/* Copyright (c) 2011 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*
* Tests for string utility functions.
*/
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "test_common.h"
#include "utility.h"
#include "vboot_common.h"
/* Test string concatenation */
static void StrncatTest(void) {
char dest[128];
/* Null inputs */
TEST_EQ(0, StrnAppend(dest, NULL, sizeof(dest)), "StrnAppend('', null)");
TEST_EQ(0, StrnAppend(NULL, "Hey!", sizeof(dest)), "StrnAppend(null, '')");
/* Empty <-- empty */
*dest = 0;
TEST_EQ(0, StrnAppend(dest, "", sizeof(dest)), "StrnAppend('', '')");
TEST_EQ(0, strcmp(dest, ""), "StrnAppend('', '') result");
/* Nonempty <-- empty */
strcpy(dest, "Bob");
TEST_EQ(3, StrnAppend(dest, "", sizeof(dest)), "StrnAppend(B, '')");
TEST_EQ(0, strcmp(dest, "Bob"), "StrnAppend(B, '') result");
/* Empty <-- nonempty */
*dest = 0;
TEST_EQ(5, StrnAppend(dest, "Alice", sizeof(dest)), "StrnAppend('', A)");
TEST_EQ(0, strcmp(dest, "Alice"), "StrnAppend('', A) result");
/* Nonempty <-- nonempty */
strcpy(dest, "Tigre");
TEST_EQ(10, StrnAppend(dest, "Bunny", sizeof(dest)), "StrnAppend(T, B)");
TEST_EQ(0, strcmp(dest, "TigreBunny"), "StrnAppend(T, B) result");
/* Test clipping */
strcpy(dest, "YesI");
TEST_EQ(7, StrnAppend(dest, "Can't", 8), "StrnAppend(Y, over)");
TEST_EQ(0, strcmp(dest, "YesICan"), "StrnAppend(Y, over) result");
/* Test clipping if dest already overflows its claimed length */
strcpy(dest, "BudgetDeficit");
TEST_EQ(6, StrnAppend(dest, "Spending", 7), "StrnAppend(over, over)");
TEST_EQ(0, strcmp(dest, "Budget"), "StrnAppend(over, over) result");
}
static void TestU64ToS(uint64_t value, uint32_t radix, uint32_t zero_pad_width,
const char *expect) {
char dest[UINT64_TO_STRING_MAX];
TEST_EQ(strlen(expect),
Uint64ToString(dest, sizeof(dest), value, radix, zero_pad_width),
"Uint64ToString");
printf("Uint64ToString expect %s got %s\n", expect, dest);
TEST_EQ(0, strcmp(dest, expect), "Uint64ToString result");
}
/* Test uint64 to string conversion */
static void Uint64ToStringTest(void) {
char dest[UINT64_TO_STRING_MAX];
/* Test invalid inputs */
TEST_EQ(0, Uint64ToString(NULL, 8, 123, 10, 8), "Uint64ToString null dest");
TestU64ToS(0, 1, 0, "");
TestU64ToS(0, 37, 0, "");
/* Binary */
TestU64ToS(0, 2, 0, "0");
TestU64ToS(0x9A, 2, 0, "10011010");
TestU64ToS(0x71, 2, 12, "000001110001");
TestU64ToS(
~0ULL, 2, 0,
"1111111111111111111111111111111111111111111111111111111111111111");
/* Decimal */
TestU64ToS(0, 10, 0, "0");
TestU64ToS(12345, 10, 0, "12345");
TestU64ToS(67890, 10, 8, "00067890");
TestU64ToS(~0ULL, 10, 0, "18446744073709551615");
/* Hex */
TestU64ToS(0, 16, 0, "0");
TestU64ToS(0x12345678, 16, 0, "12345678");
TestU64ToS(0x9ABCDEF, 16, 8, "09abcdef");
TestU64ToS(~0ULL, 16, 0, "ffffffffffffffff");
/* Zero pad corner cases */
/* Don't pad if over length */
TestU64ToS(0x1234567890ULL, 16, 8, "1234567890");
/* Fail if padding won't fit in buffer */
TEST_EQ(0, Uint64ToString(dest, 8, 123, 10, 8), "Uint64ToString bad pad");
TEST_EQ(0, strcmp(dest, ""), "Uint64ToString bad pad result");
}
int main(int argc, char* argv[]) {
int error_code = 0;
StrncatTest();
Uint64ToStringTest();
if (!gTestSuccess)
error_code = 255;
return error_code;
}