/* src/vm/jit/x86_64/patcher.c - x86_64 code patching functions Copyright (C) 1996-2005, 2006, 2007 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 This file is part of CACAO. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program 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 for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. $Id: patcher.c 7483 2007-03-08 13:17:40Z michi $ */ #include "config.h" #include "vm/types.h" #include "vm/jit/x86_64/codegen.h" #include "mm/memory.h" #include "native/native.h" #include "vm/builtin.h" #include "vm/exceptions.h" #include "vm/initialize.h" #include "vm/jit/patcher.h" #include "vm/jit/stacktrace.h" #include "vmcore/class.h" #include "vmcore/field.h" #include "vmcore/options.h" #include "vmcore/references.h" #include "vm/resolve.h" /* patcher_wrapper ************************************************************* Wrapper for all patchers. It also creates the stackframe info structure. If the return value of the patcher function is false, it gets the exception object, clears the exception pointer and returns the exception. *******************************************************************************/ java_objectheader *patcher_wrapper(u1 *sp, u1 *pv, u1 *ra) { stackframeinfo sfi; u1 *xpc; java_objectheader *o; functionptr f; bool result; java_objectheader *e; /* define the patcher function */ bool (*patcher_function)(u1 *); /* get stuff from the stack */ xpc = (u1 *) *((ptrint *) (sp + 5 * 8)); o = (java_objectheader *) *((ptrint *) (sp + 4 * 8)); f = (functionptr) *((ptrint *) (sp + 0 * 8)); /* calculate and set the new return address */ xpc = xpc - PATCHER_CALL_SIZE; *((ptrint *) (sp + 5 * 8)) = (ptrint) xpc; /* cast the passed function to a patcher function */ patcher_function = (bool (*)(u1 *)) (ptrint) f; /* enter a monitor on the patching position */ PATCHER_MONITORENTER; /* create the stackframeinfo */ /* RA is passed as NULL, but the XPC is correct and can be used in stacktrace_create_extern_stackframeinfo for md_codegen_get_pv_from_pc. */ stacktrace_create_extern_stackframeinfo(&sfi, pv, sp + 6 * 8, xpc, xpc); /* call the proper patcher function */ result = (patcher_function)(sp); /* remove the stackframeinfo */ stacktrace_remove_stackframeinfo(&sfi); /* check for return value and exit accordingly */ if (result == false) { e = exceptions_get_and_clear_exception(); PATCHER_MONITOREXIT; return e; } PATCHER_MARK_PATCHED_MONITOREXIT; return NULL; } /* patcher_get_putstatic ******************************************************* Machine code: 4d 8b 15 86 fe ff ff mov -378(%rip),%r10 49 8b 32 mov (%r10),%rsi *******************************************************************************/ bool patcher_get_putstatic(u1 *sp) { u1 *ra; u8 mcode; unresolved_field *uf; s4 disp; fieldinfo *fi; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); uf = (unresolved_field *) *((ptrint *) (sp + 2 * 8)); disp = *((s4 *) (sp + 1 * 8)); /* get the fieldinfo */ if (!(fi = resolve_field_eager(uf))) return false; /* check if the field's class is initialized */ if (!(fi->class->state & CLASS_INITIALIZED)) if (!initialize_class(fi->class)) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch the field value's address */ *((ptrint *) (ra + 7 + disp)) = (ptrint) &(fi->value); return true; } /* patcher_get_putfield ******************************************************** Machine code: 45 8b 8f 00 00 00 00 mov 0x0(%r15),%r9d *******************************************************************************/ bool patcher_get_putfield(u1 *sp) { u1 *ra; u8 mcode; unresolved_field *uf; fieldinfo *fi; u1 byte; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); uf = (unresolved_field *) *((ptrint *) (sp + 2 * 8)); /* get the fieldinfo */ if (!