minikube on WSL2 (windows 10) - minikube ip not reachable - java

I've installed the minikube instance on my local computer (--driver=docker). The minikube ip is 192.168.49.2. When I start minikube (minikube start --memory 7168) I get no errors on console. But trying to ping the minikube ip fails. What I do wrong?
$ kubectl get nodes -o wide
NAME STATUS ROLES AGE VERSION INTERNAL-IP EXTERNAL-IP OS-IMAGE KERNEL-VERSION CONTAINER-RUNTIME
minikube Ready control-plane,master 9d v1.20.2 192.168.49.2 <none> Ubuntu 20.04.1 LTS 5.4.72-microsoft-standard-WSL2 docker://20.10.3

Recall that minikube is local Kubernetes - it runs a single-node Kubernetes cluster on your personal computer so that you can try out Kubernetes. Now, it doesn't run the Kubernetes cluster in your local box, it runs it inside a VM.
That is why you can't simply access Node IP from your local. Another way to see it is that in Kubernetes you can create NodePort Service to access your workload outside of your cluster but this doesn't work when you are running Kubernetes using minikube - and the reason is the same as mentioned above.
Now, how you work around that is by using minikube service <<YOUR_SERVICE_NAME>> command. This will create a tunnel to access your application - which is exposed using the Service - from outside of the K8S cluster.
You can try minikube tunnel as mentioned by #Hackerman but I have never tried it.

Just to add a bit on top of the previous answer. There is docker bridge limitation that makes it impossible to route the traffic to Linux containers. That is why the minikube tunnel and service were implemented as workaround for that.
minikube tunnel runs as a process, creating a network route on the
host to the service CIDR of the cluster using the cluster’s IP address
as a gateway. The tunnel command exposes the external IP directly to
any program running on the host operating system.
Alternative way to that you may find interesting would be using an ingress which was enabled in #9761 pull request:
.\minikube-windows-amd64.exe addons enable ingress I1121 00:59:39.443965 3000 translate.go:89] Failed to load translation file for en: Asset translations/en.json not found
* After the addon is enabled, please run "minikube tunnel" and your ingress resources would be available at "127.0.0.1"
* Verifying ingress addon...
* The 'ingress' addon is enabled

On your windows system, after the creation of the container that is created by the initial "minikube start", you can see the "minikube instance" by typing "docker ps". This is the minikube 'master' node running in this container.
It would look something like this:
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
6293ca0ba5b0 gcr.io/k8s-minikube/kicbase:v0.0.25 "/usr/local/bin/entr…" 2 hours ago Up About an hour 127.0.0.1:59539->22/tcp, 127.0.0.1:59540->2376/tcp, 127.0.0.1:59537->5000/tcp, 127.0.0.1:59538->8443/tcp, 127.0.0.1:59536->32443/tcp minikube
In the PORTS column you will see ports that are forwarded by virtue of the way that minikube start the docker container. You can see these kinds of forwards are handled by docker the same as for any contain that you might do a "docker run -p port:port"
Notice that the first port forward in this list is the ssh port: "127.0.0.1:59539->22/tcp".
When you do a "minikube tunnel", minikube will open ssh.exe instances that you can see in your windows task manager if you enable the Command Line display in the column settings.
Those 'tunnels' would look like this:
ssh -o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -N docker#127.0.0.1 -p 59539 -i C:\Users\steve.sims\.minikube\machines\minikube\id_rsa "-L 8080:10.102.174.166:8080"
If I take that command apart and only run this from the command prompt:
ssh docker#127.0.0.1 -p 59539 -i C:\users\steve.sims\.minikube\machines\minikube\id_rsa
Then I get an interactive remote window into the minikube VM (or node). Typing 'ifconfig eth0' I get:
eth0: flags=4163<UP,BROADCAST,RUNNING,MULTICAST> mtu 1500
inet 192.168.49.2 netmask 255.255.255.0 broadcast 192.168.49.255
So, indeed my minikube ip is 192.168.49.2, but it is an internal address as the folks above mentioned.
Other than that, the -N parameter on the ssh means "no command" and the -L on the end is the port forward flag in port-to-forward:destination-socket format. Of course, so all of the tunnels are coming across that initial docker -p port:port forward that minikube established when the container was started.
If it is useful, you can create your own ssh instances from that line's format by script and they will work just as well.

Related

Docker Desktop installation on WIndows causes InetAddress.getLocalhost().getCanonicalHostname() to return host.docker.internal

I'm using a Windows machine with Docker Desktop installed. My project does not live inside a docker container.
But as evident to https://youtrack.jetbrains.com/issue/IDEA-263484, it seems that Docker Desktop has overridden my host file to function properly, and the following code now returns an incorrect hostname.
InetAddress.getLocalhost().getCanonicalHostname() // host.docker.internal
This is my host file
#...
# localhost name resolution is handled within DNS itself.
# 127.0.0.1 localhost
# ::1 localhost
# Added by Docker Desktop
192.168.128.75 host.docker.internal
192.168.128.75 gateway.docker.internal
# To allow the same kube context to work on the host and the container:
127.0.0.1 kubernetes.docker.internal
# End of section
Is there another standard method (that is cross-platform) to detect real machine hostname that works with Docker Desktop installations?
As mentioned in the linked issue and in Rob's answer, I could probably add an entry in my host file to mitigate this issue, but this might not work too well if the IP gets changed, and requires additional setup.
It looks like getCanonicalHostname() takes the first entry for your IP address. It's not the best solution, but if you add an entry for 192.168.128.75 above the one for host.docker.internal, that one gets picked up.

How to set intellij remote debug?

