rmixl_intr.c revision 1.1.2.21
1 1.1.2.21 cliff /* $NetBSD: rmixl_intr.c,v 1.1.2.21 2010/05/28 22:14:53 cliff Exp $ */ 2 1.1.2.1 cliff 3 1.1.2.1 cliff /*- 4 1.1.2.1 cliff * Copyright (c) 2007 Ruslan Ermilov and Vsevolod Lobko. 5 1.1.2.1 cliff * All rights reserved. 6 1.1.2.1 cliff * 7 1.1.2.1 cliff * Redistribution and use in source and binary forms, with or 8 1.1.2.1 cliff * without modification, are permitted provided that the following 9 1.1.2.1 cliff * conditions are met: 10 1.1.2.1 cliff * 1. Redistributions of source code must retain the above copyright 11 1.1.2.1 cliff * notice, this list of conditions and the following disclaimer. 12 1.1.2.1 cliff * 2. Redistributions in binary form must reproduce the above 13 1.1.2.1 cliff * copyright notice, this list of conditions and the following 14 1.1.2.1 cliff * disclaimer in the documentation and/or other materials provided 15 1.1.2.1 cliff * with the distribution. 16 1.1.2.1 cliff * 3. The names of the authors may not be used to endorse or promote 17 1.1.2.1 cliff * products derived from this software without specific prior 18 1.1.2.1 cliff * written permission. 19 1.1.2.1 cliff * 20 1.1.2.1 cliff * THIS SOFTWARE IS PROVIDED BY THE AUTHORS ``AS IS'' AND ANY 21 1.1.2.1 cliff * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, 22 1.1.2.1 cliff * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A 23 1.1.2.1 cliff * PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS 24 1.1.2.1 cliff * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, 25 1.1.2.1 cliff * OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 26 1.1.2.1 cliff * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, 27 1.1.2.1 cliff * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 28 1.1.2.1 cliff * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR 29 1.1.2.1 cliff * TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT 30 1.1.2.1 cliff * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY 31 1.1.2.1 cliff * OF SUCH DAMAGE. 32 1.1.2.1 cliff */ 33 1.1.2.1 cliff /*- 34 1.1.2.1 cliff * Copyright (c) 2001 The NetBSD Foundation, Inc. 35 1.1.2.1 cliff * All rights reserved. 36 1.1.2.1 cliff * 37 1.1.2.1 cliff * This code is derived from software contributed to The NetBSD Foundation 38 1.1.2.1 cliff * by Jason R. Thorpe. 39 1.1.2.1 cliff * 40 1.1.2.1 cliff * Redistribution and use in source and binary forms, with or without 41 1.1.2.1 cliff * modification, are permitted provided that the following conditions 42 1.1.2.1 cliff * are met: 43 1.1.2.1 cliff * 1. Redistributions of source code must retain the above copyright 44 1.1.2.1 cliff * notice, this list of conditions and the following disclaimer. 45 1.1.2.1 cliff * 2. Redistributions in binary form must reproduce the above copyright 46 1.1.2.1 cliff * notice, this list of conditions and the following disclaimer in the 47 1.1.2.1 cliff * documentation and/or other materials provided with the distribution. 48 1.1.2.1 cliff * 49 1.1.2.1 cliff * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 50 1.1.2.1 cliff * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 51 1.1.2.1 cliff * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 52 1.1.2.1 cliff * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 53 1.1.2.1 cliff * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 54 1.1.2.1 cliff * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 55 1.1.2.1 cliff * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 56 1.1.2.1 cliff * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 57 1.1.2.1 cliff * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 58 1.1.2.1 cliff * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 59 1.1.2.1 cliff * POSSIBILITY OF SUCH DAMAGE. 60 1.1.2.1 cliff */ 61 1.1.2.1 cliff 62 1.1.2.1 cliff /* 63 1.1.2.1 cliff * Platform-specific interrupt support for the RMI XLP, XLR, XLS 64 1.1.2.1 cliff */ 65 1.1.2.1 cliff 66 1.1.2.1 cliff #include <sys/cdefs.h> 67 1.1.2.21 cliff __KERNEL_RCSID(0, "$NetBSD: rmixl_intr.c,v 1.1.2.21 2010/05/28 22:14:53 cliff Exp $"); 68 1.1.2.1 cliff 69 1.1.2.1 cliff #include "opt_ddb.h" 70 1.1.2.14 matt #define __INTR_PRIVATE 71 1.1.2.1 cliff 72 1.1.2.1 cliff #include <sys/param.h> 73 1.1.2.1 cliff #include <sys/queue.h> 74 1.1.2.1 cliff #include <sys/malloc.h> 75 1.1.2.1 cliff #include <sys/systm.h> 76 1.1.2.1 cliff #include <sys/device.h> 77 1.1.2.1 cliff #include <sys/kernel.h> 78 1.1.2.15 cliff #include <sys/atomic.h> 79 1.1.2.15 cliff #include <sys/cpu.h> 80 1.1.2.1 cliff 81 1.1.2.1 cliff #include <machine/bus.h> 82 1.1.2.1 cliff #include <machine/intr.h> 83 1.1.2.1 cliff 84 1.1.2.5 cliff #include <mips/cpu.h> 85 1.1.2.1 cliff #include <mips/locore.h> 86 1.1.2.5 cliff 87 1.1.2.1 cliff #include <mips/rmi/rmixlreg.h> 88 1.1.2.1 cliff #include <mips/rmi/rmixlvar.h> 89 1.1.2.1 cliff 90 1.1.2.15 cliff #include <mips/rmi/rmixl_cpuvar.h> 91 1.1.2.15 cliff #include <mips/rmi/rmixl_intr.h> 92 1.1.2.15 cliff 93 1.1.2.1 cliff #include <dev/pci/pcireg.h> 94 1.1.2.1 cliff #include <dev/pci/pcivar.h> 95 1.1.2.1 cliff 96 1.1.2.15 cliff // #define IOINTR_DEBUG 1 97 1.1.2.4 cliff #ifdef IOINTR_DEBUG 98 1.1.2.4 cliff int iointr_debug = IOINTR_DEBUG; 99 1.1.2.4 cliff # define DPRINTF(x) do { if (iointr_debug) printf x ; } while(0) 100 1.1.2.4 cliff #else 101 1.1.2.4 cliff # define DPRINTF(x) 102 1.1.2.4 cliff #endif 103 1.1.2.4 cliff 104 1.1.2.4 cliff #define RMIXL_PICREG_READ(off) \ 105 1.1.2.4 cliff RMIXL_IOREG_READ(RMIXL_IO_DEV_PIC + (off)) 106 1.1.2.4 cliff #define RMIXL_PICREG_WRITE(off, val) \ 107 1.1.2.4 cliff RMIXL_IOREG_WRITE(RMIXL_IO_DEV_PIC + (off), (val)) 108 1.1.2.15 cliff 109 1.1.2.1 cliff /* 110 1.1.2.15 cliff * do not clear these when acking EIRR 111 1.1.2.15 cliff * (otherwise they get lost) 112 1.1.2.15 cliff */ 113 1.1.2.15 cliff #define RMIXL_EIRR_PRESERVE_MASK \ 114 1.1.2.15 cliff ((MIPS_INT_MASK_5|MIPS_SOFT_INT_MASK) >> 8) 115 1.1.2.1 cliff 116 1.1.2.2 cliff /* 117 1.1.2.15 cliff * IRT assignments depends on the RMI chip family 118 1.1.2.15 cliff * (XLS1xx vs. XLS2xx vs. XLS3xx vs. XLS6xx) 119 1.1.2.20 cliff * use the right display string table for the CPU that's running. 