// This Source Code Form is subject to the terms of // the Mozilla Public License, v. 2.0. If a copy of the // MPL was not distributed with this file, You can // obtain one at https://mozilla.org/MPL/2.0/. //! Dependency resolution and planning over the ImageCatalog using resolvo. //! This module implements a resolvo::DependencyProvider with IPS-specific //! selection rules: //! - Package identity uses IPS stems and publishers. //! - Ignore obsolete packages. //! - Branch is locked to the dependant when resolving dependencies. //! - Version requirements match on the release component; ordering prefers //! newest release, then publisher preference, then timestamp. //! //! resolve_install builds a resolvo Problem from user constraints, runs the //! solver, and assembles an InstallPlan from the chosen solvables. use std::cell::RefCell; use std::collections::{BTreeMap, HashMap}; // Begin resolvo wiring imports (names discovered by compiler) // We start broad and refine with compiler guidance. use resolvo::{self, Candidates, Dependencies as RDependencies, DependencyProvider, Interner, KnownDependencies, Mapping, NameId, Problem as RProblem, Requirement as RRequirement, Solver as RSolver, SolverCache, SolvableId, StringId, VersionSetId, VersionSetUnionId}; use miette::Diagnostic; use thiserror::Error; use crate::actions::Manifest; #[derive(Clone, Debug)] struct PkgCand { #[allow(dead_code)] id: SolvableId, name_id: NameId, fmri: Fmri, } #[derive(Clone, Debug)] enum VersionSetKind { Any, ReleaseEq(String), BranchEq(String), ReleaseAndBranch { release: String, branch: String }, } struct IpsProvider<'a> { image: &'a Image, catalog: CatalogProvider<'a>, // interner storages names: Mapping, name_by_str: BTreeMap, strings: Mapping, solvables: Mapping, cands_by_name: HashMap>, // Version set storage needs interior mutability to allocate during async trait calls version_sets: RefCell>, vs_name: RefCell>, unions: RefCell>>, // per-name publisher preference order; set by dependency processing or top-level specs publisher_prefs: RefCell>>, } use crate::fmri::Fmri; use crate::image::{catalog::PackageInfo, Image}; impl<'a> IpsProvider<'a> { fn new(image: &'a Image) -> Result { let mut prov = IpsProvider { image, catalog: CatalogProvider::new(image)?, names: Mapping::default(), name_by_str: BTreeMap::new(), strings: Mapping::default(), solvables: Mapping::default(), cands_by_name: HashMap::new(), version_sets: RefCell::new(Mapping::default()), vs_name: RefCell::new(Mapping::default()), unions: RefCell::new(Mapping::default()), publisher_prefs: RefCell::new(HashMap::new()), }; prov.build_index(); Ok(prov) } fn build_index(&mut self) { // Take a snapshot of the catalog to avoid borrow conflicts while interning let snapshot: Vec<(String, Vec)> = self .catalog .cache .iter() .map(|(k, v)| (k.clone(), v.clone())) .collect(); for (stem, list) in snapshot { let name_id = self.intern_name(&stem); let mut ids: Vec = Vec::new(); for pkg in &list { // allocate next solvable id based on current len let sid = SolvableId(self.solvables.len() as u32); self.solvables.insert( sid, PkgCand { id: sid, name_id, fmri: pkg.fmri.clone(), }, ); ids.push(sid); } // Ensure deterministic initial order: newest first by IPS ordering ids.sort_by(|a, b| { let fa = &self.solvables.get(*a).unwrap().fmri; let fb = &self.solvables.get(*b).unwrap().fmri; version_order_desc(fa, fb) }); self.cands_by_name.insert(name_id, ids); } } fn intern_name(&mut self, name: &str) -> NameId { if let