// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. use deno_core::anyhow::bail; use deno_core::anyhow::Context; use deno_core::error::custom_error; use deno_core::error::type_error; use deno_core::error::uri_error; use deno_core::error::AnyError; use deno_core::normalize_path; use deno_core::parking_lot::Mutex; use deno_core::serde::de; use deno_core::serde::Deserialize; use deno_core::serde::Deserializer; use deno_core::serde::Serialize; use deno_core::serde_json; use deno_core::unsync::sync::AtomicFlag; use deno_core::url; use deno_core::url::Url; use deno_core::ModuleSpecifier; use deno_terminal::colors; use fqdn::FQDN; use once_cell::sync::Lazy; use std::borrow::Cow; use std::collections::HashSet; use std::ffi::OsStr; use std::fmt; use std::fmt::Debug; use std::hash::Hash; use std::net::IpAddr; use std::net::Ipv6Addr; use std::path::Path; use std::path::PathBuf; use std::string::ToString; use std::sync::Arc; pub mod prompter; use prompter::permission_prompt; use prompter::PromptResponse; use prompter::PERMISSION_EMOJI; pub use prompter::set_prompt_callbacks; pub use prompter::PromptCallback; /// Fast exit from permission check routines if this permission /// is in the "fully-granted" state. macro_rules! skip_check_if_is_permission_fully_granted { ($this:ident) => { if $this.is_allow_all() { return Ok(()); } }; } #[inline] fn resolve_from_known_cwd(path: &Path, cwd: &Path) -> PathBuf { if path.is_absolute() { normalize_path(path) } else { normalize_path(cwd.join(path)) } } static DEBUG_LOG_ENABLED: Lazy = Lazy::new(|| log::log_enabled!(log::Level::Debug)); /// Quadri-state value for storing permission state #[derive( Eq, PartialEq, Default, Debug, Clone, Copy, Deserialize, PartialOrd, )] pub enum PermissionState { Granted = 0, GrantedPartial = 1, #[default] Prompt = 2, Denied = 3, } /// `AllowPartial` prescribes how to treat a permission which is partially /// denied due to a `--deny-*` flag affecting a subscope of the queried /// permission. /// /// `TreatAsGranted` is used in place of `TreatAsPartialGranted` when we don't /// want to wastefully check for partial denials when, say, checking read /// access for a file. #[derive(Debug, Eq, PartialEq)] #[allow(clippy::enum_variant_names)] enum AllowPartial { TreatAsGranted, TreatAsDenied, TreatAsPartialGranted, } impl From for AllowPartial { fn from(value: bool) -> Self { if value { Self::TreatAsGranted } else { Self::TreatAsDenied } } } impl PermissionState { #[inline(always)] fn log_perm_access(name: &str, info: impl FnOnce() -> Option) { // Eliminates log overhead (when logging is disabled), // log_enabled!(Debug) check in a hot path still has overhead // TODO(AaronO): generalize or upstream this optimization if *DEBUG_LOG_ENABLED { log::debug!( "{}", colors::bold(&format!( "{}️ Granted {}", PERMISSION_EMOJI, Self::fmt_access(name, info) )) ); } } fn fmt_access(name: &str, info: impl FnOnce() -> Option) -> String { format!( "{} access{}", name, info() .map(|info| { format!(" to {info}") }) .unwrap_or_default(), ) } fn error(name: &str, info: impl FnOnce() -> Option) -> AnyError { let msg = if is_standalone() { format!( "Requires {}, specify the required permissions during compilation using `deno compile --allow-{}`", Self::fmt_access(name, info), name ) } else { format!( "Requires {}, run again with the --allow-{} flag", Self::fmt_access(name, info), name ) }; custom_error("NotCapable", msg) } /// Check the permission state. bool is whether a prompt was issued. #[inline] fn check( self, name: &str, api_name: Option<&str>, info: Option<&str>, prompt: bool, ) -> (Result<(), AnyError>, bool, bool) { self.check2(name, api_name, || info.map(|s| s.to_string()), prompt) } #[inline] fn check2( self, name: &str, api_name: Option<&str>, info: impl Fn() -> Option, prompt: bool, ) -> (Result<(), AnyError>, bool, bool) { match self { PermissionState::Granted => { Self::log_perm_access(name, info); (Ok(()), false, false) } PermissionState::Prompt if prompt => { let msg = format!( "{} access{}", name, info() .map(|info| { format!(" to {info}") }) .unwrap_or_default(), ); match permission_prompt(&msg, name, api_name, true) { PromptResponse::Allow => { Self::log_perm_access(name, info); (Ok(()), true, false) } PromptResponse::AllowAll => { Self::log_perm_access(name, info); (Ok(()), true, true) } PromptResponse::Deny => (Err(Self::error(name, info)), true, false), } } _ => (Err(Self::error(name, info)), false, false), } } } impl fmt::Display for PermissionState { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match self { PermissionState::Granted => f.pad("granted"), PermissionState::GrantedPartial => f.pad("granted-partial"), PermissionState::Prompt => f.pad("prompt"), PermissionState::Denied => f.pad("denied"), } } } #[derive(Clone, Debug, Eq, PartialEq)] pub struct UnitPermission { pub name: &'static str, pub description: &'static str, pub state: PermissionState, pub prompt: bool, } impl UnitPermission { pub fn query(&self) -> PermissionState { self.state } pub fn request(&mut self) -> PermissionState { if self.state == PermissionState::Prompt { if PromptResponse::Allow == permission_prompt( &format!("access to {}", self.description), self.name, Some("Deno.permissions.query()"), false, ) { self.state = PermissionState::Granted; } else { self.state = PermissionState::Denied; } } self.state } pub fn revoke(&mut self) -> PermissionState { if self.state == PermissionState::Granted { self.state = PermissionState::Prompt; } self.state } pub fn check(&mut self) -> Result<(), AnyError> { let (result, prompted, _is_allow_all) = self.state.check(self.name, None, None, self.prompt); if prompted { if result.is_ok() { self.state = PermissionState::Granted; } else { self.state = PermissionState::Denied; } } result } fn create_child_permissions( &mut self, flag: ChildUnitPermissionArg, ) -> Result { let mut perm = self.clone(); match flag { ChildUnitPermissionArg::Inherit => { // copy } ChildUnitPermissionArg::Granted => { if self.check().is_err() { return Err(escalation_error()); } perm.state = PermissionState::Granted; } ChildUnitPermissionArg::NotGranted => { perm.state = PermissionState::Prompt; } } if self.state == PermissionState::Denied { perm.state = PermissionState::Denied; } Ok(perm) } } /// A normalized environment variable name. On Windows this will /// be uppercase and on other platforms it will stay as-is. #[derive(Clone, Eq, PartialEq, Hash, Debug)] struct EnvVarName { inner: String, } impl EnvVarName { pub fn new(env: impl AsRef) -> Self { Self { inner: if cfg!(windows) { env.as_ref().to_uppercase() } else { env.as_ref().to_string() }, } } } impl AsRef for EnvVarName { fn as_ref(&self) -> &str { self.inner.as_str() } } pub trait QueryDescriptor: Debug { type AllowDesc: Debug + Eq + Clone + Hash; type DenyDesc: Debug + Eq + Clone + Hash; fn flag_name() -> &'static str; fn display_name(&self) -> Cow; fn from_allow(allow: &Self::AllowDesc) -> Self; fn as_allow(&self) -> Option; fn as_deny(&self) -> Self::DenyDesc; /// Generic check function to check this descriptor against a `UnaryPermission`. fn check_in_permission( &self, perm: &mut UnaryPermission, api_name: Option<&str>, ) -> Result<(), AnyError>; fn matches_allow(&self, other: &Self::AllowDesc) -> bool; fn matches_deny(&self, other: &Self::DenyDesc) -> bool; /// Gets if this query descriptor should revoke the provided allow descriptor. fn revokes(&self, other: &Self::AllowDesc) -> bool; fn stronger_than_deny(&self, other: &Self::DenyDesc) -> bool; fn overlaps_deny(&self, other: &Self::DenyDesc) -> bool; } fn format_display_name(display_name: Cow) -> String { if display_name.starts_with('<') && display_name.ends_with('>') { display_name.into_owned() } else { format!("\"{}\"", display_name) } } #[derive(Debug, Eq, PartialEq)] pub struct UnaryPermission { granted_global: bool, granted_list: HashSet, flag_denied_global: bool, flag_denied_list: HashSet, prompt_denied_global: bool, prompt_denied_list: HashSet, prompt: bool, } impl Default for UnaryPermission { fn default() -> Self { UnaryPermission { granted_global: Default::default(), granted_list: Default::default(), flag_denied_global: Default::default(), flag_denied_list: Default::default(), prompt_denied_global: Default::default(), prompt_denied_list: Default::default(), prompt: Default::default(), } } } impl Clone for UnaryPermission { fn clone(&self) -> Self { Self { granted_global: self.granted_global, granted_list: self.granted_list.clone(), flag_denied_global: self.flag_denied_global, flag_denied_list: self.flag_denied_list.clone(), prompt_denied_global: self.prompt_denied_global, prompt_denied_list: self.prompt_denied_list.clone(), prompt: self.prompt, } } } impl UnaryPermission { pub fn allow_all() -> Self { Self { granted_global: true, ..Default::default() } } pub fn is_allow_all(&self) -> bool { self.granted_global && self.flag_denied_list.is_empty() && self.prompt_denied_list.is_empty() } pub fn check_all_api( &mut self, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(None, false, api_name) } fn check_desc( &mut self, desc: Option<&TQuery>, assert_non_partial: bool, api_name: Option<&str>, ) -> Result<(), AnyError> { let (result, prompted, is_allow_all) = self .query_desc(desc, AllowPartial::from(!assert_non_partial)) .check2( TQuery::flag_name(), api_name, || desc.map(|d| format_display_name(d.display_name())), self.prompt, ); if prompted { if result.is_ok() { if is_allow_all { self.insert_granted(None); } else { self.insert_granted(desc); } } else { self.insert_prompt_denied(desc.map(|d| d.as_deny())); } } result } fn query_desc( &self, desc: Option<&TQuery>, allow_partial: AllowPartial, ) -> PermissionState { if self.is_flag_denied(desc) || self.is_prompt_denied(desc) { PermissionState::Denied } else if self.is_granted(desc) { match allow_partial { AllowPartial::TreatAsGranted => PermissionState::Granted, AllowPartial::TreatAsDenied => { if self.is_partial_flag_denied(desc) { PermissionState::Denied } else { PermissionState::Granted } } AllowPartial::TreatAsPartialGranted => { if self.is_partial_flag_denied(desc) { PermissionState::GrantedPartial } else { PermissionState::Granted } } } } else if matches!(allow_partial, AllowPartial::TreatAsDenied) && self.is_partial_flag_denied(desc) { PermissionState::Denied } else { PermissionState::Prompt } } fn request_desc(&mut self, desc: Option<&TQuery>) -> PermissionState { let state = self.query_desc(desc, AllowPartial::TreatAsPartialGranted); if state == PermissionState::Granted { self.insert_granted(desc); return state; } if state != PermissionState::Prompt { return state; } let mut message = String::with_capacity(40); message.push_str(&format!("{} access", TQuery::flag_name())); if let Some(desc) = desc { message .push_str(&format!(" to {}", format_display_name(desc.display_name()))); } match permission_prompt( &message, TQuery::flag_name(), Some("Deno.permissions.request()"), true, ) { PromptResponse::Allow => { self.insert_granted(desc); PermissionState::Granted } PromptResponse::Deny => { self.insert_prompt_denied(desc.map(|d| d.as_deny())); PermissionState::Denied } PromptResponse::AllowAll => { self.insert_granted(None); PermissionState::Granted } } } fn revoke_desc(&mut self, desc: Option<&TQuery>) -> PermissionState { match desc { Some(desc) => { self.granted_list.retain(|v| !desc.revokes(v)); } None => { self.granted_global = false; // Revoke global is a special case where the entire granted list is // cleared. It's inconsistent with the granular case where only // descriptors stronger than the revoked one are purged. self.granted_list.clear(); } } self.query_desc(desc, AllowPartial::TreatAsPartialGranted) } fn is_granted(&self, query: Option<&TQuery>) -> bool { match query { Some(query) => { self.granted_global || self.granted_list.iter().any(|v| query.matches_allow(v)) } None => self.granted_global, } } fn is_flag_denied(&self, query: Option<&TQuery>) -> bool { match query { Some(query) => { self.flag_denied_global || self.flag_denied_list.iter().any(|v| query.matches_deny(v)) } None => self.flag_denied_global, } } fn is_prompt_denied(&self, query: Option<&TQuery>) -> bool { match query { Some(query) => self .prompt_denied_list .iter() .any(|v| query.stronger_than_deny(v)), None => self.prompt_denied_global || !self.prompt_denied_list.is_empty(), } } fn is_partial_flag_denied(&self, query: Option<&TQuery>) -> bool { match query { None => !self.flag_denied_list.is_empty(), Some(query) => { self.flag_denied_list.iter().any(|v| query.overlaps_deny(v)) } } } fn insert_granted(&mut self, query: Option<&TQuery>) -> bool { let desc = match query.map(|q| q.as_allow()) { Some(Some(allow_desc)) => Some(allow_desc), Some(None) => { // the user was prompted for this descriptor in order to not // expose anything about the system to the program, but the // descriptor wasn't valid so no permission was raised return false; } None => None, }; Self::list_insert(desc, &mut self.granted_global, &mut self.granted_list); true } fn insert_prompt_denied(&mut self, desc: Option) { Self::list_insert( desc, &mut self.prompt_denied_global, &mut