1 package org.ibex.nestedvm;
5 import org.ibex.nestedvm.util.*;
6 import org.ibex.classgen.*;
8 // FEATURE: Use IINC where possible
9 // FEATURE: Use BCEL to do peephole optimization
10 // FEATURE: Special mode to support single-precision only - regs are floats not ints
12 /* FEATURE: Span large binaries across several classfiles
13 * We should be able to do this with no performance penalty
14 * Every method in the inner classes is static and takes the main class as an arg
15 * This makes them look just like methods in the main class because arg1 gets loaded into
19 /* FEATURE: smarter with local regs
20 * Be even smarter with the use of local registers. We need to only load fields into
21 * local regs when they are actually used and only write to fields if the regs could have
22 * changed. This should allow us to put more regs in local vars. Right now putting all used
23 * regs local vars makes code like this slower.
25 * void work(int a, int b) {
32 * Because all the regs used in "real work" are loaded/restored even for fast path
36 public class ClassFileCompiler extends Compiler implements CGConst {
37 /** The stream to write the compiled output to */
38 private OutputStream os;
39 private PrintStream warn = System.err;
42 private MethodGen clinit;
43 private MethodGen init;
44 private Type.Object me;
45 private Type.Object superClass;
47 public ClassFileCompiler(String path, String className, OutputStream os) throws IOException { this(new Seekable.File(path),className,os); }
48 public ClassFileCompiler(Seekable binary, String className, OutputStream os) throws IOException {
49 super(binary,className);
53 public void setWarnWriter(PrintStream warn) { this.warn = warn; }
55 protected void _go() throws Exn, IOException {
56 if(lessConstants) throw new Exn("ClassFileCompiler doesn't support -o lessconstants");
57 if(!pruneCases) throw new Exn("-o prunecases MUST be enabled for ClassFileCompiler");
60 me = new Type.Object(fullClassName);
61 superClass = new Type.Object(runtimeClass);
62 cg = new ClassGen(me,superClass,ACC_PUBLIC|ACC_FINAL|ACC_SUPER);
63 if(source != null) cg.setSourceFile(source);
66 cg.addField("pc",Type.INT,ACC_PRIVATE);
67 cg.addField("hi",Type.INT,ACC_PRIVATE);
68 cg.addField("lo",Type.INT,ACC_PRIVATE);
69 cg.addField("fcsr",Type.INT,ACC_PRIVATE);
70 for(int i=1;i<32;i++) cg.addField("r" + i,Type.INT,ACC_PRIVATE);
71 for(int i=0;i<32;i++) cg.addField("f" + i,Type.INT,ACC_PRIVATE);
73 clinit = cg.addMethod("<clinit>",Type.VOID,Type.NO_ARGS,ACC_PRIVATE|ACC_STATIC);
75 init = cg.addMethod("<init>",Type.VOID,Type.NO_ARGS,ACC_PUBLIC);
77 init.add(LDC,pageSize);
78 init.add(LDC,totalPages);
79 init.add(INVOKESPECIAL,new MethodRef(me,"<init>",Type.VOID,new Type[]{Type.INT,Type.INT}));
82 init = cg.addMethod("<init>",Type.VOID,new Type[]{Type.INT,Type.INT},ACC_PUBLIC);
86 init.add(INVOKESPECIAL,new MethodRef(superClass,"<init>",Type.VOID,new Type[]{Type.INT,Type.INT}));
89 cg.addField("page",Type.arrayType(Type.INT),ACC_PRIVATE|ACC_FINAL);
92 init.add(GETFIELD,new FieldRef(me,"readPages",Type.arrayType(Type.INT,2)));
95 init.add(PUTFIELD,new FieldRef(me,"page",Type.arrayType(Type.INT)));
99 cg.addField("symbols",new Type.Object(hashClass),ACC_PRIVATE|ACC_STATIC|ACC_FINAL);
103 for(int i=0;i<elf.sheaders.length;i++) {
104 ELF.SHeader sheader = elf.sheaders[i];
105 String name = sheader.name;
106 // if this section doesn't get loaded into our address space don't worry about it
107 if(sheader.addr == 0x0) continue;
109 highestAddr = Math.max(highestAddr, sheader.addr + sheader.size);
111 if(name.equals(".text"))
112 emitText(sheader.addr, new DataInputStream(sheader.getInputStream()),sheader.size);
113 else if(name.equals(".data") || name.equals(".sdata") || name.equals(".rodata") || name.equals(".ctors") || name.equals(".dtors"))
114 emitData(sheader.addr, new DataInputStream(sheader.getInputStream()), sheader.size,name.equals(".rodata"));
115 else if(name.equals(".bss") || name.equals(".sbss"))
116 emitBSS(sheader.addr,sheader.size);
118 throw new Exn("Unknown segment: " + name);
126 Type.Object hash = new Type.Object(hashClass);
127 clinit.add(NEW,hash);
130 clinit.add(INVOKESPECIAL,new MethodRef(hash,"<init>",Type.VOID,Type.NO_ARGS));
131 clinit.add(PUTSTATIC,new FieldRef(me,"symbols",hash));
132 ELF.Symbol[] symbols = elf.getSymtab().symbols;
133 for(int i=0;i<symbols.length;i++) {
134 ELF.Symbol s = symbols[i];
