arch/amd64/linux_machdep.c

1.34  christos /*	$NetBSD: linux_machdep.c,v 1.34 2008/10/26 20:25:49 christos Exp $ */
 1.1      manu
 1.1      manu /*-
 1.1      manu  * Copyright (c) 2005 Emmanuel Dreyfus, all rights reserved.
 1.1      manu  *
 1.1      manu  * Redistribution and use in source and binary forms, with or without
 1.1      manu  * modification, are permitted provided that the following conditions
 1.1      manu  * are met:
 1.1      manu  * 1. Redistributions of source code must retain the above copyright
 1.1      manu  *    notice, this list of conditions and the following disclaimer.
 1.1      manu  * 2. Redistributions in binary form must reproduce the above copyright
 1.1      manu  *    notice, this list of conditions and the following disclaimer in the
 1.1      manu  *    documentation and/or other materials provided with the distribution.
 1.1      manu  * 3. All advertising materials mentioning features or use of this software
 1.1      manu  *    must display the following acknowledgement:
 1.1      manu  *	This product includes software developed by Emmanuel Dreyfus
 1.1      manu  * 4. The name of the author may not be used to endorse or promote
 1.1      manu  *    products derived from this software without specific prior written
 1.1      manu  *    permission.
 1.1      manu  *
 1.1      manu  * THIS SOFTWARE IS PROVIDED BY THE THE AUTHOR AND CONTRIBUTORS ``AS IS''
 1.1      manu  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
 1.1      manu  * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1      manu  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS
 1.1      manu  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1      manu  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1      manu  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1      manu  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1      manu  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1      manu  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1      manu  * POSSIBILITY OF SUCH DAMAGE.
 1.1      manu  */
 1.1      manu
 1.1      manu #include <sys/cdefs.h>
 1.1      manu
1.34  christos __KERNEL_RCSID(0, "$NetBSD: linux_machdep.c,v 1.34 2008/10/26 20:25:49 christos Exp $");
 1.1      manu
 1.1      manu #include <sys/param.h>
 1.1      manu #include <sys/types.h>
 1.1      manu #include <sys/systm.h>
 1.1      manu #include <sys/signal.h>
 1.1      manu #include <sys/exec.h>
 1.1      manu #include <sys/proc.h>
 1.1      manu #include <sys/ptrace.h> /* for process_read_fpregs() */
 1.1      manu #include <sys/user.h>
1.10      manu #include <sys/wait.h>
 1.1      manu #include <sys/ucontext.h>
1.21      manu #include <sys/conf.h>
 1.1      manu
 1.1      manu #include <machine/reg.h>
 1.1      manu #include <machine/pcb.h>
 1.1      manu #include <machine/fpu.h>
 1.1      manu #include <machine/mcontext.h>
 1.2      fvdl #include <machine/specialreg.h>
 1.2      fvdl #include <machine/vmparam.h>
1.30  jmcneill #include <machine/cpufunc.h>
 1.1      manu
1.21      manu /*
1.21      manu  * To see whether wscons is configured (for virtual console ioctl calls).
1.21      manu  */
1.21      manu #if defined(_KERNEL_OPT)
1.21      manu #include "wsdisplay.h"
1.21      manu #endif
1.21      manu #if (NWSDISPLAY > 0)
1.21      manu #include <dev/wscons/wsconsio.h>
1.21      manu #include <dev/wscons/wsdisplay_usl_io.h>
1.21      manu #endif
1.21      manu
1.21      manu
 1.1      manu #include <compat/linux/common/linux_signal.h>
 1.1      manu #include <compat/linux/common/linux_errno.h>
