// Package sjson provides setting json values. package sjson import ( jsongo "encoding/json" "reflect" "strconv" "unsafe" "github.com/tidwall/gjson" ) type errorType struct { msg string } func (err *errorType) Error() string { return err.msg } // Options represents additional options for the Set and Delete functions. type Options struct { // Optimistic is a hint that the value likely exists which // allows for the sjson to perform a fast-track search and replace. Optimistic bool // ReplaceInPlace is a hint to replace the input json rather than // allocate a new json byte slice. When this field is specified // the input json will not longer be valid and it should not be used // In the case when the destination slice doesn't have enough free // bytes to replace the data in place, a new bytes slice will be // created under the hood. // The Optimistic flag must be set to true and the input must be a // byte slice in order to use this field. ReplaceInPlace bool } type pathResult struct { part string // current key part gpart string // gjson get part path string // remaining path force bool // force a string key more bool // there is more path to parse } func parsePath(path string) (pathResult, error) { var r pathResult if len(path) > 0 && path[0] == ':' { r.force = true path = path[1:] } for i := 0; i < len(path); i++ { if path[i] == '.' { r.part = path[:i] r.gpart = path[:i] r.path = path[i+1:] r.more = true return r, nil } if path[i] == '*' || path[i] == '?' { return r, &errorType{"wildcard characters not allowed in path"} } else if path[i] == '#' { return r, &errorType{"array access character not allowed in path"} } if path[i] == '\\' { // go into escape mode. this is a slower path that // strips off the escape character from the part. epart := []byte(path[:i]) gpart := []byte(path[:i+1]) i++ if i < len(path) { epart = append(epart, path[i]) gpart = append(gpart, path[i]) i++ for ; i < len(path); i++ { if path[i] == '\\' { gpart = append(gpart, '\\') i++ if i < len(path) { epart = append(epart, path[i]) gpart = append(gpart, path[i]) } continue } else if path[i] == '.' { r.part = string(epart) r.gpart = string(gpart) r.path = path[i+1:] r.more = true return r, nil } else if path[i] == '*' || path[i] == '?' { return r, &errorType{ "wildcard characters not allowed in path"} } else if path[i] == '#' { return r, &errorType{ "array access character not allowed in path"} } epart = append(epart, path[i]) gpart = append(gpart, path[i]) } } // append the last part r.part = string(epart) r.gpart = string(gpart) return r, nil } } r.part = path r.gpart = path return r, nil } func mustMarshalString(s string) bool { for i := 0; i < len(s); i++ { if s[i] < ' ' || s[i] > 0x7f || s[i] == '"' || s[i] == '\\' { return true } } return false } // appendStringify makes a json string and appends to buf. func appendStringify(buf []byte, s string) []byte { if mustMarshalString(s) { b, _ := jsongo.Marshal(s) return append(buf, b...) } buf = append(buf, '"') buf = append(buf, s...) buf = append(buf, '"') return buf } // appendBuild builds a json block from a json path. func appendBuild(buf []byte, array bool, paths []pathResult, raw string, stringify bool) []byte { if !array { buf = appendStringify(buf, paths[0].part) buf = append(buf, ':') } if len(paths) > 1 { n, numeric := atoui(paths[1]) if numeric || (!paths[1].force && paths[1].part == "-1") { buf = append(buf, '[') buf = appendRepeat(buf, "null,", n) buf = appendBuild(buf, true, paths[1:], raw, stringify) buf = append(buf, ']') } else { buf = append(buf, '{') buf = appendBuild(buf, false, paths[1:], raw, stringify) buf = append(buf, '}') } } else { if stringify { buf = appendStringify(buf, raw) } else { buf = append(buf, raw...) } } return buf } // atoui does a rip conversion of string -> unigned int. func atoui(r pathResult) (n int, ok bool) { if r.force { return 0, false } for i := 0; i < len(r.part); i++ { if r.part[i] < '0' || r.part[i] > '9' { return 0, false } n = n*10 + int(r.part[i]-'0') } return n, true } // appendRepeat repeats string "n" times and appends to buf. func appendRepeat(buf []byte, s string, n int) []byte { for i := 0; i < n; i++ { buf = append(buf, s...) } return buf } // trim does a rip trim func trim(s string) string { for len(s) > 0 { if s[0] <= ' ' { s = s[1:] continue } break } for len(s) > 0 { if s[len(s)-1] <= ' ' { s = s[:len(s)-1] continue } break } return s } // deleteTailItem deletes the previous key or comma. func deleteTailItem(buf []byte) ([]byte, bool) { loop: for i := len(buf) - 1; i >= 0; i-- { // look for either a ',',':','[' switch buf[i] { case '[': return buf, true case ',': return buf[:i], false case ':': // delete tail string i-- for ; i >= 0; i-- { if buf[i] == '"' { i-- for ; i >= 0; i-- { if buf[i] == '"' { i-- if i >= 0 && buf[i] == '\\' { i-- continue } for ; i >= 0; i-- { // look for either a ',','{' switch buf[i] { case '{': return buf[:i+1], true case ',': return buf[:i], false } } } } break } } break loop } } return buf, false } var errNoChange = &errorType{"no change"} func appendRawPaths(buf []byte, jstr string, paths []pathResult, raw string, stringify, del bool) ([]byte, error) { var err error var res gjson.Result var found bool if del { if paths[0].part == "-1" && !paths[0].force { res = gjson.Get(jstr, "#") if res.Int() > 0 { res = gjson.Get(jstr, strconv.FormatInt(int64(res.Int()-1), 10)) found = true } } } if !found { res = gjson.Get(jstr, paths[0].gpart) } if res.Index > 0 { if len(paths) > 1 { buf = append(buf, jstr[:res.Index]...) buf, err = appendRawPaths(buf, res.Raw, paths[1:], raw, stringify, del) if err != nil { return nil, err } buf = append(buf, jstr[res.Index+len(res.Raw):]...) return buf, nil } buf = append(buf, jstr[:res.Index]...) var exidx int // additional forward stripping if del { var delNextComma bool buf, delNextComma = deleteTailItem(buf) if delNextComma { i, j := res.Index+len(res.Raw), 0 for ; i < len(jstr); i, j = i+1, j+1 { if jstr[i] <= ' ' { continue } if jstr[i] == ',' { exidx = j + 1 } break } } } else { if stringify { buf = appendStringify(buf, raw) } else { buf = append(buf, raw...) } } buf = append(buf, jstr[res.Index+len(res.Raw)+exidx:]...) return buf, nil } if del { return nil, errNoChange } n, numeric := atoui(paths[0]) isempty := true for i := 0; i < len(jstr); i++ { if jstr[i] > ' ' { isempty = false break } } if isempty { if numeric { jstr = "[]" } else { jstr = "{}" } } jsres := gjson.Parse(jstr) if jsres.Type != gjson.JSON { if numeric { jstr = "[]" } else { jstr = "{}" } jsres = gjson.Parse(jstr) } var comma bool for i := 1; i < len(jsres.Raw); i++ { if jsres.Raw[i] <= ' ' { continue } if jsres.Raw[i] == '}' || jsres.Raw[i] == ']' { break } comma = true break } switch jsres.Raw[0] { default: return nil, &errorType{"json must be an object or array"} case '{': buf = append(buf, '{') buf = appendBuild(buf, false, paths, raw, stringify) if comma { buf = append(buf, ',') } buf = append(buf, jsres.Raw[1:]...) return buf, nil case '[': var appendit bool if !numeric { if paths[0].part == "-1" && !paths[0].force { appendit = true } else { return nil, &errorType{ "cannot set array element for non-numeric key '" + paths[0].part + "'"} } } if appendit { njson := trim(jsres.Raw) if njson[len(njson)-1] == ']' { njson = njson[:len(njson)-1] } buf = append(buf, njson...) if comma { buf = append(buf, ',') } buf = appendBuild(buf, true, paths, raw, stringify) buf = append(buf, ']') return buf, nil } buf = append(buf, '[') ress := jsres.Array() for i := 0; i < len(ress); i++ { if i > 0 { buf = append(buf, ',') } buf = append(buf, ress[i].Raw...) } if len(ress) == 0 { buf = appendRepeat(buf, "null,", n-len(ress)) } else { buf = appendRepeat(buf, ",null", n-len(ress)) if comma { buf = append(buf, ',') } } buf = appendBuild(buf, true, paths, raw, stringify) buf = append(buf, ']') return buf, nil } } func isOptimisticPath(path string) bool { for i := 0; i < len(path); i++ { if