// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. //! This module provides feature to upgrade deno executable use crate::args::Flags; use crate::args::UpgradeFlags; use crate::args::UPGRADE_USAGE; use crate::colors; use crate::factory::CliFactory; use crate::http_util::HttpClient; use crate::http_util::HttpClientProvider; use crate::shared::ReleaseChannel; use crate::util::archive; use crate::util::progress_bar::ProgressBar; use crate::util::progress_bar::ProgressBarStyle; use crate::version; use async_trait::async_trait; use deno_core::anyhow::bail; use deno_core::anyhow::Context; use deno_core::error::AnyError; use deno_core::unsync::spawn; use deno_core::url::Url; use deno_semver::Version; use once_cell::sync::Lazy; use std::borrow::Cow; use std::env; use std::fs; use std::io::IsTerminal; use std::ops::Sub; use std::path::Path; use std::path::PathBuf; use std::process::Command; use std::sync::Arc; use std::time::Duration; const RELEASE_URL: &str = "https://github.com/denoland/deno/releases"; const CANARY_URL: &str = "https://dl.deno.land/canary"; const DL_RELEASE_URL: &str = "https://dl.deno.land/release"; pub static ARCHIVE_NAME: Lazy = Lazy::new(|| format!("deno-{}.zip", env!("TARGET"))); // How often query server for new version. In hours. const UPGRADE_CHECK_INTERVAL: i64 = 24; const UPGRADE_CHECK_FETCH_DELAY: Duration = Duration::from_millis(500); /// Environment necessary for doing the update checker. /// An alternate trait implementation can be provided for testing purposes. trait UpdateCheckerEnvironment: Clone { fn read_check_file(&self) -> String; fn write_check_file(&self, text: &str); fn current_time(&self) -> chrono::DateTime; } #[derive(Clone)] struct RealUpdateCheckerEnvironment { cache_file_path: PathBuf, current_time: chrono::DateTime, } impl RealUpdateCheckerEnvironment { pub fn new(cache_file_path: PathBuf) -> Self { Self { cache_file_path, // cache the current time current_time: chrono::Utc::now(), } } } impl UpdateCheckerEnvironment for RealUpdateCheckerEnvironment { fn read_check_file(&self) -> String { std::fs::read_to_string(&self.cache_file_path).unwrap_or_default() } fn write_check_file(&self, text: &str) { let _ = std::fs::write(&self.cache_file_path, text); } fn current_time(&self) -> chrono::DateTime { self.current_time } } #[derive(Debug, Copy, Clone)] enum UpgradeCheckKind { Execution, Lsp, } #[async_trait(?Send)] trait VersionProvider: Clone { /// Fetch latest available version for the given release channel async fn latest_version( &self, release_channel: ReleaseChannel, ) -> Result; /// Returns either a semver or git hash. It's up to implementor to /// decide which one is appropriate, but in general only "stable" /// and "lts" versions use semver. fn current_version(&self) -> Cow; fn get_current_exe_release_channel(&self) -> ReleaseChannel; } #[derive(Clone)] struct RealVersionProvider { http_client_provider: Arc, check_kind: UpgradeCheckKind, } impl RealVersionProvider { pub fn new( http_client_provider: Arc, check_kind: UpgradeCheckKind, ) -> Self { Self { http_client_provider, check_kind, } } } #[async_trait(?Send)] impl VersionProvider for RealVersionProvider { async fn latest_version( &self, release_channel: ReleaseChannel, ) -> Result { fetch_latest_version( &self.http_client_provider.get_or_create()?, release_channel, self.check_kind, ) .await } fn current_version(&self) -> Cow { Cow::Borrowed(version::DENO_VERSION_INFO.version_or_git_hash()) } fn get_current_exe_release_channel(&self) -> ReleaseChannel { version::DENO_VERSION_INFO.release_channel } } struct UpdateChecker< TEnvironment: UpdateCheckerEnvironment, TVersionProvider: VersionProvider, > { env: TEnvironment, version_provider: TVersionProvider, maybe_file: Option, } impl< TEnvironment: UpdateCheckerEnvironment, TVersionProvider: VersionProvider, > UpdateChecker { pub fn new(env: TEnvironment, version_provider: TVersionProvider) -> Self { let maybe_file = CheckVersionFile::parse(env.read_check_file()); Self { env, version_provider, maybe_file, } } pub fn should_check_for_new_version(&self) -> bool { let Some(file) = &self.maybe_file else { return true; }; let last_check_age = self .env .current_time() .signed_duration_since(file.last_checked); last_check_age > chrono::Duration::hours(UPGRADE_CHECK_INTERVAL) } /// Returns the current exe release channel and a version if a new one is available and it should be prompted about. pub fn should_prompt(&self) -> Option<(ReleaseChannel, String)> { let file = self.maybe_file.as_ref()?; // If the current version saved is not the actually current version of the binary // It means // - We already check for a new version today // - The user have probably upgraded today // So we should not prompt and wait for tomorrow for the latest version to be updated again let current_version = self.version_provider.current_version(); if file.current_version != current_version { return None; } if file.latest_version == current_version { return None; } if let Ok(current) = Version::parse_standard(¤t_version) { if let Ok(latest) = Version::parse_standard(&file.latest_version) { if current >= latest { return None; } } } let last_prompt_age = self .env .current_time() .signed_duration_since(file.last_prompt); if last_prompt_age > chrono::Duration::hours(UPGRADE_CHECK_INTERVAL) { Some((file.current_release_channel, file.latest_version.clone())) } else { None } } /// Store that we showed the update message to the user. pub fn store_prompted(self) { if let Some(file) = self.maybe_file { self.env.write_check_file( &file.with_last_prompt(self.env.current_time()).serialize(), ); } } } fn get_minor_version_blog_post_url(semver: &Version) -> String { format!("https://deno.com/blog/v{}.{}", semver.major, semver.minor) } fn get_rc_version_blog_post_url(semver: &Version) -> String { format!