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path: root/src/cpu/kvm
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2014-11-23kvm, x86: Adding support for SE mode executionAlexandru Dutu
This patch adds methods in KvmCPU model to handle KVM exits caused by syscall instructions and page faults. These types of exits will be encountered if KvmCPU is run in SE mode.
2014-09-20alpha,arm,mips,power,x86,cpu,sim: Cleanup activate/deactivateMitch Hayenga
activate(), suspend(), and halt() used on thread contexts had an optional delay parameter. However this parameter was often ignored. Also, when used, the delay was seemily arbitrarily set to 0 or 1 cycle (no other delays were ever specified). This patch removes the delay parameter and 'Events' associated with them across all ISAs and cores. Unused activate logic is also removed.
2014-04-09kvm, x86: Add initial support for multicore simulationAndreas Sandberg
Simulating a SMP or multicore requires devices to be shared between multiple KVM vCPUs. This means that locking is required when accessing devices. This changeset adds the necessary locking to allow devices to execute correctly. It is implemented by temporarily migrating the KVM CPU to the VM's (and devices) event queue when handling MMIO. Similarly, the VM migrates to the interrupt controller's event queue when delivering an interrupt. The support for fast-forwarding of multicore simulations added by this changeset assumes that all devices in a system are simulated in the same thread and each vCPU has its own thread. Special care must be taken to ensure that devices living under the CPU in the object hierarchy (e.g., the interrupt controller) do not inherit the parent CPUs thread and are assigned to device thread. The KvmVM object is assumed to live in the same thread as the other devices in the system.
2014-03-16kvm: Clean up signal handlingAndreas Sandberg
KVM used to use two signals, one for instruction count exits and one for timer exits. There is really no need to distinguish between the two since they only trigger exits from KVM. This changeset unifies and renames the signals and adds a method, kick(), that can be used to raise the control signal in the vCPU thread. It also removes the early timer warning since we do not normally see if the signal was delivered. --HG-- extra : rebase_source : cd0e45ca90894c3d6f6aa115b9b06a1d8f0fda4d
2014-03-16kvm: x86: Adjust PC to remove the CS segment base addressAndreas Sandberg
gem5 seems to store the PC as RIP+CS_BASE. This is not what KVM expects, so we need to subtract CS_BASE prior to transferring the PC into KVM. This changeset adds the necessary PC manipulation and refactors thread context updates slightly to avoid reading registers multiple times from KVM. --HG-- extra : rebase_source : 3f0569dca06a1fcd8694925f75c8918d954ada44
2014-03-16kvm: x86: Add support for x86 INIT and STARTUP handlingAndreas Sandberg
This changeset adds support for INIT and STARTUP IPI handling. We currently handle both of these interrupts in gem5 and transfer the state to KVM. Since we do not have a BIOS loaded, we pretend that the INIT interrupt suspends the CPU after reset. --HG-- extra : rebase_source : 7f3b25f3801d68f668b6cd91eaf50d6f48ee2a6a
2014-03-03kvm: x86: Always assume segments to be usableAndreas Sandberg
When transferring segment registers into kvm, we need to find the value of the unusable bit. We used to assume that this could be inferred from the selector since segments are generally unusable if their selector is 0. This assumption breaks in some weird corner cases. Instead, we just assume that segments are always usable. This is what qemu does so it should work.
2014-03-03kvm: Initialize signal handlers from startupThread()Andreas Sandberg
Signal handlers in KVM are controlled per thread and should be initialized from the thread that is going to execute the CPU. This changeset moves the initialization call from startup() to startupThread().
2014-02-20kvm: Add support for multi-system simulationAndreas Sandberg
The introduction of parallel event queues added most of the support needed to run multiple VMs (systems) within the same gem5 instance. This changeset fixes up signal delivery so that KVM's control signals are delivered to the thread that executes the CPU's event queue. Specifically: * Timers and counters are now initialized from a separate method (startupThread) that is scheduled as the first event in the thread-specific event queue. This ensures that they are initialized from the thread that is going to execute the CPUs event queue and enables signal delivery to the right thread when exiting from KVM. * The POSIX-timer-based KVM timer (used to force exits from KVM) has been updated to deliver signals to the thread that's executing KVM instead of the process (thread is undefined in that case). This assumes that the timer is instantiated from the thread that is going to execute the KVM vCPU. * Signal masking is now done using pthread_sigmask instead of sigprocmask. The behavior of the latter is undefined in threaded applications. * Since signal masks can be inherited, make sure to actively unmask the control signals when setting up the KVM signal mask. There are currently no facilities to multiplex between multiple KVM CPUs in the same event queue, we are therefore limited to configurations where there is only one KVM CPU per event queue. In practice, this means that multi-system configurations can be simulated, but not multiple CPUs in a shared-memory configuration.
