163e158a0SMatt Evans /* 263e158a0SMatt Evans * PPC64 processor support 363e158a0SMatt Evans * 463e158a0SMatt Evans * Copyright 2011 Matt Evans <matt@ozlabs.org>, IBM Corporation. 563e158a0SMatt Evans * 663e158a0SMatt Evans * This program is free software; you can redistribute it and/or modify it 763e158a0SMatt Evans * under the terms of the GNU General Public License version 2 as published 863e158a0SMatt Evans * by the Free Software Foundation. 963e158a0SMatt Evans */ 1063e158a0SMatt Evans 1163e158a0SMatt Evans #include "kvm/kvm-cpu.h" 1263e158a0SMatt Evans 1363e158a0SMatt Evans #include "kvm/symbol.h" 1463e158a0SMatt Evans #include "kvm/util.h" 1563e158a0SMatt Evans #include "kvm/kvm.h" 1663e158a0SMatt Evans 17be76823fSMatt Evans #include "spapr.h" 18*f17e5a37SMatt Evans #include "xics.h" 19be76823fSMatt Evans 2063e158a0SMatt Evans #include <sys/ioctl.h> 2163e158a0SMatt Evans #include <sys/mman.h> 2263e158a0SMatt Evans #include <signal.h> 2363e158a0SMatt Evans #include <stdlib.h> 2463e158a0SMatt Evans #include <string.h> 2563e158a0SMatt Evans #include <errno.h> 2663e158a0SMatt Evans #include <stdio.h> 2763e158a0SMatt Evans 2863e158a0SMatt Evans static int debug_fd; 2963e158a0SMatt Evans 3063e158a0SMatt Evans void kvm_cpu__set_debug_fd(int fd) 3163e158a0SMatt Evans { 3263e158a0SMatt Evans debug_fd = fd; 3363e158a0SMatt Evans } 3463e158a0SMatt Evans 3563e158a0SMatt Evans int kvm_cpu__get_debug_fd(void) 3663e158a0SMatt Evans { 3763e158a0SMatt Evans return debug_fd; 3863e158a0SMatt Evans } 3963e158a0SMatt Evans 4063e158a0SMatt Evans static struct kvm_cpu *kvm_cpu__new(struct kvm *kvm) 4163e158a0SMatt Evans { 4263e158a0SMatt Evans struct kvm_cpu *vcpu; 4363e158a0SMatt Evans 4463e158a0SMatt Evans vcpu = calloc(1, sizeof *vcpu); 4563e158a0SMatt Evans if (!vcpu) 4663e158a0SMatt Evans return NULL; 4763e158a0SMatt Evans 4863e158a0SMatt Evans vcpu->kvm = kvm; 4963e158a0SMatt Evans 5063e158a0SMatt Evans return vcpu; 5163e158a0SMatt Evans } 5263e158a0SMatt Evans 5363e158a0SMatt Evans void kvm_cpu__delete(struct kvm_cpu *vcpu) 5463e158a0SMatt Evans { 5563e158a0SMatt Evans free(vcpu); 5663e158a0SMatt Evans } 5763e158a0SMatt Evans 5863e158a0SMatt Evans struct kvm_cpu *kvm_cpu__init(struct kvm *kvm, unsigned long cpu_id) 5963e158a0SMatt Evans { 6063e158a0SMatt Evans struct kvm_cpu *vcpu; 6163e158a0SMatt Evans int mmap_size; 6263e158a0SMatt Evans struct kvm_enable_cap papr_cap = { .cap = KVM_CAP_PPC_PAPR }; 6363e158a0SMatt Evans 6463e158a0SMatt Evans vcpu = kvm_cpu__new(kvm); 6563e158a0SMatt Evans if (!vcpu) 6663e158a0SMatt Evans return NULL; 6763e158a0SMatt Evans 6863e158a0SMatt Evans vcpu->cpu_id = cpu_id; 6963e158a0SMatt Evans 7063e158a0SMatt Evans vcpu->vcpu_fd = ioctl(vcpu->kvm->vm_fd, KVM_CREATE_VCPU, cpu_id); 7163e158a0SMatt Evans if (vcpu->vcpu_fd < 0) 7263e158a0SMatt Evans die_perror("KVM_CREATE_VCPU ioctl"); 7363e158a0SMatt Evans 7463e158a0SMatt Evans mmap_size = ioctl(vcpu->kvm->sys_fd, KVM_GET_VCPU_MMAP_SIZE, 0); 7563e158a0SMatt Evans if (mmap_size < 0) 7663e158a0SMatt Evans die_perror("KVM_GET_VCPU_MMAP_SIZE ioctl"); 7763e158a0SMatt Evans 7863e158a0SMatt Evans vcpu->kvm_run = mmap(NULL, mmap_size, PROT_RW, MAP_SHARED, vcpu->vcpu_fd, 0); 7963e158a0SMatt Evans if (vcpu->kvm_run == MAP_FAILED) 8063e158a0SMatt Evans die("unable to mmap vcpu fd"); 8163e158a0SMatt Evans 82df129a0aSMatt Evans if (ioctl(vcpu->vcpu_fd, KVM_ENABLE_CAP, &papr_cap) < 0) 83df129a0aSMatt Evans die("unable to enable PAPR capability"); 8463e158a0SMatt Evans 8563e158a0SMatt Evans /* 8663e158a0SMatt Evans * We start all CPUs, directing non-primary threads into the kernel's 8763e158a0SMatt Evans * secondary start point. When we come to support SLOF, we will start 8863e158a0SMatt Evans * only one and SLOF will RTAS call us to ask for others to be 8963e158a0SMatt Evans * started. (FIXME: make more generic & interface with whichever 9063e158a0SMatt Evans * firmware a platform may be using.) 9163e158a0SMatt Evans */ 9263e158a0SMatt Evans vcpu->is_running = true; 9363e158a0SMatt Evans 94*f17e5a37SMatt Evans /* Register with IRQ controller (FIXME, assumes XICS) */ 95*f17e5a37SMatt Evans xics_cpu_register(vcpu); 96*f17e5a37SMatt Evans 9763e158a0SMatt Evans return vcpu; 9863e158a0SMatt Evans } 9963e158a0SMatt Evans 10063e158a0SMatt Evans static void kvm_cpu__setup_fpu(struct kvm_cpu *vcpu) 10163e158a0SMatt Evans { 10263e158a0SMatt Evans /* Don't have to do anything, there's no expected FPU state. */ 10363e158a0SMatt Evans } 10463e158a0SMatt Evans 10563e158a0SMatt Evans static void kvm_cpu__setup_regs(struct kvm_cpu *vcpu) 10663e158a0SMatt Evans { 10763e158a0SMatt Evans /* 10863e158a0SMatt Evans * FIXME: This assumes PPC64 and Linux guest. It doesn't use the 10963e158a0SMatt Evans * OpenFirmware entry method, but instead the "embedded" entry which 11063e158a0SMatt Evans * passes the FDT address directly. 11163e158a0SMatt Evans */ 11263e158a0SMatt Evans struct kvm_regs *r = &vcpu->regs; 11363e158a0SMatt Evans 11463e158a0SMatt Evans if (vcpu->cpu_id == 0) { 11563e158a0SMatt Evans r->pc = KERNEL_START_ADDR; 11663e158a0SMatt Evans r->gpr[3] = vcpu->kvm->fdt_gra; 11763e158a0SMatt Evans r->gpr[5] = 0; 11863e158a0SMatt Evans } else { 11963e158a0SMatt Evans r->pc = KERNEL_SECONDARY_START_ADDR; 12063e158a0SMatt Evans r->gpr[3] = vcpu->cpu_id; 12163e158a0SMatt Evans } 12263e158a0SMatt Evans r->msr = 0x8000000000001000UL; /* 64bit, non-HV, ME */ 12363e158a0SMatt Evans 12463e158a0SMatt Evans if (ioctl(vcpu->vcpu_fd, KVM_SET_REGS, &vcpu->regs) < 0) 12563e158a0SMatt Evans die_perror("KVM_SET_REGS failed"); 12663e158a0SMatt Evans } 12763e158a0SMatt Evans 12863e158a0SMatt Evans static void kvm_cpu__setup_sregs(struct kvm_cpu *vcpu) 12963e158a0SMatt Evans { 13063e158a0SMatt Evans /* 131df129a0aSMatt Evans * Some sregs setup to initialise SDR1/PVR/HIOR on PPC64 SPAPR 132df129a0aSMatt Evans * platforms using PR KVM. (Technically, this is all ignored on 133df129a0aSMatt Evans * SPAPR HV KVM.) Different setup is required for non-PV non-SPAPR 134df129a0aSMatt Evans * platforms! (FIXME.) 