/* src/vm/jit/verify/typecheck.c - typechecking (part of bytecode verification)
- Copyright (C) 1996-2005, 2006 R. Grafl, A. Krall, C. Kruegel,
- C. Oates, R. Obermaisser, M. Platter, M. Probst, S. Ring,
- E. Steiner, C. Thalinger, D. Thuernbeck, P. Tomsich, C. Ullrich,
- J. Wenninger, Institut f. Computersprachen - TU Wien
+ Copyright (C) 1996-2005, 2006, 2007, 2008
+ CACAOVM - Verein zur Foerderung der freien virtuellen Maschine CACAO
This file is part of CACAO.
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
02110-1301, USA.
- Contact: cacao@cacaojvm.org
-
- Authors: Edwin Steiner
-
- Changes: Christian Thalinger
-
- $Id: typecheck.c 5317 2006-09-05 12:29:16Z edwin $
-
*/
/*
checked. (See the constrain_unresolved_... and the resolve_...
methods.)[3]
-*) The boundaries of jsr subroutines are not well-defined. For a given
-instruction it may be impossible to tell whether it is part of a
-subroutine, or to which subroutine it belongs.
-
- Solution: The typechecker implements a method developed by
- Alessandro Coglio[4] which treats each returnAddress as a distinct
- type that is not merged with other returnAddresses. This way, when a
- RET instruction is reached, we know exactly which types to propagate
- to which return target among the possible targets of the RET. The
- downside of this method is, that for each slot/variable we must
- store not just one type, but one type *for each possible use of the
- returnAddresses* that currently are in a slot/variable.[5]
-
*) Checks for uninitialized object instances are hard because after the
invocation of <init> on an uninitialized object *all* slots/variables
referring to this object (and exactly those slots/variables) must be
Solution: The JVM spec describes a solution, which has been
implemented in this typechecker.
+Note that some checks mentioned in the JVM spec are unnecessary[4] and
+not performed by either the reference implementation, or this implementation.
+
--- Footnotes
is accessed for the first time, so we can guarantee lexically correct
error reporting.
-[4] Alessandro Coglio, Simple Verification Technique for Complex Java
-Bytecode Subroutines, 4th ECOOP Workshop on Formal Techniques for
-Java-like Programs, June 2002
-http://www.kestrel.edu/home/people/coglio/ftjp02.pdf
-
-[5] This is a major source of code complexity. The main data structures
-dealing with this are the "typevector set" and the typestack. The
-"typevector set" is a set of alternative typevectors, such that each
-typevector specifies the types of the local variables for a single
-combination of returnAddresses used. Thus we support full polymorphism
-of subroutines over the types of local variables. The typestack,
-however, does not support polymorphism, both for historical and JVM-spec
-reasons. A slot of the typestack may, however, contain multiple
-alternative returnAddresses, which is realized by a linked list hanging
-of the typeinfo of the stack slot.
-
+[4] Alessandro Coglio
+ Improving the official specification of Java bytecode verification
+ Proceedings of the 3rd ECOOP Workshop on Formal Techniques for Java Programs
+ June 2001
+ citeseer.ist.psu.edu/article/coglio03improving.html
*/
+
+#include "config.h"
+
#include <assert.h>
#include <string.h>
-#include "config.h"
#include "vm/types.h"
-#include "vm/global.h"
#ifdef ENABLE_VERIFIER
#include "mm/memory.h"
-#include "toolbox/logging.h"
+
#include "native/native.h"
-#include "vm/builtin.h"
-#include "vm/jit/patcher.h"
+
+#include "toolbox/logging.h"
+
+#include "vm/access.h"
+#include "vm/array.h"
+#include "vm/jit/builtin.hpp"
+#include "vm/exceptions.hpp"
+#include "vm/global.h"
+#include "vm/globals.hpp"
#include "vm/loader.h"
#include "vm/options.h"
-#include "vm/jit/jit.h"
-#include "vm/jit/show.h"
-#include "vm/access.h"
+#include "vm/primitive.hpp"
#include "vm/resolve.h"
-#include "vm/exceptions.h"
-
-
-/****************************************************************************/
-/* DEBUG HELPERS */
-/****************************************************************************/
-
-#ifdef TYPECHECK_DEBUG
-#define TYPECHECK_ASSERT(cond) assert(cond)
-#else
-#define TYPECHECK_ASSERT(cond)
-#endif
-
-#ifdef TYPECHECK_VERBOSE_OPT
-bool opt_typecheckverbose = false;
-FILE *typecheck_logfile;
-#define DOLOG(action) do { if (opt_typecheckverbose) {action;} } while(0)
-#else
-#define DOLOG(action)
-#endif
-
-#ifdef TYPECHECK_VERBOSE
-#define TYPECHECK_VERBOSE_IMPORTANT
-#define LOG(str) DOLOG(log_text(str))
-#define LOG1(str,a) DOLOG(dolog(str,a))
-#define LOG2(str,a,b) DOLOG(dolog(str,a,b))
-#define LOG3(str,a,b,c) DOLOG(dolog(str,a,b,c))
-#define LOGIF(cond,str) DOLOG(do {if (cond) log_text(str);} while(0))
-#ifdef TYPEINFO_DEBUG
-#define LOGINFO(info) DOLOG(do {typeinfo_print_short(typecheck_logfile,(info));log_finish();} while(0))
-#else
-#define LOGINFO(info)
-#define typevectorset_print(x,y,z)
-#endif
-#define LOGFLUSH DOLOG(fflush(typecheck_logfile))
-#define LOGNL DOLOG(log_finish())
-#define LOGSTR(str) DOLOG(log_print(str))
-#define LOGSTR1(str,a) DOLOG(log_print(str,a))
-#define LOGSTR2(str,a,b) DOLOG(log_print(str,a,b))
-#define LOGSTR3(str,a,b,c) DOLOG(log_print(str,a,b,c))
-#define LOGNAME(c) DOLOG(log_message_utf("class: ",(IS_CLASSREF(c) ? c.ref->name : c.cls->name)))
-#define LOGMETHOD(str,m) DOLOG(log_message_method(str,m))
-#else
-#define LOG(str)
-#define LOG1(str,a)
-#define LOG2(str,a,b)
-#define LOG3(str,a,b,c)
-#define LOGIF(cond,str)
-#define LOGINFO(info)
-#define LOGFLUSH
-#define LOGNL
-#define LOGSTR(str)
-#define LOGSTR1(str,a)
-#define LOGSTR2(str,a,b)
-#define LOGSTR3(str,a,b,c)
-#define LOGNAME(c)
-#define LOGMETHOD(str,m)
-#endif
-
-#ifdef TYPECHECK_VERBOSE_IMPORTANT
-#define LOGimp(str) DOLOG(log_text(str))
-#define LOGimpSTR(str) DOLOG(log_print(str))
-#else
-#define LOGimp(str)
-#define LOGimpSTR(str)
-#endif
-
-#if defined(TYPECHECK_VERBOSE) || defined(TYPECHECK_VERBOSE_IMPORTANT)
-#include <stdio.h>
-
-static
-void
-typestack_print(FILE *file,stackptr stack)
-{
-#ifdef TYPEINFO_DEBUG
- while (stack) {
- /*fprintf(file,"<%p>",stack);*/
- typeinfo_print_stacktype(file,stack->type,&(stack->typeinfo));
- stack = stack->prev;
- if (stack) fprintf(file," ");
- }
-#endif
-}
-
-static
-void
-typestate_print(FILE *file,stackptr instack,typevector *localset,int size)
-{
- fprintf(file,"Stack: ");
- typestack_print(file,instack);
- fprintf(file," Locals:");
- typevectorset_print(file,localset,size);
-}
-
-#endif
-
-/****************************************************************************/
-/* STATISTICS */
-/****************************************************************************/
-
-#ifdef TYPECHECK_DEBUG
-/*#define TYPECHECK_STATISTICS*/
-#endif
-
-#ifdef TYPECHECK_STATISTICS
-#define STAT_ITERATIONS 10
-#define STAT_BLOCKS 10
-#define STAT_LOCALS 16
-
-static int stat_typechecked = 0;
-static int stat_typechecked_jsr = 0;
-static int stat_methods_with_handlers = 0;
-static int stat_methods_maythrow = 0;
-static int stat_iterations[STAT_ITERATIONS+1] = { 0 };
-static int stat_reached = 0;
-static int stat_copied = 0;
-static int stat_merged = 0;
-static int stat_merging_changed = 0;
-static int stat_backwards = 0;
-static int stat_blocks[STAT_BLOCKS+1] = { 0 };
-static int stat_locals[STAT_LOCALS+1] = { 0 };
-static int stat_ins = 0;
-static int stat_ins_maythrow = 0;
-static int stat_ins_stack = 0;
-static int stat_ins_field = 0;
-static int stat_ins_field_unresolved = 0;
-static int stat_ins_field_uninitialized = 0;
-static int stat_ins_invoke = 0;
-static int stat_ins_invoke_unresolved = 0;
-static int stat_ins_primload = 0;
-static int stat_ins_aload = 0;
-static int stat_ins_builtin = 0;
-static int stat_ins_builtin_gen = 0;
-static int stat_ins_branch = 0;
-static int stat_ins_switch = 0;
-static int stat_ins_primitive_return = 0;
-static int stat_ins_areturn = 0;
-static int stat_ins_areturn_unresolved = 0;
-static int stat_ins_athrow = 0;
-static int stat_ins_athrow_unresolved = 0;
-static int stat_ins_unchecked = 0;
-static int stat_handlers_reached = 0;
-static int stat_savedstack = 0;
-
-#define TYPECHECK_MARK(var) ((var) = true)
-#define TYPECHECK_COUNT(cnt) (cnt)++
-#define TYPECHECK_COUNTIF(cond,cnt) do{if(cond) (cnt)++;} while(0)
-#define TYPECHECK_COUNT_FREQ(array,val,limit) \
- do { \
- if ((val) < (limit)) (array)[val]++; \
- else (array)[limit]++; \
- } while (0)
-
-static void print_freq(FILE *file,int *array,int limit)
-{
- int i;
- for (i=0; i<limit; ++i)
- fprintf(file," %3d: %8d\n",i,array[i]);
- fprintf(file," >=%3d: %8d\n",limit,array[limit]);
-}
-
-void typecheck_print_statistics(FILE *file) {
- fprintf(file,"typechecked methods: %8d\n",stat_typechecked);
- fprintf(file," with JSR : %8d\n",stat_typechecked_jsr);
- fprintf(file," with handler(s): %8d\n",stat_methods_with_handlers);
- fprintf(file," with throw(s) : %8d\n",stat_methods_maythrow);
- fprintf(file,"reached blocks : %8d\n",stat_reached);
- fprintf(file,"copied states : %8d\n",stat_copied);
- fprintf(file,"merged states : %8d\n",stat_merged);
- fprintf(file,"merging changed : %8d\n",stat_merging_changed);
- fprintf(file,"backwards branches : %8d\n",stat_backwards);
- fprintf(file,"handlers reached : %8d\n",stat_handlers_reached);
- fprintf(file,"saved stack (times): %8d\n",stat_savedstack);
- fprintf(file,"instructions : %8d\n",stat_ins);
- fprintf(file," stack : %8d\n",stat_ins_stack);
- fprintf(file," field access : %8d\n",stat_ins_field);
- fprintf(file," (unresolved) : %8d\n",stat_ins_field_unresolved);
- fprintf(file," (uninit.) : %8d\n",stat_ins_field_uninitialized);
- fprintf(file," invocations : %8d\n",stat_ins_invoke);
- fprintf(file," (unresolved) : %8d\n",stat_ins_invoke_unresolved);
- fprintf(file," load primitive : (currently not counted) %8d\n",stat_ins_primload);
- fprintf(file," load address : %8d\n",stat_ins_aload);
- fprintf(file," builtins : %8d\n",stat_ins_builtin);
- fprintf(file," generic : %8d\n",stat_ins_builtin_gen);
- fprintf(file," branches : %8d\n",stat_ins_branch);
- fprintf(file," switches : %8d\n",stat_ins_switch);
- fprintf(file," prim. return : %8d\n",stat_ins_primitive_return);
- fprintf(file," areturn : %8d\n",stat_ins_areturn);
- fprintf(file," (unresolved) : %8d\n",stat_ins_areturn_unresolved);
- fprintf(file," athrow : %8d\n",stat_ins_athrow);
- fprintf(file," (unresolved) : %8d\n",stat_ins_athrow_unresolved);
- fprintf(file," unchecked : %8d\n",stat_ins_unchecked);
- fprintf(file," maythrow : %8d\n",stat_ins_maythrow);
- fprintf(file,"iterations used:\n");
- print_freq(file,stat_iterations,STAT_ITERATIONS);
- fprintf(file,"basic blocks per method / 10:\n");
- print_freq(file,stat_blocks,STAT_BLOCKS);
- fprintf(file,"locals:\n");
- print_freq(file,stat_locals,STAT_LOCALS);
-}
-
-#else
-
-#define TYPECHECK_COUNT(cnt)
-#define TYPECHECK_MARK(var)
-#define TYPECHECK_COUNTIF(cond,cnt)
-#define TYPECHECK_COUNT_FREQ(array,val,limit)
-#endif
-
-/****************************************************************************/
-/* MACROS FOR THROWING EXCEPTIONS */
-/****************************************************************************/
+#include "vm/jit/jit.hpp"
+#include "vm/jit/parse.h"
+#include "vm/jit/show.h"
-#define TYPECHECK_VERIFYERROR_ret(m,msg,retval) \
- do { \
- exceptions_throw_verifyerror((m), (msg)); \
- return (retval); \
- } while (0)
+#include <typecheck-common.h>
-#define TYPECHECK_VERIFYERROR_main(msg) TYPECHECK_VERIFYERROR_ret(state.m,(msg),NULL)
-#define TYPECHECK_VERIFYERROR_bool(msg) TYPECHECK_VERIFYERROR_ret(state->m,(msg),false)
/****************************************************************************/
-/* MACROS FOR STACK SLOT TYPE CHECKING */
+/* MACROS FOR VARIABLE TYPE CHECKING */
/****************************************************************************/
-#define TYPECHECK_CHECK_TYPE(sp,tp,msg) \
