trap_subr.S revision 1.11.42.3
1 1.11.42.1 rmind /* $NetBSD: trap_subr.S,v 1.11.42.3 2011/06/12 00:24:04 rmind Exp $ */ 2 1.1 simonb 3 1.1 simonb /* 4 1.1 simonb * Copyright 2001 Wasabi Systems, Inc. 5 1.1 simonb * All rights reserved. 6 1.1 simonb * 7 1.1 simonb * Written by Eduardo Horvath and Simon Burge for Wasabi Systems, Inc. 8 1.1 simonb * 9 1.1 simonb * Redistribution and use in source and binary forms, with or without 10 1.1 simonb * modification, are permitted provided that the following conditions 11 1.1 simonb * are met: 12 1.1 simonb * 1. Redistributions of source code must retain the above copyright 13 1.1 simonb * notice, this list of conditions and the following disclaimer. 14 1.1 simonb * 2. Redistributions in binary form must reproduce the above copyright 15 1.1 simonb * notice, this list of conditions and the following disclaimer in the 16 1.1 simonb * documentation and/or other materials provided with the distribution. 17 1.1 simonb * 3. All advertising materials mentioning features or use of this software 18 1.1 simonb * must display the following acknowledgement: 19 1.1 simonb * This product includes software developed for the NetBSD Project by 20 1.1 simonb * Wasabi Systems, Inc. 21 1.1 simonb * 4. The name of Wasabi Systems, Inc. may not be used to endorse 22 1.1 simonb * or promote products derived from this software without specific prior 23 1.1 simonb * written permission. 24 1.1 simonb * 25 1.1 simonb * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND 26 1.1 simonb * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 27 1.1 simonb * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 28 1.1 simonb * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL WASABI SYSTEMS, INC 29 1.1 simonb * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 30 1.1 simonb * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 31 1.1 simonb * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 32 1.1 simonb * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 33 1.1 simonb * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 34 1.1 simonb * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 35 1.1 simonb * POSSIBILITY OF SUCH DAMAGE. 36 1.1 simonb */ 37 1.1 simonb 38 1.1 simonb /* 39 1.1 simonb * Copyright (C) 1995, 1996 Wolfgang Solfrank. 40 1.1 simonb * Copyright (C) 1995, 1996 TooLs GmbH. 41 1.1 simonb * All rights reserved. 42 1.1 simonb * 43 1.1 simonb * Redistribution and use in source and binary forms, with or without 44 1.1 simonb * modification, are permitted provided that the following conditions 45 1.1 simonb * are met: 46 1.1 simonb * 1. Redistributions of source code must retain the above copyright 47 1.1 simonb * notice, this list of conditions and the following disclaimer. 48 1.1 simonb * 2. Redistributions in binary form must reproduce the above copyright 49 1.1 simonb * notice, this list of conditions and the following disclaimer in the 50 1.1 simonb * documentation and/or other materials provided with the distribution. 51 1.1 simonb * 3. All advertising materials mentioning features or use of this software 52 1.1 simonb * must display the following acknowledgement: 53 1.1 simonb * This product includes software developed by TooLs GmbH. 54 1.1 simonb * 4. The name of TooLs GmbH may not be used to endorse or promote products 55 1.1 simonb * derived from this software without specific prior written permission. 