* Later versions of oneAPI have moved, so update detection to find it
in both old and new location
* Remove reliance on ONEAPI_ROOT env variable when determining Fortran
compiler version for %msvc
* When finding a Fortran compiler for MSVC, there was logic enforcing
a maximum MSVC version for a given oneAPI Fortran version. This
mapping was out of date and excluding valid combinations, so has
been removed (the logic now just picks the latest available
oneAPI Fortran compiler for any given MSVC version).
On Windows, bootstrapping logic now searches for and adds the win-sdk
and wgl packages to the user's top scope as externals if they are not
present.
These packages are generally required to install most packages with
Spack on Windows, and are only available as externals, so it is
assumed that doing this automatically would be useful and avoid
a mandatory manual step for each new Spack instance.
Note this is the first case of bootstrapping logic modifying
configuration other than the bootstrap configuration.
This adds some improvements to `spack find` output when in environments based
around some thoughts about what users want to know when they're in an env.
If you're working in an enviroment, you mostly care about:
* What are the roots
* Which ones are installed / not installed
* What's been added that still needs to be concretized
So, this PR adds a couple tweaks to display that information more clearly:
- [x] We now display install status next to every root. You can easily see
which are installed and which aren't.
- [x] When you run `spack find -l` in an env, the roots now show their concrete
hash (if they've been concretized). They previously would show `-------`
(b/c the root spec itself is abstract), but showing the concretized root's
hash is a lot more useful.
- [x] Newly added/unconcretized specs still show `-------`, which now makes more
sense, b/c they are not concretized.
- [x] There is a new option, `-r` / `--only-roots` to *only* show env roots if
you don't want to look at all the installed specs.
- [x] Roots in the installed spec list are now highlighted as bold. This is
actually an old feature from the first env implementation , but various
refactors had disabled it inadvertently.
Reduce incidence of spurious errors by:
* Ensuring we're passing the buffer by reference
* Get the correct short string size from Windows API instead of computing ourselves
* Ensure sufficient space for null terminator character
Add test for `windows_sfn`
Currently if you request pkg +example where example is a conditional
variant, and you have a pkg in the database for which the condition
did not hold (so no +example nor ~example), the solver would reuse it
regardless, not imposing +example.
The change rules out exactly one thing: variant_set without variant_value,
which in practice could only happen when not node_has_variant (i.e. when
under the current package.py rules the variant's when condition did not
trigger).
Currently, some of the tests in `spec_format` and `spec_semantics` fetch
the actual zlib repository when run, because they call `str()` on specs
like `zlib@foo/bar`, which at least currently requires a remote git clone
to resolve.
This doesn't change the behavior of git versions, but it uses our mock git
repo infrastructure and clones the `git-test` package instead of the *real*
URL from the mock `zlib` package.
This should speed up tests. We could probably refactor more so that the git
tests *all* use such a fixture, but the `checks` field that unfortunately
tightly couples the mock git repository and the `git_fetch` tests complicates
this. We could also consider *not* making `str()` resolve git versions, but
I did not dig into that here.
- [x] add a mock_git_test_package fixture that sets up a mock git repo *and*
monkeypatches the `git-test` package (like our git test packages do)
- [x] use fixture in `test_spec_format_path`
- [x] use fixture in `test_spec_format_path_posix`
- [x] use fixture in `test_spec_format_path_windows`
- [x] use fixture in `test_parse_single_spec`
Upon close inspection of clingo answer sets, in some cases we have "equivalent" (i.e. same hash for the concrete spec) duplicates that differ only because of virtual nodes that are added to the answer set, without any edge using them.
This commit adds a property `autopush` to mirrors. When true, every source build is immediately followed by a push to the build cache. This is useful in ephemeral environments such as CI / containers.
To enable autopush on existing build caches, use `spack mirror set --autopush <name>`. The same flag can be used in `spack mirror add`.
Allow reuse of specs that were built with compilers not in the current configuration. This means that specs from build caches don't need to have a matching compiler locally to be reused. Similarly when updating a distro. If a node needs to be built, only available compilers will be considered as candidates.
* Generally use os.replace on Windows and Linux
* Windows behavior for os.replace differs when the destination exists
and is a symlink to a directory: on Linux the dst is replaced and
on Windows this fails - this PR makes Windows behave like Linux
(by deleting the dst before doing the rename unless src and dst
are the same)
* Relax compiler and target mismatches
The mismatch occurs on an edge. Previously it was assigned
the parent priority, now it is assigned the child priority.
This should make reuse from buildcaches or store more likely,
since most mismatches will be counted with "reused" priority.
* Optimize version badness for runtimes at very low priority
We don't want to e.g. switch other attributes because we
cannot reuse an old installed runtime.
* Optimize runtime attributes at very low priority
This is such that the version of the runtime would
not influence whether we should reuse a spec.
