platypush/platypush/procedure/__init__.py

486 lines
17 KiB
Python

import enum
import logging
import re
from functools import wraps
from queue import LifoQueue
from ..common import exec_wrapper
from ..config import Config
from ..message.request import Request
from ..message.response import Response
logger = logging.getLogger('platypush')
class Statement(enum.Enum):
BREAK = 'break'
CONTINUE = 'continue'
RETURN = 'return'
class Procedure(object):
""" Procedure class. A procedure is a pre-configured list of requests """
def __init__(self, name, _async, requests, args=None, backend=None):
"""
Params:
name -- Procedure name
_async -- Whether the actions in the procedure are supposed to
be executed sequentially or in parallel (True or False)
requests -- List of platypush.message.request.Request objects
"""
self.name = name
self._async = _async
self.requests = requests
self.backend = backend
self.args = args or {}
self._should_return = False
for req in requests:
req.backend = self.backend
@classmethod
def build(cls, name, _async, requests, args=None, backend=None, id=None, procedure_class=None, **kwargs):
reqs = []
for_count = 0
while_count = 0
if_count = 0
if_config = LifoQueue()
procedure_class = procedure_class or cls
key = None
for request_config in requests:
# Check if it's a break/continue/return statement
if isinstance(request_config, str):
reqs.append(Statement(request_config))
continue
# Check if this request is an if-else
if len(request_config.keys()) >= 1:
key = list(request_config.keys())[0]
m = re.match(r'\s*(if)\s+\${(.*)}\s*', key)
if m:
if_count += 1
if_name = '{}__if_{}'.format(name, if_count)
condition = m.group(2)
if_config.put({
'name': if_name,
'_async': False,
'requests': request_config[key],
'condition': condition,
'else_branch': [],
'backend': backend,
'id': id,
})
continue
if key == 'else':
if if_config.empty():
raise RuntimeError('else statement with no ' +
'associated if in {}'.format(name))
conf = if_config.get()
conf['else_branch'] = request_config[key]
if_config.put(conf)
if not if_config.empty():
reqs.append(IfProcedure.build(**(if_config.get())))
if key == 'else':
continue
# Check if this request is a for loop
if len(request_config.keys()) == 1:
key = list(request_config.keys())[0]
m = re.match(r'\s*(fork?)\s+([\w\d_]+)\s+in\s+(.*)\s*', key)
if m:
for_count += 1
loop_name = '{}__for_{}'.format(name, for_count)
# A 'for' loop is synchronous. Declare a 'fork' loop if you
# want to process the elements in the iterable in parallel
_async = True if m.group(1) == 'fork' else False
iterator_name = m.group(2)
iterable = m.group(3)
loop = ForProcedure.build(name=loop_name, _async=_async,
requests=request_config[key],
backend=backend, id=id,
iterator_name=iterator_name,
iterable=iterable)
reqs.append(loop)
continue
# Check if this request is a while loop
if len(request_config.keys()) == 1:
key = list(request_config.keys())[0]
m = re.match(r'\s*while\s+\${(.*)}\s*', key)
if m:
while_count += 1
loop_name = '{}__while_{}'.format(name, while_count)
condition = m.group(1).strip()
loop = WhileProcedure.build(name=loop_name, _async=False,
requests=request_config[key],
condition=condition,
backend=backend, id=id)
reqs.append(loop)
continue
request_config['origin'] = Config.get('device_id')
request_config['id'] = id
if 'target' not in request_config:
request_config['target'] = request_config['origin']
request = Request.build(request_config)
reqs.append(request)
while not if_config.empty():
pending_if = if_config.get()
reqs.append(IfProcedure.build(**pending_if))
# noinspection PyArgumentList
return procedure_class(name=name, _async=_async, requests=reqs, args=args, backend=backend, **kwargs)
@staticmethod
def _find_nearest_loop(stack):
for proc in stack[::-1]:
if isinstance(proc, LoopProcedure):