self.prompt_denied_list, ); } fn list_insert( desc: Option, list_global: &mut bool, list: &mut HashSet, ) { match desc { Some(desc) => { list.insert(desc); } None => *list_global = true, } } fn create_child_permissions( &mut self, flag: ChildUnaryPermissionArg, parse: impl Fn(&str) -> Result, AnyError>, ) -> Result, AnyError> { let mut perms = Self::default(); match flag { ChildUnaryPermissionArg::Inherit => { perms.clone_from(self); } ChildUnaryPermissionArg::Granted => { if self.check_all_api(None).is_err() { return Err(escalation_error()); } perms.granted_global = true; } ChildUnaryPermissionArg::NotGranted => {} ChildUnaryPermissionArg::GrantedList(granted_list) => { perms.granted_list = granted_list .iter() .filter_map(|i| parse(i).transpose()) .collect::>()?; if !perms.granted_list.iter().all(|desc| { TQuery::from_allow(desc) .check_in_permission(self, None) .is_ok() }) { return Err(escalation_error()); } } } perms.flag_denied_global = self.flag_denied_global; perms.prompt_denied_global = self.prompt_denied_global; perms.prompt = self.prompt; perms.flag_denied_list.clone_from(&self.flag_denied_list); perms .prompt_denied_list .clone_from(&self.prompt_denied_list); Ok(perms) } } #[derive(Clone, Eq, PartialEq, Hash, Debug)] pub struct PathQueryDescriptor { pub requested: String, pub resolved: PathBuf, } impl PathQueryDescriptor { pub fn into_ffi(self) -> FfiQueryDescriptor { FfiQueryDescriptor(self) } pub fn into_read(self) -> ReadQueryDescriptor { ReadQueryDescriptor(self) } pub fn into_write(self) -> WriteQueryDescriptor { WriteQueryDescriptor(self) } } #[derive(Clone, Eq, PartialEq, Hash, Debug)] pub struct ReadQueryDescriptor(pub PathQueryDescriptor); impl QueryDescriptor for ReadQueryDescriptor { type AllowDesc = ReadDescriptor; type DenyDesc = ReadDescriptor; fn flag_name() -> &'static str { "read" } fn display_name(&self) -> Cow { Cow::Borrowed(self.0.requested.as_str()) } fn from_allow(allow: &Self::AllowDesc) -> Self { PathQueryDescriptor { requested: allow.0.to_string_lossy().into_owned(), resolved: allow.0.clone(), } .into_read() } fn as_allow(&self) -> Option { Some(ReadDescriptor(self.0.resolved.clone())) } fn as_deny(&self) -> Self::DenyDesc { ReadDescriptor(self.0.resolved.clone()) } fn check_in_permission( &self, perm: &mut UnaryPermission, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(perm); perm.check_desc(Some(self), true, api_name) } fn matches_allow(&self, other: &Self::AllowDesc) -> bool { self.0.resolved.starts_with(&other.0) } fn matches_deny(&self, other: &Self::DenyDesc) -> bool { self.0.resolved.starts_with(&other.0) } fn revokes(&self, other: &Self::AllowDesc) -> bool { self.matches_allow(other) } fn stronger_than_deny(&self, other: &Self::DenyDesc) -> bool { other.0.starts_with(&self.0.resolved) } fn overlaps_deny(&self, other: &Self::DenyDesc) -> bool { self.stronger_than_deny(other) } } #[derive(Clone, Eq, PartialEq, Hash, Debug)] pub struct ReadDescriptor(pub PathBuf); #[derive(Clone, Eq, PartialEq, Hash, Debug)] pub struct WriteQueryDescriptor(pub PathQueryDescriptor); impl QueryDescriptor for WriteQueryDescriptor { type AllowDesc = WriteDescriptor; type DenyDesc = WriteDescriptor; fn flag_name() -> &'static str { "write" } fn display_name(&self) -> Cow { Cow::Borrowed(&self.0.requested) } fn from_allow(allow: &Self::AllowDesc) -> Self { WriteQueryDescriptor(PathQueryDescriptor { requested: allow.0.to_string_lossy().into_owned(), resolved: allow.0.clone(), }) } fn as_allow(&self) -> Option { Some(WriteDescriptor(self.0.resolved.clone())) } fn as_deny(&self) -> Self::DenyDesc { WriteDescriptor(self.0.resolved.clone()) } fn check_in_permission( &self, perm: &mut UnaryPermission, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(perm); perm.check_desc(Some(self), true, api_name) } fn matches_allow(&self, other: &Self::AllowDesc) -> bool { self.0.resolved.starts_with(&other.0) } fn matches_deny(&self, other: &Self::DenyDesc) -> bool { self.0.resolved.starts_with(&other.0) } fn revokes(&self, other: &Self::AllowDesc) -> bool { self.matches_allow(other) } fn stronger_than_deny(&self, other: &Self::DenyDesc) -> bool { other.0.starts_with(&self.0.resolved) } fn overlaps_deny(&self, other: &Self::DenyDesc) -> bool { self.stronger_than_deny(other) } } #[derive(Clone, Eq, PartialEq, Hash, Debug)] pub struct WriteDescriptor(pub PathBuf); #[derive(Clone, Eq, PartialEq, Hash, Debug)] pub enum Host { Fqdn(FQDN), Ip(IpAddr), } impl Host { // TODO(bartlomieju): rewrite to not use `AnyError` but a specific error implementations fn parse(s: &str) -> Result { if s.starts_with('[') && s.ends_with(']') { let ip = s[1..s.len() - 1] .parse::() .map_err(|_| uri_error(format!("invalid IPv6 address: '{s}'")))?; return Ok(Host::Ip(IpAddr::V6(ip))); } let (without_trailing_dot, has_trailing_dot) = s.strip_suffix('.').map_or((s, false), |s| (s, true)); if let Ok(ip) = without_trailing_dot.parse::() { if has_trailing_dot { return Err(uri_error(format!( "invalid host: '{without_trailing_dot}'" ))); } Ok(Host::Ip(ip)) } else { let lower = if s.chars().all(|c| c.is_ascii_lowercase()) { Cow::Borrowed(s) } else { Cow::Owned(s.to_ascii_lowercase()) }; let fqdn = { use std::str::FromStr; FQDN::from_str(&lower) .with_context(|| format!("invalid host: '{s}'"))? }; if fqdn.is_root() { return Err(uri_error(format!("invalid empty host: '{s}'"))); } Ok(Host::Fqdn(fqdn)) } } #[cfg(test)] #[track_caller] fn must_parse(s: &str) -> Self { Self::parse(s).unwrap() } } #[derive(Clone, Eq, PartialEq, Hash, Debug)] pub struct NetDescriptor(pub Host, pub Option); impl QueryDescriptor for NetDescriptor { type AllowDesc = NetDescriptor; type DenyDesc = NetDescriptor; fn flag_name() -> &'static str { "net" } fn display_name(&self) -> Cow { Cow::from(format!("{}", self)) } fn from_allow(allow: &Self::AllowDesc) -> Self { allow.clone() } fn as_allow(&self) -> Option { Some(self.clone()) } fn as_deny(&self) -> Self::DenyDesc { self.clone() } fn check_in_permission( &self, perm: &mut UnaryPermission, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(perm); perm.check_desc(Some(self), false, api_name) } fn matches_allow(&self, other: &Self::AllowDesc) -> bool { self.0 == other.0 && (other.1.is_none() || self.1 == other.1) } fn matches_deny(&self, other: &Self::DenyDesc) -> bool { self.0 == other.0 && (other.1.is_none() || self.1 == other.1) } fn revokes(&self, other: &Self::AllowDesc) -> bool { self.matches_allow(other) } fn stronger_than_deny(&self, other: &Self::DenyDesc) -> bool { self.matches_deny(other) } fn overlaps_deny(&self, _other: &Self::DenyDesc) -> bool { false } } // TODO(bartlomieju): rewrite to not use `AnyError` but a specific error implementations impl NetDescriptor { pub fn parse(hostname: &str) -> Result { if hostname.starts_with("http://") || hostname.starts_with("https://") { return Err(uri_error(format!("invalid value '{hostname}': URLs are not supported, only domains and ips"))); } // If this is a IPv6 address enclosed in square brackets, parse it as such. if hostname.starts_with('[') { if let Some((ip, after)) = hostname.split_once(']') { let ip = ip[1..].parse::().map_err(|_| { uri_error(format!("invalid IPv6 address in '{hostname}': '{ip}'")) })?; let port = if let Some(port) = after.strip_prefix(':') { let port = port.parse::().map_err(|_| { uri_error(format!("invalid port in '{hostname}': '{port}'")) })?; Some(port) } else if after.is_empty() { None } else { return Err(uri_error(format!("invalid host: '{hostname}'"))); }; return Ok(NetDescriptor(Host::Ip(IpAddr::V6(ip)), port)); } else { return Err(uri_error(format!("invalid host: '{hostname}'"))); } } // Otherwise it is an IPv4 address or a FQDN with an optional port. let (host, port) = match hostname.split_once(':') { Some((_, "")) => { return Err(uri_error(format!("invalid empty port in '{hostname}'"))); } Some((host, port)) => (host, port), None => (hostname, ""), }; let host = Host::parse(host)?; let port = if port.is_empty() { None } else { let port = port.parse::().map_err(|_| { // If the user forgot to enclose an IPv6 address in square brackets, we // should give them a hint. There are always at least two colons in an // IPv6 address, so this heuristic finds likely a bare IPv6 address. if port.contains(':') { uri_error(format!( "ipv6 addresses must be enclosed in square brackets: '{hostname}'" )) } else { uri_error(format!("invalid port in '{hostname}': '{port}'")) } })?; Some(port) }; Ok(NetDescriptor(host, port)) } } impl fmt::Display for NetDescriptor { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { match &self.0 { Host::Fqdn(fqdn) => write!(f, "{fqdn}"), Host::Ip(IpAddr::V4(ip)) => write!(f, "{ip}"), Host::Ip(IpAddr::V6(ip)) => write!(f, "[{ip}]"), }?; if let Some(port) = self.1 { write!(f, ":{}", port)?; } Ok(()) } } #[derive(Clone, Eq, PartialEq, Hash, Debug)] pub struct EnvDescriptor(EnvVarName); impl EnvDescriptor { pub fn new(env: impl AsRef) -> Self { Self(EnvVarName::new(env)) } } impl QueryDescriptor for EnvDescriptor { type AllowDesc = EnvDescriptor; type DenyDesc = EnvDescriptor; fn flag_name() -> &'static str { "env" } fn display_name(&self) -> Cow { Cow::from(self.0.as_ref()) } fn from_allow(allow: &Self::AllowDesc) -> Self { allow.clone() } fn as_allow(&self) -> Option { Some(self.clone()) } fn as_deny(&self) -> Self::DenyDesc { self.clone() } fn check_in_permission( &self, perm: &mut UnaryPermission, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(perm); perm.check_desc(Some(self), false, api_name) } fn matches_allow(&self, other: &Self::AllowDesc) -> bool { self == other } fn matches_deny(&self, other: &Self::DenyDesc) -> bool { self == other } fn revokes(&self, other: &Self::AllowDesc) -> bool { self == other } fn stronger_than_deny(&self, other: &Self::DenyDesc) -> bool { self == other } fn overlaps_deny(&self, _other: &Self::DenyDesc) -> bool { false } } impl AsRef for EnvDescriptor { fn as_ref(&self) -> &str { self.0.as_ref() } } #[derive(Clone, Eq, PartialEq, Hash, Debug, Serialize, Deserialize)] pub enum RunQueryDescriptor { Path { requested: String, resolved: PathBuf, }, /// This variant won't actually grant permissions because the path of /// the executable is unresolved. It's mostly used so that prompts and /// everything works the same way as when the command is resolved, /// meaning that a script can't tell /// if a command is resolved or not based on how long something /// takes to ask for permissions. Name(String), } impl RunQueryDescriptor { pub fn parse(requested: &str) -> Result { if is_path(requested) { let path = PathBuf::from(requested); let resolved = if path.is_absolute() { normalize_path(path) } else { let cwd = std::env::current_dir().context("failed resolving cwd")?; normalize_path(cwd.join(path)) }; Ok(RunQueryDescriptor::Path { requested: requested.to_string(), resolved, }) } else { match which::which(requested) { Ok(resolved) => Ok(RunQueryDescriptor::Path { requested: requested.to_string(), resolved, }), Err(_) => Ok(RunQueryDescriptor::Name(requested.to_string())), } } } } impl QueryDescriptor for RunQueryDescriptor { type AllowDesc = AllowRunDescriptor; type DenyDesc = DenyRunDescriptor; fn flag_name() -> &'static str { "run" } fn display_name(&self) -> Cow { match self { RunQueryDescriptor::Path { requested, .. } => Cow::Borrowed(requested), RunQueryDescriptor::Name(name) => Cow::Borrowed(name), } } fn from_allow(allow: &Self::AllowDesc) -> Self { RunQueryDescriptor::Path { requested: allow.0.to_string_lossy().into_owned(), resolved: allow.0.clone(), } } fn as_allow(&self) -> Option { match self { RunQueryDescriptor::Path { resolved, .. } => { Some(AllowRunDescriptor(resolved.clone())) } RunQueryDescriptor::Name(_) => None, } } fn as_deny(&self) -> Self::DenyDesc { match self { RunQueryDescriptor::Path { resolved, requested, } => { if requested.contains('/') || (cfg!