traefik/provider/ecs/config_test.go
2018-01-10 18:28:03 +01:00

1363 lines
41 KiB
Go

package ecs
import (
"testing"
"time"
"github.com/aws/aws-sdk-go/aws"
"github.com/aws/aws-sdk-go/service/ec2"
"github.com/aws/aws-sdk-go/service/ecs"
"github.com/containous/flaeg"
"github.com/containous/traefik/provider/label"
"github.com/containous/traefik/types"
"github.com/stretchr/testify/assert"
)
func TestBuildConfiguration(t *testing.T) {
tests := []struct {
desc string
services map[string][]ecsInstance
expected *types.Configuration
err error
}{
{
desc: "config parsed successfully",
services: map[string][]ecsInstance{
"testing": {{
Name: "instance",
ID: "1",
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{},
},
machine: &ec2.Instance{
PrivateIpAddress: aws.String("10.0.0.1"),
},
container: &ecs.Container{
NetworkBindings: []*ecs.NetworkBinding{{
HostPort: aws.Int64(1337),
}},
},
}},
},
expected: &types.Configuration{
Backends: map[string]*types.Backend{
"backend-testing": {
Servers: map[string]types.Server{
"server-instance-1": {
URL: "http://10.0.0.1:1337",
}},
},
},
Frontends: map[string]*types.Frontend{
"frontend-testing": {
EntryPoints: []string{},
Backend: "backend-testing",
Routes: map[string]types.Route{
"route-frontend-testing": {
Rule: "Host:instance.",
},
},
PassHostHeader: true,
BasicAuth: []string{},
},
},
},
},
{
desc: "config parsed successfully with health check labels",
services: map[string][]ecsInstance{
"testing": {{
Name: "instance",
ID: "1",
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikBackendHealthCheckPath: aws.String("/health"),
label.TraefikBackendHealthCheckInterval: aws.String("1s"),
}},
machine: &ec2.Instance{
PrivateIpAddress: aws.String("10.0.0.1"),
},
container: &ecs.Container{
NetworkBindings: []*ecs.NetworkBinding{{
HostPort: aws.Int64(1337),
}},
},
}},
},
expected: &types.Configuration{
Backends: map[string]*types.Backend{
"backend-testing": {
HealthCheck: &types.HealthCheck{
Path: "/health",
Interval: "1s",
},
Servers: map[string]types.Server{
"server-instance-1": {
URL: "http://10.0.0.1:1337",
}},
},
},
Frontends: map[string]*types.Frontend{
"frontend-testing": {
EntryPoints: []string{},
Backend: "backend-testing",
Routes: map[string]types.Route{
"route-frontend-testing": {
Rule: "Host:instance.",
},
},
PassHostHeader: true,
BasicAuth: []string{},
},
},
},
},
{
desc: "when all labels are set",
services: map[string][]ecsInstance{
"testing-instance": {{
Name: "testing-instance",
ID: "6",
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikPort: aws.String("666"),
label.TraefikProtocol: aws.String("https"),
label.TraefikWeight: aws.String("12"),
label.TraefikBackend: aws.String("foobar"),
label.TraefikBackendCircuitBreakerExpression: aws.String("NetworkErrorRatio() > 0.5"),
label.TraefikBackendHealthCheckPath: aws.String("/health"),
label.TraefikBackendHealthCheckPort: aws.String("880"),
label.TraefikBackendHealthCheckInterval: aws.String("6"),
label.TraefikBackendLoadBalancerMethod: aws.String("drr"),
label.TraefikBackendLoadBalancerSticky: aws.String("true"),
label.TraefikBackendLoadBalancerStickiness: aws.String("true"),
label.TraefikBackendLoadBalancerStickinessCookieName: aws.String("chocolate"),
label.TraefikBackendMaxConnAmount: aws.String("666"),
label.TraefikBackendMaxConnExtractorFunc: aws.String("client.ip"),
label.TraefikFrontendAuthBasic: aws.String("test:$apr1$H6uskkkW$IgXLP6ewTrSuBkTrqE8wj/,test2:$apr1$d9hr9HBB$4HxwgUir3HP4EsggP/QNo0"),
label.TraefikFrontendEntryPoints: aws.String("http,https"),
label.TraefikFrontendPassHostHeader: aws.String("true"),
label.TraefikFrontendPassTLSCert: aws.String("true"),
label.TraefikFrontendPriority: aws.String("666"),
label.TraefikFrontendRedirectEntryPoint: aws.String("https"),
label.TraefikFrontendRedirectRegex: aws.String("nope"),
label.TraefikFrontendRedirectReplacement: aws.String("nope"),
label.TraefikFrontendRule: aws.String("Host:traefik.io"),
label.TraefikFrontendWhitelistSourceRange: aws.String("10.10.10.10"),
label.TraefikFrontendRequestHeaders: aws.String("Access-Control-Allow-Methods:POST,GET,OPTIONS || Content-type: application/json; charset=utf-8"),
