Spack added support in #24639 for ad-hoc Git-commit-hash-based
versions: A user can install a package x@hash, where X is a package
that stores its source code in a Git repository, and the hash refers
to a commit in that repository which is not recorded as an explicit
version in the package.py file for X.
A couple issues were found relating to this:
* If an environment defines an alternative package repo (i.e. with
repos.yaml), and spack.yaml contains user Specs with ad-hoc
Git-commit-hash-based versions for packages in that repo,
then as part of retrieving the data needed for version comparisons
it will attempt to retrieve the package before the environment's
configuration is instantiated.
* The bookkeeping information added to compare ad-hoc git versions was
being stripped from Specs during concretization (such that user
Specs which succeeded before concretizing would then fail after)
This addresses the issues:
* The first issue is resolved by deferring access to the associated
Package until the versions are actually compared to one another.
* The second issue is resolved by ensuring that the Git bookkeeping
information is explicitly applied to Specs after they are concretized.
This also:
* Resolves an ambiguity in the mock_git_version_info fixture used to
create a tree of Git commits and provide a list where each index
maps to a known commit.
* Isolates the cache used for Git repositories in tests using the
mock_git_version_info fixture
* Adds a TODO which points out that if the remote Git repository
overwrites tags, that Spack will then fail when using
ad-hoc Git-commit-hash-based versions
This commit updates the `gpg publish` command to work with the mirror
arguments, when trying to push keys to a mirror.
- [x] update `gpg publish command
- [x] add test for publishing GPG keys and rebuilding the key index within a mirror
In a typical call to spack, the OperatingSystem gets instantiated
multiple times. For macOS, each one requires a call to `sw_vers`, which
is done through the Executable helper class. Memoizing
reduces the call count from "spac spec" from three to one.
Currently environments are indexed by build hashes. When looking into this bug I noticed there is a disconnect between environments that are concretized in memory for the first time and environments that are read from a `spack.lock`. The issue is that specs read from a `spack.lock` don't have a full hash, since they are indexed by a build hash which is strictly coarser. They are also marked "final" as they are read from a file, so we can't compute additional hashes.
This bugfix PR makes "first concretization" equivalent to re-reading the specs from a corresponding `spack.lock`, and doing so unveiled a few tests were we were making wrong assumptions and relying on the fact that a `spack.lock` file was not there already.
* Add unit test
* Modify mpich to trigger jobs in pipelines
* Fix two failing unit tests
* Fix another full_hash vs. build_hash mismatch in tests
* Ignore top-level module config; add auto-update
In Spack 0.17 we got module sets (modules:[name]:[prop]), and for
backwards compat modules:[prop] was short for modules:default:[prop].
But this makes it awkward to define default config for the "default"
module set.
Since 0.17 is branched off, we can now deprecate top-level module config
(that is, just ignore it with a warning).
This PR does that, and it implements `spack config update modules` to
make upgrading easy (we should have added that to 0.17 already...)
It also removes references to `dotkit` stuff which was already
deprecated in 0.13 and could have been removed in 0.14.
Prefix inspections are the only exception, since the top-level prefix inspections
used for `spack load` and `spack env activate`.
Spack currently allows dependencies to be concretized for an
architecture incompatible with the root. This commit adds rules
to make this situation impossible by design.
* Extract the MetaPathFinder and Loaders for packages in their own classes
https://peps.python.org/pep-0451/
Currently, RepoPath and Repo implement the (deprecated) interface of
MetaPathFinder (find_module) and of Loader (load_module). This commit
extracts both of them and places the code in their own classes.
The MetaPathFinder interface is updated to contain both the deprecated
"find_module" (for Python 2.7 support) and the recommended "find_spec".
Update of the Loader interface is deferred at a subsequent commit.
* Move the lines to be prepended inside "RepoLoader"
Also adjust the naming of a few variables too
* Remove spack.util.imp, since code is only used in spack.repo
* Remove support from loading Python modules Python > 3 but < 3.5
* Remove `Repo._create_namespace`
This function was interacting badly with the MetaPathFinder
and causing issues with "normal" imports. Removing the
function allows to do things like:
```python
import spack.pkg.builtin.mpich
cls = spack.pkg.builtin.mpich.Mpich
```
* Remove code needed to trigger the Singleton evaluation
The finder is coded in a way to trigger the Singleton,
so we don't need external code now that we register it
at module level into `sys.meta_path`.
* Add unit tests
Some servers require `User-Agent` to be set, and otherwise error with
access denied. One such example is mpich.
To fix this, set `User-Agent: Spackbot/[version]` as a header.
Apparently by convention, it should include the word `bot`.
#27021 broke fetching for CVS-based packages because:
- The mirror logic was using URL parsing to extract a path from the
CVS repository location
- #27021 added sanity checks to enforce that strings passed to the
URL parser were actually URLs
This replaces the call to "url_util.parse" with logic that is
customized for CVS. This implies that VCSFetchStrategy should
rename the "url_attr" attribute to something more generic, but
that should be handled separately.
Allow declaring possible values for variants with an associated condition. If the variant takes one of those values, the condition is imposed as a further constraint.
The idea of this PR is to implement part of the mechanisms needed for modeling [packages with multiple build-systems]( https://github.com/spack/seps/pull/3). After this PR the build-system directive can be implemented as:
```python
variant(
'build-system',
default='cmake',
values=(
'autotools',
conditional('cmake', when='@X.Y:')
),
description='...',
)
```
Modifications:
- [x] Allow conditional possible values in variants
- [x] Add a unit-test for the feature
- [x] Add documentation
* tests for rewiring pure specs to spliced specs
* relocate text, binaries, and links
* using llnl.util.symlink for windows compat.
Note: This does not include CLI hooks for relocation.
Co-authored-by: Nathan Hanford <hanford1@llnl.gov>
- Add variants for various common build flags, including support for both versions of the Racket VM environment.
- Prevent `-j` flags to `make`, which has been known to cause problems with Racket builds.
- Prefer the minimal release to improve install times. Bells and whistles carry their own runtime dependencies and should be installed via `raco`. An enterprising user may even create a `RacketPackage` class to make spack aware of `raco` installed packages.
- Match the official version numbering scheme.
Update "spack external find --all" to also find library-only packages.
A Package can add a ".libraries" attribute, which is a list of regular
expressions to use to find libraries associated with the Package.
"spack external find --all" will search LD_LIBRARY_PATH for potential
libraries.
This PR adds examples for NCCL, RCCL, and hipblas packages. These
examples specify the suffix ".so" for the regular expressions used
to find libraries, so generally are only useful for detecting library
packages on Linux.
Do not prompt user with checksum warning when using git commit hashes
as versions. Spack was incorrectly reporting this as a potential
problem: it would display a prompt asking the user whether they
want to proceed if Spack was running in a terminal, or it would
terminate the running instance of Spack if running as part of a
script.
* Add pl2bat to PATH: Windows on Perl requires the script pl2bat.bat
and Perl to be available to the installer via the PATH. The build
and dependent environments of Perl on Windows have the install
prefix bin added to the PATH.
* symlink with win32file module instead of using Executable to
call mklink (mklink is a shell function and so is not accessible
in this manner).
We've previously generated CI pipelines for PRs, and they rebuild any packages that don't have
a binary in an existing build cache. The assumption we were making was that ALL prior merged
builds would be in cache, but due to the way we do security in the pipeline, they aren't. `develop`
pipelines can take a while to catch up with the latest PRs, and while it does that, there may be a
bunch of redundant builds on PRs that duplicate things being rebuilt on `develop`. Until we can
do better caching of PR builds, we'll have this problem.
We can do better in PRs, though, by *only* rebuilding things in the CI environment that are actually
touched by the PR. This change computes exactly what packages are changed by a PR branch and
*only* includes those packages' dependents and dependencies in the generated pipeline. Other
as-yet unbuilt packages are pruned from CI for the PR.
For `develop` pipelines, we still want to build everything to ensure that the stack works, and to ensure
that `develop` catches up with PRs. This is especially true since we do not do rebuilds for *every* commit
on `develop` -- just the most recent one after each `develop` pipeline finishes. Since we skip around,
we may end up missing builds unless we ensure that we rebuild everything.
We differentiate between `develop` and PR pipelines in `.gitlab-ci.yml` by setting
`SPACK_PRUNE_UNTOUCHED` for PRs. `develop` will still have the old behavior.
- [x] Add `SPACK_PRUNE_UNTOUCHED` variable to `spack ci`
- [x] Refactor `spack pkg` command by moving historical package checking logic to `spack.repo`
- [x] Implement pruning logic in `spack ci` to remove untouched packages
- [x] add tests
* cmake: use CMAKE_INSTALL_RPATH_USE_LINK_PATH
Spack has a heuristic to add rpaths for packages it knows are required,
but it's really a heuristic, and it does not work when the dependencies
put their libraries in a different folder than `<prefix>/lib{64,}`.
CMake patches binaries after install with the "install rpaths", which by
default are provided by Spack and its heuristic through
`CMAKE_INSTALL_RPATH`.
CMake however knows better what libraries are effectively being linked
to, and has an option to include those in the install rpath too, through
`CMAKE_INSTALL_RPATH_USE_LINK_PATH`.
These two CMake options are complementary, repeated rpaths seem to be
filtered, and the "use link path" paths are appended to Spack's
heuristic "install rpath".
So, it seems like a good idea to enable "use link path" by default, so
that:
- `dlopen` by library name uses Spack's heuristic search paths
- linked libraries in non-standard locations within a prefix get an
rpath thanks to CMake.
* docs
Add output of build- and install-time tests to info command
Enable dependencies, variants, and versions by default (i.e., provide --no*
options; add gcc to test_info_fields to increase coverage for c_names->v_names
We shouldn't be using "remove_linked_tree" to remove the lock file,
since that function expects to receive a directory path as an
argument.
Also, as a further measure to avoid regression, this commit restores
the "ignore_errors=True" argument on linux and adds a unit test
checking that "remove_linked_tree" doesn't change file permissions
as a side effect of a failure to remove.
Reduces the number of stat calls to a bare minimum:
- Single pass over src prefixes
- Handle projection clashes in memory
Symlinked directories in the src prefixes are now conditionally
transformed into directories with symlinks in the dst dir. Notably
`intel-mkl`, `cuda` and `qt` has top-level symlinked directories that
previously resulted in empty directories in the view. We now avoid
cycles and possible exponential blowup by only expanding symlinks that:
- point to dirs deeper in the folder structure;
- are a fixed depth of 2.
Currently `old_root` is computed by reading the symlink at `self.root`.
We should be more defensive in removing it by checking that it is in the
same directory as the new root. Otherwise, in the worst case, when
someone runs `spack env create --with-view=./view -d .` and `view`
already exists and is a symlink to `/`, Spack effectively runs `rm -rf /`.
`file` was used to detect Python scripts with shebangs, so that the interpreter could be changed from <python prefix> to <view path>. With this change, we detect shebangs using Python instead, so that `file` is no longer required.
The number of commit characters in patch files fetched from GitHub can change,
so we should use `full_index=1` to enforce full commit hashes (and a stable
patch `sha256`).
Similarly, URLs for branches like `master` don't give us stable patch files,
because branches are moving targets. Use specific tags or commits for those.
- [x] update all github patch URLs to use `full_index=1`
- [x] don't use `master` or other branches for patches
- [x] add an audit check and a test for `?full_index=1`
Co-authored-by: Todd Gamblin <tgamblin@llnl.gov>
Known issues reports only 2 issues, among the bugs reported on GitHub.
One of the two is also outdated, since the issue has been solved
with the new concretizer. Thus, this commit removes the section.
When you install Spack from a tarball, it will always show an exact
version for Spack itself, even when you don't download a tagged commit:
```
$ wget -q https://github.com/spack/spack/archive/refs/heads/develop.tar.gz
$ tar -xf develop.tar.gz
$ ./spack-develop/bin/spack --version
0.16.2
```
This PR sets the Spack version to `0.18.0.dev0` on develop, following [PEP440](https://github.com/spack/spack/pull/25267#issuecomment-896340234) as
suggested by Adam Stewart.
```
spack (fix/set-dev-version)$ spack --version
0.18.0.dev0 (git 0.17.1-1526-e270464ae0)
spack (fix/set-dev-version)$ mv .git .git_
spack $ spack --version
0.18.0.dev0
```
- [x] Update the release guide
- [x] Add __version__ to spack's __init__.py
- [x] Use PEP 440 canonical version strings
- [x] Make spack --version output [actual version] (git version)
Co-authored-by: Todd Gamblin <tgamblin@llnl.gov>
* Add tests to ensure google cloud storage urls work as mirrors
This commit adds two tests to track that GCS buckets can work as
mirrors, and can be parsed as valid URLs.
Currently, gs:// format URLs are not correctly parsed.
* Fix URL parsing for GCS buckets
This commit adds GCS bucket URLs as valid URLs.
* lower priority of package-provided urls
This change favors urls found in a scraped page over those provided by
the package from `url_for_version`. In most cases this doesn't matter,
but R specifically returns known bad URLs in some cases, and the
fallback path for a failed fetch uses `fetch_remote_versions` to find a
substitute. This fixes that problem.
fixes#29204
* consider what links actually exist in all cases
Checksum was only actually scraping when called with no versions. It
now always scrapes and then selects URLs from the set of URLs known to
exist whenever possible.
fixes#25831
* bow to the wrath of flake8
* test-fetch urls from package, prefer if successful
* Update lib/spack/spack/package.py
Co-authored-by: Seth R. Johnson <johnsonsr@ornl.gov>
* reword as suggested
* re-enable mypy specific ignore and ignore pyflakes
* remove flake8 ignore from .flake8
* address review comments
* address comments
* add sneaky missing substitute
I missed this one because we call substitute on a URL that doesn't
contain a version component. I'm not sure how that's supposed to work,
but apparently it's required by at least one mock package, so back in it
goes.
Co-authored-by: Seth R. Johnson <johnsonsr@ornl.gov>
Adds `spack external read-cray-manifest`, which reads a json file that describes a set of package DAGs. The parsed results are stored directly in the database. A user can see these installed specs with `spack find` (like any installed spec). The easiest way to use them right now as dependencies is to run `spack spec ... ^/hash-of-external-package`.
Changes include:
* `spack external read-cray-manifest --file <path/to/file>` will add all specs described in the file to Spack's installation DB and will also install described compilers to the compilers configuration (the expected format of the file is described in this PR as well including examples of the file)
* Database records now may include an "origin" (the command added in this PR registers the origin as "external-db"). In the future, it is assumed users may want to be able to treat installs registered with this command differently (e.g. they may want to uninstall all specs added with this command)
* Hash properties are now always preserved when copying specs if the source spec is concrete
* I don't think the hashes of installed-and-concrete specs should change and this was the easiest way to handle that
* also specs that are concrete preserve their `.normal` property when copied (external specs may mention compilers that are not registered, and without this change they would fail in `normalize` when calling `validate_or_raise`)
* it might be this should only be the case if the spec was installed
- [x] Improve testing
- [x] Specifically mark DB records added with this command (so that users can do something like "uninstall all packages added with `spack read-external-db`)
* This is now possible with `spack uninstall --all --origin=external-db` (this will remove all specs added from manifest files)
- [x] Strip variants that are listed in json entries but don't actually exist for the package
Co-authored-by: Harmen Stoppels <harmenstoppels@gmail.com>
This PR removes a few outdated sections from the "Basics" part of the
documentation. It also makes a few topic under the environment section
more prominent by removing an unneeded spack.yaml subsection and
promoting everything under it.
Consolidate Spack's internal filepath logic to a select
few places and refactor to consistent internal useage of
os.path utilities. Creates a prefix, and a series of utilities
in the path utility module that facilitate handling paths
in a platform agnostic manner.
Convert Windows paths to posix paths internally
Prefer posixpath.join instead of os.path.join
Updated util/ directory to account for Windows integration
Co-authored-by: Stephen Crowell <stephen.crowell@khq.kitware.com>
Co-authored-by: John Parent <john.parent@kitware.com>
Module template format for windows (#23041)
* Incorporate new search location
* Add external user option
* proper doc string
* Explicit commands in getting started
* raise during chgrp on Win
recover installer changes
Notate admin privleges
Windows phase install hooks
Find external python and install ninja (#23496)
Allow external find python to find windows python and spack install ninja
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>
Co-authored-by: Betsy McPhail <betsy.mcphail@kitware.com>
Fixup common tests
* Remove requirement for Python 2.6
* Skip new failing test
Windows: Update url util to handle Windows paths (#27959)
* update url util to handle windows paths
* Update tests to handle fixed url handling
* canonicalize path only when the path type matches the host platform
* Skip some url tests on Windows
Co-authored-by: Omar Padron <omar.padron@kitware.com>
Use threading.TIMEOUT_MAX when available (#24246)
This value was introduced in Python 3.2. Specifying a timeout greater than
this value will raise an OverflowError.
