// Copyright 2014 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package webdav import ( "container/heap" "errors" "strconv" "strings" "sync" "time" ) var ( // ErrConfirmationFailed is returned by a LockSystem's Confirm method. ErrConfirmationFailed = errors.New("webdav: confirmation failed") // ErrForbidden is returned by a LockSystem's Unlock method. ErrForbidden = errors.New("webdav: forbidden") // ErrLocked is returned by a LockSystem's Create, Refresh and Unlock methods. ErrLocked = errors.New("webdav: locked") // ErrNoSuchLock is returned by a LockSystem's Refresh and Unlock methods. ErrNoSuchLock = errors.New("webdav: no such lock") ) // Condition can match a WebDAV resource, based on a token or ETag. // Exactly one of Token and ETag should be non-empty. type Condition struct { Not bool Token string ETag string } // LockSystem manages access to a collection of named resources. The elements // in a lock name are separated by slash ('/', U+002F) characters, regardless // of host operating system convention. type LockSystem interface { // Confirm confirms that the caller can claim all of the locks specified by // the given conditions, and that holding the union of all of those locks // gives exclusive access to all of the named resources. Up to two resources // can be named. Empty names are ignored. // // Exactly one of release and err will be non-nil. If release is non-nil, // all of the requested locks are held until release is called. Calling // release does not unlock the lock, in the WebDAV UNLOCK sense, but once // Confirm has confirmed that a lock claim is valid, that lock cannot be // Confirmed again until it has been released. // // If Confirm returns ErrConfirmationFailed then the Handler will continue // to try any other set of locks presented (a WebDAV HTTP request can // present more than one set of locks). If it returns any other non-nil // error, the Handler will write a "500 Internal Server Error" HTTP status. Confirm(now time.Time, name0, name1 string, conditions ...Condition) (release func(), err error) // Create creates a lock with the given depth, duration, owner and root // (name). The depth will either be negative (meaning infinite) or zero. // // If Create returns ErrLocked then the Handler will write a "423 Locked" // HTTP status. If it returns any other non-nil error, the Handler will // write a "500 Internal Server Error" HTTP status. // // See http://www.webdav.org/specs/rfc4918.html#rfc.section.9.10.6 for // when to use each error. // // The token returned identifies the created lock. It should be an absolute // URI as defined by RFC 3986, Section 4.3. In particular, it should not // contain whitespace. Create(now time.Time, details LockDetails) (token string, err error) // Refresh refreshes the lock with the given token. // // If Refresh returns ErrLocked then the Handler will write a "423 Locked" // HTTP Status. If Refresh returns ErrNoSuchLock then the Handler will write // a "412 Precondition Failed" HTTP Status. If it returns any other non-nil // error, the Handler will write a "500 Internal Server Error" HTTP status. // // See http://www.webdav.org/specs/rfc4918.html#rfc.section.9.10.6 for // when to use each error. Refresh(now time.Time, token string, duration time.Duration) (LockDetails, error) // Unlock unlocks the lock with the given token. // // If Unlock returns ErrForbidden then the Handler will write a "403 // Forbidden" HTTP Status. If Unlock returns ErrLocked then the Handler // will write a "423 Locked" HTTP status. If Unlock returns ErrNoSuchLock // then the Handler will write a "409 Conflict" HTTP Status. If it returns // any other non-nil error, the Handler will write a "500 Internal Server // Error" HTTP status. // // See http://www.webdav.org/specs/rfc4918.html#rfc.section.9.11.1 for // when to use