 1.1      manu #include <compat/linux/common/linux_exec.h>
 1.1      manu #include <compat/linux/common/linux_ioctl.h>
 1.1      manu #include <compat/linux/common/linux_prctl.h>
 1.1      manu #include <compat/linux/common/linux_machdep.h>
1.25     njoly #include <compat/linux/common/linux_ipc.h>
1.25     njoly #include <compat/linux/common/linux_sem.h>
 1.4      fvdl #include <compat/linux/linux_syscall.h>
 1.1      manu #include <compat/linux/linux_syscallargs.h>
 1.1      manu
 1.5      fvdl static void linux_buildcontext(struct lwp *, void *, void *);
 1.5      fvdl
 1.1      manu void
1.27       dsl linux_setregs(struct lwp *l, struct exec_package *epp, u_long stack)
 1.1      manu {
 1.1      manu 	struct pcb *pcb = &l->l_addr->u_pcb;
 1.1      manu 	struct trapframe *tf;
 1.1      manu
 1.1      manu 	/* If we were using the FPU, forget about it. */
 1.1      manu 	if (l->l_addr->u_pcb.pcb_fpcpu != NULL)
 1.1      manu 		fpusave_lwp(l, 0);
 1.1      manu
 1.1      manu 	l->l_md.md_flags &= ~MDP_USEDFPU;
 1.1      manu 	pcb->pcb_flags = 0;
 1.1      manu 	pcb->pcb_savefpu.fp_fxsave.fx_fcw = __NetBSD_NPXCW__;
 1.1      manu 	pcb->pcb_savefpu.fp_fxsave.fx_mxcsr = __INITIAL_MXCSR__;
 1.1      manu 	pcb->pcb_savefpu.fp_fxsave.fx_mxcsr_mask = __INITIAL_MXCSR_MASK__;
 1.4      fvdl 	pcb->pcb_fs = 0;
 1.4      fvdl 	pcb->pcb_gs = 0;
 1.1      manu
1.18     pavel 	l->l_proc->p_flag &= ~PK_32;
 1.1      manu
 1.1      manu 	tf = l->l_md.md_regs;
 1.1      manu 	tf->tf_rax = 0;
 1.1      manu 	tf->tf_rbx = 0;
 1.1      manu 	tf->tf_rcx = epp->ep_entry;
 1.1      manu 	tf->tf_rdx = 0;
 1.1      manu 	tf->tf_rsi = 0;
 1.1      manu 	tf->tf_rdi = 0;
 1.1      manu 	tf->tf_rbp = 0;
 1.1      manu 	tf->tf_rsp = stack;
 1.1      manu 	tf->tf_r8 = 0;
 1.1      manu 	tf->tf_r9 = 0;
 1.1      manu 	tf->tf_r10 = 0;
 1.1      manu 	tf->tf_r11 = 0;
 1.1      manu 	tf->tf_r12 = 0;
 1.1      manu 	tf->tf_r13 = 0;
 1.1      manu 	tf->tf_r14 = 0;
 1.1      manu 	tf->tf_r15 = 0;
 1.1      manu 	tf->tf_rip = epp->ep_entry;
 1.4      fvdl 	tf->tf_rflags = PSL_USERSET;
 1.4      fvdl 	tf->tf_cs = GSEL(GUCODE_SEL, SEL_UPL);
 1.4      fvdl 	tf->tf_ss = GSEL(GUDATA_SEL, SEL_UPL);
 1.1      manu 	tf->tf_ds = 0;
 1.1      manu 	tf->tf_es = 0;
 1.1      manu 	tf->tf_fs = 0;
 1.1      manu 	tf->tf_gs = 0;
 1.1      manu
 1.1      manu 	return;
 1.1      manu }
 1.1      manu
1.27       dsl void
1.26       dsl linux_sendsig(const ksiginfo_t *ksi, const sigset_t *mask)
 1.1      manu {
 1.1      manu 	struct lwp *l = curlwp;
 1.1      manu 	struct proc *p = l->l_proc;
 1.1      manu 	struct sigacts *ps = p->p_sigacts;
1.16        ad 	int onstack, error;
 1.1      manu 	int sig = ksi->ksi_signo;
 1.1      manu 	struct linux_rt_sigframe *sfp, sigframe;
 1.1      manu 	struct linux__fpstate *fpsp, fpstate;
 1.1      manu 	struct fpreg fpregs;
 1.1      manu 	struct trapframe *tf = l->l_md.md_regs;
 1.1      manu 	sig_t catcher = SIGACTION(p, sig).sa_handler;
 1.1      manu 	linux_sigset_t lmask;
 1.1      manu 	char *sp;
 1.4      fvdl
 1.1      manu 	/* Do we need to jump onto the signal stack? */
 1.1      manu 	onstack =
1.17        ad 	    (l->l_sigstk.ss_flags & (SS_DISABLE | SS_ONSTACK)) == 0 &&
 1.1      manu 	    (SIGACTION(p, sig).sa_flags & SA_ONSTACK) != 0;
 1.1      manu
 1.1      manu 	/* Allocate space for the signal handler context. */
 1.1      manu 	if (onstack)
1.20  christos 		sp = ((char *)l->l_sigstk.ss_sp +
1.17        ad 		    l->l_sigstk.ss_size);
 1.1      manu 	else
1.20  christos 		sp = (char *)tf->tf_rsp - 128;
 1.1      manu
