linux_machdep.c revision 1.9.2.2
1 1.9.2.2 yamt /* $NetBSD: linux_machdep.c,v 1.9.2.2 2006/12/30 20:47:35 yamt Exp $ */ 2 1.1 manu 3 1.1 manu /*- 4 1.1 manu * Copyright (c) 2005 Emmanuel Dreyfus, all rights reserved. 5 1.1 manu * 6 1.1 manu * Redistribution and use in source and binary forms, with or without 7 1.1 manu * modification, are permitted provided that the following conditions 8 1.1 manu * are met: 9 1.1 manu * 1. Redistributions of source code must retain the above copyright 10 1.1 manu * notice, this list of conditions and the following disclaimer. 11 1.1 manu * 2. Redistributions in binary form must reproduce the above copyright 12 1.1 manu * notice, this list of conditions and the following disclaimer in the 13 1.1 manu * documentation and/or other materials provided with the distribution. 14 1.1 manu * 3. All advertising materials mentioning features or use of this software 15 1.1 manu * must display the following acknowledgement: 16 1.1 manu * This product includes software developed by Emmanuel Dreyfus 17 1.1 manu * 4. The name of the author may not be used to endorse or promote 18 1.1 manu * products derived from this software without specific prior written 19 1.1 manu * permission. 20 1.1 manu * 21 1.1 manu * THIS SOFTWARE IS PROVIDED BY THE THE AUTHOR AND CONTRIBUTORS ``AS IS'' 22 1.1 manu * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, 23 1.1 manu * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 24 1.1 manu * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS 25 1.1 manu * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 26 1.1 manu * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 27 1.1 manu * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 28 1.1 manu * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 29 1.1 manu * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 30 1.1 manu * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 31 1.1 manu * POSSIBILITY OF SUCH DAMAGE. 32 1.1 manu */ 33 1.1 manu 34 1.1 manu #include <sys/cdefs.h> 35 1.1 manu 36 1.9.2.2 yamt __KERNEL_RCSID(0, "$NetBSD: linux_machdep.c,v 1.9.2.2 2006/12/30 20:47:35 yamt Exp $"); 37 1.1 manu 38 1.1 manu #include <sys/param.h> 39 1.1 manu #include <sys/types.h> 40 1.1 manu #include <sys/systm.h> 41 1.1 manu #include <sys/signal.h> 42 1.1 manu #include <sys/exec.h> 43 1.1 manu #include <sys/proc.h> 44 1.1 manu #include <sys/ptrace.h> /* for process_read_fpregs() */ 45 1.1 manu #include <sys/user.h> 46 1.9.2.1 yamt #include <sys/wait.h> 47 1.1 manu #include <sys/ucontext.h> 48 1.1 manu 49 1.1 manu #include <machine/reg.h> 50 1.1 manu #include <machine/pcb.h> 51 1.1 manu #include <machine/fpu.h> 52 1.1 manu #include <machine/mcontext.h> 53 1.2 fvdl #include <machine/specialreg.h> 54 1.2 fvdl #include <machine/vmparam.h> 55 1.1 manu 56 1.1 manu #include <compat/linux/common/linux_signal.h> 57 1.1 manu #include <compat/linux/common/linux_errno.h> 58 1.1 manu #include <compat/linux/common/linux_exec.h> 59 1.1 manu #include <compat/linux/common/linux_ioctl.h> 60 1.1 manu #include <compat/linux/common/linux_prctl.h> 61 1.1 manu #include <compat/linux/common/linux_machdep.h> 62 1.4 fvdl #include <compat/linux/linux_syscall.h> 63 1.1 manu #include <compat/linux/linux_syscallargs.h> 64 1.1 manu 65 1.5 fvdl static void linux_buildcontext(struct lwp *, void *, void *); 66 1.5 fvdl 67 1.1 manu void 68 1.1 manu linux_setregs(l, epp, stack) 69 1.1 manu struct lwp *l; 70 1.1 manu struct exec_package *epp; 71 1.1 manu u_long stack; 72 1.1 manu { 73 1.1 manu struct pcb *pcb = &l->l_addr->u_pcb; 74 1.1 manu struct trapframe *tf; 75 1.1 manu 76 1.1 manu /* If we were using the FPU, forget about it. */ 77 1.1 manu if (l->l_addr->u_pcb.pcb_fpcpu != NULL) 78 1.1 manu fpusave_lwp(l, 0); 79 1.1 manu 80 1.1 manu l->l_md.md_flags &= ~MDP_USEDFPU; 81 1.1 manu pcb->pcb_flags = 0; 82 1.1 manu pcb->pcb_savefpu.fp_fxsave.fx_fcw = __NetBSD_NPXCW__; 83 1.1 manu pcb->pcb_savefpu.fp_fxsave.fx_mxcsr = __INITIAL_MXCSR__; 84 1.1 manu pcb->pcb_savefpu.fp_fxsave.fx_mxcsr_mask = __INITIAL_MXCSR_MASK__; 85 1.4 fvdl pcb->pcb_fs = 0; 86 1.4 fvdl pcb->pcb_gs = 0; 87 1.1 manu 88 1.1 manu l->l_proc->p_flag &= ~P_32; 89 1.1 manu 90 1.1 manu tf = l->l_md.md_regs; 91 1.1 manu tf->tf_rax = 0; 92 1.1 manu tf->tf_rbx = 0; 93 1.1 manu tf->tf_rcx = epp->ep_entry; 94 1.1 manu tf->tf_rdx = 0; 95 1.1 manu tf->tf_rsi = 0; 96 1.1 manu tf->tf_rdi = 0; 97 1.1 manu tf->tf_rbp = 0; 98 1.1 manu tf->tf_rsp = stack; 99 1.1 manu tf->tf_r8 = 0; 100 1.1 manu tf->tf_r9 = 0; 101 1.1 manu tf->tf_r10 = 0; 102 1.1 manu tf->tf_r11 = 0; 103 1.1 manu tf->tf_r12 = 0; 104 1.1 manu tf->tf_r13 = 0; 105 1.1 manu tf->tf_r14 = 0; 106 1.1 manu tf->tf_r15 = 0; 107 1.1 manu tf->tf_rip = epp->ep_entry; 108 1.4 fvdl tf->tf_rflags = PSL_USERSET; 109 1.4 fvdl tf->tf_cs = GSEL(GUCODE_SEL, SEL_UPL); 110 1.4 fvdl tf->tf_ss = GSEL(GUDATA_SEL, SEL_UPL); 111 1.1 manu tf->tf_ds = 0; 112 1.1 manu tf->tf_es = 0; 113 1.1 manu tf->tf_fs = 0; 114 1.1 manu tf->tf_gs = 0; 115 1.1 manu 116 1.1 manu return; 117 1.1 manu } 118 1.1 manu 119 1.1 manu void 120 1.1 manu linux_sendsig(ksi, mask) 121 1.1 manu const ksiginfo_t *ksi; 122 1.1 manu const sigset_t *mask; 123 1.1 manu { 124 1.1 manu struct lwp *l = curlwp; 125 1.1 manu struct proc *p = l->l_proc; 126 1.1 manu struct sigacts *ps = p->p_sigacts; 127 1.1 manu int onstack; 128 1.1 manu int sig = ksi->ksi_signo; 129 1.1 manu struct linux_rt_sigframe *sfp, sigframe; 130 1.1 manu struct linux__fpstate *fpsp, fpstate; 131 1.1 manu struct fpreg fpregs; 132 1.1 manu struct trapframe *tf = l->l_md.md_regs; 133 1.1 manu sig_t catcher = SIGACTION(p, sig).sa_handler; 134 1.1 manu linux_sigset_t lmask; 135 1.1 manu char *sp; 136 1.1 manu int error; 137 1.4 fvdl 138 1.1 manu /* Do we need to jump onto the signal stack? */ 139 1.1 manu onstack = 140 1.1 manu (p->p_sigctx.ps_sigstk.ss_flags & (SS_DISABLE | SS_ONSTACK)) == 0 && 141 1.1 manu (SIGACTION(p, sig).sa_flags & SA_ONSTACK) != 0; 142 1.1 manu 143 1.1 manu /* Allocate space for the signal handler context. */ 144 1.1 manu if (onstack) 145 1.1 manu sp = ((caddr_t)p->p_sigctx.ps_sigstk.ss_sp + 146 1.1 manu p->p_sigctx.ps_sigstk.ss_size); 147 1.1 manu else 148 1.1 manu sp = (caddr_t)tf->tf_rsp - 128; 149 1.1 manu 150 1.1 manu 151 1.1 manu /* 152 1.1 manu * Save FPU state, if any 153 1.1 manu */ 154 1.1 manu if (l->l_md.md_flags & MDP_USEDFPU) { 155 1.1 manu sp = (char *) 156 1.1 manu (((long)sp - sizeof(struct linux__fpstate)) & ~0xfUL); 157 1.1 manu fpsp = (struct linux__fpstate *)sp; 158 1.1 manu 159 1.1 manu (void)process_read_fpregs(l, &fpregs); 160 1.1 manu bzero(&fpstate, sizeof(fpstate)); 161 1.1 manu 162 1.1 manu fpstate.cwd = fpregs.fp_fcw; 163 1.1 manu fpstate.swd = fpregs.fp_fsw; 164 1.1 manu fpstate.twd = fpregs.fp_ftw; 165 1.1 manu fpstate.fop = fpregs.fp_fop; 166 1.1 manu fpstate.rip = fpregs.fp_rip; 167 1.1 manu fpstate.rdp = fpregs.fp_rdp; 168 1.1 manu fpstate.mxcsr = fpregs.fp_mxcsr; 169 1.1 manu fpstate.mxcsr_mask = fpregs.fp_mxcsr_mask; 170 1.1 manu memcpy(&fpstate.st_space, &fpregs.fp_st, 171 1.1 manu sizeof(fpstate.st_space)); 172 1.1 manu memcpy(&fpstate.xmm_space, &fpregs.fp_xmm, 173 1.1 manu sizeof(fpstate.xmm_space)); 174 1.1 manu 175 1.1 manu if ((error = copyout(&fpstate, fpsp, sizeof(fpstate))) != 0) { 176 1.1 manu sigexit(l, SIGILL); 177 1.1 manu return; 178 1.1 manu } 179 1.1 manu } else { 180 1.1 manu fpsp = NULL; 181 1.1 manu } 182 1.1 manu 183 1.1 manu /* 184 1.1 manu * Populate the rt_sigframe 185 1.1 manu */ 186 1.1 manu sp = (char *) 187 1.1 manu ((((long)sp - sizeof(struct linux_rt_sigframe)) & ~0xfUL) - 8); 188 1.1 manu sfp = (struct linux_rt_sigframe *)sp; 189 1.1 manu 190 1.1 manu bzero(&sigframe, sizeof(sigframe)); 191 1.3 manu if (ps->sa_sigdesc[sig].sd_vers != 0) 192 1.7 manu sigframe.pretcode = 193 1.7 manu (char *)(u_long)ps->sa_sigdesc[sig].sd_tramp; 194 1.3 manu else 195 1.3 manu sigframe.pretcode = NULL; 196 1.1 manu 197 1.1 manu /* 198 1.1 manu * The user context 199 1.1 manu */ 200 1.1 manu sigframe.uc.luc_flags = 0; 201 1.1 manu sigframe.uc.luc_link = NULL; 202 1.1 manu 203 1.1 manu /* This is used regardless of SA_ONSTACK in Linux */ 204 1.1 manu sigframe.uc.luc_stack.ss_sp = p->p_sigctx.ps_sigstk.ss_sp; 205 1.1 manu sigframe.uc.luc_stack.ss_size = p->p_sigctx.ps_sigstk.ss_size; 206 1.1 manu sigframe.uc.luc_stack.ss_flags = 0; 207 1.1 manu if (p->p_sigctx.ps_sigstk.ss_flags & SS_ONSTACK) 208 1.1 manu sigframe.uc.luc_stack.ss_flags |= LINUX_SS_ONSTACK; 209 1.1 manu if (p->p_sigctx.ps_sigstk.ss_flags & SS_DISABLE) 210 1.1 manu sigframe.uc.luc_stack.ss_flags |= LINUX_SS_DISABLE; 211 1.1 manu 212 1.1 manu sigframe.uc.luc_mcontext.r8 = tf->tf_r8; 213 1.1 manu sigframe.uc.luc_mcontext.r9 = tf->tf_r9; 214 1.1 manu sigframe.uc.luc_mcontext.r10 = tf->tf_r10; 215 1.1 manu sigframe.uc.luc_mcontext.r11 = tf->tf_r11; 216 1.1 manu sigframe.uc.luc_mcontext.r12 = tf->tf_r12; 217 1.1 manu sigframe.uc.luc_mcontext.r13 = tf->tf_r13; 218 1.1 manu sigframe.uc.luc_mcontext.r14 = tf->tf_r14; 219 1.1 manu sigframe.uc.luc_mcontext.r15 = tf->tf_r15; 220 1.1 manu sigframe.uc.luc_mcontext.rdi = tf->tf_rdi; 221 1.1 manu sigframe.uc.luc_mcontext.rsi = tf->tf_rsi; 222 1.1 manu sigframe.uc.luc_mcontext.rbp = tf->tf_rbp; 223 1.1 manu sigframe.uc.luc_mcontext.rbx = tf->tf_rbx; 224 1.1 manu sigframe.uc.luc_mcontext.rdx = tf->tf_rdx; 225 1.1 manu sigframe.uc.luc_mcontext.rcx = tf->tf_rcx; 226 1.1 manu sigframe.uc.luc_mcontext.rsp = tf->tf_rsp; 227 1.6 fvdl sigframe.uc.luc_mcontext.rip = tf->tf_rip; 228 1.1 manu sigframe.uc.luc_mcontext.eflags = tf->tf_rflags; 229 1.1 manu sigframe.uc.luc_mcontext.cs = tf->tf_cs; 230 1.1 manu sigframe.uc.luc_mcontext.gs = tf->tf_gs; 231 1.1 manu sigframe.uc.luc_mcontext.fs = tf->tf_fs; 232 1.1 manu sigframe.uc.luc_mcontext.err = tf->tf_err; 233 1.1 manu sigframe.uc.luc_mcontext.trapno = tf->tf_trapno; 234 1.1 manu native_to_linux_sigset(&lmask, mask); 235 1.1 manu sigframe.uc.luc_mcontext.oldmask = lmask.sig[0]; 236 1.1 manu sigframe.uc.luc_mcontext.cr2 = (long)l->l_addr->u_pcb.pcb_onfault; 237 1.1 manu sigframe.uc.luc_mcontext.fpstate = fpsp; 238 1.1 manu native_to_linux_sigset(&sigframe.uc.luc_sigmask, mask); 239 1.1 manu 240 1.1 manu /* 241 1.1 manu * the siginfo structure 242 1.1 manu */ 243 1.1 manu sigframe.info.lsi_signo = native_to_linux_signo[sig]; 244 1.1 manu sigframe.info.lsi_errno = native_to_linux_errno[ksi->ksi_errno]; 245 1.1 manu sigframe.info.lsi_code = ksi->ksi_code; 246 1.1 manu 247 1.1 manu /* XXX This is a rought conversion, taken from i386 code */ 248 1.1 manu switch (sigframe.info.lsi_signo) { 249 1.1 manu case LINUX_SIGILL: 250 1.1 manu case LINUX_SIGFPE: 251 1.1 manu case LINUX_SIGSEGV: 252 1.1 manu case LINUX_SIGBUS: 253 1.1 manu case LINUX_SIGTRAP: 254 1.1 manu sigframe.info._sifields._sigfault._addr = ksi->ksi_addr; 255 1.1 manu break; 256 1.1 manu case LINUX_SIGCHLD: 257 1.1 manu sigframe.info._sifields._sigchld._pid = ksi->ksi_pid; 258 1.1 manu sigframe.info._sifields._sigchld._uid = ksi->ksi_uid; 259 1.1 manu sigframe.info._sifields._sigchld._utime = ksi->ksi_utime; 260 1.1 manu sigframe.info._sifields._sigchld._stime = ksi->ksi_stime; 261 1.9 manu 262 1.9 manu if (WCOREDUMP(ksi->ksi_status)) { 263 1.9 manu sigframe.info.lsi_code = LINUX_CLD_DUMPED; 264 1.9 manu sigframe.info._sifields._sigchld._status = 265 1.9 manu _WSTATUS(ksi->ksi_status); 266 1.9 manu } else if (_WSTATUS(ksi->ksi_status)) { 267 1.9 manu sigframe.info.lsi_code = LINUX_CLD_KILLED; 268 1.9 manu sigframe.info._sifields._sigchld._status = 269 1.9 manu _WSTATUS(ksi->ksi_status); 270 1.9 manu } else { 271 1.9 manu sigframe.info.lsi_code = LINUX_CLD_EXITED; 272 1.9 manu sigframe.info._sifields._sigchld._status = 273 1.9 manu ((ksi->ksi_status & 0xff00U) >> 8); 274 1.9 manu } 275 1.1 manu break; 276 1.1 manu case LINUX_SIGIO: 277 1.1 manu sigframe.info._sifields._sigpoll._band = ksi->ksi_band; 278 1.1 manu sigframe.info._sifields._sigpoll._fd = ksi->ksi_fd; 279 1.1 manu break; 280 1.1 manu default: 281 1.1 manu sigframe.info._sifields._sigchld._pid = ksi->ksi_pid; 282 1.1 manu sigframe.info._sifields._sigchld._uid = ksi->ksi_uid; 283 1.1 manu if ((sigframe.info.lsi_signo == LINUX_SIGALRM) || 284 1.1 manu (sigframe.info.lsi_signo >= LINUX_SIGRTMIN)) 285 1.1 manu sigframe.info._sifields._timer._sigval.sival_ptr = 286 1.1 manu ksi->ksi_sigval.sival_ptr; 287 1.1 manu break; 288 1.1 manu } 289 1.1 manu 290 1.1 manu if ((error = copyout(&sigframe, sp, sizeof(sigframe))) != 0) { 291 1.1 manu sigexit(l, SIGILL); 292 1.1 manu return; 293 1.1 manu } 294 1.1 manu 295 1.6 fvdl linux_buildcontext(l, catcher, sp); 296 1.1 manu tf->tf_rdi = sigframe.info.lsi_signo; 297 1.1 manu tf->tf_rax = 0; 298 1.1 manu tf->tf_rsi = (long)&sfp->info; 299 1.1 manu tf->tf_rdx = (long)&sfp->uc; 300 1.1 manu 301 1.1 manu /* 302 1.1 manu * Remember we use signal stack 303 1.1 manu */ 304 1.1 manu if (onstack) 305 1.1 manu p->p_sigctx.ps_sigstk.ss_flags |= SS_ONSTACK; 306 1.1 manu return; 307 1.1 manu } 308 1.1 manu 309 1.1 manu int 310 1.1 manu linux_sys_modify_ldt(l, v, retval) 311 1.1 manu struct lwp *l; 312 1.1 manu void *v; 313 1.1 manu register_t *retval; 314 1.1 manu { 315 1.9.2.2 yamt printf("linux_sys_modify_ldt\n"); 316 1.1 manu return 0; 317 1.1 manu } 318 1.1 manu 319 1.1 manu int 320 1.1 manu linux_sys_iopl(l, v, retval) 321 1.1 manu struct lwp *l; 322 1.1 manu void *v; 323 1.1 manu register_t *retval; 324 1.1 manu { 325 1.1 manu return 0; 326 1.1 manu } 327 1.1 manu 328 1.1 manu int 329 1.1 manu linux_sys_ioperm(l, v, retval) 330 1.1 manu struct lwp *l; 331 1.1 manu void *v; 332 1.1 manu register_t *retval; 333 1.1 manu { 334 1.1 manu return 0; 335 1.1 manu } 336 1.1 manu 337 1.1 manu dev_t 338 1.1 manu linux_fakedev(dev, raw) 339 1.1 manu dev_t dev; 340 1.1 manu int raw; 341 1.1 manu { 342 1.9.2.2 yamt return ((minor(dev) & 0xff) | ((major(dev) & 0xfff) << 8) 343 1.9.2.2 yamt | (((unsigned long long int) (minor(dev) & ~0xff)) << 12) 344 1.9.2.2 yamt | (((unsigned long long int) (major(dev) & ~0xfff)) << 32)); 345 1.1 manu } 346 1.1 manu 347 1.1 manu int 348 1.9.2.1 yamt linux_machdepioctl(l, v, retval) 349 1.9.2.1 yamt struct lwp *l; 350 1.1 manu void *v; 351 1.1 manu register_t *retval; 352 1.1 manu { 353 1.1 manu return 0; 354 1.1 manu } 355 1.1 manu 356 1.1 manu int 357 1.1 manu linux_sys_rt_sigreturn(l, v, retval) 358 1.1 manu struct lwp *l; 359 1.1 manu void *v; 360 1.1 manu register_t *retval; 361 1.1 manu { 362 1.6 fvdl struct linux_ucontext *luctx; 363 1.1 manu struct trapframe *tf = l->l_md.md_regs; 364 1.1 manu struct linux_sigcontext *lsigctx; 365 1.1 manu struct linux__fpstate fpstate; 366 1.6 fvdl struct linux_rt_sigframe frame, *fp; 367 1.1 manu ucontext_t uctx; 368 1.1 manu mcontext_t *mctx; 369 1.1 manu struct fxsave64 *fxsave; 370 1.1 manu int error; 371 1.1 manu 372 1.6 fvdl fp = (struct linux_rt_sigframe *)(tf->tf_rsp - 8); 373 1.6 fvdl if ((error = copyin(fp, &frame, sizeof(frame))) != 0) { 374 1.1 manu sigexit(l, SIGILL); 375 1.1 manu return error; 376 1.1 manu } 377 1.6 fvdl luctx = &frame.uc; 378 1.6 fvdl lsigctx = &luctx->luc_mcontext; 379 1.1 manu 380 1.1 manu bzero(&uctx, sizeof(uctx)); 381 1.1 manu mctx = (mcontext_t *)&uctx.uc_mcontext; 382 1.1 manu fxsave = (struct fxsave64 *)&mctx->__fpregs; 383 1.1 manu 384 