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2014-04-01cpu: Fix case where o3 lsq could print out uninitialized dataMitch Hayenga
In the O3 LSQ, data read/written is printed out in DPRINTFs. However, the data field is treated as a character string with a null terminated. However the data field is not encoded this way. This patch removes that possibility by removing the data part of the print.
2014-04-23cpu: Add O3 CPU width checksDam Sunwoo
O3CPU has a compile-time maximum width set in o3/impl.hh, but checking the configuration against this limit was not implemented anywhere except for fetch. Configuring a wider pipe than the limit can silently cause various issues during the simulation. This patch adds the proper checking in the constructor of the various pipeline stages.
2014-04-19o3: Fix occupancy checks for SMTFaissal Sleiman
A number of calls to isEmpty() and numFreeEntries() should be thread-specific. In cpu.cc, the fact that tid is /*commented*/ out is a bug. Say the rob has instructions from thread 0 (isEmpty() returns false), and none from thread 1. If we are trying to squash all of thread 1, then readTailInst(thread 1) will be called because rob->isEmpty() returns false. The result is end_it is not in the list and the while statement loops indefinitely back over the cpu's instList. In iew_impl.hh, all threads are told they have the entire remaining IQ, when each thread actually has a certain allocation. The result is extra stalls at the iew dispatch stage which the rename stage usually takes care of. In commit_impl.hh, rob->readHeadInst(thread 1) can be called if the rob only contains instructions from thread 0. This returns a dummyInst (which may work since we are trying to squash all instructions, but hardly seems like the right way to do it). In rob_impl.hh this fix skips the rest of the function more frequently and is more efficient. Committed by: Nilay Vaish <nilay@cs.wisc.edu>
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.
2014-03-25cpu: o3: lsq: Fix TSO implementationMarco Elver
This patch fixes violation of TSO in the O3CPU, as all loads must be ordered with all other loads. In the LQ, if a snoop is observed, all subsequent loads need to be squashed if the system is TSO. Prior to this patch, the following case could be violated: P0 | P1 ; MOV [x],mail=/usr/spool/mail/nilay | MOV EAX,[y] ; MOV [y],mail=/usr/spool/mail/nilay | MOV EBX,[x] ; exists (1:EAX=1 /\ 1:EBX=0) [is a violation] The problem was found using litmus [http://diy.inria.fr]. Committed by: Nilay Vaish <nilay@cs.wisc.edu
2014-03-23cpu: DRAM Traffic GeneratorNeha Agarwal
This patch enables a new 'DRAM' mode to the existing traffic generator, catered to generate specific requests to DRAM based on required hit length (stride size) and bank utilization. It is an add on to the Random mode. The basic idea is to control how many successive packets target the same page, and how many banks are being used in parallel. This gives a two-dimensional space that stresses different aspects of the DRAM timing. The configuration file needed to use this patch has to be changed as follow: (reference to Random Mode, LPDDR3 memory type) 'STATE 0 10000000000 RANDOM 50 0 134217728 64 3004 5002 0' -> 'STATE 0 10000000000 DRAM 50 0 134217728 32 3004 5002 0 96 1024 8 6 1' The last 4 parameters to be added are: <stride size (bytes), page size(bytes), number of banks available in DRAM, number of banks to be utilized, address mapping scheme> The address mapping information is used to get the stride address stream of the specified size and to know where to find the bank bits. The configuration file has a parameter where '0'-> RoCoRaBaCh, '1'-> RoRaBaCoCh/RoRaBaChCo address-mapping schemes. Note that the generator currently assumes a single channel and a single rank. This is to avoid overwhelming the traffic generator with information about the memory organisation.
2014-03-23cpu: Add basic check to TrafficGen initial stateStan Czerniawski
Prevent incomplete configuration of TrafficGen class from causing segmentation faults. If an 'INIT' line is not present in the configuration file then the currState variable will remain uninitialized which may result in a crash.
