go-ethereum/swarm/api/api.go
Elad e8752f4e9f cmd/swarm, swarm: added access control functionality (#17404)
Co-authored-by: Janos Guljas <janos@resenje.org>
Co-authored-by: Anton Evangelatov <anton.evangelatov@gmail.com>
Co-authored-by: Balint Gabor <balint.g@gmail.com>
2018-08-15 17:41:52 +02:00

1029 lines
31 KiB
Go

// Copyright 2016 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
package api
import (
"archive/tar"
"context"
"crypto/ecdsa"
"encoding/hex"
"errors"
"fmt"
"io"
"math/big"
"net/http"
"path"
"strings"
"bytes"
"mime"
"path/filepath"
"time"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/contracts/ens"
"github.com/ethereum/go-ethereum/core/types"
"github.com/ethereum/go-ethereum/metrics"
"github.com/ethereum/go-ethereum/swarm/log"
"github.com/ethereum/go-ethereum/swarm/multihash"
"github.com/ethereum/go-ethereum/swarm/spancontext"
"github.com/ethereum/go-ethereum/swarm/storage"
"github.com/ethereum/go-ethereum/swarm/storage/mru"
opentracing "github.com/opentracing/opentracing-go"
)
var (
ErrNotFound = errors.New("not found")
)
var (
apiResolveCount = metrics.NewRegisteredCounter("api.resolve.count", nil)
apiResolveFail = metrics.NewRegisteredCounter("api.resolve.fail", nil)
apiPutCount = metrics.NewRegisteredCounter("api.put.count", nil)
apiPutFail = metrics.NewRegisteredCounter("api.put.fail", nil)
apiGetCount = metrics.NewRegisteredCounter("api.get.count", nil)
apiGetNotFound = metrics.NewRegisteredCounter("api.get.notfound", nil)
apiGetHTTP300 = metrics.NewRegisteredCounter("api.get.http.300", nil)
apiManifestUpdateCount = metrics.NewRegisteredCounter("api.manifestupdate.count", nil)
apiManifestUpdateFail = metrics.NewRegisteredCounter("api.manifestupdate.fail", nil)
apiManifestListCount = metrics.NewRegisteredCounter("api.manifestlist.count", nil)
apiManifestListFail = metrics.NewRegisteredCounter("api.manifestlist.fail", nil)
apiDeleteCount = metrics.NewRegisteredCounter("api.delete.count", nil)
apiDeleteFail = metrics.NewRegisteredCounter("api.delete.fail", nil)
apiGetTarCount = metrics.NewRegisteredCounter("api.gettar.count", nil)
apiGetTarFail = metrics.NewRegisteredCounter("api.gettar.fail", nil)
apiUploadTarCount = metrics.NewRegisteredCounter("api.uploadtar.count", nil)
apiUploadTarFail = metrics.NewRegisteredCounter("api.uploadtar.fail", nil)
apiModifyCount = metrics.NewRegisteredCounter("api.modify.count", nil)
apiModifyFail = metrics.NewRegisteredCounter("api.modify.fail", nil)
apiAddFileCount = metrics.NewRegisteredCounter("api.addfile.count", nil)
apiAddFileFail = metrics.NewRegisteredCounter("api.addfile.fail", nil)
apiRmFileCount = metrics.NewRegisteredCounter("api.removefile.count", nil)
apiRmFileFail = metrics.NewRegisteredCounter("api.removefile.fail", nil)
apiAppendFileCount = metrics.NewRegisteredCounter("api.appendfile.count", nil)
apiAppendFileFail = metrics.NewRegisteredCounter("api.appendfile.fail", nil)
apiGetInvalid = metrics.NewRegisteredCounter("api.get.invalid", nil)
)
// Resolver interface resolve a domain name to a hash using ENS
type Resolver interface {
Resolve(string) (common.Hash, error)
}
// ResolveValidator is used to validate the contained Resolver
type ResolveValidator interface {
Resolver
Owner(node [32]byte) (common.Address, error)
HeaderByNumber(context.Context, *big.Int) (*types.Header, error)
}
// NoResolverError is returned by MultiResolver.Resolve if no resolver
// can be found for the address.
type NoResolverError struct {
TLD string
}
// NewNoResolverError creates a NoResolverError for the given top level domain
func NewNoResolverError(tld string) *NoResolverError {
return &NoResolverError{TLD: tld}
}
// Error NoResolverError implements error
func (e *NoResolverError) Error() string {
if e.TLD == "" {
return "no ENS resolver"
}
return fmt.Sprintf("no ENS endpoint configured to resolve .%s TLD names", e.TLD)
}
// MultiResolver is used to resolve URL addresses based on their TLDs.
