From 04aeda21e0ad2f7e8dd2bad3328e6ce0ba38f6a9 Mon Sep 17 00:00:00 2001 From: Niall Sheridan Date: Fri, 29 Jul 2016 00:59:48 +0100 Subject: Support mongo datastores --- vendor/gopkg.in/mgo.v2/session.go | 4722 +++++++++++++++++++++++++++++++++++++ 1 file changed, 4722 insertions(+) create mode 100644 vendor/gopkg.in/mgo.v2/session.go (limited to 'vendor/gopkg.in/mgo.v2/session.go') diff --git a/vendor/gopkg.in/mgo.v2/session.go b/vendor/gopkg.in/mgo.v2/session.go new file mode 100644 index 0000000..a8ad115 --- /dev/null +++ b/vendor/gopkg.in/mgo.v2/session.go @@ -0,0 +1,4722 @@ +// mgo - MongoDB driver for Go +// +// Copyright (c) 2010-2012 - Gustavo Niemeyer +// +// All rights reserved. +// +// Redistribution and use in source and binary forms, with or without +// modification, are permitted provided that the following conditions are met: +// +// 1. Redistributions of source code must retain the above copyright notice, this +// list of conditions and the following disclaimer. +// 2. Redistributions in binary form must reproduce the above copyright notice, +// this list of conditions and the following disclaimer in the documentation +// and/or other materials provided with the distribution. +// +// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND +// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE +// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR +// ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES +// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND +// ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS +// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +package mgo + +import ( + "crypto/md5" + "encoding/hex" + "errors" + "fmt" + "math" + "net" + "net/url" + "reflect" + "sort" + "strconv" + "strings" + "sync" + "time" + + "gopkg.in/mgo.v2/bson" +) + +type Mode int + +const ( + // Relevant documentation on read preference modes: + // + // http://docs.mongodb.org/manual/reference/read-preference/ + // + Primary Mode = 2 // Default mode. All operations read from the current replica set primary. + PrimaryPreferred Mode = 3 // Read from the primary if available. Read from the secondary otherwise. + Secondary Mode = 4 // Read from one of the nearest secondary members of the replica set. + SecondaryPreferred Mode = 5 // Read from one of the nearest secondaries if available. Read from primary otherwise. + Nearest Mode = 6 // Read from one of the nearest members, irrespective of it being primary or secondary. + + // Read preference modes are specific to mgo: + Eventual Mode = 0 // Same as Nearest, but may change servers between reads. + Monotonic Mode = 1 // Same as SecondaryPreferred before first write. Same as Primary after first write. + Strong Mode = 2 // Same as Primary. +) + +// mgo.v3: Drop Strong mode, suffix all modes with "Mode". + +// When changing the Session type, check if newSession and copySession +// need to be updated too. + +// Session represents a communication session with the database. +// +// All Session methods are concurrency-safe and may be called from multiple +// goroutines. In all session modes but Eventual, using the session from +// multiple goroutines will cause them to share the same underlying socket. +// See the documentation on Session.SetMode for more details. +type Session struct { + m sync.RWMutex + cluster_ *mongoCluster + slaveSocket *mongoSocket + masterSocket *mongoSocket + slaveOk bool + consistency Mode + queryConfig query + safeOp *queryOp + syncTimeout time.Duration + sockTimeout time.Duration + defaultdb string + sourcedb string + dialCred *Credential + creds []Credential + poolLimit int + bypassValidation bool +} + +type Database struct { + Session *Session + Name string +} + +type Collection struct { + Database *Database + Name string // "collection" + FullName string // "db.collection" +} + +type Query struct { + m sync.Mutex + session *Session + query // Enables default settings in session. +} + +type query struct { + op queryOp + prefetch float64 + limit int32 +} + +type getLastError struct { + CmdName int "getLastError,omitempty" + W interface{} "w,omitempty" + WTimeout int "wtimeout,omitempty" + FSync bool "fsync,omitempty" + J bool "j,omitempty" +} + +type Iter struct { + m sync.Mutex + gotReply sync.Cond + session *Session + server *mongoServer + docData queue + err error + op getMoreOp + prefetch float64 + limit int32 + docsToReceive int + docsBeforeMore int + timeout time.Duration + timedout bool + findCmd bool +} + +var ( + ErrNotFound = errors.New("not found") + ErrCursor = errors.New("invalid cursor") +) + +const defaultPrefetch = 0.25 + +// Dial establishes a new session to the cluster identified by the given seed +// server(s). The session will enable communication with all of the servers in +// the cluster, so the seed servers are used only to find out about the cluster +// topology. +// +// Dial will timeout after 10 seconds if a server isn't reached. The returned +// session will timeout operations after one minute by default if servers +// aren't available. To customize the timeout, see DialWithTimeout, +// SetSyncTimeout, and SetSocketTimeout. +// +// This method is generally called just once for a given cluster. Further +// sessions to the same cluster are then established using the New or Copy +// methods on the obtained session. This will make them share the underlying +// cluster, and manage the pool of connections appropriately. +// +// Once the session is not useful anymore, Close must be called to release the +// resources appropriately. +// +// The seed servers must be provided in the following format: +// +// [mongodb://][user:pass@]host1[:port1][,host2[:port2],...][/database][?options] +// +// For example, it may be as simple as: +// +// localhost +// +// Or more involved like: +// +// mongodb://myuser:mypass@localhost:40001,otherhost:40001/mydb +// +// If the port number is not provided for a server, it defaults to 27017. +// +// The username and password provided in the URL will be used to authenticate +// into the database named after the slash at the end of the host names, or +// into the "admin" database if none is provided. The authentication information +// will persist in sessions obtained through the New method as well. +// +// The following connection options are supported after the question mark: +// +// connect=direct +// +// Disables the automatic replica set server discovery logic, and +// forces the use of servers provided only (even if secondaries). +// Note that to talk to a secondary the consistency requirements +// must be relaxed to Monotonic or Eventual via SetMode. +// +// +// connect=replicaSet +// +// Discover replica sets automatically. Default connection behavior. +// +// +// replicaSet= +// +// If specified will prevent the obtained session from communicating +// with any server which is not part of a replica set with the given name. +// The default is to communicate with any server specified or discovered +// via the servers contacted. +// +// +// authSource= +// +// Informs the database used to establish credentials and privileges +// with a MongoDB server. Defaults to the database name provided via +// the URL path, and "admin" if that's unset. +// +// +// authMechanism= +// +// Defines the protocol for credential negotiation. Defaults to "MONGODB-CR", +// which is the default username/password challenge-response mechanism. +// +// +// gssapiServiceName= +// +// Defines the service name to use when authenticating with the GSSAPI +// mechanism. Defaults to "mongodb". +// +// +// maxPoolSize= +// +// Defines the per-server socket pool limit. Defaults to 4096. +// See Session.SetPoolLimit for details. +// +// +// Relevant documentation: +// +// http://docs.mongodb.org/manual/reference/connection-string/ +// +func Dial(url string) (*Session, error) { + session, err := DialWithTimeout(url, 10*time.Second) + if err == nil { + session.SetSyncTimeout(1 * time.Minute) + session.SetSocketTimeout(1 * time.Minute) + } + return session, err +} + +// DialWithTimeout works like Dial, but uses timeout as the amount of time to +// wait for a server to respond when first connecting and also on follow up +// operations in the session. If timeout is zero, the call may block +// forever waiting for a connection to be made. +// +// See SetSyncTimeout for customizing the timeout for the session. +func DialWithTimeout(url string, timeout time.Duration) (*Session, error) { + info, err := ParseURL(url) + if err != nil { + return nil, err + } + info.Timeout = timeout + return DialWithInfo(info) +} + +// ParseURL parses a MongoDB URL as accepted by the Dial function and returns +// a value suitable for providing into DialWithInfo. +// +// See Dial for more details on the format of url. +func ParseURL(url string) (*DialInfo, error) { + uinfo, err := extractURL(url) + if err != nil { + return nil, err + } + direct := false + mechanism := "" + service := "" + source := "" + setName := "" + poolLimit := 0 + for k, v := range uinfo.options { + switch k { + case "authSource": + source = v + case "authMechanism": + mechanism = v + case "gssapiServiceName": + service = v + case "replicaSet": + setName = v + case "maxPoolSize": + poolLimit, err = strconv.Atoi(v) + if err != nil { + return nil, errors.New("bad value for maxPoolSize: " + v) + } + case "connect": + if v == "direct" { + direct = true + break + } + if v == "replicaSet" { + break + } + fallthrough + default: + return nil, errors.New("unsupported connection URL option: " + k + "=" + v) + } + } + info := DialInfo{ + Addrs: uinfo.addrs, + Direct: direct, + Database: uinfo.db, + Username: uinfo.user, + Password: uinfo.pass, + Mechanism: mechanism, + Service: service, + Source: source, + PoolLimit: poolLimit, + ReplicaSetName: setName, + } + return &info, nil +} + +// DialInfo holds options for establishing a session with a MongoDB cluster. +// To use a URL, see the Dial function. +type DialInfo struct { + // Addrs holds the addresses for the seed servers. + Addrs []string + + // Direct informs whether to establish connections only with the + // specified seed servers, or to obtain information for the whole + // cluster and establish connections with further servers too. + Direct bool + + // Timeout is the amount of time to wait for a server to respond when + // first connecting and on follow up operations in the session. If + // timeout is zero, the call may block forever waiting for a connection + // to be established. Timeout does not affect logic in DialServer. + Timeout time.Duration + + // FailFast will cause connection and query attempts to fail faster when + // the server is unavailable, instead of retrying until the configured + // timeout period. Note that an unavailable server may silently drop + // packets instead of rejecting them, in which case it's impossible to + // distinguish it from a slow server, so the timeout stays relevant. + FailFast bool + + // Database is the default database name used when the Session.DB method + // is called with an empty name, and is also used during the initial + // authentication if Source is unset. + Database string + + // ReplicaSetName, if specified, will prevent the obtained session from + // communicating with any server which is not part of a replica set + // with the given name. The default is to communicate with any server + // specified or discovered via the servers contacted. + ReplicaSetName string + + // Source is the database used to establish credentials and privileges + // with a MongoDB server. Defaults to the value of Database, if that is + // set, or "admin" otherwise. + Source string + + // Service defines the service name to use when authenticating with the GSSAPI + // mechanism. Defaults to "mongodb". + Service string + + // ServiceHost defines which hostname to use when authenticating + // with the GSSAPI mechanism. If not specified, defaults to the MongoDB + // server's address. + ServiceHost string + + // Mechanism defines the protocol for credential negotiation. + // Defaults to "MONGODB-CR". + Mechanism string + + // Username and Password inform the credentials for the initial authentication + // done on the database defined by the Source field. See Session.Login. + Username string + Password string + + // PoolLimit defines the per-server socket pool limit. Defaults to 4096. + // See Session.SetPoolLimit for details. + PoolLimit int + + // DialServer optionally specifies the dial function for establishing + // connections with the MongoDB servers. + DialServer func(addr *ServerAddr) (net.Conn, error) + + // WARNING: This field is obsolete. See DialServer above. + Dial func(addr net.Addr) (net.Conn, error) +} + +// mgo.v3: Drop DialInfo.Dial. + +// ServerAddr represents the address for establishing a connection to an +// individual MongoDB server. +type ServerAddr struct { + str string + tcp *net.TCPAddr +} + +// String returns the address that was provided for the server before resolution. +func (addr *ServerAddr) String() string { + return addr.str +} + +// TCPAddr returns the resolved TCP address for the server. +func (addr *ServerAddr) TCPAddr() *net.TCPAddr { + return addr.tcp +} + +// DialWithInfo establishes a new session to the cluster identified by info. +func DialWithInfo(info *DialInfo) (*Session, error) { + addrs := make([]string, len(info.Addrs)) + for i, addr := range info.Addrs { + p := strings.LastIndexAny(addr, "]:") + if p == -1 || addr[p] != ':' { + // XXX This is untested. The test suite doesn't use the standard port. + addr += ":27017" + } + addrs[i] = addr + } + cluster := newCluster(addrs, info.Direct, info.FailFast, dialer{info.Dial, info.DialServer}, info.ReplicaSetName) + session := newSession(Eventual, cluster, info.Timeout) + session.defaultdb = info.Database + if session.defaultdb == "" { + session.defaultdb = "test" + } + session.sourcedb = info.Source + if session.sourcedb == "" { + session.sourcedb = info.Database + if session.sourcedb == "" { + session.sourcedb = "admin" + } + } + if info.Username != "" { + source := session.sourcedb + if info.Source == "" && + (info.Mechanism == "GSSAPI" || info.Mechanism == "PLAIN" || info.Mechanism == "MONGODB-X509") { + source = "$external" + } + session.dialCred = &Credential{ + Username: info.Username, + Password: info.Password, + Mechanism: info.Mechanism, + Service: info.Service, + ServiceHost: info.ServiceHost, + Source: source, + } + session.creds = []Credential{*session.dialCred} + } + if info.PoolLimit > 0 { + session.poolLimit = info.PoolLimit + } + cluster.Release() + + // People get confused when we return a session that is not actually + // established to any servers yet (e.g. what if url was wrong). So, + // ping the server to ensure there's someone there, and abort if it + // fails. + if err := session.Ping(); err != nil { + session.Close() + return nil, err + } + session.SetMode(Strong, true) + return session, nil +} + +func isOptSep(c rune) bool { + return c == ';' || c == '&' +} + +type urlInfo struct { + addrs []string + user string + pass string + db string + options map[string]string +} + +func extractURL(s string) (*urlInfo, error) { + if strings.HasPrefix(s, "mongodb://") { + s = s[10:] + } + info := &urlInfo{options: make(map[string]string)} + if c := strings.Index(s, "?"); c != -1 { + for _, pair := range strings.FieldsFunc(s[c+1:], isOptSep) { + l := strings.SplitN(pair, "=", 2) + if len(l) != 2 || l[0] == "" || l[1] == "" { + return nil, errors.New("connection option must be key=value: " + pair) + } + info.options[l[0]] = l[1] + } + s = s[:c] + } + if c := strings.Index(s, "@"); c != -1 { + pair := strings.SplitN(s[:c], ":", 2) + if len(pair) > 2 || pair[0] == "" { + return nil, errors.New("credentials must be provided as user:pass@host") + } + var err error + info.user, err = url.QueryUnescape(pair[0]) + if err != nil { + return nil, fmt.Errorf("cannot unescape username in URL: %q", pair[0]) + } + if len(pair) > 1 { + info.pass, err = url.QueryUnescape(pair[1]) + if err != nil { + return nil, fmt.Errorf("cannot unescape password in URL") + } + } + s = s[c+1:] + } + if c := strings.Index(s, "/"); c != -1 { + info.db = s[c+1:] + s = s[:c] + } + info.addrs = strings.Split(s, ",") + return info, nil +} + +func newSession(consistency Mode, cluster *mongoCluster, timeout time.Duration) (session *Session) { + cluster.Acquire() + session = &Session{ + cluster_: cluster, + syncTimeout: timeout, + sockTimeout: timeout, + poolLimit: 4096, + } + debugf("New session %p on cluster %p", session, cluster) + session.SetMode(consistency, true) + session.SetSafe(&Safe{}) + session.queryConfig.prefetch = defaultPrefetch + return session +} + +func copySession(session *Session, keepCreds bool) (s *Session) { + cluster := session.cluster() + cluster.Acquire() + if session.masterSocket != nil { + session.masterSocket.Acquire() + } + if session.slaveSocket != nil { + session.slaveSocket.Acquire() + } + var creds []Credential + if keepCreds { + creds = make([]Credential, len(session.creds)) + copy(creds, session.creds) + } else if session.dialCred != nil { + creds = []Credential{*session.dialCred} + } + scopy := *session + scopy.m = sync.RWMutex{} + scopy.creds = creds + s = &scopy + debugf("New session %p on cluster %p (copy from %p)", s, cluster, session) + return s +} + +// LiveServers returns a list of server addresses which are +// currently known to be alive. +func (s *Session) LiveServers() (addrs []string) { + s.m.RLock() + addrs = s.cluster().LiveServers() + s.m.RUnlock() + return addrs +} + +// DB returns a value representing the named database. If name +// is empty, the database name provided in the dialed URL is +// used instead. If that is also empty, "test" is used as a +// fallback in a way equivalent to the mongo shell. +// +// Creating this value is a very lightweight operation, and +// involves no network communication. +func (s *Session) DB(name string) *Database { + if name == "" { + name = s.defaultdb + } + return &Database{s, name} +} + +// C returns a value representing the named collection. +// +// Creating this value is a very lightweight operation, and +// involves no network communication. +func (db *Database) C(name string) *Collection { + return &Collection{db, name, db.Name + "." + name} +} + +// With returns a copy of db that uses session s. +func (db *Database) With(s *Session) *Database { + newdb := *db + newdb.Session = s + return &newdb +} + +// With returns a copy of c that uses session s. +func (c *Collection) With(s *Session) *Collection { + newdb := *c.Database + newdb.Session = s + newc := *c + newc.Database = &newdb + return &newc +} + +// GridFS returns a GridFS value representing collections in db that +// follow the standard GridFS specification. +// The provided prefix (sometimes known as root) will determine which +// collections to use, and is usually set to "fs" when there is a +// single GridFS in the database. +// +// See the GridFS Create, Open, and OpenId methods for more details. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/GridFS +// http://www.mongodb.org/display/DOCS/GridFS+Tools +// http://www.mongodb.org/display/DOCS/GridFS+Specification +// +func (db *Database) GridFS(prefix string) *GridFS { + return newGridFS(db, prefix) +} + +// Run issues the provided command on the db database and unmarshals +// its result in the respective argument. The cmd argument may be either +// a string with the command name itself, in which case an empty document of +// the form bson.M{cmd: 1} will be used, or it may be a full command document. +// +// Note that MongoDB considers the first marshalled key as the command +// name, so when providing a command with options, it's important to +// use an ordering-preserving document, such as a struct value or an +// instance of bson.D. For instance: +// +// db.Run(bson.D{{"create", "mycollection"}, {"size", 1024}}) +// +// For privilleged commands typically run on the "admin" database, see +// the Run method in the Session type. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Commands +// http://www.mongodb.org/display/DOCS/List+of+Database+CommandSkips +// +func (db *Database) Run(cmd interface{}, result interface{}) error { + socket, err := db.Session.acquireSocket(true) + if err != nil { + return err + } + defer socket.Release() + + // This is an optimized form of db.C("$cmd").Find(cmd).One(result). + return db.run(socket, cmd, result) +} + +// Credential holds details to authenticate with a MongoDB server. +type Credential struct { + // Username and Password hold the basic details for authentication. + // Password is optional with some authentication mechanisms. + Username string + Password string + + // Source is the database used to establish credentials and privileges + // with a MongoDB server. Defaults to the default database provided + // during dial, or "admin" if that was unset. + Source string + + // Service defines the service name to use when authenticating with the GSSAPI + // mechanism. Defaults to "mongodb". + Service string + + // ServiceHost defines which hostname to use when authenticating + // with the GSSAPI mechanism. If not specified, defaults to the MongoDB + // server's address. + ServiceHost string + + // Mechanism defines the protocol for credential negotiation. + // Defaults to "MONGODB-CR". + Mechanism string +} + +// Login authenticates with MongoDB using the provided credential. The +// authentication is valid for the whole session and will stay valid until +// Logout is explicitly called for the same database, or the session is +// closed. +func (db *Database) Login(user, pass string) error { + return db.Session.Login(&Credential{Username: user, Password: pass, Source: db.Name}) +} + +// Login authenticates with MongoDB using the provided credential. The +// authentication is valid for the whole session and will stay valid until +// Logout is explicitly called for the same database, or the session is +// closed. +func (s *Session) Login(cred *Credential) error { + socket, err := s.acquireSocket(true) + if err != nil { + return err + } + defer socket.Release() + + credCopy := *cred + if cred.Source == "" { + if cred.Mechanism == "GSSAPI" { + credCopy.Source = "$external" + } else { + credCopy.Source = s.sourcedb + } + } + err = socket.Login(credCopy) + if err != nil { + return err + } + + s.m.Lock() + s.creds = append(s.creds, credCopy) + s.m.Unlock() + return nil +} + +func (s *Session) socketLogin(socket *mongoSocket) error { + for _, cred := range s.creds { + if err := socket.Login(cred); err != nil { + return err + } + } + return nil +} + +// Logout removes any established authentication credentials for the database. +func (db *Database) Logout() { + session := db.Session + dbname := db.Name + session.m.Lock() + found := false + for i, cred := range session.creds { + if cred.Source == dbname { + copy(session.creds[i:], session.creds[i+1:]) + session.creds = session.creds[:len(session.creds)-1] + found = true + break + } + } + if found { + if session.masterSocket != nil { + session.masterSocket.Logout(dbname) + } + if session.slaveSocket != nil { + session.slaveSocket.Logout(dbname) + } + } + session.m.Unlock() +} + +// LogoutAll removes all established authentication credentials for the session. +func (s *Session) LogoutAll() { + s.m.Lock() + for _, cred := range s.creds { + if s.masterSocket != nil { + s.masterSocket.Logout(cred.Source) + } + if s.slaveSocket != nil { + s.slaveSocket.Logout(cred.Source) + } + } + s.creds = s.creds[0:0] + s.m.Unlock() +} + +// User represents a MongoDB user. +// +// Relevant documentation: +// +// http://docs.mongodb.org/manual/reference/privilege-documents/ +// http://docs.mongodb.org/manual/reference/user-privileges/ +// +type User struct { + // Username is how the user identifies itself to the system. + Username string `bson:"user"` + + // Password is the plaintext password for the user. If set, + // the UpsertUser method will hash it into PasswordHash and + // unset it before the user is added to the database. + Password string `bson:",omitempty"` + + // PasswordHash is the MD5 hash of Username+":mongo:"+Password. + PasswordHash string `bson:"pwd,omitempty"` + + // CustomData holds arbitrary data admins decide to associate + // with this user, such as the full name or employee id. + CustomData interface{} `bson:"customData,omitempty"` + + // Roles indicates the set of roles the user will be provided. + // See the Role constants. + Roles []Role `bson:"roles"` + + // OtherDBRoles allows assigning roles in other databases from + // user documents inserted in the admin database. This field + // only works in the admin database. + OtherDBRoles map[string][]Role `bson:"otherDBRoles,omitempty"` + + // UserSource indicates where to look for this user's credentials. + // It may be set to a database name, or to "$external" for + // consulting an external resource such as Kerberos. UserSource + // must not be set if Password or PasswordHash are present. + // + // WARNING: This setting was only ever supported in MongoDB 2.4, + // and is now obsolete. + UserSource string `bson:"userSource,omitempty"` +} + +type Role string + +const ( + // Relevant documentation: + // + // http://docs.mongodb.org/manual/reference/user-privileges/ + // + RoleRoot Role = "root" + RoleRead Role = "read" + RoleReadAny Role = "readAnyDatabase" + RoleReadWrite Role = "readWrite" + RoleReadWriteAny Role = "readWriteAnyDatabase" + RoleDBAdmin Role = "dbAdmin" + RoleDBAdminAny Role = "dbAdminAnyDatabase" + RoleUserAdmin Role = "userAdmin" + RoleUserAdminAny Role = "userAdminAnyDatabase" + RoleClusterAdmin Role = "clusterAdmin" +) + +// UpsertUser updates the authentication credentials and the roles for +// a MongoDB user within the db database. If the named user doesn't exist +// it will be created. +// +// This method should only be used from MongoDB 2.4 and on. For older +// MongoDB releases, use the obsolete AddUser method instead. +// +// Relevant documentation: +// +// http://docs.mongodb.org/manual/reference/user-privileges/ +// http://docs.mongodb.org/manual/reference/privilege-documents/ +// +func (db *Database) UpsertUser(user *User) error { + if user.Username == "" { + return fmt.Errorf("user has no Username") + } + if (user.Password != "" || user.PasswordHash != "") && user.UserSource != "" { + return fmt.Errorf("user has both Password/PasswordHash and UserSource set") + } + if len(user.OtherDBRoles) > 0 && db.Name != "admin" && db.Name != "$external" { + return fmt.Errorf("user with OtherDBRoles is only supported in the admin or $external databases") + } + + // Attempt to run this using 2.6+ commands. + rundb := db + if user.UserSource != "" { + // Compatibility logic for the userSource field of MongoDB <= 2.4.X + rundb = db.Session.DB(user.UserSource) + } + err := rundb.runUserCmd("updateUser", user) + // retry with createUser when isAuthError in order to enable the "localhost exception" + if isNotFound(err) || isAuthError(err) { + return rundb.runUserCmd("createUser", user) + } + if !isNoCmd(err) { + return err + } + + // Command does not exist. Fallback to pre-2.6 behavior. + var set, unset bson.D + if user.Password != "" { + psum := md5.New() + psum.Write([]byte(user.Username + ":mongo:" + user.Password)) + set = append(set, bson.DocElem{"pwd", hex.EncodeToString(psum.Sum(nil))}) + unset = append(unset, bson.DocElem{"userSource", 1}) + } else if user.PasswordHash != "" { + set = append(set, bson.DocElem{"pwd", user.PasswordHash}) + unset = append(unset, bson.DocElem{"userSource", 1}) + } + if user.UserSource != "" { + set = append(set, bson.DocElem{"userSource", user.UserSource}) + unset = append(unset, bson.DocElem{"pwd", 1}) + } + if user.Roles != nil || user.OtherDBRoles != nil { + set = append(set, bson.DocElem{"roles", user.Roles}) + if len(user.OtherDBRoles) > 0 { + set = append(set, bson.DocElem{"otherDBRoles", user.OtherDBRoles}) + } else { + unset = append(unset, bson.DocElem{"otherDBRoles", 1}) + } + } + users := db.C("system.users") + err = users.Update(bson.D{{"user", user.Username}}, bson.D{{"$unset", unset}, {"$set", set}}) + if err == ErrNotFound { + set = append(set, bson.DocElem{"user", user.Username}) + if user.Roles == nil && user.OtherDBRoles == nil { + // Roles must be sent, as it's the way MongoDB distinguishes + // old-style documents from new-style documents in pre-2.6. + set = append(set, bson.DocElem{"roles", user.Roles}) + } + err = users.Insert(set) + } + return err +} + +func isNoCmd(err error) bool { + e, ok := err.(*QueryError) + return ok && (e.Code == 59 || e.Code == 13390 || strings.HasPrefix(e.Message, "no such cmd:")) +} + +func isNotFound(err error) bool { + e, ok := err.(*QueryError) + return ok && e.Code == 11 +} + +func isAuthError(err error) bool { + e, ok := err.(*QueryError) + return ok && e.Code == 13 +} + +func (db *Database) runUserCmd(cmdName string, user *User) error { + cmd := make(bson.D, 0, 16) + cmd = append(cmd, bson.DocElem{cmdName, user.Username}) + if user.Password != "" { + cmd = append(cmd, bson.DocElem{"pwd", user.Password}) + } + var roles []interface{} + for _, role := range user.Roles { + roles = append(roles, role) + } + for db, dbroles := range user.OtherDBRoles { + for _, role := range dbroles { + roles = append(roles, bson.D{{"role", role}, {"db", db}}) + } + } + if roles != nil || user.Roles != nil || cmdName == "createUser" { + cmd = append(cmd, bson.DocElem{"roles", roles}) + } + err := db.Run(cmd, nil) + if !isNoCmd(err) && user.UserSource != "" && (user.UserSource != "$external" || db.Name != "$external") { + return fmt.Errorf("MongoDB 2.6+ does not support the UserSource setting") + } + return err +} + +// AddUser creates or updates the authentication credentials of user within +// the db database. +// +// WARNING: This method is obsolete and should only be used with MongoDB 2.2 +// or earlier. For MongoDB 2.4 and on, use UpsertUser instead. +func (db *Database) AddUser(username, password string, readOnly bool) error { + // Try to emulate the old behavior on 2.6+ + user := &User{Username: username, Password: password} + if db.Name == "admin" { + if readOnly { + user.Roles = []Role{RoleReadAny} + } else { + user.Roles = []Role{RoleReadWriteAny} + } + } else { + if readOnly { + user.Roles = []Role{RoleRead} + } else { + user.Roles = []Role{RoleReadWrite} + } + } + err := db.runUserCmd("updateUser", user) + if isNotFound(err) { + return db.runUserCmd("createUser", user) + } + if !isNoCmd(err) { + return err + } + + // Command doesn't exist. Fallback to pre-2.6 behavior. + psum := md5.New() + psum.Write([]byte(username + ":mongo:" + password)) + digest := hex.EncodeToString(psum.Sum(nil)) + c := db.C("system.users") + _, err = c.Upsert(bson.M{"user": username}, bson.M{"$set": bson.M{"user": username, "pwd": digest, "readOnly": readOnly}}) + return err +} + +// RemoveUser removes the authentication credentials of user from the database. +func (db *Database) RemoveUser(user string) error { + err := db.Run(bson.D{{"dropUser", user}}, nil) + if isNoCmd(err) { + users := db.C("system.users") + return users.Remove(bson.M{"user": user}) + } + if isNotFound(err) { + return ErrNotFound + } + return err +} + +type indexSpec struct { + Name, NS string + Key bson.D + Unique bool ",omitempty" + DropDups bool "dropDups,omitempty" + Background bool ",omitempty" + Sparse bool ",omitempty" + Bits int ",omitempty" + Min, Max float64 ",omitempty" + BucketSize float64 "bucketSize,omitempty" + ExpireAfter int "expireAfterSeconds,omitempty" + Weights bson.D ",omitempty" + DefaultLanguage string "default_language,omitempty" + LanguageOverride string "language_override,omitempty" + TextIndexVersion int "textIndexVersion,omitempty" +} + +type Index struct { + Key []string // Index key fields; prefix name with dash (-) for descending order + Unique bool // Prevent two documents from having the same index key + DropDups bool // Drop documents with the same index key as a previously indexed one + Background bool // Build index in background and return immediately + Sparse bool // Only index documents containing the Key fields + + // If ExpireAfter is defined the server will periodically delete + // documents with indexed time.Time older than the provided delta. + ExpireAfter time.Duration + + // Name holds the stored index name. On creation if this field is unset it is + // computed by EnsureIndex based on the index key. + Name string + + // Properties for spatial indexes. + // + // Min and Max were improperly typed as int when they should have been + // floats. To preserve backwards compatibility they are still typed as + // int and the following two fields enable reading and writing the same + // fields as float numbers. In mgo.v3, these fields will be dropped and + // Min/Max will become floats. + Min, Max int + Minf, Maxf float64 + BucketSize float64 + Bits int + + // Properties for text indexes. + DefaultLanguage string + LanguageOverride string + + // Weights defines the significance of provided fields relative to other + // fields in a text index. The score for a given word in a document is derived + // from the weighted sum of the frequency for each of the indexed fields in + // that document. The default field weight is 1. + Weights map[string]int +} + +// mgo.v3: Drop Minf and Maxf and transform Min and Max to floats. +// mgo.v3: Drop DropDups as it's unsupported past 2.8. + +type indexKeyInfo struct { + name string + key bson.D + weights bson.D +} + +func parseIndexKey(key []string) (*indexKeyInfo, error) { + var keyInfo indexKeyInfo + isText := false + var order interface{} + for _, field := range key { + raw := field + if keyInfo.name != "" { + keyInfo.name += "_" + } + var kind string + if field != "" { + if field[0] == '$' { + if c := strings.Index(field, ":"); c > 1 && c < len(field)-1 { + kind = field[1:c] + field = field[c+1:] + keyInfo.name += field + "_" + kind + } else { + field = "\x00" + } + } + switch field[0] { + case 0: + // Logic above failed. Reset and error. + field = "" + case '@': + order = "2d" + field = field[1:] + // The shell used to render this field as key_ instead of key_2d, + // and mgo followed suit. This has been fixed in recent server + // releases, and mgo followed as well. + keyInfo.name += field + "_2d" + case '-': + order = -1 + field = field[1:] + keyInfo.name += field + "_-1" + case '+': + field = field[1:] + fallthrough + default: + if kind == "" { + order = 1 + keyInfo.name += field + "_1" + } else { + order = kind + } + } + } + if field == "" || kind != "" && order != kind { + return nil, fmt.Errorf(`invalid index key: want "[$:][-]", got %q`, raw) + } + if kind == "text" { + if !isText { + keyInfo.key = append(keyInfo.key, bson.DocElem{"_fts", "text"}, bson.DocElem{"_ftsx", 1}) + isText = true + } + keyInfo.weights = append(keyInfo.weights, bson.DocElem{field, 1}) + } else { + keyInfo.key = append(keyInfo.key, bson.DocElem{field, order}) + } + } + if keyInfo.name == "" { + return nil, errors.New("invalid index key: no fields provided") + } + return &keyInfo, nil +} + +// EnsureIndexKey ensures an index with the given key exists, creating it +// if necessary. +// +// This example: +// +// err := collection.EnsureIndexKey("a", "b") +// +// Is equivalent to: +// +// err := collection.EnsureIndex(mgo.Index{Key: []string{"a", "b"}}) +// +// See the EnsureIndex method for more details. +func (c *Collection) EnsureIndexKey(key ...string) error { + return c.EnsureIndex(Index{Key: key}) +} + +// EnsureIndex ensures an index with the given key exists, creating it with +// the provided parameters if necessary. EnsureIndex does not modify a previously +// existent index with a matching key. The old index must be dropped first instead. +// +// Once EnsureIndex returns successfully, following requests for the same index +// will not contact the server unless Collection.DropIndex is used to drop the +// same index, or Session.ResetIndexCache is called. +// +// For example: +// +// index := Index{ +// Key: []string{"lastname", "firstname"}, +// Unique: true, +// DropDups: true, +// Background: true, // See notes. +// Sparse: true, +// } +// err := collection.EnsureIndex(index) +// +// The Key value determines which fields compose the index. The index ordering +// will be ascending by default. To obtain an index with a descending order, +// the field name should be prefixed by a dash (e.g. []string{"-time"}). It can +// also be optionally prefixed by an index kind, as in "$text:summary" or +// "$2d:-point". The key string format is: +// +// [$:][-] +// +// If the Unique field is true, the index must necessarily contain only a single +// document per Key. With DropDups set to true, documents with the same key +// as a previously indexed one will be dropped rather than an error returned. +// +// If Background is true, other connections will be allowed to proceed using +// the collection without the index while it's being built. Note that the +// session executing EnsureIndex will be blocked for as long as it takes for +// the index to be built. +// +// If Sparse is true, only documents containing the provided Key fields will be +// included in the index. When using a sparse index for sorting, only indexed +// documents will be returned. +// +// If ExpireAfter is non-zero, the server will periodically scan the collection +// and remove documents containing an indexed time.Time field with a value +// older than ExpireAfter. See the documentation for details: +// +// http://docs.mongodb.org/manual/tutorial/expire-data +// +// Other kinds of indexes are also supported through that API. Here is an example: +// +// index := Index{ +// Key: []string{"$2d:loc"}, +// Bits: 26, +// } +// err := collection.EnsureIndex(index) +// +// The example above requests the creation of a "2d" index for the "loc" field. +// +// The 2D index bounds may be changed using the Min and Max attributes of the +// Index value. The default bound setting of (-180, 180) is suitable for +// latitude/longitude pairs. +// +// The Bits parameter sets the precision of the 2D geohash values. If not +// provided, 26 bits are used, which is roughly equivalent to 1 foot of +// precision for the default (-180, 180) index bounds. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Indexes +// http://www.mongodb.org/display/DOCS/Indexing+Advice+and+FAQ +// http://www.mongodb.org/display/DOCS/Indexing+as+a+Background+Operation +// http://www.mongodb.org/display/DOCS/Geospatial+Indexing +// http://www.mongodb.org/display/DOCS/Multikeys +// +func (c *Collection) EnsureIndex(index Index) error { + keyInfo, err := parseIndexKey(index.Key) + if err != nil { + return err + } + + session := c.Database.Session + cacheKey := c.FullName + "\x00" + keyInfo.name + if session.cluster().HasCachedIndex(cacheKey) { + return nil + } + + spec := indexSpec{ + Name: keyInfo.name, + NS: c.FullName, + Key: keyInfo.key, + Unique: index.Unique, + DropDups: index.DropDups, + Background: index.Background, + Sparse: index.Sparse, + Bits: index.Bits, + Min: index.Minf, + Max: index.Maxf, + BucketSize: index.BucketSize, + ExpireAfter: int(index.ExpireAfter / time.Second), + Weights: keyInfo.weights, + DefaultLanguage: index.DefaultLanguage, + LanguageOverride: index.LanguageOverride, + } + + if spec.Min == 0 && spec.Max == 0 { + spec.Min = float64(index.Min) + spec.Max = float64(index.Max) + } + + if index.Name != "" { + spec.Name = index.Name + } + +NextField: + for name, weight := range index.Weights { + for i, elem := range spec.Weights { + if elem.Name == name { + spec.Weights[i].Value = weight + continue NextField + } + } + panic("weight provided for field that is not part of index key: " + name) + } + + cloned := session.Clone() + defer cloned.Close() + cloned.SetMode(Strong, false) + cloned.EnsureSafe(&Safe{}) + db := c.Database.With(cloned) + + // Try with a command first. + err = db.Run(bson.D{{"createIndexes", c.Name}, {"indexes", []indexSpec{spec}}}, nil) + if isNoCmd(err) { + // Command not yet supported. Insert into the indexes collection instead. + err = db.C("system.indexes").Insert(&spec) + } + if err == nil { + session.cluster().CacheIndex(cacheKey, true) + } + return err +} + +// DropIndex drops the index with the provided key from the c collection. +// +// See EnsureIndex for details on the accepted key variants. +// +// For example: +// +// err1 := collection.DropIndex("firstField", "-secondField") +// err2 := collection.DropIndex("customIndexName") +// +func (c *Collection) DropIndex(key ...string) error { + keyInfo, err := parseIndexKey(key) + if err != nil { + return err + } + + session := c.Database.Session + cacheKey := c.FullName + "\x00" + keyInfo.name + session.cluster().CacheIndex(cacheKey, false) + + session = session.Clone() + defer session.Close() + session.SetMode(Strong, false) + + db := c.Database.With(session) + result := struct { + ErrMsg string + Ok bool + }{} + err = db.Run(bson.D{{"dropIndexes", c.Name}, {"index", keyInfo.name}}, &result) + if err != nil { + return err + } + if !result.Ok { + return errors.New(result.ErrMsg) + } + return nil +} + +// DropIndexName removes the index with the provided index name. +// +// For example: +// +// err := collection.DropIndex("customIndexName") +// +func (c *Collection) DropIndexName(name string) error { + session := c.Database.Session + + session = session.Clone() + defer session.Close() + session.SetMode(Strong, false) + + c = c.With(session) + + indexes, err := c.Indexes() + if err != nil { + return err + } + + var index Index + for _, idx := range indexes { + if idx.Name == name { + index = idx + break + } + } + + if index.Name != "" { + keyInfo, err := parseIndexKey(index.Key) + if err != nil { + return err + } + + cacheKey := c.FullName + "\x00" + keyInfo.name + session.cluster().CacheIndex(cacheKey, false) + } + + result := struct { + ErrMsg string + Ok bool + }{} + err = c.Database.Run(bson.D{{"dropIndexes", c.Name}, {"index", name}}, &result) + if err != nil { + return err + } + if !result.Ok { + return errors.New(result.ErrMsg) + } + return nil +} + +// nonEventual returns a clone of session and ensures it is not Eventual. +// This guarantees that the server that is used for queries may be reused +// afterwards when a cursor is received. +func (session *Session) nonEventual() *Session { + cloned := session.Clone() + if cloned.consistency == Eventual { + cloned.SetMode(Monotonic, false) + } + return cloned +} + +// Indexes returns a list of all indexes for the collection. +// +// For example, this snippet would drop all available indexes: +// +// indexes, err := collection.Indexes() +// if err != nil { +// return err +// } +// for _, index := range indexes { +// err = collection.DropIndex(index.Key...) +// if err != nil { +// return err +// } +// } +// +// See the EnsureIndex method for more details on indexes. +func (c *Collection) Indexes() (indexes []Index, err error) { + cloned := c.Database.Session.nonEventual() + defer cloned.Close() + + batchSize := int(cloned.queryConfig.op.limit) + + // Try with a command. + var result struct { + Indexes []bson.Raw + Cursor cursorData + } + var iter *Iter + err = c.Database.With(cloned).Run(bson.D{{"listIndexes", c.Name}, {"cursor", bson.D{{"batchSize", batchSize}}}}, &result) + if err == nil { + firstBatch := result.Indexes + if firstBatch == nil { + firstBatch = result.Cursor.FirstBatch + } + ns := strings.SplitN(result.Cursor.NS, ".", 2) + if len(ns) < 2 { + iter = c.With(cloned).NewIter(nil, firstBatch, result.Cursor.Id, nil) + } else { + iter = cloned.DB(ns[0]).C(ns[1]).NewIter(nil, firstBatch, result.Cursor.Id, nil) + } + } else if isNoCmd(err) { + // Command not yet supported. Query the database instead. + iter = c.Database.C("system.indexes").Find(bson.M{"ns": c.FullName}).Iter() + } else { + return nil, err + } + + var spec indexSpec + for iter.Next(&spec) { + indexes = append(indexes, indexFromSpec(spec)) + } + if err = iter.Close(); err != nil { + return nil, err + } + sort.Sort(indexSlice(indexes)) + return indexes, nil +} + +func indexFromSpec(spec indexSpec) Index { + index := Index{ + Name: spec.Name, + Key: simpleIndexKey(spec.Key), + Unique: spec.Unique, + DropDups: spec.DropDups, + Background: spec.Background, + Sparse: spec.Sparse, + Minf: spec.Min, + Maxf: spec.Max, + Bits: spec.Bits, + BucketSize: spec.BucketSize, + DefaultLanguage: spec.DefaultLanguage, + LanguageOverride: spec.LanguageOverride, + ExpireAfter: time.Duration(spec.ExpireAfter) * time.Second, + } + if float64(int(spec.Min)) == spec.Min && float64(int(spec.Max)) == spec.Max { + index.Min = int(spec.Min) + index.Max = int(spec.Max) + } + if spec.TextIndexVersion > 0 { + index.Key = make([]string, len(spec.Weights)) + index.Weights = make(map[string]int) + for i, elem := range spec.Weights { + index.Key[i] = "$text:" + elem.Name + if w, ok := elem.Value.(int); ok { + index.Weights[elem.Name] = w + } + } + } + return index +} + +type indexSlice []Index + +func (idxs indexSlice) Len() int { return len(idxs) } +func (idxs indexSlice) Less(i, j int) bool { return idxs[i].Name < idxs[j].Name } +func (idxs indexSlice) Swap(i, j int) { idxs[i], idxs[j] = idxs[j], idxs[i] } + +func simpleIndexKey(realKey bson.D) (key []string) { + for i := range realKey { + field := realKey[i].Name + vi, ok := realKey[i].Value.(int) + if !ok { + vf, _ := realKey[i].Value.(float64) + vi = int(vf) + } + if vi == 1 { + key = append(key, field) + continue + } + if vi == -1 { + key = append(key, "-"+field) + continue + } + if vs, ok := realKey[i].Value.(string); ok { + key = append(key, "$"+vs+":"+field) + continue + } + panic("Got unknown index key type for field " + field) + } + return +} + +// ResetIndexCache() clears the cache of previously ensured indexes. +// Following requests to EnsureIndex will contact the server. +func (s *Session) ResetIndexCache() { + s.cluster().ResetIndexCache() +} + +// New creates a new session with the same parameters as the original +// session, including consistency, batch size, prefetching, safety mode, +// etc. The returned session will use sockets from the pool, so there's +// a chance that writes just performed in another session may not yet +// be visible. +// +// Login information from the original session will not be copied over +// into the new session unless it was provided through the initial URL +// for the Dial function. +// +// See the Copy and Clone methods. +// +func (s *Session) New() *Session { + s.m.Lock() + scopy := copySession(s, false) + s.m.Unlock() + scopy.Refresh() + return scopy +} + +// Copy works just like New, but preserves the exact authentication +// information from the original session. +func (s *Session) Copy() *Session { + s.m.Lock() + scopy := copySession(s, true) + s.m.Unlock() + scopy.Refresh() + return scopy +} + +// Clone works just like Copy, but also reuses the same socket as the original +// session, in case it had already reserved one due to its consistency +// guarantees. This behavior ensures that writes performed in the old session +// are necessarily observed when using the new session, as long as it was a +// strong or monotonic session. That said, it also means that long operations +// may cause other goroutines using the original session to wait. +func (s *Session) Clone() *Session { + s.m.Lock() + scopy := copySession(s, true) + s.m.Unlock() + return scopy +} + +// Close terminates the session. It's a runtime error to use a session +// after it has been closed. +func (s *Session) Close() { + s.m.Lock() + if s.cluster_ != nil { + debugf("Closing session %p", s) + s.unsetSocket() + s.cluster_.Release() + s.cluster_ = nil + } + s.m.Unlock() +} + +func (s *Session) cluster() *mongoCluster { + if s.cluster_ == nil { + panic("Session already closed") + } + return s.cluster_ +} + +// Refresh puts back any reserved sockets in use and restarts the consistency +// guarantees according to the current consistency setting for the session. +func (s *Session) Refresh() { + s.m.Lock() + s.slaveOk = s.consistency != Strong + s.unsetSocket() + s.m.Unlock() +} + +// SetMode changes the consistency mode for the session. +// +// In the Strong consistency mode reads and writes will always be made to +// the primary server using a unique connection so that reads and writes are +// fully consistent, ordered, and observing the most up-to-date data. +// This offers the least benefits in terms of distributing load, but the +// most guarantees. See also Monotonic and Eventual. +// +// In the Monotonic consistency mode reads may not be entirely up-to-date, +// but they will always see the history of changes moving forward, the data +// read will be consistent across sequential queries in the same session, +// and modifications made within the session will be observed in following +// queries (read-your-writes). +// +// In practice, the Monotonic mode is obtained by performing initial reads +// on a unique connection to an arbitrary secondary, if one is available, +// and once the first write happens, the session connection is switched over +// to the primary server. This manages to distribute some of the reading +// load with secondaries, while maintaining some useful guarantees. +// +// In the Eventual consistency mode reads will be made to any secondary in the +// cluster, if one is available, and sequential reads will not necessarily +// be made with the same connection. This means that data may be observed +// out of order. Writes will of course be issued to the primary, but +// independent writes in the same Eventual session may also be made with +// independent connections, so there are also no guarantees in terms of +// write ordering (no read-your-writes guarantees either). +// +// The Eventual mode is the fastest and most resource-friendly, but is +// also the one offering the least guarantees about ordering of the data +// read and written. +// +// If refresh is true, in addition to ensuring the session is in the given +// consistency mode, the consistency guarantees will also be reset (e.g. +// a Monotonic session will be allowed to read from secondaries again). +// This is equivalent to calling the Refresh function. +// +// Shifting between Monotonic and Strong modes will keep a previously +// reserved connection for the session unless refresh is true or the +// connection is unsuitable (to a secondary server in a Strong session). +func (s *Session) SetMode(consistency Mode, refresh bool) { + s.m.Lock() + debugf("Session %p: setting mode %d with refresh=%v (master=%p, slave=%p)", s, consistency, refresh, s.masterSocket, s.slaveSocket) + s.consistency = consistency + if refresh { + s.slaveOk = s.consistency != Strong + s.unsetSocket() + } else if s.consistency == Strong { + s.slaveOk = false + } else if s.masterSocket == nil { + s.slaveOk = true + } + s.m.Unlock() +} + +// Mode returns the current consistency mode for the session. +func (s *Session) Mode() Mode { + s.m.RLock() + mode := s.consistency + s.m.RUnlock() + return mode +} + +// SetSyncTimeout sets the amount of time an operation with this session +// will wait before returning an error in case a connection to a usable +// server can't be established. Set it to zero to wait forever. The +// default value is 7 seconds. +func (s *Session) SetSyncTimeout(d time.Duration) { + s.m.Lock() + s.syncTimeout = d + s.m.Unlock() +} + +// SetSocketTimeout sets the amount of time to wait for a non-responding +// socket to the database before it is forcefully closed. +func (s *Session) SetSocketTimeout(d time.Duration) { + s.m.Lock() + s.sockTimeout = d + if s.masterSocket != nil { + s.masterSocket.SetTimeout(d) + } + if s.slaveSocket != nil { + s.slaveSocket.SetTimeout(d) + } + s.m.Unlock() +} + +// SetCursorTimeout changes the standard timeout period that the server +// enforces on created cursors. The only supported value right now is +// 0, which disables the timeout. The standard server timeout is 10 minutes. +func (s *Session) SetCursorTimeout(d time.Duration) { + s.m.Lock() + if d == 0 { + s.queryConfig.op.flags |= flagNoCursorTimeout + } else { + panic("SetCursorTimeout: only 0 (disable timeout) supported for now") + } + s.m.Unlock() +} + +// SetPoolLimit sets the maximum number of sockets in use in a single server +// before this session will block waiting for a socket to be available. +// The default limit is 4096. +// +// This limit must be set to cover more than any expected workload of the +// application. It is a bad practice and an unsupported use case to use the +// database driver to define the concurrency limit of an application. Prevent +// such concurrency "at the door" instead, by properly restricting the amount +// of used resources and number of goroutines before they are created. +func (s *Session) SetPoolLimit(limit int) { + s.m.Lock() + s.poolLimit = limit + s.m.Unlock() +} + +// SetBypassValidation sets whether the server should bypass the registered +// validation expressions executed when documents are inserted or modified, +// in the interest of preserving invariants in the collection being modified. +// The default is to not bypass, and thus to perform the validation +// expressions registered for modified collections. +// +// Document validation was introuced in MongoDB 3.2. +// +// Relevant documentation: +// +// https://docs.mongodb.org/manual/release-notes/3.2/#bypass-validation +// +func (s *Session) SetBypassValidation(bypass bool) { + s.m.Lock() + s.bypassValidation = bypass + s.m.Unlock() +} + +// SetBatch sets the default batch size used when fetching documents from the +// database. It's possible to change this setting on a per-query basis as +// well, using the Query.Batch method. +// +// The default batch size is defined by the database itself. As of this +// writing, MongoDB will use an initial size of min(100 docs, 4MB) on the +// first batch, and 4MB on remaining ones. +func (s *Session) SetBatch(n int) { + if n == 1 { + // Server interprets 1 as -1 and closes the cursor (!?) + n = 2 + } + s.m.Lock() + s.queryConfig.op.limit = int32(n) + s.m.Unlock() +} + +// SetPrefetch sets the default point at which the next batch of results will be +// requested. When there are p*batch_size remaining documents cached in an +// Iter, the next batch will be requested in background. For instance, when +// using this: +// +// session.SetBatch(200) +// session.SetPrefetch(0.25) +// +// and there are only 50 documents cached in the Iter to be processed, the +// next batch of 200 will be requested. It's possible to change this setting on +// a per-query basis as well, using the Prefetch method of Query. +// +// The default prefetch value is 0.25. +func (s *Session) SetPrefetch(p float64) { + s.m.Lock() + s.queryConfig.prefetch = p + s.m.Unlock() +} + +// See SetSafe for details on the Safe type. +type Safe struct { + W int // Min # of servers to ack before success + WMode string // Write mode for MongoDB 2.0+ (e.g. "majority") + WTimeout int // Milliseconds to wait for W before timing out + FSync bool // Sync via the journal if present, or via data files sync otherwise + J bool // Sync via the journal if present +} + +// Safe returns the current safety mode for the session. +func (s *Session) Safe() (safe *Safe) { + s.m.Lock() + defer s.m.Unlock() + if s.safeOp != nil { + cmd := s.safeOp.query.