gotelem/internal/logparsers/parsers.go
saji 19b337a84b
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remove recover, add telem log parser tests
2024-02-28 18:44:48 -06:00

186 lines
4.8 KiB
Go

package logparsers
import (
"encoding/hex"
"fmt"
"regexp"
"strconv"
"strings"
"time"
"github.com/kschamplin/gotelem/internal/can"
"github.com/kschamplin/gotelem/skylab"
)
// A FormatError is an error when parsing a format. Typically we simply ignore
// these and move on, but they can optionally wrap another error that is fatal.
type FormatError struct {
msg string
err error
}
func (e *FormatError) Error() string {
if e.err != nil {
return fmt.Sprintf("%s:%s", e.msg, e.err.Error())
}
return e.msg
}
func (e *FormatError) Unwrap() error {
return e.err
}
// NewFormatError constructs a new format error.
func NewFormatError(msg string, err error) error {
return &FormatError{msg: msg, err: err}
}
// type LineParserFunc is a function that takes a string
// and returns a can frame. This is useful for common
// can dump formats.
type LineParserFunc func(string) (can.Frame, time.Time, error)
var candumpRegex = regexp.MustCompile(`^\((\d+)\.(\d{6})\) \w+ (\w+)#(\w+)$`)
func parseCanDumpLine(dumpLine string) (frame can.Frame, ts time.Time, err error) {
frame = can.Frame{}
ts = time.Unix(0,0)
// dumpline looks like this:
// (1684538768.521889) can0 200#8D643546
// remove trailing newline/whitespaces
dumpLine = strings.TrimSpace(dumpLine)
m := candumpRegex.FindStringSubmatch(dumpLine)
if m == nil || len(m) != 5 {
err = NewFormatError("no regex match", nil)
return
}
var unixSeconds, unixMicros int64
unixSeconds, err = strconv.ParseInt(m[1], 10, 0)
if err != nil {
err = NewFormatError("failed to parse unix seconds", err)
return
}
unixMicros, err = strconv.ParseInt(m[2], 10, 0)
if err != nil {
err = NewFormatError("failed to parse unix micros", err)
return
}
id, err := strconv.ParseUint(m[3], 16, 64)
if err != nil {
err = NewFormatError("failed to parse id", err)
return
}
if (len(m[4]) % 2) != 0 {
err = NewFormatError("odd number of hex characters", nil)
return
}
rawData, err := hex.DecodeString(m[4])
if err != nil {
err = NewFormatError("failed to decode hex data", err)
return
}
// TODO: add extended id support, need an example log and a test.
frame.Id = can.CanID{Id: uint32(id), Extended: false}
frame.Data = rawData
frame.Kind = can.CanDataFrame
ts = time.Unix(unixSeconds, unixMicros * int64(time.Microsecond))
return
}
// data is of the form
// 1698180835.318 0619D80564080EBE241
// the second part there is 3 nibbles (12 bits, 3 hex chars) for can ID,
// the rest is data.
// this regex does the processing. we precompile for speed.
var telemRegex = regexp.MustCompile(`^(\d+)\.(\d{3}) (\w{3})(\w+)$`)
func parseTelemLogLine(line string) (frame can.Frame, ts time.Time, err error) {
frame = can.Frame{}
ts = time.Unix(0,0)
// strip trailng newline since we rely on it being gone
line = strings.TrimSpace(line)
a := telemRegex.FindStringSubmatch(line)
if a == nil || len(a) != 5 {
err = NewFormatError("no regex match", nil)
return
}
var unixSeconds, unixMillis int64
// note that a contains 5 elements, the first being the full match.
// so we start from the second element
unixSeconds, err = strconv.ParseInt(a[1], 10, 0)
if err != nil {
err = NewFormatError("failed to parse unix seconds", err)
return
}
unixMillis, err = strconv.ParseInt(a[2], 10, 0)
if err != nil {
err = NewFormatError("failed to parse unix millis", err)
return
}
ts = time.Unix(unixSeconds, unixMillis*int64(time.Millisecond))
// VALIDATION STEP: sometimes the data gets really whack, but remains valid.
// We check that the time is between 2017 and 2032.
// Realistically we will not be using this software then.
// TODO: add this
id, err := strconv.ParseUint(a[3], 16, 16)
if err != nil {
err = NewFormatError("failed to parse id", err)
return
}
if len(a[4])%2 != 0 {
// odd hex chars, protect against a panic
err = NewFormatError("wrong amount of hex chars", nil)
return
}
rawData, err := hex.DecodeString(a[4])
if err != nil {
err = NewFormatError("failed to parse hex data", err)
return
}
frame = can.Frame{
Id: can.CanID{Id: uint32(id), Extended: false},
Data: rawData,
Kind: can.CanDataFrame,
}
return frame, ts, nil
}
// BusParserFunc is a function that takes a string and returns a busevent.
type BusParserFunc func(string) (skylab.BusEvent, error)
// parserBusEventMapper takes a line parser (that returns a can frame)
// and makes it return a busEvent instead.
func parserBusEventMapper(f LineParserFunc) BusParserFunc {
return func(s string) (skylab.BusEvent, error) {
var b = skylab.BusEvent{}
f, ts, err := f(s)
if err != nil {
return b, err
}
b.Timestamp = ts
b.Data, err = skylab.FromCanFrame(f)
if err != nil {
return b, err
}
b.Name = b.Data.String()
return b, nil
}
}
var ParsersMap = map[string]BusParserFunc{
"telem": parserBusEventMapper(parseTelemLogLine),
"candump": parserBusEventMapper(parseCanDumpLine),
}