Ensure parent runtime version >= child (#44834)
Fixes a bug where old gcc-runtime libraries would be loaded at runtime, but newer are required by dependencies, breaking the binaries.
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249dcb49e2
commit
d883883be0
7 changed files with 97 additions and 28 deletions
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@ -3225,6 +3225,39 @@ def requires(self, impose: str, *, when: str):
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self.runtime_conditions.add((imposed_spec, when_spec))
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self.reset()
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def propagate(self, constraint_str: str, *, when: str):
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msg = "the 'propagate' method can be called only with pkg('*')"
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assert self.current_package == "*", msg
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when_spec = spack.spec.Spec(when)
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assert when_spec.name is None, "only anonymous when specs are accepted"
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placeholder = "XXX"
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node_variable = "node(ID, Package)"
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when_spec.name = placeholder
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body_clauses = self._setup.spec_clauses(when_spec, body=True)
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body_str = (
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f" {f',{os.linesep} '.join(str(x) for x in body_clauses)},\n"
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f" not external({node_variable}),\n"
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f" not runtime(Package)"
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).replace(f'"{placeholder}"', f"{node_variable}")
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constraint_spec = spack.spec.Spec(constraint_str)
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assert constraint_spec.name is None, "only anonymous constraint specs are accepted"
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constraint_spec.name = placeholder
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constraint_clauses = self._setup.spec_clauses(constraint_spec, body=False)
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for clause in constraint_clauses:
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if clause.args[0] == "node_compiler_version_satisfies":
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self._setup.compiler_version_constraints.add(constraint_spec.compiler)
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args = f'"{constraint_spec.compiler.name}", "{constraint_spec.compiler.versions}"'
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head_str = f"propagate({node_variable}, node_compiler_version_satisfies({args}))"
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rule = f"{head_str} :-\n{body_str}.\n\n"
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self.rules.append(rule)
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self.reset()
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def consume_facts(self):
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"""Consume the facts collected by this object, and emits rules and
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facts for the runtimes.
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@ -995,6 +995,30 @@ variant_is_propagated(PackageNode, Variant) :-
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attr("variant_value", PackageNode, Variant, Value),
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not propagate(PackageNode, variant_value(Variant, Value)).
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%----
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% Compiler constraints
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%----
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attr("node_compiler_version_satisfies", node(ID, Package), Compiler, Version) :-
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propagate(node(ID, Package), node_compiler_version_satisfies(Compiler, Version)),
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node_compiler(node(ID, Package), CompilerID),
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compiler_name(CompilerID, Compiler),
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not runtime(Package),
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not external(Package).
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%-----------------------------------------------------------------------------
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% Runtimes
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%-----------------------------------------------------------------------------
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% Check whether the DAG has any built package
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has_built_packages() :- build(X), not external(X).
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% If we build packages, the runtime nodes must use an available compiler
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1 { node_compiler(PackageNode, CompilerID) : build(PackageNode), not external(PackageNode) } :-
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has_built_packages(),
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runtime(RuntimePackage),
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node_compiler(node(_, RuntimePackage), CompilerID).
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%-----------------------------------------------------------------------------
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% Platform semantics
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%-----------------------------------------------------------------------------
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@ -1096,10 +1120,15 @@ attr("node_target", PackageNode, Target)
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:- attr("node", PackageNode), attr("node_target_set", PackageNode, Target).
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% each node has the weight of its assigned target
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node_target_weight(node(ID, Package), Weight)
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:- attr("node", node(ID, Package)),
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attr("node_target", node(ID, Package), Target),
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target_weight(Target, Weight).
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target_weight(Target, 0)
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:- attr("node", PackageNode),
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attr("node_target", PackageNode, Target),
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attr("node_target_set", PackageNode, Target).
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node_target_weight(PackageNode, MinWeight)
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:- attr("node", PackageNode),
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attr("node_target", PackageNode, Target),
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MinWeight = #min { Weight : target_weight(Target, Weight) }.
