176 lines
5.4 KiB
Python
176 lines
5.4 KiB
Python
from hcloud import Client
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from hcloud.networks.domain import NetworkSubnet
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from hcloud.locations.domain import Location
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from hcloud.server_types.domain import ServerType
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from hcloud.images.domain import Image
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from hcloud.volumes.domain import Volume
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from hcloud.load_balancer_types.domain import LoadBalancerType
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from hcloud.load_balancers.domain import LoadBalancerAlgorithm, LoadBalancerServiceHttp, LoadBalancerHealthCheck, LoadBalancerService, LoadBalancerHealtCheckHttp, LoadBalancerTarget
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class HetzerDeployment:
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KEY_NAME = "patrycjalazna@patrycjalazna.local"
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client = None
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ssh_key = None
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def __init__(self, name, server_type = "cx11", image = "ubuntu-20.04", location = "hel1"):
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self.name = name
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self.server_type = server_type
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self.image = image
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self.location = location
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self.client = self.create_client()
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self.ssh_key = self.get_ssh_key()
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def get_ssh_key(self):
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with open("ssh_key.txt", "r") as f:
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ssh_pub_key = f.read()
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if self.client.ssh_keys.get_by_name(self.KEY_NAME):
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ssh_key = self.client.ssh_keys.get_by_name(self.KEY_NAME)
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else:
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ssh_key = self.client.ssh_keys.create(name=self.KEY_NAME, public_key=ssh_pub_key)
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return ssh_key
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def get_auth_token(self):
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with open("API_key.txt", "r") as f:
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API_key = f.read()
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return API_key
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def create_client(self):
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API_key = self.get_auth_token()
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client = Client(token=API_key)
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return client
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def create_network(self):
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vnet = self.client.networks.create(
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name= self.name + "-vnet",
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ip_range="10.10.10.0/24",
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subnets=[
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NetworkSubnet(ip_range="10.10.10.0/24", network_zone="eu-central", type="cloud")
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]
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)
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print(f"Utworzono sieć wirtualną {vnet.data_model.name} ({vnet.data_model.ip_range})")
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return vnet
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def create_server(self, vnet, server_name, filename, num, volume=None):
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with open(filename, "r") as f:
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cloud_init = f.read()
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name = self.name + server_name + str(num)
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if volume is not None:
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server = self.client.servers.create(
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name=name,
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server_type=ServerType(self.server_type),
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image=Image(name=self.image),
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ssh_keys=[self.ssh_key],
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networks=[vnet],
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location=Location(self.location),
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user_data=cloud_init,
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volumes=[volume.volume]
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)
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else:
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server = self.client.servers.create(
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name=name,
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server_type=ServerType(self.server_type),
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image=Image(name=self.image),
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ssh_keys=[self.ssh_key],
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networks=[vnet],
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location=Location(self.location),
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user_data=cloud_init
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)
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server.action.wait_until_finished()
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print(f"Tworzenie serwera {name}: {server.action.complete}")
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server_ip = self.client.servers.get_by_name(name)
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print(f"Serwer: {server_ip.data_model.name}\n\tpubliczne IP: {server_ip.data_model.public_net.ipv4.ip}")
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return server.server
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def create_load_balancer(self, servers, vnet, lb_type):
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name = self.name + "-load-balancer"
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targets = []
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for s in servers:
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targets.append(LoadBalancerTarget(
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type="server",
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server=s,
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use_private_ip=True
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))
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load_balancer = self.client.load_balancers.create(
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name=name,
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load_balancer_type=LoadBalancerType(name=lb_type),
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location=Location(self.location),
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services=[
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LoadBalancerService(
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protocol="http",
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listen_port=8080,
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destination_port=8080,
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proxyprotocol=False,
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health_check=LoadBalancerHealthCheck(
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protocol="http",
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port="8080",
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interval=15,
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timeout=10,
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retries=3,
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http=LoadBalancerHealtCheckHttp(
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path="/factors/10",
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status_codes=["2??", "3??"],
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tls=False
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)
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)
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)
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],
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targets=targets,
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public_interface=True,
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network=vnet
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)
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load_balancer.action.wait_until_finished()
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print(f"Tworzenie load balancera {name}: {load_balancer.action.complete}")
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load_balancer = self.client.load_balancers.get_by_name(name)
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print(f"Load balancer: {load_balancer.data_model.name}\n\tpubliczne IP: {load_balancer.data_model.public_net.ipv4.ip}")
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return load_balancer
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def deploy(self):
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vnet = self.create_network()
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servers = []
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for i in range(2):
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servers.append(self.create_server(vnet, "prime", "cloud_init.yaml", i))
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load_balancer = self.create_load_balancer(servers, vnet, "lb11")
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def main():
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h = HetzerDeployment('patlaz---')
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h.deploy()
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if __name__ == '__main__':
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main() |