Co-authored-by: Lou Lawrence <lou.lawrence@kitware.com>
Co-authored-by: John Parent <john.parent@kitware.com>
Co-authored-by: Betsy McPhail <betsy.mcphail@kitware.com>
Add compiler hint to the root spec for Windows
Reporters on Windows (#26038)
Reporters use Jinja2 as the templating engine, and Jinja2 indexes
templates by Unix separators, even on Windows, so search using Unix paths
on all systems.
Support patching on win via git (#25871)
Handle GRP on windows
CMake - Windows Bootstrap (#25825)
Remove hardcoded cmake compiler (#26410)
Revert breaking cmake changes
Ensure no autotools on Windows
Perl on Windows (#26612)
Python source build windows (#26313)
Reconfigure sysconf for Windows
Python2.6 compatibility
Fxixup new sbang tests for windows
Ruby support (#28287)
Add NASM support (#28319)
Add mock Ninja package for testing
* Style fixes
* Use Python's zipfile, if available
The compression libs are optional in Python. Rely on python as a
first attempt then fall back to `unzip`
MSVC's internal CMake and Ninja now detected by spack external find and added to packages.yaml
Saving progress on packaging zlib for Windows
Fixing the shared CMake flag
* Loading Intel's ifx Fortran compiler into MSVC; if there are multiple
versions of MSVC installed and detected, ifx will only be placed into
the first block written in compilers.yaml. The version number of ifx can
be detected using MSVC's version flag (instead of /QV) by using
ignore_version_errors. This commit also provides support for detection
of Intel compilers in their own compiler block by adding ifx.exe to the
fc/f77_name blocks inside intel.py
* Giving CMake a Fortran compiler argument
* Adding patch file for removing duplicated mangling header for versions 3.9.1 and older; static and shared now successfully building on Windows
* Have netlib-lapack depend on ninja@1.10
Co-authored-by: John R. Cary <cary@txcorp.com>
Co-authored-by: Jared Popelar <jpopelar@txcorp.com>
Making a default config.yaml for Windows
Small path length for build_stage
Provide more prerequisite details, mention default config.yaml
Killing an unnecessary setvars call
Replacing some lost changes, proofreading, updating windows-supported package list
Co-authored-by: John Parent <john.parent@kitware.com>
* Add 'make-installer' command for Windows
* Add '--bat' arg to env activate, env deactivate and unload commands
* An equivalent script to setup-env on linux: spack_cmd.bat. This script
has a wrapper to evaluate cd, load/unload, env activate/deactivate.(#21734)
* Add spacktivate and config editor (#22049)
* spack_cmd: will find python and spack on its own. It preferentially
tries to use python on your PATH (#22414)
* Ignore Windows python installer if found (#23134)
* Bundle git in windows installer (#23597)
* Add Windows section to Getting Started document
(#23131), (#23295), (#24240)
Co-authored-by: Stephen Crowell <stephen.crowell@kitware.com>
Co-authored-by: lou.lawrence@kitware.com <lou.lawrence@kitware.com>
Co-authored-by: Betsy McPhail <betsy.mcphail@kitware.com>
Co-authored-by: Jared Popelar <jpopelar@txcorp.com>
Co-authored-by: Ben Cowan <benc@txcorp.com>
Update Installer CI
Co-authored-by: John Parent <john.parent@kitware.com>
Made the vcvars batch script location a member variable of the msvc compiler subclass, initialized from the compiler executable path. Added a setup_custom_environment() method to the msvc subclass that sources the vcvars script, dumps the environment, and copies the relevant environment variables to the Spack environment. Added class variables to the Windows OS and MSVC compiler subclasses to enable finding the compiler executables and determining their versions.
* Fixed path and uid issues.
* Added needed import statement; kluged .exe extension.
* Got package to build. Some manual intervention necessary, including sourcing the MSVC setup script and having certain configuration parameters.
* Removed CMake executable suffix hack.
To provide Windows-compatible functionality, spack code should use
llnl.util.symlink instead of os.symlink. On non-Windows platforms
and on Windows where supported, os.symlink will still be used.
Use junctions when symlinks aren't supported on Windows (#22583)
Support islink for junctions (#24182)
Windows: Update llnl/util/filesystem
* Use '/' as path separator on Windows.
* Recognizing that Windows paths start with '<Letter>:/' instead of '/'
Co-authored-by: lou.lawrence@kitware.com <lou.lawrence@kitware.com>
Co-authored-by: John Parent <john.parent@kitware.com>
os.rename() fails on Windows if file already exists.
Create getuid utility function (#21736)
On Windows, replace os.getuid with ctypes.windll.shell32.IsUserAnAdmin().
Tests: Use getuid util function
Co-authored-by: lou.lawrence@kitware.com <lou.lawrence@kitware.com>
Co-authored-by: Betsy McPhail <betsy.mcphail@kitware.com>
1. Forwarding sys.stdin, e.g. use input_multiprocess_fd,
gives an error on Windows. Skipping for now
3. subprocess_context needs to serialize for Windows, like it does
for Mac.
Co-authored-by: lou.lawrence@kitware.com <lou.lawrence@kitware.com>
Co-authored-by: John Parent <john.parent@kitware.com>
* Snapshot of some MSVC infrastructure added during experiments a while ago. Rebasing from spack/develop.
* Added platform and OS definitions for Windows.
* Updated Windows platform file to conform to new archspec use.
* Added Windows as a platform; introduced some debugging code.
* Added type annotations.
* Fixed copyright.
* Removed print statements.
* Ensure `spack arch` returns correctly on Windows (#21428)
* Correctly identify windows as 'windows-Windows10-AMD64'
Re-work the checks and comparisons around commit versions, when no
commit version is involved the overhead is now in the noise, where one
is the overhead is now constant rather than linear.
fixes#29446
The new setup_*_environment functions have been falling back
to calling the old functions and warn the user since #11115.
This commit removes the fallback behavior and any use of:
- setup_environment
- setup_dependent_environment
in the codebase
Change the internal representation of `Spec` to allow for multiple dependencies or
dependents stemming from the same package. This change permits to represent cases
which are frequent in cross compiled environments or to bootstrap compilers.
Modifications:
- [x] Substitute `DependencyMap` with `_EdgeMap`. The main differences are that the
latter does not support direct item assignment and can be modified only through its
API. It also provides a `select_by` method to query items.
- [x] Reworked a few public APIs of `Spec` to get list of dependencies or related edges.
- [x] Added unit tests to prevent regression on #11983 and prove the synthetic construction
of specs with multiple deps from the same package.
Since #22845 went in first, this PR reuses that format and thus it should not change hashes.
The same package may be present multiple times in the list of dependencies with different
associated specs (each with its own hash).
* environment.py: allow link:run
Some users want minimal views, excluding run-type dependencies, since
those type of dependencies are covered by rpaths and the symlinked
libraries in the view aren't used anyways.
With this change, an environment like this:
```
spack:
specs: ['py-flake8']
view:
default:
root: view
link: run
```
includes python packages and python, but no link type deps of python.
Speeds up comparison on `Version` by ~2.5x, e.g.
```python
In [1]: v = spack.version.Version('1.0.0'); w = spack.version.Version('1.0.2')
In [2]: %timeit v < w
1.47 µs ± 5.59 ns per loop (mean ± std. dev. of 7 runs, 1000000 loops each)
535 ns ± 1.75 ns per loop (mean ± std. dev. of 7 runs, 1000000 loops each)
```
fixes#29203
This PR fixes a subtle bug we have when importing
Spack packages as Python modules that can lead to
multiple module objects being created for the same
package.
It also fixes all the places in unit-tests where
"relying" on the old bug was crucial to have a new
"clean" state of the package class.
This commit reverts the GCS fetch strategy to before commit:
d759612523
The previous commit added some s3 syntax to handle connections, but
added them into the GCS fetch strategy in a way that prevents GCS from
working anymore.
* rocmcc compiler: initial commit based on aocc and clang
Co-authored-by: luker <luke.roskop@hpe.com>
Co-authored-by: Tom Scogland <scogland1@llnl.gov>
The status displayed in the terminal title could be wrong when doing
distributed builds. For instance, doing `spack install glib` in two
different terminals could lead to the current package being reported as
`40/29` due to the way Spack handles retrying locks.
Work around this by keeping track of the package IDs that were already
encountered to avoid counting packages twice.
See https://github.com/spack/spack/pull/28468/files#r809156986
If we exit before generating the:
error("Dependencies must have compatible OS's with their dependents").
...
facts we'll output a problem that is effectively
different by the one solved by clingo.
* cmd/checksum: prefer url matching url_from_version
This is a minimal change toward getting the right archive from places
like github. The heuristic is:
* if an archive url exists, take its version
* generate a url from the package with pkg.url_from_version
* if they match
* stop considering other URLs for this version
* otherwise, continue replacing the url for the version
I doubt this will always work, but it should address a variety of
versions of this bug. A good test right now is `spack checksum gh`,
which checksums macos binaries without this, and the correct source
packages with it.
fixes#15985
related to #14129
related to #13940
* add heuristics to help create as well
Since create can't rely on an existing package, this commit adds another
pair of heuristics:
1. if the current version is a specifically listed archive, don't
replace it
2. if the current url matches the result of applying
`spack.url.substitute_version(a, ver)` for any a in archive_urls,
prefer it and don't replace it
fixes#13940
* clean up style and a lingering debug import
* ok flake8, you got me
* document reference_package argument
* Update lib/spack/spack/util/web.py
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>
* try to appease sphinx
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>
We can see what is in the bootstrap store with `spack find -b`, and you can clean it with `spack
clean -b`, but we can't do much else with it, and if there are bootstrap issues they can be hard to
debug.
We already have `spack --mock`, which allows you to swap in the mock packages from the command
line. This PR introduces `spack -b` / `spack --bootstrap`, which runs all of spack with
`ensure_bootstrap_configuration()` set. This means that you can run `spack -b find`, `spack -b
install`, `spack -b spec`, etc. to see what *would* happen with bootstrap configuration, to remove
specific bootstrap packages, etc. This will hopefully make developers' lives easier as they deal
with bootstrap packages.
This PR also uses a `nullcontext` context manager. `nullcontext` has been implemented in several
other places in Spack, and this PR consolidates them to `llnl.util.lang`, with a note that we can
delete the function if we ever reqyire a new enough Python.
- [x] introduce `spack --bootstrap` option
- [x] consolidated all `nullcontext` usages to `llnl.util.lang`
Some "concrete" versions on the command line, e.g. `qt@5` are really
meant to satisfy some actual concrete version from a package. We should
only assume the user is introducing a new, unknown version on the CLI
if we, well, don't know of any version that satisfies the user's
request. So, if we know about `5.11.1` and `5.11.3` and they ask for
`5.11.2`, we'd ask the solver to consider `5.11.2` as a solution. If
they just ask for `5`, though, `5.11.1` or `5.11.3` are fine solutions,
as they satisfy `@5`, so use them.
Co-authored-by: Harmen Stoppels <harmenstoppels@gmail.com>
See https://github.com/spack/spack/issues/25353#issuecomment-1041868116
This commit changes the default behavior of
```
$ spack external find
```
from searching all the possible packages Spack knows about to
search only for the ones tagged as being a "build-tool".
It also introduces a `--all` option to restore the old behavior.
Prefer `sw_vers` to `platform.mac_ver`. In anaconda3 installation, for example, the latter reports 10.16 on Monterey -- I think this is affected by how and where the python instance was built.
Use MACOSX_DEPLOYMENT_TARGET if present to override the operating system choice.
It will be useful for metrics gathering and possibly debugging to
have this environment variable available in the runner pods that
do the actual rebuilds.
Since Spack does not install external packages, this commit skips them by
default when running stand-alone tests. The assumption is that such packages
have likely undergone an acceptance test process.
However, the tests can be run against installed externals using
```
% spack test run --externals ...
```
fixes#28260
Since we iterate over different variants from many packages, the variant
values may have types which are not comparable, which causes errors
at runtime. This is not a real issue though, since we don't need the facts
to be ordered. Thus, to avoid needless sorting, the sorted function has
been removed and a comment has been added to tip any developer that
might need to inspect these clauses for debugging to add back sorting
on the first two items only.
It's kind of difficult to add a test for this, since the error depends on
whether Python sorting algorithm ever needs to compare the third
value of a tuple being ordered.
* extensions: allow multiple "extends" directives
This will allow multiple extends directives in a package as long as only one of
them is selected as a dependency in the concrete spec.
* document the option to have multiple extends
Reuse previously was a very invasive change that required parameters to be added to all
the methods that called `concretize()` on a `Spec` object. With the addition of
concretizer configuration, we can use the config system to simplify this argument
passing and keep the code cleaner.
We decided that concretizer config options should be read at `Solver` instantiation
time, and if config changes between instnatiation of a particular solver and
`solve()` invocation, the `Solver` should use the settings from `__init__()`.
- [x] remove `reuse` keyword argument from most concretize functions
- [x] refactor usages to use `spack.config.override("concretizer:reuse", True)`
- [x] rework argument passing in `Solver` so that parameters are set from config
at instantiation time
`--reuse` was previously handled individually by each command that
needed it. We are growing more concretization options, and they'll
need their own section for commands that support them.
Now there are two concretization options:
* `--reuse`: Attempt to reuse packages from installs and buildcaches.
* `--fresh`: Opposite of reuse -- traditional spack install.
To handle thes, this PR adds a `ConfigSetAction` for `argparse`, so
that you can write argparse code like this:
```
subgroup.add_argument(
'--reuse', action=ConfigSetAction, dest="concretizer:reuse",
const=True, default=None,
help='reuse installed dependencies/buildcaches when possible'
)
```
With this, you don't need to add logic to pull the argument out and
handle it; the `ConfigSetAction` just does it for you. This can probably
be used to clean up some other commands later, as well.
Code that was previously passing `reuse=True` around everywhere has
been refactored to use config, and config is set from the CLI using
a new `add_concretizer_args()` function in `spack.cmd.common.arguments`.
- [x] Add `ConfigSetAction` to simplify concretizer config on the CLI
- [x] Refactor code so that it does not pass `reuse=True` to every function.
- [x] Refactor commands to use `add_concretizer_args()` and to pass
concretizer config using the config system.
Config scopes were different for `config` and `mutable_config`,
and `mutable_config` did not have a command line scope.
- [x] Fix by consolidating the creation logic for the two fixtures.
The concretizer is going to grow to have many more configuration,
and we really need some structured config for that.
* We have the `config:concretizer` option that chooses the solver,
but extending that is awkward (we'd need to replace a string with
a `dict`) and the solver choice will be deprecated eventually.
* We have the `concretization` option in environments, but it's
not a top-level config section -- it's just for environments,
and it also only admits a string right now.
To avoid overlapping with either of these and to allow the most
extensibility in the future, this adds a new `concretizer` config
section that can be used in and outside of environments. There
is only one option right now: `reuse`. This can expand to include
other options later.
Likely, we will soon deprecate `config:concretizer` and warn when
the user doesn't use `clingo`, and we will eventually (sometime later)
move the `together` / `separately` options from `concretization` into
the top-level `concretizer` section.
This commit just adds the new section and schema. Fully wiring it
up is TBD.
The solver has a lot of configuration associated with it. Rather
than adding arguments to everything, we should encapsulate that
in a class. This is the start of that work; it replaces `solve()`
and its kwargs with a class and properties.
* Add 'stable' to the list of infinity version names.
Rename libunwind 1.5-head to 1.5-stable.
* Add stable to the infinite version list in packaging_guide.rst.
* core: Make platform environment an instance not class method
In preparation for accessing data constructed in __init__.
* macos: set consistent macosx deployment target
This should silence numerous warnings from mixed gcc/macos toolchains.
* perl: prevent too-new deployment target version
```
*** Unexpected MACOSX_DEPLOYMENT_TARGET=11
***
*** Please either set it to a valid macOS version number (e.g., 10.15) or to empty.
```
* Stylin'
* Add deployment target overrides to failing autoconf packages
* Move configure workaround to base autoconf package
This reverts commit 3c119eaf8b4fb37c943d503beacf5ad2aa513d4c.
