// Copyright (C) The Arvados Authors. All rights reserved.
//
// SPDX-License-Identifier: AGPL-3.0
package main
import (
"bytes"
"context"
"errors"
"flag"
"fmt"
"io"
"io/ioutil"
"net/http"
"os"
"regexp"
"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"git.curoverse.com/arvados.git/sdk/go/arvados"
"github.com/Azure/azure-sdk-for-go/storage"
)
const azureDefaultRequestTimeout = arvados.Duration(10 * time.Minute)
var (
azureMaxGetBytes int
azureStorageAccountName string
azureStorageAccountKeyFile string
azureStorageReplication int
azureWriteRaceInterval = 15 * time.Second
azureWriteRacePollTime = time.Second
)
func readKeyFromFile(file string) (string, error) {
buf, err := ioutil.ReadFile(file)
if err != nil {
return "", errors.New("reading key from " + file + ": " + err.Error())
}
accountKey := strings.TrimSpace(string(buf))
if accountKey == "" {
return "", errors.New("empty account key in " + file)
}
return accountKey, nil
}
type azureVolumeAdder struct {
*Config
}
// String implements flag.Value
func (s *azureVolumeAdder) String() string {
return "-"
}
func (s *azureVolumeAdder) Set(containerName string) error {
s.Config.Volumes = append(s.Config.Volumes, &AzureBlobVolume{
ContainerName: containerName,
StorageAccountName: azureStorageAccountName,
StorageAccountKeyFile: azureStorageAccountKeyFile,
AzureReplication: azureStorageReplication,
ReadOnly: deprecated.flagReadonly,
})
return nil
}
func init() {
VolumeTypes = append(VolumeTypes, func() VolumeWithExamples { return &AzureBlobVolume{} })
flag.Var(&azureVolumeAdder{theConfig},
"azure-storage-container-volume",
"Use the given container as a storage volume. Can be given multiple times.")
flag.StringVar(
&azureStorageAccountName,
"azure-storage-account-name",
"",
"Azure storage account name used for subsequent --azure-storage-container-volume arguments.")
flag.StringVar(
&azureStorageAccountKeyFile,
"azure-storage-account-key-file",
"",
"`File` containing the account key used for subsequent --azure-storage-container-volume arguments.")
flag.IntVar(
&azureStorageReplication,
"azure-storage-replication",
3,
"Replication level to report to clients when data is stored in an Azure container.")
flag.IntVar(
&azureMaxGetBytes,
"azure-max-get-bytes",
BlockSize,
fmt.Sprintf("Maximum bytes to request in a single GET request. If smaller than %d, use multiple concurrent range requests to retrieve a block.", BlockSize))
}
// An AzureBlobVolume stores and retrieves blocks in an Azure Blob
// container.
type AzureBlobVolume struct {
StorageAccountName string
StorageAccountKeyFile string
StorageBaseURL string // "" means default, "core.windows.net"
ContainerName string
AzureReplication int
ReadOnly bool
RequestTimeout arvados.Duration
StorageClasses []string
azClient storage.Client
container *azureContainer
}
// singleSender is a single-attempt storage.Sender.
type singleSender struct{}
// Send performs req exactly once.
func (*singleSender) Send(c *storage.Client, req *http.Request) (resp *http.Response, err error) {
return c.HTTPClient.Do(req)
}
// Examples implements VolumeWithExamples.
func (*AzureBlobVolume) Examples() []Volume {
return []Volume{
&AzureBlobVolume{
StorageAccountName: "example-account-name",
StorageAccountKeyFile: "/etc/azure_storage_account_key.txt",
ContainerName: "example-container-name",
AzureReplication: 3,
RequestTimeout: azureDefaultRequestTimeout,
},
&AzureBlobVolume{
StorageAccountName: "cn-account-name",
StorageAccountKeyFile: "/etc/azure_cn_storage_account_key.txt",
StorageBaseURL: "core.chinacloudapi.cn",
ContainerName: "cn-container-name",
AzureReplication: 3,
RequestTimeout: azureDefaultRequestTimeout,
},
}
}
// Type implements Volume.
func (v *AzureBlobVolume) Type() string {
return "Azure"
}
// Start implements Volume.