// Each TLD can have multiple resolvers, and the resoluton from the
// first one in the sequence will be returned.
type MultiResolver struct {
resolvers map[string][]ResolveValidator
nameHash func(string) common.Hash
}
// MultiResolverOption sets options for MultiResolver and is used as
// arguments for its constructor.
type MultiResolverOption func(*MultiResolver)
// MultiResolverOptionWithResolver adds a Resolver to a list of resolvers
// for a specific TLD. If TLD is an empty string, the resolver will be added
// to the list of default resolver, the ones that will be used for resolution
// of addresses which do not have their TLD resolver specified.
func MultiResolverOptionWithResolver(r ResolveValidator, tld string) MultiResolverOption {
return func(m *MultiResolver) {
m.resolvers[tld] = append(m.resolvers[tld], r)
}
}
// MultiResolverOptionWithNameHash is unused at the time of this writing
func MultiResolverOptionWithNameHash(nameHash func(string) common.Hash) MultiResolverOption {
return func(m *MultiResolver) {
m.nameHash = nameHash
}
}
// NewMultiResolver creates a new instance of MultiResolver.
func NewMultiResolver(opts ...MultiResolverOption) (m *MultiResolver) {
m = &MultiResolver{
resolvers: make(map[string][]ResolveValidator),
nameHash: ens.EnsNode,
}
for _, o := range opts {
o(m)
}
return m
}
// Resolve resolves address by choosing a Resolver by TLD.
// If there are more default Resolvers, or for a specific TLD,
// the Hash from the the first one which does not return error
// will be returned.
func (m *MultiResolver) Resolve(addr string) (h common.Hash, err error) {
rs, err := m.getResolveValidator(addr)
if err != nil {
return h, err
}
for _, r := range rs {
h, err = r.Resolve(addr)
if err == nil {
return
}
}
return
}
// ValidateOwner checks the ENS to validate that the owner of the given domain is the given eth address
func (m *MultiResolver) ValidateOwner(name string, address common.Address) (bool, error) {
rs, err := m.getResolveValidator(name)
if err != nil {
return false, err
}
var addr common.Address
for _, r := range rs {
addr, err = r.Owner(m.nameHash(name))
// we hide the error if it is not for the last resolver we check
if err == nil {
return addr == address, nil
}
}
return false, err
}
// HeaderByNumber uses the validator of the given domainname and retrieves the header for the given block number
func (m *MultiResolver) HeaderByNumber(ctx context.Context, name string, blockNr *big.Int) (*types.Header, error) {
rs, err := m.getResolveValidator(name)
if err != nil {
return nil, err
}
for _, r := range rs {
var header *types.Header
header, err = r.HeaderByNumber(ctx, blockNr)
// we hide the error if it is not for the last resolver we check
if err == nil {
return header, nil
}
}
return nil, err
}
// getResolveValidator uses the hostname to retrieve the resolver associated with the top level domain
func (m *MultiResolver) getResolveValidator(name string) ([]ResolveValidator, error) {
rs := m.resolvers[""]
tld := path.Ext(name)
if tld != "" {
tld = tld[1:]
rstld, ok := m.resolvers[tld]
if ok {
return rstld, nil
}
}
if len(rs) == 0 {
return rs, NewNoResolverError(tld)
}
return rs, nil
}
// SetNameHash sets the hasher function that hashes the domain into a name hash that ENS uses
func (m *MultiResolver) SetNameHash(nameHash func(string) common.Hash) {
m.nameHash = nameHash
}
/*
API implements webserver/file system related content storage and retrieval
on top of the FileStore
it is the public interface of the FileStore which is included in the ethereum stack
*/
type API struct {
resource *mru.Handler
fileStore *storage.FileStore
dns Resolver
Decryptor func(context.Context, string) DecryptFunc
}
// NewAPI the api constructor initialises a new API instance.
