- Prerequisites
- Firecracker Virtio-vsock Design
- Setting up the Virtio-vsock Device
- Examples
- Known Issues
This document assumes the reader is familiar with running Firecracker and issuing API commands over its API socket. For a more details on how to run Firecracker, check out the getting started guide.
Familiarity with socket programming, in particular Unix sockets, is also assumed.
The Firecracker vsock device aims to provide full virtio-vsock support to software running inside the guest VM, while bypassing vhost kernel code on the host. To that end, Firecracker implements the virtio-vsock device model, and mediates communication between AF_UNIX sockets (on the host end) and AF_VSOCK sockets (on the guest end).
In order to provide channel multiplexing the guest AF_VSOCK
ports are mapped
1:1 to AF_UNIX
sockets on the host. The virtio-vsock device must be
configured with a path to an AF_UNIX
socket on the host (e.g.
/path/to/v.sock
). There are two scenarios to be considered, depending on
where the connection is initiated.
When a microvm having a vsock device attached is started, Firecracker will
begin listening on an AF_UNIX socket (e.g. /path/to/v.sock
). When the host
needs to initiate a connection, it should connect to that Unix socket, then
send a connect command, in text form, specifying the destination AF_VSOCK port:
"CONNECT PORT\n". Where PORT is the decimal port number, and "\n" is EOL (ASCII
0x0A). Following that, the same connection will be forwarded by Firecracker to
the guest software listening on that port, thus establishing the requested
channel. If the connection has been established, Firecracker will send an
acknowledgement message to the connecting end (host-side), in the form
"OK PORT\n", where PORT
is the vsock port number assigned to
the host end. If no one is listening, Firecracker will terminate the host
connection.
Client A initiates connection to Server A in figure below:
- Host: At VM configuration time, add a virtio-vsock device, with some path
specified in
uds_path
; - Guest: create an AF_VSOCK socket and
listen()
on<port_num>
; - Host:
connect()
to AF_UNIX atuds_path
. - Host:
send()
"CONNECT<port_num>
\n". - Guest:
accept()
the new connection. - Host:
read()
"OK<assigned_hostside_port>
\n".
The channel is established between the sockets obtained at steps 3 (host) and 5 (guest).
When the virtio-vsock device model in Firecracker detects a connection request
coming from the guest (a VIRTIO_VSOCK_OP_REQUEST packet), it tries to forward
the connection to an AF_UNIX socket listening on the host, at
/path/to/v.sock_PORT
(or whatever path was configured via the uds_path
property of the vsock device), where PORT
is the destination port (in
decimal), as specified in the connection request packet. If no such socket
exists, or no one is listening on it, a connection cannot be established, and a
VIRTIO_VSOCK_OP_RST packet will be sent back to the guest.
Client B initiates connection to Server B in figure below:
- Host: At VM configuration time, add a virtio-vsock device, with some
uds_path
(e.g./path/to/v.sock
). - Host: create and listen on an AF_UNIX socket at
/path/to/v.sock_PORT
. - Guest: create an AF_VSOCK socket and connect to
HOST_CID
(i.e. integer value 2) andPORT
; - Host:
accept()
the new connection.
The channel is established between the sockets obtained at steps 4 (host) and 3 (guest).
The virtio-vsock device will require a CID, and the path to a backing AF_UNIX socket:
curl --unix-socket /tmp/firecracker.socket -i \
-X PUT 'http://localhost/vsock' \
-H 'Accept: application/json' \
-H 'Content-Type: application/json' \
-d '{
"guest_cid": 3,
"uds_path": "./v.sock"
}'
Once the microvm is started, Firecracker will create and start listening on the
AF_UNIX socket at uds_path
. Incoming connections will get forwarded to the
guest microvm, and translated to AF_VSOCK. The destination port is expected to
be specified by sending the text command "CONNECT <port_num>
\n", immediately
after the AF_UNIX connection is established. Connections initiated from within
the guest will be forwarded to AF_UNIX sockets expected to be listening at
./v.sock_<port_num>
. I.e. a guest connection to port 52 will get forwarded to
./v.sock_52
.
The examples below assume a running microvm, with a vsock device configured as shown above and socat version 1.7.4.0 or later.
First, make sure the vsock port is bound and listened to on the guest side. Say, port 52:
socat VSOCK-LISTEN:52,fork -
On the host side, connect to ./v.sock
and issue a connection request to that
port:
$ socat - UNIX-CONNECT:./v.sock
CONNECT 52
socat
will display the connection acknowledgement message:
OK 1073741824
The connection should now be established (in the above example, between
socat
on the guest and the host side).
First make sure the AF_UNIX corresponding to your desired port is listened to on the host side:
socat - UNIX-LISTEN:./v.sock_52
On the guest side, create an AF_VSOCK socket and connect it to the previously chosen port on the host (CID=2):
socat - VSOCK-CONNECT:2:52
Vsock snapshot support is currently limited. Please see Snapshotting vsock limitation.