#ifndef SMATCH_H_
# define SMATCH_H_
#include <stdio.h>
#include <string.h>
#include <limits.h>
#include <float.h>
#include <sys/time.h>
#include <sqlite3.h>
#include "lib.h"
#include "allocate.h"
#include "scope.h"
#include "parse.h"
#include "expression.h"
#include "avl.h"
typedef struct {
struct symbol *type;
union {
long long value;
unsigned long long uvalue;
float fvalue;
double dvalue;
long double ldvalue;
};
} sval_t;
typedef long long mtag_t;
struct smatch_state {
const char *name;
void *data;
};
#define STATE(_x) static struct smatch_state _x = { .name = #_x }
extern struct smatch_state undefined;
extern struct smatch_state ghost;
extern struct smatch_state merged;
extern struct smatch_state true_state;
extern struct smatch_state false_state;
DECLARE_ALLOCATOR(smatch_state);
static inline void *INT_PTR(int i)
{
return (void *)(long)i;
}
static inline int PTR_INT(void *p)
{
return (int)(long)p;
}
struct tracker {
char *name;
struct symbol *sym;
unsigned short owner;
};
DECLARE_ALLOCATOR(tracker);
DECLARE_PTR_LIST(tracker_list, struct tracker);
DECLARE_PTR_LIST(stree_stack, struct stree);
struct sm_state {
const char *name;
struct symbol *sym;
unsigned short owner;
unsigned short merged:1;
unsigned int line;
struct smatch_state *state;
struct stree *pool;
struct sm_state *left;
struct sm_state *right;
struct state_list *possible;
};
struct var_sym {
char *var;
struct symbol *sym;
};
DECLARE_ALLOCATOR(var_sym);
DECLARE_PTR_LIST(var_sym_list, struct var_sym);
struct constraint {
int op;
int id;
};
DECLARE_PTR_LIST(constraint_list, struct constraint);
struct alloc_info {
const char *fn;
int size_param, nr;
};
extern struct alloc_info *alloc_funcs;
struct bit_info {
unsigned long long set;
unsigned long long possible;
};
enum hook_type {
EXPR_HOOK,
EXPR_HOOK_AFTER,
STMT_HOOK,
STMT_HOOK_AFTER,
SYM_HOOK,
STRING_HOOK,
DECLARATION_HOOK,
ASSIGNMENT_HOOK,
ASSIGNMENT_HOOK_AFTER,
RAW_ASSIGNMENT_HOOK,
GLOBAL_ASSIGNMENT_HOOK,
LOGIC_HOOK,
CONDITION_HOOK,
PRELOOP_HOOK,
SELECT_HOOK,
WHOLE_CONDITION_HOOK,
FUNCTION_CALL_HOOK_BEFORE,
FUNCTION_CALL_HOOK,
CALL_HOOK_AFTER_INLINE,
FUNCTION_CALL_HOOK_AFTER_DB,
CALL_ASSIGNMENT_HOOK,
MACRO_ASSIGNMENT_HOOK,
BINOP_HOOK,
OP_HOOK,
DEREF_HOOK,
CASE_HOOK,
ASM_HOOK,
CAST_HOOK,
SIZEOF_HOOK,
BASE_HOOK,
FUNC_DEF_HOOK,
AFTER_DEF_HOOK,
END_FUNC_HOOK,
AFTER_FUNC_HOOK,
RETURN_HOOK,
INLINE_FN_START,
INLINE_FN_END,
END_FILE_HOOK,
NUM_HOOKS,
};
#define TRUE 1
#define FALSE 0
struct range_list;
void add_hook(void *func, enum hook_type type);
typedef struct smatch_state *(merge_func_t)(struct smatch_state *s1, struct smatch_state *s2);
typedef struct smatch_state *(unmatched_func_t)(struct sm_state *state);
void add_merge_hook(int client_id, merge_func_t *func);
void add_unmatched_state_hook(int client_id, unmatched_func_t *func);
void add_pre_merge_hook(int client_id, void (*hook)(struct sm_state *cur, struct sm_state *other));
typedef void (scope_hook)(void *data);
void add_scope_hook(scope_hook *hook, void *data);
typedef void (func_hook)(const char *fn, struct expression *expr, void *data);
typedef void (implication_hook)(const char *fn, struct expression *call_expr,
struct expression *assign_expr, void *data);
typedef void (return_implies_hook)(struct expression *call_expr,
int param, char *key, char *value);
typedef int (implied_return_hook)(struct expression *call_expr, void *info, struct range_list **rl);
void add_function_hook(const char *look_for, func_hook *call_back, void *data);
void add_function_assign_hook(const char *look_for, func_hook *call_back,
void *info);
void add_implied_return_hook(const char *look_for,
implied_return_hook *call_back,
void *info);
void add_macro_assign_hook(const char *look_for, func_hook *call_back,
void *info);
void add_macro_assign_hook_extra(const char *look_for, func_hook *call_back,
void *info);
void return_implies_state(const char *look_for, long long start, long long end,
implication_hook *call_back, void *info);
void return_implies_state_sval(const char *look_for, sval_t start, sval_t end,
implication_hook *call_back, void *info);
void select_return_states_hook(int type, return_implies_hook *callback);
void select_return_states_before(void (*fn)(void));
void select_return_states_after(void (*fn)(void));
int get_implied_return(struct expression *expr, struct range_list **rl);
void allocate_hook_memory(void);
void allocate_tracker_array(int num_checks);
struct modification_data {
struct smatch_state *prev;
struct expression *cur;
};
typedef void (modification_hook)(struct sm_state *sm, struct expression *mod_expr);
void add_modification_hook(int owner, modification_hook *call_back);
void add_modification_hook_late(int owner, modification_hook *call_back);
struct smatch_state *get_modification_state(struct expression *expr);
int outside_of_function(void);
const char *get_filename(void);
const char *get_base_file(void);
char *get_function(void);
int get_lineno(void);
extern int final_pass;
extern struct symbol *cur_func_sym;
extern int option_debug;
extern int local_debug;
extern int debug_db;
bool debug_implied(void);
extern int option_info;
extern int option_spammy;
extern int option_timeout;
extern char *trace_variable;
extern struct stree *global_states;
int is_skipped_function(void);
int is_silenced_function(void);
extern bool implications_off;
int is_impossible_path(void);
void set_path_impossible(void);
extern FILE *sm_outfd;
extern FILE *sql_outfd;
extern FILE *caller_info_fd;
extern int sm_nr_checks;
extern int sm_nr_errors;
extern const char *progname;
#define sm_printf(msg...) do { \
if (final_pass || option_debug || local_debug || debug_db) \
fprintf(sm_outfd, msg); \
} while (0)
static inline void sm_prefix(void)
{
sm_printf("%s: %s:%d %s() ", progname, get_filename(), get_lineno(), get_function());
