156992670SShlomo Pongratz /* 256992670SShlomo Pongratz * ARM Generic Interrupt Controller v3 356992670SShlomo Pongratz * 456992670SShlomo Pongratz * Copyright (c) 2015 Huawei. 556992670SShlomo Pongratz * Copyright (c) 2016 Linaro Limited 656992670SShlomo Pongratz * Written by Shlomo Pongratz, Peter Maydell 756992670SShlomo Pongratz * 856992670SShlomo Pongratz * This code is licensed under the GPL, version 2 or (at your option) 956992670SShlomo Pongratz * any later version. 1056992670SShlomo Pongratz */ 1156992670SShlomo Pongratz 1256992670SShlomo Pongratz /* This file contains implementation code for an interrupt controller 1356992670SShlomo Pongratz * which implements the GICv3 architecture. Specifically this is where 1456992670SShlomo Pongratz * the device class itself and the functions for handling interrupts 1556992670SShlomo Pongratz * coming in and going out live. 1656992670SShlomo Pongratz */ 1756992670SShlomo Pongratz 1856992670SShlomo Pongratz #include "qemu/osdep.h" 1956992670SShlomo Pongratz #include "qapi/error.h" 20*0b8fa32fSMarkus Armbruster #include "qemu/module.h" 2156992670SShlomo Pongratz #include "hw/sysbus.h" 2256992670SShlomo Pongratz #include "hw/intc/arm_gicv3.h" 2356992670SShlomo Pongratz #include "gicv3_internal.h" 2456992670SShlomo Pongratz 25ce187c3cSPeter Maydell static bool irqbetter(GICv3CPUState *cs, int irq, uint8_t prio) 26ce187c3cSPeter Maydell { 27ce187c3cSPeter Maydell /* Return true if this IRQ at this priority should take 28ce187c3cSPeter Maydell * precedence over the current recorded highest priority 29ce187c3cSPeter Maydell * pending interrupt for this CPU. We also return true if 30ce187c3cSPeter Maydell * the current recorded highest priority pending interrupt 31ce187c3cSPeter Maydell * is the same as this one (a property which the calling code 32ce187c3cSPeter Maydell * relies on). 33ce187c3cSPeter Maydell */ 34ce187c3cSPeter Maydell if (prio < cs->hppi.prio) { 35ce187c3cSPeter Maydell return true; 36ce187c3cSPeter Maydell } 37ce187c3cSPeter Maydell /* If multiple pending interrupts have the same priority then it is an 38ce187c3cSPeter Maydell * IMPDEF choice which of them to signal to the CPU. We choose to 39ce187c3cSPeter Maydell * signal the one with the lowest interrupt number. 40ce187c3cSPeter Maydell */ 41ce187c3cSPeter Maydell if (prio == cs->hppi.prio && irq <= cs->hppi.irq) { 42ce187c3cSPeter Maydell return true; 43ce187c3cSPeter Maydell } 44ce187c3cSPeter Maydell return false; 45ce187c3cSPeter Maydell } 46ce187c3cSPeter Maydell 47ce187c3cSPeter Maydell static uint32_t gicd_int_pending(GICv3State *s, int irq) 48ce187c3cSPeter Maydell { 49ce187c3cSPeter Maydell /* Recalculate which distributor interrupts are actually pending 50ce187c3cSPeter Maydell * in the group of 32 interrupts starting at irq (which should be a multiple 51ce187c3cSPeter Maydell * of 32), and return a 32-bit integer which has a bit set for each 52ce187c3cSPeter Maydell * interrupt that is eligible to be signaled to the CPU interface. 