/usr/lib/python2.7/dist-packages/ceph_argparse.py is in python-ceph 0.79-0ubuntu1.
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The actual contents of the file can be viewed below.
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Types and routines used by the ceph CLI as well as the RESTful
interface. These have to do with querying the daemons for
command-description information, validating user command input against
those descriptions, and submitting the command to the appropriate
daemon.
Copyright (C) 2013 Inktank Storage, Inc.
LGPL2. See file COPYING.
"""
import copy
import json
import os
import pprint
import re
import socket
import stat
import sys
import types
import uuid
class ArgumentError(Exception):
"""
Something wrong with arguments
"""
pass
class ArgumentNumber(ArgumentError):
"""
Wrong number of a repeated argument
"""
pass
class ArgumentFormat(ArgumentError):
"""
Argument value has wrong format
"""
pass
class ArgumentValid(ArgumentError):
"""
Argument value is otherwise invalid (doesn't match choices, for instance)
"""
pass
class ArgumentTooFew(ArgumentError):
"""
Fewer arguments than descriptors in signature; may mean to continue
the search, so gets a special exception type
"""
class ArgumentPrefix(ArgumentError):
"""
Special for mismatched prefix; less severe, don't report by default
"""
pass
class JsonFormat(Exception):
"""
some syntactic or semantic issue with the JSON
"""
pass
class CephArgtype(object):
"""
Base class for all Ceph argument types
Instantiating an object sets any validation parameters
(allowable strings, numeric ranges, etc.). The 'valid'
method validates a string against that initialized instance,
throwing ArgumentError if there's a problem.
"""
def __init__(self, **kwargs):
"""
set any per-instance validation parameters here
from kwargs (fixed string sets, integer ranges, etc)
"""
pass
def valid(self, s, partial=False):
"""
Run validation against given string s (generally one word);
partial means to accept partial string matches (begins-with).
If cool, set self.val to the value that should be returned
(a copy of the input string, or a numeric or boolean interpretation
thereof, for example)
if not, throw ArgumentError(msg-as-to-why)
"""
self.val = s
def __repr__(self):
"""
return string representation of description of type. Note,
this is not a representation of the actual value. Subclasses
probably also override __str__() to give a more user-friendly
'name/type' description for use in command format help messages.
"""
a = ''
if hasattr(self, 'typeargs'):
a = self.typeargs
return '{0}(\'{1}\')'.format(self.__class__.__name__, a)
def __str__(self):
"""
where __repr__ (ideally) returns a string that could be used to
reproduce the object, __str__ returns one you'd like to see in
print messages. Use __str__ to format the argtype descriptor
as it would be useful in a command usage message.
"""
return '<{0}>'.format(self.__class__.__name__)
class CephInt(CephArgtype):
"""
range-limited integers, [+|-][0-9]+ or 0x[0-9a-f]+
range: list of 1 or 2 ints, [min] or [min,max]
"""
def __init__(self, range=''):
if range == '':
self.range = list()
else:
self.range = list(range.split('|'))
self.range = map(long, self.range)
def valid(self, s, partial=False):
try:
val = long(s)
except ValueError:
raise ArgumentValid("{0} doesn't represent an int".format(s))
if len(self.range) == 2:
if val < self.range[0] or val > self.range[1]:
raise ArgumentValid("{0} not in range {1}".format(val, self.range))
elif len(self.range) == 1:
if val < self.range[0]:
raise ArgumentValid("{0} not in range {1}".format(val, self.range))
self.val = val
def __str__(self):
r = ''
if len(self.range) == 1:
r = '[{0}-]'.format(self.range[0])
if len(self.range) == 2:
r = '[{0}-{1}]'.format(self.range[0], self.range[1])
return '<int{0}>'.format(r)
class CephFloat(CephArgtype):
"""
range-limited float type
range: list of 1 or 2 floats, [min] or [min, max]