120 1.1.2.4 cliff */ 121 1.1.2.4 cliff 122 1.1.2.4 cliff /* 123 1.1.2.16 cliff * rmixl_irtnames_xlrxxx 124 1.1.2.16 cliff * - use for XLRxxx 125 1.1.2.16 cliff */ 126 1.1.2.16 cliff static const char * const rmixl_irtnames_xlrxxx[NIRTS] = { 127 1.1.2.20 cliff "pic int 0 (watchdog)", /* 0 */ 128 1.1.2.20 cliff "pic int 1 (timer0)", /* 1 */ 129 1.1.2.20 cliff "pic int 2 (timer1)", /* 2 */ 130 1.1.2.20 cliff "pic int 3 (timer2)", /* 3 */ 131 1.1.2.20 cliff "pic int 4 (timer3)", /* 4 */ 132 1.1.2.20 cliff "pic int 5 (timer4)", /* 5 */ 133 1.1.2.20 cliff "pic int 6 (timer5)", /* 6 */ 134 1.1.2.20 cliff "pic int 7 (timer6)", /* 7 */ 135 1.1.2.20 cliff "pic int 8 (timer7)", /* 8 */ 136 1.1.2.20 cliff "pic int 9 (uart0)", /* 9 */ 137 1.1.2.20 cliff "pic int 10 (uart1)", /* 10 */ 138 1.1.2.20 cliff "pic int 11 (i2c0)", /* 11 */ 139 1.1.2.20 cliff "pic int 12 (i2c1)", /* 12 */ 140 1.1.2.20 cliff "pic int 13 (pcmcia)", /* 13 */ 141 1.1.2.20 cliff "pic int 14 (gpio)", /* 14 */ 142 1.1.2.20 cliff "pic int 15 (hyper)", /* 15 */ 143 1.1.2.20 cliff "pic int 16 (pcix)", /* 16 */ 144 1.1.2.20 cliff "pic int 17 (gmac0)", /* 17 */ 145 1.1.2.20 cliff "pic int 18 (gmac1)", /* 18 */ 146 1.1.2.20 cliff "pic int 19 (gmac2)", /* 19 */ 147 1.1.2.20 cliff "pic int 20 (gmac3)", /* 20 */ 148 1.1.2.20 cliff "pic int 21 (xgs0)", /* 21 */ 149 1.1.2.20 cliff "pic int 22 (xgs1)", /* 22 */ 150 1.1.2.20 cliff "pic int 23 (irq23)", /* 23 */ 151 1.1.2.20 cliff "pic int 24 (hyper_fatal)", /* 24 */ 152 1.1.2.20 cliff "pic int 25 (bridge_aerr)", /* 25 */ 153 1.1.2.20 cliff "pic int 26 (bridge_berr)", /* 26 */ 154 1.1.2.20 cliff "pic int 27 (bridge_tb)", /* 27 */ 155 1.1.2.20 cliff "pic int 28 (bridge_nmi)", /* 28 */ 156 1.1.2.20 cliff "pic int 29 (bridge_sram_derr)",/* 29 */ 157 1.1.2.20 cliff "pic int 30 (gpio_fatal)", /* 30 */ 158 1.1.2.20 cliff "pic int 31 (reserved)", /* 31 */ 159 1.1.2.16 cliff }; 160 1.1.2.16 cliff 161 1.1.2.16 cliff /* 162 1.1.2.19 cliff * rmixl_irtnames_xls2xx 163 1.1.2.19 cliff * - use for XLS2xx 164 1.1.2.19 cliff */ 165 1.1.2.19 cliff static const char * const rmixl_irtnames_xls2xx[NIRTS] = { 166 1.1.2.20 cliff "pic int 0 (watchdog)", /* 0 */ 167 1.1.2.20 cliff "pic int 1 (timer0)", /* 1 */ 168 1.1.2.20 cliff "pic int 2 (timer1)", /* 2 */ 169 1.1.2.20 cliff "pic int 3 (timer2)", /* 3 */ 170 1.1.2.20 cliff "pic int 4 (timer3)", /* 4 */ 171 1.1.2.20 cliff "pic int 5 (timer4)", /* 5 */ 172 1.1.2.20 cliff "pic int 6 (timer5)", /* 6 */ 173 1.1.2.20 cliff "pic int 7 (timer6)", /* 7 */ 174 1.1.2.20 cliff "pic int 8 (timer7)", /* 8 */ 175 1.1.2.20 cliff "pic int 9 (uart0)", /* 9 */ 176 1.1.2.20 cliff "pic int 10 (uart1)", /* 10 */ 177 1.1.2.20 cliff "pic int 11 (i2c0)", /* 11 */ 178 1.1.2.20 cliff "pic int 12 (i2c1)", /* 12 */ 179 1.1.2.20 cliff "pic int 13 (pcmcia)", /* 13 */ 180 1.1.2.20 cliff "pic int 14 (gpio_a)", /* 14 */ 181 1.1.2.20 cliff "pic int 15 (irq15)", /* 15 */ 182 1.1.2.20 cliff "pic int 16 (bridge_tb)", /* 16 */ 183 1.1.2.20 cliff "pic int 17 (gmac0)", /* 17 */ 184 1.1.2.20 cliff "pic int 18 (gmac1)", /* 18 */ 185 1.1.2.20 cliff "pic int 19 (gmac2)", /* 19 */ 186 1.1.2.20 cliff "pic int 20 (gmac3)", /* 20 */ 187 1.1.2.20 cliff "pic int 21 (irq21)", /* 21 */ 188 1.1.2.20 cliff "pic int 22 (irq22)", /* 22 */ 189 1.1.2.20 cliff "pic int 23 (pcie_link2)", /* 23 */ 190 1.1.2.20 cliff "pic int 24 (pcie_link3)", /* 24 */ 191 1.1.2.20 cliff "pic int 25 (bridge_err)", /* 25 */ 192 1.1.2.20 cliff "pic int 26 (pcie_link0)", /* 26 */ 193 1.1.2.20 cliff "pic int 27 (pcie_link1)", /* 27 */ 194 1.1.2.20 cliff "pic int 28 (irq28)", /* 28 */ 195 1.1.2.20 cliff "pic int 29 (pcie_err)", /* 29 */ 196 1.1.2.20 cliff "pic int 30 (gpio_b)", /* 30 */ 197 1.1.2.20 cliff "pic int 31 (usb)", /* 31 */ 198 1.1.2.19 cliff }; 199 1.1.2.19 cliff 200 1.1.2.19 cliff /* 201 1.1.2.15 cliff * rmixl_irtnames_xls1xx 202 1.1.2.19 cliff * - use for XLS1xx, XLS4xx-Lite 203 1.1.2.2 cliff */ 204 1.1.2.15 cliff static const char * const rmixl_irtnames_xls1xx[NIRTS] = { 205 1.1.2.20 cliff "pic int 0 (watchdog)", /* 0 */ 206 1.1.2.20 cliff "pic int 1 (timer0)", /* 1 */ 207 1.1.2.20 cliff "pic int 2 (timer1)", /* 2 */ 208 1.1.2.20 cliff "pic int 3 (timer2)", /* 3 */ 209 1.1.2.20 cliff "pic int 4 (timer3)", /* 4 */ 210 1.1.2.20 cliff "pic int 5 (timer4)", /* 5 */ 211 1.1.2.20 cliff "pic int 6 (timer5)", /* 6 */ 212 1.1.2.20 cliff "pic int 7 (timer6)", /* 7 */ 213 1.1.2.20 cliff "pic int 8 (timer7)", /* 8 */ 214 1.1.2.20 cliff "pic int 9 (uart0)", /* 9 */ 215 1.1.2.20 cliff "pic int 10 (uart1)", /* 10 */ 216 1.1.2.20 cliff "pic int 11 (i2c0)", /* 