1c209e3e2SJohn Baldwin /*- 2c209e3e2SJohn Baldwin * Copyright (c) 2015 John Baldwin <jhb@FreeBSD.org> 3c209e3e2SJohn Baldwin * All rights reserved. 4c209e3e2SJohn Baldwin * 5c209e3e2SJohn Baldwin * Redistribution and use in source and binary forms, with or without 6c209e3e2SJohn Baldwin * modification, are permitted provided that the following conditions 7c209e3e2SJohn Baldwin * are met: 8c209e3e2SJohn Baldwin * 1. Redistributions of source code must retain the above copyright 9c209e3e2SJohn Baldwin * notice, this list of conditions and the following disclaimer. 10c209e3e2SJohn Baldwin * 2. Redistributions in binary form must reproduce the above copyright 11c209e3e2SJohn Baldwin * notice, this list of conditions and the following disclaimer in the 12c209e3e2SJohn Baldwin * documentation and/or other materials provided with the distribution. 13c209e3e2SJohn Baldwin * 14c209e3e2SJohn Baldwin * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 15c209e3e2SJohn Baldwin * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 16c209e3e2SJohn Baldwin * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 17c209e3e2SJohn Baldwin * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 18c209e3e2SJohn Baldwin * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19c209e3e2SJohn Baldwin * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 20c209e3e2SJohn Baldwin * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 21c209e3e2SJohn Baldwin * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 22c209e3e2SJohn Baldwin * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23c209e3e2SJohn Baldwin * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24c209e3e2SJohn Baldwin * SUCH DAMAGE. 25c209e3e2SJohn Baldwin */ 26c209e3e2SJohn Baldwin 27c209e3e2SJohn Baldwin #include <sys/cdefs.h> 28c209e3e2SJohn Baldwin __FBSDID("$FreeBSD$"); 29c209e3e2SJohn Baldwin 30c209e3e2SJohn Baldwin #include <sys/types.h> 3182a4538fSEric Badger #include <sys/cpuset.h> 3282a4538fSEric Badger #include <sys/event.h> 33d74da94cSMark Johnston #include <sys/file.h> 3482a4538fSEric Badger #include <sys/time.h> 35b38bd91fSEric Badger #include <sys/procctl.h> 36c209e3e2SJohn Baldwin #include <sys/ptrace.h> 37bc2be1d3SEric Badger #include <sys/queue.h> 38bc2be1d3SEric Badger #include <sys/runq.h> 39189ac973SJohn Baldwin #include <sys/syscall.h> 4057c74f5bSJohn Baldwin #include <sys/sysctl.h> 4157c74f5bSJohn Baldwin #include <sys/user.h> 42c209e3e2SJohn Baldwin #include <sys/wait.h> 43c209e3e2SJohn Baldwin #include <errno.h> 449e0d1159SEric Badger #include <machine/cpufunc.h> 45189ac973SJohn Baldwin #include <pthread.h> 46bc2be1d3SEric Badger #include <sched.h> 4782a4538fSEric Badger #include <semaphore.h> 48c209e3e2SJohn Baldwin #include <signal.h> 49dfa8ba12SJohn Baldwin #include <stdio.h> 50c209e3e2SJohn Baldwin #include <stdlib.h> 51c209e3e2SJohn Baldwin #include <unistd.h> 52c209e3e2SJohn Baldwin #include <atf-c.h> 53c209e3e2SJohn Baldwin 54c209e3e2SJohn Baldwin /* 55dfa8ba12SJohn Baldwin * A variant of ATF_REQUIRE that is suitable for use in child 56dfa8ba12SJohn Baldwin * processes. This only works if the parent process is tripped up by 57dfa8ba12SJohn Baldwin * the early exit and fails some requirement itself. 58dfa8ba12SJohn Baldwin */ 59dfa8ba12SJohn Baldwin #define CHILD_REQUIRE(exp) do { \ 60dfa8ba12SJohn Baldwin if (!(exp)) \ 61dfa8ba12SJohn Baldwin child_fail_require(__FILE__, __LINE__, \ 62dfa8ba12SJohn Baldwin #exp " not met"); \ 63dfa8ba12SJohn Baldwin } while (0) 64dfa8ba12SJohn Baldwin 6598685dc8SJohn Baldwin static __dead2 void 66dfa8ba12SJohn Baldwin child_fail_require(const char *file, int line, const char *str) 67dfa8ba12SJohn Baldwin { 68dfa8ba12SJohn Baldwin char buf[128]; 69dfa8ba12SJohn Baldwin 70dfa8ba12SJohn Baldwin snprintf(buf, sizeof(buf), "%s:%d: %s\n", file, line, str); 71dfa8ba12SJohn Baldwin write(2, buf, strlen(buf)); 72dfa8ba12SJohn Baldwin _exit(32); 73dfa8ba12SJohn Baldwin } 74dfa8ba12SJohn Baldwin 7598685dc8SJohn Baldwin static void 7698685dc8SJohn Baldwin trace_me(void) 7798685dc8SJohn Baldwin { 7898685dc8SJohn Baldwin 7998685dc8SJohn Baldwin /* Attach the parent process as a tracer of this process. */ 8098685dc8SJohn Baldwin CHILD_REQUIRE(ptrace(PT_TRACE_ME, 0, NULL, 0) != -1); 8198685dc8SJohn Baldwin 8298685dc8SJohn Baldwin /* Trigger a stop. */ 8398685dc8SJohn Baldwin raise(SIGSTOP); 8498685dc8SJohn Baldwin } 8598685dc8SJohn Baldwin 8698685dc8SJohn Baldwin static void 8798685dc8SJohn Baldwin attach_child(pid_t pid) 8898685dc8SJohn Baldwin { 8998685dc8SJohn Baldwin pid_t wpid; 9098685dc8SJohn Baldwin int status; 9198685dc8SJohn Baldwin 9298685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_ATTACH, pid, NULL, 0) == 0); 9398685dc8SJohn Baldwin 9498685dc8SJohn Baldwin wpid = waitpid(pid, &status, 0); 9598685dc8SJohn Baldwin ATF_REQUIRE(wpid == pid); 9698685dc8SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 9798685dc8SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 9898685dc8SJohn Baldwin } 9998685dc8SJohn Baldwin 10098685dc8SJohn Baldwin static void 10198685dc8SJohn Baldwin wait_for_zombie(pid_t pid) 10298685dc8SJohn Baldwin { 10398685dc8SJohn Baldwin 10498685dc8SJohn Baldwin /* 10598685dc8SJohn Baldwin * Wait for a process to exit. This is kind of gross, but 10698685dc8SJohn Baldwin * there is not a better way. 107*3a014c56SJohn Baldwin * 108*3a014c56SJohn Baldwin * Prior to r325719, the kern.proc.pid.<pid> sysctl failed 109*3a014c56SJohn Baldwin * with ESRCH. After that change, a valid struct kinfo_proc 110*3a014c56SJohn Baldwin * is returned for zombies with ki_stat set to SZOMB. 11198685dc8SJohn Baldwin */ 11298685dc8SJohn Baldwin for (;;) { 11398685dc8SJohn Baldwin struct kinfo_proc kp; 11498685dc8SJohn Baldwin size_t len; 11598685dc8SJohn Baldwin int mib[4]; 11698685dc8SJohn Baldwin 11798685dc8SJohn Baldwin mib[0] = CTL_KERN; 11898685dc8SJohn Baldwin mib[1] = KERN_PROC; 11998685dc8SJohn Baldwin mib[2] = KERN_PROC_PID; 12098685dc8SJohn Baldwin mib[3] = pid; 12198685dc8SJohn Baldwin len = sizeof(kp); 12298685dc8SJohn Baldwin if (sysctl(mib, nitems(mib), &kp, &len, NULL, 0) == -1) { 12398685dc8SJohn Baldwin ATF_REQUIRE(errno == ESRCH); 12498685dc8SJohn Baldwin break; 12598685dc8SJohn Baldwin } 126*3a014c56SJohn Baldwin if (kp.ki_stat == SZOMB) 127*3a014c56SJohn Baldwin break; 12898685dc8SJohn Baldwin usleep(5000); 12998685dc8SJohn Baldwin } 13098685dc8SJohn Baldwin } 13198685dc8SJohn Baldwin 132dfa8ba12SJohn Baldwin /* 133c209e3e2SJohn Baldwin * Verify that a parent debugger process "sees" the exit of a debugged 134c209e3e2SJohn Baldwin * process exactly once when attached via PT_TRACE_ME. 135c209e3e2SJohn Baldwin */ 136c209e3e2SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__parent_wait_after_trace_me); 137c209e3e2SJohn Baldwin ATF_TC_BODY(ptrace__parent_wait_after_trace_me, tc) 138c209e3e2SJohn Baldwin { 139c209e3e2SJohn Baldwin pid_t child, wpid; 140c209e3e2SJohn Baldwin int status; 141c209e3e2SJohn Baldwin 142c209e3e2SJohn Baldwin ATF_REQUIRE((child = fork()) != -1); 143c209e3e2SJohn Baldwin if (child == 0) { 144c209e3e2SJohn Baldwin /* Child process. */ 14598685dc8SJohn Baldwin trace_me(); 146c209e3e2SJohn Baldwin 147b98cb919SJohn Baldwin _exit(1); 148c209e3e2SJohn Baldwin } 149c209e3e2SJohn Baldwin 150c209e3e2SJohn Baldwin /* Parent process. */ 151c209e3e2SJohn Baldwin 152c209e3e2SJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 153c209e3e2SJohn Baldwin wpid = waitpid(child, &status, 0); 154c209e3e2SJohn Baldwin ATF_REQUIRE(wpid == child); 155c209e3e2SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 156c209e3e2SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 157c209e3e2SJohn Baldwin 158c209e3e2SJohn Baldwin /* Continue the child ignoring the SIGSTOP. */ 159c209e3e2SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, child, (caddr_t)1, 0) != -1); 160c209e3e2SJohn Baldwin 161c209e3e2SJohn Baldwin /* The second wait() should report the exit status. */ 162c209e3e2SJohn Baldwin wpid = waitpid(child, &status, 0); 163c209e3e2SJohn Baldwin ATF_REQUIRE(wpid == child); 164c209e3e2SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 165c209e3e2SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 166c209e3e2SJohn Baldwin 167c209e3e2SJohn Baldwin /* The child should no longer exist. */ 168c209e3e2SJohn Baldwin wpid = waitpid(child, &status, 0); 169c209e3e2SJohn Baldwin ATF_REQUIRE(wpid == -1); 170c209e3e2SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 171c209e3e2SJohn Baldwin } 172c209e3e2SJohn Baldwin 173c209e3e2SJohn Baldwin /* 174c209e3e2SJohn Baldwin * Verify that a parent debugger process "sees" the exit of a debugged 175c209e3e2SJohn Baldwin * process exactly once when attached via PT_ATTACH. 176c209e3e2SJohn Baldwin */ 177c209e3e2SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__parent_wait_after_attach); 178c209e3e2SJohn Baldwin ATF_TC_BODY(ptrace__parent_wait_after_attach, tc) 179c209e3e2SJohn Baldwin { 180c209e3e2SJohn Baldwin pid_t child, wpid; 181c209e3e2SJohn Baldwin int cpipe[2], status; 182c209e3e2SJohn Baldwin char c; 183c209e3e2SJohn Baldwin 184c209e3e2SJohn Baldwin ATF_REQUIRE(pipe(cpipe) == 0); 185c209e3e2SJohn Baldwin ATF_REQUIRE((child = fork()) != -1); 186c209e3e2SJohn Baldwin if (child == 0) { 187c209e3e2SJohn Baldwin /* Child process. */ 188c209e3e2SJohn Baldwin close(cpipe[0]); 189c209e3e2SJohn Baldwin 190c209e3e2SJohn Baldwin /* Wait for the parent to attach. */ 191dfa8ba12SJohn Baldwin CHILD_REQUIRE(read(cpipe[1], &c, sizeof(c)) == 0); 192c209e3e2SJohn Baldwin 193b98cb919SJohn Baldwin _exit(1); 194c209e3e2SJohn Baldwin } 195c209e3e2SJohn Baldwin close(cpipe[1]); 196c209e3e2SJohn Baldwin 197c209e3e2SJohn Baldwin /* Parent process. */ 198c209e3e2SJohn Baldwin 199c209e3e2SJohn Baldwin /* Attach to the child process. */ 20098685dc8SJohn Baldwin attach_child(child); 201c209e3e2SJohn Baldwin 202c209e3e2SJohn Baldwin /* Continue the child ignoring the SIGSTOP. */ 203c209e3e2SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, child, (caddr_t)1, 0) != -1); 204c209e3e2SJohn Baldwin 205c209e3e2SJohn Baldwin /* Signal the child to exit. */ 206c209e3e2SJohn Baldwin close(cpipe[0]); 207c209e3e2SJohn Baldwin 208c209e3e2SJohn Baldwin /* The second wait() should report the exit status. */ 209c209e3e2SJohn Baldwin wpid = waitpid(child, &status, 0); 210c209e3e2SJohn Baldwin ATF_REQUIRE(wpid == child); 211c209e3e2SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 212c209e3e2SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 213c209e3e2SJohn Baldwin 214c209e3e2SJohn Baldwin /* The child should no longer exist. */ 215c209e3e2SJohn Baldwin wpid = waitpid(child, &status, 0); 216c209e3e2SJohn Baldwin ATF_REQUIRE(wpid == -1); 217c209e3e2SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 218c209e3e2SJohn Baldwin } 219c209e3e2SJohn Baldwin 22057c74f5bSJohn Baldwin /* 22157c74f5bSJohn Baldwin * Verify that a parent process "sees" the exit of a debugged process only 22257c74f5bSJohn Baldwin * after the debugger has seen it. 22357c74f5bSJohn Baldwin */ 22457c74f5bSJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__parent_sees_exit_after_child_debugger); 22557c74f5bSJohn Baldwin ATF_TC_BODY(ptrace__parent_sees_exit_after_child_debugger, tc) 22657c74f5bSJohn Baldwin { 22757c74f5bSJohn Baldwin pid_t child, debugger, wpid; 22857c74f5bSJohn Baldwin int cpipe[2], dpipe[2], status; 22957c74f5bSJohn Baldwin char c; 23057c74f5bSJohn Baldwin 23157c74f5bSJohn Baldwin ATF_REQUIRE(pipe(cpipe) == 0); 23257c74f5bSJohn Baldwin ATF_REQUIRE((child = fork()) != -1); 23357c74f5bSJohn Baldwin 23457c74f5bSJohn Baldwin if (child == 0) { 23557c74f5bSJohn Baldwin /* Child process. */ 23657c74f5bSJohn Baldwin close(cpipe[0]); 23757c74f5bSJohn Baldwin 23857c74f5bSJohn Baldwin /* Wait for parent to be ready. */ 239dfa8ba12SJohn Baldwin CHILD_REQUIRE(read(cpipe[1], &c, sizeof(c)) == sizeof(c)); 24057c74f5bSJohn Baldwin 241b98cb919SJohn Baldwin _exit(1); 24257c74f5bSJohn Baldwin } 24357c74f5bSJohn Baldwin close(cpipe[1]); 24457c74f5bSJohn Baldwin 24557c74f5bSJohn Baldwin ATF_REQUIRE(pipe(dpipe) == 0); 24657c74f5bSJohn Baldwin ATF_REQUIRE((debugger = fork()) != -1); 24757c74f5bSJohn Baldwin 24857c74f5bSJohn Baldwin if (debugger == 0) { 24957c74f5bSJohn Baldwin /* Debugger process. */ 25057c74f5bSJohn Baldwin close(dpipe[0]); 25157c74f5bSJohn Baldwin 252dfa8ba12SJohn Baldwin CHILD_REQUIRE(ptrace(PT_ATTACH, child, NULL, 0) != -1); 25357c74f5bSJohn Baldwin 25457c74f5bSJohn Baldwin wpid = waitpid(child, &status, 0); 255dfa8ba12SJohn Baldwin CHILD_REQUIRE(wpid == child); 256dfa8ba12SJohn Baldwin CHILD_REQUIRE(WIFSTOPPED(status)); 257dfa8ba12SJohn Baldwin CHILD_REQUIRE(WSTOPSIG(status) == SIGSTOP); 25857c74f5bSJohn Baldwin 259dfa8ba12SJohn Baldwin CHILD_REQUIRE(ptrace(PT_CONTINUE, child, (caddr_t)1, 0) != -1); 26057c74f5bSJohn Baldwin 26157c74f5bSJohn Baldwin /* Signal parent that debugger is attached. */ 262dfa8ba12SJohn Baldwin CHILD_REQUIRE(write(dpipe[1], &c, sizeof(c)) == sizeof(c)); 26357c74f5bSJohn Baldwin 26457c74f5bSJohn Baldwin /* Wait for parent's failed wait. */ 265dfa8ba12SJohn Baldwin CHILD_REQUIRE(read(dpipe[1], &c, sizeof(c)) == 0); 26657c74f5bSJohn Baldwin 26757c74f5bSJohn Baldwin wpid = waitpid(child, &status, 0); 268dfa8ba12SJohn Baldwin CHILD_REQUIRE(wpid == child); 269dfa8ba12SJohn Baldwin CHILD_REQUIRE(WIFEXITED(status)); 270dfa8ba12SJohn Baldwin CHILD_REQUIRE(WEXITSTATUS(status) == 1); 27157c74f5bSJohn Baldwin 272b98cb919SJohn Baldwin _exit(0); 27357c74f5bSJohn Baldwin } 27457c74f5bSJohn Baldwin close(dpipe[1]); 27557c74f5bSJohn Baldwin 27657c74f5bSJohn Baldwin /* Parent process. */ 27757c74f5bSJohn Baldwin 27857c74f5bSJohn Baldwin /* Wait for the debugger to attach to the child. */ 27957c74f5bSJohn Baldwin ATF_REQUIRE(read(dpipe[0], &c, sizeof(c)) == sizeof(c)); 28057c74f5bSJohn Baldwin 28157c74f5bSJohn Baldwin /* Release the child. */ 28257c74f5bSJohn Baldwin ATF_REQUIRE(write(cpipe[0], &c, sizeof(c)) == sizeof(c)); 28357c74f5bSJohn Baldwin ATF_REQUIRE(read(cpipe[0], &c, sizeof(c)) == 0); 28457c74f5bSJohn Baldwin close(cpipe[0]); 28557c74f5bSJohn Baldwin 28698685dc8SJohn Baldwin wait_for_zombie(child); 28757c74f5bSJohn Baldwin 28857c74f5bSJohn Baldwin /* 2892f021998SJohn Baldwin * This wait should return a pid of 0 to indicate no status to 2902f021998SJohn Baldwin * report. The parent should see the child as non-exited 2912f021998SJohn Baldwin * until the debugger sees the exit. 29257c74f5bSJohn Baldwin */ 29357c74f5bSJohn Baldwin wpid = waitpid(child, &status, WNOHANG); 29457c74f5bSJohn Baldwin ATF_REQUIRE(wpid == 0); 29557c74f5bSJohn Baldwin 29657c74f5bSJohn Baldwin /* Signal the debugger to wait for the child. */ 29757c74f5bSJohn Baldwin close(dpipe[0]); 29857c74f5bSJohn Baldwin 29957c74f5bSJohn Baldwin /* Wait for the debugger. */ 30057c74f5bSJohn Baldwin wpid = waitpid(debugger, &status, 0); 30157c74f5bSJohn Baldwin ATF_REQUIRE(wpid == debugger); 30257c74f5bSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 30357c74f5bSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 0); 30457c74f5bSJohn Baldwin 30557c74f5bSJohn Baldwin /* The child process should now be ready. */ 30657c74f5bSJohn Baldwin wpid = waitpid(child, &status, WNOHANG); 30757c74f5bSJohn Baldwin ATF_REQUIRE(wpid == child); 30857c74f5bSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 30957c74f5bSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 31057c74f5bSJohn Baldwin } 31157c74f5bSJohn Baldwin 31257c74f5bSJohn Baldwin /* 31357c74f5bSJohn Baldwin * Verify that a parent process "sees" the exit of a debugged process 31457c74f5bSJohn Baldwin * only after a non-direct-child debugger has seen it. In particular, 31557c74f5bSJohn Baldwin * various wait() calls in the parent must avoid failing with ESRCH by 31657c74f5bSJohn Baldwin * checking the parent's orphan list for the debugee. 31757c74f5bSJohn Baldwin */ 31857c74f5bSJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__parent_sees_exit_after_unrelated_debugger); 31957c74f5bSJohn Baldwin ATF_TC_BODY(ptrace__parent_sees_exit_after_unrelated_debugger, tc) 32057c74f5bSJohn Baldwin { 32157c74f5bSJohn Baldwin pid_t child, debugger, fpid, wpid; 32257c74f5bSJohn Baldwin int cpipe[2], dpipe[2], status; 32357c74f5bSJohn Baldwin char c; 32457c74f5bSJohn Baldwin 32557c74f5bSJohn Baldwin ATF_REQUIRE(pipe(cpipe) == 0); 32657c74f5bSJohn Baldwin ATF_REQUIRE((child = fork()) != -1); 32757c74f5bSJohn Baldwin 32857c74f5bSJohn Baldwin if (child == 0) { 32957c74f5bSJohn Baldwin /* Child process. */ 33057c74f5bSJohn Baldwin close(cpipe[0]); 33157c74f5bSJohn Baldwin 33257c74f5bSJohn Baldwin /* Wait for parent to be ready. */ 333dfa8ba12SJohn Baldwin CHILD_REQUIRE(read(cpipe[1], &c, sizeof(c)) == sizeof(c)); 33457c74f5bSJohn Baldwin 335b98cb919SJohn Baldwin _exit(1); 33657c74f5bSJohn Baldwin } 33757c74f5bSJohn Baldwin close(cpipe[1]); 33857c74f5bSJohn Baldwin 33957c74f5bSJohn Baldwin ATF_REQUIRE(pipe(dpipe) == 0); 34057c74f5bSJohn Baldwin ATF_REQUIRE((debugger = fork()) != -1); 34157c74f5bSJohn Baldwin 34257c74f5bSJohn Baldwin if (debugger == 0) { 34357c74f5bSJohn Baldwin /* Debugger parent. */ 34457c74f5bSJohn Baldwin 34557c74f5bSJohn Baldwin /* 34657c74f5bSJohn Baldwin * Fork again and drop the debugger parent so that the 34757c74f5bSJohn Baldwin * debugger is not a child of the main parent. 34857c74f5bSJohn Baldwin */ 349dfa8ba12SJohn Baldwin CHILD_REQUIRE((fpid = fork()) != -1); 35057c74f5bSJohn Baldwin if (fpid != 0) 351b98cb919SJohn Baldwin _exit(2); 35257c74f5bSJohn Baldwin 35357c74f5bSJohn Baldwin /* Debugger process. */ 35457c74f5bSJohn Baldwin close(dpipe[0]); 35557c74f5bSJohn Baldwin 356dfa8ba12SJohn Baldwin CHILD_REQUIRE(ptrace(PT_ATTACH, child, NULL, 0) != -1); 35757c74f5bSJohn Baldwin 35857c74f5bSJohn Baldwin wpid = waitpid(child, &status, 0); 359dfa8ba12SJohn Baldwin CHILD_REQUIRE(wpid == child); 360dfa8ba12SJohn Baldwin CHILD_REQUIRE(WIFSTOPPED(status)); 361dfa8ba12SJohn Baldwin CHILD_REQUIRE(WSTOPSIG(status) == SIGSTOP); 36257c74f5bSJohn Baldwin 363dfa8ba12SJohn Baldwin CHILD_REQUIRE(ptrace(PT_CONTINUE, child, (caddr_t)1, 0) != -1); 36457c74f5bSJohn Baldwin 36557c74f5bSJohn Baldwin /* Signal parent that debugger is attached. */ 366dfa8ba12SJohn Baldwin CHILD_REQUIRE(write(dpipe[1], &c, sizeof(c)) == sizeof(c)); 36757c74f5bSJohn Baldwin 36857c74f5bSJohn Baldwin /* Wait for parent's failed wait. */ 369dfa8ba12SJohn Baldwin CHILD_REQUIRE(read(dpipe[1], &c, sizeof(c)) == sizeof(c)); 37057c74f5bSJohn Baldwin 37157c74f5bSJohn Baldwin wpid = waitpid(child, &status, 0); 372dfa8ba12SJohn Baldwin CHILD_REQUIRE(wpid == child); 373dfa8ba12SJohn Baldwin CHILD_REQUIRE(WIFEXITED(status)); 374dfa8ba12SJohn Baldwin CHILD_REQUIRE(WEXITSTATUS(status) == 1); 37557c74f5bSJohn Baldwin 376b98cb919SJohn Baldwin _exit(0); 37757c74f5bSJohn Baldwin } 378eddb85c6SJohn Baldwin close(dpipe[1]); 37957c74f5bSJohn Baldwin 38057c74f5bSJohn Baldwin /* Parent process. */ 38157c74f5bSJohn Baldwin 38257c74f5bSJohn Baldwin /* Wait for the debugger parent process to exit. */ 38357c74f5bSJohn Baldwin wpid = waitpid(debugger, &status, 0); 38457c74f5bSJohn Baldwin ATF_REQUIRE(wpid == debugger); 38557c74f5bSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 38657c74f5bSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 2); 38757c74f5bSJohn Baldwin 38857c74f5bSJohn Baldwin /* A WNOHANG wait here should see the non-exited child. */ 38957c74f5bSJohn Baldwin wpid = waitpid(child, &status, WNOHANG); 39057c74f5bSJohn Baldwin ATF_REQUIRE(wpid == 0); 39157c74f5bSJohn Baldwin 39257c74f5bSJohn Baldwin /* Wait for the debugger to attach to the child. */ 39357c74f5bSJohn Baldwin ATF_REQUIRE(read(dpipe[0], &c, sizeof(c)) == sizeof(c)); 39457c74f5bSJohn Baldwin 39557c74f5bSJohn Baldwin /* Release the child. */ 39657c74f5bSJohn Baldwin ATF_REQUIRE(write(cpipe[0], &c, sizeof(c)) == sizeof(c)); 39757c74f5bSJohn Baldwin ATF_REQUIRE(read(cpipe[0], &c, sizeof(c)) == 0); 39857c74f5bSJohn Baldwin close(cpipe[0]); 39957c74f5bSJohn Baldwin 40098685dc8SJohn Baldwin wait_for_zombie(child); 40157c74f5bSJohn Baldwin 40257c74f5bSJohn Baldwin /* 4032f021998SJohn Baldwin * This wait should return a pid of 0 to indicate no status to 4042f021998SJohn Baldwin * report. The parent should see the child as non-exited 4052f021998SJohn Baldwin * until the debugger sees the exit. 40657c74f5bSJohn Baldwin */ 40757c74f5bSJohn Baldwin wpid = waitpid(child, &status, WNOHANG); 40857c74f5bSJohn Baldwin ATF_REQUIRE(wpid == 0); 40957c74f5bSJohn Baldwin 41057c74f5bSJohn Baldwin /* Signal the debugger to wait for the child. */ 411eddb85c6SJohn Baldwin ATF_REQUIRE(write(dpipe[0], &c, sizeof(c)) == sizeof(c)); 41257c74f5bSJohn Baldwin 41357c74f5bSJohn Baldwin /* Wait for the debugger. */ 414eddb85c6SJohn Baldwin ATF_REQUIRE(read(dpipe[0], &c, sizeof(c)) == 0); 415eddb85c6SJohn Baldwin close(dpipe[0]); 41657c74f5bSJohn Baldwin 41757c74f5bSJohn Baldwin /* The child process should now be ready. */ 41857c74f5bSJohn Baldwin wpid = waitpid(child, &status, WNOHANG); 41957c74f5bSJohn Baldwin ATF_REQUIRE(wpid == child); 42057c74f5bSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 42157c74f5bSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 42257c74f5bSJohn Baldwin } 42357c74f5bSJohn Baldwin 42498685dc8SJohn Baldwin /* 42598685dc8SJohn Baldwin * The parent process should always act the same regardless of how the 42698685dc8SJohn Baldwin * debugger is attached to it. 42798685dc8SJohn Baldwin */ 42898685dc8SJohn Baldwin static __dead2 void 429189ac973SJohn Baldwin follow_fork_parent(bool use_vfork) 43098685dc8SJohn Baldwin { 43198685dc8SJohn Baldwin pid_t fpid, wpid; 43298685dc8SJohn Baldwin int status; 43398685dc8SJohn Baldwin 434189ac973SJohn Baldwin if (use_vfork) 435189ac973SJohn Baldwin CHILD_REQUIRE((fpid = vfork()) != -1); 436189ac973SJohn Baldwin else 43798685dc8SJohn Baldwin CHILD_REQUIRE((fpid = fork()) != -1); 43898685dc8SJohn Baldwin 43998685dc8SJohn Baldwin if (fpid == 0) 44098685dc8SJohn Baldwin /* Child */ 441b98cb919SJohn Baldwin _exit(2); 44298685dc8SJohn Baldwin 44398685dc8SJohn Baldwin wpid = waitpid(fpid, &status, 0); 44498685dc8SJohn Baldwin CHILD_REQUIRE(wpid == fpid); 44598685dc8SJohn Baldwin CHILD_REQUIRE(WIFEXITED(status)); 44698685dc8SJohn Baldwin CHILD_REQUIRE(WEXITSTATUS(status) == 2); 44798685dc8SJohn Baldwin 448b98cb919SJohn Baldwin _exit(1); 44998685dc8SJohn Baldwin } 45098685dc8SJohn Baldwin 45198685dc8SJohn Baldwin /* 45298685dc8SJohn Baldwin * Helper routine for follow fork tests. This waits for two stops 45398685dc8SJohn Baldwin * that report both "sides" of a fork. It returns the pid of the new 45498685dc8SJohn Baldwin * child process. 45598685dc8SJohn Baldwin */ 45698685dc8SJohn Baldwin static pid_t 457189ac973SJohn Baldwin handle_fork_events(pid_t parent, struct ptrace_lwpinfo *ppl) 45898685dc8SJohn Baldwin { 45998685dc8SJohn Baldwin struct ptrace_lwpinfo pl; 46098685dc8SJohn Baldwin bool fork_reported[2]; 46198685dc8SJohn Baldwin pid_t child, wpid; 46298685dc8SJohn Baldwin int i, status; 46398685dc8SJohn Baldwin 46498685dc8SJohn Baldwin fork_reported[0] = false; 46598685dc8SJohn Baldwin fork_reported[1] = false; 46698685dc8SJohn Baldwin child = -1; 46798685dc8SJohn Baldwin 46898685dc8SJohn Baldwin /* 46998685dc8SJohn Baldwin * Each process should report a fork event. The parent should 47098685dc8SJohn Baldwin * report a PL_FLAG_FORKED event, and the child should report 47198685dc8SJohn Baldwin * a PL_FLAG_CHILD event. 