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trap.c revision 1.3.2.2
      1  1.3.2.2  gehenna /*	$NetBSD: trap.c,v 1.3.2.2 2002/07/14 17:47:15 gehenna Exp $	*/
      2  1.3.2.2  gehenna 
      3  1.3.2.2  gehenna /*-
      4  1.3.2.2  gehenna  * Copyright (c) 2001, 2002 The NetBSD Foundation, Inc.
      5  1.3.2.2  gehenna  * All rights reserved.
      6  1.3.2.2  gehenna  *
      7  1.3.2.2  gehenna  * This code is derived from software contributed to The NetBSD Foundation
      8  1.3.2.2  gehenna  * by Matthew Fredette.
      9  1.3.2.2  gehenna  *
     10  1.3.2.2  gehenna  * Redistribution and use in source and binary forms, with or without
     11  1.3.2.2  gehenna  * modification, are permitted provided that the following conditions
     12  1.3.2.2  gehenna  * are met:
     13  1.3.2.2  gehenna  * 1. Redistributions of source code must retain the above copyright
     14  1.3.2.2  gehenna  *    notice, this list of conditions and the following disclaimer.
     15  1.3.2.2  gehenna  * 2. Redistributions in binary form must reproduce the above copyright
     16  1.3.2.2  gehenna  *    notice, this list of conditions and the following disclaimer in the
     17  1.3.2.2  gehenna  *    documentation and/or other materials provided with the distribution.
     18  1.3.2.2  gehenna  * 3. All advertising materials mentioning features or use of this software
     19  1.3.2.2  gehenna  *    must display the following acknowledgement:
     20  1.3.2.2  gehenna  *      This product includes software developed by the NetBSD
     21  1.3.2.2  gehenna  *      Foundation, Inc. and its contributors.
     22  1.3.2.2  gehenna  * 4. Neither the name of The NetBSD Foundation nor the names of its
     23  1.3.2.2  gehenna  *    contributors may be used to endorse or promote products derived
     24  1.3.2.2  gehenna  *    from this software without specific prior written permission.
     25  1.3.2.2  gehenna  *
     26  1.3.2.2  gehenna  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
     27  1.3.2.2  gehenna  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
     28  1.3.2.2  gehenna  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
     29  1.3.2.2  gehenna  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
     30  1.3.2.2  gehenna  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
     31  1.3.2.2  gehenna  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
     32  1.3.2.2  gehenna  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
     33  1.3.2.2  gehenna  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
     34  1.3.2.2  gehenna  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
     35  1.3.2.2  gehenna  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
     36  1.3.2.2  gehenna  * POSSIBILITY OF SUCH DAMAGE.
     37  1.3.2.2  gehenna  */
     38  1.3.2.2  gehenna 
     39  1.3.2.2  gehenna /*	$OpenBSD: trap.c,v 1.30 2001/09/19 20:50:56 mickey Exp $	*/
     40  1.3.2.2  gehenna 
     41  1.3.2.2  gehenna /*
     42  1.3.2.2  gehenna  * Copyright (c) 1998-2000 Michael Shalayeff
     43  1.3.2.2  gehenna  * All rights reserved.
     44  1.3.2.2  gehenna  *
     45  1.3.2.2  gehenna  * Redistribution and use in source and binary forms, with or without
     46  1.3.2.2  gehenna  * modification, are permitted provided that the following conditions
     47  1.3.2.2  gehenna  * are met:
     48  1.3.2.2  gehenna  * 1. Redistributions of source code must retain the above copyright
     49  1.3.2.2  gehenna  *    notice, this list of conditions and the following disclaimer.
     50  1.3.2.2  gehenna  * 2. Redistributions in binary form must reproduce the above copyright
     51  1.3.2.2  gehenna  *    notice, this list of conditions and the following disclaimer in the
     52  1.3.2.2  gehenna  *    documentation and/or other materials provided with the distribution.
     53  1.3.2.2  gehenna  * 3. All advertising materials mentioning features or use of this software
     54  1.3.2.2  gehenna  *    must display the following acknowledgement:
     55  1.3.2.2  gehenna  *	This product includes software developed by Michael Shalayeff.
     56  1.3.2.2  gehenna  * 4. The name of the author may not be used to endorse or promote products
     57  1.3.2.2  gehenna  *    derived from this software without specific prior written permission.
     58  1.3.2.2  gehenna  *
     59  1.3.2.2  gehenna  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
     60  1.3.2.2  gehenna  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
     61  1.3.2.2  gehenna  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
     62  1.3.2.2  gehenna  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
     63  1.3.2.2  gehenna  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
     64  1.3.2.2  gehenna  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
     65  1.3.2.2  gehenna  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
     66  1.3.2.2  gehenna  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
     67  1.3.2.2  gehenna  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
     68  1.3.2.2  gehenna  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     69  1.3.2.2  gehenna  */
     70  1.3.2.2  gehenna 
     71  1.3.2.2  gehenna /* #define INTRDEBUG */
     72  1.3.2.2  gehenna /* #define TRAPDEBUG */
     73  1.3.2.2  gehenna /* #define USERTRACE */
     74  1.3.2.2  gehenna 
     75  1.3.2.2  gehenna #include "opt_kgdb.h"
     76  1.3.2.2  gehenna #include "opt_syscall_debug.h"
     77  1.3.2.2  gehenna #include "opt_ktrace.h"
     78  1.3.2.2  gehenna #include "opt_systrace.h"
     79  1.3.2.2  gehenna 
     80  1.3.2.2  gehenna #include <sys/param.h>
     81  1.3.2.2  gehenna #include <sys/systm.h>
     82  1.3.2.2  gehenna #include <sys/kernel.h>
     83  1.3.2.2  gehenna #include <sys/syscall.h>
     84  1.3.2.2  gehenna #ifdef KTRACE
     85  1.3.2.2  gehenna #include <sys/ktrace.h>
     86  1.3.2.2  gehenna #endif
     87  1.3.2.2  gehenna #ifdef SYSTRACE
     88  1.3.2.2  gehenna #include <sys/systrace.h>
     89  1.3.2.2  gehenna #endif
     90  1.3.2.2  gehenna #include <sys/proc.h>
     91  1.3.2.2  gehenna #include <sys/signalvar.h>
     92  1.3.2.2  gehenna #include <sys/user.h>
     93  1.3.2.2  gehenna #include <sys/acct.h>
     94  1.3.2.2  gehenna #include <sys/signal.h>
     95  1.3.2.2  gehenna #include <sys/device.h>
     96  1.3.2.2  gehenna 
     97  1.3.2.2  gehenna #include <net/netisr.h>
     98  1.3.2.2  gehenna 
     99  1.3.2.2  gehenna #ifdef KGDB
    100  1.3.2.2  gehenna #include <sys/kgdb.h>
    101  1.3.2.2  gehenna #endif
    102  1.3.2.2  gehenna 
    103  1.3.2.2  gehenna #include <uvm/uvm.h>
    104  1.3.2.2  gehenna 
    105  1.3.2.2  gehenna #include <machine/iomod.h>
    106  1.3.2.2  gehenna #include <machine/cpufunc.h>
    107  1.3.2.2  gehenna #include <machine/reg.h>
    108  1.3.2.2  gehenna #include <machine/autoconf.h>
    109  1.3.2.2  gehenna 
    110  1.3.2.2  gehenna #include <machine/db_machdep.h>
    111  1.3.2.2  gehenna 
    112  1.3.2.2  gehenna #include <hppa/hppa/machdep.h>
    113  1.3.2.2  gehenna 
    114  1.3.2.2  gehenna #if defined(INTRDEBUG) || defined(TRAPDEBUG)
    115  1.3.2.2  gehenna #include <ddb/db_output.h>
    116  1.3.2.2  gehenna #endif
    117  1.3.2.2  gehenna 
    118  1.3.2.2  gehenna #if defined(DEBUG) || defined(DIAGNOSTIC)
    119  1.3.2.2  gehenna /*
    120  1.3.2.2  gehenna  * 0x6fc1000 is a stwm r1, d(sr0, sp), which is the last
    121  1.3.2.2  gehenna  * instruction in the function prologue that gcc -O0 uses.
    122  1.3.2.2  gehenna  * When we have this instruction we know the relationship
    123  1.3.2.2  gehenna  * between the stack pointer and the gcc -O0 frame pointer
    124  1.3.2.2  gehenna  * (in r3, loaded with the initial sp) for the body of a
    125  1.3.2.2  gehenna  * function.
    126  1.3.2.2  gehenna  *
    127  1.3.2.2  gehenna  * If the given instruction is a stwm r1, d(sr0, sp) where
    128  1.3.2.2  gehenna  * d > 0, we evaluate to d, else we evaluate to zero.
