| Commit message (Collapse) | Author | Age |
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older than 3.14-rc1 (2014-02-02).
RELNOTES: N/A
PiperOrigin-RevId: 172356826
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handle it properly.
PiperOrigin-RevId: 171906091
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the amount of *available* physical memory. This includes memory used as cache or buffer that will be evicted if an application requests memory, and is a much more realistic metric of utilization than free memory, which is usually <1% of memory available to the machine.
PiperOrigin-RevId: 171087122
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RELNOTES: None.
PiperOrigin-RevId: 157446717
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--
PiperOrigin-RevId: 148749485
MOS_MIGRATED_REVID=148749485
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It was previously in unix, but also used from non-unix file systems, which
means it's not actually unix-specific. This is in preparation for splitting
compilation of the unix and windows file systems into separate libraries.
That improves layering and reduces compile times - note that Bazel already
injects the vfs into its lower layers, which should only rely on the normal
vfs APIs, not on anything platform-specific.
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PiperOrigin-RevId: 147829659
MOS_MIGRATED_REVID=147829659
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--
PiperOrigin-RevId: 143939410
MOS_MIGRATED_REVID=143939410
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This has the following improvements upon the older one:
- Uses PID namespaces, PR_SET_PDEATHSIG and a number of other tricks for
further process isolation and 100% reliable killing of child processes.
- Uses clone() instead of unshare() to work around a Linux kernel bug that
made creating a sandbox unreliable.
- Instead of mounting a hardcoded list of paths + whatever you add with
--sandbox_add_path, this sandbox instead mounts all of /, except for what
you make inaccessible via --sandbox_block_path. This should solve the
majority of "Sandboxing breaks my build, because my compiler is installed
in /opt or /usr/local" issues that users have seen.
- Instead of doing magic with bind mounts, we create a separate execroot for
each process containing symlinks to the input files. This is simpler and
gives more predictable performance.
- Actually makes everything except the working directory read-only
(fixes #1364). This means that a running process can no longer accidentally
modify your source code (yay!).
- Prevents a number of additional "attacks" or leaks, like accidentally
inheriting file handles from the parent.
- Simpler command-line interface.
- We can provide the same semantics in a Mac OS X sandbox, which will come in
a separate code review from yueg@.
It has the following caveats / known issues:
- The "fallback to /bin/bash on error" feature is gone, but now that the
sandbox mounts everything by default, the main use-case for this is no
longer needed.
The following improvements are planned:
- Use a FUSE filesystem if possible for the new execroot, instead of creating
symlinks.
- Mount a base image instead of "/".
FAQ:
Q: Why is mounting all of "/" okay, doesn't this make the whole sandbox
useless?
A: This is still a reasonable behavior, because the sandbox never tried to
isolate your build from the operating system it runs in. Instead it is
supposed to protect your data from a test running "rm -rf $HOME" and to
make it difficult / impossible for actions to use input files that are not
declared dependencies. For even more isolation the sandbox will support
mounting a base image as its root in a future version (similar to Docker
images).
Q: Let's say my process-specific execroot contains a symlink to an input file
"good.h", can't the process just resolve the symlink, strip off the file
name and then look around in the workspace?
A: Yes. Unfortunately we could not find any way on Linux to make a file appear
in a different directory with *all* of the semantics we would like. The
options investigated were:
1) Copying input files, which is much too slow.
2) Hard linking input files, which is fast, but doesn't work cross-
filesystems and it's also not possible to make them read-only.
3) Bind mounts, which don't scale once you're up in the thousands of input
files (across all actions) - it seems like the kernel has some
non-linear performance behavior when the mount table grows too much,
resulting in the mount syscall taking more time the more mounts you
have.
4) FUSE filesystem, good in theory, but wasn't ready for the first
iteration.
RELNOTES: New sandboxing implementation for Linux in which all actions run in a separate execroot that contains input files as symlinks back to the originals in the workspace. The running action now has read-write access to its execroot and /tmp only and can no longer write in arbitrary other places in the file system.
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Change-Id: Ic91386fc92f8eef727ed6d22e6bd0f357d145063
Reviewed-on: https://bazel-review.googlesource.com/#/c/4053
MOS_MIGRATED_REVID=130638204
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This helps avoid confusion with File*S*ystemUtils, which differs in only the case of a character but is a completely different class.
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MOS_MIGRATED_REVID=113054116
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MOS_MIGRATED_REVID=109287267
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The headers were modified with
`find . -type f -exec 'sed' '-Ei' 's|Copyright 201([45]) Google|Copyright 201\1 The Bazel Authors|' '{}' ';'`
And manual edit for not Google owned copyright. Because of the nature of ijar, I did not modified the header of file owned by Alan Donovan.
The list of authors were extracted from the git log. It is missing older Google contributors that can be added on-demand.
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MOS_MIGRATED_REVID=103938715
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MOS_MIGRATED_REVID=87942730
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MOE_MIGRATED_REVID=85702957
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