2013-10-15kvm: Set the perf exclude_host attribute if availableAndreas Sandberg
The performance counting framework in Linux 3.2 and onwards supports an attribute to exclude events generated by the host when running KVM. Setting this attribute allows us to get more reliable measurements of the guest machine. For example, on a highly loaded system, the instruction counts from the guest can be severely distorted by the host kernel (e.g., by page fault handlers). This changeset introduces a check for the attribute and enables it in the KVM CPU if present.
2013-11-26kvm: Remove the unused hostFreq member from BaseKvmCPUAndreas Sandberg
2013-11-25sim: simulate with multiple threads and event queuesSteve Reinhardt ext:(%2C%20Nilay%20Vaish%20%3Cnilay%40cs.wisc.edu%3E%2C%20Ali%20Saidi%20%3CAli.Saidi%40ARM.com%3E)
This patch adds support for simulating with multiple threads, each of which operates on an event queue. Each sim object specifies which eventq is would like to be on. A custom barrier implementation is being added using which eventqs synchronize. The patch was tested in two different configurations: 1. ruby_network_test.py: in this simulation L1 cache controllers receive requests from the cpu. The requests are replied to immediately without any communication taking place with any other level. 2. twosys-tsunami-simple-atomic: this configuration simulates a client-server system which are connected by an ethernet link. We still lack the ability to communicate using message buffers or ports. But other things like simulation start and end, synchronizing after every quantum are working. Committed by: Nilay Vaish
2013-10-16kvm: Fix latency calculation of IPR accessesAndreas Sandberg
When handling IPR accesses in doMMIOAccess, the KVM CPU used clockEdge() to convert between cycles and ticks. This is incorrect since doMMIOAccess is supposed to return a latency in ticks rather than when the access is done. This changeset fixes this issue by returning clockPeriod() * ipr_delay instead.
2013-10-03kvm: Service events in the instruction event queuesAndreas Sandberg
This changset adds calls to the service the instruction event queues that accidentally went missing from commit [0063c7dd18ec]. The original commit only included the code needed to schedule instruction stops from KVM and missed the functionality to actually service the events.
2013-09-30kvm: Add support for thread-specific instruction eventsAndreas Sandberg
Instruction events are currently ignored when executing in KVM. This changeset adds support for triggering KVM exits based on instruction counts using hardware performance counters. Depending on the underlying performance counter implementation, there might be some inaccuracies due to instructions being counted in the host kernel when entering/exiting KVM. Due to limitations/bugs in Linux's performance counter interface, we can't reliably change the period of an overflow counter. We work around this issue by detaching and reattaching the counter if we need to reconfigure it.
2013-09-30kvm: FPU synchronization support on x86Andreas Sandberg
This changeset adds support for synchronizing the FPU and SIMD state of a virtual x86 CPU with gem5. It supports both the XSave API and the KVM_(GET|SET)_FPU kernel API. The XSave interface can be disabled using the useXSave parameter (in case of kernel issues). Unfortunately, KVM_(GET|SET)_FPU interface seems to be buggy in some kernels (specifically, the MXCSR register isn't always synchronized), which means that it might not be possible to synchronize MXCSR on old kernels without the XSave interface. This changeset depends on the __float80 type in gcc and might not build using llvm.
2013-09-30kvm: x86: Fix segment registers to make them VMX compatibleAndreas Sandberg
There are cases when the segment registers in gem5 are not compatible with VMX. This changeset works around all known such issues. Specifically: * The accessed bits in CS, SS, DD, ES, FS, GS are forced to 1. * The busy bit in TR is forced to 1. * The protection level of SS is forced to the same protection level as CS. The difference /seems/ to be caused by a bug in gem5's x86 implementation.
2013-09-25kvm: Add x86 segment register verification to help debuggingAndreas Sandberg
2013-09-25kvm: Initial x86 supportAndreas Sandberg
This changeset adds support for KVM on x86. Full support is split across a number of commits since some features are relatively complex. This changeset includes support for: * Integer state synchronization (including segment regs) * CPUID (gem5's CPUID values are inserted into KVM) * x86 legacy IO (remapped and handled by gem5's memory system) * Memory mapped IO * PCI * MSRs * State dumping Most of the functionality is fairly straight forward. There are some quirks to support PCI enumerations since this is done in the TLB(!) in the simulated CPUs. We currently replicate some of that code. Unlike the ARM implementation, the x86 implementation of the virtual CPU does not use the cycles hardware counter. KVM on x86 simulates the time stamp counter (TSC) in the kernel. If we just measure host cycles using perfevent, we might end up measuring a slightly different number of cycles. If we don't get the cycle accounting right, we might end up rewinding the TSC, with all kinds of chaos as a result. An additional feature of the KVM CPU on x86 is extended state dumping. This enables Python scripts controlling the simulator to request dumping of a subset of the processor state. The following methods are currenlty supported: * dumpFpuRegs * dumpIntRegs * dumpSpecRegs * dumpDebugRegs * dumpXCRs * dumpXSave * dumpVCpuEvents * dumpMSRs Known limitations: * M5 ops are currently not supported. * FPU synchronization is not supported (only affects CPU switching). Both of the limitations will be addressed in separate commits.
