mirror of https://github.com/status-im/consul.git
373 lines
11 KiB
Go
373 lines
11 KiB
Go
package proxycfg
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import (
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"errors"
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"sync"
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"github.com/hashicorp/go-hclog"
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"github.com/hashicorp/consul/agent/cache"
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"github.com/hashicorp/consul/agent/local"
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"github.com/hashicorp/consul/agent/structs"
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"github.com/hashicorp/consul/tlsutil"
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)
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var (
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// ErrStopped is returned from Run if the manager instance has already been
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// stopped.
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ErrStopped = errors.New("manager stopped")
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// ErrStarted is returned from Run if the manager instance has already run.
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ErrStarted = errors.New("manager was already run")
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)
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// CancelFunc is a type for a returned function that can be called to cancel a
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// watch.
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type CancelFunc func()
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// Manager is a component that integrates into the agent and manages Connect
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// proxy configuration state. This should not be confused with the deprecated
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// "managed proxy" concept where the agent supervises the actual proxy process.
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// proxycfg.Manager is oblivious to the distinction and manages state for any
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// service registered with Kind == connect-proxy.
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//
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// The Manager ensures that any Connect proxy registered on the agent has all
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// the state it needs cached locally via the agent cache. State includes
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// certificates, intentions, and service discovery results for any declared
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// upstreams. See package docs for more detail.
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type Manager struct {
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ManagerConfig
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// stateCh is notified for any service changes in local state. We only use
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// this to trigger on _new_ service addition since it has no data and we don't
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// want to maintain a full copy of the state in order to diff and figure out
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// what changed. Luckily each service has it's own WatchCh so we can figure
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// out changes and removals with those efficiently.
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stateCh chan struct{}
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mu sync.Mutex
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started bool
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proxies map[structs.ServiceID]*state
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watchers map[structs.ServiceID]map[uint64]chan *ConfigSnapshot
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}
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// ManagerConfig holds the required external dependencies for a Manager
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// instance. All fields must be set to something valid or the manager will
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// panic. The ManagerConfig is passed by value to NewManager so the passed value
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// can be mutated safely.
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type ManagerConfig struct {
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// Cache is the agent's cache instance that can be used to retrieve, store and
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// monitor state for the proxies.
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Cache *cache.Cache
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// Health provides service health updates on a notification channel.
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Health Health
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// state is the agent's local state to be watched for new proxy registrations.
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State *local.State
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// source describes the current agent's identity, it's used directly for
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// prepared query discovery but also indirectly as a way to pass current
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// Datacenter name into other request types that need it. This is sufficient
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// for now and cleaner than passing the entire RuntimeConfig.
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Source *structs.QuerySource
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// DNSConfig is the agent's relevant DNS config for any proxies.
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DNSConfig DNSConfig
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// logger is the agent's logger to be used for logging logs.
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Logger hclog.Logger
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TLSConfigurator *tlsutil.Configurator
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// IntentionDefaultAllow is set by the agent so that we can pass this
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// information to proxies that need to make intention decisions on their
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// own.
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IntentionDefaultAllow bool
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}
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// NewManager constructs a manager from the provided agent cache.
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func NewManager(cfg ManagerConfig) (*Manager, error) {
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if cfg.Cache == nil || cfg.State == nil || cfg.Source == nil ||
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cfg.Logger == nil {
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return nil, errors.New("all ManagerConfig fields must be provided")
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}
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m := &Manager{
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ManagerConfig: cfg,
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// Single item buffer is enough since there is no data transferred so this
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// is "level triggering" and we can't miss actual data.
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stateCh: make(chan struct{}, 1),
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proxies: make(map[structs.ServiceID]*state),
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watchers: make(map[structs.ServiceID]map[uint64]chan *ConfigSnapshot),
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}
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return m, nil
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}
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// Run is the long-running method that handles state syncing. It should be run
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// in it's own goroutine and will continue until a fatal error is hit or Close
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// is called. Run will return an error if it is called more than once, or called
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// after Close.