* Stylin'
* macos: add utility functions for SDK
These aren't yet used but should probably be added to spack debug
report.
* Remove node_target_satisfies/3 in favor of target_satisfies/2
When emitting input facts we don't need to couple target with
packages, but we can emit fewer facts independently and let
the grounder combine them.
* Remove compiler_version_satisfies/4 in favor of compiler_version_satisfies/3
When emitting input facts we don't need to couple compilers with
packages, but we can emit fewer facts independently and let
the grounder combine them.
* Introduce heuristic in the ASP-program
With heuristic we can drive clingo to make better
initial guesses, which lead to fewer choices and
conflicts in the overall solve
* Fix reindex with uninstalled deps
When a prefix of a dep is removed, and the db is reindexed, it is added
through the dependent, but until now it incorrectly listed the spec as
'installed'.
There was also some questionable behavior in the db when the same spec
was added multiple times, it would always be marked installed.
* Always reserve path
* Only add installed spec's prefixes to install prefixes set
* Improve warning, and ensure ensure only ensures
* test: reindex with every file system remnant removed except for the old index; it should give a database with nothing installed, including records with installed==False,external==False,ref_count==0,explicit=True, and these should be removable from the database
* stacks: add regression tests for matrix expansion
* Use constrain semantics to construct spec lists for stacks
* Fix semantics for constraining an anonymous spec. Add tests
* Add sticky variants
* Add unit tests for sticky variants
* Add documentation for sticky variants
* Revert "Revert 19736 because conflicts are avoided by clingo by default (#26721)"
This reverts commit 33ef7d57c1.
* Add stickiness to "allow-unsupported-compiler"
`spack license update-copyright-year` was updating license headers but not the MIT
license file. Make it do that and add a test.
Also simplify the way we bump the latest copyright year so that we only need to
update it in one place.
* Use pip to bootstrap pip
* Bootstrap wheel from source
* Update PythonPackage to install using pip
* Update several packages
* Add wheel as base class dep
* Build phase no longer exists
* Add py-poetry package, fix py-flit-core bootstrapping
* Fix isort build
* Clean up many more packages
* Remove unused import
* Fix unit tests
* Don't directly run setup.py
* Typo fix
* Remove unused imports
* Fix issues caught by CI
* Remove custom setup.py file handling
* Use PythonPackage for installing wheels
* Remove custom phases in PythonPackages
* Remove <phase>_args methods
* Remove unused import
* Fix various packages
* Try to test Python packages directly in CI
* Actually run the pipeline
* Fix more packages
* Fix mappings, fix packages
* Fix dep version
* Work around bug in concretizer
* Various concretization fixes
* Fix gitlab yaml, packages
* Fix typo in gitlab yaml
* Skip more packages that fail to concretize
* Fix? jupyter ecosystem concretization issues
* Solve Jupyter concretization issues
* Prevent duplicate entries in PYTHONPATH
* Skip fenics-dolfinx
* Build fewer Python packages
* Fix missing npm dep
* Specify image
* More package fixes
* Add backends for every from-source package
* Fix version arg
* Remove GitLab CI stuff, add py-installer package
* Remove test deps, re-add install_options
* Function declaration syntax fix
* More build fixes
* Update spack create template
* Update PythonPackage documentation
* Fix documentation build
* Fix unit tests
* Remove pip flag added only in newer pip
* flux: add explicit dependency on jsonschema
* Update packages that have been added since this was branched off of develop
* Move Python 2 deprecation to a separate PR
* py-neurolab: add build dep on py-setuptools
* Use wheels for pip/wheel
* Allow use of pre-installed pip for external Python
* pip -> python -m pip
* Use python -m pip for all packages
* Fix py-wrapt
* Add both platlib and purelib to PYTHONPATH
* py-pyyaml: setuptools is needed for all versions
* py-pyyaml: link flags aren't needed
* Appease spack audit packages
* Some build backend is required for all versions, distutils -> setuptools
* Correctly handle different setup.py filename
* Use wheels for py-tomli to avoid circular dep on py-flit-core
* Fix busco installation procedure
* Clarify things in spack create template
* Test other Python build backends
* Undo changes to busco
* Various fixes
* Don't test other backends
When `spack compiler list` is run without being restricted to a
particular scope, and no compilers are found, say that none are
available, and hint that the use should run spack compiler find to
auto detect compilers.
* Improve docs
* Check if stdin is a tty
* add a test
Many packages implement logic at the class level to handle complex dependencies and
conflicts. Others have started using `with when("@1.0"):` blocks since we added that
capability. The loops and other control logic can cause some pure directive logic not to
be removed by our package hashing logic -- and in many cases that's a lot of code that
will cause unnecessary rebuilds.
This commit changes the unparser so that it will descend into these blocks. Specifically:
1. Descend into loops, if statements, and with blocks at the class level.
2. Don't look inside function definitions (in or outside a class).
3. Don't look at nested class definitions (they don't have directives)
4. Add logic to *remove* empty loops/with blocks/if statements if all directives
in them were removed.
This allows our package hash to ignore a lot of pure metadata that it was not ignoring
before, and makes it less sensitive.
In addition, we add `maintainers` and `tags` to the list of metadata attributes that
Spack should remove from packages when constructing canonoical source for a package
hash.
- [x] Make unparser handle if/for/while/with at class level.
- [x] Add tests for control logic removal.
- [x] Add a test to ensure that all packages are not only unparseable, but also
that their canonical source is still compilable. This is a test for
our control logic removal.
- [x] Add another unparse test package that has complex logic.
These are the unit tests from astunparse, converted to pytest, with a few backports from
upstream cpython. These should hopefully keep `unparser.py` well covered as we change it.
We can't tell `print(a, b, c)` and `print((a, b, c))` apart -- both of these expressions
generate different ASTs in Python 2 and Python 3. However, we can decide that we don't
care. This commit treats both of them the same when `py_ver_consistent` is set with
`unparse()`.
This means that the package hash won't notice changes from printing a tuple to printing
multiple values, but we don't care, because this is extremely unlikely to affect the build.
More than likely this is just an error message for the user of the package.
- [x] treat `print(a, b, c)` and `print((a, b, c))` the same in py2 and py3
- [x] add another package parsing test -- legion -- that exercises this feature
To make it easier to see how package hashes change and how they are computed, add two
commands:
* `spack pkg source <spec>`: dumps source code for a package to the terminal
* `spack pkg source --canonical <spec>`: dumps canonicalized source code for a
package to the terminal. It strips comments, directives, and known-unused
multimethods from the package. It is used to generate package hashes.
* `spack pkg hash <spec>`: This gives the package hash for a particular spec.
It is generated from the canonical source code for the spec.
- [x] `add spack pkg source` and `spack pkg hash`
- [x] add tests
- [x] fix bug in multimethod resolution with boolean `@when` values
Co-authored-by: Greg Becker <becker33@llnl.gov>
We are planning to switch to using full hashes for Spack specs, which means that the
package hash will be included in the deployment descriptor. This means we need a more
robust package hash than simply dumping the `repr` of the AST.
The AST repr that we previously used for package content is unreliable because it can
vary between python versions (Python's AST actually changes fairly frequently).
- [x] change `package_hash`, `package_ast`, and `canonical_source` to accept a string for
alternate source instead of a filename.
- [x] consolidate package hash tests in `test/util/package_hash.py`.
- [x] remove old `package_content` method.
- [x] make `package_hash` do what `canonical_source_hash` was doing before.
- [x] modify `content_hash` in `package.py` to use the new `package_hash` function.
Co-authored-by: Danny McClanahan <1305167+cosmicexplorer@users.noreply.github.com>
Our package hash is supposed to be consistent from python version to python version.
Test this by adding some known unparse inputs and ensuring that they always have the
same canonical hash. This test relies on the fact that we run Spack's unit tests
across many python versions. We can't compute for several python versions within the
same test run so we precompute the hashes and check them in CI.
Package hashing was not properly handling multimethods. In particular, it was removing
any functions that had decorators from the output, so we'd miss things like
`@run_after("install")`, etc.
There were also problems with handling multiple `@when`'s in a single file, and with
handling `@when` functions that *had* to be evaluated dynamically.
- [x] Rework static `@when` resolution for package hash
- [x] Ensure that functions with decorators are not removed from output
- [x] Add tests for many different @when scenarios (multiple @when's,
combining with other decorators, default/no default, etc.)
Co-authored-by: Danny McClanahan <1305167+cosmicexplorer@users.noreply.github.com>
Previously we used `directives.__all__` to get directive names, but it wasn't
quite right -- it included `DirectiveMeta`, etc. It's not wrong, but it's also
not the clearest way to do this.
- [x] Refactor `@directive` to track names in `directive_names` global
- [x] Rename `_directive_names` to `_directive_dict_names` in `DirectiveMeta`
- [x] Add a test for `RemoveDirectives`
Co-authored-by: Danny McClanahan <1305167+cosmicexplorer@users.noreply.github.com>
Some packages use top-level unassigned strings instead of comments, either just after a
docstring on in the body somewhere else. Ignore those strings becasue they have no
effect on package behavior.
- [x] adjust RemoveDocstrings to remove all free-standing strings.
- [x] move tests for util/package_hash.py to test/util/package_hash.py
Co-authored-by: Danny McClanahan <1305167+cosmicexplorer@users.noreply.github.com>
Python 2 and 3 represent string literals differently in the AST. Python 2 requires '\x'
literals, and Python 3 source is always unicode, and allows unicode to be written
directly. These also unparse differently by default.
- [x] modify unparser to write both out the way `repr` would in Python 2 when
`py_ver_consistent` is provided.
Backport operator precedence algorithm from here:
397b96f6d7
This eliminates unnecessary parentheses from our unparsed output and makes Spack's unparser
consistent with the one in upstream Python 3.9+, with one exception.
Our parser normalizes argument order when `py_ver_consistent` is set, so that star arguments
in function calls come last. We have to do this because Python 2's AST doesn't have information
about their actual order.
If we ever support only Python 3.9 and higher, we can easily switch over to `ast.unparse`, as
the unparsing is consistent except for this detail (modulo future changes to `ast.unparse`)
Previously, there were differences in the unparsed code for Python 2.7 and for 3.5-3.10.
This makes unparsed code the same across these Python versions by:
1. Ensuring there are no spaces between unary operators and
their operands.
2. Ensuring that *args and **kwargs are always the last arguments,
regardless of the python version.
3. Always unparsing print as a function.
4. Not putting an extra comma after Python 2 class definitions.
Without these changes, the same source can generate different code for different
Python versions, depending on subtle AST differences.
One place where single source will generate an inconsistent AST is with
multi-argument print statements, e.g.:
```
print("foo", "bar", "baz")
```
In Python 2, this prints a tuple; in Python 3, it is the print function with
multiple arguments. Use `from __future__ import print_function` to avoid
this inconsistency.
Add `astunparse` as `spack_astunparse`. This library unparses Python ASTs and we're
adding it under our own name so that we can make modifications to it.
Ultimately this will be used to make `package_hash` consistent across Python versions.
* Python: set default config_vars
* Add missing commas
* dso_suffix not present for some reason
* Remove use of default_site_packages_dir
* Use config_vars during bootstrapping too
* Catch more errors
* Fix unit tests
* Catch more errors
* Update docstring
This reports the kernel version (vs. the distro version) on Linux and
returns a valid Version (stripping characters like '+' which may be
present for custom-built kernels).
Add a new check to `spack audit` to scan and verify that version constraints may be satisfied
Modifications:
- [x] Add a new check to `spack audit` to scan and verify that version constraints may be satisfied by some version declared in the built-in repository
- [x] Fix issues found by CI
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>
This command pokes the environment, Python interpreter
and bootstrap store to check if dependencies needed by
Spack are available.
If any are missing, it shows a comprehensible message.
* locks: allow locks to work under high contention
This is a bug found by Harshitha Menon.
The `lock=None` line shouldn't be a release but should be
```
return (lock_type, None)
```
to inform the caller it couldn't get the lock type requested without
disturbing the existing lock object in the database. There were also a
couple of bugs due to taking write locks at the beginning without any
checking or release, and not releasing read locks before requeueing.
This version no longer gives me read upgrade to write errors, even
running 200 instances on one box.
* Change lock in check_deps_status to read, release if not installed,
not sure why this was ever write, but read definitely is more
appropriate here, and the read lock is only held out of the scope if
the package is installed.
* Release read lock before requeueing to reduce chance of livelock, the
timeout that caused the original issue now happens in roughly 3 of 200
workers instead of 199 on average.
With this commit:
```
$ spack env activate --temp
$ spack install zlib
==> All of the packages are already installed
==> Updating view at /tmp/spack-faiirgmt/.spack-env/view
$ spack install zlib
==> All of the packages are already installed
```
Before this PR:
```
$ spack env activate --temp
$ spack install zlib
==> All of the packages are already installed
$ spack install zlib
==> All of the packages are already installed
```
No view was generated
This commit introduces the command
spack module tcl setdefault <package>
similar to the one already available for lmod
Co-authored-by: Massimiliano Culpo <massimiliano.culpo@gmail.com>
When running `spack install --log-format junit|cdash ...`, install
errors were ignored. This made spack continue building dependents of
failed install, ignoring `--fail-fast`, and exit 0 at the end.
* locks: allow locks to work under high contention
This is a bug found by Harshitha Menon.
The `lock=None` line shouldn't be a release but should be
```
return (lock_type, None)
```
to inform the caller it couldn't get the lock type requested without
disturbing the existing lock object in the database. There were also a
couple of bugs due to taking write locks at the beginning without any
checking or release, and not releasing read locks before requeueing.
This version no longer gives me read upgrade to write errors, even
running 200 instances on one box.
* Change lock in check_deps_status to read, release if not installed,
not sure why this was ever write, but read definitely is more
appropriate here, and the read lock is only held out of the scope if
the package is installed.
* Release read lock before requeueing to reduce chance of livelock, the
timeout that caused the original issue now happens in roughly 3 of 200
workers instead of 199 on average.
Fixes#27652
Ensure that mirror's to_dict function returns a syaml_dict object for all code
paths.
Switch to using the .get function for accessing the potential information from
the S3 mirror objects. If the key is not there, it will gracefully return
None instead of failing with a KeyError
Additionally, check that the connection object is a dictionary before trying
to "get" from it.
Add a test for the capturing of the new S3 information.
With this commit:
```
$ spack env activate --temp
$ spack install zlib
==> All of the packages are already installed
==> Updating view at /tmp/spack-faiirgmt/.spack-env/view
$ spack install zlib
==> All of the packages are already installed
```
Before this PR:
```
$ spack env activate --temp
$ spack install zlib
==> All of the packages are already installed
$ spack install zlib
==> All of the packages are already installed
```
No view was generated
Updates to installer.py did not account for spack monitor, so as currently implemented
there are three cases of failure that spack monitor will not account for. To fix this we add additional
hooks, including an on cancel and also do a custom action on concretization fail.
Signed-off-by: vsoch <vsoch@users.noreply.github.com>
Co-authored-by: vsoch <vsoch@users.noreply.github.com>
The latest version of `jsonschema` fails if we're not specific about which schema draft
specification we're using. Update all of them to use the latest one (draft-07).
Our `jsonschema` external won't support Python 3.10, so we need to upgrade it.
It currently generates this warning:
lib/spack/external/jsonschema/compat.py:6: DeprecationWarning: Using or importing the ABCs
from 'collections' instead of from 'collections.abc' is deprecated since Python 3.3, and
in 3.10 it will stop working
This upgrades `jsonschema` to 3.2.0, the latest version with support for Python 2.7. The next
version after this (4.0.0) drops support for 2.7 and 3.6, so we'll have to wait to upgrade to it.
Dependencies have been added in prior commits.
spack monitor now requires authentication as each build must be associated
with a user, so it does not make sense to allow the --monitor-no-auth flag
and this commit will remove it
This commit introduces the command
spack module tcl setdefault <package>
similar to the one already available for lmod
Co-authored-by: Massimiliano Culpo <massimiliano.culpo@gmail.com>
This PR also slightly changes the behavior in ci_rebuild().
We now still attempt to submit `spack install` results to CDash
even if the initial registration failed due to connection issues.
This commit follows in the spirit of #24299. We do not want `spack install`
to exit with a non-zero status when something goes wrong while attempting to
report results to CDash.
