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155 lines
6.2 KiB
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================
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RAPL MSR support
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================
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The RAPL interface (Running Average Power Limit) is advertising the accumulated
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energy consumption of various power domains (e.g. CPU packages, DRAM, etc.).
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The consumption is reported via MSRs (model specific registers) like
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MSR_PKG_ENERGY_STATUS for the CPU package power domain. These MSRs are 64 bits
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registers that represent the accumulated energy consumption in micro Joules.
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Thanks to KVM's `MSR filtering <msr-filter-patch_>`__ functionality,
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not all MSRs are handled by KVM. Some of them can now be handled by the
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userspace (QEMU); a list of MSRs is given at VM creation time to KVM, and
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a userspace exit occurs when they are accessed.
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.. _msr-filter-patch: https://patchwork.kernel.org/project/kvm/patch/20200916202951.23760-7-graf@amazon.com/
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At the moment the following MSRs are involved:
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.. code:: C
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#define MSR_RAPL_POWER_UNIT 0x00000606
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#define MSR_PKG_POWER_LIMIT 0x00000610
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#define MSR_PKG_ENERGY_STATUS 0x00000611
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#define MSR_PKG_POWER_INFO 0x00000614
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The ``*_POWER_UNIT``, ``*_POWER_LIMIT``, ``*_POWER INFO`` are part of the RAPL
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spec and specify the power limit of the package, provide range of parameter(min
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power, max power,..) and also the information of the multiplier for the energy
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counter to calculate the power. Those MSRs are populated once at the beginning
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by reading the host CPU MSRs and are given back to the guest 1:1 when
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requested.
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The MSR_PKG_ENERGY_STATUS is a counter; it represents the total amount of
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energy consumed since the last time the register was cleared. If you multiply
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it with the UNIT provided above you'll get the power in micro-joules. This
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counter is always increasing and it increases more or less faster depending on
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the consumption of the package. This counter is supposed to overflow at some
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point.
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Each core belonging to the same Package reading the MSR_PKG_ENERGY_STATUS (i.e
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"rdmsr 0x611") will retrieve the same value. The value represents the energy
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for the whole package. Whatever Core reading it will get the same value and a
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core that belongs to PKG-0 will not be able to get the value of PKG-1 and
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vice-versa.
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High level implementation
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-------------------------
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In order to update the value of the virtual MSR, a QEMU thread is created.
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The thread is basically just an infinity loop that does:
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1. Snapshot of the time metrics of all QEMU threads (Time spent scheduled in
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Userspace and System)
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2. Snapshot of the actual MSR_PKG_ENERGY_STATUS counter of all packages where
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the QEMU threads are running on.
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3. Sleep for 1 second - During this pause the vcpu and other non-vcpu threads
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will do what they have to do and so the energy counter will increase.
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4. Repeat 2. and 3. and calculate the delta of every metrics representing the
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time spent scheduled for each QEMU thread *and* the energy spent by the
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packages during the pause.
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5. Filter the vcpu threads and the non-vcpu threads.
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6. Retrieve the topology of the Virtual Machine. This helps identify which
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vCPU is running on which virtual package.
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7. The total energy spent by the non-vcpu threads is divided by the number
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of vcpu threads so that each vcpu thread will get an equal part of the
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energy spent by the QEMU workers.
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8. Calculate the ratio of energy spent per vcpu threads.
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9. Calculate the energy for each virtual package.
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10. The virtual MSRs are updated for each virtual package. Each vCPU that
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belongs to the same package will return the same value when accessing the
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the MSR.
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11. Loop back to 1.
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Ratio calculation
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-----------------
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In Linux, a process has an execution time associated with it. The scheduler is
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dividing the time in clock ticks. The number of clock ticks per second can be
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found by the sysconf system call. A typical value of clock ticks per second is
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100. So a core can run a process at the maximum of 100 ticks per second. If a
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package has 4 cores, 400 ticks maximum can be scheduled on all the cores
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of the package for a period of 1 second.
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`/proc/[pid]/stat <stat_>`__ is a procfs file that can give the executed
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time of a process with the [pid] as the process ID. It gives the amount
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of ticks the process has been scheduled in userspace (utime) and kernel
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space (stime).
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.. _stat: https://man7.org/linux/man-pages/man5/proc.5.html
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By reading those metrics for a thread, one can calculate the ratio of time the
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package has spent executing the thread.
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Example:
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A 4 cores package can schedule a maximum of 400 ticks per second with 100 ticks
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per second per core. If a thread was scheduled for 100 ticks between a second
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on this package, that means my thread has been scheduled for 1/4 of the whole
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package. With that, the calculation of the energy spent by the thread on this
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package during this whole second is 1/4 of the total energy spent by the
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package.
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Usage
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-----
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Currently this feature is only working on an Intel CPU that has the RAPL driver
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mounted and available in the sysfs. if not, QEMU fails at start-up.
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This feature is activated with -accel
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kvm,rapl=true,rapl-helper-socket=/path/sock.sock
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It is important that the socket path is the same as the one
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:program:`qemu-vmsr-helper` is listening to.
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qemu-vmsr-helper
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----------------
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The qemu-vmsr-helper is working very much like the qemu-pr-helper. Instead of
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making persistent reservation, qemu-vmsr-helper is here to overcome the
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CVE-2020-8694 which remove user access to the rapl msr attributes.
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A socket communication is established between QEMU processes that has the RAPL
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MSR support activated and the qemu-vmsr-helper. A systemd service and socket
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activation is provided in contrib/systemd/qemu-vmsr-helper.(service/socket).
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The systemd socket uses 600, like contrib/systemd/qemu-pr-helper.socket. The
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socket can be passed via SCM_RIGHTS by libvirt, or its permissions can be
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changed (e.g. 660 and root:kvm for a Debian system for example). Libvirt could
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also start a separate helper if needed. All in all, the policy is left to the
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user.
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See the qemu-pr-helper documentation or manpage for further details.
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Current Limitations
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-------------------
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- Works only on Intel host CPUs because AMD CPUs are using different MSR
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addresses.
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- Only the Package Power-Plane (MSR_PKG_ENERGY_STATUS) is reported at the
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moment.
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