 1.1      manu 	/*
 1.1      manu 	 * Save FPU state, if any
 1.1      manu 	 */
 1.1      manu 	if (l->l_md.md_flags & MDP_USEDFPU) {
 1.1      manu 		sp = (char *)
 1.1      manu 		    (((long)sp - sizeof(struct linux__fpstate)) & ~0xfUL);
 1.1      manu 		fpsp = (struct linux__fpstate *)sp;
1.17        ad 	} else
 1.1      manu 		fpsp = NULL;
 1.1      manu
 1.1      manu 	/*
 1.1      manu 	 * Populate the rt_sigframe
 1.1      manu 	 */
 1.1      manu 	sp = (char *)
 1.1      manu 	    ((((long)sp - sizeof(struct linux_rt_sigframe)) & ~0xfUL) - 8);
 1.1      manu 	sfp = (struct linux_rt_sigframe *)sp;
 1.1      manu
 1.1      manu 	bzero(&sigframe, sizeof(sigframe));
 1.3      manu 	if (ps->sa_sigdesc[sig].sd_vers != 0)
 1.7      manu 		sigframe.pretcode =
 1.7      manu 		    (char *)(u_long)ps->sa_sigdesc[sig].sd_tramp;
 1.3      manu 	else
 1.3      manu 		sigframe.pretcode = NULL;
 1.1      manu
 1.1      manu 	/*
 1.1      manu 	 * The user context
 1.1      manu 	 */
 1.1      manu 	sigframe.uc.luc_flags = 0;
 1.1      manu 	sigframe.uc.luc_link = NULL;
 1.1      manu
 1.1      manu 	/* This is used regardless of SA_ONSTACK in Linux */
1.17        ad 	sigframe.uc.luc_stack.ss_sp = l->l_sigstk.ss_sp;
1.17        ad 	sigframe.uc.luc_stack.ss_size = l->l_sigstk.ss_size;
 1.1      manu 	sigframe.uc.luc_stack.ss_flags = 0;
1.17        ad 	if (l->l_sigstk.ss_flags & SS_ONSTACK)
 1.1      manu 		sigframe.uc.luc_stack.ss_flags |= LINUX_SS_ONSTACK;
1.17        ad 	if (l->l_sigstk.ss_flags & SS_DISABLE)
 1.1      manu 		sigframe.uc.luc_stack.ss_flags |= LINUX_SS_DISABLE;
 1.1      manu
 1.1      manu 	sigframe.uc.luc_mcontext.r8 = tf->tf_r8;
 1.1      manu 	sigframe.uc.luc_mcontext.r9 = tf->tf_r9;
 1.1      manu 	sigframe.uc.luc_mcontext.r10 = tf->tf_r10;
 1.1      manu 	sigframe.uc.luc_mcontext.r11 = tf->tf_r11;
 1.1      manu 	sigframe.uc.luc_mcontext.r12 = tf->tf_r12;
 1.1      manu 	sigframe.uc.luc_mcontext.r13 = tf->tf_r13;
 1.1      manu 	sigframe.uc.luc_mcontext.r14 = tf->tf_r14;
 1.1      manu 	sigframe.uc.luc_mcontext.r15 = tf->tf_r15;
 1.1      manu 	sigframe.uc.luc_mcontext.rdi = tf->tf_rdi;
 1.1      manu 	sigframe.uc.luc_mcontext.rsi = tf->tf_rsi;
 1.1      manu 	sigframe.uc.luc_mcontext.rbp = tf->tf_rbp;
 1.1      manu 	sigframe.uc.luc_mcontext.rbx = tf->tf_rbx;
 1.1      manu 	sigframe.uc.luc_mcontext.rdx = tf->tf_rdx;
1.23     njoly 	sigframe.uc.luc_mcontext.rax = tf->tf_rax;
 1.1      manu 	sigframe.uc.luc_mcontext.rcx = tf->tf_rcx;
 1.1      manu 	sigframe.uc.luc_mcontext.rsp = tf->tf_rsp;
 1.6      fvdl 	sigframe.uc.luc_mcontext.rip = tf->tf_rip;
 1.1      manu 	sigframe.uc.luc_mcontext.eflags = tf->tf_rflags;
 1.1      manu 	sigframe.uc.luc_mcontext.cs = tf->tf_cs;
 1.1      manu 	sigframe.uc.luc_mcontext.gs = tf->tf_gs;
 1.1      manu 	sigframe.uc.luc_mcontext.fs = tf->tf_fs;
 1.1      manu 	sigframe.uc.luc_mcontext.err = tf->tf_err;
 1.1      manu 	sigframe.uc.luc_mcontext.trapno = tf->tf_trapno;
 1.1      manu 	native_to_linux_sigset(&lmask, mask);
 1.1      manu 	sigframe.uc.luc_mcontext.oldmask = lmask.sig[0];
 1.1      manu 	sigframe.uc.luc_mcontext.cr2 = (long)l->l_addr->u_pcb.pcb_onfault;
 1.1      manu 	sigframe.uc.luc_mcontext.fpstate = fpsp;
 1.1      manu 	native_to_linux_sigset(&sigframe.uc.luc_sigmask, mask);
 1.1      manu
 1.1      manu 	/*
 1.1      manu 	 * the siginfo structure
 1.1      manu 	 */
 1.1      manu 	sigframe.info.lsi_signo = native_to_linux_signo[sig];
 1.1      manu 	sigframe.info.lsi_errno = native_to_linux_errno[ksi->ksi_errno];
1.33     njoly 	sigframe.info.lsi_code = native_to_linux_si_code(ksi->ksi_code);