( "https://deno.com/blog/v{}.{}-rc-{}", semver.major, semver.minor, semver.pre[1] ) } async fn print_release_notes( current_version: &str, new_version: &str, client: &HttpClient, ) { let Ok(current_semver) = Version::parse_standard(current_version) else { return; }; let Ok(new_semver) = Version::parse_standard(new_version) else { return; }; let is_switching_from_deno1_to_deno2 = new_semver.major == 2 && current_semver.major == 1; let is_deno_2_rc = new_semver.major == 2 && new_semver.minor == 0 && new_semver.patch == 0 && new_semver.pre.first() == Some(&"rc".to_string()); if is_deno_2_rc || is_switching_from_deno1_to_deno2 { log::info!( "{}\n\n {}\n", colors::gray("Migration guide:"), colors::bold( "https://docs.deno.com/runtime/manual/advanced/migrate_deprecations" ) ); } if is_deno_2_rc { log::info!( "{}\n\n {}\n", colors::gray("If you find a bug, please report to:"), colors::bold("https://github.com/denoland/deno/issues/new") ); // Check if there's blog post entry for this release let blog_url_str = get_rc_version_blog_post_url(&new_semver); let blog_url = Url::parse(&blog_url_str).unwrap(); if client.download(blog_url).await.is_ok() { log::info!( "{}\n\n {}\n", colors::gray("Blog post:"), colors::bold(blog_url_str) ); } return; } let should_print = current_semver.major != new_semver.major || current_semver.minor != new_semver.minor; if !should_print { return; } log::info!( "{}\n\n {}\n", colors::gray("Release notes:"), colors::bold(format!( "https://github.com/denoland/deno/releases/tag/v{}", &new_version, )) ); log::info!( "{}\n\n {}\n", colors::gray("Blog post:"), colors::bold(get_minor_version_blog_post_url(&new_semver)) ); } pub fn upgrade_check_enabled() -> bool { matches!( env::var("DENO_NO_UPDATE_CHECK"), Err(env::VarError::NotPresent) ) } pub fn check_for_upgrades( http_client_provider: Arc, cache_file_path: PathBuf, ) { if !upgrade_check_enabled() { return; } let env = RealUpdateCheckerEnvironment::new(cache_file_path); let version_provider = RealVersionProvider::new( http_client_provider.clone(), UpgradeCheckKind::Execution, ); let update_checker = UpdateChecker::new(env, version_provider); if update_checker.should_check_for_new_version() { let env = update_checker.env.clone(); let version_provider = update_checker.version_provider.clone(); // do this asynchronously on a separate task spawn(async move { // Sleep for a small amount of time to not unnecessarily impact startup // time. tokio::time::sleep(UPGRADE_CHECK_FETCH_DELAY).await; fetch_and_store_latest_version(&env, &version_provider).await; // text is used by the test suite log::debug!("Finished upgrade checker.") }); } // Don't bother doing any more computation if we're not in TTY environment. let should_prompt = log::log_enabled!(log::Level::Info) && std::io::stderr().is_terminal(); if !should_prompt { return; } // Print a message if an update is available if let Some((release_channel, upgrade_version)) = update_checker.should_prompt() { match release_channel { ReleaseChannel::Stable => { log::info!( "{} {} → {} {}", colors::green("A new release of Deno is available:"), colors::cyan(version::DENO_VERSION_INFO.deno), colors::cyan(&upgrade_version), colors::italic_gray("Run `deno upgrade` to install it.") ); } ReleaseChannel::Canary => { log::info!( "{} {}", colors::green("A new canary release of Deno is available."), colors::italic_gray("Run `deno upgrade canary` to install it.") ); } ReleaseChannel::Rc => { log::info!( "{} {}", colors::green("A new release candidate of Deno is available."), colors::italic_gray("Run `deno upgrade rc` to install it.") ); } ReleaseChannel::Lts => { log::info!( "{} {} → {} {}", colors::green("A new LTS release of Deno is available:"), colors::cyan(version::DENO_VERSION_INFO.deno), colors::cyan(&upgrade_version), colors::italic_gray("Run `deno upgrade lts` to install it.") ); } } update_checker.store_prompted(); } } #[derive(Debug, Clone, PartialEq, Eq)] pub struct LspVersionUpgradeInfo { pub latest_version: String, pub is_canary: bool, } pub async fn check_for_upgrades_for_lsp( http_client_provider: Arc, ) -> Result, AnyError> { if !upgrade_check_enabled() { return Ok(None); } let version_provider = RealVersionProvider::new(http_client_provider, UpgradeCheckKind::Lsp); check_for_upgrades_for_lsp_with_provider(&version_provider).await } async fn check_for_upgrades_for_lsp_with_provider( version_provider: &impl VersionProvider, ) -> Result, AnyError> { let release_channel = version_provider.get_current_exe_release_channel(); let latest_version = version_provider.latest_version(release_channel).await?; let current_version = version_provider.current_version(); // Nothing to upgrade if current_version == latest_version.version_or_hash { return Ok(None); } match release_channel { ReleaseChannel::Stable | ReleaseChannel::Rc | ReleaseChannel::Lts => { if let Ok(current) = Version::parse_standard(¤t_version) { if let Ok(latest) = Version::parse_standard(&latest_version.version_or_hash) { if current >= latest { return Ok(None); // nothing to upgrade } } } Ok(Some(LspVersionUpgradeInfo { latest_version: latest_version.version_or_hash, is_canary: false, })) } ReleaseChannel::Canary => Ok(Some(LspVersionUpgradeInfo { latest_version: latest_version.version_or_hash, is_canary: true, })), } } async fn fetch_and_store_latest_version< TEnvironment: UpdateCheckerEnvironment, TVersionProvider: VersionProvider, >( env: &TEnvironment, version_provider: &TVersionProvider, ) { let release_channel = version_provider.get_current_exe_release_channel(); let Ok(latest_version) = version_provider.latest_version(release_channel).await else { return; }; let version_file = CheckVersionFile { // put a date in the past here so that prompt can be shown on next run last_prompt: env .current_time() .sub(chrono::Duration::hours(UPGRADE_CHECK_INTERVAL + 1)), last_checked: env.current_time(), current_version: version_provider.current_version().to_string(), latest_version: latest_version.version_or_hash, current_release_channel: release_channel, }; env.write_check_file(&version_file.serialize()); } pub async fn upgrade( flags: Arc, upgrade_flags: UpgradeFlags, ) -> Result<(), AnyError> { let factory = CliFactory::from_flags(flags); let http_client_provider = factory.http_client_provider(); let client = http_client_provider.get_or_create()?; let current_exe_path = std::env::current_exe()?; let full_path_output_flag = match &upgrade_flags.output { Some(output) => Some( std::env::current_dir() .context("failed getting cwd")? .join(output), ), None => None, }; let output_exe_path = full_path_output_flag.as_ref().unwrap_or(¤t_exe_path); let permissions = set_exe_permissions(¤t_exe_path, output_exe_path)?; let force_selection_of_new_version = upgrade_flags.force || full_path_output_flag.is_some(); let requested_version = RequestedVersion::from_upgrade_flags(upgrade_flags.clone())?; log::info!("Current Deno version: v{}", version::DENO_VERSION_INFO.deno); let maybe_selected_version_to_upgrade = match &requested_version { RequestedVersion::Latest(channel) => { find_latest_version_to_upgrade( http_client_provider.clone(), *channel, force_selection_of_new_version, ) .await? } RequestedVersion::SpecificVersion(channel, version) => { select_specific_version_for_upgrade( *channel, version.clone(), force_selection_of_new_version, )? } }; let Some(selected_version_to_upgrade) = maybe_selected_version_to_upgrade else { return Ok(()); }; let download_url = get_download_url( &selected_version_to_upgrade.version_or_hash, requested_version.release_channel(), )?; log::info!("{}", colors::gray(format!("Downloading {}", &download_url))); let Some(archive_data) = download_package(&client, download_url).await? else { log::error!("Download could not be found, aborting"); deno_runtime::exit(1) }; log::info!( "{}", colors::gray(format!( "Deno is upgrading to version {}", &selected_version_to_upgrade.version_or_hash )) ); let temp_dir = tempfile::TempDir::new()?; let new_exe_path = archive::unpack_into_dir(archive::UnpackArgs { exe_name: "deno", archive_name: &ARCHIVE_NAME, archive_data: &archive_data, is_windows: cfg!(windows), dest_path: temp_dir.path(), })?; fs::set_permissions(&new_exe_path, permissions)?; check_exe(&new_exe_path)?; if upgrade_flags.dry_run { fs::remove_file(&new_exe_path)?; log::info!("Upgraded successfully (dry run)"); if requested_version.release_channel() == ReleaseChannel::Stable { print_release_notes( version::DENO_VERSION_INFO.deno, &selected_version_to_upgrade.version_or_hash, &client, ) .await; } drop(temp_dir); return Ok(()); } let output_exe_path = full_path_output_flag.as_ref().unwrap_or(¤t_exe_path); #[cfg(windows)] kill_running_deno_lsp_processes(); let output_result = if *output_exe_path == current_exe_path { replace_exe(&new_exe_path, output_exe_path) } else { fs::rename(&new_exe_path, output_exe_path) .or_else(|_| fs::copy(&new_exe_path, output_exe_path).map(|_| ())) }; check_windows_access_denied_error(output_result, output_exe_path)?; log::info!( "\nUpgraded successfully to Deno {} {}\n", colors::green(selected_version_to_upgrade.display()), colors::gray(&format!( "({})", selected_version_to_upgrade.release_channel.name() )) ); if requested_version.release_channel() == ReleaseChannel::Stable { print_release_notes( version::DENO_VERSION_INFO.deno, &selected_version_to_upgrade.version_or_hash, &client, ) .await; } drop(temp_dir); // delete the temp dir Ok(()) } #[derive(Debug, PartialEq)] enum RequestedVersion { Latest(ReleaseChannel), SpecificVersion(ReleaseChannel, String), } impl RequestedVersion { fn from_upgrade_flags(upgrade_flags: UpgradeFlags) -> Result { let is_canary = upgrade_flags.canary; let re_hash = lazy_regex::regex!("^[0-9a-f]{40}$"); let channel = if is_canary { ReleaseChannel::Canary } else if upgrade_flags.release_candidate { ReleaseChannel::Rc } else { ReleaseChannel::Stable }; let mut maybe_passed_version = upgrade_flags.version.clone(); // TODO(bartlomieju): prefer flags first? This whole logic could be cleaned up... if let Some(val) = &upgrade_flags.version_or_hash_or_channel { if let Ok(channel) = ReleaseChannel::deserialize(&val.to_lowercase()) { // TODO(bartlomieju): print error if any other flags passed? return Ok(Self::Latest(channel)); } else if re_hash.is_match(val) { return Ok(Self::SpecificVersion( ReleaseChannel::Canary, val.to_string(), )); } else { maybe_passed_version = Some(val.to_string()); } } let Some(passed_version) = maybe_passed_version else { return Ok(Self::Latest(channel)); }; let passed_version = passed_version .strip_prefix('v') .unwrap_or(&passed_version) .to_string(); let (channel, passed_version) = if is_canary { if !re_hash.is_match(&passed_version) { bail!( "Invalid commit hash passed ({})\n\nPass a semver, or a full 40 character git commit hash, or a release channel name.\n\nUsage:\n{}", colors::gray(passed_version), UPGRADE_USAGE ); } (ReleaseChannel::Canary, passed_version) } else { let Ok(semver) = Version::parse_standard(&passed_version) else { bail!( "Invalid version passed ({})\n\nPass a semver, or a full 40 character git commit hash, or a release channel name.\n\nUsage:\n{}", colors::gray(passed_version), UPGRADE_USAGE ); }; if semver.pre.contains(&"rc".to_string()) { (ReleaseChannel::Rc, passed_version) } else { (ReleaseChannel::Stable, passed_version) } }; Ok(RequestedVersion::SpecificVersion(channel, passed_version)) } /// Channels that use Git hashes as versions are considered canary. pub fn release_channel(&self) -> ReleaseChannel { match self { Self::Latest(channel) => *channel, Self::SpecificVersion(channel, _) => *channel, } } } fn select_specific_version_for_upgrade( release_channel: ReleaseChannel, version: String, force: bool, ) -> Result, AnyError> { let current_is_passed = match release_channel { ReleaseChannel::Stable | ReleaseChannel::Rc | ReleaseChannel::Lts => { version::DENO_VERSION_INFO.release_channel == release_channel && version::DENO_VERSION_INFO.deno == version } ReleaseChannel::Canary => version::DENO_VERSION_INFO.git_hash == version, }; if !force && current_is_passed { log::info!