1*a1e26a70SApple OSS Distributions #include <stdio.h>
2*a1e26a70SApple OSS Distributions #include <unistd.h>
3*a1e26a70SApple OSS Distributions #include <stdlib.h>
4*a1e26a70SApple OSS Distributions #include <errno.h>
5*a1e26a70SApple OSS Distributions #include <string.h>
6*a1e26a70SApple OSS Distributions #include <assert.h>
7*a1e26a70SApple OSS Distributions #include <signal.h>
8*a1e26a70SApple OSS Distributions #include <spawn.h>
9*a1e26a70SApple OSS Distributions #include <spawn_private.h>
10*a1e26a70SApple OSS Distributions #include <stdint.h>
11*a1e26a70SApple OSS Distributions #include <sys/sysctl.h>
12*a1e26a70SApple OSS Distributions #include <sys/spawn_internal.h>
13*a1e26a70SApple OSS Distributions #include <sys/kern_memorystatus.h>
14*a1e26a70SApple OSS Distributions #include <mach-o/dyld.h>
15*a1e26a70SApple OSS Distributions
16*a1e26a70SApple OSS Distributions #include <darwintest.h>
17*a1e26a70SApple OSS Distributions #include <darwintest_utils.h>
18*a1e26a70SApple OSS Distributions
19*a1e26a70SApple OSS Distributions #include "test_utils.h"
20*a1e26a70SApple OSS Distributions
21*a1e26a70SApple OSS Distributions T_GLOBAL_META(
22*a1e26a70SApple OSS Distributions T_META_NAMESPACE("xnu.vm"),
23*a1e26a70SApple OSS Distributions T_META_RADAR_COMPONENT_NAME("xnu"),
24*a1e26a70SApple OSS Distributions T_META_RADAR_COMPONENT_VERSION("VM"),
25*a1e26a70SApple OSS Distributions T_META_CHECK_LEAKS(false)
26*a1e26a70SApple OSS Distributions );
27*a1e26a70SApple OSS Distributions
28*a1e26a70SApple OSS Distributions extern char **environ;
29*a1e26a70SApple OSS Distributions
30*a1e26a70SApple OSS Distributions /*
31*a1e26a70SApple OSS Distributions * This test file contains two sub-tests which attempt to verify
32*a1e26a70SApple OSS Distributions * the allowing or not allowing of a corpse for crashreporter when
33*a1e26a70SApple OSS Distributions * a task exceeds its memory allocation limit. vm_map_fork() is the
34*a1e26a70SApple OSS Distributions * kernel routine used to generate a corpse task.
35*a1e26a70SApple OSS Distributions *
36*a1e26a70SApple OSS Distributions * A corpse is allowed to be taken if a task's memory resource limit that
37*a1e26a70SApple OSS Distributions * is exceeded is less than 1/4 of the system wide task limit.
38*a1e26a70SApple OSS Distributions * If the amount exceeds 1/4 the sytem wide limit, then the corpse is disallowed.
39*a1e26a70SApple OSS Distributions *
40*a1e26a70SApple OSS Distributions * If the device under test is already under pressure, the test
41*a1e26a70SApple OSS Distributions * could fail due to jetsam cutting in and killing the parent, child or
42*a1e26a70SApple OSS Distributions * other necessary testing processes.
43*a1e26a70SApple OSS Distributions */
44*a1e26a70SApple OSS Distributions
45*a1e26a70SApple OSS Distributions /* Test variants */
46*a1e26a70SApple OSS Distributions #define TEST_ALLOWED 0x1
47*a1e26a70SApple OSS Distributions #define TEST_NOT_ALLOWED 0x2
48*a1e26a70SApple OSS Distributions
49*a1e26a70SApple OSS Distributions /*
50*a1e26a70SApple OSS Distributions * Values which the kernel OR's into the PID when a corpse
51*a1e26a70SApple OSS Distributions * is either allowed or disallowed for the
52*a1e26a70SApple OSS Distributions * kern.memorystatus_vm_map_fork_pidwatch sysctl.
53*a1e26a70SApple OSS Distributions */
54*a1e26a70SApple OSS Distributions #define MEMORYSTATUS_VM_MAP_FORK_ALLOWED 0x100000000ul
55*a1e26a70SApple OSS Distributions #define MEMORYSTATUS_VM_MAP_FORK_NOT_ALLOWED 0x200000000ul
56*a1e26a70SApple OSS Distributions
57*a1e26a70SApple OSS Distributions /*
58*a1e26a70SApple OSS Distributions * The memory allocation happens in a child process, this
59*a1e26a70SApple OSS Distributions * is stuff to deal with creating and managing the child.
60*a1e26a70SApple OSS Distributions * The child will only execute the T_HELPER_DECL.
