#include #include static void put(asn_per_outp_t *po, size_t length) { fprintf(stderr, "put(%zd)\n", length); do { int need_eom = 123; ssize_t may_write = uper_put_length(po, length, &need_eom); fprintf(stderr, " put %zu\n", may_write); assert(may_write >= 0); assert((size_t)may_write <= length); assert(need_eom != 123); length -= may_write; if(need_eom) { assert(length == 0); if(uper_put_length(po, 0, 0)) { assert(!"Unreachable"); } fprintf(stderr, " put EOM 0\n"); } } while(length); fprintf(stderr, "put(...) in %zu bits\n", po->nboff); assert(po->nboff != 0); assert(po->flushed_bytes == 0); } static size_t get(asn_per_outp_t *po) { asn_bit_data_t data; memset(&data, 0, sizeof(data)); data.buffer = po->tmpspace; data.nboff = 0; data.nbits = 8 * (po->buffer - po->tmpspace) + po->nboff; fprintf(stderr, "get(): %s\n", asn_bit_data_string(&data)); size_t length = 0; int repeat = 0; do { ssize_t n = uper_get_length(&data, -1, 0, &repeat); fprintf(stderr, " get = %zu +%zd\n", length, n); assert(n >= 0); length += n; } while(repeat); fprintf(stderr, "get() = %zu\n", length); return length; } static void check_round_trip(size_t length) { fprintf(stderr, "\nRound-trip for %zu\n", length); asn_per_outp_t po; memset(&po, 0, sizeof(po)); po.buffer = po.tmpspace; po.nbits = 8 * sizeof(po.tmpspace); put(&po, length); size_t recovered = get(&po); assert(recovered == length); } /* * Checks that we can get the PER length that we have just put, * and receive the same value. */ static void check_round_trips() { check_round_trip(0); check_round_trip(1); check_round_trip(127); check_round_trip(128); check_round_trip(129); check_round_trip(255); check_round_trip(256); check_round_trip(65534); check_round_trip(65535); check_round_trip(65536); check_round_trip(65538); check_round_trip(128000); for(size_t i = 1; i < 10; i++) { check_round_trip(i*16384 - 1); check_round_trip(i*16384); check_round_trip(i*16384 + 1); } } #define OK_UNREBASE(w, l, u, c) check_unrebase(__LINE__, 0, w, l, u, c) #define NO_UNREBASE(w, l, u) check_unrebase(__LINE__, 1, w, l, u, 0) static void check_unrebase(int lineno, int expected_to_fail, unsigned long wire_value, long lb, long ub, long control) { fprintf(stderr, "%03d: Checking recovery of %lu (%ld..