    129  1.3.2.2  gehenna  */
    130  1.3.2.2  gehenna #define STWM_R1_D_SR0_SP(inst) \
    131  1.3.2.2  gehenna 	(((inst) & 0xffffc001) == 0x6fc10000 ? (((inst) & 0x00003ff) >> 1) : 0)
    132  1.3.2.2  gehenna #endif /* DEBUG || DIAGNOSTIC */
    133  1.3.2.2  gehenna 
    134  1.3.2.2  gehenna const char *trap_type[] = {
    135  1.3.2.2  gehenna 	"invalid",
    136  1.3.2.2  gehenna 	"HPMC",
    137  1.3.2.2  gehenna 	"power failure",
    138  1.3.2.2  gehenna 	"recovery counter",
    139  1.3.2.2  gehenna 	"external interrupt",
    140  1.3.2.2  gehenna 	"LPMC",
    141  1.3.2.2  gehenna 	"ITLB miss fault",
    142  1.3.2.2  gehenna 	"instruction protection",
    143  1.3.2.2  gehenna 	"Illegal instruction",
    144  1.3.2.2  gehenna 	"break instruction",
    145  1.3.2.2  gehenna 	"privileged operation",
    146  1.3.2.2  gehenna 	"privileged register",
    147  1.3.2.2  gehenna 	"overflow",
    148  1.3.2.2  gehenna 	"conditional",
    149  1.3.2.2  gehenna 	"assist exception",
    150  1.3.2.2  gehenna 	"DTLB miss",
    151  1.3.2.2  gehenna 	"ITLB non-access miss",
    152  1.3.2.2  gehenna 	"DTLB non-access miss",
    153  1.3.2.2  gehenna 	"data protection/rights/alignment",
    154  1.3.2.2  gehenna 	"data break",
    155  1.3.2.2  gehenna 	"TLB dirty",
    156  1.3.2.2  gehenna 	"page reference",
    157  1.3.2.2  gehenna 	"assist emulation",
    158  1.3.2.2  gehenna 	"higher-priv transfer",
    159  1.3.2.2  gehenna 	"lower-priv transfer",
    160  1.3.2.2  gehenna 	"taken branch",
    161  1.3.2.2  gehenna 	"data access rights",
    162  1.3.2.2  gehenna 	"data protection",
    163  1.3.2.2  gehenna 	"unaligned data ref",
    164  1.3.2.2  gehenna };
    165  1.3.2.2  gehenna int trap_types = sizeof(trap_type)/sizeof(trap_type[0]);
    166  1.3.2.2  gehenna 
    167  1.3.2.2  gehenna int want_resched;
    168  1.3.2.2  gehenna volatile int astpending;
    169  1.3.2.2  gehenna 
    170  1.3.2.2  gehenna void pmap_hptdump __P((void));
    171  1.3.2.2  gehenna void syscall __P((struct trapframe *frame, int *args));
    172  1.3.2.2  gehenna 
    173  1.3.2.2  gehenna #ifdef USERTRACE
    174  1.3.2.2  gehenna /*
    175  1.3.2.2  gehenna  * USERTRACE is a crude facility that traces the PC of
    176  1.3.2.2  gehenna  * a single user process.  This tracing is normally
    177  1.3.2.2  gehenna  * activated by the dispatching of a certain syscall
    178  1.3.2.2  gehenna  * with certain arguments - see the activation code in
    179  1.3.2.2  gehenna  * syscall().
    180  1.3.2.2  gehenna  */
    181  1.3.2.2  gehenna u_int rctr_next_iioq;
    182  1.3.2.2  gehenna #endif
    183  1.3.2.2  gehenna 
    184  1.3.2.2  gehenna static __inline void
    185  1.3.2.2  gehenna userret (struct proc *p, register_t pc, u_quad_t oticks)
    186  1.3.2.2  gehenna {
    187  1.3.2.2  gehenna 	int sig;
    188  1.3.2.2  gehenna 
    189  1.3.2.2  gehenna 	/* take pending signals */
    190  1.3.2.2  gehenna 	while ((sig = CURSIG(p)) != 0)
    191  1.3.2.2  gehenna 		postsig(sig);
    192  1.3.2.2  gehenna 
    193  1.3.2.2  gehenna 	p->p_priority = p->p_usrpri;
    194  1.3.2.2  gehenna 	if (want_resched) {
    195  1.3.2.2  gehenna 		/*
    196  1.3.2.2  gehenna 		 * We're being preempted.
    197  1.3.2.2  gehenna 		 */
    198  1.3.2.2  gehenna 		preempt(NULL);
    199  1.3.2.2  gehenna 		while ((sig = CURSIG(p)) != 0)
    200  1.3.2.2  gehenna 			postsig(sig);
    201  1.3.2.2  gehenna 	}
    202  1.3.2.2  gehenna 
    203  1.3.2.2  gehenna 	/*
    204  1.3.2.2  gehenna 	 * If profiling, charge recent system time to the trapped pc.
    205  1.3.2.2  gehenna 	 */
    206  1.3.2.2  gehenna 	if (p->p_flag & P_PROFIL) {
    207  1.3.2.2  gehenna 		extern int psratio;
    208  1.3.2.2  gehenna 
    209  1.3.2.2  gehenna 		addupc_task(p, pc, (int)(p->p_sticks - oticks) * psratio);
    210  1.3.2.2  gehenna 	}
    211  1.3.2.2  gehenna 
    212  1.3.2.2  gehenna 	curcpu()->ci_schedstate.spc_curpriority = p->p_priority;
    213  1.3.2.2  gehenna }
    214  1.3.2.2  gehenna 
    215  1.3.2.2  gehenna /*
    216  1.3.2.2  gehenna  * This handles some messy kernel debugger details.
    217  1.3.2.2  gehenna  * It dispatches into either kgdb or DDB, and knows
    218  1.3.2.2  gehenna  * about some special things to do, like skipping over
    219  1.3.2.2  gehenna  * break instructions and how to really set up for
    220  1.3.2.2  gehenna  * a single-step.
    221  1.3.2.2  gehenna  */
    222  1.3.2.2  gehenna #if defined(KGDB) || defined(DDB)
    223  1.3.2.2  gehenna static int
    224  1.3.2.2  gehenna trap_kdebug(int type, int code, struct trapframe *frame)
    225  1.3.2.2  gehenna {
    226  1.3.2.2  gehenna 	int handled;
    227  1.3.2.2  gehenna 	u_int tf_iioq_head_old;
    228  1.3.2.2  gehenna 	u_int tf_iioq_tail_old;
    229  1.3.2.2  gehenna 
    230  1.3.2.2  gehenna 	for(;;) {
    231  1.3.2.2  gehenna 
    232  1.3.2.2  gehenna 		/* This trap has not been handled. */
    233  1.3.2.2  gehenna 		handled = 0;
    234  1.3.2.2  gehenna 
    235  1.3.2.2  gehenna 		/* Remember the instruction offset queue. */
    236  1.3.2.2  gehenna 		tf_iioq_head_old = frame->tf_iioq_head;
    237  1.3.2.2  gehenna 		tf_iioq_tail_old = frame->tf_iioq_tail;
    238  1.3.2.2  gehenna 
    239  1.3.2.2  gehenna #ifdef	KGDB
    240  1.3.2.2  gehenna 		/* Let KGDB handle it (if connected) */
    241  1.3.2.2  gehenna 		if (!handled)
    242  1.3.2.2  gehenna 			handled = kgdb_trap(type, frame);
    243  1.3.2.2  gehenna #endif
    244  1.3.2.2  gehenna #ifdef	DDB
    245  1.3.2.2  gehenna 		/* Let DDB handle it. */
    246  1.3.2.2  gehenna 		if (!handled)
    247  1.3.2.2  gehenna 			handled = kdb_trap(type, code, frame);
    248  1.3.2.2  gehenna #endif
    249  1.3.2.2  gehenna 
    250  1.3.2.2  gehenna 		/* If this trap wasn't handled, return now. */
    251  1.3.2.2  gehenna 		if (!handled)
    252  1.3.2.2  gehenna 			return(0);
    253  1.3.2.2  gehenna 
    254  1.3.2.2  gehenna 		/*
    255  1.3.2.2  gehenna 		 * If the instruction offset queue head changed,
    256  1.3.2.2  gehenna 		 * but the offset queue tail didn't, assume that
    257  1.3.2.2  gehenna 		 * the user wants to jump to the head offset, and
    258  1.3.2.2  gehenna 		 * adjust the tail accordingly.  This should fix
    259  1.3.2.2  gehenna 		 * the kgdb `jump' command, and can help DDB users
    260  1.3.2.2  gehenna 		 * who `set' the offset head but forget the tail.
    261  1.3.2.2  gehenna 		 */
    262  1.3.2.2  gehenna 		if (frame->tf_iioq_head != tf_iioq_head_old &&
    263  1.3.2.2  gehenna 		    frame->tf_iioq_tail == tf_iioq_tail_old)
    264  1.3.2.2  gehenna 			frame->tf_iioq_tail = frame->tf_iioq_head + 4;
    265  1.3.2.2  gehenna 
    266  1.3.2.2  gehenna 		/*
    267  1.3.2.2  gehenna 		 * This is some single-stepping support.
    268  1.3.2.2  gehenna 		 * If we're trying to step through a nullified
    269  1.3.2.2  gehenna 		 * instruction, just advance by hand and trap
    270  1.3.2.2  gehenna 		 * again.  Otherwise, load the recovery counter
    271  1.3.2.2  gehenna 		 * with zero.
