Google Git
Sign in
llvm / llvm-project / compiler-rt / 87678e24e760becc55c46ddd96577db14f207301 / . / test / dfsan / custom.cpp
blob: 97227fdc3f3eaeb9d056acab27d423c10006cb33 [file] [log] [blame]
// RUN: %clang_dfsan %s -o %t && DFSAN_OPTIONS="strict_data_dependencies=0" %run %t
// RUN: %clang_dfsan %s -o %t && DFSAN_OPTIONS="strict_data_dependencies=0" %run %t
// RUN: %clang_dfsan -DSTRICT_DATA_DEPENDENCIES %s -o %t && %run %t
// RUN: %clang_dfsan -DORIGIN_TRACKING -mllvm -dfsan-track-origins=1 -mllvm -dfsan-combine-pointer-labels-on-load=false -DSTRICT_DATA_DEPENDENCIES %s -o %t && %run %t
// RUN: %clang_dfsan -DORIGIN_TRACKING -mllvm -dfsan-track-origins=1 -mllvm -dfsan-combine-pointer-labels-on-load=false %s -o %t && DFSAN_OPTIONS="strict_data_dependencies=0" %run %t
//
// Tests custom implementations of various glibc functions.
//
// REQUIRES: x86_64-target-arch
#pragma clang diagnostic ignored "-Wformat-extra-args"
#include <sanitizer/dfsan_interface.h>
#include <arpa/inet.h>
#include <assert.h>
#include <fcntl.h>
#include <link.h>
#include <poll.h>
#include <pthread.h>
#include <pwd.h>
#include <sched.h>
#include <signal.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <strings.h>
#include <sys/epoll.h>
#include <sys/resource.h>
#include <sys/select.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/time.h>
#include <sys/types.h>
#include <time.h>
#include <unistd.h>
dfsan_label i_label = 0;
dfsan_label j_label = 0;
dfsan_label k_label = 0;
dfsan_label m_label = 0;
dfsan_label n_label = 0;
dfsan_label i_j_label = 0;
#define ASSERT_ZERO_LABEL(data) \
assert(0 == dfsan_get_label((long) (data)))
#define ASSERT_READ_ZERO_LABEL(ptr, size) \
assert(0 == dfsan_read_label(ptr, size))
#define ASSERT_LABEL(data, label) \
assert(label == dfsan_get_label((long) (data)))
#define ASSERT_READ_LABEL(ptr, size, label) \
assert(label == dfsan_read_label(ptr, size))
#ifdef ORIGIN_TRACKING
#define ASSERT_ZERO_ORIGIN(data) \
assert(0 == dfsan_get_origin((long)(data)))
#else
#define ASSERT_ZERO_ORIGIN(data)
#endif
#ifdef ORIGIN_TRACKING
#define ASSERT_ZERO_ORIGINS(ptr, size) \
for (int i = 0; i < size; ++i) { \
assert(0 == dfsan_get_origin((long)(((char *)ptr)[i]))); \
}
#else
#define ASSERT_ZERO_ORIGINS(ptr, size)
#endif
#ifdef ORIGIN_TRACKING
#define ASSERT_ORIGIN(data, origin) \
assert(origin == dfsan_get_origin((long)(data)))
#else
#define ASSERT_ORIGIN(data, origin)
#endif
#ifdef ORIGIN_TRACKING
#define ASSERT_ORIGINS(ptr, size, origin) \
for (int i = 0; i < size; ++i) { \
assert(origin == dfsan_get_origin((long)(((char *)ptr)[i]))); \
}
#else
#define ASSERT_ORIGINS(ptr, size, origin)
#endif
#ifdef ORIGIN_TRACKING
#define ASSERT_INIT_ORIGIN(ptr, origin) \
assert(origin == dfsan_get_init_origin(ptr))
#else
#define ASSERT_INIT_ORIGIN(ptr, origin)
#endif
#ifdef ORIGIN_TRACKING
#define ASSERT_INIT_ORIGIN_EQ_ORIGIN(ptr, data) \
assert(dfsan_get_origin((long)(data)) == dfsan_get_init_origin(ptr))
#else
#define ASSERT_INIT_ORIGIN_EQ_ORIGIN(ptr, data)
#endif
#ifdef ORIGIN_TRACKING
#define ASSERT_INIT_ORIGINS(ptr, size, origin) \
for (int i = 0; i < size; ++i) { \
assert(origin == dfsan_get_init_origin(&((char *)ptr)[i])); \
}
#else
#define ASSERT_INIT_ORIGINS(ptr, size, origin)
#endif
#ifdef ORIGIN_TRACKING
#define ASSERT_EQ_ORIGIN(data1, data2) \
assert(dfsan_get_origin((long)(data1)) == dfsan_get_origin((long)(data2)))
#else
#define ASSERT_EQ_ORIGIN(data1, data2)
#endif
#ifdef ORIGIN_TRACKING
#define DEFINE_AND_SAVE_ORIGINS(val) \
dfsan_origin val##_o[sizeof(val)]; \
for (int i = 0; i < sizeof(val); ++i) \
val##_o[i] = dfsan_get_origin((long)(((char *)(&val))[i]));
#else
#define DEFINE_AND_SAVE_ORIGINS(val)
#endif
#ifdef ORIGIN_TRACKING
#define SAVE_ORIGINS(val) \
for (int i = 0; i < sizeof(val); ++i) \
val##_o[i] = dfsan_get_origin((long)(((char *)(&val))[i]));
#else
#define SAVE_ORIGINS(val)
#endif
#ifdef ORIGIN_TRACKING
#define ASSERT_SAVED_ORIGINS(val) \
for (int i = 0; i < sizeof(val); ++i) \
ASSERT_ORIGIN(((char *)(&val))[i], val##_o[i]);
#else
#define ASSERT_SAVED_ORIGINS(val)
#endif
#ifdef ORIGIN_TRACKING
#define DEFINE_AND_SAVE_N_ORIGINS(val, n) \
dfsan_origin val##_o[n]; \
for (int i = 0; i < n; ++i) \
val##_o[i] = dfsan_get_origin((long)(val[i]));
#else
#define DEFINE_AND_SAVE_N_ORIGINS(val, n)
#endif
#ifdef ORIGIN_TRACKING
#define ASSERT_SAVED_N_ORIGINS(val, n) \
for (int i = 0; i < n; ++i) \
ASSERT_ORIGIN(val[i], val##_o[i]);
#else
#define ASSERT_SAVED_N_ORIGINS(val, n)
#endif
#if !defined(__GLIBC_PREREQ)
# define __GLIBC_PREREQ(a, b) 0
#endif
void test_stat() {
int i = 1;
dfsan_set_label(i_label, &i, sizeof(i));
struct stat s;
s.st_dev = i;
DEFINE_AND_SAVE_ORIGINS(s)
int ret = stat("/", &s);
assert(0 == ret);
ASSERT_ZERO_LABEL(ret);
ASSERT_ZERO_LABEL(s.st_dev);
ASSERT_SAVED_ORIGINS(s)
s.st_dev = i;
SAVE_ORIGINS(s)
ret = stat("/nonexistent", &s);
assert(-1 == ret);
ASSERT_ZERO_LABEL(ret);
ASSERT_LABEL(s.st_dev, i_label);
ASSERT_SAVED_ORIGINS(s)
}
void test_fstat() {
int i = 1;
dfsan_set_label(i_label, &i, sizeof(i));
struct stat s;
int fd = open("/dev/zero", O_RDONLY);
s.st_dev = i;
DEFINE_AND_SAVE_ORIGINS(s)
int rv = fstat(fd, &s);
assert(0 == rv);
ASSERT_ZERO_LABEL(rv);
ASSERT_ZERO_LABEL(s.st_dev);
ASSERT_SAVED_ORIGINS(s)
}
void test_memcmp() {
char str1[] = "str1", str2[] = "str2";
dfsan_set_label(i_label, &str1[3], 1);
dfsan_set_label(j_label, &str2[3], 1);
int rv = memcmp(str1, str2, sizeof(str1));
assert(rv < 0);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, i_j_label);
ASSERT_EQ_ORIGIN(rv, str1[3]);
#endif
rv = memcmp(str1, str2, sizeof(str1) - 2);
assert(rv == 0);
ASSERT_ZERO_LABEL(rv);
}
void test_bcmp() {
char str1[] = "str1", str2[] = "str2";
dfsan_set_label(i_label, &str1[3], 1);
dfsan_set_label(j_label, &str2[3], 1);
int rv = bcmp(str1, str2, sizeof(str1));
assert(rv != 0);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, i_j_label);
ASSERT_EQ_ORIGIN(rv, str1[3]);
#endif
rv = bcmp(str1, str2, sizeof(str1) - 2);
assert(rv == 0);
ASSERT_ZERO_LABEL(rv);
}
void test_memcpy() {
char str1[] = "str1";
char str2[sizeof(str1)];
dfsan_set_label(i_label, &str1[3], 1);
DEFINE_AND_SAVE_ORIGINS(str1)
char *ptr2 = str2;
dfsan_set_label(j_label, &ptr2, sizeof(ptr2));
void *r = memcpy(ptr2, str1, sizeof(str1));
ASSERT_LABEL(r, j_label);
ASSERT_EQ_ORIGIN(r, ptr2);
assert(0 == memcmp(str2, str1, sizeof(str1)));
ASSERT_ZERO_LABEL(str2[0]);
ASSERT_LABEL(str2[3], i_label);
for (int i = 0; i < sizeof(str2); ++i) {
if (!dfsan_get_label(str2[i]))
