package nftables import ( "bytes" "context" "fmt" "net" "sync" "github.com/google/nftables" "github.com/google/nftables/expr" log "github.com/sirupsen/logrus" firewall "github.com/netbirdio/netbird/client/firewall/manager" ) const ( // tableName is the name of the table that is used for filtering by the Netbird client tableName = "netbird" ) // Manager of iptables firewall type Manager struct { mutex sync.Mutex rConn *nftables.Conn wgIface iFaceMapper router *router aclManager *AclManager } // Create nftables firewall manager func Create(context context.Context, wgIface iFaceMapper) (*Manager, error) { m := &Manager{ rConn: &nftables.Conn{}, wgIface: wgIface, } workTable, err := m.createWorkTable() if err != nil { return nil, err } m.router, err = newRouter(context, workTable) if err != nil { return nil, err } m.aclManager, err = newAclManager(workTable, wgIface, m.router.RouteingFwChainName()) if err != nil { return nil, err } return m, nil } // AddFiltering rule to the firewall // // If comment argument is empty firewall manager should set // rule ID as comment for the rule func (m *Manager) AddFiltering( ip net.IP, proto firewall.Protocol, sPort *firewall.Port, dPort *firewall.Port, direction firewall.RuleDirection, action firewall.Action, ipsetName string, comment string, ) ([]firewall.Rule, error) { m.mutex.Lock() defer m.mutex.Unlock() rawIP := ip.To4() if rawIP == nil { return nil, fmt.Errorf("unsupported IP version: %s", ip.String()) } return m.aclManager.AddFiltering(ip, proto, sPort, dPort, direction, action, ipsetName, comment) } // DeleteRule from the firewall by rule definition func (m *Manager) DeleteRule(rule firewall.Rule) error { m.mutex.Lock() defer m.mutex.Unlock() return m.aclManager.DeleteRule(rule) } func (m *Manager) IsServerRouteSupported() bool { return true } func (m *Manager) InsertRoutingRules(pair firewall.RouterPair) error { m.mutex.Lock() defer m.mutex.Unlock() return m.router.InsertRoutingRules(pair) } func (m *Manager) RemoveRoutingRules(pair firewall.RouterPair) error { m.mutex.Lock() defer m.mutex.Unlock() return m.router.RemoveRoutingRules(pair) } // AllowNetbird allows netbird interface traffic func (m *Manager) AllowNetbird() error { if !m.wgIface.IsUserspaceBind() { return nil } m.mutex.Lock() defer m.mutex.Unlock() err := m.aclManager.createDefaultAllowRules() if err != nil { return fmt.Errorf("failed to create default allow rules: %v", err) } chains, err := m.rConn.ListChainsOfTableFamily(nftables.TableFamilyIPv4) if err != nil { return fmt.Errorf("list of chains: %w", err) } var chain *nftables.Chain for _, c := range chains { if c.Table.Name == "filter" && c.Name == "INPUT" { chain = c break } } if chain == nil { log.Debugf("chain INPUT not found. Skipping add allow netbird rule") return nil } rules, err := m.rConn.GetRules(chain.Table, chain) if err != nil { return fmt.Errorf("failed to get rules for the INPUT chain: %v", err) } if rule := m.detectAllowNetbirdRule(rules); rule != nil { log.Debugf("allow netbird rule already exists: %v", rule) return nil } m.applyAllowNetbirdRules(chain) err = m.rConn.Flush() if err != nil { return fmt.Errorf("failed to flush allow input netbird rules: %v", err) } return nil } // Reset firewall to the default state func (m *Manager) Reset() error { m.mutex.Lock() defer m.mutex.Unlock() chains, err := m.rConn.ListChains() if err != nil { return fmt.Errorf("list of chains: %w", err) } for _, c := range chains { // delete Netbird allow input traffic rule if it exists if c.Table.Name == "filter" && c.Name == "INPUT" { rules, err := m.rConn.GetRules(c.Table, c) if err != nil { log.Errorf("get rules for chain %q: %v", c.Name, err) continue } for _, r := range rules { if bytes.Equal(r.UserData, []byte(allowNetbirdInputRuleID)) { if err := m.rConn.DelRule(r); err != nil { log.Errorf("delete rule: %v", err) } } } } } m.router.ResetForwardRules() tables, err := m.rConn.ListTables() if err != nil { return fmt.Errorf("list of tables: %w", err) } for _, t := range tables { if t.Name == tableName { m.rConn.DelTable(t) } } return m.rConn.Flush() } // Flush rule/chain/set operations from the buffer // // Method also get all rules after flush and refreshes handle values in the rulesets // todo review this method usage func (m *Manager) Flush() error { m.mutex.Lock() defer m.mutex.Unlock() return m.aclManager.Flush() } func (m *Manager) createWorkTable() (*nftables.Table, error) { tables, err := m.rConn.ListTablesOfFamily(nftables.TableFamilyIPv4) if err != nil { return nil, fmt.Errorf("list of tables: %w", err) } for _, t := range tables { if t.Name == tableName { m.rConn.DelTable(t) } } table := m.rConn.AddTable(&nftables.Table{Name: tableName, Family: nftables.TableFamilyIPv4}) err = m.rConn.Flush() return table, err } func (m *Manager) applyAllowNetbirdRules(chain *nftables.Chain) { rule := &nftables.Rule{ Table: chain.Table, Chain: chain, Exprs: []expr.Any{ &expr.Meta{Key: expr.MetaKeyIIFNAME, Register: 1}, &expr.Cmp{ Op: expr.CmpOpEq, Register: 1, Data: ifname(m.wgIface.Name()), }, &expr.Verdict{ Kind: expr.VerdictAccept, }, }, UserData: []byte(allowNetbirdInputRuleID), } _ = m.rConn.InsertRule(rule) } func (m *Manager) detectAllowNetbirdRule(existedRules []*nftables.Rule) *nftables.Rule { ifName := ifname(m.wgIface.Name()) for _, rule := range existedRules { if rule.Table.Name == "filter" && rule.Chain.Name == "INPUT" { if len(rule.Exprs) < 4 { if e, ok := rule.Exprs[0].(*expr.Meta); !ok || e.Key != expr.MetaKeyIIFNAME { continue } if e, ok := rule.Exprs[1].(*expr.Cmp); !ok || e.Op != expr.CmpOpEq || !bytes.Equal(e.Data, ifName) { continue } return rule } } } return nil }