 1.1      manu
 1.1      manu 	/* XXX This is a rought conversion, taken from i386 code */
 1.1      manu 	switch (sigframe.info.lsi_signo) {
 1.1      manu 	case LINUX_SIGILL:
 1.1      manu 	case LINUX_SIGFPE:
 1.1      manu 	case LINUX_SIGSEGV:
 1.1      manu 	case LINUX_SIGBUS:
 1.1      manu 	case LINUX_SIGTRAP:
 1.1      manu 		sigframe.info._sifields._sigfault._addr = ksi->ksi_addr;
 1.1      manu 		break;
 1.1      manu 	case LINUX_SIGCHLD:
 1.1      manu 		sigframe.info._sifields._sigchld._pid = ksi->ksi_pid;
 1.1      manu 		sigframe.info._sifields._sigchld._uid = ksi->ksi_uid;
 1.1      manu 		sigframe.info._sifields._sigchld._utime = ksi->ksi_utime;
 1.1      manu 		sigframe.info._sifields._sigchld._stime = ksi->ksi_stime;
 1.9      manu
 1.9      manu 		if (WCOREDUMP(ksi->ksi_status)) {
 1.9      manu 			sigframe.info.lsi_code = LINUX_CLD_DUMPED;
 1.9      manu 			sigframe.info._sifields._sigchld._status =
 1.9      manu 			    _WSTATUS(ksi->ksi_status);
 1.9      manu 		} else if (_WSTATUS(ksi->ksi_status)) {
 1.9      manu 			sigframe.info.lsi_code = LINUX_CLD_KILLED;
 1.9      manu 			sigframe.info._sifields._sigchld._status =
 1.9      manu 			    _WSTATUS(ksi->ksi_status);
 1.9      manu 		} else {
 1.9      manu 			sigframe.info.lsi_code = LINUX_CLD_EXITED;
 1.9      manu 			sigframe.info._sifields._sigchld._status =
 1.9      manu 			    ((ksi->ksi_status & 0xff00U) >> 8);
 1.9      manu 		}
 1.1      manu 		break;
 1.1      manu 	case LINUX_SIGIO:
 1.1      manu 		sigframe.info._sifields._sigpoll._band = ksi->ksi_band;
 1.1      manu 		sigframe.info._sifields._sigpoll._fd = ksi->ksi_fd;
 1.1      manu 		break;
 1.1      manu 	default:
 1.1      manu 		sigframe.info._sifields._sigchld._pid = ksi->ksi_pid;
 1.1      manu 		sigframe.info._sifields._sigchld._uid = ksi->ksi_uid;
 1.1      manu 		if ((sigframe.info.lsi_signo == LINUX_SIGALRM) ||
 1.1      manu 		    (sigframe.info.lsi_signo >= LINUX_SIGRTMIN))
 1.1      manu 			sigframe.info._sifields._timer._sigval.sival_ptr =
1.22  christos 			     ksi->ksi_value.sival_ptr;
 1.1      manu 		break;
 1.1      manu 	}
 1.1      manu
1.16        ad 	sendsig_reset(l, sig);
1.29        ad 	mutex_exit(p->p_lock);
1.17        ad 	error = 0;
1.17        ad
1.17        ad 	/*
1.17        ad 	 * Save FPU state, if any
1.17        ad 	 */
1.17        ad 	if (fpsp != NULL) {
1.17        ad 		(void)process_read_fpregs(l, &fpregs);
1.17        ad 		bzero(&fpstate, sizeof(fpstate));
1.17        ad 		fpstate.cwd = fpregs.fp_fcw;
1.17        ad 		fpstate.swd = fpregs.fp_fsw;
1.17        ad 		fpstate.twd = fpregs.fp_ftw;
1.17        ad 		fpstate.fop = fpregs.fp_fop;
1.17        ad 		fpstate.rip = fpregs.fp_rip;
1.17        ad 		fpstate.rdp = fpregs.fp_rdp;
1.17        ad 		fpstate.mxcsr = fpregs.fp_mxcsr;
1.17        ad 		fpstate.mxcsr_mask = fpregs.fp_mxcsr_mask;
1.17        ad 		memcpy(&fpstate.st_space, &fpregs.fp_st,
1.17        ad 		    sizeof(fpstate.st_space));
1.17        ad 		memcpy(&fpstate.xmm_space, &fpregs.fp_xmm,
1.17        ad 		    sizeof(fpstate.xmm_space));
1.17        ad 		error = copyout(&fpstate, fpsp, sizeof(fpstate));
1.17        ad 	}
1.17        ad
1.17        ad 	if (error == 0)
1.17        ad 		error = copyout(&sigframe, sp, sizeof(sigframe));
1.17        ad
1.29        ad 	mutex_enter(p->p_lock);
1.16        ad
1.16        ad 	if (error != 0) {
 1.1      manu 		sigexit(l, SIGILL);
 1.1      manu 		return;
 1.1      manu 	}
 1.1      manu
 1.6      fvdl 	linux_buildcontext(l, catcher, sp);
