Michael Jerris 3abb7730b2 add xmlrpc-c 1.03.14 to in tree libs
git-svn-id: http://svn.freeswitch.org/svn/freeswitch/trunk@3772 d0543943-73ff-0310-b7d9-9358b9ac24b2
2006-12-21 03:57:49 +00:00

1341 lines
33 KiB
C

/* Copyright information is at the end of the file. */
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include "xmlrpc_config.h"
#include "xmlrpc-c/base.h"
#include "test.h"
#include "value.h"
/*=========================================================================
** Test Data
**=========================================================================
** Some common test data which need to be allocated at a fixed address,
** or which are inconvenient to allocate inline.
*/
static char* test_string_1 = "foo";
static void
test_value_alloc_dealloc(void) {
xmlrpc_value * v;
xmlrpc_env env;
xmlrpc_env_init(&env);
/* Test allocation and deallocation (w/memprof). */
v = xmlrpc_build_value(&env, "i", (xmlrpc_int32) 5);
TEST_NO_FAULT(&env);
TEST(v != NULL);
xmlrpc_INCREF(v);
xmlrpc_DECREF(v);
xmlrpc_DECREF(v);
xmlrpc_env_clean(&env);
}
static void
test_value_integer(void) {
xmlrpc_value * v;
xmlrpc_env env;
xmlrpc_int32 i;
xmlrpc_env_init(&env);
v = xmlrpc_int_new(&env, (xmlrpc_int32) 25);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_INT == xmlrpc_value_type(v));
xmlrpc_read_int(&env, v, &i);
TEST_NO_FAULT(&env);
TEST(i == 25);
xmlrpc_DECREF(v);
v = xmlrpc_build_value(&env, "i", (xmlrpc_int32) 10);
TEST_NO_FAULT(&env);
TEST(v != NULL);
TEST(XMLRPC_TYPE_INT == xmlrpc_value_type(v));
xmlrpc_decompose_value(&env, v, "i", &i);
xmlrpc_DECREF(v);
TEST_NO_FAULT(&env);
TEST(i == 10);
xmlrpc_env_clean(&env);
}
static void
test_value_bool(void) {
xmlrpc_value * v;
xmlrpc_env env;
xmlrpc_bool b;
/* Test booleans. */
xmlrpc_env_init(&env);
v = xmlrpc_bool_new(&env, (xmlrpc_bool) 1);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_BOOL == xmlrpc_value_type(v));
xmlrpc_read_bool(&env, v, &b);
TEST_NO_FAULT(&env);
TEST(b);
xmlrpc_DECREF(v);
v = xmlrpc_build_value(&env, "b", (xmlrpc_bool) 0);
TEST_NO_FAULT(&env);
TEST(v != NULL);
TEST(XMLRPC_TYPE_BOOL == xmlrpc_value_type(v));
xmlrpc_decompose_value(&env, v, "b", &b);
xmlrpc_DECREF(v);
TEST_NO_FAULT(&env);
TEST(!b);
xmlrpc_env_clean(&env);
}
static void
test_value_double(void) {
xmlrpc_value * v;
xmlrpc_env env;
double d;
xmlrpc_env_init(&env);
v = xmlrpc_double_new(&env, -3.25);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_DOUBLE == xmlrpc_value_type(v));
xmlrpc_read_double(&env, v, &d);
TEST_NO_FAULT(&env);
TEST(d == -3.25);
xmlrpc_DECREF(v);
v = xmlrpc_build_value(&env, "d", 1.0);
TEST_NO_FAULT(&env);
TEST(v != NULL);
TEST(XMLRPC_TYPE_DOUBLE == xmlrpc_value_type(v));
xmlrpc_decompose_value(&env, v, "d", &d);
xmlrpc_DECREF(v);
TEST_NO_FAULT(&env);
TEST(d == 1.0);
xmlrpc_env_clean(&env);
}
static void
test_value_datetime(void) {
const char * datestring = "19980717T14:08:55";
time_t const datetime = 900684535;
xmlrpc_value * v;
xmlrpc_env env;
const char * ds;
time_t dt;
xmlrpc_env_init(&env);
v = xmlrpc_datetime_new_str(&env, datestring);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_DATETIME == xmlrpc_value_type(v));
