gicv3.c revision 1.20.2.1
1 1.20.2.1 martin /* $NetBSD: gicv3.c,v 1.20.2.1 2019/09/22 12:30:15 martin Exp $ */ 2 1.1 jmcneill 3 1.1 jmcneill /*- 4 1.1 jmcneill * Copyright (c) 2018 Jared McNeill <jmcneill (at) invisible.ca> 5 1.1 jmcneill * All rights reserved. 6 1.1 jmcneill * 7 1.1 jmcneill * Redistribution and use in source and binary forms, with or without 8 1.1 jmcneill * modification, are permitted provided that the following conditions 9 1.1 jmcneill * are met: 10 1.1 jmcneill * 1. Redistributions of source code must retain the above copyright 11 1.1 jmcneill * notice, this list of conditions and the following disclaimer. 12 1.1 jmcneill * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 jmcneill * notice, this list of conditions and the following disclaimer in the 14 1.1 jmcneill * documentation and/or other materials provided with the distribution. 15 1.1 jmcneill * 16 1.1 jmcneill * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 17 1.1 jmcneill * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 18 1.1 jmcneill * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 19 1.1 jmcneill * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 20 1.1 jmcneill * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 21 1.1 jmcneill * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 22 1.1 jmcneill * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 23 1.1 jmcneill * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 24 1.1 jmcneill * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 25 1.1 jmcneill * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 26 1.1 jmcneill * SUCH DAMAGE. 27 1.1 jmcneill */ 28 1.1 jmcneill 29 1.1 jmcneill #include "opt_multiprocessor.h" 30 1.1 jmcneill 31 1.1 jmcneill #define _INTR_PRIVATE 32 1.1 jmcneill 33 1.1 jmcneill #include <sys/cdefs.h> 34 1.20.2.1 martin __KERNEL_RCSID(0, "$NetBSD: gicv3.c,v 1.20.2.1 2019/09/22 12:30:15 martin Exp $"); 35 1.1 jmcneill 36 1.1 jmcneill #include <sys/param.h> 37 1.1 jmcneill #include <sys/kernel.h> 38 1.1 jmcneill #include <sys/bus.h> 39 1.1 jmcneill #include <sys/device.h> 40 1.1 jmcneill #include <sys/intr.h> 41 1.1 jmcneill #include <sys/systm.h> 42 1.1 jmcneill #include <sys/cpu.h> 43 1.1 jmcneill 44 1.20 jmcneill #include <machine/cpufunc.h> 45 1.20 jmcneill 46 1.1 jmcneill #include <arm/locore.h> 47 1.1 jmcneill #include <arm/armreg.h> 48 1.1 jmcneill 49 1.1 jmcneill #include <arm/cortex/gicv3.h> 50 1.1 jmcneill #include <arm/cortex/gic_reg.h> 51 1.1 jmcneill 52 1.1 jmcneill #define PICTOSOFTC(pic) \ 53 1.1 jmcneill ((void *)((uintptr_t)(pic) - offsetof(struct gicv3_softc, sc_pic))) 54 1.5 jmcneill #define LPITOSOFTC(lpi) \ 55 1.5 jmcneill ((void *)((uintptr_t)(lpi) - offsetof(struct gicv3_softc, sc_lpi))) 56 1.1 jmcneill 57 1.18 jmcneill #define IPL_TO_PRIORITY(sc, ipl) (((0xff - (ipl)) << (sc)->sc_priority_shift) & 0xff) 58 1.18 jmcneill #define IPL_TO_PMR(sc, ipl) (((0xff - (ipl)) << (sc)->sc_pmr_shift) & 0xff) 59 1.18 jmcneill #define IPL_TO_LPIPRIO(sc, ipl) (((0xff - (ipl)) << 4) & 0xff) 60 1.1 jmcneill 61 1.1 jmcneill static struct gicv3_softc *gicv3_softc; 62 1.1 jmcneill 63 1.1 jmcneill static inline uint32_t 64 1.1 jmcneill gicd_read_4(struct gicv3_softc *sc, bus_size_t reg) 65 1.1 jmcneill { 66 1.1 jmcneill return bus_space_read_4(sc->sc_bst, sc->sc_bsh_d, reg); 67 1.1 jmcneill } 68 1.1 jmcneill 69 1.1 jmcneill static inline void 70 1.1 jmcneill gicd_write_4(struct gicv3_softc *sc, bus_size_t reg, uint32_t val) 71 1.1 jmcneill { 72 1.1 jmcneill bus_space_write_4(sc->sc_bst, sc->sc_bsh_d, reg, val); 73 1.1 jmcneill } 74 1.1 jmcneill 75 1.6 jmcneill static inline uint64_t 76 1.6 jmcneill gicd_read_8(struct gicv3_softc *sc, bus_size_t reg) 77 1.6 jmcneill { 78 1.6 jmcneill return bus_space_read_8(sc->sc_bst, sc->sc_bsh_d, reg); 79 1.6 jmcneill } 80 1.6 jmcneill 81 1.1 jmcneill static inline void 82 1.1 jmcneill gicd_write_8(struct gicv3_softc *sc, bus_size_t reg, uint64_t val) 83 1.1 jmcneill { 84 1.1 jmcneill bus_space_write_8(sc->sc_bst, sc->sc_bsh_d, reg, val); 85 1.1 jmcneill } 86 1.1 jmcneill 87 1.1 jmcneill static inline uint32_t 88 1.1 jmcneill gicr_read_4(struct gicv3_softc *sc, u_int index, bus_size_t reg) 89 1.1 jmcneill { 90 1.1 jmcneill KASSERT(index < sc->sc_bsh_r_count); 91 1.1 jmcneill return bus_space_read_4(sc->sc_bst, sc->sc_bsh_r[index], reg); 92 1.1 jmcneill } 93 1.1 jmcneill 94 1.1 jmcneill static inline void 95 1.1 jmcneill gicr_write_4(struct gicv3_softc *sc, u_int index, bus_size_t reg, uint32_t val) 96 1.1 jmcneill { 97 1.1 jmcneill KASSERT(index < sc->sc_bsh_r_count); 98 1.1 jmcneill bus_space_write_4(sc->sc_bst, sc->sc_bsh_r[index], reg, val); 99 1.1 jmcneill } 100 1.1 jmcneill 101 1.1 jmcneill static inline uint64_t 102 1.1 jmcneill gicr_read_8(struct gicv3_softc *sc, u_int index, bus_size_t reg) 103 1.1 jmcneill { 104 1.1 jmcneill KASSERT(index < sc->sc_bsh_r_count); 105 1.1 jmcneill return bus_space_read_8(sc->sc_bst, sc->sc_bsh_r[index], reg); 106 1.1 jmcneill } 107 1.1 jmcneill 108 1.1 jmcneill static inline void 109 1.1 jmcneill gicr_write_8(struct gicv3_softc *sc, u_int index, bus_size_t reg, uint64_t