diff options
Diffstat (limited to 'verigraph/service/src/mcnet/components/Checker.java')
-rw-r--r-- | verigraph/service/src/mcnet/components/Checker.java | 363 |
1 files changed, 363 insertions, 0 deletions
diff --git a/verigraph/service/src/mcnet/components/Checker.java b/verigraph/service/src/mcnet/components/Checker.java new file mode 100644 index 0000000..3c13d28 --- /dev/null +++ b/verigraph/service/src/mcnet/components/Checker.java @@ -0,0 +1,363 @@ +/******************************************************************************* + * 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.components; + + +import java.util.ArrayList; +import java.util.Arrays; +import java.util.List; + +import com.microsoft.z3.BoolExpr; +import com.microsoft.z3.Context; +import com.microsoft.z3.Expr; +import com.microsoft.z3.IntExpr; +import com.microsoft.z3.Model; +import com.microsoft.z3.Solver; +import com.microsoft.z3.Status; + +/**Various checks for specific properties in the network. + * + */ +public class Checker { + + Context ctx; + Network net; + NetContext nctx; + Solver solver; + ArrayList<BoolExpr> constraints; + public BoolExpr [] assertions; + public Status result; + public Model model; + + + public Checker(Context context,NetContext nctx,Network network){ + this.ctx = context; + this.net = network; + this.nctx = nctx; + this.solver = ctx.mkSolver(); + this.constraints = new ArrayList<BoolExpr>(); + } + + /**Resets the constraints + * + */ + public void clearState (){ + this.solver.reset(); + this.constraints = new ArrayList<BoolExpr>(); + } + + /**Checks whether the source provided can reach the destination + * + * @param src + * @param dest + * @return + */ + public IsolationResult checkIsolationProperty (NetworkObject src, NetworkObject dest){ + assert(net.elements.contains(src)); + assert(net.elements.contains(dest)); + solver.push (); + addConstraints(); + + Expr p0 = ctx.mkConst("check_isolation_p0_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.packet); + Expr p1 = ctx.mkConst("check_isolation_p1_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.packet); + Expr n_0 =ctx.mkConst("check_isolation_n_0_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.node); + Expr n_1 =ctx.mkConst("check_isolation_n_1_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.node); + IntExpr t_0 = ctx.mkIntConst("check_isolation_t0_"+src.getZ3Node()+"_"+dest.getZ3Node()); + IntExpr t_1 = ctx.mkIntConst("check_isolation_t1_"+src.getZ3Node()+"_"+dest.getZ3Node()); + + // Constraint1 recv(n_0,destNode,p0,t_0) + this.solver.add((BoolExpr)nctx.recv.apply(n_0, dest.getZ3Node(), p0, t_0)); + + // Constraint2 send(srcNode,n_1,p1,t_1) + this.solver.add((BoolExpr)nctx.send.apply(src.getZ3Node(), n_1, p1, t_1)); + + // Constraint3 nodeHasAddr(srcNode,p1.srcAddr) + this.solver.add((BoolExpr)nctx.nodeHasAddr.apply(src.getZ3Node(), nctx.pf.get("src").apply(p1))); + + // Constraint4 p1.origin == srcNode + this.solver.add(ctx.mkEq(nctx.pf.get("origin").apply(p1), src.getZ3Node())); + + // Constraint5 nodeHasAddr(destNode,p1.destAddr) + this.solver.add((BoolExpr)nctx.nodeHasAddr.apply(dest.getZ3Node(), nctx.pf.get("dest").apply(p1))); + + //NON sembrano necessari + // this.solver.add(z3.Or(this.ctx.nodeHasAddr(src.getZ3Node(), this.ctx.packet.src(p0)),\ + // this.ctx.nodeHasAddr(n_0, this.ctx.packet.src(p0)),\ + // this.ctx.nodeHasAddr(n_1, this.ctx.packet.src(p0)))) + //this.solver.add(this.ctx.packet.dest(p1) == this.ctx.packet.dest(p0)) + + // Constraint6 