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-rw-r--r--verigraph/service/src/mcnet/netobjs/AclFirewall.java123
1 files changed, 0 insertions, 123 deletions
diff --git a/verigraph/service/src/mcnet/netobjs/AclFirewall.java b/verigraph/service/src/mcnet/netobjs/AclFirewall.java
deleted file mode 100644
index 4ae3421..0000000
--- a/verigraph/service/src/mcnet/netobjs/AclFirewall.java
+++ /dev/null
@@ -1,123 +0,0 @@
-/*******************************************************************************
- * Copyright (c) 2017 Politecnico di Torino and others.
- *
- * All rights reserved. This program and the accompanying materials
- * are made available under the terms of the Apache License, Version 2.0
- * which accompanies this distribution, and is available at
- * http://www.apache.org/licenses/LICENSE-2.0
- *******************************************************************************/
-
-package mcnet.netobjs;
-
-import java.util.ArrayList;
-import java.util.List;
-
-import com.microsoft.z3.BoolExpr;
-import com.microsoft.z3.Context;
-import com.microsoft.z3.DatatypeExpr;
-import com.microsoft.z3.Expr;
-import com.microsoft.z3.FuncDecl;
-import com.microsoft.z3.IntExpr;
-import com.microsoft.z3.Solver;
-import com.microsoft.z3.Sort;
-
-import mcnet.components.NetContext;
-import mcnet.components.Network;
-import mcnet.components.NetworkObject;
-import mcnet.components.Tuple;
-
-/** Represents a Firewall with the associated Access Control List
- *
- */
-public class AclFirewall extends NetworkObject{
-
- List<BoolExpr> constraints;
- Context ctx;
- DatatypeExpr fw;
- ArrayList<Tuple<DatatypeExpr,DatatypeExpr>> acls;
- Network net;
- NetContext nctx;
- FuncDecl acl_func;
-
- public AclFirewall(Context ctx, Object[]... args) {
- super(ctx, args);
- }
-
- @Override
- protected void init(Context ctx, Object[]... args) {
- this.ctx = ctx;
- isEndHost=false;
- constraints = new ArrayList<BoolExpr>();
- acls = new ArrayList<Tuple<DatatypeExpr,DatatypeExpr>>();
- z3Node = ((NetworkObject)args[0][0]).getZ3Node();
- fw = z3Node;
- net = (Network)args[0][1];
- nctx = (NetContext)args[0][2];
- net.saneSend(this);
- firewallSendRules();
- }
-
- /**
- * Wrap add acls
- * @param policy
- */
- public void setPolicy(ArrayList<Tuple<DatatypeExpr, DatatypeExpr>> policy){
- addAcls(policy);
- }
-
- public void addAcls(ArrayList<Tuple<DatatypeExpr,DatatypeExpr>> acls){
- this.acls.addAll(acls);
- }
-
- @Override
- public DatatypeExpr getZ3Node() {
- return fw;
- }
-
-
- @Override
- protected void addConstraints(Solver solver) {
- BoolExpr[] constr = new BoolExpr[constraints.size()];
- solver.add(constraints.toArray(constr));
- aclConstraints(solver);
- }
-
- private void firewallSendRules (){
- Expr p_0 = ctx.mkConst(fw+"_firewall_send_p_0", nctx.packet);
- Expr n_0 = ctx.mkConst(fw+"_firewall_send_n_0", nctx.node);
- Expr n_1 = ctx.mkConst(fw+"_firewall_send_n_1", nctx.node);
- IntExpr t_0 = ctx.mkIntConst(fw+"_firewall_send_t_0");
- IntExpr t_1 = ctx.mkIntConst(fw+"_firewall_send_t_1");
- acl_func = ctx.mkFuncDecl(fw+"_acl_func", new Sort[]{nctx.address, nctx.address},ctx.mkBoolSort());
-
- //Constraint1 send(fw, n_0, p, t_0) -> (exist n_1,t_1 : (recv(n_1, fw, p, t_1) &&
- // t_1 < t_0 && !acl_func(p.src,p.dest))
- constraints.add(
- ctx.mkForall(new Expr[]{n_0, p_0, t_0},
- ctx.mkImplies(
- (BoolExpr)nctx.send.apply(new Expr[]{ fw, n_0, p_0, t_0}),
- ctx.mkExists(new Expr[]{t_1},
- ctx.mkAnd(ctx.mkLt(t_1,t_0),
- ctx.mkExists(new Expr[]{n_1},
- nctx.recv.apply(n_1, fw, p_0, t_1),1,null,null,null,null),
- ctx.mkNot((BoolExpr)acl_func.apply(nctx.pf.get("src").apply(p_0), nctx.pf.get("dest").apply(p_0)))),1,null,null,null,null)),1,null,null,null,null));
-
- }
-
- private void aclConstraints(Solver solver){
- if (acls.size() == 0)
- return;
- Expr a_0 = ctx.mkConst(fw+"_firewall_acl_a_0", nctx.address);
- Expr a_1 = ctx.mkConst(fw+"_firewall_acl_a_1", nctx.address);
- BoolExpr[] acl_map = new BoolExpr[acls.size()];
- for(int y=0;y<acls.size();y++){
- Tuple<DatatypeExpr,DatatypeExpr> tp = acls.get(y);
- acl_map[y] = ctx.mkOr(ctx.mkAnd(ctx.mkEq(a_0,tp._1),ctx.mkEq(a_1,tp._2)), ctx.mkAnd(ctx.mkEq(a_0,tp._2),ctx.mkEq(a_1,tp._1)));
- }
- //Constraint2 acl_func(a_0,a_1) == or(foreach ip1,ip2 in acl_map ((a_0 == ip1 && a_1 == ip2)||(a_0 == ip2 && a_1 == ip1)))
- solver.add(ctx.mkForall(new Expr[]{a_0, a_1},
- ctx.mkEq(
- acl_func.apply(a_0, a_1),
- ctx.mkOr(acl_map)),1,null,null,null,null));
- }
-} \ No newline at end of file