61*a1e26a70SApple OSS Distributions */
62*a1e26a70SApple OSS Distributions static char testpath[PATH_MAX];
63*a1e26a70SApple OSS Distributions static uint32_t testpath_size = sizeof(testpath);
64*a1e26a70SApple OSS Distributions #define LIMIT_DELTA_MB 5 /* an arbitrary limit delta */
65*a1e26a70SApple OSS Distributions #define MEGABYTE (1024 * 1024)
66*a1e26a70SApple OSS Distributions
67*a1e26a70SApple OSS Distributions /*
68*a1e26a70SApple OSS Distributions * The child process communicates back to parent via an exit() code.
69*a1e26a70SApple OSS Distributions */
70*a1e26a70SApple OSS Distributions enum child_exits {
71*a1e26a70SApple OSS Distributions NORMAL_EXIT = 0,
72*a1e26a70SApple OSS Distributions NO_MEMSIZE_ARG,
73*a1e26a70SApple OSS Distributions INVALID_MEMSIZE,
74*a1e26a70SApple OSS Distributions MALLOC_FAILED,
75*a1e26a70SApple OSS Distributions NUM_CHILD_EXIT
76*a1e26a70SApple OSS Distributions };
77*a1e26a70SApple OSS Distributions static char *child_exit_why[] = {
78*a1e26a70SApple OSS Distributions "normal exit",
79*a1e26a70SApple OSS Distributions "no memsize argument to child",
80*a1e26a70SApple OSS Distributions "invalid memsize argument to child",
81*a1e26a70SApple OSS Distributions "malloc() failed",
82*a1e26a70SApple OSS Distributions };
83*a1e26a70SApple OSS Distributions
84*a1e26a70SApple OSS Distributions /*
85*a1e26a70SApple OSS Distributions * Set/Get the sysctl used to determine if corpse collection occurs.
86*a1e26a70SApple OSS Distributions * This is done by the kernel checking for a specific PID.
87*a1e26a70SApple OSS Distributions */
88*a1e26a70SApple OSS Distributions static void
set_memorystatus_vm_map_fork_pidwatch(pid_t pid)89*a1e26a70SApple OSS Distributions set_memorystatus_vm_map_fork_pidwatch(pid_t pid)
90*a1e26a70SApple OSS Distributions {
91*a1e26a70SApple OSS Distributions uint64_t new_value = (uint64_t)pid;
92*a1e26a70SApple OSS Distributions size_t new_len = sizeof(new_value);
93*a1e26a70SApple OSS Distributions int err;
94*a1e26a70SApple OSS Distributions
95*a1e26a70SApple OSS Distributions err = sysctlbyname("kern.memorystatus_vm_map_fork_pidwatch", NULL, NULL, &new_value, new_len);
96*a1e26a70SApple OSS Distributions T_QUIET;
97*a1e26a70SApple OSS Distributions T_ASSERT_POSIX_SUCCESS(err, "set sysctlbyname(kern.memorystatus_vm_map_fork_pidwatch...) failed");
98*a1e26a70SApple OSS Distributions return;
99*a1e26a70SApple OSS Distributions }
100*a1e26a70SApple OSS Distributions
101*a1e26a70SApple OSS Distributions static uint64_t
get_memorystatus_vm_map_fork_pidwatch()102*a1e26a70SApple OSS Distributions get_memorystatus_vm_map_fork_pidwatch()
103*a1e26a70SApple OSS Distributions {
104*a1e26a70SApple OSS Distributions uint64_t value = 0;
105*a1e26a70SApple OSS Distributions size_t val_len = sizeof(value);
106*a1e26a70SApple OSS Distributions int err;
107*a1e26a70SApple OSS Distributions
108*a1e26a70SApple OSS Distributions err = sysctlbyname("kern.memorystatus_vm_map_fork_pidwatch", &value, &val_len, NULL, 0);
109*a1e26a70SApple OSS Distributions T_QUIET;
110*a1e26a70SApple OSS Distributions T_ASSERT_POSIX_SUCCESS(err, "get sysctlbyname(kern.memorystatus_vm_map_fork_pidwatch...) failed");
111*a1e26a70SApple OSS Distributions
112*a1e26a70SApple OSS Distributions return value;
113*a1e26a70SApple OSS Distributions }
114*a1e26a70SApple OSS Distributions
115*a1e26a70SApple OSS Distributions /*
116*a1e26a70SApple OSS Distributions * We want to avoid jetsam giving us bad results, if possible. So check if there's
117*a1e26a70SApple OSS Distributions * enough memory for the test to run, waiting briefly for some to free up.
