rialto/src/main.rs - android_packages_modules_Virtualization - Gitiles

 // Copyright 2022, The Android Open Source Project
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 //! Project Rialto main source file.

 #![no_main]
 #![no_std]

 mod error;
 mod exceptions;

 extern crate alloc;

 use crate::error::{Error, Result};
 use aarch64_paging::{
     idmap::IdMap,
     paging::{Attributes, MemoryRegion},
 };
 use buddy_system_allocator::LockedHeap;
 use core::ops::Range;
 use hyp::get_hypervisor;
 use log::{debug, error, info};
 use vmbase::{layout, main, power::reboot};

 const SZ_1K: usize = 1024;
 const SZ_4K: usize = 4 * SZ_1K;
 const SZ_64K: usize = 64 * SZ_1K;
 const SZ_1M: usize = 1024 * SZ_1K;
 const SZ_1G: usize = 1024 * SZ_1M;

 // Root level is given by the value of TCR_EL1.TG0 and TCR_EL1.T0SZ, set in
 // entry.S. For 4KB granule and 39-bit VA, the root level is 1.
 const PT_ROOT_LEVEL: usize = 1;
 const PT_ASID: usize = 1;

 const PROT_DEV: Attributes = Attributes::from_bits_truncate(
     Attributes::DEVICE_NGNRE.bits() | Attributes::EXECUTE_NEVER.bits(),
 );
 const PROT_RX: Attributes = Attributes::from_bits_truncate(
     Attributes::NORMAL.bits() | Attributes::NON_GLOBAL.bits() | Attributes::READ_ONLY.bits(),
 );
 const PROT_RO: Attributes = Attributes::from_bits_truncate(
     Attributes::NORMAL.bits()
         | Attributes::NON_GLOBAL.bits()
         | Attributes::READ_ONLY.bits()
         | Attributes::EXECUTE_NEVER.bits(),
 );
 const PROT_RW: Attributes = Attributes::from_bits_truncate(
     Attributes::NORMAL.bits() | Attributes::NON_GLOBAL.bits() | Attributes::EXECUTE_NEVER.bits(),
 );

 #[global_allocator]
 static HEAP_ALLOCATOR: LockedHeap<32> = LockedHeap::<32>::new();

 static mut HEAP: [u8; SZ_64K] = [0; SZ_64K];

 fn into_memreg(r: &Range<usize>) -> MemoryRegion {
     MemoryRegion::new(r.start, r.end)
 }

 fn init_heap() {
     // SAFETY: Allocator set to otherwise unused, static memory.
     unsafe {
         HEAP_ALLOCATOR.lock().init(&mut HEAP as *mut u8 as usize, HEAP.len());
     }
 }

 fn init_kernel_pgt(pgt: &mut IdMap) -> Result<()> {
     // The first 1 GiB of address space is used by crosvm for MMIO.
     let reg_dev = MemoryRegion::new(0, SZ_1G);
     let reg_text = into_memreg(&layout::text_range());
     let reg_rodata = into_memreg(&layout::rodata_range());
     let reg_scratch = into_memreg(&layout::scratch_range());
     let reg_stack = into_memreg(&layout::stack_range(40 * SZ_4K));

     debug!("Preparing kernel page table.");
     debug!("  dev:    {}-{}", reg_dev.start(), reg_dev.end());
     debug!("  text:   {}-{}", reg_text.start(), reg_text.end());
     debug!("  rodata: {}-{}", reg_rodata.start(), reg_rodata.end());
     debug!("  scratch:{}-{}", reg_scratch.start(), reg_scratch.end());
     debug!("  stack:  {}-{}", reg_stack.start(), reg_stack.end());

     pgt.map_range(&reg_dev, PROT_DEV)?;
     pgt.map_range(&reg_text, PROT_RX)?;
     pgt.map_range(&reg_rodata, PROT_RO)?;
     pgt.map_range(&reg_scratch, PROT_RW)?;
     pgt.map_range(&reg_stack, PROT_RW)?;

     pgt.activate();
     info!("Activated kernel page table.");
     Ok(())
 }

 fn try_init_logger() -> Result<()> {
     match get_hypervisor().mmio_guard_init() {
         // pKVM blocks MMIO by default, we need to enable MMIO guard to support logging.
         Ok(()) => get_hypervisor().mmio_guard_map(vmbase::console::BASE_ADDRESS)?,
         // MMIO guard enroll is not supported in unprotected VM.
         Err(hyp::Error::MmioGuardNotsupported) => {}
         Err(e) => return Err(e.into()),
     };
     vmbase::logger::init(log::LevelFilter::Debug).map_err(|_| Error::LoggerInit)
 }

 fn try_main() -> Result<()> {
     info!("Welcome to Rialto!");

     let mut pgt = IdMap::new(PT_ASID, PT_ROOT_LEVEL);
     init_kernel_pgt(&mut pgt)?;
     Ok(())
 }

 /// Entry point for Rialto.
 pub fn main(_a0: u64, _a1: u64, _a2: u64, _a3: u64) {
     init_heap();
     if try_init_logger().is_err() {
         // Don't log anything if the logger initialization fails.
         reboot();
     }
     match try_main() {
         Ok(()) => info!("Rialto ends successfully."),
         Err(e) => {
             error!("Rialto failed with {e}");
             reboot()
         }
     }
 }

 main!(main);
	// Copyright 2022, The Android Open Source Project
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	//! Project Rialto main source file.

