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// Package transport includes the implementation for different transport
// protocols.
//
// `Client` can be used to fetch and send packfiles to a git server.
// The `client` package provides higher level functions to instantiate the
// appropriate `Client` based on the repository URL.
//
// go-git supports HTTP and SSH (see `Protocols`), but you can also install
// your own protocols (see the `client` package).
//
// Each protocol has its own implementation of `Client`, but you should
// generally not use them directly, use `client.NewClient` instead.
package transport
import (
"errors"
"fmt"
"io"
"net/url"
"regexp"
"strconv"
"gopkg.in/src-d/go-git.v4/plumbing"
"gopkg.in/src-d/go-git.v4/plumbing/protocol/packp"
"gopkg.in/src-d/go-git.v4/plumbing/protocol/packp/capability"
)
var (
ErrRepositoryNotFound = errors.New("repository not found")
ErrEmptyRemoteRepository = errors.New("remote repository is empty")
ErrAuthenticationRequired = errors.New("authentication required")
ErrAuthorizationFailed = errors.New("authorization failed")
ErrEmptyUploadPackRequest = errors.New("empty git-upload-pack given")
ErrInvalidAuthMethod = errors.New("invalid auth method")
ErrAlreadyConnected = errors.New("session already established")
)
const (
UploadPackServiceName = "git-upload-pack"
ReceivePackServiceName = "git-receive-pack"
)
// Transport can initiate git-upload-pack and git-receive-pack processes.
// It is implemented both by the client and the server, making this a RPC.
type Transport interface {
// NewUploadPackSession starts a git-upload-pack session for an endpoint.
NewUploadPackSession(Endpoint, AuthMethod) (UploadPackSession, error)
// NewReceivePackSession starts a git-receive-pack session for an endpoint.
NewReceivePackSession(Endpoint, AuthMethod) (ReceivePackSession, error)
}
type Session interface {
// AdvertisedReferences retrieves the advertised references for a
// repository.
// If the repository does not exist, returns ErrRepositoryNotFound.
// If the repository exists, but is empty, returns ErrEmptyRemoteRepository.
AdvertisedReferences() (*packp.AdvRefs, error)
io.Closer
}
type AuthMethod interface {
fmt.Stringer
Name() string
}
// UploadPackSession represents a git-upload-pack session.
// A git-upload-pack session has two steps: reference discovery
// (AdvertisedReferences) and uploading pack (UploadPack).
type UploadPackSession interface {
Session
// UploadPack takes a git-upload-pack request and returns a response,
// including a packfile. Don't be confused by terminology, the client
// side of a git-upload-pack is called git-fetch-pack, although here
// the same interface is used to make it RPC-like.
UploadPack(*packp.UploadPackRequest) (*packp.UploadPackResponse, error)
}
// ReceivePackSession represents a git-receive-pack session.
// A git-receive-pack session has two steps: reference discovery
// (AdvertisedReferences) and receiving pack (ReceivePack).
// In that order.
type ReceivePackSession interface {
Session
// ReceivePack sends an update references request and a packfile
// reader and returns a ReportStatus and error. Don't be confused by
// terminology, the client side of a git-receive-pack is called
// git-send-pack, although here the same interface is used to make it
// RPC-like.
ReceivePack(*packp.ReferenceUpdateRequest) (*packp.ReportStatus, error)
}
// Endpoint represents a Git URL in any supported protocol.
type Endpoint interface {
// Protocol returns the protocol (e.g. git, https, file). It should never
// return the empty string.
Protocol() string
// User returns the user or an empty string if none is given.
User() string
// Password returns the password or an empty string if none is given.
Password() string
// Host returns the host or an empty string if none is given.
Host() string
// Port returns the port or 0 if there is no port or a default should be
// used.
Port() int
// Path returns the repository path.
Path() string
// String returns a string representation of the Git URL.