val) 110 1.1 jmcneill { 111 1.1 jmcneill KASSERT(index < sc->sc_bsh_r_count); 112 1.1 jmcneill bus_space_write_8(sc->sc_bst, sc->sc_bsh_r[index], reg, val); 113 1.1 jmcneill } 114 1.1 jmcneill 115 1.1 jmcneill static void 116 1.1 jmcneill gicv3_unblock_irqs(struct pic_softc *pic, size_t irqbase, uint32_t mask) 117 1.1 jmcneill { 118 1.1 jmcneill struct gicv3_softc * const sc = PICTOSOFTC(pic); 119 1.1 jmcneill struct cpu_info * const ci = curcpu(); 120 1.1 jmcneill const u_int group = irqbase / 32; 121 1.1 jmcneill 122 1.1 jmcneill if (group == 0) { 123 1.1 jmcneill sc->sc_enabled_sgippi |= mask; 124 1.1 jmcneill gicr_write_4(sc, ci->ci_gic_redist, GICR_ISENABLER0, mask); 125 1.5 jmcneill while (gicr_read_4(sc, ci->ci_gic_redist, GICR_CTLR) & GICR_CTLR_RWP) 126 1.1 jmcneill ; 127 1.1 jmcneill } else { 128 1.1 jmcneill gicd_write_4(sc, GICD_ISENABLERn(group), mask); 129 1.1 jmcneill while (gicd_read_4(sc, GICD_CTRL) & GICD_CTRL_RWP) 130 1.1 jmcneill ; 131 1.1 jmcneill } 132 1.1 jmcneill } 133 1.1 jmcneill 134 1.1 jmcneill static void 135 1.1 jmcneill gicv3_block_irqs(struct pic_softc *pic, size_t irqbase, uint32_t mask) 136 1.1 jmcneill { 137 1.1 jmcneill struct gicv3_softc * const sc = PICTOSOFTC(pic); 138 1.1 jmcneill struct cpu_info * const ci = curcpu(); 139 1.1 jmcneill const u_int group = irqbase / 32; 140 1.1 jmcneill 141 1.1 jmcneill if (group == 0) { 142 1.1 jmcneill sc->sc_enabled_sgippi &= ~mask; 143 1.1 jmcneill gicr_write_4(sc, ci->ci_gic_redist, GICR_ICENABLER0, mask); 144 1.5 jmcneill while (gicr_read_4(sc, ci->ci_gic_redist, GICR_CTLR) & GICR_CTLR_RWP) 145 1.1 jmcneill ; 146 1.1 jmcneill } else { 147 1.1 jmcneill gicd_write_4(sc, GICD_ICENABLERn(group), mask); 148 1.1 jmcneill while (gicd_read_4(sc, GICD_CTRL) & GICD_CTRL_RWP) 149 1.1 jmcneill ; 150 1.1 jmcneill } 151 1.1 jmcneill } 152 1.1 jmcneill 153 1.1 jmcneill static void 154 1.1 jmcneill gicv3_establish_irq(struct pic_softc *pic, struct intrsource *is) 155 1.1 jmcneill { 156 1.1 jmcneill struct gicv3_softc * const sc = PICTOSOFTC(pic); 157 1.1 jmcneill const u_int group = is->is_irq / 32; 158 1.1 jmcneill uint32_t ipriority, icfg; 159 1.1 jmcneill uint64_t irouter; 160 1.1 jmcneill u_int n; 161 1.1 jmcneill 162 1.18 jmcneill const u_int ipriority_val = IPL_TO_PRIORITY(sc, is->is_ipl); 163 1.1 jmcneill const u_int ipriority_shift = (is->is_irq & 0x3) * 8; 164 1.1 jmcneill const u_int icfg_shift = (is->is_irq & 0xf) * 2; 165 1.1 jmcneill 166 1.1 jmcneill if (group == 0) { 167 1.1 jmcneill /* SGIs and PPIs are always MP-safe */ 168 1.1 jmcneill is->is_mpsafe = true; 169 1.1 jmcneill 170 1.1 jmcneill /* Update interrupt configuration and priority on all redistributors */ 171 1.1 jmcneill for (n = 0; n < sc->sc_bsh_r_count; n++) { 172 1.1 jmcneill icfg = gicr_read_4(sc, n, GICR_ICFGRn(is->is_irq / 16)); 173 1.1 jmcneill if (is->is_type == IST_LEVEL) 174 1.1 jmcneill icfg &= ~(0x2 << icfg_shift); 175 1.1 jmcneill if (is->is_type == IST_EDGE) 176 1.1 jmcneill icfg |= (0x2 << icfg_shift); 177 1.1 jmcneill gicr_write_4(sc, n, GICR_ICFGRn(is->is_irq / 16), icfg); 178 1.1 jmcneill 179 1.1 jmcneill ipriority = gicr_read_4(sc, n, GICR_IPRIORITYRn(is->is_irq / 4)); 180 1.1 jmcneill ipriority &= ~(0xff << ipriority_shift); 181 1.2 jmcneill ipriority |= (ipriority_val << ipriority_shift); 182 1.1 jmcneill gicr_write_4(sc, n, GICR_IPRIORITYRn(is->is_irq / 4), ipriority); 183 1.1 jmcneill } 184 1.1 jmcneill } else { 185 1.1 jmcneill if (is->is_mpsafe) { 186 1.1 jmcneill /* Route MP-safe interrupts to all participating PEs */ 187 1.1 jmcneill irouter = GICD_IROUTER_Interrupt_Routing_mode; 188 1.1 jmcneill } else { 189 1.1 jmcneill /* Route non-MP-safe interrupts to the primary PE only */ 190 1.6 jmcneill irouter = sc->sc_irouter[0]; 191 1.1 jmcneill } 192 1.1 jmcneill gicd_write_8(sc, GICD_IROUTER(is->is_irq), irouter); 193 1.1 jmcneill 194 1.1 jmcneill /* Update interrupt configuration */ 195 1.1 jmcneill icfg = gicd_read_4(sc, GICD_ICFGRn(is->is_irq / 16)); 196 1.1 jmcneill if (is->is_type == IST_LEVEL) 197 1.1 jmcneill icfg &= ~(0x2 << icfg_shift); 198 1.1 jmcneill if (is->is_type == IST_EDGE) 199 1.1 jmcneill icfg |= (0x2 << icfg_shift); 200 1.1 jmcneill gicd_write_4(sc, GICD_ICFGRn(is->is_irq / 16), icfg); 201 1.1 jmcneill 202 1.1 jmcneill /* Update interrupt priority */ 203 1.1 jmcneill ipriority = gicd_read_4(sc, GICD_IPRIORITYRn(is->is_irq / 4)); 204 1.1 jmcneill ipriority &= ~(0xff << ipriority_shift); 205 1.2 jmcneill ipriority |= (ipriority_val << ipriority_shift); 206 1.1 jmcneill gicd_write_4(sc, GICD_IPRIORITYRn(is->is_irq / 4), ipriority); 207 1.1 jmcneill } 208 1.1 jmcneill } 209 1.1 jmcneill 210 1.1 jmcneill static void 211 1.1 jmcneill gicv3_set_priority(struct pic_softc *pic, int ipl) 212 1.1 jmcneill { 213 1.18 jmcneill struct gicv3_softc * const sc = PICTOSOFTC(pic); 214 1.18 jmcneill 215 1.18 jmcneill icc_pmr_write(IPL_TO_PMR(sc, ipl)); 216 1.20.2.1 martin arm_isb(); 217 1.1 jmcneill } 218 1.1 jmcneill 219 1.1 jmcneill static void 220 1.1 jmcneill gicv3_dist_enable(struct gicv3_softc *sc) 221 1.1 jmcneill { 222 1.1 jmcneill uint32_t gicd_ctrl; 223 1.1 