skeletons/tests/check-PER-INTEGER.c - asn1c - Gitiles

 #include <stdio.h>
 #include <assert.h>

 #define	EMIT_ASN_DEBUG	1
 #include <INTEGER.h>
 #include <INTEGER.c>
 #include <per_support.c>
 #include <per_support.h>

 static int FailOut(const void *data, size_t size, void *op_key) {
 	assert(!"UNREACHABLE");
 	return 0;
 }

 static void normalize(asn_per_outp_t *po) {
 	if(po->nboff >= 8) {
 		po->buffer += (po->nboff >> 3);
 		po->nbits  -= (po->nboff & ~0x07);
 		po->nboff  &= 0x07;
 	}
 }

 static void
 check_per_encode_constrained(int lineno, int unsigned_, long value, long lbound, unsigned long ubound, int bit_range) {
 	INTEGER_t st;
 	INTEGER_t *reconstructed_st = 0;
 	struct asn_INTEGER_specifics_s specs;
 	struct asn_per_constraints_s cts;
 	asn_enc_rval_t enc_rval;
 	asn_dec_rval_t dec_rval;
 	asn_per_outp_t po;
 	asn_per_data_t pd;

 	if(unsigned_)
 		printf("%d: Recoding %s %lu [%ld..%lu]\n", lineno,
 		  unsigned_ ? "unsigned" : "signed", value, lbound, ubound);
 	else
 		printf("%d: Recoding %s %ld [%ld..%lu]\n", lineno,
 		  unsigned_ ? "unsigned" : "signed", value, lbound, ubound);

 	memset(&st, 0, sizeof(st));
 	memset(&po, 0, sizeof(po));
 	memset(&pd, 0, sizeof(pd));
 	memset(&cts, 0, sizeof(cts));
 	memset(&specs, 0, sizeof(specs));

 	cts.value.flags = APC_CONSTRAINED;
 	cts.value.range_bits = bit_range;
 	cts.value.effective_bits = bit_range;
 	cts.value.lower_bound = lbound;
 	cts.value.upper_bound = ubound;

 	if(unsigned_)
 		asn_ulong2INTEGER(&st, (unsigned long)value);
 	else
 		asn_long2INTEGER(&st, value);

 	po.buffer = po.tmpspace;
 	po.nboff = 0;
 	po.nbits = 8 * sizeof(po.tmpspace);
 	po.outper = FailOut;

 	specs.field_width = sizeof(long);
 	specs.field_unsigned = unsigned_;

 	asn_DEF_INTEGER.specifics = &specs;
 	enc_rval = INTEGER_encode_uper(&asn_DEF_INTEGER, &cts, &st, &po);
 	assert(enc_rval.encoded == 0);

 	normalize(&po);

 	assert(po.buffer == &po.tmpspace[bit_range / 8]);

 	if(unsigned_) {
 		unsigned long recovered_value =
 			  ((uint32_t)po.tmpspace[0] << 24)
 			| ((uint32_t)po.tmpspace[1] << 16)
 			| ((uint32_t)po.tmpspace[2] << 8)
 			| ((uint32_t)po.tmpspace[3] << 0);
 		recovered_value >>= (32 - bit_range);
 		recovered_value += cts.value.lower_bound;
 		assert(recovered_value == (unsigned long)value);
 	} else {
 		long recovered_value =
 			  ((uint32_t)po.tmpspace[0] << 24)
 			| ((uint32_t)po.tmpspace[1] << 16)
 			| ((uint32_t)po.tmpspace[2] << 8)
 			| ((uint32_t)po.tmpspace[3] << 0);
 		recovered_value = (unsigned long)recovered_value >> (32 - bit_range);
 		recovered_value += cts.value.lower_bound;
 		assert((long)recovered_value == value);
 	}
 	assert(po.nboff == ((bit_range == 32) ? 0 : (8 - (32 - bit_range))));
 	assert(po.nbits ==  8 * (sizeof(po.tmpspace) - (po.buffer-po.tmpspace)));
 	assert(po.flushed_bytes == 0);

