/* $NetBSD: t_ptrace_lwp_wait.h,v 1.2 2025/05/02 02:24:32 riastradh Exp $ */ /*- * Copyright (c) 2016, 2017, 2018, 2019, 2020 The NetBSD Foundation, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ static int lwpinfo_thread_sigmask[] = {SIGXCPU, SIGPIPE, SIGALRM, SIGURG}; static pthread_mutex_t lwpinfo_thread_mtx = PTHREAD_MUTEX_INITIALIZER; static pthread_cond_t lwpinfo_thread_cnd = PTHREAD_COND_INITIALIZER; static volatile size_t lwpinfo_thread_done; static void * lwpinfo_thread(void *arg) { sigset_t s; volatile void **tcb; tcb = (volatile void **)arg; *tcb = _lwp_getprivate(); DPRINTF("Storing tcb[] = %p from thread %d\n", *tcb, _lwp_self()); pthread_setname_np(pthread_self(), "thread %d", (void *)(intptr_t)_lwp_self()); sigemptyset(&s); pthread_mutex_lock(&lwpinfo_thread_mtx); sigaddset(&s, lwpinfo_thread_sigmask[lwpinfo_thread_done]); lwpinfo_thread_done++; pthread_sigmask(SIG_BLOCK, &s, NULL); pthread_cond_signal(&lwpinfo_thread_cnd); pthread_mutex_unlock(&lwpinfo_thread_mtx); return infinite_thread(NULL); } static void traceme_lwpinfo(const size_t threads, const char *iter) { const int sigval = SIGSTOP; const int sigval2 = SIGINT; pid_t child, wpid; #if defined(TWAIT_HAVE_STATUS) int status; #endif struct ptrace_lwpinfo lwp = {0, 0}; struct ptrace_lwpstatus lwpstatus = {0}; struct ptrace_siginfo info; void *private; char *name; char namebuf[PL_LNAMELEN]; volatile void *tcb[4]; bool found; sigset_t s; /* Maximum number of supported threads in this test */ pthread_t t[__arraycount(tcb) - 1]; size_t n, m; int rv; size_t bytes_read; struct ptrace_io_desc io; sigset_t sigmask; ATF_REQUIRE(__arraycount(t) >= threads); memset(tcb, 0, sizeof(tcb)); DPRINTF("Before forking process PID=%d\n", getpid()); SYSCALL_REQUIRE((child = fork()) != -1); if (child == 0) { DPRINTF("Before calling PT_TRACE_ME from child %d\n", getpid()); FORKEE_ASSERT(ptrace(PT_TRACE_ME, 0, NULL, 0) != -1); tcb[0] = _lwp_getprivate(); DPRINTF("Storing tcb[0] = %p\n", tcb[0]); pthread_setname_np(pthread_self(), "thread %d", (void *)(intptr_t)_lwp_self()); sigemptyset(&s); sigaddset(&s, lwpinfo_thread_sigmask[lwpinfo_thread_done]); pthread_sigmask(SIG_BLOCK, &s, NULL); DPRINTF("Before raising %s from child\n", strsignal(sigval)); FORKEE_ASSERT(raise(sigval) == 0); for (n = 0; n < threads; n++) { rv = pthread_create(&t[n], NULL, lwpinfo_thread, &tcb[n + 1]); FORKEE_ASSERT(rv == 0); } pthread_mutex_lock(&lwpinfo_thread_mtx); while (lwpinfo_thread_done < threads) { pthread_cond_wait(&lwpinfo_thread_cnd, &lwpinfo_thread_mtx); } pthread_mutex_unlock(&lwpinfo_thread_mtx); DPRINTF("Before raising %s from child\n", strsignal(sigval2)); FORKEE_ASSERT(raise(sigval2) == 0); /* NOTREACHED */ FORKEE_ASSERTX(0 && "Not reached"); } DPRINTF("Parent process PID=%d, child's PID=%d\n", getpid(), child); DPRINTF("Before calling %s() for the child\n", TWAIT_FNAME); TWAIT_REQUIRE_SUCCESS(wpid = TWAIT_GENERIC(child, &status, 