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shell.go
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shell.go
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// package shell implements a remote API interface for a running ipfs daemon
package shell
import (
"bytes"
"context"
"encoding/json"
"errors"
"fmt"
"io"
"net"
gohttp "net/http"
"os"
"path"
"strings"
"time"
files "github.com/ipfs/boxo/files"
homedir "github.com/mitchellh/go-homedir"
ma "github.com/multiformats/go-multiaddr"
manet "github.com/multiformats/go-multiaddr/net"
mbase "github.com/multiformats/go-multibase"
tar "github.com/whyrusleeping/tar-utils"
p2pmetrics "github.com/libp2p/go-libp2p/core/metrics"
)
const (
DefaultPathName = ".ipfs"
DefaultPathRoot = "~/" + DefaultPathName
DefaultApiFile = "api"
EnvDir = "IPFS_PATH"
)
type Shell struct {
url string
httpcli gohttp.Client
}
func NewLocalShell() *Shell {
baseDir := os.Getenv(EnvDir)
if baseDir == "" {
baseDir = DefaultPathRoot
}
baseDir, err := homedir.Expand(baseDir)
if err != nil {
return nil
}
apiFile := path.Join(baseDir, DefaultApiFile)
if _, err := os.Stat(apiFile); err != nil {
return nil
}
api, err := os.ReadFile(apiFile)
if err != nil {
return nil
}
return NewShell(strings.TrimSpace(string(api)))
}
func NewShell(url string) *Shell {
c := &gohttp.Client{
Transport: &gohttp.Transport{
Proxy: gohttp.ProxyFromEnvironment,
DisableKeepAlives: true,
},
}
return NewShellWithClient(url, c)
}
func NewShellWithClient(url string, client *gohttp.Client) *Shell {
var sh Shell
sh.url = url
sh.httpcli = *client
// We don't support redirects.
sh.httpcli.CheckRedirect = func(_ *gohttp.Request, _ []*gohttp.Request) error {
return fmt.Errorf("unexpected redirect")
}
maddr, err := ma.NewMultiaddr(url)
if err != nil {
return &sh
}
network, host, err := manet.DialArgs(maddr)
if err != nil {
return &sh
}
if network == "unix" {
sh.url = network
var tptCopy *gohttp.Transport
if tpt, ok := sh.httpcli.Transport.(*gohttp.Transport); ok && tpt.DialContext == nil {
tptCopy = tpt.Clone()
} else if sh.httpcli.Transport == nil {
tptCopy = &gohttp.Transport{
Proxy: gohttp.ProxyFromEnvironment,
DisableKeepAlives: true,
}
} else {
// custom Transport or custom Dialer, we are done here
return &sh
}
tptCopy.DialContext = func(_ context.Context, _, _ string) (net.Conn, error) {
return net.Dial("unix", host)
}
sh.httpcli.Transport = tptCopy
} else {
sh.url = host
}
return &sh
}
func (s *Shell) SetTimeout(d time.Duration) {
s.httpcli.Timeout = d
}
func (s *Shell) Request(command string, args ...string) *RequestBuilder {
return &RequestBuilder{
command: command,
args: args,
shell: s,
}
}
type IdOutput struct {
ID string
PublicKey string
Addresses []string
AgentVersion string
ProtocolVersion string
}
// ID gets information about a given peer. Arguments:
//
// peer: peer.ID of the node to look up. If no peer is specified,
//
// return information about the local peer.
func (s *Shell) ID(peer ...string) (*IdOutput, error) {
if len(peer) > 1 {
return nil, fmt.Errorf("too many peer arguments")
}
var out IdOutput
if err := s.Request("id", peer...).Exec(context.Background(), &out); err != nil {
return nil, err
}
return &out, nil
}
// Cat the content at the given path. Callers need to drain and close the returned reader after usage.
