// Copyright The OpenTelemetry Authors // SPDX-License-Identifier: Apache-2.0 package trace // import "go.opentelemetry.io/otel/trace" import ( "encoding/json" "fmt" "strings" ) const ( maxListMembers = 32 listDelimiters = "," memberDelimiter = "=" errInvalidKey errorConst = "invalid tracestate key" errInvalidValue errorConst = "invalid tracestate value" errInvalidMember errorConst = "invalid tracestate list-member" errMemberNumber errorConst = "too many list-members in tracestate" errDuplicate errorConst = "duplicate list-member in tracestate" ) type member struct { Key string Value string } // according to (chr = %x20 / (nblk-char = %x21-2B / %x2D-3C / %x3E-7E) ) // means (chr = %x20-2B / %x2D-3C / %x3E-7E) . func checkValueChar(v byte) bool { return v >= '\x20' && v <= '\x7e' && v != '\x2c' && v != '\x3d' } // according to (nblk-chr = %x21-2B / %x2D-3C / %x3E-7E) . func checkValueLast(v byte) bool { return v >= '\x21' && v <= '\x7e' && v != '\x2c' && v != '\x3d' } // based on the W3C Trace Context specification // // value = (0*255(chr)) nblk-chr // nblk-chr = %x21-2B / %x2D-3C / %x3E-7E // chr = %x20 / nblk-chr // // see https://www.w3.org/TR/trace-context-1/#value func checkValue(val string) bool { n := len(val) if n == 0 || n > 256 { return false } for i := 0; i < n-1; i++ { if !checkValueChar(val[i]) { return false } } return checkValueLast(val[n-1]) } func checkKeyRemain(key string) bool { // ( lcalpha / DIGIT / "_" / "-"/ "*" / "/" ) for _, v := range key { if isAlphaNum(byte(v)) { continue } switch v { case '_', '-', '*', '/': continue } return false } return true } // according to // // simple-key = lcalpha (0*255( lcalpha / DIGIT / "_" / "-"/ "*" / "/" )) // system-id = lcalpha (0*13( lcalpha / DIGIT / "_" / "-"/ "*" / "/" )) // // param n is remain part length, should be 255 in simple-key or 13 in system-id. func checkKeyPart(key string, n int) bool { if len(key) == 0 { return false } first := key[0] // key's first char ret := len(key[1:]) <= n ret = ret && first >= 'a' && first <= 'z' return ret && checkKeyRemain(key[1:]) } func isAlphaNum(c byte) bool { if c >= 'a' && c <= 'z' { return true } return c >= '0' && c <= '9' } // according to // // tenant-id = ( lcalpha / DIGIT ) 0*240( lcalpha / DIGIT / "_" / "-"/ "*" / "/" ) // // param n is remain part length, should be 240 exactly. func checkKeyTenant(key string, n int) bool { if len(key) == 0 { return false } return isAlphaNum(key[0]) && len(key[1:]) <= n && checkKeyRemain(key[1:]) } // based on the W3C Trace Context specification // // key = simple-key / multi-tenant-key // simple-key = lcalpha (0*255( lcalpha / DIGIT / "_" / "-"/ "*" / "/" )) // multi-tenant-key = tenant-id "@" system-id // tenant-id = ( lcalpha / DIGIT ) (0*240( lcalpha / DIGIT / "_" / "-"/ "*" / "/" )) // system-id = lcalpha (0*13( lcalpha / DIGIT / "_" / "-"/ "*" / "/" )) // lcalpha = %x61-7A ; a-z // // see https://www.w3.org/TR/trace-context-1/#tracestate-header. func checkKey(key string) bool { tenant, system, ok := strings.Cut(key, "@") if !ok { return checkKeyPart(key, 255) } return checkKeyTenant(tenant, 240) && checkKeyPart(system, 13) } func newMember(key, value string) (member, error) { if !checkKey(key) { return member{}, errInvalidKey } if !checkValue(value) { return member{}, errInvalidValue } return member{Key: key, Value: value}, nil } func parseMember(m string) (member, error) { key, val, ok := strings.Cut(m, memberDelimiter) if !ok { return member{}, fmt.Errorf("%w: %s", errInvalidMember, m) } key = strings.TrimLeft(key, " \t") val = strings.TrimRight(val, " \t") result, e := newMember(key, val) if e != nil { return member{}, fmt.Errorf("%w: %s", errInvalidMember, m) } return result, nil } // String encodes member into a string compliant with the W3C Trace Context // specification. func (m member) String() string { return m.Key + "=" + m.Value } // TraceState provides additional vendor-specific trace identification // information across different distributed tracing systems. It represents an // immutable list consisting of key/value pairs, each pair is referred to as a // list-member. // // TraceState conforms to the W3C Trace Context specification // (https://www.w3.org/TR/trace-context-1). All operations that create or copy // a TraceState do so by validating all input and will only produce TraceState // that conform to the specification. Specifically, this