56 1.1 simonb * 57 1.1 simonb * THIS SOFTWARE IS PROVIDED BY TOOLS GMBH ``AS IS'' AND ANY EXPRESS OR 58 1.1 simonb * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 59 1.1 simonb * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 60 1.1 simonb * IN NO EVENT SHALL TOOLS GMBH BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 61 1.1 simonb * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 62 1.1 simonb * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; 63 1.1 simonb * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, 64 1.1 simonb * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR 65 1.1 simonb * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF 66 1.1 simonb * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 67 1.1 simonb */ 68 1.1 simonb 69 1.1 simonb /* 70 1.1 simonb * NOTICE: This is not a standalone file. to use it, #include it in 71 1.1 simonb * your port's locore.S, like so: 72 1.1 simonb * 73 1.5 chs * #include <powerpc/ibm4xx/trap_subr.S> 74 1.1 simonb */ 75 1.1 simonb 76 1.1 simonb /* 77 1.1 simonb * XXX Interrupt and spill stacks need to be per-CPU. 78 1.1 simonb */ 79 1.1 simonb 80 1.4 simonb #define GET_PCB(rX) \ 81 1.1 simonb GET_CPUINFO(rX); \ 82 1.1 simonb lwz rX,CI_CURPCB(rX) 83 1.1 simonb 84 1.1 simonb #define STANDARD_PROLOG(savearea) \ 85 1.11.42.1 rmind mtsprg1 %r1; /* save SP */ \ 86 1.11.42.1 rmind GET_CPUINFO(%r1); \ 87 1.11.42.1 rmind stmw %r28,(savearea+CPUSAVE_R28)(%r1); /* free r28-r31 */ \ 88 1.11.42.1 rmind mflr %r28; /* save LR */ \ 89 1.11.42.1 rmind mfcr %r29; /* save CR */ \ 90 1.11.42.1 rmind mfsrr0 %r30; \ 91 1.11.42.1 rmind mfsrr1 %r31; /* Test whether we already had PR set */ \ 92 1.11.42.1 rmind stmw %r30,(savearea+CPUSAVE_SRR0)(%r1); /* save srr0/srr1 */ \ 93 1.11.42.2 rmind mfsprg1 %r1; /* restore SP */ \ 94 1.11.42.1 rmind mtcr %r31; \ 95 1.11.42.3 rmind bf MSR_PR,1f; /* branch if MSR[PR] is clear */ \ 96 1.11.42.2 rmind GET_PCB(%r1); \ 97 1.11.42.1 rmind addi %r1,%r1,USPACE-CALLFRAMELEN; /* stack is top of user struct */ \ 98 1.11.42.1 rmind 1: 99 1.11.42.1 rmind 100 1.11.42.1 rmind #define ACCESS_PROLOG(savearea) \ 101 1.11.42.2 rmind mtsprg1 %r1; /* save SP temporalily */ \ 102 1.11.42.1 rmind GET_CPUINFO(%r1); \ 103 1.11.42.1 rmind stmw %r28,(savearea+CPUSAVE_R28)(%r1); /* free r28-r31 */ \ 104 1.11.42.1 rmind mflr %r28; /* save LR */ \ 105 1.11.42.1 rmind mfcr %r29; /* save CR */ \ 106 1.11.42.1 rmind mfdear %r30; \ 107 1.11.42.1 rmind mfesr %r31; \ 108 1.11.42.1 rmind stmw %r30,(savearea+CPUSAVE_DEAR)(%r1); \ 109 1.11.42.1 rmind mfsrr0 %r30; \ 110 1.11.42.1 rmind mfsrr1 %r31; /* Test whether we already had PR set */ \ 111 1.11.42.1 rmind stmw %r30,(savearea+CPUSAVE_SRR0)(%r1); /* save srr0/srr1 */ \ 112 1.11.42.2 rmind mfsprg1 %r1; /* restore SP */ \ 113 1.11.42.1 rmind mtcr %r31; \ 114 1.11.42.3 rmind bf MSR_PR,1f; /* branch if MSR[PR] is clear */ \ 115 1.11.42.2 rmind GET_PCB(%r1); \ 116 1.11.42.1 rmind addi %r1,%r1,USPACE-CALLFRAMELEN; /* stack is top of user struct */ \ 117 1.1 simonb 1: 118 1.4 simonb 119 1.11.42.1 rmind #define CRITICAL_PROLOG(savearea) \ 120 1.11.42.1 rmind mtsprg1 %r1; /* save SP */ \ 121 1.11.42.2 rmind GET_CPUINFO(%r1); \ 122 1.11.42.1 rmind stmw %r28,(savearea+CPUSAVE_R28)(%r1); /* free r28-r31 */ \ 123 1.11.42.1 rmind mflr %r28; /* save LR */ \ 124 1.11.42.1 rmind mfcr %r29; /* save CR */ \ 125 1.11.42.1 rmind mfsrr2 %r30; /* Fake a standard trap */ \ 126 1.11.42.1 rmind mfsrr3 %r31; /* Test whether we already had PR set */ \ 127 1.11.42.1 rmind stmw %r30,(savearea+CPUSAVE_SRR0)(%r1); /* save