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func (m *Manager) Run() error {
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m.mu.Lock()
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alreadyStarted := m.started
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m.started = true
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stateCh := m.stateCh
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m.mu.Unlock()
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// Protect against multiple Run calls.
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if alreadyStarted {
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return ErrStarted
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}
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// Protect against being run after Close.
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if stateCh == nil {
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return ErrStopped
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}
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// Register for notifications about state changes
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m.State.Notify(stateCh)
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defer m.State.StopNotify(stateCh)
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for {
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m.syncState()
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// Wait for a state change
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_, ok := <-stateCh
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if !ok {
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// Stopped
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return nil
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}
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}
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}
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// syncState is called whenever the local state notifies a change. It holds the
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// lock while finding any new or updated proxies and removing deleted ones.
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func (m *Manager) syncState() {
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m.mu.Lock()
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defer m.mu.Unlock()
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// Traverse the local state and ensure all proxy services are registered
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services := m.State.Services(structs.WildcardEnterpriseMeta())
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for sid, svc := range services {
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if svc.Kind != structs.ServiceKindConnectProxy &&
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svc.Kind != structs.ServiceKindTerminatingGateway &&
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svc.Kind != structs.ServiceKindMeshGateway &&
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svc.Kind != structs.ServiceKindIngressGateway {
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continue
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}
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// TODO(banks): need to work out when to default some stuff. For example
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// Proxy.LocalServicePort is practically necessary for any sidecar and can
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// default to the port of the sidecar service, but only if it's already
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// registered and once we get past here, we don't have enough context to
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// know that so we'd need to set it here if not during registration of the
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// proxy service. Sidecar Service in the interim can do that, but we should
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// validate more generally that that is always true.
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err := m.ensureProxyServiceLocked(svc, m.State.ServiceToken(sid))
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if err != nil {
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m.Logger.Error("failed to watch proxy service",
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"service", sid.String(),
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"error", err,
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)
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}
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}
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// Now see if any proxies were removed
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for proxyID := range m.proxies {
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if _, ok := services[proxyID]; !ok {
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// Remove them
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m.removeProxyServiceLocked(proxyID)
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}
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}
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}
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// ensureProxyServiceLocked adds or changes the proxy to our state.
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func (m *Manager) ensureProxyServiceLocked(ns *structs.NodeService, token string) error {
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sid := ns.CompoundServiceID()
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state, ok := m.proxies[sid]
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if ok {
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if !state.Changed(ns, token) {
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// No change
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return nil
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}
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// We are updating the proxy, close its old state
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state.Close()
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}
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// TODO: move to a function that translates ManagerConfig->stateConfig
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stateConfig := stateConfig{
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logger: m.Logger.With("service_id", sid.String()),
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cache: m.Cache,
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health: m.Health,
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source: m.Source,
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dnsConfig: m.DNSConfig,
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intentionDefaultAllow: m.IntentionDefaultAllow,
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}
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if m.TLSConfigurator != nil {
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stateConfig.serverSNIFn = m.TLSConfigurator.ServerSNI
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}
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var err error
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state, err = newState(ns, token, stateConfig)
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if err != nil {
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return err
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}
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ch, err := state.Watch()
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if err != nil {
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return err
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}
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m.proxies[sid] = state
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// Start a goroutine that will wait for changes and broadcast them to watchers.
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go func(ch <-chan ConfigSnapshot) {
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// Run until ch is closed
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for snap := range ch {
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m.notify(&snap)
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}
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}(ch)
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return nil
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}
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// removeProxyService is called when a service deregisters and frees all
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// resources for that service.
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func (m *Manager) removeProxyServiceLocked(proxyID structs.ServiceID) {
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state, ok := m.proxies[proxyID]
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if !ok {
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return
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}
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// Closing state will let the goroutine we started in Ensure finish since
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// watch chan is closed.
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state.Close()
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delete(m.proxies, proxyID)
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// We intentionally leave potential watchers hanging here - there is no new
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// config for them and closing their channels might be indistinguishable from
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// an error that they should retry. We rely for them to eventually give up
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// (because they are in fact not running any more) and so the watches be
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// cleaned up naturally.
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}
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func (m *Manager) notify(snap *ConfigSnapshot) {
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m.mu.Lock()
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defer m.mu.Unlock()
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watchers, ok := m.watchers[snap.ProxyID]
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if !ok {
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return
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}
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for _, ch := range watchers {
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m.deliverLatest(snap, ch)
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}
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}
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// deliverLatest delivers the snapshot to a watch chan. If the delivery blocks,
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// it will drain the chan and then re-attempt delivery so that a slow consumer
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// gets the latest config earlier. This MUST be called from a method where m.mu
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// is held to be safe since it assumes we are the only goroutine sending on ch.
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func (m *Manager) deliverLatest(snap *ConfigSnapshot, ch chan *ConfigSnapshot) {
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// Send if chan is empty
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select {
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case ch <- snap:
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return
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default:
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}
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// Not empty, drain the chan of older snapshots and redeliver. For now we only
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// use 1-buffered chans but this will still work if we change that later.
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OUTER:
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for {
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select {
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case <-ch:
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continue
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default:
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break OUTER
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}
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}
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// Now send again
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select {
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case ch <- snap:
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return
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default:
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// This should not be possible since we should be the only sender, enforced
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// by m.mu but error and drop the update rather than panic.
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m.Logger.Error("failed to deliver ConfigSnapshot to proxy",
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"proxy", snap.ProxyID.String(),
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)
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}
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}
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// Watch registers a watch on a proxy. It might not exist yet in which case this
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// will not fail, but no updates will be delivered until the proxy is
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// registered. If there is already a valid snapshot in memory, it will be
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// delivered immediately.
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func (m *Manager) Watch(proxyID structs.ServiceID) (<-chan *ConfigSnapshot, CancelFunc) {
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m.mu.Lock()
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defer m.mu.Unlock()
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// This buffering is crucial otherwise we'd block immediately trying to
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// deliver the current snapshot below if we already have one.
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ch := make(chan *ConfigSnapshot, 1)
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watchers, ok := m.watchers[proxyID]
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if !ok {
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watchers = make(map[uint64]chan *ConfigSnapshot)
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}
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idx := uint64(len(watchers))
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watchers[idx] = ch
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m.watchers[proxyID] = watchers
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// Deliver the current snapshot immediately if there is one ready
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if state, ok := m.proxies[proxyID]; ok {
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if snap := state.CurrentSnapshot(); snap != nil {
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// We rely on ch being buffered above and that it's not been passed
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// anywhere so we must be the only writer so this will never block and
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// deadlock.
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ch <- snap
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}
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}
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return ch, func() {
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m.mu.Lock()
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defer m.mu.Unlock()
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m.closeWatchLocked(proxyID, idx)
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}
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}
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// closeWatchLocked cleans up state related to a single watcher. It assumes the
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// lock is held.
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func (m *Manager) closeWatchLocked(proxyID structs.ServiceID, watchIdx uint64) {
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if watchers, ok := m.watchers[proxyID]; ok {
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if ch, ok := watchers[watchIdx]; ok {
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delete(watchers, watchIdx)
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close(ch)
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if len(watchers) == 0 {
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delete(m.watchers, proxyID)
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}
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}
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}
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}
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// Close removes all state and stops all running goroutines.
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func (m *Manager) Close() error {
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m.mu.Lock()
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defer m.mu.Unlock()
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if m.stateCh != nil {
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close(m.stateCh)
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m.stateCh = nil
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}
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// Close all current watchers first
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for proxyID, watchers := range m.watchers {
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for idx := range watchers {
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m.closeWatchLocked(proxyID, idx)
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}
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}
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// Then close all states
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for proxyID, state := range m.proxies {
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state.Close()
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delete(m.proxies, proxyID)
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}
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return nil
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}
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