e500_intr.c revision 1.43
1 1.43 rin /* $NetBSD: e500_intr.c,v 1.43 2020/07/06 09:34:16 rin Exp $ */ 2 1.2 matt /*- 3 1.2 matt * Copyright (c) 2010, 2011 The NetBSD Foundation, Inc. 4 1.2 matt * All rights reserved. 5 1.2 matt * 6 1.2 matt * This code is derived from software contributed to The NetBSD Foundation 7 1.2 matt * by Raytheon BBN Technologies Corp and Defense Advanced Research Projects 8 1.2 matt * Agency and which was developed by Matt Thomas of 3am Software Foundry. 9 1.2 matt * 10 1.2 matt * This material is based upon work supported by the Defense Advanced Research 11 1.2 matt * Projects Agency and Space and Naval Warfare Systems Center, Pacific, under 12 1.2 matt * Contract No. N66001-09-C-2073. 13 1.2 matt * Approved for Public Release, Distribution Unlimited 14 1.2 matt * 15 1.2 matt * Redistribution and use in source and binary forms, with or without 16 1.2 matt * modification, are permitted provided that the following conditions 17 1.2 matt * are met: 18 1.2 matt * 1. Redistributions of source code must retain the above copyright 19 1.2 matt * notice, this list of conditions and the following disclaimer. 20 1.2 matt * 2. Redistributions in binary form must reproduce the above copyright 21 1.2 matt * notice, this list of conditions and the following disclaimer in the 22 1.2 matt * documentation and/or other materials provided with the distribution. 23 1.2 matt * 24 1.2 matt * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 25 1.2 matt * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 26 1.2 matt * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 27 1.2 matt * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 28 1.2 matt * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 29 1.2 matt * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 30 1.2 matt * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 31 1.2 matt * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 32 1.2 matt * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 33 1.2 matt * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 34 1.2 matt * POSSIBILITY OF SUCH DAMAGE. 35 1.2 matt */ 36 1.2 matt 37 1.2 matt #define __INTR_PRIVATE 38 1.2 matt 39 1.15 dholland #include <sys/cdefs.h> 40 1.43 rin __KERNEL_RCSID(0, "$NetBSD: e500_intr.c,v 1.43 2020/07/06 09:34:16 rin Exp $"); 41 1.43 rin 42 1.43 rin #ifdef _KERNEL_OPT 43 1.43 rin #include "opt_ddb.h" 44 1.43 rin #include "opt_mpc85xx.h" 45 1.43 rin #include "opt_multiprocessor.h" 46 1.43 rin #endif 47 1.15 dholland 48 1.2 matt #include <sys/param.h> 49 1.2 matt #include <sys/proc.h> 50 1.2 matt #include <sys/intr.h> 51 1.2 matt #include <sys/cpu.h> 52 1.2 matt #include <sys/kmem.h> 53 1.2 matt #include <sys/atomic.h> 54 1.2 matt #include <sys/bus.h> 55 1.8 matt #include <sys/xcall.h> 56 1.24 rmind #include <sys/ipi.h> 57 1.8 matt #include <sys/bitops.h> 58 1.34 nonaka #include <sys/interrupt.h> 59 1.2 matt 60 1.2 matt #include <uvm/uvm_extern.h> 61 1.2 matt 62 1.10 matt #ifdef __HAVE_FAST_SOFTINTS 63 1.10 matt #include <powerpc/softint.h> 64 1.10 matt #endif 65 1.10 matt 66 1.2 matt #include <powerpc/spr.h> 67 1.2 matt #include <powerpc/booke/spr.h> 68 1.2 matt 69 1.2 matt #include <powerpc/booke/cpuvar.h> 70 1.2 matt #include <powerpc/booke/e500reg.h> 71 1.2 matt #include <powerpc/booke/e500var.h> 72 1.2 matt #include <powerpc/booke/openpicreg.h> 73 1.2 matt 74 1.2 matt #define IPL2CTPR(ipl) ((ipl) + 15 - IPL_HIGH) 75 1.2 matt #define CTPR2IPL(ctpr) ((ctpr) - (15 - IPL_HIGH)) 76 1.2 matt 77 1.2 matt #define IST_PERCPU_P(ist) ((ist) >= IST_TIMER) 78 1.2 matt 79 1.2 matt struct e500_intr_irq_info { 80 1.2 matt bus_addr_t irq_vpr; 81 1.2 matt bus_addr_t irq_dr; 82 1.2 matt u_int irq_vector; 83 1.2 matt }; 84 1.2 matt 85 1.2 matt struct intr_source { 86 1.2 matt int (*is_func)(void *); 87 1.2 matt void *is_arg; 88 1.2 matt int8_t is_ipl; 89 1.2 matt uint8_t is_ist; 90 1.2 matt uint8_t is_irq; 91 1.30 nonaka uint8_t is_refcnt; 92 1.2 matt bus_size_t is_vpr; 93 1.2 matt bus_size_t is_dr; 94 1.34 nonaka char is_source[INTRIDBUF]; 95 1.34 nonaka char is_xname[INTRDEVNAMEBUF]; 96 1.2 matt }; 97 1.2 matt 98 1.2 matt #define INTR_SOURCE_INITIALIZER \ 99 1.2 matt { .is_func = e500_intr_spurious, .is_arg = NULL, \ 100 1.34 nonaka .is_irq = -1, .is_ipl = IPL_NONE, .is_ist = IST_NONE, \ 101 1.34 nonaka .is_source = "", .is_xname = "", } 102 1.2 matt 103 1.2 matt struct e500_intr_name { 104 1.2 matt uint8_t in_irq; 105 1.2 matt const char in_name[15]; 106 1.2 matt }; 107 1.2 matt 108 1.2 matt static const struct e500_intr_name e500_onchip_intr_names[] = { 109 1.2 matt { ISOURCE_L2, "l2" }, 110 1.2 matt { ISOURCE_ECM, "ecm" }, 111 1.2 matt { ISOURCE_DDR, "ddr" }, 112 1.2 matt { ISOURCE_LBC, "lbc" }, 113 1.2 matt { ISOURCE_DMA_CHAN1, "dma-chan1" }, 114 1.2 matt { ISOURCE_DMA_CHAN2, "dma-chan2" }, 115 1.2 matt { ISOURCE_DMA_CHAN3, "dma-chan3" }, 116 1.2 matt { ISOURCE_DMA_CHAN4, "dma-chan4" }, 117 1.2 matt { ISOURCE_PCI1, "pci1" }, 118 1.2 matt { ISOURCE_PCIEX2, "pcie2" }, 119 1.2 matt { ISOURCE_PCIEX , "pcie1" }, 120 1.2 matt { ISOURCE_PCIEX3, "pcie3" }, 121 1.3 matt { ISOURCE_USB1, "usb1" }, 122 1.2 matt { ISOURCE_ETSEC1_TX, "etsec1-tx" }, 123 1.2 matt { ISOURCE_ETSEC1_RX, "etsec1-rx" }, 124 1.2 matt { ISOURCE_ETSEC3_TX, "etsec3-tx" }, 125 1.2 matt { ISOURCE_ETSEC3_RX, "etsec3-rx" }, 126 1.2 matt { ISOURCE_ETSEC3_ERR, "etsec3-err" }, 127 1.2 matt { ISOURCE_ETSEC1_ERR, "etsec1-err" }, 128 1.2 matt { ISOURCE_ETSEC2_TX, "etsec2-tx" }, 129 1.2 matt { ISOURCE_ETSEC2_RX, "etsec2-rx" }, 130 1.2 matt { ISOURCE_ETSEC4_TX, "etsec4-tx" }, 131 1.2 matt { ISOURCE_ETSEC4_RX, "etsec4-rx" }, 132 1.2 matt { ISOURCE_ETSEC4_ERR, "etsec4-err" }, 133 1.2 matt { ISOURCE_ETSEC2_ERR, "etsec2-err" }, 134 1.2 matt { ISOURCE_DUART, "duart" }, 135 1.2 matt { ISOURCE_I2C, "i2c" }, 136 1.2 matt { ISOURCE_PERFMON, "perfmon" }, 137 1.2 matt { ISOURCE_SECURITY1, "sec1" }, 138 1.3 matt { ISOURCE_GPIO, "gpio" }, 139 1.2 matt { ISOURCE_SRIO_EWPU, "srio-ewpu" }, 140 1.2 matt { ISOURCE_SRIO_ODBELL, "srio-odbell" }, 141 1.2 matt { ISOURCE_SRIO_IDBELL, "srio-idbell" }, 142 1.2 matt { ISOURCE_SRIO_OMU1, "srio-omu1" }, 143 1.2 matt { ISOURCE_SRIO_IMU1, "srio-imu1" }, 144 1.2 matt { ISOURCE_SRIO_OMU2, "srio-omu2" }, 145 1.7 matt { ISOURCE_SRIO_IMU2, "srio-imu2" }, 146 1.2 matt { ISOURCE_SECURITY2, "sec2" }, 147 1.2 matt { ISOURCE_SPI, "spi" }, 148 1.2 matt { ISOURCE_ETSEC1_PTP, "etsec1-ptp" }, 149 1.3 matt { ISOURCE_ETSEC2_PTP, "etsec2-ptp" }, 150 1.2 matt { ISOURCE_ETSEC3_PTP, "etsec3-ptp" }, 151 1.3 matt { ISOURCE_ETSEC4_PTP, "etsec4-ptp" }, 152 1.2 matt { ISOURCE_ESDHC, "esdhc" }, 153 1.2 matt { 0, "" }, 154 1.2 matt }; 155 1.2 matt 156 1.3 matt const struct e500_intr_name default_external_intr_names[] = { 157 1.2 matt { 0, "" }, 158 1.2 matt }; 159 1.2 matt 160 1.2 matt static const struct e500_intr_name e500_msigroup_intr_names[] = { 161 1.2 matt { 0, "msigroup0" }, 162 1.2 matt { 1, "msigroup1" }, 163 1.2 matt { 2, "msigroup2" }, 164 1.2 matt { 3, "msigroup3" }, 165 1.2 matt { 4, "msigroup4" }, 166 1.2 matt { 5, "msigroup5" }, 167 1.2 matt { 6, "msigroup6" }, 168 1.2 matt { 7, "msigroup7" }, 169 1.2 matt { 0, "" }, 170 1.2 matt }; 171 1.2 matt 172 1.2 matt static const struct e500_intr_name e500_timer_intr_names[] = { 173 1.2 matt { 0, "timer0" }, 174 1.2 matt { 1, "timer1" }, 175 1.2 matt { 2, "timer2" }, 176 1.2 matt { 3, "timer3" }, 177 1.2 matt { 0, "" }, 178 1.2 matt }; 179 1.2 matt 180 1.2 matt static const struct e500_intr_name e500_ipi_intr_names[] = { 181 1.2 matt { 0, "ipi0" }, 182 1.2 matt { 1, "ipi1" }, 183 1.2 matt { 2, "ipi2" }, 184 1.2 matt { 3, "ipi3" }, 185 1.2 matt { 0, "" }, 186 1.2 matt }; 187 1.2 matt 188 1.2 matt static const struct e500_intr_name e500_mi_intr_names[] = { 189 1.2 matt { 0, "mi0" }, 190 1.2 matt { 1, "mi1" }, 191 1.2 matt { 2, "mi2" }, 192 1.2 matt { 3, "mi3" }, 193 1.2 matt { 0, "" }, 194 1.2 matt }; 195 1.2 matt 196 1.2 matt struct e500_intr_info { 197 1.2 matt u_int ii_external_sources; 198 1.2 matt uint32_t ii_onchip_bitmap[2]; 199 1.2 matt u_int ii_onchip_sources; 200 1.2 matt u_int ii_msigroup_sources; 201 1.2 matt u_int ii_ipi_sources; /* per-cpu */ 202 1.2 matt u_int ii_timer_sources; /* per-cpu */ 203 1.2 matt u_int ii_mi_sources; /* per-cpu */ 204 1.2 matt u_int ii_percpu_sources; 205 1.2 matt const struct e500_intr_name *ii_external_intr_names; 206 1.2 matt const struct e500_intr_name *ii_onchip_intr_names; 207 1.2 matt u_int8_t ii_ist_vectors[IST_MAX+1]; 208 1.2 matt }; 209 1.2 matt 210 1.3 matt static kmutex_t e500_intr_lock __cacheline_aligned; 