package server import ( _ "embed" "strconv" "strings" log "github.com/sirupsen/logrus" "github.com/netbirdio/netbird/management/proto" "github.com/netbirdio/netbird/management/server/activity" "github.com/netbirdio/netbird/management/server/status" ) // PolicyUpdateOperationType operation type type PolicyUpdateOperationType int // PolicyTrafficActionType action type for the firewall type PolicyTrafficActionType string // PolicyRuleProtocolType type of traffic type PolicyRuleProtocolType string // PolicyRuleDirection direction of traffic type PolicyRuleDirection string const ( // PolicyTrafficActionAccept indicates that the traffic is accepted PolicyTrafficActionAccept = PolicyTrafficActionType("accept") // PolicyTrafficActionDrop indicates that the traffic is dropped PolicyTrafficActionDrop = PolicyTrafficActionType("drop") ) const ( // PolicyRuleProtocolALL type of traffic PolicyRuleProtocolALL = PolicyRuleProtocolType("all") // PolicyRuleProtocolTCP type of traffic PolicyRuleProtocolTCP = PolicyRuleProtocolType("tcp") // PolicyRuleProtocolUDP type of traffic PolicyRuleProtocolUDP = PolicyRuleProtocolType("udp") // PolicyRuleProtocolICMP type of traffic PolicyRuleProtocolICMP = PolicyRuleProtocolType("icmp") ) const ( // PolicyRuleFlowDirect allows traffic from source to destination PolicyRuleFlowDirect = PolicyRuleDirection("direct") // PolicyRuleFlowBidirect allows traffic to both directions PolicyRuleFlowBidirect = PolicyRuleDirection("bidirect") ) const ( firewallRuleDirectionIN = 0 firewallRuleDirectionOUT = 1 ) // PolicyUpdateOperation operation object with type and values to be applied type PolicyUpdateOperation struct { Type PolicyUpdateOperationType Values []string } // PolicyRule is the metadata of the policy type PolicyRule struct { // ID of the policy rule ID string `gorm:"primaryKey"` // PolicyID is a reference to Policy that this object belongs PolicyID string `json:"-" gorm:"index"` // Name of the rule visible in the UI Name string // Description of the rule visible in the UI Description string // Enabled status of rule in the system Enabled bool // Action policy accept or drops packets Action PolicyTrafficActionType // Destinations policy destination groups Destinations []string `gorm:"serializer:json"` // Sources policy source groups Sources []string `gorm:"serializer:json"` // Bidirectional define if the rule is applicable in both directions, sources, and destinations Bidirectional bool // Protocol type of the traffic Protocol PolicyRuleProtocolType // Ports or it ranges list Ports []string `gorm:"serializer:json"` } // Copy returns a copy of a policy rule func (pm *PolicyRule) Copy() *PolicyRule { rule := &PolicyRule{ ID: pm.ID, Name: pm.Name, Description: pm.Description, Enabled: pm.Enabled, Action: pm.Action, Destinations: make([]string, len(pm.Destinations)), Sources: make([]string, len(pm.Sources)), Bidirectional: pm.Bidirectional, Protocol: pm.Protocol, Ports: make([]string, len(pm.Ports)), } copy(rule.Destinations, pm.Destinations) copy(rule.Sources, pm.Sources) copy(rule.Ports, pm.Ports) return rule } // ToRule converts the PolicyRule to a legacy representation of the Rule (for backwards compatibility) func (pm *PolicyRule) ToRule() *Rule { return &Rule{ ID: pm.ID, Name: pm.Name, Description: pm.Description, Disabled: !pm.Enabled, Flow: TrafficFlowBidirect, Destination: pm.Destinations, Source: pm.Sources, } } // Policy of the Rego query type Policy struct { // ID of the policy' ID string `gorm:"primaryKey"` // AccountID is a reference to Account that this object belongs AccountID string `json:"-" gorm:"index"` // Name of the Policy Name string // Description of the policy visible in the UI Description string // Enabled status of the policy Enabled bool // Rules of the policy Rules []*PolicyRule `gorm:"foreignKey:PolicyID;references:id"` } // Copy returns a copy of the policy. func (p *Policy) Copy() *Policy { c := &Policy{ ID: p.ID, Name: p.Name, Description: p.Description, Enabled: p.Enabled, Rules: make([]*PolicyRule, len(p.Rules)), } for