func NewAPI(fileStore *storage.FileStore, dns Resolver, resourceHandler *mru.Handler, pk *ecdsa.PrivateKey) (self *API) {
self = &API{
fileStore: fileStore,
dns: dns,
resource: resourceHandler,
Decryptor: func(ctx context.Context, credentials string) DecryptFunc {
return self.doDecrypt(ctx, credentials, pk)
},
}
return
}
// Upload to be used only in TEST
func (a *API) Upload(ctx context.Context, uploadDir, index string, toEncrypt bool) (hash string, err error) {
fs := NewFileSystem(a)
hash, err = fs.Upload(uploadDir, index, toEncrypt)
return hash, err
}
// Retrieve FileStore reader API
func (a *API) Retrieve(ctx context.Context, addr storage.Address) (reader storage.LazySectionReader, isEncrypted bool) {
return a.fileStore.Retrieve(ctx, addr)
}
// Store wraps the Store API call of the embedded FileStore
func (a *API) Store(ctx context.Context, data io.Reader, size int64, toEncrypt bool) (addr storage.Address, wait func(ctx context.Context) error, err error) {
log.Debug("api.store", "size", size)
return a.fileStore.Store(ctx, data, size, toEncrypt)
}
// ErrResolve is returned when an URI cannot be resolved from ENS.
type ErrResolve error
// Resolve a name into a content-addressed hash
// where address could be an ENS name, or a content addressed hash
func (a *API) Resolve(ctx context.Context, address string) (storage.Address, error) {
// if DNS is not configured, return an error
if a.dns == nil {
if hashMatcher.MatchString(address) {
return common.Hex2Bytes(address), nil
}
apiResolveFail.Inc(1)
return nil, fmt.Errorf("no DNS to resolve name: %q", address)
}
// try and resolve the address
resolved, err := a.dns.Resolve(address)
if err != nil {
if hashMatcher.MatchString(address) {
return common.Hex2Bytes(address), nil
}
return nil, err
}
return resolved[:], nil
}
// Resolve resolves a URI to an Address using the MultiResolver.
func (a *API) ResolveURI(ctx context.Context, uri *URI, credentials string) (storage.Address, error) {
apiResolveCount.Inc(1)
log.Trace("resolving", "uri", uri.Addr)
var sp opentracing.Span
ctx, sp = spancontext.StartSpan(
ctx,
"api.resolve")
defer sp.Finish()
// if the URI is immutable, check if the address looks like a hash
if uri.Immutable() {
key := uri.Address()
if key == nil {
return nil, fmt.Errorf("immutable address not a content hash: %q", uri.Addr)
}
return key, nil
}
addr, err := a.Resolve(ctx, uri.Addr)
if err != nil {
return nil, err
}
if uri.Path == "" {
return addr, nil
}
walker, err := a.NewManifestWalker(ctx, addr, a.Decryptor(ctx, credentials), nil)
if err != nil {
return nil, err
}
var entry *ManifestEntry
walker.Walk(func(e *ManifestEntry) error {
// if the entry matches the path, set entry and stop
// the walk
if e.Path == uri.Path {
entry = e
// return an error to cancel the walk
return errors.New("found")
}
// ignore non-manifest files
if e.ContentType != ManifestType {
return nil
}
// if the manifest's path is a prefix of the
// requested path, recurse into it by returning
// nil and continuing the walk
if strings.HasPrefix(uri.Path, e.Path) {
return nil
}
return ErrSkipManifest
})
if entry == nil {
return nil, errors.New("not found")
}
addr = storage.Address(common.Hex2Bytes(entry.Hash))
return addr, nil
}
// Put provides singleton manifest creation on top of FileStore store
func (a *API) Put(ctx context.Context, content string, contentType string, toEncrypt bool) (k storage.Address, wait func(context.Context) error, err error) {
