Example #1
0
instrlist_t*
instrlist_clone(dcontext_t *dcontext, instrlist_t *old)
{
    instr_t *inst, *copy;
    instrlist_t *newlist = instrlist_create(dcontext);

    inst = instrlist_first(old);
    while (inst != NULL) {
        copy = instr_clone(dcontext, inst);
        /* to copy instr targets we temporarily clobber note field */
        instr_set_note(inst, (void *)copy);
        instrlist_append(newlist, copy);
        inst = instr_get_next(inst);
    }

    /* Fix up instr src if it is an instr and restore note field */
    /* Note: we do not allows instruction update code cache,
     * which is very dangerous.
     * So we do not support instr as dst opnd and won't fix up here if any.
     */
    for (inst = instrlist_first(old), copy = instrlist_first(newlist);
            inst != NULL && copy != NULL;
            inst = instr_get_next(inst), copy = instr_get_next(copy)) {
        int i;
        for (i = 0; i < inst->num_srcs; i++) {
            instr_t *tgt;
            opnd_t   op = instr_get_src(copy, i);
            if (!opnd_is_instr(op))
                continue;
            CLIENT_ASSERT(opnd_get_instr(op) != NULL,
                          "instrlist_clone: NULL instr operand");
            tgt = (instr_t *) instr_get_note(opnd_get_instr(op));
            CLIENT_ASSERT(tgt != NULL,
                          "instrlist_clone: operand instr not in instrlist");
            if (opnd_is_far_instr(op)) {
                instr_set_src(copy, i,
                              opnd_create_far_instr
                              (opnd_get_segment_selector(op), tgt));
            } else
                instr_set_src(copy, i,
                              opnd_create_instr(tgt));
        }
    }
    for (inst = instrlist_first(old), copy = instrlist_first(newlist);
            inst != NULL && copy != NULL;
            inst = instr_get_next(inst), copy = instr_get_next(copy)) {
        /* restore note field */
        instr_set_note(inst, instr_get_note(copy));
    }
#ifdef CLIENT_INTERFACE
    newlist->fall_through_bb = old->fall_through_bb;
#endif
    return newlist;
}
Example #2
0
void
cfi_call_instrumentation_snapahot(void *dcontext, instrlist_t *ilist, instr_t *where, void *callee)
{
    uint dstack_offs = 0, pad = 0;

    unsigned int eflags_offs;

    CFI_ASSERT(dcontext != NULL, "cfi_call_instrumentation_snapahot: dcontext cannot be NULL");

    instr_t *next_snapshot = INSTR_CREATE_label(dcontext);
    PRE(ilist, where, INSTR_CREATE_pushf(dcontext));
    dstack_offs += XSP_SZ;
    eflags_offs = dstack_offs;

    PRE(ilist, where, INSTR_CREATE_push(dcontext, opnd_create_reg(DR_REG_RDI)));
    dstack_offs += XSP_SZ;

    PRE(ilist, where, INSTR_CREATE_mov_imm(dcontext, opnd_create_reg(DR_REG_RDI), OPND_CREATE_INT64(&flag_memory_snapshot)));
    PRE(ilist, where, INSTR_CREATE_mov_ld(dcontext, opnd_create_reg(DR_REG_RDI), opnd_create_base_disp(DR_REG_RDI, DR_REG_NULL, 0, 0, OPSZ_PTR)));
    PRE(ilist, where, INSTR_CREATE_cmp(dcontext, opnd_create_reg(DR_REG_RDI), OPND_CREATE_INT8(0x0)));
    PRE(ilist, where, INSTR_CREATE_jcc(dcontext, OP_je, opnd_create_instr(next_snapshot)));

    PRE(ilist, where, INSTR_CREATE_push(dcontext,
                          opnd_create_base_disp(DR_REG_RSP, DR_REG_NULL, 0,
                          dstack_offs - eflags_offs, OPSZ_STACK)));

    PRE(ilist, where, INSTR_CREATE_and(dcontext,
                         opnd_create_base_disp(DR_REG_RSP, DR_REG_NULL, 0, 0,
                                               OPSZ_STACK),
                         OPND_CREATE_INT32(~(EFLAGS_NON_SYSTEM | EFLAGS_IF))));

    PRE(ilist, where, INSTR_CREATE_popf(dcontext));

    instrlist_set_our_mangling(ilist, true);
    cfi_insert_meta_native_call_vargs(dcontext, ilist, where, true/*clean*/, callee);
    instrlist_set_our_mangling(ilist, false);

    cfi_insert_native_call(dcontext, ilist, where, callee /*, opnd_create_reg(DR_REG_RAX)*/);

    PRE(ilist, where, next_snapshot);
    PRE(ilist, where, INSTR_CREATE_pop(dcontext, opnd_create_reg(DR_REG_RDI)));
    PRE(ilist, where, INSTR_CREATE_popf(dcontext));