211 1.2 matt static struct e500_intr_info e500_intr_info; 212 1.2 matt 213 1.3 matt #define INTR_INFO_DECL(lc_chip, UC_CHIP) \ 214 1.3 matt static const struct e500_intr_info lc_chip##_intr_info = { \ 215 1.3 matt .ii_external_sources = UC_CHIP ## _EXTERNALSOURCES, \ 216 1.3 matt .ii_onchip_bitmap = UC_CHIP ## _ONCHIPBITMAP, \ 217 1.3 matt .ii_onchip_sources = UC_CHIP ## _ONCHIPSOURCES, \ 218 1.3 matt .ii_msigroup_sources = UC_CHIP ## _MSIGROUPSOURCES, \ 219 1.3 matt .ii_timer_sources = UC_CHIP ## _TIMERSOURCES, \ 220 1.3 matt .ii_ipi_sources = UC_CHIP ## _IPISOURCES, \ 221 1.3 matt .ii_mi_sources = UC_CHIP ## _MISOURCES, \ 222 1.3 matt .ii_percpu_sources = UC_CHIP ## _TIMERSOURCES \ 223 1.3 matt + UC_CHIP ## _IPISOURCES + UC_CHIP ## _MISOURCES, \ 224 1.3 matt .ii_external_intr_names = lc_chip ## _external_intr_names, \ 225 1.3 matt .ii_onchip_intr_names = lc_chip ## _onchip_intr_names, \ 226 1.3 matt .ii_ist_vectors = { \ 227 1.3 matt [IST_NONE] = ~0, \ 228 1.3 matt [IST_EDGE] = 0, \ 229 1.3 matt [IST_LEVEL_LOW] = 0, \ 230 1.3 matt [IST_LEVEL_HIGH] = 0, \ 231 1.11 matt [IST_PULSE] = 0, \ 232 1.3 matt [IST_ONCHIP] = UC_CHIP ## _EXTERNALSOURCES, \ 233 1.3 matt [IST_MSIGROUP] = UC_CHIP ## _EXTERNALSOURCES \ 234 1.3 matt + UC_CHIP ## _ONCHIPSOURCES, \ 235 1.3 matt [IST_TIMER] = UC_CHIP ## _EXTERNALSOURCES \ 236 1.3 matt + UC_CHIP ## _ONCHIPSOURCES \ 237 1.3 matt + UC_CHIP ## _MSIGROUPSOURCES, \ 238 1.3 matt [IST_IPI] = UC_CHIP ## _EXTERNALSOURCES \ 239 1.3 matt + UC_CHIP ## _ONCHIPSOURCES \ 240 1.3 matt + UC_CHIP ## _MSIGROUPSOURCES \ 241 1.3 matt + UC_CHIP ## _TIMERSOURCES, \ 242 1.3 matt [IST_MI] = UC_CHIP ## _EXTERNALSOURCES \ 243 1.3 matt + UC_CHIP ## _ONCHIPSOURCES \ 244 1.3 matt + UC_CHIP ## _MSIGROUPSOURCES \ 245 1.3 matt + UC_CHIP ## _TIMERSOURCES \ 246 1.3 matt + UC_CHIP ## _IPISOURCES, \ 247 1.3 matt [IST_MAX] = UC_CHIP ## _EXTERNALSOURCES \ 248 1.3 matt + UC_CHIP ## _ONCHIPSOURCES \ 249 1.3 matt + UC_CHIP ## _MSIGROUPSOURCES \ 250 1.3 matt + UC_CHIP ## _TIMERSOURCES \ 251 1.3 matt + UC_CHIP ## _IPISOURCES \ 252 1.3 matt + UC_CHIP ## _MISOURCES, \ 253 1.3 matt }, \ 254 1.3 matt } 255 1.3 matt 256 1.3 matt #ifdef MPC8536 257 1.3 matt #define mpc8536_external_intr_names default_external_intr_names 258 1.3 matt const struct e500_intr_name mpc8536_onchip_intr_names[] = { 259 1.3 matt { ISOURCE_SATA2, "sata2" }, 260 1.3 matt { ISOURCE_USB2, "usb2" }, 261 1.3 matt { ISOURCE_USB3, "usb3" }, 262 1.3 matt { ISOURCE_SATA1, "sata1" }, 263 1.3 matt { 0, "" }, 264 1.3 matt }; 265 1.3 matt 266 1.3 matt INTR_INFO_DECL(mpc8536, MPC8536); 267 1.3 matt #endif 268 1.3 matt 269 1.3 matt #ifdef MPC8544 270 1.3 matt #define mpc8544_external_intr_names default_external_intr_names 271 1.3 matt const struct e500_intr_name mpc8544_onchip_intr_names[] = { 272 1.3 matt { 0, "" }, 273 1.3 matt }; 274 1.3 matt 275 1.3 matt INTR_INFO_DECL(mpc8544, MPC8544); 276 1.3 matt #endif 277 1.3 matt #ifdef MPC8548 278 1.3 matt #define mpc8548_external_intr_names default_external_intr_names 279 1.3 matt const struct e500_intr_name mpc8548_onchip_intr_names[] = { 280 1.3 matt { ISOURCE_PCI1, "pci1" }, 281 1.3 matt { ISOURCE_PCI2, "pci2" }, 282 1.3 matt { 0, "" }, 283 1.2 matt }; 284 1.2 matt 285 1.3 matt INTR_INFO_DECL(mpc8548, MPC8548); 286 1.3 matt #endif 287 1.3 matt #ifdef MPC8555 288 1.3 matt #define mpc8555_external_intr_names default_external_intr_names 289 1.3 matt const struct e500_intr_name mpc8555_onchip_intr_names[] = { 290 1.3 matt { ISOURCE_PCI2, "pci2" }, 291 1.3 matt { ISOURCE_CPM, "CPM" }, 292 1.3 matt { 0, "" }, 293 1.3 matt }; 294 1.3 matt 295 1.3 matt INTR_INFO_DECL(mpc8555, MPC8555); 296 1.3 matt #endif 297 1.3 matt #ifdef MPC8568 298 1.3 matt #define mpc8568_external_intr_names default_external_intr_names 299 1.3 matt const struct e500_intr_name mpc8568_onchip_intr_names[] = { 300 1.3 matt { ISOURCE_QEB_LOW, "QEB low" }, 301 1.3 matt { ISOURCE_QEB_PORT, "QEB port" }, 302 1.3 matt { ISOURCE_QEB_IECC, "QEB iram ecc" }, 303 1.3 matt { ISOURCE_QEB_MUECC, "QEB ram ecc" }, 304 1.3 matt { ISOURCE_TLU1, "tlu1" }, 305 1.3 matt { ISOURCE_QEB_HIGH, "QEB high" }, 306 1.3 matt { 0, "" }, 307 1.3 matt }; 308 1.3 matt 309 1.3 matt INTR_INFO_DECL(mpc8568, MPC8568); 310 1.3 matt #endif 311 1.3 matt #ifdef MPC8572 312 1.3 matt #define mpc8572_external_intr_names default_external_intr_names 313 1.3 matt const struct e500_intr_name mpc8572_onchip_intr_names[] = { 314 1.3 matt { ISOURCE_PCIEX3_MPC8572, "pcie3" }, 315 1.3 matt { ISOURCE_FEC, "fec" }, 316 1.3 matt { ISOURCE_PME_GENERAL, "pme" }, 317 1.3 matt { ISOURCE_TLU1, "tlu1" }, 318 1.3 matt { ISOURCE_TLU2, "tlu2" }, 319 1.3 matt { ISOURCE_PME_CHAN1, "pme-chan1" }, 320 1.3 matt { ISOURCE_PME_CHAN2, "pme-chan2" }, 321 1.3 matt { ISOURCE_PME_CHAN3, "pme-chan3" }, 322 1.3 matt { ISOURCE_PME_CHAN4, "pme-chan4" }, 323 1.3 matt { ISOURCE_DMA2_CHAN1, "dma2-chan1" }, 324 1.3 matt { ISOURCE_DMA2_CHAN2, "dma2-chan2" }, 325 1.3 matt { ISOURCE_DMA2_CHAN3, "dma2-chan3" }, 326 1.3 matt { ISOURCE_DMA2_CHAN4, "dma2-chan4" }, 327 1.3 matt { 0, "" }, 328 1.2 matt }; 329 1.2 matt 330 1.3 matt INTR_INFO_DECL(mpc8572, MPC8572); 331 1.3 matt #endif 332 1.19 matt 333 1.19 matt #ifdef P1025 334 1.19 matt #define p1025_external_intr_names default_external_intr_names 335 1.19 matt const struct e500_intr_name p1025_onchip_intr_names[] = { 336 1.19 matt { ISOURCE_PCIEX3_MPC8572, "pcie3" }, 337 1.19 matt { ISOURCE_ETSEC1_G1_TX, "etsec1-g1-tx" }, 338 1.19 matt { ISOURCE_ETSEC1_G1_RX, "etsec1-g1-rx" }, 339 1.19 matt { ISOURCE_ETSEC1_G1_ERR, "etsec1-g1-error" }, 340 1.19 matt { ISOURCE_ETSEC2_G1_TX, "etsec2-g1-tx" }, 341 1.19 matt { ISOURCE_ETSEC2_G1_RX, "etsec2-g1-rx" }, 342 1.19 matt { ISOURCE_ETSEC2_G1_ERR, "etsec2-g1-error" }, 343 1.19 matt { ISOURCE_ETSEC3_G1_TX, "etsec3-g1-tx" }, 344 1.19 matt { ISOURCE_ETSEC3_G1_RX, "etsec3-g1-rx" }, 345 1.19 matt { ISOURCE_ETSEC3_G1_ERR, "etsec3-g1-error" }, 346 1.20 matt { ISOURCE_QEB_MUECC, "qeb-low" }, 347 1.20 matt { ISOURCE_QEB_HIGH, "qeb-crit" }, 348 1.19 matt { ISOURCE_DMA2_CHAN1, "dma2-chan1" }, 349 1.19 matt { ISOURCE_DMA2_CHAN2, "dma2-chan2" }, 350 1.19 matt { ISOURCE_DMA2_CHAN3, "dma2-chan3" }, 351 1.19 matt { ISOURCE_DMA2_CHAN4, "dma2-chan4" }, 352 1.19 matt { 0, "" }, 353 1.19 matt }; 354 1.19 matt 355 1.19 matt INTR_INFO_DECL(p1025, P1025); 356 1.19 matt #endif 357 1.19 matt 358 1.3 matt #ifdef P2020 359 1.3 matt #define p20x0_external_intr_names default_external_intr_names 360 1.3 matt const struct e500_intr_name p20x0_onchip_intr_names[] = { 361 1.3 matt { ISOURCE_PCIEX3_MPC8572, "pcie3" }, 362 1.3 matt { ISOURCE_DMA2_CHAN1, "dma2-chan1" }, 363 1.3 matt { ISOURCE_DMA2_CHAN2, "dma2-chan2" }, 364 1.3 matt { ISOURCE_DMA2_CHAN3, "dma2-chan3" }, 365 1.3 matt { ISOURCE_DMA2_CHAN4, "dma2-chan4" }, 366 1.3 matt { 0, "" }, 367 1.2 matt }; 368 1.2 matt 369 1.3 matt INTR_INFO_DECL(p20x0, P20x0); 370 1.3 matt #endif 371 1.3 matt 372 1.28 nonaka #ifdef P1023 373 1.28 nonaka #define p1023_external_intr_names default_external_intr_names 374 1.28 nonaka const struct e500_intr_name p1023_onchip_intr_names[] = { 375 1.28 nonaka { ISOURCE_FMAN, "fman" }, 376 1.28 nonaka { ISOURCE_MDIO, "mdio" }, 377 1.28 nonaka { ISOURCE_QMAN0, "qman0" }, 378 1.28 nonaka { ISOURCE_BMAN0, "bman0" }, 379 1.28 nonaka { ISOURCE_QMAN1, "qman1" }, 380 1.28 nonaka { ISOURCE_BMAN1, "bman1" }, 381 1.28 nonaka { ISOURCE_QMAN2, "qman2" }, 382 1.28 nonaka { ISOURCE_BMAN2, "bman2" }, 383 1.28 nonaka { ISOURCE_SECURITY2_P1023, "sec2" }, 384 1.28 nonaka { ISOURCE_SEC_GENERAL, "sec-general" }, 385 1.28 nonaka { ISOURCE_DMA2_CHAN1, "dma2-chan1" }, 386 1.28 nonaka { ISOURCE_DMA2_CHAN2, "dma2-chan2" }, 387 1.28 nonaka { ISOURCE_DMA2_CHAN3, "dma2-chan3" }, 388 1.28 nonaka { ISOURCE_DMA2_CHAN4, "dma2-chan4" }, 389 1.28 nonaka { 0, "" }, 390 1.28 nonaka }; 391 1.28 nonaka 392 1.28 nonaka INTR_INFO_DECL(p1023, P1023); 393 1.28 nonaka #endif 394 1.28 nonaka 395 1.2 matt static const char ist_names[][12] = { 396 1.2 matt [IST_NONE] = "none", 397 1.2 matt [IST_EDGE] = "edge", 398 1.2 matt [IST_LEVEL_LOW] = "level-", 399 1.2 matt [IST_LEVEL_HIGH] = "level+", 400 1.11 matt [IST_PULSE] = "pulse", 401 1.2 matt [IST_MSI] = "msi", 402 1.2 matt [IST_ONCHIP] = "onchip", 403 1.2 matt [IST_MSIGROUP] = "msigroup", 404 1.2 matt [IST_TIMER] = "timer", 405 1.2 matt [IST_IPI] = "ipi", 406 1.2 matt [IST_MI] = "msgint", 407 1.2 matt }; 408 1.2 matt 409 1.2 matt static struct intr_source *e500_intr_sources; 410 1.2 matt static const struct intr_source *e500_intr_last_source; 411 1.2 matt 412 1.34 nonaka static void *e500_intr_establish(int, int, int, int (*)(void *), void *, 413 1.34 nonaka const char *); 414 1.2 matt static void e500_intr_disestablish(void *); 415 1.8 matt static void e500_intr_cpu_attach(struct cpu_info *ci); 416 1.8 matt static void e500_intr_cpu_hatch(struct cpu_info *ci); 417 1.8 matt static void e500_intr_cpu_send_ipi(cpuid_t, uintptr_t); 418 1.2 matt static void e500_intr_init(void); 419 1.32 nonaka static void e500_intr_init_precpu(void); 420 1.23 christos static const char *e500_intr_string(int, int, char *, size_t); 421 1.11 matt static const char *e500_intr_typename(int); 422 1.2 matt static void e500_critintr(struct trapframe *tf); 423 1.2 matt static void e500_decrintr(struct trapframe *tf); 424 1.2 matt static void e500_extintr(struct trapframe *tf); 425 1.2 matt static void e500_fitintr(struct trapframe *tf); 426 1.2 matt static void e500_wdogintr(struct trapframe *tf); 427 1.2 matt static void e500_spl0(void); 428 1.2 matt static int e500_splraise(int); 429 1.2 matt static void e500_splx(int); 430 1.34 nonaka static const char *e500_intr_all_name_lookup(int, int); 431 1.2 matt 432 1.2 matt const struct intrsw e500_intrsw = { 433 1.2 matt .intrsw_establish = e500_intr_establish, 434 1.2 matt .intrsw_disestablish = e500_intr_disestablish, 435 1.2 matt .intrsw_init = e500_intr_init, 436 1.8 matt .intrsw_cpu_attach = e500_intr_cpu_attach, 437 1.8 matt .intrsw_cpu_hatch = e500_intr_cpu_hatch, 438 1.8 matt .intrsw_cpu_send_ipi = e500_intr_cpu_send_ipi, 439 1.2 matt .intrsw_string = e500_intr_string, 440 1.11 matt .intrsw_typename = e500_intr_typename, 441 1.2 matt 442 1.2 matt .intrsw_critintr = e500_critintr, 443 1.2 matt .intrsw_decrintr = e500_decrintr, 444 1.2 matt .intrsw_extintr = e500_extintr, 445 1.2 matt .intrsw_fitintr = e500_fitintr, 446 1.2 matt .intrsw_wdogintr = e500_wdogintr, 447 1.2 matt 448 1.2 matt .intrsw_splraise = e500_splraise, 449 1.2 matt .intrsw_splx = e500_splx, 450 1.2 matt .intrsw_spl0 = e500_spl0, 451 1.2 matt 452 1.2 matt #ifdef __HAVE_FAST_SOFTINTS 453 1.10 matt .intrsw_softint_init_md = powerpc_softint_init_md, 454 1.10 matt .intrsw_softint_trigger = powerpc_softint_trigger, 455 1.2 matt #endif 456 1.2 matt }; 457 1.2 matt 458 1.21 matt static bool wdog_barked; 459 1.21 matt 460 1.2 matt static inline uint32_t 461 1.2 matt openpic_read(struct cpu_softc *cpu, bus_size_t offset) 462 1.2 matt { 463 1.2 matt 464 1.2 matt return bus_space_read_4(cpu->cpu_bst, cpu->cpu_bsh, 465 1.2 matt OPENPIC_BASE + offset); 466 1.2 matt } 467 1.2 matt 468 1.2 matt static inline void 469 1.2 matt openpic_write(struct cpu_softc *cpu, bus_size_t offset, uint32_t val) 470 1.2 matt { 471 1.2 matt 472 1.2 matt return bus_space_write_4(cpu->cpu_bst, cpu->cpu_bsh, 473 1.2 matt OPENPIC_BASE + offset, val); 474 1.2 matt } 475 1.2 matt 476 1.2 matt static const char * 477 1.2 matt e500_intr_external_name_lookup(int irq) 478 1.2 matt { 479 1.2 matt prop_array_t extirqs = board_info_get_object("external-irqs"); 480 1.2 matt prop_string_t irqname = prop_array_get(extirqs, irq); 481 1.2 matt KASSERT(irqname != NULL); 482 1.2 matt KASSERT(prop_object_type(irqname) == PROP_TYPE_STRING); 483 1.2 matt 484 1.2 matt return prop_string_cstring_nocopy(irqname); 485 1.2 matt } 486 1.2 matt 487 1.2 matt static const char * 488 1.2 matt e500_intr_name_lookup(const struct e500_intr_name *names, int irq) 489 1.2 matt { 490 1.2 matt for (; names->in_name[0] != '\0'; names++) { 491 1.2 matt if (names->in_irq == irq) 492 1.2 matt return names->in_name; 493 1.2 matt } 494 1.2 matt 495 1.2 matt return NULL; 496 1.2 matt } 497 1.2 matt 498 1.2 matt static const char * 499 1.2 matt e500_intr_onchip_name_lookup(int irq) 500 1.2 matt { 501 1.2 matt const char *name; 502 1.2 matt 503 1.5 matt name = e500_intr_name_lookup(e500_intr_info.ii_onchip_intr_names, irq); 504 1.5 matt if (name == NULL) 505 1.5 matt name = e500_intr_name_lookup(e500_onchip_intr_names, irq); 506 1.2 matt 507 1.5 matt return name; 508 1.2 matt } 509 1.2 matt 510 1.2 matt static inline void 511 1.2 matt e500_splset(struct cpu_info *ci, int ipl) 512 1.2 matt { 513 1.2 matt struct cpu_softc * const cpu = ci->ci_softc; 514 1.13 matt 515 1.42 rin #ifdef __HAVE_FAST_SOFTINTS /* XXX */ 516 1.2 matt KASSERT((curlwp->l_pflag & LP_INTR) == 0 || ipl != IPL_NONE); 517 1.42 rin #endif 518 1.13 matt const u_int ctpr = IPL2CTPR(ipl); 519 1.12 matt KASSERT(openpic_read(cpu, OPENPIC_CTPR) == IPL2CTPR(ci->ci_cpl)); 520 1.2 matt openpic_write(cpu, OPENPIC_CTPR, ctpr); 521 1.2 matt KASSERT(openpic_read(cpu, OPENPIC_CTPR) == ctpr); 522 1.21 matt #ifdef DIAGNOSTIC 523 1.21 matt cpu->cpu_spl_tb[ipl][ci->ci_cpl] = mftb(); 524 1.21 matt #endif 525 1.2 matt ci->ci_cpl = ipl; 526 1.2 matt } 527 1.2 matt 528 1.2 matt static void 529 1.2 matt e500_spl0(void) 530 1.2 matt { 531 1.12 matt wrtee(0); 532 1.12 matt 533 1.2 matt struct cpu_info * const ci = curcpu(); 534 1.2 matt 535 1.2 matt #ifdef __HAVE_FAST_SOFTINTS 536 1.2 matt if (__predict_false(ci->ci_data.cpu_softints != 0)) { 537 1.2 matt e500_splset(ci, IPL_HIGH); 538 1.21 matt wrtee(PSL_EE); 539 1.10 matt powerpc_softint(ci, IPL_NONE, 540 1.8 matt (vaddr_t)__builtin_return_address(0)); 541 1.21 matt wrtee(0); 542 1.2 matt } 543 1.2 matt #endif /* __HAVE_FAST_SOFTINTS */ 544 1.2 matt e500_splset(ci, IPL_NONE); 545 1.2 matt 546 1.2 matt wrtee(PSL_EE); 547 1.2 matt } 548 1.2 matt 549 1.2 matt static void 550 1.2 matt e500_splx(int ipl) 551 1.2 matt { 552 1.2 matt struct cpu_info * const ci = curcpu(); 553 1.2 matt const int old_ipl = ci->ci_cpl; 554 1.2 matt 555 1.18 matt /* if we paniced because of watchdog, PSL_CE will be clear. */ 556 1.21 matt KASSERT(wdog_barked || (mfmsr() & PSL_CE)); 557 1.2 matt 558 1.2 matt if (ipl == old_ipl) 559 1.2 matt return; 560 1.2 matt 561 1.2 matt if (__predict_false(ipl > old_ipl)) { 562 1.2 matt printf("%s: %p: cpl=%u: ignoring splx(%u) to raise ipl\n", 563 1.2 matt __func__, __builtin_return_address(0), old_ipl, ipl); 564 1.2 matt if (old_ipl == IPL_NONE) 565 1.2 matt Debugger(); 566 1.2 matt } 567 1.2 matt 568 1.2 matt // const 569 1.2 matt register_t msr = wrtee(0); 570 1.2 matt #ifdef __HAVE_FAST_SOFTINTS 571 1.17 matt const u_int softints = ci->ci_data.cpu_softints & (IPL_SOFTMASK << ipl); 572 1.2 matt if (__predict_false(softints != 0)) { 573 1.2 matt e500_splset(ci, IPL_HIGH); 574 1.21 matt wrtee(msr); 575 1.10 matt powerpc_softint(ci, ipl, 576 1.8 matt (vaddr_t)__builtin_return_address(0)); 577 1.21 matt wrtee(0); 578 1.2 matt } 579 1.2 matt #endif /* __HAVE_FAST_SOFTINTS */ 580 1.2 matt e500_splset(ci, ipl); 581 1.2 matt #if 1 582 1.2 matt if (ipl < IPL_VM && old_ipl >= IPL_VM) 583 1.2 matt msr = PSL_EE; 584 1.2 matt #endif 585 1.2 matt wrtee(msr); 586 1.2 matt } 587 1.2 matt 588 1.2 matt static int 589 1.2 matt e500_splraise(int ipl) 590 1.2 matt { 591 1.2 matt struct cpu_info * const ci = curcpu(); 592 1.2 matt const int old_ipl = ci->ci_cpl; 593 1.2 matt 594 1.18 matt /* if we paniced because of watchdog, PSL_CE will be clear. */ 595 1.21 matt KASSERT(wdog_barked || (mfmsr() & PSL_CE)); 596 1.2 matt 597 1.2 matt if (old_ipl < ipl) { 598 1.2 matt //const 599 1.2 matt register_t msr = wrtee(0); 600 1.2 matt e500_splset(ci, ipl); 601 1.21 matt #if 0 602 1.2 matt if (old_ipl < IPL_VM && ipl >= IPL_VM) 603 1.2 matt msr = 0; 604 1.2 matt #endif 605 1.2 matt wrtee(msr); 606 1.41 rin } 607 1.41 rin #if 0 608 1.41 rin else if (ipl == IPL_NONE) { 609 1.2 matt panic("%s: %p: cpl=%u: attempt to splraise(IPL_NONE)", 610 1.2 matt __func__, __builtin_return_address(0), old_ipl); 611 1.2 matt } else if (old_ipl > ipl) { 612 1.2 matt printf("%s: %p: cpl=%u: ignoring splraise(%u) to lower ipl\n", 613 1.2 matt __func__, __builtin_return_address(0), old_ipl, ipl); 614 1.41 rin } 615 1.2 matt #endif 616 1.2 matt 617 1.2 matt return old_ipl; 618 1.2 matt } 619 1.2 matt 620 1.2 matt static int 621 1.2 matt e500_intr_spurious(void *arg) 622 1.2 matt { 623 1.2 matt return 0; 624 1.2 matt } 625 1.2 matt 626 1.2 matt static bool 627 1.2 matt e500_intr_irq_info_get(struct cpu_info *ci, u_int irq, int ipl, int ist, 628 1.2 matt struct e500_intr_irq_info *ii) 629 1.2 matt { 630 1.2 matt const struct e500_intr_info * const info = &e500_intr_info; 631 1.2 matt bool ok; 632 1.2 matt 633 1.2 matt #if DEBUG > 2 634 1.2 matt printf("%s(%p,irq=%u,ipl=%u,ist=%u,%p)\n", __func__, ci, irq, ipl, ist, ii); 635 1.2 matt #endif 636 1.2 matt 637 1.2 matt if (ipl < IPL_VM || ipl > IPL_HIGH) { 638 1.2 matt #if DEBUG > 2 639 1.2 matt printf("%s:%d ipl=%u\n", __func__, __LINE__, ipl); 640 1.2 matt #endif 641 1.2 matt return