trap.c revision 1.68
1 1.68 skrll /* $NetBSD: trap.c,v 1.68 2010/01/16 07:45:53 skrll Exp $ */ 2 1.1 fredette 3 1.1 fredette /*- 4 1.1 fredette * Copyright (c) 2001, 2002 The NetBSD Foundation, Inc. 5 1.1 fredette * All rights reserved. 6 1.1 fredette * 7 1.1 fredette * This code is derived from software contributed to The NetBSD Foundation 8 1.1 fredette * by Matthew Fredette. 9 1.1 fredette * 10 1.1 fredette * Redistribution and use in source and binary forms, with or without 11 1.1 fredette * modification, are permitted provided that the following conditions 12 1.1 fredette * are met: 13 1.1 fredette * 1. Redistributions of source code must retain the above copyright 14 1.1 fredette * notice, this list of conditions and the following disclaimer. 15 1.1 fredette * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 fredette * notice, this list of conditions and the following disclaimer in the 17 1.1 fredette * documentation and/or other materials provided with the distribution. 18 1.1 fredette * 19 1.1 fredette * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 fredette * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 fredette * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 fredette * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 fredette * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 fredette * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 fredette * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 fredette * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 fredette * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 fredette * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 fredette * POSSIBILITY OF SUCH DAMAGE. 30 1.1 fredette */ 31 1.1 fredette 32 1.1 fredette /* $OpenBSD: trap.c,v 1.30 2001/09/19 20:50:56 mickey Exp $ */ 33 1.1 fredette 34 1.1 fredette /* 35 1.60 snj * Copyright (c) 1998-2004 Michael Shalayeff 36 1.1 fredette * All rights reserved. 37 1.1 fredette * 38 1.1 fredette * Redistribution and use in source and binary forms, with or without 39 1.1 fredette * modification, are permitted provided that the following conditions 40 1.1 fredette * are met: 41 1.1 fredette * 1. Redistributions of source code must retain the above copyright 42 1.1 fredette * notice, this list of conditions and the following disclaimer. 43 1.1 fredette * 2. Redistributions in binary form must reproduce the above copyright 44 1.1 fredette * notice, this list of conditions and the following disclaimer in the 45 1.1 fredette * documentation and/or other materials provided with the distribution. 46 1.1 fredette * 47 1.1 fredette * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 48 1.1 fredette * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 49 1.1 fredette * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 50 1.60 snj * IN NO EVENT SHALL THE AUTHOR OR HIS RELATIVES BE LIABLE FOR ANY DIRECT, 51 1.60 snj * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES 52 1.60 snj * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 53 1.60 snj * SERVICES; LOSS OF MIND, USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 54 1.60 snj * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, 55 1.60 snj * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING 56 1.60 snj * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF 57 1.60 snj * THE POSSIBILITY OF SUCH DAMAGE. 58 1.1 fredette */ 59 1.8 lukem 60 1.8 lukem #include <sys/cdefs.h> 61 1.68 skrll __KERNEL_RCSID(0, "$NetBSD: trap.c,v 1.68 2010/01/16 07:45:53 skrll Exp $"); 62 1.1 fredette 63 1.1 fredette /* #define INTRDEBUG */ 64 1.1 fredette /* #define TRAPDEBUG */ 65 1.1 fredette /* #define USERTRACE */ 66 1.1 fredette 67 1.1 fredette #include "opt_kgdb.h" 68 1.51 skrll #include "opt_ptrace.h" 69 1.56 wrstuden #include "opt_sa.h" 70 1.1 fredette 71 1.1 fredette #include <sys/param.h> 72 1.1 fredette #include <sys/systm.h> 73 1.1 fredette #include <sys/kernel.h> 74 1.1 fredette #include <sys/syscall.h> 75 1.57 ad #include <sys/syscallvar.h> 76 1.56 wrstuden #include <sys/sa.h> 77 1.56 wrstuden #include <sys/savar.h> 78 1.40 ad #include <sys/mutex.h> 79 1.1 fredette #include <sys/ktrace.h> 80 1.1 fredette #include <sys/proc.h> 81 1.1 fredette #include <sys/signalvar.h> 82 1.1 fredette #include <sys/acct.h> 83 1.1 fredette #include <sys/signal.h> 84 1.1 fredette #include <sys/device.h> 85 1.9 chs #include <sys/pool.h> 86 1.20 chs #include <sys/userret.h> 87 1.1 fredette 88 1.1 fredette #include <net/netisr.h> 89 1.1 fredette 90 1.1 fredette #ifdef KGDB 91 1.1 fredette #include <sys/kgdb.h> 92 1.1 fredette #endif 93 1.1 fredette 94 1.1 fredette #include <uvm/uvm.h> 95 1.1 fredette 96 1.1 fredette #include <machine/iomod.h> 97 1.1 fredette #include <machine/cpufunc.h> 98 1.1 fredette #include <machine/reg.h> 99 1.1 fredette #include <machine/autoconf.h> 100 1.1 fredette 101 1.1 fredette #include <machine/db_machdep.h> 102 1.1 fredette 103 1.1 fredette #include <hppa/hppa/machdep.h> 104 1.1 fredette 105 1.1 fredette #include <ddb/db_output.h> 106 1.19 chs #include <ddb/db_interface.h> 107 1.1 fredette 108 1.51 skrll #ifdef PTRACE 109 1.51 skrll void ss_clear_breakpoints(struct lwp *l); 110 1.51 skrll int ss_put_value(struct lwp *, vaddr_t, u_int); 111 1.51 skrll int ss_get_value(struct lwp *, vaddr_t, u_int *); 112 1.51 skrll #endif 113 1.51 skrll 114 1.51 skrll /* single-step breakpoint */ 115 1.51 skrll #define SSBREAKPOINT (HPPA_BREAK_KERNEL | (HPPA_BREAK_SS << 13)) 116 1.51 skrll 117 1.1 fredette #if defined(DEBUG) || defined(DIAGNOSTIC) 118 1.1 fredette /* 119 1.1 fredette * 0x6fc1000 is a stwm r1, d(sr0, sp), which is the last 120 1.1 fredette * instruction in the function prologue that gcc -O0 uses. 121 1.1 fredette * When we have this instruction we know the relationship 122 1.1 fredette * between the stack pointer and the gcc -O0 frame pointer 123 1.1 fredette * (in r3, loaded with the initial sp) for the body of a 124 1.1 fredette * function. 