func (v *AzureBlobVolume) Start() error {
if v.ContainerName == "" {
return errors.New("no container name given")
}
if v.StorageAccountName == "" || v.StorageAccountKeyFile == "" {
return errors.New("StorageAccountName and StorageAccountKeyFile must be given")
}
accountKey, err := readKeyFromFile(v.StorageAccountKeyFile)
if err != nil {
return err
}
if v.StorageBaseURL == "" {
v.StorageBaseURL = storage.DefaultBaseURL
}
v.azClient, err = storage.NewClient(v.StorageAccountName, accountKey, v.StorageBaseURL, storage.DefaultAPIVersion, true)
if err != nil {
return fmt.Errorf("creating Azure storage client: %s", err)
}
v.azClient.Sender = &singleSender{}
if v.RequestTimeout == 0 {
v.RequestTimeout = azureDefaultRequestTimeout
}
v.azClient.HTTPClient = &http.Client{
Timeout: time.Duration(v.RequestTimeout),
}
bs := v.azClient.GetBlobService()
v.container = &azureContainer{
ctr: bs.GetContainerReference(v.ContainerName),
}
if ok, err := v.container.Exists(); err != nil {
return err
} else if !ok {
return fmt.Errorf("Azure container %q does not exist", v.ContainerName)
}
return nil
}
// DeviceID returns a globally unique ID for the storage container.
func (v *AzureBlobVolume) DeviceID() string {
return "azure://" + v.StorageBaseURL + "/" + v.StorageAccountName + "/" + v.ContainerName
}
// Return true if expires_at metadata attribute is found on the block
func (v *AzureBlobVolume) checkTrashed(loc string) (bool, map[string]string, error) {
metadata, err := v.container.GetBlobMetadata(loc)
if err != nil {
return false, metadata, v.translateError(err)
}
if metadata["expires_at"] != "" {
return true, metadata, nil
}
return false, metadata, nil
}
// Get reads a Keep block that has been stored as a block blob in the
// container.
//
// If the block is younger than azureWriteRaceInterval and is
// unexpectedly empty, assume a PutBlob operation is in progress, and
// wait for it to finish writing.
func (v *AzureBlobVolume) Get(ctx context.Context, loc string, buf []byte) (int, error) {
trashed, _, err := v.checkTrashed(loc)
if err != nil {
return 0, err
}
if trashed {
return 0, os.ErrNotExist
}
var deadline time.Time
haveDeadline := false
size, err := v.get(ctx, loc, buf)
for err == nil && size == 0 && loc != "d41d8cd98f00b204e9800998ecf8427e" {
// Seeing a brand new empty block probably means we're
// in a race with CreateBlob, which under the hood
// (apparently) does "CreateEmpty" and "CommitData"
// with no additional transaction locking.
if !haveDeadline {
t, err := v.Mtime(loc)
if err != nil {
log.Print("Got empty block (possible race) but Mtime failed: ", err)
break
}
deadline = t.Add(azureWriteRaceInterval)
if time.Now().After(deadline) {
break
}
log.Printf("Race? Block %s is 0 bytes, %s old. Polling until %s", loc, time.Since(t), deadline)
haveDeadline = true
} else if time.Now().After(deadline) {
break
}
select {
case <-ctx.Done():
return 0, ctx.Err()
case <-time.After(azureWriteRacePollTime):
}
size, err = v.get(ctx, loc, buf)
}
if haveDeadline {
log.Printf("Race ended with size==%d", size)
}
return size, err
}
func (v *AzureBlobVolume) get(ctx context.Context, loc string, buf []byte) (int, error) {
ctx, cancel := context.WithCancel(ctx)
defer cancel()
expectSize := len(buf)
if azureMaxGetBytes < BlockSize {
// Unfortunately the handler doesn't tell us how long the blob
// is expected to be, so we have to ask Azure.
props, err := v.container.GetBlobProperties(loc)
if err != nil {
return 0, v.translateError(err)
}
if props.ContentLength > int64(BlockSize) || props.ContentLength < 0 {
return 0, fmt.Errorf("block %s invalid size %d (max %d)", loc, props.ContentLength, BlockSize)
}
expectSize = int(props.ContentLength)
}
if expectSize == 0 {
return 0, nil
}
// We'll update this actualSize if/when we get the last piece.
