// RUN: %clang_dfsan %s -o %t && %run %t | FileCheck %s // RUN: %clang_dfsan -mllvm -dfsan-args-abi %s -o %t && %run %t | FileCheck %s // Tests that the custom implementation of write() does writes with or without // a callback set using dfsan_set_write_callback(). #include <sanitizer/dfsan_interface.h> #include <assert.h> #include <fcntl.h> #include <stdio.h> #include <string.h> #include <unistd.h> // Check write callback arguments by having the callback store them in // the following variables: static int last_callback_arg_fd; static const void *last_callback_arg_buf; static size_t last_callback_arg_count; // Allow tests to check the number of callbacks made by incrementing // this count. When callbacks are verified, the count is reset. static int count_unverified_callbacks = 0; // This callbact will be installed using dfsan_set_write_callback() // in tests below. static void write_callback(int fd, const void *buf, size_t count) { // Do not do anything in this function that might call write(). count_unverified_callbacks++; last_callback_arg_fd = fd; last_callback_arg_buf = buf; last_callback_arg_count = count; } static void write_string_to_stdout(char *string) { char *cur = string; int bytes_left = strlen(string); while (bytes_left > 0) { int res = write(fileno(stdout), cur, bytes_left); assert (res >= 0); cur += res; bytes_left -= res; } } static void test_can_write_without_callback() { dfsan_set_write_callback(NULL); count_unverified_callbacks = 0; char aString[] = "Test that writes work without callback.\n"; // CHECK: Test that writes work without callback. write_string_to_stdout(aString); assert(count_unverified_callbacks == 0); } static void test_can_write_with_callback() { dfsan_set_write_callback(write_callback); count_unverified_callbacks = 0; char stringWithCallback[] = "Test that writes work with callback.\n"; // CHECK: Test that writes work with callback. write_string_to_stdout(stringWithCallback); // Data was written, so at least one call to write() was made. // Because a write may not process all the bytes it is passed, there // may have been several calls to write(). assert(count_unverified_callbacks > 0); count_unverified_callbacks = 0; dfsan_set_write_callback(NULL); char stringWithoutCallback[] = "Writes work after the callback is removed.\n"; // CHECK: Writes work after the callback is removed. write_string_to_stdout(stringWithoutCallback); assert(count_unverified_callbacks == 0); } static void test_failing_write_runs_callback() { // Open /dev/null in read-only mode. Calling write() on fd will fail. int fd = open("/dev/null", O_RDONLY); assert(fd != -1); // Install a callback. dfsan_set_write_callback(write_callback); // Write to the read-only file handle. The write will fail, but the callback // should still be invoked. char aString[] = "This text will fail to be written.\n"; int len = strlen(aString); int write_result = write(fd, aString, len); assert(write_result == -1); assert(count_unverified_callbacks == 1); count_unverified_callbacks = 0; assert(fd == last_callback_arg_fd); assert(aString == last_callback_arg_buf); assert(len == last_callback_arg_count); close(fd); } int main(int argc, char* argv[]) { test_can_write_without_callback(); test_can_write_with_callback(); test_failing_write_runs_callback(); }