This PR is meant to move code with "business logic" from `spack.cmd.buildcache` to appropriate core modules[^1].
Modifications:
- [x] Add `spack.binary_distribution.push` to create a binary package from a spec and push it to a mirror
- [x] Add `spack.binary_distribution.install_root_node` to install only the root node of a concrete spec from a buildcache (may check the sha256 sum if it is passed in as input)
- [x] Add `spack.binary_distribution.install_single_spec` to install a single concrete spec from a buildcache
- [x] Add `spack.binary_distribution.download_single_spec` to download a single concrete spec from a buildcache to a local destination
- [x] Add `Spec.from_specfile` that construct a spec given the path of a JSON or YAML spec file
- [x] Removed logic from `spack.cmd.buildcache`
- [x] Removed calls to `spack.cmd.buildcache` in `spack.bootstrap`
- [x] Deprecate `spack buildcache copy` with a message that says it will be removed in v0.19.0
[^1]: The rationale is that commands should be lightweight wrappers of the core API, since that helps with both testing and scripting (easier mocking and no need to invoke `SpackCommand`s in a script).
After this PR an error in a single package while detecting
external software won't abort the entire procedure.
The error is reported to screen as a warning.
Remove a try/catch for an error with no handling. If the affected
code doesn't execute successfully, then the associated variable
is undefined and another (more-obscure) error occurs shortly after.
Remove a custom bootstrapping procedure to
use spack.bootstrap instead
Modifications:
* Reference count the bootstrap context manager
* Avoid SpackCommand to make the bootstrapping
procedure more transparent
* Put back requirement on patchelf being in PATH for unit tests
* Add an e2e test to check bootstrapping patchelf
I think this test should be removed, but when it stays, it should at
least follow the symlink, cause it fails for me if I let spack build
patchelf and have a symlink in a view.
Modifications:
- [x] Removed `centos:6` unit test, adjusted vermin checks
- [x] Removed backport of `collections.OrderedDict`
- [x] Removed backport of `functools.total_ordering`
- [x] Removed Python 2.6 specific skip markers in unit tests
- [x] Fixed a few minor Python 2.6 related TODOs in code
Updating the vendored dependencies will be done in separate PRs
* Make CUDA and ROCm architecture conditional
fixes#14337
The variant to specify which architecture to use
for CUDA and ROCm are now conditional on +cuda and
+rocm respectively.
* cp2k: make all CUDA related variants conditional on +cuda
* Add connection specification to mirror creation
This allows each mirror to contain information about the credentials
used to access it.
Update command and tests based on comments
Switch to only "long form" flags for the s3 connection information.
Use the "any" function instead of checking for an empty list when looking
for s3 connection information.
Split test to use the access token separately from the access id and key.
Use long flag form in test.
Add endpoint_url to available S3 options.
Extend the special parameters for an S3 mirror to accept the
endpoint_url parameter.
Add a test.
* Add connection information per URL not per mirror
Expand the mirror-based connection information to be per-URL.
This will allow a user to specify different S3 connection information
for both the fetch and the push URLs.
Add a parameter for "profile", another way of storing the id/secret pair.
* Switch from "access_profile" to "profile"
Remove the "get_executable" function from the
spack.bootstrap module. Now "flake8", "isort",
"mypy" and "black" will use the same
bootstrapping method as GnuPG.
Currently Spack vendors `pytest` at a version which is three major
versions behind the latest (3.2.5 vs. 6.2.4). We do that since v3.2.5
is the latest version supporting Python 2.6. Remaining so much
behind the currently supported versions though might introduce
some incompatibilities and is surely a technical debt.
This PR modifies Spack to:
- Use the vendored `pytest@3.2.5` only as a fallback solution,
if the Python interpreter used for Spack doesn't provide a newer one
- Be able to parse `pytest --collect-only` in all the different output
formats from v3.2.5 to v6.2.4 and use it consistently for `spack unit-test --list-*`
- Updating the unit tests in Github Actions to use a more recent `pytest` version
This type of error is skipped:
make[1]: *** [Makefile:222: /tmp/user/spack-stage/.../spack-src/usr/lib/julia/libopenblas64_.so.so] Error 1
but it's useful to have it, especially when a package sets a variable
incorrectly in makefiles
Intel mpi comes with an installation of libfabric (which it needs as a
dependency). It can use other implementations of libfabric at runtime
though, so if you install a package that depends on `mpi` and
`libfabric`, you can specify `intel-mpi+external-libfabric` and ensure
that the Spack-built instance is used (both by `intel-mpi` and the
root).
Apply analogous change to intel-oneapi-mpi.
When running `spack install --log-format junit|cdash ...`, install
errors were ignored. This made spack continue building dependents of
failed install, ignoring `--fail-fast`, and exit 0 at the end.
* Python tests: allow importing weirdly-named modules
e.g. with dashes in name
* SIP tests: allow importing weirdly-named modules
* Skip modules with invalid names
* Changes from review
* Update from review
* Update from review
* Cleanup
* Prevent additional properties to be in the answer set when reusing specs
fixes#27237
The mechanism to reuse concrete specs relies on imposing
the set of constraints stemming from the concrete spec
being reused.
We also need to prevent that other constraints get added
to this set.
See #25249 and https://github.com/spack/spack/pull/27159#issuecomment-958163679.
This adds `spack load --list` as an alias for `spack find --loaded`. The new command is
not as powerful as `spack find --loaded`, as you can't combine it with all the queries or
formats that `spack find` provides. However, it is more intuitively located in the command
structure in that it appears in the output of `spack load --help`.
The idea here is that people can use `spack load --list` for simple stuff but fall back to
`spack find --loaded` if they need more.
- add help to `spack load --list` that references `spack find`
- factor some parts of `spack find` out to be called from `spack load`
- add shell tests
- update docs
Co-authored-by: Peter Josef Scheibel <scheibel1@llnl.gov>
Co-authored-by: Richarda Butler <39577672+RikkiButler20@users.noreply.github.com>
Reformulate variant rules so that we minimize both
1. The number of non-default values being used
2. The number of default values not-being used
This is crucial for MV variants where we may have
more than one default value
In our tests, we use concrete specs generated from mock packages,
which *only* occur as inputs to the solver. This fixes two problems:
1. We weren't previously adding facts to encode the necessary
`depends_on()` relationships, and specs were unsatisfiable on
reachability.
2. Our hash lookup for reconstructing the DAG does not
consider that a hash may have come from the inputs.
Concrete specs that are already installed or that come from a buildcache
may have compilers and variant settings that we do not recognize, but that
shouldn't prevent reuse (at least not until we have a more detailed compiler
model).
- [x] make sure compiler and variant consistency rules only apply to
built specs
- [x] don't validate concrete specs on input, either -- they're concrete
and we shouldn't apply today's rules to yesterday's build
In switching to hash facts for concrete specs, we lost the transitive facts
from dependencies. This was fine for solves, because they were implied by
the imposed constraints from every hash. However, for `spack diff`, we want
to see what the hashes mean, so we need another mode for `spec_clauses()` to
show that.
This adds a `expand_hashes` argument to `spec_clauses()` that allows us to
output *both* the hashes and their implications on dependencies. We use
this mode in `spack diff`.
- [x] Get rid of forgotten maximize directive.
- [x] Simplify variant handling
- [x] Fix bug in treatment of defaults on externals (don't count
non-default variants on externals against them)
Variants in concrete specs are "always" correct -- or at least we assume
them to be b/c they were concretized before. Their variants need not match
the current version of the package.
Multi-valued variants previously maximized default values to handle
cases where the default contained two values, e.g.:
variant("foo", default="bar,baz")
This is because previously we were minimizing non-default values, and
`foo=bar`, `foo=baz`, and `foo=bar,baz` all had the same score, as
none of them had any "non-default" values.
This commit changes the approach and considers a non-default value
to be either a value set to something not default *or* the absence
of a default value from the set value. This allows multi- and
single-valued variants to be handled the same way, with the same
minimization criterion. It alse means that the "best" value for every
optimization criterion is now zero, which allows us to make useful
assumptions about the optimization criteria.
Minimizing builds is tricky. We want a minimizing criterion because
we want to reuse the avaialble installs, but we also want things that
have to be built to stick to *default preferences* from the package
and from the user. We therefore treat built specs differently and
apply a different set of optimization criteria to them. Spack's *first*
priority is to reuse what it can, but if it builds something, the built
specs will respect defaults and preferences.
This is implemented by bumping the priority of optimization criteria
for built specs -- so that they take precedence over the otherwise
topmost-priority criterion to reuse what is installed.
The scheme relies on all of our optimization criteria being minimizations.
That is, we need the case where all specs are reused to be better than
any built spec could be. Basically, if nothing is built, all the build
criteria are zero (the best possible) and the number of built packages
dominates. If something *has* to be built, it must be strictly worse
than full reuse, because:
1. it increases the number of built specs
2. it must have either zero or some positive number for all criteria
Our optimziation criteria effectively sum into two buckets at once to
accomplish this. We use a `build_priority()` number to shift the
priority of optimization criteria for built specs higher.
The constraints in the `spack diff` test were very specific and assumed
a lot about the structure of what was being diffed. Relax them a bit to
make them more resilient to changes.
Make the first minimization conditional on whether `--reuse` is enabled in the solve.
If `--reuse` is not enabled, there will be nothing in the set to minimize and the
objective function (for this criterion) will be 0 for every answer set.
Many of the integrity constraints in the concretizer are there to restrict how solves are done, but
they ignore that past solves may have had different initial conditions. For example, for things
we're building, we want the allowed variants to be restricted to those currently in Spack packages,
but if we are reusing a concrete spec, we need to be flexible about names that may have existed in
old packages.
Similarly, restrictions around compatibility of OS's, compiler versions, compiler OS support, etc.
are really only about what is supported by the *current* set of compilers/build tools known to
Spack, not about what we may get from concrete specs.
- [x] restrict certain integrity constraints to only apply to packages that we need to build, and
omit concrete specs from consideration.
The OS logic in the concretizer is still the way it was in the first version.
Defaults are implemented in a fairly inflexible way using straight logic. Most
of the other sections have been reworked to leave these kinds of decisions to
optimization. This commit does that for OS's as well.
As with targets, we optimize for target matches. We also try to optimize for
OS matches between nodes. Additionally, this commit adds the notion of
"OS compatibility" where we allow for builds to depend on binaries for certain
other OS's. e.g, for macos, a bigsur build can depend on an already installed
(concrete) catalina build. One cool thing about this is that we can declare
additional compatible OS's later, e.g. CentOS and RHEL.
If we don't rename Spack will fail with:
```
ImportError: cannot bootstrap the "clingo" Python module from spec "clingo-bootstrap@spack+python %gcc target=x86_64" due to the following failures:
'spack-install' raised ValueError: Invalid config scope: 'bootstrap'. Must be one of odict_keys(['_builtin', 'defaults', 'defaults/cray', 'bootstrap/cray', 'disable_modules', 'overrides-0'])
Please run `spack -d spec zlib` for more verbose error messages
```
in case bootstrapping from binaries fails and we are
falling back to bootstrapping from sources.
A common question from users has been how to model variants
that are new in new versions of a package, or variants that are
dependent on other variants. Our stock answer so far has been
an unsatisfying combination of "just have it do nothing in the old
version" and "tell Spack it conflicts".
This PR enables conditional variants, on any spec condition. The
syntax is straightforward, and matches that of previous features.
* GnuPG: allow bootstrapping from buildcache and sources
* Add a test to bootstrap GnuPG from binaries
* Disable bootstrapping in tests
* Add e2e test to bootstrap GnuPG from sources on Ubuntu
* Add e2e test to bootstrap GnuPG on macOS
This PR adds error message sentinels to the clingo solve, attached to each of the rules that could fail a solve. The unsat core is then restricted to these messages, which makes the minimization problem tractable. Errors that can only be generated by a bug in the logic program or generating code are prefaced with "Internal error" to make clear to users that something has gone wrong on the Spack side of things.
* minimize unsat cores manually
* only errors messages are choices/assumptions for performance
* pre-check for unreachable nodes
* update tests for new error message
* make clingo concretization errors show up in cdash reports fully
* clingo: make import of clingo.ast parsing routines robust to clingo version
Older `clingo` has `parse_string`; newer `clingo` has `parse_files`. Make the
code work wtih both.
* make AST access functions backward-compatible with clingo 5.4.0
Clingo AST API has changed since 5.4.0; make some functions to help us
handle both versions of the AST.
Co-authored-by: Todd Gamblin <tgamblin@llnl.gov>
After #26608 I got a report about missing rpaths when building a
downstream package independently using a spack-installed toolchain
(@tmdelellis). This occurred because the spack-installed libraries were
being linked into the downstream app, but the rpaths were not being
manually added. Prior to #26608 autotools-installed libs would retain
their hard-coded path and would thus propagate their link information
into the downstream library on mac.
We could solve this problem *if* the mac linker (ld) respected
`LD_RUN_PATH` like it does on GNU systems, i.e. adding `rpath` entries
to each item in the environment variable. However on mac we would have
to manually add rpaths either using spack's compiler wrapper scripts or
manually (e.g. using `CMAKE_BUILD_RPATH` and pointing to the libraries of
all the autotools-installed spack libraries).
The easier and safer thing to do for now is to simply stop changing the
dylib IDs.
The `--generic` argument allows printing the best generic target for the
current machine. This can be quite handy when wanting to find the
generic architecture to use when building a shared software stack for
multiple machines.
This PR adds a "spack tags" command to output package tags or
(available) packages with those tags. It also ensures each package
is listed in the tag cache ONLY ONCE per tag.
- [x] Allow dding enumerated types and types whose default value is forbidden by the schema
- [x] Add a test for using enumerated types in the tests for `spack config add`
- [x] Make `config add` tests use the `mutable_config` fixture so they do not
affect other tests
Co-authored-by: Todd Gamblin <tgamblin@llnl.gov>
If you don't format `spack.yaml` correctly, `spack config edit` still fails and
you have to edit your `spack.yaml` manually.
- [x] Add some code to `_main()` to defer `ConfigFormatError` when loading the
environment, until we know what command is being run.
- [x] Make `spack config edit` use `SPACK_ENV` instead of the config scope
object to find `spack.yaml`, so it can work even if the environment is bad.
Co-authored-by: scheibelp <scheibel1@llnl.gov>
`spack config get <section>` was erroneously returning just the `spack.yaml`
for the environment.
It should return the combined configuration for that section (including
anything from `spack.yaml`), even in an environment.
- [x] reorder conditions in `cmd/config.py` to fix
`spack --debug config edit` was not working properly -- it would not do show a
stack trace for configuration errors.
- [x] Rework `_main()` and add some notes for maintainers on where things need
to go for configuration to work properly.
- [x] Move config setup to *after* command-line parsing is done.
Co-authored-by: scheibelp <scheibel1@llnl.gov>
`main()` has grown, and in some cases code that can generate errors has gotten
outside the top-level try/catch in there. This means that simple errors like
config issues give you large stack traces, which shouldn't happen without
`--debug`.
- [x] Split `main()` into `main()` for the top-level error handling and
`_main()` with all logic.
There were some loose ends left in ##26735 that cause errors when
using `SPACK_DISABLE_LOCAL_CONFIG`.
- [x] Fix hard-coded `~/.spack` references in `install_test.py` and `monitor.py`
Also, if `SPACK_DISABLE_LOCAL_CONFIG` is used, there is the issue that
`$user_config_path`, when used in configuration files, makes no sense,
because there is no user config scope.
Since we already have `$user_cache_path` in configuration files, and since there
really shouldn't be *any* data stored in a configuration scope (which is what
you'd configure in `config.yaml`/`bootstrap.yaml`/etc., this just removes
`$user_config_path`.
There will *always* be a `$user_cache_path`, as Spack needs to write files, but
we shouldn't rely on the existence of a particular configuration scope in the
Spack code, as scopes are configurable, both in number and location.
- [x] Remove `$user_config_path` substitution.
- [x] Fix reference to `$user_config_path` in `etc/spack/deaults/bootstrap.yaml`
to refer to `$user_cache_path`, which is where it was intended to be.
* Deactivate previous env before activating new one
Currently on develop you can run `spack env activate` multiple times to switch
between environments, but they leave traces, even though Spack only supports
one active environment at a time.
