func (s *S) TestDescribeSecurityGroupsExampleWithFilter(c *check.C) { testServer.Response(200, nil, DescribeSecurityGroupsExample) filter := ec2.NewFilter() filter.Add("ip-permission.protocol", "tcp") filter.Add("ip-permission.from-port", "22") filter.Add("ip-permission.to-port", "22") filter.Add("ip-permission.group-name", "app_server_group", "database_group") _, err := s.ec2.SecurityGroups(nil, filter) req := testServer.WaitRequest() c.Assert(req.Form["Action"], check.DeepEquals, []string{"DescribeSecurityGroups"}) c.Assert(req.Form["Filter.1.Name"], check.DeepEquals, []string{"ip-permission.from-port"}) c.Assert(req.Form["Filter.1.Value.1"], check.DeepEquals, []string{"22"}) c.Assert(req.Form["Filter.2.Name"], check.DeepEquals, []string{"ip-permission.group-name"}) c.Assert(req.Form["Filter.2.Value.1"], check.DeepEquals, []string{"app_server_group"}) c.Assert(req.Form["Filter.2.Value.2"], check.DeepEquals, []string{"database_group"}) c.Assert(req.Form["Filter.3.Name"], check.DeepEquals, []string{"ip-permission.protocol"}) c.Assert(req.Form["Filter.3.Value.1"], check.DeepEquals, []string{"tcp"}) c.Assert(req.Form["Filter.4.Name"], check.DeepEquals, []string{"ip-permission.to-port"}) c.Assert(req.Form["Filter.4.Value.1"], check.DeepEquals, []string{"22"}) c.Assert(err, check.IsNil) }
func (s *S) TestDescribeTags(c *check.C) { testServer.Response(200, nil, DescribeTagsExample) filter := ec2.NewFilter() filter.Add("key1", "value1") resp, err := s.ec2.DescribeTags(filter) req := testServer.WaitRequest() c.Assert(req.Form["Action"], check.DeepEquals, []string{"DescribeTags"}) c.Assert(req.Form["Filter.1.Name"], check.DeepEquals, []string{"key1"}) c.Assert(req.Form["Filter.1.Value.1"], check.DeepEquals, []string{"value1"}) c.Assert(err, check.IsNil) c.Assert(resp.RequestId, check.Equals, "7a62c49f-347e-4fc4-9331-6e8eEXAMPLE") c.Assert(resp.Tags, check.HasLen, 6) r0 := resp.Tags[0] c.Assert(r0.Key, check.Equals, "webserver") c.Assert(r0.Value, check.Equals, "") c.Assert(r0.ResourceId, check.Equals, "ami-1a2b3c4d") c.Assert(r0.ResourceType, check.Equals, "image") r1 := resp.Tags[1] c.Assert(r1.Key, check.Equals, "stack") c.Assert(r1.Value, check.Equals, "Production") c.Assert(r1.ResourceId, check.Equals, "ami-1a2b3c4d") c.Assert(r1.ResourceType, check.Equals, "image") }
func (s *S) TestDescribeInstancesExample1(c *check.C) { testServer.Response(200, nil, DescribeInstancesExample1) filter := ec2.NewFilter() filter.Add("key1", "value1") filter.Add("key2", "value2", "value3") resp, err := s.ec2.DescribeInstances([]string{"i-1", "i-2"}, nil) req := testServer.WaitRequest() c.Assert(req.Form["Action"], check.DeepEquals, []string{"DescribeInstances"}) c.Assert(req.Form["InstanceId.1"], check.DeepEquals, []string{"i-1"}) c.Assert(req.Form["InstanceId.2"], check.DeepEquals, []string{"i-2"}) c.Assert(err, check.IsNil) c.Assert(resp.RequestId, check.Equals, "98e3c9a4-848c-4d6d-8e8a-b1bdEXAMPLE") c.Assert(resp.Reservations, check.HasLen, 2) r0 := resp.Reservations[0] c.Assert(r0.ReservationId, check.Equals, "r-b27e30d9") c.Assert(r0.OwnerId, check.Equals, "999988887777") c.Assert(r0.RequesterId, check.Equals, "854251627541") c.Assert(r0.SecurityGroups, check.DeepEquals, []ec2.SecurityGroup{{Name: "default", Id: "sg-67ad940e"}}) c.Assert(r0.Instances, check.HasLen, 1) r0i := r0.Instances[0] c.Assert(r0i.InstanceId, check.Equals, "i-c5cd56af") c.Assert(r0i.PrivateDNSName, check.Equals, "domU-12-31-39-10-56-34.compute-1.internal") c.Assert(r0i.DNSName, check.Equals, "ec2-174-129-165-232.compute-1.amazonaws.com") c.Assert(r0i.AvailabilityZone, check.Equals, "us-east-1b") c.Assert(r0i.IPAddress, check.Equals, "174.129.165.232") c.Assert(r0i.PrivateIPAddress, check.Equals, "10.198.85.190") }
