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[/] [ao486/] [trunk/] [ao486_tool/] [src/] [ao486/] [test/] [branch/] [TestIRET_protected_same.java] - Rev 2
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/* * Copyright (c) 2014, Aleksander Osman * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * * 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. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "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 COPYRIGHT HOLDER OR CONTRIBUTORS 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. */ package ao486.test.branch; import ao486.test.TestUnit; import ao486.test.layers.DescriptorTableLayer; import ao486.test.layers.FlagsLayer; import ao486.test.layers.GeneralRegisterLayer; import ao486.test.layers.HandleModeChangeLayer; import ao486.test.layers.IOLayer; import ao486.test.layers.InstructionLayer; import ao486.test.layers.Layer; import ao486.test.layers.MemoryLayer; import ao486.test.layers.MemoryPatchLayer; import ao486.test.layers.OtherLayer; import ao486.test.layers.Pair; import ao486.test.layers.SegmentLayer; import ao486.test.layers.StackLayer; import java.io.*; import java.util.LinkedList; import java.util.Random; public class TestIRET_protected_same extends TestUnit implements Serializable { public static void main(String args[]) throws Exception { run_test(TestIRET_protected_same.class); } //-------------------------------------------------------------------------- @Override public int get_test_count() throws Exception { return 100; } @Override public void init() throws Exception { random = new Random(45 + index); String instruction; while(true) { layers.clear(); LinkedList<Pair<Long, Long>> prohibited_list = new LinkedList<>(); InstructionLayer instr = new InstructionLayer(random, prohibited_list); layers.add(instr); StackLayer stack = new StackLayer(random, prohibited_list); layers.add(stack); layers.add(new OtherLayer(OtherLayer.Type.PROTECTED_OR_V8086, random)); layers.add(new FlagsLayer(FlagsLayer.Type.NOT_V8086_NOT_NT, random)); layers.add(new GeneralRegisterLayer(random)); layers.add(new SegmentLayer(random)); layers.add(new MemoryLayer(random)); layers.add(new IOLayer(random)); layers.addFirst(new HandleModeChangeLayer( getInput("cr0_pe"), getInput("vmflag"), getInput("cs_rpl"), getInput("cs_p"), getInput("cs_s"), getInput("cs_type") )); /* * 0. cs_selector null * 1. cs_descriptor out of bounds * 2. check cs * 3. same: eip out of bounds * 4. same: all ok */ int test_type = random.nextInt(5); // instruction size boolean cs_d_b = getInput("cs_d_b") == 1; boolean a32 = random.nextBoolean(); boolean o32 = random.nextBoolean(); long cs = random.nextInt(4); long eip = Layer.norm(random.nextInt()); long eflags = Layer.norm(random.nextInt()); // eflags with no vmflag eflags &= 0xFFFDFFFF; if(test_type == 0) { // nothing } else if(test_type == 1) { boolean ldtr_valid = random.nextInt(5) != 0; DescriptorTableLayer tables = new DescriptorTableLayer(random, prohibited_list, ldtr_valid); boolean is_ldt = (ldtr_valid == false)? false : random.nextBoolean(); int index = tables.getOutOfBoundsIndex(is_ldt); if(index == -1) continue; index = index << 3; if(is_ldt) index |= 4; index |= random.nextInt(4); cs = index; layers.addFirst(tables); } else if(test_type == 2 || test_type == 3 || test_type == 4) { DescriptorTableLayer tables = new DescriptorTableLayer(random, prohibited_list, true); boolean is_ldt = random.nextBoolean(); boolean conds[] = new boolean[6]; int cond = 1 << random.nextInt(conds.length); if(test_type >= 3) cond = 0; int new_cs_rpl = 0; int old_cs_rpl = 0; boolean new_cs_seg = false; int new_cs_type = 0; int new_cs_dpl = 0; boolean new_cs_p = false; do { new_cs_rpl = random.nextInt(4); old_cs_rpl = random.nextInt(4); new_cs_seg = random.nextBoolean(); new_cs_type = random.nextInt(16); new_cs_dpl = random.nextInt(4); new_cs_p = random.nextBoolean(); if(test_type >= 3) old_cs_rpl = new_cs_rpl; conds[0] = new_cs_rpl < old_cs_rpl; //check_cs() conds[1] = new_cs_seg == false; conds[2] = ((new_cs_type >> 3)&1) == 0; // is data segment conds[3] = ((new_cs_type >> 3)&1) == 1 && ((new_cs_type >> 2)&1) == 0 && new_cs_dpl != new_cs_rpl; // code non conforming conds[4] = ((new_cs_type >> 3)&1) == 1 && ((new_cs_type >> 2)&1) == 1 && new_cs_dpl > new_cs_rpl; // code conforming conds[5] = new_cs_p == false; } while(!isAccepted(cond, conds[0],conds[1],conds[2],conds[3],conds[4],conds[5])); long new_cs_base, new_cs_limit; boolean new_cs_g; while(true) { new_cs_base = Layer.norm(random.nextInt()); new_cs_g = random.nextBoolean(); new_cs_limit = random.nextInt(new_cs_g? 0xF : 0xFFFF); if(new_cs_g) new_cs_limit = (new_cs_limit << 12) | 0xFFF; if( new_cs_base + new_cs_limit < 4294967296L && Layer.collides(prohibited_list, (int)new_cs_base, (int)(new_cs_base + new_cs_limit)) == false ) break; } boolean new_cs_d_b = random.nextBoolean(); boolean new_cs_l = random.nextBoolean(); boolean new_cs_avl = random.nextBoolean(); long new_cs_limit_final = new_cs_g? new_cs_limit >> 12 : new_cs_limit; Descriptor cs_desc = new Descriptor((int)new_cs_base, (int)new_cs_limit_final, new_cs_type, new_cs_seg, new_cs_p, new_cs_dpl, new_cs_d_b, new_cs_g, new_cs_l, new_cs_avl); final int old_cs_rpl_final = old_cs_rpl; Layer cs_rpl_layer = new Layer() { long cs_rpl() { return old_cs_rpl_final; } }; layers.addFirst(cs_rpl_layer); int index = tables.addDescriptor(is_ldt, cs_desc); if(index == -1) continue; index = index << 3; if(is_ldt) index |= 4; index |= new_cs_rpl; cs = index; layers.addFirst(tables); if(test_type == 3) { while(true) { eip = new_cs_limit + 1 + random.nextInt(10); if(o32 == false) eip &= 0xFFFF; if(eip > new_cs_limit) break; } if(o32 == false) eip |= (random.nextInt() & 0xFFFF0000); } else if(test_type == 4) { while(true) { eip = Layer.norm(random.nextInt((int)new_cs_limit+1)); if(o32 == false) eip &= 0xFFFF; if(eip <= new_cs_limit) break; } long dest = new_cs_base + eip; // adding always possible MemoryPatchLayer patch = new MemoryPatchLayer(random, prohibited_list, (int)dest, 0x0F,0x0F); layers.addFirst(patch); if(o32 == false) eip |= (random.nextInt() & 0xFFFF0000); System.out.printf("new_cs_base: %08x, new_cs_limit: %08x\n", new_cs_base, new_cs_limit); } } // stack if(o32) { stack.push_dword((int)eip); //eip stack.push_dword((int)cs); //cs stack.push_dword((int)eflags); //eflags } else { stack.push_word((int)eip); //eip stack.push_word((int)cs); //cs stack.push_word((int)eflags); //eflags } // add instruction instruction = prepare_instr(cs_d_b, a32, o32); instr.add_instruction(instruction); // end condition break; } System.out.println("Instruction: [" + instruction + "]"); } int imm_len(boolean a32, boolean o32, int opcode) { return 0; } String prepare_instr(boolean cs_d_b, boolean a32, boolean o32) throws Exception { int opcodes[] = { 0xCF }; String prefix = ""; if(cs_d_b != o32) { prefix = "66" + prefix; } if(cs_d_b != a32) { prefix = "67" + prefix; } int opcode = opcodes[random.nextInt(opcodes.length)]; boolean is_modregrm = false; byte possible_modregrm = (byte)random.nextInt(); byte possible_sib = (byte)random.nextInt(); int len = (is_modregrm == false)? 1 : 1 + modregrm_len(!cs_d_b, unsigned(possible_modregrm), unsigned(possible_sib)); len += imm_len(a32, o32, opcode); byte instr[] = new byte[len]; instr[0] = (byte)opcode; for(int i=1; i<len; i++) { if(i==1) instr[1] = possible_modregrm; else if(i==2) instr[2] = possible_sib; else instr[i] = (byte)random.nextInt(); } return prefix + bytesToHex(instr); } }