%ld)", lineno, wire_value, lb, ub); if(expected_to_fail) { fprintf(stderr, " to FAIL\n"); } else { fprintf(stderr, " into %ld\n", control); } long outcome; int ret = per_long_range_unrebase(wire_value, lb, ub, &outcome); if(ret == 0) { assert(!expected_to_fail); } else { assert(expected_to_fail); return; } assert(outcome == control); } #define OK_REBASE_ROUNDTRIP(v, l, u) \ check_range_rebase_round_trip(__LINE__, 0, v, l, u) #define NO_REBASE_ROUNDTRIP(v, l, u) \ check_range_rebase_round_trip(__LINE__, 1, v, l, u) static void check_range_rebase_round_trip(int lineno, int expected_to_fail, long value, long lb, long ub) { unsigned long wire_value; int ret; fprintf(stderr, "%03d: Rebase %ld into (%ld..%ld) %s\n", lineno, value, lb, ub, expected_to_fail ? "FAIL" : "OK"); ret = per_long_range_rebase(value, lb, ub, &wire_value); if(ret != 0) { if(expected_to_fail) { return; } else { fprintf(stderr, "%03d: Original %ld (%ld..%ld) failed to rebase\n", lineno, value, lb, ub); assert(ret == 0); } } if(expected_to_fail) { fprintf( stderr, "%03d: Original %ld (%ld..%ld) rebased to %lu where it shouldn't\n", lineno, value, lb, ub, wire_value); assert(expected_to_fail && ret == -1); } fprintf(stderr, "%03d: Recover %lu into (%ld..%ld)\n", lineno, wire_value, lb, ub); long recovered; ret = per_long_range_unrebase(wire_value, lb, ub, &recovered); if(ret != 0) { fprintf(stderr, "%03d: Wire value %lu (%ld..%ld) failed to unrebase\n", lineno, wire_value, lb, ub); assert(ret == 0); } if(value != recovered) { fprintf(stderr, "%03d: Value %ld (%ld..%ld) failed to round-trip (=%ld)\n", lineno, value, lb, ub, recovered); assert(value == recovered); } } static void check_range_rebase() { OK_UNREBASE(0U, 0, 0, 0); NO_UNREBASE(1U, 0, 0); OK_UNREBASE(0, LONG_MAX, LONG_MAX, LONG_MAX); NO_UNREBASE(1, LONG_MAX, LONG_MAX); OK_UNREBASE(0, LONG_MAX-1, LONG_MAX-1, LONG_MAX-1); NO_UNREBASE(1, LONG_MAX-1, LONG_MAX-1); OK_REBASE_ROUNDTRIP(0, 0, 0); OK_REBASE_ROUNDTRIP(0, 0, 1); OK_REBASE_ROUNDTRIP(1, 0, 1); NO_REBASE_ROUNDTRIP(-1, 0, 0); NO_REBASE_ROUNDTRIP(1, 0, 0); NO_REBASE_ROUNDTRIP(LONG_MIN, 0, 0); NO_REBASE_ROUNDTRIP(LONG_MAX, 0, 0); OK_REBASE_ROUNDTRIP(-2, -2, -1); OK_REBASE_ROUNDTRIP(-1, -2, -1); NO_REBASE_ROUNDTRIP(-3, -2, -1); NO_REBASE_ROUNDTRIP(0, -2, -1); OK_REBASE_ROUNDTRIP(LONG_MAX, LONG_MAX, LONG_MAX); NO_REBASE_ROUNDTRIP(LONG_MAX-1, LONG_MAX, LONG_MAX); NO_REBASE_ROUNDTRIP(0, LONG_MAX, LONG_MAX); NO_REBASE_ROUNDTRIP(LONG_MIN, LONG_MAX, LONG_MAX); NO_REBASE_ROUNDTRIP(LONG_MIN+1, LONG_MAX, LONG_MAX); OK_REBASE_ROUNDTRIP(LONG_MIN, LONG_MIN, LONG_MIN); NO_REBASE_ROUNDTRIP(LONG_MIN+1, LONG_MIN, LONG_MIN); NO_REBASE_ROUNDTRIP(0, LONG_MIN, LONG_MIN); NO_REBASE_ROUNDTRIP(LONG_MAX-1, LONG_MIN, LONG_MIN); NO_REBASE_ROUNDTRIP(LONG_MAX, LONG_MIN, LONG_MIN); OK_REBASE_ROUNDTRIP(LONG_MAX-10, LONG_MAX-10, LONG_