}
static inline void print_implied_debug_msg();
extern bool __silence_warnings_for_stmt;
#define sm_print_msg(type, msg...) \
do { \
print_implied_debug_msg(); \
if (!final_pass && !option_debug && !local_debug && !debug_db) \
break; \
if (__silence_warnings_for_stmt && !option_debug && !local_debug) \
break; \
if (!option_info && is_silenced_function()) \
break; \
sm_prefix(); \
if (type == 1) { \
sm_printf("warn: "); \
sm_nr_checks++; \
} else if (type == 2) { \
sm_printf("error: "); \
sm_nr_checks++; \
} else if (type == 3) { \
sm_printf("parse error: "); \
sm_nr_errors++; \
} \
sm_printf(msg); \
sm_printf("\n"); \
} while (0)
#define sm_msg(msg...) do { sm_print_msg(0, msg); } while (0)
extern char *implied_debug_msg;
static inline void print_implied_debug_msg(void)
{
static struct symbol *last_printed = NULL;
if (!implied_debug_msg)
return;
if (last_printed == cur_func_sym)
return;
last_printed = cur_func_sym;
sm_msg("%s", implied_debug_msg);
}
#define sm_debug(msg...) do { if (option_debug) sm_printf(msg); } while (0)
#define db_debug(msg...) do { if (option_debug || debug_db) sm_printf(msg); } while (0)
#define sm_info(msg...) do { \
if (option_debug || (option_info && final_pass)) { \
sm_prefix(); \
sm_printf("info: "); \
sm_printf(msg); \
sm_printf("\n"); \
} \
} while(0)
#define sm_warning(msg...) do { sm_print_msg(1, msg); } while (0)
#define sm_error(msg...) do { sm_print_msg(2, msg); } while (0)
#define sm_perror(msg...) do { sm_print_msg(3, msg); } while (0)
static inline void sm_fatal(const char *fmt, ...)
{
va_list args;
va_start(args, fmt);
vfprintf(sm_outfd, fmt, args);
va_end(args);
fprintf(sm_outfd, "\n");
exit(1);
}
static inline void sm_ierror(const char *fmt, ...)
{
va_list args;
sm_nr_errors++;
fprintf(sm_outfd, "internal error: ");
va_start(args, fmt);
vfprintf(sm_outfd, fmt, args);
va_end(args);
fprintf(sm_outfd, "\n");
}
#define ALIGN(x, a) (((x) + (a) - 1) & ~((a) - 1))
struct smatch_state *__get_state(int owner, const char *name, struct symbol *sym);
struct smatch_state *get_state(int owner, const char *name, struct symbol *sym);
struct smatch_state *get_state_expr(int owner, struct expression *expr);
struct state_list *get_possible_states(int owner, const char *name,
struct symbol *sym);
struct state_list *get_possible_states_expr(int owner, struct expression *expr);
struct sm_state *set_state(int owner, const char *name, struct symbol *sym,
struct smatch_state *state);
struct sm_state *set_state_expr(int owner, struct expression *expr,
struct smatch_state *state);
void delete_state(int owner, const char *name, struct symbol *sym);
void delete_state_expr(int owner, struct expression *expr);
void __delete_all_states_sym(struct symbol *sym);
void set_true_false_states(int owner, const char *name, struct symbol *sym,
struct smatch_state *true_state,
struct smatch_state *false_state);
void set_true_false_states_expr(int owner, struct expression *expr,
struct smatch_state *true_state,
struct smatch_state *false_state);
struct stree *get_all_states_from_stree(int owner, struct stree *source);
struct stree *get_all_states_stree(int id);
struct stree *__get_cur_stree(void);
int is_reachable(void);
void add_get_state_hook(void (*fn)(int owner, const char *name, struct symbol *sym));
DECLARE_PTR_LIST(int_stack, int);
char *alloc_string(const char *str);
char *alloc_string_newline(const char *str);
void free_string(char *str);
void append(char *dest, const char *data, int buff_len);
void remove_parens(char *str);
struct smatch_state *alloc_state_num(int num);
struct smatch_state *alloc_state_str(const char *name);
struct smatch_state *merge_str_state(struct smatch_state *s1, struct smatch_state *s2);
struct smatch_state *alloc_state_expr(struct expression *expr);
struct expression *get_argument_from_call_expr(struct expression_list *args,
int num);
struct expression *get_array_expr(struct expression *expr);
char *expr_to_var(struct expression *expr);
struct symbol *expr_to_sym(struct expression *expr);
char *expr_to_str(struct expression *expr);
char *expr_to_str_sym(struct expression *expr,
struct symbol **sym_ptr);
char *expr_to_var_sym(struct expression *expr,
struct symbol **sym_ptr);
char *expr_to_known_chunk_sym(struct expression *expr, struct symbol **sym);
char *expr_to_chunk_sym_vsl(struct expression *expr, struct symbol **sym, struct var_sym_list **vsl);
int get_complication_score(struct expression *expr);
int sym_name_is(const char *name, struct expression *expr);
int get_const_value(struct expression *expr, sval_t *sval);
int get_value(struct expression *expr, sval_t *val);
int get_implied_value(struct expression *expr, sval_t *val);
int get_implied_value_fast(struct expression *expr, sval_t *sval);
int get_implied_min(struct expression *expr, sval_t *sval);
int get_implied_max(struct expression *expr, sval_t *val);
int get_hard_max(struct expression *expr, sval_t *sval);
int get_fuzzy_min(struct expression *expr, sval_t *min);
int get_fuzzy_max(struct expression *expr, sval_t *max);
int get_absolute_min(struct expression *expr, sval_t *sval);
int get_absolute_max(struct expression *expr, sval_t *sval);
int parse_call_math(struct expression *expr, char *math, sval_t *val);
int parse_call_math_rl(struct expression *call, const char *math, struct range_list **rl);
const char *get_allocation_math(struct expression *expr);
char *get_value_in_terms_of_parameter_math(struct expression *expr);
char *get_value_in_terms_of_parameter_math_var_sym(const char *var, struct symbol *sym);
int expr_is_zero(struct expression *expr);
int known_condition_true(struct expression *expr);
int known_condition_false(struct expression *expr);
int implied_condition_true(struct expression *expr);
