-# $Id$
from types import StringTypes, IntType, LongType
import time
import calendar
+from PLC.Timestamp import Timestamp
from PLC.Faults import *
from PLC.Parameter import Parameter
+
class Row(dict):
"""
Representation of a row in a database table. To use, optionally
if value is not None and hasattr(self, 'validate_' + key):
validate = getattr(self, 'validate_' + key)
self[key] = validate(value)
-
- def separate_types(self, items):
- """
- Separate a list of different typed objects.
- Return a list for each type (ints, strs and dicts)
- """
-
- if isinstance(items, (list, tuple, set)):
- ints = filter(lambda x: isinstance(x, (int, long)), items)
- strs = filter(lambda x: isinstance(x, StringTypes), items)
- dicts = filter(lambda x: isinstance(x, dict), items)
- return (ints, strs, dicts)
- else:
- raise PLCInvalidArgument, "Can only separate list types"
-
-
- def associate(self, *args):
- """
- Provides a means for high level api calls to associate objects
- using low level calls.
- """
- if len(args) < 3:
- raise PLCInvalidArgumentCount, "auth, field, value must be specified"
- elif hasattr(self, 'associate_' + args[1]):
- associate = getattr(self, 'associate_'+args[1])
- associate(*args)
- else:
- raise PLCInvalidArguemnt, "No such associate function associate_%s" % args[1]
-
- def validate_timestamp(self, timestamp, check_future = False):
+ def separate_types(self, items):
"""
- Validates the specified GMT timestamp string (must be in
- %Y-%m-%d %H:%M:%S format) or number (seconds since UNIX epoch,
- i.e., 1970-01-01 00:00:00 GMT). If check_future is True,
- raises an exception if timestamp is not in the future. Returns
- a GMT timestamp string.
+ Separate a list of different typed objects.
+ Return a list for each type (ints, strs and dicts)
"""
- time_format = "%Y-%m-%d %H:%M:%S"
+ if isinstance(items, (list, tuple, set)):
+ ints = filter(lambda x: isinstance(x, (int, long)), items)
+ strs = filter(lambda x: isinstance(x, StringTypes), items)
+ dicts = filter(lambda x: isinstance(x, dict), items)
+ return (ints, strs, dicts)
+ else:
+ raise PLCInvalidArgument, "Can only separate list types"
- if isinstance(timestamp, StringTypes):
- # calendar.timegm() is the inverse of time.gmtime()
- timestamp = calendar.timegm(time.strptime(timestamp, time_format))
- # Human readable timestamp string
- human = time.strftime(time_format, time.gmtime(timestamp))
+ def associate(self, *args):
+ """
+ Provides a means for high level api calls to associate objects
+ using low level calls.
+ """
- if check_future and timestamp < time.time():
- raise PLCInvalidArgument, "'%s' not in the future" % human
+ if len(args) < 3:
+ raise PLCInvalidArgumentCount, "auth, field, value must be specified"
+ elif hasattr(self, 'associate_' + args[1]):
+ associate = getattr(self, 'associate_'+args[1])
+ associate(*args)
+ else:
+ raise PLCInvalidArguemnt, "No such associate function associate_%s" % args[1]
- return human
+ def validate_timestamp (self, timestamp):
+ return Timestamp.sql_validate(timestamp)
def add_object(self, classobj, join_table, columns = None):
"""
assert isinstance(obj, classobj)
assert isinstance(obj, Row)
assert obj.primary_key in obj
- assert join_table in obj.join_tables
+ assert join_table in obj.join_tables
# By default, just insert the primary keys of each object
# into the join table.
if commit:
self.api.db.commit()
-
+
return add
add_object = classmethod(add_object)
"""
Disassociate from the specified object.
"""
-
+
assert isinstance(self, Row)
assert self.primary_key in self
assert join_table in self.join_tables
assert isinstance(obj, Row)
assert obj.primary_key in obj
assert join_table in obj.join_tables
-
+
self_id = self[self.primary_key]
obj_id = obj[obj.primary_key]
-
+
self.api.db.do("DELETE FROM %s WHERE %s = %s AND %s = %s" % \
(join_table,
self.primary_key, self.api.db.param('self_id', self_id),
for this object, and are not marked as a read-only Parameter.
"""
- if obj is None: obj = self
+ if obj is None:
+ obj = self
db_fields = self.api.db.fields(self.table_name)
- return dict ( [ (key,value) for (key,value) in obj.items()
+ return dict ( [ (key, value) for (key, value) in obj.items()
if key in db_fields and
- Row.is_writable(key,value,self.fields) ] )
+ Row.is_writable(key, value, self.fields) ] )
def tag_fields (self, obj=None):
"""
Return the fields of obj that are mentioned in tags
"""
if obj is None: obj=self
-
- return dict ( [ (key,value) for (key,value) in obj.iteritems()
+
+ return dict ( [ (key,value) for (key,value) in obj.iteritems()
if key in self.tags and Row.is_writable(key,value,self.tags) ] )
-
- # takes in input a list of columns, returns 2 dicts and one list
- # fields, tags, rejected
+
+ # takes as input a list of columns, sort native fields from tags
+ # returns 2 dicts and one list : fields, tags, rejected
@classmethod
def parse_columns (cls, columns):
(fields,tags,rejected)=({},{},[])
else: rejected.append(column)
return (fields,tags,rejected)
+ # compute the 'accepts' part of a method, from a list of column names, and a fields dict
+ # use exclude=True to exclude the column names instead
+ # typically accepted_fields (Node.fields,['hostname','model',...])