- do { \
- if ((sp)->type != (tp)) { \
- exceptions_throw_verifyerror(state->m, (msg)); \
- return false; \
- } \
+#define TYPECHECK_CHECK_TYPE(i,tp,msg) \
+ do { \
+ if (VAR(i)->type != (tp)) { \
+ exceptions_throw_verifyerror(state->m, (msg)); \
+ return false; \
+ } \
} while (0)
-#define TYPECHECK_INT(sp) TYPECHECK_CHECK_TYPE(sp,TYPE_INT,"Expected to find integer on stack")
-#define TYPECHECK_LNG(sp) TYPECHECK_CHECK_TYPE(sp,TYPE_LNG,"Expected to find long on stack")
-#define TYPECHECK_FLT(sp) TYPECHECK_CHECK_TYPE(sp,TYPE_FLT,"Expected to find float on stack")
-#define TYPECHECK_DBL(sp) TYPECHECK_CHECK_TYPE(sp,TYPE_DBL,"Expected to find double on stack")
-#define TYPECHECK_ADR(sp) TYPECHECK_CHECK_TYPE(sp,TYPE_ADR,"Expected to find object on stack")
-
-/****************************************************************************/
-/* VERIFIER STATE STRUCT */
-/****************************************************************************/
-
-/* verifier_state - This structure keeps the current state of the */
-/* bytecode verifier for passing it between verifier functions. */
-
-typedef struct verifier_state {
- new_instruction *iptr; /* pointer to current instruction */
- basicblock *bptr; /* pointer to current basic block */
-
- methodinfo *m; /* the current method */
- jitdata *jd; /* jitdata for current method */
- codegendata *cd; /* codegendata for current method */
- registerdata *rd; /* registerdata for current method */
-
- basicblock *basicblocks;
- s4 basicblockcount;
-
- s4 numlocals; /* number of local variables */
- s4 validlocals; /* number of Java-accessible locals */
- void *localbuf; /* local variable types for each block start */
- typevector *localset; /* typevector set for local variables */
- typedescriptor returntype; /* return type of the current method */
-
- stackptr savedstackbuf; /* buffer for saving the stack */
- stackptr savedstack; /* saved instack of current block */
-
- exceptiontable **handlers; /* active exception handlers */
- stackelement excstack; /* instack for exception handlers */
-
- bool repeat; /* if true, blocks are iterated over again */
- bool initmethod; /* true if this is an "<init>" method */
- bool jsrencountered; /* true if we there was a JSR */
-
-#ifdef TYPECHECK_STATISTICS
- bool stat_maythrow; /* at least one instruction may throw */
-#endif
-} verifier_state;
-
-/****************************************************************************/
-/* TYPESTACK MACROS AND FUNCTIONS */
-/* */
-/* These macros and functions act on the 'type stack', which is a shorthand */
-/* for the types of the stackslots of the current stack. The type of a */
-/* stack slot is usually described by a TYPE_* constant and -- for TYPE_ADR */
-/* -- by the typeinfo of the slot. The only thing that makes the type stack */
-/* more complicated are returnAddresses of local subroutines, because a */
-/* single stack slot may contain a set of more than one possible return */
-/* address. This is handled by 'return address sets'. A return address set */
-/* is kept as a linked list dangling off the typeinfo of the stack slot. */
-/****************************************************************************/
-
-#define TYPESTACK_IS_RETURNADDRESS(sptr) \
- TYPE_IS_RETURNADDRESS((sptr)->type,(sptr)->typeinfo)
-
-#define TYPESTACK_RETURNADDRESSSET(sptr) \
- ((typeinfo_retaddr_set*)TYPEINFO_RETURNADDRESS((sptr)->typeinfo))
-
-#define RETURNADDRESSSET_SEEK(set,pos) \
- do {int i; for (i=pos;i--;) set=set->alt;} while(0)
-
-/* typestack_copy **************************************************************
-
- Copy the types on the given stack to the destination stack.
-
- This function does a straight forward copy except for returnAddress types.
- For returnAddress slots only the return addresses corresponding to
- typevectors in the SELECTED set are copied.
-
- IN:
- state............current verifier state
- y................stack with types to copy
- selected.........set of selected typevectors
-
- OUT:
- *dst.............the destination stack
-
- RETURN VALUE:
- true.............success
- false............an exception has been thrown
-
-*******************************************************************************/
-
-static bool
-typestack_copy(verifier_state *state,stackptr dst,stackptr y,typevector *selected)
-{
- typevector *sel;
- typeinfo_retaddr_set *sety;
- typeinfo_retaddr_set *new;
- typeinfo_retaddr_set **next;
- int k;
-
- for (;dst; dst=dst->prev, y=y->prev) {
- /* XXX only check the following two in debug mode? */
- if (!y) {
- exceptions_throw_verifyerror(state->m,"Stack depth mismatch");
- return false;
- }
- if (dst->type != y->type) {
- exceptions_throw_verifyerror(state->m,"Stack type mismatch");
- return false;
- }
- LOG3("copy %p -> %p (type %d)",y,dst,dst->type);
- if (dst->type == TYPE_ADR) {
- if (TYPEINFO_IS_PRIMITIVE(y->typeinfo)) {
- /* We copy the returnAddresses from the selected
- * states only. */
-
- LOG("copying returnAddress");
- sety = TYPESTACK_RETURNADDRESSSET(y);
- next = &new;
- for (k=0,sel=selected; sel; sel=sel->alt) {
- LOG1("selected k=%d",sel->k);
- while (k<sel->k) {
- sety = sety->alt;
- k++;
- }
- *next = DNEW(typeinfo_retaddr_set);
- (*next)->addr = sety->addr;
- next = &((*next)->alt);
- }
- *next = NULL;
- TYPEINFO_INIT_RETURNADDRESS(dst->typeinfo,new);
- }
- else {
- TYPEINFO_CLONE(y->typeinfo,dst->typeinfo);
- }
- }
- }
- if (y) {
- exceptions_throw_verifyerror(state->m,"Stack depth mismatch");
- return false;
- }
- return true;
-}
-
-/* typestack_put_retaddr *******************************************************
-
- Put a returnAddress into a stack slot.
-
- The stack slot receives a set of return addresses with as many members as
- there are typevectors in the local variable set.
-
- IN:
- retaddr..........the returnAddress to set (a basicblock *)
- loc..............the local variable typevector set
-
- OUT:
- *dst.............the destination stack slot
-
-*******************************************************************************/
-
-static void
-typestack_put_retaddr(stackptr dst,void *retaddr,typevector *loc)
-{
- TYPECHECK_ASSERT(dst->type == TYPE_ADR);
-
- TYPEINFO_INIT_RETURNADDRESS(dst->typeinfo,NULL);
- for (;loc; loc=loc->alt) {
- typeinfo_retaddr_set *set = DNEW(typeinfo_retaddr_set);
- set->addr = retaddr;
- set->alt = TYPESTACK_RETURNADDRESSSET(dst);
- TYPEINFO_INIT_RETURNADDRESS(dst->typeinfo,set);
- }
-}
-
-/* typestack_collapse **********************************************************
+#define TYPECHECK_INT(i) \
+ TYPECHECK_CHECK_TYPE(i,TYPE_INT,"Expected to find integer value")
+#define TYPECHECK_LNG(i) \
+ TYPECHECK_CHECK_TYPE(i,TYPE_LNG,"Expected to find long value")
+#define TYPECHECK_FLT(i) \
+ TYPECHECK_CHECK_TYPE(i,TYPE_FLT,"Expected to find float value")
+#define TYPECHECK_DBL(i) \
+ TYPECHECK_CHECK_TYPE(i,TYPE_DBL,"Expected to find double value")
+#define TYPECHECK_ADR(i) \
+ TYPECHECK_CHECK_TYPE(i,TYPE_ADR,"Expected to find object value")
+
+#define TYPECHECK_INT_OP(o) TYPECHECK_INT((o).varindex)
+#define TYPECHECK_LNG_OP(o) TYPECHECK_LNG((o).varindex)
+#define TYPECHECK_FLT_OP(o) TYPECHECK_FLT((o).varindex)
+#define TYPECHECK_DBL_OP(o) TYPECHECK_DBL((o).varindex)
+#define TYPECHECK_ADR_OP(o) TYPECHECK_ADR((o).varindex)
+
+
+/* typestate_save_invars *******************************************************
- Collapse the given stack by shortening all return address sets to a single
- member.
-
- OUT:
- *dst.............the destination stack to collapse
-
-*******************************************************************************/
+ Save the invars of the current basic block in the space reserved by
+ parse.
-static void
-typestack_collapse(stackptr dst)
-{
- for (; dst; dst = dst->prev) {
- if (TYPESTACK_IS_RETURNADDRESS(dst))
- TYPESTACK_RETURNADDRESSSET(dst)->alt = NULL;
- }
-}
-
-/* typestack_merge *************************************************************
-
- Merge the types on one stack into the destination stack.
+ This function must be called before an instruction modifies a variable
+ that is an invar of the current block. In such cases the invars of the
+ block must be saved, and restored at the end of the analysis of this
+ basic block, so that the invars again reflect the *input* to this basic
+ block (and do not randomly contain types that appear within the block).
IN:
state............current state of the verifier
- dst..............the destination stack
- y................the second stack
-
- OUT:
- *dst.............receives the result of the stack merge
-
- RETURN VALUE:
- typecheck_TRUE...*dst has been modified
- typecheck_FALSE..*dst has not been modified
- typecheck_FAIL...an exception has been thrown
-
-*******************************************************************************/
-
-static typecheck_result
-typestack_merge(verifier_state *state,stackptr dst,stackptr y)
-{
- typecheck_result r;
- bool changed = false;
-
- for (; dst; dst = dst->prev, y=y->prev) {
- if (!y) {
- exceptions_throw_verifyerror(state->m,"Stack depth mismatch");
- return typecheck_FAIL;
- }
- if (dst->type != y->type) {
- exceptions_throw_verifyerror(state->m,"Stack type mismatch");
- return typecheck_FAIL;
- }
- if (dst->type == TYPE_ADR) {
- if (TYPEINFO_IS_PRIMITIVE(dst->typeinfo)) {
- /* dst has returnAddress type */
- if (!TYPEINFO_IS_PRIMITIVE(y->typeinfo)) {
- exceptions_throw_verifyerror(state->m,"Merging returnAddress with reference");
- return typecheck_FAIL;
- }
- }
- else {
- /* dst has reference type */
- if (TYPEINFO_IS_PRIMITIVE(y->typeinfo)) {
- exceptions_throw_verifyerror(state->m,"Merging reference with returnAddress");
- return typecheck_FAIL;
- }
- r = typeinfo_merge(state->m,&(dst->typeinfo),&(y->typeinfo));
- if (r == typecheck_FAIL)
- return r;
- changed |= r;
- }
- }
- }
- if (y) {
- exceptions_throw_verifyerror(state->m,"Stack depth mismatch");
- return typecheck_FAIL;
- }
- return changed;
-}
-
-/* typestack_add ***************************************************************
-
- Add the return addresses in the given stack at a given k-index to the
- corresponding return address sets in the destination stack.
-
- IN:
- dst..............the destination stack
- y................the second stack
- ky...............the k-index which should be selected from the Y stack
-
- OUT:
- *dst.............receives the result of adding the addresses
*******************************************************************************/
static void
-typestack_add(stackptr dst,stackptr y,int ky)
+typestate_save_invars(verifier_state *state)
{
- typeinfo_retaddr_set *setd;
- typeinfo_retaddr_set *sety;
+ s4 i, index;
+ s4 *pindex;
- for (; dst; dst = dst->prev, y=y->prev) {
- if (TYPESTACK_IS_RETURNADDRESS(dst)) {
- setd = TYPESTACK_RETURNADDRESSSET(dst);
- sety = TYPESTACK_RETURNADDRESSSET(y);
- RETURNADDRESSSET_SEEK(sety,ky);
- while (setd->alt)
- setd=setd->alt;
- setd->alt = DNEW(typeinfo_retaddr_set);
- setd->alt->addr = sety->addr;
- setd->alt->alt = NULL;
- }
- }
-}
-
-/* typestack_separable_with ****************************************************
-
- This function answers the question: If variant 'kb' of typestack 'b' is
- added to typestack 'a', will the result be separable?
-
- A typestack is called 'separable' if it has at least one slot of type
- returnAddress that contains at least two different return addresses.
- (ie. a RET using the value in this slot could go to more than one target)
-
- IN:
- a................the first typestack
- b................the second typestack
- kb...............the k-index of the variant that should be selected
- from typestack 'b'
-
- OUT:
- true.............the result would be separable
- false............the result would not be separable
+ LOG("saving invars");
- PRE-CONDITION:
- 'a' and 'b' are assumed to have passed typestack_canmerge!