int implied_condition_false(struct expression *expr);
int can_integer_overflow(struct symbol *type, struct expression *expr);
void clear_math_cache(void);
void set_fast_math_only(void);
void clear_fast_math_only(void);
int is_array(struct expression *expr);
struct expression *get_array_base(struct expression *expr);
struct expression *get_array_offset(struct expression *expr);
const char *show_state(struct smatch_state *state);
struct statement *get_expression_statement(struct expression *expr);
struct expression *strip_parens(struct expression *expr);
struct expression *strip_expr(struct expression *expr);
struct expression *strip_expr_set_parent(struct expression *expr);
void scoped_state(int my_id, const char *name, struct symbol *sym);
int is_error_return(struct expression *expr);
int getting_address(struct expression *expr);
int get_struct_and_member(struct expression *expr, const char **type, const char **member);
char *get_member_name(struct expression *expr);
char *get_fnptr_name(struct expression *expr);
int cmp_pos(struct position pos1, struct position pos2);
int positions_eq(struct position pos1, struct position pos2);
struct statement *get_current_statement(void);
struct statement *get_prev_statement(void);
struct expression *get_last_expr_from_expression_stmt(struct expression *expr);
#define RETURN_VAR -1
#define LOCAL_SCOPE -2
#define FILE_SCOPE -3
#define GLOBAL_SCOPE -4
#define UNKNOWN_SCOPE -5
int get_param_num_from_sym(struct symbol *sym);
int get_param_num(struct expression *expr);
struct symbol *get_param_sym_from_num(int num);
int ms_since(struct timeval *start);
int parent_is_gone_var_sym(const char *name, struct symbol *sym);
int parent_is_gone(struct expression *expr);
int invert_op(int op);
int op_remove_assign(int op);
int expr_equiv(struct expression *one, struct expression *two);
void push_int(struct int_stack **stack, int num);
int pop_int(struct int_stack **stack);
struct symbol *get_real_base_type(struct symbol *sym);
int type_bytes(struct symbol *type);
int array_bytes(struct symbol *type);
struct symbol *get_pointer_type(struct expression *expr);
struct symbol *get_type(struct expression *expr);
struct symbol *get_final_type(struct expression *expr);
struct symbol *get_promoted_type(struct symbol *left, struct symbol *right);
int type_signed(struct symbol *base_type);
int expr_unsigned(struct expression *expr);
int expr_signed(struct expression *expr);
int returns_unsigned(struct symbol *base_type);
int is_pointer(struct expression *expr);
int returns_pointer(struct symbol *base_type);
sval_t sval_type_max(struct symbol *base_type);
sval_t sval_type_min(struct symbol *base_type);
int nr_bits(struct expression *expr);
int is_void_pointer(struct expression *expr);
int is_char_pointer(struct expression *expr);
int is_string(struct expression *expr);
bool is_struct_ptr(struct symbol *type);
int is_static(struct expression *expr);
bool is_local_variable(struct expression *expr);
int types_equiv(struct symbol *one, struct symbol *two);
bool type_fits(struct symbol *type, struct symbol *test);
int fn_static(void);
const char *global_static();
struct symbol *cur_func_return_type(void);
struct symbol *get_arg_type(struct expression *fn, int arg);
struct symbol *get_member_type_from_key(struct expression *expr, const char *key);
struct symbol *get_arg_type_from_key(struct expression *fn, int param, struct expression *arg, const char *key);
int is_struct(struct expression *expr);
char *type_to_str(struct symbol *type);
void add_ignore(int owner, const char *name, struct symbol *sym);
int is_ignored(int owner, const char *name, struct symbol *sym);
void add_ignore_expr(int owner, struct expression *expr);
int is_ignored_expr(int owner, struct expression *expr);
struct var_sym *alloc_var_sym(const char *var, struct symbol *sym);
struct var_sym_list *expr_to_vsl(struct expression *expr);
void add_var_sym(struct var_sym_list **list, const char *var, struct symbol *sym);
void add_var_sym_expr(struct var_sym_list **list, struct expression *expr);
void del_var_sym(struct var_sym_list **list, const char *var, struct symbol *sym);
int in_var_sym_list(struct var_sym_list *list, const char *var, struct symbol *sym);
struct var_sym_list *clone_var_sym_list(struct var_sym_list *from_vsl);
void merge_var_sym_list(struct var_sym_list **dest, struct var_sym_list *src);
struct var_sym_list *combine_var_sym_lists(struct var_sym_list *one, struct var_sym_list *two);
int var_sym_lists_equiv(struct var_sym_list *one, struct var_sym_list *two);
void free_var_sym_list(struct var_sym_list **list);
void free_var_syms_and_list(struct var_sym_list **list);
struct tracker *alloc_tracker(int owner, const char *name, struct symbol *sym);
void add_tracker(struct tracker_list **list, int owner, const char *name,
struct symbol *sym);
void add_tracker_expr(struct tracker_list **list, int owner, struct expression *expr);
void del_tracker(struct tracker_list **list, int owner, const char *name,
struct symbol *sym);
int in_tracker_list(struct tracker_list *list, int owner, const char *name,
struct symbol *sym);
void free_tracker_list(struct tracker_list **list);
void free_trackers_and_list(struct tracker_list **list);
int in_condition(void);
extern int __in_fake_assign;
extern int __in_fake_parameter_assign;
extern int __in_fake_struct_assign;
extern int in_fake_env;
void smatch (struct string_list *filelist);
int inside_loop(void);
int definitely_inside_loop(void);
struct expression *get_switch_expr(void);
int in_expression_statement(void);
void __process_post_op_stack(void);
void __split_expr(struct expression *expr);
void __split_label_stmt(struct statement *stmt);
void __split_stmt(struct statement *stmt);
extern int __in_function_def;
extern int __in_unmatched_hook;
