cpu.h revision 1.24
1 1.24 mycroft /* $NetBSD: cpu.h,v 1.24 2003/10/01 01:25:06 mycroft Exp $ */ 2 1.1 dbj 3 1.1 dbj /* 4 1.1 dbj * Copyright (c) 1982, 1990, 1993 5 1.1 dbj * The Regents of the University of California. All rights reserved. 6 1.23 agc * 7 1.23 agc * This code is derived from software contributed to Berkeley by 8 1.23 agc * the Systems Programming Group of the University of Utah Computer 9 1.23 agc * Science Department. 10 1.23 agc * 11 1.23 agc * Redistribution and use in source and binary forms, with or without 12 1.23 agc * modification, are permitted provided that the following conditions 13 1.23 agc * are met: 14 1.23 agc * 1. Redistributions of source code must retain the above copyright 15 1.23 agc * notice, this list of conditions and the following disclaimer. 16 1.23 agc * 2. Redistributions in binary form must reproduce the above copyright 17 1.23 agc * notice, this list of conditions and the following disclaimer in the 18 1.23 agc * documentation and/or other materials provided with the distribution. 19 1.23 agc * 3. Neither the name of the University nor the names of its contributors 20 1.23 agc * may be used to endorse or promote products derived from this software 21 1.23 agc * without specific prior written permission. 22 1.23 agc * 23 1.23 agc * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 24 1.23 agc * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 25 1.23 agc * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 26 1.23 agc * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 27 1.23 agc * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 28 1.23 agc * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 29 1.23 agc * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 30 1.23 agc * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 31 1.23 agc * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 32 1.23 agc * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 33 1.23 agc * SUCH DAMAGE. 34 1.23 agc * 35 1.23 agc * from: Utah $Hdr: cpu.h 1.16 91/03/25$ 36 1.23 agc * 37 1.23 agc * @(#)cpu.h 8.4 (Berkeley) 1/5/94 38 1.23 agc */ 39 1.23 agc /* 40 1.23 agc * Copyright (c) 1988 University of Utah. 41 1.1 dbj * 42 1.1 dbj * This code is derived from software contributed to Berkeley by 43 1.1 dbj * the Systems Programming Group of the University of Utah Computer 44 1.1 dbj * Science Department. 45 1.1 dbj * 46 1.1 dbj * Redistribution and use in source and binary forms, with or without 47 1.1 dbj * modification, are permitted provided that the following conditions 48 1.1 dbj * are met: 49 1.1 dbj * 1. Redistributions of source code must retain the above copyright 50 1.1 dbj * notice, this list of conditions and the following disclaimer. 51 1.1 dbj * 2. Redistributions in binary form must reproduce the above copyright 52 1.1 dbj * notice, this list of conditions and the following disclaimer in the 53 1.1 dbj * documentation and/or other materials provided with the distribution. 