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genRuntimeEventSources.py
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genRuntimeEventSources.py
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#
## Licensed to the .NET Foundation under one or more agreements.
## The .NET Foundation licenses this file to you under the MIT license.
## See the LICENSE file in the project root for more information.
#
import os
import xml.dom.minidom as DOM
from utilities import open_for_update
import argparse
import sys
generatedCodeFileHeader="""// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
/**********************************************************************
DO NOT MODIFY. AUTOGENERATED FILE.
This file is generated by <root>/src/scripts/genRuntimeEventSources.py
**********************************************************************/
"""
########################################################################
# START CONFIGURATION
########################################################################
manifestsToGenerate = {
"Microsoft-Windows-DotNETRuntime" : "NativeRuntimeEventSource.cs"
}
providerNameToClassNameMap = {
"Microsoft-Windows-DotNETRuntime" : "NativeRuntimeEventSource"
}
manifestTypeToCSharpTypeMap = {
"win:UInt8" : "byte",
"win:UInt16" : "ushort",
"win:UInt32" : "uint",
"win:UInt64" : "ulong",
"win:Int32" : "int",
"win:Pointer" : "IntPtr",
"win:UnicodeString" : "string",
"win:Binary" : "byte[]",
"win:Double" : "double",
"win:Boolean" : "bool",
"win:GUID" : "Guid",
}
overrideEnumBackingTypes = {
"Microsoft-Windows-DotNETRuntime" : {
"GCSuspendEEReasonMap" : "win:UInt32",
"GCRootKindMap" : "win:UInt32"
}
}
########################################################################
# END CONFIGURATION
########################################################################
tabText = ""
def increaseTabLevel():
global tabText
tabText += " "
def decreaseTabLevel():
global tabText
tabText = tabText[:-4]
def writeOutput(outputFile, str):
outputFile.write(tabText + str)
def getCSharpTypeFromManifestType(manifestType):
return manifestTypeToCSharpTypeMap[manifestType]
def generateEvent(eventNode, providerNode, outputFile, stringTable):
# Write the event attribute.
writeOutput(outputFile, "[Event("+ eventNode.getAttribute("value") + ", Version = " + eventNode.getAttribute("version") + ", Level = EventLevel." + eventNode.getAttribute("level")[4:])
# Not all events have keywords specified, and some have multiple keywords specified.
keywords = eventNode.getAttribute("keywords")
if keywords:
if " " not in keywords:
outputFile.write(", Keywords = Keywords." + keywords)
else:
keywords = keywords.split()
outputFile.write(", Keywords = ")
for keywordIndex in range(len(keywords)):
outputFile.write("Keywords." + keywords[keywordIndex])
if keywordIndex < (len(keywords) - 1):
outputFile.write(" | ")
outputFile.write(")]\n")
# Get the template for the event.
templateNode = None
templateKey = eventNode.getAttribute("template")
if templateKey is not None:
for node in providerNode.getElementsByTagName("templates"):
templatesNode = node
break
for node in templatesNode.getElementsByTagName("template"):
if node.getAttribute("tid") == templateKey:
templateNode = node
break
# Write the beginning of the method signature.
writeOutput(outputFile, "private void " + eventNode.getAttribute("symbol") + "(")
# Write the function signature.
argumentCount = 0
if templateNode is not None:
argumentNodes = templateNode.childNodes
# Calculate the number of arguments.
for argumentNode in argumentNodes:
if argumentNode.nodeName == "data":
if argumentNode.getAttribute("inType") != "win:Binary" and argumentNode.getAttribute("inType") != "win:AnsiString" and argumentNode.getAttribute("count") == "":
argumentCount += 1
else:
break
elif argumentNode.nodeName == "struct":
break
argumentsProcessed = 0
for argumentIndex in range(len(argumentNodes)):
argumentNode = argumentNodes[argumentIndex]
if argumentNode.nodeName == "data":
argumentName = argumentNode.getAttribute("name")
argumentInType = argumentNode.getAttribute("inType")
#### Disable enums until they are needed ####
# argumentMap = argumentNode.getAttribute("map")
# if not argumentMap:
# argumentCSharpType = getCSharpTypeFromManifestType(argumentInType)
# else:
# argumentCSharpType = argumentMap[:-3]
#### Disable enums until they are needed ####
argumentCSharpType = getCSharpTypeFromManifestType(argumentInType)
outputFile.write(argumentCSharpType + " " + argumentName)
argumentsProcessed += 1
if argumentsProcessed < argumentCount:
outputFile.write(", ")
if argumentsProcessed == argumentCount:
break
outputFile.write(")\n")
writeOutput(outputFile, "{\n")
# Write the call to WriteEvent.
increaseTabLevel()
writeOutput(outputFile, "WriteEvent(" + eventNode.getAttribute("value"))
# Add method parameters.
if argumentCount > 0:
# A ',' is needed after the event id.
outputFile.write(", ")
# Write the parameter names to the method call.
argumentsProcessed = 0
argumentNodes = templateNode.getElementsByTagName("data")
for argumentIndex in range(argumentCount):
argumentNode = argumentNodes[argumentIndex]
argumentName = argumentNode.getAttribute("name")
outputFile.write(argumentName)
if argumentIndex < (argumentCount - 1):
outputFile.write(", ")
outputFile.write(");\n")
decreaseTabLevel()
writeOutput(outputFile, "}\n\n")
def generateEvents(providerNode, outputFile, stringTable):
# Get the events element.
for node in providerNode.getElementsByTagName("events"):
eventsNode = node
break
# Get the list of event nodes.
eventNodes = eventsNode.getElementsByTagName("event")