 	pd.buffer = po.tmpspace;
 	pd.nboff = 0;
 	pd.nbits = 8 * (po.buffer - po.tmpspace) + po.nboff;
 	pd.moved = 0;
 	dec_rval = INTEGER_decode_uper(0, &asn_DEF_INTEGER, &cts,
 					(void **)&reconstructed_st, &pd);
 	assert(dec_rval.code == RC_OK);
 	if(unsigned_) {
 		unsigned long reconstructed_value = 0;
 		asn_INTEGER2ulong(reconstructed_st, &reconstructed_value);
 		assert(reconstructed_value == (unsigned long)value);
 	} else {
 		long reconstructed_value = 0;
 		asn_INTEGER2long(reconstructed_st, &reconstructed_value);
 		assert(reconstructed_value == value);
 	}
 }

 #define	CHECK(u, v, l, r, b)	\
 	check_per_encode_constrained(__LINE__, u, v, l, r, b)

 int
 main() {
   int unsigned_;
   for(unsigned_ = 0; unsigned_ < 2; unsigned_++) {
 	int u = unsigned_;

 	/* Encode a signed 0x8babab into a range constrained by 0..2^29-1 */
 	CHECK(u, 0x8babab, 0, 536870911UL, 29);
 	CHECK(u, 0x8babab, 0, 1073741823UL, 30);
 	CHECK(u, 0x8babab, 0, 2147483647UL, 31);

 	CHECK(u, 0x8babab, 10, 536870901UL, 29);
 	CHECK(u, 0x8babab, 10, 1073741803UL, 30);
 	CHECK(u, 0x8babab, 10, 2147483607UL, 31);

 	CHECK(0, 0x8babab, -10, 536870901UL, 29);
 	CHECK(0, 0x8babab, -10, 1073741803UL, 30);
 	CHECK(0, 0x8babab, -10, 2147483607UL, 31);

 	CHECK(u, 11, 10, 536870901UL, 29);
 	CHECK(u, 11, 10, 1073741803UL, 30);
 	CHECK(u, 11, 10, 2147483607UL, 31);

 	CHECK(0, 1, -10, 536870901UL, 29);
 	CHECK(0, 1, -10, 1073741803UL, 30);
 	CHECK(0, 1, -10, 2147483607UL, 31);

 	CHECK(u, 10, 10, 536870901UL, 29);
 	CHECK(u, 10, 10, 1073741803UL, 30);
 	CHECK(u, 10, 10, 2147483607UL, 31);

 	CHECK(0, 0, -10, 536870901UL, 29);
 	CHECK(0, 0, -10, 1073741803UL, 30);
 	CHECK(0, 0, -10, 2147483607UL, 31);

 	CHECK(0, -1, -10, 536870901UL, 29);
 	CHECK(0, -1, -10, 1073741803UL, 30);
 	CHECK(0, -1, -10, 2147483607UL, 31);

 	CHECK(0, -10, -10, 536870901UL, 29);
 	CHECK(0, -10, -10, 1073741803UL, 30);
 	CHECK(0, -10, -10, 2147483607UL, 31);

 	CHECK(u, 536870901UL, 10, 536870901UL, 29);
 	CHECK(u, 1073741803UL, 10, 1073741803UL, 30);
 	CHECK(u, 2147483607UL, 10, 2147483607UL, 31);

 	CHECK(0, 536870901UL, -10, 536870901UL, 29);
 	CHECK(0, 1073741803UL, -10, 1073741803UL, 30);
 	CHECK(0, 2147483607UL, -10, 2147483607UL, 31);

 	CHECK(0, -2147483648, -2147483648, 2147483647, 32);
 	CHECK(0, -10, -2147483648, 2147483647, 32);
 	CHECK(0,  -1, -2147483648, 2147483647, 32);
 	CHECK(0,   0, -2147483648, 2147483647, 32);
 	CHECK(0,   1, -2147483648, 2147483647, 32);
 	CHECK(0,  10, -2147483648, 2147483647, 32);
 	CHECK(0,  2147483647, -2147483648, 2147483647, 32);