118*a1e26a70SApple OSS Distributions */
119*a1e26a70SApple OSS Distributions static void
wait_for_free_mem(int need_mb)120*a1e26a70SApple OSS Distributions wait_for_free_mem(int need_mb)
121*a1e26a70SApple OSS Distributions {
122*a1e26a70SApple OSS Distributions int64_t memsize;
123*a1e26a70SApple OSS Distributions int memorystatus_level;
124*a1e26a70SApple OSS Distributions size_t size;
125*a1e26a70SApple OSS Distributions int64_t avail;
126*a1e26a70SApple OSS Distributions int err;
127*a1e26a70SApple OSS Distributions int try;
128*a1e26a70SApple OSS Distributions
129*a1e26a70SApple OSS Distributions /*
130*a1e26a70SApple OSS Distributions * get amount of memory in the machine
131*a1e26a70SApple OSS Distributions */
132*a1e26a70SApple OSS Distributions size = sizeof(memsize);
133*a1e26a70SApple OSS Distributions err = sysctlbyname("hw.memsize", &memsize, &size, NULL, 0);
134*a1e26a70SApple OSS Distributions T_QUIET; T_ASSERT_POSIX_SUCCESS(err, "sysctlbyname(hw.memsize...) failed");
135*a1e26a70SApple OSS Distributions
136*a1e26a70SApple OSS Distributions /*
137*a1e26a70SApple OSS Distributions * Use a loop to briefly sleep and recheck if short on memory.
138*a1e26a70SApple OSS Distributions */
139*a1e26a70SApple OSS Distributions try = 1;
140*a1e26a70SApple OSS Distributions for (;;) {
141*a1e26a70SApple OSS Distributions /*
142*a1e26a70SApple OSS Distributions * memorystatus_level is a percentage of memory available. For example 20 means 1/5 of memory.
143*a1e26a70SApple OSS Distributions * It currently doesn't exist on macOS but neither does jetsam, so pass the test there.
144*a1e26a70SApple OSS Distributions */
145*a1e26a70SApple OSS Distributions size = sizeof(memorystatus_level);
146*a1e26a70SApple OSS Distributions if (sysctlbyname("kern.memorystatus_level", &memorystatus_level, &size, NULL, 0) != 0) {
147*a1e26a70SApple OSS Distributions return;
148*a1e26a70SApple OSS Distributions }
149*a1e26a70SApple OSS Distributions T_QUIET; T_ASSERT_LE(memorystatus_level, 100, "memorystatus_level too high");
150*a1e26a70SApple OSS Distributions T_QUIET; T_ASSERT_GT(memorystatus_level, 0, "memorystatus_level negative");
151*a1e26a70SApple OSS Distributions
152*a1e26a70SApple OSS Distributions /*
153*a1e26a70SApple OSS Distributions * jetsam kicks in at memory status level of 15%, so subtract that much out of what's available.
154*a1e26a70SApple OSS Distributions */
155*a1e26a70SApple OSS Distributions avail = MAX(0, (memsize * (memorystatus_level - 15)) / 100);
156*a1e26a70SApple OSS Distributions
157*a1e26a70SApple OSS Distributions /*
158*a1e26a70SApple OSS Distributions * We're good to go if there's more than enough available.
159*a1e26a70SApple OSS Distributions */
160*a1e26a70SApple OSS Distributions if ((int64_t)need_mb * MEGABYTE < avail) {
161*a1e26a70SApple OSS Distributions return;
162*a1e26a70SApple OSS Distributions }
163*a1e26a70SApple OSS Distributions
164*a1e26a70SApple OSS Distributions /*
165*a1e26a70SApple OSS Distributions * issue a message to log and sleep briefly to see if we can get more memory
166*a1e26a70SApple OSS Distributions */
167*a1e26a70SApple OSS Distributions if (try-- == 0) {
168*a1e26a70SApple OSS Distributions break;
169*a1e26a70SApple OSS Distributions }
170*a1e26a70SApple OSS Distributions T_LOG("Need %d MB, only %d MB available. sleeping 5 seconds for more to free. memorystatus_level %d",
171*a1e26a70SApple OSS Distributions need_mb, (int)(avail / MEGABYTE), memorystatus_level);
172*a1e26a70SApple OSS Distributions sleep(5);
173*a1e26a70SApple OSS Distributions }
174*a1e26a70SApple OSS Distributions T_SKIP("Needed %d MB, but only %d MB available. Skipping test to avoid jetsam issues.",
175*a1e26a70SApple OSS Distributions need_mb, (int)(avail / MEGABYTE));
176*a1e26a70SApple OSS Distributions }
177*a1e26a70SApple OSS Distributions
178*a1e26a70SApple OSS Distributions
179*a1e26a70SApple OSS Distributions /*
180*a1e26a70SApple OSS Distributions * The main test calls this to spawn child process which will run and
181*a1e26a70SApple OSS Distributions * exceed some memory limit. The child is initially suspended so that
182*a1e26a70SApple OSS Distributions * we can do the sysctl calls before it runs.
183*a1e26a70SApple OSS Distributions * Since this is a libdarwintest, the "-n" names the T_HELPER_DECL() that
184*a1e26a70SApple OSS Distributions * we want to run. The arguments specific to the test follow a "--".
