-# The MIT License (MIT)
+# SPDX-License-Identifier: MIT
#
# Copyright (c) 2017 Philippe Proulx <pproulx@efficios.com>
-#
-# Permission is hereby granted, free of charge, to any person obtaining a copy
-# of this software and associated documentation files (the "Software"), to deal
-# in the Software without restriction, including without limitation the rights
-# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-# copies of the Software, and to permit persons to whom the Software is
-# furnished to do so, subject to the following conditions:
-#
-# The above copyright notice and this permission notice shall be included in
-# all copies or substantial portions of the Software.
-#
-# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
-# THE SOFTWARE.
from bt2 import utils, native_bt
import bt2
import itertools
from bt2 import message_iterator as bt2_message_iterator
-from bt2 import logging as bt2_logging
from bt2 import port as bt2_port
from bt2 import component as bt2_component
from bt2 import value as bt2_value
class _BaseComponentSpec:
+ # Base for any component spec that can be passed to
+ # TraceCollectionMessageIterator.
def __init__(self, params, obj, logging_level):
if logging_level is not None:
utils._check_log_level(logging_level)
class ComponentSpec(_BaseComponentSpec):
+ # A component spec with a specific component class.
def __init__(
self,
- plugin_name,
- class_name,
+ component_class,
params=None,
obj=None,
- logging_level=bt2_logging.LoggingLevel.NONE,
+ logging_level=bt2.LoggingLevel.NONE,
):
if type(params) is str:
params = {'inputs': [params]}
super().__init__(params, obj, logging_level)
- utils._check_str(plugin_name)
- utils._check_str(class_name)
+ is_cc_object = isinstance(
+ component_class,
+ (bt2._SourceComponentClassConst, bt2._FilterComponentClassConst),
+ )
+ is_user_cc_type = isinstance(
+ component_class, bt2_component._UserComponentType
+ ) and issubclass(
+ component_class, (bt2._UserSourceComponent, bt2._UserFilterComponent)
+ )
+
+ if not is_cc_object and not is_user_cc_type:
+ raise TypeError(
+ "'{}' is not a source or filter component class".format(
+ component_class.__class__.__name__
+ )
+ )
- self._plugin_name = plugin_name
- self._class_name = class_name
+ self._component_class = component_class
@property
- def plugin_name(self):
- return self._plugin_name
+ def component_class(self):
+ return self._component_class
- @property
- def class_name(self):
- return self._class_name
+ @classmethod
+ def from_named_plugin_and_component_class(
+ cls,
+ plugin_name,
+ component_class_name,
+ params=None,
+ obj=None,
+ logging_level=bt2.LoggingLevel.NONE,
+ ):
+ plugin = bt2.find_plugin(plugin_name)
+
+ if plugin is None:
+ raise ValueError('no such plugin: {}'.format(plugin_name))
+
+ if component_class_name in plugin.source_component_classes:
+ comp_class = plugin.source_component_classes[component_class_name]
+ elif component_class_name in plugin.filter_component_classes:
+ comp_class = plugin.filter_component_classes[component_class_name]
+ else:
+ raise KeyError(
+ 'source or filter component class `{}` not found in plugin `{}`'.format(
+ component_class_name, plugin_name
+ )
+ )
+
+ return cls(comp_class, params, obj, logging_level)
class AutoSourceComponentSpec(_BaseComponentSpec):
+ # A component spec that does automatic source discovery.