47298685dc8SJohn Baldwin */ 47398685dc8SJohn Baldwin for (i = 0; i < 2; i++) { 47498685dc8SJohn Baldwin wpid = wait(&status); 47598685dc8SJohn Baldwin ATF_REQUIRE(wpid > 0); 47698685dc8SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 47798685dc8SJohn Baldwin 47898685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, 47998685dc8SJohn Baldwin sizeof(pl)) != -1); 48098685dc8SJohn Baldwin ATF_REQUIRE((pl.pl_flags & (PL_FLAG_FORKED | PL_FLAG_CHILD)) != 48198685dc8SJohn Baldwin 0); 48298685dc8SJohn Baldwin ATF_REQUIRE((pl.pl_flags & (PL_FLAG_FORKED | PL_FLAG_CHILD)) != 48398685dc8SJohn Baldwin (PL_FLAG_FORKED | PL_FLAG_CHILD)); 48498685dc8SJohn Baldwin if (pl.pl_flags & PL_FLAG_CHILD) { 48598685dc8SJohn Baldwin ATF_REQUIRE(wpid != parent); 48698685dc8SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 48798685dc8SJohn Baldwin ATF_REQUIRE(!fork_reported[1]); 48898685dc8SJohn Baldwin if (child == -1) 48998685dc8SJohn Baldwin child = wpid; 49098685dc8SJohn Baldwin else 49198685dc8SJohn Baldwin ATF_REQUIRE(child == wpid); 492189ac973SJohn Baldwin if (ppl != NULL) 493189ac973SJohn Baldwin ppl[1] = pl; 49498685dc8SJohn Baldwin fork_reported[1] = true; 49598685dc8SJohn Baldwin } else { 49698685dc8SJohn Baldwin ATF_REQUIRE(wpid == parent); 49798685dc8SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 49898685dc8SJohn Baldwin ATF_REQUIRE(!fork_reported[0]); 49998685dc8SJohn Baldwin if (child == -1) 50098685dc8SJohn Baldwin child = pl.pl_child_pid; 50198685dc8SJohn Baldwin else 50298685dc8SJohn Baldwin ATF_REQUIRE(child == pl.pl_child_pid); 503189ac973SJohn Baldwin if (ppl != NULL) 504189ac973SJohn Baldwin ppl[0] = pl; 50598685dc8SJohn Baldwin fork_reported[0] = true; 50698685dc8SJohn Baldwin } 50798685dc8SJohn Baldwin } 50898685dc8SJohn Baldwin 50998685dc8SJohn Baldwin return (child); 51098685dc8SJohn Baldwin } 51198685dc8SJohn Baldwin 51298685dc8SJohn Baldwin /* 51398685dc8SJohn Baldwin * Verify that a new child process is stopped after a followed fork and 51498685dc8SJohn Baldwin * that the traced parent sees the exit of the child after the debugger 51598685dc8SJohn Baldwin * when both processes remain attached to the debugger. 51698685dc8SJohn Baldwin */ 51798685dc8SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__follow_fork_both_attached); 51898685dc8SJohn Baldwin ATF_TC_BODY(ptrace__follow_fork_both_attached, tc) 51998685dc8SJohn Baldwin { 520479b610dSJohn Baldwin pid_t children[2], fpid, wpid; 52198685dc8SJohn Baldwin int status; 52298685dc8SJohn Baldwin 52398685dc8SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 52498685dc8SJohn Baldwin if (fpid == 0) { 52598685dc8SJohn Baldwin trace_me(); 526189ac973SJohn Baldwin follow_fork_parent(false); 52798685dc8SJohn Baldwin } 52898685dc8SJohn Baldwin 52998685dc8SJohn Baldwin /* Parent process. */ 53098685dc8SJohn Baldwin children[0] = fpid; 53198685dc8SJohn Baldwin 53298685dc8SJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 53398685dc8SJohn Baldwin wpid = waitpid(children[0], &status, 0); 53498685dc8SJohn Baldwin ATF_REQUIRE(wpid == children[0]); 53598685dc8SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 53698685dc8SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 53798685dc8SJohn Baldwin 53898685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_FOLLOW_FORK, children[0], NULL, 1) != -1); 53998685dc8SJohn Baldwin 54098685dc8SJohn Baldwin /* Continue the child ignoring the SIGSTOP. */ 54198685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 54298685dc8SJohn Baldwin 543189ac973SJohn Baldwin children[1] = handle_fork_events(children[0], NULL); 54498685dc8SJohn Baldwin ATF_REQUIRE(children[1] > 0); 54598685dc8SJohn Baldwin 54698685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 54798685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[1], (caddr_t)1, 0) != -1); 54898685dc8SJohn Baldwin 54998685dc8SJohn Baldwin /* 55098685dc8SJohn Baldwin * The child can't exit until the grandchild reports status, so the 55198685dc8SJohn Baldwin * grandchild should report its exit first to the debugger. 55298685dc8SJohn Baldwin */ 55398685dc8SJohn Baldwin wpid = wait(&status); 55498685dc8SJohn Baldwin ATF_REQUIRE(wpid == children[1]); 55598685dc8SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 55698685dc8SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 2); 55798685dc8SJohn Baldwin 55898685dc8SJohn Baldwin wpid = wait(&status); 55998685dc8SJohn Baldwin ATF_REQUIRE(wpid == children[0]); 56098685dc8SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 56198685dc8SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 56298685dc8SJohn Baldwin 56398685dc8SJohn Baldwin wpid = wait(&status); 56498685dc8SJohn Baldwin ATF_REQUIRE(wpid == -1); 56598685dc8SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 56698685dc8SJohn Baldwin } 56798685dc8SJohn Baldwin 56898685dc8SJohn Baldwin /* 56998685dc8SJohn Baldwin * Verify that a new child process is stopped after a followed fork 57098685dc8SJohn Baldwin * and that the traced parent sees the exit of the child when the new 57198685dc8SJohn Baldwin * child process is detached after it reports its fork. 57298685dc8SJohn Baldwin */ 57398685dc8SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__follow_fork_child_detached); 57498685dc8SJohn Baldwin ATF_TC_BODY(ptrace__follow_fork_child_detached, tc) 57598685dc8SJohn Baldwin { 576479b610dSJohn Baldwin pid_t children[2], fpid, wpid; 57798685dc8SJohn Baldwin int status; 57898685dc8SJohn Baldwin 57998685dc8SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 58098685dc8SJohn Baldwin if (fpid == 0) { 58198685dc8SJohn Baldwin trace_me(); 582189ac973SJohn Baldwin follow_fork_parent(false); 58398685dc8SJohn Baldwin } 58498685dc8SJohn Baldwin 58598685dc8SJohn Baldwin /* Parent process. */ 58698685dc8SJohn Baldwin children[0] = fpid; 58798685dc8SJohn Baldwin 58898685dc8SJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 58998685dc8SJohn Baldwin wpid = waitpid(children[0], &status, 0); 59098685dc8SJohn Baldwin ATF_REQUIRE(wpid == children[0]); 59198685dc8SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 59298685dc8SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 59398685dc8SJohn Baldwin 59498685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_FOLLOW_FORK, children[0], NULL, 1) != -1); 59598685dc8SJohn Baldwin 59698685dc8SJohn Baldwin /* Continue the child ignoring the SIGSTOP. */ 59798685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 59898685dc8SJohn Baldwin 599189ac973SJohn Baldwin children[1] = handle_fork_events(children[0], NULL); 60098685dc8SJohn Baldwin ATF_REQUIRE(children[1] > 0); 60198685dc8SJohn Baldwin 60298685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 60398685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_DETACH, children[1], (caddr_t)1, 0) != -1); 60498685dc8SJohn Baldwin 60598685dc8SJohn Baldwin /* 60698685dc8SJohn Baldwin * Should not see any status from the grandchild now, only the 60798685dc8SJohn Baldwin * child. 60898685dc8SJohn Baldwin */ 60998685dc8SJohn Baldwin wpid = wait(&status); 61098685dc8SJohn Baldwin ATF_REQUIRE(wpid == children[0]); 61198685dc8SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 61298685dc8SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 61398685dc8SJohn Baldwin 61498685dc8SJohn Baldwin wpid = wait(&status); 61598685dc8SJohn Baldwin ATF_REQUIRE(wpid == -1); 61698685dc8SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 61798685dc8SJohn Baldwin } 61898685dc8SJohn Baldwin 61998685dc8SJohn Baldwin /* 62098685dc8SJohn Baldwin * Verify that a new child process is stopped after a followed fork 62198685dc8SJohn Baldwin * and that the traced parent sees the exit of the child when the 62298685dc8SJohn Baldwin * traced parent is detached after the fork. 62398685dc8SJohn Baldwin */ 62498685dc8SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__follow_fork_parent_detached); 62598685dc8SJohn Baldwin ATF_TC_BODY(ptrace__follow_fork_parent_detached, tc) 62698685dc8SJohn Baldwin { 627479b610dSJohn Baldwin pid_t children[2], fpid, wpid; 62898685dc8SJohn Baldwin int status; 62998685dc8SJohn Baldwin 63098685dc8SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 63198685dc8SJohn Baldwin if (fpid == 0) { 63298685dc8SJohn Baldwin trace_me(); 633189ac973SJohn Baldwin follow_fork_parent(false); 63498685dc8SJohn Baldwin } 63598685dc8SJohn Baldwin 63698685dc8SJohn Baldwin /* Parent process. */ 63798685dc8SJohn Baldwin children[0] = fpid; 63898685dc8SJohn Baldwin 63998685dc8SJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 64098685dc8SJohn Baldwin wpid = waitpid(children[0], &status, 0); 64198685dc8SJohn Baldwin ATF_REQUIRE(wpid == children[0]); 64298685dc8SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 64398685dc8SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 64498685dc8SJohn Baldwin 64598685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_FOLLOW_FORK, children[0], NULL, 1) != -1); 64698685dc8SJohn Baldwin 64798685dc8SJohn Baldwin /* Continue the child ignoring the SIGSTOP. */ 64898685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 64998685dc8SJohn Baldwin 650189ac973SJohn Baldwin children[1] = handle_fork_events(children[0], NULL); 65198685dc8SJohn Baldwin ATF_REQUIRE(children[1] > 0); 65298685dc8SJohn Baldwin 65398685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_DETACH, children[0], (caddr_t)1, 0) != -1); 65498685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[1], (caddr_t)1, 0) != -1); 65598685dc8SJohn Baldwin 65698685dc8SJohn Baldwin /* 65798685dc8SJohn Baldwin * The child can't exit until the grandchild reports status, so the 65898685dc8SJohn Baldwin * grandchild should report its exit first to the debugger. 65998685dc8SJohn Baldwin * 66098685dc8SJohn Baldwin * Even though the child process is detached, it is still a 66198685dc8SJohn Baldwin * child of the debugger, so it will still report it's exit 66298685dc8SJohn Baldwin * after the grandchild. 66398685dc8SJohn Baldwin */ 66498685dc8SJohn Baldwin wpid = wait(&status); 66598685dc8SJohn Baldwin ATF_REQUIRE(wpid == children[1]); 66698685dc8SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 66798685dc8SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 2); 66898685dc8SJohn Baldwin 66998685dc8SJohn Baldwin wpid = wait(&status); 67098685dc8SJohn Baldwin ATF_REQUIRE(wpid == children[0]); 67198685dc8SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 67298685dc8SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 67398685dc8SJohn Baldwin 67498685dc8SJohn Baldwin wpid = wait(&status); 67598685dc8SJohn Baldwin ATF_REQUIRE(wpid == -1); 67698685dc8SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 67798685dc8SJohn Baldwin } 67898685dc8SJohn Baldwin 67998685dc8SJohn Baldwin static void 68098685dc8SJohn Baldwin attach_fork_parent(int cpipe[2]) 68198685dc8SJohn Baldwin { 68298685dc8SJohn Baldwin pid_t fpid; 68398685dc8SJohn Baldwin 68498685dc8SJohn Baldwin close(cpipe[0]); 68598685dc8SJohn Baldwin 68698685dc8SJohn Baldwin /* Double-fork to disassociate from the debugger. */ 68798685dc8SJohn Baldwin CHILD_REQUIRE((fpid = fork()) != -1); 68898685dc8SJohn Baldwin if (fpid != 0) 689b98cb919SJohn Baldwin _exit(3); 69098685dc8SJohn Baldwin 69198685dc8SJohn Baldwin /* Send the pid of the disassociated child to the debugger. */ 69298685dc8SJohn Baldwin fpid = getpid(); 69398685dc8SJohn Baldwin CHILD_REQUIRE(write(cpipe[1], &fpid, sizeof(fpid)) == sizeof(fpid)); 69498685dc8SJohn Baldwin 69598685dc8SJohn Baldwin /* Wait for the debugger to attach. */ 69698685dc8SJohn Baldwin CHILD_REQUIRE(read(cpipe[1], &fpid, sizeof(fpid)) == 0); 69798685dc8SJohn Baldwin } 69898685dc8SJohn Baldwin 69998685dc8SJohn Baldwin /* 70098685dc8SJohn Baldwin * Verify that a new child process is stopped after a followed fork and 70198685dc8SJohn Baldwin * that the traced parent sees the exit of the child after the debugger 70298685dc8SJohn Baldwin * when both processes remain attached to the debugger. In this test 70398685dc8SJohn Baldwin * the parent that forks is not a direct child of the debugger. 70498685dc8SJohn Baldwin */ 70598685dc8SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__follow_fork_both_attached_unrelated_debugger); 70698685dc8SJohn Baldwin ATF_TC_BODY(ptrace__follow_fork_both_attached_unrelated_debugger, tc) 70798685dc8SJohn Baldwin { 708479b610dSJohn Baldwin pid_t children[2], fpid, wpid; 70998685dc8SJohn Baldwin int cpipe[2], status; 71098685dc8SJohn Baldwin 71198685dc8SJohn Baldwin ATF_REQUIRE(pipe(cpipe) == 0); 71298685dc8SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 71398685dc8SJohn Baldwin if (fpid == 0) { 71498685dc8SJohn Baldwin attach_fork_parent(cpipe); 715189ac973SJohn Baldwin follow_fork_parent(false); 71698685dc8SJohn Baldwin } 71798685dc8SJohn Baldwin 71898685dc8SJohn Baldwin /* Parent process. */ 71998685dc8SJohn Baldwin close(cpipe[1]); 72098685dc8SJohn Baldwin 72198685dc8SJohn Baldwin /* Wait for the direct child to exit. */ 72298685dc8SJohn Baldwin wpid = waitpid(fpid, &status, 0); 72398685dc8SJohn Baldwin ATF_REQUIRE(wpid == fpid); 72498685dc8SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 72598685dc8SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 3); 72698685dc8SJohn Baldwin 72798685dc8SJohn Baldwin /* Read the pid of the fork parent. */ 72898685dc8SJohn Baldwin ATF_REQUIRE(read(cpipe[0], &children[0], sizeof(children[0])) == 72998685dc8SJohn Baldwin sizeof(children[0])); 73098685dc8SJohn Baldwin 73198685dc8SJohn Baldwin /* Attach to the fork parent. */ 73298685dc8SJohn Baldwin attach_child(children[0]); 73398685dc8SJohn Baldwin 73498685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_FOLLOW_FORK, children[0], NULL, 1) != -1); 73598685dc8SJohn Baldwin 73698685dc8SJohn Baldwin /* Continue the fork parent ignoring the SIGSTOP. */ 73798685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 73898685dc8SJohn Baldwin 73998685dc8SJohn Baldwin /* Signal the fork parent to continue. */ 74098685dc8SJohn Baldwin close(cpipe[0]); 74198685dc8SJohn Baldwin 742189ac973SJohn Baldwin children[1] = handle_fork_events(children[0], NULL); 74398685dc8SJohn Baldwin ATF_REQUIRE(children[1] > 0); 74498685dc8SJohn Baldwin 74598685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 74698685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[1], (caddr_t)1, 0) != -1); 74798685dc8SJohn Baldwin 74898685dc8SJohn Baldwin /* 74998685dc8SJohn Baldwin * The fork parent can't exit until the child reports status, 75098685dc8SJohn Baldwin * so the child should report its exit first to the debugger. 75198685dc8SJohn Baldwin */ 75298685dc8SJohn Baldwin wpid = wait(&status); 75398685dc8SJohn Baldwin ATF_REQUIRE(wpid == children[1]); 75498685dc8SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 75598685dc8SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 2); 75698685dc8SJohn Baldwin 75798685dc8SJohn Baldwin wpid = wait(&status); 75898685dc8SJohn Baldwin ATF_REQUIRE(wpid == children[0]); 75998685dc8SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 76098685dc8SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 76198685dc8SJohn Baldwin 76298685dc8SJohn Baldwin wpid = wait(&status); 76398685dc8SJohn Baldwin ATF_REQUIRE(wpid == -1); 76498685dc8SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 76598685dc8SJohn Baldwin } 76698685dc8SJohn Baldwin 76798685dc8SJohn Baldwin /* 76898685dc8SJohn Baldwin * Verify that a new child process is stopped after a followed fork 76998685dc8SJohn Baldwin * and that the traced parent sees the exit of the child when the new 77098685dc8SJohn Baldwin * child process is detached after it reports its fork. In this test 77198685dc8SJohn Baldwin * the parent that forks is not a direct child of the debugger. 77298685dc8SJohn Baldwin */ 77398685dc8SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__follow_fork_child_detached_unrelated_debugger); 77498685dc8SJohn Baldwin ATF_TC_BODY(ptrace__follow_fork_child_detached_unrelated_debugger, tc) 77598685dc8SJohn Baldwin { 776479b610dSJohn Baldwin pid_t children[2], fpid, wpid; 77798685dc8SJohn Baldwin int cpipe[2], status; 77898685dc8SJohn Baldwin 77998685dc8SJohn Baldwin ATF_REQUIRE(pipe(cpipe) == 0); 78098685dc8SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 78198685dc8SJohn Baldwin if (fpid == 0) { 78298685dc8SJohn Baldwin attach_fork_parent(cpipe); 783189ac973SJohn Baldwin follow_fork_parent(false); 78498685dc8SJohn Baldwin } 78598685dc8SJohn Baldwin 78698685dc8SJohn Baldwin /* Parent process. */ 78798685dc8SJohn Baldwin close(cpipe[1]); 78898685dc8SJohn Baldwin 78998685dc8SJohn Baldwin /* Wait for the direct child to exit. */ 79098685dc8SJohn Baldwin wpid = waitpid(fpid, &status, 0); 79198685dc8SJohn Baldwin ATF_REQUIRE(wpid == fpid); 79298685dc8SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 79398685dc8SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 3); 79498685dc8SJohn Baldwin 79598685dc8SJohn Baldwin /* Read the pid of the fork parent. */ 79698685dc8SJohn Baldwin ATF_REQUIRE(read(cpipe[0], &children[0], sizeof(children[0])) == 79798685dc8SJohn Baldwin sizeof(children[0])); 79898685dc8SJohn Baldwin 79998685dc8SJohn Baldwin /* Attach to the fork parent. */ 80098685dc8SJohn Baldwin attach_child(children[0]); 80198685dc8SJohn Baldwin 80298685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_FOLLOW_FORK, children[0], NULL, 1) != -1); 80398685dc8SJohn Baldwin 80498685dc8SJohn Baldwin /* Continue the fork parent ignoring the SIGSTOP. */ 80598685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 80698685dc8SJohn Baldwin 80798685dc8SJohn Baldwin /* Signal the fork parent to continue. */ 80898685dc8SJohn Baldwin close(cpipe[0]); 80998685dc8SJohn Baldwin 810189ac973SJohn Baldwin children[1] = handle_fork_events(children[0], NULL); 81198685dc8SJohn Baldwin ATF_REQUIRE(children[1] > 0); 81298685dc8SJohn Baldwin 81398685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 81498685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_DETACH, children[1], (caddr_t)1, 0) != -1); 81598685dc8SJohn Baldwin 81698685dc8SJohn Baldwin /* 81798685dc8SJohn Baldwin * Should not see any status from the child now, only the fork 81898685dc8SJohn Baldwin * parent. 81998685dc8SJohn Baldwin */ 82098685dc8SJohn Baldwin wpid = wait(&status); 82198685dc8SJohn Baldwin ATF_REQUIRE(wpid == children[0]); 82298685dc8SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 82398685dc8SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 82498685dc8SJohn Baldwin 82598685dc8SJohn Baldwin wpid = wait(&status); 82698685dc8SJohn Baldwin ATF_REQUIRE(wpid == -1); 82798685dc8SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 82898685dc8SJohn Baldwin } 82998685dc8SJohn Baldwin 83098685dc8SJohn Baldwin /* 83198685dc8SJohn Baldwin * Verify that a new child process is stopped after a followed fork 83298685dc8SJohn Baldwin * and that the traced parent sees the exit of the child when the 83398685dc8SJohn Baldwin * traced parent is detached after the fork. In this test the parent 83498685dc8SJohn Baldwin * that forks is not a direct child of the debugger. 83598685dc8SJohn Baldwin */ 83698685dc8SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__follow_fork_parent_detached_unrelated_debugger); 83798685dc8SJohn Baldwin ATF_TC_BODY(ptrace__follow_fork_parent_detached_unrelated_debugger, tc) 83898685dc8SJohn Baldwin { 839479b610dSJohn Baldwin pid_t children[2], fpid, wpid; 84098685dc8SJohn Baldwin int cpipe[2], status; 84198685dc8SJohn Baldwin 84298685dc8SJohn Baldwin ATF_REQUIRE(pipe(cpipe) == 0); 84398685dc8SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 84498685dc8SJohn Baldwin if (fpid == 0) { 84598685dc8SJohn Baldwin attach_fork_parent(cpipe); 846189ac973SJohn Baldwin follow_fork_parent(false); 84798685dc8SJohn Baldwin } 84898685dc8SJohn Baldwin 84998685dc8SJohn Baldwin /* Parent process. */ 85098685dc8SJohn Baldwin close(cpipe[1]); 85198685dc8SJohn Baldwin 85298685dc8SJohn Baldwin /* Wait for the direct child to exit. */ 85398685dc8SJohn Baldwin wpid = waitpid(fpid, &status, 0); 85498685dc8SJohn Baldwin ATF_REQUIRE(wpid == fpid); 85598685dc8SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 85698685dc8SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 3); 85798685dc8SJohn Baldwin 85898685dc8SJohn Baldwin /* Read the pid of the fork parent. */ 85998685dc8SJohn Baldwin ATF_REQUIRE(read(cpipe[0], &children[0], sizeof(children[0])) == 86098685dc8SJohn Baldwin sizeof(children[0])); 86198685dc8SJohn Baldwin 86298685dc8SJohn Baldwin /* Attach to the fork parent. */ 86398685dc8SJohn Baldwin attach_child(children[0]); 86498685dc8SJohn Baldwin 86598685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_FOLLOW_FORK, children[0], NULL, 1) != -1); 86698685dc8SJohn Baldwin 86798685dc8SJohn Baldwin /* Continue the fork parent ignoring the SIGSTOP. */ 86898685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 86998685dc8SJohn Baldwin 87098685dc8SJohn Baldwin /* Signal the fork parent to continue. */ 87198685dc8SJohn Baldwin close(cpipe[0]); 87298685dc8SJohn Baldwin 873189ac973SJohn Baldwin children[1] = handle_fork_events(children[0], NULL); 87498685dc8SJohn Baldwin ATF_REQUIRE(children[1] > 0); 87598685dc8SJohn Baldwin 87698685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_DETACH, children[0], (caddr_t)1, 0) != -1); 87798685dc8SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[1], (caddr_t)1, 0) != -1); 87898685dc8SJohn Baldwin 87998685dc8SJohn Baldwin /* 88098685dc8SJohn Baldwin * Should not see any status from the fork parent now, only 88198685dc8SJohn Baldwin * the child. 88298685dc8SJohn Baldwin */ 88398685dc8SJohn Baldwin wpid = wait(&status); 88498685dc8SJohn Baldwin ATF_REQUIRE(wpid == children[1]); 88598685dc8SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 88698685dc8SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 2); 88798685dc8SJohn Baldwin 88898685dc8SJohn Baldwin wpid = wait(&status); 88998685dc8SJohn Baldwin ATF_REQUIRE(wpid == -1); 89098685dc8SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 89198685dc8SJohn Baldwin } 89298685dc8SJohn Baldwin 893368b2b1cSJohn Baldwin /* 894368b2b1cSJohn Baldwin * Verify that a child process does not see an unrelated debugger as its 895368b2b1cSJohn Baldwin * parent but sees its original parent process. 896368b2b1cSJohn Baldwin */ 897368b2b1cSJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__getppid); 898368b2b1cSJohn Baldwin ATF_TC_BODY(ptrace__getppid, tc) 899368b2b1cSJohn Baldwin { 900368b2b1cSJohn Baldwin pid_t child, debugger, ppid, wpid; 901368b2b1cSJohn Baldwin int cpipe[2], dpipe[2], status; 902368b2b1cSJohn Baldwin char c; 903368b2b1cSJohn Baldwin 904368b2b1cSJohn Baldwin ATF_REQUIRE(pipe(cpipe) == 0); 905368b2b1cSJohn Baldwin ATF_REQUIRE((child = fork()) != -1); 906368b2b1cSJohn Baldwin 907368b2b1cSJohn Baldwin if (child == 0) { 908368b2b1cSJohn Baldwin /* Child process. */ 909368b2b1cSJohn Baldwin close(cpipe[0]); 910368b2b1cSJohn Baldwin 911368b2b1cSJohn Baldwin /* Wait for parent to be ready. */ 912368b2b1cSJohn Baldwin CHILD_REQUIRE(read(cpipe[1], &c, sizeof(c)) == sizeof(c)); 913368b2b1cSJohn Baldwin 914368b2b1cSJohn Baldwin /* Report the parent PID to the parent. */ 915368b2b1cSJohn Baldwin ppid = getppid(); 916368b2b1cSJohn Baldwin CHILD_REQUIRE(write(cpipe[1], &ppid, sizeof(ppid)) == 917368b2b1cSJohn Baldwin sizeof(ppid)); 918368b2b1cSJohn Baldwin 919368b2b1cSJohn Baldwin _exit(1); 920368b2b1cSJohn Baldwin } 921368b2b1cSJohn Baldwin close(cpipe[1]); 922368b2b1cSJohn Baldwin 923368b2b1cSJohn Baldwin ATF_REQUIRE(pipe(dpipe) == 0); 924368b2b1cSJohn Baldwin ATF_REQUIRE((debugger = fork()) != -1); 925368b2b1cSJohn Baldwin 926368b2b1cSJohn Baldwin if (debugger == 0) { 927368b2b1cSJohn Baldwin /* Debugger process. */ 928368b2b1cSJohn Baldwin close(dpipe[0]); 929368b2b1cSJohn Baldwin 930368b2b1cSJohn Baldwin CHILD_REQUIRE(ptrace(PT_ATTACH, child, NULL, 0) != -1); 931368b2b1cSJohn Baldwin 932368b2b1cSJohn Baldwin wpid = waitpid(child, &status, 0); 933368b2b1cSJohn Baldwin CHILD_REQUIRE(wpid == child); 934368b2b1cSJohn Baldwin CHILD_REQUIRE(WIFSTOPPED(status)); 935368b2b1cSJohn Baldwin CHILD_REQUIRE(WSTOPSIG(status) == SIGSTOP); 936368b2b1cSJohn Baldwin 937368b2b1cSJohn Baldwin CHILD_REQUIRE(ptrace(PT_CONTINUE, child, (caddr_t)1, 0) != -1); 938368b2b1cSJohn Baldwin 939368b2b1cSJohn Baldwin /* Signal parent that debugger is attached. */ 940368b2b1cSJohn Baldwin CHILD_REQUIRE(write(dpipe[1], &c, sizeof(c)) == sizeof(c)); 941368b2b1cSJohn Baldwin 942368b2b1cSJohn Baldwin /* Wait for traced child to exit. */ 943368b2b1cSJohn Baldwin wpid = waitpid(child, &status, 0); 944368b2b1cSJohn Baldwin CHILD_REQUIRE(wpid == child); 945368b2b1cSJohn Baldwin CHILD_REQUIRE(WIFEXITED(status)); 946368b2b1cSJohn Baldwin CHILD_REQUIRE(WEXITSTATUS(status) == 1); 947368b2b1cSJohn Baldwin 948368b2b1cSJohn Baldwin _exit(0); 949368b2b1cSJohn Baldwin } 950368b2b1cSJohn Baldwin close(dpipe[1]); 951368b2b1cSJohn Baldwin 952368b2b1cSJohn Baldwin /* Parent process. */ 953368b2b1cSJohn Baldwin 954368b2b1cSJohn Baldwin /* Wait for the debugger to attach to the child. */ 955368b2b1cSJohn Baldwin ATF_REQUIRE(read(dpipe[0], &c, sizeof(c)) == sizeof(c)); 956368b2b1cSJohn Baldwin 957368b2b1cSJohn Baldwin /* Release the child. */ 958368b2b1cSJohn Baldwin ATF_REQUIRE(write(cpipe[0], &c, sizeof(c)) == sizeof(c)); 959368b2b1cSJohn Baldwin 960368b2b1cSJohn Baldwin /* Read the parent PID from the child. */ 961368b2b1cSJohn Baldwin ATF_REQUIRE(read(cpipe[0], &ppid, sizeof(ppid)) == sizeof(ppid)); 962368b2b1cSJohn Baldwin close(cpipe[0]); 963368b2b1cSJohn Baldwin 964368b2b1cSJohn Baldwin ATF_REQUIRE(ppid == getpid()); 965368b2b1cSJohn Baldwin 966368b2b1cSJohn Baldwin /* Wait for the debugger. */ 967368b2b1cSJohn Baldwin wpid = waitpid(debugger, &status, 0); 968368b2b1cSJohn Baldwin ATF_REQUIRE(wpid == debugger); 969368b2b1cSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 970368b2b1cSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 0); 971368b2b1cSJohn Baldwin 972368b2b1cSJohn Baldwin /* The child process should now be ready. */ 973368b2b1cSJohn Baldwin wpid = waitpid(child, &status, WNOHANG); 974368b2b1cSJohn Baldwin ATF_REQUIRE(wpid == child); 975368b2b1cSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 976368b2b1cSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 977368b2b1cSJohn Baldwin } 978368b2b1cSJohn Baldwin 979189ac973SJohn Baldwin /* 980189ac973SJohn Baldwin * Verify that pl_syscall_code in struct ptrace_lwpinfo for a new 981189ac973SJohn Baldwin * child process created via fork() reports the correct value. 