func Test_expandIPPerms_NoCidr(t *testing.T) {
conf := testConf()
delete(conf, "ingress.0.cidr_blocks.#")
delete(conf, "ingress.0.cidr_blocks.0")
expanded := flatmap.Expand(conf, "ingress").([]interface{})
perms, err := expandIPPerms(expanded)
if err != nil {
t.Fatalf("bad: %#v", err)
}
expected := ec2.IPPerm{
Protocol: "icmp",
FromPort: 1,
ToPort: -1,
SourceGroups: []ec2.UserSecurityGroup{
ec2.UserSecurityGroup{
Id: "sg-11111",
},
},
}
if !reflect.DeepEqual(perms[0], expected) {
t.Fatalf(
"Got:\n\n%#v\n\nExpected:\n\n%#v\n",
perms[0],
expected)
}
}
func resource_consul_keys_destroy(
s *terraform.ResourceState,
meta interface{}) error {
p := meta.(*ResourceProvider)
client := p.client
kv := client.KV()
// Get the keys
keys, ok := flatmap.Expand(s.Attributes, "key").([]interface{})
if !ok {
return fmt.Errorf("Failed to unroll keys")
}
dc := s.Attributes["datacenter"]
wOpts := consulapi.WriteOptions{Datacenter: dc}
for _, raw := range keys {
_, path, sub, err := parse_key(raw)
if err != nil {
return err
}
// Ignore if the key is non-managed
shouldDelete, ok := sub["delete"].(bool)
if !ok || !shouldDelete {
continue
}
log.Printf("[DEBUG] Deleting key '%s' in %s", path, dc)
if _, err := kv.Delete(path, &wOpts); err != nil {
return fmt.Errorf("Failed to delete Consul key '%s': %v", path, err)
}
}
return nil
}
func resource_consul_keys_diff(
s *terraform.ResourceState,
c *terraform.ResourceConfig,
meta interface{}) (*terraform.ResourceDiff, error) {
// Determine the list of computed variables
var computed []string
keys, ok := flatmap.Expand(flatmap.Flatten(c.Config), "key").([]interface{})
if !ok {
goto AFTER
}
for _, sub := range keys {
key, _, _, err := parse_key(sub)
if err != nil {
continue
}
computed = append(computed, "var."+key)
}
AFTER:
b := &diff.ResourceBuilder{
Attrs: map[string]diff.AttrType{
"datacenter": diff.AttrTypeCreate,
"key": diff.AttrTypeUpdate,
},
ComputedAttrsUpdate: computed,
}
return b.Diff(s, c)
}
func Test_expandIPPerms(t *testing.T) {
expanded := flatmap.Expand(testConf(), "ingress").([]interface{})
perms, err := expandIPPerms(expanded)
if err != nil {
t.Fatalf("bad: %#v", err)
}
expected := ec2.IPPerm{
Protocol: "icmp",
FromPort: 1,
ToPort: -1,
SourceIPs: []string{"0.0.0.0/0"},
SourceGroups: []ec2.UserSecurityGroup{
ec2.UserSecurityGroup{
Id: "sg-11111",
},
},
}
if !reflect.DeepEqual(perms[0], expected) {
t.Fatalf(
"Got:\n\n%#v\n\nExpected:\n\n%#v\n",
perms[0],
expected)
}
}
func resource_aws_launch_configuration_create(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
autoscalingconn := p.autoscalingconn
// Merge the diff into the state so that we have all the attributes
// properly.
rs := s.MergeDiff(d)
var err error
createLaunchConfigurationOpts := autoscaling.CreateLaunchConfiguration{}
if rs.Attributes["image_id"] != "" {
createLaunchConfigurationOpts.ImageId = rs.Attributes["image_id"]
}
if rs.Attributes["instance_type"] != "" {
createLaunchConfigurationOpts.InstanceType = rs.Attributes["instance_type"]
}
if rs.Attributes["instance_id"] != "" {
createLaunchConfigurationOpts.InstanceId = rs.Attributes["instance_id"]
}
if rs.Attributes["key_name"] != "" {
createLaunchConfigurationOpts.KeyName = rs.Attributes["key_name"]
}
if err != nil {
return nil, fmt.Errorf("Error parsing configuration: %s", err)
}
if _, ok := rs.Attributes["security_groups.#"]; ok {
createLaunchConfigurationOpts.SecurityGroups = expandStringList(flatmap.Expand(
rs.Attributes, "security_groups").([]interface{}))
}
createLaunchConfigurationOpts.Name = rs.Attributes["name"]
log.Printf("[DEBUG] autoscaling create launch configuration: %#v", createLaunchConfigurationOpts)
_, err = autoscalingconn.CreateLaunchConfiguration(&createLaunchConfigurationOpts)
if err != nil {
return nil, fmt.Errorf("Error creating launch configuration: %s", err)
}
rs.ID = rs.Attributes["name"]
log.Printf("[INFO] launch configuration ID: %s", rs.ID)
g, err := resource_aws_launch_configuration_retrieve(rs.ID, autoscalingconn)
if err != nil {
return rs, err
}
return resource_aws_launch_configuration_update_state(rs, g)
}
func (i *Interpolater) interpolateComplexTypeAttribute(
resourceID string,
attributes map[string]string) (ast.Variable, error) {
// We can now distinguish between lists and maps in state by the count field:
// - lists (and by extension, sets) use the traditional .# notation
// - maps use the newer .% notation
// Consequently here we can decide how to deal with the keys appropriately
// based on whether the type is a map of list.