xmlrpc_read_datetime_str(&env, v, &ds);
TEST_NO_FAULT(&env);
TEST(strcmp(ds, datestring) == 0);
strfree(ds);
xmlrpc_read_datetime_sec(&env, v, &dt);
TEST_NO_FAULT(&env);
TEST(dt == datetime);
xmlrpc_DECREF(v);
v = xmlrpc_datetime_new_sec(&env, datetime);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_DATETIME == xmlrpc_value_type(v));
xmlrpc_read_datetime_str(&env, v, &ds);
TEST_NO_FAULT(&env);
TEST(strcmp(ds, datestring) == 0);
strfree(ds);
xmlrpc_read_datetime_sec(&env, v, &dt);
TEST_NO_FAULT(&env);
TEST(dt == datetime);
xmlrpc_DECREF(v);
v = xmlrpc_build_value(&env, "8", datestring);
TEST_NO_FAULT(&env);
TEST(v != NULL);
TEST(XMLRPC_TYPE_DATETIME == xmlrpc_value_type(v));
xmlrpc_decompose_value(&env, v, "8", &ds);
xmlrpc_DECREF(v);
TEST_NO_FAULT(&env);
TEST(strcmp(ds, datestring) == 0);
strfree(ds);
xmlrpc_env_clean(&env);
}
static void
test_value_string_no_null(void) {
xmlrpc_value * v;
xmlrpc_env env;
const char * str;
size_t len;
/* Test strings (without '\0' bytes). */
xmlrpc_env_init(&env);
v = xmlrpc_string_new(&env, test_string_1);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_STRING == xmlrpc_value_type(v));
xmlrpc_read_string(&env, v, &str);
TEST_NO_FAULT(&env);
TEST(strcmp(str, test_string_1) == 0);
xmlrpc_DECREF(v);
strfree(str);
v = xmlrpc_build_value(&env, "s", test_string_1);
TEST_NO_FAULT(&env);
TEST(v != NULL);
TEST(XMLRPC_TYPE_STRING == xmlrpc_value_type(v));
xmlrpc_decompose_value(&env, v, "s", &str);
TEST_NO_FAULT(&env);
TEST(strcmp(str, test_string_1) == 0);
xmlrpc_decompose_value(&env, v, "s#", &str, &len);
TEST_NO_FAULT(&env);
TEST(memcmp(str, test_string_1, strlen(test_string_1)) == 0);
TEST(strlen(str) == strlen(test_string_1));
strfree(str);
xmlrpc_DECREF(v);
xmlrpc_env_clean(&env);
}
static void
test_value_string_null(void) {
xmlrpc_value * v;
xmlrpc_env env;
xmlrpc_env env2;
const char * str;
size_t len;
/* Test a string with a '\0' byte. */
xmlrpc_env_init(&env);
v = xmlrpc_string_new_lp(&env, 7, "foo\0bar");
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_STRING == xmlrpc_value_type(v));
xmlrpc_read_string_lp(&env, v, &len, &str);
TEST_NO_FAULT(&env);
TEST(len == 7);
TEST(memcmp(str, "foo\0bar", 7) == 0);
xmlrpc_DECREF(v);
strfree(str);
v = xmlrpc_build_value(&env, "s#", "foo\0bar", (size_t) 7);
TEST_NO_FAULT(&env);
TEST(v != NULL);
TEST(XMLRPC_TYPE_STRING == xmlrpc_value_type(v));
xmlrpc_decompose_value(&env, v, "s#", &str, &len);
TEST_NO_FAULT(&env);
TEST(memcmp(str, "foo\0bar", 7) == 0);
TEST(len == 7);
strfree(str);
/* Test for type error when decoding a string with a zero byte to a
** regular C string. */
xmlrpc_env_init(&env2);
xmlrpc_decompose_value(&env2, v, "s", &str);
TEST_FAULT(&env2, XMLRPC_TYPE_ERROR);
xmlrpc_env_clean(&env2);
xmlrpc_DECREF(v);
xmlrpc_env_clean(&env);
}
#ifdef HAVE_UNICODE_WCHAR
/* Here is a 3-character, NUL-terminated string, once in UTF-8 chars,
and once in UTF-16 wchar_ts. Note that 2 of the UTF-16 characters
translate directly to UTF-8 bytes because only the lower 7 bits of
each is nonzero, but the middle UTF-16 character translates to two
UTF-8 bytes.
