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txn.go
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txn.go
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// The txn package implements support for multi-document transactions.
//
// For details check the following blog post:
//
// http://blog.labix.org/2012/08/22/multi-doc-transactions-for-mongodb
//
package txn
import (
"encoding/binary"
"fmt"
"reflect"
"sort"
"strings"
"sync"
"gopkg.in/mgo.v2-unstable"
"github.com/mintance/mgo/bson"
crand "crypto/rand"
mrand "math/rand"
)
type state int
const (
tpreparing state = 1 // One or more documents not prepared
tprepared state = 2 // Prepared but not yet ready to run
taborting state = 3 // Assertions failed, cleaning up
tapplying state = 4 // Changes are in progress
taborted state = 5 // Pre-conditions failed, nothing done
tapplied state = 6 // All changes applied
)
func (s state) String() string {
switch s {
case tpreparing:
return "preparing"
case tprepared:
return "prepared"
case taborting:
return "aborting"
case tapplying:
return "applying"
case taborted:
return "aborted"
case tapplied:
return "applied"
}
panic(fmt.Errorf("unknown state: %d", s))
}
var rand *mrand.Rand
var randmu sync.Mutex
func init() {
var seed int64
err := binary.Read(crand.Reader, binary.BigEndian, &seed)
if err != nil {
panic(err)
}
rand = mrand.New(mrand.NewSource(seed))
}
type transaction struct {
Id bson.ObjectId `bson:"_id"`
State state `bson:"s"`
Info interface{} `bson:"i,omitempty"`
Ops []Op `bson:"o"`
Nonce string `bson:"n,omitempty"`
Revnos []int64 `bson:"r,omitempty"`
docKeysCached docKeys
}
func (t *transaction) String() string {
if t.Nonce == "" {
return t.Id.Hex()
}
return string(t.token())
}
func (t *transaction) done() bool {
return t.State == tapplied || t.State == taborted
}
func (t *transaction) token() token {
if t.Nonce == "" {
panic("transaction has no nonce")
}
return tokenFor(t)
}
func (t *transaction) docKeys() docKeys {
if t.docKeysCached != nil {
return t.docKeysCached
}
dkeys := make(docKeys, 0, len(t.Ops))
NextOp:
for _, op := range t.Ops {
dkey := op.docKey()
for i := range dkeys {
if dkey == dkeys[i] {
continue NextOp
}
}
dkeys = append(dkeys, dkey)
}
sort.Sort(dkeys)
t.docKeysCached = dkeys
return dkeys
}
// tokenFor returns a unique transaction token that
// is composed by t's id and a nonce. If t already has
// a nonce assigned to it, it will be used, otherwise
// a new nonce will be generated.
func tokenFor(t *transaction) token {
nonce := t.Nonce
if nonce == "" {
nonce = newNonce()
}
return token(t.Id.Hex() + "_" + nonce)
}
func newNonce() string {
randmu.Lock()
r := rand.Uint32()
randmu.Unlock()
n := make([]byte, 8)
for i := uint(0); i < 8; i++ {
n[i] = "0123456789abcdef"[(r>>(4*i))&0xf]
}
return string(n)
}
type token string
func (tt token) id() bson.ObjectId { return bson.ObjectIdHex(string(tt[:24])) }
func (tt token) nonce() string { return string(tt[25:]) }
// Op represents an operation to a single document that may be
// applied as part of a transaction with other operations.
type Op struct {
// C and Id identify the collection and document this operation
// refers to. Id is matched against the "_id" document field.
C string `bson:"c"`
Id interface{} `bson:"d"`
// Assert optionally holds a query document that is used to
// test the operation document at the time the transaction is
// going to be applied. The assertions for all operations in
// a transaction are tested before any changes take place,
// and the transaction is entirely aborted if any of them
// fails. This is also the only way to prevent a transaction
// from being being applied (the transaction continues despite
// the outcome of Insert, Update, and Remove).
Assert interface{} `bson:"a,omitempty"`
// The Insert, Update and Remove fields describe the mutation
// intended by the operation. At most one of them may be set
// per operation. If none are set, Assert must be set and the
// operation becomes a read-only test.