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
2014-03-12alpha: Small removal of dead comments/code from alpha ISAPaul Rosenfeld
Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2014-03-07cpu: Make CPU and ThreadContext getters constAndreas Hansson
This patch merely tidies up the CPU and ThreadContext getters by making them const where appropriate.
2014-03-07scons: Fixes uninitialized warnings issued by clangMitch Hayenga
Small fixes to appease recent clang versions.
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().
2014-03-01cpu: Enable fast-forwarding for MIPS InOrderCPU and O3CPUChristopher Torng
A copyRegs() function is added to MIPS utilities to copy architectural state from the old CPU to the new CPU during fast-forwarding. This addition alone enables fast-forwarding for the o3 cpu model running MIPS. The patch also adds takeOverFrom() and drainResume() functions to the InOrderCPU to enable it to take over from another CPU. This change enables fast-forwarding for the inorder cpu model running MIPS, but not for Alpha. Committed by: Nilay Vaish <nilay@cs.wisc.edu>
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.
2014-02-09cpu: simple: Add support for using branch predictorsAndreas Sandberg
This changesets adds branch predictor support to the BaseSimpleCPU. The simple CPUs normally don't need a branch predictor, however, there are at least two cases where it can be desirable: 1) A simple CPU can be used to warm the branch predictor of an O3 CPU before switching to the slower O3 model. 2) The simple CPU can be used as a quick way of evaluating/debugging new branch predictors since it exposes branch predictor statistics. Limitations: * Since the simple CPU doesn't speculate, only one instruction will be active in the branch predictor at a time (i.e., the branch predictor will never see speculative branches). * The outcome of a branch prediction does not affect the performance of the simple CPU.
2014-01-29cpu: fix bug when TrafficGen deschedules eventXiangyu Dong
Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2014-01-24arm: Add support for ARMv8 (AArch64 & AArch32)ARM gem5 Developers
Note: AArch64 and AArch32 interworking is not supported. If you use an AArch64 kernel you are restricted to AArch64 user-mode binaries. This will be addressed in a later patch. Note: Virtualization is only supported in AArch32 mode. This will also be fixed in a later patch. Contributors: Giacomo Gabrielli (TrustZone, LPAE, system-level AArch64, AArch64 NEON, validation) Thomas Grocutt (AArch32 Virtualization, AArch64 FP, validation) Mbou Eyole (AArch64 NEON, validation) Ali Saidi (AArch64 Linux support, code integration, validation) Edmund Grimley-Evans (AArch64 FP) William Wang (AArch64 Linux support) Rene De Jong (AArch64 Linux support, performance opt.) Matt Horsnell (AArch64 MP, validation) Matt Evans (device models, code integration, validation) Chris Adeniyi-Jones (AArch64 syscall-emulation) Prakash Ramrakhyani (validation) Dam Sunwoo (validation) Chander Sudanthi (validation) Stephan Diestelhorst (validation) Andreas Hansson (code integration, performance opt.) Eric Van Hensbergen (performance opt.) Gabe Black
2014-01-24checker: CheckerCPU handling of MiscRegs was incorrectGeoffrey Blake
The CheckerCPU model in pre-v8 code was not checking the updates to miscellaneous registers due to some methods for setting misc regs were not instrumented. The v8 patches exposed this by calling the instrumented misc reg update methods and then invoking the checker before the main CPU had updated its misc regs, leading to false positives about register mismatches. This patch fixes the non-instrumented misc reg update methods and places calls to the checker in the proper places in the O3 model.
2014-01-24arch, cpu: Add support for flattening misc register indexes.Ali Saidi
With ARMv8 support the same misc register id results in accessing different registers depending on the current mode of the processor. This patch adds the same orthogonality to the misc register file as the others (int, float, cc). For all the othre ISAs this is currently a null-implementation. Additionally, a system variable is added to all the ISA objects.
2014-01-24cpu: Add support for Memory+Barrier instruction types in O3 cpu.Giacomo Gabrielli
2014-01-24cpu: Add support for instructions that zero cache lines.Ali Saidi
2014-01-24cpu: Add CPU support for generatig wake up events when LLSC adresses are ↵Ali Saidi
snooped. This patch add support for generating wake-up events in the CPU when an address that is currently in the exclusive state is hit by a snoop. This mechanism is required for ARMv8 multi-processor support.