 1.1      manu 	tf->tf_rdi = sigframe.info.lsi_signo;
 1.1      manu 	tf->tf_rax = 0;
 1.1      manu 	tf->tf_rsi = (long)&sfp->info;
 1.1      manu 	tf->tf_rdx = (long)&sfp->uc;
 1.1      manu
 1.1      manu 	/*
 1.1      manu 	 * Remember we use signal stack
 1.1      manu 	 */
 1.1      manu 	if (onstack)
1.17        ad 		l->l_sigstk.ss_flags |= SS_ONSTACK;
 1.1      manu 	return;
 1.1      manu }
 1.1      manu
1.27       dsl int
1.27       dsl linux_sys_modify_ldt(struct lwp *l, const struct linux_sys_modify_ldt_args *v, register_t *retval)
1.27       dsl {
1.14      manu 	printf("linux_sys_modify_ldt\n");
 1.1      manu 	return 0;
 1.1      manu }
 1.1      manu
1.27       dsl int
1.27       dsl linux_sys_iopl(struct lwp *l, const struct linux_sys_iopl_args *v, register_t *retval)
1.27       dsl {
 1.1      manu 	return 0;
 1.1      manu }
 1.1      manu
1.27       dsl int
1.27       dsl linux_sys_ioperm(struct lwp *l, const struct linux_sys_ioperm_args *v, register_t *retval)
1.27       dsl {
 1.1      manu 	return 0;
 1.1      manu }
 1.1      manu
 1.1      manu dev_t
1.26       dsl linux_fakedev(dev_t dev, int raw)
 1.1      manu {
1.21      manu
1.21      manu        extern const struct cdevsw ptc_cdevsw, pts_cdevsw;
1.21      manu        const struct cdevsw *cd = cdevsw_lookup(dev);
1.21      manu
1.21      manu        if (raw) {
1.21      manu #if (NWSDISPLAY > 0)
1.21      manu 	       extern const struct cdevsw wsdisplay_cdevsw;
1.21      manu 	       if (cd == &wsdisplay_cdevsw)
1.21      manu 		       return makedev(LINUX_CONS_MAJOR, (minor(dev) + 1));
1.21      manu #endif
1.21      manu        }
1.21      manu
1.21      manu        if (cd == &ptc_cdevsw)
1.21      manu 	       return makedev(LINUX_PTC_MAJOR, minor(dev));
1.21      manu        if (cd == &pts_cdevsw)
1.21      manu 	       return makedev(LINUX_PTS_MAJOR, minor(dev));
1.21      manu
1.15      manu 	return ((minor(dev) & 0xff) | ((major(dev) & 0xfff) << 8)
1.15      manu 	    | (((unsigned long long int) (minor(dev) & ~0xff)) << 12)
1.15      manu 	    | (((unsigned long long int) (major(dev) & ~0xfff)) << 32));
 1.1      manu }
 1.1      manu
1.27       dsl int
1.27       dsl linux_machdepioctl(struct lwp *l, const struct linux_sys_ioctl_args *v, register_t *retval)
1.27       dsl {
 1.1      manu 	return 0;
 1.1      manu }
 1.1      manu
 1.1      manu int
1.27       dsl linux_sys_rt_sigreturn(struct lwp *l, const void *v, register_t *retval)
1.27       dsl {
 1.6      fvdl 	struct linux_ucontext *luctx;
 1.1      manu 	struct trapframe *tf = l->l_md.md_regs;
 1.1      manu 	struct linux_sigcontext *lsigctx;
 1.1      manu 	struct linux__fpstate fpstate;
 1.6      fvdl 	struct linux_rt_sigframe frame, *fp;
 1.1      manu 	ucontext_t uctx;
 1.1      manu 	mcontext_t *mctx;
1.24        ad 	struct fxsave64 *fxarea;
 1.1      manu 	int error;
 1.1      manu
 1.6      fvdl 	fp = (struct linux_rt_sigframe *)(tf->tf_rsp - 8);
 1.6      fvdl 	if ((error = copyin(fp, &frame, sizeof(frame))) != 0) {
1.29        ad 		mutex_enter(l->l_proc->p_lock);
 1.1      manu 		sigexit(l, SIGILL);
 1.1      manu 		return error;
 1.1      manu 	}
 1.6      fvdl 	luctx = &frame.uc;
 1.6      fvdl 	lsigctx = &luctx->luc_mcontext;
 1.1      manu
 1.1      manu 	bzero(&uctx, sizeof(uctx));
 1.1      manu 	mctx = (mcontext_t *)&uctx.uc_mcontext;
1.24        ad 	fxarea = (struct fxsave64 *)&mctx->__fpregs;
 1.1      manu
 1.1      manu 	/*
 1.1      manu 	 * Set the flags. Linux always have CPU, stack and signal state,
 1.1      manu 	 * FPU is optional. uc_flags is not used to tell what we have.