means that all // list-member's key/value pairs are valid, no duplicate list-members exist, // and the maximum number of list-members (32) is not exceeded. type TraceState struct { //nolint:revive // revive complains about stutter of `trace.TraceState` // list is the members in order. list []member } var _ json.Marshaler = TraceState{} // ParseTraceState attempts to decode a TraceState from the passed // string. It returns an error if the input is invalid according to the W3C // Trace Context specification. func ParseTraceState(ts string) (TraceState, error) { if ts == "" { return TraceState{}, nil } wrapErr := func(err error) error { return fmt.Errorf("failed to parse tracestate: %w", err) } var members []member found := make(map[string]struct{}) for ts != "" { var memberStr string memberStr, ts, _ = strings.Cut(ts, listDelimiters) if len(memberStr) == 0 { continue } m, err := parseMember(memberStr) if err != nil { return TraceState{}, wrapErr(err) } if _, ok := found[m.Key]; ok { return TraceState{}, wrapErr(errDuplicate) } found[m.Key] = struct{}{} members = append(members, m) if n := len(members); n > maxListMembers { return TraceState{}, wrapErr(errMemberNumber) } } return TraceState{list: members}, nil } // MarshalJSON marshals the TraceState into JSON. func (ts TraceState) MarshalJSON() ([]byte, error) { return json.Marshal(ts.String()) } // String encodes the TraceState into a string compliant with the W3C // Trace Context specification. The returned string will be invalid if the // TraceState contains any invalid members. func (ts TraceState) String() string { if len(ts.list) == 0 { return "" } var n int n += len(ts.list) // member delimiters: '=' n += len(ts.list) - 1 // list delimiters: ',' for _, mem := range ts.list { n += len(mem.Key) n += len(mem.Value) } var sb strings.Builder sb.Grow(n) _, _ = sb.WriteString(ts.list[0].Key) _ = sb.WriteByte('=') _, _ = sb.WriteString(ts.list[0].Value) for i := 1; i < len(ts.list); i++ { _ = sb.WriteByte(listDelimiters[0]) _, _ = sb.WriteString(ts.list[i].Key) _ = sb.WriteByte('=') _, _ = sb.WriteString(ts.list[i].Value) } return sb.String() } // Get returns the value paired with key from the corresponding TraceState // list-member if it exists, otherwise an empty string is returned. func (ts TraceState) Get(key string) string { for _, member := range ts.list { if member.Key == key { return member.Value } } return "" } // Walk walks all key value pairs in the TraceState by calling f // Iteration stops if f returns false. func (ts TraceState) Walk(f func(key, value string) bool) { for _, m := range ts.list { if !f(m.Key, m.Value) { break } } } // Insert adds a new list-member defined by the key/value pair to the // TraceState. If a list-member already exists for the given key, that // list-member's value is updated. The new or updated list-member is always // moved to the beginning of the TraceState as specified by the W3C Trace // Context specification. // // If key or value are invalid according to the W3C Trace Context // specification an error is returned with the original TraceState. // // If adding a new list-member means the TraceState would have more members // then is allowed, the new list-member will be inserted and the right-most // list-member will be dropped in the returned TraceState. func (ts TraceState) Insert(key, value string) (TraceState, error) { m, err := newMember(key, value) if err != nil { return ts, err } n := len(ts.list) found := n for i := range ts.list { if ts.list[i].Key == key { found = i } } cTS := TraceState{} if found == n && n < maxListMembers { cTS.list = make([]member, n+1) } else { cTS.list = make([]member, n) } cTS.list[0] = m // When the number of members exceeds capacity, drop the "right-most". copy(cTS.list[1:], ts.list[0:found]) if found < n { copy(cTS.list[1+found:], ts.list[found+1:]) } return cTS, nil } // Delete returns a copy of the TraceState with the list-member identified by // key removed. func (ts TraceState) Delete(key string) TraceState { members := make([]member, ts.Len()) copy(members, ts.list) for i, member := range ts.list { if member.Key == key { members = append(members[:i], members[i+1:]...) // TraceState should contain no duplicate members. break } } return TraceState{list: members} } // Len returns the number of list-members in the TraceState. func (ts TraceState) Len() int { return len(ts.list) }