( "Version {} is already installed", version::DENO_VERSION_INFO.deno ); return Ok(None); } Ok(Some(AvailableVersion { version_or_hash: version, release_channel, })) } async fn find_latest_version_to_upgrade( http_client_provider: Arc, release_channel: ReleaseChannel, force: bool, ) -> Result, AnyError> { log::info!( "{}", colors::gray(&format!("Looking up {} version", release_channel.name())) ); let client = http_client_provider.get_or_create()?; let latest_version_found = match fetch_latest_version( &client, release_channel, UpgradeCheckKind::Execution, ) .await { Ok(v) => v, Err(err) => { if err.to_string().contains("Not found") { bail!( "No {} release available at the moment.", release_channel.name() ); } else { return Err(err); } } }; let (maybe_newer_latest_version, current_version) = match release_channel { ReleaseChannel::Canary => { let current_version = version::DENO_VERSION_INFO.git_hash; let current_is_most_recent = current_version == latest_version_found.version_or_hash; if !force && current_is_most_recent { (None, current_version) } else { (Some(latest_version_found), current_version) } } ReleaseChannel::Stable | ReleaseChannel::Lts | ReleaseChannel::Rc => { let current_version = version::DENO_VERSION_INFO.deno; // If the current binary is not the same channel, we can skip // computation if we're on a newer release - we're not. if version::DENO_VERSION_INFO.release_channel != release_channel { (Some(latest_version_found), current_version) } else { let current = Version::parse_standard(current_version)?; let latest = Version::parse_standard(&latest_version_found.version_or_hash)?; let current_is_most_recent = current >= latest; if !force && current_is_most_recent { (None, current_version) } else { (Some(latest_version_found), current_version) } } } }; log::info!(""); if let Some(newer_latest_version) = maybe_newer_latest_version.as_ref() { log::info!( "Found latest {} version {}", newer_latest_version.release_channel.name(), color_print::cformat!("{}", newer_latest_version.display()) ); } else { log::info!( "Local deno version {} is the most recent release", color_print::cformat!("{}", current_version) ); } log::info!(""); Ok(maybe_newer_latest_version) } #[derive(Debug, Clone, PartialEq)] struct AvailableVersion { version_or_hash: String, release_channel: ReleaseChannel, } impl AvailableVersion { /// Format display version, appending `v` before version number /// for non-canary releases. fn display(&self) -> Cow { match self.release_channel { ReleaseChannel::Canary => Cow::Borrowed(&self.version_or_hash), _ => Cow::Owned(format!("v{}", self.version_or_hash)), } } } async fn fetch_latest_version( client: &HttpClient, release_channel: ReleaseChannel, check_kind: UpgradeCheckKind, ) -> Result { let url = get_latest_version_url(release_channel, env!("TARGET"), check_kind); let text = client.download_text(url.parse()?).await?; let version = normalize_version_from_server(release_channel, &text)?; Ok(version) } fn normalize_version_from_server( release_channel: ReleaseChannel, text: &str, ) -> Result { let text = text.trim(); match release_channel { ReleaseChannel::Stable | ReleaseChannel::Rc | ReleaseChannel::Lts => { let v = text.trim_start_matches('v').to_string(); Ok(AvailableVersion { version_or_hash: v.to_string(), release_channel, }) } ReleaseChannel::Canary => Ok(AvailableVersion { version_or_hash: text.to_string(), release_channel, }), } } fn get_latest_version_url( release_channel: ReleaseChannel, target_tuple: &str, check_kind: UpgradeCheckKind, ) -> String { let file_name = match release_channel { ReleaseChannel::Stable => Cow::Borrowed("release-latest.txt"), ReleaseChannel::Canary => { Cow::Owned(format!("canary-{target_tuple}-latest.txt")) } ReleaseChannel::Rc => Cow::Borrowed("release-rc-latest.txt"), ReleaseChannel::Lts => Cow::Borrowed("release-lts-latest.txt"), }; let query_param = match check_kind { UpgradeCheckKind::Execution => "", UpgradeCheckKind::Lsp => "?lsp", }; format!("{}/{}{}", base_upgrade_url(), file_name, query_param) } fn base_upgrade_url() -> Cow<'static, str> { // this is used by the test suite if let Ok(url) = env::var("DENO_DONT_USE_INTERNAL_BASE_UPGRADE_URL") { Cow::Owned(url) } else { Cow::Borrowed("https://dl.deno.land") } } fn get_download_url( version: &str, release_channel: ReleaseChannel, ) -> Result { let download_url = match release_channel { ReleaseChannel::Stable => { format!("{}/download/v{}/{}", RELEASE_URL, version, *ARCHIVE_NAME) } ReleaseChannel::Rc => { format!("{}/v{}/{}", DL_RELEASE_URL, version, *ARCHIVE_NAME) } ReleaseChannel::Canary => { format!("{}/{}/{}", CANARY_URL, version, *ARCHIVE_NAME) } ReleaseChannel::Lts => { format!("{}/v{}/{}", DL_RELEASE_URL, version, *ARCHIVE_NAME) } }; Url::parse(&download_url).with_context(|| { format!( "Failed to parse URL to download new release: {}", download_url ) }) } async fn download_package( client: &HttpClient, download_url: Url, ) -> Result>, AnyError> { let progress_bar = ProgressBar::new(ProgressBarStyle::DownloadBars); // provide an empty string here in order to prefer the downloading // text above which will stay alive after the progress bars are complete let progress = progress_bar.update(""); let maybe_bytes = client .download_with_progress_and_retries(download_url.clone(), None, &progress) .await .with_context(|| format!