linux_sched.c revision 1.74
1 1.74 thorpej /* $NetBSD: linux_sched.c,v 1.74 2020/04/19 20:31:59 thorpej Exp $ */ 2 1.1 tron 3 1.1 tron /*- 4 1.73 ad * Copyright (c) 1999, 2019 The NetBSD Foundation, Inc. 5 1.1 tron * All rights reserved. 6 1.1 tron * 7 1.1 tron * This code is derived from software contributed to The NetBSD Foundation 8 1.2 thorpej * by Jason R. Thorpe of the Numerical Aerospace Simulation Facility, 9 1.1 tron * NASA Ames Research Center; by Matthias Scheler. 10 1.1 tron * 11 1.1 tron * Redistribution and use in source and binary forms, with or without 12 1.1 tron * modification, are permitted provided that the following conditions 13 1.1 tron * are met: 14 1.1 tron * 1. Redistributions of source code must retain the above copyright 15 1.1 tron * notice, this list of conditions and the following disclaimer. 16 1.1 tron * 2. Redistributions in binary form must reproduce the above copyright 17 1.1 tron * notice, this list of conditions and the following disclaimer in the 18 1.1 tron * documentation and/or other materials provided with the distribution. 19 1.1 tron * 20 1.1 tron * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 21 1.1 tron * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 22 1.1 tron * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 23 1.1 tron * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 24 1.1 tron * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 25 1.1 tron * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 26 1.1 tron * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 27 1.1 tron * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 28 1.1 tron * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 29 1.1 tron * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 30 1.1 tron * POSSIBILITY OF SUCH DAMAGE. 31 1.1 tron */ 32 1.1 tron 33 1.1 tron /* 34 1.1 tron * Linux compatibility module. Try to deal with scheduler related syscalls. 35 1.1 tron */ 36 1.8 lukem 37 1.8 lukem #include <sys/cdefs.h> 38 1.74 thorpej __KERNEL_RCSID(0, "$NetBSD: linux_sched.c,v 1.74 2020/04/19 20:31:59 thorpej Exp $"); 39 1.1 tron 40 1.1 tron #include <sys/param.h> 41 1.1 tron #include <sys/mount.h> 42 1.1 tron #include <sys/proc.h> 43 1.1 tron #include <sys/systm.h> 44 1.22 manu #include <sys/sysctl.h> 45 1.1 tron #include <sys/syscallargs.h> 46 1.14 jdolecek #include <sys/wait.h> 47 1.30 elad #include <sys/kauth.h> 48 1.34 manu #include <sys/ptrace.h> 49 1.63 chs #include <sys/atomic.h> 50 1.3 itohy 51 1.43 ad #include <sys/cpu.h> 52 1.1 tron 53 1.1 tron #include <compat/linux/common/linux_types.h> 54 1.1 tron #include <compat/linux/common/linux_signal.h> 55 1.19 manu #include <compat/linux/common/linux_emuldata.h> 56 1.44 njoly #include <compat/linux/common/linux_ipc.h> 57 1.44 njoly #include <compat/linux/common/linux_sem.h> 58 1.58 christos #include <compat/linux/common/linux_exec.h> 59 1.63 chs #include <compat/linux/common/linux_machdep.h> 60 1.1 tron 61 1.1 tron #include <compat/linux/linux_syscallargs.h> 62 1.1 tron 63 1.1 tron #include <compat/linux/common/linux_sched.h> 64 1.1 tron 65 1.65 christos static int