/* src/vm/jit/powerpc/patcher.c - PowerPC code patching functions Copyright (C) 1996-2005, 2006, 2007, 2008 CACAOVM - Verein zur Foerderung der freien virtuellen Maschine CACAO Copyright (C) 2008 Theobroma Systems Ltd. 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. */ #include "config.h" #include #include #include "vm/types.h" #include "vm/jit/powerpc/md.h" #include "mm/memory.h" #include "native/native.hpp" #include "vm/jit/builtin.hpp" #include "vm/class.h" #include "vm/field.hpp" #include "vm/initialize.h" #include "vm/options.h" #include "vm/references.h" #include "vm/resolve.h" #include "vm/jit/asmpart.h" #include "vm/jit/methodheader.h" #include "vm/jit/patcher-common.hpp" /* patcher_patch_code ********************************************************** Just patches back the original machine code. *******************************************************************************/ void patcher_patch_code(patchref_t *pr) { // Patch back original code. *((uint32_t*) pr->mpc) = pr->mcode; // Synchronize instruction cache. md_icacheflush((void*) pr->mpc, 1 * 4); } /** * Check if the trap instruction at the given PC is valid. * * @param pc Program counter. * * @return true if valid, false otherwise. */ bool patcher_is_valid_trap_instruction_at(void* pc) { uint32_t mcode = *((uint32_t*) pc); // Check for the undefined instruction we use. return (mcode == 0x00000000); } /* patcher_resolve_classref_to_classinfo *************************************** ACONST: 806dffc4 lwz r3,-60(r13) 81adffc0 lwz r13,-64(r13) 7da903a6 mtctr r13 4e800421 bctrl MULTIANEWARRAY: 808dffc0 lwz r4,-64(r13) 38a10038 addi r5,r1,56 81adffbc lwz r13,-68(r13) 7da903a6 mtctr r13 4e800421 bctrl ARRAYCHECKCAST: 808dffd8 lwz r4,-40(r13) 81adffd4 lwz r13,-44(r13) 7da903a6 mtctr r13 4e800421 bctrl *******************************************************************************/ bool patcher_resolve_classref_to_classinfo(patchref_t *pr) { constant_classref * cr = (constant_classref*) pr->ref; uintptr_t* datap = (uintptr_t*) pr->datap; // Resolve the class. classinfo* c = resolve_classref_eager(cr); if (c == NULL) return false; // Patch the class pointer. *datap = (uintptr_t) c; // Synchronize data cache. md_dcacheflush(datap, SIZEOF_VOID_P); // Patch back the original code. patcher_patch_code(pr); return true; } /* patcher_resolve_classref_to_vftbl ******************************************* CHECKCAST (class): 81870000 lwz r12,0(r7) 800c0014 lwz r0,20(r12) 818dff78 lwz r12,-136(r13) INSTANCEOF (class): 817d0000 lwz r11,0(r29) 818dff8c lwz r12,-116(r13) *******************************************************************************/ bool patcher_resolve_classref_to_vftbl(patchref_t *pr) { constant_classref* cr = (constant_classref*) pr->ref; uintptr_t* datap = (uintptr_t*) pr->datap; // Resolve the class. classinfo* c = resolve_classref_eager(cr); if (c == NULL) return false; // Patch super class' vftbl. *datap = (uintptr_t) c->vftbl; // Synchronize data cache. md_dcacheflush(datap, SIZEOF_VOID_P); // Patch back the original code. patcher_patch_code(pr); return true; } /* patcher_resolve_classref_to_flags ******************************************* CHECKCAST/INSTANCEOF: 818dff7c lwz r12,-132(r13) *******************************************************************************/ bool patcher_resolve_classref_to_flags(patchref_t *pr) { constant_classref* cr = (constant_classref*) pr->ref; int32_t* datap = (int32_t*) pr->datap; // Resolve the class. classinfo* c = resolve_classref_eager(cr); if (c == NULL) return false; // Patch class flags. *datap = c->flags; // Synchronize data cache. md_dcacheflush(datap, SIZEOF_VOID_P); // Patch back the original code. patcher_patch_code(pr); return true; } /* patcher_get_putstatic ******************************************************* Machine code: 816dffc8 lwz r11,-56(r13) 80ab0000 lwz r5,0(r11) *******************************************************************************/ bool patcher_get_putstatic(patchref_t *pr) { unresolved_field* uf = (unresolved_field*) pr->ref; uintptr_t* datap = (uintptr_t*) pr->datap; // Resolve the field. fieldinfo* fi = resolve_field_eager(uf); if (fi == NULL) return false; // Check if the field's class is initialized. if (!