135 if(s.type == ELF.Symbol.STT_FUNC && s.binding == ELF.Symbol.STB_GLOBAL && (s.name.equals("_call_helper") || !s.name.startsWith("_"))) {
137 clinit.add(LDC,s.name);
138 clinit.add(NEW,Type.INTEGER_OBJECT);
140 clinit.add(LDC,s.addr);
141 clinit.add(INVOKESPECIAL,new MethodRef(Type.INTEGER_OBJECT,"<init>",Type.VOID,new Type[]{Type.INT}));
142 clinit.add(INVOKEVIRTUAL,new MethodRef(hash,"put",Type.OBJECT,new Type[]{Type.OBJECT,Type.OBJECT}));
151 ELF.SHeader text = elf.sectionWithName(".text");
154 MethodGen tramp = cg.addMethod("trampoline",Type.VOID,Type.NO_ARGS,ACC_PRIVATE);
156 int start = tramp.size();
158 tramp.add(GETFIELD,new FieldRef(me,"state",Type.INT));
159 tramp.add(LDC,Runtime.RUNNING);
161 int stateCheck = tramp.add(IF_ICMPNE);
164 tramp.add(GETFIELD,new FieldRef(me,"pc",Type.INT));
165 tramp.add(LDC,methodShift);
168 int beg = text.addr >>> methodShift;
169 int end = ((text.addr + text.size + maxBytesPerMethod - 1) >>> methodShift);
171 MethodGen.TSI tsi = new MethodGen.TSI(beg,end-1);
172 tramp.add(TABLESWITCH,tsi);
173 for(int n=beg;n<end;n++) {
174 tsi.setTargetForVal(n,tramp.size());
175 tramp.add(INVOKESPECIAL,new MethodRef(me,"run_"+toHex(n<<methodShift),Type.VOID,Type.NO_ARGS));
176 tramp.add(GOTO,start);
178 tsi.setDefaultTarget(tramp.size());
181 tramp.add(NEW,new Type.Object("org.ibex.nestedvm.Runtime$ExecutionException"));
183 tramp.add(NEW, Type.STRINGBUFFER);
185 tramp.add(LDC,"Jumped to invalid address in trampoline (r2: ");
186 tramp.add(INVOKESPECIAL,new MethodRef(Type.STRINGBUFFER,"<init>",Type.VOID,new Type[]{Type.STRING}));
188 tramp.add(GETFIELD, new FieldRef(me,"r2",Type.INT));
189 tramp.add(INVOKEVIRTUAL,new MethodRef(Type.STRINGBUFFER,"append",Type.STRINGBUFFER,new Type[]{Type.INT}));
190 tramp.add(LDC," pc: ");
191 tramp.add(INVOKEVIRTUAL,new MethodRef(Type.STRINGBUFFER,"append",Type.STRINGBUFFER,new Type[]{Type.STRING}));
193 tramp.add(GETFIELD, new FieldRef(me,"pc",Type.INT));
194 tramp.add(INVOKEVIRTUAL,new MethodRef(Type.STRINGBUFFER,"append",Type.STRINGBUFFER,new Type[]{Type.INT}));
196 tramp.add(INVOKEVIRTUAL,new MethodRef(Type.STRINGBUFFER,"append",Type.STRINGBUFFER,new Type[]{Type.STRING}));
197 tramp.add(INVOKEVIRTUAL,new MethodRef(Type.STRINGBUFFER,"toString",Type.STRING,Type.NO_ARGS));
198 tramp.add(INVOKESPECIAL,new MethodRef(new Type.Object("org.ibex.nestedvm.Runtime$ExecutionException"),"<init>",Type.VOID,new Type[]{Type.STRING}));
201 tramp.setArg(stateCheck,tramp.size());
206 } catch(ClassGen.Exn e) {
207 e.printStackTrace(warn);
208 throw new Exn("Generation of the trampoline method failed. Try increasing maxInsnPerMethod");
211 addConstReturnMethod("gp",gp.addr);
212 addConstReturnMethod("entryPoint",elf.header.entry);
213 addConstReturnMethod("heapStart",highestAddr);
215 if(userInfo != null) {
216 addConstReturnMethod("userInfoBase",userInfo.addr);
217 addConstReturnMethod("userInfoSize",userInfo.size);
221 Type.Object hashClassType = new Type.Object(hashClass);
222 MethodGen ls = cg.addMethod("lookupSymbol",Type.INT,new Type[]{Type.STRING},ACC_PROTECTED);
223 ls.add(GETSTATIC,new FieldRef(me,"symbols",hashClassType));
225 ls.add(INVOKEVIRTUAL,new MethodRef(hashClassType,"get",Type.OBJECT,new Type[]{Type.OBJECT}));
227 int b = ls.add(IFNULL);
228 ls.add(CHECKCAST,Type.INTEGER_OBJECT);
229 ls.add(INVOKEVIRTUAL,new MethodRef(Type.INTEGER_OBJECT,"intValue",Type.INT,Type.NO_ARGS));
231 ls.setArg(b,ls.size());
237 Type.Object cpuStateType = new Type.Object("org.ibex.nestedvm.Runtime$CPUState");
238 MethodGen setCPUState = cg.addMethod("setCPUState",Type.VOID,new Type[]{cpuStateType},ACC_PROTECTED);
239 MethodGen getCPUState = cg.addMethod("getCPUState",Type.VOID,new Type[]{cpuStateType},ACC_PROTECTED);
241 setCPUState.add(ALOAD_1);
242 getCPUState.add(ALOAD_1);
243 setCPUState.add(GETFIELD,new FieldRef(cpuStateType,"r",Type.arrayType(Type.INT)));
244 getCPUState.add(GETFIELD,new FieldRef(cpuStateType,"r",Type.arrayType(Type.INT)));
245 setCPUState.add(ASTORE_2);
246 getCPUState.add(ASTORE_2);
248 for(int i=1;i<32;i++) {
249 setCPUState.add(ALOAD_0);
250 setCPUState.add(ALOAD_2);
251 setCPUState.add(LDC,i);
252 setCPUState.add(IALOAD);
253 setCPUState.add(PUTFIELD,new FieldRef(me,"r"+i,Type.INT));
255 getCPUState.add(ALOAD_2);
256 getCPUState.add(LDC,i);
257 getCPUState.add(ALOAD_0);
258 getCPUState.add(GETFIELD,new FieldRef(me,"r"+i,Type.INT));
259 getCPUState.add(IASTORE);
262 setCPUState.add(ALOAD_1);
263 getCPUState.add(ALOAD_1);
264 setCPUState.add(GETFIELD,new FieldRef(cpuStateType,"f",Type.arrayType(Type.INT)));
