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machine.go.rl
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machine.go.rl
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package influx
import (
"errors"
"io"
)
type readErr struct {
Err error
}
func (e *readErr) Error() string {
return e.Err.Error()
}
var (
ErrNameParse = errors.New("expected measurement name")
ErrFieldParse = errors.New("expected field")
ErrTagParse = errors.New("expected tag")
ErrTimestampParse = errors.New("expected timestamp")
ErrParse = errors.New("parse error")
EOF = errors.New("EOF")
)
%%{
machine LineProtocol;
action begin {
m.pb = m.p
}
action name_error {
err = ErrNameParse
fhold;
fnext discard_line;
fbreak;
}
action field_error {
err = ErrFieldParse
fhold;
fnext discard_line;
fbreak;
}
action tagset_error {
err = ErrTagParse
fhold;
fnext discard_line;
fbreak;
}
action timestamp_error {
err = ErrTimestampParse
fhold;
fnext discard_line;
fbreak;
}
action parse_error {
err = ErrParse
fhold;
fnext discard_line;
fbreak;
}
action align_error {
err = ErrParse
fnext discard_line;
fbreak;
}
action hold_recover {
fhold;
fgoto main;
}
action goto_align {
fgoto align;
}
action begin_metric {
m.beginMetric = true
}
action name {
err = m.handler.SetMeasurement(m.text())
if err != nil {
fhold;
fnext discard_line;
fbreak;
}
}
action tagkey {
m.key = m.text()
}
action tagvalue {
err = m.handler.AddTag(m.key, m.text())
if err != nil {
fhold;
fnext discard_line;
fbreak;
}
}
action fieldkey {
m.key = m.text()
}
action integer {
err = m.handler.AddInt(m.key, m.text())
if err != nil {
fhold;
fnext discard_line;
fbreak;
}
}
action unsigned {
err = m.handler.AddUint(m.key, m.text())
if err != nil {
fhold;
fnext discard_line;
fbreak;
}
}
action float {
err = m.handler.AddFloat(m.key, m.text())
if err != nil {
fhold;
fnext discard_line;
fbreak;
}
}
action bool {
err = m.handler.AddBool(m.key, m.text())
if err != nil {
fhold;
fnext discard_line;
fbreak;
}
}
action string {
err = m.handler.AddString(m.key, m.text())
if err != nil {
fhold;
fnext discard_line;
fbreak;
}
}
action timestamp {
err = m.handler.SetTimestamp(m.text())
if err != nil {
fhold;
fnext discard_line;
fbreak;
}
}
action incr_newline {
m.lineno++
m.sol = m.p
m.sol++ // next char will be the first column in the line
}
action eol {
m.finishMetric = true
fnext align;
fbreak;
}
action finish_metric {
m.finishMetric = true
}
ws =
[\t\v\f ];
newline =
'\r'? '\n' >incr_newline;
non_zero_digit =
[1-9];
integer =
'-'? ( digit | ( non_zero_digit digit* ) );
unsigned =
( digit | ( non_zero_digit digit* ) );
number =
'-'? (digit+ ('.' digit*)? | '.' digit+);
scientific =
number 'e'i ["\-+"]? digit+;
timestamp =
('-'? digit{1,19}) >begin %timestamp;
fieldkeychar =
[^\t\n\f\r ,=\\] | ( '\\' [^\t\n\f\r] );
fieldkey =
fieldkeychar+ >begin %fieldkey;
fieldfloat =
(scientific | number) >begin %float;
fieldinteger =
(integer 'i') >begin %integer;
fieldunsigned =
(unsigned 'u') >begin %unsigned;
false =
"false" | "FALSE" | "False" | "F" | "f";
true =
"true" | "TRUE" | "True" | "T" | "t";
fieldbool =
(true | false) >begin %bool;
fieldstringchar =
[^\n\\"] | '\\' [\\"] | newline;
fieldstring =
fieldstringchar* >begin %string;
fieldstringquoted =
'"' fieldstring '"';
fieldvalue = fieldinteger | fieldunsigned | fieldfloat | fieldstringquoted | fieldbool;
field =
fieldkey '=' fieldvalue;
fieldset =
field ( ',' field )*;
tagchar =
[^\t\n\f\r ,=\\] | ( '\\' [^\t\n\f\r\\] ) | '\\\\' %to{ fhold; };
tagkey =
tagchar+ >begin %tagkey;
tagvalue =
tagchar+ >begin %eof(tagvalue) %tagvalue;
tagset =
((',' tagkey '=' tagvalue) $err(tagset_error))*;
measurement_chars =
[^\t\n\f\r ,\\] | ( '\\' [^\t\n\f\r] );
measurement_start =
measurement_chars - '#';
measurement =
(measurement_start measurement_chars*) >begin %eof(name) %name;
eol_break =
newline %to(eol)
;
metric =
measurement >err(name_error)
tagset
ws+ fieldset $err(field_error)
(ws+ timestamp)? $err(timestamp_error)
;
line_with_term =
ws* metric ws* eol_break
;
line_without_term =
ws* metric ws*
;
main :=
(line_with_term*
(line_with_term | line_without_term?)
) >begin_metric %eof(finish_metric)
;
# The discard_line machine discards the current line. Useful for recovering
# on the next line when an error occurs.
discard_line :=
(any -- newline)* newline @goto_align;
commentline =
ws* '#' (any -- newline)* newline;
emptyline =
ws* newline;
# The align machine scans forward to the start of the next line. This machine
# is used to skip over whitespace and comments, keeping this logic out of the
# main machine.
#
# Skip valid lines that don't contain line protocol, any other data will move
# control to the main parser via the err action.
align :=
(emptyline | commentline | ws+)* %err(hold_recover);
# Series is a machine for matching measurement+tagset
series :=
(measurement >err(name_error) tagset eol_break?)
