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This patch adds support for reading input traces encoded using
protobuf according to what is done in the CommMonitor.
A follow-up patch adds a Python script that can be used to convert the
previously used ASCII traces to protobuf equivalents. The appropriate
regression input is updated as part of this patch.
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This patch encapsulates the traffic generator input in a stream class
such that the parsing is not visible to the trace generator. The
change takes us one step closer to using protobuf-based input traces
for the trace replay.
The functionality of the current input stream is identical to what it
was, and the ASCII format remains the same for now.
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This patch adds support for inputting protobuf messages through a
ProtoInputStream which hides the internal streams used by the
library. The stream is created based on the name of an input file and
optionally includes decompression using gzip.
The input stream will start by getting a magic number from the file,
and also verify that it matches with the expected value. Once opened,
messages can be read incrementally from the stream, returning
true/false until an error occurs or the end of the file is reached.
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This patch adds packet tracing to the communication monitor using a
protobuf as the mechanism for creating the trace.
If no file is specified, then the tracing is disabled. If a file is
specified, then for every packet that is successfully sent, a protobuf
message is serialized to the file.
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This patch adds support for outputting protobuf messages through a
ProtoOutputStream which hides the internal streams used by the
library. The stream is created based on the name of an output file and
optionally includes compression using gzip.
The output stream will start by putting a magic number in the file,
and then for every message that is serialized prepend the size such
that the stream can be written and read incrementally. At this point
this merely serves as a proof of concept.
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This patch enables the use of protobuf input files in the build
process, thus allowing .proto files to be added to input. Each .proto
file is compiled using the protoc tool and the newly created C++
source is added to the list of sources.
The first location where the protobufs will be used is in the
capturing and replay of memory traces, involving the communication
monitor and the trace-generator state of the traffic generator. This
will follow in the next patch.
This patch does add a dependency on the availability of the BSD
licensed protobuf library (and headers), and the protobuf compiler,
protoc. These dependencies are checked in the SConstruct, similar to
e.g. swig. The user can override the use of protoc from the PATH by
specifying the PROTOC environment variable.
Although the dependency on libprotobuf and protoc might seem like a
big step, they add significant value to the project going
forward. Execution traces and other types of traces could easily be
added and parsers for C++ and Python are automatically generated. We
could also envision using protobufs for the checkpoints, description
of the traffic-generator behaviour etc. The sky is the limit. We could
also use the GzipOutputStream from the protobuf library instead of the
current GPL gzstream.
Currently, only the C++ source and header is generated. Going forward
we might want to add the Python output to support simple command-line
tools for displaying and editing the traces.
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The PL111 model currently maintains a list of pre-allocated
DmaDoneEvents to prevent unnecessary heap allocations. This list
effectively works like a stack where the top element is the latest
scheduled event. When an event triggers, the top pointer is moved down
the stack. This obviously breaks since events usually retire from the
bottom (events don't necessarily have to retire in order), which
triggers the following assertion:
gem5.debug: build/ARM/dev/arm/pl111.cc:460: void Pl111::fillFifo(): \
Assertion `!dmaDoneEvent[dmaPendingNum-1].scheduled()' failed.
This changeset adds a vector listing the currently unused events. This
vector acts like a stack where the an element is popped off the stack
when a new event is needed an pushed on the stack when they trigger.
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This patch fixes the Pl111 timings by creating a separate clock for
the pixel timings. The device clock is used for all interactions with
the memory system, just like the AHB clock on the actual module.
The result without this patch is that the module only is allowed to
send one request every tick of the 24MHz clock which causes a huge
backlog.
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This patch fixes the computation that determines whether to perform a
read or a write such that the two corner cases (0 and 100) are both
more efficient and handled correctly.
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This patch adds a basic check to ensure that the packet queue does not
grow absurdly large. The queue should only be used to store packets
that were delayed due to blocking from the neighbouring port, and not
for actual storage. Thus, a limit of 100 has been chosen for now
(which is already quite substantial).
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This patch addresses a warning related to the swig interface
generation for the Switch class. The cxx_header is now specified
correctly, and the header in question has got a few includes added to
make it all compile.
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The platform has two KMI devices that are both setup to be keyboards. This
patch changes the second keyboard to a mouse. This patch will allow keyboard
input as usual and additionally provide mouse support.
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This patch fixes a bug that caused multiple systems to overwrite each
other physical memory. The system name is now included in the filename
such that this is avoided.
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This patch makes the values of ID_ISARx, MIDR, and FPSID configurable
as ISA parameter values. Additionally, setMiscReg now ignores writes
to all of the ID registers.
Note: This moves the MIDR parameter from ArmSystem to ArmISA for
consistency.