125 1.1 fredette * 126 1.1 fredette * If the given instruction is a stwm r1, d(sr0, sp) where 127 1.1 fredette * d > 0, we evaluate to d, else we evaluate to zero. 128 1.1 fredette */ 129 1.1 fredette #define STWM_R1_D_SR0_SP(inst) \ 130 1.1 fredette (((inst) & 0xffffc001) == 0x6fc10000 ? (((inst) & 0x00003ff) >> 1) : 0) 131 1.1 fredette #endif /* DEBUG || DIAGNOSTIC */ 132 1.1 fredette 133 1.1 fredette const char *trap_type[] = { 134 1.1 fredette "invalid", 135 1.1 fredette "HPMC", 136 1.1 fredette "power failure", 137 1.1 fredette "recovery counter", 138 1.1 fredette "external interrupt", 139 1.1 fredette "LPMC", 140 1.1 fredette "ITLB miss fault", 141 1.1 fredette "instruction protection", 142 1.1 fredette "Illegal instruction", 143 1.1 fredette "break instruction", 144 1.1 fredette "privileged operation", 145 1.1 fredette "privileged register", 146 1.1 fredette "overflow", 147 1.1 fredette "conditional", 148 1.1 fredette "assist exception", 149 1.1 fredette "DTLB miss", 150 1.1 fredette "ITLB non-access miss", 151 1.1 fredette "DTLB non-access miss", 152 1.1 fredette "data protection/rights/alignment", 153 1.1 fredette "data break", 154 1.1 fredette "TLB dirty", 155 1.1 fredette "page reference", 156 1.1 fredette "assist emulation", 157 1.1 fredette "higher-priv transfer", 158 1.1 fredette "lower-priv transfer", 159 1.1 fredette "taken branch", 160 1.1 fredette "data access rights", 161 1.1 fredette "data protection", 162 1.1 fredette "unaligned data ref", 163 1.1 fredette }; 164 1.1 fredette int trap_types = sizeof(trap_type)/sizeof(trap_type[0]); 165 1.1 fredette 166 1.23 chs uint8_t fpopmap[] = { 167 1.23 chs 0x00, 0x00, 0x00, 0x06, 0x00, 0x00, 0x00, 0x00, 168 1.23 chs 0x00, 0x0c, 0x00, 0x0e, 0x00, 0x00, 0x00, 0x00, 169 1.23 chs 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 170 1.23 chs 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 171 1.23 chs 0x00, 0x00, 0x00, 0x26, 0x00, 0x00, 0x00, 0x00, 172 1.23 chs 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 173 1.23 chs 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 174 1.23 chs 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 175 1.23 chs }; 176 1.23 chs 177 1.1 fredette volatile int astpending; 178 1.1 fredette 179 1.14 chs void pmap_hptdump(void); 180 1.14 chs void syscall(struct trapframe *, int *); 181 1.1 fredette 182 1.53 skrll #if defined(DEBUG) 183 1.53 skrll struct trapframe *sanity_frame; 184 1.53 skrll struct lwp *sanity_lwp; 185 1.53 skrll int sanity_checked = 0; 186 1.53 skrll void frame_sanity_check(int, int, struct trapframe *, struct lwp *); 187 1.53 skrll #endif 188 1.53 skrll 189 1.53 skrll 190 1.1 fredette #ifdef USERTRACE 191 1.1 fredette /* 192 1.1 fredette * USERTRACE is a crude facility that traces the PC of 193 1.1 fredette * a single user process. This tracing is normally 194 1.1 fredette * activated by the dispatching of a certain syscall 195 1.1 fredette * with certain arguments - see the activation code in 196 1.1 fredette * syscall(). 197 1.1 fredette */ 198 1.53 skrll static void user_backtrace(struct trapframe *, struct lwp *, int); 199 1.53 skrll static void user_backtrace_raw(u_int, u_int); 200 1.53 skrll 201 1.1 fredette u_int rctr_next_iioq; 202 1.1 fredette #endif 203 1.1 fredette 204 1.30 perry static inline void 205 1.20 chs userret(struct lwp *l, register_t pc, u_quad_t oticks) 206 1.1 fredette { 207 1.9 chs struct proc *p = l->l_proc; 208 1.1 fredette 209 1.47 skrll if (curcpu()->ci_want_resched) { 210 1.40 ad preempt(); 211 1.1 fredette } 212 1.1 fredette 213 1.20 chs mi_userret(l); 214 1.20 chs 215 1.1 fredette /* 216 1.1 fredette * If profiling, charge recent system time to the trapped pc. 217 1.1 fredette */ 218 1.40 ad if (p->p_stflag & PST_PROFIL) { 219 1.1 fredette extern int psratio; 220 1.1 fredette 221 1.40 ad addupc_task(l, pc, (int)(p->p_sticks - oticks) * psratio); 222 1.1 fredette } 223 1.1 fredette } 224 1.1 fredette 225 1.1 fredette /* 226 1.1 fredette * This handles some messy kernel debugger details. 227 1.1 fredette * It dispatches into either kgdb or DDB, and knows 228 1.1 fredette * about some special things to do, like skipping over 229 1.1 fredette * break instructions and how to really set up for 230 1.1 fredette * a single-step. 231 1.1 fredette */ 232 1.1 fredette #if defined(KGDB) || defined(DDB) 233 1.1 fredette static int 234 1.1 fredette trap_kdebug(int type, int code, struct trapframe *frame) 235 1.1 fredette { 236 1.1 fredette int handled; 237 1.1 fredette u_int tf_iioq_head_old; 238 1.1 fredette u_int tf_iioq_tail_old; 239 1.1 fredette 240 1.1 fredette for(;;) { 241 1.1 fredette 242 1.1 fredette /* This trap has not been handled. */ 243 1.1 fredette handled = 0; 244 1.1 fredette 245 1.1 fredette /* Remember the instruction offset queue. */ 246 1.1 fredette tf_iioq_head_old = frame->tf_iioq_head; 247 1.1 fredette tf_iioq_tail_old = frame->tf_iioq_tail; 248 1.1 fredette 249 1.1 fredette #ifdef KGDB 250 1.1 fredette /* Let KGDB handle it (if connected) */ 251 1.1 fredette if (!handled) 252 1.1 fredette handled = kgdb_trap(type, frame); 253 1.1 fredette #endif 254 1.1 fredette #ifdef DDB 255 1.1 fredette /* Let DDB handle it. */ 256 1.1 fredette if (!handled) 257 1.1 fredette handled = kdb_trap(type, code, frame); 258 1.1 fredette #endif 259 1.1 fredette 260 1.1 fredette /* If this trap wasn't handled, return now. */ 261 1.1 fredette if (!handled) 262 1.1 fredette return(0); 263 1.1 fredette 264 1.1 fredette /* 265 1.1 fredette * If the instruction offset queue head changed, 266 1.1 fredette * but the offset queue tail didn't, assume that 267 1.1 fredette * the user wants to jump to the head offset, and 268 1.1 fredette * adjust the tail accordingly. This should fix 269 1.1 fredette * the kgdb `jump' command, and can help DDB users 270 1.1 fredette * who `set' the offset head but forget the tail. 271 1.1 fredette */ 272 1.1 fredette if (frame->tf_iioq_head != tf_iioq_head_old && 273 1.1 fredette frame->tf_iioq_tail == tf_iioq_tail_old) 274 1.1 fredette frame->tf_iioq_tail = frame->tf_iioq_head + 4; 275 1.1 fredette 276 1.1 fredette /* 277 1.1 fredette * This is some single-stepping support. 