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% compatibility rules for targets among nodes
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node_target_match(ParentNode, DependencyNode)
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@ -1161,12 +1190,12 @@ error(10, "No valid compiler for {0} satisfies '%{1}'", Package, Compiler)
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% If the compiler of a node must satisfy a constraint, then its version
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% must be chosen among the ones that satisfy said constraint
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error(100, "No valid version for '{0}' compiler '{1}' satisfies '@{2}'", Package, Compiler, Constraint)
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error(100, "Package {0} cannot satisfy '%{1}@{2}'", Package, Compiler, Constraint)
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:- attr("node", node(X, Package)),
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attr("node_compiler_version_satisfies", node(X, Package), Compiler, Constraint),
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not compiler_version_satisfies(Compiler, Constraint, _).
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error(100, "No valid version for '{0}' compiler '{1}' satisfies '@{2}'", Package, Compiler, Constraint)
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error(100, "Package {0} cannot satisfy '%{1}@{2}'", Package, Compiler, Constraint)
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:- attr("node", node(X, Package)),
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attr("node_compiler_version_satisfies", node(X, Package), Compiler, Constraint),
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not compiler_version_satisfies(Compiler, Constraint, ID),
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@ -18,9 +18,6 @@ error(100, "Cannot reuse {0} since we cannot determine libc compatibility", Reus
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ReusedPackage != LibcPackage,
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not attr("compatible_libc", node(R, ReusedPackage), LibcPackage, LibcVersion).
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% Check whether the DAG has any built package
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has_built_packages() :- build(X), not external(X).
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% A libc is needed in the DAG
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:- has_built_packages(), not provider(_, node(0, "libc")).
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@ -1767,21 +1767,21 @@ def test_reuse_with_unknown_package_dont_raise(self, tmpdir, temporary_store, mo
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assert s.namespace == "builtin.mock"
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@pytest.mark.parametrize(
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"specs,expected",
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"specs,expected,libc_offset",
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[
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(["libelf", "libelf@0.8.10"], 1),
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(["libdwarf%gcc", "libelf%clang"], 2),
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(["libdwarf%gcc", "libdwarf%clang"], 3),
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(["libdwarf^libelf@0.8.12", "libdwarf^libelf@0.8.13"], 4),
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(["hdf5", "zmpi"], 3),
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(["hdf5", "mpich"], 2),
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(["hdf5^zmpi", "mpich"], 4),
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(["mpi", "zmpi"], 2),
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(["mpi", "mpich"], 1),
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(["libelf", "libelf@0.8.10"], 1, 1),
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(["libdwarf%gcc", "libelf%clang"], 2, 1),
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(["libdwarf%gcc", "libdwarf%clang"], 3, 2),
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(["libdwarf^libelf@0.8.12", "libdwarf^libelf@0.8.13"], 4, 1),
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(["hdf5", "zmpi"], 3, 1),
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(["hdf5", "mpich"], 2, 1),
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(["hdf5^zmpi", "mpich"], 4, 1),
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(["mpi", "zmpi"], 2, 1),
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(["mpi", "mpich"], 1, 1),
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],
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)
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@pytest.mark.only_clingo("Original concretizer cannot concretize in rounds")
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def test_best_effort_coconcretize(self, specs, expected):
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def test_best_effort_coconcretize(self, specs, expected, libc_offset):
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specs = [Spec(s) for s in specs]
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solver = spack.solver.asp.Solver()
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solver.reuse = False
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@ -1790,7 +1790,9 @@ def test_best_effort_coconcretize(self, specs, expected):
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for s in result.specs:
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concrete_specs.update(s.traverse())
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libc_offset = 1 if spack.solver.asp.using_libc_compatibility() else 0
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if not spack.solver.asp.using_libc_compatibility():
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libc_offset = 0
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assert len(concrete_specs) == expected + libc_offset
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@pytest.mark.parametrize(
