"os/signal"
"regexp"
"strings"
- "sync"
"syscall"
"time"
"github.com/coreos/go-systemd/daemon"
"github.com/ghodss/yaml"
"github.com/gorilla/mux"
+ lru "github.com/hashicorp/golang-lru"
log "github.com/sirupsen/logrus"
)
signal.Notify(term, syscall.SIGINT)
// Start serving requests.
- router = MakeRESTRouter(kc, time.Duration(keepclient.DefaultProxyRequestTimeout), cluster.ManagementToken)
+ router, err = MakeRESTRouter(kc, time.Duration(keepclient.DefaultProxyRequestTimeout), cluster, logger)
+ if err != nil {
+ return err
+ }
return http.Serve(listener, httpserver.AddRequestIDs(httpserver.LogRequests(router)))
}
+type TokenCacheEntry struct {
+ expire int64
+ user *arvados.User
+}
+
type APITokenCache struct {
- tokens map[string]int64
- lock sync.Mutex
+ tokens *lru.TwoQueueCache
expireTime int64
}
-// RememberToken caches the token and set an expire time. If we already have
-// an expire time on the token, it is not updated.
-func (cache *APITokenCache) RememberToken(token string) {
- cache.lock.Lock()
- defer cache.lock.Unlock()
-
+// RememberToken caches the token and set an expire time. If the
+// token is already in the cache, it is not updated.
+func (cache *APITokenCache) RememberToken(token string, user *arvados.User) {
now := time.Now().Unix()
- if cache.tokens[token] == 0 {
- cache.tokens[token] = now + cache.expireTime
+ _, ok := cache.tokens.Get(token)
+ if !ok {
+ cache.tokens.Add(token, TokenCacheEntry{
+ expire: now + cache.expireTime,
+ user: user,
+ })
}
}
// RecallToken checks if the cached token is known and still believed to be
// valid.
-func (cache *APITokenCache) RecallToken(token string) bool {
- cache.lock.Lock()
- defer cache.lock.Unlock()
+func (cache *APITokenCache) RecallToken(token string) (bool, *arvados.User) {
+ val, ok := cache.tokens.Get(token)
+ if !ok {
+ return false, nil
+ }
+ cacheEntry := val.(TokenCacheEntry)
now := time.Now().Unix()
- if cache.tokens[token] == 0 {
- // Unknown token
- return false
- } else if now < cache.tokens[token] {
+ if now < cacheEntry.expire {
// Token is known and still valid
- return true
+ return true, cacheEntry.user
} else {
// Token is expired
- cache.tokens[token] = 0
- return false
+ cache.tokens.Remove(token)
+ return false, nil
}
}
return req.RemoteAddr
}
-func CheckAuthorizationHeader(kc *keepclient.KeepClient, cache *APITokenCache, req *http.Request) (pass bool, tok string) {
+func (h *proxyHandler) CheckAuthorizationHeader(req *http.Request) (pass bool, tok string, user *arvados.User) {
parts := strings.SplitN(req.Header.Get("Authorization"), " ", 2)
if len(parts) < 2 || !(parts[0] == "OAuth2" || parts[0] == "Bearer") || len(parts[1]) == 0 {
- return false, ""
+ return false, "", nil
}
tok = parts[1]
op = "write"
}
- if cache.RecallToken(op + ":" + tok) {
+ if ok, user := h.APITokenCache.RecallToken(op + ":" + tok); ok {
// Valid in the cache, short circuit
- return true, tok
+ return true, tok, user
}
var err error
- arv := *kc.Arvados
+ arv := *h.KeepClient.Arvados
arv.ApiToken = tok
arv.RequestID = req.Header.Get("X-Request-Id")
- if op == "read" {
- err = arv.Call("HEAD", "keep_services", "", "accessible", nil, nil)
- } else {
- err = arv.Call("HEAD", "users", "", "current", nil, nil)
+ user = &arvados.User{}
+ userCurrentError := arv.Call("GET", "users", "", "current", nil, user)
+ err = userCurrentError
+ if err != nil && op == "read" {
+ apiError, ok := err.(arvadosclient.APIServerError)
+ if ok && apiError.HttpStatusCode == http.StatusForbidden {
+ // If it was a scoped "sharing" token it will
+ // return 403 instead of 401 for the current
+ // user check. If it is a download operation
+ // and they have permission to read the
+ // keep_services table, we can allow it.
+ err = arv.Call("HEAD", "keep_services", "", "accessible", nil, nil)
+ }
}
if err != nil {
log.Printf("%s: CheckAuthorizationHeader error: %v", GetRemoteAddress(req), err)
- return false, ""
+ return false, "", nil
+ }
+
+ if userCurrentError == nil && user.IsAdmin {
+ // checking userCurrentError is probably redundant,
+ // IsAdmin would be false anyway. But can't hurt.
+ if op == "read" && !h.cluster.Collections.KeepproxyPermission.Admin.Download {
+ return false, "", nil
+ }
+ if op == "write" && !h.cluster.Collections.KeepproxyPermission.Admin.Upload {
+ return false, "", nil
+ }
+ } else {
+ if op == "read" && !h.cluster.Collections.KeepproxyPermission.User.Download {
+ return false, "", nil
+ }
+ if op == "write" && !h.cluster.Collections.KeepproxyPermission.User.Upload {
+ return false, "", nil
+ }
}
// Success! Update cache
- cache.RememberToken(op + ":" + tok)
+ h.APITokenCache.RememberToken(op+":"+tok, user)
- return true, tok
+ return true, tok, user
}
// We need to make a private copy of the default http transport early
*APITokenCache
timeout time.Duration
transport *http.Transport
+ logger log.FieldLogger
+ cluster *arvados.Cluster
}
// MakeRESTRouter returns an http.Handler that passes GET and PUT
// requests to the appropriate handlers.