("Failed downloading {download_url}. The version you requested may not have been built for the current architecture."))?; Ok(maybe_bytes) } fn replace_exe(from: &Path, to: &Path) -> Result<(), std::io::Error> { if cfg!(windows) { // On windows you cannot replace the currently running executable. // so first we rename it to deno.old.exe fs::rename(to, to.with_extension("old.exe"))?; } else { fs::remove_file(to)?; } // Windows cannot rename files across device boundaries, so if rename fails, // we try again with copy. fs::rename(from, to).or_else(|_| fs::copy(from, to).map(|_| ()))?; Ok(()) } fn check_windows_access_denied_error( output_result: Result<(), std::io::Error>, output_exe_path: &Path, ) -> Result<(), AnyError> { let Err(err) = output_result else { return Ok(()); }; if !cfg!(windows) { return Err(err.into()); } const WIN_ERROR_ACCESS_DENIED: i32 = 5; if err.raw_os_error() != Some(WIN_ERROR_ACCESS_DENIED) { return Err(err.into()); }; Err(err).with_context(|| { format!( concat!( "Could not replace the deno executable. This may be because an ", "existing deno process is running. Please ensure there are no ", "running deno processes (ex. Stop-Process -Name deno ; deno {}), ", "close any editors before upgrading, and ensure you have ", "sufficient permission to '{}'." ), // skip the first argument, which is the executable path std::env::args().skip(1).collect::>().join(" "), output_exe_path.display(), ) }) } #[cfg(windows)] fn kill_running_deno_lsp_processes() { // limit this to `deno lsp` invocations to avoid killing important programs someone might be running let is_debug = log::log_enabled!(log::Level::Debug); let get_pipe = || { if is_debug { std::process::Stdio::inherit() } else { std::process::Stdio::null() } }; let _ = Command::new("powershell.exe") .args([ "-Command", r#"Get-WmiObject Win32_Process | Where-Object { $_.Name -eq 'deno.exe' -and $_.CommandLine -match '^(?:\"[^\"]+\"|\S+)\s+lsp\b' } | ForEach-Object { if ($_.Terminate()) { Write-Host 'Terminated:' $_.ProcessId } }"#, ]) .stdout(get_pipe()) .stderr(get_pipe()) .output(); } fn set_exe_permissions( current_exe_path: &Path, output_exe_path: &Path, ) -> Result { let Ok(metadata) = fs::metadata(output_exe_path) else { let metadata = fs::metadata(current_exe_path)?; return Ok(metadata.permissions()); }; let permissions = metadata.permissions(); if permissions.readonly() { bail!( "You do not have write permission to {}", output_exe_path.display() ); } #[cfg(unix)] if std::os::unix::fs::MetadataExt::uid(&metadata) == 0 && !nix::unistd::Uid::effective().is_root() { bail!(concat!( "You don't have write permission to {} because it's owned by root.\n", "Consider updating deno through your package manager if its installed from it.\n", "Otherwise run `deno upgrade` as root.", ), output_exe_path.display()); } Ok(permissions) } fn check_exe(exe_path: &Path) -> Result<(), AnyError> { let output = Command::new(exe_path) .arg("-V") .stderr(std::process::Stdio::inherit()) .output()?; if !output.status.success() { bail!( "Failed to validate Deno executable. This may be because your OS is unsupported or the executable is corrupted" ) } else { Ok(()) } } #[derive(Debug)] struct CheckVersionFile { pub last_prompt: chrono::DateTime, pub last_checked: chrono::DateTime, pub current_version: String, pub latest_version: String, pub current_release_channel: ReleaseChannel, } impl CheckVersionFile { pub fn parse(content: String) -> Option { let split_content = content.split('!').collect::>(); if split_content.len() != 5 { return None; } let latest_version = split_content[2].trim().to_owned(); if latest_version.is_empty() { return None; } let current_version = split_content[3].trim().to_owned(); if current_version.is_empty() { return None; } let current_release_channel = split_content[4].trim().to_owned(); if current_release_channel.is_empty() { return None; } let Ok(current_release_channel) = ReleaseChannel::deserialize(¤t_release_channel) else { return None; }; let last_prompt = chrono::DateTime::parse_from_rfc3339(split_content[0]) .map(|dt| dt.with_timezone(&chrono::Utc)) .ok()?; let last_checked = chrono::DateTime::parse_from_rfc3339(split_content[1]) .map(|dt| dt.with_timezone(&chrono::Utc)) .ok()?; Some(CheckVersionFile { last_prompt, last_checked, current_version, latest_version, current_release_channel, }) } fn serialize(&self) -> String { format!( "{}!{}!{}!{}!{}", self.last_prompt.to_rfc3339(), self.last_checked.to_rfc3339(), self.latest_version, self.current_version, self.current_release_channel.serialize() ) } fn with_last_prompt(self, dt: chrono::DateTime) -> Self { Self { last_prompt: dt, ..self } } } #[cfg(test)] mod test { use std::cell::RefCell; use std::rc::Rc; use test_util::assert_contains; use super::*; #[test] fn test_requested_version() { let mut upgrade_flags = UpgradeFlags { dry_run: false, force: false, release_candidate: false, canary: false, version: None, output: None, version_or_hash_or_channel: None, }; let req_ver = RequestedVersion::from_upgrade_flags(upgrade_flags.clone()).unwrap(); assert_eq!(req_ver, RequestedVersion::Latest(ReleaseChannel::Stable)); upgrade_flags.version = Some("1.46.0".to_string()); let req_ver = RequestedVersion::from_upgrade_flags(upgrade_flags.clone()).unwrap(); assert_eq!( req_ver, RequestedVersion::SpecificVersion( ReleaseChannel::Stable, "1.46.0".to_string() ) ); upgrade_flags.version = None; upgrade_flags.canary = true; let req_ver = RequestedVersion::from_upgrade_flags(upgrade_flags.clone()).unwrap(); assert_eq!(req_ver, RequestedVersion::Latest(ReleaseChannel::Canary)); upgrade_flags.version = Some("5c69b4861b52ab406e73b9cd85c254f0505cb20f".to_string()); let req_ver = RequestedVersion::from_upgrade_flags(upgrade_flags.clone()).unwrap(); assert_eq!