distribution/registry/storage/driver/s3-aws/s3.go

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2014-12-22 22:24:45 +00:00
// Package s3 provides a storagedriver.StorageDriver implementation to
// store blobs in Amazon S3 cloud storage.
//
// This package leverages the official aws client library for interfacing with
// S3.
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//
// Because S3 is a key, value store the Stat call does not support last modification
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// time for directories (directories are an abstraction for key, value stores)
//
// Keep in mind that S3 guarantees only read-after-write consistency for new
// objects, but no read-after-update or list-after-write consistency.
package s3
import (
"bytes"
"context"
"crypto/tls"
"fmt"
"io"
"io/ioutil"
"math"
"net/http"
"reflect"
"sort"
"strconv"
"strings"
"time"
"github.com/aws/aws-sdk-go/aws"
"github.com/aws/aws-sdk-go/aws/awserr"
"github.com/aws/aws-sdk-go/aws/credentials"
"github.com/aws/aws-sdk-go/aws/credentials/ec2rolecreds"
"github.com/aws/aws-sdk-go/aws/ec2metadata"
"github.com/aws/aws-sdk-go/aws/endpoints"
"github.com/aws/aws-sdk-go/aws/request"
"github.com/aws/aws-sdk-go/aws/session"
"github.com/aws/aws-sdk-go/service/s3"
dcontext "github.com/docker/distribution/context"
"github.com/docker/distribution/registry/client/transport"
storagedriver "github.com/docker/distribution/registry/storage/driver"
"github.com/docker/distribution/registry/storage/driver/base"
"github.com/docker/distribution/registry/storage/driver/factory"
)
const driverName = "s3aws"
// minChunkSize defines the minimum multipart upload chunk size
// S3 API requires multipart upload chunks to be at least 5MB
const minChunkSize = 5 << 20
// maxChunkSize defines the maximum multipart upload chunk size allowed by S3.
const maxChunkSize = 5 << 30
const defaultChunkSize = 2 * minChunkSize
const (
// defaultMultipartCopyChunkSize defines the default chunk size for all
// but the last Upload Part - Copy operation of a multipart copy.
// Empirically, 32 MB is optimal.
defaultMultipartCopyChunkSize = 32 << 20
// defaultMultipartCopyMaxConcurrency defines the default maximum number
// of concurrent Upload Part - Copy operations for a multipart copy.
defaultMultipartCopyMaxConcurrency = 100
// defaultMultipartCopyThresholdSize defines the default object size
// above which multipart copy will be used. (PUT Object - Copy is used
// for objects at or below this size.) Empirically, 32 MB is optimal.
defaultMultipartCopyThresholdSize = 32 << 20
)
// listMax is the largest amount of objects you can request from S3 in a list call
const listMax = 1000
// noStorageClass defines the value to be used if storage class is not supported by the S3 endpoint
const noStorageClass = "NONE"
// validRegions maps known s3 region identifiers to region descriptors
var validRegions = map[string]struct{}{}
// validObjectACLs contains known s3 object Acls
var validObjectACLs = map[string]struct{}{}
//DriverParameters A struct that encapsulates all of the driver parameters after all values have been set
type DriverParameters struct {
AccessKey string
SecretKey string
Bucket string
Region string
RegionEndpoint string
Encrypt bool
KeyID string
Secure bool
SkipVerify bool
V4Auth bool
ChunkSize int64
MultipartCopyChunkSize int64
MultipartCopyMaxConcurrency int64
MultipartCopyThresholdSize int64
RootDirectory string
StorageClass string
UserAgent string
ObjectACL string
SessionToken string
}
func init() {
partitions := endpoints.DefaultPartitions()
for _, p := range partitions {
for region := range p.Regions() {
validRegions[region] = struct{}{}
}
}
for _, objectACL := range []string{
s3.ObjectCannedACLPrivate,
s3.ObjectCannedACLPublicRead,
s3.ObjectCannedACLPublicReadWrite,
s3.ObjectCannedACLAuthenticatedRead,
s3.ObjectCannedACLAwsExecRead,
s3.ObjectCannedACLBucketOwnerRead,
s3.ObjectCannedACLBucketOwnerFullControl,
} {
validObjectACLs[objectACL] = struct{}{}
}
// Register this as the default s3 driver in addition to s3aws
factory.Register("s3", &s3DriverFactory{})
factory.Register(driverName, &s3DriverFactory{})
}
// s3DriverFactory implements the factory.StorageDriverFactory interface
type s3DriverFactory struct{}
func (factory *s3DriverFactory) Create(parameters map[string]interface{}) (storagedriver.StorageDriver, error) {
return FromParameters(parameters)
}
type driver struct {
S3 *s3.S3
Bucket string
ChunkSize int64
Encrypt bool
KeyID string
MultipartCopyChunkSize int64
MultipartCopyMaxConcurrency int64
MultipartCopyThresholdSize int64
RootDirectory string
StorageClass string
ObjectACL string
}
type baseEmbed struct {
base.Base
}
// Driver is a storagedriver.StorageDriver implementation backed by Amazon S3
// Objects are stored at absolute keys in the provided bucket.