"""
def __init__(self, range=''):
if range == '':
self.range = list()
else:
self.range = list(range.split('|'))
self.range = map(float, self.range)
def valid(self, s, partial=False):
try:
val = float(s)
except ValueError:
raise ArgumentValid("{0} doesn't represent a float".format(s))
if len(self.range) == 2:
if val < self.range[0] or val > self.range[1]:
raise ArgumentValid("{0} not in range {1}".format(val, self.range))
elif len(self.range) == 1:
if val < self.range[0]:
raise ArgumentValid("{0} not in range {1}".format(val, self.range))
self.val = val
def __str__(self):
r = ''
if len(self.range) == 1:
r = '[{0}-]'.format(self.range[0])
if len(self.range) == 2:
r = '[{0}-{1}]'.format(self.range[0], self.range[1])
return '<float{0}>'.format(r)
class CephString(CephArgtype):
"""
String; pretty generic. goodchars is a RE char class of valid chars
"""
def __init__(self, goodchars=''):
from string import printable
try:
re.compile(goodchars)
except:
raise ValueError('CephString(): "{0}" is not a valid RE'.\
format(goodchars))
self.goodchars = goodchars
self.goodset = frozenset(
[c for c in printable if re.match(goodchars, c)]
)
def valid(self, s, partial=False):
sset = set(s)
if self.goodset and not sset <= self.goodset:
raise ArgumentFormat("invalid chars {0} in {1}".\
format(''.join(sset - self.goodset), s))
self.val = s
def __str__(self):
b = ''
if self.goodchars:
b += '(goodchars {0})'.format(self.goodchars)
return '<string{0}>'.format(b)
class CephSocketpath(CephArgtype):
"""
Admin socket path; check that it's readable and S_ISSOCK
"""
def valid(self, s, partial=False):
mode = os.stat(s).st_mode
if not stat.S_ISSOCK(mode):
raise ArgumentValid('socket path {0} is not a socket'.format(s))
self.val = s
def __str__(self):
return '<admin-socket-path>'
class CephIPAddr(CephArgtype):
"""
IP address (v4 or v6) with optional port
"""
def valid(self, s, partial=False):
# parse off port, use socket to validate addr
type = 6
if s.startswith('['):
type = 6
elif s.find('.') != -1:
type = 4
if type == 4:
port = s.find(':')
if (port != -1):
a = s[:port]
p = s[port+1:]
if int(p) > 65535:
raise ArgumentValid('{0}: invalid IPv4 port'.format(p))
else:
a = s
p = None
try:
socket.inet_pton(socket.AF_INET, a)
except:
raise ArgumentValid('{0}: invalid IPv4 address'.format(a))
else:
# v6
if s.startswith('['):
end = s.find(']')
if end == -1:
raise ArgumentFormat('{0} missing terminating ]'.format(s))
if s[end+1] == ':':
try:
p = int(s[end+2])
except:
raise ArgumentValid('{0}: bad port number'.format(s))
a = s[1:end]
else:
a = s
p = None
try:
socket.inet_pton(socket.AF_INET6, a)
except:
raise ArgumentValid('{0} not valid IPv6 address'.format(s))
if p is not None and long(p) > 65535:
raise ArgumentValid("{0} not a valid port number".format(p))
self.val = s
self.addr = a
self.port = p
def __str__(self):
return '<IPaddr[:port]>'
class CephEntityAddr(CephIPAddr):
"""
EntityAddress, that is, IP address[/nonce]
"""
def valid(self, s, partial=False):
nonce = None
if '/' in s:
ip, nonce = s.split('/')
else:
ip = s
super(self.__class__, self).valid(ip)
if nonce:
nonce_long = None
try:
nonce_long = long(nonce)
except ValueError:
pass
if nonce_long is None or nonce_long < 0:
raise ArgumentValid(
'{0}: invalid entity, nonce {1} not integer > 0'.\
format(s, nonce)
)
self.val = s
def __str__(self):
return '<EntityAddr>'
class CephPoolname(CephArgtype):
"""
Pool name; very little utility
"""
def __str__(self):
return '<poolname>'
class CephObjectname(CephArgtype):
"""
Object name. Maybe should be combined with Pool name as they're always
present in pairs, and then could be checked for presence
"""
def __str__(self):
return '<objectname>'
class CephPgid(CephArgtype):
"""
pgid, in form N.xxx (N = pool number, xxx = hex pgnum)
"""
def valid(self, s, partial=False):
if s.find('.') == -1:
raise ArgumentFormat('pgid has no .')
poolid, pgnum = s.split('.')
