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hostlist.py
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hostlist.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
#
# Hostlist library
#
# Copyright (C) 2008 Kent Engström <[email protected]>,
# Thomas Bellman <[email protected]> and
# Pär Andersson <[email protected]>,
# National Supercomputer Centre
#
# Edits for python3: Victor Eijkhout ([email protected])
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
# 02110-1301, USA.
"""Handle hostlist expressions.
This module provides operations to expand and collect hostlist
expressions.
The hostlist expression syntax is the same as in several programs
developed at LLNL (https://computing.llnl.gov/linux/). However in
corner cases the behaviour of this module have not been compared for
compatibility with pdsh/dshbak/SLURM et al.
"""
__version__ = "1.17"
import re
import itertools
# Exception used for error reporting to the caller
class BadHostlist(Exception): pass
# Configuration to guard against ridiculously long expanded lists
MAX_SIZE = 100000
# Hostlist expansion
def expand_hostlist(hostlist, allow_duplicates=False, sort=False):
"""Expand a hostlist expression string to a Python list.
Example: expand_hostlist("n[9-11],d[01-02]") ==>
['n9', 'n10', 'n11', 'd01', 'd02']
Unless allow_duplicates is true, duplicates will be purged
from the results. If sort is true, the output will be sorted.
"""
results = []
bracket_level = 0
part = ""
for c in hostlist + ",":
if c == "," and bracket_level == 0:
# Comma at top level, split!
if part: results.extend(expand_part(part))
part = ""
bad_part = False
else:
part += c
if c == "[": bracket_level += 1
elif c == "]": bracket_level -= 1
if bracket_level > 1:
raise BadHostlist("nested brackets")
elif bracket_level < 0:
raise BadHostlist("unbalanced brackets")
if bracket_level > 0:
raise BadHostlist("unbalanced brackets")
if not allow_duplicates:
results = remove_duplicates(results)
if sort:
results = numerically_sorted(results)
return results
def expand_part(s):
"""Expand a part (e.g. "x[1-2]y[1-3][1-3]") (no outer level commas)."""
# Base case: the empty part expand to the singleton list of ""
if s == "":
return [""]
# Split into:
# 1) prefix string (may be empty)
# 2) rangelist in brackets (may be missing)
# 3) the rest
m = re.match(r'([^,\[]*)(\[[^\]]*\])?(.*)', s)
(prefix, rangelist, rest) = m.group(1,2,3)
# Expand the rest first (here is where we recurse!)
rest_expanded = expand_part(rest)
# Expand our own part
if not rangelist:
# If there is no rangelist, our own contribution is the prefix only
us_expanded = [prefix]
else:
# Otherwise expand the rangelist (adding the prefix before)
us_expanded = expand_rangelist(prefix, rangelist[1:-1])
# Combine our list with the list from the expansion of the rest
# (but guard against too large results first)
if len(us_expanded) * len(rest_expanded) > MAX_SIZE:
raise BadHostlist("results too large")
return [us_part + rest_part
for us_part in us_expanded
for rest_part in rest_expanded]
def expand_rangelist(prefix, rangelist):
""" Expand a rangelist (e.g. "1-10,14"), putting a prefix before."""
# Split at commas and expand each range separately
results = []
for range_ in rangelist.split(","):
results.extend(expand_range(prefix, range_))
return results
def expand_range(prefix, range_):
""" Expand a range (e.g. 1-10 or 14), putting a prefix before."""
# Check for a single number first
m = re.match(r'^[0-9]+$', range_)
if m:
return ["%s%s" % (prefix, range_)]
# Otherwise split low-high
m = re.match(r'^([0-9]+)-([0-9]+)$', range_)
if not m:
raise BadHostlist("bad range")
(s_low, s_high) = m.group(1,2)
low = int(s_low)
high = int(s_high)
width = len(s_low)
if high < low:
raise BadHostlist("start > stop")
elif high - low > MAX_SIZE:
raise BadHostlist("range too large")
results = []
for i in xrange(low, high+1):
results.append("%s%0*d" % (prefix, width, i))
return results
def remove_duplicates(l):
"""Remove duplicates from a list (but keep the order)."""
seen = set()
results = []
for e in l:
if e not in seen:
results.append(e)
seen.add(e)
return results
# Hostlist collection
def collect_hostlist(hosts, silently_discard_bad = False):
"""Collect a hostlist string from a Python list of hosts.
We start grouping from the rightmost numerical part.
Duplicates are removed.
A bad hostname raises an exception (unless silently_discard_bad
is true causing the bad hostname to be silently discarded instead).
"""
# Split hostlist into a list of (host, "") for the iterative part.
# (Also check for bad node names now)
# The idea is to move already collected numerical parts from the
# left side (seen by each loop) to the right side (just copied).
left_right = []
for host in hosts:
# We remove leading and trailing whitespace first, and skip empty lines
host = host.strip()
if host == "": continue
# We cannot accept a host containing any of the three special
# characters in the hostlist syntax (comma and flat brackets)
if re.search(r'[][,]', host):
if silently_discard_bad:
continue
else:
raise BadHostlist("forbidden character")
left_right.append((host, ""))
# Call the iterative function until it says it's done
looping = True
while looping:
left_right, looping = collect_hostlist_1(left_right)
return ",".join([left + right for left, right in left_right])
def collect_hostlist_1(left_right):
"""Collect a hostlist string from a list of hosts (left+right).