label.TraefikFrontendResponseHeaders: aws.String("Access-Control-Allow-Methods:POST,GET,OPTIONS || Content-type: application/json; charset=utf-8"),
label.TraefikFrontendSSLProxyHeaders: aws.String("Access-Control-Allow-Methods:POST,GET,OPTIONS || Content-type: application/json; charset=utf-8"),
label.TraefikFrontendAllowedHosts: aws.String("foo,bar,bor"),
label.TraefikFrontendHostsProxyHeaders: aws.String("foo,bar,bor"),
label.TraefikFrontendSSLHost: aws.String("foo"),
label.TraefikFrontendCustomFrameOptionsValue: aws.String("foo"),
label.TraefikFrontendContentSecurityPolicy: aws.String("foo"),
label.TraefikFrontendPublicKey: aws.String("foo"),
label.TraefikFrontendReferrerPolicy: aws.String("foo"),
label.TraefikFrontendSTSSeconds: aws.String("666"),
label.TraefikFrontendSSLRedirect: aws.String("true"),
label.TraefikFrontendSSLTemporaryRedirect: aws.String("true"),
label.TraefikFrontendSTSIncludeSubdomains: aws.String("true"),
label.TraefikFrontendSTSPreload: aws.String("true"),
label.TraefikFrontendForceSTSHeader: aws.String("true"),
label.TraefikFrontendFrameDeny: aws.String("true"),
label.TraefikFrontendContentTypeNosniff: aws.String("true"),
label.TraefikFrontendBrowserXSSFilter: aws.String("true"),
label.TraefikFrontendIsDevelopment: aws.String("true"),
label.Prefix + label.BaseFrontendErrorPage + "foo." + label.SuffixErrorPageStatus: aws.String("404"),
label.Prefix + label.BaseFrontendErrorPage + "foo." + label.SuffixErrorPageBackend: aws.String("foobar"),
label.Prefix + label.BaseFrontendErrorPage + "foo." + label.SuffixErrorPageQuery: aws.String("foo_query"),
label.Prefix + label.BaseFrontendErrorPage + "bar." + label.SuffixErrorPageStatus: aws.String("500,600"),
label.Prefix + label.BaseFrontendErrorPage + "bar." + label.SuffixErrorPageBackend: aws.String("foobar"),
label.Prefix + label.BaseFrontendErrorPage + "bar." + label.SuffixErrorPageQuery: aws.String("bar_query"),
label.TraefikFrontendRateLimitExtractorFunc: aws.String("client.ip"),
label.Prefix + label.BaseFrontendRateLimit + "foo." + label.SuffixRateLimitPeriod: aws.String("6"),
label.Prefix + label.BaseFrontendRateLimit + "foo." + label.SuffixRateLimitAverage: aws.String("12"),
label.Prefix + label.BaseFrontendRateLimit + "foo." + label.SuffixRateLimitBurst: aws.String("18"),
label.Prefix + label.BaseFrontendRateLimit + "bar." + label.SuffixRateLimitPeriod: aws.String("3"),
label.Prefix + label.BaseFrontendRateLimit + "bar." + label.SuffixRateLimitAverage: aws.String("6"),
label.Prefix + label.BaseFrontendRateLimit + "bar." + label.SuffixRateLimitBurst: aws.String("9"),
}},
machine: &ec2.Instance{
PrivateIpAddress: aws.String("10.0.0.1"),
},
container: &ecs.Container{
NetworkBindings: []*ecs.NetworkBinding{{
HostPort: aws.Int64(1337),
}},
},
}},
},
expected: &types.Configuration{
Backends: map[string]*types.Backend{
"backend-testing-instance": {
Servers: map[string]types.Server{
"server-testing-instance-6": {
URL: "https://10.0.0.1:666",
Weight: 12,
},
},
CircuitBreaker: &types.CircuitBreaker{
Expression: "NetworkErrorRatio() > 0.5",
},
LoadBalancer: &types.LoadBalancer{
Method: "drr",
Sticky: true,
Stickiness: &types.Stickiness{
CookieName: "chocolate",
},
},
MaxConn: &types.MaxConn{
Amount: 666,
ExtractorFunc: "client.ip",
},
HealthCheck: &types.HealthCheck{
Path: "/health",
Port: 880,
Interval: "6",
},
},
},
Frontends: map[string]*types.Frontend{
"frontend-testing-instance": {
EntryPoints: []string{
"http",
"https",
},
Backend: "backend-testing-instance",
Routes: map[string]types.Route{
"route-frontend-testing-instance": {
Rule: "Host:traefik.io",
},
},
PassHostHeader: true,
PassTLSCert: true,
Priority: 666,
BasicAuth: []string{
"test:$apr1$H6uskkkW$IgXLP6ewTrSuBkTrqE8wj/",
"test2:$apr1$d9hr9HBB$4HxwgUir3HP4EsggP/QNo0",
},
WhitelistSourceRange: []string{
"10.10.10.10",
},
Headers: &types.Headers{
CustomRequestHeaders: map[string]string{
"Access-Control-Allow-Methods": "POST,GET,OPTIONS",
"Content-Type": "application/json; charset=utf-8",
},
CustomResponseHeaders: map[string]string{
"Access-Control-Allow-Methods": "POST,GET,OPTIONS",
"Content-Type": "application/json; charset=utf-8",
},