Some(id) = self.name_by_str.get(name).copied() { return id; } let id = NameId(self.names.len() as u32); self.names.insert(id, name.to_string()); self.name_by_str.insert(name.to_string(), id); id } fn version_set_for(&self, name: NameId, kind: VersionSetKind) -> VersionSetId { let vs_id = VersionSetId(self.version_sets.borrow().len() as u32); self.version_sets.borrow_mut().insert(vs_id, kind); self.vs_name.borrow_mut().insert(vs_id, name); vs_id } } impl<'a> Interner for IpsProvider<'a> { fn display_solvable(&self, solvable: SolvableId) -> impl std::fmt::Display + '_ { let fmri = &self.solvables.get(solvable).unwrap().fmri; fmri.to_string() } fn display_name(&self, name: NameId) -> impl std::fmt::Display + '_ { self.names.get(name).cloned().unwrap_or_default() } fn display_version_set(&self, version_set: VersionSetId) -> impl std::fmt::Display + '_ { match self.version_sets.borrow().get(version_set) { Some(VersionSetKind::Any) => "any".to_string(), Some(VersionSetKind::ReleaseEq(r)) => format!("release={}", r), Some(VersionSetKind::BranchEq(b)) => format!("branch={}", b), Some(VersionSetKind::ReleaseAndBranch { release, branch }) => format!("release={}, branch={}", release, branch), None => "".to_string(), } } fn display_string(&self, string_id: StringId) -> impl std::fmt::Display + '_ { self.strings.get(string_id).cloned().unwrap_or_default() } fn version_set_name(&self, version_set: VersionSetId) -> NameId { *self.vs_name.borrow().get(version_set).expect("version set name present") } fn solvable_name(&self, solvable: SolvableId) -> NameId { self.solvables.get(solvable).unwrap().name_id } fn version_sets_in_union( &self, version_set_union: VersionSetUnionId, ) -> impl Iterator { self.unions .borrow() .get(version_set_union) .cloned() .unwrap_or_default() .into_iter() } } // Helper to evaluate if a candidate FMRI matches a VersionSetKind constraint fn fmri_matches_version_set(fmri: &Fmri, kind: &VersionSetKind) -> bool { match kind { VersionSetKind::Any => true, VersionSetKind::ReleaseEq(req_rel) => fmri .version .as_ref() .map(|v| &v.release == req_rel) .unwrap_or(false), VersionSetKind::BranchEq(req_branch) => fmri .version .as_ref() .and_then(|v| v.branch.as_ref()) .map(|b| b == req_branch) .unwrap_or(false), VersionSetKind::ReleaseAndBranch { release, branch } => fmri .version .as_ref() .map(|v| &v.release == release) .unwrap_or(false) && fmri .version .as_ref() .and_then(|v| v.branch.as_ref()) .map(|b| b == branch) .unwrap_or(false), } } #[allow(clippy::too_many_arguments)] impl<'a> DependencyProvider for IpsProvider<'a> { async fn filter_candidates( &self, candidates: &[SolvableId], version_set: VersionSetId, inverse: bool, ) -> Vec { let kind = self .version_sets .borrow() .get(version_set) .cloned() .unwrap_or(VersionSetKind::Any); candidates .iter() .copied() .filter(|sid| { let fmri = &self.solvables.get(*sid).unwrap().fmri; let m = fmri_matches_version_set(fmri, &kind); if inverse { !m } else { m } }) .collect() } async fn get_candidates(&self, name: NameId) -> Option { let list = self.cands_by_name.get(&name)?; Some(Candidates { candidates: list.clone(), favored: None, locked: None, hint_dependencies_available: vec![], excluded: vec![], }) } async fn sort_candidates(&self, _solver: &SolverCache, solvables: &mut [SolvableId]) { // Determine publisher preference order for this name let name_id = if solvables.is_empty() { return; } else { self.solvable_name(solvables[0]) }; let prefs_opt = self.publisher_prefs.borrow().get(&name_id).cloned(); let pub_order = prefs_opt.unwrap_or_else(|| build_publisher_preference(None, self.image)); let idx_of = |pubname: &str| -> usize { pub_order .iter() .position(|p| p == pubname) .unwrap_or(usize::MAX) }; solvables.sort_by(|a, b| { let fa = &self.solvables.get(*a).unwrap().fmri; let fb = &self.solvables.get(*b).unwrap().fmri; // First: compare releases only let rel_ord = cmp_release_desc(fa, fb); if rel_ord != std::cmp::Ordering::Equal { return rel_ord; } // If same release: prefer publisher order let ia = fa.publisher.as_deref().map(idx_of).unwrap_or(usize::MAX); let ib = fb.publisher.as_deref().map(idx_of).unwrap_or(usize::MAX); if ia != ib { return ia.cmp(&ib); } // Same publisher: prefer newest timestamp version_order_desc(fa, fb) }); } async fn get_dependencies(&self, solvable: SolvableId) -> RDependencies { let pkg = self.solvables.get(solvable).unwrap(); let fmri = &pkg.fmri; let manifest_opt = match self.image.get_manifest_from_catalog(fmri) { Ok(m) => m, Err(_) => None, }; let Some(manifest) = manifest_opt else { return RDependencies::Known(KnownDependencies::default()); }; // Build requirements for "require" deps let mut reqs: Vec = Vec::new(); let parent_branch = fmri .version .as_ref() .and_then(|v| v.branch.clone()); let parent_pub = fmri.publisher.as_deref(); for d in manifest.dependencies.iter().filter(|d| d.dependency_type == "require") { if let Some(df) = &d.fmri { let stem = df.stem().to_string(); let Some(child_name_id) = self.name_by_str.get(&stem).copied() else { // If the dependency name isn't present in the catalog index, skip it continue; }; // Create version set by release (from dep expr) and branch (from parent) let vs_kind = match (&df.version, &parent_branch) { (Some(ver), Some(branch)) => VersionSetKind::ReleaseAndBranch { release: ver.release.clone(), branch: branch.clone(), }, (Some(ver), None) => VersionSetKind::ReleaseEq(ver.release.clone()), (None, Some(branch)) => VersionSetKind::BranchEq(branch.clone()), (None, None) => VersionSetKind::Any, }; let vs_id = self.version_set_for(child_name_id, vs_kind); reqs.push(RRequirement::from(vs_id)); // Set publisher preferences for the child to parent-first, then image order let order = build_publisher_preference(parent_pub, self.image); self.publisher_prefs .borrow_mut() .entry(child_name_id) .or_insert(order); } } RDependencies::Known(KnownDependencies { requirements: reqs, constrains: vec![], }) } } #[derive(Debug, Error, Diagnostic)] #[error("Solver error: {message}")] #[diagnostic( code(ips::solver_error::generic), help("Check package names and repository catalogs. Use 'pkg6 image catalog --dump' for debugging.") )] pub struct SolverError { pub message: String, } impl SolverError { fn new(msg: impl Into) -> Self { Self { message: msg.into() } } } #[derive(Debug, Clone)] pub struct ResolvedPkg { pub fmri: Fmri, pub manifest: Manifest, } #[derive(Debug, Default, Clone)] pub struct InstallPlan { pub add: Vec, pub remove: Vec, pub update: Vec<(ResolvedPkg, ResolvedPkg)>, pub reasons: Vec, } #[derive(Debug, Clone, Default)] pub struct Constraint { pub stem: String, // If present, this holds the main release component to match (e.g., "1.18.0" or "5.11"). // IPS dependency expressions should be matched by their main release, not the full // branch/build/timestamp string. pub version_req: Option, // Preferred publishers in order of priority. When multiple candidates have the same // best release and timestamp, we pick the first matching publisher in this list. pub preferred_publishers: Vec, // When