srr0/srr1 */ \ 128 1.11.42.2 rmind mfsprg1 %r1; /* restore SP */ \ 129 1.11.42.1 rmind mtcr %r31; \ 130 1.11.42.3 rmind bf MSR_PR,1f; /* branch if MSR[PR] is clear */ \ 131 1.11.42.2 rmind GET_PCB(%r1); \ 132 1.11.42.1 rmind addi %r1,%r1,USPACE-CALLFRAMELEN; /* stack is top of user struct */ \ 133 1.1 simonb 1: 134 1.1 simonb 135 1.1 simonb 136 1.4 simonb /* Standard handler saves r1,r28-31,LR,CR, sets up the stack and calls s_trap */ 137 1.1 simonb #define STANDARD_EXC_HANDLER(name)\ 138 1.1 simonb .globl _C_LABEL(name ## trap),_C_LABEL(name ## size) ; \ 139 1.1 simonb _C_LABEL(name ## trap): \ 140 1.11.42.1 rmind STANDARD_PROLOG(CI_TEMPSAVE); \ 141 1.1 simonb bla s_trap ; \ 142 1.1 simonb _C_LABEL(name ## size) = .-_C_LABEL(name ## trap) 143 1.1 simonb 144 1.4 simonb /* Access exceptions also need DEAR and ESR saved */ 145 1.1 simonb #define ACCESS_EXC_HANDLER(name)\ 146 1.1 simonb .globl _C_LABEL(name ## trap),_C_LABEL(name ## size) ; \ 147 1.1 simonb _C_LABEL(name ## trap): \ 148 1.11.42.1 rmind ACCESS_PROLOG(CI_TEMPSAVE); \ 149 1.1 simonb bla s_trap ; \ 150 1.1 simonb _C_LABEL(name ## size) = .-_C_LABEL(name ## trap) 151 1.1 simonb 152 1.1 simonb /* Maybe this should call ddb.... */ 153 1.1 simonb #define CRITICAL_EXC_HANDLER(name)\ 154 1.1 simonb .globl _C_LABEL(name ## trap),_C_LABEL(name ## size) ; \ 155 1.1 simonb _C_LABEL(name ## trap): \ 156 1.11.42.1 rmind CRITICAL_PROLOG(CI_TEMPSAVE); \ 157 1.1 simonb bla s_trap ; \ 158 1.1 simonb _C_LABEL(name ## size) = .-_C_LABEL(name ## trap) 159 1.4 simonb 160 1.11.42.1 rmind #define INTR_PROLOG(tempsave) \ 161 1.11.42.1 rmind mtsprg1 %r1; /* save SP */ \ 162 1.11.42.1 rmind GET_CPUINFO(%r1); \ 163 1.11.42.1 rmind stmw %r28,(tempsave+CPUSAVE_R28)(%r1); /* free r28-r31 */ \ 164 1.11.42.1 rmind mflr %r28; /* save LR */ \ 165 1.11.42.1 rmind mfcr %r29; /* save CR */ \ 166 1.11.42.1 rmind mfxer %r30; /* save XER */ \ 167 1.11.42.1 rmind lwz %r31,CI_IDEPTH(%r1); /* already running on intstk? */ \ 168 1.11.42.1 rmind addic. %r31,%r31,1; \ 169 1.11.42.1 rmind stw %r31,CI_IDEPTH(%r1); \ 170 1.11.42.1 rmind lwz %r1,CI_INTSTK(%r1); /* get intstk */ \ 171 1.11.42.1 rmind beq 1f; \ 172 1.11.42.1 rmind mfsprg1 %r1; /* yes, get old SP */ \ 173 1.11.42.1 rmind 1: 174 1.11.42.1 rmind 175 1.1 simonb /* 176 1.1 simonb * This code gets copied to all the trap vectors 177 1.4 simonb * (except ISI/DSI, ALI, the interrupts, and possibly the debugging 178 1.1 simonb * traps when using IPKDB). 179 1.1 simonb */ 180 1.1 simonb .text 181 1.1 simonb STANDARD_EXC_HANDLER(default) 182 1.1 simonb ACCESS_EXC_HANDLER(ali) 183 1.1 simonb ACCESS_EXC_HANDLER(dsi) 184 1.1 simonb ACCESS_EXC_HANDLER(isi) 185 1.1 simonb STANDARD_EXC_HANDLER(debug) 186 1.3 eeh CRITICAL_EXC_HANDLER(mchk) 187 1.1 simonb 188 1.1 simonb /* 189 1.1 simonb * This one for the external interrupt handler. 190 1.1 simonb */ 191 1.1 simonb .globl _C_LABEL(extint),_C_LABEL(extsize) 192 1.1 simonb _C_LABEL(extint): 193 1.11.42.1 rmind INTR_PROLOG(CI_TEMPSAVE) 194 1.1 simonb ba extintr 195 1.1 simonb _C_LABEL(extsize) = .-_C_LABEL(extint) 196 1.1 simonb 197 1.4 simonb 198 1.11 garbled #if defined(DDB) || defined(KGDB) 199 1.1 simonb /* 200 1.1 simonb * In case of DDB we want a separate trap catcher for it 201 1.1 simonb */ 202 1.11.42.1 rmind .lcomm ddbstk,INTSTK,16 /* ddb stack */ 203 1.1 simonb 204 1.1 simonb .globl _C_LABEL(ddblow),_C_LABEL(ddbsize) 205 1.1 simonb _C_LABEL(ddblow): 206 1.11.42.1 rmind mtsprg1 %r1 /* save SP */ 207 1.11.42.1 rmind GET_CPUINFO(%r1) 208 1.11.42.1 rmind stmw %r28,CI_DDBSAVE(%r1) /* free r28-r31 */ 209 1.11.42.1 rmind mflr %r28 /* save LR */ 210 1.11.42.1 rmind mfcr %r29 /* save CR */ 211 1.11.42.1 rmind lis %r1,ddbstk+INTSTK-CALLFRAMELEN@ha /* get new SP */ 212 1.11.42.1 rmind addi %r1,%r1,ddbstk+INTSTK-CALLFRAMELEN@l 213 1.1 simonb bla ddbtrap 214 1.1 simonb _C_LABEL(ddbsize) = .