*/
static char utf8_data[] = "[\xC2\xA9]";
static wchar_t wcs_data[] = {'[', 0x00A9, ']', 0x0000};
static void
test_value_string_wide_build(void) {
xmlrpc_env env;
xmlrpc_value * valueP;
const wchar_t * wcs;
size_t len;
xmlrpc_env_init(&env);
/* Build with build_value w# */
valueP = xmlrpc_build_value(&env, "w#", wcs_data, 3);
TEST_NO_FAULT(&env);
TEST(valueP != NULL);
/* Verify it */
xmlrpc_read_string_w_lp(&env, valueP, &len, &wcs);
TEST_NO_FAULT(&env);
TEST(wcs != NULL);
TEST(len == 3);
TEST(wcs[len] == '\0');
TEST(0 == wcsncmp(wcs, wcs_data, len));
free((void*)wcs);
xmlrpc_DECREF(valueP);
/* Build with build_value w */
valueP = xmlrpc_build_value(&env, "w", wcs_data);
TEST_NO_FAULT(&env);
TEST(valueP != NULL);
/* Verify it */
xmlrpc_read_string_w_lp(&env, valueP, &len, &wcs);
TEST_NO_FAULT(&env);
TEST(wcs != NULL);
TEST(len == 3);
TEST(wcs[len] == '\0');
TEST(0 == wcsncmp(wcs, wcs_data, len));
free((void*)wcs);
xmlrpc_DECREF(valueP);
}
static void
test_value_string_wide(void) {
xmlrpc_env env;
xmlrpc_value * valueP;
const wchar_t * wcs;
size_t len;
xmlrpc_env_init(&env);
/* Build a string from wchar_t data. */
valueP = xmlrpc_string_w_new_lp(&env, 3, wcs_data);
TEST_NO_FAULT(&env);
TEST(valueP != NULL);
/* Extract it as a wchar_t string. */
xmlrpc_read_string_w_lp(&env, valueP, &len, &wcs);
TEST_NO_FAULT(&env);
TEST(wcs != NULL);
TEST(len == 3);
TEST(wcs[len] == '\0');
TEST(0 == wcsncmp(wcs, wcs_data, len));
free((void*)wcs);
xmlrpc_read_string_w(&env, valueP, &wcs);
TEST_NO_FAULT(&env);
TEST(wcs != NULL);
TEST(wcs[3] == '\0');
TEST(0 == wcsncmp(wcs, wcs_data, 3));
free((void*)wcs);
xmlrpc_decompose_value(&env, valueP, "w#", &wcs, &len);
TEST_NO_FAULT(&env);
TEST(wcs != NULL);
TEST(len == 3);
TEST(wcs[len] == '\0');
TEST(0 == wcsncmp(wcs, wcs_data, len));
free((void*)wcs);
{
/* Extract it as a UTF-8 string. */
const char * str;
size_t len;
xmlrpc_read_string_lp(&env, valueP, &len, &str);
TEST_NO_FAULT(&env);
TEST(str != NULL);
TEST(len == 4);
TEST(str[len] == '\0');
TEST(0 == strncmp(str, utf8_data, len));
free((void*)str);
}
xmlrpc_DECREF(valueP);
/* Build from null-terminated wchar_t string */
valueP = xmlrpc_string_w_new(&env, wcs_data);
TEST_NO_FAULT(&env);
TEST(valueP != NULL);
/* Verify it */
xmlrpc_read_string_w_lp(&env, valueP, &len, &wcs);
TEST_NO_FAULT(&env);
TEST(wcs != NULL);
TEST(len == 3);
TEST(wcs[len] == '\0');
TEST(0 == wcsncmp(wcs, wcs_data, len));
free((void*)wcs);
xmlrpc_DECREF(valueP);
test_value_string_wide_build();
/* Build a string from UTF-8 data. */
valueP = xmlrpc_string_new(&env, utf8_data);
TEST_NO_FAULT(&env);
TEST(valueP != NULL);
/* Extract it as a wchar_t string. */
xmlrpc_read_string_w_lp(&env, valueP, &len, &wcs);
TEST_NO_FAULT(&env);
TEST(wcs != NULL);
TEST(len == 3);
TEST(wcs[len] == 0x0000);
TEST(0 == wcsncmp(wcs, wcs_data, len));
free((void*)wcs);
/* Test with embedded NUL. We use a length of 4 so that the terminating
NUL actually becomes part of the string.
*/
valueP = xmlrpc_string_w_new_lp(&env, 4, wcs_data);
TEST_NO_FAULT(&env);
TEST(valueP != NULL);
/* Extract it as a wchar_t string. */
xmlrpc_read_string_w_lp(&env, valueP, &len, &wcs);
TEST_NO_FAULT(&env);
TEST(wcs != NULL);
TEST(len == 4);
TEST(wcs[len] == '\0');
TEST(0 == wcsncmp(wcs, wcs_data, len));
free((void*)wcs);
xmlrpc_read_string_w(&env, valueP, &wcs);
TEST_FAULT(&env, XMLRPC_TYPE_ERROR);
}
#else
static void
test_value_string_wide(void) {}
#endif
static void
test_value_base64(void) {
/* Test <base64> data. */
unsigned char const data1[5] = {'a', '\0', 'b', '\n', 'c'};
unsigned char const data2[3] = {'a', '\0', 'b'};
xmlrpc_value * v;
xmlrpc_env env;
const unsigned char * data;
size_t len;
xmlrpc_env_init(&env);
v = xmlrpc_base64_new(&env, sizeof(data1), data1);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_BASE64 == xmlrpc_value_type(v));