    272  1.3.2.2  gehenna 		 */
    273  1.3.2.2  gehenna 		if (frame->tf_ipsw & PSW_R) {
    274  1.3.2.2  gehenna #ifdef TRAPDEBUG
    275  1.3.2.2  gehenna 			printf("(single stepping at head 0x%x tail 0x%x)\n", frame->tf_iioq_head, frame->tf_iioq_tail);
    276  1.3.2.2  gehenna #endif
    277  1.3.2.2  gehenna 			if (frame->tf_ipsw & PSW_N) {
    278  1.3.2.2  gehenna #ifdef TRAPDEBUG
    279  1.3.2.2  gehenna 				printf("(single stepping past nullified)\n");
    280  1.3.2.2  gehenna #endif
    281  1.3.2.2  gehenna 
    282  1.3.2.2  gehenna 				/* Advance the program counter. */
    283  1.3.2.2  gehenna 				frame->tf_iioq_head = frame->tf_iioq_tail;
    284  1.3.2.2  gehenna 				frame->tf_iioq_tail = frame->tf_iioq_head + 4;
    285  1.3.2.2  gehenna 
    286  1.3.2.2  gehenna 				/* Clear flags. */
    287  1.3.2.2  gehenna 				frame->tf_ipsw &= ~(PSW_N|PSW_X|PSW_Y|PSW_Z|PSW_B|PSW_T|PSW_H|PSW_L);
    288  1.3.2.2  gehenna 
    289  1.3.2.2  gehenna 				/* Simulate another trap. */
    290  1.3.2.2  gehenna 				type = T_RECOVERY;
    291  1.3.2.2  gehenna 				continue;
    292  1.3.2.2  gehenna 			}
    293  1.3.2.2  gehenna 			frame->tf_rctr = 0;
    294  1.3.2.2  gehenna 		}
    295  1.3.2.2  gehenna 
    296  1.3.2.2  gehenna 		/* We handled this trap. */
    297  1.3.2.2  gehenna 		return (1);
    298  1.3.2.2  gehenna 	}
    299  1.3.2.2  gehenna 	/* NOTREACHED */
    300  1.3.2.2  gehenna }
    301  1.3.2.2  gehenna #else	/* !KGDB && !DDB */
    302  1.3.2.2  gehenna #define trap_kdebug(t, c, f)	(0)
    303  1.3.2.2  gehenna #endif	/* !KGDB && !DDB */
    304  1.3.2.2  gehenna 
    305  1.3.2.2  gehenna #ifdef DIAGNOSTIC
    306  1.3.2.2  gehenna /*
    307  1.3.2.2  gehenna  * These functions give a crude usermode backtrace.  They
    308  1.3.2.2  gehenna  * really only work when code has been compiled without
    309  1.3.2.2  gehenna  * optimization, as they assume a certain function prologue
    310  1.3.2.2  gehenna  * sets up a frame pointer and stores the return pointer
    311  1.3.2.2  gehenna  * and arguments in it.
    312  1.3.2.2  gehenna  */
    313  1.3.2.2  gehenna static void user_backtrace_raw __P((u_int, u_int));
    314  1.3.2.2  gehenna static void
    315  1.3.2.2  gehenna user_backtrace_raw(u_int pc, u_int fp)
    316  1.3.2.2  gehenna {
    317  1.3.2.2  gehenna 	int frame_number;
    318  1.3.2.2  gehenna 	int arg_number;
    319  1.3.2.2  gehenna 
    320  1.3.2.2  gehenna 	for(frame_number = 0; pc > HPPA_PC_PRIV_MASK && fp; frame_number++) {
    321  1.3.2.2  gehenna 		printf("%3d: pc=%08x%s fp=0x%08x", frame_number,
    322  1.3.2.2  gehenna 		    pc & ~HPPA_PC_PRIV_MASK, USERMODE(pc) ? "" : "**", fp);
    323  1.3.2.2  gehenna 		for(arg_number = 0; arg_number < 4; arg_number++)
    324  1.3.2.2  gehenna 			printf(" arg%d=0x%08x", arg_number,
    325  1.3.2.2  gehenna 			    (int) fuword(HPPA_FRAME_CARG(arg_number, fp)));
    326  1.3.2.2  gehenna 		printf("\n");
    327  1.3.2.2  gehenna                 pc = fuword(((register_t *) fp) - 5);	/* fetch rp */
    328  1.3.2.2  gehenna 		if (pc == -1) {
    329  1.3.2.2  gehenna 			printf("  fuword for pc failed\n");
    330  1.3.2.2  gehenna 			break;
    331  1.3.2.2  gehenna 		}
    332  1.3.2.2  gehenna                 fp = fuword(((register_t *) fp) + 0);	/* fetch previous fp */
    333  1.3.2.2  gehenna 		if (fp == -1) {
    334  1.3.2.2  gehenna 			printf("  fuword for fp failed\n");
    335  1.3.2.2  gehenna 			break;
    336  1.3.2.2  gehenna 		}
    337  1.3.2.2  gehenna 	}
    338  1.3.2.2  gehenna 	printf("  backtrace stopped with pc %08x fp 0x%08x\n", pc, fp);
    339  1.3.2.2  gehenna }
    340  1.3.2.2  gehenna 
    341  1.3.2.2  gehenna static void user_backtrace __P((struct trapframe *, struct proc *));
    342  1.3.2.2  gehenna static void
    343  1.3.2.2  gehenna user_backtrace(struct trapframe *tf, struct proc *p)
    344  1.3.2.2  gehenna {
    345  1.3.2.2  gehenna 	u_int pc, fp, inst;
    346  1.3.2.2  gehenna 
    347  1.3.2.2  gehenna 	/*
    348  1.3.2.2  gehenna 	 * Assuming that the frame pointer in r3 is valid,
    349  1.3.2.2  gehenna 	 * dump out a stack trace.
    350  1.3.2.2  gehenna 	 */
    351  1.3.2.2  gehenna 	fp = tf->tf_r3;
    352  1.3.2.2  gehenna 	printf("pid %d (%s) backtrace, starting with fp 0x%08x\n",
    353  1.3.2.2  gehenna 		p->p_pid, p->p_comm, fp);
    354  1.3.2.2  gehenna 	user_backtrace_raw(tf->tf_iioq_head, fp);
    355  1.3.2.2  gehenna 
    356  1.3.2.2  gehenna 	/*
    357  1.3.2.2  gehenna 	 * In case the frame pointer in r3 is not valid,
    358  1.3.2.2  gehenna 	 * assuming the stack pointer is valid and the
    359  1.3.2.2  gehenna 	 * faulting function is a non-leaf, if we can
    360  1.3.2.2  gehenna 	 * find its prologue we can recover its frame
    361  1.3.2.2  gehenna 	 * pointer.
    362  1.3.2.2  gehenna 	 */
    363  1.3.2.2  gehenna 	pc = tf->tf_iioq_head;
    364  1.3.2.2  gehenna 	fp = tf->tf_sp - HPPA_FRAME_SIZE;
    365  1.3.2.2  gehenna 	printf("pid %d (%s) backtrace, starting with sp 0x%08x pc 0x%08x\n",
    366  1.3.2.2  gehenna 		p->p_pid, p->p_comm, tf->tf_sp, pc);
    367  1.3.2.2  gehenna 	for(pc &= ~HPPA_PC_PRIV_MASK; pc > 0; pc -= sizeof(inst)) {
    368  1.3.2.2  gehenna 		inst = fuword((register_t *) pc);
    369  1.3.2.2  gehenna 		if (inst == -1) {
    370  1.3.2.2  gehenna 			printf("  fuword for inst at pc %08x failed\n", pc);
    371  1.3.2.2  gehenna 			break;
    372  1.3.2.2  gehenna 		}
    373  1.3.2.2  gehenna 		/* Check for the prologue instruction that sets sp. */
    374  1.3.2.2  gehenna 		if (STWM_R1_D_SR0_SP(inst)) {
    375  1.3.2.2  gehenna 			fp = tf->tf_sp - STWM_R1_D_SR0_SP(inst);
    376  1.3.2.2  gehenna 			printf("  sp from fp at pc %08x: %08x\n", pc, inst);
    377  1.3.2.2  gehenna 			break;
    378  1.3.2.2  gehenna 		}
    379  1.3.2.2  gehenna 	}
    380  1.3.2.2  gehenna 	user_backtrace_raw(tf->tf_iioq_head, fp);
    381  1.3.2.2  gehenna }
    382  1.3.2.2  gehenna #endif /* DIAGNOSTIC */
    383  1.3.2.2  gehenna 
    384  1.3.2.2  gehenna #ifdef DEBUG
    385  1.3.2.2  gehenna /*
    386  1.3.2.2  gehenna  * This sanity-checks a trapframe.  It is full of various
    387  1.3.2.2  gehenna  * assumptions about what a healthy CPU state should be,
    388  1.3.2.2  gehenna  * with some documented elsewhere, some not.
    389  1.3.2.2  gehenna  */
    390  1.3.2.2  gehenna struct trapframe *sanity_frame;
    391  1.3.2.2  gehenna struct proc *sanity_proc;
    392  1.3.2.2  gehenna int sanity_checked = 0;
    393  1.3.2.2  gehenna void frame_sanity_check __P((struct trapframe *, struct proc *));
    394  1.3.2.2  gehenna void
    395  1.3.2.2  gehenna frame_sanity_check(struct trapframe *tf, struct proc *p)
    396  1.3.2.2  gehenna {
    397  1.3.2.2  gehenna 	extern int kernel_text;
    398  1.3.2.2  gehenna 	extern int etext;
    399  1.3.2.2  gehenna 	extern register_t kpsw;
    400  1.3.2.2  gehenna 	extern vaddr_t hpt_base;
    401  1.3.2.2  gehenna 	extern vsize_t hpt_mask;
    402  1.3.2.2  gehenna 	vsize_t uspace_size;
    403  1.3.2.2  gehenna #define SANITY(e)					\
    404  1.3.2.2  gehenna do {							\
    405  1.3.2.2  gehenna 	if (sanity_frame == NULL && !(e)) {		\
    406  1.3.2.2  gehenna 		sanity_frame = tf;			\
    407  1.3.2.2  gehenna 		sanity_proc = p;			\
    408  1.3.2.2  gehenna 		sanity_checked = __LINE__;		\
    409  1.3.2.2  gehenna 	}						\
    410  1.3.2.2  gehenna } while (/* CONSTCOND */ 0)
    411  1.3.2.2  gehenna 
    412  1.3.2.2  gehenna 	SANITY((tf->tf_ipsw & kpsw) == kpsw);
    413  1.3.2.2  gehenna 	SANITY(tf->tf_hptm == hpt_mask && tf->tf_vtop == hpt_base);
    414  1.3.2.2  gehenna 	SANITY((kpsw & PSW_I) == 0 || tf->tf_eiem != 0);
    415  1.3.2.2  gehenna 	if (tf->tf_iisq_head == HPPA_SID_KERNEL) {
    416  1.3.2.2  gehenna 		/*
    417  1.3.2.2  gehenna 		 * If the trap happened in the gateway
    418  1.3.2.2  gehenna 		 * page, we take the easy way out and
    419  1.3.2.2  gehenna 		 * assume that the trapframe is okay.