func (e EC2Tags) Get() (map[string]string, error) { tags := make(map[string]string) // Passing blank values here instructs the AWS library to look at the // current instances meta data for the security credentials. auth, err := aws.GetAuth("", "", "", time.Time{}) if err != nil { return tags, errors.New(fmt.Sprintf("Error creating AWS authentication: %s", err.Error())) } // Find the current region and create a new EC2 connection region := aws.GetRegion(aws.InstanceRegion()) ec2Client := ec2.New(auth, region) // Filter by the current machines instance-id filter := ec2.NewFilter() filter.Add("resource-id", aws.InstanceId()) // Describe the tags for the current instance resp, err := ec2Client.DescribeTags(filter) if err != nil { return tags, errors.New(fmt.Sprintf("Error downloading tags: %s", err.Error())) } // Collect the tags for _, tag := range resp.Tags { tags[tag.Key] = tag.Value } return tags, nil }
func (s *S) TestDescribeImagesExample(c *check.C) { testServer.Response(200, nil, DescribeImagesExample) filter := ec2.NewFilter() filter.Add("key1", "value1") filter.Add("key2", "value2", "value3") resp, err := s.ec2.Images([]string{"ami-1", "ami-2"}, filter) req := testServer.WaitRequest() c.Assert(req.Form["Action"], check.DeepEquals, []string{"DescribeImages"}) c.Assert(req.Form["ImageId.1"], check.DeepEquals, []string{"ami-1"}) c.Assert(req.Form["ImageId.2"], check.DeepEquals, []string{"ami-2"}) c.Assert(req.Form["Filter.1.Name"], check.DeepEquals, []string{"key1"}) c.Assert(req.Form["Filter.1.Value.1"], check.DeepEquals, []string{"value1"}) c.Assert(req.Form["Filter.1.Value.2"], check.IsNil) c.Assert(req.Form["Filter.2.Name"], check.DeepEquals, []string{"key2"}) c.Assert(req.Form["Filter.2.Value.1"], check.DeepEquals, []string{"value2"}) c.Assert(req.Form["Filter.2.Value.2"], check.DeepEquals, []string{"value3"}) c.Assert(err, check.IsNil) c.Assert(resp.RequestId, check.Equals, "4a4a27a2-2e7c-475d-b35b-ca822EXAMPLE") c.Assert(resp.Images, check.HasLen, 1) i0 := resp.Images[0] c.Assert(i0.Id, check.Equals, "ami-a2469acf") c.Assert(i0.Type, check.Equals, "machine") c.Assert(i0.Name, check.Equals, "example-marketplace-amzn-ami.1") c.Assert(i0.Description, check.Equals, "Amazon Linux AMI i386 EBS") c.Assert(i0.Location, check.Equals, "aws-marketplace/example-marketplace-amzn-ami.1") c.Assert(i0.State, check.Equals, "available") c.Assert(i0.Public, check.Equals, true) c.Assert(i0.OwnerId, check.Equals, "123456789999") c.Assert(i0.OwnerAlias, check.Equals, "aws-marketplace") c.Assert(i0.Architecture, check.Equals, "i386") c.Assert(i0.KernelId, check.Equals, "aki-805ea7e9") c.Assert(i0.RootDeviceType, check.Equals, "ebs") c.Assert(i0.RootDeviceName, check.Equals, "/dev/sda1") c.Assert(i0.VirtualizationType, check.Equals, "paravirtual") c.Assert(i0.Hypervisor, check.Equals, "xen") c.Assert(i0.Tags, check.HasLen, 1) c.Assert(i0.Tags[0].Key, check.Equals, "Purpose") c.Assert(i0.Tags[0].Value, check.Equals, "EXAMPLE") c.Assert(i0.BlockDevices, check.HasLen, 1) c.Assert(i0.BlockDevices[0].DeviceName, check.Equals, "/dev/sda1") c.Assert(i0.BlockDevices[0].SnapshotId, check.Equals, "snap-787e9403") c.Assert(i0.BlockDevices[0].VolumeSize, check.Equals, int64(8)) c.Assert(i0.BlockDevices[0].DeleteOnTermination, check.Equals, true) }