(fi = resolve_field_eager(uf))) return false; /* patch back original code (instruction code is smaller than 8 bytes) */ *((u4 *) (ra + 0)) = (u4) mcode; *((u1 *) (ra + 4)) = (u1) (mcode >> 32); /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch the field's offset: we check for the field type, because the */ /* instructions have different lengths */ if (IS_INT_LNG_TYPE(fi->type)) { /* check for special case: %rsp or %r12 as base register */ byte = *(ra + 3); if (byte == 0x24) *((u4 *) (ra + 4)) = (u4) (fi->offset); else *((u4 *) (ra + 3)) = (u4) (fi->offset); } else { /* check for special case: %rsp or %r12 as base register */ byte = *(ra + 5); if (byte == 0x24) *((u4 *) (ra + 6)) = (u4) (fi->offset); else *((u4 *) (ra + 5)) = (u4) (fi->offset); } return true; } /* patcher_putfieldconst ******************************************************* Machine code: 41 c7 85 00 00 00 00 7b 00 00 00 movl $0x7b,0x0(%r13) *******************************************************************************/ bool patcher_putfieldconst(u1 *sp) { u1 *ra; u8 mcode; unresolved_field *uf; fieldinfo *fi; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); uf = (unresolved_field *) *((ptrint *) (sp + 2 * 8)); /* get the fieldinfo */ if (!(fi = resolve_field_eager(uf))) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch the field's offset */ if (IS_2_WORD_TYPE(fi->type) || IS_ADR_TYPE(fi->type)) { /* handle special case when the base register is %r12 */ if (*(ra + 2) == 0x84) { *((u4 *) (ra + 4)) = (u4) (fi->offset); *((u4 *) (ra + 12 + 4)) = (u4) (fi->offset + 4); } else { *((u4 *) (ra + 3)) = (u4) (fi->offset); *((u4 *) (ra + 11 + 3)) = (u4) (fi->offset + 4); } } else { /* handle special case when the base register is %r12 */ if (*(ra + 2) == 0x84) *((u4 *) (ra + 4)) = (u4) (fi->offset); else *((u4 *) (ra + 3)) = (u4) (fi->offset); } return true; } /* patcher_aconst ************************************************************** Machine code: 48 bf a0 f0 92 00 00 00 00 00 mov $0x92f0a0,%rdi *******************************************************************************/ bool patcher_aconst(u1 *sp) { u1 *ra; u8 mcode; constant_classref *cr; classinfo *c; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); cr = (constant_classref *) *((ptrint *) (sp + 2 * 8)); /* get the classinfo */ if (!(c = resolve_classref_eager(cr))) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch the classinfo pointer */ *((ptrint *) (ra + 2)) = (ptrint) c; return true; } /* patcher_builtin_multianewarray ********************************************** Machine code: 48 bf 02 00 00 00 00 00 00 00 mov $0x2,%rdi 48 be 30 40 b2 00 00 00 00 00 mov $0xb24030,%rsi 48 89 e2 mov %rsp,%rdx 48 b8 7c 96 4b 00 00 00 00 00 mov $0x4b967c,%rax 48 ff d0 callq *%rax *******************************************************************************/ bool patcher_builtin_multianewarray(u1 *sp) { u1 *ra; u8 mcode; constant_classref *cr; classinfo *c; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); cr = (constant_classref *) *((ptrint *) (sp + 2 * 8)); /* get the classinfo */ if (!(c = resolve_classref_eager(cr))) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch the classinfo pointer */ *((ptrint *) (ra + 10 + 2)) = (ptrint) c; return true; } /* patcher_builtin_arraycheckcast ********************************************** Machine code: 48 be b8 3f b2 00 00 00 00 00 mov $0xb23fb8,%rsi 48 b8 00 00 00 00 00 00 00 00 mov $0x0,%rax 48 ff d0 callq *%rax *******************************************************************************/ bool patcher_builtin_arraycheckcast(u1 *sp) { u1 *ra; u8 mcode; constant_classref *cr; classinfo *c; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); cr = (constant_classref *) *((ptrint *) (sp + 2 * 8)); /* get the classinfo */ if (!