apiPutCount.Inc(1)
r := strings.NewReader(content)
key, waitContent, err := a.fileStore.Store(ctx, r, int64(len(content)), toEncrypt)
if err != nil {
apiPutFail.Inc(1)
return nil, nil, err
}
manifest := fmt.Sprintf(`{"entries":[{"hash":"%v","contentType":"%s"}]}`, key, contentType)
r = strings.NewReader(manifest)
key, waitManifest, err := a.fileStore.Store(ctx, r, int64(len(manifest)), toEncrypt)
if err != nil {
apiPutFail.Inc(1)
return nil, nil, err
}
return key, func(ctx context.Context) error {
err := waitContent(ctx)
if err != nil {
return err
}
return waitManifest(ctx)
}, nil
}
// Get uses iterative manifest retrieval and prefix matching
// to resolve basePath to content using FileStore retrieve
// it returns a section reader, mimeType, status, the key of the actual content and an error
func (a *API) Get(ctx context.Context, decrypt DecryptFunc, manifestAddr storage.Address, path string) (reader storage.LazySectionReader, mimeType string, status int, contentAddr storage.Address, err error) {
log.Debug("api.get", "key", manifestAddr, "path", path)
apiGetCount.Inc(1)
trie, err := loadManifest(ctx, a.fileStore, manifestAddr, nil, decrypt)
if err != nil {
apiGetNotFound.Inc(1)
status = http.StatusNotFound
return nil, "", http.StatusNotFound, nil, err
}
log.Debug("trie getting entry", "key", manifestAddr, "path", path)
entry, _ := trie.getEntry(path)
if entry != nil {
log.Debug("trie got entry", "key", manifestAddr, "path", path, "entry.Hash", entry.Hash)
if entry.ContentType == ManifestType {
log.Debug("entry is manifest", "key", manifestAddr, "new key", entry.Hash)
adr, err := hex.DecodeString(entry.Hash)
if err != nil {
return nil, "", 0, nil, err
}
return a.Get(ctx, decrypt, adr, entry.Path)
}
// we need to do some extra work if this is a mutable resource manifest
if entry.ContentType == ResourceContentType {
// get the resource rootAddr
log.Trace("resource type", "menifestAddr", manifestAddr, "hash", entry.Hash)
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
rootAddr := storage.Address(common.FromHex(entry.Hash))
rsrc, err := a.resource.Load(ctx, rootAddr)
if err != nil {
apiGetNotFound.Inc(1)
status = http.StatusNotFound
log.Debug(fmt.Sprintf("get resource content error: %v", err))
return reader, mimeType, status, nil, err
}
// use this key to retrieve the latest update
params := mru.LookupLatest(rootAddr)
rsrc, err = a.resource.Lookup(ctx, params)
if err != nil {
apiGetNotFound.Inc(1)
status = http.StatusNotFound
log.Debug(fmt.Sprintf("get resource content error: %v", err))
return reader, mimeType, status, nil, err
}
// if it's multihash, we will transparently serve the content this multihash points to
// \TODO this resolve is rather expensive all in all, review to see if it can be achieved cheaper
if rsrc.Multihash() {
// get the data of the update
_, rsrcData, err := a.resource.GetContent(rootAddr)
if err != nil {
apiGetNotFound.Inc(1)
status = http.StatusNotFound
log.Warn(fmt.Sprintf("get resource content error: %v", err))
return reader, mimeType, status, nil, err
}
// validate that data as multihash
decodedMultihash, err := multihash.FromMultihash(rsrcData)
if err != nil {
apiGetInvalid.Inc(1)
status = http.StatusUnprocessableEntity
log.Warn("invalid resource multihash", "err", err)
return reader, mimeType, status, nil, err
}
manifestAddr = storage.Address(decodedMultihash)
log.Trace("resource is multihash", "key", manifestAddr)
// get the manifest the multihash digest points to