actualSize := -1
pieces := (expectSize + azureMaxGetBytes - 1) / azureMaxGetBytes
errors := make(chan error, pieces)
var wg sync.WaitGroup
wg.Add(pieces)
for p := 0; p < pieces; p++ {
// Each goroutine retrieves one piece. If we hit an
// error, it is sent to the errors chan so get() can
// return it -- but only if the error happens before
// ctx is done. This way, if ctx is done before we hit
// any other error (e.g., requesting client has hung
// up), we return the original ctx.Err() instead of
// the secondary errors from the transfers that got
// interrupted as a result.
go func(p int) {
defer wg.Done()
startPos := p * azureMaxGetBytes
endPos := startPos + azureMaxGetBytes
if endPos > expectSize {
endPos = expectSize
}
var rdr io.ReadCloser
var err error
gotRdr := make(chan struct{})
go func() {
defer close(gotRdr)
if startPos == 0 && endPos == expectSize {
rdr, err = v.container.GetBlob(loc)
} else {
rdr, err = v.container.GetBlobRange(loc, startPos, endPos-1, nil)
}
}()
select {
case <-ctx.Done():
go func() {
<-gotRdr
if err == nil {
rdr.Close()
}
}()
return
case <-gotRdr:
}
if err != nil {
errors <- err
cancel()
return
}
go func() {
// Close the reader when the client
// hangs up or another piece fails
// (possibly interrupting ReadFull())
// or when all pieces succeed and
// get() returns.
<-ctx.Done()
rdr.Close()
}()
n, err := io.ReadFull(rdr, buf[startPos:endPos])
if pieces == 1 && (err == io.ErrUnexpectedEOF || err == io.EOF) {
// If we don't know the actual size,
// and just tried reading 64 MiB, it's
// normal to encounter EOF.
} else if err != nil {
if ctx.Err() == nil {
errors <- err
}
cancel()
return
}
if p == pieces-1 {
actualSize = startPos + n
}
}(p)
}
wg.Wait()
close(errors)
if len(errors) > 0 {
return 0, v.translateError(<-errors)
}
if ctx.Err() != nil {
return 0, ctx.Err()
}
return actualSize, nil
}
// Compare the given data with existing stored data.
func (v *AzureBlobVolume) Compare(ctx context.Context, loc string, expect []byte) error {
trashed, _, err := v.checkTrashed(loc)
if err != nil {
return err
}
if trashed {
return os.ErrNotExist
}
var rdr io.ReadCloser
gotRdr := make(chan struct{})
go func() {
defer close(gotRdr)
rdr, err = v.container.GetBlob(loc)
}()
select {
case <-ctx.Done():
go func() {
<-gotRdr
if err == nil {
rdr.Close()
}
}()
return ctx.Err()
case <-gotRdr:
}
if err != nil {
return v.translateError(err)
}
defer rdr.Close()
return compareReaderWithBuf(ctx, rdr, expect, loc[:32])
}
// Put stores a Keep block as a block blob in the container.
func (v *AzureBlobVolume) Put(ctx context.Context, loc string, block []byte) error {
if v.ReadOnly {
return MethodDisabledError
}
// Send the block data through a pipe, so that (if we need to)
// we can close the pipe early and abandon our
// CreateBlockBlobFromReader() goroutine, without worrying
// about CreateBlockBlobFromReader() accessing our block
// buffer after we release it.
bufr, bufw := io.Pipe()
go func() {
io.Copy(bufw, bytes.NewReader(block))
bufw.Close()
}()
errChan := make(chan error)
go func() {
var body io.Reader = bufr
if len(block) == 0 {
// We must send a "Content-Length: 0" header,
// but the http client interprets
// ContentLength==0 as "unknown" unless it can
// confirm by introspection that Body will
// read 0 bytes.
body = http.NoBody
bufr.Close()
}
errChan <- v.container.CreateBlockBlobFromReader(loc, len(block), body, nil)
}()
select {
case <-ctx.Done():
theConfig.debugLogf("%s: taking CreateBlockBlobFromReader's input away: %s", v, ctx.Err())
// Our pipe might be stuck in Write(), waiting for
// io.Copy() to read. If so, un-stick it. This means
// CreateBlockBlobFromReader will get corrupt data,
// but that's OK: the size won't match, so the write
// will fail.