xmlrpc_read_base64(&env, v, &len, &data);
TEST_NO_FAULT(&env);
TEST(memcmp(data, data1, sizeof(data1)) == 0);
TEST(len == sizeof(data1));
xmlrpc_DECREF(v);
free((void*)data);
v = xmlrpc_build_value(&env, "6", data2, sizeof(data2));
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_BASE64 == xmlrpc_value_type(v));
xmlrpc_decompose_value(&env, v, "6", &data, &len);
xmlrpc_DECREF(v);
TEST_NO_FAULT(&env);
TEST(len == sizeof(data2));
TEST(memcmp(data, data1, sizeof(data2)) == 0);
strfree(data);
xmlrpc_env_clean(&env);
}
static void
test_value_value(void) {
xmlrpc_value *v, *v2, *v3;
xmlrpc_env env;
/* Test 'V' with building and parsing. */
xmlrpc_env_init(&env);
v2 = xmlrpc_int_new(&env, (xmlrpc_int32) 5);
TEST_NO_FAULT(&env);
v = xmlrpc_build_value(&env, "V", v2);
TEST_NO_FAULT(&env);
TEST(v == v2);
xmlrpc_decompose_value(&env, v2, "V", &v3);
xmlrpc_DECREF(v);
TEST_NO_FAULT(&env);
TEST(v2 == v3);
xmlrpc_DECREF(v3);
xmlrpc_DECREF(v2);
xmlrpc_env_clean(&env);
}
static void
test_value_array(void) {
xmlrpc_value *v;
xmlrpc_env env;
size_t len;
/* Basic array-building test. */
xmlrpc_env_init(&env);
v = xmlrpc_array_new(&env);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_ARRAY == xmlrpc_value_type(v));
len = xmlrpc_array_size(&env, v);
TEST_NO_FAULT(&env);
TEST(len == 0);
xmlrpc_DECREF(v);
v = xmlrpc_build_value(&env, "()");
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_ARRAY == xmlrpc_value_type(v));
len = xmlrpc_array_size(&env, v);
TEST_NO_FAULT(&env);
TEST(len == 0);
xmlrpc_DECREF(v);
xmlrpc_env_clean(&env);
}
static void
test_value_AS(void) {
xmlrpc_value *v;
xmlrpc_value *v2;
xmlrpc_value *v3;
xmlrpc_env env;
size_t len;
/* Test parsing of 'A' and 'S'. */
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "((){})");
TEST_NO_FAULT(&env);
xmlrpc_decompose_value(&env, v, "(AS)", &v2, &v3);
xmlrpc_DECREF(v);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_ARRAY == xmlrpc_value_type(v2));
TEST(XMLRPC_TYPE_STRUCT == xmlrpc_value_type(v3));
len = xmlrpc_array_size(&env, v2);
TEST_NO_FAULT(&env);
TEST(len == 0);
len = xmlrpc_struct_size(&env, v3);
TEST_NO_FAULT(&env);
TEST(len == 0);
xmlrpc_DECREF(v2);
xmlrpc_DECREF(v3);
xmlrpc_env_clean(&env);
}
static void
test_value_AS_typecheck(void) {
xmlrpc_env env;
xmlrpc_env env2;
xmlrpc_value *v;
xmlrpc_value *v2;
/* Test typechecks for 'A' and 'S'. */
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "s", "foo");
TEST_NO_FAULT(&env);
xmlrpc_env_init(&env2);
xmlrpc_decompose_value(&env2, v, "A", &v2);
TEST_FAULT(&env2, XMLRPC_TYPE_ERROR);
xmlrpc_env_clean(&env2);
xmlrpc_env_init(&env2);
xmlrpc_decompose_value(&env2, v, "S", &v2);
TEST_FAULT(&env2, XMLRPC_TYPE_ERROR);
xmlrpc_env_clean(&env2);
xmlrpc_DECREF(v);
xmlrpc_env_clean(&env);
}
static void
test_value_array2(void) {
xmlrpc_value * arrayP;
xmlrpc_env env;
xmlrpc_int32 i, i1, i2, i3, i4;
xmlrpc_value * itemP;
xmlrpc_value * subarrayP;
size_t len;
/* A more complex array. */
xmlrpc_env_init(&env);
arrayP = xmlrpc_build_value(&env, "(i(ii)i)",
(xmlrpc_int32) 10, (xmlrpc_int32) 20,
(xmlrpc_int32) 30, (xmlrpc_int32) 40);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_ARRAY == xmlrpc_value_type(arrayP));
len = xmlrpc_array_size(&env, arrayP);
TEST_NO_FAULT(&env);
TEST(len == 3);
xmlrpc_array_read_item(&env, arrayP, 1, &subarrayP);
TEST_NO_FAULT(&env);
len = xmlrpc_array_size(&env, subarrayP);
TEST_NO_FAULT(&env);
TEST(len == 2);
xmlrpc_array_read_item(&env, subarrayP, 0, &itemP);
TEST_NO_FAULT(&env);
xmlrpc_decompose_value(&env, itemP, "i", &i);
xmlrpc_DECREF(itemP);
TEST_NO_FAULT(&env);
TEST(i == 20);
xmlrpc_DECREF(subarrayP);
itemP = xmlrpc_array_get_item(&env, arrayP, 0);
TEST_NO_FAULT(&env);
xmlrpc_decompose_value(&env, itemP, "i", &i);