if lengthAttr, isList := attributes[resourceID+".#"]; isList {
log.Printf("[DEBUG] Interpolating computed list element attribute %s (%s)",
resourceID, lengthAttr)
// In Terraform's internal dotted representation of list-like attributes, the
// ".#" count field is marked as unknown to indicate "this whole list is
// unknown". We must honor that meaning here so computed references can be
// treated properly during the plan phase.
if lengthAttr == config.UnknownVariableValue {
return unknownVariable(), nil
}
expanded := flatmap.Expand(attributes, resourceID)
return hil.InterfaceToVariable(expanded)
}
if lengthAttr, isMap := attributes[resourceID+".%"]; isMap {
log.Printf("[DEBUG] Interpolating computed map element attribute %s (%s)",
resourceID, lengthAttr)
// In Terraform's internal dotted representation of map attributes, the
// ".%" count field is marked as unknown to indicate "this whole list is
// unknown". We must honor that meaning here so computed references can be
// treated properly during the plan phase.
if lengthAttr == config.UnknownVariableValue {
return unknownVariable(), nil
}
expanded := flatmap.Expand(attributes, resourceID)
return hil.InterfaceToVariable(expanded)
}
return ast.Variable{}, fmt.Errorf("No complex type %s found", resourceID)
}
func resource_aws_instance_update_state(
s *terraform.ResourceState,
instance *ec2.Instance) (*terraform.ResourceState, error) {
s.Attributes["availability_zone"] = instance.AvailZone
s.Attributes["key_name"] = instance.KeyName
s.Attributes["public_dns"] = instance.DNSName
s.Attributes["public_ip"] = instance.PublicIpAddress
s.Attributes["private_dns"] = instance.PrivateDNSName
s.Attributes["private_ip"] = instance.PrivateIpAddress
s.Attributes["subnet_id"] = instance.SubnetId
s.Dependencies = nil
// Extract the existing security groups
useID := false
if raw := flatmap.Expand(s.Attributes, "security_groups"); raw != nil {
if sgs, ok := raw.([]interface{}); ok {
for _, sg := range sgs {
str, ok := sg.(string)
if !ok {
continue
}
if strings.HasPrefix(str, "sg-") {
useID = true
break
}
}
}
}
// Build up the security groups
sgs := make([]string, len(instance.SecurityGroups))
for i, sg := range instance.SecurityGroups {
if instance.SubnetId != "" && useID {
sgs[i] = sg.Id
} else {
sgs[i] = sg.Name
}
s.Dependencies = append(s.Dependencies,
terraform.ResourceDependency{ID: sg.Id},
)
}
flatmap.Map(s.Attributes).Merge(flatmap.Flatten(map[string]interface{}{
"security_groups": sgs,
}))
if instance.SubnetId != "" {
s.Dependencies = append(s.Dependencies,
terraform.ResourceDependency{ID: instance.SubnetId},
)
}
return s, nil
}
func resource_heroku_app_create(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
client := p.client
// Merge the diff into the state so that we have all the attributes
// properly.
rs := s.MergeDiff(d)
// Build up our creation options
opts := heroku.AppCreateOpts{}
if attr := rs.Attributes["name"]; attr != "" {
opts.Name = &attr
}
if attr := rs.Attributes["region"]; attr != "" {
opts.Region = &attr
}
if attr := rs.Attributes["stack"]; attr != "" {
opts.Stack = &attr
}
log.Printf("[DEBUG] App create configuration: %#v", opts)
a, err := client.AppCreate(&opts)
if err != nil {
return s, err
}
rs.ID = a.Name
log.Printf("[INFO] App ID: %s", rs.ID)
if attr, ok := rs.Attributes["config_vars.#"]; ok && attr == "1" {
vs := flatmap.Expand(
rs.Attributes, "config_vars").([]interface{})
err = update_config_vars(rs.ID, vs, client)
if err != nil {
return rs, err
}
}
app, err := resource_heroku_app_retrieve(rs.ID, client)
if err != nil {
return rs, err
}
return resource_heroku_app_update_state(rs, app)
}
func Test_expandIPPerms_bad(t *testing.T) {
badConf := map[string]string{
"ingress.#": "1",
"ingress.0.from_port": "not number",
}
expanded := flatmap.Expand(badConf, "ingress").([]interface{})
perms, err := expandIPPerms(expanded)
if err == nil {
t.Fatalf("should have err: %#v", perms)
}
}
func resource_heroku_app_update(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
client := p.client
rs := s.MergeDiff(d)
if attr, ok := d.Attributes["name"]; ok {
opts := heroku.AppUpdateOpts{
Name: &attr.New,
}
renamedApp, err := client.AppUpdate(rs.ID, &opts)
if err != nil {
return s, err
}
// Store the new ID
rs.ID = renamedApp.Name
}
attr, ok := s.Attributes["config_vars.#"]
// If the config var block was removed, nuke all config vars
if ok && attr == "1" {
vs := flatmap.Expand(
rs.Attributes, "config_vars").([]interface{})
err := update_config_vars(rs.ID, vs, client)
if err != nil {
return rs, err
}
} else if ok && attr == "0" {
log.Println("[INFO] Config vars removed, removing all vars")
err := update_config_vars(rs.ID, make([]interface{}, 0), client)
if err != nil {
return rs, err
}
}
app, err := resource_heroku_app_retrieve(rs.ID, client)
if err != nil {
return rs, err
}
return resource_heroku_app_update_state(rs, app)
}
func TestExpandStringList(t *testing.T) {
expanded := flatmap.Expand(testConf(), "availability_zones").([]interface{})
stringList := expandStringList(expanded)
expected := []*string{
aws.String("us-east-1a"),
aws.String("us-east-1b"),
}
if !reflect.DeepEqual(stringList, expected) {
t.Fatalf(
"Got:\n\n%#v\n\nExpected:\n\n%#v\n",
stringList,
expected)
}
}
func resource_heroku_addon_create(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
addonLock.Lock()
defer addonLock.Unlock()
p := meta.(*ResourceProvider)
client := p.client
// Merge the diff into the state so that we have all the attributes
// properly.
