Azure Debugging Relay is a Visual Studio Code extension and a Python package for distributed remote debugging. It solves a problem of debugging code running in the cloud and on remote devices, simultaneously across multiple nodes and between different networks.
- Azure Debugging Relay extension on Visual Studio Marketplace
- azure-debug-relay package on PyPI
Azure Debugging Relay uses debugpy and Azure Relay service to create a debugging tunnel between 2 machines:
- Your local Visual Studio Code debugger in
listen
mode. - Your remote code in
attach
mode.
Both machines can be isolated behind NAT or virtual networks.
Azure Relay maintains a secure tunnel, just as if these VS Code and a remote process you debug are running in the same localhost
network.
Remote components can run in any cloud, local network, with or without public internet access -- all they need is to be able to connect to Azure Relay resource.
The debugging tunnel is handled by Azure Relay Bridge utility which is downloaded and installed automatically by Azure Debugging Relay. Azure Relay Bridge can maintain secure TCP and UDP tunnels for different purposes.
We currently use a private fork of Azure Relay Bridge repo.
- Python 3.6+
- debugpy 1.2.1+
- Visual Studio Code 1.34+ (for using VS Code extension)
Azure Relay Bridge tool is a .NET Core application, so you may need to install apt-transport-https
and other .NET Core 3.1 Runtime prerequisites on Linux and Windows.
You don't have to install .NET Runtime itself - Azure Relay Bridge builds are self-contained.
- Ubuntu 18+
- Debian 10+
- macOS 10+
- Windows 10
On the debugger side (usually your dev machine with Visual Studio code):
Install Azure Debugging Relay extension from Visual Studio Marketplace.
On the server side:
python3 -m pip install azure-debug-relay
Before you start debugging with Azure Debugging Relay, there are 3 places you configure it:
- Azure Portal or CLI where you create an Azure Relay resource and an Azure Hybrid Connection in it.
- Local dev machine where you run Visual Studio Code, its Python extension, and Azure Debugging Relay extension with 2 configuration settings.
- Remote machine where you run the same code files that open locally in VS Code, with 2 lines that initiate debugging session for a certain request on an execution flow.
- Create Azure Relay resource. Better make one in a region closest to your location.
- Once created, switch to the resource, and select
Hybrid Connections
option in the vertical panel. - Add a hybrid connection (
+ Hybrid Connection
button), give it a memorable name (e.g.test
๐) - this is your Hybrid Connection Name. - Switch to that new hybrid connection, then select
Shared Access Policies
in the vertical panel. - Add a new policy with
Send
andListen
permissions. - Once created, copy its
Primary Connection String
, this is your Connection String.
Choose your name instead of mydebugrelay1
for an Azure Relay resource, and your custom name for Hybrid Connection instead of debugrelayhc1
. Same applies to debugRelayResourceGroup
as resource group.
az group create --name debugRelayResourceGroup --location westus2
az relay namespace create --resource-group debugRelayResourceGroup --name mydebugrelay1 --location westus2
az relay hyco create --resource-group debugRelayResourceGroup --namespace-name mydebugrelay1 --name debugrelayhc1
az relay hyco authorization-rule create --resource-group debugRelayResourceGroup --namespace-name mydebugrelay1 --hybrid-connection-name debugrelayhc1 --name sendlisten --rights Send Listen
az relay hyco authorization-rule keys list --resource-group debugRelayResourceGroup --namespace-name mydebugrelay1 --hybrid-connection-name debugrelayhc1 --name sendlisten
Last command will show you something like this:
{
"keyName": "sendlisten",
"primaryConnectionString": "Endpoint=sb://mydebugrelay1.servicebus.windows.net/;SharedAccessKeyName=sendlisten;SharedAccessKey=REDACTED1;EntityPath=debugrelayhc1",
"primaryKey": "REDACTED1",
"secondaryConnectionString": "Endpoint=sb://mydebugrelay1.servicebus.windows.net/;SharedAccessKeyName=sendlisten;SharedAccessKey=REDACTED2;EntityPath=debugrelayhc1",
"secondaryKey": "REDACTED2"
}
Use primaryConnectionString
or secondaryConnectionString
value as your Connection String.
Hybrid Connection Name would be the one you choose instead of debugrelayhc1
.
Remote Server example (in samples/simple_demo/remote_server_demo.py
) assumes that Azure Relay credentials will are passes via .azrelay.json
file in the current directory or via environment variables. Therefore, you have 2 options:
Option 1: Create .azrelay.json
file in your workspace directory root or whatever directory will be "current",
and set 2 variables:
AZRELAY_CONNECTION_STRING
to your Connection String.AZRELAY_CONNECTION_NAME
to your Hybrid Connection Name.