jmcneill u_int n; 224 1.1 jmcneill 225 1.1 jmcneill /* Disable the distributor */ 226 1.1 jmcneill gicd_write_4(sc, GICD_CTRL, 0); 227 1.1 jmcneill 228 1.1 jmcneill /* Wait for register write to complete */ 229 1.1 jmcneill while (gicd_read_4(sc, GICD_CTRL) & GICD_CTRL_RWP) 230 1.1 jmcneill ; 231 1.1 jmcneill 232 1.1 jmcneill /* Clear all INTID enable bits */ 233 1.1 jmcneill for (n = 32; n < sc->sc_pic.pic_maxsources; n += 32) 234 1.1 jmcneill gicd_write_4(sc, GICD_ICENABLERn(n / 32), ~0); 235 1.1 jmcneill 236 1.1 jmcneill /* Set default priorities to lowest */ 237 1.1 jmcneill for (n = 32; n < sc->sc_pic.pic_maxsources; n += 4) 238 1.1 jmcneill gicd_write_4(sc, GICD_IPRIORITYRn(n / 4), ~0); 239 1.1 jmcneill 240 1.1 jmcneill /* Set all interrupts to G1NS */ 241 1.1 jmcneill for (n = 32; n < sc->sc_pic.pic_maxsources; n += 32) { 242 1.1 jmcneill gicd_write_4(sc, GICD_IGROUPRn(n / 32), ~0); 243 1.1 jmcneill gicd_write_4(sc, GICD_IGRPMODRn(n / 32), 0); 244 1.1 jmcneill } 245 1.1 jmcneill 246 1.1 jmcneill /* Set all interrupts level-sensitive by default */ 247 1.1 jmcneill for (n = 32; n < sc->sc_pic.pic_maxsources; n += 16) 248 1.1 jmcneill gicd_write_4(sc, GICD_ICFGRn(n / 16), 0); 249 1.1 jmcneill 250 1.1 jmcneill /* Wait for register writes to complete */ 251 1.1 jmcneill while (gicd_read_4(sc, GICD_CTRL) & GICD_CTRL_RWP) 252 1.1 jmcneill ; 253 1.1 jmcneill 254 1.1 jmcneill /* Enable Affinity routing and G1NS interrupts */ 255 1.19 jmcneill gicd_ctrl = GICD_CTRL_EnableGrp1A | GICD_CTRL_ARE_NS; 256 1.1 jmcneill gicd_write_4(sc, GICD_CTRL, gicd_ctrl); 257 1.1 jmcneill } 258 1.1 jmcneill 259 1.1 jmcneill static void 260 1.1 jmcneill gicv3_redist_enable(struct gicv3_softc *sc, struct cpu_info *ci) 261 1.1 jmcneill { 262 1.1 jmcneill uint32_t icfg; 263 1.1 jmcneill u_int n, o; 264 1.1 jmcneill 265 1.1 jmcneill /* Clear INTID enable bits */ 266 1.1 jmcneill gicr_write_4(sc, ci->ci_gic_redist, GICR_ICENABLER0, ~0); 267 1.1 jmcneill 268 1.1 jmcneill /* Wait for register write to complete */ 269 1.5 jmcneill while (gicr_read_4(sc, ci->ci_gic_redist, GICR_CTLR) & GICR_CTLR_RWP) 270 1.1 jmcneill ; 271 1.1 jmcneill 272 1.1 jmcneill /* Set default priorities */ 273 1.1 jmcneill for (n = 0; n < 32; n += 4) { 274 1.1 jmcneill uint32_t priority = 0; 275 1.1 jmcneill size_t byte_shift = 0; 276 1.1 jmcneill for (o = 0; o < 4; o++, byte_shift += 8) { 277 1.1 jmcneill struct intrsource * const is = sc->sc_pic.pic_sources[n + o]; 278 1.1 jmcneill if (is == NULL) 279 1.1 jmcneill priority |= 0xff << byte_shift; 280 1.2 jmcneill else { 281 1.18 jmcneill const u_int ipriority_val = IPL_TO_PRIORITY(sc, is->is_ipl); 282 1.2 jmcneill priority |= ipriority_val << byte_shift; 283 1.2 jmcneill } 284 1.1 jmcneill } 285 1.1 jmcneill gicr_write_4(sc, ci->ci_gic_redist, GICR_IPRIORITYRn(n / 4), priority); 286 1.1 jmcneill } 287 1.1 jmcneill 288 1.1 jmcneill /* Set all interrupts to G1NS */ 289 1.1 jmcneill gicr_write_4(sc, ci->ci_gic_redist, GICR_IGROUPR0, ~0); 290 1.1 jmcneill gicr_write_4(sc, ci->ci_gic_redist, GICR_IGRPMODR0, 0); 291 1.1 jmcneill 292 1.1 jmcneill /* Restore PPI configs */ 293 1.1 jmcneill for (n = 0, icfg = 0; n < 16; n++) { 294 1.1 jmcneill struct intrsource * const is = sc->sc_pic.pic_sources[16 + n]; 295 1.1 jmcneill if (is != NULL && is->is_type == IST_EDGE) 296 1.1 jmcneill icfg |= (0x2 << (n * 2)); 297 1.1 jmcneill } 298 1.1 jmcneill gicr_write_4(sc, ci->ci_gic_redist, GICR_ICFGRn(1), icfg); 299 1.1 jmcneill 300 1.1 jmcneill /* Restore current enable bits */ 301 1.1 jmcneill gicr_write_4(sc, ci->ci_gic_redist, GICR_ISENABLER0, sc->sc_enabled_sgippi); 302 1.1 jmcneill 303 1.1 jmcneill /* Wait for register write to complete */ 304 1.5 jmcneill while (gicr_read_4(sc, ci->ci_gic_redist, GICR_CTLR) & GICR_CTLR_RWP) 305 1.1 jmcneill ; 306 1.1 jmcneill } 307 1.1 jmcneill 308 1.1 jmcneill static uint64_t 309 1.1 jmcneill gicv3_cpu_identity(void) 310 1.1 jmcneill { 311 1.1 jmcneill u_int aff3, aff2, aff1, aff0; 312 1.1 jmcneill 313 1.18 jmcneill const register_t mpidr = cpu_mpidr_aff_read(); 314 1.1 jmcneill aff0 = __SHIFTOUT(mpidr, MPIDR_AFF0); 315 1.1 jmcneill aff1 = __SHIFTOUT(mpidr, MPIDR_AFF1); 316 1.1 jmcneill aff2 = __SHIFTOUT(mpidr, MPIDR_AFF2); 317 1.1 jmcneill aff3 = __SHIFTOUT(mpidr, MPIDR_AFF3); 318 1.1 jmcneill 319 1.1 jmcneill return __SHIFTIN(aff0, GICR_TYPER_Affinity_Value_Aff0) | 320 1.1 jmcneill __SHIFTIN(aff1, GICR_TYPER_Affinity_Value_Aff1) | 321 1.1 jmcneill __SHIFTIN(aff2, GICR_TYPER_Affinity_Value_Aff2) | 322 1.1 jmcneill __SHIFTIN(aff3, GICR_TYPER_Affinity_Value_Aff3); 323 1.1 jmcneill } 324 1.1 jmcneill 325 1.1 jmcneill static u_int 326 1.1 jmcneill gicv3_find_redist(struct gicv3_softc *sc) 327 1.1 jmcneill { 328 1.1 jmcneill uint64_t gicr_typer; 329 1.1 jmcneill u_int n; 330 1.1 jmcneill 331 1.1 jmcneill const uint64_t cpu_identity = gicv3_cpu_identity(); 332 1.1 jmcneill 333 1.1 jmcneill for (n = 0; n < sc->sc_bsh_r_count; n++) { 334 1.1 jmcneill gicr_typer = gicr_read_8(sc, n, GICR_TYPER); 335 1.1 jmcneill if ((gicr_typer & GICR_TYPER_Affinity_Value) == cpu_identity) 336 1.1 jmcneill return n; 337 1.1 jmcneill } 338 1.1 jmcneill 339 1.1 jmcneill const u_int aff0 = __SHIFTOUT(cpu_identity, GICR_TYPER_Affinity_Value_Aff0); 340 1.1 jmcneill const u_int aff1 = __SHIFTOUT(cpu_identity, GICR_TYPER_Affinity_Value_Aff1); 341 1.1 jmcneill const u_int aff2 = __SHIFTOUT(cpu_identity, GICR_TYPER_Affinity_Value_Aff2); 342 1.1 jmcneill const u_int aff3 = __SHIFTOUT(cpu_identity, GICR_TYPER_Affinity_Value_Aff3); 343 1.1 jmcneill 344 1.1 jmcneill panic("%s: could not find GICv3 redistributor for cpu %d.