265 getCPUState.add(GETFIELD,new FieldRef(cpuStateType,"f",Type.arrayType(Type.INT)));
266 setCPUState.add(ASTORE_2);
267 getCPUState.add(ASTORE_2);
269 for(int i=0;i<32;i++) {
270 setCPUState.add(ALOAD_0);
271 setCPUState.add(ALOAD_2);
272 setCPUState.add(LDC,i);
273 setCPUState.add(IALOAD);
274 setCPUState.add(PUTFIELD,new FieldRef(me,"f"+i,Type.INT));
276 getCPUState.add(ALOAD_2);
277 getCPUState.add(LDC,i);
278 getCPUState.add(ALOAD_0);
279 getCPUState.add(GETFIELD,new FieldRef(me,"f"+i,Type.INT));
280 getCPUState.add(IASTORE);
283 String[] each = new String[] { "hi","lo","fcsr","pc" };
284 for(int i=0;i<each.length;i++) {
285 setCPUState.add(ALOAD_0);
286 setCPUState.add(ALOAD_1);
287 setCPUState.add(GETFIELD,new FieldRef(cpuStateType,each[i],Type.INT));
288 setCPUState.add(PUTFIELD,new FieldRef(me,each[i],Type.INT));
290 getCPUState.add(ALOAD_1);
291 getCPUState.add(ALOAD_0);
292 getCPUState.add(GETFIELD,new FieldRef(me,each[i],Type.INT));
293 getCPUState.add(PUTFIELD,new FieldRef(cpuStateType,each[i],Type.INT));
295 setCPUState.add(RETURN);
296 getCPUState.add(RETURN);
299 MethodGen execute = cg.addMethod("_execute",Type.VOID,Type.NO_ARGS,ACC_PROTECTED);
300 int tryStart = execute.size();
301 execute.add(ALOAD_0);
302 execute.add(INVOKESPECIAL,new MethodRef(me,"trampoline",Type.VOID,Type.NO_ARGS));
303 int tryEnd = execute.size();
306 int catchInsn = execute.size();
307 execute.add(ASTORE_1);
308 execute.add(NEW, new Type.Object("org.ibex.nestedvm.Runtime$FaultException"));
310 execute.add(ALOAD_1);
311 execute.add(INVOKESPECIAL,new MethodRef("org.ibex.nestedvm.Runtime$FaultException","<init>",Type.VOID,new Type[]{new Type.Object("java.lang.RuntimeException")}));
314 execute.addExceptionHandler(tryStart,tryEnd,catchInsn,new Type.Object("java.lang.RuntimeException"));
315 execute.addThrow(new Type.Object("org.ibex.nestedvm.Runtime$ExecutionException"));
317 MethodGen main = cg.addMethod("main",Type.VOID,new Type[]{Type.arrayType(Type.STRING)},ACC_STATIC|ACC_PUBLIC);
320 main.add(INVOKESPECIAL,new MethodRef(me,"<init>",Type.VOID,Type.NO_ARGS));
321 main.add(LDC,fullClassName);
324 Type.Object ur = new Type.Object("org.ibex.nestedvm.UnixRuntime");
325 main.add(INVOKESTATIC,new MethodRef(ur,"runAndExec",Type.INT,new Type[]{ur,Type.STRING,Type.arrayType(Type.STRING)}));
327 main.add(INVOKEVIRTUAL,new MethodRef(me,"run",Type.INT,new Type[]{Type.STRING,Type.arrayType(Type.STRING)}));
329 main.add(INVOKESTATIC,new MethodRef(new Type.Object("java.lang.System"),"exit",Type.VOID,new Type[]{Type.INT}));
335 private void addConstReturnMethod(String name, int val) {
336 MethodGen m = cg.addMethod(name,Type.INT,Type.NO_ARGS,ACC_PROTECTED);
341 private static int initDataCount;
342 private void emitData(int addr, DataInputStream dis, int size, boolean readOnly) throws Exn,IOException {
343 if((addr&3)!=0 || (size&3)!=0) throw new Exn("Data section on weird boundaries");
344 int last = addr + size;
346 int segSize = Math.min(size,28000); // must be a multiple of 56
347 StringBuffer sb = new StringBuffer();
348 for(int i=0;i<segSize;i+=7) {
350 for(int j=0;j<7;j++) {
352 byte b = (i+j < size) ? dis.readByte() : 1;
356 sb.append((char) ((l>>>(7*(7-j)))&0x7f));
358 String fieldname = "_data" + (++initDataCount);
359 cg.addField(fieldname,Type.arrayType(Type.INT),ACC_PRIVATE|ACC_STATIC|ACC_FINAL);
361 clinit.add(LDC,sb.toString());
362 clinit.add(LDC,segSize/4);
363 clinit.add(INVOKESTATIC,new MethodRef(new Type.Object("org.ibex.nestedvm.Runtime"),"decodeData",Type.arrayType(Type.INT),new Type[]{Type.STRING,Type.INT}));
364 clinit.add(PUTSTATIC,new FieldRef(me,fieldname,Type.arrayType(Type.INT)));
367 init.add(GETSTATIC,new FieldRef(me,fieldname,Type.arrayType(Type.INT)));
369 init.add(LDC,readOnly ? 1 : 0);
370 init.add(INVOKEVIRTUAL,new MethodRef(me,"initPages",Type.VOID,new Type[]{Type.arrayType(Type.INT),Type.INT,Type.BOOLEAN}));
378 private void emitBSS(int addr, int size) throws Exn {
379 if((addr&3)!=0) throw new Exn("BSS section on weird boundaries");
386 init.add(INVOKEVIRTUAL,new MethodRef(me,"clearPages",Type.VOID,new Type[]{Type.INT,Type.INT}));
390 private boolean textDone; // a text segment was already processed
391 private int startOfMethod = 0; // the start of this method (not necessarily the first instruction)
392 private int endOfMethod = 0; // the maximum end of this method (could end before it is full)
393 private boolean unreachable = false; // is the current pc is reachable