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@ -79,13 +79,13 @@ def test_external_nodes_do_not_have_runtimes(runtime_repo, mutable_config, tmp_p
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[
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# The reused runtime is older than we need, thus we'll add a more recent one for a
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("a%gcc@10.2.1", "b%gcc@9.4.0", {"a": "gcc-runtime@10.2.1", "b": "gcc-runtime@9.4.0"}, 2),
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# The root is compiled with an older compiler, thus we'll reuse the runtime from b
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("a%gcc@9.4.0", "b%gcc@10.2.1", {"a": "gcc-runtime@10.2.1", "b": "gcc-runtime@10.2.1"}, 1),
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# The root is compiled with an older compiler, thus we'll NOT reuse the runtime from b
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("a%gcc@9.4.0", "b%gcc@10.2.1", {"a": "gcc-runtime@9.4.0", "b": "gcc-runtime@9.4.0"}, 1),
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# Same as before, but tests that we can reuse from a more generic target
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pytest.param(
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"a%gcc@9.4.0",
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"b%gcc@10.2.1 target=x86_64",
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{"a": "gcc-runtime@10.2.1 target=x86_64", "b": "gcc-runtime@10.2.1 target=x86_64"},
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{"a": "gcc-runtime@9.4.0", "b": "gcc-runtime@9.4.0"},
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1,
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marks=pytest.mark.skipif(
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str(archspec.cpu.host().family) != "x86_64", reason="test data is x86_64 specific"
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@ -102,13 +102,15 @@ def test_external_nodes_do_not_have_runtimes(runtime_repo, mutable_config, tmp_p
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),
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],
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)
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@pytest.mark.regression("44444")
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def test_reusing_specs_with_gcc_runtime(root_str, reused_str, expected, nruntime, runtime_repo):
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"""Tests that we can reuse specs with a "gcc-runtime" leaf node. In particular, checks
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that the semantic for gcc-runtimes versions accounts for reused packages too.
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Reusable runtime versions should be lower, or equal, to that of parent nodes.
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"""
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root, reused_spec = _concretize_with_reuse(root_str=root_str, reused_str=reused_str)
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assert f"{expected['b']}" in reused_spec
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runtime_a = root.dependencies("gcc-runtime")[0]
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assert runtime_a.satisfies(expected["a"])
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runtime_b = root["b"].dependencies("gcc-runtime")[0]
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@ -123,8 +125,7 @@ def test_reusing_specs_with_gcc_runtime(root_str, reused_str, expected, nruntime
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[
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# Ensure that, whether we have multiple runtimes in the DAG or not,
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# we always link only the latest version
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("a%gcc@10.2.1", "b%gcc@9.4.0", ["gcc-runtime@10.2.1"], ["gcc-runtime@9.4.0"]),
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("a%gcc@9.4.0", "b%gcc@10.2.1", ["gcc-runtime@10.2.1"], ["gcc-runtime@9.4.0"]),
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("a%gcc@10.2.1", "b%gcc@9.4.0", ["gcc-runtime@10.2.1"], ["gcc-runtime@9.4.0"])
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],
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)
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def test_views_can_handle_duplicate_runtime_nodes(
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@ -1134,6 +1134,10 @@ def runtime_constraints(cls, *, spec, pkg):
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# The version of gcc-runtime is the same as the %gcc used to "compile" it
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pkg("gcc-runtime").requires(f"@={str(spec.version)}", when=f"%{str(spec)}")
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# If a node used %gcc@X.Y its dependencies must use gcc-runtime@:X.Y
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# (technically @:X is broader than ... <= @=X but this should work in practice)
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pkg("*").propagate(f"%gcc@:{str(spec.version)}", when=f"%{str(spec)}")
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def _post_buildcache_install_hook(self):
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if not self.spec.satisfies("platform=linux"):
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return
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@ -30,3 +30,6 @@ def runtime_constraints(cls, *, spec, pkg):
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)
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# The version of gcc-runtime is the same as the %gcc used to "compile" it
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pkg("gcc-runtime").requires(f"@={str(spec.version)}", when=f"%{str(spec)}")
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# If a node used %gcc@X.Y its dependencies must use gcc-runtime@:X.Y
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pkg("*").propagate(f"%gcc@:{str(spec.version)}", when=f"%{str(spec)}")
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