Mercurial > illumos > git > illumos-gate
view usr/src/tools/smatch/src/smatch_db.c @ 19430:6e69910f8ded
12257 resync smatch to 0.6.1-rc1-il-4
Reviewed by: Toomas Soome <tsoome@me.com>
Reviewed by: Robert Mustacchi <rm@fingolfin.org>
Approved by: Dan McDonald <danmcd@joyent.com>
| author | John Levon <john.levon@joyent.com> |
|---|---|
| date | Wed, 22 Jan 2020 16:05:13 -0800 |
| parents | 93e34922a8e2 |
| children | cfe29b4ae963 |
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/* * Copyright (C) 2010 Dan Carpenter. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see http://www.gnu.org/copyleft/gpl.txt */ #include <string.h> #include <errno.h> #include <unistd.h> #include <ctype.h> #include "smatch.h" #include "smatch_slist.h" #include "smatch_extra.h" struct sqlite3 *smatch_db; struct sqlite3 *mem_db; struct sqlite3 *cache_db; int debug_db; static int return_id; static void call_return_state_hooks(struct expression *expr); #define SQLITE_CACHE_PAGES 1000 struct def_callback { int hook_type; void (*callback)(const char *name, struct symbol *sym, char *key, char *value); }; ALLOCATOR(def_callback, "definition db hook callbacks"); DECLARE_PTR_LIST(callback_list, struct def_callback); static struct callback_list *select_caller_info_callbacks; struct member_info_callback { int owner; void (*callback)(struct expression *call, int param, char *printed_name, struct sm_state *sm); }; ALLOCATOR(member_info_callback, "caller_info callbacks"); DECLARE_PTR_LIST(member_info_cb_list, struct member_info_callback); static struct member_info_cb_list *member_callbacks; struct returned_state_callback { void (*callback)(int return_id, char *return_ranges, struct expression *return_expr); }; ALLOCATOR(returned_state_callback, "returned state callbacks"); DECLARE_PTR_LIST(returned_state_cb_list, struct returned_state_callback); static struct returned_state_cb_list *returned_state_callbacks; struct returned_member_callback { int owner; void (*callback)(int return_id, char *return_ranges, struct expression *expr, char *printed_name, struct smatch_state *state); }; ALLOCATOR(returned_member_callback, "returned member callbacks"); DECLARE_PTR_LIST(returned_member_cb_list, struct returned_member_callback); static struct returned_member_cb_list *returned_member_callbacks; struct db_implies_callback { int type; void (*callback)(struct expression *call, struct expression *arg, char *key, char *value); }; ALLOCATOR(db_implies_callback, "return_implies callbacks"); DECLARE_PTR_LIST(db_implies_cb_list, struct db_implies_callback); static struct db_implies_cb_list *return_implies_cb_list; static struct db_implies_cb_list *call_implies_cb_list; /* silently truncates if needed. */ char *escape_newlines(const char *str) { char buf[1024] = ""; bool found = false; int i, j; for (i = 0, j = 0; str[i] != '\0' && j != sizeof(buf); i++, j++) { if (str[i] != '\r' && str[i] != '\n') { buf[j] = str[i]; continue; } found = true; buf[j++] = '\\'; if (j == sizeof(buf)) break; buf[j] = 'n'; } if (!found) return alloc_sname(str); if (j == sizeof(buf)) buf[j - 1] = '\0'; return alloc_sname(buf); } static int print_sql_output(void *unused, int argc, char **argv, char **azColName) { int i; for (i = 0; i < argc; i++) { if (i != 0) sm_printf(", "); sm_printf("%s", argv[i]); } sm_printf("\n"); return 0; } void sql_exec(struct sqlite3 *db, int (*callback)(void*, int, char**, char**), void *data, const char *sql) { char *err = NULL; int rc; if (!db) return; if (option_debug || debug_db) { sm_msg("%s", sql); if (strncasecmp(sql, "select", strlen("select")) == 0) sqlite3_exec(db, sql, print_sql_output, NULL, NULL); } rc = sqlite3_exec(db, sql, callback, data, &err); if (rc != SQLITE_OK && !parse_error) { sm_ierror("%s:%d SQL error #2: %s\n", get_filename(), get_lineno(), err); sm_ierror("%s:%d SQL: '%s'\n", get_filename(), get_lineno(), sql); parse_error = 1; } } static int replace_count; static char **replace_table; static const char *replace_return_ranges(const char *return_ranges) { int i; if (!get_function()) { /* I have no idea why EXPORT_SYMBOL() is here */ return return_ranges; } for (i = 0; i < replace_count; i += 3) { if (strcmp(replace_table[i + 0], get_function()) == 0) { if (strcmp(replace_table[i + 1], return_ranges) == 0) return replace_table[i + 2]; } } return return_ranges; } static char *use_states; static int get_db_state_count(void) { struct sm_state *sm; int count = 0; FOR_EACH_SM(__get_cur_stree(), sm) { if (sm->owner == USHRT_MAX) continue; if (use_states[sm->owner]) count++; } END_FOR_EACH_SM(sm); return count; } void db_ignore_states(int id) { use_states[id] = 0; } void sql_insert_return_states(int return_id, const char *return_ranges, int type, int param, const char *key, const char *value) { if (key && strlen(key) >= 80) return; return_ranges = replace_return_ranges(return_ranges); sql_insert(return_states, "'%s', '%s', %lu, %d, '%s', %d, %d, %d, '%s', '%s'", get_base_file(), get_function(), (unsigned long)__inline_fn, return_id, return_ranges, fn_static(), type, param, key, value); } static struct string_list *common_funcs; static int is_common_function(const char *fn) { char *tmp; if (!fn) return 0; if (strncmp(fn, "__builtin_", 10) == 0) return 1; FOR_EACH_PTR(common_funcs, tmp) { if (strcmp(tmp, fn) == 0) return 1; } END_FOR_EACH_PTR(tmp); return 0; } static char *function_signature(void) { return type_to_str(get_real_base_type(cur_func_sym)); } void sql_insert_caller_info(struct expression *call, int type, int param, const char *key, const char *value) { FILE *tmp_fd = sm_outfd; char *fn; if (!option_info && !__inline_call) return; if (key && strlen(key) >= 80) return; fn = get_fnptr_name(call->fn); if (!fn) return; if (__inline_call) { mem_sql(NULL, NULL, "insert into caller_info values ('%s', '%s', '%s', %lu, %d, %d, %d, '%s', '%s');", get_base_file(), get_function(), fn, (unsigned long)call, is_static(call->fn), type, param, key, value); } if (!option_info) return; if (strncmp(fn, "__builtin_", 10) == 0) return; if (type != INTERNAL && is_common_function(fn)) return; sm_outfd = caller_info_fd; sm_msg("SQL_caller_info: insert into caller_info values (" "'%s', '%s', '%s', %%CALL_ID%%, %d, %d, %d, '%s', '%s');", get_base_file(), get_function(), fn, is_static(call->fn), type, param, key, value); sm_outfd = tmp_fd; free_string(fn); } void sql_insert_function_ptr(const char *fn, const char *struct_name) { sql_insert_or_ignore(function_ptr, "'%s', '%s', '%s', 0", get_base_file(), fn, struct_name); } void sql_insert_return_implies(int type, int param, const char *key, const char *value) { sql_insert_or_ignore(return_implies, "'%s', '%s', %lu, %d, %d, %d, '%s', '%s'", get_base_file(), get_function(), (unsigned long)__inline_fn, fn_static(), type, param, key, value); } void sql_insert_call_implies(int type, int param, const char *key, const char *value) { sql_insert_or_ignore(call_implies, "'%s', '%s', %lu, %d, %d, %d, '%s', '%s'", get_base_file(), get_function(), (unsigned long)__inline_fn, fn_static(), type, param, key, value); } void sql_insert_function_type_size(const char *member, const char *ranges) { sql_insert(function_type_size, "'%s', '%s', '%s', '%s'", get_base_file(), get_function(), member, ranges); } void sql_insert_function_type_info(int type, const char *struct_type, const char *member, const char *value) { sql_insert(function_type_info, "'%s', '%s', %d, '%s', '%s', '%s'", get_base_file(), get_function(), type, struct_type, member, value); } void sql_insert_type_info(int type, const char *member, const char *value) { sql_insert_cache(type_info, "'%s', %d, '%s', '%s'", get_base_file(), type, member, value); } void sql_insert_local_values(const char *name, const char *value) { sql_insert(local_values, "'%s', '%s', '%s'", get_base_file(), name, value); } void sql_insert_function_type_value(const char *type, const char *value) { sql_insert(function_type_value, "'%s', '%s', '%s', '%s'", get_base_file(), get_function(), type, value); } void sql_insert_function_type(int param, const char *value) { sql_insert(function_type, "'%s', '%s', %d, %d, '%s'", get_base_file(), get_function(), fn_static(), param, value); } void sql_insert_parameter_name(int param, const char *value) { sql_insert(parameter_name, "'%s', '%s', %d, %d, '%s'", get_base_file(), get_function(), fn_static(), param, value); } void sql_insert_data_info(struct expression *data, int type, const char *value) { char *data_name; data_name = get_data_info_name(data); if (!data_name) return; sql_insert(data_info, "'%s', '%s', %d, '%s'", is_static(data) ? get_base_file() : "extern", data_name, type, value); } void sql_insert_data_info_var_sym(const char *var, struct symbol *sym, int type, const char *value) { sql_insert(data_info, "'%s', '%s', %d, '%s'", (sym->ctype.modifiers & MOD_STATIC) ? get_base_file() : "extern", var, type, value); } void sql_save_constraint(const char *con) { if (!option_info) return; sm_msg("SQL: insert or ignore into constraints (str) values('%s');", escape_newlines(con)); } void sql_save_constraint_required(const char *data, int op, const char *limit) { sql_insert_or_ignore(constraints_required, "'%s', '%s', '%s'", data, show_special(op), limit); } void sql_copy_constraint_required(const char *new_limit, const char *old_limit) { if (!option_info) return; sm_msg("SQL_late: insert or ignore into constraints_required (data, op, bound) " "select constraints_required.data, constraints_required.op, '%s' from " "constraints_required where bound = '%s';", new_limit, old_limit); } void sql_insert_fn_ptr_data_link(const char *ptr, const char *data) { sql_insert_or_ignore(fn_ptr_data_link, "'%s', '%s'", ptr, data); } void sql_insert_fn_data_link(struct expression *fn, int type, int param, const char *key, const char *value) { if (fn->type != EXPR_SYMBOL || !fn->symbol->ident) return; sql_insert(fn_data_link, "'%s', '%s', %d, %d, %d, '%s', '%s'", (fn->symbol->ctype.modifiers & MOD_STATIC) ? get_base_file() : "extern", fn->symbol->ident->name, !!(fn->symbol->ctype.modifiers & MOD_STATIC), type, param, key, value); } void sql_insert_mtag_about(mtag_t tag, const char *left_name, const char *right_name) { sql_insert(mtag_about, "%lld, '%s', '%s', %d, '%s', '%s'", tag, get_filename(), get_function(), get_lineno(), left_name, right_name); } void sql_insert_mtag_map(mtag_t tag, int offset, mtag_t container) { sql_insert(mtag_map, "%lld, %d, %lld", tag, offset, container); } void sql_insert_mtag_alias(mtag_t orig, mtag_t alias) { sql_insert(mtag_alias, "%lld, %lld", orig, alias); } static int save_mtag(void *_tag, int argc, char **argv, char **azColName) { mtag_t *saved_tag = _tag; mtag_t new_tag; new_tag = strtoll(argv[0], NULL, 10); if (!*saved_tag) *saved_tag = new_tag; else if (*saved_tag != new_tag) *saved_tag = -1ULL; return 0; } int mtag_map_select_container(mtag_t tag, int offset, mtag_t *container) { mtag_t tmp = 0; run_sql(save_mtag, &tmp, "select container from mtag_map where tag = %lld and offset = %d;", tag, offset); if (tmp == 0 || tmp == -1ULL) return 0; *container = tmp; return 1; } int mtag_map_select_tag(mtag_t container, int offset, mtag_t *tag) { mtag_t tmp = 0; run_sql(save_mtag, &tmp, "select tag from mtag_map where container = %lld and offset = %d;", container, offset); if (tmp == 0 || tmp == -1ULL) return 0; *tag = tmp; return 1; } char *get_static_filter(struct symbol *sym) { static char sql_filter[1024]; /* This can only happen on buggy code. Return invalid SQL. */ if (!sym) { sql_filter[0] = '\0'; return sql_filter; } if (sym->ctype.modifiers & MOD_STATIC) { snprintf(sql_filter, sizeof(sql_filter), "file = '%s' and function = '%s' and static = '1'", get_base_file(), sym->ident->name); } else { snprintf(sql_filter, sizeof(sql_filter), "function = '%s' and static = '0'", sym->ident->name); } return sql_filter; } static int get_row_count(void *_row_count, int argc, char **argv, char **azColName) { int *row_count = _row_count; *row_count = 0; if (argc != 1) return 0; *row_count = atoi(argv[0]); return 0; } static void mark_call_params_untracked(struct expression *call) { struct expression *arg; int i = 0; FOR_EACH_PTR(call->args, arg) { mark_untracked(call, i++, "$", NULL); } END_FOR_EACH_PTR(arg); } static void sql_select_return_states_pointer(const char *cols, struct expression *call, int (*callback)(void*, int, char**, char**), void *info) { char *ptr; int return_count = 0; ptr = get_fnptr_name(call->fn); if (!ptr) return; run_sql(get_row_count, &return_count, "select count(*) from return_states join function_ptr " "where return_states.function == function_ptr.function and " "ptr = '%s' and searchable = 1 and type = %d;", ptr, INTERNAL); /* The magic number 100 is just from testing on the kernel. */ if (return_count > 100) { mark_call_params_untracked(call); return; } run_sql(callback, info, "select %s from return_states join function_ptr where " "return_states.function == function_ptr.function and ptr = '%s' " "and searchable = 1 " "order by function_ptr.file, return_states.file, return_id, type;", cols, ptr); } static int is_local_symbol(struct expression *expr) { if (expr->type != EXPR_SYMBOL) return 0; if (expr->symbol->ctype.modifiers & (MOD_NONLOCAL | MOD_STATIC | MOD_ADDRESSABLE)) return 0; return 1; } void sql_select_return_states(const char *cols, struct expression *call, int (*callback)(void*, int, char**, char**), void *info) { struct expression *fn; int row_count = 0; if (is_fake_call(call)) return; fn = strip_expr(call->fn); if (fn->type != EXPR_SYMBOL || !fn->symbol || is_local_symbol(fn)) { sql_select_return_states_pointer(cols, call, callback, info); return; } if (inlinable(fn)) { mem_sql(callback, info, "select %s from return_states where call_id = '%lu' order by return_id, type;", cols, (unsigned long)call); return; } run_sql(get_row_count, &row_count, "select count(*) from return_states where %s;", get_static_filter(fn->symbol)); if (row_count > 3000) return; run_sql(callback, info, "select %s from return_states where %s order by file, return_id, type;", cols, get_static_filter(fn->symbol)); } #define CALL_IMPLIES 0 #define RETURN_IMPLIES 1 struct implies_info { int type; struct db_implies_cb_list *cb_list; struct expression *expr; struct symbol *sym; }; void sql_select_implies(const char *cols, struct implies_info *info, int (*callback)(void*, int, char**, char**)) { if (info->type == RETURN_IMPLIES && inlinable(info->expr->fn)) { mem_sql(callback, info, "select %s from return_implies where call_id = '%lu';", cols, (unsigned long)info->expr); return; } run_sql(callback, info, "select %s from %s_implies where %s;", cols, info->type == CALL_IMPLIES ? "call" : "return", get_static_filter(info->sym)); } struct select_caller_info_data { struct stree *final_states; struct timeval start_time; int prev_func_id; int ignore; int results; }; static int caller_info_callback(void *_data, int argc, char **argv, char **azColName); static void sql_select_caller_info(struct select_caller_info_data *data, const char *cols, struct symbol *sym) { if (__inline_fn) { mem_sql(caller_info_callback, data, "select %s from caller_info where call_id = %lu;", cols, (unsigned long)__inline_fn); return; } if (sym->ident->name && is_common_function(sym->ident->name)) return; run_sql(caller_info_callback, data, "select %s from common_caller_info where %s order by call_id;", cols, get_static_filter(sym)); if (data->results) return; run_sql(caller_info_callback, data, "select %s