false; 642 1.2 matt } 643 1.2 matt 644 1.2 matt if (ist <= IST_NONE || ist >= IST_MAX) { 645 1.2 matt #if DEBUG > 2 646 1.2 matt printf("%s:%d ist=%u\n", __func__, __LINE__, ist); 647 1.2 matt #endif 648 1.2 matt return false; 649 1.2 matt } 650 1.2 matt 651 1.2 matt ii->irq_vector = irq + info->ii_ist_vectors[ist]; 652 1.8 matt if (IST_PERCPU_P(ist) && ist != IST_IPI) 653 1.2 matt ii->irq_vector += ci->ci_cpuid * info->ii_percpu_sources; 654 1.2 matt 655 1.2 matt switch (ist) { 656 1.2 matt default: 657 1.2 matt ii->irq_vpr = OPENPIC_EIVPR(irq); 658 1.2 matt ii->irq_dr = OPENPIC_EIDR(irq); 659 1.2 matt ok = irq < info->ii_external_sources 660 1.2 matt && (ist == IST_EDGE 661 1.2 matt || ist == IST_LEVEL_LOW 662 1.2 matt || ist == IST_LEVEL_HIGH); 663 1.2 matt break; 664 1.11 matt case IST_PULSE: 665 1.11 matt ok = false; 666 1.11 matt break; 667 1.2 matt case IST_ONCHIP: 668 1.2 matt ii->irq_vpr = OPENPIC_IIVPR(irq); 669 1.2 matt ii->irq_dr = OPENPIC_IIDR(irq); 670 1.2 matt ok = irq < 32 * __arraycount(info->ii_onchip_bitmap); 671 1.2 matt #if DEBUG > 2 672 1.2 matt printf("%s: irq=%u: ok=%u\n", __func__, irq, ok); 673 1.2 matt #endif 674 1.2 matt ok = ok && (info->ii_onchip_bitmap[irq/32] & (1 << (irq & 31))); 675 1.2 matt #if DEBUG > 2 676 1.2 matt printf("%s: %08x%08x -> %08x%08x: ok=%u\n", __func__, 677 1.2 matt irq < 32 ? 0 : (1 << irq), irq < 32 ? (1 << irq) : 0, 678 1.2 matt info->ii_onchip_bitmap[1], info->ii_onchip_bitmap[0], 679 1.2 matt ok); 680 1.2 matt #endif 681 1.2 matt break; 682 1.2 matt case IST_MSIGROUP: 683 1.2 matt ii->irq_vpr = OPENPIC_MSIVPR(irq); 684 1.2 matt ii->irq_dr = OPENPIC_MSIDR(irq); 685 1.2 matt ok = irq < info->ii_msigroup_sources 686 1.2 matt && ipl == IPL_VM; 687 1.2 matt break; 688 1.2 matt case IST_TIMER: 689 1.2 matt ii->irq_vpr = OPENPIC_GTVPR(ci->ci_cpuid, irq); 690 1.2 matt ii->irq_dr = OPENPIC_GTDR(ci->ci_cpuid, irq); 691 1.2 matt ok = irq < info->ii_timer_sources; 692 1.2 matt #if DEBUG > 2 693 1.2 matt printf("%s: IST_TIMER irq=%u: ok=%u\n", __func__, irq, ok); 694 1.2 matt #endif 695 1.2 matt break; 696 1.2 matt case IST_IPI: 697 1.2 matt ii->irq_vpr = OPENPIC_IPIVPR(irq); 698 1.2 matt ii->irq_dr = OPENPIC_IPIDR(irq); 699 1.2 matt ok = irq < info->ii_ipi_sources; 700 1.2 matt break; 701 1.2 matt case IST_MI: 702 1.2 matt ii->irq_vpr = OPENPIC_MIVPR(irq); 703 1.2 matt ii->irq_dr = OPENPIC_MIDR(irq); 704 1.2 matt ok = irq < info->ii_mi_sources; 705 1.2 matt break; 706 1.2 matt } 707 1.2 matt 708 1.2 matt return ok; 709 1.2 matt } 710 1.2 matt 711 1.2 matt static const char * 712 1.23 christos e500_intr_string(int irq, int ist, char *buf, size_t len) 713 1.2 matt { 714 1.2 matt struct cpu_info * const ci = curcpu(); 715 1.2 matt struct cpu_softc * const cpu = ci->ci_softc; 716 1.2 matt struct e500_intr_irq_info ii; 717 1.2 matt 718 1.2 matt if (!e500_intr_irq_info_get(ci, irq, IPL_VM, ist, &ii)) 719 1.2 matt return NULL; 720 1.2 matt 721 1.23 christos strlcpy(buf, cpu->cpu_evcnt_intrs[ii.irq_vector].ev_name, len); 722 1.23 christos return buf; 723 1.2 matt } 724 1.2 matt 725 1.11 matt __CTASSERT(__arraycount(ist_names) == IST_MAX); 726 1.11 matt 727 1.11 matt static const char * 728 1.11 matt e500_intr_typename(int ist) 729 1.11 matt { 730 1.11 matt if (IST_NONE <= ist && ist < IST_MAX) 731 1.11 matt return ist_names[ist]; 732 1.11 matt 733 1.11 matt return NULL; 734 1.11 matt } 735 1.11 matt 736 1.2 matt static void * 737 1.2 matt e500_intr_cpu_establish(struct cpu_info *ci, int irq, int ipl, int ist, 738 1.34 nonaka int (*handler)(void *), void *arg, const char *xname) 739 1.2 matt { 740 1.2 matt struct cpu_softc * const cpu = ci->ci_softc; 741 1.2 matt struct e500_intr_irq_info ii; 742 1.2 matt 743 1.2 matt KASSERT(ipl >= IPL_VM && ipl <= IPL_HIGH); 744 1.2 matt KASSERT(ist > IST_NONE && ist < IST_MAX && ist != IST_MSI); 745 1.2 matt 746 1.2 matt if (!e500_intr_irq_info_get(ci, irq, ipl, ist, &ii)) { 747 1.2 matt printf("%s: e500_intr_irq_info_get(%p,%u,%u,%u,%p) failed\n", 748 1.2 matt __func__, ci, irq, ipl, ist, &ii); 749 1.2 matt return NULL; 750 1.2 matt } 751 1.2 matt 752 1.34 nonaka if (xname == NULL) { 753 1.34 nonaka xname = e500_intr_all_name_lookup(irq, ist); 754 1.34 nonaka if (xname == NULL) 755 1.34 nonaka xname = "unknown"; 756 1.34 nonaka } 757 1.34 nonaka 758 1.2 matt struct intr_source * const is = &e500_intr_sources[ii.irq_vector]; 759 1.2 matt mutex_enter(&e500_intr_lock); 760 1.25 nonaka if (is->is_ipl != IPL_NONE) { 761 1.30 nonaka /* XXX IPI0 is shared by all CPU. */ 762 1.30 nonaka if (is->is_ist != IST_IPI || 763 1.30 nonaka is->is_irq != irq || 764 1.30 nonaka is->is_ipl != ipl || 765 1.30 nonaka is->is_ist != ist || 766 1.30 nonaka is->is_func != handler || 767 1.30 nonaka is->is_arg != arg) { 768 1.30 nonaka mutex_exit(&e500_intr_lock); 769 1.30 nonaka return NULL; 770 1.30 nonaka } 771 1.25 nonaka } 772 1.2 matt 773 1.2 matt is->is_func = handler; 774 1.2 matt is->is_arg = arg; 775 1.2 matt is->is_ipl = ipl; 776 1.2 matt is->is_ist = ist; 777 1.2 matt is->is_irq = irq; 778 1.30 nonaka is->is_refcnt++; 779 1.2 matt is->is_vpr = ii.irq_vpr; 780 1.2 matt is->is_dr = ii.irq_dr; 781 1.34 nonaka switch (ist) { 782 1.34 nonaka case IST_EDGE: 783 1.34 nonaka case IST_LEVEL_LOW: 784 1.34 nonaka case IST_LEVEL_HIGH: 785 1.34 nonaka snprintf(is->is_source, sizeof(is->is_source), "extirq %d", 786 1.34 nonaka irq); 787 1.34 nonaka break; 788 1.34 nonaka case IST_ONCHIP: 789 1.34 nonaka snprintf(is->is_source, sizeof(is->is_source), "irq %d", irq); 790 1.34 nonaka break; 791 1.34 nonaka case IST_MSIGROUP: 792 1.34 nonaka snprintf(is->is_source, sizeof(is->is_source), "msigroup %d", 793 1.34 nonaka irq); 794 1.34 nonaka break; 795 1.34 nonaka case IST_TIMER: 796 1.34 nonaka snprintf(is->is_source, sizeof(is->is_source), "timer %d", irq); 797 1.34 nonaka break; 798 1.34 nonaka case IST_IPI: 799 1.34 nonaka snprintf(is->is_source, sizeof(is->is_source), "ipi %d", irq); 800 1.34 nonaka break; 801 1.34 nonaka case IST_MI: 802 1.34 nonaka snprintf(is->is_source, sizeof(is->is_source), "mi %d", irq); 803 1.34 nonaka break; 804 1.34 nonaka case IST_PULSE: 805 1.34 nonaka default: 806 1.34 nonaka panic("%s: invalid ist (%d)\n", __func__, ist); 807 1.34 nonaka } 808 1.34 nonaka strlcpy(is->is_xname, xname, sizeof(is->is_xname)); 809 1.2 matt 810 1.2 matt uint32_t vpr = VPR_PRIORITY_MAKE(IPL2CTPR(ipl)) 811 1.2 matt | VPR_VECTOR_MAKE(((ii.irq_vector + 1) << 4) | ipl) 812 1.2 matt | (ist == IST_LEVEL_LOW 813 1.2 matt ? VPR_LEVEL_LOW 814 1.2 matt : (ist == IST_LEVEL_HIGH 815 1.2 matt ? VPR_LEVEL_HIGH 816 1.2 matt : (ist == IST_ONCHIP 817 1.2 matt ? VPR_P_HIGH 818 1.2 matt : 0))); 819 1.2 matt 820 1.2 matt /* 821 1.2 matt * All interrupts go to the primary except per-cpu interrupts which get 822 1.2 matt * routed to the appropriate cpu. 823 1.2 matt */ 824 1.8 matt uint32_t dr = openpic_read(cpu, ii.irq_dr); 825 1.8 matt 826 1.8 matt dr |= 1 << (IST_PERCPU_P(ist) ? ci->ci_cpuid : 0); 827 1.2 matt 828 1.2 matt /* 829 1.2 matt * Update the vector/priority and destination registers keeping the 830 1.2 matt * interrupt masked. 831 1.2 matt */ 832 1.2 matt const register_t msr = wrtee(0); /* disable interrupts */ 833 1.2 matt openpic_write(cpu, ii.irq_vpr, vpr | VPR_MSK); 834 1.2 matt openpic_write(cpu, ii.irq_dr, dr); 835 1.2 matt 836 1.2 matt /* 837 1.2 matt * Now unmask the interrupt. 838 1.2 matt */ 839 1.2 matt openpic_write(cpu, ii.irq_vpr, vpr); 840 1.2 matt 841 1.2 matt wrtee(msr); /* re-enable interrupts */ 842 1.2 matt 843 1.2 matt mutex_exit(&e500_intr_lock); 844 1.2 matt 845 1.2 matt return is; 846 1.2 matt } 847 1.2 matt 848 1.2 matt static void * 849 1.34 nonaka e500_intr_establish(int irq, int ipl, int ist, int (*handler)(void *), 850 1.34 nonaka void *arg, const char *xname) 851 1.2 matt { 852 1.34 nonaka return e500_intr_cpu_establish(curcpu(), irq, ipl, ist, handler, arg, 853 1.34 nonaka xname); 854 1.2 matt } 855 1.2 matt 856 1.2 matt static void 857 1.2 matt e500_intr_disestablish(void *vis) 858 1.2 matt { 859 1.2 matt struct cpu_softc * const cpu = curcpu()->ci_softc; 860 1.2 matt struct intr_source * const is = vis; 861 1.2 matt struct e500_intr_irq_info ii; 862 1.2 matt 863 1.2 matt KASSERT(e500_intr_sources <= is); 864 1.2 matt KASSERT(is < e500_intr_last_source); 865 1.2 matt KASSERT(!cpu_intr_p()); 866 1.2 matt 867 1.2 matt bool ok = e500_intr_irq_info_get(curcpu(), is->is_irq, is->is_ipl, 868 1.2 matt is->is_ist, &ii); 869 1.2 matt (void)ok; /* appease gcc */ 870 1.2 matt KASSERT(ok); 871 1.2 matt KASSERT(is - e500_intr_sources == ii.irq_vector); 872 1.2 matt 873 1.2 matt mutex_enter(&e500_intr_lock); 874 1.30 nonaka 875 1.30 nonaka if (is->is_refcnt-- > 1) { 876 1.30 nonaka mutex_exit(&e500_intr_lock); 877 1.30 nonaka return; 878 1.30 nonaka } 879 1.30 nonaka 880 1.2 matt /* 881 1.2 matt * Mask the source using the mask (MSK) bit in the vector/priority reg. 882 1.2 matt */ 883 1.2 matt uint32_t vpr = openpic_read(cpu, ii.irq_vpr); 884 1.2 matt openpic_write(cpu, ii.irq_vpr, VPR_MSK | vpr); 885 1.2 matt 886 1.2 matt /* 887 1.2 matt * Wait for the Activity (A) bit for the source to be cleared. 