package service import ( "fmt" "os" "sort" "strconv" "strings" "sync" "github.com/1Panel-dev/1Panel/backend/app/dto" "github.com/1Panel-dev/1Panel/backend/app/model" "github.com/1Panel-dev/1Panel/backend/constant" "github.com/1Panel-dev/1Panel/backend/global" "github.com/1Panel-dev/1Panel/backend/utils/cmd" "github.com/1Panel-dev/1Panel/backend/utils/common" "github.com/1Panel-dev/1Panel/backend/utils/firewall" fireClient "github.com/1Panel-dev/1Panel/backend/utils/firewall/client" "github.com/jinzhu/copier" "github.com/pkg/errors" ) const confPath = "/etc/sysctl.conf" type FirewallService struct{} type IFirewallService interface { LoadBaseInfo() (dto.FirewallBaseInfo, error) SearchWithPage(search dto.RuleSearch) (int64, interface{}, error) OperateFirewall(operation string) error OperatePortRule(req dto.PortRuleOperate, reload bool) error OperateForwardRule(req dto.ForwardRuleOperate) error OperateAddressRule(req dto.AddrRuleOperate, reload bool) error UpdatePortRule(req dto.PortRuleUpdate) error UpdateAddrRule(req dto.AddrRuleUpdate) error UpdateDescription(req dto.UpdateFirewallDescription) error BatchOperateRule(req dto.BatchRuleOperate) error } func NewIFirewallService() IFirewallService { return &FirewallService{} } func (u *FirewallService) LoadBaseInfo() (dto.FirewallBaseInfo, error) { var baseInfo dto.FirewallBaseInfo baseInfo.Status = "not running" baseInfo.Version = "-" baseInfo.Name = "-" client, err := firewall.NewFirewallClient() if err != nil { return baseInfo, err } baseInfo.Name = client.Name() var wg sync.WaitGroup wg.Add(3) go func() { defer wg.Done() baseInfo.PingStatus = u.pingStatus() }() go func() { defer wg.Done() baseInfo.Status, _ = client.Status() }() go func() { defer wg.Done() baseInfo.Version, _ = client.Version() }() wg.Wait() return baseInfo, nil } func (u *FirewallService) SearchWithPage(req dto.RuleSearch) (int64, interface{}, error) { var ( datas []fireClient.FireInfo backDatas []fireClient.FireInfo ) client, err := firewall.NewFirewallClient() if err != nil { return 0, nil, err } var rules []fireClient.FireInfo switch req.Type { case "port": rules, err = client.ListPort() case "forward": rules, err = client.ListForward() case "address": rules, err = client.ListAddress() } if err != nil { return 0, nil, err } if len(req.Info) != 0 { for _, addr := range rules { if strings.Contains(addr.Address, req.Info) || strings.Contains(addr.Port, req.Info) || strings.Contains(addr.TargetPort, req.Info) || strings.Contains(addr.TargetIP, req.Info) { datas = append(datas, addr) } } } else { datas = rules } if req.Type == "port" { apps := u.loadPortByApp() for i := 0; i < len(datas); i++ { datas[i].UsedStatus = checkPortUsed(datas[i].Port, datas[i].Protocol, apps) } } var datasFilterStatus []fireClient.FireInfo if len(req.Status) != 0 { for _, data := range datas { if req.Status == "free" && len(data.UsedStatus) == 0 { datasFilterStatus = append(datasFilterStatus, data) } if req.Status == "used" && len(data.UsedStatus) != 0 { datasFilterStatus = append(datasFilterStatus, data) } } } else { datasFilterStatus = datas } var datasFilterStrategy []fireClient.FireInfo if len(req.Strategy) != 0 { for _, data := range datasFilterStatus { if req.Strategy == data.Strategy { datasFilterStrategy = append(datasFilterStrategy, data) } } } else { datasFilterStrategy = datasFilterStatus } total, start, end := len(datasFilterStrategy), (req.Page-1)*req.PageSize, req.Page*req.PageSize if start > total { backDatas = make([]fireClient.FireInfo, 0) } else { if end >= total { end = total } backDatas = datasFilterStrategy[start:end] } datasFromDB, _ := hostRepo.ListFirewallRecord() for i := 0; i < len(backDatas); i++ { for _, des := range datasFromDB { if req.Type != des.Type { continue } if backDatas[i].Port == des.Port && req.Type == "port" && backDatas[i].Protocol == des.Protocol && backDatas[i].Strategy == des.Strategy && backDatas[i].Address == des.Address { backDatas[i].Description = des.Description break } if req.Type == "address" && backDatas[i].Strategy == des.Strategy && backDatas[i].Address == des.Address { backDatas[i].Description = des.Description break } } } go u.cleanUnUsedData(client) return int64(total), backDatas, nil } func (u *FirewallService) OperateFirewall(operation string) error { client, err := firewall.NewFirewallClient() if err != nil { return err } switch operation { case "start": if err := client.Start(); err != nil { return err } if err := u.addPortsBeforeStart(client); err != nil { _ = client.Stop() return err } _, _ = cmd.Exec("systemctl restart docker") return nil case "stop": if err := client.Stop(); err != nil { return err } _, _ = cmd.Exec("systemctl restart docker") return nil case "restart": if err := client.Restart(); err != nil { return err } _, _ = cmd.Exec("systemctl restart docker") return nil case "disablePing": return u.updatePingStatus("0") case "enablePing": return u.updatePingStatus("1") } return fmt.Errorf("not support such operation: %s", operation) } func (u *FirewallService) OperatePortRule(req dto.PortRuleOperate, reload bool) error { client, err := firewall.NewFirewallClient() if err != nil { return err } protos := strings.Split(req.Protocol, "/") itemAddress := strings.Split(strings.TrimSuffix(req.Address, ","), ",") if client.Name() == "ufw" { if strings.Contains(req.Port, ",") || strings.Contains(req.Port, "-") { for _, proto := range protos { for _, addr := range itemAddress { if len(addr) == 0 { addr = "Anywhere" } req.Address = addr req.Port = strings.ReplaceAll(req.Port, "-", ":") req.Protocol = proto if err := u.operatePort(client, req); err != nil { return err } req.Port = strings.ReplaceAll(req.Port, ":", "-") if err := u.addPortRecord(req); err != nil { return err } } } return nil } for _, addr := range itemAddress { if len(addr) == 0 { addr = "Anywhere" } if req.Protocol == "tcp/udp" { req.Protocol = "" } req.Address = addr if err := u.operatePort(client, req); err != nil { return err } if len(req.Protocol) == 0 { req.Protocol = "tcp/udp" } if err := u.addPortRecord(req); err != nil { return err } } return nil } itemPorts := req.Port for _, proto := range protos { if strings.Contains(req.Port, "-") { for _, addr := range itemAddress { req.Protocol = proto req.Address = addr if err := u.operatePort(client, req); err != nil { return err } if err := u.addPortRecord(req); err != nil { return err } } } else { ports := strings.Split(itemPorts, ",") for _, port := range ports { if len(port) == 0 { continue } for _, addr := range itemAddress { req.Address = addr req.Port = port req.Protocol = proto if err := u.operatePort(client, req); err != nil { return err } if err := u.addPortRecord(req); err != nil { return err } } } } } if reload { return client.Reload() } return nil } func (u *FirewallService) OperateForwardRule(req dto.ForwardRuleOperate) error { client, err := firewall.NewFirewallClient() if err != nil { return err } rules, _ := client.ListForward() for _, rule := range rules { for _, reqRule := range req.Rules { if reqRule.Operation == "remove" { continue } if reqRule.TargetIP == "" { reqRule.TargetIP = "127.0.0.1" } if reqRule.Port == rule.Port && reqRule.TargetPort == rule.TargetPort && reqRule.TargetIP == rule.TargetIP { return constant.ErrRecordExist } } } sort.SliceStable(req.Rules, func(i, j int) bool { n1, _ := strconv.Atoi(req.Rules[i].Num) n2, _ := strconv.Atoi(req.Rules[j].Num) return n1 > n2 }) for _, r := range req.Rules { for _, p := range strings.Split(r.Protocol, "/") { if r.TargetIP == "" { r.TargetIP = "127.0.0.1" } if err = client.PortForward(fireClient.Forward{ Num: r.Num, Protocol: p, Port: r.Port, TargetIP: r.TargetIP, TargetPort: r.TargetPort, }, r.Operation); err != nil { return err } } } return nil } func (u *FirewallService) OperateAddressRule(req dto.AddrRuleOperate, reload bool) error { client, err := firewall.NewFirewallClient() if err != nil { return err } var fireInfo fireClient.FireInfo if err := copier.Copy(&fireInfo, &req); err != nil { return err } addressList := strings.Split(req.Address, ",") for i := 0; i < len(addressList); i++ { if len(addressList[i]) == 0 { continue } fireInfo.Address = addressList[i] if err := client.RichRules(fireInfo, req.Operation); err != nil { return err } req.Address = addressList[i] if err := u.addAddressRecord(req); err != nil { return err } } if reload { return client.Reload() } return nil } func (u *FirewallService) UpdatePortRule(req dto.PortRuleUpdate) error { client, err := firewall.NewFirewallClient() if err != nil { return err } if err := u.OperatePortRule(req.OldRule, false); err != nil { return err } if err := u.OperatePortRule(req.NewRule, false); err != nil { return err } return client.Reload() } func (u *FirewallService) UpdateAddrRule(req dto.AddrRuleUpdate) error { client, err := firewall.NewFirewallClient() if err != nil { return err } if err := u.OperateAddressRule(req.OldRule, false); err != nil { return err } if err := u.OperateAddressRule(req.NewRule, false); err != nil { return err } return client.Reload() } func (u *FirewallService) UpdateDescription(req dto.UpdateFirewallDescription) error { var firewall model.Firewall if err := copier.Copy(&firewall, &req); err != nil { return errors.WithMessage(constant.ErrStructTransform, err.Error()) } return hostRepo.SaveFirewallRecord(&firewall) } func (u *FirewallService) BatchOperateRule(req dto.BatchRuleOperate) error { client, err := firewall.NewFirewallClient() if err != nil { return err } if req.Type == "port" { for _, rule := range req.Rules { _ = u.OperatePortRule(rule, false) } return client.Reload() } for _, rule := range req.Rules { itemRule := dto.AddrRuleOperate{Operation: rule.Operation, Address: rule.Address, Strategy: rule.Strategy} _ = u.OperateAddressRule(itemRule, false) } return client.Reload() } func OperateFirewallPort(oldPorts, newPorts []int) error { client, err := firewall.NewFirewallClient() if err != nil { return err } for _, port := range newPorts { if err := client.Port(fireClient.FireInfo{Port: strconv.Itoa(port), Protocol: "tcp", Strategy: "accept"}, "add"); err != nil { return err } } for _, port := range oldPorts { if err := client.Port(fireClient.FireInfo{Port: strconv.Itoa(port), Protocol: "tcp", Strategy: "accept"}, "remove"); err != nil { return err } } return client.Reload() } func (u *FirewallService) operatePort(client firewall.FirewallClient, req dto.PortRuleOperate) error { var fireInfo fireClient.FireInfo if err := copier.Copy(&fireInfo, &req); err != nil { return err } if client.Name() == "ufw" { if len(fireInfo.Address) != 0 && !strings.EqualFold(fireInfo.Address, "Anywhere") { return client.RichRules(fireInfo, req.Operation) } return client.Port(fireInfo, req.Operation) } if len(fireInfo.Address) != 0 || fireInfo.Strategy == "drop" { return client.RichRules(fireInfo, req.Operation) } return client.Port(fireInfo, req.Operation) } type portOfApp struct { AppName string HttpPort string HttpsPort string } func (u *FirewallService) loadPortByApp() []portOfApp { var datas []portOfApp apps, err := appInstallRepo.ListBy() if err != nil { return datas } for i := 0; i < len(apps); i++ { datas = append(datas, portOfApp{ AppName: apps[i].App.Key, HttpPort: strconv.Itoa(apps[i].HttpPort), HttpsPort: strconv.Itoa(apps[i].HttpsPort), }) } systemPort, err := settingRepo.Get(settingRepo.WithByKey("ServerPort")) if err != nil { return datas } datas = append(datas, portOfApp{AppName: "1panel", HttpPort: systemPort.Value}) return datas } func (u *FirewallService) cleanUnUsedData(client firewall.FirewallClient) { list, _ := client.ListPort() addressList, _ := client.ListAddress() list = append(list, addressList...) if len(list) == 0 { return } records, _ := hostRepo.ListFirewallRecord() if len(records) == 0 { return } for _, item := range list { for i := 0; i < len(records); i++ { if records[i].Port == item.Port && records[i].Protocol == item.Protocol && records[i].Strategy == item.Strategy && records[i].Address == item.Address { records = append(records[:i], records[i+1:]...) } } } for _, record := range records { _ = hostRepo.DeleteFirewallRecordByID(record.ID) } } func (u *FirewallService) pingStatus() string { if _, err := os.Stat("/etc/sysctl.conf"); err != nil { return constant.StatusNone } sudo := cmd.SudoHandleCmd() command := fmt.Sprintf("%s cat /etc/sysctl.conf | grep net/ipv4/icmp_echo_ignore_all= ", sudo) stdout, _ := cmd.Exec(command) if stdout == "net/ipv4/icmp_echo_ignore_all=1\n" { return constant.StatusEnable } return constant.StatusDisable } func (u *FirewallService) updatePingStatus(enable string) error { lineBytes, err := os.ReadFile(confPath) if err != nil { return err } files := strings.Split(string(lineBytes), "\n") var newFiles []string hasLine := false for _, line := range files { if strings.Contains(line, "net/ipv4/icmp_echo_ignore_all") || strings.HasPrefix(line, "net/ipv4/icmp_echo_ignore_all") { newFiles = append(newFiles, "net/ipv4/icmp_echo_ignore_all="+enable) hasLine = true } else { newFiles = append(newFiles, line) } } if !hasLine { newFiles = append(newFiles, "net/ipv4/icmp_echo_ignore_all="+enable) } file, err := os.OpenFile(confPath, os.O_WRONLY|os.O_TRUNC, 0666) if err != nil { return err } defer file.Close() _, err = file.WriteString(strings.Join(newFiles, "\n")) if err != nil { return err } sudo := cmd.SudoHandleCmd() command := fmt.Sprintf("%s sysctl -p", sudo) stdout, err := cmd.Exec(command) if err != nil { return fmt.Errorf("update ping status failed, err: %v", stdout) } return nil } func (u *FirewallService) addPortsBeforeStart(client firewall.FirewallClient) error { serverPort, err := settingRepo.Get(settingRepo.WithByKey("ServerPort")) if err != nil { return err } if err := client.Port(fireClient.FireInfo{Port: serverPort.Value, Protocol: "tcp", Strategy: "accept"}, "add"); err != nil { return err } if err := client.Port(fireClient.FireInfo{Port: "22", Protocol: "tcp", Strategy: "accept"}, "add"); err != nil { return err } if err := client.Port(fireClient.FireInfo{Port: "80", Protocol: "tcp", Strategy: "accept"}, "add"); err != nil { return err } if err := client.Port(fireClient.FireInfo{Port: "443", Protocol: "tcp", Strategy: "accept"}, "add"); err != nil { return err } return client.Reload() } func (u *FirewallService) addPortRecord(req dto.PortRuleOperate) error { if req.Operation == "remove" { return hostRepo.DeleteFirewallRecord("port", req.Port, req.Protocol, req.Address, req.Strategy) } if err := hostRepo.SaveFirewallRecord(&model.Firewall{ Type: "port", Port: req.Port, Protocol: req.Protocol, Address: req.Address, Strategy: req.Strategy, Description: req.Description, }); err != nil { return fmt.Errorf("add record %s/%s failed (strategy: %s, address: %s), err: %v", req.Port, req.Protocol, req.Strategy, req.Address, err) } return nil } func (u *FirewallService) addAddressRecord(req dto.AddrRuleOperate) error { if req.Operation == "remove" { return hostRepo.DeleteFirewallRecord("address", "", "", req.Address, req.Strategy) } if err := hostRepo.SaveFirewallRecord(&model.Firewall{ Type: "address", Address: req.Address, Strategy: req.Strategy, Description: req.Description, }); err != nil { return fmt.Errorf("add record failed (strategy: %s, address: %s), err: %v", req.Strategy, req.Address, err) } return nil } func checkPortUsed(ports, proto string, apps []portOfApp) string { var portList []int if strings.Contains(ports, "-") || strings.Contains(ports, ",") { if strings.Contains(ports, "-") { port1, err := strconv.Atoi(strings.Split(ports, "-")[0]) if err != nil { global.LOG.Errorf(" convert string %s to int failed, err: %v", strings.Split(ports, "-")[0], err) return "" } port2, err := strconv.Atoi(strings.Split(ports, "-")[1]) if err != nil { global.LOG.Errorf(" convert string %s to int failed, err: %v", strings.Split(ports, "-")[1], err) return "" } for i := port1; i <= port2; i++ { portList = append(portList, i) } } else { portLists := strings.Split(ports, ",") for _, item := range portLists { portItem, _ := strconv.Atoi(item) portList = append(portList, portItem) } } var usedPorts []string for _, port := range portList { portItem := fmt.Sprintf("%v", port) isUsedByApp := false for _, app := range apps { if app.HttpPort == portItem || app.HttpsPort == portItem { isUsedByApp = true usedPorts = append(usedPorts, fmt.Sprintf("%s (%s)", portItem, app.AppName)) break } } if !isUsedByApp && common.ScanPortWithProto(port, proto) { usedPorts = append(usedPorts, fmt.Sprintf("%v", port)) } } return strings.Join(usedPorts, ",") } for _, app := range apps { if app.HttpPort == ports || app.HttpsPort == ports { return fmt.Sprintf("(%s)", app.AppName) } } port, err := strconv.Atoi(ports) if err != nil { global.LOG.Errorf(" convert string %v to int failed, err: %v", port, err) return "" } if common.ScanPortWithProto(port, proto) { return "inUsed" } return "" }