    420  1.3.2.2  gehenna 		 */
    421  1.3.2.2  gehenna 		if ((tf->tf_iioq_head & ~PAGE_MASK) != SYSCALLGATE) {
    422  1.3.2.2  gehenna 			SANITY(!USERMODE(tf->tf_iioq_head));
    423  1.3.2.2  gehenna 			SANITY(!USERMODE(tf->tf_iioq_tail));
    424  1.3.2.2  gehenna 			SANITY(tf->tf_iioq_head >= (u_int) &kernel_text);
    425  1.3.2.2  gehenna 			SANITY(tf->tf_iioq_head < (u_int) &etext);
    426  1.3.2.2  gehenna 			SANITY(tf->tf_iioq_tail >= (u_int) &kernel_text);
    427  1.3.2.2  gehenna 			SANITY(tf->tf_iioq_tail < (u_int) &etext);
    428  1.3.2.2  gehenna #ifdef HPPA_REDZONE
    429  1.3.2.2  gehenna 			uspace_size = HPPA_REDZONE;
    430  1.3.2.2  gehenna #else
    431  1.3.2.2  gehenna 			uspace_size = USPACE;
    432  1.3.2.2  gehenna #endif
    433  1.3.2.2  gehenna 			SANITY(p == NULL ||
    434  1.3.2.2  gehenna 				((tf->tf_sp >= (u_int)(p->p_addr) + NBPG &&
    435  1.3.2.2  gehenna 				  tf->tf_sp < (u_int)(p->p_addr) + uspace_size)));
    436  1.3.2.2  gehenna 		}
    437  1.3.2.2  gehenna 	} else {
    438  1.3.2.2  gehenna 		SANITY(USERMODE(tf->tf_iioq_head));
    439  1.3.2.2  gehenna 		SANITY(USERMODE(tf->tf_iioq_tail));
    440  1.3.2.2  gehenna 		SANITY(p != NULL && tf->tf_cr30 == kvtop((caddr_t)p->p_addr));
    441  1.3.2.2  gehenna 	}
    442  1.3.2.2  gehenna #undef SANITY
    443  1.3.2.2  gehenna 	if (sanity_frame == tf) {
    444  1.3.2.2  gehenna 		trap_kdebug(T_IBREAK, 0, tf);
    445  1.3.2.2  gehenna 		sanity_frame = NULL;
    446  1.3.2.2  gehenna 		sanity_proc = NULL;
    447  1.3.2.2  gehenna 		sanity_checked = 0;
    448  1.3.2.2  gehenna 	}
    449  1.3.2.2  gehenna }
    450  1.3.2.2  gehenna #endif /* DEBUG */
    451  1.3.2.2  gehenna 
    452  1.3.2.2  gehenna void
    453  1.3.2.2  gehenna trap(type, frame)
    454  1.3.2.2  gehenna 	int type;
    455  1.3.2.2  gehenna 	struct trapframe *frame;
    456  1.3.2.2  gehenna {
    457  1.3.2.2  gehenna 	struct proc *p = curproc;
    458  1.3.2.2  gehenna 	struct pcb *pcbp;
    459  1.3.2.2  gehenna 	register vaddr_t va;
    460  1.3.2.2  gehenna 	register struct vm_map *map;
    461  1.3.2.2  gehenna 	struct vmspace *vm;
    462  1.3.2.2  gehenna 	register vm_prot_t vftype;
    463  1.3.2.2  gehenna 	register pa_space_t space;
    464  1.3.2.2  gehenna 	u_int opcode;
    465  1.3.2.2  gehenna 	int ret;
    466  1.3.2.2  gehenna 	const char *tts;
    467  1.3.2.2  gehenna 	int type_raw;
    468  1.3.2.2  gehenna #ifdef DIAGNOSTIC
    469  1.3.2.2  gehenna 	extern int emergency_stack_start, emergency_stack_end;
    470  1.3.2.2  gehenna #endif
    471  1.3.2.2  gehenna 
    472  1.3.2.2  gehenna 	type_raw = type & ~T_USER;
    473  1.3.2.2  gehenna 	opcode = frame->tf_iir;
    474  1.3.2.2  gehenna 	if (type_raw == T_ITLBMISS || type_raw == T_ITLBMISSNA) {
    475  1.3.2.2  gehenna 		va = frame->tf_iioq_head;
    476  1.3.2.2  gehenna 		space = frame->tf_iisq_head;
    477  1.3.2.2  gehenna 		vftype = VM_PROT_READ;	/* XXX VM_PROT_EXECUTE ??? */
    478  1.3.2.2  gehenna 	} else {
    479  1.3.2.2  gehenna 		va = frame->tf_ior;
    480  1.3.2.2  gehenna 		space = frame->tf_isr;
    481  1.3.2.2  gehenna 		vftype = inst_store(opcode) ? VM_PROT_WRITE : VM_PROT_READ;
    482  1.3.2.2  gehenna 	}
    483  1.3.2.2  gehenna 
    484  1.3.2.2  gehenna #ifdef DIAGNOSTIC
    485  1.3.2.2  gehenna 	/*
    486  1.3.2.2  gehenna 	 * If we are on the emergency stack, then we either got
    487  1.3.2.2  gehenna 	 * a fault on the kernel stack, or we're just handling
    488  1.3.2.2  gehenna 	 * a trap for the machine check handler (which also
    489  1.3.2.2  gehenna 	 * runs on the emergency stack).
    490  1.3.2.2  gehenna 	 *
    491  1.3.2.2  gehenna 	 * We *very crudely* differentiate between the two cases
    492  1.3.2.2  gehenna 	 * by checking the faulting instruction: if it is the
    493  1.3.2.2  gehenna 	 * function prologue instruction that stores the old
    494  1.3.2.2  gehenna 	 * frame pointer and updates the stack pointer, we assume
    495  1.3.2.2  gehenna 	 * that we faulted on the kernel stack.
    496  1.3.2.2  gehenna 	 *
    497  1.3.2.2  gehenna 	 * In this case, not completing that instruction will
    498  1.3.2.2  gehenna 	 * probably confuse backtraces in kgdb/ddb.  Completing
    499  1.3.2.2  gehenna 	 * it would be difficult, because we already faulted on
    500  1.3.2.2  gehenna 	 * that part of the stack, so instead we fix up the
    501  1.3.2.2  gehenna 	 * frame as if the function called has just returned.
    502  1.3.2.2  gehenna 	 * This has peculiar knowledge about what values are in
    503  1.3.2.2  gehenna 	 * what registers during the "normal gcc -g" prologue.
