From 448516e3f985dd13fb5cd16f2c9efbcf097f9fa5 Mon Sep 17 00:00:00 2001 From: Chirantan Ekbote Date: Tue, 24 Jul 2018 16:07:42 -0700 Subject: balloon: Implement device policy Implement a policy for the balloon device so that it starts taking memory away from the VM when the system is under low memory conditions. There are a few pieces here: * Change the madvise call in MemoryMapping::dont_need_range to use MADV_REMOVE instead of MADV_DONTNEED. The latter does nothing when the memory mapping is shared across multiple processes while the former immediately gives the pages in the specified range back to the kernel. Subsequent accesses to memory in that range returns zero pages. * Change the protocol between the balloon device process and the main crosvm process. Previously, the device process expected the main process to send it increments in the amount of memory consumed by the balloon device. Now, it instead just expects the absolute value of the memory that should be consumed. To properly implement the policy the main process needs to keep track of the total memory consumed by the balloon device so this makes it easier to handle all the policy in one place. * Add a policy for dealing with low memory situations. When the VM starts up, we determine the maximum amount of memory that the balloon device should consume: * If the VM has more than 1.5GB of memory, the balloon device max is the size of the VM memory minus 1GB. * Otherwise, if the VM has at least 500MB, the balloon device max is 50% of the size of the VM memory. * Otherwise, the max is 0. The increment used to change the size of the balloon is defined as 1/16 of the max memory that the balloon device will consume. When the crosvm main process detects that the system is low on memory, it immediately increases the balloon size by the increment (unless it has already reached the max). It then starts 2 timers: one to check for low memory conditions again in 1 seconds (+ jitter) and another to check if the system is no longer low on memory in 1 minute (+ jitter) with a subsequent interval of 30 seconds (+ jitter). Under persistent low memory conditions the balloon device will consume the maximum memory after 16 seconds. Once there is enough available memory the balloon size will shrink back down to 0 after at most 9 minutes. BUG=chromium:866193 TEST=manual Start 2 VMs and write out a large file (size > system RAM) in each. Observe /sys/kernel/mm/chromeos-low_mem/available and see that the available memory steadily decreases until it goes under the low memory margin at which point the available memory bounces back up as crosvm frees up pages. CQ-DEPEND=CL:1152214 Change-Id: I2046729683aa081c9d7ed039d902ad11737c1d52 Signed-off-by: Chirantan Ekbote Reviewed-on: https://chromium-review.googlesource.com/1149155 Reviewed-by: Sonny Rao --- src/linux.rs | 151 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++-- 1 file changed, 148 insertions(+), 3 deletions(-) (limited to 'src/linux.rs') diff --git a/src/linux.rs b/src/linux.rs index 46ea35b..594383e 100644 --- a/src/linux.rs +++ b/src/linux.rs @@ -3,22 +3,28 @@ // found in the LICENSE file. use std; +use std::cmp::min; use std::ffi::{CString, CStr}; use std::fmt; use std::error; use std::fs::{File, OpenOptions, remove_file}; -use std::io::{self, stdin}; +use std::io::{self, Read, stdin}; +use std::mem; use std::os::unix::io::{AsRawFd, FromRawFd, RawFd}; use std::os::unix::net::UnixDatagram; use std::path::{Path, PathBuf}; +use std::str; use std::sync::atomic::{AtomicBool, Ordering}; use std::sync::{Arc, Mutex, Barrier}; use std::thread; +use std::time::Duration; use std::thread::JoinHandle; -use libc; -use libc::c_int; +use libc::{self, c_int}; +use rand::thread_rng; +use rand::distributions::{IndependentSample, Range}; +use byteorder::{ByteOrder, LittleEndian}; use devices; use io_jail::{self, Minijail}; use kernel_cmdline; @@ -55,6 +61,7 @@ pub enum Error { CreatePollContext(sys_util::Error), CreateSignalFd(sys_util::SignalFdError), CreateSocket(io::Error), + CreateTimerFd(sys_util::Error), CreateVcpu(sys_util::Error), CreateVm(Box), DeviceJail(io_jail::Error), @@ -67,8 +74,12 @@ pub enum Error { NetDeviceNew(devices::virtio::NetError), NoVarEmpty, OpenKernel(PathBuf, io::Error), + OpenLowMem(io::Error), PollContextAdd(sys_util::Error), + PollContextDelete(sys_util::Error), QcowDeviceCreate(qcow::Error), + ReadLowmemAvailable(io::Error), + ReadLowmemMargin(io::Error), RegisterBalloon(MmioRegisterError), RegisterBlock(MmioRegisterError), RegisterGpu(MmioRegisterError), @@ -77,11 +88,13 @@ pub enum Error { RegisterSignalHandler(sys_util::Error), RegisterVsock(MmioRegisterError), RegisterWayland(MmioRegisterError), + ResetTimerFd(sys_util::Error), RngDeviceNew(devices::virtio::RngError), SettingGidMap(io_jail::Error), SettingUidMap(io_jail::Error), SignalFd(sys_util::SignalFdError), SpawnVcpu(io::Error), + TimerFd(sys_util::Error), VhostNetDeviceNew(devices::virtio::vhost::Error), VhostVsockDeviceNew(devices::virtio::vhost::Error), WaylandDeviceNew(sys_util::Error), @@ -110,6 +123,7 @@ impl fmt::Display for Error { &Error::CreatePollContext(ref e) => write!