logextract: Breakup shutdown parsing into classes

Separate out message parsing into individual classes.  This should
make the code a little eaiser to understand.

Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
This commit is contained in:
Kevin O'Connor 2022-02-06 22:33:09 -05:00
parent 9174c0241e
commit 6cd1e794f7
1 changed files with 216 additions and 151 deletions

View File

@ -148,22 +148,69 @@ class TMCUartHelper:
# Shutdown extraction # Shutdown extraction
###################################################################### ######################################################################
stats_seq_s = r" send_seq=(?P<sseq>[0-9]+) receive_seq=(?P<rseq>[0-9]+) " def add_high_bits(val, ref, mask):
half = (mask + 1) // 2
return ref + ((val - (ref & mask) + half) & mask) - half
count_s = r"(?P<count>[0-9]+)" count_s = r"(?P<count>[0-9]+)"
time_s = r"(?P<time>[0-9]+[.][0-9]+)" time_s = r"(?P<time>[0-9]+[.][0-9]+)"
esttime_s = r"(?P<esttime>[0-9]+[.][0-9]+)" esttime_s = r"(?P<esttime>[0-9]+[.][0-9]+)"
shortseq_s = r"(?P<shortseq>[0-9a-f])" shortseq_s = r"(?P<shortseq>[0-9a-f])"
stats_r = re.compile(r"^Stats " + time_s + ": ")
serial_dump_r = re.compile(r"^Dumping serial stats: .*" + stats_seq_s)
send_dump_r = re.compile(r"^Dumping send queue " + count_s + " messages$")
sent_r = re.compile(r"^Sent " + count_s + " " + esttime_s + " " + time_s sent_r = re.compile(r"^Sent " + count_s + " " + esttime_s + " " + time_s
+ " [0-9]+: seq: 1" + shortseq_s + ",") + " [0-9]+: seq: 1" + shortseq_s + ",")
receive_dump_r = re.compile(r"^Dumping receive queue " + count_s + " messages$")
# MCU "Sent" shutdown message parsing
class MCUSentStream:
def __init__(self, mcu, count):
self.mcu = mcu
self.sent_stream = []
self.send_count = count
def parse_line(self, line_num, line):
m = sent_r.match(line)
if m is not None:
shortseq = int(m.group('shortseq'), 16)
seq = (self.mcu.shutdown_seq + int(m.group('count'))
- self.send_count)
seq = add_high_bits(shortseq, seq, 0xf)
ts = float(m.group('time'))
esttime = float(m.group('esttime'))
self.mcu.sent_time_to_seq[(esttime, seq & 0xf)] = seq
self.mcu.sent_seq_to_time[seq] = ts
line = self.mcu.annotate(line, seq, ts)
self.sent_stream.append((ts, line_num, line))
return True, None
return self.mcu.parse_line(line_num, line)
def get_lines(self):
return self.sent_stream
receive_r = re.compile(r"^Receive: " + count_s + " " + time_s + " " + esttime_s receive_r = re.compile(r"^Receive: " + count_s + " " + time_s + " " + esttime_s
+ " [0-9]+: seq: 1" + shortseq_s + ",") + " [0-9]+: seq: 1" + shortseq_s + ",")
gcode_r = re.compile(r"^Read " + time_s + r": (?P<gcode>['\"].*)$")
gcode_state_r = re.compile(r"^gcode state: ") # MCU "Receive" shutdown message parsing
varlist_split_r = re.compile(r"([^ ]+)=") class MCUReceiveStream:
def __init__(self, mcu):
self.mcu = mcu
self.receive_stream = []
def parse_line(self, line_num, line):
m = receive_r.match(line)
if m is not None:
shortseq = int(m.group('shortseq'), 16)
ts = float(m.group('time'))
esttime = float(m.group('esttime'))
seq = self.mcu.sent_time_to_seq.get((esttime, (shortseq - 1) & 0xf))
if seq is not None:
self.mcu.receive_seq_to_time[seq + 1] = ts
line = self.mcu.annotate(line, seq, ts)
self.receive_stream.append((ts, line_num, line))
return True, None
return self.mcu.parse_line(line_num, line)
def get_lines(self):
return self.receive_stream
stats_seq_s = r" send_seq=(?P<sseq>[0-9]+) receive_seq=(?P<rseq>[0-9]+) "
serial_dump_r = re.compile(r"^Dumping serial stats: .*" + stats_seq_s)