    504  1.3.2.2  gehenna 	 */
    505  1.3.2.2  gehenna 	if (&type >= &emergency_stack_start &&
    506  1.3.2.2  gehenna 	    &type < &emergency_stack_end &&
    507  1.3.2.2  gehenna 	    type != T_IBREAK && STWM_R1_D_SR0_SP(opcode)) {
    508  1.3.2.2  gehenna 		/* Restore the caller's frame pointer. */
    509  1.3.2.2  gehenna 		frame->tf_r3 = frame->tf_r1;
    510  1.3.2.2  gehenna 		/* Restore the caller's instruction offsets. */
    511  1.3.2.2  gehenna 		frame->tf_iioq_head = frame->tf_rp;
    512  1.3.2.2  gehenna 		frame->tf_iioq_tail = frame->tf_iioq_head + 4;
    513  1.3.2.2  gehenna 		goto dead_end;
    514  1.3.2.2  gehenna 	}
    515  1.3.2.2  gehenna #endif /* DIAGNOSTIC */
    516  1.3.2.2  gehenna 
    517  1.3.2.2  gehenna #ifdef DEBUG
    518  1.3.2.2  gehenna 	frame_sanity_check(frame, p);
    519  1.3.2.2  gehenna #endif /* DEBUG */
    520  1.3.2.2  gehenna 
    521  1.3.2.2  gehenna 	/* If this is a trap, not an interrupt, reenable interrupts. */
    522  1.3.2.2  gehenna 	if (type_raw != T_INTERRUPT)
    523  1.3.2.2  gehenna 		mtctl(frame->tf_eiem, CR_EIEM);
    524  1.3.2.2  gehenna 
    525  1.3.2.2  gehenna 	if (frame->tf_flags & TFF_LAST)
    526  1.3.2.2  gehenna 		p->p_md.md_regs = frame;
    527  1.3.2.2  gehenna 
    528  1.3.2.2  gehenna 	if ((type & ~T_USER) > trap_types)
    529  1.3.2.2  gehenna 		tts = "reserved";
    530  1.3.2.2  gehenna 	else
    531  1.3.2.2  gehenna 		tts = trap_type[type & ~T_USER];
    532  1.3.2.2  gehenna 
    533  1.3.2.2  gehenna #ifdef TRAPDEBUG
    534  1.3.2.2  gehenna 	if (type_raw != T_INTERRUPT && type_raw != T_IBREAK)
    535  1.3.2.2  gehenna 		printf("trap: %d, %s for %x:%x at %x:%x, fp=%p, rp=%x\n",
    536  1.3.2.2  gehenna 		    type, tts, space, (u_int)va, frame->tf_iisq_head,
    537  1.3.2.2  gehenna 		    frame->tf_iioq_head, frame, frame->tf_rp);
    538  1.3.2.2  gehenna 	else if (type_raw == T_IBREAK)
    539  1.3.2.2  gehenna 		printf("trap: break instruction %x:%x at %x:%x, fp=%p\n",
    540  1.3.2.2  gehenna 		    break5(opcode), break13(opcode),
    541  1.3.2.2  gehenna 		    frame->tf_iisq_head, frame->tf_iioq_head, frame);
    542  1.3.2.2  gehenna 
    543  1.3.2.2  gehenna 	{
    544  1.3.2.2  gehenna 		extern int etext;
    545  1.3.2.2  gehenna 		if (frame < (struct trapframe *)&etext) {
    546  1.3.2.2  gehenna 			printf("trap: bogus frame ptr %p\n", frame);
    547  1.3.2.2  gehenna 			goto dead_end;
    548  1.3.2.2  gehenna 		}
    549  1.3.2.2  gehenna 	}
    550  1.3.2.2  gehenna #endif
    551  1.3.2.2  gehenna 	switch (type) {
    552  1.3.2.2  gehenna 	case T_NONEXIST:
    553  1.3.2.2  gehenna 	case T_NONEXIST|T_USER:
    554  1.3.2.2  gehenna #if !defined(DDB) && !defined(KGDB)
    555  1.3.2.2  gehenna 		/* we've got screwed up by the central scrutinizer */
    556  1.3.2.2  gehenna 		panic ("trap: elvis has just left the building!");
    557  1.3.2.2  gehenna 		break;
    558  1.3.2.2  gehenna #else
    559  1.3.2.2  gehenna 		goto dead_end;
    560  1.3.2.2  gehenna #endif
    561  1.3.2.2  gehenna 	case T_RECOVERY|T_USER:
    562  1.3.2.2  gehenna #ifdef USERTRACE
    563  1.3.2.2  gehenna 		for(;;) {
    564  1.3.2.2  gehenna 			if (frame->tf_iioq_head != rctr_next_iioq)
    565  1.3.2.2  gehenna 				printf("-%08x\nr %08x",
    566  1.3.2.2  gehenna 					rctr_next_iioq - 4,
    567  1.3.2.2  gehenna 					frame->tf_iioq_head);
    568  1.3.2.2  gehenna 			rctr_next_iioq = frame->tf_iioq_head + 4;
    569  1.3.2.2  gehenna 			if (frame->tf_ipsw & PSW_N) {
    570  1.3.2.2  gehenna 				/* Advance the program counter. */
    571  1.3.2.2  gehenna 				frame->tf_iioq_head = frame->tf_iioq_tail;
    572  1.3.2.2  gehenna 				frame->tf_iioq_tail = frame->tf_iioq_head + 4;
    573  1.3.2.2  gehenna 				/* Clear flags. */
    574  1.3.2.2  gehenna 				frame->tf_ipsw &= ~(PSW_N|PSW_X|PSW_Y|PSW_Z|PSW_B|PSW_T|PSW_H|PSW_L);
    575  1.3.2.2  gehenna 				/* Simulate another trap. */
    576  1.3.2.2  gehenna 				continue;
    577  1.3.2.2  gehenna 			}
    578  1.3.2.2  gehenna 			break;
    579  1.3.2.2  gehenna 		}
    580  1.3.2.2  gehenna 		frame->tf_rctr = 0;
    581  1.3.2.2  gehenna 		break;
    582  1.3.2.2  gehenna #endif /* USERTRACE */
    583  1.3.2.2  gehenna 	case T_RECOVERY:
    584  1.3.2.2  gehenna #if !defined(DDB) && !defined(KGDB)
    585  1.3.2.2  gehenna 		/* XXX will implement later */
    586  1.3.2.2  gehenna 		printf ("trap: handicapped");
    587  1.3.2.2  gehenna 		break;
    588  1.3.2.2  gehenna #else
    589  1.3.2.2  gehenna 		goto dead_end;
    590  1.3.2.2  gehenna #endif
    591  1.3.2.2  gehenna 
    592  1.3.2.2  gehenna 	case T_EMULATION | T_USER:
    593  1.3.2.2  gehenna #ifdef FPEMUL
    594  1.3.2.2  gehenna 		hppa_fpu_emulate(frame, p);
    595  1.3.2.2  gehenna #else  /* !FPEMUL */
    596  1.3.2.2  gehenna 		/*
    597  1.3.2.2  gehenna 		 * We don't have FPU emulation, so signal the
    598  1.3.2.2  gehenna 		 * process with a SIGFPE.
    599  1.3.2.2  gehenna 		 */
    600  1.3.2.2  gehenna 		trapsignal(p, SIGFPE, frame->tf_iioq_head);
    601  1.3.2.2  gehenna #endif /* !FPEMUL */
    602  1.3.2.2  gehenna 		break;
    603  1.3.2.2  gehenna 
    604  1.3.2.2  gehenna #ifdef DIAGNOSTIC
    605  1.3.2.2  gehenna 	case T_EXCEPTION:
    606  1.3.2.2  gehenna 		panic("FPU/SFU emulation botch");
    607  1.3.2.2  gehenna 
    608  1.3.2.2  gehenna 		/* these just can't happen ever */
    609  1.3.2.2  gehenna 	case T_PRIV_OP:
    610  1.3.2.2  gehenna 	case T_PRIV_REG:
    611  1.3.2.2  gehenna 		/* these just can't make it to the trap() ever */
    612  1.3.2.2  gehenna 	case T_HPMC:      case T_HPMC | T_USER:
    613  1.3.2.2  gehenna 	case T_EMULATION:
    614  1.3.2.2  gehenna #endif
    615  1.3.2.2  gehenna 	case T_IBREAK:
    616  1.3.2.2  gehenna 	case T_DATALIGN:
    617  1.3.2.2  gehenna 	case T_DBREAK:
    618  1.3.2.2  gehenna 	dead_end:
    619  1.3.2.2  gehenna 		if (trap_kdebug(type, va, frame))
    620  1.3.2.2  gehenna 			return;
    621  1.3.2.2  gehenna 		else if (type == T_DATALIGN)
    622  1.3.2.2  gehenna 			panic ("trap: %s at 0x%x", tts, (u_int) va);
    623  1.3.2.2  gehenna 		else
    624  1.3.2.2  gehenna 			panic ("trap: no debugger for \"%s\" (%d)", tts, type);
    625  1.3.2.2  gehenna 		break;
    626  1.3.2.2  gehenna 
    627  1.3.2.2  gehenna 	case T_IBREAK | T_USER:
    628  1.3.2.2  gehenna 	case T_DBREAK | T_USER:
    629  1.3.2.2  gehenna 		/* pass to user debugger */
    630  1.3.2.2  gehenna 		break;
    631  1.3.2.2  gehenna 
    632  1.3.2.2  gehenna 	case T_EXCEPTION | T_USER:	/* co-proc assist trap */
    633  1.3.2.2  gehenna 		trapsignal(p, SIGFPE, va);
    634  1.3.2.2  gehenna 		break;
    635  1.3.2.2  gehenna 
    636  1.3.2.2  gehenna 	case T_OVERFLOW | T_USER:
    637  1.3.2.2  gehenna 		trapsignal(p, SIGFPE, va);
    638  1.3.2.2  gehenna 		break;
    639  1.3.2.2  gehenna 
    640  1.3.2.2  gehenna 	case T_CONDITION | T_USER:
    641  1.3.2.2  gehenna 		break;
    642  1.3.2.2  gehenna 
    643  1.3.2.2  gehenna 	case T_ILLEGAL | T_USER:
    644  1.3.2.2  gehenna 		trapsignal(p, SIGILL, va);
    645  1.3.2.2  gehenna 		break;
    646  1.3.2.2  gehenna 
    647  1.3.2.2  gehenna 	case T_PRIV_OP | T_USER:
    648  1.3.2.2  gehenna 		trapsignal(p, SIGILL, va);
    649  1.3.2.2  gehenna 		break;
    650  1.3.2.2  gehenna 
    651  1.3.2.2  gehenna 	case T_PRIV_REG | T_USER:
    652  1.3.2.2  gehenna 		trapsignal(p, SIGILL, va);
    653  1.3.2.2  gehenna 		break;
    654  1.3.2.2  gehenna 
    655  1.3.2.2  gehenna 		/* these should never got here */
    656  1.3.2.2  gehenna 	case T_HIGHERPL | T_USER:
    657  1.3.2.2  gehenna 	case T_LOWERPL | T_USER:
    658  1.3.2.2  gehenna 		trapsignal(p, SIGSEGV, va);
    659  1.3.2.2  gehenna 		break;
    660  1.3.2.2  gehenna 
    661  1.3.2.2  gehenna 	case T_IPROT | T_USER:
    662  1.3.2.2  gehenna 	case T_DPROT | T_USER:
    663  1.3.2.2  gehenna 		trapsignal(p, SIGSEGV, va);
    664  1.3.2.2  gehenna 		break;
    665  1.3.2.2  gehenna 
    666  1.3.2.2  gehenna 	case T_DATACC:   	case T_USER | T_DATACC:
    667  1.3.2.2  gehenna 	case T_ITLBMISS:	case T_USER | T_ITLBMISS:
    668  1.3.2.2  gehenna 	case T_DTLBMISS:	case T_USER | T_DTLBMISS:
    669  1.3.2.2  gehenna 	case T_ITLBMISSNA:	case T_USER | T_ITLBMISSNA:
    670  1.3.2.2  gehenna 	case T_DTLBMISSNA:	case T_USER | T_DTLBMISSNA:
    671  1.3.2.2  gehenna 	case T_TLB_DIRTY:	case T_USER | T_TLB_DIRTY:
    672  1.3.2.2  gehenna 		va = hppa_trunc_page(va);
    673  1.3.2.2  gehenna 		vm = p->p_vmspace;
    674  1.3.2.2  gehenna 
    675  1.3.2.2  gehenna 		if (!vm) {
    676  1.3.2.2  gehenna #ifdef TRAPDEBUG
    677  1.3.2.2  gehenna 			printf("trap: no vm, p=%p\n", p);
    678  1.3.2.2  gehenna #endif
    679  1.3.2.2  gehenna 			goto dead_end;
    680  1.3.2.2  gehenna 		}
    681  1.3.2.2  gehenna 
    682  1.3.2.2  gehenna 		/*
    683  1.3.2.2  gehenna 		 * it could be a kernel map for exec_map faults
    684  1.3.2.2  gehenna 		 */
    685  1.3.2.2  gehenna 		if (!(type & T_USER) && space == HPPA_SID_KERNEL)
    686  1.3.2.2  gehenna 			map = kernel_map;
    687  1.3.2.2  gehenna 		else
    688  1.3.2.2  gehenna 			map = &vm->vm_map;
    689  1.3.2.2  gehenna 
    690  1.3.2.2  gehenna 		if (map->pmap->pmap_space != space) {
    691  1.3.2.2  gehenna #ifdef TRAPDEBUG
    692  1.3.2.2  gehenna 			printf("trap: space missmatch %d != %d\n",
    693  1.3.2.2  gehenna 			    space, map->pmap->pmap_space);
    694  1.3.2.2  gehenna #endif
    695  1.3.2.2  gehenna 			/* actually dump the user, crap the kernel */
    696  1.3.2.2  gehenna 			goto dead_end;
    697  1.3.2.2  gehenna 		}
    698  1.3.2.2  gehenna 
    699  1.3.2.2  gehenna 		/* Never call uvm_fault in interrupt context. */
    700  1.3.2.2  gehenna 		KASSERT(hppa_intr_depth == 0);
    701  1.3.2.2  gehenna 
    702  1.3.2.2  gehenna 		ret = uvm_fault(map, va, 0, vftype);
    703  1.3.2.2  gehenna 
    704  1.3.2.2  gehenna #ifdef TRAPDEBUG
    705  1.3.2.2  gehenna 		printf("uvm_fault(%p, %x, %d, %d)=%d\n",
    706  1.3.2.2  gehenna 		    map, (u_int)va, 0, vftype, ret);
    707  1.3.2.2  gehenna #endif
    708  1.3.2.2  gehenna 
    709  1.3.2.2  gehenna 		/*
    710  1.3.2.2  gehenna 		 * If this was a stack access we keep track of the maximum
    711  1.3.2.2  gehenna 		 * accessed stack size.  Also, if uvm_fault gets a protection
    712  1.3.2.2  gehenna 		 * failure it is due to accessing the stack region outside
    713  1.3.2.2  gehenna 		 * the current limit and we need to reflect that as an access
    714  1.3.2.2  gehenna 		 * error.