%d.%d.%d", 345 1.1 jmcneill cpu_name(curcpu()), aff3, aff2, aff1, aff0); 346 1.1 jmcneill } 347 1.1 jmcneill 348 1.1 jmcneill static uint64_t 349 1.1 jmcneill gicv3_sgir(struct gicv3_softc *sc) 350 1.1 jmcneill { 351 1.1 jmcneill const uint64_t cpu_identity = gicv3_cpu_identity(); 352 1.1 jmcneill 353 1.1 jmcneill const u_int aff0 = __SHIFTOUT(cpu_identity, GICR_TYPER_Affinity_Value_Aff0); 354 1.1 jmcneill const u_int aff1 = __SHIFTOUT(cpu_identity, GICR_TYPER_Affinity_Value_Aff1); 355 1.1 jmcneill const u_int aff2 = __SHIFTOUT(cpu_identity, GICR_TYPER_Affinity_Value_Aff2); 356 1.1 jmcneill const u_int aff3 = __SHIFTOUT(cpu_identity, GICR_TYPER_Affinity_Value_Aff3); 357 1.1 jmcneill 358 1.1 jmcneill return __SHIFTIN(__BIT(aff0), ICC_SGIR_EL1_TargetList) | 359 1.1 jmcneill __SHIFTIN(aff1, ICC_SGIR_EL1_Aff1) | 360 1.1 jmcneill __SHIFTIN(aff2, ICC_SGIR_EL1_Aff2) | 361 1.1 jmcneill __SHIFTIN(aff3, ICC_SGIR_EL1_Aff3); 362 1.1 jmcneill } 363 1.1 jmcneill 364 1.1 jmcneill static void 365 1.1 jmcneill gicv3_cpu_init(struct pic_softc *pic, struct cpu_info *ci) 366 1.1 jmcneill { 367 1.1 jmcneill struct gicv3_softc * const sc = PICTOSOFTC(pic); 368 1.1 jmcneill uint32_t icc_sre, icc_ctlr, gicr_waker; 369 1.1 jmcneill 370 1.1 jmcneill ci->ci_gic_redist = gicv3_find_redist(sc); 371 1.1 jmcneill ci->ci_gic_sgir = gicv3_sgir(sc); 372 1.1 jmcneill 373 1.6 jmcneill /* Store route to CPU for SPIs */ 374 1.6 jmcneill const uint64_t cpu_identity = gicv3_cpu_identity(); 375 1.6 jmcneill const u_int aff0 = __SHIFTOUT(cpu_identity, GICR_TYPER_Affinity_Value_Aff0); 376 1.6 jmcneill const u_int aff1 = __SHIFTOUT(cpu_identity, GICR_TYPER_Affinity_Value_Aff1); 377 1.6 jmcneill const u_int aff2 = __SHIFTOUT(cpu_identity, GICR_TYPER_Affinity_Value_Aff2); 378 1.6 jmcneill const u_int aff3 = __SHIFTOUT(cpu_identity, GICR_TYPER_Affinity_Value_Aff3); 379 1.6 jmcneill sc->sc_irouter[cpu_index(ci)] = 380 1.6 jmcneill __SHIFTIN(aff0, GICD_IROUTER_Aff0) | 381 1.6 jmcneill __SHIFTIN(aff1, GICD_IROUTER_Aff1) | 382 1.6 jmcneill __SHIFTIN(aff2, GICD_IROUTER_Aff2) | 383 1.6 jmcneill __SHIFTIN(aff3, GICD_IROUTER_Aff3); 384 1.1 jmcneill 385 1.1 jmcneill /* Enable System register access and disable IRQ/FIQ bypass */ 386 1.1 jmcneill icc_sre = ICC_SRE_EL1_SRE | ICC_SRE_EL1_DFB | ICC_SRE_EL1_DIB; 387 1.1 jmcneill icc_sre_write(icc_sre); 388 1.1 jmcneill 389 1.1 jmcneill /* Mark the connected PE as being awake */ 390 1.1 jmcneill gicr_waker = gicr_read_4(sc, ci->ci_gic_redist, GICR_WAKER); 391 1.1 jmcneill gicr_waker &= ~GICR_WAKER_ProcessorSleep; 392 1.1 jmcneill gicr_write_4(sc, ci->ci_gic_redist, GICR_WAKER, gicr_waker); 393 1.1 jmcneill while (gicr_read_4(sc, ci->ci_gic_redist, GICR_WAKER) & GICR_WAKER_ChildrenAsleep) 394 1.1 jmcneill ; 395 1.1 jmcneill 396 1.1 jmcneill /* Set initial priority mask */ 397 1.4 jmcneill gicv3_set_priority(pic, IPL_HIGH); 398 1.1 jmcneill 399 1.10 jmcneill /* Set the binary point field to the minimum value */ 400 1.10 jmcneill icc_bpr1_write(0); 401 1.1 jmcneill 402 1.1 jmcneill /* Enable group 1 interrupt signaling */ 403 1.1 jmcneill icc_igrpen1_write(ICC_IGRPEN_EL1_Enable); 404 1.1 jmcneill 405 1.1 jmcneill /* Set EOI mode */ 406 1.1 jmcneill icc_ctlr = icc_ctlr_read(); 407 1.1 jmcneill icc_ctlr &= ~ICC_CTLR_EL1_EOImode; 408 1.1 jmcneill icc_ctlr_write(icc_ctlr); 409 1.1 jmcneill 410 1.1 jmcneill /* Enable redistributor */ 411 1.1 jmcneill gicv3_redist_enable(sc, ci); 412 1.1 jmcneill 413 1.1 jmcneill /* Allow IRQ exceptions */ 414 1.1 jmcneill cpsie(I32_bit); 415 1.1 jmcneill } 416 1.1 jmcneill 417 1.1 jmcneill #ifdef MULTIPROCESSOR 418 1.1 jmcneill static void 419 1.1 jmcneill gicv3_ipi_send(struct pic_softc *pic, const kcpuset_t *kcp, u_long ipi) 420 1.1 jmcneill { 421 1.1 jmcneill CPU_INFO_ITERATOR cii; 422 1.1 jmcneill struct cpu_info *ci; 423 1.1 jmcneill uint64_t intid, aff, targets; 424 1.1 jmcneill 425 1.1 jmcneill intid = __SHIFTIN(ipi, ICC_SGIR_EL1_INTID); 426 1.1 jmcneill if (kcp == NULL) { 427 1.1 jmcneill /* Interrupts routed to all PEs, excluding "self" */ 428 1.1 jmcneill if (ncpu == 1) 429 1.1 jmcneill return; 430 1.1 jmcneill icc_sgi1r_write(intid | ICC_SGIR_EL1_IRM); 431 1.1 jmcneill } else { 432 1.1 jmcneill /* Interrupts routed to specific PEs */ 433 1.1 jmcneill aff = 0; 434 1.1 jmcneill targets = 0; 435 1.1 jmcneill for (CPU_INFO_FOREACH(cii, ci)) { 436 1.2 jmcneill if (!kcpuset_isset(kcp, cpu_index(ci))) 437 1.2 jmcneill continue; 438 1.1 jmcneill if ((ci->ci_gic_sgir & ICC_SGIR_EL1_Aff) != aff) { 439 1.1 jmcneill if (targets != 0) { 440 1.1 jmcneill icc_sgi1r_write(intid | aff | targets); 441 1.20.2.1 martin arm_isb(); 442 1.1 jmcneill targets = 