ceremonyclient/go-libp2p/p2p/host/resource-manager/rcmgr.go

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package rcmgr
import (
"context"
"fmt"
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"net/netip"
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"strings"
"sync"
"time"
"github.com/libp2p/go-libp2p/core/network"
"github.com/libp2p/go-libp2p/core/peer"
"github.com/libp2p/go-libp2p/core/protocol"
logging "github.com/ipfs/go-log/v2"
"github.com/multiformats/go-multiaddr"
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manet "github.com/multiformats/go-multiaddr/net"
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)
var log = logging.Logger("rcmgr")
type resourceManager struct {
limits Limiter
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connLimiter *connLimiter
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trace *trace
metrics *metrics
disableMetrics bool
allowlist *Allowlist
system *systemScope
transient *transientScope
allowlistedSystem *systemScope
allowlistedTransient *transientScope
cancelCtx context.Context
cancel func()
wg sync.WaitGroup
mx sync.Mutex
svc map[string]*serviceScope
proto map[protocol.ID]*protocolScope
peer map[peer.ID]*peerScope
stickyProto map[protocol.ID]struct{}
stickyPeer map[peer.ID]struct{}
connId, streamId int64
}
var _ network.ResourceManager = (*resourceManager)(nil)
type systemScope struct {
*resourceScope
}
var _ network.ResourceScope = (*systemScope)(nil)
type transientScope struct {
*resourceScope
system *systemScope
}
var _ network.ResourceScope = (*transientScope)(nil)
type serviceScope struct {
*resourceScope
service string
rcmgr *resourceManager
peers map[peer.ID]*resourceScope
}
var _ network.ServiceScope = (*serviceScope)(nil)
type protocolScope struct {
*resourceScope
proto protocol.ID
rcmgr *resourceManager
peers map[peer.ID]*resourceScope
}
var _ network.ProtocolScope = (*protocolScope)(nil)
type peerScope struct {
*resourceScope
peer peer.ID
rcmgr *resourceManager
}
var _ network.PeerScope = (*peerScope)(nil)
type connectionScope struct {
*resourceScope
dir network.Direction
usefd bool
isAllowlisted bool
rcmgr *resourceManager
peer *peerScope
endpoint multiaddr.Multiaddr
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ip netip.Addr
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}
var _ network.ConnScope = (*connectionScope)(nil)
var _ network.ConnManagementScope = (*connectionScope)(nil)
type streamScope struct {
*resourceScope
dir network.Direction
rcmgr *resourceManager
peer *peerScope
svc *serviceScope
proto *protocolScope
peerProtoScope *resourceScope
peerSvcScope *resourceScope
}
var _ network.StreamScope = (*streamScope)(nil)
var _ network.StreamManagementScope = (*streamScope)(nil)
type Option func(*resourceManager) error
func NewResourceManager(limits Limiter, opts ...Option) (network.ResourceManager, error) {
allowlist := newAllowlist()
r := &resourceManager{
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limits: limits,
connLimiter: newConnLimiter(),
allowlist: &allowlist,
svc: make(map[string]*serviceScope),
proto: make(map[protocol.ID]*protocolScope),
peer: make(map[peer.ID]*peerScope),
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}
for _, opt := range opts {
if err := opt(r); err != nil {
return nil, err
}
}
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registeredConnLimiterPrefixes := make(map[string]struct{})
for _, npLimit := range r.connLimiter.networkPrefixLimitV4 {
registeredConnLimiterPrefixes[npLimit.Network.String()] = struct{}{}
}
for _, npLimit := range r.connLimiter.networkPrefixLimitV6 {
registeredConnLimiterPrefixes[npLimit.Network.String()] = struct{}{}
}
for _, network := range allowlist.allowedNetworks {
prefix, err := netip.ParsePrefix(network.String())
if err != nil {
log.Debugf("failed to parse prefix from allowlist %s, %s", network, err)
continue
}
if _, ok := registeredConnLimiterPrefixes[prefix.String()]; !ok {