54 1.1 dbj * 3. All advertising materials mentioning features or use of this software 55 1.1 dbj * must display the following acknowledgement: 56 1.1 dbj * This product includes software developed by the University of 57 1.1 dbj * California, Berkeley and its contributors. 58 1.1 dbj * 4. Neither the name of the University nor the names of its contributors 59 1.1 dbj * may be used to endorse or promote products derived from this software 60 1.1 dbj * without specific prior written permission. 61 1.1 dbj * 62 1.1 dbj * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 63 1.1 dbj * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 64 1.1 dbj * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 65 1.1 dbj * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 66 1.1 dbj * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 67 1.1 dbj * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 68 1.1 dbj * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 69 1.1 dbj * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 70 1.1 dbj * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 71 1.1 dbj * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 72 1.1 dbj * SUCH DAMAGE. 73 1.1 dbj * 74 1.1 dbj * from: Utah $Hdr: cpu.h 1.16 91/03/25$ 75 1.1 dbj * 76 1.1 dbj * @(#)cpu.h 8.4 (Berkeley) 1/5/94 77 1.1 dbj */ 78 1.1 dbj 79 1.1 dbj 80 1.20 mycroft #ifndef _MACHINE_CPU_H_ 81 1.20 mycroft #define _MACHINE_CPU_H_ 82 1.1 dbj 83 1.18 mrg #if defined(_KERNEL_OPT) 84 1.12 thorpej #include "opt_lockdebug.h" 85 1.12 thorpej #endif 86 1.12 thorpej 87 1.1 dbj /* 88 1.1 dbj * Exported definitions unique to next68k/68k cpu support. 89 1.1 dbj */ 90 1.1 dbj 91 1.1 dbj /* 92 1.1 dbj * Get common m68k definitions. 93 1.1 dbj */ 94 1.1 dbj #include <m68k/cpu.h> 95 1.1 dbj 96 1.1 dbj #define M68K_MMU_MOTOROLA 97 1.1 dbj 98 1.1 dbj /* 99 1.1 dbj * Get interrupt glue. 100 1.1 dbj */ 101 1.1 dbj #include <machine/intr.h> 102 1.1 dbj 103 1.12 thorpej #include <sys/sched.h> 104 1.12 thorpej struct cpu_info { 105 1.12 thorpej struct schedstate_percpu ci_schedstate; /* scheduler state */ 106 1.12 thorpej #if defined(DIAGNOSTIC) || defined(LOCKDEBUG) 107 1.12 thorpej u_long ci_spin_locks; /* # of spin locks held */ 108 1.12 thorpej u_long ci_simple_locks; /* # of simple locks held */ 109 1.12 thorpej #endif 110 1.12 thorpej }; 111 1.12 thorpej 112 1.12 thorpej #ifdef _KERNEL 113 1.12 thorpej extern struct cpu_info cpu_info_store; 114 1.12 thorpej 115 1.12 thorpej #define curcpu() (&cpu_info_store) 116 1.12 thorpej 117 1.1 dbj /* 118 1.1 dbj * definitions of cpu-dependent requirements 119 1.1 dbj * referenced in generic code 120 1.1 dbj */ 121 1.1 dbj #define cpu_swapin(p) /* nothing */ 122 1.1 dbj #define cpu_wait(p) /* nothing */ 123 1.1 dbj #define cpu_swapout(p) /* nothing */ 124 1.11 thorpej #define cpu_number() 0 125 1.1 dbj 126 1.22 thorpej void cpu_proc_fork(struct proc *, struct proc *); 127 1.22 thorpej 128 1.22 thorpej 129 1.1 dbj /* 130 1.1 dbj * Arguments to hardclock and gatherstats encapsulate the previous 131 1.1 dbj * machine state in an opaque clockframe. One the hp300, we use 132 1.1 dbj * what the hardware pushes on an interrupt (frame format 0). 