TEST_NO_FAULT(&env);
TEST(i == 10);
xmlrpc_decompose_value(&env, arrayP, "(i(ii)i)", &i1, &i2, &i3, &i4);
TEST_NO_FAULT(&env);
TEST(i1 == 10 && i2 == 20 && i3 == 30 && i4 == 40);
xmlrpc_decompose_value(&env, arrayP, "(i(i*)i)", &i1, &i2, &i3);
TEST_NO_FAULT(&env);
TEST(i1 == 10 && i2 == 20 && i3 == 40);
xmlrpc_decompose_value(&env, arrayP, "(i(ii*)i)", &i1, &i2, &i3, &i4);
TEST_NO_FAULT(&env);
/* Test bounds check on xmlrpc_array_get_item. */
xmlrpc_array_read_item(&env, arrayP, 3, &itemP);
TEST_FAULT(&env, XMLRPC_INDEX_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
xmlrpc_array_get_item(&env, arrayP, 3);
TEST_FAULT(&env, XMLRPC_INDEX_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
xmlrpc_array_get_item(&env, arrayP, -1);
TEST_FAULT(&env, XMLRPC_INDEX_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
xmlrpc_DECREF(arrayP);
xmlrpc_env_clean(&env);
}
static void
test_value_array_nil(void) {
xmlrpc_value * arrayP;
xmlrpc_env env;
xmlrpc_int32 i1, i2;
xmlrpc_value * itemP;
size_t len;
xmlrpc_env_init(&env);
arrayP = xmlrpc_build_value(&env, "(nini)",
(xmlrpc_int32) 10, (xmlrpc_int32) 20);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_ARRAY == xmlrpc_value_type(arrayP));
len = xmlrpc_array_size(&env, arrayP);
TEST_NO_FAULT(&env);
TEST(len == 4);
itemP = xmlrpc_array_get_item(&env, arrayP, 0);
TEST_NO_FAULT(&env);
xmlrpc_decompose_value(&env, itemP, "n");
TEST_NO_FAULT(&env);
itemP = xmlrpc_array_get_item(&env, arrayP, 1);
TEST_NO_FAULT(&env);
{
int i;
xmlrpc_decompose_value(&env, itemP, "i", &i);
TEST_NO_FAULT(&env);
TEST(i == 10);
}
xmlrpc_decompose_value(&env, arrayP, "(nini)", &i1, &i2);
TEST_NO_FAULT(&env);
TEST(i1 == 10 && i2 == 20);
/* Test bounds check on xmlrpc_array_get_item. */
xmlrpc_array_read_item(&env, arrayP, 4, &itemP);
TEST_FAULT(&env, XMLRPC_INDEX_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
xmlrpc_array_get_item(&env, arrayP, 4);
TEST_FAULT(&env, XMLRPC_INDEX_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
xmlrpc_DECREF(arrayP);
xmlrpc_env_clean(&env);
}
static void
test_value_type_mismatch(void) {
xmlrpc_value * v;
xmlrpc_env env;
xmlrpc_env env2;
char * str;
/* Test for one, simple kind of type mismatch error. We assume that
** if one of these typechecks works, the rest work fine. */
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "i", (xmlrpc_int32) 5);
TEST_NO_FAULT(&env);
xmlrpc_env_init(&env2);
xmlrpc_decompose_value(&env2, v, "s", &str);
xmlrpc_DECREF(v);
TEST_FAULT(&env2, XMLRPC_TYPE_ERROR);
xmlrpc_env_clean(&env2);
xmlrpc_env_clean(&env);
}
static void
test_value_cptr(void) {
xmlrpc_value * v;
xmlrpc_env env;
void * ptr;
/* Test C pointer storage using 'p'.
We don't have cleanup functions (yet).
*/
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "p", (void*) 0x00000017);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_C_PTR == xmlrpc_value_type(v));
xmlrpc_decompose_value(&env, v, "p", &ptr);
xmlrpc_DECREF(v);
TEST_NO_FAULT(&env);
TEST(ptr == (void*) 0x00000017);
xmlrpc_env_clean(&env);
}
static void
test_value_nil(void) {
xmlrpc_value * v;
xmlrpc_env env;
xmlrpc_env_init(&env);
v = xmlrpc_nil_new(&env);
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_NIL == xmlrpc_value_type(v));
xmlrpc_DECREF(v);
v = xmlrpc_build_value(&env, "n");
TEST_NO_FAULT(&env);
TEST(XMLRPC_TYPE_NIL == xmlrpc_value_type(v));
xmlrpc_decompose_value(&env, v, "n");
xmlrpc_DECREF(v);
TEST_NO_FAULT(&env);
xmlrpc_env_clean(&env);
}
static void
test_value_invalid_type(void) {
xmlrpc_value * v;
xmlrpc_env env;
/* Test invalid type specifier in format string */
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "Q");
TEST_FAULT(&env, XMLRPC_INTERNAL_ERROR);
xmlrpc_env_clean(&env);
}
static void
test_value_missing_array_delim(void) {