(c = resolve_classref_eager(cr))) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch the classinfo pointer */ *((ptrint *) (ra + 2)) = (ptrint) c; return true; } /* patcher_invokestatic_special ************************************************ Machine code: 49 ba 00 00 00 00 00 00 00 00 mov $0x0,%r10 49 ff d2 callq *%r10 *******************************************************************************/ bool patcher_invokestatic_special(u1 *sp) { u1 *ra; u8 mcode; unresolved_method *um; s4 disp; methodinfo *m; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); um = (unresolved_method *) *((ptrint *) (sp + 2 * 8)); disp = *((s4 *) (sp + 1 * 8)); /* get the fieldinfo */ if (!(m = resolve_method_eager(um))) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch stubroutine */ /* *((ptrint *) (ra + 2)) = (ptrint) m->stubroutine; */ *((ptrint *) (ra + 7 + disp)) = (ptrint) m->stubroutine; return true; } /* patcher_invokevirtual ******************************************************* Machine code: 4c 8b 17 mov (%rdi),%r10 49 8b 82 00 00 00 00 mov 0x0(%r10),%rax 48 ff d0 callq *%rax *******************************************************************************/ bool patcher_invokevirtual(u1 *sp) { u1 *ra; u8 mcode; unresolved_method *um; methodinfo *m; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); um = (unresolved_method *) *((ptrint *) (sp + 2 * 8)); /* get the fieldinfo */ if (!(m = resolve_method_eager(um))) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch vftbl index */ *((s4 *) (ra + 3 + 3)) = (s4) (OFFSET(vftbl_t, table[0]) + sizeof(methodptr) * m->vftblindex); return true; } /* patcher_invokeinterface ***************************************************** Machine code: 4c 8b 17 mov (%rdi),%r10 4d 8b 92 00 00 00 00 mov 0x0(%r10),%r10 49 8b 82 00 00 00 00 mov 0x0(%r10),%rax 48 ff d0 callq *%rax *******************************************************************************/ bool patcher_invokeinterface(u1 *sp) { u1 *ra; u8 mcode; unresolved_method *um; methodinfo *m; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); um = (unresolved_method *) *((ptrint *) (sp + 2 * 8)); /* get the fieldinfo */ if (!(m = resolve_method_eager(um))) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch interfacetable index */ *((s4 *) (ra + 3 + 3)) = (s4) (OFFSET(vftbl_t, interfacetable[0]) - sizeof(methodptr) * m->class->index); /* patch method offset */ *((s4 *) (ra + 3 + 7 + 3)) = (s4) (sizeof(methodptr) * (m - m->class->methods)); return true; } /* patcher_checkcast_instanceof_flags ****************************************** Machine code: 41 ba 00 00 00 00 mov $0x0,%r10d 41 81 e2 00 02 00 00 and $0x200,%r10d 0f 84 35 00 00 00 je 0x00002aaaaab01479 *******************************************************************************/ bool patcher_checkcast_instanceof_flags(u1 *sp) { u1 *ra; u8 mcode; constant_classref *cr; classinfo *c; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); cr = (constant_classref *) *((ptrint *) (sp + 2 * 8)); /* get the fieldinfo */ if (!(c = resolve_classref_eager(cr))) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch class flags */ *((s4 *) (ra + 2)) = (s4) c->flags; return true; } /* patcher_checkcast_instanceof_interface ************************************** Machine code: 45 8b 9a 1c 00 00 00 mov 0x1c(%r10),%r11d 49 81 eb 00 00 00 00 sub $0x0,%r11 4d 85 db test %r11,%r11 0f 8e 94 04 00 00 jle 0x00002aaaaab018f8 4d 8b 9a 00 00 00 00 mov 0x0(%r10),%r11 *******************************************************************************/ bool patcher_checkcast_instanceof_interface(u1 *sp) { u1 *ra; u8 mcode; constant_classref *cr; classinfo *c; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); cr = (constant_classref *) *((ptrint *) (sp + 2 * 8)); /* get the fieldinfo */ if (!