extern int option_assume_loops;
extern int option_two_passes;
extern int option_no_db;
extern int option_file_output;
extern int option_time;
extern struct expression_list *big_expression_stack;
extern struct expression_list *big_condition_stack;
extern struct statement_list *big_statement_stack;
int is_assigned_call(struct expression *expr);
int inlinable(struct expression *expr);
extern int __inline_call;
extern struct expression *__inline_fn;
extern int __in_pre_condition;
extern int __bail_on_rest_of_function;
extern struct statement *__prev_stmt;
extern struct statement *__cur_stmt;
extern struct statement *__next_stmt;
void init_fake_env(void);
void end_fake_env(void);
int time_parsing_function(void);
bool taking_too_long(void);
struct expression *get_faked_expression(void);
void __fake_struct_member_assignments(struct expression *expr);
int is_no_inline_function(const char *function);
void __split_whole_condition(struct expression *expr);
void __handle_logic(struct expression *expr);
int is_condition(struct expression *expr);
int __handle_condition_assigns(struct expression *expr);
int __handle_select_assigns(struct expression *expr);
int __handle_expr_statement_assigns(struct expression *expr);
struct range_list_stack;
void param_limit_implications(struct expression *expr, int param, char *key, char *value, struct stree **implied);
struct stree *__implied_case_stree(struct expression *switch_expr,
struct range_list *case_rl,
struct range_list_stack **remaining_cases,
struct stree **raw_stree);
void overwrite_states_using_pool(struct sm_state *gate_sm, struct sm_state *pool_sm);
int assume(struct expression *expr);
void end_assume(void);
int impossible_assumption(struct expression *left, int op, sval_t sval);
bool has_dynamic_states(unsigned short owner);
void set_dynamic_states(unsigned short owner);
int in_warn_on_macro(void);
#define SMATCH_EXTRA 5
extern int RETURN_ID;
struct data_range {
sval_t min;
sval_t max;
};
#define MTAG_ALIAS_BIT (1ULL << 63)
#define MTAG_OFFSET_MASK 0xfffULL
#define MTAG_SEED 0xdead << 12
const extern unsigned long valid_ptr_min;
extern unsigned long valid_ptr_max;
extern const sval_t valid_ptr_min_sval;
extern sval_t valid_ptr_max_sval;
extern struct range_list *valid_ptr_rl;
void alloc_valid_ptr_rl(void);
static const sval_t array_min_sval = {
.type = &ptr_ctype,
{.value = 100000},
};
static const sval_t array_max_sval = {
.type = &ptr_ctype,
{.value = ULONG_MAX - 4095},
};
static const sval_t text_seg_min = {
.type = &ptr_ctype,
{.value = 4096},
};
static const sval_t text_seg_max = {
.type = &ptr_ctype,
{.value = ULONG_MAX - 4095},
};
static const sval_t data_seg_min = {
.type = &ptr_ctype,
{.value = 4096},
};
static const sval_t data_seg_max = {
.type = &ptr_ctype,
{.value = ULONG_MAX - 4095},
};
static const sval_t bss_seg_min = {
.type = &ptr_ctype,
{.value = 4096},
};
static const sval_t bss_seg_max = {
.type = &ptr_ctype,
{.value = ULONG_MAX - 4095},
};
static const sval_t stack_seg_min = {
.type = &ptr_ctype,
{.value = 4096},
};
static const sval_t stack_seg_max = {
.type = &ptr_ctype,
{.value = ULONG_MAX - 4095},
};
static const sval_t kmalloc_seg_min = {
.type = &ptr_ctype,
{.value = 4096},
};
static const sval_t kmalloc_seg_max = {
.type = &ptr_ctype,
{.value = ULONG_MAX - 4095},
};
static const sval_t vmalloc_seg_min = {
.type = &ptr_ctype,
{.value = 4096},
};
static const sval_t vmalloc_seg_max = {
.type = &ptr_ctype,
{.value = ULONG_MAX - 4095},
};
static const sval_t fn_ptr_min = {
.type = &ptr_ctype,
{.value = 4096},
};
static const sval_t fn_ptr_max = {
.type = &ptr_ctype,
{.value = ULONG_MAX - 4095},
};
char *get_other_name_sym(const char *name, struct symbol *sym, struct symbol **new_sym);
char *map_call_to_other_name_sym(const char *name, struct symbol *sym, struct symbol **new_sym);
char *map_long_to_short_name_sym(const char *name, struct symbol *sym, struct symbol **new_sym, bool use_stack);
#define STRLEN_MAX_RET 1010101
int get_absolute_min_helper(struct expression *expr, sval_t *sval);
int get_absolute_max_helper(struct expression *expr, sval_t *sval);
int get_db_type_rl(struct expression *expr, struct range_list **rl);
int get_mtag_rl(struct expression *expr, struct range_list **rl);
int get_array_rl(struct expression *expr, struct range_list **rl);
struct stree *__swap_cur_stree(struct stree *stree);
void __push_fake_cur_stree();
struct stree *__pop_fake_cur_stree();
void __free_fake_cur_stree();
void __set_fake_cur_stree_fast(struct stree *stree);
void __pop_fake_cur_stree_fast(void);
void __merge_stree_into_cur(struct stree *stree);
int unreachable(void);
void __set_cur_stree_readonly(void);
void __set_cur_stree_writable(void);
void __set_sm(struct sm_state *sm);
void __set_sm_cur_stree(struct sm_state *sm);
void __set_sm_fake_stree(struct sm_state *sm);
void __set_true_false_sm(struct sm_state *true_state,
struct sm_state *false_state);
void nullify_path(void);
void __match_nullify_path_hook(const char *fn, struct expression *expr,
void *unused);
void __unnullify_path(void);
int __path_is_null(void);
void save_all_states(void);
void restore_all_states(void);
void free_goto_stack(void);
void clear_all_states(void);
struct sm_state *get_sm_state(int owner, const char *name,
struct symbol *sym);
struct sm_state *get_sm_state_expr(int owner, struct expression *expr);
void __push_true_states(void);
void __use_false_states(void);
void __discard_false_states(void);
void __merge_false_states(void);
void __merge_true_states(void);
void __negate_cond_stacks(void);
void __use_pre_cond_states(void);
void __use_cond_true_states(void);
void __use_cond_false_states(void);
void __push_cond_stacks(void);
void __fold_in_set_states(void);
void __free_set_states(void);
struct stree *__copy_cond_true_states(void);