-
-*******************************************************************************/
-
-static bool
-typestack_separable_with(stackptr a,stackptr b,int kb)
-{
- typeinfo_retaddr_set *seta;
- typeinfo_retaddr_set *setb;
-
- for (; a; a = a->prev, b = b->prev) {
- TYPECHECK_ASSERT(b);
- if (TYPESTACK_IS_RETURNADDRESS(a)) {
- TYPECHECK_ASSERT(TYPESTACK_IS_RETURNADDRESS(b));
- seta = TYPESTACK_RETURNADDRESSSET(a);
- setb = TYPESTACK_RETURNADDRESSSET(b);
- RETURNADDRESSSET_SEEK(setb,kb);
-
- for (;seta;seta=seta->alt)
- if (seta->addr != setb->addr) return true;
- }
+ if (!state->savedindices) {
+ LOG("allocating savedindices buffer");
+ pindex = DMNEW(s4, state->m->maxstack);
+ state->savedindices = pindex;
+ index = state->numlocals + VERIFIER_EXTRA_VARS;
+ for (i=0; i<state->m->maxstack; ++i)
+ *pindex++ = index++;
}
- TYPECHECK_ASSERT(!b);
- return false;
-}
-
-/* typestack_separable_from ****************************************************
-
- This function answers the question: Is variant 'ka' of typestack 'a'
- separable from variant 'kb' of typestack 'b'?
-
- Two variants of typestacks are called 'separable' from each other, if there
- is at least one slot for which the variants contain different return addresses.
- (ie. a RET using the value in this slot would go to one target in the first
- variant and to another target in the second variant)
-
- IN:
- a................the first typestack
- ka...............the k-index of the variant that should be selected
- from typestack 'a'
- b................the second typestack
- kb...............the k-index of the variant that should be selected
- from typestack 'b'
-
- OUT:
- true.............the variants are separable
- false............the variants are not separable
- PRE-CONDITION:
- 'a' and 'b' are assumed to have passed typestack_canmerge!
-
-*******************************************************************************/
+ /* save types */
-static bool
-typestack_separable_from(stackptr a,int ka,stackptr b,int kb)
-{
- typeinfo_retaddr_set *seta;
- typeinfo_retaddr_set *setb;
-
- for (; a; a = a->prev, b = b->prev) {
- TYPECHECK_ASSERT(b);
- if (TYPESTACK_IS_RETURNADDRESS(a)) {
- TYPECHECK_ASSERT(TYPESTACK_IS_RETURNADDRESS(b));
- seta = TYPESTACK_RETURNADDRESSSET(a);
- setb = TYPESTACK_RETURNADDRESSSET(b);
- RETURNADDRESSSET_SEEK(seta,ka);
- RETURNADDRESSSET_SEEK(setb,kb);
-
- if (seta->addr != setb->addr) return true;
- }
- }
- TYPECHECK_ASSERT(!b);
- return false;
-}
-
-/****************************************************************************/
-/* TYPESTATE FUNCTIONS */
-/* */
-/* These functions act on the 'type state', which comprises: */
-/* - the types of the stack slots of the current stack */
-/* - the set of type vectors describing the local variables */
-/****************************************************************************/
-
-/* typestate_merge *************************************************************
-
- Merge the types of one state into the destination state.
-
- IN:
- state............current state of the verifier
- deststack........the destination stack
- destloc..........the destination set of local variable typevectors
- ystack...........the second stack
- yloc.............the second set of local variable typevectors
-
- OUT:
- *deststack.......receives the result of the stack merge
- *destloc.........receives the result of the local variable merge
-
- RETURN VALUE:
- typecheck_TRUE...destination state has been modified
- typecheck_FALSE..destination state has not been modified
- typecheck_FAIL...an exception has been thrown
-
-*******************************************************************************/
-
-static typecheck_result
-typestate_merge(verifier_state *state,
- stackptr deststack,typevector *destloc,
- stackptr ystack,typevector *yloc)
-{
- typevector *dvec,*yvec;
- int kd,ky;
- bool changed = false;
- typecheck_result r;
-
- LOG("merge:");
- LOGSTR("dstack: "); DOLOG(typestack_print(typecheck_logfile,deststack)); LOGNL;
- LOGSTR("ystack: "); DOLOG(typestack_print(typecheck_logfile,ystack)); LOGNL;
- LOGSTR("dloc : "); DOLOG(typevectorset_print(typecheck_logfile,destloc,state->numlocals)); LOGNL;
- LOGSTR("yloc : "); DOLOG(typevectorset_print(typecheck_logfile,yloc,state->numlocals)); LOGNL;
- LOGFLUSH;
-
- /* The stack is always merged. If there are returnAddresses on
- * the stack they are ignored in this step. */
-
- r = typestack_merge(state,deststack,ystack);
- if (r == typecheck_FAIL)
- return r;
- changed |= r;
-
- /* If there have not been any JSRs we just have a single typevector merge */
- if (!state->jsrencountered) {
- r = typevector_merge(state->m,destloc,yloc,state->numlocals);
- if (r == typecheck_FAIL)
- return r;
- return changed | r;
- }
-
- for (yvec=yloc; yvec; yvec=yvec->alt) {
- ky = yvec->k;
-
- /* Check if the typestates (deststack,destloc) will be
- * separable when (ystack,yvec) is added. */
-
- if (!typestack_separable_with(deststack,ystack,ky)
- && !typevectorset_separable_with(destloc,yvec,state->numlocals))
- {
- /* No, the resulting set won't be separable, thus we
- * may merge all states in (deststack,destloc) and
- * (ystack,yvec). */
-
- typestack_collapse(deststack);
- if (typevectorset_collapse(state->m,destloc,state->numlocals) == typecheck_FAIL)
- return typecheck_FAIL;
- if (typevector_merge(state->m,destloc,yvec,state->numlocals) == typecheck_FAIL)
- return typecheck_FAIL;
- }
- else {
- /* Yes, the resulting set will be separable. Thus we check
- * if we may merge (ystack,yvec) with a single state in
- * (deststack,destloc). */
-
- for (dvec=destloc,kd=0; dvec; dvec=dvec->alt, kd++) {
- if (!typestack_separable_from(ystack,ky,deststack,kd)
- && !typevector_separable_from(yvec,dvec,state->numlocals))
- {
- /* The typestate (ystack,yvec) is not separable from
- * (deststack,dvec) by any returnAddress. Thus we may
- * merge the states. */
-
- r = typevector_merge(state->m,dvec,yvec,state->numlocals);
- if (r == typecheck_FAIL)
- return r;
- changed |= r;
-
- goto merged;
- }
- }
-
- /* The typestate (ystack,yvec) is separable from all typestates
- * (deststack,destloc). Thus we must add this state to the
- * result set. */
-
- typestack_add(deststack,ystack,ky);
- typevectorset_add(destloc,yvec,state->numlocals);
- changed = true;
- }
-
- merged:
- ;
- }
-
- LOG("result:");
- LOGSTR("dstack: "); DOLOG(typestack_print(typecheck_logfile,deststack)); LOGNL;
- LOGSTR("dloc : "); DOLOG(typevectorset_print(typecheck_logfile,destloc,state->numlocals)); LOGNL;
- LOGFLUSH;
-
- return changed;
-}
-
-/* typestate_reach *************************************************************
-
- Reach a destination block and propagate stack and local variable types
-
- IN:
- state............current state of the verifier
- destblock........destination basic block
- ystack...........stack to propagate
- yloc.............set of local variable typevectors to propagate
-
- OUT:
- state->repeat....set to true if the verifier must iterate again
- over the basic blocks
-
- RETURN VALUE:
- true.............success
- false............an exception has been thrown
-
-*******************************************************************************/
-
-static bool
-typestate_reach(verifier_state *state,
- basicblock *destblock,
- stackptr ystack,typevector *yloc)
-{
- typevector *destloc;
- int destidx;
- bool changed = false;
- typecheck_result r;
-
- LOG1("reaching block L%03d",destblock->nr);
- TYPECHECK_COUNT(stat_reached);
-
- destidx = destblock - state->basicblocks;
- destloc = MGET_TYPEVECTOR(state->localbuf,destidx,state->numlocals);
-
- /* When branching backwards we have to check for uninitialized objects */
-
- if (destblock <= state->bptr) {
- stackptr sp;
- int i;
-
- if (!useinlining) {
- TYPECHECK_COUNT(stat_backwards);
- LOG("BACKWARDS!");
- for (sp = ystack; sp; sp=sp->prev)
- if (sp->type == TYPE_ADR &&
- TYPEINFO_IS_NEWOBJECT(sp->typeinfo)) {
- /*printf("current: %d, dest: %d\n", state->bptr->nr, destblock->nr);*/
- exceptions_throw_verifyerror(state->m,"Branching backwards with uninitialized object on stack");
- return false;
- }
-
- for (i=0; i<state->numlocals; ++i)
- if (yloc->td[i].type == TYPE_ADR &&
- TYPEINFO_IS_NEWOBJECT(yloc->td[i].info)) {
- exceptions_throw_verifyerror(state->m,"Branching backwards with uninitialized object in local variable");
- return false;
- }
- }
- }
-
- if (destblock->flags == BBTYPECHECK_UNDEF) {
- /* The destblock has never been reached before */
-
- TYPECHECK_COUNT(stat_copied);
- LOG1("block (index %04d) reached first time",destidx);
-
- if (!typestack_copy(state,destblock->instack,ystack,yloc))
- return false;
- typevectorset_copy_inplace(yloc,destloc,state->numlocals);
- changed = true;
- }
- else {
- /* The destblock has already been reached before */
-
- TYPECHECK_COUNT(stat_merged);
- LOG1("block (index %04d) reached before",destidx);
-
- r = typestate_merge(state,destblock->instack,destloc,ystack,yloc);
- if (r == typecheck_FAIL)
- return false;
- changed = r;
- TYPECHECK_COUNTIF(changed,stat_merging_changed);
- }
-
- if (changed) {
- LOG("changed!");
- destblock->flags = BBTYPECHECK_REACHED;
- if (destblock <= state->bptr) {
- LOG("REPEAT!");
- state->repeat = true;
- }
- }
- return true;
-}
-
-/* typestate_ret ***************************************************************
-
- Reach the destinations of a RET instruction.
-
- IN:
- state............current state of the verifier
- retindex.........index of local variable containing the returnAddress
-
- OUT:
- state->repeat....set to true if the verifier must iterate again
- over the basic blocks
-
- RETURN VALUE:
- true.............success
- false............an exception has been thrown
-
-*******************************************************************************/
-
-static bool
-typestate_ret(verifier_state *state,int retindex)
-{
- typevector *yvec;
- typevector *selected;
- basicblock *destblock;
-
- for (yvec=state->localset; yvec; ) {
- if (!TYPEDESC_IS_RETURNADDRESS(yvec->td[retindex])) {
- exceptions_throw_verifyerror(state->m,"Illegal instruction: RET on non-returnAddress");
- return false;
- }
-
- destblock = (basicblock*) TYPEINFO_RETURNADDRESS(yvec->td[retindex].info);
-
- selected = typevectorset_select(&yvec,retindex,destblock);
-
- if (!typestate_reach(state,destblock,state->bptr->outstack,selected))
- return false;
- }
- return true;
-}
-
-/* typestate_save_instack ******************************************************
-
- Save the input stack of the current basic block in the "savedstackbuf"
- of the verifier state.
-
- This function must be called before an instruction modifies a stack slot
- that happens to be part of the instack of the current block. In such
- cases the instack of the block must be saved, and restored at the end
- of the analysis of this basic block, so that the instack again reflects
- the *input* to this basic block (and does not randomly contain types
- that appear within the block).
-
- IN:
- state............current state of the verifier
-
-*******************************************************************************/
-
-static void
-typestate_save_instack(verifier_state *state)
-{
- stackptr sp;
- stackptr dest;
- s4 i;
-
- LOG("saving input stack types");
- if (!state->savedstackbuf) {
- LOG("allocating savedstack buffer");
- state->savedstackbuf = DMNEW(stackelement, state->cd->maxstack);
- state->savedstackbuf->prev = NULL;
- for (i = 1; i < state->cd->maxstack; ++i)
- state->savedstackbuf[i].prev = state->savedstackbuf+(i-1);
- }
- sp = state->savedstack = state->bptr->instack;
- dest = state->bptr->instack = state->savedstackbuf + (state->bptr->indepth-1);
-
- for(; sp; sp=sp->prev, dest=dest->prev) {
- dest->type = sp->type;
- TYPEINFO_COPY(sp->typeinfo,dest->typeinfo);
- }
+ typecheck_copy_types(state, state->bptr->invars, state->savedindices,
+ state->bptr->indepth);
+
+ /* set the invars of the block to the saved variables */
+ /* and remember the original invars */
+
+ state->savedinvars = state->bptr->invars;
+ state->bptr->invars = state->savedindices;
}
-/* typestate_restore_instack ***************************************************
+
+/* typestate_restore_invars ***************************************************
- Restore the input stack of the current basic block that has been previously
- saved by `typestate_save_instack`.
+ Restore the invars of the current basic block that have been previously
+ saved by `typestate_save_invars`.
