Removed syscalls that are only used by whitelistfs
which has its own set of filters.
PiperOrigin-RevId: 209967259
Change-Id: Idb2e1b9d0201043d7cd25d96894f354729dbd089
The bug was caused by os.File's finalizer, which closes the file. Because
fsgofer.serve() was passed a file descriptor as an int rather than a os.File,
callers would pass os.File.Fd(), and the os.File would go out of scope. Thus,
the file would get GC'd and finalized nondeterministically, causing failures
when the file was used.
PiperOrigin-RevId: 209861834
Change-Id: Idf24d5c1f04c9b28659e62c97202ab3b4d72e994
As required by the contract in Dirent.flush().
Also inline Dirent.freeze() into Dirent.Freeze(), since it is only called from
there.
PiperOrigin-RevId: 209783626
Change-Id: Ie6de4533d93dd299ffa01dabfa257c9cc259b1f4
UDS has a lower size limit than regular files. When running under bazel
this limit is exceeded. Test was changed to always mount /tmp and use
it for the test.
PiperOrigin-RevId: 209717830
Change-Id: I1dbe19fe2051ffdddbaa32b188a9167f446ed193
When an inode file state failed to load asynchronuously, we want to report
the error instead of potentially panicing in another async loading goroutine
incorrectly unblocked.
PiperOrigin-RevId: 209683977
Change-Id: I591cde97710bbe3cdc53717ee58f1d28bbda9261
A new optimization in Go 1.11 improves the efficiency of slice extension:
"The compiler now optimizes slice extension of the form append(s, make([]T, n)...)."
https://tip.golang.org/doc/go1.11#performance-compiler
Before:
BenchmarkMarshalUnmarshal-12 2000000 664 ns/op 0 B/op 0 allocs/op
BenchmarkReadWrite-12 500000 2395 ns/op 304 B/op 24 allocs/op
After:
BenchmarkMarshalUnmarshal-12 2000000 628 ns/op 0 B/op 0 allocs/op
BenchmarkReadWrite-12 500000 2411 ns/op 304 B/op 24 allocs/op
BenchmarkMarshalUnmarshal benchmarks the code in this package, BenchmarkReadWrite benchmarks the code in the standard library.
PiperOrigin-RevId: 209679979
Change-Id: I51c6302e53f60bf79f84576b1ead4d36658897cb
The previous use of non-blocking writes could result in corrupt PCAP files if a
partial write occurs. Using (*os.File).Write solves this problem by not
allowing partial writes. This change does not increase allocations (in one path
it actually reduces them), but does add additional copying.
PiperOrigin-RevId: 209652974
Change-Id: I4b1cf2eda4cfd7f237a4245aceb7391b3055a66c
Tests get a readonly rootfs mapped to / (which was the case before)
and writable TEST_TMPDIR. This makes it easier to setup containers to
write to files and to share state between test and containers.
PiperOrigin-RevId: 209453224
Change-Id: I4d988e45dc0909a0450a3bb882fe280cf9c24334
Numpy needs these.
Also added the "present" directory, since the contents are the same as possible
and online.
PiperOrigin-RevId: 209451777
Change-Id: I2048de3f57bf1c57e9b5421d607ca89c2a173684
Some linux commands depend on /sys/devices/system/cpu/possible, such
as 'lscpu'.
Add 2 knobs for cpu:
/sys/devices/system/cpu/possible
/sys/devices/system/cpu/online
Both the values are '0 - Kernel.ApplicationCores()-1'.
Change-Id: Iabd8a4e559cbb630ed249686b92c22b4e7120663
PiperOrigin-RevId: 209070163
Bazel adds the build type in front of directories making it hard to
refer to binaries in code.
PiperOrigin-RevId: 209010854
Change-Id: I6c9da1ac3bbe79766868a3b14222dd42d03b4ec5
When multiple containers run inside a sentry, each container has its own root
filesystem and set of mounts. Containers are also added after sentry boot rather
than all configured and known at boot time.
The fsgofer needs to be able to serve the root filesystem of each container.
Thus, it must be possible to add filesystems after the fsgofer has already
started.
This change:
* Creates a URPC endpoint within the gofer process that listens for requests to
serve new content.