(fi->clazz->state & CLASS_INITIALIZED)) if (!initialize_class(fi->clazz)) return false; // Patch the field value's address. *datap = (uintptr_t) fi->value; // Synchronize data cache. md_dcacheflush(datap, SIZEOF_VOID_P); // Patch back the original code. patcher_patch_code(pr); return true; } /* patcher_get_putfield ******************************************************** Machine code: 811f0014 lwz r8,20(r31) *******************************************************************************/ bool patcher_get_putfield(patchref_t *pr) { uint32_t* pc = (uint32_t*) pr->mpc; unresolved_field* uf = (unresolved_field*) pr->ref; // Resolve the field. fieldinfo* fi = resolve_field_eager(uf); if (fi == NULL) return false; // Patch the field's offset. if (IS_LNG_TYPE(fi->type)) { /* If the field has type long, we have to patch two instructions. But we have to check which instruction is first. We do that with the offset of the first instruction. */ uint32_t disp = (pr->mcode & 0x0000ffff); if (disp == 4) { pr->mcode &= 0xffff0000; pr->mcode |= ((fi->offset + 4) & 0x0000ffff); pc[1] |= ((fi->offset + 0) & 0x0000ffff); } else { pr->mcode |= ((fi->offset + 0) & 0x0000ffff); pc[1] &= 0xffff0000; pc[1] |= ((fi->offset + 4) & 0x0000ffff); } // Synchronize instruction cache. md_icacheflush(pc + 1, 1 * 4); } else { pr->mcode |= (fi->offset & 0x0000ffff); } // Patch back the original code. patcher_patch_code(pr); return true; } /* patcher_invokestatic_special ************************************************ Machine code: 81adffd8 lwz r13,-40(r13) 7da903a6 mtctr r13 4e800421 bctrl ******************************************************************************/ bool patcher_invokestatic_special(patchref_t *pr) { unresolved_method* um = (unresolved_method*) pr->ref; uintptr_t* datap = (uintptr_t*) pr->datap; // Resolve the method. methodinfo* m = resolve_method_eager(um); if (m == NULL) return false; // Patch stubroutine. *datap = (uintptr_t) m->stubroutine; // Synchronize data cache. md_dcacheflush(datap, SIZEOF_VOID_P); // Patch back the original code. patcher_patch_code(pr); return true; } /* patcher_invokevirtual ******************************************************* Machine code: 81830000 lwz r12,0(r3) 81ac0088 lwz r13,136(r12) 7da903a6 mtctr r13 4e800421 bctrl *******************************************************************************/ bool patcher_invokevirtual(patchref_t *pr) { uint32_t* pc = (uint32_t*) pr->mpc; unresolved_method* um = (unresolved_method*) pr->ref; // Resolve the method. methodinfo* m = resolve_method_eager(um); if (m == NULL) return false; // Patch vftbl index. int32_t disp = (OFFSET(vftbl_t, table[0]) + sizeof(methodptr) * m->vftblindex); pc[1] |= (disp & 0x0000ffff); // Synchronize instruction cache. md_icacheflush(pc + 1, 1 * 4); // Patch back the original code. patcher_patch_code(pr); return true; } /* patcher_invokeinterface ***************************************************** Machine code: 81830000 lwz r12,0(r3) 818cffd0 lwz r12,-48(r12) 81ac000c lwz r13,12(r12) 7da903a6 mtctr r13 4e800421 bctrl *******************************************************************************/ bool patcher_invokeinterface(patchref_t *pr) { uint32_t* pc = (uint32_t*) pr->mpc; unresolved_method* um = (unresolved_method*) pr->ref; // Resolve the method. methodinfo* m = resolve_method_eager(um); if (m == NULL) return false; // Patch interfacetable index. int32_t disp = OFFSET(vftbl_t, interfacetable[0]) - sizeof(methodptr*) * m->clazz->index; /* XXX TWISTI: check displacement */ pc[1] |= (disp & 0x0000ffff); // Patch method offset. disp = sizeof(methodptr) * (m - m->clazz->methods); /* XXX TWISTI: check displacement */ pc[2] |= (disp & 0x0000ffff); // Synchronize instruction cache. md_icacheflush(pc + 1, 2 * 4); // Patch back the original code. patcher_patch_code(pr); return true; } /* patcher_checkcast_interface ************************************************* Machine code: 81870000 lwz r12,0(r7) 800c0010 lwz r0,16(r12) 34000000 addic. r0,r0,0 41810008 bgt- 0x014135d8 83c00003 lwz r30,3(0) 800c0000 lwz r0,0(r12) *******************************************************************************/ bool patcher_checkcast_interface(patchref_t *pr) { uint32_t* pc = (uint32_t*) pr->mpc; constant_classref* cr = (constant_classref*) pr->ref; // Resolve the class. classinfo* c = resolve_classref_eager(cr); if (c == NULL) return false; // Patch super class index. int32_t disp = -(c->index); pc[2] |= (disp & 0x0000ffff); disp = OFFSET(vftbl_t, interfacetable[0]) - c->index * sizeof(methodptr*); pc[5] |= (disp & 0x0000ffff); // Synchronize instruction cache. md_icacheflush(pc + 2, 4 * 4); // Patch back the original code. patcher_patch_code(pr); return true; } /* patcher_instanceof_interface ************************************************ Machine code: 81870000 lwz r12,0(r7) 800c0010 lwz r0,16(r12) 34000000 addic. r0,r0,0 41810008 bgt- 0x014135d8 83c00003 lwz r30,3(0) 800c0000 lwz r0,0(r12) *******************************************************************************/ bool patcher_instanceof_interface(patchref_t *pr) { uint32_t* pc = (uint32_t*) pr->mpc; constant_classref* cr = (constant_classref*) pr->ref; // Resolve the class. classinfo* c = resolve_classref_eager(cr); if (c == NULL) return false; // Patch super class index. int32_t disp = -(c->index); pc[2] |= (disp & 0x0000ffff); disp = OFFSET(vftbl_t, interfacetable[0]) - c->index * sizeof(methodptr*); pc[4] |= (disp & 0x0000ffff); // Synchronize instruction cache. md_icacheflush(pc + 2, 3 * 4); // Patch back the original code. patcher_patch_code(pr); return true; } /* * 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: */