use crc::*;
const INIT: &[u8] = b"123456789";
const INIT_PART1: &[u8] = b"1234";
const INIT_PART2: &[u8] = b"56789";
#[test]
fn crc_8() {
let algs = &[
CRC_3_GSM,
CRC_3_ROHC,
CRC_4_G_704,
CRC_4_INTERLAKEN,
CRC_5_EPC_C1G2,
CRC_5_G_704,
CRC_5_USB,
CRC_6_CDMA2000_A,
CRC_6_CDMA2000_B,
CRC_6_DARC,
CRC_6_G_704,
CRC_6_GSM,
CRC_7_MMC,
CRC_7_ROHC,
CRC_7_UMTS,
CRC_8_AUTOSAR,
CRC_8_BLUETOOTH,
CRC_8_CDMA2000,
CRC_8_DARC,
CRC_8_DVB_S2,
CRC_8_GSM_A,
CRC_8_GSM_B,
CRC_8_I_432_1,
CRC_8_I_CODE,
CRC_8_LTE,
CRC_8_MAXIM_DOW,
CRC_8_MIFARE_MAD,
CRC_8_NRSC_5,
CRC_8_OPENSAFETY,
CRC_8_ROHC,
CRC_8_SAE_J1850,
CRC_8_SMBUS,
CRC_8_TECH_3250,
CRC_8_WCDMA,
];
for alg in algs.iter() {
let crc = Crc::<u8>::new(alg);
assert_eq!(alg.check, crc.checksum(INIT));
let mut digest = crc.digest();
digest.update(INIT_PART1);
digest.update(INIT_PART2);
assert_eq!(alg.check, digest.finalize());
}
}
#[test]
fn crc_16() {
let algs = &[
CRC_10_ATM,
CRC_10_CDMA2000,
CRC_10_GSM,
CRC_11_FLEXRAY,
CRC_11_UMTS,
CRC_12_CDMA2000,
CRC_12_DECT,
CRC_12_GSM,
CRC_12_UMTS,
CRC_13_BBC,
CRC_14_DARC,
CRC_14_GSM,
CRC_15_CAN,
CRC_15_MPT1327,
CRC_16_ARC,
CRC_16_CDMA2000,
CRC_16_CMS,
CRC_16_DDS_110,
CRC_16_DECT_R,
CRC_16_DECT_X,
CRC_16_DNP,
CRC_16_EN_13757,
CRC_16_GENIBUS,
CRC_16_GSM,
CRC_16_IBM_3740,
CRC_16_IBM_SDLC,
CRC_16_ISO_IEC_14443_3_A,
CRC_16_KERMIT,
CRC_16_LJ1200,
CRC_16_MAXIM_DOW,
CRC_16_MCRF4XX,
CRC_16_MODBUS,
CRC_16_NRSC_5,
CRC_16_OPENSAFETY_A,
CRC_16_OPENSAFETY_B,
CRC_16_PROFIBUS,
CRC_16_RIELLO,
CRC_16_SPI_FUJITSU,
CRC_16_T10_DIF,
CRC_16_TELEDISK,
CRC_16_TMS37157,
CRC_16_UMTS,
CRC_16_USB,
CRC_16_XMODEM,
];
for alg in algs.iter() {
let crc = Crc::<u16>::new(alg);
assert_eq!(alg.check, crc.checksum(INIT));
let mut digest = crc.digest();
digest.update(INIT_PART1);
digest.update(INIT_PART2);
assert_eq!(alg.check, digest.finalize());
}
}
#[test]
fn crc_32() {
let algs = &[
CRC_17_CAN_FD,
CRC_21_CAN_FD,
CRC_24_BLE,
CRC_24_FLEXRAY_A,
CRC_24_FLEXRAY_B,
CRC_24_INTERLAKEN,
CRC_24_LTE_A,
CRC_24_LTE_B,
CRC_24_OPENPGP,
CRC_24_OS_9,
CRC_30_CDMA,
CRC_31_PHILIPS,
CRC_32_AIXM,
CRC_32_AUTOSAR,
CRC_32_BASE91_D,
CRC_32_BZIP2,
CRC_32_CD_ROM_EDC,
CRC_32_CKSUM,
CRC_32_ISCSI,
CRC_32_ISO_HDLC,
CRC_32_JAMCRC,
CRC_32_MPEG_2,
CRC_32_XFER,
];
for alg in algs {
let crc = Crc::<u32>::new(alg);
assert_eq!(alg.check, crc.checksum(INIT));
let mut digest = crc.digest();
digest.update(INIT_PART1);
digest.update(INIT_PART2);
assert_eq!(alg.check, digest.finalize());
}
}
#[test]
fn crc_64() {
let algs = &[
CRC_40_GSM,
CRC_64_ECMA_182,
CRC_64_GO_ISO,
CRC_64_WE,
CRC_64_XZ,
];
for alg in algs {
let crc = Crc::<u64>::new(alg);
assert_eq!(alg.check, crc.checksum(INIT));
let mut digest = crc.digest();
digest.update(INIT_PART1);
digest.update(INIT_PART2);
assert_eq!(alg.check, digest.finalize());
}
}
#[test]
fn crc_128() {
let algs = &[CRC_82_DARC];
for alg in algs {
let crc = Crc::<u128>::new(alg);
assert_eq!(alg.check, crc.checksum(INIT));
let mut digest = crc.digest();
digest.update(INIT_PART1);
digest.update(INIT_PART2);
assert_eq!(alg.check, digest.finalize());
}
}