESPIDF
        #warning "Problem with wolfSSL user_settings."
        #warning "Check components/wolfssl/include"
    #endif
    #include <wolfssl/wolfcrypt/port/Espressif/esp32-crypt.h>
#else
    /* Define WOLFSSL_USER_SETTINGS project wide for settings.h to include   */
    /* wolfSSL user settings in ./components/wolfssl/include/user_settings.h */
    #error "Missing WOLFSSL_USER_SETTINGS in CMakeLists or Makefile:\
    CFLAGS +=-DWOLFSSL_USER_SETTINGS"
#endif

See the respective project directory:

[project-dir]/components/wolfssl/user_settings.h

A typical project will not directly reference the user_settings.h file. Here's an example to be included at the top of a given source file:

/* ESP-IDF */
#include <esp_log.h>
#include "sdkconfig.h"

/* wolfSSL */
#include <wolfssl/wolfcrypt/settings.h> /* references user_settings.h */
/* Do not explicitly include wolfSSL user_settings.h */
#include <wolfssl/version.h>
#include <wolfssl/wolfcrypt/port/Espressif/esp32-crypt.h>

Prior versions of the wolfSSL Espressif library expected the user_settings.h to be in the root wolfssl folder in a directory called /include. This method, while possible, is no longer recommended.

Be sure to not have a user_settings.h in both the local project and the wolfssl include directories.

File: wolfssl/wolfcrypt/settings.h

The wolfSSL built-in settings.h references your project user_settings.h. The settings.h should not be edited directly. Any wolfSSL settings should be adjusted in your local project user_settings.h file.

The settings.h has some SoC-target-specific settings, so be sure to #include "sdkconfig.h" at the beginning of your source code, particularly before the #include <wolfssl/wolfcrypt/settings.h> line.

Requirements

  1. ESP-IDF development framework

wolfSSL as an Espressif component

There are various methods available for using wolfSSL as a component:

  • Managed Component - easiest to get started.
  • Local component directory - best for development.
  • Install locally - least flexible, but project is fully self-contained.

Espressif Managed Components

Visit https://www.wolfssl.com/wolfssl-now-available-in-espressif-component-registry/ and see the instructions. Typically:

idf.py add-dependency "wolfssl/wolfssl^5.6.0-stable"

Standard local component:

See the template example. Simply created a wolfssl directory in the local project components directory and place the CMakeLists.txt file there. Then add a components/wolfssl/include directory and place the user_settings.h file there. If wolfSSL is in a structure such as ./workspace/wolfssl with respect to your project at ./workspace/wolfssl, then the cmake file should automatically find the wolfSSL source code. Otherwise set the cmake WOLFSSL_ROOT variable in the top-level CMake file. Examples:

    set(WOLFSSL_ROOT  "C:/some-path/wolfssl")
    set(WOLFSSL_ROOT  "c:/workspace/wolfssl-[username]")
    set(WOLFSSL_ROOT  "/mnt/c/somepath/wolfssl")

See the specific examples for additional details.

Setup for Linux (wolfSSL local copy)

This is an alternate method for installation. It is recommended to use the new CMakeLists.txt to point to wolfSSL source code.

  1. Run setup.sh at /path/to/wolfssl/IDE/Espressif/ESP-IDF/ to deploy files into ESP-IDF tree
  2. Find Wolfssl files at /path/to/esp/esp-idf/components/wolfssl/
  3. Find Example Programs under /path/to/esp/esp-idf/examples/protocols/wolfssl_xxx (where xxx is the project name)

    WRK_IDF_PATH=/mnt/c/SysGCC/esp32/esp-idf/v5.2
    . $WRK_IDF_PATH/export.sh
    
    ./setup.sh
    

Setup for Windows

This is an alternate method for installation. It is recommended to use the new CMakeLists.txt to point to wolfSSL source code.

  1. Run ESP-IDF Command Prompt (cmd.exe) or Run ESP-IDF PowerShell Environment
  2. Run setup_win.bat at .\IDE\Espressif\ESP-IDF\
  3. Find Wolfssl files at /path/to/esp/esp-idf/components/wolfssl/
  4. Find Example programs under /path/to/esp/esp-idf/examples/protocols/wolfssl_xxx (where xxx is the project name)

Setup for VisualGDB

See the local project ./VisualGDB for sample project files. For single-step JTAG debugging on boards that do not have a built-in JTAG port, the wolfSSL examples use the open source Tigard board.

See also the gojimmypi blog on using the Tigard to JTAG debug the ESP32.

Clone a specific version:

C:\SysGCC\esp32\esp-idf>git clone -b v5.0.2 --recursive https://github.com/espressif/esp-idf.git v5.0.2

Configuration

  1. The user_settings.h can be found in [project]/components/wolfssl/include/user_settings.h.

Configuration (Legacy IDF install)

  1. The user_settings.h can be found in /path/to/esp/esp-idf/components/wolfssl/include/user_settings.h

Build examples

  1. See README in each example folder.

Support

For question please email [support@wolfssl.com]

Note: This is tested with :

  • OS: Ubuntu 20.04.3 LTS
  • Microsoft Windows 10 Pro 10.0.19041 / Windows 11 Pro 22H2 22621.2715
  • Visual Studio 2022 17.7.6 with VisualGDB 5.6R9 (build 4777)
  • WSL 1 Ubuntu 22.04.3 LTS
  • ESP-IDF: ESP-IDF v5.2
  • SoC Module : all those supported in ESP-IDF v5.2

JTAG Debugging Notes

All of the examples are configured to use either the on-board JTAG (when available) or the open source Tigard multi-protocol tool for hardware hacking.

VisualGDB users should find the configuration file in the interface\ftdi directory:

C:\Users\%USERNAME%\AppData\Local\VisualGDB\EmbeddedDebugPackages\com.sysprogs.esp32.core\share\openocd\scripts\interface\ftdi

For reference, the tigard.cfg looks like this:

# SPDX-License-Identifier: GPL-2.0-or-later
#
# Tigard: An FTDI FT2232H-based multi-protocol tool for hardware hacking.
# https://github.com/tigard-tools/tigard

adapter driver ftdi

ftdi device_desc "Tigard V1.1"
ftdi vid_pid 0x0403 0x6010

ftdi channel 1

ftdi layout_init 0x0038 0x003b
ftdi layout_signal nTRST -data 0x0010
ftdi layout_signal nSRST -data 0x0020

# This board doesn't support open-drain reset modes since its output buffer is
# always enabled.
reset_config srst_push_pull trst_push_pull

Windows long paths

Check "Long Paths Enabled" in Windows registry.

Please set registry HKLM\SYSTEM\CurrentControlSet\Control\FileSystem\LongPathsEnabled to 1.

The operation requires Administrator privileges. Command:

powershell -Command "&{ Start-Process -FilePath reg 'ADD HKLM\SYSTEM\CurrentControlSet\Control\FileSystem /v LongPathsEnabled /t REG_DWORD /d 1 /f' -Verb runAs}"