185*a1e26a70SApple OSS Distributions */
186*a1e26a70SApple OSS Distributions static pid_t
spawn_child_process(char * const executable,char * const memlimit,short flags,int priority,int active_limit_mb,int inactive_limit_mb)187*a1e26a70SApple OSS Distributions spawn_child_process(
188*a1e26a70SApple OSS Distributions char * const executable,
189*a1e26a70SApple OSS Distributions char * const memlimit,
190*a1e26a70SApple OSS Distributions short flags,
191*a1e26a70SApple OSS Distributions int priority,
192*a1e26a70SApple OSS Distributions int active_limit_mb,
193*a1e26a70SApple OSS Distributions int inactive_limit_mb)
194*a1e26a70SApple OSS Distributions {
195*a1e26a70SApple OSS Distributions posix_spawnattr_t spawn_attrs;
196*a1e26a70SApple OSS Distributions int err;
197*a1e26a70SApple OSS Distributions pid_t child_pid;
198*a1e26a70SApple OSS Distributions char * const argv_child[] = { executable, "-n", "child_process", "--", memlimit, NULL };
199*a1e26a70SApple OSS Distributions
200*a1e26a70SApple OSS Distributions err = posix_spawnattr_init(&spawn_attrs);
201*a1e26a70SApple OSS Distributions T_QUIET; T_ASSERT_POSIX_SUCCESS(err, " posix_spawnattr_init() failed");
202*a1e26a70SApple OSS Distributions
203*a1e26a70SApple OSS Distributions err = posix_spawnattr_setflags(&spawn_attrs, POSIX_SPAWN_START_SUSPENDED);
204*a1e26a70SApple OSS Distributions T_QUIET; T_ASSERT_POSIX_SUCCESS(err, " posix_spawnattr_setflags() failed");
205*a1e26a70SApple OSS Distributions
206*a1e26a70SApple OSS Distributions err = posix_spawnattr_setjetsam_ext(&spawn_attrs, flags, priority, active_limit_mb, inactive_limit_mb);
207*a1e26a70SApple OSS Distributions T_QUIET; T_ASSERT_POSIX_SUCCESS(err, " posix_spawnattr_setjetsam_ext() failed");
208*a1e26a70SApple OSS Distributions
209*a1e26a70SApple OSS Distributions err = posix_spawn(&child_pid, executable, NULL, &spawn_attrs, argv_child, environ);
210*a1e26a70SApple OSS Distributions T_QUIET; T_ASSERT_POSIX_SUCCESS(err, " posix_spawn() failed");
211*a1e26a70SApple OSS Distributions
212*a1e26a70SApple OSS Distributions return child_pid;
213*a1e26a70SApple OSS Distributions }
214*a1e26a70SApple OSS Distributions
215*a1e26a70SApple OSS Distributions
216*a1e26a70SApple OSS Distributions /*
217*a1e26a70SApple OSS Distributions * The parent calls this to continue the suspended child, then wait for its result.
218*a1e26a70SApple OSS Distributions * We collect its resource usage to vefiry the expected amount allocated.
219*a1e26a70SApple OSS Distributions */
220*a1e26a70SApple OSS Distributions static void
test_child_process(pid_t child_pid,int * status,struct rusage * ru)221*a1e26a70SApple OSS Distributions test_child_process(pid_t child_pid, int *status, struct rusage *ru)
222*a1e26a70SApple OSS Distributions {
223*a1e26a70SApple OSS Distributions int err = 0;
224*a1e26a70SApple OSS Distributions pid_t got_pid;
225*a1e26a70SApple OSS Distributions
226*a1e26a70SApple OSS Distributions T_LOG(" continuing child[%d]\n", child_pid);
227*a1e26a70SApple OSS Distributions
228*a1e26a70SApple OSS Distributions err = kill(child_pid, SIGCONT);
229*a1e26a70SApple OSS Distributions T_QUIET; T_ASSERT_POSIX_SUCCESS(err, " kill(%d, SIGCONT) failed", child_pid);
230*a1e26a70SApple OSS Distributions
231*a1e26a70SApple OSS Distributions T_LOG(" waiting for child[%d] to exit", child_pid);
232*a1e26a70SApple OSS Distributions
233*a1e26a70SApple OSS Distributions got_pid = wait4(child_pid, status, 0, ru);
234*a1e26a70SApple OSS Distributions T_QUIET; T_ASSERT_EQ(child_pid, got_pid, " wait4(%d, ...) returned %d", child_pid, got_pid);
235*a1e26a70SApple OSS Distributions }
236*a1e26a70SApple OSS Distributions
237*a1e26a70SApple OSS Distributions /*
238*a1e26a70SApple OSS Distributions * The child process executes this code. The easiest way, with given darwintest infrastructure,
239*a1e26a70SApple OSS Distributions * it has to return information is via exit status.