return proc
raise AssertionError('break/continue statement found outside of a loop')
def execute(self, n_tries=1, __stack__=None, **context):
"""
Execute the requests in the procedure
Params:
n_tries -- Number of tries in case of failure before raising a RuntimeError
"""
if not __stack__:
__stack__ = [self]
else:
__stack__.append(self)
if self.args:
args = self.args.copy()
for k, v in args.items():
v = Request.expand_value_from_context(v, **context)
args[k] = v
context[k] = v
logger.info('Executing procedure {} with arguments {}'.format(self.name, args))
else:
logger.info('Executing procedure {}'.format(self.name))
response = Response()
token = Config.get('token')
for request in self.requests:
if callable(request):
response = request(**context)
continue
if isinstance(request, Statement):
if request == Statement.RETURN:
self._should_return = True
for proc in __stack__:
proc._should_return = True
break
if request in [Statement.BREAK, Statement.CONTINUE]:
loop = self._find_nearest_loop(__stack__)
if request == Statement.BREAK:
loop._should_break = True
else:
loop._should_continue = True
break
if isinstance(self, LoopProcedure):
if self._should_continue or self._should_break:
if self._should_continue:
# noinspection PyAttributeOutsideInit
self._should_continue = False
break
if token:
request.token = token
context['_async'] = self._async
context['n_tries'] = n_tries
response = request.execute(__stack__=__stack__, **context)
if not self._async and response:
if isinstance(response.output, dict):
for k, v in response.output.items():
context[k] = v
context['output'] = response.output
context['errors'] = response.errors
if self._should_return:
break
return response or Response()
class LoopProcedure(Procedure):
"""
Base class while and for/fork loops.
"""
def __init__(self, name, requests, _async=False, args=None, backend=None):
super(). __init__(name=name, _async=_async, requests=requests, args=args, backend=backend)
self._should_break = False
self._should_continue = False
class ForProcedure(LoopProcedure):
"""
Models a loop procedure, which expresses a construct similar to a
for loop in a programming language. The 'for' keyword implies a synchronous
loop, i.e. the nested actions will be executed in sequence. Use 'fork'
instead of 'for' if you want to run the actions in parallel.
Example::
procedure.sync.process_results:
- action: http.get
args:
url: https://some-service/some/json/endpoint
# Example response: { "results": [ {"id":1, "name":"foo"}, {"id":2,"name":"bar"} ]}
- for result in ${results}:
- action: some.custom.action
args:
id: ${result['id']}
name: ${result['name']}
"""
def __init__(self, name, iterator_name, iterable, requests, _async=False, args=None, backend=None):
super(). __init__(name=name, _async=_async, requests=requests, args=args, backend=backend)
self.iterator_name = iterator_name
self.iterable = iterable
def execute(self, _async=None, **context):
try:
iterable = eval(self.iterable)
assert hasattr(iterable, '__iter__'), 'Object of type {} is not iterable: {}'.\
format(type(iterable), iterable)
except Exception as e:
logger.debug(f'Iterable {self.iterable} expansion error: {e}')
iterable = Request.expand_value_from_context(self.iterable, **context)
response = Response()
# noinspection DuplicatedCode
for item in iterable:
if self._should_return:
logger.info('Returning from {}'.format(self.name))
break
if self._should_continue:
self._should_continue = False
logger.info('Continuing loop {}'.format(self.name))
continue
if self._should_break:
self._should_break = False
logger.info('Breaking loop {}'.format(self.name))
break
context[self.iterator_name] = item
response = super().execute(**context)
return response
class WhileProcedure(LoopProcedure):
"""
Models a while loop procedure.
