package service import ( "context" "encoding/json" "fmt" v1 "github.com/go-nunu/nunu-layout-advanced/api/v1" "github.com/go-nunu/nunu-layout-advanced/internal/model" "github.com/go-nunu/nunu-layout-advanced/internal/repository" "github.com/go-nunu/nunu-layout-advanced/pkg/rabbitmq" "golang.org/x/sync/errgroup" "maps" "net" "sort" ) type WebForwardingService interface { GetWebForwarding(ctx context.Context, req v1.GetForwardingRequest) (v1.WebForwardingDataRequest, error) GetWebForwardingWafWebAllIps(ctx context.Context, req v1.GetForwardingRequest) ([]v1.WebForwardingDataRequest, error) AddWebForwarding(ctx context.Context, req *v1.WebForwardingRequest) error EditWebForwarding(ctx context.Context, req *v1.WebForwardingRequest) error DeleteWebForwarding(ctx context.Context, Ids []int) error } func NewWebForwardingService( service *Service, required RequiredService, webForwardingRepository repository.WebForwardingRepository, crawler CrawlerService, parser ParserService, wafformatter WafFormatterService, aoDun AoDunService, mq *rabbitmq.RabbitMQ, gatewayGroupIpRep repository.GateWayGroupIpRepository, gatewayGroupRep repository.GatewayGroupRepository, cdn CdnService, ) WebForwardingService { return &webForwardingService{ Service: service, webForwardingRepository: webForwardingRepository, required: required, parser: parser, crawler: crawler, wafformatter: wafformatter, aoDun: aoDun, mq: mq, gatewayGroupIpRep: gatewayGroupIpRep, gatewayGroupRep: gatewayGroupRep, cdn: cdn, } } type webForwardingService struct { *Service webForwardingRepository repository.WebForwardingRepository required RequiredService parser ParserService crawler CrawlerService wafformatter WafFormatterService aoDun AoDunService mq *rabbitmq.RabbitMQ gatewayGroupIpRep repository.GateWayGroupIpRepository gatewayGroupRep repository.GatewayGroupRepository cdn CdnService } const ( isHttps = 1 protocolHttps = "https" protocolHttp = "http" proxyTypeSuffix = "Proxy" defaultNodeClusterId = 1 ) func (s *webForwardingService) require(ctx context.Context,req v1.GlobalRequire) (v1.GlobalRequire, error) { var err error var res v1.GlobalRequire g, gCtx := errgroup.WithContext(ctx) //g.Go(func() error { // result, e := s.wafformatter.require(gCtx, req, "web") // if e != nil { // return e // } // res = result // return nil //}) g.Go(func() error { e := s.wafformatter.validateWafDomainCount(gCtx, req) if e != nil { return e } return nil }) if err = g.Wait(); err != nil { return v1.GlobalRequire{}, err } return res, nil } func (s *webForwardingService) GetWebForwarding(ctx context.Context, req v1.GetForwardingRequest) (v1.WebForwardingDataRequest, error) { var webForwarding model.WebForwarding var backend model.WebForwardingRule g, gCtx := errgroup.WithContext(ctx) g.Go(func() error { res, e := s.webForwardingRepository.GetWebForwarding(gCtx, int64(req.Id)) if e != nil { // 直接返回错误,errgroup 会捕获它 return fmt.Errorf("GetWebForwarding failed: %w", e) } if res != nil { webForwarding = *res } return nil }) g.Go(func() error { res, e := s.webForwardingRepository.GetWebForwardingIpsByID(ctx, req.Id) if e != nil { return fmt.Errorf("GetWebForwardingByID failed: %w", e) } if res != nil { backend = *res } return nil }) if err := g.Wait(); err != nil { return v1.WebForwardingDataRequest{}, err } return v1.WebForwardingDataRequest{ Id: webForwarding.Id, Port: webForwarding.Port, Domain: webForwarding.Domain, IsHttps: webForwarding.IsHttps, Comment: webForwarding.Comment, BackendList: backend.BackendList, AllowIpList: backend.AllowIpList, DenyIpList: backend.DenyIpList, AccessRule: backend.AccessRule, HttpsKey: webForwarding.HttpsKey, HttpsCert: webForwarding.HttpsCert, }, nil } // buildWebForwardingModel 辅助函数,用于构建通用的 WebForwarding 模型 // ruleId 是从 WAF 系统获取的 ID func (s *webForwardingService) buildWebForwardingModel(req *v1.WebForwardingDataRequest,ruleId int, require RequireResponse) *model.WebForwarding { return &model.WebForwarding{ HostId: require.HostId, CdnWebId: ruleId, Port: req.Port, Domain: req.Domain, IsHttps: req.IsHttps, Comment: req.Comment, HttpsCert: req.HttpsCert, HttpsKey: req.HttpsKey, SslCertId: int(req.SslCertId), } } func (s *webForwardingService) buildWebRuleModel(reqData *v1.WebForwardingDataRequest, require RequireResponse, localDbId int, cdnOriginIds map[string]int64) *model.WebForwardingRule { return &model.WebForwardingRule{ Uid: require.Uid, HostId: require.HostId, WebId: localDbId, CdnOriginIds: cdnOriginIds, BackendList: reqData.BackendList, AllowIpList: reqData.AllowIpList, DenyIpList: reqData.DenyIpList, AccessRule: reqData.AccessRule, } } // ================================================================= // 主函数:prepareWafData // 职责:协调整个流程,负责获取前置配置和组装最终的 formData。 // ================================================================= func (s *webForwardingService) prepareWafData(ctx context.Context, req *v1.WebForwardingRequest) (RequireResponse, v1.Website, error) { // 1. 获取基础配置 require, err := s.wafformatter.Require(ctx, v1.GlobalRequire{ HostId: req.HostId, Uid: req.Uid, Comment: req.WebForwardingData.Comment, }) if err != nil { return RequireResponse{}, v1.Website{}, fmt.Errorf("获取WAF前置配置失败: %w", err) } if require.GatewayGroupId == 0 || require.Uid == 0 { return RequireResponse{}, v1.Website{}, fmt.Errorf("请先配置实例") } // 2. 调用辅助函数,构建核心的代理配置 (将复杂逻辑封装起来) apiType, byteData, err := s.buildProxyJSONConfig(ctx, req, require) if err != nil { return RequireResponse{}, v1.Website{}, err // 错误信息在辅助函数中已经包装好了 } type serverNames struct { ServerNames string `json:"name" form:"name"` Type string `json:"type" form:"type"` } var serverName []serverNames var serverJson []byte if req.WebForwardingData.Domain != "" { serverName = append(serverName, serverNames{ ServerNames: req.WebForwardingData.Domain, Type: "full", }) serverJson, err = json.Marshal(serverName) if err != nil { return RequireResponse{}, v1.Website{}, err } } // 3. 组装最终的 WAF 表单数据 formData := v1.Website{ UserId: int64(require.CdnUid), Type: apiType + proxyTypeSuffix, Name: require.Tag, ServerNamesJSON : serverJson, Description: req.WebForwardingData.Comment, ServerGroupIds: []int64{int64(require.GroupId)}, UserPlanId: int64(require.RuleId), NodeClusterId: defaultNodeClusterId, } var noSslByteData, _ = json.Marshal(v1.TypeJSON{IsOn: false}) // 4. 根据协议类型,填充 HttpJSON 和 HttpsJSON 字段 if req.WebForwardingData.IsHttps == isHttps { formData.HttpJSON = noSslByteData formData.HttpsJSON = byteData } else { formData.HttpJSON = byteData formData.HttpsJSON = noSslByteData } return require, formData, nil } // ================================================================= // 辅助函数:buildProxyJSONConfig // 职责:专门负责处理 HTTP/HTTPS 的差异,并生成对应的 JSON 配置。 // ================================================================= func (s *webForwardingService) buildProxyJSONConfig(ctx context.Context, req *v1.WebForwardingRequest, require RequireResponse) (string, []byte, error) { var ( jsonData v1.TypeJSON apiType string err error ) jsonData.IsOn = true // 判断协议类型,并处理 HTTPS 的特殊逻辑(证书) if req.WebForwardingData.IsHttps == isHttps { apiType = protocolHttps req.WebForwardingData.SslCertId, err = s.cdn.AddSSLCert(ctx, v1.SSlCert{ UserId: int64(require.CdnUid), Name: req.WebForwardingData.Domain, Description: req.WebForwardingData.Comment, CertData: []byte(req.WebForwardingData.HttpsCert), KeyData: []byte(req.WebForwardingData.HttpsKey), IsSelfSigned: false, }) if err != nil { return "", nil, fmt.Errorf("添加SSL证书失败: %w", err) } jsonData.SslPolicyRef.IsOn = true jsonData.SslPolicyRef.SslPolicyId = req.WebForwardingData.SslCertId } else { apiType = protocolHttp } // 填充通用的 Listen 配置 for _, v := range require.GatewayIps { jsonData.Listen = append(jsonData.Listen, v1.Listen{ Protocol: apiType, Host: v, Port: req.WebForwardingData.Port, }) } // 序列化为 JSON byteData, err := json.Marshal(jsonData) if err != nil { return "", nil, fmt.Errorf("序列化WAF配置失败: %w", err) } return apiType, byteData, nil } // 查找两个列表的差异 func (s webForwardingService) FindDifferenceList (oldList, newList []v1.BackendList) (added, removed []v1.BackendList) { diff := make(map[v1.BackendList]int) // 1. 遍历旧列表,为每个元素计数 +1 for _, item := range oldList { diff[item]++ } // 2. 遍历新列表,为每个元素计数 -1 for _, item := range newList { diff[item]-- } // 3. 遍历 diff map 来找出差异 for item, count := range diff { if count > 0 { // 如果 count > 0,说明这个元素在 oldList 中但不在 newList 中 removed = append(removed, item) } else if count < 0 { // 如果 count < 0,说明这个元素在 newList 中但不在 oldList 中 added = append(added, item) } // 如果 count == 0,说明元素在两个列表中都存在,不做任何操作 } return added, removed } func (s *webForwardingService) AddWebForwarding(ctx context.Context, req *v1.WebForwardingRequest) error { require, formData, err := s.prepareWafData(ctx, req) if err != nil { return err } err = s.wafformatter.validateWafPortCount(ctx, require.HostId) if err != nil { return err } webId, err := s.cdn.CreateWebsite(ctx, formData) if err != nil { return err } backendList := make(map[string]string) for _,k := range req.WebForwardingData.BackendList { backendList[k.Addr] = k.CustomHost } // 添加源站 cdnOriginIds := make(map[string]int64) for _, v := range req.WebForwardingData.BackendList { apiType := protocolHttp // 如果条件满足,则覆盖为 HTTPS if v.IsHttps == isHttps { apiType = protocolHttps } id, err := s.wafformatter.AddOrigin(ctx, v1.WebJson{ ApiType: apiType, BackendList: v.Addr, Host: v.CustomHost, Comment: req.WebForwardingData.Comment, }) if err != nil { return err } cdnOriginIds[v.Addr] = id } // 添加源站到网站 for _, v := range cdnOriginIds { err = s.cdn.AddServerOrigin(ctx, webId, v) if err != nil { return err } } webModel := s.buildWebForwardingModel(&req.WebForwardingData, int(webId), require) id, err := s.webForwardingRepository.AddWebForwarding(ctx, webModel) if err != nil { return err } webRuleModel := s.buildWebRuleModel(&req.WebForwardingData,require, id, cdnOriginIds) if _, err = s.webForwardingRepository.AddWebForwardingIps(ctx, *webRuleModel); err != nil { return err } if req.WebForwardingData.Domain != "" { // 异步任务:将域名添加到白名单 doMain, err := s.wafformatter.ConvertToWildcardDomain(ctx, req.WebForwardingData.Domain) if err != nil { return err } if len(require.GatewayIps) == 0 { return fmt.Errorf("网关组不存在") } firstIp,err := s.GetGatewayFirstIp(ctx, require.HostId) if err != nil { return err } go s.wafformatter.PublishDomainWhitelistTask(doMain, firstIp, "add") } // IP过白 var ips []string if req.WebForwardingData.BackendList != nil { for _, v := range req.WebForwardingData.BackendList { ip, _, err := net.SplitHostPort(v.Addr) if err != nil { return err } ips = append(ips,ip) } go s.wafformatter.PublishIpWhitelistTask(ips, "add","") } var accessRuleIps []string if len(req.WebForwardingData.AllowIpList) > 0 { for _, v := range require.GatewayIps { for _, ip := range req.WebForwardingData.AllowIpList { if net.ParseIP(ip) != nil{ accessRuleIps = append(accessRuleIps, ip) } } go s.wafformatter.PublishIpWhitelistTask(accessRuleIps, "add",v) } } return nil } func (s *webForwardingService) EditWebForwarding(ctx context.Context, req *v1.WebForwardingRequest) error { require, formData, err := s.prepareWafData(ctx, req) if err != nil { return err } oldData, err := s.webForwardingRepository.GetWebForwarding(ctx, int64(req.WebForwardingData.Id)) if err != nil { return err } //修改网站端口 if oldData.Port != req.WebForwardingData.Port || oldData.Domain != req.WebForwardingData.Domain { var typeJson []byte var apiType string if req.WebForwardingData.IsHttps == isHttps { typeJson = formData.HttpJSON apiType = protocolHttps }else { typeJson = formData.HttpsJSON apiType = protocolHttp } err = s.cdn.EditServerType(ctx, v1.EditWebsite{ Id: int64(oldData.CdnWebId), TypeJSON: typeJson, }, apiType) if err != nil { return err } } //修改网站名字 if oldData.Comment != req.WebForwardingData.Comment { err = s.cdn.EditServerBasic(ctx, int64(oldData.CdnWebId), require.Tag) if err != nil { return err } } // 将域名添加到白名单 webData, err := s.webForwardingRepository.GetWebForwarding(ctx, int64(req.WebForwardingData.Id)) if err != nil { return err } // 异步任务:将域名添加到白名单 if webData.Domain != req.WebForwardingData.Domain { firstIp,err := s.GetGatewayFirstIp(ctx, req.HostId) if err != nil { return err } doMain, err := s.wafformatter.ConvertToWildcardDomain(ctx, req.WebForwardingData.Domain) if err != nil { return err } oldDomain, err := s.wafformatter.ConvertToWildcardDomain(ctx, webData.Domain) if err != nil { return err } if len(require.GatewayIps) == 0 { return fmt.Errorf("网关组不存在") } go s.wafformatter.PublishDomainWhitelistTask(oldDomain, firstIp, "del") go s.wafformatter.PublishDomainWhitelistTask(doMain, firstIp, "add") } // IP过白 ipData, err := s.webForwardingRepository.GetWebForwardingIpsByID(ctx, req.WebForwardingData.Id) if err != nil { return err } var oldIps []string var oldAllowIps []string var newIps []string var newAllowIps []string for _, v := range ipData.BackendList { ip, _, err := net.SplitHostPort(v.Addr) if err != nil { return err } oldIps = append(oldIps, ip) } for _, v := range req.WebForwardingData.BackendList { ip, _, err := net.SplitHostPort(v.Addr) if err != nil { return err } newIps = append(newIps, ip) } addedIps, removedIps := s.wafformatter.findIpDifferences(oldIps, newIps) if len(addedIps) > 0 { go s.wafformatter.PublishIpWhitelistTask(addedIps, "add","") } if len(removedIps) > 0 { go s.wafformatter.PublishIpWhitelistTask(removedIps, "del","") } if len(ipData.AllowIpList) > 0 { for _, v := range ipData.AllowIpList { if net.ParseIP(v) != nil{ oldAllowIps = append(oldAllowIps, v) } } } if len(req.WebForwardingData.AllowIpList) > 0 { for _, v := range req.WebForwardingData.AllowIpList { if net.ParseIP(v) != nil{ newAllowIps = append(newAllowIps, v) } } } addedAllowIps, removedAllowIps := s.wafformatter.findIpDifferences(oldAllowIps, newAllowIps) for _, v := range require.GatewayIps { if len(addedAllowIps) > 0 { go s.wafformatter.PublishIpWhitelistTask(addedAllowIps, "add",v) } if len(removedAllowIps) > 0 { go