 1.1      manu 	 */
 1.1      manu 	uctx.uc_flags = (_UC_SIGMASK|_UC_CPU|_UC_STACK|_UC_CLRSTACK);
 1.1      manu 	if (lsigctx->fpstate != NULL)
 1.1      manu 		uctx.uc_flags |= _UC_FPU;
 1.1      manu 	uctx.uc_link = NULL;
 1.1      manu
 1.1      manu 	/*
 1.1      manu 	 * Signal set
 1.1      manu 	 */
 1.6      fvdl 	linux_to_native_sigset(&uctx.uc_sigmask, &luctx->luc_sigmask);
 1.1      manu
 1.1      manu 	/*
 1.1      manu 	 * CPU state
 1.1      manu 	 */
 1.1      manu 	mctx->__gregs[_REG_R8] = lsigctx->r8;
 1.1      manu 	mctx->__gregs[_REG_R9] = lsigctx->r9;
 1.1      manu 	mctx->__gregs[_REG_R10] = lsigctx->r10;
 1.1      manu 	mctx->__gregs[_REG_R11] = lsigctx->r11;
 1.1      manu 	mctx->__gregs[_REG_R12] = lsigctx->r12;
 1.1      manu 	mctx->__gregs[_REG_R13] = lsigctx->r13;
 1.1      manu 	mctx->__gregs[_REG_R14] = lsigctx->r14;
 1.1      manu 	mctx->__gregs[_REG_R15] = lsigctx->r15;
 1.1      manu 	mctx->__gregs[_REG_RDI] = lsigctx->rdi;
 1.1      manu 	mctx->__gregs[_REG_RSI] = lsigctx->rsi;
 1.1      manu 	mctx->__gregs[_REG_RBP] = lsigctx->rbp;
 1.1      manu 	mctx->__gregs[_REG_RBX] = lsigctx->rbx;
1.23     njoly 	mctx->__gregs[_REG_RAX] = lsigctx->rax;
 1.1      manu 	mctx->__gregs[_REG_RDX] = lsigctx->rdx;
 1.1      manu 	mctx->__gregs[_REG_RCX] = lsigctx->rcx;
 1.1      manu 	mctx->__gregs[_REG_RIP] = lsigctx->rip;
1.28       dsl 	mctx->__gregs[_REG_RFLAGS] = lsigctx->eflags;
 1.1      manu 	mctx->__gregs[_REG_CS] = lsigctx->cs;
 1.1      manu 	mctx->__gregs[_REG_GS] = lsigctx->gs;
 1.1      manu 	mctx->__gregs[_REG_FS] = lsigctx->fs;
 1.1      manu 	mctx->__gregs[_REG_ERR] = lsigctx->err;
 1.1      manu 	mctx->__gregs[_REG_TRAPNO] = lsigctx->trapno;
 1.1      manu 	mctx->__gregs[_REG_ES] = tf->tf_es;
 1.1      manu 	mctx->__gregs[_REG_DS] = tf->tf_ds;
1.28       dsl 	mctx->__gregs[_REG_RSP] = lsigctx->rsp; /* XXX */
 1.1      manu 	mctx->__gregs[_REG_SS] = tf->tf_ss;
 1.1      manu
 1.1      manu 	/*
 1.1      manu 	 * FPU state
 1.1      manu 	 */
 1.1      manu 	if (lsigctx->fpstate != NULL) {
 1.1      manu 		error = copyin(lsigctx->fpstate, &fpstate, sizeof(fpstate));
 1.1      manu 		if (error != 0) {
1.29        ad 			mutex_enter(l->l_proc->p_lock);
 1.1      manu 			sigexit(l, SIGILL);
 1.1      manu 			return error;
 1.1      manu 		}
 1.1      manu
1.24        ad 		fxarea->fx_fcw = fpstate.cwd;
1.24        ad 		fxarea->fx_fsw = fpstate.swd;
1.24        ad 		fxarea->fx_ftw = fpstate.twd;
1.24        ad 		fxarea->fx_fop = fpstate.fop;
1.24        ad 		fxarea->fx_rip = fpstate.rip;
1.24        ad 		fxarea->fx_rdp = fpstate.rdp;
1.24        ad 		fxarea->fx_mxcsr = fpstate.mxcsr;
1.24        ad 		fxarea->fx_mxcsr_mask = fpstate.mxcsr_mask;
1.24        ad 		memcpy(&fxarea->fx_st, &fpstate.st_space,
1.24        ad 		    sizeof(fxarea->fx_st));
1.24        ad 		memcpy(&fxarea->fx_xmm, &fpstate.xmm_space,
1.24        ad 		    sizeof(fxarea->fx_xmm));
 1.1      manu 	}
 1.1      manu
 1.1      manu 	/*
 1.1      manu 	 * And the stack
 1.1      manu 	 */
 1.1      manu 	uctx.uc_stack.ss_flags = 0;
1.31  jmcneill 	if (luctx->luc_stack.ss_flags & LINUX_SS_ONSTACK)
1.31  jmcneill 		uctx.uc_stack.ss_flags |= SS_ONSTACK;
 1.1      manu
1.31  jmcneill 	if (luctx->luc_stack.ss_flags & LINUX_SS_DISABLE)
1.31  jmcneill 		uctx.uc_stack.ss_flags |= SS_DISABLE;
 1.1      manu
 1.6      fvdl 	uctx.uc_stack.ss_sp = luctx->luc_stack.ss_sp;
 1.6      fvdl 	uctx.uc_stack.ss_size = luctx->luc_stack.ss_size;
 1.1      manu
 1.1      manu 	/*
 1.1      manu 	 * And let setucontext deal with that.