Example::
procedure.process_results:
- action: http.get
args:
url: https://some-service/some/json/endpoint
# Example response: {"id":1, "name":"foo"}}
- while ${output}:
- action: some.custom.action
args:
id: ${id}
name: ${name}
- action: http.get
args:
url: https://some-service/some/json/endpoint
# Example response: {"id":1, "name":"foo"}}
"""
def __init__(self, name, condition, requests, _async=False, args=None, backend=None):
super(). __init__(name=name, _async=_async, requests=requests, args=args, backend=backend)
self.condition = condition
@staticmethod
def _get_context(**context):
for (k, v) in context.items():
try:
context[k] = eval(v)
except Exception as e:
logger.debug(f'Evaluation error for {v}: {e}')
if isinstance(v, str):
# noinspection PyBroadException
try:
context[k] = eval('"{}"'.format(re.sub(r'(^|[^\\])"', '\1\\"', v)))
except Exception as e:
logger.warning('Could not parse value for context variable {}={}'.format(k, v))
logger.warning('Context: {}'.format(context))
logger.exception(e)
return context
# noinspection DuplicatedCode,PyBroadException
def execute(self, _async=None, **context):
response = Response()
context = self._get_context(**context)
for k, v in context.items():
try:
exec('{}={}'.format(k, v))
except Exception as e:
logger.debug(f'Evaluation error: {k}={v}: {e}')
while True:
condition_true = eval(self.condition)
if not condition_true:
break
if self._should_return:
logger.info('Returning from {}'.format(self.name))
break
if self._should_continue:
self._should_continue = False
logger.info('Continuing loop {}'.format(self.name))
continue
if self._should_break:
self._should_break = False
logger.info('Breaking loop {}'.format(self.name))
break
response = super().execute(**context)
if response.output:
if isinstance(response.output, dict):
new_context = self._get_context(**response.output)
for k, v in new_context.items():
try:
exec('{}={}'.format(k, v))
except Exception as e:
logger.debug(f'Evaluation error: {k}={v}: {e}')
return response
# noinspection PyBroadException
class IfProcedure(Procedure):
"""
Models an if-else construct.
Example:
procedure.sync.process_results:
-
action: http.get
args:
url: https://some-service/some/json/endpoint
# Example response: { "sensors": [ {"temperature": 18 } ] }
-
if ${sensors['temperature'] < 20}:
-
action: shell.exec
args:
cmd: '/path/turn_on_heating.sh'
else:
-
action: shell.exec
args:
cmd: '/path/turn_off_heating.sh'
"""
def __init__(self, name, condition, requests, else_branch=None, args=None, backend=None, id=None, **kwargs):
kwargs['_async'] = False
self.condition = condition
self.else_branch = else_branch
reqs = []
for req in requests:
if isinstance(req, dict):
req['origin'] = Config.get('device_id')
req['id'] = id
if 'target' not in req:
req['target'] = req['origin']
req = Request.build(req)
reqs.append(req)
super(). __init__(name=name, requests=reqs, args=args, backend=backend, **kwargs)
@classmethod
def build(cls, name, condition, requests, else_branch=None, args=None, backend=None, id=None, **kwargs):
kwargs['_async'] = False
if else_branch:
else_branch = super().build(name=name+'__else', requests=else_branch,
args=args, backend=backend, id=id,
procedure_class=Procedure, **kwargs)
return super().build(name=name, condition=condition, requests=requests,
else_branch=else_branch, args=args, backend=backend, id=id,
**kwargs)
def execute(self, **context):
for (k, v) in context.items():
try:
exec('{}={}'.format(k, v))
except Exception as e:
logger.debug(f'Evaluation error: {k}={v}: {e}')
if isinstance(v, str):
try:
exec('{}="{}"'.format(k, re.sub(r'(^|[^\\])"', '\1\\"', v)))
except Exception as e:
logger.debug('Could not set context variable {}={}: {}'.format(k, v, str(e)))
logger.debug('Context: {}'.format(context))
condition_true = eval(self.condition)
response = Response()
if condition_true:
response = super().execute(**context)
elif self.else_branch:
response = self.else_branch.execute(**context)
return response
def procedure(f):
f.procedure = True
@wraps(f)
def _execute_procedure(*args, **kwargs):
return exec_wrapper(f, *args, **kwargs)
return _execute_procedure
# vim:sw=4:ts=4:et: