From fe1081b017284716b6b1e69fb6ef3067b3d74bc4 Mon Sep 17 00:00:00 2001 From: Tom Tromey Date: Fri, 23 Jan 2004 02:49:57 +0000 Subject: [PATCH] re PR libgcj/13107 (Wrong verification error in gij: recursive subroutine call) PR libgcj/13107: * testsuite/libjava.lang/pr13107_2.xfail: New file. * testsuite/libjava.lang/pr13107_3.xfail: New file. * testsuite/libjava.lang/pr13107_3.java: New file. * testsuite/libjava.lang/pr13107_3.out: New file. * testsuite/libjava.lang/pr13107_2.java: New file. * testsuite/libjava.lang/pr13107_2.out: New file. * testsuite/libjava.lang/pr13107.java: New file. * testsuite/libjava.lang/pr13107.out: New file. * verify.cc (jsr_ptrs): Removed. (entry_points): Likewise. (struct subr_info): Likewise. (struct subr_entry_info): Likewise. (type_val::unused_by_subroutine_type): Likewise. (type::merge): Don't handle unused_by_subroutine_type. (type::print): Likewise. (state::flags): Removed. (state::subroutine): Likewise. (state::seen_subrs): Likewise. (state::NO_STACK): Likewise. (state::FLAG_CHANGED, state::FLAG_UNUSED): Likewise. (state): Updated all methods. (state::clean_subrs): Removed. (state::state): Removed `ret_semantics' flag. (state::copy): Likewise. (state::add_subr): Removed. (state::enter_subroutine): Likewise. (type::set_return_address): New method. (handle_jsr_insn): Set return address on the type. Always invalidate PC after call. (check_nonrecursive_call): Removed. (~_Jv_BytecodeVerifier): Updated. (branch_prepass): Removed special handling of jsr. (note_branch_target): Likewise. (get_subroutine): Removed. (state::merge): Don't merge subroutines and don't handle NO_STACK. Removed ret_semantics and jsr_semantics arguments. (state::note_variable): Removed. (state::is_unmerged_ret_state): Likewise. (state::print): Updated. (set_variable): Likewise. (merge_into): Renamed from push_jump_merge. Removed ret_semantics and jsr_semantics arguments. Updated for new reverification list. (pop_jump): Rewrote. (construct_primitive_array_type): Updated. (state::next): Removed. (INVALID_STATE): New define. (state::INVALID): Removed. (state::NO_NEXT): New value. (state::pc, state::next): New fields. (state::get_pc): New method. (next_verify_pc): Removed. (next_verify_state): New field. (verify_instructions_0): Always check for falling off end. (linked): New type. (linked_utf8): Removed. (states): Changed type. (type::state_mergeable_p): New method. (state::state_mergeable_p): Likewise. (handle_ret_insn): Removed most code. (state::reverify): New method. (add_new_state): Likewise. (state::set_pc): Likewise. From-SVN: r76395 --- libjava/ChangeLog | 67 ++ libjava/testsuite/libjava.lang/pr13107.java | 25 + libjava/testsuite/libjava.lang/pr13107.out | 0 libjava/testsuite/libjava.lang/pr13107_2.java | 19 + libjava/testsuite/libjava.lang/pr13107_2.out | 0 .../testsuite/libjava.lang/pr13107_2.xfail | 1 + libjava/testsuite/libjava.lang/pr13107_3.java | 16 + libjava/testsuite/libjava.lang/pr13107_3.out | 1 + .../testsuite/libjava.lang/pr13107_3.xfail | 1 + libjava/verify.cc | 952 +++++++----------- 10 files changed, 468 insertions(+), 614 deletions(-) create mode 100644 libjava/testsuite/libjava.lang/pr13107.java create mode 100644 libjava/testsuite/libjava.lang/pr13107.out create mode 100644 libjava/testsuite/libjava.lang/pr13107_2.java create mode 100644 libjava/testsuite/libjava.lang/pr13107_2.out create mode 100644 libjava/testsuite/libjava.lang/pr13107_2.xfail create mode 100644 libjava/testsuite/libjava.lang/pr13107_3.java create mode 100644 libjava/testsuite/libjava.lang/pr13107_3.out create mode 100644 libjava/testsuite/libjava.lang/pr13107_3.xfail diff --git a/libjava/ChangeLog b/libjava/ChangeLog index d590bce06b4..e408e21d034 100644 --- a/libjava/ChangeLog +++ b/libjava/ChangeLog @@ -1,3 +1,70 @@ +2004-01-22 Tom Tromey + + PR libgcj/13107: + * testsuite/libjava.lang/pr13107_2.xfail: New file. + * testsuite/libjava.lang/pr13107_3.xfail: New file. + * testsuite/libjava.lang/pr13107_3.java: New file. + * testsuite/libjava.lang/pr13107_3.out: New file. + * testsuite/libjava.lang/pr13107_2.java: New file. + * testsuite/libjava.lang/pr13107_2.out: New file. + * testsuite/libjava.lang/pr13107.java: New file. + * testsuite/libjava.lang/pr13107.out: New file. + * verify.cc (jsr_ptrs): Removed. + (entry_points): Likewise. + (struct subr_info): Likewise. + (struct subr_entry_info): Likewise. + (type_val::unused_by_subroutine_type): Likewise. + (type::merge): Don't handle unused_by_subroutine_type. + (type::print): Likewise. + (state::flags): Removed. + (state::subroutine): Likewise. + (state::seen_subrs): Likewise. + (state::NO_STACK): Likewise. + (state::FLAG_CHANGED, state::FLAG_UNUSED): Likewise. + (state): Updated all methods. + (state::clean_subrs): Removed. + (state::state): Removed `ret_semantics' flag. + (state::copy): Likewise. + (state::add_subr): Removed. + (state::enter_subroutine): Likewise. + (type::set_return_address): New method. + (handle_jsr_insn): Set return address on the type. Always + invalidate PC after call. + (check_nonrecursive_call): Removed. + (~_Jv_BytecodeVerifier): Updated. + (branch_prepass): Removed special handling of jsr. + (note_branch_target): Likewise. + (get_subroutine): Removed. + (state::merge): Don't merge subroutines and don't handle + NO_STACK. Removed ret_semantics and jsr_semantics arguments. + (state::note_variable): Removed. + (state::is_unmerged_ret_state): Likewise. + (state::print): Updated. + (set_variable): Likewise. + (merge_into): Renamed from push_jump_merge. Removed ret_semantics + and jsr_semantics arguments. Updated for new reverification + list. + (pop_jump): Rewrote. + (construct_primitive_array_type): Updated. + (state::next): Removed. + (INVALID_STATE): New define. + (state::INVALID): Removed. + (state::NO_NEXT): New value. + (state::pc, state::next): New fields. + (state::get_pc): New method. + (next_verify_pc): Removed. + (next_verify_state): New field. + (verify_instructions_0): Always check for falling off end. + (linked): New type. + (linked_utf8): Removed. + (states): Changed type. + (type::state_mergeable_p): New method. + (state::state_mergeable_p): Likewise. + (handle_ret_insn): Removed most code. + (state::reverify): New method. + (add_new_state): Likewise. + (state::set_pc): Likewise. + 2004-01-22 Jeff Sturm PR java/13733 diff --git a/libjava/testsuite/libjava.lang/pr13107.java b/libjava/testsuite/libjava.lang/pr13107.java new file mode 100644 index 00000000000..06d4c54bbb3 --- /dev/null +++ b/libjava/testsuite/libjava.lang/pr13107.java @@ -0,0 +1,25 @@ +class pr13107 +{ + public