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The ISA class on stores the contents of ID registers on many
architectures. In order to make reset values of such registers
configurable, we make the class inherit from SimObject, which allows
us to use the normal generated parameter headers.
This patch introduces a Python helper method, BaseCPU.createThreads(),
which creates a set of ISAs for each of the threads in an SMT
system. Although it is currently only needed when creating
multi-threaded CPUs, it should always be called before instantiating
the system as this is an obvious place to configure ID registers
identifying a thread/CPU.
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This patch unlocks the cpu-local monitor when the CPU sees a snoop to a locked
address. Previously we relied on the cache to handle the locking for us, however
some users on the gem5 mailing list reported a case where the cpu speculatively
executes a ll operation after a pending sc operation in the pipeline and that
makes the cache monitor valid. This should handle that case by invaliding the
local monitor.
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isSyscall was originally created because during handling of a syscall in SE
mode the threadcontext had to be updated. However, in many places this is used
in FS mode (e.g. fault handlers) and the name doesn't make much sense. The
boolean actually stops gem5 from squashing speculative and non-committed state
when a write to a threadcontext happens, so re-name the variable to something
more appropriate
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This interface is no longer used, and getting rid of it simplifies the
decoders and code that sets up the decoders. The thread context had been used
to read architectural state which was used to contextualize the instruction
memory as it came in. That was changed so that the state is now sent to the
decoders to keep locally if/when it changes. That's significantly more
efficient.
Committed by: Nilay Vaish <nilay@cs.wisc.edu>
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The predecoder in x86 does a lot of work, most of which can be skipped if the
decoder cache is put in front of it.
Committed by: Nilay Vaish <nilay@cs.wisc.edu>
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Committed by: Nilay Vaish <nilay@cs.wisc.edu>
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Avoid reading them every instruction, and also eliminate the last use of the
thread context in the decoders.
Committed by: Nilay Vaish <nilay@cs.wisc.edu>
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This patch implements the fnstsw instruction. The code was originally written
by Vince Weaver. Gabe had made some comments about the code, but those were
never addressed. This patch addresses those comments.
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This patch implements the fsincos instruction. The code was originally written
by Vince Weaver. Gabe had made some comments about the code, but those were
never addressed. This patch addresses those comments.
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uopSet_uop is microop instruction that has the IsControl flags set, but the
IsCondControl or IsUncondControl flags seems not to be set, neither in
the construction nor where the microop is used. This patch adds the the
flags in the constructor of the instruction (MicroUopSetPCCPSR).
Committed by: Nilay Vaish <nilay@cs.wisc.edu>
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A flag was missing for the movret_uop microop instruction. This patch adds
that flag when the instruction is used, not directly in the constructor of
the instruction.
Committed by: Nilay Vaish <nilay@cs.wisc.edu>
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The directed tester supports only generating only read or only write accesses. The
patch modifies the tester to support streams that have both read and write accesses.
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The patch adds support to slicc for recognizing arguments that should be
passed to the constructor of a class. I did not like the fact that an explicit
check was being carried on the type 'TBETable' to figure out the arguments to
be passed to the constructor.
The patch also moves some of the member variables that are declared for all
the controllers to the base class AbstractController.
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This patch adds a prefetcher for the ruby memory system. The prefetcher
is based on a prefetcher implemented by others (well, I don't know
who wrote the original). The prefetcher does stride-based prefetching,
both unit and non-unit. It obseves the misses in the cache and trains on
these. After the training period is over, the prefetcher starts issuing
prefetch requests to the controller.
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globalHistoryBits, globalPredictorSize, and choicePredictorSize are decoupled.
globalHistoryBits controls how much history is kept, global and choice
predictor sizes control how much of that history is used when accessing
predictor tables. This way, global and choice predictors can actually be
different sizes, and it is no longer possible to walk off the predictor arrays
and cause a seg fault.
There are now individual thresholds for choice, global, and local saturating
counters, so that taken/not taken decisions are correct even when the
predictors' counters' sizes are different.
The interface for localPredictorSize has been removed from TournamentBP because
the value can be calculated from localHistoryBits.
Committed by: Nilay Vaish <nilay@cs.wisc.edu>
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Committed by: Nilay Vaish <nilay@cs.wisc.edu>
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Committed by: Nilay Vaish <nilay@cs.wisc.edu>
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This patch adds a _curTick variable to an eventq. This variable is updated
whenever an event is serviced in function serviceOne(), or all events upto
a particular time are processed in function serviceEvents(). This change
helps when there are eventqs that do not make use of curTick for scheduling
events.
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Recent changes to functionalRead() in the memory system was not correct.