    715  1.3.2.2  gehenna 		 */
    716  1.3.2.2  gehenna 		if (va >= (vaddr_t)vm->vm_maxsaddr + vm->vm_ssize) {
    717  1.3.2.2  gehenna 			if (ret == 0) {
    718  1.3.2.2  gehenna 				vsize_t nss = btoc(va - USRSTACK + NBPG);
    719  1.3.2.2  gehenna 				if (nss > vm->vm_ssize)
    720  1.3.2.2  gehenna 					vm->vm_ssize = nss;
    721  1.3.2.2  gehenna 			} else if (ret == EACCES)
    722  1.3.2.2  gehenna 				ret = EFAULT;
    723  1.3.2.2  gehenna 		}
    724  1.3.2.2  gehenna 
    725  1.3.2.2  gehenna 		if (ret != 0) {
    726  1.3.2.2  gehenna 			if (type & T_USER) {
    727  1.3.2.2  gehenna printf("trapsignal: uvm_fault(%p, %x, %d, %d)=%d\n",
    728  1.3.2.2  gehenna 	map, (u_int)va, 0, vftype, ret);
    729  1.3.2.2  gehenna #ifdef DEBUG
    730  1.3.2.2  gehenna 				user_backtrace(frame, p);
    731  1.3.2.2  gehenna #endif
    732  1.3.2.2  gehenna 				trapsignal(p, SIGSEGV, frame->tf_ior);
    733  1.3.2.2  gehenna 			} else {
    734  1.3.2.2  gehenna 				if (p && p->p_addr->u_pcb.pcb_onfault) {
    735  1.3.2.2  gehenna #ifdef PMAPDEBUG
    736  1.3.2.2  gehenna 					printf("trap: copyin/out %d\n",ret);
    737  1.3.2.2  gehenna #endif
    738  1.3.2.2  gehenna 					pcbp = &p->p_addr->u_pcb;
    739  1.3.2.2  gehenna 					frame->tf_iioq_tail = 4 +
    740  1.3.2.2  gehenna 					    (frame->tf_iioq_head =
    741  1.3.2.2  gehenna 						pcbp->pcb_onfault);
    742  1.3.2.2  gehenna 					pcbp->pcb_onfault = 0;
    743  1.3.2.2  gehenna 					break;
    744  1.3.2.2  gehenna 				}
    745  1.3.2.2  gehenna #if 1
    746  1.3.2.2  gehenna if (trap_kdebug (type, va, frame))
    747  1.3.2.2  gehenna 	return;
    748  1.3.2.2  gehenna #else
    749  1.3.2.2  gehenna 				panic("trap: uvm_fault(%p, %x, %d, %d): %d",
    750  1.3.2.2  gehenna 				    map, va, 0, vftype, ret);
    751  1.3.2.2  gehenna #endif
    752  1.3.2.2  gehenna 			}
    753  1.3.2.2  gehenna 		}
    754  1.3.2.2  gehenna 		break;
    755  1.3.2.2  gehenna 
    756  1.3.2.2  gehenna 	case T_DATALIGN | T_USER:
    757  1.3.2.2  gehenna 		trapsignal(p, SIGBUS, va);
    758  1.3.2.2  gehenna 		break;
    759  1.3.2.2  gehenna 
    760  1.3.2.2  gehenna 	case T_INTERRUPT:
    761  1.3.2.2  gehenna 	case T_INTERRUPT|T_USER:
    762  1.3.2.2  gehenna 		hppa_intr(frame);
    763  1.3.2.2  gehenna 		mtctl(frame->tf_eiem, CR_EIEM);
    764  1.3.2.2  gehenna #if 0
    765  1.3.2.2  gehenna if (trap_kdebug (type, va, frame))
    766  1.3.2.2  gehenna return;
    767  1.3.2.2  gehenna #endif
    768  1.3.2.2  gehenna 		break;
    769  1.3.2.2  gehenna 	case T_LOWERPL:
    770  1.3.2.2  gehenna 	case T_DPROT:
    771  1.3.2.2  gehenna 	case T_IPROT:
    772  1.3.2.2  gehenna 	case T_OVERFLOW:
    773  1.3.2.2  gehenna 	case T_CONDITION:
    774  1.3.2.2  gehenna 	case T_ILLEGAL:
    775  1.3.2.2  gehenna 	case T_HIGHERPL:
    776  1.3.2.2  gehenna 	case T_TAKENBR:
    777  1.3.2.2  gehenna 	case T_POWERFAIL:
    778  1.3.2.2  gehenna 	case T_LPMC:
    779  1.3.2.2  gehenna 	case T_PAGEREF:
    780  1.3.2.2  gehenna 	case T_DATAPID:  	case T_DATAPID  | T_USER:
    781  1.3.2.2  gehenna 		if (0 /* T-chip */) {
    782  1.3.2.2  gehenna 			break;
    783  1.3.2.2  gehenna 		}
    784  1.3.2.2  gehenna 		/* FALLTHROUGH to unimplemented */
    785  1.3.2.2  gehenna 	default:
    786  1.3.2.2  gehenna #if 1
    787  1.3.2.2  gehenna if (trap_kdebug (type, va, frame))
    788  1.3.2.2  gehenna 	return;
    789  1.3.2.2  gehenna #endif
    790  1.3.2.2  gehenna 		panic ("trap: unimplemented \'%s\' (%d)", tts, type);
    791  1.3.2.2  gehenna 	}
    792  1.3.2.2  gehenna 
    793  1.3.2.2  gehenna 	if (type & T_USER)
    794  1.3.2.2  gehenna 		userret(p, p->p_md.md_regs->tf_iioq_head, 0);
    795  1.3.2.2  gehenna 
    796  1.3.2.2  gehenna #ifdef DEBUG
    797  1.3.2.2  gehenna 	frame_sanity_check(frame, p);
    798  1.3.2.2  gehenna 	if (frame->tf_flags & TFF_LAST && curproc != NULL)
    799  1.3.2.2  gehenna 		frame_sanity_check(curproc->p_md.md_regs, curproc);
    800  1.3.2.2  gehenna #endif /* DEBUG */
    801  1.3.2.2  gehenna }
    802  1.3.2.2  gehenna 
    803  1.3.2.2  gehenna void
    804  1.3.2.2  gehenna child_return(arg)
    805  1.3.2.2  gehenna 	void *arg;
    806  1.3.2.2  gehenna {
    807  1.3.2.2  gehenna 	struct proc *p = arg;
    808  1.3.2.2  gehenna 
    809  1.3.2.2  gehenna 	userret(p, p->p_md.md_regs->tf_iioq_head, 0);
    810  1.3.2.2  gehenna #ifdef KTRACE
    811  1.3.2.2  gehenna 	if (KTRPOINT(p, KTR_SYSRET))
    812  1.3.2.2  gehenna 		ktrsysret(p, SYS_fork, 0, 0);
    813  1.3.2.2  gehenna #endif
    814  1.3.2.2  gehenna #ifdef DEBUG
    815  1.3.2.2  gehenna 	frame_sanity_check(p->p_md.md_regs, p);
    816  1.3.2.2  gehenna #endif /* DEBUG */
    817  1.3.2.2  gehenna }
    818  1.3.2.2  gehenna 
    819  1.3.2.2  gehenna /*
    820  1.3.2.2  gehenna  * call actual syscall routine
    821  1.3.2.2  gehenna  * from the low-level syscall handler:
    822  1.3.2.2  gehenna  * - all HPPA_FRAME_NARGS syscall's arguments supposed to be copied onto
    823  1.3.2.2  gehenna  *   our stack, this wins compared to copyin just needed amount anyway
    824  1.3.2.2  gehenna  * - register args are copied onto stack too
    825  1.3.2.2  gehenna  */
    826  1.3.2.2  gehenna void
    827  1.3.2.2  gehenna syscall(frame, args)
    828  1.3.2.2  gehenna 	struct trapframe *frame;
    829  1.3.2.2  gehenna 	int *args;
    830  1.3.2.2  gehenna {
    831  1.3.2.2  gehenna 	register struct proc *p;
    832  1.3.2.2  gehenna 	register const struct sysent *callp;
    833  1.3.2.2  gehenna 	int nsys, code, argsize, error;
    834  1.3.2.2  gehenna 	int tmp;
    835  1.3.2.2  gehenna 	int rval[2];
    836  1.3.2.2  gehenna 
    837  1.3.2.2  gehenna 	uvmexp.syscalls++;
    838  1.3.2.2  gehenna 
    839  1.3.2.2  gehenna #ifdef DEBUG
    840  1.3.2.2  gehenna 	frame_sanity_check(frame, curproc);
    841  1.3.2.2  gehenna #endif /* DEBUG */
    842  1.3.2.2  gehenna 
    843  1.3.2.2  gehenna 	if (!USERMODE(frame->tf_iioq_head))
    844  1.3.2.2  gehenna 		panic("syscall");
    845  1.3.2.2  gehenna 
    846  1.3.2.2  gehenna 	p = curproc;
    847  1.3.2.2  gehenna 	p->p_md.md_regs = frame;
    848  1.3.2.2  gehenna 	nsys = p->p_emul->e_nsysent;
    849  1.3.2.2  gehenna 	callp = p->p_emul->e_sysent;
    850  1.3.2.2  gehenna 	code = frame->tf_t1;
    851  1.3.2.2  gehenna 
    852  1.3.2.2  gehenna 	/*
    853  1.3.2.2  gehenna 	 * Restarting a system call is touchy on the HPPA,
    854  1.3.2.2  gehenna 	 * because syscall arguments are passed in registers
    855  1.3.2.2  gehenna 	 * and the program counter of the syscall "point"
    856  1.3.2.2  gehenna 	 * isn't easily divined.
