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android / platform / bionic / 34131889b58e372e717f25e3f8357231c205957e / . / tests / stdio_test.cpp
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/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <gtest/gtest.h>
#include <errno.h>
#include <fcntl.h>
#include <limits.h>
#include <locale.h>
#include <math.h>
#include <stdio.h>
#include <sys/cdefs.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/sysinfo.h>
#include <sys/types.h>
#include <unistd.h>
#include <wchar.h>
#include <string>
#include <thread>
#include <vector>
#include <android-base/file.h>
#include <android-base/silent_death_test.h>
#include <android-base/strings.h>
#include <android-base/test_utils.h>
#include <android-base/unique_fd.h>
#include "utils.h"
// This #include is actually a test too. We have to duplicate the
// definitions of the RENAME_ constants because <linux/fs.h> also contains
// pollution such as BLOCK_SIZE which conflicts with lots of user code.
// Important to check that we have matching definitions.
// There's no _MAX to test that we have all the constants, sadly.
#include <linux/fs.h>
#if defined(NOFORTIFY)
#define STDIO_TEST stdio_nofortify
#define STDIO_DEATHTEST stdio_nofortify_DeathTest
#else
#define STDIO_TEST stdio
#define STDIO_DEATHTEST stdio_DeathTest
#endif
using namespace std::string_literals;
using stdio_DeathTest = SilentDeathTest;
using stdio_nofortify_DeathTest = SilentDeathTest;
static void SetFileTo(const char* path, const char* content) {
FILE* fp;
ASSERT_NE(nullptr, fp = fopen(path, "w"));
ASSERT_NE(EOF, fputs(content, fp));
ASSERT_EQ(0, fclose(fp));
}
static void AssertFileIs(const char* path, const char* expected) {
FILE* fp;
ASSERT_NE(nullptr, fp = fopen(path, "r"));
char* line = nullptr;
size_t length;
ASSERT_NE(EOF, getline(&line, &length, fp));
ASSERT_EQ(0, fclose(fp));
ASSERT_STREQ(expected, line);
free(line);
}
static void AssertFileIs(FILE* fp, const char* expected, bool is_fmemopen = false) {
rewind(fp);
char line[1024];
memset(line, 0xff, sizeof(line));
ASSERT_EQ(line, fgets(line, sizeof(line), fp));
ASSERT_STREQ(expected, line);
if (is_fmemopen) {
// fmemopen appends a trailing NUL byte, which probably shouldn't show up as an
// extra empty line, but does on every C library I tested...
ASSERT_EQ(line, fgets(line, sizeof(line), fp));
ASSERT_STREQ("", line);
}
// Make sure there isn't anything else in the file.
ASSERT_EQ(nullptr, fgets(line, sizeof(line), fp)) << "junk at end of file: " << line;
}
#define EXPECT_SNPRINTF_N(expected, n, fmt, ...) \
{ \
char buf[BUFSIZ]; \
int w = snprintf(buf, sizeof(buf), fmt __VA_OPT__(, ) __VA_ARGS__); \
EXPECT_EQ(n, w); \
EXPECT_STREQ(expected, buf); \
}
#define EXPECT_SNPRINTF(expected, fmt, ...) \
EXPECT_SNPRINTF_N(expected, static_cast<int>(strlen(expected)), fmt __VA_OPT__(, ) __VA_ARGS__)
#define EXPECT_SWPRINTF_N(expected, n, fmt, ...) \
{ \
wchar_t buf[BUFSIZ]; \
int w = swprintf(buf, sizeof(buf), fmt __VA_OPT__(, ) __VA_ARGS__); \
EXPECT_EQ(n, w); \
EXPECT_EQ(std::wstring(expected), std::wstring(buf, w)); \
}
#define EXPECT_SWPRINTF(expected, fmt, ...) \
EXPECT_SWPRINTF_N(expected, static_cast<int>(wcslen(expected)), fmt __VA_OPT__(, ) __VA_ARGS__)
TEST(STDIO_TEST, flockfile_18208568_stderr) {
flockfile(stderr);
// Check that we're using a _recursive_ mutex for flockfile() by calling
// something that will take the lock.
ASSERT_EQ(0, feof(stderr));
funlockfile(stderr);
}
TEST(STDIO_TEST, flockfile_18208568_regular) {
// We never had a bug for streams other than stdin/stdout/stderr, but test anyway.
FILE* fp = fopen("/dev/null", "w");
ASSERT_TRUE(fp != nullptr);
flockfile(fp);
// Check that we're using a _recursive_ mutex for flockfile() by calling
// something that will take the lock.
ASSERT_EQ(0, feof(fp));
funlockfile(fp);
fclose(fp);
}
TEST(STDIO_TEST, tmpfile_fileno_fprintf_rewind_fgets) {
FILE* fp = tmpfile();
ASSERT_TRUE(fp != nullptr);
int fd = fileno(fp);
ASSERT_NE(fd, -1);
struct stat sb;
int rc = fstat(fd, &sb);
ASSERT_NE(rc, -1);
ASSERT_EQ(sb.st_mode & 0777, 0600U);
rc = fprintf(fp, "hello\n");
ASSERT_EQ(rc, 6);
AssertFileIs(fp, "hello\n");
fclose(fp);
}
TEST(STDIO_TEST, tmpfile64) {
FILE* fp = tmpfile64();
ASSERT_TRUE(fp != nullptr);
fclose(fp);
}
TEST(STDIO_TEST, tmpfile_TMPDIR) {
TemporaryDir td;
setenv("TMPDIR", td.path, 1);
FILE* fp = tmpfile();
ASSERT_TRUE(fp != nullptr);
std::string fd_path = android::base::StringPrintf("/proc/self/fd/%d", fileno(fp));
char path[PATH_MAX];
ASSERT_GT(readlink(fd_path.c_str(), path, sizeof(path)), 0);
// $TMPDIR influenced where our temporary file ended up?
ASSERT_TRUE(android::base::StartsWith(path, td.path)) << path;
// And we used O_TMPFILE, right?
ASSERT_TRUE(android::base::EndsWith(path, " (deleted)")) << path;
}
TEST(STDIO_TEST, dprintf) {
TemporaryFile tf;
int rc = dprintf(tf.fd, "hello\n");
ASSERT_EQ(rc, 6);
lseek(tf.fd, 0, SEEK_SET);
FILE* tfile = fdopen(tf.fd, "r");
ASSERT_TRUE(tfile != nullptr);
AssertFileIs(tfile, "hello\n");
fclose(tfile);
}
TEST(STDIO_TEST, getdelim) {
FILE* fp = tmpfile();
ASSERT_TRUE(fp != nullptr);
const char* line_written = "This is a test";
int rc = fprintf(fp, "%s", line_written);
ASSERT_EQ(rc, static_cast<int>(strlen(line_written)));
rewind(fp);
char* word_read = nullptr;
size_t allocated_length = 0;
const char* expected[] = { "This ", " ", "is ", "a ", "test" };
for (size_t i = 0; i < 5; ++i) {
ASSERT_FALSE(feof(fp));
ASSERT_EQ(getdelim(&word_read, &allocated_length, ' ', fp), static_cast<int>(strlen(expected[i])));
ASSERT_GE(allocated_length, strlen(expected[i]));
ASSERT_STREQ(expected[i], word_read);
}
// The last read should have set the end-of-file indicator for the stream.
ASSERT_TRUE(feof(fp));
clearerr(fp);
// getdelim returns -1 but doesn't set errno if we're already at EOF.
// It should set the end-of-file indicator for the stream, though.
errno = 0;
ASSERT_EQ(getdelim(&word_read, &allocated_length, ' ', fp), -1);
ASSERT_ERRNO(0);
ASSERT_TRUE(feof(fp));
free(word_read);
fclose(fp);
}
TEST(STDIO_TEST, getdelim_invalid) {
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wnonnull"
FILE* fp = tmpfile();
ASSERT_TRUE(fp != nullptr);
char* buffer = nullptr;
size_t buffer_length = 0;
// The first argument can't be NULL.
errno = 0;
ASSERT_EQ(getdelim(nullptr, &buffer_length, ' ', fp), -1);
ASSERT_ERRNO(EINVAL);
// The second argument can't be NULL.
errno = 0;
ASSERT_EQ(getdelim(&buffer, nullptr, ' ', fp), -1);
ASSERT_ERRNO(EINVAL);
fclose(fp);
#pragma clang diagnostic pop
}
TEST(STDIO_TEST, getdelim_directory) {
FILE* fp = fopen("/proc", "r");
ASSERT_TRUE(fp != nullptr);
char* word_read;
size_t allocated_length;
ASSERT_EQ(-1, getdelim(&word_read, &allocated_length, ' ', fp));
fclose(fp);
}
TEST(STDIO_TEST, getline) {
FILE* fp = tmpfile();
ASSERT_TRUE(fp != nullptr);
const char* line_written = "This is a test for getline\n";
const size_t line_count = 5;
for (size_t i = 0; i < line_count; ++i) {
int rc = fprintf(fp, "%s", line_written);
ASSERT_EQ(rc, static_cast<int>(strlen(line_written)));
}
rewind(fp);
char* line_read = nullptr;
size_t allocated_length = 0;
size_t read_line_count = 0;
ssize_t read_char_count;
while ((read_char_count = getline(&line_read, &allocated_length, fp)) != -1) {
ASSERT_EQ(read_char_count, static_cast<int>(strlen(line_written)));
ASSERT_GE(allocated_length, strlen(line_written));
ASSERT_STREQ(line_written, line_read);
++read_line_count;
}
ASSERT_EQ(read_line_count, line_count);
// The last read should have set the end-of-file indicator for the stream.
ASSERT_TRUE(feof(fp));
clearerr(fp);
// getline returns -1 but doesn't set errno if we're already at EOF.
// It should set the end-of-file indicator for the stream, though.
errno = 0;
ASSERT_EQ(getline(&line_read, &allocated_length, fp), -1);
ASSERT_ERRNO(0);
ASSERT_TRUE(feof(fp));
free(line_read);
fclose(fp);
}
TEST(STDIO_TEST, getline_invalid) {
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wnonnull"
FILE* fp = tmpfile();
ASSERT_TRUE(fp != nullptr);
char* buffer = nullptr;
size_t buffer_length = 0;
// The first argument can't be NULL.
errno = 0;
ASSERT_EQ(getline(nullptr, &buffer_length, fp), -1);
ASSERT_ERRNO(EINVAL);
// The second argument can't be NULL.
errno = 0;
ASSERT_EQ(getline(&buffer, nullptr, fp), -1);
ASSERT_ERRNO(EINVAL);
fclose(fp);
#pragma clang diagnostic pop
}
TEST(STDIO_TEST, printf_ssize_t) {
// http://b/8253769
ASSERT_EQ(sizeof(ssize_t), sizeof(long int));
ASSERT_EQ(sizeof(ssize_t), sizeof(size_t));
// For our 32-bit ABI, we had a ssize_t definition that confuses GCC into saying:
// error: format '%zd' expects argument of type 'signed size_t',
// but argument 4 has type 'ssize_t {aka long int}' [-Werror=format]
ssize_t v = 1;
EXPECT_SNPRINTF("1", "%zd", v);
EXPECT_SWPRINTF(L"1", L"%zd", v);
}
// https://code.google.com/p/android/issues/detail?id=64886
TEST(STDIO_TEST, snprintf_a) {
EXPECT_SNPRINTF("<0x1.3831e147ae148p+13>", "<%a>", 9990.235);
}
// https://code.google.com/p/android/issues/detail?id=64886
TEST(STDIO_TEST, swprintf_a) {
EXPECT_SWPRINTF(L"<0x1.3831e147ae148p+13>", L"<%a>", 9990.235);
}
// http://b/152588929
TEST(STDIO_TEST, snprintf_La) {
#if defined(__LP64__)
union {
uint64_t a[2];
long double v;
} u;
u.a[0] = UINT64_C(0x9b9b9b9b9b9b9b9b);
u.a[1] = UINT64_C(0xdfdfdfdfdfdfdfdf);
EXPECT_SNPRINTF("<-0x1.dfdfdfdfdfdf9b9b9b9b9b9b9b9bp+8160>", "<%La>", u.v);
u.a[0] = UINT64_C(0xffffffffffffffff);
u.a[1] = UINT64_C(0x7ffeffffffffffff);
EXPECT_SNPRINTF("<0x1.ffffffffffffffffffffffffffffp+16383>", "<%La>", u.v);
u.a[0] = UINT64_C(0x0000000000000000);
u.a[1] = UINT64_C(0x0000000000000000);
EXPECT_SNPRINTF("<0x0p+0>", "<%La>", u.v);
#else
GTEST_SKIP() << "no ld128";
#endif
}
// http://b/152588929
TEST(STDIO_TEST, swprintf_La) {
#if defined(__LP64__)
union {
uint64_t a[2];
long double v;
} u;
u.a[0] = UINT64_C(0x9b9b9b9b9b9b9b9b);
u.a[1] = UINT64_C(0xdfdfdfdfdfdfdfdf);
EXPECT_SWPRINTF(L"<-0x1.dfdfdfdfdfdf9b9b9b9b9b9b9b9bp+8160>", L"<%La>", u.v);
u.a[0] = UINT64_C(0xffffffffffffffff);
u.a[1] = UINT64_C(0x7ffeffffffffffff);
EXPECT_SWPRINTF(L"<0x1.ffffffffffffffffffffffffffffp+16383>", L"<%La>", u.v);
u.a[0] = UINT64_C(0x0000000000000000);
u.a[1] = UINT64_C(0x0000000000000000);
EXPECT_SWPRINTF(L"<0x0p+0>", L"<%La>", u.v);
#else
GTEST_SKIP() << "no ld128";
#endif
}
TEST(STDIO_TEST, snprintf_lc) {
wint_t wc = L'a';
EXPECT_SNPRINTF("<a>", "<%lc>", wc);
}
TEST(STDIO_TEST, swprintf_lc) {
wint_t wc = L'a';
EXPECT_SWPRINTF(L"<a>", L"<%lc>", wc);
}
TEST(STDIO_TEST, snprintf_C) { // Synonym for %lc.
wchar_t wc = L'a';
EXPECT_SNPRINTF("<a>", "<%C>", wc);
}
TEST(STDIO_TEST, swprintf_C) { // Synonym for %lc.
wchar_t wc = L'a';
EXPECT_SWPRINTF(L"<a>", L"<%C>", wc);
}
TEST(STDIO_TEST, snprintf_ls_null) {
EXPECT_SNPRINTF("<(null)>", "<%ls>", static_cast<wchar_t*>(nullptr));
}
TEST(STDIO_TEST, swprintf_ls_null) {
EXPECT_SWPRINTF(L"<(null)>", L"<%ls>", static_cast<wchar_t*>(nullptr));
}
TEST(STDIO_TEST, snprintf_ls) {
static const wchar_t chars[] = L"Hello\u0666 World";
EXPECT_SNPRINTF("<Hello\xd9\xa6 World>", "<%ls>", chars);
}
TEST(STDIO_TEST, swprintf_ls) {
static const wchar_t chars[] = L"Hello\u0666 World";
EXPECT_SWPRINTF(L"<Hello\u0666 World>", L"<%ls>", chars);
}
TEST(STDIO_TEST, snprintf_S_nullptr) { // Synonym for %ls.
EXPECT_SNPRINTF("<(null)>", "<%S>", static_cast<wchar_t*>(nullptr));
}
TEST(STDIO_TEST, swprintf_S_nullptr) { // Synonym for %ls.
EXPECT_SWPRINTF(L"<(null)>", L"<%S>", static_cast<wchar_t*>(nullptr));
}
TEST(STDIO_TEST, snprintf_S) { // Synonym for %ls.
static const wchar_t chars[] = L"Hello\u0666 World";
EXPECT_SNPRINTF("<Hello\xd9\xa6 World>", "<%S>", chars);
}
TEST(STDIO_TEST, swprintf_S) { // Synonym for %ls.
static const wchar_t chars[] = L"Hello\u0666 World";
EXPECT_SWPRINTF(L"<Hello\u0666 World>", L"<%S>", chars);
}
TEST_F(STDIO_DEATHTEST, snprintf_n) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat"
// http://b/14492135 and http://b/31832608.
char buf[32];
int i = 1234;
EXPECT_DEATH(snprintf(buf, sizeof(buf), "a %n b", &i), "%n not allowed on Android");
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "glibc does allow %n";
#endif
}
TEST_F(STDIO_DEATHTEST, swprintf_n) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat"
// http://b/14492135 and http://b/31832608.
wchar_t buf[32];
int i = 1234;
EXPECT_DEATH(swprintf(buf, sizeof(buf), L"a %n b", &i), "%n not allowed on Android");
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "glibc does allow %n";
#endif
}
TEST(STDIO_TEST, snprintf_measure) {
char buf[1] = {'x'};
ASSERT_EQ(11, snprintf(buf, 0, "Hello %s", "world"));
ASSERT_EQ('x', buf[0]);
}
// Unlike snprintf(), you *can't* use swprintf() to measure.
