diff options
author | msglm <msglm@techchud.xyz> | 2023-10-27 07:08:25 -0500 |
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committer | msglm <msglm@techchud.xyz> | 2023-10-27 07:08:25 -0500 |
commit | 032a7e0c1188d3507b8d9a9571f2446a43cf775b (patch) | |
tree | 2bd38c01bc7761a6195e426082ce7191ebc765a1 /vendor/github.com/rs/zerolog/internal | |
parent | 56e7bd01ca09ad52b0c4f48f146a20a4f1b78696 (diff) | |
download | matterbridge-msglm-1.26.0+0.1.0.tar.gz matterbridge-msglm-1.26.0+0.1.0.tar.bz2 matterbridge-msglm-1.26.0+0.1.0.zip |
apply https://github.com/42wim/matterbridge/pull/1864v1.26.0+0.1.0
Diffstat (limited to 'vendor/github.com/rs/zerolog/internal')
-rw-r--r-- | vendor/github.com/rs/zerolog/internal/cbor/README.md | 56 | ||||
-rw-r--r-- | vendor/github.com/rs/zerolog/internal/cbor/base.go | 19 | ||||
-rw-r--r-- | vendor/github.com/rs/zerolog/internal/cbor/cbor.go | 101 | ||||
-rw-r--r-- | vendor/github.com/rs/zerolog/internal/cbor/decode_stream.go | 614 | ||||
-rw-r--r-- | vendor/github.com/rs/zerolog/internal/cbor/string.go | 95 | ||||
-rw-r--r-- | vendor/github.com/rs/zerolog/internal/cbor/time.go | 93 | ||||
-rw-r--r-- | vendor/github.com/rs/zerolog/internal/cbor/types.go | 486 | ||||
-rw-r--r-- | vendor/github.com/rs/zerolog/internal/json/base.go | 19 | ||||
-rw-r--r-- | vendor/github.com/rs/zerolog/internal/json/bytes.go | 85 | ||||
-rw-r--r-- | vendor/github.com/rs/zerolog/internal/json/string.go | 149 | ||||
-rw-r--r-- | vendor/github.com/rs/zerolog/internal/json/time.go | 113 | ||||
-rw-r--r-- | vendor/github.com/rs/zerolog/internal/json/types.go | 414 |
12 files changed, 2244 insertions, 0 deletions
diff --git a/vendor/github.com/rs/zerolog/internal/cbor/README.md b/vendor/github.com/rs/zerolog/internal/cbor/README.md new file mode 100644 index 00000000..92c2e8c7 --- /dev/null +++ b/vendor/github.com/rs/zerolog/internal/cbor/README.md @@ -0,0 +1,56 @@ +## Reference: + CBOR Encoding is described in [RFC7049](https://tools.ietf.org/html/rfc7049) + +## Comparison of JSON vs CBOR + +Two main areas of reduction are: + +1. CPU usage to write a log msg +2. Size (in bytes) of log messages. + + +CPU Usage savings are below: +``` +name JSON time/op CBOR time/op delta +Info-32 15.3ns ± 1% 11.7ns ± 3% -23.78% (p=0.000 n=9+10) +ContextFields-32 16.2ns ± 2% 12.3ns ± 3% -23.97% (p=0.000 n=9+9) +ContextAppend-32 6.70ns ± 0% 6.20ns ± 0% -7.44% (p=0.000 n=9+9) +LogFields-32 66.4ns ± 0% 24.6ns ± 2% -62.89% (p=0.000 n=10+9) +LogArrayObject-32 911ns ±11% 768ns ± 6% -15.64% (p=0.000 n=10+10) +LogFieldType/Floats-32 70.3ns ± 2% 29.5ns ± 1% -57.98% (p=0.000 n=10+10) +LogFieldType/Err-32 14.0ns ± 3% 12.1ns ± 8% -13.20% (p=0.000 n=8+10) +LogFieldType/Dur-32 17.2ns ± 2% 13.1ns ± 1% -24.27% (p=0.000 n=10+9) +LogFieldType/Object-32 54.3ns ±11% 52.3ns ± 7% ~ (p=0.239 n=10+10) +LogFieldType/Ints-32 20.3ns ± 2% 15.1ns ± 2% -25.50% (p=0.000 n=9+10) +LogFieldType/Interfaces-32 642ns ±11% 621ns ± 9% ~ (p=0.118 n=10+10) +LogFieldType/Interface(Objects)-32 635ns ±13% 632ns ± 9% ~ (p=0.592 n=10+10) +LogFieldType/Times-32 294ns ± 0% 27ns ± 1% -90.71% (p=0.000 n=10+9) +LogFieldType/Durs-32 121ns ± 0% 33ns ± 2% -72.44% (p=0.000 n=9+9) +LogFieldType/Interface(Object)-32 56.6ns ± 8% 52.3ns ± 8% -7.54% (p=0.007 n=10+10) +LogFieldType/Errs-32 17.8ns ± 3% 16.1ns ± 2% -9.71% (p=0.000 n=10+9) +LogFieldType/Time-32 40.5ns ± 1% 12.7ns ± 6% -68.66% (p=0.000 n=8+9) +LogFieldType/Bool-32 12.0ns ± 5% 10.2ns ± 2% -15.18% (p=0.000 n=10+8) +LogFieldType/Bools-32 17.2ns ± 2% 12.6ns ± 4% -26.63% (p=0.000 n=10+10) +LogFieldType/Int-32 12.3ns ± 2% 11.2ns ± 4% -9.27% (p=0.000 n=9+10) +LogFieldType/Float-32 16.7ns ± 1% 12.6ns ± 2% -24.42% (p=0.000 n=7+9) +LogFieldType/Str-32 12.7ns ± 7% 11.3ns ± 7% -10.88% (p=0.000 n=10+9) +LogFieldType/Strs-32 20.3ns ± 3% 18.2ns ± 3% -10.25% (p=0.000 n=9+10) +LogFieldType/Interface-32 183ns ±12% 175ns ± 9% ~ (p=0.078 n=10+10) +``` + +Log message size savings is greatly dependent on the number and type of fields in the log message. +Assuming this log message (with an Integer, timestamp and string, in addition to level). + +`{"level":"error","Fault":41650,"time":"2018-04-01T15:18:19-07:00","message":"Some Message"}` + +Two measurements were done for the log file sizes - one without any compression, second +using [compress/zlib](https://golang.org/pkg/compress/zlib/). + +Results for 10,000 log messages: + +| Log Format | Plain File Size (in KB) | Compressed File Size (in KB) | +| :--- | :---: | :---: | +| JSON | 920 | 28 | +| CBOR | 550 | 28 | + +The example used to calculate the above data is available in [Examples](examples). diff --git a/vendor/github.com/rs/zerolog/internal/cbor/base.go b/vendor/github.com/rs/zerolog/internal/cbor/base.go new file mode 100644 index 00000000..51fe86c9 --- /dev/null +++ b/vendor/github.com/rs/zerolog/internal/cbor/base.go @@ -0,0 +1,19 @@ +package cbor + +// JSONMarshalFunc is used to marshal interface to JSON encoded byte slice. +// Making it package level instead of embedded in Encoder brings +// some extra efforts at importing, but avoids value copy when the functions +// of Encoder being invoked. +// DO REMEMBER to set this variable at importing, or +// you might get a nil pointer dereference panic at runtime. +var JSONMarshalFunc func(v interface{}) ([]byte, error) + +type Encoder struct{} + +// AppendKey adds a key (string) to the binary encoded log message +func (e Encoder) AppendKey(dst []byte, key string) []byte { + if len(dst) < 1 { + dst = e.AppendBeginMarker(dst) + } + return e.AppendString(dst, key) +} diff --git a/vendor/github.com/rs/zerolog/internal/cbor/cbor.go b/vendor/github.com/rs/zerolog/internal/cbor/cbor.go new file mode 100644 index 00000000..bc54e37a --- /dev/null +++ b/vendor/github.com/rs/zerolog/internal/cbor/cbor.go @@ -0,0 +1,101 @@ +// Package cbor provides primitives for storing different data +// in the CBOR (binary) format. CBOR is defined in RFC7049. +package cbor + +import "time" + +const ( + majorOffset = 5 + additionalMax = 23 + + // Non Values. + additionalTypeBoolFalse byte = 20 + additionalTypeBoolTrue byte = 21 + additionalTypeNull byte = 22 + + // Integer (+ve and -ve) Sub-types. + additionalTypeIntUint8 byte = 24 + additionalTypeIntUint16 byte = 25 + additionalTypeIntUint32 byte = 26 + additionalTypeIntUint64 byte = 27 + + // Float Sub-types. + additionalTypeFloat16 byte = 25 + additionalTypeFloat32 byte = 26 + additionalTypeFloat64 byte = 27 + additionalTypeBreak byte = 31 + + // Tag Sub-types. + additionalTypeTimestamp byte = 01 + + // Extended Tags - from https://www.iana.org/assignments/cbor-tags/cbor-tags.xhtml + additionalTypeTagNetworkAddr uint16 = 260 + additionalTypeTagNetworkPrefix uint16 = 261 + additionalTypeEmbeddedJSON uint16 = 262 + additionalTypeTagHexString uint16 = 263 + + // Unspecified number of elements. + additionalTypeInfiniteCount byte = 31 +) +const ( + majorTypeUnsignedInt byte = iota << majorOffset // Major type 0 + majorTypeNegativeInt // Major type 1 + majorTypeByteString // Major type 2 + majorTypeUtf8String // Major type 3 + majorTypeArray // Major type 4 + majorTypeMap // Major type 5 + majorTypeTags // Major type 6 + majorTypeSimpleAndFloat // Major type 7 +) + +const ( + maskOutAdditionalType byte = (7 << majorOffset) + maskOutMajorType byte = 31 +) + +const ( + float32Nan = "\xfa\x7f\xc0\x00\x00" + float32PosInfinity = "\xfa\x7f\x80\x00\x00" + float32NegInfinity = "\xfa\xff\x80\x00\x00" + float64Nan = "\xfb\x7f\xf8\x00\x00\x00\x00\x00\x00" + float64PosInfinity = "\xfb\x7f\xf0\x00\x00\x00\x00\x00\x00" + float64NegInfinity = "\xfb\xff\xf0\x00\x00\x00\x00\x00\x00" +) + +// IntegerTimeFieldFormat indicates the format of timestamp decoded +// from an integer (time in seconds). +var IntegerTimeFieldFormat = time.RFC3339 + +// NanoTimeFieldFormat