if poolid < 0:
raise ArgumentFormat('pool {0} < 0'.format(poolid))
try:
pgnum = int(pgnum, 16)
except:
raise ArgumentFormat('pgnum {0} not hex integer'.format(pgnum))
self.val = s
def __str__(self):
return '<pgid>'
class CephName(CephArgtype):
"""
Name (type.id) where:
type is osd|mon|client|mds
id is a base10 int, if type == osd, or a string otherwise
Also accept '*'
"""
def __init__(self):
self.nametype = None
self.nameid = None
def valid(self, s, partial=False):
if s == '*':
self.val = s
return
if s.find('.') == -1:
raise ArgumentFormat('CephName: no . in {0}'.format(s))
else:
t, i = s.split('.')
if not t in ('osd', 'mon', 'client', 'mds'):
raise ArgumentValid('unknown type ' + t)
if t == 'osd':
if i != '*':
try:
i = int(i)
except:
raise ArgumentFormat('osd id ' + i + ' not integer')
self.nametype = t
self.val = s
self.nameid = i
def __str__(self):
return '<name (type.id)>'
class CephOsdName(CephArgtype):
"""
Like CephName, but specific to osds: allow <id> alone
osd.<id>, or <id>, or *, where id is a base10 int
"""
def __init__(self):
self.nametype = None
self.nameid = None
def valid(self, s, partial=False):
if s == '*':
self.val = s
return
if s.find('.') != -1:
t, i = s.split('.')
if t != 'osd':
raise ArgumentValid('unknown type ' + t)
else:
t = 'osd'
i = s
try:
i = int(i)
except:
raise ArgumentFormat('osd id ' + i + ' not integer')
self.nametype = t
self.nameid = i
self.val = i
def __str__(self):
return '<osdname (id|osd.id)>'
class CephChoices(CephArgtype):
"""
Set of string literals; init with valid choices
"""
def __init__(self, strings='', **kwargs):
self.strings = strings.split('|')
def valid(self, s, partial=False):
if not partial:
if not s in self.strings:
# show as __str__ does: {s1|s2..}
raise ArgumentValid("{0} not in {1}".format(s, self))
self.val = s
return
# partial
for t in self.strings:
if t.startswith(s):
self.val = s
return
raise ArgumentValid("{0} not in {1}". format(s, self))
def __str__(self):
if len(self.strings) == 1:
return '{0}'.format(self.strings[0])
else:
return '{0}'.format('|'.join(self.strings))
class CephFilepath(CephArgtype):
"""
Openable file
"""
def valid(self, s, partial=False):
try:
f = open(s, 'a+')
except Exception as e:
raise ArgumentValid('can\'t open {0}: {1}'.format(s, e))
f.close()
self.val = s
def __str__(self):
return '<outfilename>'
class CephFragment(CephArgtype):
"""
'Fragment' ??? XXX
"""
def valid(self, s, partial=False):
if s.find('/') == -1:
raise ArgumentFormat('{0}: no /'.format(s))
val, bits = s.split('/')
# XXX is this right?
if not val.startswith('0x'):
raise ArgumentFormat("{0} not a hex integer".format(val))
try:
long(val)
except:
raise ArgumentFormat('can\'t convert {0} to integer'.format(val))
try:
long(bits)
except:
raise ArgumentFormat('can\'t convert {0} to integer'.format(bits))
self.val = s
def __str__(self):
return "<CephFS fragment ID (0xvvv/bbb)>"
class CephUUID(CephArgtype):
"""
CephUUID: pretty self-explanatory
"""
def valid(self, s, partial=False):
try:
uuid.UUID(s)
except Exception as e:
raise ArgumentFormat('invalid UUID {0}: {1}'.format(s, e))
self.val = s
def __str__(self):
return '<uuid>'
class CephPrefix(CephArgtype):
"""
CephPrefix: magic type for "all the first n fixed strings"
"""
def __init__(self, prefix=''):
self.prefix = prefix
def valid(self, s, partial=False):
if partial:
if self.prefix.startswith(s):
self.val = s
return
else:
if (s == self.prefix):
self.val = s
return
raise ArgumentPrefix("no match for {0}".format(s))
def __str__(self):
return self.prefix
class argdesc(object):
"""
argdesc(typename, name='name', n=numallowed|N,
req=False, helptext=helptext, **kwargs (type-specific))
validation rules:
typename: type(**kwargs) will be constructed
later, type.valid(w) will be called with a word in that position
name is used for parse errors and for constructing JSON output
n is a numeric literal or 'n|N', meaning "at least one, but maybe more"
req=False means the argument need not be present in the list
helptext is the associated help for the command
anything else are arguments to pass to the type constructor.
self.instance is an instance of type t constructed with typeargs.
valid() will later be called with input to validate against it,
and will store the validated value in self.instance.val for extraction.