rs := s.MergeDiff(d)
app := rs.Attributes["app"]
plan := rs.Attributes["plan"]
opts := heroku.AddonCreateOpts{}
if attr, ok := rs.Attributes["config.#"]; ok && attr == "1" {
vs := flatmap.Expand(
rs.Attributes, "config").([]interface{})
config := make(map[string]string)
for k, v := range vs[0].(map[string]interface{}) {
config[k] = v.(string)
}
opts.Config = &config
}
log.Printf("[DEBUG] Addon create configuration: %#v, %#v, %#v", app, plan, opts)
a, err := client.AddonCreate(app, plan, &opts)
if err != nil {
return s, err
}
rs.ID = a.Id
log.Printf("[INFO] Addon ID: %s", rs.ID)
addon, err := resource_heroku_addon_retrieve(app, rs.ID, client)
if err != nil {
return rs, err
}
return resource_heroku_addon_update_state(rs, addon)
}
func resource_aws_r53_build_record_set(s *terraform.ResourceState) (*route53.ResourceRecordSet, error) {
// Parse the TTL
ttl, err := strconv.ParseInt(s.Attributes["ttl"], 10, 32)
if err != nil {
return nil, err
}
// Expand the records
recRaw := flatmap.Expand(s.Attributes, "records")
var records []string
for _, raw := range recRaw.([]interface{}) {
records = append(records, raw.(string))
}
rec := &route53.ResourceRecordSet{
Name: s.Attributes["name"],
Type: s.Attributes["type"],
TTL: int(ttl),
Records: records,
}
return rec, nil
}
func Test_expandListeners(t *testing.T) {
expanded := flatmap.Expand(testConf(), "listener").([]interface{})
listeners, err := expandListeners(expanded)
if err != nil {
t.Fatalf("bad: %#v", err)
}
expected := elb.Listener{
InstancePort: 8000,
LoadBalancerPort: 80,
InstanceProtocol: "http",
Protocol: "http",
}
if !reflect.DeepEqual(listeners[0], expected) {
t.Fatalf(
"Got:\n\n%#v\n\nExpected:\n\n%#v\n",
listeners[0],
expected)
}
}
func resource_consul_keys_refresh(
s *terraform.ResourceState,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
client := p.client
kv := client.KV()
// Get the list of keys
keys, ok := flatmap.Expand(s.Attributes, "key").([]interface{})
if !ok {
return s, fmt.Errorf("Failed to unroll keys")
}
// Update each key
dc := s.Attributes["datacenter"]
opts := consulapi.QueryOptions{Datacenter: dc}
for idx, raw := range keys {
key, path, sub, err := parse_key(raw)
if err != nil {
return s, err
}
log.Printf("[DEBUG] Refreshing value of key '%s' in %s", path, dc)
pair, _, err := kv.Get(path, &opts)
if err != nil {
return s, fmt.Errorf("Failed to get value for path '%s' from Consul: %v", path, err)
}
setVal := attribute_value(sub, key, pair)
s.Attributes[fmt.Sprintf("var.%s", key)] = setVal
if _, ok := sub["value"]; ok {
s.Attributes[fmt.Sprintf("key.%d.value", idx)] = setVal
}
}
return s, nil
}
func resource_aws_security_group_create(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
ec2conn := p.ec2conn
// Merge the diff into the state so that we have all the attributes
// properly.
rs := s.MergeDiff(d)
securityGroupOpts := ec2.SecurityGroup{
Name: rs.Attributes["name"],
}
if rs.Attributes["vpc_id"] != "" {
securityGroupOpts.VpcId = rs.Attributes["vpc_id"]
}
if rs.Attributes["description"] != "" {
securityGroupOpts.Description = rs.Attributes["description"]
}
log.Printf("[DEBUG] Security Group create configuration: %#v", securityGroupOpts)
createResp, err := ec2conn.CreateSecurityGroup(securityGroupOpts)
if err != nil {
return nil, fmt.Errorf("Error creating Security Group: %s", err)
}
rs.ID = createResp.Id
group := createResp.SecurityGroup
log.Printf("[INFO] Security Group ID: %s", rs.ID)
// Wait for the security group to truly exist
log.Printf(
"[DEBUG] Waiting for SG (%s) to exist",
s.ID)
stateConf := &resource.StateChangeConf{
Pending: []string{""},
Target: "exists",
Refresh: SGStateRefreshFunc(ec2conn, rs.ID),
Timeout: 1 * time.Minute,
}
if _, err := stateConf.WaitForState(); err != nil {
return s, fmt.Errorf(
"Error waiting for SG (%s) to become available: %s",
rs.ID, err)
}
// Expand the "ingress" array to goamz compat []ec2.IPPerm
ingressRules := []ec2.IPPerm{}
v, ok := flatmap.Expand(rs.Attributes, "ingress").([]interface{})
if ok {
ingressRules, err = expandIPPerms(v)
if err != nil {
return rs, err
}
}
if len(ingressRules) > 0 {
_, err = ec2conn.AuthorizeSecurityGroup(group, ingressRules)
if err != nil {
return rs, fmt.Errorf("Error authorizing security group ingress rules: %s", err)
}
}
return resource_aws_security_group_refresh(rs, meta)
}
func resource_aws_elb_create(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
elbconn := p.elbconn
// Merge the diff into the state so that we have all the attributes
// properly.