240*a1e26a70SApple OSS Distributions */
241*a1e26a70SApple OSS Distributions T_HELPER_DECL(child_process, "child allocates memory to failure")
242*a1e26a70SApple OSS Distributions {
243*a1e26a70SApple OSS Distributions #define BYTESPERALLOC MEGABYTE
244*a1e26a70SApple OSS Distributions #define BYTESINEXCESS (2 * MEGABYTE) /* 2 MB - arbitrary */
245*a1e26a70SApple OSS Distributions char *limit;
246*a1e26a70SApple OSS Distributions long limit_mb = 0;
247*a1e26a70SApple OSS Distributions long max_bytes_to_munch, bytes_remaining, bytes_this_munch;
248*a1e26a70SApple OSS Distributions void *mem = NULL;
249*a1e26a70SApple OSS Distributions
250*a1e26a70SApple OSS Distributions /*
251*a1e26a70SApple OSS Distributions * This helper is run in a child process. The helper sees one argument
252*a1e26a70SApple OSS Distributions * as a string which is the amount of memory in megabytes to allocate.
253*a1e26a70SApple OSS Distributions */
254*a1e26a70SApple OSS Distributions if (argc != 1) {
255*a1e26a70SApple OSS Distributions exit(NO_MEMSIZE_ARG);
256*a1e26a70SApple OSS Distributions }
257*a1e26a70SApple OSS Distributions
258*a1e26a70SApple OSS Distributions limit = argv[0];
259*a1e26a70SApple OSS Distributions errno = 0;
260*a1e26a70SApple OSS Distributions limit_mb = strtol(limit, NULL, 10);
261*a1e26a70SApple OSS Distributions if (errno != 0 || limit_mb <= 0) {
262*a1e26a70SApple OSS Distributions exit(INVALID_MEMSIZE);
263*a1e26a70SApple OSS Distributions }
264*a1e26a70SApple OSS Distributions
265*a1e26a70SApple OSS Distributions /* Compute in excess of assigned limit */
266*a1e26a70SApple OSS Distributions max_bytes_to_munch = limit_mb * MEGABYTE;
267*a1e26a70SApple OSS Distributions max_bytes_to_munch += BYTESINEXCESS;
268*a1e26a70SApple OSS Distributions
269*a1e26a70SApple OSS Distributions for (bytes_remaining = max_bytes_to_munch; bytes_remaining > 0; bytes_remaining -= bytes_this_munch) {
270*a1e26a70SApple OSS Distributions bytes_this_munch = MIN(bytes_remaining, BYTESPERALLOC);
271*a1e26a70SApple OSS Distributions
272*a1e26a70SApple OSS Distributions mem = malloc((size_t)bytes_this_munch);
273*a1e26a70SApple OSS Distributions if (mem == NULL) {
274*a1e26a70SApple OSS Distributions exit(MALLOC_FAILED);
275*a1e26a70SApple OSS Distributions }
276*a1e26a70SApple OSS Distributions arc4random_buf(mem, (size_t)bytes_this_munch);
277*a1e26a70SApple OSS Distributions }
278*a1e26a70SApple OSS Distributions
279*a1e26a70SApple OSS Distributions /* We chewed up all the memory we were asked to. */
280*a1e26a70SApple OSS Distributions exit(NORMAL_EXIT);
281*a1e26a70SApple OSS Distributions }
282*a1e26a70SApple OSS Distributions
283*a1e26a70SApple OSS Distributions
284*a1e26a70SApple OSS Distributions /*
285*a1e26a70SApple OSS Distributions * Actual test body.
286*a1e26a70SApple OSS Distributions */
287*a1e26a70SApple OSS Distributions static void
memorystatus_vm_map_fork_parent(int test_variant)288*a1e26a70SApple OSS Distributions memorystatus_vm_map_fork_parent(int test_variant)
289*a1e26a70SApple OSS Distributions {
290*a1e26a70SApple OSS Distributions int max_task_pmem = 0; /* MB */
291*a1e26a70SApple OSS Distributions size_t size = 0;
292*a1e26a70SApple OSS Distributions int active_limit_mb = 0;
293*a1e26a70SApple OSS Distributions int inactive_limit_mb = 0;
294*a1e26a70SApple OSS Distributions short flags = 0;
295*a1e26a70SApple OSS Distributions char memlimit_str[16];
296*a1e26a70SApple OSS Distributions pid_t child_pid;
297*a1e26a70SApple OSS Distributions int child_status;
298*a1e26a70SApple OSS Distributions uint64_t kernel_pidwatch_val;
299*a1e26a70SApple OSS Distributions uint64_t expected_pidwatch_val;
300*a1e26a70SApple OSS Distributions int ret;
301*a1e26a70SApple OSS Distributions struct rusage ru;
302*a1e26a70SApple OSS Distributions enum child_exits exit_val;
303*a1e26a70SApple OSS Distributions
304*a1e26a70SApple OSS Distributions /*
305*a1e26a70SApple OSS Distributions * The code to set/get the pidwatch sysctl is only in
306*a1e26a70SApple OSS Distributions * development kernels. Skip the test if not on one.
