func expandIPPerm(d *schema.ResourceData, sg *ec2.SecurityGroup) (*ec2.IpPermission, error) {
	var perm ec2.IpPermission

	perm.FromPort = aws.Int64(int64(d.Get("from_port").(int)))
	perm.ToPort = aws.Int64(int64(d.Get("to_port").(int)))
	protocol := protocolForValue(d.Get("protocol").(string))
	perm.IpProtocol = aws.String(protocol)

	// build a group map that behaves like a set
	groups := make(map[string]bool)
	if raw, ok := d.GetOk("source_security_group_id"); ok {
		groups[raw.(string)] = true
	}

	if v, ok := d.GetOk("self"); ok && v.(bool) {
		if sg.VpcId != nil && *sg.VpcId != "" {
			groups[*sg.GroupId] = true
		} else {
			groups[*sg.GroupName] = true
		}
	}

	if len(groups) > 0 {
		perm.UserIdGroupPairs = make([]*ec2.UserIdGroupPair, len(groups))
		// build string list of group name/ids
		var gl []string
		for k, _ := range groups {
			gl = append(gl, k)
		}

		for i, name := range gl {
			ownerId, id := "", name
			if items := strings.Split(id, "/"); len(items) > 1 {
				ownerId, id = items[0], items[1]
			}

			perm.UserIdGroupPairs[i] = &ec2.UserIdGroupPair{
				GroupId: aws.String(id),
				UserId:  aws.String(ownerId),
			}

			if sg.VpcId == nil || *sg.VpcId == "" {
				perm.UserIdGroupPairs[i].GroupId = nil
				perm.UserIdGroupPairs[i].GroupName = aws.String(id)
				perm.UserIdGroupPairs[i].UserId = nil
			}
		}
	}

	if raw, ok := d.GetOk("cidr_blocks"); ok {
		list := raw.([]interface{})
		perm.IpRanges = make([]*ec2.IpRange, len(list))
		for i, v := range list {
			cidrIP, ok := v.(string)
			if !ok {
				return nil, fmt.Errorf("empty element found in cidr_blocks - consider using the compact function")
			}
			perm.IpRanges[i] = &ec2.IpRange{CidrIp: aws.String(cidrIP)}
		}
	}

	if raw, ok := d.GetOk("prefix_list_ids"); ok {
		list := raw.([]interface{})
		perm.PrefixListIds = make([]*ec2.PrefixListId, len(list))
		for i, v := range list {
			prefixListID, ok := v.(string)
			if !ok {
				return nil, fmt.Errorf("empty element found in prefix_list_ids - consider using the compact function")
			}
			perm.PrefixListIds[i] = &ec2.PrefixListId{PrefixListId: aws.String(prefixListID)}
		}
	}

	return &perm, nil
}
func expandIPPerm(d *schema.ResourceData, sg *ec2.SecurityGroup) *ec2.IpPermission {
	var perm ec2.IpPermission

	perm.FromPort = aws.Int64(int64(d.Get("from_port").(int)))
	perm.ToPort = aws.Int64(int64(d.Get("to_port").(int)))
	perm.IpProtocol = aws.String(d.Get("protocol").(string))

	// build a group map that behaves like a set
	groups := make(map[string]bool)
	if raw, ok := d.GetOk("source_security_group_id"); ok {
		groups[raw.(string)] = true
	}

	if v, ok := d.GetOk("self"); ok && v.(bool) {
		if sg.VpcId != nil && *sg.VpcId != "" {
			groups[*sg.GroupId] = true
		} else {
			groups[*sg.GroupName] = true
		}
	}

	if len(groups) > 0 {
		perm.UserIdGroupPairs = make([]*ec2.UserIdGroupPair, len(groups))
		// build string list of group name/ids
		var gl []string
		for k, _ := range groups {
			gl = append(gl, k)
		}

		for i, name := range gl {
			ownerId, id := "", name
			if items := strings.Split(id, "/"); len(items) > 1 {
				ownerId, id = items[0], items[1]
			}

			perm.UserIdGroupPairs[i] = &ec2.UserIdGroupPair{
				GroupId: aws.String(id),
				UserId:  aws.String(ownerId),
			}

			if sg.VpcId == nil || *sg.VpcId == "" {
				perm.UserIdGroupPairs[i].GroupId = nil
				perm.UserIdGroupPairs[i].GroupName = aws.String(id)
				perm.UserIdGroupPairs[i].UserId = nil
			}
		}
	}

	if raw, ok := d.GetOk("cidr_blocks"); ok {
		list := raw.([]interface{})
		perm.IpRanges = make([]*ec2.IpRange, len(list))
		for i, v := range list {
			perm.IpRanges[i] = &ec2.IpRange{CidrIp: aws.String(v.(string))}
		}
	}