String() string
}
func NewEndpoint(endpoint string) (Endpoint, error) {
if e, ok := parseSCPLike(endpoint); ok {
return e, nil
}
if e, ok := parseFile(endpoint); ok {
return e, nil
}
u, err := url.Parse(endpoint)
if err != nil {
return nil, plumbing.NewPermanentError(err)
}
if !u.IsAbs() {
return nil, plumbing.NewPermanentError(fmt.Errorf(
"invalid endpoint: %s", endpoint,
))
}
return urlEndpoint{u}, nil
}
type urlEndpoint struct {
*url.URL
}
func (e urlEndpoint) Protocol() string { return e.URL.Scheme }
func (e urlEndpoint) Host() string { return e.URL.Hostname() }
func (e urlEndpoint) User() string {
if e.URL.User == nil {
return ""
}
return e.URL.User.Username()
}
func (e urlEndpoint) Password() string {
if e.URL.User == nil {
return ""
}
p, _ := e.URL.User.Password()
return p
}
func (e urlEndpoint) Port() int {
p := e.URL.Port()
if p == "" {
return 0
}
i, err := strconv.Atoi(e.URL.Port())
if err != nil {
return 0
}
return i
}
func (e urlEndpoint) Path() string {
var res string = e.URL.Path
if e.URL.RawQuery != "" {
res += "?" + e.URL.RawQuery
}
if e.URL.Fragment != "" {
res += "#" + e.URL.Fragment
}
return res
}
type scpEndpoint struct {
user string
host string
path string
}
func (e *scpEndpoint) Protocol() string { return "ssh" }
func (e *scpEndpoint) User() string { return e.user }
func (e *scpEndpoint) Password() string { return "" }
func (e *scpEndpoint) Host() string { return e.host }
func (e *scpEndpoint) Port() int { return 22 }
func (e *scpEndpoint) Path() string { return e.path }
func (e *scpEndpoint) String() string {
var user string
if e.user != "" {
user = fmt.Sprintf("%s@", e.user)
}
return fmt.Sprintf("%s%s:%s", user, e.host, e.path)
}
type fileEndpoint struct {
path string
}
func (e *fileEndpoint) Protocol() string { return "file" }
func (e *fileEndpoint) User() string { return "" }
func (e *fileEndpoint) Password() string { return "" }
func (e *fileEndpoint) Host() string { return "" }
func (e *fileEndpoint) Port() int { return 0 }
func (e *fileEndpoint) Path() string { return e.path }
func (e *fileEndpoint) String() string { return e.path }
var (
isSchemeRegExp = regexp.MustCompile(`^[^:]+://`)
scpLikeUrlRegExp = regexp.MustCompile(`^(?:(?P<user>[^@]+)@)?(?P<host>[^:\s]+):(?P<path>[^\\].*)$`)
)
func parseSCPLike(endpoint string) (Endpoint, bool) {
if isSchemeRegExp.MatchString(endpoint) || !scpLikeUrlRegExp.MatchString(endpoint) {
return nil, false
}
m := scpLikeUrlRegExp.FindStringSubmatch(endpoint)
return &scpEndpoint{
user: m[1],
host: m[2],
path: m[3],
}, true
}
func parseFile(endpoint string) (Endpoint, bool) {
if isSchemeRegExp.MatchString(endpoint) {
return nil, false
}
path := endpoint
return &fileEndpoint{path}, true
}
// UnsupportedCapabilities are the capabilities not supported by any client
// implementation
var UnsupportedCapabilities = []capability.Capability{
capability.MultiACK,
capability.MultiACKDetailed,
capability.ThinPack,
}
// FilterUnsupportedCapabilities it filter out all the UnsupportedCapabilities
// from a capability.List, the intended usage is on the client implementation
// to filter the capabilities from an AdvRefs message.
func FilterUnsupportedCapabilities(list *capability.List) {
for _, c := range UnsupportedCapabilities {
list.Delete(c)
}
}
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