Currently:
```console
$ spack env create a
$ spack env create b
$ spack env activate -p a
[a] $ spack env activate -p b
[b] [a] $ spack env activate -p b
[a] [b] [a] $ spack env activate -p a
[a] [b] [c] $ echo $MANPATH | tr ":" "\n"
/path/to/environments/a/.spack-env/view/share/man
/path/to/environments/a/.spack-env/view/man
/path/to/environments/b/.spack-env/view/share/man
/path/to/environments/b/.spack-env/view/man
```
This PR fixes that:
```console
$ spack env activate -p a
[a] $ spack env activate -p b
[b] $ spack env activate -p a
[a] $ echo $MANPATH | tr ":" "\n"
/path/to/environments/a/.spack-env/view/share/man
/path/to/environments/a/.spack-env/view/man
```
* Drastically improve YamlFilesystemView file removal via batching
The `remove_file` routine has to check if the file is owned by multiple packages, so it doesn't
remove necessary files. This is done by the `get_all_specs` routine, which walks the entire
package tree. With large numbers of packages on shared file systems, this can take seconds
per file tree traversal, which adds up extremely quickly. For example, a single deactivate
of a largish python package in our software stack on GPFS took approximately 40 minutes.
This patch simply replaces `remove_file` with a batch `remove_files` routine. This routine
removes a list of files rather than a single file, requiring only one traversal per batch. In
practice this means a package can be removed in seconds time, rather than potentially hours,
essentially a ~100x speedup (ignoring initial deactivation logic, which takes about 3 minutes
in our test setup).
* Fix sbang hook for non-writable files
PR #26793 seems to have broken the sbang hook for files with missing
write permissions. Installing perl now breaks with the following error:
```
==> [2021-10-28-12:09:26.832759] Error: PermissionError: [Errno 13] Permission denied: '$SPACK/opt/spack/linux-fedora34-zen2/gcc-11.2.1/perl-5.34.0-afuweplnhphcojcowsc2mb5ngncmczk4/bin/cpanm'
```
Temporarily add write permissions to the original file so it can be
overwritten with the patched one.
And test that file permissions are preserved in sbang even for non-writable files
Co-authored-by: Harmen Stoppels <harmenstoppels@gmail.com>
When relocating a binary distribution, Spack only checks files to see
if they are a link that needs to be relocated. Directories can be
such links as well, however, and need to undergo the same checks
and potential relocation.
`spack list` tests are not using mock packages for some reason, and many
are marked as potentially slow. This isn't really necessary; we don't need
6,000 packages to test the command.
- [x] update tests to use `mock_packages` fixture
- [x] remove `maybeslow` annotations
Currently Spack reads full files containing shebangs to memory as
strings, meaning Spack would have to guess their encoding. Currently
Spack has a fixed guess of UTF-8.
This is unnecessary, since e.g. the Linux kernel does not assume an
encoding on paths at all, it's just bytes and some delimiters on the
byte level.
This commit does the following:
1. Shebangs are treated as bytes, so that e.g. latin1 encoded files do
not throw UnicodeEncoding errors, and adds a test for this.
2. No more bytes than necessary are read to memory, we only have to read
until the first newline, and from there on we an copy the file byte by
bytes instead of decoding and re-encoding text.
3. We cap the number of bytes read to 4096, if no newline is found
before that, we don't attempt to patch it.
4. Add support for luajit too.
This should make Spack both more efficient and usable for non-UTF8
files.
Spack's `system` and `user` scopes provide ways for administrators and
users to set global defaults for all Spack instances, but for use cases
where one wants a clean Spack installation, these scopes can be undesirable.
For example, users may want to opt out of global system configuration, or
they may want to ignore their own home directory settings when running in
a continuous integration environment.
Spack also, by default, keeps various caches and user data in `~/.spack`,
but users may want to override these locations.
Spack provides three environment variables that allow you to override or
opt out of configuration locations:
* `SPACK_USER_CONFIG_PATH`: Override the path to use for the
`user` (`~/.spack`) scope.
* `SPACK_SYSTEM_CONFIG_PATH`: Override the path to use for the
`system` (`/etc/spack`) scope.
* `SPACK_DISABLE_LOCAL_CONFIG`: set this environment variable to completely
disable *both* the system and user configuration directories. Spack will
only consider its own defaults and `site` configuration locations.
And one that allows you to move the default cache location:
* `SPACK_USER_CACHE_PATH`: Override the default path to use for user data
(misc_cache, tests, reports, etc.)
With these settings, if you want to isolate Spack in a CI environment, you can do this:
export SPACK_DISABLE_LOCAL_CONFIG=true
export SPACK_USER_CACHE_PATH=/tmp/spack
This is a stop-gap approach until we have figured out how to deal with
the system and user config scopes more generally, as there are plans to
potentially / eventually get rid of them.
**User config**
Spack is a bit of a pain when you have:
- a shared $HOME folder across different systems.
- multiple Spack versions on the same system.
**System config**
- On shared systems with a versioned programming environment / toolkit,
system administrators want to provide config for each version (e.g.
21.09, 21.10) of the programming environment, and the user Spack
instance should be able to pick this up without a steep learning
curve.
- On shared systems the user should be able to opt out of the
hard-coded config scope in /etc/spack, since it may be incompatible
with their particular instance. Currently Spack can only opt out of all
config scopes through overrides with `"config:":`, `"packages:":`, but that
also drops the defaults config, which would have to be repeated, which
is undesirable, especially the lengthy packages.yaml.
An example use case is: having config in this folder:
```
/path/to/programming/environment/{version}/{compilers,packages}.yaml
```
and have `module load spack-system-config` set the variable
```
SPACK_SYSTEM_CONFIG_PATH=/path/to/programming/environment/{version}
```
where the user no longer has to worry about what `{version}` they are
on.
**Continuous integration**
Finally, there is the use case of continuous integration, which may
clone an arbitrary Spack version, which optimally should not pick up
system or user config from the previous run (like may happen in
classical bare metal non-containerized filesystem side effect ridden
jenkins pipelines). In fact this is very similar to how spack itself
tries to avoid picking up system dependencies during builds...
**But environments solve this?**
- You could do `include`s in environment files to get similar behavior
to the spack_system_config_path example, but environments require you
to:
1) require paths to individual config files, not directories.
2) fail if the listed config file does not exist
- They allow you to override config scopes, but this is generally too
rigurous, as it requires you to repeat the default config, in
particular packages.yaml, and just defies the point of layered config.
Co-authored-by: Tom Scogland <tscogland@llnl.gov>
Co-authored-by: Tim Fuller <tjfulle@sandia.gov>
Co-authored-by: Steve Leak <sleak@lbl.gov>
Co-authored-by: Todd Gamblin <tgamblin@llnl.gov>
Any spec satisfying a default will be symlinked to `default`
If multiple specs have modulefiles in the same directory and satisfy
configured module defaults, then whichever was written last will be
default.
This PR permits to specify the `url` and `ref` of the Spack instance used in a container recipe simply by expanding the YAML schema as outlined in #20442:
```yaml
container:
images:
os: amazonlinux:2
spack:
ref: develop
resolve_sha: true
```
The `resolve_sha` option, if true, verifies the `ref` by cloning the Spack repository in a temporary directory and transforming any tag or branch name to a commit sha. When this new ability is leveraged an additional "bootstrap" stage is added, which builds an image with Spack setup and ready to install software. The Spack repository to be used can be customized with the `url` keyword under `spack`.
Modifications:
- [x] Permit to pin the version of Spack, either by branch or tag or sha
- [x] Added a few new OSes (centos:8, amazonlinux:2, ubuntu:20.04, alpine:3, cuda:11.2.1)
- [x] Permit to print the bootstrap image as a standalone
- [x] Add documentation on the new part of the schema
- [x] Add unit tests for different use cases
1. Currently it prints not just the spec name, but the dependencies +
their variants + their compilers + their architectures + ...
2. It's clear from the context what spec the message applies to, so,
let's not print the spec at all.
These three rules in `concretize.lp` are overly complex:
```prolog
:- not provider(Package, Virtual),
provides_virtual(Package, Virtual),
virtual_node(Virtual).
```
```prolog
:- provides_virtual(Package, V1), provides_virtual(Package, V2), V1 != V2,
provider(Package, V1), not provider(Package, V2),
virtual_node(V1), virtual_node(V2).
```
```prolog
provider(Package, Virtual) :- root(Package), provides_virtual(Package, Virtual).
```
and they can be simplified to just:
```prolog
provider(Package, Virtual) :- node(Package), provides_virtual(Package, Virtual).
```
- [x] simplify virtual rules to just one implication
- [x] rename `provides_virtual` to `virtual_condition_holds`
fixes#26866
This semantics fits with the way Spack currently treats providers of
virtual dependencies. It needs to be revisited when #15569 is reworked
with a new syntax.
* py-vermin: add latest version 1.3.1
* Exclude line from Vermin since version is already being checked for
Vermin 1.3.1 finds that `encoding` kwarg of builtin `open()` requires Python 3+.
The OS should only interpret shebangs, if a file is executable.
Thus, there should be no need to modify files where no execute bit is set.
This solves issues that are e.g. encountered while packaging software as
COVISE (https://github.com/hlrs-vis/covise), which includes example data
in Tecplot format. The sbang post-install hook is applied to every installed
file that starts with the two characters #!, but this fails on the binary Tecplot
files, as they happen to start with #!TDV. Decoding them with UTF-8 fails
and an exception is thrown during post_install.
Co-authored-by: Martin Aumüller <aumuell@reserv.at>
This commit contains changes to support Google Cloud Storage
buckets as mirrors, meant for hosting Spack build-caches. This
feature is beneficial for folks that are running infrastructure on
Google Cloud Platform. On public cloud systems, resources are
ephemeral and in many cases, installing compilers, MPI flavors,
and user packages from scratch takes up considerable time.
Giving users the ability to host a Spack mirror that can store build
caches in GCS buckets offers a clean solution for reducing
application rebuilds for Google Cloud infrastructure.
Co-authored-by: Joe Schoonover <joe@fluidnumerics.com>
* Update cray architecture detection for milan
Update the cray architecture module table with x86-milan -> zen3
Make cray architecture more robust to back off from frontend
architecture to a recent ancestor if necessary. This should make
future cray updates less paingful for users.
Co-authored-by: Gregory Becker <becker33.llnl.gov>
Co-authored-by: Todd Gamblin <gamblin2@llnl.gov>
1. Don't use 16 digits of precision for the seconds, round to 2 digits after the comma
2. Don't print if we don't concretize (i.e. `spack concretize` without `-f` doesn't have to tell me it did nothing in `0.00` seconds)
* Speed-up environment concretization with a process pool
We can exploit the fact that the environment is concretized
separately and use a pool of processes to concretize it.
* Add module spack.util.parallel
Module includes `pool` and `parallel_map` abstractions,
along with implementation details for both.
* Add a new hash type to pass specs across processes
* Add tty msg with concretization time
We use POSIX `patch` to apply patches to files when building, but
`patch` by default prompts the user when it looks like a patch
has already been applied. This means that:
1. If a patch lands in upstream and we don't disable it
in a package, the build will start failing.
2. `spack develop` builds (which keep the stage around) will
fail the second time you try to use them.
To avoid that, we can run `patch` with `-N` (also called
`--forward`, but the long option is not in POSIX). `-N` causes
`patch` to just ignore patches that have already been applied.
This *almost* makes `patch` idempotent, except that it returns 1
when it detects already applied patches with `-N`, so we have to
look at the output of the command to see if it's safe to ignore
the error.
- [x] Remove non-POSIX `-s` option from `patch` call
- [x] Add `-N` option to `patch`
- [x] Ignore error status when `patch` returns 1 due to `-N`
- [x] Add tests for applying a patch twice and applying a bad patch
- [x] Tweak `spack.util.executable` so that it saves the error that
*would have been* raised with `fail_on_error=True`. This lets
us easily re-raise it.
Co-authored-by: Greg Becker <becker33@llnl.gov>
* relocate: call install_name_tool less
* zstd: fix race condition
Multiple times on my mac, trying to install in parallel led to failures
from multiple tasks trying to simultaneously create `$PREFIX/lib`.
* PackageMeta: simplify callback flush
* Relocate: use spack.platforms instead of platform
* Relocate: code improvements
* fix zstd
* Automatically fix rpaths for packages on macOS
* Only change library IDs when the path is already in the rpath
This restores the hardcoded library path for GCC.
* Delete nonexistent rpaths and add more testing
* Relocate: Allow @executable_path and @loader_path
* downgrade_docutils_version
* invalid version
* Update requirements.txt
* Improve spelling and shorten the reference link
* Update spack.yaml
* update version requirement
* update version to maximum of 0.16
Co-authored-by: bernhardkaindl <43588962+bernhardkaindl@users.noreply.github.com>
Currently Spack keeps track of the origin in the code of any
modification to the environment variables. This is very slow
and enabled unconditionally even in code paths where the
origin of the modification is never queried.
The only place where we inspect the origins of environment
modifications is before we start a build, If there's an override
of the type `e.set(...)` after incremental changes like
`e.append_path(..)`, which is a "suspicious" change.
This is very rare though.
If an override like this ever happens, it might mean a package is
broken. If that leads to build errors, we can just ask the user to run
`spack -d install ...` and check the warnings issued by Spack to find
the origins of the problem.
It can be frustrating to successfully run `spack test run --alias <name>` only to find you cannot get the results because you already use `<name>` in some previous stand-alone test execution. This PR prevents that from happening.
Using the Spec.constrain method doesn't work since it might
trigger a repository lookup which could break our directives
and triggers a circular import error.
To fix that we introduce a function to merge abstract anonymous
specs, based only on package names, which does not perform any
lookup in the repository.
The buildcache is now extracted in a temporary folder within the current store,
moved to its final place and relocated.
"spack clean -s" has been extended to also clean the temporary extraction directory.
Add hardlinks with absolute paths for libraries in the corge, garply and quux packages
to detect incorrect handling of hardlinks in tests.
The `find` command was missing for the examples forcing colorized output. Without this (or another suitable) command, spack produces output that is not using any color. Thus, without the `find` command one does not see any difference between forced colorized and non-colorized output.
when deployed on kubernetes, the server sends back permanent redirect responses.
This is elegantly handled by the requests library, but not urllib that we have
to use here, so I have to manually handle it by parsing the exception to
get the Location header, and then retrying the request there.
Signed-off-by: vsoch <vsoch@users.noreply.github.com>
The ASP-based solver maximizes the number of values in multi-valued
variants (if other higher order constraints are met), to avoid cases
where only a subset of the values that have been specified on the
command line or imposed by another constraint are selected.
Here we swap the priority of this optimization target with the
selection of the default providers, to avoid unexpected results
like the one in #26598
Seems like https://bugs.python.org/issue29699 is relevant. Better to
just ignore errors when removing them tmpdir. The OS will remove it
anyways.
Errors are happening randomly from tests that are using this fixture.
TL;DR: there are matching groups trying to match 1 or more occurrences of
something. We don't use the matching group. Therefore it's sufficient to test
for 1 occurrence. This reduce quadratic complexity to linear time.
---
When parsing logs of an mpich build, I'm getting a 4 minute (!!) wait
with 16 threads for regexes to run:
```
In [1]: %time p.parse("mpich.log")
Wall time: 4min 14s
```
That's really unacceptably slow...
After some digging, it seems a few regexes tend to have `O(n^2)` scaling
where `n` is the string / log line length. I don't think they *necessarily*
should scale like that, but it seems that way. The common pattern is this
```
([^:]+): error
```
which matches `: error` literally, and then one or more non-colons before that. So
for a log line like this:
```
abcdefghijklmnopqrstuvwxyz: error etc etc
```
Any of these are potential group matches when using `search` in Python:
```
abcdefghijklmnopqrstuvwxyz
bcdefghijklmnopqrstuvwxyz
cdefghijklmnopqrstuvwxyz
⋮
yz
z
```
but clearly the capture group should return the longest match.
My hypothesis is that Python has a very bad implementation of `search`
that somehow considers all of these, even though it can be implemented
in linear time by scanning for `: error` first, and then greedily expanding
the longest possible `[^:]+` match to the left. If Python indeed considers
all possible matches, then with `n` matches of length `1 .. n` you
see the `O(n^2)` slowness (i verified this by replacing + with {1,k}
and doubling `k`, it doubles the execution time indeed).
This PR fixes this by removing the `+`, so effectively changing the
O(n^2) into a O(n) worst case.
The reason we are fine with dropping `+` is that we don't use the
capture group anywhere, so, we just ensure `:: error` is not a match
but `x: error` is.
