Merge pull request #40 from edera-dev/chore/release-v0.0.26

chore(release): sprout: version 0.0.26
2025-12-19 22:10:17 +00:00 · 2025-11-17 10:18:11 -08:00 · 2025-11-17 10:14:58 -08:00 · 2025-11-17 10:01:17 -08:00 · 2025-11-15 21:25:59 -08:00 · 2025-11-15 20:36:31 -08:00
92 changed files with 1081 additions and 798 deletions
--- a/.github/workflows/ci-actions.yml
+++ b/.github/workflows/ci-actions.yml
@@ -35,7 +35,7 @@ jobs:
        persist-credentials: false
    - name: setup uv
-      uses: astral-sh/setup-uv@2ddd2b9cb38ad8efd50337e8ab201519a34c9f24 # v7.1.1
+      uses: astral-sh/setup-uv@85856786d1ce8acfbcc2f13a5f3fbd6b938f9f41 # v7.1.2
    - name: zizmor
      run: uvx zizmor --pedantic --format sarif . > results.sarif
@@ -43,7 +43,7 @@ jobs:
        GH_TOKEN: "${{ secrets.GITHUB_TOKEN }}"
    - name: upload
-      uses: github/codeql-action/upload-sarif@4e94bd11f71e507f7f87df81788dff88d1dacbfb # v4.31.0
+      uses: github/codeql-action/upload-sarif@0499de31b99561a6d14a36a5f662c2a54f91beee # v4.31.2
      with:
        sarif_file: results.sarif
        category: zizmor
--- a/.github/workflows/codeql.yml
+++ b/.github/workflows/codeql.yml
@@ -47,13 +47,13 @@ jobs:
        persist-credentials: false
    - name: initialize codeql
-      uses: github/codeql-action/init@4e94bd11f71e507f7f87df81788dff88d1dacbfb # v4.31.0
+      uses: github/codeql-action/init@0499de31b99561a6d14a36a5f662c2a54f91beee # v4.31.2
      with:
        languages: ${{ matrix.language }}
        build-mode: ${{ matrix.build-mode }}
        config-file: ./.github/codeql/codeql-config.yaml
    - name: perform codeql analysis
-      uses: github/codeql-action/analyze@4e94bd11f71e507f7f87df81788dff88d1dacbfb # v4.31.0
+      uses: github/codeql-action/analyze@0499de31b99561a6d14a36a5f662c2a54f91beee # v4.31.2
      with:
        category: "/language:${{matrix.language}}"
--- a/Cargo.lock
+++ b/Cargo.lock
@@ -46,9 +46,9 @@ dependencies = [
 [[package]]
 name = "crypto-common"
-version = "0.1.6"
+version = "0.1.7"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "1bfb12502f3fc46cca1bb51ac28df9d618d813cdc3d2f25b9fe775a34af26bb3"
+checksum = "78c8292055d1c1df0cce5d180393dc8cce0abec0a7102adb6c7b1eef6016d60a"
 dependencies = [
 "generic-array",
 "typenum",
@@ -65,34 +65,51 @@ dependencies = [
 ]
 [[package]]
-name = "edera-sprout"
+name = "edera-sprout-boot"
-version = "0.0.22"
+version = "0.0.26"
 dependencies = [
 "anyhow",
- "bitflags",
+ "edera-sprout-build",
 "edera-sprout-config",
 "edera-sprout-eficore",
 "hex",
 "jaarg",
 "log",
 "sha2",
 "shlex",
 "spin",
 "toml",
 "uefi",
 "uefi-raw",
 ]
 [[package]]
 name = "edera-sprout-build"
 version = "0.0.26"
 [[package]]
 name = "edera-sprout-config"
-version = "0.0.22"
+version = "0.0.26"
 dependencies = [
 "serde",
 ]
 [[package]]
 name = "edera-sprout-eficore"
 version = "0.0.26"
 dependencies = [
 "anyhow",
 "bitflags",
 "log",
 "shlex",
 "spin",
 "uefi",
 "uefi-raw",
 ]
 [[package]]
 name = "generic-array"
-version = "0.14.9"
+version = "0.14.7"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "4bb6743198531e02858aeaea5398fcc883e71851fcbcb5a2f773e2fb6cb1edf2"
+checksum = "85649ca51fd72272d7821adaf274ad91c288277713d9c18820d8499a7ff69e9a"
 dependencies = [
 "typenum",
 "version_check",
@@ -104,6 +121,12 @@ version = "0.4.3"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "7f24254aa9a54b5c858eaee2f5bccdb46aaf0e486a595ed5fd8f86ba55232a70"
 [[package]]
 name = "jaarg"
