// Copyright © 2019 Intel Corporation // // SPDX-License-Identifier: Apache-2.0 // use acpi_tables::{ aml::Aml, rsdp::RSDP, sdt::{GenericAddress, SDT}, }; use vm_memory::{GuestAddress, GuestMemoryMmap}; use vm_memory::{Address, ByteValued, Bytes}; use std::sync::{Arc, Mutex}; use crate::cpu::CpuManager; use crate::device_manager::DeviceManager; use crate::memory_manager::MemoryManager; use arch::layout; #[repr(packed)] #[derive(Default)] struct PCIRangeEntry { pub base_address: u64, pub segment: u16, pub start: u8, pub end: u8, _reserved: u32, } #[repr(packed)] #[derive(Default)] struct IortParavirtIommuNode { pub type_: u8, pub length: u16, pub revision: u8, _reserved1: u32, pub num_id_mappings: u32, pub ref_id_mappings: u32, pub device_id: u32, _reserved2: [u32; 3], pub model: u32, pub flags: u32, _reserved3: [u32; 4], } #[repr(packed)] #[derive(Default)] struct IortPciRootComplexNode { pub type_: u8, pub length: u16, pub revision: u8, _reserved1: u32, pub num_id_mappings: u32, pub ref_id_mappings: u32, pub mem_access_props: IortMemoryAccessProperties, pub ats_attr: u32, pub pci_seg_num: u32, pub mem_addr_size_limit: u8, _reserved2: [u8; 3], } #[repr(packed)] #[derive(Default)] struct IortMemoryAccessProperties { pub cca: u32, pub ah: u8, _reserved: u16, pub maf: u8, } #[repr(packed)] #[derive(Default)] struct IortIdMapping { pub input_base: u32, pub num_of_ids: u32, pub ouput_base: u32, pub output_ref: u32, pub flags: u32, } pub fn create_dsdt_table( device_manager: &Arc>, cpu_manager: &Arc>, memory_manager: &Arc>, ) -> SDT { // DSDT let mut dsdt = SDT::new(*b"DSDT", 36, 6, *b"CLOUDH", *b"CHDSDT ", 1); dsdt.append_slice(device_manager.lock().unwrap().to_aml_bytes().as_slice()); dsdt.append_slice(cpu_manager.lock().unwrap().to_aml_bytes().as_slice()); dsdt.append_slice(memory_manager.lock().unwrap().to_aml_bytes().as_slice()); dsdt } pub fn create_acpi_tables( guest_mem: &GuestMemoryMmap, device_manager: &Arc>, cpu_manager: &Arc>, memory_manager: &Arc>, ) -> GuestAddress { // RSDP is at the EBDA let rsdp_offset = layout::RSDP_POINTER; let mut tables: Vec = Vec::new(); // DSDT let dsdt = create_dsdt_table(device_manager, cpu_manager, memory_manager); let dsdt_offset = rsdp_offset.checked_add(RSDP::len() as u64).unwrap(); guest_mem .write_slice(dsdt.as_slice(), dsdt_offset) .expect("Error writing DSDT table"); // FACP aka FADT // Revision 6 of the ACPI FADT table is 276 bytes long let mut facp = SDT::new(*b"FACP", 276, 6, *b"CLOUDH", *b"CHFACP ", 1); // HW_REDUCED_ACPI and RESET_REG_SUP let fadt_flags: u32 = 1 << 20 | 1 << 10; facp.write(112, fadt_flags); // RESET_REG facp.write(116, GenericAddress::io_port_address(0x3c0)); // RESET_VALUE facp.write(128, 1u8); facp.write(131, 3u8); // FADT minor version facp.write(140, dsdt_offset.0); // X_DSDT // SLEEP_CONTROL_REG facp.write(244, GenericAddress::io_port_address(0x3c0)); // SLEEP_STATUS_REG facp.write(256, GenericAddress::io_port_address(0x3c0)); facp.write(268, b"CLOUDHYP"); // Hypervisor Vendor Identity facp.update_checksum(); let facp_offset = dsdt_offset.checked_add(dsdt.len() as u64).unwrap(); guest_mem .write_slice(facp.as_slice(), facp_offset) .expect("Error writing FACP table"); tables.push(facp_offset.0); // MADT let madt = cpu_manager.lock().unwrap().create_madt(); let madt_offset = facp_offset.checked_add(facp.len() as u64).unwrap(); guest_mem .write_slice(madt.as_slice(), madt_offset) .expect("Error writing MADT table"); tables.push(madt_offset.0); // MCFG let mut mcfg = SDT::new(*b"MCFG", 36, 1, *b"CLOUDH", *b"CHMCFG ", 1); // MCFG reserved 8 bytes mcfg.append(0u64); // 32-bit PCI enhanced configuration mechanism mcfg.append(PCIRangeEntry { base_address: layout::PCI_MMCONFIG_START.0, segment: 0, start: 0, end: 0xff, ..Default::default() }); let mcfg_offset = madt_offset.checked_add(madt.len() as u64).unwrap(); guest_mem .write_slice(mcfg.as_slice(), mcfg_offset) .expect("Error writing MCFG table"); tables.push(mcfg_offset.0); // XSDT let mut xsdt = SDT::new(*b"XSDT", 36, 1, *b"CLOUDH", *b"CHXSDT ", 1); for table in tables { xsdt.append(table); } xsdt.update_checksum(); let xsdt_offset = mcfg_offset.checked_add(mcfg.len() as u64).unwrap(); guest_mem .write_slice(xsdt.as_slice(), xsdt_offset) .expect("Error writing XSDT table"); // RSDP let rsdp = RSDP::new(*b"CLOUDH", xsdt_offset.0); guest_mem .write_slice(rsdp.as_slice(), rsdp_offset) .expect("Error writing RSDP"); rsdp_offset }