each error. Unlock(now time.Time, token string) error } // LockDetails are a lock's metadata. type LockDetails struct { // Root is the root resource name being locked. For a zero-depth lock, the // root is the only resource being locked. Root string // Duration is the lock timeout. A negative duration means infinite. Duration time.Duration // OwnerXML is the verbatim XML given in a LOCK HTTP request. // // TODO: does the "verbatim" nature play well with XML namespaces? // Does the OwnerXML field need to have more structure? See // https://codereview.appspot.com/175140043/#msg2 OwnerXML string // ZeroDepth is whether the lock has zero depth. If it does not have zero // depth, it has infinite depth. ZeroDepth bool } // NewMemLS returns a new in-memory LockSystem. func NewMemLS() LockSystem { return &memLS{ byName: make(map[string]*memLSNode), byToken: make(map[string]*memLSNode), gen: uint64(time.Now().Unix()), } } type memLS struct { mu sync.Mutex byName map[string]*memLSNode byToken map[string]*memLSNode gen uint64 // byExpiry only contains those nodes whose LockDetails have a finite // Duration and are yet to expire. byExpiry byExpiry } func (m *memLS) nextToken() string { m.gen++ return strconv.FormatUint(m.gen, 10) } func (m *memLS) collectExpiredNodes(now time.Time) { for len(m.byExpiry) > 0 { if now.Before(m.byExpiry[0].expiry) { break } m.remove(m.byExpiry[0]) } } func (m *memLS) Confirm(now time.Time, name0, name1 string, conditions ...Condition) (func(), error) { m.mu.Lock() defer m.mu.Unlock() m.collectExpiredNodes(now) var n0, n1 *memLSNode if name0 != "" { if n0 = m.lookup(slashClean(name0), conditions...); n0 == nil { return nil, ErrConfirmationFailed } } if name1 != "" { if n1 = m.lookup(slashClean(name1), conditions...); n1 == nil { return nil, ErrConfirmationFailed } } // Don't hold the same node twice. if n1 == n0 { n1 = nil } if n0 != nil { m.hold(n0) } if n1 != nil { m.hold(n1) } return func() { m.mu.Lock() defer m.mu.Unlock() if n1 != nil { m.unhold(n1) } if n0 != nil { m.unhold(n0) } }, nil } // lookup returns the node n that locks the named resource, provided that n // matches at least one of the given conditions and that lock isn't held by // another party. Otherwise, it returns nil. // // n may be a parent of the named resource, if n is an infinite depth lock. func (m *memLS) lookup(name string, conditions ...Condition) (n *memLSNode) { // TODO: support Condition.Not and Condition.ETag. for _, c := range conditions { n = m.byToken[c.Token] if n == nil || n.held { continue } if name == n.details.Root { return n } if n.details.ZeroDepth { continue } if n.details.Root == "/" || strings.HasPrefix(name, n.details.Root+"/") { return n } } return nil } func (m *memLS) hold(n *memLSNode) { if n.held { panic("webdav: memLS inconsistent held state") } n.held = true if n.details.Duration >= 0 && n.byExpiryIndex >= 0 { heap.Remove(&m.byExpiry, n.byExpiryIndex) } } func (m *memLS) unhold(n *memLSNode) { if !n.held { panic("webdav: memLS inconsistent held state") } n.held = false if n.details.Duration >= 0 { heap.Push(&m.byExpiry, n) } } func (m *memLS) Create(now time.Time, details LockDetails) (string, error) { m.mu.Lock() defer m.mu.Unlock() m.collectExpiredNodes(now) details.Root = slashClean(details.Root) if !m.canCreate(details.Root, details.ZeroDepth) { return "", ErrLocked } n := m.create(details.Root) n.token = m.nextToken() m.byToken[n.token] = n n.details = details if n.details.Duration >= 0 { n.expiry = now.Add(n.details.Duration) heap.Push(&m.byExpiry, n) } return n.token, nil } func (m *memLS) Refresh(now time.Time, token string, duration time.Duration) (LockDetails, error) { m.mu.Lock() defer m.mu.Unlock() m.collectExpiredNodes(now) n := m.byToken[token] if n == nil { return LockDetails{}, ErrNoSuchLock } if n.held { return