278 1.1 fredette * If we're trying to step through a nullified 279 1.1 fredette * instruction, just advance by hand and trap 280 1.1 fredette * again. Otherwise, load the recovery counter 281 1.1 fredette * with zero. 282 1.1 fredette */ 283 1.1 fredette if (frame->tf_ipsw & PSW_R) { 284 1.1 fredette #ifdef TRAPDEBUG 285 1.44 skrll printf("(single stepping at head 0x%x tail 0x%x)\n", 286 1.44 skrll frame->tf_iioq_head, frame->tf_iioq_tail); 287 1.1 fredette #endif 288 1.1 fredette if (frame->tf_ipsw & PSW_N) { 289 1.1 fredette #ifdef TRAPDEBUG 290 1.1 fredette printf("(single stepping past nullified)\n"); 291 1.1 fredette #endif 292 1.1 fredette 293 1.1 fredette /* Advance the program counter. */ 294 1.1 fredette frame->tf_iioq_head = frame->tf_iioq_tail; 295 1.1 fredette frame->tf_iioq_tail = frame->tf_iioq_head + 4; 296 1.1 fredette 297 1.1 fredette /* Clear flags. */ 298 1.1 fredette frame->tf_ipsw &= ~(PSW_N|PSW_X|PSW_Y|PSW_Z|PSW_B|PSW_T|PSW_H|PSW_L); 299 1.1 fredette 300 1.1 fredette /* Simulate another trap. */ 301 1.1 fredette type = T_RECOVERY; 302 1.1 fredette continue; 303 1.1 fredette } 304 1.1 fredette frame->tf_rctr = 0; 305 1.1 fredette } 306 1.1 fredette 307 1.1 fredette /* We handled this trap. */ 308 1.1 fredette return (1); 309 1.1 fredette } 310 1.1 fredette /* NOTREACHED */ 311 1.1 fredette } 312 1.1 fredette #else /* !KGDB && !DDB */ 313 1.1 fredette #define trap_kdebug(t, c, f) (0) 314 1.1 fredette #endif /* !KGDB && !DDB */ 315 1.1 fredette 316 1.24 tsutsui #if defined(DEBUG) || defined(USERTRACE) 317 1.1 fredette /* 318 1.1 fredette * These functions give a crude usermode backtrace. They 319 1.1 fredette * really only work when code has been compiled without 320 1.1 fredette * optimization, as they assume a certain function prologue 321 1.1 fredette * sets up a frame pointer and stores the return pointer 322 1.1 fredette * and arguments in it. 323 1.1 fredette */ 324 1.1 fredette static void 325 1.1 fredette user_backtrace_raw(u_int pc, u_int fp) 326 1.1 fredette { 327 1.1 fredette int frame_number; 328 1.1 fredette int arg_number; 329 1.1 fredette 330 1.3 fredette for (frame_number = 0; 331 1.3 fredette frame_number < 100 && pc > HPPA_PC_PRIV_MASK && fp; 332 1.3 fredette frame_number++) { 333 1.3 fredette 334 1.1 fredette printf("%3d: pc=%08x%s fp=0x%08x", frame_number, 335 1.44 skrll pc & ~HPPA_PC_PRIV_MASK, USERMODE(pc) ? " " : "**", fp); 336 1.1 fredette for(arg_number = 0; arg_number < 4; arg_number++) 337 1.1 fredette printf(" arg%d=0x%08x", arg_number, 338 1.1 fredette (int) fuword(HPPA_FRAME_CARG(arg_number, fp))); 339 1.1 fredette printf("\n"); 340 1.1 fredette pc = fuword(((register_t *) fp) - 5); /* fetch rp */ 341 1.1 fredette if (pc == -1) { 342 1.1 fredette printf(" fuword for pc failed\n"); 343 1.1 fredette break; 344 1.1 fredette } 345 1.1 fredette fp = fuword(((register_t *) fp) + 0); /* fetch previous fp */ 346 1.1 fredette if (fp == -1) { 347 1.1 fredette printf(" fuword for fp failed\n"); 348 1.1 fredette break; 349 1.1 fredette } 350 1.1 fredette } 351 1.1 fredette printf(" backtrace stopped with pc %08x fp 0x%08x\n", pc, fp); 352 1.1 fredette } 353 1.1 fredette 354 1.1 fredette static void 355 1.9 chs user_backtrace(struct trapframe *tf, struct lwp *l, int type) 356 1.1 fredette { 357 1.9 chs struct proc *p = l->l_proc; 358 1.1 fredette u_int pc, fp, inst; 359 1.1 fredette 360 1.1 fredette /* 361 1.3 fredette * Display any trap type that we have. 362 1.3 fredette */ 363 1.3 fredette if (type >= 0) 364 1.3 fredette printf("pid %d (%s) trap #%d\n", 365 1.3 fredette p->p_pid, p->p_comm, type & ~T_USER); 366 1.3 fredette 367 1.3 fredette /* 368 1.1 fredette * Assuming that the frame pointer in r3 is valid, 369 1.1 fredette * dump out a stack trace. 370 1.1 fredette */ 371 1.1 fredette fp = tf->tf_r3; 372 1.1 fredette printf("pid %d (%s) backtrace, starting with fp 0x%08x\n", 373 1.1 fredette p->p_pid, p->p_comm, fp); 374 1.1 fredette user_backtrace_raw(tf->tf_iioq_head, fp); 375 1.1 fredette 376 1.1 fredette /* 377 1.1 fredette * In case the frame pointer in r3 is not valid, 378 1.1 fredette * assuming the stack pointer is valid and the 379 1.1 fredette * faulting function is a non-leaf, if we can 380 1.1 fredette * find its prologue we can recover its frame 381 1.1 fredette * pointer. 382 1.1 fredette */ 383 1.1 fredette pc = tf->tf_iioq_head; 384 1.1 fredette fp = tf->tf_sp - HPPA_FRAME_SIZE; 385 1.1 fredette printf("pid %d (%s) backtrace, starting with sp 0x%08x pc 0x%08x\n", 386 1.1 fredette p->p_pid, p->p_comm, tf->tf_sp, pc); 387 1.44 skrll for (pc &= ~HPPA_PC_PRIV_MASK; pc > 0; pc -= sizeof(inst)) { 388 1.1 fredette inst = fuword((register_t *) pc); 389 1.1 fredette if (inst == -1) { 390 1.1 fredette printf(" fuword for inst at pc %08x failed\n", pc); 391 1.1 fredette break; 392 1.1 fredette } 393 1.1 fredette /* Check for the prologue instruction that sets sp. */ 394 1.1 fredette if (STWM_R1_D_SR0_SP(inst)) { 395 1.1 fredette fp = tf->tf_sp - STWM_R1_D_SR0_SP(inst); 396 1.1 fredette printf(" sp from fp at pc %08x: %08x\n", pc, inst); 397 1.1 fredette break; 398 1.1 fredette } 399 1.1 fredette } 400 1.1 fredette user_backtrace_raw(tf->tf_iioq_head, fp); 401 1.1 fredette } 402 1.24 tsutsui #endif /* DEBUG || USERTRACE */ 403 1.1 fredette 404 1.1 fredette #ifdef DEBUG 405 1.1 fredette /* 406 1.1 fredette * This sanity-checks a trapframe. It is full of various 407 1.1 fredette * assumptions about what a healthy CPU state should be, 408 1.1 fredette * with some documented elsewhere, some not. 409 1.1 fredette */ 410 1.1 fredette void 411 1.26 chs frame_sanity_check(int where, int type, struct trapframe *tf, struct lwp *l) 412 1.1 fredette { 413 1.1 fredette extern int kernel_text; 414 1.1 fredette extern int etext; 415 1.1 fredette extern register_t kpsw; 416 1.62 rmind 417 1.1 fredette #define SANITY(e) \ 418 1.1 fredette do { \ 419 1.1 fredette if (sanity_frame == NULL && !(e)) { \ 420 1.1 fredette sanity_frame = tf; \ 421 1.9 chs sanity_lwp = l; \ 422 1.1 fredette sanity_checked = __LINE__; \ 423 1.1 fredette } \ 424 1.1 fredette } while (/* CONSTCOND */ 0) 425 1.1 fredette 426 1.1 fredette SANITY((tf->tf_ipsw & kpsw) == kpsw); 427 1.1 fredette SANITY((kpsw & PSW_I) == 0 || tf->tf_eiem != 0); 428 1.1 fredette if (tf->tf_iisq_head == HPPA_SID_KERNEL) { 429 1.62 rmind vaddr_t minsp, maxsp, uv; 430 1.45 skrll 431 1.63 skrll uv = uvm_lwp_getuarea(l); 432 1.63 skrll 433 1.1 fredette /* 434 1.1 fredette * If the trap happened in the gateway 435 1.1 fredette * page, we take the easy way out and 436 1.1 fredette * assume that the trapframe is okay. 437 1.1 fredette */ 438 1.45 skrll if ((tf->tf_iioq_head & ~PAGE_MASK) == SYSCALLGATE) 439 1.45 skrll goto out; 440 1.45 skrll 441 1.45 skrll SANITY(!USERMODE(tf->tf_iioq_head)); 442 1.45 skrll SANITY(!USERMODE(tf->tf_iioq_tail)); 443 1.45 skrll 444 1.45 skrll /* 445 1.45 skrll * Don't check the instruction queues or stack on interrupts 446 1.45 skrll * as we could be be in the sti code (outside normal kernel 447 1.45 skrll * text) or switching LWPs (curlwp and sp are not in sync) 448 1.45 skrll */ 449 1.45 skrll if ((type & ~T_USER) == T_INTERRUPT) 450 1.45 skrll goto out; 451 1.45 skrll 452 1.45 skrll SANITY(tf->tf_iioq_head >= (u_int) &kernel_text); 453 1.45 skrll SANITY(tf->tf_iioq_head < (u_int) &etext); 454 1.45 skrll SANITY(tf->tf_iioq_tail >= (u_int) &kernel_text); 455 1.45 skrll SANITY(tf->tf_iioq_tail < (u_int) &etext); 456 1.43 yamt 457 1.62 rmind maxsp = uv + USPACE + PAGE_SIZE; 458 1.62 rmind minsp = uv + PAGE_SIZE; 459 1.43 yamt 460 1.45 skrll SANITY(l != NULL || (tf->tf_sp >= minsp && tf->tf_sp < maxsp)); 461 1.1 fredette } else { 462 1.1 fredette SANITY(USERMODE(tf->tf_iioq_head)); 463 1.1 fredette SANITY(USERMODE(tf->tf_iioq_tail)); 464 1.62 rmind SANITY(l != NULL && 465 1.62 rmind tf->tf_cr30 == kvtop((void *)uvm_lwp_getuarea(l))); 466 1.1 fredette } 467 1.1 fredette #undef SANITY 468 1.45 skrll out: 469 1.1 fredette if (sanity_frame == tf) { 470 1.26 chs printf("insanity: where 0x%x type 0x%x tf %p lwp %p line %d " 471 1.26 chs "sp 0x%x pc 0x%x\n", 472 1.26 chs where, type, sanity_frame, sanity_lwp, sanity_checked, 473 1.22 chs tf->tf_sp, tf->tf_iioq_head); 474 1.4 fredette (void) trap_kdebug(T_IBREAK, 0, tf); 475 1.1 fredette sanity_frame = NULL; 476 1.9 chs sanity_lwp = NULL; 477 1.1 fredette sanity_checked = 0; 478 1.1 fredette } 479 1.1 fredette } 480 1.1 fredette #endif /* DEBUG */ 481 1.1 fredette 482 1.1 fredette void 483 1.14 chs trap(int type, struct trapframe *frame) 484 1.1 fredette { 485 1.13 tsutsui struct lwp *l; 486 1.13 tsutsui struct proc *p; 487 1.61 rmind struct pcb *pcb; 488 1.9 chs vaddr_t va; 489 1.9 chs struct vm_map *map; 490 1.1 fredette struct vmspace *vm; 491 1.9 chs vm_prot_t vftype; 492 1.9 chs pa_space_t space; 493 1.22 chs ksiginfo_t ksi; 494 1.19 chs u_int opcode, onfault; 495 1.1 fredette int ret; 496 1.1 fredette const char *tts; 497 1.67 skrll int trapnum; 498 1.1 fredette #ifdef DIAGNOSTIC 499 1.1 fredette extern int emergency_stack_start, emergency_stack_end; 500 1.1 fredette #endif 501 1.1 fredette 502 1.67 skrll trapnum = type & ~T_USER; 503 1.1 fredette opcode = frame->tf_iir; 504 1.67 skrll if (trapnum == T_ITLBMISS || trapnum == T_ITLBMISSNA || 505 1.67 skrll trapnum == T_IBREAK || trapnum == T_TAKENBR) { 506 1.1 fredette va = frame->tf_iioq_head; 507 1.1 fredette space = frame->tf_iisq_head; 508 1.17 chs vftype = VM_PROT_EXECUTE; 509 1.1 fredette } else { 510 1.1 fredette va = frame->tf_ior; 511 1.1 fredette space = frame->tf_isr; 512 1.1 fredette vftype = inst_store(opcode) ? VM_PROT_WRITE : VM_PROT_READ; 513 1.1 fredette } 514 1.13 tsutsui 515 1.64 skrll KASSERT(curlwp != NULL); 516 1.18 chs l = curlwp; 517 1.64 skrll p = l->l_proc; 518 1.36 ad if ((type & T_USER) != 0) 519 1.36 ad LWP_CACHE_CREDS(l, p); 520 1.1 fredette 521 1.67 skrll tts = (trapnum > trap_types) ? "reserved" : trap_type[trapnum]; 522 1.23 chs 523 1.1 fredette #ifdef DIAGNOSTIC 524 1.1 fredette /* 525 1.1 fredette * If we are on the emergency stack, then we either got 526 1.1 fredette * a fault on the kernel stack, or we're just handling 527 1.1 fredette * a trap for the machine check handler (which also 528 1.1 fredette * runs on the emergency stack). 529 1.1 fredette * 530 1.1 fredette * We *very crudely* differentiate between the two cases 531 1.1 fredette * by checking the faulting instruction: if it is the 532 1.1 fredette * function prologue instruction that stores the old 533 1.1 fredette * frame pointer and updates the stack pointer, we assume 534 1.1 fredette * that we faulted on the kernel stack. 535 1.1 fredette * 536 1.1 fredette * In this case, not completing that instruction will 537 1.1 fredette * probably confuse backtraces in kgdb/ddb. Completing 538 1.1 fredette * it would be difficult, because we already faulted on 539 1.1 fredette * that part of the stack, so instead we fix up the 540 1.1 fredette * frame as if the function called has just returned. 541 1.1 fredette * This has peculiar knowledge about what values are in 542 1.1 fredette * what registers during the "normal gcc -g" prologue. 543 1.1 fredette */ 544 1.1 fredette if (&type >= &emergency_stack_start && 545 1.1 fredette &type < &emergency_stack_end && 546 1.1 fredette type != T_IBREAK && STWM_R1_D_SR0_SP(opcode)) { 547 1.1 fredette /* Restore the caller's frame pointer. */ 548 1.1 fredette frame->tf_r3 = frame->tf_r1; 549 1.1 fredette /* Restore the caller's instruction offsets. */ 550 1.1 fredette frame->tf_iioq_head = frame->tf_rp; 551 1.1 fredette frame->tf_iioq_tail = frame->tf_iioq_head + 4; 552 1.1 fredette goto dead_end; 553 1.1 fredette } 554 1.1 fredette #endif /* DIAGNOSTIC */ 555 1.1 fredette 556 1.1 fredette #ifdef DEBUG 557 1.26 chs frame_sanity_check(0xdead01, type, frame, l); 558 1.1 fredette #endif /* DEBUG */ 559 1.1 fredette 560 1.1 fredette if (frame->tf_flags & TFF_LAST) 561 1.9 chs l->l_md.md_regs = frame; 562 1.1 fredette 563 1.1 fredette #ifdef TRAPDEBUG 564 1.67 skrll if (trapnum != T_INTERRUPT && trapnum != T_IBREAK) 565 1.1 fredette printf("trap: %d, %s for %x:%x at %x:%x, fp=%p, rp=%x\n", 566 1.1 fredette type, tts, space, (u_int)va, frame->tf_iisq_head, 567 1.1 fredette frame->tf_iioq_head, frame, frame->tf_rp); 568 1.67 skrll else if (trapnum == T_IBREAK) 569 1.1 fredette printf("trap: break instruction %x:%x at %x:%x, fp=%p\n", 570 1.1 fredette break5(opcode), break13(opcode), 571 1.1 fredette frame->tf_iisq_head, frame->tf_iioq_head, frame); 572 1.1 fredette 573 1.1 fredette { 574 1.1 fredette extern int etext; 575 1.1 fredette if (frame < (struct trapframe *)&etext) { 576 1.1 fredette printf("trap: bogus frame ptr %p\n", frame); 577 1.1 fredette goto dead_end; 578 1.1 fredette } 579 1.1 fredette } 580 1.1 fredette #endif 581 1.61 rmind pcb = lwp_getpcb(l); 582 1.61 rmind 583 1.66 skrll /* If this is a trap, not an interrupt, reenable interrupts. */ 584 1.67 skrll if (trapnum != T_INTERRUPT) { 585 1.66 skrll uvmexp.traps++; 586 1.66 skrll mtctl(frame->tf_eiem, CR_EIEM); 587 1.66 skrll } 588 1.66 skrll 589 1.1 fredette switch (type) { 590 1.1 fredette case T_NONEXIST: 591 1.1 fredette case T_NONEXIST|T_USER: 592 1.1 fredette #if !defined(DDB) && !defined(KGDB) 593 1.1 fredette /* we've got screwed up by the central scrutinizer */ 594 1.1 fredette panic ("trap: elvis has just left the building!"); 595 1.1 fredette break; 596 1.1 fredette #else 597 