133 1.1 dbj */ 134 1.1 dbj struct clockframe { 135 1.1 dbj u_short sr; /* sr at time of interrupt */ 136 1.1 dbj u_long pc; /* pc at time of interrupt */ 137 1.20 mycroft u_short fmt:4, 138 1.20 mycroft vec:12; /* vector offset (4-word frame) */ 139 1.16 chs } __attribute__((packed)); 140 1.1 dbj 141 1.1 dbj #define CLKF_USERMODE(framep) (((framep)->sr & PSL_S) == 0) 142 1.1 dbj #define CLKF_BASEPRI(framep) (((framep)->sr & PSL_IPL) == 0) 143 1.1 dbj #define CLKF_PC(framep) ((framep)->pc) 144 1.20 mycroft 145 1.20 mycroft /* 146 1.20 mycroft * The clock interrupt handler can determine if it's a nested 147 1.20 mycroft * interrupt by checking for interrupt_depth > 1. 148 1.20 mycroft * (Remember, the clock interrupt handler itself will cause the 149 1.20 mycroft * depth counter to be incremented). 150 1.20 mycroft */ 151 1.20 mycroft extern volatile unsigned int interrupt_depth; 152 1.20 mycroft #define CLKF_INTR(framep) (interrupt_depth > 1) 153 1.1 dbj 154 1.1 dbj /* 155 1.1 dbj * Preempt the current process if in interrupt from user mode, 156 1.1 dbj * or after the current trap/syscall if in system mode. 157 1.1 dbj */ 158 1.13 thorpej extern int want_resched; /* resched() was called */ 159 1.13 thorpej #define need_resched(ci) { want_resched = 1; aston(); } 160 1.1 dbj 161 1.1 dbj /* 162 1.1 dbj * Give a profiling tick to the current process when the user profiling 163 1.1 dbj * buffer pages are invalid. On the sun3, request an ast to send us 164 1.1 dbj * through trap, marking the proc as needing a profiling tick. 165 1.1 dbj */ 166 1.1 dbj #define need_proftick(p) ((p)->p_flag |= P_OWEUPC, aston()) 167 1.1 dbj 168 1.1 dbj /* 169 1.1 dbj * Notify the current process (p) that it has a signal pending, 170 1.1 dbj * process as soon as possible. 171 1.1 dbj */ 172 1.1 dbj #define signotify(p) aston() 173 1.1 dbj 174 1.1 dbj #define aston() (astpending++) 175 1.1 dbj 176 1.19 matt extern int astpending; /* need to trap before returning to user mode */ 177 1.19 matt extern int want_resched; /* resched() was called */ 178 1.1 dbj 179 1.1 dbj extern void (*vectab[]) __P((void)); 180 1.1 dbj 181 1.1 dbj struct frame; 182 1.1 dbj struct fpframe; 183 1.1 dbj struct pcb; 184 1.1 dbj 185 1.1 dbj /* locore.s functions */ 186 1.1 dbj void m68881_save __P((struct fpframe *)); 187 1.1 dbj void m68881_restore __P((struct fpframe *)); 188 1.5 dbj 189 1.1 dbj int suline __P((caddr_t, caddr_t)); 190 1.1 dbj void savectx __P((struct pcb *)); 191 1.22 thorpej void switch_exit __P((struct lwp *)); 192 1.22 thorpej void switch_lwp_exit __P((struct lwp *)); 193 1.1 dbj void proc_trampoline __P((void)); 194 1.1 dbj void loadustp __P((int)); 195 1.1 dbj 196 1.1 dbj void doboot __P((void)) __attribute__((__noreturn__)); 197 1.20 mycroft int nmihand __P((void *)); 198 1.8 is 199 1.8 is /* sys_machdep.c functions */ 200 1.9 is int cachectl1 __P((unsigned long, vaddr_t, size_t, struct proc *)); 201 1.21 chs 202 1.21 chs /* vm_machdep.c functions */ 203 1.21 chs void physaccess __P((caddr_t, caddr_t, int, int)); 204 1.21 chs void physunaccess __P((caddr_t, int)); 205 1.21 chs int kvtop __P((caddr_t)); 206 1.1 dbj 207 1.1 dbj /* clock.c functions */ 208 1.1 dbj void next68k_calibrate_delay __P((void)); 209 1.1 dbj 210 1.1 dbj #endif /* _KERNEL */ 211 1.1 dbj 212 1.1 dbj #define NEXT_RAMBASE (0x4000000) /* really depends on slot, but... */ 213 1.1 dbj #define NEXT_BANKSIZE (0x1000000) /* Size of a memory bank in physical address */ 214 1.1 dbj 215 1.1 dbj #if 0 216 1.1 dbj /* @@@ this needs to be fixed to work on 030's */ 217 1.1 dbj #define NEXT_SLOT_ID 0x0 218 1.1 dbj #ifdef M68030 219 1.1 dbj #define NEXT_SLOT_ID_BMAP 0x0 220 1.17 chs #endif /* M68030 */ 221 1.1 dbj #endif 222 1.1 dbj #ifdef M68040 223 1.3 dbj #ifdef DISABLE_NEXT_BMAP_CHIP /* @@@ For turbo testing */ 224 1.3 dbj #define NEXT_SLOT_ID_BMAP 0x0 225 1.3 dbj #else 226 1.1 dbj #define NEXT_SLOT_ID_BMAP 0x00100000 227 1.3 dbj #endif 228 1.1 dbj #define NEXT_SLOT_ID 0x0 229 1.17 chs #endif /* M68040 */ 230 1.1 dbj 231 1.1 dbj /****************************************************************/ 232 1.1 dbj 233 1.1 dbj /* Eventually, I'd like to move these defines off into 234 1.1 dbj * configure somewhere 235 1.1 dbj * Darrin B Jewell <jewell (at) mit.edu> Thu Feb 5 03:50:58 1998 236 1.1 dbj */ 237 1.1 dbj /* ROM */ 238 1.1 dbj #define NEXT_P_EPROM (NEXT_SLOT_ID+0x00000000) 239 1.1 dbj #define NEXT_P_EPROM_BMAP (NEXT_SLOT_ID+0x01000000) 240 1.1 dbj #define NEXT_P_EPROM_SIZE (128 * 1024) 241 1.1 dbj 242 1.1 dbj /* device space */ 243 1.1 dbj #define NEXT_P_DEV_SPACE (NEXT_SLOT_ID+0x02000000) 244 1.1 dbj #define NEXT_P_DEV_BMAP (NEXT_SLOT_ID+0x02100000) 245 1.1 dbj #define NEXT_DEV_SPACE_SIZE 0x0001c000 246 1.1 dbj 247 1.1 dbj /* DMA control/status (writes MUST be 32-bit) */ 248 1.1 dbj #define NEXT_P_SCSI_CSR (NEXT_SLOT_ID+0x02000010) 249 1.1 dbj #define NEXT_P_SOUNDOUT_CSR (NEXT_SLOT_ID+0x02000040) 250 1.1 dbj #define NEXT_P_DISK_CSR (NEXT_SLOT_ID+0x02000050) 251 1.1 dbj #define NEXT_P_SOUNDIN_CSR (NEXT_SLOT_ID+0x02000080) 252 1.1 dbj #define NEXT_P_PRINTER_CSR (NEXT_SLOT_ID+0x02000090) 253 1.1 dbj #define NEXT_P_SCC_CSR (NEXT_SLOT_ID+0x020000c0) 254 1.1 dbj #define NEXT_P_DSP_CSR (NEXT_SLOT_ID+0x020000d0) 255 1.1 dbj #define NEXT_P_ENETX_CSR (NEXT_SLOT_ID+0x02000110) 256 1.1 dbj #define NEXT_P_ENETR_CSR (NEXT_SLOT_ID+0x02000150) 257 1.1 dbj #define NEXT_P_VIDEO_CSR (NEXT_SLOT_ID+0x02000180) 258 1.1 dbj #define NEXT_P_M2R_CSR (NEXT_SLOT_ID+0x020001d0) 259 1.1 dbj #define NEXT_P_R2M_CSR (NEXT_SLOT_ID+0x020001c0) 260 