* Enables the sentry, when starting a new container, to add the new container's
filesystem.
* Mounts those new filesystems at separate roots within the sentry.
PiperOrigin-RevId: 208903248
Change-Id: Ifa91ec9c8caf5f2f0a9eead83c4a57090ce92068
This file access type is actually called "proxy-shared", but I forgot to update
all locations.
PiperOrigin-RevId: 208832491
Change-Id: I7848bc4ec2478f86cf2de1dcd1bfb5264c6276de
Previously, gofer filesystems were configured with the default "fscache"
policy, which caches filesystem metadata and contents aggressively. While this
setting is best for performance, it means that changes from inside the sandbox
may not be immediately propagated outside the sandbox, and vice-versa.
This CL changes volumes and the root fs configuration to use a new
"remote-revalidate" cache policy which tries to retain as much caching as
possible while still making fs changes visible across the sandbox boundary.
This cache policy is enabled by default for the root filesystem. The default
value for the "--file-access" flag is still "proxy", but the behavior is
changed to use the new cache policy.
A new value for the "--file-access" flag is added, called "proxy-exclusive",
which turns on the previous aggressive caching behavior. As the name implies,
this flag should be used when the sandbox has "exclusive" access to the
filesystem.
All volume mounts are configured to use the new cache policy, since it is
safest and most likely to be correct. There is not currently a way to change
this behavior, but it's possible to add such a mechanism in the future. The
configurability is a smaller issue for volumes, since most of the expensive
application fs operations (walking + stating files) will likely served by the
root fs.
PiperOrigin-RevId: 208735037
Change-Id: Ife048fab1948205f6665df8563434dbc6ca8cfc9
Now, there's a waiter for each end (master and slave) of the TTY, and each
waiter.Entry is only enqueued in one of the waiters.
PiperOrigin-RevId: 208734483
Change-Id: I06996148f123075f8dd48cde5a553e2be74c6dce
stat()-ing /proc/PID/fd/FD incremented but didn't decrement the refcount for
FD. This behavior wasn't usually noticeable, but in the above case:
- ls would never decrement the refcount of the write end of the pipe to 0.
- This caused the write end of the pipe never to close.
- wc would then hang read()-ing from the pipe.
PiperOrigin-RevId: 208728817
Change-Id: I4fca1ba5ca24e4108915a1d30b41dc63da40604d
InodeOperations.Bind now returns a Dirent which will be cached in the Dirent
tree.
When an overlay is in-use, Bind cannot return the Dirent created by the upper
filesystem because the Dirent does not know about the overlay. Instead,
overlayBind must create a new overlay-aware Inode and Dirent and return that.
This is analagous to how Lookup and overlayLookup work.
PiperOrigin-RevId: 208670710
Change-Id: I6390affbcf94c38656b4b458e248739b4853da29
Previously, an overlay would panic if either the upper or lower fs required
revalidation for a given Dirent. Now, we allow revalidation from the upper
file, but not the lower.
If a cached overlay inode does need revalidation (because the upper needs
revalidation), then the entire overlay Inode will be discarded and a new
overlay Inode will be built with a fresh copy of the upper file.
As a side effect of this change, Revalidate must take an Inode instead of a
Dirent, since an overlay needs to revalidate individual Inodes.
PiperOrigin-RevId: 208293638
Change-Id: Ic8f8d1ffdc09114721745661a09522b54420c5f1
Currently the implementation matches the behavior of moving data
between two file descriptors. However, it does not implement this
through zero-copy movement. Thus, this code is a starting point
to build the more complex implementation.
PiperOrigin-RevId: 208284483
Change-Id: Ibde79520a3d50bc26aead7ad4f128d2be31db14e
The cache policy determines whether Lookup should return a negative dirent, or
just ENOENT. This CL fixes one spot where we returned a negative dirent without
first consulting the policy.
PiperOrigin-RevId: 208280230
Change-Id: I8f963bbdb45a95a74ad0ecc1eef47eff2092d3a4
In the main readme, checkpoint and restore is listed as an
advanced feature, and a link to its readme is provided.
PiperOrigin-RevId: 208279833
Change-Id: Ib3db28a8df8ec93cf8d98d5dfd2ee2f75a61e664