indicates the format of timestamp decoded +// from a float value (time in seconds and nanoseconds). +var NanoTimeFieldFormat = time.RFC3339Nano + +func appendCborTypePrefix(dst []byte, major byte, number uint64) []byte { + byteCount := 8 + var minor byte + switch { + case number < 256: + byteCount = 1 + minor = additionalTypeIntUint8 + + case number < 65536: + byteCount = 2 + minor = additionalTypeIntUint16 + + case number < 4294967296: + byteCount = 4 + minor = additionalTypeIntUint32 + + default: + byteCount = 8 + minor = additionalTypeIntUint64 + + } + + dst = append(dst, major|minor) + byteCount-- + for ; byteCount >= 0; byteCount-- { + dst = append(dst, byte(number>>(uint(byteCount)*8))) + } + return dst +} diff --git a/vendor/github.com/rs/zerolog/internal/cbor/decode_stream.go b/vendor/github.com/rs/zerolog/internal/cbor/decode_stream.go new file mode 100644 index 00000000..fc16f98c --- /dev/null +++ b/vendor/github.com/rs/zerolog/internal/cbor/decode_stream.go @@ -0,0 +1,614 @@ +package cbor + +// This file contains code to decode a stream of CBOR Data into JSON. + +import ( + "bufio" + "bytes" + "fmt" + "io" + "math" + "net" + "runtime" + "strconv" + "strings" + "time" + "unicode/utf8" +) + +var decodeTimeZone *time.Location + +const hexTable = "0123456789abcdef" + +const isFloat32 = 4 +const isFloat64 = 8 + +func readNBytes(src *bufio.Reader, n int) []byte { + ret := make([]byte, n) + for i := 0; i < n; i++ { + ch, e := src.ReadByte() + if e != nil { + panic(fmt.Errorf("Tried to Read %d Bytes.. But hit end of file", n)) + } + ret[i] = ch + } + return ret +} + +func readByte(src *bufio.Reader) byte { + b, e := src.ReadByte() + if e != nil { + panic(fmt.Errorf("Tried to Read 1 Byte.. But hit end of file")) + } + return b +} + +func decodeIntAdditionalType(src *bufio.Reader, minor byte) int64 { + val := int64(0) + if minor <= 23 { + val = int64(minor) + } else { + bytesToRead := 0 + switch minor { + case additionalTypeIntUint8: + bytesToRead = 1 + case additionalTypeIntUint16: + bytesToRead = 2 + case additionalTypeIntUint32: + bytesToRead = 4 + case additionalTypeIntUint64: + bytesToRead = 8 + default: + panic(fmt.Errorf("Invalid Additional Type: %d in decodeInteger (expected <28)", minor)) + } + pb := readNBytes(src, bytesToRead) + for i := 0; i < bytesToRead; i++ { + val = val * 256 + val += int64(pb[i]) + } + } + return val +} + +func decodeInteger(src *bufio.Reader) int64 { + pb := readByte(src) + major := pb & maskOutAdditionalType + minor := pb & maskOutMajorType + if major != majorTypeUnsignedInt && major != majorTypeNegativeInt { + panic(fmt.Errorf("Major type is: %d in decodeInteger!! (expected 0 or 1)", major)) + } + val := decodeIntAdditionalType(src, minor) + if major == 0 { + return val + } + return (-1 - val) +} + +func decodeFloat(src *bufio.Reader) (float64, int) { + pb := readByte(src) + major := pb & maskOutAdditionalType + minor := pb & maskOutMajorType + if major != majorTypeSimpleAndFloat { + panic(fmt.Errorf("Incorrect Major type is: %d in decodeFloat", major)) + } + + switch minor { + case additionalTypeFloat16: + panic(fmt.Errorf("float16 is not suppported in decodeFloat")) + + case additionalTypeFloat32: + pb := readNBytes(src, 4) + switch string(pb) { + case float32Nan: + return math.NaN(), isFloat32 + case float32PosInfinity: + return math.Inf(0), isFloat32 + case float32NegInfinity: + return math.Inf(-1), isFloat32 + } + n := uint32(0) + for i := 0; i < 4; i++ { + n = n * 256 + n += uint32(pb[i]) + } + val := math.Float32frombits(n) + return float64(val), isFloat32 + case additionalTypeFloat64: + pb := readNBytes(src, 8) + switch string(pb) { + case float64Nan: + return math.NaN(), isFloat64 + case float64PosInfinity: + return math.Inf(0), isFloat64 + case float64NegInfinity: + return math.Inf(-1), isFloat64 + } + n := uint64(0) + for i := 0; i < 8; i++ { + n = n * 256 + n += uint64(pb[i]) + } + val := math.Float64frombits(n) + return val, isFloat64 + } + panic(fmt.Errorf("Invalid Additional Type: %d in decodeFloat", minor)) +} + +func decodeStringComplex(dst []byte, s string, pos uint) []byte { + i := int(pos) + start := 0 + + for i < len(s) { + b := s[i] + if b >= utf8.RuneSelf { + r, size := utf8.DecodeRuneInString(s[i:]) + if r == utf8.RuneError && size == 1 { + // In case of error, first append previous simple characters to + // the byte slice if any and append a replacement character code + // in place of the invalid sequence. + if start < i { + dst = append(dst, s[start:i]...) + } + dst = append(dst, `\ufffd`...) + i += size + start = i + continue + } + i += size + continue + } + if b >= 0x20 && b <= 0x7e && b != '\\' && b != '"' { + i++ + continue + } + // We encountered a character that needs to be encoded. + // Let's append the previous simple characters to the byte slice + // and switch our operation to read and encode the remainder + // characters byte-by-byte. + if start < i { + dst = append(dst, s[start:i]...) + } + switch b { + case '"', '\\': + dst = append(dst, '\\', b) + case '\b': + dst = append(dst, '\\', 'b') + case '\f': + dst = append(dst, '\\', 'f') + case '\n': + dst = append(dst, '\\', 'n') + case '\r': + dst = append(dst, '\\', 'r') + case '\t': + dst = append(dst, '\\', 't') + default: + dst = append(dst, '\\', 'u', '0', '0', hexTable[b>>4], hexTable[b&0xF]) + } + i++ + start = i + } + if start < len(s) { + dst = append(dst, s[start:]...) + } + return dst +} + +func decodeString(src *bufio.Reader, noQuotes bool) []byte { + pb := readByte(src) + major := pb & maskOutAdditionalType + minor := pb & maskOutMajorType + if major != majorTypeByteString { + panic(fmt.Errorf("Major type is: %d in decodeString", major)) + } + result := []byte{} + if !noQuotes { + result = append(result, '"') + } + length := decodeIntAdditionalType(src, minor) + len := int(length) + pbs := readNBytes(src, len) + result = append(result, pbs...) + if noQuotes { + return result + } + return append(result, '"') +} + +func decodeUTF8String(src *bufio.Reader) []byte { + pb := readByte(src) + major := pb & maskOutAdditionalType + minor := pb & maskOutMajorType + if major != majorTypeUtf8String { + panic(fmt.Errorf("Major type is: %d in decodeUTF8String", major)) + } + result := []byte{'"'} + length := decodeIntAdditionalType(src, minor) + len := int(length) + pbs := readNBytes(src, len) + + for i := 0; i < len; i++ { + // Check if the character needs encoding. Control characters, slashes, + // and the double quote need json encoding. Bytes above the ascii + // boundary needs utf8 encoding. + if pbs[i] < 0x20 || pbs[i] > 0x7e || pbs[i] == '\\' || pbs[i] == '"' { + // We encountered a character that needs to be encoded. Switch + // to complex version of the algorithm. + dst := []byte{'"'} + dst = decodeStringComplex(dst, string(pbs), uint(i)) + return append(dst, '"') + } + } + // The string has no need for encoding and therefore is directly + // appended to the byte slice. + result = append(result, pbs...) + return append(result, '"') +} + +func array2Json(src *bufio.Reader, dst io.Writer) { + dst.Write([]byte{'['}) + pb := readByte(src) + major := pb & maskOutAdditionalType + minor := pb & maskOutMajorType + if major != majorTypeArray { + panic(fmt.Errorf("Major type is: %d in array2Json", major)) + } + len := 0 + unSpecifiedCount := false + if minor == additionalTypeInfiniteCount { + unSpecifiedCount = true + } else { + length := decodeIntAdditionalType(src, minor) + len = int(length) + } + for i := 0; unSpecifiedCount || i < len; i++ { + if unSpecifiedCount { + pb, e := src.Peek(1) + if e != nil { + panic(e) + } + if pb[0] == majorTypeSimpleAndFloat|additionalTypeBreak { + readByte(src) + break + } + } + cbor2JsonOneObject(src, dst) + if unSpecifiedCount { + pb, e := src.Peek(1) + if e != nil { + panic(e) + } + if