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// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
use std::collections::HashSet;
use std::sync::Arc;
use deno_core::error::AnyError;
use deno_core::parking_lot::Mutex;
use deno_core::parking_lot::RwLock;
use deno_core::TaskQueue;
use deno_lockfile::NpmPackageDependencyLockfileInfo;
use deno_lockfile::NpmPackageLockfileInfo;
use deno_npm::registry::NpmPackageInfo;
use deno_npm::resolution::NpmPackagesPartitioned;
use deno_npm::resolution::NpmResolutionSnapshot;
use deno_npm::NpmPackageCacheFolderId;
use deno_npm::NpmPackageId;
use deno_npm::NpmResolutionPackage;
use deno_semver::npm::NpmPackageNv;
use deno_semver::npm::NpmPackageNvReference;
use deno_semver::npm::NpmPackageReq;
use deno_semver::npm::NpmPackageReqReference;
use crate::args::Lockfile;
use super::registry::NpmRegistry;
/// Handles updating and storing npm resolution in memory where the underlying
/// snapshot can be updated concurrently. Additionally handles updating the lockfile
/// based on changes to the resolution.
///
/// This does not interact with the file system.
#[derive(Clone)]
pub struct NpmResolution(Arc<NpmResolutionInner>);
struct NpmResolutionInner {
api: NpmRegistry,
snapshot: RwLock<NpmResolutionSnapshot>,
update_queue: TaskQueue,
maybe_lockfile: Option<Arc<Mutex<Lockfile>>>,
}
impl std::fmt::Debug for NpmResolution {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let snapshot = self.0.snapshot.read();
f.debug_struct("NpmResolution")
.field("snapshot", &snapshot)
.finish()
}
}
impl NpmResolution {
pub fn new(
api: NpmRegistry,
initial_snapshot: Option<NpmResolutionSnapshot>,
maybe_lockfile: Option<Arc<Mutex<Lockfile>>>,
) -> Self {
Self(Arc::new(NpmResolutionInner {
api,
snapshot: RwLock::new(initial_snapshot.unwrap_or_default()),
update_queue: Default::default(),
maybe_lockfile,
}))
}
pub async fn add_package_reqs(
&self,
package_reqs: Vec<NpmPackageReq>,
) -> Result<(), AnyError> {
let inner = &self.0;
// only allow one thread in here at a time
let _permit = inner.update_queue.acquire().await;
let snapshot = inner.snapshot.read().clone();
let snapshot = add_package_reqs_to_snapshot(
&inner.api,
package_reqs,
snapshot,
self.0.maybe_lockfile.clone(),
)
.await?;
*inner.snapshot.write() = snapshot;
Ok(())
}
pub async fn set_package_reqs(
&self,
package_reqs: Vec<NpmPackageReq>,
) -> Result<(), AnyError> {
let inner = &self.0;
// only allow one thread in here at a time
let _permit = inner.update_queue.acquire().await;
let snapshot = inner.snapshot.read().clone();
let reqs_set = package_reqs.iter().collect::<HashSet<_>>();
let has_removed_package = !snapshot
.package_reqs()
.keys()
.all(|req| reqs_set.contains(req));
// if any packages were removed, we need to completely recreate the npm resolution snapshot
let snapshot = if has_removed_package {
NpmResolutionSnapshot::default()
} else {
snapshot
};
let snapshot = add_package_reqs_to_snapshot(
&inner.api,
package_reqs,
snapshot,
self.0.maybe_lockfile.clone(),
)
.await?;
*inner.snapshot.write() = snapshot;
Ok(())
}
pub async fn resolve_pending(&self) -> Result<(), AnyError> {
let inner = &self.0;
// only allow one thread in here at a time
let _permit = inner.update_queue.acquire().await;
let snapshot = inner.snapshot.read().clone();
let snapshot = add_package_reqs_to_snapshot(
&inner.api,
Vec::new(),
snapshot,
self.0.maybe_lockfile.clone(),
)
.await?;
*inner.snapshot.write() = snapshot;
Ok(())
}
pub fn pkg_req_ref_to_nv_ref(
&self,
req_ref: NpmPackageReqReference,
) -> Result<NpmPackageNvReference, AnyError> {
let node_id = self.resolve_pkg_id_from_pkg_req(&req_ref.req)?;
Ok(NpmPackageNvReference {
nv: node_id.nv,
sub_path: req_ref.sub_path,
})
}
pub fn resolve_package_cache_folder_id_from_id(
&self,
id: &NpmPackageId,
) -> Option<NpmPackageCacheFolderId> {
self
.0
.snapshot
.read()
.package_from_id(id)
.map(|p| p.get_package_cache_folder_id())
}
pub fn resolve_package_from_package(
&self,
name: &str,
referrer: &NpmPackageCacheFolderId,
) -> Result<NpmResolutionPackage, AnyError> {
self
.0
.snapshot
.read()
.resolve_package_from_package(name, referrer)
.cloned()
}
/// Resolve a node package from a deno module.