395 private MethodGen.PhantomTarget returnTarget; // where to jump when exiting the method
396 private MethodGen.PhantomTarget defaultTarget; // the default switch target (throws exn)
397 private MethodGen.PhantomTarget[] insnTargets; // the targets for each jumpable instruction
398 private MethodGen mg; // the method itself
400 private boolean jumpable(int addr) { return jumpableAddresses.get(new Integer(addr)) != null; }
402 private void emitText(int addr, DataInputStream dis, int size) throws Exn,IOException {
403 if(textDone) throw new Exn("Multiple text segments");
406 if((addr&3)!=0 || (size&3)!=0) throw new Exn("Section on weird boundaries");
408 int insn,nextInsn=-1;
409 boolean skipNext = true;
411 for(int i=0;i<count;i++,addr+=4) {
412 insn = skipNext ? dis.readInt() : nextInsn;
413 nextInsn = (i == count-1) ? -1 : dis.readInt();
414 if(addr >= endOfMethod) { endMethod(addr); startMethod(addr); }
415 if(insnTargets[(addr-startOfMethod)/4] != null) {
416 insnTargets[(addr-startOfMethod)/4].setTarget(mg.size());
418 } else if(unreachable) {
422 skipNext = emitInstruction(addr,insn,nextInsn);
423 } catch(RuntimeException e) {
424 warn.println("Exception at " + toHex(addr));
427 if(skipNext) { addr+=4; i++; }
434 private void startMethod(int first) {
435 startOfMethod = first & methodMask;
436 endOfMethod = startOfMethod + maxBytesPerMethod;
438 mg = cg.addMethod("run_" + toHex(startOfMethod),Type.VOID,Type.NO_ARGS,ACC_PRIVATE|ACC_FINAL);
441 mg.add(GETFIELD,new FieldRef(me,"page",Type.arrayType(Type.INT)));
445 mg.add(GETFIELD,new FieldRef(me,"readPages",Type.arrayType(Type.INT,2)));
448 mg.add(GETFIELD,new FieldRef(me,"writePages",Type.arrayType(Type.INT,2)));
452 returnTarget = new MethodGen.PhantomTarget();
453 insnTargets = new MethodGen.PhantomTarget[maxBytesPerMethod/4];
455 int[] buf = new int[maxBytesPerMethod/4];
456 Object[] targetBuf = new Object[maxBytesPerMethod/4];
458 for(int addr=first;addr<endOfMethod;addr+=4) {
460 targetBuf[n] = insnTargets[(addr-startOfMethod)/4] = new MethodGen.PhantomTarget();
466 MethodGen.LSI lsi = new MethodGen.LSI(n);
467 System.arraycopy(buf,0,lsi.vals,0,n);
468 System.arraycopy(targetBuf,0,lsi.targets,0,n);
469 lsi.setDefaultTarget(defaultTarget = new MethodGen.PhantomTarget());
474 mg.add(GETFIELD,new FieldRef(me,"pc",Type.INT));
475 mg.add(LOOKUPSWITCH,lsi);
478 private void endMethod(int firstAddrOfNext) {
479 if(startOfMethod == 0) return;
483 mg.add(LDC,firstAddrOfNext);
485 // mark the start of the next method as jumpable
486 jumpableAddresses.put(new Integer(firstAddrOfNext),Boolean.TRUE);
489 returnTarget.setTarget(mg.size());
495 defaultTarget.setTarget(mg.size());
498 mg.add(NEW,new Type.Object("org.ibex.nestedvm.Runtime$ExecutionException"));
500 mg.add(NEW,Type.STRINGBUFFER);
502 mg.add(LDC,"Jumped to invalid address: ");
503 mg.add(INVOKESPECIAL,new MethodRef(Type.STRINGBUFFER,"<init>",Type.VOID,new Type[]{Type.STRING}));
505 mg.add(GETFIELD,new FieldRef(me,"pc",Type.INT));
506 mg.add(INVOKEVIRTUAL,new MethodRef(Type.STRINGBUFFER,"append",Type.STRINGBUFFER,new Type[]{Type.INT}));
507 mg.add(INVOKEVIRTUAL,new MethodRef(Type.STRINGBUFFER,"toString",Type.STRING,Type.NO_ARGS));
508 mg.add(INVOKESPECIAL,new MethodRef(new Type.Object("org.ibex.nestedvm.Runtime$ExecutionException"),"<init>",Type.VOID,new Type[]{Type.STRING}));
511 mg.add(NEW,new Type.Object("org.ibex.nestedvm.Runtime$ExecutionException"));
513 mg.add(LDC,"Jumped to invalid address");
514 mg.add(INVOKESPECIAL,new MethodRef(new Type.Object("org.ibex.nestedvm.Runtime$ExecutionException"),"<init>",Type.VOID,new Type[]{Type.STRING}));
518 endOfMethod = startOfMethod = 0;
522 private void leaveMethod() {
523 mg.add(GOTO,returnTarget);
526 private void branch(int pc, int target) {
527 if((pc&methodMask) == (target&methodMask)) {
528 mg.add(GOTO,insnTargets[(target-startOfMethod)/4]);
537 // This assumes everything needed by ifInsn is already on the stack
538 private boolean doIfInstruction(byte op, int pc, int target, int nextInsn) throws Exn {
539 emitInstruction(-1,nextInsn,-1); // delay slot
540 if((target&methodMask) == (pc&methodMask)) {
541 mg.add(op,insnTargets[(target-startOfMethod)/4]);
543 int h = mg.add(MethodGen.negate(op));
545 mg.setArg(h,mg.size());
547 if(!jumpable(pc+4)) return true; // done - skip it
549 //System.err.println("Delay slot is jumpable - This code is untested + " + toHex(nextInsn));
550 if(pc+4==endOfMethod) {
551 // the delay slot is at the start of the next method