-_C_LABEL(ddblow) 215 1.11 garbled #endif /* DDB || KGDB */ 216 1.1 simonb 217 1.1 simonb #ifdef IPKDB 218 1.1 simonb /* 219 1.1 simonb * In case of IPKDB we want a separate trap catcher for it 220 1.1 simonb */ 221 1.1 simonb 222 1.11.42.1 rmind .lcomm ipkdbstk,INTSTK,16 /* ipkdb stack */ 223 1.1 simonb 224 1.1 simonb .globl _C_LABEL(ipkdblow),_C_LABEL(ipkdbsize) 225 1.1 simonb _C_LABEL(ipkdblow): 226 1.11.42.1 rmind mtsprg1 %r1 /* save SP */ 227 1.11.42.1 rmind GET_CPUINFO(%r1) 228 1.11.42.1 rmind stmw %r28,CI_IPKDBSAVE(%r1) /* free r28-r31 */ 229 1.11.42.1 rmind mflr %r28 /* save LR */ 230 1.11.42.1 rmind mfcr %r29 /* save CR */ 231 1.11.42.1 rmind lis %r1,ipkdbstk+INTSTK-CALLFRAMELEN@ha /* get new SP */ 232 1.11.42.1 rmind addi %r1,%r1,ipkdbstk+INTSTK-CALLFRAMELEN@l 233 1.1 simonb bla ipkdbtrap 234 1.1 simonb _C_LABEL(ipkdbsize) = .-_C_LABEL(ipkdblow) 235 1.1 simonb #endif /* IPKDB */ 236 1.1 simonb 237 1.1 simonb #ifdef DEBUG 238 1.1 simonb #define TRAP_IF_ZERO(r) tweqi r,0 239 1.1 simonb #else 240 1.1 simonb #define TRAP_IF_ZERO(r) 241 1.1 simonb #endif 242 1.4 simonb 243 1.11.42.1 rmind #define ENABLE_TRANSLATION(pidreg,tmpreg) \ 244 1.11.42.1 rmind mfpid pidreg; \ 245 1.11.42.1 rmind li tmpreg, KERNEL_PID; \ 246 1.11.42.1 rmind mtpid tmpreg; \ 247 1.11.42.1 rmind mfmsr tmpreg; \ 248 1.11.42.1 rmind ori tmpreg,tmpreg,(PSL_DR|PSL_IR)@l; \ 249 1.11.42.1 rmind mtmsr tmpreg; \ 250 1.11.42.1 rmind isync 251 1.11.42.1 rmind 252 1.1 simonb /* 253 1.1 simonb * FRAME_SETUP assumes: 254 1.11.42.1 rmind * SPRG1 SP (r1) 255 1.11.42.1 rmind * savearea r28-r31,DEAR,ESR,SRR0,SRR1 (DEAR & ESR only for DSI traps) 256 1.11.42.1 rmind * %r28 LR 257 1.11.42.1 rmind * %r29 CR 258 1.11.42.1 rmind * %r1 kernel stack 259 1.1 simonb * LR trap type 260 1.1 simonb */ 261 1.1 simonb #define FRAME_SETUP(savearea) \ 262 1.1 simonb /* Have to enable translation to allow access of kernel stack: */ \ 263 1.11.42.1 rmind ENABLE_TRANSLATION(%r30,%r31); \ 264 1.11.42.1 rmind mfsprg1 %r31; \ 265 1.11.42.1 rmind stwu %r31,-FRAMELEN(%r1); \ 266 1.11.42.1 rmind stw %r30,FRAME_PID(%r1); \ 267 1.11.42.1 rmind stw %r0,FRAME_R0(%r1); \ 268 1.11.42.1 rmind stw %r31,FRAME_R1(%r1); \ 269 1.11.42.1 rmind stw %r2,FRAME_R2(%r1); \ 270 1.11.42.1 rmind GET_CPUINFO(%r2); \ 271 1.11.42.1 rmind stw %r28,FRAME_LR(%r1); \ 272 1.11.42.1 rmind stw %r29,FRAME_CR(%r1); \ 273 1.11.42.1 rmind lmw %r28,(savearea+CPUSAVE_R28)(%r2); \ 274 1.11.42.1 rmind stmw %r3,FRAME_R3(%r1); \ 275 1.11.42.1 rmind lmw %r28,(savearea+CPUSAVE_DEAR)(%r2); \ 276 1.11.42.3 rmind lwz %r13,CI_CURLWP(%r2); \ 277 1.11.42.1 rmind mfxer %r3; \ 278 1.11.42.1 rmind mfctr %r4; \ 279 1.11.42.1 rmind mflr %r5; \ 280 1.11.42.1 rmind andi. %r5,%r5,0xff00; \ 281 1.11.42.1 rmind stw %r3,FRAME_XER(%r1); \ 282 1.11.42.1 rmind stw %r4,FRAME_CTR(%r1); \ 283 1.11.42.1 rmind stw %r5,FRAME_EXC(%r1); \ 284 1.11.42.1 rmind stw %r28,FRAME_DEAR(%r1); \ 285 1.11.42.1 rmind stw %r29,FRAME_ESR(%r1); \ 286 1.11.42.1 rmind stw %r30,FRAME_SRR0(%r1); \ 287 1.11.42.1 rmind stw %r31,FRAME_SRR1(%r1) 288 1.11.42.1 rmind 289 1.11.42.1 rmind #define