sprout: version 0.0.14

chore(deps): bump rustlang/rust from `141e9a7` to `7cba2ed` in the docker-updates group

Cargo.lock

@@ -14,6 +14,17 @@ version = "1.0.100"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "a23eb6b1614318a8071c9b2521f36b424b2c83db5eb3a0fead4a6c0809af6e61"
 
+[[package]]
+name = "async-trait"
+version = "0.1.89"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "9035ad2d096bed7955a320ee7e2230574d28fd3c3a0f186cbea1ff3c7eed5dbb"
+dependencies = [
+ "proc-macro2",
+ "quote",
+ "syn",
+]
+
 [[package]]
 name = "autocfg"
 version = "1.5.0"
@@ -32,6 +43,15 @@ version = "2.10.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "812e12b5285cc515a9c72a5c1d3b6d46a19dac5acfef5265968c166106e31dd3"
 
+[[package]]
+name = "block-buffer"
+version = "0.10.4"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "3078c7629b62d3f0439517fa394996acacc5cbc91c5a20d8c658e77abd503a71"
+dependencies = [
+ "generic-array",
+]
+
 [[package]]
 name = "bytemuck"
 version = "1.24.0"
@@ -44,12 +64,27 @@ version = "0.1.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "8f1fe948ff07f4bd06c30984e69f5b4899c516a3ef74f34df92a2df2ab535495"
 
+[[package]]
+name = "bytes"
+version = "1.10.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "d71b6127be86fdcfddb610f7182ac57211d4b18a3e9c82eb2d17662f2227ad6a"
+
 [[package]]
 name = "cfg-if"
 version = "1.0.4"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "9330f8b2ff13f34540b44e946ef35111825727b38d33286ef986142615121801"
 
+[[package]]
+name = "cpufeatures"
+version = "0.2.17"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "59ed5838eebb26a2bb2e58f6d5b5316989ae9d08bab10e0e6d103e656d1b0280"
+dependencies = [
+ "libc",
+]
+
 [[package]]
 name = "crc32fast"
 version = "1.5.0"
@@ -59,14 +94,35 @@ dependencies = [
  "cfg-if",
 ]
 
+[[package]]
+name = "crypto-common"
+version = "0.1.6"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "1bfb12502f3fc46cca1bb51ac28df9d618d813cdc3d2f25b9fe775a34af26bb3"
+dependencies = [
+ "generic-array",
+ "typenum",
+]
+
+[[package]]
+name = "digest"
+version = "0.10.7"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "9ed9a281f7bc9b7576e61468ba615a66a5c8cfdff42420a70aa82701a3b1e292"
+dependencies = [
+ "block-buffer",
+ "crypto-common",
+]
+
 [[package]]
 name = "edera-sprout"
-version = "0.0.11"
+version = "0.0.14"
 dependencies = [
  "anyhow",
  "image",
  "log",
  "serde",
+ "sha256",
  "toml",
  "uefi",
  "uefi-raw",
@@ -97,12 +153,28 @@ dependencies = [
  "miniz_oxide",
 ]
 
+[[package]]
+name = "generic-array"
+version = "0.14.9"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "4bb6743198531e02858aeaea5398fcc883e71851fcbcb5a2f773e2fb6cb1edf2"
+dependencies = [
+ "typenum",
+ "version_check",
+]
+
 [[package]]
 name = "hashbrown"
 version = "0.16.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "5419bdc4f6a9207fbeba6d11b604d481addf78ecd10c11ad51e76c2f6482748d"
 
+[[package]]
+name = "hex"
+version = "0.4.3"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "7f24254aa9a54b5c858eaee2f5bccdb46aaf0e486a595ed5fd8f86ba55232a70"
+
 [[package]]
 name = "image"
 version = "0.25.8"
@@ -126,6 +198,12 @@ dependencies = [
  "hashbrown",
 ]
 
+[[package]]
+name = "libc"
+version = "0.2.177"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "2874a2af47a2325c2001a6e6fad9b16a53b802102b528163885171cf92b15976"
+
 [[package]]
 name = "log"
 version = "0.4.28"
@@ -259,6 +337,29 @@ dependencies = [
  "serde_core",
 ]
 
+[[package]]
+name = "sha2"
+version = "0.10.9"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "a7507d819769d01a365ab707794a4084392c824f54a7a6a7862f8c3d0892b283"
+dependencies = [
+ "cfg-if",
+ "cpufeatures",
+ "digest",
+]
+
+[[package]]
+name = "sha256"
+version = "1.6.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "f880fc8562bdeb709793f00eb42a2ad0e672c4f883bbe59122b926eca935c8f6"
+dependencies = [
+ "async-trait",
+ "bytes",
+ "hex",
+ "sha2",
+]
+
 [[package]]
 name = "simd-adler32"
 version = "0.3.7"
@@ -314,6 +415,12 @@ version = "1.0.4"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "df8b2b54733674ad286d16267dcfc7a71ed5c776e4ac7aa3c3e2561f7c637bf2"
 
+[[package]]
+name = "typenum"
+version = "1.19.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "562d481066bde0658276a35467c4af00bdc6ee726305698a55b86e61d7ad82bb"
+
 [[package]]
 name = "ucs2"
 version = "0.3.3"
@@ -372,6 +479,12 @@ version = "1.0.20"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "462eeb75aeb73aea900253ce739c8e18a67423fadf006037cd3ff27e82748a06"
 
+[[package]]
+name = "version_check"
+version = "0.9.5"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "0b928f33d975fc6ad9f86c8f283853ad26bdd5b10b7f1542aa2fa15e2289105a"
+
 [[package]]
 name = "winnow"
 version = "0.7.13"

Cargo.toml

@@ -2,7 +2,7 @@
 name = "edera-sprout"
 description = "Modern UEFI bootloader"
 license = "Apache-2.0"
-version = "0.0.11"
+version = "0.0.14"
 homepage = "https://sprout.edera.dev"
 repository = "https://github.com/edera-dev/sprout"
 edition = "2024"
@@ -13,7 +13,7 @@ toml = "0.9.8"
 log = "0.4.28"
 
 [dependencies.image]
-version = "0.25.6"
+version = "0.25.8"
 default-features = false
 features = ["png"]
 optional = true
@@ -22,6 +22,10 @@ optional = true
 version = "1.0.228"
 features = ["derive"]
 
+[dependencies.sha256]
+version = "1.6.0"
+default-features = false
+
 [dependencies.uefi]
 version = "0.36.0"
 features = ["alloc", "logger"]
@@ -33,6 +37,11 @@ version = "0.12.0"
 default = ["splash"]
 splash = ["dep:image"]
 
+[profile.dev]
+# We have to compile for opt-level = 2 due to optimization passes
+# which don't handle the UEFI target properly.
+opt-level = 2
+
 [profile.release]
 lto = "thin"
 strip = "symbols"
@@ -46,6 +55,7 @@ debug = 1
 inherits = "dev"
 strip = "debuginfo"
 debug = 0
+opt-level = 2
 
 [patch.crates-io.simd-adler32]
 git = "https://github.com/edera-dev/sprout-patched-deps.git"

Dockerfile

@@ -2,7 +2,7 @@
 ARG RUST_PROFILE=release
 ARG RUST_TARGET_SUBDIR=release
 
-FROM --platform=$BUILDPLATFORM rustlang/rust:nightly-alpine@sha256:141e9a7f13f77237dd4d462364c3a1b21cb8a6791d8924c409573e77b788af5e AS build
+FROM --platform=$BUILDPLATFORM rustlang/rust:nightly-alpine@sha256:7cba2edabb6ba0e92cd806cd1e0acae99d50f63e5b9c9ad842766d13c896d68c AS build
 RUN apk --no-cache add musl-dev busybox-static
 ARG RUST_PROFILE
 RUN adduser -S -s /bin/sh build

README.md

@@ -18,6 +18,9 @@ existing UEFI bootloader or booted by the hardware directly.
 
 Sprout is licensed under Apache 2.0 and is open to modifications and contributions.
 