1.1 manu /* 385 1.1 manu * Set the flags. Linux always have CPU, stack and signal state, 386 1.1 manu * FPU is optional. uc_flags is not used to tell what we have. 387 1.1 manu */ 388 1.1 manu uctx.uc_flags = (_UC_SIGMASK|_UC_CPU|_UC_STACK|_UC_CLRSTACK); 389 1.1 manu if (lsigctx->fpstate != NULL) 390 1.1 manu uctx.uc_flags |= _UC_FPU; 391 1.1 manu uctx.uc_link = NULL; 392 1.1 manu 393 1.1 manu /* 394 1.1 manu * Signal set 395 1.1 manu */ 396 1.6 fvdl linux_to_native_sigset(&uctx.uc_sigmask, &luctx->luc_sigmask); 397 1.1 manu 398 1.1 manu /* 399 1.1 manu * CPU state 400 1.1 manu */ 401 1.1 manu mctx->__gregs[_REG_R8] = lsigctx->r8; 402 1.1 manu mctx->__gregs[_REG_R9] = lsigctx->r9; 403 1.1 manu mctx->__gregs[_REG_R10] = lsigctx->r10; 404 1.1 manu mctx->__gregs[_REG_R11] = lsigctx->r11; 405 1.1 manu mctx->__gregs[_REG_R12] = lsigctx->r12; 406 1.1 manu mctx->__gregs[_REG_R13] = lsigctx->r13; 407 1.1 manu mctx->__gregs[_REG_R14] = lsigctx->r14; 408 1.1 manu mctx->__gregs[_REG_R15] = lsigctx->r15; 409 1.1 manu mctx->__gregs[_REG_RDI] = lsigctx->rdi; 410 1.1 manu mctx->__gregs[_REG_RSI] = lsigctx->rsi; 411 1.1 manu mctx->__gregs[_REG_RBP] = lsigctx->rbp; 412 1.1 manu mctx->__gregs[_REG_RBX] = lsigctx->rbx; 413 1.1 manu mctx->__gregs[_REG_RAX] = tf->tf_rax; 414 1.1 manu mctx->__gregs[_REG_RDX] = lsigctx->rdx; 415 1.1 manu mctx->__gregs[_REG_RCX] = lsigctx->rcx; 416 1.1 manu mctx->__gregs[_REG_RIP] = lsigctx->rip; 417 1.1 manu mctx->__gregs[_REG_RFL] = lsigctx->eflags; 418 1.1 manu mctx->__gregs[_REG_CS] = lsigctx->cs; 419 1.1 manu mctx->__gregs[_REG_GS] = lsigctx->gs; 420 1.1 manu mctx->__gregs[_REG_FS] = lsigctx->fs; 421 1.1 manu mctx->__gregs[_REG_ERR] = lsigctx->err; 422 1.1 manu mctx->__gregs[_REG_TRAPNO] = lsigctx->trapno; 423 1.1 manu mctx->__gregs[_REG_ES] = tf->tf_es; 424 1.1 manu mctx->__gregs[_REG_DS] = tf->tf_ds; 425 1.1 manu mctx->__gregs[_REG_URSP] = lsigctx->rsp; /* XXX */ 426 1.1 manu mctx->__gregs[_REG_SS] = tf->tf_ss; 427 1.1 manu 428 1.1 manu /* 429 1.1 manu * FPU state 430 1.1 manu */ 431 1.1 manu if (lsigctx->fpstate != NULL) { 432 1.1 manu error = copyin(lsigctx->fpstate, &fpstate, sizeof(fpstate)); 433 1.1 manu if (error != 0) { 434 1.1 manu sigexit(l, SIGILL); 435 1.1 manu return error; 436 1.1 manu } 437 1.1 manu 438 1.1 manu fxsave->fx_fcw = fpstate.cwd; 439 1.1 manu fxsave->fx_fsw = fpstate.swd; 440 1.1 manu fxsave->fx_ftw = fpstate.twd; 441 1.1 manu fxsave->fx_fop = fpstate.fop; 442 1.1 manu fxsave->fx_rip = fpstate.rip; 443 1.1 manu fxsave->fx_rdp = fpstate.rdp; 444 1.1 manu fxsave->fx_mxcsr = fpstate.mxcsr; 445 1.1 manu fxsave->fx_mxcsr_mask = fpstate.mxcsr_mask; 446 1.1 manu memcpy(&fxsave->fx_st, &fpstate.st_space, 447 1.1 manu sizeof(fxsave->fx_st)); 448 1.1 manu memcpy(&fxsave->fx_xmm, &fpstate.xmm_space, 449 1.1 manu sizeof(fxsave->fx_xmm)); 450 1.1 manu } 451 1.1 manu 452 1.1 manu /* 453 1.1 manu * And the stack 454 1.1 manu */ 455 1.1 manu uctx.uc_stack.ss_flags = 0; 456 1.6 fvdl if (luctx->luc_stack.ss_flags & LINUX_SS_ONSTACK); 457 1.1 manu uctx.uc_stack.ss_flags = SS_ONSTACK; 458 1.1 manu 459 1.6 fvdl if (luctx->luc_stack.ss_flags & LINUX_SS_DISABLE); 460 1.1 manu uctx.uc_stack.ss_flags = SS_DISABLE; 461 1.1 manu 462 1.6 fvdl uctx.uc_stack.ss_sp = luctx->luc_stack.ss_sp; 463 1.6 fvdl uctx.uc_stack.ss_size = luctx->luc_stack.ss_size; 464 1.1 manu 465 1.1 manu /* 466 1.1 manu * And let setucontext deal with that. 467 1.1 manu */ 468 1.1 manu return setucontext(l, &uctx); 469 1.1 manu } 470 1.1 manu 471 1.1 manu int 472 1.1 manu linux_sys_arch_prctl(l, v, retval) 473 1.1 manu struct lwp *l; 474 1.1 manu void *v; 475 1.1 manu register_t *retval; 476 1.1 manu { 477 1.1 manu struct linux_sys_arch_prctl_args /* { 478 1.1 manu syscallarg(int) code; 479 1.1 manu syscallarg(unsigned long) addr; 480 1.1 manu } */ *uap = v; 481 1.2 fvdl struct pcb *pcb = &l->l_addr->u_pcb; 482 1.2 fvdl struct trapframe *tf = l->l_md.md_regs; 483 1.1 manu int error; 484 1.2 fvdl uint64_t taddr; 485 1.1 manu 486 1.1 manu switch(SCARG(uap, code)) { 487 1.1 manu case LINUX_ARCH_SET_GS: 488 1.2 fvdl taddr = SCARG(uap, addr); 489 1.2 fvdl if (taddr >= VM_MAXUSER_ADDRESS) 490 1.2 fvdl return EINVAL; 491 1.2 fvdl pcb->pcb_gs = taddr; 492 1.2 fvdl pcb->pcb_flags |= PCB_GS64; 493 1.2 fvdl if (l == curlwp) 494 1.2 fvdl wrmsr(MSR_KERNELGSBASE, taddr); 495 1.1 manu break; 496 1.1 manu 497 1.1 manu case LINUX_ARCH_GET_GS: 498 1.2 fvdl if (pcb->pcb_flags & PCB_GS64) 499 1.2 fvdl taddr = pcb->pcb_gs; 500 1.2 fvdl else { 501 1.2 fvdl error = memseg_baseaddr(l, tf->tf_fs, NULL, 0, &taddr); 502 1.2 fvdl if (error != 0) 503 1.2 fvdl return error; 504 1.2 fvdl } 505 1.2 fvdl error = copyout(&taddr, (char *)SCARG(uap, addr), 8); 506 1.2 fvdl if (error != 0) 507 1.1 manu return error; 508 1.1 manu break; 509 1.1 manu 510 1.1 manu case LINUX_ARCH_SET_FS: 511 1.2 fvdl taddr = SCARG(uap, addr); 512 1.2 fvdl if (taddr >= VM_MAXUSER_ADDRESS) 513 1.2 fvdl return EINVAL; 514 1.2 fvdl pcb->pcb_fs = taddr; 515 1.2 fvdl pcb->pcb_flags |= PCB_FS64; 516 1.2 fvdl if (l == curlwp) 517 1.2 fvdl wrmsr(MSR_FSBASE, taddr); 518 1.1 manu break; 519 1.1 manu 520 1.1 manu case LINUX_ARCH_GET_FS: 521 1.2 fvdl if (pcb->pcb_flags & PCB_FS64) 522 1.2 fvdl taddr = pcb->pcb_fs; 523 1.2 fvdl else { 524 1.2 fvdl error = memseg_baseaddr(l, tf->tf_fs, NULL, 0, &taddr); 525 1.2 fvdl if (error != 0) 526 1.2 fvdl return error; 527 1.2 fvdl } 528 1.2 fvdl error = copyout(&taddr, (char *)SCARG(uap, addr), 8); 529 1.2 fvdl if (error != 0) 530 1.1 manu return error; 531 1.1 manu break; 532 1.1 manu 533 1.1 manu default: 534 1.1 manu #ifdef DEBUG_LINUX 535 1.1 manu printf("linux_sys_arch_prctl: unexpected code %d\n", 536 1.1 manu SCARG(uap, code)); 537 1.1 manu #endif 538 1.1 manu return EINVAL; 539 1.1 manu } 540 1.1 manu 541 1.1 manu return 0; 542 1.1 manu } 543 1.4 fvdl 544 1.4 fvdl const int linux_vsyscall_to_syscall[] = { 545 1.4 fvdl LINUX_SYS_gettimeofday, 546 1.4 fvdl LINUX_SYS_time, 547 1.4 fvdl LINUX_SYS_nosys, 548 1.4 fvdl LINUX_SYS_nosys, 549 1.4 fvdl }; 550 1.4 fvdl 551 1.4 fvdl int 552 1.4 fvdl linux_usertrap(struct lwp *l, vaddr_t trapaddr, void *arg) 553 1.4 fvdl { 554 1.4 fvdl struct trapframe *tf = arg; 555 1.4 fvdl uint64_t retaddr; 556 1.4 fvdl int vsyscallnr; 557 1.4 fvdl 558 1.4 fvdl /* 559 1.4 fvdl * Check for a vsyscall. %rip must be the fault address, 560 1.4 fvdl * and the address must be in the Linux vsyscall area. 561 1.4 fvdl * Also, vsyscalls are only done at 1024-byte boundaries. 