307*a1e26a70SApple OSS Distributions */
308*a1e26a70SApple OSS Distributions if (!is_development_kernel()) {
309*a1e26a70SApple OSS Distributions T_SKIP("Can't test on release kernel");
310*a1e26a70SApple OSS Distributions }
311*a1e26a70SApple OSS Distributions
312*a1e26a70SApple OSS Distributions /*
313*a1e26a70SApple OSS Distributions * Determine a memory limit based on system having one or not.
314*a1e26a70SApple OSS Distributions */
315*a1e26a70SApple OSS Distributions size = sizeof(max_task_pmem);
316*a1e26a70SApple OSS Distributions (void)sysctlbyname("kern.max_task_pmem", &max_task_pmem, &size, NULL, 0);
317*a1e26a70SApple OSS Distributions if (max_task_pmem <= 0) {
318*a1e26a70SApple OSS Distributions max_task_pmem = 0;
319*a1e26a70SApple OSS Distributions }
320*a1e26a70SApple OSS Distributions
321*a1e26a70SApple OSS Distributions /* default limit is 1/4 of max task phys memory value */
322*a1e26a70SApple OSS Distributions active_limit_mb = max_task_pmem / 4;
323*a1e26a70SApple OSS Distributions
324*a1e26a70SApple OSS Distributions #if TARGET_OS_WATCH
325*a1e26a70SApple OSS Distributions
326*a1e26a70SApple OSS Distributions /*
327*a1e26a70SApple OSS Distributions * Larger memory watches have a raised corpse size limit.
328*a1e26a70SApple OSS Distributions * One coprse of 300Meg is allowed, others are 200M.
329*a1e26a70SApple OSS Distributions * We pick 300 or 200 based on which test is being done.
330*a1e26a70SApple OSS Distributions */
331*a1e26a70SApple OSS Distributions uint64_t hw_memsize = 0;
332*a1e26a70SApple OSS Distributions size = sizeof(hw_memsize);
333*a1e26a70SApple OSS Distributions T_ASSERT_POSIX_SUCCESS(sysctlbyname("hw.memsize", &hw_memsize, &size, NULL, 0), "read hw.memsize");
334*a1e26a70SApple OSS Distributions if (hw_memsize > 1024 * 1024 * 1024) {
335*a1e26a70SApple OSS Distributions if (test_variant == TEST_ALLOWED) {
336*a1e26a70SApple OSS Distributions active_limit_mb = MAX(active_limit_mb, 200);
337*a1e26a70SApple OSS Distributions } else {
338*a1e26a70SApple OSS Distributions active_limit_mb = MAX(active_limit_mb, 300);
339*a1e26a70SApple OSS Distributions }
340*a1e26a70SApple OSS Distributions }
341*a1e26a70SApple OSS Distributions
342*a1e26a70SApple OSS Distributions #endif /* TARGET_OS_WATCH */
343*a1e26a70SApple OSS Distributions
344*a1e26a70SApple OSS Distributions if (test_variant == TEST_ALLOWED) {
345*a1e26a70SApple OSS Distributions /*
346*a1e26a70SApple OSS Distributions * Tell the child to allocate less than 1/4 the system wide limit.
347*a1e26a70SApple OSS Distributions */
348*a1e26a70SApple OSS Distributions if (active_limit_mb <= LIMIT_DELTA_MB) {
349*a1e26a70SApple OSS Distributions active_limit_mb = LIMIT_DELTA_MB;
350*a1e26a70SApple OSS Distributions } else {
351*a1e26a70SApple OSS Distributions active_limit_mb -= LIMIT_DELTA_MB;
352*a1e26a70SApple OSS Distributions }
353*a1e26a70SApple OSS Distributions expected_pidwatch_val = MEMORYSTATUS_VM_MAP_FORK_ALLOWED;
354*a1e26a70SApple OSS Distributions } else { /* TEST_NOT_ALLOWED */
355*a1e26a70SApple OSS Distributions /*
356*a1e26a70SApple OSS Distributions * Tell the child to allocate more than 1/4 the system wide limit.
357*a1e26a70SApple OSS Distributions */
358*a1e26a70SApple OSS Distributions active_limit_mb += LIMIT_DELTA_MB;
359*a1e26a70SApple OSS Distributions if (max_task_pmem == 0) {
360*a1e26a70SApple OSS Distributions expected_pidwatch_val = MEMORYSTATUS_VM_MAP_FORK_ALLOWED;
361*a1e26a70SApple OSS Distributions } else {
362*a1e26a70SApple OSS Distributions expected_pidwatch_val = MEMORYSTATUS_VM_MAP_FORK_NOT_ALLOWED;
363*a1e26a70SApple OSS Distributions }
364*a1e26a70SApple OSS Distributions }
365*a1e26a70SApple OSS Distributions inactive_limit_mb = active_limit_mb;
366*a1e26a70SApple OSS Distributions T_LOG("using limit of %d Meg", active_limit_mb);
367*a1e26a70SApple OSS Distributions
368*a1e26a70SApple OSS Distributions /*
369*a1e26a70SApple OSS Distributions * When run as part of a larger suite, a previous test
370*a1e26a70SApple OSS Distributions * may have left the system temporarily with too little
371*a1e26a70SApple OSS Distributions * memory to run this test. We try to detect if there is
372*a1e26a70SApple OSS Distributions * enough free memory to proceed, waiting a little bit
373*a1e26a70SApple OSS Distributions * for memory to free up.
