package fasthttp import ( "bytes" "errors" "io" "sync" "github.com/valyala/bytebufferpool" ) // AcquireArgs returns an empty Args object from the pool. // // The returned Args may be returned to the pool with ReleaseArgs // when no longer needed. This allows reducing GC load. func AcquireArgs() *Args { return argsPool.Get().(*Args) } // ReleaseArgs returns the object acquired via AquireArgs to the pool. // // Do not access the released Args object, otherwise data races may occur. func ReleaseArgs(a *Args) { a.Reset() argsPool.Put(a) } var argsPool = &sync.Pool{ New: func() interface{} { return &Args{} }, } // Args represents query arguments. // // It is forbidden copying Args instances. Create new instances instead // and use CopyTo(). // // Args instance MUST NOT be used from concurrently running goroutines. type Args struct { noCopy noCopy args []argsKV buf []byte } type argsKV struct { key []byte value []byte } // Reset clears query args. func (a *Args) Reset() { a.args = a.args[:0] } // CopyTo copies all args to dst. func (a *Args) CopyTo(dst *Args) { dst.Reset() dst.args = copyArgs(dst.args, a.args) } // VisitAll calls f for each existing arg. // // f must not retain references to key and value after returning. // Make key and/or value copies if you need storing them after returning. func (a *Args) VisitAll(f func(key, value []byte)) { visitArgs(a.args, f) } // Len returns the number of query args. func (a *Args) Len() int { return len(a.args) } // Parse parses the given string containing query args. func (a *Args) Parse(s string) { a.buf = append(a.buf[:0], s...) a.ParseBytes(a.buf) } // ParseBytes parses the given b containing query args. func (a *Args) ParseBytes(b []byte) { a.Reset() var s argsScanner s.b = b var kv *argsKV a.args, kv = allocArg(a.args) for s.next(kv) { if len(kv.key) > 0 || len(kv.value) > 0 { a.args, kv = allocArg(a.args) } } a.args = releaseArg(a.args) } // String returns string representation of query args. func (a *Args) String() string { return string(a.QueryString()) } // QueryString returns query string for the args. // // The returned value is valid until the next call to Args methods. func (a *Args) QueryString() []byte { a.buf = a.AppendBytes(a.buf[:0]) return a.buf } // AppendBytes appends query string to dst and returns the extended dst. func (a *Args) AppendBytes(dst []byte) []byte { for i, n := 0, len(a.args); i < n; i++ { kv := &a.args[i] dst = AppendQuotedArg(dst, kv.key) if len(kv.value) > 0 { dst = append(dst, '=') dst = AppendQuotedArg(dst, kv.value) } if i+1 < n { dst = append(dst, '&') } } return dst } // WriteTo writes query string to w. // // WriteTo implements io.WriterTo interface. func (a *Args) WriteTo(w io.Writer) (int64, error) { n, err := w.Write(a.QueryString()) return int64(n), err } // Del deletes argument with the given key from query args. func (a *Args) Del(key string) { a.args = delAllArgs(a.args, key) } // DelBytes deletes argument with the given key from query args. func (a *Args) DelBytes(key []byte) { a.args = delAllArgs(a.args, b2s(key)) } // Add adds 'key=value' argument. // // Multiple values for the same key may be added. func (a *Args) Add(key, value string) { a.args = appendArg(a.args, key, value) } // AddBytesK adds 'key=value' argument. // // Multiple values for the same key may be added. func (a *Args) AddBytesK(key []byte, value string) { a.args = appendArg(a.args, b2s(key), value) } // AddBytesV adds 'key=value' argument. // // Multiple values for the same key may be added. func (a *Args) AddBytesV(key string, value []byte) { a.args = appendArg(a.args, key, b2s(value)) } // AddBytesKV adds 'key=value' argument. // // Multiple values for the same key may be