AllowedHosts: []string{
"foo",
"bar",
"bor",
},
HostsProxyHeaders: []string{
"foo",
"bar",
"bor",
},
SSLRedirect: true,
SSLTemporaryRedirect: true,
SSLHost: "foo",
SSLProxyHeaders: map[string]string{
"Access-Control-Allow-Methods": "POST,GET,OPTIONS",
"Content-Type": "application/json; charset=utf-8",
},
STSSeconds: 666,
STSIncludeSubdomains: true,
STSPreload: true,
ForceSTSHeader: true,
FrameDeny: true,
CustomFrameOptionsValue: "foo",
ContentTypeNosniff: true,
BrowserXSSFilter: true,
ContentSecurityPolicy: "foo",
PublicKey: "foo",
ReferrerPolicy: "foo",
IsDevelopment: true,
},
Errors: map[string]*types.ErrorPage{
"bar": {
Status: []string{
"500",
"600",
},
Backend: "foobar",
Query: "bar_query",
},
"foo": {
Status: []string{
"404",
},
Backend: "foobar",
Query: "foo_query",
},
},
RateLimit: &types.RateLimit{
RateSet: map[string]*types.Rate{
"bar": {
Period: flaeg.Duration(3 * time.Second),
Average: 6,
Burst: 9,
},
"foo": {
Period: flaeg.Duration(6 * time.Second),
Average: 12,
Burst: 18,
},
},
ExtractorFunc: "client.ip",
},
Redirect: &types.Redirect{
EntryPoint: "https",
Regex: "",
Replacement: "",
},
},
},
},
},
}
for _, test := range tests {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
provider := &Provider{}
got, err := provider.buildConfiguration(test.services)
assert.Equal(t, test.err, err)
assert.Equal(t, test.expected, got, test.desc)
})
}
}
func TestFilterInstance(t *testing.T) {
nilPrivateIP := simpleEcsInstance(map[string]*string{})
nilPrivateIP.machine.PrivateIpAddress = nil
nilMachine := simpleEcsInstance(map[string]*string{})
nilMachine.machine = nil
nilMachineState := simpleEcsInstance(map[string]*string{})
nilMachineState.machine.State = nil
nilMachineStateName := simpleEcsInstance(map[string]*string{})
nilMachineStateName.machine.State.Name = nil
invalidMachineState := simpleEcsInstance(map[string]*string{})
invalidMachineState.machine.State.Name = aws.String(ec2.InstanceStateNameStopped)
noNetwork := simpleEcsInstanceNoNetwork(map[string]*string{})
noNetworkWithLabel := simpleEcsInstanceNoNetwork(map[string]*string{
label.TraefikPort: aws.String("80"),
})
tests := []struct {
desc string
instanceInfo ecsInstance
exposedByDefault bool
expected bool
}{
{
desc: "Instance without enable label and exposed by default enabled should be not filtered",
instanceInfo: simpleEcsInstance(map[string]*string{}),
exposedByDefault: true,
expected: true,
},
{
desc: "Instance without enable label and exposed by default disabled should be filtered",
instanceInfo: simpleEcsInstance(map[string]*string{}),
exposedByDefault: false,
expected: false,
},
{
desc: "Instance with enable label set to false and exposed by default enabled should be filtered",
instanceInfo: simpleEcsInstance(map[string]*string{
label.TraefikEnable: aws.String("false"),
}),
exposedByDefault: true,
expected: false,
},
{
desc: "Instance with enable label set to true and exposed by default disabled should be not filtered",
instanceInfo: simpleEcsInstance(map[string]*string{
label.TraefikEnable: aws.String("true"),
}),
exposedByDefault: false,
expected: true,
},
{
desc: "Instance with nil private ip and exposed by default enabled should be filtered",
instanceInfo: nilPrivateIP,
exposedByDefault: true,
expected: false,
},
{
desc: "Instance with nil machine and exposed by default enabled should be filtered",
instanceInfo: nilMachine,
exposedByDefault: true,
expected: false,
},
{
desc: "Instance with nil machine state and exposed by default enabled should be filtered",
instanceInfo: nilMachineState,
exposedByDefault: true,
expected: false,
},
{
desc: "Instance with nil machine state name and exposed by default enabled should be filtered",
instanceInfo: nilMachineStateName,
exposedByDefault: true,
expected: false,
},
{
desc: "Instance with invalid machine state and exposed by default enabled should be filtered",
instanceInfo: invalidMachineState,
exposedByDefault: true,
expected: false,
},
{
desc: "Instance with no port mappings should be filtered",
instanceInfo: noNetwork,
exposedByDefault: true,
expected: false,
},
{
desc: "Instance with no port mapping and with label should not be filtered",
