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.