func (s *Shell) Cat(path string) (io.ReadCloser, error) {
resp, err := s.Request("cat", path).Send(context.Background())
if err != nil {
return nil, err
}
if resp.Error != nil {
return nil, resp.Error
}
return resp.Output, nil
}
const (
TRaw = iota
TDirectory
TFile
TMetadata
TSymlink
)
// List entries at the given path
func (s *Shell) List(path string) ([]*LsLink, error) {
var out struct{ Objects []LsObject }
err := s.Request("ls", path).Exec(context.Background(), &out)
if err != nil {
return nil, err
}
if len(out.Objects) != 1 {
return nil, errors.New("bad response from server")
}
return out.Objects[0].Links, nil
}
type LsLink struct {
Hash string
Name string
Size uint64
Type int
}
type LsObject struct {
Links []*LsLink
LsLink
}
// Pin the given path
func (s *Shell) Pin(path string) error {
return s.Request("pin/add", path).
Option("recursive", true).
Exec(context.Background(), nil)
}
// Unpin the given path
func (s *Shell) Unpin(path string) error {
return s.Request("pin/rm", path).
Option("recursive", true).
Exec(context.Background(), nil)
}
type PinType string
const (
DirectPin PinType = "direct"
RecursivePin PinType = "recursive"
IndirectPin PinType = "indirect"
)
type PinInfo struct {
Type string
}
// Pins returns a map of the pin hashes to their info (currently just the
// pin type, one of DirectPin, RecursivePin, or IndirectPin). A map is returned
// instead of a slice because it is easier to do existence lookup by map key
// than unordered array searching. The map is likely to be more useful to a
// client than a flat list.
func (s *Shell) Pins() (map[string]PinInfo, error) {
var raw struct{ Keys map[string]PinInfo }
return raw.Keys, s.Request("pin/ls").Exec(context.Background(), &raw)
}
// Pins returns a map of the pins of specified type (DirectPin, RecursivePin, or IndirectPin)
func (s *Shell) PinsOfType(ctx context.Context, pinType PinType) (map[string]PinInfo, error) {
var raw struct{ Keys map[string]PinInfo }
return raw.Keys, s.Request("pin/ls").Option("type", pinType).Exec(ctx, &raw)
}
// PinStreamInfo is the output type for PinsStream
type PinStreamInfo struct {
Cid string
Type string
}
// PinsStream is a streamed version of Pins. It returns a channel of the pins
// with their type, one of DirectPin, RecursivePin, or IndirectPin.
func (s *Shell) PinsStream(ctx context.Context) (<-chan PinStreamInfo, error) {
resp, err := s.Request("pin/ls").
Option("stream", true).
Send(ctx)
if err != nil {
return nil, err
}
if resp.Error != nil {
resp.Close()
return nil, resp.Error
}
out := make(chan PinStreamInfo)
go func() {
defer resp.Close()
var pin PinStreamInfo
defer close(out)
dec := json.NewDecoder(resp.Output)
for {
err := dec.Decode(&pin)
if err != nil {
return
}
select {
case out <- pin:
case <-ctx.Done():
return
}
}
}()
return out, nil
}
type PeerInfo struct {
Addrs []string
ID string
}
func (s *Shell) FindPeer(peer string) (*PeerInfo, error) {
var peers struct{ Responses []PeerInfo }
err := s.Request("dht/findpeer", peer).Exec(context.Background(), &peers)
if err != nil {
return nil, err
}
if len(peers.Responses) == 0 {
return nil, errors.New("peer not found")
}
return &peers.Responses[0], nil
}
func (s *Shell) Refs(hash string, recursive bool) (<-chan string, error) {
resp, err := s.Request("refs", hash).
Option("recursive", recursive).
Send(context.Background())
if err != nil {
return nil, err
}
if resp.Error != nil {
resp.Close()
return nil, resp.Error
}
out := make(chan string)
go func() {
defer resp.Close()
var ref struct {
Ref string
}
defer close(out)
dec := json.NewDecoder(resp.Output)
for {
err := dec.Decode(&ref)
if err != nil {
return
}
if len(ref.Ref) > 0 {
out <- ref.Ref
}
}
}()
return out, nil
}
func (s *Shell) Patch(root, action string, args ...string) (string, error) {
var out object
return out.Hash, s.Request("object/patch/"+action, root).