TEST(STDIO_TEST, swprintf_measure) {
wchar_t buf[1] = {L'x'};
ASSERT_EQ(-1, swprintf(buf, 0, L"Hello %S", L"world"));
ASSERT_EQ(L'x', buf[0]);
}
TEST(STDIO_TEST, snprintf_smoke) {
EXPECT_SNPRINTF("a", "a");
EXPECT_SNPRINTF("%", "%%");
EXPECT_SNPRINTF("01234", "01234");
EXPECT_SNPRINTF("a01234b", "a%sb", "01234");
EXPECT_SNPRINTF("a(null)b", "a%sb", static_cast<char*>(nullptr));
EXPECT_SNPRINTF("aabbcc", "aa%scc", "bb");
EXPECT_SNPRINTF("abc", "a%cc", 'b');
EXPECT_SNPRINTF("a1234b", "a%db", 1234);
EXPECT_SNPRINTF("a-8123b", "a%db", -8123);
EXPECT_SNPRINTF("a16b", "a%hdb", static_cast<short>(0x7fff0010));
EXPECT_SNPRINTF("a16b", "a%hhdb", static_cast<char>(0x7fffff10));
EXPECT_SNPRINTF("a68719476736b", "a%lldb", 0x1000000000LL);
EXPECT_SNPRINTF("a70000b", "a%ldb", 70000L);
EXPECT_SNPRINTF("a0xb0001234b", "a%pb", reinterpret_cast<void*>(0xb0001234));
EXPECT_SNPRINTF("a12abz", "a%xz", 0x12ab);
EXPECT_SNPRINTF("a12ABz", "a%Xz", 0x12ab);
EXPECT_SNPRINTF("a00123456z", "a%08xz", 0x123456);
EXPECT_SNPRINTF("a 1234z", "a%5dz", 1234);
EXPECT_SNPRINTF("a01234z", "a%05dz", 1234);
EXPECT_SNPRINTF("a 1234z", "a%8dz", 1234);
EXPECT_SNPRINTF("a1234 z", "a%-8dz", 1234);
EXPECT_SNPRINTF("Aabcdef Z", "A%-11sZ", "abcdef");
EXPECT_SNPRINTF("Ahello:1234Z", "A%s:%dZ", "hello", 1234);
EXPECT_SNPRINTF("a005:5:05z", "a%03d:%d:%02dz", 5, 5, 5);
#if defined(__BIONIC__)
EXPECT_SNPRINTF("a5,0x0z", "a%d,%pz", 5, static_cast<void*>(nullptr));
#else // __BIONIC__
EXPECT_SNPRINTF("a5,(nil)z", "a%d,%pz", 5, static_cast<void*>(nullptr));
#endif // __BIONIC__
EXPECT_SNPRINTF("a68719476736,6,7,8z", "a%lld,%d,%d,%dz", 0x1000000000LL, 6, 7, 8);
EXPECT_SNPRINTF("a_1.230000_b", "a_%f_b", 1.23f);
EXPECT_SNPRINTF("a_3.14_b", "a_%g_b", 3.14);
EXPECT_SNPRINTF("print_me_twice print_me_twice", "%1$s %1$s", "print_me_twice");
}
TEST(STDIO_TEST, swprintf_smoke) {
EXPECT_SWPRINTF(L"a", L"a");
EXPECT_SWPRINTF(L"%", L"%%");
EXPECT_SWPRINTF(L"01234", L"01234");
EXPECT_SWPRINTF(L"a01234b", L"a%sb", "01234");
EXPECT_SWPRINTF(L"a(null)b", L"a%sb", static_cast<char*>(nullptr));
EXPECT_SWPRINTF(L"aabbcc", L"aa%scc", "bb");
EXPECT_SWPRINTF(L"abc", L"a%cc", 'b');
EXPECT_SWPRINTF(L"a1234b", L"a%db", 1234);
EXPECT_SWPRINTF(L"a-8123b", L"a%db", -8123);
EXPECT_SWPRINTF(L"a16b", L"a%hdb", static_cast<short>(0x7fff0010));
EXPECT_SWPRINTF(L"a16b", L"a%hhdb", static_cast<char>(0x7fffff10));
EXPECT_SWPRINTF(L"a68719476736b", L"a%lldb", 0x1000000000LL);
EXPECT_SWPRINTF(L"a70000b", L"a%ldb", 70000L);
EXPECT_SWPRINTF(L"a0xb0001234b", L"a%pb", reinterpret_cast<void*>(0xb0001234));
EXPECT_SWPRINTF(L"a12abz", L"a%xz", 0x12ab);
EXPECT_SWPRINTF(L"a12ABz", L"a%Xz", 0x12ab);
EXPECT_SWPRINTF(L"a00123456z", L"a%08xz", 0x123456);
EXPECT_SWPRINTF(L"a 1234z", L"a%5dz", 1234);
EXPECT_SWPRINTF(L"a01234z", L"a%05dz", 1234);
EXPECT_SWPRINTF(L"a 1234z", L"a%8dz", 1234);
EXPECT_SWPRINTF(L"a1234 z", L"a%-8dz", 1234);
EXPECT_SWPRINTF(L"Aabcdef Z", L"A%-11sZ", "abcdef");
EXPECT_SWPRINTF(L"Ahello:1234Z", L"A%s:%dZ", "hello", 1234);
EXPECT_SWPRINTF(L"a005:5:05z", L"a%03d:%d:%02dz", 5, 5, 5);
#if defined(__BIONIC__)
EXPECT_SWPRINTF(L"a5,0x0z", L"a%d,%pz", 5, static_cast<void*>(nullptr));
#else // __BIONIC__
EXPECT_SWPRINTF(L"a5,(nil)z", L"a%d,%pz", 5, static_cast<void*>(nullptr));
#endif // __BIONIC__
EXPECT_SWPRINTF(L"a68719476736,6,7,8z", L"a%lld,%d,%d,%dz", 0x1000000000LL, 6, 7, 8);
EXPECT_SWPRINTF(L"a_1.230000_b", L"a_%f_b", 1.23f);
EXPECT_SWPRINTF(L"a_3.14_b", L"a_%g_b", 3.14);
EXPECT_SWPRINTF(L"print_me_twice print_me_twice", L"%1$s %1$s", "print_me_twice");
}
template <typename T>
static void CheckInfNan(int snprintf_fn(T*, size_t, const T*, ...),
int sscanf_fn(const T*, const T*, ...),
const T* fmt_string, const T* fmt, const T* fmt_plus,
const T* minus_inf, const T* inf_, const T* plus_inf,
const T* minus_nan, const T* nan_, const T* plus_nan) {
T buf[BUFSIZ];
float f;
// NaN.
snprintf_fn(buf, sizeof(buf), fmt, nan(""));
EXPECT_STREQ(nan_, buf) << fmt;
EXPECT_EQ(1, sscanf_fn(buf, fmt, &f));
EXPECT_TRUE(isnan(f));
snprintf_fn(buf, sizeof(buf), fmt, -nan(""));
EXPECT_STREQ(minus_nan, buf) << fmt;
EXPECT_EQ(1, sscanf_fn(buf, fmt, &f));
EXPECT_TRUE(isnan(f));
snprintf_fn(buf, sizeof(buf), fmt_plus, nan(""));
EXPECT_STREQ(plus_nan, buf) << fmt_plus;
EXPECT_EQ(1, sscanf_fn(buf, fmt, &f));
EXPECT_TRUE(isnan(f));
snprintf_fn(buf, sizeof(buf), fmt_plus, -nan(""));
EXPECT_STREQ(minus_nan, buf) << fmt_plus;
EXPECT_EQ(1, sscanf_fn(buf, fmt, &f));
EXPECT_TRUE(isnan(f));
// Inf.
snprintf_fn(buf, sizeof(buf), fmt, HUGE_VALF);
EXPECT_STREQ(inf_, buf) << fmt;
EXPECT_EQ(1, sscanf_fn(buf, fmt, &f));
EXPECT_EQ(HUGE_VALF, f);
snprintf_fn(buf, sizeof(buf), fmt, -HUGE_VALF);
EXPECT_STREQ(minus_inf, buf) << fmt;
EXPECT_EQ(1, sscanf_fn(buf, fmt, &f));
EXPECT_EQ(-HUGE_VALF, f);
snprintf_fn(buf, sizeof(buf), fmt_plus, HUGE_VALF);
EXPECT_STREQ(plus_inf, buf) << fmt_plus;
EXPECT_EQ(1, sscanf_fn(buf, fmt, &f));
EXPECT_EQ(HUGE_VALF, f);
snprintf_fn(buf, sizeof(buf), fmt_plus, -HUGE_VALF);
EXPECT_STREQ(minus_inf, buf) << fmt_plus;
EXPECT_EQ(1, sscanf_fn(buf, fmt, &f));
EXPECT_EQ(-HUGE_VALF, f);
// Check case-insensitivity.
snprintf_fn(buf, sizeof(buf), fmt_string, "[InFiNiTy]");
EXPECT_EQ(1, sscanf_fn(buf, fmt, &f)) << buf;
EXPECT_EQ(HUGE_VALF, f);
snprintf_fn(buf, sizeof(buf), fmt_string, "[NaN]");
EXPECT_EQ(1, sscanf_fn(buf, fmt, &f)) << buf;
EXPECT_TRUE(isnan(f));
}
TEST(STDIO_TEST, snprintf_sscanf_inf_nan) {
CheckInfNan(snprintf, sscanf, "%s",
"[%a]", "[%+a]",
"[-inf]", "[inf]", "[+inf]",
"[-nan]", "[nan]", "[+nan]");
CheckInfNan(snprintf, sscanf, "%s",
"[%A]", "[%+A]",
"[-INF]", "[INF]", "[+INF]",
"[-NAN]", "[NAN]", "[+NAN]");
CheckInfNan(snprintf, sscanf, "%s",
"[%e]", "[%+e]",
"[-inf]", "[inf]", "[+inf]",
"[-nan]", "[nan]", "[+nan]");
CheckInfNan(snprintf, sscanf, "%s",
"[%E]", "[%+E]",
"[-INF]", "[INF]", "[+INF]",
"[-NAN]", "[NAN]", "[+NAN]");
CheckInfNan(snprintf, sscanf, "%s",
"[%f]", "[%+f]",
"[-inf]", "[inf]", "[+inf]",
"[-nan]", "[nan]", "[+nan]");
CheckInfNan(snprintf, sscanf, "%s",
"[%F]", "[%+F]",
"[-INF]", "[INF]", "[+INF]",
"[-NAN]", "[NAN]", "[+NAN]");
CheckInfNan(snprintf, sscanf, "%s",
"[%g]", "[%+g]",
"[-inf]", "[inf]", "[+inf]",
"[-nan]", "[nan]", "[+nan]");
CheckInfNan(snprintf, sscanf, "%s",
"[%G]", "[%+G]",
"[-INF]", "[INF]", "[+INF]",
"[-NAN]", "[NAN]", "[+NAN]");
}
TEST(STDIO_TEST, swprintf_swscanf_inf_nan) {
CheckInfNan(swprintf, swscanf, L"%s",
L"[%a]", L"[%+a]",
L"[-inf]", L"[inf]", L"[+inf]",
L"[-nan]", L"[nan]", L"[+nan]");
CheckInfNan(swprintf, swscanf, L"%s",
L"[%A]", L"[%+A]",
L"[-INF]", L"[INF]", L"[+INF]",
L"[-NAN]", L"[NAN]", L"[+NAN]");
CheckInfNan(swprintf, swscanf, L"%s",
L"[%e]", L"[%+e]",
L"[-inf]", L"[inf]", L"[+inf]",
L"[-nan]", L"[nan]", L"[+nan]");
CheckInfNan(swprintf, swscanf, L"%s",
L"[%E]", L"[%+E]",
L"[-INF]", L"[INF]", L"[+INF]",
L"[-NAN]", L"[NAN]", L"[+NAN]");
CheckInfNan(swprintf, swscanf, L"%s",
L"[%f]", L"[%+f]",
L"[-inf]", L"[inf]", L"[+inf]",
L"[-nan]", L"[nan]", L"[+nan]");
CheckInfNan(swprintf, swscanf, L"%s",
L"[%F]", L"[%+F]",
L"[-INF]", L"[INF]", L"[+INF]",
L"[-NAN]", L"[NAN]", L"[+NAN]");
CheckInfNan(swprintf, swscanf, L"%s",
L"[%g]", L"[%+g]",
L"[-inf]", L"[inf]", L"[+inf]",
L"[-nan]", L"[nan]", L"[+nan]");
CheckInfNan(swprintf, swscanf, L"%s",
L"[%G]", L"[%+G]",
L"[-INF]", L"[INF]", L"[+INF]",
L"[-NAN]", L"[NAN]", L"[+NAN]");
}
TEST(STDIO_TEST, snprintf_jd_INTMAX_MAX) {
EXPECT_SNPRINTF("9223372036854775807", "%jd", INTMAX_MAX);
}
TEST(STDIO_TEST, swprintf_jd_INTMAX_MAX) {
EXPECT_SWPRINTF(L"9223372036854775807", L"%jd", INTMAX_MAX);
}
TEST(STDIO_TEST, snprintf_jd_INTMAX_MIN) {
EXPECT_SNPRINTF("-9223372036854775808", "%jd", INTMAX_MIN);
}
TEST(STDIO_TEST, swprintf_jd_INTMAX_MIN) {
EXPECT_SWPRINTF(L"-9223372036854775808", L"%jd", INTMAX_MIN);
}
TEST(STDIO_TEST, snprintf_ju_UINTMAX_MAX) {
EXPECT_SNPRINTF("18446744073709551615", "%ju", UINTMAX_MAX);
}
TEST(STDIO_TEST, swprintf_ju_UINTMAX_MAX) {
EXPECT_SWPRINTF(L"18446744073709551615", L"%ju", UINTMAX_MAX);
}
TEST(STDIO_TEST, snprintf_1$ju_UINTMAX_MAX) {
EXPECT_SNPRINTF("18446744073709551615", "%1$ju", UINTMAX_MAX);
}
TEST(STDIO_TEST, swprintf_1$ju_UINTMAX_MAX) {
EXPECT_SWPRINTF(L"18446744073709551615", L"%1$ju", UINTMAX_MAX);
}
TEST(STDIO_TEST, snprintf_d_INT_MAX) {
EXPECT_SNPRINTF("2147483647", "%d", INT_MAX);
}
TEST(STDIO_TEST, swprintf_d_INT_MAX) {
EXPECT_SWPRINTF(L"2147483647", L"%d", INT_MAX);
}
TEST(STDIO_TEST, snprintf_d_INT_MIN) {
EXPECT_SNPRINTF("-2147483648", "%d", INT_MIN);
}
TEST(STDIO_TEST, swprintf_d_INT_MIN) {
EXPECT_SWPRINTF(L"-2147483648", L"%d", INT_MIN);
}
TEST(STDIO_TEST, snprintf_ld_LONG_MAX) {
#if defined(__LP64__)
EXPECT_SNPRINTF("9223372036854775807", "%ld", LONG_MAX);
#else
EXPECT_SNPRINTF("2147483647", "%ld", LONG_MAX);
#endif
}
TEST(STDIO_TEST, swprintf_ld_LONG_MAX) {
#if defined(__LP64__)
EXPECT_SWPRINTF(L"9223372036854775807", L"%ld", LONG_MAX);
#else
EXPECT_SWPRINTF(L"2147483647", L"%ld", LONG_MAX);
#endif
}
TEST(STDIO_TEST, snprintf_ld_LONG_MIN) {
#if defined(__LP64__)
EXPECT_SNPRINTF("-9223372036854775808", "%ld", LONG_MIN);
#else
EXPECT_SNPRINTF("-2147483648", "%ld", LONG_MIN);
#endif
}
TEST(STDIO_TEST, swprintf_ld_LONG_MIN) {
#if defined(__LP64__)
EXPECT_SWPRINTF(L"-9223372036854775808", L"%ld", LONG_MIN);
#else
EXPECT_SWPRINTF(L"-2147483648", L"%ld", LONG_MIN);
#endif
}
TEST(STDIO_TEST, snprintf_lld_LLONG_MAX) {
EXPECT_SNPRINTF("9223372036854775807", "%lld", LLONG_MAX);
}
TEST(STDIO_TEST, swprintf_lld_LLONG_MAX) {
EXPECT_SWPRINTF(L"9223372036854775807", L"%lld", LLONG_MAX);
}
TEST(STDIO_TEST, snprintf_lld_LLONG_MIN) {
EXPECT_SNPRINTF("-9223372036854775808", "%lld", LLONG_MIN);
}
TEST(STDIO_TEST, swprintf_lld_LLONG_MIN) {
EXPECT_SWPRINTF(L"-9223372036854775808", L"%lld", LLONG_MIN);
}
TEST(STDIO_TEST, snprintf_o_UINT_MAX) {
EXPECT_SNPRINTF("37777777777", "%o", UINT_MAX);
}
TEST(STDIO_TEST, swprintf_o_UINT_MAX) {
EXPECT_SWPRINTF(L"37777777777", L"%o", UINT_MAX);
}
TEST(STDIO_TEST, snprintf_u_UINT_MAX) {
EXPECT_SNPRINTF("4294967295", "%u", UINT_MAX);
}
TEST(STDIO_TEST, swprintf_u_UINT_MAX) {
EXPECT_SWPRINTF(L"4294967295", L"%u", UINT_MAX);
}
TEST(STDIO_TEST, snprintf_x_UINT_MAX) {
EXPECT_SNPRINTF("ffffffff", "%x", UINT_MAX);
}
TEST(STDIO_TEST, swprintf_x_UINT_MAX) {
EXPECT_SWPRINTF(L"ffffffff", L"%x", UINT_MAX);
}
TEST(STDIO_TEST, snprintf_X_UINT_MAX) {
EXPECT_SNPRINTF("FFFFFFFF", "%X", UINT_MAX);
}
TEST(STDIO_TEST, swprintf_X_UINT_MAX) {
EXPECT_SWPRINTF(L"FFFFFFFF", L"%X", UINT_MAX);
}
TEST(STDIO_TEST, snprintf_e) {
EXPECT_SNPRINTF("1.500000e+00", "%e", 1.5);
EXPECT_SNPRINTF("1.500000e+00", "%Le", 1.5L);
}
TEST(STDIO_TEST, swprintf_e) {
EXPECT_SWPRINTF(L"1.500000e+00", L"%e", 1.5);
EXPECT_SWPRINTF(L"1.500000e+00", L"%Le", 1.5L);
}
TEST(STDIO_TEST, snprintf_negative_zero_5084292) {
EXPECT_SNPRINTF("-0.000000e+00", "%e", -0.0);
EXPECT_SNPRINTF("-0.000000E+00", "%E", -0.0);
EXPECT_SNPRINTF("-0.000000", "%f", -0.0);
EXPECT_SNPRINTF("-0.000000", "%F", -0.0);
EXPECT_SNPRINTF("-0", "%g", -0.0);
EXPECT_SNPRINTF("-0", "%G", -0.0);
EXPECT_SNPRINTF("-0x0p+0", "%a", -0.0);
EXPECT_SNPRINTF("-0X0P+0", "%A", -0.0);
}
TEST(STDIO_TEST, swprintf_negative_zero_5084292) {
EXPECT_SWPRINTF(L"-0.000000e+00", L"%e", -0.0);
EXPECT_SWPRINTF(L"-0.000000E+00", L"%E", -0.0);
EXPECT_SWPRINTF(L"-0.000000", L"%f", -0.0);
EXPECT_SWPRINTF(L"-0.000000", L"%F", -0.0);
EXPECT_SWPRINTF(L"-0", L"%g", -0.0);
EXPECT_SWPRINTF(L"-0", L"%G", -0.0);
EXPECT_SWPRINTF(L"-0x0p+0", L"%a", -0.0);
EXPECT_SWPRINTF(L"-0X0P+0", L"%A", -0.0);
}
TEST(STDIO_TEST, snprintf_utf8_15439554) {
locale_t cloc = newlocale(LC_ALL, "C.UTF-8", nullptr);
locale_t old_locale = uselocale(cloc);
// http://b/15439554
char buf[BUFSIZ];
// 1-byte character.
snprintf(buf, sizeof(buf), "%dx%d", 1, 2);
EXPECT_STREQ("1x2", buf);
// 2-byte character.
snprintf(buf, sizeof(buf), "%d\xc2\xa2%d", 1, 2);
EXPECT_STREQ("1¢2", buf);
// 3-byte character.
snprintf(buf, sizeof(buf), "%d\xe2\x82\xac%d", 1, 2);
EXPECT_STREQ("1€2", buf);
// 4-byte character.
snprintf(buf, sizeof(buf), "%d\xf0\xa4\xad\xa2%d", 1, 2);
EXPECT_STREQ("1𤭢2", buf);
uselocale(old_locale);
freelocale(cloc);
}
static void* snprintf_small_stack_fn(void*) {
// Make life (realistically) hard for ourselves by allocating our own buffer for the result.
char buf[PATH_MAX];
snprintf(buf, sizeof(buf), "/proc/%d", getpid());
return nullptr;
}
TEST(STDIO_TEST, snprintf_small_stack) {
// Is it safe to call snprintf on a thread with a small stack?
