mirror of
https://github.com/caddyserver/caddy.git
synced 2024-12-23 22:27:38 -05:00
d3b731e925
* Fix 502 errors for requests without headers * Add unexported roundRobinPolicier We have to preserve state for fallback mode of Header policy, so it's required to save state in some variable
361 lines
9.9 KiB
Go
361 lines
9.9 KiB
Go
// Copyright 2015 Light Code Labs, LLC
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package proxy
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import (
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"net/http"
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"net/http/httptest"
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"os"
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"testing"
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)
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var workableServer *httptest.Server
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func TestMain(m *testing.M) {
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workableServer = httptest.NewServer(http.HandlerFunc(
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func(w http.ResponseWriter, r *http.Request) {
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// do nothing
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}))
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r := m.Run()
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workableServer.Close()
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os.Exit(r)
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}
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type customPolicy struct{}
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func (r *customPolicy) Select(pool HostPool, request *http.Request) *UpstreamHost {
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return pool[0]
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}
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func testPool() HostPool {
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pool := []*UpstreamHost{
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{
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Name: workableServer.URL, // this should resolve (healthcheck test)
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},
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{
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Name: "http://localhost:99998", // this shouldn't
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},
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{
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Name: "http://C",
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},
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}
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return HostPool(pool)
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}
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func TestRoundRobinPolicy(t *testing.T) {
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pool := testPool()
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rrPolicy := &RoundRobin{}
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request, _ := http.NewRequest("GET", "/", nil)
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h := rrPolicy.Select(pool, request)
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// First selected host is 1, because counter starts at 0
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// and increments before host is selected
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if h != pool[1] {
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t.Error("Expected first round robin host to be second host in the pool.")
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}
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h = rrPolicy.Select(pool, request)
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if h != pool[2] {
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t.Error("Expected second round robin host to be third host in the pool.")
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}
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h = rrPolicy.Select(pool, request)
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if h != pool[0] {
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t.Error("Expected third round robin host to be first host in the pool.")
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}
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// mark host as down
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pool[1].Unhealthy = 1
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h = rrPolicy.Select(pool, request)
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if h != pool[2] {
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t.Error("Expected to skip down host.")
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}
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// mark host as up
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pool[1].Unhealthy = 0
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h = rrPolicy.Select(pool, request)
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if h == pool[2] {
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t.Error("Expected to balance evenly among healthy hosts")
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}
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// mark host as full
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pool[1].Conns = 1
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pool[1].MaxConns = 1
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h = rrPolicy.Select(pool, request)
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if h != pool[2] {
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t.Error("Expected to skip full host.")
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}
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}
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func TestLeastConnPolicy(t *testing.T) {
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pool := testPool()
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lcPolicy := &LeastConn{}
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request, _ := http.NewRequest("GET", "/", nil)
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pool[0].Conns = 10
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pool[1].Conns = 10
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h := lcPolicy.Select(pool, request)
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if h != pool[2] {
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t.Error("Expected least connection host to be third host.")
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}
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pool[2].Conns = 100
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h = lcPolicy.Select(pool, request)
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if h != pool[0] && h != pool[1] {
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t.Error("Expected least connection host to be first or second host.")
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}
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}
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func TestCustomPolicy(t *testing.T) {
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pool := testPool()
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customPolicy := &customPolicy{}
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request, _ := http.NewRequest("GET", "/", nil)
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h := customPolicy.Select(pool, request)
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if h != pool[0] {
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t.Error("Expected custom policy host to be the first host.")
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}
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}
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func TestIPHashPolicy(t *testing.T) {
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pool := testPool()
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ipHash := &IPHash{}
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request, _ := http.NewRequest("GET", "/", nil)
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// We should be able to predict where every request is routed.
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request.RemoteAddr = "172.0.0.1:80"
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h := ipHash.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected ip hash policy host to be the second host.")
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}
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request.RemoteAddr = "172.0.0.2:80"
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h = ipHash.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected ip hash policy host to be the second host.")
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}
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request.RemoteAddr = "172.0.0.3:80"
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h = ipHash.Select(pool, request)
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if h != pool[2] {
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t.Error("Expected ip hash policy host to be the third host.")
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}
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request.RemoteAddr = "172.0.0.4:80"
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h = ipHash.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected ip hash policy host to be the second host.")
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}
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// we should get the same results without a port
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request.RemoteAddr = "172.0.0.1"
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h = ipHash.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected ip hash policy host to be the second host.")
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}
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request.RemoteAddr = "172.0.0.2"
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h = ipHash.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected ip hash policy host to be the second host.")
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}
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request.RemoteAddr = "172.0.0.3"
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h = ipHash.Select(pool, request)
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if h != pool[2] {
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t.Error("Expected ip hash policy host to be the third host.")
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}
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request.RemoteAddr = "172.0.0.4"
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h = ipHash.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected ip hash policy host to be the second host.")
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}
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// we should get a healthy host if the original host is unhealthy and a
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// healthy host is available
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request.RemoteAddr = "172.0.0.1"
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pool[1].Unhealthy = 1
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h = ipHash.Select(pool, request)
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if h != pool[2] {
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t.Error("Expected ip hash policy host to be the third host.")
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}
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request.RemoteAddr = "172.0.0.2"
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h = ipHash.Select(pool, request)
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if h != pool[2] {
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t.Error("Expected ip hash policy host to be the third host.")