( req_ver, RequestedVersion::SpecificVersion( ReleaseChannel::Canary, "5c69b4861b52ab406e73b9cd85c254f0505cb20f".to_string() ) ); upgrade_flags.version = None; upgrade_flags.canary = false; upgrade_flags.release_candidate = true; let req_ver = RequestedVersion::from_upgrade_flags(upgrade_flags.clone()).unwrap(); assert_eq!(req_ver, RequestedVersion::Latest(ReleaseChannel::Rc)); upgrade_flags.release_candidate = false; upgrade_flags.version_or_hash_or_channel = Some("v1.46.5".to_string()); let req_ver = RequestedVersion::from_upgrade_flags(upgrade_flags.clone()).unwrap(); assert_eq!( req_ver, RequestedVersion::SpecificVersion( ReleaseChannel::Stable, "1.46.5".to_string() ) ); upgrade_flags.version_or_hash_or_channel = Some("2.0.0-rc.0".to_string()); let req_ver = RequestedVersion::from_upgrade_flags(upgrade_flags.clone()).unwrap(); assert_eq!( req_ver, RequestedVersion::SpecificVersion( ReleaseChannel::Rc, "2.0.0-rc.0".to_string() ) ); upgrade_flags.version_or_hash_or_channel = Some("canary".to_string()); let req_ver = RequestedVersion::from_upgrade_flags(upgrade_flags.clone()).unwrap(); assert_eq!(req_ver, RequestedVersion::Latest(ReleaseChannel::Canary,)); upgrade_flags.version_or_hash_or_channel = Some("rc".to_string()); let req_ver = RequestedVersion::from_upgrade_flags(upgrade_flags.clone()).unwrap(); assert_eq!(req_ver, RequestedVersion::Latest(ReleaseChannel::Rc,)); upgrade_flags.version_or_hash_or_channel = Some("5c69b4861b52ab406e73b9cd85c254f0505cb20f".to_string()); let req_ver = RequestedVersion::from_upgrade_flags(upgrade_flags.clone()).unwrap(); assert_eq!( req_ver, RequestedVersion::SpecificVersion( ReleaseChannel::Canary, "5c69b4861b52ab406e73b9cd85c254f0505cb20f".to_string() ) ); upgrade_flags.version_or_hash_or_channel = Some("5c69b4861b52a".to_string()); let err = RequestedVersion::from_upgrade_flags(upgrade_flags.clone()) .unwrap_err() .to_string(); assert_contains!(err, "Invalid version passed"); assert_contains!( err, "Pass a semver, or a full 40 character git commit hash, or a release channel name." ); upgrade_flags.version_or_hash_or_channel = Some("11.asd.1324".to_string()); let err = RequestedVersion::from_upgrade_flags(upgrade_flags.clone()) .unwrap_err() .to_string(); assert_contains!(err, "Invalid version passed"); assert_contains!( err, "Pass a semver, or a full 40 character git commit hash, or a release channel name." ); } #[test] fn test_parse_upgrade_check_file() { // NOTE(bartlomieju): pre-1.46 format let maybe_file = CheckVersionFile::parse( "2020-01-01T00:00:00+00:00!2020-01-01T00:00:00+00:00!1.2.3!1.2.2" .to_string(), ); assert!(maybe_file.is_none()); // NOTE(bartlomieju): post-1.46 format let file = CheckVersionFile::parse( "2020-01-01T00:00:00+00:00!2020-01-01T00:00:00+00:00!1.2.3!1.2.2!stable" .to_string(), ) .unwrap(); assert_eq!( file.last_prompt.to_rfc3339(), "2020-01-01T00:00:00+00:00".to_string() ); assert_eq!( file.last_checked.to_rfc3339(), "2020-01-01T00:00:00+00:00".to_string() ); assert_eq!(file.latest_version, "1.2.3".to_string()); assert_eq!(file.current_version, "1.2.2".to_string()); assert_eq!(file.current_release_channel, ReleaseChannel::Stable); let result = CheckVersionFile::parse("2020-01-01T00:00:00+00:00!".to_string()); assert!(result.is_none()); let result = CheckVersionFile::parse("garbage!test".to_string()); assert!(result.is_none()); let result = CheckVersionFile::parse("test".to_string()); assert!(result.is_none()); } #[test] fn test_serialize_upgrade_check_file() { let mut file = CheckVersionFile { last_prompt: chrono::DateTime::parse_from_rfc3339("2020-01-01T00:00:00Z") .unwrap() .with_timezone(&chrono::Utc), last_checked: chrono::DateTime::parse_from_rfc3339( "2020-01-01T00:00:00Z", ) .unwrap() .with_timezone(&chrono::Utc), latest_version: "1.2.3".to_string(), current_version: "1.2.2".to_string(), current_release_channel: ReleaseChannel::Stable, }; assert_eq!( file.serialize(), "2020-01-01T00:00:00+00:00!2020-01-01T00:00:00+00:00!1.2.3!1.2.2!stable" ); file.current_release_channel = ReleaseChannel::Canary; assert_eq!( file.serialize(), "2020-01-01T00:00:00+00:00!2020-01-01T00:00:00+00:00!1.2.3!1.2.2!canary" ); file.current_release_channel = ReleaseChannel::Rc; assert_eq!( file.serialize(), "2020-01-01T00:00:00+00:00!2020-01-01T00:00:00+00:00!1.2.3!1.2.2!rc" ); file.current_release_channel = ReleaseChannel::Lts; assert_eq!( file.serialize(), "2020-01-01T00:00:00+00:00!2020-01-01T00:00:00+00:00!1.2.3!1.2.2!lts" ); } #[derive(Clone)] struct TestUpdateCheckerEnvironment { file_text: Rc>, release_channel: Rc>, current_version: Rc>, latest_version: Rc>>, time: Rc>>, } impl TestUpdateCheckerEnvironment { pub fn new() -> Self { Self { file_text: Default::default(), current_version: Default::default(), release_channel: Rc::new(RefCell::new(ReleaseChannel::Stable)), latest_version: Rc::new(RefCell::new(Ok(AvailableVersion { version_or_hash: "".to_string(), release_channel: ReleaseChannel::Stable, }))), time: Rc::new(RefCell::new(chrono::Utc::now())), } } pub fn add_hours(&self, hours: i64) { let mut time = self.time.borrow_mut(); *time = time .checked_add_signed(chrono::Duration::hours(hours)) .unwrap(); } pub fn set_file_text(&self, text: &str) { *self.file_text.borrow_mut() = text.to_string(); } pub fn set_current_version(&self, version: &str) { *self.current_version.borrow_mut() = version.to_string(); } pub fn set_latest_version( &self, version: &str, release_channel: ReleaseChannel, ) { *self.latest_version.borrow_mut() = Ok(AvailableVersion { version_or_hash: version.to_string(), release_channel, }); } pub fn set_latest_version_err(&self, err: &str) { *self.latest_version.borrow_mut() = Err(err.to_string()); } pub fn set_release_channel(&self, channel: ReleaseChannel) { *self.release_channel.borrow_mut() = channel; } } #[async_trait(?Send)] impl VersionProvider for TestUpdateCheckerEnvironment { // TODO(bartlomieju): update to handle `Lts` and `Rc` channels async fn latest_version( &self, _release_channel: ReleaseChannel, ) -> Result { match self.latest_version.borrow().clone() { Ok(result) => Ok(result), Err(err) => bail!