use std::{borrow::Cow, collections::BTreeSet, iter, mem, path::Path, str::FromStr, sync::Arc};
use binstalk_fetchers::FETCHER_GH_CRATE_META;
use binstalk_types::{
cargo_toml_binstall::Strategy,
crate_info::{CrateSource, SourceType},
};
use compact_str::{CompactString, ToCompactString};
use itertools::Itertools;
use leon::Template;
use maybe_owned::MaybeOwned;
use semver::{Version, VersionReq};
use tokio::{task::spawn_blocking, time::timeout};
use tracing::{debug, error, info, instrument, warn};
use url::Url;
use crate::{
bins,
errors::{BinstallError, VersionParseError},
fetchers::{Data, Fetcher, TargetData},
helpers::{
cargo_toml::Manifest, cargo_toml_workspace::load_manifest_from_workspace,
download::ExtractedFiles, remote::Client, target_triple::TargetTriple,
tasks::AutoAbortJoinHandle,
},
manifests::cargo_toml_binstall::{Meta, PkgMeta, PkgOverrides},
ops::{CargoTomlFetchOverride, Options},
};
mod crate_name;
#[doc(inline)]
pub use crate_name::CrateName;
mod version_ext;
#[doc(inline)]
pub use version_ext::VersionReqExt;
mod resolution;
#[doc(inline)]
pub use resolution::{Resolution, ResolutionFetch, ResolutionSource};
#[instrument(skip_all)]
pub async fn resolve(
opts: Arc<Options>,
crate_name: CrateName,
curr_version: Option<Version>,
) -> Result<Resolution, BinstallError> {
let crate_name_name = crate_name.name.clone();
let resolution = resolve_inner(opts, crate_name, curr_version)
.await
.map_err(|err| err.crate_context(crate_name_name))?;
Ok(resolution)
}
async fn resolve_inner(
opts: Arc<Options>,
crate_name: CrateName,
curr_version: Option<Version>,
) -> Result<Resolution, BinstallError> {
info!("Resolving package: '{}'", crate_name);
let version_req = crate_name.version_req.unwrap_or(VersionReq::STAR);
let version_req_str = version_req.to_compact_string();
let Some(package_info) = PackageInfo::resolve(
&opts,
crate_name.name,
curr_version,
&version_req,
opts.client.clone(),
)
.await?
else {
return Ok(Resolution::AlreadyUpToDate);
};
let desired_targets = opts
.desired_targets
.get()
.await
.iter()
.map(|target| {
debug!("Building metadata for target: {target}");
let target_related_info = TargetTriple::from_str(target)?;
let cfgs = target_related_info.cfgs();
let meta = package_info.meta.merge_overrides(
iter::once(&opts.cli_overrides)
.chain(package_info.overrides.get_matching(target, &cfgs)),
);
debug!("Found metadata: {meta:?}");
Ok(Arc::new(TargetData {
target: target.clone(),
meta,
target_related_info,
}))
})
.collect::<Result<Vec<_>, BinstallError>>()?;
let resolvers = &opts.resolvers;
let binary_name = match package_info.binaries.as_slice() {
[bin] if bin.name != package_info.name => Some(CompactString::from(bin.name.as_str())),
_ => None,
};
let mut handles: Vec<Arc<dyn Fetcher>> = Vec::with_capacity(
desired_targets.len() * resolvers.len()
+ if binary_name.is_some() {
desired_targets.len()
} else {
0
},
);
let gh_api_client = opts.gh_api_client.get().await?;
let mut handles_fn =
|data: Arc<Data>, filter_fetcher_by_name_predicate: fn(&'static str) -> bool| {
handles.extend(
resolvers
.iter()
.cartesian_product(&desired_targets)
.filter_map(|(f, target_data)| {
let fetcher = f(
opts.client.clone(),
gh_api_client.clone(),
data.clone(),
target_data.clone(),
opts.signature_policy,
);
if let Some(disabled_strategies) =
target_data.meta.disabled_strategies.as_deref()
{
if disabled_strategies.contains(&fetcher.strategy()) {
return None;
}
}
filter_fetcher_by_name_predicate(fetcher.fetcher_name()).then_some(fetcher)
}),
)
};
handles_fn(
Arc::new(Data::new(
package_info.name.clone(),
package_info.version_str.clone(),