1.1 fredette goto dead_end; 598 1.1 fredette #endif 599 1.1 fredette case T_RECOVERY|T_USER: 600 1.1 fredette #ifdef USERTRACE 601 1.1 fredette for(;;) { 602 1.1 fredette if (frame->tf_iioq_head != rctr_next_iioq) 603 1.1 fredette printf("-%08x\nr %08x", 604 1.1 fredette rctr_next_iioq - 4, 605 1.1 fredette frame->tf_iioq_head); 606 1.1 fredette rctr_next_iioq = frame->tf_iioq_head + 4; 607 1.1 fredette if (frame->tf_ipsw & PSW_N) { 608 1.1 fredette /* Advance the program counter. */ 609 1.1 fredette frame->tf_iioq_head = frame->tf_iioq_tail; 610 1.1 fredette frame->tf_iioq_tail = frame->tf_iioq_head + 4; 611 1.1 fredette /* Clear flags. */ 612 1.1 fredette frame->tf_ipsw &= ~(PSW_N|PSW_X|PSW_Y|PSW_Z|PSW_B|PSW_T|PSW_H|PSW_L); 613 1.1 fredette /* Simulate another trap. */ 614 1.1 fredette continue; 615 1.1 fredette } 616 1.1 fredette break; 617 1.1 fredette } 618 1.1 fredette frame->tf_rctr = 0; 619 1.1 fredette break; 620 1.1 fredette #endif /* USERTRACE */ 621 1.1 fredette case T_RECOVERY: 622 1.1 fredette #if !defined(DDB) && !defined(KGDB) 623 1.1 fredette /* XXX will implement later */ 624 1.1 fredette printf ("trap: handicapped"); 625 1.1 fredette break; 626 1.1 fredette #else 627 1.1 fredette goto dead_end; 628 1.1 fredette #endif 629 1.1 fredette 630 1.1 fredette case T_EMULATION | T_USER: 631 1.1 fredette #ifdef FPEMUL 632 1.21 chs hppa_fpu_emulate(frame, l, opcode); 633 1.1 fredette #else /* !FPEMUL */ 634 1.1 fredette /* 635 1.1 fredette * We don't have FPU emulation, so signal the 636 1.1 fredette * process with a SIGFPE. 637 1.1 fredette */ 638 1.22 chs 639 1.22 chs KSI_INIT_TRAP(&ksi); 640 1.22 chs ksi.ksi_signo = SIGFPE; 641 1.22 chs ksi.ksi_code = SI_NOINFO; 642 1.22 chs ksi.ksi_trap = type; 643 1.22 chs ksi.ksi_addr = (void *)frame->tf_iioq_head; 644 1.22 chs trapsignal(l, &ksi); 645 1.1 fredette #endif /* !FPEMUL */ 646 1.1 fredette break; 647 1.1 fredette 648 1.25 chs case T_DATALIGN: 649 1.61 rmind if (pcb->pcb_onfault) { 650 1.25 chs do_onfault: 651 1.61 rmind frame->tf_iioq_head = pcb->pcb_onfault; 652 1.61 rmind frame->tf_iioq_tail = 4 + frame->tf_iioq_head; 653 1.61 rmind pcb->pcb_onfault = 0; 654 1.25 chs break; 655 1.25 chs } 656 1.25 chs /*FALLTHROUGH*/ 657 1.25 chs 658 1.1 fredette #ifdef DIAGNOSTIC 659 1.1 fredette /* these just can't happen ever */ 660 1.1 fredette case T_PRIV_OP: 661 1.1 fredette case T_PRIV_REG: 662 1.1 fredette /* these just can't make it to the trap() ever */ 663 1.25 chs case T_HPMC: 664 1.25 chs case T_HPMC | T_USER: 665 1.1 fredette case T_EMULATION: 666 1.25 chs case T_EXCEPTION: 667 1.1 fredette #endif 668 1.1 fredette case T_IBREAK: 669 1.1 fredette case T_DBREAK: 670 1.1 fredette dead_end: 671 1.3 fredette if (type & T_USER) { 672 1.3 fredette #ifdef DEBUG 673 1.9 chs user_backtrace(frame, l, type); 674 1.3 fredette #endif 675 1.22 chs KSI_INIT_TRAP(&ksi); 676 1.22 chs ksi.ksi_signo = SIGILL; 677 1.22 chs ksi.ksi_code = ILL_ILLTRP; 678 1.22 chs ksi.ksi_trap = type; 679 1.22 chs ksi.ksi_addr = (void *)frame->tf_iioq_head; 680 1.22 chs trapsignal(l, &ksi); 681 1.3 fredette break; 682 1.3 fredette } 683 1.1 fredette if (trap_kdebug(type, va, frame)) 684 1.1 fredette return; 685 1.1 fredette else if (type == T_DATALIGN) 686 1.1 fredette panic ("trap: %s at 0x%x", tts, (u_int) va); 687 1.1 fredette else 688 1.1 fredette panic ("trap: no debugger for \"%s\" (%d)", tts, type); 689 1.1 fredette break; 690 1.1 fredette 691 1.1 fredette case T_IBREAK | T_USER: 692 1.1 fredette case T_DBREAK | T_USER: 693 1.51 skrll KSI_INIT_TRAP(&ksi); 694 1.51 skrll ksi.ksi_signo = SIGTRAP; 695 1.51 skrll ksi.ksi_code = TRAP_TRACE; 696 1.67 skrll ksi.ksi_trap = trapnum; 697 1.51 skrll ksi.ksi_addr = (void *)frame->tf_iioq_head; 698 1.51 skrll #ifdef PTRACE 699 1.51 skrll ss_clear_breakpoints(l); 700 1.51 skrll if (opcode == SSBREAKPOINT) 701 1.51 skrll ksi.ksi_code = TRAP_BRKPT; 702 1.51 skrll #endif 703 1.1 fredette /* pass to user debugger */ 704 1.51 skrll trapsignal(l, &ksi); 705 1.51 skrll 706 1.51 skrll break; 707 1.51 skrll 708 1.51 skrll #ifdef PTRACE 709 1.51 skrll case T_TAKENBR | T_USER: 710 1.51 skrll ss_clear_breakpoints(l); 711 1.51 skrll 712 1.51 skrll KSI_INIT_TRAP(&ksi); 713 1.51 skrll ksi.ksi_signo = SIGTRAP; 714 1.51 skrll ksi.ksi_code = TRAP_TRACE; 715 1.67 skrll ksi.ksi_trap = trapnum; 716 1.51 skrll ksi.ksi_addr = (void *)frame->tf_iioq_head; 717 1.51 skrll 718 1.51 skrll /* pass to user debugger */ 719 1.51 skrll trapsignal(l, &ksi); 720 1.1 fredette break; 721 1.51 skrll #endif 722 1.1 fredette 723 1.21 chs case T_EXCEPTION | T_USER: { /* co-proc assist trap */ 724 1.21 chs uint64_t *fpp; 725 1.23 chs uint32_t *pex, ex, inst; 726 1.23 chs int i; 727 1.21 chs 728 1.21 chs hppa_fpu_flush(l); 729 1.61 rmind fpp = pcb->pcb_fpregs; 730 1.23 chs pex = (uint32_t *)&fpp[1]; 731 1.23 chs for (i = 1; i < 8 && !*pex; i++, pex++) 732 1.21 chs ; 733 1.23 chs KASSERT(i < 8); 734 1.23 chs ex = *pex; 735 1.23 chs *pex = 0; 736 1.23 chs 737 1.21 chs /* reset the trap flag, as if there was none */ 738 1.21 chs fpp[0] &= ~(((uint64_t)HPPA_FPU_T) << 32); 739 1.21 chs 740 1.23 chs /* emulate the instruction */ 741 1.23 chs inst = ((uint32_t)fpopmap[ex >> 26] << 26) | (ex & 0x03ffffff); 742 1.21 chs hppa_fpu_emulate(frame, l, inst); 743 1.21 chs } 744 1.1 fredette break; 745 1.1 fredette 746 1.1 fredette case T_OVERFLOW | T_USER: 747 1.22 chs KSI_INIT_TRAP(&ksi); 748 1.22 chs ksi.ksi_signo = SIGFPE; 749 1.22 chs ksi.ksi_code = SI_NOINFO; 750 1.22 chs ksi.ksi_trap = type; 751 1.22 chs ksi.ksi_addr = (void *)va; 752 1.22 chs trapsignal(l, &ksi); 753 1.1 fredette break; 754 1.1 fredette 755 1.1 fredette case T_CONDITION | T_USER: 756 1.23 chs KSI_INIT_TRAP(&ksi); 757 1.23 chs ksi.ksi_signo = SIGFPE; 758 1.23 chs ksi.ksi_code = FPE_INTDIV; 759 1.23 chs ksi.ksi_trap = type; 760 1.23 chs ksi.ksi_addr = (void *)va; 761 1.23 chs trapsignal(l, &ksi); 762 1.1 fredette break; 763 1.1 fredette 764 1.1 fredette case T_ILLEGAL | T_USER: 765 1.3 fredette #ifdef DEBUG 766 1.9 chs user_backtrace(frame, l, type); 767 1.3 fredette #endif 768 1.22 chs KSI_INIT_TRAP(&ksi); 769 1.22 chs ksi.ksi_signo = SIGILL; 770 1.22 chs ksi.ksi_code = ILL_ILLOPC; 771 1.22 chs ksi.ksi_trap = type; 772 1.22 chs ksi.ksi_addr = (void *)va; 773 1.22 chs trapsignal(l, &ksi); 774 1.1 fredette break; 775 1.1 fredette 776 1.1 fredette case T_PRIV_OP | T_USER: 777 1.3 fredette #ifdef