rust/tests/auxiliary/rust_test_helpers.c

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// Helper functions used only in tests
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#include <stdint.h>
#include <stdlib.h>
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#include <assert.h>
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#include <stdarg.h>
// These functions are used in the unit tests for C ABI calls.
uint32_t
rust_dbg_extern_identity_u32(uint32_t u) {
return u;
}
uint64_t
rust_dbg_extern_identity_u64(uint64_t u) {
return u;
}
double
rust_dbg_extern_identity_double(double u) {
return u;
}
char
rust_dbg_extern_identity_u8(char u) {
return u;
}
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typedef uint64_t (*dbg_callback)(uint64_t);
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uint64_t
rust_dbg_call(dbg_callback cb, uint64_t data) {
return cb(data);
}
void rust_dbg_do_nothing() { }
struct TwoU8s {
uint8_t one;
uint8_t two;
};
struct TwoU8s
rust_dbg_extern_return_TwoU8s() {
struct TwoU8s s;
s.one = 10;
s.two = 20;
return s;
}
struct TwoU8s
rust_dbg_extern_identity_TwoU8s(struct TwoU8s u) {
return u;
}
struct TwoU16s {
uint16_t one;
uint16_t two;
};
struct TwoU16s
rust_dbg_extern_return_TwoU16s() {
struct TwoU16s s;
s.one = 10;
s.two = 20;
return s;
}
struct TwoU16s
rust_dbg_extern_identity_TwoU16s(struct TwoU16s u) {
return u;
}
struct TwoU32s {
uint32_t one;
uint32_t two;
};
struct TwoU32s
rust_dbg_extern_return_TwoU32s() {
struct TwoU32s s;
s.one = 10;
s.two = 20;
return s;
}
struct TwoU32s
rust_dbg_extern_identity_TwoU32s(struct TwoU32s u) {
return u;
}
struct TwoU64s {
uint64_t one;
uint64_t two;
};
struct TwoU64s
rust_dbg_extern_return_TwoU64s() {
struct TwoU64s s;
s.one = 10;
s.two = 20;
return s;
}
struct TwoU64s
rust_dbg_extern_identity_TwoU64s(struct TwoU64s u) {
return u;
}
struct TwoDoubles {
double one;
double two;
};
struct TwoDoubles
rust_dbg_extern_identity_TwoDoubles(struct TwoDoubles u) {
return u;
}
struct FiveU16s {
uint16_t one;
uint16_t two;
uint16_t three;
uint16_t four;
uint16_t five;
};
struct FiveU16s
rust_dbg_extern_return_FiveU16s() {
struct FiveU16s s;
s.one = 10;
s.two = 20;
s.three = 30;
s.four = 40;
s.five = 50;
return s;
}
struct FiveU16s
rust_dbg_extern_identity_FiveU16s(struct FiveU16s u) {
return u;
}
struct ManyInts {
int8_t arg1;
int16_t arg2;
int32_t arg3;
int16_t arg4;
int8_t arg5;
struct TwoU8s arg6;
};
// MSVC doesn't allow empty structs or unions
#ifndef _MSC_VER
struct Empty {
};
void
rust_dbg_extern_empty_struct(struct ManyInts v1, struct Empty e, struct ManyInts v2) {
assert(v1.arg1 == v2.arg1 + 1);
assert(v1.arg2 == v2.arg2 + 1);
assert(v1.arg3 == v2.arg3 + 1);
assert(v1.arg4 == v2.arg4 + 1);
assert(v1.arg5 == v2.arg5 + 1);
assert(v1.arg6.one == v2.arg6.one + 1);
assert(v1.arg6.two == v2.arg6.two + 1);
}
#endif
intptr_t
rust_get_test_int() {
return 1;
}
char *
rust_get_null_ptr() {
return 0;
}
// Debug helpers strictly to verify ABI conformance.
struct quad {
uint64_t a;
uint64_t b;
uint64_t c;
uint64_t d;
};
struct floats {
double a;
uint8_t b;
double c;
};
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struct char_char_double {
uint8_t a;
uint8_t b;
double c;
};
struct char_char_float {
uint8_t a;
uint8_t b;
float c;
};
struct quad
rust_dbg_abi_1(struct quad q) {
struct quad qq = { q.c + 1,
q.d - 1,
q.a + 1,
q.b - 1 };
return qq;
}
struct floats
rust_dbg_abi_2(struct floats f) {
struct floats ff = { f.c + 1.0,
0xff,
f.a - 1.0 };
return ff;
}
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struct char_char_double
rust_dbg_abi_3(struct char_char_double a) {
struct char_char_double ccd = { a.a + 1,
a.b - 1,
a.c + 1.0 };
return ccd;
}
struct char_char_float
rust_dbg_abi_4(struct char_char_float a) {
struct char_char_float ccd = { a.a + 1,
a.b - 1,
a.c + 1.0 };
return ccd;
}
int
rust_dbg_static_mut = 3;
void
rust_dbg_static_mut_check_four() {
assert(rust_dbg_static_mut == 4);
}
struct S {
uint64_t x;
uint64_t y;
uint64_t z;
};
uint64_t get_x(struct S s) {
return s.x;
}
uint64_t get_y(struct S s) {
return s.y;
}
uint64_t get_z(struct S s) {
return s.z;
}
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uint64_t get_c_many_params(void *a, void *b, void *c, void *d, struct quad f) {
return f.c;
}
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struct quad_floats {
float a;
float b;
float c;
float d;
};
float get_c_exhaust_sysv64_ints(
void *a,
void *b,
void *c,
void *d,
void *e,
void *f,
// `f` used the last integer register, so `g` goes on the stack.
// It also used to bring the "count of available integer registers" down to
// `-1` which broke the next SSE-only aggregate argument (`h`) - see #62350.
void *g,
struct quad_floats h
) {
return h.c;
}
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// Calculates the average of `(x + y) / n` where x: i64, y: f64. There must be exactly n pairs
// passed as variadic arguments. There are two versions of this function: the
// variadic one, and the one that takes a `va_list`.
double rust_valist_interesting_average(uint64_t n, va_list pairs) {
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double sum = 0.0;
int i;
for(i = 0; i < n; i += 1) {
sum += (double)va_arg(pairs, int64_t);
sum += va_arg(pairs, double);
}
return sum / n;
}
double rust_interesting_average(uint64_t n, ...) {
double sum;
va_list pairs;
va_start(pairs, n);
sum = rust_valist_interesting_average(n, pairs);
va_end(pairs);
return sum;
}
int32_t rust_int8_to_int32(int8_t x) {
return (int32_t)x;
}
typedef union LARGE_INTEGER {
struct {
uint32_t LowPart;
uint32_t HighPart;
};
struct {
uint32_t LowPart;
uint32_t HighPart;
} u;
uint64_t QuadPart;
} LARGE_INTEGER;
LARGE_INTEGER increment_all_parts(LARGE_INTEGER li) {
li.LowPart += 1;
li.HighPart += 1;
li.u.LowPart += 1;
li.u.HighPart += 1;
li.QuadPart += 1;
return li;
}
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#if __SIZEOF_INT128__ == 16
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unsigned __int128 identity(unsigned __int128 a) {
return a;
}
__int128 square(__int128 a) {
return a * a;
}
__int128 sub(__int128 a, __int128 b) {
return a - b;
}
#endif
#define OPTION_TAG_NONE (0)
#define OPTION_TAG_SOME (1)
struct U8TaggedEnumOptionU64 {
uint8_t tag;
union {
uint64_t some;
};
};
struct U8TaggedEnumOptionU64
rust_dbg_new_some_u64(uint64_t some) {
struct U8TaggedEnumOptionU64 r = {
.tag = OPTION_TAG_SOME,
.some = some,
};
return r;
}
struct U8TaggedEnumOptionU64
rust_dbg_new_none_u64(void) {
struct U8TaggedEnumOptionU64 r = {
.tag = OPTION_TAG_NONE,
};
return r;
}
int32_t
rust_dbg_unpack_option_u64(struct U8TaggedEnumOptionU64 o, uint64_t *into) {
assert(into);
switch (o.tag) {
case OPTION_TAG_SOME:
*into = o.some;
return 1;
case OPTION_TAG_NONE:
return 0;
default:
assert(0 && "unexpected tag");
return 0;
}
}
struct U8TaggedEnumOptionU64U64 {
uint8_t tag;
union {
struct {
uint64_t a;
uint64_t b;
} some;
};
};
struct U8TaggedEnumOptionU64U64
rust_dbg_new_some_u64u64(uint64_t a, uint64_t b) {
struct U8TaggedEnumOptionU64U64 r = {
.tag = OPTION_TAG_SOME,
.some = { .a = a, .b = b },
};
return r;
}
struct U8TaggedEnumOptionU64U64
rust_dbg_new_none_u64u64(void) {
struct U8TaggedEnumOptionU64U64 r = {
.tag = OPTION_TAG_NONE,
};
return r;
}
int32_t
rust_dbg_unpack_option_u64u64(struct U8TaggedEnumOptionU64U64 o, uint64_t *a, uint64_t *b) {
assert(a);
assert(b);
switch (o.tag) {
case OPTION_TAG_SOME:
*a = o.some.a;
*b = o.some.b;
return 1;
case OPTION_TAG_NONE:
return 0;
default:
assert(0 && "unexpected tag");
return 0;
}
}
uint16_t issue_97463_leak_uninit_data(uint32_t a, uint32_t b, uint32_t c) {
struct bloc { uint16_t a; uint16_t b; uint16_t c; };
struct bloc *data = malloc(sizeof(struct bloc));
data->a = a & 0xFFFF;
data->b = b & 0xFFFF;
data->c = c & 0xFFFF;
return data->b; /* leak data */
}