IN:
state............current state of the verifier
*******************************************************************************/
static void
-typestate_restore_instack(verifier_state *state)
+typestate_restore_invars(verifier_state *state)
{
- stackptr sp;
- stackptr dest;
-
TYPECHECK_COUNT(stat_savedstack);
- LOG("restoring saved instack");
+ LOG("restoring saved invars");
- sp = state->bptr->instack;
- dest = state->savedstack;
- for(; sp; sp=sp->prev, dest=dest->prev) {
- dest->type = sp->type;
- TYPEINFO_COPY(sp->typeinfo,dest->typeinfo);
- }
+ /* restore the invars pointer */
- state->bptr->instack = state->savedstack;
- state->savedstack = NULL;
-}
+ state->bptr->invars = state->savedinvars;
-/****************************************************************************/
-/* MISC MACROS */
-/****************************************************************************/
+ /* copy the types back */
-#define COPYTYPE(source,dest) \
- {if ((source)->type == TYPE_ADR) \
- TYPEINFO_COPY((source)->typeinfo,(dest)->typeinfo);}
+ typecheck_copy_types(state, state->savedindices, state->bptr->invars,
+ state->bptr->indepth);
-#define ISBUILTIN(v) (bte->fp == (functionptr) (v))
+ /* mark that there are no saved invars currently */
-/* verify_invocation ***********************************************************
+ state->savedinvars = NULL;
+}
+
+
+/* handle_fieldaccess **********************************************************
- Verify an ICMD_INVOKE* instruction.
+ Verify an ICMD_{GET,PUT}{STATIC,FIELD}(CONST)?
IN:
state............the current state of the verifier
*******************************************************************************/
static bool
-verify_invocation(verifier_state *state)
+handle_fieldaccess(verifier_state *state,
+ varinfo *instance,
+ varinfo *value)
{
- unresolved_method *um; /* struct describing the called method */
- constant_FMIref *mref; /* reference to the called method */
- methodinfo *mi; /* resolved method (if any) */
- methoddesc *md; /* descriptor of the called method */
- utf *mname; /* method name */
- utf *mclassname; /* name of the method's class */
- bool specialmethod; /* true if a <...> method is called */
- int opcode; /* invocation opcode */
- bool callinginit; /* true if <init> is called */
- new_instruction *ins;
- classref_or_classinfo initclass;
- typedesc *td;
- stackelement *arg; /* argument pointer */
- stackelement *dst; /* result stack of the invocation */
- int i; /* counter */
- u1 rtype; /* return type of called method */
- resolve_result_t result;
-
- if (INSTRUCTION_IS_UNRESOLVED(state->iptr)) {
- /* unresolved method */
- um = state->iptr->sx.s23.s3.um;
- mref = um->methodref;
- }
- else {
- /* resolved method */
- um = NULL;
- mref = state->iptr->sx.s23.s3.fmiref;
- }
-
- md = mref->parseddesc.md;
- mname = mref->name;
-
- if (IS_FMIREF_RESOLVED(mref)) {
- mi = mref->p.method;
- mclassname = mi->class->name;
- }
- else {
- mi = NULL;
- mclassname = mref->p.classref->name;
- }
-
- specialmethod = (mname->text[0] == '<');
- opcode = state->iptr[0].opc;
- dst = state->iptr->dst.var;
-
- /* prevent compiler warnings */
-
- ins = NULL;
-
- /* check whether we are calling <init> */
-
- callinginit = (opcode == ICMD_INVOKESPECIAL && mname == utf_init);
- if (specialmethod && !callinginit)
- TYPECHECK_VERIFYERROR_bool("Invalid invocation of special method");
-
- /* allocate parameters if necessary */
-
- if (!md->params)
- if (!descriptor_params_from_paramtypes(md,
- (opcode == ICMD_INVOKESTATIC) ? ACC_STATIC : ACC_NONE))
- return false;
-
- /* check parameter types */
-
- i = md->paramcount; /* number of parameters including 'this'*/
- while (--i >= 0) {
- LOG1("param %d",i);
- arg = state->iptr->sx.s23.s2.args[i];
- td = md->paramtypes + i;
- if (arg->type != td->type)
- TYPECHECK_VERIFYERROR_bool("Parameter type mismatch in method invocation");
- if (arg->type == TYPE_ADR) {
- LOGINFO(&(arg->typeinfo));
- if (i==0 && callinginit)
- {
- /* first argument to <init> method */
- if (!TYPEINFO_IS_NEWOBJECT(arg->typeinfo))
- TYPECHECK_VERIFYERROR_bool("Calling <init> on initialized object");
-
- /* get the address of the NEW instruction */
- LOGINFO(&(arg->typeinfo));
- ins = (new_instruction*)TYPEINFO_NEWOBJECT_INSTRUCTION(arg->typeinfo);
- if (ins)
- initclass = ins[-1].sx.val.c;
- else
- initclass.cls = state->m->class;
- LOGSTR("class: "); LOGNAME(initclass); LOGNL;
- }
- }
- else {
- /* non-adress argument. if this is the first argument and we are */
- /* invoking an instance method, this is an error. */
- if (i==0 && opcode != ICMD_INVOKESTATIC) {
- TYPECHECK_VERIFYERROR_bool("Parameter type mismatch for 'this' argument");
- }
- }
- LOG("ok");
- }
-
- LOG("checking return type");
- rtype = md->returntype.type;
- if (rtype != TYPE_VOID) {
- if (rtype != dst->type)
- TYPECHECK_VERIFYERROR_bool("Return type mismatch in method invocation");
- if (!typeinfo_init_from_typedesc(&(md->returntype),NULL,&(dst->typeinfo)))
- return false;
- }
-
- if (callinginit) {
- LOG("replacing uninitialized object");
- /* replace uninitialized object type on stack */
-
- /* for all live-in and live-through variables */
- for (i=0; i<state->iptr->s1.argcount; ++i) {
- arg = state->iptr->sx.s23.s2.args[i];
- if (arg->type == TYPE_ADR
- && TYPEINFO_IS_NEWOBJECT(arg->typeinfo)
- && TYPEINFO_NEWOBJECT_INSTRUCTION(arg->typeinfo) == ins)
- {
- LOG("replacing uninitialized type on stack");
-
- /* If this stackslot is in the instack of
- * this basic block we must save the type(s)
- * we are going to replace.
- */
- /* XXX this needs a new check */
- if (arg <= state->bptr->instack && !state->savedstack)
- typestate_save_instack(state);
-
- if (!typeinfo_init_class(&(arg->typeinfo),initclass))
- return false;
- }
- }
-
- /* replace uninitialized object type in locals */
- if (!typevectorset_init_object(state->localset,ins,initclass,state->numlocals))
- return false;
-
- /* initializing the 'this' reference? */
- if (!ins) {
- classinfo *cls;
- TYPECHECK_ASSERT(state->initmethod);
- /* { we are initializing the 'this' reference } */
- /* must be <init> of current class or direct superclass */
- /* the current class is linked, so must be its superclass. thus we can be */
- /* sure that resolving will be trivial. */
- if (mi) {
- cls = mi->class;
- }
- else {
- if (!resolve_classref(state->m,mref->p.classref,resolveLazy,false,true,&cls))
- return false; /* exception */
- }
+ jitdata *jd;
- /* if lazy resolving did not succeed, it's not one of the allowed classes */
- /* otherwise we check it directly */
- if (cls == NULL || (cls != state->m->class && cls != state->m->class->super.cls)) {
- TYPECHECK_VERIFYERROR_bool("<init> calling <init> of the wrong class");
- }
-
- /* set our marker variable to type int */
- LOG("setting <init> marker");
- typevectorset_store(state->localset,state->numlocals-1,TYPE_INT,NULL);
- }
- else {
- /* { we are initializing an instance created with NEW } */
- if ((IS_CLASSREF(initclass) ? initclass.ref->name : initclass.cls->name) != mclassname) {
- TYPECHECK_VERIFYERROR_bool("wrong <init> called for uninitialized reference");
- }
- }
- }
-
- /* try to resolve the method lazily */
-
- result = new_resolve_method_lazy(state->iptr,state->m);
- if (result == resolveFailed)
- return false;
-
- if (result != resolveSucceeded) {
- if (!um) {
- um = new_create_unresolved_method(state->m->class,
- state->m, state->iptr);
-
- if (!um)
- return false;
- }
+ jd = state->jd;
- /* record subtype constraints for parameters */
-
- if (!new_constrain_unresolved_method(um,state->m->class,state->m,state->iptr))
- return false; /* XXX maybe wrap exception */
-
- /* store the unresolved_method pointer */
-
- state->iptr->sx.s23.s3.um = um;
- state->iptr->flags.bits |= INS_FLAG_UNRESOLVED;
- }
- else {
- assert(IS_FMIREF_RESOLVED(state->iptr->sx.s23.s3.fmiref));
- }
+#define TYPECHECK_VARIABLESBASED
+#define EXCEPTION do { return false; } while (0)
+#define VERIFY_ERROR(msg) TYPECHECK_VERIFYERROR_bool(msg)
+#include <typecheck-fields.inc>
+#undef EXCEPTION
+#undef VERIFY_ERROR
+#undef TYPECHECK_VARIABLESBASED
return true;
}
-/* verify_generic_builtin ******************************************************
+
+/* handle_invocation ***********************************************************
- Verify the call of a generic builtin method.
+ Verify an ICMD_INVOKE* instruction.
IN:
state............the current state of the verifier
*******************************************************************************/
static bool
-verify_generic_builtin(verifier_state *state)
+handle_invocation(verifier_state *state)
{
- builtintable_entry *bte;
- s4 i;
- u1 rtype;
- methoddesc *md;
- stackptr arg;
-
- TYPECHECK_COUNT(stat_ins_builtin_gen);
-
- bte = state->iptr->sx.s23.s3.bte;
- md = bte->md;
- i = md->paramcount;
-
- /* check the types of the arguments on the stack */
-
- for (i--; i >= 0; i--) {
- arg = state->iptr->sx.s23.s2.args[i];
-
- if (arg->type != md->paramtypes[i].type) {
- TYPECHECK_VERIFYERROR_bool("parameter type mismatch for builtin method");
- }
-
-#ifdef TYPECHECK_DEBUG
- /* generic builtins may only take primitive types and java.lang.Object references */
- if (arg->type == TYPE_ADR && md->paramtypes[i].classref->name != utf_java_lang_Object) {
- *exceptionptr = new_internalerror("generic builtin method with non-generic reference parameter");
- return false;
- }
-#endif
- }
+ jitdata *jd;
+ varinfo *dv; /* output variable of current instruction */
- /* check the return type */
+ jd = state->jd;
+ dv = VAROP(state->iptr->dst);
- rtype = md->returntype.type;
- if (rtype != TYPE_VOID) {
- stackptr dst;
-
- dst = state->iptr->dst.var;
- if (rtype != dst->type)
- TYPECHECK_VERIFYERROR_bool("Return type mismatch in generic builtin invocation");
- if (!typeinfo_init_from_typedesc(&(md->returntype),NULL,&(dst->typeinfo)))
- return false;
- }
+#define TYPECHECK_VARIABLESBASED
+#define OP1 VAR(state->iptr->sx.s23.s2.args[0])
+#include <typecheck-invoke.inc>
+#undef OP1
+#undef TYPECHECK_VARIABLESBASED
return true;
}
-/* verify_builtin **************************************************************
+
+/* handle_builtin **************************************************************
Verify the call of a builtin method.
*******************************************************************************/
static bool
-verify_builtin(verifier_state *state)
+handle_builtin(verifier_state *state)
{
- builtintable_entry *bte;
- classref_or_classinfo cls;
- stackptr dst; /* output stack of current instruction */
+ jitdata *jd;
+ varinfo *dv; /* output variable of current instruction */
- bte = state->iptr->sx.s23.s3.bte;
- dst = state->iptr->dst.var;
+ jd = state->jd;
+ dv = VAROP(state->iptr->dst);
- /* XXX this is an ugly if-chain but twisti did not want a function */
- /* pointer in builtintable_entry for this, so here you go.. ;) */
+#define TYPECHECK_VARIABLESBASED
+#define OP1 state->iptr->sx.s23.s2.args[0]
+#include <typecheck-builtins.inc>
+#undef OP1
+#undef TYPECHECK_VARIABLESBASED
- if (ISBUILTIN(BUILTIN_new)) {
- if (state->iptr[-1].opc != ICMD_ACONST)
- TYPECHECK_VERIFYERROR_bool("illegal instruction: builtin_new without class");
- cls = state->iptr[-1].sx.val.c;
- TYPEINFO_INIT_NEWOBJECT(dst->typeinfo,state->iptr);
- }
- else if (ISBUILTIN(BUILTIN_newarray_boolean)) {
- TYPECHECK_INT(state->iptr->sx.s23.s2.args[0]);
- TYPEINFO_INIT_PRIMITIVE_ARRAY(dst->typeinfo,ARRAYTYPE_BOOLEAN);
- }
- else if (ISBUILTIN(BUILTIN_newarray_char)) {
- TYPECHECK_INT(state->iptr->sx.s23.s2.args[0]);
- TYPEINFO_INIT_PRIMITIVE_ARRAY(dst->typeinfo,ARRAYTYPE_CHAR);
- }
- else if (ISBUILTIN(BUILTIN_newarray_float)) {
- TYPECHECK_INT(state->iptr->sx.s23.s2.args[0]);
- TYPEINFO_INIT_PRIMITIVE_ARRAY(dst->typeinfo,ARRAYTYPE_FLOAT);
- }
- else if (ISBUILTIN(BUILTIN_newarray_double)) {
- TYPECHECK_INT(state->iptr->sx.s23.s2.args[0]);
- TYPEINFO_INIT_PRIMITIVE_ARRAY(dst->typeinfo,ARRAYTYPE_DOUBLE);
- }
- else if (ISBUILTIN(BUILTIN_newarray_byte)) {
- TYPECHECK_INT(state->iptr->sx.s23.s2.args[0]);
- TYPEINFO_INIT_PRIMITIVE_ARRAY(dst->typeinfo,ARRAYTYPE_BYTE);
- }
- else if (ISBUILTIN(BUILTIN_newarray_short)) {
- TYPECHECK_INT(state->iptr->sx.s23.s2.args[0]);
- TYPEINFO_INIT_PRIMITIVE_ARRAY(dst->typeinfo,ARRAYTYPE_SHORT);
- }
- else if (ISBUILTIN(BUILTIN_newarray_int)) {
- TYPECHECK_INT(state->iptr->sx.s23.s2.args[0]);
- TYPEINFO_INIT_PRIMITIVE_ARRAY(dst->typeinfo,ARRAYTYPE_INT);
- }
- else if (ISBUILTIN(BUILTIN_newarray_long)) {
- TYPECHECK_INT(state->iptr->sx.s23.s2.args[0]);
- TYPEINFO_INIT_PRIMITIVE_ARRAY(dst->typeinfo,ARRAYTYPE_LONG);
- }
- else if (ISBUILTIN(BUILTIN_newarray))
- {
- TYPECHECK_INT(state->iptr->sx.s23.s2.args[0]);
- if (state->iptr[-1].opc != ICMD_ACONST)
- TYPECHECK_VERIFYERROR_bool("illegal instruction: builtin_newarray without class");
- /* XXX check that it is an array class(ref) */
- typeinfo_init_class(&(dst->typeinfo),state->iptr[-1].sx.val.c);
- }
- else if (ISBUILTIN(BUILTIN_arrayinstanceof))
- {
- TYPECHECK_ADR(state->iptr->sx.s23.s2.args[0]);
- if (state->iptr[-1].opc != ICMD_ACONST)
- TYPECHECK_VERIFYERROR_bool("illegal instruction: builtin_arrayinstanceof without class");
- /* XXX check that it is an array class(ref) */
- }
- else {
- return verify_generic_builtin(state);
- }
return true;
}
-/* verify_multianewarray *******************************************************
+/* handle_multianewarray *******************************************************
Verify a MULTIANEWARRAY instruction.