struct stree *__copy_cond_false_states(void);
struct stree *__pop_cond_true_stack(void);
struct stree *__pop_cond_false_stack(void);
void __and_cond_states(void);
void __or_cond_states(void);
void __save_pre_cond_states(void);
void __discard_pre_cond_states(void);
struct stree *__get_true_states(void);
struct stree *__get_false_states(void);
void __use_cond_states(void);
extern struct state_list *__last_base_slist;
void __push_continues(void);
void __discard_continues(void);
void __process_continues(void);
void __merge_continues(void);
void __push_breaks(void);
void __process_breaks(void);
int __has_breaks(void);
void __merge_breaks(void);
void __use_breaks(void);
void __save_switch_states(struct expression *switch_expr);
void __discard_switches(void);
int have_remaining_cases(void);
void __merge_switches(struct expression *switch_expr, struct range_list *case_rl);
void __push_default(void);
void __set_default(void);
int __pop_default(void);
void __push_conditions(void);
void __discard_conditions(void);
void __save_gotos(const char *name, struct symbol *sym);
void __merge_gotos(const char *name, struct symbol *sym);
void __print_cur_stree(void);
bool __print_states(const char *owner);
typedef void (check_tracker_hook)(int owner, const char *name, struct symbol *sym, struct smatch_state *state);
void add_check_tracker(const char *check_name, check_tracker_hook *fn);
void __pass_to_client(void *data, enum hook_type type);
void __pass_case_to_client(struct expression *switch_expr,
struct range_list *rl);
int __has_merge_function(int client_id);
struct smatch_state *__client_merge_function(int owner,
struct smatch_state *s1,
struct smatch_state *s2);
struct smatch_state *__client_unmatched_state_function(struct sm_state *sm);
void call_pre_merge_hook(struct sm_state *cur, struct sm_state *other);
void __push_scope_hooks(void);
void __call_scope_hooks(void);
void create_function_hook_hash(void);
void __match_initializer_call(struct symbol *sym);
enum info_type {
INTERNAL = 0,
PARAM_CLEARED = 101,
PARAM_LIMIT = 103,
PARAM_FILTER = 104,
PARAM_VALUE = 1001,
BUF_SIZE = 1002,
CAPPED_DATA = 1004,
RETURN_VALUE = 1005,
DEREFERENCE = 1006,
RANGE_CAP = 1007,
ABSOLUTE_LIMITS = 1010,
PARAM_ADD = 1012,
PARAM_FREED = 1013,
DATA_SOURCE = 1014,
FUZZY_MAX = 1015,
HARD_MAX = 2015,
STR_LEN = 1016,
ARRAY_LEN = 1017,
CAPABLE = 1018,
NS_CAPABLE = 1019,
CONTAINER = 1020,
CASTED_CALL = 1021,
TYPE_LINK = 1022,
UNTRACKED_PARAM = 1023,
LOST_PARAM = 2023,
CULL_PATH = 1024,
PARAM_SET = 1025,
PARAM_USED = 1026,
BYTE_UNITS = 1027,
COMPARE_LIMIT = 1028,
PARAM_COMPARE = 1029,
CONSTRAINT = 1031,
PASSES_TYPE = 1032,
CONSTRAINT_REQUIRED = 1033,
BIT_INFO = 1034,
NOSPEC = 1035,
NOSPEC_WB = 1036,
STMT_CNT = 1037,
TERMINATED = 1038,
FRESH_ALLOC = 1044,
ALLOCATOR = 1045,
USER_DATA = 8017,
USER_DATA_SET = 9017,
NO_OVERFLOW = 8018,
NO_OVERFLOW_SIMPLE = 8019,
LOCKED = 8020,
UNLOCKED = 8021,
HALF_LOCKED = 9022,
LOCK_RESTORED = 9023,
KNOWN_LOCKED = 9024,
KNOWN_UNLOCKED = 9025,
SET_FS = 8022,
ATOMIC_INC = 8023,
ATOMIC_DEC = 8024,
REFCOUNT = 9025,
NO_SIDE_EFFECT = 8025,
FN_ARG_LINK = 8028,
DATA_VALUE = 8029,
ARRAYSIZE_ARG = 8033,
SIZEOF_ARG = 8034,
MEMORY_TAG = 8036,
MTAG_ASSIGN = 8035,
STRING_VALUE = 8041,
BYTE_COUNT = 8050,
ELEM_COUNT = 8051,
ELEM_LAST = 8052,
USED_LAST = 8053,
USED_COUNT = 8054,
};
extern struct sqlite3 *smatch_db;
extern struct sqlite3 *mem_db;
extern struct sqlite3 *cache_db;
void db_ignore_states(int id);
void select_caller_info_hook(void (*callback)(const char *name, struct symbol *sym, char *key, char *value), int type);
void add_member_info_callback(int owner, void (*callback)(struct expression *call, int param, char *printed_name, struct sm_state *sm));
void add_caller_info_callback(int owner, void (*callback)(struct expression *call, int param, char *printed_name, struct sm_state *sm));
void add_split_return_callback(void (*fn)(int return_id, char *return_ranges, struct expression *returned_expr));
void add_returned_member_callback(int owner, void (*callback)(int return_id, char *return_ranges, struct expression *expr, char *printed_name, struct smatch_state *state));
void select_call_implies_hook(int type, void (*callback)(struct expression *call, struct expression *arg, char *key, char *value));
void select_return_implies_hook(int type, void (*callback)(struct expression *call, struct expression *arg, char *key, char *value));
struct range_list *db_return_vals(struct expression *expr);
struct range_list *db_return_vals_from_str(const char *fn_name);
struct range_list *db_return_vals_no_args(struct expression *expr);
char *return_state_to_var_sym(struct expression *expr, int param, const char *key, struct symbol **sym);
char *get_chunk_from_key(struct expression *arg, char *key, struct symbol **sym, struct var_sym_list **vsl);
char *get_variable_from_key(struct expression *arg, const char *key, struct symbol **sym);
const char *state_name_to_param_name(const char *state_name, const char *param_name);
const char *get_param_name_var_sym(const char *name, struct symbol *sym);
const char *get_param_name(struct sm_state *sm);
const char *get_mtag_name_var_sym(const char *state_name, struct symbol *sym);
const char *get_mtag_name_expr(struct expression *expr);
char *get_data_info_name(struct expression *expr);
char *sm_to_arg_name(struct expression *expr, struct sm_state *sm);
int is_recursive_member(const char *param_name);
char *escape_newlines(const char *str);
void sql_exec(struct sqlite3 *db, int (*callback)(void*, int, char**, char**), void *data, const char *sql);
#define sql_helper(db, call_back, data, sql...) \
do { \
char sql_txt[1024]; \
\
sqlite3_snprintf(sizeof(sql_txt), sql_txt, sql); \
db_debug("debug: %s\n", sql_txt); \