11 */ 217 1.1.2.20 cliff "pic int 12 (i2c1)", /* 12 */ 218 1.1.2.20 cliff "pic int 13 (pcmcia)", /* 13 */ 219 1.1.2.20 cliff "pic int 14 (gpio_a)", /* 14 */ 220 1.1.2.20 cliff "pic int 15 (irq15)", /* 15 */ 221 1.1.2.20 cliff "pic int 16 (bridge_tb)", /* 16 */ 222 1.1.2.20 cliff "pic int 17 (gmac0)", /* 17 */ 223 1.1.2.20 cliff "pic int 18 (gmac1)", /* 18 */ 224 1.1.2.20 cliff "pic int 19 (gmac2)", /* 19 */ 225 1.1.2.20 cliff "pic int 20 (gmac3)", /* 20 */ 226 1.1.2.20 cliff "pic int 21 (irq21)", /* 21 */ 227 1.1.2.20 cliff "pic int 22 (irq22)", /* 22 */ 228 1.1.2.20 cliff "pic int 23 (irq23)", /* 23 */ 229 1.1.2.20 cliff "pic int 24 (irq24)", /* 24 */ 230 1.1.2.20 cliff "pic int 25 (bridge_err)", /* 25 */ 231 1.1.2.20 cliff "pic int 26 (pcie_link0)", /* 26 */ 232 1.1.2.20 cliff "pic int 27 (pcie_link1)", /* 27 */ 233 1.1.2.20 cliff "pic int 28 (irq28)", /* 28 */ 234 1.1.2.20 cliff "pic int 29 (pcie_err)", /* 29 */ 235 1.1.2.20 cliff "pic int 30 (gpio_b)", /* 30 */ 236 1.1.2.20 cliff "pic int 31 (usb)", /* 31 */ 237 1.1.2.1 cliff }; 238 1.1.2.1 cliff 239 1.1.2.2 cliff /* 240 1.1.2.15 cliff * rmixl_irtnames_xls4xx: 241 1.1.2.4 cliff * - use for XLS4xx, XLS6xx 242 1.1.2.4 cliff */ 243 1.1.2.15 cliff static const char * const rmixl_irtnames_xls4xx[NIRTS] = { 244 1.1.2.20 cliff "pic int 0 (watchdog)", /* 0 */ 245 1.1.2.20 cliff "pic int 1 (timer0)", /* 1 */ 246 1.1.2.20 cliff "pic int 2 (timer1)", /* 2 */ 247 1.1.2.20 cliff "pic int 3 (timer2)", /* 3 */ 248 1.1.2.20 cliff "pic int 4 (timer3)", /* 4 */ 249 1.1.2.20 cliff "pic int 5 (timer4)", /* 5 */ 250 1.1.2.20 cliff "pic int 6 (timer5)", /* 6 */ 251 1.1.2.20 cliff "pic int 7 (timer6)", /* 7 */ 252 1.1.2.20 cliff "pic int 8 (timer7)", /* 8 */ 253 1.1.2.20 cliff "pic int 9 (uart0)", /* 9 */ 254 1.1.2.20 cliff "pic int 10 (uart1)", /* 10 */ 255 1.1.2.20 cliff "pic int 11 (i2c0)", /* 11 */ 256 1.1.2.20 cliff "pic int 12 (i2c1)", /* 12 */ 257 1.1.2.20 cliff "pic int 13 (pcmcia)", /* 13 */ 258 1.1.2.20 cliff "pic int 14 (gpio_a)", /* 14 */ 259 1.1.2.20 cliff "pic int 15 (irq15)", /* 15 */ 260 1.1.2.20 cliff "pic int 16 (bridge_tb)", /* 16 */ 261 1.1.2.20 cliff "pic int 17 (gmac0)", /* 17 */ 262 1.1.2.20 cliff "pic int 18 (gmac1)", /* 18 */ 263 1.1.2.20 cliff "pic int 19 (gmac2)", /* 19 */ 264 1.1.2.20 cliff "pic int 20 (gmac3)", /* 20 */ 265 1.1.2.20 cliff "pic int 21 (irq21)", /* 21 */ 266 1.1.2.20 cliff "pic int 22 (irq22)", /* 22 */ 267 1.1.2.20 cliff "pic int 23 (irq23)", /* 23 */ 268 1.1.2.20 cliff "pic int 24 (irq24)", /* 24 */ 269 1.1.2.20 cliff "pic int 25 (bridge_err)", /* 25 */ 270 1.1.2.20 cliff "pic int 26 (pcie_link0)", /* 26 */ 271 1.1.2.20 cliff "pic int 27 (pcie_link1)", /* 27 */ 272 1.1.2.20 cliff "pic int 28 (pcie_link2)", /* 28 */ 273 1.1.2.20 cliff "pic int 29 (pcie_link3)", /* 29 */ 274 1.1.2.20 cliff "pic int 30 (gpio_b)", /* 30 */ 275 1.1.2.20 cliff "pic int 31 (usb)", /* 31 */ 276 1.1.2.4 cliff }; 277 1.1.2.4 cliff 278 1.1.2.4 cliff /* 279 1.1.2.15 cliff * rmixl_vecnames_common: 280 1.1.2.4 cliff * - use for unknown cpu implementation 281 1.1.2.15 cliff * - covers all vectors, not just IRT intrs 282 1.1.2.4 cliff */ 283 1.1.2.15 cliff static const char * const rmixl_vecnames_common[NINTRVECS] = { 284 1.1.2.20 cliff "vec 0", /* 0 */ 285 1.1.2.20 cliff "vec 1", /* 1 */ 286 1.1.2.20 cliff "vec 2", /* 2 */ 287 1.1.2.20 cliff "vec 3", /* 3 */ 288 1.1.2.20 cliff "vec 4", /* 4 */ 289 1.1.2.20 cliff "vec 5", /* 5 */ 290 1.1.2.20 cliff "vec 6", /* 6 */ 291 1.1.2.20 cliff "vec 7", /* 7 */ 292 1.1.2.20 cliff "vec 8 (ipi)", /* 8 */ 293 1.1.2.20 cliff "vec 9 (fmn)", /* 9 */ 294 1.1.2.20 cliff "vec 10", /* 10 */ 295 1.1.2.20 cliff "vec 11", /* 11 */ 296 1.1.2.20 cliff "vec 12", /* 12 */ 297 1.1.2.20 cliff "vec 13", /* 13 */ 298 1.1.2.20 cliff "vec 14", /* 14 */ 299 1.1.2.20 cliff "vec 15", /* 15 */ 300 1.1.2.20 cliff "vec 16", /* 16 */ 301 1.1.2.20 cliff "vec 17", /* 17 */ 302 1.1.2.20 cliff "vec 18", /* 18 */ 303 1.1.2.20 cliff "vec 19", /* 19 */ 304 1.1.2.20 cliff "vec 20", /* 20 */ 305 1.1.2.20 cliff "vec 21", /* 21 */ 306 1.1.2.20 cliff "vec 22", /* 22 */ 307 1.1.2.20 cliff "vec 23", /* 23 */ 308 1.1.2.20 cliff "vec 24", /* 24 */ 309 1.1.2.20 cliff "vec 25", /* 25 */ 310 1.1.2.20 cliff "vec 26", /* 26 */ 311 1.1.2.20 cliff "vec 27", /* 27 */ 312 1.1.2.20 cliff "vec 28", /* 28 */ 313 1.1.2.20 cliff "vec 29", /* 29 */ 314 1.1.2.20 cliff "vec 30", /* 30 */ 315 1.1.2.20 cliff "vec 31", /* 31 */ 316 1.1.2.20 cliff "vec 32", /* 32 */ 317 1.1.2.20 cliff "vec 33", /* 33 */ 318 1.1.2.20 cliff "vec 34", /* 34 */ 319 1.1.2.20 cliff "vec 35", /* 35 */ 320 1.1.2.20 cliff "vec 36", /* 36 */ 321 1.1.2.20 cliff "vec 37", /* 37 */ 322 1.1.2.20 cliff "vec 38", /* 38 */ 323 1.1.2.20 cliff "vec 39", /* 39 */ 324 1.1.2.20 cliff "vec 40", /* 40 */ 325 1.1.2.20 cliff "vec 41", /* 41 */ 326 1.1.2.20 cliff "vec 42", /* 42 */ 327 1.1.2.20 cliff "vec 43", /* 43 */ 328 1.1.2.20 cliff "vec 44", /* 44 */ 329 1.1.2.20 cliff "vec 45", /* 45 */ 330 1.1.2.20 cliff "vec 46", /* 46 */ 331 1.1.2.20 cliff "vec 47", /* 47 */ 332 1.1.2.20 cliff "vec 48", /* 48 */ 333 1.1.2.20 cliff "vec 49", /* 49 */ 334 1.1.2.20 cliff "vec 50", /* 50 */ 335 1.1.2.20 cliff "vec 51", /* 51 */ 336 1.1.2.20 cliff "vec 52", /* 52 */ 337 1.1.2.20 cliff "vec 53", /* 53 */ 338 1.1.2.20 cliff "vec 54", /* 54 */ 339 1.1.2.20 cliff "vec 55", /* 55 */ 340 1.1.2.20 cliff "vec 56", /* 56 */ 341 1.1.2.20 cliff "vec 57", /* 57 */ 342 1.1.2.20 cliff "vec 58", /* 58 */ 343 1.1.2.20 cliff "vec 59", /* 59 */ 344 1.1.2.20 cliff "vec 60", /* 60 */ 345 1.1.2.20 cliff "vec 61", /* 61 */ 346 1.1.2.20 cliff "vec 62", /* 63 */ 347 1.1.2.20 cliff "vec 63", /* 63 */ 348 1.1.2.4 cliff }; 349 1.1.2.4 cliff 350 1.1.2.4 cliff /* 351 1.1.2.15 cliff * mask of CPUs attached 352 1.1.2.15 cliff * once they are attached, this var is read-only so mp safe 353 1.1.2.2 cliff */ 354 1.1.2.15 cliff static uint32_t cpu_present_mask; 355 1.1.2.1 cliff 356 1.1.2.15 cliff rmixl_intrhand_t rmixl_intrhand[NINTRVECS]; 357 1.1.2.1 cliff 358 1.1.2.15 cliff #ifdef DIAGNOSTIC 359 1.1.2.15 cliff static int rmixl_pic_init_done; 360 1.1.2.15 cliff #endif 361 1.1.2.2 cliff 362 1.1.2.1 cliff 363 1.1.2.16 cliff static const char *rmixl_intr_string_xlr(int); 364 1.1.2.16 cliff static const char *rmixl_intr_string_xls(int); 365 1.1.2.16 cliff static uint32_t rmixl_irt_thread_mask(int); 366 1.1.2.15 cliff static void rmixl_irt_init(int); 367 1.1.2.15 cliff static void rmixl_irt_disestablish(int); 368 1.1.2.20 cliff static void rmixl_irt_establish(int, int, int, 369 1.1.2.15 cliff rmixl_intr_trigger_t, rmixl_intr_polarity_t); 370 1.1.2.2 cliff 371 1.1.2.15 cliff #ifdef MULTIPROCESSOR 372 1.1.2.15 cliff static int rmixl_send_ipi(struct cpu_info *, int); 373 1.1.2.15 cliff static int rmixl_ipi_intr(void *); 374 1.1.2.15 cliff #endif 375 1.1.2.15 cliff 376 1.1.2.15 cliff #if defined(IOINTR_DEBUG) || defined(DIAGNOSTIC) 377 1.1.2.20 cliff int rmixl_intrhand_print_subr(int); 378 1.1.2.20 cliff int rmixl_intrhand_print(void); 379 1.1.2.20 cliff int rmixl_irt_print(void); 380 1.1.2.20 cliff void rmixl_ipl_eimr_map_print(void); 381 1.1.2.4 cliff #endif 382 1.1.2.2 cliff 383 1.1.2.6 cliff 384 1.1.2.15 cliff static inline u_int 385 1.1.2.15 cliff dclz(uint64_t val) 386 1.1.2.15 cliff { 387 1.1.2.15 cliff int nlz; 388 1.1.2.6 cliff 389 1.1.2.15 cliff asm volatile("dclz %0, %1;" 390 1.1.2.15 cliff : "=r"(nlz) : "r"(val)); 391 1.1.2.15 cliff 392 1.1.2.15 cliff return nlz; 393 1.1.2.15 cliff } 394 1.1.2.6 cliff 395 1.1.2.1 cliff void 396 1.1.2.1 cliff evbmips_intr_init(void) 397 1.1.2.1 cliff { 398 1.1.2.2 cliff uint32_t r; 399 1.1.2.1 cliff 400 1.1.2.16 cliff KASSERT(cpu_rmixlr(mips_options.mips_cpu) 401 1.1.2.16 cliff || cpu_rmixls(mips_options.mips_cpu)); 402 1.1.2.5 cliff 403 1.1.2.4 cliff 404 1.1.2.15 cliff #ifdef DIAGNOSTIC 405 1.1.2.15 cliff if (rmixl_pic_init_done != 0) 406 1.1.2.15 cliff panic("%s: rmixl_pic_init_done %d", 407 1.1.2.15 cliff __func__, rmixl_pic_init_done); 408 1.1.2.15 cliff #endif 409 1.1.2.1 cliff 410 1.1.2.15 cliff /* 411 1.1.2.15 cliff * initialize (zero) all IRT Entries in the PIC 412 1.1.2.15 cliff */ 413 1.1.2.15 cliff for (int i=0; i < NIRTS; i++) 414 1.1.2.15 cliff rmixl_irt_init(i); 415 1.1.2.1 cliff 416 1.1.2.2 cliff /* 417 1.1.2.4 cliff * disable watchdog NMI, timers 418 1.1.2.4 cliff * 419 1.1.2.4 cliff * XXX 420 1.1.2.4 cliff * WATCHDOG_ENB is preserved because clearing it causes 421 1.1.2.4 cliff * hang on the XLS616 (but not on the XLS408) 422 1.1.2.4 cliff */ 423 1.1.2.4 cliff r = RMIXL_PICREG_READ(RMIXL_PIC_CONTROL); 424 1.1.2.4 cliff r &= RMIXL_PIC_CONTROL_RESV|RMIXL_PIC_CONTROL_WATCHDOG_ENB; 425 1.1.2.4 cliff RMIXL_PICREG_WRITE(RMIXL_PIC_CONTROL, r); 426 1.1.2.2 cliff 427 1.1.2.4 cliff #ifdef DIAGNOSTIC 428 1.1.2.15 cliff rmixl_pic_init_done = 1; 429 1.1.2.4 cliff #endif 430 1.1.2.15 cliff 431 1.1.2.4 cliff } 432 1.1.2.4 cliff 433 1.1.2.15 cliff /* 434 1.1.2.15 cliff * establish vector for mips3 count/compare clock interrupt 435 1.1.2.15 cliff * this ensures we enable in EIRR, 436 1.1.2.15 cliff * even though cpu_intr() handles the interrupt 437 1.1.2.17 cliff * note the 'mpsafe' arg here is a placeholder only 438 1.1.2.15 cliff */ 439 1.1.2.15 cliff void * 440 1.1.2.15 cliff rmixl_intr_init_clk(void) 441 1.1.2.15 cliff { 442 1.1.2.15 cliff int vec = ffs(MIPS_INT_MASK_5 >> 8) - 1; 443 1.1.2.17 cliff void *ih = rmixl_vec_establish(vec, 0, IPL_SCHED, NULL, NULL, false); 444 1.1.2.15 cliff if (ih == NULL) 445 1.1.2.15 cliff panic("%s: establish vec %d failed", __func__, vec); 446 1.1.2.15 cliff 447 1.1.2.15 cliff return ih; 448 1.1.2.15 cliff } 449 1.1.2.15 cliff 450 1.1.2.15 cliff #ifdef MULTIPROCESSOR 451 1.1.2.15 cliff /* 452 1.1.2.15 cliff * establish IPI interrupt and send function 453 1.1.2.15 cliff */ 454 1.1.2.15 cliff void * 455 1.1.2.15 cliff rmixl_intr_init_ipi(void) 456 1.1.2.15 cliff { 457 1.1.2.15 cliff void *ih = rmixl_vec_establish(RMIXL_INTRVEC_IPI, -1, IPL_SCHED, 458 1.1.2.17 cliff rmixl_ipi_intr, NULL, false); 459 1.1.2.15 cliff if (ih == NULL) 460 1.1.2.15 cliff panic("%s: establish vec %d failed", 461 1.1.2.15 cliff __func__, RMIXL_INTRVEC_IPI); 462 1.1.2.15 cliff 463 1.1.2.15 cliff mips_locoresw.lsw_send_ipi = rmixl_send_ipi; 464 1.1.2.15 cliff 465 1.1.2.15 cliff return ih; 466 1.1.2.15 cliff } 467 1.1.2.15 cliff #endif /* MULTIPROCESSOR */ 468 1.1.2.15 cliff 469 1.1.2.15 cliff /* 470 1.1.2.15 cliff * initialize per-cpu interrupt stuff in softc 471 1.1.2.15 cliff * accumulate per-cpu bits in 'cpu_present_mask' 472 1.1.2.15 cliff */ 473 1.1.2.15 cliff void 474 1.1.2.15 cliff rmixl_intr_init_cpu(struct cpu_info *ci) 475 1.1.2.15 cliff { 476 1.1.2.15 cliff struct rmixl_cpu_softc *sc = (void *)ci->ci_softc; 477 1.1.2.21 cliff