ifpga_intr.c revision 1.7.6.1
1 1.7.6.1 mjf /* $NetBSD: ifpga_intr.c,v 1.7.6.1 2008/06/02 13:22:01 mjf Exp $ */ 2 1.1 rearnsha 3 1.1 rearnsha /* 4 1.1 rearnsha * Copyright (c) 2001, 2002 Wasabi Systems, Inc. 5 1.1 rearnsha * All rights reserved. 6 1.1 rearnsha * 7 1.1 rearnsha * Written by Jason R. Thorpe for Wasabi Systems, Inc. 8 1.1 rearnsha * 9 1.1 rearnsha * Redistribution and use in source and binary forms, with or without 10 1.1 rearnsha * modification, are permitted provided that the following conditions 11 1.1 rearnsha * are met: 12 1.1 rearnsha * 1. Redistributions of source code must retain the above copyright 13 1.1 rearnsha * notice, this list of conditions and the following disclaimer. 14 1.1 rearnsha * 2. Redistributions in binary form must reproduce the above copyright 15 1.1 rearnsha * notice, this list of conditions and the following disclaimer in the 16 1.1 rearnsha * documentation and/or other materials provided with the distribution. 17 1.1 rearnsha * 3. All advertising materials mentioning features or use of this software 18 1.1 rearnsha * must display the following acknowledgement: 19 1.1 rearnsha * This product includes software developed for the NetBSD Project by 20 1.1 rearnsha * Wasabi Systems, Inc. 21 1.1 rearnsha * 4. The name of Wasabi Systems, Inc. may not be used to endorse 22 1.1 rearnsha * or promote products derived from this software without specific prior 23 1.1 rearnsha * written permission. 24 1.1 rearnsha * 25 1.1 rearnsha * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND 26 1.1 rearnsha * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 27 1.1 rearnsha * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 28 1.1 rearnsha * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL WASABI SYSTEMS, INC 29 1.1 rearnsha * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 30 1.1 rearnsha * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 31 1.1 rearnsha * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 32 1.1 rearnsha * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 33 1.1 rearnsha * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 34 1.1 rearnsha * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 35 1.1 rearnsha * POSSIBILITY OF SUCH DAMAGE. 36 1.1 rearnsha */ 37 1.1 rearnsha 38 1.1 rearnsha #ifndef EVBARM_SPL_NOINLINE 39 1.1 rearnsha #define EVBARM_SPL_NOINLINE 40 1.1 rearnsha #endif 41 1.1 rearnsha 42 1.1 rearnsha /* 43 1.1 rearnsha * Interrupt support for the Integrator FPGA. 44 1.1 rearnsha */ 45 1.1 rearnsha 46 1.1 rearnsha #include <sys/param.h> 47 1.1 rearnsha #include <sys/systm.h> 48 1.1 rearnsha #include <sys/malloc.h> 49 1.6 ad #include <sys/bus.h> 50 1.6 ad #include <sys/intr.h> 51 1.1 rearnsha 52 1.1 rearnsha #include <uvm/uvm_extern.h> 53 1.1 rearnsha 54 1.1 rearnsha #include <arm/cpufunc.h> 55 1.1 rearnsha 56 1.1 rearnsha #include <evbarm/ifpga/ifpgareg.h> 57 1.1 rearnsha #include <evbarm/ifpga/ifpgavar.h> 58 1.1 rearnsha 59 1.1 rearnsha /* Interrupt handler queues. */ 60 1.1 rearnsha struct intrq intrq[NIRQ]; 61 1.1 rearnsha 62 1.1 rearnsha /* Interrupts to mask at each level. */ 63 1.1 rearnsha int ifpga_imask[NIPL]; 64 1.1 rearnsha 65 1.1 rearnsha /* Interrupts pending. */ 66 1.3 perry volatile int ifpga_ipending; 67 1.1 rearnsha 68 1.1 rearnsha /* Software copy of the IRQs we have enabled. */ 69 1.3 perry volatile uint32_t intr_enabled; 70 1.1 rearnsha 71 1.1 rearnsha /* Mask if interrupts steered to FIQs. */ 72 1.1 rearnsha uint32_t intr_steer; 73 1.1 rearnsha 74 1.1 rearnsha /* 75 1.1 rearnsha * Interrupt bit names. 76 1.1 rearnsha */ 77 1.7 matt const char * const ifpga_irqnames[] = { 78 1.1 rearnsha "soft", /* 0 */ 79 1.1 rearnsha "uart 0", /* 1 */ 80 1.1 rearnsha "uart 1", /* 2 */ 81 1.1 rearnsha "kbd", /* 3 */ 82 1.1 rearnsha "mouse", /* 4 */ 83 1.1 rearnsha "tmr 0", /* 5 */ 84 1.1 rearnsha "tmr 1 hard", /* 6 */ 85 1.1 rearnsha "tmr 2 stat", /* 7 */ 86 1.1 rearnsha "rtc", /* 8 */ 87 1.1 rearnsha "exp 0", /* 9 */ 88 1.1 rearnsha "exp 1", /* 10 */ 89 1.1 rearnsha "exp 2", /* 11 */ 90 1.1 rearnsha "exp 3", /* 12 */ 91 1.1 rearnsha "pci 0", /* 13 */ 92 1.1 rearnsha "pci 1", /* 14 */ 93 1.1 rearnsha "pci 2", /* 15 */ 94 1.1 rearnsha "pci 3", /* 16 */ 95 1.1 rearnsha "V3 br", /* 17 */ 96 1.1 rearnsha "deg", /* 18 */ 97 1.1 rearnsha "enum", /* 19 */ 98 1.1 rearnsha "pci lb", /* 20 */ 99 1.1 rearnsha "autoPC", /* 21 */ 100 1.1 rearnsha "irq 22", /* 22 */ 101 1.1 rearnsha "irq 23", /* 23 */ 102 1.1 rearnsha "irq 24", /* 24 */ 103 1.1 rearnsha "irq 25", /* 25 */ 104 1.1 rearnsha "irq 26", /* 26 */ 105 1.1 rearnsha "irq 27", /* 27 */ 106 1.1 rearnsha "irq 28", /* 28 */ 107 1.1 rearnsha "irq 29", /* 29 */ 108 1.1 rearnsha "irq 30", /* 30 */ 109 1.1 rearnsha "irq 31", /* 31 */ 110 1.1 rearnsha }; 111 1.1 rearnsha 112 1.1 rearnsha void ifpga_intr_dispatch(struct clockframe *frame); 113 1.1 rearnsha 114 1.1 rearnsha extern struct ifpga_softc *ifpga_sc; 115 1.1 rearnsha 116 1.3 perry static inline uint32_t 117 1.1 rearnsha ifpga_iintsrc_read(void) 118 1.1 rearnsha { 119 1.1 rearnsha return bus_space_read_4(ifpga_sc->sc_iot, ifpga_sc->sc_irq_ioh, 120 1.1 rearnsha IFPGA_INTR_STATUS); 121 1.1 rearnsha } 122 1.1 rearnsha 123 1.3 perry static inline void 124 1.1 rearnsha ifpga_enable_irq(int irq) 125 1.1 rearnsha { 126 1.1 rearnsha 127 1.1 rearnsha intr_enabled |= (1U << irq); 128 1.1 rearnsha ifpga_set_intrmask(); 129 1.1 rearnsha } 130 1.1 rearnsha 131 1.3 perry static inline void 132 1.1 rearnsha