 version = "0.2.1"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "8b216e5405f7e759ee0d16007f9d5c3346f9803a2e86cf01fc8df8baac43d0fa"
 [[package]]
 name = "libc"
 version = "0.2.177"
@@ -156,9 +179,9 @@ dependencies = [
 [[package]]
 name = "quote"
-version = "1.0.41"
+version = "1.0.42"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "ce25767e7b499d1b604768e7cde645d14cc8584231ea6b295e9c9eb22c02e1d1"
+checksum = "a338cc41d27e6cc6dce6cefc13a0729dfbb81c262b1f519331575dd80ef3067f"
 dependencies = [
 "proc-macro2",
 ]
@@ -236,9 +259,9 @@ dependencies = [
 [[package]]
 name = "syn"
-version = "2.0.108"
+version = "2.0.110"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "da58917d35242480a05c2897064da0a80589a2a0476c9a3f2fdc83b53502e917"
+checksum = "a99801b5bd34ede4cf3fc688c5919368fea4e4814a4664359503e6015b280aea"
 dependencies = [
 "proc-macro2",
 "quote",
@@ -293,9 +316,9 @@ dependencies = [
 [[package]]
 name = "uefi"
-version = "0.36.0"
+version = "0.36.1"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "f123e69767fc287c44d70ee19af3b39d1bfb735dbaff5090e95b5b13cd656d16"
+checksum = "71fe9058b73ee2b6559524af9e33199c13b2485ddbf3ad1181b68051cdc50c17"
 dependencies = [
 "bitflags",
 "cfg-if",
@@ -320,9 +343,9 @@ dependencies = [
 [[package]]
 name = "uefi-raw"
-version = "0.12.0"
+version = "0.13.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "8aff2f4f2b556a36a201d335a1e0a57754967a96857b1f47a52d5a23825cac84"
+checksum = "7f64fe59e11af447d12fd60a403c74106eb104309f34b4c6dbce6e927d97da9d"
 dependencies = [
 "bitflags",
 "uguid",
--- a/Cargo.toml
+++ b/Cargo.toml
@@ -1,13 +1,15 @@
 [workspace]
 members = [
  "crates/boot",
  "crates/build",
  "crates/config",
-  "crates/sprout",
+  "crates/eficore",
 ]
 resolver = "3"
 [workspace.package]
 license = "Apache-2.0"
-version = "0.0.22"
+version = "0.0.26"
 homepage = "https://sprout.edera.dev"
 repository = "https://github.com/edera-dev/sprout"
 edition = "2024"
@@ -16,8 +18,7 @@ edition = "2024"
 bitflags = "2.10.0"
 log = "0.4.28"
 spin = "0.10.0"
-uefi = "0.36.0"
+uefi-raw = "0.13.0"
 uefi-raw = "0.12.0"
 [workspace.dependencies.anyhow]
 version = "1.0.100"
@@ -28,6 +29,11 @@ version = "0.4.3"
 default-features = false
 features = ["alloc"]
 [workspace.dependencies.jaarg]
 version = "0.2.1"
 default-features = false
 features = ["alloc"]
 [workspace.dependencies.serde]
 version = "1.0.228"
 default-features = false
@@ -46,6 +52,11 @@ version = "0.9.8"
 default-features = false
 features = ["serde", "parse"]
 [workspace.dependencies.uefi]
 version = "0.36.1"
 default-features = false
 features = ["alloc", "global_allocator", "panic_handler"]
 # Common build profiles
 # NOTE: We have to compile everything for opt-level = 2 due to optimization passes
 # which don't handle the UEFI target properly.
--- a/DEVELOPMENT.md
+++ b/DEVELOPMENT.md
@@ -11,6 +11,17 @@ We currently only support `x86_64-unknown-uefi` and `aarch64-unknown-uefi` targe
 To test your changes in QEMU, please run `./hack/dev/boot.sh`, you can specify `x86_64` or `aarch64`
 as an argument to boot.sh to boot the specified architecture.
 ## Crate Structure
 Sprout is split into multiple crates:
 - `edera-sprout-boot` as `crates/boot`: Bootloader entrypoint for Sprout.
 - `edera-sprout-build` at `crates/build`: Build logic for Sprout.
 - `edera-sprout-config` at `crates/config`: Serialization structures for the Sprout configuration file.
 - `edera-sprout-eficore` at `crates/eficore`: Core library for Sprout EFI code.
 It is intended that overtime Sprout will be split into even more crates.