I am trying to debug my app in testing environment, my app is running in pod, I said 'pod' because I am not familiar with Kubernetes, its manage client looks like this:app running schematic diagram. I have learn I should set idea like this idea RUN/Debug Configurations schematic diagram. And should restart and redeploy my app, I changed Dockfile firstly. the origin instruction is FROM xxx/java:alpine VOLUME /tmp ADD recruitment.jar app.jar ENTRYPOINT ["java","-Xmx2048m","-jar","/app.jar"] and I changed this to FROM xxx/java:alpine VOLUME /tmp ADD recruitment.jar app.jar ENTRYPOINT ["java","-agentlib:jdwp=transport=dt_socket,server=y,suspend=n,address=5005","-jar","/app.jar"] but it always show error like this Error running 'face_remote': Unable to open debugger port (888.88.888.888[not real]:5005): java.io.IOException "handshake timeout". I am not sure with this ip,sicne I use 'ping 888.88.888.888' instruction can not success. I use this ip because Swagger request url's domain name's ip is this.this main enter image description here. and I guess if the app is running in docker or k8s and it will have a different Interactive mode. not same like just running in linux
most of the attached image are not visible.
IP address should be accessible from your local system
[888.88.888.888] note sure this is correct.
debug port also need to be mapped from your local system
-use port forwarding
ex:kubectl port-forward 5005:5005
If you have configure port forwarding then you can use localhost:5005 for debugging
I see three things that you can check:
Check the IP address:
The jar file runs inside a Docker container, which runs inside a pod. To access the pod you usually go through a service and an ingress. The ip you are using is most likely hitting the ingress/service or any other higher layer.
To attach a remote debugger, you will need to connect directly to the PodIP. One way of doing this is to first connect to your kubernetes cluster using the tool kubectl (some configuration required) and make a port forward from your pod: kubectl port-forward my-pod-c93b8b6df-8c4aa 5005:5005 pod (as an example, the pod instance name is my-pod-c93b8b6df-8c4aa).
This will open a connection from your local computer into the pod. Then you will need to identify the PodIP by kubectl describe pods my-pod-c93b8b6df-8c4aa and use that in IntelliJ
Check if the port is exposed:
Make sure you expose the port 5005 from the pod in your test environment (similar to exposing a port when you run the container locally).
How to do this depends a bit on how you are running your Kubernetes cluster. If you use Helm chart, you can just add a configuration like this in the port section of your deployment yaml:
- containerPort: 5005
name: debug
protocol: TCP
Check debug-command address:
Last thing is to make sure you are adding the correct address in the command line option. As IntelliJ suggest in the debug editor: for JDK9+ use …suspend=n,address=*:5005 and for JDK8 and below use …suspend=n,address=5005

Connection to localhost refused while running dockerised app [duplicate]