continue;
ASSERT_INIT_ORIGIN(&(str2[i]), str1_o[i]);
}
}
void test_memmove() {
char str[] = "str1xx";
dfsan_set_label(i_label, &str[3], 1);
DEFINE_AND_SAVE_ORIGINS(str)
char *ptr = str + 2;
dfsan_set_label(j_label, &ptr, sizeof(ptr));
void *r = memmove(ptr, str, 4);
ASSERT_LABEL(r, j_label);
ASSERT_EQ_ORIGIN(r, ptr);
assert(0 == memcmp(str + 2, "str1", 4));
ASSERT_ZERO_LABEL(str[4]);
ASSERT_LABEL(str[5], i_label);
for (int i = 0; i < 4; ++i) {
if (!dfsan_get_label(ptr[i]))
continue;
ASSERT_INIT_ORIGIN(&(ptr[i]), str_o[i]);
}
}
void test_memset() {
char buf[8];
int j = 'a';
char *ptr = buf;
dfsan_set_label(j_label, &j, sizeof(j));
dfsan_set_label(k_label, &ptr, sizeof(ptr));
void *ret = memset(ptr, j, sizeof(buf));
ASSERT_LABEL(ret, k_label);
ASSERT_EQ_ORIGIN(ret, ptr);
for (int i = 0; i < 8; ++i) {
ASSERT_LABEL(buf[i], j_label);
ASSERT_EQ_ORIGIN(buf[i], j);
assert(buf[i] == 'a');
}
}
void test_strcmp() {
char str1[] = "str1", str2[] = "str2";
dfsan_set_label(i_label, &str1[3], 1);
dfsan_set_label(j_label, &str2[3], 1);
int rv = strcmp(str1, str2);
assert(rv < 0);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, i_j_label);
ASSERT_EQ_ORIGIN(rv, str1[3]);
#endif
rv = strcmp(str1, str1);
assert(rv == 0);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
ASSERT_ZERO_ORIGIN(rv);
#else
ASSERT_LABEL(rv, i_label);
ASSERT_EQ_ORIGIN(rv, str1[3]);
#endif
}
void test_strcat() {
char src[] = "world";
int volatile x = 0; // buffer to ensure src and dst do not share origins
(void)x;
char dst[] = "hello \0 ";
int volatile y = 0; // buffer to ensure dst and p do not share origins
(void)y;
char *p = dst;
dfsan_set_label(k_label, &p, sizeof(p));
dfsan_set_label(i_label, src, sizeof(src));
dfsan_set_label(j_label, dst, sizeof(dst));
dfsan_origin dst_o = dfsan_get_origin((long)dst[0]);
(void)dst_o;
char *ret = strcat(p, src);
ASSERT_LABEL(ret, k_label);
ASSERT_EQ_ORIGIN(ret, p);
assert(ret == dst);
assert(strcmp(src, dst + 6) == 0);
// Origins are assigned for every 4 contiguous 4-aligned bytes. After
// appending src to dst, origins of src can overwrite origins of dst if their
// application adddresses are within [start_aligned_down, end_aligned_up).
// Other origins are not changed.
char *start_aligned_down = (char *)(((size_t)(dst + 6)) & ~3UL);
char *end_aligned_up = (char *)(((size_t)(dst + 11 + 4)) & ~3UL);
for (int i = 0; i < 12; ++i) {
if (dst + i < start_aligned_down || dst + i >= end_aligned_up) {
ASSERT_INIT_ORIGIN(&dst[i], dst_o);
} else {
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&dst[i], src[0]);
}
}
for (int i = 0; i < 6; ++i) {
ASSERT_LABEL(dst[i], j_label);
}
for (int i = 6; i < strlen(dst); ++i) {
ASSERT_LABEL(dst[i], i_label);
assert(dfsan_get_label(dst[i]) == dfsan_get_label(src[i - 6]));
}
ASSERT_LABEL(dst[11], j_label);
}
void test_strlen() {
char str1[] = "str1";
dfsan_set_label(i_label, &str1[3], 1);
int rv = strlen(str1);
assert(rv == 4);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, i_label);
ASSERT_EQ_ORIGIN(rv, str1[3]);
#endif
}
void test_strdup() {
char str1[] = "str1";
dfsan_set_label(i_label, &str1[3], 1);
DEFINE_AND_SAVE_ORIGINS(str1)
char *strd = strdup(str1);
ASSERT_ZERO_LABEL(strd);
ASSERT_ZERO_LABEL(strd[0]);
ASSERT_LABEL(strd[3], i_label);
for (int i = 0; i < strlen(strd); ++i) {
if (!dfsan_get_label(strd[i]))
continue;
ASSERT_INIT_ORIGIN(&(strd[i]), str1_o[i]);
}
free(strd);
}
void test_strncpy() {
char str1[] = "str1";
char str2[sizeof(str1)];
dfsan_set_label(i_label, &str1[3], 1);
char *strd = strncpy(str2, str1, 5);
assert(strd == str2);
assert(strcmp(str1, str2) == 0);
ASSERT_ZERO_LABEL(strd);
ASSERT_ZERO_LABEL(strd[0]);
ASSERT_ZERO_LABEL(strd[1]);
ASSERT_ZERO_LABEL(strd[2]);
ASSERT_LABEL(strd[3], i_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&(strd[3]), str1[3]);
char *p2 = str2;
dfsan_set_label(j_label, &p2, sizeof(p2));
strd = strncpy(p2, str1, 3);
assert(strd == str2);
assert(strncmp(str1, str2, 3) == 0);
ASSERT_LABEL(strd, j_label);
ASSERT_EQ_ORIGIN(strd, p2);
// When -dfsan-combine-pointer-labels-on-load is on, strd's label propagates
// to strd[i]'s label. When ORIGIN_TRACKING is defined,
// -dfsan-combine-pointer-labels-on-load is always off, otherwise the flag
// is on by default.
#if defined(ORIGIN_TRACKING)
ASSERT_ZERO_LABEL(strd[0]);
ASSERT_ZERO_LABEL(strd[1]);
ASSERT_ZERO_LABEL(strd[2]);
#else
ASSERT_LABEL(strd[0], j_label);
ASSERT_LABEL(strd[1], j_label);
ASSERT_LABEL(strd[2], j_label);
#endif
}
void test_strncmp() {
char str1[] = "str1", str2[] = "str2";
dfsan_set_label(i_label, &str1[3], 1);
dfsan_set_label(j_label, &str2[3], 1);
int rv = strncmp(str1, str2, sizeof(str1));
assert(rv < 0);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, dfsan_union(i_label, j_label));
ASSERT_EQ_ORIGIN(rv, str1[3]);
#endif
rv = strncmp(str1, str2, 0);
assert(rv == 0);
ASSERT_ZERO_LABEL(rv);
rv = strncmp(str1, str2, 3);
assert(rv == 0);
ASSERT_ZERO_LABEL(rv);
rv = strncmp(str1, str1, 4);
assert(rv == 0);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, i_label);
ASSERT_EQ_ORIGIN(rv, str1[3]);
#endif
}
void test_strcasecmp() {
char str1[] = "str1", str2[] = "str2", str3[] = "Str1";
dfsan_set_label(i_label, &str1[3], 1);
dfsan_set_label(j_label, &str2[3], 1);
dfsan_set_label(j_label, &str3[2], 1);
int rv = strcasecmp(str1, str2);
assert(rv < 0);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, dfsan_union(i_label, j_label));
ASSERT_EQ_ORIGIN(rv, str1[3]);
#endif
rv = strcasecmp(str1, str3);
assert(rv == 0);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, dfsan_union(i_label, j_label));
ASSERT_EQ_ORIGIN(rv, str1[3]);
#endif
char s1[] = "AbZ";
char s2[] = "aBy";
dfsan_set_label(i_label, &s1[2], 1);
dfsan_set_label(j_label, &s2[2], 1);
rv = strcasecmp(s1, s2);
assert(rv > 0); // 'Z' > 'y'
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, dfsan_union(i_label, j_label));
ASSERT_EQ_ORIGIN(rv, s1[2]);
#endif
}
void test_strncasecmp() {
char str1[] = "Str1", str2[] = "str2";
dfsan_set_label(i_label, &str1[3], 1);
dfsan_set_label(j_label, &str2[3], 1);
int rv = strncasecmp(str1, str2, sizeof(str1));
assert(rv < 0);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, dfsan_union(i_label, j_label));
ASSERT_EQ_ORIGIN(rv, str1[3]);
#endif
rv = strncasecmp(str1, str2, 3);
assert(rv == 0);
ASSERT_ZERO_LABEL(rv);
char s1[] = "AbZ";
char s2[] = "aBy";
dfsan_set_label(i_label, &s1[2], 1);
dfsan_set_label(j_label, &s2[2], 1);
rv = strncasecmp(s1, s2, 0);
assert(rv == 0); // Compare zero chars.