pb[0] == majorTypeSimpleAndFloat|additionalTypeBreak { + readByte(src) + break + } + dst.Write([]byte{','}) + } else if i+1 < len { + dst.Write([]byte{','}) + } + } + dst.Write([]byte{']'}) +} + +func map2Json(src *bufio.Reader, dst io.Writer) { + pb := readByte(src) + major := pb & maskOutAdditionalType + minor := pb & maskOutMajorType + if major != majorTypeMap { + panic(fmt.Errorf("Major type is: %d in map2Json", major)) + } + len := 0 + unSpecifiedCount := false + if minor == additionalTypeInfiniteCount { + unSpecifiedCount = true + } else { + length := decodeIntAdditionalType(src, minor) + len = int(length) + } + dst.Write([]byte{'{'}) + for i := 0; unSpecifiedCount || i < len; i++ { + if unSpecifiedCount { + pb, e := src.Peek(1) + if e != nil { + panic(e) + } + if pb[0] == majorTypeSimpleAndFloat|additionalTypeBreak { + readByte(src) + break + } + } + cbor2JsonOneObject(src, dst) + if i%2 == 0 { + // Even position values are keys. + dst.Write([]byte{':'}) + } else { + if unSpecifiedCount { + pb, e := src.Peek(1) + if e != nil { + panic(e) + } + if pb[0] == majorTypeSimpleAndFloat|additionalTypeBreak { + readByte(src) + break + } + dst.Write([]byte{','}) + } else if i+1 < len { + dst.Write([]byte{','}) + } + } + } + dst.Write([]byte{'}'}) +} + +func decodeTagData(src *bufio.Reader) []byte { + pb := readByte(src) + major := pb & maskOutAdditionalType + minor := pb & maskOutMajorType + if major != majorTypeTags { + panic(fmt.Errorf("Major type is: %d in decodeTagData", major)) + } + switch minor { + case additionalTypeTimestamp: + return decodeTimeStamp(src) + + // Tag value is larger than 256 (so uint16). + case additionalTypeIntUint16: + val := decodeIntAdditionalType(src, minor) + + switch uint16(val) { + case additionalTypeEmbeddedJSON: + pb := readByte(src) + dataMajor := pb & maskOutAdditionalType + if dataMajor != majorTypeByteString { + panic(fmt.Errorf("Unsupported embedded Type: %d in decodeEmbeddedJSON", dataMajor)) + } + src.UnreadByte() + return decodeString(src, true) + + case additionalTypeTagNetworkAddr: + octets := decodeString(src, true) + ss := []byte{'"'} + switch len(octets) { + case 6: // MAC address. + ha := net.HardwareAddr(octets) + ss = append(append(ss, ha.String()...), '"') + case 4: // IPv4 address. + fallthrough + case 16: // IPv6 address. + ip := net.IP(octets) + ss = append(append(ss, ip.String()...), '"') + default: + panic(fmt.Errorf("Unexpected Network Address length: %d (expected 4,6,16)", len(octets))) + } + return ss + + case additionalTypeTagNetworkPrefix: + pb := readByte(src) + if pb != majorTypeMap|0x1 { + panic(fmt.Errorf("IP Prefix is NOT of MAP of 1 elements as expected")) + } + octets := decodeString(src, true) + val := decodeInteger(src) + ip := net.IP(octets) + var mask net.IPMask + pfxLen := int(val) + if len(octets) == 4 { + mask = net.CIDRMask(pfxLen, 32) + } else { + mask = net.CIDRMask(pfxLen, 128) + } + ipPfx := net.IPNet{IP: ip, Mask: mask} + ss := []byte{'"'} + ss = append(append(ss, ipPfx.String()...), '"') + return ss + + case additionalTypeTagHexString: + octets := decodeString(src, true) + ss := []byte{'"'} + for _, v := range octets { + ss = append(ss, hexTable[v>>4], hexTable[v&0x0f]) + } + return append(ss, '"') + + default: + panic(fmt.Errorf("Unsupported Additional Tag Type: %d in decodeTagData", val)) + } + } + panic(fmt.Errorf("Unsupported Additional Type: %d in decodeTagData", minor)) +} + +func decodeTimeStamp(src *bufio.Reader) []byte { + pb := readByte(src) + src.UnreadByte() + tsMajor := pb & maskOutAdditionalType + if tsMajor == majorTypeUnsignedInt || tsMajor == majorTypeNegativeInt { + n := decodeInteger(src) + t := time.Unix(n, 0) + if decodeTimeZone != nil { + t = t.In(decodeTimeZone) + } else { + t = t.In(time.UTC) + } + tsb := []byte{} + tsb = append(tsb, '"') + tsb = t.AppendFormat(tsb, IntegerTimeFieldFormat) + tsb = append(tsb, '"') + return tsb + } else if tsMajor == majorTypeSimpleAndFloat { + n, _ := decodeFloat(src) + secs := int64(n) + n -= float64(secs) + n *= float64(1e9) + t := time.Unix(secs, int64(n)) + if decodeTimeZone != nil { + t = t.In(decodeTimeZone) + } else { + t = t.In(time.UTC) + } + tsb := []byte{} + tsb = append(tsb, '"') + tsb = t.AppendFormat(tsb, NanoTimeFieldFormat) + tsb = append(tsb, '"') + return tsb + } + panic(fmt.Errorf("TS format is neigther int nor float: %d", tsMajor)) +} + +func decodeSimpleFloat(src *bufio.Reader) []byte { + pb := readByte(src) + major := pb & maskOutAdditionalType + minor := pb & maskOutMajorType + if major != majorTypeSimpleAndFloat { + panic(fmt.Errorf("Major type is: %d in decodeSimpleFloat", major)) + } + switch minor { + case additionalTypeBoolTrue: + return []byte("true") + case additionalTypeBoolFalse: + return []byte("false") + case additionalTypeNull: + return []byte("null") + case additionalTypeFloat16: + fallthrough + case additionalTypeFloat32: + fallthrough + case additionalTypeFloat64: + src.UnreadByte() + v, bc := decodeFloat(src) + ba := []byte{} + switch { + case math.IsNaN(v): + return []byte("\"NaN\"") + case math.IsInf(v, 1): + return []byte("\"+Inf\"") + case math.IsInf(v, -1): + return []byte("\"-Inf\"") + } + if bc == isFloat32 { + ba = strconv.AppendFloat(ba, v, 'f', -1, 32) + } else if bc == isFloat64 { + ba = strconv.AppendFloat(ba, v, 'f', -1, 64) + } else { + panic(fmt.Errorf("Invalid Float precision from decodeFloat: %d", bc)) + } + return ba + default: + panic(fmt.Errorf("Invalid Additional Type: %d in decodeSimpleFloat", minor)) + } +} + +func cbor2JsonOneObject(src *bufio.Reader, dst io.Writer) { + pb, e := src.Peek(1) + if e != nil { + panic(e) + } + major := (pb[0] & maskOutAdditionalType) + + switch major { + case majorTypeUnsignedInt: + fallthrough + case majorTypeNegativeInt: + n := decodeInteger(src) + dst.Write([]byte(strconv.Itoa(int(n)))) + + case majorTypeByteString: + s := decodeString(src, false) + dst.Write(s) + + case majorTypeUtf8String: + s := decodeUTF8String(src) + dst.Write(s) + + case majorTypeArray: + array2Json(src, dst) + + case majorTypeMap: + map2Json(src, dst) + + case majorTypeTags: + s := decodeTagData(src) + dst.Write(s) + + case majorTypeSimpleAndFloat: + s := decodeSimpleFloat(src) + dst.Write(s) + } +} + +func moreBytesToRead(src *bufio.Reader) bool { + _, e := src.ReadByte() + if e == nil { + src.UnreadByte() + return true + } + return false +} + +// Cbor2JsonManyObjects decodes all the CBOR Objects read from src +// reader. It keeps on decoding until reader returns EOF (error when reading). +// Decoded string is written to the dst. At the end of every CBOR Object +// newline is written to the output stream. +// +// Returns error (if any) that was encountered during decode. +// The child functions will generate a panic when error is encountered and +// this function will recover non-runtime Errors and return the reason as error. +func Cbor2JsonManyObjects(src io.Reader, dst io.Writer) (err error) { + defer func() { + if r := recover(); r != nil { + if _, ok := r.(runtime.Error); ok { + panic(r) + } + err = r.