type Driver struct {
baseEmbed
}
// FromParameters constructs a new Driver with a given parameters map
// Required parameters:
// - accesskey
// - secretkey
// - region
// - bucket
// - encrypt
func FromParameters(parameters map[string]interface{}) (*Driver, error) {
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// Providing no values for these is valid in case the user is authenticating
// with an IAM on an ec2 instance (in which case the instance credentials will
// be summoned when GetAuth is called)
accessKey := parameters["accesskey"]
if accessKey == nil {
accessKey = ""
}
secretKey := parameters["secretkey"]
if secretKey == nil {
secretKey = ""
}
regionEndpoint := parameters["regionendpoint"]
if regionEndpoint == nil {
regionEndpoint = ""
}
regionName := parameters["region"]
if regionName == nil || fmt.Sprint(regionName) == "" {
return nil, fmt.Errorf("No region parameter provided")
}
region := fmt.Sprint(regionName)
// Don't check the region value if a custom endpoint is provided.
if regionEndpoint == "" {
if _, ok := validRegions[region]; !ok {
return nil, fmt.Errorf("Invalid region provided: %v", region)
}
}
bucket := parameters["bucket"]
if bucket == nil || fmt.Sprint(bucket) == "" {
return nil, fmt.Errorf("No bucket parameter provided")
}
encryptBool := false
encrypt := parameters["encrypt"]
switch encrypt := encrypt.(type) {
case string:
b, err := strconv.ParseBool(encrypt)
if err != nil {
return nil, fmt.Errorf("The encrypt parameter should be a boolean")
}
encryptBool = b
case bool:
encryptBool = encrypt
case nil:
// do nothing
default:
return nil, fmt.Errorf("The encrypt parameter should be a boolean")
}
secureBool := true
secure := parameters["secure"]
switch secure := secure.(type) {
case string:
b, err := strconv.ParseBool(secure)
if err != nil {
return nil, fmt.Errorf("The secure parameter should be a boolean")
}
secureBool = b
case bool:
secureBool = secure
case nil:
// do nothing
default:
return nil, fmt.Errorf("The secure parameter should be a boolean")
}
skipVerifyBool := false
skipVerify := parameters["skipverify"]
switch skipVerify := skipVerify.(type) {
case string:
b, err := strconv.ParseBool(skipVerify)
if err != nil {
return nil, fmt.Errorf("The skipVerify parameter should be a boolean")
}
skipVerifyBool = b
case bool:
skipVerifyBool = skipVerify
case nil:
// do nothing
default:
return nil, fmt.Errorf("The skipVerify parameter should be a boolean")
}
v4Bool := true
v4auth := parameters["v4auth"]
switch v4auth := v4auth.(type) {
case string:
b, err := strconv.ParseBool(v4auth)
if err != nil {
return nil, fmt.Errorf("The v4auth parameter should be a boolean")
}
v4Bool = b
case bool:
v4Bool = v4auth
case nil:
// do nothing
default:
return nil, fmt.Errorf("The v4auth parameter should be a boolean")
}
keyID := parameters["keyid"]
if keyID == nil {
keyID = ""
}
chunkSize, err := getParameterAsInt64(parameters, "chunksize", defaultChunkSize, minChunkSize, maxChunkSize)
if err != nil {
return nil, err
}
multipartCopyChunkSize, err := getParameterAsInt64(parameters, "multipartcopychunksize", defaultMultipartCopyChunkSize, minChunkSize, maxChunkSize)
if err != nil {
return nil, err
}
multipartCopyMaxConcurrency, err := getParameterAsInt64(parameters, "multipartcopymaxconcurrency", defaultMultipartCopyMaxConcurrency, 1, math.MaxInt64)
if err != nil {
return nil, err
}
multipartCopyThresholdSize, err := getParameterAsInt64(parameters, "multipartcopythresholdsize", defaultMultipartCopyThresholdSize, 0, maxChunkSize)
if err != nil {
return nil, err
}
rootDirectory := parameters["rootdirectory"]
if rootDirectory == nil {
rootDirectory = ""
}
storageClass := s3.StorageClassStandard
storageClassParam := parameters["storageclass"]
if storageClassParam != nil {
storageClassString, ok := storageClassParam.(string)
if !ok {
return nil, fmt.Errorf("The storageclass parameter must be one of %v, %v invalid",
[]string{s3.StorageClassStandard, s3.StorageClassReducedRedundancy}, storageClassParam)
}
// All valid storage class parameters are UPPERCASE, so be a bit more flexible here
storageClassString = strings.ToUpper(storageClassString)
if storageClassString != noStorageClass &&
storageClassString != s3.StorageClassStandard &&
storageClassString != s3.StorageClassReducedRedundancy {
return nil, fmt.Errorf("The storageclass parameter must be one of %v, %v invalid",
[]string{noStorageClass, s3.StorageClassStandard, s3.StorageClassReducedRedundancy}, storageClassParam)
}
storageClass = storageClassString
}
userAgent := parameters["useragent"]
if userAgent == nil {
userAgent = ""
}
objectACL := s3.ObjectCannedACLPrivate
objectACLParam := parameters["objectacl"]
if objectACLParam != nil {
objectACLString, ok := objectACLParam.(string)
if !ok {
return nil, fmt.Errorf("Invalid value for objectacl parameter: %v", objectACLParam)
}
if _, ok = validObjectACLs[objectACLString]; !ok {
return nil, fmt.Errorf("Invalid value for objectacl parameter: %v", objectACLParam)
}
objectACL = objectACLString
}
sessionToken := ""
params := DriverParameters{
fmt.Sprint(accessKey),
fmt.Sprint(secretKey),
fmt.Sprint(bucket),
region,
fmt.Sprint(regionEndpoint),
encryptBool,
fmt.Sprint(keyID),
secureBool,
skipVerifyBool,
v4Bool,
chunkSize,
multipartCopyChunkSize,
multipartCopyMaxConcurrency,
multipartCopyThresholdSize,
fmt.Sprint(rootDirectory),
storageClass,
fmt.Sprint(userAgent),
objectACL,
fmt.Sprint(sessionToken),
}
return New(params)
}
// getParameterAsInt64 converts paramaters[name] to an int64 value (using
// defaultt if nil), verifies it is no smaller than min, and returns it.
