package oldpath import ( "fmt" "path" "strings" "github.com/ipfs/go-cid" ) // helper type so path parsing errors include the path type pathError struct { error error path string } func (e *pathError) Error() string { return fmt.Sprintf("invalid path %q: %s", e.path, e.error) } func (e *pathError) Unwrap() error { return e.error } func (e *pathError) Path() string { return e.path } // A Path represents an ipfs content path: // * //path/to/file // * /ipfs/ // * /ipns//path/to/folder // * etc type Path string // ^^^ // TODO: debate making this a private struct wrapped in a public interface // would allow us to control creation, and cache segments. // FromString safely converts a string type to a Path type. func FromString(s string) Path { return Path(s) } // FromCid safely converts a cid.Cid type to a Path type. func FromCid(c cid.Cid) Path { return Path("/ipfs/" + c.String()) } // Segments returns the different elements of a path // (elements are delimited by a /). func (p Path) Segments() []string { cleaned := path.Clean(string(p)) segments := strings.Split(cleaned, "/") // Ignore leading slash if len(segments[0]) == 0 { segments = segments[1:] } return segments } // String converts a path to string. func (p Path) String() string { return string(p) } // IsJustAKey returns true if the path is of the form or /ipfs/, or // /ipld/ func (p Path) IsJustAKey() bool { parts := p.Segments() return len(parts) == 2 && (parts[0] == "ipfs" || parts[0] == "ipld") } // PopLastSegment returns a new Path without its final segment, and the final // segment, separately. If there is no more to pop (the path is just a key), // the original path is returned. func (p Path) PopLastSegment() (Path, string, error) { if p.IsJustAKey() { return p, "", nil } segs := p.Segments() newPath, err := ParsePath("/" + strings.Join(segs[:len(segs)-1], "/")) if err != nil { return "", "", err } return newPath, segs[len(segs)-1], nil } // FromSegments returns a path given its different segments. func FromSegments(prefix string, seg ...string) (Path, error) { return ParsePath(prefix + strings.Join(seg, "/")) } // ParsePath returns a well-formed ipfs Path. // The returned path will always be prefixed with /ipfs/ or /ipns/. // The prefix will be added if not present in the given string. // This function will return an error when the given string is // not a valid ipfs path. func ParsePath(txt string) (Path, error) { parts := strings.Split(txt, "/") if len(parts) == 1 { kp, err := ParseCidToPath(txt) if err == nil { return kp, nil } } // if the path doesnt begin with a '/' // we expect this to start with a hash, and be an 'ipfs' path if parts[0] != "" { if _, err := cid.Decode(parts[0]); err != nil { return "", &pathError{error: err, path: txt} } // The case when the path starts with hash without a protocol prefix return Path("/ipfs/" + txt), nil } if len(parts) < 3 { return "", &pathError{error: fmt.Errorf("path does not begin with '/'"), path: txt} } //TODO: make this smarter switch parts[1] { case "ipfs", "ipld": if parts[2] == "" { return "", &pathError{error: fmt.Errorf("not enough path components"), path: txt} } // Validate Cid. _, err := cid.Decode(parts[2]) if err != nil { return "", &pathError{error: fmt.Errorf("invalid CID: %s", err), path: txt} } case "ipns": if parts[2] == "" { return "", &pathError{error: fmt.Errorf("not enough path components"), path: txt} } default: return "", &pathError{error: fmt.Errorf("unknown namespace %q", parts[1]), path: txt} } return Path(txt), nil } // ParseCidToPath takes a CID in string form and returns a valid ipfs Path. func ParseCidToPath(txt string) (Path, error) { if txt == "" { return "", &pathError{error: fmt.Errorf("empty"), path: txt} } c, err := cid.Decode(txt) if err != nil { return "", &pathError{error: err, path: txt} } return FromCid(c), nil } // IsValid checks if a path is a valid ipfs Path. func (p *Path) IsValid() error { _, err := ParsePath(p.String()) return err } // Join joins strings slices using / func Join(pths []string) string { return strings.Join(pths, "/") } // SplitList splits strings usings / func SplitList(pth string) []string { return strings.Split(pth, "/") } // SplitAbsPath clean up and split fpath. It extracts the first component (which // must be a Multihash) and return it separately. func SplitAbsPath(fpath Path) (cid.Cid, []string, error) { parts := fpath.Segments() if parts[0] == "ipfs" || parts[0] == "ipld" { parts = parts[1:] } // if nothing, bail. if len(parts) == 0 { return cid.Cid{}, nil, &pathError{error: fmt.Errorf("empty"), path: string(fpath)} } c, err := cid.Decode(parts[0]) // first element in the path is a cid if err != nil { return cid.Cid{}, nil, &pathError{error: fmt.Errorf("invalid CID: %s", err), path: string(fpath)} } return c, parts[1:], nil }