s.wafformatter.PublishIpWhitelistTask(removedAllowIps, "del",v) } } //修改源站 addOrigins, delOrigins := s.FindDifferenceList(ipData.BackendList, req.WebForwardingData.BackendList) addedIds := make(map[string]int64) for _, v := range addOrigins { var apiType string if v.IsHttps == isHttps { apiType = protocolHttps }else { apiType = protocolHttp } id, err := s.wafformatter.AddOrigin(ctx,v1.WebJson{ ApiType: apiType, BackendList: v.Addr, Host: v.CustomHost, Comment: req.WebForwardingData.Comment, }) if err != nil { return err } addedIds[v.Addr] = id } for _, v := range addedIds { err = s.cdn.AddServerOrigin(ctx, int64(oldData.CdnWebId), v) if err != nil { return err } } maps.Copy(ipData.CdnOriginIds, addedIds) for k, v := range ipData.CdnOriginIds { for _, ip := range delOrigins { if k == ip.Addr { err = s.cdn.DelServerOrigin(ctx, int64(oldData.CdnWebId), v) if err != nil { return err } delete(ipData.CdnOriginIds, k) } } } webModel := s.buildWebForwardingModel(&req.WebForwardingData, req.WebForwardingData.CdnWebId, require) webModel.Id = req.WebForwardingData.Id if err = s.webForwardingRepository.EditWebForwarding(ctx, webModel); err != nil { return err } webRuleModel := s.buildWebRuleModel(&req.WebForwardingData, require, req.WebForwardingData.Id,ipData.CdnOriginIds) if err = s.webForwardingRepository.EditWebForwardingIps(ctx, *webRuleModel); err != nil { return err } return nil } func (s *webForwardingService) DeleteWebForwarding(ctx context.Context, Ids []int) error { for _, Id := range Ids { oldData, err := s.webForwardingRepository.GetWebForwarding(ctx, int64(Id)) if err != nil { return err } err = s.cdn.DelServer(ctx, int64(oldData.CdnWebId)) if err != nil { return err } // 异步任务:将域名添加到白名单 firstIp,err := s.GetGatewayFirstIp(ctx, oldData.HostId) if err != nil { return err } if oldData.Domain != "" { doMain, err := s.wafformatter.ConvertToWildcardDomain(ctx, oldData.Domain) if err != nil { return err } go s.wafformatter.PublishDomainWhitelistTask(doMain,firstIp, "del") } // IP过白 ipData, err := s.webForwardingRepository.GetWebForwardingIpsByID(ctx, Id) if err != nil { return err } var ips []string if len(ipData.BackendList) > 0 { for _, v := range ipData.BackendList { ip, _, err := net.SplitHostPort(v.Addr) if err != nil { return err } ips = append(ips, ip) } } if len(ipData.AllowIpList) > 0 { ips = append(ips, ipData.AllowIpList...) } if len(ips) > 0 { go s.wafformatter.PublishIpWhitelistTask(ips, "del","") } if err = s.webForwardingRepository.DeleteWebForwarding(ctx, int64(Id)); err != nil { return err } if err = s.webForwardingRepository.DeleteWebForwardingIpsById(ctx, Id); err != nil { return err } } return nil } func (s *webForwardingService) GetWebForwardingWafWebAllIps(ctx context.Context, req v1.GetForwardingRequest) ([]v1.WebForwardingDataRequest, error) { type CombinedResult struct { Id int Forwarding *model.WebForwarding BackendRule *model.WebForwardingRule Err error // 如果此ID的处理出错,则携带错误 } g, gCtx := errgroup.WithContext(ctx) ids, err := s.webForwardingRepository.GetWebForwardingWafWebAllIds(gCtx, req.HostId) if err != nil { return nil, fmt.Errorf("GetWebForwardingWafWebAllIds failed: %w", err) } if len(ids) == 0 { return nil, nil // 没有ID,直接返回空切片 } // 创建一个通道来接收每个ID的处理结果 // 通道缓冲区大小设为ID数量,这样发送者不会因为接收者慢而阻塞(在所有goroutine都启动后) resultsChan := make(chan CombinedResult, len(ids)) for _, idVal := range ids { currentID := idVal // 捕获循环变量 g.Go(func() error { var wf *model.WebForwarding var bk *model.WebForwardingRule var localErr error // 1. 