FRAME_SAVE_CALLEE \ 290 1.11.42.1 rmind stmw %r13, FRAME_R13(%r1) 291 1.11.42.1 rmind 292 1.11.42.1 rmind #define FRAME_RESTORE \ 293 1.11.42.1 rmind lwz %r6,FRAME_LR(%r1); \ 294 1.11.42.1 rmind lwz %r7,FRAME_CR(%r1); \ 295 1.11.42.1 rmind lwz %r8,FRAME_XER(%r1); \ 296 1.11.42.1 rmind lwz %r9,FRAME_CTR(%r1); \ 297 1.11.42.1 rmind lwz %r10,FRAME_SRR0(%r1); \ 298 1.11.42.1 rmind lwz %r11,FRAME_SRR1(%r1); \ 299 1.11.42.1 rmind mtlr %r6; \ 300 1.11.42.1 rmind mtcr %r7; \ 301 1.11.42.1 rmind mtxer %r8; \ 302 1.11.42.1 rmind mtctr %r9; \ 303 1.11.42.1 rmind mtsrr0 %r10; \ 304 1.11.42.1 rmind mtsrr1 %r11; \ 305 1.11.42.3 rmind lwz %r13,FRAME_R13(%r1); \ 306 1.11.42.1 rmind lwz %r12,FRAME_R12(%r1); \ 307 1.11.42.1 rmind lwz %r11,FRAME_R11(%r1); \ 308 1.11.42.1 rmind lwz %r10,FRAME_R10(%r1); \ 309 1.11.42.1 rmind lwz %r9,FRAME_R9(%r1); \ 310 1.11.42.1 rmind lwz %r8,FRAME_R8(%r1); \ 311 1.11.42.1 rmind lwz %r7,FRAME_R7(%r1); \ 312 1.11.42.1 rmind lwz %r6,FRAME_R6(%r1); \ 313 1.11.42.1 rmind lwz %r5,FRAME_R5(%r1); \ 314 1.11.42.1 rmind lwz %r4,FRAME_R4(%r1); \ 315 1.11.42.1 rmind lwz %r3,FRAME_R3(%r1); \ 316 1.11.42.1 rmind lwz %r2,FRAME_R2(%r1); \ 317 1.11.42.1 rmind lwz %r0,FRAME_R1(%r1); \ 318 1.11.42.1 rmind mtsprg1 %r0; \ 319 1.11.42.1 rmind lwz %r0,FRAME_R0(%r1) 320 1.11.42.1 rmind 321 1.1 simonb /* 322 1.1 simonb * Now the common trap catching code. 323 1.1 simonb */ 324 1.1 simonb s_trap: 325 1.11.42.1 rmind FRAME_SETUP(CI_TEMPSAVE) 326 1.11.42.1 rmind /* R31 = SRR1 */ 327 1.1 simonb /* Now we can recover interrupts again: */ 328 1.1 simonb trapagain: 329 1.11.42.1 rmind wrtee %r31 /* reenable interrupts */ 330 1.1 simonb /* Call C trap code: */ 331 1.11.42.1 rmind addi %r3,%r1,FRAME_TF 332 1.1 simonb bl _C_LABEL(trap) 333 1.2 simonb .globl _C_LABEL(trapexit) 334 1.2 simonb _C_LABEL(trapexit): 335 1.1 simonb /* Disable interrupts: */ 336 1.1 simonb wrteei 0 337 1.11.42.1 rmind 338 1.1 simonb /* Test AST pending: */ 339 1.11.42.1 rmind mtcr %r31 340 1.11.42.3 rmind bf MSR_PR,trapleave_to_kernel /* branch if MSR[PR] is false */ 341 1.11.42.1 rmind 342 1.11.42.3 rmind lwz %r4,L_MD_ASTPENDING(%r13) 343 1.11.42.1 rmind andi. %r4,%r4,1 344 1.11.42.1 rmind beq trapleave_to_user 345 1.11.42.1 rmind 346 1.11.42.1 rmind li %r6,EXC_AST 347 1.11.42.1 rmind stw %r6,FRAME_EXC(%r1) 348 1.1 simonb b trapagain 349 1.11.42.1 rmind 350 1.11.42.1 rmind trapleave_to_kernel: 351 1.11.42.3 rmind lmw %r14, FRAME_R14(%r1) /* restore callee registers */ 352 1.11.42.1 rmind 353 1.11.42.1 rmind intrleave_to_kernel: 354 1.11.42.1 rmind FRAME_RESTORE /* old SP is now in sprg1 */ 355 1.11.42.1 rmind /* 356 1.11.42.1 rmind * Now that we are done with the trapframe, we can load the original SP 357 1.11.42.1 rmind */ 358 1.11.42.1 rmind mfsprg1 %r1 359 1.1 simonb rfi 360 1.11.42.1 rmind ba . /* Protect against prefetch */ 361 1.5 chs 362 1.11.42.1 rmind trapleave_to_user: 363 1.11.42.1 rmind lmw %r13, FRAME_R13(%r1) /* restore callee registers */ 364 1.11.42.1 rmind 365 1.11.42.1 rmind intrleave_to_user: 366 1.11.42.1 rmind /* Now restore regs: */ 367 1.11.42.1 rmind lwz %r3,FRAME_PID(%r1) 368 1.11.42.1 rmind lwz %r4,FRAME_SRR1(%r1) 369 1.11.42.1 rmind bl _C_LABEL(ctx_setup) 370 1.11.42.1 rmind TRAP_IF_ZERO(%r3) 371 1.11.42.1 rmind stw %r3,FRAME_PID(%r1) 372 1.11.42.1 rmind 373 1.11.42.1 rmind FRAME_RESTORE /* old SP is now in sprg1 */ 374 1.11.42.1 rmind 375 1.11.42.1 rmind /* 376 1.11.42.1 rmind * We are returning to userspace so we need to switch PIDs. 