xmlrpc_value * v;
xmlrpc_env env;
/* Test missing close parenthesis on array */
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "(");
TEST_FAULT(&env, XMLRPC_INTERNAL_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "(i");
TEST_FAULT(&env, XMLRPC_INTERNAL_ERROR);
xmlrpc_env_clean(&env);
}
static void
test_value_missing_struct_delim(void) {
xmlrpc_value * v;
xmlrpc_env env;
/* Test missing closing brace on struct */
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "{");
TEST_FAULT(&env, XMLRPC_INTERNAL_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "{s:i", "key1", 7);
TEST_FAULT(&env, XMLRPC_INTERNAL_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "{s:i,s:i", "key1", 9, "key2", -4);
TEST_FAULT(&env, XMLRPC_INTERNAL_ERROR);
xmlrpc_env_clean(&env);
}
static void
test_value_invalid_struct(void) {
xmlrpc_value * v;
xmlrpc_env env;
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "{s:ii");
TEST_FAULT(&env, XMLRPC_INTERNAL_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "{si:");
TEST_FAULT(&env, XMLRPC_INTERNAL_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
v = xmlrpc_build_value(&env, "{s");
TEST_FAULT(&env, XMLRPC_INTERNAL_ERROR);
xmlrpc_env_clean(&env);
}
static void
test_value_parse_value(void) {
xmlrpc_env env;
xmlrpc_value * valueP;
const char * datestring = "19980717T14:08:55";
xmlrpc_env_init(&env);
valueP = xmlrpc_build_value(&env, "(idb8ss#6(i){s:i}np(i))",
7, 3.14, (xmlrpc_bool)1, datestring,
"hello world", "a\0b", 3,
"base64 data", strlen("base64 data"),
15, "member9", 9, &valueP, -5);
TEST_NO_FAULT(&env);
{
xmlrpc_int32 i;
xmlrpc_double d;
xmlrpc_bool b;
const char * dt_str;
const char * s1;
const char * s2;
size_t s2_len;
const unsigned char * b64;
size_t b64_len;
xmlrpc_value * arrayP;
xmlrpc_value * structP;
void * cptr;
xmlrpc_value * subvalP;
xmlrpc_parse_value(&env, valueP, "(idb8ss#6ASnpV)",
&i, &d, &b, &dt_str, &s1, &s2, &s2_len,
&b64, &b64_len,
&arrayP, &structP, &cptr, &subvalP);
TEST_NO_FAULT(&env);
TEST(i == 7);
TEST(d == 3.14);
TEST(b == (xmlrpc_bool)1);
TEST(strcmp(dt_str, datestring) == 0);
TEST(strcmp(s1, "hello world") == 0);
TEST(s2_len == 3);
TEST(memcmp(s2, "a\0b", 3) == 0);
TEST(b64_len == strlen("base64 data"));
TEST(memcmp(b64, "base64 data", b64_len) == 0);
TEST(XMLRPC_TYPE_ARRAY == xmlrpc_value_type(arrayP));
TEST(XMLRPC_TYPE_STRUCT == xmlrpc_value_type(structP));
TEST(cptr == &valueP);
TEST(XMLRPC_TYPE_ARRAY == xmlrpc_value_type(subvalP));
xmlrpc_DECREF(valueP);
}
xmlrpc_env_clean(&env);
}
static void
test_struct_get_element(xmlrpc_value * const structP,
xmlrpc_value * const i1,
xmlrpc_value * const i2,
const char * const weirdKey,
unsigned int const weirdKeyLen) {
xmlrpc_env env;
xmlrpc_value * valueP;
xmlrpc_value * aasStringP;
xmlrpc_value * bogusKeyStringP;
xmlrpc_env_init(&env);
/* build test tools */
aasStringP = xmlrpc_build_value(&env, "s", "aas");
TEST_NO_FAULT(&env);
bogusKeyStringP = xmlrpc_build_value(&env, "s", "doesn't_exist");
TEST_NO_FAULT(&env);
/* "find" interface */
xmlrpc_struct_find_value(&env, structP, "aas", &valueP);
TEST_NO_FAULT(&env);
TEST(valueP == i1);
xmlrpc_struct_find_value(&env, structP, "doesn't_exist", &valueP);
TEST_NO_FAULT(&env);
TEST(valueP == NULL);
xmlrpc_struct_find_value_v(&env, structP, aasStringP, &valueP);
TEST_NO_FAULT(&env);
TEST(valueP == i1);
xmlrpc_DECREF(valueP);
xmlrpc_struct_find_value_v(&env, structP, bogusKeyStringP, &valueP);
TEST_NO_FAULT(&env);
TEST(valueP == NULL);
xmlrpc_struct_find_value(&env, i1, "aas", &valueP);
TEST_FAULT(&env, XMLRPC_TYPE_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
/* "read" interface */
xmlrpc_struct_read_value(&env, structP, "aas", &valueP);
TEST_NO_FAULT(&env);
TEST(valueP == i1);
xmlrpc_DECREF(valueP);