(*getLastError) + safe = &Safe{WTimeout: cmd.WTimeout, FSync: cmd.FSync, J: cmd.J} + switch w := cmd.W.(type) { + case string: + safe.WMode = w + case int: + safe.W = w + } + } + return +} + +// SetSafe changes the session safety mode. +// +// If the safe parameter is nil, the session is put in unsafe mode, and writes +// become fire-and-forget, without error checking. The unsafe mode is faster +// since operations won't hold on waiting for a confirmation. +// +// If the safe parameter is not nil, any changing query (insert, update, ...) +// will be followed by a getLastError command with the specified parameters, +// to ensure the request was correctly processed. +// +// The safe.W parameter determines how many servers should confirm a write +// before the operation is considered successful. If set to 0 or 1, the +// command will return as soon as the primary is done with the request. +// If safe.WTimeout is greater than zero, it determines how many milliseconds +// to wait for the safe.W servers to respond before returning an error. +// +// Starting with MongoDB 2.0.0 the safe.WMode parameter can be used instead +// of W to request for richer semantics. If set to "majority" the server will +// wait for a majority of members from the replica set to respond before +// returning. Custom modes may also be defined within the server to create +// very detailed placement schemas. See the data awareness documentation in +// the links below for more details (note that MongoDB internally reuses the +// "w" field name for WMode). +// +// If safe.J is true, servers will block until write operations have been +// committed to the journal. Cannot be used in combination with FSync. Prior +// to MongoDB 2.6 this option was ignored if the server was running without +// journaling. Starting with MongoDB 2.6 write operations will fail with an +// exception if this option is used when the server is running without +// journaling. +// +// If safe.FSync is true and the server is running without journaling, blocks +// until the server has synced all data files to disk. If the server is running +// with journaling, this acts the same as the J option, blocking until write +// operations have been committed to the journal. Cannot be used in +// combination with J. +// +// Since MongoDB 2.0.0, the safe.J option can also be used instead of FSync +// to force the server to wait for a group commit in case journaling is +// enabled. The option has no effect if the server has journaling disabled. +// +// For example, the following statement will make the session check for +// errors, without imposing further constraints: +// +// session.SetSafe(&mgo.Safe{}) +// +// The following statement will force the server to wait for a majority of +// members of a replica set to return (MongoDB 2.0+ only): +// +// session.SetSafe(&mgo.Safe{WMode: "majority"}) +// +// The following statement, on the other hand, ensures that at least two +// servers have flushed the change to disk before confirming the success +// of operations: +// +// session.EnsureSafe(&mgo.Safe{W: 2, FSync: true}) +// +// The following statement, on the other hand, disables the verification +// of errors entirely: +// +// session.SetSafe(nil) +// +// See also the EnsureSafe method. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/getLastError+Command +// http://www.mongodb.org/display/DOCS/Verifying+Propagation+of+Writes+with+getLastError +// http://www.mongodb.org/display/DOCS/Data+Center+Awareness +// +func (s *Session) SetSafe(safe *Safe) { + s.m.Lock() + s.safeOp = nil + s.ensureSafe(safe) + s.m.Unlock() +} + +// EnsureSafe compares the provided safety parameters with the ones +// currently in use by the session and picks the most conservative +// choice for each setting. +// +// That is: +// +// - safe.WMode is always used if set. +// - safe.W is used if larger than the current W and WMode is empty. +// - safe.FSync is always used if true. +// - safe.J is used if FSync is false. +// - safe.WTimeout is used if set and smaller than the current WTimeout. +// +// For example, the following statement will ensure the session is +// at least checking for errors, without enforcing further constraints. +// If a more conservative SetSafe or EnsureSafe call was previously done, +// the following call will be ignored. +// +// session.EnsureSafe(&mgo.Safe{}) +// +// See also the SetSafe method for details on what each option means. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/getLastError+Command +// http://www.mongodb.org/display/DOCS/Verifying+Propagation+of+Writes+with+getLastError +// http://www.mongodb.org/display/DOCS/Data+Center+Awareness +// +func (s *Session) EnsureSafe(safe *Safe) { + s.m.Lock() + s.ensureSafe(safe) + s.m.Unlock() +} + +func (s *Session) ensureSafe(safe *Safe) { + if safe == nil { + return + } + + var w interface{} + if safe.WMode != "" { + w = safe.WMode + } else if safe.W > 0 { + w = safe.W + } + + var cmd getLastError + if s.safeOp == nil { + cmd = getLastError{1, w, safe.WTimeout, safe.FSync, safe.J} + } else { + // Copy. We don't want to mutate the existing query. + cmd = *(s.safeOp.query.(*getLastError)) + if cmd.W == nil { + cmd.W = w + } else if safe.WMode != "" { + cmd.W = safe.WMode + } else if i, ok := cmd.W.(int); ok && safe.W > i { + cmd.W = safe.W + } + if safe.WTimeout > 0 && safe.WTimeout < cmd.WTimeout { + cmd.WTimeout = safe.WTimeout + } + if safe.FSync { + cmd.FSync = true + cmd.J = false + } else if safe.J && !cmd.FSync { + cmd.J = true + } + } + s.safeOp = &queryOp{ + query: &cmd, + collection: "admin.$cmd", + limit: -1, + } +} + +// Run issues the provided command on the "admin" database and +// and unmarshals its result in the respective argument. The cmd +// argument may be either a string with the command name itself, in +// which case an empty document of the form bson.M{cmd: 1} will be used, +// or it may be a full command document. +// +// Note that MongoDB considers the first marshalled key as the command +// name, so when providing a command with options, it's important to +// use an ordering-preserving document, such as a struct value or an +// instance of bson.D. For instance: +// +// db.Run(bson.D{{"create", "mycollection"}, {"size", 1024}}) +// +// For commands on arbitrary databases, see the Run method in +// the Database type. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Commands +// http://www.mongodb.org/display/DOCS/List+of+Database+CommandSkips +// +func (s *Session) Run(cmd interface{}, result interface{}) error { + return s.DB("admin").Run(cmd, result) +} + +// SelectServers restricts communication to servers configured with the +// given tags. For example, the following statement restricts servers +// used for reading operations to those with both tag "disk" set to +// "ssd" and tag "rack" set to 1: +// +// session.SelectServers(bson.D{{"disk", "ssd"}, {"rack", 1}}) +// +// Multiple sets of tags may be provided, in which case the used server +// must match all tags within any one set. +// +// If a connection was previously assigned to the session due to the +// current session mode (see Session.SetMode), the tag selection will +// only be enforced after the session is refreshed. +// +// Relevant documentation: +// +// http://docs.mongodb.org/manual/tutorial/configure-replica-set-tag-sets +// +func (s *Session) SelectServers(tags ...bson.D) { + s.m.Lock() + s.queryConfig.op.serverTags = tags + s.m.Unlock() +} + +// Ping runs a trivial ping command just to get in touch with the server. +func (s *Session) Ping() error { + return s.Run("ping", nil) +} + +// Fsync flushes in-memory writes to disk on the server the session +// is established with. If async is true, the call returns immediately, +// otherwise it returns after the flush has been made. +func (s *Session) Fsync(async bool) error { + return s.Run(bson.D{{"fsync", 1}, {"async", async}}, nil) +} + +// FsyncLock locks all writes in the specific server the session is +// established with and returns. Any writes attempted to the server +// after it is successfully locked will block until FsyncUnlock is +// called for the same server. +// +// This method works on secondaries as well, preventing the oplog from +// being flushed while the server is locked, but since only the server +// connected to is locked, for locking specific secondaries it may be +// necessary to establish a connection directly to the secondary (see +// Dial's connect=direct option). +// +// As an important caveat, note that once a write is attempted and +// blocks, follow up reads will block as well due to the way the +// lock is internally implemented in the server. More details at: +// +// https://jira.mongodb.org/browse/SERVER-4243 +// +// FsyncLock is often used for performing consistent backups of +// the database files on disk. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/fsync+Command +// http://www.mongodb.org/display/DOCS/Backups +// +func (s *Session) FsyncLock() error { + return s.Run(bson.D{{"fsync", 1}, {"lock", true}}, nil) +} + +// FsyncUnlock releases the server for writes. See FsyncLock for details. +func (s *Session) FsyncUnlock() error { + err := s.Run(bson.D{{"fsyncUnlock", 1}}, nil) + if isNoCmd(err) { + err = s.DB("admin").C("$cmd.sys.unlock").Find(nil).One(nil) // WTF? + } + return err +} + +// Find prepares a query using the provided document. The document may be a +// map or a struct value capable of being marshalled with bson. The map +// may be a generic one using interface{} for its key and/or values, such as +// bson.M, or it may be a properly typed map. Providing nil as the document +// is equivalent to providing an empty document such as bson.M{}. +// +// Further details of the query may be tweaked using the resulting Query value, +// and then executed to retrieve results using methods such as One, For, +// Iter, or Tail. +// +// In case the resulting document includes a field named $err or errmsg, which +// are standard ways for MongoDB to return query errors, the returned err will +// be set to a *QueryError value including the Err message and the Code. In +// those cases, the result argument is still unmarshalled into with the +// received document so that any other custom values may be obtained if +// desired. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Querying +// http://www.mongodb.org/display/DOCS/Advanced+Queries +// +func (c *Collection) Find(query interface{}) *Query { + session := c.Database.Session + session.m.RLock() + q := &Query{session: session, query: session.queryConfig} + session.m.RUnlock() + q.op.query = query + q.op.collection = c.FullName + return q +} + +type repairCmd struct { + RepairCursor string `bson:"repairCursor"` + Cursor *repairCmdCursor ",omitempty" +} + +type repairCmdCursor struct { + BatchSize int `bson:"batchSize,omitempty"` +} + +// Repair returns an iterator that goes over all recovered documents in the +// collection, in a best-effort manner. This is most useful when there are +// damaged data files. Multiple copies of the same document may be returned +// by the iterator. +// +// Repair is supported in MongoDB 2.7.8 and later. +func (c *Collection) Repair() *Iter { + // Clone session and set it to Monotonic mode so that the server + // used for the query may be safely obtained afterwards, if + // necessary for iteration when a cursor is received. + session := c.Database.Session + cloned := session.nonEventual() + defer cloned.Close() + + batchSize := int(cloned.queryConfig.op.limit) + + var result struct{ Cursor cursorData } + + cmd := repairCmd{ + RepairCursor: c.Name, + Cursor: &repairCmdCursor{batchSize}, + } + + clonedc := c.With(cloned) + err := clonedc.Database.Run(cmd, &result) + return clonedc.NewIter(session, result.Cursor.FirstBatch, result.Cursor.Id, err) +} + +// FindId is a convenience helper equivalent to: +// +// query := collection.Find(bson.M{"_id": id}) +// +// See the Find method for more details. +func (c *Collection) FindId(id interface{}) *Query { + return c.Find(bson.D{{"_id", id}}) +} + +type Pipe struct { + session *Session + collection *Collection + pipeline interface{} + allowDisk bool + batchSize int +} + +type pipeCmd struct { + Aggregate string + Pipeline interface{} + Cursor *pipeCmdCursor ",omitempty" + Explain bool ",omitempty" + AllowDisk bool "allowDiskUse,omitempty" +} + +type pipeCmdCursor struct { + BatchSize int `bson:"batchSize,omitempty"` +} + +// Pipe prepares a pipeline to aggregate. The pipeline document +// must be a slice built in terms of the aggregation framework language. +// +// For example: +// +// pipe := collection.Pipe([]bson.M{{"$match": bson.M{"name": "Otavio"}}}) +// iter := pipe.Iter() +// +// Relevant documentation: +// +// http://docs.mongodb.org/manual/reference/aggregation +// http://docs.mongodb.org/manual/applications/aggregation +// http://docs.mongodb.org/manual/tutorial/aggregation-examples +// +func (c *Collection) Pipe(pipeline interface{}) *Pipe { + session := c.Database.Session + session.m.RLock() + batchSize := int(session.queryConfig.op.limit) + session.m.RUnlock() + return &Pipe{ + session: session, + collection: c, + pipeline: pipeline, + batchSize: batchSize, + } +} + +// Iter executes the pipeline and returns an iterator capable of going +// over all the generated results. +func (p *Pipe) Iter() *Iter { + // Clone session and set it to Monotonic mode so that the server + // used for the query may be safely obtained afterwards, if + // necessary for iteration when a cursor is received. + cloned := p.session.nonEventual() + defer cloned.Close() + c := p.collection.With(cloned) + + var result struct { + Result []bson.Raw // 2.4, no cursors. + Cursor cursorData // 2.6+, with cursors. + } + + cmd := pipeCmd{ + Aggregate: c.Name, + Pipeline: p.pipeline, + AllowDisk: p.allowDisk, + Cursor: &pipeCmdCursor{p.batchSize}, + } + err := c.Database.Run(cmd, &result) + if e, ok := err.(*QueryError); ok && e.Message == `unrecognized field "cursor` { + cmd.Cursor = nil + cmd.AllowDisk = false + err = c.Database.Run(cmd, &result) + } + firstBatch := result.Result + if firstBatch == nil { + firstBatch = result.Cursor.FirstBatch + } + return c.NewIter(p.session, firstBatch, result.Cursor.Id, err) +} + +// NewIter returns a newly created iterator with the provided parameters. +// Using this method is not recommended unless the desired functionality +// is not yet exposed via a more convenient interface (Find, Pipe, etc). +// +// The optional session parameter associates the lifetime of the returned +// iterator to an arbitrary session. If nil, the iterator will be bound to +// c's session. +// +// Documents in firstBatch will be individually provided by the returned +// iterator before documents from cursorId are made available. If cursorId +// is zero, only the documents in firstBatch are provided. +// +// If err is not nil, the iterator's Err method will report it after +// exhausting documents in firstBatch. +// +// NewIter must be called right after the cursor id is obtained, and must not +// be called on a collection in Eventual mode, because the cursor id is +// associated with the specific server that returned it. The provided session +// parameter may be in any mode or state, though. +// +func (c *Collection) NewIter(session *Session, firstBatch []bson.Raw, cursorId int64, err error) *Iter { + var server *mongoServer + csession := c.Database.Session + csession.m.RLock() + socket := csession.masterSocket + if socket == nil { + socket = csession.slaveSocket + } + if socket != nil { + server = socket.Server() + } + csession.m.RUnlock() + + if server == nil { + if csession.Mode() == Eventual { + panic("Collection.NewIter called in Eventual mode") + } + if err == nil { + err = errors.New("server not available") + } + } + + if session == nil { + session = csession + } + + iter := &Iter{ + session: session, + server: server, + timeout: -1, + err: err, + } + iter.gotReply.L = &iter.m + for _, doc := range firstBatch { + iter.docData.Push(doc.Data) + } + if cursorId != 0 { + iter.op.cursorId = cursorId + iter.op.collection = c.FullName + iter.op.replyFunc = iter.replyFunc() + } + return iter +} + +// All works like Iter.All. +func (p *Pipe) All(result interface{}) error { + return p.Iter().All(result) +} + +// One executes the pipeline and unmarshals the first item from the +// result set into the result parameter. +// It returns ErrNotFound if no items are generated by the pipeline. +func (p *Pipe) One(result interface{}) error { + iter := p.Iter() + if iter.Next(result) { + return nil + } + if err := iter.Err(); err != nil { + return err + } + return ErrNotFound +} + +// Explain returns a number of details about how the MongoDB server would +// execute the requested pipeline, such as the number of objects examined, +// the number of times the read lock was yielded to allow writes to go in, +// and so on. +// +// For example: +// +// var m bson.M +// err := collection.Pipe(pipeline).Explain(&m) +// if err == nil { +// fmt.Printf("Explain: %#v\n", m) +// } +// +func (p *Pipe) Explain(result interface{}) error { + c := p.collection + cmd := pipeCmd{ + Aggregate: c.Name, + Pipeline: p.pipeline, + AllowDisk: p.allowDisk, + Explain: true, + } + return c.Database.Run(cmd, result) +} + +// AllowDiskUse enables writing to the "/_tmp" server directory so +// that aggregation pipelines do not have to be held entirely in memory. +func (p *Pipe) AllowDiskUse() *Pipe { + p.allowDisk = true + return p +} + +// Batch sets the batch size used when fetching documents from the database. +// It's possible to change this setting on a per-session basis as well, using +// the Batch method of Session. +// +// The default batch size is defined by the database server. +func (p *Pipe) Batch(n int) *Pipe { + p.batchSize = n + return p +} + +// mgo.v3: Use a single user-visible error type. + +type LastError struct { + Err string + Code, N, Waited int + FSyncFiles int `bson:"fsyncFiles"` + WTimeout bool + UpdatedExisting bool `bson:"updatedExisting"` + UpsertedId interface{} `bson:"upserted"` + + modified int + ecases []BulkErrorCase +} + +func (err *LastError) Error() string { + return err.Err +} + +type queryError struct { + Err string "$err" + ErrMsg string + Assertion string + Code int + AssertionCode int "assertionCode" + LastError *LastError "lastErrorObject" +} + +type QueryError struct { + Code int + Message string + Assertion bool +} + +func (err *QueryError) Error() string { + return err.Message +} + +// IsDup returns whether err informs of a duplicate key error because +// a primary key index or a secondary unique index already has an entry +// with the given value. +func IsDup(err error) bool { + // Besides being handy, helps with MongoDB bugs SERVER-7164 and SERVER-11493. + // What follows makes me sad. Hopefully conventions will be more clear over time. + switch e := err.