// (The snprintf implementation puts some pretty large buffers on the stack.)
pthread_attr_t a;
ASSERT_EQ(0, pthread_attr_init(&a));
ASSERT_EQ(0, pthread_attr_setstacksize(&a, PTHREAD_STACK_MIN));
pthread_t t;
ASSERT_EQ(0, pthread_create(&t, &a, snprintf_small_stack_fn, nullptr));
ASSERT_EQ(0, pthread_join(t, nullptr));
}
TEST(STDIO_TEST, snprintf_asterisk_overflow) {
char buf[128];
ASSERT_EQ(5, snprintf(buf, sizeof(buf), "%.*s%c", 4, "hello world", '!'));
ASSERT_EQ(12, snprintf(buf, sizeof(buf), "%.*s%c", INT_MAX/2, "hello world", '!'));
ASSERT_EQ(12, snprintf(buf, sizeof(buf), "%.*s%c", INT_MAX-1, "hello world", '!'));
ASSERT_EQ(12, snprintf(buf, sizeof(buf), "%.*s%c", INT_MAX, "hello world", '!'));
ASSERT_EQ(12, snprintf(buf, sizeof(buf), "%.*s%c", -1, "hello world", '!'));
// INT_MAX-1, INT_MAX, INT_MAX+1.
ASSERT_EQ(12, snprintf(buf, sizeof(buf), "%.2147483646s%c", "hello world", '!'));
ASSERT_EQ(12, snprintf(buf, sizeof(buf), "%.2147483647s%c", "hello world", '!'));
ASSERT_EQ(-1, snprintf(buf, sizeof(buf), "%.2147483648s%c", "hello world", '!'));
ASSERT_ERRNO(ENOMEM);
}
TEST(STDIO_TEST, swprintf_asterisk_overflow) {
wchar_t buf[128];
ASSERT_EQ(5, swprintf(buf, sizeof(buf), L"%.*s%c", 4, "hello world", '!'));
ASSERT_EQ(12, swprintf(buf, sizeof(buf), L"%.*s%c", INT_MAX / 2, "hello world", '!'));
ASSERT_EQ(12, swprintf(buf, sizeof(buf), L"%.*s%c", INT_MAX - 1, "hello world", '!'));
ASSERT_EQ(12, swprintf(buf, sizeof(buf), L"%.*s%c", INT_MAX, "hello world", '!'));
ASSERT_EQ(12, swprintf(buf, sizeof(buf), L"%.*s%c", -1, "hello world", '!'));
// INT_MAX-1, INT_MAX, INT_MAX+1.
ASSERT_EQ(12, swprintf(buf, sizeof(buf), L"%.2147483646s%c", "hello world", '!'));
ASSERT_EQ(12, swprintf(buf, sizeof(buf), L"%.2147483647s%c", "hello world", '!'));
ASSERT_EQ(-1, swprintf(buf, sizeof(buf), L"%.2147483648s%c", "hello world", '!'));
ASSERT_ERRNO(ENOMEM);
}
// Inspired by https://github.com/landley/toybox/issues/163.
TEST(STDIO_TEST, printf_NULL) {
char* null = nullptr;
EXPECT_SNPRINTF("<(n>", "<%*.*s>", 2, 2, null);
EXPECT_SNPRINTF("<(null)>", "<%*.*s>", 2, 8, null);
EXPECT_SNPRINTF("< (n>", "<%*.*s>", 8, 2, null);
EXPECT_SNPRINTF("< (null)>", "<%*.*s>", 8, 8, null);
}
TEST(STDIO_TEST, wprintf_NULL) {
char* null = nullptr;
EXPECT_SWPRINTF(L"<(n>", L"<%*.*s>", 2, 2, null);
EXPECT_SWPRINTF(L"<(null)>", L"<%*.*s>", 2, 8, null);
EXPECT_SWPRINTF(L"< (n>", L"<%*.*s>", 8, 2, null);
EXPECT_SWPRINTF(L"< (null)>", L"<%*.*s>", 8, 8, null);
}
TEST(STDIO_TEST, fprintf) {
TemporaryFile tf;
FILE* tfile = fdopen(tf.fd, "r+");
ASSERT_TRUE(tfile != nullptr);
ASSERT_EQ(7, fprintf(tfile, "%d %s", 123, "abc"));
AssertFileIs(tfile, "123 abc");
fclose(tfile);
}
TEST(STDIO_TEST, fprintf_failures_7229520) {
// http://b/7229520
FILE* fp;
int fd_rdonly = open("/dev/null", O_RDONLY);
ASSERT_NE(-1, fd_rdonly);
// Unbuffered case where the fprintf(3) itself fails.
ASSERT_NE(nullptr, fp = tmpfile());
setbuf(fp, nullptr);
ASSERT_EQ(4, fprintf(fp, "epic"));
ASSERT_NE(-1, dup2(fd_rdonly, fileno(fp)));
ASSERT_EQ(-1, fprintf(fp, "fail"));
ASSERT_EQ(0, fclose(fp));
// Buffered case where we won't notice until the fclose(3).
// It's likely this is what was actually seen in http://b/7229520,
// and that expecting fprintf to fail is setting yourself up for
// disappointment. Remember to check fclose(3)'s return value, kids!
ASSERT_NE(nullptr, fp = tmpfile());
ASSERT_EQ(4, fprintf(fp, "epic"));
ASSERT_NE(-1, dup2(fd_rdonly, fileno(fp)));
ASSERT_EQ(4, fprintf(fp, "fail"));
ASSERT_EQ(-1, fclose(fp));
}
TEST(STDIO_TEST, popen_r) {
FILE* fp = popen("cat /proc/version", "r");
ASSERT_TRUE(fp != nullptr);
char buf[16];
char* s = fgets(buf, sizeof(buf), fp);
buf[13] = '\0';
ASSERT_STREQ("Linux version", s);
ASSERT_EQ(0, pclose(fp));
}
TEST(STDIO_TEST, popen_socketpair) {
FILE* fp = popen("cat", "r+");
ASSERT_TRUE(fp != nullptr);
fputs("hello\nworld\n", fp);
fflush(fp);
char buf[16];
ASSERT_NE(nullptr, fgets(buf, sizeof(buf), fp));
EXPECT_STREQ("hello\n", buf);
ASSERT_NE(nullptr, fgets(buf, sizeof(buf), fp));
EXPECT_STREQ("world\n", buf);
ASSERT_EQ(0, pclose(fp));
}
TEST(STDIO_TEST, popen_socketpair_shutdown) {
FILE* fp = popen("uniq -c", "r+");
ASSERT_TRUE(fp != nullptr);
fputs("a\na\na\na\nb\n", fp);
fflush(fp);
ASSERT_EQ(0, shutdown(fileno(fp), SHUT_WR));
char buf[16];
ASSERT_NE(nullptr, fgets(buf, sizeof(buf), fp));
EXPECT_STREQ(" 4 a\n", buf);
ASSERT_NE(nullptr, fgets(buf, sizeof(buf), fp));
EXPECT_STREQ(" 1 b\n", buf);
ASSERT_EQ(0, pclose(fp));
}
TEST(STDIO_TEST, popen_return_value_0) {
FILE* fp = popen("true", "r");
ASSERT_TRUE(fp != nullptr);
int status = pclose(fp);
EXPECT_TRUE(WIFEXITED(status));
EXPECT_EQ(0, WEXITSTATUS(status));
}
TEST(STDIO_TEST, popen_return_value_1) {
FILE* fp = popen("false", "r");
ASSERT_TRUE(fp != nullptr);
int status = pclose(fp);
EXPECT_TRUE(WIFEXITED(status));
EXPECT_EQ(1, WEXITSTATUS(status));
}
TEST(STDIO_TEST, popen_return_value_signal) {
// Use a realtime signal to avoid creating a tombstone when running.
std::string cmd = android::base::StringPrintf("kill -%d $$", SIGRTMIN);
FILE* fp = popen(cmd.c_str(), "r");
ASSERT_TRUE(fp != nullptr);
int status = pclose(fp);
EXPECT_TRUE(WIFSIGNALED(status));
EXPECT_EQ(SIGRTMIN, WTERMSIG(status));
}
TEST(STDIO_TEST, getc) {
FILE* fp = fopen("/proc/version", "r");
ASSERT_TRUE(fp != nullptr);
ASSERT_EQ('L', getc(fp));
ASSERT_EQ('i', getc(fp));
ASSERT_EQ('n', getc(fp));
ASSERT_EQ('u', getc(fp));
ASSERT_EQ('x', getc(fp));
fclose(fp);
}
TEST(STDIO_TEST, putc) {
FILE* fp = fopen("/proc/version", "r");
ASSERT_TRUE(fp != nullptr);
ASSERT_EQ(EOF, putc('x', fp));
fclose(fp);
}
TEST(STDIO_TEST, sscanf_swscanf) {
struct stuff {
char s1[123];
int i1, i2;
char cs1[3];
char s2[3];
char c1;
double d1;
float f1;
char s3[123];
void Check() {
EXPECT_STREQ("hello", s1);
EXPECT_EQ(123, i1);
EXPECT_EQ(456, i2);
EXPECT_EQ('a', cs1[0]);
EXPECT_EQ('b', cs1[1]);
EXPECT_EQ('x', cs1[2]); // No terminating NUL.
EXPECT_STREQ("AB", s2); // Terminating NUL.
EXPECT_EQ('!', c1);
EXPECT_DOUBLE_EQ(1.23, d1);
EXPECT_FLOAT_EQ(9.0f, f1);
EXPECT_STREQ("world", s3);
}
} s;
memset(&s, 'x', sizeof(s));
ASSERT_EQ(9, sscanf(" hello 123 456abAB! 1.23 0x1.2p3 world",
"%s %i%i%2c%[A-Z]%c %lf %f %s",
s.s1, &s.i1, &s.i2, s.cs1, s.s2, &s.c1, &s.d1, &s.f1, s.s3));
s.Check();
memset(&s, 'x', sizeof(s));
ASSERT_EQ(9, swscanf(L" hello 123 456abAB! 1.23 0x1.2p3 world",
L"%s %i%i%2c%[A-Z]%c %lf %f %s",
s.s1, &s.i1, &s.i2, s.cs1, s.s2, &s.c1, &s.d1, &s.f1, s.s3));
s.Check();
}
template <typename T>
static void CheckScanf(int sscanf_fn(const T*, const T*, ...),
const T* input, const T* fmt,
int expected_count, const char* expected_string) {
char buf[256] = {};
ASSERT_EQ(expected_count, sscanf_fn(input, fmt, &buf)) << fmt;
ASSERT_STREQ(expected_string, buf) << fmt;
}
TEST(STDIO_TEST, sscanf_ccl) {
// `abc` is just those characters.
CheckScanf(sscanf, "abcd", "%[abc]", 1, "abc");
// `a-c` is the range 'a' .. 'c'.
CheckScanf(sscanf, "abcd", "%[a-c]", 1, "abc");
CheckScanf(sscanf, "-d", "%[a-c]", 0, "");
CheckScanf(sscanf, "ac-bAd", "%[a--c]", 1, "ac-bA");
// `a-c-e` is equivalent to `a-e`.
CheckScanf(sscanf, "abcdefg", "%[a-c-e]", 1, "abcde");
// `e-a` is equivalent to `ae-` (because 'e' > 'a').
CheckScanf(sscanf, "-a-e-b", "%[e-a]", 1, "-a-e-");
// An initial '^' negates the set.
CheckScanf(sscanf, "abcde", "%[^d]", 1, "abc");
CheckScanf(sscanf, "abcdefgh", "%[^c-d]", 1, "ab");
CheckScanf(sscanf, "hgfedcba", "%[^c-d]", 1, "hgfe");
// The first character may be ']' or '-' without being special.
CheckScanf(sscanf, "[[]]x", "%[][]", 1, "[[]]");
CheckScanf(sscanf, "-a-x", "%[-a]", 1, "-a-");
// The last character may be '-' without being special.
CheckScanf(sscanf, "-a-x", "%[a-]", 1, "-a-");
// X--Y is [X--] + Y, not [X--] + [--Y] (a bug in my initial implementation).
CheckScanf(sscanf, "+,-/.", "%[+--/]", 1, "+,-/");
}
TEST(STDIO_TEST, swscanf_ccl) {
// `abc` is just those characters.
CheckScanf(swscanf, L"abcd", L"%[abc]", 1, "abc");
// `a-c` is the range 'a' .. 'c'.
CheckScanf(swscanf, L"abcd", L"%[a-c]", 1, "abc");
CheckScanf(swscanf, L"-d", L"%[a-c]", 0, "");
CheckScanf(swscanf, L"ac-bAd", L"%[a--c]", 1, "ac-bA");
// `a-c-e` is equivalent to `a-e`.
CheckScanf(swscanf, L"abcdefg", L"%[a-c-e]", 1, "abcde");
// `e-a` is equivalent to `ae-` (because 'e' > 'a').
CheckScanf(swscanf, L"-a-e-b", L"%[e-a]", 1, "-a-e-");
// An initial '^' negates the set.
CheckScanf(swscanf, L"abcde", L"%[^d]", 1, "abc");
CheckScanf(swscanf, L"abcdefgh", L"%[^c-d]", 1, "ab");
CheckScanf(swscanf, L"hgfedcba", L"%[^c-d]", 1, "hgfe");
// The first character may be ']' or '-' without being special.
CheckScanf(swscanf, L"[[]]x", L"%[][]", 1, "[[]]");
CheckScanf(swscanf, L"-a-x", L"%[-a]", 1, "-a-");
// The last character may be '-' without being special.
CheckScanf(swscanf, L"-a-x", L"%[a-]", 1, "-a-");
// X--Y is [X--] + Y, not [X--] + [--Y] (a bug in my initial implementation).
CheckScanf(swscanf, L"+,-/.", L"%[+--/]", 1, "+,-/");
}
template <typename T1, typename T2>
static void CheckScanfM(int sscanf_fn(const T1*, const T1*, ...),
const T1* input, const T1* fmt,
int expected_count, const T2* expected_string) {
T2* result = nullptr;
ASSERT_EQ(expected_count, sscanf_fn(input, fmt, &result)) << fmt;
if (expected_string == nullptr) {
ASSERT_EQ(nullptr, result);
} else {
ASSERT_STREQ(expected_string, result) << fmt;
}
free(result);
}
TEST(STDIO_TEST, sscanf_mc) {
char* p1 = nullptr;
char* p2 = nullptr;
ASSERT_EQ(2, sscanf("hello", "%mc%mc", &p1, &p2));
ASSERT_EQ('h', *p1);
ASSERT_EQ('e', *p2);
free(p1);
free(p2);
p1 = nullptr;
ASSERT_EQ(1, sscanf("hello", "%4mc", &p1));
ASSERT_EQ('h', p1[0]);
ASSERT_EQ('e', p1[1]);
ASSERT_EQ('l', p1[2]);
ASSERT_EQ('l', p1[3]);
free(p1);
p1 = nullptr;
ASSERT_EQ(1, sscanf("hello world", "%30mc", &p1));
ASSERT_EQ('h', p1[0]);
ASSERT_EQ('e', p1[1]);
ASSERT_EQ('l', p1[2]);
ASSERT_EQ('l', p1[3]);
ASSERT_EQ('o', p1[4]);
free(p1);
}
TEST(STDIO_TEST, sscanf_mlc) {
// This is so useless that clang doesn't even believe it exists...
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
#pragma clang diagnostic ignored "-Wformat-extra-args"
wchar_t* p1 = nullptr;
wchar_t* p2 = nullptr;
ASSERT_EQ(2, sscanf("hello", "%mlc%mlc", &p1, &p2));
ASSERT_EQ(L'h', *p1);
ASSERT_EQ(L'e', *p2);
free(p1);
free(p2);
p1 = nullptr;
ASSERT_EQ(1, sscanf("hello", "%4mlc", &p1));
ASSERT_EQ(L'h', p1[0]);
ASSERT_EQ(L'e', p1[1]);
ASSERT_EQ(L'l', p1[2]);
ASSERT_EQ(L'l', p1[3]);
free(p1);
p1 = nullptr;
ASSERT_EQ(1, sscanf("hello world", "%30mlc", &p1));
ASSERT_EQ(L'h', p1[0]);
ASSERT_EQ(L'e', p1[1]);
ASSERT_EQ(L'l', p1[2]);
ASSERT_EQ(L'l', p1[3]);
ASSERT_EQ(L'o', p1[4]);
free(p1);
#pragma clang diagnostic pop
}
TEST(STDIO_TEST, sscanf_ms) {
CheckScanfM(sscanf, "hello", "%ms", 1, "hello");
CheckScanfM(sscanf, "hello", "%4ms", 1, "hell");
CheckScanfM(sscanf, "hello world", "%30ms", 1, "hello");
}
TEST(STDIO_TEST, sscanf_mls) {
CheckScanfM(sscanf, "hello", "%mls", 1, L"hello");
CheckScanfM(sscanf, "hello", "%4mls", 1, L"hell");
CheckScanfM(sscanf, "hello world", "%30mls", 1, L"hello");
}
TEST(STDIO_TEST, sscanf_m_ccl) {
CheckScanfM(sscanf, "hello", "%m[a-z]", 1, "hello");
CheckScanfM(sscanf, "hello", "%4m[a-z]", 1, "hell");
CheckScanfM(sscanf, "hello world", "%30m[a-z]", 1, "hello");
}
TEST(STDIO_TEST, sscanf_ml_ccl) {
CheckScanfM(sscanf, "hello", "%ml[a-z]", 1, L"hello");
CheckScanfM(sscanf, "hello", "%4ml[a-z]", 1, L"hell");
CheckScanfM(sscanf, "hello world", "%30ml[a-z]", 1, L"hello");
}
TEST(STDIO_TEST, sscanf_ls) {
wchar_t w[32] = {};
ASSERT_EQ(1, sscanf("hello world", "%ls", w));
ASSERT_EQ(L"hello", std::wstring(w));
}
TEST(STDIO_TEST, sscanf_ls_suppress) {
ASSERT_EQ(0, sscanf("hello world", "%*ls %*ls"));
}
TEST(STDIO_TEST, sscanf_ls_n) {
setlocale(LC_ALL, "C.UTF-8");
wchar_t w[32] = {};
int pos = 0;
ASSERT_EQ(1, sscanf("\xc4\x80", "%ls%n", w, &pos));
ASSERT_EQ(static_cast<wchar_t>(256), w[0]);
ASSERT_EQ(2, pos);
}
TEST(STDIO_TEST, sscanf_ls_realloc) {
// This is so useless that clang doesn't even believe it exists...
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
#pragma clang diagnostic ignored "-Wformat-extra-args"
wchar_t* p1 = nullptr;
wchar_t* p2 = nullptr;
ASSERT_EQ(2, sscanf("1234567890123456789012345678901234567890 world", "%mls %mls", &p1, &p2));
ASSERT_EQ(L"1234567890123456789012345678901234567890", std::wstring(p1));
ASSERT_EQ(L"world", std::wstring(p2));
#pragma clang diagnostic pop
}
// https://bugs.freebsd.org/bugzilla/show_bug.cgi?id=202240
TEST(STDIO_TEST, scanf_wscanf_EOF) {
EXPECT_EQ(0, sscanf("b", "ab"));
EXPECT_EQ(EOF, sscanf("", "a"));
EXPECT_EQ(0, swscanf(L"b", L"ab"));
EXPECT_EQ(EOF, swscanf(L"", L"a"));
}
TEST(STDIO_TEST, scanf_invalid_UTF8) {
#if 0 // TODO: more tests invented during code review; no regressions, so fix later.
char buf[BUFSIZ];
wchar_t wbuf[BUFSIZ];
memset(buf, 0, sizeof(buf));
memset(wbuf, 0, sizeof(wbuf));
EXPECT_EQ(0, sscanf("\xc0" " foo", "%ls %s", wbuf, buf));
#endif
}
TEST(STDIO_TEST, scanf_no_match_no_termination) {
char buf[4] = "x";
EXPECT_EQ(0, sscanf("d", "%[abc]", buf));
EXPECT_EQ('x', buf[0]);
EXPECT_EQ(0, swscanf(L"d", L"%[abc]", buf));
EXPECT_EQ('x', buf[0]);
wchar_t wbuf[4] = L"x";
EXPECT_EQ(0, swscanf(L"d", L"%l[abc]", wbuf));
EXPECT_EQ(L'x', wbuf[0]);
EXPECT_EQ(EOF, sscanf("", "%s", buf));
EXPECT_EQ('x', buf[0]);
EXPECT_EQ(EOF, swscanf(L"", L"%ls", wbuf));
EXPECT_EQ(L'x', wbuf[0]);
}
TEST(STDIO_TEST, scanf_wscanf_wide_character_class) {
#if 0 // TODO: more tests invented during code review; no regressions, so fix later.
wchar_t buf[BUFSIZ];
// A wide character shouldn't match an ASCII-only class for scanf or wscanf.
memset(buf, 0, sizeof(buf));
EXPECT_EQ(1, sscanf("xĀyz", "%l[xy]", buf));
EXPECT_EQ(L"x"s, std::wstring(buf));
memset(buf, 0, sizeof(buf));
EXPECT_EQ(1, swscanf(L"xĀyz", L"%l[xy]", buf));
EXPECT_EQ(L"x"s, std::wstring(buf));
// Even if scanf has wide characters in a class, they won't match...
