forked from cerc-io/plugeth
dd0d0a2522
These changes improves the performance of the non-coloured terminal formatting, _quite a lot_. ``` name old time/op new time/op delta TerminalHandler-8 10.2µs ±15% 5.4µs ± 9% -47.02% (p=0.008 n=5+5) name old alloc/op new alloc/op delta TerminalHandler-8 2.17kB ± 0% 0.40kB ± 0% -81.46% (p=0.008 n=5+5) name old allocs/op new allocs/op delta TerminalHandler-8 33.0 ± 0% 5.0 ± 0% -84.85% (p=0.008 n=5+5) ``` I tried to _somewhat_ organize the commits, but the it might still be a bit chaotic. Some core insights: - The function `terminalHandler.Handl` uses a mutex, and writes all output immediately to 'upstream'. Thus, it can reuse a scratch-buffer every time. - This buffer can be propagated internally, making all the internal formatters either write directly to it, - OR, make use of the `tmp := buf.AvailableBuffer()` in some cases, where a byte buffer "extra capacity" can be temporarily used. - The `slog` package uses `Attr` by value. It makes sense to minimize operating on them, since iterating / collecting into a new slice, iterating again etc causes copy-on-heap. Better to operate on them only once. - If we want to do padding, it's better to copy from a constant `space`-buffer than to invoke `bytes.Repeat` every single time.
401 lines
9.8 KiB
Go
401 lines
9.8 KiB
Go
package log
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import (
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"bytes"
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"fmt"
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"math/big"
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"reflect"
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"strconv"
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"time"
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"unicode/utf8"
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"github.com/holiman/uint256"
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"golang.org/x/exp/slog"
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)
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const (
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timeFormat = "2006-01-02T15:04:05-0700"
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floatFormat = 'f'
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termMsgJust = 40
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termCtxMaxPadding = 40
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)
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// 40 spaces
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var spaces = []byte(" ")
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type Format interface {
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Format(r slog.Record) []byte
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}
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// FormatFunc returns a new Format object which uses
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// the given function to perform record formatting.
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func FormatFunc(f func(slog.Record) []byte) Format {
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return formatFunc(f)
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}
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type formatFunc func(slog.Record) []byte
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func (f formatFunc) Format(r slog.Record) []byte {
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return f(r)
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}
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// TerminalStringer is an analogous interface to the stdlib stringer, allowing
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// own types to have custom shortened serialization formats when printed to the
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// screen.
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type TerminalStringer interface {
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TerminalString() string
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}
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func (h *TerminalHandler) TerminalFormat(buf []byte, r slog.Record, usecolor bool) []byte {
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msg := escapeMessage(r.Message)
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var color = ""
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if usecolor {
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switch r.Level {
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case LevelCrit:
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color = "\x1b[35m"
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case slog.LevelError:
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color = "\x1b[31m"
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case slog.LevelWarn:
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color = "\x1b[33m"
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case slog.LevelInfo:
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color = "\x1b[32m"
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case slog.LevelDebug:
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color = "\x1b[36m"
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case LevelTrace:
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color = "\x1b[34m"
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}
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}
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if buf == nil {
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buf = make([]byte, 0, 30+termMsgJust)
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}
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b := bytes.NewBuffer(buf)
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if color != "" { // Start color
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b.WriteString(color)
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b.WriteString(LevelAlignedString(r.Level))
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b.WriteString("\x1b[0m")
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} else {
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b.WriteString(LevelAlignedString(r.Level))
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}
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b.WriteString("[")
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writeTimeTermFormat(b, r.Time)
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b.WriteString("] ")
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b.WriteString(msg)
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// try to justify the log output for short messages
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//length := utf8.RuneCountInString(msg)
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length := len(msg)
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if (r.NumAttrs()+len(h.attrs)) > 0 && length < termMsgJust {
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b.Write(spaces[:termMsgJust-length])
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}
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// print the keys logfmt style
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h.logfmt(b, r, color)
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return b.Bytes()
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}
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func (h *TerminalHandler) logfmt(buf *bytes.Buffer, r slog.Record, color string) {
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// tmp is a temporary buffer we use, until bytes.Buffer.AvailableBuffer() (1.21)
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// can be used.