+**IMPORTANT WARNING**: Sprout does not support UEFI Secure Boot yet.
+See [this issue](https://github.com/edera-dev/sprout/issues/20) for updates.
+
 ## Background
 
 At [Edera] we make compute isolation technology for a wide variety of environments, often ones we do not fully control.
@@ -55,7 +58,7 @@ The boot menu mechanism is very rudimentary.
 ### Current
 
 - [x] Loadable driver support
-- [x] [Bootloader specification (BLS)](https://uapi-group.org/specifications/specs/boot_loader_specification/) support
+- [x] Basic [Bootloader specification (BLS)](https://uapi-group.org/specifications/specs/boot_loader_specification/) support
 - [x] Chainload support
 - [x] Linux boot support via EFI stub
 - [x] Windows boot support via chainload
@@ -65,15 +68,18 @@ The boot menu mechanism is very rudimentary.
 
 ### Roadmap
 
-- [ ] Full-featured boot menu
-- [ ] Secure Boot support: work in progress
-- [ ] UKI support: partial
-- [ ] multiboot2 support
-- [ ] Linux boot protocol (boot without EFI stub)
+- [ ] [Bootloader interface support](https://github.com/edera-dev/sprout/issues/21)
+- [ ] [BLS specification conformance](https://github.com/edera-dev/sprout/issues/2)
+- [ ] [Full-featured boot menu](https://github.com/edera-dev/sprout/issues/1)
+- [ ] [Secure Boot support](https://github.com/edera-dev/sprout/issues/20): work in progress
+- [ ] [UKI support](https://github.com/edera-dev/sprout/issues/6): partial
+- [ ] [multiboot2 support](https://github.com/edera-dev/sprout/issues/7)
+- [ ] [Linux boot protocol (boot without EFI stub)](https://github.com/edera-dev/sprout/issues/7)
 
 ## Concepts
 
 - drivers: loadable EFI modules that can add functionality to the EFI system.
+- autoconfiguration: code that can automatically generate sprout.toml based on the EFI environment.
 - actions: executable code with a configuration that can be run by various other sprout concepts.
 - generators: code that can generate boot entries based on inputs or runtime code.
 - extractors: code that can extract values from the EFI environment.
@@ -138,7 +144,7 @@ version = 1
 path = "\\sprout\\drivers\\ext4.efi"
 
 # global options.
-[defaults]
+[options]
 # enable autoconfiguration by detecting bls enabled
 # filesystems and generating boot entries for them.
 autoconfigure = true

docs/fedora-setup.md

@@ -40,7 +40,7 @@ version = 1
 path = "\\sprout\\drivers\\ext4.efi"
 
 # global options.
-[defaults]
+[options]
 # enable autoconfiguration by detecting bls enabled
 # filesystems and generating boot entries for them.
 autoconfigure = true

docs/windows-setup.md

@@ -33,15 +33,10 @@ Write the following file to `X:\sprout.toml`:
 # sprout configuration: version 1
 version = 1
 