1.1 dbj 261 1.1 dbj /* DMA scratch pad (writes MUST be 32-bit) */ 262 1.1 dbj #define NEXT_P_VIDEO_SPAD (NEXT_SLOT_ID+0x02004180) 263 1.1 dbj #define NEXT_P_EVENT_SPAD (NEXT_SLOT_ID+0x0200418c) 264 1.1 dbj #define NEXT_P_M2M_SPAD (NEXT_SLOT_ID+0x020041e0) 265 1.1 dbj 266 1.1 dbj /* device registers */ 267 1.1 dbj #define NEXT_P_ENET (NEXT_SLOT_ID_BMAP+0x02006000) 268 1.1 dbj #define NEXT_P_DSP (NEXT_SLOT_ID_BMAP+0x02008000) 269 1.1 dbj #define NEXT_P_MON (NEXT_SLOT_ID+0x0200e000) 270 1.1 dbj #define NEXT_P_PRINTER (NEXT_SLOT_ID+0x0200f000) 271 1.1 dbj #define NEXT_P_DISK (NEXT_SLOT_ID_BMAP+0x02012000) 272 1.1 dbj #define NEXT_P_SCSI (NEXT_SLOT_ID_BMAP+0x02014000) 273 1.1 dbj #define NEXT_P_FLOPPY (NEXT_SLOT_ID_BMAP+0x02014100) 274 1.1 dbj #define NEXT_P_TIMER (NEXT_SLOT_ID_BMAP+0x02016000) 275 1.1 dbj #define NEXT_P_TIMER_CSR (NEXT_SLOT_ID_BMAP+0x02016004) 276 1.1 dbj #define NEXT_P_SCC (NEXT_SLOT_ID_BMAP+0x02018000) 277 1.1 dbj #define NEXT_P_SCC_CLK (NEXT_SLOT_ID_BMAP+0x02018004) 278 1.1 dbj #define NEXT_P_EVENTC (NEXT_SLOT_ID_BMAP+0x0201a000) 279 1.1 dbj #define NEXT_P_BMAP (NEXT_SLOT_ID+0x020c0000) 280 1.1 dbj /* All COLOR_FB registers are 1 byte wide */ 281 1.24 mycroft #define NEXT_P_C16_DAC_0 (NEXT_SLOT_ID+0x02018100) /* COLOR_FB - RAMDAC */ 282 1.24 mycroft #define NEXT_P_C16_DAC_1 (NEXT_SLOT_ID+0x02018101) 283 1.24 mycroft #define NEXT_P_C16_DAC_2 (NEXT_SLOT_ID+0x02018102) 284 1.24 mycroft #define NEXT_P_C16_DAC_3 (NEXT_SLOT_ID+0x02018103) 285 1.24 mycroft #define NEXT_P_C16_CMD_REG (NEXT_SLOT_ID+0x02018180) /* COLOR_FB - CSR */ 286 1.1 dbj 287 1.1 dbj /* system control registers */ 288 1.1 dbj #define NEXT_P_MEMTIMING (NEXT_SLOT_ID_BMAP+0x02006010) 289 1.1 dbj #define NEXT_P_INTRSTAT (NEXT_SLOT_ID+0x02007000) 290 1.1 dbj #define NEXT_P_INTRSTAT_CON 0x02007000 291 1.20 mycroft /* #define NEXT_P_INTRSTAT_0 (NEXT_SLOT_ID+0x02008000) */ 292 1.1 dbj #define NEXT_P_INTRMASK (NEXT_SLOT_ID+0x02007800) 293 1.1 dbj #define NEXT_P_INTRMASK_CON 0x02007800 294 1.20 mycroft /* #define NEXT_P_INTRMASK_0 (NEXT_SLOT_ID+0x0200a000) */ 295 1.1 dbj #define NEXT_P_SCR1 (NEXT_SLOT_ID+0x0200c000) 296 1.1 dbj #define NEXT_P_SCR1_CON 0x0200c000 297 1.1 dbj #define NEXT_P_SID 0x0200c800 /* NOT slot-relative */ 298 1.1 dbj #define NEXT_P_SCR2 (NEXT_SLOT_ID+0x0200d000) 299 1.1 dbj #define NEXT_P_SCR2_CON 0x0200d000 300 1.1 dbj #define NEXT_P_RMTINT (NEXT_SLOT_ID+0x0200d800) 301 1.1 dbj #define NEXT_P_BRIGHTNESS (NEXT_SLOT_ID_BMAP+0x02010000) 302 1.1 dbj #define NEXT_P_DRAM_TIMING (NEXT_SLOT_ID_BMAP+0x02018190) /* Warp 9C memory ctlr */ 303 1.1 dbj #define NEXT_P_VRAM_TIMING (NEXT_SLOT_ID_BMAP+0x02018198) /* Warp 9C memory ctlr */ 304 1.1 dbj 305 1.1 dbj /* memory */ 306 1.1 dbj #define NEXT_P_MAINMEM (NEXT_SLOT_ID+0x04000000) 307 1.1 dbj #define NEXT_P_MEMSIZE 0x04000000 308 1.1 dbj #define NEXT_P_VIDEOMEM (NEXT_SLOT_ID+0x0b000000) 309 1.1 dbj #define NEXT_P_VIDEOSIZE 0x0003a800 310 1.14 deberg #if 