//
// Insert holds the document to be inserted at the time the
// transaction is applied. The Id field will be inserted
// into the document automatically as its _id field. The
// transaction will continue even if the document already
// exists. Use Assert with txn.DocMissing if the insertion is
// required.
//
// Update holds the update document to be applied at the time
// the transaction is applied. The transaction will continue
// even if a document with Id is missing. Use Assert to
// test for the document presence or its contents.
//
// Remove indicates whether to remove the document with Id.
// The transaction continues even if the document doesn't yet
// exist at the time the transaction is applied. Use Assert
// with txn.DocExists to make sure it will be removed.
Insert interface{} `bson:"i,omitempty"`
Update interface{} `bson:"u,omitempty"`
Remove bool `bson:"r,omitempty"`
}
func (op *Op) isChange() bool {
return op.Update != nil || op.Insert != nil || op.Remove
}
func (op *Op) docKey() docKey {
return docKey{op.C, op.Id}
}
func (op *Op) name() string {
switch {
case op.Update != nil:
return "update"
case op.Insert != nil:
return "insert"
case op.Remove:
return "remove"
case op.Assert != nil:
return "assert"
}
return "none"
}
const (
// DocExists and DocMissing may be used on an operation's
// Assert value to assert that the document with the given
// Id exists or does not exist, respectively.
DocExists = "d+"
DocMissing = "d-"
)
// A Runner applies operations as part of a transaction onto any number
// of collections within a database. See the Run method for details.
type Runner struct {
tc *mgo.Collection // txns
sc *mgo.Collection // stash
lc *mgo.Collection // log
}
// NewRunner returns a new transaction runner that uses tc to hold its
// transactions.
//
// Multiple transaction collections may exist in a single database, but
// all collections that are touched by operations in a given transaction
// collection must be handled exclusively by it.
//
// A second collection with the same name of tc but suffixed by ".stash"
// will be used for implementing the transactional behavior of insert
// and remove operations.
func NewRunner(tc *mgo.Collection) *Runner {
return &Runner{tc, tc.Database.C(tc.Name + ".stash"), nil}
}
var ErrAborted = fmt.Errorf("transaction aborted")
// Run creates a new transaction with ops and runs it immediately.
// The id parameter specifies the transaction id, and may be written
// down ahead of time to later verify the success of the change and
// resume it, when the procedure is interrupted for any reason. If
// empty, a random id will be generated.
// The info parameter, if not nil, is included under the "i"
// field of the transaction document.
//
// Operations across documents are not atomically applied, but are
// guaranteed to be eventually all applied in the order provided or
// all aborted, as long as the affected documents are only modified
// through transactions. If documents are simultaneously modified
// by transactions and out of transactions the behavior is undefined.
//
// If Run returns no errors, all operations were applied successfully.
// If it returns ErrAborted, one or more operations can't be applied
// and the transaction was entirely aborted with no changes performed.
// Otherwise, if the transaction is interrupted while running for any
// reason, it may be resumed explicitly or by attempting to apply
// another transaction on any of the documents targeted by ops, as
// long as the interruption was made after the transaction document
// itself was inserted. Run Resume with the obtained transaction id
// to confirm whether the transaction was applied or not.
//
// Any number of transactions may be run concurrently, with one
// runner or many.
func (r *Runner) Run(ops []Op, id bson.ObjectId, info interface{}) (err error) {
const efmt = "error in transaction op %d: %s"
for i := range ops {
op := &ops[i]
if op.C == "" || op.Id == nil {
return fmt.Errorf(efmt, i, "C or Id missing")
}
changes := 0
if op.Insert != nil {
changes++
}
if op.Update != nil {
changes++
}
if op.Remove {
changes++
}
if changes > 1 {
return fmt.Errorf(efmt, i, "more than one of Insert/Update/Remove set")
}
if changes == 0 && op.Assert == nil {
return fmt.Errorf(efmt, i, "none of Assert/Insert/Update/Remove set")
}
}
if id == "" {
id = bson.NewObjectId()
}
// Insert transaction sooner rather than later, to stay on the safer side.