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var tmp = make([]byte, 40)
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writeAttr := func(attr slog.Attr, first, last bool) {
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buf.WriteByte(' ')
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if color != "" {
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buf.WriteString(color)
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//buf.Write(appendEscapeString(buf.AvailableBuffer(), attr.Key))
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buf.Write(appendEscapeString(tmp[:0], attr.Key))
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buf.WriteString("\x1b[0m=")
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} else {
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//buf.Write(appendEscapeString(buf.AvailableBuffer(), attr.Key))
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buf.Write(appendEscapeString(tmp[:0], attr.Key))
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buf.WriteByte('=')
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}
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//val := FormatSlogValue(attr.Value, true, buf.AvailableBuffer())
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val := FormatSlogValue(attr.Value, true, tmp[:0])
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padding := h.fieldPadding[attr.Key]
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length := utf8.RuneCount(val)
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if padding < length && length <= termCtxMaxPadding {
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padding = length
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h.fieldPadding[attr.Key] = padding
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}
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buf.Write(val)
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if !last && padding > length {
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buf.Write(spaces[:padding-length])
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}
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}
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var n = 0
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var nAttrs = len(h.attrs) + r.NumAttrs()
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for _, attr := range h.attrs {
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writeAttr(attr, n == 0, n == nAttrs-1)
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n++
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}
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r.Attrs(func(attr slog.Attr) bool {
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writeAttr(attr, n == 0, n == nAttrs-1)
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n++
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return true
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})
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buf.WriteByte('\n')
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}
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// FormatSlogValue formats a slog.Value for serialization
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func FormatSlogValue(v slog.Value, term bool, tmp []byte) (result []byte) {
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var value any
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defer func() {
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if err := recover(); err != nil {
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if v := reflect.ValueOf(value); v.Kind() == reflect.Ptr && v.IsNil() {
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result = []byte("<nil>")
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} else {
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panic(err)
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}
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}
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}()
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switch v.Kind() {
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case slog.KindString:
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return appendEscapeString(tmp, v.String())
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case slog.KindAny:
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value = v.Any()
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case slog.KindInt64: // All int-types (int8 ,int16 etc) wind up here
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return appendInt64(tmp, v.Int64())
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case slog.KindUint64: // All uint-types (int8 ,int16 etc) wind up here
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return appendUint64(tmp, v.Uint64(), false)
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case slog.KindFloat64:
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return strconv.AppendFloat(tmp, v.Float64(), floatFormat, 3, 64)
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case slog.KindBool:
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return strconv.AppendBool(tmp, v.Bool())
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case slog.KindDuration:
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value = v.Duration()
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case slog.KindTime:
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// Performance optimization: No need for escaping since the provided
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// timeFormat doesn't have any escape characters, and escaping is
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// expensive.
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return v.Time().AppendFormat(tmp, timeFormat)
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default:
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value = v.Any()
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}
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if value == nil {
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return []byte("<nil>")
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}
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switch v := value.(type) {
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case *big.Int:
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// Big ints get consumed by the Stringer clause, so we need to handle
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// them earlier on.
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if v == nil {
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return append(tmp, []byte("<nil>")...)
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}
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return appendBigInt(tmp, v)
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case *uint256.Int:
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// Uint256s get consumed by the Stringer clause, so we need to handle
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// them earlier on.
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if v == nil {
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return append(tmp, []byte("<nil>")...)
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}
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return appendU256(tmp, v)
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case error:
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return appendEscapeString(tmp, v.Error())
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case TerminalStringer:
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if term {
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return appendEscapeString(tmp, v.TerminalString()) // Custom terminal stringer provided, use that
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}
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case fmt.Stringer:
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return appendEscapeString(tmp, v.String())
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}
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// We can use the 'tmp' as a scratch-buffer, to first format the
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// value, and in a second step do escaping.
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internal := fmt.Appendf(tmp, "%+v", value)
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return appendEscapeString(tmp, string(internal))
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}
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// appendInt64 formats n with thousand separators and writes into buffer dst.
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func appendInt64(dst []byte, n int64) []byte {
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if n < 0 {
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return appendUint64(dst, uint64(-n), true)
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}
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return appendUint64(dst, uint64(n), false)
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}
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// appendUint64 formats n with thousand separators and writes into buffer dst.
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func appendUint64(dst []byte, n uint64, neg bool) []byte {
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// Small numbers are fine as is
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if n < 100000 {
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if neg {
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return strconv.AppendInt(dst, -int64(n), 10)
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} else {
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return strconv.AppendInt(dst, int64(n), 10)
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}
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}
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// Large numbers should be split
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const maxLength = 26
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var (
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out = make([]byte, maxLength)
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i = maxLength - 1
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comma = 0
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)
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for ; n > 0; i-- {
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if comma == 3 {
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comma = 0
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out[i] = ','
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} else {
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comma++
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out[i] = '0' + byte(n%10)
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n /= 10
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}
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}
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if neg {
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out[i] = '-'
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i--
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}
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return append(dst, out[i+1:]...)
