free_strict: print the line number where the pointer was freed
[smatch.git] / smatch_kernel_host_data.c
blob063e5bff2115f6587d5f36a164417f2c17f359e8
1 /*
2 * Copyright (C) 2011 Dan Carpenter.
4 * This program is free software; you can redistribute it and/or
5 * modify it under the terms of the GNU General Public License
6 * as published by the Free Software Foundation; either version 2
7 * of the License, or (at your option) any later version.
9 * This program is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 * GNU General Public License for more details.
14 * You should have received a copy of the GNU General Public License
15 * along with this program; if not, see http://www.gnu.org/copyleft/gpl.txt
18 /* The below code is an adjustment of the smatch_kernel_user_data.c to
19 * track (untrusted and potentially malicious) data received by a guest
20 * kernel via various low-level port IO, MMIO, MSR, CPUID and PCI config
21 * space access functions (see func_table for a full list) from an
22 * untrusted host/VMM under confidential computing threat model
23 * (where a guest VM does not trust the host/VMM).
24 * We call this data as 'host' data here. Being able to track host data
25 * allows creating new smatch patterns that can perform various checks
26 * on such data, i.e. verify that that there are no spectre v1 gadgets
27 * on this attack surface or even simply report locations where host data
28 * is being processed in the kernel source code (useful for a targeted code
29 * audit).
30 * Similar as smatch_kernel_user_data.c it works with
31 * smatch_points_to_host_input.c code.
33 * Copyright (C) 2022 Elena Reshetova Intel Corporation.
36 #include "smatch.h"
37 #include "smatch_slist.h"
38 #include "smatch_extra.h"
40 struct host_fn_info {
41 const char *name;
42 int type;
43 int param;
44 const char *key;
45 const sval_t *implies_start, *implies_end;
46 func_hook *call_back;
49 static struct host_fn_info func_table[] = {
50 /* Functions that return host data as return value */
51 { "inb", HOST_DATA, -1, "$" },
52 { "inw", HOST_DATA, -1, "$" },
53 { "inl", HOST_DATA, -1, "$" },
54 { "__inb", HOST_DATA, -1, "$" },
55 { "__inw", HOST_DATA, -1, "$" },
56 { "__inl", HOST_DATA, -1, "$" },
57 { "ioread8", HOST_DATA, -1, "$" },
58 { "ioread16", HOST_DATA, -1, "$" },
59 { "ioread32", HOST_DATA, -1, "$" },
60 { "ioread16be", HOST_DATA, -1, "$" },
61 { "ioread32be", HOST_DATA, -1, "$" },
62 { "ioread64_lo_hi", HOST_DATA, -1, "$" },
63 { "ioread64_hi_lo", HOST_DATA, -1, "$" },
64 { "ioread64be_lo_hi", HOST_DATA, -1, "$" },
65 { "ioread64be_hi_lo", HOST_DATA, -1, "$" },
66 { "iomap_readq", HOST_DATA, -1, "$" },
67 { "iomap_readb", HOST_DATA, -1, "$" },
68 { "iomap_readw", HOST_DATA, -1, "$" },
69 { "iomap_readl", HOST_DATA, -1, "$" },
70 { "readb", HOST_DATA, -1, "$" },
71 { "readw", HOST_DATA, -1, "$" },
72 { "readl", HOST_DATA, -1, "$" },
73 { "readq", HOST_DATA, -1, "$" },
74 { "__raw_readb", HOST_DATA, -1, "$" },
75 { "__raw_readw", HOST_DATA, -1, "$" },
76 { "__raw_readl", HOST_DATA, -1, "$" },
77 { "__raw_readq", HOST_DATA, -1, "$" },
78 { "__readq", HOST_DATA, -1, "$" },
79 { "__readl", HOST_DATA, -1, "$" },
80 { "__readb", HOST_DATA, -1, "$" },
81 { "__readw", HOST_DATA, -1, "$" },
82 { "native_read_msr", HOST_DATA, -1, "$" },
83 { "native_read_msr_safe", HOST_DATA, -1, "$" },
84 { "__rdmsr", HOST_DATA, -1, "$" },
85 { "paravirt_read_msr", HOST_DATA, -1, "$" },
86 { "paravirt_read_msr_safe", HOST_DATA, -1, "$" },
87 /* the below 3 apic funcs are needed
88 * since they unwrap to apic->read(reg),
89 * apic->icr_read() and *(APIC_BASE + reg) */
90 { "apic_read", HOST_DATA, -1, "$" },
91 { "apic_icr_read", HOST_DATA, -1, "$" },
92 { "native_apic_mem_read", HOST_DATA, -1, "$" },
93 /* the below one is x86_apic_ops.io_apic_read */
94 { "io_apic_read", HOST_DATA, -1, "$" },
95 /* virtio_cread8/16/32/64 funcs are needed
96 * since they call vdev->config->get */
97 { "virtio_cread8", HOST_DATA, -1, "$" },
98 { "virtio_cread16", HOST_DATA, -1, "$" },
99 { "virtio_cread32", HOST_DATA, -1, "$" },
100 { "virtio_cread64", HOST_DATA, -1, "$" },
101 { "__virtio16_to_cpu", HOST_DATA, -1, "$" },
102 { "__virtio32_to_cpu", HOST_DATA, -1, "$" },
103 { "__virtio64_to_cpu", HOST_DATA, -1, "$" },
104 { "serial_dl_read", HOST_DATA, -1, "$" },
105 { "serial_in", HOST_DATA, -1, "$" },
106 { "serial_port_in", HOST_DATA, -1, "$" },
107 { "cpuid_eax", HOST_DATA, -1, "$" },
108 { "cpuid_ebx", HOST_DATA, -1, "$" },
109 { "cpuid_ecx", HOST_DATA, -1, "$" },
110 { "cpuid_edx", HOST_DATA, -1, "$" },
111 /* Functions that return host data as argument 1 */
112 { "memcpy_fromio", HOST_DATA, 0, "*$" },
113 /* Functions that return host data as argument 2 */
114 { "acpi_os_read_iomem", HOST_DATA, 1, "*$" },
115 { "mmio_insb", HOST_DATA, 1, "*$" },
116 { "mmio_insw", HOST_DATA, 1, "*$" },
117 { "mmio_insl", HOST_DATA, 1, "*$" },
118 { "acpi_read_bit_register", HOST_DATA, 1, "*$" },
119 /* Functions that return host data as argument 3 */
120 { "rdmsrl_on_cpu", HOST_DATA, 2, "*$" },
121 { "rdmsrl_safe_on_cpu", HOST_DATA, 2, "*$" },
122 { "(struct virtio_config_ops)->get", HOST_DATA, 2, "*$" },
123 { "__virtio_cread_many", HOST_DATA, 2, "*$" },
124 { "pci_user_read_config_word", HOST_DATA, 2, "*$" },
125 { "pci_user_read_config_dword", HOST_DATA, 2, "*$" },
126 { "pci_user_read_config_byte", HOST_DATA, 2, "*$" },
127 /* Functions that return host data as argument 4 */
128 { "pci_bus_read_config_byte", HOST_DATA, 3, "*$" },
129 { "pci_bus_read_config_word", HOST_DATA, 3, "*$" },
130 { "pci_bus_read_config_dword", HOST_DATA, 3, "*$" },
131 /* Functions that return host data as arguments 3 and 4 */
132 { "rdmsr_on_cpu", HOST_DATA, 2, "*$" },
133 { "rdmsr_on_cpu", HOST_DATA, 3, "*$" },
134 { "rdmsr_safe_on_cpu", HOST_DATA, 2, "*$" },
135 { "rdmsr_safe_on_cpu", HOST_DATA, 3, "*$" },
136 /* Functions that return host data as argument 6 */
137 { "raw_pci_read", HOST_DATA, 5, "*$" },
138 /* Functions that return host data as arguments 2-5 */
139 { "cpuid", HOST_DATA, 1, "*$" },
140 { "cpuid", HOST_DATA, 2, "*$" },
141 { "cpuid", HOST_DATA, 3, "*$" },
142 { "cpuid", HOST_DATA, 4, "*$" },
143 /* Functions that return host data as arguments 3-6 */
144 { "cpuid_count", HOST_DATA, 2, "*$" },
145 { "cpuid_count", HOST_DATA, 3, "*$" },
146 { "cpuid_count", HOST_DATA, 4, "*$" },
147 { "cpuid_count", HOST_DATA, 5, "*$" },
150 int get_host_data_fn_param(const char *fn)
152 int ret = 0;
154 if (!fn)
155 return ret;
157 for (int i = 0; i < ARRAY_SIZE(func_table); i++) {
158 if (strcmp(fn, func_table[i].name) == 0) {
159 ret = func_table[i].param;
162 if ((!ret) && (is_fn_points_to_host_data(fn))) {
163 ret = -1;
166 return ret;
169 static int my_id;
170 static unsigned long func_gets_host_data;
171 static struct stree *start_states;
173 static struct smatch_state *empty_state(struct sm_state *sm)
175 return alloc_estate_empty();
178 static struct smatch_state *new_state(struct symbol *type)
180 struct smatch_state *state;
182 if (!type || type_is_ptr(type))
183 return NULL;
185 state = alloc_estate_whole(type);
186 estate_set_new(state);
187 return state;
190 static void pre_merge_hook(struct sm_state *cur, struct sm_state *other)
192 struct smatch_state *kernel = cur->state;
193 struct smatch_state *extra;
194 struct smatch_state *state;
195 struct range_list *rl;
197 extra = __get_state(SMATCH_EXTRA, cur->name, cur->sym);
198 if (!extra)
199 return;
200 rl = rl_intersection(estate_rl(kernel), estate_rl(extra));
201 state = alloc_estate_rl(clone_rl(rl));
202 if (estate_capped(kernel) || is_capped_var_sym(cur->name, cur->sym))
203 estate_set_capped(state);
204 if (estates_equiv(state, cur->state))
205 return;
206 if (estate_new(cur->state))
207 estate_set_new(state);
208 set_state(my_id, cur->name, cur->sym, state);
211 static void extra_nomod_hook(const char *name, struct symbol *sym, struct expression *expr, struct smatch_state *state)
213 struct smatch_state *host, *new;
214 struct range_list *rl;
216 host = __get_state(my_id, name, sym);
217 if (!host)
218 return;
220 rl = rl_intersection(estate_rl(host), estate_rl(state));
221 if (rl_equiv(rl, estate_rl(host)))
222 return;
223 new = alloc_estate_rl(rl);
224 if (estate_capped(host))
225 estate_set_capped(new);
226 set_state(my_id, name, sym, new);
229 static void store_type_info(struct expression *expr, struct smatch_state *state)
231 struct symbol *type;
232 char *type_str, *member;
234 if (__in_fake_assign)
235 return;
237 if (!estate_rl(state))
238 return;
240 expr = strip_expr(expr);
241 if (!expr || expr->type != EXPR_DEREF || !expr->member)
242 return;
244 type = get_type(expr->deref);
245 if (!type || !type->ident)
246 return;
248 type_str = type_to_str(type);
249 if (!type_str)
250 return;
251 member = get_member_name(expr);
252 if (!member)
253 return;
255 sql_insert_function_type_info(HOST_DATA, type_str, member, state->name);
258 static void set_host_data(struct expression *expr, struct smatch_state *state)
260 store_type_info(expr, state);
261 set_state_expr(my_id, expr, state);
264 static bool host_rl_known(struct expression *expr)
266 struct range_list *rl;
267 sval_t close_to_max;
269 if (!get_host_rl(expr, &rl))
270 return true;
272 close_to_max = sval_type_max(rl_type(rl));
273 close_to_max.value -= 100;
275 if (sval_cmp(rl_max(rl), close_to_max) >= 0)
276 return false;
277 return true;
280 static bool is_array_index_mask_nospec(struct expression *expr)
282 struct expression *orig;
284 orig = get_assigned_expr(expr);
285 if (!orig || orig->type != EXPR_CALL)
286 return false;
287 return sym_name_is("array_index_mask_nospec", orig->fn);
290 static bool binop_capped(struct expression *expr)
292 struct range_list *left_rl;
293 int comparison;
294 sval_t sval;
296 if (expr->op == '-' && get_host_rl(expr->left, &left_rl)) {
297 if (host_rl_capped(expr->left))
298 return true;
299 comparison = get_comparison(expr->left, expr->right);
300 if (comparison && show_special(comparison)[0] == '>')
301 return true;
302 return false;
305 if (expr->op == '&' || expr->op == '%') {
306 bool left_host, left_capped, right_host, right_capped;
308 if (!get_value(expr->right, &sval) && is_capped(expr->right))
309 return true;
310 if (is_array_index_mask_nospec(expr->right))
311 return true;
312 if (is_capped(expr->left))
313 return true;
314 left_host = is_host_rl(expr->left);
315 right_host = is_host_rl(expr->right);
316 if (!left_host && !right_host)
317 return true;
319 left_capped = host_rl_capped(expr->left);
320 right_capped = host_rl_capped(expr->right);
322 if (left_host && left_capped) {
323 if (!right_host)
324 return true;
325 if (right_host && right_capped)
326 return true;
327 return false;
329 if (right_host && right_capped) {
330 if (!left_host)
331 return true;
332 return false;
334 return false;
338 * Generally "capped" means that we capped it to an unknown value.
339 * This is useful because if Smatch doesn't know what the value is then
340 * we have to trust that it is correct. But if we known cap value is
341 * 100 then we can check if 100 is correct and complain if it's wrong.
343 * So then the problem is with BINOP when we take a capped variable
344 * plus a host variable which is clamped to a known range (uncapped)
345 * the result should be capped.
347 if ((host_rl_capped(expr->left) || host_rl_known(expr->left)) &&
348 (host_rl_capped(expr->right) || host_rl_known(expr->right)))
349 return true;
350 return false;
353 bool host_rl_capped(struct expression *expr)
355 struct smatch_state *state;
356 struct range_list *rl;
357 sval_t sval;
359 expr = strip_expr(expr);
360 if (!expr)
361 return false;
362 if (get_value(expr, &sval))
363 return true;
364 if (expr->type == EXPR_BINOP)
365 return binop_capped(expr);
366 if ((expr->type == EXPR_PREOP || expr->type == EXPR_POSTOP) &&
367 (expr->op == SPECIAL_INCREMENT || expr->op == SPECIAL_DECREMENT))
368 return host_rl_capped(expr->unop);
369 state = get_state_expr(my_id, expr);
370 if (state)
371 return estate_capped(state);
373 if (!get_host_rl(expr, &rl)) {
375 * The non host data parts of a binop are capped and
376 * also empty host rl states are capped.
378 return true;
381 if (rl_to_sval(rl, &sval))
382 return true;
384 return false; /* uncapped host data */
387 static void tag_inner_struct_members(struct expression *expr, struct symbol *member)
389 struct expression *edge_member;
390 struct symbol *base = get_real_base_type(member);
391 struct symbol *tmp;
393 if (member->ident)
394 expr = member_expression(expr, '.', member->ident);
396 FOR_EACH_PTR(base->symbol_list, tmp) {
397 struct symbol *type;
399 type = get_real_base_type(tmp);
400 if (!type)
401 continue;
403 if (type->type == SYM_UNION || type->type == SYM_STRUCT) {
404 tag_inner_struct_members(expr, tmp);
405 continue;
408 if (!tmp->ident)
409 continue;
411 edge_member = member_expression(expr, '.', tmp->ident);
412 set_host_data(edge_member, new_state(type));
413 } END_FOR_EACH_PTR(tmp);
416 static void tag_struct_members(struct symbol *type, struct expression *expr)
418 struct symbol *tmp;
419 struct expression *member;
420 int op = '*';
422 if (expr->type == EXPR_PREOP && expr->op == '&') {
423 expr = strip_expr(expr->unop);
424 op = '.';
427 FOR_EACH_PTR(type->symbol_list, tmp) {
428 type = get_real_base_type(tmp);
429 if (!type)
430 continue;
432 if (type->type == SYM_UNION || type->type == SYM_STRUCT) {
433 tag_inner_struct_members(expr, tmp);
434 continue;
437 if (!tmp->ident)
438 continue;
440 member = member_expression(expr, op, tmp->ident);
441 if (type->type == SYM_ARRAY) {
442 set_points_to_host_data(member, true);
443 } else {
444 set_host_data(member, new_state(get_type(member)));
446 } END_FOR_EACH_PTR(tmp);
449 static void tag_base_type(struct expression *expr)
451 if (expr->type == EXPR_PREOP && expr->op == '&')
452 expr = strip_expr(expr->unop);
453 else
454 expr = deref_expression(expr);
455 set_host_data(expr, new_state(get_type(expr)));
458 static void tag_as_host_data(struct expression *expr)
460 struct symbol *type;
462 expr = strip_expr(expr);
463 type = get_type(expr);
465 if (!type)
466 return;
468 if (type->type == SYM_PTR){
469 type = get_real_base_type(type);
470 if (!type)
471 return;
472 if (type == &void_ctype) {
473 set_host_data(deref_expression(expr), new_state(&ulong_ctype));
474 return;
476 if (type->type == SYM_BASETYPE) {
477 if (expr->type != EXPR_PREOP && expr->op != '&')
478 set_points_to_host_data(expr, true);
479 tag_base_type(expr);
480 return;
482 if (type->type == SYM_STRUCT || type->type == SYM_UNION) {
483 if (expr->type != EXPR_PREOP || expr->op != '&')
484 expr = deref_expression(expr);
485 else
486 set_host_data(deref_expression(expr), new_state(&ulong_ctype));
487 tag_struct_members(type, expr);
489 return;
492 if (expr->type == EXPR_DEREF) {
493 type = get_type(expr->deref);
494 expr = strip_expr(expr->deref);
496 if (!type){
497 sm_msg("%s: no type\n", __func__);
498 return;
502 if (type->type == SYM_BASETYPE) {
503 if (expr->type == EXPR_PREOP && expr->op == '*')
504 set_points_to_host_data(expr->unop, true);
505 set_host_data(expr, new_state(get_type(expr)));
506 return;
508 if (type->type == SYM_STRUCT || type->type == SYM_UNION) {
509 set_host_data(expr, new_state(&ulong_ctype));
510 tag_struct_members(type, expr);
514 static int get_rl_from_function(struct expression *expr, struct range_list **rl)
516 if (!expr)
517 return 0;
519 if (expr->type != EXPR_CALL || expr->fn->type != EXPR_SYMBOL ||
520 !expr->fn->symbol_name)
521 return 0;
523 for (int i = 0; i < ARRAY_SIZE(func_table); i++) {
524 if ((strcmp(expr->fn->symbol_name->name, func_table[i].name) == 0) &&
525 (func_table[i].param == -1)) {
526 *rl = alloc_whole_rl(get_type(expr));
527 return 1;
530 return 0;
533 static bool state_is_new(struct expression *expr)
535 struct smatch_state *state;
537 state = get_state_expr(my_id, expr);
538 if (estate_new(state))
539 return true;
541 if (expr->type == EXPR_BINOP) {
542 if (state_is_new(expr->left))
543 return true;
544 if (state_is_new(expr->right))
545 return true;
547 return false;
550 static void handle_derefed_pointers(struct expression *expr, bool is_new)
552 expr = strip_expr(expr);
553 if (expr->type != EXPR_PREOP ||
554 expr->op != '*')
555 return;
556 expr = strip_expr(expr->unop);
557 set_points_to_host_data(expr, is_new);
560 static bool handle_op_assign(struct expression *expr)
562 struct expression *binop_expr;
563 struct smatch_state *state;
564 struct range_list *rl;
565 bool is_new;
567 switch (expr->op) {
568 case SPECIAL_ADD_ASSIGN:
569 case SPECIAL_SUB_ASSIGN:
570 case SPECIAL_AND_ASSIGN:
571 case SPECIAL_MOD_ASSIGN:
572 case SPECIAL_SHL_ASSIGN:
573 case SPECIAL_SHR_ASSIGN:
574 case SPECIAL_OR_ASSIGN:
575 case SPECIAL_XOR_ASSIGN:
576 case SPECIAL_MUL_ASSIGN:
577 case SPECIAL_DIV_ASSIGN:
578 binop_expr = binop_expression(expr->left,
579 op_remove_assign(expr->op),
580 expr->right);
581 if (!get_host_rl(binop_expr, &rl))
582 return true;
583 rl = cast_rl(get_type(expr->left), rl);
584 state = alloc_estate_rl(rl);
585 if (expr->op == SPECIAL_AND_ASSIGN ||
586 expr->op == SPECIAL_MOD_ASSIGN ||
587 host_rl_capped(binop_expr))
588 estate_set_capped(state);
589 is_new = state_is_new(binop_expr);
590 if (is_new)
591 estate_set_new(state);
592 estate_set_assigned(state);
593 set_host_data(expr->left, state);
594 handle_derefed_pointers(expr->left, is_new);
595 return true;
597 return false;
600 static struct range_list *strip_negatives(struct range_list *rl)
602 sval_t min = rl_min(rl);
603 sval_t minus_one = { .type = rl_type(rl), .value = -1 };
604 sval_t over = { .type = rl_type(rl), .value = INT_MAX + 1ULL };
605 sval_t max = sval_type_max(rl_type(rl));
607 if (!rl)
608 return NULL;
610 if (type_unsigned(rl_type(rl)) && type_bits(rl_type(rl)) > 31)
611 return remove_range(rl, over, max);
613 return remove_range(rl, min, minus_one);
616 static void match_assign_host(struct expression *expr)
618 struct symbol *left_type, *right_type;
619 struct range_list *rl = NULL;
620 static struct expression *handled;
621 struct smatch_state *state;
622 struct expression *faked;
623 bool is_capped = false;
624 bool is_new = false;
626 if (!expr)
627 return;
629 left_type = get_type(expr->left);
630 if (left_type == &void_ctype)
631 return;
633 faked = get_faked_expression();
635 /* FIXME: handle fake array assignments frob(&host_array[x]); */
637 if (faked &&
638 faked->type == EXPR_ASSIGNMENT &&
639 points_to_host_data(faked->right)) {
640 rl = alloc_whole_rl(get_type(expr->left));
641 is_new = true;
642 goto set;
645 if (faked && faked == handled)
646 return;
647 if (is_fake_call(expr->right))
648 goto clear_old_state;
649 if (points_to_host_data(expr->right) &&
650 is_struct_ptr(get_type(expr->left))) {
651 handled = expr;
652 // This should be handled by smatch_points_to_host_data.c
653 //set_points_to_host_data(expr->left);
656 if (handle_op_assign(expr))
657 return;
658 if (expr->op != '=')
659 goto clear_old_state;
661 /* Handled by DB code */
662 if (expr->right->type == EXPR_CALL)
663 return;
665 if (faked)
666 disable_type_val_lookups();
667 get_host_rl(expr->right, &rl);
668 if (faked)
669 enable_type_val_lookups();
670 if (!rl)
671 goto clear_old_state;
673 is_capped = host_rl_capped(expr->right);
674 is_new = state_is_new(expr->right);
676 set:
677 right_type = get_type(expr->right);
678 if (type_is_ptr(left_type)) {
679 if (right_type && right_type->type == SYM_ARRAY)
680 set_points_to_host_data(expr->left, is_new);
681 return;
684 rl = cast_rl(left_type, rl);
685 if (is_capped && type_unsigned(right_type) && type_signed(left_type))
686 rl = strip_negatives(rl);
687 state = alloc_estate_rl(rl);
688 if (is_new)
689 estate_set_new(state);
690 if (is_capped)
691 estate_set_capped(state);
692 estate_set_assigned(state);
693 set_host_data(expr->left, state);
694 handle_derefed_pointers(expr->left, is_new);
695 return;
697 clear_old_state:
700 * HACK ALERT!!! This should be at the start of the function. The
701 * the problem is that handling "pointer = array;" assignments is
702 * handled in this function instead of in kernel_points_to_host_data.c.
704 if (type_is_ptr(left_type))
705 return;
707 if (get_state_expr(my_id, expr->left))
708 set_host_data(expr->left, alloc_estate_empty());
711 static void handle_eq_noteq(struct expression *expr)
713 struct smatch_state *left_orig, *right_orig;
715 left_orig = get_state_expr(my_id, expr->left);
716 right_orig = get_state_expr(my_id, expr->right);
718 if (!left_orig && !right_orig)
719 return;
720 if (left_orig && right_orig)
721 return;
723 if (left_orig) {
724 set_true_false_states_expr(my_id, expr->left,
725 expr->op == SPECIAL_EQUAL ? alloc_estate_empty() : NULL,
726 expr->op == SPECIAL_EQUAL ? NULL : alloc_estate_empty());
727 } else {
728 set_true_false_states_expr(my_id, expr->right,
729 expr->op == SPECIAL_EQUAL ? alloc_estate_empty() : NULL,
730 expr->op == SPECIAL_EQUAL ? NULL : alloc_estate_empty());
734 static void handle_compare(struct expression *expr)
736 struct expression *left, *right;
737 struct range_list *left_rl = NULL;
738 struct range_list *right_rl = NULL;
739 struct range_list *host_rl;
740 struct smatch_state *capped_state;
741 struct smatch_state *left_true = NULL;
742 struct smatch_state *left_false = NULL;
743 struct smatch_state *right_true = NULL;
744 struct smatch_state *right_false = NULL;
745 struct symbol *type;
746 sval_t sval;
748 left = strip_expr(expr->left);
749 right = strip_expr(expr->right);
751 while (left->type == EXPR_ASSIGNMENT)
752 left = strip_expr(left->left);
755 * Conditions are mostly handled by smatch_extra.c, but there are some
756 * times where the exact values are not known so we can't do that.
758 * Normally, we might consider using smatch_capped.c to supliment smatch
759 * extra but that doesn't work when we merge unknown uncapped kernel
760 * data with unknown capped host data. The result is uncapped host
761 * data. We need to keep it separate and say that the host data is
762 * capped. In the past, I would have marked this as just regular
763 * kernel data (not host data) but we can't do that these days because
764 * we need to track host data for Spectre.
766 * The other situation which we have to handle is when we do have an
767 * int and we compare against an unknown unsigned kernel variable. In
768 * that situation we assume that the kernel data is less than INT_MAX.
769 * Otherwise then we get all sorts of array underflow false positives.
773 /* Handled in smatch_extra.c */
774 if (get_implied_value(left, &sval) ||
775 get_implied_value(right, &sval))
776 return;
778 get_host_rl(left, &left_rl);
779 get_host_rl(right, &right_rl);
781 /* nothing to do */
782 if (!left_rl && !right_rl)
783 return;
784 /* if both sides are host data that's not a good limit */
785 if (left_rl && right_rl)
786 return;
788 if (left_rl)
789 host_rl = left_rl;
790 else
791 host_rl = right_rl;
793 type = get_type(expr);
794 if (type_unsigned(type))
795 host_rl = strip_negatives(host_rl);
796 capped_state = alloc_estate_rl(host_rl);
797 estate_set_capped(capped_state);
799 switch (expr->op) {
800 case '<':
801 case SPECIAL_UNSIGNED_LT:
802 case SPECIAL_LTE:
803 case SPECIAL_UNSIGNED_LTE:
804 if (left_rl)
805 left_true = capped_state;
806 else
807 right_false = capped_state;
808 break;
809 case '>':
810 case SPECIAL_UNSIGNED_GT:
811 case SPECIAL_GTE:
812 case SPECIAL_UNSIGNED_GTE:
813 if (left_rl)
814 left_false = capped_state;
815 else
816 right_true = capped_state;
817 break;
819 set_true_false_states_expr(my_id, left, left_true, left_false);
820 set_true_false_states_expr(my_id, right, right_true, right_false);
823 static void match_condition_host(struct expression *expr)
825 if (!expr)
826 return;
828 if (expr->type != EXPR_COMPARE)
829 return;
831 if (expr->op == SPECIAL_EQUAL ||
832 expr->op == SPECIAL_NOTEQUAL) {
833 handle_eq_noteq(expr);
834 return;
836 handle_compare(expr);
839 static void match_returns_host_rl(const char *fn, struct expression *expr, void *unused)
841 func_gets_host_data = true;
844 static int has_host_data(struct symbol *sym)
846 struct sm_state *tmp;
848 FOR_EACH_MY_SM(my_id, __get_cur_stree(), tmp) {
849 if (tmp->sym == sym)
850 return 1;
851 } END_FOR_EACH_SM(tmp);
852 return 0;
855 bool we_pass_host_data(struct expression *call)
857 struct expression *arg;
858 struct symbol *sym;
860 FOR_EACH_PTR(call->args, arg) {
861 if (points_to_host_data(arg))
862 return true;
863 sym = expr_to_sym(arg);
864 if (!sym)
865 continue;
866 if (has_host_data(sym))
867 return true;
868 } END_FOR_EACH_PTR(arg);
870 return false;
873 static int db_returned_host_rl(struct expression *call, struct range_list **rl)
875 struct smatch_state *state;
876 char buf[48];
878 if (is_fake_call(call))
879 return 0;
880 snprintf(buf, sizeof(buf), "return %p", call);
881 state = get_state(my_id, buf, NULL);
882 if (!state || !estate_rl(state))
883 return 0;
884 *rl = estate_rl(state);
885 return 1;
888 struct stree *get_host_stree(void)
890 return get_all_states_stree(my_id);
893 static int host_data_flag;
894 static int no_host_data_flag;
896 struct range_list *var_host_rl(struct expression *expr)
898 struct smatch_state *state;
899 struct range_list *rl;
900 struct range_list *absolute_rl;
902 if (expr->type == EXPR_PREOP && expr->op == '&') {
903 no_host_data_flag = 1;
904 return NULL;
907 if (expr->type == EXPR_BINOP && expr->op == '%') {
908 struct range_list *left, *right;
910 if (!get_host_rl(expr->right, &right))
911 return NULL;
912 get_absolute_rl(expr->left, &left);
913 rl = rl_binop(left, '%', right);
914 goto found;
917 if (expr->type == EXPR_BINOP && expr->op == '/') {
918 struct range_list *left = NULL;
919 struct range_list *right = NULL;
920 struct range_list *abs_right;
922 get_host_rl(expr->left, &left);
923 get_host_rl(expr->right, &right);
924 get_absolute_rl(expr->right, &abs_right);
926 if (left && !right) {
927 rl = rl_binop(left, '/', abs_right);
928 if (sval_cmp(rl_max(left), rl_max(rl)) < 0)
929 no_host_data_flag = 1;
932 return NULL;
935 if (get_rl_from_function(expr, &rl))
936 goto found;
938 state = get_state_expr(my_id, expr);
939 if (state && estate_rl(state)) {
940 rl = estate_rl(state);
941 goto found;
944 if (expr->type == EXPR_CALL && db_returned_host_rl(expr, &rl))
945 goto found;
947 if (expr->type == EXPR_PREOP && expr->op == '*' &&
948 points_to_host_data(expr->unop)) {
949 rl = var_to_absolute_rl(expr);
950 goto found;
953 if (is_array(expr)) {
954 struct expression *array = get_array_base(expr);
956 if (!get_state_expr(my_id, array)) {
957 no_host_data_flag = 1;
958 return NULL;
962 return NULL;
963 found:
964 host_data_flag = 1;
965 absolute_rl = var_to_absolute_rl(expr);
966 return clone_rl(rl_intersection(rl, absolute_rl));
969 static bool is_ptr_subtract(struct expression *expr)
971 expr = strip_expr(expr);
972 if (!expr)
973 return false;
974 if (expr->type == EXPR_BINOP && expr->op == '-' &&
975 type_is_ptr(get_type(expr->left))) {
976 return true;
978 return false;
981 int get_host_rl(struct expression *expr, struct range_list **rl)
983 if (is_ptr_subtract(expr))
984 return 0;
986 host_data_flag = 0;
987 no_host_data_flag = 0;
988 custom_get_absolute_rl(expr, &var_host_rl, rl);
989 if (!host_data_flag || no_host_data_flag)
990 *rl = NULL;
991 return !!*rl;
994 int is_host_rl(struct expression *expr)
996 struct range_list *tmp;
998 return get_host_rl(expr, &tmp) && tmp;
1001 int get_host_rl_var_sym(const char *name, struct symbol *sym, struct range_list **rl)
1003 struct smatch_state *state;
1005 state = get_state(my_id, name, sym);
1006 if (state && estate_rl(state)) {
1007 *rl = estate_rl(state);
1008 return 1;
1010 return 0;
1013 static void return_info_callback_host(int return_id, char *return_ranges,
1014 struct expression *returned_expr,
1015 int param,
1016 const char *printed_name,
1017 struct sm_state *sm)
1019 struct smatch_state *extra;
1020 struct range_list *rl;
1021 char buf[64];
1023 if (is_ignored_kernel_data(printed_name))
1024 return;
1026 if (param >= 0) {
1027 if (strcmp(printed_name, "$") == 0)
1028 return;
1029 if (!estate_assigned(sm->state) &&
1030 !estate_new(sm->state))
1031 return;
1033 rl = estate_rl(sm->state);
1034 if (!rl)
1035 return;
1036 extra = get_state(SMATCH_EXTRA, sm->name, sm->sym);
1037 if (estate_rl(extra))
1038 rl = rl_intersection(estate_rl(sm->state), estate_rl(extra));
1039 if (!rl)
1040 return;
1042 snprintf(buf, sizeof(buf), "%s%s%s",
1043 show_rl(rl),
1044 estate_capped(sm->state) ? "[c]" : "", "");
1045 sql_insert_return_states(return_id, return_ranges,
1046 estate_new(sm->state) ? HOST_DATA_SET : HOST_DATA,
1047 param, printed_name, buf);
1051 static void caller_info_callback_host(struct expression *call, int param, char *printed_name, struct sm_state *sm)
1053 struct smatch_state *state;
1054 struct range_list *rl;
1055 struct symbol *type;
1056 char buf[64];
1059 * Smatch uses a hack where if we get an unsigned long we say it's
1060 * both host data and it points to host data. But if we pass it to a
1061 * function which takes an int, then it's just host data. There's not
1062 * enough bytes for it to be a pointer.
1065 type = get_arg_type(call->fn, param);
1066 if (strcmp(printed_name, "$") != 0 && type && type_bits(type) < type_bits(&ptr_ctype))
1067 return;
1069 if (is_ignored_kernel_data(printed_name))
1070 return;
1072 if (strcmp(sm->state->name, "") == 0)
1073 return;
1075 state = __get_state(SMATCH_EXTRA, sm->name, sm->sym);
1076 if (!state || !estate_rl(state))
1077 rl = estate_rl(sm->state);
1078 else
1079 rl = rl_intersection(estate_rl(sm->state), estate_rl(state));
1081 if (!rl)
1082 return;
1084 snprintf(buf, sizeof(buf), "%s%s%s", show_rl(rl),
1085 estate_capped(sm->state) ? "[c]" : "", "");
1086 sql_insert_caller_info(call, HOST_DATA, param, printed_name, buf);
1089 static void db_param_set(struct expression *expr, int param, char *key, char *value)
1091 struct expression *arg;
1092 char *name;
1093 struct symbol *sym;
1094 struct smatch_state *state;
1096 while (expr->type == EXPR_ASSIGNMENT)
1097 expr = strip_expr(expr->right);
1098 if (expr->type != EXPR_CALL)
1099 return;
1101 arg = get_argument_from_call_expr(expr->args, param);
1102 if (!arg)
1103 return;
1105 name = get_variable_from_key(arg, key, &sym);
1106 if (!name || !sym)
1107 goto free;
1109 state = get_state(my_id, name, sym);
1110 if (!state)
1111 goto free;
1113 set_state(my_id, name, sym, alloc_estate_empty());
1114 free:
1115 free_string(name);
1118 static bool param_data_capped(const char *value)
1120 if (strstr(value, ",c") || strstr(value, "[c"))
1121 return true;
1122 return false;
1125 static void set_param_host_data(const char *name, struct symbol *sym, char *key, char *value)
1127 struct expression *expr;
1128 struct range_list *rl = NULL;
1129 struct smatch_state *state;
1130 struct symbol *type;
1131 char *fullname;
1133 expr = symbol_expression(sym);
1134 fullname = get_variable_from_key(expr, key, NULL);
1135 if (!fullname)
1136 return;
1138 type = get_member_type_from_key(expr, key);
1139 if (type && type->type == SYM_STRUCT)
1140 return;
1142 if (!type)
1143 return;
1145 str_to_rl(type, value, &rl);
1146 rl = swap_mtag_seed(expr, rl);
1147 state = alloc_estate_rl(rl);
1148 if (param_data_capped(value) || is_capped(expr))
1149 estate_set_capped(state);
1150 set_state(my_id, fullname, sym, state);
1153 #define OLD 0
1154 #define NEW 1
1156 static void store_host_data_return(struct expression *expr, char *key, char *value, bool is_new)
1158 struct smatch_state *state;
1159 struct range_list *rl;
1160 struct symbol *type;
1161 char buf[48];
1163 if (key[0] != '$')
1164 return;
1166 type = get_type(expr);
1167 snprintf(buf, sizeof(buf), "return %p%s", expr, key + 1);
1168 call_results_to_rl(expr, type, value, &rl);
1170 state = alloc_estate_rl(rl);
1171 if (is_new)
1172 estate_set_new(state);
1173 set_state(my_id, buf, NULL, state);
1176 static void set_to_host_data(struct expression *expr, char *key, char *value, bool is_new)
1178 struct smatch_state *state;
1179 char *name;
1180 struct symbol *sym;
1181 struct symbol *type;
1182 struct range_list *rl = NULL;
1184 type = get_member_type_from_key(expr, key);
1185 name = get_variable_from_key(expr, key, &sym);
1186 if (!name || !sym)
1187 goto free;
1189 call_results_to_rl(expr, type, value, &rl);
1191 state = alloc_estate_rl(rl);
1192 if (param_data_capped(value))
1193 estate_set_capped(state);
1194 if (is_new)
1195 estate_set_new(state);
1196 estate_set_assigned(state);
1197 set_state(my_id, name, sym, state);
1198 free:
1199 free_string(name);
1202 static void returns_param_host_data(struct expression *expr, int param, char *key, char *value)
1204 struct expression *arg;
1205 struct expression *call;
1207 call = expr;
1208 while (call->type == EXPR_ASSIGNMENT)
1209 call = strip_expr(call->right);
1210 if (call->type != EXPR_CALL)
1211 return;
1213 if (!we_pass_host_data(call))
1214 return;
1216 if (param == -1) {
1217 if (expr->type != EXPR_ASSIGNMENT) {
1218 store_host_data_return(expr, key, value, OLD);
1219 return;
1221 set_to_host_data(expr->left, key, value, OLD);
1222 return;
1225 arg = get_argument_from_call_expr(call->args, param);
1226 if (!arg)
1227 return;
1228 set_to_host_data(arg, key, value, OLD);
1231 static void returns_param_host_data_set(struct expression *expr, int param, char *key, char *value)
1233 struct expression *arg;
1235 func_gets_host_data = true;
1237 if (param == -1) {
1238 if (expr->type != EXPR_ASSIGNMENT) {
1239 store_host_data_return(expr, key, value, NEW);
1240 return;
1242 set_to_host_data(expr->left, key, value, NEW);
1243 return;
1246 while (expr->type == EXPR_ASSIGNMENT)
1247 expr = strip_expr(expr->right);
1248 if (expr->type != EXPR_CALL)
1249 return;
1251 arg = get_argument_from_call_expr(expr->args, param);
1252 if (!arg)
1253 return;
1254 set_to_host_data(arg, key, value, NEW);
1257 static void returns_param_capped_host(struct expression *expr, int param, char *key, char *value)
1259 struct smatch_state *state, *new;
1260 struct symbol *sym;
1261 char *name;
1263 name = get_name_sym_from_param_key(expr, param, key, &sym);
1264 if (!name || !sym)
1265 goto free;
1267 state = get_state(my_id, name, sym);
1268 if (!state || estate_capped(state))
1269 goto free;
1271 new = clone_estate(state);
1272 estate_set_capped(new);
1274 set_state(my_id, name, sym, new);
1275 free:
1276 free_string(name);
1279 struct param_key_data {
1280 param_key_hook *call_back;
1281 int param;
1282 const char *key;
1283 void *info;
1286 static void match_function_def(struct symbol *sym)
1288 if (is_host_data_fn(sym))
1289 func_gets_host_data = true;
1292 static void set_param_host_input_data(struct expression *expr, const char *name,
1293 struct symbol *sym, void *data)
1295 struct expression *arg;
1297 func_gets_host_data = true;
1298 arg = gen_expression_from_name_sym(name, sym);
1299 tag_as_host_data(arg);
1302 void register_kernel_host_data(int id)
1304 int i;
1305 struct host_fn_info *info;
1307 my_id = id;
1309 if (option_project != PROJ_KERNEL)
1310 return;
1312 set_dynamic_states(my_id);
1313 add_function_data(&func_gets_host_data);
1314 add_hook(&match_function_def, FUNC_DEF_HOOK);
1316 add_function_data((unsigned long *)&start_states);
1317 add_unmatched_state_hook(my_id, &empty_state);
1318 add_extra_nomod_hook(&extra_nomod_hook);
1319 add_pre_merge_hook(my_id, &pre_merge_hook);
1320 add_merge_hook(my_id, &merge_estates);
1323 for (i = 0; i < ARRAY_SIZE(func_table); i++) {
1324 info = &func_table[i];
1325 add_function_param_key_hook_late(info->name, &set_param_host_input_data,
1326 info->param, info->key, info);
1329 for (i = 0; i < ARRAY_SIZE(func_table); i++) {
1330 if (func_table[i].param == -1)
1331 add_function_hook(func_table[i].name, &match_returns_host_rl, NULL);
1334 add_hook(&match_assign_host, ASSIGNMENT_HOOK);
1335 select_return_states_hook(PARAM_SET, &db_param_set);
1336 add_hook(&match_condition_host, CONDITION_HOOK);
1338 add_caller_info_callback(my_id, caller_info_callback_host);
1339 add_return_info_callback(my_id, return_info_callback_host);
1340 select_caller_info_hook(set_param_host_data, HOST_DATA);
1341 select_return_states_hook(HOST_DATA, &returns_param_host_data);
1342 select_return_states_hook(HOST_DATA_SET, &returns_param_host_data_set);
1343 select_return_states_hook(CAPPED_DATA, &returns_param_capped_host);