// connlimiter doesn't know about this network. Let's fix that
r.connLimiter.addNetworkPrefixLimit(prefix.Addr().Is6(), NetworkPrefixLimit{
Network: prefix,
ConnCount: r.limits.GetAllowlistedSystemLimits().GetConnTotalLimit(),
})
}
}
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if !r.disableMetrics {
var sr TraceReporter
sr, err := NewStatsTraceReporter()
if err != nil {
log.Errorf("failed to initialise StatsTraceReporter %s", err)
} else {
if r.trace == nil {
r.trace = &trace{}
}
found := false
for _, rep := range r.trace.reporters {
if rep == sr {
found = true
break
}
}
if !found {
r.trace.reporters = append(r.trace.reporters, sr)
}
}
}
if err := r.trace.Start(limits); err != nil {
return nil, err
}
r.system = newSystemScope(limits.GetSystemLimits(), r, "system")
r.system.IncRef()
r.transient = newTransientScope(limits.GetTransientLimits(), r, "transient", r.system.resourceScope)
r.transient.IncRef()
r.allowlistedSystem = newSystemScope(limits.GetAllowlistedSystemLimits(), r, "allowlistedSystem")
r.allowlistedSystem.IncRef()
r.allowlistedTransient = newTransientScope(limits.GetAllowlistedTransientLimits(), r, "allowlistedTransient", r.allowlistedSystem.resourceScope)
r.allowlistedTransient.IncRef()
r.cancelCtx, r.cancel = context.WithCancel(context.Background())
r.wg.Add(1)
go r.background()
return r, nil
}
func (r *resourceManager) GetAllowlist() *Allowlist {
return r.allowlist
}
// GetAllowlist tries to get the allowlist from the given resourcemanager
// interface by checking to see if its concrete type is a resourceManager.
// Returns nil if it fails to get the allowlist.
func GetAllowlist(rcmgr network.ResourceManager) *Allowlist {
r, ok := rcmgr.(*resourceManager)
if !ok {
return nil
}
return r.allowlist
}
func (r *resourceManager) ViewSystem(f func(network.ResourceScope) error) error {
return f(r.system)
}
func (r *resourceManager) ViewTransient(f func(network.ResourceScope) error) error {
return f(r.transient)
}
func (r *resourceManager) ViewService(srv string, f func(network.ServiceScope) error) error {
s := r.getServiceScope(srv)
e := f(s)
s.DecRef()
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return e
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}
func (r *resourceManager) ViewProtocol(proto protocol.ID, f func(network.ProtocolScope) error) error {
s := r.getProtocolScope(proto)
e := f(s)
s.DecRef()
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return e
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}
func (r *resourceManager) ViewPeer(p peer.ID, f func(network.PeerScope) error) error {
s := r.getPeerScope(p)
e := f(s)
s.DecRef()
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return e
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}
func (r *resourceManager) getServiceScope(svc string) *serviceScope {
r.mx.Lock()
s, ok := r.svc[svc]
if !ok {
s = newServiceScope(svc, r.limits.GetServiceLimits(svc), r)
r.svc[svc] = s
}
s.IncRef()
r.mx.Unlock()
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return s
}
func (r *resourceManager) getProtocolScope(proto protocol.ID) *protocolScope {
r.mx.Lock()
s, ok := r.proto[proto]
if !ok {
s = newProtocolScope(proto, r.limits.GetProtocolLimits(proto), r)
r.proto[proto] = s
}
s.IncRef()
r.mx.Unlock()
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return s
}
func (r *resourceManager) setStickyProtocol(proto protocol.ID) {
r.mx.Lock()
if r.stickyProto == nil {
r.stickyProto = make(map[protocol.ID]struct{})
}
r.stickyProto[proto] = struct{}{}
r.mx.Unlock()
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}
func (r *resourceManager) getPeerScope(p peer.ID) *peerScope {
r.mx.Lock()
s, ok := r.peer[p]
if !ok {
s = newPeerScope(p, r.limits.GetPeerLimits(p), r)
r.peer[p] = s
}
s.IncRef()
r.mx.Unlock()
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return s
}
func (r *resourceManager) setStickyPeer(p peer.ID) {
r.mx.Lock()
if r.stickyPeer == nil {
r.stickyPeer = make(map[peer.ID]struct{})