go io.Copy(ioutil.Discard, bufr)
// CloseWithError() will return once pending I/O is done.
bufw.CloseWithError(ctx.Err())
theConfig.debugLogf("%s: abandoning CreateBlockBlobFromReader goroutine", v)
return ctx.Err()
case err := <-errChan:
return err
}
}
// Touch updates the last-modified property of a block blob.
func (v *AzureBlobVolume) Touch(loc string) error {
if v.ReadOnly {
return MethodDisabledError
}
trashed, metadata, err := v.checkTrashed(loc)
if err != nil {
return err
}
if trashed {
return os.ErrNotExist
}
metadata["touch"] = fmt.Sprintf("%d", time.Now().Unix())
return v.container.SetBlobMetadata(loc, metadata, nil)
}
// Mtime returns the last-modified property of a block blob.
func (v *AzureBlobVolume) Mtime(loc string) (time.Time, error) {
trashed, _, err := v.checkTrashed(loc)
if err != nil {
return time.Time{}, err
}
if trashed {
return time.Time{}, os.ErrNotExist
}
props, err := v.container.GetBlobProperties(loc)
if err != nil {
return time.Time{}, err
}
return time.Time(props.LastModified), nil
}
// IndexTo writes a list of Keep blocks that are stored in the
// container.
func (v *AzureBlobVolume) IndexTo(prefix string, writer io.Writer) error {
params := storage.ListBlobsParameters{
Prefix: prefix,
Include: &storage.IncludeBlobDataset{Metadata: true},
}
for {
resp, err := v.container.ListBlobs(params)
if err != nil {
return err
}
for _, b := range resp.Blobs {
if !v.isKeepBlock(b.Name) {
continue
}
modtime := time.Time(b.Properties.LastModified)
if b.Properties.ContentLength == 0 && modtime.Add(azureWriteRaceInterval).After(time.Now()) {
// A new zero-length blob is probably
// just a new non-empty blob that
// hasn't committed its data yet (see
// Get()), and in any case has no
// value.
continue
}
if b.Metadata["expires_at"] != "" {
// Trashed blob; exclude it from response
continue
}
fmt.Fprintf(writer, "%s+%d %d\n", b.Name, b.Properties.ContentLength, modtime.UnixNano())
}
if resp.NextMarker == "" {
return nil
}
params.Marker = resp.NextMarker
}
}
// Trash a Keep block.
func (v *AzureBlobVolume) Trash(loc string) error {
if v.ReadOnly {
return MethodDisabledError
}
// Ideally we would use If-Unmodified-Since, but that
// particular condition seems to be ignored by Azure. Instead,
// we get the Etag before checking Mtime, and use If-Match to
// ensure we don't delete data if Put() or Touch() happens
// between our calls to Mtime() and DeleteBlob().
props, err := v.container.GetBlobProperties(loc)
if err != nil {
return err
}
if t, err := v.Mtime(loc); err != nil {
return err
} else if time.Since(t) < theConfig.BlobSignatureTTL.Duration() {
return nil
}
// If TrashLifetime == 0, just delete it
if theConfig.TrashLifetime == 0 {
return v.container.DeleteBlob(loc, &storage.DeleteBlobOptions{
IfMatch: props.Etag,
})
}
// Otherwise, mark as trash
return v.container.SetBlobMetadata(loc, storage.BlobMetadata{
"expires_at": fmt.Sprintf("%d", time.Now().Add(theConfig.TrashLifetime.Duration()).Unix()),
}, &storage.SetBlobMetadataOptions{
IfMatch: props.Etag,
})
}
// Untrash a Keep block.