(f, "failed to create poll context: {:?}", e), &Error::CreateSignalFd(ref e) => write!(f, "failed to create signalfd: {:?}", e), &Error::CreateSocket(ref e) => write!(f, "failed to create socket: {}", e), + &Error::CreateTimerFd(ref e) => write!(f, "failed to create timerfd: {}", e), &Error::CreateVcpu(ref e) => write!(f, "failed to create VCPU: {:?}", e), &Error::CreateVm(ref e) => write!(f, "failed to create KVM VM object: {:?}", e), &Error::DeviceJail(ref e) => write!(f, "failed to jail device: {}", e), @@ -126,10 +140,20 @@ impl fmt::Display for Error { &Error::OpenKernel(ref p, ref e) => { write!(f, "failed to open kernel image {:?}: {}", p, e) } + &Error::OpenLowMem(ref e) => write!(f, "failed to open /dev/chromeos-low-mem: {}", e), &Error::PollContextAdd(ref e) => write!(f, "failed to add fd to poll context: {:?}", e), + &Error::PollContextDelete(ref e) => { + write!(f, "failed to remove fd from poll context: {:?}", e) + } &Error::QcowDeviceCreate(ref e) => { write!(f, "failed to read qcow formatted file {:?}", e) } + &Error::ReadLowmemAvailable(ref e) => { + write!(f, "failed to read /sys/kernel/mm/chromeos-low_mem/available: {}", e) + } + &Error::ReadLowmemMargin(ref e) => { + write!(f, "failed to read /sys/kernel/mm/chromeos-low_mem/margin: {}", e) + } &Error::RegisterBalloon(ref e) => { write!(f, "error registering balloon device: {:?}", e) }, @@ -144,11 +168,13 @@ impl fmt::Display for Error { write!(f, "error registering virtual socket device: {:?}", e) } &Error::RegisterWayland(ref e) => write!(f, "error registering wayland device: {}", e), + &Error::ResetTimerFd(ref e) => write!(f, "failed to reset timerfd: {}", e), &Error::RngDeviceNew(ref e) => write!(f, "failed to set up rng: {:?}", e), &Error::SettingGidMap(ref e) => write!(f, "error setting GID map: {}", e), &Error::SettingUidMap(ref e) => write!(f, "error setting UID map: {}", e), &Error::SignalFd(ref e) => write!(f, "failed to read signal fd: {:?}", e), &Error::SpawnVcpu(ref e) => write!(f, "failed to spawn VCPU thread: {:?}", e), + &Error::TimerFd(ref e) => write!(f, "failed to read timer fd: {:?}", e), &Error::VhostNetDeviceNew(ref e) => { write!(f, "failed to set up vhost networking: {:?}", e) } @@ -687,6 +713,18 @@ fn run_vcpu(vcpu: Vcpu, .map_err(Error::SpawnVcpu) } +// Reads the contents of a file and converts them into a u64. +fn file_to_u64>(path: P) -> io::Result { + let mut file = File::open(path)?; + + let mut buf = [0u8; 32]; + let count = file.read(&mut buf)?; + + let content = str::from_utf8(&buf[..count]) + .map_err(|e| io::Error::new(io::ErrorKind::InvalidData, e))?; + content.trim().parse().map_err(|e| io::Error::new(io::ErrorKind::InvalidData, e)) +} + fn run_control(mut vm: Vm, control_sockets: Vec, mut resources: SystemAllocator, @@ -700,11 +738,34 @@ fn run_control(mut vm: Vm, -> Result<()> { const MAX_VM_FD_RECV: usize = 1; + // Paths to get the currently available memory and the low memory threshold. + const LOWMEM_MARGIN: &'static str = "/sys/kernel/mm/chromeos-low_mem/margin"; + const LOWMEM_AVAILABLE: &'static str = "/sys/kernel/mm/chromeos-low_mem/available"; + + // The amount of additional memory to claim back from the VM whenever the system is + // low on memory. + const ONE_GB: u64 = (1 << 30); + + let max_balloon_memory = match vm.get_memory().memory_size() { + // If the VM has at least 1.5 GB, the balloon driver can consume all but the last 1 GB. + n if n >= (ONE_GB / 2) * 3 => n - ONE_GB, + // Otherwise, if the VM has at least 500MB the balloon driver will consume at most + // half of it. + n if n >= (ONE_GB / 2) => n / 2, + // Otherwise, the VM is too small for us to take memory away from it. + _ => 0, + }; + let mut current_balloon_memory: u64 = 0; + let balloon_memory_increment: u64 = max_balloon_memory / 16; + #[derive(PollToken)] enum Token { Exit, Stdin, ChildSignal, + CheckAvailableMemory, + LowMemory, + LowmemTimer, VmControl { index: usize }, } @@ -724,6 +785,25 @@ fn run_control(mut vm: Vm, poll_ctx.add(socket.as_ref(), Token::VmControl{ index }).map_err(Error::PollContextAdd)?; } + // Watch for low memory notifications and take memory back from the VM. + let low_mem = File::open("/dev/chromeos-low-mem").map_err(Error::OpenLowMem)?; + poll_ctx.add(&low_mem, Token::LowMemory).map_err(Error::PollContextAdd)?; + + // Used to rate limit balloon requests. + let mut lowmem_timer = TimerFd::new().map_err(Error::CreateTimerFd)?; + poll_ctx.add(&lowmem_timer, Token::LowmemTimer).map_err(Error::PollContextAdd)?; + + // Used to check whether it's ok to start giving memory back to the VM. + let mut freemem_timer = TimerFd::new().map_err(Error::CreateTimerFd)?; + poll_ctx.add(&freemem_timer, Token::CheckAvailableMemory).map_err(Error::PollContextAdd)?; + + // Used to add jitter to timer values so that we don't have a thundering herd problem when + // multiple VMs are running. + let mut rng = thread_rng(); + let lowmem_jitter_ms = Range::new(0, 200); + let freemem_jitter_secs = Range::new(0, 12); + let interval_jitter_secs = Range::new(0, 6); + let mut scm = Scm::new(MAX_VM_FD_RECV); 'poll: loop { @@ -776,6 +856,68 @@ fn run_control(mut vm: Vm, break 'poll; } } + Token::CheckAvailableMemory => { + // Acknowledge the timer. + freemem_timer.wait().map_err(Error::TimerFd)?; + if current_balloon_memory == 0 { + // Nothing to see here. + if let Err(e) = freemem_timer.clear() { + warn!("unable to clear available memory check timer: {}", e); + } + continue; + } + + // Otherwise see if we can free up some memory. + let margin = file_to_u64(LOWMEM_MARGIN).map_err(Error::ReadLowmemMargin)?; + let available = file_to_u64(LOWMEM_AVAILABLE).map_err(Error::ReadLowmemAvailable)?; + + // `available` and `margin` are specified in MB while `balloon_memory_increment` is in + // bytes. So to correctly compare them we need to turn the increment value into MB. + if available >= margin + 2*(balloon_memory_increment >> 20) { + current_balloon_memory = if current_balloon_memory >= balloon_memory_increment { + current_balloon_memory - balloon_memory_increment + } else { + 0 + }; + let mut buf = [0u8; mem::size_of::()]; + LittleEndian::write_u64(&mut buf, current_balloon_memory); + if let Err(e) = balloon_host_socket.send(&buf) { + warn!("failed to send memory value to balloon device: {}", e); + } + } + } + Token::LowMemory => { + let old_balloon_memory = current_balloon_memory; + current_balloon_memory = min(current_balloon_memory + balloon_memory_increment, max_balloon_memory); + if current_balloon_memory != old_balloon_memory { + let mut buf = [0u8; mem::size_of::()]; + LittleEndian::write_u64(&mut buf, current_balloon_memory); + if let Err(e) = balloon_host_socket.send(&buf) { + warn!("failed to send memory value to balloon device: {}", e); + } + } + + // Stop polling the lowmem device until the timer fires. + poll_ctx.delete(&low_mem).map_err(Error::PollContextDelete)?; + + // Add some jitter to the timer so that if there are multiple VMs running they don't + // all start ballooning at exactly the same time. + let lowmem_dur = Duration::from_millis(1000 + lowmem_jitter_ms.ind_sample(&mut rng)); + lowmem_timer.reset(lowmem_dur, None).map_err(Error::ResetTimerFd)?; + + // Also start a timer to check when we can start giving memory back. Do the first check + // after a minute (with jitter) and subsequent checks after every 30 seconds (with jitter). + let freemem_dur = Duration::from_secs(60 + freemem_jitter_secs.ind_sample(&mut rng)); + let freemem_int = Duration::from_secs(30 + interval_jitter_secs.ind_sample(&mut rng)); + freemem_timer.reset(freemem_dur, Some(freemem_int)).map_err(Error::ResetTimerFd)?; + } + Token::LowmemTimer => { + // Acknowledge the timer. + lowmem_timer.wait().map_err(Error::TimerFd)?; + + // Start polling the lowmem device again. + poll_ctx.add(&low_mem, Token::LowMemory).map_err(Error::PollContextAdd)?; + } Token::VmControl { index } => { if let Some(socket) = control_sockets.get(index as usize) { match VmRequest::recv(&mut scm, socket.as_ref()) { @@ -811,6 +953,9 @@ fn run_control(mut vm: Vm, let _ = poll_ctx.delete(&stdin_handle); }, Token::ChildSignal => {}, + Token::CheckAvailableMemory => {}, + Token::LowMemory => {}, + Token::LowmemTimer => {}, Token::VmControl { index } => { if let Some(socket) = control_sockets.get(index as usize) { let _ = poll_ctx.delete(socket.as_ref()); -- cgit 1.4.1