*******************************************************************************/
static bool
-verify_multianewarray(verifier_state *state)
+handle_multianewarray(verifier_state *state)
{
- stackptr arg;
- classinfo *arrayclass;
- arraydescriptor *desc;
- s4 i;
+ jitdata *jd;
+ varinfo *dv; /* output variable of current instruction */
- /* check the array lengths on the stack */
- i = state->iptr->s1.argcount;
- if (i < 1)
- TYPECHECK_VERIFYERROR_bool("Illegal dimension argument");
-
- while (i--) {
- arg = state->iptr->sx.s23.s2.args[i];
- /* XXX this should be checked in stack.c: */
- if (!arg)
- TYPECHECK_VERIFYERROR_bool("Unable to pop operand off an empty stack");
- TYPECHECK_INT(arg);
- }
+ jd = state->jd;
+ dv = VAROP(state->iptr->dst);
+
+#define TYPECHECK_VARIABLESBASED
+#define VERIFY_ERROR(msg) TYPECHECK_VERIFYERROR_bool(msg)
+#include <typecheck-multianewarray.inc>
+#undef VERIFY_ERROR
+#undef TYPECHECK_VARIABLESBASED
+
+ return true;
+}
+
+/* typecheck_invalidate_locals *************************************************
+
+ Invalidate locals that are overwritten by writing to the given local.
+
+ IN:
+ state............the current state of the verifier
+ index............the index of the local that is written
+ twoword..........true, if a two-word type is written
- /* check array descriptor */
- if (INSTRUCTION_IS_RESOLVED(state->iptr)) {
- /* the array class reference has already been resolved */
- arrayclass = state->iptr->sx.s23.s3.c.cls;
- if (!arrayclass)
- TYPECHECK_VERIFYERROR_bool("MULTIANEWARRAY with unlinked class");
- if ((desc = arrayclass->vftbl->arraydesc) == NULL)
- TYPECHECK_VERIFYERROR_bool("MULTIANEWARRAY with non-array class");
- if (desc->dimension < state->iptr->s1.argcount)
- TYPECHECK_VERIFYERROR_bool("MULTIANEWARRAY dimension to high");
-
- /* set the array type of the result */
- typeinfo_init_classinfo(&(state->iptr->dst.var->typeinfo), arrayclass);
+*******************************************************************************/
+
+static void typecheck_invalidate_locals(verifier_state *state, s4 index, bool twoword)
+{
+ s4 javaindex;
+ s4 t;
+ s4 varindex;
+ jitdata *jd = state->jd;
+ s4 *localmap = jd->local_map;
+ varinfo *vars = jd->var;
+
+ javaindex = jd->reverselocalmap[index];
+
+ /* invalidate locals of two-word type at index javaindex-1 */
+
+ if (javaindex > 0) {
+ localmap += 5 * (javaindex-1);
+ for (t=0; t<5; ++t) {
+ varindex = *localmap++;
+ if (varindex >= 0 && IS_2_WORD_TYPE(vars[varindex].type)) {
+ LOG1("invalidate local %d", varindex);
+ vars[varindex].type = TYPE_VOID;
+ }
+ }
}
else {
- const char *p;
- constant_classref *cr;
-
- /* the array class reference is still unresolved */
- /* check that the reference indicates an array class of correct dimension */
- cr = state->iptr->sx.s23.s3.c.ref;
- i = 0;
- p = cr->name->text;
- while (p[i] == '[')
- i++;
- /* { the dimension of the array class == i } */
- if (i < 1)
- TYPECHECK_VERIFYERROR_bool("MULTIANEWARRAY with non-array class");
- if (i < state->iptr->s1.argcount)
- TYPECHECK_VERIFYERROR_bool("MULTIANEWARRAY dimension to high");
-
- /* set the array type of the result */
- if (!typeinfo_init_class(&(state->iptr->dst.var->typeinfo),CLASSREF_OR_CLASSINFO(cr)))
- return false;
+ localmap += 5 * javaindex;
}
- /* everything ok */
- return true;
+ /* invalidate locals at index javaindex */
+
+ for (t=0; t<5; ++t) {
+ varindex = *localmap++;
+ if (varindex >= 0) {
+ LOG1("invalidate local %d", varindex);
+ vars[varindex].type = TYPE_VOID;
+ }
+ }
+
+ /* if a two-word type is written, invalidate locals at index javaindex+1 */
+
+ if (twoword) {
+ for (t=0; t<5; ++t) {
+ varindex = *localmap++;
+ if (varindex >= 0) {
+ LOG1("invalidate local %d", varindex);
+ vars[varindex].type = TYPE_VOID;
+ }
+ }
+ }
}
-/* verify_basic_block **********************************************************
+
+/* macros used by the generated code ******************************************/
+
+#define EXCEPTION do { return false; } while (0)
+#define VERIFY_ERROR(msg) TYPECHECK_VERIFYERROR_bool(msg)
+
+#define CHECK_LOCAL_TYPE(index, t) \
+ do { \
+ if (!typevector_checktype(jd->var, (index), (t))) \
+ VERIFY_ERROR("Local variable type mismatch"); \
+ } while (0)
+
+#define STORE_LOCAL(t, index) \
+ do { \
+ s4 temp_t = (t); \
+ typecheck_invalidate_locals(state, (index), false); \
+ typevector_store(jd->var, (index), (temp_t), NULL); \
+ } while (0)
+
+#define STORE_LOCAL_2_WORD(t, index) \
+ do { \
+ s4 temp_t = (t); \
+ typecheck_invalidate_locals(state, (index), true); \
+ typevector_store(jd->var, (index), (temp_t), NULL); \
+ } while (0)
+
+#define REACH_BLOCK(target) \
+ do { \
+ if (!typestate_reach(state, (target), \
+ state->bptr->outvars, jd->var, \
+ state->bptr->outdepth)) \
+ return false; \
+ } while (0)
+
+#define REACH(target) REACH_BLOCK((target).block)
+
+
+/* handle_basic_block **********************************************************
Perform bytecode verification of a basic block.
*******************************************************************************/
static bool
-verify_basic_block(verifier_state *state)
+handle_basic_block(verifier_state *state)
{
int opcode; /* current opcode */
int len; /* for counting instructions, etc. */
bool superblockend; /* true if no fallthrough to next block */
- new_instruction *iptr; /* the current instruction */
- stackptr dst;
+ instruction *iptr; /* the current instruction */
basicblock *tbptr; /* temporary for target block */
bool maythrow; /* true if this instruction may throw */
- unresolved_field *uf; /* for field accesses */
- constant_FMIref *fieldref; /* for field accesses */
s4 i;
- s4 b_index;
typecheck_result r;
- resolve_result_t result;
branch_target_t *table;
lookup_target_t *lookup;
+ jitdata *jd = state->jd;
+ exception_entry *ex;
+ varinfo constvalue; /* for PUT*CONST */
+ constant_FMIref *fieldref;
LOGSTR1("\n---- BLOCK %04d ------------------------------------------------\n",state->bptr->nr);
LOGFLUSH;
superblockend = false;
state->bptr->flags = BBFINISHED;
- b_index = state->bptr - state->basicblocks;
/* prevent compiler warnings */
- dst = NULL;
/* determine the active exception handlers for this block */
/* XXX could use a faster algorithm with sorted lists or */
/* something? */
len = 0;
- for (i = 0; i < state->cd->exceptiontablelength; ++i) {
- if ((state->cd->exceptiontable[i].start <= state->bptr) && (state->cd->exceptiontable[i].end > state->bptr)) {
- LOG1("active handler L%03d", state->cd->exceptiontable[i].handler->nr);
- state->handlers[len++] = state->cd->exceptiontable + i;
+ for (ex = state->jd->exceptiontable; ex ; ex = ex->down) {
+ if ((ex->start->nr <= state->bptr->nr) && (ex->end->nr > state->bptr->nr)) {
+ LOG1("active handler L%03d", ex->handler->nr);
+ state->handlers[len++] = ex;
}
}
state->handlers[len] = NULL;
/* init variable types at the start of this block */
- typevectorset_copy_inplace(MGET_TYPEVECTOR(state->localbuf,b_index,state->numlocals),
- state->localset,state->numlocals);
-
- if (state->handlers[0])
- for (i=0; i<state->numlocals; ++i)
- if (state->localset->td[i].type == TYPE_ADR
- && TYPEINFO_IS_NEWOBJECT(state->localset->td[i].info)) {
- /* XXX we do not check this for the uninitialized 'this' instance in */
- /* <init> methods. Otherwise there are problems with try blocks in */
- /* <init>. The spec seems to indicate that we should perform the test*/
- /* in all cases, but this fails with real code. */
- /* Example: org/eclipse/ui/internal/PerspectiveBarNewContributionItem*/
- /* of eclipse 3.0.2 */
- /* XXX Try to show that the check is not necessary for 'this'! */
- if (TYPEINFO_NEWOBJECT_INSTRUCTION(state->localset->td[i].info) != NULL) {
- /*show_icmd_method(state->m, state->cd, state->rd);*/
- printf("Uninitialized variable: %d, block: %d\n", i, state->bptr->nr);
- TYPECHECK_VERIFYERROR_bool("Uninitialized object in local variable inside try block");
- }
- }
- DOLOG(typestate_print(typecheck_logfile,state->bptr->instack,state->localset,state->numlocals));
+ typevector_copy_inplace(state->bptr->inlocals, jd->var, state->numlocals);
+
+ DOLOG(show_basicblock(jd, state->bptr, SHOW_STACK));
+ DOLOG(typecheck_print_vararray(stdout, jd, state->bptr->invars,
+ state->bptr->indepth));
+ DOLOG(typevector_print(stdout, jd->var, state->numlocals));
LOGNL; LOGFLUSH;
/* loop over the instructions */
len = state->bptr->icount;
- state->iptr = /* XXX */ (new_instruction *) state->bptr->iinstr;
+ state->iptr = state->bptr->iinstr;
while (--len >= 0) {
TYPECHECK_COUNT(stat_ins);
iptr = state->iptr;
- DOLOG(typestate_print(typecheck_logfile,NULL,state->localset,state->numlocals));
+ DOLOG(typevector_print(stdout, jd->var, state->numlocals));
LOGNL; LOGFLUSH;
-
- DOLOG(show_icmd(state->iptr,false)); LOGNL; LOGFLUSH;
+ DOLOG(show_icmd(jd, state->iptr, false, SHOW_STACK)); LOGNL; LOGFLUSH;
opcode = iptr->opc;
- dst = iptr->dst.var;
maythrow = false;
switch (opcode) {
- /****************************************/
- /* STACK MANIPULATIONS */
-
- /* We just need to copy the typeinfo */
- /* for slots containing addresses. */
-
- /* CAUTION: We assume that the destination stack
- * slots were continuously allocated in
- * memory! (The current implementation in
- * stack.c)
- */
-
- case ICMD_DUP:
- TYPECHECK_COUNT(stat_ins_stack);
- COPYTYPE(iptr->s1.var, iptr->dst.var);
- break;
-
- case ICMD_DUP_X1:
- TYPECHECK_COUNT(stat_ins_stack);
- COPYTYPE(iptr->dst.dupslots[ 1], iptr->dst.dupslots[2+2]);
- COPYTYPE(iptr->dst.dupslots[ 0], iptr->dst.dupslots[2+1]);
- COPYTYPE(iptr->dst.dupslots[2+2], iptr->dst.dupslots[2+0]);
- break;
-
- case ICMD_DUP_X2:
- TYPECHECK_COUNT(stat_ins_stack);
- COPYTYPE(iptr->dst.dupslots[ 2], iptr->dst.dupslots[3+3]);