Compiler mismatches are considered for runtimes,
to avoid situations where compiling foo%gcc@9
brings in gcc-runtime%gcc@13 if gcc@13 is among
the available compilers
* Exclude specs without runtimes from reuse
This should ensure that we do not reuse specs that
could be broken, as they expect the compiler to be
installed in a specific place.
The installer runs `get_dependent_ids`, which follows edges outside the
subdag that's being installed, so it returns a superset of the actual
dependents.
That's generally fine, except that it calls `s.package` on every
dependent, which triggers a package class to be instantiated, which is a
lot of work.
Instead, compute the package id from the spec, since that's all that's
used anyways and does not trigger *lots* of slow and redundant
instantiations of package objects.
If ONEAPI_ROOT is not set as an environment variable, the current approach will raise an error.
Instead we can compute the OneAPI_ROOT from the compiler paths like we do with vcvarsall.
`dpcpp` is deprecated by intel and has been superseded by `oneapi` compilers for a very long time.
---------
Co-authored-by: becker33 <becker33@users.noreply.github.com>
This PR allows the user to specify a path to a custom cert file (or directory) in
Spack's config:
```yaml
# This is where custom certs for proxy/firewall are stored.
# It can be a path or environment variable. To match ssl env configuration
# the default is the environment variable SSL_CERT_FILE
ssl_certs: $SSL_CERT_FILE
```
`config:ssl_certs` can be a path to a file or a directory, or it can be and environment
variable that resolves to one of those. When it posts to something valid, Spack will
update the ssl context to include custom certs, and fetching via `urllib` and `curl`
will trust the provided certs.
This should resolve many issues with fetching behind corporate firewalls.
---------
Co-authored-by: psakievich <psakievich@users.noreply.github.com>
Co-authored-by: Alec Scott <alec@bcs.sh>
After #41373, where we stopped considering the source directory to be the stage for develop builds,
we resumed *deleting* the stage even after a successful build.
We don't want this for develop builds because developers need to iterate; we should keep the artifacts
unless they explicitly run `spack clean`.
Now:
- [x] Build artifacts for develop packages are not removed after a successful install
- [x] They are also not removed before an install starts, i.e. develop packages always
reuse prior artifacts, if available.
- [x] They can be deleted in any other context, e.g. by running `spack clean --stage`
Users requested an option to filter between local/upstream results in `spack find` output.
```
# default behavior, same as without --install-tree argument
$ spack find --install-tree all
# show only local results
$ spack find --install-tree local
# show results from all upstreams
$ spack find --install-tree upstream
# show results from a particular upstream or the local install_tree
$ spack find --install-tree /path/to/install/tree/root
```
---------
Co-authored-by: becker33 <becker33@users.noreply.github.com>
* Allow compilers to function across compatible OS's
* Add documentation in the default yaml
Co-authored-by: Massimiliano Culpo <massimiliano.culpo@gmail.com>
Co-authored-by: Gregory Becker <becker33@llnl.gov>
* Add macos-14 as a runner (Apple M1)
* Mark a test xfail
We need to check later if this test needs modifications
on Apple Silicon chips.
---------
Co-authored-by: Harmen Stoppels <me@harmenstoppels.nl>
Co-authored-by: alalazo <alalazo@users.noreply.github.com>
* buildcache sync: manifest-glob with arbitrary destination
The current implementation of the --manifest-glob is a bit restrictive
requiring the destination to be known by the generation stage of CI.
This allows specifying an arbitrary destination mirror URL.
* Add unit test for buildcache sync with manifest
* Fix test and arguments for manifest-glob with override destination
* Add testing path for unused mirror argument
* Remove a few compilers from static test data
These compilers were used only in a bunch of tests, so
they are added only there.
* Remove clang@3.3 from unit test configuration
* Parametrize compilers.yaml
* Remove specially named gcc from static data
The compilers are used in two tests
* Remove apple-clang and macOS compilers from static data
The compiler was used only in multimethod tests
* Remove clang@3.5 (compiler seems to be unused)
* Remove gcc@4.4.0 (compiler seems to be unused)
* Exclude x86_64 tests on other architectures
* Mark two tests as for clingo only
* Update version syntax in compilers.yaml
* Parametrize tcl tests on architectures
* Parametrize lmod tests on architectures
* Substitute gcc@4.5.0 with gcc@4.8.0 so it can be used on aarch64
* Fix a few issues with aarch64 and unit-tests
It's now possible to add config on the command line with `spack -c <CONFIG_VARS> ...`, but the new `command_line` scope isn't reflected in the help output for `--scope`:
```bash
> spack help config
...
--scope {defaults,system,site,user}[/PLATFORM] or env:ENVIRONMENT
configuration scope to read/modify
...