i, r := range p.Rules { c.Rules[i] = r.Copy() } return c } // EventMeta returns activity event meta related to this policy func (p *Policy) EventMeta() map[string]any { return map[string]any{"name": p.Name} } // UpgradeAndFix different version of policies to latest version func (p *Policy) UpgradeAndFix() { for _, r := range p.Rules { // start migrate from version v0.20.3 if r.Protocol == "" { r.Protocol = PolicyRuleProtocolALL } if r.Protocol == PolicyRuleProtocolALL && !r.Bidirectional { r.Bidirectional = true } // -- v0.20.4 } } // FirewallRule is a rule of the firewall. type FirewallRule struct { // PeerIP of the peer PeerIP string // Direction of the traffic Direction int // Action of the traffic Action string // Protocol of the traffic Protocol string // Port of the traffic Port string } // getPeerConnectionResources for a given peer // // This function returns the list of peers and firewall rules that are applicable to a given peer. func (a *Account) getPeerConnectionResources(peerID string) ([]*Peer, []*FirewallRule) { generateResources, getAccumulatedResources := a.connResourcesGenerator() for _, policy := range a.Policies { if !policy.Enabled { continue } for _, rule := range policy.Rules { if !rule.Enabled { continue } sourcePeers, peerInSources := getAllPeersFromGroups(a, rule.Sources, peerID) destinationPeers, peerInDestinations := getAllPeersFromGroups(a, rule.Destinations, peerID) if rule.Bidirectional { if peerInSources { generateResources(rule, destinationPeers, firewallRuleDirectionIN) } if peerInDestinations { generateResources(rule, sourcePeers, firewallRuleDirectionOUT) } } if peerInSources { generateResources(rule, destinationPeers, firewallRuleDirectionOUT) } if peerInDestinations { generateResources(rule, sourcePeers, firewallRuleDirectionIN) } } } return getAccumulatedResources() } // connResourcesGenerator returns generator and accumulator function which returns the result of generator calls // // The generator function is used to generate the list of peers and firewall rules that are applicable to a given peer. // It safe to call the generator function multiple times for same peer and different rules no duplicates will be // generated. The accumulator function returns the result of all the generator calls. func (a *Account) connResourcesGenerator() (func(*PolicyRule, []*Peer, int), func() ([]*Peer, []*FirewallRule)) { rulesExists := make(map[string]struct{}) peersExists := make(map[string]struct{}) rules := make([]*FirewallRule, 0) peers := make([]*Peer, 0) all, err := a.GetGroupAll() if err != nil { log.Errorf("failed to get group all: %v", err) all = &Group{} } return func(rule *PolicyRule, groupPeers []*Peer, direction int) { isAll := (len(all.Peers) - 1) == len(groupPeers) for _, peer := range groupPeers { if peer == nil { continue } if _, ok := peersExists[peer.ID]; !ok { peers = append(peers, peer) peersExists[peer.ID] = struct{}{} } fr := FirewallRule{ PeerIP: peer.IP.String(), Direction: direction, Action: string(rule.Action), Protocol: string(rule.Protocol), } if isAll { fr.PeerIP = "0.0.0.0" } ruleID := (rule.ID + fr.PeerIP + strconv.Itoa(direction) + fr.Protocol + fr.Action + strings.Join(rule.Ports, ",")) if _, ok := rulesExists[ruleID]; ok { continue } rulesExists[ruleID] = struct{}{} if len(rule.Ports) == 0 { rules = append(rules, &fr) continue } for _, port := range rule.Ports { pr := fr // clone rule and add set new port pr.Port = port rules = append(rules, &pr) } } }, func() ([]*Peer, []*FirewallRule) { return peers, rules } } // GetPolicy from the store func (am *DefaultAccountManager) GetPolicy(accountID, policyID, userID string) (*Policy, error) { unlock := am.Store.AcquireAccountLock(accountID) defer unlock() account, err := am.Store.GetAccount(accountID) if err != nil { return nil, err } user, err := account.FindUser(userID) if err != nil { return nil, err } if !user.IsAdmin() { return nil, status.Errorf(status.PermissionDenied, "only admins are allowed to view policies") } for _, policy := range account.Policies { if