rs := s.MergeDiff(d)
// The name specified for the ELB. This is also our unique ID
// we save to state if the creation is successful (amazon verifies
// it is unique)
elbName := rs.Attributes["name"]
// Expand the "listener" array to goamz compat []elb.Listener
v := flatmap.Expand(rs.Attributes, "listener").([]interface{})
listeners, err := expandListeners(v)
if err != nil {
return nil, err
}
// Provision the elb
elbOpts := &elb.CreateLoadBalancer{
LoadBalancerName: elbName,
Listeners: listeners,
}
if _, ok := rs.Attributes["availability_zones.#"]; ok {
v = flatmap.Expand(rs.Attributes, "availability_zones").([]interface{})
zones := expandStringList(v)
elbOpts.AvailZone = zones
}
log.Printf("[DEBUG] ELB create configuration: %#v", elbOpts)
_, err = elbconn.CreateLoadBalancer(elbOpts)
if err != nil {
return nil, fmt.Errorf("Error creating ELB: %s", err)
}
// Assign the elb's unique identifier for use later
rs.ID = elbName
log.Printf("[INFO] ELB ID: %s", elbName)
if _, ok := rs.Attributes["instances.#"]; ok {
// If we have any instances, we need to register them
v = flatmap.Expand(rs.Attributes, "instances").([]interface{})
instances := expandStringList(v)
if len(instances) > 0 {
registerInstancesOpts := elb.RegisterInstancesWithLoadBalancer{
LoadBalancerName: elbName,
Instances: instances,
}
_, err := elbconn.RegisterInstancesWithLoadBalancer(®isterInstancesOpts)
if err != nil {
return rs, fmt.Errorf("Failure registering instances: %s", err)
}
}
}
if _, ok := rs.Attributes["health_check.#"]; ok {
v := flatmap.Expand(rs.Attributes, "health_check").([]interface{})
health_check := v[0].(map[string]interface{})
healthyThreshold, err := strconv.ParseInt(health_check["healthy_threshold"].(string), 0, 0)
unhealthyThreshold, err := strconv.ParseInt(health_check["unhealthy_threshold"].(string), 0, 0)
interval, err := strconv.ParseInt(health_check["interval"].(string), 0, 0)
timeout, err := strconv.ParseInt(health_check["timeout"].(string), 0, 0)
if err != nil {
return nil, err
}
configureHealthCheckOpts := elb.ConfigureHealthCheck{
LoadBalancerName: elbName,
Check: elb.HealthCheck{
HealthyThreshold: healthyThreshold,
UnhealthyThreshold: unhealthyThreshold,
Interval: interval,
Target: health_check["target"].(string),
Timeout: timeout,
},
}
_, err = elbconn.ConfigureHealthCheck(&configureHealthCheckOpts)
if err != nil {
return rs, fmt.Errorf("Failure configuring health check: %s", err)
}
}
loadBalancer, err := resource_aws_elb_retrieve_balancer(rs.ID, elbconn)
if err != nil {
return rs, err
}
return resource_aws_elb_update_state(rs, loadBalancer)
}
func resource_aws_elb_update(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
elbconn := p.elbconn
rs := s.MergeDiff(d)
// If we currently have instances, or did have instances,
// we want to figure out what to add and remove from the load
// balancer
if attr, ok := d.Attributes["instances.#"]; ok && attr.Old != "" {
// The new state of instances merged with the diff
mergedInstances := expandStringList(flatmap.Expand(
rs.Attributes, "instances").([]interface{}))
// The state before the diff merge
previousInstances := expandStringList(flatmap.Expand(
s.Attributes, "instances").([]interface{}))
// keep track of what instances we are removing, and which
// we are adding
var toRemove []string
var toAdd []string
for _, instanceId := range mergedInstances {
for _, prevId := range previousInstances {
// If the merged instance ID existed
// previously, we don't have to do anything
if instanceId == prevId {
continue
// Otherwise, we need to add it to the load balancer
} else {
toAdd = append(toAdd, instanceId)
}
}
}
for i, instanceId := range toAdd {
for _, prevId := range previousInstances {
// If the instance ID we are adding existed
// previously, we want to not add it, but rather remove
// it
if instanceId == prevId {
toRemove = append(toRemove, instanceId)
toAdd = append(toAdd[:i], toAdd[i+1:]...)