(windows) && requested.contains("\\")) { DenyRunDescriptor::Path(resolved.clone()) } else { DenyRunDescriptor::Name(requested.clone()) } } RunQueryDescriptor::Name(name) => DenyRunDescriptor::Name(name.clone()), } } fn check_in_permission( &self, perm: &mut UnaryPermission, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(perm); perm.check_desc(Some(self), false, api_name) } fn matches_allow(&self, other: &Self::AllowDesc) -> bool { match self { RunQueryDescriptor::Path { resolved, .. } => *resolved == other.0, RunQueryDescriptor::Name(_) => false, } } fn matches_deny(&self, other: &Self::DenyDesc) -> bool { match other { DenyRunDescriptor::Name(deny_desc) => match self { RunQueryDescriptor::Path { resolved, .. } => { denies_run_name(deny_desc, resolved) } RunQueryDescriptor::Name(query) => query == deny_desc, }, DenyRunDescriptor::Path(deny_desc) => match self { RunQueryDescriptor::Path { resolved, .. } => { resolved.starts_with(deny_desc) } RunQueryDescriptor::Name(query) => denies_run_name(query, deny_desc), }, } } fn revokes(&self, other: &Self::AllowDesc) -> bool { match self { RunQueryDescriptor::Path { resolved, requested, } => { if *resolved == other.0 { return true; } if is_path(requested) { false } else { denies_run_name(requested, &other.0) } } RunQueryDescriptor::Name(query) => denies_run_name(query, &other.0), } } fn stronger_than_deny(&self, other: &Self::DenyDesc) -> bool { self.matches_deny(other) } fn overlaps_deny(&self, _other: &Self::DenyDesc) -> bool { false } } pub enum RunDescriptorArg { Name(String), Path(PathBuf), } pub enum AllowRunDescriptorParseResult { /// An error occured getting the descriptor that should /// be surfaced as a warning when launching deno, but should /// be ignored when creating a worker. Unresolved(Box), Descriptor(AllowRunDescriptor), } #[derive(Debug, Clone, Hash, Eq, PartialEq)] pub struct AllowRunDescriptor(pub PathBuf); impl AllowRunDescriptor { pub fn parse( text: &str, cwd: &Path, ) -> Result { let is_path = is_path(text); // todo(dsherret): canonicalize in #25458 let path = if is_path { resolve_from_known_cwd(Path::new(text), cwd) } else { match which::which_in(text, std::env::var_os("PATH"), cwd) { Ok(path) => path, Err(err) => match err { which::Error::BadAbsolutePath | which::Error::BadRelativePath => { return Err(err); } which::Error::CannotFindBinaryPath | which::Error::CannotGetCurrentDir | which::Error::CannotCanonicalize => { return Ok(AllowRunDescriptorParseResult::Unresolved(Box::new(err))) } }, } }; Ok(AllowRunDescriptorParseResult::Descriptor( AllowRunDescriptor(path), )) } } #[derive(Clone, Eq, PartialEq, Hash, Debug)] pub enum DenyRunDescriptor { /// Warning: You may want to construct with `RunDescriptor::from()` for case /// handling. Name(String), /// Warning: You may want to construct with `RunDescriptor::from()` for case /// handling. Path(PathBuf), } impl DenyRunDescriptor { pub fn parse(text: &str, cwd: &Path) -> Self { if text.contains('/') || cfg!(windows) && text.contains('\\') { let path = resolve_from_known_cwd(Path::new(&text), cwd); DenyRunDescriptor::Path(path) } else { DenyRunDescriptor::Name(text.to_string()) } } } fn is_path(text: &str) -> bool { if cfg!(windows) { text.contains('/') || text.contains('\\') || Path::new(text).is_absolute() } else { text.contains('/') } } fn denies_run_name(name: &str, cmd_path: &Path) -> bool { let Some(file_stem) = cmd_path.file_stem() else { return false; }; let Some(file_stem) = file_stem.to_str() else { return false; }; if file_stem.len() < name.len() { return false; } let (prefix, suffix) = file_stem.split_at(name.len()); if !prefix.eq_ignore_ascii_case(name) { return false; } // be broad and consider anything like `deno.something` as matching deny perms suffix.is_empty() || suffix.starts_with('.') } #[derive(Clone, Eq, PartialEq, Hash, Debug)] pub struct SysDescriptor(pub String); impl QueryDescriptor for SysDescriptor { type AllowDesc = SysDescriptor; type DenyDesc = SysDescriptor; fn flag_name() -> &'static str { "sys" } fn display_name(&self) -> Cow { Cow::from(self.0.to_string()) } fn from_allow(allow: &Self::AllowDesc) -> Self { allow.clone() } fn as_allow(&self) -> Option { Some(self.clone()) } fn as_deny(&self) -> Self::DenyDesc { self.clone() } fn check_in_permission( &self, perm: &mut UnaryPermission, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(perm); perm.check_desc(Some(self), false, api_name) } fn matches_allow(&self, other: &Self::AllowDesc) -> bool { self == other } fn matches_deny(&self, other: &Self::DenyDesc) -> bool { self == other } fn revokes(&self, other: &Self::AllowDesc) -> bool { self == other } fn stronger_than_deny(&self, other: &Self::DenyDesc) -> bool { self == other } fn overlaps_deny(&self, _other: &Self::DenyDesc) -> bool { false } } pub fn parse_sys_kind(kind: &str) -> Result<&str, AnyError> { match kind { "hostname" | "osRelease" | "osUptime" | "loadavg" | "networkInterfaces" | "systemMemoryInfo" | "uid" | "gid" | "cpus" | "homedir" | "getegid" | "username" | "statfs" | "getPriority" | "setPriority" => Ok(kind), _ => Err(type_error(format!("unknown system info kind \"{kind}\""))), } } #[derive(Clone, Eq, PartialEq, Hash, Debug)] pub struct FfiQueryDescriptor(pub PathQueryDescriptor); impl QueryDescriptor for FfiQueryDescriptor { type AllowDesc = FfiDescriptor; type DenyDesc = FfiDescriptor; fn flag_name() -> &'static str { "ffi" } fn display_name(&self) -> Cow { Cow::Borrowed(&self.0.requested) } fn from_allow(allow: &Self::AllowDesc) -> Self { PathQueryDescriptor { requested: allow.0.to_string_lossy().into_owned(), resolved: allow.0.clone(), } .into_ffi() } fn as_allow(&self) -> Option { Some(FfiDescriptor(self.0.resolved.clone())) } fn as_deny(&self) -> Self::DenyDesc { FfiDescriptor(self.0.resolved.clone()) } fn check_in_permission( &self, perm: &mut UnaryPermission, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(perm); perm.check_desc(Some(self), true, api_name) } fn matches_allow(&self, other: &Self::AllowDesc) -> bool { self.0.resolved.starts_with(&other.0) } fn matches_deny(&self, other: &Self::DenyDesc) -> bool { self.0.resolved.starts_with(&other.0) } fn revokes(&self, other: &Self::AllowDesc) -> bool { self.matches_allow(other) } fn stronger_than_deny(&self, other: &Self::DenyDesc) -> bool { other.0.starts_with(&self.0.resolved) } fn overlaps_deny(&self, other: &Self::DenyDesc) -> bool { self.stronger_than_deny(other) } } #[derive(Clone, Eq, PartialEq, Hash, Debug)] pub struct FfiDescriptor(pub PathBuf); impl UnaryPermission { pub fn query(&self, desc: Option<&ReadQueryDescriptor>) -> PermissionState { self.query_desc(desc, AllowPartial::TreatAsPartialGranted) } pub fn request( &mut self, path: Option<&ReadQueryDescriptor>, ) -> PermissionState { self.request_desc(path) } pub fn revoke( &mut self, desc: Option<&ReadQueryDescriptor>, ) -> PermissionState { self.revoke_desc(desc) } pub fn check( &mut self, desc: &ReadQueryDescriptor, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(Some(desc), true, api_name) } #[inline] pub fn check_partial( &mut self, desc: &ReadQueryDescriptor, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(Some(desc), false, api_name) } pub fn check_all(&mut self, api_name: Option<&str>) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(None, false, api_name) } } impl UnaryPermission { pub fn query(&self, path: Option<&WriteQueryDescriptor>) -> PermissionState { self.query_desc(path, AllowPartial::TreatAsPartialGranted) } pub fn request( &mut self, path: Option<&WriteQueryDescriptor>, ) -> PermissionState { self.request_desc(path) } pub fn revoke( &mut self, path: Option<&WriteQueryDescriptor>, ) -> PermissionState { self.revoke_desc(path) } pub fn check( &mut self, path: &WriteQueryDescriptor, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(Some(path), true, api_name) } #[inline] pub fn check_partial( &mut self, path: &WriteQueryDescriptor, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(Some(path), false, api_name) } pub fn check_all(&mut self, api_name: Option<&str>) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(None, false, api_name) } } impl UnaryPermission { pub fn query(&self, host: Option<&NetDescriptor>) -> PermissionState { self.query_desc(host, AllowPartial::TreatAsPartialGranted) } pub fn request(&mut self, host: Option<&NetDescriptor>) -> PermissionState { self.request_desc(host) } pub fn revoke(&mut self, host: Option<&NetDescriptor>) -> PermissionState { self.revoke_desc(host) } pub fn check( &mut self, host: &NetDescriptor, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(Some(host), false, api_name) } pub fn check_url( &mut self, url: &url::Url, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); let host = url .host_str() .ok_or_else(|| type_error(format!("Missing host in url: '{}'", url)))?; let host = Host::parse(host)?; let port = url.port_or_known_default(); let descriptor = NetDescriptor(host, port); self.check_desc(Some(&descriptor), false, api_name) } pub fn check_all(&mut self) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(None, false, None) } } impl UnaryPermission { pub fn query(&self, env: Option<&str>) -> PermissionState { self.query_desc( env.map(EnvDescriptor::new).as_ref(), AllowPartial::TreatAsPartialGranted, ) } pub fn request(&mut self, env: Option<&str>) -> PermissionState { self.request_desc(env.map(EnvDescriptor::new).as_ref()) } pub fn revoke(&mut self, env: Option<&str>) -> PermissionState { self.revoke_desc(env.map(EnvDescriptor::new).as_ref()) } pub fn check( &mut self, env: &str, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(Some(&EnvDescriptor::new(env)), false, api_name) } pub fn check_all(&mut self) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(None, false, None) } } impl UnaryPermission { pub fn query(&self, kind: Option<&str>) -> PermissionState { self.query_desc( kind.map(|k| SysDescriptor(k.to_string())).as_ref(), AllowPartial::TreatAsPartialGranted, ) } pub fn request(&mut self, kind: Option<&str>) -> PermissionState { self.request_desc(kind.map(|k| SysDescriptor(k.to_string())).as_ref()) } pub fn revoke(&mut self, kind: Option<&str>) -> PermissionState { self.revoke_desc(kind.map(|k| SysDescriptor(k.to_string())).as_ref()) } pub fn check( &mut self, kind: &str, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(Some(&SysDescriptor(kind.to_string())), false, api_name) } pub fn check_all(&mut self) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(None, false, None) } } impl UnaryPermission { pub fn query(&self, cmd: Option<&RunQueryDescriptor>) -> PermissionState { self.query_desc(cmd, AllowPartial::TreatAsPartialGranted) } pub fn request( &mut self, cmd: Option<&RunQueryDescriptor>, ) -> PermissionState { self.request_desc(cmd) } pub fn revoke( &mut self, cmd: Option<&RunQueryDescriptor>, ) -> PermissionState { self.revoke_desc(cmd) } pub fn check( &mut self, cmd: &RunQueryDescriptor, api_name: Option<&str>, ) -> Result<(), AnyError> { self.check_desc(Some(cmd), false, api_name) } pub fn check_all(&mut self, api_name: Option<&str>) -> Result<(), AnyError> { self.check_desc(None, false, api_name) } /// Queries without prompting pub fn query_all(&mut self, api_name: Option<&str>) -> bool { if self.is_allow_all() { return true; } let (result, _prompted, _is_allow_all) = self.query_desc(None, AllowPartial::TreatAsDenied).check2( RunQueryDescriptor::flag_name(), api_name, || None, /* prompt */ false, ); result.is_ok() } } impl UnaryPermission { pub fn query(&self, path: Option<&FfiQueryDescriptor>) -> PermissionState { self.query_desc(path, AllowPartial::TreatAsPartialGranted) } pub fn request( &mut self, path: Option<&FfiQueryDescriptor>, ) -> PermissionState { self.request_desc(path) } pub fn revoke( &mut self, path: Option<&FfiQueryDescriptor>, ) -> PermissionState { self.revoke_desc(path) } pub fn check( &mut self, path: &FfiQueryDescriptor, api_name: Option<&str>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(Some(path), true, api_name) } pub fn check_partial( &mut self, path: Option<&FfiQueryDescriptor>, ) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(path, false, None) } pub fn check_all(&mut self) -> Result<(), AnyError> { skip_check_if_is_permission_fully_granted!(self); self.check_desc(None, false, Some("all")) } } #[derive(Clone, Debug, Eq, PartialEq)] pub struct Permissions { pub read: UnaryPermission, pub write: UnaryPermission, pub net: UnaryPermission, pub env: UnaryPermission, pub sys: UnaryPermission, pub run: UnaryPermission, pub ffi: UnaryPermission, pub all: UnitPermission, } #[derive(Clone, Debug, Eq, PartialEq, Default, Serialize, Deserialize)] pub struct PermissionsOptions { pub allow_all: bool, pub allow_env: Option>, pub deny_env: Option>, pub allow_net: Option>, pub deny_net: Option>, pub allow_ffi: Option>, pub deny_ffi: Option>, pub allow_read: Option>, pub deny_read: Option>, pub allow_run: Option>, pub deny_run: Option>, pub allow_sys: Option>, pub deny_sys: Option>, pub allow_write: Option>, pub deny_write: Option>, pub prompt: bool, } impl Permissions { pub fn new_unary( allow_list: Option>, deny_list: Option>, prompt: bool, ) -> Result, AnyError> where TQuery: QueryDescriptor, { Ok(UnaryPermission:: { granted_global: global_from_option(allow_list.as_ref()), granted_list: allow_list.unwrap_or_default(), flag_denied_global: global_from_option(deny_list.as_ref()), flag_denied_list: deny_list.unwrap_or_default(), prompt, ..Default::default() }) } pub const fn new_all(allow_state: bool) -> UnitPermission { unit_permission_from_flag_bools( allow_state, false, "all", "all", false, // never prompt for all ) } pub fn from_options( parser: &dyn PermissionDescriptorParser, opts: &PermissionsOptions, ) -> Result { fn resolve_allow_run( parser: &dyn PermissionDescriptorParser, allow_run: &[String], ) -> Result, AnyError> { let mut new_allow_run = HashSet::with_capacity(allow_run.len()); for unresolved in allow_run { if unresolved.is_empty() { bail!("Empty command name not allowed in --allow-run=...") } match parser.parse_allow_run_descriptor(unresolved)? { AllowRunDescriptorParseResult::Descriptor(descriptor) => { new_allow_run.insert(descriptor); } AllowRunDescriptorParseResult::Unresolved(err) => { log::info!