When system traffic changes, the number of servers of the upstream service also increases or decreases, or the server needs to be replaced due to its hardware failure. If the gateway maintains upstream service information through configuration, the maintenance costs in the microservices architecture pattern are unpredictable. Furthermore, due to the untimely update of these information, will also bring a certain impact for the business, and the impact of human error operation can not be ignored. So it is very necessary for the gateway to automatically get the latest list of service instances through the service registry。As shown in the figure below:
- When the service starts, it will report some of its information, such as the service name, IP, port and other information to the registry. The services communicate with the registry using a mechanism such as a heartbeat, and if the registry and the service are unable to communicate for a long time, the instance will be cancel.When the service goes offline, the registry will delete the instance information.
- The gateway gets service instance information from the registry in near-real time.
- When the user requests the service through the gateway, the gateway selects one instance from the registry for proxy.
Common registries: Eureka, Etcd, Consul, Zookeeper, Nacos etc.
It is very easy for APISIX to extend the discovery client. , the basic steps are as follows
-
Add the implementation of registry client in the 'apisix/discovery/' directory;
-
Implement the
_M. init_worker()
function for initialization and the_M. nodes(service_name)
function for obtaining the list of service instance nodes; -
Convert the registry data into data in APISIX;
First, add eureka.lua
in the apisix/discovery/
directory;
Then implement the _M.init_worker()
function for initialization and the _M.nodes(service_name)
function for obtaining the list of service instance nodes in eureka.lua
:
local _M = {
version = 1.0,
}
function _M.nodes(service_name)
... ...
end
function _M.init_worker()
... ...
end
return _M
Here's an example of Eureka's data:
{
"applications": {
"application": [
{
"name": "USER-SERVICE", # service name
"instance": [
{
"instanceId": "192.168.1.100:8761",
"hostName": "192.168.1.100",
"app": "USER-SERVICE", # service name
"ipAddr": "192.168.1.100", # IP address
"status": "UP",
"overriddenStatus": "UNKNOWN",
"port": {
"$": 8761,
"@enabled": "true"
},
"securePort": {
"$": 443,
"@enabled": "false"
},
"metadata": {
"management.port": "8761",
"weight": 100 # Setting by 'eureka.instance.metadata-map.weight' of the spring boot application
},
"homePageUrl": "http://192.168.1.100:8761/",
"statusPageUrl": "http://192.168.1.100:8761/actuator/info",
"healthCheckUrl": "http://192.168.1.100:8761/actuator/health",
... ...
}
]
}
]
}
}
Deal with the Eureka's instance data need the following steps :
- select the UP instance. When the value of
overriddenStatus
is "UP" or the value ofoverriddenStatus
is "UNKNOWN" and the value ofstatus
is "UP". - Host. The
ipAddr
is the IP address of instance; and must be IPv4 or IPv6. - Port. If the value of
port["@enabled"]
is equal to "true", using the value ofport["\$"]
, If the value ofsecurePort["@enabled"]
is equal to "true", using the value ofsecurePort["\$"]
. - Weight.
local weight = metadata.weight or local_conf.eureka.weight or 100
The result of this example is as follows:
[
{
"host" : "192.168.1.100",
"port" : 8761,
"weight" : 100,
"metadata" : {
"management.port": "8761",
}
}
]
Add the following configuration to conf/config.yaml
and select one discovery client type which you want:
apisix:
discovery: eureka
This name should be consistent with the file name of the implementation registry in the apisix/discovery/
directory.
The supported discovery client: Eureka.
Add following configuration in conf/config.yaml
:
eureka:
host: # it's possible to define multiple eureka hosts addresses of the same eureka cluster.
- "http://${usename}:${passowrd}@${eureka_host1}:${eureka_port1}"
- "http://${usename}:${passowrd}@${eureka_host2}:${eureka_port2}"
prefix: "/eureka/"
fetch_interval: 30 # 30s
weight: 100 # default weight for node
timeout:
connect: 2000 # 2000ms
send: 2000 # 2000ms
read: 5000 # 5000ms
Here is an example of routing a request with a URL of "/user/*" to a service which named "user-service" in the registry :
$ curl http://127.0.0.1:9080/apisix/admin/routes/1 -H 'X-API-KEY: edd1c9f034335f136f87ad84b625c8f1' -X PUT -i -d '
{
"uri": "/user/*",
"upstream": {
"service_name": "USER-SERVICE",
"type": "roundrobin"
}
}'
HTTP/1.1 201 Created
Date: Sat, 31 Aug 2019 01:17:15 GMT
Content-Type: text/plain
Transfer-Encoding: chunked
Connection: keep-alive
Server: APISIX web server
{"node":{"value":{"uri":"\/user\/*","upstream": {"service_name": "USER-SERVICE", "type": "roundrobin"}},"createdIndex":61925,"key":"\/apisix\/routes\/1","modifiedIndex":61925},"action":"create"}
Because the upstream interface URL may have conflict, usually in the gateway by prefix to distinguish:
$ curl http://127.0.0.1:9080/apisix/admin/routes/1 -H 'X-API-KEY: edd1c9f034335f136f87ad84b625c8f1' -X PUT -i -d '
{
"uri": "/a/*",
"plugins": {
"proxy-rewrite" : {
regex_uri: ["^/a/(.*)", "/${1}"]
}
}
"upstream": {
"service_name": "A-SERVICE",
"type": "roundrobin"
}
}'
$ curl http://127.0.0.1:9080/apisix/admin/routes/2 -H 'X-API-KEY: edd1c9f034335f136f87ad84b625c8f1' -X PUT -i -d '
{
"uri": "/b/*",
"plugins": {
"proxy-rewrite" : {
regex_uri: ["^/b/(.*)", "/${1}"]
}
}
"upstream": {
"service_name": "B-SERVICE",
"type": "roundrobin"
}
}'
Suppose both A-SERVICE and B-SERVICE provide a /test
API. The above configuration allows access to A-SERVICE's /test
API through /a/test
and B-SERVICE's /test
API through /b/test
.
Notice:When configuring upstream.service_name
, upstream.nodes
will no longer take effect, but will be replaced by 'nodes' obtained from the registry.