+ @staticmethod
+ def accepted_fields (update_columns, fields_dict, exclude=False):
+ result={}
+ for (k,v) in fields_dict.iteritems():
+ if (not exclude and k in update_columns) or (exclude and k not in update_columns):
+ result[k]=v
+ return result
+
+ # filter out user-provided fields that are not part of the declared acceptance list
+ # keep it separate from split_fields for simplicity
+ # typically check_fields (<user_provided_dict>,{'hostname':Parameter(str,...),'model':Parameter(..)...})
+ @staticmethod
+ def check_fields (user_dict, accepted_fields):
+# avoid the simple, but silent, version
+# return dict ([ (k,v) for (k,v) in user_dict.items() if k in accepted_fields ])
+ result={}
+ for (k,v) in user_dict.items():
+ if k in accepted_fields: result[k]=v
+ else: raise PLCInvalidArgument ('Trying to set/change unaccepted key %s'%k)
+ return result
+
# given a dict (typically passed to an Update method), we check and sort
# them against a list of dicts, e.g. [Node.fields, Node.related_fields]
# return is a list that contains n+1 dicts, last one has the rejected fields
if field in candidate_dict.keys():
result[i][field]=value
found=True
- break
+ break
if not found: rejected[field]=value
result.append(rejected)
return result
- # compute the accepts part of an update method from a list of column names, and a (list of) fields dict
- @staticmethod
- def accepted_fields (can_update_columns, fields):
- result={}
- if not isinstance(fields,list): fields = [fields]
- for dict in fields:
- for (k,v) in dict.iteritems():
- if k in can_update_columns:
- result[k]=v
- return result
-
### class initialization : create tag-dependent cross view if needed
@classmethod
def tagvalue_view_name (cls, tagname):
@classmethod
def tagvalue_view_create_sql (cls,tagname):
"""
- returns a SQL sentence that creates a view named after the primary_key and tagname,
+ returns a SQL sentence that creates a view named after the primary_key and tagname,
with 2 columns
- (*) column 1: primary_key
+ (*) column 1: primary_key
(*) column 2: actual tag value, renamed into tagname
"""
- if not cls.view_tags_name:
+ if not cls.view_tags_name:
raise Exception, 'WARNING: class %s needs to set view_tags_name'%cls.__name__
table_name=cls.table_name
y = self.db_fields(y)
return dict.__eq__(x, y)
- def sync(self, commit = True, insert = None):
+ # validate becomes optional on sept. 2010
+ # we find it useful to use DeletePerson on duplicated entries
+ def sync(self, commit = True, insert = None, validate=True):
"""
Flush changes back to the database.
"""
# Validate all specified fields
- self.validate()
+ if validate: self.validate()
# Filter out fields that cannot be set or updated directly
db_fields = self.db_fields()
if not self.has_key(self.primary_key) or \
keys == [self.primary_key] or \
insert is True:
-
- # If primary key id is a serial int and it isnt included, get next id
- if self.fields[self.primary_key].type in (IntType, LongType) and \
- self.primary_key not in self:
- pk_id = self.api.db.next_id(self.table_name, self.primary_key)
- self[self.primary_key] = pk_id
- db_fields[self.primary_key] = pk_id
- keys = db_fields.keys()
- values = [self.api.db.param(key, value) for (key, value) in db_fields.items()]
+
+ # If primary key id is a serial int and it isnt included, get next id
+ if self.fields[self.primary_key].type in (IntType, LongType) and \
+ self.primary_key not in self:
+ pk_id = self.api.db.next_id(self.table_name, self.primary_key)
+ self[self.primary_key] = pk_id
+ db_fields[self.primary_key] = pk_id
+ keys = db_fields.keys()
+ values = [self.api.db.param(key, value) for (key, value) in db_fields.items()]
# Insert new row
sql = "INSERT INTO %s (%s) VALUES (%s)" % \
(self.table_name, ", ".join(keys), ", ".join(values))
else:
# Update existing row
columns = ["%s = %s" % (key, value) for (key, value) in zip(keys, values)]
- sql = "UPDATE %s SET " % self.table_name + \
- ", ".join(columns) + \
- " WHERE %s = %s" % \
- (self.primary_key,
- self.api.db.param(self.primary_key, self[self.primary_key]))
+ sql = "UPDATE {} SET {} WHERE {} = {}"\
+ .format(self.table_name,
+ ", ".join(columns),
+ self.primary_key,
+ self.api.db.param(self.primary_key, self[self.primary_key]))
self.api.db.do(sql, db_fields)