( "{} Failed to resolve '{}' for allow-run: {}", colors::gray("Info"), unresolved, err ); } } } Ok(new_allow_run) } fn parse_maybe_vec( items: Option<&[String]>, parse: impl Fn(&str) -> Result, ) -> Result>, AnyError> { match items { Some(items) => Ok(Some( items .iter() .map(|item| parse(item)) .collect::, _>>()?, )), None => Ok(None), } } let mut deny_write = parse_maybe_vec(opts.deny_write.as_deref(), |item| { parser.parse_write_descriptor(item) })?; let allow_run = opts .allow_run .as_ref() .and_then(|raw_allow_run| { match resolve_allow_run(parser, raw_allow_run) { Ok(resolved_allow_run) => { if resolved_allow_run.is_empty() && !raw_allow_run.is_empty() { None // convert to no permissions if now empty } else { Some(Ok(resolved_allow_run)) } } Err(err) => Some(Err(err)), } }) .transpose()?; // add the allow_run list to deny_write if let Some(allow_run_vec) = &allow_run { if !allow_run_vec.is_empty() { let deny_write = deny_write.get_or_insert_with(Default::default); deny_write.extend( allow_run_vec .iter() .map(|item| WriteDescriptor(item.0.clone())), ); } } Ok(Self { read: Permissions::new_unary( parse_maybe_vec(opts.allow_read.as_deref(), |item| { parser.parse_read_descriptor(item) })?, parse_maybe_vec(opts.deny_read.as_deref(), |item| { parser.parse_read_descriptor(item) })?, opts.prompt, )?, write: Permissions::new_unary( parse_maybe_vec(opts.allow_write.as_deref(), |item| { parser.parse_write_descriptor(item) })?, deny_write, opts.prompt, )?, net: Permissions::new_unary( parse_maybe_vec(opts.allow_net.as_deref(), |item| { parser.parse_net_descriptor(item) })?, parse_maybe_vec(opts.deny_net.as_deref(), |item| { parser.parse_net_descriptor(item) })?, opts.prompt, )?, env: Permissions::new_unary( parse_maybe_vec(opts.allow_env.as_deref(), |item| { parser.parse_env_descriptor(item) })?, parse_maybe_vec(opts.deny_env.as_deref(), |text| { parser.parse_env_descriptor(text) })?, opts.prompt, )?, sys: Permissions::new_unary( parse_maybe_vec(opts.allow_sys.as_deref(), |text| { parser.parse_sys_descriptor(text) })?, parse_maybe_vec(opts.deny_sys.as_deref(), |text| { parser.parse_sys_descriptor(text) })?, opts.prompt, )?, run: Permissions::new_unary( allow_run, parse_maybe_vec(opts.deny_run.as_deref(), |text| { parser.parse_deny_run_descriptor(text) })?, opts.prompt, )?, ffi: Permissions::new_unary( parse_maybe_vec(opts.allow_ffi.as_deref(), |text| { parser.parse_ffi_descriptor(text) })?, parse_maybe_vec(opts.deny_ffi.as_deref(), |text| { parser.parse_ffi_descriptor(text) })?, opts.prompt, )?, all: Permissions::new_all(opts.allow_all), }) } /// Create a set of permissions that explicitly allow everything. pub fn allow_all() -> Self { Self { read: UnaryPermission::allow_all(), write: UnaryPermission::allow_all(), net: UnaryPermission::allow_all(), env: UnaryPermission::allow_all(), sys: UnaryPermission::allow_all(), run: UnaryPermission::allow_all(), ffi: UnaryPermission::allow_all(), all: Permissions::new_all(true), } } /// Create a set of permissions that enable nothing, but will allow prompting. pub fn none_with_prompt() -> Self { Self::none(true) } /// Create a set of permissions that enable nothing, and will not allow prompting. pub fn none_without_prompt() -> Self { Self::none(false) } fn none(prompt: bool) -> Self { Self { read: Permissions::new_unary(None, None, prompt).unwrap(), write: Permissions::new_unary(None, None, prompt).unwrap(), net: Permissions::new_unary(None, None, prompt).unwrap(), env: Permissions::new_unary(None, None, prompt).unwrap(), sys: Permissions::new_unary(None, None, prompt).unwrap(), run: Permissions::new_unary(None, None, prompt).unwrap(), ffi: Permissions::new_unary(None, None, prompt).unwrap(), all: Permissions::new_all(false), } } /// A helper function that determines if the module specifier is a local or /// remote, and performs a read or net check for the specifier. pub fn check_specifier( &mut self, specifier: &ModuleSpecifier, ) -> Result<(), AnyError> { match specifier.scheme() { "file" => match specifier_to_file_path(specifier) { Ok(path) => self.read.check( &PathQueryDescriptor { requested: path.to_string_lossy().into_owned(), resolved: path, } .into_read(), Some("import()"), ), Err(_) => Err(uri_error(format!( "Invalid file path.\n Specifier: {specifier}" ))), }, "data" => Ok(()), "blob" => Ok(()), _ => self.net.check_url(specifier, Some("import()")), } } } /// Attempts to convert a specifier to a file path. By default, uses the Url /// crate's `to_file_path()` method, but falls back to try and resolve unix-style /// paths on Windows. pub fn specifier_to_file_path( specifier: &ModuleSpecifier, ) -> Result { let result = if specifier.scheme() != "file" { Err(()) } else if cfg!(windows) { if specifier.host().is_some() { Err(()) } else { match specifier.to_file_path() { Ok(path) => Ok(path), Err(()) => { // This might be a unix-style path which is used in the tests even on Windows. // Attempt to see if we can convert it to a `PathBuf`. This code should be removed // once/if https://github.com/servo/rust-url/issues/730 is implemented. if specifier.scheme() == "file" && specifier.port().is_none() && specifier.path_segments().is_some() { let path_str = specifier.path(); match String::from_utf8( percent_encoding::percent_decode(path_str.as_bytes()).collect(), ) { Ok(path_str) => Ok(PathBuf::from(path_str)), Err(_) => Err(()), } } else { Err(()) } } } } } else { specifier.to_file_path() }; match result { Ok(path) => Ok(path), Err(()) => Err(uri_error(format!( "Invalid file path.\n Specifier: {specifier}" ))), } } /// Wrapper struct for `Permissions` that can be shared across threads. /// /// We need a way to have internal mutability for permissions as they might get /// passed to a future that will prompt the user for permission (and in such /// case might need to be mutated). Also for the Web Worker API we need a way /// to send permissions to a new thread. #[derive(Clone, Debug)] pub struct PermissionsContainer { // todo(dsherret): make both of these private as the functionality // can just be methods on PermissionsContainer. Additionally, a separate // struct should be created in here that handles creating child permissions // so that the code is not so verbose elsewhere. pub descriptor_parser: Arc, pub inner: Arc>, } impl PermissionsContainer { pub fn new( descriptor_parser: Arc, perms: Permissions, ) -> Self { Self { descriptor_parser, inner: Arc::new(Mutex::new(perms)), } } pub fn allow_all( descriptor_parser: Arc, ) -> Self { Self::new(descriptor_parser, Permissions::allow_all()) } #[inline(always)] pub fn check_specifier( &self, specifier: &ModuleSpecifier, ) -> Result<(), AnyError> { self.inner.lock().check_specifier(specifier) } #[must_use = "the resolved return value to mitigate time-of-check to time-of-use issues"] #[inline(always)] pub fn check_read( &self, path: &str, api_name: &str, ) -> Result { self.check_read_with_api_name(path, Some(api_name)) } #[must_use = "the resolved return value to mitigate time-of-check to time-of-use issues"] #[inline(always)] pub fn check_read_with_api_name( &self, path: &str, api_name: Option<&str>, ) -> Result { let mut inner = self.inner.lock(); let inner = &mut inner.read; if inner.is_allow_all() { Ok(PathBuf::from(path)) } else { let desc = self.descriptor_parser.parse_path_query(path)?.into_read(); inner.check(&desc, api_name)?; Ok(desc.0.resolved) } } #[must_use = "the resolved return value to mitigate time-of-check to time-of-use issues"] #[inline(always)] pub fn check_read_path<'a>( &self, path: &'a Path, api_name: Option<&str>, ) -> Result, AnyError> { let mut inner = self.inner.lock(); let inner = &mut inner.read; if inner.is_allow_all() { Ok(Cow::Borrowed(path)) } else { let desc = PathQueryDescriptor { requested: path.to_string_lossy().into_owned(), resolved: path.to_path_buf(), } .into_read(); inner.check(&desc, api_name)?; Ok(Cow::Owned(desc.0.resolved)) } } /// As `check_read()`, but permission error messages will anonymize the path /// by replacing it with the given `display`. #[inline(always)] pub fn check_read_blind( &mut self, path: &Path, display: &str, api_name: &str, ) -> Result<(), AnyError> { let mut inner = self.inner.lock(); let inner = &mut inner.read; skip_check_if_is_permission_fully_granted!(inner); inner.check( &PathQueryDescriptor { requested: format!("<{}>", display), resolved: path.to_path_buf(), } .into_read(), Some(api_name), ) } #[inline(always)] pub fn check_read_all(&self, api_name: &str) -> Result<(), AnyError> { self.inner.lock().read.check_all(Some(api_name)) } #[must_use = "the resolved return value to mitigate time-of-check to time-of-use issues"] #[inline(always)] pub fn check_write( &self, path: &str, api_name: &str, ) -> Result { self.check_write_with_api_name(path, Some(api_name)) } #[must_use = "the resolved return value to mitigate time-of-check to time-of-use issues"] #[inline(always)] pub fn check_write_with_api_name( &self, path: &str, api_name: Option<&str>, ) -> Result { let mut inner = self.inner.lock(); let inner = &mut inner.write; if inner.is_allow_all() { Ok(PathBuf::from(path)) } else { let desc = self.descriptor_parser.parse_path_query(path)?.into_write(); inner.check(&desc, api_name)?; Ok(desc.0.resolved) } } #[must_use = "the resolved return value to mitigate time-of-check to time-of-use issues"] #[inline(always)] pub fn check_write_path<'a>( &self, path: &'a Path, api_name: &str, ) -> Result, AnyError> { let mut inner = self.inner.lock(); let inner = &mut inner.write; if inner.is_allow_all() { Ok(Cow::Borrowed(path)) } else { let desc = PathQueryDescriptor { requested: path.to_string_lossy().into_owned(), resolved: path.to_path_buf(), } .into_write(); inner.check(&desc, Some(api_name))?; Ok(Cow::Owned(desc.0.resolved)) } } #[inline(always)] pub fn check_write_all(&self, api_name: &str) -> Result<(), AnyError> { self.inner.lock().write.check_all(Some(api_name)) } /// As `check_write()`, but permission error messages will anonymize the path /// by replacing it with the given `display`. #[inline(always)] pub fn check_write_blind( &self, path: &Path, display: &str, api_name: &str, ) -> Result<(), AnyError> { let mut inner = self.inner.lock(); let inner = &mut inner.write; skip_check_if_is_permission_fully_granted!(inner); inner.check( &PathQueryDescriptor { requested: format!("<{}>", display), resolved: path.to_path_buf(), } .into_write(), Some(api_name), ) } #[inline(always)] pub fn check_write_partial( &mut self, path: &str, api_name: &str, ) -> Result { let mut inner = self.inner.lock(); let inner = &mut inner.write; if inner.is_allow_all() { Ok(PathBuf::from(path)) } else { let desc = self.descriptor_parser.parse_path_query(path)?.into_write(); inner.check_partial(&desc, Some(api_name))?; Ok(desc.0.resolved) } } #[inline(always)] pub fn check_run( &mut self, cmd: &RunQueryDescriptor, api_name: &str, ) -> Result<(), AnyError> { self.inner.lock().run.check(cmd, Some(api_name)) } #[inline(always)] pub fn check_run_all(&mut self, api_name: &str) -> Result<(), AnyError> { self.inner.lock().run.check_all(Some(api_name)) } #[inline(always)] pub fn query_run_all(&mut self, api_name: &str) -> bool { self.inner.lock().run.query_all(Some(api_name)) } #[inline(always)] pub fn check_sys(&self, kind: &str, api_name: &str) -> Result<(), AnyError> { self.inner.lock().sys.check(kind, Some(api_name)) } #[inline(always)] pub fn check_env(&mut self, var: &str) -> Result<(), AnyError> { self.inner.lock().env.check(var, None) } #[inline(always)] pub fn check_env_all(&mut self) -> Result<(), AnyError> { self.inner.lock().env.check_all() } #[inline(always)] pub fn check_sys_all(&mut self) -> Result<(), AnyError> { self.inner.lock().sys.check_all() } #[inline(always)] pub fn check_ffi_all(&mut self) -> Result<(), AnyError> { self.inner.lock().ffi.check_all() } /// This checks to see if the allow-all flag was passed, not whether all /// permissions are enabled! #[inline(always)] pub fn check_was_allow_all_flag_passed(&mut self) -> Result<(), AnyError> { self.inner.lock().all.check() } /// Checks special file access, returning the failed permission type if /// not successful. pub fn check_special_file( &mut self, path: &Path, _api_name: &str, ) -> Result<(), &'static str> { let error_all = |_| "all"; // Safe files with no major additional side-effects. While there's a small risk of someone // draining system entropy by just reading one of these files constantly, that's not really // something we worry about as they already have --allow-read to /dev. if cfg!(unix) && (path == OsStr::new("/dev/random") || path == OsStr::new("/dev/urandom") || path == OsStr::new("/dev/zero") || path == OsStr::new("/dev/null")) { return Ok(()); } /// We'll allow opening /proc/self/fd/{n} without additional permissions under the following conditions: /// /// 1. n > 2. This allows for opening bash-style redirections, but not stdio /// 2. the fd referred to by n is a pipe #[cfg(unix)] fn is_fd_file_is_pipe(path: &Path) -> bool { if let Some(fd) = path.file_name() { if let Ok(s) = std::str::from_utf8(fd.as_encoded_bytes()) { if let Ok(n) = s.parse::() { if n > 2 { // SAFETY: This is proper use of the stat syscall unsafe { let mut stat = std::mem::zeroed::(); if libc::fstat(n, &mut stat as _) == 0 && ((stat.st_mode & libc::S_IFMT) & libc::S_IFIFO) != 0 { return true; } }; } } } } false } // On unixy systems, we allow opening /dev/fd/XXX for valid FDs that // are pipes. #[cfg(unix)] if path.starts_with("/dev/fd") && is_fd_file_is_pipe(path) { return Ok(()); } if cfg!