982189ac973SJohn Baldwin */ 983189ac973SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__new_child_pl_syscall_code_fork); 984189ac973SJohn Baldwin ATF_TC_BODY(ptrace__new_child_pl_syscall_code_fork, tc) 985189ac973SJohn Baldwin { 986189ac973SJohn Baldwin struct ptrace_lwpinfo pl[2]; 987189ac973SJohn Baldwin pid_t children[2], fpid, wpid; 988189ac973SJohn Baldwin int status; 989189ac973SJohn Baldwin 990189ac973SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 991189ac973SJohn Baldwin if (fpid == 0) { 992189ac973SJohn Baldwin trace_me(); 993189ac973SJohn Baldwin follow_fork_parent(false); 994189ac973SJohn Baldwin } 995189ac973SJohn Baldwin 996189ac973SJohn Baldwin /* Parent process. */ 997189ac973SJohn Baldwin children[0] = fpid; 998189ac973SJohn Baldwin 999189ac973SJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 1000189ac973SJohn Baldwin wpid = waitpid(children[0], &status, 0); 1001189ac973SJohn Baldwin ATF_REQUIRE(wpid == children[0]); 1002189ac973SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 1003189ac973SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 1004189ac973SJohn Baldwin 1005189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_FOLLOW_FORK, children[0], NULL, 1) != -1); 1006189ac973SJohn Baldwin 1007189ac973SJohn Baldwin /* Continue the child ignoring the SIGSTOP. */ 1008189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 1009189ac973SJohn Baldwin 1010189ac973SJohn Baldwin /* Wait for both halves of the fork event to get reported. */ 1011189ac973SJohn Baldwin children[1] = handle_fork_events(children[0], pl); 1012189ac973SJohn Baldwin ATF_REQUIRE(children[1] > 0); 1013189ac973SJohn Baldwin 1014189ac973SJohn Baldwin ATF_REQUIRE((pl[0].pl_flags & PL_FLAG_SCX) != 0); 1015189ac973SJohn Baldwin ATF_REQUIRE((pl[1].pl_flags & PL_FLAG_SCX) != 0); 1016189ac973SJohn Baldwin ATF_REQUIRE(pl[0].pl_syscall_code == SYS_fork); 1017189ac973SJohn Baldwin ATF_REQUIRE(pl[0].pl_syscall_code == pl[1].pl_syscall_code); 1018189ac973SJohn Baldwin ATF_REQUIRE(pl[0].pl_syscall_narg == pl[1].pl_syscall_narg); 1019189ac973SJohn Baldwin 1020189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 1021189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[1], (caddr_t)1, 0) != -1); 1022189ac973SJohn Baldwin 1023189ac973SJohn Baldwin /* 1024189ac973SJohn Baldwin * The child can't exit until the grandchild reports status, so the 1025189ac973SJohn Baldwin * grandchild should report its exit first to the debugger. 1026189ac973SJohn Baldwin */ 1027189ac973SJohn Baldwin wpid = wait(&status); 1028189ac973SJohn Baldwin ATF_REQUIRE(wpid == children[1]); 1029189ac973SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 1030189ac973SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 2); 1031189ac973SJohn Baldwin 1032189ac973SJohn Baldwin wpid = wait(&status); 1033189ac973SJohn Baldwin ATF_REQUIRE(wpid == children[0]); 1034189ac973SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 1035189ac973SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 1036189ac973SJohn Baldwin 1037189ac973SJohn Baldwin wpid = wait(&status); 1038189ac973SJohn Baldwin ATF_REQUIRE(wpid == -1); 1039189ac973SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 1040189ac973SJohn Baldwin } 1041189ac973SJohn Baldwin 1042189ac973SJohn Baldwin /* 1043189ac973SJohn Baldwin * Verify that pl_syscall_code in struct ptrace_lwpinfo for a new 1044189ac973SJohn Baldwin * child process created via vfork() reports the correct value. 1045189ac973SJohn Baldwin */ 1046189ac973SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__new_child_pl_syscall_code_vfork); 1047189ac973SJohn Baldwin ATF_TC_BODY(ptrace__new_child_pl_syscall_code_vfork, tc) 1048189ac973SJohn Baldwin { 1049189ac973SJohn Baldwin struct ptrace_lwpinfo pl[2]; 1050189ac973SJohn Baldwin pid_t children[2], fpid, wpid; 1051189ac973SJohn Baldwin int status; 1052189ac973SJohn Baldwin 1053189ac973SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 1054189ac973SJohn Baldwin if (fpid == 0) { 1055189ac973SJohn Baldwin trace_me(); 1056189ac973SJohn Baldwin follow_fork_parent(true); 1057189ac973SJohn Baldwin } 1058189ac973SJohn Baldwin 1059189ac973SJohn Baldwin /* Parent process. */ 1060189ac973SJohn Baldwin children[0] = fpid; 1061189ac973SJohn Baldwin 1062189ac973SJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 1063189ac973SJohn Baldwin wpid = waitpid(children[0], &status, 0); 1064189ac973SJohn Baldwin ATF_REQUIRE(wpid == children[0]); 1065189ac973SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 1066189ac973SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 1067189ac973SJohn Baldwin 1068189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_FOLLOW_FORK, children[0], NULL, 1) != -1); 1069189ac973SJohn Baldwin 1070189ac973SJohn Baldwin /* Continue the child ignoring the SIGSTOP. */ 1071189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 1072189ac973SJohn Baldwin 1073189ac973SJohn Baldwin /* Wait for both halves of the fork event to get reported. */ 1074189ac973SJohn Baldwin children[1] = handle_fork_events(children[0], pl); 1075189ac973SJohn Baldwin ATF_REQUIRE(children[1] > 0); 1076189ac973SJohn Baldwin 1077189ac973SJohn Baldwin ATF_REQUIRE((pl[0].pl_flags & PL_FLAG_SCX) != 0); 1078189ac973SJohn Baldwin ATF_REQUIRE((pl[1].pl_flags & PL_FLAG_SCX) != 0); 1079189ac973SJohn Baldwin ATF_REQUIRE(pl[0].pl_syscall_code == SYS_vfork); 1080189ac973SJohn Baldwin ATF_REQUIRE(pl[0].pl_syscall_code == pl[1].pl_syscall_code); 1081189ac973SJohn Baldwin ATF_REQUIRE(pl[0].pl_syscall_narg == pl[1].pl_syscall_narg); 1082189ac973SJohn Baldwin 1083189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 1084189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[1], (caddr_t)1, 0) != -1); 1085189ac973SJohn Baldwin 1086189ac973SJohn Baldwin /* 1087189ac973SJohn Baldwin * The child can't exit until the grandchild reports status, so the 1088189ac973SJohn Baldwin * grandchild should report its exit first to the debugger. 1089189ac973SJohn Baldwin */ 1090189ac973SJohn Baldwin wpid = wait(&status); 1091189ac973SJohn Baldwin ATF_REQUIRE(wpid == children[1]); 1092189ac973SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 1093189ac973SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 2); 1094189ac973SJohn Baldwin 1095189ac973SJohn Baldwin wpid = wait(&status); 1096189ac973SJohn Baldwin ATF_REQUIRE(wpid == children[0]); 1097189ac973SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 1098189ac973SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 1099189ac973SJohn Baldwin 1100189ac973SJohn Baldwin wpid = wait(&status); 1101189ac973SJohn Baldwin ATF_REQUIRE(wpid == -1); 1102189ac973SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 1103189ac973SJohn Baldwin } 1104189ac973SJohn Baldwin 1105189ac973SJohn Baldwin static void * 1106189ac973SJohn Baldwin simple_thread(void *arg __unused) 1107189ac973SJohn Baldwin { 1108189ac973SJohn Baldwin 1109189ac973SJohn Baldwin pthread_exit(NULL); 1110189ac973SJohn Baldwin } 1111189ac973SJohn Baldwin 11125fcfab6eSJohn Baldwin static __dead2 void 11135fcfab6eSJohn Baldwin simple_thread_main(void) 11145fcfab6eSJohn Baldwin { 11155fcfab6eSJohn Baldwin pthread_t thread; 11165fcfab6eSJohn Baldwin 11175fcfab6eSJohn Baldwin CHILD_REQUIRE(pthread_create(&thread, NULL, simple_thread, NULL) == 0); 11185fcfab6eSJohn Baldwin CHILD_REQUIRE(pthread_join(thread, NULL) == 0); 11195fcfab6eSJohn Baldwin exit(1); 11205fcfab6eSJohn Baldwin } 11215fcfab6eSJohn Baldwin 1122189ac973SJohn Baldwin /* 1123189ac973SJohn Baldwin * Verify that pl_syscall_code in struct ptrace_lwpinfo for a new 1124189ac973SJohn Baldwin * thread reports the correct value. 1125189ac973SJohn Baldwin */ 1126189ac973SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__new_child_pl_syscall_code_thread); 1127189ac973SJohn Baldwin ATF_TC_BODY(ptrace__new_child_pl_syscall_code_thread, tc) 1128189ac973SJohn Baldwin { 1129189ac973SJohn Baldwin struct ptrace_lwpinfo pl; 1130189ac973SJohn Baldwin pid_t fpid, wpid; 1131e72879e5SJohn Baldwin lwpid_t mainlwp; 1132189ac973SJohn Baldwin int status; 1133189ac973SJohn Baldwin 1134189ac973SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 1135189ac973SJohn Baldwin if (fpid == 0) { 1136189ac973SJohn Baldwin trace_me(); 11375fcfab6eSJohn Baldwin simple_thread_main(); 1138189ac973SJohn Baldwin } 1139189ac973SJohn Baldwin 1140189ac973SJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 1141189ac973SJohn Baldwin wpid = waitpid(fpid, &status, 0); 1142189ac973SJohn Baldwin ATF_REQUIRE(wpid == fpid); 1143189ac973SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 1144189ac973SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 1145189ac973SJohn Baldwin 1146189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, 1147189ac973SJohn Baldwin sizeof(pl)) != -1); 1148e72879e5SJohn Baldwin mainlwp = pl.pl_lwpid; 1149189ac973SJohn Baldwin 1150189ac973SJohn Baldwin /* 1151189ac973SJohn Baldwin * Continue the child ignoring the SIGSTOP and tracing all 1152189ac973SJohn Baldwin * system call exits. 1153189ac973SJohn Baldwin */ 1154189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_TO_SCX, fpid, (caddr_t)1, 0) != -1); 1155189ac973SJohn Baldwin 1156189ac973SJohn Baldwin /* 1157189ac973SJohn Baldwin * Wait for the new thread to arrive. pthread_create() might 1158189ac973SJohn Baldwin * invoke any number of system calls. For now we just wait 1159189ac973SJohn Baldwin * for the new thread to arrive and make sure it reports a 1160189ac973SJohn Baldwin * valid system call code. If ptrace grows thread event 1161189ac973SJohn Baldwin * reporting then this test can be made more precise. 1162189ac973SJohn Baldwin */ 1163189ac973SJohn Baldwin for (;;) { 1164189ac973SJohn Baldwin wpid = waitpid(fpid, &status, 0); 1165189ac973SJohn Baldwin ATF_REQUIRE(wpid == fpid); 1166189ac973SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 1167189ac973SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 1168189ac973SJohn Baldwin 1169189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, 1170189ac973SJohn Baldwin sizeof(pl)) != -1); 1171189ac973SJohn Baldwin ATF_REQUIRE((pl.pl_flags & PL_FLAG_SCX) != 0); 1172189ac973SJohn Baldwin ATF_REQUIRE(pl.pl_syscall_code != 0); 1173e72879e5SJohn Baldwin if (pl.pl_lwpid != mainlwp) 1174189ac973SJohn Baldwin /* New thread seen. */ 1175189ac973SJohn Baldwin break; 1176189ac973SJohn Baldwin 1177189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 1178189ac973SJohn Baldwin } 1179189ac973SJohn Baldwin 1180189ac973SJohn Baldwin /* Wait for the child to exit. */ 1181189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 1182189ac973SJohn Baldwin for (;;) { 1183189ac973SJohn Baldwin wpid = waitpid(fpid, &status, 0); 1184189ac973SJohn Baldwin ATF_REQUIRE(wpid == fpid); 1185189ac973SJohn Baldwin if (WIFEXITED(status)) 1186189ac973SJohn Baldwin break; 1187189ac973SJohn Baldwin 1188189ac973SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 1189189ac973SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 1190189ac973SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 1191189ac973SJohn Baldwin } 1192189ac973SJohn Baldwin 1193189ac973SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 1194189ac973SJohn Baldwin 1195189ac973SJohn Baldwin wpid = wait(&status); 1196189ac973SJohn Baldwin ATF_REQUIRE(wpid == -1); 1197189ac973SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 1198189ac973SJohn Baldwin } 1199189ac973SJohn Baldwin 12005fcfab6eSJohn Baldwin /* 12015fcfab6eSJohn Baldwin * Verify that the expected LWP events are reported for a child thread. 12025fcfab6eSJohn Baldwin */ 12035fcfab6eSJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__lwp_events); 12045fcfab6eSJohn Baldwin ATF_TC_BODY(ptrace__lwp_events, tc) 12055fcfab6eSJohn Baldwin { 12065fcfab6eSJohn Baldwin struct ptrace_lwpinfo pl; 12075fcfab6eSJohn Baldwin pid_t fpid, wpid; 12085fcfab6eSJohn Baldwin lwpid_t lwps[2]; 12095fcfab6eSJohn Baldwin int status; 12105fcfab6eSJohn Baldwin 12115fcfab6eSJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 12125fcfab6eSJohn Baldwin if (fpid == 0) { 12135fcfab6eSJohn Baldwin trace_me(); 12145fcfab6eSJohn Baldwin simple_thread_main(); 12155fcfab6eSJohn Baldwin } 12165fcfab6eSJohn Baldwin 12175fcfab6eSJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 12185fcfab6eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 12195fcfab6eSJohn Baldwin ATF_REQUIRE(wpid == fpid); 12205fcfab6eSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 12215fcfab6eSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 12225fcfab6eSJohn Baldwin 12235fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, 12245fcfab6eSJohn Baldwin sizeof(pl)) != -1); 12255fcfab6eSJohn Baldwin lwps[0] = pl.pl_lwpid; 12265fcfab6eSJohn Baldwin 12275fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWP_EVENTS, wpid, NULL, 1) == 0); 12285fcfab6eSJohn Baldwin 12295fcfab6eSJohn Baldwin /* Continue the child ignoring the SIGSTOP. */ 12305fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 12315fcfab6eSJohn Baldwin 12325fcfab6eSJohn Baldwin /* The first event should be for the child thread's birth. */ 12335fcfab6eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 12345fcfab6eSJohn Baldwin ATF_REQUIRE(wpid == fpid); 12355fcfab6eSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 12365fcfab6eSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 12375fcfab6eSJohn Baldwin 12385fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 12395fcfab6eSJohn Baldwin ATF_REQUIRE((pl.pl_flags & (PL_FLAG_BORN | PL_FLAG_SCX)) == 12405fcfab6eSJohn Baldwin (PL_FLAG_BORN | PL_FLAG_SCX)); 12415fcfab6eSJohn Baldwin ATF_REQUIRE(pl.pl_lwpid != lwps[0]); 12425fcfab6eSJohn Baldwin lwps[1] = pl.pl_lwpid; 12435fcfab6eSJohn Baldwin 12445fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 12455fcfab6eSJohn Baldwin 12465fcfab6eSJohn Baldwin /* The next event should be for the child thread's death. */ 12475fcfab6eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 12485fcfab6eSJohn Baldwin ATF_REQUIRE(wpid == fpid); 12495fcfab6eSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 12505fcfab6eSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 12515fcfab6eSJohn Baldwin 12525fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 12535fcfab6eSJohn Baldwin ATF_REQUIRE((pl.pl_flags & (PL_FLAG_EXITED | PL_FLAG_SCE)) == 12545fcfab6eSJohn Baldwin (PL_FLAG_EXITED | PL_FLAG_SCE)); 12555fcfab6eSJohn Baldwin ATF_REQUIRE(pl.pl_lwpid == lwps[1]); 12565fcfab6eSJohn Baldwin 12575fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 12585fcfab6eSJohn Baldwin 12595fcfab6eSJohn Baldwin /* The last event should be for the child process's exit. */ 12605fcfab6eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 12615fcfab6eSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 12625fcfab6eSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 12635fcfab6eSJohn Baldwin 12645fcfab6eSJohn Baldwin wpid = wait(&status); 12655fcfab6eSJohn Baldwin ATF_REQUIRE(wpid == -1); 12665fcfab6eSJohn Baldwin ATF_REQUIRE(errno == ECHILD); 12675fcfab6eSJohn Baldwin } 12685fcfab6eSJohn Baldwin 12695fcfab6eSJohn Baldwin static void * 12705fcfab6eSJohn Baldwin exec_thread(void *arg __unused) 12715fcfab6eSJohn Baldwin { 12725fcfab6eSJohn Baldwin 12735fcfab6eSJohn Baldwin execl("/usr/bin/true", "true", NULL); 12745fcfab6eSJohn Baldwin exit(127); 12755fcfab6eSJohn Baldwin } 12765fcfab6eSJohn Baldwin 12775fcfab6eSJohn Baldwin static __dead2 void 12785fcfab6eSJohn Baldwin exec_thread_main(void) 12795fcfab6eSJohn Baldwin { 12805fcfab6eSJohn Baldwin pthread_t thread; 12815fcfab6eSJohn Baldwin 12825fcfab6eSJohn Baldwin CHILD_REQUIRE(pthread_create(&thread, NULL, exec_thread, NULL) == 0); 12835fcfab6eSJohn Baldwin for (;;) 12845fcfab6eSJohn Baldwin sleep(60); 12855fcfab6eSJohn Baldwin exit(1); 12865fcfab6eSJohn Baldwin } 12875fcfab6eSJohn Baldwin 12885fcfab6eSJohn Baldwin /* 12895fcfab6eSJohn Baldwin * Verify that the expected LWP events are reported for a multithreaded 12905fcfab6eSJohn Baldwin * process that calls execve(2). 12915fcfab6eSJohn Baldwin */ 12925fcfab6eSJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__lwp_events_exec); 12935fcfab6eSJohn Baldwin ATF_TC_BODY(ptrace__lwp_events_exec, tc) 12945fcfab6eSJohn Baldwin { 12955fcfab6eSJohn Baldwin struct ptrace_lwpinfo pl; 12965fcfab6eSJohn Baldwin pid_t fpid, wpid; 12975fcfab6eSJohn Baldwin lwpid_t lwps[2]; 12985fcfab6eSJohn Baldwin int status; 12995fcfab6eSJohn Baldwin 13005fcfab6eSJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 13015fcfab6eSJohn Baldwin if (fpid == 0) { 13025fcfab6eSJohn Baldwin trace_me(); 13035fcfab6eSJohn Baldwin exec_thread_main(); 13045fcfab6eSJohn Baldwin } 13055fcfab6eSJohn Baldwin 13065fcfab6eSJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 13075fcfab6eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 13085fcfab6eSJohn Baldwin ATF_REQUIRE(wpid == fpid); 13095fcfab6eSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 13105fcfab6eSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 13115fcfab6eSJohn Baldwin 13125fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, 13135fcfab6eSJohn Baldwin sizeof(pl)) != -1); 13145fcfab6eSJohn Baldwin lwps[0] = pl.pl_lwpid; 13155fcfab6eSJohn Baldwin 13165fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWP_EVENTS, wpid, NULL, 1) == 0); 13175fcfab6eSJohn Baldwin 13185fcfab6eSJohn Baldwin /* Continue the child ignoring the SIGSTOP. */ 13195fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 13205fcfab6eSJohn Baldwin 13215fcfab6eSJohn Baldwin /* The first event should be for the child thread's birth. */ 13225fcfab6eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 13235fcfab6eSJohn Baldwin ATF_REQUIRE(wpid == fpid); 13245fcfab6eSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 13255fcfab6eSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 13265fcfab6eSJohn Baldwin 13275fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 13285fcfab6eSJohn Baldwin ATF_REQUIRE((pl.pl_flags & (PL_FLAG_BORN | PL_FLAG_SCX)) == 13295fcfab6eSJohn Baldwin (PL_FLAG_BORN | PL_FLAG_SCX)); 13305fcfab6eSJohn Baldwin ATF_REQUIRE(pl.pl_lwpid != lwps[0]); 13315fcfab6eSJohn Baldwin lwps[1] = pl.pl_lwpid; 13325fcfab6eSJohn Baldwin 13335fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 13345fcfab6eSJohn Baldwin 13355fcfab6eSJohn Baldwin /* 13365fcfab6eSJohn Baldwin * The next event should be for the main thread's death due to 13375fcfab6eSJohn Baldwin * single threading from execve(). 13385fcfab6eSJohn Baldwin */ 13395fcfab6eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 13405fcfab6eSJohn Baldwin ATF_REQUIRE(wpid == fpid); 13415fcfab6eSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 13425fcfab6eSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 13435fcfab6eSJohn Baldwin 13445fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 13455fcfab6eSJohn Baldwin ATF_REQUIRE((pl.pl_flags & (PL_FLAG_EXITED | PL_FLAG_SCE)) == 13465fcfab6eSJohn Baldwin (PL_FLAG_EXITED)); 13475fcfab6eSJohn Baldwin ATF_REQUIRE(pl.pl_lwpid == lwps[0]); 13485fcfab6eSJohn Baldwin 13495fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 13505fcfab6eSJohn Baldwin 13515fcfab6eSJohn Baldwin /* The next event should be for the child process's exec. */ 13525fcfab6eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 13535fcfab6eSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 13545fcfab6eSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 13555fcfab6eSJohn Baldwin 13565fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 13575fcfab6eSJohn Baldwin ATF_REQUIRE((pl.pl_flags & (PL_FLAG_EXEC | PL_FLAG_SCX)) == 13585fcfab6eSJohn Baldwin (PL_FLAG_EXEC | PL_FLAG_SCX)); 13595fcfab6eSJohn Baldwin ATF_REQUIRE(pl.pl_lwpid == lwps[1]); 13605fcfab6eSJohn Baldwin 13615fcfab6eSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 13625fcfab6eSJohn Baldwin 13635fcfab6eSJohn Baldwin /* The last event should be for the child process's exit. */ 13645fcfab6eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 13655fcfab6eSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 13665fcfab6eSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 0); 13675fcfab6eSJohn Baldwin 13685fcfab6eSJohn Baldwin wpid = wait(&status); 13695fcfab6eSJohn Baldwin ATF_REQUIRE(wpid == -1); 13705fcfab6eSJohn Baldwin ATF_REQUIRE(errno == ECHILD); 13715fcfab6eSJohn Baldwin } 13725fcfab6eSJohn Baldwin 13733340c45bSJohn Baldwin static void 13743340c45bSJohn Baldwin handler(int sig __unused) 13753340c45bSJohn Baldwin { 13763340c45bSJohn Baldwin } 13773340c45bSJohn Baldwin 13783340c45bSJohn Baldwin static void 13793340c45bSJohn Baldwin signal_main(void) 13803340c45bSJohn Baldwin { 13813340c45bSJohn Baldwin 13823340c45bSJohn Baldwin signal(SIGINFO, handler); 13833340c45bSJohn Baldwin raise(SIGINFO); 13843340c45bSJohn Baldwin exit(0); 13853340c45bSJohn Baldwin } 13863340c45bSJohn Baldwin 13873340c45bSJohn Baldwin /* 13883340c45bSJohn Baldwin * Verify that the expected ptrace event is reported for a signal. 