// TODO: is that a bug?
memset(buf, 0, sizeof(buf));
EXPECT_EQ(1, sscanf("xĀyz", "%l[xĀy]", buf));
EXPECT_EQ(L"x"s, std::wstring(buf));
// ...unless you use wscanf.
memset(buf, 0, sizeof(buf));
EXPECT_EQ(1, swscanf(L"xĀyz", L"%l[xĀy]", buf));
EXPECT_EQ(L"xĀy"s, std::wstring(buf));
// Negation only covers ASCII for scanf...
memset(buf, 0, sizeof(buf));
EXPECT_EQ(1, sscanf("xĀyz", "%l[^ab]", buf));
EXPECT_EQ(L"x"s, std::wstring(buf));
// ...but covers wide characters for wscanf.
memset(buf, 0, sizeof(buf));
EXPECT_EQ(1, swscanf(L"xĀyz", L"%l[^ab]", buf));
EXPECT_EQ(L"xĀyz"s, std::wstring(buf));
// We already determined that non-ASCII characters are ignored in scanf classes.
memset(buf, 0, sizeof(buf));
EXPECT_EQ(1, sscanf("x"
"\xc4\x80" // Matches a byte from each wide char in the class.
"\xc6\x82" // Neither byte is in the class.
"yz",
"%l[xy" "\xc5\x80" "\xc4\x81" "]", buf));
EXPECT_EQ(L"x", std::wstring(buf));
// bionic and glibc both behave badly for wscanf, so let's call it right for now...
memset(buf, 0, sizeof(buf));
EXPECT_EQ(1, swscanf(L"x"
L"\xc4\x80"
L"\xc6\x82"
L"yz",
L"%l[xy" L"\xc5\x80" L"\xc4\x81" L"]", buf));
// Note that this isn't L"xĀ" --- although the *bytes* matched, they're
// not put back together as a wide character.
EXPECT_EQ(L"x" L"\xc4" L"\x80", std::wstring(buf));
#endif
}
TEST(STDIO_TEST, cantwrite_EBADF) {
// If we open a file read-only...
FILE* fp = fopen("/proc/version", "r");
// ...all attempts to write to that file should return failure.
// They should also set errno to EBADF. This isn't POSIX, but it's traditional.
// glibc gets the wide-character functions wrong.
errno = 0;
EXPECT_EQ(EOF, putc('x', fp));
EXPECT_ERRNO(EBADF);
errno = 0;
EXPECT_EQ(EOF, fprintf(fp, "hello"));
EXPECT_ERRNO(EBADF);
errno = 0;
EXPECT_EQ(EOF, fwprintf(fp, L"hello"));
#if defined(__BIONIC__)
EXPECT_ERRNO(EBADF);
#endif
errno = 0;
EXPECT_EQ(0U, fwrite("hello", 1, 2, fp));
EXPECT_ERRNO(EBADF);
errno = 0;
EXPECT_EQ(EOF, fputs("hello", fp));
EXPECT_ERRNO(EBADF);
errno = 0;
EXPECT_EQ(WEOF, fputwc(L'x', fp));
#if defined(__BIONIC__)
EXPECT_ERRNO(EBADF);
#endif
}
// Tests that we can only have a consistent and correct fpos_t when using
// f*pos functions (i.e. fpos doesn't get inside a multi byte character).
TEST(STDIO_TEST, consistent_fpos_t) {
ASSERT_STREQ("C.UTF-8", setlocale(LC_CTYPE, "C.UTF-8"));
uselocale(LC_GLOBAL_LOCALE);
FILE* fp = tmpfile();
ASSERT_TRUE(fp != nullptr);
wchar_t mb_one_bytes = L'h';
wchar_t mb_two_bytes = 0x00a2;
wchar_t mb_three_bytes = 0x20ac;
wchar_t mb_four_bytes = 0x24b62;
// Write to file.
ASSERT_EQ(mb_one_bytes, static_cast<wchar_t>(fputwc(mb_one_bytes, fp)));
ASSERT_EQ(mb_two_bytes, static_cast<wchar_t>(fputwc(mb_two_bytes, fp)));
ASSERT_EQ(mb_three_bytes, static_cast<wchar_t>(fputwc(mb_three_bytes, fp)));
ASSERT_EQ(mb_four_bytes, static_cast<wchar_t>(fputwc(mb_four_bytes, fp)));
rewind(fp);
// Record each character position.
fpos_t pos1;
fpos_t pos2;
fpos_t pos3;
fpos_t pos4;
fpos_t pos5;
EXPECT_EQ(0, fgetpos(fp, &pos1));
ASSERT_EQ(mb_one_bytes, static_cast<wchar_t>(fgetwc(fp)));
EXPECT_EQ(0, fgetpos(fp, &pos2));
ASSERT_EQ(mb_two_bytes, static_cast<wchar_t>(fgetwc(fp)));
EXPECT_EQ(0, fgetpos(fp, &pos3));
ASSERT_EQ(mb_three_bytes, static_cast<wchar_t>(fgetwc(fp)));
EXPECT_EQ(0, fgetpos(fp, &pos4));
ASSERT_EQ(mb_four_bytes, static_cast<wchar_t>(fgetwc(fp)));
EXPECT_EQ(0, fgetpos(fp, &pos5));
#if defined(__BIONIC__)
// Bionic's fpos_t is just an alias for off_t. This is inherited from OpenBSD
// upstream. Glibc differs by storing the mbstate_t inside its fpos_t. In
// Bionic (and upstream OpenBSD) the mbstate_t is stored inside the FILE
// structure.
ASSERT_EQ(0, static_cast<off_t>(pos1));
ASSERT_EQ(1, static_cast<off_t>(pos2));
ASSERT_EQ(3, static_cast<off_t>(pos3));
ASSERT_EQ(6, static_cast<off_t>(pos4));
ASSERT_EQ(10, static_cast<off_t>(pos5));
#endif
// Exercise back and forth movements of the position.
ASSERT_EQ(0, fsetpos(fp, &pos2));
ASSERT_EQ(mb_two_bytes, static_cast<wchar_t>(fgetwc(fp)));
ASSERT_EQ(0, fsetpos(fp, &pos1));
ASSERT_EQ(mb_one_bytes, static_cast<wchar_t>(fgetwc(fp)));
ASSERT_EQ(0, fsetpos(fp, &pos4));
ASSERT_EQ(mb_four_bytes, static_cast<wchar_t>(fgetwc(fp)));
ASSERT_EQ(0, fsetpos(fp, &pos3));
ASSERT_EQ(mb_three_bytes, static_cast<wchar_t>(fgetwc(fp)));
ASSERT_EQ(0, fsetpos(fp, &pos5));
ASSERT_EQ(WEOF, fgetwc(fp));
fclose(fp);
}
// Exercise the interaction between fpos and seek.
TEST(STDIO_TEST, fpos_t_and_seek) {
ASSERT_STREQ("C.UTF-8", setlocale(LC_CTYPE, "C.UTF-8"));
uselocale(LC_GLOBAL_LOCALE);
// In glibc-2.16 fseek doesn't work properly in wide mode
// (https://sourceware.org/bugzilla/show_bug.cgi?id=14543). One workaround is
// to close and re-open the file. We do it in order to make the test pass
// with all glibcs.
TemporaryFile tf;
FILE* fp = fdopen(tf.fd, "w+");
ASSERT_TRUE(fp != nullptr);
wchar_t mb_two_bytes = 0x00a2;
wchar_t mb_three_bytes = 0x20ac;
wchar_t mb_four_bytes = 0x24b62;
// Write to file.
ASSERT_EQ(mb_two_bytes, static_cast<wchar_t>(fputwc(mb_two_bytes, fp)));
ASSERT_EQ(mb_three_bytes, static_cast<wchar_t>(fputwc(mb_three_bytes, fp)));
ASSERT_EQ(mb_four_bytes, static_cast<wchar_t>(fputwc(mb_four_bytes, fp)));
fflush(fp);
fclose(fp);
fp = fopen(tf.path, "r");
ASSERT_TRUE(fp != nullptr);
// Store a valid position.
fpos_t mb_two_bytes_pos;
ASSERT_EQ(0, fgetpos(fp, &mb_two_bytes_pos));
// Move inside mb_four_bytes with fseek.
long offset_inside_mb = 6;
ASSERT_EQ(0, fseek(fp, offset_inside_mb, SEEK_SET));
// Store the "inside multi byte" position.
fpos_t pos_inside_mb;
ASSERT_EQ(0, fgetpos(fp, &pos_inside_mb));
#if defined(__BIONIC__)
ASSERT_EQ(offset_inside_mb, static_cast<off_t>(pos_inside_mb));
#endif
// Reading from within a byte should produce an error.
ASSERT_EQ(WEOF, fgetwc(fp));
ASSERT_ERRNO(EILSEQ);
// Reverting to a valid position should work.
ASSERT_EQ(0, fsetpos(fp, &mb_two_bytes_pos));
ASSERT_EQ(mb_two_bytes, static_cast<wchar_t>(fgetwc(fp)));
// Moving withing a multi byte with fsetpos should work but reading should
// produce an error.
ASSERT_EQ(0, fsetpos(fp, &pos_inside_mb));
ASSERT_EQ(WEOF, fgetwc(fp));
ASSERT_ERRNO(EILSEQ);
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen) {
char buf[16];
memset(buf, 0, sizeof(buf));
FILE* fp = fmemopen(buf, sizeof(buf), "r+");
ASSERT_EQ('<', fputc('<', fp));
ASSERT_NE(EOF, fputs("abc>\n", fp));
fflush(fp);
// We wrote to the buffer...
ASSERT_STREQ("<abc>\n", buf);
// And can read back from the file.
AssertFileIs(fp, "<abc>\n", true);
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_nullptr) {
FILE* fp = fmemopen(nullptr, 128, "r+");
ASSERT_NE(EOF, fputs("xyz\n", fp));
AssertFileIs(fp, "xyz\n", true);
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_trailing_NUL_byte) {
FILE* fp;
char buf[8];
// POSIX: "When a stream open for writing is flushed or closed, a null byte
// shall be written at the current position or at the end of the buffer,
// depending on the size of the contents."
memset(buf, 'x', sizeof(buf));
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "w"));
// Even with nothing written (and not in truncate mode), we'll flush a NUL...
ASSERT_EQ(0, fflush(fp));
EXPECT_EQ("\0xxxxxxx"s, std::string(buf, buf + sizeof(buf)));
// Now write and check that the NUL moves along with our writes...
ASSERT_NE(EOF, fputs("hello", fp));
ASSERT_EQ(0, fflush(fp));
EXPECT_EQ("hello\0xx"s, std::string(buf, buf + sizeof(buf)));
ASSERT_NE(EOF, fputs("wo", fp));
ASSERT_EQ(0, fflush(fp));
EXPECT_EQ("hellowo\0"s, std::string(buf, buf + sizeof(buf)));
ASSERT_EQ(0, fclose(fp));
// "If a stream open for update is flushed or closed and the last write has
// advanced the current buffer size, a null byte shall be written at the end
// of the buffer if it fits."
memset(buf, 'x', sizeof(buf));
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "r+"));
// Nothing written yet, so no advance...
ASSERT_EQ(0, fflush(fp));
EXPECT_EQ("xxxxxxxx"s, std::string(buf, buf + sizeof(buf)));
ASSERT_NE(EOF, fputs("hello", fp));
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_size) {
FILE* fp;
char buf[16];
memset(buf, 'x', sizeof(buf));
// POSIX: "The stream shall also maintain the size of the current buffer
// contents; use of fseek() or fseeko() on the stream with SEEK_END shall
// seek relative to this size."
// "For modes r and r+ the size shall be set to the value given by the size
// argument."
ASSERT_NE(nullptr, fp = fmemopen(buf, 16, "r"));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(16, ftell(fp));
EXPECT_EQ(16, ftello(fp));
ASSERT_EQ(0, fseeko(fp, 0, SEEK_END));
EXPECT_EQ(16, ftell(fp));
EXPECT_EQ(16, ftello(fp));
ASSERT_EQ(0, fclose(fp));
ASSERT_NE(nullptr, fp = fmemopen(buf, 16, "r+"));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(16, ftell(fp));
EXPECT_EQ(16, ftello(fp));
ASSERT_EQ(0, fseeko(fp, 0, SEEK_END));
EXPECT_EQ(16, ftell(fp));
EXPECT_EQ(16, ftello(fp));
ASSERT_EQ(0, fclose(fp));
// "For modes w and w+ the initial size shall be zero..."
ASSERT_NE(nullptr, fp = fmemopen(nullptr, 16, "w"));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(0, ftell(fp));
EXPECT_EQ(0, ftello(fp));
ASSERT_EQ(0, fseeko(fp, 0, SEEK_END));
EXPECT_EQ(0, ftell(fp));
EXPECT_EQ(0, ftello(fp));
ASSERT_EQ(0, fclose(fp));
ASSERT_NE(nullptr, fp = fmemopen(nullptr, 16, "w+"));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(0, ftell(fp));
EXPECT_EQ(0, ftello(fp));
ASSERT_EQ(0, fseeko(fp, 0, SEEK_END));
EXPECT_EQ(0, ftell(fp));
EXPECT_EQ(0, ftello(fp));
ASSERT_EQ(0, fclose(fp));
// "...and for modes a and a+ the initial size shall be:
// 1. Zero, if buf is a null pointer
ASSERT_NE(nullptr, fp = fmemopen(nullptr, 16, "a"));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(0, ftell(fp));
EXPECT_EQ(0, ftello(fp));
ASSERT_EQ(0, fseeko(fp, 0, SEEK_END));
EXPECT_EQ(0, ftell(fp));
EXPECT_EQ(0, ftello(fp));
ASSERT_EQ(0, fclose(fp));
ASSERT_NE(nullptr, fp = fmemopen(nullptr, 16, "a+"));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(0, ftell(fp));
EXPECT_EQ(0, ftello(fp));
ASSERT_EQ(0, fseeko(fp, 0, SEEK_END));
EXPECT_EQ(0, ftell(fp));
EXPECT_EQ(0, ftello(fp));
ASSERT_EQ(0, fclose(fp));
// 2. The position of the first null byte in the buffer, if one is found
memset(buf, 'x', sizeof(buf));
buf[3] = '\0';
ASSERT_NE(nullptr, fp = fmemopen(buf, 16, "a"));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(3, ftell(fp));
EXPECT_EQ(3, ftello(fp));
ASSERT_EQ(0, fseeko(fp, 0, SEEK_END));
EXPECT_EQ(3, ftell(fp));
EXPECT_EQ(3, ftello(fp));
ASSERT_EQ(0, fclose(fp));
memset(buf, 'x', sizeof(buf));
buf[3] = '\0';
ASSERT_NE(nullptr, fp = fmemopen(buf, 16, "a+"));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(3, ftell(fp));
EXPECT_EQ(3, ftello(fp));
ASSERT_EQ(0, fseeko(fp, 0, SEEK_END));
EXPECT_EQ(3, ftell(fp));
EXPECT_EQ(3, ftello(fp));
ASSERT_EQ(0, fclose(fp));
// 3. The value of the size argument, if buf is not a null pointer and no
// null byte is found.
memset(buf, 'x', sizeof(buf));
ASSERT_NE(nullptr, fp = fmemopen(buf, 16, "a"));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(16, ftell(fp));
EXPECT_EQ(16, ftello(fp));
ASSERT_EQ(0, fseeko(fp, 0, SEEK_END));
EXPECT_EQ(16, ftell(fp));
EXPECT_EQ(16, ftello(fp));
ASSERT_EQ(0, fclose(fp));
memset(buf, 'x', sizeof(buf));
ASSERT_NE(nullptr, fp = fmemopen(buf, 16, "a+"));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(16, ftell(fp));
EXPECT_EQ(16, ftello(fp));
ASSERT_EQ(0, fseeko(fp, 0, SEEK_END));
EXPECT_EQ(16, ftell(fp));
EXPECT_EQ(16, ftello(fp));
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_SEEK_END) {
// fseek SEEK_END is relative to the current string length, not the buffer size.
FILE* fp;
char buf[8];
memset(buf, 'x', sizeof(buf));
strcpy(buf, "str");
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "w+"));
ASSERT_NE(EOF, fputs("string", fp));
EXPECT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(static_cast<long>(strlen("string")), ftell(fp));
EXPECT_EQ(static_cast<off_t>(strlen("string")), ftello(fp));
EXPECT_EQ(0, fclose(fp));
// glibc < 2.22 interpreted SEEK_END the wrong way round (subtracting rather
// than adding).
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "w+"));
ASSERT_NE(EOF, fputs("54321", fp));
EXPECT_EQ(0, fseek(fp, -2, SEEK_END));
EXPECT_EQ('2', fgetc(fp));
EXPECT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_seek_invalid) {
char buf[8];
memset(buf, 'x', sizeof(buf));
FILE* fp = fmemopen(buf, sizeof(buf), "w");
ASSERT_TRUE(fp != nullptr);
// POSIX: "An attempt to seek ... to a negative position or to a position
// larger than the buffer size given in the size argument shall fail."
// (There's no mention of what errno should be set to, and glibc doesn't
// set errno in any of these cases.)
EXPECT_EQ(-1, fseek(fp, -2, SEEK_SET));
EXPECT_EQ(-1, fseeko(fp, -2, SEEK_SET));
EXPECT_EQ(-1, fseek(fp, sizeof(buf) + 1, SEEK_SET));
EXPECT_EQ(-1, fseeko(fp, sizeof(buf) + 1, SEEK_SET));
}
TEST(STDIO_TEST, fmemopen_read_EOF) {
// POSIX: "A read operation on the stream shall not advance the current
// buffer position beyond the current buffer size."
char buf[8];
memset(buf, 'x', sizeof(buf));
FILE* fp = fmemopen(buf, sizeof(buf), "r");
ASSERT_TRUE(fp != nullptr);
char buf2[BUFSIZ];
ASSERT_EQ(8U, fread(buf2, 1, sizeof(buf2), fp));
// POSIX: "Reaching the buffer size in a read operation shall count as
// end-of-file.