linux_clone_nptl(struct lwp *, const struct linux_sys_clone_args *, 66 1.65 christos register_t *); 67 1.65 christos 68 1.68 christos /* Unlike Linux, dynamically calculate CPU mask size */ 69 1.68 christos #define LINUX_CPU_MASK_SIZE (sizeof(long) * ((ncpu + LONG_BIT - 1) / LONG_BIT)) 70 1.68 christos 71 1.65 christos #if DEBUG_LINUX 72 1.65 christos #define DPRINTF(x) uprintf x 73 1.65 christos #else 74 1.65 christos #define DPRINTF(x) 75 1.65 christos #endif 76 1.63 chs 77 1.63 chs static void 78 1.63 chs linux_child_return(void *arg) 79 1.63 chs { 80 1.63 chs struct lwp *l = arg; 81 1.63 chs struct proc *p = l->l_proc; 82 1.63 chs struct linux_emuldata *led = l->l_emuldata; 83 1.63 chs void *ctp = led->led_child_tidptr; 84 1.65 christos int error; 85 1.63 chs 86 1.63 chs if (ctp) { 87 1.65 christos if ((error = copyout(&p->p_pid, ctp, sizeof(p->p_pid))) != 0) 88 1.63 chs printf("%s: LINUX_CLONE_CHILD_SETTID " 89 1.65 christos "failed (child_tidptr = %p, tid = %d error =%d)\n", 90 1.65 christos __func__, ctp, p->p_pid, error); 91 1.63 chs } 92 1.63 chs child_return(arg); 93 1.63 chs } 94 1.63 chs 95 1.1 tron int 96 1.65 christos linux_sys_clone(struct lwp *l, const struct linux_sys_clone_args *uap, 97 1.65 christos register_t *retval) 98 1.1 tron { 99 1.46 dsl /* { 100 1.1 tron syscallarg(int) flags; 101 1.1 tron syscallarg(void *) stack; 102 1.19 manu syscallarg(void *) parent_tidptr; 103 1.63 chs syscallarg(void *) tls; 104 1.19 manu syscallarg(void *) child_tidptr; 105 1.46 dsl } */ 106 1.19 manu struct linux_emuldata *led; 107 1.63 chs int flags, sig, error; 108 1.1 tron 109 1.1 tron /* 110 1.1 tron * We don't support the Linux CLONE_PID or CLONE_PTRACE flags. 111 1.1 tron */ 112 1.1 tron if (SCARG(uap, flags) & (LINUX_CLONE_PID|LINUX_CLONE_PTRACE)) 113 1.65 christos return EINVAL; 114 1.1 tron 115 1.13 jdolecek /* 116 1.13 jdolecek * Thread group implies shared signals. Shared signals 117 1.13 jdolecek * imply shared VM. This matches what Linux kernel does. 118 1.13 jdolecek */ 119 1.13 jdolecek if (SCARG(uap, flags) & LINUX_CLONE_THREAD 120 1.13 jdolecek && (SCARG(uap, flags) & LINUX_CLONE_SIGHAND) == 0) 121 1.65 christos return EINVAL; 122 1.13 jdolecek if (SCARG(uap, flags) & LINUX_CLONE_SIGHAND 123 1.13 jdolecek && (SCARG(uap, flags) & LINUX_CLONE_VM) == 0) 124 1.65 christos return EINVAL; 125 1.13 jdolecek 126 1.63 chs /* 127 1.63 chs * The thread group flavor is implemented totally differently. 128 1.63 chs */ 129 1.65 christos if (SCARG(uap, flags) & LINUX_CLONE_THREAD) 130 1.63 chs return linux_clone_nptl(l, uap, retval); 131 1.63 chs 132 1.1 tron flags = 0; 133 1.1 tron if (SCARG(uap, flags) & LINUX_CLONE_VM) 134 1.1 tron flags |= FORK_SHAREVM; 135 1.1 tron if (SCARG(uap, flags) & LINUX_CLONE_FS) 136 1.1 tron flags |= FORK_SHARECWD; 137 1.1 tron if (SCARG(uap, flags) & LINUX_CLONE_FILES) 138 1.1 tron flags |= FORK_SHAREFILES; 139 1.1 tron if (SCARG(uap, flags) & LINUX_CLONE_SIGHAND) 140 1.1 tron flags |= FORK_SHARESIGS; 141 1.1 tron if (SCARG(uap, flags) & LINUX_CLONE_VFORK) 142 1.1 tron flags |= FORK_PPWAIT; 143 1.1 tron 144 1.34 manu sig = SCARG(uap, flags) & LINUX_CLONE_CSIGNAL; 145 1.34 manu if (sig < 0 || sig >= LINUX__NSIG) 146 1.65 christos return EINVAL; 147 1.34 manu sig = linux_to_native_signo[sig]; 148 1.1 tron 149 1.63 chs if (SCARG(uap, flags) & LINUX_CLONE_CHILD_SETTID) { 150 1.63 chs led = l->l_emuldata; 151 1.63 chs led->led_child_tidptr = SCARG(uap, child_tidptr); 152 1.63 chs } 153 1.19 manu 154 1.1 tron /* 155 1.1 tron * Note that Linux does not provide a portable way of specifying 156 1.1 tron * the stack area; the caller must know if the stack grows up 157 1.1 tron * or down. So, we pass a stack size of 0, so that the code 158 1.1 tron * that makes this adjustment is a noop. 159 1.1 tron */ 160 1.19 manu if ((error = fork1(l, flags, sig, SCARG(uap, stack), 0, 161 1.71 kamil linux_child_return, NULL, retval)) != 0) { 162 1.65 christos DPRINTF(("%s: fork1: error %d\n", __func__, error)); 163 1.63 chs return error; 164 1.65 christos } 165 1.63 chs 166 1.63 chs return 0; 167 1.63 chs } 168 1.63 chs 169 1.63 chs static int 170 1.63 chs linux_clone_nptl(struct lwp *l, const struct linux_sys_clone_args *uap, register_t *retval) 171 1.63 chs { 172 1.63 chs /* { 173 1.63 chs syscallarg(int) flags; 174 1.63 chs syscallarg(void *) stack; 175 1.63 chs syscallarg(void *) parent_tidptr; 176 1.63 chs syscallarg(void *) tls; 177 1.63 chs syscallarg(void *) child_tidptr; 178 1.63 chs } */ 179 1.63 chs struct proc *p; 180 1.63 chs struct lwp *l2; 181 1.63 chs struct linux_emuldata *led; 182 1.63 chs void *parent_tidptr, *tls, *child_tidptr; 183 1.63 chs vaddr_t uaddr; 184 1.63 chs lwpid_t lid; 185 1.74 thorpej int flags, error; 186 1.63 chs 187 1.63 chs p = l->l_proc; 188 1.63 chs flags = SCARG(uap, flags); 189 1.63 chs parent_tidptr = SCARG(uap, parent_tidptr); 190 1.63 chs tls = SCARG(uap, tls); 191 1.63 chs child_tidptr = SCARG(uap, child_tidptr); 192 1.63 chs 193 1.63 chs uaddr = uvm_uarea_alloc(); 194 1.63 chs if (__predict_false(uaddr == 0)) { 195 1.63 chs return ENOMEM; 196 1.63 chs } 197 1.63 chs 198 1.63 chs error = lwp_create(l, p, uaddr, LWP_DETACHED | LWP_PIDLID, 199 1.69 christos SCARG(uap, stack), 0, child_return, NULL, &l2, l->l_class, 200 1.69 christos &l->l_sigmask, &l->l_sigstk); 201 1.63 chs if (__predict_false(error)) { 202 1.65 christos DPRINTF(("%s: lwp_create error=%d\n", __func__, error)); 203 1.63 chs uvm_uarea_free(uaddr); 204 1.19 manu return error; 205 1.63 chs } 206 1.63 chs lid = l2->l_lid; 207 1.19 manu 208 1.63 chs /* LINUX_CLONE_CHILD_CLEARTID: clear TID in child's memory on exit() */ 209 1.63 chs if (flags & LINUX_CLONE_CHILD_CLEARTID) { 210 1.63 chs led = l2->l_emuldata; 211 1.63 chs led->led_clear_tid = child_tidptr; 212 1.63 chs } 213 1.63 chs 214 1.63 chs /* LINUX_CLONE_PARENT_SETTID: store child's TID in parent's memory */ 215 1.63 chs if (flags & LINUX_CLONE_PARENT_SETTID) { 216 1.65 christos if ((error = copyout(&lid, parent_tidptr, sizeof(lid))) != 0) 217 1.63 chs printf("%s: LINUX_CLONE_PARENT_SETTID " 218 1.65 christos "failed (parent_tidptr = %p tid = %d error=%d)\n", 219 1.65 christos __func__, parent_tidptr, lid, error); 220 1.63 chs } 221 1.63 chs 222 1.63 chs /* LINUX_CLONE_CHILD_SETTID: store child's TID in child's memory */ 223 1.63 chs if (flags & LINUX_CLONE_CHILD_SETTID) { 224 1.65 christos if ((error = copyout(&lid, child_tidptr, sizeof(lid))) != 0) 225 1.63 chs printf("%s: LINUX_CLONE_CHILD_SETTID " 226 1.65 christos "failed (child_tidptr = %p, tid = %d error=%d)\n", 227 1.65 christos __func__, child_tidptr, lid, error); 228 1.63 chs } 229 1.63 chs 230 1.63 chs if (flags & LINUX_CLONE_SETTLS) { 231 1.63 chs error = LINUX_LWP_SETPRIVATE(l2, tls); 232 1.63 chs if (error) { 233 1.65 christos DPRINTF(("%s: LINUX_LWP_SETPRIVATE %d\n", __func__, 234 1.65 christos error)); 235 1.63 chs lwp_exit(l2); 236 1.63 chs return error; 237 1.63 chs } 238 1.63 chs } 239 1.63 chs 240 1.73 ad /* Set the new LWP running. */ 241 1.73 ad lwp_start(l2, 0); 242 1.58 christos 243 1.63 chs retval[0] = lid; 244 1.63 chs retval[1] = 0; 245 1.19 manu return 0; 246 1.1 tron } 247 1.1 tron 248 1.49 elad /* 249 1.49 elad * linux realtime priority 250 1.49 elad * 251 1.49 elad * - SCHED_RR and SCHED_FIFO tasks have priorities [1,99]. 252 1.49 elad * 253 1.49 elad * - SCHED_OTHER tasks don't have realtime priorities. 254 1.49 elad * in particular, sched_param::sched_priority is always 0. 255 1.49 elad */ 256 1.49 elad 257 1.49 elad #define LINUX_SCHED_RTPRIO_MIN 1 258 1.49 elad #define LINUX_SCHED_RTPRIO_MAX 99 259 1.49 elad 260 1.49 elad static int 261 1.49 elad sched_linux2native(int linux_policy, struct linux_sched_param *linux_params, 262 1.49 elad int *native_policy, struct sched_param *native_params) 263 1.49 elad { 264 1.49 elad 265 1.49 elad switch (linux_policy) { 266 1.49 elad case LINUX_SCHED_OTHER: 267 1.49 elad if (native_policy != NULL) { 268 1.49 elad *native_policy = SCHED_OTHER; 269 1.49 elad } 270 1.49 elad break; 271 1.49 elad 272 1.49 elad case LINUX_SCHED_FIFO: 273 1.49 elad if (native_policy != NULL) { 274 1.49 elad *native_policy = SCHED_FIFO; 275 1.49 elad } 276 1.49 elad break; 277 1.49 elad 278 1.49 elad case LINUX_SCHED_RR: 279 1.49 elad if (native_policy != NULL) { 280 1.49 elad *native_policy = SCHED_RR; 281 1.49 elad } 282 1.49 elad break; 283 1.49 elad 284 1.49 elad default: 285 1.49 elad return EINVAL; 286 1.49 elad } 287 1.49 elad 288 1.49 elad if (linux_params != NULL) { 289 1.49 elad int prio = linux_params->sched_priority; 290 1.49 elad 291 1.49 elad KASSERT(native_params != NULL); 292 1.49 elad 293 1.49 elad if (linux_policy == LINUX_SCHED_OTHER) { 294 1.49 elad if (prio != 0) { 295 1.49 elad return EINVAL; 296 1.49 elad } 297 1.49 elad native_params->sched_priority = PRI_NONE; /* XXX */ 298 1.49 elad } else { 299 1.49 elad if (prio < LINUX_SCHED_RTPRIO_MIN || 300 1.49 elad prio > LINUX_SCHED_RTPRIO_MAX) { 301 1.49 elad return EINVAL; 302 1.49 elad } 303 1.49 elad native_params->sched_priority = 304 1.49 elad (prio - LINUX_SCHED_RTPRIO_MIN) 305 1.49 elad * (SCHED_PRI_MAX - SCHED_PRI_MIN) 306 1.49 elad / (LINUX_SCHED_RTPRIO_MAX - LINUX_SCHED_RTPRIO_MIN) 307 1.49 elad + SCHED_PRI_MIN; 308 1.49 elad } 309 1.49 elad } 310 1.49 elad 311 1.49 elad return 0; 312 1.49 elad } 313 1.49 elad 314 1.49 elad static int 315 1.49 elad