blob: cf1f2f3565c671bfac2f186846b27863e0476c80 [file] [log] [blame]
#!/usr/bin/env python3
# Script to generate top level resource collection URIs
# Parses the Redfish schema to determine what are the top level collection URIs
# and writes them to a generated .hpp file as an unordered_set. Also generates
# a map of URIs that contain a top level collection as part of their subtree.
# Those URIs as well as those of their immediate children as written as an
# unordered_map. These URIs are need by Redfish Aggregation
import os
import xml.etree.ElementTree as ET
WARNING = """/****************************************************************
* READ THIS WARNING FIRST
* This is an auto-generated header which contains definitions
* for Redfish DMTF defined schemas.
* DO NOT modify this registry outside of running the
* update_schemas.py script. The definitions contained within
* this file are owned by DMTF. Any modifications to these files
* should be first pushed to the relevant registry in the DMTF
* github organization.
***************************************************************/"""
SCRIPT_DIR = os.path.dirname(os.path.realpath(__file__))
CPP_OUTFILE = os.path.realpath(
os.path.join(
SCRIPT_DIR, "..", "redfish-core", "include", "aggregation_utils.hpp"
)
)
# Odata string types
EDMX = "{http://docs.oasis-open.org/odata/ns/edmx}"
EDM = "{http://docs.oasis-open.org/odata/ns/edm}"
seen_paths = set()
def resolve_filename(xml_file):
for root, dirs, files in os.walk(
os.path.join(SCRIPT_DIR, "..", "redfish-core", "schema")
):
for csdl_file in files:
if csdl_file == xml_file:
return os.path.join(root, csdl_file)
raise Exception(f"Could not resolve {xml_file} in search folders")
def parse_node(target_entitytype, path, top_collections, found_top, xml_file):
filepath = resolve_filename(xml_file)
tree = ET.parse(filepath)
root = tree.getroot()
# Map xml URIs to their associated namespace
xml_map = {}
for ref in root.findall(EDMX + "Reference"):
uri = ref.get("Uri")
if uri is None:
continue
file = uri.split("/").pop()
for inc in ref.findall(EDMX + "Include"):
namespace = inc.get("Namespace")
if namespace is None:
continue
xml_map[namespace] = file
parse_root(
root, target_entitytype, path, top_collections, found_top, xml_map
)
# Given a root node we want to parse the tree to find all instances of a
# specific EntityType. This is a separate routine so that we can rewalk the
# current tree when a NavigationProperty Type links to the current file.
def parse_root(
root, target_entitytype, path, top_collections, found_top, xml_map
):
ds = root.find(EDMX + "DataServices")
for schema in ds.findall(EDM + "Schema"):
for entity_type in schema.findall(EDM + "EntityType"):
name = entity_type.get("Name")
if name != target_entitytype:
continue
for nav_prop in entity_type.findall(EDM + "NavigationProperty"):
parse_navigation_property(
root,
name,
nav_prop,
path,
top_collections,
found_top,
xml_map,
)
# These ComplexType objects contain links to actual resources or
# resource collections
for complex_type in schema.findall(EDM + "ComplexType"):
name = complex_type.get("Name")
if name != target_entitytype:
continue
for nav_prop in complex_type.findall(EDM + "NavigationProperty"):
parse_navigation_property(
root,
name,
nav_prop,
path,
top_collections,
found_top,
xml_map,
)
# Helper function which expects a NavigationProperty to be passed in. We need
# this because NavigationProperty appears under both EntityType and ComplexType
def parse_navigation_property(
root, curr_entitytype, element, path, top_collections, found_top, xml_map
):
if element.tag != (EDM + "NavigationProperty"):
return
# We don't want to actually parse this property if it's just an excerpt
for annotation in element.findall(EDM + "Annotation"):
term = annotation.get("Term")
if term == "Redfish.ExcerptCopy":
return
# We don't want to aggregate JsonSchemas as well as anything under
# AccountService or SessionService
nav_name = element.get("Name")
if nav_name in ["JsonSchemas", "AccountService", "SessionService"]:
return
nav_type = element.get("Type")
if "Collection" in nav_type:
# Type is either Collection(<Namespace>.<TypeName>) or
# Collection(<NamespaceName>.<NamespaceVersion>.<TypeName>)
if nav_type.startswith("Collection"):
qualified_name = nav_type.split("(")[1].split(")")[0]
# Do we need to parse this file or another file?
qualified_name_split = qualified_name.split(".")