resolving a dependency, enforce staying on the dependant's branch. pub branch: Option, } /// Catalog-backed provider for candidates. Filters out obsolete packages. struct CatalogProvider<'a> { image: &'a Image, // cache: stem -> list of non-obsolete PackageInfo cache: BTreeMap>, } impl<'a> CatalogProvider<'a> { fn new(image: &'a Image) -> Result { let mut prov = Self { image, cache: BTreeMap::new() }; prov.rebuild_cache()?; Ok(prov) } fn rebuild_cache(&mut self) -> Result<(), SolverError> { let pkgs = self.image .query_catalog(None) .map_err(|e| SolverError::new(format!("catalog query failed: {e}")))?; let mut m: BTreeMap> = BTreeMap::new(); for p in pkgs.into_iter().filter(|p| !p.obsolete) { m.entry(p.fmri.stem().to_string()).or_default().push(p); } // Sort each stem's candidates by version descending (highest first) for v in m.values_mut() { v.sort_by(|a, b| cmp_version_desc(&a.fmri, &b.fmri)); } self.cache = m; Ok(()) } } fn cmp_version_desc(a: &Fmri, b: &Fmri) -> std::cmp::Ordering { // Basic descending order by stringified version as a fallback for cache sorting. a.version().cmp(&b.version()).reverse() } /// IPS-specific comparison: newest release first; if equal, newest timestamp. fn cmp_release_desc(a: &Fmri, b: &Fmri) -> std::cmp::Ordering { let a_rel = a.version.as_ref(); let b_rel = b.version.as_ref(); match (a_rel, b_rel) { (Some(va), Some(vb)) => match (va.release_to_semver(), vb.release_to_semver()) { (Ok(ra), Ok(rb)) => ra.cmp(&rb).reverse(), _ => va.release.cmp(&vb.release).reverse(), }, (Some(_), None) => std::cmp::Ordering::Less, (None, Some(_)) => std::cmp::Ordering::Greater, (None, None) => std::cmp::Ordering::Equal, } } fn version_order_desc(a: &Fmri, b: &Fmri) -> std::cmp::Ordering { // Compare by release (semver padded) if possible let a_rel = a.version.clone(); let b_rel = b.version.clone(); match (&a_rel, &b_rel) { (Some(va), Some(vb)) => { // Compare release using semver padded via Version::release_to_semver let rel_cmp = match (va.release_to_semver(), vb.release_to_semver()) { (Ok(ra), Ok(rb)) => ra.cmp(&rb).reverse(), _ => va.release.cmp(&vb.release).reverse(), }; if rel_cmp != std::cmp::Ordering::Equal { return rel_cmp; } // Same release: compare timestamp (lexicographic works for YYYYMMDDThhmmssZ) match (&va.timestamp, &vb.timestamp) { (Some(ta), Some(tb)) => ta.cmp(tb).reverse(), (Some(_), None) => std::cmp::Ordering::Less, // Some > None (newer preferred) (None, Some(_)) => std::cmp::Ordering::Greater, (None, None) => std::cmp::Ordering::Equal, } } (Some(_), None) => std::cmp::Ordering::Less, (None, Some(_)) => std::cmp::Ordering::Greater, (None, None) => std::cmp::Ordering::Equal, } } /// Resolve an install plan for the given constraints. pub fn resolve_install(image: &Image, constraints: &[Constraint]) -> Result { // Build provider indexed from catalog let mut provider = IpsProvider::new(image)?; // Construct problem requirements from top-level constraints let mut problem = RProblem::default(); // Augment publisher preferences for roots and create version sets let image_pub_order: Vec = image.publishers().iter().map(|p| p.name.clone()).collect(); let default_pub = image .default_publisher() .map(|p| p.name.clone()) .unwrap_or_else(|_| String::new()); for c in constraints.iter().cloned() { // Intern name let name_id = provider.intern_name(&c.stem); // Store publisher preferences for this root let mut prefs = c.preferred_publishers.clone(); if prefs.is_empty() { prefs = image_pub_order.clone(); if !default_pub.is_empty() && !prefs.iter().any(|p| p == &default_pub) { prefs.push(default_pub.clone()); } } provider .publisher_prefs .borrow_mut() .insert(name_id, prefs); // Build version set: by release if provided; optionally by branch if present let vs_kind = match (c.version_req, c.branch) { (Some(release), Some(branch)) => VersionSetKind::ReleaseAndBranch { release, branch }, (Some(release), None) => VersionSetKind::ReleaseEq(release), (None, Some(branch)) => VersionSetKind::BranchEq(branch), (None, None) => VersionSetKind::Any, }; let vs_id = provider.version_set_for(name_id, vs_kind); problem.requirements.push(RRequirement::from(vs_id)); } // Before moving provider into the solver, capture a map from solvable id to fmri let mut sid_to_fmri: HashMap = HashMap::new(); for ids in provider.cands_by_name.values() { for sid in ids { let fmri = provider.solvables.get(*sid).unwrap().fmri.clone(); sid_to_fmri.insert(*sid, fmri); } } // Run the solver let mut solver = RSolver::new(provider); let solution_ids = solver .solve(problem) .map_err(|e| SolverError::new(format!("dependency solving failed: {e:?}")))?; // Build plan from solution let image_ref = image; let mut plan = InstallPlan::default(); for sid in solution_ids { if let Some(fmri) = sid_to_fmri.get(&sid).cloned() { let manifest = image_ref .get_manifest_from_catalog(&fmri) .map_err(|e| SolverError::new(format!("failed to load manifest for {}: {e}", fmri)))? .ok_or_else(|| SolverError::new(format!("manifest not found in catalog for {}", fmri)))?; plan.reasons.push(format!("selected {} via solver", fmri)); plan.add.push(ResolvedPkg { fmri, manifest }); } } Ok(plan) } fn build_publisher_preference(parent_pub: Option<&str>, image: &Image) -> Vec { let mut order: Vec = Vec::new(); // 1) parent publisher first if provided if let Some(p) = parent_pub { order.push(p.to_string()); } // 2) image publishers in configured order for p in image.publishers() { if !order.iter().any(|x| x == &p.name) { order.push(p.name.clone()); } } // 3) default publisher at the end if missing if let Ok(def) = image.default_publisher() { if !order.iter().any(|x| x == &def.name) { order.push(def.name.clone()); } } order } #[cfg(test)] mod tests { use super::*; // These are light smoke tests using a fabricated Image may be non-trivial. // Leave placeholder tests to ensure API compiles. #[test] fn install_plan_struct_defaults() { let plan = InstallPlan::default(); assert!(plan.add.is_empty()); assert!(plan.remove.is_empty()); assert!(plan.update.is_empty()); } } #[cfg(test)] mod solver_integration_tests { use super::*; use crate::image::ImageType; use crate::image::catalog::{CATALOG_TABLE, OBSOLETED_TABLE}; use redb::Database; use tempfile::tempdir; use crate::fmri::Version; use crate::actions::Dependency; fn mk_version(release: &str, branch: Option<&str>, timestamp: Option<&str>) -> Version { let mut v = Version::new(release); if let Some(b) = branch { v.branch = Some(b.to_string()); } if let Some(t) = timestamp { v.timestamp = Some(t.to_string()); } v } fn mk_fmri(publisher: &str, name: &str, v: Version) -> Fmri { Fmri::with_publisher(publisher, name, Some(v)) } fn mk_manifest(fmri: &Fmri, req_deps: &[Fmri]) -> Manifest { let mut m = Manifest::new(); // Add pkg.fmri attribute let mut attr = crate::actions::Attr::default(); attr.key = "pkg.fmri".to_string(); attr.values = vec![fmri.to_string()]; m.attributes.push(attr); // Add require dependencies for df in req_deps { let mut d = Dependency::default(); d.fmri = Some(df.clone()); d.dependency_type = "require".to_string(); m.dependencies.push(d); } m } fn write_manifest_to_catalog(image: &Image, fmri: &Fmri, manifest: &Manifest) { let db = Database::open(image.catalog_db_path()).expect("open catalog db"); let tx = db.begin_write().expect("begin write"); { let mut table = tx.open_table(CATALOG_TABLE).expect("open catalog table"); let key = format!