func getParameterAsInt64(parameters map[string]interface{}, name string, defaultt int64, min int64, max int64) (int64, error) {
rv := defaultt
param := parameters[name]
switch v := param.(type) {
case string:
vv, err := strconv.ParseInt(v, 0, 64)
if err != nil {
return 0, fmt.Errorf("%s parameter must be an integer, %v invalid", name, param)
}
rv = vv
case int64:
rv = v
case int, uint, int32, uint32, uint64:
rv = reflect.ValueOf(v).Convert(reflect.TypeOf(rv)).Int()
case nil:
// do nothing
default:
return 0, fmt.Errorf("invalid value for %s: %#v", name, param)
}
if rv < min || rv > max {
return 0, fmt.Errorf("The %s %#v parameter should be a number between %d and %d (inclusive)", name, rv, min, max)
}
return rv, nil
}
// New constructs a new Driver with the given AWS credentials, region, encryption flag, and
// bucketName
func New(params DriverParameters) (*Driver, error) {
if !params.V4Auth &&
(params.RegionEndpoint == "" ||
strings.Contains(params.RegionEndpoint, "s3.amazonaws.com")) {
return nil, fmt.Errorf("On Amazon S3 this storage driver can only be used with v4 authentication")
}
awsConfig := aws.NewConfig()
sess, err := session.NewSession()
if err != nil {
return nil, fmt.Errorf("failed to create new session: %v", err)
}
creds := credentials.NewChainCredentials([]credentials.Provider{
&credentials.StaticProvider{
Value: credentials.Value{
AccessKeyID: params.AccessKey,
SecretAccessKey: params.SecretKey,
SessionToken: params.SessionToken,
},
},
&credentials.EnvProvider{},
&credentials.SharedCredentialsProvider{},
&ec2rolecreds.EC2RoleProvider{Client: ec2metadata.New(sess)},
})
if params.RegionEndpoint != "" {
awsConfig.WithS3ForcePathStyle(true)
awsConfig.WithEndpoint(params.RegionEndpoint)
}
awsConfig.WithCredentials(creds)
awsConfig.WithRegion(params.Region)
awsConfig.WithDisableSSL(!params.Secure)
if params.UserAgent != "" || params.SkipVerify {
httpTransport := http.DefaultTransport
if params.SkipVerify {
httpTransport = &http.Transport{
TLSClientConfig: &tls.Config{InsecureSkipVerify: true},
}
}
if params.UserAgent != "" {
awsConfig.WithHTTPClient(&http.Client{
Transport: transport.NewTransport(httpTransport, transport.NewHeaderRequestModifier(http.Header{http.CanonicalHeaderKey("User-Agent"): []string{params.UserAgent}})),
})
} else {
awsConfig.WithHTTPClient(&http.Client{
Transport: transport.NewTransport(httpTransport),
})
}
}
sess, err = session.NewSession(awsConfig)
if err != nil {
return nil, fmt.Errorf("failed to create new session with aws config: %v", err)
}
s3obj := s3.New(sess)
// enable S3 compatible signature v2 signing instead
if !params.V4Auth {
setv2Handlers(s3obj)
}
// TODO Currently multipart uploads have no timestamps, so this would be unwise
// if you initiated a new s3driver while another one is running on the same bucket.
// multis, _, err := bucket.ListMulti("", "")
// if err != nil {
// return nil, err
// }
// for _, multi := range multis {
// err := multi.Abort()
// //TODO appropriate to do this error checking?
// if err != nil {
// return nil, err
// }
// }
d := &driver{
S3: s3obj,
Bucket: params.Bucket,
ChunkSize: params.ChunkSize,
Encrypt: params.Encrypt,
KeyID: params.KeyID,
MultipartCopyChunkSize: params.MultipartCopyChunkSize,
MultipartCopyMaxConcurrency: params.MultipartCopyMaxConcurrency,
MultipartCopyThresholdSize: params.MultipartCopyThresholdSize,
RootDirectory: params.RootDirectory,
StorageClass: params.StorageClass,
ObjectACL: params.ObjectACL,
}
return &Driver{
baseEmbed: baseEmbed{
Base: base.Base{
StorageDriver: d,
},
},
}, nil
}
// Implement the storagedriver.StorageDriver interface
func (d *driver) Name() string {
return driverName
}
// GetContent retrieves the content stored at "path" as a []byte.