-# add a boot entry for booting Windows
-# which will run the boot-windows action.
-[entries.windows]
-title = "Windows"
-actions = ["boot-windows"]
-
-# use the chainload action to boot the Windows bootloader.
-[actions.boot-windows]
-chainload.path = "\\EFI\\Microsoft\\Boot\\bootmgfw.efi"
+# global options.
+[options]
+# enable autoconfiguration to detect Windows.
+autoconfigure = true
 ```
 
 ## Step 4: Configure EFI Firmware to boot Sprout

hack/dev/configs/all.sprout.toml

@@ -1,7 +1,7 @@
 version = 1
 
-[defaults]
-entry = "kernel"
+[options]
+default-entry = "kernel"
 
 [extractors.boot.filesystem-device-match]
 has-item = "\\EFI\\BOOT\\kernel.efi"

hack/dev/configs/autoconfigure.sprout.toml

@@ -1,4 +1,4 @@
 version = 1
 
-[defaults]
+[options]
 autoconfigure = true

hack/dev/configs/edera.sprout.toml

@@ -1,7 +1,7 @@
 version = 1
 
-[defaults]
-entry = "edera"
+[options]
+default-entry = "edera"
 menu-timeout = 0
 
 [extractors.boot.filesystem-device-match]

hack/dev/configs/kernel.sprout.toml

@@ -1,7 +1,7 @@
 version = 1
 
-[defaults]
-entry = "kernel"
+[options]
+default-entry = "kernel"
 menu-timeout = 0
 
 [extractors.boot.filesystem-device-match]

hack/dev/configs/shell.sprout.toml

@@ -1,7 +1,7 @@
 version = 1
 
-[defaults]
-entry = "shell"
+[options]
+default-entry = "shell"
 menu-timeout = 0
 
 [extractors.boot.filesystem-device-match]

hack/dev/configs/xen.sprout.toml

@@ -1,7 +1,7 @@
 version = 1
 
-[defaults]
-entry = "xen"
+[options]
+default-entry = "xen"
 menu-timeout = 0
 
 [extractors.boot.filesystem-device-match]

src/actions/chainload.rs

@@ -3,7 +3,7 @@ use crate::utils;
 use crate::utils::media_loader::MediaLoaderHandle;
 use crate::utils::media_loader::constants::linux::LINUX_EFI_INITRD_MEDIA_GUID;
 use anyhow::{Context, Result, bail};
-use log::{error, info};
+use log::error;
 use serde::{Deserialize, Serialize};
 use std::rc::Rc;
 use uefi::CString16;
@@ -53,18 +53,15 @@ pub fn chainload(context: Rc<SproutContext>, configuration: &ChainloadConfigurat
     let mut loaded_image_protocol = uefi::boot::open_protocol_exclusive::<LoadedImage>(image)
         .context("unable to open loaded image protocol")?;
 
-    // Stamp and concatenate the options to pass to the image.
-    let options = configuration
-        .options
-        .iter()
-        .map(|item| context.stamp(item))
-        .collect::<Vec<_>>()
-        .join(" ");
+    // Stamp and combine the options to pass to the image.
+    let options =
+        utils::combine_options(configuration.options.iter().map(|item| context.stamp(item)));
 
     // Pass the options to the image, if any are provided.
     // The holder must drop at the end of this function to ensure the options are not leaked,
     // and the holder here ensures it outlives the if block here, as a pointer has to be
-    // passed to the image. This has been hand-validated to be safe.
+    // passed to the image.
+    // SAFETY: The options outlive the usage of the image, and the image is not used after this.
     let mut options_holder: Option<Box<CString16>> = None;
     if !options.is_empty() {
         let options = Box::new(
@@ -72,8 +69,6 @@ pub fn chainload(context: Rc<SproutContext>, configuration: &ChainloadConfigurat
                 .context("unable to convert chainloader options to CString16")?,
         );
 
-        info!("options: {}", options);
-
         if options.num_bytes() > u32::MAX as usize {
             bail!("chainloader options too large");
         }
@@ -88,10 +83,18 @@ pub fn chainload(context: Rc<SproutContext>, configuration: &ChainloadConfigurat
         options_holder = Some(options);
     }
 
+    // Stamp the initrd path, if provided.
+    let initrd = configuration
+        .linux_initrd
+        .as_ref()
+        .map(|item| context.stamp(item));
+    // The initrd can be None or empty, so we need to collapse that into a single Option.
+    let initrd = utils::empty_is_none(initrd);
+
+    // If an initrd is provided, register it with the EFI stack.
     let mut initrd_handle = None;
-    if let Some(ref linux_initrd) = configuration.linux_initrd {
-        let initrd_path = context.stamp(linux_initrd);
-        let content = utils::read_file_contents(context.root().loaded_image_path()?, &initrd_path)
+    if let Some(linux_initrd) = initrd {
+        let content = utils::read_file_contents(context.root().loaded_image_path()?, &linux_initrd)
             .context("unable to read linux initrd")?;
         let handle =
             MediaLoaderHandle::register(LINUX_EFI_INITRD_MEDIA_GUID, content.into_boxed_slice())
@@ -103,7 +106,7 @@ pub fn chainload(context: Rc<SproutContext>, configuration: &ChainloadConfigurat
     // This call might return, or it may pass full control to another image that will never return.
     // Capture the result to ensure we can return an error if the image fails to start, but only
     // after the optional initrd has been unregistered.
-    let result = uefi::boot::start_image(image).context("unable to start image");
+    let result = uefi::boot::start_image(image);
 
     // Unregister the initrd if it was registered.
     if let Some(initrd_handle) = initrd_handle

src/actions/edera.rs

@@ -40,7 +40,23 @@ pub struct EderaConfiguration {
 }
 
 /// Builds a configuration string for the Xen EFI stub using the specified `configuration`.
-fn build_xen_config(configuration: &EderaConfiguration) -> String {
+fn build_xen_config(context: Rc<SproutContext>, configuration: &EderaConfiguration) -> String {
+    // Stamp xen options and combine them.
+    let xen_options = utils::combine_options(
+        configuration
+            .xen_options
+            .iter()
+            .map(|item| context.stamp(item)),
+    );
+
+    // Stamp kernel options and combine them.
+    let kernel_options = utils::combine_options(
+        configuration
+            .kernel_options
+            .iter()
+            .map(|item| context.stamp(item)),
+    );
+
     // xen config file format is ini-like
     [
         // global section
@@ -50,10 +66,10 @@ fn build_xen_config(configuration: &EderaConfiguration) -> String {
         // configuration section for sprout
         "[sprout]".to_string(),
         // xen options
-        format!("options={}", configuration.xen_options.join(" ")),
+        format!("options={}", xen_options),
         // kernel options, stub replaces the kernel path
         // the kernel is provided via media loader
-        format!("kernel=stub {}", configuration.kernel_options.join(" ")),
+        format!("kernel=stub {}", kernel_options),
         // required or else the last line will be ignored
         "".to_string(),
     ]
@@ -94,7 +110,7 @@ fn register_media_loader_file(
 /// `configuration` and `context`. This action uses Edera-specific Xen EFI stub functionality.
 pub fn edera(context: Rc<SproutContext>, configuration: &EderaConfiguration) -> Result<()> {
     // Build the Xen config file content for this configuration.
-    let config = build_xen_config(configuration);
+    let config = build_xen_config(context.clone(), configuration);
 
     // Register the media loader for the config.
     let config = register_media_loader_text(XEN_EFI_CONFIG_MEDIA_GUID, "config", config)
@@ -113,7 +129,7 @@ pub fn edera(context: Rc<SproutContext>, configuration: &EderaConfiguration) ->
     let mut media_loaders = vec![config, kernel];
 
     // Register the initrd if it is provided.
-    if let Some(ref initrd) = configuration.initrd {
+    if let Some(initrd) = utils::empty_is_none(configuration.initrd.as_ref()) {
         let initrd =
             register_media_loader_file(&context, XEN_EFI_RAMDISK_MEDIA_GUID, "initrd", initrd)
                 .context("unable to register initrd media loader")?;
@@ -131,7 +147,7 @@ pub fn edera(context: Rc<SproutContext>, configuration: &EderaConfiguration) ->
     )
     .context("unable to chainload to xen");
 
-    // Unregister the media loaders on error.
+    // Unregister the media loaders when an error happens.
     for media_loader in media_loaders {
         if let Err(error) = media_loader.unregister() {
             error!("unable to unregister media loader: {}", error);

src/autoconfigure.rs

@@ -1,101 +1,19 @@
-use crate::actions::ActionDeclaration;
-use crate::actions::chainload::ChainloadConfiguration;
 use crate::config::RootConfiguration;
-use crate::entries::EntryDeclaration;
-use crate::generators::GeneratorDeclaration;
-use crate::generators::bls::BlsConfiguration;
 use anyhow::{Context, Result};
-use uefi::cstr16;
-use uefi::fs::{FileSystem, Path};
+use uefi::fs::FileSystem;
 use uefi::proto::device_path::DevicePath;
-use uefi::proto::device_path::text::{AllowShortcuts, DisplayOnly};
 use uefi::proto::media::fs::SimpleFileSystem;
 
-/// The name prefix of the BLS chainload action that will be used
-/// by the BLS generator to chainload entries.
-const BLS_CHAINLOAD_ACTION_PREFIX: &str = "bls-chainload-";
+/// bls: autodetect and configure BLS-enabled filesystems.
+pub mod bls;
 