xmlrpc_struct_read_value(&env, structP, "doesn't_exist", &valueP);
TEST_FAULT(&env, XMLRPC_INDEX_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
xmlrpc_struct_read_value_v(&env, structP, aasStringP, &valueP);
TEST_NO_FAULT(&env);
TEST(valueP == i1);
xmlrpc_DECREF(valueP);
xmlrpc_struct_read_value_v(&env, structP, bogusKeyStringP, &valueP);
TEST_FAULT(&env, XMLRPC_INDEX_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
xmlrpc_struct_read_value(&env, i1, "aas", &valueP);
TEST_FAULT(&env, XMLRPC_TYPE_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
/* obsolete "get" interface */
valueP = xmlrpc_struct_get_value(&env, structP, "aas");
TEST_NO_FAULT(&env);
TEST(valueP == i1);
valueP = xmlrpc_struct_get_value(&env, structP, "doesn't_exist");
TEST_FAULT(&env, XMLRPC_INDEX_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
valueP = xmlrpc_struct_get_value(&env, i1, "foo");
TEST_FAULT(&env, XMLRPC_TYPE_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
valueP = xmlrpc_struct_get_value_n(&env, structP, weirdKey, weirdKeyLen);
TEST_NO_FAULT(&env);
TEST(valueP == i2);
/* Clean up */
xmlrpc_DECREF(aasStringP);
xmlrpc_DECREF(bogusKeyStringP);
xmlrpc_env_clean(&env);
}
static void
testStructReadout(xmlrpc_value * const structP,
size_t const expectedSize) {
xmlrpc_env env;
xmlrpc_value * keyP;
xmlrpc_value * valueP;
unsigned int index;
xmlrpc_env_init(&env);
for (index = 0; index < expectedSize; ++index) {
xmlrpc_struct_read_member(&env, structP, index, &keyP, &valueP);
TEST_NO_FAULT(&env);
xmlrpc_DECREF(keyP);
xmlrpc_DECREF(valueP);
}
xmlrpc_struct_read_member(&env, structP, expectedSize, &keyP, &valueP);
TEST_FAULT(&env, XMLRPC_INDEX_ERROR);
xmlrpc_env_clean(&env);
xmlrpc_env_init(&env);
for (index = 0; index < expectedSize; ++index) {
xmlrpc_struct_get_key_and_value(&env, structP, index, &keyP, &valueP);
TEST_NO_FAULT(&env);
}
xmlrpc_env_clean(&env);
}
static void
test_struct (void) {
xmlrpc_env env, env2;
xmlrpc_value *s, *i, *i1, *i2, *i3, *key, *value;
size_t size;
int present;
xmlrpc_int32 ival;
xmlrpc_bool bval;
char *sval;
char const weirdKey[] = {'f', 'o', 'o', '\0', 'b', 'a', 'r'};
xmlrpc_env_init(&env);
/* Create a struct. */
s = xmlrpc_struct_new(&env);
TEST_NO_FAULT(&env);
TEST(s != NULL);
TEST(XMLRPC_TYPE_STRUCT == xmlrpc_value_type(s));
size = xmlrpc_struct_size(&env, s);
TEST_NO_FAULT(&env);
TEST(size == 0);
/* Create some elements to insert into our struct. */
i1 = xmlrpc_build_value(&env, "s", "Item #1");
TEST_NO_FAULT(&env);
i2 = xmlrpc_build_value(&env, "s", "Item #2");
TEST_NO_FAULT(&env);
i3 = xmlrpc_build_value(&env, "s", "Item #3");
TEST_NO_FAULT(&env);
/* Insert a single item. */
xmlrpc_struct_set_value(&env, s, "foo", i1);
TEST_NO_FAULT(&env);
size = xmlrpc_struct_size(&env, s);
TEST_NO_FAULT(&env);
TEST(size == 1);
/* Insert two more items with conflicting hash codes. (We assume that
** nobody has changed the hash function.) */
xmlrpc_struct_set_value(&env, s, "bar", i2);
TEST_NO_FAULT(&env);
xmlrpc_struct_set_value(&env, s, "aas", i3);
TEST_NO_FAULT(&env);
size = xmlrpc_struct_size(&env, s);
TEST_NO_FAULT(&env);
TEST(size == 3);
/* Replace an existing element with a different element. */
xmlrpc_struct_set_value(&env, s, "aas", i1);
TEST_NO_FAULT(&env);
size = xmlrpc_struct_size(&env, s);
TEST_NO_FAULT(&env);
TEST(size == 3);
/* Insert an item with a NUL in the key */
xmlrpc_struct_set_value_n(&env, s, weirdKey, sizeof(weirdKey), i2);
TEST_NO_FAULT(&env);
size = xmlrpc_struct_size(&env, s);
TEST_NO_FAULT(&env);
TEST(size == 4);
test_struct_get_element(s, i1, i2, weirdKey, sizeof(weirdKey));
/* Replace an existing element with the same element (tricky). */
xmlrpc_struct_set_value(&env, s, "aas", i1);
TEST_NO_FAULT(&env);
size = xmlrpc_struct_size(&env, s);
TEST_NO_FAULT(&env);
TEST(size == 4);