13893340c45bSJohn Baldwin */ 13903340c45bSJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__siginfo); 13913340c45bSJohn Baldwin ATF_TC_BODY(ptrace__siginfo, tc) 13923340c45bSJohn Baldwin { 13933340c45bSJohn Baldwin struct ptrace_lwpinfo pl; 13943340c45bSJohn Baldwin pid_t fpid, wpid; 13953340c45bSJohn Baldwin int status; 13963340c45bSJohn Baldwin 13973340c45bSJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 13983340c45bSJohn Baldwin if (fpid == 0) { 13993340c45bSJohn Baldwin trace_me(); 14003340c45bSJohn Baldwin signal_main(); 14013340c45bSJohn Baldwin } 14023340c45bSJohn Baldwin 14033340c45bSJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 14043340c45bSJohn Baldwin wpid = waitpid(fpid, &status, 0); 14053340c45bSJohn Baldwin ATF_REQUIRE(wpid == fpid); 14063340c45bSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 14073340c45bSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 14083340c45bSJohn Baldwin 14093340c45bSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 14103340c45bSJohn Baldwin 14113340c45bSJohn Baldwin /* The next event should be for the SIGINFO. */ 14123340c45bSJohn Baldwin wpid = waitpid(fpid, &status, 0); 14133340c45bSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 14143340c45bSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGINFO); 14153340c45bSJohn Baldwin 14163340c45bSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 14173340c45bSJohn Baldwin ATF_REQUIRE(pl.pl_event == PL_EVENT_SIGNAL); 14183340c45bSJohn Baldwin ATF_REQUIRE(pl.pl_flags & PL_FLAG_SI); 14193340c45bSJohn Baldwin ATF_REQUIRE(pl.pl_siginfo.si_code == SI_LWP); 14203340c45bSJohn Baldwin ATF_REQUIRE(pl.pl_siginfo.si_pid == wpid); 14213340c45bSJohn Baldwin 14223340c45bSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 14233340c45bSJohn Baldwin 14243340c45bSJohn Baldwin /* The last event should be for the child process's exit. */ 14253340c45bSJohn Baldwin wpid = waitpid(fpid, &status, 0); 14263340c45bSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 14273340c45bSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 0); 14283340c45bSJohn Baldwin 14293340c45bSJohn Baldwin wpid = wait(&status); 14303340c45bSJohn Baldwin ATF_REQUIRE(wpid == -1); 14313340c45bSJohn Baldwin ATF_REQUIRE(errno == ECHILD); 14323340c45bSJohn Baldwin } 14333340c45bSJohn Baldwin 14348d570f64SJohn Baldwin /* 14358d570f64SJohn Baldwin * Verify that the expected ptrace events are reported for PTRACE_EXEC. 14368d570f64SJohn Baldwin */ 14378d570f64SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__ptrace_exec_disable); 14388d570f64SJohn Baldwin ATF_TC_BODY(ptrace__ptrace_exec_disable, tc) 14398d570f64SJohn Baldwin { 14408d570f64SJohn Baldwin pid_t fpid, wpid; 14418d570f64SJohn Baldwin int events, status; 14428d570f64SJohn Baldwin 14438d570f64SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 14448d570f64SJohn Baldwin if (fpid == 0) { 14458d570f64SJohn Baldwin trace_me(); 14468d570f64SJohn Baldwin exec_thread(NULL); 14478d570f64SJohn Baldwin } 14488d570f64SJohn Baldwin 14498d570f64SJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 14508d570f64SJohn Baldwin wpid = waitpid(fpid, &status, 0); 14518d570f64SJohn Baldwin ATF_REQUIRE(wpid == fpid); 14528d570f64SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 14538d570f64SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 14548d570f64SJohn Baldwin 14558d570f64SJohn Baldwin events = 0; 14568d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_SET_EVENT_MASK, fpid, (caddr_t)&events, 14578d570f64SJohn Baldwin sizeof(events)) == 0); 14588d570f64SJohn Baldwin 14598d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 14608d570f64SJohn Baldwin 14618d570f64SJohn Baldwin /* Should get one event at exit. */ 14628d570f64SJohn Baldwin wpid = waitpid(fpid, &status, 0); 14638d570f64SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 14648d570f64SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 0); 14658d570f64SJohn Baldwin 14668d570f64SJohn Baldwin wpid = wait(&status); 14678d570f64SJohn Baldwin ATF_REQUIRE(wpid == -1); 14688d570f64SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 14698d570f64SJohn Baldwin } 14708d570f64SJohn Baldwin 14718d570f64SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__ptrace_exec_enable); 14728d570f64SJohn Baldwin ATF_TC_BODY(ptrace__ptrace_exec_enable, tc) 14738d570f64SJohn Baldwin { 14748d570f64SJohn Baldwin struct ptrace_lwpinfo pl; 14758d570f64SJohn Baldwin pid_t fpid, wpid; 14768d570f64SJohn Baldwin int events, status; 14778d570f64SJohn Baldwin 14788d570f64SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 14798d570f64SJohn Baldwin if (fpid == 0) { 14808d570f64SJohn Baldwin trace_me(); 14818d570f64SJohn Baldwin exec_thread(NULL); 14828d570f64SJohn Baldwin } 14838d570f64SJohn Baldwin 14848d570f64SJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 14858d570f64SJohn Baldwin wpid = waitpid(fpid, &status, 0); 14868d570f64SJohn Baldwin ATF_REQUIRE(wpid == fpid); 14878d570f64SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 14888d570f64SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 14898d570f64SJohn Baldwin 14908d570f64SJohn Baldwin events = PTRACE_EXEC; 14918d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_SET_EVENT_MASK, fpid, (caddr_t)&events, 14928d570f64SJohn Baldwin sizeof(events)) == 0); 14938d570f64SJohn Baldwin 14948d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 14958d570f64SJohn Baldwin 14968d570f64SJohn Baldwin /* The next event should be for the child process's exec. */ 14978d570f64SJohn Baldwin wpid = waitpid(fpid, &status, 0); 14988d570f64SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 14998d570f64SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 15008d570f64SJohn Baldwin 15018d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 15028d570f64SJohn Baldwin ATF_REQUIRE((pl.pl_flags & (PL_FLAG_EXEC | PL_FLAG_SCX)) == 15038d570f64SJohn Baldwin (PL_FLAG_EXEC | PL_FLAG_SCX)); 15048d570f64SJohn Baldwin 15058d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 15068d570f64SJohn Baldwin 15078d570f64SJohn Baldwin /* The last event should be for the child process's exit. */ 15088d570f64SJohn Baldwin wpid = waitpid(fpid, &status, 0); 15098d570f64SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 15108d570f64SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 0); 15118d570f64SJohn Baldwin 15128d570f64SJohn Baldwin wpid = wait(&status); 15138d570f64SJohn Baldwin ATF_REQUIRE(wpid == -1); 15148d570f64SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 15158d570f64SJohn Baldwin } 15168d570f64SJohn Baldwin 15178d570f64SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__event_mask); 15188d570f64SJohn Baldwin ATF_TC_BODY(ptrace__event_mask, tc) 15198d570f64SJohn Baldwin { 15208d570f64SJohn Baldwin pid_t fpid, wpid; 15218d570f64SJohn Baldwin int events, status; 15228d570f64SJohn Baldwin 15238d570f64SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 15248d570f64SJohn Baldwin if (fpid == 0) { 15258d570f64SJohn Baldwin trace_me(); 15268d570f64SJohn Baldwin exit(0); 15278d570f64SJohn Baldwin } 15288d570f64SJohn Baldwin 15298d570f64SJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 15308d570f64SJohn Baldwin wpid = waitpid(fpid, &status, 0); 15318d570f64SJohn Baldwin ATF_REQUIRE(wpid == fpid); 15328d570f64SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 15338d570f64SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 15348d570f64SJohn Baldwin 15358d570f64SJohn Baldwin /* PT_FOLLOW_FORK should toggle the state of PTRACE_FORK. */ 15368d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_FOLLOW_FORK, fpid, NULL, 1) != -1); 15378d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_GET_EVENT_MASK, fpid, (caddr_t)&events, 15388d570f64SJohn Baldwin sizeof(events)) == 0); 15398d570f64SJohn Baldwin ATF_REQUIRE(events & PTRACE_FORK); 15408d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_FOLLOW_FORK, fpid, NULL, 0) != -1); 15418d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_GET_EVENT_MASK, fpid, (caddr_t)&events, 15428d570f64SJohn Baldwin sizeof(events)) == 0); 15438d570f64SJohn Baldwin ATF_REQUIRE(!(events & PTRACE_FORK)); 15448d570f64SJohn Baldwin 15458d570f64SJohn Baldwin /* PT_LWP_EVENTS should toggle the state of PTRACE_LWP. */ 15468d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_LWP_EVENTS, fpid, NULL, 1) != -1); 15478d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_GET_EVENT_MASK, fpid, (caddr_t)&events, 15488d570f64SJohn Baldwin sizeof(events)) == 0); 15498d570f64SJohn Baldwin ATF_REQUIRE(events & PTRACE_LWP); 15508d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_LWP_EVENTS, fpid, NULL, 0) != -1); 15518d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_GET_EVENT_MASK, fpid, (caddr_t)&events, 15528d570f64SJohn Baldwin sizeof(events)) == 0); 15538d570f64SJohn Baldwin ATF_REQUIRE(!(events & PTRACE_LWP)); 15548d570f64SJohn Baldwin 15558d570f64SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 15568d570f64SJohn Baldwin 15578d570f64SJohn Baldwin /* Should get one event at exit. */ 15588d570f64SJohn Baldwin wpid = waitpid(fpid, &status, 0); 15598d570f64SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 15608d570f64SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 0); 15618d570f64SJohn Baldwin 15628d570f64SJohn Baldwin wpid = wait(&status); 15638d570f64SJohn Baldwin ATF_REQUIRE(wpid == -1); 15648d570f64SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 15658d570f64SJohn Baldwin } 15668d570f64SJohn Baldwin 1567fc4f075aSJohn Baldwin /* 1568fc4f075aSJohn Baldwin * Verify that the expected ptrace events are reported for PTRACE_VFORK. 1569fc4f075aSJohn Baldwin */ 1570fc4f075aSJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__ptrace_vfork); 1571fc4f075aSJohn Baldwin ATF_TC_BODY(ptrace__ptrace_vfork, tc) 1572fc4f075aSJohn Baldwin { 1573fc4f075aSJohn Baldwin struct ptrace_lwpinfo pl; 1574fc4f075aSJohn Baldwin pid_t fpid, wpid; 1575fc4f075aSJohn Baldwin int events, status; 1576fc4f075aSJohn Baldwin 1577fc4f075aSJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 1578fc4f075aSJohn Baldwin if (fpid == 0) { 1579fc4f075aSJohn Baldwin trace_me(); 1580fc4f075aSJohn Baldwin follow_fork_parent(true); 1581fc4f075aSJohn Baldwin } 1582fc4f075aSJohn Baldwin 1583fc4f075aSJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 1584fc4f075aSJohn Baldwin wpid = waitpid(fpid, &status, 0); 1585fc4f075aSJohn Baldwin ATF_REQUIRE(wpid == fpid); 1586fc4f075aSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 1587fc4f075aSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 1588fc4f075aSJohn Baldwin 1589fc4f075aSJohn Baldwin ATF_REQUIRE(ptrace(PT_GET_EVENT_MASK, fpid, (caddr_t)&events, 1590fc4f075aSJohn Baldwin sizeof(events)) == 0); 1591fc4f075aSJohn Baldwin events |= PTRACE_VFORK; 1592fc4f075aSJohn Baldwin ATF_REQUIRE(ptrace(PT_SET_EVENT_MASK, fpid, (caddr_t)&events, 1593fc4f075aSJohn Baldwin sizeof(events)) == 0); 1594fc4f075aSJohn Baldwin 1595fc4f075aSJohn Baldwin /* Continue the child ignoring the SIGSTOP. */ 1596fc4f075aSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) != -1); 1597fc4f075aSJohn Baldwin 1598fc4f075aSJohn Baldwin /* The next event should report the end of the vfork. */ 1599fc4f075aSJohn Baldwin wpid = wait(&status); 1600fc4f075aSJohn Baldwin ATF_REQUIRE(wpid == fpid); 1601fc4f075aSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 1602fc4f075aSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 1603fc4f075aSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 1604fc4f075aSJohn Baldwin ATF_REQUIRE((pl.pl_flags & PL_FLAG_VFORK_DONE) != 0); 1605fc4f075aSJohn Baldwin 1606fc4f075aSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) != -1); 1607fc4f075aSJohn Baldwin 1608fc4f075aSJohn Baldwin wpid = wait(&status); 1609fc4f075aSJohn Baldwin ATF_REQUIRE(wpid == fpid); 1610fc4f075aSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 1611fc4f075aSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 1612fc4f075aSJohn Baldwin 1613fc4f075aSJohn Baldwin wpid = wait(&status); 1614fc4f075aSJohn Baldwin ATF_REQUIRE(wpid == -1); 1615fc4f075aSJohn Baldwin ATF_REQUIRE(errno == ECHILD); 1616fc4f075aSJohn Baldwin } 1617fc4f075aSJohn Baldwin 1618fc4f075aSJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__ptrace_vfork_follow); 1619fc4f075aSJohn Baldwin ATF_TC_BODY(ptrace__ptrace_vfork_follow, tc) 1620fc4f075aSJohn Baldwin { 1621fc4f075aSJohn Baldwin struct ptrace_lwpinfo pl[2]; 1622fc4f075aSJohn Baldwin pid_t children[2], fpid, wpid; 1623fc4f075aSJohn Baldwin int events, status; 1624fc4f075aSJohn Baldwin 1625fc4f075aSJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 1626fc4f075aSJohn Baldwin if (fpid == 0) { 1627fc4f075aSJohn Baldwin trace_me(); 1628fc4f075aSJohn Baldwin follow_fork_parent(true); 1629fc4f075aSJohn Baldwin } 1630fc4f075aSJohn Baldwin 1631fc4f075aSJohn Baldwin /* Parent process. */ 1632fc4f075aSJohn Baldwin children[0] = fpid; 1633fc4f075aSJohn Baldwin 1634fc4f075aSJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 1635fc4f075aSJohn Baldwin wpid = waitpid(children[0], &status, 0); 1636fc4f075aSJohn Baldwin ATF_REQUIRE(wpid == children[0]); 1637fc4f075aSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 1638fc4f075aSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 1639fc4f075aSJohn Baldwin 1640fc4f075aSJohn Baldwin ATF_REQUIRE(ptrace(PT_GET_EVENT_MASK, children[0], (caddr_t)&events, 1641fc4f075aSJohn Baldwin sizeof(events)) == 0); 1642fc4f075aSJohn Baldwin events |= PTRACE_FORK | PTRACE_VFORK; 1643fc4f075aSJohn Baldwin ATF_REQUIRE(ptrace(PT_SET_EVENT_MASK, children[0], (caddr_t)&events, 1644fc4f075aSJohn Baldwin sizeof(events)) == 0); 1645fc4f075aSJohn Baldwin 1646fc4f075aSJohn Baldwin /* Continue the child ignoring the SIGSTOP. */ 1647fc4f075aSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 1648fc4f075aSJohn Baldwin 1649fc4f075aSJohn Baldwin /* Wait for both halves of the fork event to get reported. */ 1650fc4f075aSJohn Baldwin children[1] = handle_fork_events(children[0], pl); 1651fc4f075aSJohn Baldwin ATF_REQUIRE(children[1] > 0); 1652fc4f075aSJohn Baldwin 1653fc4f075aSJohn Baldwin ATF_REQUIRE((pl[0].pl_flags & PL_FLAG_VFORKED) != 0); 1654fc4f075aSJohn Baldwin 1655fc4f075aSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 1656fc4f075aSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[1], (caddr_t)1, 0) != -1); 1657fc4f075aSJohn Baldwin 1658fc4f075aSJohn Baldwin /* 1659fc4f075aSJohn Baldwin * The child can't exit until the grandchild reports status, so the 1660fc4f075aSJohn Baldwin * grandchild should report its exit first to the debugger. 1661fc4f075aSJohn Baldwin */ 1662fc4f075aSJohn Baldwin wpid = waitpid(children[1], &status, 0); 1663fc4f075aSJohn Baldwin ATF_REQUIRE(wpid == children[1]); 1664fc4f075aSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 1665fc4f075aSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 2); 1666fc4f075aSJohn Baldwin 1667fc4f075aSJohn Baldwin /* 1668fc4f075aSJohn Baldwin * The child should report it's vfork() completion before it 1669fc4f075aSJohn Baldwin * exits. 1670fc4f075aSJohn Baldwin */ 1671fc4f075aSJohn Baldwin wpid = wait(&status); 1672fc4f075aSJohn Baldwin ATF_REQUIRE(wpid == children[0]); 1673fc4f075aSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 1674fc4f075aSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 1675fc4f075aSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl[0], sizeof(pl[0])) != 1676fc4f075aSJohn Baldwin -1); 1677fc4f075aSJohn Baldwin ATF_REQUIRE((pl[0].pl_flags & PL_FLAG_VFORK_DONE) != 0); 1678fc4f075aSJohn Baldwin 1679fc4f075aSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, children[0], (caddr_t)1, 0) != -1); 1680fc4f075aSJohn Baldwin 1681fc4f075aSJohn Baldwin wpid = wait(&status); 1682fc4f075aSJohn Baldwin ATF_REQUIRE(wpid == children[0]); 1683fc4f075aSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 1684fc4f075aSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 1685fc4f075aSJohn Baldwin 1686fc4f075aSJohn Baldwin wpid = wait(&status); 1687fc4f075aSJohn Baldwin ATF_REQUIRE(wpid == -1); 1688fc4f075aSJohn Baldwin ATF_REQUIRE(errno == ECHILD); 1689fc4f075aSJohn Baldwin } 1690fc4f075aSJohn Baldwin 169182a4538fSEric Badger /* 1692e2ebfbbfSEric Badger * XXX: There's nothing inherently platform specific about this test, however a 1693e2ebfbbfSEric Badger * userspace visible breakpoint() is a prerequisite. 1694e2ebfbbfSEric Badger */ 1695e2ebfbbfSEric Badger #if defined(__amd64__) || defined(__i386__) || defined(__sparc64__) 1696e2ebfbbfSEric Badger /* 169782a4538fSEric Badger * Verify that no more events are reported after PT_KILL except for the 169882a4538fSEric Badger * process exit when stopped due to a breakpoint trap. 169982a4538fSEric Badger */ 170082a4538fSEric Badger ATF_TC_WITHOUT_HEAD(ptrace__PT_KILL_breakpoint); 170182a4538fSEric Badger ATF_TC_BODY(ptrace__PT_KILL_breakpoint, tc) 170282a4538fSEric Badger { 170382a4538fSEric Badger pid_t fpid, wpid; 170482a4538fSEric Badger int status; 170582a4538fSEric Badger 170682a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 170782a4538fSEric Badger if (fpid == 0) { 170882a4538fSEric Badger trace_me(); 17099e0d1159SEric Badger breakpoint(); 171082a4538fSEric Badger exit(1); 171182a4538fSEric Badger } 171282a4538fSEric Badger 171382a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 171482a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 171582a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 171682a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 171782a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 171882a4538fSEric Badger 171982a4538fSEric Badger /* Continue the child ignoring the SIGSTOP. */ 172082a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 172182a4538fSEric Badger 172282a4538fSEric Badger /* The second wait() should report hitting the breakpoint. */ 172382a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 172482a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 172582a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 172682a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 172782a4538fSEric Badger 172882a4538fSEric Badger /* Kill the child process. */ 172982a4538fSEric Badger ATF_REQUIRE(ptrace(PT_KILL, fpid, 0, 0) == 0); 173082a4538fSEric Badger 173182a4538fSEric Badger /* The last wait() should report the SIGKILL. */ 173282a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 173382a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 173482a4538fSEric Badger ATF_REQUIRE(WIFSIGNALED(status)); 173582a4538fSEric Badger ATF_REQUIRE(WTERMSIG(status) == SIGKILL); 173682a4538fSEric Badger 173782a4538fSEric Badger wpid = wait(&status); 173882a4538fSEric Badger ATF_REQUIRE(wpid == -1); 173982a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 174082a4538fSEric Badger } 1741e2ebfbbfSEric Badger #endif /* defined(__amd64__) || defined(__i386__) || defined(__sparc64__) */ 174282a4538fSEric Badger 174382a4538fSEric Badger /* 174482a4538fSEric Badger * Verify that no more events are reported after PT_KILL except for the 174582a4538fSEric Badger * process exit when stopped inside of a system call. 174682a4538fSEric Badger */ 174782a4538fSEric Badger ATF_TC_WITHOUT_HEAD(ptrace__PT_KILL_system_call); 174882a4538fSEric Badger ATF_TC_BODY(ptrace__PT_KILL_system_call, tc) 174982a4538fSEric Badger { 175082a4538fSEric Badger struct ptrace_lwpinfo pl; 175182a4538fSEric Badger pid_t fpid, wpid; 175282a4538fSEric Badger int status; 175382a4538fSEric Badger 175482a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 175582a4538fSEric Badger if (fpid == 0) { 175682a4538fSEric Badger trace_me(); 175782a4538fSEric Badger getpid(); 175882a4538fSEric Badger exit(1); 175982a4538fSEric Badger } 176082a4538fSEric Badger 176182a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 176282a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 176382a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 176482a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 176582a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 176682a4538fSEric Badger 176782a4538fSEric Badger /* Continue the child ignoring the SIGSTOP and tracing system calls. */ 176882a4538fSEric Badger ATF_REQUIRE(ptrace(PT_SYSCALL, fpid, (caddr_t)1, 0) == 0); 176982a4538fSEric Badger 177082a4538fSEric Badger /* The second wait() should report a system call entry for getpid(). */ 177182a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 177282a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 177382a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 177482a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 177582a4538fSEric Badger 177682a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 177782a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & PL_FLAG_SCE); 177882a4538fSEric Badger 177982a4538fSEric Badger /* Kill the child process. */ 178082a4538fSEric Badger ATF_REQUIRE(ptrace(PT_KILL, fpid, 0, 0) == 0); 178182a4538fSEric Badger 178282a4538fSEric Badger /* The last wait() should report the SIGKILL. */ 178382a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 178482a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 178582a4538fSEric Badger ATF_REQUIRE(WIFSIGNALED(status)); 178682a4538fSEric Badger ATF_REQUIRE(WTERMSIG(status) == SIGKILL); 178782a4538fSEric Badger 178882a4538fSEric Badger wpid = wait(&status); 178982a4538fSEric Badger ATF_REQUIRE(wpid == -1); 179082a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 179182a4538fSEric Badger } 179282a4538fSEric Badger 179382a4538fSEric Badger /* 179482a4538fSEric Badger * Verify that no more events are reported after PT_KILL except for the 179582a4538fSEric Badger * process exit when killing a multithreaded process. 179682a4538fSEric Badger */ 179782a4538fSEric Badger ATF_TC_WITHOUT_HEAD(ptrace__PT_KILL_threads); 179882a4538fSEric Badger ATF_TC_BODY(ptrace__PT_KILL_threads, tc) 179982a4538fSEric Badger { 180082a4538fSEric Badger struct ptrace_lwpinfo pl; 180182a4538fSEric Badger pid_t fpid, wpid; 180282a4538fSEric Badger lwpid_t main_lwp; 180382a4538fSEric Badger int status; 180482a4538fSEric Badger 180582a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 180682a4538fSEric Badger if (fpid == 0) { 180782a4538fSEric Badger trace_me(); 180882a4538fSEric Badger simple_thread_main(); 180982a4538fSEric Badger } 181082a4538fSEric Badger 181182a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 181282a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 181382a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 181482a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 181582a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 181682a4538fSEric Badger 181782a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, 181882a4538fSEric Badger sizeof(pl)) != -1); 181982a4538fSEric Badger main_lwp = pl.pl_lwpid; 182082a4538fSEric Badger 182182a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWP_EVENTS, wpid, NULL, 1) == 0); 182282a4538fSEric Badger 182382a4538fSEric Badger /* Continue the child ignoring the SIGSTOP. */ 182482a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 182582a4538fSEric Badger 182682a4538fSEric Badger /* The first event should be for the child thread's birth. */ 182782a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 182882a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 182982a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 183082a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 183182a4538fSEric Badger 183282a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 183382a4538fSEric Badger ATF_REQUIRE((pl.pl_flags & (PL_FLAG_BORN | PL_FLAG_SCX)) == 183482a4538fSEric Badger (PL_FLAG_BORN | PL_FLAG_SCX)); 183582a4538fSEric Badger ATF_REQUIRE(pl.pl_lwpid != main_lwp); 183682a4538fSEric Badger 183782a4538fSEric Badger /* Kill the child process. */ 183882a4538fSEric Badger ATF_REQUIRE(ptrace(PT_KILL, fpid, 0, 0) == 0); 183982a4538fSEric Badger 184082a4538fSEric Badger /* The last wait() should report the SIGKILL. */ 184182a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 184282a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 184382a4538fSEric Badger ATF_REQUIRE(WIFSIGNALED(status)); 184482a4538fSEric Badger ATF_REQUIRE(WTERMSIG(status) == SIGKILL); 184582a4538fSEric Badger 184682a4538fSEric Badger wpid = wait(&status); 184782a4538fSEric Badger ATF_REQUIRE(wpid == -1); 184882a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 184982a4538fSEric Badger } 185082a4538fSEric Badger 185182a4538fSEric Badger static void * 185282a4538fSEric Badger mask_usr1_thread(void *arg) 185382a4538fSEric Badger { 185482a4538fSEric Badger pthread_barrier_t *pbarrier; 185582a4538fSEric Badger sigset_t sigmask; 185682a4538fSEric Badger 185782a4538fSEric Badger pbarrier = (pthread_barrier_t*)arg; 185882a4538fSEric Badger 185982a4538fSEric Badger sigemptyset(&sigmask); 186082a4538fSEric Badger sigaddset(&sigmask, SIGUSR1); 186182a4538fSEric Badger CHILD_REQUIRE(pthread_sigmask(SIG_BLOCK, &sigmask, NULL) == 0); 186282a4538fSEric Badger 186382a4538fSEric Badger /* Sync up with other thread after sigmask updated. */ 186482a4538fSEric Badger pthread_barrier_wait(pbarrier); 186582a4538fSEric Badger 186682a4538fSEric Badger for (;;) 186782a4538fSEric Badger sleep(60); 186882a4538fSEric Badger 186982a4538fSEric Badger return (NULL); 187082a4538fSEric Badger } 187182a4538fSEric Badger 187282a4538fSEric Badger /* 187382a4538fSEric Badger * Verify that the SIGKILL from PT_KILL takes priority over other signals 187482a4538fSEric Badger * and prevents spurious stops due to those other signals. 