I have a Nginx running inside a docker container. I have a MySql running on the host system. I want to connect to the MySql from within my container. MySql is only binding to the localhost device.
Is there any way to connect to this MySql or any other program on localhost from within this docker container?
This question is different from "How to get the IP address of the docker host from inside a docker container" due to the fact that the IP address of the docker host could be the public IP or the private IP in the network which may or may not be reachable from within the docker container (I mean public IP if hosted at AWS or something). Even if you have the IP address of the docker host it does not mean you can connect to docker host from within the container given that IP address as your Docker network may be overlay, host, bridge, macvlan, none etc which restricts the reachability of that IP address.
Edit:
If you are using Docker-for-mac or Docker-for-Windows 18.03+, connect to your mysql service using the host host.docker.internal (instead of the 127.0.0.1 in your connection string).
If you are using Docker-for-Linux 20.10.0+, you can also use the host host.docker.internal if you started your Docker container with the --add-host host.docker.internal:host-gateway option.
Otherwise, read below
TLDR
Use --network="host" in your docker run command, then 127.0.0.1 in your docker container will point to your docker host.
Note: This mode only works on Docker for Linux, per the documentation.
Note on docker container networking modes
Docker offers different networking modes when running containers. Depending on the mode you choose you would connect to your MySQL database running on the docker host differently.
docker run --network="bridge" (default)
Docker creates a bridge named docker0 by default. Both the docker host and the docker containers have an IP address on that bridge.
on the Docker host, type sudo ip addr show docker0 you will have an output looking like:
[vagrant#docker:~] $ sudo ip addr show docker0
4: docker0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc noqueue state UP group default
link/ether 56:84:7a:fe:97:99 brd ff:ff:ff:ff:ff:ff
inet 172.17.42.1/16 scope global docker0
valid_lft forever preferred_lft forever
inet6 fe80::5484:7aff:fefe:9799/64 scope link
valid_lft forever preferred_lft forever
So here my docker host has the IP address 172.17.42.1 on the docker0 network interface.
Now start a new container and get a shell on it: docker run --rm -it ubuntu:trusty bash and within the container type ip addr show eth0 to discover how its main network interface is set up:
root#e77f6a1b3740:/# ip addr show eth0
863: eth0: <BROADCAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP group default qlen 1000
link/ether 66:32:13:f0:f1:e3 brd ff:ff:ff:ff:ff:ff
inet 172.17.1.192/16 scope global eth0
valid_lft forever preferred_lft forever
inet6 fe80::6432:13ff:fef0:f1e3/64 scope link
valid_lft forever preferred_lft forever
Here my container has the IP address 172.17.1.192. Now look at the routing table:
root#e77f6a1b3740:/# route
Kernel IP routing table
Destination Gateway Genmask Flags Metric Ref Use Iface
default 172.17.42.1 0.0.0.0 UG 0 0 0 eth0
172.17.0.0 * 255.255.0.0 U 0 0 0 eth0
So the IP Address of the docker host 172.17.42.1 is set as the default route and is accessible from your container.
root#e77f6a1b3740:/# ping 172.17.42.1
PING 172.17.42.1 (172.17.42.1) 56(84) bytes of data.
64 bytes from 172.17.42.1: icmp_seq=1 ttl=64 time=0.070 ms
64 bytes from 172.17.42.1: icmp_seq=2 ttl=64 time=0.201 ms
64 bytes from 172.17.42.1: icmp_seq=3 ttl=64 time=0.116 ms
docker run --network="host"
Alternatively you can run a docker container with network settings set to host. Such a container will share the network stack with the docker host and from the container point of view, localhost (or 127.0.0.1) will refer to the docker host.
Be aware that any port opened in your docker container would be opened on the docker host. And this without requiring the -p or -P docker run option.
IP config on my docker host:
[vagrant#docker:~] $ ip addr show eth0
2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP group default qlen 1000
link/ether 08:00:27:98:dc:aa brd ff:ff:ff:ff:ff:ff
inet 10.0.2.15/24 brd 10.0.2.255 scope global eth0
valid_lft forever preferred_lft forever
inet6 fe80::a00:27ff:fe98:dcaa/64 scope link
valid_lft forever preferred_lft forever
and from a docker container in host mode:
[vagrant#docker:~] $ docker run --rm -it --network=host ubuntu:trusty ip addr show eth0
2: eth0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP group default qlen 1000
link/ether 08:00:27:98:dc:aa brd ff:ff:ff:ff:ff:ff
inet 10.0.2.15/24 brd 10.0.2.255 scope global eth0
valid_lft forever preferred_lft forever
inet6 fe80::a00:27ff:fe98:dcaa/64 scope link
valid_lft forever preferred_lft forever
As you can see both the docker host and docker container share the exact same network interface and as such have the same IP address.
Connecting to MySQL from containers
bridge mode
To access MySQL running on the docker host from containers in bridge mode, you need to make sure the MySQL service is listening for connections on the 172.17.42.1 IP address.
To do so, make sure you have either bind-address = 172.17.42.1 or bind-address = 0.0.0.0 in your MySQL config file (my.cnf).
If you need to set an environment variable with the IP address of the gateway, you can run the following code in a container :
export DOCKER_HOST_IP=$(route -n | awk '/UG[ \t]/{print $2}')
then in your application, use the DOCKER_HOST_IP environment variable to open the connection to MySQL.
Note: if you use bind-address = 0.0.0.0 your MySQL server will listen for connections on all network interfaces. That means your MySQL server could be reached from the Internet ; make sure to set up firewall rules accordingly.
Note 2: if you use bind-address = 172.17.42.1 your MySQL server won't listen for connections made to 127.0.0.1. Processes running on the docker host that would want to connect to MySQL would have to use the 172.17.42.1 IP address.
host mode
To access MySQL running on the docker host from containers in host mode, you can keep bind-address = 127.0.0.1 in your MySQL configuration and connect to 127.0.0.1 from your containers:
[vagrant#docker:~] $ docker run --rm -it --network=host mysql mysql -h 127.0.0.1 -uroot -p
Enter password:
Welcome to the MySQL monitor. Commands end with ; or \g.
Your MySQL connection id is 36
Server version: 5.5.41-0ubuntu0.14.04.1 (Ubuntu)
Copyright (c) 2000, 2014, Oracle and/or its affiliates. All rights reserved.
Oracle is a registered trademark of Oracle Corporation and/or its affiliates. Other names may be trademarks of their respective owners.
Type 'help;' or '\h' for help. Type '\c' to clear the current input statement.
mysql>
note: Do use mysql -h 127.0.0.1 and not mysql -h localhost; otherwise the MySQL client would try to connect using a unix socket.
For all platforms
Docker v 20.10 and above (since December 14th 2020)
Use your internal IP address or connect to the special DNS name host.docker.internal which will resolve to the internal IP address used by the host.
On Linux, using the Docker command, add --add-host=host.docker.internal:host-gateway to your Docker command to enable this feature.
To enable this in Docker Compose on Linux, add the following lines to the container definition:
extra_hosts:
- "host.docker.internal:host-gateway"
For older macOS and Windows versions of Docker
Docker v 18.03 and above (since March 21st 2018)
Use your internal IP address or connect to the special DNS name host.docker.internal which will resolve to the internal IP address used by the host.
Linux support pending https://github.com/docker/for-linux/issues/264
For older macOS versions of Docker
Docker for Mac v 17.12 to v 18.02
Same as above but use docker.for.mac.host.internal instead.
Docker for Mac v 17.06 to v 17.11
Same as above but use docker.for.mac.localhost instead.
Docker for Mac 17.05 and below
To access host machine from the docker container you must attach an IP alias to your network interface. You can bind whichever IP you want, just make sure you're not using it to anything else.
sudo ifconfig lo0 alias 123.123.123.123/24
Then make sure that you server is listening to the IP mentioned above or 0.0.0.0. If it's listening on localhost 127.0.0.1 it will not accept the connection.
Then just point your docker container to this IP and you can access the host machine!
To test you can run something like curl -X GET 123.123.123.123:3000 inside the container.
The alias will reset on every reboot so create a start-up script if necessary.
Solution and more documentation here: https://docs.docker.com/docker-for-mac/networking/#use-cases-and-workarounds
Use
host.docker.internal
instead of
localhost
I doing a hack similar to above posts of get the local IP to map to a alias name (DNS) in the container. The major problem is to get dynamically with a simple script that works both in Linux and OSX the host IP address. I did this script that works in both environments (even in Linux distribution with "$LANG" != "en_*" configured):
ifconfig | grep -E "([0-9]{1,3}\.){3}[0-9]{1,3}" | grep -v 127.0.0.1 | awk '{ print $2 }' | cut -f2 -d: | head -n1
So, using Docker Compose, the full configuration will be:
Startup script (docker-run.sh):
export DOCKERHOST=$(ifconfig | grep -E "([0-9]{1,3}\.){3}[0-9]{1,3}" | grep -v 127.0.0.1 | awk '{ print $2 }' | cut -f2 -d: | head -n1)
docker-compose -f docker-compose.yml up
docker-compose.yml:
myapp:
build: .
ports:
- "80:80"
extra_hosts:
- "dockerhost:$DOCKERHOST"
Then change http://localhost to http://dockerhost in your code.
For a more advance guide of how to customize the DOCKERHOST script, take a look at this post with a explanation of how it works.
Solution for Linux (kernel >=3.6).
Ok, your localhost server has a default docker interface docker0 with IP address 172.17.0.1. Your container started with default network settings --net="bridge".
Enable route_localnet for docker0 interface:
$ sysctl -w net.ipv4.conf.docker0.route_localnet=1
Add these rules to iptables:
$ iptables -t nat -I PREROUTING -i docker0 -d 172.17.0.1 -p tcp --dport 3306 -j DNAT --to 127.0.0.1:3306
$ iptables -t filter -I INPUT -i docker0 -d 127.0.0.1 -p tcp --dport 3306 -j ACCEPT
Create MySQL user with access from '%' that means - from anyone, excluding localhost:
CREATE USER 'user'#'%' IDENTIFIED BY 'password';
Change in your script the mysql-server address to 172.17.0.1.
From the kernel documentation:
route_localnet - BOOLEAN: Do not consider loopback addresses as martian source or destination while routing. This enables the use of 127/8 for local routing purposes (default FALSE).
This worked for me on an NGINX/PHP-FPM stack without touching any code or networking where the app's just expecting to be able to connect to localhost
Mount mysqld.sock from the host to inside the container.
Find the location of the mysql.sock file on the host running mysql:
netstat -ln | awk '/mysql(.*)?\.sock/ { print $9 }'
Mount that file to where it's expected in the docker:
docker run -v /hostpath/to/mysqld.sock:/containerpath/to/mysqld.sock
Possible locations of mysqld.sock:
/tmp/mysqld.sock
/var/run/mysqld/mysqld.sock
/var/lib/mysql/mysql.sock
/Applications/MAMP/tmp/mysql/mysql.sock # if running via MAMP
Until host.docker.internal is working for every platform, you can use my container acting as a NAT gateway without any manual setup:
https://github.com/qoomon/docker-host
Simplest solution for Mac OSX
Just use the IP address of your Mac. On the Mac run this to get the IP address and use it from within the container:
ifconfig | grep 'inet 192'| awk '{ print $2}'
As long as the server running locally on your Mac or in another docker container is listening to 0.0.0.0, the docker container will be able to reach out at that address.
If you just want to access another docker container that is listening on 0.0.0.0 you can use 172.17.0.1
Very simple and quick, check your host IP with ifconfig (linux) or ipconfig (windows) and then create a docker-compose.yml:
version: '3' # specify docker-compose version
services:
nginx:
build: ./ # specify the directory of the Dockerfile
ports:
- "8080:80" # specify port mapping
extra_hosts:
- "dockerhost:<yourIP>"
This way, your container will be able to access your host. When accessing your DB, remember to use the name you specified before, in this case dockerhost and the port of your host in which the DB is running.
Several solutions come to mind:
Move your dependencies into containers first
Make your other services externally accessible and connect to them with that external IP
Run your containers without network isolation
Avoid connecting over the network, use a socket that is mounted as a volume instead
The reason this doesn't work out of the box is that containers run with their own network namespace by default. That means localhost (or 127.0.0.1 pointing to the loopback interface) is unique per container. Connecting to this will connect to the container itself, and not services running outside of docker or inside of a different docker container.
Option 1: If your dependency can be moved into a container, I would do this first. It makes your application stack portable as others try to run your container on their own environment. And you can still publish the port on your host where other services that have not been migrated can still reach it. You can even publish the port to the localhost interface on your docker host to avoid it being externally accessible with a syntax like: -p 127.0.0.1:3306:3306 for the published port.
Option 2: There are a variety of ways to detect the host IP address from inside of the container, but each have a limited number of scenarios where they work (e.g. requiring Docker for Mac). The most portable option is to inject your host IP into the container with something like an environment variable or configuration file, e.g.:
docker run --rm -e "HOST_IP=$(ip route get 1 | sed -n 's/^.*src \([0-9.]*\) .*$/\1/p')" ...
This does require that your service is listening on that external interface, which could be a security concern. For other methods to get the host IP address from inside of the container, see this post.
Slightly less portable is to use host.docker.internal. This works in current versions of Docker for Windows and Docker for Mac. And in 20.10, the capability has been added to Docker for Linux when you pass a special host entry with:
docker run --add-host host.docker.internal:host-gateway ...
The host-gateway is a special value added in Docker 20.10 that automatically expands to a host IP. For more details see this PR.
Option 3: Running without network isolation, i.e. running with --net host, means your application is running on the host network namespace. This is less isolation for the container, and it means you cannot access other containers over a shared docker network with DNS (instead, you need to use published ports to access other containerized applications). But for applications that need to access other services on the host that are only listening on 127.0.0.1 on the host, this can be the easiest option.
