package vaultclient import ( "container/heap" "fmt" "log" "math/rand" "strings" "sync" "time" "github.com/hashicorp/nomad/nomad/structs" "github.com/hashicorp/nomad/nomad/structs/config" vaultapi "github.com/hashicorp/vault/api" ) // TokenDeriverFunc takes in an allocation and a set of tasks and derives a // wrapped token for all the tasks, from the nomad server. All the derived // wrapped tokens will be unwrapped using the vault API client. type TokenDeriverFunc func(*structs.Allocation, []string, *vaultapi.Client) (map[string]string, error) // The interface which nomad client uses to interact with vault and // periodically renews the tokens and secrets. type VaultClient interface { // Start initiates the renewal loop of tokens and secrets Start() // Stop terminates the renewal loop for tokens and secrets Stop() // DeriveToken contacts the nomad server and fetches wrapped tokens for // a set of tasks. The wrapped tokens will be unwrapped using vault and // returned. DeriveToken(*structs.Allocation, []string) (map[string]string, error) // GetConsulACL fetches the Consul ACL token required for the task GetConsulACL(string, string) (*vaultapi.Secret, error) // RenewToken renews a token with the given increment and adds it to // the min-heap for periodic renewal. RenewToken(string, int) (<-chan error, error) // StopRenewToken removes the token from the min-heap, stopping its // renewal. StopRenewToken(string) error // RenewLease renews a vault secret's lease and adds the lease // identifier to the min-heap for periodic renewal. RenewLease(string, int) (<-chan error, error) // StopRenewLease removes a secret's lease ID from the min-heap, // stopping its renewal. StopRenewLease(string) error } // Implementation of VaultClient interface to interact with vault and perform // token and lease renewals periodically. type vaultClient struct { // tokenDeriver is a function pointer passed in by the client to derive // tokens by making RPC calls to the nomad server. The wrapped tokens // returned by the nomad server will be unwrapped by this function // using the vault API client. tokenDeriver TokenDeriverFunc // running indicates if the renewal loop is active or not running bool // tokenData is the data of the passed VaultClient token token *tokenData // client is the API client to interact with vault client *vaultapi.Client // updateCh is the channel to notify heap modifications to the renewal // loop updateCh chan struct{} // stopCh is the channel to trigger termination of renewal loop stopCh chan struct{} // heap is the min-heap to keep track of both tokens and leases heap *vaultClientHeap // config is the configuration to connect to vault config *config.VaultConfig lock sync.RWMutex logger *log.Logger } // tokenData holds the relevant information about the Vault token passed to the // client. type tokenData struct { CreationTTL int `mapstructure:"creation_ttl"` TTL int `mapstructure:"ttl"` Renewable bool `mapstructure:"renewable"` Policies []string `mapstructure:"policies"` Role string `mapstructure:"role"` Root bool } // vaultClientRenewalRequest is a request object for renewal of both tokens and // secret's leases. type vaultClientRenewalRequest struct { // errCh is the channel into which any renewal error will be sent to errCh chan error // id is an identifier which represents either a token or a lease id string // increment is the duration for which the token or lease should be // renewed for increment int // isToken indicates whether the 'id' field is a token or not isToken bool } // Element representing an entry in the renewal heap type vaultClientHeapEntry struct { req *vaultClientRenewalRequest next time.Time index int } // Wrapper around the actual heap to provide additional symantics on top of // functions provided by the heap interface. In order to achieve that, an // additional map is placed beside the actual heap. This map can be used to // check if an entry is already present in the heap. type vaultClientHeap struct { heapMap map[string]*vaultClientHeapEntry heap vaultDataHeapImp } // Data type of the heap type vaultDataHeapImp []*vaultClientHeapEntry // NewVaultClient returns a new vault client from the given config. func NewVaultClient(config *config.VaultConfig, logger *log.Logger, tokenDeriver TokenDeriverFunc) (*vaultClient, error) { if config == nil { return nil, fmt.Errorf("nil vault config") } if logger == nil { return nil, fmt.Errorf("nil logger") } c := &vaultClient{ config: config, stopCh: make(chan struct{}), // Update channel should be a buffered channel updateCh: make(chan struct{}, 1), heap: newVaultClientHeap(), logger: logger, tokenDeriver: tokenDeriver, } if !config.IsEnabled() { return c, nil } // Get the Vault API configuration apiConf, err := config.ApiConfig() if err != nil { logger.Printf("[ERR] client.vault: failed to create vault API config: %v", err) return nil, err } // Create the Vault API client client, err := vaultapi.NewClient(apiConf) if err != nil { logger.Printf("[ERR] client.vault: failed to create Vault client. Not retrying: %v", err) return nil, err } c.client = client return c, nil } // newVaultClientHeap returns a new vault client heap with both the heap and a // map which is a secondary index for heap elements, both initialized. func newVaultClientHeap() *vaultClientHeap { return &vaultClientHeap{ heapMap: make(map[string]*vaultClientHeapEntry), heap: make(vaultDataHeapImp, 0), } } // isTracked returns if a given identifier is already present in the heap and // hence is being renewed. Lock should be held before calling this method. func (c *vaultClient) isTracked(id string) bool { if id == "" { return false } _, ok := c.heap.heapMap[id] return ok } // Starts the renewal loop of vault client func (c *vaultClient) Start() { if !c.config.IsEnabled() || c.running { return } c.lock.Lock() c.running = true c.lock.Unlock() go c.run() } // Stops the renewal loop of vault client func (c *vaultClient) Stop() { if !c.config.IsEnabled() || !c.running { return } c.lock.Lock() defer c.lock.Unlock() c.running = false close(c.stopCh) } // unlockAndUnset is used to unset the vault token on the client and release the // lock. Helper method for deferring a call that does both. func (c *vaultClient) unlockAndUnset() { c.client.SetToken("") c.lock.Unlock() } // DeriveToken takes in an allocation and a set of tasks and for each of the // task, it derives a vault token from nomad server and unwraps it using vault. // The return value is a map containing all the unwrapped tokens indexed by the // task name. func (c *vaultClient) DeriveToken(alloc *structs.Allocation, taskNames []string) (map[string]string, error) { if !c.config.IsEnabled() { return nil, fmt.Errorf("vault client not enabled") } if !c.running { return nil, fmt.Errorf("vault client is not running") } c.lock.Lock() defer c.unlockAndUnset() // Use the token supplied to interact with vault c.client.SetToken("") tokens, err := c.tokenDeriver(alloc, taskNames, c.client) if err != nil { c.logger.Printf("[ERR] client.vault: failed to derive token for allocation %q and tasks %v: %v", alloc.ID, taskNames, err) return nil, err } return tokens, nil } // GetConsulACL creates a vault API client and reads from vault a consul ACL // token used by the task. func (c *vaultClient) GetConsulACL(token, path string) (*vaultapi.Secret, error) { if !c.config.IsEnabled() { return nil, fmt.Errorf("vault client not enabled") } if token == "" { return nil, fmt.Errorf("missing token") } if path == "" { return nil, fmt.Errorf("missing consul ACL token vault path") } c.lock.Lock() defer c.unlockAndUnset() // Use the token supplied to interact with vault c.client.SetToken(token) // Read the consul ACL token and return the secret directly return c.client.Logical().Read(path) } // RenewToken renews the supplied token for a given duration (in seconds) and // adds it to the min-heap so that it is renewed periodically by the renewal // loop. Any error returned during renewal will be written to a buffered // channel and the channel is returned instead of an actual error. This helps // the caller be notified of a renewal failure asynchronously for appropriate // actions to be taken. The caller of this function need not have to close the // error channel. func (c *vaultClient) RenewToken(token string, increment int) (<-chan error, error) { if token == "" { err := fmt.Errorf("missing token") return nil, err } if increment < 1 { err := fmt.Errorf("increment cannot be less than 1") return nil, err } // Create a buffered error channel errCh := make(chan error, 1) // Create a renewal request and indicate that the identifier in the // request is a token and not a lease renewalReq := &vaultClientRenewalRequest{ errCh: errCh, id: token, isToken: true, increment: increment, } // Perform the renewal of the token and send any error to the dedicated // error channel. if err := c.renew(renewalReq); err != nil { c.logger.Printf("[ERR] client.vault: renewal of token failed: %v", err) return nil, err } return errCh, nil } // RenewLease renews the supplied lease identifier for a supplied duration (in // seconds) and adds it to the min-heap so that it gets renewed periodically by // the renewal loop. Any error returned during renewal will be written to a // buffered channel and the channel is returned instead of an actual error. // This helps the caller be notified of a renewal failure asynchronously for // appropriate actions to be taken. The caller of this function need not have // to close the error channel. func (c *vaultClient) RenewLease(leaseId string, increment int) (<-chan error, error) { if leaseId == "" { err := fmt.Errorf("missing lease ID") return nil, err } if increment < 1 { err := fmt.Errorf("increment cannot be less than 1") return nil, err } // Create a buffered error channel errCh := make(chan error, 1) // Create a renewal request using the supplied lease and duration renewalReq := &vaultClientRenewalRequest{ errCh: errCh, id: leaseId, increment: increment, } // Renew the secret and send any error to the dedicated error channel if err := c.renew(renewalReq); err != nil { c.logger.Printf("[ERR] client.vault: renewal of lease failed: %v", err) return nil, err } return errCh, nil } // renew is a common method to handle renewal of both tokens and secret leases. // It invokes a token renewal or a secret's lease renewal. If renewal is // successful, min-heap is updated based on the duration after which it needs // renewal again. The next renewal time is randomly selected to avoid spikes in // the number of APIs periodically. func (c *vaultClient) renew(req *vaultClientRenewalRequest) error { c.lock.Lock() defer c.lock.Unlock() if req == nil { return fmt.Errorf("nil renewal request") } if req.errCh == nil { return fmt.Errorf("renewal request error channel nil") } if !c.config.IsEnabled() { close(req.errCh) return fmt.Errorf("vault client not enabled") } if !c.running { close(req.errCh) return fmt.Errorf("vault client is not running") } if req.id == "" { close(req.errCh) return fmt.Errorf("missing id in renewal request") } if req.increment < 1 { close(req.errCh) return fmt.Errorf("increment cannot be less than 1") } var renewalErr error leaseDuration := req.increment if req.isToken { // Set the token in the API client to the one that needs // renewal c.client.SetToken(req.id) // Renew the token renewResp, err := c.client.Auth().Token().RenewSelf(req.increment) if err != nil { renewalErr = fmt.Errorf("failed to renew the vault token: %v", err) } else if renewResp == nil || renewResp.Auth == nil { renewalErr = fmt.Errorf("failed to renew the vault token") } else { // Don't set this if renewal fails leaseDuration = renewResp.Auth.LeaseDuration } // Reset the token in the API client before returning c.client.SetToken("") } else { // Renew the secret renewResp, err := c.client.Sys().Renew(req.id, req.increment) if err != nil { renewalErr = fmt.Errorf("failed to renew vault secret: %v", err) } else if renewResp == nil { renewalErr = fmt.Errorf("failed to renew vault secret") } else { // Don't set this if renewal fails leaseDuration = renewResp.LeaseDuration } } duration := leaseDuration / 2 switch { case leaseDuration < 30: // Don't bother about introducing randomness if the // leaseDuration is too small. default: // Give a breathing space of 20 seconds min := 10 max := leaseDuration - min rand.Seed(time.Now().Unix()) duration = min + rand.Intn(max-min) } // Determine the next renewal time next := time.Now().Add(time.Duration(duration) * time.Second) fatal := false if renewalErr != nil && (strings.Contains(renewalErr.Error(), "lease not found or lease is not renewable") || strings.Contains(renewalErr.Error(), "token not found") || strings.Contains(renewalErr.Error(), "permission denied")) { fatal = true } else if renewalErr != nil { c.logger.Printf("[DEBUG] client.vault: req.increment: %d, leaseDuration: %d, duration: %d", req.increment, leaseDuration, duration) c.logger.Printf("[ERR] client.vault: renewal of lease or token failed due to a non-fatal error. Retrying at %v: %v", next.String(), renewalErr) } if c.isTracked(req.id) { if fatal { // If encountered with an error where in a lease or a // token is not valid at all with vault, and if that // item is tracked by the renewal loop, stop renewing // it by removing the corresponding heap entry. if err := c.heap.Remove(req.id); err != nil { return fmt.Errorf("failed to remove heap entry: %v", err) } // Report the fatal error to the client req.errCh <- renewalErr close(req.errCh) return renewalErr } // If the identifier is already tracked, this indicates a // subsequest renewal. In this case, update the existing // element in the heap with the new renewal time. if err := c.heap.Update(req, next); err != nil { return fmt.Errorf("failed to update heap entry. err: %v", err) } // There is no need to signal an update to the renewal loop // here because this case is hit from the renewal loop itself. } else { if fatal { // If encountered with an error where in a lease or a // token is not valid at all with vault, and if that // item is not tracked by renewal loop, don't add it. // Report the fatal error to the client req.errCh <- renewalErr close(req.errCh) return renewalErr } // If the identifier is not already tracked, this is a first // renewal request. In this case, add an entry into the heap // with the next renewal time. if err := c.heap.Push(req, next); err != nil { return fmt.Errorf("failed to push an entry to heap. err: %v", err) } // Signal an update for the renewal loop to trigger a fresh // computation for the next best candidate for renewal. if c.running { select { case c.updateCh <- struct{}{}: default: } } } return nil } // run is the renewal loop which performs the periodic renewals of both the // tokens and the secret leases. func (c *vaultClient) run() { if !c.config.IsEnabled() { return } var renewalCh <-chan time.Time for c.config.IsEnabled() && c.running { // Fetches the candidate for next renewal