("{}@{}", fmri.stem(), fmri.version()); let val = serde_json::to_vec(manifest).expect("serialize manifest"); table.insert(key.as_str(), val.as_slice()).expect("insert manifest"); } tx.commit().expect("commit"); } fn mark_obsolete(image: &Image, fmri: &Fmri) { let db = Database::open(image.catalog_db_path()).expect("open catalog db"); let tx = db.begin_write().expect("begin write"); { let mut table = tx.open_table(OBSOLETED_TABLE).expect("open obsoleted table"); let key = fmri.to_string(); // store empty value let empty: Vec = Vec::new(); table.insert(key.as_str(), empty.as_slice()).expect("insert obsolete"); } tx.commit().expect("commit"); } fn make_image_with_publishers(pubs: &[(&str, bool)]) -> Image { let td = tempdir().expect("tempdir"); // Persist the directory for the duration of the test let path = td.keep(); let mut img = Image::create_image(&path, ImageType::Partial).expect("create image"); for (name, is_default) in pubs.iter().copied() { img.add_publisher(name, &format!("https://example.com/{name}"), vec![], is_default) .expect("add publisher"); } img } #[test] fn select_newest_release_then_timestamp() { let img = make_image_with_publishers(&[("pubA", true)]); let fmri_100_old = mk_fmri("pubA", "pkg/alpha", mk_version("1.0", None, Some("20200101T000000Z"))); let fmri_100_new = mk_fmri("pubA", "pkg/alpha", mk_version("1.0", None, Some("20200201T000000Z"))); let fmri_110_any = mk_fmri("pubA", "pkg/alpha", mk_version("1.1", None, Some("20200115T000000Z"))); write_manifest_to_catalog(&img, &fmri_100_old, &mk_manifest(&fmri_100_old, &[])); write_manifest_to_catalog(&img, &fmri_100_new, &mk_manifest(&fmri_100_new, &[])); write_manifest_to_catalog(&img, &fmri_110_any, &mk_manifest(&fmri_110_any, &[])); let c = Constraint { stem: "pkg/alpha".to_string(), version_req: None, preferred_publishers: vec![], branch: None }; let plan = resolve_install(&img, &[c]).expect("resolve"); assert!(!plan.add.is_empty()); let chosen = &plan.add[0].fmri; assert_eq!(chosen.version.as_ref().unwrap().release, "1.1"); } #[test] fn ignore_obsolete_candidates() { let img = make_image_with_publishers(&[("pubA", true)]); let fmri_non_obsolete = mk_fmri("pubA", "pkg/beta", mk_version("0.9", None, Some("20200101T000000Z"))); let fmri_obsolete = mk_fmri("pubA", "pkg/beta", mk_version("1.0", None, Some("20200301T000000Z"))); write_manifest_to_catalog(&img, &fmri_non_obsolete, &mk_manifest(&fmri_non_obsolete, &[])); // mark the 1.0 as obsolete (not adding to catalog table) mark_obsolete(&img, &fmri_obsolete); let c = Constraint { stem: "pkg/beta".to_string(), version_req: None, preferred_publishers: vec![], branch: None }; let plan = resolve_install(&img, &[c]).expect("resolve"); assert!(!plan.add.is_empty()); let chosen = &plan.add[0].fmri; assert_eq!