-func MakeRESTRouter(kc *keepclient.KeepClient, timeout time.Duration, mgmtToken string) http.Handler {
+func MakeRESTRouter(kc *keepclient.KeepClient, timeout time.Duration, cluster *arvados.Cluster, logger log.FieldLogger) (http.Handler, error) {
rest := mux.NewRouter()
transport := defaultTransport
transport.TLSClientConfig = arvadosclient.MakeTLSConfig(kc.Arvados.ApiInsecure)
transport.TLSHandshakeTimeout = keepclient.DefaultTLSHandshakeTimeout
+ cacheQ, err := lru.New2Q(500)
+ if err != nil {
+ return nil, fmt.Errorf("Error from lru.New2Q: %v", err)
+ }
+
h := &proxyHandler{
Handler: rest,
KeepClient: kc,
timeout: timeout,
transport: &transport,
APITokenCache: &APITokenCache{
- tokens: make(map[string]int64),
+ tokens: cacheQ,
expireTime: 300,
},
+ logger: logger,
+ cluster: cluster,
}
rest.HandleFunc(`/{locator:[0-9a-f]{32}\+.*}`, h.Get).Methods("GET", "HEAD")
rest.HandleFunc(`/`, h.Options).Methods("OPTIONS")
rest.Handle("/_health/{check}", &health.Handler{
- Token: mgmtToken,
+ Token: cluster.ManagementToken,
Prefix: "/_health/",
}).Methods("GET")
rest.NotFoundHandler = InvalidPathHandler{}
- return h
+ return h, nil
}
var errLoopDetected = errors.New("loop detected")
-func (*proxyHandler) checkLoop(resp http.ResponseWriter, req *http.Request) error {
+func (h *proxyHandler) checkLoop(resp http.ResponseWriter, req *http.Request) error {
if via := req.Header.Get("Via"); strings.Index(via, " "+viaAlias) >= 0 {
- log.Printf("proxy loop detected (request has Via: %q): perhaps keepproxy is misidentified by gateway config as an external client, or its keep_services record does not have service_type=proxy?", via)
+ h.logger.Printf("proxy loop detected (request has Via: %q): perhaps keepproxy is misidentified by gateway config as an external client, or its keep_services record does not have service_type=proxy?", via)
http.Error(resp, errLoopDetected.Error(), http.StatusInternalServerError)
return errLoopDetected
}
SetCorsHeaders(resp)
}
-var errBadAuthorizationHeader = errors.New("Missing or invalid Authorization header")
+var errBadAuthorizationHeader = errors.New("Missing or invalid Authorization header, or method not allowed")
var errContentLengthMismatch = errors.New("Actual length != expected content length")
var errMethodNotSupported = errors.New("Method not supported")
var pass bool
var tok string
- if pass, tok = CheckAuthorizationHeader(kc, h.APITokenCache, req); !pass {
+ var user *arvados.User
+ if pass, tok, user = h.CheckAuthorizationHeader(req); !pass {
status, err = http.StatusForbidden, errBadAuthorizationHeader
return
}
locator = removeHint.ReplaceAllString(locator, "$1")
+ if locator != "" {
+ parts := strings.SplitN(locator, "+", 3)
+ if len(parts) >= 2 {
+ logger := h.logger
+ if user != nil {
+ logger = logger.WithField("user_uuid", user.UUID).
+ WithField("user_full_name", user.FullName)
+ }
+ logger.WithField("locator", fmt.Sprintf("%s+%s", parts[0], parts[1])).Infof("Block download")
+ }
+ }
+
switch req.Method {
case "HEAD":
expectLength, proxiedURI, err = kc.Ask(locator)
var pass bool
var tok string
- if pass, tok = CheckAuthorizationHeader(kc, h.APITokenCache, req); !pass {
+ var user *arvados.User
+ if pass, tok, user = h.CheckAuthorizationHeader(req); !pass {
err = errBadAuthorizationHeader
status = http.StatusForbidden
return
locatorOut, wroteReplicas, err = kc.PutHR(locatorIn, req.Body, expectLength)
}
+ if locatorOut != "" {
+ parts := strings.SplitN(locatorOut, "+", 3)
+ if len(parts) >= 2 {
+ logger := h.logger
+ if user != nil {
+ logger = logger.WithField("user_uuid", user.UUID).
+ WithField("user_full_name", user.FullName)
+ }
+ logger.WithField("locator", fmt.Sprintf("%s+%s", parts[0], parts[1])).Infof("Block upload")
+ }
+ }
+
// Tell the client how many successful PUTs we accomplished
resp.Header().Set(keepclient.XKeepReplicasStored, fmt.Sprintf("%d", wroteReplicas))
}()
kc := h.makeKeepClient(req)
- ok, token := CheckAuthorizationHeader(kc, h.APITokenCache, req)
+ ok, token, _ := h.CheckAuthorizationHeader(req)
if !ok {
status, err = http.StatusForbidden, errBadAuthorizationHeader
return