// Otherwise, we continue adding it to the ELB
} else {
continue
}
}
}
if len(toAdd) > 0 {
registerInstancesOpts := elb.RegisterInstancesWithLoadBalancer{
LoadBalancerName: rs.ID,
Instances: toAdd,
}
_, err := elbconn.RegisterInstancesWithLoadBalancer(®isterInstancesOpts)
if err != nil {
return s, fmt.Errorf("Failure registering instances: %s", err)
}
}
if len(toRemove) > 0 {
deRegisterInstancesOpts := elb.DeregisterInstancesFromLoadBalancer{
LoadBalancerName: rs.ID,
Instances: toRemove,
}
_, err := elbconn.DeregisterInstancesFromLoadBalancer(&deRegisterInstancesOpts)
if err != nil {
return s, fmt.Errorf("Failure deregistering instances: %s", err)
}
}
}
loadBalancer, err := resource_aws_elb_retrieve_balancer(rs.ID, elbconn)
if err != nil {
return s, err
}
return resource_aws_elb_update_state(rs, loadBalancer)
}
func resource_aws_autoscaling_group_create(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
autoscalingconn := p.autoscalingconn
// Merge the diff into the state so that we have all the attributes
// properly.
rs := s.MergeDiff(d)
var err error
autoScalingGroupOpts := autoscaling.CreateAutoScalingGroup{}
if rs.Attributes["min_size"] != "" {
autoScalingGroupOpts.MinSize, err = strconv.Atoi(rs.Attributes["min_size"])
autoScalingGroupOpts.SetMinSize = true
}
if rs.Attributes["max_size"] != "" {
autoScalingGroupOpts.MaxSize, err = strconv.Atoi(rs.Attributes["max_size"])
autoScalingGroupOpts.SetMaxSize = true
}
if rs.Attributes["default_cooldown"] != "" {
autoScalingGroupOpts.DefaultCooldown, err = strconv.Atoi(rs.Attributes["default_cooldown"])
autoScalingGroupOpts.SetDefaultCooldown = true
}
if rs.Attributes["desired_capacity"] != "" {
autoScalingGroupOpts.DesiredCapacity, err = strconv.Atoi(rs.Attributes["desired_capacity"])
autoScalingGroupOpts.SetDesiredCapacity = true
}
if rs.Attributes["health_check_grace_period"] != "" {
autoScalingGroupOpts.HealthCheckGracePeriod, err = strconv.Atoi(rs.Attributes["health_check_grace_period"])
autoScalingGroupOpts.SetHealthCheckGracePeriod = true
}
if err != nil {
return nil, fmt.Errorf("Error parsing configuration: %s", err)
}
if _, ok := rs.Attributes["availability_zones.#"]; ok {
autoScalingGroupOpts.AvailZone = expandStringList(flatmap.Expand(
rs.Attributes, "availability_zones").([]interface{}))
}
if _, ok := rs.Attributes["load_balancers.#"]; ok {
autoScalingGroupOpts.LoadBalancerNames = expandStringList(flatmap.Expand(
rs.Attributes, "load_balancers").([]interface{}))
}
if _, ok := rs.Attributes["vpc_identifier.#"]; ok {
autoScalingGroupOpts.VPCZoneIdentifier = expandStringList(flatmap.Expand(
rs.Attributes, "vpc_identifier").([]interface{}))
}
autoScalingGroupOpts.Name = rs.Attributes["name"]
autoScalingGroupOpts.HealthCheckType = rs.Attributes["health_check_type"]
autoScalingGroupOpts.LaunchConfigurationName = rs.Attributes["launch_configuration"]
log.Printf("[DEBUG] AutoScaling Group create configuration: %#v", autoScalingGroupOpts)
_, err = autoscalingconn.CreateAutoScalingGroup(&autoScalingGroupOpts)
if err != nil {
return nil, fmt.Errorf("Error creating AutoScaling Group: %s", err)
}
rs.ID = rs.Attributes["name"]
rs.Dependencies = []terraform.ResourceDependency{
terraform.ResourceDependency{ID: rs.Attributes["launch_configuration"]},
}
log.Printf("[INFO] AutoScaling Group ID: %s", rs.ID)
g, err := resource_aws_autoscaling_group_retrieve(rs.ID, autoscalingconn)
if err != nil {
return rs, err
}
return resource_aws_autoscaling_group_update_state(rs, g)
}
func resource_digitalocean_droplet_create(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
client := p.client
// Merge the diff into the state so that we have all the attributes
// properly.
rs := s.MergeDiff(d)
// Build up our creation options
opts := digitalocean.CreateDroplet{
Backups: rs.Attributes["backups"],
Image: rs.Attributes["image"],
IPV6: rs.Attributes["ipv6"],
Name: rs.Attributes["name"],
PrivateNetworking: rs.Attributes["private_networking"],
Region: rs.Attributes["region"],
Size: rs.Attributes["size"],
}
// Only expand ssh_keys if we have them
if _, ok := rs.Attributes["ssh_keys.#"]; ok {
v := flatmap.Expand(rs.Attributes, "ssh_keys").([]interface{})
if len(v) > 0 {
vs := make([]string, 0, len(v))
// here we special case the * expanded lists. For example:
//
// ssh_keys = ["${digitalocean_key.foo.*.id}"]
//
if len(v) == 1 && strings.Contains(v[0].(string), ",") {
vs = strings.Split(v[0].(string), ",")
}
for _, v := range v {
vs = append(vs, v.(string))
}
opts.SSHKeys = vs
}
}
log.Printf("[DEBUG] Droplet create configuration: %#v", opts)
id, err := client.CreateDroplet(&opts)
if err != nil {
return nil, fmt.Errorf("Error creating Droplet: %s", err)
}
// Assign the droplets id
rs.ID = id
log.Printf("[INFO] Droplet ID: %s", id)
dropletRaw, err := WaitForDropletAttribute(id, "active", []string{"new"}, "status", client)
if err != nil {
return rs, fmt.Errorf(
"Error waiting for droplet (%s) to become ready: %s",
id, err)
}
droplet := dropletRaw.(*digitalocean.Droplet)
// Initialize the connection info
rs.ConnInfo["type"] = "ssh"
rs.ConnInfo["host"] = droplet.IPV4Address("public")
return resource_digitalocean_droplet_update_state(rs, droplet)
}
func resource_aws_route_table_update(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
ec2conn := p.ec2conn
// Our resulting state
rs := s.MergeDiff(d)
// Get our routes out of the merge
oldroutes := flatmap.Expand(s.Attributes, "route")
routes := flatmap.Expand(s.MergeDiff(d).Attributes, "route")
// Determine the route operations we need to perform
ops := routeTableOps(oldroutes, routes)
if len(ops) == 0 {
return s, nil
}
// Go through each operation, performing each one at a time.