-/// Scan the specified `filesystem` for BLS configurations.
-fn scan_for_bls(
-    filesystem: &mut FileSystem,
-    root: &DevicePath,
-    config: &mut RootConfiguration,
-) -> Result<bool> {
-    // BLS has a loader.conf file that can specify its own auto-entries mechanism.
-    let bls_loader_conf_path = Path::new(cstr16!("\\loader\\loader.conf"));
-    // BLS also has an entries directory that can specify explicit entries.
-    let bls_entries_path = Path::new(cstr16!("\\loader\\entries"));
+/// linux: autodetect and configure Linux kernels.
+/// This autoconfiguration module should not be activated
+/// on BLS-enabled filesystems as it may make duplicate entries.
+pub mod linux;
 
-    // Convert the device path root to a string we can use in the configuration.
-    let mut root = root
-        .to_string(DisplayOnly(false), AllowShortcuts(false))
-        .context("unable to convert device root to string")?
-        .to_string();
-    // Add a trailing slash to the root to ensure the path is valid.
-    root.push('/');
-
-    // Whether we have a loader.conf file.
-    let has_loader_conf = filesystem
-        .try_exists(bls_loader_conf_path)
-        .context("unable to check for BLS loader.conf file")?;
-
-    // Whether we have an entries directory.
-    // We actually iterate the entries to see if there are any.
-    let has_entries_dir = filesystem
-        .read_dir(bls_entries_path)
-        .ok()
-        .and_then(|mut iterator| iterator.next())
-        .map(|entry| entry.is_ok())
-        .unwrap_or(false);
-
-    // Detect if a BLS supported configuration is on this filesystem.
-    // We check both loader.conf and entries directory as only one of them is required.
-    if !(has_loader_conf || has_entries_dir) {
-        return Ok(false);
-    }
-
-    // Generate a unique name for the BLS chainload action.
-    let chainload_action_name = format!("{}{}", BLS_CHAINLOAD_ACTION_PREFIX, root);
-
-    // BLS is now detected, generate a configuration for it.
-    let generator = BlsConfiguration {
-        entry: EntryDeclaration {
-            title: "$title".to_string(),
-            actions: vec![chainload_action_name.clone()],
-            ..Default::default()
-        },
-        path: format!("{}\\loader", root),
-    };
-
-    // Generate a unique name for the BLS generator and insert the generator into the configuration.
-    config.generators.insert(
-        format!("autoconfigure-bls-{}", root),
-        GeneratorDeclaration {
-            bls: Some(generator),
-            ..Default::default()
-        },
-    );
-
-    // Generate a chainload configuration for BLS.
-    // BLS will provide these values to us.
-    let chainload = ChainloadConfiguration {
-        path: format!("{}\\$chainload", root),
-        options: vec!["$options".to_string()],
-        linux_initrd: Some(format!("{}\\$initrd", root)),
-    };
-
-    // Insert the chainload action into the configuration.
-    config.actions.insert(
-        chainload_action_name,
-        ActionDeclaration {
-            chainload: Some(chainload),
-            ..Default::default()
-        },
-    );
-
-    // We had a BLS supported configuration, so return true.
-    Ok(true)
-}
+/// windows: autodetect and configure Windows boot configurations.
+pub mod windows;
 
 /// Generate a [RootConfiguration] based on the environment.
 /// Intakes a `config` to use as the basis of the autoconfiguration.
@@ -121,8 +39,18 @@ pub fn autoconfigure(config: &mut RootConfiguration) -> Result<()> {
         let mut filesystem = FileSystem::new(filesystem);
 
         // Scan the filesystem for BLS supported configurations.
-        // If we find any, we will add a BLS generator to the configuration.
-        scan_for_bls(&mut filesystem, &root, config).context("unable to scan filesystem")?;
+        let bls_found = bls::scan(&mut filesystem, &root, config)
+            .context("unable to scan for bls configurations")?;
+
+        // If BLS was not found, scan for Linux configurations.
+        if !bls_found {
+            linux::scan(&mut filesystem, &root, config)
+                .context("unable to scan for linux configurations")?;
+        }
+
+        // Always look for Windows configurations.
+        windows::scan(&mut filesystem, &root, config)
+            .context("unable to scan for windows configurations")?;
     }
 
     Ok(())

src/autoconfigure/bls.rs

@@ -0,0 +1,101 @@
+use crate::actions::ActionDeclaration;
+use crate::actions::chainload::ChainloadConfiguration;
+use crate::config::RootConfiguration;
+use crate::entries::EntryDeclaration;
+use crate::generators::GeneratorDeclaration;
+use crate::generators::bls::BlsConfiguration;
+use crate::utils;
+use anyhow::{Context, Result};
+use uefi::cstr16;
+use uefi::fs::{FileSystem, Path};
+use uefi::proto::device_path::DevicePath;
+use uefi::proto::device_path::text::{AllowShortcuts, DisplayOnly};
+
+/// The name prefix of the BLS chainload action that will be used
+/// by the BLS generator to chainload entries.
+const BLS_CHAINLOAD_ACTION_PREFIX: &str = "bls-chainload-";
+
+/// Scan the specified `filesystem` for BLS configurations.
+pub fn scan(
+    filesystem: &mut FileSystem,
+    root: &DevicePath,
+    config: &mut RootConfiguration,
+) -> Result<bool> {
+    // BLS has a loader.conf file that can specify its own auto-entries mechanism.
+    let bls_loader_conf_path = Path::new(cstr16!("\\loader\\loader.conf"));
+    // BLS also has an entries directory that can specify explicit entries.
+    let bls_entries_path = Path::new(cstr16!("\\loader\\entries"));
+
+    // Convert the device path root to a string we can use in the configuration.
+    let mut root = root
+        .to_string(DisplayOnly(false), AllowShortcuts(false))
+        .context("unable to convert device root to string")?
+        .to_string();
+    // Add a trailing forward-slash to the root to ensure the device root is completed.
+    root.push('/');
+
+    // Generate a unique hash of the root path.
+    let root_unique_hash = utils::unique_hash(&root);
+
+    // Whether we have a loader.conf file.
+    let has_loader_conf = filesystem
+        .try_exists(bls_loader_conf_path)
+        .context("unable to check for BLS loader.conf file")?;
+
+    // Whether we have an entries directory.
+    // We actually iterate the entries to see if there are any.
+    let has_entries_dir = filesystem
+        .read_dir(bls_entries_path)
+        .ok()
+        .and_then(|mut iterator| iterator.next())
+        .map(|entry| entry.is_ok())
+        .unwrap_or(false);
+
+    // Detect if a BLS supported configuration is on this filesystem.
+    // We check both loader.conf and entries directory as only one of them is required.
+    if !(has_loader_conf || has_entries_dir) {
+        return Ok(false);
+    }
+
+    // Generate a unique name for the BLS chainload action.
+    let chainload_action_name = format!("{}{}", BLS_CHAINLOAD_ACTION_PREFIX, root_unique_hash,);
+
+    // BLS is now detected, generate a configuration for it.
+    let generator = BlsConfiguration {
+        entry: EntryDeclaration {
+            title: "$title".to_string(),
+            actions: vec![chainload_action_name.clone()],
+            ..Default::default()
+        },
+        path: format!("{}\\loader", root),
+    };
+
+    // Generate a unique name for the BLS generator and insert the generator into the configuration.
+    config.generators.insert(
+        format!("autoconfigure-bls-{}", root_unique_hash),
+        GeneratorDeclaration {
+            bls: Some(generator),
+            ..Default::default()
+        },
+    );
+
+    // Generate a chainload configuration for BLS.
+    // BLS will provide these values to us.
+    let chainload = ChainloadConfiguration {
+        path: format!("{}\\$chainload", root),
+        options: vec!["$options".to_string()],
+        linux_initrd: Some(format!("{}\\$initrd", root)),
+    };
+
+    // Insert the chainload action into the configuration.
+    config.actions.insert(
+        chainload_action_name,
+        ActionDeclaration {
+            chainload: Some(chainload),
+            ..Default::default()
+        },
+    );
+
+    // We had a BLS supported configuration, so return true.
+    Ok(true)
+}

src/autoconfigure/linux.rs

@@ -0,0 +1,219 @@
+use crate::actions::ActionDeclaration;
+use crate::actions::chainload::ChainloadConfiguration;
+use crate::config::RootConfiguration;
+use crate::entries::EntryDeclaration;
+use crate::generators::GeneratorDeclaration;
+use crate::generators::list::ListConfiguration;
+use crate::utils;
+use anyhow::{Context, Result};
+use std::collections::BTreeMap;
+use uefi::CString16;
+use uefi::fs::{FileSystem, Path};
+use uefi::proto::device_path::DevicePath;
+use uefi::proto::device_path::text::{AllowShortcuts, DisplayOnly};
+
+/// The name prefix of the Linux chainload action that will be used to boot Linux.
+const LINUX_CHAINLOAD_ACTION_PREFIX: &str = "linux-chainload-";
+
+/// The locations to scan for kernel pairs.