The change allowed for returning data from the first message found in
the buffers of the memory system. This is not correct since it is possible
that a timing message has data from an older state of the block.
The changes are being reverted.
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This patch fixes the draining of the SimpleDRAM controller model. The
controller performs buffering of writes and normally there is no need
to ever empty the write buffer (if you have a fast on-chip memory,
then use it). The patch adds checks to ensure the write buffer is
drained when the controller is asked to do so.
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This patch adds support to ruby so that the statistics maintained by ruby
are reset/dumped when the statistics for the rest of the system are
reset/dumped. For resetting the statistics, ruby now provides the
resetStats() function that a sim object can provide. As a consequence, the
clearStats() function has been removed from RubySystem. For dumping stats,
Ruby now adds a callback event to the dumpStatsQueue. The exit callback that
ruby used to add earlier is being removed.
Created by: Hamid Reza Khaleghzadeh.
Improved by: Lluc Alvarez, Nilay Vaish
Committed by: Nilay Vaish
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This patch adds support for the following optional drain methods in
the classical memory system's cache model:
memWriteback() - Write back all dirty cache lines to memory using
functional accesses.
memInvalidate() - Invalidate all cache lines. Dirty cache lines
are lost unless a writeback is requested.
Since memWriteback() is called when checkpointing systems, this patch
adds support for checkpointing systems with caches. The serialization
code now checks whether there are any dirty lines in the cache. If
there are dirty lines in the cache, the checkpoint is flagged as bad
and a warning is printed.
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This patch adds the following two methods to the Drainable base class:
memWriteback() - Write back all dirty cache lines to memory using
functional accesses.
memInvalidate() - Invalidate memory system buffers. Dirty data
won't be written back.
Specifying calling memWriteback() after draining will allow us to
checkpoint systems with caches. memInvalidate() can be used to drop
memory system buffers in preparation for switching to an accelerated
CPU model that bypasses the gem5 memory system (e.g., hardware
virtualized CPUs).
Note: This patch only adds the methods to Drainable, the code for
flushing the TLB and the cache is committed separately.
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This changeset adds a SWIG interface for the Serializable class, which
fixes a warning when compiling the SWIG interface for the event
queue. Currently, the only method exported is the name() method.
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There is no point in exporting the old drain() method in
Simulate.py. It should only be used internally by doDrain(). This
patch moves the old drain() method into doDrain() and renames
doDrain() to drain().
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changeToAtomic and changeToTiming both do essentially the same thing,
they check the type of their input argument, drain the system, and
switch to the desired memory mode. This patch moves all of that code
to a separate method (changeMemoryMode) and calls that from both
changeToAtomic and changeToTiming.
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This patch moves the draining interface from SimObject to a separate
class that can be used by any object needing draining. However,
objects not visible to the Python code (i.e., objects not deriving
from SimObject) still depend on their parents informing them when to
drain. This patch also gets rid of the CountedDrainEvent (which isn't
really an event) and replaces it with a DrainManager.
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SWIG needs a complete declaration of all wrapped objects. This patch
adds a header file with the DerivO3CPU class and includes it in the
SWIG interface.
--HG--
rename : src/cpu/o3/cpu_builder.cc => src/cpu/o3/deriv.cc
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In order to create reliable SWIG wrappers, we need to include the
declaration of the wrapped class in the SWIG file. Previously, we
didn't expose the declaration of checker CPUs. This patch adds header
files for such CPUs and include them in the SWIG wrapper.
--HG--
rename : src/cpu/dummy_checker_builder.cc => src/cpu/dummy_checker.cc
rename : src/cpu/o3/checker_builder.cc => src/cpu/o3/checker.cc
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The Python wrappers and the C++ should have the same object
structure. If this is not the case, bad things will happen when the
SWIG wrappers cast between an object and any of its base classes. This
was not the case for NSGigE and Sinic devices. This patch makes NSGigE
and Sinic inherit from the new EtherDevBase class, which in turn
inherits from EtherDevice. As a bonus, this removes some duplicated
statistics from the Sinic device.
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When casting objects in the generated SWIG interfaces, SWIG uses
classical C-style casts ( (Foo *)bar; ). In some cases, this can
degenerate into the equivalent of a reinterpret_cast (mainly if only a
forward declaration of the type is available). This usually works for
most compilers, but it is known to break if multiple inheritance is
used anywhere in the object hierarchy.
This patch introduces the cxx_header attribute to Python SimObject
definitions, which should be used to specify a header to include in
the SWIG interface. The header should include the declaration of the
wrapped object. We currently don't enforce header the use of the
header attribute, but a warning will be generated for objects that do
not use it.
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