send_dump_r = re.compile(r"^Dumping send queue " + count_s + " messages$")
receive_dump_r = re.compile(r"^Dumping receive queue " + count_s + " messages$")
clock_r = re.compile(r"^clocksync state: .* clock_est=\((?P<st>[^ ]+)" clock_r = re.compile(r"^clocksync state: .* clock_est=\((?P<st>[^ ]+)"
+ r" (?P<sc>[0-9]+) (?P<f>[^ ]+)\)") + r" (?P<sc>[0-9]+) (?P<f>[^ ]+)\)")
repl_seq_r = re.compile(r": seq: 1" + shortseq_s) repl_seq_r = re.compile(r": seq: 1" + shortseq_s)
@ -171,48 +218,65 @@ repl_clock_r = re.compile(r"clock=(?P<clock>[0-9]+)(?: |$)")
repl_uart_r = re.compile(r"tmcuart_(?:response|send) oid=[0-9]+" repl_uart_r = re.compile(r"tmcuart_(?:response|send) oid=[0-9]+"
+ r" (?:read|write)=(?P<msg>(?:'[^']*'" + r" (?:read|write)=(?P<msg>(?:'[^']*'"
+ r'|"[^"]*"))(?: |$)') + r'|"[^"]*"))(?: |$)')
mcu_r = re.compile(r"MCU '(?P<mcu>[^']+)' (is_)?shutdown: (?P<reason>.*)$")
def add_high_bits(val, ref, mask): # MCU shutdown message parsing
half = (mask + 1) // 2 class MCUStream:
return ref + ((val - (ref & mask) + half) & mask) - half
class GatherShutdown:
class mcu_info:
def __init__(self, name): def __init__(self, name):
self.name = name self.name = name
self.sent_stream = []
self.receive_stream = []
self.sent_stream = []
self.receive_stream = []
self.sent_time_to_seq = {} self.sent_time_to_seq = {}
self.sent_seq_to_time = {} self.sent_seq_to_time = {}
self.receive_seq_to_time = {} self.receive_seq_to_time = {}
self.clock_est = 0., 0., 1. self.clock_est = 0., 0., 1.
self.shutdown_seq = None self.shutdown_seq = None
self.send_count = self.receive_count = 0 def trans_clock(self, clock, ts):
def __init__(self, configs, line_num, recent_lines, logname): sample_time, sample_clock, freq = self.clock_est
self.shutdown_line_num = line_num exp_clock = int(sample_clock + (ts - sample_time) * freq)
self.filename = "%s.shutdown%05d" % (logname, line_num) ext_clock = add_high_bits(clock, exp_clock, 0xffffffff)
self.gcode_filename = "%s.gcode%05d" % (logname, line_num) return sample_time + (ext_clock - sample_clock) / freq
self.comments = [] def annotate(self, line, seq, ts):
if configs: if seq is not None:
configs_by_id = {c.config_num: c for c in configs.values()} line = repl_seq_r.sub(r"\g<0>(%d)" % (seq,), line)
config = configs_by_id[max(configs_by_id.keys())] def clock_update(m):
config.add_comment(format_comment(line_num, recent_lines[-1][1])) return m.group(0).rstrip() + "(%.6f) " % (
self.comments.append("# config %s" % (config.filename,)) self.trans_clock(int(m.group('clock')), ts),)
self.stats_stream = [] line = repl_clock_r.sub(clock_update, line)
def uart_update(m):
msg = TMCUartHelper().parse_msg(ast.literal_eval(m.group('msg')))
return m.group(0).rstrip() + "%s " % (msg,)
line = repl_uart_r.sub(uart_update, line)
if self.name != 'mcu':
line = "mcu '%s': %s" % (self.name, line)
return line
def parse_line(self, line_num, line):
m = clock_r.match(line)
if m is not None:
st = float(m.group('st'))
sc = int(m.group('sc'))
f = float(m.group('f'))
self.clock_est = (st, sc, f)
m = serial_dump_r.match(line)
if m is not None:
self.shutdown_seq = int(m.group('rseq'))
m = send_dump_r.match(line)
if m is not None:
return True, MCUSentStream(self, int(m.group('count')))
m = receive_dump_r.match(line)
if m is not None:
return True, MCUReceiveStream(self)
return False, None
def get_lines(self):
return []
gcode_cmd_r = re.compile(r"^Read " + time_s + r": (?P<gcode>['\"].*)$")
varlist_split_r = re.compile(r"([^ ]+)=")
# G-Code shutdown message parsing
class GCodeStream:
def __init__(self, shutdown_line_num, logname):
self.gcode_stream = [] self.gcode_stream = []
self.gcode_commands = []
self.gcode_state = '' self.gcode_state = ''
self.mcus = {} self.gcode_filename = "%s.gcode%05d" % (logname, shutdown_line_num)
self.mcu = None
self.first_stat_time = self.last_stat_time = None
for line_num, line in recent_lines:
self.parse_line(line_num, line)
self.first_stat_time = self.last_stat_time
def add_comment(self, comment):
if comment is not None:
self.comments.append(comment)
def extract_params(self, line): def extract_params(self, line):
parts = varlist_split_r.split(line) parts = varlist_split_r.split(line)
try: try:
@ -243,6 +307,40 @@ class GatherShutdown:
out.append('M221 S%f' % (kv['extrude_factor'] * 100.,)) out.append('M221 S%f' % (kv['extrude_factor'] * 100.,))
out.extend(['; End of state restore', '', '']) out.extend(['; End of state restore', '', ''])
self.gcode_state = '\n'.join(out) self.gcode_state = '\n'.join(out)
def parse_line(self, line_num, line):
m = gcode_cmd_r.match(line)
if m is not None:
ts = float(m.group('time'))
self.gcode_stream.append((ts, line_num, line))
self.gcode_commands.append(m.group('gcode'))
return True, None
return False, None
def get_lines(self):
# Produce output gcode stream
if self.gcode_stream:
data = [ast.literal_eval(gc) for gc in self.gcode_commands]
f = open(self.gcode_filename, 'wb')
f.write(self.gcode_state + ''.join(data))
f.close()
return self.gcode_stream
stats_r = re.compile(r"^Stats " + time_s + ": ")
mcu_r = re.compile(r"MCU '(?P<mcu>[^']+)' (is_)?shutdown: (?P<reason>.*)$")
gcode_r = re.compile(r"Dumping gcode input " + count_s + r" blocks$")
gcode_state_r = re.compile(r"^gcode state: ")
# Stats message parsing and high-level message dispatch
class StatsStream:
def __init__(self, shutdown_line_num, logname):
self.shutdown_line_num = shutdown_line_num
self.gcode_stream = GCodeStream(shutdown_line_num, logname)
self.mcus = {}
self.first_stat_time = self.last_stat_time = None
self.stats_stream = []
def reset_first_stat_time(self):
self.first_stat_time = self.last_stat_time
def get_stat_times(self):
return self.first_stat_time, self.last_stat_time
def check_stats_seq(self, ts, line): def check_stats_seq(self, ts, line):
# Parse stats # Parse stats
parts = line.split() parts = line.split()
@ -256,83 +354,19 @@ class GatherShutdown:
keyparts[mcu + name] = val keyparts[mcu + name] = val
min_ts = 0 min_ts = 0
max_ts = 999999999999 max_ts = 999999999999
for mcu, info in self.mcus.items(): for mcu_name, mcu in self.mcus.items():
sname = '%s:send_seq' % (mcu,) sname = '%s:send_seq' % (mcu_name,)
rname = '%s:receive_seq' % (mcu,) rname = '%s:receive_seq' % (mcu_name,)
if sname not in keyparts: if sname not in keyparts:
continue continue
sseq = int(keyparts[sname]) sseq = int(keyparts[sname])
rseq = int(keyparts[rname]) rseq = int(keyparts[rname])
min_ts = max(min_ts, info.sent_seq_to_time.get(sseq-1, 0), min_ts = max(min_ts, mcu.sent_seq_to_time.get(sseq-1, 0),
info.receive_seq_to_time.get(rseq, 0)) mcu.receive_seq_to_time.get(rseq, 0))
max_ts = min(max_ts, info.sent_seq_to_time.get(sseq, 999999999999), max_ts = min(max_ts, mcu.sent_seq_to_time.get(sseq, 999999999999),
info.receive_seq_to_time.get(rseq+1, 999999999999)) mcu.receive_seq_to_time.get(rseq+1, 999999999999))
return min(max(ts, min_ts + 0.00000001), max_ts - 0.00000001) return min(max(ts, min_ts + 0.00000001), max_ts - 0.00000001)
def trans_clock(self, clock, ts):
sample_time, sample_clock, freq = self.mcu.clock_est