func (d *driver) GetContent(ctx context.Context, path string) ([]byte, error) {
reader, err := d.Reader(ctx, path, 0)
if err != nil {
return nil, err
}
return ioutil.ReadAll(reader)
}
// PutContent stores the []byte content at a location designated by "path".
func (d *driver) PutContent(ctx context.Context, path string, contents []byte) error {
_, err := d.S3.PutObject(&s3.PutObjectInput{
Bucket: aws.String(d.Bucket),
Key: aws.String(d.s3Path(path)),
ContentType: d.getContentType(),
ACL: d.getACL(),
ServerSideEncryption: d.getEncryptionMode(),
SSEKMSKeyId: d.getSSEKMSKeyID(),
StorageClass: d.getStorageClass(),
Body: bytes.NewReader(contents),
})
return parseError(path, err)
}
// Reader retrieves an io.ReadCloser for the content stored at "path" with a
// given byte offset.
func (d *driver) Reader(ctx context.Context, path string, offset int64) (io.ReadCloser, error) {
resp, err := d.S3.GetObject(&s3.GetObjectInput{
Bucket: aws.String(d.Bucket),
Key: aws.String(d.s3Path(path)),
Range: aws.String("bytes=" + strconv.FormatInt(offset, 10) + "-"),
})
if err != nil {
if s3Err, ok := err.(awserr.Error); ok && s3Err.Code() == "InvalidRange" {
return ioutil.NopCloser(bytes.NewReader(nil)), nil
}
return nil, parseError(path, err)
}
return resp.Body, nil
}
// Writer returns a FileWriter which will store the content written to it
// at the location designated by "path" after the call to Commit.
func (d *driver) Writer(ctx context.Context, path string, append bool) (storagedriver.FileWriter, error) {
key := d.s3Path(path)
if !append {
// TODO (brianbland): cancel other uploads at this path
resp, err := d.S3.CreateMultipartUpload(&s3.CreateMultipartUploadInput{
Bucket: aws.String(d.Bucket),
Key: aws.String(key),
ContentType: d.getContentType(),
ACL: d.getACL(),
ServerSideEncryption: d.getEncryptionMode(),
SSEKMSKeyId: d.getSSEKMSKeyID(),
StorageClass: d.getStorageClass(),
})
if err != nil {
return nil, err
}
return d.newWriter(key, *resp.UploadId, nil), nil
}
resp, err := d.S3.ListMultipartUploads(&s3.ListMultipartUploadsInput{
Bucket: aws.String(d.Bucket),
Prefix: aws.String(key),
})
if err != nil {
return nil, parseError(path, err)
}
for _, multi := range resp.Uploads {
if key != *multi.Key {
continue
}
resp, err := d.S3.ListParts(&s3.ListPartsInput{
Bucket: aws.String(d.Bucket),
Key: aws.String(key),
UploadId: multi.UploadId,
})
if err != nil {
return nil, parseError(path, err)
}
var multiSize int64
for _, part := range resp.Parts {
multiSize += *part.Size
}
return d.newWriter(key, *multi.UploadId, resp.Parts), nil
}
return nil, storagedriver.PathNotFoundError{Path: path}
}
// Stat retrieves the FileInfo for the given path, including the current size
// in bytes and the creation time.
func (d *driver) Stat(ctx context.Context, path string) (storagedriver.FileInfo, error) {
resp, err := d.S3.ListObjects(&s3.ListObjectsInput{
Bucket: aws.String(d.Bucket),
Prefix: aws.String(d.s3Path(path)),
MaxKeys: aws.Int64(1),
})
if err != nil {
return nil, err
}
fi := storagedriver.FileInfoFields{
Path: path,
}
if len(resp.Contents) == 1 {
if *resp.Contents[0].Key != d.s3Path(path) {
fi.IsDir = true
} else {
fi.IsDir = false
fi.Size = *resp.Contents[0].Size
fi.ModTime = *resp.Contents[0].LastModified
}
} else if len(resp.CommonPrefixes) == 1 {
fi.IsDir = true
} else {
return nil, storagedriver.PathNotFoundError{Path: path}
}
return storagedriver.FileInfoInternal{FileInfoFields: fi}, nil
}
// List returns a list of the objects that are direct descendants of the given path.
func (d *driver) List(ctx context.Context, opath string) ([]string, error) {
path := opath
if path != "/" && path[len(path)-1] != '/' {
path = path + "/"
}
// This is to cover for the cases when the rootDirectory of the driver is either "" or "/".