(error) + } + }() + bufRdr := bufio.NewReader(src) + for moreBytesToRead(bufRdr) { + cbor2JsonOneObject(bufRdr, dst) + dst.Write([]byte("\n")) + } + return nil +} + +// Detect if the bytes to be printed is Binary or not. +func binaryFmt(p []byte) bool { + if len(p) > 0 && p[0] > 0x7F { + return true + } + return false +} + +func getReader(str string) *bufio.Reader { + return bufio.NewReader(strings.NewReader(str)) +} + +// DecodeIfBinaryToString converts a binary formatted log msg to a +// JSON formatted String Log message - suitable for printing to Console/Syslog. +func DecodeIfBinaryToString(in []byte) string { + if binaryFmt(in) { + var b bytes.Buffer + Cbor2JsonManyObjects(strings.NewReader(string(in)), &b) + return b.String() + } + return string(in) +} + +// DecodeObjectToStr checks if the input is a binary format, if so, +// it will decode a single Object and return the decoded string. +func DecodeObjectToStr(in []byte) string { + if binaryFmt(in) { + var b bytes.Buffer + cbor2JsonOneObject(getReader(string(in)), &b) + return b.String() + } + return string(in) +} + +// DecodeIfBinaryToBytes checks if the input is a binary format, if so, +// it will decode all Objects and return the decoded string as byte array. +func DecodeIfBinaryToBytes(in []byte) []byte { + if binaryFmt(in) { + var b bytes.Buffer + Cbor2JsonManyObjects(bytes.NewReader(in), &b) + return b.Bytes() + } + return in +} diff --git a/vendor/github.com/rs/zerolog/internal/cbor/string.go b/vendor/github.com/rs/zerolog/internal/cbor/string.go new file mode 100644 index 00000000..a33890a5 --- /dev/null +++ b/vendor/github.com/rs/zerolog/internal/cbor/string.go @@ -0,0 +1,95 @@ +package cbor + +import "fmt" + +// AppendStrings encodes and adds an array of strings to the dst byte array. +func (e Encoder) AppendStrings(dst []byte, vals []string) []byte { + major := majorTypeArray + l := len(vals) + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendString(dst, v) + } + return dst +} + +// AppendString encodes and adds a string to the dst byte array. +func (Encoder) AppendString(dst []byte, s string) []byte { + major := majorTypeUtf8String + + l := len(s) + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, majorTypeUtf8String, uint64(l)) + } + return append(dst, s...) +} + +// AppendStringers encodes and adds an array of Stringer values +// to the dst byte array. +func (e Encoder) AppendStringers(dst []byte, vals []fmt.Stringer) []byte { + if len(vals) == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + dst = e.AppendArrayStart(dst) + dst = e.AppendStringer(dst, vals[0]) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = e.AppendStringer(dst, val) + } + } + return e.AppendArrayEnd(dst) +} + +// AppendStringer encodes and adds the Stringer value to the dst +// byte array. +func (e Encoder) AppendStringer(dst []byte, val fmt.Stringer) []byte { + if val == nil { + return e.AppendNil(dst) + } + return e.AppendString(dst, val.String()) +} + +// AppendBytes encodes and adds an array of bytes to the dst byte array. +func (Encoder) AppendBytes(dst, s []byte) []byte { + major := majorTypeByteString + + l := len(s) + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + return append(dst, s...) +} + +// AppendEmbeddedJSON adds a tag and embeds input JSON as such. +func AppendEmbeddedJSON(dst, s []byte) []byte { + major := majorTypeTags + minor := additionalTypeEmbeddedJSON + + // Append the TAG to indicate this is Embedded JSON. + dst = append(dst, major|additionalTypeIntUint16) + dst = append(dst, byte(minor>>8)) + dst = append(dst, byte(minor&0xff)) + + // Append the JSON Object as Byte String. + major = majorTypeByteString + + l := len(s) + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + return append(dst, s...) +} diff --git a/vendor/github.com/rs/zerolog/internal/cbor/time.go b/vendor/github.com/rs/zerolog/internal/cbor/time.go new file mode 100644 index 00000000..d81fb125 --- /dev/null +++ b/vendor/github.com/rs/zerolog/internal/cbor/time.go @@ -0,0 +1,93 @@ +package cbor + +import ( + "time" +) + +func appendIntegerTimestamp(dst []byte, t time.Time) []byte { + major := majorTypeTags + minor := additionalTypeTimestamp + dst = append(dst, major|minor) + secs := t.Unix() + var val uint64 + if secs < 0 { + major = majorTypeNegativeInt + val = uint64(-secs - 1) + } else { + major = majorTypeUnsignedInt + val = uint64(secs) + } + dst = appendCborTypePrefix(dst, major, val) + return dst +} + +func (e Encoder) appendFloatTimestamp(dst []byte, t time.Time) []byte { + major := majorTypeTags + minor := additionalTypeTimestamp + dst = append(dst, major|minor) + secs := t.Unix() + nanos := t.Nanosecond() + var val float64 + val = float64(secs)*1.0 + float64(nanos)*1e-9 + return e.AppendFloat64(dst, val) +} + +// AppendTime encodes and adds a timestamp to the dst byte array. +func (e Encoder) AppendTime(dst []byte, t time.Time, unused string) []byte { + utc := t.UTC() + if utc.Nanosecond() == 0 { + return appendIntegerTimestamp(dst, utc) + } + return e.appendFloatTimestamp(dst, utc) +} + +// AppendTimes encodes and adds an array of timestamps to the dst byte array. +func (e Encoder) AppendTimes(dst []byte, vals []time.Time, unused string) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + + for _, t := range vals { + dst = e.AppendTime(dst, t, unused) + } + return dst +} + +// AppendDuration encodes and adds a duration to the dst byte array. +// useInt field indicates whether to store the duration as seconds (integer) or +// as seconds+nanoseconds (float). +func (e Encoder) AppendDuration(dst []byte, d time.Duration, unit time.Duration, useInt bool) []byte { + if useInt { + return e.AppendInt64(dst, int64(d/unit)) + } + return e.AppendFloat64(dst, float64(d)/float64(unit)) +} + +// AppendDurations encodes and adds an array of durations to the dst byte array. +// useInt field indicates whether to store the duration as seconds (integer) or +// as seconds+nanoseconds (float). +func (e Encoder) AppendDurations(dst []byte, vals []time.Duration, unit time.Duration, useInt bool) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, d := range vals { + dst = e.AppendDuration(dst, d, unit, useInt) + } + return dst +} diff --git a/vendor/github.com/rs/zerolog/internal/cbor/types.go b/vendor/github.com/rs/zerolog/internal/cbor/types.go new file mode 100644 index 00000000..6f538328 --- /dev/null +++ b/vendor/github.com/rs/zerolog/internal/cbor/types.go @@ -0,0 +1,486 @@ +package cbor + +import ( + "fmt" + "math" + "net" + "reflect" +) + +// AppendNil inserts a 'Nil' object into the dst byte array. +func (Encoder) AppendNil(dst []byte) []byte { + return append(dst, majorTypeSimpleAndFloat|additionalTypeNull) +} + +// AppendBeginMarker inserts a map start into the dst byte array. +func (Encoder) AppendBeginMarker(dst []byte) []byte { + return append(dst, majorTypeMap|additionalTypeInfiniteCount) +} + +// AppendEndMarker inserts a map end into the dst byte array. +func (Encoder) AppendEndMarker(dst []byte) []byte { + return append(dst, majorTypeSimpleAndFloat|additionalTypeBreak) +} + +// AppendObjectData takes an object in form of a byte array and appends to dst. +func (Encoder) AppendObjectData(dst []byte, o []byte) []byte { + // BeginMarker is present in the dst, which + // should not be copied when appending to existing data. + return append(dst, o[1:]...) +} + +// AppendArrayStart adds markers to indicate the start of an array. +func (Encoder) AppendArrayStart(dst []byte) []byte { + return append(dst, majorTypeArray|additionalTypeInfiniteCount) +} + +// AppendArrayEnd adds markers to indicate the end of an array. +func (Encoder) AppendArrayEnd(dst []byte) []byte { + return append(dst, majorTypeSimpleAndFloat|additionalTypeBreak) +} + +// AppendArrayDelim adds markers to indicate end of a particular array element. +func (Encoder) AppendArrayDelim(dst []byte) []byte { + //No delimiters needed in cbor + return dst +} + +// AppendLineBreak is a noop that keep API compat with json encoder. +func (Encoder) AppendLineBreak(dst []byte) []byte { + // No line breaks needed in binary format. + return dst +} + +// AppendBool encodes and inserts a boolean value into the dst byte array. +func (Encoder) AppendBool(dst []byte, val bool) []byte { + b := additionalTypeBoolFalse + if val { + b = additionalTypeBoolTrue + } + return append(dst, majorTypeSimpleAndFloat|b) +} + +// AppendBools encodes and inserts an array of boolean values into the dst byte array. +func (e Encoder) AppendBools(dst []byte, vals []bool) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendBool(dst, v) + } + return dst +} + +// AppendInt encodes and inserts an integer value into the dst byte array. +func (Encoder) AppendInt(dst []byte, val int) []byte { + major := majorTypeUnsignedInt + contentVal := val + if val < 0 { + major = majorTypeNegativeInt + contentVal = -val - 1 + } + if contentVal <= additionalMax { + lb := byte(contentVal) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(contentVal)) + } + return dst +} + +// AppendInts encodes and inserts an array of integer values into the dst byte array. +func (e Encoder) AppendInts(dst []byte, vals []int) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendInt(dst, v) + } + return dst +} + +// AppendInt8 encodes and inserts an int8 value into the dst byte array. +func (e Encoder) AppendInt8(dst []byte, val int8) []byte { + return e.AppendInt(dst, int(val)) +} + +// AppendInts8 encodes and inserts an array of integer values into the dst byte array. +func (e Encoder) AppendInts8(dst []byte, vals []int8) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendInt(dst, int(v)) + } + return dst +} + +// AppendInt16 encodes and inserts a int16 value into the dst byte array. +func (e Encoder) AppendInt16(dst []byte, val int16) []byte { + return e.AppendInt(dst, int(val)) +} + +// AppendInts16 encodes and inserts an array of int16 values into the dst byte array. +func (e Encoder) AppendInts16(dst []byte, vals []int16) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendInt(dst, int(v)) + } + return dst +} + +// AppendInt32 encodes and inserts a int32 value into the dst byte array. +func (e Encoder) AppendInt32(dst []byte, val int32) []byte { + return e.AppendInt(dst, int(val)) +} + +// AppendInts32 encodes and inserts an array of int32 values into the dst byte array. +func (e Encoder) AppendInts32(dst []byte, vals []int32) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendInt(dst, int(v)) + } + return dst +} + +// AppendInt64 encodes and inserts a int64 value into the dst byte array. +func (Encoder) AppendInt64(dst []byte, val int64) []byte { + major := majorTypeUnsignedInt + contentVal := val + if val < 0 { + major = majorTypeNegativeInt + contentVal = -val - 1 + } + if contentVal <= additionalMax { + lb := byte(contentVal) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(contentVal)) + } + return dst +} + +// AppendInts64 encodes and inserts an array of int64 values into the dst byte array. +func (e Encoder) AppendInts64(dst []byte, vals []int64) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendInt64(dst, v) + } + return dst +} + +// AppendUint encodes and inserts an unsigned integer value into the dst byte array. +func (e Encoder) AppendUint(dst []byte, val uint) []byte { + return e.AppendInt64(dst, int64(val)) +} + +// AppendUints encodes and inserts an array of unsigned integer values into the dst byte array. +func (e Encoder) AppendUints(dst []byte, vals []uint) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendUint(dst, v) + } + return dst +} + +// AppendUint8 encodes and inserts a unsigned int8 value into the dst byte array. +func (e Encoder) AppendUint8(dst []byte, val uint8) []byte { + return e.AppendUint(dst, uint(val)) +} + +// AppendUints8 encodes and inserts an array of uint8 values into the dst byte array. +func (e Encoder) AppendUints8(dst []byte, vals []uint8) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendUint8(dst, v) + } + return dst +} + +// AppendUint16 encodes and inserts a uint16 value into the dst byte array. +func (e Encoder) AppendUint16(dst []byte, val uint16) []byte { + return e.AppendUint(dst, uint(val)) +} + +// AppendUints16 encodes and inserts an array of uint16 values into the dst byte array. +func (e Encoder) AppendUints16(dst []byte, vals []uint16) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendUint16(dst, v) + } + return dst +} + +// AppendUint32 encodes and inserts a uint32 value into the dst byte array. +func (e Encoder) AppendUint32(dst []byte, val uint32) []byte { + return e.AppendUint(dst, uint(val)) +} + +// AppendUints32 encodes and inserts an array of uint32 values into the dst byte array. +func (e Encoder) AppendUints32(dst []byte, vals []uint32) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendUint32(dst, v) + } + return dst +} + +// AppendUint64 encodes and inserts a uint64 value into the dst byte array. +func (Encoder) AppendUint64(dst []byte, val uint64) []byte { + major := majorTypeUnsignedInt + contentVal := val + if contentVal <= additionalMax { + lb := byte(contentVal) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, contentVal) + } + return dst +} + +// AppendUints64 encodes and inserts an array of uint64 values into the dst byte array. +func (e Encoder) AppendUints64(dst []byte, vals []uint64) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendUint64(dst, v) + } + return dst +} + +// AppendFloat32 encodes and inserts a single precision float value into the dst byte array. +func (Encoder) AppendFloat32(dst []byte, val float32) []byte { + switch { + case math.IsNaN(float64(val)): + return append(dst, "\xfa\x7f\xc0\x00\x00"...) + case math.IsInf(float64(val), 1): + return append(dst, "\xfa\x7f\x80\x00\x00"...) + case math.IsInf(float64(val), -1): + return append(dst, "\xfa\xff\x80\x00\x00"...) + } + major := majorTypeSimpleAndFloat + subType := additionalTypeFloat32 + n := math.Float32bits(val) + var buf [4]byte + for i := uint(0); i < 4; i++ { + buf[i] = byte(n >> ((3 - i) * 8)) + } + return append(append(dst, major|subType), buf[0], buf[1], buf[2], buf[3]) +} + +// AppendFloats32 encodes and inserts an array of single precision float value into the dst byte array. +func (e Encoder) AppendFloats32(dst []byte, vals []float32) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendFloat32(dst, v) + } + return dst +} + +// AppendFloat64 encodes and inserts a double precision float value into the dst byte array. +func (Encoder) AppendFloat64(dst []byte, val float64) []byte { + switch { + case math.IsNaN(val): + return append(dst, "\xfb\x7f\xf8\x00\x00\x00\x00\x00\x00"...) + case math.IsInf(val, 1): + return append(dst, "\xfb\x7f\xf0\x00\x00\x00\x00\x00\x00"...) + case math.IsInf(val, -1): + return append(dst, "\xfb\xff\xf0\x00\x00\x00\x00\x00\x00"...) + } + major := majorTypeSimpleAndFloat + subType := additionalTypeFloat64 + n := math.Float64bits(val) + dst = append(dst, major|subType) + for i := uint(1); i <= 8; i++ { + b := byte(n >> ((8 - i) * 8)) + dst = append(dst, b) + } + return dst +} + +// AppendFloats64 encodes and inserts an array of double precision float values into the dst byte array. +func (e Encoder) AppendFloats64(dst []byte, vals []float64) []byte { + major := majorTypeArray + l := len(vals) + if l == 0 { + return e.AppendArrayEnd(e.AppendArrayStart(dst)) + } + if l <= additionalMax { + lb := byte(l) + dst = append(dst, major|lb) + } else { + dst = appendCborTypePrefix(dst, major, uint64(l)) + } + for _, v := range vals { + dst = e.AppendFloat64(dst, v) + } + return dst +} + +// AppendInterface takes an arbitrary object and converts it to JSON and embeds it dst. +func (e Encoder) AppendInterface(dst []byte, i interface{}) []byte { + marshaled, err := JSONMarshalFunc(i) + if err != nil { + return e.AppendString(dst, fmt.Sprintf("marshaling error: %v", err)) + } + return AppendEmbeddedJSON(dst, marshaled) +} + +// AppendType appends the parameter type (as a string) to the input byte slice. +func (e Encoder) AppendType(dst []byte, i interface{}) []byte { + if i == nil { + return e.AppendString(dst, "<nil>") + } + return e.AppendString(dst, reflect.TypeOf(i).String()) +} + +// AppendIPAddr encodes and inserts an IP Address (IPv4 or IPv6). +func (e Encoder) AppendIPAddr(dst []byte, ip net.IP) []byte { + dst = append(dst, majorTypeTags|additionalTypeIntUint16) + dst = append(dst, byte(additionalTypeTagNetworkAddr>>8)) + dst = append(dst, byte(additionalTypeTagNetworkAddr&0xff)) + return e.AppendBytes(dst, ip) +} + +// AppendIPPrefix encodes and inserts an IP Address Prefix (Address + Mask Length). +func (e Encoder) AppendIPPrefix(dst []byte, pfx net.IPNet) []byte { + dst = append(dst, majorTypeTags|additionalTypeIntUint16) + dst = append(dst, byte(additionalTypeTagNetworkPrefix>>8)) + dst = append(dst, byte(additionalTypeTagNetworkPrefix&0xff)) + + // Prefix is a tuple (aka MAP of 1 pair of elements) - + // first element is prefix, second is mask length. + dst = append(dst, majorTypeMap|0x1) + dst = e.AppendBytes(dst, pfx.IP) + maskLen, _ := pfx.Mask.Size() + return e.AppendUint8(dst, uint8(maskLen)) +} + +// AppendMACAddr encodes and inserts a Hardware (MAC) address. +func (e Encoder) AppendMACAddr(dst []byte, ha net.HardwareAddr) []byte { + dst = append(dst, majorTypeTags|additionalTypeIntUint16) + dst = append(dst, byte(additionalTypeTagNetworkAddr>>8)) + dst = append(dst, byte(additionalTypeTagNetworkAddr&0xff)) + return e.AppendBytes(dst, ha) +} + +// AppendHex adds a TAG and inserts a hex bytes as a string. +func (e Encoder) AppendHex(dst []byte, val []byte) []byte { + dst = append(dst, majorTypeTags|additionalTypeIntUint16) + dst = append(dst, byte(additionalTypeTagHexString>>8)) + dst = append(dst, byte(additionalTypeTagHexString&0xff)) + return e.AppendBytes(dst, val) +} diff --git a/vendor/github.com/rs/zerolog/internal/json/base.go b/vendor/github.com/rs/zerolog/internal/json/base.go new file mode 100644 index 00000000..09ec59f4 --- /dev/null +++ b/vendor/github.com/rs/zerolog/internal/json/base.go @@ -0,0 +1,19 @@ +package json + +// JSONMarshalFunc is used to marshal interface to JSON encoded byte slice. +// Making it package level instead of embedded in Encoder brings +// some extra efforts at importing, but avoids value copy when the functions +// of Encoder being invoked. +// DO REMEMBER to set this variable at importing, or +// you might get a nil pointer dereference panic at runtime. +var JSONMarshalFunc func(v interface{}) ([]byte, error) + +type Encoder struct{} + +// AppendKey appends a new key to the output JSON. +func (e Encoder) AppendKey(dst []byte, key string) []byte { + if dst[len(dst)-1] != '{' { + dst = append(dst, ',') + } + return append(e.AppendString(dst, key), ':') +} diff --git a/vendor/github.com/rs/zerolog/internal/json/bytes.go b/vendor/github.com/rs/zerolog/internal/json/bytes.go new file mode 100644 index 00000000..de64120d --- /dev/null +++ b/vendor/github.com/rs/zerolog/internal/json/bytes.go @@ -0,0 +1,85 @@ +package json + +import "unicode/utf8" + +// AppendBytes is a mirror of appendString with []byte arg +func (Encoder) AppendBytes(dst, s []byte) []byte { + dst = append(dst, '"') + for i := 0; i < len(s); i++ { + if !noEscapeTable[s[i]] { + dst = appendBytesComplex(dst, s, i) + return append(dst, '"') + } + } + dst = append(dst, s...) + return append(dst, '"') +} + +// AppendHex encodes the input bytes to a hex string and appends +// the encoded string to the input byte slice. +// +// The operation loops though each byte and encodes it as hex using +// the hex lookup table. +func (Encoder) AppendHex(dst, s []byte) []byte { + dst = append(dst, '"') + for _, v := range s { + dst = append(dst, hex[v>>4], hex[v&0x0f]) + } + return append(dst, '"') +} + +// appendBytesComplex is a mirror of the appendStringComplex +// with []byte arg +func appendBytesComplex(dst, s []byte, i int) []byte { + start := 0 + for i < len(s) { + b := s[i] + if b >= utf8.RuneSelf { + r, size := utf8.DecodeRune(s[i:]) + if r == utf8.RuneError && size == 1 { + if start < i { + dst = append(dst, s[start:i]...) + } + dst = append(dst, `\ufffd`...) + i += size + start = i + continue + } + i += size + continue + } + if noEscapeTable[b] { + i++ + continue + } + // We encountered a character that needs to be encoded. + // Let's append the previous simple characters to the byte slice + // and switch our operation to read and encode the remainder + // characters byte-by-byte. + if start < i { + dst = append(dst, s[start:i]...) + } + switch b { + case '"', '\\': + dst = append(dst, '\\', b) + case '\b': + dst = append(dst, '\\', 'b') + case '\f': + dst = append(dst, '\\', 'f') + case '\n': + dst = append(dst, '\\', 'n') + case '\r': + dst = append(dst, '\\', 'r') + case '\t': + dst = append(dst, '\\', 't') + default: + dst = append(dst, '\\', 'u', '0', '0', hex[b>>4], hex[b&0xF]) + } + i++ + start = i + } + if start < len(s) { + dst = append(dst, s[start:]...) + } + return dst +} diff --git a/vendor/github.com/rs/zerolog/internal/json/string.go b/vendor/github.com/rs/zerolog/internal/json/string.go new file mode 100644 index 00000000..fd7770f2 --- /dev/null +++ b/vendor/github.com/rs/zerolog/internal/json/string.go @@ -0,0 +1,149 @@ +package json + +import ( + "fmt" + "unicode/utf8" +) + +const hex = "0123456789abcdef" + +var noEscapeTable = [256]bool{} + +func init() { + for i := 0; i <= 0x7e; i++ { + noEscapeTable[i] = i >= 0x20 && i != '\\' && i != '"' + } +} + +// AppendStrings encodes the input strings to json and +// appends the encoded string list to the input byte slice. +func (e Encoder) AppendStrings(dst []byte, vals []string) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = e.AppendString(dst, vals[0]) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = e.AppendString(append(dst, ','), val) + } + } + dst = append(dst, ']') + return dst +} + +// AppendString encodes the input string to json and appends +// the encoded string to the input byte slice. +// +// The operation loops though each byte in the string looking +// for characters that need json or utf8 encoding. If the string +// does not need encoding, then the string is appended in its +// entirety to the byte slice. +// If we encounter a byte that does need encoding, switch up +// the operation and perform a byte-by-byte read-encode-append. +func (Encoder) AppendString(dst []byte, s string) []byte { + // Start with a double quote. + dst = append(dst, '"') + // Loop through each character in the string. + for i := 0; i < len(s); i++ { + // Check if the character needs encoding. Control characters, slashes, + // and the double quote need json encoding. Bytes above the ascii + // boundary needs utf8 encoding. + if !noEscapeTable[s[i]] { + // We encountered a character that needs to be encoded. Switch + // to complex version of the algorithm. + dst = appendStringComplex(dst, s, i) + return append(dst, '"') + } + } + // The string has no need for encoding and therefore is directly + // appended to the byte slice. + dst = append(dst, s...) + // End with a double quote + return append(dst, '"') +} + +// AppendStringers encodes the provided Stringer list to json and +// appends the encoded Stringer list to the input byte slice. +func (e Encoder) AppendStringers(dst []byte, vals []fmt.Stringer) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = e.AppendStringer(dst, vals[0]) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = e.AppendStringer(append(dst, ','), val) + } + } + return append(dst, ']') +} + +// AppendStringer encodes the input Stringer to json and appends the +// encoded Stringer value to the input byte slice. +func (e Encoder) AppendStringer(dst []byte, val fmt.Stringer) []byte { + if val == nil { + return e.AppendInterface(dst, nil) + } + return e.AppendString(dst, val.String()) +} + +//// appendStringComplex is used by appendString to take over an in +// progress JSON string encoding that encountered a character that needs +// to be encoded. +func appendStringComplex(dst []byte, s string, i int) []byte { + start := 0 + for i < len(s) { + b := s[i] + if b >= utf8.RuneSelf { + r, size := utf8.DecodeRuneInString(s[i:]) + if