/* * Copyright (C) 2018 Intel Corporation. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #ifdef CONFIG_EFI_STUB #include #endif /* IOAPIC id */ #define UEFI_IOAPIC_ID 8 /* IOAPIC base address */ #define UEFI_IOAPIC_ADDR 0xfec00000 /* IOAPIC range size */ #define UEFI_IOAPIC_SIZE 0x100000 /* Local APIC base address */ #define UEFI_LAPIC_ADDR 0xfee00000 /* Local APIC range size */ #define UEFI_LAPIC_SIZE 0x100000 /* Number of PCI IRQ assignments */ #define UEFI_PCI_IRQ_ASSIGNMENT_NUM 28 #ifdef CONFIG_EFI_STUB static void efi_init(void); struct efi_ctx* efi_ctx = NULL; struct lapic_regs uefi_lapic_regs; static int efi_initialized; void efi_spurious_handler(int vector) { struct vcpu* vcpu; int ret; if (get_cpu_id() != 0) return; vcpu = per_cpu(vcpu, 0); if ((vcpu != NULL) && vcpu->arch_vcpu.vlapic) { ret = vlapic_set_intr(vcpu, vector, 0); if (ret != 0) pr_err("%s vlapic set intr fail, interrupt lost\n", __func__); } else pr_err("%s vcpu or vlapic is not ready, interrupt lost\n", __func__); return; } int uefi_sw_loader(struct vm *vm, struct vcpu *vcpu) { int ret = 0; struct run_context *cur_context = &vcpu->arch_vcpu.contexts[vcpu->arch_vcpu.cur_context]; ASSERT(vm != NULL, "Incorrect argument"); pr_dbg("Loading guest to run-time location"); if (!is_vm0(vm)) return load_guest(vm, vcpu); vlapic_restore(vcpu->arch_vcpu.vlapic, &uefi_lapic_regs); vcpu->entry_addr = (void *)efi_ctx->rip; cur_context->guest_cpu_regs.regs.rax = efi_ctx->rax; cur_context->guest_cpu_regs.regs.rbx = efi_ctx->rbx; cur_context->guest_cpu_regs.regs.rdx = efi_ctx->rcx; cur_context->guest_cpu_regs.regs.rcx = efi_ctx->rdx; cur_context->guest_cpu_regs.regs.rdi = efi_ctx->rdi; cur_context->guest_cpu_regs.regs.rsi = efi_ctx->rsi; cur_context->guest_cpu_regs.regs.rbp = efi_ctx->rbp; cur_context->guest_cpu_regs.regs.r8 = efi_ctx->r8; cur_context->guest_cpu_regs.regs.r9 = efi_ctx->r9; cur_context->guest_cpu_regs.regs.r10 = efi_ctx->r10; cur_context->guest_cpu_regs.regs.r11 = efi_ctx->r11; cur_context->guest_cpu_regs.regs.r12 = efi_ctx->r12; cur_context->guest_cpu_regs.regs.r13 = efi_ctx->r13; cur_context->guest_cpu_regs.regs.r14 = efi_ctx->r14; cur_context->guest_cpu_regs.regs.r15 = efi_ctx->r15; /* defer irq enabling till vlapic is ready */ CPU_IRQ_ENABLE(); return ret; } void *get_rsdp_from_uefi(void) { if (!efi_initialized) efi_init(); return HPA2HVA(efi_ctx->rsdp); } void *get_ap_trampoline_buf(void) { return efi_ctx->ap_trampoline_buf; } static void efi_init(void) { struct multiboot_info *mbi = NULL; if (boot_regs[0] != MULTIBOOT_INFO_MAGIC) ASSERT(0, "no multiboot info found"); mbi = (struct multiboot_info *)HPA2HVA(((uint64_t)(uint32_t)boot_regs[1])); if (!(mbi->mi_flags & MULTIBOOT_INFO_HAS_DRIVES)) ASSERT(0, "no multiboot drivers for uefi found"); efi_ctx = (struct efi_ctx *)HPA2HVA((uint64_t)mbi->mi_drives_addr); ASSERT(efi_ctx != NULL, "no uefi context found"); vm_sw_loader = uefi_sw_loader; spurious_handler = efi_spurious_handler; save_lapic(&uefi_lapic_regs); efi_initialized = 1; } #endif void init_bsp(void) { parse_hv_cmdline(); #ifdef CONFIG_EFI_STUB if (!efi_initialized) efi_init(); #endif }