sql_exec(db, call_back, data, sql_txt); \
} while (0)
#define run_sql(call_back, data, sql...) \
do { \
if (option_no_db) \
break; \
sql_helper(smatch_db, call_back, data, sql); \
} while (0)
#define mem_sql(call_back, data, sql...) \
sql_helper(mem_db, call_back, data, sql)
#define cache_sql(call_back, data, sql...) \
sql_helper(cache_db, call_back, data, sql)
#define sql_insert_helper(table, db, ignore, late, values...) \
do { \
struct sqlite3 *_db = db; \
\
if (__inline_fn && !_db) \
_db = mem_db; \
if (_db) { \
char buf[1024]; \
char *err, *p = buf; \
int rc; \
\
p += snprintf(p, buf + sizeof(buf) - p, \
"insert %sinto %s values (", \
ignore ? "or ignore " : "", #table); \
p += snprintf(p, buf + sizeof(buf) - p, values); \
p += snprintf(p, buf + sizeof(buf) - p, ");"); \
db_debug("mem-db: %s\n", buf); \
rc = sqlite3_exec(_db, buf, NULL, NULL, &err); \
if (rc != SQLITE_OK) { \
sm_ierror("SQL error #2: %s", err); \
sm_ierror("SQL: '%s'", buf); \
parse_error = 1; \
} \
break; \
} \
if (option_info) { \
FILE *tmp_fd = sm_outfd; \
sm_outfd = sql_outfd; \
sm_prefix(); \
sm_printf("SQL%s: insert %sinto " #table " values(", \
late ? "_late" : "", ignore ? "or ignore " : ""); \
sm_printf(values); \
sm_printf(");\n"); \
sm_outfd = tmp_fd; \
} \
} while (0)
#define sql_insert(table, values...) sql_insert_helper(table, 0, 0, 0, values);
#define sql_insert_or_ignore(table, values...) sql_insert_helper(table, 0, 1, 0, values);
#define sql_insert_late(table, values...) sql_insert_helper(table, 0, 0, 1, values);
#define sql_insert_cache(table, values...) sql_insert_helper(table, cache_db, 1, 0, values);
char *get_static_filter(struct symbol *sym);
void sql_insert_return_states(int return_id, const char *return_ranges,
int type, int param, const char *key, const char *value);
void sql_insert_caller_info(struct expression *call, int type, int param,
const char *key, const char *value);
void sql_insert_function_ptr(const char *fn, const char *struct_name);
void sql_insert_return_values(const char *return_values);
void sql_insert_return_implies(int type, int param, const char *key, const char *value);
void sql_insert_function_type_size(const char *member, const char *ranges);
void sql_insert_function_type_info(int type, const char *struct_type, const char *member, const char *value);
void sql_insert_type_info(int type, const char *member, const char *value);
void sql_insert_local_values(const char *name, const char *value);
void sql_insert_function_type_value(const char *type, const char *value);
void sql_insert_function_type(int param, const char *value);
void sql_insert_parameter_name(int param, const char *value);
void sql_insert_data_info(struct expression *data, int type, const char *value);
void sql_insert_data_info_var_sym(const char *var, struct symbol *sym, int type, const char *value);
void sql_save_constraint(const char *con);
void sql_save_constraint_required(const char *data, int op, const char *limit);
void sql_copy_constraint_required(const char *new_limit, const char *old_limit);
void sql_insert_fn_ptr_data_link(const char *ptr, const char *data);
void sql_insert_fn_data_link(struct expression *fn, int type, int param, const char *key, const char *value);
void sql_insert_mtag_about(mtag_t tag, const char *left_name, const char *right_name);
void sql_insert_mtag_info(mtag_t tag, int type, const char *value);
void sql_insert_mtag_map(mtag_t container, int container_offset, mtag_t tag, int tag_offset);
void sql_insert_mtag_alias(mtag_t orig, mtag_t alias);
int mtag_map_select_container(mtag_t tag, int container_offset, mtag_t *container);
int mtag_map_select_tag(mtag_t container, int offset, mtag_t *tag);
struct smatch_state *get_mtag_return(struct expression *expr, struct smatch_state *state);
struct range_list *swap_mtag_seed(struct expression *expr, struct range_list *rl);
void sql_select_return_states(const char *cols, struct expression *call,
int (*callback)(void*, int, char**, char**), void *info);
void sql_select_call_implies(const char *cols, struct expression *call,
int (*callback)(void*, int, char**, char**));
void open_smatch_db(char *db_file);
int open_data_file(const char *filename);
int open_schema_file(const char *schema);
struct token *get_tokens_file(const char *filename);
extern char *option_debug_check;
extern char *option_project_str;
extern char *bin_dir;
extern char *data_dir;
extern int option_no_data;
extern int option_full_path;
extern int option_call_tree;
extern int num_checks;
enum project_type {
PROJ_NONE,
PROJ_KERNEL,
PROJ_WINE,
PROJ_ILLUMOS_KERNEL,
PROJ_ILLUMOS_USER,
PROJ_UNKNOWN,
};
extern enum project_type option_project;
const char *check_name(unsigned short id);
int id_from_name(const char *name);
int get_array_size(struct expression *expr);
int get_array_size_bytes(struct expression *expr);
int get_array_size_bytes_min(struct expression *expr);
int get_array_size_bytes_max(struct expression *expr);
struct range_list *get_array_size_bytes_rl(struct expression *expr);
int get_real_array_size(struct expression *expr);
int last_member_is_resizable(struct symbol *type);
int get_implied_strlen(struct expression *expr, struct range_list **rl);
int get_size_from_strlen(struct expression *expr);
int is_capped(struct expression *expr);
int is_capped_var_sym(const char *name, struct symbol *sym);
int is_user_macro(struct expression *expr);
int is_capped_user_data(struct expression *expr);
int implied_user_data(struct expression *expr, struct range_list **rl);
struct stree *get_user_stree(void);
int get_user_rl(struct expression *expr, struct range_list **rl);
int is_user_rl(struct expression *expr);
int get_user_rl_var_sym(const char *name, struct symbol *sym, struct range_list **rl);
bool user_rl_capped(struct expression *expr);