ASSERT_TRUE(feof(fp));
ASSERT_EQ(EOF, fgetc(fp));
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_read_null_bytes) {
// POSIX: "Null bytes in the buffer shall have no special meaning for reads."
char buf[] = "h\0e\0l\0l\0o";
FILE* fp = fmemopen(buf, sizeof(buf), "r");
ASSERT_TRUE(fp != nullptr);
ASSERT_EQ('h', fgetc(fp));
ASSERT_EQ(0, fgetc(fp));
ASSERT_EQ('e', fgetc(fp));
ASSERT_EQ(0, fgetc(fp));
ASSERT_EQ('l', fgetc(fp));
ASSERT_EQ(0, fgetc(fp));
// POSIX: "The read operation shall start at the current buffer position of
// the stream."
char buf2[8];
memset(buf2, 'x', sizeof(buf2));
ASSERT_EQ(4U, fread(buf2, 1, sizeof(buf2), fp));
ASSERT_EQ('l', buf2[0]);
ASSERT_EQ(0, buf2[1]);
ASSERT_EQ('o', buf2[2]);
ASSERT_EQ(0, buf2[3]);
for (size_t i = 4; i < sizeof(buf2); ++i) ASSERT_EQ('x', buf2[i]) << i;
ASSERT_TRUE(feof(fp));
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_write) {
FILE* fp;
char buf[8];
// POSIX: "A write operation shall start either at the current position of
// the stream (if mode has not specified 'a' as the first character)..."
memset(buf, 'x', sizeof(buf));
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "r+"));
setbuf(fp, nullptr); // Turn off buffering so we can see what's happening as it happens.
ASSERT_EQ(0, fseek(fp, 2, SEEK_SET));
ASSERT_EQ(' ', fputc(' ', fp));
EXPECT_EQ("xx xxxxx", std::string(buf, buf + sizeof(buf)));
ASSERT_EQ(0, fclose(fp));
// "...or at the current size of the stream (if mode had 'a' as the first
// character)." (See the fmemopen_size test for what "size" means, but for
// mode "a", it's the first NUL byte.)
memset(buf, 'x', sizeof(buf));
buf[3] = '\0';
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "a+"));
setbuf(fp, nullptr); // Turn off buffering so we can see what's happening as it happens.
ASSERT_EQ(' ', fputc(' ', fp));
EXPECT_EQ("xxx \0xxx"s, std::string(buf, buf + sizeof(buf)));
ASSERT_EQ(0, fclose(fp));
// "If the current position at the end of the write is larger than the
// current buffer size, the current buffer size shall be set to the current
// position." (See the fmemopen_size test for what "size" means, but to
// query it we SEEK_END with offset 0, and then ftell.)
memset(buf, 'x', sizeof(buf));
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "w+"));
setbuf(fp, nullptr); // Turn off buffering so we can see what's happening as it happens.
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(0, ftell(fp));
ASSERT_EQ(' ', fputc(' ', fp));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(1, ftell(fp));
ASSERT_NE(EOF, fputs("123", fp));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(4, ftell(fp));
EXPECT_EQ(" 123\0xxx"s, std::string(buf, buf + sizeof(buf)));
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_write_EOF) {
// POSIX: "A write operation on the stream shall not advance the current
// buffer size beyond the size given in the size argument."
FILE* fp;
// Scalar writes...
ASSERT_NE(nullptr, fp = fmemopen(nullptr, 4, "w"));
setbuf(fp, nullptr); // Turn off buffering so we can see what's happening as it happens.
ASSERT_EQ('x', fputc('x', fp));
ASSERT_EQ('x', fputc('x', fp));
ASSERT_EQ('x', fputc('x', fp));
ASSERT_EQ(EOF, fputc('x', fp)); // Only 3 fit because of the implicit NUL.
ASSERT_EQ(0, fclose(fp));
// Vector writes...
ASSERT_NE(nullptr, fp = fmemopen(nullptr, 4, "w"));
setbuf(fp, nullptr); // Turn off buffering so we can see what's happening as it happens.
ASSERT_EQ(3U, fwrite("xxxx", 1, 4, fp));
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_initial_position) {
// POSIX: "The ... current position in the buffer ... shall be initially
// set to either the beginning of the buffer (for r and w modes) ..."
char buf[] = "hello\0world";
FILE* fp;
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "r"));
EXPECT_EQ(0L, ftell(fp));
EXPECT_EQ(0, fclose(fp));
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "w"));
EXPECT_EQ(0L, ftell(fp));
EXPECT_EQ(0, fclose(fp));
buf[0] = 'h'; // (Undo the effects of the above.)
// POSIX: "...or to the first null byte in the buffer (for a modes)."
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "a"));
EXPECT_EQ(5L, ftell(fp));
EXPECT_EQ(0, fclose(fp));
// POSIX: "If no null byte is found in append mode, the initial position
// shall be set to one byte after the end of the buffer."
memset(buf, 'x', sizeof(buf));
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "a"));
EXPECT_EQ(static_cast<long>(sizeof(buf)), ftell(fp));
EXPECT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_initial_position_allocated) {
// POSIX: "If buf is a null pointer, the initial position shall always be
// set to the beginning of the buffer."
FILE* fp = fmemopen(nullptr, 128, "a+");
ASSERT_TRUE(fp != nullptr);
EXPECT_EQ(0L, ftell(fp));
EXPECT_EQ(0L, fseek(fp, 0, SEEK_SET));
EXPECT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_zero_length) {
// POSIX says it's up to the implementation whether or not you can have a
// zero-length buffer (but "A future version of this standard may require
// support of zero-length buffer streams explicitly"). BSD and glibc < 2.22
// agreed that you couldn't, but glibc >= 2.22 allows it for consistency.
FILE* fp;
char buf[16];
ASSERT_NE(nullptr, fp = fmemopen(buf, 0, "r+"));
ASSERT_EQ(EOF, fgetc(fp));
ASSERT_TRUE(feof(fp));
ASSERT_EQ(0, fclose(fp));
ASSERT_NE(nullptr, fp = fmemopen(nullptr, 0, "r+"));
ASSERT_EQ(EOF, fgetc(fp));
ASSERT_TRUE(feof(fp));
ASSERT_EQ(0, fclose(fp));
ASSERT_NE(nullptr, fp = fmemopen(buf, 0, "w+"));
setbuf(fp, nullptr); // Turn off buffering so we can see what's happening as it happens.
ASSERT_EQ(EOF, fputc('x', fp));
ASSERT_EQ(0, fclose(fp));
ASSERT_NE(nullptr, fp = fmemopen(nullptr, 0, "w+"));
setbuf(fp, nullptr); // Turn off buffering so we can see what's happening as it happens.
ASSERT_EQ(EOF, fputc('x', fp));
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_zero_length_buffer_overrun) {
char buf[2] = "x";
ASSERT_EQ('x', buf[0]);
FILE* fp = fmemopen(buf, 0, "w");
ASSERT_EQ('x', buf[0]);
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_write_only_allocated) {
// POSIX says fmemopen "may fail if the mode argument does not include a '+'".
// BSD fails, glibc doesn't. We side with the more lenient.
FILE* fp;
ASSERT_NE(nullptr, fp = fmemopen(nullptr, 16, "r"));
ASSERT_EQ(0, fclose(fp));
ASSERT_NE(nullptr, fp = fmemopen(nullptr, 16, "w"));
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_fileno) {
// There's no fd backing an fmemopen FILE*.
FILE* fp = fmemopen(nullptr, 16, "r");
ASSERT_TRUE(fp != nullptr);
errno = 0;
ASSERT_EQ(-1, fileno(fp));
ASSERT_ERRNO(EBADF);
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fmemopen_append_after_seek) {
// In BSD and glibc < 2.22, append mode didn't force writes to append if
// there had been an intervening seek.
FILE* fp;
char buf[] = "hello\0world";
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "a"));
setbuf(fp, nullptr); // Turn off buffering so we can see what's happening as it happens.
ASSERT_EQ(0, fseek(fp, 0, SEEK_SET));
ASSERT_NE(EOF, fputc('!', fp));
EXPECT_EQ("hello!\0orld\0"s, std::string(buf, buf + sizeof(buf)));
ASSERT_EQ(0, fclose(fp));
memcpy(buf, "hello\0world", sizeof(buf));
ASSERT_NE(nullptr, fp = fmemopen(buf, sizeof(buf), "a+"));
setbuf(fp, nullptr); // Turn off buffering so we can see what's happening as it happens.
ASSERT_EQ(0, fseek(fp, 0, SEEK_SET));
ASSERT_NE(EOF, fputc('!', fp));
EXPECT_EQ("hello!\0orld\0"s, std::string(buf, buf + sizeof(buf)));
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, open_memstream) {
char* p = nullptr;
size_t size = 0;
FILE* fp = open_memstream(&p, &size);
ASSERT_NE(EOF, fputs("hello, world!", fp));
fclose(fp);
ASSERT_STREQ("hello, world!", p);
ASSERT_EQ(strlen("hello, world!"), size);
free(p);
}
TEST(STDIO_TEST, open_memstream_EINVAL) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wnonnull"
char* p;
size_t size;
// Invalid buffer.
errno = 0;
ASSERT_EQ(nullptr, open_memstream(nullptr, &size));
ASSERT_ERRNO(EINVAL);
// Invalid size.
errno = 0;
ASSERT_EQ(nullptr, open_memstream(&p, nullptr));
ASSERT_ERRNO(EINVAL);
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "glibc is broken";
#endif
}
TEST(STDIO_TEST, fdopen_add_CLOEXEC) {
// This fd doesn't have O_CLOEXEC...
int fd = open("/proc/version", O_RDONLY);
ASSERT_FALSE(CloseOnExec(fd));
// ...but the new one does.
FILE* fp = fdopen(fd, "re");
ASSERT_TRUE(CloseOnExec(fileno(fp)));
fclose(fp);
}
TEST(STDIO_TEST, fdopen_remove_CLOEXEC) {
// This fd has O_CLOEXEC...
int fd = open("/proc/version", O_RDONLY | O_CLOEXEC);
ASSERT_TRUE(CloseOnExec(fd));
// ...but the new one doesn't.
FILE* fp = fdopen(fd, "r");
ASSERT_TRUE(CloseOnExec(fileno(fp)));
fclose(fp);
}
TEST(STDIO_TEST, freopen_add_CLOEXEC) {
// This FILE* doesn't have O_CLOEXEC...
FILE* fp = fopen("/proc/version", "r");
ASSERT_FALSE(CloseOnExec(fileno(fp)));
// ...but the new one does.
fp = freopen("/proc/version", "re", fp);
ASSERT_TRUE(CloseOnExec(fileno(fp)));
fclose(fp);
}
TEST(STDIO_TEST, freopen_remove_CLOEXEC) {
// This FILE* has O_CLOEXEC...
FILE* fp = fopen("/proc/version", "re");
ASSERT_TRUE(CloseOnExec(fileno(fp)));
// ...but the new one doesn't.
fp = freopen("/proc/version", "r", fp);
ASSERT_FALSE(CloseOnExec(fileno(fp)));
fclose(fp);
}
TEST(STDIO_TEST, freopen_null_filename_add_CLOEXEC) {
// This FILE* doesn't have O_CLOEXEC...
FILE* fp = fopen("/proc/version", "r");
ASSERT_FALSE(CloseOnExec(fileno(fp)));
// ...but the new one does.
fp = freopen(nullptr, "re", fp);
ASSERT_TRUE(CloseOnExec(fileno(fp)));
fclose(fp);
}
TEST(STDIO_TEST, freopen_null_filename_remove_CLOEXEC) {
// This FILE* has O_CLOEXEC...
FILE* fp = fopen("/proc/version", "re");
ASSERT_TRUE(CloseOnExec(fileno(fp)));
// ...but the new one doesn't.
fp = freopen(nullptr, "r", fp);
ASSERT_FALSE(CloseOnExec(fileno(fp)));
fclose(fp);
}
TEST(STDIO_TEST, fopen64_freopen64) {
FILE* fp = fopen64("/proc/version", "r");
ASSERT_TRUE(fp != nullptr);
fp = freopen64("/proc/version", "re", fp);
ASSERT_TRUE(fp != nullptr);
fclose(fp);
}
// https://code.google.com/p/android/issues/detail?id=81155
// http://b/18556607
TEST(STDIO_TEST, fread_unbuffered_pathological_performance) {
FILE* fp = fopen("/dev/zero", "r");
ASSERT_TRUE(fp != nullptr);
// Make this stream unbuffered.
setvbuf(fp, nullptr, _IONBF, 0);
char buf[65*1024];
memset(buf, 0xff, sizeof(buf));
time_t t0 = time(nullptr);
for (size_t i = 0; i < 1024; ++i) {
ASSERT_EQ(1U, fread(buf, 64*1024, 1, fp));
}
time_t t1 = time(nullptr);
fclose(fp);
// 1024 64KiB reads should have been very quick.
ASSERT_LE(t1 - t0, 1);
for (size_t i = 0; i < 64*1024; ++i) {
ASSERT_EQ('\0', buf[i]);
}
for (size_t i = 64*1024; i < 65*1024; ++i) {
ASSERT_EQ('\xff', buf[i]);
}
}
TEST(STDIO_TEST, fread_EOF) {
std::string digits("0123456789");
FILE* fp = fmemopen(&digits[0], digits.size(), "r");
// Try to read too much, but little enough that it still fits in the FILE's internal buffer.
char buf1[4 * 4];
memset(buf1, 0, sizeof(buf1));
ASSERT_EQ(2U, fread(buf1, 4, 4, fp));
ASSERT_STREQ("0123456789", buf1);
ASSERT_TRUE(feof(fp));
rewind(fp);
// Try to read way too much so stdio tries to read more direct from the stream.
char buf2[4 * 4096];
memset(buf2, 0, sizeof(buf2));
ASSERT_EQ(2U, fread(buf2, 4, 4096, fp));
ASSERT_STREQ("0123456789", buf2);
ASSERT_TRUE(feof(fp));
fclose(fp);
}
static void test_fread_from_write_only_stream(size_t n) {
FILE* fp = fopen("/dev/null", "w");
std::vector<char> buf(n, 0);
errno = 0;
ASSERT_EQ(0U, fread(&buf[0], n, 1, fp));
ASSERT_ERRNO(EBADF);
ASSERT_TRUE(ferror(fp));
ASSERT_FALSE(feof(fp));
fclose(fp);
}
TEST(STDIO_TEST, fread_from_write_only_stream_slow_path) {
test_fread_from_write_only_stream(1);
}
TEST(STDIO_TEST, fread_from_write_only_stream_fast_path) {
test_fread_from_write_only_stream(64*1024);
}
TEST(STDIO_TEST, fwrite_to_read_only_stream) {
FILE* fp = fopen("/proc/version", "re");
ASSERT_FALSE(ferror(fp));
ASSERT_EQ(0U, fwrite("hello", 1, 5, fp));
ASSERT_TRUE(ferror(fp));
}
TEST(STDIO_TEST, fputc_to_read_only_stream) {
FILE* fp = fopen("/proc/version", "re");
ASSERT_FALSE(ferror(fp));
ASSERT_EQ(EOF, fputc('x', fp));
ASSERT_TRUE(ferror(fp));
}
TEST(STDIO_TEST, fprintf_to_read_only_stream) {
FILE* fp = fopen("/proc/version", "re");
ASSERT_FALSE(ferror(fp));
ASSERT_EQ(-1, fprintf(fp, "%s%d", "hello", 123));
ASSERT_TRUE(ferror(fp));
}
static void test_fwrite_after_fread(size_t n) {
TemporaryFile tf;
FILE* fp = fdopen(tf.fd, "w+");
ASSERT_EQ(1U, fwrite("1", 1, 1, fp));
fflush(fp);
// We've flushed but not rewound, so there's nothing to read.
std::vector<char> buf(n, 0);
ASSERT_EQ(0U, fread(&buf[0], 1, buf.size(), fp));
ASSERT_TRUE(feof(fp));
// But hitting EOF doesn't prevent us from writing...
errno = 0;
ASSERT_EQ(1U, fwrite("2", 1, 1, fp)) << strerror(errno);
// And if we rewind, everything's there.
rewind(fp);
ASSERT_EQ(2U, fread(&buf[0], 1, buf.size(), fp));
ASSERT_EQ('1', buf[0]);
ASSERT_EQ('2', buf[1]);
fclose(fp);
}
TEST(STDIO_TEST, fwrite_after_fread_slow_path) {
test_fwrite_after_fread(16);
}
TEST(STDIO_TEST, fwrite_after_fread_fast_path) {
test_fwrite_after_fread(64*1024);
}
// http://b/19172514
TEST(STDIO_TEST, fread_after_fseek) {
TemporaryFile tf;
FILE* fp = fopen(tf.path, "w+");
ASSERT_TRUE(fp != nullptr);
char file_data[12288];
for (size_t i = 0; i < 12288; i++) {
file_data[i] = i;
}
ASSERT_EQ(12288U, fwrite(file_data, 1, 12288, fp));
fclose(fp);
fp = fopen(tf.path, "r");
ASSERT_TRUE(fp != nullptr);
char buffer[8192];
size_t cur_location = 0;
// Small read to populate internal buffer.
ASSERT_EQ(100U, fread(buffer, 1, 100, fp));
ASSERT_EQ(memcmp(file_data, buffer, 100), 0);
cur_location = static_cast<size_t>(ftell(fp));
// Large read to force reading into the user supplied buffer and bypassing
// the internal buffer.
ASSERT_EQ(8192U, fread(buffer, 1, 8192, fp));
ASSERT_EQ(memcmp(file_data+cur_location, buffer, 8192), 0);
// Small backwards seek to verify fseek does not reuse the internal buffer.
ASSERT_EQ(0, fseek(fp, -22, SEEK_CUR)) << strerror(errno);
cur_location = static_cast<size_t>(ftell(fp));
ASSERT_EQ(22U, fread(buffer, 1, 22, fp));
ASSERT_EQ(memcmp(file_data+cur_location, buffer, 22), 0);
fclose(fp);
}
// https://code.google.com/p/android/issues/detail?id=184847
TEST(STDIO_TEST, fread_EOF_184847) {
TemporaryFile tf;
char buf[6] = {0};
FILE* fw = fopen(tf.path, "w");
ASSERT_TRUE(fw != nullptr);
FILE* fr = fopen(tf.path, "r");
ASSERT_TRUE(fr != nullptr);
fwrite("a", 1, 1, fw);
fflush(fw);
ASSERT_EQ(1U, fread(buf, 1, 1, fr));
ASSERT_STREQ("a", buf);
// 'fr' is now at EOF.
ASSERT_EQ(0U, fread(buf, 1, 1, fr));
ASSERT_TRUE(feof(fr));
// Write some more...
fwrite("z", 1, 1, fw);
fflush(fw);
// ...and check that we can read it back.
// (BSD thinks that once a stream has hit EOF, it must always return EOF. SysV disagrees.)
ASSERT_EQ(1U, fread(buf, 1, 1, fr));
ASSERT_STREQ("z", buf);
// But now we're done.
ASSERT_EQ(0U, fread(buf, 1, 1, fr));
fclose(fr);
fclose(fw);
}
TEST(STDIO_TEST, fclose_invalidates_fd) {
// The typical error we're trying to help people catch involves accessing
// memory after it's been freed. But we know that stdin/stdout/stderr are
// special and don't get deallocated, so this test uses stdin.