// We store the updated state on each operation so that if any
// individual operation fails, we can return a valid partial state.
var err error
resultRoutes := make([]map[string]string, 0, len(ops))
for _, op := range ops {
switch op.Op {
case routeTableOpCreate:
opts := ec2.CreateRoute{
RouteTableId: s.ID,
DestinationCidrBlock: op.Route.DestinationCidrBlock,
GatewayId: op.Route.GatewayId,
InstanceId: op.Route.InstanceId,
}
_, err = ec2conn.CreateRoute(&opts)
case routeTableOpReplace:
opts := ec2.ReplaceRoute{
RouteTableId: s.ID,
DestinationCidrBlock: op.Route.DestinationCidrBlock,
GatewayId: op.Route.GatewayId,
InstanceId: op.Route.InstanceId,
}
_, err = ec2conn.ReplaceRoute(&opts)
case routeTableOpDelete:
_, err = ec2conn.DeleteRoute(
s.ID, op.Route.DestinationCidrBlock)
}
if err != nil {
// Exit early so we can return what we've done so far
break
}
// If we didn't delete the route, append it to the list of routes
// we have.
if op.Op != routeTableOpDelete {
resultMap := map[string]string{"cidr_block": op.Route.DestinationCidrBlock}
if op.Route.GatewayId != "" {
resultMap["gateway_id"] = op.Route.GatewayId
} else if op.Route.InstanceId != "" {
resultMap["instance_id"] = op.Route.InstanceId
}
resultRoutes = append(resultRoutes, resultMap)
}
}
// Update our state with the settings
flatmap.Map(rs.Attributes).Merge(flatmap.Flatten(map[string]interface{}{
"route": resultRoutes,
}))
return rs, err
}
func resource_aws_db_security_group_create(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
conn := p.rdsconn
// Merge the diff into the state so that we have all the attributes
// properly.
rs := s.MergeDiff(d)
var err error
var errs []error
opts := rds.CreateDBSecurityGroup{
DBSecurityGroupName: rs.Attributes["name"],
DBSecurityGroupDescription: rs.Attributes["description"],
}
log.Printf("[DEBUG] DB Security Group create configuration: %#v", opts)
_, err = conn.CreateDBSecurityGroup(&opts)
if err != nil {
return nil, fmt.Errorf("Error creating DB Security Group: %s", err)
}
rs.ID = rs.Attributes["name"]
log.Printf("[INFO] DB Security Group ID: %s", rs.ID)
v, err := resource_aws_db_security_group_retrieve(rs.ID, conn)
if err != nil {
return rs, err
}
if _, ok := rs.Attributes["ingress.#"]; ok {
ingresses := flatmap.Expand(
rs.Attributes, "ingress").([]interface{})
for _, ing := range ingresses {
err = authorize_ingress_rule(ing, v.Name, conn)
if err != nil {
errs = append(errs, err)
}
}
if len(errs) > 0 {
return rs, &multierror.Error{Errors: errs}
}
}
log.Println(
"[INFO] Waiting for Ingress Authorizations to be authorized")
stateConf := &resource.StateChangeConf{
Pending: []string{"authorizing"},
Target: "authorized",
Refresh: DBSecurityGroupStateRefreshFunc(rs.ID, conn),
Timeout: 10 * time.Minute,
}
// Wait, catching any errors
_, err = stateConf.WaitForState()
if err != nil {
return rs, err
}
return resource_aws_db_security_group_update_state(rs, v)
}
func resource_aws_instance_create(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
ec2conn := p.ec2conn
// Merge the diff into the state so that we have all the attributes
// properly.
rs := s.MergeDiff(d)
delete(rs.Attributes, "source_dest_check")
// Figure out user data
userData := ""
if attr, ok := d.Attributes["user_data"]; ok {
userData = attr.NewExtra.(string)
}
associatePublicIPAddress := false
if rs.Attributes["associate_public_ip_address"] == "true" {
associatePublicIPAddress = true
}
// Build the creation struct
runOpts := &ec2.RunInstances{
ImageId: rs.Attributes["ami"],
InstanceType: rs.Attributes["instance_type"],
KeyName: rs.Attributes["key_name"],
SubnetId: rs.Attributes["subnet_id"],
AssociatePublicIpAddress: associatePublicIPAddress,
UserData: []byte(userData),
}
if raw := flatmap.Expand(rs.Attributes, "security_groups"); raw != nil {
if sgs, ok := raw.([]interface{}); ok {
for _, sg := range sgs {
str, ok := sg.(string)
if !ok {
continue
}
var g ec2.SecurityGroup
if runOpts.SubnetId != "" {
g.Id = str
} else {
g.Name = str
}
runOpts.SecurityGroups = append(runOpts.SecurityGroups, g)
}
}
}
// Create the instance
log.Printf("[DEBUG] Run configuration: %#v", runOpts)
runResp, err := ec2conn.RunInstances(runOpts)
if err != nil {
return nil, fmt.Errorf("Error launching source instance: %s", err)
}
instance := &runResp.Instances[0]
log.Printf("[INFO] Instance ID: %s", instance.InstanceId)
// Store the resulting ID so we can look this up later
rs.ID = instance.InstanceId
// Wait for the instance to become running so we can get some attributes
// that aren't available until later.