187582a4538fSEric Badger */ 18763cf56bb4SEnji Cooper ATF_TC(ptrace__PT_KILL_competing_signal); 18773cf56bb4SEnji Cooper ATF_TC_HEAD(ptrace__PT_KILL_competing_signal, tc) 18783cf56bb4SEnji Cooper { 18793cf56bb4SEnji Cooper 18803cf56bb4SEnji Cooper atf_tc_set_md_var(tc, "require.user", "root"); 18813cf56bb4SEnji Cooper } 188282a4538fSEric Badger ATF_TC_BODY(ptrace__PT_KILL_competing_signal, tc) 188382a4538fSEric Badger { 188482a4538fSEric Badger pid_t fpid, wpid; 188582a4538fSEric Badger int status; 188682a4538fSEric Badger cpuset_t setmask; 188782a4538fSEric Badger pthread_t t; 188882a4538fSEric Badger pthread_barrier_t barrier; 1889bc2be1d3SEric Badger struct sched_param sched_param; 189082a4538fSEric Badger 189182a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 189282a4538fSEric Badger if (fpid == 0) { 1893bc2be1d3SEric Badger /* Bind to one CPU so only one thread at a time will run. */ 189482a4538fSEric Badger CPU_ZERO(&setmask); 189582a4538fSEric Badger CPU_SET(0, &setmask); 189682a4538fSEric Badger cpusetid_t setid; 189782a4538fSEric Badger CHILD_REQUIRE(cpuset(&setid) == 0); 189882a4538fSEric Badger CHILD_REQUIRE(cpuset_setaffinity(CPU_LEVEL_CPUSET, 189982a4538fSEric Badger CPU_WHICH_CPUSET, setid, sizeof(setmask), &setmask) == 0); 190082a4538fSEric Badger 190182a4538fSEric Badger CHILD_REQUIRE(pthread_barrier_init(&barrier, NULL, 2) == 0); 190282a4538fSEric Badger 190382a4538fSEric Badger CHILD_REQUIRE(pthread_create(&t, NULL, mask_usr1_thread, 190482a4538fSEric Badger (void*)&barrier) == 0); 190582a4538fSEric Badger 1906bc2be1d3SEric Badger /* 1907bc2be1d3SEric Badger * Give the main thread higher priority. The test always 1908bc2be1d3SEric Badger * assumes that, if both threads are able to run, the main 1909bc2be1d3SEric Badger * thread runs first. 1910bc2be1d3SEric Badger */ 1911bc2be1d3SEric Badger sched_param.sched_priority = 1912bc2be1d3SEric Badger (sched_get_priority_max(SCHED_FIFO) + 1913bc2be1d3SEric Badger sched_get_priority_min(SCHED_FIFO)) / 2; 1914bc2be1d3SEric Badger CHILD_REQUIRE(pthread_setschedparam(pthread_self(), 1915bc2be1d3SEric Badger SCHED_FIFO, &sched_param) == 0); 1916bc2be1d3SEric Badger sched_param.sched_priority -= RQ_PPQ; 1917bc2be1d3SEric Badger CHILD_REQUIRE(pthread_setschedparam(t, SCHED_FIFO, 1918bc2be1d3SEric Badger &sched_param) == 0); 1919bc2be1d3SEric Badger 192082a4538fSEric Badger sigset_t sigmask; 192182a4538fSEric Badger sigemptyset(&sigmask); 192282a4538fSEric Badger sigaddset(&sigmask, SIGUSR2); 192382a4538fSEric Badger CHILD_REQUIRE(pthread_sigmask(SIG_BLOCK, &sigmask, NULL) == 0); 192482a4538fSEric Badger 192582a4538fSEric Badger /* Sync up with other thread after sigmask updated. */ 192682a4538fSEric Badger pthread_barrier_wait(&barrier); 192782a4538fSEric Badger 192882a4538fSEric Badger trace_me(); 192982a4538fSEric Badger 193082a4538fSEric Badger for (;;) 193182a4538fSEric Badger sleep(60); 193282a4538fSEric Badger 193382a4538fSEric Badger exit(1); 193482a4538fSEric Badger } 193582a4538fSEric Badger 193682a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 193782a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 193882a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 193982a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 194082a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 194182a4538fSEric Badger 194282a4538fSEric Badger /* Continue the child ignoring the SIGSTOP. */ 194382a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 194482a4538fSEric Badger 194582a4538fSEric Badger /* Send a signal that only the second thread can handle. */ 194682a4538fSEric Badger ATF_REQUIRE(kill(fpid, SIGUSR2) == 0); 194782a4538fSEric Badger 194882a4538fSEric Badger /* The second wait() should report the SIGUSR2. */ 194982a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 195082a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 195182a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 195282a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGUSR2); 195382a4538fSEric Badger 195482a4538fSEric Badger /* Send a signal that only the first thread can handle. */ 195582a4538fSEric Badger ATF_REQUIRE(kill(fpid, SIGUSR1) == 0); 195682a4538fSEric Badger 195782a4538fSEric Badger /* Replace the SIGUSR2 with a kill. */ 195882a4538fSEric Badger ATF_REQUIRE(ptrace(PT_KILL, fpid, 0, 0) == 0); 195982a4538fSEric Badger 196082a4538fSEric Badger /* The last wait() should report the SIGKILL (not the SIGUSR signal). */ 196182a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 196282a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 196382a4538fSEric Badger ATF_REQUIRE(WIFSIGNALED(status)); 196482a4538fSEric Badger ATF_REQUIRE(WTERMSIG(status) == SIGKILL); 196582a4538fSEric Badger 196682a4538fSEric Badger wpid = wait(&status); 196782a4538fSEric Badger ATF_REQUIRE(wpid == -1); 196882a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 196982a4538fSEric Badger } 197082a4538fSEric Badger 197182a4538fSEric Badger /* 197282a4538fSEric Badger * Verify that the SIGKILL from PT_KILL takes priority over other stop events 197382a4538fSEric Badger * and prevents spurious stops caused by those events. 197482a4538fSEric Badger */ 19753cf56bb4SEnji Cooper ATF_TC(ptrace__PT_KILL_competing_stop); 19763cf56bb4SEnji Cooper ATF_TC_HEAD(ptrace__PT_KILL_competing_stop, tc) 19773cf56bb4SEnji Cooper { 19783cf56bb4SEnji Cooper 19793cf56bb4SEnji Cooper atf_tc_set_md_var(tc, "require.user", "root"); 19803cf56bb4SEnji Cooper } 198182a4538fSEric Badger ATF_TC_BODY(ptrace__PT_KILL_competing_stop, tc) 198282a4538fSEric Badger { 198382a4538fSEric Badger pid_t fpid, wpid; 1984bc2be1d3SEric Badger int status; 198582a4538fSEric Badger cpuset_t setmask; 198682a4538fSEric Badger pthread_t t; 198782a4538fSEric Badger pthread_barrier_t barrier; 198882a4538fSEric Badger lwpid_t main_lwp; 198982a4538fSEric Badger struct ptrace_lwpinfo pl; 1990bc2be1d3SEric Badger struct sched_param sched_param; 199182a4538fSEric Badger 199282a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 199382a4538fSEric Badger if (fpid == 0) { 199482a4538fSEric Badger trace_me(); 199582a4538fSEric Badger 1996bc2be1d3SEric Badger /* Bind to one CPU so only one thread at a time will run. */ 199782a4538fSEric Badger CPU_ZERO(&setmask); 199882a4538fSEric Badger CPU_SET(0, &setmask); 199982a4538fSEric Badger cpusetid_t setid; 200082a4538fSEric Badger CHILD_REQUIRE(cpuset(&setid) == 0); 200182a4538fSEric Badger CHILD_REQUIRE(cpuset_setaffinity(CPU_LEVEL_CPUSET, 200282a4538fSEric Badger CPU_WHICH_CPUSET, setid, sizeof(setmask), &setmask) == 0); 200382a4538fSEric Badger 200482a4538fSEric Badger CHILD_REQUIRE(pthread_barrier_init(&barrier, NULL, 2) == 0); 200582a4538fSEric Badger 200682a4538fSEric Badger CHILD_REQUIRE(pthread_create(&t, NULL, mask_usr1_thread, 200782a4538fSEric Badger (void*)&barrier) == 0); 200882a4538fSEric Badger 2009bc2be1d3SEric Badger /* 2010bc2be1d3SEric Badger * Give the main thread higher priority. The test always 2011bc2be1d3SEric Badger * assumes that, if both threads are able to run, the main 2012bc2be1d3SEric Badger * thread runs first. 2013bc2be1d3SEric Badger */ 2014bc2be1d3SEric Badger sched_param.sched_priority = 2015bc2be1d3SEric Badger (sched_get_priority_max(SCHED_FIFO) + 2016bc2be1d3SEric Badger sched_get_priority_min(SCHED_FIFO)) / 2; 2017bc2be1d3SEric Badger CHILD_REQUIRE(pthread_setschedparam(pthread_self(), 2018bc2be1d3SEric Badger SCHED_FIFO, &sched_param) == 0); 2019bc2be1d3SEric Badger sched_param.sched_priority -= RQ_PPQ; 2020bc2be1d3SEric Badger CHILD_REQUIRE(pthread_setschedparam(t, SCHED_FIFO, 2021bc2be1d3SEric Badger &sched_param) == 0); 2022bc2be1d3SEric Badger 202382a4538fSEric Badger sigset_t sigmask; 202482a4538fSEric Badger sigemptyset(&sigmask); 202582a4538fSEric Badger sigaddset(&sigmask, SIGUSR2); 202682a4538fSEric Badger CHILD_REQUIRE(pthread_sigmask(SIG_BLOCK, &sigmask, NULL) == 0); 202782a4538fSEric Badger 202882a4538fSEric Badger /* Sync up with other thread after sigmask updated. */ 202982a4538fSEric Badger pthread_barrier_wait(&barrier); 203082a4538fSEric Badger 203182a4538fSEric Badger /* Sync up with the test before doing the getpid(). */ 203282a4538fSEric Badger raise(SIGSTOP); 203382a4538fSEric Badger 203482a4538fSEric Badger getpid(); 203582a4538fSEric Badger exit(1); 203682a4538fSEric Badger } 203782a4538fSEric Badger 203882a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 203982a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 204082a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 204182a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 204282a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 204382a4538fSEric Badger 204482a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 204582a4538fSEric Badger main_lwp = pl.pl_lwpid; 204682a4538fSEric Badger 204782a4538fSEric Badger /* Continue the child ignoring the SIGSTOP and tracing system calls. */ 204882a4538fSEric Badger ATF_REQUIRE(ptrace(PT_SYSCALL, fpid, (caddr_t)1, 0) == 0); 204982a4538fSEric Badger 205082a4538fSEric Badger /* 205182a4538fSEric Badger * Continue until child is done with setup, which is indicated with 205282a4538fSEric Badger * SIGSTOP. Ignore system calls in the meantime. 205382a4538fSEric Badger */ 205482a4538fSEric Badger for (;;) { 205582a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 205682a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 205782a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 205882a4538fSEric Badger if (WSTOPSIG(status) == SIGTRAP) { 205982a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, 206082a4538fSEric Badger sizeof(pl)) != -1); 206182a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & (PL_FLAG_SCE | PL_FLAG_SCX)); 206282a4538fSEric Badger } else { 206382a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 206482a4538fSEric Badger break; 206582a4538fSEric Badger } 206682a4538fSEric Badger ATF_REQUIRE(ptrace(PT_SYSCALL, fpid, (caddr_t)1, 0) == 0); 206782a4538fSEric Badger } 206882a4538fSEric Badger 2069bc2be1d3SEric Badger /* Proceed, allowing main thread to hit syscall entry for getpid(). */ 207082a4538fSEric Badger ATF_REQUIRE(ptrace(PT_SYSCALL, fpid, (caddr_t)1, 0) == 0); 207182a4538fSEric Badger 207282a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 207382a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 207482a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 207582a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 207682a4538fSEric Badger 207782a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, 207882a4538fSEric Badger sizeof(pl)) != -1); 2079bc2be1d3SEric Badger ATF_REQUIRE(pl.pl_lwpid == main_lwp); 208082a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & PL_FLAG_SCE); 2081bc2be1d3SEric Badger /* Prevent the main thread from hitting its syscall exit for now. */ 208282a4538fSEric Badger ATF_REQUIRE(ptrace(PT_SUSPEND, main_lwp, 0, 0) == 0); 208382a4538fSEric Badger 2084bc2be1d3SEric Badger /* 2085bc2be1d3SEric Badger * Proceed, allowing second thread to hit syscall exit for 2086bc2be1d3SEric Badger * pthread_barrier_wait(). 2087bc2be1d3SEric Badger */ 2088bc2be1d3SEric Badger ATF_REQUIRE(ptrace(PT_SYSCALL, fpid, (caddr_t)1, 0) == 0); 2089bc2be1d3SEric Badger 2090bc2be1d3SEric Badger wpid = waitpid(fpid, &status, 0); 2091bc2be1d3SEric Badger ATF_REQUIRE(wpid == fpid); 2092bc2be1d3SEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 2093bc2be1d3SEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 2094bc2be1d3SEric Badger 2095bc2be1d3SEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, 2096bc2be1d3SEric Badger sizeof(pl)) != -1); 2097bc2be1d3SEric Badger ATF_REQUIRE(pl.pl_lwpid != main_lwp); 2098bc2be1d3SEric Badger ATF_REQUIRE(pl.pl_flags & PL_FLAG_SCX); 209982a4538fSEric Badger 210082a4538fSEric Badger /* Send a signal that only the second thread can handle. */ 210182a4538fSEric Badger ATF_REQUIRE(kill(fpid, SIGUSR2) == 0); 210282a4538fSEric Badger 210382a4538fSEric Badger ATF_REQUIRE(ptrace(PT_SYSCALL, fpid, (caddr_t)1, 0) == 0); 210482a4538fSEric Badger 2105bc2be1d3SEric Badger /* The next wait() should report the SIGUSR2. */ 210682a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 210782a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 210882a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 210982a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGUSR2); 211082a4538fSEric Badger 211182a4538fSEric Badger /* Allow the main thread to try to finish its system call. */ 211282a4538fSEric Badger ATF_REQUIRE(ptrace(PT_RESUME, main_lwp, 0, 0) == 0); 211382a4538fSEric Badger 211482a4538fSEric Badger /* 211582a4538fSEric Badger * At this point, the main thread is in the middle of a system call and 2116bc2be1d3SEric Badger * has been resumed. The second thread has taken a SIGUSR2 which will 2117bc2be1d3SEric Badger * be replaced with a SIGKILL below. The main thread will get to run 2118bc2be1d3SEric Badger * first. It should notice the kill request (even though the signal 2119bc2be1d3SEric Badger * replacement occurred in the other thread) and exit accordingly. It 2120bc2be1d3SEric Badger * should not stop for the system call exit event. 212182a4538fSEric Badger */ 212282a4538fSEric Badger 212382a4538fSEric Badger /* Replace the SIGUSR2 with a kill. */ 212482a4538fSEric Badger ATF_REQUIRE(ptrace(PT_KILL, fpid, 0, 0) == 0); 212582a4538fSEric Badger 212682a4538fSEric Badger /* The last wait() should report the SIGKILL (not a syscall exit). */ 212782a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 212882a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 212982a4538fSEric Badger ATF_REQUIRE(WIFSIGNALED(status)); 213082a4538fSEric Badger ATF_REQUIRE(WTERMSIG(status) == SIGKILL); 213182a4538fSEric Badger 213282a4538fSEric Badger wpid = wait(&status); 213382a4538fSEric Badger ATF_REQUIRE(wpid == -1); 213482a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 213582a4538fSEric Badger } 213682a4538fSEric Badger 213782a4538fSEric Badger static void 213882a4538fSEric Badger sigusr1_handler(int sig) 213982a4538fSEric Badger { 214082a4538fSEric Badger 214182a4538fSEric Badger CHILD_REQUIRE(sig == SIGUSR1); 214282a4538fSEric Badger _exit(2); 214382a4538fSEric Badger } 214482a4538fSEric Badger 214582a4538fSEric Badger /* 214682a4538fSEric Badger * Verify that even if the signal queue is full for a child process, 214782a4538fSEric Badger * a PT_KILL will kill the process. 214882a4538fSEric Badger */ 214982a4538fSEric Badger ATF_TC_WITHOUT_HEAD(ptrace__PT_KILL_with_signal_full_sigqueue); 215082a4538fSEric Badger ATF_TC_BODY(ptrace__PT_KILL_with_signal_full_sigqueue, tc) 215182a4538fSEric Badger { 215282a4538fSEric Badger pid_t fpid, wpid; 215382a4538fSEric Badger int status; 215482a4538fSEric Badger int max_pending_per_proc; 215582a4538fSEric Badger size_t len; 215682a4538fSEric Badger int i; 215782a4538fSEric Badger 215882a4538fSEric Badger ATF_REQUIRE(signal(SIGUSR1, sigusr1_handler) != SIG_ERR); 215982a4538fSEric Badger 216082a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 216182a4538fSEric Badger if (fpid == 0) { 216282a4538fSEric Badger trace_me(); 216382a4538fSEric Badger exit(1); 216482a4538fSEric Badger } 216582a4538fSEric Badger 216682a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 216782a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 216882a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 216982a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 217082a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 217182a4538fSEric Badger 217282a4538fSEric Badger len = sizeof(max_pending_per_proc); 217382a4538fSEric Badger ATF_REQUIRE(sysctlbyname("kern.sigqueue.max_pending_per_proc", 217482a4538fSEric Badger &max_pending_per_proc, &len, NULL, 0) == 0); 217582a4538fSEric Badger 217682a4538fSEric Badger /* Fill the signal queue. */ 217782a4538fSEric Badger for (i = 0; i < max_pending_per_proc; ++i) 217882a4538fSEric Badger ATF_REQUIRE(kill(fpid, SIGUSR1) == 0); 217982a4538fSEric Badger 218082a4538fSEric Badger /* Kill the child process. */ 218182a4538fSEric Badger ATF_REQUIRE(ptrace(PT_KILL, fpid, 0, 0) == 0); 218282a4538fSEric Badger 218382a4538fSEric Badger /* The last wait() should report the SIGKILL. */ 218482a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 218582a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 218682a4538fSEric Badger ATF_REQUIRE(WIFSIGNALED(status)); 218782a4538fSEric Badger ATF_REQUIRE(WTERMSIG(status) == SIGKILL); 218882a4538fSEric Badger 218982a4538fSEric Badger wpid = wait(&status); 219082a4538fSEric Badger ATF_REQUIRE(wpid == -1); 219182a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 219282a4538fSEric Badger } 219382a4538fSEric Badger 219482a4538fSEric Badger /* 219582a4538fSEric Badger * Verify that when stopped at a system call entry, a signal can be 219682a4538fSEric Badger * requested with PT_CONTINUE which will be delivered once the system 219782a4538fSEric Badger * call is complete. 219882a4538fSEric Badger */ 219982a4538fSEric Badger ATF_TC_WITHOUT_HEAD(ptrace__PT_CONTINUE_with_signal_system_call_entry); 220082a4538fSEric Badger ATF_TC_BODY(ptrace__PT_CONTINUE_with_signal_system_call_entry, tc) 220182a4538fSEric Badger { 220282a4538fSEric Badger struct ptrace_lwpinfo pl; 220382a4538fSEric Badger pid_t fpid, wpid; 220482a4538fSEric Badger int status; 220582a4538fSEric Badger 220682a4538fSEric Badger ATF_REQUIRE(signal(SIGUSR1, sigusr1_handler) != SIG_ERR); 220782a4538fSEric Badger 220882a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 220982a4538fSEric Badger if (fpid == 0) { 221082a4538fSEric Badger trace_me(); 221182a4538fSEric Badger getpid(); 221282a4538fSEric Badger exit(1); 221382a4538fSEric Badger } 221482a4538fSEric Badger 221582a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 221682a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 221782a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 221882a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 221982a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 222082a4538fSEric Badger 222182a4538fSEric Badger /* Continue the child ignoring the SIGSTOP and tracing system calls. */ 222282a4538fSEric Badger ATF_REQUIRE(ptrace(PT_SYSCALL, fpid, (caddr_t)1, 0) == 0); 222382a4538fSEric Badger 222482a4538fSEric Badger /* The second wait() should report a system call entry for getpid(). */ 222582a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 222682a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 222782a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 222882a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 222982a4538fSEric Badger 223082a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 223182a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & PL_FLAG_SCE); 223282a4538fSEric Badger 223382a4538fSEric Badger /* Continue the child process with a signal. */ 223482a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGUSR1) == 0); 223582a4538fSEric Badger 223682a4538fSEric Badger for (;;) { 223782a4538fSEric Badger /* 223882a4538fSEric Badger * The last wait() should report exit 2, i.e., a normal _exit 223982a4538fSEric Badger * from the signal handler. In the meantime, catch and proceed 224082a4538fSEric Badger * past any syscall stops. 224182a4538fSEric Badger */ 224282a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 224382a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 224482a4538fSEric Badger if (WIFSTOPPED(status) && WSTOPSIG(status) == SIGTRAP) { 224582a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 224682a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & (PL_FLAG_SCE | PL_FLAG_SCX)); 224782a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 224882a4538fSEric Badger } else { 224982a4538fSEric Badger ATF_REQUIRE(WIFEXITED(status)); 225082a4538fSEric Badger ATF_REQUIRE(WEXITSTATUS(status) == 2); 225182a4538fSEric Badger break; 225282a4538fSEric Badger } 225382a4538fSEric Badger } 225482a4538fSEric Badger 225582a4538fSEric Badger wpid = wait(&status); 225682a4538fSEric Badger ATF_REQUIRE(wpid == -1); 225782a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 225882a4538fSEric Badger } 225982a4538fSEric Badger 226082a4538fSEric Badger static void 226182a4538fSEric Badger sigusr1_counting_handler(int sig) 226282a4538fSEric Badger { 226382a4538fSEric Badger static int counter = 0; 226482a4538fSEric Badger 226582a4538fSEric Badger CHILD_REQUIRE(sig == SIGUSR1); 226682a4538fSEric Badger counter++; 226782a4538fSEric Badger if (counter == 2) 226882a4538fSEric Badger _exit(2); 226982a4538fSEric Badger } 227082a4538fSEric Badger 227182a4538fSEric Badger /* 227282a4538fSEric Badger * Verify that, when continuing from a stop at system call entry and exit, 227382a4538fSEric Badger * a signal can be requested from both stops, and both will be delivered when 227482a4538fSEric Badger * the system call is complete. 227582a4538fSEric Badger */ 227682a4538fSEric Badger ATF_TC_WITHOUT_HEAD(ptrace__PT_CONTINUE_with_signal_system_call_entry_and_exit); 227782a4538fSEric Badger ATF_TC_BODY(ptrace__PT_CONTINUE_with_signal_system_call_entry_and_exit, tc) 227882a4538fSEric Badger { 227982a4538fSEric Badger struct ptrace_lwpinfo pl; 228082a4538fSEric Badger pid_t fpid, wpid; 228182a4538fSEric Badger int status; 228282a4538fSEric Badger 228382a4538fSEric Badger ATF_REQUIRE(signal(SIGUSR1, sigusr1_counting_handler) != SIG_ERR); 228482a4538fSEric Badger 228582a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 228682a4538fSEric Badger if (fpid == 0) { 228782a4538fSEric Badger trace_me(); 228882a4538fSEric Badger getpid(); 228982a4538fSEric Badger exit(1); 229082a4538fSEric Badger } 229182a4538fSEric Badger 229282a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 229382a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 229482a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 229582a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 229682a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 229782a4538fSEric Badger 229882a4538fSEric Badger /* Continue the child ignoring the SIGSTOP and tracing system calls. */ 229982a4538fSEric Badger ATF_REQUIRE(ptrace(PT_SYSCALL, fpid, (caddr_t)1, 0) == 0); 230082a4538fSEric Badger 230182a4538fSEric Badger /* The second wait() should report a system call entry for getpid(). */ 230282a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 230382a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 230482a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 230582a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 230682a4538fSEric Badger 230782a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 230882a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & PL_FLAG_SCE); 230982a4538fSEric Badger 231082a4538fSEric Badger /* Continue the child process with a signal. */ 231182a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGUSR1) == 0); 231282a4538fSEric Badger 231382a4538fSEric Badger /* The third wait() should report a system call exit for getpid(). */ 231482a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 231582a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 231682a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 231782a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 231882a4538fSEric Badger 231982a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 232082a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & PL_FLAG_SCX); 232182a4538fSEric Badger 232282a4538fSEric Badger /* Continue the child process with a signal. */ 232382a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGUSR1) == 0); 232482a4538fSEric Badger 232582a4538fSEric Badger for (;;) { 232682a4538fSEric Badger /* 232782a4538fSEric Badger * The last wait() should report exit 2, i.e., a normal _exit 232882a4538fSEric Badger * from the signal handler. In the meantime, catch and proceed 232982a4538fSEric Badger * past any syscall stops. 233082a4538fSEric Badger */ 233182a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 233282a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 233382a4538fSEric Badger if (WIFSTOPPED(status) && WSTOPSIG(status) == SIGTRAP) { 233482a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 233582a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & (PL_FLAG_SCE | PL_FLAG_SCX)); 233682a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 233782a4538fSEric Badger } else { 233882a4538fSEric Badger ATF_REQUIRE(WIFEXITED(status)); 233982a4538fSEric Badger ATF_REQUIRE(WEXITSTATUS(status) == 2); 234082a4538fSEric Badger break; 234182a4538fSEric Badger } 234282a4538fSEric Badger } 234382a4538fSEric Badger 234482a4538fSEric Badger wpid = wait(&status); 234582a4538fSEric Badger ATF_REQUIRE(wpid == -1); 234682a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 234782a4538fSEric Badger } 234882a4538fSEric Badger 234982a4538fSEric Badger /* 235082a4538fSEric Badger * Verify that even if the signal queue is full for a child process, 235182a4538fSEric Badger * a PT_CONTINUE with a signal will not result in loss of that signal. 