 	CHECK(1,  0, 0, 4294967295UL, 32);
 	CHECK(1,  1, 0, 4294967295UL, 32);
 	CHECK(1, 10, 0, 4294967295UL, 32);
 	CHECK(1, 2000000000, 0, 4294967295UL, 32);
 	CHECK(1, 2147483647, 0, 4294967295UL, 32);
 	CHECK(1, 2147483648, 0, 4294967295UL, 32);
 	CHECK(1, 4000000000, 0, 4294967295UL, 32);
 	CHECK(1, 4294967295UL, 0, 4294967295UL, 32);

 	CHECK(1, 10, 10, 4294967285UL, 32);
 	CHECK(1, 11, 10, 4294967285UL, 32);

 	if(sizeof(long) > sizeof(uint32_t)) {
 		CHECK(0,   0, -10, 4294967285UL, 32);
 		CHECK(0,   1, -10, 4294967285UL, 32);
 		CHECK(0,  -1, -10, 4294967285UL, 32);
 		CHECK(0, -10, -10, 4294967285UL, 32);
 		CHECK(0, -10, -10, 4294967285UL, 32);
 		CHECK(0, 0x8babab, -10, 4294967285UL, 32);

 		CHECK(u, 0x8babab, 0, 4294967295UL, 32);
 		CHECK(u, 11, 10, 4294967205UL, 32);
 		CHECK(u, 10, 10, 4294967205UL, 32);
 		CHECK(u, 4294967205UL, 10, 4294967285UL, 32);

 		CHECK(0, 4294967205UL, -10, 4294967285UL, 32);
 		CHECK(u, 4294967295UL, 1, 4294967295UL, 32);

 		CHECK(u, 2000000000, 0, 4294967295UL, 32);
 		CHECK(u, 2147483647, 0, 4294967295UL, 32);
 		CHECK(u, 2147483648, 0, 4294967295UL, 32);
 		CHECK(u, 4000000000, 0, 4294967295UL, 32);
 	}
  }

   return 0;
 }
	#include <stdio.h>
	#include <assert.h>

	#define EMIT_ASN_DEBUG 1
	#include <INTEGER.h>
	#include <INTEGER.c>
	#include <per_support.c>
	#include <per_support.h>

	static int FailOut(const void data, size_t size, void op_key) {
	assert(!"UNREACHABLE");
	return 0;
	}

	static void normalize(asn_per_outp_t *po) {
	if(po->nboff >= 8) {
	po->buffer += (po->nboff >> 3);
	po->nbits -= (po->nboff & ~0x07);
	po->nboff &= 0x07;
	}
	}

	static void
	check_per_encode_constrained(int lineno, int unsigned_, long value, long lbound, unsigned long ubound, int bit_range) {
	INTEGER_t st;
	INTEGER_t *reconstructed_st = 0;
	struct asn_INTEGER_specifics_s specs;
	struct asn_per_constraints_s cts;
	asn_enc_rval_t enc_rval;
	asn_dec_rval_t dec_rval;
	asn_per_outp_t po;
	asn_per_data_t pd;

	if(unsigned_)
	printf("%d: Recoding %s %lu [%ld..%lu]\n", lineno,
	unsigned_ ? "unsigned" : "signed", value, lbound, ubound);
	else
	printf("%d: Recoding %s %ld [%ld..%lu]\n", lineno,
	unsigned_ ? "unsigned" : "signed", value, lbound, ubound);

	memset(&st, 0, sizeof(st));
	memset(&po, 0, sizeof(po));
	memset(&pd, 0, sizeof(pd));
	memset(&cts, 0, sizeof(cts));
	memset(&specs, 0, sizeof(specs));