log.Printf(
"[DEBUG] Waiting for instance (%s) to become running",
instance.InstanceId)
stateConf := &resource.StateChangeConf{
Pending: []string{"pending"},
Target: "running",
Refresh: InstanceStateRefreshFunc(ec2conn, instance.InstanceId),
Timeout: 10 * time.Minute,
Delay: 10 * time.Second,
MinTimeout: 3 * time.Second,
}
instanceRaw, err := stateConf.WaitForState()
if err != nil {
return rs, fmt.Errorf(
"Error waiting for instance (%s) to become ready: %s",
instance.InstanceId, err)
}
instance = instanceRaw.(*ec2.Instance)
// Initialize the connection info
rs.ConnInfo["type"] = "ssh"
rs.ConnInfo["host"] = instance.PublicIpAddress
// Set our attributes
rs, err = resource_aws_instance_update_state(rs, instance)
if err != nil {
return rs, err
}
// Update if we need to
return resource_aws_instance_update(rs, d, meta)
}
func (i *Interpolater) interpolateComplexTypeAttribute(
resourceID string,
attributes map[string]string) (ast.Variable, error) {
// We can now distinguish between lists and maps in state by the count field:
// - lists (and by extension, sets) use the traditional .# notation
// - maps use the newer .% notation
// Consequently here we can decide how to deal with the keys appropriately
// based on whether the type is a map of list.
if lengthAttr, isList := attributes[resourceID+".#"]; isList {
log.Printf("[DEBUG] Interpolating computed list element attribute %s (%s)",
resourceID, lengthAttr)
// In Terraform's internal dotted representation of list-like attributes, the
// ".#" count field is marked as unknown to indicate "this whole list is
// unknown". We must honor that meaning here so computed references can be
// treated properly during the plan phase.
if lengthAttr == config.UnknownVariableValue {
return unknownVariable(), nil
}
keys := make([]string, 0)
listElementKey := regexp.MustCompile("^" + resourceID + "\\.[0-9]+$")
for id, _ := range attributes {
if listElementKey.MatchString(id) {
keys = append(keys, id)
}
}
sort.Strings(keys)
var members []string
for _, key := range keys {
members = append(members, attributes[key])
}
return hil.InterfaceToVariable(members)
}
if lengthAttr, isMap := attributes[resourceID+".%"]; isMap {
log.Printf("[DEBUG] Interpolating computed map element attribute %s (%s)",
resourceID, lengthAttr)
// In Terraform's internal dotted representation of map attributes, the
// ".%" count field is marked as unknown to indicate "this whole list is
// unknown". We must honor that meaning here so computed references can be
// treated properly during the plan phase.
if lengthAttr == config.UnknownVariableValue {
return unknownVariable(), nil
}
resourceFlatMap := make(map[string]string)
mapElementKey := regexp.MustCompile("^" + resourceID + "\\.([^%]+)$")
for id, val := range attributes {
if mapElementKey.MatchString(id) {
resourceFlatMap[id] = val
}
}
expanded := flatmap.Expand(resourceFlatMap, resourceID)
return hil.InterfaceToVariable(expanded)
}
return ast.Variable{}, fmt.Errorf("No complex type %s found", resourceID)
}
func resource_consul_keys_create(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
// Merge the diff into the state so that we have all the attributes
// properly.
rs := s.MergeDiff(d)
rs.ID = "consul"
// Check if the datacenter should be computed
dc := rs.Attributes["datacenter"]
if aDiff, ok := d.Attributes["datacenter"]; ok && aDiff.NewComputed {
var err error
dc, err = get_dc(p.client)
if err != nil {
return rs, fmt.Errorf("Failed to get agent datacenter: %v", err)
}
rs.Attributes["datacenter"] = dc
}
// Get the keys
keys, ok := flatmap.Expand(rs.Attributes, "key").([]interface{})
if !ok {
return rs, fmt.Errorf("Failed to unroll keys")
}
kv := p.client.KV()
qOpts := consulapi.QueryOptions{Datacenter: dc}
wOpts := consulapi.WriteOptions{Datacenter: dc}
for idx, raw := range keys {
key, path, sub, err := parse_key(raw)
if err != nil {
return rs, err
}
if valueRaw, ok := sub["value"]; ok {
value, ok := valueRaw.(string)
if !ok {
return rs, fmt.Errorf("Failed to get value for key '%s'", key)
}
log.Printf("[DEBUG] Setting key '%s' to '%v' in %s", path, value, dc)
pair := consulapi.KVPair{Key: path, Value: []byte(value)}
if _, err := kv.Put(&pair, &wOpts); err != nil {
return rs, fmt.Errorf("Failed to set Consul key '%s': %v", path, err)
}
rs.Attributes[fmt.Sprintf("var.%s", key)] = value
rs.Attributes[fmt.Sprintf("key.%d.value", idx)] = value
} else {
log.Printf("[DEBUG] Getting key '%s' in %s", path, dc)
pair, _, err := kv.Get(path, &qOpts)
if err != nil {
return rs, fmt.Errorf("Failed to get Consul key '%s': %v", path, err)
}
rs.Attributes[fmt.Sprintf("var.%s", key)] = attribute_value(sub, key, pair)
}
}
return rs, nil
}
func resource_aws_db_instance_create(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
conn := p.rdsconn
// Merge the diff into the state so that we have all the attributes
// properly.