(type) { + case *LastError: + return e.Code == 11000 || e.Code == 11001 || e.Code == 12582 || e.Code == 16460 && strings.Contains(e.Err, " E11000 ") + case *QueryError: + return e.Code == 11000 || e.Code == 11001 || e.Code == 12582 + case *BulkError: + for _, ecase := range e.ecases { + if !IsDup(ecase.Err) { + return false + } + } + return true + } + return false +} + +// Insert inserts one or more documents in the respective collection. In +// case the session is in safe mode (see the SetSafe method) and an error +// happens while inserting the provided documents, the returned error will +// be of type *LastError. +func (c *Collection) Insert(docs ...interface{}) error { + _, err := c.writeOp(&insertOp{c.FullName, docs, 0}, true) + return err +} + +// Update finds a single document matching the provided selector document +// and modifies it according to the update document. +// If the session is in safe mode (see SetSafe) a ErrNotFound error is +// returned if a document isn't found, or a value of type *LastError +// when some other error is detected. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Updating +// http://www.mongodb.org/display/DOCS/Atomic+Operations +// +func (c *Collection) Update(selector interface{}, update interface{}) error { + if selector == nil { + selector = bson.D{} + } + op := updateOp{ + Collection: c.FullName, + Selector: selector, + Update: update, + } + lerr, err := c.writeOp(&op, true) + if err == nil && lerr != nil && !lerr.UpdatedExisting { + return ErrNotFound + } + return err +} + +// UpdateId is a convenience helper equivalent to: +// +// err := collection.Update(bson.M{"_id": id}, update) +// +// See the Update method for more details. +func (c *Collection) UpdateId(id interface{}, update interface{}) error { + return c.Update(bson.D{{"_id", id}}, update) +} + +// ChangeInfo holds details about the outcome of an update operation. +type ChangeInfo struct { + // Updated reports the number of existing documents modified. + // Due to server limitations, this reports the same value as the Matched field when + // talking to MongoDB <= 2.4 and on Upsert and Apply (findAndModify) operations. + Updated int + Removed int // Number of documents removed + Matched int // Number of documents matched but not necessarily changed + UpsertedId interface{} // Upserted _id field, when not explicitly provided +} + +// UpdateAll finds all documents matching the provided selector document +// and modifies them according to the update document. +// If the session is in safe mode (see SetSafe) details of the executed +// operation are returned in info or an error of type *LastError when +// some problem is detected. It is not an error for the update to not be +// applied on any documents because the selector doesn't match. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Updating +// http://www.mongodb.org/display/DOCS/Atomic+Operations +// +func (c *Collection) UpdateAll(selector interface{}, update interface{}) (info *ChangeInfo, err error) { + if selector == nil { + selector = bson.D{} + } + op := updateOp{ + Collection: c.FullName, + Selector: selector, + Update: update, + Flags: 2, + Multi: true, + } + lerr, err := c.writeOp(&op, true) + if err == nil && lerr != nil { + info = &ChangeInfo{Updated: lerr.modified, Matched: lerr.N} + } + return info, err +} + +// Upsert finds a single document matching the provided selector document +// and modifies it according to the update document. If no document matching +// the selector is found, the update document is applied to the selector +// document and the result is inserted in the collection. +// If the session is in safe mode (see SetSafe) details of the executed +// operation are returned in info, or an error of type *LastError when +// some problem is detected. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Updating +// http://www.mongodb.org/display/DOCS/Atomic+Operations +// +func (c *Collection) Upsert(selector interface{}, update interface{}) (info *ChangeInfo, err error) { + if selector == nil { + selector = bson.D{} + } + op := updateOp{ + Collection: c.FullName, + Selector: selector, + Update: update, + Flags: 1, + Upsert: true, + } + lerr, err := c.writeOp(&op, true) + if err == nil && lerr != nil { + info = &ChangeInfo{} + if lerr.UpdatedExisting { + info.Matched = lerr.N + info.Updated = lerr.modified + } else { + info.UpsertedId = lerr.UpsertedId + } + } + return info, err +} + +// UpsertId is a convenience helper equivalent to: +// +// info, err := collection.Upsert(bson.M{"_id": id}, update) +// +// See the Upsert method for more details. +func (c *Collection) UpsertId(id interface{}, update interface{}) (info *ChangeInfo, err error) { + return c.Upsert(bson.D{{"_id", id}}, update) +} + +// Remove finds a single document matching the provided selector document +// and removes it from the database. +// If the session is in safe mode (see SetSafe) a ErrNotFound error is +// returned if a document isn't found, or a value of type *LastError +// when some other error is detected. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Removing +// +func (c *Collection) Remove(selector interface{}) error { + if selector == nil { + selector = bson.D{} + } + lerr, err := c.writeOp(&deleteOp{c.FullName, selector, 1, 1}, true) + if err == nil && lerr != nil && lerr.N == 0 { + return ErrNotFound + } + return err +} + +// RemoveId is a convenience helper equivalent to: +// +// err := collection.Remove(bson.M{"_id": id}) +// +// See the Remove method for more details. +func (c *Collection) RemoveId(id interface{}) error { + return c.Remove(bson.D{{"_id", id}}) +} + +// RemoveAll finds all documents matching the provided selector document +// and removes them from the database. In case the session is in safe mode +// (see the SetSafe method) and an error happens when attempting the change, +// the returned error will be of type *LastError. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Removing +// +func (c *Collection) RemoveAll(selector interface{}) (info *ChangeInfo, err error) { + if selector == nil { + selector = bson.D{} + } + lerr, err := c.writeOp(&deleteOp{c.FullName, selector, 0, 0}, true) + if err == nil && lerr != nil { + info = &ChangeInfo{Removed: lerr.N, Matched: lerr.N} + } + return info, err +} + +// DropDatabase removes the entire database including all of its collections. +func (db *Database) DropDatabase() error { + return db.Run(bson.D{{"dropDatabase", 1}}, nil) +} + +// DropCollection removes the entire collection including all of its documents. +func (c *Collection) DropCollection() error { + return c.Database.Run(bson.D{{"drop", c.Name}}, nil) +} + +// The CollectionInfo type holds metadata about a collection. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/createCollection+Command +// http://www.mongodb.org/display/DOCS/Capped+Collections +// +type CollectionInfo struct { + // DisableIdIndex prevents the automatic creation of the index + // on the _id field for the collection. + DisableIdIndex bool + + // ForceIdIndex enforces the automatic creation of the index + // on the _id field for the collection. Capped collections, + // for example, do not have such an index by default. + ForceIdIndex bool + + // If Capped is true new documents will replace old ones when + // the collection is full. MaxBytes must necessarily be set + // to define the size when the collection wraps around. + // MaxDocs optionally defines the number of documents when it + // wraps, but MaxBytes still needs to be set. + Capped bool + MaxBytes int + MaxDocs int + + // Validator contains a validation expression that defines which + // documents should be considered valid for this collection. + Validator interface{} + + // ValidationLevel may be set to "strict" (the default) to force + // MongoDB to validate all documents on inserts and updates, to + // "moderate" to apply the validation rules only to documents + // that already fulfill the validation criteria, or to "off" for + // disabling validation entirely. + ValidationLevel string + + // ValidationAction determines how MongoDB handles documents that + // violate the validation rules. It may be set to "error" (the default) + // to reject inserts or updates that violate the rules, or to "warn" + // to log invalid operations but allow them to proceed. + ValidationAction string + + // StorageEngine allows specifying collection options for the + // storage engine in use. The map keys must hold the storage engine + // name for which options are being specified. + StorageEngine interface{} +} + +// Create explicitly creates the c collection with details of info. +// MongoDB creates collections automatically on use, so this method +// is only necessary when creating collection with non-default +// characteristics, such as capped collections. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/createCollection+Command +// http://www.mongodb.org/display/DOCS/Capped+Collections +// +func (c *Collection) Create(info *CollectionInfo) error { + cmd := make(bson.D, 0, 4) + cmd = append(cmd, bson.DocElem{"create", c.Name}) + if info.Capped { + if info.MaxBytes < 1 { + return fmt.Errorf("Collection.Create: with Capped, MaxBytes must also be set") + } + cmd = append(cmd, bson.DocElem{"capped", true}) + cmd = append(cmd, bson.DocElem{"size", info.MaxBytes}) + if info.MaxDocs > 0 { + cmd = append(cmd, bson.DocElem{"max", info.MaxDocs}) + } + } + if info.DisableIdIndex { + cmd = append(cmd, bson.DocElem{"autoIndexId", false}) + } + if info.ForceIdIndex { + cmd = append(cmd, bson.DocElem{"autoIndexId", true}) + } + if info.Validator != nil { + cmd = append(cmd, bson.DocElem{"validator", info.Validator}) + } + if info.ValidationLevel != "" { + cmd = append(cmd, bson.DocElem{"validationLevel", info.ValidationLevel}) + } + if info.ValidationAction != "" { + cmd = append(cmd, bson.DocElem{"validationAction", info.ValidationAction}) + } + if info.StorageEngine != nil { + cmd = append(cmd, bson.DocElem{"storageEngine", info.StorageEngine}) + } + return c.Database.Run(cmd, nil) +} + +// Batch sets the batch size used when fetching documents from the database. +// It's possible to change this setting on a per-session basis as well, using +// the Batch method of Session. + +// The default batch size is defined by the database itself. As of this +// writing, MongoDB will use an initial size of min(100 docs, 4MB) on the +// first batch, and 4MB on remaining ones. +func (q *Query) Batch(n int) *Query { + if n == 1 { + // Server interprets 1 as -1 and closes the cursor (!?) + n = 2 + } + q.m.Lock() + q.op.limit = int32(n) + q.m.Unlock() + return q +} + +// Prefetch sets the point at which the next batch of results will be requested. +// When there are p*batch_size remaining documents cached in an Iter, the next +// batch will be requested in background. For instance, when using this: +// +// query.Batch(200).Prefetch(0.25) +// +// and there are only 50 documents cached in the Iter to be processed, the +// next batch of 200 will be requested. It's possible to change this setting on +// a per-session basis as well, using the SetPrefetch method of Session. +// +// The default prefetch value is 0.25. +func (q *Query) Prefetch(p float64) *Query { + q.m.Lock() + q.prefetch = p + q.m.Unlock() + return q +} + +// Skip skips over the n initial documents from the query results. Note that +// this only makes sense with capped collections where documents are naturally +// ordered by insertion time, or with sorted results. +func (q *Query) Skip(n int) *Query { + q.m.Lock() + q.op.skip = int32(n) + q.m.Unlock() + return q +} + +// Limit restricts the maximum number of documents retrieved to n, and also +// changes the batch size to the same value. Once n documents have been +// returned by Next, the following call will return ErrNotFound. +func (q *Query) Limit(n int) *Query { + q.m.Lock() + switch { + case n == 1: + q.limit = 1 + q.op.limit = -1 + case n == math.MinInt32: // -MinInt32 == -MinInt32 + q.limit = math.MaxInt32 + q.op.limit = math.MinInt32 + 1 + case n < 0: + q.limit = int32(-n) + q.op.limit = int32(n) + default: + q.limit = int32(n) + q.op.limit = int32(n) + } + q.m.Unlock() + return q +} + +// Select enables selecting which fields should be retrieved for the results +// found. For example, the following query would only retrieve the name field: +// +// err := collection.Find(nil).Select(bson.M{"name": 1}).One(&result) +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Retrieving+a+Subset+of+Fields +// +func (q *Query) Select(selector interface{}) *Query { + q.m.Lock() + q.op.selector = selector + q.m.Unlock() + return q +} + +// Sort asks the database to order returned documents according to the +// provided field names. A field name may be prefixed by - (minus) for +// it to be sorted in reverse order. +// +// For example: +// +// query1 := collection.Find(nil).Sort("firstname", "lastname") +// query2 := collection.Find(nil).Sort("-age") +// query3 := collection.Find(nil).Sort("$natural") +// query4 := collection.Find(nil).Select(bson.M{"score": bson.M{"$meta": "textScore"}}).Sort("$textScore:score") +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Sorting+and+Natural+Order +// +func (q *Query) Sort(fields ...string) *Query { + q.m.Lock() + var order bson.D + for _, field := range fields { + n := 1 + var kind string + if field != "" { + if field[0] == '$' { + if c := strings.Index(field, ":"); c > 1 && c < len(field)-1 { + kind = field[1:c] + field = field[c+1:] + } + } + switch field[0] { + case '+': + field = field[1:] + case '-': + n = -1 + field = field[1:] + } + } + if field == "" { + panic("Sort: empty field name") + } + if kind == "textScore" { + order = append(order, bson.DocElem{field, bson.M{"$meta": kind}}) + } else { + order = append(order, bson.DocElem{field, n}) + } + } + q.op.options.OrderBy = order + q.op.hasOptions = true + q.m.Unlock() + return q +} + +// Explain returns a number of details about how the MongoDB server would +// execute the requested query, such as the number of objects examined, +// the number of times the read lock was yielded to allow writes to go in, +// and so on. +// +// For example: +// +// m := bson.M{} +// err := collection.Find(bson.M{"filename": name}).Explain(m) +// if err == nil { +// fmt.Printf("Explain: %#v\n", m) +// } +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Optimization +// http://www.mongodb.org/display/DOCS/Query+Optimizer +// +func (q *Query) Explain(result interface{}) error { + q.m.Lock() + clone := &Query{session: q.session, query: q.query} + q.m.Unlock() + clone.op.options.Explain = true + clone.op.hasOptions = true + if clone.op.limit > 0 { + clone.op.limit = -q.op.limit + } + iter := clone.Iter() + if iter.Next(result) { + return nil + } + return iter.Close() +} + +// TODO: Add Collection.Explain. See https://goo.gl/1MDlvz. + +// Hint will include an explicit "hint" in the query to force the server +// to use a specified index, potentially improving performance in some +// situations. The provided parameters are the fields that compose the +// key of the index to be used. For details on how the indexKey may be +// built, see the EnsureIndex method. +// +// For example: +// +// query := collection.Find(bson.M{"firstname": "Joe", "lastname": "Winter"}) +// query.Hint("lastname", "firstname") +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Optimization +// http://www.mongodb.org/display/DOCS/Query+Optimizer +// +func (q *Query) Hint(indexKey ...string) *Query { + q.m.Lock() + keyInfo, err := parseIndexKey(indexKey) + q.op.options.Hint = keyInfo.key + q.op.hasOptions = true + q.m.Unlock() + if err != nil { + panic(err) + } + return q +} + +// SetMaxScan constrains the query to stop after scanning the specified +// number of documents. +// +// This modifier is generally used to prevent