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}
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// FormatLogfmtUint64 formats n with thousand separators.
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func FormatLogfmtUint64(n uint64) string {
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return string(appendUint64(nil, n, false))
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}
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// appendBigInt formats n with thousand separators and writes to dst.
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func appendBigInt(dst []byte, n *big.Int) []byte {
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if n.IsUint64() {
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return appendUint64(dst, n.Uint64(), false)
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}
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if n.IsInt64() {
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return appendInt64(dst, n.Int64())
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}
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var (
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text = n.String()
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buf = make([]byte, len(text)+len(text)/3)
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comma = 0
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i = len(buf) - 1
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)
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for j := len(text) - 1; j >= 0; j, i = j-1, i-1 {
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c := text[j]
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switch {
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case c == '-':
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buf[i] = c
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case comma == 3:
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buf[i] = ','
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i--
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comma = 0
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fallthrough
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default:
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buf[i] = c
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comma++
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}
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}
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return append(dst, buf[i+1:]...)
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}
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// appendU256 formats n with thousand separators.
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func appendU256(dst []byte, n *uint256.Int) []byte {
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if n.IsUint64() {
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return appendUint64(dst, n.Uint64(), false)
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}
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res := []byte(n.PrettyDec(','))
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return append(dst, res...)
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}
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// appendEscapeString writes the string s to the given writer, with
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// escaping/quoting if needed.
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func appendEscapeString(dst []byte, s string) []byte {
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needsQuoting := false
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needsEscaping := false
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for _, r := range s {
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// If it contains spaces or equal-sign, we need to quote it.
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if r == ' ' || r == '=' {
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needsQuoting = true
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continue
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}
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// We need to escape it, if it contains
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// - character " (0x22) and lower (except space)
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// - characters above ~ (0x7E), plus equal-sign
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if r <= '"' || r > '~' {
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needsEscaping = true
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break
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}
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}
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if needsEscaping {
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return strconv.AppendQuote(dst, s)
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}
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// No escaping needed, but we might have to place within quote-marks, in case
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// it contained a space
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if needsQuoting {
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dst = append(dst, '"')
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dst = append(dst, []byte(s)...)
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return append(dst, '"')
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}
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return append(dst, []byte(s)...)
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}
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// escapeMessage checks if the provided string needs escaping/quoting, similarly
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// to escapeString. The difference is that this method is more lenient: it allows
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// for spaces and linebreaks to occur without needing quoting.
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func escapeMessage(s string) string {
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needsQuoting := false
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for _, r := range s {
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// Allow CR/LF/TAB. This is to make multi-line messages work.
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if r == '\r' || r == '\n' || r == '\t' {
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continue
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}
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// We quote everything below <space> (0x20) and above~ (0x7E),
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// plus equal-sign
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if r < ' ' || r > '~' || r == '=' {
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needsQuoting = true
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break
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}
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}
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if !needsQuoting {
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return s
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}
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return strconv.Quote(s)
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}
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// writeTimeTermFormat writes on the format "01-02|15:04:05.000"
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func writeTimeTermFormat(buf *bytes.Buffer, t time.Time) {
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_, month, day := t.Date()
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writePosIntWidth(buf, int(month), 2)
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buf.WriteByte('-')
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writePosIntWidth(buf, day, 2)
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buf.WriteByte('|')
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hour, min, sec := t.Clock()
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writePosIntWidth(buf, hour, 2)
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buf.WriteByte(':')
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writePosIntWidth(buf, min, 2)
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buf.WriteByte(':')
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writePosIntWidth(buf, sec, 2)
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ns := t.Nanosecond()
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buf.WriteByte('.')
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writePosIntWidth(buf, ns/1e6, 3)
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}
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// writePosIntWidth writes non-negative integer i to the buffer, padded on the left
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// by zeroes to the given width. Use a width of 0 to omit padding.
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// Adapted from golang.org/x/exp/slog/internal/buffer/buffer.go
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func writePosIntWidth(b *bytes.Buffer, i, width int) {
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// Cheap integer to fixed-width decimal ASCII.
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// Copied from log/log.go.
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if i < 0 {
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panic("negative int")
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}
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// Assemble decimal in reverse order.
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var bb [20]byte
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bp := len(bb) - 1
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for i >= 10 || width > 1 {
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width--
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q := i / 10
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bb[bp] = byte('0' + i - q*10)
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bp--
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i = q
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}
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// i < 10
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bb[bp] = byte('0' + i)
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b.Write(bb[bp:])
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}
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