static void main(String[] args) + { + for (int i = 0; i < 1; i++) { + String s = "A"; + + if (s == "A") + continue; + + try{ + try{ + System.out.println(s); + } + finally{ + if (s != "A") + throw new Error(); + } + } + catch(Exception e){ + s = "B"; + } + } + } +} diff --git a/libjava/testsuite/libjava.lang/pr13107.out b/libjava/testsuite/libjava.lang/pr13107.out new file mode 100644 index 00000000000..e69de29bb2d diff --git a/libjava/testsuite/libjava.lang/pr13107_2.java b/libjava/testsuite/libjava.lang/pr13107_2.java new file mode 100644 index 00000000000..dba3b249e31 --- /dev/null +++ b/libjava/testsuite/libjava.lang/pr13107_2.java @@ -0,0 +1,19 @@ +public class pr13107_2 +{ + public static int foo (boolean b) + { + int i; + try { + if (b) return 1; + i= 2; + } + finally { + if (b) i = 3; + } + return i; + } + + public static void main(String[] args) + { + } +} diff --git a/libjava/testsuite/libjava.lang/pr13107_2.out b/libjava/testsuite/libjava.lang/pr13107_2.out new file mode 100644 index 00000000000..e69de29bb2d diff --git a/libjava/testsuite/libjava.lang/pr13107_2.xfail b/libjava/testsuite/libjava.lang/pr13107_2.xfail new file mode 100644 index 00000000000..81d6df0a027 --- /dev/null +++ b/libjava/testsuite/libjava.lang/pr13107_2.xfail @@ -0,0 +1 @@ +xfail-byte diff --git a/libjava/testsuite/libjava.lang/pr13107_3.java b/libjava/testsuite/libjava.lang/pr13107_3.java new file mode 100644 index 00000000000..5ec9146051b --- /dev/null +++ b/libjava/testsuite/libjava.lang/pr13107_3.java @@ -0,0 +1,16 @@ +public class pr13107_3 +{ + public static void main(String[] args) + { + for (int i = 0; i < 1; i++) + { + try { + System.out.println(i); + } + finally { + if (i == 3) + continue; + } + } + } +} diff --git a/libjava/testsuite/libjava.lang/pr13107_3.out b/libjava/testsuite/libjava.lang/pr13107_3.out new file mode 100644 index 00000000000..573541ac970 --- /dev/null +++ b/libjava/testsuite/libjava.lang/pr13107_3.out @@ -0,0 +1 @@ +0 diff --git a/libjava/testsuite/libjava.lang/pr13107_3.xfail b/libjava/testsuite/libjava.lang/pr13107_3.xfail new file mode 100644 index 00000000000..81d6df0a027 --- /dev/null +++ b/libjava/testsuite/libjava.lang/pr13107_3.xfail @@ -0,0 +1 @@ +xfail-byte diff --git a/libjava/verify.cc b/libjava/verify.cc index f91df81cde1..8c037ed6381 100644 --- a/libjava/verify.cc +++ b/libjava/verify.cc @@ -1,6 +1,6 @@ // verify.cc - verify bytecode -/* Copyright (C) 2001, 2002, 2003 Free Software Foundation +/* Copyright (C) 2001, 2002, 2003, 2004 Free Software Foundation This file is part of libgcj. @@ -32,6 +32,10 @@ details. */ #endif /* VERIFY_DEBUG */ +// This is used to mark states which are not scheduled for +// verification. +#define INVALID_STATE ((state *) -1) + static void debug_print (const char *fmt, ...) __attribute__ ((format (printf, 1, 2))); @@ -46,6 +50,78 @@ debug_print (const char *fmt, ...) #endif /* VERIFY_DEBUG */ } +// This started as a fairly ordinary verifier, and for the most part +// it remains so. It works in the obvious way, by modeling the effect +// of each opcode as it is encountered. For most opcodes, this is a +// straightforward operation. +// +// This verifier does not do type merging. It used to, but this +// results in difficulty verifying some relatively simple code +// involving interfaces, and it pushed some verification work into the +// interpreter. +// +// Instead of merging reference types, when we reach a point where two +// flows of control merge, we simply keep the union of reference types +// from each branch. Then, when we need to verify a fact about a +// reference on the stack (e.g., that it is compatible with the +// argument type of a method), we check to ensure that all possible +// types satisfy the requirement. +// +// Another area this verifier differs from the norm is in its handling +// of subroutines. The JVM specification has some confusing things to +// say about subroutines. For instance, it makes claims about not +// allowing subroutines to merge and it rejects recursive subroutines. +// For the most part these are red herrings; we used to try to follow +// these things but they lead to problems. For example, the notion of +// "being in a subroutine" is not well-defined: is an exception +// handler in a subroutine? If you never execute the `ret' but +// instead `goto 1' do you remain in the subroutine? +// +// For clarity on what is really required for type safety, read +// "Simple Verification Technique for Complex Java Bytecode +// Subroutines" by Alessandro Coglio. Among other things this paper +// shows that recursive subroutines are not harmful to type safety. +// We implement something similar to what he proposes. Note that this +// means that this verifier will accept code that is rejected by some +// other verifiers. +// +// For those not wanting to read the paper, the basic observation is +// that we can maintain split states in subroutines. We maintain one +// state for each calling `jsr'. In other words, we re-verify a +// subroutine once for each caller, using the exact types held by the +// callers (as opposed to the old approach of merging types and +// keeping a bitmap registering what did or did not change). This +// approach lets us continue to verify correctly even when a +// subroutine is exited via `goto' or `athrow' and not `ret'. +// +// In some other areas the JVM specification is (mildly) incorrect, +// but we still implement what is specified. For instance, you cannot +// violate type safety by allocating an object with `new' and then +// failing to initialize it, no matter how one branches or where one +// stores the uninitialized reference. See "Improving the official +// specification of Java bytecode verification" by Alessandro Coglio. +// Similarly, there's no real point in enforcing that padding bytes or +// the mystery byte of invokeinterface must be 0, but we do that too. +// +// The verifier is currently neither completely lazy nor eager when it +// comes to loading classes. It tries to represent types by name when +// possible, and then loads them when it needs to verify a fact about +// the type. Checking types by name is valid because we only use +// names which come from the current class' constant pool. Since all +// such names are looked up using the same class loader, there is no +// danger that we might be fooled into comparing different types with +// the same name. +// +// In the future we plan to allow for a completely lazy mode of +// operation, where the verifier will construct a list of type +// assertions to be checked later. +// +// Some