extern void rmixl_spl_init_cpu(void); 478 1.1.2.21 cliff 479 1.1.2.15 cliff KASSERT(sc != NULL); 480 1.1.2.15 cliff 481 1.1.2.21 cliff rmixl_spl_init_cpu(); 482 1.1.2.15 cliff 483 1.1.2.15 cliff for (int vec=0; vec < NINTRVECS; vec++) 484 1.1.2.15 cliff evcnt_attach_dynamic(&sc->sc_vec_evcnts[vec], 485 1.1.2.15 cliff EVCNT_TYPE_INTR, NULL, 486 1.1.2.15 cliff device_xname(sc->sc_dev), 487 1.1.2.15 cliff rmixl_intr_string(vec)); 488 1.1.2.15 cliff 489 1.1.2.15 cliff KASSERT(ci->ci_cpuid < (sizeof(cpu_present_mask) * 8)); 490 1.1.2.15 cliff cpu_present_mask |= 1 << ci->ci_cpuid; 491 1.1.2.15 cliff } 492 1.1.2.15 cliff 493 1.1.2.15 cliff /* 494 1.1.2.15 cliff * rmixl_intr_string - return pointer to display name of a PIC-based interrupt 495 1.1.2.15 cliff */ 496 1.1.2.4 cliff const char * 497 1.1.2.20 cliff rmixl_intr_string(int vec) 498 1.1.2.4 cliff { 499 1.1.2.20 cliff int irt; 500 1.1.2.20 cliff 501 1.1.2.20 cliff if (vec < 0 || vec >= NINTRVECS) 502 1.1.2.20 cliff panic("%s: vec index %d out of range, max %d", 503 1.1.2.20 cliff __func__, vec, NINTRVECS - 1); 504 1.1.2.15 cliff 505 1.1.2.20 cliff if (! RMIXL_VECTOR_IS_IRT(vec)) 506 1.1.2.20 cliff return rmixl_vecnames_common[vec]; 507 1.1.2.4 cliff 508 1.1.2.20 cliff irt = RMIXL_VECTOR_IRT(vec); 509 1.1.2.16 cliff switch(cpu_rmixl_chip_type(mips_options.mips_cpu)) { 510 1.1.2.16 cliff case CIDFL_RMI_TYPE_XLR: 511 1.1.2.20 cliff return rmixl_intr_string_xlr(irt); 512 1.1.2.16 cliff case CIDFL_RMI_TYPE_XLS: 513 1.1.2.20 cliff return rmixl_intr_string_xls(irt); 514 1.1.2.16 cliff case CIDFL_RMI_TYPE_XLP: 515 1.1.2.16 cliff panic("%s: RMI XLP not yet supported", __func__); 516 1.1.2.16 cliff } 517 1.1.2.16 cliff 518 1.1.2.16 cliff return "undefined"; /* appease gcc */ 519 1.1.2.16 cliff } 520 1.1.2.16 cliff 521 1.1.2.16 cliff static const char * 522 1.1.2.20 cliff rmixl_intr_string_xlr(int irt) 523 1.1.2.16 cliff { 524 1.1.2.20 cliff return rmixl_irtnames_xlrxxx[irt]; 525 1.1.2.16 cliff } 526 1.1.2.16 cliff 527 1.1.2.16 cliff static const char * 528 1.1.2.20 cliff rmixl_intr_string_xls(int irt) 529 1.1.2.16 cliff { 530 1.1.2.16 cliff const char *name; 531 1.1.2.16 cliff 532 1.1.2.7 matt switch (MIPS_PRID_IMPL(mips_options.mips_cpu_id)) { 533 1.1.2.4 cliff case MIPS_XLS104: 534 1.1.2.4 cliff case MIPS_XLS108: 535 1.1.2.4 cliff case MIPS_XLS404LITE: 536 1.1.2.4 cliff case MIPS_XLS408LITE: 537 1.1.2.20 cliff name = rmixl_irtnames_xls1xx[irt]; 538 1.1.2.4 cliff break; 539 1.1.2.19 cliff case MIPS_XLS204: 540 1.1.2.19 cliff case MIPS_XLS208: 541 1.1.2.20 cliff name = rmixl_irtnames_xls2xx[irt]; 542 1.1.2.19 cliff break; 543 1.1.2.8 cliff case MIPS_XLS404: 544 1.1.2.8 cliff case MIPS_XLS408: 545 1.1.2.8 cliff case MIPS_XLS416: 546 1.1.2.8 cliff case MIPS_XLS608: 547 1.1.2.8 cliff case MIPS_XLS616: 548 1.1.2.20 cliff name = rmixl_irtnames_xls4xx[irt]; 549 1.1.2.4 cliff break; 550 1.1.2.4 cliff default: 551 1.1.2.20 cliff name = rmixl_vecnames_common[RMIXL_IRT_VECTOR(irt)]; 552 1.1.2.4 cliff break; 553 1.1.2.4 cliff } 554 1.1.2.4 cliff 555 1.1.2.4 cliff return name; 556 1.1.2.1 cliff } 557 1.1.2.1 cliff 558 1.1.2.6 cliff /* 559 1.1.2.15 cliff * rmixl_irt_thread_mask 560 1.1.2.15 cliff * 561 1.1.2.15 cliff * given a bitmask of cpus, return a, IRT thread mask 562 1.1.2.6 cliff */ 563 1.1.2.15 cliff static uint32_t 564 1.1.2.15 cliff rmixl_irt_thread_mask(int cpumask) 565 1.1.2.6 cliff { 566 1.1.2.15 cliff uint32_t irtc0; 567 1.1.2.15 cliff 568 1.1.2.15 cliff #if defined(MULTIPROCESSOR) 569 1.1.2.15 cliff #ifndef NOTYET 570 1.1.2.15 cliff if (cpumask == -1) 571 1.1.2.15 cliff return 1; /* XXX TMP FIXME */ 572 1.1.2.15 cliff #endif 573 1.1.2.8 cliff 574 1.1.2.8 cliff /* 575 1.1.2.15 cliff * discount cpus not present 576 1.1.2.8 cliff */ 577 1.1.2.15 cliff cpumask &= cpu_present_mask; 578 1.1.2.15 cliff 579 1.1.2.8 cliff switch (MIPS_PRID_IMPL(mips_options.mips_cpu_id)) { 580 1.1.2.8 cliff case MIPS_XLS104: 581 1.1.2.8 cliff case MIPS_XLS204: 582 1.1.2.8 cliff case MIPS_XLS404: 583 1.1.2.8 cliff case MIPS_XLS404LITE: 584 1.1.2.15 cliff irtc0 = ((cpumask >> 2) << 4) | (cpumask & __BITS(1,0)); 585 1.1.2.15 cliff irtc0 &= (__BITS(5,4) | __BITS(1,0)); 586 1.1.2.8 cliff break; 587 1.1.2.8 cliff case MIPS_XLS108: 588 1.1.2.8 cliff case MIPS_XLS208: 589 1.1.2.8 cliff case MIPS_XLS408: 590 1.1.2.8 cliff case MIPS_XLS408LITE: 591 1.1.2.8 cliff case MIPS_XLS608: 592 1.1.2.15 cliff irtc0 = cpumask & __BITS(7,0); 593 1.1.2.8 cliff break; 594 1.1.2.8 cliff case MIPS_XLS416: 595 1.1.2.8 cliff case MIPS_XLS616: 596 1.1.2.15 cliff irtc0 = cpumask & __BITS(15,0); 597 1.1.2.8 cliff break; 598 1.1.2.8 cliff default: 599 1.1.2.8 cliff panic("%s: unknown cpu ID %#x\n", __func__, 600 1.1.2.8 cliff mips_options.mips_cpu_id); 601 1.1.2.8 cliff } 602 1.1.2.8 cliff #else 603 1.1.2.15 cliff irtc0 = 1; 604 1.1.2.15 cliff #endif /* MULTIPROCESSOR */ 605 1.1.2.15 cliff 606 1.1.2.15 cliff return irtc0; 607 1.1.2.15 cliff } 608 1.1.2.15 cliff 609 1.1.2.15 cliff /* 610 1.1.2.15 cliff * rmixl_irt_init 611 1.1.2.20 cliff * - initialize IRT Entry for given index 612 1.1.2.15 cliff * - unmask Thread#0 in low word (assume we only have 1 thread) 613 1.1.2.15 cliff */ 614 1.1.2.15 cliff static void 615 1.1.2.20 cliff rmixl_irt_init(int irt) 616 1.1.2.15 cliff { 617 1.1.2.20 cliff KASSERT(irt < NIRTS); 618 1.1.2.20 cliff RMIXL_PICREG_WRITE(RMIXL_PIC_IRTENTRYC1(irt), 