获取 WebForwarding 信息 wf, localErr = s.webForwardingRepository.GetWebForwarding(gCtx, int64(currentID)) if localErr != nil { // 发送错误到通道,并由 errgroup 捕获 // errgroup 会处理第一个非nil错误,并取消其他 goroutine resultsChan <- CombinedResult{Id: currentID, Err: fmt.Errorf("GetWebForwarding for id %d failed: %w", currentID, localErr)} return localErr // 返回错误给 errgroup } if wf == nil { // 正常情况下,如果没错误,wf不应为nil,但防御性检查 localErr = fmt.Errorf("GetWebForwarding for id %d returned nil data without error", currentID) resultsChan <- CombinedResult{Id: currentID, Err: localErr} return localErr } // 2. 获取 Backend IP 信息 // 注意:这里我们允许 GetWebForwardingIpsByID 可能返回 nil 数据(例如没有规则)而不是错误 // 如果它也可能返回错误,则处理方式与上面类似 bk, localErr = s.webForwardingRepository.GetWebForwardingIpsByID(gCtx, currentID) if localErr != nil { // 如果获取IP信息失败是一个致命错误,则也应返回错误 // 如果允许部分成功(比如有WebForwarding但没有IP信息),则可以不将此视为errgroup的错误 // 这里假设它也是一个需要errgroup捕获的错误 resultsChan <- CombinedResult{Id: currentID, Forwarding: wf, Err: fmt.Errorf("GetWebForwardingIpsByID for id %d failed: %w", currentID, localErr)} return localErr // 返回错误给 errgroup } // bk 可能是 nil 如果没有错误且没有规则,这取决于业务逻辑 // 发送成功的结果到通道 resultsChan <- CombinedResult{Id: currentID, Forwarding: wf, BackendRule: bk} return nil // 此goroutine成功 }) } // 等待所有goroutine完成 groupErr := g.Wait() // 关闭通道,表示所有发送者都已完成 // 这一步很重要,这样下面的 range 循环才能正常结束 close(resultsChan) // 如果 errgroup 捕获到任何错误,优先返回该错误 if groupErr != nil { // 虽然errgroup已经出错了,但通道中可能已经有一些结果(来自出错前成功或出错的goroutine) // 我们需要排空通道以避免goroutine泄漏(如果它们在发送时阻塞) // 但由于我们优先返回groupErr,这些结果将被丢弃。 // 在这种设计下,通常任何一个子任务失败都会导致整个操作失败。 return nil, groupErr } // 如果没有错误,收集所有成功的结果 finalResults := make([]v1.WebForwardingDataRequest, 0, len(ids)) for res := range resultsChan { // 再次检查通道中的错误,尽管 errgroup 应该已经捕获了 // 但这是一种更细致的错误处理,以防万一有goroutine在errgroup.Wait()前发送了错误但未被errgroup捕获 // (理论上,如果goroutine返回了错误,errgroup会处理) // 主要目的是处理 res.forwarding 为 nil 的情况 (如果上面允许不返回错误) if res.Err != nil { // 如果到这里还有错误,说明逻辑可能有问题,或者我们决定忽略某些类型的子错误 // 在此示例中,因为 g.Wait() 没有错误,所以这里的 res.err 应该是nil // 如果不是,那么可能是goroutine在return nil前发送了带有错误的res。 // 严格来说,如果errgroup没有错误,这里res.err也应该是nil // 但以防万一,我们可以记录日志 return nil, fmt.Errorf("received error from goroutine for ID %d: %w", res.Id, res.Err) } if res.Forwarding == nil { return nil, fmt.Errorf("received nil forwarding from goroutine for ID %d", res.Id) } dataReq := v1.WebForwardingDataRequest{ Id: res.Forwarding.Id, Port: res.Forwarding.Port, Domain: res.Forwarding.Domain, IsHttps: res.Forwarding.IsHttps, Comment: res.Forwarding.Comment, HttpsKey: res.Forwarding.HttpsKey, HttpsCert: res.Forwarding.HttpsCert, } if res.BackendRule != nil { // 只有当 BackendRule 存在时才填充相关字段 dataReq.BackendList = res.BackendRule.BackendList dataReq.AllowIpList = res.BackendRule.AllowIpList dataReq.DenyIpList = res.BackendRule.DenyIpList dataReq.AccessRule = res.BackendRule.AccessRule } finalResults = append(finalResults, dataReq) } sort.Slice(finalResults, func(i, j int) bool { return finalResults[i].Id > finalResults[j].Id }) return finalResults, nil } func (s *webForwardingService) GetGatewayFirstIp(ctx context.Context, hostId int) (string, error) { gateWayGroup, err := s.gatewayGroupRep.GetGatewayGroupByHostId(ctx, int64(hostId)) if err != nil { return "", err } if gateWayGroup == nil { return "",fmt.Errorf("网关组不存在") } gateWayIps, err := s.gatewayGroupIpRep.GetGateWayGroupFirstIpByGatewayGroupId(ctx, gateWayGroup.Id) if err != nil { return "", err } if len(gateWayIps) == 0 { return "",fmt.Errorf("网关组IP为空") } return gateWayIps, nil }