- COPYTYPE(iptr->dst.dupslots[ 1], iptr->dst.dupslots[3+2]);
- COPYTYPE(iptr->dst.dupslots[ 0], iptr->dst.dupslots[3+1]);
- COPYTYPE(iptr->dst.dupslots[3+3], iptr->dst.dupslots[3+0]);
- break;
-
- case ICMD_DUP2:
- TYPECHECK_COUNT(stat_ins_stack);
- COPYTYPE(iptr->dst.dupslots[ 1], iptr->dst.dupslots[2+1]);
- COPYTYPE(iptr->dst.dupslots[ 0], iptr->dst.dupslots[2+0]);
- break;
-
- case ICMD_DUP2_X1:
- TYPECHECK_COUNT(stat_ins_stack);
- COPYTYPE(iptr->dst.dupslots[ 2], iptr->dst.dupslots[3+4]);
- COPYTYPE(iptr->dst.dupslots[ 1], iptr->dst.dupslots[3+3]);
- COPYTYPE(iptr->dst.dupslots[ 0], iptr->dst.dupslots[3+2]);
- COPYTYPE(iptr->dst.dupslots[3+4], iptr->dst.dupslots[3+1]);
- COPYTYPE(iptr->dst.dupslots[3+3], iptr->dst.dupslots[3+0]);
- break;
-
- case ICMD_DUP2_X2:
- TYPECHECK_COUNT(stat_ins_stack);
- COPYTYPE(iptr->dst.dupslots[ 3], iptr->dst.dupslots[4+5]);
- COPYTYPE(iptr->dst.dupslots[ 2], iptr->dst.dupslots[4+4]);
- COPYTYPE(iptr->dst.dupslots[ 1], iptr->dst.dupslots[4+3]);
- COPYTYPE(iptr->dst.dupslots[ 0], iptr->dst.dupslots[4+2]);
- COPYTYPE(iptr->dst.dupslots[4+5], iptr->dst.dupslots[4+1]);
- COPYTYPE(iptr->dst.dupslots[4+4], iptr->dst.dupslots[4+0]);
- break;
-
- case ICMD_SWAP:
- TYPECHECK_COUNT(stat_ins_stack);
- COPYTYPE(iptr->dst.dupslots[ 1], iptr->dst.dupslots[2+0]);
- COPYTYPE(iptr->dst.dupslots[ 0], iptr->dst.dupslots[2+1]);
- break;
-
- /****************************************/
- /* PRIMITIVE VARIABLE ACCESS */
-
- case ICMD_ILOAD: if (!typevectorset_checktype(state->localset,state->iptr->s1.localindex,TYPE_INT))
- TYPECHECK_VERIFYERROR_bool("Local variable type mismatch");
- break;
- case ICMD_IINC: if (!typevectorset_checktype(state->localset,state->iptr->s1.localindex,TYPE_INT))
- TYPECHECK_VERIFYERROR_bool("Local variable type mismatch");
- break;
- case ICMD_FLOAD: if (!typevectorset_checktype(state->localset,state->iptr->s1.localindex,TYPE_FLT))
- TYPECHECK_VERIFYERROR_bool("Local variable type mismatch");
- break;
- case ICMD_LLOAD: if (!typevectorset_checktype(state->localset,state->iptr->s1.localindex,TYPE_LNG))
- TYPECHECK_VERIFYERROR_bool("Local variable type mismatch");
- break;
- case ICMD_DLOAD: if (!typevectorset_checktype(state->localset,state->iptr->s1.localindex,TYPE_DBL))
- TYPECHECK_VERIFYERROR_bool("Local variable type mismatch");
- break;
-
- case ICMD_ISTORE: typevectorset_store(state->localset,state->iptr->dst.localindex,TYPE_INT,NULL); break;
- case ICMD_FSTORE: typevectorset_store(state->localset,state->iptr->dst.localindex,TYPE_FLT,NULL); break;
- case ICMD_LSTORE: typevectorset_store_twoword(state->localset,state->iptr->dst.localindex,TYPE_LNG); break;
- case ICMD_DSTORE: typevectorset_store_twoword(state->localset,state->iptr->dst.localindex,TYPE_DBL); break;
-
- /****************************************/
- /* LOADING ADDRESS FROM VARIABLE */
-
- case ICMD_ALOAD:
- TYPECHECK_COUNT(stat_ins_aload);
-
- /* loading a returnAddress is not allowed */
- if (state->jsrencountered) {
- if (!typevectorset_checkreference(state->localset,state->iptr->s1.localindex)) {
- TYPECHECK_VERIFYERROR_bool("illegal instruction: ALOAD loading non-reference");
- }
- if (typevectorset_copymergedtype(state->m,state->localset,state->iptr->s1.localindex,&(dst->typeinfo)) == -1)
- return false;
- }
- else {
- if (!TYPEDESC_IS_REFERENCE(state->localset->td[state->iptr->s1.localindex])) {
- TYPECHECK_VERIFYERROR_bool("illegal instruction: ALOAD loading non-reference");
- }
- TYPEINFO_COPY(state->localset->td[state->iptr->s1.localindex].info,dst->typeinfo);
- }
- break;
-
- /****************************************/
- /* STORING ADDRESS TO VARIABLE */
-
- case ICMD_ASTORE:
- if (state->handlers[0] && TYPEINFO_IS_NEWOBJECT(state->iptr->s1.var->typeinfo)) {
- TYPECHECK_VERIFYERROR_bool("Storing uninitialized object in local variable inside try block");
- }
-
- if (TYPESTACK_IS_RETURNADDRESS(state->iptr->s1.var)) {
- typevectorset_store_retaddr(state->localset,state->iptr->dst.localindex,&(state->iptr->s1.var->typeinfo));
- }
- else {
- typevectorset_store(state->localset,state->iptr->dst.localindex,TYPE_ADR,
- &(state->iptr->s1.var->typeinfo));
- }
- break;
-
- /****************************************/
- /* LOADING ADDRESS FROM ARRAY */
-
- case ICMD_AALOAD:
- if (!TYPEINFO_MAYBE_ARRAY_OF_REFS(state->iptr->s1.var->typeinfo))
- TYPECHECK_VERIFYERROR_bool("illegal instruction: AALOAD on non-reference array");
-
- if (!typeinfo_init_component(&state->iptr->s1.var->typeinfo,&dst->typeinfo))
- return false;
- maythrow = true;
- break;
-
- /****************************************/
- /* FIELD ACCESS */
-
- case ICMD_PUTFIELD:
- case ICMD_PUTSTATIC:
- case ICMD_PUTFIELDCONST:
- case ICMD_PUTSTATICCONST:
- TYPECHECK_COUNT(stat_ins_field);
-
- if (INSTRUCTION_IS_UNRESOLVED(state->iptr)) {
- uf = state->iptr->sx.s23.s3.uf;
- fieldref = uf->fieldref;
- }
- else {
- uf = NULL;
- fieldref = state->iptr->sx.s23.s3.fmiref;
- }
-
- goto fieldaccess_tail;
-
- case ICMD_GETFIELD:
- case ICMD_GETSTATIC:
- TYPECHECK_COUNT(stat_ins_field);
-
- if (INSTRUCTION_IS_UNRESOLVED(state->iptr)) {
- uf = state->iptr->sx.s23.s3.uf;
- fieldref = uf->fieldref;
- }
- else {
- uf = NULL;
- fieldref = state->iptr->sx.s23.s3.fmiref;
- }
-
- /* the result is pushed on the stack */
- if (dst->type == TYPE_ADR) {
- if (!typeinfo_init_from_typedesc(fieldref->parseddesc.fd,NULL,&(dst->typeinfo)))
- return false;
- }
-
-fieldaccess_tail:
- /* try to resolve the field reference lazily */
- result = new_resolve_field_lazy(state->iptr, state->m);
- if (result == resolveFailed)
- return false;
-
- if (result != resolveSucceeded) {
- if (!uf) {
- uf = new_create_unresolved_field(state->m->class, state->m, state->iptr);
- if (!uf)
- return false;
-
- state->iptr->sx.s23.s3.uf = uf;
- state->iptr->flags.bits |= INS_FLAG_UNRESOLVED;
- }
-
- /* record the subtype constraints for this field access */
- if (!new_constrain_unresolved_field(uf,state->m->class,state->m,state->iptr))
- return false; /* XXX maybe wrap exception? */
-
- TYPECHECK_COUNTIF(INSTRUCTION_IS_UNRESOLVED(state->iptr),stat_ins_field_unresolved);
- TYPECHECK_COUNTIF(INSTRUCTION_IS_RESOLVED(state->iptr) && !state->iptr->sx.s23.s3.fmiref->p.field->class->initialized,stat_ins_field_uninitialized);
- }
-
- maythrow = true;
- break;
-
- /****************************************/
- /* PRIMITIVE ARRAY ACCESS */
-
- case ICMD_ARRAYLENGTH:
- if (!TYPEINFO_MAYBE_ARRAY(state->iptr->s1.var->typeinfo)
- && state->iptr->s1.var->typeinfo.typeclass.cls != pseudo_class_Arraystub)
- TYPECHECK_VERIFYERROR_bool("illegal instruction: ARRAYLENGTH on non-array");
- maythrow = true;
- break;
-
- case ICMD_BALOAD:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_BOOLEAN)
- && !TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_BYTE))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
- case ICMD_CALOAD:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_CHAR))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
- case ICMD_DALOAD:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_DOUBLE))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
- case ICMD_FALOAD:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_FLOAT))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
- case ICMD_IALOAD:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_INT))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
- case ICMD_SALOAD:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_SHORT))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
- case ICMD_LALOAD:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_LONG))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
-
- case ICMD_BASTORE:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_BOOLEAN)
- && !TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_BYTE))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
- case ICMD_CASTORE:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_CHAR))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
- case ICMD_DASTORE:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_DOUBLE))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
- case ICMD_FASTORE:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_FLOAT))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
- case ICMD_IASTORE:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_INT))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
- case ICMD_SASTORE:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_SHORT))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
- case ICMD_LASTORE:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo,ARRAYTYPE_LONG))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
-
- case ICMD_AASTORE:
- /* we just check the basic input types and that the */
- /* destination is an array of references. Assignability to */
- /* the actual array must be checked at runtime, each time the */
- /* instruction is performed. (See builtin_canstore.) */
- TYPECHECK_ADR(state->iptr->sx.s23.s3.var);
- TYPECHECK_INT(state->iptr->sx.s23.s2.var);
- TYPECHECK_ADR(state->iptr->s1.var);
- if (!TYPEINFO_MAYBE_ARRAY_OF_REFS(state->iptr->s1.var->typeinfo))
- TYPECHECK_VERIFYERROR_bool("illegal instruction: AASTORE to non-reference array");
- maythrow = true;
- break;
-
- case ICMD_IASTORECONST:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo, ARRAYTYPE_INT))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
-
- case ICMD_LASTORECONST:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo, ARRAYTYPE_LONG))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
-
- case ICMD_BASTORECONST:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo, ARRAYTYPE_BOOLEAN)
- && !TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo, ARRAYTYPE_BYTE))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
