gojimmypi 4cce3db0d5 remove trailing exit code | 1 hónapja | |
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examples | 1 hónapja | |
libs | 3 hónapja | |
test | 2 hónapja | |
README.md | 2 hónapja | |
README_32se.md | 2 hónapja | |
UPDATE.md | 1 éve | |
compileAllExamples.sh | 4 hónapja | |
dummy_config_h | 5 hónapja | |
dummy_test_paths.h | 8 hónapja | |
setup.sh | 1 hónapja | |
setup_win.bat | 1 éve | |
user_settings.h | 1 hónapja |
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.
Included are the following examples:
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.
sdkconfig.h
The Espressif sdkconfig.h
, generated automatically from your sdkconfig
file at build
time, should be included before any other files.
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.
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.
There are various methods available for using wolfSSL as a component:
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"
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.
This is an alternate method for installation. It is recommended to use the new CMakeLists.txt
to point to wolfSSL source code.
setup.sh
at /path/to/wolfssl/IDE/Espressif/ESP-IDF/
to deploy files into ESP-IDF tree/esp-idf/components/wolfssl/
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
This is an alternate method for installation. It is recommended to use the new CMakeLists.txt
to point to wolfSSL source code.
setup_win.bat
at .\IDE\Espressif\ESP-IDF\
/esp-idf/components/wolfssl/
/esp-idf/examples/protocols/wolfssl_xxx
(where xxx is the project name)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.
C:\SysGCC\esp32\esp-idf>git clone -b v5.0.2 --recursive https://github.com/espressif/esp-idf.git v5.0.2
user_settings.h
can be found in [project]/components/wolfssl/include/user_settings.h
.user_settings.h
can be found in /path/to/esp/esp-idf/components/wolfssl/include/user_settings.h
For question please email [support@wolfssl.com]
Note: This is tested with :
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
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}"