r == utf8.RuneError && size == 1 { + // In case of error, first append previous simple characters to + // the byte slice if any and append a replacement character code + // in place of the invalid sequence. + if start < i { + dst = append(dst, s[start:i]...) + } + dst = append(dst, `\ufffd`...) + i += size + start = i + continue + } + i += size + continue + } + if noEscapeTable[b] { + i++ + continue + } + // We encountered a character that needs to be encoded. + // Let's append the previous simple characters to the byte slice + // and switch our operation to read and encode the remainder + // characters byte-by-byte. + if start < i { + dst = append(dst, s[start:i]...) + } + switch b { + case '"', '\\': + dst = append(dst, '\\', b) + case '\b': + dst = append(dst, '\\', 'b') + case '\f': + dst = append(dst, '\\', 'f') + case '\n': + dst = append(dst, '\\', 'n') + case '\r': + dst = append(dst, '\\', 'r') + case '\t': + dst = append(dst, '\\', 't') + default: + dst = append(dst, '\\', 'u', '0', '0', hex[b>>4], hex[b&0xF]) + } + i++ + start = i + } + if start < len(s) { + dst = append(dst, s[start:]...) + } + return dst +} diff --git a/vendor/github.com/rs/zerolog/internal/json/time.go b/vendor/github.com/rs/zerolog/internal/json/time.go new file mode 100644 index 00000000..6a8dc912 --- /dev/null +++ b/vendor/github.com/rs/zerolog/internal/json/time.go @@ -0,0 +1,113 @@ +package json + +import ( + "strconv" + "time" +) + +const ( + // Import from zerolog/global.go + timeFormatUnix = "" + timeFormatUnixMs = "UNIXMS" + timeFormatUnixMicro = "UNIXMICRO" + timeFormatUnixNano = "UNIXNANO" +) + +// AppendTime formats the input time with the given format +// and appends the encoded string to the input byte slice. +func (e Encoder) AppendTime(dst []byte, t time.Time, format string) []byte { + switch format { + case timeFormatUnix: + return e.AppendInt64(dst, t.Unix()) + case timeFormatUnixMs: + return e.AppendInt64(dst, t.UnixNano()/1000000) + case timeFormatUnixMicro: + return e.AppendInt64(dst, t.UnixNano()/1000) + case timeFormatUnixNano: + return e.AppendInt64(dst, t.UnixNano()) + } + return append(t.AppendFormat(append(dst, '"'), format), '"') +} + +// AppendTimes converts the input times with the given format +// and appends the encoded string list to the input byte slice. +func (Encoder) AppendTimes(dst []byte, vals []time.Time, format string) []byte { + switch format { + case timeFormatUnix: + return appendUnixTimes(dst, vals) + case timeFormatUnixMs: + return appendUnixNanoTimes(dst, vals, 1000000) + case timeFormatUnixMicro: + return appendUnixNanoTimes(dst, vals, 1000) + case timeFormatUnixNano: + return appendUnixNanoTimes(dst, vals, 1) + } + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = append(vals[0].AppendFormat(append(dst, '"'), format), '"') + if len(vals) > 1 { + for _, t := range vals[1:] { + dst = append(t.AppendFormat(append(dst, ',', '"'), format), '"') + } + } + dst = append(dst, ']') + return dst +} + +func appendUnixTimes(dst []byte, vals []time.Time) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendInt(dst, vals[0].Unix(), 10) + if len(vals) > 1 { + for _, t := range vals[1:] { + dst = strconv.AppendInt(append(dst, ','), t.Unix(), 10) + } + } + dst = append(dst, ']') + return dst +} + +func appendUnixNanoTimes(dst []byte, vals []time.Time, div int64) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendInt(dst, vals[0].UnixNano()/div, 10) + if len(vals) > 1 { + for _, t := range vals[1:] { + dst = strconv.AppendInt(append(dst, ','), t.UnixNano()/div, 10) + } + } + dst = append(dst, ']') + return dst +} + +// AppendDuration formats the input duration with the given unit & format +// and appends the encoded string to the input byte slice. +func (e Encoder) AppendDuration(dst []byte, d time.Duration, unit time.Duration, useInt bool) []byte { + if useInt { + return strconv.AppendInt(dst, int64(d/unit), 10) + } + return e.AppendFloat64(dst, float64(d)/float64(unit)) +} + +// AppendDurations formats the input durations with the given unit & format +// and appends the encoded string list to the input byte slice. +func (e Encoder) AppendDurations(dst []byte, vals []time.Duration, unit time.Duration, useInt bool) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = e.AppendDuration(dst, vals[0], unit, useInt) + if len(vals) > 1 { + for _, d := range vals[1:] { + dst = e.AppendDuration(append(dst, ','), d, unit, useInt) + } + } + dst = append(dst, ']') + return dst +} diff --git a/vendor/github.com/rs/zerolog/internal/json/types.go b/vendor/github.com/rs/zerolog/internal/json/types.go new file mode 100644 index 00000000..ef3a2a7a --- /dev/null +++ b/vendor/github.com/rs/zerolog/internal/json/types.go @@ -0,0 +1,414 @@ +package json + +import ( + "fmt" + "math" + "net" + "reflect" + "strconv" +) + +// AppendNil inserts a 'Nil' object into the dst byte array. +func (Encoder) AppendNil(dst []byte) []byte { + return append(dst, "null"...) +} + +// AppendBeginMarker inserts a map start into the dst byte array. +func (Encoder) AppendBeginMarker(dst []byte) []byte { + return append(dst, '{') +} + +// AppendEndMarker inserts a map end into the dst byte array. +func (Encoder) AppendEndMarker(dst []byte) []byte { + return append(dst, '}') +} + +// AppendLineBreak appends a line break. +func (Encoder) AppendLineBreak(dst []byte) []byte { + return append(dst, '\n') +} + +// AppendArrayStart adds markers to indicate the start of an array. +func (Encoder) AppendArrayStart(dst []byte) []byte { + return append(dst, '[') +} + +// AppendArrayEnd adds markers to indicate the end of an array. +func (Encoder) AppendArrayEnd(dst []byte) []byte { + return append(dst, ']') +} + +// AppendArrayDelim adds markers to indicate end of a particular array element. +func (Encoder) AppendArrayDelim(dst []byte) []byte { + if len(dst) > 0 { + return append(dst, ',') + } + return dst +} + +// AppendBool converts the input bool to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendBool(dst []byte, val bool) []byte { + return strconv.AppendBool(dst, val) +} + +// AppendBools encodes the input bools to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendBools(dst []byte, vals []bool) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendBool(dst, vals[0]) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = strconv.AppendBool(append(dst, ','), val) + } + } + dst = append(dst, ']') + return dst +} + +// AppendInt converts the input int to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendInt(dst []byte, val int) []byte { + return strconv.AppendInt(dst, int64(val), 10) +} + +// AppendInts encodes the input ints to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendInts(dst []byte, vals []int) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendInt(dst, int64(vals[0]), 10) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = strconv.AppendInt(append(dst, ','), int64(val), 10) + } + } + dst = append(dst, ']') + return dst +} + +// AppendInt8 converts the input []int8 to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendInt8(dst []byte, val int8) []byte { + return strconv.AppendInt(dst, int64(val), 10) +} + +// AppendInts8 encodes the input int8s to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendInts8(dst []byte, vals []int8) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendInt(dst, int64(vals[0]), 10) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = strconv.AppendInt(append(dst, ','), int64(val), 10) + } + } + dst = append(dst, ']') + return dst +} + +// AppendInt16 converts the input int16 to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendInt16(dst []byte, val int16) []byte { + return strconv.AppendInt(dst, int64(val), 10) +} + +// AppendInts16 encodes the input int16s