"""
def __init__(self, t, name=None, n=1, req=True, **kwargs):
if isinstance(t, types.StringTypes):
self.t = CephPrefix
self.typeargs = {'prefix':t}
self.req = True
else:
self.t = t
self.typeargs = kwargs
self.req = bool(req == True or req == 'True')
self.name = name
self.N = (n in ['n', 'N'])
if self.N:
self.n = 1
else:
self.n = int(n)
self.instance = self.t(**self.typeargs)
def __repr__(self):
r = 'argdesc(' + str(self.t) + ', '
internals = ['N', 'typeargs', 'instance', 't']
for (k, v) in self.__dict__.iteritems():
if k.startswith('__') or k in internals:
pass
else:
# undo modification from __init__
if k == 'n' and self.N:
v = 'N'
r += '{0}={1}, '.format(k, v)
for (k, v) in self.typeargs.iteritems():
r += '{0}={1}, '.format(k, v)
return r[:-2] + ')'
def __str__(self):
if ((self.t == CephChoices and len(self.instance.strings) == 1)
or (self.t == CephPrefix)):
s = str(self.instance)
else:
s = '{0}({1})'.format(self.name, str(self.instance))
if self.N:
s += ' [' + str(self.instance) + '...]'
if not self.req:
s = '{' + s + '}'
return s
def helpstr(self):
"""
like str(), but omit parameter names (except for CephString,
which really needs them)
"""
if self.t == CephString:
chunk = '<{0}>'.format(self.name)
else:
chunk = str(self.instance)
s = chunk
if self.N:
s += ' [' + chunk + '...]'
if not self.req:
s = '{' + s + '}'
return s
def concise_sig(sig):
"""
Return string representation of sig useful for syntax reference in help
"""
return ' '.join([d.helpstr() for d in sig])
def descsort(sh1, sh2):
"""
sort descriptors by prefixes, defined as the concatenation of all simple
strings in the descriptor; this works out to just the leading strings.
"""
return cmp(concise_sig(sh1['sig']), concise_sig(sh2['sig']))
def parse_funcsig(sig):
"""
parse a single descriptor (array of strings or dicts) into a
dict of function descriptor/validators (objects of CephXXX type)
"""
newsig = []
argnum = 0
for desc in sig:
argnum += 1
if isinstance(desc, types.StringTypes):
t = CephPrefix
desc = {'type':t, 'name':'prefix', 'prefix':desc}
else:
# not a simple string, must be dict
if not 'type' in desc:
s = 'JSON descriptor {0} has no type'.format(sig)
raise JsonFormat(s)
# look up type string in our globals() dict; if it's an
# object of type types.TypeType, it must be a
# locally-defined class. otherwise, we haven't a clue.
if desc['type'] in globals():
t = globals()[desc['type']]
if type(t) != types.TypeType:
s = 'unknown type {0}'.format(desc['type'])
raise JsonFormat(s)
else:
s = 'unknown type {0}'.format(desc['type'])
raise JsonFormat(s)
kwargs = dict()
for key, val in desc.items():
if key not in ['type', 'name', 'n', 'req']:
kwargs[key] = val
newsig.append(argdesc(t,
name=desc.get('name', None),
n=desc.get('n', 1),
req=desc.get('req', True),
**kwargs))
return newsig
def parse_json_funcsigs(s, consumer):
"""
A function signature is mostly an array of argdesc; it's represented
in JSON as
{
"cmd001": {"sig":[ "type": type, "name": name, "n": num, "req":true|false <other param>], "help":helptext, "module":modulename, "perm":perms, "avail":availability}
.
.
.
]
A set of sigs is in an dict mapped by a unique number:
{
"cmd1": {
"sig": ["type.. ], "help":helptext...
}
"cmd2"{
"sig": [.. ], "help":helptext...
}
}
Parse the string s and return a dict of dicts, keyed by opcode;
each dict contains 'sig' with the array of descriptors, and 'help'
with the helptext, 'module' with the module name, 'perm' with a
string representing required permissions in that module to execute
this command (and also whether it is a read or write command from
the cluster state perspective), and 'avail' as a hint for
whether the command should be advertised by CLI, REST, or both.
If avail does not contain 'consumer', don't include the command
in the returned dict.