trie, err := loadManifest(ctx, a.fileStore, manifestAddr, nil, decrypt)
if err != nil {
apiGetNotFound.Inc(1)
status = http.StatusNotFound
log.Warn(fmt.Sprintf("loadManifestTrie (resource multihash) error: %v", err))
return reader, mimeType, status, nil, err
}
// finally, get the manifest entry
// it will always be the entry on path ""
entry, _ = trie.getEntry(path)
if entry == nil {
status = http.StatusNotFound
apiGetNotFound.Inc(1)
err = fmt.Errorf("manifest (resource multihash) entry for '%s' not found", path)
log.Trace("manifest (resource multihash) entry not found", "key", manifestAddr, "path", path)
return reader, mimeType, status, nil, err
}
} else {
// data is returned verbatim since it's not a multihash
return rsrc, "application/octet-stream", http.StatusOK, nil, nil
}
}
// regardless of resource update manifests or normal manifests we will converge at this point
// get the key the manifest entry points to and serve it if it's unambiguous
contentAddr = common.Hex2Bytes(entry.Hash)
status = entry.Status
if status == http.StatusMultipleChoices {
apiGetHTTP300.Inc(1)
return nil, entry.ContentType, status, contentAddr, err
}
mimeType = entry.ContentType
log.Debug("content lookup key", "key", contentAddr, "mimetype", mimeType)
reader, _ = a.fileStore.Retrieve(ctx, contentAddr)
} else {
// no entry found
status = http.StatusNotFound
apiGetNotFound.Inc(1)
err = fmt.Errorf("manifest entry for '%s' not found", path)
log.Trace("manifest entry not found", "key", contentAddr, "path", path)
}
return
}
func (a *API) Delete(ctx context.Context, addr string, path string) (storage.Address, error) {
apiDeleteCount.Inc(1)
uri, err := Parse("bzz:/" + addr)
if err != nil {
apiDeleteFail.Inc(1)
return nil, err
}
key, err := a.ResolveURI(ctx, uri, EMPTY_CREDENTIALS)
if err != nil {
return nil, err
}
newKey, err := a.UpdateManifest(ctx, key, func(mw *ManifestWriter) error {
log.Debug(fmt.Sprintf("removing %s from manifest %s", path, key.Log()))
return mw.RemoveEntry(path)
})
if err != nil {
apiDeleteFail.Inc(1)
return nil, err
}
return newKey, nil
}
// GetDirectoryTar fetches a requested directory as a tarstream
// it returns an io.Reader and an error. Do not forget to Close() the returned ReadCloser
func (a *API) GetDirectoryTar(ctx context.Context, decrypt DecryptFunc, uri *URI) (io.ReadCloser, error) {
apiGetTarCount.Inc(1)
addr, err := a.Resolve(ctx, uri.Addr)
if err != nil {
return nil, err
}
walker, err := a.NewManifestWalker(ctx, addr, decrypt, nil)
if err != nil {
apiGetTarFail.Inc(1)
return nil, err
}
piper, pipew := io.Pipe()
tw := tar.NewWriter(pipew)
go func() {
err := walker.Walk(func(entry *ManifestEntry) error {
// ignore manifests (walk will recurse into them)
if entry.ContentType == ManifestType {
return nil
}
// retrieve the entry's key and size
reader, _ := a.Retrieve(ctx, storage.Address(common.Hex2Bytes(entry.Hash)))
size, err := reader.Size(ctx, nil)
if err != nil {
return err
}
// write a tar header for the entry
hdr := &tar.Header{
Name: entry.Path,
Mode: entry.Mode,
Size: size,
ModTime: entry.ModTime,
Xattrs: map[string]string{
"user.swarm.content-type": entry.ContentType,
},
}
if err := tw.WriteHeader(hdr); err != nil {
return err
}
// copy the file into the tar stream
n, err := io.Copy(tw, io.LimitReader(reader, hdr.Size))
if err != nil {
return err
} else if n != size {
return fmt.Errorf("error writing %s: expected %d bytes but sent %d", entry.Path, size, n)