if len(qualified_name_split) == 3:
typename = qualified_name_split[2]
else:
typename = qualified_name_split[1]
file_key = qualified_name_split[0]
# If we contain a collection array then we don't want to add the
# name to the path if we're a collection schema
if nav_name != "Members":
path += "/" + nav_name
if path in seen_paths:
return
seen_paths.add(path)
# Did we find the top level collection in the current path or
# did we previously find it?
if not found_top:
top_collections.add(path)
found_top = True
member_id = typename + "Id"
prev_count = path.count(member_id)
if prev_count:
new_path = path + "/{" + member_id + str(prev_count + 1) + "}"
else:
new_path = path + "/{" + member_id + "}"
# type is "<Namespace>.<TypeName>", both should end with "Collection"
else:
# Escape if we've found a circular dependency like SubProcessors
if path.count(nav_name) >= 2:
return
nav_type_split = nav_type.split(".")
if (len(nav_type_split) != 2) and (
nav_type_split[0] != nav_type_split[1]
):
# We ended up with something like Resource.ResourceCollection
return
file_key = nav_type_split[0]
typename = nav_type_split[1]
new_path = path + "/" + nav_name
# Did we find the top level collection in the current path or did we
# previously find it?
if not found_top:
top_collections.add(new_path)
found_top = True
# NavigationProperty is not for a collection
else:
# Bail if we've found a circular dependency like MetricReport
if path.count(nav_name):
return
new_path = path + "/" + nav_name
nav_type_split = nav_type.split(".")
file_key = nav_type_split[0]
typename = nav_type_split[1]
# We need to specially handle certain URIs since the Name attribute from the
# schema is not used as part of the path
# TODO: Expand this section to add special handling across the entirety of
# the Redfish tree
new_path2 = ""
if new_path == "/redfish/v1/Tasks":
new_path2 = "/redfish/v1/TaskService"
# If we had to apply special handling then we need to remove the initial
# version of the URI if it was previously added
if new_path2 != "":
if new_path in seen_paths:
seen_paths.remove(new_path)
new_path = new_path2
# No need to parse the new URI if we've already done so
if new_path in seen_paths:
return
seen_paths.add(new_path)
# We can stop parsing if we've found a top level collection
# TODO: Don't return here when we want to walk the entire tree instead
if found_top:
return
# If the namespace of the NavigationProperty's Type is not in our xml map
# then that means it inherits from elsewhere in the current file
if file_key in xml_map:
parse_node(
typename, new_path, top_collections, found_top, xml_map[file_key]
)
else:
parse_root(
root, typename, new_path, top_collections, found_top, xml_map
)
def generate_top_collections():
# We need to separately track top level resources as well as all URIs that
# are upstream from a top level resource. We shouldn't combine these into
# a single structure because:
#
# 1) We want direct lookup of top level collections for prefix handling
# purposes.
#
# 2) A top level collection will not always be one level below the service
# root. For example, we need to aggregate
# /redfish/v1/CompositionService/ActivePool and we do not currently support
# CompositionService. If a satellite BMC implements it then we would need
# to display a link to CompositionService under /redfish/v1 even though
# CompositionService is not a top level collection.
# Contains URIs for all top level collections
top_collections = set()
# Begin parsing from the Service Root
curr_path = "/redfish/v1"
seen_paths.add(curr_path)
parse_node(
"ServiceRoot", curr_path, top_collections, False, "ServiceRoot_v1.xml"
)
print("Finished traversal!")
TOTAL = len(top_collections)
with open(CPP_OUTFILE, "w") as hpp_file:
hpp_file.write(
"#pragma once\n"
"{WARNING}\n"
"// clang-format off\n"
"#include <array>\n"
"#include <string_view>\n"
"\n"
"namespace redfish\n"
"{{\n"
'// Note that each URI actually begins with "/redfish/v1"\n'
"// They've been omitted to save space and reduce search time\n"
"constexpr std::array<std::string_view, {TOTAL}> "
"topCollections{{\n".format(WARNING=WARNING, TOTAL=TOTAL)
)
for collection in sorted(top_collections):
# All URIs start with "/redfish/v1". We can omit that portion to
# save memory and reduce lookup time
hpp_file.write(
' "{}",\n'.format(collection.split("/redfish/v1")[1])
)
hpp_file.write("};\n} // namespace redfish\n")