_no_obj = object()
def __init__(self, input, params=None, obj=_no_obj, logging_level=None):
comp_specs_raw = res['results']
assert type(comp_specs_raw) == bt2.ArrayValue
+ used_input_indices = set()
+
for comp_spec_raw in comp_specs_raw:
assert type(comp_spec_raw) == bt2.ArrayValue
assert len(comp_spec_raw) == 4
if orig_spec.obj is not AutoSourceComponentSpec._no_obj:
obj = orig_spec.obj
+ used_input_indices.add(int(idx))
+
params['inputs'] = comp_inputs
comp_specs.append(
- ComponentSpec(
+ ComponentSpec.from_named_plugin_and_component_class(
plugin_name,
class_name,
params=params,
)
)
+ if len(used_input_indices) != len(inputs):
+ unused_input_indices = set(range(len(inputs))) - used_input_indices
+ unused_input_indices = sorted(unused_input_indices)
+ unused_inputs = [str(inputs[x]) for x in unused_input_indices]
+
+ msg = (
+ 'Some auto source component specs did not produce any component: '
+ + ', '.join(unused_inputs)
+ )
+ raise RuntimeError(msg)
+
return comp_specs
return int(s * 1e9)
-class _CompClsType:
- SOURCE = 0
- FILTER = 1
-
-
class _TraceCollectionMessageIteratorProxySink(bt2_component._UserSinkComponent):
- def __init__(self, params, msg_list):
+ def __init__(self, config, params, msg_list):
assert type(msg_list) is list
self._msg_list = msg_list
self._add_input_port('in')
def _user_graph_is_configured(self):
- self._msg_iter = self._create_input_port_message_iterator(
- self._input_ports['in']
- )
+ self._msg_iter = self._create_message_iterator(self._input_ports['in'])
def _user_consume(self):
assert self._msg_list[0] is None
self._build_graph()
+ def _compute_stream_intersections(self):
+ # Pre-compute the trimmer range to use for each port in the graph, when
+ # stream intersection mode is enabled.
+ self._stream_inter_port_to_range = {}
+
+ for src_comp_and_spec in self._src_comps_and_specs:
+ # Query the port's component for the `babeltrace.trace-infos`
+ # object which contains the range for each stream, from which we can
+ # compute the intersection of the streams in each trace.
+ query_exec = bt2.QueryExecutor(
+ src_comp_and_spec.spec.component_class,
+ 'babeltrace.trace-infos',
+ src_comp_and_spec.spec.params,
+ )
+ trace_infos = query_exec.query()
+
+ for trace_info in trace_infos:
+ begin = max(
+ [
+ stream['range-ns']['begin']
+ for stream in trace_info['stream-infos']
+ ]
+ )
+ end = min(
+ [stream['range-ns']['end'] for stream in trace_info['stream-infos']]
+ )
+
+ # Each port associated to this trace will have this computed
+ # range.
+ for stream in trace_info['stream-infos']:
+ # A port name is unique within a component, but not
+ # necessarily across all components. Use a component
+ # and port name pair to make it unique across the graph.
+ port_name = str(stream['port-name'])
+ key = (src_comp_and_spec.comp.addr, port_name)
+ self._stream_inter_port_to_range[key] = (begin, end)
+
def _validate_source_component_specs(self, comp_specs):
for comp_spec in comp_specs:
if (
return msg
def _create_stream_intersection_trimmer(self, component, port):
- # find the original parameters specified by the user to create
- # this port's component to get the `inputs` parameter
- for src_comp_and_spec in self._src_comps_and_specs:
- if component == src_comp_and_spec.comp:
- break
-
- try:
- inputs = src_comp_and_spec.spec.params['inputs']
- except Exception as e:
- raise ValueError(
- 'all source components must be created with an "inputs" parameter in stream intersection mode'
- ) from e
-
- params = {'inputs': inputs}
-
- # query the port's component for the `babeltrace.trace-info`
- # object which contains the stream intersection range for each
- # exposed trace
- query_exec = bt2.QueryExecutor(
- src_comp_and_spec.comp.cls, 'babeltrace.trace-info', params
- )
- trace_info_res = query_exec.query()
- begin = None
- end = None
-
- # find the trace info for this port's trace
- try:
- for trace_info in trace_info_res:
- for stream in trace_info['streams']:
- if stream['port-name'] == port.name:
- range_ns = trace_info['intersection-range-ns']