instanceInfo: noNetworkWithLabel,
exposedByDefault: true,
expected: true,
},
}
for _, test := range tests {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
prov := &Provider{
ExposedByDefault: test.exposedByDefault,
}
actual := prov.filterInstance(test.instanceInfo)
assert.Equal(t, test.expected, actual)
})
}
}
func TestChunkedTaskArns(t *testing.T) {
testVal := "a"
tests := []struct {
desc string
count int
expectedLengths []int
}{
{
desc: "0 parameter should return nil",
count: 0,
expectedLengths: []int(nil),
},
{
desc: "1 parameter should return 1 array of 1 element",
count: 1,
expectedLengths: []int{1},
},
{
desc: "99 parameters should return 1 array of 99 elements",
count: 99,
expectedLengths: []int{99},
},
{
desc: "100 parameters should return 1 array of 100 elements",
count: 100,
expectedLengths: []int{100},
},
{
desc: "101 parameters should return 1 array of 100 elements and 1 array of 1 element",
count: 101,
expectedLengths: []int{100, 1},
},
{
desc: "199 parameters should return 1 array of 100 elements and 1 array of 99 elements",
count: 199,
expectedLengths: []int{100, 99},
},
{
desc: "200 parameters should return 2 arrays of 100 elements each",
count: 200,
expectedLengths: []int{100, 100},
},
{
desc: "201 parameters should return 2 arrays of 100 elements each and 1 array of 1 element",
count: 201,
expectedLengths: []int{100, 100, 1},
},
{
desc: "555 parameters should return 5 arrays of 100 elements each and 1 array of 55 elements",
count: 555,
expectedLengths: []int{100, 100, 100, 100, 100, 55},
},
{
desc: "1001 parameters should return 10 arrays of 100 elements each and 1 array of 1 element",
count: 1001,
expectedLengths: []int{100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 1},
},
}
for _, test := range tests {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
var tasks []*string
for v := 0; v < test.count; v++ {
tasks = append(tasks, &testVal)
}
out := chunkedTaskArns(tasks)
var outCount []int
for _, el := range out {
outCount = append(outCount, len(el))
}
assert.Equal(t, test.expectedLengths, outCount, "Chunking %d elements", test.count)
})
}
}
func TestGetHost(t *testing.T) {
tests := []struct {
desc string
expected string
instanceInfo ecsInstance
}{
{
desc: "Default host should be 10.0.0.0",
expected: "10.0.0.0",
instanceInfo: simpleEcsInstance(map[string]*string{}),
},
}
for _, test := range tests {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getHost(test.instanceInfo)
assert.Equal(t, test.expected, actual)
})
}
}
func TestGetPort(t *testing.T) {
tests := []struct {
desc string
expected string
instanceInfo ecsInstance
}{
{
desc: "Default port should be 80",
expected: "80",
instanceInfo: simpleEcsInstance(map[string]*string{}),
},
{
desc: "Label should override network port",
expected: "4242",
instanceInfo: simpleEcsInstance(map[string]*string{
label.TraefikPort: aws.String("4242"),
}),
},
{
desc: "Label should provide exposed port",
expected: "80",
instanceInfo: simpleEcsInstanceNoNetwork(map[string]*string{
label.TraefikPort: aws.String("80"),
}),
},
}
for _, test := range tests {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getPort(test.instanceInfo)
assert.Equal(t, test.expected, actual)
})
}
}
func TestGetFuncStringValue(t *testing.T) {
tests := []struct {
desc string
expected string
instanceInfo ecsInstance
}{
{
desc: "Protocol label is not set should return a string equals to http",
expected: "http",
instanceInfo: simpleEcsInstance(map[string]*string{}),
},
{
desc: "Protocol label is set to http should return a string equals to http",
expected: "http",
instanceInfo: simpleEcsInstance(map[string]*string{
label.TraefikProtocol: aws.String("http"),
}),
},
{
desc: "Protocol label is set to https should return a string equals to https",
expected: "https",
instanceInfo: simpleEcsInstance(map[string]*string{
label.TraefikProtocol: aws.String("https"),
}),
},
}
for _, test := range tests {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getFuncStringValue(label.TraefikProtocol, label.DefaultProtocol)(test.instanceInfo)
assert.Equal(t, test.expected, actual)
})
}
}
func TestGetFuncSliceString(t *testing.T) {