// In those cases, there is no root prefix to replace and we must actually add a "/" to all
// results in order to keep them as valid paths as recognized by storagedriver.PathRegexp
prefix := ""
if d.s3Path("") == "" {
prefix = "/"
}
resp, err := d.S3.ListObjects(&s3.ListObjectsInput{
Bucket: aws.String(d.Bucket),
Prefix: aws.String(d.s3Path(path)),
Delimiter: aws.String("/"),
MaxKeys: aws.Int64(listMax),
})
if err != nil {
return nil, parseError(opath, err)
}
files := []string{}
directories := []string{}
for {
for _, key := range resp.Contents {
files = append(files, strings.Replace(*key.Key, d.s3Path(""), prefix, 1))
}
for _, commonPrefix := range resp.CommonPrefixes {
commonPrefix := *commonPrefix.Prefix
directories = append(directories, strings.Replace(commonPrefix[0:len(commonPrefix)-1], d.s3Path(""), prefix, 1))
}
if *resp.IsTruncated {
resp, err = d.S3.ListObjects(&s3.ListObjectsInput{
Bucket: aws.String(d.Bucket),
Prefix: aws.String(d.s3Path(path)),
Delimiter: aws.String("/"),
MaxKeys: aws.Int64(listMax),
Marker: resp.NextMarker,
})
if err != nil {
return nil, err
}
} else {
break
}
}
if opath != "/" {
if len(files) == 0 && len(directories) == 0 {
// Treat empty response as missing directory, since we don't actually
// have directories in s3.
return nil, storagedriver.PathNotFoundError{Path: opath}
}
}
return append(files, directories...), nil
}
// Move moves an object stored at sourcePath to destPath, removing the original
// object.
func (d *driver) Move(ctx context.Context, sourcePath string, destPath string) error {
/* This is terrible, but aws doesn't have an actual move. */
if err := d.copy(ctx, sourcePath, destPath); err != nil {
return err
}
return d.Delete(ctx, sourcePath)
}
// copy copies an object stored at sourcePath to destPath.
func (d *driver) copy(ctx context.Context, sourcePath string, destPath string) error {
// S3 can copy objects up to 5 GB in size with a single PUT Object - Copy
// operation. For larger objects, the multipart upload API must be used.
//
// Empirically, multipart copy is fastest with 32 MB parts and is faster
// than PUT Object - Copy for objects larger than 32 MB.
fileInfo, err := d.Stat(ctx, sourcePath)
if err != nil {
return parseError(sourcePath, err)
}
if fileInfo.Size() <= d.MultipartCopyThresholdSize {
_, err := d.S3.CopyObject(&s3.CopyObjectInput{
Bucket: aws.String(d.Bucket),
Key: aws.String(d.s3Path(destPath)),
ContentType: d.getContentType(),
ACL: d.getACL(),
ServerSideEncryption: d.getEncryptionMode(),
SSEKMSKeyId: d.getSSEKMSKeyID(),
StorageClass: d.getStorageClass(),
CopySource: aws.String(d.Bucket + "/" + d.s3Path(sourcePath)),
})
if err != nil {
return parseError(sourcePath, err)
}
return nil
}
createResp, err := d.S3.CreateMultipartUpload(&s3.CreateMultipartUploadInput{
Bucket: aws.String(d.Bucket),
Key: aws.String(d.s3Path(destPath)),
ContentType: d.getContentType(),
ACL: d.getACL(),
SSEKMSKeyId: d.getSSEKMSKeyID(),
ServerSideEncryption: d.getEncryptionMode(),
StorageClass: d.getStorageClass(),
})
if err != nil {
return err
}
numParts := (fileInfo.Size() + d.MultipartCopyChunkSize - 1) / d.MultipartCopyChunkSize
completedParts := make([]*s3.CompletedPart, numParts)
errChan := make(chan error, numParts)
limiter := make(chan struct{}, d.MultipartCopyMaxConcurrency)
for i := range completedParts {
i := int64(i)
go func() {
limiter <- struct{}{}
firstByte := i * d.MultipartCopyChunkSize
lastByte := firstByte + d.MultipartCopyChunkSize - 1
if lastByte >= fileInfo.Size() {
lastByte = fileInfo.Size() - 1
}
uploadResp, err := d.S3.UploadPartCopy(&s3.UploadPartCopyInput{
Bucket: aws.String(d.Bucket),
CopySource: aws.String(d.Bucket + "/" + d.s3Path(sourcePath)),
Key: aws.String(d.s3Path(destPath)),
PartNumber: aws.Int64(i + 1),
UploadId: createResp.UploadId,
CopySourceRange: aws.String(fmt.Sprintf("bytes=%d-%d", firstByte, lastByte)),
})
if err == nil {
completedParts[i] = &s3.CompletedPart{
ETag: uploadResp.CopyPartResult.ETag,
PartNumber: aws.Int64(i + 1),
}
}
errChan <- err
<-limiter
}()
}
for range completedParts {
err := <-errChan
if err != nil {
return err
}
}
_, err = d.S3.CompleteMultipartUpload(&s3.CompleteMultipartUploadInput{
Bucket: aws.String(d.Bucket),
Key: aws.String(d.s3Path(destPath)),
UploadId: createResp.UploadId,
MultipartUpload: &s3.CompletedMultipartUpload{Parts: completedParts},
})
return err
}
func min(a, b int) int {
if a < b {
return a
}
return b
}
// Delete recursively deletes all objects stored at "path" and its subpaths.
