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Memory access tracing QEMU

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mtrace is a version of QEMU modified to log memory accesses and other system events to help analyze and understand the memory access patterns and cache line behavior of operating system-level code.

mtrace includes mscan (in mtrace-tools/), which processes these log files and implements a suite of analyses.

N.B.: Don't confuse QEMU's 'trace' features with mtrace.

Dependencies

mscan depends on libelfin, which can be found at

git clone https://github.com/aclements/libelfin.git

We recommend cloning and building libelfin next to the mtrace repository, as mtrace will find it automatically. Alternatively, you can make install libelfin to install it system-wide.

Building

Building mtrace is just like building QEMU. We recommend a minimal configuration, optimized for testing OS code:

./configure --prefix=PREFIX \
            --target-list="x86_64-softmmu" \
            --disable-kvm \
            --audio-card-list="" \
            --disable-vnc-jpeg \
            --disable-vnc-png \
            --disable-strip
make

Then, to build mscan

cd mtrace-tools && make

It's not necessary to make install either mtrace or mscan, though it may be a good idea to add x86_64-softmmu/ and mtrace-tools/ to your $PATH:

PATH=$PWD/x86_64-softmmu:$PWD/mtrace-tools:$PATH

Running a Linux kernel in mtrace

Our mtrace-enabled version of Linux can be found at

git clone https://github.com/aclements/linux-mtrace.git

We recommend configuring and building the kernel as follows. The first three configuration options are required to run the kernel in mtrace. The rest just disables large features that are likely to be unnecessary.

make defconfig
# Enable DWARF info for mscan
echo CONFIG_DEBUG_INFO=y >> .config
# Reduce number of CPUs
echo CONFIG_NR_CPUS=16 >> .config
# Avoid live-lock with timer interrupts
echo CONFIG_HZ_100=y >> .config
# Enable devtmpfs
echo CONFIG_DEVTMPFS=y >> .config
# Enable RAM disk (for testing fsync, etc)
echo CONFIG_BLK_DEV_RAM=y >> .config
# Shrink the kernel
echo CONFIG_PARTITION_ADVANCED=n >> .config
echo CONFIG_SUSPEND=n >> .config
echo CONFIG_HIBERNATION=n >> .config
echo CONFIG_CPU_FREQ=n >> .config
echo CONFIG_YENTA=n >> .config
echo CONFIG_IPV6=n >> .config
echo CONFIG_NETFILTER=n >> .config
echo CONFIG_NET_SCHED=n >> .config
echo CONFIG_ETHERNET=n >> .config
echo CONFIG_HAMRADIO=n >> .config
echo CONFIG_CFG80211=n >> .config
echo CONFIG_AGP=n >> .config
echo CONFIG_DRM=n >> .config
echo CONFIG_FB=n >> .config
echo CONFIG_SOUND=n >> .config
echo CONFIG_USB=n >> .config
echo CONFIG_I2C=n >> .config
echo CONFIG_HID=n >> .config
echo CONFIG_SECURITY_SELINUX=n >> .config
make olddefconfig

make

At this point, you can run this kernel in mtrace with

qemu-system-x86_64 -mtrace-enable -mtrace-file mtrace.out \
  -kernel arch/x86_64/boot/bzImage -nographic -append console=ttyS0

It won't get very far without a disk or an initramfs to boot from, but you should get an mtrace.out with some basic log records in it. Try m2text mtrace.out to get a feel for the log file.

See qemu-system-x86_64 -help for additional options that control mtrace.

Running MOSBENCH in mtrace

See README.mosbench.

QEMU calls

Guest code can call into qemu to turn mtracing on or off, communicate object instances and types, etc. See mtrace-magic.h for the current API and the linux-mtrace repository for example usage. There are also some examples in MOSBENCH under micro/.

Cache line tracking

When cache line tracking is enabled via a hypercall, memory accesses are reported only when an access might cause inter-core traffic. Specifically:

  • mtrace records a read if its cache line was written to by another core since that last read from the reading core.
  • mtrace records a write if its cache line that was read from or written to by another core since the last write from the writing core.

There is no other cache simulation (i.e. caches are fully associative and have infinite capacity).

Implementation choices

If we don't want the virtual address, we could modify the macros in cpu-all.h (stl_p, ...). We would still need the changes to the x86 code gen in tcg/i386/tcg_target.c.

To do

Minor things

  • Move all mtrace* decls. to mtrace.h
  • Report progress in mscan
  • Connect user-space and syscall stacks so we can backtrace across the user/kernel boundary
  • Many analyses could take a granularity option to control whether sharing is byte-level or line-level

mtrace is huge, full of cruft, and built on an ancient version of QEMU. We should lift out the parts we still use into a new version of mtrace. mtrace could be a great platform, but it's too much of a mess right now.

Have a single library for reading mtrace logs. Currently we have separate log decoders at least in mscan and m2text, which means m2text is consistently unable to dump recent logs. This separation also means we don't have a way to print log entries in mscan. m2text should be a trivial shell around printers in the common log library.

We currently hard-code several memory filtering policies, but it seems like every new analysis needs a new filtering policy. Make them loadable .so's that can be specified on the QEMU command line.

Instead of having one giant mscan binary that we have to expand for each new analysis, make each analysis its own binary and put common code (like context tracking) in a libmscan.

Make mtrace require fewer or no kernel hooks:

  • Eliminate stack-switching hypercalls. We can detect stack switches automatically based on CR3 and current stack pointer, plus starting a new call stack when an interrupt occurs and terminating that call stack when its stack pointer goes above where the interrupt frame was pushed (while remaining in the same stack region). These hypercalls are also really hard to add to all of the right places.

  • Move allocation labeling into an honest-to-goodness module that's more easily portable across Linux versions. This module could also help report information about stacks (e.g., when a new process stack is created, it could report its extend and information like process name).

    • Alternatively, mtrace could use kernel debug info to set QEMU breakpoints on the allocation function we care about. This would require a little kernel-specific information, but would be less cumbersome than code modification and would support a wide range of kernels and kernel versions. (Compared to stack-switching hypercalls, these are pretty easy to add, so this may be less valuable.)

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Memory access tracing QEMU

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