"""
try:
overall = json.loads(s)
except Exception as e:
print >> sys.stderr, "Couldn't parse JSON {0}: {1}".format(s, e)
raise e
sigdict = {}
for cmdtag, cmd in overall.iteritems():
if not 'sig' in cmd:
s = "JSON descriptor {0} has no 'sig'".format(cmdtag)
raise JsonFormat(s)
# check 'avail' and possibly ignore this command
if 'avail' in cmd:
if not consumer in cmd['avail']:
continue
# rewrite the 'sig' item with the argdesc-ized version, and...
cmd['sig'] = parse_funcsig(cmd['sig'])
# just take everything else as given
sigdict[cmdtag] = cmd
return sigdict
def validate_one(word, desc, partial=False):
"""
validate_one(word, desc, partial=False)
validate word against the constructed instance of the type
in desc. May raise exception. If it returns false (and doesn't
raise an exception), desc.instance.val will
contain the validated value (in the appropriate type).
"""
desc.instance.valid(word, partial)
desc.numseen += 1
if desc.N:
desc.n = desc.numseen + 1
def matchnum(args, signature, partial=False):
"""
matchnum(s, signature, partial=False)
Returns number of arguments matched in s against signature.
Can be used to determine most-likely command for full or partial
matches (partial applies to string matches).
"""
words = args[:]
mysig = copy.deepcopy(signature)
matchcnt = 0
for desc in mysig:
setattr(desc, 'numseen', 0)
while desc.numseen < desc.n:
# if there are no more arguments, return
if not words:
return matchcnt
word = words.pop(0)
try:
validate_one(word, desc, partial)
valid = True
except ArgumentError:
# matchnum doesn't care about type of error
valid = False
if not valid:
if not desc.req:
# this wasn't required, so word may match the next desc
words.insert(0, word)
break
else:
# it was required, and didn't match, return
return matchcnt
if desc.req:
matchcnt += 1
return matchcnt
def get_next_arg(desc, args):
'''
Get either the value matching key 'desc.name' or the next arg in
the non-dict list. Return None if args are exhausted. Used in
validate() below.
'''
arg = None
if isinstance(args, dict):
arg = args.pop(desc.name, None)
# allow 'param=param' to be expressed as 'param'
if arg == '':
arg = desc.name
# Hack, or clever? If value is a list, keep the first element,
# push rest back onto myargs for later processing.
# Could process list directly, but nesting here is already bad
if arg and isinstance(arg, list):
args[desc.name] = arg[1:]
arg = arg[0]
elif args:
arg = args.pop(0)
if arg and isinstance(arg, list):
args = arg[1:] + args
arg = arg[0]
return arg
def store_arg(desc, d):
'''
Store argument described by, and held in, thanks to valid(),
desc into the dictionary d, keyed by desc.name. Three cases:
1) desc.N is set: value in d is a list
2) prefix: multiple args are joined with ' ' into one d{} item
3) single prefix or other arg: store as simple value
Used in validate() below.
'''
if desc.N:
# value should be a list
if desc.name in d:
d[desc.name] += [desc.instance.val]
else:
d[desc.name] = [desc.instance.val]
elif (desc.t == CephPrefix) and (desc.name in d):
# prefixes' values should be a space-joined concatenation
d[desc.name] += ' ' + desc.instance.val
else:
# if first CephPrefix or any other type, just set it
d[desc.name] = desc.instance.val
def validate(args, signature, partial=False):
"""
validate(args, signature, partial=False)
args is a list of either words or k,v pairs representing a possible
command input following format of signature. Runs a validation; no
exception means it's OK. Return a dict containing all arguments keyed
by their descriptor name, with duplicate args per name accumulated
into a list (or space-separated value for CephPrefix).
Mismatches of prefix are non-fatal, as this probably just means the
search hasn't hit the correct command. Mismatches of non-prefix
arguments are treated as fatal, and an exception raised.
This matching is modified if partial is set: allow partial matching
(with partial dict returned); in this case, there are no exceptions
raised.