The input is a list of tuples (left, right). The left part
is analyzed, while the right part is just passed along
(it can contain already collected range expressions).
"""
# Scan the list of hosts (left+right) and build two things:
# *) a set of all hosts seen (used later)
# *) a list where each host entry is preprocessed for correct sorting
sortlist = []
remaining = set()
for left, right in left_right:
host = left + right
remaining.add(host)
# Match the left part into parts
m = re.match(r'^(.*?)([0-9]+)?([^0-9]*)$', left)
(prefix, num_str, suffix) = m.group(1,2,3)
# Add the right part unprocessed to the suffix.
# This ensures than an already computed range expression
# in the right part is not analyzed again.
suffix = suffix + right
if num_str is None:
# A left part with no numeric part at all gets special treatment!
# The regexp matches with the whole string as the suffix,
# with nothing in the prefix or numeric parts.
# We do not want that, so we move it to the prefix and put
# None as a special marker where the suffix should be.
assert prefix == ""
sortlist.append(((host, None), None, None, host))
else:
# A left part with at least an numeric part
# (we care about the rightmost numeric part)
num_int = int(num_str)
num_width = len(num_str) # This width includes leading zeroes
sortlist.append(((prefix, suffix), num_int, num_width, host))
# Sort lexicographically, first on prefix, then on suffix, then on
# num_int (numerically), then...
# This determines the order of the final result.
sortlist.sort()
# We are ready to collect the result parts as a list of new (left,
# right) tuples.
results = []
needs_another_loop = False
# Now group entries with the same prefix+suffix combination (the
# key is the first element in the sortlist) to loop over them and
# then to loop over the list of hosts sharing the same
# prefix+suffix combination.
for ((prefix, suffix), group) in itertools.groupby(sortlist,
key=lambda x:x[0]):
if suffix is None:
# Special case: a host with no numeric part
results.append(("", prefix)) # Move everything to the right part
remaining.remove(prefix)
else:
# The general case. We prepare to collect a list of
# ranges expressed as (low, high, width) for later
# formatting.
range_list = []
for ((prefix2, suffix2), num_int, num_width, host) in group:
if host not in remaining:
# Below, we will loop internally to enumate a whole range
# at a time. We then remove the covered hosts from the set.
# Therefore, skip the host here if it is gone from the set.
continue
assert num_int is not None
# Scan for a range starting at the current host
low = num_int
while True:
host = "%s%0*d%s" % (prefix, num_width, num_int, suffix)
if host in remaining:
remaining.remove(host)
num_int += 1
else:
break
high = num_int - 1
assert high >= low
range_list.append((low, high, num_width))
# We have a list of ranges to format. We make sure
# we move our handled numerical part to the right to
# stop it from being processed again.
needs_another_loop = True
if len(range_list) == 1 and range_list[0][0] == range_list[0][1]:
# Special case to make sure that n1 is not shown as n[1] etc
results.append((prefix,
"%0*d%s" %
(range_list[0][2], range_list[0][0], suffix)))
else:
# General case where high > low
results.append((prefix, "[" + \
",".join([format_range(l, h, w)
for l, h, w in range_list]) + \
"]" + suffix))
# At this point, the set of remaining hosts should be empty and we
# are ready to return the result, together with the flag that says
# if we need to loop again (we do if we have added something to a
# left part).
assert not remaining
return results, needs_another_loop
def format_range(low, high, width):
"""Format a range from low to high inclusively, with a certain width."""
if low == high:
return "%0*d" % (width, low)
else:
return "%0*d-%0*d" % (width, low, width, high)
# Sort a list of hosts numerically
def numerically_sorted(l):
"""Sort a list of hosts numerically.
E.g. sorted order should be n1, n2, n10; not n1, n10, n2.
"""
return sorted(l, key=numeric_sort_key)
nsk_re = re.compile("([0-9]+)|([^0-9]+)")
def numeric_sort_key(x):
return [handle_int_nonint(i_ni) for i_ni in nsk_re.findall(x)]
def handle_int_nonint(int_nonint_tuple):
if int_nonint_tuple[0]:
return int(int_nonint_tuple[0])
else:
return int_nonint_tuple[1]
# Parse SLURM_TASKS_PER_NODE into a list of task numbers
#
# Description from the SLURM sbatch man page:
# Number of tasks to be initiated on each node. Values
# are comma separated and in the same order as
# SLURM_NODELIST. If two or more consecutive nodes are
# to have the same task count, that count is followed by
# "(x#)" where "#" is the repetition count. For example,
# "SLURM_TASKS_PER_NODE=2(x3),1" indicates that the first
# three nodes will each execute three tasks and the
# fourth node will execute one task.
def parse_slurm_tasks_per_node(s):
res = []
for part in s.split(","):
m = re.match(r'^([0-9]+)(\(x([0-9]+)\))?$', part)
if m:
tasks = int(m.group(1))
repetitions = m.group(3)
if repetitions is None:
repetitions = 1
else:
repetitions = int(repetitions)
if repetitions > MAX_SIZE:
raise BadHostlist("task list repetitions too large")
for i in range(repetitions):
res.append(tasks)
else:
raise BadHostlist("bad task list syntax")
return res
#
# Keep this part to tell users where the command line interface went
#
if __name__ == '__main__':
import os, sys
sys.stderr.write("The command line utility has been moved to a separate 'hostlist' program.\n")
sys.exit(os.EX_USAGE)