(target_os = "linux") { // On Linux, we also allow opening /proc/self/fd/XXX for valid FDs that // are pipes. #[cfg(unix)] if path.starts_with("/proc/self/fd") && is_fd_file_is_pipe(path) { return Ok(()); } if path.starts_with("/dev") || path.starts_with("/proc") || path.starts_with("/sys") { if path.ends_with("/environ") { self.check_env_all().map_err(|_| "env")?; } else { self.check_was_allow_all_flag_passed().map_err(error_all)?; } } } else if cfg!(unix) { if path.starts_with("/dev") { self.check_was_allow_all_flag_passed().map_err(error_all)?; } } else if cfg!(target_os = "windows") { // \\.\nul is allowed let s = path.as_os_str().as_encoded_bytes(); if s.eq_ignore_ascii_case(br#"\\.\nul"#) { return Ok(()); } fn is_normalized_windows_drive_path(path: &Path) -> bool { let s = path.as_os_str().as_encoded_bytes(); // \\?\X:\ if s.len() < 7 { false } else if s.starts_with(br#"\\?\"#) { s[4].is_ascii_alphabetic() && s[5] == b':' && s[6] == b'\\' } else { false } } // If this is a normalized drive path, accept it if !is_normalized_windows_drive_path(path) { self.check_was_allow_all_flag_passed().map_err(error_all)?; } } else { unimplemented!() } Ok(()) } #[inline(always)] pub fn check_net_url( &mut self, url: &Url, api_name: &str, ) -> Result<(), AnyError> { self.inner.lock().net.check_url(url, Some(api_name)) } #[inline(always)] pub fn check_net>( &mut self, host: &(T, Option), api_name: &str, ) -> Result<(), AnyError> { let mut inner = self.inner.lock(); let inner = &mut inner.net; skip_check_if_is_permission_fully_granted!(inner); let hostname = Host::parse(host.0.as_ref())?; let descriptor = NetDescriptor(hostname, host.1); inner.check(&descriptor, Some(api_name)) } #[inline(always)] pub fn check_ffi(&mut self, path: &str) -> Result { let mut inner = self.inner.lock(); let inner = &mut inner.ffi; if inner.is_allow_all() { Ok(PathBuf::from(path)) } else { let desc = self.descriptor_parser.parse_path_query(path)?.into_ffi(); inner.check(&desc, None)?; Ok(desc.0.resolved) } } #[must_use = "the resolved return value to mitigate time-of-check to time-of-use issues"] #[inline(always)] pub fn check_ffi_partial_no_path(&mut self) -> Result<(), AnyError> { let mut inner = self.inner.lock(); let inner = &mut inner.ffi; if inner.is_allow_all() { Ok(()) } else { inner.check_partial(None) } } #[must_use = "the resolved return value to mitigate time-of-check to time-of-use issues"] #[inline(always)] pub fn check_ffi_partial_with_path( &mut self, path: &str, ) -> Result { let mut inner = self.inner.lock(); let inner = &mut inner.ffi; if inner.is_allow_all() { Ok(PathBuf::from(path)) } else { let desc = self.descriptor_parser.parse_path_query(path)?.into_ffi(); inner.check_partial(Some(&desc))?; Ok(desc.0.resolved) } } } const fn unit_permission_from_flag_bools( allow_flag: bool, deny_flag: bool, name: &'static str, description: &'static str, prompt: bool, ) -> UnitPermission { UnitPermission { name, description, state: if deny_flag { PermissionState::Denied } else if allow_flag { PermissionState::Granted } else { PermissionState::Prompt }, prompt, } } fn global_from_option(flag: Option<&HashSet>) -> bool { matches!(flag, Some(v) if v.is_empty()) } fn escalation_error() -> AnyError { custom_error("NotCapable", "Can't escalate parent thread permissions") } #[derive(Debug, Eq, PartialEq)] pub enum ChildUnitPermissionArg { Inherit, Granted, NotGranted, } impl<'de> Deserialize<'de> for ChildUnitPermissionArg { fn deserialize(deserializer: D) -> Result where D: Deserializer<'de>, { struct ChildUnitPermissionArgVisitor; impl<'de> de::Visitor<'de> for ChildUnitPermissionArgVisitor { type Value = ChildUnitPermissionArg; fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result { formatter.write_str("\"inherit\" or boolean") } fn visit_unit(self) -> Result where E: de::Error, { Ok(ChildUnitPermissionArg::NotGranted) } fn visit_str(self, v: &str) -> Result where E: de::Error, { if v == "inherit" { Ok(ChildUnitPermissionArg::Inherit) } else { Err(de::Error::invalid_value(de::Unexpected::Str(v), &self)) } } fn visit_bool(self, v: bool) -> Result where E: de::Error, { match v { true => Ok(ChildUnitPermissionArg::Granted), false => Ok(ChildUnitPermissionArg::NotGranted), } } } deserializer.deserialize_any(ChildUnitPermissionArgVisitor) } } #[derive(Debug, Eq, PartialEq)] pub enum ChildUnaryPermissionArg { Inherit, Granted, NotGranted, GrantedList(Vec), } impl<'de> Deserialize<'de> for ChildUnaryPermissionArg { fn deserialize(deserializer: D) -> Result where D: Deserializer<'de>, { struct ChildUnaryPermissionArgVisitor; impl<'de> de::Visitor<'de> for ChildUnaryPermissionArgVisitor { type Value = ChildUnaryPermissionArg; fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result { formatter.write_str("\"inherit\" or boolean or string[]") } fn visit_unit(self) -> Result where E: de::Error, { Ok(ChildUnaryPermissionArg::NotGranted) } fn visit_str(self, v: &str) -> Result where E: de::Error, { if v == "inherit" { Ok(ChildUnaryPermissionArg::Inherit) } else { Err(de::Error::invalid_value(de::Unexpected::Str(v), &self)) } } fn visit_bool(self, v: bool) -> Result where E: de::Error, { match v { true => Ok(ChildUnaryPermissionArg::Granted), false => Ok(ChildUnaryPermissionArg::NotGranted), } } fn visit_seq( self, mut v: V, ) -> Result where V: de::SeqAccess<'de>, { let mut granted_list = vec![]; while let Some(value) = v.next_element::()? { granted_list.push(value); } Ok(ChildUnaryPermissionArg::GrantedList(granted_list)) } } deserializer.deserialize_any(ChildUnaryPermissionArgVisitor) } } /// Directly deserializable from JS worker and test permission options. #[derive(Debug, Eq, PartialEq)] pub struct ChildPermissionsArg { env: ChildUnaryPermissionArg, net: ChildUnaryPermissionArg, ffi: ChildUnaryPermissionArg, read: ChildUnaryPermissionArg, run: ChildUnaryPermissionArg, sys: ChildUnaryPermissionArg, write: ChildUnaryPermissionArg, } impl ChildPermissionsArg { pub fn inherit() -> Self { ChildPermissionsArg { env: ChildUnaryPermissionArg::Inherit, net: ChildUnaryPermissionArg::Inherit, ffi: ChildUnaryPermissionArg::Inherit, read: ChildUnaryPermissionArg::Inherit, run: ChildUnaryPermissionArg::Inherit, sys: ChildUnaryPermissionArg::Inherit, write: ChildUnaryPermissionArg::Inherit, } } pub fn none() -> Self { ChildPermissionsArg { env: ChildUnaryPermissionArg::NotGranted, net: ChildUnaryPermissionArg::NotGranted, ffi: ChildUnaryPermissionArg::NotGranted, read: ChildUnaryPermissionArg::NotGranted, run: ChildUnaryPermissionArg::NotGranted, sys: ChildUnaryPermissionArg::NotGranted, write: ChildUnaryPermissionArg::NotGranted, } } } impl<'de> Deserialize<'de> for ChildPermissionsArg { fn deserialize(deserializer: D) -> Result where D: Deserializer<'de>, { struct ChildPermissionsArgVisitor; impl<'de> de::Visitor<'de> for ChildPermissionsArgVisitor { type Value = ChildPermissionsArg; fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result { formatter.write_str("\"inherit\" or \"none\" or object") } fn visit_unit(self) -> Result where E: de::Error, { Ok(ChildPermissionsArg::inherit()) } fn visit_str(self, v: &str) -> Result where E: de::Error, { if v == "inherit" { Ok(ChildPermissionsArg::inherit()) } else if v == "none" { Ok(ChildPermissionsArg::none()) } else { Err(de::Error::invalid_value(de::Unexpected::Str(v), &self)) } } fn visit_map(self, mut v: V) -> Result where V: de::MapAccess<'de>, { let mut child_permissions_arg = ChildPermissionsArg::none(); while let Some((key, value)) = v.next_entry::()? { if key == "env" { let arg = serde_json::from_value::(value); child_permissions_arg.env = arg.map_err(|e| { de::Error::custom(format!("(deno.permissions.env) {e}")) })?; } else if key == "net" { let arg = serde_json::from_value::(value); child_permissions_arg.net = arg.map_err(|e| { de::Error::custom(format!("(deno.permissions.net) {e}")) })?; } else if key == "ffi" { let arg = serde_json::from_value::(value); child_permissions_arg.ffi = arg.map_err(|e| { de::Error::custom(format!("(deno.permissions.ffi) {e}")) })?; } else if key == "read" { let arg = serde_json::from_value::(value); child_permissions_arg.read = arg.map_err(|e| { de::Error::custom(format!("(deno.permissions.read) {e}")) })?; } else if key == "run" { let arg = serde_json::from_value::(value); child_permissions_arg.run = arg.map_err(|e| { de::Error::custom(format!("(deno.permissions.run) {e}")) })?; } else if key == "sys" { let arg = serde_json::from_value::(value); child_permissions_arg.sys = arg.map_err(|e| { de::Error::custom(format!("(deno.permissions.sys) {e}")) })?; } else if key == "write" { let arg = serde_json::from_value::(value); child_permissions_arg.write = arg.map_err(|e| { de::Error::custom(format!("(deno.permissions.write) {e}")) })?; } else { return Err(de::Error::custom("unknown permission name")); } } Ok(child_permissions_arg) } } deserializer.deserialize_any(ChildPermissionsArgVisitor) } } /// Parses and normalizes permissions. /// /// This trait is necessary because this crate doesn't have access /// to the file system. pub trait PermissionDescriptorParser: Debug + Send + Sync { fn parse_read_descriptor( &self, text: &str, ) -> Result; fn parse_write_descriptor( &self, text: &str, ) -> Result; fn parse_net_descriptor(&self, text: &str) -> Result; fn parse_env_descriptor(&self, text: &str) -> Result; fn parse_sys_descriptor(&self, text: &str) -> Result; fn parse_allow_run_descriptor( &self, text: &str, ) -> Result; fn parse_deny_run_descriptor( &self, text: &str, ) -> Result; fn parse_ffi_descriptor(&self, text: &str) -> Result; // queries fn parse_path_query( &self, path: &str, ) -> Result; fn parse_run_query( &self, requested: &str, ) -> Result; } pub fn create_child_permissions( parser: &dyn PermissionDescriptorParser, main_perms: &mut Permissions, child_permissions_arg: ChildPermissionsArg, ) -> Result { fn is_granted_unary(arg: &ChildUnaryPermissionArg) -> bool { match arg { ChildUnaryPermissionArg::Inherit | ChildUnaryPermissionArg::Granted => { true } ChildUnaryPermissionArg::NotGranted | ChildUnaryPermissionArg::GrantedList(_) => false, } } let mut worker_perms = Permissions::none_without_prompt(); worker_perms.all = main_perms .all .create_child_permissions(ChildUnitPermissionArg::Inherit)?; // downgrade the `worker_perms.all` based on the other values if worker_perms.all.query() == PermissionState::Granted { let unary_perms = [ &child_permissions_arg.read, &child_permissions_arg.write, &child_permissions_arg.net, &child_permissions_arg.env, &child_permissions_arg.sys, &child_permissions_arg.run, &child_permissions_arg.ffi, ]; let allow_all = unary_perms.into_iter().all(is_granted_unary); if !allow_all { worker_perms.all.revoke(); } } // WARNING: When adding a permission here, ensure it is handled // in the worker_perms.all block above worker_perms.read = main_perms .read .create_child_permissions(child_permissions_arg.read, |text| { Ok(Some(parser.parse_read_descriptor(text)?)) })?; worker_perms.write = main_perms .write .create_child_permissions(child_permissions_arg.write, |text| { Ok(Some(parser.parse_write_descriptor(text)?)) })?; worker_perms.net = main_perms .net .create_child_permissions(child_permissions_arg.net, |text| { Ok(Some(parser.parse_net_descriptor(text)?)) })?; worker_perms.env = main_perms .env .create_child_permissions(child_permissions_arg.env, |text| { Ok(Some(parser.parse_env_descriptor(text)?)) })?; worker_perms.sys = main_perms .sys .create_child_permissions(child_permissions_arg.sys, |text| { Ok(Some(parser.parse_sys_descriptor(text)?)) })?; worker_perms.run = main_perms.run.create_child_permissions( child_permissions_arg.run, |text| match parser.parse_allow_run_descriptor(text)? { AllowRunDescriptorParseResult::Unresolved(_) => Ok(None), AllowRunDescriptorParseResult::Descriptor(desc) => Ok(Some(desc)), }, )?; worker_perms.ffi = main_perms .ffi .create_child_permissions(child_permissions_arg.ffi, |text| { Ok(Some(parser.parse_ffi_descriptor(text)?)) })?; Ok(worker_perms) } static IS_STANDALONE: AtomicFlag = AtomicFlag::lowered(); pub fn mark_standalone() { IS_STANDALONE.raise(); } pub fn is_standalone() -> bool { IS_STANDALONE.is_raised() } #[cfg(test)] mod tests { use super::*; use deno_core::serde_json::json; use fqdn::fqdn; use prompter::tests::*; use std::net::Ipv4Addr; // Creates vector of strings, Vec macro_rules! svec { ($($x:expr),*) => (vec![$($x.to_string()),*]); } #[derive(Debug)] struct TestPermissionDescriptorParser; impl TestPermissionDescriptorParser { fn join_path_with_root(&self, path: &str) -> PathBuf { if path.starts_with("C:\\") { PathBuf::from(path) } else { PathBuf::from("/").join(path) } } } impl PermissionDescriptorParser for TestPermissionDescriptorParser { fn parse_read_descriptor( &self, text: &str, ) -> Result { Ok(ReadDescriptor(self.join_path_with_root(text))) } fn parse_write_descriptor( &self, text: &str, ) -> Result { Ok(WriteDescriptor(self.join_path_with_root(text))) } fn parse_net_descriptor( &self, text: &str, ) -> Result { NetDescriptor::parse(text) } fn parse_env_descriptor( &self, text: &str, ) -> Result { Ok(EnvDescriptor::new(text)) } fn parse_sys_descriptor( &self, text: &str, ) -> Result { Ok(SysDescriptor(text.to_string())) } fn parse_allow_run_descriptor( &self, text: &str, ) -> Result { Ok(AllowRunDescriptorParseResult::Descriptor( AllowRunDescriptor(self.join_path_with_root(text)), )) } fn parse_deny_run_descriptor( &self, text: &str, ) -> Result { if text.contains("/") { Ok(DenyRunDescriptor::Path(self.join_path_with_root(text))) } else { Ok(DenyRunDescriptor::Name(text.to_string())) } } fn parse_ffi_descriptor( &self, text: &str, ) -> Result { Ok(FfiDescriptor(self.join_path_with_root(text))) } fn parse_path_query( &self, path: &str, ) -> Result { Ok(PathQueryDescriptor { resolved: self.join_path_with_root(path), requested: path.to_string(), }) } fn parse_run_query( &self, requested: &str, ) -> Result { RunQueryDescriptor::parse(requested) } } #[test] fn check_paths() { set_prompter(Box::new(TestPrompter)); let allowlist = svec!