235282a4538fSEric Badger */ 235382a4538fSEric Badger ATF_TC_WITHOUT_HEAD(ptrace__PT_CONTINUE_with_signal_full_sigqueue); 235482a4538fSEric Badger ATF_TC_BODY(ptrace__PT_CONTINUE_with_signal_full_sigqueue, tc) 235582a4538fSEric Badger { 235682a4538fSEric Badger pid_t fpid, wpid; 235782a4538fSEric Badger int status; 235882a4538fSEric Badger int max_pending_per_proc; 235982a4538fSEric Badger size_t len; 236082a4538fSEric Badger int i; 236182a4538fSEric Badger 236282a4538fSEric Badger ATF_REQUIRE(signal(SIGUSR2, handler) != SIG_ERR); 236382a4538fSEric Badger ATF_REQUIRE(signal(SIGUSR1, sigusr1_handler) != SIG_ERR); 236482a4538fSEric Badger 236582a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 236682a4538fSEric Badger if (fpid == 0) { 236782a4538fSEric Badger trace_me(); 236882a4538fSEric Badger exit(1); 236982a4538fSEric Badger } 237082a4538fSEric Badger 237182a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 237282a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 237382a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 237482a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 237582a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 237682a4538fSEric Badger 237782a4538fSEric Badger len = sizeof(max_pending_per_proc); 237882a4538fSEric Badger ATF_REQUIRE(sysctlbyname("kern.sigqueue.max_pending_per_proc", 237982a4538fSEric Badger &max_pending_per_proc, &len, NULL, 0) == 0); 238082a4538fSEric Badger 238182a4538fSEric Badger /* Fill the signal queue. */ 238282a4538fSEric Badger for (i = 0; i < max_pending_per_proc; ++i) 238382a4538fSEric Badger ATF_REQUIRE(kill(fpid, SIGUSR2) == 0); 238482a4538fSEric Badger 238582a4538fSEric Badger /* Continue with signal. */ 238682a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGUSR1) == 0); 238782a4538fSEric Badger 238882a4538fSEric Badger for (;;) { 238982a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 239082a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 239182a4538fSEric Badger if (WIFSTOPPED(status)) { 239282a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGUSR2); 239382a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 239482a4538fSEric Badger } else { 239582a4538fSEric Badger /* 239682a4538fSEric Badger * The last wait() should report normal _exit from the 239782a4538fSEric Badger * SIGUSR1 handler. 239882a4538fSEric Badger */ 239982a4538fSEric Badger ATF_REQUIRE(WIFEXITED(status)); 240082a4538fSEric Badger ATF_REQUIRE(WEXITSTATUS(status) == 2); 240182a4538fSEric Badger break; 240282a4538fSEric Badger } 240382a4538fSEric Badger } 240482a4538fSEric Badger 240582a4538fSEric Badger wpid = wait(&status); 240682a4538fSEric Badger ATF_REQUIRE(wpid == -1); 240782a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 240882a4538fSEric Badger } 240982a4538fSEric Badger 2410753e2922SBryan Drewery static sem_t sigusr1_sem; 2411753e2922SBryan Drewery static int got_usr1; 2412753e2922SBryan Drewery 2413753e2922SBryan Drewery static void 2414753e2922SBryan Drewery sigusr1_sempost_handler(int sig __unused) 2415753e2922SBryan Drewery { 2416753e2922SBryan Drewery 2417753e2922SBryan Drewery got_usr1++; 2418753e2922SBryan Drewery CHILD_REQUIRE(sem_post(&sigusr1_sem) == 0); 2419753e2922SBryan Drewery } 2420753e2922SBryan Drewery 2421753e2922SBryan Drewery /* 2422753e2922SBryan Drewery * Verify that even if the signal queue is full for a child process, 2423753e2922SBryan Drewery * and the signal is masked, a PT_CONTINUE with a signal will not 2424753e2922SBryan Drewery * result in loss of that signal. 2425753e2922SBryan Drewery */ 2426753e2922SBryan Drewery ATF_TC_WITHOUT_HEAD(ptrace__PT_CONTINUE_with_signal_masked_full_sigqueue); 2427753e2922SBryan Drewery ATF_TC_BODY(ptrace__PT_CONTINUE_with_signal_masked_full_sigqueue, tc) 2428753e2922SBryan Drewery { 2429753e2922SBryan Drewery struct ptrace_lwpinfo pl; 2430753e2922SBryan Drewery pid_t fpid, wpid; 2431753e2922SBryan Drewery int status, err; 2432753e2922SBryan Drewery int max_pending_per_proc; 2433753e2922SBryan Drewery size_t len; 2434753e2922SBryan Drewery int i; 2435753e2922SBryan Drewery sigset_t sigmask; 2436753e2922SBryan Drewery 2437753e2922SBryan Drewery ATF_REQUIRE(signal(SIGUSR2, handler) != SIG_ERR); 2438753e2922SBryan Drewery ATF_REQUIRE(sem_init(&sigusr1_sem, 0, 0) == 0); 2439753e2922SBryan Drewery ATF_REQUIRE(signal(SIGUSR1, sigusr1_sempost_handler) != SIG_ERR); 2440753e2922SBryan Drewery 2441753e2922SBryan Drewery got_usr1 = 0; 2442753e2922SBryan Drewery ATF_REQUIRE((fpid = fork()) != -1); 2443753e2922SBryan Drewery if (fpid == 0) { 2444753e2922SBryan Drewery CHILD_REQUIRE(sigemptyset(&sigmask) == 0); 2445753e2922SBryan Drewery CHILD_REQUIRE(sigaddset(&sigmask, SIGUSR1) == 0); 2446753e2922SBryan Drewery CHILD_REQUIRE(sigprocmask(SIG_BLOCK, &sigmask, NULL) == 0); 2447753e2922SBryan Drewery 2448753e2922SBryan Drewery trace_me(); 2449753e2922SBryan Drewery CHILD_REQUIRE(got_usr1 == 0); 2450753e2922SBryan Drewery 2451753e2922SBryan Drewery /* Allow the pending SIGUSR1 in now. */ 2452753e2922SBryan Drewery CHILD_REQUIRE(sigprocmask(SIG_UNBLOCK, &sigmask, NULL) == 0); 2453753e2922SBryan Drewery /* Wait to receive the SIGUSR1. */ 2454753e2922SBryan Drewery do { 2455753e2922SBryan Drewery err = sem_wait(&sigusr1_sem); 2456753e2922SBryan Drewery CHILD_REQUIRE(err == 0 || errno == EINTR); 2457753e2922SBryan Drewery } while (err != 0 && errno == EINTR); 2458753e2922SBryan Drewery CHILD_REQUIRE(got_usr1 == 1); 2459753e2922SBryan Drewery exit(1); 2460753e2922SBryan Drewery } 2461753e2922SBryan Drewery 2462753e2922SBryan Drewery /* The first wait() should report the stop from SIGSTOP. */ 2463753e2922SBryan Drewery wpid = waitpid(fpid, &status, 0); 2464753e2922SBryan Drewery ATF_REQUIRE(wpid == fpid); 2465753e2922SBryan Drewery ATF_REQUIRE(WIFSTOPPED(status)); 2466753e2922SBryan Drewery ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 2467753e2922SBryan Drewery 2468753e2922SBryan Drewery len = sizeof(max_pending_per_proc); 2469753e2922SBryan Drewery ATF_REQUIRE(sysctlbyname("kern.sigqueue.max_pending_per_proc", 2470753e2922SBryan Drewery &max_pending_per_proc, &len, NULL, 0) == 0); 2471753e2922SBryan Drewery 2472753e2922SBryan Drewery /* Fill the signal queue. */ 2473753e2922SBryan Drewery for (i = 0; i < max_pending_per_proc; ++i) 2474753e2922SBryan Drewery ATF_REQUIRE(kill(fpid, SIGUSR2) == 0); 2475753e2922SBryan Drewery 2476753e2922SBryan Drewery /* Continue with signal. */ 2477753e2922SBryan Drewery ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGUSR1) == 0); 2478753e2922SBryan Drewery 2479753e2922SBryan Drewery /* Collect and ignore all of the SIGUSR2. */ 2480753e2922SBryan Drewery for (i = 0; i < max_pending_per_proc; ++i) { 2481753e2922SBryan Drewery wpid = waitpid(fpid, &status, 0); 2482753e2922SBryan Drewery ATF_REQUIRE(wpid == fpid); 2483753e2922SBryan Drewery ATF_REQUIRE(WIFSTOPPED(status)); 2484753e2922SBryan Drewery ATF_REQUIRE(WSTOPSIG(status) == SIGUSR2); 2485753e2922SBryan Drewery ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 2486753e2922SBryan Drewery } 2487753e2922SBryan Drewery 2488753e2922SBryan Drewery /* Now our PT_CONTINUE'd SIGUSR1 should cause a stop after unmask. */ 2489753e2922SBryan Drewery wpid = waitpid(fpid, &status, 0); 2490753e2922SBryan Drewery ATF_REQUIRE(wpid == fpid); 2491753e2922SBryan Drewery ATF_REQUIRE(WIFSTOPPED(status)); 2492753e2922SBryan Drewery ATF_REQUIRE(WSTOPSIG(status) == SIGUSR1); 2493753e2922SBryan Drewery ATF_REQUIRE(ptrace(PT_LWPINFO, fpid, (caddr_t)&pl, sizeof(pl)) != -1); 2494753e2922SBryan Drewery ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGUSR1); 2495753e2922SBryan Drewery 2496753e2922SBryan Drewery /* Continue the child, ignoring the SIGUSR1. */ 2497753e2922SBryan Drewery ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 2498753e2922SBryan Drewery 2499753e2922SBryan Drewery /* The last wait() should report exit after receiving SIGUSR1. */ 2500753e2922SBryan Drewery wpid = waitpid(fpid, &status, 0); 2501753e2922SBryan Drewery ATF_REQUIRE(wpid == fpid); 2502753e2922SBryan Drewery ATF_REQUIRE(WIFEXITED(status)); 2503753e2922SBryan Drewery ATF_REQUIRE(WEXITSTATUS(status) == 1); 2504753e2922SBryan Drewery 2505753e2922SBryan Drewery wpid = wait(&status); 2506753e2922SBryan Drewery ATF_REQUIRE(wpid == -1); 2507753e2922SBryan Drewery ATF_REQUIRE(errno == ECHILD); 2508753e2922SBryan Drewery } 2509753e2922SBryan Drewery 251082a4538fSEric Badger /* 251182a4538fSEric Badger * Verify that, after stopping due to a signal, that signal can be 251282a4538fSEric Badger * replaced with another signal. 251382a4538fSEric Badger */ 251482a4538fSEric Badger ATF_TC_WITHOUT_HEAD(ptrace__PT_CONTINUE_change_sig); 251582a4538fSEric Badger ATF_TC_BODY(ptrace__PT_CONTINUE_change_sig, tc) 251682a4538fSEric Badger { 251782a4538fSEric Badger struct ptrace_lwpinfo pl; 251882a4538fSEric Badger pid_t fpid, wpid; 251982a4538fSEric Badger int status; 252082a4538fSEric Badger 252182a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 252282a4538fSEric Badger if (fpid == 0) { 252382a4538fSEric Badger trace_me(); 252482a4538fSEric Badger sleep(20); 252582a4538fSEric Badger exit(1); 252682a4538fSEric Badger } 252782a4538fSEric Badger 252882a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 252982a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 253082a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 253182a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 253282a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 253382a4538fSEric Badger 253482a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 253582a4538fSEric Badger 253682a4538fSEric Badger /* Send a signal without ptrace. */ 253782a4538fSEric Badger ATF_REQUIRE(kill(fpid, SIGINT) == 0); 253882a4538fSEric Badger 253982a4538fSEric Badger /* The second wait() should report a SIGINT was received. */ 254082a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 254182a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 254282a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 254382a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGINT); 254482a4538fSEric Badger 254582a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 254682a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & PL_FLAG_SI); 254782a4538fSEric Badger ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGINT); 254882a4538fSEric Badger 254982a4538fSEric Badger /* Continue the child process with a different signal. */ 255082a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGTERM) == 0); 255182a4538fSEric Badger 255282a4538fSEric Badger /* 255382a4538fSEric Badger * The last wait() should report having died due to the new 255482a4538fSEric Badger * signal, SIGTERM. 255582a4538fSEric Badger */ 255682a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 255782a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 255882a4538fSEric Badger ATF_REQUIRE(WIFSIGNALED(status)); 255982a4538fSEric Badger ATF_REQUIRE(WTERMSIG(status) == SIGTERM); 256082a4538fSEric Badger 256182a4538fSEric Badger wpid = wait(&status); 256282a4538fSEric Badger ATF_REQUIRE(wpid == -1); 256382a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 256482a4538fSEric Badger } 256582a4538fSEric Badger 256682a4538fSEric Badger /* 256782a4538fSEric Badger * Verify that a signal can be passed through to the child even when there 256882a4538fSEric Badger * was no true signal originally. Such cases arise when a SIGTRAP is 256982a4538fSEric Badger * invented for e.g, system call stops. 257082a4538fSEric Badger */ 257182a4538fSEric Badger ATF_TC_WITHOUT_HEAD(ptrace__PT_CONTINUE_with_sigtrap_system_call_entry); 257282a4538fSEric Badger ATF_TC_BODY(ptrace__PT_CONTINUE_with_sigtrap_system_call_entry, tc) 257382a4538fSEric Badger { 257482a4538fSEric Badger struct ptrace_lwpinfo pl; 2575fc1e29dcSBryan Drewery struct rlimit rl; 257682a4538fSEric Badger pid_t fpid, wpid; 257782a4538fSEric Badger int status; 257882a4538fSEric Badger 257982a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 258082a4538fSEric Badger if (fpid == 0) { 258182a4538fSEric Badger trace_me(); 2582fc1e29dcSBryan Drewery /* SIGTRAP expected to cause exit on syscall entry. */ 2583fc1e29dcSBryan Drewery rl.rlim_cur = rl.rlim_max = 0; 2584fc1e29dcSBryan Drewery ATF_REQUIRE(setrlimit(RLIMIT_CORE, &rl) == 0); 258582a4538fSEric Badger getpid(); 258682a4538fSEric Badger exit(1); 258782a4538fSEric Badger } 258882a4538fSEric Badger 258982a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 259082a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 259182a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 259282a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 259382a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 259482a4538fSEric Badger 259582a4538fSEric Badger /* Continue the child ignoring the SIGSTOP and tracing system calls. */ 259682a4538fSEric Badger ATF_REQUIRE(ptrace(PT_SYSCALL, fpid, (caddr_t)1, 0) == 0); 259782a4538fSEric Badger 259882a4538fSEric Badger /* The second wait() should report a system call entry for getpid(). */ 259982a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 260082a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 260182a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 260282a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 260382a4538fSEric Badger 260482a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 260582a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & PL_FLAG_SCE); 260682a4538fSEric Badger 260782a4538fSEric Badger /* Continue the child process with a SIGTRAP. */ 260882a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGTRAP) == 0); 260982a4538fSEric Badger 261082a4538fSEric Badger for (;;) { 261182a4538fSEric Badger /* 261282a4538fSEric Badger * The last wait() should report exit due to SIGTRAP. In the 261382a4538fSEric Badger * meantime, catch and proceed past any syscall stops. 261482a4538fSEric Badger */ 261582a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 261682a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 261782a4538fSEric Badger if (WIFSTOPPED(status) && WSTOPSIG(status) == SIGTRAP) { 261882a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 261982a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & (PL_FLAG_SCE | PL_FLAG_SCX)); 262082a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 262182a4538fSEric Badger } else { 262282a4538fSEric Badger ATF_REQUIRE(WIFSIGNALED(status)); 262382a4538fSEric Badger ATF_REQUIRE(WTERMSIG(status) == SIGTRAP); 262482a4538fSEric Badger break; 262582a4538fSEric Badger } 262682a4538fSEric Badger } 262782a4538fSEric Badger 262882a4538fSEric Badger wpid = wait(&status); 262982a4538fSEric Badger ATF_REQUIRE(wpid == -1); 263082a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 263182a4538fSEric Badger 263282a4538fSEric Badger } 263382a4538fSEric Badger 263482a4538fSEric Badger /* 263582a4538fSEric Badger * A mixed bag PT_CONTINUE with signal test. 263682a4538fSEric Badger */ 263782a4538fSEric Badger ATF_TC_WITHOUT_HEAD(ptrace__PT_CONTINUE_with_signal_mix); 263882a4538fSEric Badger ATF_TC_BODY(ptrace__PT_CONTINUE_with_signal_mix, tc) 263982a4538fSEric Badger { 264082a4538fSEric Badger struct ptrace_lwpinfo pl; 264182a4538fSEric Badger pid_t fpid, wpid; 264282a4538fSEric Badger int status; 264382a4538fSEric Badger 264482a4538fSEric Badger ATF_REQUIRE(signal(SIGUSR1, sigusr1_counting_handler) != SIG_ERR); 264582a4538fSEric Badger 264682a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 264782a4538fSEric Badger if (fpid == 0) { 264882a4538fSEric Badger trace_me(); 264982a4538fSEric Badger getpid(); 265082a4538fSEric Badger exit(1); 265182a4538fSEric Badger } 265282a4538fSEric Badger 265382a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 265482a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 265582a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 265682a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 265782a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 265882a4538fSEric Badger 265982a4538fSEric Badger /* Continue the child ignoring the SIGSTOP and tracing system calls. */ 266082a4538fSEric Badger ATF_REQUIRE(ptrace(PT_SYSCALL, fpid, (caddr_t)1, 0) == 0); 266182a4538fSEric Badger 266282a4538fSEric Badger /* The second wait() should report a system call entry for getpid(). */ 266382a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 266482a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 266582a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 266682a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 266782a4538fSEric Badger 266882a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 266982a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & PL_FLAG_SCE); 267082a4538fSEric Badger 267182a4538fSEric Badger /* Continue with the first SIGUSR1. */ 267282a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGUSR1) == 0); 267382a4538fSEric Badger 267482a4538fSEric Badger /* The next wait() should report a system call exit for getpid(). */ 267582a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 267682a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 267782a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 267882a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 267982a4538fSEric Badger 268082a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 268182a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & PL_FLAG_SCX); 268282a4538fSEric Badger 268382a4538fSEric Badger /* Send an ABRT without ptrace. */ 268482a4538fSEric Badger ATF_REQUIRE(kill(fpid, SIGABRT) == 0); 268582a4538fSEric Badger 268682a4538fSEric Badger /* Continue normally. */ 268782a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 268882a4538fSEric Badger 268982a4538fSEric Badger /* The next wait() should report the SIGABRT. */ 269082a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 269182a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 269282a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 269382a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGABRT); 269482a4538fSEric Badger 269582a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 269682a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & PL_FLAG_SI); 269782a4538fSEric Badger ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGABRT); 269882a4538fSEric Badger 269982a4538fSEric Badger /* Continue, replacing the SIGABRT with another SIGUSR1. */ 270082a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGUSR1) == 0); 270182a4538fSEric Badger 270282a4538fSEric Badger for (;;) { 270382a4538fSEric Badger /* 270482a4538fSEric Badger * The last wait() should report exit 2, i.e., a normal _exit 270582a4538fSEric Badger * from the signal handler. In the meantime, catch and proceed 270682a4538fSEric Badger * past any syscall stops. 270782a4538fSEric Badger */ 270882a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 270982a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 271082a4538fSEric Badger if (WIFSTOPPED(status) && WSTOPSIG(status) == SIGTRAP) { 271182a4538fSEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 271282a4538fSEric Badger ATF_REQUIRE(pl.pl_flags & (PL_FLAG_SCE | PL_FLAG_SCX)); 271382a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 271482a4538fSEric Badger } else { 271582a4538fSEric Badger ATF_REQUIRE(WIFEXITED(status)); 271682a4538fSEric Badger ATF_REQUIRE(WEXITSTATUS(status) == 2); 271782a4538fSEric Badger break; 271882a4538fSEric Badger } 271982a4538fSEric Badger } 272082a4538fSEric Badger 272182a4538fSEric Badger wpid = wait(&status); 272282a4538fSEric Badger ATF_REQUIRE(wpid == -1); 272382a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 272482a4538fSEric Badger 272582a4538fSEric Badger } 272682a4538fSEric Badger 272782a4538fSEric Badger /* 272882a4538fSEric Badger * Verify a signal delivered by ptrace is noticed by kevent(2). 272982a4538fSEric Badger */ 273082a4538fSEric Badger ATF_TC_WITHOUT_HEAD(ptrace__PT_CONTINUE_with_signal_kqueue); 273182a4538fSEric Badger ATF_TC_BODY(ptrace__PT_CONTINUE_with_signal_kqueue, tc) 273282a4538fSEric Badger { 273382a4538fSEric Badger pid_t fpid, wpid; 273482a4538fSEric Badger int status, kq, nevents; 273582a4538fSEric Badger struct kevent kev; 273682a4538fSEric Badger 273782a4538fSEric Badger ATF_REQUIRE(signal(SIGUSR1, SIG_IGN) != SIG_ERR); 273882a4538fSEric Badger 273982a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 274082a4538fSEric Badger if (fpid == 0) { 274182a4538fSEric Badger CHILD_REQUIRE((kq = kqueue()) > 0); 274282a4538fSEric Badger EV_SET(&kev, SIGUSR1, EVFILT_SIGNAL, EV_ADD, 0, 0, 0); 274382a4538fSEric Badger CHILD_REQUIRE(kevent(kq, &kev, 1, NULL, 0, NULL) == 0); 274482a4538fSEric Badger 274582a4538fSEric Badger trace_me(); 274682a4538fSEric Badger 274782a4538fSEric Badger for (;;) { 274882a4538fSEric Badger nevents = kevent(kq, NULL, 0, &kev, 1, NULL); 274982a4538fSEric Badger if (nevents == -1 && errno == EINTR) 275082a4538fSEric Badger continue; 275182a4538fSEric Badger CHILD_REQUIRE(nevents > 0); 275282a4538fSEric Badger CHILD_REQUIRE(kev.filter == EVFILT_SIGNAL); 275382a4538fSEric Badger CHILD_REQUIRE(kev.ident == SIGUSR1); 275482a4538fSEric Badger break; 275582a4538fSEric Badger } 275682a4538fSEric Badger 275782a4538fSEric Badger exit(1); 275882a4538fSEric Badger } 275982a4538fSEric Badger 276082a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 276182a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 276282a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 276382a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 276482a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 276582a4538fSEric Badger 276682a4538fSEric Badger /* Continue with the SIGUSR1. */ 276782a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGUSR1) == 0); 276882a4538fSEric Badger 276982a4538fSEric Badger /* 277082a4538fSEric Badger * The last wait() should report normal exit with code 1. 277182a4538fSEric Badger */ 277282a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 277382a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 277482a4538fSEric Badger ATF_REQUIRE(WIFEXITED(status)); 277582a4538fSEric Badger ATF_REQUIRE(WEXITSTATUS(status) == 1); 277682a4538fSEric Badger 277782a4538fSEric Badger wpid = wait(&status); 277882a4538fSEric Badger ATF_REQUIRE(wpid == -1); 277982a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 278082a4538fSEric Badger } 278182a4538fSEric Badger 278282a4538fSEric Badger static void * 278382a4538fSEric Badger signal_thread(void *arg) 278482a4538fSEric Badger { 278582a4538fSEric Badger int err; 278682a4538fSEric Badger sigset_t sigmask; 278782a4538fSEric Badger 278882a4538fSEric Badger pthread_barrier_t *pbarrier = (pthread_barrier_t*)arg; 278982a4538fSEric Badger 279082a4538fSEric Badger /* Wait for this thread to receive a SIGUSR1. */ 279182a4538fSEric Badger do { 279282a4538fSEric Badger err = sem_wait(&sigusr1_sem); 279382a4538fSEric Badger CHILD_REQUIRE(err == 0 || errno == EINTR); 279482a4538fSEric Badger } while (err != 0 && errno == EINTR); 279582a4538fSEric Badger 279682a4538fSEric Badger /* Free our companion thread from the barrier. */ 279782a4538fSEric Badger pthread_barrier_wait(pbarrier); 279882a4538fSEric Badger 279982a4538fSEric Badger /* 280082a4538fSEric Badger * Swap ignore duties; the next SIGUSR1 should go to the 280182a4538fSEric Badger * other thread. 280282a4538fSEric Badger */ 280382a4538fSEric Badger CHILD_REQUIRE(sigemptyset(&sigmask) == 0); 280482a4538fSEric Badger CHILD_REQUIRE(sigaddset(&sigmask, SIGUSR1) == 0); 280582a4538fSEric Badger CHILD_REQUIRE(pthread_sigmask(SIG_BLOCK, &sigmask, NULL) == 0); 280682a4538fSEric Badger 280782a4538fSEric Badger /* Sync up threads after swapping signal masks. */ 280882a4538fSEric Badger pthread_barrier_wait(pbarrier); 280982a4538fSEric Badger 281082a4538fSEric Badger /* Wait until our companion has received its SIGUSR1. */ 281182a4538fSEric Badger pthread_barrier_wait(pbarrier); 281282a4538fSEric Badger 281382a4538fSEric Badger return (NULL); 281482a4538fSEric Badger } 281582a4538fSEric Badger 281682a4538fSEric Badger /* 2817753e2922SBryan Drewery * Verify that a traced process with blocked signal received the 2818753e2922SBryan Drewery * signal from kill() once unmasked. 