py-kms/docs/Getting Started.md
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# Getting Started
What follows are some guides how to start the `pykms_Server.py` script, which provides the emulated server.
## Running as a service
***
You can simply manage a daemon that runs as a background process. This can be achieved by using any of the notes below or by writing your own solution.
### Docker
![docker-auto](https://img.shields.io/docker/cloud/automated/pykmsorg/py-kms)
![docker-status](https://img.shields.io/docker/cloud/build/pykmsorg/py-kms)
![docker-pulls](https://img.shields.io/docker/pulls/pykmsorg/py-kms)
![docker-size](https://img.shields.io/docker/image-size/pykmsorg/py-kms)
If you wish to get _py-kms_ just up and running without installing any dependencies or writing own scripts: Just use Docker !
Docker also solves problems regarding the explicit IPv4 and IPv6 usage (it just supports both). The following
command will download, "install" and start _py-kms_ and also keep it alive after any service disruption.
```bash
docker run -d --name py-kms --restart always -p 1688:1688 pykmsorg/py-kms
```
If you just want to use the image and don't want to build them yourself, you can always use the official image at the [Docker Hub](https://hub.docker.com/r/pykmsorg/py-kms) (`pykmsorg/py-kms`). To ensure that you are using always the
latest version you should check something like [watchtower](https://github.com/containrrr/watchtower) out !
#### Tags
There are currently three tags of the image available (select one just by appending `:<tag>` to the image from above):
* `latest`, currently the same like `minimal`.
* `minimal`, which is based on the python3 minimal configuration of py-kms. _This tag does NOT include `sqlite` support !_
* `python3`, which is fully configurable and equipped with `sqlite` support and a web interface for management.
#### Architectures
There are currently the following architectures available (if you need an other, feel free to open an issue):
* `amd64`
* `arm32v6` Raspberry PI 1 (A, A+, B, B+, Zero)
* `arm32v7` Raspberry PI 2 (B)
* `arm64v8` Raspberry PI 2 (B v1.2), Raspberry PI 3 (A+, B, B+), Raspberry PI 4 (B)
_Please note that any architecture other than the classic `amd64` is slightly bigger (~4 MB), caused by the use of qemu during building._
### Systemd
If you are running a Linux distro using `systemd`, create the file: `sudo nano /etc/systemd/system/py3-kms.service`, then add the following (change it where needed) and save:
```systemd
[Unit]
Description=py3-kms
After=network.target
StartLimitIntervalSec=0
[Service]
Type=simple
Restart=always
RestartSec=1
KillMode=process
User=root
ExecStart=/usr/bin/python3 </path/to/your/pykms/files/folder>/py-kms/pykms_Server.py 0.0.0.0 1688 -V DEBUG -F </path/to/your/log/files/folder>/pykms_logserver.log
[Install]
WantedBy=multi-user.target
```
Check syntax with `sudo systemd-analyze verify py3-kms.service`, correct file permission (if needed) `sudo chmod 644 /etc/systemd/system/py3-kms.service`, then reload systemd manager configuration `sudo systemctl daemon-reload`,
start the daemon `sudo systemctl start py3-kms.service` and view its status `sudo systemctl status py3-kms.service`. Check if daemon is correctly running with `cat </path/to/your/log/files/folder>/pykms_logserver.log`. Finally a
few generic commands useful for interact with your daemon [here](https://linoxide.com/linux-how-to/enable-disable-services-ubuntu-systemd-upstart/).
### Etrigan
You can run py-kms daemonized (via [Etrigan](https://github.com/SystemRage/Etrigan)) using a command like `python3 pykms_Server.py etrigan start` and stop it with `python3 pykms_Server.py etrigan stop`. With Etrigan you have another
way to launch py-kms GUI (specially suitable if you're using a virtualenv), so `python3 pykms_Server.py etrigan start -g` and stop the GUI with `python3 pykms_Server.py etrigan stop` (or interact with the `EXIT` button).
### Upstart (deprecated)
If you are running a Linux distro using `upstart` (deprecated), create the file: `sudo nano /etc/init/py3-kms.conf`, then add the following (change it where needed) and save:
```
description "py3-kms"
author "SystemRage"
env PYTHONPATH=/usr/bin
env PYKMSPATH=</path/to/your/pykms/files/folder>/py-kms
env LOGPATH=</path/to/your/log/files/folder>/pykms_logserver.log
start on runlevel [2345]
stop on runlevel [016]
exec $PYTHONPATH/python3 $PYKMSPATH/pykms_Server.py 0.0.0.0 1688 -V DEBUG -F $LOGPATH
respawn
```
Check syntax with `sudo init-checkconf -d /etc/init/py3-kms.conf`, then reload upstart to recognise this process `sudo initctl reload-configuration`. Now start the service `sudo start py3-kms`, and you can see the logfile
stating that your daemon is running: `cat </path/to/your/log/files/folder>/pykms_logserver.log`. Finally a few generic commands useful for interact with your daemon [here](https://eopio.com/linux-upstart-process-manager/).