	cts.value.flags = APC_CONSTRAINED;
	cts.value.range_bits = bit_range;
	cts.value.effective_bits = bit_range;
	cts.value.lower_bound = lbound;
	cts.value.upper_bound = ubound;

	if(unsigned_)
	asn_ulong2INTEGER(&st, (unsigned long)value);
	else
	asn_long2INTEGER(&st, value);

	po.buffer = po.tmpspace;
	po.nboff = 0;
	po.nbits = 8 * sizeof(po.tmpspace);
	po.outper = FailOut;

	specs.field_width = sizeof(long);
	specs.field_unsigned = unsigned_;

	asn_DEF_INTEGER.specifics = &specs;
	enc_rval = INTEGER_encode_uper(&asn_DEF_INTEGER, &cts, &st, &po);
	assert(enc_rval.encoded == 0);

	normalize(&po);

	assert(po.buffer == &po.tmpspace[bit_range / 8]);

	if(unsigned_) {
	unsigned long recovered_value =
	((uint32_t)po.tmpspace[0] << 24)
	\| ((uint32_t)po.tmpspace[1] << 16)
	\| ((uint32_t)po.tmpspace[2] << 8)
	\| ((uint32_t)po.tmpspace[3] << 0);
	recovered_value >>= (32 - bit_range);
	recovered_value += cts.value.lower_bound;
	assert(recovered_value == (unsigned long)value);
	} else {
	long recovered_value =
	((uint32_t)po.tmpspace[0] << 24)
	\| ((uint32_t)po.tmpspace[1] << 16)
	\| ((uint32_t)po.tmpspace[2] << 8)
	\| ((uint32_t)po.tmpspace[3] << 0);
	recovered_value = (unsigned long)recovered_value >> (32 - bit_range);
	recovered_value += cts.value.lower_bound;
	assert((long)recovered_value == value);
	}
	assert(po.nboff == ((bit_range == 32) ? 0 : (8 - (32 - bit_range))));
	assert(po.nbits == 8 * (sizeof(po.tmpspace) - (po.buffer-po.tmpspace)));
	assert(po.flushed_bytes == 0);

	pd.buffer = po.tmpspace;
	pd.nboff = 0;
	pd.nbits = 8 * (po.buffer - po.tmpspace) + po.nboff;
	pd.moved = 0;
	dec_rval = INTEGER_decode_uper(0, &asn_DEF_INTEGER, &cts,
	(void **)&reconstructed_st, &pd);
	assert(dec_rval.code == RC_OK);
	if(unsigned_) {
	unsigned long reconstructed_value = 0;
	asn_INTEGER2ulong(reconstructed_st, &reconstructed_value);
	assert(reconstructed_value == (unsigned long)value);
	} else {
	long reconstructed_value = 0;
	asn_INTEGER2long(reconstructed_st, &reconstructed_value);
	assert(reconstructed_value == value);
	}
	}

	#define CHECK(u, v, l, r, b) \
	check_per_encode_constrained(__LINE__, u, v, l, r, b)

	int
	main() {
	int unsigned_;
	for(unsigned_ = 0; unsigned_ < 2; unsigned_++) {
	int u = unsigned_;

	/* Encode a signed 0x8babab into a range constrained by 0..2^29-1 */
	CHECK(u, 0x8babab, 0, 536870911UL, 29);
	CHECK(u, 0x8babab, 0, 1073741823UL, 30);
	CHECK(u, 0x8babab, 0, 2147483647UL, 31);

	CHECK(u, 0x8babab, 10, 536870901UL, 29);
	CHECK(u, 0x8babab, 10, 1073741803UL, 30);
	CHECK(u, 0x8babab, 10, 2147483607UL, 31);

	CHECK(0, 0x8babab, -10, 536870901UL, 29);
	CHECK(0, 0x8babab, -10, 1073741803UL, 30);
	CHECK(0, 0x8babab, -10, 2147483607UL, 31);

	CHECK(u, 11, 10, 536870901UL, 29);
	CHECK(u, 11, 10, 1073741803UL, 30);
	CHECK(u, 11, 10, 2147483607UL, 31);