   /* dstack_offs = cfi_prepare_for_native_call(dcontext, ilist, where);

     instrlist_set_our_mangling(ilist, true);
     cfi_insert_meta_native_call_vargs(dcontext, ilist, where, true*//*clean*//*, callee);
     instrlist_set_our_mangling(ilist, false);

     cfi_cleanup_after_native_call(dcontext, ilist, where);*/
}
Example #3
0
static dr_emit_flags_t
event_bb(void *dc, void *tag, instrlist_t *bb, bool for_trace, bool translating)
{
    instr_t *where = instrlist_first(bb);
    instr_t *ret_label = INSTR_CREATE_label(dc);
    dr_save_reg(dc, bb, where, DR_REG_XAX, SPILL_SLOT_1);
    PRE(bb, where, INSTR_CREATE_mov_imm(dc, opnd_create_reg(DR_REG_XAX),
                                        opnd_create_instr(ret_label)));
    PRE(bb, where, INSTR_CREATE_jmp(dc, opnd_create_pc(slowpath)));
    PRE(bb, where, ret_label);
    dr_restore_reg(dc, bb, where, DR_REG_XAX, SPILL_SLOT_1);
    return DR_EMIT_DEFAULT;
}
Example #4
0
static dr_emit_flags_t
bb_event(void *drcontext, void *tag, instrlist_t *bb, bool for_trace, bool translating)
{
    instr_t *instr, *next_instr;
    
    for (instr = instrlist_first(bb); instr != NULL; instr = next_instr) {
        next_instr = instr_get_next(instr);

        if (instr_is_cbr(instr)) {
            /* Conditional branch.  We can determine the target and
             * fallthrough addresses here, but we want to note the
             * edge if and when it actually executes at runtime.
             * Instead of using dr_insert_cbr_instrumentation(), we'll
             * insert separate instrumentation for the taken and not
             * taken cases and remove the instrumentation for an edge
             * after it executes.
             */
            cbr_state_t state;
            bool insert_taken, insert_not_taken;
            app_pc src = instr_get_app_pc(instr);
            
            /* First look up the state of this branch so we
             * know what instrumentation to insert, if any.
             */
            elem_t *elem = lookup(table, src);
            
            if (elem == NULL) {
                state = CBR_NEITHER;
                insert(table, src, CBR_NEITHER);
            }
            else {
                state = elem->state;
            }
            
            insert_taken = (state & CBR_TAKEN) == 0;
            insert_not_taken = (state & CBR_NOT_TAKEN) == 0;
            
            if (insert_taken || insert_not_taken) {
                app_pc fall = (app_pc)decode_next_pc(drcontext, (byte *)src);
                app_pc targ = instr_get_branch_target_pc(instr);
                
                /* Redirect the existing cbr to jump to a callout for
                 * the 'taken' case.  We'll insert a 'not-taken'
                 * callout at the fallthrough address.
                 */
                instr_t *label = INSTR_CREATE_label(drcontext);
                /* should be meta, and meta-instrs shouldn't have translations */
                instr_set_meta_no_translation(instr);
                /* it may not reach (in particular for x64) w/ our added clean call */
                if (instr_is_cti_short(instr)) {
                    /* if jecxz/loop we want to set the target of the long-taken
                     * so set instr to the return value
                     */
                    instr = instr_convert_short_meta_jmp_to_long(drcontext, bb, instr);
                }
                instr_set_target(instr, opnd_create_instr(label));
                
                if (insert_not_taken) {
                    /* Callout for the not-taken case.  Insert after
                     * the cbr (i.e., 3rd argument is NULL). 
                     */
                    dr_insert_clean_call(drcontext, bb, NULL, 
                                         (void*)at_not_taken,
                                         false /* don't save fp state */, 
                                         2 /* 2 args for at_not_taken */,
                                         OPND_CREATE_INTPTR(src),
                                         OPND_CREATE_INTPTR(fall));
                }
                
                /* After the callout, jump to the original fallthrough
                 * address.  Note that this is an exit cti, and should
                 * not be a meta-instruction.  Therefore, we use
                 * preinsert instead of meta_preinsert, and we must
                 * set the translation field.  On Windows, this jump
                 * and the final jump below never execute since the
                 * at_taken and at_not_taken callouts redirect
                 * execution and never return.  However, since the API
                 * expects clients to produced well-formed code, we
                 * insert explicit exits from the block for Windows as
                 * well as Linux.
                 */
                instrlist_preinsert(bb, NULL,
                                    INSTR_XL8(INSTR_CREATE_jmp
                                              (drcontext, opnd_create_pc(fall)), fall));
                
                /* label goes before the 'taken' callout */
                MINSERT(bb, NULL, label);
                
                if (insert_taken) {
                    /* Callout for the taken case */
                    dr_insert_clean_call(drcontext, bb, NULL,
                                         (void*)at_taken,
                                         false /* don't save fp state */,
                                         2 /* 2 args for at_taken */,
                                         OPND_CREATE_INTPTR(src),
                                         OPND_CREATE_INTPTR(targ));
                }
                
                /* After the callout, jump to the original target
                 * block (this should not be a meta-instruction).
                 */
                instrlist_preinsert(bb, NULL,
                                    INSTR_XL8(INSTR_CREATE_jmp
                                              (drcontext, opnd_create_pc(targ)), targ));
            }
        }
    }
    /* since our added instrumentation is not constant, we ask to store
     * translations now
     */
    return DR_EMIT_STORE_TRANSLATIONS;
}
Example #5
0
static void dynamic_info_instrumentation(void *drcontext, instrlist_t *ilist, instr_t *where,
               instr_t * static_info)
{


	/* 
		issues that may arise
		1. pc and eflags is uint but in 64 bit mode 8 byte transfers are done -> so far no problem (need to see this)
			need to see whether there is a better way
		2. double check all the printing
	*/