tests := []struct {
desc string
expected []string
instanceInfo ecsInstance
}{
{
desc: "Frontend entrypoints label not set should return empty array",
expected: nil,
instanceInfo: simpleEcsInstance(map[string]*string{}),
},
{
desc: "Frontend entrypoints label set to http should return a string array of 1 element",
expected: []string{"http"},
instanceInfo: simpleEcsInstance(map[string]*string{
label.TraefikFrontendEntryPoints: aws.String("http"),
}),
},
{
desc: "Frontend entrypoints label set to http,https should return a string array of 2 elements",
expected: []string{"http", "https"},
instanceInfo: simpleEcsInstance(map[string]*string{
label.TraefikFrontendEntryPoints: aws.String("http,https"),
}),
},
}
for _, test := range tests {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getFuncSliceString(label.TraefikFrontendEntryPoints)(test.instanceInfo)
assert.Equal(t, test.expected, actual)
})
}
}
func makeEcsInstance(containerDef *ecs.ContainerDefinition) ecsInstance {
container := &ecs.Container{
Name: containerDef.Name,
NetworkBindings: make([]*ecs.NetworkBinding, len(containerDef.PortMappings)),
}
for i, pm := range containerDef.PortMappings {
container.NetworkBindings[i] = &ecs.NetworkBinding{
HostPort: pm.HostPort,
ContainerPort: pm.ContainerPort,
Protocol: pm.Protocol,
BindIP: aws.String("0.0.0.0"),
}
}
return ecsInstance{
Name: "foo-http",
ID: "123456789abc",
task: &ecs.Task{
Containers: []*ecs.Container{container},
},
taskDefinition: &ecs.TaskDefinition{
ContainerDefinitions: []*ecs.ContainerDefinition{containerDef},
},
container: container,
containerDefinition: containerDef,
machine: &ec2.Instance{
PrivateIpAddress: aws.String("10.0.0.0"),
State: &ec2.InstanceState{
Name: aws.String(ec2.InstanceStateNameRunning),
},
},
}
}
func simpleEcsInstance(labels map[string]*string) ecsInstance {
return makeEcsInstance(&ecs.ContainerDefinition{
Name: aws.String("http"),
PortMappings: []*ecs.PortMapping{{
HostPort: aws.Int64(80),
ContainerPort: aws.Int64(80),
Protocol: aws.String("tcp"),
}},
DockerLabels: labels,
})
}
func simpleEcsInstanceNoNetwork(labels map[string]*string) ecsInstance {
return makeEcsInstance(&ecs.ContainerDefinition{
Name: aws.String("http"),
PortMappings: []*ecs.PortMapping{},
DockerLabels: labels,
})
}
func TestGetCircuitBreaker(t *testing.T) {
testCases := []struct {
desc string
instance ecsInstance
expected *types.CircuitBreaker
}{
{
desc: "should return nil when no CB label",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{},
},
},
expected: nil,
},
{
desc: "",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikBackendCircuitBreakerExpression: aws.String("NetworkErrorRatio() > 0.5"),
}}},
expected: &types.CircuitBreaker{
Expression: "NetworkErrorRatio() > 0.5",
},
},
}
for _, test := range testCases {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getCircuitBreaker(test.instance)
assert.Equal(t, test.expected, actual)
})
}
}
func TestGetLoadBalancer(t *testing.T) {
testCases := []struct {
desc string
instance ecsInstance
expected *types.LoadBalancer
}{
{
desc: "should return nil when no LB labels",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{},
},
},
expected: nil,
},
{
desc: "should return a struct when labels are set",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikBackendLoadBalancerMethod: aws.String("drr"),
label.TraefikBackendLoadBalancerSticky: aws.String("true"),
label.TraefikBackendLoadBalancerStickiness: aws.String("true"),
label.TraefikBackendLoadBalancerStickinessCookieName: aws.String("foo"),
}}},
expected: &types.LoadBalancer{
Method: "drr",
Sticky: true,
Stickiness: &types.Stickiness{
CookieName: "foo",
},
},
},
{
desc: "should return a nil Stickiness when Stickiness is not set",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikBackendLoadBalancerMethod: aws.String("drr"),
label.TraefikBackendLoadBalancerSticky: aws.String("true"),
label.TraefikBackendLoadBalancerStickinessCookieName: aws.String("foo"),
}}},
expected: &types.LoadBalancer{
Method: "drr",
Sticky: true,
Stickiness: nil,
},
},
}
for _, test := range testCases {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getLoadBalancer(test.instance)