374*a1e26a70SApple OSS Distributions */
375*a1e26a70SApple OSS Distributions wait_for_free_mem(active_limit_mb);
376*a1e26a70SApple OSS Distributions
377*a1e26a70SApple OSS Distributions #if TARGET_OS_OSX
378*a1e26a70SApple OSS Distributions /*
379*a1e26a70SApple OSS Distributions * vm_map_fork() is always allowed on desktop.
380*a1e26a70SApple OSS Distributions */
381*a1e26a70SApple OSS Distributions expected_pidwatch_val = MEMORYSTATUS_VM_MAP_FORK_ALLOWED;
382*a1e26a70SApple OSS Distributions #endif
383*a1e26a70SApple OSS Distributions
384*a1e26a70SApple OSS Distributions /*
385*a1e26a70SApple OSS Distributions * Prepare the arguments needed to spawn the child process.
386*a1e26a70SApple OSS Distributions */
387*a1e26a70SApple OSS Distributions memset(memlimit_str, 0, sizeof(memlimit_str));
388*a1e26a70SApple OSS Distributions (void)sprintf(memlimit_str, "%d", active_limit_mb);
389*a1e26a70SApple OSS Distributions
390*a1e26a70SApple OSS Distributions ret = _NSGetExecutablePath(testpath, &testpath_size);
391*a1e26a70SApple OSS Distributions T_QUIET; T_ASSERT_POSIX_SUCCESS(ret, "_NSGetExecutablePath(%s, ...)", testpath);
392*a1e26a70SApple OSS Distributions
393*a1e26a70SApple OSS Distributions /*
394*a1e26a70SApple OSS Distributions * We put the child process in FOREGROUND to try and keep jetsam's hands off it.
395*a1e26a70SApple OSS Distributions */
396*a1e26a70SApple OSS Distributions child_pid = spawn_child_process(testpath, memlimit_str, flags,
397*a1e26a70SApple OSS Distributions JETSAM_PRIORITY_FOREGROUND, active_limit_mb, inactive_limit_mb);
398*a1e26a70SApple OSS Distributions
399*a1e26a70SApple OSS Distributions expected_pidwatch_val |= (uint64_t)child_pid;
400*a1e26a70SApple OSS Distributions
401*a1e26a70SApple OSS Distributions /*
402*a1e26a70SApple OSS Distributions * We only reach here if parent successfully spawned child process.
403*a1e26a70SApple OSS Distributions */
404*a1e26a70SApple OSS Distributions T_LOG(" spawned child_pid[%d] with memlimit %s (%d)MB\n",
405*a1e26a70SApple OSS Distributions child_pid, memlimit_str, active_limit_mb);
406*a1e26a70SApple OSS Distributions
407*a1e26a70SApple OSS Distributions /*
408*a1e26a70SApple OSS Distributions * Set the kernel's pidwatch to look for the child.
409*a1e26a70SApple OSS Distributions */
410*a1e26a70SApple OSS Distributions (void)set_memorystatus_vm_map_fork_pidwatch((pid_t)0);
411*a1e26a70SApple OSS Distributions (void)set_memorystatus_vm_map_fork_pidwatch(child_pid);
412*a1e26a70SApple OSS Distributions
413*a1e26a70SApple OSS Distributions /*
414*a1e26a70SApple OSS Distributions * Let the child run and wait for it to finish.
415*a1e26a70SApple OSS Distributions */
416*a1e26a70SApple OSS Distributions test_child_process(child_pid, &child_status, &ru);
417*a1e26a70SApple OSS Distributions T_LOG("Child exited with max_rss of %ld", ru.ru_maxrss);
418*a1e26a70SApple OSS Distributions
419*a1e26a70SApple OSS Distributions /*
420*a1e26a70SApple OSS Distributions * Retrieve the kernel's pidwatch value. This should now indicate
421*a1e26a70SApple OSS Distributions * if the corpse was allowed or not.
422*a1e26a70SApple OSS Distributions */
423*a1e26a70SApple OSS Distributions kernel_pidwatch_val = get_memorystatus_vm_map_fork_pidwatch();
424*a1e26a70SApple OSS Distributions (void)set_memorystatus_vm_map_fork_pidwatch((pid_t)0);
425*a1e26a70SApple OSS Distributions
426*a1e26a70SApple OSS Distributions /*
427*a1e26a70SApple OSS Distributions * If the child died abnormally, the test is invalid.