888 1.2 matt */ 889 1.2 matt while (openpic_read(cpu, ii.irq_vpr) & VPR_A) 890 1.2 matt ; 891 1.2 matt 892 1.2 matt /* 893 1.2 matt * Now the source can be modified. 894 1.2 matt */ 895 1.2 matt openpic_write(cpu, ii.irq_dr, 0); /* stop delivery */ 896 1.2 matt openpic_write(cpu, ii.irq_vpr, VPR_MSK); /* mask/reset it */ 897 1.2 matt 898 1.2 matt *is = (struct intr_source)INTR_SOURCE_INITIALIZER; 899 1.2 matt 900 1.2 matt mutex_exit(&e500_intr_lock); 901 1.2 matt } 902 1.2 matt 903 1.2 matt static void 904 1.2 matt e500_critintr(struct trapframe *tf) 905 1.2 matt { 906 1.2 matt panic("%s: srr0/srr1=%#lx/%#lx", __func__, tf->tf_srr0, tf->tf_srr1); 907 1.2 matt } 908 1.2 matt 909 1.2 matt static void 910 1.2 matt e500_decrintr(struct trapframe *tf) 911 1.2 matt { 912 1.2 matt panic("%s: srr0/srr1=%#lx/%#lx", __func__, tf->tf_srr0, tf->tf_srr1); 913 1.2 matt } 914 1.2 matt 915 1.2 matt static void 916 1.2 matt e500_fitintr(struct trapframe *tf) 917 1.2 matt { 918 1.2 matt panic("%s: srr0/srr1=%#lx/%#lx", __func__, tf->tf_srr0, tf->tf_srr1); 919 1.2 matt } 920 1.2 matt 921 1.2 matt static void 922 1.2 matt e500_wdogintr(struct trapframe *tf) 923 1.2 matt { 924 1.21 matt struct cpu_info * const ci = curcpu(); 925 1.2 matt mtspr(SPR_TSR, TSR_ENW|TSR_WIS); 926 1.21 matt wdog_barked = true; 927 1.21 matt dump_splhist(ci, NULL); 928 1.21 matt dump_trapframe(tf, NULL); 929 1.21 matt panic("%s: tf=%p tb=%"PRId64" srr0/srr1=%#lx/%#lx" 930 1.21 matt " cpl=%d idepth=%d, mtxcount=%d", 931 1.21 matt __func__, tf, mftb(), tf->tf_srr0, tf->tf_srr1, 932 1.21 matt ci->ci_cpl, ci->ci_idepth, ci->ci_mtx_count); 933 1.2 matt } 934 1.2 matt 935 1.2 matt static void 936 1.2 matt e500_extintr(struct trapframe *tf) 937 1.2 matt { 938 1.2 matt struct cpu_info * const ci = curcpu(); 939 1.2 matt struct cpu_softc * const cpu = ci->ci_softc; 940 1.2 matt const int old_ipl = ci->ci_cpl; 941 1.2 matt 942 1.18 matt /* if we paniced because of watchdog, PSL_CE will be clear. */ 943 1.21 matt KASSERT(wdog_barked || (mfmsr() & PSL_CE)); 944 1.2 matt 945 1.2 matt #if 0 946 1.2 matt // printf("%s(%p): idepth=%d enter\n", __func__, tf, ci->ci_idepth); 947 1.2 matt if ((register_t)tf >= (register_t)curlwp->l_addr + USPACE 948 1.2 matt || (register_t)tf < (register_t)curlwp->l_addr + NBPG) { 949 1.2 matt printf("%s(entry): pid %d.%d (%s): srr0/srr1=%#lx/%#lx: invalid tf addr %p\n", 950 1.2 matt __func__, curlwp->l_proc->p_pid, curlwp->l_lid, 951 1.2 matt curlwp->l_proc->p_comm, tf->tf_srr0, tf->tf_srr1, tf); 952 1.2 matt } 953 1.2 matt #endif 954 1.2 matt 955 1.2 matt 956 1.2 matt ci->ci_data.cpu_nintr++; 957 1.2 matt tf->tf_cf.cf_idepth = ci->ci_idepth++; 958 1.2 matt cpu->cpu_pcpls[ci->ci_idepth] = old_ipl; 959 1.2 matt #if 1 960 1.2 matt if (mfmsr() & PSL_EE) 961 1.2 matt panic("%s(%p): MSR[EE] is on (%#lx)!", __func__, tf, mfmsr()); 962 1.2 matt if (old_ipl == IPL_HIGH 963 1.2 matt || IPL2CTPR(old_ipl) != openpic_read(cpu, OPENPIC_CTPR)) 964 1.2 matt panic("%s(%p): old_ipl(%u) == IPL_HIGH(%u) " 965 1.2 matt "|| old_ipl + %u != OPENPIC_CTPR (%u)", 966 1.2 matt __func__, tf, old_ipl, IPL_HIGH, 967 1.2 matt 15 - IPL_HIGH, openpic_read(cpu, OPENPIC_CTPR)); 968 1.2 matt #else 969 1.2 matt if (old_ipl >= IPL_VM) 970 1.2 matt panic("%s(%p): old_ipl(%u) >= IPL_VM(%u) CTPR=%u", 971 1.2 matt __func__, tf, old_ipl, IPL_VM, openpic_read(cpu, OPENPIC_CTPR)); 972 1.2 matt #endif 973 1.2 matt 974 1.2 matt for (;;) { 975 1.2 matt /* 976 1.2 matt * Find out the pending interrupt. 977 1.2 matt */ 978 1.21 matt KASSERTMSG((mfmsr() & PSL_EE) == 0, 979 1.21 matt "%s(%p): MSR[EE] left on (%#lx)!", __func__, tf, mfmsr()); 980 1.2 matt if (IPL2CTPR(old_ipl) != openpic_read(cpu, OPENPIC_CTPR)) 981 1.2 matt panic("%s(%p): %d: old_ipl(%u) + %u != OPENPIC_CTPR (%u)", 982 1.2 matt __func__, tf, __LINE__, old_ipl, 983 1.2 matt 15 - IPL_HIGH, openpic_read(cpu, OPENPIC_CTPR)); 984 1.2 matt const uint32_t iack = openpic_read(cpu, OPENPIC_IACK); 985 1.6 dyoung #ifdef DIAGNOSTIC 986 1.2 matt const int ipl = iack & 0xf; 987 1.6 dyoung #endif 988 1.2 matt const int irq = (iack >> 4) - 1; 989 1.2 matt #if 0 990 1.2 matt printf("%s: iack=%d ipl=%d irq=%d <%s>\n", 991 1.2 matt __func__, iack, ipl, irq, 992 1.2 matt (iack != IRQ_SPURIOUS ? 993 1.2 matt cpu->cpu_evcnt_intrs[irq].ev_name : "spurious")); 994 1.2 matt #endif 995 1.2 matt if (IPL2CTPR(old_ipl) != openpic_read(cpu, OPENPIC_CTPR)) 996 1.2 matt panic("%s(%p): %d: old_ipl(%u) + %u != OPENPIC_CTPR (%u)", 997 1.2 matt __func__, tf, __LINE__, old_ipl, 998 1.2 matt 15 - IPL_HIGH, openpic_read(cpu, OPENPIC_CTPR)); 999 1.2 matt if (iack == IRQ_SPURIOUS) 1000 1.2 matt break; 1001 1.2 matt 1002 1.2 matt struct intr_source * const is = &e500_intr_sources[irq]; 1003 1.2 matt if (__predict_true(is < e500_intr_last_source)) { 1004 1.2 matt /* 1005 1.2 matt * Timer interrupts get their argument overriden with 1006 1.2 matt * the pointer to the trapframe. 1007 1.2 matt */ 1008 1.22 matt KASSERTMSG(is->is_ipl == ipl, 1009 1.22 matt "iack %#x: is %p: irq %d ipl %d != iack ipl %d", 1010 1.22 matt iack, is, irq, is->is_ipl, ipl); 1011 1.2 matt void *arg = (is->is_ist == IST_TIMER ? tf : is->is_arg); 1012 1.2 matt if (is->is_ipl <= old_ipl) 1013 1.2 matt panic("%s(%p): %s (%u): is->is_ipl (%u) <= old_ipl (%u)\n", 1014 1.2 matt __func__, tf, 1015 1.2 matt cpu->cpu_evcnt_intrs[irq].ev_name, irq, 1016 1.2 matt is->is_ipl, old_ipl); 1017 1.2 matt KASSERT(is->is_ipl > old_ipl); 1018 1.2 matt e500_splset(ci, is->is_ipl); /* change IPL */ 1019 1.2 matt if (__predict_false(is->is_func == NULL)) { 1020 1.2 matt aprint_error_dev(ci->ci_dev, 1021 1.2 matt "interrupt from unestablished irq %d\n", 1022 1.2 matt irq); 1023 1.2 matt } else { 1024 1.2 matt int (*func)(void *) = is->is_func; 1025 1.2 matt wrtee(PSL_EE); 1026 1.2 matt int rv = (*func)(arg); 1027 1.2 matt wrtee(0); 1028 1.2 matt #if DEBUG > 2 1029 1.2 matt printf("%s: %s handler %p(%p) returned %d\n", 1030 1.2 matt __func__, 1031 1.2 matt cpu->cpu_evcnt_intrs[irq].ev_name, 1032 1.2 matt func, arg, rv); 1033 1.2 matt #endif 1034 1.2 matt if (rv == 0) 1035 1.2 matt cpu->cpu_evcnt_spurious_intr.ev_count++; 1036 1.2 matt } 1037 1.2 matt e500_splset(ci, old_ipl); /* restore IPL */ 1038 1.2 matt cpu->cpu_evcnt_intrs[irq].ev_count++; 1039 1.2 matt } else { 1040 1.2 matt aprint_error_dev(ci->ci_dev, 1041 1.2 matt "interrupt from illegal irq %d\n", irq); 1042 1.2 matt cpu->cpu_evcnt_spurious_intr.ev_count++; 1043 1.2 matt } 1044 1.2 matt /* 1045 1.2 matt * If this is a nested interrupt, simply ack it and exit 1046 1.2 matt * because the loop we interrupted will complete looking 1047 1.2 matt * for interrupts. 1048 1.2 matt */ 1049 1.21 matt KASSERTMSG((mfmsr() & PSL_EE) == 0, 1050 1.21 matt "%s(%p): MSR[EE] left on (%#lx)!", __func__, tf, mfmsr()); 1051 1.2 matt if (IPL2CTPR(old_ipl) != openpic_read(cpu, OPENPIC_CTPR)) 1052 1.2 matt panic("%s(%p): %d: old_ipl(%u) + %u != OPENPIC_CTPR (%u)", 1053 1.2 matt __func__, tf, __LINE__, old_ipl, 1054 1.2 matt 15 - IPL_HIGH, openpic_read(cpu, OPENPIC_CTPR)); 1055 1.2 matt 1056 1.2 matt openpic_write(cpu, OPENPIC_EOI, 0); 1057 1.2 matt if (IPL2CTPR(old_ipl) != openpic_read(cpu, OPENPIC_CTPR)) 1058 1.2 matt panic("%s(%p): %d: old_ipl(%u) + %u != OPENPIC_CTPR (%u)", 1059 1.2 matt __func__, tf, __LINE__, old_ipl, 1060 1.2 matt 15 - IPL_HIGH, openpic_read(cpu, OPENPIC_CTPR)); 1061 1.2 matt if (ci->ci_idepth > 0) 1062 1.2 matt break; 1063 1.2 matt } 1064 1.2 matt 1065 1.2 matt ci->ci_idepth--; 1066 1.2 matt 1067 1.2 matt #ifdef __HAVE_FAST_SOFTINTS 1068 1.2 matt /* 1069 1.2 matt * Before exiting, deal with any softints that need to be dealt with. 1070 1.2 matt */ 1071 1.17 matt const u_int softints = ci->ci_data.cpu_softints & (IPL_SOFTMASK << old_ipl); 1072 1.2 matt if (__predict_false(softints != 0)) { 1073 1.2 matt KASSERT(old_ipl < IPL_VM); 1074 1.2 matt e500_splset(ci, IPL_HIGH); /* pop to high */ 1075 1.21 matt wrtee(PSL_EE); /* reenable interrupts */ 1076 1.10 matt powerpc_softint(ci, old_ipl, /* deal with them */ 1077 1.8 matt tf->tf_srr0); 1078 1.21 matt wrtee(0); /* disable interrupts */ 1079 1.2 matt e500_splset(ci, old_ipl); /* and drop back */ 1080 1.2 matt } 1081 1.2 matt #endif /* __HAVE_FAST_SOFTINTS */ 1082 1.2 matt KASSERT(ci->ci_cpl == old_ipl); 1083 1.2 matt 1084 1.13 matt /* 1085 1.13 matt * If we interrupted while power-saving and we need to exit idle, 1086 1.13 matt * we need to clear PSL_POW so we won't go back into power-saving. 