sched_native2linux(int native_policy, struct sched_param *native_params, 316 1.49 elad int *linux_policy, struct linux_sched_param *linux_params) 317 1.49 elad { 318 1.49 elad 319 1.49 elad switch (native_policy) { 320 1.49 elad case SCHED_OTHER: 321 1.49 elad if (linux_policy != NULL) { 322 1.49 elad *linux_policy = LINUX_SCHED_OTHER; 323 1.49 elad } 324 1.49 elad break; 325 1.49 elad 326 1.49 elad case SCHED_FIFO: 327 1.49 elad if (linux_policy != NULL) { 328 1.49 elad *linux_policy = LINUX_SCHED_FIFO; 329 1.49 elad } 330 1.49 elad break; 331 1.49 elad 332 1.49 elad case SCHED_RR: 333 1.49 elad if (linux_policy != NULL) { 334 1.49 elad *linux_policy = LINUX_SCHED_RR; 335 1.49 elad } 336 1.49 elad break; 337 1.49 elad 338 1.49 elad default: 339 1.49 elad panic("%s: unknown policy %d\n", __func__, native_policy); 340 1.49 elad } 341 1.49 elad 342 1.49 elad if (native_params != NULL) { 343 1.49 elad int prio = native_params->sched_priority; 344 1.49 elad 345 1.49 elad KASSERT(prio >= SCHED_PRI_MIN); 346 1.49 elad KASSERT(prio <= SCHED_PRI_MAX); 347 1.49 elad KASSERT(linux_params != NULL); 348 1.56 jmcneill 349 1.65 christos DPRINTF(("%s: native: policy %d, priority %d\n", 350 1.65 christos __func__, native_policy, prio)); 351 1.49 elad 352 1.49 elad if (native_policy == SCHED_OTHER) { 353 1.49 elad linux_params->sched_priority = 0; 354 1.49 elad } else { 355 1.49 elad linux_params->sched_priority = 356 1.49 elad (prio - SCHED_PRI_MIN) 357 1.49 elad * (LINUX_SCHED_RTPRIO_MAX - LINUX_SCHED_RTPRIO_MIN) 358 1.49 elad / (SCHED_PRI_MAX - SCHED_PRI_MIN) 359 1.49 elad + LINUX_SCHED_RTPRIO_MIN; 360 1.49 elad } 361 1.65 christos DPRINTF(("%s: linux: policy %d, priority %d\n", 362 1.65 christos __func__, -1, linux_params->sched_priority)); 363 1.49 elad } 364 1.49 elad 365 1.49 elad return 0; 366 1.49 elad } 367 1.49 elad 368 1.1 tron int 369 1.46 dsl linux_sys_sched_setparam(struct lwp *l, const struct linux_sys_sched_setparam_args *uap, register_t *retval) 370 1.1 tron { 371 1.46 dsl /* { 372 1.1 tron syscallarg(linux_pid_t) pid; 373 1.1 tron syscallarg(const struct linux_sched_param *) sp; 374 1.46 dsl } */ 375 1.49 elad int error, policy; 376 1.1 tron struct linux_sched_param lp; 377 1.49 elad struct sched_param sp; 378 1.49 elad 379 1.49 elad if (SCARG(uap, pid) < 0 || SCARG(uap, sp) == NULL) { 380 1.49 elad error = EINVAL; 381 1.49 elad goto out; 382 1.49 elad } 383 1.1 tron 384 1.49 elad error = copyin(SCARG(uap, sp), &lp, sizeof(lp)); 385 1.49 elad if (error) 386 1.49 elad goto out; 387 1.1 tron 388 1.49 elad /* We need the current policy in Linux terms. */ 389 1.66 njoly error = do_sched_getparam(SCARG(uap, pid), 0, &policy, NULL); 390 1.49 elad if (error) 391 1.49 elad goto out; 392 1.49 elad error = sched_native2linux(policy, NULL, &policy, NULL); 393 1.49 elad if (error) 394 1.49 elad goto out; 395 1.1 tron 396 1.49 elad error = sched_linux2native(policy, &lp, &policy, &sp); 397 1.1 tron if (error) 398 1.49 elad goto out; 399 1.1 tron 400 1.66 njoly error = do_sched_setparam(SCARG(uap, pid), 0, policy, &sp); 401 1.49 elad if (error) 402 1.49 elad goto out; 403 1.1 tron 404 