"""
myargs = copy.deepcopy(args)
mysig = copy.deepcopy(signature)
reqsiglen = len([desc for desc in mysig if desc.req])
matchcnt = 0
d = dict()
for desc in mysig:
setattr(desc, 'numseen', 0)
while desc.numseen < desc.n:
myarg = get_next_arg(desc, myargs)
# no arg, but not required? Continue consuming mysig
# in case there are later required args
if not myarg and not desc.req:
break
# out of arguments for a required param?
# Either return (if partial validation) or raise
if not myarg and desc.req:
if desc.N and desc.numseen < 1:
# wanted N, didn't even get 1
if partial:
return d
raise ArgumentNumber(
'saw {0} of {1}, expected at least 1'.\
format(desc.numseen, desc)
)
elif not desc.N and desc.numseen < desc.n:
# wanted n, got too few
if partial:
return d
# special-case the "0 expected 1" case
if desc.numseen == 0 and desc.n == 1:
raise ArgumentNumber(
'missing required parameter {0}'.format(desc)
)
raise ArgumentNumber(
'saw {0} of {1}, expected {2}'.\
format(desc.numseen, desc, desc.n)
)
break
# Have an arg; validate it
try:
validate_one(myarg, desc)
valid = True
except ArgumentError as e:
valid = False
if not valid:
# argument mismatch
if not desc.req:
# if not required, just push back; it might match
# the next arg
print >> sys.stderr, myarg, 'not valid: ', str(e)
myargs.insert(0, myarg)
break
else:
# hm, it was required, so time to return/raise
if partial:
return d
raise e
# Whew, valid arg acquired. Store in dict
matchcnt += 1
store_arg(desc, d)
# Done with entire list of argdescs
if matchcnt < reqsiglen:
raise ArgumentTooFew("not enough arguments given")
if myargs and not partial:
raise ArgumentError("unused arguments: " + str(myargs))
# Finally, success
return d
def cmdsiglen(sig):
sigdict = sig.values()
assert len(sigdict) == 1
return len(sig.values()[0]['sig'])
def validate_command(sigdict, args, verbose=False):
"""
turn args into a valid dictionary ready to be sent off as JSON,
validated against sigdict.
"""
found = []
valid_dict = {}
if args:
# look for best match, accumulate possibles in bestcmds
# (so we can maybe give a more-useful error message)
best_match_cnt = 0
bestcmds = []
for cmdtag, cmd in sigdict.iteritems():
sig = cmd['sig']
matched = matchnum(args, sig, partial=True)
if (matched > best_match_cnt):
if verbose:
print >> sys.stderr, \
"better match: {0} > {1}: {2}:{3} ".format(matched,
best_match_cnt, cmdtag, concise_sig(sig))
best_match_cnt = matched
bestcmds = [{cmdtag:cmd}]
elif matched == best_match_cnt:
if verbose:
print >> sys.stderr, \
"equal match: {0} > {1}: {2}:{3} ".format(matched,
best_match_cnt, cmdtag, concise_sig(sig))
bestcmds.append({cmdtag:cmd})
# Sort bestcmds by number of args so we can try shortest first
# (relies on a cmdsig being key,val where val is a list of len 1)
bestcmds_sorted = sorted(bestcmds,
cmp=lambda x,y:cmp(cmdsiglen(x), cmdsiglen(y)))
if verbose:
print >> sys.stderr, "bestcmds_sorted: "
pprint.PrettyPrinter(stream=sys.stderr).pprint(bestcmds_sorted)
# for everything in bestcmds, look for a true match
for cmdsig in bestcmds_sorted:
for cmd in cmdsig.itervalues():
sig = cmd['sig']
try:
valid_dict = validate(args, sig)
found = cmd
break
except ArgumentPrefix:
# ignore prefix mismatches; we just haven't found
# the right command yet
pass
except ArgumentTooFew:
# It looked like this matched the beginning, but it
# didn't have enough args supplied. If we're out of
# cmdsigs we'll fall out unfound; if we're not, maybe
# the next one matches completely. Whine, but pass.
if verbose:
print >> sys.stderr, 'Not enough args supplied for ', \
concise_sig(sig)
except ArgumentError as e:
# Solid mismatch on an arg (type, range, etc.)
# Stop now, because we have the right command but
# some other input is invalid
print >> sys.stderr, "Invalid command: ", str(e)
print >> sys.stderr, concise_sig(sig), ': ', cmd['help']
return {}
if found:
break
if not found:
print >> sys.stderr, 'no valid command found; 10 closest matches:'
for cmdsig in bestcmds[:10]:
for (cmdtag, cmd) in cmdsig.iteritems():
print >> sys.stderr, concise_sig(cmd['sig'])
return None
return valid_dict
def find_cmd_target(childargs):
"""
Using a minimal validation, figure out whether the command
should be sent to a monitor or an osd. We do this before even
asking for the 'real' set of command signatures, so we can ask the
right daemon.