ifpga_disable_irq(int irq) 133 1.1 rearnsha { 134 1.1 rearnsha 135 1.1 rearnsha intr_enabled &= ~(1U << irq); 136 1.1 rearnsha ifpga_set_intrmask(); 137 1.1 rearnsha } 138 1.1 rearnsha 139 1.1 rearnsha /* 140 1.1 rearnsha * NOTE: This routine must be called with interrupts disabled in the CPSR. 141 1.1 rearnsha */ 142 1.1 rearnsha static void 143 1.1 rearnsha ifpga_intr_calculate_masks(void) 144 1.1 rearnsha { 145 1.1 rearnsha struct intrq *iq; 146 1.1 rearnsha struct intrhand *ih; 147 1.1 rearnsha int irq, ipl; 148 1.1 rearnsha 149 1.1 rearnsha /* First, figure out which IPLs each IRQ has. */ 150 1.1 rearnsha for (irq = 0; irq < NIRQ; irq++) { 151 1.1 rearnsha int levels = 0; 152 1.1 rearnsha iq = &intrq[irq]; 153 1.1 rearnsha ifpga_disable_irq(irq); 154 1.1 rearnsha for (ih = TAILQ_FIRST(&iq->iq_list); ih != NULL; 155 1.1 rearnsha ih = TAILQ_NEXT(ih, ih_list)) 156 1.1 rearnsha levels |= (1U << ih->ih_ipl); 157 1.1 rearnsha iq->iq_levels = levels; 158 1.1 rearnsha } 159 1.1 rearnsha 160 1.1 rearnsha /* Next, figure out which IRQs are used by each IPL. */ 161 1.1 rearnsha for (ipl = 0; ipl < NIPL; ipl++) { 162 1.1 rearnsha int irqs = 0; 163 1.1 rearnsha for (irq = 0; irq < NIRQ; irq++) { 164 1.1 rearnsha if (intrq[irq].iq_levels & (1U << ipl)) 165 1.1 rearnsha irqs |= (1U << irq); 166 1.1 rearnsha } 167 1.1 rearnsha ifpga_imask[ipl] = irqs; 168 1.1 rearnsha } 169 1.1 rearnsha 170 1.7 matt KASSERT(ifpga_imask[IPL_NONE] == 0); 171 1.1 rearnsha 172 1.1 rearnsha /* 173 1.5 wiz * Enforce a hierarchy that gives "slow" device (or devices with 174 1.1 rearnsha * limited input buffer space/"real-time" requirements) a better 175 1.1 rearnsha * chance at not dropping data. 176 1.1 rearnsha */ 177 1.7.6.1 mjf ifpga_imask[IPL_VM] |= 0; 178 1.6 ad ifpga_imask[IPL_SCHED] |= ifpga_imask[IPL_VM]; 179 1.6 ad ifpga_imask[IPL_HIGH] |= ifpga_imask[IPL_SCHED]; 180 1.1 rearnsha 181 1.1 rearnsha /* 182 1.1 rearnsha * Now compute which IRQs must be blocked when servicing any 183 1.1 rearnsha * given IRQ. 184 1.1 rearnsha */ 185 1.1 rearnsha for (irq = 0; irq < NIRQ; irq++) { 186 1.1 rearnsha int irqs = (1U << irq); 187 1.1 rearnsha iq = &intrq[irq]; 188 1.1 rearnsha if (TAILQ_FIRST(&iq->iq_list) != NULL) 189 1.1 rearnsha ifpga_enable_irq(irq); 190 1.1 rearnsha for (ih = TAILQ_FIRST(&iq->iq_list); ih != NULL; 191 1.1 rearnsha ih = TAILQ_NEXT(ih, ih_list)) 192 1.1 rearnsha irqs |= ifpga_imask[ih->ih_ipl]; 193 1.1 rearnsha iq->iq_mask = irqs; 194 1.1 rearnsha } 195 1.1 rearnsha } 196 1.1 rearnsha 197 1.1 rearnsha void 198 1.1 rearnsha splx(int new) 199 1.1 rearnsha { 200 1.1 rearnsha 201 1.1 rearnsha ifpga_splx(new); 202 1.1 rearnsha } 203 1.1 rearnsha 204 1.1 rearnsha int 205 1.1 rearnsha _spllower(int ipl) 206 1.1 rearnsha { 207 1.1 rearnsha 208 1.1 rearnsha return (ifpga_spllower(ipl)); 209 1.1 rearnsha } 210 1.1 rearnsha 211 1.1 rearnsha int 212 1.1 rearnsha _splraise(int ipl) 213 1.1 rearnsha { 214 1.1 rearnsha 215 1.1 rearnsha return (ifpga_splraise(ipl)); 216 1.1 rearnsha } 217 1.1 rearnsha 218 1.1 rearnsha /* 219 1.1 rearnsha * ifpga_intr_init: 220 1.1 rearnsha * 221 1.1 rearnsha * Initialize the rest of the interrupt subsystem, making it 222 1.1 rearnsha * ready to handle interrupts from devices. 223 1.1 rearnsha */ 224 1.1 rearnsha void 225 1.1 rearnsha ifpga_intr_init(void) 226 1.1 rearnsha { 227 1.1 rearnsha struct intrq *iq; 228 1.1 rearnsha int i; 229 1.1 rearnsha 230 1.1 rearnsha intr_enabled = 0; 231 1.1 rearnsha 232 1.1 rearnsha for (i = 0; i < NIRQ; i++) { 233 1.1 rearnsha iq = &intrq[i]; 234 1.1 rearnsha TAILQ_INIT(&iq->iq_list); 235 1.1 rearnsha 236 1.1 rearnsha evcnt_attach_dynamic(&iq->iq_ev, EVCNT_TYPE_INTR, 237 1.1 rearnsha NULL, "ifpga", ifpga_irqnames[i]); 238 1.1 rearnsha } 239 1.1 rearnsha } 240 1.1 rearnsha 241 1.1 rearnsha void 242 1.1 rearnsha ifpga_intr_postinit(void) 243 1.1 rearnsha { 244 1.1 rearnsha ifpga_intr_calculate_masks(); 245 1.1 rearnsha 246 1.1 rearnsha /* Enable IRQs (don't yet use FIQs). */ 247 1.1 rearnsha enable_interrupts(I32_bit); 248 1.1 rearnsha } 249 1.1 rearnsha 250 1.1 rearnsha void * 251 1.1 rearnsha ifpga_intr_establish(int irq, int ipl, int (*func)(void *), void *arg) 252 1.1 rearnsha { 253 1.1 rearnsha struct intrq *iq; 254 1.1 rearnsha struct intrhand *ih; 255 1.1 rearnsha u_int oldirqstate; 256 1.1 rearnsha 257 1.1 rearnsha if (irq < 0 || irq > NIRQ) 258 1.1 rearnsha panic("ifpga_intr_establish: IRQ %d out of range", irq); 259 1.1 rearnsha 260 1.1 rearnsha ih = malloc(sizeof(*ih), M_DEVBUF, M_NOWAIT); 261 1.1 rearnsha if (ih == NULL) 262 1.1 rearnsha return (NULL); 263 1.1 rearnsha 264 1.1 rearnsha ih->ih_func = func; 265 1.1 rearnsha ih->ih_arg = arg; 266 1.1 rearnsha ih->ih_ipl = ipl; 267 1.1 rearnsha ih->ih_irq = irq; 268 1.1 rearnsha 269 1.1 rearnsha iq = &intrq[irq]; 270 1.1 rearnsha 271 1.1 rearnsha /* All IOP321 interrupts are level-triggered. */ 272 1.1 rearnsha iq->iq_ist = IST_LEVEL; 273 1.1 rearnsha 274 1.1 rearnsha oldirqstate = disable_interrupts(I32_bit); 275 1.1 rearnsha 276 1.1 rearnsha TAILQ_INSERT_TAIL(&iq->iq_list, ih, ih_list); 277 1.1 rearnsha 278 1.1 rearnsha ifpga_intr_calculate_masks(); 279 1.1 rearnsha 280 1.1 rearnsha restore_interrupts(oldirqstate); 281 1.1 rearnsha 282 1.1 rearnsha return (ih); 283 1.1 rearnsha } 284 1.1 rearnsha 285 1.1 rearnsha void 286 1.1 rearnsha ifpga_intr_disestablish(void *cookie) 287 1.1 rearnsha { 288 1.1 rearnsha struct intrhand *ih = cookie; 289 1.1 rearnsha struct intrq *iq = &intrq[ih->ih_irq]; 