struct range_list *var_user_rl(struct expression *expr);
void print_held_locks();
extern int check_assigned_expr_id;
struct expression *get_assigned_expr(struct expression *expr);
struct expression *get_assigned_expr_name_sym(const char *name, struct symbol *sym);
void __add_return_to_param_mapping(struct expression *assign, const char *return_string);
char *map_call_to_param_name_sym(struct expression *expr, struct symbol **sym);
extern int comparison_id;
#define UNKNOWN_COMPARISON 0
#define IMPOSSIBLE_COMPARISON -1
struct compare_data {
struct expression *left;
const char *left_var;
struct var_sym_list *left_vsl;
int comparison;
struct expression *right;
const char *right_var;
struct var_sym_list *right_vsl;
};
DECLARE_ALLOCATOR(compare_data);
struct smatch_state *alloc_compare_state(
struct expression *left,
const char *left_var, struct var_sym_list *left_vsl,
int comparison,
struct expression *right,
const char *right_var, struct var_sym_list *right_vsl);
int comparison_intersection(int orig, int op);
int merge_comparisons(int one, int two);
int combine_comparisons(int left_compare, int right_compare);
int state_to_comparison(struct smatch_state *state);
struct smatch_state *merge_compare_states(struct smatch_state *s1, struct smatch_state *s2);
int get_comparison(struct expression *left, struct expression *right);
int get_comparison_no_extra(struct expression *a, struct expression *b);
int get_comparison_strings(const char *one, const char *two);
int possible_comparison(struct expression *a, int comparison, struct expression *b);
struct state_list *get_all_comparisons(struct expression *expr);
struct state_list *get_all_possible_equal_comparisons(struct expression *expr);
void __add_return_comparison(struct expression *call, const char *range);
void __add_comparison_info(struct expression *expr, struct expression *call, const char *range);
char *get_printed_param_name(struct expression *call, const char *param_name, struct symbol *param_sym);
char *name_sym_to_param_comparison(const char *name, struct symbol *sym);
char *expr_equal_to_param(struct expression *expr, int ignore);
char *expr_lte_to_param(struct expression *expr, int ignore);
char *expr_param_comparison(struct expression *expr, int ignore);
int flip_comparison(int op);
int negate_comparison(int op);
int remove_unsigned_from_comparison(int op);
int param_compare_limit_is_impossible(struct expression *expr, int left_param, char *left_key, char *value);
void filter_by_comparison(struct range_list **rl, int comparison, struct range_list *right);
void __compare_param_limit_hook(struct expression *left_expr, struct expression *right_expr,
const char *state_name,
struct smatch_state *true_state, struct smatch_state *false_state);
int impossibly_high_comparison(struct expression *expr);
sval_t *sval_alloc(sval_t sval);
sval_t *sval_alloc_permanent(sval_t sval);
sval_t sval_blank(struct expression *expr);
sval_t sval_type_val(struct symbol *type, long long val);
sval_t sval_type_fval(struct symbol *type, long double fval);
sval_t sval_from_val(struct expression *expr, long long val);
sval_t sval_from_fval(struct expression *expr, long double fval);
int sval_is_ptr(sval_t sval);
bool sval_is_fp(sval_t sval);
int sval_unsigned(sval_t sval);
int sval_signed(sval_t sval);
int sval_bits(sval_t sval);
int sval_bits_used(sval_t sval);
int sval_is_negative(sval_t sval);
int sval_is_positive(sval_t sval);
int sval_is_min(sval_t sval);
int sval_is_max(sval_t sval);
int sval_is_a_min(sval_t sval);
int sval_is_a_max(sval_t sval);
int sval_is_negative_min(sval_t sval);
int sval_cmp_t(struct symbol *type, sval_t one, sval_t two);
int sval_cmp_val(sval_t one, long long val);
sval_t sval_min(sval_t one, sval_t two);
sval_t sval_max(sval_t one, sval_t two);
int sval_too_low(struct symbol *type, sval_t sval);
int sval_too_high(struct symbol *type, sval_t sval);
int sval_fits(struct symbol *type, sval_t sval);
sval_t sval_cast(struct symbol *type, sval_t sval);
sval_t sval_preop(sval_t sval, int op);
sval_t sval_binop(sval_t left, int op, sval_t right);
int sval_binop_overflows(sval_t left, int op, sval_t right);
int sval_binop_overflows_no_sign(sval_t left, int op, sval_t right);
int find_first_zero_bit(unsigned long long uvalue);
int sm_fls64(unsigned long long uvalue);
unsigned long long fls_mask(unsigned long long uvalue);
unsigned long long sval_fls_mask(sval_t sval);
const char *sval_to_str(sval_t sval);
const char *sval_to_str_or_err_ptr(sval_t sval);
const char *sval_to_numstr(sval_t sval);
sval_t ll_to_sval(long long val);
int list_has_string(struct string_list *str_list, const char *str);
int insert_string(struct string_list **str_list, const char *str);
struct string_list *clone_str_list(struct string_list *orig);
struct string_list *combine_string_lists(struct string_list *one, struct string_list *two);
struct stree *get_start_states(void);
int has_symbol(struct expression *expr, struct symbol *sym);
int has_variable(struct expression *expr, struct expression *var);
int has_inc_dec(struct expression *expr);
struct smatch_state *get_stored_condition(struct expression *expr);
struct expression_list *get_conditions(struct expression *expr);
struct sm_state *stored_condition_implication_hook(struct expression *expr,
struct state_list **true_stack,
struct state_list **false_stack);
struct sm_state *parsed_condition_implication_hook(struct expression *expr,
struct state_list **true_stack,
struct state_list **false_stack);
struct sm_state *comparison_implication_hook(struct expression *expr,
struct state_list **true_stack,
struct state_list **false_stack);
int get_formatted_string_size(struct expression *call, int arg);
int get_formatted_string_min_size(struct expression *call, int arg);
int param_was_set(struct expression *expr);
