Daniel Pouzzner 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. 2 maanden geleden
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client 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. 2 maanden geleden
server 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. 2 maanden geleden
shared bdbe0943cf Add function to print network interface and IP Address 5 jaren geleden
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user_settings.h 4eab0f1231 Fix hard coded values in TSIP ECC verify. Fix issues with tab indentation and spelling. 4 maanden geleden
wolfssl.sln 88036db223 Visual Studio Solution for Azure Sphere Devices 5 jaren geleden
wolfssl.vcxproj 9ea40f3a9c Purge IDEA cipher 2 jaren geleden

README.md

wolfSSL for Microsoft Azure Sphere Devices

Description

This directory contains the Visual Studio projects targeted for Azure Sphere. The example projects include a client, server and wolfCrypt Library Test. Each of these projects relies on the wolfSSL static library project. Each project uses user_settings.h for to enable and disable features.

Set Up Steps

  1. Setup your Azure Sphere device. Install Azure Sphere Set up an account Claim your device Configure networking

  2. Open the wolfssl Microsoft Visual Studio Solution

  3. Build All the Projects

    • Right Click: Solution 'wolfssl' (4 of 4 projects)
    • Click: Build Solution
  4. Connect your Azure Sphere MT3620 Development Board using USB.

  5. Run the wolfCrypt Library Test

    • Right Click: wolfcrypt_test (Azure Sphere)
    • Click: Debug->'Start new instance'.
  6. Wait for the wolfCrypt Library Test to finish.

  7. Test the client.

    • Run client(Azure Sphere) using: Debug->'Start new instance'

It's OK if the HTTP GET request returns an error. The TLS connection was successful.

  1. Test the server.

    • Run server(Azure Sphere) using: Debug->'Start new instance'
    • Run the following wolfSSL example client command inside wolfssl directory.

      ./examples/client/client -h "Server IP Address" -p 11111 -A ./certs/ca-cert.pem
      

Client

The client project has defines in user_settings.h for: SERVER_IP, CERT, SIZEOF_CERT, DEFAULT_PORT and msg. These are set by default to connect to www.wolfssl.com.

If CUSTOM_SERVER_CONNECTION is defined then the client would be ready to connect to a example server at an IP address of 192.168.1.200. The example server could be started with the following command:

./examples/server/server -b -d -p 11111 -c ./certs/server-cert.pem -k ./certs/server-key.pem

Server Options Explanation: -b Bind to any interface instead of localhost only -c <file> Certificate file, default ./certs/server-cert.pem -d Disable client cert check -k <file> Key file, default ./certs/server-key.pem -p <num> Port to listen on, not 0, default 11111 -? <num> Help, print this usage

This command assumes that you're in the base directory of 'wolfssl' and it has been configured and compiled on a computer with an IP address of 192.168.1.200. Change SERVER_IP under CUSTOM_SERVER_CONNECTION in user_settings.h accordingly.

If you would like to connect to a website on the internet other then www.wolfssl.com then you would need to put it's corresponding CA certificate in client.h similarly to wolfssl_website_root_ca.

The CERT and SIZEOF_CERT array could be created using the dertoc.pl script under wolfssl/scripts/dertoc.pl.

Usage Example:

./scripts/dertoc.pl ./certs/server-cert.der server_cert_der_2048 dertoc.c

You would then copy the generated output from dertoc.c into client.h and set CERT and SIZEOF_CERT accordingly inside user_settings.h. The IP address of the server to connect to also needs to be added to the client's app_manifest.json under 'AllowedConnections'. There are IP addresses in the default app_manifest.json for testing purposes and can be removed if not needed.

Server

The Server application will wait for any incoming client connections once built and uploaded to the MT3620 Development board.

The following wolfSSL example client can connect to a server on the MT3620 board:

./examples/client/client -h "Server IP Address" -p 11111 -A ./certs/ca-cert.pem

Client Options Explanation: -A <file> Certificate Authority file, default ./certs/ca-cert.pem -h <host> Host to connect to, default 127.0.0.1 -p <num> Port to listen on, not 0, default 11111 -? <num> Help, print this usage

wolfCrypt Test

This tests the wolfCrypt Library. This is a good test to run if you change the options in user_settings.h.

Troubleshooting

  • Ensure your Azure Sphere MT3620 Development Board was set up using the instructions using the Azure Sphere Documentation (See Link Below). This includes claiming your device, updating device, setting up networking, and prepping for debug.

  • The commands for the example client/server assumes it is being run from the base directory of wolfssl.

Azure Sphere Documentation

Support Forum

Support Email

Resources

wolfSSL Website

wolfSSL Wiki

wolfSSL Manual

wolfSSL API Reference

wolfCrypt API Reference

TLS 1.3