    857  1.3.2.2  gehenna 	 *
    858  1.3.2.2  gehenna 	 * We handle the first problem by assuming that we
    859  1.3.2.2  gehenna 	 * will have to restart this system call, so we
    860  1.3.2.2  gehenna 	 * stuff the first four words of the original arguments
    861  1.3.2.2  gehenna 	 * back into the frame as arg0...arg3, which is where
    862  1.3.2.2  gehenna 	 * we found them in the first place.  Any further
    863  1.3.2.2  gehenna 	 * arguments are (still) on the user's stack and the
    864  1.3.2.2  gehenna 	 * syscall code will fetch them from there (again).
    865  1.3.2.2  gehenna 	 *
    866  1.3.2.2  gehenna 	 * The program counter problem is addressed below.
    867  1.3.2.2  gehenna 	 */
    868  1.3.2.2  gehenna 	frame->tf_arg0 = args[0];
    869  1.3.2.2  gehenna 	frame->tf_arg1 = args[1];
    870  1.3.2.2  gehenna 	frame->tf_arg2 = args[2];
    871  1.3.2.2  gehenna 	frame->tf_arg3 = args[3];
    872  1.3.2.2  gehenna 
    873  1.3.2.2  gehenna 	/*
    874  1.3.2.2  gehenna 	 * Some special handling for the syscall(2) and
    875  1.3.2.2  gehenna 	 * __syscall(2) system calls.
    876  1.3.2.2  gehenna 	 */
    877  1.3.2.2  gehenna 	switch (code) {
    878  1.3.2.2  gehenna 	case SYS_syscall:
    879  1.3.2.2  gehenna 		code = *args;
    880  1.3.2.2  gehenna 		args += 1;
    881  1.3.2.2  gehenna 		break;
    882  1.3.2.2  gehenna 	case SYS___syscall:
    883  1.3.2.2  gehenna 		if (callp != sysent)
    884  1.3.2.2  gehenna 			break;
    885  1.3.2.2  gehenna 		/*
    886  1.3.2.2  gehenna 		 * NB: even though __syscall(2) takes a quad_t
    887  1.3.2.2  gehenna 		 * containing the system call number, because
    888  1.3.2.2  gehenna 		 * our argument copying word-swaps 64-bit arguments,
    889  1.3.2.2  gehenna 		 * the least significant word of that quad_t
    890  1.3.2.2  gehenna 		 * is the first word in the argument array.
    891  1.3.2.2  gehenna 		 */
    892  1.3.2.2  gehenna 		code = *args;
    893  1.3.2.2  gehenna 		args += 2;
    894  1.3.2.2  gehenna 	}
    895  1.3.2.2  gehenna 
    896  1.3.2.2  gehenna 	/*
    897  1.3.2.2  gehenna 	 * Stacks growing from lower addresses to higher
    898  1.3.2.2  gehenna 	 * addresses are not really such a good idea, because
    899  1.3.2.2  gehenna 	 * it makes it impossible to overlay a struct on top
    900  1.3.2.2  gehenna 	 * of C stack arguments (the arguments appear in
    901  1.3.2.2  gehenna 	 * reversed order).
    902  1.3.2.2  gehenna 	 *
    903  1.3.2.2  gehenna 	 * You can do the obvious thing (as locore.S does) and
    904  1.3.2.2  gehenna 	 * copy argument words one by one, laying them out in
    905  1.3.2.2  gehenna 	 * the "right" order in the destination buffer, but this
    906  1.3.2.2  gehenna 	 * ends up word-swapping multi-word arguments (like off_t).
    907  1.3.2.2  gehenna 	 *
    908  1.3.2.2  gehenna 	 * To compensate, we have some automatically-generated
    909  1.3.2.2  gehenna 	 * code that word-swaps these multi-word arguments.
    910  1.3.2.2  gehenna 	 * Right now the script that generates this code is
    911  1.3.2.2  gehenna 	 * in Perl, because I don't know awk.
    912  1.3.2.2  gehenna 	 *
    913  1.3.2.2  gehenna 	 * FIXME - this works only on native binaries and
    914  1.3.2.2  gehenna 	 * will probably screw up any and all emulation.
    915  1.3.2.2  gehenna 	 */
    916  1.3.2.2  gehenna 	switch (code) {
    917  1.3.2.2  gehenna 	/*
    918  1.3.2.2  gehenna 	 * BEGIN automatically generated
    919  1.3.2.2  gehenna 	 * by /home/fredette/project/hppa/makescargfix.pl
    920  1.3.2.2  gehenna 	 * do not edit!
