2013-02-27 16:40:54 +01:00
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#include <sys/types.h>
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#include <sys/wait.h>
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2013-12-12 14:27:56 +01:00
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#include <sys/syslimits.h>
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2013-02-27 16:40:54 +01:00
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#include <errno.h>
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#include <fcntl.h>
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#include <signal.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <unistd.h>
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2013-04-16 18:04:46 +02:00
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int max_error = 5;
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#include "common.h"
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2013-02-27 16:40:54 +01:00
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void copy_subtests(void);
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void test_pipe_cloexec(void);
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void test_pipe_flag_setting(void);
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void test_pipe_nonblock(void);
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void test_pipe_normal(void);
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void test_pipe_nosigpipe(void);
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void alarm_handler(int sig);
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void pipe_handler(int sig);
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static int seen_pipe_signal = 0;
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static int seen_alarm_signal = 0;
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void
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alarm_handler(int sig)
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{
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if (seen_pipe_signal == 0)
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seen_pipe_signal = -1;
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seen_alarm_signal = 1;
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}
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void
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pipe_handler(int sig)
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{
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seen_pipe_signal = 1;
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}
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void
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copy_subtests()
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{
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char *subtests[] = { "t68a", "t68b" };
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char copy_cmd[8 + PATH_MAX + 1];
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int i, no_tests;
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no_tests = sizeof(subtests) / sizeof(char *);
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for (i = 0; i < no_tests; i++) {
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snprintf(copy_cmd, 8 + PATH_MAX, "cp ../%s .", subtests[i]);
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system(copy_cmd);
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}
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}
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void
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test_pipe_normal()
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{
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/* Verify pipe2 creates pipes that behave like a normal pipe */
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int pipes[2];
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char buf_in[1], buf_out[1];
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pid_t pid;
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subtest = 2;
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if (pipe2(pipes, 0) != 0) e(1);
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buf_out[0] = 'T';
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if (write(pipes[1], buf_out, sizeof(buf_out)) != sizeof(buf_out)) e(2);
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if (read(pipes[0], buf_in, sizeof(buf_in)) != sizeof(buf_in)) e(3);
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if (buf_out[0] != buf_in[0]) e(4);
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/* When we close the write end, reading should fail */
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if (close(pipes[1]) != 0) e(5);
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if (read(pipes[0], buf_in, sizeof(buf_in)) != 0) e(6);
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/* Let's retry that experiment the other way around. Install a signal
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* handler to catch SIGPIPE. Install an alarm handler to make sure
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* this test finishes in finite time. */
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if (pipe2(pipes, 0) != 0) e(7);
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signal(SIGPIPE, pipe_handler);
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signal(SIGALRM, alarm_handler);
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seen_pipe_signal = 0;
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seen_alarm_signal = 0;
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alarm(1);
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if (close(pipes[0]) != 0) e(8);
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if (write(pipes[1], buf_out, sizeof(buf_out)) != -1) e(9);
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while (seen_pipe_signal == 0)
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;
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if (seen_pipe_signal != 1) e(10);
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if (close(pipes[1]) != 0) e(11);
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/* Collect alarm signal */
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while (seen_alarm_signal == 0)
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;
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if (pipe2(pipes, 0) != 0) e(12);
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/* Now fork and verify we can write to the pipe */
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pid = fork();
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if (pid < 0) e(13);
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if (pid == 0) {
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/* We're the child */
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char fd_buf[2];
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/* Verify we can still write a byte into the pipe */
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if (write(pipes[1], buf_out, sizeof(buf_out)) != 1) e(14);
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snprintf(fd_buf, sizeof(fd_buf), "%d", pipes[1]);
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execl("./t68a", "t68a", fd_buf, NULL);
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exit(1); /* Should not be reached */
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} else {
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/* We're the parent */
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int result;
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if (waitpid(pid, &result, 0) == -1) e(15);
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if (WEXITSTATUS(result) != 0) e(16);
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}
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if (close(pipes[0]) != 0) e(17);
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if (close(pipes[1]) != 0) e(18);
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}
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void
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test_pipe_cloexec()
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{
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/* Open a pipe with O_CLOEXEC */
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int flags;
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int pipes[2];
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pid_t pid;
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char buf_in[1], buf_out[1];
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subtest = 3;
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if (pipe2(pipes, O_CLOEXEC) != 0) e(1);
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/* Verify O_CLOEXEC flag is set */
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flags = fcntl(pipes[0], F_GETFD);
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if (flags < 0) e(2);
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if (!(flags & FD_CLOEXEC)) e(3);
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pid = fork();
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if (pid < 0) e(4);
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if (pid == 0) {
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/* We're the child */
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char fd_buf[2];
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/* Verify we can still write a byte into the pipe */
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buf_in[0] = 0;
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buf_out[0] = 'T';
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if (write(pipes[1], buf_out, sizeof(buf_out)) != 1) e(5);
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if (read(pipes[0], buf_in, sizeof(buf_in)) != 1) e(6);
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if (buf_out[0] != buf_in[0]) e(7);
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/* Verify FD_CLOEXEC flag is still set */
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flags = fcntl(pipes[0], F_GETFD);
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if (flags < 0) e(8);
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if (!(flags & FD_CLOEXEC)) e(9);
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snprintf(fd_buf, sizeof(fd_buf), "%d", pipes[0]);
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execl("./t68b", "t68b", fd_buf, NULL);
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exit(1); /* Should not be reached */
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} else {
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/* We're the parent */
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int result;
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if (waitpid(pid, &result, 0) == -1) e(10);
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if (WEXITSTATUS(result) != 0) e(11);
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}
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/* Eventhough our child's pipe should've been closed upon exec, our
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* pipe should still be functioning.