### Windows
If you are using Windows, to run `pykms_Server.py` as service you need to install [pywin32](https://sourceforge.net/projects/pywin32/), then you can create a file for example named `kms-winservice.py` and put into it this code:
```python
import win32serviceutil
import win32service
import win32event
import servicemanager
import socket
import subprocess
class AppServerSvc (win32serviceutil.ServiceFramework):
_svc_name_ = "py-kms"
_svc_display_name_ = "py-kms"
_proc = None
_cmd = ["C:\Windows\Python27\python.exe", "C:\Windows\Python27\py-kms\pykms_Server.py"]
def __init__(self,args):
win32serviceutil.ServiceFramework.__init__(self,args)
self.hWaitStop = win32event.CreateEvent(None,0,0,None)
socket.setdefaulttimeout(60)
def SvcStop(self):
self.killproc()
self.ReportServiceStatus(win32service.SERVICE_STOP_PENDING)
win32event.SetEvent(self.hWaitStop)
def SvcDoRun(self):
servicemanager.LogMsg(servicemanager.EVENTLOG_INFORMATION_TYPE,
servicemanager.PYS_SERVICE_STARTED,
(self._svc_name_,''))
self.main()
def main(self):
self._proc = subprocess.Popen(self._cmd)
self._proc.wait()
def killproc(self):
self._proc.kill()
if __name__ == '__main__':
win32serviceutil.HandleCommandLine(AppServerSvc)
```
Now in a command prompt type `C:\Windows\Python27\python.exe kms-winservice.py install` to install the service. Display all the services with `services.msc` and find the service associated with _py-kms_, change the startup type
from `manual` to `auto`. Finally `Start` the service. If this approach fails, you can try to use [Non-Sucking Service Manager](https://nssm.cc/) or Task Scheduler as described [here](https://blogs.esri.com/esri/arcgis/2013/07/30/scheduling-a-scrip/).
### Other Platforms
They might be useful to you:
- [FreeNAS](https://github.com/SystemRage/py-kms/issues/56)
- [FreeBSD](https://github.com/SystemRage/py-kms/issues/89)
## Manual Execution
***
### Dependencies
- Python 3.x.
- Tkinter module (for the GUI).
- If the `tzlocal` module is installed, the "Request Time" in the verbose output will be converted into local time. Otherwise, it will be in UTC.
- It can use the `sqlite3` module, storing activation data in a database so it can be recalled again.
- Installation example on Ubuntu / Mint:
- `sudo apt-get update`
- `sudo apt-get install python3-tk python3-pip`
- `sudo pip3 install tzlocal pysqlite3`
### Startup
A Linux user with `ip addr` command can get his KMS IP (Windows users can try `ipconfig /all`).
```bash
user@host ~ $ ip addr
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN group default qlen 1000
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
inet 127.0.0.1/8 scope host lo
valid_lft forever preferred_lft forever
inet6 ::1/128 scope host
valid_lft forever preferred_lft forever
2: enp6s0: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc fq_codel state UP group default qlen 1000
link/ether **:**:**:**:**:** brd ff:ff:ff:ff:ff:ff
inet 192.168.1.102/24 brd 192.168.1.255 scope global dynamic noprefixroute enp6s0
valid_lft 860084sec preferred_lft 860084sec
inet6 ****:****:****:****:****:****:****:****/64 scope global dynamic noprefixroute
valid_lft 6653sec preferred_lft 3052sec
inet6 ****::****:****:****:****/64 scope link noprefixroute
valid_lft forever preferred_lft forever
```
In the example above is `192.168.1.102` the ip we want to listen on, so it is this command (**note you can omit the ip AND port specification if you just wish to listen on all interfaces with port 1688**):
```
user@host ~/path/to/folder/py-kms $ python3 pykms_Server.py 192.168.1.102 1688
```
To stop `pykms_Server.py`, in the same bash window where code running, simply press `CTRL+C`.
Alternatively, in a new bash window, use `kill <pid>` command (you can type `ps aux` first and have the process <pid>) or `killall <name_of_server>`.
### Quick Guide
The following are just some brief notes about parameters handling. For a more detailed description see [here](Usage.md).
- To generate a random HWID use `-w` option: `python3 pykms_Server.py -w RANDOM`.
- To get the HWID from any server use the client, for example type: `python3 pykms_Client.py :: 1688 -m Windows8.1 -V INFO`.
- To change your logfile path use `-F` option, for example: `python3 pykms_Server.py -F /path/to/your/logfile.log -V DEBUG`.
- To view a minimal set of logging information use `-V MININFO` option, for example: `python3 pykms_Server.py -F /path/to/your/logfile.log -V MININFO`.
- To redirect logging on stdout use `-F STDOUT` option, for example: `python3 pykms_Server.py -F STDOUT -V DEBUG`.
- You can create logfile and view logging information on stdout at the same time with `-F FILESTDOUT` option, for example: `python3 pykms_Server.py -F FILESTDOUT /path/to/your/logfile.log -V DEBUG`.
- With `-F STDOUTOFF` you disable all stdout messages (but a logfile will be created), for example: `python3 pykms_Server.py -F STDOUTOFF /path/to/your/logfile.log -V DEBUG`.
- With `-F FILEOFF` you disable logfile creation.
- Select timeout (seconds) for py-kms with `-t0` option, for example `python3 pykms_Server.py -t0 10`.
- Option `-y` enables printing asynchronously of messages (pretty / logging).