1.49 elad out: 405 1.49 elad return error; 406 1.1 tron } 407 1.1 tron 408 1.1 tron int 409 1.46 dsl linux_sys_sched_getparam(struct lwp *l, const struct linux_sys_sched_getparam_args *uap, register_t *retval) 410 1.1 tron { 411 1.46 dsl /* { 412 1.1 tron syscallarg(linux_pid_t) pid; 413 1.1 tron syscallarg(struct linux_sched_param *) sp; 414 1.46 dsl } */ 415 1.1 tron struct linux_sched_param lp; 416 1.49 elad struct sched_param sp; 417 1.50 elad int error, policy; 418 1.49 elad 419 1.49 elad if (SCARG(uap, pid) < 0 || SCARG(uap, sp) == NULL) { 420 1.49 elad error = EINVAL; 421 1.49 elad goto out; 422 1.49 elad } 423 1.1 tron 424 1.66 njoly error = do_sched_getparam(SCARG(uap, pid), 0, &policy, &sp); 425 1.49 elad if (error) 426 1.49 elad goto out; 427 1.65 christos DPRINTF(("%s: native: policy %d, priority %d\n", 428 1.65 christos __func__, policy, sp.sched_priority)); 429 1.1 tron 430 1.50 elad error = sched_native2linux(policy, &sp, NULL, &lp); 431 1.49 elad if (error) 432 1.49 elad goto out; 433 1.65 christos DPRINTF(("%s: linux: policy %d, priority %d\n", 434 1.65 christos __func__, policy, lp.sched_priority)); 435 1.47 elad 436 1.49 elad error = copyout(&lp, SCARG(uap, sp), sizeof(lp)); 437 1.49 elad if (error) 438 1.49 elad goto out; 439 1.1 tron 440 1.49 elad out: 441 1.49 elad return error; 442 1.1 tron } 443 1.1 tron 444 1.1 tron int 445 1.46 dsl linux_sys_sched_setscheduler(struct lwp *l, const struct linux_sys_sched_setscheduler_args *uap, register_t *retval) 446 1.1 tron { 447 1.46 dsl /* { 448 1.1 tron syscallarg(linux_pid_t) pid; 449 1.1 tron syscallarg(int) policy; 450 1.61 njoly syscallarg(cont struct linux_sched_param *) sp; 451 1.46 dsl } */ 452 1.49 elad int error, policy; 453 1.1 tron struct linux_sched_param lp; 454 1.49 elad struct sched_param sp; 455 1.1 tron 456 1.49 elad if (SCARG(uap, pid) < 0 || SCARG(uap, sp) == NULL) { 457 1.49 elad error = EINVAL; 458 1.49 elad goto out; 459 1.49 elad } 460 1.1 tron 461 1.1 tron error = copyin(SCARG(uap, sp), &lp, sizeof(lp)); 462 1.1 tron if (error) 463 1.49 elad goto out; 464 1.65 christos DPRINTF(("%s: linux: policy %d, priority %d\n", 465 1.65 christos __func__, SCARG(uap, policy), lp.sched_priority)); 466 1.1 tron 467 1.49 elad error = sched_linux2native(SCARG(uap, policy), &lp, &policy, &sp); 468 1.49 elad if (error) 469 1.49 elad goto out; 470 1.65 christos DPRINTF(("%s: native: policy %d, priority %d\n", 471 1.65 christos __func__, policy, sp.sched_priority)); 472 1.1 tron 473 1.66 njoly error = do_sched_setparam(SCARG(uap, pid), 0, policy, &sp); 474 1.49 elad if (error) 475 1.49 elad goto out; 476 1.1 tron 477 1.49 elad out: 478 1.49 elad return error; 479 1.1 tron } 480 1.1 tron 481 1.1 tron int 482 1.46 dsl linux_sys_sched_getscheduler(struct lwp *l, const struct linux_sys_sched_getscheduler_args *uap, register_t *retval) 483 1.1 tron { 484 1.46 dsl /* { 485 1.1 tron syscallarg(linux_pid_t) pid; 486 1.46 dsl } */ 487 1.49 elad int error, policy; 488 1.1 tron 489 1.1 tron *retval = -1; 490 1.1 tron 491 1.66 njoly error = do_sched_getparam(SCARG(uap, pid), 0, &policy, NULL); 492 1.49 elad if (error) 