// Delete the expires_at metadata attribute
func (v *AzureBlobVolume) Untrash(loc string) error {
// if expires_at does not exist, return NotFoundError
metadata, err := v.container.GetBlobMetadata(loc)
if err != nil {
return v.translateError(err)
}
if metadata["expires_at"] == "" {
return os.ErrNotExist
}
// reset expires_at metadata attribute
metadata["expires_at"] = ""
err = v.container.SetBlobMetadata(loc, metadata, nil)
return v.translateError(err)
}
// Status returns a VolumeStatus struct with placeholder data.
func (v *AzureBlobVolume) Status() *VolumeStatus {
return &VolumeStatus{
DeviceNum: 1,
BytesFree: BlockSize * 1000,
BytesUsed: 1,
}
}
// String returns a volume label, including the container name.
func (v *AzureBlobVolume) String() string {
return fmt.Sprintf("azure-storage-container:%+q", v.ContainerName)
}
// Writable returns true, unless the -readonly flag was on when the
// volume was added.
func (v *AzureBlobVolume) Writable() bool {
return !v.ReadOnly
}
// Replication returns the replication level of the container, as
// specified by the -azure-storage-replication argument.
func (v *AzureBlobVolume) Replication() int {
return v.AzureReplication
}
// GetStorageClasses implements Volume
func (v *AzureBlobVolume) GetStorageClasses() []string {
return v.StorageClasses
}
// If possible, translate an Azure SDK error to a recognizable error
// like os.ErrNotExist.
func (v *AzureBlobVolume) translateError(err error) error {
switch {
case err == nil:
return err
case strings.Contains(err.Error(), "Not Found"):
// "storage: service returned without a response body (404 Not Found)"
return os.ErrNotExist
default:
return err
}
}
var keepBlockRegexp = regexp.MustCompile(`^[0-9a-f]{32}$`)
func (v *AzureBlobVolume) isKeepBlock(s string) bool {
return keepBlockRegexp.MatchString(s)
}
// EmptyTrash looks for trashed blocks that exceeded TrashLifetime
// and deletes them from the volume.
func (v *AzureBlobVolume) EmptyTrash() {
var bytesDeleted, bytesInTrash int64
var blocksDeleted, blocksInTrash int64
doBlob := func(b storage.Blob) {
// Check whether the block is flagged as trash
if b.Metadata["expires_at"] == "" {
return
}
atomic.AddInt64(&blocksInTrash, 1)
atomic.AddInt64(&bytesInTrash, b.Properties.ContentLength)
expiresAt, err := strconv.ParseInt(b.Metadata["expires_at"], 10, 64)
if err != nil {
log.Printf("EmptyTrash: ParseInt(%v): %v", b.Metadata["expires_at"], err)
return
}
if expiresAt > time.Now().Unix() {
return
}
err = v.container.DeleteBlob(b.Name, &storage.DeleteBlobOptions{
IfMatch: b.Properties.Etag,
})
if err != nil {
log.Printf("EmptyTrash: DeleteBlob(%v): %v", b.Name, err)
return
}
atomic.AddInt64(&blocksDeleted, 1)
atomic.AddInt64(&bytesDeleted, b.Properties.ContentLength)
}
var wg sync.WaitGroup
todo := make(chan storage.Blob, theConfig.EmptyTrashWorkers)
for i := 0; i < 1 || i < theConfig.EmptyTrashWorkers; i++ {
wg.Add(1)
go func() {
defer wg.Done()
for b := range todo {
doBlob(b)
}
}()
}
params := storage.ListBlobsParameters{Include: &storage.IncludeBlobDataset{Metadata: true}}
for {
resp, err := v.container.ListBlobs(params)
if err != nil {
log.Printf("EmptyTrash: ListBlobs: %v", err)
break
}
for _, b := range resp.Blobs {
todo <- b
}
if resp.NextMarker == "" {
break
}
params.Marker = resp.NextMarker
}
close(todo)
wg.Wait()
log.Printf("EmptyTrash stats for %v: Deleted %v bytes in %v blocks. Remaining in trash: %v bytes in %v blocks.", v.String(), bytesDeleted, blocksDeleted, bytesInTrash-bytesDeleted, blocksInTrash-blocksDeleted)
}
// InternalStats returns bucket I/O and API call counters.
func (v *AzureBlobVolume) InternalStats() interface{} {
return &v.container.stats
}
type azureBlobStats struct {
statsTicker
Ops uint64
GetOps uint64
GetRangeOps uint64
GetMetadataOps uint64
GetPropertiesOps uint64
CreateOps uint64
SetMetadataOps uint64
DelOps uint64
ListOps uint64
}
func (s *azureBlobStats) TickErr(err error) {
if err == nil {
return
}
errType := fmt.Sprintf("%T", err)
if err, ok := err.(storage.AzureStorageServiceError); ok {
errType = errType + fmt.Sprintf(" %d (%s)", err.StatusCode, err.Code)
}
log.Printf("errType %T, err %s", err, err)
s.statsTicker.TickErr(err, errType)
}
// azureContainer wraps storage.Container in order to count I/O and
// API usage stats.