0); /* high word */ 619 1.1.2.20 cliff RMIXL_PICREG_WRITE(RMIXL_PIC_IRTENTRYC0(irt), 0); /* low word */ 620 1.1.2.6 cliff } 621 1.1.2.6 cliff 622 1.1.2.6 cliff /* 623 1.1.2.15 cliff * rmixl_irt_disestablish 624 1.1.2.20 cliff * - invalidate IRT Entry for given index 625 1.1.2.6 cliff */ 626 1.1.2.6 cliff static void 627 1.1.2.20 cliff rmixl_irt_disestablish(int irt) 628 1.1.2.6 cliff { 629 1.1.2.20 cliff DPRINTF(("%s: irt %d, irtc1 %#x\n", __func__, irt, 0)); 630 1.1.2.20 cliff rmixl_irt_init(irt); 631 1.1.2.6 cliff } 632 1.1.2.6 cliff 633 1.1.2.6 cliff /* 634 1.1.2.15 cliff * rmixl_irt_establish 635 1.1.2.20 cliff * - construct an IRT Entry for irt and write to PIC 636 1.1.2.6 cliff */ 637 1.1.2.6 cliff static void 638 1.1.2.20 cliff rmixl_irt_establish(int irt, int vec, int cpumask, rmixl_intr_trigger_t trigger, 639 1.1.2.15 cliff rmixl_intr_polarity_t polarity) 640 1.1.2.6 cliff { 641 1.1.2.6 cliff uint32_t irtc1; 642 1.1.2.15 cliff uint32_t irtc0; 643 1.1.2.15 cliff 644 1.1.2.20 cliff if (irt >= NIRTS) 645 1.1.2.20 cliff panic("%s: bad irt %d\n", __func__, irt); 646 1.1.2.20 cliff 647 1.1.2.20 cliff if (! RMIXL_VECTOR_IS_IRT(vec)) 648 1.1.2.20 cliff panic("%s: bad vec %d\n", __func__, vec); 649 1.1.2.20 cliff 650 1.1.2.15 cliff switch (trigger) { 651 1.1.2.15 cliff case RMIXL_TRIG_EDGE: 652 1.1.2.15 cliff case RMIXL_TRIG_LEVEL: 653 1.1.2.15 cliff break; 654 1.1.2.15 cliff default: 655 1.1.2.15 cliff panic("%s: bad trigger %d\n", __func__, trigger); 656 1.1.2.15 cliff } 657 1.1.2.15 cliff 658 1.1.2.15 cliff switch (polarity) { 659 1.1.2.15 cliff case RMIXL_POLR_RISING: 660 1.1.2.15 cliff case RMIXL_POLR_HIGH: 661 1.1.2.15 cliff case RMIXL_POLR_FALLING: 662 1.1.2.15 cliff case RMIXL_POLR_LOW: 663 1.1.2.15 cliff break; 664 1.1.2.15 cliff default: 665 1.1.2.15 cliff panic("%s: bad polarity %d\n", __func__, polarity); 666 1.1.2.15 cliff } 667 1.1.2.15 cliff 668 1.1.2.15 cliff /* 669 1.1.2.15 cliff * XXX IRT entries are not shared 670 1.1.2.15 cliff */ 671 1.1.2.20 cliff KASSERT(RMIXL_PICREG_READ(RMIXL_PIC_IRTENTRYC0(irt)) == 0); 672 1.1.2.20 cliff KASSERT(RMIXL_PICREG_READ(RMIXL_PIC_IRTENTRYC1(irt)) == 0); 673 1.1.2.15 cliff 674 1.1.2.15 cliff irtc0 = rmixl_irt_thread_mask(cpumask); 675 1.1.2.6 cliff 676 1.1.2.6 cliff irtc1 = RMIXL_PIC_IRTENTRYC1_VALID; 677 1.1.2.6 cliff irtc1 |= RMIXL_PIC_IRTENTRYC1_GL; /* local */ 678 1.1.2.6 cliff 679 1.1.2.15 cliff if (trigger == RMIXL_TRIG_LEVEL) 680 1.1.2.6 cliff irtc1 |= RMIXL_PIC_IRTENTRYC1_TRG; 681 1.1.2.6 cliff 682 1.1.2.15 cliff if ((polarity == RMIXL_POLR_FALLING) || (polarity == RMIXL_POLR_LOW)) 683 1.1.2.6 cliff irtc1 |= RMIXL_PIC_IRTENTRYC1_P; 684 1.1.2.6 cliff 685 1.1.2.20 cliff irtc1 |= vec; /* vector in EIRR */ 686 1.1.2.6 cliff 687 1.1.2.6 cliff /* 688 1.1.2.15 cliff * write IRT Entry to PIC 689 1.1.2.6 cliff */ 690 1.1.2.20 cliff DPRINTF(("%s: irt %d, irtc0 %#x, irtc1 %#x\n", 691 1.1.2.20 cliff __func__, irt, irtc0, irtc1)); 692 1.1.2.20 cliff RMIXL_PICREG_WRITE(RMIXL_PIC_IRTENTRYC0(irt), irtc0); /* low word */ 693 1.1.2.20 cliff RMIXL_PICREG_WRITE(RMIXL_PIC_IRTENTRYC1(irt), irtc1); /* high word */ 694 1.1.2.6 cliff } 695 1.1.2.6 cliff 696 1.1.2.1 cliff void * 697 1.1.2.15 cliff rmixl_vec_establish(int vec, int cpumask, int ipl, 698 1.1.2.17 cliff int (*func)(void *), void *arg, bool mpsafe) 699 1.1.2.1 cliff { 700 1.1.2.15 cliff rmixl_intrhand_t *ih; 701 1.1.2.20 cliff uint64_t eimr_bit; 702 1.1.2.2 cliff int s; 703 1.1.2.1 cliff 704 1.1.2.20 cliff DPRINTF(("%s: vec %d, cpumask %#x, ipl %d, func %p, arg %p\n" 705 1.1.2.20 cliff __func__, vec, cpumask, ipl, func, arg)); 706 1.1.2.4 cliff #ifdef DIAGNOSTIC 707 1.1.2.15 cliff if (rmixl_pic_init_done == 0) 708 1.1.2.4 cliff panic("%s: called before evbmips_intr_init", __func__); 709 1.1.2.4 cliff #endif 710 1.1.2.4 cliff 711 1.1.2.2 cliff /* 712 1.1.2.15 cliff * check args 713 1.1.2.2 cliff */ 714 1.1.2.15 cliff if (vec < 0 || vec >= NINTRVECS) 715 1.1.2.15 cliff panic("%s: vec %d out of range, max %d", 716 1.1.2.15 cliff __func__, vec, NINTRVECS - 1); 717 1.1.2.4 cliff if (ipl <= 0 || ipl >= _IPL_N) 718 1.1.2.4 cliff panic("%s: ipl %d out of range, min %d, max %d", 719 1.1.2.4 cliff __func__, ipl, 1, _IPL_N - 1); 720 1.1.2.2 cliff 721 1.1.2.15 cliff s = splhigh(); 722 1.1.2.1 cliff 723 1.1.2.15 cliff ih = &rmixl_intrhand[vec]; 724 1.1.2.20 cliff if (ih->ih_func != NULL) { 725 1.1.2.20 cliff #ifdef DIAGNOSTIC 726 1.1.2.20 cliff printf("%s: intrhand[%d] busy\n", __func__, vec); 727 1.1.2.20 cliff #endif 728 1.1.2.20 cliff splx(s); 729 1.1.2.20 cliff return NULL; 730 1.1.2.20 cliff } 731 1.1.2.2 cliff 732 1.1.2.15 cliff ih->ih_func = func; 733 1.1.2.15 cliff ih->ih_arg = arg; 734 1.1.2.17 cliff ih->ih_mpsafe = mpsafe; 735 1.1.2.20 cliff ih->ih_vec = vec; 736 1.1.2.15 cliff ih->ih_ipl = ipl; 737 1.1.2.15 cliff ih->ih_cpumask = cpumask; 738 1.1.2.2 cliff 739 1.1.2.20 cliff eimr_bit = (uint64_t)1 << vec; 740 1.1.2.20 cliff for (int i=ih->ih_ipl; --i >= 0; ) { 741 1.1.2.20 cliff KASSERT((ipl_eimr_map[i] & eimr_bit) == 0); 742 1.1.2.20 cliff ipl_eimr_map[i] |= eimr_bit; 743 1.1.2.20 cliff } 744 1.1.2.20 cliff 745 1.1.2.15 cliff splx(s); 746 1.1.2.15 cliff 747 1.1.2.15 cliff return ih; 748 1.1.2.15 cliff } 749 1.1.2.15 cliff 750 1.1.2.20 cliff /* 751 1.1.2.20 cliff * rmixl_intr_establish 752 1.1.2.20 cliff * - used to establish an IRT-based interrupt only 753 1.1.2.20 