DEBUG 778 1.9 chs user_backtrace(frame, l, type); 779 1.3 fredette #endif 780 1.22 chs KSI_INIT_TRAP(&ksi); 781 1.22 chs ksi.ksi_signo = SIGILL; 782 1.22 chs ksi.ksi_code = ILL_PRVOPC; 783 1.22 chs ksi.ksi_trap = type; 784 1.22 chs ksi.ksi_addr = (void *)va; 785 1.22 chs trapsignal(l, &ksi); 786 1.1 fredette break; 787 1.1 fredette 788 1.1 fredette case T_PRIV_REG | T_USER: 789 1.3 fredette #ifdef DEBUG 790 1.9 chs user_backtrace(frame, l, type); 791 1.3 fredette #endif 792 1.22 chs KSI_INIT_TRAP(&ksi); 793 1.22 chs ksi.ksi_signo = SIGILL; 794 1.22 chs ksi.ksi_code = ILL_PRVREG; 795 1.22 chs ksi.ksi_trap = type; 796 1.22 chs ksi.ksi_addr = (void *)va; 797 1.22 chs trapsignal(l, &ksi); 798 1.1 fredette break; 799 1.1 fredette 800 1.1 fredette /* these should never got here */ 801 1.1 fredette case T_HIGHERPL | T_USER: 802 1.1 fredette case T_LOWERPL | T_USER: 803 1.22 chs KSI_INIT_TRAP(&ksi); 804 1.22 chs ksi.ksi_signo = SIGSEGV; 805 1.22 chs ksi.ksi_code = SEGV_ACCERR; 806 1.22 chs ksi.ksi_trap = type; 807 1.22 chs ksi.ksi_addr = (void *)va; 808 1.22 chs trapsignal(l, &ksi); 809 1.1 fredette break; 810 1.1 fredette 811 1.1 fredette case T_IPROT | T_USER: 812 1.1 fredette case T_DPROT | T_USER: 813 1.22 chs KSI_INIT_TRAP(&ksi); 814 1.22 chs ksi.ksi_signo = SIGSEGV; 815 1.22 chs ksi.ksi_code = SEGV_ACCERR; 816 1.22 chs ksi.ksi_trap = type; 817 1.22 chs ksi.ksi_addr = (void *)va; 818 1.22 chs trapsignal(l, &ksi); 819 1.1 fredette break; 820 1.1 fredette 821 1.1 fredette case T_DATACC: case T_USER | T_DATACC: 822 1.1 fredette case T_ITLBMISS: case T_USER | T_ITLBMISS: 823 1.1 fredette case T_DTLBMISS: case T_USER | T_DTLBMISS: 824 1.1 fredette case T_ITLBMISSNA: case T_USER | T_ITLBMISSNA: 825 1.1 fredette case T_DTLBMISSNA: case T_USER | T_DTLBMISSNA: 826 1.1 fredette case T_TLB_DIRTY: case T_USER | T_TLB_DIRTY: 827 1.1 fredette vm = p->p_vmspace; 828 1.1 fredette 829 1.1 fredette if (!vm) { 830 1.1 fredette #ifdef TRAPDEBUG 831 1.1 fredette printf("trap: no vm, p=%p\n", p); 832 1.1 fredette #endif 833 1.1 fredette goto dead_end; 834 1.1 fredette } 835 1.1 fredette 836 1.1 fredette /* 837 1.1 fredette * it could be a kernel map for exec_map faults 838 1.1 fredette */ 839 1.1 fredette if (!(type & T_USER) && space == HPPA_SID_KERNEL) 840 1.1 fredette map = kernel_map; 841 1.56 wrstuden else { 842 1.1 fredette map = &vm->vm_map; 843 1.56 wrstuden if ((l->l_flag & LW_SA) 844 1.56 wrstuden && (~l->l_pflag & LP_SA_NOBLOCK)) { 845 1.56 wrstuden l->l_savp->savp_faultaddr = va; 846 1.56 wrstuden l->l_pflag |= LP_SA_PAGEFAULT; 847 1.56 wrstuden } 848 1.56 wrstuden } 849 1.10 cl 850 1.41 skrll va = trunc_page(va); 851 1.1 fredette 852 1.59 skrll if (map->pmap->pm_space != space) { 853 1.1 fredette #ifdef TRAPDEBUG 854 1.37 skrll printf("trap: space mismatch %d != %d\n", 855 1.59 skrll space, map->pmap->pm_space); 856 1.1 fredette #endif 857 1.1 fredette /* actually dump the user, crap the kernel */ 858 1.1 fredette goto dead_end; 859 1.1 fredette } 860 1.1 fredette 861 1.1 fredette /* Never call uvm_fault in interrupt context. */ 862 1.1 fredette KASSERT(hppa_intr_depth == 0); 863 1.1 fredette 864 1.61 rmind onfault = pcb->pcb_onfault; 865 1.61 rmind pcb->pcb_onfault = 0; 866 1.33 drochner ret = uvm_fault(map, va, vftype); 867 1.61 rmind pcb->pcb_onfault = onfault; 868 1.1 fredette 869 1.1 fredette #ifdef TRAPDEBUG 870 1.33 drochner printf("uvm_fault(%p, %x, %d)=%d\n", 871 1.33 drochner map, (u_int)va, vftype, ret); 872 1.1 fredette #endif 873 1.1 fredette 874 1.56 wrstuden if (map != kernel_map) 875 1.56 wrstuden l->l_pflag &= ~LP_SA_PAGEFAULT; 876 1.56 wrstuden 877 1.1 fredette /* 878 1.1 fredette * If this was a stack access we keep track of the maximum 879 1.1 fredette * accessed stack size. Also, if uvm_fault gets a protection 880 1.1 fredette * failure it is due to accessing the stack region outside 881 1.1 fredette * the current limit and we need to reflect that as an access 882 1.1 fredette * error. 883 1.1 fredette */ 884 1.39 skrll if (map != kernel_map && va >= (vaddr_t)vm->vm_minsaddr) { 885 1.39 skrll if (ret == 0) 886 1.39 skrll uvm_grow(l->l_proc, va); 887 1.39 skrll else if (ret == EACCES) 888 1.1 fredette ret = EFAULT; 889 1.1 fredette } 890 1.1 fredette 891 1.1 fredette if (ret != 0) { 892 1.1 fredette if (type & T_USER) { 893 1.1 fredette #ifdef DEBUG 894 1.9 chs user_backtrace(frame, l, type); 895 1.1 fredette #endif 896 1.22 chs KSI_INIT_TRAP(&ksi); 897 1.22 chs ksi.ksi_signo = SIGSEGV; 898 1.22 chs ksi.ksi_code = (ret == EACCES ? 899 1.22 chs SEGV_ACCERR : SEGV_MAPERR); 900 1.22 chs ksi.ksi_trap = type; 901 1.22 chs ksi.ksi_addr = (void *)va; 902 1.22 chs trapsignal(l, &ksi); 903 1.1 fredette } else { 904 1.61 rmind if (pcb->pcb_onfault) { 905 1.25 chs goto do_onfault; 906 1.1 fredette } 907 1.33 drochner panic("trap: uvm_fault(%p, %lx, %d): %d", 908 1.33 drochner map, va, vftype, ret); 909 1.1 fredette } 910 1.1 fredette } 911 1.1 fredette break; 912 1.1 fredette 913 1.1 fredette case T_DATALIGN | T_USER: 914 1.3 fredette #ifdef DEBUG 915 1.9 chs user_backtrace(frame, l, type); 916 1.3 fredette #endif 917 1.22 chs KSI_INIT_TRAP(&ksi); 918 1.22 chs ksi.ksi_signo = SIGBUS; 919 1.22 chs ksi.ksi_code = BUS_ADRALN; 920 1.22 chs ksi.ksi_trap = type; 921 1.22 chs ksi.ksi_addr = (void *)va; 922 1.22 chs trapsignal(l, &ksi); 923 1.1 fredette break; 924 1.1 fredette 925 1.1 fredette case T_INTERRUPT: 926 1.1 fredette case T_INTERRUPT|T_USER: 927 1.1 fredette hppa_intr(frame); 928 1.1 fredette mtctl(frame->tf_eiem, CR_EIEM); 929 1.1 fredette break; 930 1.22 chs 931 1.1 fredette case T_LOWERPL: 932 1.1 fredette case T_DPROT: 933 1.1 fredette case T_IPROT: 934 1.1 fredette case T_OVERFLOW: 935 1.1 fredette case T_CONDITION: 936 1.1 fredette case T_ILLEGAL: 937 1.1 fredette case T_HIGHERPL: 938 1.1 fredette case T_TAKENBR: 939 1.1 fredette case T_POWERFAIL: 940 1.1 fredette case T_LPMC: 941 1.1 fredette case T_PAGEREF: 942 1.1 fredette case T_DATAPID: case T_DATAPID | T_USER: 943 1.1 fredette if (0 /* T-chip */) { 944 1.1 fredette break; 945 1.1 fredette } 946 1.1 fredette /* FALLTHROUGH to unimplemented */ 947 1.1 fredette default: 948 1.1 fredette panic ("trap: unimplemented \'%s\' (%d)", tts, type); 949 1.1 fredette } 950 1.1 fredette 951 1.1 fredette if (type & T_USER) 952 1.9 chs userret(l, l->l_md.md_regs->tf_iioq_head, 0); 953 1.1 fredette 954 1.1 fredette #ifdef DEBUG 955 1.26 chs frame_sanity_check(0xdead02, type, frame, l); 956 1.43 yamt if (frame->tf_flags & TFF_LAST && (curlwp->l_flag & LW_IDLE) == 0) 957 1.26 chs frame_sanity_check(0xdead03, type, curlwp->l_md.md_regs, 958 1.26 chs curlwp); 959 1.1 fredette #endif /* DEBUG */ 960 1.1 fredette } 961 1.1 fredette 962 1.1 fredette void 963 1.14 chs child_return(void *arg) 964 1.1 fredette { 965 1.9 chs struct lwp *l = arg; 966 1.1 fredette 967 1.68 skrll /* 968 1.68 skrll * Return values in the frame set by cpu_lwp_fork(). 