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-rw-r--r--test/syscalls/linux/BUILD1
-rw-r--r--test/syscalls/linux/kcov.cc137
2 files changed, 125 insertions, 13 deletions
diff --git a/test/syscalls/linux/BUILD b/test/syscalls/linux/BUILD
index d9dbe2267..6a2ec9787 100644
--- a/test/syscalls/linux/BUILD
+++ b/test/syscalls/linux/BUILD
@@ -1079,6 +1079,7 @@ cc_binary(
gtest,
"//test/util:test_main",
"//test/util:test_util",
+ "//test/util:thread_util",
],
)
diff --git a/test/syscalls/linux/kcov.cc b/test/syscalls/linux/kcov.cc
index 6afcb4e75..6816c1fd0 100644
--- a/test/syscalls/linux/kcov.cc
+++ b/test/syscalls/linux/kcov.cc
@@ -16,39 +16,47 @@
#include <sys/ioctl.h>
#include <sys/mman.h>
+#include <atomic>
+
#include "gtest/gtest.h"
#include "test/util/capability_util.h"
#include "test/util/file_descriptor.h"
#include "test/util/test_util.h"
+#include "test/util/thread_util.h"
namespace gvisor {
namespace testing {
namespace {
-// For this test to work properly, it must be run with coverage enabled. On
+// For this set of tests to run, they must be run with coverage enabled. On
// native Linux, this involves compiling the kernel with kcov enabled. For
-// gVisor, we need to enable the Go coverage tool, e.g.
-// bazel test --collect_coverage_data --instrumentation_filter=//pkg/... <test>.
+// gVisor, we need to enable the Go coverage tool, e.g. bazel test --
+// collect_coverage_data --instrumentation_filter=//pkg/... <test>.
+
+constexpr char kcovPath[] = "/sys/kernel/debug/kcov";
+constexpr int kSize = 4096;
+constexpr int KCOV_INIT_TRACE = 0x80086301;
+constexpr int KCOV_ENABLE = 0x6364;
+constexpr int KCOV_DISABLE = 0x6365;
+
+uint64_t* KcovMmap(int fd) {
+ return (uint64_t*)mmap(nullptr, kSize * sizeof(uint64_t),
+ PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
+}
+
TEST(KcovTest, Kcov) {
SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability((CAP_DAC_OVERRIDE))));
- constexpr int kSize = 4096;
- constexpr int KCOV_INIT_TRACE = 0x80086301;
- constexpr int KCOV_ENABLE = 0x6364;
- constexpr int KCOV_DISABLE = 0x6365;
-
int fd;
- ASSERT_THAT(fd = open("/sys/kernel/debug/kcov", O_RDWR),
+ ASSERT_THAT(fd = open(kcovPath, O_RDWR),
AnyOf(SyscallSucceeds(), SyscallFailsWithErrno(ENOENT)));
-
// Kcov not available.
SKIP_IF(errno == ENOENT);
+ auto fd_closer = Cleanup([fd]() { close(fd); });
ASSERT_THAT(ioctl(fd, KCOV_INIT_TRACE, kSize), SyscallSucceeds());
- uint64_t* area = (uint64_t*)mmap(nullptr, kSize * sizeof(uint64_t),
- PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
-
+ uint64_t* area = KcovMmap(fd);
ASSERT_TRUE(area != MAP_FAILED);
ASSERT_THAT(ioctl(fd, KCOV_ENABLE, 0), SyscallSucceeds());
@@ -67,6 +75,109 @@ TEST(KcovTest, Kcov) {
ASSERT_THAT(ioctl(fd, KCOV_DISABLE, 0), SyscallSucceeds());
}
+TEST(KcovTest, PrematureMmap) {
+ SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability((CAP_DAC_OVERRIDE))));
+
+ int fd;
+ ASSERT_THAT(fd = open(kcovPath, O_RDWR),
+ AnyOf(SyscallSucceeds(), SyscallFailsWithErrno(ENOENT)));
+ // Kcov not available.
+ SKIP_IF(errno == ENOENT);
+ auto fd_closer = Cleanup([fd]() { close(fd); });
+
+ // Cannot mmap before KCOV_INIT_TRACE.
+ uint64_t* area = KcovMmap(fd);
+ ASSERT_TRUE(area == MAP_FAILED);
+}
+
+// Tests that multiple kcov fds can be used simultaneously.
