2020-10-20 15:26:55 +00:00
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package ws
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import (
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"bytes"
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"encoding/binary"
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"math/rand"
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)
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// Constants defined by specification.
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const (
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// All control frames MUST have a payload length of 125 bytes or less and MUST NOT be fragmented.
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MaxControlFramePayloadSize = 125
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)
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// OpCode represents operation code.
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type OpCode byte
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// Operation codes defined by specification.
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// See https://tools.ietf.org/html/rfc6455#section-5.2
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const (
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OpContinuation OpCode = 0x0
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OpText OpCode = 0x1
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OpBinary OpCode = 0x2
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OpClose OpCode = 0x8
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OpPing OpCode = 0x9
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OpPong OpCode = 0xa
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)
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// IsControl checks whether the c is control operation code.
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// See https://tools.ietf.org/html/rfc6455#section-5.5
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func (c OpCode) IsControl() bool {
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// RFC6455: Control frames are identified by opcodes where
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// the most significant bit of the opcode is 1.
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//
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// Note that OpCode is only 4 bit length.
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return c&0x8 != 0
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}
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// IsData checks whether the c is data operation code.
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// See https://tools.ietf.org/html/rfc6455#section-5.6
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func (c OpCode) IsData() bool {
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// RFC6455: Data frames (e.g., non-control frames) are identified by opcodes
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// where the most significant bit of the opcode is 0.
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//
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// Note that OpCode is only 4 bit length.
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return c&0x8 == 0
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}
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// IsReserved checks whether the c is reserved operation code.
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// See https://tools.ietf.org/html/rfc6455#section-5.2
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func (c OpCode) IsReserved() bool {
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// RFC6455:
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// %x3-7 are reserved for further non-control frames
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// %xB-F are reserved for further control frames
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return (0x3 <= c && c <= 0x7) || (0xb <= c && c <= 0xf)
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}
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// StatusCode represents the encoded reason for closure of websocket connection.
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//
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// There are few helper methods on StatusCode that helps to define a range in
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// which given code is lay in. accordingly to ranges defined in specification.
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//
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// See https://tools.ietf.org/html/rfc6455#section-7.4
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type StatusCode uint16
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// StatusCodeRange describes range of StatusCode values.
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type StatusCodeRange struct {
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Min, Max StatusCode
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}
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// Status code ranges defined by specification.
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// See https://tools.ietf.org/html/rfc6455#section-7.4.2
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var (
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StatusRangeNotInUse = StatusCodeRange{0, 999}
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StatusRangeProtocol = StatusCodeRange{1000, 2999}
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StatusRangeApplication = StatusCodeRange{3000, 3999}
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StatusRangePrivate = StatusCodeRange{4000, 4999}
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)
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// Status codes defined by specification.
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// See https://tools.ietf.org/html/rfc6455#section-7.4.1
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const (
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StatusNormalClosure StatusCode = 1000
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StatusGoingAway StatusCode = 1001
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StatusProtocolError StatusCode = 1002
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StatusUnsupportedData StatusCode = 1003
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StatusNoMeaningYet StatusCode = 1004
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StatusInvalidFramePayloadData StatusCode = 1007
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StatusPolicyViolation StatusCode = 1008
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StatusMessageTooBig StatusCode = 1009
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StatusMandatoryExt StatusCode = 1010
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StatusInternalServerError StatusCode = 1011
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StatusTLSHandshake StatusCode = 1015
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// StatusAbnormalClosure is a special code designated for use in
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// applications.
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StatusAbnormalClosure StatusCode = 1006
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// StatusNoStatusRcvd is a special code designated for use in applications.
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StatusNoStatusRcvd StatusCode = 1005
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)
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// In reports whether the code is defined in given range.
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func (s StatusCode) In(r StatusCodeRange) bool {
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return r.Min <= s && s <= r.Max
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}
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// Empty reports whether the code is empty.
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// Empty code has no any meaning neither app level codes nor other.
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// This method is useful just to check that code is golang default value 0.
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func (s StatusCode) Empty() bool {
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return s == 0
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}
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// IsNotUsed reports whether the code is predefined in not used range.
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func (s StatusCode) IsNotUsed() bool {
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return s.In(StatusRangeNotInUse)
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}
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// IsApplicationSpec reports whether the code should be defined by
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// application, framework or libraries specification.
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func (s StatusCode) IsApplicationSpec() bool {
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return s.In(StatusRangeApplication)
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}
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// IsPrivateSpec reports whether the code should be defined privately.
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func (s StatusCode) IsPrivateSpec() bool {
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return s.In(StatusRangePrivate)
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}
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// IsProtocolSpec reports whether the code should be defined by protocol specification.
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func (s StatusCode) IsProtocolSpec() bool {
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return s.In(StatusRangeProtocol)
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}
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// IsProtocolDefined reports whether the code is already defined by protocol specification.
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func (s StatusCode) IsProtocolDefined() bool {
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switch s {
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case StatusNormalClosure,
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StatusGoingAway,
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StatusProtocolError,
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StatusUnsupportedData,
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StatusInvalidFramePayloadData,
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StatusPolicyViolation,
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StatusMessageTooBig,
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StatusMandatoryExt,
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StatusInternalServerError,
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StatusNoStatusRcvd,
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StatusAbnormalClosure,
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StatusTLSHandshake:
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return true
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}
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return false
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}
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// IsProtocolReserved reports whether the code is defined by protocol specification
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// to be reserved only for application usage purpose.
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func (s StatusCode) IsProtocolReserved() bool {
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switch s {
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// [RFC6455]: {1005,1006,1015} is a reserved value and MUST NOT be set as a status code in a
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// Close control frame by an endpoint.
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case StatusNoStatusRcvd, StatusAbnormalClosure, StatusTLSHandshake:
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return true
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default:
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return false
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}
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}
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// Compiled control frames for common use cases.
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// For construct-serialize optimizations.
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var (
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CompiledPing = MustCompileFrame(NewPingFrame(nil))
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CompiledPong = MustCompileFrame(NewPongFrame(nil))
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CompiledClose = MustCompileFrame(NewCloseFrame(nil))
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CompiledCloseNormalClosure = MustCompileFrame(closeFrameNormalClosure)
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CompiledCloseGoingAway = MustCompileFrame(closeFrameGoingAway)
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CompiledCloseProtocolError = MustCompileFrame(closeFrameProtocolError)
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CompiledCloseUnsupportedData = MustCompileFrame(closeFrameUnsupportedData)
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CompiledCloseNoMeaningYet = MustCompileFrame(closeFrameNoMeaningYet)
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CompiledCloseInvalidFramePayloadData = MustCompileFrame(closeFrameInvalidFramePayloadData)
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CompiledClosePolicyViolation = MustCompileFrame(closeFramePolicyViolation)
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CompiledCloseMessageTooBig = MustCompileFrame(closeFrameMessageTooBig)
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CompiledCloseMandatoryExt = MustCompileFrame(closeFrameMandatoryExt)
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CompiledCloseInternalServerError = MustCompileFrame(closeFrameInternalServerError)
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CompiledCloseTLSHandshake = MustCompileFrame(closeFrameTLSHandshake)
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)
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// Header represents websocket frame header.
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// See https://tools.ietf.org/html/rfc6455#section-5.2
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type Header struct {
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Fin bool
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Rsv byte
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OpCode OpCode
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Masked bool
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Mask [4]byte
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Length int64
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}
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// Rsv1 reports whether the header has first rsv bit set.
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func (h Header) Rsv1() bool { return h.Rsv&bit5 != 0 }
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// Rsv2 reports whether the header has second rsv bit set.
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func (h Header) Rsv2() bool { return h.Rsv&bit6 != 0 }
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// Rsv3 reports whether the header has third rsv bit set.
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func (h Header) Rsv3() bool { return h.Rsv&bit7 != 0 }
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2024-10-17 20:09:39 +00:00
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// Rsv creates rsv byte representation from bits.
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func Rsv(r1, r2, r3 bool) (rsv byte) {
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if r1 {
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rsv |= bit5
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}
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if r2 {
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rsv |= bit6
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}
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if r3 {
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rsv |= bit7
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}
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return rsv
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}
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// RsvBits returns rsv bits from bytes representation.
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func RsvBits(rsv byte) (r1, r2, r3 bool) {
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r1 = rsv&bit5 != 0
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r2 = rsv&bit6 != 0
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r3 = rsv&bit7 != 0
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return r1, r2, r3
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}
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2020-10-20 15:26:55 +00:00
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// Frame represents websocket frame.
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// See https://tools.ietf.org/html/rfc6455#section-5.2
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type Frame struct {
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Header Header
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Payload []byte
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}
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// NewFrame creates frame with given operation code,
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// flag of completeness and payload bytes.
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func NewFrame(op OpCode, fin bool, p []byte) Frame {
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return Frame{
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Header: Header{
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Fin: fin,
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OpCode: op,
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Length: int64(len(p)),
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},
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Payload: p,
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}
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}
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// NewTextFrame creates text frame with p as payload.
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// Note that p is not copied.
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func NewTextFrame(p []byte) Frame {
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return NewFrame(OpText, true, p)
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}
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// NewBinaryFrame creates binary frame with p as payload.
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// Note that p is not copied.
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func NewBinaryFrame(p []byte) Frame {
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return NewFrame(OpBinary, true, p)
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}
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// NewPingFrame creates ping frame with p as payload.
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// Note that p is not copied.
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// Note that p must have length of MaxControlFramePayloadSize bytes or less due
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// to RFC.
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func NewPingFrame(p []byte) Frame {
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return NewFrame(OpPing, true, p)
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}
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// NewPongFrame creates pong frame with p as payload.
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// Note that p is not copied.
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// Note that p must have length of MaxControlFramePayloadSize bytes or less due
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// to RFC.
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func NewPongFrame(p []byte) Frame {
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return NewFrame(OpPong, true, p)
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}
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// NewCloseFrame creates close frame with given close body.
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// Note that p is not copied.
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// Note that p must have length of MaxControlFramePayloadSize bytes or less due
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// to RFC.
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func NewCloseFrame(p []byte) Frame {
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return NewFrame(OpClose, true, p)
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}
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// NewCloseFrameBody encodes a closure code and a reason into a binary
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// representation.
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//
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// It returns slice which is at most MaxControlFramePayloadSize bytes length.
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// If the reason is too big it will be cropped to fit the limit defined by the
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// spec.
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//
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// See https://tools.ietf.org/html/rfc6455#section-5.5
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func NewCloseFrameBody(code StatusCode, reason string) []byte {
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n := min(2+len(reason), MaxControlFramePayloadSize)
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p := make([]byte, n)
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crop := min(MaxControlFramePayloadSize-2, len(reason))
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PutCloseFrameBody(p, code, reason[:crop])
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return p
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}
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// PutCloseFrameBody encodes code and reason into buf.
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//
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// It will panic if the buffer is too small to accommodate a code or a reason.
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//
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// PutCloseFrameBody does not check buffer to be RFC compliant, but note that
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// by RFC it must be at most MaxControlFramePayloadSize.
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func PutCloseFrameBody(p []byte, code StatusCode, reason string) {
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_ = p[1+len(reason)]
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binary.BigEndian.PutUint16(p, uint16(code))
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copy(p[2:], reason)
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}
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// MaskFrame masks frame and returns frame with masked payload and Mask header's field set.
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// Note that it copies f payload to prevent collisions.
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// For less allocations you could use MaskFrameInPlace or construct frame manually.
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func MaskFrame(f Frame) Frame {
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return MaskFrameWith(f, NewMask())
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}
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// MaskFrameWith masks frame with given mask and returns frame
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// with masked payload and Mask header's field set.
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// Note that it copies f payload to prevent collisions.
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// For less allocations you could use MaskFrameInPlaceWith or construct frame manually.
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func MaskFrameWith(f Frame, mask [4]byte) Frame {
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// TODO(gobwas): check CopyCipher ws copy() Cipher().
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p := make([]byte, len(f.Payload))
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copy(p, f.Payload)
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f.Payload = p
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return MaskFrameInPlaceWith(f, mask)
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}
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// MaskFrameInPlace masks frame and returns frame with masked payload and Mask
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// header's field set.
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// Note that it applies xor cipher to f.Payload without copying, that is, it
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// modifies f.Payload inplace.
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func MaskFrameInPlace(f Frame) Frame {
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return MaskFrameInPlaceWith(f, NewMask())
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}
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2024-10-17 20:09:39 +00:00
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var zeroMask [4]byte
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// UnmaskFrame unmasks frame and returns frame with unmasked payload and Mask
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// header's field cleared.
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// Note that it copies f payload.
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func UnmaskFrame(f Frame) Frame {
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p := make([]byte, len(f.Payload))
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copy(p, f.Payload)
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f.Payload = p
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return UnmaskFrameInPlace(f)
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}
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// UnmaskFrameInPlace unmasks frame and returns frame with unmasked payload and
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// Mask header's field cleared.
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// Note that it applies xor cipher to f.Payload without copying, that is, it
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// modifies f.Payload inplace.
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func UnmaskFrameInPlace(f Frame) Frame {
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Cipher(f.Payload, f.Header.Mask, 0)
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f.Header.Masked = false
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f.Header.Mask = zeroMask
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return f
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}
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2020-10-20 15:26:55 +00:00
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// MaskFrameInPlaceWith masks frame with given mask and returns frame
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// with masked payload and Mask header's field set.
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// Note that it applies xor cipher to f.Payload without copying, that is, it
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// modifies f.Payload inplace.
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|
|
func MaskFrameInPlaceWith(f Frame, m [4]byte) Frame {
|
|
|
|
f.Header.Masked = true
|
|
|
|
f.Header.Mask = m
|
|
|
|
Cipher(f.Payload, m, 0)
|
|
|
|
return f
|
|
|
|
}
|
|
|
|
|
|
|
|
// NewMask creates new random mask.
|
|
|
|
func NewMask() (ret [4]byte) {
|
|
|
|
binary.BigEndian.PutUint32(ret[:], rand.Uint32())
|
2024-10-17 20:09:39 +00:00
|
|
|
return ret
|
2020-10-20 15:26:55 +00:00
|
|
|
}
|
|
|
|
|
|
|
|
// CompileFrame returns byte representation of given frame.
|
|
|
|
// In terms of memory consumption it is useful to precompile static frames
|
|
|
|
// which are often used.
|
|
|
|
func CompileFrame(f Frame) (bts []byte, err error) {
|
|
|
|
buf := bytes.NewBuffer(make([]byte, 0, 16))
|
|
|
|
err = WriteFrame(buf, f)
|
|
|
|
bts = buf.Bytes()
|
2024-10-17 20:09:39 +00:00
|
|
|
return bts, err
|
2020-10-20 15:26:55 +00:00
|
|
|
}
|
|
|
|
|
|
|
|
// MustCompileFrame is like CompileFrame but panics if frame can not be
|
|
|
|
// encoded.
|
|
|
|
func MustCompileFrame(f Frame) []byte {
|
|
|
|
bts, err := CompileFrame(f)
|
|
|
|
if err != nil {
|
|
|
|
panic(err)
|
|
|
|
}
|
|
|
|
return bts
|
|
|
|
}
|
|
|
|
|
|
|
|
func makeCloseFrame(code StatusCode) Frame {
|
|
|
|
return NewCloseFrame(NewCloseFrameBody(code, ""))
|
|
|
|
}
|
|
|
|
|
|
|
|
var (
|
|
|
|
closeFrameNormalClosure = makeCloseFrame(StatusNormalClosure)
|
|
|
|
closeFrameGoingAway = makeCloseFrame(StatusGoingAway)
|
|
|
|
closeFrameProtocolError = makeCloseFrame(StatusProtocolError)
|
|
|
|
closeFrameUnsupportedData = makeCloseFrame(StatusUnsupportedData)
|
|
|
|
closeFrameNoMeaningYet = makeCloseFrame(StatusNoMeaningYet)
|
|
|
|
closeFrameInvalidFramePayloadData = makeCloseFrame(StatusInvalidFramePayloadData)
|
|
|
|
closeFramePolicyViolation = makeCloseFrame(StatusPolicyViolation)
|
|
|
|
closeFrameMessageTooBig = makeCloseFrame(StatusMessageTooBig)
|
|
|
|
closeFrameMandatoryExt = makeCloseFrame(StatusMandatoryExt)
|
|
|
|
closeFrameInternalServerError = makeCloseFrame(StatusInternalServerError)
|
|
|
|
closeFrameTLSHandshake = makeCloseFrame(StatusTLSHandshake)
|
|
|
|
)
|