```
This PR adds:
- A new runtime for `%oneapi` compilers, called `intel-oneapi-runtime`
- Information to both `gcc-runtime` and `intel-oneapi-runtime`, to ensure
that we don't mix compilers using different soname for either `libgfortran`
or `libifcore`
To do so, the following internal mechanisms have been implemented:
- Possibility to inject virtual dependencies from the `runtime_constraints`
callback on packages
Information has been added to `gcc-runtime` to provide the correct soname
under different conditions on its `%gcc`.
Rules injected into the solver looks like:
```prolog
% Add a dependency on 'gfortran@5' for nodes compiled with gcc@=13.2.0 and using the 'fortran' language
attr("dependency_holds", node(ID, Package), "gfortran", "link") :-
attr("node", node(ID, Package)),
attr("node_compiler", node(ID, Package), "gcc"),
attr("node_compiler_version", node(ID, Package), "gcc", "13.2.0"),
not external(node(ID, Package)),
not runtime(Package),
attr("language", node(ID, Package), "fortran").
attr("virtual_node", node(RuntimeID, "gfortran")) :-
attr("depends_on", node(ID, Package), ProviderNode, "link"),
provider(ProviderNode, node(RuntimeID, "gfortran")),
attr("node", node(ID, Package)),
attr("node_compiler", node(ID, Package), "gcc"),
attr("node_compiler_version", node(ID, Package), "gcc", "13.2.0"),
not external(node(ID, Package)),
not runtime(Package),
attr("language", node(ID, Package), "fortran").
attr("node_version_satisfies", node(RuntimeID, "gfortran"), "5") :-
attr("depends_on", node(ID, Package), ProviderNode, "link"),
provider(ProviderNode, node(RuntimeID, "gfortran")),
attr("node", node(ID, Package)),
attr("node_compiler", node(ID, Package), "gcc"),
attr("node_compiler_version", node(ID, Package), "gcc", "13.2.0"),
not external(node(ID, Package)),
not runtime(Package),
attr("language", node(ID, Package), "fortran").
```
This adds support for prereleases. Alpha, beta and release candidate
suffixes are ordered in the intuitive way:
```
1.2.0-alpha < 1.2.0-alpha.1 < 1.2.0-beta.2 < 1.2.0-rc.3 < 1.2.0 < 1.2.0-xyz
```
Alpha, beta and rc prereleases are defined as follows: split the version
string into components like before (on delimiters and string boundaries).
If there's a string component `alpha`, `beta` or `rc` followed by an optional
numeric component at the end, then the version is prerelease.
So `1.2.0-alpha.1 == 1.2.0alpha1 == 1.2.0.alpha1` are all the same, as usual.
The strings `alpha`, `beta` and `rc` are chosen because they match semver,
they are sufficiently long to be unambiguous, and and all contain at least
one non-hex character so distinguish them from shasum/digest type suffixes.
The comparison key is now stored as `(release_tuple, prerelease_tuple)`, so in
the above example:
```
((1,2,0),(ALPHA,)) < ((1,2,0),(ALPHA,1)) < ((1,2,0),(BETA,2)) < ((1,2,0),(RC,3)) < ((1,2,0),(FINAL,)) < ((1,2,0,"xyz"), (FINAL,))
```
The version ranges `@1.2.0:` and `@:1.1` do *not* include prereleases of
`1.2.0`.
So for packaging, if the `1.2.0alpha` and `1.2.0` versions have the same constraints on
dependencies, it's best to write
```python
depends_on("x@1:", when="@1.2.0alpha:")
```
However, `@1.2:` does include `1.2.0alpha`. This is because Spack considers
`1.2 < 1.2.0` as distinct versions, with `1.2 < 1.2.0alpha < 1.2.0` as a consequence.
Alternatively, the above `depends_on` statement can thus be written
```python
depends_on("x@1:", when="@1.2:")
```
which can be useful too. A short-hand to include prereleases, but you
can still be explicit to exclude the prerelease by specifying the patch version
number.
### Concretization
Concretization uses a different version order than `<`. Prereleases are ordered
between final releases and develop versions. That way, users should not
have to set `preferred=True` on every final release if they add just one
prerelease to a package. The concretizer is unlikely to pick a prerelease when
final releases are possible.
### Limitations
1. You can't express a range that includes all alpha release but excludes all beta
releases. Only alternative is good old repeated nines: `@:1.2.0alpha99`.
2. The Python ecosystem defaults to `a`, `b`, `rc` strings, so translation of Python versions to
Spack versions requires expansion to `alpha`, `beta`, `rc`. It's mildly annoying, because
this means we may need to compute URLs differently (not done in this commit).
### Hash
Care is taken not to break hashes of versions that do not have a prerelease
suffix.
Generate CI scripts as powershell on Windows. This is intended to
output exactly the same bash scripts as before on Linux.
Co-authored-by: Ryan Krattiger <ryan.krattiger@kitware.com>
