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|
Shindo.tests('AWS::ELB | models', ['aws', 'elb']) do
Fog::AWS::Compute::Mock.reset if Fog.mocking?
@availability_zones = Fog::Compute[:aws].describe_availability_zones('state' => 'available').body['availabilityZoneInfo'].map{ |az| az['zoneName'] }
@key_name = 'fog-test-model'
@vpc = Fog::Compute[:aws].vpcs.create('cidr_block' => '10.0.10.0/24')
@vpc_id = @vpc.id
@subnet = Fog::Compute[:aws].subnets.create({:vpc_id => @vpc_id, :cidr_block => '10.0.10.0/24'})
@subnet_id = @subnet.subnet_id
@scheme = 'internal'
@igw = Fog::Compute[:aws].internet_gateways.create
@igw_id = @igw.id
@igw.attach(@vpc_id)
tests('success') do
tests('load_balancers') do
tests('getting a missing elb') do
returns(nil) { Fog::AWS[:elb].load_balancers.get('no-such-elb') }
end
end
tests('listeners') do
tests("default attributes") do
listener = Fog::AWS[:elb].listeners.new
tests('instance_port is 80').returns(80) { listener.instance_port }
tests('instance_protocol is HTTP').returns('HTTP') { listener.instance_protocol }
tests('lb_port is 80').returns(80) { listener.lb_port }
tests('protocol is HTTP').returns('HTTP') { listener.protocol }
tests('policy_names is empty').returns([]) { listener.policy_names }
end
tests("specifying attributes") do
attributes = {:instance_port => 2000, :instance_protocol => 'SSL', :lb_port => 2001, :protocol => 'SSL', :policy_names => ['fake'] }
listener = Fog::AWS[:elb].listeners.new(attributes)
tests('instance_port is 2000').returns(2000) { listener.instance_port }
tests('instance_protocol is SSL').returns('SSL') { listener.instance_protocol }
tests('lb_port is 2001').returns(2001) { listener.lb_port }
tests('protocol is SSL').returns('SSL') { listener.protocol }
tests('policy_names is [ fake ]').returns(['fake']) { listener.policy_names }
end
end
elb = nil
elb_id = 'fog-test'
tests('create') do
tests('without availability zones') do
elb = Fog::AWS[:elb].load_balancers.create(:id => elb_id, :availability_zones => @availability_zones)
tests("availability zones are correct").returns(@availability_zones.sort) { elb.availability_zones.sort }
tests("dns names is set").returns(true) { elb.dns_name.is_a?(String) }
tests("created_at is set").returns(true) { Time === elb.created_at }
tests("policies is empty").returns([]) { elb.policies }
tests("default listener") do
tests("1 listener").returns(1) { elb.listeners.size }
tests("params").returns(Fog::AWS[:elb].listeners.new.to_params) { elb.listeners.first.to_params }
end
end
tests('with vpc') do
elb2 = Fog::AWS[:elb].load_balancers.create(:id => "#{elb_id}-2", :subnet_ids => [@subnet_id])
tests("elb source group should be default").returns('default') { elb2.source_group["GroupName"] }
tests("subnet ids are correct").returns(@subnet_id) { elb2.subnet_ids.first }
elb2.destroy
end
tests('with vpc internal') do
elb2 = Fog::AWS[:elb].load_balancers.create(:id => "#{elb_id}-2", :subnet_ids => [@subnet_id], :scheme => 'internal')
tests("scheme is internal").returns(@scheme) { elb2.scheme }
elb2.destroy
end
tests('with default vpc') do
Fog::Compute[:aws].disable_ec2_classic if Fog.mocking?
if Fog::Compute[:aws].supported_platforms.include?("EC2")
Fog::Formatador.display_line("[yellow]Skipping test [bold]with default vpc[/][yellow] due to AWS account having EC2 available[/]")
else
elb2 = Fog::AWS[:elb].load_balancers.create(:id => "#{elb_id}-2", :availability_zones => @availability_zones[0])
tests("elb source group should start with default_elb_").returns(true) { !!(elb2.source_group["GroupName"] =~ /default_elb_/) }
elb2.destroy
end
Fog::Compute[:aws].enable_ec2_classic if Fog.mocking?
end
if !Fog.mocking?