["/a/specific/dir/name", "/a/specific", "/b/c"]; let parser = TestPermissionDescriptorParser; let perms = Permissions::from_options( &parser, &PermissionsOptions { allow_read: Some(allowlist.clone()), allow_write: Some(allowlist.clone()), allow_ffi: Some(allowlist), ..Default::default() }, ) .unwrap(); let mut perms = PermissionsContainer::new(Arc::new(parser), perms); let cases = [ // Inside of /a/specific and /a/specific/dir/name ("/a/specific/dir/name", true), // Inside of /a/specific but outside of /a/specific/dir/name ("/a/specific/dir", true), // Inside of /a/specific and /a/specific/dir/name ("/a/specific/dir/name/inner", true), // Inside of /a/specific but outside of /a/specific/dir/name ("/a/specific/other/dir", true), // Exact match with /b/c ("/b/c", true), // Sub path within /b/c ("/b/c/sub/path", true), // Sub path within /b/c, needs normalizing ("/b/c/sub/path/../path/.", true), // Inside of /b but outside of /b/c ("/b/e", false), // Inside of /a but outside of /a/specific ("/a/b", false), ]; for (path, is_ok) in cases { assert_eq!(perms.check_read(path, "api").is_ok(), is_ok); assert_eq!(perms.check_write(path, "api").is_ok(), is_ok); assert_eq!(perms.check_ffi(path).is_ok(), is_ok); } } #[test] fn test_check_net_with_values() { set_prompter(Box::new(TestPrompter)); let parser = TestPermissionDescriptorParser; let mut perms = Permissions::from_options( &parser, &PermissionsOptions { allow_net: Some(svec![ "localhost", "deno.land", "github.com:3000", "127.0.0.1", "172.16.0.2:8000", "www.github.com:443", "80.example.com:80", "443.example.com:443" ]), ..Default::default() }, ) .unwrap(); let domain_tests = vec![ ("localhost", 1234, true), ("deno.land", 0, true), ("deno.land", 3000, true), ("deno.lands", 0, false), ("deno.lands", 3000, false), ("github.com", 3000, true), ("github.com", 0, false), ("github.com", 2000, false), ("github.net", 3000, false), ("127.0.0.1", 0, true), ("127.0.0.1", 3000, true), ("127.0.0.2", 0, false), ("127.0.0.2", 3000, false), ("172.16.0.2", 8000, true), ("172.16.0.2", 0, false), ("172.16.0.2", 6000, false), ("172.16.0.1", 8000, false), ("443.example.com", 444, false), ("80.example.com", 81, false), ("80.example.com", 80, true), // Just some random hosts that should err ("somedomain", 0, false), ("192.168.0.1", 0, false), ]; for (host, port, is_ok) in domain_tests { let host = Host::parse(host).unwrap(); let descriptor = NetDescriptor(host, Some(port)); assert_eq!( is_ok, perms.net.check(&descriptor, None).is_ok(), "{descriptor}", ); } } #[test] fn test_check_net_only_flag() { set_prompter(Box::new(TestPrompter)); let parser = TestPermissionDescriptorParser; let mut perms = Permissions::from_options( &parser, &PermissionsOptions { allow_net: Some(svec![]), // this means `--allow-net` is present without values following `=` sign ..Default::default() }, ) .unwrap(); let domain_tests = vec![ ("localhost", 1234), ("deno.land", 0), ("deno.land", 3000), ("deno.lands", 0), ("deno.lands", 3000), ("github.com", 3000), ("github.com", 0), ("github.com", 2000), ("github.net", 3000), ("127.0.0.1", 0), ("127.0.0.1", 3000), ("127.0.0.2", 0), ("127.0.0.2", 3000), ("172.16.0.2", 8000), ("172.16.0.2", 0), ("172.16.0.2", 6000), ("172.16.0.1", 8000), ("somedomain", 0), ("192.168.0.1", 0), ]; for (host_str, port) in domain_tests { let host = Host::parse(host_str).unwrap(); let descriptor = NetDescriptor(host, Some(port)); assert!( perms.net.check(&descriptor, None).is_ok(), "expected {host_str}:{port} to pass" ); } } #[test] fn test_check_net_no_flag() { set_prompter(Box::new(TestPrompter)); let parser = TestPermissionDescriptorParser; let mut perms = Permissions::from_options( &parser, &PermissionsOptions { allow_net: None, ..Default::default() }, ) .unwrap(); let domain_tests = vec![ ("localhost", 1234), ("deno.land", 0), ("deno.land", 3000), ("deno.lands", 0), ("deno.lands", 3000), ("github.com", 3000), ("github.com", 0), ("github.com", 2000), ("github.net", 3000), ("127.0.0.1", 0), ("127.0.0.1", 3000), ("127.0.0.2", 0), ("127.0.0.2", 3000), ("172.16.0.2", 8000), ("172.16.0.2", 0), ("172.16.0.2", 6000), ("172.16.0.1", 8000), ("somedomain", 0), ("192.168.0.1", 0), ]; for (host_str, port) in domain_tests { let host = Host::parse(host_str).unwrap(); let descriptor = NetDescriptor(host, Some(port)); assert!( perms.net.check(&descriptor, None).is_err(), "expected {host_str}:{port} to fail" ); } } #[test] fn test_check_net_url() { let mut perms = Permissions::from_options( &TestPermissionDescriptorParser, &PermissionsOptions { allow_net: Some(svec![ "localhost", "deno.land", "github.com:3000", "127.0.0.1", "172.16.0.2:8000", "www.github.com:443" ]), ..Default::default() }, ) .unwrap(); let url_tests = vec![ // Any protocol + port for localhost should be ok, since we don't specify ("http://localhost", true), ("https://localhost", true), ("https://localhost:4443", true), ("tcp://localhost:5000", true), ("udp://localhost:6000", true), // Correct domain + any port and protocol should be ok incorrect shouldn't ("https://deno.land/std/example/welcome.ts", true), ("https://deno.land:3000/std/example/welcome.ts", true), ("https://deno.lands/std/example/welcome.ts", false), ("https://deno.lands:3000/std/example/welcome.ts", false), // Correct domain + port should be ok all other combinations should err ("https://github.com:3000/denoland/deno", true), ("https://github.com/denoland/deno", false), ("https://github.com:2000/denoland/deno", false), ("https://github.net:3000/denoland/deno", false), // Correct ipv4 address + any port should be ok others should err ("tcp://127.0.0.1", true), ("https://127.0.0.1", true), ("tcp://127.0.0.1:3000", true), ("https://127.0.0.1:3000", true), ("tcp://127.0.0.2", false), ("https://127.0.0.2", false), ("tcp://127.0.0.2:3000", false), ("https://127.0.0.2:3000", false), // Correct address + port should be ok all other combinations should err ("tcp://172.16.0.2:8000", true), ("https://172.16.0.2:8000", true), ("tcp://172.16.0.2", false), ("https://172.16.0.2", false), ("tcp://172.16.0.2:6000", false), ("https://172.16.0.2:6000", false), ("tcp://172.16.0.1:8000", false), ("https://172.16.0.1:8000", false), // Testing issue #6531 (Network permissions check doesn't account for well-known default ports) so we dont regress ("https://www.github.com:443/robots.txt", true), ]; for (url_str, is_ok) in url_tests { let u = url::Url::parse(url_str).unwrap(); assert_eq!(is_ok, perms.net.check_url(&u, None).is_ok(), "{}", u); } } #[test] fn check_specifiers() { set_prompter(Box::new(TestPrompter)); let read_allowlist = if cfg!(target_os = "windows") { svec!["C:\\a"] } else { svec!["/a"] }; let mut perms = Permissions::from_options( &TestPermissionDescriptorParser, &PermissionsOptions { allow_read: Some(read_allowlist), allow_net: Some(svec!["localhost"]), ..Default::default() }, ) .unwrap(); let mut fixtures = vec![ ( ModuleSpecifier::parse("http://localhost:4545/mod.ts").unwrap(), true, ), ( ModuleSpecifier::parse("http://deno.land/x/mod.ts").unwrap(), false, ), ( ModuleSpecifier::parse("data:text/plain,Hello%2C%20Deno!").unwrap(), true, ), ]; if cfg!(target_os = "windows") { fixtures .push((ModuleSpecifier::parse("file:///C:/a/mod.ts").unwrap(), true)); fixtures.push(( ModuleSpecifier::parse("file:///C:/b/mod.ts").unwrap(), false, )); } else { fixtures .push((ModuleSpecifier::parse("file:///a/mod.ts").unwrap(), true)); fixtures .push((ModuleSpecifier::parse("file:///b/mod.ts").unwrap(), false)); } for (specifier, expected) in fixtures { assert_eq!( perms.check_specifier(&specifier).is_ok(), expected, "{}", specifier, ); } } #[test] fn check_invalid_specifiers() { set_prompter(Box::new(TestPrompter)); let mut perms = Permissions::allow_all(); let mut test_cases = vec![]; test_cases.push("file://dir"); test_cases.push("file://asdf/"); test_cases.push("file://remotehost/"); for url in test_cases { assert!(perms .check_specifier(&ModuleSpecifier::parse(url).unwrap()) .is_err()); } } #[test] fn test_query() { set_prompter(Box::new(TestPrompter)); let parser = TestPermissionDescriptorParser; let perms1 = Permissions::allow_all(); let perms2 = Permissions::from_options( &parser, &PermissionsOptions { allow_read: Some(svec!["/foo"]), allow_write: Some(svec!["/foo"]), allow_ffi: Some(svec!["/foo"]), allow_net: Some(svec!["127.0.0.1:8000"]), allow_env: Some(svec!["HOME"]), allow_sys: Some(svec!["hostname"]), allow_run: Some(svec!["/deno"]), allow_all: false, ..Default::default() }, ) .unwrap(); let perms3 = Permissions::from_options( &parser, &PermissionsOptions { deny_read: Some(svec!["/foo"]), deny_write: Some(svec!["/foo"]), deny_ffi: Some(svec!["/foo"]), deny_net: Some(svec!["127.0.0.1:8000"]), deny_env: Some(svec!["HOME"]), deny_sys: Some(svec!["hostname"]), deny_run: Some(svec!["deno"]), ..Default::default() }, ) .unwrap(); let perms4 = Permissions::from_options( &parser, &PermissionsOptions { allow_read: Some(vec![]), deny_read: Some(svec!["/foo"]), allow_write: Some(vec![]), deny_write: Some(svec!["/foo"]), allow_ffi: Some(vec![]), deny_ffi: Some(svec!["/foo"]), allow_net: Some(vec![]), deny_net: Some(svec!["127.0.0.1:8000"]), allow_env: Some(vec![]), deny_env: Some(svec!["HOME"]), allow_sys: Some(vec![]), deny_sys: Some(svec!["hostname"]), allow_run: Some(vec![]), deny_run: Some(svec!["deno"]), ..Default::default() }, ) .unwrap(); #[rustfmt::skip] { let read_query = |path: &str| parser.parse_path_query(path).unwrap().into_read(); let write_query = |path: &str| parser.parse_path_query(path).unwrap().into_write(); let ffi_query = |path: &str| parser.parse_path_query(path).unwrap().into_ffi(); assert_eq!(perms1.read.query(None), PermissionState::Granted); assert_eq!(perms1.read.query(Some(&read_query("/foo"))), PermissionState::Granted); assert_eq!(perms2.read.query(None), PermissionState::Prompt); assert_eq!(perms2.read.query(Some(&read_query("/foo"))), PermissionState::Granted); assert_eq!(perms2.read.query(Some(&read_query("/foo/bar"))), PermissionState::Granted); assert_eq!(perms3.read.query(None), PermissionState::Prompt); assert_eq!(perms3.read.query(Some(&read_query("/foo"))), PermissionState::Denied); assert_eq!(perms3.read.query(Some(&read_query("/foo/bar"))), PermissionState::Denied); assert_eq!(perms4.read.query(None), PermissionState::GrantedPartial); assert_eq!(perms4.read.query(Some(&read_query("/foo"))), PermissionState::Denied); assert_eq!(perms4.read.query(Some(&read_query("/foo/bar"))), PermissionState::Denied); assert_eq!(perms4.read.query(Some(&read_query("/bar"))), PermissionState::Granted); assert_eq!(perms1.write.query(None), PermissionState::Granted); assert_eq!(perms1.write.query(Some(&write_query("/foo"))), PermissionState::Granted); assert_eq!(perms2.write.query(None), PermissionState::Prompt); assert_eq!(perms2.write.query(Some(&write_query("/foo"))), PermissionState::Granted); assert_eq!(perms2.write.query(Some(&write_query("/foo/bar"))), PermissionState::Granted); assert_eq!(perms3.write.query(None), PermissionState::Prompt); assert_eq!(perms3.write.query(Some(&write_query("/foo"))), PermissionState::Denied); assert_eq!(perms3.write.query(Some(&write_query("/foo/bar"))), PermissionState::Denied); assert_eq!(perms4.write.query(None), PermissionState::GrantedPartial); assert_eq!(perms4.write.query(Some(&write_query("/foo"))), PermissionState::Denied); assert_eq!(perms4.write.query(Some(&write_query("/foo/bar"))), PermissionState::Denied); assert_eq!(perms4.write.query(Some(&write_query("/bar"))), PermissionState::Granted); assert_eq!(perms1.ffi.query(None), PermissionState::Granted); assert_eq!(perms1.ffi.query(Some(&ffi_query("/foo"))), PermissionState::Granted); assert_eq!(perms2.ffi.query(None), PermissionState::Prompt); assert_eq!(perms2.ffi.query(Some(&ffi_query("/foo"))), PermissionState::Granted); assert_eq!