}
r.stickyPeer[p] = struct{}{}
r.mx.Unlock()
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}
func (r *resourceManager) nextConnId() int64 {
r.mx.Lock()
r.connId++
r.mx.Unlock()
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return r.connId
}
func (r *resourceManager) nextStreamId() int64 {
r.mx.Lock()
r.streamId++
r.mx.Unlock()
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return r.streamId
}
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// OpenConnectionNoIP is deprecated and will be removed in the next release
func (r *resourceManager) OpenConnectionNoIP(dir network.Direction, usefd bool, endpoint multiaddr.Multiaddr) (network.ConnManagementScope, error) {
return r.openConnection(dir, usefd, endpoint, netip.Addr{})
}
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func (r *resourceManager) OpenConnection(dir network.Direction, usefd bool, endpoint multiaddr.Multiaddr) (network.ConnManagementScope, error) {
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ip, err := manet.ToIP(endpoint)
if err != nil {
// No IP address
return r.openConnection(dir, usefd, endpoint, netip.Addr{})
}
ipAddr, ok := netip.AddrFromSlice(ip)
if !ok {
return nil, fmt.Errorf("failed to convert ip to netip.Addr")
}
return r.openConnection(dir, usefd, endpoint, ipAddr)
}
func (r *resourceManager) openConnection(dir network.Direction, usefd bool, endpoint multiaddr.Multiaddr, ip netip.Addr) (network.ConnManagementScope, error) {
if ip.IsValid() {
if ok := r.connLimiter.addConn(ip); !ok {
return nil, fmt.Errorf("connections per ip limit exceeded for %s", endpoint)
}
}
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var conn *connectionScope
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conn = newConnectionScope(dir, usefd, r.limits.GetConnLimits(), r, endpoint, ip)
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err := conn.AddConn(dir, usefd)
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if err != nil && ip.IsValid() {
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// Try again if this is an allowlisted connection
// Failed to open connection, let's see if this was allowlisted and try again
allowed := r.allowlist.Allowed(endpoint)
if allowed {
conn.Done()
conn = newAllowListedConnectionScope(dir, usefd, r.limits.GetConnLimits(), r, endpoint)
err = conn.AddConn(dir, usefd)
}
}
if err != nil {
conn.Done()
r.metrics.BlockConn(dir, usefd)
return nil, err
}
r.metrics.AllowConn(dir, usefd)
return conn, nil
}
func (r *resourceManager) OpenStream(p peer.ID, dir network.Direction) (network.StreamManagementScope, error) {
peer := r.getPeerScope(p)
stream := newStreamScope(dir, r.limits.GetStreamLimits(p), peer, r)
peer.DecRef() // we have the reference in edges
err := stream.AddStream(dir)
if err != nil {
stream.Done()
r.metrics.BlockStream(p, dir)
return nil, err
}
r.metrics.AllowStream(p, dir)
return stream, nil
}
func (r *resourceManager) Close() error {
r.cancel()
r.wg.Wait()
r.trace.Close()
return nil
}
func (r *resourceManager) background() {
// periodically garbage collects unused peer and protocol scopes
ticker := time.NewTicker(time.Minute)
for {
select {
case <-ticker.C:
r.gc()
case <-r.cancelCtx.Done():
ticker.Stop()
r.wg.Done()
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return
}
}
}
func (r *resourceManager) gc() {
r.mx.Lock()
for proto, s := range r.proto {
_, sticky := r.stickyProto[proto]
if sticky {
continue
}
if s.IsUnused() {
s.Done()
delete(r.proto, proto)
}
}
var deadPeers []peer.ID
for p, s := range r.peer {
_, sticky := r.stickyPeer[p]
if sticky {
continue
}
if s.IsUnused() {
s.Done()
delete(r.peer, p)
deadPeers = append(deadPeers, p)
}
}
for _, s := range r.svc {
s.Lock()
for _, p := range deadPeers {
ps, ok := s.peers[p]
if ok {
ps.Done()
delete(s.peers, p)
}
}
s.Unlock()
}
for _, s := range r.proto {
s.Lock()
for _, p := range deadPeers {
ps, ok := s.peers[p]
if ok {
ps.Done()
delete(s.peers, p)
}
}
s.Unlock()
}