func (s *S) TestDescribeSubnetsExample(c *check.C) { testServer.Response(200, nil, DescribeSubnetsExample) filter := ec2.NewFilter() filter.Add("key1", "value1") filter.Add("key2", "value2", "value3") resp, err := s.ec2.Subnets([]string{"subnet-1", "subnet-2"}, filter) req := testServer.WaitRequest() c.Assert(req.Form["Action"], check.DeepEquals, []string{"DescribeSubnets"}) c.Assert(req.Form["SubnetId.1"], check.DeepEquals, []string{"subnet-1"}) c.Assert(req.Form["SubnetId.2"], check.DeepEquals, []string{"subnet-2"}) c.Assert(req.Form["Filter.1.Name"], check.DeepEquals, []string{"key1"}) c.Assert(req.Form["Filter.1.Value.1"], check.DeepEquals, []string{"value1"}) c.Assert(req.Form["Filter.1.Value.2"], check.IsNil) c.Assert(req.Form["Filter.2.Name"], check.DeepEquals, []string{"key2"}) c.Assert(req.Form["Filter.2.Value.1"], check.DeepEquals, []string{"value2"}) c.Assert(req.Form["Filter.2.Value.2"], check.DeepEquals, []string{"value3"}) c.Assert(err, check.IsNil) c.Assert(resp.RequestId, check.Equals, "a5266c3e-2b7a-4434-971e-317b6EXAMPLE") c.Assert(resp.Subnets, check.HasLen, 3) s0 := resp.Subnets[0] c.Assert(s0.Id, check.Equals, "subnet-3e993755") c.Assert(s0.State, check.Equals, "available") c.Assert(s0.VpcId, check.Equals, "vpc-f84a9b93") c.Assert(s0.CidrBlock, check.Equals, "10.0.12.0/24") c.Assert(s0.AvailableIpAddressCount, check.Equals, 249) c.Assert(s0.AvailabilityZone, check.Equals, "us-west-2c") c.Assert(s0.DefaultForAz, check.Equals, false) c.Assert(s0.MapPublicIpOnLaunch, check.Equals, false) c.Assert(s0.Tags, check.HasLen, 2) c.Assert(s0.Tags[0].Key, check.Equals, "visibility") c.Assert(s0.Tags[0].Value, check.Equals, "private") c.Assert(s0.Tags[1].Key, check.Equals, "Name") c.Assert(s0.Tags[1].Value, check.Equals, "application") }
func (s *S) TestDescribeAddressesPublicIPExample(c *check.C) { testServer.Response(200, nil, DescribeAddressesExample) filter := ec2.NewFilter() filter.Add("key1", "value1") filter.Add("key2", "value2", "value3") resp, err := s.ec2.DescribeAddresses([]string{"192.0.2.1", "198.51.100.2", "203.0.113.41"}, []string{}, nil) req := testServer.WaitRequest() c.Assert(req.Form["Action"], check.DeepEquals, []string{"DescribeAddresses"}) c.Assert(req.Form["PublicIp.1"], check.DeepEquals, []string{"192.0.2.1"}) c.Assert(req.Form["PublicIp.2"], check.DeepEquals, []string{"198.51.100.2"}) c.Assert(req.Form["PublicIp.3"], check.DeepEquals, []string{"203.0.113.41"}) c.Assert(err, check.IsNil) c.Assert(resp.RequestId, check.Equals, "59dbff89-35bd-4eac-99ed-be587EXAMPLE") c.Assert(resp.Addresses, check.HasLen, 3) r0 := resp.Addresses[0] c.Assert(r0.PublicIp, check.Equals, "192.0.2.1") c.Assert(r0.Domain, check.Equals, "standard") c.Assert(r0.InstanceId, check.Equals, "i-f15ebb98") r0i := resp.Addresses[1] c.Assert(r0i.PublicIp, check.Equals, "198.51.100.2") c.Assert(r0i.Domain, check.Equals, "standard") c.Assert(r0i.InstanceId, check.Equals, "") r0ii := resp.Addresses[2] c.Assert(r0ii.PublicIp, check.Equals, "203.0.113.41") c.Assert(r0ii.Domain, check.Equals, "vpc") c.Assert(r0ii.InstanceId, check.Equals, "i-64600030") c.Assert(r0ii.AssociationId, check.Equals, "eipassoc-f0229899") c.Assert(r0ii.AllocationId, check.Equals, "eipalloc-08229861") c.Assert(r0ii.NetworkInterfaceOwnerId, check.Equals, "053230519467") c.Assert(r0ii.NetworkInterfaceId, check.Equals, "eni-ef229886") c.Assert(r0ii.PrivateIpAddress, check.Equals, "10.0.0.228") }