Arguments(args...).
Exec(context.Background(), &out)
}
func (s *Shell) PatchData(root string, set bool, data interface{}) (string, error) {
var read io.Reader
switch d := data.(type) {
case io.Reader:
read = d
case []byte:
read = bytes.NewReader(d)
case string:
read = strings.NewReader(d)
default:
return "", fmt.Errorf("unrecognized type: %#v", data)
}
cmd := "append-data"
if set {
cmd = "set-data"
}
fr := files.NewReaderFile(read)
slf := files.NewSliceDirectory([]files.DirEntry{files.FileEntry("", fr)})
fileReader := files.NewMultiFileReader(slf, true)
var out object
return out.Hash, s.Request("object/patch/"+cmd, root).
Body(fileReader).
Exec(context.Background(), &out)
}
func (s *Shell) PatchLink(root, path, childhash string, create bool) (string, error) {
var out object
return out.Hash, s.Request("object/patch/add-link", root, path, childhash).
Option("create", create).
Exec(context.Background(), &out)
}
func (s *Shell) Get(hash, outdir string) error {
resp, err := s.Request("get", hash).Option("create", true).Send(context.Background())
if err != nil {
return err
}
defer resp.Close()
if resp.Error != nil {
return resp.Error
}
extractor := &tar.Extractor{Path: outdir}
return extractor.Extract(resp.Output)
}
func (s *Shell) NewObject(template string) (string, error) {
var out object
req := s.Request("object/new")
if template != "" {
req.Arguments(template)
}
return out.Hash, req.Exec(context.Background(), &out)
}
func (s *Shell) ResolvePath(path string) (string, error) {
var out struct {
Path string
}
err := s.Request("resolve", path).Exec(context.Background(), &out)
if err != nil {
return "", err
}
return strings.TrimPrefix(out.Path, "/ipfs/"), nil
}
// returns ipfs version and commit sha
func (s *Shell) Version() (string, string, error) {
ver := struct {
Version string
Commit string
}{}
if err := s.Request("version").Exec(context.Background(), &ver); err != nil {
return "", "", err
}
return ver.Version, ver.Commit, nil
}
func (s *Shell) IsUp() bool {
_, _, err := s.Version()
return err == nil
}
func (s *Shell) BlockStat(path string) (string, int, error) {
var inf struct {
Key string
Size int
}
if err := s.Request("block/stat", path).Exec(context.Background(), &inf); err != nil {
return "", 0, err
}
return inf.Key, inf.Size, nil
}
func (s *Shell) BlockGet(path string) ([]byte, error) {
resp, err := s.Request("block/get", path).Send(context.Background())
if err != nil {
return nil, err
}
defer resp.Close()
if resp.Error != nil {
return nil, resp.Error
}
return io.ReadAll(resp.Output)
}
func (s *Shell) BlockPut(block []byte, format, mhtype string, mhlen int) (string, error) {
var out struct {
Key string
}
fr := files.NewBytesFile(block)
slf := files.NewSliceDirectory([]files.DirEntry{files.FileEntry("", fr)})
fileReader := files.NewMultiFileReader(slf, true)
return out.Key, s.Request("block/put").
Option("mhtype", mhtype).
Option("format", format).
Option("mhlen", mhlen).
Body(fileReader).
Exec(context.Background(), &out)
}
type IpfsObject struct {
Links []ObjectLink
Data string
}
type ObjectLink struct {
Name, Hash string
Size uint64
}
func (s *Shell) ObjectGet(path string) (*IpfsObject, error) {
var obj IpfsObject
if err := s.Request("object/get", path).Exec(context.Background(), &obj); err != nil {
return nil, err
}
return &obj, nil
}
func (s *Shell) ObjectPut(obj *IpfsObject) (string, error) {
var data bytes.Buffer
err := json.NewEncoder(&data).Encode(obj)
if err != nil {
return "", err
}
fr := files.NewReaderFile(&data)
slf := files.NewSliceDirectory([]files.DirEntry{files.FileEntry("", fr)})
fileReader := files.NewMultiFileReader(slf, true)
var out object
return out.Hash, s.Request("object/put").