t := transaction{
Id: id,
Ops: ops,
State: tpreparing,
Info: info,
}
if err = r.tc.Insert(&t); err != nil {
return err
}
if err = flush(r, &t); err != nil {
return err
}
if t.State == taborted {
return ErrAborted
} else if t.State != tapplied {
panic(fmt.Errorf("invalid state for %s after flush: %q", &t, t.State))
}
return nil
}
// ResumeAll resumes all pending transactions. All ErrAborted errors
// from individual transactions are ignored.
func (r *Runner) ResumeAll() (err error) {
debugf("Resuming all unfinished transactions")
iter := r.tc.Find(bson.D{{"s", bson.D{{"$in", []state{tpreparing, tprepared, tapplying}}}}}).Iter()
var t transaction
for iter.Next(&t) {
if t.State == tapplied || t.State == taborted {
continue
}
debugf("Resuming %s from %q", t.Id, t.State)
if err := flush(r, &t); err != nil {
return err
}
if !t.done() {
panic(fmt.Errorf("invalid state for %s after flush: %q", &t, t.State))
}
}
return nil
}
// Resume resumes the transaction with id. It returns mgo.ErrNotFound
// if the transaction is not found. Otherwise, it has the same semantics
// of the Run method after the transaction is inserted.
func (r *Runner) Resume(id bson.ObjectId) (err error) {
t, err := r.load(id)
if err != nil {
return err
}
if !t.done() {
debugf("Resuming %s from %q", t, t.State)
if err := flush(r, t); err != nil {
return err
}
}
if t.State == taborted {
return ErrAborted
} else if t.State != tapplied {
panic(fmt.Errorf("invalid state for %s after flush: %q", t, t.State))
}
return nil
}
// ChangeLog enables logging of changes to the given collection
// every time a transaction that modifies content is done being
// applied.
//
// Saved documents are in the format:
//
// {"_id": <txn id>, <collection>: {"d": [<doc id>, ...], "r": [<doc revno>, ...]}}
//
// The document revision is the value of the txn-revno field after
// the change has been applied. Negative values indicate the document
// was not present in the collection. Revisions will not change when
// updates or removes are applied to missing documents or inserts are
// attempted when the document isn't present.
func (r *Runner) ChangeLog(logc *mgo.Collection) {
r.lc = logc
}
// PurgeMissing removes from collections any state that refers to transaction
// documents that for whatever reason have been lost from the system (removed
// by accident or lost in a hard crash, for example).
//
// This method should very rarely be needed, if at all, and should never be
// used during the normal operation of an application. Its purpose is to put
// a system that has seen unavoidable corruption back in a working state.
func (r *Runner) PurgeMissing(collections ...string) error {
type M map[string]interface{}
type S []interface{}
type TDoc struct {
Id interface{} "_id"
TxnQueue []string "txn-queue"
}
found := make(map[bson.ObjectId]bool)
sort.Strings(collections)
for _, collection := range collections {
c := r.tc.Database.C(collection)
iter := c.Find(nil).Select(bson.M{"_id": 1, "txn-queue": 1}).Iter()
var tdoc TDoc
for iter.Next(&tdoc) {
for _, txnToken := range tdoc.TxnQueue {
txnId := bson.ObjectIdHex(txnToken[:24])
if found[txnId] {
continue
}
if r.tc.FindId(txnId).One(nil) == nil {
found[txnId] = true
continue
}
logf("WARNING: purging from document %s/%v the missing transaction id %s", collection, tdoc.Id, txnId)
err := c.UpdateId(tdoc.Id, M{"$pull": M{"txn-queue": M{"$regex": "^" + txnId.Hex() + "_*"}}})
if err != nil {
return fmt.Errorf("error purging missing transaction %s: %v", txnId.Hex(), err)
}
}
}
if err := iter.Close(); err != nil {
return fmt.Errorf("transaction queue iteration error for %s: %v", collection, err)
}
}
type StashTDoc struct {
Id docKey "_id"
TxnQueue []string "txn-queue"
}
iter := r.sc.Find(nil).Select(bson.M{"_id": 1, "txn-queue": 1}).Iter()
var stdoc StashTDoc
for iter.Next(&stdoc) {
for _, txnToken := range stdoc.TxnQueue {
txnId := bson.ObjectIdHex(txnToken[:24])
if found[txnId] {
continue
}
if r.tc.FindId(txnId).One(nil) == nil {
found[txnId] = true
continue
}
logf("WARNING: purging from stash document %s/%v the missing transaction id %s", stdoc.Id.C, stdoc.Id.Id, txnId)
err := r.sc.UpdateId(stdoc.Id, M{"$pull": M{"txn-queue": M{"$regex": "^" + txnId.Hex() + "_*"}}})
if err != nil {
return fmt.Errorf("error purging missing transaction %s: %v", txnId.Hex(), err)
}
}
}
if err := iter.Close(); err != nil {
return fmt.Errorf("transaction stash iteration error: %v", err)
}
return nil
}
func (r *Runner) load(id bson.ObjectId) (*transaction, error) {
var t transaction
err := r.tc.FindId(id).One(&t)
if err == mgo.ErrNotFound {
return nil, fmt.Errorf("cannot find transaction %s", id)
} else if err != nil {
return nil, err
}
return &t, nil
}
type typeNature int
const (
// The order of these values matters. Transactions
// from applications using different ordering will
// be incompatible with each other.