After going from O(n^2) to O(n), the 15MB mpich build log is parsed
in `1.288s`, so about 200x faster.
Just to be sure I've also updated `^CMake Error.*:` to `^CMake Error`,
so that it does not match with all the possible `:`'s in the line.
Another option is to use `.*?` there to make it quit scanning as soon as
possible, but what line that starts with `CMake Error` that does not have
a colon is really a false positive...
Installing packages with a lot of dependencies does not have an easy way
of judging the current progress (apart from running `spack spec -I pkg`
in another terminal). This change allows Spack to update the terminal's
title with status information, including its current progress as well as
information about the current and total number of packages.
- Do not store the full list of environment variables in
<prefix>/.spack/spack-build-env.txt because it may contain user secrets.
- Only store environment variable modifications upon installation.
- Variables like PATH may still contain user and system paths to make
spack-build-env.txt sourceable. Variables containing paths are
modified through prepending/appending, and if we don't apply these
to the current environment variable, we end up with statements like
`export PATH=/path/to/spack/bin` with system paths missing, meaning
no system binaries are in the path, which is a bad user experience.
- Do write the full environment to spack-build-env.txt in the staging dir,
but ensure it is readonly for the current user, to make it a bit safer
on shared systems.
Creates an environment in a temporary directory and activates it, which
is useful for a quick ephemeral environment:
```
$ spack env activate -p --temp
[spack-1a203lyg] $ spack add zlib
==> Adding zlib to environment /tmp/spack-1a203lyg
==> Updating view at /tmp/spack-1a203lyg/.spack-env/view
```
The DB should be what is trusted for certain operations.
If it is not present when read we should assume the
corresponding store is empty, rather than trying a
write operation during a read.
* Add a unit test
* Document what needs to be there in tests
When a symlink to a license file exists but is broken, the license symlink post-install hook fails
because os.path.exists() checks the existence of the target not the symlink itself.
os.path.lexists() is the proper function to use.
Environments push/pop scopes upon activation. If some lazily
evaluated value depending on the current configuration was
computed and cached before the scopes are pushed / popped
there will be an inconsistency in the current state.
This PR fixes the issue for stores, but it would be better
to move away from global state.
The `spack.architecture` module contains an `Arch` class that is very similar to `spack.spec.ArchSpec` but points to platform, operating system and target objects rather than "names". There's a TODO in the class since 2016:
abb0f6e27c/lib/spack/spack/architecture.py (L70-L75)
and this PR basically addresses that. Since there are just a few places where the `Arch` class was used, here we query the relevant platform objects where they are needed directly from `spack.platforms`. This permits to clean the code from vestigial logic.
Modifications:
- [x] Remove the `spack.architecture` module and replace its use by `spack.platforms`
- [x] Remove unneeded tests
* Use gnuconfig package for config file replacement for RISC-V.
This extends the changes in #26035 to handle RISC-V. Before this change,
many packages fail to configure on riscv64 due to config.guess being too
old to know about RISC-V. This is seen out of the box when clingo fails
to build from source due to pkgconfig failing to configure, throwing
error: "configure: error: cannot guess build type; you must specify one".
* Add riscv64 architecture
* Update vendored archspec from upstream project.
These archspec updates include changes needed to support riscv64.
* Update archspec's __init__.py to reflect the commit hash of archspec being used.
Cherry-picked from #25564 so this is standalone.
With this PR we can activate an environment in Spack itself, without computing changes to environment variables only necessary for "shell aware" env activation.
1. Activating an environment:
```python
spack.environment.activate(Environment(xyz)) -> None
```
this basically just sets `_active_environment` and modifies some config scopes.
2. Activating an environment **and** getting environment variable modifications for the shell:
```python
spack.environment.shell.activate(Environment(xyz)) -> EnvironmentModifications
```
This should make it easier/faster to do unit tests and scripting with spack, without the cli interface.
* Isolate bootstrap configuration from user configuration
* Search for build dependencies automatically if bootstrapping from sources
The bootstrapping logic will search for build dependencies
automatically if bootstrapping anything form sources. Any
external spec, if found, is written in a scope that is specific
to bootstrapping.
* Don't clean the bootstrap store with "spack clean -a"
* Copy bootstrap.yaml and config.yaml in the bootstrap area
- [x] Our wrapper error messages are sometimes hard to differentiate from other build
output, so prefix all errors from `die()` with '[spack cc] ERROR:'
- [x] The error we raise when running, say, `fc` without a Fortran compiler was not
clear enough. Clarify the message and the comment.
This converts everything in cc to POSIX sh, except for the parts currently
handled with bash arrays. Tests are still passing.
This version tries to be as straightforward as possible. Specifically, most conversions
are kept simple -- convert ifs to ifs, handle indirect expansion the way we do in
`setup-env.sh`, only mess with the logic in `cc`, and don't mess with the python code at
all.
The big refactor is for arrays. We can't rely on bash's nice arrays and be ignorant of
separators anymore. So:
1. To avoid complicated separator logic, there are three types of lists. They are:
* `$lsep`-separated lists, which end with `_list`. `lsep` is customizable, but we
picked `^G` (alarm bell) for `$lsep` because it's ASCII and it's unlikely that it
would actually appear in any arguments. If we need to get fancier (and I will lose
faith in the world if we do) then we could consider XON or XOFF.
* `:`-separated directory lists, which end with `_dirs`, `_DIRS`, `PATH`, or `PATHS`
* Whitespace-separated lists (like flags), which can have any other name.
Whitespace and colon-separated lists come with the territory with PATHs from env
vars and lists of flags. `^G` separated lists are what we use for most internal
variables, b/c it's more likely to work.
2. To avoid subshells, use a bunch of functions that do dirty `eval` stuff instead. This
adds 3 functions to deal with lists:
* `append LISTNAME ELEMENT [SEP]` will put `ELEMENT` at the end of the list called
`LISTNAME`. You can optionally say what separator you expect to use. Note that we
are taking advantage of everything being global and passing lists by name.
* `prepend LISTNAME ELEMENT [SEP]` like append, but puts `ELEMENT` at the start of
`LISTNAME`
* `extend LISTNAME1 LISTNAME2 [PREFIX]` appends everything in LISTNAME2 to
LISTNAME1, and optionally prepends `PREFIX` to every element (this is useful for
things like `-I`, `-isystem `, etc.
* `preextend LISTNAME1 LISTNAME2 [PREFIX]` prepends everything in LISTNAME2 to
LISTNAME1 in order, and optionally prepends `PREFIX` to every element.
The routines determine the separator for each argument by its name, so we don't have to
pass around separators everywhere. Amazingly, as long as you do not expand variables'
values within an `eval` environment, you can do all this and still preserve quoting.
When iterating over lists, the user of this API still has to set and unset `IFS`
properly.
We ended up having to ignore shellcheck SC2034 (unused variable), because using evals
all over the place means that shellcheck doesn't notice that our list variables are
actually used.
So far this is looking pretty good. I took the most complex unit test I could find
(which runs a sample link line) and ran the same command line 200 times in a shell
script. Times are roughly as follows:
For this invocation:
```console
$ bash -c 'time (for i in `seq 1 200`; do ~/test_cc.sh > /dev/null; done)'
```
I get the following performance numbers (the listed shells are what I put in `cc`'s
shebang):
**Original**
* Old version of `cc` with arrays and `bash v3.2.57` (macOS builtin): `4.462s` (`.022s` / call)
* Old version of `cc` with arrays and `bash v5.1.8` (Homebrew): `3.267s` (`.016s` / call)
**Using many subshells (#26408)**
* with `bash v3.2.57`: `25.302s` (`.127s` / call)
* with `bash v5.1.8`: `27.801s` (`.139s` / call)
* with `dash`: `15.302s` (`.077s` / call)
This version didn't seem to work with zsh.
**This PR (no subshells)**
* with `bash v3.2.57`: `4.973s` (`.025s` / call)
* with `bash v5.1.8`: `4.984s` (`.025s` / call)
* with `zsh`: `2.995s` (`.015s` / call)
* with `dash`: `1.890s` (`.0095s` / call)
Dash, with the new posix design, is easily the winner.
So there are several interesting things to note here:
1. Running the posix version in `bash` is slower than using `bash` arrays. That is to be
expected because it's doing a bunch of string processing where it likely did not have
to before, at least in `bash`.
2. `zsh`, at least on macOS, is significantly faster than the ancient `bash` they ship
with the system. Using `zsh` with the new version also makes the posix wrappers
faster than `develop`. So it's worth preferring `zsh` if we have it. I suppose we
should also try this with newer `bash` on Linux.
3. `bash v5.1.8` seems to be significantly faster than the old system `bash v3.2.57` for
arrays. For straight POSIX stuff, it's a little slower. It did not seem to matter
whether `--posix` was used.
4. `dash` is way faster than `bash` or `zsh`, so the real payoff just comes from being
able to use it. I am not sure if that is mostly startup time, but it's significant.
`dash` is ~2.4x faster than the original `bash` with arrays.
So, doing a lot of string stuff is slower than arrays, but converting to posix seems
worth it to be able to exploit `dash`.
- [x] Convert all but array-related portions to sh
- [x] Fix basic shellcheck issues.
- [x] Convert arrays to use a few convenience functions: `append` and `extend`
- [x] Get `cc` tests passing.
- [x] Add `cc` tests where needed passing.
- [x] Benchmarking.
Co-authored-by: Tom Scogland <scogland1@llnl.gov>
Co-authored-by: Danny McClanahan <1305167+cosmicexplorer@users.noreply.github.com>
When using modules for compiler (and/or external package), if a
package's `setup_[dependent_]build_environment` sets `PYTHONHOME`, it
can influence the python subprocess executed to gather module
information.
The error seen was:
```
json.decoder.JSONDecodeError: Expecting value: line 1 column 1 (char 0)
```
But the actual hidden error happened in the `python -c 'import
json...'` subprocess, which made it return an empty string as json:
```
ModuleNotFoundError: No module named 'encodings'
```
This fix uses `python -E` to ignore `PYTHONHOME` and
`PYTHONPATH`. Should be safe here because the python subprocess code
only use packages built-in python.
The python subprocess in `environment.py` was also patched to be safe
and consistent.
* Remove redundant preserve environment code in build environment
* Remove fix for a bug in a module
See https://github.com/spack/spack/issues/3153#issuecomment-280460041,
this shouldn't be part of core spack.
* Don't module unload cray-libsci on all platforms
Spack has logic to preserve an installation prefix when it is being
overwritten: if the new install fails, the old files are restored.
This PR adds error handling for when this backup restoration fails
(i.e. the new install fails, and then some unexpected error prevents
restoration from the backup).
* Remove vestigial code to be compatible with Spack v0.9.X
* ArchSpec: reworked __repr__ to be more adherent to common Python idioms
* ArchSpec: simplified __init__.py and copy()
The logic to perform detection of already installed
packages has been extracted from cmd/external.py
and put into the spack.detection package.
In this way it can be reused programmatically for
other purposes, like bootstrapping.
The new implementation accounts for cases where the
executables are placed in a subdirectory within <prefix>/bin
* Use gnuconfig package for config file replacement
Currently the autotools build system tries to pick up config.sub and
config.guess files from the system (in /usr/share) on arm and power.
This is introduces an implicit system dependency which we can avoid by
distributing config.guess and config.sub files in a separate package,
such as the new `gnuconfig` package which is very lightweight/text only
(unlike automake where we previously pulled these files from as a
backup). This PR adds `gnuconfig` as an unconditional build dependency
for arm and power archs.
In case the user needs a system version of config.sub and config.guess,
they are free to mark `gnuconfig` as an external package with the prefix
pointing to the directory containing the config files:
```yaml
gnuconfig:
externals:
- spec: gnuconfig@master
prefix: /tmp/tmp.ooBlkyAKdw/lol
buildable: false
```
Apart from that, this PR gives some better instructions for users when
replacing config files goes wrong.
* Mock needs this package too now, because autotools adds a depends_on
* Add documentation
* Make patch_config_files a prop, fix the docs, add integrations tests
* Make macOS happy
- Match failed autotest tests show the word "FAILED" near the end
- Match "FAIL: ", "FATAL: ", "failed ", "Failed test" of other suites
- autotest " ok"$ means the test passed, independend of text before.
- autoconf messages showing missing tools are fatal later, show them.
* autotoolspackage.rst: No depends_on('m4') with depends_on('autoconf')
- Remove `m4` from the example depends_on() lines for the autoreconf phase.
- Change the branch used as example from develop to master as it is
far more common in the packages of spack's builtin repo.
- Fix the wrong info that libtoolize and aclocal are run explicitly
in the autoreconf phase by default. autoreconf calls these internally
as needed, thus autotools.py also does not call them directly.
- Add that autoreconf() also adds -I<aclocal-prefix>/share/aclocal.
- Add an example how to set autoreconf_extra_args.
- Add an example of a custom autoreconf phase for running autogen.sh.
Co-authored-by: Harmen Stoppels <harmenstoppels@gmail.com>
This commit shows a template for cut-and-paste into the package to fix it:
```py
==> fast-global-file-status: Executing phase: 'autoreconf'
==> Error: RuntimeError: Cannot generate configure: missing dependencies autoconf, automake, libtool.
Please add the following lines to the package:
depends_on('autoconf', type='build', when='@master')
depends_on('automake', type='build', when='@master')
depends_on('libtool', type='build', when='@master')
Update the version (when='@master') as needed.
```
Co-authored-by: Harmen Stoppels <harmenstoppels@gmail.com>
clean_environment(): Unset three more environment variables:
MAKEFLAGS: Affects make, can eg indirectly inhibit enabling parallel build
DISPLAY: Tests of GUI widget libraries might try to connect to an X server
TERM: Could make testsuites attempt to color their output
fixes#25992
Currently the bootstrapping process may need a compiler.
When bootstrapping from sources the need is obvious, while
when bootstrapping from binaries it's currently needed in
case patchelf is not on the system (since it will be then
bootstrapped from sources).
Before this PR we were searching for compilers as the
first operation, in case they were not declared in
the configuration. This fails in case we start
bootstrapping from within an environment.
The fix is to defer the search until we have swapped
configuration.
While debugging #24508, I noticed that we call `basename` in `cc`. The
same can be achieved by using Bash's parameter expansion, saving one
external process per call.
Parameter expansion cannot replace basename for directories in some
cases, but is guaranteed to work for executables.
Git 2.24 introduced a feature flag for repositories with many files, see:
https://github.blog/2019-11-03-highlights-from-git-2-24/#feature-macros
Since Spack's Git repository contains roughly 8,500 files, it can be
worthwhile to enable this, especially on slow file systems such as NFS:
```
$ hyperfine --warmup 3 'cd spack-default; git status' 'cd spack-manyfiles; git status'
Benchmark #1: cd spack-default; git status
Time (mean ± σ): 3.388 s ± 0.095 s [User: 256.2 ms, System: 625.8 ms]
Range (min … max): 3.168 s … 3.535 s 10 runs
Benchmark #2: cd spack-manyfiles; git status
Time (mean ± σ): 168.7 ms ± 10.9 ms [User: 98.6 ms, System: 126.1 ms]
Range (min … max): 144.8 ms … 188.0 ms 19 runs
Summary
'cd spack-manyfiles; git status' ran
20.09 ± 1.42 times faster than 'cd spack-default; git status'
```
Modifications:
- [x] Change `defaults/config.yaml`
- [x] Add a fix for bootstrapping patchelf from sources if `compilers.yaml` is empty
- [x] Make `SPACK_TEST_SOLVER=clingo` the default for unit-tests
- [x] Fix package failures in the e4s pipeline
Caveats:
1. CentOS 6 still uses the original concretizer as it can't connect to the buildcache due to issues with `ssl` (bootstrapping from sources requires a C++14 capable compiler)
1. I had to update the image tag for GitlabCI in e699f14.
1. libtool v2.4.2 has been deprecated and other packages received some update
This will allow a user to (from anywhere a Spec is parsed including both name and version) refer to a git commit in lieu of
a package version, and be able to make comparisons with releases in the history based on commits (or with other commits). We do this by way of:
- Adding a property, is_commit, to a version, meaning I can always check if a version is a commit and then change some action.
- Adding an attribute to the Version object which can lookup commits from a git repo and find the last known version before that commit, and the distance
- Construct new Version comparators, which are tuples. For normal versions, they are unchanged. For commits with a previous version x.y.z, d commits away, the comparator is (x, y, z, '', d). For commits with no previous version, the comparator is ('', d) where d is the distance from the first commit in the repo.