53ce187c3cSPeter Maydell * 54ce187c3cSPeter Maydell * An interrupt is pending if: 55ce187c3cSPeter Maydell * + the PENDING latch is set OR it is level triggered and the input is 1 56ce187c3cSPeter Maydell * + its ENABLE bit is set 57ce187c3cSPeter Maydell * + the GICD enable bit for its group is set 580bfa0259SPeter Maydell * + its ACTIVE bit is not set (otherwise it would be Active+Pending) 59ce187c3cSPeter Maydell * Conveniently we can bulk-calculate this with bitwise operations. 60ce187c3cSPeter Maydell */ 61ce187c3cSPeter Maydell uint32_t pend, grpmask; 62ce187c3cSPeter Maydell uint32_t pending = *gic_bmp_ptr32(s->pending, irq); 63ce187c3cSPeter Maydell uint32_t edge_trigger = *gic_bmp_ptr32(s->edge_trigger, irq); 64ce187c3cSPeter Maydell uint32_t level = *gic_bmp_ptr32(s->level, irq); 65ce187c3cSPeter Maydell uint32_t group = *gic_bmp_ptr32(s->group, irq); 66ce187c3cSPeter Maydell uint32_t grpmod = *gic_bmp_ptr32(s->grpmod, irq); 67ce187c3cSPeter Maydell uint32_t enable = *gic_bmp_ptr32(s->enabled, irq); 680bfa0259SPeter Maydell uint32_t active = *gic_bmp_ptr32(s->active, irq); 69ce187c3cSPeter Maydell 70ce187c3cSPeter Maydell pend = pending | (~edge_trigger & level); 71ce187c3cSPeter Maydell pend &= enable; 720bfa0259SPeter Maydell pend &= ~active; 73ce187c3cSPeter Maydell 74ce187c3cSPeter Maydell if (s->gicd_ctlr & GICD_CTLR_DS) { 75ce187c3cSPeter Maydell grpmod = 0; 76ce187c3cSPeter Maydell } 77ce187c3cSPeter Maydell 78ce187c3cSPeter Maydell grpmask = 0; 79ce187c3cSPeter Maydell if (s->gicd_ctlr & GICD_CTLR_EN_GRP1NS) { 80ce187c3cSPeter Maydell grpmask |= group; 81ce187c3cSPeter Maydell } 82ce187c3cSPeter Maydell if (s->gicd_ctlr & GICD_CTLR_EN_GRP1S) { 83ce187c3cSPeter Maydell grpmask |= (~group & grpmod); 84ce187c3cSPeter Maydell } 85ce187c3cSPeter Maydell if (s->gicd_ctlr & GICD_CTLR_EN_GRP0) { 86ce187c3cSPeter Maydell grpmask |= (~group & ~grpmod); 87ce187c3cSPeter Maydell } 88ce187c3cSPeter Maydell pend &= grpmask; 89ce187c3cSPeter Maydell 90ce187c3cSPeter Maydell return pend; 91ce187c3cSPeter Maydell } 92ce187c3cSPeter Maydell 93ce187c3cSPeter Maydell static uint32_t gicr_int_pending(GICv3CPUState *cs) 94ce187c3cSPeter Maydell { 95ce187c3cSPeter Maydell /* Recalculate which redistributor interrupts are actually pending, 96ce187c3cSPeter Maydell * and return a 32-bit integer which has a bit set for each interrupt 97ce187c3cSPeter Maydell * that is eligible to be signaled to the CPU interface. 98ce187c3cSPeter Maydell * 99ce187c3cSPeter Maydell * An interrupt is pending if: 100ce187c3cSPeter Maydell * + the PENDING latch is set OR it is level triggered and the input is 1 101ce187c3cSPeter Maydell * + its ENABLE bit is set 102ce187c3cSPeter Maydell * + the GICD enable bit for its group is set 1030bfa0259SPeter Maydell * + its ACTIVE bit is not set (otherwise it would be Active+Pending) 104ce187c3cSPeter Maydell * Conveniently we can bulk-calculate this with bitwise operations. 