ASSERT_ZERO_LABEL(rv);
rv = strncasecmp(s1, s2, 1);
assert(rv == 0); // 'A' == 'a'
ASSERT_ZERO_LABEL(rv);
rv = strncasecmp(s1, s2, 2);
assert(rv == 0); // 'b' == 'B'
ASSERT_ZERO_LABEL(rv);
rv = strncasecmp(s1, s2, 3);
assert(rv > 0); // 'Z' > 'y'
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, dfsan_union(i_label, j_label));
ASSERT_EQ_ORIGIN(rv, s1[2]);
#endif
}
void test_strchr() {
char str1[] = "str1";
dfsan_set_label(i_label, &str1[3], 1);
char *p1 = str1;
char c = 'r';
dfsan_set_label(k_label, &c, sizeof(c));
char *crv = strchr(p1, c);
assert(crv == &str1[2]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(crv);
#else
ASSERT_LABEL(crv, k_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&crv, c);
#endif
dfsan_set_label(j_label, &p1, sizeof(p1));
crv = strchr(p1, 'r');
assert(crv == &str1[2]);
ASSERT_LABEL(crv, j_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&crv, p1);
crv = strchr(p1, '1');
assert(crv == &str1[3]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_LABEL(crv, j_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&crv, p1);
#else
ASSERT_LABEL(crv, i_j_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&crv, str1[3]);
#endif
crv = strchr(p1, 'x');
assert(!crv);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_LABEL(crv, j_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&crv, p1);
#else
ASSERT_LABEL(crv, i_j_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&crv, str1[3]);
#endif
// `man strchr` says:
// The terminating null byte is considered part of the string, so that if c
// is specified as '\0', these functions return a pointer to the terminator.
crv = strchr(p1, '\0');
assert(crv == &str1[4]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_LABEL(crv, j_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&crv, p1);
#else
ASSERT_LABEL(crv, i_j_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&crv, str1[3]);
#endif
}
void test_recvmmsg() {
int sockfds[2];
int ret = socketpair(AF_UNIX, SOCK_DGRAM, 0, sockfds);
assert(ret != -1);
// Setup messages to send.
struct mmsghdr smmsg[2] = {};
char sbuf0[] = "abcdefghijkl";
struct iovec siov0[2] = {{&sbuf0[0], 4}, {&sbuf0[4], 4}};
smmsg[0].msg_hdr.msg_iov = siov0;
smmsg[0].msg_hdr.msg_iovlen = 2;
char sbuf1[] = "1234567890";
struct iovec siov1[1] = {{&sbuf1[0], 7}};
smmsg[1].msg_hdr.msg_iov = siov1;
smmsg[1].msg_hdr.msg_iovlen = 1;
// Send messages.
int sent_msgs = sendmmsg(sockfds[0], smmsg, 2, 0);
assert(sent_msgs == 2);
// Setup receive buffers.
struct mmsghdr rmmsg[2] = {};
char rbuf0[128];
struct iovec riov0[2] = {{&rbuf0[0], 4}, {&rbuf0[4], 4}};
rmmsg[0].msg_hdr.msg_iov = riov0;
rmmsg[0].msg_hdr.msg_iovlen = 2;
char rbuf1[128];
struct iovec riov1[1] = {{&rbuf1[0], 16}};
rmmsg[1].msg_hdr.msg_iov = riov1;
rmmsg[1].msg_hdr.msg_iovlen = 1;
struct timespec timeout = {1, 1};
dfsan_set_label(i_label, rbuf0, sizeof(rbuf0));
dfsan_set_label(i_label, rbuf1, sizeof(rbuf1));
dfsan_set_label(i_label, &rmmsg[0].msg_len, sizeof(rmmsg[0].msg_len));
dfsan_set_label(i_label, &rmmsg[1].msg_len, sizeof(rmmsg[1].msg_len));
dfsan_set_label(i_label, &timeout, sizeof(timeout));
dfsan_origin msg_len0_o = dfsan_get_origin((long)(rmmsg[0].msg_len));
dfsan_origin msg_len1_o = dfsan_get_origin((long)(rmmsg[1].msg_len));
#ifndef ORIGIN_TRACKING
(void)msg_len0_o;
(void)msg_len1_o;
#endif
// Receive messages and check labels.
int received_msgs = recvmmsg(sockfds[1], rmmsg, 2, 0, &timeout);
assert(received_msgs == sent_msgs);
assert(rmmsg[0].msg_len == smmsg[0].msg_len);
assert(rmmsg[1].msg_len == smmsg[1].msg_len);
assert(memcmp(sbuf0, rbuf0, 8) == 0);
assert(memcmp(sbuf1, rbuf1, 7) == 0);
ASSERT_ZERO_LABEL(received_msgs);
ASSERT_ZERO_LABEL(rmmsg[0].msg_len);
ASSERT_ZERO_LABEL(rmmsg[1].msg_len);
ASSERT_READ_ZERO_LABEL(&rbuf0[0], 8);
ASSERT_READ_LABEL(&rbuf0[8], 1, i_label);
ASSERT_READ_ZERO_LABEL(&rbuf1[0], 7);
ASSERT_READ_LABEL(&rbuf1[7], 1, i_label);
ASSERT_LABEL(timeout.tv_sec, i_label);
ASSERT_LABEL(timeout.tv_nsec, i_label);
ASSERT_ORIGIN((long)(rmmsg[0].msg_len), msg_len0_o);
ASSERT_ORIGIN((long)(rmmsg[1].msg_len), msg_len1_o);
close(sockfds[0]);
close(sockfds[1]);
}
void test_recvmsg() {
int sockfds[2];
int ret = socketpair(AF_UNIX, SOCK_DGRAM, 0, sockfds);
assert(ret != -1);
char sbuf[] = "abcdefghijkl";
struct iovec siovs[2] = {{&sbuf[0], 4}, {&sbuf[4], 4}};
struct msghdr smsg = {};
smsg.msg_iov = siovs;
smsg.msg_iovlen = 2;
ssize_t sent = sendmsg(sockfds[0], &smsg, 0);
assert(sent > 0);
char rbuf[128];
struct iovec riovs[2] = {{&rbuf[0], 4}, {&rbuf[4], 4}};
struct msghdr rmsg = {};
rmsg.msg_iov = riovs;
rmsg.msg_iovlen = 2;
dfsan_set_label(i_label, rbuf, sizeof(rbuf));
dfsan_set_label(i_label, &rmsg, sizeof(rmsg));
DEFINE_AND_SAVE_ORIGINS(rmsg)
ssize_t received = recvmsg(sockfds[1], &rmsg, 0);
assert(received == sent);
assert(memcmp(sbuf, rbuf, 8) == 0);
ASSERT_ZERO_LABEL(received);
ASSERT_READ_ZERO_LABEL(&rmsg, sizeof(rmsg));
ASSERT_READ_ZERO_LABEL(&rbuf[0], 8);
ASSERT_READ_LABEL(&rbuf[8], 1, i_label);
ASSERT_SAVED_ORIGINS(rmsg)
close(sockfds[0]);
close(sockfds[1]);
}
void test_read() {
char buf[16];
dfsan_set_label(i_label, buf, 1);
dfsan_set_label(j_label, buf + 15, 1);
DEFINE_AND_SAVE_ORIGINS(buf)
ASSERT_LABEL(buf[0], i_label);
ASSERT_LABEL(buf[15], j_label);
int fd = open("/dev/zero", O_RDONLY);
int rv = read(fd, buf, sizeof(buf));
assert(rv == sizeof(buf));
ASSERT_ZERO_LABEL(rv);
ASSERT_ZERO_LABEL(buf[0]);
ASSERT_ZERO_LABEL(buf[15]);
ASSERT_SAVED_ORIGINS(buf)
close(fd);
}
void test_pread() {
char buf[16];
dfsan_set_label(i_label, buf, 1);
dfsan_set_label(j_label, buf + 15, 1);
DEFINE_AND_SAVE_ORIGINS(buf)
ASSERT_LABEL(buf[0], i_label);
ASSERT_LABEL(buf[15], j_label);
int fd = open("/bin/sh", O_RDONLY);
int rv = pread(fd, buf, sizeof(buf), 0);
assert(rv == sizeof(buf));
ASSERT_ZERO_LABEL(rv);
ASSERT_ZERO_LABEL(buf[0]);
ASSERT_ZERO_LABEL(buf[15]);
ASSERT_SAVED_ORIGINS(buf)
close(fd);
}
void test_dlopen() {
void *map = dlopen(NULL, RTLD_NOW);
assert(map);
ASSERT_ZERO_LABEL(map);
dlclose(map);
map = dlopen("/nonexistent", RTLD_NOW);
assert(!map);
ASSERT_ZERO_LABEL(map);
}
void test_clock_gettime() {
struct timespec tp;
dfsan_set_label(j_label, ((char *)&tp) + 3, 1);
dfsan_origin origin = dfsan_get_origin((long)(((char *)&tp)[3]));
#ifndef ORIGIN_TRACKING
(void)origin;
#endif
int t = clock_gettime(CLOCK_REALTIME, &tp);
assert(t == 0);
ASSERT_ZERO_LABEL(t);
ASSERT_ZERO_LABEL(((char *)&tp)[3]);
ASSERT_ORIGIN(((char *)&tp)[3], origin);
}
void test_ctime_r() {
char *buf = (char*) malloc(64);
time_t t = 0;
DEFINE_AND_SAVE_ORIGINS(buf)
dfsan_origin t_o = dfsan_get_origin((long)t);
char *ret = ctime_r(&t, buf);
ASSERT_ZERO_LABEL(ret);
assert(buf == ret);
ASSERT_READ_ZERO_LABEL(buf, strlen(buf) + 1);
ASSERT_SAVED_ORIGINS(buf)
dfsan_set_label(i_label, &t, sizeof(t));
t_o = dfsan_get_origin((long)t);
ret = ctime_r(&t, buf);
ASSERT_ZERO_LABEL(ret);
ASSERT_READ_LABEL(buf, strlen(buf) + 1, i_label);
for (int i = 0; i < strlen(buf) + 1; ++i)
ASSERT_ORIGIN(buf[i], t_o);
t = 0;
dfsan_set_label(j_label, &buf, sizeof(&buf));
dfsan_origin buf_ptr_o = dfsan_get_origin((long)buf);
#ifndef ORIGIN_TRACKING
(void)buf_ptr_o;
#endif
ret = ctime_r(&t, buf);
ASSERT_LABEL(ret, j_label);
ASSERT_ORIGIN(ret, buf_ptr_o);
ASSERT_READ_ZERO_LABEL(buf, strlen(buf) + 1);
for (int i = 0; i < strlen(buf) + 1; ++i)
ASSERT_ORIGIN(buf[i], t_o);
}
static int write_callback_count = 0;
static int last_fd;
static const unsigned char *last_buf;
static size_t last_count;
void write_callback(int fd, const void *buf, size_t count) {
write_callback_count++;
last_fd = fd;
last_buf = (const unsigned char*) buf;
last_count = count;
}
void test_dfsan_set_write_callback() {
char buf[] = "Sample chars";
int buf_len = strlen(buf);
int fd = open("/dev/null", O_WRONLY);
dfsan_set_write_callback(write_callback);
write_callback_count = 0;
DEFINE_AND_SAVE_ORIGINS(buf)
// Callback should be invoked on every call to write().