290 1.1 rearnsha int oldirqstate; 291 1.1 rearnsha 292 1.1 rearnsha oldirqstate = disable_interrupts(I32_bit); 293 1.1 rearnsha 294 1.1 rearnsha TAILQ_REMOVE(&iq->iq_list, ih, ih_list); 295 1.1 rearnsha 296 1.1 rearnsha ifpga_intr_calculate_masks(); 297 1.1 rearnsha 298 1.1 rearnsha restore_interrupts(oldirqstate); 299 1.1 rearnsha } 300 1.1 rearnsha 301 1.1 rearnsha void 302 1.1 rearnsha ifpga_intr_dispatch(struct clockframe *frame) 303 1.1 rearnsha { 304 1.1 rearnsha struct intrq *iq; 305 1.1 rearnsha struct intrhand *ih; 306 1.1 rearnsha int oldirqstate, pcpl, irq, ibit, hwpend; 307 1.7.6.1 mjf struct cpu_info * const ci = curcpu(); 308 1.1 rearnsha 309 1.7.6.1 mjf pcpl = ci->ci_cpl; 310 1.1 rearnsha 311 1.1 rearnsha hwpend = ifpga_iintsrc_read(); 312 1.1 rearnsha 313 1.1 rearnsha /* 314 1.1 rearnsha * Disable all the interrupts that are pending. We will 315 1.1 rearnsha * reenable them once they are processed and not masked. 316 1.1 rearnsha */ 317 1.1 rearnsha intr_enabled &= ~hwpend; 318 1.1 rearnsha ifpga_set_intrmask(); 319 1.1 rearnsha 320 1.1 rearnsha /* Wait for these interrupts to be suppressed. */ 321 1.1 rearnsha while ((ifpga_iintsrc_read() & hwpend) != 0) 322 1.1 rearnsha ; 323 1.1 rearnsha 324 1.1 rearnsha while (hwpend != 0) { 325 1.1 rearnsha irq = ffs(hwpend) - 1; 326 1.1 rearnsha ibit = (1U << irq); 327 1.1 rearnsha 328 1.1 rearnsha hwpend &= ~ibit; 329 1.1 rearnsha 330 1.1 rearnsha if (pcpl & ibit) { 331 1.1 rearnsha /* 332 1.1 rearnsha * IRQ is masked; mark it as pending and check 333 1.1 rearnsha * the next one. Note: the IRQ is already disabled. 334 1.1 rearnsha */ 335 1.1 rearnsha ifpga_ipending |= ibit; 336 1.1 rearnsha continue; 337 1.1 rearnsha } 338 1.1 rearnsha 339 1.1 rearnsha ifpga_ipending &= ~ibit; 340 1.1 rearnsha 341 1.1 rearnsha iq = &intrq[irq]; 342 1.1 rearnsha iq->iq_ev.ev_count++; 343 1.1 rearnsha uvmexp.intrs++; 344 1.7.6.1 mjf ci->ci_cpl |= iq->iq_mask; 345 1.1 rearnsha oldirqstate = enable_interrupts(I32_bit); 346 1.1 rearnsha for (ih = TAILQ_FIRST(&iq->iq_list); ih != NULL; 347 1.1 rearnsha ih = TAILQ_NEXT(ih, ih_list)) { 348 1.1 rearnsha (void) (*ih->ih_func)(ih->ih_arg ? ih->ih_arg : frame); 349 1.1 rearnsha } 350 1.1 rearnsha restore_interrupts(oldirqstate); 351 1.7.6.1 mjf ci->ci_cpl = pcpl; 352 1.1 rearnsha 353 1.1 rearnsha hwpend |= (ifpga_ipending & IFPGA_INTR_HWMASK) & ~pcpl; 354 1.1 rearnsha 355 1.1 rearnsha /* Re-enable this interrupt now that's it's cleared. */ 356 1.1 rearnsha intr_enabled |= ibit; 357 1.1 rearnsha ifpga_set_intrmask(); 358 1.1 rearnsha } 359 1.1 rearnsha 360 1.7 matt #ifdef __HAVE_FAST_SOFTINTS 361 1.7.6.1 mjf cpu_dosoftints(); 362 1.7 matt #endif 363 1.1 rearnsha } 364
Indexes created Tue Oct 28 12:10:06 GMT 2025