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*/
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buf_in[0] = 0;
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buf_out[0] = 't';
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if (write(pipes[1], buf_out, sizeof(buf_out)) != sizeof(buf_out)) e(12);
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if (read(pipes[0], buf_in, sizeof(buf_in)) != sizeof(buf_in)) e(13);
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if (buf_out[0] != buf_in[0]) e(14);
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if (close(pipes[0]) != 0) e(15);
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if (close(pipes[1]) != 0) e(16);
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}
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void
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test_pipe_nonblock()
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{
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/* Open a pipe with O_NONBLOCK */
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char *buf_in, *buf_out;
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int pipes[2];
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size_t pipe_size;
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subtest = 4;
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if (pipe2(pipes, O_NONBLOCK) != 0) e(1);
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if ((pipe_size = fpathconf(pipes[0], _PC_PIPE_BUF)) == -1) e(2);
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buf_in = calloc(2, pipe_size); /* Allocate twice the buffer size */
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if (buf_in == NULL) e(3);
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buf_out = calloc(2, pipe_size); /* Idem dito for output buffer */
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if (buf_out == NULL) e(4);
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/* According to POSIX, a pipe with O_NONBLOCK set shall never block.
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* When we attempt to write PIPE_BUF or less bytes, and there is
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* sufficient space available, write returns nbytes. Else write will
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* return -1 and not transfer any data.
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*/
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if (write(pipes[1], buf_out, 1) != 1) e(5); /* Write 1 byte */
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if (write(pipes[1], buf_out, pipe_size) != -1) e(6); /* Can't fit */
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if (errno != EAGAIN) e(7);
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/* When writing more than PIPE_BUF bytes and when at least 1 byte can
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* be tranferred, return the number of bytes written. We've written 1
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* byte, so there are PIPE_BUF - 1 bytes left. */
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if (write(pipes[1], buf_out, pipe_size + 1) != pipe_size - 1) e(8);
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/* Read out all data and try again. This time we should be able to
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* write PIPE_BUF bytes. */
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if (read(pipes[0], buf_in, pipe_size) != pipe_size) e(9);
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if (read(pipes[0], buf_in, 1) != -1) e(10); /* Empty, can't read */
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if (errno != EAGAIN) e(11);
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if (write(pipes[1], buf_out, pipe_size + 1) != pipe_size) e(12);
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if (close(pipes[0]) != 0) e(13);
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if (close(pipes[1]) != 0) e(14);
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free(buf_in);
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free(buf_out);
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}
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void
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test_pipe_nosigpipe(void)
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{
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/* Let's retry the writing to pipe without readers experiment. This time we set
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* the O_NOSIGPIPE flag to prevent getting a signal. */
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int pipes[2];
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char buf_out[1];
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subtest = 5;
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if (pipe2(pipes, O_NOSIGPIPE) != 0) e(7);
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signal(SIGPIPE, pipe_handler);
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signal(SIGALRM, alarm_handler);
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seen_pipe_signal = 0;
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seen_alarm_signal = 0;
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alarm(1);
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if (close(pipes[0]) != 0) e(8);
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if (write(pipes[1], buf_out, sizeof(buf_out)) != -1) e(9);
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/* Collect alarm signal */
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while (seen_alarm_signal == 0)
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;
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if (errno != EPIPE) e(10);
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if (seen_pipe_signal != -1) e(11); /* Alarm sig handler set it to -1 */
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if (close(pipes[1]) != 0) e(12);
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}
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void
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test_pipe_flag_setting()
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{
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int pipes[2];
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subtest = 1;
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/* Create standard pipe with no flags and verify they're off */
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if (pipe2(pipes, 0) != 0) e(1);
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if (fcntl(pipes[0], F_GETFD) != 0) e(2);
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if (fcntl(pipes[1], F_GETFD) != 0) e(3);
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if (fcntl(pipes[0], F_GETFL) & O_NONBLOCK) e(4);
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if (fcntl(pipes[1], F_GETFL) & O_NONBLOCK) e(5);
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if (fcntl(pipes[0], F_GETNOSIGPIPE) != -1) e(6);
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if (fcntl(pipes[1], F_GETNOSIGPIPE) != -1) e(7);
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if (close(pipes[0]) != 0) e(8);
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if (close(pipes[1]) != 0) e(9);
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/* Create pipe with all flags and verify they're on */
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if (pipe2(pipes, O_CLOEXEC|O_NONBLOCK|O_NOSIGPIPE) != 0) e(10);
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if (fcntl(pipes[0], F_GETFD) != FD_CLOEXEC) e(11);
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if (fcntl(pipes[1], F_GETFD) != FD_CLOEXEC) e(12);
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if (!(fcntl(pipes[0], F_GETFL) & O_NONBLOCK)) e(13);
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if (!(fcntl(pipes[1], F_GETFL) & O_NONBLOCK)) e(14);
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if (fcntl(pipes[0], F_GETNOSIGPIPE) == -1) e(15);
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if (fcntl(pipes[1], F_GETNOSIGPIPE) == -1) e(16);
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if (close(pipes[0]) != 0) e(17);
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if (close(pipes[1]) != 0) e(18);
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}
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int
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main(int argc, char *argv[])
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{
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start(68);
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copy_subtests();
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test_pipe_flag_setting();
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test_pipe_normal();
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test_pipe_cloexec();
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test_pipe_nonblock();
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test_pipe_nosigpipe();
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quit();
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return(-1); /* Unreachable */
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}
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