module Osmocom_Types { import from General_Types all; type integer uint8_t (0..255) with { variant "unsigned 8 bit" }; type integer uint16_t (0..65535) with { variant "unsigned 16 bit" }; type integer uint24_t (0..16777215) with { variant "unsigned 24 bit" }; type integer uint32_t (0..4294967295) with { variant "unsigned 32 bit" }; type integer int8_t (-128..127) with { variant "8 bit" }; type integer int16_t (-32768..32767) with { variant "16 bit" }; type integer uint1_t (0..1) with { variant "unsigned 1 bit" }; type integer uint2_t (0..3) with { variant "unsigned 2 bit" }; type integer uint3_t (0..7) with { variant "unsigned 3 bit" }; type integer uint4_t (0..15) with { variant "unsigned 4 bit" }; type integer uint5_t (0..31) with { variant "unsigned 5 bit" }; type integer uint6_t (0..63) with { variant "unsigned 6 bit" }; type integer uint7_t (0..127) with { variant "unsigned 7 bit" }; type integer uint9_t (0..511) with { variant "unsigned 9 bit" }; type integer uint10_t (0..1023) with { variant "unsigned 10 bit" }; type integer uint11_t (0..2047) with { variant "unsigned 11 bit" }; type integer uint12_t (0..4095) with { variant "unsigned 12 bit" }; type integer uint13_t (0..8191) with { variant "unsigned 13 bit" }; type integer uint14_t (0..16383) with { variant "unsigned 14 bit" }; type integer uint15_t (0..32767) with { variant "unsigned 15 bit" }; const uint16_t c_UINT16_MAX := 65535; const uint32_t c_UINT32_MAX := 4294967295; type record Arfcn { boolean pcs, uint15_t arfcn } with { variant "" }; /* return random integer between 0 and max */ function f_rnd_int(integer max) return integer { return float2int(rnd()*int2float(max)); } /* return hexstring composed of random digits */ function f_rnd_hexstring(in integer len, in integer max := 15) return hexstring { var integer i; var hexstring ret := ''H; for (i := 0; i < len; i := i + 1) { ret := ret & int2hex(f_rnd_int(max), 1); } return ret; } /* return octetstring composed of random bytes */ function f_rnd_octstring(in integer len) return octetstring { var integer i; var octetstring ret := ''O; for (i := 0; i < len; i := i + 1) { ret := ret & int2oct(f_rnd_int(255), 1); } return ret; } function f_rnd_imsi(in hexstring prefix) return hexstring { return prefix & f_rnd_hexstring(15 - lengthof(prefix), 9); } function f_rnd_msisdn(in octetstring prefix, integer len := 6) return octetstring { return prefix & f_rnd_octstring(len - lengthof(prefix)); } function f_sleep(float seconds) { timer T := seconds; T.start; T.timeout; } function bool2bit(boolean inp) return BIT1 { if (inp) { return '1'B; } else { return '0'B; } } function bool2bit_tmpl(template boolean inp) return template BIT1 { if (istemplatekind(inp, "omit")) { return omit; } else if (istemplatekind(inp, "*")) { return *; } else if (istemplatekind(inp, "?")) { return ?; } else { if (valueof(inp)) { return '1'B; } else { return '0'B; } } } type record of integer IntegerRecord; function int2bool(integer int) return boolean { if (int != 0) { return true; } else { return false; } } function f_array_contains(IntegerRecord arr, integer key) return boolean { for (var integer i:= 0; i< sizeof(arr); i := i + 1) { if (arr[i] == key) { return true; } } return false; } /* re-start given timer in a warning-safe way: Stop (only if running) + start */ function f_timer_safe_restart(timer T) { if (T.running) { T.stop; } T.start; } /* divide two integers and return rounded-up result */ function f_div_round_up(integer dividend, integer divisor) return integer { var integer x := dividend / divisor; if (dividend rem divisor != 0) { x := x+1; } return x; } function imsi_hex2oct(hexstring imsi) return octetstring { var hexstring tmp := ''H; var octetstring ret; var integer i; /* swap nibbles and pad with F if insufficient input nibbles */ for (i := 0; i < lengthof(imsi); i := i+1) { if (i+1 < lengthof(imsi)) { tmp := tmp & imsi[i+1]; } else { tmp := tmp & 'F'H; } tmp := tmp & imsi[i]; i := i+1; } ret := hex2oct(tmp); return ret; } } with { encode "RAW"; variant "FIELDORDER(msb)" }