from caller_info where %s order by call_id;", cols, get_static_filter(sym)); } void select_caller_info_hook(void (*callback)(const char *name, struct symbol *sym, char *key, char *value), int type) { struct def_callback *def_callback = __alloc_def_callback(0); def_callback->hook_type = type; def_callback->callback = callback; add_ptr_list(&select_caller_info_callbacks, def_callback); } /* * These call backs are used when the --info option is turned on to print struct * member information. For example foo->bar could have a state in * smatch_extra.c and also check_user.c. */ void add_member_info_callback(int owner, void (*callback)(struct expression *call, int param, char *printed_name, struct sm_state *sm)) { struct member_info_callback *member_callback = __alloc_member_info_callback(0); member_callback->owner = owner; member_callback->callback = callback; add_ptr_list(&member_callbacks, member_callback); } void add_split_return_callback(void (*fn)(int return_id, char *return_ranges, struct expression *returned_expr)) { struct returned_state_callback *callback = __alloc_returned_state_callback(0); callback->callback = fn; add_ptr_list(&returned_state_callbacks, callback); } 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)) { struct returned_member_callback *member_callback = __alloc_returned_member_callback(0); member_callback->owner = owner; member_callback->callback = callback; add_ptr_list(&returned_member_callbacks, member_callback); } void select_call_implies_hook(int type, void (*callback)(struct expression *call, struct expression *arg, char *key, char *value)) { struct db_implies_callback *cb = __alloc_db_implies_callback(0); cb->type = type; cb->callback = callback; add_ptr_list(&call_implies_cb_list, cb); } void select_return_implies_hook(int type, void (*callback)(struct expression *call, struct expression *arg, char *key, char *value)) { struct db_implies_callback *cb = __alloc_db_implies_callback(0); cb->type = type; cb->callback = callback; add_ptr_list(&return_implies_cb_list, cb); } struct return_info { struct expression *static_returns_call; struct symbol *return_type; struct range_list *return_range_list; }; static int db_return_callback(void *_ret_info, int argc, char **argv, char **azColName) { struct return_info *ret_info = _ret_info; struct range_list *rl; struct expression *call_expr = ret_info->static_returns_call; if (argc != 1) return 0; call_results_to_rl(call_expr, ret_info->return_type, argv[0], &rl); ret_info->return_range_list = rl_union(ret_info->return_range_list, rl); return 0; } struct range_list *db_return_vals(struct expression *expr) { struct return_info ret_info = {}; char buf[64]; struct sm_state *sm; if (is_fake_call(expr)) return NULL; snprintf(buf, sizeof(buf), "return %p", expr); sm = get_sm_state(SMATCH_EXTRA, buf, NULL); if (sm) return clone_rl(estate_rl(sm->state)); ret_info.static_returns_call = expr; ret_info.return_type = get_type(expr); if (!ret_info.return_type) return NULL; if (expr->fn->type != EXPR_SYMBOL || !expr->fn->symbol) return NULL; ret_info.return_range_list = NULL; if (inlinable(expr->fn)) { mem_sql(db_return_callback, &ret_info, "select distinct return from return_states where call_id = '%lu';", (unsigned long)expr); } else { run_sql(db_return_callback, &ret_info, "select distinct return from return_states where %s;", get_static_filter(expr->fn->symbol)); } return ret_info.return_range_list; } struct range_list *db_return_vals_from_str(const char *fn_name) { struct return_info ret_info; ret_info.static_returns_call = NULL; ret_info.return_type = &llong_ctype; ret_info.return_range_list = NULL; run_sql(db_return_callback, &ret_info, "select distinct return from return_states where function = '%s';", fn_name); return ret_info.return_range_list; } /* * This is used when we have a function that takes a function pointer as a * parameter. "frob(blah, blah, my_function);" We know that the return values * from frob() come from my_funcion() so we want to find the possible returns * of my_function(), but we don't know which arguments are passed to it. * */ struct range_list *db_return_vals_no_args(struct expression *expr) { struct return_info ret_info = {}; if (!expr || expr->type != EXPR_SYMBOL) return NULL; ret_info.static_returns_call = expr; ret_info.return_type = get_type(expr); ret_info.return_type = get_real_base_type(ret_info.return_type); if (!ret_info.return_type) return NULL; run_sql(db_return_callback, &ret_info, "select distinct return from return_states where %s;", get_static_filter(expr->symbol)); return ret_info.return_range_list; } static void match_call_marker(struct expression *expr) { struct symbol *type; type = get_type(expr->fn); if (type && type->type == SYM_PTR) type = get_real_base_type(type); /* * we just want to record something in the database so that if we have * two calls like: frob(4); frob(some_unkown); then on the receiving * side we know that sometimes frob is called with unknown parameters. */ sql_insert_caller_info(expr, INTERNAL, -1, "%call_marker%", type_to_str(type)); } int is_recursive_member(const char *name) { char buf[256]; const char *p, *next; int size; p = strchr(name, '>'); if (!p) return 0; p++; while (true) { next = strchr(p, '>'); if (!next) return 0; next++; size = next - p; if (size >= sizeof(buf)) return 0; memcpy(buf, p, size); buf[size] = '\0'; if (strstr(next, buf)) return 1; p = next; } } char *sm_to_arg_name(struct expression *expr, struct sm_state *sm) { struct symbol *sym; const char *sm_name; char *name; bool is_address = false; bool add_star = false; char buf[256]; char *ret = NULL; int len; expr = strip_expr(expr); if (!expr) return NULL; if (expr->type == EXPR_PREOP && expr->op == '&') { expr = strip_expr(expr->unop); is_address = true; } name = expr_to_var_sym(expr, &sym); if (!name || !sym) goto free; if (sym != sm->sym) goto free; sm_name = sm->name; add_star = false; if (sm_name[0] == '*') { add_star = true; sm_name++; } len = strlen(name); if (strncmp(name, sm_name, len) != 0) goto free; if (sm_name[len] == '\0') { snprintf(buf, sizeof(buf), "%s%s$", add_star ? "*" : "", is_address ? "*" : ""); } else { if (sm_name[len] != '.' && sm_name[len] != '-') goto free; if (sm_name[len] == '-') len++; // FIXME does is_address really imply that sm_name[len] == '-' snprintf(buf, sizeof(buf), "%s$->%s", add_star ? "*" : "", sm_name + len); } ret = alloc_sname(buf); free: free_string(name); return ret; } static void print_struct_members(struct expression *call, struct expression *expr, int param, struct stree *stree, void (*callback)(struct expression *call, int param, char *printed_name, struct sm_state *sm)) { struct sm_state *sm; const char *sm_name; char *name; struct symbol *sym; int len; char printed_name[256]; int is_address = 0; bool add_star; struct symbol *type; expr = strip_expr(expr); if (!expr) return; type = get_type(expr); if (type && type_bits(type) < type_bits(&ulong_ctype)) return; if (expr->type == EXPR_PREOP && expr->op == '&') { expr = strip_expr(expr->unop); is_address = 1; } name = expr_to_var_sym(expr, &sym); if (!name || !sym) goto free; len = strlen(name); FOR_EACH_SM(stree, sm) { if (sm->sym != sym) continue; sm_name = sm->name; add_star = false; if (sm_name[0] == '*') { add_star = true; sm_name++; } // FIXME: simplify? if (!add_star && strcmp(name, sm_name) == 0) { if (is_address) snprintf(printed_name, sizeof(printed_name), "*$"); else /* these are already handled. fixme: handle them here */ continue; } else if (add_star && strcmp(name, sm_name) == 0) { snprintf(printed_name, sizeof(printed_name), "%s*$", is_address ? "*" : ""); } else if (strncmp(name, sm_name, len) == 0) { if (sm_name[len] != '.' && sm_name[len] != '-') continue; if (is_address) snprintf(printed_name, sizeof(printed_name), "%s$->%s", add_star ? "*" : "", sm_name + len + 1); else snprintf(printed_name, sizeof(printed_name), "%s$%s", add_star ? "*" : "", sm_name + len); } else { continue; } if (is_recursive_member(printed_name)) continue; callback(call, param, printed_name, sm); } END_FOR_EACH_SM(sm); free: free_string(name); } static void match_call_info(struct expression *call) { struct member_info_callback *cb; struct expression *arg; struct stree *stree; char *name; int i; name = get_fnptr_name(call->fn); if (!name) return; FOR_EACH_PTR(member_callbacks, cb) { stree = get_all_states_stree(cb->owner); i = 0; FOR_EACH_PTR(call->args, arg) { print_struct_members(call, arg, i, stree, cb->callback); i++; } END_FOR_EACH_PTR(arg); free_stree(&stree); } END_FOR_EACH_PTR(cb); free_string(name); } static int get_param(int param, char **name, struct symbol **sym) { struct symbol *arg; int i; i = 0; FOR_EACH_PTR(cur_func_sym->ctype.base_type->arguments, arg) { /* * this is a temporary hack to work around a bug (I think in sparse?) * 2.6.37-rc1:fs/reiserfs/journal.o * If there is a function definition without parameter name found * after a function implementation then it causes a crash. * int foo() {} * int bar(char *); */ if (arg->ident->name < (char *)100) continue; if (i == param) { *name = arg->ident->name; *sym = arg; return TRUE; } i++; } END_FOR_EACH_PTR(arg); return FALSE; } static int function_signature_matches(const char *sig) { char *my_sig; my_sig = function_signature(); if (!sig || !my_sig) return 1; /* default to matching */ if (strcmp(my_sig, sig) == 0) return 1; return 0; } static int caller_info_callback(void *_data, int argc, char **argv, char **azColName) { struct select_caller_info_data *data = _data; int func_id; long type; long param; char *key; char *value; char *name = NULL; struct symbol *sym = NULL; struct def_callback *def_callback; struct stree *stree; struct timeval cur_time; data->results = 1; if (argc != 5) return 0; gettimeofday(&cur_time, NULL); if (cur_time.tv_sec - data->start_time.tv_sec > 10) return 0; func_id = atoi(argv[0]); errno = 0; type = strtol(argv[1], NULL, 10); param = strtol(argv[2], NULL, 10); if (errno) return 0; key = argv[3]; value = argv[4]; if (data->prev_func_id == -1) data->prev_func_id = func_id; if (func_id != data->prev_func_id) { stree = __pop_fake_cur_stree(); if (!data->ignore) merge_stree(&data->final_states, stree); free_stree(&stree); __push_fake_cur_stree(); __unnullify_path(); data->prev_func_id = func_id; data->ignore = 0; } if (data->ignore) return 0; if (type == INTERNAL && !function_signature_matches(value)) { data->ignore = 1; return 0; } if (param >= 0 && !get_param(param, &name, &sym)) return 0; FOR_EACH_PTR(select_caller_info_callbacks, def_callback) { if (def_callback->hook_type == type) def_callback->callback(name, sym, key, value); } END_FOR_EACH_PTR(def_callback); return 0; } static struct string_list *ptr_names_done; static struct string_list *ptr_names; static int get_ptr_name(void *unused, int argc, char **argv, char **azColName) { insert_string(&ptr_names, alloc_string(argv[0])); return 0; } static char *get_next_ptr_name(void) { char *ptr; FOR_EACH_PTR(ptr_names, ptr) { if (!insert_string(&ptr_names_done, ptr)) continue; return ptr; } END_FOR_EACH_PTR(ptr); return NULL; } static void get_ptr_names(const char *file, const char *name) { char sql_filter[1024]; int before, after; if (file) { snprintf(sql_filter, 1024, "file = '%s' and function = '%s';", file, name); } else { snprintf(sql_filter, 1024, "function = '%s';", name); } before = ptr_list_size((struct ptr_list *)ptr_names); run_sql(get_ptr_name, NULL, "select distinct ptr from function_ptr where %s", sql_filter); after = ptr_list_size((struct ptr_list *)ptr_names); if (before == after) return; while ((name = get_next_ptr_name())) get_ptr_names(NULL, name); } static void match_data_from_db(struct symbol *sym) { struct select_caller_info_data data = { .prev_func_id = -1 }; struct sm_state *sm; struct stree *stree; struct timeval end_time; if (!sym || !sym->ident) return; gettimeofday(&data.start_time, NULL); __push_fake_cur_stree(); __unnullify_path(); if (!__inline_fn) { char *ptr; if (sym->ctype.modifiers & MOD_STATIC) get_ptr_names(get_base_file(), sym->ident->name); else get_ptr_names(NULL, sym->ident->name); if (ptr_list_size((struct ptr_list *)ptr_names) > 20) { __free_ptr_list((struct ptr_list **)&ptr_names); __free_ptr_list((struct ptr_list **)&ptr_names_done); __free_fake_cur_stree(); return; } sql_select_caller_info(&data, "call_id, type, parameter, key, value", sym); stree = __pop_fake_cur_stree(); if (!data.ignore) merge_stree(&data.final_states, stree); free_stree(&stree); __push_fake_cur_stree(); __unnullify_path(); data.prev_func_id = -1; data.ignore = 0; data.results = 0; FOR_EACH_PTR(ptr_names, ptr) { run_sql(caller_info_callback, &data, "select call_id, type, parameter, key, value" " from common_caller_info where function = '%s' order by call_id", ptr); } END_FOR_EACH_PTR(ptr); if (data.results) { FOR_EACH_PTR(ptr_names, ptr) { free_string(ptr); } END_FOR_EACH_PTR(ptr); goto free_ptr_names; } FOR_EACH_PTR(ptr_names, ptr) { run_sql(caller_info_callback, &data, "select call_id, type, parameter, key, value" " from caller_info where function = '%s' order by call_id", ptr); free_string(ptr); } END_FOR_EACH_PTR(ptr); free_ptr_names: __free_ptr_list((struct ptr_list **)&ptr_names); __free_ptr_list((struct ptr_list **)&ptr_names_done); } else { sql_select_caller_info(&data, "call_id, type, parameter, key, value", sym); } stree = __pop_fake_cur_stree(); if (!data.ignore) merge_stree(&data.final_states, stree); free_stree(&stree); gettimeofday(&end_time, NULL); if (end_time.tv_sec - data.start_time.tv_sec <= 10) { FOR_EACH_SM(data.final_states, sm) { __set_sm(sm); } END_FOR_EACH_SM(sm); } free_stree(&data.final_states); } static int return_implies_callbacks(void *_info, int argc, char **argv, char **azColName) { struct implies_info *info = _info; struct db_implies_callback *cb; struct expression *arg = NULL; int type; int param; if (argc != 5) return 0; type = atoi(argv[1]); param = atoi(argv[2]); FOR_EACH_PTR(info->cb_list, cb) { if (cb->type != type) continue; if (param != -1) { arg = get_argument_from_call_expr(info->expr->args, param); if (!arg) continue; } cb->callback(info->expr, arg, argv[3], argv[4]); } END_FOR_EACH_PTR(cb); return 0; } static int call_implies_callbacks(void *_info, int argc, char **argv, char **azColName) { struct implies_info *info = _info; struct db_implies_callback *cb; struct expression *arg; struct symbol *sym; char *name; int type; int param; if (argc != 5) return 0; type = atoi(argv[1]); param = atoi(argv[2]); if (!get_param(param, &name, &sym)) return 0; arg = symbol_expression(sym); if (!arg) return 0; FOR_EACH_PTR(info->cb_list, cb) { if (cb->type != type) continue; cb->callback(info->expr, arg, argv[3], argv[4]); } END_FOR_EACH_PTR(cb); return 0; } static void match_return_implies(struct expression *expr) { struct implies_info info = { .type = RETURN_IMPLIES, .cb_list = return_implies_cb_list, }; if (expr->fn->type != EXPR_SYMBOL || !expr->fn->symbol) return; info.expr = expr; info.sym = expr->fn->symbol; sql_select_implies("function, type, parameter, key, value", &info, return_implies_callbacks); } static void match_call_implies(struct symbol *sym) { struct implies_info info = { .type = CALL_IMPLIES, .cb_list = call_implies_cb_list, }; if (!sym || !sym->ident) return; info.sym = sym; sql_select_implies("function, type, parameter, key, value", &info, call_implies_callbacks); } static char *get_fn_param_str(struct expression *expr) { struct expression *tmp; int param; char buf[32]; tmp = get_assigned_expr(expr); if (tmp) expr = tmp; expr = strip_expr(expr); if (!expr || expr->type != EXPR_CALL) return NULL; expr = strip_expr(expr->fn); if (!expr || expr->type != EXPR_SYMBOL) return NULL; param = get_param_num(expr); if (param < 0) return NULL; snprintf(buf, sizeof(buf), "[r $%d]", param); return alloc_sname(buf); } static char *get_return_compare_is_param(struct expression *expr) { char *var; char buf[256]; int comparison; int param; param = get_param_num(expr); if (param < 0) return NULL; var = expr_to_var(expr); if (!var) return NULL; snprintf(buf, sizeof(buf), "%s orig", var); comparison = get_comparison_strings(var, buf); free_string(var); if (!comparison) return NULL; snprintf(buf, sizeof(buf), "[%s$%d]", show_special(comparison), param); return alloc_sname(buf); } static char *get_return_compare_str(struct expression *expr) { char *compare_str; compare_str = get_return_compare_is_param(expr); if (compare_str) return compare_str; compare_str = expr_lte_to_param(expr, -1); if (compare_str) return compare_str; return expr_param_comparison(expr, -1); } static const char *get_return_ranges_str(struct expression *expr, struct range_list **rl_p) { struct range_list *rl; char *return_ranges; sval_t sval; char *fn_param_str; char *compare_str; char *math_str; char buf[128]; *rl_p = NULL; if (!expr) return alloc_sname(""); if (get_implied_value(expr, &sval)) { sval = sval_cast(cur_func_return_type(), sval); *rl_p = alloc_rl(sval, sval); return sval_to_str_or_err_ptr(sval); } fn_param_str = get_fn_param_str(expr); compare_str = expr_equal_to_param(expr, -1); math_str = get_value_in_terms_of_parameter_math(expr); if (get_implied_rl(expr, &rl) && !is_whole_rl(rl)) { rl = cast_rl(cur_func_return_type(), rl); return_ranges = show_rl(rl); } else if (get_imaginary_absolute(expr, &rl)){ rl = cast_rl(cur_func_return_type(), rl); return alloc_sname(show_rl(rl)); } else { get_absolute_rl(expr, &rl); rl = cast_rl(cur_func_return_type(), rl); return_ranges = show_rl(rl); } *rl_p = rl; if (fn_param_str) { snprintf(buf, sizeof(buf), "%s%s", return_ranges, fn_param_str); return alloc_sname(buf); } if (compare_str) { snprintf(buf, sizeof(buf), "%s%s", return_ranges, compare_str); return alloc_sname(buf); } if (math_str) { snprintf(buf, sizeof(buf), "%s[%s]", return_ranges, math_str); return alloc_sname(buf); } compare_str = get_return_compare_str(expr); if (compare_str) { snprintf(buf, sizeof(buf), "%s%s", return_ranges, compare_str); return alloc_sname(buf); } return return_ranges; } static void match_return_info(int return_id, char *return_ranges, struct expression *expr) { sql_insert_return_states(return_id, return_ranges, INTERNAL, -1, "", function_signature()); } static bool call_return_state_hooks_conditional(struct expression *expr) { int final_pass_orig = final_pass; static int recurse; if (recurse >= 2) return false; if (!expr || (expr->type != EXPR_CONDITIONAL && expr->type != EXPR_SELECT)) return false; recurse++; __push_fake_cur_stree(); final_pass = 0; __split_whole_condition(expr->conditional); final_pass = final_pass_orig; call_return_state_hooks(expr->cond_true ?: expr->conditional); __push_true_states(); __use_false_states(); call_return_state_hooks(expr->cond_false); __merge_true_states(); __free_fake_cur_stree(); recurse--; return true; } static void call_return_state_hooks_compare(struct expression *expr) { struct returned_state_callback *cb; char *return_ranges; int final_pass_orig = final_pass; sval_t sval = { .type = &int_ctype }; sval_t ret; if (!get_implied_value(expr, &ret)) ret.value = -1; __push_fake_cur_stree(); final_pass = 0; __split_whole_condition(expr); final_pass = final_pass_orig; if (ret.value != 0) { return_ranges = alloc_sname("1"); sval.value = 1; set_state(RETURN_ID, "return_ranges", NULL, alloc_estate_sval(sval)); return_id++; FOR_EACH_PTR(returned_state_callbacks, cb) { cb->callback(return_id, return_ranges, expr); } END_FOR_EACH_PTR(cb); } __push_true_states(); __use_false_states(); if (ret.value != 1) { return_ranges = alloc_sname("0"); sval.value = 0; set_state(RETURN_ID, "return_ranges", NULL, alloc_estate_sval(sval)); return_id++; FOR_EACH_PTR(returned_state_callbacks, cb) { cb->callback(return_id, return_ranges, expr); } END_FOR_EACH_PTR(cb); } __merge_true_states(); __free_fake_cur_stree(); } static int ptr_in_list(struct sm_state *sm, struct state_list *slist) { struct sm_state *tmp; FOR_EACH_PTR(slist, tmp) { if (strcmp(tmp->state->name, sm->state->name) == 0) return 1; } END_FOR_EACH_PTR(tmp); return 0; } static int split_possible_helper(struct sm_state *sm, struct expression *expr) { struct returned_state_callback *cb; struct range_list *rl; char *return_ranges; struct sm_state *tmp; int ret = 0; int nr_possible, nr_states; char *compare_str; char buf[128]; struct state_list *already_handled = NULL; sval_t sval; if (!sm || !sm->merged) return 0; if (too_many_possible(sm)) return 0; /* bail if it gets too complicated */ nr_possible = 0; FOR_EACH_PTR(sm->possible, tmp) { if (tmp->merged) continue; if (ptr_in_list(tmp, already_handled)) continue; add_ptr_list(&already_handled, tmp); nr_possible++; } END_FOR_EACH_PTR(tmp); free_slist(&already_handled); nr_states = get_db_state_count(); if (nr_states * nr_possible >= 2000) return 0; FOR_EACH_PTR(sm->possible, tmp) { if (tmp->merged) continue; if (ptr_in_list(tmp, already_handled)) continue; add_ptr_list(&already_handled, tmp); ret = 1; __push_fake_cur_stree(); overwrite_states_using_pool(sm, tmp); rl = cast_rl(cur_func_return_type(), estate_rl(tmp->state)); return_ranges = show_rl(rl); set_state(RETURN_ID, "return_ranges", NULL, alloc_estate_rl(clone_rl(rl))); if (!rl_to_sval(rl, &sval)) { compare_str = get_return_compare_str(expr); if (compare_str) { snprintf(buf, sizeof(buf), "%s%s", return_ranges, compare_str); return_ranges = alloc_sname(buf); } } return_id++; FOR_EACH_PTR(returned_state_callbacks, cb) { cb->callback(return_id, return_ranges, expr); } END_FOR_EACH_PTR(cb); __free_fake_cur_stree(); } END_FOR_EACH_PTR(tmp); free_slist(&already_handled); return ret; } static int call_return_state_hooks_split_possible(struct expression *expr) { struct sm_state *sm; if (!expr || expr_equal_to_param(expr, -1)) return 0; sm = get_sm_state_expr(SMATCH_EXTRA, expr); return split_possible_helper(sm, expr); } static bool has_possible_negative(struct sm_state *sm) { struct sm_state *tmp; if (!type_signed(estate_type(sm->state))) return false; FOR_EACH_PTR(sm->possible, tmp) { if (!estate_rl(tmp->state)) continue; if (sval_is_negative(estate_min(tmp->state)) && sval_is_negative(estate_max(tmp->state))) return true; } END_FOR_EACH_PTR(tmp); return false; } static bool has_separate_zero_null(struct sm_state *sm) { struct sm_state *tmp; sval_t sval; FOR_EACH_PTR(sm->possible, tmp) { if (!estate_get_single_value(tmp->state, &sval)) continue; if (sval.value == 0) return true; } END_FOR_EACH_PTR(tmp); return false; } static int split_positive_from_negative(struct expression *expr) { struct sm_state *sm; struct returned_state_callback *cb; struct range_list *rl; const char *return_ranges; struct range_list *ret_rl; bool separate_zero; int undo; /* We're going to print the states 3 times */ if (get_db_state_count() > 10000 / 3) return 0; if (!get_implied_rl(expr, &rl) || !rl) return 0; /* Forget about INT_MAX and larger */ if (rl_max(rl).value <= 0) return 0; if (!sval_is_negative(rl_min(rl))) return 0; sm = get_sm_state_expr(SMATCH_EXTRA, expr); if (!sm) return 0; if (!has_possible_negative(sm)) return 0; separate_zero = has_separate_zero_null(sm); if (!assume(compare_expression(expr, separate_zero ? '>' : SPECIAL_GTE, zero_expr()))) return 0; return_id++; return_ranges = get_return_ranges_str(expr, &ret_rl); set_state(RETURN_ID, "return_ranges", NULL, alloc_estate_rl(ret_rl)); FOR_EACH_PTR(returned_state_callbacks, cb) { cb->callback(return_id, (char *)return_ranges, expr); } END_FOR_EACH_PTR(cb); end_assume(); if (separate_zero) { undo = assume(compare_expression(expr, SPECIAL_EQUAL, zero_expr())); return_id++; return_ranges = get_return_ranges_str(expr, &ret_rl); set_state(RETURN_ID, "return_ranges", NULL, alloc_estate_rl(ret_rl)); FOR_EACH_PTR(returned_state_callbacks, cb) { cb->callback(return_id, (char *)return_ranges, expr); } END_FOR_EACH_PTR(cb); if (undo) end_assume(); } undo = assume(compare_expression(expr, '<', zero_expr())); return_id++; return_ranges = get_return_ranges_str(expr, &ret_rl); set_state(RETURN_ID, "return_ranges", NULL, alloc_estate_rl(ret_rl)); FOR_EACH_PTR(returned_state_callbacks, cb) { cb->callback(return_id, (char *)return_ranges, expr); } END_FOR_EACH_PTR(cb); if (undo) end_assume(); return 1; } static int call_return_state_hooks_split_null_non_null_zero(struct expression *expr) { struct returned_state_callback *cb; struct range_list *rl; struct range_list *nonnull_rl; sval_t null_sval; struct range_list *null_rl = NULL; char *return_ranges; struct sm_state *sm; struct smatch_state *state; int nr_states; int final_pass_orig = final_pass; if (!expr || expr_equal_to_param(expr, -1)) return 0; if (expr->type == EXPR_CALL) return 0; sm = get_sm_state_expr(SMATCH_EXTRA, expr); if (!sm) return 0; if (ptr_list_size((struct ptr_list *)sm->possible) == 1) return 0; state = sm->state; if (!estate_rl(state)) return 0; if (estate_min(state).value == 0 && estate_max(state).value == 0) return 0; if (!has_separate_zero_null(sm)) return 0; nr_states = get_db_state_count(); if (option_info && nr_states >= 1500) return 0; rl = estate_rl(state); __push_fake_cur_stree(); final_pass = 0; __split_whole_condition(expr); final_pass = final_pass_orig; nonnull_rl = rl_filter(rl, rl_zero()); return_ranges = show_rl(nonnull_rl); set_state(RETURN_ID, "return_ranges", NULL, alloc_estate_rl(nonnull_rl)); return_id++; FOR_EACH_PTR(returned_state_callbacks, cb) { cb->callback(return_id, return_ranges, expr); } END_FOR_EACH_PTR(cb); __push_true_states(); __use_false_states(); return_ranges = alloc_sname("0"); null_sval = sval_type_val(rl_type(rl), 0); add_range(&null_rl, null_sval, null_sval); set_state(RETURN_ID, "return_ranges", NULL, alloc_estate_rl(null_rl)); return_id++; FOR_EACH_PTR(returned_state_callbacks, cb) { cb->callback(return_id, return_ranges, expr); } END_FOR_EACH_PTR(cb); __merge_true_states(); __free_fake_cur_stree(); return 1; } static bool is_kernel_success_fail(struct sm_state *sm) { struct sm_state *tmp; struct range_list *rl; bool has_zero = false; bool has_neg = false; if (!type_signed(estate_type(sm->state))) return false; FOR_EACH_PTR(sm->possible, tmp) { rl = estate_rl(tmp->state); if (!rl) return false; if (rl_min(rl).value == 0 && rl_max(rl).value == 0) { has_zero = true; continue; } has_neg = true; if (rl_min(rl).value >= -4095 && rl_max(rl).value < 0) continue; if (strcmp(tmp->state->name, "s32min-(-1)") == 0) continue; if (strcmp(tmp->state->name, "s32min-(-1),1-s32max") == 0) continue; return false; } END_FOR_EACH_PTR(tmp); return has_zero && has_neg; } static int call_return_state_hooks_split_success_fail(struct expression *expr) { struct sm_state *sm; struct range_list *rl; struct range_list *nonzero_rl; sval_t zero_sval; struct range_list *zero_rl = NULL; int nr_states; struct returned_state_callback *cb; char *return_ranges; int final_pass_orig = final_pass; if (option_project != PROJ_KERNEL) return 0; nr_states = get_db_state_count(); if (nr_states > 2000) return 0; sm = get_sm_state_expr(SMATCH_EXTRA, expr); if (!sm) return 0; if (ptr_list_size((struct ptr_list *)sm->possible) == 1) return 0; if (!is_kernel_success_fail(sm)) return 0; rl = estate_rl(sm->state); if (!rl) return 0; __push_fake_cur_stree(); final_pass = 0; __split_whole_condition(expr); final_pass = final_pass_orig; nonzero_rl = rl_filter(rl, rl_zero()); nonzero_rl = cast_rl(cur_func_return_type(), nonzero_rl); return_ranges = show_rl(nonzero_rl); set_state(RETURN_ID, "return_ranges", NULL, alloc_estate_rl(nonzero_rl)); return_id++; FOR_EACH_PTR(returned_state_callbacks, cb) { cb->callback(return_id, return_ranges, expr); } END_FOR_EACH_PTR(cb); __push_true_states(); __use_false_states(); return_ranges = alloc_sname("0"); zero_sval = sval_type_val(rl_type(rl), 0); add_range(&zero_rl, zero_sval, zero_sval); set_state(RETURN_ID, "return_ranges", NULL, alloc_estate_rl(zero_rl)); return_id++; FOR_EACH_PTR(returned_state_callbacks, cb) { cb->callback(return_id, return_ranges, expr); } END_FOR_EACH_PTR(cb); __merge_true_states(); __free_fake_cur_stree(); return 1; } static int is_boolean(struct expression *expr) { struct range_list *rl; if (!get_implied_rl(expr, &rl)) return 0; if (rl_min(rl).value == 0 && rl_max(rl).value == 1) return 1; return 0; } static int splitable_function_call(struct expression *expr) { struct sm_state *sm; char buf[64]; if (!expr || expr->type != EXPR_CALL) return 0; snprintf(buf, sizeof(buf), "return %p", expr); sm = get_sm_state(SMATCH_EXTRA, buf, NULL); return split_possible_helper(sm, expr); } static struct sm_state *find_bool_param(void) { struct stree *start_states; struct symbol *arg; struct sm_state *sm, *tmp; sval_t sval; start_states = get_start_states(); FOR_EACH_PTR_REVERSE(cur_func_sym->ctype.base_type->arguments, arg) { if (!arg->ident) continue; sm = get_sm_state_stree(start_states, SMATCH_EXTRA, arg->ident->name, arg); if (!sm) continue; if (rl_min(estate_rl(sm->state)).value != 0 || rl_max(estate_rl(sm->state)).value != 1) continue; goto found; } END_FOR_EACH_PTR_REVERSE(arg); return NULL; found: /* * Check if it's splitable. If not, then splitting it up is likely not * useful for the callers. */ FOR_EACH_PTR(sm->possible, tmp) { if (is_merged(tmp)) continue; if (!estate_get_single_value(tmp->state, &sval)) return NULL; } END_FOR_EACH_PTR(tmp); return sm; } static int split_on_bool_sm(struct sm_state *sm, struct expression *expr) { struct returned_state_callback *cb; struct range_list *ret_rl; const char *return_ranges; struct sm_state *tmp; int ret = 0; struct state_list *already_handled = NULL; if (!sm || !sm->merged) return 0; if (too_many_possible(sm)) return 0; FOR_EACH_PTR(sm->possible, tmp) { if (tmp->merged) continue; if (ptr_in_list(tmp, already_handled)) continue; add_ptr_list(&already_handled, tmp); ret = 1; __push_fake_cur_stree(); overwrite_states_using_pool(sm, tmp); return_ranges = get_return_ranges_str(expr, &ret_rl); set_state(RETURN_ID, "return_ranges", NULL, alloc_estate_rl(ret_rl)); return_id++; FOR_EACH_PTR(returned_state_callbacks, cb) { cb->callback(return_id, (char *)return_ranges, expr); } END_FOR_EACH_PTR(cb); __free_fake_cur_stree(); } END_FOR_EACH_PTR(tmp); free_slist(&already_handled); return ret; } static int split_by_bool_param(struct expression *expr) { struct sm_state *start_sm, *sm; sval_t sval; start_sm = find_bool_param(); if (!start_sm) return 0; sm = get_sm_state(SMATCH_EXTRA, start_sm->name, start_sm->sym); if (!sm || estate_get_single_value(sm->state, &sval)) return 0; if (get_db_state_count() * 2 >= 2000) return 0; return split_on_bool_sm(sm, expr); } static int split_by_null_nonnull_param(struct expression *expr) { struct symbol *arg; struct sm_state *sm; int nr_possible; /* function must only take one pointer */ if (ptr_list_size((struct ptr_list *)cur_func_sym->ctype.base_type->arguments) != 1) return 0; arg = first_ptr_list((struct ptr_list *)cur_func_sym->ctype.base_type->arguments); if (!arg->ident) return 0; if (get_real_base_type(arg)->type != SYM_PTR) return 0; if (param_was_set_var_sym(arg->ident->name, arg)) return 0; sm = get_sm_state(SMATCH_EXTRA, arg->ident->name, arg); if (!sm) return 0; if (!has_separate_zero_null(sm)) return 0; nr_possible = ptr_list_size((struct ptr_list *)sm->possible); if (get_db_state_count() * nr_possible >= 2000) return 0; return split_on_bool_sm(sm, expr); } struct expression *strip_expr_statement(struct expression *expr) { struct expression *orig = expr; struct statement *stmt, *last_stmt; if (!expr) return NULL; if (expr->type == EXPR_PREOP && expr->op == '(') expr = expr->unop; if (expr->type != EXPR_STATEMENT) return orig; stmt = expr->statement; if (!stmt || stmt->type != STMT_COMPOUND) return orig; last_stmt = last_ptr_list((struct ptr_list *)stmt->stmts); if (!last_stmt || last_stmt->type == STMT_LABEL) last_stmt = last_stmt->label_statement; if (!last_stmt || last_stmt->type != STMT_EXPRESSION) return orig; return strip_expr(last_stmt->expression); } static void call_return_state_hooks(struct expression *expr) { struct returned_state_callback *cb; struct range_list *ret_rl; const char *return_ranges; int nr_states; sval_t sval; if (__path_is_null()) return; expr = strip_expr(expr); expr = strip_expr_statement(expr); if (is_impossible_path()) goto vanilla; if (expr && (expr->type == EXPR_COMPARE || !get_implied_value(expr, &sval)) && (is_condition(expr) || is_boolean(expr))) { call_return_state_hooks_compare(expr); return; } else if (call_return_state_hooks_conditional(expr)) { return; } else if (call_return_state_hooks_split_possible(expr)) { return; } else if (split_positive_from_negative(expr)) { return; } else if (call_return_state_hooks_split_null_non_null_zero(expr)) { return; } else if (call_return_state_hooks_split_success_fail(expr)) { return; } else if (splitable_function_call(expr)) { return; } else if (split_by_bool_param(expr)) { } else if (split_by_null_nonnull_param(expr)) { return; } vanilla: return_ranges = get_return_ranges_str(expr, &ret_rl); set_state(RETURN_ID, "return_ranges", NULL, alloc_estate_rl(ret_rl)); return_id++; nr_states = get_db_state_count(); if (nr_states >= 10000) { match_return_info(return_id, (char *)return_ranges, expr); print_limited_param_set(return_id, (char *)return_ranges, expr); mark_all_params_untracked(return_id, (char *)return_ranges, expr); return; } FOR_EACH_PTR(returned_state_callbacks, cb) { cb->callback(return_id, (char *)return_ranges, expr); } END_FOR_EACH_PTR(cb); } static void print_returned_struct_members(int return_id, char *return_ranges, struct expression *expr) { struct returned_member_callback *cb; struct stree *stree; struct sm_state *sm; struct symbol *type; char *name; char member_name[256]; int len; type = get_type(expr); if (!type || type->type != SYM_PTR) return; name = expr_to_var(expr); if (!name) return; member_name[sizeof(member_name) - 1] = '\0'; strcpy(member_name, "$"); len = strlen(name); FOR_EACH_PTR(returned_member_callbacks, cb) { stree = __get_cur_stree(); FOR_EACH_MY_SM(cb->owner, stree, sm) { if (sm->name[0] == '*' && strcmp(sm->name + 1, name) == 0) { strcpy(member_name, "*$"); cb->callback(return_id, return_ranges, expr, member_name, sm->state); continue; } if (strncmp(sm->name, name, len) != 0) continue; if (strncmp(sm->name + len, "->", 2) != 0) continue; snprintf(member_name, sizeof(member_name), "$%s", sm->name + len); cb->callback(return_id, return_ranges, expr, member_name, sm->state); } END_FOR_EACH_SM(sm); } END_FOR_EACH_PTR(cb); free_string(name); } static void reset_memdb(struct symbol *sym) { mem_sql(NULL, NULL, "delete from caller_info;"); mem_sql(NULL, NULL, "delete from return_states;"); mem_sql(NULL, NULL, "delete from call_implies;"); mem_sql(NULL, NULL, "delete from return_implies;"); } static void match_end_func_info(struct symbol *sym) { if (__path_is_null()) return; call_return_state_hooks(NULL); } static void match_after_func(struct symbol *sym) { if (!__inline_fn) reset_memdb(sym); } static void init_memdb(void) { char *err = NULL; int rc; const char *schema_files[] = { "db/db.schema", "db/caller_info.schema", "db/common_caller_info.schema", "db/return_states.schema", "db/function_type_size.schema", "db/type_size.schema", "db/function_type_info.schema", "db/type_info.schema", "db/call_implies.schema", "db/return_implies.schema", "db/function_ptr.schema", "db/local_values.schema", "db/function_type_value.schema", "db/type_value.schema", "db/function_type.schema", "db/data_info.schema", "db/parameter_name.schema", "db/constraints.schema", "db/constraints_required.schema", "db/fn_ptr_data_link.schema", "db/fn_data_link.schema", "db/mtag_about.schema", "db/mtag_map.schema", "db/mtag_data.schema", "db/mtag_alias.schema", }; static char buf[4096]; int fd; int ret; int i; rc = sqlite3_open(":memory:", &mem_db); if (rc != SQLITE_OK) { sm_ierror("starting In-Memory database."); return; } for (i = 0; i < ARRAY_SIZE(schema_files); i++) { fd = open_schema_file(schema_files[i]); if (fd < 0) continue; ret = read(fd, buf, sizeof(buf)); if (ret < 0) { sm_ierror("failed to read: %s", schema_files[i]); continue; } close(fd); if (ret == sizeof(buf)) { sm_ierror("Schema file too large: %s (limit %zd bytes)", schema_files[i], sizeof(buf)); continue; } buf[ret] = '\0'; rc = sqlite3_exec(mem_db, buf, NULL, NULL, &err); if (rc != SQLITE_OK) { sm_ierror("SQL error #2: %s", err); sm_ierror("%s", buf); } } } static void init_cachedb(void) { char *err = NULL; int rc; const char *schema_files[] = { "db/call_implies.schema", "db/return_implies.schema", "db/type_info.schema", "db/mtag_data.schema", "db/sink_info.schema", }; static char buf[4096]; int fd; int ret; int i; rc = sqlite3_open(":memory:", &cache_db); if (rc != SQLITE_OK) { sm_ierror("starting In-Memory database."); return; } for (i = 0; i < ARRAY_SIZE(schema_files); i++) { fd = open_schema_file(schema_files[i]); if (fd < 0) continue; ret = read(fd, buf, sizeof(buf)); if (ret < 0) { sm_ierror("failed to read: %s", schema_files[i]); continue; } close(fd); if (ret == sizeof(buf)) { sm_ierror("Schema file too large: %s (limit %zd bytes)", schema_files[i], sizeof(buf)); continue; } buf[ret] = '\0'; rc = sqlite3_exec(cache_db, buf, NULL, NULL, &err); if (rc != SQLITE_OK) { sm_ierror("SQL error #2: %s", err); sm_ierror("%s", buf); } } } static int save_cache_data(void *_table, int argc, char **argv, char **azColName) { static char buf[4096]; char tmp[256]; char *p = buf; char *table = _table; int i; p += snprintf(p, 4096 - (p - buf), "insert or ignore into %s values (", table); for (i = 0; i < argc; i++) { if (i) p += snprintf(p, 4096 - (p - buf), ", "); sqlite3_snprintf(sizeof(tmp), tmp, "%q", escape_newlines(argv[i])); p += snprintf(p, 4096 - (p - buf), "'%s'", tmp); } p += snprintf(p, 4096 - (p - buf), ");"); if (p - buf > 4096) return 0; sm_msg("SQL: %s", buf); return 0; } static void dump_cache(struct symbol_list *sym_list) { if (!option_info) return; cache_sql(&save_cache_data, (char *)"type_info", "select * from type_info;"); cache_sql(&save_cache_data, (char *)"return_implies", "select * from return_implies;"); cache_sql(&save_cache_data, (char *)"call_implies", "select * from call_implies;"); cache_sql(&save_cache_data, (char *)"mtag_data", "select * from mtag_data;"); cache_sql(&save_cache_data, (char *)"sink_info", "select * from sink_info;"); } void open_smatch_db(char *db_file) { int rc; if (option_no_db) return; use_states = malloc(num_checks + 1); memset(use_states, 0xff, num_checks + 1); init_memdb(); init_cachedb(); rc = sqlite3_open_v2(db_file, &smatch_db, SQLITE_OPEN_READONLY, NULL); if (rc != SQLITE_OK) { option_no_db = 1; return; } run_sql(NULL, NULL, "PRAGMA cache_size = %d;", SQLITE_CACHE_PAGES); return; } static