377 1.11.42.1 rmind * Since the kernel executes out of what would be userspace, 378 1.11.42.1 rmind * we need to turn off translation before we set the PID. 379 1.11.42.1 rmind * 380 1.11.42.1 rmind * Alterantively, we could map a kernel page at 0xfffff000 381 1.11.42.1 rmind * that had the mtpid code in it and branch to it and avoid 382 1.11.42.1 rmind * all this. (ba foo; foo: mtpid %r31; mfsprg3 %r31; rfi;) 383 1.11.42.1 rmind */ 384 1.11.42.1 rmind mfmsr %r30 385 1.11.42.1 rmind li %r31,(PSL_DR|PSL_IR)@l 386 1.11.42.1 rmind andc %r30,%r30,%r31 387 1.11.42.1 rmind lwz %r31,FRAME_PID(%r1) 388 1.11.42.1 rmind TRAP_IF_ZERO(%r31) 389 1.11.42.1 rmind /* 390 1.11.42.1 rmind * Now that we are done with the trapframe, we can load the original SP 391 1.11.42.1 rmind */ 392 1.11.42.1 rmind mfsprg1 %r1 393 1.11.42.1 rmind mtmsr %r30 /* disable translation */ 394 1.11.42.1 rmind isync 395 1.11.42.1 rmind mtpid %r31 396 1.11.42.1 rmind mfsprg3 %r31 397 1.11.42.1 rmind mfsprg2 %r30 398 1.11.42.1 rmind rfi 399 1.11.42.1 rmind ba . /* Protect against prefetch */ 400 1.5 chs 401 1.5 chs 402 1.8 matt .globl _C_LABEL(sctrap),_C_LABEL(scsize),_C_LABEL(sctrapexit) 403 1.5 chs _C_LABEL(sctrap): 404 1.11.42.1 rmind STANDARD_PROLOG(CI_TEMPSAVE) 405 1.5 chs bla s_sctrap 406 1.5 chs _C_LABEL(scsize) = .-_C_LABEL(sctrap) 407 1.5 chs 408 1.5 chs s_sctrap: 409 1.11.42.1 rmind FRAME_SETUP(CI_TEMPSAVE) 410 1.5 chs /* Now we can recover interrupts again: */ 411 1.5 chs wrteei 1 /* Enable interrupts */ 412 1.5 chs /* Call the appropriate syscall handler: */ 413 1.11.42.1 rmind addi %r3,%r1,FRAME_TF 414 1.11.42.3 rmind lwz %r4,L_PROC(%r13) 415 1.11.42.1 rmind lwz %r4,P_MD_SYSCALL(%r4) 416 1.11.42.1 rmind mtctr %r4 417 1.5 chs bctrl 418 1.8 matt _C_LABEL(sctrapexit): 419 1.11.42.1 rmind b trapexit 420 1.5 chs 421 1.1 simonb /* 422 1.1 simonb * External interrupt second level handler 423 1.1 simonb */ 424 1.4 simonb 425 1.11.42.1 rmind #define INTR_SAVE(tempsave) \ 426 1.1 simonb /* Save non-volatile registers: */ \ 427 1.11.42.1 rmind stwu %r1,-FRAMELEN(%r1); /* temporarily */ \ 428 1.11.42.1 rmind stw %r0,FRAME_R0(%r1); \ 429 1.11.42.1 rmind mfsprg1 %r0; /* get original SP */ \ 430 1.11.42.1 rmind stw %r0,FRAME_R1(%r1); /* and store it */ \ 431 1.11.42.1 rmind stw %r2,FRAME_R2(%r1); \ 432 1.11.42.1 rmind stw %r3,FRAME_R3(%r1); \ 433 1.11.42.1 rmind stw %r4,FRAME_R4(%r1); \ 434 1.11.42.1 rmind stw %r5,FRAME_R5(%r1); \ 435 1.11.42.1 rmind stw %r6,FRAME_R6(%r1); \ 436 1.11.42.1 rmind stw %r7,FRAME_R7(%r1); \ 437 1.11.42.1 rmind stw %r8,FRAME_R8(%r1); \ 438 1.11.42.1 rmind stw %r9,FRAME_R9(%r1); \ 439 1.11.42.1 rmind stw %r10,FRAME_R10(%r1); \ 440 1.11.42.1 rmind stw %r11,FRAME_R11(%r1); \ 441 1.11.42.1 rmind stw %r12,FRAME_R12(%r1); \ 442 1.11.42.1 rmind mfctr %r31; \ 443 1.11.42.1 rmind stmw %r28,FRAME_LR(%r1); /* save LR, CR, XER, CTR */ \ 444 1.11.42.1 rmind GET_CPUINFO(%r5); \ 445 1.11.42.1 rmind lmw %r28,(tempsave+CPUSAVE_R28)(%r5); /* restore r28-r31 */ \ 446 1.11.42.3 rmind lwz %r13,CI_CURLWP(%r5); \ 447 1.11.42.1 rmind lwz %r5,CI_IDEPTH(%r5); \ 448 1.11.42.1 rmind mfsrr0 %r4; \ 449 1.11.42.1 rmind mfsrr1 %r3; \ 450 1.11.42.1 rmind stw %r5,FRAME_IDEPTH(%r1); \ 451 1.11.42.1 rmind stw %r4,FRAME_SRR0(%r1); \ 452 1.11.42.1 rmind stw %r3,FRAME_SRR1(%r1); \ 453 1.1 simonb /* interrupts are recoverable here, and enable translation */ \ 454 1.11.42.1 rmind ENABLE_TRANSLATION(%r0,%r5); \ 455 1.11.42.1 rmind stw %r0,FRAME_PID(%r1); \ 456 1.1 simonb 457 