	CHECK(0, 1, -10, 536870901UL, 29);
	CHECK(0, 1, -10, 1073741803UL, 30);
	CHECK(0, 1, -10, 2147483607UL, 31);

	CHECK(u, 10, 10, 536870901UL, 29);
	CHECK(u, 10, 10, 1073741803UL, 30);
	CHECK(u, 10, 10, 2147483607UL, 31);

	CHECK(0, 0, -10, 536870901UL, 29);
	CHECK(0, 0, -10, 1073741803UL, 30);
	CHECK(0, 0, -10, 2147483607UL, 31);

	CHECK(0, -1, -10, 536870901UL, 29);
	CHECK(0, -1, -10, 1073741803UL, 30);
	CHECK(0, -1, -10, 2147483607UL, 31);

	CHECK(0, -10, -10, 536870901UL, 29);
	CHECK(0, -10, -10, 1073741803UL, 30);
	CHECK(0, -10, -10, 2147483607UL, 31);

	CHECK(u, 536870901UL, 10, 536870901UL, 29);
	CHECK(u, 1073741803UL, 10, 1073741803UL, 30);
	CHECK(u, 2147483607UL, 10, 2147483607UL, 31);

	CHECK(0, 536870901UL, -10, 536870901UL, 29);
	CHECK(0, 1073741803UL, -10, 1073741803UL, 30);
	CHECK(0, 2147483607UL, -10, 2147483607UL, 31);

	CHECK(0, -2147483648, -2147483648, 2147483647, 32);
	CHECK(0, -10, -2147483648, 2147483647, 32);
	CHECK(0, -1, -2147483648, 2147483647, 32);
	CHECK(0, 0, -2147483648, 2147483647, 32);
	CHECK(0, 1, -2147483648, 2147483647, 32);
	CHECK(0, 10, -2147483648, 2147483647, 32);
	CHECK(0, 2147483647, -2147483648, 2147483647, 32);

	CHECK(1, 0, 0, 4294967295UL, 32);
	CHECK(1, 1, 0, 4294967295UL, 32);
	CHECK(1, 10, 0, 4294967295UL, 32);
	CHECK(1, 2000000000, 0, 4294967295UL, 32);
	CHECK(1, 2147483647, 0, 4294967295UL, 32);
	CHECK(1, 2147483648, 0, 4294967295UL, 32);
	CHECK(1, 4000000000, 0, 4294967295UL, 32);
	CHECK(1, 4294967295UL, 0, 4294967295UL, 32);

	CHECK(1, 10, 10, 4294967285UL, 32);
	CHECK(1, 11, 10, 4294967285UL, 32);

	if(sizeof(long) > sizeof(uint32_t)) {
	CHECK(0, 0, -10, 4294967285UL, 32);
	CHECK(0, 1, -10, 4294967285UL, 32);
	CHECK(0, -1, -10, 4294967285UL, 32);
	CHECK(0, -10, -10, 4294967285UL, 32);
	CHECK(0, -10, -10, 4294967285UL, 32);
	CHECK(0, 0x8babab, -10, 4294967285UL, 32);

	CHECK(u, 0x8babab, 0, 4294967295UL, 32);
	CHECK(u, 11, 10, 4294967205UL, 32);
	CHECK(u, 10, 10, 4294967205UL, 32);
	CHECK(u, 4294967205UL, 10, 4294967285UL, 32);

	CHECK(0, 4294967205UL, -10, 4294967285UL, 32);
	CHECK(u, 4294967295UL, 1, 4294967295UL, 32);

	CHECK(u, 2000000000, 0, 4294967295UL, 32);
	CHECK(u, 2147483647, 0, 4294967295UL, 32);
	CHECK(u, 2147483648, 0, 4294967295UL, 32);
	CHECK(u, 4000000000, 0, 4294967295UL, 32);
	}
	}

	return 0;
	}