1087 1.13 matt */ 1088 1.13 matt if (__predict_false(tf->tf_srr1 & PSL_POW) && ci->ci_want_resched) 1089 1.13 matt tf->tf_srr1 &= ~PSL_POW; 1090 1.13 matt 1091 1.2 matt // printf("%s(%p): idepth=%d exit\n", __func__, tf, ci->ci_idepth); 1092 1.2 matt } 1093 1.2 matt 1094 1.2 matt static void 1095 1.2 matt e500_intr_init(void) 1096 1.2 matt { 1097 1.2 matt struct cpu_info * const ci = curcpu(); 1098 1.2 matt struct cpu_softc * const cpu = ci->ci_softc; 1099 1.2 matt const uint32_t frr = openpic_read(cpu, OPENPIC_FRR); 1100 1.2 matt const u_int nirq = FRR_NIRQ_GET(frr) + 1; 1101 1.2 matt // const u_int ncpu = FRR_NCPU_GET(frr) + 1; 1102 1.2 matt struct intr_source *is; 1103 1.2 matt struct e500_intr_info * const ii = &e500_intr_info; 1104 1.2 matt 1105 1.4 matt const uint16_t svr = (mfspr(SPR_SVR) & ~0x80000) >> 16; 1106 1.3 matt switch (svr) { 1107 1.3 matt #ifdef MPC8536 1108 1.3 matt case SVR_MPC8536v1 >> 16: 1109 1.3 matt *ii = mpc8536_intr_info; 1110 1.3 matt break; 1111 1.3 matt #endif 1112 1.3 matt #ifdef MPC8544 1113 1.3 matt case SVR_MPC8544v1 >> 16: 1114 1.3 matt *ii = mpc8544_intr_info; 1115 1.3 matt break; 1116 1.3 matt #endif 1117 1.3 matt #ifdef MPC8548 1118 1.3 matt case SVR_MPC8543v1 >> 16: 1119 1.3 matt case SVR_MPC8548v1 >> 16: 1120 1.2 matt *ii = mpc8548_intr_info; 1121 1.2 matt break; 1122 1.3 matt #endif 1123 1.3 matt #ifdef MPC8555 1124 1.3 matt case SVR_MPC8541v1 >> 16: 1125 1.3 matt case SVR_MPC8555v1 >> 16: 1126 1.3 matt *ii = mpc8555_intr_info; 1127 1.3 matt break; 1128 1.3 matt #endif 1129 1.3 matt #ifdef MPC8568 1130 1.3 matt case SVR_MPC8568v1 >> 16: 1131 1.3 matt *ii = mpc8568_intr_info; 1132 1.2 matt break; 1133 1.3 matt #endif 1134 1.3 matt #ifdef MPC8572 1135 1.3 matt case SVR_MPC8572v1 >> 16: 1136 1.2 matt *ii = mpc8572_intr_info; 1137 1.2 matt break; 1138 1.3 matt #endif 1139 1.28 nonaka #ifdef P1023 1140 1.28 nonaka case SVR_P1017v1 >> 16: 1141 1.28 nonaka case SVR_P1023v1 >> 16: 1142 1.28 nonaka *ii = p1023_intr_info; 1143 1.28 nonaka break; 1144 1.28 nonaka #endif 1145 1.19 matt #ifdef P1025 1146 1.19 matt case SVR_P1016v1 >> 16: 1147 1.19 matt case SVR_P1025v1 >> 16: 1148 1.19 matt *ii = p1025_intr_info; 1149 1.19 matt break; 1150 1.19 matt #endif 1151 1.3 matt #ifdef P2020 1152 1.3 matt case SVR_P2010v2 >> 16: 1153 1.3 matt case SVR_P2020v2 >> 16: 1154 1.3 matt *ii = p20x0_intr_info; 1155 1.3 matt break; 1156 1.3 matt #endif 1157 1.2 matt default: 1158 1.37 flxd panic("%s: don't know how to deal with SVR %#jx", 1159 1.37 flxd __func__, (uintmax_t)mfspr(SPR_SVR)); 1160 1.2 matt } 1161 1.2 matt 1162 1.2 matt /* 1163 1.29 nonaka * Initialize interrupt handler lock 1164 1.29 nonaka */ 1165 1.29 nonaka mutex_init(&e500_intr_lock, MUTEX_DEFAULT, IPL_HIGH); 1166 1.29 nonaka 1167 1.29 nonaka /* 1168 1.2 matt * We need to be in mixed mode. 1169 1.2 matt */ 1170 1.2 matt openpic_write(cpu, OPENPIC_GCR, GCR_M); 1171 1.2 matt 1172 1.2 matt /* 1173 1.2 matt * Make we and the openpic both agree about the current SPL level. 1174 1.2 matt */ 1175 1.2 matt e500_splset(ci, ci->ci_cpl); 1176 1.2 matt 1177 1.2 matt /* 1178 1.2 matt * Allow the required number of interrupt sources. 1179 1.2 matt */ 1180 1.2 matt is = kmem_zalloc(nirq * sizeof(*is), KM_SLEEP); 1181 1.2 matt e500_intr_sources = is; 1182 1.2 matt e500_intr_last_source = is + nirq; 1183 1.2 matt 1184 1.2 matt /* 1185 1.2 matt * Initialize all the external interrupts as active low. 1186 1.2 matt */ 1187 1.2 matt for (u_int irq = 0; irq < e500_intr_info.ii_external_sources; irq++) { 1188 1.2 matt openpic_write(cpu, OPENPIC_EIVPR(irq), 1189 1.2 matt VPR_VECTOR_MAKE(irq) | VPR_LEVEL_LOW); 1190 1.2 matt } 1191 1.2 matt } 1192 1.2 matt 1193 1.2 matt static void 1194 1.32 nonaka e500_intr_init_precpu(void) 1195 1.32 nonaka { 1196 1.32 nonaka struct cpu_info const *ci = curcpu(); 1197 1.32 nonaka struct cpu_softc * const cpu = ci->ci_softc; 1198 1.32 nonaka bus_addr_t dr; 1199 1.32 nonaka 1200 1.32 nonaka /* 1201 1.32 nonaka * timer's DR is set to be delivered to cpu0 as initial value. 1202 1.32 nonaka */ 1203 1.32 nonaka for (u_int irq = 0; irq < e500_intr_info.ii_timer_sources; irq++) { 1204 1.32 nonaka dr = OPENPIC_GTDR(ci->ci_cpuid, irq); 1205 1.32 nonaka openpic_write(cpu, dr, 0); /* stop delivery */ 1206 1.32 nonaka } 1207 1.32 nonaka } 1208 1.32 nonaka 1209 1.32 nonaka static void 1210 1.9 matt e500_idlespin(void) 1211 1.9 matt { 1212 1.9 matt KASSERTMSG(curcpu()->ci_cpl == IPL_NONE, 1213 1.16 jym "%s: cpu%u: ci_cpl (%d) != 0", __func__, cpu_number(), 1214 1.16 jym curcpu()->ci_cpl); 1215 1.9 matt KASSERTMSG(CTPR2IPL(openpic_read(curcpu()->ci_softc, OPENPIC_CTPR)) == IPL_NONE, 1216 1.16 jym "%s: cpu%u: CTPR (%d) != IPL_NONE", __func__, cpu_number(), 1217 1.16 jym CTPR2IPL(openpic_read(curcpu()->ci_softc, OPENPIC_CTPR))); 1218 1.9 matt KASSERT(mfmsr() & PSL_EE); 1219 1.13 matt 1220 1.13 matt if (powersave > 0) 1221 1.13 matt mtmsr(mfmsr() | PSL_POW); 1222 1.9 matt } 1223 1.9 matt 1224 1.9 matt static void 1225 1.8 matt e500_intr_cpu_attach(struct cpu_info *ci) 1226 1.2 matt { 1227 1.2 matt struct cpu_softc * const cpu = ci->ci_softc; 1228 1.2 matt const char * const xname = device_xname(ci->ci_dev); 1229 1.2 matt 1230 1.2 matt const u_int32_t frr = openpic_read(cpu, OPENPIC_FRR); 1231 1.2 matt const u_int nirq = FRR_NIRQ_GET(frr) + 1; 1232 1.2 matt // const u_int ncpu = FRR_NCPU_GET(frr) + 1; 1233 1.2 matt 1234 1.2 matt const struct e500_intr_info * const info = &e500_intr_info; 1235 1.2 matt 1236 1.2 matt cpu->cpu_clock_gtbcr = OPENPIC_GTBCR(ci->ci_cpuid, E500_CLOCK_TIMER); 1237 1.2 matt 1238 1.2 matt cpu->cpu_evcnt_intrs = 1239 1.2 matt kmem_zalloc(nirq * sizeof(cpu->cpu_evcnt_intrs[0]), KM_SLEEP); 1240 1.2 matt 1241 1.2 matt struct evcnt *evcnt = cpu->cpu_evcnt_intrs; 1242 1.2 matt for (size_t j = 0; j < info->ii_external_sources; j++, evcnt++) { 1243 1.2 matt const char *name = e500_intr_external_name_lookup(j); 1244 1.2 matt evcnt_attach_dynamic(evcnt, EVCNT_TYPE_INTR, NULL, xname, name); 1245 1.2 matt } 1246 1.2 matt KASSERT(evcnt == cpu->cpu_evcnt_intrs + info->ii_ist_vectors[IST_ONCHIP]); 1247 1.2 matt for (size_t j = 0; j < info->ii_onchip_sources; j++, evcnt++) { 1248 1.5 matt if (info->ii_onchip_bitmap[j / 32] & __BIT(j & 31)) { 1249 1.5 matt const char *name = e500_intr_onchip_name_lookup(j); 1250 1.5 matt if (name != NULL) { 1251 1.5 matt evcnt_attach_dynamic(evcnt, EVCNT_TYPE_INTR, 1252 1.5 matt NULL, xname, name); 1253 1.5 matt #ifdef DIAGNOSTIC 1254 1.5 matt } else { 1255 1.5 matt printf("%s: missing evcnt for onchip irq %zu\n", 1256 1.5 matt __func__, j); 1257 1.5 matt #endif 1258 1.5 matt } 1259 1.2 matt } 1260 1.2 matt } 1261 1.2 matt 1262 1.2 matt KASSERT(evcnt == cpu->cpu_evcnt_intrs + info->ii_ist_vectors[IST_MSIGROUP]); 1263 1.2 matt for (size_t j = 0; j < info->ii_msigroup_sources; j++, evcnt++) { 1264 1.2 matt evcnt_attach_dynamic(evcnt, EVCNT_TYPE_INTR, 1265 1.2 matt NULL, xname, e500_msigroup_intr_names[j].in_name); 1266 1.2 matt } 1267 1.2 matt 1268 1.2 matt KASSERT(evcnt == cpu->cpu_evcnt_intrs + info->ii_ist_vectors[IST_TIMER]); 1269 1.2 matt evcnt += ci->ci_cpuid * info->ii_percpu_sources; 1270 1.2 matt for (size_t j = 0; j < info->ii_timer_sources; j++, evcnt++) { 1271 1.2 matt evcnt_attach_dynamic(evcnt, EVCNT_TYPE_INTR, 1272 1.2 matt NULL, xname, e500_timer_intr_names[j].in_name); 1273 1.2 matt } 1274 1.2 matt 1275 1.2 matt for (size_t j = 0; j < info->ii_ipi_sources; j++, evcnt++) { 1276 1.2 matt evcnt_attach_dynamic(evcnt, EVCNT_TYPE_INTR, 1277 1.2 matt NULL, xname, e500_ipi_intr_names[j].in_name); 1278 1.2 matt } 1279 1.2 matt 1280 1.2 matt for (size_t j = 0; j < info->ii_mi_sources; j++, evcnt++) { 1281 1.2 matt evcnt_attach_dynamic(evcnt, EVCNT_TYPE_INTR, 1282 1.2 matt NULL, xname, e500_mi_intr_names[j].in_name); 1283 1.2 matt } 1284 1.9 matt 1285 1.9 matt ci->ci_idlespin = e500_idlespin; 1286 1.8 matt } 1287 1.8 matt 1288 1.8 matt static void 1289 1.8 matt e500_intr_cpu_send_ipi(cpuid_t target, uint32_t ipimsg) 1290 1.8 matt { 1291 1.8 matt struct cpu_info * const ci = curcpu(); 1292 1.8 matt struct cpu_softc * const