policy.ID == policyID { return policy, nil } } return nil, status.Errorf(status.NotFound, "policy with ID %s not found", policyID) } // SavePolicy in the store func (am *DefaultAccountManager) SavePolicy(accountID, userID string, policy *Policy) error { unlock := am.Store.AcquireAccountLock(accountID) defer unlock() account, err := am.Store.GetAccount(accountID) if err != nil { return err } exists := am.savePolicy(account, policy) account.Network.IncSerial() if err = am.Store.SaveAccount(account); err != nil { return err } action := activity.PolicyAdded if exists { action = activity.PolicyUpdated } am.StoreEvent(userID, policy.ID, accountID, action, policy.EventMeta()) am.updateAccountPeers(account) return nil } // DeletePolicy from the store func (am *DefaultAccountManager) DeletePolicy(accountID, policyID, userID string) error { unlock := am.Store.AcquireAccountLock(accountID) defer unlock() account, err := am.Store.GetAccount(accountID) if err != nil { return err } policy, err := am.deletePolicy(account, policyID) if err != nil { return err } account.Network.IncSerial() if err = am.Store.SaveAccount(account); err != nil { return err } am.StoreEvent(userID, policy.ID, accountID, activity.PolicyRemoved, policy.EventMeta()) am.updateAccountPeers(account) return nil } // ListPolicies from the store func (am *DefaultAccountManager) ListPolicies(accountID, userID string) ([]*Policy, error) { unlock := am.Store.AcquireAccountLock(accountID) defer unlock() account, err := am.Store.GetAccount(accountID) if err != nil { return nil, err } user, err := account.FindUser(userID) if err != nil { return nil, err } if !user.IsAdmin() { return nil, status.Errorf(status.PermissionDenied, "Only Administrators can view policies") } return account.Policies[:], nil } func (am *DefaultAccountManager) deletePolicy(account *Account, policyID string) (*Policy, error) { policyIdx := -1 for i, policy := range account.Policies { if policy.ID == policyID { policyIdx = i break } } if policyIdx < 0 { return nil, status.Errorf(status.NotFound, "rule with ID %s doesn't exist", policyID) } policy := account.Policies[policyIdx] account.Policies = append(account.Policies[:policyIdx], account.Policies[policyIdx+1:]...) return policy, nil } func (am *DefaultAccountManager) savePolicy(account *Account, policy *Policy) (exists bool) { for i, p := range account.Policies { if p.ID == policy.ID { account.Policies[i] = policy exists = true break } } if !exists { account.Policies = append(account.Policies, policy) } return } func toProtocolFirewallRules(update []*FirewallRule) []*proto.FirewallRule { result := make([]*proto.FirewallRule, len(update)) for i := range update { direction := proto.FirewallRule_IN if update[i].Direction == firewallRuleDirectionOUT { direction = proto.FirewallRule_OUT } action := proto.FirewallRule_ACCEPT if update[i].Action == string(PolicyTrafficActionDrop) { action = proto.FirewallRule_DROP } protocol := proto.FirewallRule_UNKNOWN switch PolicyRuleProtocolType(update[i].Protocol) { case PolicyRuleProtocolALL: protocol = proto.FirewallRule_ALL case PolicyRuleProtocolTCP: protocol = proto.FirewallRule_TCP case PolicyRuleProtocolUDP: protocol = proto.FirewallRule_UDP case PolicyRuleProtocolICMP: protocol = proto.FirewallRule_ICMP } result[i] = &proto.FirewallRule{ PeerIP: update[i].PeerIP, Direction: direction, Action: action, Protocol: protocol, Port: update[i].Port, } } return result } // getAllPeersFromGroups for given peer ID and list of groups // // Returns list of peers and boolean indicating if peer is in any of the groups func getAllPeersFromGroups(account *Account, groups []string, peerID string) ([]*Peer, bool) { peerInGroups := false filteredPeers := make([]*Peer, 0, len(groups)) for _, g := range groups { group, ok := account.Groups[g] if !ok { continue } for _, p := range group.Peers { peer, ok := account.Peers[p] if ok && peer != nil && peer.ID == peerID { peerInGroups = true continue } filteredPeers = append(filteredPeers, peer) } } return filteredPeers, peerInGroups }