+/// We will check for symlinks and if this directory is a symlink, we will skip it.
+const SCAN_LOCATIONS: &[&str] = &["/boot", "/"];
+
+/// Prefixes of kernel files to scan for.
+const KERNEL_PREFIXES: &[&str] = &["vmlinuz"];
+
+/// Prefixes of initramfs files to match to.
+const INITRAMFS_PREFIXES: &[&str] = &["initramfs", "initrd", "initrd.img"];
+
+/// Pair of kernel and initramfs.
+/// This is what scanning a directory is meant to find.
+struct KernelPair {
+    /// The path to a kernel.
+    kernel: String,
+    /// The path to an initramfs, if any.
+    initramfs: Option<String>,
+}
+
+/// Scan the specified `filesystem` at `path` for [KernelPair] results.
+fn scan_directory(filesystem: &mut FileSystem, path: &str) -> Result<Vec<KernelPair>> {
+    // All the discovered kernel pairs.
+    let mut pairs = Vec::new();
+
+    // Construct a filesystem path from the path string.
+    let path = CString16::try_from(path).context("unable to convert path to CString16")?;
+    let path = Path::new(&path);
+    let path = path.to_path_buf();
+
+    // Check if the path exists and is a directory.
+    let exists = filesystem
+        .metadata(&path)
+        .ok()
+        .map(|metadata| metadata.is_directory())
+        .unwrap_or(false);
+
+    // If the path does not exist, return an empty list.
+    if !exists {
+        return Ok(pairs);
+    }
+
+    // Open a directory iterator on the path to scan.
+    // Ignore errors here as in some scenarios this might fail due to symlinks.
+    let Some(directory) = filesystem.read_dir(&path).ok() else {
+        return Ok(pairs);
+    };
+
+    // For each item in the directory, find a kernel.
+    for item in directory {
+        let item = item.context("unable to read directory item")?;
+
+        // Skip over any items that are not regular files.
+        if !item.is_regular_file() {
+            continue;
+        }
+
+        // Convert the name from a CString16 to a String.
+        let name = item.file_name().to_string();
+
+        // Find a kernel prefix that matches, if any.
+        let Some(prefix) = KERNEL_PREFIXES
+            .iter()
+            .find(|prefix| name == **prefix || name.starts_with(&format!("{}-", prefix)))
+        else {
+            // Skip over anything that doesn't match a kernel prefix.
+            continue;
+        };
+
+        // Acquire the suffix of the name, this will be used to match an initramfs.
+        let suffix = &name[prefix.len()..];
+
+        // Find a matching initramfs, if any.
+        let mut initramfs_prefix_iter = INITRAMFS_PREFIXES.iter();
+        let matched_initramfs_path = loop {
+            let Some(prefix) = initramfs_prefix_iter.next() else {
+                break None;
+            };
+            // Construct an initramfs path.
+            let initramfs = format!("{}{}", prefix, suffix);
+            let initramfs = CString16::try_from(initramfs.as_str())
+                .context("unable to convert initramfs name to CString16")?;
+            let mut initramfs_path = path.clone();
+            initramfs_path.push(Path::new(&initramfs));
+            // Check if the initramfs path exists, if it does, break out of the loop.
+            if filesystem
+                .try_exists(&initramfs_path)
+                .context("unable to check if initramfs path exists")?
+            {
+                break Some(initramfs_path);
+            }
+        };
+
+        // Construct a kernel path from the kernel name.
+        let mut kernel = path.clone();
+        kernel.push(Path::new(&item.file_name()));
+        let kernel = kernel.to_string();
+        let initramfs = matched_initramfs_path.map(|initramfs_path| initramfs_path.to_string());
+
+        // Produce a kernel pair.
+        let pair = KernelPair { kernel, initramfs };
+        pairs.push(pair);
+    }
+
+    Ok(pairs)
+}
+
+/// Scan the specified `filesystem` for Linux kernels and matching initramfs.
+pub fn scan(
+    filesystem: &mut FileSystem,
+    root: &DevicePath,
+    config: &mut RootConfiguration,
+) -> Result<bool> {
+    let mut pairs = Vec::new();
+
+    // Convert the device path root to a string we can use in the configuration.
+    let mut root = root
+        .to_string(DisplayOnly(false), AllowShortcuts(false))
+        .context("unable to convert device root to string")?
+        .to_string();
+    // Add a trailing forward-slash to the root to ensure the device root is completed.
+    root.push('/');
+
+    // Generate a unique hash of the root path.
+    let root_unique_hash = utils::unique_hash(&root);
+
+    // Scan all locations for kernel pairs, adding them to the list.
+    for location in SCAN_LOCATIONS {
+        let scanned = scan_directory(filesystem, location)
+            .with_context(|| format!("unable to scan directory {}", location))?;
+        pairs.extend(scanned);
+    }
+
+    // If no kernel pairs were found, return false.
+    if pairs.is_empty() {
+        return Ok(false);
+    }
+
+    // Generate a unique name for the linux chainload action.
+    let chainload_action_name = format!("{}{}", LINUX_CHAINLOAD_ACTION_PREFIX, root_unique_hash,);
+
+    // Kernel pairs are detected, generate a list configuration for it.
+    let generator = ListConfiguration {
+        entry: EntryDeclaration {
+            title: "Boot Linux $name".to_string(),
+            actions: vec![chainload_action_name.clone()],
+            ..Default::default()
+        },
+        values: pairs
+            .into_iter()
+            .map(|pair| {
+                BTreeMap::from_iter(vec![
+                    ("name".to_string(), pair.kernel.clone()),
+                    ("kernel".to_string(), format!("{}{}", root, pair.kernel)),
+                    (
+                        "initrd".to_string(),
+                        pair.initramfs
+                            .map(|initramfs| format!("{}{}", root, initramfs))
+                            .unwrap_or_default(),
+                    ),
+                ])
+            })
+            .collect(),
+    };
+
+    // Generate a unique name for the Linux generator and insert the generator into the configuration.
+    config.generators.insert(
+        format!("autoconfigure-linux-{}", root_unique_hash),
+        GeneratorDeclaration {
+            list: Some(generator),
+            ..Default::default()
+        },
+    );
+
+    // Insert a default value for the linux-options if it doesn't exist.
+    if !config.values.contains_key("linux-options") {
+        config
+            .values
+            .insert("linux-options".to_string(), "".to_string());
+    }
+
+    // Generate a chainload configuration for the list generator.
+    // The list will provide these values to us.
+    // Note that we don't need an extra \\ in the paths here.
+    // The root already contains a trailing slash.
+    let chainload = ChainloadConfiguration {
+        path: "$kernel".to_string(),
+        options: vec!["$linux-options".to_string()],
+        linux_initrd: Some("$initrd".to_string()),
+    };
+
+    // Insert the chainload action into the configuration.
+    config.actions.insert(
+        chainload_action_name,
+        ActionDeclaration {
+            chainload: Some(chainload),
+            ..Default::default()
+        },
+    );
+
+    // We had a Linux kernel, so return true to indicate something was found.
+    Ok(true)
+}

src/autoconfigure/windows.rs

@@ -0,0 +1,80 @@
+use crate::actions::ActionDeclaration;
+use crate::actions::chainload::ChainloadConfiguration;
+use crate::config::RootConfiguration;
+use crate::entries::EntryDeclaration;
+use crate::utils;
+use anyhow::{Context, Result};
+use uefi::CString16;
+use uefi::fs::{FileSystem, Path};
+use uefi::proto::device_path::DevicePath;
+use uefi::proto::device_path::text::{AllowShortcuts, DisplayOnly};
+
+/// The name prefix of the Windows chainload action that will be used to boot Windows.
+const WINDOWS_CHAINLOAD_ACTION_PREFIX: &str = "windows-chainload-";
+
+/// Windows boot manager path.
+const BOOTMGR_FW_PATH: &str = "\\EFI\\Microsoft\\Boot\\bootmgfw.efi";
+
+/// Scan the specified `filesystem` for Windows configurations.
+pub fn scan(
+    filesystem: &mut FileSystem,
+    root: &DevicePath,
+    config: &mut RootConfiguration,
+) -> Result<bool> {
+    // Convert the boot manager firmware path to a path.
+    let bootmgr_fw_path =
+        CString16::try_from(BOOTMGR_FW_PATH).context("unable to convert path to CString16")?;
+    let bootmgr_fw_path = Path::new(&bootmgr_fw_path);
+
+    // Check if the boot manager firmware path exists, if it doesn't, return false.
+    if !filesystem
+        .try_exists(bootmgr_fw_path)
+        .context("unable to check if bootmgr firmware path exists")?
+    {
+        return Ok(false);
+    }
+
+    // Convert the device path root to a string we can use in the configuration.
+    let mut root = root
+        .to_string(DisplayOnly(false), AllowShortcuts(false))
+        .context("unable to convert device root to string")?
+        .to_string();