MAX-5); OK_REBASE_ROUNDTRIP(LONG_MAX-5, LONG_MAX-10, LONG_MAX-5); OK_REBASE_ROUNDTRIP(LONG_MAX-7, LONG_MAX-10, LONG_MAX-5); NO_REBASE_ROUNDTRIP(LONG_MAX-4, LONG_MAX-10, LONG_MAX-5); NO_REBASE_ROUNDTRIP(LONG_MIN, LONG_MIN+1, LONG_MIN+2); OK_REBASE_ROUNDTRIP(LONG_MIN+1, LONG_MIN+1, LONG_MIN+2); OK_REBASE_ROUNDTRIP(LONG_MIN+2, LONG_MIN+1, LONG_MIN+2); NO_REBASE_ROUNDTRIP(LONG_MIN+3, LONG_MIN+1, LONG_MIN+2); OK_REBASE_ROUNDTRIP(LONG_MIN, LONG_MIN, LONG_MIN+1); OK_REBASE_ROUNDTRIP(LONG_MIN+1, LONG_MIN, 0); OK_REBASE_ROUNDTRIP(LONG_MIN+1, LONG_MIN, LONG_MIN+1); NO_REBASE_ROUNDTRIP(LONG_MIN+2, LONG_MIN, LONG_MIN+1); OK_REBASE_ROUNDTRIP(-1, -1, 1); OK_REBASE_ROUNDTRIP(0, -1, 1); OK_REBASE_ROUNDTRIP(1, -1, 1); NO_REBASE_ROUNDTRIP(-2, -1, 1); NO_REBASE_ROUNDTRIP(2, -1, 1); NO_REBASE_ROUNDTRIP(LONG_MIN, -1, 1); NO_REBASE_ROUNDTRIP(LONG_MAX, -1, 1); OK_REBASE_ROUNDTRIP(-1, LONG_MIN, LONG_MAX); OK_REBASE_ROUNDTRIP(0, LONG_MIN, LONG_MAX); OK_REBASE_ROUNDTRIP(1, LONG_MIN, LONG_MAX); OK_REBASE_ROUNDTRIP(LONG_MIN, LONG_MIN, LONG_MAX); OK_REBASE_ROUNDTRIP(LONG_MAX, LONG_MIN, LONG_MAX); #ifndef EXPLICIT_32BIT if(sizeof(long) == 8) { OK_REBASE_ROUNDTRIP(0, LONG_MIN, LONG_MAX); /* Too wide range, would not fit uint32_t */ OK_REBASE_ROUNDTRIP(INT32_MIN, (long)INT32_MIN - 1, (long)INT32_MAX + 1); OK_REBASE_ROUNDTRIP(INT32_MAX, (long)INT32_MIN - 1, (long)INT32_MAX + 1); OK_REBASE_ROUNDTRIP((long)INT32_MIN - 1, (long)INT32_MIN - 1, (long)INT32_MAX + 1); OK_REBASE_ROUNDTRIP((long)INT32_MAX + 1, (long)INT32_MIN - 1, (long)INT32_MAX + 1); NO_REBASE_ROUNDTRIP(LONG_MIN, (long)INT32_MIN - 1, (long)INT32_MAX + 1); NO_REBASE_ROUNDTRIP(LONG_MAX, (long)INT32_MIN - 1, (long)INT32_MAX + 1); NO_REBASE_ROUNDTRIP(((long)INT32_MIN)-1, INT32_MIN, INT32_MAX); NO_REBASE_ROUNDTRIP(((long)INT32_MAX)+1, INT32_MIN, INT32_MAX); NO_REBASE_ROUNDTRIP(LONG_MIN, INT32_MIN, INT32_MAX); NO_REBASE_ROUNDTRIP(LONG_MAX, INT32_MIN, INT32_MAX); } #endif OK_REBASE_ROUNDTRIP(-1, LONG_MIN + 1, LONG_MAX - 1); OK_REBASE_ROUNDTRIP(0, LONG_MIN + 1, LONG_MAX - 1); OK_REBASE_ROUNDTRIP(-1, LONG_MIN + 1, LONG_MAX - 1); OK_REBASE_ROUNDTRIP(LONG_MIN + 1, LONG_MIN + 1, LONG_MAX - 1); OK_REBASE_ROUNDTRIP(LONG_MAX - 1, LONG_MIN + 1, LONG_MAX - 1); NO_REBASE_ROUNDTRIP(LONG_MIN, LONG_MIN + 1, LONG_MAX - 1); NO_REBASE_ROUNDTRIP(LONG_MAX, LONG_MIN + 1, LONG_MAX - 1); if(sizeof(long) == 8) { NO_REBASE_ROUNDTRIP(LONG_MIN, INT32_MIN + 1, INT32_MAX - 1); NO_REBASE_ROUNDTRIP(LONG_MAX, INT32_MIN + 1, INT32_MAX - 1); } } int main() { check_range_rebase(); check_round_trips(); }