562 1.4 fvdl */ 563 1.4 fvdl 564 1.4 fvdl if (__predict_true(trapaddr < LINUX_VSYSCALL_START)) 565 1.4 fvdl return 0; 566 1.4 fvdl 567 1.4 fvdl if (trapaddr != tf->tf_rip) 568 1.4 fvdl return 0; 569 1.4 fvdl 570 1.4 fvdl if ((tf->tf_rip & (LINUX_VSYSCALL_SIZE - 1)) != 0) 571 1.4 fvdl return 0; 572 1.4 fvdl 573 1.4 fvdl vsyscallnr = (tf->tf_rip - LINUX_VSYSCALL_START) / LINUX_VSYSCALL_SIZE; 574 1.4 fvdl 575 1.4 fvdl if (vsyscallnr > LINUX_VSYSCALL_MAXNR) 576 1.4 fvdl return 0; 577 1.4 fvdl 578 1.4 fvdl /* 579 1.4 fvdl * Get the return address from the top of the stack, 580 1.4 fvdl * and fix up the return address. 581 1.4 fvdl * This assumes the faulting instruction was callq *reg, 582 1.4 fvdl * which is the only way that vsyscalls are ever entered. 583 1.4 fvdl */ 584 1.4 fvdl if (copyin((void *)tf->tf_rsp, &retaddr, sizeof retaddr) != 0) 585 1.4 fvdl return 0; 586 1.4 fvdl tf->tf_rip = retaddr; 587 1.4 fvdl tf->tf_rax = linux_vsyscall_to_syscall[vsyscallnr]; 588 1.4 fvdl tf->tf_rsp += 8; /* "pop" the return address */ 589 1.4 fvdl 590 1.4 fvdl #if 0 591 1.4 fvdl printf("usertrap: rip %p rsp %p retaddr %p vsys %d sys %d\n", 592 1.4 fvdl (void *)tf->tf_rip, (void *)tf->tf_rsp, (void *)retaddr, 593 1.4 fvdl vsyscallnr, (int)tf->tf_rax); 594 1.4 fvdl #endif 595 1.4 fvdl 596 1.4 fvdl (*l->l_proc->p_md.md_syscall)(tf); 597 1.4 fvdl 598 1.4 fvdl return 1; 599 1.4 fvdl } 600 1.5 fvdl 601 1.5 fvdl static void 602 1.5 fvdl linux_buildcontext(struct lwp *l, void *catcher, void *f) 603 1.5 fvdl { 604 1.5 fvdl struct trapframe *tf = l->l_md.md_regs; 605 1.5 fvdl 606 1.5 fvdl tf->tf_ds = GSEL(GUDATA_SEL, SEL_UPL); 607 1.5 fvdl tf->tf_rip = (u_int64_t)catcher; 608 1.5 fvdl tf->tf_cs = GSEL(GUCODE_SEL, SEL_UPL); 609 1.5 fvdl tf->tf_rflags &= ~(PSL_T|PSL_VM|PSL_AC); 610 1.5 fvdl tf->tf_rsp = (u_int64_t)f; 611 1.5 fvdl tf->tf_ss = GSEL(GUDATA_SEL, SEL_UPL); 612 1.5 fvdl } 613 1.9.2.1 yamt 614 1.9.2.2 yamt void * 615 1.9.2.1 yamt linux_get_newtls(l) 616 1.9.2.1 yamt struct lwp *l; 617 1.9.2.1 yamt { 618 1.9.2.1 yamt struct trapframe *tf = l->l_md.md_regs; 619 1.9.2.1 yamt 620 1.9.2.2 yamt return (void *)tf->tf_r8; 621 1.9.2.1 yamt } 622 1.9.2.1 yamt 623 1.9.2.1 yamt int 624 1.9.2.1 yamt linux_set_newtls(l, tls) 625 1.9.2.1 yamt struct lwp *l; 626 1.9.2.2 yamt void *tls; 627 1.9.2.1 yamt { 628 1.9.2.1 yamt struct linux_sys_arch_prctl_args cup; 629 1.9.2.1 yamt register_t retval; 630 1.9.2.1 yamt 631 1.9.2.1 yamt SCARG(&cup, code) = LINUX_ARCH_SET_FS; 632 1.9.2.2 yamt SCARG(&cup, addr) = (unsigned long)tls; 633 1.9.2.1 yamt 634 1.9.2.1 yamt return linux_sys_arch_prctl(l, &cup, &retval); 635 1.9.2.1 yamt } 636
Indexes created Tue Sep 30 20:09:53 GMT 2025