// We must be careful since S3 does not guarantee read after delete consistency
func (d *driver) Delete(ctx context.Context, path string) error {
s3Objects := make([]*s3.ObjectIdentifier, 0, listMax)
s3Path := d.s3Path(path)
listObjectsInput := &s3.ListObjectsInput{
Bucket: aws.String(d.Bucket),
Prefix: aws.String(s3Path),
}
ListLoop:
for {
// list all the objects
resp, err := d.S3.ListObjects(listObjectsInput)
// resp.Contents can only be empty on the first call
// if there were no more results to return after the first call, resp.IsTruncated would have been false
// and the loop would be exited without recalling ListObjects
if err != nil || len(resp.Contents) == 0 {
return storagedriver.PathNotFoundError{Path: path}
}
for _, key := range resp.Contents {
// Stop if we encounter a key that is not a subpath (so that deleting "/a" does not delete "/ab").
if len(*key.Key) > len(s3Path) && (*key.Key)[len(s3Path)] != '/' {
break ListLoop
}
s3Objects = append(s3Objects, &s3.ObjectIdentifier{
Key: key.Key,
})
}
// resp.Contents must have at least one element or we would have returned not found
listObjectsInput.Marker = resp.Contents[len(resp.Contents)-1].Key
// from the s3 api docs, IsTruncated "specifies whether (true) or not (false) all of the results were returned"
// if everything has been returned, break
if resp.IsTruncated == nil || !*resp.IsTruncated {
break
}
}
// need to chunk objects into groups of 1000 per s3 restrictions
total := len(s3Objects)
for i := 0; i < total; i += 1000 {
_, err := d.S3.DeleteObjects(&s3.DeleteObjectsInput{
Bucket: aws.String(d.Bucket),
Delete: &s3.Delete{
Objects: s3Objects[i:min(i+1000, total)],
Quiet: aws.Bool(false),
},
})
if err != nil {
return err
}
}
return nil
}
// URLFor returns a URL which may be used to retrieve the content stored at the given path.
// May return an UnsupportedMethodErr in certain StorageDriver implementations.
func (d *driver) URLFor(ctx context.Context, path string, options map[string]interface{}) (string, error) {
methodString := "GET"
method, ok := options["method"]
if ok {
methodString, ok = method.(string)
if !ok || (methodString != "GET" && methodString != "HEAD") {
return "", storagedriver.ErrUnsupportedMethod{}
}
}
expiresIn := 20 * time.Minute
expires, ok := options["expiry"]
if ok {
et, ok := expires.(time.Time)
if ok {
expiresIn = et.Sub(time.Now())
}
}
var req *request.Request
switch methodString {
case "GET":
req, _ = d.S3.GetObjectRequest(&s3.GetObjectInput{
Bucket: aws.String(d.Bucket),
Key: aws.String(d.s3Path(path)),
})
case "HEAD":
req, _ = d.S3.HeadObjectRequest(&s3.HeadObjectInput{
Bucket: aws.String(d.Bucket),
Key: aws.String(d.s3Path(path)),
})
default:
panic("unreachable")
}
return req.Presign(expiresIn)
}
// Walk traverses a filesystem defined within driver, starting
// from the given path, calling f on each file
func (d *driver) Walk(ctx context.Context, from string, f storagedriver.WalkFn) error {
path := from
if !strings.HasSuffix(path, "/") {
path = path + "/"
}
prefix := ""
if d.s3Path("") == "" {
prefix = "/"
}
var objectCount int64
if err := d.doWalk(ctx, &objectCount, d.s3Path(path), prefix, f); err != nil {
return err
}
// S3 doesn't have the concept of empty directories, so it'll return path not found if there are no objects
if objectCount == 0 {
return storagedriver.PathNotFoundError{Path: from}
}
return nil
}
type walkInfoContainer struct {
storagedriver.FileInfoFields
prefix *string
}
// Path provides the full path of the target of this file info.
func (wi walkInfoContainer) Path() string {
return wi.FileInfoFields.Path
}
// Size returns current length in bytes of the file. The return value can
// be used to write to the end of the file at path. The value is
// meaningless if IsDir returns true.
func (wi walkInfoContainer) Size() int64 {
return wi.FileInfoFields.Size
}
// ModTime returns the modification time for the file. For backends that
// don't have a modification time, the creation time should be returned.
func (wi walkInfoContainer) ModTime() time.Time {
return wi.FileInfoFields.ModTime
}
// IsDir returns true if the path is a directory.
func (wi walkInfoContainer) IsDir() bool {
return wi.FileInfoFields.IsDir
}
func (d *driver) doWalk(parentCtx context.Context, objectCount *int64, path, prefix string, f storagedriver.WalkFn) error {
var retError error
listObjectsInput := &s3.ListObjectsV2Input{
Bucket: aws.String(d.Bucket),
Prefix: aws.String(path),
Delimiter: aws.String("/"),
MaxKeys: aws.Int64(listMax),
}
ctx, done := dcontext.WithTrace(parentCtx)
defer done("s3aws.ListObjectsV2Pages(%s)", path)
listObjectErr := d.S3.ListObjectsV2PagesWithContext(ctx, listObjectsInput, func(objects *s3.ListObjectsV2Output, lastPage bool) bool {
var count int64
// KeyCount was introduced with version 2 of the GET Bucket operation in S3.