+TEST(KcovTest, MultipleFds) {
+ SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability((CAP_DAC_OVERRIDE))));
+
+ int fd1;
+ ASSERT_THAT(fd1 = open(kcovPath, O_RDWR),
+ AnyOf(SyscallSucceeds(), SyscallFailsWithErrno(ENOENT)));
+ // Kcov not available.
+ SKIP_IF(errno == ENOENT);
+
+ int fd2;
+ ASSERT_THAT(fd2 = open(kcovPath, O_RDWR), SyscallSucceeds());
+ auto fd_closer = Cleanup([fd1, fd2]() {
+ close(fd1);
+ close(fd2);
+ });
+
+ auto t1 = ScopedThread([&] {
+ ASSERT_THAT(ioctl(fd1, KCOV_INIT_TRACE, kSize), SyscallSucceeds());
+ uint64_t* area = KcovMmap(fd1);
+ ASSERT_TRUE(area != MAP_FAILED);
+ ASSERT_THAT(ioctl(fd1, KCOV_ENABLE, 0), SyscallSucceeds());
+ });
+
+ ASSERT_THAT(ioctl(fd2, KCOV_INIT_TRACE, kSize), SyscallSucceeds());
+ uint64_t* area = KcovMmap(fd2);
+ ASSERT_TRUE(area != MAP_FAILED);
+ ASSERT_THAT(ioctl(fd2, KCOV_ENABLE, 0), SyscallSucceeds());
+}
+
+// Tests behavior for two threads trying to use the same kcov fd.
+TEST(KcovTest, MultipleThreads) {
+ SKIP_IF(!ASSERT_NO_ERRNO_AND_VALUE(HaveCapability((CAP_DAC_OVERRIDE))));
+
+ int fd;
+ ASSERT_THAT(fd = open(kcovPath, O_RDWR),
+ AnyOf(SyscallSucceeds(), SyscallFailsWithErrno(ENOENT)));
+ // Kcov not available.
+ SKIP_IF(errno == ENOENT);
+ auto fd_closer = Cleanup([fd]() { close(fd); });
+
+ // Test the behavior of multiple threads trying to use the same kcov fd
+ // simultaneously.
+ std::atomic<bool> t1_enabled(false), t1_disabled(false), t2_failed(false),
+ t2_exited(false);
+ auto t1 = ScopedThread([&] {
+ ASSERT_THAT(ioctl(fd, KCOV_INIT_TRACE, kSize), SyscallSucceeds());
+ uint64_t* area = KcovMmap(fd);
+ ASSERT_TRUE(area != MAP_FAILED);
+ ASSERT_THAT(ioctl(fd, KCOV_ENABLE, 0), SyscallSucceeds());
+ t1_enabled = true;
+
+ // After t2 has made sure that enabling kcov again fails, disable it.
+ while (!t2_failed) {
+ sched_yield();
+ }
+ ASSERT_THAT(ioctl(fd, KCOV_DISABLE, 0), SyscallSucceeds());
+ t1_disabled = true;
+
+ // Wait for t2 to enable kcov and then exit, after which we should be able
+ // to enable kcov again, without needing to set up a new memory mapping.
+ while (!t2_exited) {
+ sched_yield();
+ }
+ ASSERT_THAT(ioctl(fd, KCOV_ENABLE, 0), SyscallSucceeds());
+ });
+
+ auto t2 = ScopedThread([&] {
+ // Wait for t1 to enable kcov, and make sure that enabling kcov again fails.
+ while (!t1_enabled) {
+ sched_yield();
+ }
+ ASSERT_THAT(ioctl(fd, KCOV_ENABLE, 0), SyscallFailsWithErrno(EINVAL));
+ t2_failed = true;
+
+ // Wait for t1 to disable kcov, after which using fd should now succeed.
+ while (!t1_disabled) {
+ sched_yield();
+ }
+ uint64_t* area = KcovMmap(fd);
+ ASSERT_TRUE(area != MAP_FAILED);
+ ASSERT_THAT(ioctl(fd, KCOV_ENABLE, 0), SyscallSucceeds());
+ });
+
+ t2.Join();
+ t2_exited = true;
+}
+
} // namespace
} // namespace testing