exp_clock = int(sample_clock + (ts - sample_time) * freq)
ext_clock = add_high_bits(clock, exp_clock, 0xffffffff)
return sample_time + (ext_clock - sample_clock) / freq
def annotate(self, line, mcu_name, seq, ts):
if seq is not None:
line = repl_seq_r.sub(r"\g<0>(%d)" % (seq,), line)
def clock_update(m):
return m.group(0).rstrip() + "(%.6f) " % (
self.trans_clock(int(m.group('clock')), ts),)
line = repl_clock_r.sub(clock_update, line)
def uart_update(m):
msg = TMCUartHelper().parse_msg(ast.literal_eval(m.group('msg')))
return m.group(0).rstrip() + "%s " % (msg,)
line = repl_uart_r.sub(uart_update, line)
if mcu_name != 'mcu':
line = "mcu '%s': %s" % (mcu_name, line)
return line
def add_line(self, line_num, line):
self.parse_line(line_num, line)
if (self.first_stat_time is not None
and self.last_stat_time > self.first_stat_time + 5.):
self.finalize()
return False
if (line.startswith('Git version')
or line.startswith('Start printer at')
or line == '===== Config file ====='):
self.finalize()
return False
return True
def parse_line(self, line_num, line): def parse_line(self, line_num, line):
m = sent_r.match(line)
if m is not None:
shortseq = int(m.group('shortseq'), 16)
seq = (self.mcu.shutdown_seq + int(m.group('count'))
- self.mcu.send_count)
seq = add_high_bits(shortseq, seq, 0xf)
ts = float(m.group('time'))
esttime = float(m.group('esttime'))
self.mcu.sent_time_to_seq[(esttime, seq & 0xf)] = seq
self.mcu.sent_seq_to_time[seq] = ts
line = self.annotate(line, self.mcu.name, seq, ts)
self.mcu.sent_stream.append((ts, line_num, line))
return
m = receive_r.match(line)
if m is not None:
shortseq = int(m.group('shortseq'), 16)
ts = float(m.group('time'))
esttime = float(m.group('esttime'))
seq = self.mcu.sent_time_to_seq.get((esttime, (shortseq - 1) & 0xf))
if seq is not None:
self.mcu.receive_seq_to_time[seq + 1] = ts
line = self.annotate(line, self.mcu.name, seq, ts)
self.mcu.receive_stream.append((ts, line_num, line))
return
m = gcode_r.match(line)
if m is not None:
ts = float(m.group('time'))
self.gcode_stream.append((ts, line_num, line, m.group('gcode')))
return
m = gcode_state_r.match(line)
if m is not None:
self.handle_gcode_state(line)
return
m = stats_r.match(line) m = stats_r.match(line)
if m is not None: if m is not None:
ts = float(m.group('time')) ts = float(m.group('time'))
@ -340,35 +374,32 @@ class GatherShutdown:
if self.first_stat_time is None: if self.first_stat_time is None:
self.first_stat_time = ts self.first_stat_time = ts
self.stats_stream.append((ts, line_num, line)) self.stats_stream.append((ts, line_num, line))
return return True, None
self.stats_stream.append((None, line_num, line))
m = mcu_r.match(line) m = mcu_r.match(line)
if m is not None: if m is not None:
mcu = m.group('mcu') mcu_name = m.group('mcu')
self.mcu = self.mcus.setdefault(mcu, self.mcu_info(mcu)) mcu_stream = MCUStream(mcu_name)
m = clock_r.match(line) self.mcus[mcu_name] = mcu_stream
return True, mcu_stream
m = gcode_r.match(line)
if m is not None: if m is not None:
st = float(m.group('st')) return True, self.gcode_stream
sc = int(m.group('sc')) m = gcode_state_r.match(line)
f = float(m.group('f'))
self.mcu.clock_est = (st, sc, f)
m = serial_dump_r.match(line)
if m is not None: if m is not None:
self.mcu.shutdown_seq = int(m.group('rseq')) self.gcode_stream.handle_gcode_state(line)
m = send_dump_r.match(line) return True, None
if m is not None: return False, None
self.mcu.send_count = int(m.group('count')) def get_lines(self):
m = receive_dump_r.match(line)
