/* * Copyright 2014 Sony Mobile Communications Inc. * * Licensed under the terms of the GNU GPL License version 2 * * Selftest for runtime system size * * Prints the amount of RAM that the currently running system is using. * * This program tries to be as small as possible itself, to * avoid perturbing the system memory utilization with its * own execution. It also attempts to have as few dependencies * on kernel features as possible. * * It should be statically linked, with startup libs avoided. It uses * no library calls except the syscall() function for the following 3 * syscalls: * sysinfo(), write(), and _exit() * * For output, it avoids printf (which in some C libraries * has large external dependencies) by implementing it's own * number output and print routines, and using __builtin_strlen() * * The test may crash if any of the above syscalls fails because in some * libc implementations (e.g. the GNU C Library) errno is saved in * thread-local storage, which does not get initialized due to avoiding * startup libs. */ #include #include #include #define STDOUT_FILENO 1 static int print(const char *s) { size_t len = 0; while (s[len] != '\0') len++; return syscall(SYS_write, STDOUT_FILENO, s, len); } static inline char *num_to_str(unsigned long num, char *buf, int len) { unsigned int digit; /* put digits in buffer from back to front */ buf += len - 1; *buf = 0; do { digit = num % 10; *(--buf) = digit + '0'; num /= 10; } while (num > 0); return buf; } static int print_num(unsigned long num) { char num_buf[30]; return print(num_to_str(num, num_buf, sizeof(num_buf))); } static int print_k_value(const char *s, unsigned long num, unsigned long units) { unsigned long long temp; int ccode; print(s); temp = num; temp = (temp * units)/1024; num = temp; ccode = print_num(num); print("\n"); return ccode; } /* this program has no main(), as startup libraries are not used */ void _start(void) { int ccode; struct sysinfo info; unsigned long used; static const char *test_name = " get runtime memory use\n"; print("TAP version 13\n"); print("# Testing system size.\n"); ccode = syscall(SYS_sysinfo, &info); if (ccode < 0) { print("not ok 1"); print(test_name); print(" ---\n reason: \"could not get sysinfo\"\n ...\n"); syscall(SYS_exit, ccode); } print("ok 1"); print(test_name); /* ignore cache complexities for now */ used = info.totalram - info.freeram - info.bufferram; print("# System runtime memory report (units in Kilobytes):\n"); print(" ---\n"); print_k_value(" Total: ", info.totalram, info.mem_unit); print_k_value(" Free: ", info.freeram, info.mem_unit); print_k_value(" Buffer: ", info.bufferram, info.mem_unit); print_k_value(" In use: ", used, info.mem_unit); print(" ...\n"); print("1..1\n"); syscall(SYS_exit, 0); }