552 jumpableAddresses.put(new Integer(pc+8),Boolean.TRUE); // make the 2nd insn of the next method jumpable
553 branch(pc,pc+8); // jump over it
554 //System.err.println("delay slot: " + toHex(pc+8)); */
556 return false; // we still need to output it
558 //System.err.println("jumped over delay slot: " + toHex(pc+4));
559 // add another copy and jump over
561 int b = mg.add(GOTO);
562 emitInstruction(-1,nextInsn,01); // delay slot
563 mg.setArg(b,mg.size());
569 private static final Float POINT_5_F = new Float(0.5f);
570 private static final Double POINT_5_D = new Double(0.5f);
571 private static final Long FFFFFFFF = new Long(0xffffffffL);
573 private boolean emitInstruction(int pc, int insn, int nextInsn) throws Exn {
574 MethodGen mg = this.mg; // smaller bytecode
575 if(insn == -1) throw new Exn("insn is -1");
577 int op = (insn >>> 26) & 0xff; // bits 26-31
578 int rs = (insn >>> 21) & 0x1f; // bits 21-25
579 int rt = (insn >>> 16) & 0x1f; // bits 16-20
580 int ft = (insn >>> 16) & 0x1f;
581 int rd = (insn >>> 11) & 0x1f; // bits 11-15
582 int fs = (insn >>> 11) & 0x1f;
583 int shamt = (insn >>> 6) & 0x1f; // bits 6-10
584 int fd = (insn >>> 6) & 0x1f;
585 int subcode = insn & 0x3f; // bits 0-5
586 int breakCode = (insn >>> 6) & 0xfffff; // bits 6-20
588 int jumpTarget = (insn & 0x03ffffff); // bits 0-25
589 int unsignedImmediate = insn & 0xffff;
590 int signedImmediate = (insn << 16) >> 16;
591 int branchTarget = signedImmediate;
643 if(pc == -1) throw new Exn("pc modifying insn in delay slot");
644 emitInstruction(-1,nextInsn,-1);
652 if(pc == -1) throw new Exn("pc modifying insn in delay slot");
653 emitInstruction(-1,nextInsn,-1);
669 restoreChangedRegs();
680 mg.add(INVOKEVIRTUAL,new MethodRef(me,"syscall",Type.INT,new Type[]{Type.INT,Type.INT,Type.INT,Type.INT,Type.INT,Type.INT,Type.INT}));
684 mg.add(GETFIELD,new FieldRef(me,"state",Type.INT));
685 // FEATURE: Set Runtime.RUNNING to 0 and just use IFEQ here
686 mg.add(LDC,Runtime.RUNNING);
687 b1 = mg.add(IF_ICMPEQ);
692 mg.setArg(b1,mg.size());
695 mg.add(NEW,new Type.Object("org.ibex.nestedvm.Runtime$ExecutionException"));
697 mg.add(LDC,"BREAK Code " + toHex(breakCode));
698 mg.add(INVOKESPECIAL,new MethodRef(new Type.Object("org.ibex.nestedvm.Runtime$ExecutionException"),"<init>",Type.VOID,new Type[]{Type.STRING}));
732 mg.add(SWAP); //a(InstructionConstants.SWAP);
739 mg.add(SWAP); //a(InstructionConstants.SWAP);
746 mg.add(LDC,FFFFFFFF);
750 mg.add(LDC,FFFFFFFF);
792 mg.add(LDC,FFFFFFFF);
797 mg.add(LDC,FFFFFFFF);
814 mg.setArg(b1,mg.size());
819 throw new Exn("ADD (add with oveflow trap) not suported");
822 if(rt != 0 && rs != 0) {
834 throw new Exn("SUB (add with oveflow trap) not suported");
837 if(rt != 0 && rs != 0) {
872 if(rs != 0 || rt != 0) {
873 if(rs != 0 && rt != 0) {
894 b1 = mg.add(IF_ICMPLT);
897 mg.setArg(b1,mg.add(ICONST_1));
898 mg.setArg(b2,mg.size());
910 mg.add(LDC,FFFFFFFF);
914 mg.add(LDC,FFFFFFFF);
924 mg.setArg(b1,mg.add(ICONST_1));
925 mg.setArg(b2,mg.size());
932 throw new Exn("Illegal instruction 0/" + subcode);
939 if(pc == -1) throw new Exn("pc modifying insn in delay slot");
941 return doIfInstruction(IFLT,pc,pc+branchTarget*4+4,nextInsn);
943 if(pc == -1) throw new Exn("pc modifying insn in delay slot");
945 return doIfInstruction(IFGE,pc,pc+branchTarget*4+4,nextInsn);
947 if(pc == -1) throw new Exn("pc modifying insn in delay slot");
950 emitInstruction(-1,nextInsn,-1);
954 branch(pc,pc+branchTarget*4+4);
955 mg.setArg(b1,mg.size());
958 if(pc == -1) throw new Exn("pc modifying insn in delay slot");
960 if(rs != 0) { // r0 is always >= 0
964 emitInstruction(-1,nextInsn,-1);
968 branch(pc,pc+branchTarget*4+4);
969 if(b1 != -1) mg.setArg(b1,mg.size());
970 if(b1 == -1) unreachable = true;
973 throw new Exn("Illegal Instruction 1/" + rt);
978 if(pc == -1) throw new Exn("pc modifying insn in delay slot");
979 emitInstruction(-1,nextInsn,-1);
980 branch(pc,(pc&0xf0000000)|(jumpTarget << 2));
985 if(pc == -1) throw new Exn("pc modifying insn in delay slot");
986 int target = (pc&0xf0000000)|(jumpTarget << 2);
987 emitInstruction(-1,nextInsn,-1);
996 if(pc == -1) throw new Exn("pc modifying insn in delay slot");
998 emitInstruction(-1,nextInsn,-1);
999 branch(pc,pc+branchTarget*4+4);
1001 } else if(rs == 0 || rt == 0) {
1002 pushReg(rt == 0 ? R+rs : R+rt);
1003 return doIfInstruction(IFEQ,pc,pc+branchTarget*4+4,nextInsn);
1007 return doIfInstruction(IF_ICMPEQ,pc,pc+branchTarget*4+4,nextInsn);