assert.Equal(t, test.expected, actual)
})
}
}
func TestGetMaxConn(t *testing.T) {
testCases := []struct {
desc string
instance ecsInstance
expected *types.MaxConn
}{
{
desc: "should return nil when no max conn labels",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{},
},
},
expected: nil,
},
{
desc: "should return nil when no amount label",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikBackendMaxConnExtractorFunc: aws.String("client.ip"),
}}},
expected: nil,
},
{
desc: "should return default when no empty extractorFunc label",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikBackendMaxConnExtractorFunc: aws.String(""),
label.TraefikBackendMaxConnAmount: aws.String("666"),
}}},
expected: &types.MaxConn{
ExtractorFunc: "request.host",
Amount: 666,
},
},
{
desc: "should return a struct when max conn labels are set",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikBackendMaxConnExtractorFunc: aws.String("client.ip"),
label.TraefikBackendMaxConnAmount: aws.String("666"),
}}},
expected: &types.MaxConn{
ExtractorFunc: "client.ip",
Amount: 666,
},
},
}
for _, test := range testCases {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getMaxConn(test.instance)
assert.Equal(t, test.expected, actual)
})
}
}
func TestGetHealthCheck(t *testing.T) {
testCases := []struct {
desc string
instance ecsInstance
expected *types.HealthCheck
}{
{
desc: "should return nil when no health check labels",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{},
}},
expected: nil,
},
{
desc: "should return nil when no health check Path label",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikBackendHealthCheckPort: aws.String("80"),
label.TraefikBackendHealthCheckInterval: aws.String("6"),
}}},
expected: nil,
},
{
desc: "should return a struct when health check labels are set",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikBackendHealthCheckPath: aws.String("/health"),
label.TraefikBackendHealthCheckPort: aws.String("80"),
label.TraefikBackendHealthCheckInterval: aws.String("6"),
}}},
expected: &types.HealthCheck{
Path: "/health",
Port: 80,
Interval: "6",
},
},
}
for _, test := range testCases {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getHealthCheck(test.instance)
assert.Equal(t, test.expected, actual)
})
}
}
func TestGetServers(t *testing.T) {
testCases := []struct {
desc string
instances []ecsInstance
expected map[string]types.Server
}{
{
desc: "should return a dumb server when no IP and no ",
instances: []ecsInstance{{
Name: "test",
ID: "0",
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{},
},
machine: &ec2.Instance{
PrivateIpAddress: nil,
},
container: &ecs.Container{
NetworkBindings: []*ecs.NetworkBinding{{
HostPort: nil,
}},
}}},
expected: map[string]types.Server{
"server-test-0": {URL: "http://:0", Weight: 0},
},
},
{
desc: "should use default weight when invalid weight value",
instances: []ecsInstance{{
Name: "test",
ID: "0",
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikWeight: aws.String("oops"),
}},
machine: &ec2.Instance{
PrivateIpAddress: aws.String("10.10.10.0"),
},
container: &ecs.Container{
NetworkBindings: []*ecs.NetworkBinding{{
HostPort: aws.Int64(80),
}},
}}},
expected: map[string]types.Server{
"server-test-0": {URL: "http://10.10.10.0:80", Weight: 0},
},
},
{
desc: "should return a map when configuration keys are defined",
instances: []ecsInstance{
{
Name: "test",
ID: "0",
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikWeight: aws.String("6"),
}},
machine: &ec2.Instance{
PrivateIpAddress: aws.String("10.10.10.0"),
},
container: &ecs.Container{
NetworkBindings: []*ecs.NetworkBinding{{
HostPort: aws.Int64(80),
}},
}},
{
Name: "test",
ID: "1",
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{}},
machine: &ec2.Instance{
PrivateIpAddress: aws.String("10.10.10.1"),
},
container: &ecs.Container{
NetworkBindings: []*ecs.NetworkBinding{{
HostPort: aws.Int64(90),
}},
}},
},
expected: map[string]types.Server{
"server-test-0": {
URL: "http://10.10.10.0:80",
Weight: 6,
},
"server-test-1": {
URL: "http://10.10.10.1:90",
Weight: 0,
},
},
},
}