package_info.repo.clone(),
)),
|_| true,
);
if let Some(binary_name) = binary_name {
handles_fn(
Arc::new(Data::new(
binary_name,
package_info.version_str.clone(),
package_info.repo.clone(),
)),
|name| name == FETCHER_GH_CRATE_META,
);
}
for fetcher in &handles {
match timeout(
opts.maximum_resolution_timeout,
AutoAbortJoinHandle::new(fetcher.clone().find()).flattened_join(),
)
.await
{
Ok(ret) => match ret {
Ok(true) => {
let bin_path = opts.temp_dir.join(format!(
"bin-{}-{}-{}",
package_info.name,
fetcher.target(),
fetcher.fetcher_name()
));
match download_extract_and_verify(
fetcher.as_ref(),
&bin_path,
&package_info,
&opts.install_path,
opts.no_symlinks,
&opts.bins,
)
.await
{
Ok(bin_files) => {
if !bin_files.is_empty() {
if !opts.disable_telemetry {
fetcher.clone().report_to_upstream();
}
return Ok(Resolution::Fetch(Box::new(ResolutionFetch {
fetcher: fetcher.clone(),
new_version: package_info.version,
name: package_info.name,
version_req: version_req_str,
source: package_info.source,
bin_files,
})));
} else {
warn!(
"Error when checking binaries provided by fetcher {}: \
The fetcher does not provide any optional binary",
fetcher.source_name(),
);
}
}
Err(err) => {
if let BinstallError::UserAbort = err {
return Err(err);
}
warn!(
"Error while downloading and extracting from fetcher {}: {}",
fetcher.source_name(),
err
);
}
}
}
Ok(false) => (),
Err(err) => {
warn!(
"Error while checking fetcher {}: {}",
fetcher.source_name(),
err
);
}
},
Err(err) => {
warn!(
"Timeout reached while checking fetcher {}: {}",
fetcher.source_name(),
err
);
}
}
}
if !opts.disable_telemetry {
for fetcher in handles {
fetcher.report_to_upstream();
}
}
if !opts.cargo_install_fallback {
return Err(BinstallError::NoFallbackToCargoInstall);
}
let meta = package_info
.meta
.merge_overrides(iter::once(&opts.cli_overrides));
let target_meta = desired_targets
.first()
.map(|target_data| &target_data.meta)
.unwrap_or(&meta);
if let Some(disabled_strategies) = target_meta.disabled_strategies.as_deref() {
if disabled_strategies.contains(&Strategy::Compile) {
return Err(BinstallError::NoFallbackToCargoInstall);
}
}
Ok(Resolution::InstallFromSource(ResolutionSource {
name: package_info.name,
version: package_info.version_str,
}))
}
async fn download_extract_and_verify(
fetcher: &dyn Fetcher,
bin_path: &Path,
package_info: &PackageInfo,
install_path: &Path,
no_symlinks: bool,
bins: &Option<Vec<CompactString>>,
) -> Result<Vec<bins::BinFile>, BinstallError> {
let extracted_files = fetcher.fetch_and_extract(bin_path).await?;
debug!("extracted_files = {extracted_files:#?}");
let meta = fetcher.target_meta();
let bin_files = collect_bin_files(
fetcher,
package_info,
meta,
bin_path,
install_path,
no_symlinks,
&extracted_files,
)?;
let name = &package_info.name;
package_info
.binaries
.iter()
.zip(bin_files)
.filter_map(|(bin, bin_file)| {
if bins
.as_ref()
.is_some_and(|bins| !bins.iter().any(|b| b == bin.name))
{
return None;
}
match bin_file.check_source_exists(&mut |p| extracted_files.has_file(p)) {
Ok(()) => Some(Ok(bin_file)),
Err(err) => {
let required_features = &bin.required_features;
let bin_name = bin.name.as_str();
if required_features.is_empty() {
error!(
"When resolving {name} bin {bin_name} is not found. \
This binary is not optional so it must be included in the archive, please contact with \
upstream to fix this issue."
);
Some(Err(err))
} else {
let features = required_features.iter().format(",");
warn!(
"When resolving {name} bin {bin_name} is not found. \
But since it requires features {features}, this bin is ignored."