1011 if(pc == -1) throw new Exn("pc modifying insn in delay slot");
1014 return doIfInstruction(IFNE,pc,pc+branchTarget*4+4,nextInsn);
1017 return doIfInstruction(IF_ICMPNE,pc,pc+branchTarget*4+4,nextInsn);
1020 if(pc == -1) throw new Exn("pc modifying insn in delay slot");
1022 return doIfInstruction(IFLE,pc,pc+branchTarget*4+4,nextInsn);
1024 if(pc == -1) throw new Exn("pc modifying insn in delay slot");
1026 return doIfInstruction(IFGT,pc,pc+branchTarget*4+4,nextInsn);
1028 throw new Exn("ADDI (add immediate with oveflow trap) not suported");
1031 addiu(rs,signedImmediate);
1037 mg.add(LDC,signedImmediate);
1038 b1 = mg.add(IF_ICMPLT);
1041 mg.setArg(b1,mg.add(ICONST_1));
1042 mg.setArg(b2,mg.size());
1049 mg.add(LDC,FFFFFFFF);
1051 // Yes, this is correct, you have to sign extend the immediate then do an UNSIGNED comparison
1052 mg.add(LDC,new Long(signedImmediate&0xffffffffL));
1058 mg.setArg(b1,mg.add(ICONST_1));
1059 mg.setArg(b2,mg.size());
1065 mg.add(LDC,unsignedImmediate);
1071 if(rs != 0 && unsignedImmediate != 0) {
1073 mg.add(LDC,unsignedImmediate);
1078 mg.add(LDC,unsignedImmediate);
1085 mg.add(LDC,unsignedImmediate);
1091 mg.add(LDC,unsignedImmediate << 16);
1095 throw new Exn("TLB/Exception support not implemented");
1104 if(fs != 31) throw new Exn("FCR " + fs + " unavailable");
1118 if(fs != 31) throw new Exn("FCR " + fs + " unavailable");
1123 case 8: {// BC1F, BC1T
1125 mg.add(LDC,0x800000);
1127 return doIfInstruction(((insn>>>16)&1) == 0 ? IFEQ : IFNE,pc,pc+branchTarget*4+4,nextInsn);
1131 { // Single/Double math
1132 boolean d = rs == 17;
1135 preSetDouble(F+fd,d);
1138 mg.add(d ? DADD : FADD);
1142 preSetDouble(F+fd,d);
1145 mg.add(d ? DSUB : FSUB);
1149 preSetDouble(F+fd,d);
1152 mg.add(d ? DMUL : FMUL);
1156 preSetDouble(F+fd,d);
1159 mg.add(d ? DDIV : FDIV);
1163 preSetDouble(F+fd,d);
1164 // NOTE: We can't use fneg/dneg here since they'll turn +0.0 into -0.0
1167 mg.add(d ? DUP2 : DUP);
1168 mg.add(d ? DCONST_0 : FCONST_0);
1169 mg.add(d ? DCMPG : FCMPG);
1172 mg.add(d ? DCONST_0 : FCONST_0);
1179 mg.add(d ? DSUB : FSUB);
1181 mg.setArg(b1,mg.size());
1198 preSetDouble(F+fd,d);
1200 mg.add(d ? DNEG : FNEG);
1215 case 36: { // CVT.W.D
1216 MethodGen.TSI tsi = new MethodGen.TSI(0,3);
1222 mg.add(TABLESWITCH,tsi);
1224 // Round towards plus infinity
1225 tsi.setTarget(2,mg.size());
1226 if(!d) mg.add(F2D); // Ugh.. java.lang.Math doesn't have a float ceil/floor
1227 mg.add(INVOKESTATIC,new MethodRef("java.lang.Math","ceil",Type.DOUBLE,new Type[]{Type.DOUBLE}));
1232 tsi.setTarget(0,mg.size());
1233 mg.add(LDC,d ? (Object)POINT_5_D : (Object)POINT_5_F);
1234 mg.add(d ? DADD : FADD);
1237 // Round towards minus infinity
1238 tsi.setTarget(3,mg.size());
1240 mg.add(INVOKESTATIC,new MethodRef("java.lang.Math","floor",Type.DOUBLE,new Type[]{Type.DOUBLE}));
1243 tsi.setTarget(1,mg.size());
1244 tsi.setDefaultTarget(mg.size());
1245 mg.setArg(b1,mg.size());
1247 mg.add(d ? D2I : F2I);
1257 mg.add(LDC,~0x800000);
1261 mg.add(d ? DCMPG : FCMPG);
1263 case 50: b1 = mg.add(IFNE); break;
1264 case 60: b1 = mg.add(IFGE); break;
1265 case 62: b1 = mg.add(IFGT); break;
1268 mg.add(LDC,0x800000);
1270 mg.setArg(b1,mg.size());
1273 default: throw new Exn("Invalid Instruction 17/" + rs + "/" + subcode);
1277 case 20: { // Integer
1291 default: throw new Exn("Invalid Instruction 17/" + rs + "/" + subcode);
1296 throw new Exn("Invalid Instruction 17/" + rs);
1301 throw new Exn("coprocessor 2 and 3 instructions not available");
1304 addiu(R+rs,signedImmediate);
1324 addiu(R+rs,signedImmediate);
1344 addiu(R+rs,signedImmediate);
1348 mg.add(LDC,0x00ffffff);
1379 memRead(R+rs,signedImmediate);
1384 addiu(R+rs,signedImmediate);
1405 addiu(R+rs,signedImmediate);
1420 // chars are unsigend so this works
1427 addiu(R+rs,signedImmediate);
1431 mg.add(LDC,0xffffff00);
1460 addiu(R+rs,signedImmediate);
1463 // FEATURE: DO the preMemRead(true) thing for the rest of the S* instructions
1468 mg.add(LDC,0xff000000);
1505 addiu(R+rs,signedImmediate);
1551 addiu(R+rs,signedImmediate);
1561 mg.add(LDC,0xffffff00);
1589 preMemWrite2(R+rs,signedImmediate);
1596 addiu(R+rs,signedImmediate);
1606 mg.add(LDC,0x00ffffff);
1631 // This need to be atomic if we ever support threads (see SWC0/SC)
1634 memRead(R+rs,signedImmediate);
1640 memRead(R+rs,signedImmediate);
1644 /* This needs to fail (set rt to 0) if the memory location was modified
1645 * between the LL and SC if we ever support threads.