void register_common_funcs(void) { struct token *token; char *func; char filename[256]; if (option_project == PROJ_NONE) strcpy(filename, "common_functions"); else snprintf(filename, 256, "%s.common_functions", option_project_str); token = get_tokens_file(filename); if (!token) return; if (token_type(token) != TOKEN_STREAMBEGIN) return; token = token->next; while (token_type(token) != TOKEN_STREAMEND) { if (token_type(token) != TOKEN_IDENT) return; func = alloc_string(show_ident(token->ident)); add_ptr_list(&common_funcs, func); token = token->next; } clear_token_alloc(); } static char *get_next_string(char **str) { static char string[256]; char *start; char *p = *str; int len, i, j; if (*p == '\0') return NULL; start = p; while (*p != '\0' && *p != '\n') { if (*p == '\\' && *(p + 1) == ' ') { p += 2; continue; } if (*p == ' ') break; p++; } len = p - start; if (len >= sizeof(string)) { memcpy(string, start, sizeof(string)); string[sizeof(string) - 1] = '\0'; sm_ierror("return_fix: '%s' too long", string); **str = '\0'; return NULL; } memcpy(string, start, len); string[len] = '\0'; for (i = 0; i < sizeof(string) - 1; i++) { if (string[i] == '\\' && string[i + 1] == ' ') { for (j = i; string[j] != '\0'; j++) string[j] = string[j + 1]; } } if (*p != '\0') p++; *str = p; return string; } static void register_return_replacements(void) { char *func, *orig, *new; char filename[256]; char buf[4096]; int fd, ret, i; char *p; snprintf(filename, 256, "db/%s.return_fixes", option_project_str); fd = open_schema_file(filename); if (fd < 0) return; ret = read(fd, buf, sizeof(buf)); close(fd); if (ret < 0) return; if (ret == sizeof(buf)) { sm_ierror("file too large: %s (limit %zd bytes)", filename, sizeof(buf)); return; } buf[ret] = '\0'; p = buf; while (*p) { get_next_string(&p); replace_count++; } if (replace_count == 0 || replace_count % 3 != 0) { replace_count = 0; return; } replace_table = malloc(replace_count * sizeof(char *)); p = buf; i = 0; while (*p) { func = alloc_string(get_next_string(&p)); orig = alloc_string(get_next_string(&p)); new = alloc_string(get_next_string(&p)); replace_table[i++] = func; replace_table[i++] = orig; replace_table[i++] = new; } } void register_definition_db_callbacks(int id) { add_hook(&match_call_info, FUNCTION_CALL_HOOK); add_split_return_callback(match_return_info); add_split_return_callback(print_returned_struct_members); add_hook(&call_return_state_hooks, RETURN_HOOK); add_hook(&match_end_func_info, END_FUNC_HOOK); add_hook(&match_after_func, AFTER_FUNC_HOOK); add_hook(&match_data_from_db, FUNC_DEF_HOOK); add_hook(&match_call_implies, FUNC_DEF_HOOK); add_hook(&match_return_implies, CALL_HOOK_AFTER_INLINE); register_common_funcs(); register_return_replacements(); add_hook(&dump_cache, END_FILE_HOOK); } void register_db_call_marker(int id) { add_hook(&match_call_marker, FUNCTION_CALL_HOOK); } char *return_state_to_var_sym(struct expression *expr, int param, const char *key, struct symbol **sym) { struct expression *arg; char *name = NULL; char member_name[256]; *sym = NULL; if (param == -1) { const char *star = ""; if (expr->type != EXPR_ASSIGNMENT) return NULL; if (get_type(expr->left) == &int_ctype && strcmp(key, "$") != 0) return NULL; name = expr_to_var_sym(expr->left, sym); if (!name) return NULL; if (key[0] == '*') { star = "*"; key++; } if (strncmp(key, "$", 1) != 0) return name; snprintf(member_name, sizeof(member_name), "%s%s%s", star, name, key + 1); free_string(name); return alloc_string(member_name); } while (expr->type == EXPR_ASSIGNMENT) expr = strip_expr(expr->right); if (expr->type != EXPR_CALL) return NULL; arg = get_argument_from_call_expr(expr->args, param); if (!arg) return NULL; return get_variable_from_key(arg, key, sym); } char *get_variable_from_key(struct expression *arg, const char *key, struct symbol **sym) { char buf[256]; char *tmp; int star_cnt = 0; if (!arg) return NULL; arg = strip_expr(arg); if (strcmp(key, "$") == 0) return expr_to_var_sym(arg, sym); if (strcmp(key, "*$") == 0) { if (arg->type == EXPR_PREOP && arg->op == '&') { arg = strip_expr(arg->unop); return expr_to_var_sym(arg, sym); } else { tmp = expr_to_var_sym(arg, sym); if (!tmp) return NULL; snprintf(buf, sizeof(buf), "*%s", tmp); free_string(tmp); return alloc_string(buf); } } while (key[0] == '*') { star_cnt++; key++; } if (arg->type == EXPR_PREOP && arg->op == '&' && star_cnt) { arg = strip_expr(arg->unop); star_cnt--; } if (arg->type == EXPR_PREOP && arg->op == '&') { arg = strip_expr(arg->unop); tmp = expr_to_var_sym(arg, sym); if (!tmp) return NULL; snprintf(buf, sizeof(buf), "%.*s%s.%s", star_cnt, "**********", tmp, key + 3); return alloc_string(buf); } tmp = expr_to_var_sym(arg, sym); if (!tmp) return NULL; snprintf(buf, sizeof(buf), "%.*s%s%s", star_cnt, "**********", tmp, key + 1); free_string(tmp); return alloc_string(buf); } char *get_chunk_from_key(struct expression *arg, char *key, struct symbol **sym, struct var_sym_list **vsl) { *vsl = NULL; if (strcmp("$", key) == 0) return expr_to_chunk_sym_vsl(arg, sym, vsl); return get_variable_from_key(arg, key, sym); } const char *state_name_to_param_name(const char *state_name, const char *param_name) { int star_cnt = 0; int name_len; char buf[256]; name_len = strlen(param_name); while (state_name[0] == '*') { star_cnt++; state_name++; } /* ten out of ten stars! */ if (star_cnt > 10) return NULL; if (strcmp(state_name, param_name) == 0) { snprintf(buf, sizeof(buf), "%.*s$", star_cnt, "**********"); return alloc_sname(buf); } if (state_name[name_len] == '-' && /* check for '-' from "->" */ strncmp(state_name, param_name, name_len) == 0) { snprintf(buf, sizeof(buf), "%.*s$%s", star_cnt, "**********", state_name + name_len); return alloc_sname(buf); } return NULL; } const char *get_param_name_var_sym(const char *name, struct symbol *sym) { if (!sym || !sym->ident) return NULL; return state_name_to_param_name(name, sym->ident->name); } const char *get_mtag_name_var_sym(const char *state_name, struct symbol *sym) { struct symbol *type; const char *sym_name; int name_len; static char buf[256]; /* * mtag_name is different from param_name because mtags can be a struct * instead of a struct pointer. But we want to treat it like a pointer * because really an mtag is a pointer. Or in other words, if you pass * a struct foo then you want to talk about foo.bar but with an mtag * you want to refer to it as foo->bar. * */ if (!sym || !sym->ident) return NULL; type = get_real_base_type(sym); if (type && type->type == SYM_BASETYPE) return "*$"; sym_name = sym->ident->name; name_len = strlen(sym_name); if (state_name[name_len] == '.' && /* check for '-' from "->" */ strncmp(state_name, sym_name, name_len) == 0) { snprintf(buf, sizeof(buf), "$->%s", state_name + name_len + 1); return buf; } return state_name_to_param_name(state_name, sym_name); } const char *get_mtag_name_expr(struct expression *expr) { char *name; struct symbol *sym; const char *ret = NULL; name = expr_to_var_sym(expr, &sym); if (!name || !sym) goto free; ret = get_mtag_name_var_sym(name, sym); free: free_string(name); return ret; } const char *get_param_name(struct sm_state *sm) { return get_param_name_var_sym(sm->name, sm->sym); } char *get_data_info_name(struct expression *expr) { struct symbol *sym; char *name; char buf[256]; char *ret = NULL; expr = strip_expr(expr); name = get_member_name(expr); if (name) return name; name = expr_to_var_sym(expr, &sym); if (!name || !sym) goto free; if (!(sym->ctype.modifiers & MOD_TOPLEVEL)) goto free; if (sym->ctype.modifiers & MOD_STATIC) snprintf(buf, sizeof(buf), "static %s", name); else snprintf(buf, sizeof(buf), "global %s", name); ret = alloc_sname(buf); free: free_string(name); return ret; }