428*a1e26a70SApple OSS Distributions */
429*a1e26a70SApple OSS Distributions if (!WIFEXITED(child_status)) {
430*a1e26a70SApple OSS Distributions if (WIFSIGNALED(child_status)) {
431*a1e26a70SApple OSS Distributions /* jetsam kills a process with SIGKILL */
432*a1e26a70SApple OSS Distributions if (WTERMSIG(child_status) == SIGKILL) {
433*a1e26a70SApple OSS Distributions T_LOG("Child appears to have been a jetsam victim");
434*a1e26a70SApple OSS Distributions }
435*a1e26a70SApple OSS Distributions T_SKIP("Child terminated by signal %d test result invalid", WTERMSIG(child_status));
436*a1e26a70SApple OSS Distributions }
437*a1e26a70SApple OSS Distributions T_SKIP("child did not exit normally (status=%d) test result invalid", child_status);
438*a1e26a70SApple OSS Distributions }
439*a1e26a70SApple OSS Distributions
440*a1e26a70SApple OSS Distributions /*
441*a1e26a70SApple OSS Distributions * We don't expect the child to exit for any other reason than success
442*a1e26a70SApple OSS Distributions */
443*a1e26a70SApple OSS Distributions exit_val = (enum child_exits)WEXITSTATUS(child_status);
444*a1e26a70SApple OSS Distributions T_QUIET; T_ASSERT_EQ(exit_val, NORMAL_EXIT, "child exit due to: %s",
445*a1e26a70SApple OSS Distributions (0 < exit_val && exit_val < NUM_CHILD_EXIT) ? child_exit_why[exit_val] : "unknown");
446*a1e26a70SApple OSS Distributions
447*a1e26a70SApple OSS Distributions /*
448*a1e26a70SApple OSS Distributions * If the kernel aborted generating a corpse for other reasons, the test is invalid.
449*a1e26a70SApple OSS Distributions */
450*a1e26a70SApple OSS Distributions if (kernel_pidwatch_val == -1ull) {
451*a1e26a70SApple OSS Distributions T_SKIP("corpse generation was aborted by kernel");
452*a1e26a70SApple OSS Distributions }
453*a1e26a70SApple OSS Distributions
454*a1e26a70SApple OSS Distributions /*
455*a1e26a70SApple OSS Distributions * We should always have made it through the vm_map_fork() checks in the kernel for this test.
456*a1e26a70SApple OSS Distributions */
457*a1e26a70SApple OSS Distributions T_QUIET; T_ASSERT_NE_ULLONG(kernel_pidwatch_val, (uint64_t)child_pid, "child didn't trigger corpse generation");
458*a1e26a70SApple OSS Distributions
459*a1e26a70SApple OSS Distributions T_EXPECT_EQ(kernel_pidwatch_val, expected_pidwatch_val, "kernel value 0x%llx - expected 0x%llx",
460*a1e26a70SApple OSS Distributions kernel_pidwatch_val, expected_pidwatch_val);
461*a1e26a70SApple OSS Distributions }
462*a1e26a70SApple OSS Distributions
463*a1e26a70SApple OSS Distributions /*
464*a1e26a70SApple OSS Distributions * The order of these 2 test functions is important. They will be executed by the test framwork in order.
465*a1e26a70SApple OSS Distributions *
466*a1e26a70SApple OSS Distributions * We test "not allowed first", then "allowed". If it were the other way around, the corpse from the "allowed"
467*a1e26a70SApple OSS Distributions * test would likely cause memory pressure and jetsam would likely kill the "not allowed" test.
468*a1e26a70SApple OSS Distributions */
469*a1e26a70SApple OSS Distributions T_DECL(memorystatus_vm_map_fork_test_not_allowed,
470*a1e26a70SApple OSS Distributions "test that corpse generation was not allowed",
471*a1e26a70SApple OSS Distributions T_META_ASROOT(true),
472*a1e26a70SApple OSS Distributions T_META_TAG_VM_PREFERRED,
473*a1e26a70SApple OSS Distributions T_META_ENABLED(false /* rdar://133953771 */))
474*a1e26a70SApple OSS Distributions {
475*a1e26a70SApple OSS Distributions memorystatus_vm_map_fork_parent(TEST_NOT_ALLOWED);
476*a1e26a70SApple OSS Distributions }
477*a1e26a70SApple OSS Distributions
478*a1e26a70SApple OSS Distributions T_DECL(memorystatus_vm_map_fork_test_allowed,
479*a1e26a70SApple OSS Distributions "test corpse generation allowed",
480*a1e26a70SApple OSS Distributions T_META_ASROOT(true),
481*a1e26a70SApple OSS Distributions T_META_TAG_VM_PREFERRED,
482*a1e26a70SApple OSS Distributions T_META_ENABLED(false /* rdar://133953771 */))
483*a1e26a70SApple OSS Distributions {
484*a1e26a70SApple OSS Distributions memorystatus_vm_map_fork_parent(TEST_ALLOWED);
485*a1e26a70SApple OSS Distributions }
486