1650 preMemWrite2(R+rs,signedImmediate);
1659 preMemWrite2(R+rs,signedImmediate);
1664 throw new Exn("Invalid Instruction: " + op + " at " + toHex(pc));
1669 // Helper functions for emitText
1671 private static final int R = 0;
1672 private static final int F = 32;
1673 private static final int HI = 64;
1674 private static final int LO = 65;
1675 private static final int FCSR = 66;
1676 private static final int REG_COUNT=67;
1678 // FEATURE: Clean this up
1679 private int[] regLocalMapping = new int[REG_COUNT];
1680 private int[] regLocalReadCount = new int[REG_COUNT];
1681 private int[] regLocalWriteCount = new int[REG_COUNT];
1682 private int nextAvailLocal;
1684 private int getLocalForReg(int reg) {
1685 if(regLocalMapping[reg] != 0) return regLocalMapping[reg];
1686 if(nextAvailLocal == 0) nextAvailLocal = onePage ? 3 : 4;
1687 regLocalMapping[reg] = nextAvailLocal++;
1688 return regLocalMapping[reg];
1692 private int loadsStart;
1693 private void fixupRegsStart() {
1694 for(int i=0;i<REG_COUNT;i++)
1695 regLocalMapping[i] = regLocalReadCount[i] = regLocalWriteCount[i] = 0;
1697 loadsStart = mg.size();
1698 for(int i=0;i<MAX_LOCALS*LOAD_LENGTH;i++)
1702 private void fixupRegsEnd() {
1704 for(int i=0;i<REG_COUNT;i++) {
1705 if(regLocalMapping[i] == 0) continue;
1706 mg.set(p++,ALOAD_0);
1707 mg.set(p++,GETFIELD,new FieldRef(me,regField(i),Type.INT));
1708 mg.set(p++,ISTORE,regLocalMapping[i]);
1710 if(regLocalWriteCount[i] > 0) {
1712 mg.add(ILOAD,regLocalMapping[i]);
1713 mg.add(PUTFIELD,new FieldRef(me,regField(i),Type.INT));
1718 private static final int MAX_LOCALS = 4;
1719 private static final int LOAD_LENGTH = 3;
1720 private boolean doLocal(int reg) {
1721 return reg == R+2 || reg == R+3 || reg == R+4 || reg == R+29;
1724 private void restoreChangedRegs() {
1725 for(int i=0;i<REG_COUNT;i++) {
1726 if(regLocalWriteCount[i] > 0) {
1728 mg.add(ILOAD,regLocalMapping[i]);
1729 mg.add(PUTFIELD,new FieldRef(me,regField(i),Type.INT));
1734 private static final String[] regField = {
1735 "r0","r1","r2","r3","r4","r5","r6","r7",
1736 "r8","r9","r10","r11","r12","r13","r14","r15",
1737 "r16","r17","r18","r19","r20","r21","r22","r23",
1738 "r24","r25","r26","r27","r28","r29","r30","r31",
1740 "f0","f1","f2","f3","f4","f5","f6","f7",
1741 "f8","f9","f10","f11","f12","f13","f14","f15",
1742 "f16","f17","f18","f19","f20","f21","f22","f23",
1743 "f24","f25","f26","f27","f28","f29","f30","f31",
1748 private static String regField(int reg) { return regField[reg]; }
1750 private int pushRegWZ(int reg) {
1752 warn.println("Warning: Pushing r0!");
1753 new Exception().printStackTrace(warn);
1755 return pushRegZ(reg);
1758 private int pushRegZ(int reg) {
1759 if(reg == R+0) return mg.add(LDC,0);
1760 else return pushReg(reg);
1764 private int pushReg(int reg) {
1767 regLocalReadCount[reg]++;
1768 mg.add(ILOAD,getLocalForReg(reg));
1772 mg.add(GETFIELD,new FieldRef(me,regField(reg),Type.INT));
1777 private int preSetRegStackPos;
1778 private int[] preSetRegStack = new int[8];
1780 // This can push ONE or ZERO words to the stack. If it pushed one it returns true
1781 private boolean preSetReg(int reg) {
1782 regField(reg); // just to check for validity
1783 preSetRegStack[preSetRegStackPos] = reg;
1784 preSetRegStackPos++;
1793 private int setReg() {
1794 if(preSetRegStackPos==0) throw new RuntimeException("didn't do preSetReg");
1795 preSetRegStackPos--;
1796 int reg = preSetRegStack[preSetRegStackPos];
1799 mg.add(ISTORE,getLocalForReg(reg));
1800 regLocalWriteCount[reg]++;
1802 mg.add(PUTFIELD,new FieldRef(me,regField(reg),Type.INT));
1807 private int preSetPC() { return mg.add(ALOAD_0); }
1808 private int setPC() {
1809 return mg.add(PUTFIELD,new FieldRef(me,"pc",Type.INT));
1812 //unused - private InstructionHandle pushFloat(int reg) throws CompilationException { return pushDouble(reg,false); }
1813 //unused - private InstructionHandle pushDouble(int reg) throws CompilationException { return pushDouble(reg,true); }
1814 private int pushDouble(int reg, boolean d) throws Exn {
1815 if(reg < F || reg >= F+32) throw new IllegalArgumentException(""+reg);
1818 if(reg == F+31) throw new Exn("Tried to use a double in f31");
1825 mg.add(LDC,FFFFFFFF);
1828 mg.add(INVOKESTATIC,new MethodRef(Type.DOUBLE_OBJECT,"longBitsToDouble",Type.DOUBLE,new Type[]{Type.LONG}));
1831 mg.add(INVOKESTATIC,new MethodRef("java.lang.Float","intToFloatBits",Type.FLOAT,new Type[]{Type.INT}));
1836 private void preSetFloat(int reg) { preSetDouble(reg,false); }
1837 private void preSetDouble(int reg) { preSetDouble(reg,true); }
1838 private void preSetDouble(int reg, boolean d) { preSetReg(reg); }
