#include #include #include #include #include #include #include "magisk.h" #include "db.h" #define DB_VERSION 7 static int ver_cb(void *ver, int, char **data, char **) { *((int *) ver) = atoi(data[0]); return 0; } #define err_abort(err) \ if (err) { \ LOGE("sqlite3_exec: %s\n", err); \ sqlite3_free(err); \ return nullptr; \ } static sqlite3 *open_and_init_db() { sqlite3 *db; int ret = sqlite3_open(MAGISKDB, &db); if (ret) { LOGE("sqlite3 open failure: %s\n", sqlite3_errstr(ret)); return nullptr; } int ver, upgrade = 0; char *err; sqlite3_exec(db, "PRAGMA user_version", ver_cb, &ver, &err); err_abort(err); if (ver > DB_VERSION) { // Don't support downgrading database sqlite3_close_v2(db); return nullptr; } if (ver < 3) { // Policies sqlite3_exec(db, "CREATE TABLE IF NOT EXISTS policies " "(uid INT, package_name TEXT, policy INT, until INT, " "logging INT, notification INT, PRIMARY KEY(uid))", nullptr, nullptr, &err); err_abort(err); // Logs sqlite3_exec(db, "CREATE TABLE IF NOT EXISTS logs " "(from_uid INT, package_name TEXT, app_name TEXT, from_pid INT, " "to_uid INT, action INT, time INT, command TEXT)", nullptr, nullptr, &err); err_abort(err); // Settings sqlite3_exec(db, "CREATE TABLE IF NOT EXISTS settings " "(key TEXT, value INT, PRIMARY KEY(key))", nullptr, nullptr, &err); err_abort(err); ver = 3; upgrade = 1; } if (ver == 3) { // Strings sqlite3_exec(db, "CREATE TABLE IF NOT EXISTS strings " "(key TEXT, value TEXT, PRIMARY KEY(key))", nullptr, nullptr, &err); err_abort(err); ver = 4; upgrade = 1; } if (ver == 4) { sqlite3_exec(db, "UPDATE policies SET uid=uid%100000", nullptr, nullptr, &err); err_abort(err); /* Skip version 5 */ ver = 6; upgrade = 1; } if (ver == 5 || ver == 6) { // Hide list sqlite3_exec(db, "CREATE TABLE IF NOT EXISTS hidelist " "(process TEXT, PRIMARY KEY(process))", nullptr, nullptr, &err); err_abort(err); ver = 7; upgrade =1 ; } if (upgrade) { // Set version char query[32]; sprintf(query, "PRAGMA user_version=%d", ver); sqlite3_exec(db, query, nullptr, nullptr, &err); err_abort(err); } return db; } sqlite3 *get_magiskdb() { sqlite3 *db = open_and_init_db(); if (db == nullptr) { // Open fails, remove and reconstruct unlink(MAGISKDB); db = open_and_init_db(); } return db; } static int settings_cb(void *v, int col_num, char **data, char **col_name) { auto dbs = (db_settings *) v; int key = -1, value; for (int i = 0; i < col_num; ++i) { if (strcmp(col_name[i], "key") == 0) { for (int k = 0; k < DB_SETTINGS_NUM; ++k) { if (strcmp(data[i], DB_SETTING_KEYS[k]) == 0) key = k; } } else if (strcmp(col_name[i], "value") == 0) { value = atoi(data[i]); } } if (key >= 0) { dbs->v[key] = value; LOGD("magiskdb: query %s=[%d]\n", DB_SETTING_KEYS[key], value); } return 0; } int get_db_settings(sqlite3 *db, int key, struct db_settings *dbs) { if (db == nullptr) return 1; char *err; if (key > 0) { char query[128]; sprintf(query, "SELECT key, value FROM settings WHERE key='%s'", DB_SETTING_KEYS[key]); sqlite3_exec(db, query, settings_cb, dbs, &err); } else { sqlite3_exec(db, "SELECT key, value FROM settings", settings_cb, dbs, &err); } if (err) { LOGE("sqlite3_exec: %s\n", err); sqlite3_free(err); return 1; } return 0; } static int strings_cb(void *v, int col_num, char **data, char **col_name) { auto dbs = (db_strings *) v; int key = -1; char *value; for (int i = 0; i < col_num; ++i) { if (strcmp(col_name[i], "key") == 0) { for (int k = 0; k < DB_STRING_NUM; ++k) { if (strcmp(data[i], DB_STRING_KEYS[k]) == 0) key = k; } } else if (strcmp(col_name[i], "value") == 0) { value = data[i]; } } if (key >= 0) { strcpy(dbs->s[key], value); LOGD("magiskdb: query %s=[%s]\n", DB_STRING_KEYS[key], value); } return 0; } int get_db_strings(sqlite3 *db, int key, struct db_strings *str) { if (db == nullptr) return 1; char *err; if (key > 0) { char query[128]; sprintf(query, "SELECT key, value FROM strings WHERE key='%s'", DB_STRING_KEYS[key]); sqlite3_exec(db, query, strings_cb, str, &err); } else { sqlite3_exec(db, "SELECT key, value FROM strings", strings_cb, str, &err); } if (err) { LOGE("sqlite3_exec: %s\n", err); sqlite3_free(err); return 1; } return 0; } static int policy_cb(void *v, int col_num, char **data, char **col_name) { auto su = (su_access *) v; for (int i = 0; i < col_num; i++) { if (strcmp(col_name[i], "policy") == 0) su->policy = (policy_t) atoi(data[i]); else if (strcmp(col_name[i], "logging") == 0) su->log = atoi(data[i]); else if (strcmp(col_name[i], "notification") == 0) su->notify = atoi(data[i]); } LOGD("magiskdb: query policy=[%d] log=[%d] notify=[%d]\n", su->policy, su->log, su->notify); return 0; } int get_uid_policy(sqlite3 *db, int uid, struct su_access *su) { if (db == nullptr) return 1; char query[256], *err; sprintf(query, "SELECT policy, logging, notification FROM policies " "WHERE uid=%d AND (until=0 OR until>%li)", uid, time(nullptr)); sqlite3_exec(db, query, policy_cb, su, &err); if (err) { LOGE("sqlite3_exec: %s\n", err); sqlite3_free(err); return 1; } return 0; } int validate_manager(char *alt_pkg, int userid, struct stat *st) { if (st == nullptr) { struct stat stat; st = &stat; } // Prefer DE storage const char *base = access("/data/user_de", F_OK) == 0 ? "/data/user_de" : "/data/user"; char app_path[128]; sprintf(app_path, "%s/%d/%s", base, userid, alt_pkg[0] ? alt_pkg : "xxx"); if (stat(app_path, st)) { // Check the official package name sprintf(app_path, "%s/%d/" JAVA_PACKAGE_NAME, base, userid); if (stat(app_path, st)) { LOGE("su: cannot find manager"); memset(st, 0, sizeof(*st)); alt_pkg[0] = '\0'; return 1; } else { // Switch to official package if exists strcpy(alt_pkg, JAVA_PACKAGE_NAME); } } return 0; } static int print_cb(void *v, int col_num, char **data, char **col_name) { for (int i = 0; i < col_num; ++i) { if (i) printf("|"); printf("%s=%s", col_name[i], data[i]); } printf("\n"); return 0; } int exec_sql(const char *sql) { sqlite3 *db = get_magiskdb(); if (db) { char *err; sqlite3_exec(db, sql, print_cb, nullptr, &err); sqlite3_close_v2(db); if (err) { fprintf(stderr, "sql_err: %s\n", err); sqlite3_free(err); return 1; } return 0; } return 1; }