r.mx.Unlock()
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}
func newSystemScope(limit Limit, rcmgr *resourceManager, name string) *systemScope {
return &systemScope{
resourceScope: newResourceScope(limit, nil, name, rcmgr.trace, rcmgr.metrics),
}
}
func newTransientScope(limit Limit, rcmgr *resourceManager, name string, systemScope *resourceScope) *transientScope {
return &transientScope{
resourceScope: newResourceScope(limit,
[]*resourceScope{systemScope},
name, rcmgr.trace, rcmgr.metrics),
system: rcmgr.system,
}
}
func newServiceScope(service string, limit Limit, rcmgr *resourceManager) *serviceScope {
return &serviceScope{
resourceScope: newResourceScope(limit,
[]*resourceScope{rcmgr.system.resourceScope},
fmt.Sprintf("service:%s", service), rcmgr.trace, rcmgr.metrics),
service: service,
rcmgr: rcmgr,
}
}
func newProtocolScope(proto protocol.ID, limit Limit, rcmgr *resourceManager) *protocolScope {
return &protocolScope{
resourceScope: newResourceScope(limit,
[]*resourceScope{rcmgr.system.resourceScope},
fmt.Sprintf("protocol:%s", proto), rcmgr.trace, rcmgr.metrics),
proto: proto,
rcmgr: rcmgr,
}
}
func newPeerScope(p peer.ID, limit Limit, rcmgr *resourceManager) *peerScope {
return &peerScope{
resourceScope: newResourceScope(limit,
[]*resourceScope{rcmgr.system.resourceScope},
peerScopeName(p), rcmgr.trace, rcmgr.metrics),
peer: p,
rcmgr: rcmgr,
}
}
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func newConnectionScope(dir network.Direction, usefd bool, limit Limit, rcmgr *resourceManager, endpoint multiaddr.Multiaddr, ip netip.Addr) *connectionScope {
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return &connectionScope{
resourceScope: newResourceScope(limit,
[]*resourceScope{rcmgr.transient.resourceScope, rcmgr.system.resourceScope},
connScopeName(rcmgr.nextConnId()), rcmgr.trace, rcmgr.metrics),
dir: dir,
usefd: usefd,
rcmgr: rcmgr,
endpoint: endpoint,
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ip: ip,
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}
}
func newAllowListedConnectionScope(dir network.Direction, usefd bool, limit Limit, rcmgr *resourceManager, endpoint multiaddr.Multiaddr) *connectionScope {
return &connectionScope{
resourceScope: newResourceScope(limit,
[]*resourceScope{rcmgr.allowlistedTransient.resourceScope, rcmgr.allowlistedSystem.resourceScope},
connScopeName(rcmgr.nextConnId()), rcmgr.trace, rcmgr.metrics),
dir: dir,
usefd: usefd,
rcmgr: rcmgr,
endpoint: endpoint,
isAllowlisted: true,
}
}
func newStreamScope(dir network.Direction, limit Limit, peer *peerScope, rcmgr *resourceManager) *streamScope {
return &streamScope{
resourceScope: newResourceScope(limit,
[]*resourceScope{peer.resourceScope, rcmgr.transient.resourceScope, rcmgr.system.resourceScope},
streamScopeName(rcmgr.nextStreamId()), rcmgr.trace, rcmgr.metrics),
dir: dir,
rcmgr: peer.rcmgr,
peer: peer,
}
}
func IsSystemScope(name string) bool {
return name == "system"
}
func IsTransientScope(name string) bool {
return name == "transient"
}
func streamScopeName(streamId int64) string {
return fmt.Sprintf("stream-%d", streamId)
}
func IsStreamScope(name string) bool {
return strings.HasPrefix(name, "stream-") && !IsSpan(name)
}
func connScopeName(streamId int64) string {
return fmt.Sprintf("conn-%d", streamId)
}
func IsConnScope(name string) bool {
return strings.HasPrefix(name, "conn-") && !IsSpan(name)
}
func peerScopeName(p peer.ID) string {
return fmt.Sprintf("peer:%s", p)
}
// PeerStrInScopeName returns "" if name is not a peerScopeName. Returns a string to avoid allocating a peer ID object
func PeerStrInScopeName(name string) string {
if !strings.HasPrefix(name, "peer:") || IsSpan(name) {
return ""
}
// Index to avoid allocating a new string
peerSplitIdx := strings.Index(name, "peer:")
if peerSplitIdx == -1 {
return ""
}
p := (name[peerSplitIdx+len("peer:"):])
return p
}
// ParseProtocolScopeName returns the service name if name is a serviceScopeName.