13563e158a0SMatt Evans */ 136df129a0aSMatt Evans struct kvm_sregs sregs; 137df129a0aSMatt Evans struct kvm_one_reg reg = {}; 138df129a0aSMatt Evans 139df129a0aSMatt Evans if (ioctl(vcpu->vcpu_fd, KVM_GET_SREGS, &sregs) < 0) 140df129a0aSMatt Evans die("KVM_GET_SREGS failed"); 141df129a0aSMatt Evans 142df129a0aSMatt Evans sregs.u.s.sdr1 = vcpu->kvm->sdr1; 143d391177aSMatt Evans sregs.pvr = vcpu->kvm->pvr; 144df129a0aSMatt Evans 145df129a0aSMatt Evans if (ioctl(vcpu->vcpu_fd, KVM_SET_SREGS, &sregs) < 0) 146df129a0aSMatt Evans die("KVM_SET_SREGS failed"); 147df129a0aSMatt Evans 148df129a0aSMatt Evans reg.id = KVM_ONE_REG_PPC_HIOR; 149df129a0aSMatt Evans reg.u.reg64 = 0; 150df129a0aSMatt Evans if (ioctl(vcpu->vcpu_fd, KVM_SET_ONE_REG, ®) < 0) 151df129a0aSMatt Evans die("KVM_SET_ONE_REG failed"); 15263e158a0SMatt Evans } 15363e158a0SMatt Evans 15463e158a0SMatt Evans /** 15563e158a0SMatt Evans * kvm_cpu__reset_vcpu - reset virtual CPU to a known state 15663e158a0SMatt Evans */ 15763e158a0SMatt Evans void kvm_cpu__reset_vcpu(struct kvm_cpu *vcpu) 15863e158a0SMatt Evans { 15963e158a0SMatt Evans kvm_cpu__setup_regs(vcpu); 16063e158a0SMatt Evans kvm_cpu__setup_sregs(vcpu); 16163e158a0SMatt Evans kvm_cpu__setup_fpu(vcpu); 16263e158a0SMatt Evans } 16363e158a0SMatt Evans 16463e158a0SMatt Evans /* kvm_cpu__irq - set KVM's IRQ flag on this vcpu */ 16563e158a0SMatt Evans void kvm_cpu__irq(struct kvm_cpu *vcpu, int pin, int level) 16663e158a0SMatt Evans { 167*f17e5a37SMatt Evans unsigned int virq = level ? KVM_INTERRUPT_SET_LEVEL : KVM_INTERRUPT_UNSET; 168*f17e5a37SMatt Evans 169*f17e5a37SMatt Evans /* FIXME: POWER-specific */ 170*f17e5a37SMatt Evans if (pin != POWER7_EXT_IRQ) 171*f17e5a37SMatt Evans return; 172*f17e5a37SMatt Evans if (ioctl(vcpu->vcpu_fd, KVM_INTERRUPT, &virq) < 0) 173*f17e5a37SMatt Evans pr_warning("Could not KVM_INTERRUPT."); 17463e158a0SMatt Evans } 17563e158a0SMatt Evans 17663e158a0SMatt Evans void kvm_cpu__arch_nmi(struct kvm_cpu *cpu) 17763e158a0SMatt Evans { 17863e158a0SMatt Evans } 17963e158a0SMatt Evans 18063e158a0SMatt Evans bool kvm_cpu__handle_exit(struct kvm_cpu *vcpu) 18163e158a0SMatt Evans { 18263e158a0SMatt Evans bool ret = true; 18363e158a0SMatt Evans struct kvm_run *run = vcpu->kvm_run; 18463e158a0SMatt Evans switch(run->exit_reason) { 185be76823fSMatt Evans case KVM_EXIT_PAPR_HCALL: 186be76823fSMatt Evans run->papr_hcall.ret = spapr_hypercall(vcpu, run->papr_hcall.nr, 187be76823fSMatt Evans (target_ulong*)run->papr_hcall.args); 188be76823fSMatt Evans break; 18963e158a0SMatt Evans default: 19063e158a0SMatt Evans ret = false; 19163e158a0SMatt Evans } 19263e158a0SMatt Evans return ret; 19363e158a0SMatt Evans } 19463e158a0SMatt Evans 19563e158a0SMatt Evans #define CONDSTR_BIT(m, b) (((m) & MSR_##b) ? #b" " : "") 19663e158a0SMatt Evans 19763e158a0SMatt Evans void kvm_cpu__show_registers(struct kvm_cpu *vcpu) 19863e158a0SMatt Evans { 19963e158a0SMatt Evans struct kvm_regs regs; 20063e158a0SMatt Evans struct kvm_sregs sregs; 20163e158a0SMatt Evans int r; 20263e158a0SMatt Evans 20363e158a0SMatt Evans if (ioctl(vcpu->vcpu_fd, KVM_GET_REGS, ®s) < 0) 20463e158a0SMatt Evans die("KVM_GET_REGS failed"); 20563e158a0SMatt Evans if (ioctl(vcpu->vcpu_fd, KVM_GET_SREGS, &sregs) < 0) 20663e158a0SMatt Evans die("KVM_GET_SREGS failed"); 20763e158a0SMatt Evans 20863e158a0SMatt Evans dprintf(debug_fd, "\n Registers:\n"); 