int res = write(fd, buf, buf_len);
assert(write_callback_count == 1);
ASSERT_READ_ZERO_LABEL(&res, sizeof(res));
ASSERT_READ_ZERO_LABEL(&last_fd, sizeof(last_fd));
ASSERT_READ_ZERO_LABEL(last_buf, sizeof(last_buf));
ASSERT_READ_ZERO_LABEL(&last_count, sizeof(last_count));
for (int i = 0; i < buf_len; ++i)
ASSERT_ORIGIN(last_buf[i], buf_o[i]);
ASSERT_ZERO_ORIGINS(&last_count, sizeof(last_count));
// Add a label to write() arguments. Check that the labels are readable from
// the values passed to the callback.
dfsan_set_label(i_label, &fd, sizeof(fd));
dfsan_set_label(j_label, &(buf[3]), 1);
dfsan_set_label(k_label, &buf_len, sizeof(buf_len));
dfsan_origin fd_o = dfsan_get_origin((long)fd);
dfsan_origin buf3_o = dfsan_get_origin((long)(buf[3]));
dfsan_origin buf_len_o = dfsan_get_origin((long)buf_len);
#ifndef ORIGIN_TRACKING
(void)fd_o;
(void)buf3_o;
(void)buf_len_o;
#endif
res = write(fd, buf, buf_len);
assert(write_callback_count == 2);
ASSERT_READ_ZERO_LABEL(&res, sizeof(res));
ASSERT_READ_LABEL(&last_fd, sizeof(last_fd), i_label);
ASSERT_READ_LABEL(&last_buf[3], sizeof(last_buf[3]), j_label);
ASSERT_READ_LABEL(last_buf, sizeof(last_buf), j_label);
ASSERT_READ_LABEL(&last_count, sizeof(last_count), k_label);
ASSERT_ZERO_ORIGINS(&res, sizeof(res));
ASSERT_INIT_ORIGINS(&last_fd, sizeof(last_fd), fd_o);
ASSERT_INIT_ORIGINS(&last_buf[3], sizeof(last_buf[3]), buf3_o);
// Origins are assigned for every 4 contiguous 4-aligned bytes. After
// appending src to dst, origins of src can overwrite origins of dst if their
// application adddresses are within an aligned range. Other origins are not
// changed.
for (int i = 0; i < buf_len; ++i) {
size_t i_addr = size_t(&last_buf[i]);
if (((size_t(&last_buf[3]) & ~3UL) > i_addr) ||
(((size_t(&last_buf[3]) + 4) & ~3UL) <= i_addr))
ASSERT_ORIGIN(last_buf[i], buf_o[i]);
}
ASSERT_INIT_ORIGINS(&last_count, sizeof(last_count), buf_len_o);
dfsan_set_write_callback(NULL);
}
void test_fgets() {
char *buf = (char*) malloc(128);
FILE *f = fopen("/etc/passwd", "r");
dfsan_set_label(j_label, buf, 1);
DEFINE_AND_SAVE_N_ORIGINS(buf, 128)
char *ret = fgets(buf, sizeof(buf), f);
assert(ret == buf);
ASSERT_ZERO_LABEL(ret);
ASSERT_EQ_ORIGIN(ret, buf);
ASSERT_READ_ZERO_LABEL(buf, 128);
ASSERT_SAVED_N_ORIGINS(buf, 128)
dfsan_set_label(j_label, &buf, sizeof(&buf));
ret = fgets(buf, sizeof(buf), f);
ASSERT_LABEL(ret, j_label);
ASSERT_EQ_ORIGIN(ret, buf);
ASSERT_SAVED_N_ORIGINS(buf, 128)
fclose(f);
free(buf);
}
void test_getcwd() {
char buf[1024];
char *ptr = buf;
dfsan_set_label(i_label, buf + 2, 2);
DEFINE_AND_SAVE_ORIGINS(buf)
char* ret = getcwd(buf, sizeof(buf));
assert(ret == buf);
assert(ret[0] == '/');
ASSERT_ZERO_LABEL(ret);
ASSERT_EQ_ORIGIN(ret, buf);
ASSERT_READ_ZERO_LABEL(buf + 2, 2);
ASSERT_SAVED_ORIGINS(buf)
dfsan_set_label(i_label, &ptr, sizeof(ptr));
ret = getcwd(ptr, sizeof(buf));
ASSERT_LABEL(ret, i_label);
ASSERT_EQ_ORIGIN(ret, ptr);
ASSERT_SAVED_ORIGINS(buf)
}
void test_get_current_dir_name() {
char* ret = get_current_dir_name();
assert(ret);
assert(ret[0] == '/');
ASSERT_READ_ZERO_LABEL(ret, strlen(ret) + 1);
ASSERT_ZERO_LABEL(ret);
}
void test_getentropy() {
char buf[64];
dfsan_set_label(i_label, buf + 2, 2);
DEFINE_AND_SAVE_ORIGINS(buf)
#if __GLIBC_PREREQ(2, 25)
// glibc >= 2.25 has getentropy()
int ret = getentropy(buf, sizeof(buf));
ASSERT_ZERO_LABEL(ret);
if (ret == 0) {
ASSERT_READ_ZERO_LABEL(buf + 2, 2);
ASSERT_SAVED_ORIGINS(buf)
}
#endif
}
void test_gethostname() {
char buf[1024];
dfsan_set_label(i_label, buf + 2, 2);
DEFINE_AND_SAVE_ORIGINS(buf)
int ret = gethostname(buf, sizeof(buf));
assert(ret == 0);
ASSERT_ZERO_LABEL(ret);
ASSERT_READ_ZERO_LABEL(buf + 2, 2);
ASSERT_SAVED_ORIGINS(buf)
}
void test_getrlimit() {
struct rlimit rlim;
dfsan_set_label(i_label, &rlim, sizeof(rlim));
DEFINE_AND_SAVE_ORIGINS(rlim);
int ret = getrlimit(RLIMIT_CPU, &rlim);
assert(ret == 0);
ASSERT_ZERO_LABEL(ret);
ASSERT_READ_ZERO_LABEL(&rlim, sizeof(rlim));
ASSERT_SAVED_ORIGINS(rlim)
}
void test_getrusage() {
struct rusage usage;
dfsan_set_label(i_label, &usage, sizeof(usage));
DEFINE_AND_SAVE_ORIGINS(usage);
int ret = getrusage(RUSAGE_SELF, &usage);
assert(ret == 0);
ASSERT_ZERO_LABEL(ret);
ASSERT_READ_ZERO_LABEL(&usage, sizeof(usage));
ASSERT_SAVED_ORIGINS(usage)
}
void test_strcpy() {
char src[] = "hello world";
char dst[sizeof(src) + 2];
char *p_dst = dst;
dfsan_set_label(0, src, sizeof(src));
dfsan_set_label(0, dst, sizeof(dst));
dfsan_set_label(k_label, &p_dst, sizeof(p_dst));
dfsan_set_label(i_label, src + 2, 1);
dfsan_set_label(j_label, src + 3, 1);
dfsan_set_label(j_label, dst + 4, 1);
dfsan_set_label(i_label, dst + 12, 1);
char *ret = strcpy(p_dst, src);
assert(ret == dst);
assert(strcmp(src, dst) == 0);
ASSERT_LABEL(ret, k_label);
ASSERT_EQ_ORIGIN(ret, p_dst);
for (int i = 0; i < strlen(src) + 1; ++i) {
assert(dfsan_get_label(dst[i]) == dfsan_get_label(src[i]));
if (dfsan_get_label(dst[i]))
assert(dfsan_get_init_origin(&dst[i]) == dfsan_get_origin(src[i]));
}
// Note: if strlen(src) + 1 were used instead to compute the first untouched
// byte of dest, the label would be I|J. This is because strlen() might
// return a non-zero label, and because by default pointer labels are not
// ignored on loads.