("{}", err), } } fn current_version(&self) -> Cow { Cow::Owned(self.current_version.borrow().clone()) } fn get_current_exe_release_channel(&self) -> ReleaseChannel { *self.release_channel.borrow() } } impl UpdateCheckerEnvironment for TestUpdateCheckerEnvironment { fn read_check_file(&self) -> String { self.file_text.borrow().clone() } fn write_check_file(&self, text: &str) { self.set_file_text(text); } fn current_time(&self) -> chrono::DateTime { *self.time.borrow() } } #[tokio::test] async fn test_update_checker() { let env = TestUpdateCheckerEnvironment::new(); env.set_current_version("1.0.0"); env.set_latest_version("1.1.0", ReleaseChannel::Stable); let checker = UpdateChecker::new(env.clone(), env.clone()); // no version, so we should check, but not prompt assert!(checker.should_check_for_new_version()); assert_eq!(checker.should_prompt(), None); // store the latest version fetch_and_store_latest_version(&env, &env).await; // reload let checker = UpdateChecker::new(env.clone(), env.clone()); // should not check for latest version because we just did assert!(!checker.should_check_for_new_version()); // but should prompt assert_eq!( checker.should_prompt(), Some((ReleaseChannel::Stable, "1.1.0".to_string())) ); // fast forward an hour and bump the latest version env.add_hours(1); env.set_latest_version("1.2.0", ReleaseChannel::Stable); assert!(!checker.should_check_for_new_version()); assert_eq!( checker.should_prompt(), Some((ReleaseChannel::Stable, "1.1.0".to_string())) ); // fast forward again and it should check for a newer version env.add_hours(UPGRADE_CHECK_INTERVAL); assert!(checker.should_check_for_new_version()); assert_eq!( checker.should_prompt(), Some((ReleaseChannel::Stable, "1.1.0".to_string())) ); fetch_and_store_latest_version(&env, &env).await; // reload and store that we prompted let checker = UpdateChecker::new(env.clone(), env.clone()); assert!(!checker.should_check_for_new_version()); assert_eq!( checker.should_prompt(), Some((ReleaseChannel::Stable, "1.2.0".to_string())) ); checker.store_prompted(); // reload and it should now say not to prompt let checker = UpdateChecker::new(env.clone(), env.clone()); assert!(!checker.should_check_for_new_version()); assert_eq!(checker.should_prompt(), None); // but if we fast forward past the upgrade interval it should prompt again env.add_hours(UPGRADE_CHECK_INTERVAL + 1); assert!(checker.should_check_for_new_version()); assert_eq!( checker.should_prompt(), Some((ReleaseChannel::Stable, "1.2.0".to_string())) ); // upgrade the version and it should stop prompting env.set_current_version("1.2.0"); assert!(checker.should_check_for_new_version()); assert_eq!(checker.should_prompt(), None); // now try failing when fetching the latest version env.add_hours(UPGRADE_CHECK_INTERVAL + 1); env.set_latest_version_err("Failed"); env.set_latest_version("1.3.0", ReleaseChannel::Stable); // this will silently fail fetch_and_store_latest_version(&env, &env).await; assert!(checker.should_check_for_new_version()); assert_eq!(checker.should_prompt(), None); // now switch to RC release env.set_release_channel(ReleaseChannel::Rc); env.set_current_version("1.46.0-rc.0"); env.set_latest_version("1.46.0-rc.1", ReleaseChannel::Rc); fetch_and_store_latest_version(&env, &env).await; env.add_hours(UPGRADE_CHECK_INTERVAL + 1); // We should check for new version and prompt let checker = UpdateChecker::new(env.clone(), env.clone()); assert!(checker.should_check_for_new_version()); assert_eq!( checker.should_prompt(), Some((ReleaseChannel::Rc, "1.46.0-rc.1".to_string())) ); } #[tokio::test] async fn test_update_checker_current_newer_than_latest() { let env = TestUpdateCheckerEnvironment::new(); let file_content = CheckVersionFile { last_prompt: env .current_time() .sub(chrono::Duration::hours(UPGRADE_CHECK_INTERVAL + 1)), last_checked: env.current_time(), latest_version: "1.26.2".to_string(), current_version: "1.27.0".to_string(), current_release_channel: ReleaseChannel::Stable, } .serialize(); env.write_check_file(&file_content); env.set_current_version("1.27.0"); env.set_latest_version("1.26.2", ReleaseChannel::Stable); let checker = UpdateChecker::new(env.clone(), env); // since currently running version is newer than latest available (eg. CDN // propagation might be delated) we should not prompt assert_eq!(checker.should_prompt(), None); } #[tokio::test] async fn test_should_not_prompt_if_current_cli_version_has_changed() { let env = TestUpdateCheckerEnvironment::new(); let file_content = CheckVersionFile { last_prompt: env .current_time() .sub(chrono::Duration::hours(UPGRADE_CHECK_INTERVAL + 1)), last_checked: env.current_time(), latest_version: "1.26.2".to_string(), current_version: "1.25.0".to_string(), current_release_channel: ReleaseChannel::Stable, } .serialize(); env.write_check_file(&file_content); // simulate an upgrade done to a canary version env.set_current_version("61fbfabe440f1cfffa7b8d17426ffdece4d430d0"); let checker = UpdateChecker::new(env.clone(), env); assert_eq!(checker.should_prompt(), None); } #[test] fn test_get_latest_version_url() { assert_eq!( get_latest_version_url( ReleaseChannel::Canary, "aarch64-apple-darwin", UpgradeCheckKind::Execution ), "https://dl.deno.land/canary-aarch64-apple-darwin-latest.txt" ); assert_eq!( get_latest_version_url( ReleaseChannel::Canary, "aarch64-apple-darwin", UpgradeCheckKind::Lsp ), "https://dl.deno.land/canary-aarch64-apple-darwin-latest.txt?lsp" ); assert_eq!( get_latest_version_url( ReleaseChannel::Canary, "x86_64-pc-windows-msvc", UpgradeCheckKind::Execution ), "https://dl.deno.land/canary-x86_64-pc-windows-msvc-latest.txt" ); assert_eq!