p1.origin == p0.origin + this.solver.add(ctx.mkEq(nctx.pf.get("origin").apply(p1),nctx.pf.get("origin").apply(p0))); + + // Constraint7 nodeHasAddr(destNode, p0.destAddr) + this.solver.add((BoolExpr)nctx.nodeHasAddr.apply(dest.getZ3Node(), nctx.pf.get("dest").apply(p0))); + + result = this.solver.check(); + model = null; + assertions = this.solver.getAssertions(); + if (result == Status.SATISFIABLE){ + model = this.solver.getModel(); + } + this.solver.pop(); + return new IsolationResult(ctx,result, p0, n_0, t_1, t_0, nctx, assertions, model); + } + + + + public IsolationResult CheckIsolationFlowProperty (NetworkObject src, NetworkObject dest){ + assert(net.elements.contains(src)); + assert(net.elements.contains(dest)); + solver.push (); + addConstraints(); + + Expr p = ctx.mkConst("check_isolation_p_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.packet); + Expr n_0 =ctx.mkConst("check_isolation_n_0_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.node); + Expr n_1 =ctx.mkConst("check_isolation_n_1_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.node); + Expr n_2 =ctx.mkConst("check_isolation_n_1_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.node); + + IntExpr t_0 = ctx.mkIntConst("check_isolation_t0_"+src.getZ3Node()+"_"+dest.getZ3Node()); + IntExpr t_1 = ctx.mkIntConst("check_isolation_t1_"+src.getZ3Node()+"_"+dest.getZ3Node()); + IntExpr t_2 = ctx.mkIntConst("check_isolation_t2_"+src.getZ3Node()+"_"+dest.getZ3Node()); + + // Constraint1 recv(n_0,destNode,p,t_0) + this.solver.add((BoolExpr)nctx.recv.apply(n_0, dest.getZ3Node(), p, t_0)); + + // Constraint2 send(srcNode,n_1,p1,t_1) + this.solver.add((BoolExpr)nctx.send.apply(src.getZ3Node(), n_1, p, t_1)); + + // Constraint3 nodeHasAddr(srcNode,p.srcAddr) + this.solver.add((BoolExpr)nctx.nodeHasAddr.apply(src.getZ3Node(), nctx.pf.get("src").apply(p))); + + // Constraint4 p.origin == srcNode + this.solver.add(ctx.mkEq(nctx.pf.get("origin").apply(p), src.getZ3Node())); + + + Expr p_2 = ctx.mkConst("check_isolation_p_flow_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.packet); + + // Constraint5 there does not exist p_2, n_2, t_2 : + // send(destNode,n_2,p_2,t_2) && + // p_2.srcAddr == p. destAddr && + // p_2.srcPort == p.destPort && + // p_2.destPort == p.srcPort && + // p_2.destt == p.src && + // t_2 < t_0 + this.solver.add(ctx.mkNot(ctx.mkExists(new Expr[]{p_2,n_2,t_2}, + ctx.mkAnd( + (BoolExpr)nctx.send.apply(dest.getZ3Node(), n_2, p_2, t_2), + ctx.mkEq(nctx.pf.get("src").apply(p_2), nctx.pf.get("dest").apply(p)), + ctx.mkEq(nctx.pf.get("src_port").apply(p_2), nctx.pf.get("dest_port").apply(p)), + ctx.mkEq(nctx.pf.get("dest_port").apply(p_2), nctx.pf.get("src_port").apply(p)), + ctx.mkEq(nctx.pf.get("dest").apply(p_2), nctx.pf.get("src").apply(p)), + ctx.mkLt(t_2,t_0)),1,null,null,null,null))); + + + result = this.solver.check(); + model = null; + assertions = this.solver.getAssertions(); + if (result == Status.SATISFIABLE){ + model = this.solver.getModel(); + } + this.solver.pop(); + return new IsolationResult(ctx,result, p, n_0, t_1, t_0, nctx, assertions, model); + } + + + + public IsolationResult CheckNodeTraversalProperty (NetworkObject src, NetworkObject dest, NetworkObject node){ + assert(net.elements.contains(src)); + assert(net.elements.contains(dest)); + solver.push (); + addConstraints(); + + Expr p = ctx.mkConst("check_isolation_p_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.packet); + + Expr n_0 =ctx.mkConst("check_isolation_n_0_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.node); + Expr n_1 =ctx.mkConst("check_isolation_n_1_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.node); + Expr n_2 =ctx.mkConst("check_isolation_n_1_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.node); + + IntExpr t_0 = ctx.mkIntConst("check_isolation_t0_"+src.getZ3Node()+"_"+dest.getZ3Node()); + IntExpr t_1 = ctx.mkIntConst("check_isolation_t1_"+src.getZ3Node()+"_"+dest.getZ3Node()); + IntExpr t_2 = ctx.mkIntConst("check_isolation_t2_"+src.getZ3Node()+"_"+dest.getZ3Node()); + + // Constraint1 recv(n_0,destNode,p,t_0) + this.solver.add((BoolExpr)nctx.recv.apply(n_0, dest.getZ3Node(), p, t_0)); + + // Constraint2 send(srcNode,n_1,p1,t_1) + this.solver.add((BoolExpr)nctx.send.apply(src.getZ3Node(), n_1, p, t_1)); + + // Constraint3 nodeHasAddr(srcNode,p.srcAddr) + this.solver.add((BoolExpr)nctx.nodeHasAddr.apply(src.getZ3Node(), nctx.pf.get("src").apply(p))); + + // Constraint4 p.origin == srcNode + this.solver.add(ctx.mkEq(nctx.pf.get("origin").apply(p), src.getZ3Node())); + + + // Constraint5 there does not exist n_2, t_2 : recv(n_2,node,p,t_2) && t_2 < t_0 + this.solver.add(ctx.mkNot(ctx.mkExists(new Expr[]{n_2,t_2}, + ctx.mkAnd( + (BoolExpr)nctx.recv.apply(n_2, node.getZ3Node(), p, t_2), + ctx.mkLt(t_2,t_0)),1,null,null,null,null))); + + // Constraint 6 there does not exist n_2, t_2 : send(node,n_2,p,t_2) && t_2 < t_0 + this.solver.add(ctx.mkNot(ctx.mkExists(new Expr[]{n_2,t_2}, + ctx.mkAnd( + (BoolExpr)nctx.send.apply(node.getZ3Node(), n_2, p, t_2), + ctx.mkLt(t_2,t_0)),1,null,null,null,null))); + + + result = this.solver.check(); + model = null; + assertions = this.solver.getAssertions(); + if (result == Status.SATISFIABLE){ + model = this.solver.getModel(); + } + this.solver.pop(); + return new IsolationResult(ctx,result, p, n_0, t_1, t_0, nctx, assertions, model); + + } + + public IsolationResult CheckLinkTraversalProperty (NetworkObject src, NetworkObject dest, NetworkObject le0, NetworkObject le1){ + assert(net.elements.contains(src)); + assert(net.elements.contains(dest)); + solver.push (); + addConstraints(); + + Expr p = ctx.mkConst("check_isolation_p_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.packet); + + Expr n_0 =ctx.mkConst("check_isolation_n_0_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.node); + Expr n_1 =ctx.mkConst("check_isolation_n_1_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.node); + + IntExpr t_0 = ctx.mkIntConst("check_isolation_t0_"+src.getZ3Node()+"_"+dest.getZ3Node()); + IntExpr t_1 = ctx.mkIntConst("check_isolation_t1_"+src.getZ3Node()+"_"+dest.getZ3Node()); + IntExpr t_2 = ctx.mkIntConst("check_isolation_t2_"+src.getZ3Node()+"_"+dest.getZ3Node()); + + // Constraint1 recv(n_0,destNode,p,t_0) + this.solver.add((BoolExpr)nctx.recv.apply(n_0, dest.getZ3Node(), p, t_0)); + + // Constraint2 send(srcNode,n_1,p1,t_1) + this.solver.add((BoolExpr)nctx.send.apply(src.getZ3Node(), n_1, p, t_1)); + + // Constraint3 nodeHasAddr(srcNode,p.srcAddr) + this.solver.add((BoolExpr)nctx.nodeHasAddr.apply(src.getZ3Node(), nctx.pf.get("src").apply(p))); + + // Constraint4 p.origin == srcNode + this.solver.add(ctx.mkEq(nctx.pf.get("origin").apply(p), src.getZ3Node())); + + // Constraint5 ∃ t_1, t_2 : + // send(linkNode0,linkNode1,p,t_1) && + // recv(linkNode0,linkNode1,p,t_2) && + // t_1 < t_0 && + // t_2 < t_0 + this.solver.add(ctx.mkExists(new Expr[]{t_1,t_2}, + ctx.mkAnd( + (BoolExpr)nctx.send.apply(le0.getZ3Node(), le1.getZ3Node(), p, t_1), + (BoolExpr)nctx.recv.apply(le0.getZ3Node(), le1.getZ3Node(), p, t_2), + ctx.mkLt(t_1,t_0), + ctx.mkLt(t_2,t_0)),1,null,null,null,null)); + + + result = this.solver.check(); + model = null; + assertions = this.solver.getAssertions(); + if (result == Status.SATISFIABLE){ + model = this.solver.getModel(); + } + this.solver.pop(); + return new IsolationResult(ctx,result, p, n_0, t_1, t_0, nctx, assertions, model); + + } + + public Result CheckDataIsolationPropertyCore (NetworkObject src, NetworkObject dest){ + assert(net.elements.contains(src)); + assert(net.elements.contains(dest)); + List<BoolExpr> constr = this.getConstraints(); + Expr p = ctx.mkConst("check_isolation_p_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.packet); + + Expr n_0 =ctx.mkConst("check_isolation_n_0_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.node); + IntExpr t = ctx.mkIntConst("check_isolation_t_"+src.getZ3Node()+"_"+dest.getZ3Node()); + + // Constraint1 recv(n_0,destNode,p,t) + constr.add((BoolExpr)nctx.recv.apply(n_0, dest.getZ3Node(), p, t)); + + // Constraint2 p.origin == srcNode + this.solver.add(ctx.mkEq(nctx.pf.get("origin").apply(p), src.getZ3Node())); + + this.solver.push(); + + // Constraint3 for each constraint( n -> constraint) + ArrayList<BoolExpr> names =new ArrayList<BoolExpr>(); + for(BoolExpr con : constr){ + BoolExpr n = ctx.mkBoolConst(""+con); + names.add(n); + this.solver.add(ctx.mkImplies(n, con)); + } + + BoolExpr[] nam = new BoolExpr[names.size()]; + result = this.solver.check(names.toArray(nam)); + Result ret =null; + + if (result == Status.SATISFIABLE){ + System.out.println("SAT"); + ret = new Result(ctx,this.solver.getModel()); + }else if(result == Status.UNSATISFIABLE){ + System.out.println("unsat"); + ret = new Result(ctx,this.solver.getUnsatCore()); + } + this.solver.pop(); + return ret; + } + + public DataIsolationResult CheckDataIsolationProperty(NetworkObject src, NetworkObject dest){ + assert(net.elements.contains(src)); + assert(net.elements.contains(dest)); + solver.push (); + addConstraints(); + + Expr p = ctx.mkConst("check_isolation_p_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.packet); + + Expr n_0 =ctx.mkConst("check_isolation_n_0_"+src.getZ3Node()+"_"+dest.getZ3Node(), nctx.node); + IntExpr t = ctx.mkIntConst("check_isolation_t_"+src.getZ3Node()+"_"+dest.getZ3Node()); + + // Constraint1 recv(n_0,destNode,p,t) + this.solver.add((BoolExpr)nctx.recv.apply(n_0, dest.getZ3Node(), p, t)); + + // Constraint2 p.origin == srcNode + this.solver.add(ctx.mkEq(nctx.pf.get("origin").apply(p), src.getZ3Node())); + + result = this.solver.check(); + model = null; + assertions = this.solver.getAssertions(); + if (result == Status.SATISFIABLE){ + model = this.solver.getModel(); + } + this.solver.pop(); + return new DataIsolationResult(ctx,result, p, n_0, t, nctx, assertions, model); + } + + + + + public void addConstraints(){ + nctx.addConstraints(solver); + net.addConstraints(solver); + for (NetworkObject el : net.elements) + el.addConstraints(solver); + } + + + public List<BoolExpr> getConstraints(){ + Solver l = ctx.mkSolver(); + nctx.addConstraints(l); + net.addConstraints(l); + for (NetworkObject el : net.elements) + el.addConstraints(l); + return Arrays.asList(l.getAssertions()); + } +} |