ASSERT_LABEL(dst[12], i_label);
}
void test_strtol() {
char non_number_buf[] = "ab ";
char *endptr = NULL;
long int ret = strtol(non_number_buf, &endptr, 10);
assert(ret == 0);
assert(endptr == non_number_buf);
ASSERT_ZERO_LABEL(ret);
char buf[] = "1234578910";
int base = 10;
dfsan_set_label(k_label, &base, sizeof(base));
ret = strtol(buf, &endptr, base);
assert(ret == 1234578910);
assert(endptr == buf + 10);
ASSERT_LABEL(ret, k_label);
ASSERT_EQ_ORIGIN(ret, base);
dfsan_set_label(i_label, buf + 1, 1);
dfsan_set_label(j_label, buf + 10, 1);
ret = strtol(buf, &endptr, 10);
assert(ret == 1234578910);
assert(endptr == buf + 10);
ASSERT_LABEL(ret, i_j_label);
ASSERT_EQ_ORIGIN(ret, buf[1]);
}
void test_strtoll() {
char non_number_buf[] = "ab ";
char *endptr = NULL;
long long int ret = strtoll(non_number_buf, &endptr, 10);
assert(ret == 0);
assert(endptr == non_number_buf);
ASSERT_ZERO_LABEL(ret);
char buf[] = "1234578910 ";
int base = 10;
dfsan_set_label(k_label, &base, sizeof(base));
ret = strtoll(buf, &endptr, base);
assert(ret == 1234578910);
assert(endptr == buf + 10);
ASSERT_LABEL(ret, k_label);
ASSERT_EQ_ORIGIN(ret, base);
dfsan_set_label(i_label, buf + 1, 1);
dfsan_set_label(j_label, buf + 2, 1);
ret = strtoll(buf, &endptr, 10);
assert(ret == 1234578910);
assert(endptr == buf + 10);
ASSERT_LABEL(ret, i_j_label);
ASSERT_EQ_ORIGIN(ret, buf[1]);
}
void test_strtoul() {
char non_number_buf[] = "xy ";
char *endptr = NULL;
long unsigned int ret = strtoul(non_number_buf, &endptr, 16);
assert(ret == 0);
assert(endptr == non_number_buf);
ASSERT_ZERO_LABEL(ret);
char buf[] = "ffffffffffffaa";
int base = 16;
dfsan_set_label(k_label, &base, sizeof(base));
ret = strtoul(buf, &endptr, base);
assert(ret == 72057594037927850);
assert(endptr == buf + 14);
ASSERT_LABEL(ret, k_label);
ASSERT_EQ_ORIGIN(ret, base);
dfsan_set_label(i_label, buf + 1, 1);
dfsan_set_label(j_label, buf + 2, 1);
ret = strtoul(buf, &endptr, 16);
assert(ret == 72057594037927850);
assert(endptr == buf + 14);
ASSERT_LABEL(ret, i_j_label);
ASSERT_EQ_ORIGIN(ret, buf[1]);
}
void test_strtoull() {
char non_number_buf[] = "xy ";
char *endptr = NULL;
long long unsigned int ret = strtoull(non_number_buf, &endptr, 16);
assert(ret == 0);
assert(endptr == non_number_buf);
ASSERT_ZERO_LABEL(ret);
char buf[] = "ffffffffffffffaa";
int base = 16;
dfsan_set_label(k_label, &base, sizeof(base));
ret = strtoull(buf, &endptr, base);
assert(ret == 0xffffffffffffffaa);
assert(endptr == buf + 16);
ASSERT_LABEL(ret, k_label);
ASSERT_EQ_ORIGIN(ret, base);
dfsan_set_label(i_label, buf + 1, 1);
dfsan_set_label(j_label, buf + 2, 1);
ret = strtoull(buf, &endptr, 16);
assert(ret == 0xffffffffffffffaa);
assert(endptr == buf + 16);
ASSERT_LABEL(ret, i_j_label);
ASSERT_EQ_ORIGIN(ret, buf[1]);
}
void test_strtod() {
char non_number_buf[] = "ab ";
char *endptr = NULL;
double ret = strtod(non_number_buf, &endptr);
assert(ret == 0);
assert(endptr == non_number_buf);
ASSERT_ZERO_LABEL(ret);
char buf[] = "12345.76 foo";
dfsan_set_label(i_label, buf + 1, 1);
dfsan_set_label(j_label, buf + 6, 1);
ret = strtod(buf, &endptr);
assert(ret == 12345.76);
assert(endptr == buf + 8);
ASSERT_LABEL(ret, i_j_label);
ASSERT_EQ_ORIGIN(ret, buf[1]);
}
void test_time() {
time_t t = 0;
dfsan_set_label(i_label, &t, 1);
DEFINE_AND_SAVE_ORIGINS(t)
time_t ret = time(&t);
assert(ret == t);
assert(ret > 0);
ASSERT_ZERO_LABEL(ret);
ASSERT_ZERO_LABEL(t);
ASSERT_SAVED_ORIGINS(t)
}
void test_inet_pton() {
char addr4[] = "127.0.0.1";
dfsan_set_label(i_label, addr4 + 3, 1);
struct in_addr in4;
int ret4 = inet_pton(AF_INET, addr4, &in4);
assert(ret4 == 1);
ASSERT_ZERO_LABEL(ret4);
ASSERT_READ_LABEL(&in4, sizeof(in4), i_label);
ASSERT_ORIGINS(&in4, sizeof(in4), dfsan_get_origin((long)(addr4[3])))
assert(in4.s_addr == htonl(0x7f000001));
char addr6[] = "::1";
dfsan_set_label(j_label, addr6 + 3, 1);
struct in6_addr in6;
int ret6 = inet_pton(AF_INET6, addr6, &in6);
assert(ret6 == 1);
ASSERT_ZERO_LABEL(ret6);
ASSERT_READ_LABEL(((char *) &in6) + sizeof(in6) - 1, 1, j_label);
ASSERT_ORIGINS(&in6, sizeof(in6), dfsan_get_origin((long)(addr6[3])))
}
void test_localtime_r() {
time_t t0 = 1384800998;
struct tm t1;
dfsan_set_label(i_label, &t0, sizeof(t0));
dfsan_origin t0_o = dfsan_get_origin((long)t0);
struct tm *pt1 = &t1;
dfsan_set_label(j_label, &pt1, sizeof(pt1));
dfsan_origin pt1_o = dfsan_get_origin((long)pt1);
#ifndef ORIGIN_TRACKING
(void)t0_o;
(void)pt1_o;
#endif
struct tm *ret = localtime_r(&t0, pt1);
assert(ret == &t1);
assert(t1.tm_min == 56);
ASSERT_LABEL(ret, j_label);
ASSERT_INIT_ORIGIN(&ret, pt1_o);
ASSERT_READ_LABEL(&ret, sizeof(ret), j_label);
ASSERT_LABEL(t1.tm_mon, i_label);
ASSERT_ORIGIN(t1.tm_mon, t0_o);
}
void test_getpwuid_r() {
struct passwd pwd;
char buf[1024];
struct passwd *result;
dfsan_set_label(i_label, &pwd, 4);
DEFINE_AND_SAVE_ORIGINS(pwd)
DEFINE_AND_SAVE_ORIGINS(buf)
int ret = getpwuid_r(0, &pwd, buf, sizeof(buf), &result);
assert(ret == 0);
assert(strcmp(pwd.pw_name, "root") == 0);
assert(result == &pwd);
ASSERT_ZERO_LABEL(ret);
ASSERT_READ_ZERO_LABEL(&pwd, 4);
ASSERT_SAVED_ORIGINS(pwd)
ASSERT_SAVED_ORIGINS(buf)
}
void test_epoll_wait() {
// Set up a pipe to monitor with epoll.
int pipe_fds[2];
int ret = pipe(pipe_fds);
assert(ret != -1);
// Configure epoll to monitor the pipe.
int epfd = epoll_create1(0);
assert(epfd != -1);
struct epoll_event event;
event.events = EPOLLIN;
event.data.fd = pipe_fds[0];
ret = epoll_ctl(epfd, EPOLL_CTL_ADD, pipe_fds[0], &event);
assert(ret != -1);
// Test epoll_wait when no events have occurred.
event = {};
dfsan_set_label(i_label, &event, sizeof(event));
DEFINE_AND_SAVE_ORIGINS(event)
ret = epoll_wait(epfd, &event, /*maxevents=*/1, /*timeout=*/0);
assert(ret == 0);
assert(event.events == 0);
assert(event.data.fd == 0);
ASSERT_ZERO_LABEL(ret);
ASSERT_READ_LABEL(&event, sizeof(event), i_label);
ASSERT_SAVED_ORIGINS(event)
// Test epoll_wait when an event occurs.