@igw.detach(@vpc_id)
@igw.destroy
@subnet.destroy
sleep 5
@vpc.destroy
end
tests('with availability zones') do
azs = @availability_zones[1..-1]
elb2 = Fog::AWS[:elb].load_balancers.create(:id => "#{elb_id}-2", :availability_zones => azs)
if Fog::Compute[:aws].supported_platforms.include?("EC2")
tests("elb source group should be amazon-elb-sg").returns('amazon-elb-sg') { elb2.source_group["GroupName"] }
else
tests("elb source group should match default_elb_").returns(true) { !!(elb2.source_group["GroupName"] =~ /default_elb_/) }
end
tests("availability zones are correct").returns(azs.sort) { elb2.availability_zones.sort }
elb2.destroy
end
# Need to sleep here for IAM changes to propgate
tests('with ListenerDescriptions') do
@certificate = Fog::AWS[:iam].upload_server_certificate(AWS::IAM::SERVER_CERT, AWS::IAM::SERVER_CERT_PRIVATE_KEY, @key_name).body['Certificate']
sleep(10) unless Fog.mocking?
listeners = [{
'Listener' => {
'LoadBalancerPort' => 2030, 'InstancePort' => 2030, 'Protocol' => 'HTTP'
},
'PolicyNames' => []
}, {
'Listener' => {
'LoadBalancerPort' => 443, 'InstancePort' => 443, 'Protocol' => 'HTTPS', 'InstanceProtocol' => 'HTTPS',
'SSLCertificateId' => @certificate['Arn']
},
'PolicyNames' => []
}]
elb3 = Fog::AWS[:elb].load_balancers.create(:id => "#{elb_id}-3", 'ListenerDescriptions' => listeners, :availability_zones => @availability_zones)
tests('there are 2 listeners').returns(2) { elb3.listeners.count }
tests('instance_port is 2030').returns(2030) { elb3.listeners.first.instance_port }
tests('lb_port is 2030').returns(2030) { elb3.listeners.first.lb_port }
tests('protocol is HTTP').returns('HTTP') { elb3.listeners.first.protocol }
tests('protocol is HTTPS').returns('HTTPS') { elb3.listeners.last.protocol }
tests('instance_protocol is HTTPS').returns('HTTPS') { elb3.listeners.last.instance_protocol }
elb3.destroy
end
tests('with invalid Server Cert ARN').raises(Fog::AWS::IAM::NotFound) do
listeners = [{
'Listener' => {
'LoadBalancerPort' => 443, 'InstancePort' => 80, 'Protocol' => 'HTTPS', 'InstanceProtocol' => 'HTTPS', "SSLCertificateId" => "fakecert"}
}]
Fog::AWS[:elb].load_balancers.create(:id => "#{elb_id}-4", "ListenerDescriptions" => listeners, :availability_zones => @availability_zones)
end
end
tests('all') do
elb_ids = Fog::AWS[:elb].load_balancers.all.map{|e| e.id}
tests("contains elb").returns(true) { elb_ids.include? elb_id }
end
if Fog.mocking?
tests('all marker support') do
extra_elb_ids = (1..1000).map {|n| Fog::AWS[:elb].load_balancers.create(:id => "#{elb_id}-extra-#{n}").id }
tests('returns all elbs').returns(true) { (extra_elb_ids - Fog::AWS[:elb].load_balancers.all.map {|e| e.id }).empty? }
end
end
tests('get') do
tests('ids match').returns(elb_id) { Fog::AWS[:elb].load_balancers.get(elb_id).id }
tests('nil id').returns(nil) { Fog::AWS[:elb].load_balancers.get(nil) }
end
tests('creating a duplicate elb') do
raises(Fog::AWS::ELB::IdentifierTaken) do
Fog::AWS[:elb].load_balancers.create(:id => elb_id, :availability_zones => ['us-east-1d'])
end
end
tests('registering an invalid instance') do
raises(Fog::AWS::ELB::InvalidInstance) { elb.register_instances('i-00000000') }
end
tests('deregistering an invalid instance') do
raises(Fog::AWS::ELB::InvalidInstance) { elb.deregister_instances('i-00000000') }
end
server = Fog::Compute[:aws].servers.create
server.wait_for { ready? }
tests('register instance') do
begin
elb.register_instances(server.id)
rescue Fog::AWS::ELB::InvalidInstance
# It may take a moment for a newly created instances to be visible to ELB requests
raise if @retried_registered_instance
@retried_registered_instance = true
sleep 1
retry
end
returns([server.id]) { elb.instances }
end
tests('instance_health') do
returns('OutOfService') do
elb.instance_health.find{|hash| hash['InstanceId'] == server.id}['State']
end
returns([server.id]) { elb.instances_out_of_service }
end
tests('deregister instance') do
elb.deregister_instances(server.id)
returns([]) { elb.instances }
end
server.destroy
tests('disable_availability_zones') do
elb.disable_availability_zones(@availability_zones[1..-1])
returns(@availability_zones[0..0]) { elb.availability_zones.sort }
end
tests('enable_availability_zones') do
elb.enable_availability_zones(@availability_zones[1..-1])
returns(@availability_zones) { elb.availability_zones.sort }
end