	/*
		this function does the acutal instrumentation

		arguments - 

		we get a filled pointer here about the operand types for a given instruction (srcs and dests)
		1) increment the pointer to the instr_trace buffers
		2) add this pointer to instr_trace_t wrapper
		3) check whether any of the srcs and dests have memory operations; if so add a lea instruction and get the dynamic address
			Add this address to instr_trace_t structure
		4) if the buffer is full call a function to dump it to the file and restore the head ptr of the buffer 
			(lean function is used utilizing a code cache to limit code bloat needed for a clean call before every instruction.)
	*/

    instr_t *instr, *call, *restore, *first, *second;
    opnd_t   ref, opnd1, opnd2;
    reg_id_t reg1 = DR_REG_XBX; /* We can optimize it by picking dead reg */
    reg_id_t reg2 = DR_REG_XCX; /* reg2 must be ECX or RCX for jecxz */
	reg_id_t reg3 = DR_REG_XAX;
    per_thread_t *data;
    uint pc;
	uint i;

	module_data_t * module_data;

	if (client_arg->instrace_mode == DISASSEMBLY_TRACE){
		dr_insert_clean_call(drcontext, ilist, where, clean_call_disassembly_trace, false, 0);
		return;
	}

    data = drmgr_get_tls_field(drcontext, tls_index);

    /* Steal the register for memory reference address *
     * We can optimize away the unnecessary register save and restore
     * by analyzing the code and finding the register is dead.
     */

    dr_save_reg(drcontext, ilist, where, reg1, SPILL_SLOT_2);
    dr_save_reg(drcontext, ilist, where, reg2, SPILL_SLOT_3);
	dr_save_reg(drcontext, ilist, where, reg3, SPILL_SLOT_4);

	
	drmgr_insert_read_tls_field(drcontext, tls_index, ilist, where, reg2);

    /* Load data->buf_ptr into reg2 */
    opnd1 = opnd_create_reg(reg2);
    opnd2 = OPND_CREATE_MEMPTR(reg2, offsetof(per_thread_t, buf_ptr));
    instr = INSTR_CREATE_mov_ld(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);


	/* buf_ptr->static_info_instr = static_info; */
    /* Move static_info to static_info_instr field of buf (which is a instr_trace_t *) */
    opnd1 = OPND_CREATE_MEMPTR(reg2, offsetof(instr_trace_t, static_info_instr));
	instrlist_insert_mov_immed_ptrsz(drcontext, (ptr_int_t)static_info, opnd1, ilist, where, &first, &second);

	/* buf_ptr->num_mem = 0; */
    opnd1 = OPND_CREATE_MEMPTR(reg2, offsetof(instr_trace_t, num_mem));
    
	instrlist_insert_mov_immed_ptrsz(drcontext, (ptr_int_t)0, opnd1, ilist, where, &first, &second);

	for (i = 0; i<instr_num_dsts(where); i++){
		if (opnd_is_memory_reference(instr_get_dst(where, i))){
			ref = instr_get_dst(where, i);

			DR_ASSERT(opnd_is_null(ref) == false);


			dr_restore_reg(drcontext, ilist, where, reg1, SPILL_SLOT_2);
			dr_restore_reg(drcontext, ilist, where, reg2, SPILL_SLOT_3);

#ifdef DEBUG_MEM_REGS
			dr_insert_clean_call(drcontext, ilist, where, clean_call_disassembly_trace, false, 0);
			dr_insert_clean_call(drcontext, ilist, where, clean_call_print_regvalues, false, 0);
#endif
			
			drutil_insert_get_mem_addr(drcontext, ilist, where, ref, reg1, reg2);

#ifdef DEBUG_MEM_REGS
			dr_insert_clean_call(drcontext, ilist, where, clean_call_print_regvalues, false, 0);
#endif

#ifdef DEBUG_MEM_STATS
			dr_insert_clean_call(drcontext, ilist, where, clean_call_disassembly_trace, false, 0);
			dr_insert_clean_call(drcontext, ilist, where, clean_call_mem_stats, false, 1, opnd_create_reg(reg1));
#endif

			dr_insert_clean_call(drcontext, ilist, where, clean_call_populate_mem, false, 3, opnd_create_reg(reg1), OPND_CREATE_INT32(i), OPND_CREATE_INT32(DST_TYPE));

		}
	}

	for (i = 0; i<instr_num_srcs(where); i++){
		if (opnd_is_memory_reference(instr_get_src(where, i))){
			ref = instr_get_src(where, i);

			DR_ASSERT(opnd_is_null(ref) == false);			
			
			dr_restore_reg(drcontext, ilist, where, reg1, SPILL_SLOT_2);
			dr_restore_reg(drcontext, ilist, where, reg2, SPILL_SLOT_3);

#ifdef DEBUG_MEM_REGS
			dr_insert_clean_call(drcontext, ilist, where, clean_call_disassembly_trace, false, 0);
			dr_insert_clean_call(drcontext, ilist, where, clean_call_print_regvalues, false, 0);
#endif

			drutil_insert_get_mem_addr(drcontext, ilist, where, ref, reg1, reg2);

#ifdef DEBUG_MEM_REGS

			dr_insert_clean_call(drcontext, ilist, where, clean_call_print_regvalues, false, 0);
#endif

#ifdef DEBUG_MEM_STATS
			dr_insert_clean_call(drcontext, ilist, where, clean_call_disassembly_trace, false, 0);
			dr_insert_clean_call(drcontext, ilist, where, clean_call_mem_stats, false, 1, opnd_create_reg(reg1));
#endif

			dr_insert_clean_call(drcontext, ilist, where, clean_call_populate_mem, false, 3, opnd_create_reg(reg1), OPND_CREATE_INT32(i), OPND_CREATE_INT32(SRC_TYPE));

		}
	}
	

	

	drmgr_insert_read_tls_field(drcontext, tls_index, ilist, where, reg2);
    /* Load data->buf_ptr into reg2 */
    opnd1 = opnd_create_reg(reg2);
    opnd2 = OPND_CREATE_MEMPTR(reg2, offsetof(per_thread_t, buf_ptr));
    instr = INSTR_CREATE_mov_ld(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

	/* arithmetic flags are saved here for buf_ptr->eflags filling */
	dr_save_arith_flags_to_xax(drcontext, ilist, where);

	/* load the eflags */
	opnd1 = OPND_CREATE_MEMPTR(reg2, offsetof(instr_trace_t, eflags));
	opnd2 = opnd_create_reg(reg3);
    instr = INSTR_CREATE_mov_st(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);


	/* load the app_pc */
	opnd1 = OPND_CREATE_MEMPTR(reg2, offsetof(instr_trace_t, pc));
	module_data = dr_lookup_module(instr_get_app_pc(where));

	//dynamically generated code - module information not available - then just store 0 at the pc slot of the instr_trace data
	if (module_data != NULL){
		pc = instr_get_app_pc(where) - module_data->start;
		dr_free_module_data(module_data);
	}
	else{
		pc = 0;
	}

	instrlist_insert_mov_immed_ptrsz(drcontext, (ptr_int_t)pc, opnd1, ilist, where, &first, &second);



	/* buf_ptr++; */
    /* Increment reg value by pointer size using lea instr */
    opnd1 = opnd_create_reg(reg2);
    opnd2 = opnd_create_base_disp(reg2, DR_REG_NULL, 0,
                                  sizeof(instr_trace_t),
                                  OPSZ_lea);
    instr = INSTR_CREATE_lea(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* Update the data->buf_ptr */
    drmgr_insert_read_tls_field(drcontext, tls_index, ilist, where, reg1);
    opnd1 = OPND_CREATE_MEMPTR(reg1, offsetof(per_thread_t, buf_ptr));
    opnd2 = opnd_create_reg(reg2);
    instr = INSTR_CREATE_mov_st(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* we use lea + jecxz trick for better performance
     * lea and jecxz won't disturb the eflags, so we won't insert
     * code to save and restore application's eflags.
     */
    /* lea [reg2 - buf_end] => reg2 */
    opnd1 = opnd_create_reg(reg1);
    opnd2 = OPND_CREATE_MEMPTR(reg1, offsetof(per_thread_t, buf_end));
    instr = INSTR_CREATE_mov_ld(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);
    opnd1 = opnd_create_reg(reg2);
    opnd2 = opnd_create_base_disp(reg1, reg2, 1, 0, OPSZ_lea);
    instr = INSTR_CREATE_lea(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* jecxz call */
    call  = INSTR_CREATE_label(drcontext);
    opnd1 = opnd_create_instr(call);
    instr = INSTR_CREATE_jecxz(drcontext, opnd1);
    instrlist_meta_preinsert(ilist, where, instr);

    /* jump restore to skip clean call */
    restore = INSTR_CREATE_label(drcontext);
    opnd1 = opnd_create_instr(restore);
    instr = INSTR_CREATE_jmp(drcontext, opnd1);
    instrlist_meta_preinsert(ilist, where, instr);

    /* clean call */
    /* We jump to lean procedure which performs full context switch and
     * clean call invocation. This is to reduce the code cache size.
     */
    instrlist_meta_preinsert(ilist, where, call);
    /* mov restore DR_REG_XCX */
    opnd1 = opnd_create_reg(reg2);
    /* this is the return address for jumping back from lean procedure */
    opnd2 = opnd_create_instr(restore);
    /* We could use instrlist_insert_mov_instr_addr(), but with a register
     * destination we know we can use a 64-bit immediate.
     */
    instr = INSTR_CREATE_mov_imm(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);
    /* jmp code_cache */
    opnd1 = opnd_create_pc(code_cache);
    instr = INSTR_CREATE_jmp(drcontext, opnd1);
    instrlist_meta_preinsert(ilist, where, instr);

    /* restore %reg */
    instrlist_meta_preinsert(ilist, where, restore);

	//dr_restore_arith_flags_from_xax(drcontext, ilist, where);
    dr_restore_reg(drcontext, ilist, where, reg1, SPILL_SLOT_2);
    dr_restore_reg(drcontext, ilist, where, reg2, SPILL_SLOT_3);
	dr_restore_reg(drcontext, ilist, where, reg3, SPILL_SLOT_4);

	//instrlist_disassemble(drcontext, instr_get_app_pc(instrlist_first(ilist)), ilist, logfile);

}
Example #6
0
dr_emit_flags_t
bb_event(void *drcontext, void *tag, instrlist_t *bb, bool for_trace, bool translating)
{
    instr_t *instr, *next_instr;

    app_pc bb_addr = dr_fragment_app_pc(tag);
    if (bb_addr == start_pc) {
        instrument = true;
    } else if (bb_addr == stop_pc) {
        instrument = false;
    }

    if (!instrument) {
        return DR_EMIT_DEFAULT;
    }

    for (instr = instrlist_first(bb); instr != NULL; instr = next_instr) {
        next_instr = instr_get_next(instr);

        /*
         * Conditional branch. We can determine the target and
         * fallthrough addresses here, but we need to instrument if we
         * want to record the edge only if it actually executes at
         * runtime. Instead of using dr_insert_cbr_instrumentation,
         * we'll insert separate instrumentation for the taken and not
         * taken cases and remove it separately after we see each
         * case.
         */
        if (instr_is_cbr(instr)) {
            app_pc src = instr_get_app_pc(instr);

            cbr_state_t state;
            bool insert_taken, insert_not_taken;

            /* First look up the state of this branch so we
             * know what instrumentation to insert, if any.
             */
            elem_t *elem = lookup(table, src);

            if (elem == NULL) {
                state = CBR_NONE;
                insert(table, src, CBR_NONE);
            } else {
                state = elem->state;
            }

            insert_taken = (state & CBR_TAKEN) == 0;
            insert_not_taken = (state & CBR_NOT_TAKEN) == 0;

            if (insert_taken || insert_not_taken) {
                app_pc fall = (app_pc)decode_next_pc(drcontext, (byte *)src);
                app_pc targ = instr_get_branch_target_pc(instr);

                /*
                 * Redirect the cbr to jump to the 'taken' callout.
                 * We'll insert a 'not-taken' callout at fallthrough
                 * address.
                 */
                instr_t *label = INSTR_CREATE_label(drcontext);
                instr_set_meta(instr);
                instr_set_translation(instr, NULL);
                /* If this is a short cti, make sure it can reach its new target */
                if (instr_is_cti_short(instr)) {
                    /* if jecxz/loop we want to set the target of the long-taken
                     * so set instr to the return value
                     */
                    instr = instr_convert_short_meta_jmp_to_long(drcontext, bb, instr);
                }
                instr_set_target(instr, opnd_create_instr(label));

                if (insert_not_taken) {
                    /*
                     * Callout for the not-taken case
                     */
                    dr_insert_clean_call(drcontext, bb, NULL, (void *)at_not_taken,
                                         false /* don't save fp state */,
                                         2 /* 2 args for at_not_taken */,
                                         OPND_CREATE_INTPTR((ptr_uint_t)src),
                                         OPND_CREATE_INTPTR((ptr_uint_t)fall));
                }

                /*
                 * Jump to the original fall-through address.
                 * (This should not be a meta-instruction).
                 */
                instrlist_preinsert(
                    bb, NULL,
                    INSTR_XL8(INSTR_CREATE_jmp(drcontext, opnd_create_pc(fall)), fall));

                /* label goes before the 'taken' callout */
                MINSERT(bb, NULL, label);

                if (insert_taken) {
                    /*
                     * Callout for the taken case
                     */
                    dr_insert_clean_call(drcontext, bb, NULL, (void *)at_taken,
                                         false /* don't save fp state */,
                                         2 /* 2 args for at_taken */,
                                         OPND_CREATE_INTPTR((ptr_uint_t)src),
                                         OPND_CREATE_INTPTR((ptr_uint_t)targ));
                }

                /*
                 * Jump to the original target block (this should
                 * not be a meta-instruction).
                 */
                instrlist_preinsert(
                    bb, NULL,
                    INSTR_XL8(INSTR_CREATE_jmp(drcontext, opnd_create_pc(targ)), targ));
            }
        }
    }
    /* since our added instrumentation is not constant, we ask to store
     * translations now
     */
    return DR_EMIT_STORE_TRANSLATIONS;
}
Example #7
0
void
test_dr_insert_it_instrs_cbr(void *dcontext)
{
    instrlist_t *ilist = instrlist_create(dcontext);
    instr_t *where = INSTR_CREATE_label(dcontext);

    instr_t *instr_it1, *instr_it2, *instr_it3;
    byte buffer[4096];

    instrlist_append(ilist, where);
    instrlist_preinsert(ilist, where, XINST_CREATE_move
            (dcontext,
             opnd_create_reg(DR_REG_R1),
             opnd_create_reg(DR_REG_R2)));
    instrlist_preinsert(ilist, where, XINST_CREATE_jump
            (dcontext,
             opnd_create_instr(where)));
    instrlist_preinsert(ilist, where, XINST_CREATE_move
            (dcontext,
             opnd_create_reg(DR_REG_R1),
             opnd_create_reg(DR_REG_R2)));
    instrlist_preinsert(ilist, where, XINST_CREATE_move
            (dcontext,
             opnd_create_reg(DR_REG_R1),
             opnd_create_reg(DR_REG_R2)));
    instrlist_preinsert(ilist, where, XINST_CREATE_jump
            (dcontext,
             opnd_create_instr(where)));
    instrlist_preinsert(ilist, where, XINST_CREATE_move
            (dcontext,
             opnd_create_reg(DR_REG_R1),
             opnd_create_reg(DR_REG_R2)));
    instrlist_preinsert(ilist, where, XINST_CREATE_move
            (dcontext,
             opnd_create_reg(DR_REG_R1),
             opnd_create_reg(DR_REG_R2)));
    instrlist_preinsert(ilist, where, XINST_CREATE_move
            (dcontext,
             opnd_create_reg(DR_REG_R1),
             opnd_create_reg(DR_REG_R2)));
    instrlist_preinsert(ilist, where, XINST_CREATE_jump
            (dcontext,
             opnd_create_instr(where)));
    /* set them all to be predicated and reinstate it instrs */
    for (where = instrlist_first(ilist); where; where = instr_get_next(where)) {
        bool ok = instr_set_isa_mode(where, DR_ISA_ARM_THUMB);
        DR_ASSERT(ok);
        instr_set_predicate(where, DR_PRED_LS);
    }
    dr_insert_it_instrs(dcontext, ilist);

    /* Make sure it was encoded properly, noting that the branches
     * should *not* be in any IT-block.
     *  it
     *  mov.ls r1, r2
     *  b.ls   @0x47366864
     *  itt
     *  mov.ls r1, r2
     *  mov.ls r1, r2
     *  b.ls   @0x47366864
     *  ittt
     *  mov.ls r1, r2
     *  mov.ls r1, r2
     *  mov.ls r1, r2
     *  b.ls   @0x47366864
     */
    instr_it1 = instrlist_first(ilist);
    instr_it2 = instr_get_next(instr_get_next(instr_get_next(instr_it1)));
    instr_it3 = instr_get_next(instr_get_next(instr_get_next(instr_get_next(instr_it2))));
    DR_ASSERT(instr_get_opcode(instr_it1) == OP_it);
    DR_ASSERT(instr_it_block_get_count(instr_it1) == 1);
    DR_ASSERT(instr_get_opcode(instr_it2) == OP_it);
    DR_ASSERT(instr_it_block_get_count(instr_it2) == 2);
    DR_ASSERT(instr_get_opcode(instr_it3) == OP_it);
    DR_ASSERT(instr_it_block_get_count(instr_it3) == 3);
    instrlist_encode(dcontext, ilist, buffer, true);
}
Example #8
0
void
watchpoint_indirect_call_event(dcontext_t *drcontext, instrlist_t *ilist, instr_t *instr,
                     instr_t *next_instr, bool mangle_calls, uint flags)
{
    opnd_t instr_opnd;
    reg_id_t base_reg;
    unsigned long used_registers = 0;
    app_pc pc;
    struct memory_operand_modifier ops = {0};

    instr_t *begin_instrumenting = INSTR_CREATE_label(drcontext);
    instr_t *done_instrumenting = INSTR_CREATE_label(drcontext);
    instr_t *nop = INSTR_CREATE_nop(drcontext);
    instr_t *emulated;


    memset(&ops, 0, sizeof(struct memory_operand_modifier));

    if(instr_reads_memory(instr)) {
        instr_opnd = instr_get_src(instr, 0);
        if (opnd_is_rel_addr(instr_opnd) || opnd_is_abs_addr(instr_opnd)) {

        }else if (opnd_is_base_disp(instr_opnd)) {

            for_each_src_operand(instr, &ops, (opnd_callback_t *) memory_src_operand_finder);
           // base_reg = opnd_get_reg(instr_opnd);

            switch(ops.found_operand.value.base_disp.base_reg) {
                case DR_REG_RSP: case DR_REG_ESP: case DR_REG_SP:
                case DR_REG_RBP: case DR_REG_EBP: case DR_REG_BP:
                    return;
                default:
                  break;
            }

            collect_regs(&used_registers, instr, instr_num_srcs, instr_get_src );
            collect_regs(&used_registers, instr, instr_num_dsts, instr_get_dst );

            reg_id_t reg_watched_addr = get_next_free_reg(&used_registers);
            opnd_t opnd_watched_addr = opnd_create_reg(reg_watched_addr);

            reg_id_t reg_unwatched_addr = get_next_free_reg(&used_registers);
            opnd_t opnd_unwatched_addr = opnd_create_reg(reg_unwatched_addr);

            PRE(ilist, instr, begin_instrumenting);
            PRE(ilist, instr, INSTR_CREATE_push(drcontext, opnd_watched_addr));
            PRE(ilist, instr, INSTR_CREATE_push(drcontext, opnd_unwatched_addr));
            PRE(ilist, instr, INSTR_CREATE_pushf(drcontext));
            PRE(ilist, instr, INSTR_CREATE_lea(drcontext, opnd_watched_addr, opnd_create_base_disp(opnd_get_base(ops.found_operand),
                                                        opnd_get_index(ops.found_operand), opnd_get_scale(ops.found_operand),
                                                        opnd_get_disp(ops.found_operand), OPSZ_lea)));

            PRE(ilist, instr, INSTR_CREATE_mov_imm(drcontext, opnd_unwatched_addr,
                                            OPND_CREATE_INT64(WATCHPOINT_INDEX_MASK)));
            PRE(ilist, instr, INSTR_CREATE_or(drcontext, opnd_unwatched_addr, opnd_watched_addr));

            emulated = instr_clone(drcontext, instr);
            emulated->translation = 0;

            ops.replacement_operand = opnd_create_base_disp(
                    reg_unwatched_addr, DR_REG_NULL,1, 0 , ops.found_operand.size);

            for_each_operand(emulated, &ops, (opnd_callback_t *) memory_operand_replacer);

            PRE(ilist, instr, INSTR_CREATE_popf(drcontext));
            PRE(ilist, instr, emulated);
            PRE(ilist, instr, INSTR_CREATE_pop(drcontext, opnd_unwatched_addr));
            PRE(ilist, instr, INSTR_CREATE_pop(drcontext, opnd_watched_addr));

            PRE(ilist, instr, INSTR_CREATE_jmp_short(drcontext,
                    opnd_create_instr(done_instrumenting)));

            pc = instr->translation;
            instr->translation = 0; // hack!
            instr_being_modified(instr, false);
            instr_set_ok_to_mangle(instr, false);

            if(NULL != pc){
                nop->translation = pc + instr->length;
            }
            POST(ilist, instr, nop);
            POST(ilist, instr, done_instrumenting);

        }
    }
}
Example #9
0
/* instrument_instr is called whenever a memory reference is identified.
 * It inserts code before the memory reference to to fill the memory buffer
 * and jump to our own code cache to call the clean_call when the buffer is full.
 */
static void
instrument_instr(void *drcontext, instrlist_t *ilist, instr_t *where)
{
    instr_t *instr, *call, *restore;
    opnd_t   opnd1, opnd2;
    reg_id_t reg1, reg2;
    drvector_t allowed;
    per_thread_t *data;
    app_pc pc;

    data = drmgr_get_tls_field(drcontext, tls_index);

    /* Steal two scratch registers.
     * reg2 must be ECX or RCX for jecxz.
     */
    drreg_init_and_fill_vector(&allowed, false);
    drreg_set_vector_entry(&allowed, DR_REG_XCX, true);
    if (drreg_reserve_register(drcontext, ilist, where, &allowed, &reg2) !=
        DRREG_SUCCESS ||
        drreg_reserve_register(drcontext, ilist, where, NULL, &reg1) != DRREG_SUCCESS) {
        DR_ASSERT(false); /* cannot recover */
        drvector_delete(&allowed);
        return;
    }
    drvector_delete(&allowed);

    /* The following assembly performs the following instructions
     * buf_ptr->pc = pc;
     * buf_ptr->opcode = opcode;
     * buf_ptr++;
     * if (buf_ptr >= buf_end_ptr)
     *    clean_call();
     */
    drmgr_insert_read_tls_field(drcontext, tls_index, ilist, where, reg2);
    /* Load data->buf_ptr into reg2 */
    opnd1 = opnd_create_reg(reg2);
    opnd2 = OPND_CREATE_MEMPTR(reg2, offsetof(per_thread_t, buf_ptr));
    instr = INSTR_CREATE_mov_ld(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* Store pc */
    pc = instr_get_app_pc(where);
    /* For 64-bit, we can't use a 64-bit immediate so we split pc into two halves.
     * We could alternatively load it into reg1 and then store reg1.
     * We use a convenience routine that does the two-step store for us.
     */
    opnd1 = OPND_CREATE_MEMPTR(reg2, offsetof(ins_ref_t, pc));
    instrlist_insert_mov_immed_ptrsz(drcontext, (ptr_int_t) pc, opnd1,
                                     ilist, where, NULL, NULL);

    /* Store opcode */
    opnd1 = OPND_CREATE_MEMPTR(reg2, offsetof(ins_ref_t, opcode));
    opnd2 = OPND_CREATE_INT32(instr_get_opcode(where));
    instr = INSTR_CREATE_mov_st(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* Increment reg value by pointer size using lea instr */
    opnd1 = opnd_create_reg(reg2);
    opnd2 = opnd_create_base_disp(reg2, DR_REG_NULL, 0, sizeof(ins_ref_t), OPSZ_lea);
    instr = INSTR_CREATE_lea(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* Update the data->buf_ptr */
    drmgr_insert_read_tls_field(drcontext, tls_index, ilist, where, reg1);
    opnd1 = OPND_CREATE_MEMPTR(reg1, offsetof(per_thread_t, buf_ptr));
    opnd2 = opnd_create_reg(reg2);
    instr = INSTR_CREATE_mov_st(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* We use the lea + jecxz trick for better performance.
     * lea and jecxz won't disturb the eflags, so we won't need
     * code to save and restore the application's eflags.
     */
    /* lea [reg2 - buf_end] => reg2 */
    opnd1 = opnd_create_reg(reg1);
    opnd2 = OPND_CREATE_MEMPTR(reg1, offsetof(per_thread_t, buf_end));
    instr = INSTR_CREATE_mov_ld(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);
    opnd1 = opnd_create_reg(reg2);
    opnd2 = opnd_create_base_disp(reg1, reg2, 1, 0, OPSZ_lea);
    instr = INSTR_CREATE_lea(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* jecxz call */
    call  = INSTR_CREATE_label(drcontext);
    opnd1 = opnd_create_instr(call);
    instr = INSTR_CREATE_jecxz(drcontext, opnd1);
    instrlist_meta_preinsert(ilist, where, instr);

    /* jump restore to skip clean call */
    restore = INSTR_CREATE_label(drcontext);
    opnd1 = opnd_create_instr(restore);
    instr = INSTR_CREATE_jmp(drcontext, opnd1);
    instrlist_meta_preinsert(ilist, where, instr);

    /* clean call */
    /* We jump to our generated lean procedure which performs a full context
     * switch and clean call invocation. This is to reduce the code cache size.
     */
    instrlist_meta_preinsert(ilist, where, call);
    /* mov restore DR_REG_XCX */
    opnd1 = opnd_create_reg(reg2);
    /* This is the return address for jumping back from the lean procedure. */
    opnd2 = opnd_create_instr(restore);
    /* We could use instrlist_insert_mov_instr_addr(), but with a register
     * destination we know we can use a 64-bit immediate.
     */
    instr = INSTR_CREATE_mov_imm(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);
    /* jmp code_cache */
    opnd1 = opnd_create_pc(code_cache);
    instr = INSTR_CREATE_jmp(drcontext, opnd1);
    instrlist_meta_preinsert(ilist, where, instr);

    /* Restore scratch registers */
    instrlist_meta_preinsert(ilist, where, restore);
    if (drreg_unreserve_register(drcontext, ilist, where, reg1) != DRREG_SUCCESS ||
        drreg_unreserve_register(drcontext, ilist, where, reg2) != DRREG_SUCCESS)
        DR_ASSERT(false);
}
Example #10
0
/*
 * instrument_mem is called whenever a memory reference is identified.
 * It inserts code before the memory reference to to fill the memory buffer
 * and jump to our own code cache to call the clean_call when the buffer is full.
 */
static void
instrument_mem(void *drcontext, instrlist_t *ilist, instr_t *where,
               int pos, bool write)
{
    instr_t *instr, *call, *restore, *first, *second;
    opnd_t   ref, opnd1, opnd2;
    reg_id_t reg1 = DR_REG_XBX; /* We can optimize it by picking dead reg */
    reg_id_t reg2 = DR_REG_XCX; /* reg2 must be ECX or RCX for jecxz */
    per_thread_t *data;
    app_pc pc;

    data = drmgr_get_tls_field(drcontext, tls_index);

    /* Steal the register for memory reference address *
     * We can optimize away the unnecessary register save and restore
     * by analyzing the code and finding the register is dead.
     */
    dr_save_reg(drcontext, ilist, where, reg1, SPILL_SLOT_2);
    dr_save_reg(drcontext, ilist, where, reg2, SPILL_SLOT_3);

    if (write)
       ref = instr_get_dst(where, pos);
    else
       ref = instr_get_src(where, pos);

    /* use drutil to get mem address */
    drutil_insert_get_mem_addr(drcontext, ilist, where, ref, reg1, reg2);

    /* The following assembly performs the following instructions
     * buf_ptr->write = write;
     * buf_ptr->addr  = addr;
     * buf_ptr->size  = size;
     * buf_ptr->pc    = pc;
     * buf_ptr++;
     * if (buf_ptr >= buf_end_ptr)
     *    clean_call();
     */
    drmgr_insert_read_tls_field(drcontext, tls_index, ilist, where, reg2);
    /* Load data->buf_ptr into reg2 */
    opnd1 = opnd_create_reg(reg2);
    opnd2 = OPND_CREATE_MEMPTR(reg2, offsetof(per_thread_t, buf_ptr));
    instr = INSTR_CREATE_mov_ld(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* Move write/read to write field */
    opnd1 = OPND_CREATE_MEM32(reg2, offsetof(mem_ref_t, write));
    opnd2 = OPND_CREATE_INT32(write);
    instr = INSTR_CREATE_mov_imm(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* Store address in memory ref */
    opnd1 = OPND_CREATE_MEMPTR(reg2, offsetof(mem_ref_t, addr));
    opnd2 = opnd_create_reg(reg1);
    instr = INSTR_CREATE_mov_st(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* Store size in memory ref */
    opnd1 = OPND_CREATE_MEMPTR(reg2, offsetof(mem_ref_t, size));
    /* drutil_opnd_mem_size_in_bytes handles OP_enter */
    opnd2 = OPND_CREATE_INT32(drutil_opnd_mem_size_in_bytes(ref, where));
    instr = INSTR_CREATE_mov_st(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* Store pc in memory ref */
    pc = instr_get_app_pc(where);
    /* For 64-bit, we can't use a 64-bit immediate so we split pc into two halves.
     * We could alternatively load it into reg1 and then store reg1.
     * We use a convenience routine that does the two-step store for us.
     */
    opnd1 = OPND_CREATE_MEMPTR(reg2, offsetof(mem_ref_t, pc));
    instrlist_insert_mov_immed_ptrsz(drcontext, (ptr_int_t) pc, opnd1,
                                     ilist, where, &first, &second);
    instr_set_ok_to_mangle(first, false/*meta*/);
    if (second != NULL)
        instr_set_ok_to_mangle(second, false/*meta*/);

    /* Increment reg value by pointer size using lea instr */
    opnd1 = opnd_create_reg(reg2);
    opnd2 = opnd_create_base_disp(reg2, DR_REG_NULL, 0,
                                  sizeof(mem_ref_t),
                                  OPSZ_lea);
    instr = INSTR_CREATE_lea(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* Update the data->buf_ptr */
    drmgr_insert_read_tls_field(drcontext, tls_index, ilist, where, reg1);
    opnd1 = OPND_CREATE_MEMPTR(reg1, offsetof(per_thread_t, buf_ptr));
    opnd2 = opnd_create_reg(reg2);
    instr = INSTR_CREATE_mov_st(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* we use lea + jecxz trick for better performance
     * lea and jecxz won't disturb the eflags, so we won't insert
     * code to save and restore application's eflags.
     */
    /* lea [reg2 - buf_end] => reg2 */
    opnd1 = opnd_create_reg(reg1);
    opnd2 = OPND_CREATE_MEMPTR(reg1, offsetof(per_thread_t, buf_end));
    instr = INSTR_CREATE_mov_ld(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);
    opnd1 = opnd_create_reg(reg2);
    opnd2 = opnd_create_base_disp(reg1, reg2, 1, 0, OPSZ_lea);
    instr = INSTR_CREATE_lea(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);

    /* jecxz call */
    call  = INSTR_CREATE_label(drcontext);
    opnd1 = opnd_create_instr(call);
    instr = INSTR_CREATE_jecxz(drcontext, opnd1);
    instrlist_meta_preinsert(ilist, where, instr);

    /* jump restore to skip clean call */
    restore = INSTR_CREATE_label(drcontext);
    opnd1 = opnd_create_instr(restore);
    instr = INSTR_CREATE_jmp(drcontext, opnd1);
    instrlist_meta_preinsert(ilist, where, instr);

    /* clean call */
    /* We jump to lean procedure which performs full context switch and
     * clean call invocation. This is to reduce the code cache size.
     */
    instrlist_meta_preinsert(ilist, where, call);
    /* mov restore DR_REG_XCX */
    opnd1 = opnd_create_reg(reg2);
    /* this is the return address for jumping back from lean procedure */
    opnd2 = opnd_create_instr(restore);
    /* We could use instrlist_insert_mov_instr_addr(), but with a register
     * destination we know we can use a 64-bit immediate.
     */
    instr = INSTR_CREATE_mov_imm(drcontext, opnd1, opnd2);
    instrlist_meta_preinsert(ilist, where, instr);
    /* jmp code_cache */
    opnd1 = opnd_create_pc(code_cache);
    instr = INSTR_CREATE_jmp(drcontext, opnd1);
    instrlist_meta_preinsert(ilist, where, instr);

    /* restore %reg */
    instrlist_meta_preinsert(ilist, where, restore);
    dr_restore_reg(drcontext, ilist, where, reg1, SPILL_SLOT_2);
    dr_restore_reg(drcontext, ilist, where, reg2, SPILL_SLOT_3);
}