int random_seed;
int simulate_power_failure = 0;
-
+int num_of_random_tests=1;
int main(int argc, char *argv[])
{
char message[100];
-
+ int x;
yaffs_tests.num_of_tests=(sizeof(yaffs_tests)/sizeof(test_temp));
linux_tests.num_of_tests=(sizeof(linux_tests)/sizeof(test_temp));
print_message(3,message);
sprintf(message,"yaffs_num_of_tests: %d\n",yaffs_tests.num_of_tests);
print_message(3,message);
-
+ for (x=0;x<num_of_random_tests;x++){
run_random_test();
+ }
return 0;
}
dir[0]='\0';
int x=-1;
char message[100];
+
+ srand(time(NULL));
linux_struct.type_of_test =LINUX;
yaffs_struct.type_of_test =YAFFS;
print_message(3,message);
strcpy(dir,getcwd(dir,200));
- strcat(dir,"/test");
+ strcat(dir,"/test/");
printf("dir: %s\n",dir);
strcpy(linux_struct.root_path,dir);
strcpy(yaffs_struct.root_path,"yaffs2/test/");
printf("\t-p [NUMBER] //sets the print level for mirror_tests.\n");
printf("\t-v //verbose mode everything is printed\n");
printf("\t-q //quiet mode nothing is printed.\n");
+ printf("\t-n [number] //sets the number of random tests to run.\n");
+ printf("\t-s [number] //seeds rand with the number\n");
exit(0);
} else if (strcmp(argv[x],"-yaffs_path")==0){
strcpy(yaffs_struct.root_path, argv[x+1]);
set_print_level(5);
} else if (strcmp(argv[x],"-q")==0){
set_print_level(-1);
- }
+ } else if (strcmp(argv[x],"-n")==0){
+ num_of_random_tests=atoi(argv[x+1]);
+ } else if (strcmp(argv[x],"-n")==0){
+ srand(atoi(argv[x+1]));
+ }
}
yaffs_start_up();
char message[15];
arg_temp args_struct;
for (x=0;x<num_of_tests;x++) {
+ errno=0;
+ yaffs_set_error(0);
test_id = select_test_id(yaffs_tests.num_of_tests);
sprintf(message,"test_id %d\n",test_id);
- print_message(2,message);
+ print_message(3,message);
generate_random_numbers(&args_struct);
run_yaffs_test(id, &args_struct);
run_linux_test(id, &args_struct);
+ if ((abs(yaffs_get_error())!=abs(errno)) &&
+ (abs(yaffs_get_error())!=EISDIR && abs(errno) != 0)
+ ){
+ print_message(2,"\ndiffrence in returned errors######################################\n");
+ get_error_yaffs();
+ get_error_linux();
+ if (get_exit_on_error()){
+ exit(0);
+ }
+ }
}
compare_linux_and_yaffs();
}
void generate_random_numbers(arg_temp *args_struct)
{
+ char string[51];
args_struct->char1= (rand() % 255);
args_struct->char2= (rand() % 255);
args_struct->int1= (rand() % 100000);
args_struct->int2= (rand() % 100000);
- strcpy(args_struct->string1, "apple");
- strcpy(args_struct->string2, "apple");
+ generate_random_string(string,50);
+ strcpy(args_struct->string1, string);
+ generate_random_string(string,50);
+ strcpy(args_struct->string2, string);
}
void run_yaffs_test(int id,arg_temp *args_struct)
{
char message[30];
int output =0;
- print_message(2,"\n");
+ print_message(3,"\n");
sprintf(message,"running_test %s\n",yaffs_tests.test_list[id].test_name);
print_message(3,message);
output=yaffs_tests.test_list[id].test_pointer(args_struct);
if (output<0) {
sprintf(message,"test_failed %s\n",yaffs_tests.test_list[id].test_name);
- print_message(1,message);
- get_error_yaffs();
+ print_message(3,message);
} else {
print_message(3,"test_passed\n");
}
{
char message[30];
int output =0;
- print_message(2,"\n");
+ print_message(3,"\n");
sprintf(message,"running_test %s\n",linux_tests.test_list[id].test_name);
print_message(3,message);
output=linux_tests.test_list[id].test_pointer(args_struct);
if (output<0) {
sprintf(message,"test_failed %s\n",linux_tests.test_list[id].test_name);
- print_message(1,message);
- get_error_linux();
+ print_message(3,message);
} else {
print_message(3,"test_passed\n");
}