0; 443 1.1 jmcneill } 444 1.1 jmcneill aff = (ci->ci_gic_sgir & ICC_SGIR_EL1_Aff); 445 1.1 jmcneill } 446 1.1 jmcneill targets |= (ci->ci_gic_sgir & ICC_SGIR_EL1_TargetList); 447 1.1 jmcneill } 448 1.20.2.1 martin if (targets != 0) { 449 1.1 jmcneill icc_sgi1r_write(intid | aff | targets); 450 1.20.2.1 martin arm_isb(); 451 1.20.2.1 martin } 452 1.1 jmcneill } 453 1.1 jmcneill } 454 1.6 jmcneill 455 1.6 jmcneill static void 456 1.6 jmcneill gicv3_get_affinity(struct pic_softc *pic, size_t irq, kcpuset_t *affinity) 457 1.6 jmcneill { 458 1.6 jmcneill struct gicv3_softc * const sc = PICTOSOFTC(pic); 459 1.6 jmcneill const size_t group = irq / 32; 460 1.6 jmcneill int n; 461 1.6 jmcneill 462 1.6 jmcneill kcpuset_zero(affinity); 463 1.6 jmcneill if (group == 0) { 464 1.6 jmcneill /* All CPUs are targets for group 0 (SGI/PPI) */ 465 1.6 jmcneill for (n = 0; n < ncpu; n++) { 466 1.6 jmcneill if (sc->sc_irouter[n] != UINT64_MAX) 467 1.6 jmcneill kcpuset_set(affinity, n); 468 1.6 jmcneill } 469 1.6 jmcneill } else { 470 1.6 jmcneill /* Find distributor targets (SPI) */ 471 1.6 jmcneill const uint64_t irouter = gicd_read_8(sc, GICD_IROUTER(irq)); 472 1.6 jmcneill for (n = 0; n < ncpu; n++) { 473 1.6 jmcneill if (irouter == GICD_IROUTER_Interrupt_Routing_mode || 474 1.6 jmcneill irouter == sc->sc_irouter[n]) 475 1.6 jmcneill kcpuset_set(affinity, n); 476 1.6 jmcneill } 477 1.6 jmcneill } 478 1.6 jmcneill } 479 1.6 jmcneill 480 1.6 jmcneill static int 481 1.6 jmcneill gicv3_set_affinity(struct pic_softc *pic, size_t irq, const kcpuset_t *affinity) 482 1.6 jmcneill { 483 1.6 jmcneill struct gicv3_softc * const sc = PICTOSOFTC(pic); 484 1.6 jmcneill const size_t group = irq / 32; 485 1.6 jmcneill uint64_t irouter; 486 1.6 jmcneill 487 1.6 jmcneill if (group == 0) 488 1.6 jmcneill return EINVAL; 489 1.6 jmcneill 490 1.6 jmcneill const int set = kcpuset_countset(affinity); 491 1.6 jmcneill if (set == ncpu) 492 1.6 jmcneill irouter = GICD_IROUTER_Interrupt_Routing_mode; 493 1.6 jmcneill else if (set == 1) 494 1.12 jmcneill irouter = sc->sc_irouter[kcpuset_ffs(affinity) - 1]; 495 1.6 jmcneill else 496 1.6 jmcneill return EINVAL; 497 1.6 jmcneill 498 1.6 jmcneill gicd_write_8(sc, GICD_IROUTER(irq), irouter); 499 1.6 jmcneill 500 1.6 jmcneill return 0; 501 1.6 jmcneill } 502 1.1 jmcneill #endif 503 1.1 jmcneill 504 1.1 jmcneill static const struct pic_ops gicv3_picops = { 505 1.1 jmcneill .pic_unblock_irqs = gicv3_unblock_irqs, 506 1.1 jmcneill .pic_block_irqs = gicv3_block_irqs, 507 1.1 jmcneill .pic_establish_irq = gicv3_establish_irq, 508 1.1 jmcneill .pic_set_priority = gicv3_set_priority, 509 1.1 jmcneill #ifdef MULTIPROCESSOR 510 1.1 jmcneill .pic_cpu_init = gicv3_cpu_init, 511 1.1 jmcneill .pic_ipi_send = gicv3_ipi_send, 512 1.6 jmcneill .pic_get_affinity = gicv3_get_affinity, 513 1.6 jmcneill .pic_set_affinity = gicv3_set_affinity, 514 1.1 jmcneill #endif 515 1.1 jmcneill }; 516 1.1 jmcneill 517 1.5 jmcneill static void 518 1.5 jmcneill gicv3_lpi_unblock_irqs(struct pic_softc *pic, size_t irqbase, uint32_t mask) 519 1.5 jmcneill { 520 1.5 jmcneill struct gicv3_softc * const sc = LPITOSOFTC(pic); 521 1.5 jmcneill int bit; 522 1.5 jmcneill 523 1.5 jmcneill while ((bit = ffs(mask)) != 0) { 524 1.5 jmcneill sc->sc_lpiconf.base[irqbase + bit - 1] |= GIC_LPICONF_Enable; 525 1.20 jmcneill if (sc->sc_lpiconf_flush) 526 1.20 jmcneill cpu_dcache_wb_range((vaddr_t)&sc->sc_lpiconf.base[irqbase + bit - 1], 1); 527 1.5 jmcneill mask &= ~__BIT(bit - 1); 528 1.5 jmcneill } 529 1.5 jmcneill 530 1.20 jmcneill if (!sc->sc_lpiconf_flush) 531 1.20 jmcneill __asm __volatile ("dsb ishst"); 532 1.5 jmcneill } 533 1.5 jmcneill 534 1.5 jmcneill static void 535 1.5 jmcneill gicv3_lpi_block_irqs(struct pic_softc *pic, size_t irqbase, uint32_t mask) 536 1.5 jmcneill { 537 1.5 jmcneill struct gicv3_softc * const sc = LPITOSOFTC(pic); 538 1.5 jmcneill int bit; 539 1.5 jmcneill 540 1.5 jmcneill while ((bit = ffs(mask)) != 0) { 541 1.13 jmcneill sc->sc_lpiconf.base[irqbase + bit - 1] &= ~GIC_LPICONF_Enable; 542 1.20 jmcneill if (sc->sc_lpiconf_flush) 543 1.20 jmcneill cpu_dcache_wb_range((vaddr_t)&sc->sc_lpiconf.base[irqbase + bit - 1], 1); 544 1.5 jmcneill mask &= ~__BIT(bit - 1); 545 1.5 jmcneill } 546 1.5 jmcneill 547 1.20 jmcneill if (!sc->sc_lpiconf_flush) 548 1.20 jmcneill __asm __volatile ("dsb ishst"); 549 1.5 jmcneill } 550 1.5 jmcneill 551 1.5 jmcneill static void 552 1.5 jmcneill gicv3_lpi_establish_irq(struct pic_softc *pic, struct intrsource *is) 553 1.5 jmcneill { 554 1.5 jmcneill struct gicv3_softc * const sc = LPITOSOFTC(pic); 555 1.5 jmcneill 556 1.18 jmcneill sc->sc_lpiconf.base[is->is_irq] = IPL_TO_LPIPRIO(sc, is->is_ipl) | GIC_LPICONF_Res1; 557 1.5 jmcneill 558 1.20 jmcneill if (sc->sc_lpiconf_flush) 559 1.20 jmcneill cpu_dcache_wb_range((vaddr_t)&sc->sc_lpiconf.base[is->is_irq], 1); 560 1.20 jmcneill else 561 1.20 jmcneill __asm __volatile ("dsb ishst"); 562 1.5 jmcneill } 563 1.5 jmcneill 564 1.5 jmcneill static void 565 1.5 jmcneill gicv3_lpi_cpu_init(struct pic_softc *pic, struct cpu_info *ci) 566 1.5 jmcneill { 567 1.5 jmcneill struct gicv3_softc * const sc = LPITOSOFTC(pic); 568 1.7 jmcneill struct gicv3_lpi_callback *cb; 569 1.20 jmcneill uint64_t propbase, pendbase; 570 1.5 jmcneill uint32_t ctlr; 571 1.5 jmcneill 572 1.5 jmcneill /* If physical LPIs are not supported on this redistributor, just return. */ 573 1.5 jmcneill const uint64_t typer = gicr_read_8(sc, ci->ci_gic_redist, GICR_TYPER); 574 1.5 jmcneill if ((typer & GICR_TYPER_PLPIS) == 0) 575 1.5 jmcneill return; 576 1.5 jmcneill 577 1.5 jmcneill /* Interrupt target address for this CPU, used by ITS when GITS_TYPER.PTA == 0 */ 578 1.5 jmcneill sc->sc_processor_id[cpu_index(ci)] = __SHIFTOUT(typer, GICR_TYPER_Processor_Number); 579 1.5 jmcneill 580 1.5 jmcneill /* Disable LPIs before making changes */ 581 1.5 jmcneill ctlr = gicr_read_4(sc, ci->ci_gic_redist, GICR_CTLR); 582 1.5 jmcneill ctlr &= ~GICR_CTLR_Enable_LPIs; 583 1.5 jmcneill gicr_write_4(sc, ci->ci_gic_redist, GICR_CTLR, ctlr); 584 1.5 jmcneill arm_dsb(); 585 1.5 jmcneill 586 1.5 jmcneill /* Setup the LPI configuration table */ 587 1.20 jmcneill propbase = sc->sc_lpiconf.segs[0].ds_addr | 588 1.5 jmcneill __SHIFTIN(ffs(pic->pic_maxsources) - 1, GICR_PROPBASER_IDbits) | 589 1.20 jmcneill __SHIFTIN(GICR_Shareability_IS, GICR_PROPBASER_Shareability) | 590 1.20 jmcneill __SHIFTIN(GICR_Cache_NORMAL_RA_WA_WB, GICR_PROPBASER_InnerCache); 591 1.5 jmcneill gicr_write_8(sc, ci->ci_gic_redist, GICR_PROPBASER, propbase); 592 1.20 jmcneill propbase = gicr_read_8(sc, ci->ci_gic_redist, GICR_PROPBASER); 593 1.20 jmcneill if (__SHIFTOUT(propbase, GICR_PROPBASER_Shareability) != GICR_Shareability_IS) { 594 1.20 jmcneill if (__SHIFTOUT(propbase, GICR_PROPBASER_Shareability) == GICR_Shareability_NS) { 595 1.20 jmcneill propbase &= ~GICR_PROPBASER_Shareability; 596 1.20 jmcneill propbase |= __SHIFTIN(GICR_Shareability_NS, GICR_PROPBASER_Shareability); 597 1.20 jmcneill propbase &= ~GICR_PROPBASER_InnerCache; 598 1.20 jmcneill propbase |= __SHIFTIN(GICR_Cache_NORMAL_NC, GICR_PROPBASER_InnerCache); 599 1.20 jmcneill gicr_write_8(sc, ci->ci_gic_redist, GICR_PROPBASER, propbase); 600 1.20 jmcneill } 601 1.20 jmcneill sc->sc_lpiconf_flush = true; 602 1.20 jmcneill } 603 1.5 jmcneill 604 1.5 jmcneill /* Setup the LPI pending table */ 605 1.20 jmcneill pendbase = sc->sc_lpipend[cpu_index(ci)].segs[0].ds_addr | 606 1.20 jmcneill __SHIFTIN(GICR_Shareability_IS, GICR_PENDBASER_Shareability) | 607 1.20 jmcneill __SHIFTIN(GICR_Cache_NORMAL_RA_WA_WB, GICR_PENDBASER_InnerCache); 608 1.5 jmcneill gicr_write_8(sc, ci->ci_gic_redist, GICR_PENDBASER, pendbase); 609 1.20 jmcneill pendbase = gicr_read_8(sc, ci->ci_gic_redist, GICR_PENDBASER); 610 1.20 jmcneill if (__SHIFTOUT(pendbase, GICR_PENDBASER_Shareability) == GICR_Shareability_NS) { 611 1.20 jmcneill pendbase &= ~GICR_PENDBASER_Shareability; 612 1.20 jmcneill pendbase |= __SHIFTIN(GICR_Shareability_NS, GICR_PENDBASER_Shareability); 613 1.20 jmcneill pendbase &= ~GICR_PENDBASER_InnerCache; 614 1.20 jmcneill pendbase |= __SHIFTIN(GICR_Cache_NORMAL_NC, GICR_PENDBASER_InnerCache); 615 1.20 jmcneill gicr_write_8(sc, ci->ci_gic_redist, GICR_PENDBASER, pendbase); 616 1.20 jmcneill } 617 1.5 jmcneill 618 1.5 jmcneill /* Enable LPIs */ 619 1.5 jmcneill ctlr = gicr_read_4(sc, ci->ci_gic_redist, GICR_CTLR); 620 1.5 jmcneill ctlr |= GICR_CTLR_Enable_LPIs; 621 1.5 jmcneill gicr_write_4(sc, ci->ci_gic_redist, GICR_CTLR, ctlr); 622 1.5 jmcneill arm_dsb(); 623 1.5 jmcneill 624 1.5 jmcneill /* Setup ITS if present */ 625 1.7 jmcneill LIST_FOREACH(cb, &sc->sc_lpi_callbacks, list) 626 1.7 jmcneill cb->cpu_init(cb->priv, ci); 627 1.5 jmcneill } 628 1.5 jmcneill 629 1.7 jmcneill #ifdef MULTIPROCESSOR 630 1.7 jmcneill static void 631 1.7 jmcneill gicv3_lpi_get_affinity(struct pic_softc *pic, size_t irq, kcpuset_t *affinity) 632 1.7 jmcneill { 633 1.7 jmcneill struct gicv3_softc * const sc = LPITOSOFTC(pic); 634 1.7 jmcneill struct gicv3_lpi_callback *cb; 635 1.7 jmcneill 636 1.7 jmcneill LIST_FOREACH(cb, &sc->sc_lpi_callbacks, list) 637 1.7 jmcneill cb->get_affinity(cb->priv, irq, affinity); 638 1.7 jmcneill } 639 1.7 jmcneill 640 1.7 jmcneill static int 641 1.7 jmcneill gicv3_lpi_set_affinity(struct pic_softc *pic, size_t irq, const kcpuset_t *affinity) 642 1.7 jmcneill { 643 1.7 jmcneill struct gicv3_softc * const sc = LPITOSOFTC(pic); 644 1.7 jmcneill struct gicv3_lpi_callback *cb; 645 1.7 jmcneill int error = EINVAL; 646 1.7 jmcneill 647 1.7 jmcneill LIST_FOREACH(cb, &sc->sc_lpi_callbacks, list) { 648 1.7 jmcneill error = cb->set_affinity(cb->priv, irq, affinity); 649 1.7 jmcneill if (error) 650 1.7 jmcneill return error; 651 1.7 jmcneill } 652 1.7 jmcneill 653 1.7 jmcneill return error; 654 1.7 jmcneill } 655 1.7 jmcneill #endif 656 1.7 jmcneill 657 1.5 jmcneill static const struct pic_ops gicv3_lpiops = { 658 1.5 jmcneill .pic_unblock_irqs = gicv3_lpi_unblock_irqs, 659 1.5 jmcneill .pic_block_irqs = gicv3_lpi_block_irqs, 660 1.5 jmcneill .pic_establish_irq = gicv3_lpi_establish_irq, 661 1.5 jmcneill #ifdef MULTIPROCESSOR 662 1.5 jmcneill .pic_cpu_init = gicv3_lpi_cpu_init, 663 1.7 jmcneill .pic_get_affinity = gicv3_lpi_get_affinity, 664 1.7 jmcneill .pic_set_affinity = gicv3_lpi_set_affinity, 665 1.5 jmcneill #endif 666 1.5 jmcneill }; 667 1.5 jmcneill 668 1.5 jmcneill void 669 1.5 jmcneill gicv3_dma_alloc(struct gicv3_softc *sc, struct gicv3_dma *dma, bus_size_t len, bus_size_t align) 670 1.5 jmcneill { 671 1.5 jmcneill int nsegs, error; 672 1.5 jmcneill 673 1.5 jmcneill dma->len = len; 674 1.5 jmcneill error = bus_dmamem_alloc(sc->sc_dmat, dma->len, align, 0, dma->segs, 1, &nsegs, BUS_DMA_WAITOK); 675 1.5 jmcneill if (error) 676 1.5 jmcneill panic("bus_dmamem_alloc failed: %d", error); 677 1.5 jmcneill error = bus_dmamem_map(sc->sc_dmat, dma->segs, nsegs, len, (void **)&dma->base, BUS_DMA_WAITOK); 678 1.5 jmcneill if (error) 679 1.5 jmcneill panic("bus_dmamem_map failed: %d", error); 680 1.5 jmcneill error = bus_dmamap_create(sc->sc_dmat, len, 1, len, 0, BUS_DMA_WAITOK, &dma->map); 681 1.5 jmcneill if (error) 682 1.5 jmcneill panic("bus_dmamap_create failed: %d", error); 683 1.5 jmcneill error = bus_dmamap_load(sc->sc_dmat, dma->map, dma->base, dma->len, NULL, BUS_DMA_WAITOK); 684 1.5 jmcneill if (error) 685 1.5 jmcneill panic("bus_dmamap_load failed: %d", error); 686 1.5 jmcneill 687 1.5 jmcneill memset(dma->base, 0, dma->len); 688 1.5 jmcneill bus_dmamap_sync(sc->sc_dmat, dma->map, 0, dma->len, BUS_DMASYNC_PREWRITE); 689 1.5 jmcneill } 690 1.5 jmcneill 691 1.5 jmcneill static void 692 1.5 jmcneill gicv3_lpi_init(struct gicv3_softc *sc) 693 1.5 jmcneill { 694 1.5 jmcneill /* 695 1.5 jmcneill * Allocate LPI configuration table 696 1.5 jmcneill */ 697 1.5 jmcneill gicv3_dma_alloc(sc, &sc->sc_lpiconf, sc->sc_lpi.pic_maxsources, 0x1000); 698 1.5 jmcneill KASSERT((sc->sc_lpiconf.segs[0].ds_addr & ~GICR_PROPBASER_Physical_Address) == 0); 699 1.5 jmcneill 700 1.5 jmcneill /* 701 1.5 jmcneill * Allocate LPI pending tables 702 1.5 jmcneill */ 703 1.20 jmcneill const bus_size_t lpipend_sz = (8192 + sc->sc_lpi.pic_maxsources) / NBBY; 704 1.8 jmcneill for (int cpuindex = 0; cpuindex < ncpu; cpuindex++) { 705 1.5 jmcneill gicv3_dma_alloc(sc, &sc->sc_lpipend[cpuindex], lpipend_sz, 0x10000); 706 1.5 jmcneill KASSERT((sc->sc_lpipend[cpuindex].segs[0].ds_addr & ~GICR_PENDBASER_Physical_Address) == 0); 707 1.5 jmcneill } 708 1.5 jmcneill } 709 1.5 jmcneill 710 1.1 jmcneill void 711 1.1 jmcneill gicv3_irq_handler(void *frame) 712 1.1 jmcneill { 713 1.1 jmcneill struct cpu_info * const ci = curcpu(); 714 1.1 jmcneill struct gicv3_softc * const sc = gicv3_softc; 715 1.5 jmcneill struct pic_softc *pic; 716 1.1 jmcneill const int oldipl = ci->ci_cpl; 717 1.1 jmcneill 718 1.1 jmcneill ci->ci_data.cpu_nintr++; 719 1.1 jmcneill 720 1.1 jmcneill for (;;) { 721 1.1 jmcneill const uint32_t iar = icc_iar1_read(); 722 1.20.2.1 martin arm_dsb(); 723 1.1 jmcneill const uint32_t irq = __SHIFTOUT(iar, ICC_IAR_INTID); 724 1.1 jmcneill if (irq == ICC_IAR_INTID_SPURIOUS) 725 1.1 jmcneill break; 726 1.1 jmcneill 727 1.5 jmcneill pic = irq >= GIC_LPI_BASE ? &sc->sc_lpi : &sc->sc_pic; 728 1.5 jmcneill if (irq - pic->pic_irqbase >= pic->pic_maxsources) 729 1.1 jmcneill continue; 730 1.1 jmcneill 731 1.5 jmcneill struct intrsource * const is = pic->pic_sources[irq - pic->pic_irqbase]; 732 1.1 jmcneill KASSERT(is != NULL); 733 1.1 jmcneill 734 1.20.2.1 martin const bool early_eoi = irq < GIC_LPI_BASE && is->is_type == IST_EDGE; 735 1.20.2.1 martin 736 1.1 jmcneill const int ipl = is->is_ipl; 737 1.20.2.1 martin if (__predict_false(ipl < ci->ci_cpl)) { 738 1.20.2.1 martin pic_do_pending_ints(I32_bit, ipl, frame); 739 1.20.2.1 martin } else { 740 1.20.2.1 martin gicv3_set_priority(pic, ipl); 741 1.20.2.1 martin ci->ci_cpl = ipl; 742 1.20.2.1 martin } 743 1.20.2.1 martin 744 1.20.2.1 martin if (early_eoi) { 745 1.20.2.1 martin icc_eoi1r_write(iar); 746 1.20.2.1 martin arm_isb(); 747 1.20.2.1 martin } 748 1.1 jmcneill 749 1.1 jmcneill cpsie(I32_bit); 750 1.1 jmcneill pic_dispatch(is, frame); 751 1.1 jmcneill cpsid(I32_bit); 752 1.1 jmcneill 753 1.20.2.1 martin if (!early_eoi) { 754 1.20.2.1 martin icc_eoi1r_write(iar); 755 1.20.2.1 martin arm_isb(); 756 1.20.2.1 martin } 757 1.1 jmcneill } 758 1.1 jmcneill 759 1.20.2.1 martin pic_do_pending_ints(I32_bit, oldipl, frame); 760 1.1 jmcneill } 761 1.1 jmcneill 762 1.19 jmcneill static int 763 1.19 jmcneill gicv3_detect_pmr_bits(struct gicv3_softc *sc) 764 1.19 jmcneill { 765 1.19 jmcneill const uint32_t opmr = icc_pmr_read(); 766 1.20.2.1 martin icc_pmr_write(0xbf); 767 1.19 jmcneill const uint32_t npmr = icc_pmr_read(); 768 1.19 jmcneill icc_pmr_write(opmr); 769 1.19 jmcneill 770 1.19 jmcneill return NBBY - (ffs(npmr) - 1); 771 1.19 jmcneill } 772 1.19 jmcneill 773 1.19 jmcneill static int 774 1.19 jmcneill gicv3_detect_ipriority_bits(struct gicv3_softc *sc) 775 1.19 jmcneill { 776 1.19 jmcneill const uint32_t oipriorityr = gicd_read_4(sc, GICD_IPRIORITYRn(8)); 777 1.19 jmcneill gicd_write_4(sc, GICD_IPRIORITYRn(8), oipriorityr | 0xff); 778 1.19 jmcneill const uint32_t nipriorityr = gicd_read_4(sc, GICD_IPRIORITYRn(8)); 779 1.19 jmcneill gicd_write_4(sc, GICD_IPRIORITYRn(8), oipriorityr); 780 1.19 jmcneill 781 1.19 jmcneill return NBBY - (ffs(nipriorityr & 0xff) - 1); 782 1.19 