Returns ('osd', osdid), ('pg', pgid), or ('mon', '')
"""
sig = parse_funcsig(['tell', {'name':'target', 'type':'CephName'}])
try:
valid_dict = validate(childargs, sig, partial=True)
except ArgumentError:
pass
else:
if len(valid_dict) == 2:
# revalidate to isolate type and id
name = CephName()
# if this fails, something is horribly wrong, as it just
# validated successfully above
name.valid(valid_dict['target'])
return name.nametype, name.nameid
sig = parse_funcsig(['tell', {'name':'pgid', 'type':'CephPgid'}])
try:
valid_dict = validate(childargs, sig, partial=True)
except ArgumentError:
pass
else:
if len(valid_dict) == 2:
# pg doesn't need revalidation; the string is fine
return 'pg', valid_dict['pgid']
sig = parse_funcsig(['pg', {'name':'pgid', 'type':'CephPgid'}])
try:
valid_dict = validate(childargs, sig, partial=True)
except ArgumentError:
pass
else:
if len(valid_dict) == 2:
return 'pg', valid_dict['pgid']
return 'mon', ''
def send_command(cluster, target=('mon', ''), cmd=None, inbuf='', timeout=0,
verbose=False):
"""
Send a command to a daemon using librados's
mon_command, osd_command, or pg_command. Any bulk input data
comes in inbuf.
Returns (ret, outbuf, outs); ret is the return code, outbuf is
the outbl "bulk useful output" buffer, and outs is any status
or error message (intended for stderr).
If target is osd.N, send command to that osd (except for pgid cmds)
"""
cmd = cmd or []
try:
if target[0] == 'osd':
osdid = target[1]
if verbose:
print >> sys.stderr, 'submit {0} to osd.{1}'.\
format(cmd, osdid)
ret, outbuf, outs = \
cluster.osd_command(osdid, cmd, inbuf, timeout)
elif target[0] == 'pg':
pgid = target[1]
# pgid will already be in the command for the pg <pgid>
# form, but for tell <pgid>, we need to put it in
if cmd:
cmddict = json.loads(cmd[0])
cmddict['pgid'] = pgid
else:
cmddict = dict(pgid=pgid)
cmd = [json.dumps(cmddict)]
if verbose:
print >> sys.stderr, 'submit {0} for pgid {1}'.\
format(cmd, pgid)
ret, outbuf, outs = \
cluster.pg_command(pgid, cmd, inbuf, timeout)
elif target[0] == 'mon':
if verbose:
print >> sys.stderr, '{0} to {1}'.\
format(cmd, target[0])
if target[1] == '':
ret, outbuf, outs = cluster.mon_command(cmd, inbuf, timeout)
else:
ret, outbuf, outs = cluster.mon_command(cmd, inbuf, timeout, target[1])
else:
raise ArgumentValid("Bad target type '{0}'".format(target[0]))
except Exception as e:
if not isinstance(e, ArgumentError):
raise RuntimeError('"{0}": exception {1}'.format(cmd, e))
else:
raise
return ret, outbuf, outs
def json_command(cluster, target=('mon', ''), prefix=None, argdict=None,
inbuf='', timeout=0, verbose=False):
"""
Format up a JSON command and send it with send_command() above.
Prefix may be supplied separately or in argdict. Any bulk input
data comes in inbuf.
If target is osd.N, send command to that osd (except for pgid cmds)
"""
cmddict = {}
if prefix:
cmddict.update({'prefix':prefix})
if argdict:
cmddict.update(argdict)
# grab prefix for error messages
prefix = cmddict['prefix']
try:
if target[0] == 'osd':
osdtarg = CephName()
osdtarget = '{0}.{1}'.format(*target)
# prefer target from cmddict if present and valid
if 'target' in cmddict:
osdtarget = cmddict.pop('target')
try:
osdtarg.valid(osdtarget)
target = ('osd', osdtarg.nameid)
except:
# use the target we were originally given
pass
ret, outbuf, outs = send_command(cluster, target, [json.dumps(cmddict)],
inbuf, timeout, verbose)
except Exception as e:
if not isinstance(e, ArgumentError):
raise RuntimeError('"{0}": exception {1}'.format(cmd, e))
else:
raise
return ret, outbuf, outs
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