+    // Add a trailing forward-slash to the root to ensure the device root is completed.
+    root.push('/');
+
+    // Generate a unique hash of the root path.
+    let root_unique_hash = utils::unique_hash(&root);
+
+    // Generate a unique name for the Windows chainload action.
+    let chainload_action_name = format!("{}{}", WINDOWS_CHAINLOAD_ACTION_PREFIX, root_unique_hash,);
+
+    // Generate an entry name for Windows.
+    let entry_name = format!("autoconfigure-windows-{}", root_unique_hash,);
+
+    // Create an entry for Windows and insert it into the configuration.
+    let entry = EntryDeclaration {
+        title: "Boot Windows".to_string(),
+        actions: vec![chainload_action_name.clone()],
+        values: Default::default(),
+    };
+    config.entries.insert(entry_name, entry);
+
+    // Generate a chainload configuration for Windows.
+    let chainload = ChainloadConfiguration {
+        path: format!("{}{}", root, bootmgr_fw_path),
+        options: vec![],
+        ..Default::default()
+    };
+
+    // Insert the chainload action into the configuration.
+    config.actions.insert(
+        chainload_action_name,
+        ActionDeclaration {
+            chainload: Some(chainload),
+            ..Default::default()
+        },
+    );
+
+    // We have a Windows boot entry, so return true to indicate something was found.
+    Ok(true)
+}

src/config.rs

@@ -27,7 +27,7 @@ pub struct RootConfiguration {
     pub version: u32,
     /// Default options for Sprout.
     #[serde(default)]
-    pub defaults: DefaultsConfiguration,
+    pub options: OptionsConfiguration,
     /// Values to be inserted into the root sprout context.
     #[serde(default)]
     pub values: BTreeMap<String, String>,
@@ -65,16 +65,18 @@ pub struct RootConfiguration {
     pub phases: PhasesConfiguration,
 }
 
-/// Default configuration for Sprout, used when the corresponding options are not specified.
+/// Options configuration for Sprout, used when the corresponding options are not specified.
 #[derive(Serialize, Deserialize, Debug, Default, Clone)]
-pub struct DefaultsConfiguration {
+pub struct OptionsConfiguration {
     /// The entry to boot without showing the boot menu.
     /// If not specified, a boot menu is shown.
-    pub entry: Option<String>,
+    #[serde(rename = "default-entry", default)]
+    pub default_entry: Option<String>,
     /// The timeout of the boot menu.
     #[serde(rename = "menu-timeout", default = "default_menu_timeout")]
     pub menu_timeout: u64,
     /// Enables autoconfiguration of Sprout based on the environment.
+    #[serde(default)]
     pub autoconfigure: bool,
 }
 

src/context.rs

@@ -118,7 +118,10 @@ impl SproutContext {
     pub fn all_values(&self) -> BTreeMap<String, String> {
         let mut values = BTreeMap::new();
         for key in self.all_keys() {
-            values.insert(key.clone(), self.get(key).cloned().unwrap_or_default());
+            // Acquire the value from the context. Since retrieving all the keys will give us
+            // a full view of the context, we can be sure that the key exists.
+            let value = self.get(&key).cloned().unwrap_or_default();
+            values.insert(key.clone(), value);
         }
         values
     }
@@ -165,13 +168,13 @@ impl SproutContext {
         let mut current_values = self.all_values();
 
         // To ensure that there is no possible infinite loop, we need to check
-        // the number of iterations. If it exceeds 100, we bail.
+        // the number of iterations. If it exceeds CONTEXT_FINALIZE_ITERATION_LIMIT, we bail.
         let mut iterations: usize = 0;
         loop {
             iterations += 1;
 
             if iterations > CONTEXT_FINALIZE_ITERATION_LIMIT {
-                bail!("infinite loop detected in context finalization");
+                bail!("maximum number of replacement iterations reached while finalizing context");
             }
 
             let mut did_change = false;

src/drivers.rs

@@ -33,8 +33,6 @@ fn load_driver(context: Rc<SproutContext>, driver: &DriverDeclaration) -> Result
     // Push the path of the driver from the root.
     full_path.push_str(&context.stamp(&driver.path));
 
-    info!("driver path: {}", full_path);
-
     // Convert the path to a device path.
     let device_path = utils::text_to_device_path(&full_path)?;
 

src/extractors/filesystem_device_match.rs

@@ -10,16 +10,17 @@ use uefi::proto::device_path::DevicePath;
 use uefi::proto::media::file::{File, FileSystemVolumeLabel};
 use uefi::proto::media::fs::SimpleFileSystem;
 use uefi::proto::media::partition::PartitionInfo;
-use uefi::{CString16, Guid};
+use uefi::{CString16, Guid, Handle};
 use uefi_raw::Status;
 
 /// The filesystem device match extractor.
 /// This extractor finds a filesystem using some search criteria and returns
 /// the device root path that can concatenated with subpaths to access files
 /// on a particular filesystem.
+/// The fallback value can be used to provide a value if no match is found.
 ///
-/// This function only requires one of the criteria to match.
-/// The fallback value can be used to provide a value if none is found.
+/// This extractor requires all the criteria to match. If no criteria is provided,
+/// an error is returned.
 #[derive(Serialize, Deserialize, Debug, Default, Clone)]
 pub struct FilesystemDeviceMatchExtractor {
     /// Matches a filesystem that has the specified label.
@@ -40,6 +41,48 @@ pub struct FilesystemDeviceMatchExtractor {
     pub fallback: Option<String>,
 }
 
+/// Represents the partition UUIDs for a filesystem.
+struct PartitionIds {
+    /// The UUID of the partition.
+    partition_uuid: Guid,
+    /// The type UUID of the partition.
+    type_uuid: Guid,
+}
+
+/// Fetches the partition UUIDs for the specified filesystem handle.
+fn fetch_partition_uuids(handle: Handle) -> Result<Option<PartitionIds>> {
+    // Open the partition info protocol for this handle.
+    let partition_info = uefi::boot::open_protocol_exclusive::<PartitionInfo>(handle);
+
+    match partition_info {
+        Ok(partition_info) => {
+            // GPT partitions have a unique partition GUID.
+            // MBR does not.
+            if let Some(gpt) = partition_info.gpt_partition_entry() {
+                let uuid = gpt.unique_partition_guid;
+                let type_uuid = gpt.partition_type_guid;
+                Ok(Some(PartitionIds {
+                    partition_uuid: uuid,
+                    type_uuid: type_uuid.0,
+                }))
+            } else {
+                Ok(None)
+            }
+        }
+
+        Err(error) => {
+            // If the filesystem does not have a partition, that is okay.
+            if error.status() == Status::NOT_FOUND || error.status() == Status::UNSUPPORTED {
+                Ok(None)
+            } else {
+                // We should still handle other errors gracefully.
+                Err(error).context("unable to open filesystem partition info")?;
+                unreachable!()
+            }
+        }
+    }
+}
+
 /// Extract a filesystem device path using the specified `context` and `extractor` configuration.
 pub fn extract(
     context: Rc<SproutContext>,
@@ -56,56 +99,28 @@ pub fn extract(
 
         // Extract the partition info for this filesystem.
         // There is no guarantee that the filesystem has a partition.
-        let partition_info = {
-            // Open the partition info protocol for this handle.
-            let partition_info = uefi::boot::open_protocol_exclusive::<PartitionInfo>(handle);
-
-            match partition_info {
-                Ok(partition_info) => {
-                    // GPT partitions have a unique partition GUID.
-                    // MBR does not.
-                    if let Some(gpt) = partition_info.gpt_partition_entry() {
-                        let uuid = gpt.unique_partition_guid;
-                        let type_uuid = gpt.partition_type_guid;
-                        Some((uuid, type_uuid.0))
-                    } else {
-                        None
-                    }
-                }
-
-                Err(error) => {
-                    // If the filesystem does not have a partition, that is okay.
-                    if error.status() == Status::NOT_FOUND || error.status() == Status::UNSUPPORTED
-                    {
-                        None
-                    } else {
-                        // We should still handle other errors gracefully.
-                        Err(error).context("unable to open filesystem partition info")?;
-                        unreachable!()
-                    }
-                }
-            }
-        };
+        let partition_info =
+            fetch_partition_uuids(handle).context("unable to fetch partition info")?;
 
         // Check if the partition info matches partition uuid criteria.
-        if let Some((partition_uuid, _partition_type_guid)) = partition_info
+        if let Some(ref partition_info) = partition_info
             && let Some(ref has_partition_uuid) = extractor.has_partition_uuid