ASSERT_EQ(0, fclose(stdin));
// Even though using a FILE* after close is undefined behavior, I've closed
// this bug as "WAI" too many times. We shouldn't hand out stale fds,
// especially because they might actually correspond to a real stream.
errno = 0;
ASSERT_EQ(-1, fileno(stdin));
ASSERT_ERRNO(EBADF);
}
TEST(STDIO_TEST, fseek_ftell_unseekable) {
#if defined(__BIONIC__) // glibc has fopencookie instead.
auto read_fn = [](void*, char*, int) { return -1; };
FILE* fp = funopen(nullptr, read_fn, nullptr, nullptr, nullptr);
ASSERT_TRUE(fp != nullptr);
// Check that ftell balks on an unseekable FILE*.
errno = 0;
ASSERT_EQ(-1, ftell(fp));
ASSERT_ERRNO(ESPIPE);
// SEEK_CUR is rewritten as SEEK_SET internally...
errno = 0;
ASSERT_EQ(-1, fseek(fp, 0, SEEK_CUR));
ASSERT_ERRNO(ESPIPE);
// ...so it's worth testing the direct seek path too.
errno = 0;
ASSERT_EQ(-1, fseek(fp, 0, SEEK_SET));
ASSERT_ERRNO(ESPIPE);
fclose(fp);
#else
GTEST_SKIP() << "glibc uses fopencookie instead";
#endif
}
TEST(STDIO_TEST, funopen_EINVAL) {
#if defined(__BIONIC__)
errno = 0;
ASSERT_EQ(nullptr, funopen(nullptr, nullptr, nullptr, nullptr, nullptr));
ASSERT_ERRNO(EINVAL);
#else
GTEST_SKIP() << "glibc uses fopencookie instead";
#endif
}
TEST(STDIO_TEST, funopen_seek) {
#if defined(__BIONIC__)
auto read_fn = [](void*, char*, int) { return -1; };
auto seek_fn = [](void*, fpos_t, int) -> fpos_t { return 0xfedcba12; };
auto seek64_fn = [](void*, fpos64_t, int) -> fpos64_t { return 0xfedcba12345678; };
FILE* fp = funopen(nullptr, read_fn, nullptr, seek_fn, nullptr);
ASSERT_TRUE(fp != nullptr);
fpos_t pos;
#if defined(__LP64__)
EXPECT_EQ(0, fgetpos(fp, &pos)) << strerror(errno);
EXPECT_EQ(0xfedcba12LL, pos);
#else
EXPECT_EQ(-1, fgetpos(fp, &pos)) << strerror(errno);
EXPECT_ERRNO(EOVERFLOW);
#endif
FILE* fp64 = funopen64(nullptr, read_fn, nullptr, seek64_fn, nullptr);
ASSERT_TRUE(fp64 != nullptr);
fpos64_t pos64;
EXPECT_EQ(0, fgetpos64(fp64, &pos64)) << strerror(errno);
EXPECT_EQ(0xfedcba12345678, pos64);
#else
GTEST_SKIP() << "glibc uses fopencookie instead";
#endif
}
TEST(STDIO_TEST, lots_of_concurrent_files) {
std::vector<TemporaryFile*> tfs;
std::vector<FILE*> fps;
for (size_t i = 0; i < 256; ++i) {
TemporaryFile* tf = new TemporaryFile;
tfs.push_back(tf);
FILE* fp = fopen(tf->path, "w+");
fps.push_back(fp);
fprintf(fp, "hello %zu!\n", i);
fflush(fp);
}
for (size_t i = 0; i < 256; ++i) {
char expected[BUFSIZ];
snprintf(expected, sizeof(expected), "hello %zu!\n", i);
AssertFileIs(fps[i], expected);
fclose(fps[i]);
delete tfs[i];
}
}
static void AssertFileOffsetAt(FILE* fp, off64_t offset) {
EXPECT_EQ(offset, ftell(fp));
EXPECT_EQ(offset, ftello(fp));
EXPECT_EQ(offset, ftello64(fp));
fpos_t pos;
fpos64_t pos64;
EXPECT_EQ(0, fgetpos(fp, &pos));
EXPECT_EQ(0, fgetpos64(fp, &pos64));
#if defined(__BIONIC__)
EXPECT_EQ(offset, static_cast<off64_t>(pos));
EXPECT_EQ(offset, static_cast<off64_t>(pos64));
#else
GTEST_SKIP() << "glibc's fpos_t is opaque";
#endif
}
TEST(STDIO_TEST, seek_tell_family_smoke) {
TemporaryFile tf;
FILE* fp = fdopen(tf.fd, "w+");
// Initially we should be at 0.
AssertFileOffsetAt(fp, 0);
// Seek to offset 8192.
ASSERT_EQ(0, fseek(fp, 8192, SEEK_SET));
AssertFileOffsetAt(fp, 8192);
fpos_t eight_k_pos;
ASSERT_EQ(0, fgetpos(fp, &eight_k_pos));
// Seek forward another 8192...
ASSERT_EQ(0, fseek(fp, 8192, SEEK_CUR));
AssertFileOffsetAt(fp, 8192 + 8192);
fpos64_t sixteen_k_pos64;
ASSERT_EQ(0, fgetpos64(fp, &sixteen_k_pos64));
// Seek back 8192...
ASSERT_EQ(0, fseek(fp, -8192, SEEK_CUR));
AssertFileOffsetAt(fp, 8192);
// Since we haven't written anything, the end is also at 0.
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
AssertFileOffsetAt(fp, 0);
// Check that our fpos64_t from 16KiB works...
ASSERT_EQ(0, fsetpos64(fp, &sixteen_k_pos64));
AssertFileOffsetAt(fp, 8192 + 8192);
// ...as does our fpos_t from 8192.
ASSERT_EQ(0, fsetpos(fp, &eight_k_pos));
AssertFileOffsetAt(fp, 8192);
// Do fseeko and fseeko64 work too?
ASSERT_EQ(0, fseeko(fp, 1234, SEEK_SET));
AssertFileOffsetAt(fp, 1234);
ASSERT_EQ(0, fseeko64(fp, 5678, SEEK_SET));
AssertFileOffsetAt(fp, 5678);
fclose(fp);
}
TEST(STDIO_TEST, fseek_fseeko_EINVAL) {
TemporaryFile tf;
FILE* fp = fdopen(tf.fd, "w+");
// Bad whence.
errno = 0;
ASSERT_EQ(-1, fseek(fp, 0, 123));
ASSERT_ERRNO(EINVAL);
errno = 0;
ASSERT_EQ(-1, fseeko(fp, 0, 123));
ASSERT_ERRNO(EINVAL);
errno = 0;
ASSERT_EQ(-1, fseeko64(fp, 0, 123));
ASSERT_ERRNO(EINVAL);
// Bad offset.
errno = 0;
ASSERT_EQ(-1, fseek(fp, -1, SEEK_SET));
ASSERT_ERRNO(EINVAL);
errno = 0;
ASSERT_EQ(-1, fseeko(fp, -1, SEEK_SET));
ASSERT_ERRNO(EINVAL);
errno = 0;
ASSERT_EQ(-1, fseeko64(fp, -1, SEEK_SET));
ASSERT_ERRNO(EINVAL);
fclose(fp);
}
TEST(STDIO_TEST, ctermid) {
ASSERT_STREQ("/dev/tty", ctermid(nullptr));
char buf[L_ctermid] = {};
ASSERT_EQ(buf, ctermid(buf));
ASSERT_STREQ("/dev/tty", buf);
}
TEST(STDIO_TEST, remove) {
struct stat sb;
TemporaryFile tf;
ASSERT_EQ(0, remove(tf.path));
ASSERT_EQ(-1, lstat(tf.path, &sb));
ASSERT_ERRNO(ENOENT);
TemporaryDir td;
ASSERT_EQ(0, remove(td.path));
ASSERT_EQ(-1, lstat(td.path, &sb));
ASSERT_ERRNO(ENOENT);
errno = 0;
ASSERT_EQ(-1, remove(tf.path));
ASSERT_ERRNO(ENOENT);
errno = 0;
ASSERT_EQ(-1, remove(td.path));
ASSERT_ERRNO(ENOENT);
}
TEST_F(STDIO_DEATHTEST, snprintf_30445072_known_buffer_size) {
char buf[16];
ASSERT_EXIT(snprintf(buf, atol("-1"), "hello"),
testing::KilledBySignal(SIGABRT),
#if defined(NOFORTIFY)
"FORTIFY: vsnprintf: size .* > SSIZE_MAX"
#else
"FORTIFY: vsnprintf: prevented .*-byte write into 16-byte buffer"
#endif
);
}
TEST_F(STDIO_DEATHTEST, snprintf_30445072_unknown_buffer_size) {
std::string buf = "hello"; // So the compiler doesn't know the buffer size.
ASSERT_EXIT(snprintf(&buf[0], atol("-1"), "hello"),
testing::KilledBySignal(SIGABRT),
"FORTIFY: vsnprintf: size .* > SSIZE_MAX");
}
TEST(STDIO_TEST, sprintf_30445072) {
std::string buf = "world";
sprintf(&buf[0], "hello");
ASSERT_EQ(buf, "hello");
}
TEST(STDIO_TEST, printf_m) {
errno = 0;
EXPECT_SNPRINTF("<Success>", "<%m>");
errno = -1;
EXPECT_SNPRINTF("<Unknown error -1>", "<%m>");
errno = EINVAL;
EXPECT_SNPRINTF("<Invalid argument>", "<%m>");
}
TEST(STDIO_TEST, wprintf_m) {
errno = 0;
EXPECT_SWPRINTF(L"<Success>", L"<%m>");
errno = -1;
EXPECT_SWPRINTF(L"<Unknown error -1>", L"<%m>");
errno = EINVAL;
EXPECT_SWPRINTF(L"<Invalid argument>", L"<%m>");
}
TEST(STDIO_TEST, printf_hash_m) {
errno = 0;
EXPECT_SNPRINTF("<0>", "<%#m>");
errno = -1;
EXPECT_SNPRINTF("<-1>", "<%#m>");
errno = EINVAL;
EXPECT_SNPRINTF("<EINVAL>", "<%#m>");
}
TEST(STDIO_TEST, wprintf_hash_m) {
errno = 0;
EXPECT_SWPRINTF(L"<0>", L"<%#m>");
errno = -1;
EXPECT_SWPRINTF(L"<-1>", L"<%#m>");
errno = EINVAL;
EXPECT_SWPRINTF(L"<EINVAL>", L"<%#m>");
}
TEST(STDIO_TEST, printf_m_does_not_clobber_strerror) {
const char* m = strerror(-1);
ASSERT_STREQ("Unknown error -1", m);
errno = -2;
EXPECT_SNPRINTF("<Unknown error -2>", "<%m>");
ASSERT_STREQ("Unknown error -1", m);
}
TEST(STDIO_TEST, wprintf_m_does_not_clobber_strerror) {
const char* m = strerror(-1);
ASSERT_STREQ("Unknown error -1", m);
errno = -2;
EXPECT_SWPRINTF(L"<Unknown error -2>", L"<%m>");
ASSERT_STREQ("Unknown error -1", m);
}
TEST(STDIO_TEST, fopen_append_mode_and_ftell) {
TemporaryFile tf;
SetFileTo(tf.path, "0123456789");
FILE* fp = fopen(tf.path, "a");
EXPECT_EQ(10, ftell(fp));
ASSERT_EQ(0, fseek(fp, 2, SEEK_SET));
EXPECT_EQ(2, ftell(fp));
ASSERT_NE(EOF, fputs("xxx", fp));
ASSERT_EQ(0, fflush(fp));
EXPECT_EQ(13, ftell(fp));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(13, ftell(fp));
ASSERT_EQ(0, fclose(fp));
AssertFileIs(tf.path, "0123456789xxx");
}
TEST(STDIO_TEST, fdopen_append_mode_and_ftell) {
TemporaryFile tf;
SetFileTo(tf.path, "0123456789");
int fd = open(tf.path, O_RDWR);
ASSERT_NE(-1, fd);
// POSIX: "The file position indicator associated with the new stream is set to the position
// indicated by the file offset associated with the file descriptor."
ASSERT_EQ(4, lseek(fd, 4, SEEK_SET));
FILE* fp = fdopen(fd, "a");
EXPECT_EQ(4, ftell(fp));
ASSERT_EQ(0, fseek(fp, 2, SEEK_SET));
EXPECT_EQ(2, ftell(fp));
ASSERT_NE(EOF, fputs("xxx", fp));
ASSERT_EQ(0, fflush(fp));
EXPECT_EQ(13, ftell(fp));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(13, ftell(fp));
ASSERT_EQ(0, fclose(fp));
AssertFileIs(tf.path, "0123456789xxx");
}
TEST(STDIO_TEST, freopen_append_mode_and_ftell) {
TemporaryFile tf;
SetFileTo(tf.path, "0123456789");
FILE* other_fp = fopen("/proc/version", "r");
FILE* fp = freopen(tf.path, "a", other_fp);
EXPECT_EQ(10, ftell(fp));
ASSERT_EQ(0, fseek(fp, 2, SEEK_SET));
EXPECT_EQ(2, ftell(fp));
ASSERT_NE(EOF, fputs("xxx", fp));
ASSERT_EQ(0, fflush(fp));
EXPECT_EQ(13, ftell(fp));
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
EXPECT_EQ(13, ftell(fp));
ASSERT_EQ(0, fclose(fp));
AssertFileIs(tf.path, "0123456789xxx");
}
TEST(STDIO_TEST, constants) {
ASSERT_LE(FILENAME_MAX, PATH_MAX);
ASSERT_EQ(L_tmpnam, PATH_MAX);
}
TEST(STDIO_TEST, perror) {
ExecTestHelper eth;
eth.Run([&]() { errno = EINVAL; perror("a b c"); exit(0); }, 0, "a b c: Invalid argument\n");
eth.Run([&]() { errno = EINVAL; perror(nullptr); exit(0); }, 0, "Invalid argument\n");
eth.Run([&]() { errno = EINVAL; perror(""); exit(0); }, 0, "Invalid argument\n");
}
TEST(STDIO_TEST, puts) {
ExecTestHelper eth;
eth.Run([&]() { exit(puts("a b c")); }, 0, "a b c\n");
}
TEST(STDIO_TEST, putchar) {
ExecTestHelper eth;
eth.Run([&]() { exit(putchar('A')); }, 65, "A");
}
TEST(STDIO_TEST, putchar_unlocked) {
ExecTestHelper eth;
eth.Run([&]() { exit(putchar('B')); }, 66, "B");
}
TEST(STDIO_TEST, unlocked) {
TemporaryFile tf;
FILE* fp = fopen(tf.path, "w+");
ASSERT_TRUE(fp != nullptr);
clearerr_unlocked(fp);
ASSERT_FALSE(feof_unlocked(fp));
ASSERT_FALSE(ferror_unlocked(fp));
ASSERT_EQ(fileno(fp), fileno_unlocked(fp));
ASSERT_NE(EOF, putc_unlocked('a', fp));
ASSERT_NE(EOF, putc('b', fp));
ASSERT_NE(EOF, fputc_unlocked('c', fp));
ASSERT_NE(EOF, fputc('d', fp));
rewind(fp);
ASSERT_EQ('a', getc_unlocked(fp));
ASSERT_EQ('b', getc(fp));
ASSERT_EQ('c', fgetc_unlocked(fp));
ASSERT_EQ('d', fgetc(fp));
rewind(fp);
ASSERT_EQ(2U, fwrite_unlocked("AB", 1, 2, fp));
ASSERT_EQ(2U, fwrite("CD", 1, 2, fp));
ASSERT_EQ(0, fflush_unlocked(fp));
rewind(fp);
char buf[BUFSIZ] = {};
ASSERT_EQ(2U, fread_unlocked(&buf[0], 1, 2, fp));
ASSERT_EQ(2U, fread(&buf[2], 1, 2, fp));
ASSERT_STREQ("ABCD", buf);
rewind(fp);
ASSERT_NE(EOF, fputs("hello ", fp));
ASSERT_NE(EOF, fputs_unlocked("world", fp));
ASSERT_NE(EOF, fputc('\n', fp));
rewind(fp);
ASSERT_TRUE(fgets_unlocked(buf, sizeof(buf), fp) != nullptr);
ASSERT_STREQ("hello world\n", buf);
ASSERT_EQ(0, fclose(fp));
}
TEST(STDIO_TEST, fseek_64bit) {
TemporaryFile tf;
FILE* fp = fopen64(tf.path, "w+");
ASSERT_TRUE(fp != nullptr);
ASSERT_EQ(0, fseeko64(fp, 0x2'0000'0000, SEEK_SET));
ASSERT_EQ(0x2'0000'0000, ftello64(fp));
ASSERT_EQ(0, fseeko64(fp, 0x1'0000'0000, SEEK_CUR));
ASSERT_EQ(0x3'0000'0000, ftello64(fp));
ASSERT_EQ(0, fclose(fp));
}
// POSIX requires that fseek/fseeko fail with EOVERFLOW if the new file offset
// isn't representable in long/off_t.
TEST(STDIO_TEST, fseek_overflow_32bit) {
TemporaryFile tf;
FILE* fp = fopen64(tf.path, "w+");
ASSERT_EQ(0, ftruncate64(fileno(fp), 0x2'0000'0000));
// Bionic implements overflow checking for SEEK_CUR, but glibc doesn't.
#if defined(__BIONIC__) && !defined(__LP64__)
ASSERT_EQ(0, fseek(fp, 0x7fff'ffff, SEEK_SET));
ASSERT_EQ(-1, fseek(fp, 1, SEEK_CUR));
ASSERT_ERRNO(EOVERFLOW);
#endif
// Neither Bionic nor glibc implement the overflow checking for SEEK_END.
// (Aside: FreeBSD's libc is an example of a libc that checks both SEEK_CUR
// and SEEK_END -- many C libraries check neither.)
ASSERT_EQ(0, fseek(fp, 0, SEEK_END));
ASSERT_EQ(0x2'0000'0000, ftello64(fp));
fclose(fp);
}
TEST(STDIO_TEST, dev_std_files) {
// POSIX only mentions /dev/stdout, but we should have all three (http://b/31824379).
char path[PATH_MAX];
ssize_t length = readlink("/dev/stdin", path, sizeof(path));
ASSERT_LT(0, length);
ASSERT_EQ("/proc/self/fd/0", std::string(path, length));
length = readlink("/dev/stdout", path, sizeof(path));
ASSERT_LT(0, length);
ASSERT_EQ("/proc/self/fd/1", std::string(path, length));
length = readlink("/dev/stderr", path, sizeof(path));
ASSERT_LT(0, length);
ASSERT_EQ("/proc/self/fd/2", std::string(path, length));
}
TEST(STDIO_TEST, fread_with_locked_file) {
// Reading an unbuffered/line-buffered file from one thread shouldn't block on
// files locked on other threads, even if it flushes some line-buffered files.
FILE* fp1 = fopen("/dev/zero", "r");
ASSERT_TRUE(fp1 != nullptr);
flockfile(fp1);
std::thread([] {
for (int mode : { _IONBF, _IOLBF }) {
FILE* fp2 = fopen("/dev/zero", "r");
ASSERT_TRUE(fp2 != nullptr);
setvbuf(fp2, nullptr, mode, 0);
ASSERT_EQ('\0', fgetc(fp2));
fclose(fp2);
}
}).join();
funlockfile(fp1);
fclose(fp1);
}
TEST(STDIO_TEST, SEEK_macros) {
ASSERT_EQ(0, SEEK_SET);
ASSERT_EQ(1, SEEK_CUR);
ASSERT_EQ(2, SEEK_END);
ASSERT_EQ(3, SEEK_DATA);
ASSERT_EQ(4, SEEK_HOLE);
// So we'll notice if Linux grows another constant in <linux/fs.h>...