1840 private int setFloat() throws Exn { return setDouble(false); }
1841 private int setDouble() throws Exn { return setDouble(true); }
1842 private int setDouble(boolean d) throws Exn {
1843 int reg = preSetRegStack[preSetRegStackPos-1];
1844 if(reg < F || reg >= F+32) throw new IllegalArgumentException(""+reg);
1847 if(reg == F+31) throw new Exn("Tried to use a double in f31");
1848 mg.add(INVOKESTATIC,new MethodRef(Type.DOUBLE_OBJECT,"doubleToLongBits",Type.LONG,new Type[]{Type.DOUBLE}));
1853 if(preSetReg(reg+1))
1857 setReg(); // preSetReg was already done for this by preSetDouble
1859 //h = a(fac.createInvoke("java.lang.Float","floatToRawIntBits",Type.INT,new Type[]{Type.FLOAT},INVOKESTATIC));
1860 mg.add(INVOKESTATIC,new MethodRef(Type.FLOAT_OBJECT,"floatToRawIntBits",Type.INT,new Type[]{Type.FLOAT}));
1866 private void pushTmp() { mg.add(ILOAD_1); }
1867 private void setTmp() { mg.add(ISTORE_1); }
1869 private void addiu(int reg, int offset) {
1870 if(reg != R+0 && offset != 0) {
1874 } else if(reg != R+0) {
1880 private int memWriteStage;
1881 private void preMemWrite1() {
1882 if(memWriteStage!=0) throw new Error("pending preMemWrite1/2");
1892 private void preMemWrite2(int reg, int offset) {
1897 private void preMemWrite2() { preMemWrite2(false); }
1898 private void preMemWrite2(boolean addrInTmp) {
1899 if(memWriteStage!=1) throw new Error("pending preMemWrite2 or no preMemWrite1");
1902 if(nullPointerCheck) {
1906 mg.add(INVOKEVIRTUAL,new MethodRef(me,"nullPointerCheck",Type.VOID,new Type[]{Type.INT}));
1912 } else if(fastMem) {
1915 mg.add(LDC,pageShift);
1924 mg.add(LDC,(pageSize>>2)-1);
1929 // pops an address and value off the stack, sets *addr to value
1930 private void memWrite() {
1931 if(memWriteStage!=2) throw new Error("didn't do preMemWrite1 or preMemWrite2");
1936 } else if(fastMem) {
1939 mg.add(INVOKEVIRTUAL,new MethodRef(me,"unsafeMemWrite",Type.VOID,new Type[]{Type.INT,Type.INT}));
1944 // reads the word at r[reg]+offset
1945 private void memRead(int reg, int offset) {
1951 private boolean didPreMemRead;
1952 private boolean preMemReadDoPreWrite;
1954 private void preMemRead() { preMemRead(false); }
1955 private void preMemRead(boolean preWrite) {
1956 if(didPreMemRead) throw new Error("pending preMemRead");
1957 didPreMemRead = true;
1958 preMemReadDoPreWrite = preWrite;
1962 mg.add(ALOAD,preWrite ? 3 : 2);
1966 // memRead pops an address off the stack, reads the value at that addr, and pushed the value
1967 // preMemRead MUST be called BEFORE the addresses is pushed
1968 private void memRead() { memRead(false); }
1970 private void memRead(boolean addrInTmp) {
1971 if(!didPreMemRead) throw new Error("didn't do preMemRead");
1972 didPreMemRead = false;
1973 if(preMemReadDoPreWrite)
1976 if(nullPointerCheck) {
1980 mg.add(INVOKEVIRTUAL,new MethodRef(me,"nullPointerCheck",Type.VOID,new Type[]{Type.INT}));
1986 if(preMemReadDoPreWrite)
1989 } else if(fastMem) {
1992 mg.add(LDC,pageShift);
2001 mg.add(LDC,(pageSize>>2)-1);
2003 if(preMemReadDoPreWrite)
2008 if(preMemReadDoPreWrite)
2010 mg.add(INVOKEVIRTUAL,new MethodRef(me,"unsafeMemRead",Type.INT,new Type[]{Type.INT}));
2015 // This might come in handy for something else
2016 /*private boolean touchesReg(int insn, int reg) {
2017 if((reg < R+0 || reg >= R+32) && reg != FCSR) throw new IllegalArgumentException(""+reg);
2018 if(reg == R+0) return false; // r0 is never modified
2019 int op = (insn >>> 26) & 0xff; // bits 26-31
2020 int subcode = insn & 0x3f; // bits 0-5
2021 int rd = (insn >>> 11) & 0x1f; // bits 11-15
2022 int rt = (insn >>> 16) & 0x1f; // bits 16-20
2023 int rs = (insn >>> 21) & 0x1f; // bits 21-25
2027 if(subcode >= 0 && subcode <= 7) return reg == R+rd; // Shift ops
2028 if(subcode >= 32 && subcode <= 43) return reg == R+rd; // Other math ops
2029 if(subcode >= 24 && subcode <= 27) return reg == HI || reg == LO; // MULT/DIV
2031 case 13: return false; // BREAK
2034 case 0: return reg == R+rt; // MFC.1
2035 case 2: return reg == R+rt; // CFC.1
2036 case 4: return false; // MTC.1
2037 case 6: return false; // CTC.1
2040 if(subcode == 50 || subcode == 60 || subcode == 62) return reg == FCSR;
2041 return false; // everything else just touches f0-f31
2042 case 20: return false; // Integer - just touches f0-f31
2046 if(op >= 8 && op <= 15) return reg == R+rt; // XXXI instructions
2047 if(op >= 40 && op <= 46) return false; // Memory WRITE ops
2048 if(op == 49) return reg == F+rt; // LWC1
2049 if(op == 57) return false; // SWC1
2052 warn.println("Unknown instruction in touchesReg()- assuming it modifies all regs " + op + " " + subcode);
2053 new Exception().fillInStackTrace().printStackTrace(warn);