105ce187c3cSPeter Maydell */ 106ce187c3cSPeter Maydell uint32_t pend, grpmask, grpmod; 107ce187c3cSPeter Maydell 108ce187c3cSPeter Maydell pend = cs->gicr_ipendr0 | (~cs->edge_trigger & cs->level); 109ce187c3cSPeter Maydell pend &= cs->gicr_ienabler0; 1100bfa0259SPeter Maydell pend &= ~cs->gicr_iactiver0; 111ce187c3cSPeter Maydell 112ce187c3cSPeter Maydell if (cs->gic->gicd_ctlr & GICD_CTLR_DS) { 113ce187c3cSPeter Maydell grpmod = 0; 114ce187c3cSPeter Maydell } else { 115ce187c3cSPeter Maydell grpmod = cs->gicr_igrpmodr0; 116ce187c3cSPeter Maydell } 117ce187c3cSPeter Maydell 118ce187c3cSPeter Maydell grpmask = 0; 119ce187c3cSPeter Maydell if (cs->gic->gicd_ctlr & GICD_CTLR_EN_GRP1NS) { 120ce187c3cSPeter Maydell grpmask |= cs->gicr_igroupr0; 121ce187c3cSPeter Maydell } 122ce187c3cSPeter Maydell if (cs->gic->gicd_ctlr & GICD_CTLR_EN_GRP1S) { 123ce187c3cSPeter Maydell grpmask |= (~cs->gicr_igroupr0 & grpmod); 124ce187c3cSPeter Maydell } 125ce187c3cSPeter Maydell if (cs->gic->gicd_ctlr & GICD_CTLR_EN_GRP0) { 126ce187c3cSPeter Maydell grpmask |= (~cs->gicr_igroupr0 & ~grpmod); 127ce187c3cSPeter Maydell } 128ce187c3cSPeter Maydell pend &= grpmask; 129ce187c3cSPeter Maydell 130ce187c3cSPeter Maydell return pend; 131ce187c3cSPeter Maydell } 132ce187c3cSPeter Maydell 133ce187c3cSPeter Maydell /* Update the interrupt status after state in a redistributor 134ce187c3cSPeter Maydell * or CPU interface has changed, but don't tell the CPU i/f. 135ce187c3cSPeter Maydell */ 136ce187c3cSPeter Maydell static void gicv3_redist_update_noirqset(GICv3CPUState *cs) 137ce187c3cSPeter Maydell { 138ce187c3cSPeter Maydell /* Find the highest priority pending interrupt among the 139ce187c3cSPeter Maydell * redistributor interrupts (SGIs and PPIs). 140ce187c3cSPeter Maydell */ 141ce187c3cSPeter Maydell bool seenbetter = false; 142ce187c3cSPeter Maydell uint8_t prio; 143ce187c3cSPeter Maydell int i; 144ce187c3cSPeter Maydell uint32_t pend; 145ce187c3cSPeter Maydell 146ce187c3cSPeter Maydell /* Find out which redistributor interrupts are eligible to be 147ce187c3cSPeter Maydell * signaled to the CPU interface. 148ce187c3cSPeter Maydell */ 149ce187c3cSPeter Maydell pend = gicr_int_pending(cs); 150ce187c3cSPeter Maydell 151ce187c3cSPeter Maydell if (pend) { 152ce187c3cSPeter Maydell for (i = 0; i < GIC_INTERNAL; i++) { 153ce187c3cSPeter Maydell if (!(pend & (1 << i))) { 154ce187c3cSPeter Maydell continue; 155ce187c3cSPeter Maydell } 156ce187c3cSPeter Maydell prio = cs->gicr_ipriorityr[i]; 157ce187c3cSPeter Maydell if (irqbetter(cs, i, prio)) { 158ce187c3cSPeter Maydell cs->hppi.irq = i; 159ce187c3cSPeter Maydell cs->hppi.prio = prio; 160ce187c3cSPeter Maydell seenbetter = true; 161ce187c3cSPeter Maydell } 162ce187c3cSPeter Maydell } 163ce187c3cSPeter Maydell } 164ce187c3cSPeter Maydell 165ce187c3cSPeter Maydell if (seenbetter) { 166ce187c3cSPeter Maydell cs->hppi.grp = gicv3_irq_group(cs->gic, cs, cs->hppi.irq); 167ce187c3cSPeter Maydell } 168ce187c3cSPeter Maydell 169ce187c3cSPeter Maydell /* If the best interrupt we just found would preempt whatever 170ce187c3cSPeter Maydell * was the previous best interrupt before this update, then 171ce187c3cSPeter Maydell * we know it's definitely the best one now. 172ce187c3cSPeter Maydell * If we didn't find an interrupt that would preempt the previous 173ce187c3cSPeter Maydell * best, and the previous best is outside our range (or there was no 174ce187c3cSPeter Maydell * previous pending interrupt at all), then that is still valid, and 175ce187c3cSPeter Maydell * we leave it as the best. 176ce187c3cSPeter Maydell * Otherwise, we need to do a full update (because the previous best 177ce187c3cSPeter Maydell * interrupt has reduced in priority and any other interrupt could 178ce187c3cSPeter Maydell * now be the new best one). 