}
return nil
})
// close tar writer before closing pipew
// to flush remaining data to pipew
// regardless of error value
tw.Close()
if err != nil {
apiGetTarFail.Inc(1)
pipew.CloseWithError(err)
} else {
pipew.Close()
}
}()
return piper, nil
}
// GetManifestList lists the manifest entries for the specified address and prefix
// and returns it as a ManifestList
func (a *API) GetManifestList(ctx context.Context, decryptor DecryptFunc, addr storage.Address, prefix string) (list ManifestList, err error) {
apiManifestListCount.Inc(1)
walker, err := a.NewManifestWalker(ctx, addr, decryptor, nil)
if err != nil {
apiManifestListFail.Inc(1)
return ManifestList{}, err
}
err = walker.Walk(func(entry *ManifestEntry) error {
// handle non-manifest files
if entry.ContentType != ManifestType {
// ignore the file if it doesn't have the specified prefix
if !strings.HasPrefix(entry.Path, prefix) {
return nil
}
// if the path after the prefix contains a slash, add a
// common prefix to the list, otherwise add the entry
suffix := strings.TrimPrefix(entry.Path, prefix)
if index := strings.Index(suffix, "/"); index > -1 {
list.CommonPrefixes = append(list.CommonPrefixes, prefix+suffix[:index+1])
return nil
}
if entry.Path == "" {
entry.Path = "/"
}
list.Entries = append(list.Entries, entry)
return nil
}
// if the manifest's path is a prefix of the specified prefix
// then just recurse into the manifest by returning nil and
// continuing the walk
if strings.HasPrefix(prefix, entry.Path) {
return nil
}
// if the manifest's path has the specified prefix, then if the
// path after the prefix contains a slash, add a common prefix
// to the list and skip the manifest, otherwise recurse into
// the manifest by returning nil and continuing the walk
if strings.HasPrefix(entry.Path, prefix) {
suffix := strings.TrimPrefix(entry.Path, prefix)
if index := strings.Index(suffix, "/"); index > -1 {
list.CommonPrefixes = append(list.CommonPrefixes, prefix+suffix[:index+1])
return ErrSkipManifest
}
return nil
}
// the manifest neither has the prefix or needs recursing in to
// so just skip it
return ErrSkipManifest
})
if err != nil {
apiManifestListFail.Inc(1)
return ManifestList{}, err
}
return list, nil
}
func (a *API) UpdateManifest(ctx context.Context, addr storage.Address, update func(mw *ManifestWriter) error) (storage.Address, error) {
apiManifestUpdateCount.Inc(1)
mw, err := a.NewManifestWriter(ctx, addr, nil)
if err != nil {
apiManifestUpdateFail.Inc(1)
return nil, err
}
if err := update(mw); err != nil {
apiManifestUpdateFail.Inc(1)
return nil, err
}
addr, err = mw.Store()
if err != nil {
apiManifestUpdateFail.Inc(1)
return nil, err
}
log.Debug(fmt.Sprintf("generated manifest %s", addr))
return addr, nil
}
// Modify loads manifest and checks the content hash before recalculating and storing the manifest.
func (a *API) Modify(ctx context.Context, addr storage.Address, path, contentHash, contentType string) (storage.Address, error) {
apiModifyCount.Inc(1)
quitC := make(chan bool)
trie, err := loadManifest(ctx, a.fileStore, addr, quitC, NOOPDecrypt)
if err != nil {
apiModifyFail.Inc(1)
return nil, err
}
if contentHash != "" {
entry := newManifestTrieEntry(&ManifestEntry{
Path: path,
ContentType: contentType,
}, nil)
entry.Hash = contentHash
trie.addEntry(entry, quitC)
} else {
trie.deleteEntry(path, quitC)
}
if err := trie.recalcAndStore(); err != nil {
apiModifyFail.Inc(1)
return nil, err
}
return trie.ref, nil