added. func (a *Args) AddBytesKV(key, value []byte) { a.args = appendArg(a.args, b2s(key), b2s(value)) } // Set sets 'key=value' argument. func (a *Args) Set(key, value string) { a.args = setArg(a.args, key, value) } // SetBytesK sets 'key=value' argument. func (a *Args) SetBytesK(key []byte, value string) { a.args = setArg(a.args, b2s(key), value) } // SetBytesV sets 'key=value' argument. func (a *Args) SetBytesV(key string, value []byte) { a.args = setArg(a.args, key, b2s(value)) } // SetBytesKV sets 'key=value' argument. func (a *Args) SetBytesKV(key, value []byte) { a.args = setArgBytes(a.args, key, value) } // Peek returns query arg value for the given key. // // Returned value is valid until the next Args call. func (a *Args) Peek(key string) []byte { return peekArgStr(a.args, key) } // PeekBytes returns query arg value for the given key. // // Returned value is valid until the next Args call. func (a *Args) PeekBytes(key []byte) []byte { return peekArgBytes(a.args, key) } // PeekMulti returns all the arg values for the given key. func (a *Args) PeekMulti(key string) [][]byte { var values [][]byte a.VisitAll(func(k, v []byte) { if string(k) == key { values = append(values, v) } }) return values } // PeekMultiBytes returns all the arg values for the given key. func (a *Args) PeekMultiBytes(key []byte) [][]byte { return a.PeekMulti(b2s(key)) } // Has returns true if the given key exists in Args. func (a *Args) Has(key string) bool { return hasArg(a.args, key) } // HasBytes returns true if the given key exists in Args. func (a *Args) HasBytes(key []byte) bool { return hasArg(a.args, b2s(key)) } // ErrNoArgValue is returned when Args value with the given key is missing. var ErrNoArgValue = errors.New("no Args value for the given key") // GetUint returns uint value for the given key. func (a *Args) GetUint(key string) (int, error) { value := a.Peek(key) if len(value) == 0 { return -1, ErrNoArgValue } return ParseUint(value) } // SetUint sets uint value for the given key. func (a *Args) SetUint(key string, value int) { bb := bytebufferpool.Get() bb.B = AppendUint(bb.B[:0], value) a.SetBytesV(key, bb.B) bytebufferpool.Put(bb) } // SetUintBytes sets uint value for the given key. func (a *Args) SetUintBytes(key []byte, value int) { a.SetUint(b2s(key), value) } // GetUintOrZero returns uint value for the given key. // // Zero (0) is returned on error. func (a *Args) GetUintOrZero(key string) int { n, err := a.GetUint(key) if err != nil { n = 0 } return n } // GetUfloat returns ufloat value for the given key. func (a *Args) GetUfloat(key string) (float64, error) { value := a.Peek(key) if len(value) == 0 { return -1, ErrNoArgValue } return ParseUfloat(value) } // GetUfloatOrZero returns ufloat value for the given key. // // Zero (0) is returned on error. func (a *Args) GetUfloatOrZero(key string) float64 { f, err := a.GetUfloat(key) if err != nil { f = 0 } return f } // GetBool returns boolean value for the given key. // // true is returned for "1", "t", "T", "true", "TRUE", "True", "y", "yes", "Y", "YES", "Yes", // otherwise false is returned. func (a *Args) GetBool(key string) bool { switch b2s(a.Peek(key)) { // Support the same true cases as strconv.ParseBool // See: https://github.com/golang/go/blob/4e1b11e2c9bdb0ddea1141eed487be1a626ff5be/src/strconv/atob.go#L12 // and Y and Yes versions. case "1", "t", "T", "true", "TRUE", "True", "y", "yes", "Y", "YES", "Yes": return true default: return false } } func visitArgs(args []argsKV, f func(k, v []byte)) { for i, n := 0, len(args); i < n; i++ { kv := &args[i] f(kv.key, kv.value) } } func copyArgs(dst, src []argsKV) []argsKV { if cap(dst) < len(src) { tmp := make([]argsKV, len(src)) copy(tmp, dst) dst = tmp } n := len(src) dst = dst[:n] for i := 0; i < n; i++ { dstKV := &dst[i] srcKV := &src[i] dstKV.key = append(dstKV.key[:0], srcKV.key...) dstKV.value = append(dstKV.value[:0], srcKV.value...) } return dst } func delAllArgsBytes(args []argsKV, key []byte) []argsKV { return delAllArgs(args, b2s(key)) } func delAllArgs(args []argsKV, key string) []argsKV { for i, n := 0, len(args); i < n; i++ { kv := &args[i] if key == string(kv.key) { tmp := *kv copy(args[i:], args[i+1:]) n-- args[n] = tmp args = args[:n] } } return args } func setArgBytes(h []argsKV, key, value []byte) []argsKV { return setArg(h, b2s(key), b2s(value)) } func setArg(h []argsKV, key, value string) []argsKV { n := len(h) for i := 0; i < n; i++ { kv := &h[i] if key == string(kv.key) { kv.value = append(kv.value[:0], value...) return h } } return appendArg(h, key, value) } func appendArgBytes(h []argsKV, key, value []byte) []argsKV { return appendArg(h, b2s(key), b2s(value)) } func appendArg(args []argsKV, key, value string) []argsKV { var kv *argsKV args, kv = allocArg(args) kv.key = append(kv.key[:0], key...) kv.value = append(kv.value[:0], value...) return args } func allocArg(h []argsKV) ([]argsKV, *argsKV) { n := len(h) if cap(h) > n { h = h[:n+1] } else { h = append(h, argsKV{}) } return h, &h[n] } func releaseArg(h []argsKV) []argsKV { return h[:len(h)-1] } func hasArg(h []argsKV, key string) bool { for i, n := 0, len(h); i < n; i++ { kv := &h[i] if key == string(kv.key) { return true } } return false } func peekArgBytes(h []argsKV, k []byte) []byte { for i, n := 0, len(h); i < n; i++ { kv := &h[i] if bytes.Equal(kv.key, k) { return kv.value } } return nil } func peekArgStr(h []argsKV, k string) []byte { for i, n := 0, len(h); i < n; i++ { kv := &h[i] if string(kv.key) == k { return kv.value } } return nil } type argsScanner struct { b []byte } func (s *argsScanner) next(kv *argsKV) bool { if len(s.b) == 0 { return false } isKey := true k := 0 for i, c := range s.b { switch c { case '=': if isKey { isKey = false kv.key = decodeArgAppend(kv.key[:0], s.b[:i]) k = i + 1 } case '&': if isKey { kv.key = decodeArgAppend(kv.key[:0], s.b[:i]) kv.value = kv.value[:0] } else { kv.value = decodeArgAppend(kv.value[:0], s.b[k:i]) } s.b = s.b[i+1:] return true } } if isKey { kv.key = decodeArgAppend(kv.key[:0], s.b) kv.value = kv.value[:0] } else { kv.value = decodeArgAppend(kv.value[:0], s.b[k:]) } s.b = s.b[len(s.b):] return true } func decodeArgAppend(dst, src []byte) []byte { if bytes.IndexByte(src, '%') < 0 && bytes.IndexByte(src, '+') < 0 { // fast path: src doesn't contain encoded chars return append(dst, src...) } // slow path for i := 0; i < len(src); i++ { c := src[i] if c == '%' { if i+2 >= len(src) { return append(dst, src[i:]...) } x2 := hex2intTable[src[i+2]] x1 := hex2intTable[src[i+1]] if x1 == 16 || x2 == 16 { dst = append(dst, '%') } else { dst = append(dst, x1<<4|x2) i += 2 } } else if c == '+' { dst = append(dst, ' ') } else { dst = append(dst, c) } } return dst } // decodeArgAppendNoPlus is almost identical to decodeArgAppend, but it doesn't // substitute '+' with ' '. // // The function is copy-pasted from decodeArgAppend due to the performance // reasons only. func decodeArgAppendNoPlus(dst, src []byte) []byte { if bytes.IndexByte(src, '%') < 0 { // fast path: src doesn't contain encoded chars return append(dst, src...) } // slow path for i := 0; i < len(src); i++ { c := src[i] if c == '%' { if i+2 >= len(src) { return append(dst, src[i:]...) } x2 := hex2intTable[src[i+2]] x1 := hex2intTable[src[i+1]] if x1 == 16 || x2 == 16 { dst = append(dst, '%') } else { dst = append(dst, x1<<4|x2) i += 2 } } else { dst = append(dst, c) } } return dst }