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libvirt/scripts/rpcgen/tests/test_demo.c
Michal Privoznik fdd440c096 rpcgen: tests: Include stdint.h in test_demo.c 
Since header file structure is a bit different on MacOS, it
doesn't get uint64_t type declaration and thus test_demo.c must
include it explicitly. This is proper solution anyway, because on
Linux we're apparently relying on the header file sneaking
through some other include.

Resolves: https://gitlab.com/libvirt/libvirt/-/issues/619
Signed-off-by: Michal Privoznik <mprivozn@redhat.com>
Reviewed-by: Ján Tomko <jtomko@redhat.com>
2024-04-08 15:47:24 +02:00

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#include <glib.h>
#include <rpc/types.h>
#include <rpc/xdr.h>
#include <stdbool.h>
#include <stdint.h>
#ifdef __APPLE__
# define xdr_uint64_t xdr_u_int64_t
#endif
#include "demo.h"
#include "demo.c"
static void test_xdr(xdrproc_t proc, void *vorig, void *vnew, const char *testname, bool fail)
{
XDR xdr;
/* 128kb is big enough for any of our test data */
size_t buflen = 128 * 1000;
g_autofree char *buf = g_new0(char, buflen);
g_autofree char *expfile = g_strdup_printf(abs_srcdir "/test_demo_%s.bin", testname);
g_autofree char *expected = NULL;
size_t explen;
size_t actlen;
g_autoptr(GError) err = NULL;
bool_t ret;
/* Step 1: serialize the vorig and compare to the data in test .bin files */
xdrmem_create(&xdr, buf, buflen, XDR_ENCODE);
ret = !!proc(&xdr, vorig, 0);
g_assert_cmpint(ret, ==, !fail);
if (fail)
goto cleanup;
actlen = xdr_getpos(&xdr);
if (getenv("VIR_TEST_REGENERATE_OUTPUT")) {
g_file_set_contents(expfile, buf, actlen, NULL);
}
g_file_get_contents(expfile, &expected, &explen, &err);
if (err != NULL) {
g_printerr("%s\n", err->message);
abort();
}
g_assert_cmpint(explen, ==, actlen);
g_assert_cmpint(memcmp(buf, expected, actlen), ==, 0);
xdr_destroy(&xdr);
/* Step 2: de-serialize the state to create a new object */
xdrmem_create(&xdr, buf, buflen, XDR_DECODE);
ret = !!proc(&xdr, vnew, 0);
g_assert_cmpint(ret, ==, true);
actlen = xdr_getpos(&xdr);
g_assert_cmpint(explen, ==, actlen);
xdr_destroy(&xdr);
/* Step 3: serialize the new object again to prove we
* round-tripped the original object */
memset(buf, 0, buflen);
xdrmem_create(&xdr, buf, buflen, XDR_ENCODE);
ret = !!proc(&xdr, vnew, 0);
g_assert_cmpint(ret, ==, true);
actlen = xdr_getpos(&xdr);
g_assert_cmpint(explen, ==, actlen);
g_assert_cmpint(memcmp(buf, expected, actlen), ==, 0);
xdr_destroy(&xdr);
cleanup:
xdr_destroy(&xdr);
}
static void test_enum(void)
{
TestEnum vorig = TEST_ENUM_TWO;
TestEnum vnew = 0;
test_xdr((xdrproc_t)xdr_TestEnum, &vorig, &vnew, "enum", false);
}
static void test_struct(void)
{
TestStruct vorig = {
.c1 = 'a', .c2 = 'b',
};
g_auto(TestStruct) vnew = {0};
test_xdr((xdrproc_t)xdr_TestStruct, &vorig, &vnew, "struct", false);
}
static void test_union_case(void)
{
TestUnion vorig = {
.type = 20, .TestUnion_u = { .i1 = 1729 },
};
g_auto(TestUnion) vnew = {0};
test_xdr((xdrproc_t)xdr_TestUnion, &vorig, &vnew, "union_case", false);
}
static void test_union_default(void)
{
TestUnion vorig = {
.type = 87539319, .TestUnion_u = { .i3 = 1729 },
};
g_auto(TestUnion) vnew = {0};
test_xdr((xdrproc_t)xdr_TestUnion, &vorig, &vnew, "union_default", false);
}
static void test_union_void_default_case(void)
{
TestUnionVoidDefault vorig = {
.type = 21, .TestUnionVoidDefault_u = { .i1 = 1729 },
};
g_auto(TestUnionVoidDefault) vnew = {0};
test_xdr((xdrproc_t)xdr_TestUnionVoidDefault, &vorig, &vnew, "union_void_default_case", false);