(perms2.ffi.query(Some(&ffi_query("/foo/bar"))), PermissionState::Granted); assert_eq!(perms3.ffi.query(None), PermissionState::Prompt); assert_eq!(perms3.ffi.query(Some(&ffi_query("/foo"))), PermissionState::Denied); assert_eq!(perms3.ffi.query(Some(&ffi_query("/foo/bar"))), PermissionState::Denied); assert_eq!(perms4.ffi.query(None), PermissionState::GrantedPartial); assert_eq!(perms4.ffi.query(Some(&ffi_query("/foo"))), PermissionState::Denied); assert_eq!(perms4.ffi.query(Some(&ffi_query("/foo/bar"))), PermissionState::Denied); assert_eq!(perms4.ffi.query(Some(&ffi_query("/bar"))), PermissionState::Granted); assert_eq!(perms1.net.query(None), PermissionState::Granted); assert_eq!(perms1.net.query(Some(&NetDescriptor(Host::must_parse("127.0.0.1"), None))), PermissionState::Granted); assert_eq!(perms2.net.query(None), PermissionState::Prompt); assert_eq!(perms2.net.query(Some(&NetDescriptor(Host::must_parse("127.0.0.1"), Some(8000)))), PermissionState::Granted); assert_eq!(perms3.net.query(None), PermissionState::Prompt); assert_eq!(perms3.net.query(Some(&NetDescriptor(Host::must_parse("127.0.0.1"), Some(8000)))), PermissionState::Denied); assert_eq!(perms4.net.query(None), PermissionState::GrantedPartial); assert_eq!(perms4.net.query(Some(&NetDescriptor(Host::must_parse("127.0.0.1"), Some(8000)))), PermissionState::Denied); assert_eq!(perms4.net.query(Some(&NetDescriptor(Host::must_parse("192.168.0.1"), Some(8000)))), PermissionState::Granted); assert_eq!(perms1.env.query(None), PermissionState::Granted); assert_eq!(perms1.env.query(Some("HOME")), PermissionState::Granted); assert_eq!(perms2.env.query(None), PermissionState::Prompt); assert_eq!(perms2.env.query(Some("HOME")), PermissionState::Granted); assert_eq!(perms3.env.query(None), PermissionState::Prompt); assert_eq!(perms3.env.query(Some("HOME")), PermissionState::Denied); assert_eq!(perms4.env.query(None), PermissionState::GrantedPartial); assert_eq!(perms4.env.query(Some("HOME")), PermissionState::Denied); assert_eq!(perms4.env.query(Some("AWAY")), PermissionState::Granted); assert_eq!(perms1.sys.query(None), PermissionState::Granted); assert_eq!(perms1.sys.query(Some("HOME")), PermissionState::Granted); assert_eq!(perms2.sys.query(None), PermissionState::Prompt); assert_eq!(perms2.sys.query(Some("hostname")), PermissionState::Granted); assert_eq!(perms3.sys.query(None), PermissionState::Prompt); assert_eq!(perms3.sys.query(Some("hostname")), PermissionState::Denied); assert_eq!(perms4.sys.query(None), PermissionState::GrantedPartial); assert_eq!(perms4.sys.query(Some("hostname")), PermissionState::Denied); assert_eq!(perms4.sys.query(Some("uid")), PermissionState::Granted); assert_eq!(perms1.run.query(None), PermissionState::Granted); let deno_run_query = RunQueryDescriptor::Path { requested: "deno".to_string(), resolved: PathBuf::from("/deno"), }; let node_run_query = RunQueryDescriptor::Path { requested: "node".to_string(), resolved: PathBuf::from("/node"), }; assert_eq!(perms1.run.query(Some(&deno_run_query)), PermissionState::Granted); assert_eq!(perms1.write.query(Some(&write_query("/deno"))), PermissionState::Granted); assert_eq!(perms2.run.query(None), PermissionState::Prompt); assert_eq!(perms2.run.query(Some(&deno_run_query)), PermissionState::Granted); assert_eq!(perms2.write.query(Some(&write_query("/deno"))), PermissionState::Denied); assert_eq!(perms3.run.query(None), PermissionState::Prompt); assert_eq!(perms3.run.query(Some(&deno_run_query)), PermissionState::Denied); assert_eq!(perms4.run.query(None), PermissionState::GrantedPartial); assert_eq!(perms4.run.query(Some(&deno_run_query)), PermissionState::Denied); assert_eq!(perms4.run.query(Some(&node_run_query)), PermissionState::Granted); }; } #[test] fn test_request() { set_prompter(Box::new(TestPrompter)); let parser = TestPermissionDescriptorParser; let mut perms: Permissions = Permissions::none_without_prompt(); let read_query = |path: &str| parser.parse_path_query(path).unwrap().into_read(); let write_query = |path: &str| parser.parse_path_query(path).unwrap().into_write(); let ffi_query = |path: &str| parser.parse_path_query(path).unwrap().into_ffi(); #[rustfmt::skip] { let prompt_value = PERMISSION_PROMPT_STUB_VALUE_SETTER.lock(); prompt_value.set(true); assert_eq!(perms.read.request(Some(&read_query("/foo"))), PermissionState::Granted); assert_eq!(perms.read.query(None), PermissionState::Prompt); prompt_value.set(false); assert_eq!(perms.read.request(Some(&read_query("/foo/bar"))), PermissionState::Granted); prompt_value.set(false); assert_eq!(perms.write.request(Some(&write_query("/foo"))), PermissionState::Denied); assert_eq!(perms.write.query(Some(&write_query("/foo/bar"))), PermissionState::Prompt); prompt_value.set(true); assert_eq!(perms.write.request(None), PermissionState::Denied); prompt_value.set(false); assert_eq!(perms.ffi.request(Some(&ffi_query("/foo"))), PermissionState::Denied); assert_eq!(perms.ffi.query(Some(&ffi_query("/foo/bar"))), PermissionState::Prompt); prompt_value.set(true); assert_eq!(perms.ffi.request(None), PermissionState::Denied); prompt_value.set(true); assert_eq!(perms.net.request(Some(&NetDescriptor(Host::must_parse("127.0.0.1"), None))), PermissionState::Granted); prompt_value.set(false); assert_eq!(perms.net.request(Some(&NetDescriptor(Host::must_parse("127.0.0.1"), Some(8000)))), PermissionState::Granted); prompt_value.set(true); assert_eq!(perms.env.request(Some("HOME")), PermissionState::Granted); assert_eq!(perms.env.query(None), PermissionState::Prompt); prompt_value.set(false); assert_eq!(perms.env.request(Some("HOME")), PermissionState::Granted); prompt_value.set(true); assert_eq!(perms.sys.request(Some("hostname")), PermissionState::Granted); assert_eq!(perms.sys.query(None), PermissionState::Prompt); prompt_value.set(false); assert_eq!(perms.sys.request(Some("hostname")), PermissionState::Granted); prompt_value.set(true); let run_query = RunQueryDescriptor::Path { requested: "deno".to_string(), resolved: PathBuf::from("/deno"), }; assert_eq!(perms.run.request(Some(&run_query)), PermissionState::Granted); assert_eq!(perms.run.query(None), PermissionState::Prompt); prompt_value.set(false); assert_eq!(perms.run.request(Some(&run_query)), PermissionState::Granted); }; } #[test] fn test_revoke() { set_prompter(Box::new(TestPrompter)); let parser = TestPermissionDescriptorParser; let mut perms = Permissions::from_options( &parser, &PermissionsOptions { allow_read: Some(svec!["/foo", "/foo/baz"]), allow_write: Some(svec!["/foo", "/foo/baz"]), allow_ffi: Some(svec!["/foo", "/foo/baz"]), allow_net: Some(svec!["127.0.0.1", "127.0.0.1:8000"]), allow_env: Some(svec!["HOME"]), allow_sys: Some(svec!["hostname"]), allow_run: Some(svec!["/deno"]), ..Default::default() }, ) .unwrap(); let read_query = |path: &str| parser.parse_path_query(path).unwrap().into_read(); let write_query = |path: &str| parser.parse_path_query(path).unwrap().into_write(); let ffi_query = |path: &str| parser.parse_path_query(path).unwrap().into_ffi(); #[rustfmt::skip] { assert_eq!(perms.read.revoke(Some(&read_query("/foo/bar"))), PermissionState::Prompt); assert_eq!(perms.read.query(Some(&read_query("/foo"))), PermissionState::Prompt); assert_eq!(perms.read.query(Some(&read_query("/foo/baz"))), PermissionState::Granted); assert_eq!(perms.write.revoke(Some(&write_query("/foo/bar"))), PermissionState::Prompt); assert_eq!(perms.write.query(Some(&write_query("/foo"))), PermissionState::Prompt); assert_eq!(perms.write.query(Some(&write_query("/foo/baz"))), PermissionState::Granted); assert_eq!(perms.ffi.revoke(Some(&ffi_query("/foo/bar"))), PermissionState::Prompt); assert_eq!(perms.ffi.query(Some(&ffi_query("/foo"))), PermissionState::Prompt); assert_eq!(perms.ffi.query(Some(&ffi_query("/foo/baz"))), PermissionState::Granted); assert_eq!(perms.net.revoke(Some(&NetDescriptor(Host::must_parse("127.0.0.1"), Some(9000)))), PermissionState::Prompt); assert_eq!(perms.net.query(Some(&NetDescriptor(Host::must_parse("127.0.0.1"), None))), PermissionState::Prompt); assert_eq!(perms.net.query(Some(&NetDescriptor(Host::must_parse("127.0.0.1"), Some(8000)))), PermissionState::Granted); assert_eq!(perms.env.revoke(Some("HOME")), PermissionState::Prompt); assert_eq!(perms.env.revoke(Some("hostname")), PermissionState::Prompt); let run_query = RunQueryDescriptor::Path { requested: "deno".to_string(), resolved: PathBuf::from("/deno"), }; assert_eq!(perms.run.revoke(Some(&run_query)), PermissionState::Prompt); }; } #[test] fn test_check() { set_prompter(Box::new(TestPrompter)); let mut perms = Permissions::none_with_prompt(); let prompt_value = PERMISSION_PROMPT_STUB_VALUE_SETTER.lock(); let parser = TestPermissionDescriptorParser; let read_query = |path: &str| parser.parse_path_query(path).unwrap().into_read(); let write_query = |path: &str| parser.parse_path_query(path).unwrap().into_write(); let ffi_query = |path: &str| parser.parse_path_query(path).unwrap().into_ffi(); prompt_value.set(true); assert!(perms.read.check(&read_query("/foo"), None).is_ok()); prompt_value.set(false); assert!(perms.read.check(&read_query("/foo"), None).is_ok()); assert!(perms.read.check(&read_query("/bar"), None).is_err()); prompt_value.set(true); assert!(perms.write.check(&write_query("/foo"), None).is_ok()); prompt_value.set(false); assert!(perms.write.check(&write_query("/foo"), None).is_ok()); assert!(perms.write.check(&write_query("/bar"), None).is_err()); prompt_value.set(true); assert!(perms.ffi.check(&ffi_query("/foo"), None).is_ok()); prompt_value.set(false); assert!(perms.ffi.check(&ffi_query("/foo"), None).is_ok()); assert!(perms.ffi.check(&ffi_query("/bar"), None).is_err()); prompt_value.set(true); assert!(perms .net .check( &NetDescriptor(Host::must_parse("127.0.0.1"), Some(8000)), None ) .is_ok()); prompt_value.set(false); assert!(perms .net .check( &NetDescriptor(Host::must_parse("127.0.0.1"), Some(8000)), None ) .is_ok()); assert!(perms .net .check( &NetDescriptor(Host::must_parse("127.0.0.1"), Some(8001)), None ) .is_err()); assert!(perms .net .check(&NetDescriptor(Host::must_parse("127.0.0.1"), None), None) .is_err()); assert!(perms .net .check( &NetDescriptor(Host::must_parse("deno.land"), Some(8000)), None ) .is_err()); assert!(perms .net .check(&NetDescriptor(Host::must_parse("deno.land"), None), None) .is_err()); #[allow(clippy::disallowed_methods)] let cwd = std::env::current_dir().unwrap(); prompt_value.set(true); assert!(perms .run .check( &RunQueryDescriptor::Path { requested: "cat".to_string(), resolved: cwd.join("cat") }, None ) .is_ok()); prompt_value.set(false); assert!(perms .run .check( &RunQueryDescriptor::Path { requested: "cat".to_string(), resolved: cwd.join("cat") }, None ) .is_ok()); assert!(perms .run .check( &RunQueryDescriptor::Path { requested: "ls".to_string(), resolved: cwd.join("ls") }, None ) .is_err()); prompt_value.set(true); assert!(perms.env.check("HOME", None).is_ok()); prompt_value.set(false); assert!(perms.env.check("HOME", None).is_ok()); assert!(perms.env.check("PATH", None).is_err()); prompt_value.set(true); assert!(perms.env.check("hostname", None).is_ok()); prompt_value.set(false); assert!(perms.env.check("hostname", None).is_ok()); assert!(perms.env.check("osRelease", None).is_err()); } #[test] fn test_check_fail() { set_prompter(Box::new(TestPrompter)); let mut perms = Permissions::none_with_prompt(); let prompt_value = PERMISSION_PROMPT_STUB_VALUE_SETTER.lock(); let parser = TestPermissionDescriptorParser; let read_query = |path: &str| parser.parse_path_query(path).unwrap().into_read(); let write_query = |path: &str| parser.parse_path_query(path).unwrap().into_write(); let ffi_query = |path: &str| parser.parse_path_query(path).unwrap().into_ffi(); prompt_value.set(false); assert!(perms.read.check(&read_query("/foo"), None).is_err()); prompt_value.set(true); assert!(perms.read.check(&read_query("/foo"), None).is_err()); assert!(perms.read.check(&read_query("/bar"), None).is_ok()); prompt_value.set(false); assert!(perms.read.check(&read_query("/bar"), None).is_ok()); prompt_value.set(false); assert!(perms.write.check(&write_query("/foo"), None).is_err()); prompt_value.set(true); assert!(perms.write.check(&write_query("/foo"), None).is_err()); assert!(perms.write.check(&write_query("/bar"), None).is_ok()); prompt_value.set(false); assert!(perms.write.check(&write_query("/bar"), None).is_ok()); prompt_value.set(false); assert!(perms.ffi.check(&ffi_query("/foo"), None).is_err()); prompt_value.set(true); assert!(perms.ffi.check(&ffi_query("/foo"), None).is_err()); assert!(perms.ffi.check(&ffi_query("/bar"), None).is_ok()); prompt_value.set(false); assert!(perms.ffi.check(&ffi_query("/bar"), None).is_ok()); prompt_value.set(false); assert!(perms .net .check( &NetDescriptor(Host::must_parse("127.0.0.1"), Some(8000)), None ) .is_err()); prompt_value.set(true); assert!(perms .net .check( &NetDescriptor(Host::must_parse("127.0.0.1"), Some(8000)), None ) .is_err()); assert!(perms .net .check( &NetDescriptor(Host::must_parse("127.0.0.1"), Some(8001)), None ) .is_ok()); assert!