}
// AddFile creates a new manifest entry, adds it to swarm, then adds a file to swarm.
func (a *API) AddFile(ctx context.Context, mhash, path, fname string, content []byte, nameresolver bool) (storage.Address, string, error) {
apiAddFileCount.Inc(1)
uri, err := Parse("bzz:/" + mhash)
if err != nil {
apiAddFileFail.Inc(1)
return nil, "", err
}
mkey, err := a.ResolveURI(ctx, uri, EMPTY_CREDENTIALS)
if err != nil {
apiAddFileFail.Inc(1)
return nil, "", err
}
// trim the root dir we added
if path[:1] == "/" {
path = path[1:]
}
entry := &ManifestEntry{
Path: filepath.Join(path, fname),
ContentType: mime.TypeByExtension(filepath.Ext(fname)),
Mode: 0700,
Size: int64(len(content)),
ModTime: time.Now(),
}
mw, err := a.NewManifestWriter(ctx, mkey, nil)
if err != nil {
apiAddFileFail.Inc(1)
return nil, "", err
}
fkey, err := mw.AddEntry(ctx, bytes.NewReader(content), entry)
if err != nil {
apiAddFileFail.Inc(1)
return nil, "", err
}
newMkey, err := mw.Store()
if err != nil {
apiAddFileFail.Inc(1)
return nil, "", err
}
return fkey, newMkey.String(), nil
}
func (a *API) UploadTar(ctx context.Context, bodyReader io.ReadCloser, manifestPath, defaultPath string, mw *ManifestWriter) (storage.Address, error) {
apiUploadTarCount.Inc(1)
var contentKey storage.Address
tr := tar.NewReader(bodyReader)
defer bodyReader.Close()
var defaultPathFound bool
for {
hdr, err := tr.Next()
if err == io.EOF {
break
} else if err != nil {
apiUploadTarFail.Inc(1)
return nil, fmt.Errorf("error reading tar stream: %s", err)
}
// only store regular files
if !hdr.FileInfo().Mode().IsRegular() {
continue
}
// add the entry under the path from the request
manifestPath := path.Join(manifestPath, hdr.Name)
entry := &ManifestEntry{
Path: manifestPath,
ContentType: hdr.Xattrs["user.swarm.content-type"],
Mode: hdr.Mode,
Size: hdr.Size,
ModTime: hdr.ModTime,
}
contentKey, err = mw.AddEntry(ctx, tr, entry)
if err != nil {
apiUploadTarFail.Inc(1)
return nil, fmt.Errorf("error adding manifest entry from tar stream: %s", err)
}
if hdr.Name == defaultPath {
entry := &ManifestEntry{
Hash: contentKey.Hex(),
Path: "", // default entry
ContentType: hdr.Xattrs["user.swarm.content-type"],
Mode: hdr.Mode,
Size: hdr.Size,
ModTime: hdr.ModTime,
}
contentKey, err = mw.AddEntry(ctx, nil, entry)
if err != nil {
apiUploadTarFail.Inc(1)
return nil, fmt.Errorf("error adding default manifest entry from tar stream: %s", err)
}
defaultPathFound = true
}
}
if defaultPath != "" && !defaultPathFound {
return contentKey, fmt.Errorf("default path %q not found", defaultPath)
}
return contentKey, nil
}
// RemoveFile removes a file entry in a manifest.
func (a *API) RemoveFile(ctx context.Context, mhash string, path string, fname string, nameresolver bool) (string, error) {
apiRmFileCount.Inc(1)
uri, err := Parse("bzz:/" + mhash)
if err != nil {
apiRmFileFail.Inc(1)
return "", err
}
mkey, err := a.ResolveURI(ctx, uri, EMPTY_CREDENTIALS)
if err != nil {
apiRmFileFail.Inc(1)
return "", err
}
// trim the root dir we added
if path[:1] == "/" {
path = path[1:]
}
mw, err := a.NewManifestWriter(ctx, mkey, nil)
if err != nil {
apiRmFileFail.Inc(1)
return "", err
}
err = mw.RemoveEntry(filepath.Join(path, fname))
if err != nil {
apiRmFileFail.Inc(1)
return "", err
}
newMkey, err := mw.Store()
if err != nil {
apiRmFileFail.Inc(1)
return "", err
}
return newMkey.String(), nil
}
// AppendFile removes old manifest, appends file entry to new manifest and adds it to Swarm.