	#![no_main]
	#![no_std]

	mod error;
	mod exceptions;

	extern crate alloc;

	use crate::error::{Error, Result};
	use aarch64_paging::{
	idmap::IdMap,
	paging::{Attributes, MemoryRegion},
	};
	use buddy_system_allocator::LockedHeap;
	use core::ops::Range;
	use hyp::get_hypervisor;
	use log::{debug, error, info};
	use vmbase::{layout, main, power::reboot};

	const SZ_1K: usize = 1024;
	const SZ_4K: usize = 4 * SZ_1K;
	const SZ_64K: usize = 64 * SZ_1K;
	const SZ_1M: usize = 1024 * SZ_1K;
	const SZ_1G: usize = 1024 * SZ_1M;

	// Root level is given by the value of TCR_EL1.TG0 and TCR_EL1.T0SZ, set in
	// entry.S. For 4KB granule and 39-bit VA, the root level is 1.
	const PT_ROOT_LEVEL: usize = 1;
	const PT_ASID: usize = 1;

	const PROT_DEV: Attributes = Attributes::from_bits_truncate(
	Attributes::DEVICE_NGNRE.bits() \| Attributes::EXECUTE_NEVER.bits(),
	);
	const PROT_RX: Attributes = Attributes::from_bits_truncate(
	Attributes::NORMAL.bits() \| Attributes::NON_GLOBAL.bits() \| Attributes::READ_ONLY.bits(),
	);
	const PROT_RO: Attributes = Attributes::from_bits_truncate(
	Attributes::NORMAL.bits()
	\| Attributes::NON_GLOBAL.bits()
	\| Attributes::READ_ONLY.bits()
	\| Attributes::EXECUTE_NEVER.bits(),
	);
	const PROT_RW: Attributes = Attributes::from_bits_truncate(
	Attributes::NORMAL.bits() \| Attributes::NON_GLOBAL.bits() \| Attributes::EXECUTE_NEVER.bits(),
	);

	#[global_allocator]
	static HEAP_ALLOCATOR: LockedHeap<32> = LockedHeap::<32>::new();

	static mut HEAP: [u8; SZ_64K] = [0; SZ_64K];

	fn into_memreg(r: &Range<usize>) -> MemoryRegion {
	MemoryRegion::new(r.start, r.end)
	}

	fn init_heap() {
	// SAFETY: Allocator set to otherwise unused, static memory.
	unsafe {
	HEAP_ALLOCATOR.lock().init(&mut HEAP as *mut u8 as usize, HEAP.len());
	}
	}

	fn init_kernel_pgt(pgt: &mut IdMap) -> Result<()> {
	// The first 1 GiB of address space is used by crosvm for MMIO.
	let reg_dev = MemoryRegion::new(0, SZ_1G);
	let reg_text = into_memreg(&layout::text_range());
	let reg_rodata = into_memreg(&layout::rodata_range());
	let reg_scratch = into_memreg(&layout::scratch_range());
	let reg_stack = into_memreg(&layout::stack_range(40 * SZ_4K));

	debug!("Preparing kernel page table.");
	debug!(" dev: {}-{}", reg_dev.start(), reg_dev.end());
	debug!(" text: {}-{}", reg_text.start(), reg_text.end());
	debug!(" rodata: {}-{}", reg_rodata.start(), reg_rodata.end());
	debug!(" scratch:{}-{}", reg_scratch.start(), reg_scratch.end());
	debug!(" stack: {}-{}", reg_stack.start(), reg_stack.end());

	pgt.map_range(&reg_dev, PROT_DEV)?;
	pgt.map_range(&reg_text, PROT_RX)?;
	pgt.map_range(&reg_rodata, PROT_RO)?;
	pgt.map_range(&reg_scratch, PROT_RW)?;
	pgt.map_range(&reg_stack, PROT_RW)?;

	pgt.activate();
	info!("Activated kernel page table.");
	Ok(())
	}

	fn try_init_logger() -> Result<()> {
	match get_hypervisor().mmio_guard_init() {
	// pKVM blocks MMIO by default, we need to enable MMIO guard to support logging.
	Ok(()) => get_hypervisor().mmio_guard_map(vmbase::console::BASE_ADDRESS)?,
	// MMIO guard enroll is not supported in unprotected VM.
	Err(hyp::Error::MmioGuardNotsupported) => {}
	Err(e) => return Err(e.into()),
	};
	vmbase::logger::init(log::LevelFilter::Debug).map_err(\|_\| Error::LoggerInit)
	}

	fn try_main() -> Result<()> {
	info!("Welcome to Rialto!");

	let mut pgt = IdMap::new(PT_ASID, PT_ROOT_LEVEL);
	init_kernel_pgt(&mut pgt)?;
	Ok(())
	}

	/// Entry point for Rialto.
	pub fn main(_a0: u64, _a1: u64, _a2: u64, _a3: u64) {
	init_heap();
	if try_init_logger().is_err() {
	// Don't log anything if the logger initialization fails.
	reboot();
	}
	match try_main() {
	Ok(()) => info!("Rialto ends successfully."),
	Err(e) => {
	error!("Rialto failed with {e}");
	reboot()
	}
	}
	}

	main!(main);