- Metadata on git commits is cached in the misc_cache, for quick lookup later.
- Git repos are cached as bare repos in `~/.spack/git_repos`
- In both caches, git repo urls are turned into file paths within the cache
If a commit cannot be found in the cached git repo, we fetch from the repo. If a commit is found in the cached metadata, we do not recompare to newly downloaded tags (assuming repo structure does not change). The cached metadata may be thrown out by using the `spack clean -m` option if you know the repo structure has changed in a way that invalidates existing entries. Future work will include automatic updates.
# Finding previous versions
Spack will search the repo for any tags that match the string of a version given by the `version` directive. Spack will also search for any tags that match `v + string` for any version string. Beyond that, Spack will search for tags that match a SEMVER regex (i.e., tags of the form x.y.z) and interpret those tags as valid versions as well. Future work will increase the breadth of tags understood by Spack
For each tag, Spack queries git to determine whether the tag is an ancestor of the commit in question or not. Spack then sorts the tags that are ancestors of the commit by commit-distance in the repo, and takes the nearest ancestor. The version represented by that tag is listed as the previous version for the commit.
Not all commits will find a previous version, depending on the package workflow. Future work may enable more tangential relationships between commits and versions to be discovered, but many commits in real world git repos require human knowledge to associate with a most recent previous version. Future work will also allow packages to specify commit/tag/version relationships manually for such situations.
# Version comparisons.
The empty string is a valid component of a Spack version tuple, and is in fact the lowest-valued component. It cannot be generated as part of any valid version. These two characteristics make it perfect for delineating previous versions from distances. For any version x.y.z, (x, y, z, '', _) will be less than any "real" version beginning x.y.z. This ensures that no distance from a release will cause the commit to be interpreted as "greater than" a version which is not an ancestor of it.
Signed-off-by: vsoch <vsoch@users.noreply.github.com>
Co-authored-by: vsoch <vsoch@users.noreply.github.com>
Co-authored-by: Gregory Becker <becker33@llnl.gov>
Co-authored-by: Todd Gamblin <tgamblin@llnl.gov>
This PR coincides with tiny changes to spack to support spack monitor using the new spec
the corresponding spack monitor PR is at https://github.com/spack/spack-monitor/pull/31.
Since there are no changes to the database we can actually update the current server
fairly easily, so either someone can test locally or we can just update and then
test from that (and update as needed).
Signed-off-by: vsoch <vsoch@users.noreply.github.com>
Co-authored-by: vsoch <vsoch@users.noreply.github.com>
#22845 revealed a long-standing bug that had never been triggered before, because the
hashing algorithm had been stable for multiple years while the bug was in production. The
bug was that when reading a concretized environment, Spack did not properly read in the
build hashes associated with the specs in the environment. Those hashes were recomputed
(and as long as we didn't change the algorithm, were recomputed identically). Spack's
policy, though, is never to recompute a hash. Once something is installed, we respect its
metadata hash forever -- even if internally Spack changes the hashing method. Put
differently, once something is concretized, it has a concrete hash, and that's it -- forever.
When we changed the hashing algorithm for performance in #22845 we exposed the bug.
This PR fixes the bug at its source, but properly reading in the cached build hash attributes
associated with the specs. I've also renamed some variables in the Environment class
methods to make a mistake of this sort more difficult to make in the future.
* ensure environment build hashes are never recomputed
* add comment clarifying reattachment of env build hashes
* bump lockfile version and include specfile version in env meta
* Fix unit-test for v1 to v2 conversion
Co-authored-by: Massimiliano Culpo <massimiliano.culpo@gmail.com>
* Refactor platform etc. to avoid circular dependencies
All the base classes in spack.architecture have been
moved to the corresponding specialized subpackages,
e.g. Platform is now defined within spack.platforms.
This resolves a circular dependency where spack.architecture
was both:
- Defining the base classes for spack.platforms, etc.
- Collecting derived classes from spack.platforms, etc.
Now it dopes only the latter.
* Move a few platform related functions to "spack.platforms"
* Removed spack.architecture.sys_type()
* Fixup for docs
* Rename Python modules according to review
Currently as part of installing a package, we lock a prefix, check if
it exists, and create it if not; the logic for creating the prefix
included a check for the existence of that prefix (and raised an
exception if it did), which was redundant.
This also includes removal of tests which were not verifying
anything (they pass with or without the modifications in this PR).
Modifications:
- Export platforms from spack.platforms directly, so that client modules don't have to import submodules
- Use only plain imports in test/architecture.py
- Parametrized test in test/architecture.py and put most of the setup/teardown in fixtures
This is a major rework of Spack's core core `spec.yaml` metadata format. It moves from `spec.yaml` to `spec.json` for speed, and it changes the format in several ways. Specifically:
1. The spec format now has a `_meta` section with a version (now set to version `2`). This will simplify major changes like this one in the future.
2. The node list in spec dictionaries is no longer keyed by name. Instead, it is a list of records with no required key. The name, hash, etc. are fields in the dictionary records like any other.
3. Dependencies can be keyed by any hash (`hash`, `full_hash`, `build_hash`).
4. `build_spec` provenance from #20262 is included in the spec format. This means that, for spliced specs, we preserve the *full* provenance of how to build, and we can reproduce a spliced spec from the original builds that produced it.
**NOTE**: Because we have switched the spec format, this PR changes Spack's hashing algorithm. This means that after this commit, Spack will think a lot of things need rebuilds.
There are two major benefits this PR provides:
* The switch to JSON format speeds up Spack significantly, as Python's builtin JSON implementation is orders of magnitude faster than YAML.
* The new Spec format will soon allow us to represent DAGs with potentially multiple versions of the same dependency -- e.g., for build dependencies or for compilers-as-dependencies. This PR lays the necessary groundwork for those features.
The old `spec.yaml` format continues to be supported, but is now considered a legacy format, and Spack will opportunistically convert these to the new `spec.json` format.
This modification accounts for:
1. Bootstrapping from sources using system, non-standard Python
2. Using later an ABI compatible standard Python interpreter
* tests: make `spack url [stats|summary]` work on mock packages
Mock packages have historically had mock hashes, but this means they're also invalid
as far as Spack's hash detection is concerned.
- [x] convert all hashes in mock package to md5 or sha256
- [x] ensure that all mock packages have a URL
- [x] ignore some special cases with multiple VCS fetchers
* url stats: add `--show-issues` option
`spack url stats` tells us how many URLs are using what protocol, type of checksum,
etc., but it previously did not tell us which packages and URLs had the issues. This
adds a `--show-issues` option to show URLs with insecure (`http`) URLs or `md5` hashes
(which are now deprecated by NIST).
Fixes removal of SPACK_ENV_PATH from PATH in the presence of trailing
slashes in the elements of PATH:
The compiler wrapper has to ensure that it is not called nested like
it would happen when gcc's collect2 uses PATH to call the linker ld,
or else the compilation fails.
To prevent nested calls, the compiler wrapper removes the elements
of SPACK_ENV_PATH from PATH.
Sadly, the autotest framework appends a slash to each element
of PATH when adding AUTOTEST_PATH to the PATH for the tests,
and some tests like those of GNU bison run cc inside the test.
Thus, ensure that PATH cleanup works even with trailing slashes.
This fixes the autotest suite of bison, compiling hundreds of
bison-generated test cases in a autotest-generated testsuite.
Co-authored-by: Harmen Stoppels <harmenstoppels@gmail.com>
This PR will add a new audit, specifically for spack package homepage urls (and eventually
other kinds I suspect) to see if there is an http address that can be changed to https.
Usage is as follows:
```bash
$ spack audit packages-https <package>
```
And in list view:
```bash
$ spack audit list
generic:
Generic checks relying on global variables
configs:
Sanity checks on compilers.yaml
Sanity checks on packages.yaml
packages:
Sanity checks on specs used in directives
packages-https:
Sanity checks on https checks of package urls, etc.
```
I think it would be unwise to include with packages, because when run for all, since we do requests it takes a long time. I also like the idea of more well scoped checks - likely there will be other addresses for http/https within a package that we eventually check. For now, there are two error cases - one is when an https url is tried but there is some SSL error (or other error that means we cannot update to https):
```bash
$ spack audit packages-https zoltan
PKG-HTTPS-DIRECTIVES: 1 issue found
1. Error with attempting https for "zoltan":
<urlopen error [SSL: CERTIFICATE_VERIFY_FAILED] certificate verify failed: Hostname mismatch, certificate is not valid for 'www.cs.sandia.gov'. (_ssl.c:1125)>
```
This is either not fixable, or could be fixed with a change to the url or (better) contacting the site owners to ask about some certificate or similar.
The second case is when there is an http that needs to be https, which is a huge issue now, but hopefully not after this spack PR.
```bash
$ spack audit packages-https xman
Package "xman" uses http but has a valid https endpoint.
```
And then when a package is fixed:
```bash
$ spack audit packages-https zlib
PKG-HTTPS-DIRECTIVES: 0 issues found.
```
And that's mostly it. :)
Signed-off-by: vsoch <vsoch@users.noreply.github.com>
Co-authored-by: vsoch <vsoch@users.noreply.github.com>
* Add a __reduce__ method to Spec
fixes#23892
The recursion limit seems to be due to the default
way in which a Spec is serialized, following all
the attributes. It's still not clear to me why this
is related to being in an environment, but in any
case we already have methods to serialize Specs to
disk in JSON and YAML format. Here we use them to
pickle a Spec instance too.
* Downgrade to build-hash
Hopefully nothing will change the package in
between serializing the spec and sending it
to the child process.
* Add support for Python 2
* Make sure PackageInstaller does not remove the just-restored
install dir after failure in spack install --overwrite
* Remove cryptic error message and rethrow actual error
The gcc compiler can be configured to use `ld.gold` by default. It will
then call `ld.gold` explicitly when linking. When so, spack need to have
a ld.gold wrapper in PATH to inject rpaths link flags etc...
Also I wouldn't be surprised to see some package calling `ld.gold`
directly.
As for ld.gold, the argument could be made that we want to support any
package that could call ld.lld.
* Add a __reduce__ method to SpecBuildInterface
This class was confusing pickle when being serialized,
due to its scary nature of being an object that disguise
as another type.
* Add more MacOS tests, switch them to clingo
* Fix condition syntax
* Remove Python v3.6 and v3.9 with macOS
* Conditionally remove 'context' from kwargs in _urlopen
Previously, 'context' is purged from kwargs in _urlopen to
conform to varying support for 'context' in different versions
of urllib. This fix tries to use 'context', and then removes
it if an exception is thrown and tries again.
* Specify error type in try statement in _urlopen
Specify TypeError when checking if 'context' is in kwargs
for _urlopen. Also, if try fails, check that 'context' is
in the error message before removing from kwargs.
This is a direct followup to #13557 which caches additional attributes that were added in #24095 that are expensive to compute. I had to reopen#25556 in another PR to invalidate the GitLab CI cache, but see #25556 for prior discussion.
### Before
```console
$ time spack env activate .
real 2m13.037s
user 1m25.584s
sys 0m43.654s
$ time spack env view regenerate
==> Updating view at /Users/Adam/.spack/.spack-env/view
real 16m3.541s
user 10m28.892s
sys 4m57.816s
$ time spack env deactivate
real 2m30.974s
user 1m38.090s
sys 0m49.781s
```
### After
```console
$ time spack env activate .
real 0m8.937s
user 0m7.323s
sys 0m1.074s
$ time spack env view regenerate
==> Updating view at /Users/Adam/.spack/.spack-env/view
real 2m22.024s
user 1m44.739s
sys 0m30.717s
$ time spack env deactivate
real 0m10.398s
user 0m8.414s
sys 0m1.630s
```
Fixes#25555Fixes#25541
* Speedup environment activation, part 2
* Only query distutils a single time
* Fix KeyError bug
* Make vermin happy
* Manual memoize
* Add comment on cross-compiling
* Use platform-specific include directory
* Fix multiple bugs
* Fix python_inc discrepancy
* Fix import tests
* Set pubkey trust to ultimate during `gpg trust`
Tries to solve the same problem as #24760 without surpressing stderr
from gpg commands.
This PR makes every imported key trusted in the gpg database.
Note: I've outlined
[here](https://github.com/spack/spack/pull/24760#issuecomment-883183175)
that gpg's trust model makes sense, since how can we trust a random
public key we download from a binary cache?
* Fix test
Fixes#25603
This commit adds a new context manager to temporarily
deactivate active environments. This context manager
is used when setting up bootstrapping configuration to
make sure that the current environment is not affected
by operations on the bootstrap store.
* Preserve exit code 1 if nothing is found
* Use context manager for the environment
This commit adds a regression test for version selection
with preferences in `packages.yaml`. Before PR 25585 we
used negative weights in a minimization to select the
optimal version. This may lead to situations where a
dependency may make the version score of dependents
"better" if it is preferred in packages.yaml.
PackageInstaller and Package.installed disagree over what it means
for a package to be installed: PackageInstaller believes it should be
enough for a database entry to exist, whereas Package.installed
requires a database entry & a prefix directory.
This leads to the following niche issue:
* a develop spec in an environment is successfully installed
* then somehow its install prefix is removed (e.g. through a bug fixed
in #25583)
* you modify the sources and reinstall the environment
1. spack checks pkg.installed and realizes the develop spec is NOT
installed, therefore it doesn't need to have 'overwrite: true'
2. the installer gets the build task and checks the database and
realizes the spec IS installed, hence it doesn't have to install it.
3. the develop spec is not rebuilt.
The solution is to make PackageInstaller and pkg.installed agree over
what it means to be installed, and this PR does that by dropping the
prefix directory check from pkg.installed, so that it only checks the
database.
As a result, spack will create a build task with overwrite: true for
the develop spec, and the installer in fact handles overwrite requests
fine even if the install prefix doesn't exist (it just does a normal
install).
see #25563
When we have a concrete environment and we ask to install a
concrete spec from a file, currently Spack returns a list of
specs that are all the one that match the argument DAG hash.
Instead we want to compare build hashes, which also account
for build-only dependencies.
#25303 filtered padding from build output, but it's still there in binary install/relocate output,
so our CI logs are still quite long and frequently hit the limit.
- [x] add context handler from #25303 to buildcache installation as well
This allows you to run `spack graph --installed` from within an environment and get a dot graph of
its concrete specs.
- [x] make `spack graph -i` environment-aware
- [x] add code to the generated dot graph to ensure roots have min rank (i.e., they're all at the
top or left of the DAG)
Bootstrapping clingo on macOS on `develop` gives errors like this:
```
==> Error: RuntimeError: Unable to locate python command in /System/Library/Frameworks/Python.framework/Versions/2.7/Resources/Python.app/Contents/bin
/Users/gamblin2/Workspace/spack/var/spack/repos/builtin/packages/python/package.py:662, in command:
659 return Executable(path)
660 else:
661 msg = 'Unable to locate {0} command in {1}'
>> 662 raise RuntimeError(msg.format(self.name, self.prefix.bin))
```
On macOS, `python` is laid out differently. In particular, `sys.executable` is here:
```console
Python 2.7.16 (default, May 8 2021, 11:48:02)
[GCC Apple LLVM 12.0.5 (clang-1205.0.19.59.6) [+internal-os, ptrauth-isa=deploy on darwin
Type "help", "copyright", "credits" or "license" for more information.
>>> import sys
>>> sys.executable
'/System/Library/Frameworks/Python.framework/Versions/2.7/Resources/Python.app/Contents/MacOS/Python'
```
Based on that, you'd think that
`/System/Library/Frameworks/Python.framework/Versions/2.7/Resources/Python.app/Contents` would be
where you'd look for a `bin` directory, but you (and Spack) would be wrong:
```console
$ ls /System/Library/Frameworks/Python.framework/Versions/2.7/Resources/Python.app/Contents/
Info.plist MacOS/ PkgInfo Resources/ _CodeSignature/ version.plist
```
You need to look in `sys.exec_prefix`
```
>>> sys.exec_prefix
'/System/Library/Frameworks/Python.framework/Versions/2.7'
```
Which looks much more like a standard prefix, with understandable `bin`, `lib`, and `include`
directories:
```console
$ ls /System/Library/Frameworks/Python.framework/Versions/2.7
Extras/ Mac/ Resources/ bin/ lib/
Headers@ Python* _CodeSignature/ include/
$ ls -l /System/Library/Frameworks/Python.framework/Versions/2.7/bin/python
lrwxr-xr-x 1 root wheel 7B Jan 1 2020 /System/Library/Frameworks/Python.framework/Versions/2.7/bin/python@ -> python2
```
- [x] change `bootstrap.py` to use the `sys.exec_prefix` as the external prefix, instead of just
getting the parent directory of the executable.
