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41bdb6e20c
2001-07-06 Paul Eggert <eggert@twinsun.com> * manual/argp.texi: Remove ignored LGPL copyright notice; it's not appropriate for documentation anyway. * manual/libc-texinfo.sh: "Library General Public License" -> "Lesser General Public License". 2001-07-06 Andreas Jaeger <aj@suse.de> * All files under GPL/LGPL version 2: Place under LGPL version 2.1.
293 lines
10 KiB
C
293 lines
10 KiB
C
/* Set thread_state for sighandler, and sigcontext to recover. MIPS version.
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Copyright (C) 1996, 1997, 1998 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, write to the Free
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Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
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02111-1307 USA. */
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#include <hurd/signal.h>
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#include <hurd/userlink.h>
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#include "thread_state.h"
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#include <assert.h>
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#include <errno.h>
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#include "hurdfault.h"
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#include "intr-msg.h"
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struct sigcontext *
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_hurd_setup_sighandler (struct hurd_sigstate *ss, __sighandler_t handler,
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int signo, struct hurd_signal_detail *detail,
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volatile int rpc_wait,
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struct machine_thread_all_state *state)
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{
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__label__ trampoline, rpc_wait_trampoline, firewall;
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void *volatile sigsp;
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struct sigcontext *scp;
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struct
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{
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int signo;
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long int sigcode;
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struct sigcontext *scp; /* Points to ctx, below. */
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void *sigreturn_addr;
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void *sigreturn_returns_here;
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struct sigcontext *return_scp; /* Same; arg to sigreturn. */
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struct sigcontext ctx;
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struct hurd_userlink link;
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} *stackframe;
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if (ss->context)
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{
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/* We have a previous sigcontext that sigreturn was about
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to restore when another signal arrived. We will just base
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our setup on that. */
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if (! _hurdsig_catch_memory_fault (ss->context))
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{
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memcpy (&state->basic, &ss->context->sc_mips_thread_state,
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sizeof (state->basic));
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memcpy (&state->exc, &ss->context->sc_mips_exc_state,
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sizeof (state->exc));
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state->set = (1 << MIPS_THREAD_STATE) | (1 << MIPS_EXC_STATE);
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if (state->exc.coproc_state & SC_COPROC_USE_FPU)
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{
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memcpy (&state->fpu, &ss->context->sc_mips_float_state,
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sizeof (state->fpu));
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state->set |= (1 << MIPS_FLOAT_STATE);
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}
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}
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}
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if (! machine_get_basic_state (ss->thread, state))
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return NULL;
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/* Save the original SP in the gratuitous s0 ($16) slot.
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We may need to reset the SP (the `r29' slot) to avoid clobbering an
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interrupted RPC frame. */
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state->basic.r16 = state->basic.r29;
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if ((ss->actions[signo].sa_flags & SA_ONSTACK) &&
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!(ss->sigaltstack.ss_flags & (SS_DISABLE|SS_ONSTACK)))
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{
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sigsp = ss->sigaltstack.ss_sp + ss->sigaltstack.ss_size;
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ss->sigaltstack.ss_flags |= SS_ONSTACK;
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/* XXX need to set up base of new stack for
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per-thread variables, cthreads. */
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}
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else
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sigsp = (char *) state->basic.r29;
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/* Push the arguments to call `trampoline' on the stack. */
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sigsp -= sizeof (*stackframe);
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stackframe = sigsp;
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if (_hurdsig_catch_memory_fault (stackframe))
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{
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/* We got a fault trying to write the stack frame.
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We cannot set up the signal handler.
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Returning NULL tells our caller, who will nuke us with a SIGILL. */
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return NULL;
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}
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else
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{
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int ok;
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extern void _hurdsig_longjmp_from_handler (void *, jmp_buf, int);
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/* Add a link to the thread's active-resources list. We mark this as
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the only user of the "resource", so the cleanup function will be
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called by any longjmp which is unwinding past the signal frame.
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The cleanup function (in sigunwind.c) will make sure that all the
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appropriate cleanups done by sigreturn are taken care of. */
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stackframe->link.cleanup = &_hurdsig_longjmp_from_handler;
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stackframe->link.cleanup_data = &stackframe->ctx;
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stackframe->link.resource.next = NULL;
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stackframe->link.resource.prevp = NULL;
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stackframe->link.thread.next = ss->active_resources;
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stackframe->link.thread.prevp = &ss->active_resources;
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if (stackframe->link.thread.next)
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stackframe->link.thread.next->thread.prevp
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= &stackframe->link.thread.next;
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ss->active_resources = &stackframe->link;
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/* Set up the arguments for the signal handler. */
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stackframe->signo = signo;
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stackframe->sigcode = detail->code;
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stackframe->scp = stackframe->return_scp = scp = &stackframe->ctx;
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stackframe->sigreturn_addr = &__sigreturn;
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stackframe->sigreturn_returns_here = &&firewall; /* Crash on return. */
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/* Set up the sigcontext from the current state of the thread. */
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scp->sc_onstack = ss->sigaltstack.ss_flags & SS_ONSTACK ? 1 : 0;
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/* struct sigcontext is laid out so that starting at sc_gpr
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mimics a struct mips_thread_state. */
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memcpy (&scp->sc_mips_thread_state,
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&state->basic, sizeof (state->basic));
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/* struct sigcontext is laid out so that starting at sc_cause
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mimics a struct mips_exc_state. */
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ok = machine_get_state (ss->thread, state, MIPS_EXC_STATE,
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&state->exc, &scp->sc_cause,
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sizeof (state->exc));
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if (ok && (scp->sc_coproc_used & SC_COPROC_USE_FPU))
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/* struct sigcontext is laid out so that starting at sc_fpr
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mimics a struct mips_float_state. This state
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is only meaningful if the coprocessor was used. */
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ok = machine_get_state (ss->thread, state, MIPS_FLOAT_STATE,
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&state->fpu, &scp->sc_mips_float_state,
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sizeof (state->fpu));
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_hurdsig_end_catch_fault ();
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if (! ok)
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return NULL;
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}
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/* Modify the thread state to call the trampoline code on the new stack. */
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if (rpc_wait)
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{
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/* The signalee thread was blocked in a mach_msg_trap system call,
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still waiting for a reply. We will have it run the special
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trampoline code which retries the message receive before running
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the signal handler.