test cases for the verifier live in the "verify" module of the +// Mauve test suite. However, some of these are presently +// (2004-01-20) believed to be incorrect. (More precisely the notion +// of "correct" is not well-defined, and this verifier differs from +// others while remaining type-safe.) Some other tests live in the +// libgcj test suite. class _Jv_BytecodeVerifier { private: @@ -55,11 +131,16 @@ private: struct state; struct type; - struct subr_info; - struct subr_entry_info; struct linked_utf8; struct ref_intersection; + template + struct linked + { + T *val; + linked *next; + }; + // The current PC. int PC; // The PC corresponding to the start of the current instruction. @@ -68,29 +149,21 @@ private: // The current state of the stack, locals, etc. state *current_state; - // We store the state at branch targets, for merging. This holds - // such states. - state **states; + // At each branch target we keep a linked list of all the states we + // can process at that point. We'll only have multiple states at a + // given PC if they both have different return-address types in the + // same stack or local slot. This array is indexed by PC and holds + // the list of all such states. + linked **states; - // We keep a linked list of all the PCs which we must reverify. - // The link is done using the PC values. This is the head of the - // list. - int next_verify_pc; + // We keep a linked list of all the states which we must reverify. + // This is the head of the list. + state *next_verify_state; // We keep some flags for each instruction. The values are the - // FLAG_* constants defined above. + // FLAG_* constants defined above. This is an array indexed by PC. char *flags; - // We need to keep track of which instructions can call a given - // subroutine. FIXME: this is inefficient. We keep a linked list - // of all calling `jsr's at at each jsr target. - subr_info **jsr_ptrs; - - // We keep a linked list of entries which map each `ret' instruction - // to its unique subroutine entry point. We expect that there won't - // be many `ret' instructions, so a linked list is ok. - subr_entry_info *entry_points; - // The bytecode itself. unsigned char *bytecode; // The exceptions. @@ -103,17 +176,14 @@ private: // A linked list of utf8 objects we allocate. This is really ugly, // but without this our utf8 objects would be collected. - linked_utf8 *utf8_list; + linked<_Jv_Utf8Const> *utf8_list; // A linked list of all ref_intersection objects we allocate. ref_intersection *isect_list; - struct linked_utf8 - { - _Jv_Utf8Const *val; - linked_utf8 *next; - }; - + // Create a new Utf-8 constant and return it. We do this to avoid + // having our Utf-8 constants prematurely collected. FIXME this is + // ugly. _Jv_Utf8Const *make_utf8_const (char *s, int len) { _Jv_Utf8Const *val = _Jv_makeUtf8Const (s, len); @@ -124,7 +194,8 @@ private: r->hash = val->hash; memcpy (r->data, val->data, val->length + 1); - linked_utf8 *lu = (linked_utf8 *) _Jv_Malloc (sizeof (linked_utf8)); + linked<_Jv_Utf8Const> *lu + = (linked<_Jv_Utf8Const> *) _Jv_Malloc (sizeof (linked<_Jv_Utf8Const>)); lu->val = r; lu->next = utf8_list; utf8_list = lu; @@ -183,13 +254,10 @@ private: // to indicate an unusable value. unsuitable_type, return_address_type, + // This is the second word of a two-word value, i.e., a double or + // a long. continuation_type, - // There is an obscure special case which requires us to note when - // a local variable has not been used by a subroutine. See - // push_jump_merge for more information. - unused_by_subroutine_type, - // Everything after `reference_type' must be a reference type. reference_type, null_type, @@ -497,28 +565,6 @@ private: return false; } - // This is used to keep track of which `jsr's correspond to a given - // jsr target. - struct subr_info - { - // PC of the instruction just after the jsr. - int pc; - // Link. - subr_info *next; - }; - - // This is used to keep track of which subroutine entry point - // corresponds to which `ret' instruction. - struct subr_entry_info - { - // PC of the subroutine entry point. - int pc; - // PC of the `ret' instruction. - int ret_pc; - // Link. - subr_entry_info *next; - }; - // The `type' class is used to represent a single type in the // verifier. struct type @@ -529,11 +575,16 @@ private: // For reference types, the representation of the type. ref_intersection *klass; - // This is used when constructing a new object. It is the PC of the + // This is used in two situations. + // + // First, when constructing a new object, it is the PC of the // `new' instruction which created the object. We use the special - // value -2 to mean that this is uninitialized, and the special - // value -1 for the case where the current method is itself the - // method. + // value UNINIT to mean that this is uninitialized, and the + // special value SELF for the case where the current method is + // itself the method. + // + // Second, when the key is return_address_type, this holds the PC + // of the instruction following the `jsr'. int pc; static const int UNINIT = -2; @@ -640,6 +691,23 @@ private: } } + // Mark this type as a particular return address. + void set_return_address (int npc) + { + pc = npc; + } + + // Return true if this type and type OTHER are considered + // mergeable for the purposes of state merging. This is related + // to subroutine handling. For this purpose two types are + // considered unmergeable if they are both return-addresses but + // have different PCs. + bool state_mergeable_p (const type &other) const + { + return (key != return_address_type + || other.key != return_address_type + || pc == other.pc); + } // Return true if an object of type K can be assigned to a variable // of type *THIS. Handle various special cases too. Might modify @@ -780,13 +848,16 @@ private: { // The way this is written, we don't need to check isarray(). if (key != reference_type) - verifier->verify_fail ("internal error in verify_dimensions: not a reference type"); + verifier->verify_fail ("internal error in verify_dimensions:" + " not a reference type"); if (klass->count_dimensions () < ndims) - verifier->verify_fail ("array type has fewer dimensions than required"); + verifier->verify_fail ("array type has fewer dimensions" + " than required"); } - // Merge OLD_TYPE into this. On error throw exception. + // Merge OLD_TYPE into this. On error throw exception. Return + // true if the merge caused a type change. bool merge (type& old_type, bool local_semantics, _Jv_BytecodeVerifier *verifier) { @@ -829,20 +900,9 @@ private: { if (local_semantics) { - // If we're merging into an "unused" slot, then we - // simply accept whatever we're merging from. - if (key == unused_by_subroutine_type) - { - *this = old_type; - changed = true; - } - else if (old_type.key == unused_by_subroutine_type) - { - // Do nothing. - } // If we already have an `unsuitable' type, then we // don't need to change again. - else if (key != unsuitable_type) + if (key != unsuitable_type) { key = unsuitable_type; changed = true; @@ -872,7 +932,6 @@ private: case unsuitable_type: c = '-'; break; case return_address_type: c = 'r'; break; case continuation_type: c = '+'; break; - case unused_by_subroutine_type: c = '_'; break; case reference_type: c = 'L'; break; case null_type: c = '@'; break; case uninitialized_reference_type: c = 'U'; break; @@ -895,16 +954,6 @@ private: type *stack; // The local variables. type *locals; - // Flags are used in subroutines to keep track of which local - // variables have been accessed. They are also used after - char *flags; - // If not 0, then we are in a subroutine. The value is the PC of - // the subroutine's entry point. We can use 0 as an exceptional - // value because PC=0 can never be a subroutine. - int subroutine; - // This is used to keep a linked list of all the states which - // require re-verification. We use the PC to keep track. - int next; // We keep track of the type of `this' specially. This is used to // ensure that an instance initializer invokes another initializer // on `this' before returning. We must keep track of this @@ -912,40 +961,27 @@ private: // assigns to locals[0] (overwriting `this') and then returns // without really initializing. type this_type; - // This is a list of all subroutines that have been seen at this - // point. Ordinarily this is NULL; it is only allocated and used - // in relatively weird situations involving non-ret exit from a - // subroutine. We have to keep track of this in this way to avoid - // endless recursion in these cases. - subr_info *seen_subrs; - // INVALID marks a state which is not on the linked list of states - // requiring reverification. - static const int INVALID = -1; - // NO_NEXT marks the state at the end of the reverification list. - static const int NO_NEXT = -2; + // The PC for this state. This is only valid on states which are + // permanently attached to a given PC. For an object like + // `current_state', which is used transiently, this has no + // meaning. + int pc; + // We keep a linked list of all states requiring reverification. + // If this is the special value INVALID_STATE then this state is + // not on the list. NULL marks the end of the linked list. + state *next; - // This is used to mark the stack depth at the instruction just - // after a `jsr' when we haven't yet processed the corresponding - // `ret'. See handle_jsr_insn for more information. - static const int NO_STACK = -1; - - // This flag indicates that the local was changed in this - // subroutine. - static const int FLAG_CHANGED = 1; - // This is set only on the flags of the state of an instruction - // directly following a "jsr". It indicates that the local - // variable was changed by the subroutine corresponding to the - // "jsr". - static const int FLAG_USED = 2; + // NO_NEXT is the PC value meaning that a new state must be + // acquired from the verification list. + static const int NO_NEXT = -1; state () : this_type () { stack = NULL; locals = NULL; - flags = NULL; - seen_subrs = NULL; + next = INVALID_STATE; } state (int max_stack, int max_locals) @@ -957,26 +993,19 @@ private: for (int i = 0; i < max_stack; ++i) stack[i] = unsuitable_type; locals = new type[max_locals]; - flags = (char *) _Jv_Malloc (sizeof (char) * max_locals); - seen_subrs = NULL; for (int i = 0; i < max_locals; ++i) - { - locals[i] = unsuitable_type; - flags[i] = 0; - } - next = INVALID; - subroutine = 0; + locals[i] = unsuitable_type; + pc = NO_NEXT; + next = INVALID_STATE; } - state (const state *orig, int max_stack, int max_locals, - bool ret_semantics = false) + state (const state *orig, int max_stack, int max_locals) { stack = new type[max_stack]; locals = new type[max_locals]; - flags = (char *) _Jv_Malloc (sizeof (char) * max_locals); - seen_subrs = NULL; - copy (orig, max_stack, max_locals, ret_semantics); - next = INVALID; + copy (orig, max_stack, max_locals); + pc = NO_NEXT; + next = INVALID_STATE; } ~state () @@ -985,9 +1014,6 @@ private: delete[] stack; if (locals) delete[] locals; - if (flags) - _Jv_Free (flags); - clean_subrs (); } void *operator new[] (size_t bytes) @@ -1010,65 +1036,17 @@ private: _Jv_Free (mem); } - void clean_subrs () - { - subr_info *info = seen_subrs; - while (info != NULL) - { - subr_info *next = info->next; - _Jv_Free (info); - info = next; - } - seen_subrs = NULL; - } - - void copy (const state *copy, int max_stack, int max_locals, - bool ret_semantics = false) + void copy (const state *copy, int max_stack, int max_locals) { stacktop = copy->stacktop; stackdepth = copy->stackdepth; - subroutine = copy->subroutine; for (int i = 0; i < max_stack; ++i) stack[i] = copy->stack[i]; for (int i = 0; i < max_locals; ++i) - { - // See push_jump_merge to understand this case. - if (ret_semantics) - { - if ((copy->flags[i] & FLAG_CHANGED)) - { - // Changed in the subroutine, so we copy it here. - locals[i] = copy->locals[i]; - flags[i] |= FLAG_USED; - } - else - { - // Not changed in the subroutine. Use a special - // type so the coming merge will overwrite. - locals[i] = type (unused_by_subroutine_type); - } - } - else - locals[i] = copy->locals[i]; - - // Clear the flag unconditionally just so printouts look ok, - // then only set it if we're still in a subroutine and it - // did in fact change. - flags[i] &= ~FLAG_CHANGED; - if (subroutine && (copy->flags[i] & FLAG_CHANGED) != 0) - flags[i] |= FLAG_CHANGED; - } - - clean_subrs (); - if (copy->seen_subrs) - { - for (subr_info *info = copy->seen_subrs; - info != NULL; info = info->next) - add_subr (info->pc); - } + locals[i] = copy->locals[i]; this_type = copy->this_type; - // Don't modify `next'. + // Don't modify `next' or `pc'. } // Modify this state to reflect entry to an exception handler. @@ -1081,33 +1059,21 @@ private: stack[i] = unsuitable_type; } - // Modify this state to reflect entry into a subroutine. - void enter_subroutine (int npc, int max_locals) + inline int get_pc () const { - subroutine = npc; - // Mark all items as unchanged. Each subroutine needs to keep - // track of its `changed' state independently. In the case of - // nested subroutines, this information