}
static void test_union_void_default_default(void)
{
TestUnionVoidDefault vorig = {
.type = 87539319
};
g_auto(TestUnionVoidDefault) vnew = {0};
test_xdr((xdrproc_t)xdr_TestUnionVoidDefault, &vorig, &vnew, "union_void_default_default", false);
}
static void test_union_no_default_case(void)
{
TestUnionNoDefault vorig = {
.type = 22, .TestUnionNoDefault_u = { .i1 = 1729 },
};
g_auto(TestUnionNoDefault) vnew = {0};
test_xdr((xdrproc_t)xdr_TestUnionNoDefault, &vorig, &vnew, "union_no_default_case", false);
}
static void test_union_no_default_default(void)
{
TestUnionNoDefault vorig = {
.type = 87539319,
};
g_auto(TestUnionNoDefault) vnew = {0};
test_xdr((xdrproc_t)xdr_TestUnionNoDefault, &vorig, &vnew, "union_no_default_default", true);
}
static void test_int_scalar(void)
{
TestIntScalar vorig = 1729;
g_auto(TestIntScalar) vnew = 0;
test_xdr((xdrproc_t)xdr_TestIntScalar, &vorig, &vnew, "int_scalar", false);
}
static void test_int_pointer_set(void)
{
int vorigp = 1729;
TestIntPointer vorig = &vorigp;
g_auto(TestIntPointer) vnew = NULL;
test_xdr((xdrproc_t)xdr_TestIntPointer, &vorig, &vnew, "int_pointer_set", false);
}
static void test_int_pointer_null(void)
{
TestIntPointer vorig = NULL;
g_auto(TestIntPointer) vnew = NULL;
test_xdr((xdrproc_t)xdr_TestIntPointer, &vorig, &vnew, "int_pointer_null", false);
}
static void test_int_fixed_array(void)
{
TestIntFixedArray vorig = { 1729, 0, 87539319 };
g_auto(TestIntFixedArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestIntFixedArray,
vorig, vnew, "int_fixed_array", false);
}
static void test_int_variable_array_set(void)
{
TestIntVariableArray vorig = {
.TestIntVariableArray_len = 3,
.TestIntVariableArray_val = (int[]) { 1729, 0, 87539319 }
};
g_auto(TestIntVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestIntVariableArray,
&vorig, &vnew, "int_variable_array_set", false);
}
static void test_int_variable_array_overflow(void)
{
TestIntVariableArray vorig = {
.TestIntVariableArray_len = 6,
.TestIntVariableArray_val = (int[]) { 1729, 0, 87539319, 0, 1729 }
};
g_auto(TestIntVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestIntVariableArray,
&vorig, &vnew, "int_variable_array_overflow", true);
}
static void test_int_variable_array_empty(void)
{
TestIntVariableArray vorig = {
.TestIntVariableArray_len = 0,
.TestIntVariableArray_val = (int[]) {0},
};
g_auto(TestIntVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestIntVariableArray,
&vorig, &vnew, "int_variable_array_empty", false);
}
static void test_string_variable_array_set(void)
{
TestStringVariableArray vorig = (TestStringVariableArray) "taxis";
g_auto(TestStringVariableArray) vnew = NULL;
test_xdr((xdrproc_t)xdr_TestStringVariableArray,
&vorig, &vnew, "string_variable_array_set", false);
}
static void test_string_variable_array_empty(void)
{
TestStringVariableArray vorig = (TestStringVariableArray)"";
g_auto(TestStringVariableArray) vnew = NULL;
test_xdr((xdrproc_t)xdr_TestStringVariableArray,
&vorig, &vnew, "string_variable_array_empty", false);
}
static void test_opaque_fixed_array(void)
{
TestOpaqueFixedArray vorig = { 0xca, 0xfe, 0x12, 0x23, 0x34, 0x45, 0x56, 0x67, 0x78 };
g_auto(TestOpaqueFixedArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestOpaqueFixedArray, vorig, vnew, "opaque_fixed_array", false);
}
static void test_opaque_variable_array_set(void)
{
TestOpaqueVariableArray vorig = {
.TestOpaqueVariableArray_len = 3,
.TestOpaqueVariableArray_val = (char[]) { 0xca, 0xfe, 0x12 },
};
g_auto(TestOpaqueVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestOpaqueVariableArray,
&vorig, &vnew, "opaque_variable_array_set", false);
}
static void test_opaque_variable_array_overflow(void)
{
TestOpaqueVariableArray vorig = {
.TestOpaqueVariableArray_len = 12,
.TestOpaqueVariableArray_val = (char[]) {
0xca, 0xfe, 0x12, 0xca, 0xfe, 0x12,
0xca, 0xfe, 0x12, 0xca, 0xfe, 0x12,
},
};
g_auto(TestOpaqueVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestOpaqueVariableArray,
&vorig, &vnew, "opaque_variable_array_overflow", true);
}
static void test_opaque_variable_array_empty(void)
{
TestOpaqueVariableArray vorig = {
.TestOpaqueVariableArray_len = 0,
.TestOpaqueVariableArray_val = (char[]) {0},
};
g_auto(TestOpaqueVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestOpaqueVariableArray,
&vorig, &vnew, "opaque_variable_array_empty", false);
}
static void test_enum_scalar(void)
{
TestEnumScalar vorig = TEST_ENUM_TWO;
g_auto(TestEnumScalar) vnew = 0;
test_xdr((xdrproc_t)xdr_TestEnumScalar,
&vorig, &vnew, "enum_scalar", false);
}
static void test_enum_pointer_set(void)
{
TestEnum vorigp = TEST_ENUM_TWO;
TestEnumPointer vorig = &vorigp;
g_auto(TestEnumPointer) vnew = NULL;
test_xdr((xdrproc_t)xdr_TestEnumPointer,
&vorig, &vnew, "enum_pointer_set", false);
}
static void test_enum_pointer_null(void)
{
TestEnumPointer vorig = NULL;
g_auto(TestEnumPointer) vnew = NULL;
test_xdr((xdrproc_t)xdr_TestEnumPointer,
&vorig, &vnew, "enum_pointer_null", false);
}
static void test_enum_fixed_array(void)
{
TestEnumFixedArray vorig = {
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE
};
g_auto(TestEnumFixedArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestEnumFixedArray, vorig, vnew, "enum_fixed_array", false);
}
static void test_enum_variable_array_set(void)
{
TestEnumVariableArray vorig = {
.TestEnumVariableArray_len = 3,
.TestEnumVariableArray_val = (TestEnum[]) {
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE,
},
};
g_auto(TestEnumVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestEnumVariableArray,
&vorig, &vnew, "enum_variable_array_set", false);
}
static void test_enum_variable_array_overflow(void)
{
TestEnumVariableArray vorig = {
.TestEnumVariableArray_len = 16,
.TestEnumVariableArray_val = (TestEnum[]) {
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
}
};
g_auto(TestEnumVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestEnumVariableArray,
&vorig, &vnew, "enum_variable_array_overflow", true);
}
static void test_enum_variable_array_empty(void)
{
TestEnumVariableArray vorig = {
.TestEnumVariableArray_len = 0,
.TestEnumVariableArray_val = (TestEnum[]) {0},
};
g_auto(TestEnumVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestEnumVariableArray,
&vorig, &vnew, "enum_variable_array_empty", false);
}
#define TEST_STRUCT_INIT (TestStruct) { .c1 = 0x4a, .c2 = 0x7e }
#define TEST_STRUCT_INIT_ALT (TestStruct) { .c1 = 0x09, .c2 = 0x07 }
static void test_struct_scalar(void)
{
TestStructScalar vorig = TEST_STRUCT_INIT;
g_auto(TestStructScalar) vnew = {0};
test_xdr((xdrproc_t)xdr_TestStructScalar,
&vorig, &vnew, "struct_scalar", false);
}
static void test_struct_pointer_set(void)
{
TestStruct vorigp = TEST_STRUCT_INIT;
TestStructPointer vorig = &vorigp;
g_auto(TestStructPointer) vnew = NULL;
test_xdr((xdrproc_t)xdr_TestStructPointer,
&vorig, &vnew, "struct_pointer_set", false);
}
static void test_struct_pointer_null(void)
{
TestStructPointer vorig = NULL;
g_auto(TestStructPointer) vnew = NULL;
test_xdr((xdrproc_t)xdr_TestStructPointer,
&vorig, &vnew, "struct_pointer_null", false);
}
static void test_struct_fixed_array(void)
{
TestStructFixedArray vorig = {
TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT,
TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT_ALT
};
g_auto(TestStructFixedArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestStructFixedArray, vorig, vnew, "struct_fixed_array", false);
}
static void test_struct_variable_array_set(void)
{
TestStructVariableArray vorig = {
.TestStructVariableArray_len = 3,
.TestStructVariableArray_val = (TestStruct[]) {
TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT_ALT,
},
};
g_auto(TestStructVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestStructVariableArray,
&vorig, &vnew, "struct_variable_array_set", false);
}
static void test_struct_variable_array_overflow(void)
{
TestStructVariableArray vorig = {
.TestStructVariableArray_len = 20,
.TestStructVariableArray_val = (TestStruct[]) {
TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
}
};
g_auto(TestStructVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestStructVariableArray,
&vorig, &vnew, "struct_variable_array_overflow", true);
}
static void test_struct_variable_array_empty(void)
{
TestStructVariableArray vorig = {
.TestStructVariableArray_len = 0,
.TestStructVariableArray_val = (TestStruct[]) {},
};
g_auto(TestStructVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestStructVariableArray,
&vorig, &vnew, "struct_variable_array_empty", false);
}
#define TEST_UNION_INIT (TestUnion) { .type = 20, .TestUnion_u = { .i1 = 1729 } }
#define TEST_UNION_INIT_ALT (TestUnion) { .type = 1729, .TestUnion_u = { .i3 = 87539319 } }
static void test_union_scalar(void)
{
TestUnionScalar vorig = TEST_UNION_INIT;
g_auto(TestUnionScalar) vnew = {0};
test_xdr((xdrproc_t)xdr_TestUnionScalar,
&vorig, &vnew, "union_scalar", false);
}
static void test_union_pointer_set(void)
{
TestUnion vorigp = TEST_UNION_INIT;
TestUnionPointer vorig = &vorigp;
g_auto(TestUnionPointer) vnew = NULL;
test_xdr((xdrproc_t)xdr_TestUnionPointer,
&vorig, &vnew, "union_pointer_set", false);
}
static void test_union_pointer_null(void)
{
TestUnionPointer vorig = NULL;
g_auto(TestUnionPointer) vnew = NULL;
test_xdr((xdrproc_t)xdr_TestUnionPointer,
&vorig, &vnew, "union_pointer_null", false);
}
static void test_union_fixed_array(void)
{
TestUnionFixedArray vorig = {
TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT_ALT,
TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT_ALT, TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT_ALT
};
g_auto(TestUnionFixedArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestUnionFixedArray, vorig, vnew, "union_fixed_array", false);
}
static void test_union_variable_array_set(void)
{
TestUnionVariableArray vorig = {
.TestUnionVariableArray_len = 3,
.TestUnionVariableArray_val = (TestUnion[]) {
TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT_ALT,
},
};
g_auto(TestUnionVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestUnionVariableArray,
&vorig, &vnew, "union_variable_array_set", false);
}
static void test_union_variable_array_overflow(void)
{
TestUnionVariableArray vorig = {
.TestUnionVariableArray_len = 24,
.TestUnionVariableArray_val = (TestUnion[]) {
TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT,
}
};
g_auto(TestUnionVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestUnionVariableArray,
&vorig, &vnew, "union_variable_array_overflow", true);
}
static void test_union_variable_array_empty(void)
{
TestUnionVariableArray vorig = {
.TestUnionVariableArray_len = 0,
.TestUnionVariableArray_val = (TestUnion[]) {},
};
g_auto(TestUnionVariableArray) vnew = {0};
test_xdr((xdrproc_t)xdr_TestUnionVariableArray,
&vorig, &vnew, "union_variable_array_empty", false);
}
static void test_struct_all_types(void)
{
int ip = 1729;
TestEnum ep = TEST_ENUM_TWO;
TestStruct sp = TEST_STRUCT_INIT;
TestUnion up = TEST_UNION_INIT;
TestStructAllTypes vorig = {
.sc = 'x',
.suc = 'y',
.ss = -7,
.sus = 14,
.si = -1729,
.sui = 1729,
.sh = -87539319,
.suh = -87539319,
.sb = true,
.sf = 0.1729,
.sd = 8753.9319,
.ip = &ip,
.ifa = { 1, 2, 3 },
.iva = {
.iva_len = 3,
.iva_val = (int[]) { 7, 8, 9 },
},
.stva = (char *)"hello",
.ofa = {
0x1, 0x2, 0x3, 0xff, 0xff, 0xff, 0xff, 0x1,
0x1, 0x2, 0x3, 0xff, 0xff, 0xff, 0xff, 0x1,
0x1, 0x2, 0x3, 0xff, 0xff, 0xff, 0xff, 0x1,
0x1, 0x2, 0x3, 0xff, 0xff, 0xff, 0xff, 0x1,
0xff,
},
.ova = {
.ova_len = 3,
.ova_val = (char[]) { 0x1, 0xca, 0xfe },
},
.e1 = TEST_ENUM_ONE,
.e2 = TEST_ENUM_TWO,
.ep = &ep,
.efa = {
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE,
},
.eva = {
.eva_len = 3,
.eva_val = (TestEnum[]) {
TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
},
},
.s = TEST_STRUCT_INIT,
.sp = &sp,
.sfa = {
TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT,
TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT,
TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT,
TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT,
},
.sva = {
.sva_len = 3,
.sva_val = (TestStruct[]) {
TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT,
},
},
.u = TEST_UNION_INIT,
.up = &up,
.ufa = {
TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT_ALT,
TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT_ALT, TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT_ALT,
TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT_ALT, TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT_ALT,
TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT_ALT,
},
.uva = {
.uva_len = 3,
.uva_val = (TestUnion[]) {
TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT_ALT,
},
},
.tis = 1729,
.tip = &ip,
.tifa = { 1, 2, 3 },
.tiva = {
.TestIntVariableArray_len = 3,
.TestIntVariableArray_val = (int[]) { 7, 8, 9 },
},
.tstva = (char *)"hello",
.tofa = {
0x1, 0x2, 0x3, 0xff, 0xff, 0xff, 0xff, 0x1,
0xff,
},
.tova = {
.TestOpaqueVariableArray_len = 3,
.TestOpaqueVariableArray_val = (char[]) { 0x1, 0xca, 0xfe },
},
.tes = TEST_ENUM_ONE,
.tep = &ep,
.tefa = {
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE, TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
TEST_ENUM_ONE,
},
.teva = {
.TestEnumVariableArray_len = 3,
.TestEnumVariableArray_val = (TestEnum[]) {
TEST_ENUM_TWO, TEST_ENUM_ONE, TEST_ENUM_TWO,
},
},
.tss = TEST_STRUCT_INIT,
.tsp = &sp,
.tsfa = {
TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT,
TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT, TEST_STRUCT_INIT,
TEST_STRUCT_INIT,
},
.tsva = {
.TestStructVariableArray_len = 3,
.TestStructVariableArray_val = (TestStruct[]) {
TEST_STRUCT_INIT, TEST_STRUCT_INIT_ALT, TEST_STRUCT_INIT,
},
},
.tu = TEST_UNION_INIT,
.tup = &up,
.tufa = {
TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT_ALT,
TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT_ALT, TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT,
TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT, TEST_UNION_INIT_ALT,
TEST_UNION_INIT_ALT,
},
.tuva = {
.TestUnionVariableArray_len = 3,
.TestUnionVariableArray_val = (TestUnion[]) {
TEST_UNION_INIT, TEST_UNION_INIT_ALT, TEST_UNION_INIT_ALT,
},
},
};
g_auto(TestStructAllTypes) vnew = {0};
test_xdr((xdrproc_t)xdr_TestStructAllTypes,
&vorig, &vnew, "test_struct_all_types", false);
}
int main(int argc, char **argv)
{
g_test_init(&argc, &argv, NULL);
g_test_set_nonfatal_assertions();
g_test_add_func("/xdr/enum", test_enum);
g_test_add_func("/xdr/struct", test_struct);
g_test_add_func("/xdr/union/case", test_union_case);
g_test_add_func("/xdr/union/default", test_union_default);
g_test_add_func("/xdr/union-void-default/case", test_union_void_default_case);
g_test_add_func("/xdr/union-void-default/default", test_union_void_default_default);
g_test_add_func("/xdr/union-no-default/case", test_union_no_default_case);
g_test_add_func("/xdr/union-no-default/default", test_union_no_default_default);
g_test_add_func("/xdr/int-scalar", test_int_scalar);
g_test_add_func("/xdr/int-pointer/set", test_int_pointer_set);
g_test_add_func("/xdr/int-pointer/null", test_int_pointer_null);
g_test_add_func("/xdr/int-fixed-array", test_int_fixed_array);
g_test_add_func("/xdr/int-variable-array/set", test_int_variable_array_set);
g_test_add_func("/xdr/int-variable-array/overflow", test_int_variable_array_overflow);
g_test_add_func("/xdr/int-variable-array/empty", test_int_variable_array_empty);
g_test_add_func("/xdr/string-variable-array/set", test_string_variable_array_set);
g_test_add_func("/xdr/string-variable-array/empty", test_string_variable_array_empty);
g_test_add_func("/xdr/opaque-fixed-array", test_opaque_fixed_array);
g_test_add_func("/xdr/opaque-variable-array/set", test_opaque_variable_array_set);
g_test_add_func("/xdr/opaque-variable-array/overflow", test_opaque_variable_array_overflow);
g_test_add_func("/xdr/opaque-variable-array/empty", test_opaque_variable_array_empty);
g_test_add_func("/xdr/enum-scalar", test_enum_scalar);
g_test_add_func("/xdr/enum-pointer/set", test_enum_pointer_set);
g_test_add_func("/xdr/enum-pointer/null", test_enum_pointer_null);
g_test_add_func("/xdr/enum-fixed-array", test_enum_fixed_array);
g_test_add_func("/xdr/enum-variable-array/set", test_enum_variable_array_set);
g_test_add_func("/xdr/enum-variable-array/overflow", test_enum_variable_array_overflow);
g_test_add_func("/xdr/enum-variable-array/empty", test_enum_variable_array_empty);
g_test_add_func("/xdr/struct-scalar", test_struct_scalar);
g_test_add_func("/xdr/struct-pointer/set", test_struct_pointer_set);
g_test_add_func("/xdr/struct-pointer/null", test_struct_pointer_null);
g_test_add_func("/xdr/struct-fixed-array", test_struct_fixed_array);
g_test_add_func("/xdr/struct-variable-array/set", test_struct_variable_array_set);
g_test_add_func("/xdr/struct-variable-array/overflow", test_struct_variable_array_overflow);
g_test_add_func("/xdr/struct-variable-array/empty", test_struct_variable_array_empty);
g_test_add_func("/xdr/union-scalar", test_union_scalar);
g_test_add_func("/xdr/union-pointer/set", test_union_pointer_set);
g_test_add_func("/xdr/union-pointer/null", test_union_pointer_null);
g_test_add_func("/xdr/union-fixed-array", test_union_fixed_array);
g_test_add_func("/xdr/union-variable-array/set", test_union_variable_array_set);
g_test_add_func("/xdr/union-variable-array/overflow", test_union_variable_array_overflow);
g_test_add_func("/xdr/union-variable-array/empty", test_union_variable_array_empty);
g_test_add_func("/xdr/struct-all-types", test_struct_all_types);
return g_test_run();
}
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