// Some S3 implementations don't support V2 now, so we fall back to manual
// calculation of the key count if required
if objects.KeyCount != nil {
count = *objects.KeyCount
*objectCount += *objects.KeyCount
} else {
count = int64(len(objects.Contents) + len(objects.CommonPrefixes))
*objectCount += count
}
walkInfos := make([]walkInfoContainer, 0, count)
for _, dir := range objects.CommonPrefixes {
commonPrefix := *dir.Prefix
walkInfos = append(walkInfos, walkInfoContainer{
prefix: dir.Prefix,
FileInfoFields: storagedriver.FileInfoFields{
IsDir: true,
Path: strings.Replace(commonPrefix[:len(commonPrefix)-1], d.s3Path(""), prefix, 1),
},
})
}
for _, file := range objects.Contents {
walkInfos = append(walkInfos, walkInfoContainer{
FileInfoFields: storagedriver.FileInfoFields{
IsDir: false,
Size: *file.Size,
ModTime: *file.LastModified,
Path: strings.Replace(*file.Key, d.s3Path(""), prefix, 1),
},
})
}
sort.SliceStable(walkInfos, func(i, j int) bool { return walkInfos[i].FileInfoFields.Path < walkInfos[j].FileInfoFields.Path })
for _, walkInfo := range walkInfos {
err := f(walkInfo)
if err == storagedriver.ErrSkipDir {
if walkInfo.IsDir() {
continue
} else {
break
}
} else if err != nil {
retError = err
return false
}
if walkInfo.IsDir() {
if err := d.doWalk(ctx, objectCount, *walkInfo.prefix, prefix, f); err != nil {
retError = err
return false
}
}
}
return true
})
if retError != nil {
return retError
}
if listObjectErr != nil {
return listObjectErr
}
return nil
}
func (d *driver) s3Path(path string) string {
return strings.TrimLeft(strings.TrimRight(d.RootDirectory, "/")+path, "/")
}
// S3BucketKey returns the s3 bucket key for the given storage driver path.
func (d *Driver) S3BucketKey(path string) string {
return d.StorageDriver.(*driver).s3Path(path)
}
func parseError(path string, err error) error {
if s3Err, ok := err.(awserr.Error); ok && s3Err.Code() == "NoSuchKey" {
return storagedriver.PathNotFoundError{Path: path}
}
return err
}
func (d *driver) getEncryptionMode() *string {
if !d.Encrypt {
return nil
}
if d.KeyID == "" {
return aws.String("AES256")
}
return aws.String("aws:kms")
}
func (d *driver) getSSEKMSKeyID() *string {
if d.KeyID != "" {
return aws.String(d.KeyID)
}
return nil
}
func (d *driver) getContentType() *string {
return aws.String("application/octet-stream")
}
func (d *driver) getACL() *string {
return aws.String(d.ObjectACL)
}
func (d *driver) getStorageClass() *string {
if d.StorageClass == noStorageClass {
return nil
}
return aws.String(d.StorageClass)
}
// writer attempts to upload parts to S3 in a buffered fashion where the last
// part is at least as large as the chunksize, so the multipart upload could be
// cleanly resumed in the future. This is violated if Close is called after less
// than a full chunk is written.
type writer struct {
driver *driver
key string
uploadID string
parts []*s3.Part
size int64
readyPart []byte
pendingPart []byte
closed bool
committed bool
cancelled bool
}
func (d *driver) newWriter(key, uploadID string, parts []*s3.Part) storagedriver.FileWriter {
var size int64
for _, part := range parts {
size += *part.Size
}
return &writer{
driver: d,
key: key,
uploadID: uploadID,
parts: parts,
size: size,
}
}
type completedParts []*s3.CompletedPart
func (a completedParts) Len() int { return len(a) }
func (a completedParts) Swap(i, j int) { a[i], a[j] = a[j], a[i] }
func (a completedParts) Less(i, j int) bool { return *a[i].PartNumber < *a[j].PartNumber }
func (w *writer) Write(p []byte) (int, error) {
if w.closed {
return 0, fmt.Errorf("already closed")
} else if w.committed {
return 0, fmt.Errorf("already committed")
} else if w.cancelled {
return 0, fmt.Errorf("already cancelled")
}
// If the last written part is smaller than minChunkSize, we need to make a
// new multipart upload :sadface:
if len(w.parts) > 0 && int(*w.parts[len(w.parts)-1].Size) < minChunkSize {
var completedUploadedParts completedParts
for _, part := range w.parts {
completedUploadedParts = append(completedUploadedParts, &s3.CompletedPart{
ETag: part.ETag,
PartNumber: part.PartNumber,
})
}
sort.Sort(completedUploadedParts)
_, err := w.driver.S3.CompleteMultipartUpload(&s3.CompleteMultipartUploadInput{
Bucket: aws.String(w.driver.Bucket),
Key: aws.String(w.key),
UploadId: aws.String(w.uploadID),
MultipartUpload: &s3.CompletedMultipartUpload{
Parts: completedUploadedParts,
},
})
if err != nil {
w.driver.S3.AbortMultipartUpload(&s3.AbortMultipartUploadInput{
Bucket: aws.String(w.driver.Bucket),
