Handle routes updates from management
Manage routing firewall rules
Manage peer RIB table
Add get peer and get notification channel from the status recorder
Update interface peers allowed IPs
Added additional common blacklisted interfaces
Updated the signal protocol to pass the peer port and netbird version
Co-authored-by: braginini <bangvalo@gmail.com>
Support Generic OAuth 2.0 Device Authorization Grant
as per RFC specification https://www.rfc-editor.org/rfc/rfc8628.
The previous version supported only Auth0 as an IDP backend.
This implementation enables the Interactive SSO Login feature
for any IDP compatible with the specification, e.g., Keycloak.
This PR fixes a race condition that happens
when agents connect to a Signal stream, multiple
times within a short amount of time. Common on
slow and unstable internet connections.
Every time an agent establishes a new connection
to Signal, Signal creates a Stream and writes an entry
to the registry of connected peers storing the stream.
Every time an agent disconnects, Signal removes the
stream from the registry.
Due to unstable connections, the agent could detect
a broken connection, and attempt to reconnect to Signal.
Signal will override the stream, but it might detect
the old broken connection later, causing peer deregistration.
It will deregister the peer leaving the client thinking
it is still connected, rejecting any messages.
All the existing agents by default connect to port 33073 of the
Management service. This value is also stored in the local config.
All the agents won't switch to the new port 443
unless explicitly specified in the config.
We want the transition to be smooth for our users, therefore
this PR adds logic to check whether the old port 33073 can be
changed to 443 and updates the config automatically.
This PR is a part of an effort to use standard ports (443 or 80) that are usually allowed by default in most of the environments.
Right now Management Service runs the Let'sEncrypt manager on port 443, HTTP API server on port 33071,
and a gRPC server on port 33073. There are three separate listeners.
This PR combines these listeners into one.
With this change, the HTTP and gRPC server runs on either 443 with TLS or 80 without TLS
by default (no --port specified).
Let's Encrypt manager always runs on port 443 if enabled.
The backward compatibility server runs on port 33073 (with TLS or without).
HTTP port 33071 is obsolete and not used anymore.
Newly installed agents will connect to port 443 by default instead of port 33073 if not specified otherwise.
When building client without CGO, user.Lookup
attempts to get user from /etc/passwd
Which doesn't have the user as MacOS uses
opendirectoryd as user directory
This PR fixes issues with the terminal when
running netbird ssh to a remote agent.
Every session looks up a user and loads its
profile. If no user is found, the connection is rejected.
The default user is root.
The Management client will try reconnecting in case.
of network issues or non-permanent errors.
If the device was off-boarded, then the client will stop retrying.
This PR adds support for SSH access through the NetBird network
without managing SSH skeys.
NetBird client app has an embedded SSH server (Linux/Mac only)
and a netbird ssh command.
Before this change, NetBird Agent wasn't handling
peer interface configuration changes dynamically.
Also, remote peer configuration changes have
not been applied (e.g. AllowedIPs changed).
Not a very common cause, but still it should be handled.
Now, Agent reacts to PeerConfig changes sent from the
management service and restarts remote connections
if AllowedIps have been changed.
The peer IP allocation logic was allocating sequential peer IP from the 100.64.0.0/10
address block.
Each account is created with a random subnet from 100.64.0.0/10.
The total amount of potential subnets is 64.
The new logic allocates random peer IP
from the account subnet.
This gives us flexibility to add support for
multi subnet accounts without overlapping IPs.
* GetClientID method and increase interval on slow_down err
* Reuse existing authentication flow if is not expired
Created a new struct to hold additional info
about the flow
If there is a waiting sso running, we cancel its context
* Run the up command on a goroutine
* Use time.Until
* Use proper ctx and consistently use goroutine for up/down
* Fix UP calls when state is idle
When we want to login we can call server.Login
It already checks the login status of the peer
* Remove unused status
* Defer close daemon client conn
Co-authored-by: braginini <bangvalo@gmail.com>
Send Desktop UI client version as user-agent to daemon
This is sent on every login request to the management
Parse the GRPC context on the system package and
retrieves the user-agent
Management receives the new UIVersion field and
store in the Peer's system meta