Option 4: Various services also allow access over a filesystem based socket. This socket can be mounted into the container as a bind mounted volume, allowing you to access the host service without going over the network. For access to the docker engine, you often see examples of mounting /var/run/docker.sock into the container (giving that container root access to the host). With mysql, you can try something like -v /var/run/mysqld/mysqld.sock:/var/run/mysqld/mysql.sock and then connect to localhost which mysql converts to using the socket.
Solution for Windows 10
Docker Community Edition 17.06.0-ce-win18 2017-06-28 (stable)
You can use DNS name of the host docker.for.win.localhost, to resolve to the internal IP. (Warning some sources mentioned windows but it should be win)
Overview
I needed to do something similar, that is connect from my Docker container to my localhost, which was running the Azure Storage Emulator and CosmosDB Emulator.
The Azure Storage Emulator by default listens on 127.0.0.1, while you can change the IP its bound too, I was looking for a solution that would work with default settings.
This also works for connecting from my Docker container to SQL Server and IIS, both running locally on my host with default port settings.
For windows,
I have changed the database url in spring configuration: spring.datasource.url=jdbc:postgresql://host.docker.internal:5432/apidb
Then build the image and run. It worked for me.
None of the answers worked for me when using Docker Toolbox on Windows 10 Home, but 10.0.2.2 did, since it uses VirtualBox which exposes the host to the VM on this address.
This is not an answer to the actual question. This is how I solved a similar problem. The solution comes totally from: Define Docker Container Networking so Containers can Communicate. Thanks to Nic Raboy
Leaving this here for others who might want to do REST calls between one container and another. Answers the question: what to use in place of localhost in a docker environment?
Get how your network looks like docker network ls
Create a new network docker network create -d my-net
Start the first container docker run -d -p 5000:5000 --network="my-net" --name "first_container" <MyImage1:v0.1>
Check out network settings for first container docker inspect first_container. "Networks": should have 'my-net'
Start the second container docker run -d -p 6000:6000 --network="my-net" --name "second_container" <MyImage2:v0.1>
Check out network settings for second container docker inspect second_container. "Networks": should have 'my-net'
ssh into your second container docker exec -it second_container sh or docker exec -it second_container bash.
Inside of the second container, you can ping the first container by ping first_container. Also, your code calls such as http://localhost:5000 can be replaced by http://first_container:5000
If you're running with --net=host, localhost should work fine. If you're using default networking, use the static IP 172.17.0.1.
See this - https://stackoverflow.com/a/48547074/14120621
For those on Windows, assuming you're using the bridge network driver, you'll want to specifically bind MySQL to the IP address of the hyper-v network interface.
This is done via the configuration file under the normally hidden C:\ProgramData\MySQL folder.
Binding to 0.0.0.0 will not work. The address needed is shown in the docker configuration as well, and in my case was 10.0.75.1.
Edit: I ended up prototyping out the concept on GitHub. Check out: https://github.com/sivabudh/system-in-a-box
First, my answer is geared towards 2 groups of people: those who use a Mac, and those who use Linux.
The host network mode doesn't work on a Mac. You have to use an IP alias, see: https://stackoverflow.com/a/43541681/2713729
What is a host network mode? See: https://docs.docker.com/engine/reference/run/#/network-settings
Secondly, for those of you who are using Linux (my direct experience was with Ubuntu 14.04 LTS and I'm upgrading to 16.04 LTS in production soon), yes, you can make the service running inside a Docker container connect to localhost services running on the Docker host (eg. your laptop).
How?
The key is when you run the Docker container, you have to run it with the host mode. The command looks like this:
docker run --network="host" -id <Docker image ID>
When you do an ifconfig (you will need to apt-get install net-tools your container for ifconfig to be callable) inside your container, you will see that the network interfaces are the same as the one on Docker host (eg. your laptop).
It's important to note that I'm a Mac user, but I run Ubuntu under Parallels, so using a Mac is not a disadvantage. ;-)
And this is how you connect NGINX container to the MySQL running on a localhost.
For Linux, where you cannot change the interface the localhost service binds to
There are two problems we need to solve
Getting the IP of the host
Making our localhost service available to Docker
The first problem can be solved using qoomon's docker-host image, as given by other answers.
You will need to add this container to the same bridge network as your other container so that you can access it. Open a terminal inside your container and ensure that you can ping dockerhost.
bash-5.0# ping dockerhost
PING dockerhost (172.20.0.2): 56 data bytes
64 bytes from 172.20.0.2: seq=0 ttl=64 time=0.523 ms
Now, the harder problem, making the service accessible to docker.
We can use telnet to check if we can access a port on the host (you may need to install this).
The problem is that our container will only be able to access services that bind to all interfaces, such as SSH:
bash-5.0# telnet dockerhost 22
SSH-2.0-OpenSSH_7.6p1 Ubuntu-4ubuntu0.3
But services bound only to localhost will be inaccessible:
bash-5.0# telnet dockerhost 1025
telnet: can't connect to remote host (172.20.0.2): Connection refused
The proper solution here would be to bind the service to dockers bridge network. However, this answer assumes that it is not possible for you to change this. So we will instead use iptables.
First, we need to find the name of the bridge network that docker is using with ifconfig. If you are using an unnamed bridge, this will just be docker0. However, if you are using a named network you will have a bridge starting with br- that docker will be using instead. Mine is br-5cd80298d6f4.
Once we have the name of this bridge, we need to allow routing from this bridge to localhost. This is disabled by default for security reasons:
sysctl -w net.ipv4.conf.<bridge_name>.route_localnet=1
Now to set up our iptables rule. Since our container can only access ports on the docker bridge network, we are going to pretend that our service is actually bound to a port on this network.
To do this, we will forward all requests to <docker_bridge>:port to localhost:port
iptables -t nat -A PREROUTING -p tcp -i <docker_bridge_name> --dport <service_port> -j DNAT --to-destination 127.0.0.1:<service_port>
For example, for my service on port 1025
iptables -t nat -A PREROUTING -p tcp -i br-5cd80298d6f4 --dport 1025 -j DNAT --to-destination 127.0.0.1:1025
You should now be able to access your service from the container:
bash-5.0# telnet dockerhost 1025
220 127.0.0.1 ESMTP Service Ready
First see this answer for the options that you have to fix this problem. But if you use docker-compose you can add network_mode: host to your service and then use 127.0.0.1 to connect to the local host. This is just one of the options described in the answer above. Below you can find how I modified docker-compose.yml from https://github.com/geerlingguy/php-apache-container.git:
---
version: "3"
services:
php-apache:
+ network_mode: host
image: geerlingguy/php-apache:latest
container_name: php-apache
...
+ indicates the line I added.
[Additional info] This has also worked in version 2.2. and "host" or just 'host' are both worked in docker-compose.