179ce187c3cSPeter Maydell */ 180ce187c3cSPeter Maydell if (!seenbetter && cs->hppi.prio != 0xff && cs->hppi.irq < GIC_INTERNAL) { 181ce187c3cSPeter Maydell gicv3_full_update_noirqset(cs->gic); 182ce187c3cSPeter Maydell } 183ce187c3cSPeter Maydell } 184ce187c3cSPeter Maydell 185ce187c3cSPeter Maydell /* Update the GIC status after state in a redistributor or 186ce187c3cSPeter Maydell * CPU interface has changed, and inform the CPU i/f of 187ce187c3cSPeter Maydell * its new highest priority pending interrupt. 188ce187c3cSPeter Maydell */ 189ce187c3cSPeter Maydell void gicv3_redist_update(GICv3CPUState *cs) 190ce187c3cSPeter Maydell { 191ce187c3cSPeter Maydell gicv3_redist_update_noirqset(cs); 192ce187c3cSPeter Maydell gicv3_cpuif_update(cs); 193ce187c3cSPeter Maydell } 194ce187c3cSPeter Maydell 195ce187c3cSPeter Maydell /* Update the GIC status after state in the distributor has 196ce187c3cSPeter Maydell * changed affecting @len interrupts starting at @start, 197ce187c3cSPeter Maydell * but don't tell the CPU i/f. 198ce187c3cSPeter Maydell */ 199ce187c3cSPeter Maydell static void gicv3_update_noirqset(GICv3State *s, int start, int len) 200ce187c3cSPeter Maydell { 201ce187c3cSPeter Maydell int i; 202ce187c3cSPeter Maydell uint8_t prio; 203ce187c3cSPeter Maydell uint32_t pend = 0; 204ce187c3cSPeter Maydell 205ce187c3cSPeter Maydell assert(start >= GIC_INTERNAL); 206ce187c3cSPeter Maydell assert(len > 0); 207ce187c3cSPeter Maydell 208ce187c3cSPeter Maydell for (i = 0; i < s->num_cpu; i++) { 209ce187c3cSPeter Maydell s->cpu[i].seenbetter = false; 210ce187c3cSPeter Maydell } 211ce187c3cSPeter Maydell 212ce187c3cSPeter Maydell /* Find the highest priority pending interrupt in this range. */ 213ce187c3cSPeter Maydell for (i = start; i < start + len; i++) { 214ce187c3cSPeter Maydell GICv3CPUState *cs; 215ce187c3cSPeter Maydell 216ce187c3cSPeter Maydell if (i == start || (i & 0x1f) == 0) { 217ce187c3cSPeter Maydell /* Calculate the next 32 bits worth of pending status */ 218ce187c3cSPeter Maydell pend = gicd_int_pending(s, i & ~0x1f); 219ce187c3cSPeter Maydell } 220ce187c3cSPeter Maydell 221ce187c3cSPeter Maydell if (!(pend & (1 << (i & 0x1f)))) { 222ce187c3cSPeter Maydell continue; 223ce187c3cSPeter Maydell } 224ce187c3cSPeter Maydell cs = s->gicd_irouter_target[i]; 225ce187c3cSPeter Maydell if (!cs) { 226ce187c3cSPeter Maydell /* Interrupts targeting no implemented CPU should remain pending 227ce187c3cSPeter Maydell * and not be forwarded to any CPU. 228ce187c3cSPeter Maydell */ 229ce187c3cSPeter Maydell continue; 230ce187c3cSPeter Maydell } 231ce187c3cSPeter Maydell prio = s->gicd_ipriority[i]; 232ce187c3cSPeter Maydell if (irqbetter(cs, i, prio)) { 233ce187c3cSPeter Maydell