tests('connection_draining') do
returns(false) { elb.connection_draining? }
returns(300) { elb.connection_draining_timeout }
elb.set_connection_draining(true, 60)
returns(true) { elb.connection_draining? }
returns(60) { elb.connection_draining_timeout }
end
tests('cross_zone_load_balancing') do
returns(false) {elb.cross_zone_load_balancing?}
elb.cross_zone_load_balancing = true
returns(true) {elb.cross_zone_load_balancing?}
end
tests('idle_connection_settings') do
returns(60) { elb.connection_settings_idle_timeout }
elb.set_connection_settings_idle_timeout(180)
returns(180) { elb.connection_settings_idle_timeout }
end
tests('default health check') do
default_health_check = {
"HealthyThreshold"=>10,
"Timeout"=>5,
"UnhealthyThreshold"=>2,
"Interval"=>30,
"Target"=>"TCP:80"
}
returns(default_health_check) { elb.health_check }
end
tests('configure_health_check') do
new_health_check = {
"HealthyThreshold"=>5,
"Timeout"=>10,
"UnhealthyThreshold"=>3,
"Interval"=>15,
"Target"=>"HTTP:80/index.html"
}
elb.configure_health_check(new_health_check)
returns(new_health_check) { elb.health_check }
end
tests('listeners') do
tests('default') do
returns(1) { elb.listeners.size }
listener = elb.listeners.first
returns([80,80,'HTTP','HTTP', []]) { [listener.instance_port, listener.lb_port, listener.protocol, listener.instance_protocol, listener.policy_names] }
end
tests('#get') do
returns(80) { elb.listeners.get(80).lb_port }
end
tests('create') do
elb.listeners.create(:instance_port => 443, :lb_port => 443, :protocol => 'TCP', :instance_protocol => 'TCP')
returns(2) { elb.listeners.size }
returns(443) { elb.listeners.get(443).lb_port }
end
tests('destroy') do
elb.listeners.get(443).destroy
returns(nil) { elb.listeners.get(443) }
end
end
tests('policies') do
app_policy_id = 'my-app-policy'
tests 'are empty' do
returns([]) { elb.policies.to_a }
end
tests('#all') do
returns([]) { elb.policies.all.to_a }
end
tests('create app policy') do
elb.policies.create(:id => app_policy_id, :cookie => 'my-app-cookie', :cookie_stickiness => :app)
returns(app_policy_id) { elb.policies.first.id }
returns("my-app-cookie") { elb.policies.get(app_policy_id).cookie }
end
tests('get policy') do
returns(app_policy_id) { elb.policies.get(app_policy_id).id }
end
tests('destroy app policy') do
elb.policies.first.destroy
returns([]) { elb.policies.to_a }
end
lb_policy_id = 'my-lb-policy'
tests('create lb policy') do
elb.policies.create(:id => lb_policy_id, :expiration => 600, :cookie_stickiness => :lb)
returns(lb_policy_id) { elb.policies.first.id }
end
tests('setting a listener policy') do
elb.set_listener_policy(80, lb_policy_id)
returns([lb_policy_id]) { elb.listeners.get(80).policy_names }
returns(600) { elb.policies.get(lb_policy_id).expiration }
end
tests('unsetting a listener policy') do
elb.unset_listener_policy(80)
returns([]) { elb.listeners.get(80).policy_names }
end
public_key_policy_id = 'fog-public-key-policy'
tests('create public key policy') do
elb.policies.create(:id => public_key_policy_id, :type_name => 'PublicKeyPolicyType', :policy_attributes => {'PublicKey' => AWS::IAM::SERVER_CERT_PUBLIC_KEY})
policy = elb.policies.get(public_key_policy_id)
returns(public_key_policy_id) { policy.id }
returns("PublicKeyPolicyType") { policy.type_name }
returns(AWS::IAM::SERVER_CERT_PUBLIC_KEY) { policy.policy_attributes["PublicKey"] }
end
tests('a malformed policy') do
raises(ArgumentError) { elb.policies.create(:id => 'foo', :cookie_stickiness => 'invalid stickiness') }
end
end
tests('backend server descriptions') do
tests('default') do
returns(0) { elb.backend_server_descriptions.size }
end
tests('with a backend policy') do
policy = "EnableProxyProtocol"
port = 80
elb.policies.create(:id => policy, :type_name => 'ProxyProtocolPolicyType', :policy_attributes => { "ProxyProtocol" => true })
Fog::AWS[:elb].set_load_balancer_policies_for_backend_server(elb.id, port, [policy]).body
elb.reload
returns([policy]) { elb.backend_server_descriptions.get(port).policy_names }
end
end
tests('setting a new ssl certificate id') do
elb.listeners.create(:instance_port => 443, :lb_port => 443, :protocol => 'HTTPS', :instance_protocol => 'HTTPS', :ssl_id => @certificate['Arn'])
elb.set_listener_ssl_certificate(443, @certificate['Arn'])
end
tests('destroy') do
elb.destroy
end
Fog::AWS[:iam].delete_server_certificate(@key_name)
end
end
|