(c = resolve_classref_eager(cr))) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch super class index */ *((s4 *) (ra + 7 + 3)) = (s4) c->index; *((s4 *) (ra + 7 + 7 + 3 + 6 + 3)) = (s4) (OFFSET(vftbl_t, interfacetable[0]) - c->index * sizeof(methodptr*)); return true; } /* patcher_checkcast_class ***************************************************** Machine code: 49 bb 00 00 00 00 00 00 00 00 mov $0x0,%r11 45 8b 92 20 00 00 00 mov 0x20(%r10),%r10d 45 8b 9b 20 00 00 00 mov 0x20(%r11),%r11d 4d 29 da sub %r11,%r10 49 bb 00 00 00 00 00 00 00 00 mov $0x0,%r11 *******************************************************************************/ bool patcher_checkcast_class(u1 *sp) { u1 *ra; u8 mcode; constant_classref *cr; classinfo *c; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); cr = (constant_classref *) *((ptrint *) (sp + 2 * 8)); /* get the fieldinfo */ if (!(c = resolve_classref_eager(cr))) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch super class' vftbl */ *((ptrint *) (ra + 2)) = (ptrint) c->vftbl; *((ptrint *) (ra + 10 + 7 + 7 + 3 + 2)) = (ptrint) c->vftbl; return true; } /* patcher_instanceof_class **************************************************** Machine code: 49 ba 00 00 00 00 00 00 00 00 mov $0x0,%r10 *******************************************************************************/ bool patcher_instanceof_class(u1 *sp) { u1 *ra; u8 mcode; constant_classref *cr; classinfo *c; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); cr = (constant_classref *) *((ptrint *) (sp + 2 * 8)); /* get the fieldinfo */ if (!(c = resolve_classref_eager(cr))) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch super class' vftbl */ *((ptrint *) (ra + 2)) = (ptrint) c->vftbl; return true; } /* patcher_clinit ************************************************************** May be used for GET/PUTSTATIC and in native stub. Machine code: 4d 8b 15 92 ff ff ff mov -110(%rip),%r10 49 89 1a mov %rbx,(%r10) *******************************************************************************/ bool patcher_clinit(u1 *sp) { u1 *ra; u8 mcode; classinfo *c; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); c = (classinfo *) *((ptrint *) (sp + 2 * 8)); /* check if the class is initialized */ if (!(c->state & CLASS_INITIALIZED)) if (!initialize_class(c)) return false; /* patch back original code */ *((u8 *) ra) = mcode; return true; } /* patcher_athrow_areturn ****************************************************** Machine code: *******************************************************************************/ #ifdef ENABLE_VERIFIER bool patcher_athrow_areturn(u1 *sp) { u1 *ra; u8 mcode; unresolved_class *uc; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); uc = (unresolved_class *) *((ptrint *) (sp + 2 * 8)); /* resolve the class and check subtype constraints */ if (!resolve_class_eager_no_access_check(uc)) return false; /* patch back original code */ *((u8 *) ra) = mcode; return true; } #endif /* ENABLE_VERIFIER */ /* patcher_resolve_native ****************************************************** Machine code: 48 b8 00 00 00 00 00 00 00 00 mov $0x0,%rax 48 ff d0 callq *%rax *******************************************************************************/ #if !defined(WITH_STATIC_CLASSPATH) bool patcher_resolve_native(u1 *sp) { u1 *ra; u8 mcode; methodinfo *m; functionptr f; /* get stuff from the stack */ ra = (u1 *) *((ptrint *) (sp + 5 * 8)); mcode = *((u8 *) (sp + 3 * 8)); m = (methodinfo *) *((ptrint *) (sp + 2 * 8)); /* resolve native function */ if (!(f = native_resolve_function(m))) return false; /* patch back original code */ *((u8 *) ra) = mcode; /* if we show disassembly, we have to skip the nop's */ if (opt_shownops) ra = ra + 5; /* patch native function pointer */ *((ptrint *) (ra + 2)) = (ptrint) f; return true; } #endif /* !defined(WITH_STATIC_CLASSPATH) */ /* * These are local overrides for various environment variables in Emacs. * Please do not remove this and leave it at the end of the file, where * Emacs will automagically detect them. * --------------------------------------------------------------------- * Local variables: * mode: c * indent-tabs-mode: t * c-basic-offset: 4 * tab-width: 4 * End: * vim:noexpandtab:sw=4:ts=4: */