For example:
{
"AZRELAY_CONNECTION_STRING": "Endpoint=sb://mydebugrelay1.servicebus.windows.net/;SharedAccessKeyName=sendlisten;SharedAccessKey=REDACTED1;EntityPath=debugrelayhc1",
"AZRELAY_CONNECTION_NAME": "debugrelayhc1"
}
Make sure you add .azrelay.json
to .gitignore
so won't be committed.
Option 2: You can assign these 2 variables as environment variables: AZRELAY_CONNECTION_STRING
and AZRELAY_CONNECTION_NAME
instead.
Use .azrelay.json
file in the root of your workspace as above or .vscode/settings.json
with the following settings (actual values are ones you have):
{
"azure-debug-relay.azrelay-connection-string": "Endpoint=sb://your-relay.servicebus.windows.net/;SharedAccessKeyName=key_name;SharedAccessKey=REDACTED;EntityPath=test",
"azure-debug-relay.azrelay-connection-name": "test",
}
Whenever Azure Debugging Relay VS Code extension detects non-empty
azure-debug-relay.hybrid-connection-string
andazure-debug-relay.hybrid-connection-name
settings (vscode/settings.json
) orAZRELAY_CONNECTION_STRING
andAZRELAY_CONNECTION_NAME
in.azrelay.json
file, it launches Azure Relay Bridge every time a debugging session with debugpy inlisten
mode is about to begin. If extension settings are not empty and.azrelay.json
is present, Azure Relay Bridge prefers values from the extension settings (vscode/settings.json
).
Visual Studio Code extension ignores AZRELAY_CONNECTION_STRING
and AZRELAY_CONNECTION_NAME
environment variables.
This step must be done on your dev machine in Visual Studio Code before launching the remote code.
- Open
remote_server_demo.py
and put a breakpoint indo_work()
function. - Makes sure your
.vscode/launch.json
hasPython: Listen 5678
configuration as in this repo's.vscode/launch.json
. - Start debugging in your local Visual Studio Code in
Python: Listen 5678
configuration.
Notice how the debugger maps paths on the local and the remote machines.
If your code has a different structure remotely, you may need to provide more sophisticated path mappings. Here is that piece in .vscode/launch.json
:
"pathMappings": [
{
"localRoot": "${workspaceFolder}",
"remoteRoot": "."
}
]
It tells VS Code that the workspace directory locally is mapped to the "current" directory remotely.
When the debugger looks goes through a file remotely, it needs to find the corresponding file in your local VS Code workspace.
When debugging remote_server_demo.py
, the debugger maps ./samples/simple_demo/remote_server_demo.py
remotely to ${workspaceFolder}/samples/simple_demo/remote_server_demo.py
locally.
- Clone the repo.
- Start
python3 ./samples/simple_demo/remote_server_demo.py --debug=attach
. Notice that current directory must contain.azrelay.json
file unless configured with environment variables.
Terminal session where you start #2 must have the repo's directory as current directory - for a reason of mapping local and remote directories.
If everything works as it's supposed to, you will hit a breakpoint in your local Visual Studio Code.
remote_server_demo.py
shows how you can use Azure Debugging Relay (azure-debug-relay package) with your code.
azdebugrelay module contains DebugRelay class that install and launches Azure Relay Bridge:
from azdebugrelay import DebugRelay, DebugMode, debugpy_connect_with_timeout
access_key_or_connection_string = "AZURE RELAY HYBRID CONNECTION STRING OR ACCESS KEY"
relay_connection_name = "HYBRID CONNECTION NAME" # your Hybrid Connection name
debug_mode = DebugMode.Connect # or DebugMode.WaitForConnection if connecting from another end
hybrid_connection_url = "HYBRID CONNECTION URL" # can be None if access_key_or_connection_string is a connection string
host = "127.0.0.1" # local hostname or ip address the debugger starts on
port = 5678 # any available port that you can use within your machine, may be a list of multiple ports
debugpy_timeout = 15 # 15 seconds for debugpy to connect
debug_relay = DebugRelay(access_key_or_connection_string, relay_connection_name, debug_mode, hybrid_connection_url, host, port)
debug_relay.open()
# attach to a remote debugger (usually from remote server code) with debug_mode = DebugMode.Connect
debugpy_connect_with_timeout(host, port, debugpy_timeout) # use instead of debugpy.connect