Body(fileReader).
Exec(context.Background(), &out)
}
func (s *Shell) PubSubSubscribe(topic string) (*PubSubSubscription, error) {
// connect
encoder, _ := mbase.EncoderByName("base64url")
resp, err := s.Request("pubsub/sub", encoder.Encode([]byte(topic))).Send(context.Background())
if err != nil {
return nil, err
}
if resp.Error != nil {
resp.Close()
return nil, resp.Error
}
return newPubSubSubscription(resp.Output), nil
}
func (s *Shell) PubSubPublish(topic, data string) (err error) {
fr := files.NewReaderFile(bytes.NewReader([]byte(data)))
slf := files.NewSliceDirectory([]files.DirEntry{files.FileEntry("", fr)})
fileReader := files.NewMultiFileReader(slf, true)
encoder, _ := mbase.EncoderByName("base64url")
resp, err := s.Request("pubsub/pub", encoder.Encode([]byte(topic))).
Body(fileReader).Send(context.Background())
if err != nil {
return err
}
defer resp.Close()
if resp.Error != nil {
return resp.Error
}
return nil
}
type ObjectStats struct {
Hash string
BlockSize int
CumulativeSize int
DataSize int
LinksSize int
NumLinks int
}
// ObjectStat gets stats for the DAG object named by key. It returns
// the stats of the requested Object or an error.
func (s *Shell) ObjectStat(key string) (*ObjectStats, error) {
var stat ObjectStats
err := s.Request("object/stat", key).Exec(context.Background(), &stat)
if err != nil {
return nil, err
}
return &stat, nil
}
// ObjectStat gets stats for the DAG object named by key. It returns
// the stats of the requested Object or an error.
func (s *Shell) StatsBW(ctx context.Context) (*p2pmetrics.Stats, error) {
v := &p2pmetrics.Stats{}
err := s.Request("stats/bw").Exec(ctx, &v)
return v, err
}
type SwarmStreamInfo struct {
Protocol string
}
type SwarmConnInfo struct {
Addr string
Peer string
Latency string
Muxer string
Streams []SwarmStreamInfo
}
type SwarmConnInfos struct {
Peers []SwarmConnInfo
}
// SwarmPeers gets all the swarm peers
func (s *Shell) SwarmPeers(ctx context.Context) (*SwarmConnInfos, error) {
v := &SwarmConnInfos{}
err := s.Request("swarm/peers").Exec(ctx, &v)
return v, err
}
type swarmConnection struct {
Strings []string
}
// SwarmConnect opens a swarm connection to a specific address.
func (s *Shell) SwarmConnect(ctx context.Context, addr ...string) error {
var conn *swarmConnection
err := s.Request("swarm/connect").
Arguments(addr...).
Exec(ctx, &conn)
return err
}
type PeeringLsOutput struct {
Peers []PeerInfo
}
// SwarmPeeringLs lists peers registered in the peering subsystem
func (s *Shell) SwarmPeeringLs(ctx context.Context) (*PeeringLsOutput, error) {
var output *PeeringLsOutput
err := s.Request("swarm/peering/ls").Arguments().Exec(ctx, &output)
return output, err
}
type PeerStatus struct {
ID string
Status string
}
// SwarmPeeringAdd adds a peer into the peering subsysytem.
func (s *Shell) SwarmPeeringAdd(ctx context.Context, addr string) (*PeerStatus, error) {
var output *PeerStatus
err := s.Request("swarm/peering/add").Arguments(addr).Exec(ctx, &output)
return output, err
}