cs->hppi.irq = i; 234ce187c3cSPeter Maydell cs->hppi.prio = prio; 235ce187c3cSPeter Maydell cs->seenbetter = true; 236ce187c3cSPeter Maydell } 237ce187c3cSPeter Maydell } 238ce187c3cSPeter Maydell 239ce187c3cSPeter Maydell /* If the best interrupt we just found would preempt whatever 240ce187c3cSPeter Maydell * was the previous best interrupt before this update, then 241ce187c3cSPeter Maydell * we know it's definitely the best one now. 242ce187c3cSPeter Maydell * If we didn't find an interrupt that would preempt the previous 243ce187c3cSPeter Maydell * best, and the previous best is outside our range (or there was 244ce187c3cSPeter Maydell * no previous pending interrupt at all), then that 245ce187c3cSPeter Maydell * is still valid, and we leave it as the best. 246ce187c3cSPeter Maydell * Otherwise, we need to do a full update (because the previous best 247ce187c3cSPeter Maydell * interrupt has reduced in priority and any other interrupt could 248ce187c3cSPeter Maydell * now be the new best one). 249ce187c3cSPeter Maydell */ 250ce187c3cSPeter Maydell for (i = 0; i < s->num_cpu; i++) { 251ce187c3cSPeter Maydell GICv3CPUState *cs = &s->cpu[i]; 252ce187c3cSPeter Maydell 253ce187c3cSPeter Maydell if (cs->seenbetter) { 254ce187c3cSPeter Maydell cs->hppi.grp = gicv3_irq_group(cs->gic, cs, cs->hppi.irq); 255ce187c3cSPeter Maydell } 256ce187c3cSPeter Maydell 257ce187c3cSPeter Maydell if (!cs->seenbetter && cs->hppi.prio != 0xff && 258ce187c3cSPeter Maydell cs->hppi.irq >= start && cs->hppi.irq < start + len) { 259ce187c3cSPeter Maydell gicv3_full_update_noirqset(s); 260ce187c3cSPeter Maydell break; 261ce187c3cSPeter Maydell } 262ce187c3cSPeter Maydell } 263ce187c3cSPeter Maydell } 264ce187c3cSPeter Maydell 265ce187c3cSPeter Maydell void gicv3_update(GICv3State *s, int start, int len) 266ce187c3cSPeter Maydell { 267ce187c3cSPeter Maydell int i; 268ce187c3cSPeter Maydell 269ce187c3cSPeter Maydell gicv3_update_noirqset(s, start, len); 270ce187c3cSPeter Maydell for (i = 0; i < s->num_cpu; i++) { 271ce187c3cSPeter Maydell gicv3_cpuif_update(&s->cpu[i]); 272ce187c3cSPeter Maydell } 273ce187c3cSPeter Maydell } 274ce187c3cSPeter Maydell 275ce187c3cSPeter Maydell void gicv3_full_update_noirqset(GICv3State *s) 276ce187c3cSPeter Maydell { 277ce187c3cSPeter Maydell /* Completely recalculate the GIC status from scratch, but 278ce187c3cSPeter Maydell * don't update any outbound IRQ lines. 279ce187c3cSPeter Maydell */ 280ce187c3cSPeter Maydell int i; 281ce187c3cSPeter Maydell 282ce187c3cSPeter Maydell for (i = 0; i < s->num_cpu; i++) { 283ce187c3cSPeter Maydell s->cpu[i].hppi.prio = 0xff; 284ce187c3cSPeter Maydell } 285ce187c3cSPeter Maydell 286ce187c3cSPeter Maydell /* Note that we can guarantee that these functions will not 287ce187c3cSPeter Maydell * recursively call back into gicv3_full_update(), because 288ce187c3cSPeter Maydell * at each point the "previous best" is always outside the 289ce187c3cSPeter Maydell * range we ask them to update. 