---
version: "2.2"
services:
php-apache:
+ network_mode: "host"
or
+ network_mode: host
...
I disagree with the answer from Thomasleveil.
Making mysql bind to 172.17.42.1 will prevent other programs using the database on the host to reach it. This will only work if all your database users are dockerized.
Making mysql bind to 0.0.0.0 will open the db to outside world, which is not only a very bad thing to do, but also contrary to what the original question author wants to do. He explicitly says "The MySql is running on localhost and not exposing a port to the outside world, so its bound on localhost"
To answer the comment from ivant
"Why not bind mysql to docker0 as well?"
This is not possible. The mysql/mariadb documentation explicitly says it is not possible to bind to several interfaces. You can only bind to 0, 1, or all interfaces.
As a conclusion, I have NOT found any way to reach the (localhost only) database on the host from a docker container. That definitely seems like a very very common pattern, but I don't know how to do it.
Try this:
version: '3.5'
services:
yourservice-here:
container_name: container_name
ports:
- "4000:4000"
extra_hosts: # <---- here
- localhost:192.168.1.202
- or-vitualhost.local:192.168.1.202
To get 192.168.1.202, uses ifconfig
This worked for me. Hope this help!
In 7 years the question was asked, it is either docker has changed, or no one tried this way. So I will include my own answer.
I have found all answers use complex methods. Today, I have needed this, and found 2 very simple ways:
use ipconfig or ifconfig on your host and make note of all IP addresses. At least two of them can be used by the container.
I have a fixed local network address on WiFi LAN Adapter: 192.168.1.101. This could be 10.0.1.101. the result will change depending on your router
I use WSL on windows, and it has its own vEthernet address: 172.19.192.1
use host.docker.internal. Most answers have this or another form of it depending on OS. The name suggests it is now globally used by docker.
A third option is to use WAN address of the machine, or in other words IP given by the service provider. However, this may not work if IP is not static, and requires routing and firewall settings.
You need to know the gateway! My solution with local server was to expose it under 0.0.0.0:8000, then run docker with subnet and run container like:
docker network create --subnet=172.35.0.0/16 --gateway 172.35.0.1 SUBNET35
docker run -d -p 4444:4444 --net SUBNET35 <container-you-want-run-place-here>
So, now you can access your loopback through http://172.35.0.1:8000
Connect to the gateway address.
❯ docker network inspect bridge | grep Gateway
"Gateway": "172.17.0.1"
Make sure the process on the host is listening on this interface or on all interfaces and is started after docker. If using systemd, you can add the below to make sure it is started after docker.
[Unit]
After=docker.service
Example
❯ python -m http.server &> /dev/null &
[1] 149976
❯ docker run --rm python python -c "from urllib.request import urlopen;print(b'Directory listing for' in urlopen('http://172.17.0.1:8000').read())"
True
Here is my solution : it works for my case
set local mysql server to public access by comment
#bind-address = 127.0.0.1
in /etc/mysql/mysql.conf.d
restart mysql server
sudo /etc/init.d/mysql restart
run the following command to open user root access any host
mysql -uroot -proot
GRANT ALL PRIVILEGES ON *.* TO 'root'#'%' IDENTIFIED BY 'root' WITH
GRANT OPTION;
FLUSH PRIVILEGES;
create sh script : run_docker.sh
#!bin/bash
HOSTIP=`ip -4 addr show scope global dev eth0 | grep inet | awk '{print \$2}' | cut -d / -f 1`
docker run -it -d --name web-app \
--add-host=local:${HOSTIP} \
-p 8080:8080 \
-e DATABASE_HOST=${HOSTIP} \
-e DATABASE_PORT=3306 \
-e DATABASE_NAME=demo \
-e DATABASE_USER=root \
-e DATABASE_PASSWORD=root \
sopheamak/springboot_docker_mysql
run with docker-composer
version: '2.1'
services:
tomcatwar:
extra_hosts:
- "local:10.1.2.232"
image: sopheamak/springboot_docker_mysql
ports:
- 8080:8080
environment:
- DATABASE_HOST=local
- DATABASE_USER=root
- DATABASE_PASSWORD=root
- DATABASE_NAME=demo
- DATABASE_PORT=3306
You can get the host ip using alpine image
docker run --rm alpine ip route | awk 'NR==1 {print $3}'
This would be more consistent as you're always using alpine to run the command.
Similar to Mariano's answer you can use same command to set an environment variable
DOCKER_HOST=$(docker run --rm alpine ip route | awk 'NR==1 {print $3}') docker-compose up
you can use net alias for your machine
OSX
sudo ifconfig lo0 alias 123.123.123.123/24 up
LINUX
sudo ifconfig lo:0 123.123.123.123 up
then from the container you can see the machine by 123.123.123.123
The CGroups and Namespaces are playing major role in the Container Ecosystem.
Namespace provide a layer of isolation. Each container runs in a separate namespace and its access is limited to that namespace. The Cgroups controls the resource utilization of each container, whereas Namespace controls what a process can see and access the respective resource.
Here is the basic understanding of the solution approach you could follow,
Use Network Namespace
When a container spawns out of image, a network interface is defined and create. This gives the container unique IP address and interface.
$ docker run -it alpine ifconfig
By changing the namespace to host, cotainers networks does not remain isolated to its interface, the process will have access to host machines network interface.
$ docker run -it --net=host alpine ifconfig
If the process listens on ports, they'll be listened on the host interface and mapped to the container.
Use PID Namespace
By changing the Pid namespace allows a container to interact with other process beyond its normal scope.
This container will run in its own namespace.
$ docker run -it alpine ps aux
By changing the namespace to the host, the container can also see all the other processes running on the system.
$ docker run -it --pid=host alpine ps aux
Sharing Namespace
This is a bad practice to do this in production because you are breaking out of the container security model which might open up for vulnerabilities, and easy access to eavesdropper. This is only for debugging tools and understating the loopholes in container security.
The first container is nginx server. This will create a new network and process namespace. This container will bind itself to port 80 of newly created network interface.
$ docker run -d --name http nginx:alpine
Another container can now reuse this namespace,
$ docker run --net=container:http mohan08p/curl curl -s localhost
Also, this container can see the interface with the processes in a shared container.
$ docker run --pid=container:http alpine ps aux
This will allow you give more privileges to containers without changing or restarting the application. In the similar way you can connect to mysql on host, run and debug your application. But, its not recommend to go by this way. Hope it helps.
Until fix is not merged into master branch, to get host IP just run from inside of the container:
ip -4 route list match 0/0 | cut -d' ' -f3
(as suggested by #Mahoney here).
I solved it by creating a user in MySQL for the container's ip:
$ sudo mysql<br>
mysql> create user 'username'#'172.17.0.2' identified by 'password';<br>
Query OK, 0 rows affected (0.00 sec)
mysql> grant all privileges on database_name.* to 'username'#'172.17.0.2' with grant option;<br>
Query OK, 0 rows affected (0.00 sec)
$ sudo vim /etc/mysql/mysql.conf.d/mysqld.cnf
<br>bind-address = 172.17.0.1
$ sudo systemctl restart mysql.service
Then on container: jdbc:mysql://<b>172.17.0.1</b>:3306/database_name