0), child); validate_status_stopped(status, sigval); DPRINTF("Before calling ptrace(2) with PT_GET_SIGINFO for child"); SYSCALL_REQUIRE( ptrace(PT_GET_SIGINFO, child, &info, sizeof(info)) != -1); DPRINTF("Signal traced to lwpid=%d\n", info.psi_lwpid); DPRINTF("Signal properties: si_signo=%#x si_code=%#x si_errno=%#x\n", info.psi_siginfo.si_signo, info.psi_siginfo.si_code, info.psi_siginfo.si_errno); ATF_REQUIRE_EQ(info.psi_siginfo.si_signo, sigval); ATF_REQUIRE_EQ(info.psi_siginfo.si_code, SI_LWP); if (strstr(iter, "LWPINFO") != NULL) { DPRINTF("Before calling ptrace(2) with PT_LWPINFO for child\n"); SYSCALL_REQUIRE(ptrace(PT_LWPINFO, child, &lwp, sizeof(lwp)) != -1); DPRINTF("Assert that there exists a single thread only\n"); ATF_REQUIRE(lwp.pl_lwpid > 0); DPRINTF("Assert that lwp thread %d received event " "PL_EVENT_SIGNAL\n", lwp.pl_lwpid); FORKEE_ASSERT_EQ(lwp.pl_event, PL_EVENT_SIGNAL); if (strstr(iter, "LWPSTATUS") != NULL) { DPRINTF("Before calling ptrace(2) with PT_LWPSTATUS " "for child\n"); lwpstatus.pl_lwpid = lwp.pl_lwpid; SYSCALL_REQUIRE(ptrace(PT_LWPSTATUS, child, &lwpstatus, sizeof(lwpstatus)) != -1); } DPRINTF("Before calling ptrace(2) with PT_LWPINFO for child\n"); SYSCALL_REQUIRE(ptrace(PT_LWPINFO, child, &lwp, sizeof(lwp)) != -1); DPRINTF("Assert that there exists a single thread only\n"); ATF_REQUIRE_EQ(lwp.pl_lwpid, 0); } else { DPRINTF("Before calling ptrace(2) with PT_LWPNEXT for child\n"); SYSCALL_REQUIRE(ptrace(PT_LWPNEXT, child, &lwpstatus, sizeof(lwpstatus)) != -1); DPRINTF("Assert that there exists a single thread only %d\n", lwpstatus.pl_lwpid); ATF_REQUIRE(lwpstatus.pl_lwpid > 0); DPRINTF("Before calling ptrace(2) with PT_LWPNEXT for child\n"); SYSCALL_REQUIRE(ptrace(PT_LWPNEXT, child, &lwpstatus, sizeof(lwpstatus)) != -1); DPRINTF("Assert that there exists a single thread only\n"); ATF_REQUIRE_EQ(lwpstatus.pl_lwpid, 0); } DPRINTF("Before resuming the child process where it left off and " "without signal to be sent\n"); SYSCALL_REQUIRE(ptrace(PT_CONTINUE, child, (void *)1, 0) != -1); DPRINTF("Before calling %s() for the child\n", TWAIT_FNAME); TWAIT_REQUIRE_SUCCESS(wpid = TWAIT_GENERIC(child, &status, 0), child); validate_status_stopped(status, sigval2); DPRINTF("Before calling ptrace(2) with PT_GET_SIGINFO for child"); SYSCALL_REQUIRE( ptrace(PT_GET_SIGINFO, child, &info, sizeof(info)) != -1); DPRINTF("Signal traced to lwpid=%d\n", info.psi_lwpid); DPRINTF("Signal properties: si_signo=%#x si_code=%#x si_errno=%#x\n", info.psi_siginfo.si_signo, info.psi_siginfo.si_code, info.psi_siginfo.si_errno); ATF_REQUIRE_EQ(info.psi_siginfo.si_signo, sigval2); ATF_REQUIRE_EQ(info.psi_siginfo.si_code, SI_LWP); memset(&lwp, 0, sizeof(lwp)); memset(&lwpstatus, 0, sizeof(lwpstatus)); memset(&io, 0, sizeof(io)); bytes_read = 0; io.piod_op = PIOD_READ_D; io.piod_len = sizeof(tcb); do { io.piod_addr = (char *)&tcb + bytes_read; io.piod_offs = io.piod_addr; rv = ptrace(PT_IO, child, &io, sizeof(io)); ATF_REQUIRE(rv != -1 && io.piod_len != 0); bytes_read += io.piod_len; io.piod_len = sizeof(tcb) - bytes_read; } while (bytes_read < sizeof(tcb)); for (n = 0; n <= threads; n++) { if (strstr(iter, "LWPINFO") != NULL) { DPRINTF("Before calling ptrace(2) with PT_LWPINFO for " "child\n"); SYSCALL_REQUIRE( ptrace(PT_LWPINFO, child, &lwp, sizeof(lwp)) != -1); DPRINTF("LWP=%d\n", lwp.pl_lwpid); DPRINTF("Assert that the thread exists\n"); ATF_REQUIRE(lwp.pl_lwpid > 0); DPRINTF("Assert that lwp thread %d received expected " "event\n", lwp.pl_lwpid); FORKEE_ASSERT_EQ(lwp.pl_event, info.psi_lwpid == lwp.pl_lwpid ? PL_EVENT_SIGNAL : PL_EVENT_NONE); if (strstr(iter, "LWPSTATUS") != NULL) { DPRINTF("Before calling ptrace(2) with " "PT_LWPSTATUS for child\n"); lwpstatus.pl_lwpid = lwp.pl_lwpid; SYSCALL_REQUIRE(ptrace(PT_LWPSTATUS, child, &lwpstatus, sizeof(lwpstatus)) != -1); goto check_lwpstatus; } } else { DPRINTF("Before calling ptrace(2) with PT_LWPNEXT for " "child\n"); SYSCALL_REQUIRE( ptrace(PT_LWPNEXT, child, &lwpstatus, sizeof(lwpstatus)) != -1); DPRINTF("LWP=%d\n", lwpstatus.pl_lwpid); DPRINTF("Assert that the thread exists\n"); ATF_REQUIRE(lwpstatus.pl_lwpid > 0); check_lwpstatus: if (strstr(iter, "pl_sigmask") != NULL) { sigmask = lwpstatus.pl_sigmask; DPRINTF("Retrieved sigmask: " "%02x%02x%02x%02x\n", sigmask.__bits[0], sigmask.__bits[1], sigmask.__bits[2], sigmask.__bits[3]); found = false; for (m = 0; m < __arraycount(lwpinfo_thread_sigmask); m++) { if (sigismember(&sigmask, lwpinfo_thread_sigmask[m])) { found = true; lwpinfo_thread_sigmask[m] = 0; break; } } ATF_REQUIRE(found == true); } else if (strstr(iter, "pl_name") != NULL) { name = lwpstatus.pl_name; DPRINTF("Retrieved thread name: " "%s\n", name); snprintf(namebuf, sizeof namebuf, "thread %d", lwpstatus.pl_lwpid); ATF_REQUIRE(strcmp(name, namebuf) == 0); } else if (strstr(iter, "pl_private") != NULL) { private = lwpstatus.pl_private; DPRINTF("Retrieved thread private pointer: " "%p\n", private); found = false; for (m = 0; m < __arraycount(tcb); m++) { DPRINTF("Comparing %p and %p\n", private, tcb[m]); if (private == tcb[m]) { found = true; break; } } ATF_REQUIRE(found == true); } } } if (strstr(iter, "LWPINFO") != NULL) { DPRINTF("Before calling ptrace(2) with PT_LWPINFO for " "child\n"); SYSCALL_REQUIRE(ptrace(PT_LWPINFO, child, &lwp, sizeof(lwp)) != -1); DPRINTF("LWP=%d\n", lwp.pl_lwpid); DPRINTF("Assert that there are no more threads\n"); ATF_REQUIRE_EQ(lwp.pl_lwpid, 0); } else { DPRINTF("Before calling ptrace(2) with PT_LWPNEXT for child\n"); SYSCALL_REQUIRE(ptrace(PT_LWPNEXT, child, &lwpstatus, sizeof(lwpstatus)) != -1); DPRINTF("Assert that there exists a single thread only\n"); ATF_REQUIRE_EQ(lwpstatus.pl_lwpid, 0); } DPRINTF("Before resuming the child process where it left off and " "without signal to be sent\n"); SYSCALL_REQUIRE(ptrace(PT_CONTINUE, child, (void *)1, SIGKILL) != -1); DPRINTF("Before calling %s() for the child\n", TWAIT_FNAME); TWAIT_REQUIRE_SUCCESS(wpid = TWAIT_GENERIC(child, &status, 0), child); validate_status_signaled(status, SIGKILL, 0); DPRINTF("Before calling %s() for the child\n", TWAIT_FNAME); TWAIT_REQUIRE_FAILURE(ECHILD, wpid = TWAIT_GENERIC(child, &status, 0)); } #define TRACEME_LWPINFO(test, threads, iter) \ ATF_TC(test); \ ATF_TC_HEAD(test, tc) \ { \ atf_tc_set_md_var(tc, "descr", \ "Verify " iter " with the child with " #threads \ " spawned extra threads"); \ } \ \ ATF_TC_BODY(test, tc) \ { \ \ traceme_lwpinfo(threads, iter); \ } TRACEME_LWPINFO(traceme_lwpinfo0, 0, "LWPINFO") TRACEME_LWPINFO(traceme_lwpinfo1, 1, "LWPINFO") TRACEME_LWPINFO(traceme_lwpinfo2, 2, "LWPINFO") TRACEME_LWPINFO(traceme_lwpinfo3, 3, "LWPINFO") TRACEME_LWPINFO(traceme_lwpinfo0_lwpstatus, 0, "LWPINFO+LWPSTATUS") TRACEME_LWPINFO(traceme_lwpinfo1_lwpstatus, 1, "LWPINFO+LWPSTATUS") TRACEME_LWPINFO(traceme_lwpinfo2_lwpstatus, 2, "LWPINFO+LWPSTATUS") TRACEME_LWPINFO(traceme_lwpinfo3_lwpstatus, 3, "LWPINFO+LWPSTATUS") TRACEME_LWPINFO(traceme_lwpinfo0_lwpstatus_pl_sigmask, 0, "LWPINFO+LWPSTATUS+pl_sigmask") TRACEME_LWPINFO(traceme_lwpinfo1_lwpstatus_pl_sigmask, 1, "LWPINFO+LWPSTATUS+pl_sigmask") TRACEME_LWPINFO(traceme_lwpinfo2_lwpstatus_pl_sigmask, 2, "LWPINFO+LWPSTATUS+pl_sigmask") TRACEME_LWPINFO(traceme_lwpinfo3_lwpstatus_pl_sigmask, 3, "LWPINFO+LWPSTATUS+pl_sigmask") TRACEME_LWPINFO(traceme_lwpinfo0_lwpstatus_pl_name, 0, "LWPINFO+LWPSTATUS+pl_name") TRACEME_LWPINFO(traceme_lwpinfo1_lwpstatus_pl_name, 1, "LWPINFO+LWPSTATUS+pl_name") TRACEME_LWPINFO(traceme_lwpinfo2_lwpstatus_pl_name, 2, "LWPINFO+LWPSTATUS+pl_name") TRACEME_LWPINFO(traceme_lwpinfo3_lwpstatus_pl_name, 3, "LWPINFO+LWPSTATUS+pl_name") TRACEME_LWPINFO(traceme_lwpinfo0_lwpstatus_pl_private, 0, "LWPINFO+LWPSTATUS+pl_private") TRACEME_LWPINFO(traceme_lwpinfo1_lwpstatus_pl_private, 1, "LWPINFO+LWPSTATUS+pl_private") TRACEME_LWPINFO(traceme_lwpinfo2_lwpstatus_pl_private, 2, "LWPINFO+LWPSTATUS+pl_private") TRACEME_LWPINFO(traceme_lwpinfo3_lwpstatus_pl_private, 3, "LWPINFO+LWPSTATUS+pl_private") TRACEME_LWPINFO(traceme_lwpnext0, 0, "LWPNEXT") TRACEME_LWPINFO(traceme_lwpnext1, 1, "LWPNEXT") TRACEME_LWPINFO(traceme_lwpnext2, 2, "LWPNEXT") TRACEME_LWPINFO(traceme_lwpnext3, 3, "LWPNEXT") TRACEME_LWPINFO(traceme_lwpnext0_pl_sigmask, 0, "LWPNEXT+pl_sigmask") TRACEME_LWPINFO(traceme_lwpnext1_pl_sigmask, 1, "LWPNEXT+pl_sigmask") TRACEME_LWPINFO(traceme_lwpnext2_pl_sigmask, 2, "LWPNEXT+pl_sigmask") TRACEME_LWPINFO(traceme_lwpnext3_pl_sigmask, 3, "LWPNEXT+pl_sigmask") TRACEME_LWPINFO(traceme_lwpnext0_pl_name, 0, "LWPNEXT+pl_name") TRACEME_LWPINFO(traceme_lwpnext1_pl_name, 1, "LWPNEXT+pl_name") TRACEME_LWPINFO(traceme_lwpnext2_pl_name, 2, "LWPNEXT+pl_name") TRACEME_LWPINFO(traceme_lwpnext3_pl_name, 3, "LWPNEXT+pl_name") TRACEME_LWPINFO(traceme_lwpnext0_pl_private, 