290ce187c3cSPeter Maydell */ 291ce187c3cSPeter Maydell gicv3_update_noirqset(s, GIC_INTERNAL, s->num_irq - GIC_INTERNAL); 292ce187c3cSPeter Maydell 293ce187c3cSPeter Maydell for (i = 0; i < s->num_cpu; i++) { 294ce187c3cSPeter Maydell gicv3_redist_update_noirqset(&s->cpu[i]); 295ce187c3cSPeter Maydell } 296ce187c3cSPeter Maydell } 297ce187c3cSPeter Maydell 298ce187c3cSPeter Maydell void gicv3_full_update(GICv3State *s) 299ce187c3cSPeter Maydell { 300ce187c3cSPeter Maydell /* Completely recalculate the GIC status from scratch, including 301ce187c3cSPeter Maydell * updating outbound IRQ lines. 302ce187c3cSPeter Maydell */ 303ce187c3cSPeter Maydell int i; 304ce187c3cSPeter Maydell 305ce187c3cSPeter Maydell gicv3_full_update_noirqset(s); 306ce187c3cSPeter Maydell for (i = 0; i < s->num_cpu; i++) { 307ce187c3cSPeter Maydell gicv3_cpuif_update(&s->cpu[i]); 308ce187c3cSPeter Maydell } 309ce187c3cSPeter Maydell } 310ce187c3cSPeter Maydell 31156992670SShlomo Pongratz /* Process a change in an external IRQ input. */ 31256992670SShlomo Pongratz static void gicv3_set_irq(void *opaque, int irq, int level) 31356992670SShlomo Pongratz { 31456992670SShlomo Pongratz /* Meaning of the 'irq' parameter: 31556992670SShlomo Pongratz * [0..N-1] : external interrupts 31656992670SShlomo Pongratz * [N..N+31] : PPI (internal) interrupts for CPU 0 31756992670SShlomo Pongratz * [N+32..N+63] : PPI (internal interrupts for CPU 1 31856992670SShlomo Pongratz * ... 31956992670SShlomo Pongratz */ 320c84428b3SPeter Maydell GICv3State *s = opaque; 321c84428b3SPeter Maydell 322c84428b3SPeter Maydell if (irq < (s->num_irq - GIC_INTERNAL)) { 323c84428b3SPeter Maydell /* external interrupt (SPI) */ 324c84428b3SPeter Maydell gicv3_dist_set_irq(s, irq + GIC_INTERNAL, level); 325c84428b3SPeter Maydell } else { 326c84428b3SPeter Maydell /* per-cpu interrupt (PPI) */ 327c84428b3SPeter Maydell int cpu; 328c84428b3SPeter Maydell 329c84428b3SPeter Maydell irq -= (s->num_irq - GIC_INTERNAL); 330c84428b3SPeter Maydell cpu = irq / GIC_INTERNAL; 331c84428b3SPeter Maydell irq %= GIC_INTERNAL; 332c84428b3SPeter Maydell assert(cpu < s->num_cpu); 333c84428b3SPeter Maydell /* Raising SGIs via this function would be a bug in how the board 334c84428b3SPeter Maydell * model wires up interrupts. 335c84428b3SPeter Maydell */ 336c84428b3SPeter Maydell assert(irq >= GIC_NR_SGIS); 337c84428b3SPeter Maydell gicv3_redist_set_irq(&s->cpu[cpu], irq, level); 338c84428b3SPeter Maydell } 33956992670SShlomo Pongratz } 34056992670SShlomo Pongratz 341ce187c3cSPeter Maydell static void arm_gicv3_post_load(GICv3State *s) 342ce187c3cSPeter Maydell { 343ce187c3cSPeter Maydell /* Recalculate our cached idea of the current highest priority 344ce187c3cSPeter Maydell * pending interrupt, but don't set IRQ or FIQ lines. 345ce187c3cSPeter Maydell */ 346ce187c3cSPeter Maydell gicv3_full_update_noirqset(s); 347ce187c3cSPeter Maydell /* Repopulate the cache of GICv3CPUState pointers for target CPUs */ 348ce187c3cSPeter Maydell gicv3_cache_all_target_cpustates(s); 349ce187c3cSPeter Maydell } 350ce187c3cSPeter Maydell 351287c181aSPeter Maydell static const MemoryRegionOps gic_ops[] = { 352287c181aSPeter Maydell { 353287c181aSPeter Maydell .read_with_attrs = gicv3_dist_read, 354287c181aSPeter