(chosen.version.as_ref().unwrap().release, "0.9"); } #[test] fn dependency_sticks_to_parent_branch() { let img = make_image_with_publishers(&[("pubA", true)]); // Parent pkg on branch 1 with a require on dep@5.11 let parent = mk_fmri("pubA", "pkg/parent", mk_version("5.11", Some("1"), Some("20200102T000000Z"))); let dep_req = Fmri::with_version("pkg/dep", Version::new("5.11")); let parent_manifest = mk_manifest(&parent, &[dep_req.clone()]); write_manifest_to_catalog(&img, &parent, &parent_manifest); // dep on branch 1 (older) and branch 2 (newer) — branch 1 must be selected let dep_branch1_old = mk_fmri("pubA", "pkg/dep", mk_version("5.11", Some("1"), Some("20200101T000000Z"))); let dep_branch1_new = mk_fmri("pubA", "pkg/dep", mk_version("5.11", Some("1"), Some("20200201T000000Z"))); let dep_branch2_newer = mk_fmri("pubA", "pkg/dep", mk_version("5.11", Some("2"), Some("20200401T000000Z"))); write_manifest_to_catalog(&img, &dep_branch1_old, &mk_manifest(&dep_branch1_old, &[])); write_manifest_to_catalog(&img, &dep_branch1_new, &mk_manifest(&dep_branch1_new, &[])); write_manifest_to_catalog(&img, &dep_branch2_newer, &mk_manifest(&dep_branch2_newer, &[])); let c = Constraint { stem: "pkg/parent".to_string(), version_req: None, preferred_publishers: vec![], branch: None }; let plan = resolve_install(&img, &[c]).expect("resolve"); // find dep in plan let dep_pkg = plan.add.iter().find(|p| p.fmri.stem() == "pkg/dep").expect("dep present"); let v = dep_pkg.fmri.version.as_ref().unwrap(); assert_eq!(v.release, "5.11"); assert_eq!(v.branch.as_deref(), Some("1")); assert_eq!(v.timestamp.as_deref(), Some("20200201T000000Z")); } #[test] fn dependency_prefers_parent_publisher_over_newer_other_publisher() { // Parent is from pubA; dep exists on pubA (older) and pubB (newer). Expect pubA. let img = make_image_with_publishers(&[("pubA", true), ("pubB", false)]); // Ensure image publishers order contains both; default already set by first. let parent = mk_fmri("pubA", "pkg/root", mk_version("1.0", None, Some("20200101T000000Z"))); let dep_req = Fmri::with_version("pkg/child", Version::new("1.0")); let parent_manifest = mk_manifest(&parent, &[dep_req.clone()]); write_manifest_to_catalog(&img, &parent, &parent_manifest); let dep_pub_a_old = mk_fmri("pubA", "pkg/child", mk_version("1.0", None, Some("20200101T000000Z"))); let dep_pub_b_new = mk_fmri("pubB", "pkg/child", mk_version("1.0", None, Some("20200301T000000Z"))); write_manifest_to_catalog(&img, &dep_pub_a_old, &mk_manifest(&dep_pub_a_old, &[])); write_manifest_to_catalog(&img, &dep_pub_b_new, &mk_manifest(&dep_pub_b_new, &[])); let c = Constraint { stem: "pkg/root".to_string(), version_req: None, preferred_publishers: vec![], branch: None }; let plan = resolve_install(&img, &[c]).expect("resolve"); let dep_pkg = plan.add.iter().find(|p| p.fmri.stem() == "pkg/child").expect("child present"); assert_eq!(dep_pkg.fmri.publisher.as_deref(), Some("pubA")); } #[test] fn top_level_release_only_version_requirement() { let img = make_image_with_publishers(&[("pubA", true)]); let v10_old = mk_fmri("pubA", "pkg/vers", mk_version("1.0", None, Some("20200101T000000Z"))); let v10_new = mk_fmri("pubA", "pkg/vers", mk_version("1.0", None, Some("20200201T000000Z"))); let v11 = mk_fmri("pubA", "pkg/vers", mk_version("1.1", None, Some("20200301T000000Z"))); write_manifest_to_catalog(&img, &v10_old, &mk_manifest(&v10_old, &[])); write_manifest_to_catalog(&img, &v10_new, &mk_manifest(&v10_new, &[])); write_manifest_to_catalog(&img, &v11, &mk_manifest(&v11, &[])); let c = Constraint { stem: "pkg/vers".to_string(), version_req: Some("1.0".to_string()), preferred_publishers: vec![], branch: None }; let plan = resolve_install(&img, &[c]).expect("resolve"); let chosen = &plan.add[0].fmri; let v = chosen.version.as_ref().unwrap(); assert_eq!(v.release, "1.0"); assert_eq!(v.timestamp.as_deref(), Some("20200201T000000Z")); } }