Unable to connect to Selenium Grid running on AWS EC2

I have a Selenium Grid up and running on an AWS EC2 instance. I would like to connect to this from my local machine using Java to fire off my tests via a RemoteWebDriver, however, I'm unable to connect to the server be it through SSH or the Public IP.
For example I need to access the instance on port 4444 for a url of http://123.456.78.910:4444/wd/hub this would then need to establish a connection and receive my tests.
Whenever I try to use the Public IP I simply get a time-out.
Any help would be greatly appreciated.
You are getting a time out because your port 4444 is blocked in the EC2 security group. Check below you have add that rule to you EC2 security group. You can either add 0.0.0.0/0 but I will suggest just add your IP as you will be the only one to access that port from your local and for better security.
When you start a selenium grid hub - you are shown a message such as :
register node to the hub: http://{hub-ip}:4444/grid/register
When i tried to register a node with hub-ip , it did not work for me.
so i checked the public-ip of my ec2 instance by logging in to the ec2 console.
then i registered the node with http://{public-ip}:4444/grid/register
it worked.
so use public ip of ec2 instance to register the node.
the hub-ip duggested by selenium grid did not work for me on ec2
if i place hub , node on local machine - then none of this problem occurs.
are you running node and hub on different ec2 instances ?
You should also add the remotehost option while starting a node from an instance different from the hub instance to tell the hub about your ip address.
java -Dwebdriv.gecko.driver="geckodriver" -jar selenium-server-standalone-3.13.0.jar -role node -hub http://{hub-public-ip}:4444/grid/register/ -remoteHost "http://{node-public-ip}"
public ip of script instance - 34.224.113.203
I had the same problem with Selenium standalone 3-x. I installed a proxy server (nginx) and did a port forwarding. Then it started working.
Do not use the container port directly, instead use the host port which in turn communicate to container port.
For eg: docker ps
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
"container id" selenium/hub "/opt/bin/entry_poinâ¦" 23 hours ago Up About an hour 0.0.0.0:32768->4444/tcp hub
Here use the port 32768 instead of 4444