-
- case ICMD_CASTORECONST:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo, ARRAYTYPE_CHAR))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
-
- case ICMD_SASTORECONST:
- if (!TYPEINFO_MAYBE_PRIMITIVE_ARRAY(state->iptr->s1.var->typeinfo, ARRAYTYPE_SHORT))
- TYPECHECK_VERIFYERROR_bool("Array type mismatch");
- maythrow = true;
- break;
-
- /****************************************/
- /* ADDRESS CONSTANTS */
-
- case ICMD_ACONST:
- if (state->iptr->flags.bits & INS_FLAG_CLASS) {
- /* a java.lang.Class reference */
- TYPEINFO_INIT_JAVA_LANG_CLASS(dst->typeinfo,state->iptr->sx.val.c);
- }
- else {
- if (state->iptr->sx.val.anyptr == NULL)
- TYPEINFO_INIT_NULLTYPE(dst->typeinfo);
- else {
- /* string constant (or constant for builtin function) */
- typeinfo_init_classinfo(&(dst->typeinfo),class_java_lang_String);
- }
- }
- break;
-
- /****************************************/
- /* CHECKCAST AND INSTANCEOF */
-
- case ICMD_CHECKCAST:
- TYPECHECK_ADR(state->iptr->s1.var);
- /* returnAddress is not allowed */
- if (!TYPEINFO_IS_REFERENCE(state->iptr->s1.var->typeinfo))
- TYPECHECK_VERIFYERROR_bool("Illegal instruction: CHECKCAST on non-reference");
-
- if (!typeinfo_init_class(&(dst->typeinfo),state->iptr->sx.s23.s3.c))
- return false;
- maythrow = true;
- break;
-
- case ICMD_INSTANCEOF:
- TYPECHECK_ADR(state->iptr->s1.var);
- /* returnAddress is not allowed */
- if (!TYPEINFO_IS_REFERENCE(state->iptr->s1.var->typeinfo))
- TYPECHECK_VERIFYERROR_bool("Illegal instruction: INSTANCEOF on non-reference");
- break;
-
- /****************************************/
- /* BRANCH INSTRUCTIONS */
-
- case ICMD_INLINE_GOTO:
- COPYTYPE(state->iptr->s1.var,dst);
- /* FALLTHROUGH! */
- case ICMD_GOTO:
- superblockend = true;
- /* FALLTHROUGH! */
- case ICMD_IFNULL:
- case ICMD_IFNONNULL:
- case ICMD_IFEQ:
- case ICMD_IFNE:
- case ICMD_IFLT:
- case ICMD_IFGE:
- case ICMD_IFGT:
- case ICMD_IFLE:
- case ICMD_IF_ICMPEQ:
- case ICMD_IF_ICMPNE:
- case ICMD_IF_ICMPLT:
- case ICMD_IF_ICMPGE:
- case ICMD_IF_ICMPGT:
- case ICMD_IF_ICMPLE:
- case ICMD_IF_ACMPEQ:
- case ICMD_IF_ACMPNE:
-
- case ICMD_IF_LEQ:
- case ICMD_IF_LNE:
- case ICMD_IF_LLT:
- case ICMD_IF_LGE:
- case ICMD_IF_LGT:
- case ICMD_IF_LLE:
-
- case ICMD_IF_LCMPEQ:
- case ICMD_IF_LCMPNE:
- case ICMD_IF_LCMPLT:
- case ICMD_IF_LCMPGE:
- case ICMD_IF_LCMPGT:
- case ICMD_IF_LCMPLE:
-
- case ICMD_IF_FCMPEQ:
- case ICMD_IF_FCMPNE:
-
- case ICMD_IF_FCMPL_LT:
- case ICMD_IF_FCMPL_GE:
- case ICMD_IF_FCMPL_GT:
- case ICMD_IF_FCMPL_LE:
-
- case ICMD_IF_FCMPG_LT:
- case ICMD_IF_FCMPG_GE:
- case ICMD_IF_FCMPG_GT:
- case ICMD_IF_FCMPG_LE:
-
- case ICMD_IF_DCMPEQ:
- case ICMD_IF_DCMPNE:
-
- case ICMD_IF_DCMPL_LT:
- case ICMD_IF_DCMPL_GE:
- case ICMD_IF_DCMPL_GT:
- case ICMD_IF_DCMPL_LE:
-
- case ICMD_IF_DCMPG_LT:
- case ICMD_IF_DCMPG_GE:
- case ICMD_IF_DCMPG_GT:
- case ICMD_IF_DCMPG_LE:
- TYPECHECK_COUNT(stat_ins_branch);
-
- /* propagate stack and variables to the target block */
- if (!typestate_reach(state,state->iptr->dst.block,
- state->bptr->outstack,state->localset))
- return false;
- break;
-
- /****************************************/
- /* SWITCHES */
-
- case ICMD_TABLESWITCH:
- TYPECHECK_COUNT(stat_ins_switch);
-
- table = iptr->dst.table;
- i = iptr->sx.s23.s3.tablehigh
- - iptr->sx.s23.s2.tablelow + 1 + 1; /* plus default */
-
- while (--i >= 0) {
- tbptr = (table++)->block;
- LOG2("target %d is block %04d",i,tbptr->nr);
- if (!typestate_reach(state,tbptr,state->bptr->outstack,
- state->localset))
- return false;
- }
-
- LOG("switch done");
- superblockend = true;
- break;
-
- case ICMD_LOOKUPSWITCH:
- TYPECHECK_COUNT(stat_ins_switch);
-
- lookup = iptr->dst.lookup;
- i = iptr->sx.s23.s2.lookupcount;
-
- if (!typestate_reach(state,iptr->sx.s23.s3.lookupdefault.block,
- state->bptr->outstack,state->localset))
- return false;
-
- while (--i >= 0) {
- tbptr = (lookup++)->target.block;
- LOG2("target %d is block %04d",i,tbptr->nr);
- if (!typestate_reach(state,tbptr,state->bptr->outstack,state->localset))
- return false;
- }
-
- LOG("switch done");
- superblockend = true;
- break;
-
- /****************************************/
- /* ADDRESS RETURNS AND THROW */
-
- case ICMD_ATHROW:
- TYPECHECK_COUNT(stat_ins_athrow);
- r = typeinfo_is_assignable_to_class(&state->iptr->s1.var->typeinfo,
- CLASSREF_OR_CLASSINFO(class_java_lang_Throwable));
- if (r == typecheck_FALSE)
- TYPECHECK_VERIFYERROR_bool("illegal instruction: ATHROW on non-Throwable");
- if (r == typecheck_FAIL)
- return false;
- if (r == typecheck_MAYBE) {
- /* the check has to be postponed. we need a patcher */
- TYPECHECK_COUNT(stat_ins_athrow_unresolved);
- iptr->sx.s23.s2.uc = create_unresolved_class(
- state->m,
- /* XXX make this more efficient, use class_java_lang_Throwable
- * directly */
- class_get_classref(state->m->class,utf_java_lang_Throwable),
- &state->iptr->s1.var->typeinfo);
- iptr->flags.bits |= INS_FLAG_UNRESOLVED;
- }
- superblockend = true;
- maythrow = true;
- break;
-
- case ICMD_ARETURN:
- TYPECHECK_COUNT(stat_ins_areturn);
- if (!TYPEINFO_IS_REFERENCE(state->iptr->s1.var->typeinfo))
- TYPECHECK_VERIFYERROR_bool("illegal instruction: ARETURN on non-reference");
-
- if (state->returntype.type != TYPE_ADR
- || (r = typeinfo_is_assignable(&state->iptr->s1.var->typeinfo,&(state->returntype.info)))
- == typecheck_FALSE)
- TYPECHECK_VERIFYERROR_bool("Return type mismatch");
- if (r == typecheck_FAIL)
- return false;
- if (r == typecheck_MAYBE) {
- /* the check has to be postponed, we need a patcher */
- TYPECHECK_COUNT(stat_ins_areturn_unresolved);
- iptr->sx.s23.s2.uc = create_unresolved_class(
- state->m,
- state->m->parseddesc->returntype.classref,
- &state->iptr->s1.var->typeinfo);
- iptr->flags.bits |= INS_FLAG_UNRESOLVED;
- }
- goto return_tail;
-
- /****************************************/
- /* PRIMITIVE RETURNS */
-
- case ICMD_IRETURN:
- if (state->returntype.type != TYPE_INT) TYPECHECK_VERIFYERROR_bool("Return type mismatch");
- goto return_tail;
-
- case ICMD_LRETURN:
- if (state->returntype.type != TYPE_LNG) TYPECHECK_VERIFYERROR_bool("Return type mismatch");
- goto return_tail;
-
- case ICMD_FRETURN:
- if (state->returntype.type != TYPE_FLT) TYPECHECK_VERIFYERROR_bool("Return type mismatch");
- goto return_tail;
-
- case ICMD_DRETURN:
- if (state->returntype.type != TYPE_DBL) TYPECHECK_VERIFYERROR_bool("Return type mismatch");
- goto return_tail;
-
- case ICMD_RETURN:
- if (state->returntype.type != TYPE_VOID) TYPECHECK_VERIFYERROR_bool("Return type mismatch");
-return_tail:
- TYPECHECK_COUNT(stat_ins_primitive_return);
-
- if (state->initmethod && state->m->class != class_java_lang_Object) {
- /* Check if the 'this' instance has been initialized. */
- LOG("Checking <init> marker");
- if (!typevectorset_checktype(state->localset,state->numlocals-1,TYPE_INT))
- TYPECHECK_VERIFYERROR_bool("<init> method does not initialize 'this'");
- }
-
- superblockend = true;
- maythrow = true;
- break;
-
- /****************************************/
- /* SUBROUTINE INSTRUCTIONS */
-
- case ICMD_JSR:
- LOG("jsr");
- state->jsrencountered = true;
-
- tbptr = state->iptr->sx.s23.s3.jsrtarget.block;
- if (state->bptr + 1 == (state->basicblocks + state->basicblockcount + 1))
- TYPECHECK_VERIFYERROR_bool("Illegal instruction: JSR at end of bytecode");
- typestack_put_retaddr(dst,state->bptr+1,state->localset);
- if (!typestate_reach(state,tbptr,dst,state->localset))
- return false;
-
- superblockend = true;
- break;
-
- case ICMD_RET:
- /* check returnAddress variable */
- if (!typevectorset_checkretaddr(state->localset,state->iptr->s1.localindex))
- TYPECHECK_VERIFYERROR_bool("illegal instruction: RET using non-returnAddress variable");
-
- if (!typestate_ret(state,state->iptr->s1.localindex))
- return false;
-
- superblockend = true;
- break;
-
- /****************************************/
- /* INVOKATIONS */
-
- case ICMD_INVOKEVIRTUAL:
- case ICMD_INVOKESPECIAL:
- case ICMD_INVOKESTATIC:
- case ICMD_INVOKEINTERFACE:
- TYPECHECK_COUNT(stat_ins_invoke);
- if (!verify_invocation(state))
- return false;
- TYPECHECK_COUNTIF(!state->iptr[0].val.a,stat_ins_invoke_unresolved);
- maythrow = true;
- break;
-
- /****************************************/
- /* MULTIANEWARRAY */
-
- case ICMD_MULTIANEWARRAY:
- if (!verify_multianewarray(state))
- return false;
- maythrow = true;
- break;
-
- /****************************************/
- /* BUILTINS */
-
- case ICMD_BUILTIN:
- TYPECHECK_COUNT(stat_ins_builtin);
- if (!verify_builtin(state))
- return false;
- maythrow = true;
- break;
-
- /****************************************/
- /* SIMPLE EXCEPTION THROWING TESTS */
-
- case ICMD_CHECKNULL:
- /* CHECKNULL just requires that the stack top
- * is an address. This is checked in stack.c */
- maythrow = true;
- break;
-
- /****************************************/
- /* INSTRUCTIONS WHICH SHOULD HAVE BEEN */
- /* REPLACED BY OTHER OPCODES */
+ /* include generated code for ICMDs verification */
-#ifdef TYPECHECK_DEBUG
- case ICMD_NEW:
- case ICMD_NEWARRAY:
- case ICMD_ANEWARRAY:
- case ICMD_MONITORENTER:
- case ICMD_MONITOREXIT:
- LOG2("ICMD %d at %d\n", state->iptr->opc, (int)(state->iptr-state->bptr->iinstr));
- LOG("Should have been converted to builtin function call.");
- TYPECHECK_ASSERT(false);
- break;
-#endif
-
- /****************************************/
- /* UNCHECKED OPERATIONS */
-
- /*********************************************
- * Instructions below...
- * *) don't operate on local variables,
- * *) don't operate on references,
- * *) don't operate on returnAddresses,
- * *) don't affect control flow (except
- * by throwing exceptions).
- *
- * (These instructions are typechecked in
- * analyse_stack.)