if m is not None:
self.mcu.receive_count = int(m.group('count'))
self.stats_stream.append((None, line_num, line))
def finalize(self):
# Ignore old stats # Ignore old stats
stream_ts = [i[0] for mcu in self.mcus.values() all_ts = []
for i in mcu.sent_stream + mcu.receive_stream] for mcu_name, mcu in self.mcus.items():
if not stream_ts: all_ts.extend(mcu.sent_seq_to_time.values())
return all_ts.extend(mcu.receive_seq_to_time.values())
min_stream_ts = min(stream_ts) if not all_ts:
max_stream_ts = max(stream_ts) return []
min_stream_ts = min(all_ts)
max_stream_ts = max(all_ts)
for i, info in enumerate(self.stats_stream): for i, info in enumerate(self.stats_stream):
if info[0] is not None and info[0] >= min_stream_ts - 5.: if info[0] is not None and info[0] >= min_stream_ts - 5.:
del self.stats_stream[:i] del self.stats_stream[:i]
@ -382,10 +413,50 @@ class GatherShutdown:
and last_ts <= max_stream_ts): and last_ts <= max_stream_ts):
last_ts = max_stream_ts + 0.00000001 last_ts = max_stream_ts + 0.00000001
self.stats_stream[i] = (last_ts, line_num, line) self.stats_stream[i] = (last_ts, line_num, line)
return self.stats_stream
# Main handler for creating shutdown diagnostics file
class GatherShutdown:
def __init__(self, configs, line_num, recent_lines, logname):
self.filename = "%s.shutdown%05d" % (logname, line_num)
self.comments = []
if configs:
configs_by_id = {c.config_num: c for c in configs.values()}
config = configs_by_id[max(configs_by_id.keys())]
config.add_comment(format_comment(line_num, recent_lines[-1][1]))
self.comments.append("# config %s" % (config.filename,))
self.stats_stream = StatsStream(line_num, logname)
self.active_streams = [self.stats_stream]
self.all_streams = list(self.active_streams)
for line_num, line in recent_lines:
self.parse_line(line_num, line)
self.stats_stream.reset_first_stat_time()
def add_comment(self, comment):
if comment is not None:
self.comments.append(comment)
def add_line(self, line_num, line):
self.parse_line(line_num, line)
first, last = self.stats_stream.get_stat_times()
if first is not None and last > first + 5.:
self.finalize()
return False
if (line.startswith('Git version')
or line.startswith('Start printer at')
or line == '===== Config file ====='):
self.finalize()
return False
return True
def parse_line(self, line_num, line):
for s in self.active_streams:
did_parse, new_stream = s.parse_line(line_num, line)
if did_parse:
if new_stream is not None:
self.all_streams.append(new_stream)
self.active_streams = [new_stream, self.stats_stream]
break
def finalize(self):
# Make sure no timestamp goes backwards # Make sure no timestamp goes backwards
streams = ([self.stats_stream, self.gcode_stream] + streams = [p.get_lines() for p in self.all_streams]
[mcu.sent_stream for mcu in self.mcus.values()] +
[mcu.receive_stream for mcu in self.mcus.values()])
for s in streams: for s in streams:
for i in range(1, len(s)): for i in range(1, len(s)):
if s[i-1][0] > s[i][0]: if s[i-1][0] > s[i][0]:
@ -397,12 +468,6 @@ class GatherShutdown:
f = open(self.filename, 'wb') f = open(self.filename, 'wb')
f.write('\n'.join(self.comments + out)) f.write('\n'.join(self.comments + out))
f.close() f.close()
# Produce output gcode stream
if self.gcode_stream:
data = [ast.literal_eval(gc[3]) for gc in self.gcode_stream]
f = open(self.gcode_filename, 'wb')
f.write(self.gcode_state + ''.join(data))
f.close()
###################################################################### ######################################################################