func (s *S) TestDescribeSnapshotsExample(c *check.C) { testServer.Response(200, nil, DescribeSnapshotsExample) filter := ec2.NewFilter() filter.Add("key1", "value1") filter.Add("key2", "value2", "value3") resp, err := s.ec2.Snapshots([]string{"snap-1", "snap-2"}, filter) req := testServer.WaitRequest() c.Assert(req.Form["Action"], check.DeepEquals, []string{"DescribeSnapshots"}) c.Assert(req.Form["SnapshotId.1"], check.DeepEquals, []string{"snap-1"}) c.Assert(req.Form["SnapshotId.2"], check.DeepEquals, []string{"snap-2"}) c.Assert(req.Form["Filter.1.Name"], check.DeepEquals, []string{"key1"}) c.Assert(req.Form["Filter.1.Value.1"], check.DeepEquals, []string{"value1"}) c.Assert(req.Form["Filter.1.Value.2"], check.IsNil) c.Assert(req.Form["Filter.2.Name"], check.DeepEquals, []string{"key2"}) c.Assert(req.Form["Filter.2.Value.1"], check.DeepEquals, []string{"value2"}) c.Assert(req.Form["Filter.2.Value.2"], check.DeepEquals, []string{"value3"}) c.Assert(err, check.IsNil) c.Assert(resp.RequestId, check.Equals, "59dbff89-35bd-4eac-99ed-be587EXAMPLE") c.Assert(resp.Snapshots, check.HasLen, 1) s0 := resp.Snapshots[0] c.Assert(s0.Id, check.Equals, "snap-1a2b3c4d") c.Assert(s0.VolumeId, check.Equals, "vol-8875daef") c.Assert(s0.VolumeSize, check.Equals, "15") c.Assert(s0.Status, check.Equals, "pending") c.Assert(s0.StartTime, check.Equals, "2010-07-29T04:12:01.000Z") c.Assert(s0.Progress, check.Equals, "30%") c.Assert(s0.OwnerId, check.Equals, "111122223333") c.Assert(s0.Description, check.Equals, "Daily Backup") c.Assert(s0.Tags, check.HasLen, 1) c.Assert(s0.Tags[0].Key, check.Equals, "Purpose") c.Assert(s0.Tags[0].Value, check.Equals, "demo_db_14_backup") }
func (s *S) TestDescribeAddressesAllocationIDExample(c *check.C) { testServer.Response(200, nil, DescribeAddressesAllocationIdExample) filter := ec2.NewFilter() filter.Add("key1", "value1") filter.Add("key2", "value2", "value3") resp, err := s.ec2.DescribeAddresses([]string{}, []string{"eipalloc-08229861", "eipalloc-08364752"}, nil) req := testServer.WaitRequest() c.Assert(req.Form["Action"], check.DeepEquals, []string{"DescribeAddresses"}) c.Assert(req.Form["AllocationId.1"], check.DeepEquals, []string{"eipalloc-08229861"}) c.Assert(req.Form["AllocationId.2"], check.DeepEquals, []string{"eipalloc-08364752"}) c.Assert(err, check.IsNil) c.Assert(resp.RequestId, check.Equals, "59dbff89-35bd-4eac-99ed-be587EXAMPLE") c.Assert(resp.Addresses, check.HasLen, 2) r0 := resp.Addresses[0] c.Assert(r0.PublicIp, check.Equals, "203.0.113.41") c.Assert(r0.AllocationId, check.Equals, "eipalloc-08229861") c.Assert(r0.Domain, check.Equals, "vpc") c.Assert(r0.InstanceId, check.Equals, "i-64600030") c.Assert(r0.AssociationId, check.Equals, "eipassoc-f0229899") c.Assert(r0.NetworkInterfaceId, check.Equals, "eni-ef229886") c.Assert(r0.NetworkInterfaceOwnerId, check.Equals, "053230519467") c.Assert(r0.PrivateIpAddress, check.Equals, "10.0.0.228") r1 := resp.Addresses[1] c.Assert(r1.PublicIp, check.Equals, "146.54.2.230") c.Assert(r1.AllocationId, check.Equals, "eipalloc-08364752") c.Assert(r1.Domain, check.Equals, "vpc") c.Assert(r1.InstanceId, check.Equals, "i-64693456") c.Assert(r1.AssociationId, check.Equals, "eipassoc-f0348693") c.Assert(r1.NetworkInterfaceId, check.Equals, "eni-da764039") c.Assert(r1.NetworkInterfaceOwnerId, check.Equals, "053230519467") c.Assert(r1.PrivateIpAddress, check.Equals, "10.0.0.102") }
func (s *S) TestDescribeInstancesExample2(c *check.C) { testServer.Response(200, nil, DescribeInstancesExample2) filter := ec2.NewFilter() filter.Add("key1", "value1") filter.Add("key2", "value2", "value3") resp, err := s.ec2.DescribeInstances([]string{"i-1", "i-2"}, filter) req := testServer.WaitRequest() c.Assert(req.Form["Action"], check.DeepEquals, []string{"DescribeInstances"}) c.Assert(req.Form["InstanceId.1"], check.DeepEquals, []string{"i-1"}) c.Assert(req.Form["InstanceId.2"], check.DeepEquals, []string{"i-2"}) c.Assert(req.Form["Filter.1.Name"], check.DeepEquals, []string{"key1"}) c.Assert(req.Form["Filter.1.Value.1"], check.DeepEquals, []string{"value1"}) c.Assert(req.Form["Filter.1.Value.2"], check.IsNil) c.Assert(req.Form["Filter.2.Name"], check.DeepEquals, []string{"key2"}) c.Assert(req.Form["Filter.2.Value.1"], check.DeepEquals, []string{"value2"}) c.Assert(req.Form["Filter.2.Value.2"], check.DeepEquals, []string{"value3"}) c.Assert(err, check.IsNil) c.Assert(resp.RequestId, check.Equals, "59dbff89-35bd-4eac-99ed-be587EXAMPLE") c.Assert(resp.Reservations, check.HasLen, 1) r0 := resp.Reservations[0] r0i := r0.Instances[0] c.Assert(r0i.State.Code, check.Equals, 16) c.Assert(r0i.State.Name, check.Equals, "running") r0t0 := r0i.Tags[0] r0t1 := r0i.Tags[1] c.Assert(r0t0.Key, check.Equals, "webserver") c.Assert(r0t0.Value, check.Equals, "") c.Assert(r0t1.Key, check.Equals, "stack") c.Assert(r0t1.Value, check.Equals, "Production") }
func (s *ServerTests) TestGroupFiltering(c *check.C) { g := make([]ec2.SecurityGroup, 4) for i := range g { resp, err := s.ec2.CreateSecurityGroup(sessionName(fmt.Sprintf("testgroup%d", i)), fmt.Sprintf("testdescription%d", i)) c.Assert(err, check.IsNil) g[i] = resp.SecurityGroup c.Logf("group %d: %v", i, g[i]) defer s.ec2.DeleteSecurityGroup(g[i]) } perms := [][]ec2.IPPerm{ {{ Protocol: "tcp", FromPort: 100, ToPort: 200, SourceIPs: []string{"1.2.3.4/32"}, }}, {{ Protocol: "tcp", FromPort: 200, ToPort: 300, SourceGroups: []ec2.UserSecurityGroup{{Id: g[1].Id}}, }}, {{ Protocol: "udp", FromPort: 200, ToPort: 400, SourceGroups: []ec2.UserSecurityGroup{{Id: g[1].Id}}, }}, } for i, ps := range perms { _, err := s.ec2.AuthorizeSecurityGroup(g[i], ps) c.Assert(err, check.IsNil) } groups := func(indices ...int) (gs []ec2.SecurityGroup) { for _, index := range indices { gs = append(gs, g[index]) } return } type groupTest struct { about string groups []ec2.SecurityGroup // groupIds argument to SecurityGroups method. filters []filterSpec // filters argument to SecurityGroups method. results []ec2.SecurityGroup // set of expected result groups. allowExtra bool // specified results may be incomplete. err string // expected error. } filterCheck := func(name, val string, gs []ec2.SecurityGroup) groupTest { return groupTest{ about: "filter check " + name, filters: []filterSpec{{name, []string{val}}}, results: gs, allowExtra: true, } } tests := []groupTest{ { about: "check that SecurityGroups returns all groups", results: groups(0, 1, 2, 3), allowExtra: true, }, { about: "check that specifying two group ids returns them", groups: idsOnly(groups(0, 2)), results: groups(0, 2), }, { about: "check that specifying names only works", groups: namesOnly(groups(0, 2)), results: groups(0, 2), }, { about: "check that specifying a non-existent group id gives an error", groups: append(groups(0), ec2.SecurityGroup{Id: "sg-eeeeeeeee"}), err: `.*\(InvalidGroup\.NotFound\)`, }, { about: "check that a filter allowed two groups returns both of them", filters: []filterSpec{ {"group-id", []string{g[0].Id, g[2].Id}}, }, results: groups(0, 2), }, { about: "check that the previous filter works when specifying a list of ids", groups: groups(1, 2), filters: []filterSpec{ {"group-id", []string{g[0].Id, g[2].Id}}, }, results: groups(2), }, { about: "check that a filter allowing no groups returns none", filters: []filterSpec{ {"group-id", []string{"sg-eeeeeeeee"}}, }, }, filterCheck("description", "testdescription1", groups(1)), filterCheck("group-name", g[2].Name, groups(2)), filterCheck("ip-permission.cidr", "1.2.3.4/32", groups(0)), filterCheck("ip-permission.group-name", g[1].Name, groups(1, 2)), filterCheck("ip-permission.protocol", "udp", groups(2)), filterCheck("ip-permission.from-port", "200", groups(1, 2)), filterCheck("ip-permission.to-port", "200", groups(0)), // TODO owner-id } for i, t := range tests { c.Logf("%d. %s", i, t.about) var f *ec2.Filter if t.filters != nil { f = ec2.NewFilter() for _, spec := range t.filters { f.Add(spec.name, spec.values...) } } resp, err := s.ec2.SecurityGroups(t.groups, f) if t.err != "" { c.Check(err, check.ErrorMatches, t.err) continue } c.Assert(err, check.IsNil) groups := make(map[string]*ec2.SecurityGroup) for j := range resp.Groups { group := &resp.Groups[j].SecurityGroup c.Check(groups[group.Id], check.IsNil, check.Commentf("duplicate group id: %q", group.Id)) groups[group.Id] = group } // If extra groups may be returned, eliminate all groups that // we did not create in this session apart from the default group. if t.allowExtra { namePat := regexp.MustCompile(sessionName("testgroup[0-9]")) for id, g := range groups { if !namePat.MatchString(g.Name) { delete(groups, id) } } } c.Check(groups, check.HasLen, len(t.results)) for j, g := range t.results { rg := groups[g.Id] c.Assert(rg, check.NotNil, check.Commentf("group %d (%v) not found; got %#v", j, g, groups)) c.Check(rg.Name, check.Equals, g.Name, check.Commentf("group %d (%v)", j, g)) } } }
func (s *ServerTests) TestInstanceFiltering(c *check.C) { groupResp, err := s.ec2.CreateSecurityGroup(sessionName("testgroup1"), "testgroup one description") c.Assert(err, check.IsNil) group1 := groupResp.SecurityGroup defer s.ec2.DeleteSecurityGroup(group1) groupResp, err = s.ec2.CreateSecurityGroup(sessionName("testgroup2"), "testgroup two description") c.Assert(err, check.IsNil) group2 := groupResp.SecurityGroup defer s.ec2.DeleteSecurityGroup(group2) insts := make([]*ec2.Instance, 3) inst, err := s.ec2.RunInstances(&ec2.RunInstancesOptions{ MinCount: 2, ImageId: imageId, InstanceType: "t1.micro", SecurityGroups: []ec2.SecurityGroup{group1}, }) c.Assert(err, check.IsNil) insts[0] = &inst.Instances[0] insts[1] = &inst.Instances[1] defer terminateInstances(c, s.ec2, insts) imageId2 := "ami-e358958a" // Natty server, i386, EBS store inst, err = s.ec2.RunInstances(&ec2.RunInstancesOptions{ ImageId: imageId2, InstanceType: "t1.micro", SecurityGroups: []ec2.SecurityGroup{group2}, }) c.Assert(err, check.IsNil) insts[2] = &inst.Instances[0] ids := func(indices ...int) (instIds []string) { for _, index := range indices { instIds = append(instIds, insts[index].InstanceId) } return } tests := []struct { about string instanceIds []string // instanceIds argument to Instances method. filters []filterSpec // filters argument to Instances method. resultIds []string // set of instance ids of expected results. allowExtra bool // resultIds may be incomplete. err string // expected error. }{ { about: "check that Instances returns all instances", resultIds: ids(0, 1, 2), allowExtra: true, }, { about: "check that specifying two instance ids returns them", instanceIds: ids(0, 2), resultIds: ids(0, 2), }, { about: "check that specifying a non-existent instance id gives an error", instanceIds: append(ids(0), "i-deadbeef"), err: `.*\(InvalidInstanceID\.NotFound\)`, }, { about: "check that a filter allowed both instances returns both of them", filters: []filterSpec{ {"instance-id", ids(0, 2)}, }, resultIds: ids(0, 2), }, { about: "check that a filter allowing only one instance returns it", filters: []filterSpec{ {"instance-id", ids(1)}, }, resultIds: ids(1), }, { about: "check that a filter allowing no instances returns none", filters: []filterSpec{ {"instance-id", []string{"i-deadbeef12345"}}, }, }, { about: "check that filtering on group id works", filters: []filterSpec{ {"group-id", []string{group1.Id}}, }, resultIds: ids(0, 1), }, { about: "check that filtering on group name works", filters: []filterSpec{ {"group-name", []string{group1.Name}}, }, resultIds: ids(0, 1), }, { about: "check that filtering on image id works", filters: []filterSpec{ {"image-id", []string{imageId}}, }, resultIds: ids(0, 1), allowExtra: true, }, { about: "combination filters 1", filters: []filterSpec{ {"image-id", []string{imageId, imageId2}}, {"group-name", []string{group1.Name}}, }, resultIds: ids(0, 1), }, { about: "combination filters 2", filters: []filterSpec{ {"image-id", []string{imageId2}}, {"group-name", []string{group1.Name}}, }, }, } for i, t := range tests { c.Logf("%d. %s", i, t.about) var f *ec2.Filter if t.filters != nil { f = ec2.NewFilter() for _, spec := range t.filters { f.Add(spec.name, spec.values...) } } resp, err := s.ec2.DescribeInstances(t.instanceIds, f) if t.err != "" { c.Check(err, check.ErrorMatches, t.err) continue } c.Assert(err, check.IsNil) insts := make(map[string]*ec2.Instance) for _, r := range resp.Reservations { for j := range r.Instances { inst := &r.Instances[j] c.Check(insts[inst.InstanceId], check.IsNil, check.Commentf("duplicate instance id: %q", inst.InstanceId)) insts[inst.InstanceId] = inst } } if !t.allowExtra { c.Check(insts, check.HasLen, len(t.resultIds), check.Commentf("expected %d instances got %#v", len(t.resultIds), insts)) } for j, id := range t.resultIds { c.Check(insts[id], check.NotNil, check.Commentf("instance id %d (%q) not found; got %#v", j, id, insts)) } } }