ASSERT_EQ(SEEK_MAX, SEEK_HOLE);
}
TEST(STDIO_TEST, rename) {
TemporaryDir td;
std::string old_path = td.path + "/old"s;
std::string new_path = td.path + "/new"s;
// Create the file, check it exists.
ASSERT_EQ(0, close(creat(old_path.c_str(), 0666)));
struct stat sb;
ASSERT_EQ(0, stat(old_path.c_str(), &sb));
ASSERT_EQ(-1, stat(new_path.c_str(), &sb));
// Rename and check it moved.
ASSERT_EQ(0, rename(old_path.c_str(), new_path.c_str()));
ASSERT_EQ(-1, stat(old_path.c_str(), &sb));
ASSERT_EQ(0, stat(new_path.c_str(), &sb));
}
TEST(STDIO_TEST, renameat) {
TemporaryDir td;
android::base::unique_fd dirfd{open(td.path, O_PATH)};
std::string old_path = td.path + "/old"s;
std::string new_path = td.path + "/new"s;
// Create the file, check it exists.
ASSERT_EQ(0, close(creat(old_path.c_str(), 0666)));
struct stat sb;
ASSERT_EQ(0, stat(old_path.c_str(), &sb));
ASSERT_EQ(-1, stat(new_path.c_str(), &sb));
// Rename and check it moved.
ASSERT_EQ(0, renameat(dirfd, "old", dirfd, "new"));
ASSERT_EQ(-1, stat(old_path.c_str(), &sb));
ASSERT_EQ(0, stat(new_path.c_str(), &sb));
}
TEST(STDIO_TEST, renameat2) {
#if defined(__GLIBC__) || defined(ANDROID_HOST_MUSL)
GTEST_SKIP() << "glibc doesn't have renameat2 until 2.28 and musl doesn't have renameat2";
#else
TemporaryDir td;
android::base::unique_fd dirfd{open(td.path, O_PATH)};
std::string old_path = td.path + "/old"s;
std::string new_path = td.path + "/new"s;
// Create the file, check it exists.
ASSERT_EQ(0, close(creat(old_path.c_str(), 0666)));
struct stat sb;
ASSERT_EQ(0, stat(old_path.c_str(), &sb));
ASSERT_EQ(-1, stat(new_path.c_str(), &sb));
// Rename and check it moved.
ASSERT_EQ(0, renameat2(dirfd, "old", dirfd, "new", 0));
ASSERT_EQ(-1, stat(old_path.c_str(), &sb));
ASSERT_EQ(0, stat(new_path.c_str(), &sb));
// After this, both "old" and "new" exist.
ASSERT_EQ(0, close(creat(old_path.c_str(), 0666)));
// Rename and check it moved.
ASSERT_EQ(-1, renameat2(dirfd, "old", dirfd, "new", RENAME_NOREPLACE));
ASSERT_ERRNO(EEXIST);
#endif
}
TEST(STDIO_TEST, renameat2_flags) {
#if defined(__GLIBC__)
GTEST_SKIP() << "glibc doesn't have renameat2 until 2.28";
#else
ASSERT_NE(0, RENAME_EXCHANGE);
ASSERT_NE(0, RENAME_NOREPLACE);
ASSERT_NE(0, RENAME_WHITEOUT);
#endif
}
TEST(STDIO_TEST, fdopen_failures) {
FILE* fp;
int fd = open("/proc/version", O_RDONLY);
ASSERT_TRUE(fd != -1);
// Nonsense mode.
errno = 0;
fp = fdopen(fd, "nonsense");
ASSERT_TRUE(fp == nullptr);
ASSERT_ERRNO(EINVAL);
// Mode that isn't a subset of the fd's actual mode.
errno = 0;
fp = fdopen(fd, "w");
ASSERT_TRUE(fp == nullptr);
ASSERT_ERRNO(EINVAL);
// Can't set append on the underlying fd.
errno = 0;
fp = fdopen(fd, "a");
ASSERT_TRUE(fp == nullptr);
ASSERT_ERRNO(EINVAL);
// Bad fd.
errno = 0;
fp = fdopen(-1, "re");
ASSERT_TRUE(fp == nullptr);
ASSERT_ERRNO(EBADF);
close(fd);
}
TEST(STDIO_TEST, fmemopen_invalid_mode) {
errno = 0;
FILE* fp = fmemopen(nullptr, 16, "nonsense");
ASSERT_TRUE(fp == nullptr);
ASSERT_ERRNO(EINVAL);
}
TEST(STDIO_TEST, fopen_invalid_mode) {
errno = 0;
FILE* fp = fopen("/proc/version", "nonsense");
ASSERT_TRUE(fp == nullptr);
ASSERT_ERRNO(EINVAL);
}
TEST(STDIO_TEST, freopen_invalid_mode) {
FILE* fp = fopen("/proc/version", "re");
ASSERT_TRUE(fp != nullptr);
errno = 0;
fp = freopen("/proc/version", "nonsense", fp);
ASSERT_TRUE(fp == nullptr);
ASSERT_ERRNO(EINVAL);
}
TEST(STDIO_TEST, asprintf_smoke) {
char* p = nullptr;
ASSERT_EQ(11, asprintf(&p, "hello %s", "world"));
ASSERT_STREQ("hello world", p);
free(p);
}
TEST(STDIO_TEST, fopen_ENOENT) {
errno = 0;
FILE* fp = fopen("/proc/does-not-exist", "re");
ASSERT_TRUE(fp == nullptr);
ASSERT_ERRNO(ENOENT);
}
static void tempnam_test(bool has_TMPDIR, const char* dir, const char* prefix, const char* re) {
if (has_TMPDIR) {
setenv("TMPDIR", "/my/tmp/dir", 1);
} else {
unsetenv("TMPDIR");
}
char* s1 = tempnam(dir, prefix);
char* s2 = tempnam(dir, prefix);
ASSERT_MATCH(s1, re);
ASSERT_MATCH(s2, re);
ASSERT_STRNE(s1, s2);
free(s1);
free(s2);
}
TEST(STDIO_TEST, tempnam__system_directory_system_prefix_with_TMPDIR) {
tempnam_test(true, nullptr, nullptr, "^/my/tmp/dir/.*");
}
TEST(STDIO_TEST, tempnam__system_directory_system_prefix_without_TMPDIR) {
tempnam_test(false, nullptr, nullptr, "^/data/local/tmp/.*");
}
TEST(STDIO_TEST, tempnam__system_directory_user_prefix_with_TMPDIR) {
tempnam_test(true, nullptr, "prefix", "^/my/tmp/dir/prefix.*");
}
TEST(STDIO_TEST, tempnam__system_directory_user_prefix_without_TMPDIR) {
tempnam_test(false, nullptr, "prefix", "^/data/local/tmp/prefix.*");
}
TEST(STDIO_TEST, tempnam__user_directory_system_prefix_with_TMPDIR) {
tempnam_test(true, "/a/b/c", nullptr, "^/my/tmp/dir/.*");
}
TEST(STDIO_TEST, tempnam__user_directory_system_prefix_without_TMPDIR) {
tempnam_test(false, "/a/b/c", nullptr, "^/a/b/c/.*");
}
TEST(STDIO_TEST, tempnam__user_directory_user_prefix_with_TMPDIR) {
tempnam_test(true, "/a/b/c", "prefix", "^/my/tmp/dir/prefix.*");
}
TEST(STDIO_TEST, tempnam__user_directory_user_prefix_without_TMPDIR) {
tempnam_test(false, "/a/b/c", "prefix", "^/a/b/c/prefix.*");
}
static void tmpnam_test(char* s) {
char s1[L_tmpnam], s2[L_tmpnam];
strcpy(s1, tmpnam(s));
strcpy(s2, tmpnam(s));
ASSERT_MATCH(s1, "/tmp/.*");
ASSERT_MATCH(s2, "/tmp/.*");
ASSERT_STRNE(s1, s2);
}
TEST(STDIO_TEST, tmpnam) {
tmpnam_test(nullptr);
}
TEST(STDIO_TEST, tmpnam_buf) {
char buf[L_tmpnam];
tmpnam_test(buf);
}
TEST(STDIO_TEST, freopen_null_filename_mode) {
TemporaryFile tf;
FILE* fp = fopen(tf.path, "r");
ASSERT_TRUE(fp != nullptr);
// "r" = O_RDONLY
char buf[1];
ASSERT_EQ(0, read(fileno(fp), buf, 1));
ASSERT_EQ(-1, write(fileno(fp), "hello", 1));
// "r+" = O_RDWR
fp = freopen(nullptr, "r+", fp);
ASSERT_EQ(0, read(fileno(fp), buf, 1));
ASSERT_EQ(1, write(fileno(fp), "hello", 1));
// "w" = O_WRONLY
fp = freopen(nullptr, "w", fp);
ASSERT_EQ(-1, read(fileno(fp), buf, 1));
ASSERT_EQ(1, write(fileno(fp), "hello", 1));
fclose(fp);
}
#if defined(__LP64__)
static int64_t GetTotalRamGiB() {
struct sysinfo si;
sysinfo(&si);
return (static_cast<int64_t>(si.totalram) * si.mem_unit) / 1024 / 1024 / 1024;
}
#endif
TEST(STDIO_TEST, fread_int_overflow) {
#if defined(__LP64__)
if (GetTotalRamGiB() <= 4) GTEST_SKIP() << "not enough memory";
const size_t too_big_for_an_int = 0x80000000ULL;
std::vector<char> buf(too_big_for_an_int);
std::unique_ptr<FILE, decltype(&fclose)> fp{fopen("/dev/zero", "re"), fclose};
ASSERT_EQ(too_big_for_an_int, fread(&buf[0], 1, too_big_for_an_int, fp.get()));
#else
GTEST_SKIP() << "32-bit can't allocate 2GiB";
#endif
}
TEST(STDIO_TEST, fwrite_int_overflow) {
#if defined(__LP64__)
if (GetTotalRamGiB() <= 4) GTEST_SKIP() << "not enough memory";
const size_t too_big_for_an_int = 0x80000000ULL;
std::vector<char> buf(too_big_for_an_int);
std::unique_ptr<FILE, decltype(&fclose)> fp{fopen("/dev/null", "we"), fclose};
ASSERT_EQ(too_big_for_an_int, fwrite(&buf[0], 1, too_big_for_an_int, fp.get()));
#else
GTEST_SKIP() << "32-bit can't allocate 2GiB";
#endif
}
TEST(STDIO_TEST, snprintf_b_B) {
#if defined(__BIONIC__)
uint8_t b = 5;
EXPECT_SNPRINTF("<101>", "<%" PRIb8 ">", b);
EXPECT_SNPRINTF("<101>", "<%" PRIB8 ">", b);
EXPECT_SNPRINTF("<00000101>", "<%08" PRIb8 ">", b);
EXPECT_SNPRINTF("<00000101>", "<%08" PRIB8 ">", b);
uint16_t s = 0xaaaa;
EXPECT_SNPRINTF("<1010101010101010>", "<%" PRIb16 ">", s);
EXPECT_SNPRINTF("<1010101010101010>", "<%" PRIB16 ">", s);
EXPECT_SNPRINTF("<0b1010101010101010>", "<%#" PRIb16 ">", s);
EXPECT_SNPRINTF("<0B1010101010101010>", "<%#" PRIB16 ">", s);
EXPECT_SNPRINTF("<10101010101010101010101010101010>", "<%" PRIb32 ">", 0xaaaaaaaa);
EXPECT_SNPRINTF("<10101010101010101010101010101010>", "<%" PRIB32 ">", 0xaaaaaaaa);
EXPECT_SNPRINTF("<0b10101010101010101010101010101010>", "<%#" PRIb32 ">", 0xaaaaaaaa);
EXPECT_SNPRINTF("<0B10101010101010101010101010101010>", "<%#" PRIB32 ">", 0xaaaaaaaa);
// clang doesn't like "%lb" (https://github.com/llvm/llvm-project/issues/62247)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat"
EXPECT_SNPRINTF("<1010101010101010101010101010101010101010101010101010101010101010>",
"<%" PRIb64 ">", 0xaaaaaaaa'aaaaaaaa);
EXPECT_SNPRINTF("<1010101010101010101010101010101010101010101010101010101010101010>",
"<%" PRIB64 ">", 0xaaaaaaaa'aaaaaaaa);
EXPECT_SNPRINTF("<0b1010101010101010101010101010101010101010101010101010101010101010>",
"<%#" PRIb64 ">", 0xaaaaaaaa'aaaaaaaa);
EXPECT_SNPRINTF("<0B1010101010101010101010101010101010101010101010101010101010101010>",
"<%#" PRIB64 ">", 0xaaaaaaaa'aaaaaaaa);
#pragma clang diagnostic pop
EXPECT_SNPRINTF("<0>", "<%#b>", 0);
EXPECT_SNPRINTF("<0>", "<%#B>", 0);
#else
GTEST_SKIP() << "no %b in glibc";
#endif
}
TEST(STDIO_TEST, swprintf_b_B) {
#if defined(__BIONIC__)
uint8_t b = 5;
EXPECT_SWPRINTF(L"<101>", L"<%" PRIb8 ">", b);
EXPECT_SWPRINTF(L"<101>", L"<%" PRIB8 ">", b);
EXPECT_SWPRINTF(L"<0b101>", L"<%#" PRIb8 ">", b);
EXPECT_SWPRINTF(L"<0B101>", L"<%#" PRIB8 ">", b);
EXPECT_SWPRINTF(L"<00000101>", L"<%08" PRIb8 ">", b);
EXPECT_SWPRINTF(L"<00000101>", L"<%08" PRIB8 ">", b);
uint16_t s = 0xaaaa;
EXPECT_SWPRINTF(L"<1010101010101010>", L"<%" PRIb16 ">", s);
EXPECT_SWPRINTF(L"<1010101010101010>", L"<%" PRIB16 ">", s);
EXPECT_SWPRINTF(L"<0b1010101010101010>", L"<%#" PRIb16 ">", s);
EXPECT_SWPRINTF(L"<0B1010101010101010>", L"<%#" PRIB16 ">", s);
EXPECT_SWPRINTF(L"<10101010101010101010101010101010>", L"<%" PRIb32 ">", 0xaaaaaaaa);
EXPECT_SWPRINTF(L"<10101010101010101010101010101010>", L"<%" PRIB32 ">", 0xaaaaaaaa);
EXPECT_SWPRINTF(L"<0b10101010101010101010101010101010>", L"<%#" PRIb32 ">", 0xaaaaaaaa);
EXPECT_SWPRINTF(L"<0B10101010101010101010101010101010>", L"<%#" PRIB32 ">", 0xaaaaaaaa);
// clang doesn't like "%lb" (https://github.com/llvm/llvm-project/issues/62247)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat"
EXPECT_SWPRINTF(L"<1010101010101010101010101010101010101010101010101010101010101010>",
L"<%" PRIb64 ">", 0xaaaaaaaa'aaaaaaaa);
EXPECT_SWPRINTF(L"<1010101010101010101010101010101010101010101010101010101010101010>",
L"<%" PRIB64 ">", 0xaaaaaaaa'aaaaaaaa);
EXPECT_SWPRINTF(L"<0b1010101010101010101010101010101010101010101010101010101010101010>",
L"<%#" PRIb64 ">", 0xaaaaaaaa'aaaaaaaa);
EXPECT_SWPRINTF(L"<0B1010101010101010101010101010101010101010101010101010101010101010>",
L"<%#" PRIB64 ">", 0xaaaaaaaa'aaaaaaaa);
#pragma clang diagnostic pop
EXPECT_SWPRINTF(L"<0>", L"<%#b>", 0);
EXPECT_SWPRINTF(L"<0>", L"<%#B>", 0);
#else
GTEST_SKIP() << "no %b in glibc";
#endif
}
TEST(STDIO_TEST, scanf_i_decimal) {
int i;
EXPECT_EQ(1, sscanf("<123789>", "<%i>", &i));
EXPECT_EQ(123789, i);
long long int lli;
char ch;
EXPECT_EQ(2, sscanf("1234567890abcdefg", "%lli%c", &lli, &ch));
EXPECT_EQ(1234567890, lli);
EXPECT_EQ('a', ch);
}
TEST(STDIO_TEST, scanf_i_hex) {
int i;
EXPECT_EQ(1, sscanf("<0x123abf>", "<%i>", &i));
EXPECT_EQ(0x123abf, i);
long long int lli;
char ch;
EXPECT_EQ(2, sscanf("0x1234567890abcdefg", "%lli%c", &lli, &ch));
EXPECT_EQ(0x1234567890abcdefLL, lli);
EXPECT_EQ('g', ch);
}
TEST(STDIO_TEST, scanf_i_octal) {
int i;
EXPECT_EQ(1, sscanf("<01234567>", "<%i>", &i));
EXPECT_EQ(01234567, i);
long long int lli;
char ch;
EXPECT_EQ(2, sscanf("010234567890abcdefg", "%lli%c", &lli, &ch));
EXPECT_EQ(010234567, lli);
EXPECT_EQ('8', ch);
}
TEST(STDIO_TEST, scanf_i_binary) {
int i;
EXPECT_EQ(1, sscanf("<0b101>", "<%i>", &i));
EXPECT_EQ(0b101, i);
long long int lli;
char ch;
EXPECT_EQ(2, sscanf("0b10234567890abcdefg", "%lli%c", &lli, &ch));
EXPECT_EQ(0b10, lli);
EXPECT_EQ('2', ch);
}
TEST(STDIO_TEST, wscanf_i_decimal) {
int i;
EXPECT_EQ(1, swscanf(L"<123789>", L"<%i>", &i));
EXPECT_EQ(123789, i);
long long int lli;
char ch;
EXPECT_EQ(2, swscanf(L"1234567890abcdefg", L"%lli%c", &lli, &ch));
EXPECT_EQ(1234567890, lli);
EXPECT_EQ('a', ch);
}
TEST(STDIO_TEST, wscanf_i_hex) {
int i;
EXPECT_EQ(1, swscanf(L"<0x123abf>", L"<%i>", &i));
EXPECT_EQ(0x123abf, i);
long long int lli;
char ch;
EXPECT_EQ(2, swscanf(L"0x1234567890abcdefg", L"%lli%c", &lli, &ch));
EXPECT_EQ(0x1234567890abcdefLL, lli);
EXPECT_EQ('g', ch);
}
TEST(STDIO_TEST, wscanf_i_octal) {
int i;
EXPECT_EQ(1, swscanf(L"<01234567>", L"<%i>", &i));
EXPECT_EQ(01234567, i);
long long int lli;
char ch;
EXPECT_EQ(2, swscanf(L"010234567890abcdefg", L"%lli%c", &lli, &ch));
EXPECT_EQ(010234567, lli);
EXPECT_EQ('8', ch);
}
TEST(STDIO_TEST, wscanf_i_binary) {
int i;
EXPECT_EQ(1, swscanf(L"<0b101>", L"<%i>", &i));
EXPECT_EQ(0b101, i);
long long int lli;
char ch;
EXPECT_EQ(2, swscanf(L"0b10234567890abcdefg", L"%lli%c", &lli, &ch));
EXPECT_EQ(0b10, lli);
EXPECT_EQ('2', ch);
}
TEST(STDIO_TEST, scanf_b) {
int i;
char ch;
EXPECT_EQ(2, sscanf("<1012>", "<%b%c>", &i, &ch));
EXPECT_EQ(0b101, i);
EXPECT_EQ('2', ch);
EXPECT_EQ(1, sscanf("<00000101>", "<%08b>", &i));
EXPECT_EQ(0b00000101, i);
EXPECT_EQ(1, sscanf("<0b1010>", "<%b>", &i));
EXPECT_EQ(0b1010, i);
EXPECT_EQ(2, sscanf("-0b", "%i%c", &i, &ch));
EXPECT_EQ(0, i);
EXPECT_EQ('b', ch);
}
TEST(STDIO_TEST, swscanf_b) {
int i;
char ch;
EXPECT_EQ(2, swscanf(L"<1012>", L"<%b%c>", &i, &ch));
EXPECT_EQ(0b101, i);
EXPECT_EQ('2', ch);
EXPECT_EQ(1, swscanf(L"<00000101>", L"<%08b>", &i));
EXPECT_EQ(0b00000101, i);
EXPECT_EQ(1, swscanf(L"<0b1010>", L"<%b>", &i));
EXPECT_EQ(0b1010, i);
EXPECT_EQ(2, swscanf(L"-0b", L"%i%c", &i, &ch));
EXPECT_EQ(0, i);
EXPECT_EQ('b', ch);
}
TEST(STDIO_TEST, snprintf_w_base) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