pub fn resolve_pkg_id_from_pkg_req(
&self,
req: &NpmPackageReq,
) -> Result<NpmPackageId, AnyError> {
self
.0
.snapshot
.read()
.resolve_pkg_from_pkg_req(req)
.map(|pkg| pkg.pkg_id.clone())
}
pub fn resolve_pkg_id_from_deno_module(
&self,
id: &NpmPackageNv,
) -> Result<NpmPackageId, AnyError> {
self
.0
.snapshot
.read()
.resolve_package_from_deno_module(id)
.map(|pkg| pkg.pkg_id.clone())
}
/// Resolves a package requirement for deno graph. This should only be
/// called by deno_graph's NpmResolver or for resolving packages in
/// a package.json
pub fn resolve_package_req_as_pending(
&self,
pkg_req: &NpmPackageReq,
) -> Result<NpmPackageNv, AnyError> {
// we should always have this because it should have been cached before here
let package_info =
self.0.api.get_cached_package_info(&pkg_req.name).unwrap();
self.resolve_package_req_as_pending_with_info(pkg_req, &package_info)
}
/// Resolves a package requirement for deno graph. This should only be
/// called by deno_graph's NpmResolver or for resolving packages in
/// a package.json
pub fn resolve_package_req_as_pending_with_info(
&self,
pkg_req: &NpmPackageReq,
package_info: &NpmPackageInfo,
) -> Result<NpmPackageNv, AnyError> {
debug_assert_eq!(pkg_req.name, package_info.name);
let inner = &self.0;
let mut snapshot = inner.snapshot.write();
let nv = snapshot.resolve_package_req_as_pending(pkg_req, package_info)?;
Ok(nv)
}
pub fn all_packages_partitioned(&self) -> NpmPackagesPartitioned {
self.0.snapshot.read().all_packages_partitioned()
}
pub fn has_packages(&self) -> bool {
!self.0.snapshot.read().is_empty()
}
pub fn snapshot(&self) -> NpmResolutionSnapshot {
self.0.snapshot.read().clone()
}
pub fn lock(&self, lockfile: &mut Lockfile) -> Result<(), AnyError> {
let snapshot = self.0.snapshot.read();
populate_lockfile_from_snapshot(lockfile, &snapshot)
}
}
async fn add_package_reqs_to_snapshot(
api: &NpmRegistry,
package_reqs: Vec<NpmPackageReq>,
snapshot: NpmResolutionSnapshot,
maybe_lockfile: Option<Arc<Mutex<Lockfile>>>,
) -> Result<NpmResolutionSnapshot, AnyError> {
if !snapshot.has_pending()
&& package_reqs
.iter()
.all(|req| snapshot.package_reqs().contains_key(req))
{
return Ok(snapshot); // already up to date
}
let result = snapshot.resolve_pending(package_reqs, api).await;
api.clear_memory_cache();
let snapshot = result?; // propagate the error after clearing the memory cache
if let Some(lockfile_mutex) = maybe_lockfile {
let mut lockfile = lockfile_mutex.lock();
populate_lockfile_from_snapshot(&mut lockfile, &snapshot)?;
Ok(snapshot)
} else {
Ok(snapshot)
}
}
fn populate_lockfile_from_snapshot(
lockfile: &mut Lockfile,
snapshot: &NpmResolutionSnapshot,
) -> Result<(), AnyError> {
for (package_req, nv) in snapshot.package_reqs() {
lockfile.insert_npm_specifier(
package_req.to_string(),
snapshot
.resolve_package_from_deno_module(nv)
.unwrap()
.pkg_id
.as_serialized(),
);
}
for package in snapshot.all_packages() {
lockfile
.check_or_insert_npm_package(npm_package_to_lockfile_info(package))?;
}
Ok(())
}
fn npm_package_to_lockfile_info(
pkg: NpmResolutionPackage,
) -> NpmPackageLockfileInfo {
let dependencies = pkg
.dependencies
.into_iter()
.map(|(name, id)| NpmPackageDependencyLockfileInfo {
name,
id: id.as_serialized(),
})
.collect();
NpmPackageLockfileInfo {
display_id: pkg.pkg_id.nv.to_string(),
serialized_id: pkg.pkg_id.as_serialized(),
integrity: pkg.dist.integrity().to_string(),
dependencies,
}
}
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