- begin = range_ns['begin']
- end = range_ns['end']
- break
- except Exception:
- pass
-
- if begin is None or end is None:
- raise RuntimeError(
- 'cannot find stream intersection range for port "{}"'.format(port.name)
- )
-
- name = 'trimmer-{}-{}'.format(src_comp_and_spec.comp.name, port.name)
+ key = (component.addr, port.name)
+ begin, end = self._stream_inter_port_to_range[key]
+ name = 'trimmer-{}-{}'.format(component.name, port.name)
return self._create_trimmer(begin, end, name)
def _create_muxer(self):
comp_cls = plugin.filter_component_classes['trimmer']
return self._graph.add_component(comp_cls, name, params)
- def _get_unique_comp_name(self, comp_spec):
- name = '{}-{}'.format(comp_spec.plugin_name, comp_spec.class_name)
+ def _get_unique_comp_name(self, comp_cls):
+ name = comp_cls.name
comps_and_specs = itertools.chain(
self._src_comps_and_specs, self._flt_comps_and_specs
)
return name
- def _create_comp(self, comp_spec, comp_cls_type):
- plugin = bt2.find_plugin(comp_spec.plugin_name)
-
- if plugin is None:
- raise ValueError('no such plugin: {}'.format(comp_spec.plugin_name))
-
- if comp_cls_type == _CompClsType.SOURCE:
- comp_classes = plugin.source_component_classes
- else:
- comp_classes = plugin.filter_component_classes
-
- if comp_spec.class_name not in comp_classes:
- cc_type = 'source' if comp_cls_type == _CompClsType.SOURCE else 'filter'
- raise ValueError(
- 'no such {} component class in "{}" plugin: {}'.format(
- cc_type, comp_spec.plugin_name, comp_spec.class_name
- )
- )
-
- comp_cls = comp_classes[comp_spec.class_name]
- name = self._get_unique_comp_name(comp_spec)
+ def _create_comp(self, comp_spec):
+ comp_cls = comp_spec.component_class
+ name = self._get_unique_comp_name(comp_cls)
comp = self._graph.add_component(
comp_cls, name, comp_spec.params, comp_spec.obj, comp_spec.logging_level
)
if not self._connect_ports:
return
- if type(port) is bt2_port._InputPort:
+ if type(port) is bt2_port._InputPortConst:
return
if component not in [comp.comp for comp in self._src_comps_and_specs]:
self._connect_src_comp_port(component, port)
+ def _get_greatest_operative_mip_version(self):
+ def append_comp_specs_descriptors(descriptors, comp_specs):
+ for comp_spec in comp_specs:
+ descriptors.append(
+ bt2.ComponentDescriptor(
+ comp_spec.component_class, comp_spec.params, comp_spec.obj
+ )
+ )
+
+ descriptors = []
+ append_comp_specs_descriptors(descriptors, self._src_comp_specs)
+ append_comp_specs_descriptors(descriptors, self._flt_comp_specs)
+
+ if self._stream_intersection_mode:
+ # we also need at least one `flt.utils.trimmer` component
+ comp_spec = ComponentSpec.from_named_plugin_and_component_class(
+ 'utils', 'trimmer'
+ )
+ append_comp_specs_descriptors(descriptors, [comp_spec])
+
+ mip_version = bt2.get_greatest_operative_mip_version(descriptors)
+
+ if mip_version is None:
+ msg = 'failed to find an operative message interchange protocol version (components are not interoperable)'
+ raise RuntimeError(msg)
+
+ return mip_version
+
def _build_graph(self):
- self._graph = bt2.Graph()
+ self._graph = bt2.Graph(self._get_greatest_operative_mip_version())
self._graph.add_port_added_listener(self._graph_port_added)
self._muxer_comp = self._create_muxer()
# create extra filter components (chained)
for comp_spec in self._flt_comp_specs:
- comp = self._create_comp(comp_spec, _CompClsType.FILTER)
+ comp = self._create_comp(comp_spec)
self._flt_comps_and_specs.append(_ComponentAndSpec(comp, comp_spec))
# connect the extra filter chain
# it does not exist yet (it needs the created component to
# exist).
for comp_spec in self._src_comp_specs:
- comp = self._create_comp(comp_spec, _CompClsType.SOURCE)
+ comp = self._create_comp(comp_spec)
self._src_comps_and_specs.append(_ComponentAndSpec(comp, comp_spec))
+ if self._stream_intersection_mode:
+ self._compute_stream_intersections()
+
# Now we connect the ports which exist at this point. We allow
# self._graph_port_added() to automatically connect _new_ ports.
self._connect_ports = True