to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendInts16(dst []byte, vals []int16) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendInt(dst, int64(vals[0]), 10) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = strconv.AppendInt(append(dst, ','), int64(val), 10) + } + } + dst = append(dst, ']') + return dst +} + +// AppendInt32 converts the input int32 to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendInt32(dst []byte, val int32) []byte { + return strconv.AppendInt(dst, int64(val), 10) +} + +// AppendInts32 encodes the input int32s to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendInts32(dst []byte, vals []int32) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendInt(dst, int64(vals[0]), 10) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = strconv.AppendInt(append(dst, ','), int64(val), 10) + } + } + dst = append(dst, ']') + return dst +} + +// AppendInt64 converts the input int64 to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendInt64(dst []byte, val int64) []byte { + return strconv.AppendInt(dst, val, 10) +} + +// AppendInts64 encodes the input int64s to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendInts64(dst []byte, vals []int64) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendInt(dst, vals[0], 10) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = strconv.AppendInt(append(dst, ','), val, 10) + } + } + dst = append(dst, ']') + return dst +} + +// AppendUint converts the input uint to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendUint(dst []byte, val uint) []byte { + return strconv.AppendUint(dst, uint64(val), 10) +} + +// AppendUints encodes the input uints to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendUints(dst []byte, vals []uint) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendUint(dst, uint64(vals[0]), 10) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = strconv.AppendUint(append(dst, ','), uint64(val), 10) + } + } + dst = append(dst, ']') + return dst +} + +// AppendUint8 converts the input uint8 to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendUint8(dst []byte, val uint8) []byte { + return strconv.AppendUint(dst, uint64(val), 10) +} + +// AppendUints8 encodes the input uint8s to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendUints8(dst []byte, vals []uint8) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendUint(dst, uint64(vals[0]), 10) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = strconv.AppendUint(append(dst, ','), uint64(val), 10) + } + } + dst = append(dst, ']') + return dst +} + +// AppendUint16 converts the input uint16 to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendUint16(dst []byte, val uint16) []byte { + return strconv.AppendUint(dst, uint64(val), 10) +} + +// AppendUints16 encodes the input uint16s to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendUints16(dst []byte, vals []uint16) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendUint(dst, uint64(vals[0]), 10) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = strconv.AppendUint(append(dst, ','), uint64(val), 10) + } + } + dst = append(dst, ']') + return dst +} + +// AppendUint32 converts the input uint32 to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendUint32(dst []byte, val uint32) []byte { + return strconv.AppendUint(dst, uint64(val), 10) +} + +// AppendUints32 encodes the input uint32s to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendUints32(dst []byte, vals []uint32) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendUint(dst, uint64(vals[0]), 10) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = strconv.AppendUint(append(dst, ','), uint64(val), 10) + } + } + dst = append(dst, ']') + return dst +} + +// AppendUint64 converts the input uint64 to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendUint64(dst []byte, val uint64) []byte { + return strconv.AppendUint(dst, val, 10) +} + +// AppendUints64 encodes the input uint64s to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendUints64(dst []byte, vals []uint64) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = strconv.AppendUint(dst, vals[0], 10) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = strconv.AppendUint(append(dst, ','), val, 10) + } + } + dst = append(dst, ']') + return dst +} + +func appendFloat(dst []byte, val float64, bitSize int) []byte { + // JSON does not permit NaN or Infinity. A typical JSON encoder would fail + // with an error, but a logging library wants the data to get through so we + // make a tradeoff and store those types as string. + switch { + case math.IsNaN(val): + return append(dst, `"NaN"`...) + case math.IsInf(val, 1): + return append(dst, `"+Inf"`...) + case math.IsInf(val, -1): + return append(dst, `"-Inf"`...) + } + return strconv.AppendFloat(dst, val, 'f', -1, bitSize) +} + +// AppendFloat32 converts the input float32 to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendFloat32(dst []byte, val float32) []byte { + return appendFloat(dst, float64(val), 32) +} + +// AppendFloats32 encodes the input float32s to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendFloats32(dst []byte, vals []float32) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = appendFloat(dst, float64(vals[0]), 32) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = appendFloat(append(dst, ','), float64(val), 32) + } + } + dst = append(dst, ']') + return dst +} + +// AppendFloat64 converts the input float64 to a string and +// appends the encoded string to the input byte slice. +func (Encoder) AppendFloat64(dst []byte, val float64) []byte { + return appendFloat(dst, val, 64) +} + +// AppendFloats64 encodes the input float64s to json and +// appends the encoded string list to the input byte slice. +func (Encoder) AppendFloats64(dst []byte, vals []float64) []byte { + if len(vals) == 0 { + return append(dst, '[', ']') + } + dst = append(dst, '[') + dst = appendFloat(dst, vals[0], 64) + if len(vals) > 1 { + for _, val := range vals[1:] { + dst = appendFloat(append(dst, ','), val, 64) + } + } + dst = append(dst, ']') + return dst +} + +// AppendInterface marshals the input interface to a string and +// appends the encoded string to the input byte slice. +func (e Encoder) AppendInterface(dst []byte, i interface{}) []byte { + marshaled, err := JSONMarshalFunc(i) + if err != nil { + return e.AppendString(dst, fmt.Sprintf("marshaling error: %v", err)) + } + return append(dst, marshaled...) +} + +// AppendType appends the parameter type (as a string) to the input byte slice. +func (e Encoder) AppendType(dst []byte, i interface{}) []byte { + if i == nil { + return e.AppendString(dst, "<nil>") + } + return e.AppendString(dst, reflect.TypeOf(i).String()) +} + +// AppendObjectData takes in an object that is already in a byte array +// and adds it to the dst. +func (Encoder) AppendObjectData(dst []byte, o []byte) []byte { + // Three conditions apply here: + // 1. new content starts with '{' - which should be dropped OR + // 2. new content starts with '{' - which should be replaced with ',' + // to separate with existing content OR + // 3. existing content has already other fields + if o[0] == '{' { + if len(dst) > 1 { + dst = append(dst, ',') + } + o = o[1:] + } else if len(dst) > 1 { + dst = append(dst, ',') + } + return append(dst, o...) +} + +// AppendIPAddr adds IPv4 or IPv6 address to dst. +func (e Encoder) AppendIPAddr(dst []byte, ip net.IP) []byte { + return e.AppendString(dst, ip.String()) +} + +// AppendIPPrefix adds IPv4 or IPv6 Prefix (address & mask) to dst. +func (e Encoder) AppendIPPrefix(dst []byte, pfx net.IPNet) []byte { + return e.AppendString(dst, pfx.String()) + +} + +// AppendMACAddr adds MAC address to dst. +func (e Encoder) AppendMACAddr(dst []byte, ha net.HardwareAddr) []byte { + return e.AppendString(dst, ha.String()) +} |