# if debug_mode = DebugMode.WaitForConnection, we are going to listen instead
# debugpy.listen((host, port))
# if debug_mode = DebugMode.WaitForConnection, you can start DebugRelay on multiple ports (ports parameter is a list)
# debugpy.listen must be called with each of these ports
# Debug, debug, debug
# ...
# ...
debug_relay.close()
access_key_or_connection_string
- SAS Policy key or Connection String for Azure Relay Hybrid Connection. Must haveSend
andListen
permissionsrelay_connection_name
- name of the Hybrid Connectiondebug_mode
- debug connection mode.DebugMode.WaitForConnection
when starting in listening mode,DebugMode.Connect
for attaching to a remote debugger.hybrid_connection_url
- Hybrid Connection URL. Required when access_key_or_connection_string as an access key, otherwise is ignored and may be None.host
- Local hostname or ip address the debugger starts on,127.0.0.1
by defaultport
- debugging port,5678
by default
We added
debugpy_connect_with_timeout
method on top of debugpy.connect(). It acceptsconnect_timeout_seconds
parameter - how long it should wait fordebugpy.connect()
to connect. If the connection is not successfully made within the timeout, the debugging session aborts, and that can be handled in your code:debugpy_connect_with_timeout()
returnsTrue
if the connection was successful, andFalse
otherwise.
Notice that DebugRelay accepts multiple ports to work with (ports
parameter is a list).
That's because Azure Relay Bridge support forwarding on multiple ports.
This feature is primarily used by DebugRelay internally
for Simultaneous distributed debugging.
Simple Azure ML sample is located in samples/azure_ml_simple
directory.
It has 2 components:
deploy_and_run.py
script that deploys and launches an Azure ML pipeline with a single step.steps/train.py
script which contains that simple step.
Look at the sample's readme file.
Advanced Azure Machine Learning sample is located in samples/azure_ml_advanced
, and demonstrates a complex debugging scenario with parallel steps.
Look at the advanced sample's readme file.
You can debug multiple simultaneously running remote nodes using different ports. Each execution flow you want to debug must use a separate port - both locally and remotely.
In Visual Studio code, it is achievable via so called "compound launch configurations". Compound launch configurations combine multiple launch configurations, and therefore start them at the same time.
Each launch configuration must be a Python listen
configuration with a unique name and port:
{
"name": "Python: Listen 5678",
"type": "python",
"request": "attach",
"listen": {
"host": "127.0.0.1",
"port": 5678
},
"pathMappings": [
{
"localRoot": "${workspaceFolder}",
"remoteRoot": "."
}
]
}
You need as many launch configurations as number of simultaneous execution flows or nodes you'd like to debug.
Then you combine them in .vscode/launch.json
to as a compound:
"compounds": [
{
"name": "Python: AML Advanced 3 Listeners",
"configurations": [
"Python: Listen 5678",
"Python: Listen 5679",
"Python: Listen 5680"
]
}
]
Remotely, each node you debug should be aware of the port number it should use.
That port number must be passed to DebugRelay
object and debugpy_connect_with_timeout()
.
Why using Azure Relay Bridge which is a .NET Core application that we have to install and use via subprocess
calls?
Reasons:
- Azure Relay has SDKs for .NET, Java, and Node. No Python SDK or examples.
- Azure Relay Bridge does a lot of things we have to implement otherwise. It is a great tool that can help you connecting different networks for many purposes: for RDP, SSH and other protocols over TCP or UDP.
A private fork we are currently using is only to provide .NET Core 3.1 builds of the most recent code. There is a pending pul-requests: one and two.
On macOS, there may be a situation when Azure Relay Bridge (
azbridge
) cannot connect when creating a local forwarder (-L
option).
Reason: .NET Core wants you to add your Computer Name to /etc/hosts
file, and make sure the hostname is configured.
Workaround: Make necessary edits of /etc/hosts
file, and configure hostname:
- Look for your computer's name in
Settings โ Sharing
. - Run the following command:
scutil --set HostName "your-computer-name"
. (replaceyour-computer-name
with your computer's name) - Open
/etc/hosts
in a text editor in sudo mode (VS Code can save it later in sudo mode). - Add the following line (replace
your-computer-name
with your computer's name). Save the file.
127.0.0.1 your-computer-name
I launched the debugger as described and nothing happened
Reason: you probably didn't put a breakpoint in your VS Code locally. Make sure that breakpoint is in a place that your server process actually runs through.
I do everything right, but nothing works
Reason: Stop all debugging sessions (if any). Kill all azbridge
processes locally and remotely. Try again.
Doesn't help? File an issue! Thank you!