Key: aws.String(w.key),
UploadId: aws.String(w.uploadID),
})
return 0, err
}
resp, err := w.driver.S3.CreateMultipartUpload(&s3.CreateMultipartUploadInput{
Bucket: aws.String(w.driver.Bucket),
Key: aws.String(w.key),
ContentType: w.driver.getContentType(),
ACL: w.driver.getACL(),
ServerSideEncryption: w.driver.getEncryptionMode(),
StorageClass: w.driver.getStorageClass(),
})
if err != nil {
return 0, err
}
w.uploadID = *resp.UploadId
// If the entire written file is smaller than minChunkSize, we need to make
// a new part from scratch :double sad face:
if w.size < minChunkSize {
resp, err := w.driver.S3.GetObject(&s3.GetObjectInput{
Bucket: aws.String(w.driver.Bucket),
Key: aws.String(w.key),
})
if err != nil {
return 0, err
}
defer resp.Body.Close()
w.parts = nil
w.readyPart, err = ioutil.ReadAll(resp.Body)
if err != nil {
return 0, err
}
} else {
// Otherwise we can use the old file as the new first part
copyPartResp, err := w.driver.S3.UploadPartCopy(&s3.UploadPartCopyInput{
Bucket: aws.String(w.driver.Bucket),
CopySource: aws.String(w.driver.Bucket + "/" + w.key),
Key: aws.String(w.key),
PartNumber: aws.Int64(1),
UploadId: resp.UploadId,
})
if err != nil {
return 0, err
}
w.parts = []*s3.Part{
{
ETag: copyPartResp.CopyPartResult.ETag,
PartNumber: aws.Int64(1),
Size: aws.Int64(w.size),
},
}
}
}
var n int
for len(p) > 0 {
// If no parts are ready to write, fill up the first part
if neededBytes := int(w.driver.ChunkSize) - len(w.readyPart); neededBytes > 0 {
if len(p) >= neededBytes {
w.readyPart = append(w.readyPart, p[:neededBytes]...)
n += neededBytes
p = p[neededBytes:]
} else {
w.readyPart = append(w.readyPart, p...)
n += len(p)
p = nil
}
}
if neededBytes := int(w.driver.ChunkSize) - len(w.pendingPart); neededBytes > 0 {
if len(p) >= neededBytes {
w.pendingPart = append(w.pendingPart, p[:neededBytes]...)
n += neededBytes
p = p[neededBytes:]
err := w.flushPart()
if err != nil {
w.size += int64(n)
return n, err
}
} else {
w.pendingPart = append(w.pendingPart, p...)
n += len(p)
p = nil
}
}
}
w.size += int64(n)
return n, nil
}
func (w *writer) Size() int64 {
return w.size
}
func (w *writer) Close() error {
if w.closed {
return fmt.Errorf("already closed")
}
w.closed = true
return w.flushPart()
}
func (w *writer) Cancel() error {
if w.closed {
return fmt.Errorf("already closed")
} else if w.committed {
return fmt.Errorf("already committed")
}
w.cancelled = true
_, err := w.driver.S3.AbortMultipartUpload(&s3.AbortMultipartUploadInput{
Bucket: aws.String(w.driver.Bucket),
Key: aws.String(w.key),
UploadId: aws.String(w.uploadID),
})
return err
}
func (w *writer) Commit() error {
if w.closed {
return fmt.Errorf("already closed")
} else if w.committed {
return fmt.Errorf("already committed")
} else if w.cancelled {
return fmt.Errorf("already cancelled")
}
err := w.flushPart()
if err != nil {
return err
}
w.committed = true
var completedUploadedParts completedParts
for _, part := range w.parts {
completedUploadedParts = append(completedUploadedParts, &s3.CompletedPart{
ETag: part.ETag,
PartNumber: part.PartNumber,
})
}
sort.Sort(completedUploadedParts)
_, err = w.driver.S3.CompleteMultipartUpload(&s3.CompleteMultipartUploadInput{
Bucket: aws.String(w.driver.Bucket),
Key: aws.String(w.key),
UploadId: aws.String(w.uploadID),
MultipartUpload: &s3.CompletedMultipartUpload{
Parts: completedUploadedParts,
},
})
if err != nil {
w.driver.S3.AbortMultipartUpload(&s3.AbortMultipartUploadInput{
Bucket: aws.String(w.driver.Bucket),
Key: aws.String(w.key),
UploadId: aws.String(w.uploadID),
})
return err
}
return nil
}
// flushPart flushes buffers to write a part to S3.
// Only called by Write (with both buffers full) and Close/Commit (always)
func (w *writer) flushPart() error {
if len(w.readyPart) == 0 && len(w.pendingPart) == 0 {
// nothing to write
return nil
}
if len(w.pendingPart) < int(w.driver.ChunkSize) {
// closing with a small pending part
// combine ready and pending to avoid writing a small part
w.readyPart = append(w.readyPart, w.pendingPart...)
w.pendingPart = nil
}
partNumber := aws.Int64(int64(len(w.parts) + 1))
resp, err := w.driver.S3.UploadPart(&s3.UploadPartInput{
Bucket: aws.String(w.driver.Bucket),
Key: aws.String(w.key),
PartNumber: partNumber,
UploadId: aws.String(w.uploadID),
Body: bytes.NewReader(w.readyPart),
})
if err != nil {
return err
}
w.parts = append(w.parts, &s3.Part{
ETag: resp.ETag,
PartNumber: partNumber,
Size: aws.Int64(int64(len(w.readyPart))),
})
w.readyPart = w.pendingPart
w.pendingPart = nil
return nil
}