This adds lockfile tracking to Spack's lock mechanism, so that we ensure that there
is only one open file descriptor per inode.
The `fcntl` locks that Spack uses are associated with an inode and a process.
This is convenient, because if a process exits, it releases its locks.
Unfortunately, this also means that if you close a file, *all* locks associated
with that file's inode are released, regardless of whether the process has any
other open file descriptors on it.
Because of this, we need to track open lock files so that we only close them when
a process no longer needs them. We do this by tracking each lockfile by its
inode and process id. This has several nice properties:
1. Tracking by pid ensures that, if we fork, we don't inadvertently track the parent
process's lockfiles. `fcntl` locks are not inherited across forks, so we'll
just track new lockfiles in the child.
2. Tracking by inode ensures that referencs are counted per inode, and that we don't
inadvertently close a file whose inode still has open locks.
3. Tracking by both pid and inode ensures that we only open lockfiles the minimum
number of times necessary for the locks we have.
Note: as mentioned elsewhere, these locks aren't thread safe -- they're designed to
work in Python and assume the GIL.
Tasks:
- [x] Introduce an `OpenFileTracker` class to track open file descriptors by inode.
- [x] Reference-count open file descriptors and only close them if they're no longer
needed (this avoids inadvertently releasing locks that should not be released).
This commit rework version facts so that:
1. All the information on versions is collected
before emitting the facts
2. The same kind of atom is emitted for versions
stemming from different origins (package.py
vs. packages.yaml)
In the end all the possible versions for a given
package are totally ordered and they are given
different and increasing weights staring from zero.
This refactor allow us to avoid using negative
weights, which in some configurations may make
parent node score "better" and lead to unexpected
"optimal" results.
Once PR binary graduation is deployed, the shared PR mirror will
contain binaries just built by a merged PR, before the subsequent
develop pipeline has had time to finish. Using the shared PR mirror
as a source of binaries will reduce the number of times we have to
rebuild the same full hash.
* Refactor active environment getters
- Make `spack.environment.active_environment` a trivial getter for the active
environment, replacing `spack.environment.get_env` when the arguments are
not needed
- New method `spack.cmd.require_active_environment(cmd_name)` for
commands that require an environment (rather than abusing
get_env/active_environment)
- Clean up calling code to call spack.environment.active_environment or
spack.cmd.require_active_environment as appropriate
- Remove the `-e` parsing from `active_environment`, because `main.py` is
responsible for processing `-e` and already activates the environment.
- Move `spack.environment.find_environment` to
`spack.cmd.find_environment`, to avoid having spack.environment aware
of argparse.
- Refactor `spack install` command so argument parsing is all handled in the
command, no argparse in spack.environment or spack.installer
- Update documentation
* Python 2: toplevel import errors only with 'as ev'
In two files, `import spack.environment as ev` leads to errors
These errors are not well understood ("'module' object has no attribute
'environment'"). All other files standardize on the above syntax.
* Bootstrap clingo from binaries
* Move information on clingo binaries to a JSON file
* Add support to bootstrap on Cray
Bootstrapping on Cray requires, at the moment, to
swap the platform when looking for binaries - due
to #22800.
* Add SHA256 verification for bootstrapped software
Use sha256 verification for binaries necessary to bootstrap
the concretizer and gpg for signature verification
* patchelf: use Spec._old_concretize() to bootstrap
As noted in #24450 we may happen to need the
concretizer when bootstrapping clingo. In that case
only the old concretizer is available.
* Add a schema for bootstrapping methods
Two fields have been added to bootstrap.yaml:
"sources" which lists the methods available for
bootstrapping software
"trusted" which records if a source is trusted or not
A subcommand has been added to "spack bootstrap" to list
the sources currently available.
* Methods used for bootstrapping are configurable from bootstrap:sources
The function that tries to ensure a given Python module
is importable now tries bootstrapping methods in the same
order as they are defined in `bootstrap.yaml`
* Permit to trust/untrust bootstrapping methods
* Add binary tests for MacOS, Ubuntu
* Add documentation
* Add a note on bash
Spack is internally using a patched version of `argparse` mainly to backport Python 3 functionality
into Python 2. This PR makes it such that for the supported Python 3 versions we use `argparse`
from the standard Python library. This PR has been extracted from #25371 where it was needed
to be able to use recent versions of `pytest`.
* Fixed formatting issues when using a pristine argparse.py
* Fix error message for Python 3.X when missing positional arguments
* Account for the change of API in Python 3.7
* Layout multi-valued args into columns in error messages
* Seamless transition in develop if argparse.pyc is in external
* Be more defensive in case we can't remove the file.
Add link type to spack.yaml format
Add tests to verify link behavior is correct for installed files
for all three view types
Co-authored-by: vsoch <vsoch@users.noreply.github.com>
The commands have been deprecated in #7098, and have
been failing with an error message since then.
Cleaning the code since it is unlikely that somebody
is still using them.
Preferred providers had a non-zero weight because in an earlier formulation of the logic program that was needed to prefer external providers over default providers. With the current formulation for externals this is not needed anymore, so we can give a weight of zero to both default choices and providers that are externals. _Using zero ensures that we don't introduce any drift towards having less providers, which was happening when minimizing positive weights_.
Modifications:
- [x] Default weight for providers starts at 0 (instead of 10, needed before to prefer externals)
- [x] Rules to compute the `provider_weight` have been refactored. There are multiple possible weights for a given `Virtual`. Only one gets selected by the solver (the one that minimizes the objective function).
- [x] `provider_weight` are now accounting for each different `Virtual`. Before there was a single weight per provider, even if the package was providing multiple virtuals.
* Give preferred providers a weight of zero
Preferred providers had a non-zero weight because in an earlier
formulation of the logic program that was needed to prefer
external providers over default providers.
With the current formulation for externals this is not needed anymore,
so we can give a weight of zero to default choices. Using zero
ensures that we don't introduce any drift towards having
less providers, which was happening when minimizing positive weights.
* Simplify how we compute weights for providers
Rewrite rules so that specific events (i.e. being
an external) unlock the possibility to use certain
weights. The weight being considered is then selected
by the minimization process to be the one that gives
the best score.
* Allow providers to have different weights for different virtuals
Before this change we didn't differentiate providers based on
the virtual they provide, which meant that packages providing
more than one virtual had nonetheless a single weight.
With this change there will be a weight per virtual.
This is both a bugfix and a generalization of #25168. In #25168, we attempted to filter padding
*just* from the debug output of `spack.util.executable.Executable` objects. It turns out we got it
wrong -- filtering the command line string instead of the arg list resulted in output like this:
```
==> [2021-08-05-21:34:19.918576] ["'", '/', 'b', 'i', 'n', '/', 't', 'a', 'r', "'", ' ', "'", '-', 'o', 'x', 'f', "'", ' ', "'", '/', 't', 'm', 'p', '/', 'r', 'o', 'o', 't', '/', 's', 'p', 'a', 'c', 'k', '-', 's', 't', 'a', 'g', 'e', '/', 's', 'p', 'a', 'c', 'k', '-', 's', 't', 'a', 'g', 'e', '-', 'p', 'a', 't', 'c', 'h', 'e', 'l', 'f', '-', '0', '.', '1', '3', '-', 'w', 'p', 'h', 'p', 't', 'l', 'h', 'w', 'u', 's', 'e', 'i', 'a', '4', 'k', 'p', 'g', 'y', 'd', 'q', 'l', 'l', 'i', '2', '4', 'q', 'b', '5', '5', 'q', 'u', '4', '/', 'p', 'a', 't', 'c', 'h', 'e', 'l', 'f', '-', '0', '.', '1', '3', '.', 't', 'a', 'r', '.', 'b', 'z', '2', "'"]
```
Additionally, plenty of builds output padded paths in other plcaes -- e.g., not just command
arguments, but in other `tty` messages via `llnl.util.filesystem` and other places. `Executable`
isn't really the right place for this.
This PR reverts the changes to `Executable` and moves the filtering into `llnl.util.tty`. There is
now a context manager there that you can use to install a filter for all output.
`spack.installer.build_process()` now uses this context manager to make `tty` do path filtering
when padding is enabled.
- [x] revert filtering in `Executable`
- [x] add ability for `tty` to filter output
- [x] install output filter in `build_process()`
- [x] tests
`compare_specs()` had a `colorful` keyword argument, but everything else in
spack uses `color` for this.
- [x] rename the argument
- [x] make the default follow spack's `--color=always/never/auto` setting
Add a workflow to test bootstrapping clingo on
different platforms so that we can detect changes
that break it.
Compute `site_packages_dir` in `bootstrap.py` as it was
before #24095, until we figure a better way to override
that attribute.
Long, padded install paths can get to be very long in the verbose install
output. This has to be filtered out by the Executable class, as it
generates these debug messages.
- [x] add ability to filter paths from Executable output.
- [x] add a context manager that can enable path filtering
- [x] make `build_process` in `installer.py`
This should hopefully allow us to see most of the build output in
Gitlab pipeline builds again.
`build_process` has been around a long time but it's become a very large,
unwieldy method. It's hard to work with because it has a lot of local
variables that need to persist across all of the code.
- [x] To address this, convert it its own `BuildInfoProcess` class.
- [x] Start breaking the method apart by factoring out the main
installation logic into its own function.
When context managers are used to save and restore values, we need to remember
to use try/finally around the yield in case an exception is thrown. Otherwise,
the cleanup will be skipped.
- Change config from the undocumented `use_curl: true/false` to `url_fetch_method: urllib/curl`.
- Documentation of `url_fetch_method` in `defaults/config.yaml`
- Default fetch option explicitly set to `urllib` for users who may not have curl on their system
To upgrade from `use_curl` to `url_fetch_method`, run `spack config update config`
The output order for `spack diff` is nondeterministic for larger diffs -- if you
ran it several times it will not put the fields in the spec in the same order on
successive invocations.
This makes a few fixes to `spack diff`:
- [x] Implement the change discussed in https://github.com/spack/spack/pull/22283#discussion_r598337448
to make `AspFunction` comparable in and of itself and to eliminate the need for `to_tuple()`
- [x] Sort the lists of diff properties so that the output is always in the same order.
- [x] Make the output for different fields the same as what we use in the solver. Previously, we
would use `Type(value)` for non-string values and `value` for strings. Now we just use
the value. So the output looks a little cleaner:
```
== Old ========================== == New ====================
@@ node_target @@ @@ node_target @@
- gdbm Target(x86_64) - gdbm x86_64
+ zlib Target(skylake) + zlib skylake
@@ variant_value @@ @@ variant_value @@
- ncurses symlinks bool(False) - ncurses symlinks False
+ zlib optimize bool(True) + zlib optimize True
@@ version @@ @@ version @@
- gdbm Version(1.18.1) - gdbm 1.18.1
+ zlib Version(1.2.11) + zlib 1.2.11
@@ node_os @@ @@ node_os @@
- gdbm catalina - gdbm catalina
+ zlib catalina + zlib catalina
```
I suppose if we want to use `repr()` in the output we could do that and could be
consistent but we don't do that elsewhere -- the types of things in Specs are
all stringifiable so the string and the name of the attribute (`version`, `node_os`,
etc.) are sufficient to know what they are.
When a spec fails to build on `develop`, instead of storing an empty file as the entry in the broken specs list, this change stores the full spec yaml as well as links to the failing pipeline and job.
A `spack diff` will take two specs, and then use the spack.solver.asp.SpackSolverSetup to generate
lists of facts about each (e.g., nodes, variants, etc.) and then take a set difference between the
two to show the user the differences.
Example output:
$ spack diff python@2.7.8 python@3.8.11
==> Warning: This interface is subject to change.
--- python@2.7.8/tsxdi6gl4lihp25qrm4d6nys3nypufbf
+++ python@3.8.11/yjtseru4nbpllbaxb46q7wfkyxbuvzxx
@@ variant_value @@
- python patches a8c52415a8b03c0e5f28b5d52ae498f7a7e602007db2b9554df28cd5685839b8
+ python patches 0d98e93189bc278fbc37a50ed7f183bd8aaf249a8e1670a465f0db6bb4f8cf87
@@ version @@
- openssl Version(1.0.2u)
+ openssl Version(1.1.1k)
- python Version(2.7.8)
+ python Version(3.8.11)
Currently this uses diff-like output but we will attempt to improve on this in the future.
One use case for `spack diff` is whenever a user has a disambiguate situation and cannot
remember how two different installs are different. The command can also output `--json` in
the case of a more analysis type use case where we want to save complete data with all
diffs and the intersection. However, the command is really more intended for a command
line use case, and we likely will have an analyzer more suited to saving data
Signed-off-by: vsoch <vsoch@users.noreply.github.com>
Co-authored-by: vsoch <vsoch@users.noreply.github.com>
Co-authored-by: Tamara Dahlgren <35777542+tldahlgren@users.noreply.github.com>
Co-authored-by: Todd Gamblin <tgamblin@llnl.gov>
* Catch ConnectionError from CDash reporter
Catch ConnectionError when attempting to upload the results of `spack install`
to CDash. This follows in the spirit of #24299. We do not want `spack install`
to exit with a non-zero status when something goes wrong while attempting to
report results to CDash.
* Catch HTTP Error 400 (Bad Request) in relate_cdash_builds()
`spack style` previously used a Travis CI variable to figure out
what the base branch of a PR was, and this was apparently also set
on `develop`. We switched to `GITHUB_BASE_REF` to support GitHub
Actions, but it looks like this is set to `""` in pushes to develop,
so `spack style` breaks there.
This PR does two things:
- [x] Remove `GITHUB_BASE_REF` knowledge from `spack style` entirely
- [x] Handle `GITHUB_BASE_REF` in style scripts instead, and explicitly
pass the base ref if it is present, but don't otherwise.
This makes `spack style` *not* dependent on the environment and fixes
handling of the base branch in the right place.
This adds a `--root` option so that `spack style` can check style for
a spack instance other than its own.
We also change the inner workings of `spack style` so that `--config FILE`
(and similar options for the various tools) options are used. This ensures
that when `spack style` runs, it always uses the config from the running spack,
and does *not* pick up configuration from the external root.
- [x] add `--root` option to `spack style`
- [x] add `--config` (or similar) option when invoking style tools
- [x] add a test that verifies we can check an external instance
Intel oneAPI installs maintain a lock file in XDG_RUNTIME_DIR,
which by default exists in /tmp (and is shared by all component
installs). This prevented multiple oneAPI components from being
installed in parallel. This commit sets XDG_RUNTIME_DIR to exist
within Spack's installation Stage, so allows multiple components
to be installed at the same time.
This uses our bootstrapping logic to automatically install dependencies for
`spack style`. Users should no longer have to pre-install all of the tools
(`isort`, `mypy`, `black`, `flake8`). The command will do it for them.
- [x] add logic to bootstrap specs with specific version requirements in `spack style`
- [x] remove style tools from CI requirements (to ensure we test bootstrapping)
- [x] rework dependencies for `mypy` and `py-typed-ast`
- `py-typed-ast` needs to be a link dependency
- it needs to be at 1.4.1 or higher to work with python 3.9
Signed-off-by: vsoch <vsoch@users.noreply.github.com>
#24095 introduced a couple of bugs, which are fixed here:
1. The module path is computed incorrectly for bootstrapped clingo
2. We remove too many paths for `sys.path` in case of failures
Third-party Python libraries may be installed in one of several directories:
1. `lib/pythonX.Y/site-packages` for Spack-installed Python
2. `lib64/pythonX.Y/site-packages` for system Python on RHEL/CentOS/Fedora
3. `lib/pythonX/dist-packages` for system Python on Debian/Ubuntu
Previously, Spack packages were hard-coded to use the (1). Now, we query the Python installation itself and ask it which to use. Ever since #21446 this is how we've been determining where to install Python libraries anyway.
Note: there are still many packages that are hard-coded to use (1). I can change them in this PR, but I don't have the bandwidth to test all of them.
* Python: handle dist-packages and site-packages
* Query Python to find site-packages directory
* Add try-except statements for when distutils isn't installed
* Catch more errors
* Fix root directory used in import tests
* Rely on site_packages_dir property