2819753e2922SBryan Drewery */ 2820753e2922SBryan Drewery ATF_TC_WITHOUT_HEAD(ptrace__killed_with_sigmask); 2821753e2922SBryan Drewery ATF_TC_BODY(ptrace__killed_with_sigmask, tc) 2822753e2922SBryan Drewery { 2823753e2922SBryan Drewery struct ptrace_lwpinfo pl; 2824753e2922SBryan Drewery pid_t fpid, wpid; 2825753e2922SBryan Drewery int status, err; 2826753e2922SBryan Drewery sigset_t sigmask; 2827753e2922SBryan Drewery 2828753e2922SBryan Drewery ATF_REQUIRE(sem_init(&sigusr1_sem, 0, 0) == 0); 2829753e2922SBryan Drewery ATF_REQUIRE(signal(SIGUSR1, sigusr1_sempost_handler) != SIG_ERR); 2830753e2922SBryan Drewery got_usr1 = 0; 2831753e2922SBryan Drewery 2832753e2922SBryan Drewery ATF_REQUIRE((fpid = fork()) != -1); 2833753e2922SBryan Drewery if (fpid == 0) { 2834753e2922SBryan Drewery CHILD_REQUIRE(sigemptyset(&sigmask) == 0); 2835753e2922SBryan Drewery CHILD_REQUIRE(sigaddset(&sigmask, SIGUSR1) == 0); 2836753e2922SBryan Drewery CHILD_REQUIRE(sigprocmask(SIG_BLOCK, &sigmask, NULL) == 0); 2837753e2922SBryan Drewery 2838753e2922SBryan Drewery trace_me(); 2839753e2922SBryan Drewery CHILD_REQUIRE(got_usr1 == 0); 2840753e2922SBryan Drewery 2841753e2922SBryan Drewery /* Allow the pending SIGUSR1 in now. */ 2842753e2922SBryan Drewery CHILD_REQUIRE(sigprocmask(SIG_UNBLOCK, &sigmask, NULL) == 0); 2843753e2922SBryan Drewery /* Wait to receive a SIGUSR1. */ 2844753e2922SBryan Drewery do { 2845753e2922SBryan Drewery err = sem_wait(&sigusr1_sem); 2846753e2922SBryan Drewery CHILD_REQUIRE(err == 0 || errno == EINTR); 2847753e2922SBryan Drewery } while (err != 0 && errno == EINTR); 2848753e2922SBryan Drewery CHILD_REQUIRE(got_usr1 == 1); 2849753e2922SBryan Drewery exit(1); 2850753e2922SBryan Drewery } 2851753e2922SBryan Drewery 2852753e2922SBryan Drewery /* The first wait() should report the stop from SIGSTOP. */ 2853753e2922SBryan Drewery wpid = waitpid(fpid, &status, 0); 2854753e2922SBryan Drewery ATF_REQUIRE(wpid == fpid); 2855753e2922SBryan Drewery ATF_REQUIRE(WIFSTOPPED(status)); 2856753e2922SBryan Drewery ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 2857753e2922SBryan Drewery ATF_REQUIRE(ptrace(PT_LWPINFO, fpid, (caddr_t)&pl, sizeof(pl)) != -1); 2858753e2922SBryan Drewery ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGSTOP); 2859753e2922SBryan Drewery 2860753e2922SBryan Drewery /* Send blocked SIGUSR1 which should cause a stop. */ 2861753e2922SBryan Drewery ATF_REQUIRE(kill(fpid, SIGUSR1) == 0); 2862753e2922SBryan Drewery 2863753e2922SBryan Drewery /* Continue the child ignoring the SIGSTOP. */ 2864753e2922SBryan Drewery ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 2865753e2922SBryan Drewery 2866753e2922SBryan Drewery /* The next wait() should report the kill(SIGUSR1) was received. */ 2867753e2922SBryan Drewery wpid = waitpid(fpid, &status, 0); 2868753e2922SBryan Drewery ATF_REQUIRE(wpid == fpid); 2869753e2922SBryan Drewery ATF_REQUIRE(WIFSTOPPED(status)); 2870753e2922SBryan Drewery ATF_REQUIRE(WSTOPSIG(status) == SIGUSR1); 2871753e2922SBryan Drewery ATF_REQUIRE(ptrace(PT_LWPINFO, fpid, (caddr_t)&pl, sizeof(pl)) != -1); 2872753e2922SBryan Drewery ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGUSR1); 2873753e2922SBryan Drewery 2874753e2922SBryan Drewery /* Continue the child, allowing in the SIGUSR1. */ 2875753e2922SBryan Drewery ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGUSR1) == 0); 2876753e2922SBryan Drewery 2877753e2922SBryan Drewery /* The last wait() should report normal exit with code 1. */ 2878753e2922SBryan Drewery wpid = waitpid(fpid, &status, 0); 2879753e2922SBryan Drewery ATF_REQUIRE(wpid == fpid); 2880753e2922SBryan Drewery ATF_REQUIRE(WIFEXITED(status)); 2881753e2922SBryan Drewery ATF_REQUIRE(WEXITSTATUS(status) == 1); 2882753e2922SBryan Drewery 2883753e2922SBryan Drewery wpid = wait(&status); 2884753e2922SBryan Drewery ATF_REQUIRE(wpid == -1); 2885753e2922SBryan Drewery ATF_REQUIRE(errno == ECHILD); 2886753e2922SBryan Drewery } 2887753e2922SBryan Drewery 2888753e2922SBryan Drewery /* 2889753e2922SBryan Drewery * Verify that a traced process with blocked signal received the 2890753e2922SBryan Drewery * signal from PT_CONTINUE once unmasked. 2891753e2922SBryan Drewery */ 2892753e2922SBryan Drewery ATF_TC_WITHOUT_HEAD(ptrace__PT_CONTINUE_with_sigmask); 2893753e2922SBryan Drewery ATF_TC_BODY(ptrace__PT_CONTINUE_with_sigmask, tc) 2894753e2922SBryan Drewery { 2895753e2922SBryan Drewery struct ptrace_lwpinfo pl; 2896753e2922SBryan Drewery pid_t fpid, wpid; 2897753e2922SBryan Drewery int status, err; 2898753e2922SBryan Drewery sigset_t sigmask; 2899753e2922SBryan Drewery 2900753e2922SBryan Drewery ATF_REQUIRE(sem_init(&sigusr1_sem, 0, 0) == 0); 2901753e2922SBryan Drewery ATF_REQUIRE(signal(SIGUSR1, sigusr1_sempost_handler) != SIG_ERR); 2902753e2922SBryan Drewery got_usr1 = 0; 2903753e2922SBryan Drewery 2904753e2922SBryan Drewery ATF_REQUIRE((fpid = fork()) != -1); 2905753e2922SBryan Drewery if (fpid == 0) { 2906753e2922SBryan Drewery CHILD_REQUIRE(sigemptyset(&sigmask) == 0); 2907753e2922SBryan Drewery CHILD_REQUIRE(sigaddset(&sigmask, SIGUSR1) == 0); 2908753e2922SBryan Drewery CHILD_REQUIRE(sigprocmask(SIG_BLOCK, &sigmask, NULL) == 0); 2909753e2922SBryan Drewery 2910753e2922SBryan Drewery trace_me(); 2911753e2922SBryan Drewery CHILD_REQUIRE(got_usr1 == 0); 2912753e2922SBryan Drewery 2913753e2922SBryan Drewery /* Allow the pending SIGUSR1 in now. */ 2914753e2922SBryan Drewery CHILD_REQUIRE(sigprocmask(SIG_UNBLOCK, &sigmask, NULL) == 0); 2915753e2922SBryan Drewery /* Wait to receive a SIGUSR1. */ 2916753e2922SBryan Drewery do { 2917753e2922SBryan Drewery err = sem_wait(&sigusr1_sem); 2918753e2922SBryan Drewery CHILD_REQUIRE(err == 0 || errno == EINTR); 2919753e2922SBryan Drewery } while (err != 0 && errno == EINTR); 2920753e2922SBryan Drewery 2921753e2922SBryan Drewery CHILD_REQUIRE(got_usr1 == 1); 2922753e2922SBryan Drewery exit(1); 2923753e2922SBryan Drewery } 2924753e2922SBryan Drewery 2925753e2922SBryan Drewery /* The first wait() should report the stop from SIGSTOP. */ 2926753e2922SBryan Drewery wpid = waitpid(fpid, &status, 0); 2927753e2922SBryan Drewery ATF_REQUIRE(wpid == fpid); 2928753e2922SBryan Drewery ATF_REQUIRE(WIFSTOPPED(status)); 2929753e2922SBryan Drewery ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 2930753e2922SBryan Drewery ATF_REQUIRE(ptrace(PT_LWPINFO, fpid, (caddr_t)&pl, sizeof(pl)) != -1); 2931753e2922SBryan Drewery ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGSTOP); 2932753e2922SBryan Drewery 2933753e2922SBryan Drewery /* Continue the child replacing SIGSTOP with SIGUSR1. */ 2934753e2922SBryan Drewery ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGUSR1) == 0); 2935753e2922SBryan Drewery 2936753e2922SBryan Drewery /* The next wait() should report the SIGUSR1 was received. */ 2937753e2922SBryan Drewery wpid = waitpid(fpid, &status, 0); 2938753e2922SBryan Drewery ATF_REQUIRE(wpid == fpid); 2939753e2922SBryan Drewery ATF_REQUIRE(WIFSTOPPED(status)); 2940753e2922SBryan Drewery ATF_REQUIRE(WSTOPSIG(status) == SIGUSR1); 2941753e2922SBryan Drewery ATF_REQUIRE(ptrace(PT_LWPINFO, fpid, (caddr_t)&pl, sizeof(pl)) != -1); 2942753e2922SBryan Drewery ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGUSR1); 2943753e2922SBryan Drewery 2944753e2922SBryan Drewery /* Continue the child, ignoring the SIGUSR1. */ 2945753e2922SBryan Drewery ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 2946753e2922SBryan Drewery 2947753e2922SBryan Drewery /* The last wait() should report normal exit with code 1. */ 2948753e2922SBryan Drewery wpid = waitpid(fpid, &status, 0); 2949753e2922SBryan Drewery ATF_REQUIRE(wpid == fpid); 2950753e2922SBryan Drewery ATF_REQUIRE(WIFEXITED(status)); 2951753e2922SBryan Drewery ATF_REQUIRE(WEXITSTATUS(status) == 1); 2952753e2922SBryan Drewery 2953753e2922SBryan Drewery wpid = wait(&status); 2954753e2922SBryan Drewery ATF_REQUIRE(wpid == -1); 2955753e2922SBryan Drewery ATF_REQUIRE(errno == ECHILD); 2956753e2922SBryan Drewery } 2957753e2922SBryan Drewery 2958753e2922SBryan Drewery /* 295982a4538fSEric Badger * Verify that if ptrace stops due to a signal but continues with 296082a4538fSEric Badger * a different signal that the new signal is routed to a thread 296182a4538fSEric Badger * that can accept it, and that that thread is awakened by the signal 296282a4538fSEric Badger * in a timely manner. 296382a4538fSEric Badger */ 296482a4538fSEric Badger ATF_TC_WITHOUT_HEAD(ptrace__PT_CONTINUE_with_signal_thread_sigmask); 296582a4538fSEric Badger ATF_TC_BODY(ptrace__PT_CONTINUE_with_signal_thread_sigmask, tc) 296682a4538fSEric Badger { 296782a4538fSEric Badger pid_t fpid, wpid; 296882a4538fSEric Badger int status, err; 296982a4538fSEric Badger pthread_t t; 297082a4538fSEric Badger sigset_t sigmask; 297182a4538fSEric Badger pthread_barrier_t barrier; 297282a4538fSEric Badger 297382a4538fSEric Badger ATF_REQUIRE(pthread_barrier_init(&barrier, NULL, 2) == 0); 297482a4538fSEric Badger ATF_REQUIRE(sem_init(&sigusr1_sem, 0, 0) == 0); 297582a4538fSEric Badger ATF_REQUIRE(signal(SIGUSR1, sigusr1_sempost_handler) != SIG_ERR); 297682a4538fSEric Badger 297782a4538fSEric Badger ATF_REQUIRE((fpid = fork()) != -1); 297882a4538fSEric Badger if (fpid == 0) { 297982a4538fSEric Badger CHILD_REQUIRE(pthread_create(&t, NULL, signal_thread, (void*)&barrier) == 0); 298082a4538fSEric Badger 298182a4538fSEric Badger /* The other thread should receive the first SIGUSR1. */ 298282a4538fSEric Badger CHILD_REQUIRE(sigemptyset(&sigmask) == 0); 298382a4538fSEric Badger CHILD_REQUIRE(sigaddset(&sigmask, SIGUSR1) == 0); 298482a4538fSEric Badger CHILD_REQUIRE(pthread_sigmask(SIG_BLOCK, &sigmask, NULL) == 0); 298582a4538fSEric Badger 298682a4538fSEric Badger trace_me(); 298782a4538fSEric Badger 298882a4538fSEric Badger /* Wait until other thread has received its SIGUSR1. */ 298982a4538fSEric Badger pthread_barrier_wait(&barrier); 299082a4538fSEric Badger 299182a4538fSEric Badger /* 299282a4538fSEric Badger * Swap ignore duties; the next SIGUSR1 should go to this 299382a4538fSEric Badger * thread. 299482a4538fSEric Badger */ 299582a4538fSEric Badger CHILD_REQUIRE(pthread_sigmask(SIG_UNBLOCK, &sigmask, NULL) == 0); 299682a4538fSEric Badger 299782a4538fSEric Badger /* Sync up threads after swapping signal masks. */ 299882a4538fSEric Badger pthread_barrier_wait(&barrier); 299982a4538fSEric Badger 300082a4538fSEric Badger /* 300182a4538fSEric Badger * Sync up with test code; we're ready for the next SIGUSR1 300282a4538fSEric Badger * now. 300382a4538fSEric Badger */ 300482a4538fSEric Badger raise(SIGSTOP); 300582a4538fSEric Badger 300682a4538fSEric Badger /* Wait for this thread to receive a SIGUSR1. */ 300782a4538fSEric Badger do { 300882a4538fSEric Badger err = sem_wait(&sigusr1_sem); 300982a4538fSEric Badger CHILD_REQUIRE(err == 0 || errno == EINTR); 301082a4538fSEric Badger } while (err != 0 && errno == EINTR); 301182a4538fSEric Badger 301282a4538fSEric Badger /* Free the other thread from the barrier. */ 301382a4538fSEric Badger pthread_barrier_wait(&barrier); 301482a4538fSEric Badger 301582a4538fSEric Badger CHILD_REQUIRE(pthread_join(t, NULL) == 0); 301682a4538fSEric Badger 301782a4538fSEric Badger exit(1); 301882a4538fSEric Badger } 301982a4538fSEric Badger 302082a4538fSEric Badger /* The first wait() should report the stop from SIGSTOP. */ 302182a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 302282a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 302382a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 302482a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 302582a4538fSEric Badger 302682a4538fSEric Badger /* Continue the child ignoring the SIGSTOP. */ 302782a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 302882a4538fSEric Badger 302982a4538fSEric Badger /* 303082a4538fSEric Badger * Send a signal without ptrace that either thread will accept (USR2, 303182a4538fSEric Badger * in this case). 303282a4538fSEric Badger */ 303382a4538fSEric Badger ATF_REQUIRE(kill(fpid, SIGUSR2) == 0); 303482a4538fSEric Badger 303582a4538fSEric Badger /* The second wait() should report a SIGUSR2 was received. */ 303682a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 303782a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 303882a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 303982a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGUSR2); 304082a4538fSEric Badger 304182a4538fSEric Badger /* Continue the child, changing the signal to USR1. */ 304282a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGUSR1) == 0); 304382a4538fSEric Badger 304482a4538fSEric Badger /* The next wait() should report the stop from SIGSTOP. */ 304582a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 304682a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 304782a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 304882a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 304982a4538fSEric Badger 305082a4538fSEric Badger /* Continue the child ignoring the SIGSTOP. */ 305182a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 305282a4538fSEric Badger 305382a4538fSEric Badger ATF_REQUIRE(kill(fpid, SIGUSR2) == 0); 305482a4538fSEric Badger 305582a4538fSEric Badger /* The next wait() should report a SIGUSR2 was received. */ 305682a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 305782a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 305882a4538fSEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 305982a4538fSEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGUSR2); 306082a4538fSEric Badger 306182a4538fSEric Badger /* Continue the child, changing the signal to USR1. */ 306282a4538fSEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, SIGUSR1) == 0); 306382a4538fSEric Badger 306482a4538fSEric Badger /* The last wait() should report normal exit with code 1. */ 306582a4538fSEric Badger wpid = waitpid(fpid, &status, 0); 306682a4538fSEric Badger ATF_REQUIRE(wpid == fpid); 306782a4538fSEric Badger ATF_REQUIRE(WIFEXITED(status)); 306882a4538fSEric Badger ATF_REQUIRE(WEXITSTATUS(status) == 1); 306982a4538fSEric Badger 307082a4538fSEric Badger wpid = wait(&status); 307182a4538fSEric Badger ATF_REQUIRE(wpid == -1); 307282a4538fSEric Badger ATF_REQUIRE(errno == ECHILD); 307382a4538fSEric Badger } 307482a4538fSEric Badger 3075b38bd91fSEric Badger static void * 3076b38bd91fSEric Badger raise_sigstop_thread(void *arg __unused) 3077b38bd91fSEric Badger { 3078b38bd91fSEric Badger 3079b38bd91fSEric Badger raise(SIGSTOP); 3080b38bd91fSEric Badger return NULL; 3081b38bd91fSEric Badger } 3082b38bd91fSEric Badger 3083b38bd91fSEric Badger static void * 3084b38bd91fSEric Badger sleep_thread(void *arg __unused) 3085b38bd91fSEric Badger { 3086b38bd91fSEric Badger 3087b38bd91fSEric Badger sleep(60); 3088b38bd91fSEric Badger return NULL; 3089b38bd91fSEric Badger } 3090b38bd91fSEric Badger 3091b38bd91fSEric Badger static void 3092b38bd91fSEric Badger terminate_with_pending_sigstop(bool sigstop_from_main_thread) 3093b38bd91fSEric Badger { 3094b38bd91fSEric Badger pid_t fpid, wpid; 3095b38bd91fSEric Badger int status, i; 3096b38bd91fSEric Badger cpuset_t setmask; 3097b38bd91fSEric Badger cpusetid_t setid; 3098b38bd91fSEric Badger pthread_t t; 3099b38bd91fSEric Badger 3100b38bd91fSEric Badger /* 3101b38bd91fSEric Badger * Become the reaper for this process tree. We need to be able to check 3102b38bd91fSEric Badger * that both child and grandchild have died. 3103b38bd91fSEric Badger */ 3104b38bd91fSEric Badger ATF_REQUIRE(procctl(P_PID, getpid(), PROC_REAP_ACQUIRE, NULL) == 0); 3105b38bd91fSEric Badger 3106b38bd91fSEric Badger fpid = fork(); 3107b38bd91fSEric Badger ATF_REQUIRE(fpid >= 0); 3108b38bd91fSEric Badger if (fpid == 0) { 3109b38bd91fSEric Badger fpid = fork(); 3110b38bd91fSEric Badger CHILD_REQUIRE(fpid >= 0); 3111b38bd91fSEric Badger if (fpid == 0) { 3112b38bd91fSEric Badger trace_me(); 3113b38bd91fSEric Badger 3114b38bd91fSEric Badger /* Pin to CPU 0 to serialize thread execution. */ 3115b38bd91fSEric Badger CPU_ZERO(&setmask); 3116b38bd91fSEric Badger CPU_SET(0, &setmask); 3117b38bd91fSEric Badger CHILD_REQUIRE(cpuset(&setid) == 0); 3118b38bd91fSEric Badger CHILD_REQUIRE(cpuset_setaffinity(CPU_LEVEL_CPUSET, 3119b38bd91fSEric Badger CPU_WHICH_CPUSET, setid, 3120b38bd91fSEric Badger sizeof(setmask), &setmask) == 0); 3121b38bd91fSEric Badger 3122b38bd91fSEric Badger if (sigstop_from_main_thread) { 3123b38bd91fSEric Badger /* 3124b38bd91fSEric Badger * We expect the SIGKILL sent when our parent 3125b38bd91fSEric Badger * dies to be delivered to the new thread. 3126b38bd91fSEric Badger * Raise the SIGSTOP in this thread so the 3127b38bd91fSEric Badger * threads compete. 3128b38bd91fSEric Badger */ 3129b38bd91fSEric Badger CHILD_REQUIRE(pthread_create(&t, NULL, 3130b38bd91fSEric Badger sleep_thread, NULL) == 0); 3131b38bd91fSEric Badger raise(SIGSTOP); 3132b38bd91fSEric Badger } else { 3133b38bd91fSEric Badger /* 3134b38bd91fSEric Badger * We expect the SIGKILL to be delivered to 3135b38bd91fSEric Badger * this thread. After creating the new thread, 3136b38bd91fSEric Badger * just get off the CPU so the other thread can 3137b38bd91fSEric Badger * raise the SIGSTOP. 3138b38bd91fSEric Badger */ 3139b38bd91fSEric Badger CHILD_REQUIRE(pthread_create(&t, NULL, 3140b38bd91fSEric Badger raise_sigstop_thread, NULL) == 0); 3141b38bd91fSEric Badger sleep(60); 3142b38bd91fSEric Badger } 3143b38bd91fSEric Badger 3144b38bd91fSEric Badger exit(0); 3145b38bd91fSEric Badger } 3146b38bd91fSEric Badger /* First stop is trace_me() immediately after fork. */ 3147b38bd91fSEric Badger wpid = waitpid(fpid, &status, 0); 3148b38bd91fSEric Badger CHILD_REQUIRE(wpid == fpid); 3149b38bd91fSEric Badger CHILD_REQUIRE(WIFSTOPPED(status)); 3150b38bd91fSEric Badger CHILD_REQUIRE(WSTOPSIG(status) == SIGSTOP); 3151b38bd91fSEric Badger 3152b38bd91fSEric Badger CHILD_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 3153b38bd91fSEric Badger 3154b38bd91fSEric Badger /* Second stop is from the raise(SIGSTOP). */ 3155b38bd91fSEric Badger wpid = waitpid(fpid, &status, 0); 3156b38bd91fSEric Badger CHILD_REQUIRE(wpid == fpid); 3157b38bd91fSEric Badger CHILD_REQUIRE(WIFSTOPPED(status)); 3158b38bd91fSEric Badger CHILD_REQUIRE(WSTOPSIG(status) == SIGSTOP); 3159b38bd91fSEric Badger 3160b38bd91fSEric Badger /* 3161b38bd91fSEric Badger * Terminate tracing process without detaching. Our child 3162b38bd91fSEric Badger * should be killed. 3163b38bd91fSEric Badger */ 3164b38bd91fSEric Badger exit(0); 3165b38bd91fSEric Badger } 3166b38bd91fSEric Badger 3167b38bd91fSEric Badger /* 3168b38bd91fSEric Badger * We should get a normal exit from our immediate child and a SIGKILL 3169b38bd91fSEric Badger * exit from our grandchild. The latter case is the interesting one. 3170b38bd91fSEric Badger * Our grandchild should not have stopped due to the SIGSTOP that was 3171b38bd91fSEric Badger * left dangling when its parent died. 3172b38bd91fSEric Badger */ 3173b38bd91fSEric Badger for (i = 0; i < 2; ++i) { 3174b38bd91fSEric Badger wpid = wait(&status); 3175b38bd91fSEric Badger if (wpid == fpid) 3176b38bd91fSEric Badger ATF_REQUIRE(WIFEXITED(status) && 3177b38bd91fSEric Badger WEXITSTATUS(status) == 0); 3178b38bd91fSEric Badger else 3179b38bd91fSEric Badger ATF_REQUIRE(WIFSIGNALED(status) && 3180b38bd91fSEric Badger WTERMSIG(status) == SIGKILL); 3181b38bd91fSEric Badger } 3182b38bd91fSEric Badger } 3183b38bd91fSEric Badger 3184b38bd91fSEric Badger /* 3185b38bd91fSEric Badger * These two tests ensure that if the tracing process exits without detaching 3186b38bd91fSEric Badger * just after the child received a SIGSTOP, the child is cleanly killed and 3187b38bd91fSEric Badger * doesn't go to sleep due to the SIGSTOP. The parent's death will send a 3188b38bd91fSEric Badger * SIGKILL to the child. If the SIGKILL and the SIGSTOP are handled by 3189b38bd91fSEric Badger * different threads, the SIGKILL must win. There are two variants of this 3190b38bd91fSEric Badger * test, designed to catch the case where the SIGKILL is delivered to the 3191b38bd91fSEric Badger * younger thread (the first test) and the case where the SIGKILL is delivered 3192b38bd91fSEric Badger * to the older thread (the second test). This behavior has changed in the 3193b38bd91fSEric Badger * past, so make no assumption. 3194b38bd91fSEric Badger */ 31953cf56bb4SEnji Cooper ATF_TC(ptrace__parent_terminate_with_pending_sigstop1); 31963cf56bb4SEnji Cooper ATF_TC_HEAD(ptrace__parent_terminate_with_pending_sigstop1, tc) 31973cf56bb4SEnji Cooper { 31983cf56bb4SEnji Cooper 31993cf56bb4SEnji Cooper atf_tc_set_md_var(tc, "require.user", "root"); 32003cf56bb4SEnji Cooper } 3201b38bd91fSEric Badger ATF_TC_BODY(ptrace__parent_terminate_with_pending_sigstop1, tc) 3202b38bd91fSEric Badger { 3203b38bd91fSEric Badger 3204b38bd91fSEric Badger terminate_with_pending_sigstop(true); 3205b38bd91fSEric Badger } 32063cf56bb4SEnji Cooper 32073cf56bb4SEnji Cooper ATF_TC(ptrace__parent_terminate_with_pending_sigstop2); 32083cf56bb4SEnji Cooper ATF_TC_HEAD(ptrace__parent_terminate_with_pending_sigstop2, tc) 32093cf56bb4SEnji Cooper { 32103cf56bb4SEnji Cooper 32113cf56bb4SEnji Cooper atf_tc_set_md_var(tc, "require.user", "root"); 32123cf56bb4SEnji Cooper } 3213b38bd91fSEric Badger ATF_TC_BODY(ptrace__parent_terminate_with_pending_sigstop2, tc) 3214b38bd91fSEric Badger { 3215b38bd91fSEric Badger 3216b38bd91fSEric Badger terminate_with_pending_sigstop(false); 3217b38bd91fSEric Badger } 3218b38bd91fSEric Badger 3219b4d33259SEric Badger /* 3220b4d33259SEric Badger * Verify that after ptrace() discards a SIGKILL signal, the event mask 3221b4d33259SEric Badger * is not modified. 3222b4d33259SEric Badger */ 3223b4d33259SEric Badger ATF_TC_WITHOUT_HEAD(ptrace__event_mask_sigkill_discard); 3224b4d33259SEric Badger ATF_TC_BODY(ptrace__event_mask_sigkill_discard, tc) 3225b4d33259SEric Badger { 3226b4d33259SEric Badger struct ptrace_lwpinfo pl; 3227b4d33259SEric Badger pid_t fpid, wpid; 3228b4d33259SEric Badger int status, event_mask, new_event_mask; 3229b4d33259SEric Badger 3230b4d33259SEric Badger ATF_REQUIRE((fpid = fork()) != -1); 3231b4d33259SEric Badger if (fpid == 0) { 3232b4d33259SEric Badger trace_me(); 3233b4d33259SEric Badger raise(SIGSTOP); 3234b4d33259SEric Badger exit(0); 3235b4d33259SEric Badger } 3236b4d33259SEric Badger 3237b4d33259SEric Badger /* The first wait() should report the stop from trace_me(). */ 3238b4d33259SEric Badger wpid = waitpid(fpid, &status, 0); 3239b4d33259SEric Badger ATF_REQUIRE(wpid == fpid); 3240b4d33259SEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 3241b4d33259SEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 3242b4d33259SEric Badger 3243b4d33259SEric Badger /* Set several unobtrusive event bits. */ 3244b4d33259SEric Badger event_mask = PTRACE_EXEC | PTRACE_FORK | PTRACE_LWP; 3245b4d33259SEric Badger ATF_REQUIRE(ptrace(PT_SET_EVENT_MASK, wpid, (caddr_t)&event_mask, 3246b4d33259SEric Badger sizeof(event_mask)) == 0); 3247b4d33259SEric Badger 3248b4d33259SEric Badger /* Send a SIGKILL without using ptrace. */ 3249b4d33259SEric Badger ATF_REQUIRE(kill(fpid, SIGKILL) == 0); 3250b4d33259SEric Badger 3251b4d33259SEric Badger /* Continue the child ignoring the SIGSTOP. */ 3252b4d33259SEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 3253b4d33259SEric Badger 3254b4d33259SEric Badger /* The next stop should be due to the SIGKILL. */ 3255b4d33259SEric Badger wpid = waitpid(fpid, &status, 0); 3256b4d33259SEric Badger ATF_REQUIRE(wpid == fpid); 3257b4d33259SEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 3258b4d33259SEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGKILL); 3259b4d33259SEric Badger 3260b4d33259SEric Badger ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 3261b4d33259SEric Badger ATF_REQUIRE(pl.pl_flags & PL_FLAG_SI); 3262b4d33259SEric Badger ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGKILL); 3263b4d33259SEric Badger 3264b4d33259SEric Badger /* Continue the child ignoring the SIGKILL. */ 3265b4d33259SEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 3266b4d33259SEric Badger 3267b4d33259SEric Badger /* The next wait() should report the stop from SIGSTOP. */ 3268b4d33259SEric Badger wpid = waitpid(fpid, &status, 0); 3269b4d33259SEric Badger ATF_REQUIRE(wpid == fpid); 3270b4d33259SEric Badger ATF_REQUIRE(WIFSTOPPED(status)); 3271b4d33259SEric Badger ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 3272b4d33259SEric Badger 3273b4d33259SEric Badger /* Check the current event mask. It should not have changed. */ 3274b4d33259SEric Badger new_event_mask = 0; 3275b4d33259SEric Badger ATF_REQUIRE(ptrace(PT_GET_EVENT_MASK, wpid, (caddr_t)&new_event_mask, 3276b4d33259SEric Badger sizeof(new_event_mask)) == 0); 3277b4d33259SEric Badger ATF_REQUIRE(event_mask == new_event_mask); 3278b4d33259SEric Badger 3279b4d33259SEric Badger /* Continue the child to let it exit. */ 3280b4d33259SEric Badger ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 3281b4d33259SEric Badger 3282b4d33259SEric Badger /* The last event should be for the child process's exit. */ 3283b4d33259SEric Badger wpid = waitpid(fpid, &status, 0); 3284b4d33259SEric Badger ATF_REQUIRE(WIFEXITED(status)); 3285b4d33259SEric Badger ATF_REQUIRE(WEXITSTATUS(status) == 0); 3286b4d33259SEric Badger 3287b4d33259SEric Badger wpid = wait(&status); 3288b4d33259SEric Badger ATF_REQUIRE(wpid == -1); 3289b4d33259SEric Badger ATF_REQUIRE(errno == ECHILD); 3290b4d33259SEric Badger } 3291b4d33259SEric Badger 3292d74da94cSMark Johnston static void * 3293d74da94cSMark Johnston flock_thread(void *arg) 3294d74da94cSMark Johnston { 3295d74da94cSMark Johnston int fd; 3296d74da94cSMark Johnston 3297d74da94cSMark Johnston fd = *(int *)arg; 3298d74da94cSMark Johnston (void)flock(fd, LOCK_EX); 3299d74da94cSMark Johnston (void)flock(fd, LOCK_UN); 3300d74da94cSMark Johnston return (NULL); 3301d74da94cSMark Johnston } 3302d74da94cSMark Johnston 3303d74da94cSMark Johnston /* 3304d74da94cSMark Johnston * Verify that PT_ATTACH will suspend threads sleeping in an SBDRY section. 