0 311 1.1 dbj #define NEXT_P_C16_VIDEOMEM (NEXT_SLOT_ID+0x06000000) /* COLOR_FB */ 312 1.14 deberg #endif 313 1.14 deberg #define NEXT_P_C16_VIDEOMEM (0x2c000000) 314 1.1 dbj #define NEXT_P_C16_VIDEOSIZE 0x001D4000 /* COLOR_FB */ 315 1.1 dbj #define NEXT_P_WF4VIDEO (NEXT_SLOT_ID+0x0c000000) /* w A+B-AB function */ 316 1.1 dbj #define NEXT_P_WF3VIDEO (NEXT_SLOT_ID+0x0d000000) /* w (1-A)B function */ 317 1.1 dbj #define NEXT_P_WF2VIDEO (NEXT_SLOT_ID+0x0e000000) /* w ceil(A+B) function */ 318 1.1 dbj #define NEXT_P_WF1VIDEO (NEXT_SLOT_ID+0x0f000000) /* w AB function */ 319 1.1 dbj #define NEXT_P_WF4MEM (NEXT_SLOT_ID+0x10000000) /* w A+B-AB function */ 320 1.1 dbj #define NEXT_P_WF3MEM (NEXT_SLOT_ID+0x14000000) /* w (1-A)B function */ 321 1.1 dbj #define NEXT_P_WF2MEM (NEXT_SLOT_ID+0x18000000) /* w ceil(A+B) function */ 322 1.1 dbj #define NEXT_P_WF1MEM (NEXT_SLOT_ID+0x1c000000) /* w AB function */ 323 1.1 dbj #define NEXT_NMWF 4 /* # of memory write funcs */ 324 1.1 dbj 325 1.1 dbj /* 326 1.1 dbj * Interrupt structure. 327 1.1 dbj * BASE and BITS define the origin and length of the bit field in the 328 1.1 dbj * interrupt status/mask register for the particular interrupt level. 329 1.1 dbj * The first component of the interrupt device name indicates the bit 330 1.1 dbj * position in the interrupt status and mask registers; the second is the 331 1.1 dbj * interrupt level; the third is the bit index relative to the start of the 332 1.1 dbj * bit field. 333 1.1 dbj */ 334 1.1 dbj #define NEXT_I(l,i,b) (((b) << 8) | ((l) << 4) | (i)) 335 1.1 dbj #define NEXT_I_INDEX(i) ((i) & 0xf) 336 1.1 dbj #define NEXT_I_IPL(i) (((i) >> 4) & 7) 337 1.1 dbj #define NEXT_I_BIT(i) ( 1 << (((i) >> 8) & 0x1f)) 338 1.1 dbj 339 1.1 dbj #define NEXT_I_IPL7_BASE 0 340 1.1 dbj #define NEXT_I_IPL7_BITS 2 341 1.1 dbj #define NEXT_I_NMI NEXT_I(7,0,31) 342 1.1 dbj #define NEXT_I_PFAIL NEXT_I(7,1,30) 343 1.1 dbj 344 1.1 dbj #define NEXT_I_IPL6_BASE 2 345 1.1 dbj #define NEXT_I_IPL6_BITS 12 346 1.1 dbj #define NEXT_I_TIMER NEXT_I(6,0,29) 347 1.1 dbj #define NEXT_I_ENETX_DMA NEXT_I(6,1,28) 348 1.1 dbj #define NEXT_I_ENETR_DMA NEXT_I(6,2,27) 349 1.2 dbj #define NEXT_I_SCSI_DMA NEXT_I(6,3,26) 350 1.1 dbj #define NEXT_I_DISK_DMA NEXT_I(6,4,25) 351 1.1 dbj #define NEXT_I_PRINTER_DMA NEXT_I(6,5,24) 352 1.1 dbj #define NEXT_I_SOUND_OUT_DMA NEXT_I(6,6,23) 353 1.1 dbj #define NEXT_I_SOUND_IN_DMA NEXT_I(6,7,22) 354 1.1 dbj #define NEXT_I_SCC_DMA NEXT_I(6,8,21) 355 1.1 dbj #define NEXT_I_DSP_DMA NEXT_I(6,9,20) 356 1.1 dbj #define NEXT_I_M2R_DMA NEXT_I(6,10,19) 357 1.1 dbj #define NEXT_I_R2M_DMA NEXT_I(6,11,18) 358 1.1 dbj 359 1.1 dbj #define NEXT_I_IPL5_BASE 14 360 1.1 dbj #define NEXT_I_IPL5_BITS 3 361 1.1 dbj #define NEXT_I_SCC NEXT_I(5,0,17) 362 1.1 dbj #define NEXT_I_REMOTE NEXT_I(5,1,16) 363 1.1 dbj #define NEXT_I_BUS NEXT_I(5,2,15) 364 1.1 dbj 365 1.1 dbj #define NEXT_I_IPL4_BASE 17 366 1.1 dbj #define NEXT_I_IPL4_BITS 1 