2013-09-19kvm: Correctly handle the return value from handleIpr(Read|Write)Andreas Sandberg
The KVM base class incorrectly assumed that handleIprRead and handleIprWrite both return ticks. This is not the case, instead they return cycles. This changeset converts the returned cycles to ticks when handling IPR accesses.
2013-09-19kvm: Fix a case where the run timers weren't armed properlyAndreas Sandberg
There is a possibility that the timespec used to arm a timer becomes zero if the number of ticks used when arming a timer is close to the resolution of the timer. Due to the semantics of POSIX timers, this actually disarms the timer. This changeset fixes this issue by eliminating the rounding error (we always round away from zero now). It also reuses the minimum number of cycles, which were previously only used for cycle-based timers, to calculate a more useful resolution.
2013-06-18kvm: Use the address finalization code in the TLBAndreas Sandberg
Reuse the address finalization code in the TLB instead of replicating it when handling MMIO. This patch also adds support for injecting memory mapped IPR requests into the memory system.
2013-06-11kvm: Add more VM statsAndreas Sandberg
This changeset adds the following stats to KVM: * numVMHalfEntries: Number of entries into KVM to finalize pending IO operations without executing guest instructions. These typically happen as a result of a drain where the guest must finalize some operations before the guest state is consistent. * numExitSignal: Number of VM exits that have been triggered by a signal. These usually happen as a result of the timer that limits the time spent in KVM.
2013-06-11kvm: Separate host frequency from simulated CPU frequencyAndreas Sandberg
We used to use the KVM CPU's clock to specify the host frequency. This was not ideal for several reasons. One of them being that the clock parameter of a CPU determines the frequency of some of the components connected to the CPU. This changeset adds a separate hostFreq parameter that should be used to specify the host frequency until we add code to autodetect it. The hostFactor should still be used to specify the conversion factor between the host performance and that of the simulated system.
2013-06-11kvm: Don't handle IO and execute in the same tickAndreas Sandberg
We currently execute instructions in the guest and then handle any IO request right after we break out of the virtualized environment. This has the effect of executing IO requests in the exact same tick as the first instruction in the sequence that was just run. There seem to be cases where this simplification upsets some timing-sensitive devices. This changeset splits execute and IO (and other services) across multiple ticks. This is implemented by adding a separate RunningService state to the CPU state machine. When a VM requires service, it enters into this state and pending IO is then serviced in the future instead of immediately. The delay between getting the request and servicing it depends on the number of cycles executed in the guest, which allows other components to catch up with the CPU.
2013-06-11kvm: Maintain a local instruction counter and update totalNumInstsAndreas Sandberg
Update the system's totalNumInst counter when exiting from KVM and maintain an internal absolute instruction count instead of relying on the one from perf.
2013-06-03kvm: Allow architectures to override the cycle accounting mechanismAndreas Sandberg
Some architectures have special registers in the guest that can be used to do cycle accounting. This is generally preferrable since the prevents the guest from seeing a non-monotonic clock. This changeset adds a virtual method, getHostCycles(), that the architecture-specific code can override to implement this functionallity. The default implementation uses the hwCycles counter.
2013-06-03kvm: Add handling of EAGAIN when creating timersAndreas Sandberg
timer_create can apparently return -1 and set errno to EAGAIN if the kernel suffered a temporary failure when allocating a timer. This happens from time to time, so we need to handle it.
2013-06-03kvm: Add a call to thread->startup() in startup()Andreas Sandberg
It is now required to initialize the thread context by calling startup() on it. Failing to do so currently causes decoder in x86-based CPUs to get very confused when restoring from checkpoints.
2013-05-14kvm: Add support for disabling coalesced MMIOAndreas Sandberg
Add the option useCoalescedMMIO to the BaseKvmCPU. The default behavior is to disable coalesced MMIO since this hasn't been heavily tested.