for _, test := range testCases {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getServers(test.instances)
assert.Equal(t, test.expected, actual)
})
}
}
func TestGetRedirect(t *testing.T) {
testCases := []struct {
desc string
instance ecsInstance
expected *types.Redirect
}{
{
desc: "should return nil when no redirect labels",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{},
},
},
expected: nil,
},
{
desc: "should use only entry point tag when mix regex redirect and entry point redirect",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikFrontendRedirectEntryPoint: aws.String("https"),
label.TraefikFrontendRedirectRegex: aws.String("(.*)"),
label.TraefikFrontendRedirectReplacement: aws.String("$1"),
}},
},
expected: &types.Redirect{
EntryPoint: "https",
},
},
{
desc: "should return a struct when entry point redirect label",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikFrontendRedirectEntryPoint: aws.String("https"),
}},
},
expected: &types.Redirect{
EntryPoint: "https",
},
},
{
desc: "should return a struct when regex redirect labels",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikFrontendRedirectRegex: aws.String("(.*)"),
label.TraefikFrontendRedirectReplacement: aws.String("$1"),
}},
},
expected: &types.Redirect{
Regex: "(.*)",
Replacement: "$1",
},
},
}
for _, test := range testCases {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getRedirect(test.instance)
assert.Equal(t, test.expected, actual)
})
}
}
func TestGetErrorPages(t *testing.T) {
testCases := []struct {
desc string
instance ecsInstance
expected map[string]*types.ErrorPage
}{
{
desc: "",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{},
},
},
expected: nil,
},
{
desc: "2 errors pages",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.Prefix + label.BaseFrontendErrorPage + "foo." + label.SuffixErrorPageStatus: aws.String("404"),
label.Prefix + label.BaseFrontendErrorPage + "foo." + label.SuffixErrorPageBackend: aws.String("foo_backend"),
label.Prefix + label.BaseFrontendErrorPage + "foo." + label.SuffixErrorPageQuery: aws.String("foo_query"),
label.Prefix + label.BaseFrontendErrorPage + "bar." + label.SuffixErrorPageStatus: aws.String("500,600"),
label.Prefix + label.BaseFrontendErrorPage + "bar." + label.SuffixErrorPageBackend: aws.String("bar_backend"),
label.Prefix + label.BaseFrontendErrorPage + "bar." + label.SuffixErrorPageQuery: aws.String("bar_query"),
}}},
expected: map[string]*types.ErrorPage{
"foo": {
Status: []string{"404"},
Query: "foo_query",
Backend: "foo_backend",
},
"bar": {
Status: []string{"500", "600"},
Query: "bar_query",
Backend: "bar_backend",
},
},
},
{
desc: "only status field",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.Prefix + label.BaseFrontendErrorPage + "foo." + label.SuffixErrorPageStatus: aws.String("404"),
}}},
expected: map[string]*types.ErrorPage{
"foo": {
Status: []string{"404"},
},
},
},
}
for _, test := range testCases {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getErrorPages(test.instance)
assert.Equal(t, test.expected, actual)
})
}
}
func TestGetRateLimit(t *testing.T) {
testCases := []struct {
desc string
instance ecsInstance
expected *types.RateLimit
}{
{
desc: "should return nil when no rate limit labels",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{},
},
},
expected: nil,
},
{
desc: "should return a struct when rate limit labels are defined",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikFrontendRateLimitExtractorFunc: aws.String("client.ip"),
label.Prefix + label.BaseFrontendRateLimit + "foo." + label.SuffixRateLimitPeriod: aws.String("6"),
label.Prefix + label.BaseFrontendRateLimit + "foo." + label.SuffixRateLimitAverage: aws.String("12"),
label.Prefix + label.BaseFrontendRateLimit + "foo." + label.SuffixRateLimitBurst: aws.String("18"),
label.Prefix + label.BaseFrontendRateLimit + "bar." + label.SuffixRateLimitPeriod: aws.String("3"),
label.Prefix + label.BaseFrontendRateLimit + "bar." + label.SuffixRateLimitAverage: aws.String("6"),
label.Prefix + label.BaseFrontendRateLimit + "bar." + label.SuffixRateLimitBurst: aws.String("9"),
},
},
},
expected: &types.RateLimit{
ExtractorFunc: "client.ip",