         {
             let parsed_uuid = Guid::from_str(has_partition_uuid)
                 .map_err(|e| anyhow!("unable to parse has-partition-uuid: {}", e))?;
-            if partition_uuid != parsed_uuid {
+            if partition_info.partition_uuid != parsed_uuid {
                 continue;
             }
             has_match = true;
         }
 
         // Check if the partition info matches partition type uuid criteria.
-        if let Some((_partition_uuid, partition_type_guid)) = partition_info
+        if let Some(ref partition_info) = partition_info
             && let Some(ref has_partition_type_uuid) = extractor.has_partition_type_uuid
         {
             let parsed_uuid = Guid::from_str(has_partition_type_uuid)
                 .map_err(|e| anyhow!("unable to parse has-partition-type-uuid: {}", e))?;
-            if partition_type_guid != parsed_uuid {
+            if partition_info.type_uuid != parsed_uuid {
                 continue;
             }
             has_match = true;

src/generators.rs

@@ -1,6 +1,7 @@
 use crate::context::SproutContext;
 use crate::entries::BootableEntry;
 use crate::generators::bls::BlsConfiguration;
+use crate::generators::list::ListConfiguration;
 use crate::generators::matrix::MatrixConfiguration;
 use anyhow::Result;
 use anyhow::bail;
@@ -8,6 +9,7 @@ use serde::{Deserialize, Serialize};
 use std::rc::Rc;
 
 pub mod bls;
+pub mod list;
 pub mod matrix;
 
 /// Declares a generator configuration.
@@ -32,6 +34,9 @@ pub struct GeneratorDeclaration {
     /// It will generate a sprout entry for every supported BLS entry.
     #[serde(default)]
     pub bls: Option<BlsConfiguration>,
+    /// List generator configuration.
+    /// Allows you to specify a list of values to generate an entry from.
+    pub list: Option<ListConfiguration>,
 }
 
 /// Runs the generator specified by the `generator` option.
@@ -45,6 +50,8 @@ pub fn generate(
         matrix::generate(context, matrix)
     } else if let Some(bls) = &generator.bls {
         bls::generate(context, bls)
+    } else if let Some(list) = &generator.list {
+        list::generate(context, list)
     } else {
         bail!("unknown generator configuration");
     }

src/generators/bls/entry.rs

@@ -41,7 +41,8 @@ impl FromStr for BlsEntry {
                 continue;
             }
 
-            // Split the line once by whitespace.
+            // Split the line once by whitespace. This technically includes newlines but since
+            // the lines iterator is used, there should never be a newline here.
             let Some((key, value)) = line.split_once(char::is_whitespace) else {
                 continue;
             };

src/generators/list.rs

@@ -0,0 +1,52 @@
+use crate::context::SproutContext;
+use crate::entries::{BootableEntry, EntryDeclaration};
+use anyhow::Result;
+use serde::{Deserialize, Serialize};
+use std::collections::BTreeMap;
+use std::rc::Rc;
+
+/// List generator configuration.
+/// The list generator produces multiple entries based
+/// on a set of input maps.
+#[derive(Serialize, Deserialize, Debug, Default, Clone)]
+pub struct ListConfiguration {
+    /// The template entry to use for each generated entry.
+    #[serde(default)]
+    pub entry: EntryDeclaration,
+    /// The values to use as the input for the matrix.
+    #[serde(default)]
+    pub values: Vec<BTreeMap<String, String>>,
+}
+
+/// Generates a set of entries using the specified `matrix` configuration in the `context`.
+pub fn generate(
+    context: Rc<SproutContext>,
+    list: &ListConfiguration,
+) -> Result<Vec<BootableEntry>> {
+    let mut entries = Vec::new();
+
+    // For each combination, create a new context and entry.
+    for (index, combination) in list.values.iter().enumerate() {
+        let mut context = context.fork();
+        // Insert the combination into the context.
+        context.insert(combination);
+        let context = context.freeze();
+
+        // Stamp the entry title and actions from the template.
+        let mut entry = list.entry.clone();
+        entry.actions = entry
+            .actions
+            .into_iter()
+            .map(|action| context.stamp(action))
+            .collect();
+        // Push the entry into the list with the new context.
+        entries.push(BootableEntry::new(
+            index.to_string(),
+            entry.title.clone(),
+            context,
+            entry,
+        ));
+    }
+
+    Ok(entries)
+}

src/generators/matrix.rs

@@ -1,5 +1,6 @@
 use crate::context::SproutContext;
 use crate::entries::{BootableEntry, EntryDeclaration};
+use crate::generators::list;
 use anyhow::Result;
 use serde::{Deserialize, Serialize};
 use std::collections::BTreeMap;
@@ -57,30 +58,12 @@ pub fn generate(
 ) -> Result<Vec<BootableEntry>> {
     // Produce all the combinations of the input values.
     let combinations = build_matrix(&matrix.values);
-    let mut entries = Vec::new();
-
-    // For each combination, create a new context and entry.
-    for (index, combination) in combinations.into_iter().enumerate() {
-        let mut context = context.fork();
-        // Insert the combination into the context.
-        context.insert(&combination);
-        let context = context.freeze();
-
-        // Stamp the entry title and actions from the template.
-        let mut entry = matrix.entry.clone();
-        entry.actions = entry
-            .actions
-            .into_iter()
-            .map(|action| context.stamp(action))
-            .collect();
-        // Push the entry into the list with the new context.
-        entries.push(BootableEntry::new(
-            index.to_string(),
-            entry.title.clone(),
-            context,
-            entry,
-        ));
-    }
-
-    Ok(entries)
+    // Use the list generator to generate entries for each combination.
+    list::generate(
+        context,
+        &list::ListConfiguration {
+            entry: matrix.entry.clone(),
+            values: combinations,
+        },
+    )
 }

src/main.rs

@@ -8,12 +8,11 @@ use crate::options::SproutOptions;
 use crate::options::parser::OptionsRepresentable;
 use crate::phases::phase;
 use anyhow::{Context, Result, bail};
-use log::info;
+use log::{error, info};
 use std::collections::BTreeMap;
 use std::ops::Deref;
 use std::time::Duration;
 use uefi::proto::device_path::LoadedImageDevicePath;
-use uefi::proto::device_path::text::{AllowShortcuts, DisplayOnly};
 
 /// actions: Code that can be configured and executed by Sprout.
 pub mod actions;
@@ -54,13 +53,8 @@ pub mod options;
 /// utils: Utility functions that are used by other parts of Sprout.
 pub mod utils;
 
-/// The main entrypoint of sprout.
-/// It is possible this function will not return if actions that are executed
-/// exit boot services or do not return control to sprout.
-fn main() -> Result<()> {
-    // Initialize the basic UEFI environment.
-    setup::init()?;
-
+/// Run Sprout, returning an error if one occurs.
+fn run() -> Result<()> {
     // Parse the options to the sprout executable.
     let options = SproutOptions::parse().context("unable to parse options")?;
 
@@ -83,10 +77,6 @@ fn main() -> Result<()> {
         >(uefi::boot::image_handle())
         .context("unable to get loaded image device path")?;
         let loaded_image_path = current_image_device_path_protocol.deref().to_boxed();
-        info!(
-            "loaded image path: {}",
-            loaded_image_path.to_string(DisplayOnly(false), AllowShortcuts(false))?
-        );
         RootContext::new(loaded_image_path, options)
     };
 
@@ -110,7 +100,7 @@ fn main() -> Result<()> {
 
     // If --autoconfigure is specified or the loaded configuration has autoconfigure enabled,
     // trigger the autoconfiguration mechanism.
-    if context.root().options().autoconfigure || config.defaults.autoconfigure {
+    if context.root().options().autoconfigure || config.options.autoconfigure {
         autoconfigure::autoconfigure(&mut config).context("unable to autoconfigure")?;
     }
 
@@ -128,6 +118,9 @@ fn main() -> Result<()> {
 
         // Extend the root context with the autoconfigured actions.
         root.actions_mut().extend(config.actions);
+
+        // Insert any modified root values.
+        context.insert(&config.values);
     }
 
     // Refreeze the context to ensure that further operations can share the context.
@@ -192,7 +185,7 @@ fn main() -> Result<()> {
         entry.restamp_title();
 
         // Mark this entry as the default entry if it is declared as such.
-        if let Some(ref default_entry) = config.defaults.entry {
+        if let Some(ref default_entry) = config.options.default_entry {
             // If the entry matches the default entry, mark it as the default entry.
             if entry.is_match(default_entry) {
                 entry.mark_default();
@@ -221,7 +214,7 @@ fn main() -> Result<()> {
         .root()
         .options()
         .menu_timeout
-        .unwrap_or(config.defaults.menu_timeout);