( get_latest_version_url( ReleaseChannel::Canary, "x86_64-pc-windows-msvc", UpgradeCheckKind::Lsp ), "https://dl.deno.land/canary-x86_64-pc-windows-msvc-latest.txt?lsp" ); assert_eq!( get_latest_version_url( ReleaseChannel::Stable, "aarch64-apple-darwin", UpgradeCheckKind::Execution ), "https://dl.deno.land/release-latest.txt" ); assert_eq!( get_latest_version_url( ReleaseChannel::Stable, "aarch64-apple-darwin", UpgradeCheckKind::Lsp ), "https://dl.deno.land/release-latest.txt?lsp" ); assert_eq!( get_latest_version_url( ReleaseChannel::Stable, "x86_64-pc-windows-msvc", UpgradeCheckKind::Execution ), "https://dl.deno.land/release-latest.txt" ); assert_eq!( get_latest_version_url( ReleaseChannel::Rc, "x86_64-pc-windows-msvc", UpgradeCheckKind::Lsp ), "https://dl.deno.land/release-rc-latest.txt?lsp" ); assert_eq!( get_latest_version_url( ReleaseChannel::Rc, "aarch64-apple-darwin", UpgradeCheckKind::Execution ), "https://dl.deno.land/release-rc-latest.txt" ); assert_eq!( get_latest_version_url( ReleaseChannel::Rc, "aarch64-apple-darwin", UpgradeCheckKind::Lsp ), "https://dl.deno.land/release-rc-latest.txt?lsp" ); assert_eq!( get_latest_version_url( ReleaseChannel::Rc, "x86_64-pc-windows-msvc", UpgradeCheckKind::Execution ), "https://dl.deno.land/release-rc-latest.txt" ); assert_eq!( get_latest_version_url( ReleaseChannel::Rc, "x86_64-pc-windows-msvc", UpgradeCheckKind::Lsp ), "https://dl.deno.land/release-rc-latest.txt?lsp" ); assert_eq!( get_latest_version_url( ReleaseChannel::Lts, "x86_64-pc-windows-msvc", UpgradeCheckKind::Lsp ), "https://dl.deno.land/release-lts-latest.txt?lsp" ); assert_eq!( get_latest_version_url( ReleaseChannel::Lts, "aarch64-apple-darwin", UpgradeCheckKind::Execution ), "https://dl.deno.land/release-lts-latest.txt" ); assert_eq!( get_latest_version_url( ReleaseChannel::Lts, "aarch64-apple-darwin", UpgradeCheckKind::Lsp ), "https://dl.deno.land/release-lts-latest.txt?lsp" ); assert_eq!( get_latest_version_url( ReleaseChannel::Lts, "x86_64-pc-windows-msvc", UpgradeCheckKind::Execution ), "https://dl.deno.land/release-lts-latest.txt" ); assert_eq!( get_latest_version_url( ReleaseChannel::Lts, "x86_64-pc-windows-msvc", UpgradeCheckKind::Lsp ), "https://dl.deno.land/release-lts-latest.txt?lsp" ); } #[test] fn test_normalize_version_server() { // should strip v for stable assert_eq!( normalize_version_from_server(ReleaseChannel::Stable, "v1.0.0").unwrap(), AvailableVersion { version_or_hash: "1.0.0".to_string(), release_channel: ReleaseChannel::Stable, }, ); // should not replace v after start assert_eq!( normalize_version_from_server( ReleaseChannel::Stable, " v1.0.0-test-v\n\n " ) .unwrap(), AvailableVersion { version_or_hash: "1.0.0-test-v".to_string(), release_channel: ReleaseChannel::Stable, } ); // should not strip v for canary assert_eq!( normalize_version_from_server( ReleaseChannel::Canary, " v1452345asdf \n\n " ) .unwrap(), AvailableVersion { version_or_hash: "v1452345asdf".to_string(), release_channel: ReleaseChannel::Canary, } ); assert_eq!( normalize_version_from_server(ReleaseChannel::Rc, "v1.46.0-rc.0\n\n") .unwrap(), AvailableVersion { version_or_hash: "1.46.0-rc.0".to_string(), release_channel: ReleaseChannel::Rc, }, ); } #[tokio::test] async fn test_upgrades_lsp() { let env = TestUpdateCheckerEnvironment::new(); env.set_current_version("1.0.0"); env.set_latest_version("2.0.0", ReleaseChannel::Stable); // greater { let maybe_info = check_for_upgrades_for_lsp_with_provider(&env) .await .unwrap(); assert_eq!( maybe_info, Some(LspVersionUpgradeInfo { latest_version: "2.0.0".to_string(), is_canary: false, }) ); } // equal { env.set_latest_version("1.0.0", ReleaseChannel::Stable); let maybe_info = check_for_upgrades_for_lsp_with_provider(&env) .await .unwrap(); assert_eq!(maybe_info, None); } // less { env.set_latest_version("0.9.0", ReleaseChannel::Stable); let maybe_info = check_for_upgrades_for_lsp_with_provider(&env) .await .unwrap(); assert_eq!(maybe_info, None); } // canary equal { env.set_current_version("123"); env.set_latest_version("123", ReleaseChannel::Stable); env.set_release_channel(ReleaseChannel::Canary); let maybe_info = check_for_upgrades_for_lsp_with_provider(&env) .await .unwrap(); assert_eq!(maybe_info, None); } // canary different { env.set_latest_version("1234", ReleaseChannel::Stable); let maybe_info = check_for_upgrades_for_lsp_with_provider(&env) .await .unwrap(); assert_eq!( maybe_info, Some(LspVersionUpgradeInfo { latest_version: "1234".to_string(), is_canary: true, }) ); } // rc equal { env.set_release_channel(ReleaseChannel::Rc); env.set_current_version("1.2.3-rc.0"); env.set_latest_version("1.2.3-rc.0", ReleaseChannel::Rc); let maybe_info = check_for_upgrades_for_lsp_with_provider(&env) .await .unwrap(); assert_eq!(maybe_info, None); } // canary different { env.set_latest_version("1.2.3-rc.0", ReleaseChannel::Rc); env.set_latest_version("1.2.3-rc.1", ReleaseChannel::Rc); let maybe_info = check_for_upgrades_for_lsp_with_provider(&env) .await .unwrap(); assert_eq!( maybe_info, Some(LspVersionUpgradeInfo { latest_version: "1.2.3-rc.1".to_string(), is_canary: false, }) ); } } #[test] fn blog_post_links() { let version = Version::parse_standard("1.46.0").unwrap(); assert_eq!( get_minor_version_blog_post_url(&version), "https://deno.com/blog/v1.46" ); let version = Version::parse_standard("2.1.1").unwrap(); assert_eq!( get_minor_version_blog_post_url(&version), "https://deno.com/blog/v2.1" ); let version = Version::parse_standard("2.0.0-rc.0").unwrap(); assert_eq!( get_rc_version_blog_post_url(&version), "https://deno.com/blog/v2.0-rc-0" ); let version = Version::parse_standard("2.0.0-rc.2").unwrap(); assert_eq!( get_rc_version_blog_post_url(&version), "https://deno.com/blog/v2.0-rc-2" ); } }