- ********************************************/
-
- /* Instructions which may throw a runtime exception: */
-
- case ICMD_IDIV:
- case ICMD_IREM:
- case ICMD_LDIV:
- case ICMD_LREM:
-
- maythrow = true;
- break;
-
- /* Instructions which never throw a runtime exception: */
-#if defined(TYPECHECK_DEBUG) || defined(TYPECHECK_STATISTICS)
- case ICMD_NOP:
- case ICMD_POP:
- case ICMD_POP2:
-
- case ICMD_ICONST:
- case ICMD_LCONST:
- case ICMD_FCONST:
- case ICMD_DCONST:
-
- case ICMD_IADD:
- case ICMD_ISUB:
- case ICMD_IMUL:
- case ICMD_INEG:
- case ICMD_IAND:
- case ICMD_IOR:
- case ICMD_IXOR:
- case ICMD_ISHL:
- case ICMD_ISHR:
- case ICMD_IUSHR:
- case ICMD_LADD:
- case ICMD_LSUB:
- case ICMD_LMUL:
- case ICMD_LNEG:
- case ICMD_LAND:
- case ICMD_LOR:
- case ICMD_LXOR:
- case ICMD_LSHL:
- case ICMD_LSHR:
- case ICMD_LUSHR:
- case ICMD_IMULPOW2:
- case ICMD_LMULPOW2:
- case ICMD_IDIVPOW2:
- case ICMD_LDIVPOW2:
- case ICMD_IADDCONST:
- case ICMD_ISUBCONST:
- case ICMD_IMULCONST:
- case ICMD_IANDCONST:
- case ICMD_IORCONST:
- case ICMD_IXORCONST:
- case ICMD_ISHLCONST:
- case ICMD_ISHRCONST:
- case ICMD_IUSHRCONST:
- case ICMD_IREMPOW2:
- case ICMD_LADDCONST:
- case ICMD_LSUBCONST:
- case ICMD_LMULCONST:
- case ICMD_LANDCONST:
- case ICMD_LORCONST:
- case ICMD_LXORCONST:
- case ICMD_LSHLCONST:
- case ICMD_LSHRCONST:
- case ICMD_LUSHRCONST:
- case ICMD_LREMPOW2:
-
- case ICMD_I2L:
- case ICMD_I2F:
- case ICMD_I2D:
- case ICMD_L2I:
- case ICMD_L2F:
- case ICMD_L2D:
- case ICMD_F2I:
- case ICMD_F2L:
- case ICMD_F2D:
- case ICMD_D2I:
- case ICMD_D2L:
- case ICMD_D2F:
- case ICMD_INT2BYTE:
- case ICMD_INT2CHAR:
- case ICMD_INT2SHORT:
-
- case ICMD_LCMP:
- case ICMD_LCMPCONST:
- case ICMD_FCMPL:
- case ICMD_FCMPG:
- case ICMD_DCMPL:
- case ICMD_DCMPG:
-
- case ICMD_FADD:
- case ICMD_DADD:
- case ICMD_FSUB:
- case ICMD_DSUB:
- case ICMD_FMUL:
- case ICMD_DMUL:
- case ICMD_FDIV:
- case ICMD_DDIV:
- case ICMD_FREM:
- case ICMD_DREM:
- case ICMD_FNEG:
- case ICMD_DNEG:
-
- case ICMD_INLINE_START:
- case ICMD_INLINE_END:
-
- /* XXX What shall we do with the following ?*/
- case ICMD_AASTORECONST:
- TYPECHECK_COUNT(stat_ins_unchecked);
- break;
-
- /****************************************/
+#define TYPECHECK_VARIABLESBASED
+#define STATE state
+#define METHOD (state->m)
+#define IPTR iptr
+#define BPTR (state->bptr)
+#include <typecheck-variablesbased-gen.inc>
+#undef STATE
+#undef METHOD
+#undef IPTR
+#undef BPTR
+#undef TYPECHECK_VARIABLESBASED
default:
- LOG2("ICMD %d at %d\n", state->iptr->opc, (int)(state->iptr-state->bptr->iinstr));
+ LOG1("ICMD %d\n", opcode);
TYPECHECK_VERIFYERROR_bool("Missing ICMD code during typecheck");
-#endif
}
/* reach exception handlers for this instruction */
+
if (maythrow) {
TYPECHECK_COUNT(stat_ins_maythrow);
TYPECHECK_MARK(state->stat_maythrow);
while (state->handlers[i]) {
TYPECHECK_COUNT(stat_handlers_reached);
if (state->handlers[i]->catchtype.any)
- state->excstack.typeinfo.typeclass = state->handlers[i]->catchtype;
+ VAR(state->exinvars)->typeinfo.typeclass = state->handlers[i]->catchtype;
else
- state->excstack.typeinfo.typeclass.cls = class_java_lang_Throwable;
+ VAR(state->exinvars)->typeinfo.typeclass.cls = class_java_lang_Throwable;
if (!typestate_reach(state,
state->handlers[i]->handler,
- &(state->excstack),state->localset))
+ &(state->exinvars), jd->var, 1))
return false;
i++;
}
}
- LOG("next instruction");
+ LOG("\t\tnext instruction");
state->iptr++;
} /* while instructions */
LOG("instructions done");
LOGSTR("RESULT=> ");
- DOLOG(typestate_print(typecheck_logfile,state->bptr->outstack,state->localset,state->numlocals));
+ DOLOG(typecheck_print_vararray(stdout, jd, state->bptr->outvars,
+ state->bptr->outdepth));
+ DOLOG(typevector_print(stdout, jd->var, state->numlocals));
LOGNL; LOGFLUSH;
/* propagate stack and variables to the following block */
if (!superblockend) {
LOG("reaching following block");
- tbptr = state->bptr + 1;
+ tbptr = state->bptr->next;
while (tbptr->flags == BBDELETED) {
- tbptr++;
+ tbptr = tbptr->next;
#ifdef TYPECHECK_DEBUG
/* this must be checked in parse.c */
if ((tbptr->nr) >= state->basicblockcount)
TYPECHECK_VERIFYERROR_bool("Control flow falls off the last block");
#endif
}
- if (!typestate_reach(state,tbptr,state->bptr->outstack,state->localset))
+ if (!typestate_reach(state,tbptr,state->bptr->outvars, jd->var,
+ state->bptr->outdepth))
return false;
}
* have been saved if an <init> call inside the block has
* modified the instack types. (see INVOKESPECIAL) */
- if (state->savedstack)
- typestate_restore_instack(state);
-
- return true;
-}
-
-/* verify_init_locals **********************************************************
-
- Initialize the local variables in the verifier state.
-
- IN:
- state............the current state of the verifier
-
- RETURN VALUE:
- true.............success,
- false............an exception has been thrown.
-
-*******************************************************************************/
-
-static bool
-verify_init_locals(verifier_state *state)
-{
- int i;
- typedescriptor *td;
- typevector *lset;
-
- /* initialize the variable types of the first block */
- /* to the types of the arguments */
-
- lset = MGET_TYPEVECTOR(state->localbuf,0,state->numlocals);
- lset->k = 0;
- lset->alt = NULL;
- td = lset->td;
- i = state->validlocals;
-
- /* allocate parameter descriptors if necessary */
-
- if (!state->m->parseddesc->params)
- if (!descriptor_params_from_paramtypes(state->m->parseddesc,state->m->flags))
- return false;
-
- /* if this is an instance method initialize the "this" ref type */
-
- if (!(state->m->flags & ACC_STATIC)) {
- if (!i)
- TYPECHECK_VERIFYERROR_bool("Not enough local variables for method arguments");
- td->type = TYPE_ADR;
- if (state->initmethod)
- TYPEINFO_INIT_NEWOBJECT(td->info,NULL);
- else
- typeinfo_init_classinfo(&(td->info), state->m->class);
- td++;
- i--;
- }
-
- LOG("'this' argument set.\n");
-
- /* the rest of the arguments and the return type */
-
- i = typedescriptors_init_from_methoddesc(td, state->m->parseddesc,
- i,
- true, /* two word types use two slots */
- (td - lset->td), /* skip 'this' pointer */
- &state->returntype);
- if (i == -1)
- return false;
- td += i;
-
- /* variables not used for arguments are initialized to TYPE_VOID */
-
- i = state->numlocals - (td - lset->td);
- while (i--) {
- td->type = TYPE_VOID;
- td++;
- }
+ if (state->savedinvars)
+ typestate_restore_invars(state);
- LOG("Arguments set.\n");
return true;
}
-/* typecheck_init_flags ********************************************************
-
- Initialize the basic block flags for the following CFG traversal.
-
- IN:
- state............the current state of the verifier
-
-*******************************************************************************/
-
-static void
-typecheck_init_flags(verifier_state *state)
-{
- s4 i;
- basicblock *block;
-
- /* set all BBFINISHED blocks to BBTYPECHECK_UNDEF. */
-
- i = state->basicblockcount;
- block = state->basicblocks;
-
- while (--i >= 0) {
-
-#ifdef TYPECHECK_DEBUG
- /* check for invalid flags */
- if (block->flags != BBFINISHED && block->flags != BBDELETED && block->flags != BBUNDEF)
- {
- /*show_icmd_method(state->m,state->cd,state->rd);*/
- LOGSTR1("block flags: %d\n",block->flags); LOGFLUSH;
- TYPECHECK_ASSERT(false);
- }
-#endif
-
- if (block->flags >= BBFINISHED) {
- block->flags = BBTYPECHECK_UNDEF;
- }
- block++;
- }
-
- /* the first block is always reached */
-
- if (state->basicblockcount && state->basicblocks[0].flags == BBTYPECHECK_UNDEF)
- state->basicblocks[0].flags = BBTYPECHECK_REACHED;
-}
-
-/* typecheck_reset_flags *******************************************************
-
- Reset the flags of basic blocks we have not reached.
-
- IN:
- state............the current state of the verifier
-
-*******************************************************************************/
-
-static void
-typecheck_reset_flags(verifier_state *state)
-{
- s4 i;
- /* check for invalid flags at exit */
-
-#ifdef TYPECHECK_DEBUG
- for (i=0; i<state->basicblockcount; ++i) {
- if (state->basicblocks[i].flags != BBDELETED
- && state->basicblocks[i].flags != BBUNDEF
- && state->basicblocks[i].flags != BBFINISHED
- && state->basicblocks[i].flags != BBTYPECHECK_UNDEF) /* typecheck may never reach
- * some exception handlers,
- * that's ok. */
- {
- LOG2("block L%03d has invalid flags after typecheck: %d",
- state->basicblocks[i].nr,state->basicblocks[i].flags);
- TYPECHECK_ASSERT(false);
- }
- }
-#endif
-
- /* Reset blocks we never reached */
-
- for (i=0; i<state->basicblockcount; ++i) {
- if (state->basicblocks[i].flags == BBTYPECHECK_UNDEF)
- state->basicblocks[i].flags = BBFINISHED;
- }
-}
-
/****************************************************************************/
/* typecheck() */
/* This is the main function of the bytecode verifier. It is called */
{
methodinfo *meth;
codegendata *cd;
- registerdata *rd;
+ varinfo *savedlocals;
verifier_state state; /* current state of the verifier */
- int i; /* temporary counter */
/* collect statistics */
#ifdef TYPECHECK_STATISTICS
int count_iterations = 0;
TYPECHECK_COUNT(stat_typechecked);
- TYPECHECK_COUNT_FREQ(stat_locals,cdata->maxlocals,STAT_LOCALS);
+ TYPECHECK_COUNT_FREQ(stat_locals,jd->maxlocals,STAT_LOCALS);
TYPECHECK_COUNT_FREQ(stat_blocks,cdata->method->basicblockcount/10,STAT_BLOCKS);
TYPECHECK_COUNTIF(cdata->method->exceptiontablelength != 0,stat_methods_with_handlers);
state.stat_maythrow = false;
meth = jd->m;
cd = jd->cd;
- rd = jd->rd;
/* some logging on entry */
- DOLOG(typecheck_logfile = stdout);
+
LOGSTR("\n==============================================================================\n");
- /*DOLOG( show_icmd_method(cdata->method,cdata,rdata));*/
+ DOLOG( show_method(jd, SHOW_STACK) );
LOGSTR("\n==============================================================================\n");
- LOGMETHOD("Entering typecheck: ",cdata->method);
+ LOGMETHOD("Entering typecheck: ",cd->method);
/* initialize the verifier state */
- state.savedstackbuf = NULL;
- state.savedstack = NULL;
- state.jsrencountered = false;
state.m = meth;
state.jd = jd;
state.cd = cd;
- state.rd = rd;
- state.basicblockcount = jd->new_basicblockcount;
- state.basicblocks = jd->new_basicblocks;
+ state.basicblockcount = jd->basicblockcount;
+ state.basicblocks = jd->basicblocks;
+ state.savedindices = NULL;
+ state.savedinvars = NULL;
+
+ /* check that the basicblock numbers are valid */
+
+#if !defined(NDEBUG)
+ jit_check_basicblock_numbers(jd);
+#endif
/* check if this method is an instance initializer method */
/* initialize the basic block flags for the following CFG traversal */
- typecheck_init_flags(&state);
+ typecheck_init_flags(&state, BBFINISHED);
/* number of local variables */
/* the 'this' reference has been initialized. */
/* TYPE_VOID...means 'this' has not been initialized, */
/* TYPE_INT....means 'this' has been initialized. */
- state.numlocals = state.cd->maxlocals;
- state.validlocals = state.numlocals;
- if (state.initmethod) state.numlocals++;
- /* allocate the buffers for local variables */
-
- state.localbuf = DMNEW_TYPEVECTOR(state.basicblockcount+1, state.numlocals);
- state.localset = MGET_TYPEVECTOR(state.localbuf,state.basicblockcount,state.numlocals);
+ state.numlocals = state.jd->localcount;
+ state.validlocals = state.numlocals;
+ if (state.initmethod)
+ state.numlocals++; /* VERIFIER_EXTRA_LOCALS */
- LOG("Variable buffer allocated.\n");
+ DOLOG(
+ s4 i;
+ s4 t;
+ LOG("reverselocalmap:");
+ for (i=0; i<state.validlocals; ++i) {
+ LOG2(" %i => javaindex %i", i, jd->reverselocalmap[i]);
+ });
/* allocate the buffer of active exception handlers */
- state.handlers = DMNEW(exceptiontable*, state.cd->exceptiontablelength + 1);
+ state.handlers = DMNEW(exception_entry*, state.jd->exceptiontablelength + 1);
+
+ /* save local variables */
+
+ savedlocals = DMNEW(varinfo, state.numlocals);
+ MCOPY(savedlocals, jd->var, varinfo, state.numlocals);
/* initialized local variables of first block */
- if (!verify_init_locals(&state))
+ if (!typecheck_init_locals(&state, true))
return false;
- /* initialize the input stack of exception handlers */
+ /* initialize invars of exception handlers */
- state.excstack.prev = NULL;
- state.excstack.type = TYPE_ADR;
- typeinfo_init_classinfo(&(state.excstack.typeinfo),
+ state.exinvars = state.numlocals;
+ VAR(state.exinvars)->type = TYPE_ADR;
+ typeinfo_init_classinfo(&(VAR(state.exinvars)->typeinfo),
class_java_lang_Throwable); /* changed later */
LOG("Exception handler stacks set.\n");
state.repeat = false;
- i = state.basicblockcount;
state.bptr = state.basicblocks;
- while (--i >= 0) {
+ for (; state.bptr; state.bptr = state.bptr->next) {
LOGSTR1("---- BLOCK %04d, ",state.bptr->nr);
LOGSTR1("blockflags: %d\n",state.bptr->flags);
LOGFLUSH;
/* verify reached block */
if (state.bptr->flags == BBTYPECHECK_REACHED) {
- if (!verify_basic_block(&state))
+ if (!handle_basic_block(&state))
return false;
}
- state.bptr++;
- } /* while blocks */
+ } /* for blocks */
LOGIF(state.repeat,"state.repeat == true");
} while (state.repeat);
typecheck_reset_flags(&state);
+ /* restore locals */
+
+ MCOPY(jd->var, savedlocals, varinfo, state.numlocals);
+
/* everything's ok */
LOGimp("exiting typecheck");
return true;
}
-
#endif /* ENABLE_VERIFIER */
/*