rs := s.MergeDiff(d)
var err error
var attr string
opts := rds.CreateDBInstance{}
if attr = rs.Attributes["allocated_storage"]; attr != "" {
opts.AllocatedStorage, err = strconv.Atoi(attr)
opts.SetAllocatedStorage = true
}
if attr = rs.Attributes["backup_retention_period"]; attr != "" {
opts.BackupRetentionPeriod, err = strconv.Atoi(attr)
opts.SetBackupRetentionPeriod = true
}
if attr = rs.Attributes["iops"]; attr != "" {
opts.Iops, err = strconv.Atoi(attr)
opts.SetIops = true
}
if attr = rs.Attributes["port"]; attr != "" {
opts.Port, err = strconv.Atoi(attr)
opts.SetPort = true
}
if attr = rs.Attributes["availability_zone"]; attr != "" {
opts.AvailabilityZone = attr
}
if attr = rs.Attributes["instance_class"]; attr != "" {
opts.DBInstanceClass = attr
}
if attr = rs.Attributes["maintenance_window"]; attr != "" {
opts.PreferredMaintenanceWindow = attr
}
if attr = rs.Attributes["backup_window"]; attr != "" {
opts.PreferredBackupWindow = attr
}
if attr = rs.Attributes["multi_az"]; attr == "true" {
opts.MultiAZ = true
}
if attr = rs.Attributes["publicly_accessible"]; attr == "true" {
opts.PubliclyAccessible = true
}
if attr = rs.Attributes["subnet_group_name"]; attr != "" {
opts.DBSubnetGroupName = attr
}
if err != nil {
return nil, fmt.Errorf("Error parsing configuration: %s", err)
}
if _, ok := rs.Attributes["vpc_security_group_ids.#"]; ok {
opts.VpcSecurityGroupIds = expandStringList(flatmap.Expand(
rs.Attributes, "vpc_security_group_ids").([]interface{}))
}
if _, ok := rs.Attributes["security_group_names.#"]; ok {
opts.DBSecurityGroupNames = expandStringList(flatmap.Expand(
rs.Attributes, "security_group_names").([]interface{}))
}
opts.DBInstanceIdentifier = rs.Attributes["identifier"]
opts.DBName = rs.Attributes["name"]
opts.MasterUsername = rs.Attributes["username"]
opts.MasterUserPassword = rs.Attributes["password"]
opts.EngineVersion = rs.Attributes["engine_version"]
opts.Engine = rs.Attributes["engine"]
// Don't keep the password around in the state
delete(rs.Attributes, "password")
log.Printf("[DEBUG] DB Instance create configuration: %#v", opts)
_, err = conn.CreateDBInstance(&opts)
if err != nil {
return nil, fmt.Errorf("Error creating DB Instance: %s", err)
}
rs.ID = rs.Attributes["identifier"]
log.Printf("[INFO] DB Instance ID: %s", rs.ID)
log.Println(
"[INFO] Waiting for DB Instance to be available")
stateConf := &resource.StateChangeConf{
Pending: []string{"creating", "backing-up", "modifying"},
Target: "available",
Refresh: DBInstanceStateRefreshFunc(rs.ID, conn),
Timeout: 10 * time.Minute,
MinTimeout: 10 * time.Second,
Delay: 30 * time.Second, // Wait 30 secs before starting
}
// Wait, catching any errors
_, err = stateConf.WaitForState()
if err != nil {
return rs, err
}
v, err := resource_aws_db_instance_retrieve(rs.ID, conn)
if err != nil {
return rs, err
}
return resource_aws_db_instance_update_state(rs, v)
}
func resource_openstack_compute_create(
s *terraform.ResourceState,
d *terraform.ResourceDiff,
meta interface{}) (*terraform.ResourceState, error) {
p := meta.(*ResourceProvider)
client := p.client
// Merge the diff into the state so that we have all the attributes
// properly.
rs := s.MergeDiff(d)
serversApi, err := gophercloud.ServersApi(client.AccessProvider, gophercloud.ApiCriteria{
Name: "nova",
UrlChoice: gophercloud.PublicURL,
})
if err != nil {
return nil, err
}
name := rs.Attributes["name"]
if len(name) == 0 {
name = randomString(16)
}
var osNetworks []gophercloud.NetworkConfig
if raw := flatmap.Expand(rs.Attributes, "networks"); raw != nil {
if entries, ok := raw.([]interface{}); ok {
for _, entry := range entries {
value, ok := entry.(string)
if !ok {
continue
}
osNetwork := gophercloud.NetworkConfig{value}
osNetworks = append(osNetworks, osNetwork)
}
}
}
var securityGroup []map[string]interface{}
if raw := flatmap.Expand(rs.Attributes, "security_groups"); raw != nil {
if entries, ok := raw.([]interface{}); ok {
for _, entry := range entries {
value, ok := entry.(string)
if !ok {
continue
}
securityGroup = append(securityGroup, map[string]interface{}{"name": value})
}
}
}
newServer, err := serversApi.CreateServer(gophercloud.NewServer{
Name: name,
ImageRef: rs.Attributes["image_ref"],
FlavorRef: rs.Attributes["flavor_ref"],
Networks: osNetworks,
SecurityGroup: securityGroup,
})
if err != nil {
return nil, err
}
rs.ID = newServer.Id
rs.Attributes["id"] = newServer.Id
rs.Attributes["name"] = name
return rs, nil
}