cpu = ci->ci_softc; 1293 1.8 matt uint32_t dstmask; 1294 1.8 matt 1295 1.14 matt if (target >= CPU_MAXNUM) { 1296 1.8 matt CPU_INFO_ITERATOR cii; 1297 1.8 matt struct cpu_info *dst_ci; 1298 1.8 matt 1299 1.8 matt KASSERT(target == IPI_DST_NOTME || target == IPI_DST_ALL); 1300 1.8 matt 1301 1.8 matt dstmask = 0; 1302 1.8 matt for (CPU_INFO_FOREACH(cii, dst_ci)) { 1303 1.8 matt if (target == IPI_DST_ALL || ci != dst_ci) { 1304 1.8 matt dstmask |= 1 << cpu_index(ci); 1305 1.8 matt if (ipimsg) 1306 1.8 matt atomic_or_32(&dst_ci->ci_pending_ipis, 1307 1.8 matt ipimsg); 1308 1.8 matt } 1309 1.8 matt } 1310 1.8 matt } else { 1311 1.8 matt struct cpu_info * const dst_ci = cpu_lookup(target); 1312 1.14 matt KASSERT(dst_ci != NULL); 1313 1.14 matt KASSERTMSG(target == cpu_index(dst_ci), 1314 1.16 jym "%s: target (%lu) != cpu_index(cpu%u)", 1315 1.16 jym __func__, target, cpu_index(dst_ci)); 1316 1.8 matt dstmask = (1 << target); 1317 1.8 matt if (ipimsg) 1318 1.8 matt atomic_or_32(&dst_ci->ci_pending_ipis, ipimsg); 1319 1.8 matt } 1320 1.8 matt 1321 1.27 nonaka openpic_write(cpu, OPENPIC_IPIDR(0), dstmask); 1322 1.8 matt } 1323 1.8 matt 1324 1.8 matt typedef void (*ipifunc_t)(void); 1325 1.8 matt 1326 1.33 jmcneill #ifdef __HAVE_PREEMPTION 1327 1.8 matt static void 1328 1.8 matt e500_ipi_kpreempt(void) 1329 1.8 matt { 1330 1.10 matt poowerpc_softint_trigger(1 << IPL_NONE); 1331 1.8 matt } 1332 1.8 matt #endif 1333 1.8 matt 1334 1.31 nonaka static void 1335 1.31 nonaka e500_ipi_suspend(void) 1336 1.31 nonaka { 1337 1.31 nonaka 1338 1.31 nonaka #ifdef MULTIPROCESSOR 1339 1.31 nonaka cpu_pause(NULL); 1340 1.31 nonaka #endif /* MULTIPROCESSOR */ 1341 1.31 nonaka } 1342 1.31 nonaka 1343 1.39 ad static void 1344 1.39 ad e500_ipi_ast(void) 1345 1.39 ad { 1346 1.40 ad curcpu()->ci_onproc->l_md.md_astpending = 1; 1347 1.39 ad } 1348 1.39 ad 1349 1.8 matt static const ipifunc_t e500_ipifuncs[] = { 1350 1.8 matt [ilog2(IPI_XCALL)] = xc_ipi_handler, 1351 1.24 rmind [ilog2(IPI_GENERIC)] = ipi_cpu_handler, 1352 1.8 matt [ilog2(IPI_HALT)] = e500_ipi_halt, 1353 1.8 matt #ifdef __HAVE_PREEMPTION 1354 1.8 matt [ilog2(IPI_KPREEMPT)] = e500_ipi_kpreempt, 1355 1.8 matt #endif 1356 1.8 matt [ilog2(IPI_TLB1SYNC)] = e500_tlb1_sync, 1357 1.31 nonaka [ilog2(IPI_SUSPEND)] = e500_ipi_suspend, 1358 1.39 ad [ilog2(IPI_AST)] = e500_ipi_ast, 1359 1.8 matt }; 1360 1.8 matt 1361 1.8 matt static int 1362 1.8 matt e500_ipi_intr(void *v) 1363 1.8 matt { 1364 1.8 matt struct cpu_info * const ci = curcpu(); 1365 1.8 matt 1366 1.8 matt ci->ci_ev_ipi.ev_count++; 1367 1.8 matt 1368 1.8 matt uint32_t pending_ipis = atomic_swap_32(&ci->ci_pending_ipis, 0); 1369 1.8 matt for (u_int ipi = 31; pending_ipis != 0; ipi--, pending_ipis <<= 1) { 1370 1.8 matt const u_int bits = __builtin_clz(pending_ipis); 1371 1.8 matt ipi -= bits; 1372 1.8 matt pending_ipis <<= bits; 1373 1.8 matt KASSERT(e500_ipifuncs[ipi] != NULL); 1374 1.8 matt (*e500_ipifuncs[ipi])(); 1375 1.8 matt } 1376 1.8 matt 1377 1.8 matt return 1; 1378 1.8 matt } 1379 1.2 matt 1380 1.8 matt static void 1381 1.8 matt e500_intr_cpu_hatch(struct cpu_info *ci) 1382 1.8 matt { 1383 1.34 nonaka char iname[INTRIDBUF]; 1384 1.32 nonaka 1385 1.38 skrll /* Initialize percpu interrupts. */ 1386 1.32 nonaka e500_intr_init_precpu(); 1387 1.32 nonaka 1388 1.2 matt /* 1389 1.8 matt * Establish clock interrupt for this CPU. 1390 1.2 matt */ 1391 1.34 nonaka snprintf(iname, sizeof(iname), "%s clock", device_xname(ci->ci_dev)); 1392 1.2 matt if (e500_intr_cpu_establish(ci, E500_CLOCK_TIMER, IPL_CLOCK, IST_TIMER, 1393 1.34 nonaka e500_clock_intr, NULL, iname) == NULL) 1394 1.2 matt panic("%s: failed to establish clock interrupt!", __func__); 1395 1.2 matt 1396 1.2 matt /* 1397 1.8 matt * Establish the IPI interrupts for this CPU. 1398 1.8 matt */ 1399 1.27 nonaka if (e500_intr_cpu_establish(ci, 0, IPL_VM, IST_IPI, e500_ipi_intr, 1400 1.34 nonaka NULL, "ipi") == NULL) 1401 1.8 matt panic("%s: failed to establish ipi interrupt!", __func__); 1402 1.8 matt 1403 1.8 matt /* 1404 1.2 matt * Enable watchdog interrupts. 1405 1.2 matt */ 1406 1.2 matt uint32_t tcr = mfspr(SPR_TCR); 1407 1.2 matt tcr |= TCR_WIE; 1408 1.2 matt mtspr(SPR_TCR, tcr); 1409 1.2 matt } 1410 1.34 nonaka 1411 1.34 nonaka static const char * 1412 1.34 nonaka e500_intr_all_name_lookup(int irq, int ist) 1413 1.34 nonaka { 1414 1.34 nonaka const struct e500_intr_info * const info = &e500_intr_info; 1415 1.34 nonaka 1416 1.34 nonaka switch (ist) { 1417 1.34 nonaka default: 1418 1.34 nonaka if (irq < info->ii_external_sources && 1419 1.34 nonaka (ist == IST_EDGE || 1420 1.34 nonaka ist == IST_LEVEL_LOW || 1421 1.34 nonaka ist == IST_LEVEL_HIGH)) 1422 1.34 nonaka return e500_intr_name_lookup( 1423 1.34 nonaka info->ii_external_intr_names, irq); 1424 1.34 nonaka break; 1425 1.34 nonaka 1426 1.34 nonaka case IST_PULSE: 1427 1.34 nonaka break; 1428 1.34 nonaka 1429 1.34 nonaka case IST_ONCHIP: 1430 1.34 nonaka if (irq < info->ii_onchip_sources) 1431 1.34 nonaka return e500_intr_onchip_name_lookup(irq); 1432 1.34 nonaka break; 1433 1.34 nonaka 1434 1.34 nonaka case IST_MSIGROUP: 1435 1.34 nonaka if (irq < info->ii_msigroup_sources) 1436 1.34 nonaka return e500_intr_name_lookup(e500_msigroup_intr_names, 1437 1.34 nonaka irq); 1438 1.34 nonaka break; 1439 1.34 nonaka 1440 1.34 nonaka case IST_TIMER: 1441 1.34 nonaka if (irq < info->ii_timer_sources) 1442 1.34 nonaka return e500_intr_name_lookup(e500_timer_intr_names, 1443 1.34 nonaka irq); 1444 1.34 nonaka break; 1445 1.34 nonaka 1446 1.34 nonaka case IST_IPI: 1447 1.34 nonaka if (irq < info->ii_ipi_sources) 1448 1.34 nonaka return e500_intr_name_lookup(e500_ipi_intr_names, irq); 1449 1.34 nonaka break; 1450 1.34 nonaka 1451 1.34 nonaka case IST_MI: 1452 1.34 nonaka if (irq < info->ii_mi_sources) 1453 1.34 nonaka return e500_intr_name_lookup(e500_mi_intr_names, irq); 1454 1.34 nonaka break; 1455 1.34 nonaka } 1456 1.34 nonaka 1457 1.34 nonaka return NULL; 1458 1.34 nonaka } 1459 1.34 nonaka 1460 1.34 nonaka static void 1461 1.34 nonaka e500_intr_get_affinity(struct intr_source *is, kcpuset_t *cpuset) 1462 1.34 nonaka { 1463 1.34 nonaka struct cpu_info * const ci = curcpu(); 1464 1.34 nonaka struct cpu_softc * const cpu = ci->ci_softc; 1465 1.34 nonaka struct e500_intr_irq_info ii; 1466 1.34 nonaka 1467 1.34 nonaka kcpuset_zero(cpuset); 1468 1.34 nonaka 1469 1.34 nonaka if (is->is_ipl != IPL_NONE && !IST_PERCPU_P(is->is_ist)) { 1470 1.34 nonaka if (e500_intr_irq_info_get(ci, is->is_irq, is->is_ipl, 1471 1.34 nonaka is->is_ist, &ii)) { 1472 1.34 nonaka uint32_t dr = openpic_read(cpu, ii.irq_dr); 1473 1.34 nonaka while (dr != 0) { 1474 1.34 nonaka u_int n = ffs(dr); 1475 1.34 nonaka if (n-- == 0) 1476 1.34 nonaka break; 1477 1.34 nonaka dr &= ~(1 << n); 1478 1.34 nonaka kcpuset_set(cpuset, n); 1479 1.34 nonaka } 1480 1.34 nonaka } 1481 1.34 nonaka } 1482 1.34 nonaka } 1483 1.34 nonaka 1484 1.34 nonaka static int 1485 1.34 nonaka e500_intr_set_affinity(struct intr_source *is, const kcpuset_t *cpuset) 1486 1.34 nonaka { 1487 1.34 nonaka struct cpu_info * const ci = curcpu(); 1488 1.34 nonaka struct cpu_softc * const cpu = ci->ci_softc; 1489 1.34 nonaka struct e500_intr_irq_info ii; 1490 1.34 nonaka uint32_t ecpuset, tcpuset; 1491 1.34 nonaka 1492 1.34 nonaka KASSERT(mutex_owned(&cpu_lock)); 1493 1.34 nonaka KASSERT(mutex_owned(&e500_intr_lock)); 1494 1.34 nonaka KASSERT(!kcpuset_iszero(cpuset)); 1495 1.34 nonaka 1496 1.34 nonaka kcpuset_export_u32(cpuset, &ecpuset, sizeof(ecpuset)); 1497 1.34 nonaka tcpuset = ecpuset; 1498 1.34 nonaka while (tcpuset != 0) { 1499 1.34 nonaka u_int cpu_idx = ffs(tcpuset); 1500 1.34 nonaka if (cpu_idx-- == 0) 1501 1.34 nonaka break; 1502 1.34 nonaka 1503 1.34 nonaka tcpuset &= ~(1 << cpu_idx); 1504 1.34 nonaka struct cpu_info * const newci = cpu_lookup(cpu_idx); 1505 1.34 nonaka if (newci == NULL) 1506 1.34 nonaka return EINVAL; 1507 1.34 nonaka if ((newci->ci_schedstate.spc_flags & SPCF_NOINTR) != 0) 1508 1.34 nonaka return EINVAL; 1509 1.34 nonaka } 1510 1.34 nonaka 1511 1.34 nonaka if (!e500_intr_irq_info_get(ci, is->is_irq, is->is_ipl, is->is_ist, 1512 1.34 nonaka &ii)) 1513 1.34 nonaka return ENXIO; 1514 1.34 nonaka 1515 1.34 nonaka /* 1516 1.34 nonaka * Update the vector/priority and destination registers keeping the 1517 1.34 nonaka * interrupt masked. 1518 1.34 nonaka */ 1519 1.34 nonaka const register_t msr = wrtee(0); /* disable interrupts */ 1520 1.34 nonaka 1521 1.34 nonaka uint32_t vpr = openpic_read(cpu, ii.irq_vpr); 1522 1.34 nonaka openpic_write(cpu, ii.irq_vpr, vpr | VPR_MSK); 1523 1.34 nonaka 1524 1.34 nonaka /* 1525 1.34 nonaka * Wait for the Activity (A) bit for the source to be cleared. 