2014-01-24mem: per-thread cache occupancy and per-block agesDam Sunwoo
This patch enables tracking of cache occupancy per thread along with ages (in buckets) per cache blocks. Cache occupancy stats are recalculated on each stat dump.
2014-01-24base: add support for probe points and common probesMatt Horsnell
The probe patch is motivated by the desire to move analytical and trace code away from functional code. This is achieved by the probe interface which is essentially a glorified observer model. What this means to users: * add a probe point and a "notify" call at the source of an "event" * add an isolated module, that is being used to carry out *your* analysis (e.g. generate a trace) * register that module as a probe listener Note: an example is given for reference in src/cpu/o3/simple_trace.[hh|cc] and src/cpu/SimpleTrace.py What is happening under the hood: * every SimObject maintains has a ProbeManager. * during initialization (src/python/m5/simulate.py) first regProbePoints and the regProbeListeners is called on each SimObject. this hooks up the probe point notify calls with the listeners. FAQs: Why did you develop probe points: * to remove trace, stats gathering, analytical code out of the functional code. * the belief that probes could be generically useful. What is a probe point: * a probe point is used to notify upon a given event (e.g. cpu commits an instruction) What is a probe listener: * a class that handles whatever the user wishes to do when they are notified about an event. What can be passed on notify: * probe points are templates, and so the user can generate probes that pass any type of argument (by const reference) to a listener. What relationships can be generated (1:1, 1:N, N:M etc): * there isn't a restriction. You can hook probe points and listeners up in a 1:1, 1:N, N:M relationship. They become useful when a number of modules listen to the same probe points. The idea being that you can add a small number of probes into the source code and develop a larger number of useful analysis modules that use information passed by the probes. Can you give examples: * adding a probe point to the cpu's commit method allows you to build a trace module (outputting assembler), you could re-use this to gather instruction distribution (arithmetic, load/store, conditional, control flow) stats. Why is the probe interface currently restricted to passing a const reference: * the desire, initially at least, is to allow an interface to observe functionality, but not to change functionality. * of course this can be subverted by const-casting. What is the performance impact of adding probes: * when nothing is actively listening to the probes they should have a relatively minor impact. Profiling has suggested even with a large number of probes (60) the impact of them (when not active) is very minimal (<1%).
2014-01-24mem: track per-request latencies and access depths in the cache hierarchyMatt Horsnell
Add some values and methods to the request object to track the translation and access latency for a request and which level of the cache hierarchy responded to the request.
2014-01-24cpu: Relax check on squashed non-speculative instructionsAndreas Hansson
This patch relaxes the check performed when squashing non-speculative instructions, as it caused problems with loads that were marked ready, and then stalled on a blocked cache. The assertion is now allowing memory references to be non-faulting.
2014-01-24cpu: remove faulty simpoint basic block inst count assertionDam Sunwoo
This patch removes an assertion in the simpoint profiling code that asserts that a previously-seen basic block has the exact same number of instructions executed as before. This can be false if the basic block generates aborts or takes interrupts at different locations within the basic block. The basic block profiling are not affected significantly as these events are rare in general.
2013-12-03cpu: call BaseCPU startup() function in o3 cpuNilay Vaish
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
2013-11-15cpu: allow the fetch buffer to be smaller than a cache lineAnthony Gutierrez
the current implementation of the fetch buffer in the o3 cpu is only allowed to be the size of a cache line. some architectures, e.g., ARM, have fetch buffers smaller than a cache line, see slide 22 at: http://www.arm.com/files/pdf/at-exploring_the_design_of_the_cortex-a15.pdf this patch allows the fetch buffer to be set to values smaller than a cache line.
2013-11-15cpu: Fix Checker register index useAndreas Hansson
This patch fixes an issue in the checker CPU register indexing. The code will not even compile using LTO as deep inlining causes the used index to be outside the array bounds.