will be merged back into - // parent by the `ret'. - for (int i = 0; i < max_locals; ++i) - flags[i] &= ~FLAG_CHANGED; + return pc; } - // Indicate that we've been in this this subroutine. - void add_subr (int pc) + void set_pc (int npc) { - subr_info *n = (subr_info *) _Jv_Malloc (sizeof (subr_info)); - n->pc = pc; - n->next = seen_subrs; - seen_subrs = n; + pc = npc; } // Merge STATE_OLD into this state. Destructively modifies this // state. Returns true if the new state was in fact changed. // Will throw an exception if the states are not mergeable. - bool merge (state *state_old, bool ret_semantics, - int max_locals, _Jv_BytecodeVerifier *verifier, - bool jsr_semantics = false) + bool merge (state *state_old, int max_locals, + _Jv_BytecodeVerifier *verifier) { bool changed = false; @@ -1116,135 +1082,20 @@ private: if (this_type.isinitialized ()) this_type = state_old->this_type; - // Merge subroutine states. Here we just keep track of what - // subroutine we think we're in. We only check for a merge - // (which is invalid) when we see a `ret'. - if (subroutine == state_old->subroutine) - { - // Nothing. - } - else if (subroutine == 0) - { - subroutine = state_old->subroutine; - changed = true; - } - else - { - // If the subroutines differ, and we haven't seen this - // subroutine before, indicate that the state changed. This - // is needed to detect when subroutines have merged. - bool found = false; - for (subr_info *info = seen_subrs; info != NULL; info = info->next) - { - if (info->pc == state_old->subroutine) - { - found = true; - break; - } - } - if (! found) - { - add_subr (state_old->subroutine); - changed = true; - } - } - - // Merge stacks, including special handling for NO_STACK case. - // If the destination is NO_STACK, this means it is the - // instruction following a "jsr" and has not yet been processed - // in any way. In this situation, if we are currently - // processing a "ret", then we must *copy* any locals changed in - // the subroutine into the current state. Merging in this - // situation is incorrect because the locals we've noted didn't - // come real program flow, they are just an artifact of how - // we've chosen to handle the post-jsr state. - bool copy_in_locals = ret_semantics && stacktop == NO_STACK; - - if (state_old->stacktop == NO_STACK) - { - // This can happen if we're doing a pass-through jsr merge. - // Here we can just ignore the stack. - } - else if (stacktop == NO_STACK) - { - stacktop = state_old->stacktop; - stackdepth = state_old->stackdepth; - for (int i = 0; i < stacktop; ++i) - stack[i] = state_old->stack[i]; - changed = true; - } - else if (state_old->stacktop != stacktop) + // Merge stacks. + if (state_old->stacktop != stacktop) // FIXME stackdepth instead? verifier->verify_fail ("stack sizes differ"); - else + for (int i = 0; i < state_old->stacktop; ++i) { - for (int i = 0; i < state_old->stacktop; ++i) - { - if (stack[i].merge (state_old->stack[i], false, verifier)) - changed = true; - } + if (stack[i].merge (state_old->stack[i], false, verifier)) + changed = true; } // Merge local variables. for (int i = 0; i < max_locals; ++i) { - // If we're not processing a `ret', then we merge every - // local variable. If we are processing a `ret', then we - // only merge locals which changed in the subroutine. When - // processing a `ret', STATE_OLD is the state at the point - // of the `ret', and THIS is the state just after the `jsr'. - // See comment above for explanation of COPY_IN_LOCALS. - if (copy_in_locals) - { - if ((state_old->flags[i] & FLAG_CHANGED) != 0) - { - locals[i] = state_old->locals[i]; - changed = true; - // There's no point in calling note_variable here, - // since we call it under the same condition before - // the loop ends. - } - } - else if (jsr_semantics && (flags[i] & FLAG_USED) != 0) - { - // We are processing the "pass-through" part of a jsr - // statement. In this particular case, the local was - // changed by the subroutine. So, we have no work to - // do, as the pre-jsr value does not survive the - // subroutine call. - } - else if (! ret_semantics - || (state_old->flags[i] & FLAG_CHANGED) != 0) - { - // If we have ordinary (not ret) semantics, then we have - // merging flow control, so we merge types. Or, we have - // jsr pass-through semantics and the type survives the - // subroutine (see above), so again we merge. Or, - // finally, we have ret semantics and this value did - // change, in which case we merge the change from the - // subroutine into the post-jsr instruction. - if (locals[i].merge (state_old->locals[i], true, verifier)) - { - // Note that we don't call `note_variable' here. - // This change doesn't represent a real change to a - // local, but rather a merge artifact. If we're in - // a subroutine which is called with two - // incompatible types in a slot that is unused by - // the subroutine, then we don't want to mark that - // variable as having been modified. - changed = true; - } - } - - // If we're in a subroutine, we must compute the union of - // all the changed local variables. - if ((state_old->flags[i] & FLAG_CHANGED) != 0) - note_variable (i); - - // If we're returning from a subroutine, we must mark the - // post-jsr instruction with information about what changed, - // so that future "pass-through" jsr merges work correctly. - if (ret_semantics && (state_old->flags[i] & FLAG_CHANGED) != 0) - flags[i] |= FLAG_USED; + if (locals[i].merge (state_old->locals[i], true, verifier)) + changed = true; } return changed; @@ -1285,13 +1136,6 @@ private: this_type = k; } - // Note that a local variable was modified. - void note_variable (int index) - { - if (subroutine > 0) - flags[index] |= FLAG_CHANGED; - } - // Mark each `new'd object we know of that was allocated at PC as // initialized. void set_initialized (int pc, int max_locals) @@ -1303,17 +1147,36 @@ private: this_type.set_initialized (pc); } - // Return true if this state is the unmerged result of a `ret'. - bool is_unmerged_ret_state (int max_locals) const + // This tests to see whether two states can be considered "merge + // compatible". If both states have a return-address in the same + // slot, and the return addresses are different, then they are not + // compatible and we must not try to merge them. + bool state_mergeable_p (state *other, int max_locals, + _Jv_BytecodeVerifier *verifier) { - if (stacktop == NO_STACK) - return true; + // This is tricky: if the stack sizes differ, then not only are + // these not mergeable, but in fact we should give an error, as + // we've found two execution