cliff */ 754 1.1.2.15 cliff void * 755 1.1.2.20 cliff rmixl_intr_establish(int irt, int cpumask, int ipl, 756 1.1.2.17 cliff rmixl_intr_trigger_t trigger, rmixl_intr_polarity_t polarity, 757 1.1.2.17 cliff int (*func)(void *), void *arg, bool mpsafe) 758 1.1.2.15 cliff { 759 1.1.2.15 cliff rmixl_intrhand_t *ih; 760 1.1.2.20 cliff int vec; 761 1.1.2.15 cliff int s; 762 1.1.2.4 cliff 763 1.1.2.4 cliff #ifdef DIAGNOSTIC 764 1.1.2.15 cliff if (rmixl_pic_init_done == 0) 765 1.1.2.15 cliff panic("%s: called before rmixl_pic_init_done", __func__); 766 1.1.2.15 cliff #endif 767 1.1.2.4 cliff 768 1.1.2.2 cliff /* 769 1.1.2.15 cliff * check args 770 1.1.2.2 cliff */ 771 1.1.2.20 cliff if (irt < 0 || irt >= NIRTS) 772 1.1.2.20 cliff panic("%s: irt %d out of range, max %d", 773 1.1.2.20 cliff __func__, irt, NIRTS - 1); 774 1.1.2.15 cliff if (ipl <= 0 || ipl >= _IPL_N) 775 1.1.2.15 cliff panic("%s: ipl %d out of range, min %d, max %d", 776 1.1.2.15 cliff __func__, ipl, 1, _IPL_N - 1); 777 1.1.2.1 cliff 778 1.1.2.20 cliff vec = RMIXL_IRT_VECTOR(irt); 779 1.1.2.20 cliff 780 1.1.2.20 cliff DPRINTF(("%s: irt %d, vec %d, ipl %d\n", __func__, irt, vec, ipl)); 781 1.1.2.1 cliff 782 1.1.2.15 cliff s = splhigh(); 783 1.1.2.1 cliff 784 1.1.2.2 cliff /* 785 1.1.2.15 cliff * establish vector 786 1.1.2.2 cliff */ 787 1.1.2.20 cliff ih = rmixl_vec_establish(vec, cpumask, ipl, func, arg, mpsafe); 788 1.1.2.1 cliff 789 1.1.2.1 cliff /* 790 1.1.2.6 cliff * establish IRT Entry 791 1.1.2.1 cliff */ 792 1.1.2.20 cliff rmixl_irt_establish(irt, vec, cpumask, trigger, polarity); 793 1.1.2.1 cliff 794 1.1.2.1 cliff splx(s); 795 1.1.2.1 cliff 796 1.1.2.1 cliff return ih; 797 1.1.2.1 cliff } 798 1.1.2.1 cliff 799 1.1.2.1 cliff void 800 1.1.2.15 cliff rmixl_vec_disestablish(void *cookie) 801 1.1.2.15 cliff { 802 1.1.2.15 cliff rmixl_intrhand_t *ih = cookie; 803 1.1.2.20 cliff uint64_t eimr_bit; 804 1.1.2.15 cliff int s; 805 1.1.2.15 cliff 806 1.1.2.20 cliff KASSERT(ih->ih_vec < NINTRVECS); 807 1.1.2.20 cliff KASSERT(ih == &rmixl_intrhand[ih->ih_vec]); 808 1.1.2.15 cliff 809 1.1.2.15 cliff s = splhigh(); 810 1.1.2.15 cliff 811 1.1.2.20 cliff ih->ih_func = NULL; 812 1.1.2.20 cliff 813 1.1.2.20 cliff eimr_bit = (uint64_t)1 << ih->ih_vec; 814 1.1.2.20 cliff for (int i=ih->ih_ipl; --i >= 0; ) { 815 1.1.2.20 cliff KASSERT((ipl_eimr_map[i] & eimr_bit) != 0); 816 1.1.2.20 cliff ipl_eimr_map[i] ^= eimr_bit; 817 1.1.2.20 cliff } 818 1.1.2.15 cliff 819 1.1.2.15 cliff splx(s); 820 1.1.2.15 cliff } 821 1.1.2.15 cliff 822 1.1.2.15 cliff void 823 1.1.2.1 cliff rmixl_intr_disestablish(void *cookie) 824 1.1.2.1 cliff { 825 1.1.2.15 cliff rmixl_intrhand_t *ih = cookie; 826 1.1.2.2 cliff int vec; 827 1.1.2.2 cliff int s; 828 1.1.2.1 cliff 829 1.1.2.20 cliff vec = ih->ih_vec; 830 1.1.2.15 cliff 831 1.1.2.20 cliff KASSERT(vec < NINTRVECS); 832 1.1.2.20 cliff KASSERT(ih == &rmixl_intrhand[vec]); 833 1.1.2.1 cliff 834 1.1.2.1 cliff s = splhigh(); 835 1.1.2.1 cliff 836 1.1.2.1 cliff /* 837 1.1.2.15 cliff * disable/invalidate the IRT Entry if needed 838 1.1.2.1 cliff */ 839 1.1.2.20 cliff if (RMIXL_VECTOR_IS_IRT(vec)) 840 1.1.2.15 cliff rmixl_irt_disestablish(vec); 841 1.1.2.1 cliff 842 1.1.2.1 cliff /* 843 1.1.2.15 cliff * disasociate from vector and free the handle 844 1.1.2.1 cliff */ 845 1.1.2.15 cliff rmixl_vec_disestablish(cookie); 846 1.1.2.1 cliff 847 1.1.2.1 cliff splx(s); 848 1.1.2.1 cliff } 849 1.1.2.1 cliff 850 1.1.2.1 cliff void 851 1.1.2.15 cliff evbmips_iointr(int ipl, vaddr_t pc, uint32_t pending) 852 1.1.2.1 cliff { 853 1.1.2.15 cliff struct rmixl_cpu_softc *sc = (void *)curcpu()->ci_softc; 854 1.1.2.4 cliff 855 1.1.2.15 cliff DPRINTF(("%s: cpu%ld: ipl %d, pc %#"PRIxVADDR", pending %#x\n", 856 1.1.2.15 cliff __func__, cpu_number(), ipl, pc, pending)); 857 1.1.2.2 cliff 858 1.1.2.15 cliff /* 859 1.1.2.15 cliff * 'pending' arg is a summary that there is something to do 860 1.1.2.15 cliff * the real pending status is obtained from EIRR 861 1.1.2.15 cliff */ 862 1.1.2.15 cliff KASSERT(pending == MIPS_INT_MASK_1); 863 1.1.2.4 cliff 864 1.1.2.15 cliff for (;;) { 865 1.1.2.15 cliff rmixl_intrhand_t *ih; 866 1.1.2.15 cliff uint64_t eirr; 867 1.1.2.18 cliff uint64_t eimr; 868 1.1.2.15 cliff uint64_t vecbit; 869 1.1.2.15 cliff int vec; 870 1.1.2.1 cliff 871 1.1.2.15 cliff asm volatile("dmfc0 %0, $9, 6;" : "=r"(eirr)); 872 1.1.2.4 cliff 873 1.1.2.15 cliff #ifdef IOINTR_DEBUG 874 1.1.2.15 cliff asm volatile("dmfc0 %0, $9, 7;" : "=r"(eimr)); 875 1.1.2.15 cliff printf("%s: eirr %#"PRIx64", eimr %#"PRIx64", mask %#"PRIx64"\n", 876 1.1.2.15 cliff __func__, eirr, eimr, ipl_eimr_map[ipl-1]); 877 1.1.2.15 cliff #endif /* IOINTR_DEBUG */ 878 1.1.2.15 cliff 879 1.1.2.15 cliff eirr &= ipl_eimr_map[ipl-1]; 880 1.1.2.20 cliff eirr &= ~ipl_eimr_map[ipl]; /* mask off higher ints */ 881 1.1.2.15 cliff eirr &= ~(MIPS_SOFT_INT_MASK >> 8); /* mask off soft ints */ 882 1.1.2.15 cliff if (eirr == 0) 883 1.1.2.15 cliff break; 884 1.1.2.15 cliff 885 1.1.2.15 cliff vec = 63 - dclz(eirr); 886 1.1.2.15 cliff ih = &rmixl_intrhand[vec]; 887 1.1.2.20 cliff KASSERT (ih->ih_ipl == ipl); 888 1.1.2.15 cliff 889 1.1.2.18 cliff asm volatile("dmfc0 %0, $9, 7;" : "=r"(eimr)); 890 1.1.2.18 cliff asm volatile("dmtc0 $0, $9, 7;"); 891 1.1.2.15 cliff vecbit = 1ULL << vec; 892 1.1.2.18 cliff KASSERT ((vecbit & eimr) == 0); 893 1.1.2.15 cliff KASSERT ((vecbit & RMIXL_EIRR_PRESERVE_MASK) == 0); 894 1.1.2.10 cliff asm volatile("dmfc0 %0, $9, 6;" : "=r"(eirr)); 895 1.1.2.15 cliff eirr &= RMIXL_EIRR_PRESERVE_MASK; 896 1.1.2.15 cliff eirr |= vecbit; 897 1.1.2.4 cliff asm volatile("dmtc0 %0, $9, 6;" :: "r"(eirr)); 898 1.1.2.18 cliff asm volatile("dmtc0 %0, $9, 7;" :: "r"(eimr)); 899 1.1.2.2 cliff 900 1.1.2.20 cliff if (RMIXL_VECTOR_IS_IRT(vec)) 901 1.1.2.4 cliff RMIXL_PICREG_WRITE(RMIXL_PIC_INTRACK, 902 1.1.2.20 cliff 1 << RMIXL_VECTOR_IRT(vec)); 903 1.1.2.15 cliff 904 1.1.2.17 cliff if (ih->ih_func != NULL) { 905 1.1.2.17 cliff #ifdef MULTIPROCESSOR 906 1.1.2.17 cliff if (ih->ih_mpsafe) { 907 1.1.2.17 cliff (void)(*ih->ih_func)(ih->ih_arg); 908 1.1.2.17 cliff } else { 909 1.1.2.17 cliff KERNEL_LOCK(1, NULL); 910 1.1.2.17 cliff (void)(*ih->ih_func)(ih->ih_arg); 911 1.1.2.17 cliff KERNEL_UNLOCK_ONE(NULL); 912 1.1.2.17 cliff } 913 1.1.2.17 cliff #else 914 1.1.2.15 cliff (void)(*ih->ih_func)(ih->ih_arg); 915 1.1.2.17 cliff #endif /* MULTIPROCESSOR */ 916 1.1.2.17 cliff } 917 1.1.2.15 cliff sc->sc_vec_evcnts[vec].ev_count++; 918 1.1.2.1 cliff } 919 1.1.2.1 cliff } 920 1.1.2.4 cliff 921 1.1.2.15 cliff #ifdef MULTIPROCESSOR 922 1.1.2.15 cliff static int 923 1.1.2.15 cliff rmixl_send_ipi(struct cpu_info *ci, int tag) 924 1.1.2.4 cliff { 925 1.1.2.15 cliff const cpuid_t cpu = ci->ci_cpuid; 926 1.1.2.15 cliff uint32_t core = (uint32_t)(cpu >> 2); 927 1.1.2.15 cliff uint32_t thread = (uint32_t)(cpu & __BITS(1,0)); 928 1.1.2.15 cliff uint64_t req = 1 << tag; 929 1.1.2.15 cliff uint32_t r; 930 1.1.2.15 cliff extern volatile u_long cpus_running; 931 1.1.2.4 cliff 932 1.1.2.15 cliff if ((cpus_running & 1 << ci->ci_cpuid) == 0) 933 1.1.2.15 cliff return -1; 934 1.1.2.15 cliff 935 1.1.2.15 cliff KASSERT(tag < NIPIS); 936 1.1.2.15 cliff 937 1.1.2.15 cliff r = (thread << RMIXL_PIC_IPIBASE_ID_THREAD_SHIFT) 938 1.1.2.15 cliff | (core << RMIXL_PIC_IPIBASE_ID_CORE_SHIFT) 939 1.1.2.15 cliff | RMIXL_INTRVEC_IPI; 940 1.1.2.15 cliff 941 1.1.2.15 cliff atomic_or_64(&ci->ci_request_ipis, req); 942 1.1.2.15 cliff 943 1.1.2.15 cliff RMIXL_PICREG_WRITE(RMIXL_PIC_IPIBASE, r); 944 1.1.2.15 cliff 945 1.1.2.15 cliff return 0; 946 1.1.2.15 cliff } 947 1.1.2.15 cliff 948 1.1.2.15 cliff static int 949 1.1.2.15 cliff rmixl_ipi_intr(void *arg) 950 1.1.2.15 cliff { 951 1.1.2.15 cliff struct cpu_info * const ci = curcpu(); 952 1.1.2.15 cliff uint64_t ipi_mask; 953 1.1.2.15 cliff 954 1.1.2.15 cliff ipi_mask = atomic_swap_64(&ci->ci_request_ipis, 0); 955 1.1.2.15 cliff if (ipi_mask == 0) 956 1.1.2.15 cliff return 0; 957 1.1.2.15 cliff 958 1.1.2.15 cliff ipi_process(ci, ipi_mask); 959 1.1.2.15 cliff 960 1.1.2.15 cliff return 1; 961 1.1.2.15 cliff } 962 1.1.2.15 cliff #endif /* MULTIPROCESSOR */ 963 1.1.2.15 cliff 964 1.1.2.20 cliff #if defined(DIAGNOSTIC) || defined(IOINTR_DEBUG) || defined(DDB) 965 1.1.2.15 cliff int 966 1.1.2.15 cliff rmixl_intrhand_print_subr(int vec) 967 1.1.2.15 cliff { 968 1.1.2.15 cliff rmixl_intrhand_t *ih = &rmixl_intrhand[vec]; 969 1.1.2.20 cliff printf("vec %d: func %p, arg %p, vec %d, ipl %d, mask %#x\n", 970 1.1.2.20 cliff vec, ih->ih_func, ih->ih_arg, ih->ih_vec, ih->ih_ipl, 971 1.1.2.15 cliff ih->ih_cpumask); 972 1.1.2.15 cliff return 0; 973 1.1.2.15 cliff } 974 1.1.2.15 cliff int 975 1.1.2.15 cliff rmixl_intrhand_print(void) 976 1.1.2.15 cliff { 977 1.1.2.15 cliff for (int vec=0; vec < NINTRVECS ; vec++) 978 1.1.2.15 cliff rmixl_intrhand_print_subr(vec); 979 1.1.2.15 cliff return 0; 980 1.1.2.15 cliff } 981 1.1.2.20 cliff 982 1.1.2.20 cliff static inline void 983 1.1.2.20 cliff rmixl_irt_entry_print(u_int irt) 984 1.1.2.20 cliff { 985 1.1.2.20 cliff uint32_t c0, c1; 986 1.1.2.20 cliff 987 1.1.2.20 cliff if ((irt < 0) || (irt > NIRTS)) 988 1.1.2.20 cliff return; 989 1.1.2.20 cliff c0 = RMIXL_PICREG_READ(RMIXL_PIC_IRTENTRYC0(irt)); 990 1.1.2.20 cliff c1 = RMIXL_PICREG_READ(RMIXL_PIC_IRTENTRYC1(irt)); 991 1.1.2.20 cliff printf("irt[%d]: %#x, %#x\n", irt, c0, c1); 992 1.1.2.20 cliff } 993 1.1.2.20 cliff 994 1.1.2.15 cliff int 995 1.1.2.15 cliff rmixl_irt_print(void) 996 1.1.2.15 cliff { 997 1.1.2.15 cliff printf("%s:\n", __func__); 998 1.1.2.15 cliff for (int irt=0; irt < NIRTS ; irt++) 999 1.1.2.15 cliff rmixl_irt_entry_print(irt); 1000 1.1.2.4 cliff return 0; 1001 1.1.2.4 cliff } 1002 1.1.2.20 cliff 1003 1.1.2.20 cliff void 1004 1.1.2.20 cliff rmixl_ipl_eimr_map_print(void) 1005 1.1.2.20 cliff { 1006 1.1.2.20 cliff printf("IPL_NONE=%d, mask %#"PRIx64"\n", 1007 1.1.2.20 cliff IPL_NONE, ipl_eimr_map[IPL_NONE]); 1008 1.1.2.20 cliff printf("IPL_SOFTCLOCK=%d, mask %#"PRIx64"\n", 1009 1.1.2.20 cliff IPL_SOFTCLOCK, ipl_eimr_map[IPL_SOFTCLOCK]); 1010 1.1.2.20 cliff printf("IPL_SOFTNET=%d, mask %#"PRIx64"\n", 1011 1.1.2.20 cliff IPL_SOFTNET, ipl_eimr_map[IPL_SOFTNET]); 1012 1.1.2.20 cliff printf("IPL_VM=%d, mask %#"PRIx64"\n", 1013 1.1.2.20 cliff IPL_VM, ipl_eimr_map[IPL_VM]); 1014 1.1.2.20 cliff printf("IPL_SCHED=%d, mask %#"PRIx64"\n", 1015 1.1.2.20 cliff IPL_SCHED, ipl_eimr_map[IPL_SCHED]); 1016 1.1.2.20 cliff printf("IPL_DDB=%d, mask %#"PRIx64"\n", 1017 1.1.2.20 cliff IPL_DDB, ipl_eimr_map[IPL_DDB]); 1018 1.1.2.20 cliff printf("IPL_HIGH=%d, mask %#"PRIx64"\n", 1019 1.1.2.20 cliff IPL_HIGH, ipl_eimr_map[IPL_HIGH]); 1020 1.1.2.20 cliff } 1021 1.1.2.20 cliff 1022 1.1.2.4 cliff #endif 1023
Indexes created Tue Oct 21 16:10:11 GMT 2025