How to connect to Java instances running on EC2 using JMX

We are having problem connecting to our Java applications running in Amazon's EC2 cluster. We definitely have allowed both the "JMX port" (which is usually the RMI registry port) and the server port (which does most of the work) to the security-group for the instances in question. Jconsole connects but seems to hang and never show any information.
We are running our java with something like the following:
java -server -jar foo.jar other parameters here > java.log 2>&1
We have tried:
Telnets to the ports connect but no information is displayed.
We can run jconsole on the instance itself using remote-X11 over ssh and it connects and shows information. So the JRE is exporting it locally.
Opening all ports in the security group. Weeee.
Using tcpdump to make sure the traffic is not going to other ports.
Simulating it locally. We can always connect to our local JREs or those running elsewhere on our network using the same application parameters.
java -version outputs:
OpenJDK Runtime Environment (IcedTea6 1.11.5) (amazon-53.1.11.5.47.amzn1-x86_64)
OpenJDK 64-Bit Server VM (build 20.0-b12, mixed mode)
As an aside, we are using my Simple JMX package which allows us to set both the RMI registry and server ports which are typically semi-randomly chosen by the RMI registry. You can also force this with something like the following JMX URI:
service:jmx:rmi://localhost:" + serverPort + "/jndi/rmi://:" + registryPort + "/jmxrmi"
These days we use the same port for both the server and the registry. In the past we have used X as the registry-port and X+1 for the server-port to make the security-group rules easy. You connect to the registry-port in jconsole or whatever JMX client you are using.
We are having problem connecting to our Java applications running in Amazon's EC2 cluster.
It turns out that the problem was a combination of two missing settings. The first forces the JRE to prefer ipv4 and not v6. This was necessary (I guess) since we are trying to connect to it via a v4 address:
-Djava.net.preferIPv4Stack=true
The real blocker was the fact that JMX works by first contacting the RMI port which responds with the hostname and port for the JMX client to connect. With no additional settings it will use the local IP of the box which is a 10.X.X.X virtual address which a remote client cannot route to. We needed to add the following setting which is the external hostname or IP of the server -- in this case it is the elastic hostname of the server.
-Djava.rmi.server.hostname=ec2-107-X-X-X.compute-1.amazonaws.com
The trick, if you are trying to automate your EC2 instances (and why the hell would you not), is how to find this address at runtime. To do that you need to put something like the following in our application boot script:
# get our _external_ hostname
RMI_HOST=`wget -q -O - http://169.254.169.254/latest/meta-data/public-hostname`
...
java -server \
-Djava.net.preferIPv4Stack=true -Djava.rmi.server.hostname=$RMI_HOST \
-jar foo.jar other parameters here > java.log 2>&1
The mysterious 169.254.169.254 IP in the wget command above provides information that the EC2 instance can request about itself. I'm disappointed that this does not include tags which are only available in an authenticated call.
I initially was using the extern ipv4 address but it looks like the JDK tries to make a connection to the server-port when it starts up. If it uses the external IP then this was slowing our application boot time until that timed out. The public-hostname resolves locally to the 10-net address and to the public-ipv4 externally. So the application now is starting fast and JMX clients still work. Woo hoo!
Hope this helps someone else. Cost me 3 hours today.
To force your JMX server to start the server and the RMI registry on designated ports so you can block them in the EC2 Security Groups, see this answer:
How to close rmiregistry running on particular port?
Edit:
We just had this problem re-occur. It seems that the Java JMX code is doing some hostname lookups on the hostname of the box and using them to try to connect and verify the JMX connection.
The issue seems to be a requirement that the local hostname of the box should resolve to the local-ip of the box. For example, if your /etc/sysconfig/network has HOSTNAME=server1.foobar.com then if you do a DNS lookup on server1.foobar.com, you should get to the 10-NET virtual address. We were generating our own /etc/hosts file and the hostname of the local host was missing from the file. This caused our applications to either pause on startup or not startup at all.
Lastly
One way to simplify your JMX creation is to use my SimpleJMX package.
Per the second answer Why does JMX connection to Amazon EC2 fail?, the difficulty here is that by default the RMI port is selected at random, and clients need access to both the JMX and RMI ports. If you're running jdk7u4 or later, the RMI port can be specified via an app property. Starting my server with the following JMX settings worked for me:
Without authentication:
-Dcom.sun.management.jmxremote
-Dcom.sun.management.jmxremote.port=9999
-Dcom.sun.management.jmxremote.rmi.port=9998
-Dcom.sun.management.jmxremote.ssl=false
-Dcom.sun.management.jmxremote.authenticate=false
-Djava.rmi.server.hostname=<public EC2 hostname>
With authentication:
-Dcom.sun.management.jmxremote
-Dcom.sun.management.jmxremote.port=9999
-Dcom.sun.management.jmxremote.rmi.port=9998
-Dcom.sun.management.jmxremote.ssl=false
-Dcom.sun.management.jmxremote.authenticate=true
-Dcom.sun.management.jmxremote.password.file=/path/to/jmxremote.password
-Djava.rmi.server.hostname=<public EC2 hostname>
I also opened ports 9998-9999 in the EC2 security group for my instance.
A bit different approach by using ssh tunnels
(On the Remote machine) Pass the following flags to the JVM
-Dcom.sun.management.jmxremote.port=1099
-Djava.net.preferIPv4Stack=true
-Dcom.sun.management.jmxremote.ssl=false
-Dcom.sun.management.jmxremote.authenticate=false
-Djava.rmi.server.hostname=127.0.0.1
(On the Remote machine) Check which ports java started to use
$ netstat -tulpn | grep java
tcp 0 0 0.0.0.0:37484 0.0.0.0:* LISTEN 2904/java
tcp 0 0 0.0.0.0:1099 0.0.0.0:* LISTEN 2904/java
tcp 0 0 0.0.0.0:45828 0.0.0.0:* LISTEN 2904/java
(On the local machine) Make ssh tunnels for all the ports
ssh -N -L 1099:127.0.0.1:1099 ubuntu#<ec2_ip>
ssh -N -L 37484:127.0.0.1:37484 ubuntu#<ec2_ip>
ssh -N -L 45828:127.0.0.1:45828 ubuntu#<ec2_ip>`
(On the local machine) Connect by Java Mission Control to localhost:1099
The answer given by Gray worked for me, however I find that I have to open TCP ports 0 to 65535 or I don't get in. I think that you can connect on the main JMX port, and then get another one assigned. I got that from this blog post that has always worked well for me.
We are using AWS Elastic Container Service for running our spring boot services.
The below config allowed us to connect to our docker containers.
Without Authentication:
-Dcom.sun.management.jmxremote \
-Dcom.sun.management.jmxremote.port=9090 \
-Dcom.sun.management.jmxremote.rmi.port=9090 \
-Dcom.sun.management.jmxremote.authenticate=false \
-Dcom.sun.management.jmxremote.ssl=false \
-Djava.rmi.server.hostname=$(/usr/bin/curl -s --connect-timeout 2 \
http://169.254.169.254/latest/meta-data/public-ipv4)
I found it crisp and also doesn't require any other servicer side init script.

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