func (a *API) AppendFile(ctx context.Context, mhash, path, fname string, existingSize int64, content []byte, oldAddr storage.Address, offset int64, addSize int64, nameresolver bool) (storage.Address, string, error) {
apiAppendFileCount.Inc(1)
buffSize := offset + addSize
if buffSize < existingSize {
buffSize = existingSize
}
buf := make([]byte, buffSize)
oldReader, _ := a.Retrieve(ctx, oldAddr)
io.ReadAtLeast(oldReader, buf, int(offset))
newReader := bytes.NewReader(content)
io.ReadAtLeast(newReader, buf[offset:], int(addSize))
if buffSize < existingSize {
io.ReadAtLeast(oldReader, buf[addSize:], int(buffSize))
}
combinedReader := bytes.NewReader(buf)
totalSize := int64(len(buf))
// TODO(jmozah): to append using pyramid chunker when it is ready
//oldReader := a.Retrieve(oldKey)
//newReader := bytes.NewReader(content)
//combinedReader := io.MultiReader(oldReader, newReader)
uri, err := Parse("bzz:/" + mhash)
if err != nil {
apiAppendFileFail.Inc(1)
return nil, "", err
}
mkey, err := a.ResolveURI(ctx, uri, EMPTY_CREDENTIALS)
if err != nil {
apiAppendFileFail.Inc(1)
return nil, "", err
}
// trim the root dir we added
if path[:1] == "/" {
path = path[1:]
}
mw, err := a.NewManifestWriter(ctx, mkey, nil)
if err != nil {
apiAppendFileFail.Inc(1)
return nil, "", err
}
err = mw.RemoveEntry(filepath.Join(path, fname))
if err != nil {
apiAppendFileFail.Inc(1)
return nil, "", err
}
entry := &ManifestEntry{
Path: filepath.Join(path, fname),
ContentType: mime.TypeByExtension(filepath.Ext(fname)),
Mode: 0700,
Size: totalSize,
ModTime: time.Now(),
}
fkey, err := mw.AddEntry(ctx, io.Reader(combinedReader), entry)
if err != nil {
apiAppendFileFail.Inc(1)
return nil, "", err
}
newMkey, err := mw.Store()
if err != nil {
apiAppendFileFail.Inc(1)
return nil, "", err
}
return fkey, newMkey.String(), nil
}
// BuildDirectoryTree used by swarmfs_unix
func (a *API) BuildDirectoryTree(ctx context.Context, mhash string, nameresolver bool) (addr storage.Address, manifestEntryMap map[string]*manifestTrieEntry, err error) {
uri, err := Parse("bzz:/" + mhash)
if err != nil {
return nil, nil, err
}
addr, err = a.Resolve(ctx, uri.Addr)
if err != nil {
return nil, nil, err
}
quitC := make(chan bool)
rootTrie, err := loadManifest(ctx, a.fileStore, addr, quitC, NOOPDecrypt)
if err != nil {
return nil, nil, fmt.Errorf("can't load manifest %v: %v", addr.String(), err)
}
manifestEntryMap = map[string]*manifestTrieEntry{}
err = rootTrie.listWithPrefix(uri.Path, quitC, func(entry *manifestTrieEntry, suffix string) {
manifestEntryMap[suffix] = entry
})
if err != nil {
return nil, nil, fmt.Errorf("list with prefix failed %v: %v", addr.String(), err)
}
return addr, manifestEntryMap, nil
}
// ResourceLookup finds mutable resource updates at specific periods and versions
func (a *API) ResourceLookup(ctx context.Context, params *mru.LookupParams) (string, []byte, error) {
var err error
rsrc, err := a.resource.Load(ctx, params.RootAddr())
if err != nil {
return "", nil, err
}
_, err = a.resource.Lookup(ctx, params)
if err != nil {
return "", nil, err
}
var data []byte
_, data, err = a.resource.GetContent(params.RootAddr())
if err != nil {
return "", nil, err
}
return rsrc.Name(), data, nil
}
// Create Mutable resource
func (a *API) ResourceCreate(ctx context.Context, request *mru.Request) error {
return a.resource.New(ctx, request)
}
// ResourceNewRequest creates a Request object to update a specific mutable resource
func (a *API) ResourceNewRequest(ctx context.Context, rootAddr storage.Address) (*mru.Request, error) {
return a.resource.NewUpdateRequest(ctx, rootAddr)
}
// ResourceUpdate updates a Mutable Resource with arbitrary data.
// Upon retrieval the update will be retrieved verbatim as bytes.
func (a *API) ResourceUpdate(ctx context.Context, request *mru.SignedResourceUpdate) (storage.Address, error) {
return a.resource.Update(ctx, request)
}
// ResourceHashSize returned the size of the digest produced by the Mutable Resource hashing function
func (a *API) ResourceHashSize() int {
return a.resource.HashSize
}
// ResolveResourceManifest retrieves the Mutable Resource manifest for the given address, and returns the address of the metadata chunk.
func (a *API) ResolveResourceManifest(ctx context.Context, addr storage.Address) (storage.Address, error) {
trie, err := loadManifest(ctx, a.fileStore, addr, nil, NOOPDecrypt)
if err != nil {
return nil, fmt.Errorf("cannot load resource manifest: %v", err)
}
entry, _ := trie.getEntry("")
if entry.ContentType != ResourceContentType {
return nil, fmt.Errorf("not a resource manifest: %s", addr)
}
return storage.Address(common.FromHex(entry.Hash)), nil
}