1.1 simonb .globl _C_LABEL(extint_call) 458 1.1 simonb extintr: 459 1.11.42.1 rmind INTR_SAVE(CI_TEMPSAVE) 460 1.1 simonb _C_LABEL(extint_call): 461 1.1 simonb bl _C_LABEL(extint_call) /* to be filled in later */ 462 1.1 simonb 463 1.1 simonb intr_exit: 464 1.11.42.1 rmind /* Disable interrupts */ 465 1.1 simonb wrteei 0 466 1.1 simonb isync 467 1.11.42.1 rmind GET_CPUINFO(%r5) 468 1.11.42.1 rmind lwz %r4,CI_IDEPTH(%r5) 469 1.11.42.1 rmind addi %r4,%r4,-1 /* adjust reentrancy count */ 470 1.11.42.1 rmind stw %r4,CI_IDEPTH(%r5) 471 1.4 simonb 472 1.11.42.3 rmind lwz %r4,FRAME_SRR1(%r1) 473 1.1 simonb /* Returning to user mode? */ 474 1.11.42.3 rmind mtcr %r4 /* saved SRR1 */ 475 1.11.42.3 rmind bf MSR_PR,intrleave_to_kernel /* branch if MSR[PR] is false */ 476 1.11.42.1 rmind 477 1.11.42.3 rmind lwz %r4,L_MD_ASTPENDING(%r13)/* Test AST pending */ 478 1.11.42.1 rmind andi. %r4,%r4,1 479 1.11.42.1 rmind beq intrleave_to_user 480 1.11.42.1 rmind 481 1.11.42.1 rmind FRAME_SAVE_CALLEE /* save rest of callee registers */ 482 1.11.42.1 rmind li %r6,EXC_AST 483 1.11.42.1 rmind stw %r6,FRAME_EXC(%r1) 484 1.11.42.1 rmind mr %r31,%r5 /* move SRR1 to R31 */ 485 1.11.42.1 rmind b trapagain 486 1.4 simonb 487 1.1 simonb /* 488 1.1 simonb * PIT interrupt handler. 489 1.1 simonb */ 490 1.1 simonb .align 5 491 1.1 simonb _C_LABEL(pitint): 492 1.11.42.1 rmind INTR_PROLOG(CI_TEMPSAVE) 493 1.11.42.1 rmind INTR_SAVE(CI_TEMPSAVE) 494 1.11.42.1 rmind addi %r3,%r1,FRAME_CF /* intr frame */ 495 1.1 simonb bl _C_LABEL(decr_intr) 496 1.1 simonb b intr_exit 497 1.1 simonb 498 1.1 simonb /* 499 1.1 simonb * FIT interrupt handler. 500 1.1 simonb */ 501 1.1 simonb .align 5 502 1.11.42.1 rmind _C_LABEL(fitint): 503 1.11.42.1 rmind INTR_PROLOG(CI_TEMPSAVE) 504 1.11.42.1 rmind INTR_SAVE(CI_TEMPSAVE) 505 1.11.42.1 rmind addi %r3,%r1,FRAME_TF /* intr frame */ 506 1.1 simonb bl _C_LABEL(stat_intr) 507 1.1 simonb b intr_exit 508 1.1 simonb 509 1.11 garbled #if defined(DDB) || defined(KGDB) 510 1.1 simonb /* 511 1.1 simonb * Deliberate entry to ddbtrap 512 1.1 simonb */ 513 1.1 simonb .globl _C_LABEL(ddb_trap) 514 1.1 simonb _C_LABEL(ddb_trap): 515 1.11.42.1 rmind mtsprg1 %r1 516 1.11.42.1 rmind GET_CPUINFO(%r4) 517 1.11.42.1 rmind mfmsr %r3 518 1.11.42.1 rmind stw %r3,CI_DDBSAVE+CPUSAVE_SRR1(%r4) 519 1.1 simonb wrteei 0 /* disable interrupts */ 520 1.1 simonb isync 521 1.11.42.1 rmind stmw %r28,CI_DDBSAVE(%r1) 522 1.11.42.1 rmind mflr %r28 523 1.11.42.1 rmind stw %r28,CI_DDBSAVE+CPUSAVE_SRR0(%r4) 524 1.11.42.1 rmind li %r29,EXC_BPT 525 1.11.42.1 rmind mtlr %r29 526 1.11.42.1 rmind mfcr %r29 527 1.1 simonb 528 1.1 simonb /* 529 1.11 garbled * Now the ddb/kgdb trap catching code. 530 1.1 simonb */ 531 1.1 simonb ddbtrap: 532 1.11.42.1 rmind FRAME_SETUP(CI_DDBSAVE) 533 1.1 simonb /* Call C trap code: */ 534 1.11.42.1 rmind addi %r3,%r1,FRAME_TF 535 1.1 simonb bl _C_LABEL(ddb_trap_glue) 536 1.11.42.1 rmind or. %r3,%r3,%r3 537 1.11.42.1 rmind addi %r3,%r1,FRAME_TF 538 1.11.42.1 rmind beq trapagain 539 1.11.42.1 rmind b trapexit 540 1.11 garbled #endif /* DDB || KGDB */ 541 1.1 simonb 542 1.1 simonb #ifdef IPKDB 543 1.1 simonb /* 544 1.1 simonb * Deliberate entry to ipkdbtrap 545 1.1 simonb */ 546 1.1 simonb .globl _C_LABEL(ipkdb_trap) 547 1.1 simonb _C_LABEL(ipkdb_trap): 548 1.11.42.1 rmind mtsprg1 %r1 549 1.11.42.1 rmind GET_CPUINFO(%r4) 550 1.11.42.1 rmind mfmsr %r3 551 1.11.42.1 rmind stw %r3,(CI_IPKDBSAVE+CPUSAVE_SRR1)(%r4) 552 1.1 simonb wrteei 0 /* disable interrupts */ 553 1.1 simonb isync 554 1.11.42.1 rmind stmw %r28,CI_IPKDBSAVE(%r4) 555 1.11.42.1 rmind mflr %r28 556 1.11.42.1 rmind stw %r28,(CI_IPKDBSAVE+CPUSAVE_SRR0)(%r4) 557 1.11.42.1 rmind li %r29,EXC_BPT 558 1.11.42.1 rmind mtlr %r29 559 1.11.42.1 rmind mfcr %r29 560 1.1 simonb 561 1.1 simonb /* 562 1.1 simonb * Now the ipkdb trap catching code. 563 1.1 simonb */ 564 1.1 simonb ipkdbtrap: 565 1.11.42.1 rmind FRAME_SETUP(CI_IPKDBSAVE) 566 1.1 simonb /* Call C trap code: */ 567 1.11.42.1 rmind addi %r3,%r1,FRAME_TF 568 1.1 simonb bl _C_LABEL(ipkdb_trap_glue) 569 1.11.42.1 rmind or. %r3,%r3,%r3 570 1.11.42.1 rmind beq trapagain 571 1.11.42.1 rmind b trapexit 572 1.1 simonb 573 1.1 simonb ipkdbfault: 574 1.1 simonb ba _ipkdbfault 575 1.1 simonb _ipkdbfault: 576 1.11.42.1 rmind mfsrr0 %r3 577 1.11.42.1 rmind addi %r3,%r3,4 578 1.11.42.1 rmind mtsrr0 %r3 579 1.11.42.1 rmind li %r3,-1 580 1.1 simonb rfi 581 1.1 simonb ba . /* Protect against prefetch */ 582 1.1 simonb 583 1.1 simonb /* 584 1.1 simonb * int ipkdbfbyte(unsigned char *p) 585 1.1 simonb */ 586 1.1 simonb .globl _C_LABEL(ipkdbfbyte) 587 1.1 simonb _C_LABEL(ipkdbfbyte): 588 1.11.42.1 rmind li %r9,EXC_DSI /* establish new fault routine */ 589 1.11.42.1 rmind lwz %r5,0(%r9) 590 1.11.42.1 rmind lis %r6,ipkdbfault@ha 591 1.11.42.1 rmind lwz %r6,ipkdbfault@l(%r6) 592 1.11.42.1 rmind stw %r6,0(%r9) 593 1.1 simonb #ifdef IPKDBUSERHACK 594 1.1 simonb #ifndef PPC_IBM4XX 595 1.11.42.1 rmind lis %r8,_C_LABEL(ipkdbsr)@ha 596 1.11.42.1 rmind lwz %r8,_C_LABEL(ipkdbsr)@l(%r8) 597 1.11.42.1 rmind mtsr USER_SR,%r8 598 1.1 simonb isync 599 1.4 simonb #endif 600 1.1 simonb #endif 601 1.11.42.1 rmind dcbst %r0,%r9 /* flush data... */ 602 1.1 simonb sync 603 1.11.42.1 rmind icbi %r0,%r9 /* and instruction caches */ 604 1.11.42.1 rmind lbz %r3,0(%r3) /* fetch data */ 605 1.11.42.1 rmind stw %r5,0(%r9) /* restore previous fault handler */ 606 1.11.42.1 rmind dcbst %r0,%r9 /* and flush data... */ 607 1.1 simonb sync 608 1.11.42.1 rmind icbi %r0,%r9 /* and instruction caches */ 609 1.1 simonb blr 610 1.1 simonb 611 1.1 simonb /* 612 1.1 simonb * int ipkdbsbyte(unsigned char *p, int c) 613 1.1 simonb */ 614 1.1 simonb .globl _C_LABEL(ipkdbsbyte) 615 1.1 simonb _C_LABEL(ipkdbsbyte): 616 1.11.42.1 rmind li %r9,EXC_DSI /* establish new fault routine */ 617 1.11.42.1 rmind lwz %r5,0(%r9) 618 1.11.42.1 rmind lis %r6,ipkdbfault@ha 619 1.11.42.1 rmind lwz %r6,ipkdbfault@l(%r6) 620 1.11.42.1 rmind stw %r6,0(%r9) 621 1.1 simonb #ifdef IPKDBUSERHACK 622 1.1 simonb #ifndef PPC_IBM4XX 623 1.11.42.1 rmind lis %r8,_C_LABEL(ipkdbsr)@ha 624 1.11.42.1 rmind lwz %r8,_C_LABEL(ipkdbsr)@l(%r8) 625 1.11.42.1 rmind mtsr USER_SR,%r8 626 1.1 simonb isync 627 1.4 simonb #endif 628 1.1 simonb #endif 629 1.11.42.1 rmind dcbst %r0,%r9 /* flush data... */ 630 1.1 simonb sync 631 1.11.42.1 rmind icbi %r0,%r9 /* and instruction caches */ 632 1.11.42.1 rmind mr %r6,%r3 633 1.11.42.1 rmind xor %r3,%r3,%r3 634 1.11.42.1 rmind stb %r4,0(%r6) 635 1.11.42.1 rmind dcbst %r0,%r6 /* Now do appropriate flushes 636 1.1 simonb to data... */ 637 1.1 simonb sync 638 1.11.42.1 rmind icbi %r0,%r6 /* and instruction caches */ 639 1.11.42.1 rmind stw %r5,0(%r9) /* restore previous fault handler */ 640 1.11.42.1 rmind dcbst %r0,%r9 /* and flush data... */ 641 1.1 simonb sync 642 1.11.42.1 rmind icbi %r0,%r9 /* and instruction caches */ 643 1.1 simonb blr 644 1.1 simonb #endif /* IPKDB */ 645
Indexes created Tue Sep 30 20:09:53 GMT 2025