write(pipe_fds[1], "x", 1);
ret = epoll_wait(epfd, &event, /*maxevents=*/1, /*timeout=*/0);
assert(ret == 1);
assert(event.events == EPOLLIN);
assert(event.data.fd == pipe_fds[0]);
ASSERT_ZERO_LABEL(ret);
ASSERT_READ_ZERO_LABEL(&event, sizeof(event));
ASSERT_SAVED_ORIGINS(event)
// Clean up.
close(epfd);
close(pipe_fds[0]);
close(pipe_fds[1]);
}
void test_poll() {
struct pollfd fd;
fd.fd = 0;
fd.events = POLLIN;
dfsan_set_label(i_label, &fd.revents, sizeof(fd.revents));
DEFINE_AND_SAVE_ORIGINS(fd)
int ret = poll(&fd, 1, 1);
ASSERT_ZERO_LABEL(ret);
ASSERT_ZERO_LABEL(fd.revents);
ASSERT_SAVED_ORIGINS(fd)
assert(ret >= 0);
}
void test_select() {
struct timeval t;
fd_set fds;
t.tv_sec = 2;
FD_SET(0, &fds);
dfsan_set_label(i_label, &fds, sizeof(fds));
dfsan_set_label(j_label, &t, sizeof(t));
DEFINE_AND_SAVE_ORIGINS(fds)
DEFINE_AND_SAVE_ORIGINS(t)
int ret = select(1, &fds, NULL, NULL, &t);
assert(ret >= 0);
ASSERT_ZERO_LABEL(ret);
ASSERT_ZERO_LABEL(t.tv_sec);
ASSERT_READ_ZERO_LABEL(&fds, sizeof(fds));
ASSERT_SAVED_ORIGINS(fds)
ASSERT_SAVED_ORIGINS(t)
}
void test_sched_getaffinity() {
cpu_set_t mask;
dfsan_set_label(j_label, &mask, 1);
DEFINE_AND_SAVE_ORIGINS(mask)
int ret = sched_getaffinity(0, sizeof(mask), &mask);
assert(ret == 0);
ASSERT_ZERO_LABEL(ret);
ASSERT_READ_ZERO_LABEL(&mask, sizeof(mask));
ASSERT_SAVED_ORIGINS(mask)
}
void test_sigemptyset() {
sigset_t set;
dfsan_set_label(j_label, &set, 1);
DEFINE_AND_SAVE_ORIGINS(set)
int ret = sigemptyset(&set);
assert(ret == 0);
ASSERT_ZERO_LABEL(ret);
ASSERT_READ_ZERO_LABEL(&set, sizeof(set));
ASSERT_SAVED_ORIGINS(set)
}
static void SignalHandler(int signo) {}
static void SignalAction(int signo, siginfo_t *si, void *uc) {}
void test_sigaction() {
struct sigaction newact_with_sigaction = {};
newact_with_sigaction.sa_flags = SA_SIGINFO;
newact_with_sigaction.sa_sigaction = SignalAction;
// Set sigaction to be SignalAction, save the last one into origin_act
struct sigaction origin_act;
dfsan_set_label(j_label, &origin_act, 1);
DEFINE_AND_SAVE_ORIGINS(origin_act)
int ret = sigaction(SIGUSR1, &newact_with_sigaction, &origin_act);
assert(ret == 0);
ASSERT_ZERO_LABEL(ret);
ASSERT_READ_ZERO_LABEL(&origin_act, sizeof(origin_act));
ASSERT_SAVED_ORIGINS(origin_act)
struct sigaction newact_with_sighandler = {};
newact_with_sighandler.sa_handler = SignalHandler;
// Set sigaction to be SignalHandler, check the last one is SignalAction
struct sigaction oldact;
assert(0 == sigaction(SIGUSR1, &newact_with_sighandler, &oldact));
assert(oldact.sa_sigaction == SignalAction);
assert(oldact.sa_flags & SA_SIGINFO);
// Set SIG_IGN or SIG_DFL, and check the previous one is expected.
newact_with_sighandler.sa_handler = SIG_IGN;
assert(0 == sigaction(SIGUSR1, &newact_with_sighandler, &oldact));
assert(oldact.sa_handler == SignalHandler);
assert((oldact.sa_flags & SA_SIGINFO) == 0);
newact_with_sighandler.sa_handler = SIG_DFL;
assert(0 == sigaction(SIGUSR1, &newact_with_sighandler, &oldact));
assert(oldact.sa_handler == SIG_IGN);
assert((oldact.sa_flags & SA_SIGINFO) == 0);
// Restore sigaction to the orginal setting, check the last one is SignalHandler
assert(0 == sigaction(SIGUSR1, &origin_act, &oldact));
assert(oldact.sa_handler == SIG_DFL);
assert((oldact.sa_flags & SA_SIGINFO) == 0);
}
void test_signal() {
// Set signal to be SignalHandler, save the previous one into
// old_signal_handler.
sighandler_t old_signal_handler = signal(SIGHUP, SignalHandler);
ASSERT_ZERO_LABEL(old_signal_handler);
// Set SIG_IGN or SIG_DFL, and check the previous one is expected.
assert(SignalHandler == signal(SIGHUP, SIG_DFL));
assert(SIG_DFL == signal(SIGHUP, SIG_IGN));
// Restore signal to old_signal_handler.
assert(SIG_IGN == signal(SIGHUP, old_signal_handler));
}
void test_sigaltstack() {
stack_t old_altstack = {};
dfsan_set_label(j_label, &old_altstack, sizeof(old_altstack));
DEFINE_AND_SAVE_ORIGINS(old_altstack)
int ret = sigaltstack(NULL, &old_altstack);
assert(ret == 0);
ASSERT_ZERO_LABEL(ret);
ASSERT_READ_ZERO_LABEL(&old_altstack, sizeof(old_altstack));
ASSERT_SAVED_ORIGINS(old_altstack)
}
void test_gettimeofday() {
struct timeval tv;
struct timezone tz;
dfsan_set_label(i_label, &tv, sizeof(tv));
dfsan_set_label(j_label, &tz, sizeof(tz));
DEFINE_AND_SAVE_ORIGINS(tv)
DEFINE_AND_SAVE_ORIGINS(tz)
int ret = gettimeofday(&tv, &tz);
assert(ret == 0);
ASSERT_READ_ZERO_LABEL(&tv, sizeof(tv));
ASSERT_READ_ZERO_LABEL(&tz, sizeof(tz));
ASSERT_SAVED_ORIGINS(tv)
ASSERT_SAVED_ORIGINS(tz)
}
void *pthread_create_test_cb(void *p) {
assert(p == (void *)1);
ASSERT_ZERO_LABEL(p);
return (void *)2;
}
void test_pthread_create() {
pthread_t pt;
int create_ret = pthread_create(&pt, 0, pthread_create_test_cb, (void *)1);
assert(create_ret == 0);
ASSERT_ZERO_LABEL(create_ret);
void *cbrv;
dfsan_set_label(i_label, &cbrv, sizeof(cbrv));
DEFINE_AND_SAVE_ORIGINS(cbrv)
int joint_ret = pthread_join(pt, &cbrv);
assert(joint_ret == 0);
assert(cbrv == (void *)2);
ASSERT_ZERO_LABEL(joint_ret);
ASSERT_ZERO_LABEL(cbrv);
ASSERT_SAVED_ORIGINS(cbrv);
}
// Tested by test_pthread_create(). This empty function is here to appease the
// check-wrappers script.
void test_pthread_join() {}
int dl_iterate_phdr_test_cb(struct dl_phdr_info *info, size_t size,
void *data) {
assert(data == (void *)3);
ASSERT_ZERO_LABEL(info);
ASSERT_ZERO_LABEL(size);
ASSERT_ZERO_LABEL(data);
return 0;
}
void test_dl_iterate_phdr() {
dl_iterate_phdr(dl_iterate_phdr_test_cb, (void *)3);
}
// On glibc < 2.27, this symbol is not available. Mark it weak so we can skip
// testing in this case.