 1.1      manu 	 */
1.29        ad 	mutex_enter(l->l_proc->p_lock);
1.16        ad 	error = setucontext(l, &uctx);
1.29        ad 	mutex_exit(l->l_proc->p_lock);
1.23     njoly 	if (error)
1.23     njoly 		return error;
1.16        ad
1.23     njoly 	return EJUSTRETURN;
 1.1      manu }
 1.1      manu
 1.1      manu int
1.27       dsl linux_sys_arch_prctl(struct lwp *l, const struct linux_sys_arch_prctl_args *uap, register_t *retval)
 1.1      manu {
1.27       dsl 	/* {
 1.1      manu 		syscallarg(int) code;
 1.1      manu 		syscallarg(unsigned long) addr;
1.27       dsl 	} */
 1.2      fvdl 	struct pcb *pcb = &l->l_addr->u_pcb;
 1.2      fvdl 	struct trapframe *tf = l->l_md.md_regs;
 1.1      manu 	int error;
 1.2      fvdl 	uint64_t taddr;
 1.1      manu
 1.1      manu 	switch(SCARG(uap, code)) {
 1.1      manu 	case LINUX_ARCH_SET_GS:
 1.2      fvdl 		taddr = SCARG(uap, addr);
 1.2      fvdl 		if (taddr >= VM_MAXUSER_ADDRESS)
 1.2      fvdl 			return EINVAL;
 1.2      fvdl 		pcb->pcb_gs = taddr;
 1.2      fvdl 		pcb->pcb_flags |= PCB_GS64;
 1.2      fvdl 		if (l == curlwp)
 1.2      fvdl 			wrmsr(MSR_KERNELGSBASE, taddr);
 1.1      manu 		break;
 1.1      manu
 1.1      manu 	case LINUX_ARCH_GET_GS:
 1.2      fvdl 		if (pcb->pcb_flags & PCB_GS64)
 1.2      fvdl 			taddr = pcb->pcb_gs;
 1.2      fvdl 		else {
 1.2      fvdl 			error = memseg_baseaddr(l, tf->tf_fs, NULL, 0, &taddr);
 1.2      fvdl 			if (error != 0)
 1.2      fvdl 				return error;
 1.2      fvdl 		}
 1.2      fvdl 		error = copyout(&taddr, (char *)SCARG(uap, addr), 8);
 1.2      fvdl 		if (error != 0)
 1.1      manu 			return error;
 1.1      manu 		break;
 1.1      manu
 1.1      manu 	case LINUX_ARCH_SET_FS:
 1.2      fvdl 		taddr = SCARG(uap, addr);
 1.2      fvdl 		if (taddr >= VM_MAXUSER_ADDRESS)
 1.2      fvdl 			return EINVAL;
 1.2      fvdl 		pcb->pcb_fs = taddr;
 1.2      fvdl 		pcb->pcb_flags |= PCB_FS64;
 1.2      fvdl 		if (l == curlwp)
 1.2      fvdl 			wrmsr(MSR_FSBASE, taddr);
 1.1      manu 		break;
 1.1      manu
 1.1      manu 	case LINUX_ARCH_GET_FS:
 1.2      fvdl 		if (pcb->pcb_flags & PCB_FS64)
 1.2      fvdl 			taddr = pcb->pcb_fs;
 1.2      fvdl 		else {
 1.2      fvdl 			error = memseg_baseaddr(l, tf->tf_fs, NULL, 0, &taddr);
 1.2      fvdl 			if (error != 0)
 1.2      fvdl 				return error;
 1.2      fvdl 		}
 1.2      fvdl 		error = copyout(&taddr, (char *)SCARG(uap, addr), 8);
 1.2      fvdl 		if (error != 0)
 1.1      manu 			return error;
 1.1      manu 		break;
 1.1      manu
 1.1      manu 	default:
 1.1      manu #ifdef DEBUG_LINUX
 1.1      manu 		printf("linux_sys_arch_prctl: unexpected code %d\n",
 1.1      manu 		    SCARG(uap, code));
 1.1      manu #endif
 1.1      manu 		return EINVAL;
 1.1      manu 	}
 1.1      manu
 1.1      manu 	return 0;
 1.1      manu }
 1.4      fvdl
 1.4      fvdl const int linux_vsyscall_to_syscall[] = {
 1.4      fvdl 	LINUX_SYS_gettimeofday,
 1.4      fvdl 	LINUX_SYS_time,
1.34  christos 	LINUX_SYS_nosys,	/* nosys */
1.34  christos 	LINUX_SYS_nosys,	/* nosys */
 1.4      fvdl };
 1.4      fvdl
 1.4      fvdl int
 1.4      fvdl linux_usertrap(struct lwp *l, vaddr_t trapaddr, void *arg)
 1.4      fvdl {
 1.4      fvdl 	struct trapframe *tf = arg;
 1.4      fvdl 	uint64_t retaddr;
 1.4      fvdl 	int vsyscallnr;
 1.4      fvdl
 1.4      fvdl 	/*
 1.4      fvdl 	 * Check for a vsyscall. %rip must be the fault address,
 1.4      fvdl 	 * and the address must be in the Linux vsyscall area.