#pragma clang diagnostic ignored "-Wconstant-conversion"
int8_t a = 0b101;
EXPECT_SNPRINTF("<101>", "<%w8b>", a);
int8_t b1 = 0xFF;
EXPECT_SNPRINTF("<-1>", "<%w8d>", b1);
int8_t b2 = 0x1FF;
EXPECT_SNPRINTF("<-1>", "<%w8d>", b2);
int16_t c = 0xFFFF;
EXPECT_SNPRINTF("<-1>", "<%w16i>", c);
int32_t d = 021;
EXPECT_SNPRINTF("<21>", "<%w32o>", d);
uint32_t e = -1;
EXPECT_SNPRINTF("<4294967295>", "<%w32u>", e);
int64_t f = 0x3b;
EXPECT_SNPRINTF("<3b>", "<%w64x>", f);
EXPECT_SNPRINTF("<3B>", "<%w64X>", f);
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST(STDIO_TEST, swprintf_w_base) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
#pragma clang diagnostic ignored "-Wconstant-conversion"
int8_t a = 0b101;
EXPECT_SWPRINTF(L"<101>", L"<%w8b>", a);
int8_t b1 = 0xFF;
EXPECT_SWPRINTF(L"<-1>", L"<%w8d>", b1);
int8_t b2 = 0x1FF;
EXPECT_SWPRINTF(L"<-1>", L"<%w8d>", b2);
int16_t c = 0xFFFF;
EXPECT_SWPRINTF(L"<-1>", L"<%w16i>", c);
int32_t d = 021;
EXPECT_SWPRINTF(L"<21>", L"<%w32o>", d);
uint32_t e = -1;
EXPECT_SWPRINTF(L"<4294967295>", L"<%w32u>", e);
int64_t f = 0x3b;
EXPECT_SWPRINTF(L"<3b>", L"<%w64x>", f);
EXPECT_SWPRINTF(L"<3B>", L"<%w64X>", f);
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST(STDIO_TEST, snprintf_w_arguments_reordering) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
#pragma clang diagnostic ignored "-Wformat-extra-args"
int32_t a = 0xaaaaaaaa;
int64_t b = 0x11111111'22222222;
int64_t c = 0x33333333'44444444;
int64_t d = 0xaaaaaaaa'aaaaaaaa;
EXPECT_SNPRINTF("<10101010101010101010101010101010 --- 3333333344444444>",
"<%2$w32b --- %1$w64x>", c, a);
EXPECT_SNPRINTF(
"<1010101010101010101010101010101010101010101010101010101010101010 --- 1111111122222222 --- "
"3333333344444444>",
"<%3$w64b --- %1$w64x --- %2$w64x>", b, c, d);
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST(STDIO_TEST, swprintf_w_arguments_reordering) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
#pragma clang diagnostic ignored "-Wformat-extra-args"
int32_t a = 0xaaaaaaaa;
int64_t b = 0x11111111'22222222;
int64_t c = 0x33333333'44444444;
int64_t d = 0xaaaaaaaa'aaaaaaaa;
EXPECT_SWPRINTF(L"<10101010101010101010101010101010 --- 3333333344444444>",
L"<%2$w32b --- %1$w64x>", c, a);
EXPECT_SWPRINTF(
L"<1010101010101010101010101010101010101010101010101010101010101010 --- 1111111122222222 --- "
L"3333333344444444>",
L"<%3$w64b --- %1$w64x --- %2$w64x>", b, c, d);
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST_F(STDIO_DEATHTEST, snprintf_invalid_w_width) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
char buf[BUFSIZ];
int32_t a = 100;
EXPECT_DEATH(snprintf(buf, sizeof(buf), "%w20d", &a), "%w20 is unsupported");
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST_F(STDIO_DEATHTEST, swprintf_invalid_w_width) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
wchar_t buf[BUFSIZ];
int32_t a = 100;
EXPECT_DEATH(swprintf(buf, sizeof(buf), L"%w20d", &a), "%w20 is unsupported");
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST(STDIO_TEST, snprintf_wf_base) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wconstant-conversion"
#pragma clang diagnostic ignored "-Wformat"
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
int_fast8_t a = 0b101;
EXPECT_SNPRINTF("<101>", "<%wf8b>", a);
int_fast8_t b = 0x12341234'12341234;
EXPECT_SNPRINTF("<34>", "<%wf8x>", b);
uint_fast16_t c = 0x11111111'22222222;
#if defined(__LP64__)
EXPECT_SNPRINTF("<1111111122222222>", "<%wf16x>", c);
#else
EXPECT_SNPRINTF("<22222222>", "<%wf16x>", c);
#endif
int_fast32_t d = 0x33333333'44444444;
#if defined(__LP64__)
EXPECT_SNPRINTF("<3333333344444444>", "<%wf32x>", d);
#else
EXPECT_SNPRINTF("<44444444>", "<%wf32x>", d);
#endif
int_fast64_t e = 0xaaaaaaaa'aaaaaaaa;
EXPECT_SNPRINTF("<aaaaaaaaaaaaaaaa>", "<%wf64x>", e);
EXPECT_SNPRINTF("<AAAAAAAAAAAAAAAA>", "<%wf64X>", e);
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %wf in glibc";
#endif
}
TEST(STDIO_TEST, swprintf_wf_base) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wconstant-conversion"
#pragma clang diagnostic ignored "-Wformat"
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
int_fast8_t a = 0b101;
EXPECT_SWPRINTF(L"<101>", L"<%wf8b>", a);
int_fast8_t b = 0x12341234'12341234;
EXPECT_SWPRINTF(L"<34>", L"<%wf8x>", b);
uint_fast16_t c = 0x11111111'22222222;
#if defined(__LP64__)
EXPECT_SWPRINTF(L"<1111111122222222>", L"<%wf16x>", c);
#else
EXPECT_SWPRINTF(L"<22222222>", L"<%wf16x>", c);
#endif
int_fast32_t d = 0x33333333'44444444;
#if defined(__LP64__)
EXPECT_SWPRINTF(L"<3333333344444444>", L"<%wf32x>", d);
#else
EXPECT_SWPRINTF(L"<44444444>", L"<%wf32x>", d);
#endif
int_fast64_t e = 0xaaaaaaaa'aaaaaaaa;
EXPECT_SWPRINTF(L"<aaaaaaaaaaaaaaaa>", L"<%wf64x>", e);
EXPECT_SWPRINTF(L"<AAAAAAAAAAAAAAAA>", L"<%wf64X>", e);
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %wf in glibc";
#endif
}
TEST(STDIO_TEST, snprintf_wf_arguments_reordering) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wconstant-conversion"
#pragma clang diagnostic ignored "-Wformat"
#pragma clang diagnostic ignored "-Wformat-extra-args"
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
int_fast16_t a = 0x11111111'22222222;
int_fast32_t b = 0x33333333'44444444;
int_fast32_t c = 0xaaaaaaaa'aaaaaaaa;
#if defined(__LP64__)
EXPECT_SNPRINTF(
"<3333333344444444 --- 1010101010101010101010101010101010101010101010101010101010101010>",
"<%2$wf32x --- %1$wf32b>", c, b);
EXPECT_SNPRINTF(
"<1010101010101010101010101010101010101010101010101010101010101010 --- 1111111122222222 --- "
"3333333344444444>",
"<%3$wf32b --- %1$wf16x --- %2$wf32x>", a, b, c);
#else
EXPECT_SNPRINTF("<44444444 --- 10101010101010101010101010101010>", "<%2$wf32x --- %1$wf32b>", c,
b);
EXPECT_SNPRINTF("<10101010101010101010101010101010 --- 22222222 --- 44444444>",
"<%3$wf32b --- %1$wf16x --- %2$wf32x>", a, b, c);
#endif
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST(STDIO_TEST, swprintf_wf_arguments_reordering) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wconstant-conversion"
#pragma clang diagnostic ignored "-Wformat"
#pragma clang diagnostic ignored "-Wformat-extra-args"
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
int_fast16_t a = 0x11111111'22222222;
int_fast32_t b = 0x33333333'44444444;
int_fast32_t c = 0xaaaaaaaa'aaaaaaaa;
#if defined(__LP64__)
EXPECT_SWPRINTF(
L"<3333333344444444 --- 1010101010101010101010101010101010101010101010101010101010101010>",
L"<%2$wf32x --- %1$wf32b>", c, b);
EXPECT_SWPRINTF(
L"<1010101010101010101010101010101010101010101010101010101010101010 --- 1111111122222222 --- "
L"3333333344444444>",
L"<%3$wf32b --- %1$wf16x --- %2$wf32x>", a, b, c);
#else
EXPECT_SWPRINTF(L"<44444444 --- 10101010101010101010101010101010>", L"<%2$wf32x --- %1$wf32b>", c,
b);
EXPECT_SWPRINTF(L"<10101010101010101010101010101010 --- 22222222 --- 44444444>",
L"<%3$wf32b --- %1$wf16x --- %2$wf32x>", a, b, c);
#endif
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST_F(STDIO_DEATHTEST, snprintf_invalid_wf_width) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat"
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
char buf[BUFSIZ];
int_fast32_t a = 100;
EXPECT_DEATH(snprintf(buf, sizeof(buf), "%wf20d", &a), "%wf20 is unsupported");
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST_F(STDIO_DEATHTEST, swprintf_invalid_wf_width) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat"
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
wchar_t buf[BUFSIZ];
int_fast32_t a = 100;
EXPECT_DEATH(swprintf(buf, sizeof(buf), L"%wf20d", &a), "%wf20 is unsupported");
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST(STDIO_TEST, sscanf_w_or_wf_base) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat"
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
int8_t a;
EXPECT_EQ(1, sscanf("<0b101>", "<%w8b>", &a));
EXPECT_EQ(0b101, a);
int_fast8_t fast_a;
EXPECT_EQ(1, sscanf("<0b101>", "<%wf8b>", &fast_a));
EXPECT_EQ(0b101, fast_a);
int8_t b1;
EXPECT_EQ(1, sscanf("<0xFF>", "<%w8i>", &b1));
EXPECT_EQ(-1, b1);
int8_t b2;
EXPECT_EQ(1, sscanf("<0x1FF>", "<%w8i>", &b2));
EXPECT_EQ(-1, b2);
int_fast8_t fast_b;
EXPECT_EQ(1, sscanf("<0x1234123412341234>", "<%wf8x>", &fast_b));
EXPECT_EQ(0x34, fast_b);
int16_t c1;
EXPECT_EQ(1, sscanf("<0xFFFF>", "<%w16i>", &c1));
EXPECT_EQ(-1, c1);
uint16_t c2;
EXPECT_EQ(1, sscanf("<64>", "<%w16d>", &c2));
EXPECT_EQ(64, c2);
int_fast16_t fast_c;
#if defined(__LP64__)
EXPECT_EQ(1, sscanf("<0x1111111122222222>", "<%wf16x>", &fast_c));
EXPECT_EQ(0x1111111122222222, fast_c);
#else
EXPECT_EQ(1, sscanf("<0x1111111122222222>", "<%wf16x>", &fast_c));
EXPECT_EQ(0x22222222, fast_c);
#endif
int32_t d;
EXPECT_EQ(1, sscanf("<021>", "<%w32o>", &d));
EXPECT_EQ(021, d);
int_fast32_t fast_d;
#if defined(__LP64__)
EXPECT_EQ(1, sscanf("<0x3333333344444444>", "<%wf32x>", &fast_d));
EXPECT_EQ(0x3333333344444444, fast_d);
#else
EXPECT_EQ(1, sscanf("<0x3333333344444444>", "<%wf32x>", &fast_d));
EXPECT_EQ(0x44444444, fast_d);
#endif
uint32_t e;
EXPECT_EQ(1, sscanf("<-1>", "<%w32u>", &e));
EXPECT_EQ(4294967295, e);
int64_t f;
EXPECT_EQ(1, sscanf("<0x3b>", "<%w64x>", &f));
EXPECT_EQ(0x3b, f);
EXPECT_EQ(1, sscanf("<0x3b>", "<%w64X>", &f));
EXPECT_EQ(0x3B, f);
uint_fast64_t fast_f;
EXPECT_EQ(1, sscanf("<0xaaaaaaaa>", "<%wf64x>", &fast_f));
EXPECT_EQ(0xaaaaaaaa, fast_f);
EXPECT_EQ(1, sscanf("<0xaaaaaaaa>", "<%wf64X>", &fast_f));
EXPECT_EQ(0xAAAAAAAA, fast_f);
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST(STDIO_TEST, sscanf_w_combination) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat"
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
#pragma clang diagnostic ignored "-Wformat-extra-args"
uint32_t a;
int64_t b;
char c;
EXPECT_EQ(3, sscanf("<0b10101010101010101010101010101010 0x3333333344444444 1>",
"<%w32b %w64x %c>", &a, &b, &c));
EXPECT_EQ(0xaaaaaaaa, a);
EXPECT_EQ(0x3333333344444444, b);
EXPECT_EQ('1', c);
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST_F(STDIO_DEATHTEST, sscanf_invalid_w_or_wf_width) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat"
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
int32_t a;
EXPECT_DEATH(sscanf("<100>", "<%w20d>", &a), "%w20 is unsupported");
int_fast32_t fast_a;
EXPECT_DEATH(sscanf("<100>", "<%wf20d>", &fast_a), "%wf20 is unsupported");
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST(STDIO_TEST, swscanf_w_or_wf_base) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat"
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
int8_t a;
EXPECT_EQ(1, swscanf(L"<0b101>", L"<%w8b>", &a));
EXPECT_EQ(0b101, a);
int_fast8_t fast_a;
EXPECT_EQ(1, swscanf(L"<0b101>", L"<%wf8b>", &fast_a));
EXPECT_EQ(0b101, fast_a);
int8_t b1;
EXPECT_EQ(1, swscanf(L"<0xFF>", L"<%w8i>", &b1));
EXPECT_EQ(-1, b1);
int8_t b2;
EXPECT_EQ(1, swscanf(L"<0x1FF>", L"<%w8i>", &b2));
EXPECT_EQ(-1, b2);
int_fast8_t fast_b;
EXPECT_EQ(1, swscanf(L"<0x1234123412341234>", L"<%wf8i>", &fast_b));
EXPECT_EQ(0x34, fast_b);
int16_t c1;
EXPECT_EQ(1, swscanf(L"<0xFFFF>", L"<%w16i>", &c1));
EXPECT_EQ(-1, c1);
uint16_t c2;
EXPECT_EQ(1, swscanf(L"<64>", L"<%w16d>", &c2));
EXPECT_EQ(64, c2);
int_fast16_t fast_c;
#if defined(__LP64__)
EXPECT_EQ(1, swscanf(L"<0x1111111122222222>", L"<%wf16x>", &fast_c));
EXPECT_EQ(0x1111111122222222, fast_c);
#else
EXPECT_EQ(1, swscanf(L"<0x1111111122222222>", L"<%wf16x>", &fast_c));
EXPECT_EQ(0x22222222, fast_c);
#endif
int32_t d;
EXPECT_EQ(1, swscanf(L"<021>", L"<%w32o>", &d));
EXPECT_EQ(021, d);
int_fast32_t fast_d;
#if defined(__LP64__)
EXPECT_EQ(1, swscanf(L"<0x3333333344444444>", L"<%wf32x>", &fast_d));
EXPECT_EQ(0x3333333344444444, fast_d);
#else
EXPECT_EQ(1, swscanf(L"<0x3333333344444444>", L"<%wf32x>", &fast_d));
EXPECT_EQ(0x44444444, fast_d);
#endif
uint32_t e;
EXPECT_EQ(1, swscanf(L"<-1>", L"<%w32u>", &e));
EXPECT_EQ(4294967295, e);
int64_t f;
EXPECT_EQ(1, swscanf(L"<0x3b>", L"<%w64x>", &f));
EXPECT_EQ(0x3b, f);
EXPECT_EQ(1, swscanf(L"<0x3b>", L"<%w64X>", &f));
EXPECT_EQ(0x3B, f);
uint_fast64_t fast_f;
EXPECT_EQ(1, swscanf(L"<0xaaaaaaaa>", L"<%wf64x>", &fast_f));
EXPECT_EQ(0xaaaaaaaa, fast_f);
EXPECT_EQ(1, swscanf(L"<0xaaaaaaaa>", L"<%wf64X>", &fast_f));
EXPECT_EQ(0xAAAAAAAA, fast_f);
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST(STDIO_TEST, swscanf_w_combination) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat"
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
#pragma clang diagnostic ignored "-Wformat-extra-args"
uint32_t a;
int64_t b;
char c;
EXPECT_EQ(3, swscanf(L"<0b10101010101010101010101010101010 0x3333333344444444 1>",
L"<%w32b %w64x %c>", &a, &b, &c));
EXPECT_EQ(0xaaaaaaaa, a);
EXPECT_EQ(0x3333333344444444, b);
EXPECT_EQ('1', c);
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST_F(STDIO_DEATHTEST, swscanf_invalid_w_or_wf_width) {
#if defined(__BIONIC__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wformat"
#pragma clang diagnostic ignored "-Wformat-invalid-specifier"
int32_t a;
EXPECT_DEATH(swscanf(L"<100>", L"<%w20d>", &a), "%w20 is unsupported");
int_fast32_t fast_a;
EXPECT_DEATH(swscanf(L"<100>", L"<%wf20d>", &fast_a), "%wf20 is unsupported");
#pragma clang diagnostic pop
#else
GTEST_SKIP() << "no %w in glibc";
#endif
}
TEST(STDIO_TEST, printf_lc_0) {
// https://austingroupbugs.net/view.php?id=1647
char buf[BUFSIZ];
EXPECT_EQ(3, snprintf(buf, sizeof(buf), "<%lc>", L'\0'));
EXPECT_TRUE(!memcmp(buf, "<\0>", 3));
}