// Otherwise returns ""
func ParseProtocolScopeName(name string) string {
if strings.HasPrefix(name, "protocol:") && !IsSpan(name) {
if strings.Contains(name, "peer:") {
// This is a protocol peer scope
return ""
}
// Index to avoid allocating a new string
separatorIdx := strings.Index(name, ":")
if separatorIdx == -1 {
return ""
}
return name[separatorIdx+1:]
}
return ""
}
func (s *serviceScope) Name() string {
return s.service
}
func (s *serviceScope) getPeerScope(p peer.ID) *resourceScope {
s.Lock()
ps, ok := s.peers[p]
if ok {
ps.IncRef()
s.Unlock()
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return ps
}
l := s.rcmgr.limits.GetServicePeerLimits(s.service)
if s.peers == nil {
s.peers = make(map[peer.ID]*resourceScope)
}
ps = newResourceScope(l, nil, fmt.Sprintf("%s.peer:%s", s.name, p), s.rcmgr.trace, s.rcmgr.metrics)
s.peers[p] = ps
ps.IncRef()
s.Unlock()
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return ps
}
func (s *protocolScope) Protocol() protocol.ID {
return s.proto
}
func (s *protocolScope) getPeerScope(p peer.ID) *resourceScope {
s.Lock()
ps, ok := s.peers[p]
if ok {
ps.IncRef()
s.Unlock()
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return ps
}
l := s.rcmgr.limits.GetProtocolPeerLimits(s.proto)
if s.peers == nil {
s.peers = make(map[peer.ID]*resourceScope)
}
ps = newResourceScope(l, nil, fmt.Sprintf("%s.peer:%s", s.name, p), s.rcmgr.trace, s.rcmgr.metrics)
s.peers[p] = ps
ps.IncRef()
s.Unlock()
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return ps
}
func (s *peerScope) Peer() peer.ID {
return s.peer
}
func (s *connectionScope) PeerScope() network.PeerScope {
s.Lock()
// avoid nil is not nil footgun; go....
if s.peer == nil {
s.Unlock()
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return nil
}
s.Unlock()
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return s.peer
}
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func (s *connectionScope) Done() {
s.Lock()
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if s.done {
s.Unlock()
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return
}
if s.ip.IsValid() {
s.rcmgr.connLimiter.rmConn(s.ip)
}
s.resourceScope.doneUnlocked()
s.Unlock()
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}
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// transferAllowedToStandard transfers this connection scope from being part of
// the allowlist set of scopes to being part of the standard set of scopes.
// Happens when we first allowlisted this connection due to its IP, but later
// discovered that the peer id not what we expected.
func (s *connectionScope) transferAllowedToStandard() (err error) {
systemScope := s.rcmgr.system.resourceScope
transientScope := s.rcmgr.transient.resourceScope
stat := s.resourceScope.rc.stat()
for _, scope := range s.edges {
scope.ReleaseForChild(stat)
scope.DecRef() // removed from edges
}
s.edges = nil
if err := systemScope.ReserveForChild(stat); err != nil {
return err
}
systemScope.IncRef()
if err := transientScope.ReserveForChild(stat); err != nil {
systemScope.ReleaseForChild(stat)
systemScope.DecRef()
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return err
}
transientScope.IncRef()
// Update edges
s.edges = []*resourceScope{
systemScope,
transientScope,
}
return nil
}
func (s *connectionScope) SetPeer(p peer.ID) error {
s.Lock()
if s.peer != nil {
s.Unlock()
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return fmt.Errorf("connection scope already attached to a peer")
}
system := s.rcmgr.system
transient := s.rcmgr.transient
if s.isAllowlisted {
system = s.rcmgr.allowlistedSystem
transient = s.rcmgr.allowlistedTransient
if !s.rcmgr.allowlist.AllowedPeerAndMultiaddr(p, s.endpoint) {
s.isAllowlisted = false
// This is not an allowed peer + multiaddr combination. We need to
// transfer this connection to the general scope. We'll do this first by
// transferring the connection to the system and transient scopes, then
// continue on with this function. The idea is that a connection
// shouldn't get the benefit of evading the transient scope because it
// was _almost_ an allowlisted connection.