# Build a list of events to be emitted. This is where old versions of events are stripped.
# key = eventID, value = version
eventList = dict()
for eventNode in eventNodes:
eventID = eventNode.getAttribute("value")
eventVersion = eventNode.getAttribute("version")
eventList[eventID] = eventVersion
# Iterate over each event node and process it.
# Only emit events for the latest version of the event, otherwise EventSource initialization will fail.
for eventNode in eventNodes:
eventID = eventNode.getAttribute("value")
eventVersion = eventNode.getAttribute("version")
if eventID in eventList and eventList[eventID] == eventVersion:
generateEvent(eventNode, providerNode, outputFile, stringTable)
elif eventID not in eventList:
raise ValueError("eventID could not be found in the list of events to emit.", eventID)
def generateValueMapEnums(providerNode, outputFile, stringTable, enumTypeMap):
# Get the maps element.
for node in providerNode.getElementsByTagName("maps"):
mapsNode = node
break
# Iterate over each map and create an enum out of it.
for valueMapNode in mapsNode.getElementsByTagName("valueMap"):
# Get the backing type of the enum.
typeName = enumTypeMap[valueMapNode.getAttribute("name")]
if typeName is None:
raise ValueError("No mapping from mapName to enum backing type.", valueMapNode.getAttribute("name"))
enumType = getCSharpTypeFromManifestType(typeName)
writeOutput(outputFile, "public enum " + valueMapNode.getAttribute("name")[:-3] + " : " + enumType + "\n")
writeOutput(outputFile, "{\n")
increaseTabLevel()
for mapNode in valueMapNode.getElementsByTagName("map"):
# Each map value has a message, which we should use as the enum value.
messageKey = mapNode.getAttribute("message")[9:-1]
writeOutput(outputFile, stringTable[messageKey] + " = " + mapNode.getAttribute("value") + ",\n")
decreaseTabLevel()
writeOutput(outputFile, "}\n\n")
def generateBitMapEnums(providerNode, outputFile, stringTable, enumTypeMap):
# Get the maps element.
for node in providerNode.getElementsByTagName("maps"):
mapsNode = node
break
# Iterate over each map and create an enum out of it.
for valueMapNode in mapsNode.getElementsByTagName("bitMap"):
# Get the backing type of the enum.
typeName = enumTypeMap[valueMapNode.getAttribute("name")]
if typeName is None:
raise ValueError("No mapping from mapName to enum backing type.", valueMapNode.getAttribute("name"))
enumType = getCSharpTypeFromManifestType(typeName)
writeOutput(outputFile, "[Flags]\n")
writeOutput(outputFile, "public enum " + valueMapNode.getAttribute("name")[:-3] + " : " + enumType + "\n")
writeOutput(outputFile, "{\n")
increaseTabLevel()
for mapNode in valueMapNode.getElementsByTagName("map"):
# Each map value has a message, which we should use as the enum value.
messageKey = mapNode.getAttribute("message")[9:-1]
writeOutput(outputFile, stringTable[messageKey] + " = " + mapNode.getAttribute("value") + ",\n")
decreaseTabLevel()
writeOutput(outputFile, "}\n\n")
def generateEnumTypeMap(providerNode):
providerName = providerNode.getAttribute("name")
templatesNodes = providerNode.getElementsByTagName("templates")
templatesNode = templatesNodes[0]
mapsNodes = providerNode.getElementsByTagName("maps")
# Keep a list of mapName -> inType.
# This map contains the first inType seen for the specified mapName.
typeMap = dict()
# There are a couple of maps that are used by multiple events but have different backing types.
# Because only one of the uses will be consumed by EventSource/EventListener we can hack the backing type here
# and suppress the warning that we'd otherwise get.
overrideTypeMap = dict()
if providerName in overrideEnumBackingTypes:
overrideTypeMap = overrideEnumBackingTypes[providerName]
for mapsNode in mapsNodes:
for valueMapNode in mapsNode.getElementsByTagName("valueMap"):
mapName = valueMapNode.getAttribute("name")
dataNodes = templatesNode.getElementsByTagName("data")
# If we've never seen the map used, save its usage with the inType.
# If we have seen the map used, make sure that the inType saved previously matches the current inType.
for dataNode in dataNodes:
if dataNode.getAttribute("map") == mapName:
if mapName in overrideTypeMap:
typeMap[mapName] = overrideTypeMap[mapName]
elif mapName in typeMap and typeMap[mapName] != dataNode.getAttribute("inType"):
print("WARNING: Map " + mapName + " is used multiple times with different types. This may cause functional bugs in tracing.")