renewalReq, renewalTime := c.nextRenewal() if renewalTime.IsZero() { // If the heap is empty, don't do anything renewalCh = nil } else { now := time.Now() if renewalTime.After(now) { // Compute the duration after which the item // needs renewal and set the renewalCh to fire // at that time. renewalDuration := renewalTime.Sub(time.Now()) renewalCh = time.After(renewalDuration) } else { // If the renewals of multiple items are too // close to each other and by the time the // entry is fetched from heap it might be past // the current time (by a small margin). In // which case, fire immediately. renewalCh = time.After(0) } } select { case <-renewalCh: if err := c.renew(renewalReq); err != nil { c.logger.Printf("[ERR] client.vault: renewal of token failed: %v", err) } case <-c.updateCh: continue case <-c.stopCh: c.logger.Printf("[DEBUG] client.vault: stopped") return } } } // StopRenewToken removes the item from the heap which represents the given // token. func (c *vaultClient) StopRenewToken(token string) error { return c.stopRenew(token) } // StopRenewLease removes the item from the heap which represents the given // lease identifier. func (c *vaultClient) StopRenewLease(leaseId string) error { return c.stopRenew(leaseId) } // stopRenew removes the given identifier from the heap and signals the renewal // loop to compute the next best candidate for renewal. func (c *vaultClient) stopRenew(id string) error { c.lock.Lock() defer c.lock.Unlock() if !c.isTracked(id) { return nil } if err := c.heap.Remove(id); err != nil { return fmt.Errorf("failed to remove heap entry: %v", err) } // Signal an update to the renewal loop. if c.running { select { case c.updateCh <- struct{}{}: default: } } return nil } // nextRenewal returns the root element of the min-heap, which represents the // next element to be renewed and the time at which the renewal needs to be // triggered. func (c *vaultClient) nextRenewal() (*vaultClientRenewalRequest, time.Time) { c.lock.RLock() defer c.lock.RUnlock() if c.heap.Length() == 0 { return nil, time.Time{} } // Fetches the root element in the min-heap nextEntry := c.heap.Peek() if nextEntry == nil { return nil, time.Time{} } return nextEntry.req, nextEntry.next } // Additional helper functions on top of interface methods // Length returns the number of elements in the heap func (h *vaultClientHeap) Length() int { return len(h.heap) } // Returns the root node of the min-heap func (h *vaultClientHeap) Peek() *vaultClientHeapEntry { if len(h.heap) == 0 { return nil } return h.heap[0] } // Push adds the secondary index and inserts an item into the heap func (h *vaultClientHeap) Push(req *vaultClientRenewalRequest, next time.Time) error { if req == nil { return fmt.Errorf("nil request") } if _, ok := h.heapMap[req.id]; ok { return fmt.Errorf("entry %v already exists", req.id) } heapEntry := &vaultClientHeapEntry{ req: req, next: next, } h.heapMap[req.id] = heapEntry heap.Push(&h.heap, heapEntry) return nil } // Update will modify the existing item in the heap with the new data and the // time, and fixes the heap. func (h *vaultClientHeap) Update(req *vaultClientRenewalRequest, next time.Time) error { if entry, ok := h.heapMap[req.id]; ok { entry.req = req entry.next = next heap.Fix(&h.heap, entry.index) return nil } return fmt.Errorf("heap doesn't contain %v", req.id) } // Remove will remove an identifier from the secondary index and deletes the // corresponding node from the heap. func (h *vaultClientHeap) Remove(id string) error { if entry, ok := h.heapMap[id]; ok { heap.Remove(&h.heap, entry.index) delete(h.heapMap, id) return nil } return fmt.Errorf("heap doesn't contain entry for %v", id) } // The heap interface requires the following methods to be implemented. // * Push(x interface{}) // add x as element Len() // * Pop() interface{} // remove and return element Len() - 1. // * sort.Interface // // sort.Interface comprises of the following methods: // * Len() int // * Less(i, j int) bool // * Swap(i, j int) // Part of sort.Interface func (h vaultDataHeapImp) Len() int { return len(h) } // Part of sort.Interface func (h vaultDataHeapImp) Less(i, j int) bool { // Two zero times should return false. // Otherwise, zero is "greater" than any other time. // (To sort it at the end of the list.) // Sort such that zero times are at the end of the list. iZero, jZero := h[i].next.IsZero(), h[j].next.IsZero() if iZero && jZero { return false } else if iZero { return false } else if jZero { return true } return h[i].next.Before(h[j].next) } // Part of sort.Interface func (h vaultDataHeapImp) Swap(i, j int) { h[i], h[j] = h[j], h[i] h[i].index = i h[j].index = j } // Part of heap.Interface func (h *vaultDataHeapImp) Push(x interface{}) { n := len(*h) entry := x.(*vaultClientHeapEntry) entry.index = n *h = append(*h, entry) } // Part of heap.Interface func (h *vaultDataHeapImp) Pop() interface{} { old := *h n := len(old) entry := old[n-1] entry.index = -1 // for safety *h = old[0 : n-1] return entry }