Maydell .write_with_attrs = gicv3_dist_write, 355287c181aSPeter Maydell .endianness = DEVICE_NATIVE_ENDIAN, 356287c181aSPeter Maydell }, 357287c181aSPeter Maydell { 358287c181aSPeter Maydell .read_with_attrs = gicv3_redist_read, 359287c181aSPeter Maydell .write_with_attrs = gicv3_redist_write, 360287c181aSPeter Maydell .endianness = DEVICE_NATIVE_ENDIAN, 361287c181aSPeter Maydell } 362287c181aSPeter Maydell }; 363287c181aSPeter Maydell 36456992670SShlomo Pongratz static void arm_gic_realize(DeviceState *dev, Error **errp) 36556992670SShlomo Pongratz { 36656992670SShlomo Pongratz /* Device instance realize function for the GIC sysbus device */ 36756992670SShlomo Pongratz GICv3State *s = ARM_GICV3(dev); 36856992670SShlomo Pongratz ARMGICv3Class *agc = ARM_GICV3_GET_CLASS(s); 36956992670SShlomo Pongratz Error *local_err = NULL; 37056992670SShlomo Pongratz 37156992670SShlomo Pongratz agc->parent_realize(dev, &local_err); 37256992670SShlomo Pongratz if (local_err) { 37356992670SShlomo Pongratz error_propagate(errp, local_err); 37456992670SShlomo Pongratz return; 37556992670SShlomo Pongratz } 37656992670SShlomo Pongratz 3771e575b66SEric Auger if (s->nb_redist_regions != 1) { 3781e575b66SEric Auger error_setg(errp, "VGICv3 redist region number(%d) not equal to 1", 3791e575b66SEric Auger s->nb_redist_regions); 3801e575b66SEric Auger return; 3811e575b66SEric Auger } 3821e575b66SEric Auger 3831e575b66SEric Auger gicv3_init_irqs_and_mmio(s, gicv3_set_irq, gic_ops, &local_err); 3841e575b66SEric Auger if (local_err) { 3851e575b66SEric Auger error_propagate(errp, local_err); 3861e575b66SEric Auger return; 3871e575b66SEric Auger } 388359fbe65SPeter Maydell 389359fbe65SPeter Maydell gicv3_init_cpuif(s); 39056992670SShlomo Pongratz } 39156992670SShlomo Pongratz 39256992670SShlomo Pongratz static void arm_gicv3_class_init(ObjectClass *klass, void *data) 39356992670SShlomo Pongratz { 39456992670SShlomo Pongratz DeviceClass *dc = DEVICE_CLASS(klass); 395ce187c3cSPeter Maydell ARMGICv3CommonClass *agcc = ARM_GICV3_COMMON_CLASS(klass); 39656992670SShlomo Pongratz ARMGICv3Class *agc = ARM_GICV3_CLASS(klass); 39756992670SShlomo Pongratz 398ce187c3cSPeter Maydell agcc->post_load = arm_gicv3_post_load; 399bf853881SPhilippe Mathieu-Daudé device_class_set_parent_realize(dc, arm_gic_realize, &agc->parent_realize); 40056992670SShlomo Pongratz } 40156992670SShlomo Pongratz 40256992670SShlomo Pongratz static const TypeInfo arm_gicv3_info = { 40356992670SShlomo Pongratz .name = TYPE_ARM_GICV3, 40456992670SShlomo Pongratz .parent = TYPE_ARM_GICV3_COMMON, 40556992670SShlomo Pongratz .instance_size = sizeof(GICv3State), 40656992670SShlomo Pongratz .class_init = arm_gicv3_class_init, 40756992670SShlomo Pongratz .class_size = sizeof(ARMGICv3Class), 40856992670SShlomo Pongratz }; 40956992670SShlomo Pongratz 41056992670SShlomo Pongratz static void arm_gicv3_register_types(void) 41156992670SShlomo Pongratz { 41256992670SShlomo Pongratz type_register_static(&arm_gicv3_info); 41356992670SShlomo Pongratz } 41456992670SShlomo Pongratz 41556992670SShlomo Pongratz type_init(arm_gicv3_register_types) 416