 1.4      fvdl 	 * Also, vsyscalls are only done at 1024-byte boundaries.
 1.4      fvdl 	 */
 1.4      fvdl
 1.4      fvdl 	if (__predict_true(trapaddr < LINUX_VSYSCALL_START))
 1.4      fvdl 		return 0;
 1.4      fvdl
 1.4      fvdl 	if (trapaddr != tf->tf_rip)
 1.4      fvdl 		return 0;
 1.4      fvdl
 1.4      fvdl 	if ((tf->tf_rip & (LINUX_VSYSCALL_SIZE - 1)) != 0)
 1.4      fvdl 		return 0;
 1.4      fvdl
 1.4      fvdl 	vsyscallnr = (tf->tf_rip - LINUX_VSYSCALL_START) / LINUX_VSYSCALL_SIZE;
 1.4      fvdl
 1.4      fvdl 	if (vsyscallnr > LINUX_VSYSCALL_MAXNR)
 1.4      fvdl 		return 0;
 1.4      fvdl
 1.4      fvdl 	/*
 1.4      fvdl 	 * Get the return address from the top of the stack,
 1.4      fvdl 	 * and fix up the return address.
 1.4      fvdl 	 * This assumes the faulting instruction was callq *reg,
 1.4      fvdl 	 * which is the only way that vsyscalls are ever entered.
 1.4      fvdl 	 */
 1.4      fvdl 	if (copyin((void *)tf->tf_rsp, &retaddr, sizeof retaddr) != 0)
 1.4      fvdl 		return 0;
 1.4      fvdl 	tf->tf_rip = retaddr;
 1.4      fvdl 	tf->tf_rax = linux_vsyscall_to_syscall[vsyscallnr];
 1.4      fvdl 	tf->tf_rsp += 8;	/* "pop" the return address */
 1.4      fvdl
 1.4      fvdl #if 0
 1.4      fvdl 	printf("usertrap: rip %p rsp %p retaddr %p vsys %d sys %d\n",
 1.4      fvdl 	    (void *)tf->tf_rip, (void *)tf->tf_rsp, (void *)retaddr,
 1.4      fvdl 	    vsyscallnr, (int)tf->tf_rax);
 1.4      fvdl #endif
 1.4      fvdl
 1.4      fvdl 	(*l->l_proc->p_md.md_syscall)(tf);
 1.4      fvdl
 1.4      fvdl 	return 1;
 1.4      fvdl }
 1.5      fvdl
 1.5      fvdl static void
 1.5      fvdl linux_buildcontext(struct lwp *l, void *catcher, void *f)
 1.5      fvdl {
 1.5      fvdl 	struct trapframe *tf = l->l_md.md_regs;
 1.5      fvdl
 1.5      fvdl 	tf->tf_ds = GSEL(GUDATA_SEL, SEL_UPL);
 1.5      fvdl 	tf->tf_rip = (u_int64_t)catcher;
 1.5      fvdl 	tf->tf_cs = GSEL(GUCODE_SEL, SEL_UPL);
1.32  christos 	tf->tf_rflags &= ~PSL_CLEARSIG;
 1.5      fvdl 	tf->tf_rsp = (u_int64_t)f;
 1.5      fvdl 	tf->tf_ss = GSEL(GUDATA_SEL, SEL_UPL);
 1.5      fvdl }
1.11      manu
1.14      manu void *
1.26       dsl linux_get_newtls(struct lwp *l)
1.11      manu {
1.11      manu 	struct trapframe *tf = l->l_md.md_regs;
1.11      manu
1.14      manu 	return (void *)tf->tf_r8;
1.11      manu }
1.11      manu
1.11      manu int
1.26       dsl linux_set_newtls(struct lwp *l, void *tls)
1.11      manu {
1.11      manu 	struct linux_sys_arch_prctl_args cup;
1.11      manu 	register_t retval;
1.11      manu
1.11      manu 	SCARG(&cup, code) = LINUX_ARCH_SET_FS;
1.14      manu 	SCARG(&cup, addr) = (unsigned long)tls;
1.11      manu
1.11      manu 	return linux_sys_arch_prctl(l, &cup, &retval);
1.11      manu }