20963e158a0SMatt Evans dprintf(debug_fd, " NIP: %016llx MSR: %016llx " 21063e158a0SMatt Evans "( %s%s%s%s%s%s%s%s%s%s%s%s)\n", 21163e158a0SMatt Evans regs.pc, regs.msr, 21263e158a0SMatt Evans CONDSTR_BIT(regs.msr, SF), 21363e158a0SMatt Evans CONDSTR_BIT(regs.msr, HV), /* ! */ 21463e158a0SMatt Evans CONDSTR_BIT(regs.msr, VEC), 21563e158a0SMatt Evans CONDSTR_BIT(regs.msr, VSX), 21663e158a0SMatt Evans CONDSTR_BIT(regs.msr, EE), 21763e158a0SMatt Evans CONDSTR_BIT(regs.msr, PR), 21863e158a0SMatt Evans CONDSTR_BIT(regs.msr, FP), 21963e158a0SMatt Evans CONDSTR_BIT(regs.msr, ME), 22063e158a0SMatt Evans CONDSTR_BIT(regs.msr, IR), 22163e158a0SMatt Evans CONDSTR_BIT(regs.msr, DR), 22263e158a0SMatt Evans CONDSTR_BIT(regs.msr, RI), 22363e158a0SMatt Evans CONDSTR_BIT(regs.msr, LE)); 22463e158a0SMatt Evans dprintf(debug_fd, " CTR: %016llx LR: %016llx CR: %08llx\n", 22563e158a0SMatt Evans regs.ctr, regs.lr, regs.cr); 22663e158a0SMatt Evans dprintf(debug_fd, " SRR0: %016llx SRR1: %016llx XER: %016llx\n", 22763e158a0SMatt Evans regs.srr0, regs.srr1, regs.xer); 22863e158a0SMatt Evans dprintf(debug_fd, " SPRG0: %016llx SPRG1: %016llx\n", 22963e158a0SMatt Evans regs.sprg0, regs.sprg1); 23063e158a0SMatt Evans dprintf(debug_fd, " SPRG2: %016llx SPRG3: %016llx\n", 23163e158a0SMatt Evans regs.sprg2, regs.sprg3); 23263e158a0SMatt Evans dprintf(debug_fd, " SPRG4: %016llx SPRG5: %016llx\n", 23363e158a0SMatt Evans regs.sprg4, regs.sprg5); 23463e158a0SMatt Evans dprintf(debug_fd, " SPRG6: %016llx SPRG7: %016llx\n", 23563e158a0SMatt Evans regs.sprg6, regs.sprg7); 23663e158a0SMatt Evans dprintf(debug_fd, " GPRs:\n "); 23763e158a0SMatt Evans for (r = 0; r < 32; r++) { 23863e158a0SMatt Evans dprintf(debug_fd, "%016llx ", regs.gpr[r]); 23963e158a0SMatt Evans if ((r & 3) == 3) 24063e158a0SMatt Evans dprintf(debug_fd, "\n "); 24163e158a0SMatt Evans } 24263e158a0SMatt Evans dprintf(debug_fd, "\n"); 24363e158a0SMatt Evans 24463e158a0SMatt Evans /* FIXME: Assumes SLB-based (book3s) guest */ 24563e158a0SMatt Evans for (r = 0; r < 32; r++) { 24663e158a0SMatt Evans dprintf(debug_fd, " SLB%02d %016llx %016llx\n", r, 24763e158a0SMatt Evans sregs.u.s.ppc64.slb[r].slbe, 24863e158a0SMatt Evans sregs.u.s.ppc64.slb[r].slbv); 24963e158a0SMatt Evans } 25063e158a0SMatt Evans dprintf(debug_fd, "----------\n"); 25163e158a0SMatt Evans } 25263e158a0SMatt Evans 25363e158a0SMatt Evans void kvm_cpu__show_code(struct kvm_cpu *vcpu) 25463e158a0SMatt Evans { 25563e158a0SMatt Evans if (ioctl(vcpu->vcpu_fd, KVM_GET_REGS, &vcpu->regs) < 0) 25663e158a0SMatt Evans die("KVM_GET_REGS failed"); 25763e158a0SMatt Evans 25863e158a0SMatt Evans /* FIXME: Dump/disassemble some code...! */ 25963e158a0SMatt Evans 26063e158a0SMatt Evans dprintf(debug_fd, "\n Stack:\n"); 26163e158a0SMatt Evans dprintf(debug_fd, " ------\n"); 26263e158a0SMatt Evans /* Only works in real mode: */ 26363e158a0SMatt Evans kvm__dump_mem(vcpu->kvm, vcpu->regs.gpr[1], 32); 26463e158a0SMatt Evans } 26563e158a0SMatt Evans 26663e158a0SMatt Evans void kvm_cpu__show_page_tables(struct kvm_cpu *vcpu) 26763e158a0SMatt Evans { 26863e158a0SMatt Evans /* Does nothing yet */ 26963e158a0SMatt Evans } 270