path[i] < '.' || path[i] > 'z' { return false } if path[i] > '9' && path[i] < 'A' { return false } if path[i] > 'z' { return false } } return true } // Set sets a json value for the specified path. // A path is in dot syntax, such as "name.last" or "age". // This function expects that the json is well-formed, and does not validate. // Invalid json will not panic, but it may return back unexpected results. // An error is returned if the path is not valid. // // A path is a series of keys separated by a dot. // // { // "name": {"first": "Tom", "last": "Anderson"}, // "age":37, // "children": ["Sara","Alex","Jack"], // "friends": [ // {"first": "James", "last": "Murphy"}, // {"first": "Roger", "last": "Craig"} // ] // } // "name.last" >> "Anderson" // "age" >> 37 // "children.1" >> "Alex" // func Set(json, path string, value interface{}) (string, error) { return SetOptions(json, path, value, nil) } // SetBytes sets a json value for the specified path. // If working with bytes, this method preferred over // Set(string(data), path, value) func SetBytes(json []byte, path string, value interface{}) ([]byte, error) { return SetBytesOptions(json, path, value, nil) } // SetRaw sets a raw json value for the specified path. // This function works the same as Set except that the value is set as a // raw block of json. This allows for setting premarshalled json objects. func SetRaw(json, path, value string) (string, error) { return SetRawOptions(json, path, value, nil) } // SetRawOptions sets a raw json value for the specified path with options. // This furnction works the same as SetOptions except that the value is set // as a raw block of json. This allows for setting premarshalled json objects. func SetRawOptions(json, path, value string, opts *Options) (string, error) { var optimistic bool if opts != nil { optimistic = opts.Optimistic } res, err := set(json, path, value, false, false, optimistic, false) if err == errNoChange { return json, nil } return string(res), err } // SetRawBytes sets a raw json value for the specified path. // If working with bytes, this method preferred over // SetRaw(string(data), path, value) func SetRawBytes(json []byte, path string, value []byte) ([]byte, error) { return SetRawBytesOptions(json, path, value, nil) } type dtype struct{} // Delete deletes a value from json for the specified path. func Delete(json, path string) (string, error) { return Set(json, path, dtype{}) } // DeleteBytes deletes a value from json for the specified path. func DeleteBytes(json []byte, path string) ([]byte, error) { return SetBytes(json, path, dtype{}) } func set(jstr, path, raw string, stringify, del, optimistic, inplace bool) ([]byte, error) { if path == "" { return nil, &errorType{"path cannot be empty"} } if !del && optimistic && isOptimisticPath(path) { res := gjson.Get(jstr, path) if res.Exists() && res.Index > 0 { sz := len(jstr) - len(res.Raw) + len(raw) if stringify { sz += 2 } if inplace && sz <= len(jstr) { if !stringify || !mustMarshalString(raw) { jsonh := *(*reflect.StringHeader)(unsafe.Pointer(&jstr)) jsonbh := reflect.SliceHeader{ Data: jsonh.Data, Len: jsonh.Len, Cap: jsonh.Len} jbytes := *(*[]byte)(unsafe.Pointer(&jsonbh)) if stringify { jbytes[res.Index] = '"' copy(jbytes[res.Index+1:], []byte(raw)) jbytes[res.Index+1+len(raw)] = '"' copy(jbytes[res.Index+1+len(raw)+1:], jbytes[res.Index+len(res.Raw):]) } else { copy(jbytes[res.Index:], []byte(raw)) copy(jbytes[res.Index+len(raw):], jbytes[res.Index+len(res.Raw):]) } return jbytes[:sz], nil } return nil, nil } buf := make([]byte, 0, sz) buf = append(buf, jstr[:res.Index]...) if stringify { buf = appendStringify(buf, raw) } else { buf = append(buf, raw...) } buf = append(buf, jstr[res.Index+len(res.Raw):]...) return buf, nil } } // parse the path, make sure that it does not contain invalid characters // such as '#', '?', '*' paths := make([]pathResult, 0, 4) r, err := parsePath(path) if err != nil { return nil, err } paths = append(paths, r) for