0, "LWPNEXT+pl_private") TRACEME_LWPINFO(traceme_lwpnext1_pl_private, 1, "LWPNEXT+pl_private") TRACEME_LWPINFO(traceme_lwpnext2_pl_private, 2, "LWPNEXT+pl_private") TRACEME_LWPINFO(traceme_lwpnext3_pl_private, 3, "LWPNEXT+pl_private") /// ---------------------------------------------------------------------------- #if defined(TWAIT_HAVE_PID) static void attach_lwpinfo(const int threads) { const int sigval = SIGINT; struct msg_fds parent_tracee, parent_tracer; const int exitval_tracer = 10; pid_t tracee, tracer, wpid; uint8_t msg = 0xde; /* dummy message for IPC based on pipe(2) */ #if defined(TWAIT_HAVE_STATUS) int status; #endif struct ptrace_lwpinfo lwp = {0, 0}; struct ptrace_siginfo info; /* Maximum number of supported threads in this test */ pthread_t t[3]; int n, rv; DPRINTF("Spawn tracee\n"); SYSCALL_REQUIRE(msg_open(&parent_tracee) == 0); SYSCALL_REQUIRE(msg_open(&parent_tracer) == 0); tracee = atf_utils_fork(); if (tracee == 0) { /* Wait for message from the parent */ CHILD_TO_PARENT("tracee ready", parent_tracee, msg); CHILD_FROM_PARENT("spawn threads", parent_tracee, msg); for (n = 0; n < threads; n++) { rv = pthread_create(&t[n], NULL, infinite_thread, NULL); FORKEE_ASSERT(rv == 0); } CHILD_TO_PARENT("tracee exit", parent_tracee, msg); DPRINTF("Before raising %s from child\n", strsignal(sigval)); FORKEE_ASSERT(raise(sigval) == 0); /* NOTREACHED */ FORKEE_ASSERTX(0 && "Not reached"); } PARENT_FROM_CHILD("tracee ready", parent_tracee, msg); DPRINTF("Spawn debugger\n"); tracer = atf_utils_fork(); if (tracer == 0) { /* No IPC to communicate with the child */ DPRINTF("Before calling PT_ATTACH from tracee %d\n", getpid()); FORKEE_ASSERT(ptrace(PT_ATTACH, tracee, NULL, 0) != -1); /* Wait for tracee and assert that it was stopped w/ SIGSTOP */ FORKEE_REQUIRE_SUCCESS( wpid = TWAIT_GENERIC(tracee, &status, 0), tracee); forkee_status_stopped(status, SIGSTOP); DPRINTF("Before calling ptrace(2) with PT_GET_SIGINFO for " "tracee"); FORKEE_ASSERT( ptrace(PT_GET_SIGINFO, tracee, &info, sizeof(info)) != -1); DPRINTF("Signal traced to lwpid=%d\n", info.psi_lwpid); DPRINTF("Signal properties: si_signo=%#x si_code=%#x " "si_errno=%#x\n", info.psi_siginfo.si_signo, info.psi_siginfo.si_code, info.psi_siginfo.si_errno); FORKEE_ASSERT_EQ(info.psi_siginfo.si_signo, SIGSTOP); FORKEE_ASSERT_EQ(info.psi_siginfo.si_code, SI_USER); DPRINTF("Before calling ptrace(2) with PT_LWPINFO for child\n"); FORKEE_ASSERT(ptrace(PT_LWPINFO, tracee, &lwp, sizeof(lwp)) != -1); DPRINTF("Assert that there exists a thread\n"); FORKEE_ASSERTX(lwp.pl_lwpid > 0); DPRINTF("Assert that lwp thread %d received event " "PL_EVENT_SIGNAL\n", lwp.pl_lwpid); FORKEE_ASSERT_EQ(lwp.pl_event, PL_EVENT_SIGNAL); DPRINTF("Before calling ptrace(2) with PT_LWPINFO for " "tracee\n"); FORKEE_ASSERT(ptrace(PT_LWPINFO, tracee, &lwp, sizeof(lwp)) != -1); DPRINTF("Assert that there are no more lwp threads in " "tracee\n"); FORKEE_ASSERT_EQ(lwp.pl_lwpid, 0); /* Resume tracee with PT_CONTINUE */ FORKEE_ASSERT(ptrace(PT_CONTINUE, tracee, (void *)1, 0) != -1); /* Inform parent that tracer has attached to tracee */ CHILD_TO_PARENT("tracer ready", parent_tracer, msg); /* Wait for parent */ CHILD_FROM_PARENT("tracer wait", parent_tracer, msg); /* Wait for tracee and assert that it raised a signal */ FORKEE_REQUIRE_SUCCESS( wpid = TWAIT_GENERIC(tracee, &status, 0), tracee); forkee_status_stopped(status, SIGINT); DPRINTF("Before calling ptrace(2) with PT_GET_SIGINFO for " "child"); FORKEE_ASSERT( ptrace(PT_GET_SIGINFO, tracee, &info, sizeof(info)) != -1); DPRINTF("Signal traced to lwpid=%d\n", info.psi_lwpid); DPRINTF("Signal properties: si_signo=%#x si_code=%#x " "si_errno=%#x\n", info.psi_siginfo.si_signo, info.psi_siginfo.si_code, info.psi_siginfo.si_errno); FORKEE_ASSERT_EQ(info.psi_siginfo.si_signo, sigval); FORKEE_ASSERT_EQ(info.psi_siginfo.si_code, SI_LWP); memset(&lwp, 0, sizeof(lwp)); for (n = 0; n <= threads; n++) { DPRINTF("Before calling ptrace(2) with PT_LWPINFO for " "child\n"); FORKEE_ASSERT(ptrace(PT_LWPINFO, tracee, &lwp, sizeof(lwp)) != -1); DPRINTF("LWP=%d\n", lwp.pl_lwpid); DPRINTF("Assert that the thread exists\n"); FORKEE_ASSERT(lwp.pl_lwpid > 0); DPRINTF("Assert that lwp thread %d received expected " "event\n", lwp.pl_lwpid); FORKEE_ASSERT_EQ(lwp.pl_event, info.psi_lwpid == lwp.pl_lwpid ? PL_EVENT_SIGNAL : PL_EVENT_NONE); } DPRINTF("Before calling ptrace(2) with PT_LWPINFO for " "tracee\n"); FORKEE_ASSERT(ptrace(PT_LWPINFO, tracee, &lwp, sizeof(lwp)) != -1); DPRINTF("LWP=%d\n", lwp.pl_lwpid); DPRINTF("Assert that there are no more threads\n"); FORKEE_ASSERT_EQ(lwp.pl_lwpid, 0); DPRINTF("Before resuming the child process where it left off " "and without signal to be sent\n"); FORKEE_ASSERT(ptrace(PT_CONTINUE, tracee, (void *)1, SIGKILL) != -1); /* Wait for tracee and assert that it exited */ FORKEE_REQUIRE_SUCCESS( wpid = TWAIT_GENERIC(tracee, &status, 0), tracee); forkee_status_signaled(status, SIGKILL, 0); DPRINTF("Before exiting of the tracer process\n"); _exit(exitval_tracer); } DPRINTF("Wait for the tracer to attach to the tracee\n"); PARENT_FROM_CHILD("tracer ready", parent_tracer, msg); DPRINTF("Resume the tracee and spawn threads\n"); PARENT_TO_CHILD("spawn threads", parent_tracee, msg); DPRINTF("Resume the tracee and let it exit\n"); PARENT_FROM_CHILD("tracee exit", parent_tracee, msg); DPRINTF("Resume the tracer and let it detect multiple threads\n"); PARENT_TO_CHILD("tracer wait", parent_tracer, msg); DPRINTF("Wait for tracer to finish its job and exit - calling %s()\n", TWAIT_FNAME); TWAIT_REQUIRE_SUCCESS(wpid = TWAIT_GENERIC(tracer, &status, 0), tracer); validate_status_exited(status, exitval_tracer); DPRINTF("Wait for tracee to finish its job and exit - calling %s()\n", TWAIT_FNAME); TWAIT_REQUIRE_SUCCESS(wpid = TWAIT_GENERIC(tracee, &status, WNOHANG), tracee); validate_status_signaled(status, SIGKILL, 0); msg_close(&parent_tracer); msg_close(&parent_tracee); } #define ATTACH_LWPINFO(test, threads) \ ATF_TC(test); \ ATF_TC_HEAD(test, tc) \ { \ atf_tc_set_md_var(tc, "descr", \ "Verify LWPINFO with the child with " #threads \ " spawned extra threads (tracer is not the original " \ "parent)"); \ } \ \ ATF_TC_BODY(test, tc) \ { \ \ attach_lwpinfo(threads); \ } ATTACH_LWPINFO(attach_lwpinfo0, 0) ATTACH_LWPINFO(attach_lwpinfo1, 1) ATTACH_LWPINFO(attach_lwpinfo2, 2) ATTACH_LWPINFO(attach_lwpinfo3, 3) #endif #define ATF_TP_ADD_TCS_PTRACE_WAIT_LWP() \ ATF_TP_ADD_TC(tp, traceme_lwpinfo0); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo1); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo2); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo3); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo0_lwpstatus); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo1_lwpstatus); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo2_lwpstatus); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo3_lwpstatus); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo0_lwpstatus_pl_sigmask); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo1_lwpstatus_pl_sigmask); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo2_lwpstatus_pl_sigmask); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo3_lwpstatus_pl_sigmask); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo0_lwpstatus_pl_name); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo1_lwpstatus_pl_name); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo2_lwpstatus_pl_name); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo3_lwpstatus_pl_name); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo0_lwpstatus_pl_private); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo1_lwpstatus_pl_private); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo2_lwpstatus_pl_private); \ ATF_TP_ADD_TC(tp, traceme_lwpinfo3_lwpstatus_pl_private); \ ATF_TP_ADD_TC(tp, traceme_lwpnext0); \ ATF_TP_ADD_TC(tp, traceme_lwpnext1); \ ATF_TP_ADD_TC(tp, traceme_lwpnext2); \ ATF_TP_ADD_TC(tp, traceme_lwpnext3); \ ATF_TP_ADD_TC(tp, traceme_lwpnext0_pl_sigmask); \ ATF_TP_ADD_TC(tp, traceme_lwpnext1_pl_sigmask); \ ATF_TP_ADD_TC(tp, traceme_lwpnext2_pl_sigmask); \ ATF_TP_ADD_TC(tp, traceme_lwpnext3_pl_sigmask); \ ATF_TP_ADD_TC(tp, traceme_lwpnext0_pl_name); \ ATF_TP_ADD_TC(tp, traceme_lwpnext1_pl_name); \ ATF_TP_ADD_TC(tp, traceme_lwpnext2_pl_name); \ ATF_TP_ADD_TC(tp, traceme_lwpnext3_pl_name); \ ATF_TP_ADD_TC(tp, traceme_lwpnext0_pl_private); \ ATF_TP_ADD_TC(tp, traceme_lwpnext1_pl_private); \ ATF_TP_ADD_TC(tp, traceme_lwpnext2_pl_private); \ ATF_TP_ADD_TC(tp, traceme_lwpnext3_pl_private); \ ATF_TP_ADD_TC_HAVE_PID(tp, attach_lwpinfo0); \ ATF_TP_ADD_TC_HAVE_PID(tp, attach_lwpinfo1); \ ATF_TP_ADD_TC_HAVE_PID(tp, attach_lwpinfo2); \ ATF_TP_ADD_TC_HAVE_PID(tp, attach_lwpinfo3);