969 1.68 skrll */ 970 1.68 skrll 971 1.9 chs userret(l, l->l_md.md_regs->tf_iioq_head, 0); 972 1.46 ad ktrsysret(SYS_fork, 0, 0); 973 1.1 fredette #ifdef DEBUG 974 1.26 chs frame_sanity_check(0xdead04, 0, l->l_md.md_regs, l); 975 1.1 fredette #endif /* DEBUG */ 976 1.1 fredette } 977 1.1 fredette 978 1.51 skrll #ifdef PTRACE 979 1.51 skrll 980 1.51 skrll #include <sys/ptrace.h> 981 1.51 skrll 982 1.51 skrll int 983 1.51 skrll ss_get_value(struct lwp *l, vaddr_t addr, u_int *value) 984 1.51 skrll { 985 1.51 skrll struct uio uio; 986 1.51 skrll struct iovec iov; 987 1.51 skrll 988 1.51 skrll iov.iov_base = (void *)value; 989 1.51 skrll iov.iov_len = sizeof(u_int); 990 1.51 skrll uio.uio_iov = &iov; 991 1.51 skrll uio.uio_iovcnt = 1; 992 1.51 skrll uio.uio_offset = (off_t)addr; 993 1.51 skrll uio.uio_resid = sizeof(u_int); 994 1.51 skrll uio.uio_rw = UIO_READ; 995 1.51 skrll UIO_SETUP_SYSSPACE(&uio); 996 1.51 skrll 997 1.51 skrll return (process_domem(curlwp, l, &uio)); 998 1.51 skrll } 999 1.51 skrll 1000 1.51 skrll int 1001 1.51 skrll ss_put_value(struct lwp *l, vaddr_t addr, u_int value) 1002 1.51 skrll { 1003 1.51 skrll struct uio uio; 1004 1.51 skrll struct iovec iov; 1005 1.51 skrll 1006 1.51 skrll iov.iov_base = (void *)&value; 1007 1.51 skrll iov.iov_len = sizeof(u_int); 1008 1.51 skrll uio.uio_iov = &iov; 1009 1.51 skrll uio.uio_iovcnt = 1; 1010 1.51 skrll uio.uio_offset = (off_t)addr; 1011 1.51 skrll uio.uio_resid = sizeof(u_int); 1012 1.51 skrll uio.uio_rw = UIO_WRITE; 1013 1.51 skrll UIO_SETUP_SYSSPACE(&uio); 1014 1.51 skrll 1015 1.51 skrll return (process_domem(curlwp, l, &uio)); 1016 1.51 skrll } 1017 1.51 skrll 1018 1.51 skrll void 1019 1.51 skrll ss_clear_breakpoints(struct lwp *l) 1020 1.51 skrll { 1021 1.51 skrll /* Restore origional instructions. */ 1022 1.51 skrll if (l->l_md.md_bpva != 0) { 1023 1.51 skrll ss_put_value(l, l->l_md.md_bpva, l->l_md.md_bpsave[0]); 1024 1.51 skrll ss_put_value(l, l->l_md.md_bpva + 4, l->l_md.md_bpsave[1]); 1025 1.51 skrll l->l_md.md_bpva = 0; 1026 1.51 skrll } 1027 1.51 skrll } 1028 1.51 skrll 1029 1.51 skrll 1030 1.51 skrll int 1031 1.51 skrll process_sstep(struct lwp *l, int sstep) 1032 1.51 skrll { 1033 1.51 skrll struct trapframe *tf = l->l_md.md_regs; 1034 1.51 skrll int error; 1035 1.51 skrll 1036 1.51 skrll ss_clear_breakpoints(l); 1037 1.51 skrll 1038 1.51 skrll /* We're continuing... */ 1039 1.51 skrll /* Don't touch the syscall gateway page. */ 1040 1.51 skrll /* XXX head */ 1041 1.51 skrll if (sstep == 0 || 1042 1.51 skrll (tf->tf_iioq_tail & ~PAGE_MASK) == SYSCALLGATE) { 1043 1.51 skrll tf->tf_ipsw &= ~PSW_T; 1044 1.51 skrll return 0; 1045 1.51 skrll } 1046 1.51 skrll 1047 1.51 skrll l->l_md.md_bpva = tf->tf_iioq_tail & ~HPPA_PC_PRIV_MASK; 1048 1.51 skrll 1049 1.51 skrll /* 1050 1.51 skrll * Insert two breakpoint instructions; the first one might be 1051 1.51 skrll * nullified. Of course we need to save two instruction 1052 1.51 skrll * first. 1053 1.51 skrll */ 1054 1.51 skrll 1055 1.51 skrll error = ss_get_value(l, l->l_md.md_bpva, &l->l_md.md_bpsave[0]); 1056 1.51 skrll if (error) 1057 1.51 skrll return (error); 1058 1.51 skrll error = ss_get_value(l, l->l_md.md_bpva + 4, &l->l_md.md_bpsave[1]); 1059 1.51 skrll if (error) 1060 1.51 skrll return (error); 1061 1.51 skrll 1062 1.51 skrll error = ss_put_value(l, l->l_md.md_bpva, SSBREAKPOINT); 1063 1.51 skrll if (error) 1064 1.51 skrll return error; 1065 1.51 skrll error = ss_put_value(l, l->l_md.md_bpva + 4, SSBREAKPOINT); 1066 1.51 skrll if (error) 1067 1.51 skrll return error; 1068 1.51 skrll 1069 1.51 skrll tf->tf_ipsw |= PSW_T; 1070 1.51 skrll 1071 1.51 skrll return 0; 1072 1.51 skrll } 1073 1.51 skrll #endif 1074 1.51 skrll 1075 1.51 skrll 1076 1.1 fredette /* 1077 1.1 fredette * call actual syscall routine 1078 1.1 fredette * from the low-level syscall handler: 1079 1.1 fredette * - all HPPA_FRAME_NARGS syscall's arguments supposed to be copied onto 1080 1.1 fredette * our stack, this wins compared to copyin just needed amount anyway 1081 1.1 fredette * - register args are copied onto stack too 1082 1.1 fredette */ 1083 1.1 fredette void 1084 1.14 chs syscall(struct trapframe *frame, int *args) 1085 1.1 fredette { 1086 1.9 chs struct lwp *l; 1087 1.9 chs struct proc *p; 1088 1.9 chs const struct sysent *callp; 1089 1.65 skrll size_t nargs64; 1090 1.54 dsl int nsys, code, error; 1091 1.1 fredette int tmp; 1092 1.1 fredette int rval[2]; 1093 1.1 fredette 1094 1.1 fredette uvmexp.syscalls++; 1095 1.1 fredette 1096 1.1 fredette #ifdef DEBUG 1097 1.26 chs frame_sanity_check(0xdead04, 0, frame, curlwp); 1098 1.1 fredette #endif /* DEBUG */ 1099 1.1 fredette 1100 1.1 fredette if (!USERMODE(frame->tf_iioq_head)) 1101 1.1 fredette panic("syscall"); 1102 1.1 fredette 1103 1.64 skrll KASSERT(curlwp != NULL); 1104 1.9 chs l = curlwp; 1105 1.9 chs p = l->l_proc; 1106 1.9 chs l->l_md.md_regs = frame; 1107 1.1 fredette nsys = p->p_emul->e_nsysent; 1108 1.1 fredette callp = p->p_emul->e_sysent; 1109 1.1 fredette code = frame->tf_t1; 1110 1.36 ad LWP_CACHE_CREDS(l, p); 1111 1.1 fredette 1112 1.56 wrstuden #ifdef KERN_SA 1113 1.56 wrstuden if (__predict_false((l->l_savp) 1114 1.56 wrstuden && (l->l_savp->savp_pflags & SAVP_FLAG_DELIVERING))) 1115 1.56 wrstuden l->l_savp->savp_pflags &= ~SAVP_FLAG_DELIVERING; 1116 1.56 wrstuden #endif 1117 1.56 wrstuden 1118 1.1 fredette /* 1119 1.65 skrll * Restarting a system call is touchy on the HPPA, because syscall 1120 1.65 skrll * arguments are passed in registers and the program counter of the 1121 1.65 skrll * syscall "point" isn't easily divined. 1122 1.1 fredette * 1123 1.65 skrll * We handle the first problem by assuming that we will have to restart 1124 1.65 skrll * this system call, so we stuff the first four words of the original 1125 1.65 skrll * arguments back into the frame as arg0...arg3, which is where we 1126 1.65 skrll * found them in the first place. Any further arguments are (still) on 1127 1.65 skrll * the user's stack and the syscall code will fetch them from there 1128 1.65 skrll * (again). 