);
None
}
}
}
})
.collect::<Result<Vec<bins::BinFile>, bins::Error>>()
.map_err(BinstallError::from)
}
fn collect_bin_files(
fetcher: &dyn Fetcher,
package_info: &PackageInfo,
meta: PkgMeta,
bin_path: &Path,
install_path: &Path,
no_symlinks: bool,
extracted_files: &ExtractedFiles,
) -> Result<Vec<bins::BinFile>, BinstallError> {
let bin_data = bins::Data {
name: &package_info.name,
target: fetcher.target(),
version: &package_info.version_str,
repo: package_info.repo.as_deref(),
meta,
bin_path,
install_path,
target_related_info: &fetcher.target_data().target_related_info,
};
let bin_dir = bin_data
.meta
.bin_dir
.as_deref()
.map(Cow::Borrowed)
.unwrap_or_else(|| {
bins::infer_bin_dir_template(&bin_data, &mut |p| extracted_files.get_dir(p).is_some())
});
let template = Template::parse(&bin_dir)?;
let bin_files = package_info
.binaries
.iter()
.map(|bin| bins::BinFile::new(&bin_data, bin.name.as_str(), &template, no_symlinks))
.collect::<Result<Vec<_>, bins::Error>>()?;
let mut source_set = BTreeSet::new();
for bin in &bin_files {
if !source_set.insert(&bin.source) {
return Err(BinstallError::DuplicateSourceFilePath {
path: bin.source.clone(),
});
}
}
Ok(bin_files)
}
struct PackageInfo {
meta: PkgMeta,
binaries: Vec<Bin>,
name: CompactString,
version_str: CompactString,
source: CrateSource,
version: Version,
repo: Option<String>,
overrides: PkgOverrides,
}
struct Bin {
name: String,
required_features: Vec<String>,
}
impl PackageInfo {
async fn resolve(
opts: &Options,
name: CompactString,
curr_version: Option<Version>,
version_req: &VersionReq,
client: Client,
) -> Result<Option<Self>, BinstallError> {
use CargoTomlFetchOverride::*;
let (manifest, source) = match opts.cargo_toml_fetch_override.as_ref() {
Some(Path(manifest_path)) => (
spawn_blocking({
let manifest_path = manifest_path.clone();
let name = name.clone();
move || load_manifest_path(manifest_path, &name)
})
.await??,
CrateSource {
source_type: SourceType::Path,
url: MaybeOwned::Owned(Url::parse(&format!(
"file://{}",
manifest_path.display()
))?),
},
),
#[cfg(feature = "git")]
Some(Git(git_url)) => {
use crate::helpers::git::{GitCancellationToken, Repository as GitRepository};
let cancellation_token = GitCancellationToken::default();
let cancel_on_drop = cancellation_token.clone().cancel_on_drop();
let (ret, commit_hash) = spawn_blocking({
let git_url = git_url.clone();
let name = name.clone();
move || {
let dir = tempfile::TempDir::new()?;
let repo = GitRepository::shallow_clone(
git_url,
dir.as_ref(),
Some(cancellation_token),
)?;
Ok::<_, BinstallError>((
load_manifest_from_workspace(dir.as_ref(), &name)
.map_err(BinstallError::from)?,
repo.get_head_commit_hash()?,
))
}
})
.await??;
cancel_on_drop.disarm();
(
ret,
CrateSource {
source_type: SourceType::Git,
url: MaybeOwned::Owned(Url::parse(&format!("{git_url}#{commit_hash}"))?),
},
)
}
None => (
Box::pin(
opts.registry
.fetch_crate_matched(client, &name, version_req),
)
.await?,
opts.registry.crate_source()?,
),
};
let Some(mut package) = manifest.package else {
return Err(BinstallError::CargoTomlMissingPackage(name));
};
let new_version_str = package.version().to_compact_string();
let new_version = match Version::parse(&new_version_str) {
Ok(new_version) => new_version,
Err(err) => {
return Err(Box::new(VersionParseError {
v: new_version_str,
err,
})
.into())
}
};
if let Some(curr_version) = curr_version {
if new_version == curr_version {
info!(
"{} v{curr_version} is already installed, use --force to override",
name
);
return Ok(None);
}
}
let (mut meta, binaries): (_, Vec<Bin>) = (
package
.metadata
.take()
.and_then(|m| m.binstall)
.unwrap_or_default(),
manifest
.bin
.into_iter()
.filter_map(|p| {
p.name.map(|name| Bin {
name,
required_features: p.required_features,
})
})
.collect(),
);
if binaries.is_empty() {
Err(BinstallError::UnspecifiedBinaries)
} else {
Ok(Some(Self {
overrides: mem::take(&mut meta.overrides),
meta,
binaries,
name,
source,
version_str: new_version_str,
version: new_version,
repo: package.repository().map(ToString::to_string),
}))
}
}
}
pub fn load_manifest_path<P: AsRef<Path>, N: AsRef<str>>(
manifest_path: P,
name: N,
) -> Result<Manifest<Meta>, BinstallError> {
fn inner(manifest_path: &Path, crate_name: &str) -> Result<Manifest<Meta>, BinstallError> {
debug!(
"Reading crate {crate_name} manifest at local path: {}",
manifest_path.display()
);
let manifest = load_manifest_from_workspace(manifest_path, crate_name)?;
Ok(manifest)
}
inner(manifest_path.as_ref(), name.as_ref())
}