>begin_metric
;
}%%
%% write data;
type Handler interface {
SetMeasurement(name []byte) error
AddTag(key []byte, value []byte) error
AddInt(key []byte, value []byte) error
AddUint(key []byte, value []byte) error
AddFloat(key []byte, value []byte) error
AddString(key []byte, value []byte) error
AddBool(key []byte, value []byte) error
SetTimestamp(tm []byte) error
}
type machine struct {
data []byte
cs int
p, pe, eof int
pb int
lineno int
sol int
handler Handler
initState int
key []byte
beginMetric bool
finishMetric bool
}
func NewMachine(handler Handler) *machine {
m := &machine{
handler: handler,
initState: LineProtocol_en_align,
}
%% access m.;
%% variable p m.p;
%% variable cs m.cs;
%% variable pe m.pe;
%% variable eof m.eof;
%% variable data m.data;
%% write init;
return m
}
func NewSeriesMachine(handler Handler) *machine {
m := &machine{
handler: handler,
initState: LineProtocol_en_series,
}
%% access m.;
%% variable p m.p;
%% variable pe m.pe;
%% variable eof m.eof;
%% variable data m.data;
%% write init;
return m
}
func (m *machine) SetData(data []byte) {
m.data = data
m.p = 0
m.pb = 0
m.lineno = 1
m.sol = 0
m.pe = len(data)
m.eof = len(data)
m.key = nil
m.beginMetric = false
m.finishMetric = false
%% write init;
m.cs = m.initState
}
// Next parses the next metric line and returns nil if it was successfully
// processed. If the line contains a syntax error an error is returned,
// otherwise if the end of file is reached before finding a metric line then
// EOF is returned.
func (m *machine) Next() error {
if m.p == m.pe && m.pe == m.eof {
return EOF
}
m.key = nil
m.beginMetric = false
m.finishMetric = false
return m.exec()
}
func (m *machine) exec() error {
var err error
%% write exec;
if err != nil {
return err
}
// This would indicate an error in the machine that was reported with a
// more specific error. We return a generic error but this should
// possibly be a panic.
if m.cs == %%{ write error; }%% {
m.cs = LineProtocol_en_discard_line
return ErrParse
}
// If we haven't found a metric line yet and we reached the EOF, report it
// now. This happens when the data ends with a comment or whitespace.
//
// Otherwise we have successfully parsed a metric line, so if we are at
// the EOF we will report it the next call.
if !m.beginMetric && m.p == m.pe && m.pe == m.eof {
return EOF
}
return nil
}
// Position returns the current byte offset into the data.
func (m *machine) Position() int {
return m.p
}
// LineOffset returns the byte offset of the current line.
func (m *machine) LineOffset() int {
return m.sol
}
// LineNumber returns the current line number. Lines are counted based on the
// regular expression `\r?\n`.
func (m *machine) LineNumber() int {
return m.lineno
}
// Column returns the current column.
func (m *machine) Column() int {
lineOffset := m.p - m.sol
return lineOffset + 1
}
func (m *machine) text() []byte {
return m.data[m.pb:m.p]
}
type streamMachine struct {
machine *machine
reader io.Reader
}
func NewStreamMachine(r io.Reader, handler Handler) *streamMachine {
m := &streamMachine{
machine: NewMachine(handler),
reader: r,
}
m.machine.SetData(make([]byte, 1024))
m.machine.pe = 0
m.machine.eof = -1
return m
}
func (m *streamMachine) Next() error {
// Check if we are already at EOF, this should only happen if called again
// after already returning EOF.
if m.machine.p == m.machine.pe && m.machine.pe == m.machine.eof {
return EOF
}
copy(m.machine.data, m.machine.data[m.machine.p:])
m.machine.pe = m.machine.pe - m.machine.p
m.machine.sol = m.machine.sol - m.machine.p
m.machine.pb = 0
m.machine.p = 0
m.machine.eof = -1
m.machine.key = nil
m.machine.beginMetric = false
m.machine.finishMetric = false
for {
// Expand the buffer if it is full
if m.machine.pe == len(m.machine.data) {
expanded := make([]byte, 2 * len(m.machine.data))
copy(expanded, m.machine.data)
m.machine.data = expanded
}
n, err := m.reader.Read(m.machine.data[m.machine.pe:])
if n == 0 && err == io.EOF {
m.machine.eof = m.machine.pe
} else if err != nil && err != io.EOF {
// After the reader returns an error this function shouldn't be
// called again. This will cause the machine to return EOF this
// is done.
m.machine.p = m.machine.pe
m.machine.eof = m.machine.pe
return &readErr{Err: err}
}
m.machine.pe += n
err = m.machine.exec()
if err != nil {
return err
}
// If we have successfully parsed a full metric line break out
if m.machine.finishMetric {
break
}
}
return nil
}
// Position returns the current byte offset into the data.
func (m *streamMachine) Position() int {
return m.machine.Position()
}
// LineOffset returns the byte offset of the current line.
func (m *streamMachine) LineOffset() int {
return m.machine.LineOffset()
}
// LineNumber returns the current line number. Lines are counted based on the
// regular expression `\r?\n`.
func (m *streamMachine) LineNumber() int {
return m.machine.LineNumber()
}
// Column returns the current column.
func (m *streamMachine) Column() int {
return m.machine.Column()
}
// LineText returns the text of the current line that has been parsed so far.
func (m *streamMachine) LineText() string {
return string(m.machine.data[0:m.machine.p])
}