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To do this we change the OPTION argument in its registers to
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enable only message reception, since the request message has
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already been sent. */
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/* The system call arguments are stored in consecutive registers
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starting with a0 ($4). */
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struct mach_msg_trap_args *args = (void *) &state->basic.r4;
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if (_hurdsig_catch_memory_fault (args))
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{
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/* Faulted accessing ARGS. Bomb. */
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return NULL;
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}
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assert (args->option & MACH_RCV_MSG);
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/* Disable the message-send, since it has already completed. The
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calls we retry need only wait to receive the reply message. */
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args->option &= ~MACH_SEND_MSG;
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/* Limit the time to receive the reply message, in case the server
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claimed that `interrupt_operation' succeeded but in fact the RPC
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is hung. */
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args->option |= MACH_RCV_TIMEOUT;
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args->timeout = _hurd_interrupted_rpc_timeout;
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_hurdsig_end_catch_fault ();
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state->basic.pc = (int) &&rpc_wait_trampoline;
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/* The reply-receiving trampoline code runs initially on the original
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user stack. We pass it the signal stack pointer in s4 ($20). */
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state->basic.r29 = state->basic.r16; /* Restore mach_msg syscall SP. */
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state->basic.r20 = (int) sigsp;
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/* After doing the message receive, the trampoline code will need to
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update the v0 ($2) value to be restored by sigreturn. To simplify
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the assembly code, we pass the address of its slot in SCP to the
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trampoline code in s5 ($21). */
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state->basic.r21 = (int) &scp->sc_gpr[1];
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/* We must preserve the mach_msg_trap args in a0..t2 ($4..$10).
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Pass the handler args to the trampoline code in s1..s3 ($17..$19). */
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state->basic.r17 = signo;
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state->basic.r18 = detail->code;
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state->basic.r19 = (int) scp;
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}
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else
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{
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state->basic.pc = (int) &&trampoline;
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state->basic.r29 = (int) sigsp;
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state->basic.r4 = signo;
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state->basic.r5 = detail->code;
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state->basic.r6 = (int) scp;
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}
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/* We pass the handler function to the trampoline code in s6 ($22). */
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state->basic.r22 = (int) handler;
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/* In the callee-saved register s0 ($16), we save the SCP value to pass
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to __sigreturn after the handler returns. */
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state->basic.r16 = (int) scp;
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return scp;
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/* The trampoline code follows. This is not actually executed as part of
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this function, it is just convenient to write it that way. */
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rpc_wait_trampoline:
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/* This is the entry point when we have an RPC reply message to receive
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before running the handler. The MACH_MSG_SEND bit has already been
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cleared in the OPTION argument in our registers. For our convenience,
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$3 points to the sc_gpr[1] member of the sigcontext (saved v0 ($2)). */
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asm volatile
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(".set noat; .set noreorder; .set nomacro\n"
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/* Retry the interrupted mach_msg system call. */
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#ifdef __mips64
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"dli $2, -25\n" /* mach_msg_trap */
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#else
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"li $2, -25\n" /* mach_msg_trap */
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#endif
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"syscall\n"
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/* When the sigcontext was saved, v0 was MACH_RCV_INTERRUPTED. But
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now the message receive has completed and the original caller of
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the RPC (i.e. the code running when the signal arrived) needs to
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see the final return value of the message receive in v0. So
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store the new v0 value into the sc_gpr[1] member of the sigcontext
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(whose address is in s5 to make this code simpler). */
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#ifdef __mips64
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"sd $2, ($21)\n"
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#else
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"sw $2, ($21)\n"
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#endif
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/* Since the argument registers needed to have the mach_msg_trap
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arguments, we've stored the arguments to the handler function
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in registers s1..s3 ($17..$19). */
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"move $4, $17\n"
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"move $5, $18\n"
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"move $6, $19\n"
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/* Switch to the signal stack. */
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"move $29, $20\n");
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trampoline:
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/* Entry point for running the handler normally. The arguments to the
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handler function are already in the standard registers:
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a0 SIGNO
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a1 SIGCODE
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a2 SCP
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*/
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asm volatile
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("move $25, $22\n" /* Copy s6 to t9 for MIPS ABI. */
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"jal $25; nop\n" /* Call the handler function. */
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/* Call __sigreturn (SCP); this cannot return. */
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#ifdef __mips64
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"dla $1,%0\n"
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#else
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"la $1,%0\n"
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#endif
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"j $1\n"
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"move $4, $16" /* Set up arg from saved SCP in delay slot. */
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: : "i" (&__sigreturn));
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/* NOTREACHED */
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asm volatile (".set reorder; .set at; .set macro");
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firewall:
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asm volatile ("hlt: j hlt");
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return NULL;
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}
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