3305d74da94cSMark Johnston * We rely on the fact that the lockf implementation sets SBDRY before blocking 3306d74da94cSMark Johnston * on a lock. This is a regression test for r318191. 3307d74da94cSMark Johnston */ 3308d74da94cSMark Johnston ATF_TC_WITHOUT_HEAD(ptrace__PT_ATTACH_with_SBDRY_thread); 3309d74da94cSMark Johnston ATF_TC_BODY(ptrace__PT_ATTACH_with_SBDRY_thread, tc) 3310d74da94cSMark Johnston { 3311d74da94cSMark Johnston pthread_barrier_t barrier; 3312d74da94cSMark Johnston pthread_barrierattr_t battr; 3313d74da94cSMark Johnston char tmpfile[64]; 3314d74da94cSMark Johnston pid_t child, wpid; 3315d74da94cSMark Johnston int error, fd, i, status; 3316d74da94cSMark Johnston 3317d74da94cSMark Johnston ATF_REQUIRE(pthread_barrierattr_init(&battr) == 0); 3318d74da94cSMark Johnston ATF_REQUIRE(pthread_barrierattr_setpshared(&battr, 3319d74da94cSMark Johnston PTHREAD_PROCESS_SHARED) == 0); 3320d74da94cSMark Johnston ATF_REQUIRE(pthread_barrier_init(&barrier, &battr, 2) == 0); 3321d74da94cSMark Johnston 3322d74da94cSMark Johnston (void)snprintf(tmpfile, sizeof(tmpfile), "./ptrace.XXXXXX"); 3323d74da94cSMark Johnston fd = mkstemp(tmpfile); 3324d74da94cSMark Johnston ATF_REQUIRE(fd >= 0); 3325d74da94cSMark Johnston 3326d74da94cSMark Johnston ATF_REQUIRE((child = fork()) != -1); 3327d74da94cSMark Johnston if (child == 0) { 3328d74da94cSMark Johnston pthread_t t[2]; 332996437391SBryan Drewery int cfd; 3330d74da94cSMark Johnston 3331d74da94cSMark Johnston error = pthread_barrier_wait(&barrier); 3332d74da94cSMark Johnston if (error != 0 && error != PTHREAD_BARRIER_SERIAL_THREAD) 3333d74da94cSMark Johnston _exit(1); 3334d74da94cSMark Johnston 3335d74da94cSMark Johnston cfd = open(tmpfile, O_RDONLY); 3336d74da94cSMark Johnston if (cfd < 0) 3337d74da94cSMark Johnston _exit(1); 3338d74da94cSMark Johnston 3339d74da94cSMark Johnston /* 3340d74da94cSMark Johnston * We want at least two threads blocked on the file lock since 3341d74da94cSMark Johnston * the SIGSTOP from PT_ATTACH may kick one of them out of 3342d74da94cSMark Johnston * sleep. 3343d74da94cSMark Johnston */ 3344d74da94cSMark Johnston if (pthread_create(&t[0], NULL, flock_thread, &cfd) != 0) 3345d74da94cSMark Johnston _exit(1); 3346d74da94cSMark Johnston if (pthread_create(&t[1], NULL, flock_thread, &cfd) != 0) 3347d74da94cSMark Johnston _exit(1); 3348d74da94cSMark Johnston if (pthread_join(t[0], NULL) != 0) 3349d74da94cSMark Johnston _exit(1); 3350d74da94cSMark Johnston if (pthread_join(t[1], NULL) != 0) 3351d74da94cSMark Johnston _exit(1); 3352d74da94cSMark Johnston _exit(0); 3353d74da94cSMark Johnston } 3354d74da94cSMark Johnston 3355d74da94cSMark Johnston ATF_REQUIRE(flock(fd, LOCK_EX) == 0); 3356d74da94cSMark Johnston 3357d74da94cSMark Johnston error = pthread_barrier_wait(&barrier); 3358d74da94cSMark Johnston ATF_REQUIRE(error == 0 || error == PTHREAD_BARRIER_SERIAL_THREAD); 3359d74da94cSMark Johnston 3360d74da94cSMark Johnston /* 3361d74da94cSMark Johnston * Give the child some time to block. Is there a better way to do this? 3362d74da94cSMark Johnston */ 3363d74da94cSMark Johnston sleep(1); 3364d74da94cSMark Johnston 3365d74da94cSMark Johnston /* 3366d74da94cSMark Johnston * Attach and give the child 3 seconds to stop. 3367d74da94cSMark Johnston */ 3368d74da94cSMark Johnston ATF_REQUIRE(ptrace(PT_ATTACH, child, NULL, 0) == 0); 3369d74da94cSMark Johnston for (i = 0; i < 3; i++) { 3370d74da94cSMark Johnston wpid = waitpid(child, &status, WNOHANG); 3371d74da94cSMark Johnston if (wpid == child && WIFSTOPPED(status) && 3372d74da94cSMark Johnston WSTOPSIG(status) == SIGSTOP) 3373d74da94cSMark Johnston break; 3374d74da94cSMark Johnston sleep(1); 3375d74da94cSMark Johnston } 3376d74da94cSMark Johnston ATF_REQUIRE_MSG(i < 3, "failed to stop child process after PT_ATTACH"); 3377d74da94cSMark Johnston 3378d74da94cSMark Johnston ATF_REQUIRE(ptrace(PT_DETACH, child, NULL, 0) == 0); 3379d74da94cSMark Johnston 3380d74da94cSMark Johnston ATF_REQUIRE(flock(fd, LOCK_UN) == 0); 3381d74da94cSMark Johnston ATF_REQUIRE(unlink(tmpfile) == 0); 3382d74da94cSMark Johnston ATF_REQUIRE(close(fd) == 0); 3383d74da94cSMark Johnston } 3384d74da94cSMark Johnston 338554cfb29eSJohn Baldwin static void 338654cfb29eSJohn Baldwin sigusr1_step_handler(int sig) 338754cfb29eSJohn Baldwin { 338854cfb29eSJohn Baldwin 338954cfb29eSJohn Baldwin CHILD_REQUIRE(sig == SIGUSR1); 339054cfb29eSJohn Baldwin raise(SIGABRT); 339154cfb29eSJohn Baldwin } 339254cfb29eSJohn Baldwin 339354cfb29eSJohn Baldwin /* 339454cfb29eSJohn Baldwin * Verify that PT_STEP with a signal invokes the signal before 339554cfb29eSJohn Baldwin * stepping the next instruction (and that the next instruction is 339654cfb29eSJohn Baldwin * stepped correctly). 339754cfb29eSJohn Baldwin */ 339854cfb29eSJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__PT_STEP_with_signal); 339954cfb29eSJohn Baldwin ATF_TC_BODY(ptrace__PT_STEP_with_signal, tc) 340054cfb29eSJohn Baldwin { 340154cfb29eSJohn Baldwin struct ptrace_lwpinfo pl; 340254cfb29eSJohn Baldwin pid_t fpid, wpid; 340354cfb29eSJohn Baldwin int status; 340454cfb29eSJohn Baldwin 340554cfb29eSJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 340654cfb29eSJohn Baldwin if (fpid == 0) { 340754cfb29eSJohn Baldwin trace_me(); 340854cfb29eSJohn Baldwin signal(SIGUSR1, sigusr1_step_handler); 340954cfb29eSJohn Baldwin raise(SIGABRT); 341054cfb29eSJohn Baldwin exit(1); 341154cfb29eSJohn Baldwin } 341254cfb29eSJohn Baldwin 341354cfb29eSJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 341454cfb29eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 341554cfb29eSJohn Baldwin ATF_REQUIRE(wpid == fpid); 341654cfb29eSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 341754cfb29eSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 341854cfb29eSJohn Baldwin 341954cfb29eSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 342054cfb29eSJohn Baldwin 342154cfb29eSJohn Baldwin /* The next stop should report the SIGABRT in the child body. */ 342254cfb29eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 342354cfb29eSJohn Baldwin ATF_REQUIRE(wpid == fpid); 342454cfb29eSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 342554cfb29eSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGABRT); 342654cfb29eSJohn Baldwin 342754cfb29eSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 342854cfb29eSJohn Baldwin ATF_REQUIRE(pl.pl_flags & PL_FLAG_SI); 342954cfb29eSJohn Baldwin ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGABRT); 343054cfb29eSJohn Baldwin 343154cfb29eSJohn Baldwin /* Step the child process inserting SIGUSR1. */ 343254cfb29eSJohn Baldwin ATF_REQUIRE(ptrace(PT_STEP, fpid, (caddr_t)1, SIGUSR1) == 0); 343354cfb29eSJohn Baldwin 343454cfb29eSJohn Baldwin /* The next stop should report the SIGABRT in the signal handler. */ 343554cfb29eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 343654cfb29eSJohn Baldwin ATF_REQUIRE(wpid == fpid); 343754cfb29eSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 343854cfb29eSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGABRT); 343954cfb29eSJohn Baldwin 344054cfb29eSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 344154cfb29eSJohn Baldwin ATF_REQUIRE(pl.pl_flags & PL_FLAG_SI); 344254cfb29eSJohn Baldwin ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGABRT); 344354cfb29eSJohn Baldwin 344454cfb29eSJohn Baldwin /* Continue the child process discarding the signal. */ 344554cfb29eSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 344654cfb29eSJohn Baldwin 344754cfb29eSJohn Baldwin /* The next stop should report a trace trap from PT_STEP. */ 344854cfb29eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 344954cfb29eSJohn Baldwin ATF_REQUIRE(wpid == fpid); 345054cfb29eSJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 345154cfb29eSJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 345254cfb29eSJohn Baldwin 345354cfb29eSJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 345454cfb29eSJohn Baldwin ATF_REQUIRE(pl.pl_flags & PL_FLAG_SI); 345554cfb29eSJohn Baldwin ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGTRAP); 345654cfb29eSJohn Baldwin ATF_REQUIRE(pl.pl_siginfo.si_code == TRAP_TRACE); 345754cfb29eSJohn Baldwin 345854cfb29eSJohn Baldwin /* Continue the child to let it exit. */ 345954cfb29eSJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 346054cfb29eSJohn Baldwin 346154cfb29eSJohn Baldwin /* The last event should be for the child process's exit. */ 346254cfb29eSJohn Baldwin wpid = waitpid(fpid, &status, 0); 346354cfb29eSJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 346454cfb29eSJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 346554cfb29eSJohn Baldwin 346654cfb29eSJohn Baldwin wpid = wait(&status); 346754cfb29eSJohn Baldwin ATF_REQUIRE(wpid == -1); 346854cfb29eSJohn Baldwin ATF_REQUIRE(errno == ECHILD); 346954cfb29eSJohn Baldwin } 347054cfb29eSJohn Baldwin 3471e012fe34SJohn Baldwin #if defined(__amd64__) || defined(__i386__) 3472e012fe34SJohn Baldwin /* 3473e012fe34SJohn Baldwin * Only x86 both define breakpoint() and have a PC after breakpoint so 3474e012fe34SJohn Baldwin * that restarting doesn't retrigger the breakpoint. 3475e012fe34SJohn Baldwin */ 3476e012fe34SJohn Baldwin static void * 3477e012fe34SJohn Baldwin continue_thread(void *arg) 3478e012fe34SJohn Baldwin { 3479e012fe34SJohn Baldwin breakpoint(); 3480e012fe34SJohn Baldwin return (NULL); 3481e012fe34SJohn Baldwin } 3482e012fe34SJohn Baldwin 3483e012fe34SJohn Baldwin static __dead2 void 3484e012fe34SJohn Baldwin continue_thread_main(void) 3485e012fe34SJohn Baldwin { 3486e012fe34SJohn Baldwin pthread_t threads[2]; 3487e012fe34SJohn Baldwin 3488e012fe34SJohn Baldwin CHILD_REQUIRE(pthread_create(&threads[0], NULL, continue_thread, 3489e012fe34SJohn Baldwin NULL) == 0); 3490e012fe34SJohn Baldwin CHILD_REQUIRE(pthread_create(&threads[1], NULL, continue_thread, 3491e012fe34SJohn Baldwin NULL) == 0); 3492e012fe34SJohn Baldwin CHILD_REQUIRE(pthread_join(threads[0], NULL) == 0); 3493e012fe34SJohn Baldwin CHILD_REQUIRE(pthread_join(threads[1], NULL) == 0); 3494e012fe34SJohn Baldwin exit(1); 3495e012fe34SJohn Baldwin } 3496e012fe34SJohn Baldwin 3497e012fe34SJohn Baldwin /* 3498e012fe34SJohn Baldwin * Ensure that PT_CONTINUE clears the status of the thread that 3499e012fe34SJohn Baldwin * triggered the stop even if a different thread's LWP was passed to 3500e012fe34SJohn Baldwin * PT_CONTINUE. 3501e012fe34SJohn Baldwin */ 3502e012fe34SJohn Baldwin ATF_TC_WITHOUT_HEAD(ptrace__PT_CONTINUE_different_thread); 3503e012fe34SJohn Baldwin ATF_TC_BODY(ptrace__PT_CONTINUE_different_thread, tc) 3504e012fe34SJohn Baldwin { 3505e012fe34SJohn Baldwin struct ptrace_lwpinfo pl; 3506e012fe34SJohn Baldwin pid_t fpid, wpid; 3507e012fe34SJohn Baldwin lwpid_t lwps[2]; 3508e012fe34SJohn Baldwin bool hit_break[2]; 3509e012fe34SJohn Baldwin int i, j, status; 3510e012fe34SJohn Baldwin 3511e012fe34SJohn Baldwin ATF_REQUIRE((fpid = fork()) != -1); 3512e012fe34SJohn Baldwin if (fpid == 0) { 3513e012fe34SJohn Baldwin trace_me(); 3514e012fe34SJohn Baldwin continue_thread_main(); 3515e012fe34SJohn Baldwin } 3516e012fe34SJohn Baldwin 3517e012fe34SJohn Baldwin /* The first wait() should report the stop from SIGSTOP. */ 3518e012fe34SJohn Baldwin wpid = waitpid(fpid, &status, 0); 3519e012fe34SJohn Baldwin ATF_REQUIRE(wpid == fpid); 3520e012fe34SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 3521e012fe34SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGSTOP); 3522e012fe34SJohn Baldwin 3523e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, 3524e012fe34SJohn Baldwin sizeof(pl)) != -1); 3525e012fe34SJohn Baldwin 3526e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_LWP_EVENTS, wpid, NULL, 1) == 0); 3527e012fe34SJohn Baldwin 3528e012fe34SJohn Baldwin /* Continue the child ignoring the SIGSTOP. */ 3529e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 3530e012fe34SJohn Baldwin 3531e012fe34SJohn Baldwin /* One of the new threads should report it's birth. */ 3532e012fe34SJohn Baldwin wpid = waitpid(fpid, &status, 0); 3533e012fe34SJohn Baldwin ATF_REQUIRE(wpid == fpid); 3534e012fe34SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 3535e012fe34SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 3536e012fe34SJohn Baldwin 3537e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 3538e012fe34SJohn Baldwin ATF_REQUIRE((pl.pl_flags & (PL_FLAG_BORN | PL_FLAG_SCX)) == 3539e012fe34SJohn Baldwin (PL_FLAG_BORN | PL_FLAG_SCX)); 3540e012fe34SJohn Baldwin lwps[0] = pl.pl_lwpid; 3541e012fe34SJohn Baldwin 3542e012fe34SJohn Baldwin /* 3543e012fe34SJohn Baldwin * Suspend this thread to ensure both threads are alive before 3544e012fe34SJohn Baldwin * hitting the breakpoint. 3545e012fe34SJohn Baldwin */ 3546e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_SUSPEND, lwps[0], NULL, 0) != -1); 3547e012fe34SJohn Baldwin 3548e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 3549e012fe34SJohn Baldwin 3550e012fe34SJohn Baldwin /* Second thread should report it's birth. */ 3551e012fe34SJohn Baldwin wpid = waitpid(fpid, &status, 0); 3552e012fe34SJohn Baldwin ATF_REQUIRE(wpid == fpid); 3553e012fe34SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 3554e012fe34SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 3555e012fe34SJohn Baldwin 3556e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 3557e012fe34SJohn Baldwin ATF_REQUIRE((pl.pl_flags & (PL_FLAG_BORN | PL_FLAG_SCX)) == 3558e012fe34SJohn Baldwin (PL_FLAG_BORN | PL_FLAG_SCX)); 3559e012fe34SJohn Baldwin ATF_REQUIRE(pl.pl_lwpid != lwps[0]); 3560e012fe34SJohn Baldwin lwps[1] = pl.pl_lwpid; 3561e012fe34SJohn Baldwin 3562e012fe34SJohn Baldwin /* Resume both threads waiting for breakpoint events. */ 3563e012fe34SJohn Baldwin hit_break[0] = hit_break[1] = false; 3564e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_RESUME, lwps[0], NULL, 0) != -1); 3565e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 3566e012fe34SJohn Baldwin 3567e012fe34SJohn Baldwin /* One thread should report a breakpoint. */ 3568e012fe34SJohn Baldwin wpid = waitpid(fpid, &status, 0); 3569e012fe34SJohn Baldwin ATF_REQUIRE(wpid == fpid); 3570e012fe34SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 3571e012fe34SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 3572e012fe34SJohn Baldwin 3573e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, sizeof(pl)) != -1); 3574e012fe34SJohn Baldwin ATF_REQUIRE((pl.pl_flags & PL_FLAG_SI) != 0); 3575e012fe34SJohn Baldwin ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGTRAP && 3576e012fe34SJohn Baldwin pl.pl_siginfo.si_code == TRAP_BRKPT); 3577e012fe34SJohn Baldwin if (pl.pl_lwpid == lwps[0]) 3578e012fe34SJohn Baldwin i = 0; 3579e012fe34SJohn Baldwin else 3580e012fe34SJohn Baldwin i = 1; 3581e012fe34SJohn Baldwin hit_break[i] = true; 3582e012fe34SJohn Baldwin 3583e012fe34SJohn Baldwin /* 3584e012fe34SJohn Baldwin * Resume both threads but pass the other thread's LWPID to 3585e012fe34SJohn Baldwin * PT_CONTINUE. 3586e012fe34SJohn Baldwin */ 3587e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, lwps[i ^ 1], (caddr_t)1, 0) == 0); 3588e012fe34SJohn Baldwin 3589e012fe34SJohn Baldwin /* 3590e012fe34SJohn Baldwin * Will now get two thread exit events and one more breakpoint 3591e012fe34SJohn Baldwin * event. 3592e012fe34SJohn Baldwin */ 3593e012fe34SJohn Baldwin for (j = 0; j < 3; j++) { 3594e012fe34SJohn Baldwin wpid = waitpid(fpid, &status, 0); 3595e012fe34SJohn Baldwin ATF_REQUIRE(wpid == fpid); 3596e012fe34SJohn Baldwin ATF_REQUIRE(WIFSTOPPED(status)); 3597e012fe34SJohn Baldwin ATF_REQUIRE(WSTOPSIG(status) == SIGTRAP); 3598e012fe34SJohn Baldwin 3599e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_LWPINFO, wpid, (caddr_t)&pl, 3600e012fe34SJohn Baldwin sizeof(pl)) != -1); 3601e012fe34SJohn Baldwin 3602e012fe34SJohn Baldwin if (pl.pl_lwpid == lwps[0]) 3603e012fe34SJohn Baldwin i = 0; 3604e012fe34SJohn Baldwin else 3605e012fe34SJohn Baldwin i = 1; 3606e012fe34SJohn Baldwin 3607e012fe34SJohn Baldwin ATF_REQUIRE_MSG(lwps[i] != 0, "event for exited thread"); 3608e012fe34SJohn Baldwin if (pl.pl_flags & PL_FLAG_EXITED) { 3609e012fe34SJohn Baldwin ATF_REQUIRE_MSG(hit_break[i], 3610e012fe34SJohn Baldwin "exited thread did not report breakpoint"); 3611e012fe34SJohn Baldwin lwps[i] = 0; 3612e012fe34SJohn Baldwin } else { 3613e012fe34SJohn Baldwin ATF_REQUIRE((pl.pl_flags & PL_FLAG_SI) != 0); 3614e012fe34SJohn Baldwin ATF_REQUIRE(pl.pl_siginfo.si_signo == SIGTRAP && 3615e012fe34SJohn Baldwin pl.pl_siginfo.si_code == TRAP_BRKPT); 3616e012fe34SJohn Baldwin ATF_REQUIRE_MSG(!hit_break[i], 3617e012fe34SJohn Baldwin "double breakpoint event"); 3618e012fe34SJohn Baldwin hit_break[i] = true; 3619e012fe34SJohn Baldwin } 3620e012fe34SJohn Baldwin 3621e012fe34SJohn Baldwin ATF_REQUIRE(ptrace(PT_CONTINUE, fpid, (caddr_t)1, 0) == 0); 3622e012fe34SJohn Baldwin } 3623e012fe34SJohn Baldwin 3624e012fe34SJohn Baldwin /* Both threads should have exited. */ 3625e012fe34SJohn Baldwin ATF_REQUIRE(lwps[0] == 0); 3626e012fe34SJohn Baldwin ATF_REQUIRE(lwps[1] == 0); 3627e012fe34SJohn Baldwin 3628e012fe34SJohn Baldwin /* The last event should be for the child process's exit. */ 3629e012fe34SJohn Baldwin wpid = waitpid(fpid, &status, 0); 3630e012fe34SJohn Baldwin ATF_REQUIRE(WIFEXITED(status)); 3631e012fe34SJohn Baldwin ATF_REQUIRE(WEXITSTATUS(status) == 1); 3632e012fe34SJohn Baldwin 3633e012fe34SJohn Baldwin wpid = wait(&status); 3634e012fe34SJohn Baldwin ATF_REQUIRE(wpid == -1); 3635e012fe34SJohn Baldwin ATF_REQUIRE(errno == ECHILD); 3636e012fe34SJohn Baldwin } 3637e012fe34SJohn Baldwin #endif 3638e012fe34SJohn Baldwin 3639c209e3e2SJohn Baldwin ATF_TP_ADD_TCS(tp) 3640c209e3e2SJohn Baldwin { 3641c209e3e2SJohn Baldwin 3642c209e3e2SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__parent_wait_after_trace_me); 3643c209e3e2SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__parent_wait_after_attach); 364457c74f5bSJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__parent_sees_exit_after_child_debugger); 364557c74f5bSJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__parent_sees_exit_after_unrelated_debugger); 364698685dc8SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__follow_fork_both_attached); 364798685dc8SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__follow_fork_child_detached); 364898685dc8SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__follow_fork_parent_detached); 364998685dc8SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__follow_fork_both_attached_unrelated_debugger); 365098685dc8SJohn Baldwin ATF_TP_ADD_TC(tp, 365198685dc8SJohn Baldwin ptrace__follow_fork_child_detached_unrelated_debugger); 365298685dc8SJohn Baldwin ATF_TP_ADD_TC(tp, 365398685dc8SJohn Baldwin ptrace__follow_fork_parent_detached_unrelated_debugger); 3654368b2b1cSJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__getppid); 3655189ac973SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__new_child_pl_syscall_code_fork); 3656189ac973SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__new_child_pl_syscall_code_vfork); 3657189ac973SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__new_child_pl_syscall_code_thread); 36585fcfab6eSJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__lwp_events); 36595fcfab6eSJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__lwp_events_exec); 36603340c45bSJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__siginfo); 36618d570f64SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__ptrace_exec_disable); 36628d570f64SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__ptrace_exec_enable); 36638d570f64SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__event_mask); 3664fc4f075aSJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__ptrace_vfork); 3665fc4f075aSJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__ptrace_vfork_follow); 3666e2ebfbbfSEric Badger #if defined(__amd64__) || defined(__i386__) || defined(__sparc64__) 366782a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_KILL_breakpoint); 3668e2ebfbbfSEric Badger #endif 366982a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_KILL_system_call); 367082a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_KILL_threads); 367182a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_KILL_competing_signal); 367282a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_KILL_competing_stop); 367382a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_KILL_with_signal_full_sigqueue); 367482a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_CONTINUE_with_signal_system_call_entry); 367582a4538fSEric Badger ATF_TP_ADD_TC(tp, 367682a4538fSEric Badger ptrace__PT_CONTINUE_with_signal_system_call_entry_and_exit); 367782a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_CONTINUE_with_signal_full_sigqueue); 3678753e2922SBryan Drewery ATF_TP_ADD_TC(tp, ptrace__PT_CONTINUE_with_signal_masked_full_sigqueue); 367982a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_CONTINUE_change_sig); 368082a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_CONTINUE_with_sigtrap_system_call_entry); 368182a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_CONTINUE_with_signal_mix); 368282a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_CONTINUE_with_signal_kqueue); 3683753e2922SBryan Drewery ATF_TP_ADD_TC(tp, ptrace__killed_with_sigmask); 3684753e2922SBryan Drewery ATF_TP_ADD_TC(tp, ptrace__PT_CONTINUE_with_sigmask); 368582a4538fSEric Badger ATF_TP_ADD_TC(tp, ptrace__PT_CONTINUE_with_signal_thread_sigmask); 3686b38bd91fSEric Badger ATF_TP_ADD_TC(tp, ptrace__parent_terminate_with_pending_sigstop1); 3687b38bd91fSEric Badger ATF_TP_ADD_TC(tp, ptrace__parent_terminate_with_pending_sigstop2); 3688b4d33259SEric Badger ATF_TP_ADD_TC(tp, ptrace__event_mask_sigkill_discard); 3689d74da94cSMark Johnston ATF_TP_ADD_TC(tp, ptrace__PT_ATTACH_with_SBDRY_thread); 369054cfb29eSJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__PT_STEP_with_signal); 3691e012fe34SJohn Baldwin #if defined(__amd64__) || defined(__i386__) 3692e012fe34SJohn Baldwin ATF_TP_ADD_TC(tp, ptrace__PT_CONTINUE_different_thread); 3693e012fe34SJohn Baldwin #endif 3694c209e3e2SJohn Baldwin 3695c209e3e2SJohn Baldwin return (atf_no_error()); 3696c209e3e2SJohn Baldwin } 3697