if err := s.transferAllowedToStandard(); err != nil {
// Failed to transfer this connection to the standard scopes
s.Unlock()
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return err
}
// set the system and transient scopes to the non-allowlisted ones
system = s.rcmgr.system
transient = s.rcmgr.transient
}
}
s.peer = s.rcmgr.getPeerScope(p)
// juggle resources from transient scope to peer scope
stat := s.resourceScope.rc.stat()
if err := s.peer.ReserveForChild(stat); err != nil {
s.peer.DecRef()
s.peer = nil
s.rcmgr.metrics.BlockPeer(p)
s.Unlock()
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return err
}
transient.ReleaseForChild(stat)
transient.DecRef() // removed from edges
// update edges
edges := []*resourceScope{
s.peer.resourceScope,
system.resourceScope,
}
s.resourceScope.edges = edges
s.rcmgr.metrics.AllowPeer(p)
s.Unlock()
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return nil
}
func (s *streamScope) ProtocolScope() network.ProtocolScope {
s.Lock()
// avoid nil is not nil footgun; go....
if s.proto == nil {
s.Unlock()
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return nil
}
sc := s.proto
s.Unlock()
return sc
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}
func (s *streamScope) SetProtocol(proto protocol.ID) error {
s.Lock()
if s.proto != nil {
s.Unlock()
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return fmt.Errorf("stream scope already attached to a protocol")
}
s.proto = s.rcmgr.getProtocolScope(proto)
// juggle resources from transient scope to protocol scope
stat := s.resourceScope.rc.stat()
if err := s.proto.ReserveForChild(stat); err != nil {
s.proto.DecRef()
s.proto = nil
s.rcmgr.metrics.BlockProtocol(proto)
s.Unlock()
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return err
}
s.peerProtoScope = s.proto.getPeerScope(s.peer.peer)
if err := s.peerProtoScope.ReserveForChild(stat); err != nil {
s.proto.ReleaseForChild(stat)
s.proto.DecRef()
s.proto = nil
s.peerProtoScope.DecRef()
s.peerProtoScope = nil
s.rcmgr.metrics.BlockProtocolPeer(proto, s.peer.peer)
s.Unlock()
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return err
}
s.rcmgr.transient.ReleaseForChild(stat)
s.rcmgr.transient.DecRef() // removed from edges
// update edges
edges := []*resourceScope{
s.peer.resourceScope,
s.peerProtoScope,
s.proto.resourceScope,
s.rcmgr.system.resourceScope,
}
s.resourceScope.edges = edges
s.rcmgr.metrics.AllowProtocol(proto)
s.Unlock()
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return nil
}
func (s *streamScope) ServiceScope() network.ServiceScope {
s.Lock()
// avoid nil is not nil footgun; go....
if s.svc == nil {
s.Unlock()
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return nil
}
svc := s.svc
s.Unlock()
return svc
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}
func (s *streamScope) SetService(svc string) error {
s.Lock()
if s.svc != nil {
s.Unlock()
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return fmt.Errorf("stream scope already attached to a service")
}
if s.proto == nil {
s.Unlock()
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return fmt.Errorf("stream scope not attached to a protocol")
}
s.svc = s.rcmgr.getServiceScope(svc)
// reserve resources in service
stat := s.resourceScope.rc.stat()
if err := s.svc.ReserveForChild(stat); err != nil {
s.svc.DecRef()
s.svc = nil
s.rcmgr.metrics.BlockService(svc)
s.Unlock()
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return err
}
// get the per peer service scope constraint, if any
s.peerSvcScope = s.svc.getPeerScope(s.peer.peer)
if err := s.peerSvcScope.ReserveForChild(stat); err != nil {
s.svc.ReleaseForChild(stat)
s.svc.DecRef()
s.svc = nil
s.peerSvcScope.DecRef()
s.peerSvcScope = nil
s.rcmgr.metrics.BlockServicePeer(svc, s.peer.peer)
s.Unlock()
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return err
}
// update edges
edges := []*resourceScope{
s.peer.resourceScope,
s.peerProtoScope,
s.peerSvcScope,
s.proto.resourceScope,
s.svc.resourceScope,
s.rcmgr.system.resourceScope,
}
s.resourceScope.edges = edges
s.rcmgr.metrics.AllowService(svc)
s.Unlock()
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return nil
}
func (s *streamScope) PeerScope() network.PeerScope {
s.Lock()
// avoid nil is not nil footgun; go....
if s.peer == nil {
return nil
}
p := s.peer
s.Unlock()
return p
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}