potentially long running +// queries from disrupting performance by scanning through too much data. +func (q *Query) SetMaxScan(n int) *Query { + q.m.Lock() + q.op.options.MaxScan = n + q.op.hasOptions = true + q.m.Unlock() + return q +} + +// SetMaxTime constrains the query to stop after running for the specified time. +// +// When the time limit is reached MongoDB automatically cancels the query. +// This can be used to efficiently prevent and identify unexpectedly slow queries. +// +// A few important notes about the mechanism enforcing this limit: +// +// - Requests can block behind locking operations on the server, and that blocking +// time is not accounted for. In other words, the timer starts ticking only after +// the actual start of the query when it initially acquires the appropriate lock; +// +// - Operations are interrupted only at interrupt points where an operation can be +// safely aborted – the total execution time may exceed the specified value; +// +// - The limit can be applied to both CRUD operations and commands, but not all +// commands are interruptible; +// +// - While iterating over results, computing follow up batches is included in the +// total time and the iteration continues until the alloted time is over, but +// network roundtrips are not taken into account for the limit. +// +// - This limit does not override the inactive cursor timeout for idle cursors +// (default is 10 min). +// +// This mechanism was introduced in MongoDB 2.6. +// +// Relevant documentation: +// +// http://blog.mongodb.org/post/83621787773/maxtimems-and-query-optimizer-introspection-in +// +func (q *Query) SetMaxTime(d time.Duration) *Query { + q.m.Lock() + q.op.options.MaxTimeMS = int(d / time.Millisecond) + q.op.hasOptions = true + q.m.Unlock() + return q +} + +// Snapshot will force the performed query to make use of an available +// index on the _id field to prevent the same document from being returned +// more than once in a single iteration. This might happen without this +// setting in situations when the document changes in size and thus has to +// be moved while the iteration is running. +// +// Because snapshot mode traverses the _id index, it may not be used with +// sorting or explicit hints. It also cannot use any other index for the +// query. +// +// Even with snapshot mode, items inserted or deleted during the query may +// or may not be returned; that is, this mode is not a true point-in-time +// snapshot. +// +// The same effect of Snapshot may be obtained by using any unique index on +// field(s) that will not be modified (best to use Hint explicitly too). +// A non-unique index (such as creation time) may be made unique by +// appending _id to the index when creating it. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/How+to+do+Snapshotted+Queries+in+the+Mongo+Database +// +func (q *Query) Snapshot() *Query { + q.m.Lock() + q.op.options.Snapshot = true + q.op.hasOptions = true + q.m.Unlock() + return q +} + +// Comment adds a comment to the query to identify it in the database profiler output. +// +// Relevant documentation: +// +// http://docs.mongodb.org/manual/reference/operator/meta/comment +// http://docs.mongodb.org/manual/reference/command/profile +// http://docs.mongodb.org/manual/administration/analyzing-mongodb-performance/#database-profiling +// +func (q *Query) Comment(comment string) *Query { + q.m.Lock() + q.op.options.Comment = comment + q.op.hasOptions = true + q.m.Unlock() + return q +} + +// LogReplay enables an option that optimizes queries that are typically +// made on the MongoDB oplog for replaying it. This is an internal +// implementation aspect and most likely uninteresting for other uses. +// It has seen at least one use case, though, so it's exposed via the API. +func (q *Query) LogReplay() *Query { + q.m.Lock() + q.op.flags |= flagLogReplay + q.m.Unlock() + return q +} + +func checkQueryError(fullname string, d []byte) error { + l := len(d) + if l < 16 { + return nil + } + if d[5] == '$' && d[6] == 'e' && d[7] == 'r' && d[8] == 'r' && d[9] == '\x00' && d[4] == '\x02' { + goto Error + } + if len(fullname) < 5 || fullname[len(fullname)-5:] != ".$cmd" { + return nil + } + for i := 0; i+8 < l; i++ { + if d[i] == '\x02' && d[i+1] == 'e' && d[i+2] == 'r' && d[i+3] == 'r' && d[i+4] == 'm' && d[i+5] == 's' && d[i+6] == 'g' && d[i+7] == '\x00' { + goto Error + } + } + return nil + +Error: + result := &queryError{} + bson.Unmarshal(d, result) + if result.LastError != nil { + return result.LastError + } + if result.Err == "" && result.ErrMsg == "" { + return nil + } + if result.AssertionCode != 0 && result.Assertion != "" { + return &QueryError{Code: result.AssertionCode, Message: result.Assertion, Assertion: true} + } + if result.Err != "" { + return &QueryError{Code: result.Code, Message: result.Err} + } + return &QueryError{Code: result.Code, Message: result.ErrMsg} +} + +// One executes the query and unmarshals the first obtained document into the +// result argument. The result must be a struct or map value capable of being +// unmarshalled into by gobson. This function blocks until either a result +// is available or an error happens. For example: +// +// err := collection.Find(bson.M{"a": 1}).One(&result) +// +// In case the resulting document includes a field named $err or errmsg, which +// are standard ways for MongoDB to return query errors, the returned err will +// be set to a *QueryError value including the Err message and the Code. In +// those cases, the result argument is still unmarshalled into with the +// received document so that any other custom values may be obtained if +// desired. +// +func (q *Query) One(result interface{}) (err error) { + q.m.Lock() + session := q.session + op := q.op // Copy. + q.m.Unlock() + + socket, err := session.acquireSocket(true) + if err != nil { + return err + } + defer socket.Release() + + op.limit = -1 + + session.prepareQuery(&op) + + expectFindReply := prepareFindOp(socket, &op, 1) + + data, err := socket.SimpleQuery(&op) + if err != nil { + return err + } + if data == nil { + return ErrNotFound + } + if expectFindReply { + var findReply struct { + Ok bool + Code int + Errmsg string + Cursor cursorData + } + err = bson.Unmarshal(data, &findReply) + if err != nil { + return err + } + if !findReply.Ok && findReply.Errmsg != "" { + return &QueryError{Code: findReply.Code, Message: findReply.Errmsg} + } + if len(findReply.Cursor.FirstBatch) == 0 { + return ErrNotFound + } + data = findReply.Cursor.FirstBatch[0].Data + } + if result != nil { + err = bson.Unmarshal(data, result) + if err == nil { + debugf("Query %p document unmarshaled: %#v", q, result) + } else { + debugf("Query %p document unmarshaling failed: %#v", q, err) + return err + } + } + return checkQueryError(op.collection, data) +} + +// prepareFindOp translates op from being an old-style wire protocol query into +// a new-style find command if that's supported by the MongoDB server (3.2+). +// It returns whether to expect a find command result or not. Note op may be +// translated into an explain command, in which case the function returns false. +func prepareFindOp(socket *mongoSocket, op *queryOp, limit int32) bool { + if socket.ServerInfo().MaxWireVersion < 4 || op.collection == "admin.$cmd" { + return false + } + + nameDot := strings.Index(op.collection, ".") + if nameDot < 0 { + panic("invalid query collection name: " + op.collection) + } + + find := findCmd{ + Collection: op.collection[nameDot+1:], + Filter: op.query, + Projection: op.selector, + Sort: op.options.OrderBy, + Skip: op.skip, + Limit: limit, + MaxTimeMS: op.options.MaxTimeMS, + MaxScan: op.options.MaxScan, + Hint: op.options.Hint, + Comment: op.options.Comment, + Snapshot: op.options.Snapshot, + OplogReplay: op.flags&flagLogReplay != 0, + } + if op.limit < 0 { + find.BatchSize = -op.limit + find.SingleBatch = true + } else { + find.BatchSize = op.limit + } + + explain := op.options.Explain + + op.collection = op.collection[:nameDot] + ".$cmd" + op.query = &find + op.skip = 0 + op.limit = -1 + op.options = queryWrapper{} + op.hasOptions = false + + if explain { + op.query = bson.D{{"explain", op.query}} + return false + } + return true +} + +type cursorData struct { + FirstBatch []bson.Raw "firstBatch" + NextBatch []bson.Raw "nextBatch" + NS string + Id int64 +} + +// findCmd holds the command used for performing queries on MongoDB 3.2+. +// +// Relevant documentation: +// +// https://docs.mongodb.org/master/reference/command/find/#dbcmd.find +// +type findCmd struct { + Collection string `bson:"find"` + Filter interface{} `bson:"filter,omitempty"` + Sort interface{} `bson:"sort,omitempty"` + Projection interface{} `bson:"projection,omitempty"` + Hint interface{} `bson:"hint,omitempty"` + Skip interface{} `bson:"skip,omitempty"` + Limit int32 `bson:"limit,omitempty"` + BatchSize int32 `bson:"batchSize,omitempty"` + SingleBatch bool `bson:"singleBatch,omitempty"` + Comment string `bson:"comment,omitempty"` + MaxScan int `bson:"maxScan,omitempty"` + MaxTimeMS int `bson:"maxTimeMS,omitempty"` + ReadConcern interface{} `bson:"readConcern,omitempty"` + Max interface{} `bson:"max,omitempty"` + Min interface{} `bson:"min,omitempty"` + ReturnKey bool `bson:"returnKey,omitempty"` + ShowRecordId bool `bson:"showRecordId,omitempty"` + Snapshot bool `bson:"snapshot,omitempty"` + Tailable bool `bson:"tailable,omitempty"` + AwaitData bool `bson:"awaitData,omitempty"` + OplogReplay bool `bson:"oplogReplay,omitempty"` + NoCursorTimeout bool `bson:"noCursorTimeout,omitempty"` + AllowPartialResults bool `bson:"allowPartialResults,omitempty"` +} + +// getMoreCmd holds the command used for requesting more query results on MongoDB 3.2+. +// +// Relevant documentation: +// +// https://docs.mongodb.org/master/reference/command/getMore/#dbcmd.getMore +// +type getMoreCmd struct { + CursorId int64 `bson:"getMore"` + Collection string `bson:"collection"` + BatchSize int32 `bson:"batchSize,omitempty"` + MaxTimeMS int64 `bson:"maxTimeMS,omitempty"` +} + +// run duplicates the behavior of collection.Find(query).One(&result) +// as performed by Database.Run, specializing the logic for running +// database commands on a given socket. +func (db *Database) run(socket *mongoSocket, cmd, result interface{}) (err error) { + // Database.Run: + if name, ok := cmd.(string); ok { + cmd = bson.D{{name, 1}} + } + + // Collection.Find: + session := db.Session + session.m.RLock() + op := session.queryConfig.op // Copy. + session.m.RUnlock() + op.query = cmd + op.collection = db.Name + ".$cmd" + + // Query.One: + session.prepareQuery(&op) + op.limit = -1 + + data, err := socket.SimpleQuery(&op) + if err != nil { + return err + } + if data == nil { + return ErrNotFound + } + if result != nil { + err = bson.Unmarshal(data, result) + if err == nil { + var res bson.M + bson.Unmarshal(data, &res) + debugf("Run command unmarshaled: %#v, result: %#v", op, res) + } else { + debugf("Run command unmarshaling failed: %#v", op, err) + return err + } + } + return checkQueryError(op.collection, data) +} + +// The DBRef type implements support for the database reference MongoDB +// convention as supported by multiple drivers. This convention enables +// cross-referencing documents between collections and databases using +// a structure which includes a collection name, a document id, and +// optionally a database name. +// +// See the FindRef methods on Session and on Database. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Database+References +// +type DBRef struct { + Collection string `bson:"$ref"` + Id interface{} `bson:"$id"` + Database string `bson:"$db,omitempty"` +} + +// NOTE: Order of fields for DBRef above does matter, per documentation. + +// FindRef returns a query that looks for the document in the provided +// reference. If the reference includes the DB field, the document will +// be retrieved from the respective database. +// +// See also the DBRef type and the FindRef method on Session. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Database+References +// +func (db *Database) FindRef(ref *DBRef) *Query { + var c *Collection + if ref.Database == "" { + c = db.C(ref.Collection) + } else { + c = db.Session.DB(ref.Database).C(ref.Collection) + } + return c.FindId(ref.Id) +} + +// FindRef returns a query that looks for the document in the provided +// reference. For a DBRef to be resolved correctly at the session level +// it must necessarily have the optional DB field defined. +// +// See also the DBRef type and the FindRef method on Database. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Database+References +// +func (s *Session) FindRef(ref *DBRef) *Query { + if ref.Database == "" { + panic(errors.New(fmt.Sprintf("Can't resolve database for %#v", ref))) + } + c := s.DB(ref.Database).C(ref.Collection) + return c.FindId(ref.Id) +} + +// CollectionNames returns the collection names present in the db database. +func (db *Database) CollectionNames() (names []string, err error) { + // Clone session and set it to Monotonic mode so that the server + // used for the query may be safely obtained afterwards, if + // necessary for iteration when a cursor is received. + cloned := db.Session.nonEventual() + defer cloned.Close() + + batchSize := int(cloned.queryConfig.op.limit) + + // Try with a command. + var result struct { + Collections []bson.Raw + Cursor cursorData + } + err = db.With(cloned).Run(bson.D{{"listCollections", 1}, {"cursor", bson.D{{"batchSize", batchSize}}}}, &result) + if err == nil { + firstBatch := result.Collections + if firstBatch == nil { + firstBatch = result.Cursor.FirstBatch + } + var iter *Iter + ns := strings.SplitN(result.Cursor.NS, ".", 2) + if len(ns) < 2 { + iter = db.With(cloned).C("").NewIter(nil, firstBatch, result.Cursor.Id, nil) + } else { + iter = cloned.DB(ns[0]).C(ns[1]).NewIter(nil, firstBatch, result.Cursor.Id, nil) + } + var coll struct{ Name string } + for iter.Next(&coll) { + names = append(names, coll.Name) + } + if err := iter.Close(); err != nil { + return nil, err + } + sort.Strings(names) + return names, err + } + if err != nil && !isNoCmd(err) { + return nil, err + } + + // Command not yet supported. Query the database instead. + nameIndex := len(db.Name) + 1 + iter := db.C("system.namespaces").Find(nil).Iter() + var coll struct{ Name string } + for iter.Next(&coll) { + if strings.Index(coll.Name, "$") < 0 || strings.Index(coll.Name, ".oplog.$") >= 0 { + names = append(names, coll.Name[nameIndex:]) + } + } + if err := iter.Close(); err != nil { + return nil, err + } + sort.Strings(names) + return names, nil +} + +type dbNames struct { + Databases []struct { + Name string + Empty bool + } +} + +// DatabaseNames returns the names of non-empty databases present in the cluster. +func (s *Session) DatabaseNames() (names []string, err error) { + var result dbNames + err = s.Run("listDatabases", &result) + if err != nil { + return nil, err + } + for _, db := range result.Databases { + if !db.Empty { + names = append(names, db.Name) + } + } + sort.Strings(names) + return names, nil +} + +// Iter executes the query and returns an iterator capable of going over all +// the results. Results will be returned in batches of configurable +// size (see the Batch method) and more documents will be requested when a +// configurable number of documents is iterated over (see the Prefetch method). +func (q *Query) Iter() *Iter { + q.m.Lock() + session := q.session + op := q.op + prefetch := q.prefetch + limit := q.limit + q.m.Unlock() + + iter := &Iter{ + session: session, + prefetch: prefetch, + limit: limit, + timeout: -1, + } + iter.gotReply.L = &iter.m + iter.op.collection = op.collection + iter.op.limit = op.limit + iter.op.replyFunc = iter.replyFunc() + iter.docsToReceive++ + + socket, err := session.acquireSocket(true) + if err != nil { + iter.err = err + return iter + } + defer socket.Release() + + session.prepareQuery(&op) + op.replyFunc = iter.op.replyFunc + + if prepareFindOp(socket, &op, limit) { + iter.findCmd = true + } + + iter.server = socket.Server() + err = socket.Query(&op) + if err != nil { + // Must lock as the query is already out and it may call replyFunc. + iter.m.Lock() + iter.err = err + iter.m.Unlock() + } + + return iter +} + +// Tail returns a tailable iterator. Unlike a normal iterator, a +// tailable iterator may wait for new values to be inserted in the +// collection once the end of the current result set is reached, +// A tailable iterator may only be used with capped collections. +// +// The timeout parameter indicates how long Next will block waiting +// for a result before timing out. If set to -1, Next will not +// timeout, and will continue waiting for a result for as long as +// the cursor is valid and the session is not closed. If set to 0, +// Next times out as soon as it reaches the end of the result set. +// Otherwise, Next will wait for at least the given number of +// seconds for a new document to be available before timing out. +// +// On timeouts, Next will unblock and return false, and the Timeout +// method will return true if called. In these cases, Next may still +// be called again on the same iterator to check if a new value is +// available at the current cursor position, and again it will block +// according to the specified timeoutSecs. If the cursor becomes +// invalid, though, both Next and Timeout will return false and +// the query must be restarted. +// +// The following example demonstrates timeout handling and query +// restarting: +// +// iter := collection.Find(nil).Sort("$natural").Tail(5 * time.Second) +// for { +// for iter.Next(&result) { +// fmt.Println(result.Id) +// lastId = result.Id +// } +// if iter.Err() != nil { +// return iter.Close() +// } +// if iter.Timeout() { +// continue +// } +// query := collection.Find(bson.M{"_id": bson.M{"$gt": lastId}}) +// iter = query.Sort("$natural").Tail(5 * time.Second) +// } +// iter.Close() +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Tailable+Cursors +// http://www.mongodb.org/display/DOCS/Capped+Collections +// http://www.mongodb.org/display/DOCS/Sorting+and+Natural+Order +// +func (q *Query) Tail(timeout time.Duration) *Iter { + q.m.Lock() + session := q.session + op := q.op + prefetch := q.prefetch + q.m.Unlock() + + iter := &Iter{session: session, prefetch: prefetch} + iter.gotReply.L = &iter.m + iter.timeout = timeout + iter.op.collection = op.collection + iter.op.limit = op.limit + iter.op.replyFunc = iter.replyFunc() + iter.docsToReceive++ + session.prepareQuery(&op) + op.replyFunc = iter.op.replyFunc + op.flags |= flagTailable | flagAwaitData + + socket, err := session.acquireSocket(true) + if err != nil { + iter.err = err + } else { + iter.server = socket.Server() + err = socket.Query(&op) + if err != nil { + // Must lock as the query is already out and it may call replyFunc. + iter.m.Lock() + iter.err = err + iter.m.Unlock() + } + socket.Release() + } + return iter +} + +func (s *Session) prepareQuery(op *queryOp) { + s.m.RLock() + op.mode = s.consistency + if s.slaveOk { + op.flags |= flagSlaveOk + } + s.m.RUnlock() + return +} + +// Err returns nil if no errors happened during iteration, or the actual +// error otherwise. +// +// In case a resulting document included a field named $err or errmsg, which are +// standard ways for MongoDB to report an improper query, the returned value has +// a *QueryError type, and includes the Err message and the Code. +func (iter *Iter) Err() error { + iter.m.Lock() + err := iter.err + iter.m.Unlock() + if err == ErrNotFound { + return nil + } + return err +} + +// Close kills the server cursor used by the iterator, if any, and returns +// nil if no errors happened during iteration, or the actual error otherwise. +// +// Server cursors are automatically closed at the end of an iteration, which +// means close will do nothing unless the iteration was interrupted before +// the server finished sending results to the driver. If Close is not called +// in such a situation, the cursor will remain available at the server until +// the default cursor timeout period is reached. No further problems arise. +// +// Close is idempotent. That means it can be called repeatedly and will +// return the same result every time. +// +// In case a resulting document included a field named $err or errmsg, which are +// standard ways for MongoDB to report an improper query, the returned value has +// a *QueryError type. +func (iter *Iter) Close() error { + iter.m.Lock() + cursorId := iter.op.cursorId + iter.op.cursorId = 0 + err := iter.err + iter.m.Unlock() + if cursorId == 0 { + if err == ErrNotFound { + return nil + } + return err + } + socket, err := iter.acquireSocket() + if err == nil { + // TODO Batch kills. + err = socket.Query(&killCursorsOp{[]int64{cursorId}}) + socket.Release() + } + + iter.m.Lock() + if err != nil && (iter.err == nil || iter.err == ErrNotFound) { + iter.err = err + } else if iter.err != ErrNotFound { + err = iter.err + } + iter.m.Unlock() + return err +} + +// Timeout returns true if Next returned false due to a timeout of +// a tailable cursor. In those cases, Next may be called again to continue +// the iteration at the previous cursor position. +func (iter *Iter) Timeout() bool { + iter.m.Lock() + result := iter.timedout + iter.m.Unlock() + return result +} + +// Next retrieves the next document from the result set, blocking if necessary. +// This method will also automatically retrieve another batch of documents from +// the server when the current one is exhausted, or before that in background +// if pre-fetching is enabled (see the Query.Prefetch and Session.SetPrefetch +// methods). +// +// Next returns true if a document was successfully unmarshalled onto result, +// and false at the end of the result set or if an error happened. +// When Next returns false, the Err method should be called to verify if +// there was an error during iteration. +// +// For example: +// +// iter := collection.Find(nil).Iter() +// for iter.Next(&result) { +// fmt.Printf("Result: %v\n", result.Id) +// } +// if err := iter.Close(); err != nil { +// return err +// } +// +func (iter *Iter) Next(result interface{}) bool { + iter.m.Lock() + iter.timedout = false + timeout := time.Time{} + for iter.err == nil && iter.docData.Len() == 0 && (iter.docsToReceive > 0 || iter.op.cursorId != 0) { + if iter.docsToReceive == 0 { + if iter.timeout >= 0 { + if timeout.IsZero() { + timeout = time.Now().Add(iter.timeout) + } + if time.Now().After(timeout) { + iter.timedout = true + iter.m.Unlock() + return false + } + } + iter.getMore() + if iter.err != nil { + break + } + } + iter.gotReply.Wait() + } + + // Exhaust available data before reporting any errors. + if docData, ok := iter.docData.Pop().([]byte); ok { + close := false + if iter.limit > 0 { + iter.limit-- + if iter.limit == 0 { + if iter.docData.Len() > 0 { + iter.m.Unlock() + panic(fmt.Errorf("data remains after limit exhausted: %d", iter.docData.Len())) + } + iter.err = ErrNotFound + close = true + } + } + if iter.op.cursorId != 0 && iter.err == nil { + iter.docsBeforeMore-- + if iter.docsBeforeMore == -1 { + iter.getMore() + } + } + iter.m.Unlock() + + if close { + iter.Close() + } + err := bson.Unmarshal(docData, result) + if err != nil { + debugf("Iter %p document unmarshaling failed: %#v", iter, err) + iter.m.Lock() + if iter.err == nil { + iter.err = err + } + iter.m.Unlock() + return false + } + debugf("Iter %p document unmarshaled: %#v", iter, result) + // XXX Only have to check first document for a query error? + err = checkQueryError(iter.op.collection, docData) + if err != nil { + iter.m.Lock() + if iter.err == nil { + iter.err = err + } + iter.m.Unlock() + return false + } + return true + } else if iter.err != nil { + debugf("Iter %p returning false: %s", iter, iter.err) + iter.m.Unlock() + return false + } else if iter.op.cursorId == 0 { + iter.err = ErrNotFound + debugf("Iter %p exhausted with cursor=0", iter) + iter.m.Unlock() + return false + } + + panic("unreachable") +} + +// All retrieves all documents from the result set into the provided slice +// and closes the iterator. +// +// The result argument must necessarily be the address for a slice. The slice +// may be nil or previously allocated. +// +// WARNING: Obviously, All must not be used with result sets that may be +// potentially large, since it may consume all memory until the system +// crashes. Consider building the query with a Limit clause to ensure the +// result size is bounded. +// +// For instance: +// +// var result []struct{ Value int } +// iter := collection.Find(nil).Limit(100).Iter() +// err := iter.All(&result) +// if err != nil { +// return err +// } +// +func (iter *Iter) All(result interface{}) error { + resultv := reflect.ValueOf(result) + if resultv.Kind() != reflect.Ptr || resultv.Elem().Kind() != reflect.Slice { + panic("result argument must be a slice address") + } + slicev := resultv.Elem() + slicev = slicev.Slice(0, slicev.Cap()) + elemt := slicev.Type().Elem() + i := 0 + for { + if slicev.Len() == i { + elemp := reflect.New(elemt) + if !iter.Next(elemp.Interface()) { + break + } + slicev = reflect.Append(slicev, elemp.Elem()) + slicev = slicev.Slice(0, slicev.Cap()) + } else { + if !iter.Next(slicev.Index(i).Addr().Interface()) { + break + } + } + i++ + } + resultv.Elem().Set(slicev.Slice(0, i)) + return iter.Close() +} + +// All works like Iter.All. +func (q *Query) All(result interface{}) error { + return q.Iter().All(result) +} + +// The For method is obsolete and will be removed in a future release. +// See Iter as an elegant replacement. +func (q *Query) For(result interface{}, f func() error) error { + return q.Iter().For(result, f) +} + +// The For method is obsolete and will be removed in a future release. +// See Iter as an elegant replacement. +func (iter *Iter) For(result interface{}, f func() error) (err error) { + valid := false + v := reflect.ValueOf(result) + if v.Kind() == reflect.Ptr { + v = v.Elem() + switch v.Kind() { + case reflect.Map, reflect.Ptr, reflect.Interface, reflect.Slice: + valid = v.IsNil() + } + } + if !valid { + panic("For needs a pointer to nil reference value. See the documentation.") + } + zero := reflect.Zero(v.Type()) + for { + v.Set(zero) + if !iter.Next(result) { + break + } + err = f() + if err != nil { + return err + } + } + return iter.Err() +} + +// acquireSocket acquires a socket from the same server that the iterator +// cursor was obtained from. +// +// WARNING: This method must not be called with iter.m locked. Acquiring the +// socket depends on the cluster sync loop, and the cluster sync loop might +// attempt actions which cause replyFunc to be called, inducing a deadlock. +func (iter *Iter) acquireSocket() (*mongoSocket, error) { + socket, err := iter.session.acquireSocket(true) + if err != nil { + return nil, err + } + if socket.Server() != iter.server { + // Socket server changed during iteration. This may happen + // with Eventual sessions, if a Refresh is done, or if a + // monotonic session gets a write and shifts from secondary + // to primary. Our cursor is in a specific server, though. + iter.session.m.Lock() + sockTimeout := iter.session.sockTimeout + iter.session.m.Unlock() + socket.Release() + socket, _, err = iter.server.AcquireSocket(0, sockTimeout) + if err != nil { + return nil, err + } + err := iter.session.socketLogin(socket) + if err != nil { + socket.Release() + return nil, err + } + } + return socket, nil +} + +func (iter *Iter) getMore() { + // Increment now so that unlocking the iterator won't cause a + // different goroutine to get here as well. + iter.docsToReceive++ + iter.m.Unlock() + socket, err := iter.acquireSocket() + iter.m.Lock() + if err != nil { + iter.err = err + return + } + defer socket.Release() + + debugf("Iter %p requesting more documents", iter) + if iter.limit > 0 { + // The -1 below accounts for the fact docsToReceive was incremented above. + limit := iter.limit - int32(iter.docsToReceive-1) - int32(iter.docData.Len()) + if limit < iter.op.limit { + iter.op.limit = limit + } + } + var op interface{} + if iter.findCmd { + op = iter.getMoreCmd() + } else { + op = &iter.op + } + if err := socket.Query(op); err != nil { + iter.docsToReceive-- + iter.err = err + } +} + +func (iter *Iter) getMoreCmd() *queryOp { + // TODO: Define the query statically in the Iter type, next to getMoreOp. + nameDot := strings.Index(iter.op.collection, ".") + if nameDot < 0 { + panic("invalid query collection name: " + iter.op.collection) + } + + getMore := getMoreCmd{ + CursorId: iter.op.cursorId, + Collection: iter.op.collection[nameDot+1:], + BatchSize: iter.op.limit, + } + + var op queryOp + op.collection = iter.op.collection[:nameDot] + ".$cmd" + op.query = &getMore + op.limit = -1 + op.replyFunc = iter.op.replyFunc + return &op +} + +type countCmd struct { + Count string + Query interface{} + Limit int32 ",omitempty" + Skip int32 ",omitempty" +} + +// Count returns the total number of documents in the result set. +func (q *Query) Count() (n int, err error) { + q.m.Lock() + session := q.session + op := q.op + limit := q.limit + q.m.Unlock() + + c := strings.Index(op.collection, ".") + if c < 0 { + return 0, errors.New("Bad collection name: " + op.collection) + } + + dbname := op.collection[:c] + cname := op.collection[c+1:] + query := op.query + if query == nil { + query = bson.D{} + } + result := struct{ N int }{} + err = session.DB(dbname).Run(countCmd{cname, query, limit, op.skip}, &result) + return result.N, err +} + +// Count returns the total number of documents in the collection. +func (c *Collection) Count() (n int, err error) { + return c.Find(nil).Count() +} + +type distinctCmd struct { + Collection string "distinct" + Key string + Query interface{} ",omitempty" +} + +// Distinct unmarshals into result the list of distinct values for the given key. +// +// For example: +// +// var result []int +// err := collection.Find(bson.M{"gender": "F"}).Distinct("age", &result) +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/Aggregation +// +func (q *Query) Distinct(key string, result interface{}) error { + q.m.Lock() + session := q.session + op := q.op // Copy. + q.m.Unlock() + + c := strings.Index(op.collection, ".") + if c < 0 { + return errors.New("Bad collection name: " + op.collection) + } + + dbname := op.collection[:c] + cname := op.collection[c+1:] + + var doc struct{ Values bson.Raw } + err := session.DB(dbname).Run(distinctCmd{cname, key, op.query}, &doc) + if err != nil { + return err + } + return doc.Values.Unmarshal(result) +} + +type mapReduceCmd struct { + Collection string "mapreduce" + Map string ",omitempty" + Reduce string ",omitempty" + Finalize string ",omitempty" + Limit int32 ",omitempty" + Out interface{} + Query interface{} ",omitempty" + Sort interface{} ",omitempty" + Scope interface{} ",omitempty" + Verbose bool ",omitempty" +} + +type mapReduceResult struct { + Results bson.Raw + Result bson.Raw + TimeMillis int64 "timeMillis" + Counts struct{ Input, Emit, Output int } + Ok bool + Err string + Timing *MapReduceTime +} + +type MapReduce struct { + Map string // Map Javascript function code (required) + Reduce string // Reduce Javascript function code (required) + Finalize string // Finalize Javascript function code (optional) + Out interface{} // Output collection name or document. If nil, results are inlined into the result parameter. + Scope interface{} // Optional global scope for Javascript functions + Verbose bool +} + +type MapReduceInfo struct { + InputCount int // Number of documents mapped + EmitCount int // Number of times reduce called emit + OutputCount int // Number of documents in resulting collection + Database string // Output database, if results are not inlined + Collection string // Output collection, if results are not inlined + Time int64 // Time to run the job, in nanoseconds + VerboseTime *MapReduceTime // Only defined if Verbose was true +} + +type MapReduceTime struct { + Total int64 // Total time, in nanoseconds + Map int64 "mapTime" // Time within map function, in nanoseconds + EmitLoop int64 "emitLoop" // Time within the emit/map loop, in nanoseconds +} + +// MapReduce executes a map/reduce job for documents covered by the query. +// That kind of job is suitable for very flexible bulk aggregation of data +// performed at the server side via Javascript functions. +// +// Results from the job may be returned as a result of the query itself +// through the result parameter in case they'll certainly fit in memory +// and in a single document. If there's the possibility that the amount +// of data might be too large, results must be stored back in an alternative +// collection or even a separate database, by setting the Out field of the +// provided MapReduce job. In that case, provide nil as the result parameter. +// +// These are some of the ways to set Out: +// +// nil +// Inline results into the result parameter. +// +// bson.M{"replace": "mycollection"} +// The output will be inserted into a collection which replaces any +// existing collection with the same name. +// +// bson.M{"merge": "mycollection"} +// This option will merge new data into the old output collection. In +// other words, if the same key exists in both the result set and the +// old collection, the new key will overwrite the old one. +// +// bson.M{"reduce": "mycollection"} +// If documents exist for a given key in the result set and in the old +// collection, then a reduce operation (using the specified reduce +// function) will be performed on the two values and the result will be +// written to the output collection. If a finalize function was +// provided, this will be run after the reduce as well. +// +// bson.M{...., "db": "mydb"} +// Any of the above options can have the "db" key included for doing +// the respective action in a separate database. +// +// The following is a trivial example which will count the number of +// occurrences of a field named n on each document in a collection, and +// will return results inline: +// +// job := &mgo.MapReduce{ +// Map: "function() { emit(this.n, 1) }", +// Reduce: "function(key, values) { return Array.sum(values) }", +// } +// var result []struct { Id int "_id"; Value int } +// _, err := collection.Find(nil).MapReduce(job, &result) +// if err != nil { +// return err +// } +// for _, item := range result { +// fmt.Println(item.Value) +// } +// +// This function is compatible with MongoDB 1.7.4+. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/MapReduce +// +func (q *Query) MapReduce(job *MapReduce, result interface{}) (info *MapReduceInfo, err error) { + q.m.Lock() + session := q.session + op := q.op // Copy. + limit := q.limit + q.m.Unlock() + + c := strings.Index(op.collection, ".") + if c < 0 { + return nil, errors.New("Bad collection name: " + op.collection) + } + + dbname := op.collection[:c] + cname := op.collection[c+1:] + + cmd := mapReduceCmd{ + Collection: cname, + Map: job.Map, + Reduce: job.Reduce, + Finalize: job.Finalize, + Out: fixMROut(job.Out), + Scope: job.Scope, + Verbose: job.Verbose, + Query: op.query, + Sort: op.options.OrderBy, + Limit: limit, + } + + if cmd.Out == nil { + cmd.Out = bson.D{{"inline", 1}} + } + + var doc mapReduceResult + err = session.DB(dbname).Run(&cmd, &doc) + if err != nil { + return nil, err + } + if doc.Err != "" { + return nil, errors.New(doc.Err) + } + + info = &MapReduceInfo{ + InputCount: doc.Counts.Input, + EmitCount: doc.Counts.Emit, + OutputCount: doc.Counts.Output, + Time: doc.TimeMillis * 1e6, + } + + if doc.Result.Kind == 0x02 { + err = doc.Result.Unmarshal(&info.Collection) + info.Database = dbname + } else if doc.Result.Kind == 0x03 { + var v struct{ Collection, Db string } + err = doc.Result.Unmarshal(&v) + info.Collection = v.Collection + info.Database = v.Db + } + + if doc.Timing != nil { + info.VerboseTime = doc.Timing + info.VerboseTime.Total *= 1e6 + info.VerboseTime.Map *= 1e6 + info.VerboseTime.EmitLoop *= 1e6 + } + + if err != nil { + return nil, err + } + if result != nil { + return info, doc.Results.Unmarshal(result) + } + return info, nil +} + +// The "out" option in the MapReduce command must be ordered. This was +// found after the implementation was accepting maps for a long time, +// so rather than breaking the API, we'll fix the order if necessary. +// Details about the order requirement may be seen in MongoDB's code: +// +// http://goo.gl/L8jwJX +// +func fixMROut(out interface{}) interface{} { + outv := reflect.ValueOf(out) + if outv.Kind() != reflect.Map || outv.Type().Key() != reflect.TypeOf("") { + return out + } + outs := make(bson.D, outv.Len()) + + outTypeIndex := -1 + for i, k := range outv.MapKeys() { + ks := k.String() + outs[i].Name = ks + outs[i].Value = outv.MapIndex(k).Interface() + switch ks { + case "normal", "replace", "merge", "reduce", "inline": + outTypeIndex = i + } + } + if outTypeIndex > 0 { + outs[0], outs[outTypeIndex] = outs[outTypeIndex], outs[0] + } + return outs +} + +// Change holds fields for running a findAndModify MongoDB command via +// the Query.Apply method. +type Change struct { + Update interface{} // The update document + Upsert bool // Whether to insert in case the document isn't found + Remove bool // Whether to remove the document found rather than updating + ReturnNew bool // Should the modified document be returned rather than the old one +} + +type findModifyCmd struct { + Collection string "findAndModify" + Query, Update, Sort, Fields interface{} ",omitempty" + Upsert, Remove, New bool ",omitempty" +} + +type valueResult struct { + Value bson.Raw + LastError LastError "lastErrorObject" +} + +// Apply runs the findAndModify MongoDB command, which allows updating, upserting +// or removing a document matching a query and atomically returning either the old +// version (the default) or the new version of the document (when ReturnNew is true). +// If no objects are found Apply returns ErrNotFound. +// +// The Sort and Select query methods affect the result of Apply. In case +// multiple documents match the query, Sort enables selecting which document to +// act upon by ordering it first. Select enables retrieving only a selection +// of fields of the new or old document. +// +// This simple example increments a counter and prints its new value: +// +// change := mgo.Change{ +// Update: bson.M{"$inc": bson.M{"n": 1}}, +// ReturnNew: true, +// } +// info, err = col.Find(M{"_id": id}).Apply(change, &doc) +// fmt.Println(doc.N) +// +// This method depends on MongoDB >= 2.0 to work properly. +// +// Relevant documentation: +// +// http://www.mongodb.org/display/DOCS/findAndModify+Command +// http://www.mongodb.org/display/DOCS/Updating +// http://www.mongodb.org/display/DOCS/Atomic+Operations +// +func (q *Query) Apply(change Change, result interface{}) (info *ChangeInfo, err error) { + q.m.Lock() + session := q.session + op := q.op // Copy. + q.m.Unlock() + + c := strings.Index(op.collection, ".") + if c < 0 { + return nil, errors.New("bad collection name: " + op.collection) + } + + dbname := op.collection[:c] + cname := op.collection[c+1:] + + cmd := findModifyCmd{ + Collection: cname, + Update: change.Update, + Upsert: change.Upsert, + Remove: change.Remove, + New: change.ReturnNew, + Query: op.query, + Sort: op.options.OrderBy, + Fields: op.selector, + } + + session = session.Clone() + defer session.Close() + session.SetMode(Strong, false) + + var doc valueResult + err = session.DB(dbname).Run(&cmd, &doc) + if err != nil { + if qerr, ok := err.(*QueryError); ok && qerr.Message == "No matching object found" { + return nil, ErrNotFound + } + return nil, err + } + if doc.LastError.N == 0 { + return nil, ErrNotFound + } + if doc.Value.Kind != 0x0A && result != nil { + err = doc.Value.Unmarshal(result) + if err != nil { + return nil, err + } + } + info = &ChangeInfo{} + lerr := &doc.LastError + if lerr.UpdatedExisting { + info.Updated = lerr.N + info.Matched = lerr.N + } else if change.Remove { + info.Removed = lerr.N + info.Matched = lerr.N + } else if change.Upsert { + info.UpsertedId = lerr.UpsertedId + } + return info, nil +} + +// The BuildInfo type encapsulates details about the running MongoDB server. +// +// Note that the VersionArray field was introduced in MongoDB 2.0+, but it is +// internally assembled from the Version information for previous versions. +// In both cases, VersionArray is guaranteed to have at least 4 entries. +type BuildInfo struct { + Version string + VersionArray []int `bson:"versionArray"` // On MongoDB 2.0+; assembled from Version otherwise + GitVersion string `bson:"gitVersion"` + OpenSSLVersion string `bson:"OpenSSLVersion"` + SysInfo string `bson:"sysInfo"` // Deprecated and empty on MongoDB 3.2+. + Bits int + Debug bool + MaxObjectSize int `bson:"maxBsonObjectSize"` +} + +// VersionAtLeast returns whether the BuildInfo version is greater than or +// equal to the provided version number. If more than one number is +// provided, numbers will be considered as major, minor, and so on. +func (bi *BuildInfo) VersionAtLeast(version ...int) bool { + for i := range version { + if i == len(bi.VersionArray) { + return false + } + if bi.VersionArray[i] < version[i] { + return false + } + } + return true +} + +// BuildInfo retrieves the version and other details about the +// running MongoDB server. +func (s *Session) BuildInfo() (info BuildInfo, err error) { + err = s.Run(bson.D{{"buildInfo", "1"}}, &info) + if len(info.VersionArray) == 0 { + for _, a := range strings.Split(info.Version, ".") { + i, err := strconv.Atoi(a) + if err != nil { + break + } + info.VersionArray = append(info.VersionArray, i) + } + } + for len(info.VersionArray) < 4 { + info.VersionArray = append(info.VersionArray, 0) + } + if i := strings.IndexByte(info.GitVersion, ' '); i >= 0 { + // Strip off the " modules: enterprise" suffix. This is a _git version_. + // That information may be moved to another field if people need it. + info.GitVersion = info.GitVersion[:i] + } + if info.SysInfo == "deprecated" { + info.SysInfo = "" + } + return +} + +// --------------------------------------------------------------------------- +// Internal session handling helpers. + +func (s *Session) acquireSocket(slaveOk bool) (*mongoSocket, error) { + + // Read-only lock to check for previously reserved socket. + s.m.RLock() + // If there is a slave socket reserved and its use is acceptable, take it as long + // as there isn't a master socket which would be preferred by the read preference mode. + if s.slaveSocket != nil && s.slaveOk && slaveOk && (s.masterSocket == nil || s.consistency != PrimaryPreferred && s.consistency != Monotonic) { + socket := s.slaveSocket + socket.Acquire() + s.m.RUnlock() + return socket, nil + } + if s.masterSocket != nil { + socket := s.masterSocket + socket.Acquire() + s.m.RUnlock() + return socket, nil + } + s.m.RUnlock() + + // No go. We may have to request a new socket and change the session, + // so try again but with an exclusive lock now. + s.m.Lock() + defer s.m.Unlock() + + if s.slaveSocket != nil && s.slaveOk && slaveOk && (s.masterSocket == nil || s.consistency != PrimaryPreferred && s.consistency != Monotonic) { + s.slaveSocket.Acquire() + return s.slaveSocket, nil + } + if s.masterSocket != nil { + s.masterSocket.Acquire() + return s.masterSocket, nil + } + + // Still not good. We need a new socket. + sock, err := s.cluster().AcquireSocket(s.consistency, slaveOk && s.slaveOk, s.syncTimeout, s.sockTimeout, s.queryConfig.op.serverTags, s.poolLimit) + if err != nil { + return nil, err + } + + // Authenticate the new socket. + if err = s.socketLogin(sock); err != nil { + sock.Release() + return nil, err + } + + // Keep track of the new socket, if necessary. + // Note that, as a special case, if the Eventual session was + // not refreshed (s.slaveSocket != nil), it means the developer + // asked to preserve an existing reserved socket, so we'll + // keep a master one around too before a Refresh happens. + if s.consistency != Eventual || s.slaveSocket != nil { + s.setSocket(sock) + } + + // Switch over a Monotonic session to the master. + if !slaveOk && s.consistency == Monotonic { + s.slaveOk = false + } + + return sock, nil +} + +// setSocket binds socket to this section. +func (s *Session) setSocket(socket *mongoSocket) { + info := socket.Acquire() + if info.Master { + if s.masterSocket != nil { + panic("setSocket(master) with existing master socket reserved") + } + s.masterSocket = socket + } else { + if s.slaveSocket != nil { + panic("setSocket(slave) with existing slave socket reserved") + } + s.slaveSocket = socket + } +} + +// unsetSocket releases any slave and/or master sockets reserved. +func (s *Session) unsetSocket() { + if s.masterSocket != nil { + s.masterSocket.Release() + } + if s.slaveSocket != nil { + s.slaveSocket.Release() + } + s.masterSocket = nil + s.slaveSocket = nil +} + +func (iter *Iter) replyFunc() replyFunc { + return func(err error, op *replyOp, docNum int, docData []byte) { + iter.m.Lock() + iter.docsToReceive-- + if err != nil { + iter.err = err + debugf("Iter %p received an error: %s", iter, err.Error()) + } else if docNum == -1 { + debugf("Iter %p received no documents (cursor=%d).", iter, op.cursorId) + if op != nil && op.cursorId != 0 { + // It's a tailable cursor. + iter.op.cursorId = op.cursorId + } else if op != nil && op.cursorId == 0 && op.flags&1 == 1 { + // Cursor likely timed out. + iter.err = ErrCursor + } else { + iter.err = ErrNotFound + } + } else if iter.findCmd { + debugf("Iter %p received reply document %d/%d (cursor=%d)", iter, docNum+1, int(op.replyDocs), op.cursorId) + var findReply struct { + Ok bool + Code int + Errmsg string + Cursor cursorData + } + if err := bson.Unmarshal(docData, &findReply); err != nil { + iter.err = err + } else if !findReply.Ok && findReply.Errmsg != "" { + iter.err = &QueryError{Code: findReply.Code, Message: findReply.Errmsg} + } else if len(findReply.Cursor.FirstBatch) == 0 && len(findReply.Cursor.NextBatch) == 0 { + iter.err = ErrNotFound + } else { + batch := findReply.Cursor.FirstBatch + if len(batch) == 0 { + batch = findReply.Cursor.NextBatch + } + rdocs := len(batch) + for _, raw := range batch { + iter.docData.Push(raw.Data) + } + iter.docsToReceive = 0 + docsToProcess := iter.docData.Len() + if iter.limit == 0 || int32(docsToProcess) < iter.limit { + iter.docsBeforeMore = docsToProcess - int(iter.prefetch*float64(rdocs)) + } else { + iter.docsBeforeMore = -1 + } + iter.op.cursorId = findReply.Cursor.Id + } + } else { + rdocs := int(op.replyDocs) + if docNum == 0 { + iter.docsToReceive += rdocs - 1 + docsToProcess := iter.docData.Len() + rdocs + if iter.limit == 0 || int32(docsToProcess) < iter.limit { + iter.docsBeforeMore = docsToProcess - int(iter.prefetch*float64(rdocs)) + } else { + iter.docsBeforeMore = -1 + } + iter.op.cursorId = op.cursorId + } + debugf("Iter %p received reply document %d/%d (cursor=%d)", iter, docNum+1, rdocs, op.cursorId) + iter.docData.Push(docData) + } + iter.gotReply.Broadcast() + iter.m.Unlock() + } +} + +type writeCmdResult struct { + Ok bool + N int + NModified int `bson:"nModified"` + Upserted []struct { + Index int + Id interface{} `_id` + } + ConcernError writeConcernError `bson:"writeConcernError"` + Errors []writeCmdError `bson:"writeErrors"` +} + +type writeConcernError struct { + Code int + ErrMsg string +} + +type writeCmdError struct { + Index int + Code int + ErrMsg string +} + +func (r *writeCmdResult) BulkErrorCases() []BulkErrorCase { + ecases := make([]BulkErrorCase, len(r.Errors)) + for i, err := range r.Errors { + ecases[i] = BulkErrorCase{err.Index, &QueryError{Code: err.Code, Message: err.ErrMsg}} + } + return ecases +} + +// writeOp runs the given modifying operation, potentially followed up +// by a getLastError command in case the session is in safe mode. The +// LastError result is made available in lerr, and if lerr.Err is set it +// will also be returned as err. +func (c *Collection) writeOp(op interface{}, ordered bool) (lerr *LastError, err error) { + s := c.Database.Session + socket, err := s.acquireSocket(c.Database.Name == "local") + if err != nil { + return nil, err + } + defer socket.Release() + + s.m.RLock() + safeOp := s.safeOp + bypassValidation := s.bypassValidation + s.m.RUnlock() + + if socket.ServerInfo().MaxWireVersion >= 2 { + // Servers with a more recent write protocol benefit from write commands. + if op, ok := op.(*insertOp); ok && len(op.documents) > 1000 { + var lerr LastError + + // Maximum batch size is 1000. Must split out in separate operations for compatibility. + all := op.documents + for i := 0; i < len(all); i += 1000 { + l := i + 1000 + if l > len(all) { + l = len(all) + } + op.documents = all[i:l] + oplerr, err := c.writeOpCommand(socket, safeOp, op, ordered, bypassValidation) + lerr.N += oplerr.N + lerr.modified += oplerr.modified + if err != nil { + for ei := range lerr.ecases { + oplerr.ecases[ei].Index += i + } + lerr.ecases = append(lerr.ecases, oplerr.ecases...) + if op.flags&1 == 0 { + return &lerr, err + } + } + } + if len(lerr.ecases) != 0 { + return &lerr, lerr.ecases[0].Err + } + return &lerr, nil + } + return c.writeOpCommand(socket, safeOp, op, ordered, bypassValidation) + } else if updateOps, ok := op.(bulkUpdateOp); ok { + var lerr LastError + for i, updateOp := range updateOps { + oplerr, err := c.writeOpQuery(socket, safeOp, updateOp, ordered) + lerr.N += oplerr.N + lerr.modified += oplerr.modified + if err != nil { + lerr.ecases = append(lerr.ecases, BulkErrorCase{i, err}) + if ordered { + break + } + } + } + if len(lerr.ecases) != 0 { + return &lerr, lerr.ecases[0].Err + } + return &lerr, nil + } else if deleteOps, ok := op.(bulkDeleteOp); ok { + var lerr LastError + for i, deleteOp := range deleteOps { + oplerr, err := c.writeOpQuery(socket, safeOp, deleteOp, ordered) + lerr.N += oplerr.N + lerr.modified += oplerr.modified + if err != nil { + lerr.ecases = append(lerr.ecases, BulkErrorCase{i, err}) + if ordered { + break + } + } + } + if len(lerr.ecases) != 0 { + return &lerr, lerr.ecases[0].Err + } + return &lerr, nil + } + return c.writeOpQuery(socket, safeOp, op, ordered) +} + +func (c *Collection) writeOpQuery(socket *mongoSocket, safeOp *queryOp, op interface{}, ordered bool) (lerr *LastError, err error) { + if safeOp == nil { + return nil, socket.Query(op) + } + + var mutex sync.Mutex + var replyData []byte + var replyErr error + mutex.Lock() + query := *safeOp // Copy the data. + query.collection = c.Database.Name + ".$cmd" + query.replyFunc = func(err error, reply *replyOp, docNum int, docData []byte) { + replyData = docData + replyErr = err + mutex.Unlock() + } + err = socket.Query(op, &query) + if err != nil { + return nil, err + } + mutex.Lock() // Wait. + if replyErr != nil { + return nil, replyErr // XXX TESTME + } + if hasErrMsg(replyData) { + // Looks like getLastError itself failed. + err = checkQueryError(query.collection, replyData) + if err != nil { + return nil, err + } + } + result := &LastError{} + bson.Unmarshal(replyData, &result) + debugf("Result from writing query: %#v", result) + if result.Err != "" { + result.ecases = []BulkErrorCase{{Index: 0, Err: result}} + if insert, ok := op.(*insertOp); ok && len(insert.documents) > 1 { + result.ecases[0].Index = -1 + } + return result, result + } + // With MongoDB <2.6 we don't know how many actually changed, so make it the same as matched. + result.modified = result.N + return result, nil +} + +func (c *Collection) writeOpCommand(socket *mongoSocket, safeOp *queryOp, op interface{}, ordered, bypassValidation bool) (lerr *LastError, err error) { + var writeConcern interface{} + if safeOp == nil { + writeConcern = bson.D{{"w", 0}} + } else { + writeConcern = safeOp.query.(*getLastError) + } + + var cmd bson.D + switch op := op.(type) { + case *insertOp: + // http://docs.mongodb.org/manual/reference/command/insert + cmd = bson.D{ + {"insert", c.Name}, + {"documents", op.documents}, + {"writeConcern", writeConcern}, + {"ordered", op.flags&1 == 0}, + } + case *updateOp: + // http://docs.mongodb.org/manual/reference/command/update + cmd = bson.D{ + {"update", c.Name}, + {"updates", []interface{}{op}}, + {"writeConcern", writeConcern}, + {"ordered", ordered}, + } + case bulkUpdateOp: + // http://docs.mongodb.org/manual/reference/command/update + cmd = bson.D{ + {"update", c.Name}, + {"updates", op}, + {"writeConcern", writeConcern}, + {"ordered", ordered}, + } + case *deleteOp: + // http://docs.mongodb.org/manual/reference/command/delete + cmd = bson.D{ + {"delete", c.Name}, + {"deletes", []interface{}{op}}, + {"writeConcern", writeConcern}, + {"ordered", ordered}, + } + case bulkDeleteOp: + // http://docs.mongodb.org/manual/reference/command/delete + cmd = bson.D{ + {"delete", c.Name}, + {"deletes", op}, + {"writeConcern", writeConcern}, + {"ordered", ordered}, + } + } + if bypassValidation { + cmd = append(cmd, bson.DocElem{"bypassDocumentValidation", true}) + } + + var result writeCmdResult + err = c.Database.run(socket, cmd, &result) + debugf("Write command result: %#v (err=%v)", result, err) + ecases := result.BulkErrorCases() + lerr = &LastError{ + UpdatedExisting: result.N > 0 && len(result.Upserted) == 0, + N: result.N, + + modified: result.NModified, + ecases: ecases, + } + if len(result.Upserted) > 0 { + lerr.UpsertedId = result.Upserted[0].Id + } + if len(result.Errors) > 0 { + e := result.Errors[0] + lerr.Code = e.Code + lerr.Err = e.ErrMsg + err = lerr + } else if result.ConcernError.Code != 0 { + e := result.ConcernError + lerr.Code = e.Code + lerr.Err = e.ErrMsg + err = lerr + } + + if err == nil && safeOp == nil { + return nil, nil + } + return lerr, err +} + +func hasErrMsg(d []byte) bool { + l := len(d) + for i := 0; i+8 < l; i++ { + if d[i] == '\x02' && d[i+1] == 'e' && d[i+2] == 'r' && d[i+3] == 'r' && d[i+4] == 'm' && d[i+5] == 's' && d[i+6] == 'g' && d[i+7] == '\x00' { + return true + } + } + return false +} -- cgit v1.2.3