lwip/contrib/apps/LwipMibCompiler/LwipSnmpCodeGeneration/SnmpScalarNode.cs
Dirk Ziegelmeier ac46e42aa2 Import lwIP contrib rep
... from http://git.savannah.gnu.org/cgit/lwip/lwip-contrib.git/ into contrib/ subdir, STABLE-2_1_0_RELEASE tag
lwIP contrib is now officially frozen
TODO: Fix build
2018-10-02 12:19:13 +02:00

396 lines
14 KiB
C#

/*
* Copyright (c) 2001-2004 Swedish Institute of Computer Science.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without modification,
* are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
* SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
* OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
* OF SUCH DAMAGE.
*
* This file is part of the lwIP TCP/IP stack.
*
* Author: Martin Hentschel <info@cl-soft.de>
*
*/
using System;
using System.Collections.Generic;
using CCodeGeneration;
namespace LwipSnmpCodeGeneration
{
public class SnmpScalarNode: SnmpNode
{
protected const string LocalValueName = "v"; // name of (casted) local value variable
private SnmpDataType dataType;
private SnmpAccessMode accessMode;
private readonly List<IRestriction> restrictions = new List<IRestriction>();
private bool useExternalMethods = false;
private string externalGetMethod;
private string externalTestMethod;
private string externalSetMethod;
public SnmpScalarNode(SnmpTreeNode parentNode)
: base(parentNode)
{
}
public override string FullNodeName
{
get { return this.Name.ToLowerInvariant() + "_scalar"; }
}
public SnmpDataType DataType
{
get { return this.dataType; }
set { this.dataType = value; }
}
public List<IRestriction> Restrictions
{
get { return this.restrictions; }
}
public SnmpAccessMode AccessMode
{
get { return this.accessMode; }
set { this.accessMode = value; }
}
public virtual string FixedValueLength
{
get { return null; }
}
/// <summary>
/// If scalar is used as a table index its value becomes part of the OID. This value returns how many OID parts are required to represent this value.
/// </summary>
public virtual int OidRepresentationLen
{
get { return -1; }
}
public bool UseExternalMethods
{
get { return this.useExternalMethods; }
set { this.useExternalMethods = value; }
}
public string ExternalGetMethod
{
get { return this.externalGetMethod; }
set { this.externalGetMethod = value; }
}
public string ExternalTestMethod
{
get { return this.externalTestMethod; }
set { this.externalTestMethod = value; }
}
public string ExternalSetMethod
{
get { return this.externalSetMethod; }
set { this.externalSetMethod = value; }
}
public override void GenerateCode(MibCFile mibFile)
{
string getMethodName;
string testMethodName;
string setMethodName;
if (this.useExternalMethods)
{
getMethodName = this.externalGetMethod;
testMethodName = this.externalTestMethod;
setMethodName = this.externalSetMethod;
}
else
{
getMethodName = LwipDefs.Null;
testMethodName = LwipDefs.Null;
setMethodName = LwipDefs.Null;
if ((this.accessMode == SnmpAccessMode.ReadWrite) || (this.accessMode == SnmpAccessMode.ReadOnly))
{
FunctionDeclaration getMethodDecl = new FunctionDeclaration(this.Name + LwipDefs.FnctSuffix_GetValue, isStatic: true);
getMethodDecl.Parameter.Add(new VariableType("instance", LwipDefs.Vt_StNodeInstance, "*"));
getMethodDecl.Parameter.Add(new VariableType("value", VariableType.VoidString, "*"));
getMethodDecl.ReturnType = new VariableType(null, LwipDefs.Vt_S16);
mibFile.Declarations.Add(getMethodDecl);
Function getMethod = Function.FromDeclaration(getMethodDecl);
getMethodName = getMethod.Name;
VariableDeclaration returnValue = new VariableDeclaration((VariableType)getMethod.ReturnType.Clone());
returnValue.Type.Name = "value_len";
getMethod.Declarations.Add(returnValue);
getMethod.AddCodeFormat("LWIP_UNUSED_ARG({0});", getMethod.Parameter[0].Name);
bool valueVarUsed = false;
GenerateGetMethodCode(getMethod, getMethod.Parameter[1].Name, ref valueVarUsed, returnValue.Type.Name);
if (!valueVarUsed)
{
getMethod.AddCodeFormat("LWIP_UNUSED_ARG({0});", getMethod.Parameter[1].Name);
}