 ## Hack Scripts
 You can use the `./hack` scripts to run common development tasks:
--- a/2
+++ b/2
@@ -2,7 +2,7 @@
 ARG RUST_PROFILE=release
 ARG RUST_TARGET_SUBDIR=release
-FROM --platform=$BUILDPLATFORM rust:1.91.0-alpine@sha256:a3e3d30122c08c0ed85dcd8867d956f066be23c32ed67a0453bc04ce478ad69b AS build
+FROM --platform=$BUILDPLATFORM rust:1.91.1-alpine@sha256:fbcca3e30e26f79986809d5dbfcdbeaaf8d3f8a4475b7a19a973363b45c74d97 AS build
 RUN apk --no-cache add musl-dev busybox-static
 ARG RUST_PROFILE
 RUN adduser -S -s /bin/sh build
--- a/README.md
+++ b/README.md
@@ -47,8 +47,9 @@ We recommend running Sprout without Secure Boot for development, and with Secure
 | Operating System | Secure Boot Enabled | Link                                                  |
 |------------------|---------------------|-------------------------------------------------------|
-| Ubuntu           | ✅                   | [Setup Guide](./docs/setup/signed/ubuntu.md)          |
+| Fedora           | ✅                   | [Setup Guide](./docs/setup/signed/fedora.md)          |
 | Debian           | ✅                   | [Setup Guide](./docs/setup/signed/debian.md)          |
 | Ubuntu           | ✅                   | [Setup Guide](./docs/setup/signed/ubuntu.md)          |
 | openSUSE         | ✅                   | [Setup Guide](./docs/setup/signed/opensuse.md)        |
 | Fedora           | ❌                   | [Setup Guide](./docs/setup/unsigned/fedora.md)        |
 | Alpine Edge      | ❌                   | [Setup Guide](./docs/setup/unsigned/alpine-edge.md)   |
--- a/crates/sprout/Cargo.toml
+++ b/crates/sprout/Cargo.toml
@@ -1,6 +1,6 @@
 [package]
-name = "edera-sprout"
+name = "edera-sprout-boot"
-description = "Modern UEFI bootloader"
+description = "Sprout: Modern UEFI Bootloader"
 license.workspace = true
 version.workspace = true
 homepage.workspace = true
@@ -9,21 +9,18 @@ edition.workspace = true
 [dependencies]
 anyhow.workspace = true
 bitflags.workspace = true
 edera-sprout-config.path = "../config"
 edera-sprout-eficore.path = "../eficore"
 hex.workspace = true
 jaarg.workspace = true
 sha2.workspace = true
 shlex.workspace = true
 spin.workspace = true
 toml.workspace = true
 log.workspace = true
 uefi.workspace = true
 uefi-raw.workspace = true
-[dependencies.uefi]
+[build-dependencies]
-workspace = true
+edera-sprout-build.path = "../build"
 features = ["alloc", "global_allocator", "panic_handler"]
 [dependencies.uefi-raw]
 workspace = true
 [[bin]]
 name = "sprout"
--- a/crates/sprout/README.md
+++ b/crates/sprout/README.md
--- a/crates/boot/build.rs
+++ b/crates/boot/build.rs
@@ -0,0 +1,7 @@
 use edera_sprout_build::generate_sbat_module;
 /// Build script entry point for Sprout.
 fn main() {
    // Generate the sbat.generated.rs file.
    generate_sbat_module();
 }
--- a/crates/sprout/src/actions.rs
+++ b/crates/sprout/src/actions.rs
--- a/crates/sprout/src/actions/chainload.rs
+++ b/crates/sprout/src/actions/chainload.rs
@@ -1,13 +1,14 @@
 use crate::context::SproutContext;
 use crate::integrations::bootloader_interface::BootloaderInterface;
 use crate::integrations::shim::{ShimInput, ShimSupport};
 use crate::utils;
 use crate::utils::media_loader::MediaLoaderHandle;
 use crate::utils::media_loader::constants::linux::LINUX_EFI_INITRD_MEDIA_GUID;
 use alloc::boxed::Box;
 use alloc::rc::Rc;
 use anyhow::{Context, Result, bail};
 use edera_sprout_config::actions::chainload::ChainloadConfiguration;
 use eficore::bootloader_interface::BootloaderInterface;
 use eficore::loader::source::ImageSource;
 use eficore::loader::{ImageLoadRequest, ImageLoader};
 use eficore::media_loader::MediaLoaderHandle;
 use eficore::media_loader::constants::linux::LINUX_EFI_INITRD_MEDIA_GUID;
 use log::error;
 use uefi::CString16;
 use uefi::proto::loaded_image::LoadedImage;
@@ -18,18 +19,22 @@ pub fn chainload(context: Rc<SproutContext>, configuration: &ChainloadConfigurat
    let sprout_image = uefi::boot::image_handle();
    // Resolve the path to the image to chainload.
-    let resolved = utils::resolve_path(
+    let resolved = eficore::path::resolve_path(
        Some(context.root().loaded_image_path()?),
        &context.stamp(&configuration.path),
    )
    .context("unable to resolve chainload path")?;
-    // Load the image to chainload using the shim support integration.
