def dirs_report(jobs, dir_cfg, sched_cfg, width):
tmpdirs = dir_cfg['tmp']
dstdirs = dir_cfg['dst']
arch_cfg = dir_cfg['archive']
return (tmp_dir_report(jobs, tmpdirs, sched_cfg, width) + '\n' +
dst_dir_report(jobs, dstdirs, width) + '\n' +
'archive dirs free space:\n' +
arch_dir_report(archive.get_archdir_freebytes(arch_cfg), width) + '\n')
def dirs_report(jobs, dir_cfg, sched_cfg, width):
tmpdirs = dir_cfg["tmp"]
dstdirs = dir_cfg["dst"]
arch_cfg = dir_cfg.get("archive")
msg = (
tmp_dir_report(jobs, tmpdirs, sched_cfg, width)
+ "\n\n"
+ dst_dir_report(jobs, dstdirs, width)
+ "\n"
)
if arch_cfg:
msg += (
"archive dirs free space:\n"
+ arch_dir_report(archive.get_archdir_freebytes(arch_cfg), width)
+ "\n"
)
return msg
def curses_main(stdscr):
# TODO: figure out how to pass the configs in from plotman.py instead of
# duplicating the code here.
with open('config.yaml', 'r') as ymlfile:
cfg = yaml.load(ymlfile, Loader=yaml.FullLoader)
dir_cfg = cfg['directories']
sched_cfg = cfg['scheduling']
plotting_cfg = cfg['plotting']
log = Log()
plotting_active = True
archiving_configured = 'archive' in dir_cfg
archiving_active = archiving_configured
(n_rows, n_cols) = map(int, stdscr.getmaxyx())
# Page layout. Currently requires at least ~40 rows.
# TODO: make everything dynamically figure to best use available space
header_height = 3
jobs_height = 10
dirs_height = 14
logscreen_height = n_rows - (header_height + jobs_height + dirs_height)
header_pos = 0
jobs_pos = header_pos + header_height
dirs_pos = jobs_pos + jobs_height
logscreen_pos = dirs_pos + dirs_height
plotting_status = '<startup>' # todo rename these msg?
archiving_status = '<startup>'
refresh_period = int(sched_cfg['polling_time_s'])
stdscr.nodelay(True) # make getch() non-blocking
stdscr.timeout(2000)
header_win = curses.newwin(header_height, n_cols, header_pos, 0)
log_win = curses.newwin(logscreen_height, n_cols, logscreen_pos, 0)
jobs_win = curses.newwin(jobs_height, n_cols, jobs_pos, 0)
dirs_win = curses.newwin(dirs_height, n_cols, dirs_pos, 0)
jobs = Job.get_running_jobs(dir_cfg['log'])
last_refresh = datetime.datetime.now()
pressed_key = '' # For debugging
while True:
# TODO: handle resizing. Need to (1) figure out how to reliably get
# the terminal size -- the recommended method doesn't seem to work:
# (n_rows, n_cols) = [int(v) for v in stdscr.getmaxyx()]
# Consider instead:
# ...[int(v) for v in os.popen('stty size', 'r').read().split()]
# and then (2) implement the logic to resize all the subwindows as above
# stdscr.clear()
linecap = n_cols - 1
logscreen_height = n_rows - (header_height + jobs_height + dirs_height)
elapsed = (datetime.datetime.now() - last_refresh).total_seconds()
# A full refresh scans for and reads info for running jobs from
# scratch (i.e., reread their logfiles). Otherwise we'll only
# initialize new jobs, and mostly rely on cached info.
do_full_refresh = elapsed >= refresh_period
if not do_full_refresh:
jobs = Job.get_running_jobs(dir_cfg['log'], cached_jobs=jobs)
else:
last_refresh = datetime.datetime.now()
jobs = Job.get_running_jobs(dir_cfg['log'])
if plotting_active:
(started,
msg) = manager.maybe_start_new_plot(dir_cfg, sched_cfg,
plotting_cfg)
if (started):
log.log(msg)
plotting_status = '<just started job>'
jobs = Job.get_running_jobs(dir_cfg['log'],
cached_jobs=jobs)
else:
plotting_status = msg
if archiving_configured and archiving_active:
# Look for running archive jobs. Be robust to finding more than one
# even though the scheduler should only run one at a time.
arch_jobs = archive.get_running_archive_jobs(
dir_cfg['archive'])
if arch_jobs:
archiving_status = 'pid: ' + ', '.join(map(str, arch_jobs))
else:
(should_start,
status_or_cmd) = archive.archive(dir_cfg, jobs)
if not should_start:
archiving_status = status_or_cmd
else:
cmd = status_or_cmd
log.log('Starting archive: ' + cmd)
# TODO: do something useful with output instead of DEVNULL
p = subprocess.Popen(cmd,
shell=True,
stdout=subprocess.DEVNULL,
stderr=subprocess.STDOUT,
start_new_session=True)
# Directory prefixes, for abbreviation
tmp_prefix = '' #os.path.commonpath(dir_cfg['tmp'])
dst_prefix = '' #os.path.commonpath(dir_cfg['dst'])
if archiving_configured:
arch_prefix = dir_cfg['archive']['rsyncd_path']
# Header
header_win.addnstr(0, 0, 'Plotman', linecap, curses.A_BOLD)
timestamp = datetime.datetime.now().strftime("%H:%M:%S")
refresh_msg = "now" if do_full_refresh else f"{int(elapsed)}s/{refresh_period}"
header_win.addnstr(f" {timestamp} (refresh {refresh_msg})", linecap)
header_win.addnstr(' | <P>lotting: ', linecap, curses.A_BOLD)
header_win.addnstr(
plotting_status_msg(plotting_active, plotting_status), linecap)
header_win.addnstr(' <A>rchival: ', linecap, curses.A_BOLD)
header_win.addnstr(
archiving_status_msg(archiving_configured, archiving_active,
archiving_status), linecap)
# Oneliner progress display
header_win.addnstr(1, 0, 'Jobs (%d): ' % len(jobs), linecap)
header_win.addnstr('[' + reporting.job_viz(jobs) + ']', linecap)