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}
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pool[1].Unhealthy = 0
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request.RemoteAddr = "172.0.0.3"
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pool[2].Unhealthy = 1
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h = ipHash.Select(pool, request)
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if h != pool[0] {
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t.Error("Expected ip hash policy host to be the first host.")
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}
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request.RemoteAddr = "172.0.0.4"
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h = ipHash.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected ip hash policy host to be the second host.")
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}
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// We should be able to resize the host pool and still be able to predict
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// where a request will be routed with the same IP's used above
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pool = []*UpstreamHost{
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{
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Name: workableServer.URL, // this should resolve (healthcheck test)
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},
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{
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Name: "http://localhost:99998", // this shouldn't
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},
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}
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pool = HostPool(pool)
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request.RemoteAddr = "172.0.0.1:80"
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h = ipHash.Select(pool, request)
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if h != pool[0] {
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t.Error("Expected ip hash policy host to be the first host.")
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}
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request.RemoteAddr = "172.0.0.2:80"
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h = ipHash.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected ip hash policy host to be the second host.")
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}
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request.RemoteAddr = "172.0.0.3:80"
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h = ipHash.Select(pool, request)
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if h != pool[0] {
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t.Error("Expected ip hash policy host to be the first host.")
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}
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request.RemoteAddr = "172.0.0.4:80"
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h = ipHash.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected ip hash policy host to be the second host.")
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}
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// We should get nil when there are no healthy hosts
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pool[0].Unhealthy = 1
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pool[1].Unhealthy = 1
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h = ipHash.Select(pool, request)
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if h != nil {
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t.Error("Expected ip hash policy host to be nil.")
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}
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}
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func TestFirstPolicy(t *testing.T) {
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pool := testPool()
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firstPolicy := &First{}
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req := httptest.NewRequest(http.MethodGet, "/", nil)
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h := firstPolicy.Select(pool, req)
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if h != pool[0] {
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t.Error("Expected first policy host to be the first host.")
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}
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pool[0].Unhealthy = 1
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h = firstPolicy.Select(pool, req)
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if h != pool[1] {
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t.Error("Expected first policy host to be the second host.")
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}
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}
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func TestUriPolicy(t *testing.T) {
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pool := testPool()
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uriPolicy := &URIHash{}
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request := httptest.NewRequest(http.MethodGet, "/test", nil)
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h := uriPolicy.Select(pool, request)
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if h != pool[0] {
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t.Error("Expected uri policy host to be the first host.")
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}
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pool[0].Unhealthy = 1
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h = uriPolicy.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected uri policy host to be the first host.")
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}
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request = httptest.NewRequest(http.MethodGet, "/test_2", nil)
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h = uriPolicy.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected uri policy host to be the second host.")
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}
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// We should be able to resize the host pool and still be able to predict
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// where a request will be routed with the same URI's used above
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pool = []*UpstreamHost{
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{
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Name: workableServer.URL, // this should resolve (healthcheck test)
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},
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{
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Name: "http://localhost:99998", // this shouldn't
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},
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}
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request = httptest.NewRequest(http.MethodGet, "/test", nil)
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h = uriPolicy.Select(pool, request)
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if h != pool[0] {
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t.Error("Expected uri policy host to be the first host.")
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}
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pool[0].Unhealthy = 1
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h = uriPolicy.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected uri policy host to be the first host.")
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}
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request = httptest.NewRequest(http.MethodGet, "/test_2", nil)
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h = uriPolicy.Select(pool, request)
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if h != pool[1] {
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t.Error("Expected uri policy host to be the second host.")
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}
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pool[0].Unhealthy = 1
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pool[1].Unhealthy = 1
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h = uriPolicy.Select(pool, request)
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if h != nil {
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t.Error("Expected uri policy policy host to be nil.")
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}
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}
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func TestHeaderPolicy(t *testing.T) {
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pool := testPool()
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tests := []struct {
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Name string
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Policy *Header
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RequestHeaderName string
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RequestHeaderValue string
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NilHost bool
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HostIndex int
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}{
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{"empty config", &Header{""}, "", "", true, 0},
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{"empty config+header+value", &Header{""}, "Affinity", "somevalue", true, 0},
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{"empty config+header", &Header{""}, "Affinity", "", true, 0},
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{"no header(fallback to roundrobin)", &Header{"Affinity"}, "", "", false, 1},
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{"no header(fallback to roundrobin)", &Header{"Affinity"}, "", "", false, 2},
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{"no header(fallback to roundrobin)", &Header{"Affinity"}, "", "", false, 0},
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{"hash route to host", &Header{"Affinity"}, "Affinity", "somevalue", false, 1},
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{"hash route to host", &Header{"Affinity"}, "Affinity", "somevalue2", false, 0},
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{"hash route to host", &Header{"Affinity"}, "Affinity", "somevalue3", false, 2},
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{"hash route with empty value", &Header{"Affinity"}, "Affinity", "", false, 1},
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}
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for idx, test := range tests {
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request, _ := http.NewRequest("GET", "/", nil)
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if test.RequestHeaderName != "" {
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request.Header.Add(test.RequestHeaderName, test.RequestHeaderValue)
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}
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host := test.Policy.Select(pool, request)
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if test.NilHost && host != nil {
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t.Errorf("%d: Expected host to be nil", idx)
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}
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if !test.NilHost && host == nil {
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t.Errorf("%d: Did not expect host to be nil", idx)
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}
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if !test.NilHost && host != pool[test.HostIndex] {
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t.Errorf("%d: Expected Header policy to be host %d", idx, test.HostIndex)
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}
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}
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}
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