367 1.1 dbj #define NEXT_I_DSP_4 NEXT_I(4,0,14) 368 1.1 dbj 369 1.1 dbj #define NEXT_I_IPL3_BASE 18 370 1.1 dbj #define NEXT_I_IPL3_BITS 12 371 1.1 dbj #define NEXT_I_DISK NEXT_I(3,0,13) 372 1.1 dbj #define NEXT_I_C16_VIDEO NEXT_I(3,0,13) /* COLOR_FB - Steals old ESDI interrupt */ 373 1.1 dbj #define NEXT_I_SCSI NEXT_I(3,1,12) 374 1.1 dbj #define NEXT_I_PRINTER NEXT_I(3,2,11) 375 1.1 dbj #define NEXT_I_ENETX NEXT_I(3,3,10) 376 1.1 dbj #define NEXT_I_ENETR NEXT_I(3,4,9) 377 1.1 dbj #define NEXT_I_SOUND_OVRUN NEXT_I(3,5,8) 378 1.1 dbj #define NEXT_I_PHONE NEXT_I(3,6,7) 379 1.1 dbj #define NEXT_I_DSP_3 NEXT_I(3,7,6) 380 1.1 dbj #define NEXT_I_VIDEO NEXT_I(3,8,5) 381 1.1 dbj #define NEXT_I_MONITOR NEXT_I(3,9,4) 382 1.1 dbj #define NEXT_I_KYBD_MOUSE NEXT_I(3,10,3) 383 1.1 dbj #define NEXT_I_POWER NEXT_I(3,11,2) 384 1.1 dbj 385 1.1 dbj #define NEXT_I_IPL2_BASE 30 386 1.1 dbj #define NEXT_I_IPL2_BITS 1 387 1.1 dbj #define NEXT_I_SOFTINT1 NEXT_I(2,0,1) 388 1.1 dbj 389 1.1 dbj #define NEXT_I_IPL1_BASE 31 390 1.1 dbj #define NEXT_I_IPL1_BITS 1 391 1.1 dbj #define NEXT_I_SOFTINT0 NEXT_I(1,0,0) 392 1.1 dbj 393 1.1 dbj /****************************************************************/ 394 1.1 dbj 395 1.1 dbj /* physical memory sections */ 396 1.1 dbj #if 0 397 1.1 dbj #define ROMBASE (0x00000000) 398 1.1 dbj #endif 399 1.1 dbj 400 1.1 dbj #define INTIOBASE (0x02000000) 401 1.1 dbj #define INTIOTOP (0x02120000) 402 1.10 dbj #define MONOBASE (0x0b000000) 403 1.10 dbj #define MONOTOP (0x0b03a800) 404 1.14 deberg #define COLORBASE (0x2c000000) 405 1.14 deberg #define COLORTOP (0x2c1D4000) 406 1.7 dbj 407 1.1 dbj #define NEXT_INTR_BITS \ 408 1.4 dbj "\20\40NMI\37PFAIL\36TIMER\35ENETX_DMA\34ENETR_DMA\33SCSI_DMA\32DISK_DMA\31PRINTER_DMA\30SOUND_OUT_DMA\27SOUND_IN_DMA\26SCC_DMA\25DSP_DMA\24M2R_DMA\23R2M_DMA\22SCC\21REMOTE\20BUS\17DSP_4\16DISK|C16_VIDEO\15SCSI\14PRINTER\13ENETX\12ENETR\11SOUND_OVRUN\10PHONE\07DSP_3\06VIDEO\05MONITOR\04KYBD_MOUSE\03POWER\02SOFTINT1\01SOFTINT0" 409 1.1 dbj 410 1.1 dbj /* 411 1.1 dbj * Internal IO space: 412 1.1 dbj * 413 1.1 dbj * Ranges from 0x400000 to 0x600000 (IIOMAPSIZE). 414 1.1 dbj * 415 1.1 dbj * Internal IO space is mapped in the kernel from ``intiobase'' to 416 1.1 dbj * ``intiolimit'' (defined in locore.s). Since it is always mapped, 417 1.1 dbj * conversion between physical and kernel virtual addresses is easy. 418 1.1 dbj */ 419 1.24 mycroft #define IIOV(pa) ((int)(pa)-INTIOBASE+intiobase) 420 1.24 mycroft #define IIOP(va) ((int)(va)-intiobase+INTIOBASE) 421 1.1 dbj #define IIOMAPSIZE btoc(INTIOTOP-INTIOBASE) /* 2mb */ 422 1.7 dbj 423 1.10 dbj /* mono fb space */ 424 1.10 dbj #define MONOMAPSIZE btoc(MONOTOP-MONOBASE) /* who cares */ 425 1.10 dbj 426 1.10 dbj /* color fb space */ 427 1.10 dbj #define COLORMAPSIZE btoc(COLORTOP-COLORBASE) /* who cares */ 428 1.1 dbj 429 1.20 mycroft #endif /* _MACHINE_CPU_H_ */ 430
Indexes created Mon Sep 22 13:09:51 GMT 2025