1 /* $NetBSD: s3c2410_intr.c,v 1.6 2005/12/24 20:06:52 perry Exp $ */ 2 3 /* 4 * Copyright (c) 2003 Genetec corporation. All rights reserved. 5 * Written by Hiroyuki Bessho for Genetec corporation. 6 * 7 * Redistribution and use in source and binary forms, with or without 8 * modification, are permitted provided that the following conditions 9 * are met: 10 * 1. Redistributions of source code must retain the above copyright 11 * notice, this list of conditions and the following disclaimer. 12 * 2. Redistributions in binary form must reproduce the above copyright 13 * notice, this list of conditions and the following disclaimer in the 14 * documentation and/or other materials provided with the distribution. 15 * 3. The name of Genetec corporation may not be used to endorse 16 * or promote products derived from this software without specific prior 17 * written permission. 18 * 19 * THIS SOFTWARE IS PROVIDED BY GENETEC CORP. ``AS IS'' AND 20 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL GENETEC CORP. 23 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 * POSSIBILITY OF SUCH DAMAGE. 30 */ 31 32 /* 33 * IRQ handler for Samsung S3C2410 processor. 34 * It has integrated interrupt controller. 35 */ 36 37 #include <sys/cdefs.h> 38 __KERNEL_RCSID(0, "$NetBSD: s3c2410_intr.c,v 1.6 2005/12/24 20:06:52 perry Exp $"); 39 40 #include <sys/param.h> 41 #include <sys/systm.h> 42 #include <sys/malloc.h> 43 #include <uvm/uvm_extern.h> 44 #include <machine/bus.h> 45 #include <machine/intr.h> 46 #include <arm/cpufunc.h> 47 48 #include <arm/s3c2xx0/s3c2410reg.h> 49 #include <arm/s3c2xx0/s3c2410var.h> 50 51 /* 52 * interrupt dispatch table. 53 */ 54 55 struct s3c2xx0_intr_dispatch handler[ICU_LEN]; 56 57 volatile int softint_pending; 58 59 volatile int current_spl_level; 60 volatile int intr_mask; 61 volatile int soft_intr_mask; 62 volatile int global_intr_mask = 0; /* mask some interrupts at all spl level */ 63 64 /* interrupt masks for each level */ 65 int s3c2xx0_imask[NIPL]; 66 int s3c2xx0_ilevel[ICU_LEN]; 67 int s3c24x0_soft_imask[NIPL]; 68 69 vaddr_t intctl_base; /* interrupt controller registers */ 70 #define icreg(offset) \ 71 (*(volatile uint32_t *)(intctl_base+(offset))) 72 73 /* 74 * Map a software interrupt queue to an interrupt priority level. 75 */ 76 static const int si_to_ipl[SI_NQUEUES] = { 77 IPL_SOFT, /* SI_SOFT */ 78 IPL_SOFTCLOCK, /* SI_SOFTCLOCK */ 79 IPL_SOFTNET, /* SI_SOFTNET */ 80 IPL_SOFTSERIAL, /* SI_SOFTSERIAL */ 81 }; 82 83 #define PENDING_CLEAR_MASK (~0) 84 85 /* 86 * called from irq_entry. 87 */ 88 void s3c2410_irq_handler(struct clockframe *); 89 void 90 s3c2410_irq_handler(struct clockframe *frame) 91 { 92 uint32_t irqbits; 93 int irqno; 94 int saved_spl_level; 95 96 saved_spl_level = current_spl_level; 97 98 #ifdef DIAGNOSTIC 99 if (current_intr_depth > 10) 100 panic("nested intr too deep"); 101 #endif 102 103 while ((irqbits = icreg(INTCTL_INTPND)) != 0) { 104 105 /* Note: Only one bit in INTPND register is set */ 106 107 irqno = icreg(INTCTL_INTOFFSET); 108 109 #ifdef DIAGNOSTIC 110 if (__predict_false((irqbits & (1<<irqno)) == 0)) { 111 /* This shouldn't happen */ 112 printf("INTOFFSET=%d, INTPND=%x\n", irqno, irqbits); 113 break; 114 } 115 #endif 116 /* raise spl to stop interrupts of lower priorities */ 117 if (saved_spl_level < handler[irqno].level) 118 s3c2xx0_setipl(handler[irqno].level); 119 120 /* clear pending bit */ 121 icreg(INTCTL_SRCPND) = PENDING_CLEAR_MASK & (1 << irqno); 122 icreg(INTCTL_INTPND) = PENDING_CLEAR_MASK & (1 << irqno); 123 124 enable_interrupts(I32_bit); /* allow nested interrupts */ 125 126 (*handler[irqno].func) ( 127 handler[irqno].cookie == 0 128 ? frame : handler[irqno].cookie); 129 130 disable_interrupts(I32_bit); 131 132 /* restore spl to that was when this interrupt happen */ 133 s3c2xx0_setipl(saved_spl_level); 134 135 } 136 137 138 if (get_pending_softint()) 139 s3c2xx0_do_pending(1); 140 141 } 142 143 /* 144 * Handler for main IRQ of cascaded interrupts. 145 */ 146 static int 147 cascade_irq_handler(void *cookie) 148 { 149 int index = (int)cookie - 1; 150 uint32_t irqbits; 151 int irqno, i; 152 int save = disable_interrupts(I32_bit); 153 154 KASSERT(0 <= index && index <= 3); 155 156 irqbits = icreg(INTCTL_SUBSRCPND) & 157 ~icreg(INTCTL_INTSUBMSK) & (0x07 << (3*index)); 158 159 for (irqno = 3*index; irqbits; ++irqno) { 160 if ((irqbits & (1<<irqno)) == 0) 161 continue; 162 163 /* clear pending bit */ 164 irqbits &= ~(1<<irqno); 165 icreg(INTCTL_SUBSRCPND) = (1 << irqno); 166 167 /* allow nested interrupts. SPL is already set 168 * correctly by main handler. */ 169 restore_interrupts(save); 170 171 i = S3C2410_SUBIRQ_MIN + irqno; 172 (* handler[i].func)(handler[i].cookie); 173 174 disable_interrupts(I32_bit); 175 } 176 177 return 1; 178 } 179 180 181 static const uint8_t subirq_to_main[] = { 182 S3C2410_INT_UART0, 183 S3C2410_INT_UART0, 184 S3C2410_INT_UART0, 185 S3C2410_INT_UART1, 186 S3C2410_INT_UART1, 187 S3C2410_INT_UART1, 188 S3C2410_INT_UART2, 189 S3C2410_INT_UART2, 190 S3C2410_INT_UART2, 191 S3C24X0_INT_ADCTC, 192 S3C24X0_INT_ADCTC, 193 }; 194 195 void * 196 s3c24x0_intr_establish(int irqno, int level, int type, 197 int (* func) (void *), void *cookie) 198 { 199 int save; 200 201 if (irqno < 0 || irqno >= ICU_LEN || 202 type < IST_NONE || IST_EDGE_BOTH < type) 203 panic("intr_establish: bogus irq or type"); 204 205 save = disable_interrupts(I32_bit); 206 207 handler[irqno].cookie = cookie; 208 handler[irqno].func = func; 209 handler[irqno].level = level; 210 211 if (irqno >= S3C2410_SUBIRQ_MIN) { 212 /* cascaded interrupts. */ 213 int main_irqno; 214 int i = (irqno - S3C2410_SUBIRQ_MIN); 215 216 main_irqno = subirq_to_main[i]; 217 218 /* establish main irq if first time 219 * be careful that cookie shouldn't be 0 */ 220 if (handler[main_irqno].func != cascade_irq_handler) 221 s3c24x0_intr_establish(main_irqno, level, type, 222 cascade_irq_handler, (void *)((i/3) + 1)); 223 224 /* unmask it in submask register */ 225 icreg(INTCTL_INTSUBMSK) &= ~(1<<i); 226 227 restore_interrupts(save); 228 return &handler[irqno]; 229 } 230 231 s3c2xx0_update_intr_masks(irqno, level); 232 233 /* 234 * set trigger type