/* * Copyright 2003-2007 Sun Microsystems, Inc. All Rights Reserved. * Copyright 2007, 2008, 2009, 2010 Red Hat, Inc. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, * CA 95054 USA or visit www.sun.com if you need additional information or * have any questions. * */ #include "incls/_precompiled.incl" #include "incls/_frame_zero.cpp.incl" #ifdef ASSERT void RegisterMap::check_location_valid() { ShouldNotCallThis(); } #endif bool frame::is_interpreted_frame() const { return zeroframe()->is_interpreter_frame(); } bool frame::is_fake_stub_frame() const { return zeroframe()->is_fake_stub_frame(); } frame frame::sender_for_entry_frame(RegisterMap *map) const { assert(zeroframe()->is_entry_frame(), "wrong type of frame"); assert(map != NULL, "map must be set"); assert(!entry_frame_is_first(), "next Java fp must be non zero"); assert(entry_frame_call_wrapper()->anchor()->last_Java_sp() == sender_sp(), "sender should be next Java frame"); map->clear(); assert(map->include_argument_oops(), "should be set by clear"); return frame(zeroframe()->next(), sender_sp()); } frame frame::sender_for_nonentry_frame(RegisterMap *map) const { assert(zeroframe()->is_interpreter_frame() || zeroframe()->is_shark_frame() || zeroframe()->is_fake_stub_frame(), "wrong type of frame"); return frame(zeroframe()->next(), sender_sp()); } frame frame::sender(RegisterMap* map) const { // Default is not to follow arguments; the various // sender_for_xxx methods update this accordingly. map->set_include_argument_oops(false); if (is_entry_frame()) return sender_for_entry_frame(map); else return sender_for_nonentry_frame(map); } #ifdef CC_INTERP BasicObjectLock* frame::interpreter_frame_monitor_begin() const { return get_interpreterState()->monitor_base(); } BasicObjectLock* frame::interpreter_frame_monitor_end() const { return (BasicObjectLock*) get_interpreterState()->stack_base(); } #endif // CC_INTERP void frame::patch_pc(Thread* thread, address pc) { // We borrow this call to set the thread pointer in the interpreter // state; the hook to set up deoptimized frames isn't supplied it. assert(pc == NULL, "should be"); get_interpreterState()->set_thread((JavaThread *) thread); } bool frame::safe_for_sender(JavaThread *thread) { ShouldNotCallThis(); } void frame::pd_gc_epilog() { } bool frame::is_interpreted_frame_valid(JavaThread *thread) const { ShouldNotCallThis(); } BasicType frame::interpreter_frame_result(oop* oop_result, jvalue* value_result) { assert(is_interpreted_frame(), "interpreted frame expected"); methodOop method = interpreter_frame_method(); BasicType type = method->result_type(); intptr_t* tos_addr = (intptr_t *) interpreter_frame_tos_address(); oop obj; switch (type) { case T_VOID: break; case T_BOOLEAN: value_result->z = *(jboolean *) tos_addr; break; case T_BYTE: value_result->b = *(jbyte *) tos_addr; break; case T_CHAR: value_result->c = *(jchar *) tos_addr; break; case T_SHORT: value_result->s = *(jshort *) tos_addr; break; case T_INT: value_result->i = *(jint *) tos_addr; break; case T_LONG: value_result->j = *(jlong *) tos_addr; break; case T_FLOAT: value_result->f = *(jfloat *) tos_addr; break; case T_DOUBLE: value_result->d = *(jdouble *) tos_addr; break; case T_OBJECT: case T_ARRAY: if (method->is_native()) { obj = get_interpreterState()->oop_temp(); } else { oop* obj_p = (oop *) tos_addr; obj = (obj_p == NULL) ? (oop) NULL : *obj_p; } assert(obj == NULL || Universe::heap()->is_in(obj), "sanity check"); *oop_result = obj; break; default: ShouldNotReachHere(); } return type; } int frame::frame_size(RegisterMap* map) const { #ifdef PRODUCT ShouldNotCallThis(); #else return 0; // make javaVFrame::print_value work #endif // PRODUCT } intptr_t* frame::interpreter_frame_tos_at(jint offset) const { int index = (Interpreter::expr_offset_in_bytes(offset) / wordSize); return &interpreter_frame_tos_address()[index]; } void frame::zero_print_on_error(int frame_index, outputStream* st, char* buf, int buflen) const { // Divide the buffer between the field and the value buflen >>= 1; char *fieldbuf = buf; char *valuebuf = buf + buflen; // Print each word of the frame for (intptr_t *addr = sp(); addr <= fp(); addr++) { int offset = fp() - addr; // Fill in default values, then try and improve them snprintf(fieldbuf, buflen, "word[%d]", offset); snprintf(valuebuf, buflen, PTR_FORMAT, *addr); zeroframe()->identify_word(frame_index, offset, fieldbuf, valuebuf, buflen); fieldbuf[buflen - 1] = '\0'; valuebuf[buflen - 1] = '\0'; // Print the result st->print_cr(" " PTR_FORMAT ": %-21s = %s", addr, fieldbuf, valuebuf); } } void ZeroFrame::identify_word(int frame_index, int offset, char* fieldbuf, char* valuebuf, int buflen) const { switch (offset) { case next_frame_off: strncpy(fieldbuf, "next_frame", buflen); break; case frame_type_off: strncpy(fieldbuf, "frame_type", buflen); if (is_entry_frame()) strncpy(valuebuf, "ENTRY_FRAME", buflen); else if (is_interpreter_frame()) strncpy(valuebuf, "INTERPRETER_FRAME", buflen); else if (is_shark_frame()) strncpy(valuebuf, "SHARK_FRAME", buflen); else if (is_fake_stub_frame()) strncpy(valuebuf, "FAKE_STUB_FRAME", buflen); break; default: if (is_entry_frame()) { as_entry_frame()->identify_word( frame_index, offset, fieldbuf, valuebuf, buflen); } else if (is_interpreter_frame()) { as_interpreter_frame()->identify_word( frame_index, offset, fieldbuf, valuebuf, buflen); } else if (is_shark_frame()) { as_shark_frame()->identify_word( frame_index, offset, fieldbuf, valuebuf, buflen); } else if (is_fake_stub_frame()) { as_fake_stub_frame()->identify_word( frame_index, offset, fieldbuf, valuebuf, buflen); } } } void EntryFrame::identify_word(int frame_index, int offset, char* fieldbuf, char* valuebuf, int buflen) const { switch (offset) { case call_wrapper_off: strncpy(fieldbuf, "call_wrapper", buflen); break; default: snprintf(fieldbuf, buflen, "local[%d]", offset - 3); } } void InterpreterFrame::identify_word(int frame_index, int offset, char* fieldbuf, char* valuebuf, int buflen) const { interpreterState istate = interpreter_state(); bool is_valid = istate->self_link() == istate; intptr_t *addr = addr_of_word(offset); // Fixed part if (addr >= (intptr_t *) istate) { const char *field = istate->name_of_field_at_address((address) addr); if (field) { if (is_valid && !strcmp(field, "_method")) { istate->method()->name_and_sig_as_C_string(valuebuf, buflen); } else if (is_valid && !strcmp(field, "_bcp") && istate->bcp()) { snprintf(valuebuf, buflen, PTR_FORMAT " (bci %d)", (intptr_t) istate->bcp(), istate->method()->bci_from(istate->bcp())); } snprintf(fieldbuf, buflen, "%sistate->%s", field[strlen(field) - 1] == ')' ? "(": "", field); } else if (addr == (intptr_t *) istate) { strncpy(fieldbuf, "(vtable for istate)", buflen); } return; } // Variable part if (!is_valid) return; // JNI stuff if (istate->method()->is_native() && addr < istate->stack_base()) { address hA = istate->method()->signature_handler(); if (hA != NULL) { if (hA != (address) InterpreterRuntime::slow_signature_handler) { InterpreterRuntime::SignatureHandler *handler = InterpreterRuntime::SignatureHandler::from_handlerAddr(hA); intptr_t *params = istate->stack_base() - handler->argument_count(); if (addr >= params) { int param = addr - params; const char *desc = ""; if (param == 0) desc = " (JNIEnv)"; else if (param == 1) { if (istate->method()->is_static()) desc = " (mirror)"; else desc = " (this)"; } snprintf(fieldbuf, buflen, "parameter[%d]%s", param, desc); return; } for (int i = 0; i < handler->argument_count(); i++) { if (params[i] == (intptr_t) addr) { snprintf(fieldbuf, buflen, "unboxed parameter[%d]", i); return; } } } } return; } // Monitors and stack identify_vp_word(frame_index, addr, (intptr_t *) istate->monitor_base(), istate->stack_base(), fieldbuf, buflen); } void SharkFrame::identify_word(int frame_index, int offset, char* fieldbuf, char* valuebuf, int buflen) const { // Fixed part switch (offset) { case pc_off: strncpy(fieldbuf, "pc", buflen); if (method()->is_oop()) { nmethod *code = method()->code(); if (code && code->pc_desc_at(pc())) { SimpleScopeDesc ssd(code, pc()); snprintf(valuebuf, buflen, PTR_FORMAT " (bci %d)", (intptr_t) pc(), ssd.bci()); } } return; case unextended_sp_off: strncpy(fieldbuf, "unextended_sp", buflen); return; case method_off: strncpy(fieldbuf, "method", buflen); if (method()->is_oop()) { method()->name_and_sig_as_C_string(valuebuf, buflen); } return; case oop_tmp_off: strncpy(fieldbuf, "oop_tmp", buflen); return; } // Variable part if (method()->is_oop()) { identify_vp_word(frame_index, addr_of_word(offset), addr_of_word(header_words + 1), unextended_sp() + method()->max_stack(), fieldbuf, buflen); } } void ZeroFrame::identify_vp_word(int frame_index, intptr_t* addr, intptr_t* monitor_base, intptr_t* stack_base, char* fieldbuf, int buflen) const { // Monitors if (addr >= stack_base && addr < monitor_base) { int monitor_size = frame::interpreter_frame_monitor_size(); int last_index = (monitor_base - stack_base) / monitor_size - 1; int index = last_index - (addr - stack_base) / monitor_size; intptr_t monitor = (intptr_t) ( (BasicObjectLock *) monitor_base - 1 - index); intptr_t offset = (intptr_t) addr - monitor; if (offset == BasicObjectLock::obj_offset_in_bytes()) snprintf(fieldbuf, buflen, "monitor[%d]->_obj", index); else if (offset == BasicObjectLock::lock_offset_in_bytes()) snprintf(fieldbuf, buflen, "monitor[%d]->_lock", index); return; } // Expression stack if (addr < stack_base) { snprintf(fieldbuf, buflen, "%s[%d]", frame_index == 0 ? "stack_word" : "local", (int) (stack_base - addr - 1)); return; } }