    921  1.3.2.2  gehenna 	 */
    922  1.3.2.2  gehenna 	case SYS_pread:
    923  1.3.2.2  gehenna 		/*
    924  1.3.2.2  gehenna 		 * 	syscallarg(int) fd;
    925  1.3.2.2  gehenna 		 * 	syscallarg(void *) buf;
    926  1.3.2.2  gehenna 		 * 	syscallarg(size_t) nbyte;
    927  1.3.2.2  gehenna 		 * 	syscallarg(int) pad;
    928  1.3.2.2  gehenna 		 * 	syscallarg(off_t) offset;
    929  1.3.2.2  gehenna 		 */
    930  1.3.2.2  gehenna 		tmp = args[4];
    931  1.3.2.2  gehenna 		args[4] = args[4 + 1];
    932  1.3.2.2  gehenna 		args[4 + 1] = tmp;
    933  1.3.2.2  gehenna 		break;
    934  1.3.2.2  gehenna 	case SYS_pwrite:
    935  1.3.2.2  gehenna 		/*
    936  1.3.2.2  gehenna 		 * 	syscallarg(int) fd;
    937  1.3.2.2  gehenna 		 * 	syscallarg(const void *) buf;
    938  1.3.2.2  gehenna 		 * 	syscallarg(size_t) nbyte;
    939  1.3.2.2  gehenna 		 * 	syscallarg(int) pad;
    940  1.3.2.2  gehenna 		 * 	syscallarg(off_t) offset;
    941  1.3.2.2  gehenna 		 */
    942  1.3.2.2  gehenna 		tmp = args[4];
    943  1.3.2.2  gehenna 		args[4] = args[4 + 1];
    944  1.3.2.2  gehenna 		args[4 + 1] = tmp;
    945  1.3.2.2  gehenna 		break;
    946  1.3.2.2  gehenna 	case SYS_mmap:
    947  1.3.2.2  gehenna 		/*
    948  1.3.2.2  gehenna 		 * 	syscallarg(void *) addr;
    949  1.3.2.2  gehenna 		 * 	syscallarg(size_t) len;
    950  1.3.2.2  gehenna 		 * 	syscallarg(int) prot;
    951  1.3.2.2  gehenna 		 * 	syscallarg(int) flags;
    952  1.3.2.2  gehenna 		 * 	syscallarg(int) fd;
    953  1.3.2.2  gehenna 		 * 	syscallarg(long) pad;
    954  1.3.2.2  gehenna 		 * 	syscallarg(off_t) pos;
    955  1.3.2.2  gehenna 		 */
    956  1.3.2.2  gehenna 		tmp = args[6];
    957  1.3.2.2  gehenna 		args[6] = args[6 + 1];
    958  1.3.2.2  gehenna 		args[6 + 1] = tmp;
    959  1.3.2.2  gehenna 		break;
    960  1.3.2.2  gehenna 	case SYS_lseek:
    961  1.3.2.2  gehenna 		/*
    962  1.3.2.2  gehenna 		 * 	syscallarg(int) fd;
    963  1.3.2.2  gehenna 		 * 	syscallarg(int) pad;
    964  1.3.2.2  gehenna 		 * 	syscallarg(off_t) offset;
    965  1.3.2.2  gehenna 		 */
    966  1.3.2.2  gehenna 		tmp = args[2];
    967  1.3.2.2  gehenna 		args[2] = args[2 + 1];
    968  1.3.2.2  gehenna 		args[2 + 1] = tmp;
    969  1.3.2.2  gehenna 		break;
    970  1.3.2.2  gehenna 	case SYS_truncate:
    971  1.3.2.2  gehenna 		/*
    972  1.3.2.2  gehenna 		 * 	syscallarg(const char *) path;
    973  1.3.2.2  gehenna 		 * 	syscallarg(int) pad;
    974  1.3.2.2  gehenna 		 * 	syscallarg(off_t) length;
    975  1.3.2.2  gehenna 		 */
    976  1.3.2.2  gehenna 		tmp = args[2];
    977  1.3.2.2  gehenna 		args[2] = args[2 + 1];
    978  1.3.2.2  gehenna 		args[2 + 1] = tmp;
    979  1.3.2.2  gehenna 		break;
    980  1.3.2.2  gehenna 	case SYS_ftruncate:
    981  1.3.2.2  gehenna 		/*
    982  1.3.2.2  gehenna 		 * 	syscallarg(int) fd;
    983  1.3.2.2  gehenna 		 * 	syscallarg(int) pad;
    984  1.3.2.2  gehenna 		 * 	syscallarg(off_t) length;
    985  1.3.2.2  gehenna 		 */
    986  1.3.2.2  gehenna 		tmp = args[2];
    987  1.3.2.2  gehenna 		args[2] = args[2 + 1];
    988  1.3.2.2  gehenna 		args[2 + 1] = tmp;
    989  1.3.2.2  gehenna 		break;
    990  1.3.2.2  gehenna 	case SYS_preadv:
    991  1.3.2.2  gehenna 		/*
    992  1.3.2.2  gehenna 		 * 	syscallarg(int) fd;
    993  1.3.2.2  gehenna 		 * 	syscallarg(const struct iovec *) iovp;
    994  1.3.2.2  gehenna 		 * 	syscallarg(int) iovcnt;
    995  1.3.2.2  gehenna 		 * 	syscallarg(int) pad;
    996  1.3.2.2  gehenna 		 * 	syscallarg(off_t) offset;
    997  1.3.2.2  gehenna 		 */
    998  1.3.2.2  gehenna 		tmp = args[4];
    999  1.3.2.2  gehenna 		args[4] = args[4 + 1];
   1000  1.3.2.2  gehenna 		args[4 + 1] = tmp;
   1001  1.3.2.2  gehenna 		break;
   1002  1.3.2.2  gehenna 	case SYS_pwritev:
   1003  1.3.2.2  gehenna 		/*
   1004  1.3.2.2  gehenna 		 * 	syscallarg(int) fd;
   1005  1.3.2.2  gehenna 		 * 	syscallarg(const struct iovec *) iovp;
   1006  1.3.2.2  gehenna 		 * 	syscallarg(int) iovcnt;
   1007  1.3.2.2  gehenna 		 * 	syscallarg(int) pad;
   1008  1.3.2.2  gehenna 		 * 	syscallarg(off_t) offset;
   1009  1.3.2.2  gehenna 		 */
   1010  1.3.2.2  gehenna 		tmp = args[4];
   1011  1.3.2.2  gehenna 		args[4] = args[4 + 1];
   1012  1.3.2.2  gehenna 		args[4 + 1] = tmp;
   1013  1.3.2.2  gehenna 		break;
   1014  1.3.2.2  gehenna 	default:
   1015  1.3.2.2  gehenna 		break;
   1016  1.3.2.2  gehenna 	/*
   1017  1.3.2.2  gehenna 	 * END automatically generated
   1018  1.3.2.2  gehenna 	 * by /home/fredette/project/hppa/makescargfix.pl
   1019  1.3.2.2  gehenna 	 * do not edit!
   1020  1.3.2.2  gehenna 	 */
   1021  1.3.2.2  gehenna 	}
   1022  1.3.2.2  gehenna 
   1023  1.3.2.2  gehenna #ifdef USERTRACE
   1024  1.3.2.2  gehenna 	if (0) {
   1025  1.3.2.2  gehenna 		user_backtrace(frame, p);
   1026  1.3.2.2  gehenna 		frame->tf_ipsw |= PSW_R;
   1027  1.3.2.2  gehenna 		frame->tf_rctr = 0;
   1028  1.3.2.2  gehenna 		printf("r %08x", frame->tf_iioq_head);
   1029  1.3.2.2  gehenna 		rctr_next_iioq = frame->tf_iioq_head + 4;
   1030  1.3.2.2  gehenna 	}
   1031  1.3.2.2  gehenna #endif
   1032  1.3.2.2  gehenna 
   1033  1.3.2.2  gehenna 	if (code < 0 || code >= nsys)
   1034  1.3.2.2  gehenna 		callp += p->p_emul->e_nosys;	/* bad syscall # */
   1035  1.3.2.2  gehenna 	else
   1036  1.3.2.2  gehenna 		callp += code;
   1037  1.3.2.2  gehenna 	argsize = callp->sy_argsize;
   1038  1.3.2.2  gehenna 
   1039  1.3.2.2  gehenna 	if ((error = trace_enter(p, code, args, rval)) != 0)
   1040  1.3.2.2  gehenna 		goto bad;
   1041  1.3.2.2  gehenna 
   1042  1.3.2.2  gehenna 	rval[0] = 0;
   1043  1.3.2.2  gehenna 	rval[1] = 0;
   1044  1.3.2.2  gehenna 	switch (error = (*callp->sy_call)(p, args, rval)) {
   1045  1.3.2.2  gehenna 	case 0:
   1046  1.3.2.2  gehenna 		p = curproc;			/* changes on exec() */
   1047  1.3.2.2  gehenna 		frame = p->p_md.md_regs;
   1048  1.3.2.2  gehenna 		frame->tf_ret0 = rval[0];
   1049  1.3.2.2  gehenna 		frame->tf_ret1 = rval[1];
   1050  1.3.2.2  gehenna 		frame->tf_t1 = 0;
   1051  1.3.2.2  gehenna 		break;
   1052  1.3.2.2  gehenna 	case ERESTART:
   1053  1.3.2.2  gehenna 		/*
   1054  1.3.2.2  gehenna 		 * Now we have to wind back the instruction
   1055  1.3.2.2  gehenna 		 * offset queue to the point where the system
   1056  1.3.2.2  gehenna 		 * call will be made again.  This is inherently
   1057  1.3.2.2  gehenna 		 * tied to the SYSCALL macro.
   1058  1.3.2.2  gehenna 		 *
   1059  1.3.2.2  gehenna 		 * Currently, the part of the SYSCALL macro
   1060  1.3.2.2  gehenna 		 * that we want to rerun reads as:
   1061  1.3.2.2  gehenna 		 *
   1062  1.3.2.2  gehenna 		 *	ldil	L%SYSCALLGATE, r1
   1063  1.3.2.2  gehenna 		 *	ble	4(sr7, r1)
   1064  1.3.2.2  gehenna 		 *	ldi	__CONCAT(SYS_,x), t1
   1065  1.3.2.2  gehenna 		 *	ldw	HPPA_FRAME_ERP(sr0,sp), rp
   1066  1.3.2.2  gehenna 		 *
   1067  1.3.2.2  gehenna 		 * And our offset queue head points to the
   1068  1.3.2.2  gehenna 		 * final ldw instruction.  So we need to
   1069  1.3.2.2  gehenna 		 * subtract twelve to reach the ldil.
   1070  1.3.2.2  gehenna 		 */
   1071  1.3.2.2  gehenna 		frame->tf_iioq_head -= 12;
   1072  1.3.2.2  gehenna 		frame->tf_iioq_tail = frame->tf_iioq_head + 4;
   1073  1.3.2.2  gehenna 		break;
   1074  1.3.2.2  gehenna 	case EJUSTRETURN:
   1075  1.3.2.2  gehenna 		p = curproc;
   1076  1.3.2.2  gehenna 		break;
   1077  1.3.2.2  gehenna 	default:
   1078  1.3.2.2  gehenna 	bad:
   1079  1.3.2.2  gehenna 		if (p->p_emul->e_errno)
   1080  1.3.2.2  gehenna 			error = p->p_emul->e_errno[error];
   1081  1.3.2.2  gehenna 		frame->tf_t1 = error;
   1082  1.3.2.2  gehenna 		break;
   1083  1.3.2.2  gehenna 	}
   1084  1.3.2.2  gehenna 
   1085  1.3.2.2  gehenna 	trace_exit(p, code, args, rval, error);
   1086  1.3.2.2  gehenna 
   1087  1.3.2.2  gehenna 	userret(p, frame->tf_iioq_head, 0);
   1088  1.3.2.2  gehenna #ifdef DEBUG
   1089  1.3.2.2  gehenna 	frame_sanity_check(frame, p);
   1090  1.3.2.2  gehenna #endif /* DEBUG */
   1091  1.3.2.2  gehenna }
   1092