type azureContainer struct {
ctr *storage.Container
stats azureBlobStats
}
func (c *azureContainer) Exists() (bool, error) {
c.stats.Tick(&c.stats.Ops)
ok, err := c.ctr.Exists()
c.stats.TickErr(err)
return ok, err
}
func (c *azureContainer) GetBlobMetadata(bname string) (storage.BlobMetadata, error) {
c.stats.Tick(&c.stats.Ops, &c.stats.GetMetadataOps)
b := c.ctr.GetBlobReference(bname)
err := b.GetMetadata(nil)
c.stats.TickErr(err)
return b.Metadata, err
}
func (c *azureContainer) GetBlobProperties(bname string) (*storage.BlobProperties, error) {
c.stats.Tick(&c.stats.Ops, &c.stats.GetPropertiesOps)
b := c.ctr.GetBlobReference(bname)
err := b.GetProperties(nil)
c.stats.TickErr(err)
return &b.Properties, err
}
func (c *azureContainer) GetBlob(bname string) (io.ReadCloser, error) {
c.stats.Tick(&c.stats.Ops, &c.stats.GetOps)
b := c.ctr.GetBlobReference(bname)
rdr, err := b.Get(nil)
c.stats.TickErr(err)
return NewCountingReader(rdr, c.stats.TickInBytes), err
}
func (c *azureContainer) GetBlobRange(bname string, start, end int, opts *storage.GetBlobOptions) (io.ReadCloser, error) {
c.stats.Tick(&c.stats.Ops, &c.stats.GetRangeOps)
b := c.ctr.GetBlobReference(bname)
rdr, err := b.GetRange(&storage.GetBlobRangeOptions{
Range: &storage.BlobRange{
Start: uint64(start),
End: uint64(end),
},
GetBlobOptions: opts,
})
c.stats.TickErr(err)
return NewCountingReader(rdr, c.stats.TickInBytes), err
}
// If we give it an io.Reader that doesn't also have a Len() int
// method, the Azure SDK determines data size by copying the data into
// a new buffer, which is not a good use of memory.
type readerWithAzureLen struct {
io.Reader
len int
}
// Len satisfies the private lener interface in azure-sdk-for-go.
func (r *readerWithAzureLen) Len() int {
return r.len
}
func (c *azureContainer) CreateBlockBlobFromReader(bname string, size int, rdr io.Reader, opts *storage.PutBlobOptions) error {
c.stats.Tick(&c.stats.Ops, &c.stats.CreateOps)
if size != 0 {
rdr = &readerWithAzureLen{
Reader: NewCountingReader(rdr, c.stats.TickOutBytes),
len: size,
}
}
b := c.ctr.GetBlobReference(bname)
err := b.CreateBlockBlobFromReader(rdr, opts)
c.stats.TickErr(err)
return err
}
func (c *azureContainer) SetBlobMetadata(bname string, m storage.BlobMetadata, opts *storage.SetBlobMetadataOptions) error {
c.stats.Tick(&c.stats.Ops, &c.stats.SetMetadataOps)
b := c.ctr.GetBlobReference(bname)
b.Metadata = m
err := b.SetMetadata(opts)
c.stats.TickErr(err)
return err
}
func (c *azureContainer) ListBlobs(params storage.ListBlobsParameters) (storage.BlobListResponse, error) {
c.stats.Tick(&c.stats.Ops, &c.stats.ListOps)
resp, err := c.ctr.ListBlobs(params)
c.stats.TickErr(err)
return resp, err
}
func (c *azureContainer) DeleteBlob(bname string, opts *storage.DeleteBlobOptions) error {
c.stats.Tick(&c.stats.Ops, &c.stats.DelOps)
b := c.ctr.GetBlobReference(bname)
err := b.Delete(opts)
c.stats.TickErr(err)
return err
}