	return &perm
}
func migrateExpandIPPerm(attrs map[string]string) (*ec2.IpPermission, error) {
	var perm ec2.IpPermission
	tp, err := strconv.Atoi(attrs["to_port"])
	if err != nil {
		return nil, fmt.Errorf("Error converting to_port in Security Group migration")
	}

	fp, err := strconv.Atoi(attrs["from_port"])
	if err != nil {
		return nil, fmt.Errorf("Error converting from_port in Security Group migration")
	}

	perm.ToPort = aws.Int64(int64(tp))
	perm.FromPort = aws.Int64(int64(fp))
	perm.IpProtocol = aws.String(attrs["protocol"])

	groups := make(map[string]bool)
	if attrs["self"] == "true" {
		groups[attrs["security_group_id"]] = true
	}

	if attrs["source_security_group_id"] != "" {
		groups[attrs["source_security_group_id"]] = true
	}

	if len(groups) > 0 {
		perm.UserIdGroupPairs = make([]*ec2.UserIdGroupPair, len(groups))
		// build string list of group name/ids
		var gl []string
		for k, _ := range groups {
			gl = append(gl, k)
		}

		for i, name := range gl {
			perm.UserIdGroupPairs[i] = &ec2.UserIdGroupPair{
				GroupId: aws.String(name),
			}
		}
	}

	var cb []string
	for k, v := range attrs {
		if k != "cidr_blocks.#" && strings.HasPrefix(k, "cidr_blocks") {
			cb = append(cb, v)
		}
	}
	if len(cb) > 0 {
		perm.IpRanges = make([]*ec2.IpRange, len(cb))
		for i, v := range cb {
			perm.IpRanges[i] = &ec2.IpRange{CidrIp: aws.String(v)}
		}
	}

	return &perm, nil
}
예제 #4
0
// Takes the result of flatmap.Expand for an array of ingress/egress security
// group rules and returns EC2 API compatible objects. This function will error
// if it finds invalid permissions input, namely a protocol of "-1" with either
// to_port or from_port set to a non-zero value.
func expandIPPerms(
	group *ec2.SecurityGroup, configured []interface{}) ([]*ec2.IpPermission, error) {
	vpc := group.VpcId != nil

	perms := make([]*ec2.IpPermission, len(configured))
	for i, mRaw := range configured {
		var perm ec2.IpPermission
		m := mRaw.(map[string]interface{})

		perm.FromPort = aws.Int64(int64(m["from_port"].(int)))
		perm.ToPort = aws.Int64(int64(m["to_port"].(int)))
		perm.IpProtocol = aws.String(m["protocol"].(string))

		// When protocol is "-1", AWS won't store any ports for the
		// rule, but also won't error if the user specifies ports other
		// than '0'. Force the user to make a deliberate '0' port
		// choice when specifying a "-1" protocol, and tell them about
		// AWS's behavior in the error message.
		if *perm.IpProtocol == "-1" && (*perm.FromPort != 0 || *perm.ToPort != 0) {
			return nil, fmt.Errorf(
				"from_port (%d) and to_port (%d) must both be 0 to use the the 'ALL' \"-1\" protocol!",
				*perm.FromPort, *perm.ToPort)
		}

		var groups []string
		if raw, ok := m["security_groups"]; ok {
			list := raw.(*schema.Set).List()
			for _, v := range list {
				groups = append(groups, v.(string))
			}
		}
		if v, ok := m["self"]; ok && v.(bool) {
			if vpc {
				groups = append(groups, *group.GroupId)
			} else {
				groups = append(groups, *group.GroupName)
			}
		}

		if len(groups) > 0 {
			perm.UserIdGroupPairs = make([]*ec2.UserIdGroupPair, len(groups))
			for i, name := range groups {
				ownerId, id := "", name
				if items := strings.Split(id, "/"); len(items) > 1 {
					ownerId, id = items[0], items[1]
				}

				perm.UserIdGroupPairs[i] = &ec2.UserIdGroupPair{
					GroupId: aws.String(id),
				}

				if ownerId != "" {
					perm.UserIdGroupPairs[i].UserId = aws.String(ownerId)
				}

				if !vpc {
					perm.UserIdGroupPairs[i].GroupId = nil
					perm.UserIdGroupPairs[i].GroupName = aws.String(id)
				}
			}
		}

		if raw, ok := m["cidr_blocks"]; ok {
			list := raw.([]interface{})
			for _, v := range list {
				perm.IpRanges = append(perm.IpRanges, &ec2.IpRange{CidrIp: aws.String(v.(string))})
			}
		}

		perms[i] = &perm
	}

	return perms, nil
}