_ typeNature = iota
natureString
natureInt
natureFloat
natureBool
natureStruct
)
func valueNature(v interface{}) (value interface{}, nature typeNature) {
rv := reflect.ValueOf(v)
switch rv.Kind() {
case reflect.String:
return rv.String(), natureString
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return rv.Int(), natureInt
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
return int64(rv.Uint()), natureInt
case reflect.Float32, reflect.Float64:
return rv.Float(), natureFloat
case reflect.Bool:
return rv.Bool(), natureBool
case reflect.Struct:
return v, natureStruct
}
panic("document id type unsupported by txn: " + rv.Kind().String())
}
type docKey struct {
C string
Id interface{}
}
type docKeys []docKey
func (ks docKeys) Len() int { return len(ks) }
func (ks docKeys) Swap(i, j int) { ks[i], ks[j] = ks[j], ks[i] }
func (ks docKeys) Less(i, j int) bool {
a, b := ks[i], ks[j]
if a.C != b.C {
return a.C < b.C
}
return valuecmp(a.Id, b.Id) == -1
}
func valuecmp(a, b interface{}) int {
av, an := valueNature(a)
bv, bn := valueNature(b)
if an < bn {
return -1
}
if an > bn {
return 1
}
if av == bv {
return 0
}
var less bool
switch an {
case natureString:
less = av.(string) < bv.(string)
case natureInt:
less = av.(int64) < bv.(int64)
case natureFloat:
less = av.(float64) < bv.(float64)
case natureBool:
less = !av.(bool) && bv.(bool)
case natureStruct:
less = structcmp(av, bv) == -1
default:
panic("unreachable")
}
if less {
return -1
}
return 1
}
func structcmp(a, b interface{}) int {
av := reflect.ValueOf(a)
bv := reflect.ValueOf(b)
var ai, bi = 0, 0
var an, bn = av.NumField(), bv.NumField()
var avi, bvi interface{}
var af, bf reflect.StructField
for {
for ai < an {
af = av.Type().Field(ai)
if isExported(af.Name) {
avi = av.Field(ai).Interface()
ai++
break
}
ai++
}
for bi < bn {
bf = bv.Type().Field(bi)
if isExported(bf.Name) {
bvi = bv.Field(bi).Interface()
bi++
break
}
bi++
}
if n := valuecmp(avi, bvi); n != 0 {
return n
}
nameA := getFieldName(af)
nameB := getFieldName(bf)
if nameA < nameB {
return -1
}
if nameA > nameB {
return 1
}
if ai == an && bi == bn {
return 0
}
if ai == an || bi == bn {
if ai == bn {
return -1
}
return 1
}
}
panic("unreachable")
}
func isExported(name string) bool {
a := name[0]
return a >= 'A' && a <= 'Z'
}
func getFieldName(f reflect.StructField) string {
name := f.Tag.Get("bson")
if i := strings.Index(name, ","); i >= 0 {
name = name[:i]
}
if name == "" {
name = strings.ToLower(f.Name)
}
return name
}