493 1.49 elad goto out; 494 1.49 elad 495 1.49 elad error = sched_native2linux(policy, NULL, &policy, NULL); 496 1.49 elad if (error) 497 1.49 elad goto out; 498 1.49 elad 499 1.49 elad *retval = policy; 500 1.1 tron 501 1.49 elad out: 502 1.49 elad return error; 503 1.1 tron } 504 1.1 tron 505 1.1 tron int 506 1.46 dsl linux_sys_sched_yield(struct lwp *l, const void *v, register_t *retval) 507 1.1 tron { 508 1.11 gmcgarry 509 1.11 gmcgarry yield(); 510 1.1 tron return 0; 511 1.1 tron } 512 1.1 tron 513 1.1 tron int 514 1.46 dsl linux_sys_sched_get_priority_max(struct lwp *l, const struct linux_sys_sched_get_priority_max_args *uap, register_t *retval) 515 1.1 tron { 516 1.46 dsl /* { 517 1.1 tron syscallarg(int) policy; 518 1.46 dsl } */ 519 1.1 tron 520 1.55 njoly switch (SCARG(uap, policy)) { 521 1.55 njoly case LINUX_SCHED_OTHER: 522 1.55 njoly *retval = 0; 523 1.55 njoly break; 524 1.55 njoly case LINUX_SCHED_FIFO: 525 1.55 njoly case LINUX_SCHED_RR: 526 1.55 njoly *retval = LINUX_SCHED_RTPRIO_MAX; 527 1.55 njoly break; 528 1.55 njoly default: 529 1.1 tron return EINVAL; 530 1.1 tron } 531 1.1 tron 532 1.1 tron return 0; 533 1.1 tron } 534 1.1 tron 535 1.1 tron int 536 1.46 dsl linux_sys_sched_get_priority_min(struct lwp *l, const struct linux_sys_sched_get_priority_min_args *uap, register_t *retval) 537 1.1 tron { 538 1.46 dsl /* { 539 1.1 tron syscallarg(int) policy; 540 1.46 dsl } */ 541 1.1 tron 542 1.55 njoly switch (SCARG(uap, policy)) { 543 1.55 njoly case LINUX_SCHED_OTHER: 544 1.55 njoly *retval = 0; 545 1.55 njoly break; 546 1.55 njoly case LINUX_SCHED_FIFO: 547 1.55 njoly case LINUX_SCHED_RR: 548 1.55 njoly *retval = LINUX_SCHED_RTPRIO_MIN; 549 1.55 njoly break; 550 1.55 njoly default: 551 1.1 tron return EINVAL; 552 1.1 tron } 553 1.1 tron 554 1.1 tron return 0; 555 1.1 tron } 556 1.14 jdolecek 557 1.63 chs int 558 1.63 chs linux_sys_exit(struct lwp *l, const struct linux_sys_exit_args *uap, register_t *retval) 559 1.63 chs { 560 1.63 chs 561 1.63 chs lwp_exit(l); 562 1.63 chs return 0; 563 1.63 chs } 564 1.63 chs 565 1.14 jdolecek #ifndef __m68k__ 566 1.14 jdolecek /* Present on everything but m68k */ 567 1.14 jdolecek int 568 1.46 dsl linux_sys_exit_group(struct lwp *l, const struct linux_sys_exit_group_args *uap, register_t *retval) 569 1.14 jdolecek { 570 1.14 jdolecek 571 1.46 dsl return sys_exit(l, (const void *)uap, retval); 572 1.14 jdolecek } 573 1.14 jdolecek #endif /* !__m68k__ */ 574 1.19 manu 575 1.19 manu int 576 1.46 dsl linux_sys_set_tid_address(struct lwp *l, const struct linux_sys_set_tid_address_args *uap, register_t *retval) 577 1.19 manu { 578 1.46 dsl /* { 579 1.19 manu syscallarg(int *) tidptr; 580 1.46 dsl } */ 581 1.19 manu struct linux_emuldata *led; 582 1.19 manu 583 1.63 chs led = (struct linux_emuldata *)l->l_emuldata; 584 1.63 chs led->led_clear_tid = SCARG(uap, tid); 585 1.63 chs *retval = l->l_lid; 586 1.19 manu 587 1.19 manu return 0; 588 1.19 manu } 589 1.20 manu 590 1.20 manu /* ARGUSED1 */ 591 1.20 manu int 592 1.46 dsl linux_sys_gettid(struct lwp *l, const void *v, register_t *retval) 593 1.20 manu { 594 1.31 manu 595 1.63 chs *retval = l->l_lid; 596 1.31 manu return 0; 597 1.31 manu } 598 1.31 manu 599 1.68 christos /* 600 1.68 christos * The affinity syscalls assume that the layout of our cpu kcpuset is 601 1.68 christos * the same as linux's: a linear bitmask. 