# These are useful for debugging.
# header_win.addnstr(' term size: (%d, %d)' % (n_rows, n_cols), linecap) # Debuggin
# if pressed_key:
# header_win.addnstr(' (keypress %s)' % str(pressed_key), linecap)
header_win.addnstr(2, 0, 'Prefixes:', linecap, curses.A_BOLD)
header_win.addnstr(' tmp=', linecap, curses.A_BOLD)
header_win.addnstr(tmp_prefix, linecap)
header_win.addnstr(' dst=', linecap, curses.A_BOLD)
header_win.addnstr(dst_prefix, linecap)
if archiving_configured:
header_win.addnstr(' archive=', linecap, curses.A_BOLD)
header_win.addnstr(arch_prefix, linecap)
header_win.addnstr(' (remote)', linecap)
# Jobs
jobs_win.addstr(
0, 0,
reporting.status_report(jobs, n_cols, jobs_height, tmp_prefix,
dst_prefix))
jobs_win.chgat(0, 0, curses.A_REVERSE)
# Dirs. Collect reports as strings, then lay out.
n_tmpdirs = len(dir_cfg['tmp'])
n_tmpdirs_half = int(n_tmpdirs / 2)
tmp_report_1 = reporting.tmp_dir_report(jobs, dir_cfg['tmp'],
sched_cfg, n_cols, 0,
n_tmpdirs_half, tmp_prefix)
tmp_report_2 = reporting.tmp_dir_report(jobs, dir_cfg['tmp'],
sched_cfg, n_cols,
n_tmpdirs_half, n_tmpdirs,
tmp_prefix)
dst_report = reporting.dst_dir_report(jobs, dir_cfg['dst'], n_cols,
dst_prefix)
if archiving_configured:
arch_report = reporting.arch_dir_report(
archive.get_archdir_freebytes(dir_cfg['archive']), n_cols,
arch_prefix)
if not arch_report:
arch_report = '<no archive dir info>'
else:
arch_report = '<archiving not configured>'
tmp_h = max(len(tmp_report_1.splitlines()),
len(tmp_report_2.splitlines()))
tmp_w = len(
max(tmp_report_1.splitlines() + tmp_report_2.splitlines(),
key=len)) + 1
dst_h = len(dst_report.splitlines())
dst_w = len(max(dst_report.splitlines(), key=len)) + 1
arch_h = len(arch_report.splitlines()) + 1
arch_w = n_cols
tmpwin_12_gutter = 3
tmpwin_dstwin_gutter = 6
maxtd_h = max([tmp_h, dst_h])
tmpwin_1 = curses.newwin(tmp_h, tmp_w, dirs_pos + int(
(maxtd_h - tmp_h) / 2), 0)
tmpwin_1.addstr(tmp_report_1)
tmpwin_2 = curses.newwin(tmp_h, tmp_w, dirs_pos + int(
(maxtd_h - tmp_h) / 2), tmp_w + tmpwin_12_gutter)
tmpwin_2.addstr(tmp_report_2)
tmpwin_1.chgat(0, 0, curses.A_REVERSE)
tmpwin_2.chgat(0, 0, curses.A_REVERSE)
dstwin = curses.newwin(
dst_h, dst_w, dirs_pos + int((maxtd_h - dst_h) / 2),
2 * tmp_w + tmpwin_12_gutter + tmpwin_dstwin_gutter)
dstwin.addstr(dst_report)
dstwin.chgat(0, 0, curses.A_REVERSE)
#archwin = curses.newwin(arch_h, arch_w, dirs_pos + maxtd_h, 0)
#archwin.addstr(0, 0, 'Archive dirs free space', curses.A_REVERSE)
#archwin.addstr(1, 0, arch_report)
# Log. Could use a pad here instead of managing scrolling ourselves, but
# this seems easier.
log_win.addnstr(
0, 0,
('Log: %d (<up>/<down>/<end> to scroll)\n' % log.get_cur_pos()),
linecap, curses.A_REVERSE)
for i, logline in enumerate(log.cur_slice(logscreen_height - 1)):
log_win.addnstr(i + 1, 0, logline, linecap)
stdscr.noutrefresh()
header_win.noutrefresh()
jobs_win.noutrefresh()
tmpwin_1.noutrefresh()
tmpwin_2.noutrefresh()
dstwin.noutrefresh()
#archwin.noutrefresh()
log_win.noutrefresh()
curses.doupdate()
key = stdscr.getch()
if key == curses.KEY_UP:
log.shift_slice(-1)
pressed_key = 'up'
elif key == curses.KEY_DOWN:
log.shift_slice(1)
pressed_key = 'dwn'
elif key == curses.KEY_END:
log.shift_slice_to_end()
pressed_key = 'end'
elif key == ord('p'):
plotting_active = not plotting_active
pressed_key = 'p'
elif key == ord('a'):
archiving_active = not archiving_active
pressed_key = 'a'
elif key == ord('q'):
break
else:
pressed_key = key