+        .unwrap_or(config.options.menu_timeout);
     let menu_timeout = Duration::from_secs(menu_timeout);
 
     // Use the forced boot entry if possible, otherwise pick the first entry using a boot menu.
@@ -240,6 +233,28 @@ fn main() -> Result<()> {
             .context(format!("unable to execute action '{}'", action))?;
     }
 
+    Ok(())
+}
+
+/// The main entrypoint of sprout.
+/// It is possible this function will not return if actions that are executed
+/// exit boot services or do not return control to sprout.
+fn main() -> Result<()> {
+    // Initialize the basic UEFI environment.
+    setup::init()?;
+
+    // Run Sprout, then handle the error.
+    let result = run();
+    if let Err(ref error) = result {
+        // Print an error trace.
+        error!("sprout encountered an error");
+        for (index, stack) in error.chain().enumerate() {
+            error!("[{}]: {}", index, stack);
+        }
+        // Sleep for 10 seconds to allow the user to read the error.
+        uefi::boot::stall(Duration::from_secs(10));
+    }
+
     // Sprout doesn't necessarily guarantee anything was booted.
     // If we reach here, we will exit back to whoever called us.
     Ok(())

src/menu.rs

@@ -40,15 +40,30 @@ fn read(input: &mut Input, timeout: &Duration) -> Result<MenuOperation> {
         uefi::boot::create_event_ex(EventType::TIMER, Tpl::CALLBACK, None, None, None)
             .context("unable to create timer event")?
     };
+
     // The timeout is in increments of 100 nanoseconds.
-    let trigger = TimerTrigger::Relative(timeout.as_nanos() as u64 / 100);
+    let timeout_hundred_nanos = timeout.as_nanos() / 100;
+
+    // Check if the timeout is too large to fit into an u64.
+    if timeout_hundred_nanos > u64::MAX as u128 {
+        bail!("timeout duration overflow");
+    }
+
+    // Set a timer to trigger after the specified duration.
+    let trigger = TimerTrigger::Relative(timeout_hundred_nanos as u64);
     uefi::boot::set_timer(&timer_event, trigger).context("unable to set timeout timer")?;
 
-    let mut events = [timer_event, key_event];
+    let mut events = vec![timer_event, key_event];
     let event = uefi::boot::wait_for_event(&mut events)
         .discard_errdata()
         .context("unable to wait for event")?;
 
+    // Close the timer event that we acquired.
+    // We don't need to close the key event because it is owned globally.
+    if let Some(timer_event) = events.into_iter().next() {
+        uefi::boot::close_event(timer_event).context("unable to close timer event")?;
+    }
+
     // The first event is the timer event.
     // If it has triggered, the user did not select a numbered entry.
     if event == 0 {
@@ -121,7 +136,7 @@ fn select_with_input<'a>(
             // Entry was selected by number. If the number is invalid, we continue.
             MenuOperation::Number(index) => {
                 let Some(entry) = entries.get(index) else {
-                    println!("invalid entry number");
+                    info!("invalid entry number");
                     continue;
                 };
                 return Ok(entry);

src/options/parser.rs

@@ -1,4 +1,5 @@
 use anyhow::{Context, Result, bail};
+use log::info;
 use std::collections::BTreeMap;
 
 /// The type of option. This disambiguates different behavior
@@ -113,9 +114,9 @@ pub trait OptionsRepresentable {
             // Handle the --help flag case.
             if description.form == OptionForm::Help {
                 // Generic configured options output.
-                println!("Configured Options:");
+                info!("Configured Options:");
                 for (name, description) in &configured {
-                    println!(
+                    info!(
                         "  --{}{}: {}",
                         name,
                         if description.form == OptionForm::Value {

src/utils.rs

@@ -161,3 +161,23 @@ pub fn read_file_contents(default_root_path: &DevicePath, input: &str) -> Result
     let content = fs.read(Path::new(&path));
     content.context("unable to read file contents")
 }
+
+/// Filter a string-like Option `input` such that an empty string is [None].
+pub fn empty_is_none<T: AsRef<str>>(input: Option<T>) -> Option<T> {
+    input.filter(|input| !input.as_ref().is_empty())
+}
+
+/// Combine a sequence of strings into a single string, separated by spaces, ignoring empty strings.
+pub fn combine_options<T: AsRef<str>>(options: impl Iterator<Item = T>) -> String {
+    options
+        .flat_map(|item| empty_is_none(Some(item)))
+        .map(|item| item.as_ref().to_string())
+        .collect::<Vec<_>>()
+        .join(" ")
+}
+
+/// Produce a unique hash for the input.
+/// This uses SHA-256, which is unique enough but relatively short.
+pub fn unique_hash(input: &str) -> String {
+    sha256::digest(input.as_bytes())
+}

src/utils/media_loader.rs

@@ -51,6 +51,11 @@ impl MediaLoaderHandle {
     /// The next call will pass a buffer of the right size, and we should copy
     /// data into that buffer, checking whether it is safe to copy based on
     /// the buffer size.
+    ///
+    /// SAFETY: `this.address` and `this.length` are set by leaking a Box<[u8]>, so we can
+    /// be sure their pointers are valid when this is called. The caller must call this function
+    /// while inside UEFI boot services to ensure pointers are valid. Copying to `buffer` is
+    /// assumed valid because the caller must ensure `buffer` is valid by function contract.
     unsafe extern "efiapi" fn load_file(
         this: *mut MediaLoaderProtocol,
         file_path: *const DevicePathProtocol,
@@ -155,7 +160,7 @@ impl MediaLoaderHandle {
 
         // Install a protocol interface for the device path.
         // This ensures it can be located by other EFI programs.
-        let mut handle = unsafe {
+        let primary_handle = unsafe {
             uefi::boot::install_protocol_interface(
                 None,
                 &DevicePathProtocol::GUID,
@@ -178,25 +183,54 @@ impl MediaLoaderHandle {
         let protocol = Box::leak(protocol);
 
         // Install a protocol interface for the load file protocol for the media loader protocol.
-        handle = unsafe {
+        let secondary_handle = unsafe {
             uefi::boot::install_protocol_interface(
-                Some(handle),
+                Some(primary_handle),
                 &LoadFile2Protocol::GUID,
-                protocol as *mut _ as *mut c_void,
+                // The UEFI API expects an opaque pointer here.
+                protocol as *mut MediaLoaderProtocol as *mut c_void,
             )
-        }
-        .context("unable to install media loader load file handle")?;
+        };
 
-        // Check if the media loader is registered.
-        // If it is not, we can't continue safely because something went wrong.
-        if !Self::already_registered(guid)? {
-            bail!("media loader not registered when expected to be registered");
+        // If installing the second protocol interface failed, we need to clean up after ourselves.
+        if secondary_handle.is_err() {
+            // Uninstall the protocol interface for the device path protocol.
+            // SAFETY: If we have reached this point, we know that the protocol is registered.
+            // If this fails, we have no choice but to leak memory. The error will be shown
+            // to the user, so at least they can see it. In most cases, catching this error
+            // will exit, so leaking is safe.
+            unsafe {
+                uefi::boot::uninstall_protocol_interface(
+                    primary_handle,
+                    &DevicePathProtocol::GUID,
+                    path.as_ffi_ptr() as *mut c_void,
+                )
+                .context(
+                    "unable to uninstall media loader device path handle, this will leak memory",
+                )?;
+            }
+
+            // SAFETY: We know that the protocol is leaked, so we can safely take a reference to it.
+            let protocol = unsafe { Box::from_raw(protocol) };
+            // SAFETY: We know that the data is leaked, so we can safely take a reference to it.
+            let data = unsafe { Box::from_raw(data) };
+            // SAFETY: We know that the path is leaked, so we can safely take a reference to it.
+            let path = unsafe { Box::from_raw(path) };
+
+            // Drop all the allocations explicitly to clarify the lifetime.
+            drop(protocol);
+            drop(data);
+            drop(path);
         }
 
+        // If installing the second protocol interface failed, this will return the error.
+        // We should have already cleaned up after ourselves, so this is safe.
+        secondary_handle.context("unable to install media loader load file handle")?;
+
         // Return a handle to the media loader.
         Ok(Self {
             guid,
-            handle,
+            handle: primary_handle,
             protocol,
             path,
         })