r.more { if r, err = parsePath(r.path); err != nil { return nil, err } paths = append(paths, r) } njson, err := appendRawPaths(nil, jstr, paths, raw, stringify, del) if err != nil { return nil, err } return njson, nil } // SetOptions sets a json value for the specified path with options. // A path is in dot syntax, such as "name.last" or "age". // This function expects that the json is well-formed, and does not validate. // Invalid json will not panic, but it may return back unexpected results. // An error is returned if the path is not valid. func SetOptions(json, path string, value interface{}, opts *Options) (string, error) { if opts != nil { if opts.ReplaceInPlace { // it's not safe to replace bytes in-place for strings // copy the Options and set options.ReplaceInPlace to false. nopts := *opts opts = &nopts opts.ReplaceInPlace = false } } jsonh := *(*reflect.StringHeader)(unsafe.Pointer(&json)) jsonbh := reflect.SliceHeader{Data: jsonh.Data, Len: jsonh.Len} jsonb := *(*[]byte)(unsafe.Pointer(&jsonbh)) res, err := SetBytesOptions(jsonb, path, value, opts) return string(res), err } // SetBytesOptions sets a json value for the specified path with options. // If working with bytes, this method preferred over // SetOptions(string(data), path, value) func SetBytesOptions(json []byte, path string, value interface{}, opts *Options) ([]byte, error) { var optimistic, inplace bool if opts != nil { optimistic = opts.Optimistic inplace = opts.ReplaceInPlace } jstr := *(*string)(unsafe.Pointer(&json)) var res []byte var err error switch v := value.(type) { default: b, merr := jsongo.Marshal(value) if merr != nil { return nil, merr } raw := *(*string)(unsafe.Pointer(&b)) res, err = set(jstr, path, raw, false, false, optimistic, inplace) case dtype: res, err = set(jstr, path, "", false, true, optimistic, inplace) case string: res, err = set(jstr, path, v, true, false, optimistic, inplace) case []byte: raw := *(*string)(unsafe.Pointer(&v)) res, err = set(jstr, path, raw, true, false, optimistic, inplace) case bool: if v { res, err = set(jstr, path, "true", false, false, optimistic, inplace) } else { res, err = set(jstr, path, "false", false, false, optimistic, inplace) } case int8: res, err = set(jstr, path, strconv.FormatInt(int64(v), 10), false, false, optimistic, inplace) case int16: res, err = set(jstr, path, strconv.FormatInt(int64(v), 10), false, false, optimistic, inplace) case int32: res, err = set(jstr, path, strconv.FormatInt(int64(v), 10), false, false, optimistic, inplace) case int64: res, err = set(jstr, path, strconv.FormatInt(int64(v), 10), false, false, optimistic, inplace) case uint8: res, err = set(jstr, path, strconv.FormatUint(uint64(v), 10), false, false, optimistic, inplace) case uint16: res, err = set(jstr, path, strconv.FormatUint(uint64(v), 10), false, false, optimistic, inplace) case uint32: res, err = set(jstr, path, strconv.FormatUint(uint64(v), 10), false, false, optimistic, inplace) case uint64: res, err = set(jstr, path, strconv.FormatUint(uint64(v), 10), false, false, optimistic, inplace) case float32: res, err = set(jstr, path, strconv.FormatFloat(float64(v), 'f', -1, 64), false, false, optimistic, inplace) case float64: res, err = set(jstr, path, strconv.FormatFloat(float64(v), 'f', -1, 64), false, false, optimistic, inplace) } if err == errNoChange { return json, nil } return res, err } // SetRawBytesOptions sets a raw json value for the specified path with options. // If working with bytes, this method preferred over // SetRawOptions(string(data), path, value, opts) func SetRawBytesOptions(json []byte, path string, value []byte, opts *Options) ([]byte, error) { jstr := *(*string)(unsafe.Pointer(&json)) vstr := *(*string)(unsafe.Pointer(&value)) var optimistic, inplace bool if opts != nil { optimistic = opts.Optimistic inplace = opts.ReplaceInPlace } res, err := set(jstr, path, vstr, false, false, optimistic, inplace) if err == errNoChange { return json, nil } return res, err }