paths that reach a branch target + // with different stack depths. FIXME stackdepth instead? + if (stacktop != other->stacktop) + verifier->verify_fail ("stack sizes differ"); + + for (int i = 0; i < stacktop; ++i) + if (! stack[i].state_mergeable_p (other->stack[i])) + return false; for (int i = 0; i < max_locals; ++i) + if (! locals[i].state_mergeable_p (other->locals[i])) + return false; + return true; + } + + void reverify (_Jv_BytecodeVerifier *verifier) + { + if (next == INVALID_STATE) { - if (locals[i].key == unused_by_subroutine_type) - return true; + next = verifier->next_verify_state; + verifier->next_verify_state = this; } - return false; } #ifdef VERIFY_DEBUG @@ -1328,17 +1191,7 @@ private: debug_print ("."); debug_print (" [local] "); for (i = 0; i < max_locals; ++i) - { - locals[i].print (); - if ((flags[i] & FLAG_USED) != 0) - debug_print ((flags[i] & FLAG_CHANGED) ? ">" : "<"); - else - debug_print ((flags[i] & FLAG_CHANGED) ? "+" : " "); - } - if (subroutine == 0) - debug_print (" | None"); - else - debug_print (" | %4d", subroutine); + locals[i].print (); debug_print (" | %p\n", this); } #else @@ -1419,18 +1272,11 @@ private: if (index > current_method->max_locals - depth) verify_fail ("invalid local variable"); current_state->locals[index] = t; - current_state->note_variable (index); if (depth == 2) - { - current_state->locals[index + 1] = continuation_type; - current_state->note_variable (index + 1); - } + current_state->locals[index + 1] = continuation_type; if (index > 0 && current_state->locals[index - 1].iswide ()) - { - current_state->locals[index - 1] = unsuitable_type; - // There's no need to call note_variable here. - } + current_state->locals[index - 1] = unsuitable_type; } type get_variable (int index, type t) @@ -1520,56 +1366,71 @@ private: return npc; } - // Merge the indicated state into the state at the branch target and - // schedule a new PC if there is a change. If RET_SEMANTICS is - // true, then we are merging from a `ret' instruction into the - // instruction after a `jsr'. This is a special case with its own - // modified semantics. If JSR_SEMANTICS is true, then we're merging - // some type information from a "jsr" instruction to the immediately - // following instruction. In this situation we have to be careful - // not to merge local variables whose values are modified by the - // subroutine we're about to call. - void push_jump_merge (int npc, state *nstate, - bool ret_semantics = false, - bool jsr_semantics = false) + // Add a new state to the state list at NPC. + state *add_new_state (int npc, state *old_state) { - bool changed = true; - if (states[npc] == NULL) + state *new_state = new state (old_state, current_method->max_stack, + current_method->max_locals); + debug_print ("== New state in add_new_state\n"); + new_state->print ("New", npc, current_method->max_stack, + current_method->max_locals); + linked *nlink + = (linked *) _Jv_Malloc (sizeof (linked)); + nlink->val = new_state; + nlink->next = states[npc]; + states[npc] = nlink; + new_state->set_pc (npc); + return new_state; + } + + // Merge the indicated state into the state at the branch target and + // schedule a new PC if there is a change. NPC is the PC of the + // branch target, and FROM_STATE is the state at the source of the + // branch. This method returns true if the destination state + // changed and requires reverification, false otherwise. + void merge_into (int npc, state *from_state) + { + // Iterate over all target states and merge our state into each, + // if applicable. FIXME one improvement we could make here is + // "state destruction". Merging a new state into an existing one + // might cause a return_address_type to be merged to + // unsuitable_type. In this case the resulting state may now be + // mergeable with other states currently held in parallel at this + // location. So in this situation we could pairwise compare and + // reduce the number of parallel states. + bool applicable = false; + for (linked *iter = states[npc]; iter != NULL; iter = iter->next) { - // There's a weird situation here. If are examining the - // branch that results from a `ret', and there is not yet a - // state available at the branch target (the instruction just - // after the `jsr'), then we have to construct a special kind - // of state at that point for future merging. This special - // state has the type `unused_by_subroutine_type' in each slot - // which was not modified by the subroutine. - states[npc] = new state (nstate, current_method->max_stack, - current_method->max_locals, ret_semantics); - debug_print ("== New state in push_jump_merge (ret_semantics = %s)\n", - ret_semantics ? "true" : "false"); - states[npc]->print ("New", npc, current_method->max_stack, - current_method->max_locals); - } - else - { - debug_print ("== Merge states in push_jump_merge\n"); - nstate->print ("Frm", start_PC, current_method->max_stack, - current_method->max_locals); - states[npc]->print (" To", npc, current_method->max_stack, - current_method->max_locals); - changed = states[npc]->merge (nstate, ret_semantics, - current_method->max_locals, this, - jsr_semantics); - states[npc]->print ("New", npc, current_method->max_stack, - current_method->max_locals); + state *new_state = iter->val; + if (new_state->state_mergeable_p (from_state, + current_method->max_locals, this)) + { + applicable = true; + + debug_print ("== Merge states in merge_into\n"); + from_state->print ("Frm", start_PC, current_method->max_stack, + current_method->max_locals); + new_state->print (" To", npc, current_method->max_stack, + current_method->max_locals); + bool changed = new_state->merge (from_state, + current_method->max_locals, + this); + new_state->print ("New", npc, current_method->max_stack, + current_method->max_locals); + + if (changed) + new_state->reverify (this); + } } - if (changed && states[npc]->next == state::INVALID) + if (! applicable) { - // The merge changed the state, and the new PC isn't yet on our - // list of PCs to re-verify. - states[npc]->next = next_verify_pc; - next_verify_pc = npc; + // Either we don't yet have a state at NPC, or we have a + // return-address type that is in conflict with all existing + // state. So, we need to create a new entry. + state *new_state = add_new_state (npc, from_state); + // A new state added in this way must always be reverified. + new_state->reverify (this); } } @@ -1578,7 +1439,7 @@ private: int npc = compute_jump (offset); if (npc < PC) current_state->check_no_uninitialized_objects (current_method->max_locals, this); - push_jump_merge (npc, current_state); + merge_into (npc, current_state); } void push_exception_jump (type t, int pc) @@ -1590,37 +1451,20 @@ private: if (current_method->max_stack < 1) verify_fail ("stack overflow at exception handler"); s.set_exception (t, current_method->max_stack); - push_jump_merge (pc, &s); + merge_into (pc, &s); } - int pop_jump () + state *pop_jump () { - int *prev_loc = &next_verify_pc; - int npc = next_verify_pc; - - while (npc != state::NO_NEXT) + state *new_state = next_verify_state; + if (new_state == INVALID_STATE) + verify_fail ("programmer error in pop_jump"); + if (new_state != NULL) { - // If the next available PC is an unmerged `ret' state, then - // we aren't yet ready to handle it. That's because we would - // need all kind of special cases to do so. So instead we - // defer this jump until after we've processed it via a - // fall-through. This has to happen because the instruction - // before this one must be a `jsr'. - if (! states[npc]->is_unmerged_ret_state (current_method->max_locals)) - { - *prev_loc = states[npc]->next; - states[npc]->next = state::INVALID; - return npc; - } - - prev_loc = &states[npc]->next; - npc = states[npc]->next; + next_verify_state = new_state->next; + new_state->next = INVALID_STATE; } - - // Note that we might have gotten here even when there are - // remaining states to process. That can happen if we find a - // `jsr' without a `ret'. - return state::NO_NEXT; + return new_state; } void invalidate_pc () @@ -1628,7 +1472,7 @@ private: PC = state::NO_NEXT; } - void note_branch_target (int pc, bool is_jsr_target = false) + void note_branch_target (int pc) { // Don't check `pc <= PC', because we've advanced PC after // fetching the target and we haven't yet checked the next @@ -1636,14 +1480,6 @@ private: if (pc < PC && ! (flags[pc] & FLAG_INSN_START)) verify_fail ("branch not to instruction start", start_PC); flags[pc] |= FLAG_BRANCH_TARGET; - if (is_jsr_target) - { - // Record the jsr which called this instruction. - subr_info *info = (subr_info *) _Jv_Malloc (sizeof (subr_info)); - info->pc = PC; - info->next = jsr_ptrs[pc]; - jsr_ptrs[pc] = info; - } } void skip_padding () @@ -1653,108 +1489,43 @@ private: verify_fail ("found nonzero padding byte"); } - // Return the subroutine to which the instruction at PC belongs. - int get_subroutine (int pc) - { - if (states[pc] == NULL) - return 0; - return states[pc]->subroutine; - } - // Do the work for a `ret' instruction. INDEX is the index into the // local variables. void handle_ret_insn (int index) { - get_variable (index, return_address_type); + type ret_addr = get_variable (index, return_address_type); + // It would be nice if we could do this. However, the JVM Spec + // doesn't say that this is what happens. It is implied that + // reusing a return address is invalid, but there's no actual + // prohibition against it. + // set_variable (index, unsuitable_type); - int csub = current_state->subroutine; - if (csub == 0) - verify_fail ("no subroutine"); + int npc = ret_addr.get_pc (); + // We might be returning to a `jsr' that is at the end of the + // bytecode. This is ok if we never return from the called + // subroutine, but if we see this here it is an error. + if (npc >= current_method->code_length) + verify_fail ("fell off end"); - // Check to see if we've merged subroutines. - subr_entry_info *entry; - for (entry = entry_points; entry != NULL; entry = entry->next) - { - if (entry->ret_pc == start_PC) - break; - } - if (entry == NULL) - { - entry = (subr_entry_info *) _Jv_Malloc (sizeof (subr_entry_info)); - entry->pc = csub; - entry->ret_pc = start_PC; - entry->next = entry_points; - entry_points = entry; - } - else if (entry->pc != csub) - verify_fail ("subroutines merged"); - - for (subr_info *subr = jsr_ptrs[csub]; subr != NULL; subr = subr->next) - { - // We might be returning to a `jsr' that is at the end of the - // bytecode. This is ok if we never return from the called - // subroutine, but if we see this here it is an error. - if (subr->pc >= current_method->code_length) - verify_fail ("fell off end"); - - // Temporarily modify the current state so it looks like we're - // in the enclosing context. - current_state->subroutine = get_subroutine (subr->pc); - if (subr->pc < PC) - current_state->check_no_uninitialized_objects (current_method->max_locals, this); - push_jump_merge (subr->pc, current_state, true); - } - - current_state->subroutine = csub; + if (npc < PC) + current_state->check_no_uninitialized_objects (current_method->max_locals, + this); + merge_into (npc, current_state); invalidate_pc (); } - // We're in the subroutine SUB, calling a subroutine at DEST. Make - // sure this subroutine isn't already on the stack. - void check_nonrecursive_call (int sub, int dest) - { - if (sub == 0) - return; - if (sub == dest) - verify_fail ("recursive subroutine call"); - for (subr_info *info = jsr_ptrs[sub]; info != NULL; info = info->next) - check_nonrecursive_call (get_subroutine (info->pc), dest); - } - void handle_jsr_insn (int offset) { int npc = compute_jump (offset); if (npc < PC) current_state->check_no_uninitialized_objects (current_method->max_locals, this); - check_nonrecursive_call (current_state->subroutine, npc); // Modify our state as appropriate for entry into a subroutine. - push_type (return_address_type); - push_jump_merge (npc, current_state); - // Clean up. - pop_type (return_address_type); - - // On entry to the subroutine, the subroutine number must be set - // and the locals must be marked as cleared. We do this after - // merging state so that we don't erroneously "notice" a variable - // change merely on entry. - states[npc]->enter_subroutine (npc, current_method->max_locals); - - // Indicate that we don't know the stack depth of the instruction - // following the `jsr'. The idea here is that we need to merge - // the local variable state across the jsr, but the subroutine - // might change the stack depth, so we can't make any assumptions - // about it. So we have yet another special case. We know that - // at this point PC points to the instruction after the jsr. Note - // that it is ok to have a `jsr' at the end of the bytecode, - // provided that the called subroutine never returns. So, we have - // a special case here and another one when we handle the ret. - if (PC < current_method->code_length) - { - current_state->stacktop = state::NO_STACK; - push_jump_merge (PC, current_state, false, true); - } + type ret_addr (return_address_type); + ret_addr.set_return_address (PC); + push_type (ret_addr); + merge_into (npc, current_state); invalidate_pc (); } @@ -1794,7 +1565,6 @@ private: case unsuitable_type: case return_address_type: case continuation_type: - case unused_by_subroutine_type: case reference_type: case null_type: case uninitialized_reference_type: @@ -1810,16 +1580,9 @@ private: void branch_prepass () { flags = (char *) _Jv_Malloc (current_method->code_length); - jsr_ptrs = (subr_info **) _Jv_Malloc (sizeof (subr_info *) - * current_method->code_length); for (int i = 0; i < current_method->code_length; ++i) - { - flags[i] = 0; - jsr_ptrs[i] = NULL; - } - - bool last_was_jsr = false; + flags[i] = 0; PC = 0; while (PC < current_method->code_length) @@ -1829,13 +1592,6 @@ private: start_PC = PC; flags[PC] |= FLAG_INSN_START; - // If the previous instruction was a jsr, then the next - // instruction is a branch target -- the branch being the - // corresponding `ret'. - if (last_was_jsr) - note_branch_target (PC); - last_was_jsr = false; - java_opcode opcode = (java_opcode) bytecode[PC++]; switch (opcode) { @@ -2029,8 +1785,6 @@ private: break; case op_jsr: - last_was_jsr = true; - // Fall through. case op_ifeq: case op_ifne: case op_iflt: @@ -2048,7 +1802,7 @@ private: case op_ifnull: case op_ifnonnull: case op_goto: - note_branch_target (compute_jump (get_short ()), last_was_jsr); + note_branch_target (compute_jump (get_short ())); break; case op_tableswitch: @@ -2095,10 +1849,8 @@ private: break; case op_jsr_w: - last_was_jsr = true; - // Fall through. case op_goto_w: - note_branch_target (compute_jump (get_int ()), last_was_jsr); + note_branch_target (compute_jump (get_int ())); break; // These are unused here, but we call them out explicitly @@ -2375,37 +2127,31 @@ private: // True if we are verifying an instance initializer. bool this_is_init = initialize_stack (); - states = (state **) _Jv_Malloc (sizeof (state *) - * current_method->code_length); + states = (linked **) _Jv_Malloc (sizeof (linked *) + * current_method->code_length); for (int i = 0; i < current_method->code_length; ++i) states[i] = NULL; - next_verify_pc = state::NO_NEXT; + next_verify_state = NULL; while (true) { // If the PC was invalidated, get a new one from the work list. if (PC == state::NO_NEXT) { - PC = pop_jump (); - if (PC == state::INVALID) - verify_fail ("can't happen: saw state::INVALID"); - if (PC == state::NO_NEXT) + state *new_state = pop_jump (); + // If it is null, we're done. + if (new_state == NULL) break; + + PC = new_state->get_pc (); debug_print ("== State pop from pending list\n"); // Set up the current state. - current_state->copy (states[PC], current_method->max_stack, + current_state->copy (new_state, current_method->max_stack, current_method->max_locals); } else { - // Control can't fall off the end of the bytecode. We - // only need to check this in the fall-through case, - // because branch bounds are checked when they are - // pushed. - if (PC >= current_method->code_length) - verify_fail ("fell off end"); - // We only have to do this checking in the situation where // control flow falls through from the previous // instruction. Otherwise merging is done at the time we @@ -2413,39 +2159,29 @@ private: if (states[PC] != NULL) { // We've already visited this instruction. So merge - // the states together. If this yields no change then - // we don't have to re-verify. However, if the new - // state is an the result of an unmerged `ret', we - // must continue through it. - debug_print ("== Fall through merge\n"); - states[PC]->print ("Old", PC, current_method->max_stack, - current_method->max_locals); - current_state->print ("Cur", PC, current_method->max_stack, - current_method->max_locals); - if (! current_state->merge (states[PC], false, - current_method->max_locals, this) - && ! states[PC]->is_unmerged_ret_state (current_method->max_locals)) - { - debug_print ("== Fall through optimization\n"); - invalidate_pc (); - continue; - } - // Save a copy of it for later. - states[PC]->copy (current_state, current_method->max_stack, - current_method->max_locals); - current_state->print ("New", PC, current_method->max_stack, - current_method->max_locals); + // the states together. It is simplest, but not most + // efficient, to just always invalidate the PC here. + merge_into (PC, current_state); + invalidate_pc (); + continue; } } + // Control can't fall off the end of the bytecode. We need to + // check this in both cases, not just the fall-through case, + // because we don't check to see whether a `jsr' appears at + // the end of the bytecode until we process a `ret'. + if (PC >= current_method->code_length) + verify_fail ("fell off end"); + // We only have to keep saved state at branch targets. If // we're at a branch target and the state here hasn't been set - // yet, we set it now. + // yet, we set it now. You might notice that `ret' targets + // won't necessarily have FLAG_BRANCH_TARGET set. This + // doesn't matter, since those states will be filled in by + // merge_into. if (states[PC] == NULL && (flags[PC] & FLAG_BRANCH_TARGET)) - { - states[PC] = new state (current_state, current_method->max_stack, - current_method->max_locals); - } + add_new_state (PC, current_state); // Set this before handling exceptions so that debug output is // sane. @@ -3328,58 +3064,45 @@ public: states = NULL; flags = NULL; - jsr_ptrs = NULL; utf8_list = NULL; isect_list = NULL; - entry_points = NULL; } ~_Jv_BytecodeVerifier () { - if (states) - _Jv_Free (states); if (flags) _Jv_Free (flags); - if (jsr_ptrs) - { - for (int i = 0; i < current_method->code_length; ++i) - { - if (jsr_ptrs[i] != NULL) - { - subr_info *info = jsr_ptrs[i]; - while (info != NULL) - { - subr_info *next = info->next; - _Jv_Free (info); - info = next; - } - } - } - _Jv_Free (jsr_ptrs); - } - while (utf8_list != NULL) { - linked_utf8 *n = utf8_list->next; + linked<_Jv_Utf8Const> *n = utf8_list->next; _Jv_Free (utf8_list->val); _Jv_Free (utf8_list); utf8_list = n; } - while (entry_points != NULL) - { - subr_entry_info *next = entry_points->next; - _Jv_Free (entry_points); - entry_points = next; - } - while (isect_list != NULL) { ref_intersection *next = isect_list->alloc_next; delete isect_list; isect_list = next; } + + if (states) + { + for (int i = 0; i < current_method->code_length; ++i) + { + linked *iter = states[i]; + while (iter != NULL) + { + linked *next = iter->next; + delete iter->val; + _Jv_Free (iter); + iter = next; + } + } + _Jv_Free (states); + } } }; @@ -3389,4 +3112,5 @@ _Jv_VerifyMethod (_Jv_InterpMethod *meth) _Jv_BytecodeVerifier v (meth); v.verify_instructions (); } + #endif /* INTERPRETER */