getMethod.AddCodeFormat("return {0};", returnValue.Type.Name);
mibFile.Implementation.Add(getMethod);
}
if ((this.accessMode == SnmpAccessMode.ReadWrite) || (this.accessMode == SnmpAccessMode.WriteOnly))
{
bool valueVarUsed;
bool lenVarUsed;
VariableDeclaration returnValue;
if (this.restrictions.Count > 0)
{
FunctionDeclaration testMethodDecl = new FunctionDeclaration(this.Name + LwipDefs.FnctSuffix_SetTest, isStatic: true);
testMethodDecl.Parameter.Add(new VariableType("instance", LwipDefs.Vt_StNodeInstance, "*"));
testMethodDecl.Parameter.Add(new VariableType("len", LwipDefs.Vt_U16));
testMethodDecl.Parameter.Add(new VariableType("value", VariableType.VoidString, "*"));
testMethodDecl.ReturnType = new VariableType(null, LwipDefs.Vt_Snmp_err);
mibFile.Declarations.Add(testMethodDecl);
Function testMethod = Function.FromDeclaration(testMethodDecl);
testMethodName = testMethod.Name;
returnValue = new VariableDeclaration((VariableType)testMethod.ReturnType.Clone(), LwipDefs.Def_ErrorCode_WrongValue);
returnValue.Type.Name = "err";
testMethod.Declarations.Add(returnValue);
testMethod.AddCodeFormat("LWIP_UNUSED_ARG({0});", testMethod.Parameter[0].Name);
valueVarUsed = false;
lenVarUsed = false;
GenerateTestMethodCode(testMethod, testMethod.Parameter[2].Name, ref valueVarUsed, testMethod.Parameter[1].Name, ref lenVarUsed, returnValue.Type.Name);
if (!valueVarUsed)
{
testMethod.AddCodeFormat("LWIP_UNUSED_ARG({0});", testMethod.Parameter[2].Name);
}
if (!lenVarUsed)
{
testMethod.AddCodeFormat("LWIP_UNUSED_ARG({0});", testMethod.Parameter[1].Name);
}
testMethod.AddCodeFormat("return {0};", returnValue.Type.Name);
mibFile.Implementation.Add(testMethod);
}
else
{
testMethodName = LwipDefs.FnctName_SetTest_Ok;
}
FunctionDeclaration setMethodDecl = null;
setMethodDecl = new FunctionDeclaration(this.Name + LwipDefs.FnctSuffix_SetValue, isStatic: true);
setMethodDecl.Parameter.Add(new VariableType("instance", LwipDefs.Vt_StNodeInstance, "*"));
setMethodDecl.Parameter.Add(new VariableType("len", LwipDefs.Vt_U16));
setMethodDecl.Parameter.Add(new VariableType("value", VariableType.VoidString, "*"));
setMethodDecl.ReturnType = new VariableType(null, LwipDefs.Vt_Snmp_err);
mibFile.Declarations.Add(setMethodDecl);
Function setMethod = Function.FromDeclaration(setMethodDecl);
setMethodName = setMethod.Name;
returnValue = new VariableDeclaration((VariableType)setMethod.ReturnType.Clone(), LwipDefs.Def_ErrorCode_Ok);
returnValue.Type.Name = "err";
setMethod.Declarations.Add(returnValue);
setMethod.AddCodeFormat("LWIP_UNUSED_ARG({0});", setMethod.Parameter[0].Name);
valueVarUsed = false;
lenVarUsed = false;
GenerateSetMethodCode(setMethod, setMethod.Parameter[2].Name, ref valueVarUsed, setMethod.Parameter[1].Name, ref lenVarUsed, returnValue.Type.Name);
if (!valueVarUsed)
{
setMethod.AddCodeFormat("LWIP_UNUSED_ARG({0});", setMethod.Parameter[2].Name);
}
if (!lenVarUsed)
{
setMethod.AddCodeFormat("LWIP_UNUSED_ARG({0});", setMethod.Parameter[1].Name);
}
setMethod.AddCodeFormat("return {0};", returnValue.Type.Name);
mibFile.Implementation.Add(setMethod);
}
}
// create and add node declaration
string nodeInitialization;
if (this.accessMode == SnmpAccessMode.ReadOnly)
{
nodeInitialization = String.Format("SNMP_SCALAR_CREATE_NODE_READONLY({0}, {1}, {2})",
this.Oid,
LwipDefs.GetAsn1DefForSnmpDataType(this.dataType),
getMethodName);
}
else
{
nodeInitialization = String.Format("SNMP_SCALAR_CREATE_NODE({0}, {1}, {2}, {3}, {4}, {5})",
this.Oid,
LwipDefs.GetLwipDefForSnmpAccessMode(this.accessMode),
LwipDefs.GetAsn1DefForSnmpDataType(this.dataType),
getMethodName,
testMethodName,
setMethodName);
}
mibFile.Declarations.Add(new VariableDeclaration(
new VariableType(this.FullNodeName, LwipDefs.Vt_StScalarNode, null, ConstType.Value),
nodeInitialization, isStatic: true));
}
public virtual void GenerateGetMethodCode(CodeContainerBase container, string valueVarName, ref bool valueVarUsed, string retLenVarName)
{
bool localValueVarUsed;