1129 1.1 fredette * 1130 1.1 fredette * The program counter problem is addressed below. 1131 1.1 fredette */ 1132 1.1 fredette frame->tf_arg0 = args[0]; 1133 1.1 fredette frame->tf_arg1 = args[1]; 1134 1.1 fredette frame->tf_arg2 = args[2]; 1135 1.1 fredette frame->tf_arg3 = args[3]; 1136 1.1 fredette 1137 1.1 fredette /* 1138 1.1 fredette * Some special handling for the syscall(2) and 1139 1.1 fredette * __syscall(2) system calls. 1140 1.1 fredette */ 1141 1.1 fredette switch (code) { 1142 1.1 fredette case SYS_syscall: 1143 1.1 fredette code = *args; 1144 1.1 fredette args += 1; 1145 1.1 fredette break; 1146 1.1 fredette case SYS___syscall: 1147 1.1 fredette if (callp != sysent) 1148 1.1 fredette break; 1149 1.1 fredette /* 1150 1.65 skrll * NB: even though __syscall(2) takes a quad_t containing the 1151 1.65 skrll * system call number, because our argument copying word-swaps 1152 1.65 skrll * 64-bit arguments, the least significant word of that quad_t 1153 1.1 fredette * is the first word in the argument array. 1154 1.1 fredette */ 1155 1.1 fredette code = *args; 1156 1.1 fredette args += 2; 1157 1.1 fredette } 1158 1.1 fredette 1159 1.1 fredette /* 1160 1.65 skrll * Stacks growing from lower addresses to higher addresses are not 1161 1.65 skrll * really such a good idea, because it makes it impossible to overlay a 1162 1.65 skrll * struct on top of C stack arguments (the arguments appear in 1163 1.1 fredette * reversed order). 1164 1.1 fredette * 1165 1.65 skrll * You can do the obvious thing (as locore.S does) and copy argument 1166 1.65 skrll * words one by one, laying them out in the "right" order in the dest- 1167 1.65 skrll * ination buffer, but this ends up word-swapping multi-word arguments 1168 1.65 skrll * (like off_t). 1169 1.1 fredette * 1170 1.1 fredette * FIXME - this works only on native binaries and 1171 1.1 fredette * will probably screw up any and all emulation. 1172 1.65 skrll * 1173 1.1 fredette */ 1174 1.65 skrll 1175 1.65 skrll if (code < 0 || code >= nsys) 1176 1.65 skrll callp += p->p_emul->e_nosys; /* bad syscall # */ 1177 1.65 skrll else 1178 1.65 skrll callp += code; 1179 1.65 skrll 1180 1.65 skrll nargs64 = SYCALL_NARGS64(callp); 1181 1.65 skrll if (nargs64 != 0) { 1182 1.65 skrll size_t nargs = callp->sy_narg; 1183 1.65 skrll 1184 1.65 skrll for (size_t i = 0; i < nargs + nargs64;) { 1185 1.65 skrll if (SYCALL_ARG_64_P(callp, i)) { 1186 1.65 skrll tmp = args[i]; 1187 1.65 skrll args[i] = args[i + 1]; 1188 1.65 skrll args[i + 1] = tmp; 1189 1.65 skrll i += 2; 1190 1.65 skrll } else 1191 1.65 skrll i++; 1192 1.65 skrll } 1193 1.1 fredette } 1194 1.1 fredette 1195 1.1 fredette #ifdef USERTRACE 1196 1.1 fredette if (0) { 1197 1.35 skrll user_backtrace(frame, l, -1); 1198 1.1 fredette frame->tf_ipsw |= PSW_R; 1199 1.1 fredette frame->tf_rctr = 0; 1200 1.1 fredette printf("r %08x", frame->tf_iioq_head); 1201 1.1 fredette rctr_next_iioq = frame->tf_iioq_head + 4; 1202 1.1 fredette } 1203 1.1 fredette #endif 1204 1.1 fredette 1205 1.65 skrll error = 0; 1206 1.65 skrll if (__predict_false(p->p_trace_enabled)) { 1207 1.65 skrll error = trace_enter(code, args, callp->sy_narg); 1208 1.65 skrll if (error) 1209 1.65 skrll goto out; 1210 1.65 skrll } 1211 1.1 fredette 1212 1.1 fredette rval[0] = 0; 1213 1.1 fredette rval[1] = 0; 1214 1.57 ad error = sy_call(callp, l, args, rval); 1215 1.27 christos out: 1216 1.27 christos switch (error) { 1217 1.1 fredette case 0: 1218 1.9 chs l = curlwp; /* changes on exec() */ 1219 1.9 chs frame = l->l_md.md_regs; 1220 1.1 fredette frame->tf_ret0 = rval[0]; 1221 1.1 fredette frame->tf_ret1 = rval[1]; 1222 1.1 fredette frame->tf_t1 = 0; 1223 1.1 fredette break; 1224 1.1 fredette case ERESTART: 1225 1.1 fredette /* 1226 1.1 fredette * Now we have to wind back the instruction 1227 1.1 fredette * offset queue to the point where the system 1228 1.1 fredette * call will be made again. This is inherently 1229 1.1 fredette * tied to the SYSCALL macro. 1230 1.1 fredette * 1231 1.1 fredette * Currently, the part of the SYSCALL macro 1232 1.1 fredette * that we want to rerun reads as: 1233 1.1 fredette * 1234 1.1 fredette * ldil L%SYSCALLGATE, r1 1235 1.1 fredette * ble 4(sr7, r1) 1236 1.1 fredette * ldi __CONCAT(SYS_,x), t1 1237 1.52 skrll * comb,<> %r0, %t1, __cerror 1238 1.1 fredette * 1239 1.1 fredette * And our offset queue head points to the 1240 1.52 skrll * comb instruction. So we need to 1241 1.1 fredette * subtract twelve to reach the ldil. 1242 1.1 fredette */ 1243 1.1 fredette frame->tf_iioq_head -= 12; 1244 1.1 fredette frame->tf_iioq_tail = frame->tf_iioq_head + 4; 1245 1.1 fredette break; 1246 1.1 fredette case EJUSTRETURN: 1247 1.1 fredette p = curproc; 1248 1.1 fredette break; 1249 1.1 fredette default: 1250 1.1 fredette if (p->p_emul->e_errno) 1251 1.1 fredette error = p->p_emul->e_errno[error]; 1252 1.1 fredette frame->tf_t1 = error; 1253 1.1 fredette break; 1254 1.1 fredette } 1255 1.2 christos 1256 1.65 skrll if (__predict_false(p->p_trace_enabled)) 1257 1.65 skrll trace_exit(code, rval, error); 1258 1.2 christos 1259 1.9 chs userret(l, frame->tf_iioq_head, 0); 1260 1.1 fredette #ifdef DEBUG 1261 1.26 chs frame_sanity_check(0xdead05, 0, frame, l); 1262 1.1 fredette #endif /* DEBUG */ 1263 1.9 chs } 1264 1.9 chs 1265 1.9 chs /* 1266 1.9 chs * Start a new LWP 1267 1.9 chs */ 1268 1.9 chs void 1269 1.14 chs startlwp(void *arg) 1270 1.9 chs { 1271 1.9 chs int err; 1272 1.9 chs ucontext_t *uc = arg; 1273 1.9 chs struct lwp *l = curlwp; 1274 1.9 chs 1275 1.9 chs err = cpu_setmcontext(l, &uc->uc_mcontext, uc->uc_flags); 1276 1.9 chs #if DIAGNOSTIC 1277 1.9 chs if (err) { 1278 1.9 chs printf("Error %d from cpu_setmcontext.", err); 1279 1.9 chs } 1280 1.9 chs #endif 1281 1.9 chs pool_put(&lwp_uc_pool, uc); 1282 1.9 chs 1283 1.9 chs userret(l, l->l_md.md_regs->tf_iioq_head, 0); 1284 1.9 chs } 1285 1.56 wrstuden 1286 1.56 wrstuden /* 1287 1.56 wrstuden * XXX This is a terrible name. 1288 1.56 wrstuden */ 1289 1.56 wrstuden void 1290 1.56 wrstuden upcallret(struct lwp *l) 1291 1.56 wrstuden { 1292 1.56 wrstuden userret(l, l->l_md.md_regs->tf_iioq_head, 0); 1293 1.56 wrstuden } 1294
Indexes created Mon Sep 29 21:09:56 GMT 2025