/
vpc.go
287 lines (175 loc) · 4.57 KB
/
vpc.go
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package manage
import (
"encoding/json"
"log"
)
// TagMap ads dasd
type TagMap map[string]string
// TagMap ads dasd
type Associations map[string]string
type vpc struct {
Vpcid string
Tags []TagMap
CidrBlocks []Associations
}
type VpcList struct {
vpcs []vpc
}
type sg struct {
Sgid string `json:"sg_id"`
SgName string `json:"sg_name"`
IpPerm []ipPerm `json:"Ingress"`
IpPermEgress []IpPermEgress `json:"Egress"`
Tags []TagMap
}
type ipPerm struct {
IpProtocol string
FromPort int64
ToPort int64
IpRanges []string
}
type IpPermEgress struct {
IpProtocol string
FromPort int64
ToPort int64
IpRanges []string
}
type sgList struct {
sgs []sg
}
type sb struct {
AvailabilityZone string
CidrBlock string
SubnetArn string
SubnetId string
VpcId string
Tags []TagMap
}
type sbList struct {
sbs []sb
}
func VpcDescribe() []byte {
var vpcOutputList VpcList
result, err := svc.DescribeVpcs(nil)
if err != nil {
log.Println(err)
}
// fmt.Println(result)
for _, vpcValue := range result.Vpcs {
var vpcMap vpc
// Get VPC id
vpcMap.Vpcid = *vpcValue.VpcId
// Get Tags
/////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////
var tagList []TagMap
tag := make(TagMap)
for _, values := range vpcValue.Tags {
tag[*values.Key] = *values.Value
}
tagList = append(tagList, tag)
vpcMap.Tags = tagList
/////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////
// Get CidrBloc within AssociationId
var AssociationsList []Associations
cidrB := make(map[string]string)
for _, AssociationId := range vpcValue.CidrBlockAssociationSet {
cidrB[*AssociationId.AssociationId] = *AssociationId.CidrBlock
}
AssociationsList = append(AssociationsList, cidrB)
vpcMap.CidrBlocks = AssociationsList
vpcOutputList.vpcs = append(vpcOutputList.vpcs, vpcMap)
}
vpcOutput, err := json.Marshal(vpcOutputList.vpcs)
if err != nil {
log.Println(err)
}
return vpcOutput
}
func SgDescribe() []byte {
var sgOutputList sgList
result, err := svc.DescribeSecurityGroups(nil)
if err != nil {
log.Println(err)
}
for _, sgValue := range result.SecurityGroups {
var sgMap sg
sgMap.Sgid = *sgValue.GroupId
sgMap.SgName = *sgValue.GroupName
var ipPermMap ipPerm
for _, sgIpPerm := range sgValue.IpPermissions {
if sgIpPerm.FromPort != nil {
ipPermMap.FromPort = *sgIpPerm.FromPort
}
if sgIpPerm.IpProtocol != nil {
ipPermMap.IpProtocol = *sgIpPerm.IpProtocol
}
if sgIpPerm.ToPort != nil {
ipPermMap.ToPort = *sgIpPerm.ToPort
}
for _, ipRange := range sgIpPerm.IpRanges {
ipPermMap.IpRanges = append(ipPermMap.IpRanges, *ipRange.CidrIp)
}
sgMap.IpPerm = append(sgMap.IpPerm, ipPermMap)
}
var ipPermMapEgress IpPermEgress
for _, sgIpPerm := range sgValue.IpPermissionsEgress {
if sgIpPerm.FromPort != nil {
ipPermMapEgress.FromPort = *sgIpPerm.FromPort
}
if sgIpPerm.IpProtocol != nil {
ipPermMapEgress.IpProtocol = *sgIpPerm.IpProtocol
}
if sgIpPerm.ToPort != nil {
ipPermMapEgress.ToPort = *sgIpPerm.ToPort
}
for _, ipRange := range sgIpPerm.IpRanges {
ipPermMapEgress.IpRanges = append(ipPermMapEgress.IpRanges, *ipRange.CidrIp)
}
sgMap.IpPermEgress = append(sgMap.IpPermEgress, ipPermMapEgress)
}
var tagList []TagMap
tag := make(TagMap)
for _, values := range sgValue.Tags {
tag[*values.Key] = *values.Value
}
tagList = append(tagList, tag)
sgMap.Tags = tagList
sgOutputList.sgs = append(sgOutputList.sgs, sgMap)
}
sgOutput, err := json.Marshal(sgOutputList.sgs)
if err != nil {
log.Println(err)
}
return sgOutput
}
func SubnetDescribe() []byte {
var sbOutputList sbList
result, err := svc.DescribeSubnets(nil)
if err != nil {
log.Fatal(err)
}
for _, sbValue := range result.Subnets {
var sbMap sb
sbMap.AvailabilityZone = *sbValue.AvailabilityZone
sbMap.CidrBlock = *sbValue.CidrBlock
sbMap.SubnetArn = *sbValue.SubnetArn
sbMap.SubnetId = *sbValue.SubnetId
sbMap.VpcId = *sbValue.VpcId
var tagList []TagMap
tag := make(TagMap)
for _, values := range sbValue.Tags {
tag[*values.Key] = *values.Value
}
tagList = append(tagList, tag)
sbMap.Tags = tagList
sbOutputList.sbs = append(sbOutputList.sbs, sbMap)
}
sbOutput, err := json.Marshal(sbOutputList.sbs)
if err != nil {
log.Fatal(err)
}
// fmt.Println(result)
return sbOutput
}