__attribute__((weak)) extern "C" void _dl_get_tls_static_info(size_t *sizep,
size_t *alignp);
void test__dl_get_tls_static_info() {
if (!_dl_get_tls_static_info)
return;
size_t sizep = 0, alignp = 0;
dfsan_set_label(i_label, &sizep, sizeof(sizep));
dfsan_set_label(i_label, &alignp, sizeof(alignp));
dfsan_origin sizep_o = dfsan_get_origin(sizep);
dfsan_origin alignp_o = dfsan_get_origin(alignp);
#ifndef ORIGIN_TRACKING
(void)sizep_o;
(void)alignp_o;
#endif
_dl_get_tls_static_info(&sizep, &alignp);
ASSERT_ZERO_LABEL(sizep);
ASSERT_ZERO_LABEL(alignp);
ASSERT_ORIGIN(sizep, sizep_o);
ASSERT_ORIGIN(alignp, alignp_o);
}
void test_strrchr() {
char str1[] = "str1str1";
char *p = str1;
dfsan_set_label(j_label, &p, sizeof(p));
char *rv = strrchr(p, 'r');
assert(rv == &str1[6]);
ASSERT_LABEL(rv, j_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, p);
char c = 'r';
dfsan_set_label(k_label, &c, sizeof(c));
rv = strrchr(str1, c);
assert(rv == &str1[6]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, k_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, c);
#endif
dfsan_set_label(i_label, &str1[7], 1);
rv = strrchr(str1, 'r');
assert(rv == &str1[6]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, i_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, str1[7]);
#endif
}
void test_strstr() {
char str1[] = "str1str1";
char *p1 = str1;
dfsan_set_label(k_label, &p1, sizeof(p1));
char *rv = strstr(p1, "1s");
assert(rv == &str1[3]);
ASSERT_LABEL(rv, k_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, p1);
char str2[] = "1s";
char *p2 = str2;
dfsan_set_label(m_label, &p2, sizeof(p2));
rv = strstr(str1, p2);
assert(rv == &str1[3]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, m_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, p2);
#endif
dfsan_set_label(n_label, &str2[0], 1);
rv = strstr(str1, str2);
assert(rv == &str1[3]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, n_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, str2[0]);
#endif
dfsan_set_label(i_label, &str1[3], 1);
dfsan_set_label(j_label, &str1[5], 1);
rv = strstr(str1, "1s");
assert(rv == &str1[3]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, i_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, str1[3]);
#endif
rv = strstr(str1, "2s");
assert(rv == NULL);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, i_j_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, str1[3]);
#endif
}
void test_strpbrk() {
char s[] = "abcdefg";
char accept[] = "123fd";
char *p_s = s;
char *p_accept = accept;
dfsan_set_label(n_label, &p_accept, sizeof(p_accept));
char *rv = strpbrk(p_s, p_accept);
assert(rv == &s[3]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, n_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, p_accept);
#endif
dfsan_set_label(m_label, &p_s, sizeof(p_s));
rv = strpbrk(p_s, p_accept);
assert(rv == &s[3]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_LABEL(rv, m_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, p_s);
#else
ASSERT_LABEL(rv, dfsan_union(m_label, n_label));
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, p_s);
#endif
dfsan_set_label(i_label, &s[5], 1);
dfsan_set_label(j_label, &accept[1], 1);
rv = strpbrk(s, accept);
assert(rv == &s[3]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, j_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, accept[1]);
#endif
char *ps = s;
dfsan_set_label(j_label, &ps, sizeof(ps));
rv = strpbrk(ps, "123gf");
assert(rv == &s[5]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_LABEL(rv, j_label);
#else
ASSERT_LABEL(rv, i_j_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, s[5]);
#endif
rv = strpbrk(ps, "123");
assert(rv == NULL);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(rv);
#else
ASSERT_LABEL(rv, i_j_label);
ASSERT_INIT_ORIGIN_EQ_ORIGIN(&rv, s[5]);
#endif
}
void test_memchr() {
char str1[] = "str1";
dfsan_set_label(i_label, &str1[3], 1);
dfsan_set_label(j_label, &str1[4], 1);
char *crv = (char *) memchr(str1, 'r', sizeof(str1));
assert(crv == &str1[2]);
ASSERT_ZERO_LABEL(crv);
char c = 'r';
dfsan_set_label(k_label, &c, sizeof(c));
crv = (char *)memchr(str1, c, sizeof(str1));
assert(crv == &str1[2]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(crv);
#else
ASSERT_LABEL(crv, k_label);
ASSERT_EQ_ORIGIN(crv, c);
#endif
char *ptr = str1;
dfsan_set_label(k_label, &ptr, sizeof(ptr));
crv = (char *)memchr(ptr, 'r', sizeof(str1));
assert(crv == &str1[2]);
ASSERT_LABEL(crv, k_label);
ASSERT_EQ_ORIGIN(crv, ptr);
crv = (char *) memchr(str1, '1', sizeof(str1));
assert(crv == &str1[3]);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(crv);
#else
ASSERT_LABEL(crv, i_label);
ASSERT_EQ_ORIGIN(crv, str1[3]);
#endif
crv = (char *) memchr(str1, 'x', sizeof(str1));
assert(!crv);
#ifdef STRICT_DATA_DEPENDENCIES
ASSERT_ZERO_LABEL(crv);
#else
ASSERT_LABEL(crv, i_j_label);
ASSERT_EQ_ORIGIN(crv, str1[3]);
#endif
}
void alarm_handler(int unused) {
;
}
void test_nanosleep() {
struct timespec req, rem;
req.tv_sec = 1;
req.tv_nsec = 0;
dfsan_set_label(i_label, &rem, sizeof(rem));
DEFINE_AND_SAVE_ORIGINS(rem)
// non interrupted
int rv = nanosleep(&req, &rem);
assert(rv == 0);
ASSERT_ZERO_LABEL(rv);
ASSERT_READ_LABEL(&rem, 1, i_label);
ASSERT_SAVED_ORIGINS(rem)
// interrupted by an alarm
signal(SIGALRM, alarm_handler);
req.tv_sec = 3;
alarm(1);
rv = nanosleep(&req, &rem);
assert(rv == -1);
ASSERT_ZERO_LABEL(rv);
ASSERT_READ_ZERO_LABEL(&rem, sizeof(rem));
ASSERT_SAVED_ORIGINS(rem)
}
void test_socketpair() {
int fd[2];
dfsan_origin fd_o[2];
dfsan_set_label(i_label, fd, sizeof(fd));
fd_o[0] = dfsan_get_origin((long)(fd[0]));
fd_o[1] = dfsan_get_origin((long)(fd[1]));
int rv = socketpair(PF_LOCAL, SOCK_STREAM, 0, fd);
assert(rv == 0);
ASSERT_ZERO_LABEL(rv);
ASSERT_READ_ZERO_LABEL(fd, sizeof(fd));
ASSERT_ORIGIN(fd[0], fd_o[0]);
ASSERT_ORIGIN(fd[1], fd_o[1]);
}
void test_getpeername() {
int sockfds[2];
int ret = socketpair(AF_UNIX, SOCK_DGRAM, 0, sockfds);
assert(ret != -1);
struct sockaddr addr = {};
socklen_t addrlen = sizeof(addr);
dfsan_set_label(i_label, &addr, addrlen);
dfsan_set_label(i_label, &addrlen, sizeof(addrlen));
DEFINE_AND_SAVE_ORIGINS(addr)
DEFINE_AND_SAVE_ORIGINS(addrlen)
ret = getpeername(sockfds[0], &addr, &addrlen);
assert(ret != -1);
ASSERT_ZERO_LABEL(ret);
ASSERT_ZERO_LABEL(addrlen);
assert(addrlen < sizeof(addr));
ASSERT_READ_ZERO_LABEL(&addr, addrlen);
ASSERT_READ_LABEL(((char *)&addr) + addrlen, 1, i_label);
ASSERT_SAVED_ORIGINS(addr)
ASSERT_SAVED_ORIGINS(addrlen)
close(sockfds[0]);
close(sockfds[1]);
}
void test_getsockname() {
int sockfd = socket(AF_UNIX, SOCK_DGRAM, 0);
assert(sockfd != -1);
struct sockaddr addr = {};
socklen_t addrlen = sizeof(addr);
dfsan_set_label(i_label, &addr, addrlen);
dfsan_set_label(i_label, &addrlen, sizeof(addrlen));
DEFINE_AND_SAVE_ORIGINS(addr)
DEFINE_AND_SAVE_ORIGINS(addrlen)
int ret = getsockname(sockfd, &addr, &addrlen);
assert(ret != -1);
ASSERT_ZERO_LABEL(ret);
ASSERT_ZERO_LABEL(addrlen);
assert(addrlen < sizeof(addr));
ASSERT_READ_ZERO_LABEL(&addr, addrlen);
ASSERT_READ_LABEL(((char *)&addr) + addrlen, 1, i_label);
ASSERT_SAVED_ORIGINS(addr)
ASSERT_SAVED_ORIGINS(addrlen)
close(sockfd);
}
void test_getsockopt() {
int sockfd = socket(AF_UNIX, SOCK_DGRAM, 0);
assert(sockfd != -1);
int optval[2] = {-1, -1};
socklen_t optlen = sizeof(optval);
dfsan_set_label(i_label, &optval, sizeof(optval));
dfsan_set_label(i_label, &optlen, sizeof(optlen));
DEFINE_AND_SAVE_ORIGINS(optval)
DEFINE_AND_SAVE_ORIGINS(optlen)
int ret = getsockopt(sockfd, SOL_SOCKET, SO_KEEPALIVE, &optval, &optlen);
assert(ret != -1);
assert(optlen == sizeof(int));
assert(optval[0] == 0);
assert(optval[1] == -1);
ASSERT_ZERO_LABEL(ret);
ASSERT_ZERO_LABEL(optlen);
ASSERT_ZERO_LABEL(optval[0]);
ASSERT_LABEL(optval[1], i_label);
ASSERT_SAVED_ORIGINS(optval)
ASSERT_SAVED_ORIGINS(optlen)
close(sockfd);
}
void test_write() {
int fd = open("/dev/null", O_WRONLY);
char buf[] = "a string";
int len = strlen(buf);
// The result of a write always unlabeled.
int res = write(fd, buf, len);
assert(res > 0);
ASSERT_ZERO_LABEL(res);
// Label all arguments to write().
dfsan_set_label(i_label, &(buf[3]), 1);
dfsan_set_label(j_label, &fd, sizeof(fd));
dfsan_set_label(i_label, &len, sizeof(len));
// The value returned by write() should have no label.