jmcneill } 783 1.19 jmcneill 784 1.1 jmcneill int 785 1.1 jmcneill gicv3_init(struct gicv3_softc *sc) 786 1.1 jmcneill { 787 1.1 jmcneill const uint32_t gicd_typer = gicd_read_4(sc, GICD_TYPER); 788 1.18 jmcneill const uint32_t gicd_ctrl = gicd_read_4(sc, GICD_CTRL); 789 1.6 jmcneill int n; 790 1.1 jmcneill 791 1.1 jmcneill KASSERT(CPU_IS_PRIMARY(curcpu())); 792 1.1 jmcneill 793 1.7 jmcneill LIST_INIT(&sc->sc_lpi_callbacks); 794 1.5 jmcneill 795 1.6 jmcneill for (n = 0; n < MAXCPUS; n++) 796 1.6 jmcneill sc->sc_irouter[n] = UINT64_MAX; 797 1.6 jmcneill 798 1.18 jmcneill sc->sc_priority_shift = 4; 799 1.19 jmcneill sc->sc_pmr_shift = 4; 800 1.18 jmcneill 801 1.18 jmcneill if ((gicd_ctrl & GICD_CTRL_DS) == 0) { 802 1.19 jmcneill const int pmr_bits = gicv3_detect_pmr_bits(sc); 803 1.19 jmcneill const int ipriority_bits = gicv3_detect_ipriority_bits(sc); 804 1.19 jmcneill 805 1.19 jmcneill if (ipriority_bits != pmr_bits) 806 1.19 jmcneill --sc->sc_priority_shift; 807 1.19 jmcneill 808 1.19 jmcneill aprint_verbose_dev(sc->sc_dev, "%d pmr bits, %d ipriority bits\n", 809 1.19 jmcneill pmr_bits, ipriority_bits); 810 1.19 jmcneill } else { 811 1.19 jmcneill aprint_verbose_dev(sc->sc_dev, "security disabled\n"); 812 1.18 jmcneill } 813 1.19 jmcneill 814 1.18 jmcneill aprint_verbose_dev(sc->sc_dev, "priority shift %d, pmr shift %d\n", 815 1.18 jmcneill sc->sc_priority_shift, sc->sc_pmr_shift); 816 1.18 jmcneill 817 1.1 jmcneill sc->sc_pic.pic_ops = &gicv3_picops; 818 1.1 jmcneill sc->sc_pic.pic_maxsources = GICD_TYPER_LINES(gicd_typer); 819 1.1 jmcneill snprintf(sc->sc_pic.pic_name, sizeof(sc->sc_pic.pic_name), "gicv3"); 820 1.1 jmcneill #ifdef MULTIPROCESSOR 821 1.1 jmcneill sc->sc_pic.pic_cpus = kcpuset_running; 822 1.1 jmcneill #endif 823 1.1 jmcneill pic_add(&sc->sc_pic, 0); 824 1.1 jmcneill 825 1.5 jmcneill if ((gicd_typer & GICD_TYPER_LPIS) != 0) { 826 1.5 jmcneill sc->sc_lpi.pic_ops = &gicv3_lpiops; 827 1.5 jmcneill sc->sc_lpi.pic_maxsources = 8192; /* Min. required by GICv3 spec */ 828 1.5 jmcneill snprintf(sc->sc_lpi.pic_name, sizeof(sc->sc_lpi.pic_name), "gicv3-lpi"); 829 1.5 jmcneill pic_add(&sc->sc_lpi, GIC_LPI_BASE); 830 1.5 jmcneill 831 1.5 jmcneill gicv3_lpi_init(sc); 832 1.5 jmcneill } 833 1.5 jmcneill 834 1.1 jmcneill KASSERT(gicv3_softc == NULL); 835 1.1 jmcneill gicv3_softc = sc; 836 1.1 jmcneill 837 1.1 jmcneill for (int i = 0; i < sc->sc_bsh_r_count; i++) { 838 1.1 jmcneill const uint64_t gicr_typer = gicr_read_8(sc, i, GICR_TYPER); 839 1.1 jmcneill const u_int aff0 = __SHIFTOUT(gicr_typer, GICR_TYPER_Affinity_Value_Aff0); 840 1.1 jmcneill const u_int aff1 = __SHIFTOUT(gicr_typer, GICR_TYPER_Affinity_Value_Aff1); 841 1.1 jmcneill const u_int aff2 = __SHIFTOUT(gicr_typer, GICR_TYPER_Affinity_Value_Aff2); 842 1.1 jmcneill const u_int aff3 = __SHIFTOUT(gicr_typer, GICR_TYPER_Affinity_Value_Aff3); 843 1.1 jmcneill 844 1.1 jmcneill aprint_debug_dev(sc->sc_dev, "redist %d: cpu %d.%d.%d.%d\n", 845 1.1 jmcneill i, aff3, aff2, aff1, aff0); 846 1.1 jmcneill } 847 1.1 jmcneill 848 1.1 jmcneill gicv3_dist_enable(sc); 849 1.1 jmcneill 850 1.1 jmcneill gicv3_cpu_init(&sc->sc_pic, curcpu()); 851 1.5 jmcneill if ((gicd_typer & GICD_TYPER_LPIS) != 0) 852 1.5 jmcneill gicv3_lpi_cpu_init(&sc->sc_lpi, curcpu()); 853 1.1 jmcneill 854 1.1 jmcneill #ifdef __HAVE_PIC_FAST_SOFTINTS 855 1.11 jmcneill intr_establish_xname(SOFTINT_BIO, IPL_SOFTBIO, IST_MPSAFE | IST_EDGE, pic_handle_softint, (void *)SOFTINT_BIO, "softint bio"); 856 1.11 jmcneill intr_establish_xname(SOFTINT_CLOCK, IPL_SOFTCLOCK, IST_MPSAFE | IST_EDGE, pic_handle_softint, (void *)SOFTINT_CLOCK, "softint clock"); 857 1.11 jmcneill intr_establish_xname(SOFTINT_NET, IPL_SOFTNET, IST_MPSAFE | IST_EDGE, pic_handle_softint, (void *)SOFTINT_NET, "softint net"); 858 1.11 jmcneill intr_establish_xname(SOFTINT_SERIAL, IPL_SOFTSERIAL, IST_MPSAFE | IST_EDGE, pic_handle_softint, (void *)SOFTINT_SERIAL, "softint serial"); 859 1.1 jmcneill #endif 860 1.1 jmcneill 861 1.1 jmcneill #ifdef MULTIPROCESSOR 862 1.11 jmcneill intr_establish_xname(IPI_AST, IPL_VM, IST_MPSAFE | IST_EDGE, pic_ipi_ast, (void *)-1, "IPI ast"); 863 1.11 jmcneill intr_establish_xname(IPI_XCALL, IPL_HIGH, IST_MPSAFE | IST_EDGE, pic_ipi_xcall, (void *)-1, "IPI xcall"); 864 1.11 jmcneill intr_establish_xname(IPI_GENERIC, IPL_HIGH, IST_MPSAFE | IST_EDGE, pic_ipi_generic, (void *)-1, "IPI generic"); 865 1.11 jmcneill intr_establish_xname(IPI_NOP, IPL_VM, IST_MPSAFE | IST_EDGE, pic_ipi_nop, (void *)-1, "IPI nop"); 866 1.11 jmcneill intr_establish_xname(IPI_SHOOTDOWN, IPL_SCHED, IST_MPSAFE | IST_EDGE, pic_ipi_shootdown, (void *)-1, "IPI shootdown"); 867 1.1 jmcneill #ifdef DDB 868 1.11 jmcneill intr_establish_xname(IPI_DDB, IPL_HIGH, IST_MPSAFE | IST_EDGE, pic_ipi_ddb, NULL, "IPI ddb"); 869 1.1 jmcneill #endif 870 1.1 jmcneill #ifdef __HAVE_PREEMPTION 871 1.11 jmcneill intr_establish_xname(IPI_KPREEMPT, IPL_VM, IST_MPSAFE | IST_EDGE, pic_ipi_kpreempt, (void *)-1, "IPI kpreempt"); 872 1.1 jmcneill #endif 873 1.1 jmcneill #endif 874 1.1 jmcneill 875 1.1 jmcneill return 0; 876 1.1 jmcneill } 877
Indexes created Thu Oct 02 14:10:14 GMT 2025