elif not mapName in typeMap:
typeMap[mapName] = dataNode.getAttribute("inType")
for bitMapNode in mapsNode.getElementsByTagName("bitMap"):
mapName = bitMapNode.getAttribute("name")
dataNodes = templatesNode.getElementsByTagName("data")
# If we've never seen the map used, save its usage with the inType.
# If we have seen the map used, make sure that the inType saved previously matches the current inType.
for dataNode in dataNodes:
if dataNode.getAttribute("map") == mapName:
if mapName in overrideTypeMap:
typeMap[mapName] = overrideTypeMap[mapName]
elif mapName in typeMap and typeMap[mapName] != dataNode.getAttribute("inType"):
print("Map " + mapName + " is used multiple times with different types.")
elif not mapName in typeMap:
typeMap[mapName] = dataNode.getAttribute("inType")
return typeMap
def generateKeywordsClass(providerNode, outputFile):
# Find the keywords element.
for node in providerNode.getElementsByTagName("keywords"):
keywordsNode = node
break;
writeOutput(outputFile, "public class Keywords\n")
writeOutput(outputFile, "{\n")
increaseTabLevel()
for keywordNode in keywordsNode.getElementsByTagName("keyword"):
writeOutput(outputFile, "public const EventKeywords " + keywordNode.getAttribute("name") + " = (EventKeywords)" + keywordNode.getAttribute("mask") + ";\n")
decreaseTabLevel()
writeOutput(outputFile, "}\n\n")
def loadStringTable(manifest):
# Create the string table dictionary.
stringTable = dict()
# Get the string table element.
for node in manifest.getElementsByTagName("stringTable"):
stringTableNode = node
break
# Iterate through each string and save it.
for stringElem in stringTableNode.getElementsByTagName("string"):
stringTable[stringElem.getAttribute("id")] = stringElem.getAttribute("value")
return stringTable
def generateEventSources(manifestFullPath, intermediatesDirFullPath):
# Open the manifest for reading.
manifest = DOM.parse(manifestFullPath)
# Load the string table.
stringTable = loadStringTable(manifest)
# Iterate over each provider that we want to generate an EventSource for.
for providerName, outputFileName in manifestsToGenerate.items():
for node in manifest.getElementsByTagName("provider"):
if node.getAttribute("name") == providerName:
providerNode = node
break
if providerNode is None:
raise ValueError("Unable to find provider node.", providerName)
# Generate a full path to the output file and open the file for open_for_update.
outputFilePath = os.path.join(intermediatesDirFullPath, outputFileName)
with open_for_update(outputFilePath) as outputFile:
# Write the license header.
writeOutput(outputFile, generatedCodeFileHeader)
# Write the class header.
header = """
using System;
namespace System.Diagnostics.Tracing
{
"""
writeOutput(outputFile, header)
increaseTabLevel()
className = providerNameToClassNameMap[providerName]
writeOutput(outputFile, "internal sealed partial class " + className + " : EventSource\n")
writeOutput(outputFile, "{\n")
increaseTabLevel()
# Create a static property for the EventSource name so that we don't have to initialize the EventSource to get its name.
writeOutput(outputFile, "internal const string EventSourceName = \"" + providerName + "\";\n")
# Write the static Log property.
writeOutput(outputFile, "internal static " + className + " Log = new " + className + "();\n\n")
# Write the keywords class.
generateKeywordsClass(providerNode, outputFile)
#### Disable enums until they are needed ####
# Generate the enum type map.
# This determines what the backing type for each enum should be.
# enumTypeMap = generateEnumTypeMap(providerNode)
# Generate enums for value maps.
# generateValueMapEnums(providerNode, outputFile, stringTable, enumTypeMap)
# Generate enums for bit maps.
# generateBitMapEnums(providerNode, outputFile, stringTable, enumTypeMap)
#### Disable enums until they are needed ####
# Generate events.
generateEvents(providerNode, outputFile, stringTable)
# Write the class footer.
decreaseTabLevel()
writeOutput(outputFile, "}\n")
decreaseTabLevel()
writeOutput(outputFile, "}")
def main(argv):
# Parse command line arguments.
parser = argparse.ArgumentParser(
description="Generates C# EventSource classes that represent the runtime's native event providers.")
required = parser.add_argument_group('required arguments')
required.add_argument('--man', type=str, required=True,
help='full path to manifest containig the description of events')
required.add_argument('--intermediate', type=str, required=True,
help='full path to eventprovider intermediate directory')
args, unknown = parser.parse_known_args(argv)
if unknown:
print('Unknown argument(s): ', ', '.join(unknown))
return 1
manifestFullPath = args.man
intermediatesDirFullPath = args.intermediate
# Ensure the intermediates directory exists.
try:
os.makedirs(intermediatesDirFullPath)
except OSError:
if not os.path.isdir(intermediatesDirFullPath):
raise
# Generate event sources.
generateEventSources(manifestFullPath, intermediatesDirFullPath)
return 0
if __name__ == '__main__':
return_code = main(sys.argv[1:])
sys.exit(return_code)