int param_was_set_var_sym(const char *name, struct symbol *sym);
void print_limited_param_set(int return_id, char *return_ranges, struct expression *expr);
int param_has_filter_data(struct sm_state *sm);
void set_up_link_functions(int id, int linkid);
struct smatch_state *merge_link_states(struct smatch_state *s1, struct smatch_state *s2);
void store_link(int link_id, const char *name, struct symbol *sym, const char *link_name, struct symbol *link_sym);
const char *limit_type_str(unsigned int limit_type);
struct expression *get_size_variable(struct expression *buf, int *limit_type);
struct expression *get_array_variable(struct expression *size);
int buf_comparison_index_ok(struct expression *expr);
void mark_untracked(struct expression *expr, int param, char *key, char *value);
void add_untracked_param_hook(void (func)(struct expression *call, int param));
void add_lost_param_hook(void (func)(struct expression *call, int param));
void mark_all_params_untracked(int return_id, char *return_ranges, struct expression *expr);
struct state_list *get_strings(struct expression *expr);
struct expression *fake_string_from_mtag(mtag_t tag);
int estate_get_single_value(struct smatch_state *state, sval_t *sval);
int get_address_rl(struct expression *expr, struct range_list **rl);
int get_member_offset(struct symbol *type, const char *member_name);
int get_member_offset_from_deref(struct expression *expr);
void __get_state_hook(int owner, const char *name, struct symbol *sym);
int db_var_is_array_limit(struct expression *array, const char *name, struct var_sym_list *vsl);
struct range_list *get_fs(void);
struct stree *get_all_return_states(void);
struct stree_stack *get_all_return_strees(void);
int on_atomic_dec_path(void);
int was_inced(const char *name, struct symbol *sym);
void set_refcount_inc(char *name, struct symbol *sym);
void set_refcount_dec(char *name, struct symbol *sym);
char *get_constraint_str(struct expression *expr);
struct constraint_list *get_constraints(struct expression *expr);
char *unmet_constraint(struct expression *data, struct expression *offset);
char *get_required_constraint(const char *data_str);
int get_param_from_container_of(struct expression *expr);
int get_offset_from_container_of(struct expression *expr);
char *get_container_name(struct expression *container, struct expression *expr);
mtag_t str_to_mtag(const char *str);
int get_string_mtag(struct expression *expr, mtag_t *tag);
int get_toplevel_mtag(struct symbol *sym, mtag_t *tag);
int create_mtag_alias(mtag_t tag, struct expression *expr, mtag_t *new);
int expr_to_mtag_offset(struct expression *expr, mtag_t *tag, int *offset);
void update_mtag_data(struct expression *expr, struct smatch_state *state);
int get_mtag_sval(struct expression *expr, sval_t *sval);
const char *get_syscall_arg_type(struct symbol *sym);
struct bit_info *rl_to_binfo(struct range_list *rl);
struct bit_info *get_bit_info(struct expression *expr);
struct bit_info *get_bit_info_var_sym(const char *name, struct symbol *sym);
extern int option_mem;
unsigned long get_mem_kb(void);
unsigned long get_max_memory(void);
bool is_nospec(struct expression *expr);
long get_stmt_cnt(void);
bool is_nul_terminated_var_sym(const char *name, struct symbol *sym);
bool is_nul_terminated(struct expression *expr);
bool is_ignored_kernel_data(const char *name);
bool is_fresh_alloc_var_sym(const char *var, struct symbol *sym);
bool is_fresh_alloc(struct expression *expr);
static inline bool type_is_ptr(struct symbol *type)
{
return type &&
(type->type == SYM_PTR ||
type->type == SYM_ARRAY ||
type->type == SYM_FN);
}
static inline bool type_is_fp(struct symbol *type)
{
return type &&
(type == &float_ctype ||
type == &double_ctype ||
type == &ldouble_ctype);
}
static inline int type_bits(struct symbol *type)
{
if (!type)
return 0;
if (type_is_ptr(type))
return bits_in_pointer;
if (!type->examined)
examine_symbol_type(type);
return type->bit_size;
}
static inline int type_unsigned(struct symbol *base_type)
{
if (!base_type)
return 0;
if (is_ptr_type(base_type))
return 1;
if (base_type->ctype.modifiers & MOD_UNSIGNED)
return 1;
return 0;
}
static inline int type_positive_bits(struct symbol *type)
{
if (!type)
return 0;
if (is_ptr_type(type))
return bits_in_pointer;
if (type_unsigned(type))
return type_bits(type);
return type_bits(type) - 1;
}
static inline int sval_positive_bits(sval_t sval)
{
return type_positive_bits(sval.type);
}
static inline int fp_cmp(sval_t one, sval_t two)
{
struct symbol *type;
if (sval_is_fp(one) && sval_is_fp(two))
type = type_bits(one.type) > type_bits(two.type) ? one.type : two.type;
else if (sval_is_fp(one))
type = one.type;
else
type = two.type;
one = sval_cast(type, one);
two = sval_cast(type, two);
if (one.type == &float_ctype) {
if (one.fvalue < two.fvalue)
return -1;
if (one.fvalue == two.fvalue)
return 0;
return 1;
}
if (one.type == &double_ctype) {
if (one.dvalue < two.dvalue)
return -1;
if (one.dvalue == two.dvalue)
return 0;
return 1;
}
if (one.type == &ldouble_ctype) {
if (one.ldvalue < two.ldvalue)
return -1;
if (one.ldvalue == two.ldvalue)
return 0;
return 1;
}
sm_perror("bad type in fp_cmp(): %s", type_to_str(type));
return 1;
}
static inline int sval_cmp(sval_t one, sval_t two)
{
struct symbol *type;
if (sval_is_fp(one) || sval_is_fp(two))
return fp_cmp(one, two);
type = one.type;
if (sval_positive_bits(two) > sval_positive_bits(one))
type = two.type;
if (type_bits(type) < 31)
type = &int_ctype;
one = sval_cast(type, one);
two = sval_cast(type, two);
if (type_unsigned(type)) {
if (one.uvalue < two.uvalue)
return -1;
if (one.uvalue == two.uvalue)
return 0;
return 1;
}
if (one.value < two.value)
return -1;
if (one.value == two.value)
return 0;
return 1;
}
#endif
