/* SPDX-License-Identifier: MIT */ #include "smp.h" #include "adt.h" #include "cpu_regs.h" #include "string.h" #include "types.h" #include "utils.h" #define CPU_START_OFF 0x54000 struct spin_table { u64 mpidr; u64 flag; u64 target; u64 args[4]; u64 retval; }; void *_reset_stack; u8 secondary_stacks[MAX_CPUS][SECONDARY_STACK_SIZE] ALIGNED(0x4000); static int target_cpu; static struct spin_table spin_table[MAX_CPUS]; extern u8 _vectors_start[0]; void smp_secondary_entry(void) { struct spin_table *me = &spin_table[target_cpu]; if (in_el2()) msr(TPIDR_EL2, target_cpu); else msr(TPIDR_EL1, target_cpu); printf(" Index: %d (table: %p)\n\n", target_cpu, me); me->mpidr = mrs(MPIDR_EL1) & 0xFFFFFF; sysop("dmb sy"); me->flag = 1; sysop("dmb sy"); u64 target; while (1) { while (!(target = me->target)) { deep_wfi(); msr(SYS_IMP_APL_IPI_SR_EL1, 1); } sysop("dmb sy"); me->flag++; sysop("dmb sy"); me->retval = ((u64(*)(u64 a, u64 b, u64 c, u64 d))target)(me->args[0], me->args[1], me->args[2], me->args[3]); sysop("dmb sy"); me->target = 0; sysop("dmb sy"); } } static void smp_start_cpu(int index, int cluster, int core, u64 rvbar, u64 cpu_start_base) { int i; if (spin_table[index].flag) return; printf("Starting CPU %d (%d:%d)... ", index, cluster, core); memset(&spin_table[index], 0, sizeof(struct spin_table)); target_cpu = index; _reset_stack = secondary_stacks[index] + SECONDARY_STACK_SIZE; sysop("dmb sy"); write64(rvbar, (u64)_vectors_start); // Some kind of system level startup/status bit // Without this, IRQs don't work write32(cpu_start_base + 0x4, 1 << index); // Actually start the core if (cluster == 0) { write32(cpu_start_base + 0x8, 1 << core); } else { write32(cpu_start_base + 0xc, 1 << core); } for (i = 0; i < 500; i++) { sysop("dmb ld"); if (spin_table[index].flag) break; udelay(1000); } if (i >= 500) printf("Failed!\n"); else printf(" Started.\n"); } void smp_start_secondaries(void) { printf("Starting secondary CPUs...\n"); int pmgr_path[8]; u64 pmgr_reg; if (adt_path_offset_trace(adt, "/arm-io/pmgr", pmgr_path) < 0) { printf("Error getting /arm-io/pmgr node\n"); return; } if (adt_get_reg(adt, pmgr_path, "reg", 0, &pmgr_reg, NULL) < 0) { printf("Error getting /arm-io/pmgr regs\n"); return; } int node = adt_path_offset(adt, "/cpus"); if (node < 0) { printf("Error getting /cpus node\n"); return; } int cpu_nodes[MAX_CPUS]; memset(cpu_nodes, 0, sizeof(cpu_nodes)); ADT_FOREACH_CHILD(adt, node) { u32 cpu_id; if (ADT_GETPROP(adt, node, "cpu-id", &cpu_id) < 0) continue; if (cpu_id >= MAX_CPUS) { printf("cpu-id %d exceeds max CPU count %d: increase MAX_CPUS\n", cpu_id, MAX_CPUS); continue; } cpu_nodes[cpu_id] = node; } for (int i = 1; i < MAX_CPUS; i++) { int node = cpu_nodes[i]; if (!node) break; u32 reg; u64 cpu_impl_reg[2]; if (ADT_GETPROP(adt, node, "reg", ®) < 0) continue; if (ADT_GETPROP_ARRAY(adt, node, "cpu-impl-reg", cpu_impl_reg) < 0) continue; smp_start_cpu(i, reg >> 8, reg & 0xff, cpu_impl_reg[0], pmgr_reg + CPU_START_OFF); } spin_table[0].mpidr = mrs(MPIDR_EL1) & 0xFFFFFF; } void smp_call4(int cpu, void *func, u64 arg0, u64 arg1, u64 arg2, u64 arg3) { struct spin_table *target = &spin_table[cpu]; if (cpu == 0) return; u64 flag = target->flag; target->args[0] = arg0; target->args[1] = arg1; target->args[2] = arg2; target->args[3] = arg3; sysop("dmb sy"); target->target = (u64)func; sysop("dmb sy"); msr(SYS_IMP_APL_IPI_RR_GLOBAL_EL1, spin_table[cpu].mpidr); while (target->flag == flag) sysop("dmb sy"); } u64 smp_wait(int cpu) { struct spin_table *target = &spin_table[cpu]; while (target->target) sysop("dmb sy"); return target->retval; } bool smp_is_alive(int cpu) { return spin_table[cpu].flag; } int smp_get_mpidr(int cpu) { return spin_table[cpu].mpidr; } u64 smp_get_release_addr(int cpu) { struct spin_table *target = &spin_table[cpu]; target->args[0] = 0; target->args[1] = 0; target->args[2] = 0; target->args[3] = 0; return (u64)&target->target; }