1526 1.34 nonaka */ 1527 1.34 nonaka while (openpic_read(cpu, ii.irq_vpr) & VPR_A) 1528 1.34 nonaka continue; 1529 1.34 nonaka 1530 1.34 nonaka /* 1531 1.34 nonaka * Update destination register 1532 1.34 nonaka */ 1533 1.34 nonaka openpic_write(cpu, ii.irq_dr, ecpuset); 1534 1.34 nonaka 1535 1.34 nonaka /* 1536 1.34 nonaka * Now unmask the interrupt. 1537 1.34 nonaka */ 1538 1.34 nonaka openpic_write(cpu, ii.irq_vpr, vpr); 1539 1.34 nonaka 1540 1.34 nonaka wrtee(msr); /* re-enable interrupts */ 1541 1.34 nonaka 1542 1.34 nonaka return 0; 1543 1.34 nonaka } 1544 1.34 nonaka 1545 1.34 nonaka static bool 1546 1.34 nonaka e500_intr_is_affinity_intrsource(struct intr_source *is, 1547 1.34 nonaka const kcpuset_t *cpuset) 1548 1.34 nonaka { 1549 1.34 nonaka struct cpu_info * const ci = curcpu(); 1550 1.34 nonaka struct cpu_softc * const cpu = ci->ci_softc; 1551 1.34 nonaka struct e500_intr_irq_info ii; 1552 1.34 nonaka bool result = false; 1553 1.34 nonaka 1554 1.34 nonaka if (is->is_ipl != IPL_NONE && !IST_PERCPU_P(is->is_ist)) { 1555 1.34 nonaka if (e500_intr_irq_info_get(ci, is->is_irq, is->is_ipl, 1556 1.34 nonaka is->is_ist, &ii)) { 1557 1.34 nonaka uint32_t dr = openpic_read(cpu, ii.irq_dr); 1558 1.34 nonaka while (dr != 0 && !result) { 1559 1.34 nonaka u_int n = ffs(dr); 1560 1.34 nonaka if (n-- == 0) 1561 1.34 nonaka break; 1562 1.34 nonaka dr &= ~(1 << n); 1563 1.34 nonaka result = kcpuset_isset(cpuset, n); 1564 1.34 nonaka } 1565 1.34 nonaka } 1566 1.34 nonaka } 1567 1.34 nonaka return result; 1568 1.34 nonaka } 1569 1.34 nonaka 1570 1.34 nonaka static struct intr_source * 1571 1.34 nonaka e500_intr_get_source(const char *intrid) 1572 1.34 nonaka { 1573 1.34 nonaka struct intr_source *is; 1574 1.34 nonaka 1575 1.34 nonaka mutex_enter(&e500_intr_lock); 1576 1.34 nonaka for (is = e500_intr_sources; is < e500_intr_last_source; ++is) { 1577 1.34 nonaka if (is->is_source[0] == '\0') 1578 1.34 nonaka continue; 1579 1.34 nonaka 1580 1.34 nonaka if (!strncmp(intrid, is->is_source, sizeof(is->is_source) - 1)) 1581 1.34 nonaka break; 1582 1.34 nonaka } 1583 1.34 nonaka if (is == e500_intr_last_source) 1584 1.34 nonaka is = NULL; 1585 1.34 nonaka mutex_exit(&e500_intr_lock); 1586 1.34 nonaka return is; 1587 1.34 nonaka } 1588 1.34 nonaka 1589 1.34 nonaka uint64_t 1590 1.34 nonaka interrupt_get_count(const char *intrid, u_int cpu_idx) 1591 1.34 nonaka { 1592 1.34 nonaka struct cpu_info * const ci = cpu_lookup(cpu_idx); 1593 1.34 nonaka struct cpu_softc * const cpu = ci->ci_softc; 1594 1.34 nonaka struct intr_source *is; 1595 1.34 nonaka struct e500_intr_irq_info ii; 1596 1.34 nonaka 1597 1.34 nonaka is = e500_intr_get_source(intrid); 1598 1.34 nonaka if (is == NULL) 1599 1.34 nonaka return 0; 1600 1.34 nonaka 1601 1.34 nonaka if (e500_intr_irq_info_get(ci, is->is_irq, is->is_ipl, is->is_ist, &ii)) 1602 1.34 nonaka return cpu->cpu_evcnt_intrs[ii.irq_vector].ev_count; 1603 1.34 nonaka return 0; 1604 1.34 nonaka } 1605 1.34 nonaka 1606 1.34 nonaka void 1607 1.34 nonaka interrupt_get_assigned(const char *intrid, kcpuset_t *cpuset) 1608 1.34 nonaka { 1609 1.34 nonaka struct intr_source *is; 1610 1.34 nonaka 1611 1.34 nonaka kcpuset_zero(cpuset); 1612 1.34 nonaka 1613 1.34 nonaka is = e500_intr_get_source(intrid); 1614 1.34 nonaka if (is == NULL) 1615 1.34 nonaka return; 1616 1.34 nonaka 1617 1.34 nonaka mutex_enter(&e500_intr_lock); 1618 1.34 nonaka e500_intr_get_affinity(is, cpuset); 1619 1.34 nonaka mutex_exit(&e500_intr_lock); 1620 1.34 nonaka } 1621 1.34 nonaka 1622 1.34 nonaka void 1623 1.34 nonaka interrupt_get_available(kcpuset_t *cpuset) 1624 1.34 nonaka { 1625 1.34 nonaka CPU_INFO_ITERATOR cii; 1626 1.34 nonaka struct cpu_info *ci; 1627 1.34 nonaka 1628 1.34 nonaka kcpuset_zero(cpuset); 1629 1.34 nonaka 1630 1.34 nonaka mutex_enter(&cpu_lock); 1631 1.34 nonaka for (CPU_INFO_FOREACH(cii, ci)) { 1632 1.34 nonaka if ((ci->ci_schedstate.spc_flags & SPCF_NOINTR) == 0) 1633 1.34 nonaka kcpuset_set(cpuset, cpu_index(ci)); 1634 1.34 nonaka } 1635 1.34 nonaka mutex_exit(&cpu_lock); 1636 1.34 nonaka } 1637 1.34 nonaka 1638 1.34 nonaka void 1639 1.34 nonaka interrupt_get_devname(const char *intrid, char *buf, size_t len) 1640 1.34 nonaka { 1641 1.34 nonaka struct intr_source *is; 1642 1.34 nonaka 1643 1.34 nonaka if (len == 0) 1644 1.34 nonaka return; 1645 1.34 nonaka 1646 1.34 nonaka buf[0] = '\0'; 1647 1.34 nonaka 1648 1.34 nonaka is = e500_intr_get_source(intrid); 1649 1.34 nonaka if (is != NULL) 1650 1.34 nonaka strlcpy(buf, is->is_xname, len); 1651 1.34 nonaka } 1652 1.34 nonaka 1653 1.34 nonaka struct intrids_handler * 1654 1.34 nonaka interrupt_construct_intrids(const kcpuset_t *cpuset) 1655 1.34 nonaka { 1656 1.34 nonaka struct intr_source *is; 1657 1.34 nonaka struct intrids_handler *ii_handler; 1658 1.34 nonaka intrid_t *ids; 1659 1.34 nonaka int i, n; 1660 1.34 nonaka 1661 1.34 nonaka if (kcpuset_iszero(cpuset)) 1662 1.34 nonaka return NULL; 1663 1.34 nonaka 1664 1.34 nonaka n = 0; 1665 1.34 nonaka mutex_enter(&e500_intr_lock); 1666 1.34 nonaka for (is = e500_intr_sources; is < e500_intr_last_source; ++is) { 1667 1.34 nonaka if (e500_intr_is_affinity_intrsource(is, cpuset)) 1668 1.34 nonaka ++n; 1669 1.34 nonaka } 1670 1.34 nonaka mutex_exit(&e500_intr_lock); 1671 1.34 nonaka 1672 1.34 nonaka const size_t alloc_size = sizeof(int) + sizeof(intrid_t) * n; 1673 1.34 nonaka ii_handler = kmem_zalloc(alloc_size, KM_SLEEP); 1674 1.34 nonaka ii_handler->iih_nids = n; 1675 1.34 nonaka if (n == 0) 1676 1.34 nonaka return ii_handler; 1677 1.34 nonaka 1678 1.34 nonaka ids = ii_handler->iih_intrids; 1679 1.34 nonaka mutex_enter(&e500_intr_lock); 1680 1.34 nonaka for (i = 0, is = e500_intr_sources; 1681 1.34 nonaka i < n && is < e500_intr_last_source; 1682 1.34 nonaka ++is) { 1683 1.34 nonaka if (!e500_intr_is_affinity_intrsource(is, cpuset)) 1684 1.34 nonaka continue; 1685 1.34 nonaka 1686 1.34 nonaka if (is->is_source[0] != '\0') { 1687 1.34 nonaka strlcpy(ids[i], is->is_source, sizeof(ids[0])); 1688 1.34 nonaka ++i; 1689 1.34 nonaka } 1690 1.34 nonaka } 1691 1.34 nonaka mutex_exit(&e500_intr_lock); 1692 1.34 nonaka 1693 1.34 nonaka return ii_handler; 1694 1.34 nonaka } 1695 1.34 nonaka 1696 1.34 nonaka void 1697 1.34 nonaka interrupt_destruct_intrids(struct intrids_handler *ii_handler) 1698 1.34 nonaka { 1699 1.34 nonaka size_t iih_size; 1700 1.34 nonaka 1701 1.34 nonaka if (ii_handler == NULL) 1702 1.34 nonaka return; 1703 1.34 nonaka 1704 1.34 nonaka iih_size = sizeof(int) + sizeof(intrid_t) * ii_handler->iih_nids; 1705 1.34 nonaka kmem_free(ii_handler, iih_size); 1706 1.34 nonaka } 1707 1.34 nonaka 1708 1.34 nonaka static int 1709 1.34 nonaka interrupt_distribute_locked(struct intr_source *is, const kcpuset_t *newset, 1710 1.34 nonaka kcpuset_t *oldset) 1711 1.34 nonaka { 1712 1.34 nonaka int error; 1713 1.34 nonaka 1714 1.34 nonaka KASSERT(mutex_owned(&cpu_lock)); 1715 1.34 nonaka 1716 1.34 nonaka if (is->is_ipl == IPL_NONE || IST_PERCPU_P(is->is_ist)) 1717 1.34 nonaka return EINVAL; 1718 1.34 nonaka 1719 1.34 nonaka mutex_enter(&e500_intr_lock); 1720 1.34 nonaka if (oldset != NULL) 1721 1.34 nonaka e500_intr_get_affinity(is, oldset); 1722 1.34 nonaka error = e500_intr_set_affinity(is, newset); 1723 1.34 nonaka mutex_exit(&e500_intr_lock); 1724 1.34 nonaka 1725 1.34 nonaka return error; 1726 1.34 nonaka } 1727 1.34 nonaka 1728 1.34 nonaka int 1729 1.34 nonaka interrupt_distribute(void *ich, const kcpuset_t *newset, kcpuset_t *oldset) 1730 1.34 nonaka { 1731 1.34 nonaka int error; 1732 1.34 nonaka 1733 1.34 nonaka mutex_enter(&cpu_lock); 1734 1.34 nonaka error = interrupt_distribute_locked(ich, newset, oldset); 1735 1.34 nonaka mutex_exit(&cpu_lock); 1736 1.34 nonaka 1737 1.34 nonaka return error; 1738 1.34 nonaka } 1739 1.34 nonaka 1740 1.34 nonaka int 1741 1.34 nonaka interrupt_distribute_handler(const char *intrid, const kcpuset_t *newset, 1742 1.34 nonaka kcpuset_t *oldset) 1743 1.34 nonaka { 1744 1.34 nonaka struct intr_source *is; 1745 1.34 nonaka int error; 1746 1.34 nonaka 1747 1.34 nonaka is = e500_intr_get_source(intrid); 1748 1.34 nonaka if (is != NULL) { 1749 1.34 nonaka mutex_enter(&cpu_lock); 1750 1.34 nonaka error = interrupt_distribute_locked(is, newset, oldset); 1751 1.34 nonaka mutex_exit(&cpu_lock); 1752 1.34 nonaka } else 1753 1.34 nonaka error = ENOENT; 1754 1.34 nonaka 1755 1.34 nonaka return error; 1756 1.34 nonaka } 1757
Indexes created Mon Sep 29 21:09:56 GMT 2025