2013-10-31cpu: Construct ROB with cpu params struct instead of each variableFaissal Sleiman
Most other structures/stages get passed the cpu params struct.
2013-10-31cpu: Fix O3 issuse with load+barrier instructions.Ali Saidi
Fix a problem in the O3 CPU for instructions that are both memory loads and memory barriers (e.g. load acquire) and to uncacheable memory. This combination can confuse the commit stage into commitng an instruction that hasn't executed and got it's value yet. At the same time refactor the code slightly to remove duplication between two of the cases.
2013-10-17cpu: add consistent guarding to *_impl.hh files.Matt Horsnell
2013-10-17cpu: Removing an unused variable in renameFaissal Sleiman
2013-10-17cpu: Change IEW DPRINTF to use IEW debug flagFaissal Sleiman
IEW DPRINTF uses Decode debug flag, which appears to be a copying error. This patch changes this to the IEW Debug flag.
2013-10-17cpu: Put in assertions to check for maximum supported LQ/SQ sizeFaissal Sleiman
LSQSenderState represents the LQ/SQ index using uint8_t, which supports up to 256 entries (including the sentinel entry). Sending packets to memory with a higher index than 255 truncates the index, such that the response matches the wrong entry. For instance, this can result in a deadlock if a store completion does not clear the head entry.
2013-10-17cpu: Fix O3 uncacheable load that is replayed but misses the TLBAli Saidi
This change fixes an issue in the O3 CPU where an uncachable instruction is attempted to be executed before it reaches the head of the ROB. It is determined to be uncacheable, and is replayed, but a PanicFault is attached to the instruction to make sure that it is properly executed before committing. If the TLB entry it was using is replaced in the interveaning time, the TLB returns a delayed translation when the load is replayed at the head of the ROB, however the LSQ code can't differntiate between the old fault and the new one. If the translation isn't complete it can't be faulting, so clear the fault.
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.
2013-10-15arch/x86: add support for explicit CC register fileYasuko Eckert
Convert condition code registers from being specialized ("pseudo") integer registers to using the recently added CC register class. Nilay Vaish also contributed to this patch.
2013-10-15cpu: add a condition-code register classYasuko Eckert
Add a third register class for condition codes, in parallel with the integer and FP classes. No ISAs use the CC class at this point though.
2013-10-15cpu/o3: clean up rename map and free listSteve Reinhardt
Restructured rename map and free list to clean up some extraneous code and separate out common code that can be reused across different register classes (int and fp at this point). Both components now consist of a set of Simple* objects that are stand-alone rename map & free list for each class, plus a Unified* object that presents a unified interface across all register classes and then redirects accesses to the appropriate Simple* object as needed. Moved free list initialization to PhysRegFile to better isolate knowledge of physical register index mappings to that class (and remove the need to pass a number of parameters to the free list constructor). Causes a small change to these stats: cpu.rename.int_rename_lookups cpu.rename.fp_rename_lookups because they are now categorized on a per-operand basis rather than a per-instruction basis. That is, an instruction with mixed fp/int/misc operand types will have each operand categorized independently, where previously the lookup was categorized based on the instruction type.
2013-10-15cpu: rename *_DepTag constants to *_Reg_BaseSteve Reinhardt
Make these names more meaningful. Specifically, made these substitutions: s/FP_Base_DepTag/FP_Reg_Base/g; s/Ctrl_Base_DepTag/Misc_Reg_Base/g; s/Max_DepTag/Max_Reg_Index/g;
2013-10-15cpu/o3: clean up scoreboard objectSteve Reinhardt
It had a bunch of fields (and associated constructor parameters) thet it didn't really use, and the array initialization was needlessly verbose. Also just hardwired the getReg() method to aleays return true for misc regs, rather than having an array of bits that we always kept marked as ready.
2013-10-15cpu/o3: clean up physical register fileSteve Reinhardt
No need for PhysRegFile to be a template class, or have a pointer back to the CPU. Also made some methods for checking the physical register type (int vs. float) based on the phys reg index, which will come in handy later.