i = xmlrpc_struct_get_value(&env, s, "aas");
TEST_NO_FAULT(&env);
TEST(i == i1);
/* Test for the presence and absence of elements. */
present = xmlrpc_struct_has_key(&env, s, "aas");
TEST_NO_FAULT(&env);
TEST(present);
present = xmlrpc_struct_has_key(&env, s, "bogus");
TEST_NO_FAULT(&env);
TEST(!present);
/* Make sure our typechecks work correctly. */
xmlrpc_env_init(&env2);
xmlrpc_struct_size(&env2, i1);
TEST_FAULT(&env2, XMLRPC_TYPE_ERROR);
xmlrpc_env_clean(&env2);
xmlrpc_env_init(&env2);
xmlrpc_struct_has_key(&env2, i1, "foo");
TEST_FAULT(&env2, XMLRPC_TYPE_ERROR);
xmlrpc_env_clean(&env2);
xmlrpc_env_init(&env2);
xmlrpc_struct_set_value(&env2, i1, "foo", i2);
TEST_FAULT(&env2, XMLRPC_TYPE_ERROR);
xmlrpc_env_clean(&env2);
xmlrpc_env_init(&env2);
xmlrpc_struct_set_value_v(&env2, s, s, i2);
TEST_FAULT(&env2, XMLRPC_TYPE_ERROR);
xmlrpc_env_clean(&env2);
/* Test cleanup code (w/memprof). */
xmlrpc_DECREF(s);
/* Build a struct using our automagic struct builder. */
s = xmlrpc_build_value(&env, "{s:s,s:i,s:b}",
"foo", "Hello!",
"bar", (xmlrpc_int32) 1,
"baz", (xmlrpc_bool) 0);
TEST_NO_FAULT(&env);
TEST(s != NULL);
TEST(XMLRPC_TYPE_STRUCT == xmlrpc_value_type(s));
size = xmlrpc_struct_size(&env, s);
TEST_NO_FAULT(&env);
TEST(size == 3);
present = xmlrpc_struct_has_key(&env, s, "foo");
TEST_NO_FAULT(&env);
TEST(present);
present = xmlrpc_struct_has_key(&env, s, "bar");
TEST_NO_FAULT(&env);
TEST(present);
present = xmlrpc_struct_has_key(&env, s, "baz");
TEST_NO_FAULT(&env);
TEST(present);
i = xmlrpc_struct_get_value(&env, s, "baz");
TEST_NO_FAULT(&env);
xmlrpc_decompose_value(&env, i, "b", &bval);
TEST_NO_FAULT(&env);
TEST(!bval);
testStructReadout(s, 3);
/* Test our automagic struct parser. */
xmlrpc_decompose_value(&env, s, "{s:b,s:s,s:i,*}",
"baz", &bval,
"foo", &sval,
"bar", &ival);
TEST_NO_FAULT(&env);
TEST(ival == 1);
TEST(!bval);
TEST(strcmp(sval, "Hello!") == 0);
free(sval);
/* Test automagic struct parser with value of wrong type. */
xmlrpc_env_init(&env2);
xmlrpc_decompose_value(&env2, s, "{s:b,s:i,*}",
"baz", &bval,
"foo", &sval);
TEST_FAULT(&env2, XMLRPC_TYPE_ERROR);
xmlrpc_env_clean(&env2);
/* Test automagic struct parser with bad key. */
xmlrpc_env_init(&env2);
xmlrpc_decompose_value(&env2, s, "{s:b,s:i,*}",
"baz", &bval,
"nosuch", &sval);
TEST_FAULT(&env2, XMLRPC_INDEX_ERROR);
xmlrpc_env_clean(&env2);
/* Test type check. */
xmlrpc_env_init(&env2);
xmlrpc_struct_get_key_and_value(&env2, i1, 0, &key, &value);
TEST_FAULT(&env2, XMLRPC_TYPE_ERROR);
TEST(key == NULL && value == NULL);
xmlrpc_env_clean(&env2);
/* Test bounds checks. */
xmlrpc_env_init(&env2);
xmlrpc_struct_get_key_and_value(&env2, s, -1, &key, &value);
TEST_FAULT(&env2, XMLRPC_INDEX_ERROR);
TEST(key == NULL && value == NULL);
xmlrpc_env_clean(&env2);
xmlrpc_env_init(&env2);
xmlrpc_struct_get_key_and_value(&env2, s, 3, &key, &value);
TEST_FAULT(&env2, XMLRPC_INDEX_ERROR);
TEST(key == NULL && value == NULL);
xmlrpc_env_clean(&env2);
/* Test cleanup code (w/memprof). */
xmlrpc_DECREF(s);
xmlrpc_DECREF(i1);
xmlrpc_DECREF(i2);
xmlrpc_DECREF(i3);
xmlrpc_env_clean(&env);
}
void
test_value(void) {
printf("Running value tests.");
test_value_alloc_dealloc();
test_value_integer();
test_value_bool();
test_value_double();
test_value_datetime();
test_value_string_no_null();
test_value_string_null();
test_value_string_wide();
test_value_base64();
test_value_array();
test_value_array2();
test_value_array_nil();
test_value_value();
test_value_AS();
test_value_AS_typecheck();
test_value_cptr();
test_value_nil();
test_value_type_mismatch();
test_value_invalid_type();
test_value_missing_array_delim();
test_value_missing_struct_delim();
test_value_invalid_struct();
test_value_parse_value();
test_struct();
printf("\n");
printf("Value tests done.\n");
}