2013-05-14kvm: Dump state before panic in KVM exit handlersAndreas Sandberg
2013-05-14kvm: Fix the memory interface used by KVMAndreas Sandberg
The CpuPort class was removed before the KVM patches were committed, which means that the KVM interface currently doesn't compile. This changeset adds the BaseKvmCPU::KVMCpuPort class which derives from MasterPort. This class is used on the data and instruction ports instead of the old CpuPort.
2013-05-02kvm: Add a stat counting number of instructions executedAndreas Sandberg
This changeset adds a 'numInsts' stat to the KVM-based CPU. It also cleans up the variable names in kvmRun to make the distinction between host cycles and estimated simulated cycles clearer. As a bonus feature, it also fixes a warning (unreferenced variable) when compiling in fast mode.
2013-05-02kvm: Add checkpoint debug printAndreas Sandberg
Add a debug print (when the Checkpoint debug flag is set) on serialize and unserialize. Additionally, dump the KVM state before serializing. The KVM state isn't dumped after unserializing since the state is loaded lazily on the next KVM entry.
2013-05-02kvm: Make MMIO requests uncacheableAndreas Sandberg
Device accesses are normally uncacheable. This change probably doesn't make any difference since we normally disable caching when KVM is active. However, there might be devices that check this, so we'd better enable this flag to be safe.
2013-04-22kvm: Add support for pseudo-ops on ARMAndreas Sandberg
This changeset adds support for m5 pseudo-ops when running in kvm-mode. Unfortunately, we can't trap the normal gem5 co-processor entry in KVM (it doesn't seem to be possible to trap accesses to non-existing co-processors). We therefore use BZJ instructions to cause a trap from virtualized mode into gem5. The BZJ instruction is becomes a normal branch to the gem5 fallback code when running in simulated mode, which means that this patch does not need to change the ARM ISA-specific code. Note: This requires a patched host kernel.
2013-04-22kvm: Add support for state dumping on ARMAndreas Sandberg
2013-04-22kvm: Add basic support for ARMAndreas Sandberg
Architecture specific limitations: * LPAE is currently not supported by gem5. We therefore panic if LPAE is enabled when returning to gem5. * The co-processor based interface to the architected timer is unsupported. We can't support this due to limitations in the KVM API on ARM. * M5 ops are currently not supported. This requires either a kernel hack or a memory mapped device that handles the guest<->m5 interface.
2013-04-22kvm: Add experimental support for a perf-based execution timerAndreas Sandberg
Add support for using the CPU cycle counter instead of a normal POSIX timer to generate timed exits to gem5. This should, in theory, provide better resolution when requesting timer signals. The perf-based timer requires a fairly recent kernel since it requires a working PERF_EVENT_IOC_PERIOD ioctl. This ioctl has existed in the kernel for a long time, but it used to be completely broken due to an inverted match when the kernel copied things from user space. Additionally, the ioctl does not change the sample period correctly on all kernel versions which implement it. It is currently only known to work reliably on kernel version 3.7 and above on ARM.
2013-04-22kvm: Avoid synchronizing the TC on every KVM exitAndreas Sandberg
Reduce the number of KVM->TC synchronizations by overloading the getContext() method and only request an update when the TC is requested as opposed to every time KVM returns to gem5.
2013-04-22kvm: Basic support for hardware virtualized CPUsAndreas Sandberg
This changeset introduces the architecture independent parts required to support KVM-accelerated CPUs. It introduces two new simulation objects: KvmVM -- The KVM VM is a component shared between all CPUs in a shared memory domain. It is typically instantiated as a child of the system object in the simulation hierarchy. It provides access to KVM VM specific interfaces. BaseKvmCPU -- Abstract base class for all KVM-based CPUs. Architecture dependent CPU implementations inherit from this class and implement the following methods: * updateKvmState() -- Update the architecture-dependent KVM state from the gem5 thread context associated with the CPU. * updateThreadContext() -- Update the thread context from the architecture-dependent KVM state. * dump() -- Dump the KVM state using (optional). In order to deliver interrupts to the guest, CPU implementations typically override the tick() method and check for, and deliver, interrupts prior to entering KVM. Hardware-virutalized CPU currently have the following limitations: * SE mode is not supported. * PC events are not supported. * Timing statistics are currently very limited. The current approach simply scales the host cycles with a user-configurable factor. * The simulated system must not contain any caches. * Since cycle counts are approximate, there is no way to request an exact number of cycles (or instructions) to be executed by the CPU. * Hardware virtualized CPUs and gem5 CPUs must not execute at the same time in the same simulator instance. * Only single-CPU systems can be simulated. * Remote GDB connections to the guest system are not supported. Additionally, m5ops requires an architecture specific interface and might not be supported.