(perms .net .check( &NetDescriptor(Host::must_parse("deno.land"), Some(8000)), None ) .is_ok()); prompt_value.set(false); assert!(perms .net .check( &NetDescriptor(Host::must_parse("127.0.0.1"), Some(8001)), None ) .is_ok()); assert!(perms .net .check( &NetDescriptor(Host::must_parse("deno.land"), Some(8000)), None ) .is_ok()); prompt_value.set(false); #[allow(clippy::disallowed_methods)] let cwd = std::env::current_dir().unwrap(); assert!(perms .run .check( &RunQueryDescriptor::Path { requested: "cat".to_string(), resolved: cwd.join("cat") }, None ) .is_err()); prompt_value.set(true); assert!(perms .run .check( &RunQueryDescriptor::Path { requested: "cat".to_string(), resolved: cwd.join("cat") }, None ) .is_err()); assert!(perms .run .check( &RunQueryDescriptor::Path { requested: "ls".to_string(), resolved: cwd.join("ls") }, None ) .is_ok()); prompt_value.set(false); assert!(perms .run .check( &RunQueryDescriptor::Path { requested: "ls".to_string(), resolved: cwd.join("ls") }, None ) .is_ok()); prompt_value.set(false); assert!(perms.env.check("HOME", None).is_err()); prompt_value.set(true); assert!(perms.env.check("HOME", None).is_err()); assert!(perms.env.check("PATH", None).is_ok()); prompt_value.set(false); assert!(perms.env.check("PATH", None).is_ok()); prompt_value.set(false); assert!(perms.sys.check("hostname", None).is_err()); prompt_value.set(true); assert!(perms.sys.check("hostname", None).is_err()); assert!(perms.sys.check("osRelease", None).is_ok()); prompt_value.set(false); assert!(perms.sys.check("osRelease", None).is_ok()); } #[test] #[cfg(windows)] fn test_env_windows() { set_prompter(Box::new(TestPrompter)); let prompt_value = PERMISSION_PROMPT_STUB_VALUE_SETTER.lock(); let mut perms = Permissions::allow_all(); perms.env = UnaryPermission { granted_global: false, ..Permissions::new_unary( Some(HashSet::from([EnvDescriptor::new("HOME")])), None, false, ) .unwrap() }; prompt_value.set(true); assert!(perms.env.check("HOME", None).is_ok()); prompt_value.set(false); assert!(perms.env.check("HOME", None).is_ok()); assert!(perms.env.check("hOmE", None).is_ok()); assert_eq!(perms.env.revoke(Some("HomE")), PermissionState::Prompt); } #[test] fn test_check_partial_denied() { let parser = TestPermissionDescriptorParser; let mut perms = Permissions::from_options( &parser, &PermissionsOptions { allow_read: Some(vec![]), deny_read: Some(svec!["/foo/bar"]), allow_write: Some(vec![]), deny_write: Some(svec!["/foo/bar"]), ..Default::default() }, ) .unwrap(); let read_query = parser.parse_path_query("/foo").unwrap().into_read(); perms.read.check_partial(&read_query, None).unwrap(); assert!(perms.read.check(&read_query, None).is_err()); let write_query = parser.parse_path_query("/foo").unwrap().into_write(); perms.write.check_partial(&write_query, None).unwrap(); assert!(perms.write.check(&write_query, None).is_err()); } #[test] fn test_net_fully_qualified_domain_name() { set_prompter(Box::new(TestPrompter)); let parser = TestPermissionDescriptorParser; let perms = Permissions::from_options( &parser, &PermissionsOptions { allow_net: Some(svec!["allowed.domain", "1.1.1.1"]), deny_net: Some(svec!["denied.domain", "2.2.2.2"]), ..Default::default() }, ) .unwrap(); let mut perms = PermissionsContainer::new(Arc::new(parser), perms); let cases = [ ("allowed.domain.", true), ("1.1.1.1", true), ("denied.domain.", false), ("2.2.2.2", false), ]; for (host, is_ok) in cases { assert_eq!(perms.check_net(&(host, None), "api").is_ok(), is_ok); } } #[test] fn test_deserialize_child_permissions_arg() { set_prompter(Box::new(TestPrompter)); assert_eq!( ChildPermissionsArg::inherit(), ChildPermissionsArg { env: ChildUnaryPermissionArg::Inherit, net: ChildUnaryPermissionArg::Inherit, ffi: ChildUnaryPermissionArg::Inherit, read: ChildUnaryPermissionArg::Inherit, run: ChildUnaryPermissionArg::Inherit, sys: ChildUnaryPermissionArg::Inherit, write: ChildUnaryPermissionArg::Inherit, } ); assert_eq!( ChildPermissionsArg::none(), ChildPermissionsArg { env: ChildUnaryPermissionArg::NotGranted, net: ChildUnaryPermissionArg::NotGranted, ffi: ChildUnaryPermissionArg::NotGranted, read: ChildUnaryPermissionArg::NotGranted, run: ChildUnaryPermissionArg::NotGranted, sys: ChildUnaryPermissionArg::NotGranted, write: ChildUnaryPermissionArg::NotGranted, } ); assert_eq!( serde_json::from_value::(json!("inherit")).unwrap(), ChildPermissionsArg::inherit() ); assert_eq!( serde_json::from_value::(json!("none")).unwrap(), ChildPermissionsArg::none() ); assert_eq!( serde_json::from_value::(json!({})).unwrap(), ChildPermissionsArg::none() ); assert_eq!( serde_json::from_value::(json!({ "env": ["foo", "bar"], })) .unwrap(), ChildPermissionsArg { env: ChildUnaryPermissionArg::GrantedList(svec!["foo", "bar"]), ..ChildPermissionsArg::none() } ); assert_eq!( serde_json::from_value::(json!({ "env": true, "net": true, "ffi": true, "read": true, "run": true, "sys": true, "write": true, })) .unwrap(), ChildPermissionsArg { env: ChildUnaryPermissionArg::Granted, net: ChildUnaryPermissionArg::Granted, ffi: ChildUnaryPermissionArg::Granted, read: ChildUnaryPermissionArg::Granted, run: ChildUnaryPermissionArg::Granted, sys: ChildUnaryPermissionArg::Granted, write: ChildUnaryPermissionArg::Granted, } ); assert_eq!( serde_json::from_value::(json!({ "env": false, "net": false, "ffi": false, "read": false, "run": false, "sys": false, "write": false, })) .unwrap(), ChildPermissionsArg { env: ChildUnaryPermissionArg::NotGranted, net: ChildUnaryPermissionArg::NotGranted, ffi: ChildUnaryPermissionArg::NotGranted, read: ChildUnaryPermissionArg::NotGranted, run: ChildUnaryPermissionArg::NotGranted, sys: ChildUnaryPermissionArg::NotGranted, write: ChildUnaryPermissionArg::NotGranted, } ); assert_eq!( serde_json::from_value::(json!({ "env": ["foo", "bar"], "net": ["foo", "bar:8000"], "ffi": ["foo", "file:///bar/baz"], "read": ["foo", "file:///bar/baz"], "run": ["foo", "file:///bar/baz", "./qux"], "sys": ["hostname", "osRelease"], "write": ["foo", "file:///bar/baz"], })) .unwrap(), ChildPermissionsArg { env: ChildUnaryPermissionArg::GrantedList(svec!["foo", "bar"]), net: ChildUnaryPermissionArg::GrantedList(svec!["foo", "bar:8000"]), ffi: ChildUnaryPermissionArg::GrantedList(svec![ "foo", "file:///bar/baz" ]), read: ChildUnaryPermissionArg::GrantedList(svec![ "foo", "file:///bar/baz" ]), run: ChildUnaryPermissionArg::GrantedList(svec![ "foo", "file:///bar/baz", "./qux" ]), sys: ChildUnaryPermissionArg::GrantedList(svec![ "hostname", "osRelease" ]), write: ChildUnaryPermissionArg::GrantedList(svec![ "foo", "file:///bar/baz" ]), } ); } #[test] fn test_create_child_permissions() { set_prompter(Box::new(TestPrompter)); let parser = TestPermissionDescriptorParser; let mut main_perms = Permissions::from_options( &parser, &PermissionsOptions { allow_env: Some(vec![]), allow_net: Some(svec!["foo", "bar"]), ..Default::default() }, ) .unwrap(); assert_eq!( create_child_permissions( &parser, &mut main_perms.clone(), ChildPermissionsArg { env: ChildUnaryPermissionArg::Inherit, net: ChildUnaryPermissionArg::GrantedList(svec!["foo"]), ffi: ChildUnaryPermissionArg::NotGranted, ..ChildPermissionsArg::none() } ) .unwrap(), Permissions { env: Permissions::new_unary(Some(HashSet::new()), None, false).unwrap(), net: Permissions::new_unary( Some(HashSet::from([NetDescriptor::parse("foo").unwrap()])), None, false ) .unwrap(), ..Permissions::none_without_prompt() } ); assert!(create_child_permissions( &parser, &mut main_perms.clone(), ChildPermissionsArg { net: ChildUnaryPermissionArg::Granted, ..ChildPermissionsArg::none() } ) .is_err()); assert!(create_child_permissions( &parser, &mut main_perms.clone(), ChildPermissionsArg { net: ChildUnaryPermissionArg::GrantedList(svec!["foo", "bar", "baz"]), ..ChildPermissionsArg::none() } ) .is_err()); assert!(create_child_permissions( &parser, &mut main_perms, ChildPermissionsArg { ffi: ChildUnaryPermissionArg::GrantedList(svec!["foo"]), ..ChildPermissionsArg::none() } ) .is_err()); } #[test] fn test_create_child_permissions_with_prompt() { set_prompter(Box::new(TestPrompter)); let prompt_value = PERMISSION_PROMPT_STUB_VALUE_SETTER.lock(); let mut main_perms = Permissions::from_options( &TestPermissionDescriptorParser, &PermissionsOptions { prompt: true, ..Default::default() }, ) .unwrap(); prompt_value.set(true); let worker_perms = create_child_permissions( &TestPermissionDescriptorParser, &mut main_perms, ChildPermissionsArg { read: ChildUnaryPermissionArg::Granted, run: ChildUnaryPermissionArg::GrantedList(svec!["foo", "bar"]), ..ChildPermissionsArg::none() }, ) .unwrap(); assert_eq!(main_perms, worker_perms); assert_eq!( main_perms.run.granted_list, HashSet::from([ AllowRunDescriptor(PathBuf::from("/bar")), AllowRunDescriptor(PathBuf::from("/foo")), ]) ); } #[test] fn test_create_child_permissions_with_inherited_denied_list() { set_prompter(Box::new(TestPrompter)); let prompt_value = PERMISSION_PROMPT_STUB_VALUE_SETTER.lock(); let parser = TestPermissionDescriptorParser; let mut main_perms = Permissions::from_options( &parser, &PermissionsOptions { prompt: true, ..Default::default() }, ) .unwrap(); prompt_value.set(false); assert!(main_perms .write .check(&parser.parse_path_query("foo").unwrap().into_write(), None) .is_err()); let worker_perms = create_child_permissions( &TestPermissionDescriptorParser, &mut main_perms.clone(), ChildPermissionsArg::none(), ) .unwrap(); assert_eq!( worker_perms.write.flag_denied_list, main_perms.write.flag_denied_list ); } #[test] fn test_host_parse() { let hosts = &[ ("deno.land", Some(Host::Fqdn(fqdn!("deno.land")))), ("DENO.land", Some(Host::Fqdn(fqdn!("deno.land")))), ("deno.land.", Some(Host::Fqdn(fqdn!("deno.land")))), ( "1.1.1.1", Some(Host::Ip(IpAddr::V4(Ipv4Addr::new(1, 1, 1, 1)))), ), ( "::1", Some(Host::Ip(IpAddr::V6(Ipv6Addr::new(0, 0, 0, 0, 0, 0, 0, 1)))), ), ( "[::1]", Some(Host::Ip(IpAddr::V6(Ipv6Addr::new(0, 0, 0, 0, 0, 0, 0, 1)))), ), ("[::1", None), ("::1]", None), ("deno. land", None), ("1. 1.1.1", None), ("1.1.1.1.", None), ("1::1.", None), ("deno.land.", Some(Host::Fqdn(fqdn!("deno.land")))), (".deno.land", None), ( "::ffff:1.1.1.1", Some(Host::Ip(IpAddr::V6(Ipv6Addr::new( 0, 0, 0, 0, 0, 0xffff, 0x0101, 0x0101, )))), ), ]; for (host_str, expected) in hosts { assert_eq!(Host::parse(host_str).ok(), *expected, "{host_str}"); } } #[test] fn test_net_descriptor_parse() { let cases = &[ ( "deno.land", Some(NetDescriptor(Host::Fqdn(fqdn!("deno.land")), None)), ), ( "DENO.land", Some(NetDescriptor(Host::Fqdn(fqdn!("deno.land")), None)), ), ( "deno.land:8000", Some(NetDescriptor(Host::Fqdn(fqdn!("deno.land")), Some(8000))), ), ("deno.land:", None), ("deno.land:a", None), ("deno. land:a", None), ("deno.land.: a", None), ( "1.1.1.1", Some(NetDescriptor( Host::Ip(IpAddr::V4(Ipv4Addr::new(1, 1, 1, 1))), None, )), ), ("1.1.1.1.", None), ("1.1.1.1..", None), ( "1.1.1.1:8000", Some(NetDescriptor( Host::Ip(IpAddr::V4(Ipv4Addr::new(1, 1, 1, 1))), Some(8000), )), ), ("::", None), (":::80", None), ("::80", None), ( "[::]", Some(NetDescriptor( Host::Ip(IpAddr::V6(Ipv6Addr::new(0, 0, 0, 0, 0, 0, 0, 0))), None, )), ), ("[::1", None), ("::1]", None), ("::1]", None), ("[::1]:", None), ("[::1]:a", None), ( "[::1]:443", Some(NetDescriptor( Host::Ip(IpAddr::V6(Ipv6Addr::new(0, 0, 0, 0, 0, 0, 0, 1))), Some(443), )), ), ("", None), ("deno.land..", None), ]; for (input, expected) in cases { assert_eq!(NetDescriptor::parse(input).ok(), *expected, "'{input}'"); } } #[test] fn test_denies_run_name() { let cases = [ #[cfg(windows)] ("deno", "C:\\deno.exe", true), #[cfg(windows)] ("deno", "C:\\sub\\deno.cmd", true), #[cfg(windows)] ("deno", "C:\\sub\\DeNO.cmd", true), #[cfg(windows)] ("DEno", "C:\\sub\\deno.cmd", true), #[cfg(windows)] ("deno", "C:\\other\\sub\\deno.batch", true), #[cfg(windows)] ("deno", "C:\\other\\sub\\deno", true), #[cfg(windows)] ("denort", "C:\\other\\sub\\deno.exe", false), ("deno", "/home/test/deno", true), ("deno", "/home/test/denot", false), ]; for (name, cmd_path, denies) in cases { assert_eq!( denies_run_name(name, &PathBuf::from(cmd_path)), denies, "{} {}", name, cmd_path ); } } #[test] fn test_specifier_to_file_path() { run_success_test("file:///", "/"); run_success_test("file:///test", "/test"); run_success_test("file:///dir/test/test.txt", "/dir/test/test.txt"); run_success_test( "file:///dir/test%20test/test.txt", "/dir/test test/test.txt", ); assert_no_panic_specifier_to_file_path("file:/"); assert_no_panic_specifier_to_file_path("file://"); assert_no_panic_specifier_to_file_path("file://asdf/"); assert_no_panic_specifier_to_file_path("file://asdf/66666/a.ts"); fn run_success_test(specifier: &str, expected_path: &str) { let result = specifier_to_file_path(&ModuleSpecifier::parse(specifier).unwrap()) .unwrap(); assert_eq!(result, PathBuf::from(expected_path)); } fn assert_no_panic_specifier_to_file_path(specifier: &str) { let result = specifier_to_file_path(&ModuleSpecifier::parse(specifier).unwrap()); match result { Ok(_) => (), Err(err) => assert_eq!( err.to_string(), format!("Invalid file path.\n Specifier: {specifier}") ), } } } }