RateSet: map[string]*types.Rate{
"foo": {
Period: flaeg.Duration(6 * time.Second),
Average: 12,
Burst: 18,
},
"bar": {
Period: flaeg.Duration(3 * time.Second),
Average: 6,
Burst: 9,
},
},
},
},
{
desc: "should return nil when ExtractorFunc is missing",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.Prefix + label.BaseFrontendRateLimit + "foo." + label.SuffixRateLimitPeriod: aws.String("6"),
label.Prefix + label.BaseFrontendRateLimit + "foo." + label.SuffixRateLimitAverage: aws.String("12"),
label.Prefix + label.BaseFrontendRateLimit + "foo." + label.SuffixRateLimitBurst: aws.String("18"),
label.Prefix + label.BaseFrontendRateLimit + "bar." + label.SuffixRateLimitPeriod: aws.String("3"),
label.Prefix + label.BaseFrontendRateLimit + "bar." + label.SuffixRateLimitAverage: aws.String("6"),
label.Prefix + label.BaseFrontendRateLimit + "bar." + label.SuffixRateLimitBurst: aws.String("9"),
},
},
},
expected: nil,
},
}
for _, test := range testCases {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getRateLimit(test.instance)
assert.Equal(t, test.expected, actual)
})
}
}
func TestGetHeaders(t *testing.T) {
testCases := []struct {
desc string
instance ecsInstance
expected *types.Headers
}{
{
desc: "",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{},
},
},
expected: nil,
},
{
desc: "should return nil when no custom headers options are set",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{},
},
},
expected: nil,
},
{
desc: "should return a struct when all custom headers options are set",
instance: ecsInstance{
containerDefinition: &ecs.ContainerDefinition{
DockerLabels: map[string]*string{
label.TraefikFrontendRequestHeaders: aws.String("Access-Control-Allow-Methods:POST,GET,OPTIONS || Content-type: application/json; charset=utf-8"),
label.TraefikFrontendResponseHeaders: aws.String("Access-Control-Allow-Methods:POST,GET,OPTIONS || Content-type: application/json; charset=utf-8"),
label.TraefikFrontendSSLProxyHeaders: aws.String("Access-Control-Allow-Methods:POST,GET,OPTIONS || Content-type: application/json; charset=utf-8"),
label.TraefikFrontendAllowedHosts: aws.String("foo,bar,bor"),
label.TraefikFrontendHostsProxyHeaders: aws.String("foo,bar,bor"),
label.TraefikFrontendSSLHost: aws.String("foo"),
label.TraefikFrontendCustomFrameOptionsValue: aws.String("foo"),
label.TraefikFrontendContentSecurityPolicy: aws.String("foo"),
label.TraefikFrontendPublicKey: aws.String("foo"),
label.TraefikFrontendReferrerPolicy: aws.String("foo"),
label.TraefikFrontendSTSSeconds: aws.String("666"),
label.TraefikFrontendSSLRedirect: aws.String("true"),
label.TraefikFrontendSSLTemporaryRedirect: aws.String("true"),
label.TraefikFrontendSTSIncludeSubdomains: aws.String("true"),
label.TraefikFrontendSTSPreload: aws.String("true"),
label.TraefikFrontendForceSTSHeader: aws.String("true"),
label.TraefikFrontendFrameDeny: aws.String("true"),
label.TraefikFrontendContentTypeNosniff: aws.String("true"),
label.TraefikFrontendBrowserXSSFilter: aws.String("true"),
label.TraefikFrontendIsDevelopment: aws.String("true"),
},
},
},
expected: &types.Headers{
CustomRequestHeaders: map[string]string{
"Access-Control-Allow-Methods": "POST,GET,OPTIONS",
"Content-Type": "application/json; charset=utf-8",
},
CustomResponseHeaders: map[string]string{
"Access-Control-Allow-Methods": "POST,GET,OPTIONS",
"Content-Type": "application/json; charset=utf-8",
},
SSLProxyHeaders: map[string]string{
"Access-Control-Allow-Methods": "POST,GET,OPTIONS",
"Content-Type": "application/json; charset=utf-8",
},
AllowedHosts: []string{"foo", "bar", "bor"},
HostsProxyHeaders: []string{"foo", "bar", "bor"},
SSLHost: "foo",
CustomFrameOptionsValue: "foo",
ContentSecurityPolicy: "foo",
PublicKey: "foo",
ReferrerPolicy: "foo",
STSSeconds: 666,
SSLRedirect: true,
SSLTemporaryRedirect: true,
STSIncludeSubdomains: true,
STSPreload: true,
ForceSTSHeader: true,
FrameDeny: true,
ContentTypeNosniff: true,
BrowserXSSFilter: true,
IsDevelopment: true,
},
},
}
for _, test := range testCases {
test := test
t.Run(test.desc, func(t *testing.T) {
t.Parallel()
actual := getHeaders(test.instance)
assert.Equal(t, test.expected, actual)
})
}
}