LockDetails{}, ErrLocked } if n.byExpiryIndex >= 0 { heap.Remove(&m.byExpiry, n.byExpiryIndex) } n.details.Duration = duration if n.details.Duration >= 0 { n.expiry = now.Add(n.details.Duration) heap.Push(&m.byExpiry, n) } return n.details, nil } func (m *memLS) Unlock(now time.Time, token string) error { m.mu.Lock() defer m.mu.Unlock() m.collectExpiredNodes(now) n := m.byToken[token] if n == nil { return ErrNoSuchLock } if n.held { return ErrLocked } m.remove(n) return nil } func (m *memLS) canCreate(name string, zeroDepth bool) bool { return walkToRoot(name, func(name0 string, first bool) bool { n := m.byName[name0] if n == nil { return true } if first { if n.token != "" { // The target node is already locked. return false } if !zeroDepth { // The requested lock depth is infinite, and the fact that n exists // (n != nil) means that a descendent of the target node is locked. return false } } else if n.token != "" && !n.details.ZeroDepth { // An ancestor of the target node is locked with infinite depth. return false } return true }) } func (m *memLS) create(name string) (ret *memLSNode) { walkToRoot(name, func(name0 string, first bool) bool { n := m.byName[name0] if n == nil { n = &memLSNode{ details: LockDetails{ Root: name0, }, byExpiryIndex: -1, } m.byName[name0] = n } n.refCount++ if first { ret = n } return true }) return ret } func (m *memLS) remove(n *memLSNode) { delete(m.byToken, n.token) n.token = "" walkToRoot(n.details.Root, func(name0 string, first bool) bool { x := m.byName[name0] x.refCount-- if x.refCount == 0 { delete(m.byName, name0) } return true }) if n.byExpiryIndex >= 0 { heap.Remove(&m.byExpiry, n.byExpiryIndex) } } func walkToRoot(name string, f func(name0 string, first bool) bool) bool { for first := true; ; first = false { if !f(name, first) { return false } if name == "/" { break } name = name[:strings.LastIndex(name, "/")] if name == "" { name = "/" } } return true } type memLSNode struct { // details are the lock metadata. Even if this node's name is not explicitly locked, // details.Root will still equal the node's name. details LockDetails // token is the unique identifier for this node's lock. An empty token means that // this node is not explicitly locked. token string // refCount is the number of self-or-descendent nodes that are explicitly locked. refCount int // expiry is when this node's lock expires. expiry time.Time // byExpiryIndex is the index of this node in memLS.byExpiry. It is -1 // if this node does not expire, or has expired. byExpiryIndex int // held is whether this node's lock is actively held by a Confirm call. held bool } type byExpiry []*memLSNode func (b *byExpiry) Len() int { return len(*b) } func (b *byExpiry) Less(i, j int) bool { return (*b)[i].expiry.Before((*b)[j].expiry) } func (b *byExpiry) Swap(i, j int) { (*b)[i], (*b)[j] = (*b)[j], (*b)[i] (*b)[i].byExpiryIndex = i (*b)[j].byExpiryIndex = j } func (b *byExpiry) Push(x interface{}) { n := x.(*memLSNode) n.byExpiryIndex = len(*b) *b = append(*b, n) } func (b *byExpiry) Pop() interface{} { i := len(*b) - 1 n := (*b)[i] (*b)[i] = nil n.byExpiryIndex = -1 *b = (*b)[:i] return n } const infiniteTimeout = -1 // parseTimeout parses the Timeout HTTP header, as per section 10.7. If s is // empty, an infiniteTimeout is returned. func parseTimeout(s string) (time.Duration, error) { if s == "" { return infiniteTimeout, nil } if i := strings.IndexByte(s, ','); i >= 0 { s = s[:i] } s = strings.TrimSpace(s) if s == "Infinite" { return infiniteTimeout, nil } const pre = "Second-" if !strings.HasPrefix(s, pre) { return 0, errInvalidTimeout } s = s[len(pre):] if s == "" || s[0] < '0' || '9' < s[0] { return 0, errInvalidTimeout } n, err := strconv.ParseInt(s, 10, 64) if err != nil || 1<<32-1 < n { return 0, errInvalidTimeout } return time.Duration(n) * time.Second, nil }