if (GenerateValueDeclaration(container, LocalValueName, valueVarName))
{
valueVarUsed = true;
localValueVarUsed = false;
}
else
{
localValueVarUsed = true; // do not generate UNUSED_ARG code
}
if (this.FixedValueLength == null)
{
// check that value with variable length fits into buffer
container.AddElement(new Comment(String.Format("TODO: take care that value with variable length fits into buffer: ({0} <= SNMP_MAX_VALUE_SIZE)", retLenVarName), singleLine: true));
}
GenerateGetMethodCodeCore(container, LocalValueName, ref localValueVarUsed, retLenVarName);
if (!localValueVarUsed)
{
container.AddCode(String.Format("LWIP_UNUSED_ARG({0});", LocalValueName));
}
}
protected virtual void GenerateGetMethodCodeCore(CodeContainerBase container, string localValueVarName, ref bool localValueVarUsed, string retLenVarName)
{
container.AddElement(new Comment(String.Format("TODO: put requested value to '*{0}' here", localValueVarName), singleLine: true));
container.AddCodeFormat("{0} = {1};",
retLenVarName,
(!String.IsNullOrWhiteSpace(this.FixedValueLength)) ? this.FixedValueLength : "0");
}
public virtual void GenerateTestMethodCode(CodeContainerBase container, string valueVarName, ref bool valueVarUsed, string lenVarName, ref bool lenVarUsed, string retErrVarName)
{
if (this.Restrictions.Count > 0)
{
bool localVarUsed;
if (GenerateValueDeclaration(container, LocalValueName, valueVarName))
{
valueVarUsed = true;
localVarUsed = false;
}
else
{
localVarUsed = true; // do not generate UNUSED_ARG code
}
if (!String.IsNullOrWhiteSpace(this.FixedValueLength))
{
// check for fixed value
container.AddCodeFormat("LWIP_ASSERT(\"Invalid length for datatype\", ({0} == {1}));", lenVarName, this.FixedValueLength);
lenVarUsed = true;
}
GenerateTestMethodCodeCore(container, LocalValueName, ref localVarUsed, lenVarName, ref lenVarUsed, retErrVarName);
if (!localVarUsed)
{
container.AddCode(String.Format("LWIP_UNUSED_ARG({0});", LocalValueName));
}
}
else
{
container.AddCodeFormat("{0} = {1};", retErrVarName, LwipDefs.Def_ErrorCode_Ok);
}
}
protected virtual void GenerateTestMethodCodeCore(CodeContainerBase container, string localValueVarName, ref bool localValueVarUsed, string lenVarName, ref bool lenVarUsed, string retErrVarName)
{
container.AddElement(new Comment(String.Format("TODO: test new value here:\nif (*{0} == ) {1} = {2};", localValueVarName, retErrVarName, LwipDefs.Def_ErrorCode_Ok)));
}
public virtual void GenerateSetMethodCode(CodeContainerBase container, string valueVarName, ref bool valueVarUsed, string lenVarName, ref bool lenVarUsed, string retErrVarName)
{
bool localVarUsed;
if (GenerateValueDeclaration(container, LocalValueName, valueVarName))
{
valueVarUsed = true;
localVarUsed = false;
}
else
{
localVarUsed = true; // do not generate UNUSED_ARG code
}
GenerateSetMethodCodeCore(container, LocalValueName, ref localVarUsed, lenVarName, ref lenVarUsed, retErrVarName);
if (!localVarUsed)
{
container.AddCode(String.Format("LWIP_UNUSED_ARG({0});", LocalValueName));
}
}
protected virtual void GenerateSetMethodCodeCore(CodeContainerBase container, string localValueVarName, ref bool localValueVarUsed, string lenVarName, ref bool lenVarUsed, string retErrVarName)
{
container.AddElement(new Comment(String.Format("TODO: store new value contained in '*{0}' here", localValueVarName), singleLine: true));
}
protected virtual bool GenerateValueDeclaration(CodeContainerBase container, string variableName, string sourceName)
{
container.AddDeclaration(new VariableDeclaration(
new VariableType(variableName, LwipDefs.Vt_U8, "*"),
"(" + new VariableType(null, LwipDefs.Vt_U8, "*") + ")" + sourceName));
return true;
}
public static SnmpScalarNode CreateFromDatatype(SnmpDataType dataType, SnmpTreeNode parentNode)
{
switch (dataType)
{
case SnmpDataType.Integer:
return new SnmpScalarNodeInt(parentNode);
case SnmpDataType.Gauge:
case SnmpDataType.Counter:
case SnmpDataType.TimeTicks:
return new SnmpScalarNodeUint(dataType, parentNode);
}
return new SnmpScalarNode(parentNode);
}
}
}