for external interrupts 0..3 235 */ 236 if (irqno <= S3C24X0_INT_EXT(3)) { 237 /* 238 * Update external interrupt control 239 */ 240 s3c2410_setup_extint(irqno, type); 241 } 242 243 s3c2xx0_setipl(current_spl_level); 244 245 restore_interrupts(save); 246 247 return &handler[irqno]; 248 } 249 250 251 static void 252 init_interrupt_masks(void) 253 { 254 int i; 255 256 for (i=0; i < NIPL; ++i) 257 s3c2xx0_imask[i] = 0; 258 259 s3c24x0_soft_imask[IPL_NONE] = SI_TO_IRQBIT(SI_SOFTSERIAL) | 260 SI_TO_IRQBIT(SI_SOFTNET) | SI_TO_IRQBIT(SI_SOFTCLOCK) | 261 SI_TO_IRQBIT(SI_SOFT); 262 263 s3c24x0_soft_imask[IPL_SOFT] = SI_TO_IRQBIT(SI_SOFTSERIAL) | 264 SI_TO_IRQBIT(SI_SOFTNET) | SI_TO_IRQBIT(SI_SOFTCLOCK); 265 266 /* 267 * splsoftclock() is the only interface that users of the 268 * generic software interrupt facility have to block their 269 * soft intrs, so splsoftclock() must also block IPL_SOFT. 270 */ 271 s3c24x0_soft_imask[IPL_SOFTCLOCK] = SI_TO_IRQBIT(SI_SOFTSERIAL) | 272 SI_TO_IRQBIT(SI_SOFTNET); 273 274 /* 275 * splsoftnet() must also block splsoftclock(), since we don't 276 * want timer-driven network events to occur while we're 277 * processing incoming packets. 278 */ 279 s3c24x0_soft_imask[IPL_SOFTNET] = SI_TO_IRQBIT(SI_SOFTSERIAL); 280 281 for (i = IPL_BIO; i < IPL_SOFTSERIAL; ++i) 282 s3c24x0_soft_imask[i] = SI_TO_IRQBIT(SI_SOFTSERIAL); 283 } 284 285 void 286 s3c2410_intr_init(struct s3c24x0_softc *sc) 287 { 288 intctl_base = (vaddr_t) bus_space_vaddr(sc->sc_sx.sc_iot, 289 sc->sc_sx.sc_intctl_ioh); 290 291 s3c2xx0_intr_mask_reg = (uint32_t *)(intctl_base + INTCTL_INTMSK); 292 293 /* clear all pending interrupt */ 294 icreg(INTCTL_SRCPND) = ~0; 295 icreg(INTCTL_INTPND) = ~0; 296 297 /* mask all sub interrupts */ 298 icreg(INTCTL_INTSUBMSK) = 0x7ff; 299 300 init_interrupt_masks(); 301 302 s3c2xx0_intr_init(handler, ICU_LEN); 303 304 } 305 306 307 /* 308 * mask/unmask sub interrupts 309 */ 310 void 311 s3c2410_mask_subinterrupts(int bits) 312 { 313 atomic_set_bit((uint32_t *)__UNVOLATILE(&icreg(INTCTL_INTSUBMSK)), 314 bits); 315 } 316 317 void 318 s3c2410_unmask_subinterrupts(int bits) 319 { 320 atomic_clear_bit((uint32_t *)__UNVOLATILE(&icreg(INTCTL_INTSUBMSK)), 321 bits); 322 } 323 324 /* 325 * Update external interrupt control 326 */ 327 static const u_char s3c24x0_ist[] = { 328 EXTINTR_LOW, /* NONE */ 329 EXTINTR_FALLING, /* PULSE */ 330 EXTINTR_FALLING, /* EDGE */ 331 EXTINTR_LOW, /* LEVEL */ 332 EXTINTR_HIGH, 333 EXTINTR_RISING, 334 EXTINTR_BOTH, 335 }; 336 337 void 338 s3c2410_setup_extint(int extint, int type) 339 { 340 uint32_t reg; 341 u_int trig; 342 int i = extint % 8; 343 int regidx = extint/8; /* GPIO_EXTINT[0:2] */ 344 int save; 345 346 trig = s3c24x0_ist[type]; 347 348 save = disable_interrupts(I32_bit); 349 350 reg = bus_space_read_4(s3c2xx0_softc->sc_iot, 351 s3c2xx0_softc->sc_gpio_ioh, 352 GPIO_EXTINT(regidx)); 353 354 reg = reg & ~(0x07 << (4*i)); 355 reg |= trig << (4*i); 356 357 bus_space_write_4(s3c2xx0_softc->sc_iot, s3c2xx0_softc->sc_gpio_ioh, 358 GPIO_EXTINT(regidx), reg); 359 360 restore_interrupts(save); 361 } 362