func (s *ServerTests) TestIPPerms(c *check.C) { g0 := s.makeTestGroup(c, "goamz-test0", "ec2test group 0") defer s.ec2.DeleteSecurityGroup(g0) g1 := s.makeTestGroup(c, "goamz-test1", "ec2test group 1") defer s.ec2.DeleteSecurityGroup(g1) resp, err := s.ec2.SecurityGroups([]ec2.SecurityGroup{g0, g1}, nil) c.Assert(err, check.IsNil) c.Assert(resp.Groups, check.HasLen, 2) c.Assert(resp.Groups[0].IPPerms, check.HasLen, 0) c.Assert(resp.Groups[1].IPPerms, check.HasLen, 0) ownerId := resp.Groups[0].OwnerId // test some invalid parameters // TODO more _, err = s.ec2.AuthorizeSecurityGroup(g0, []ec2.IPPerm{{ Protocol: "tcp", FromPort: 0, ToPort: 1024, SourceIPs: []string{"z127.0.0.1/24"}, }}) c.Assert(err, check.NotNil) c.Check(err.(*ec2.Error).Code, check.Equals, "InvalidPermission.Malformed") // Check that AuthorizeSecurityGroup adds the correct authorizations. _, err = s.ec2.AuthorizeSecurityGroup(g0, []ec2.IPPerm{{ Protocol: "tcp", FromPort: 2000, ToPort: 2001, SourceIPs: []string{"127.0.0.0/24"}, SourceGroups: []ec2.UserSecurityGroup{{ Name: g1.Name, }, { Id: g0.Id, }}, }, { Protocol: "tcp", FromPort: 2000, ToPort: 2001, SourceIPs: []string{"200.1.1.34/32"}, }}) c.Assert(err, check.IsNil) resp, err = s.ec2.SecurityGroups([]ec2.SecurityGroup{g0}, nil) c.Assert(err, check.IsNil) c.Assert(resp.Groups, check.HasLen, 1) c.Assert(resp.Groups[0].IPPerms, check.HasLen, 1) perm := resp.Groups[0].IPPerms[0] srcg := perm.SourceGroups c.Assert(srcg, check.HasLen, 2) // Normalize so we don't care about returned order. if srcg[0].Name == g1.Name { srcg[0], srcg[1] = srcg[1], srcg[0] } c.Check(srcg[0].Name, check.Equals, g0.Name) c.Check(srcg[0].Id, check.Equals, g0.Id) c.Check(srcg[0].OwnerId, check.Equals, ownerId) c.Check(srcg[1].Name, check.Equals, g1.Name) c.Check(srcg[1].Id, check.Equals, g1.Id) c.Check(srcg[1].OwnerId, check.Equals, ownerId) sort.Strings(perm.SourceIPs) c.Check(perm.SourceIPs, check.DeepEquals, []string{"127.0.0.0/24", "200.1.1.34/32"}) // Check that we can't delete g1 (because g0 is using it) _, err = s.ec2.DeleteSecurityGroup(g1) c.Assert(err, check.NotNil) c.Check(err.(*ec2.Error).Code, check.Equals, "InvalidGroup.InUse") _, err = s.ec2.RevokeSecurityGroup(g0, []ec2.IPPerm{{ Protocol: "tcp", FromPort: 2000, ToPort: 2001, SourceGroups: []ec2.UserSecurityGroup{{Id: g1.Id}}, }, { Protocol: "tcp", FromPort: 2000, ToPort: 2001, SourceIPs: []string{"200.1.1.34/32"}, }}) c.Assert(err, check.IsNil) resp, err = s.ec2.SecurityGroups([]ec2.SecurityGroup{g0}, nil) c.Assert(err, check.IsNil) c.Assert(resp.Groups, check.HasLen, 1) c.Assert(resp.Groups[0].IPPerms, check.HasLen, 1) perm = resp.Groups[0].IPPerms[0] srcg = perm.SourceGroups c.Assert(srcg, check.HasLen, 1) c.Check(srcg[0].Name, check.Equals, g0.Name) c.Check(srcg[0].Id, check.Equals, g0.Id) c.Check(srcg[0].OwnerId, check.Equals, ownerId) c.Check(perm.SourceIPs, check.DeepEquals, []string{"127.0.0.0/24"}) // We should be able to delete g1 now because we've removed its only use. _, err = s.ec2.DeleteSecurityGroup(g1) c.Assert(err, check.IsNil) _, err = s.ec2.DeleteSecurityGroup(g0) c.Assert(err, check.IsNil) f := ec2.NewFilter() f.Add("group-id", g0.Id, g1.Id) resp, err = s.ec2.SecurityGroups(nil, f) c.Assert(err, check.IsNil) c.Assert(resp.Groups, check.HasLen, 0) }