602 1.68 christos */ 603 1.22 manu int 604 1.46 dsl linux_sys_sched_getaffinity(struct lwp *l, const struct linux_sys_sched_getaffinity_args *uap, register_t *retval) 605 1.22 manu { 606 1.46 dsl /* { 607 1.63 chs syscallarg(linux_pid_t) pid; 608 1.22 manu syscallarg(unsigned int) len; 609 1.22 manu syscallarg(unsigned long *) mask; 610 1.46 dsl } */ 611 1.68 christos struct lwp *t; 612 1.68 christos kcpuset_t *kcset; 613 1.68 christos size_t size; 614 1.68 christos cpuid_t i; 615 1.68 christos int error; 616 1.22 manu 617 1.68 christos size = LINUX_CPU_MASK_SIZE; 618 1.60 njoly if (SCARG(uap, len) < size) 619 1.22 manu return EINVAL; 620 1.22 manu 621 1.68 christos /* Lock the LWP */ 622 1.68 christos t = lwp_find2(SCARG(uap, pid), l->l_lid); 623 1.68 christos if (t == NULL) 624 1.22 manu return ESRCH; 625 1.22 manu 626 1.68 christos /* Check the permission */ 627 1.68 christos if (kauth_authorize_process(l->l_cred, 628 1.68 christos KAUTH_PROCESS_SCHEDULER_GETAFFINITY, t->l_proc, NULL, NULL, NULL)) { 629 1.68 christos mutex_exit(t->l_proc->p_lock); 630 1.68 christos return EPERM; 631 1.68 christos } 632 1.68 christos 633 1.68 christos kcpuset_create(&kcset, true); 634 1.68 christos lwp_lock(t); 635 1.68 christos if (t->l_affinity != NULL) 636 1.68 christos kcpuset_copy(kcset, t->l_affinity); 637 1.68 christos else { 638 1.68 christos /* 639 1.68 christos * All available CPUs should be masked when affinity has not 640 1.68 christos * been set. 641 1.68 christos */ 642 1.68 christos kcpuset_zero(kcset); 643 1.68 christos for (i = 0; i < ncpu; i++) 644 1.68 christos kcpuset_set(kcset, i); 645 1.68 christos } 646 1.68 christos lwp_unlock(t); 647 1.68 christos mutex_exit(t->l_proc->p_lock); 648 1.68 christos error = kcpuset_copyout(kcset, (cpuset_t *)SCARG(uap, mask), size); 649 1.68 christos kcpuset_unuse(kcset, NULL); 650 1.60 njoly *retval = size; 651 1.59 njoly return error; 652 1.22 manu } 653 1.22 manu 654 1.22 manu int 655 1.46 dsl linux_sys_sched_setaffinity(struct lwp *l, const struct linux_sys_sched_setaffinity_args *uap, register_t *retval) 656 1.22 manu { 657 1.46 dsl /* { 658 1.63 chs syscallarg(linux_pid_t) pid; 659 1.22 manu syscallarg(unsigned int) len; 660 1.22 manu syscallarg(unsigned long *) mask; 661 1.46 dsl } */ 662 1.68 christos struct sys__sched_setaffinity_args ssa; 663 1.68 christos size_t size; 664 1.68 christos 665 1.68 christos size = LINUX_CPU_MASK_SIZE; 666 1.68 christos if (SCARG(uap, len) < size) 667 1.68 christos return EINVAL; 668 1.22 manu 669 1.68 christos SCARG(&ssa, pid) = SCARG(uap, pid); 670 1.68 christos SCARG(&ssa, lid) = l->l_lid; 671 1.68 christos SCARG(&ssa, size) = size; 672 1.68 christos SCARG(&ssa, cpuset) = (cpuset_t *)SCARG(uap, mask); 673 1.22 manu 674 1.68 christos return sys__sched_setaffinity(l, &ssa, retval); 675 1.64 dsl } 676
Indexes created Mon Sep 22 13:09:51 GMT 2025