res = write(fd, buf, len);
ASSERT_ZERO_LABEL(res);
close(fd);
}
template <class T>
void test_sprintf_chunk(const char* expected, const char* format, T arg) {
char buf[512];
memset(buf, 'a', sizeof(buf));
char padded_expected[512];
strcpy(padded_expected, "foo ");
strcat(padded_expected, expected);
strcat(padded_expected, " bar");
char padded_format[512];
strcpy(padded_format, "foo ");
strcat(padded_format, format);
strcat(padded_format, " bar");
// Non labelled arg.
assert(sprintf(buf, padded_format, arg) == strlen(padded_expected));
assert(strcmp(buf, padded_expected) == 0);
ASSERT_READ_LABEL(buf, strlen(padded_expected), 0);
memset(buf, 'a', sizeof(buf));
// Labelled arg.
dfsan_set_label(i_label, &arg, sizeof(arg));
dfsan_origin a_o = dfsan_get_origin((long)(arg));
#ifndef ORIGIN_TRACKING
(void)a_o;
#endif
assert(sprintf(buf, padded_format, arg) == strlen(padded_expected));
assert(strcmp(buf, padded_expected) == 0);
ASSERT_READ_LABEL(buf, 4, 0);
ASSERT_READ_LABEL(buf + 4, strlen(padded_expected) - 8, i_label);
ASSERT_INIT_ORIGINS(buf + 4, strlen(padded_expected) - 8, a_o);
ASSERT_READ_LABEL(buf + (strlen(padded_expected) - 4), 4, 0);
}
void test_sprintf() {
char buf[2048];
memset(buf, 'a', sizeof(buf));
// Test formatting (no conversion specifier).
assert(sprintf(buf, "Hello world!") == 12);
assert(strcmp(buf, "Hello world!") == 0);
ASSERT_READ_LABEL(buf, sizeof(buf), 0);
// Test for extra arguments.
assert(sprintf(buf, "Hello world!", 42, "hello") == 12);
assert(strcmp(buf, "Hello world!") == 0);
ASSERT_READ_LABEL(buf, sizeof(buf), 0);
// Test formatting & label propagation (multiple conversion specifiers): %s,
// %d, %n, %f, and %%.
const char* s = "world";
int m = 8;
int d = 27;
dfsan_set_label(k_label, (void *) (s + 1), 2);
dfsan_origin s_o = dfsan_get_origin((long)(s[1]));
dfsan_set_label(i_label, &m, sizeof(m));
dfsan_origin m_o = dfsan_get_origin((long)m);
dfsan_set_label(j_label, &d, sizeof(d));
dfsan_origin d_o = dfsan_get_origin((long)d);
#ifndef ORIGIN_TRACKING
(void)s_o;
(void)m_o;
(void)d_o;
#endif
int n;
int r = sprintf(buf, "hello %s, %-d/%d/%d %f %% %n%d", s, 2014, m, d,
12345.6781234, &n, 1000);
assert(r == 42);
assert(strcmp(buf, "hello world, 2014/8/27 12345.678123 % 1000") == 0);
ASSERT_READ_LABEL(buf, 7, 0);
ASSERT_READ_LABEL(buf + 7, 2, k_label);
ASSERT_INIT_ORIGINS(buf + 7, 2, s_o);
ASSERT_READ_LABEL(buf + 9, 9, 0);
ASSERT_READ_LABEL(buf + 18, 1, i_label);
ASSERT_INIT_ORIGINS(buf + 18, 1, m_o);
ASSERT_READ_LABEL(buf + 19, 1, 0);
ASSERT_READ_LABEL(buf + 20, 2, j_label);
ASSERT_INIT_ORIGINS(buf + 20, 2, d_o);
ASSERT_READ_LABEL(buf + 22, 15, 0);
ASSERT_LABEL(r, 0);
assert(n == 38);
// Test formatting & label propagation (single conversion specifier, with
// additional length and precision modifiers).
test_sprintf_chunk("-559038737", "%d", 0xdeadbeef);
test_sprintf_chunk("3735928559", "%u", 0xdeadbeef);
test_sprintf_chunk("12345", "%i", 12345);
test_sprintf_chunk("751", "%o", 0751);
test_sprintf_chunk("babe", "%x", 0xbabe);
test_sprintf_chunk("0000BABE", "%.8X", 0xbabe);
test_sprintf_chunk("-17", "%hhd", 0xdeadbeef);
test_sprintf_chunk("-16657", "%hd", 0xdeadbeef);
test_sprintf_chunk("deadbeefdeadbeef", "%lx", 0xdeadbeefdeadbeef);
test_sprintf_chunk("0xdeadbeefdeadbeef", "%p",
(void *) 0xdeadbeefdeadbeef);
test_sprintf_chunk("18446744073709551615", "%ju", (intmax_t) -1);
test_sprintf_chunk("18446744073709551615", "%zu", (size_t) -1);
test_sprintf_chunk("18446744073709551615", "%tu", (size_t) -1);
test_sprintf_chunk("0x1.f9acffa7eb6bfp-4", "%a", 0.123456);
test_sprintf_chunk("0X1.F9ACFFA7EB6BFP-4", "%A", 0.123456);
test_sprintf_chunk("0.12346", "%.5f", 0.123456);
test_sprintf_chunk("0.123456", "%g", 0.123456);
test_sprintf_chunk("1.234560e-01", "%e", 0.123456);
test_sprintf_chunk("1.234560E-01", "%E", 0.123456);
test_sprintf_chunk("0.1234567891234560", "%.16Lf",
(long double) 0.123456789123456);
test_sprintf_chunk("z", "%c", 'z');
// %n, %s, %d, %f, and %% already tested
// Test formatting with width passed as an argument.
r = sprintf(buf, "hi %*d my %*s friend %.*f", 3, 1, 6, "dear", 4, 3.14159265359);
assert(r == 30);
assert(strcmp(buf, "hi 1 my dear friend 3.1416") == 0);
}
void test_snprintf() {
char buf[2048];
memset(buf, 'a', sizeof(buf));
dfsan_set_label(0, buf, sizeof(buf));
const char* s = "world";
int y = 2014;
int m = 8;
int d = 27;
dfsan_set_label(k_label, (void *) (s + 1), 2);
dfsan_origin s_o = dfsan_get_origin((long)(s[1]));
dfsan_set_label(i_label, &y, sizeof(y));
dfsan_origin y_o = dfsan_get_origin((long)y);
dfsan_set_label(j_label, &m, sizeof(m));
dfsan_origin m_o = dfsan_get_origin((long)m);
#ifndef ORIGIN_TRACKING
(void)s_o;
(void)y_o;
(void)m_o;
#endif
int r = snprintf(buf, 19, "hello %s, %-d/ %d/%d %f", s, y, m, d,
12345.6781234);
// The return value is the number of bytes that would have been written to
// the final string if enough space had been available.
assert(r == 38);
assert(memcmp(buf, "hello world, 2014/", 19) == 0);
ASSERT_READ_LABEL(buf, 7, 0);
ASSERT_READ_LABEL(buf + 7, 2, k_label);
ASSERT_INIT_ORIGINS(buf + 7, 2, s_o);
ASSERT_READ_LABEL(buf + 9, 4, 0);
ASSERT_READ_LABEL(buf + 13, 4, i_label);
ASSERT_INIT_ORIGINS(buf + 13, 4, y_o);
ASSERT_READ_LABEL(buf + 17, 2, 0);
ASSERT_LABEL(r, 0);
}
// Tested by a seperate source file. This empty function is here to appease the
// check-wrappers script.
void test_fork() {}
int main(void) {
i_label = 1;
j_label = 2;
k_label = 4;
m_label = 8;
n_label = 16;
i_j_label = dfsan_union(i_label, j_label);
assert(i_j_label != i_label);
assert(i_j_label != j_label);
assert(i_j_label != k_label);
test__dl_get_tls_static_info();
test_bcmp();
test_clock_gettime();
test_ctime_r();
test_dfsan_set_write_callback();
test_dl_iterate_phdr();
test_dlopen();
test_epoll_wait();
test_fgets();
test_fork();
test_fstat();
test_get_current_dir_name();
test_getcwd();
test_getentropy();
test_gethostname();
test_getpeername();
test_getpwuid_r();
test_getrlimit();
test_getrusage();
test_getsockname();
test_getsockopt();
test_gettimeofday();
test_inet_pton();
test_localtime_r();
test_memchr();
test_memcmp();
test_memcpy();
test_memmove();
test_memset();
test_nanosleep();
test_poll();
test_pread();
test_pthread_create();
test_pthread_join();
test_read();
test_recvmmsg();
test_recvmsg();
test_sched_getaffinity();
test_select();
test_sigaction();
test_signal();
test_sigaltstack();
test_sigemptyset();
test_snprintf();
test_socketpair();
test_sprintf();
test_stat();
test_strcasecmp();
test_strchr();
test_strcmp();
test_strcat();
test_strcpy();
test_strdup();
test_strlen();
test_strncasecmp();
test_strncmp();
test_strncpy();
test_strpbrk();
test_strrchr();
test_strstr();
test_strtod();
test_strtol();
test_strtoll();
test_strtoul();
test_strtoull();
test_time();
test_write();
}