+    // Create a new image load request with the current image and the resolved path.
    let request = ImageLoadRequest::new(sprout_image, ImageSource::ResolvedPath(&resolved));
    // Load the image to chainload using the image loader support module.
    // It will determine if the image needs to be loaded via the shim or can be loaded directly.
-    let image = ShimSupport::load(sprout_image, ShimInput::ResolvedPath(&resolved))?;
+    let image = ImageLoader::load(request)?;
    // Open the LoadedImage protocol of the image to chainload.
-    let mut loaded_image_protocol = uefi::boot::open_protocol_exclusive::<LoadedImage>(image)
+    let mut loaded_image_protocol =
        uefi::boot::open_protocol_exclusive::<LoadedImage>(*image.handle())
            .context("unable to open loaded image protocol")?;
    // Stamp and combine the options to pass to the image.
@@ -68,8 +73,10 @@ pub fn chainload(context: Rc<SproutContext>, configuration: &ChainloadConfigurat
    // If an initrd is provided, register it with the EFI stack.
    let mut initrd_handle = None;
    if let Some(linux_initrd) = initrd {
-        let content =
+        let content = eficore::path::read_file_contents(
-            utils::read_file_contents(Some(context.root().loaded_image_path()?), &linux_initrd)
+            Some(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())
@@ -85,7 +92,7 @@ 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);
+    let result = uefi::boot::start_image(*image.handle());
    // Unregister the initrd if it was registered.
    if let Some(initrd_handle) = initrd_handle
--- a/crates/sprout/src/actions/edera.rs
+++ b/crates/sprout/src/actions/edera.rs
@@ -1,15 +1,7 @@
 use crate::{
    actions,
    context::SproutContext,
-    utils::{
+    utils::{self},
        self,
        media_loader::{
            MediaLoaderHandle,
            constants::xen::{
                XEN_EFI_CONFIG_MEDIA_GUID, XEN_EFI_KERNEL_MEDIA_GUID, XEN_EFI_RAMDISK_MEDIA_GUID,
            },
        },
    },
 };
 use alloc::rc::Rc;
 use alloc::string::{String, ToString};
@@ -17,6 +9,12 @@ use alloc::{format, vec};
 use anyhow::{Context, Result};
 use edera_sprout_config::actions::chainload::ChainloadConfiguration;
 use edera_sprout_config::actions::edera::EderaConfiguration;
 use eficore::media_loader::{
    MediaLoaderHandle,
    constants::xen::{
        XEN_EFI_CONFIG_MEDIA_GUID, XEN_EFI_KERNEL_MEDIA_GUID, XEN_EFI_RAMDISK_MEDIA_GUID,
    },
 };
 use log::error;
 use uefi::Guid;
@@ -79,7 +77,8 @@ fn register_media_loader_file(
    // Stamp the path to the file.
    let path = context.stamp(path);
    // Read the file contents.
-    let content = utils::read_file_contents(Some(context.root().loaded_image_path()?), &path)
+    let content =
        eficore::path::read_file_contents(Some(context.root().loaded_image_path()?), &path)
            .context(format!("unable to read {} file", what))?;
    // Register the media loader.
    let handle = MediaLoaderHandle::register(guid, content.into_boxed_slice())
--- a/crates/sprout/src/actions/print.rs
+++ b/crates/sprout/src/actions/print.rs
--- a/crates/sprout/src/autoconfigure.rs
+++ b/crates/sprout/src/autoconfigure.rs
--- a/crates/sprout/src/autoconfigure/bls.rs
+++ b/crates/sprout/src/autoconfigure/bls.rs
--- a/crates/sprout/src/autoconfigure/linux.rs
+++ b/crates/sprout/src/autoconfigure/linux.rs
@@ -25,7 +25,7 @@ const LINUX_CHAINLOAD_ACTION_PREFIX: &str = "linux-chainload-";
 const SCAN_LOCATIONS: &[&str] = &["\\boot", "\\"];
 /// Prefixes of kernel files to scan for.
-const KERNEL_PREFIXES: &[&str] = &["vmlinuz"];
+const KERNEL_PREFIXES: &[&str] = &["vmlinuz", "Image"];
 /// Prefixes of initramfs files to match to.
 const INITRAMFS_PREFIXES: &[&str] = &["initramfs", "initrd", "initrd.img"];
--- a/crates/sprout/src/autoconfigure/windows.rs
+++ b/crates/sprout/src/autoconfigure/windows.rs
--- a/crates/sprout/src/config.rs
+++ b/crates/sprout/src/config.rs
--- a/crates/sprout/src/config/loader.rs
+++ b/crates/sprout/src/config/loader.rs
@@ -1,10 +1,9 @@
 use crate::options::SproutOptions;
 use crate::platform::tpm::PlatformTpm;
 use crate::utils;
 use alloc::vec::Vec;
 use anyhow::{Context, Result, bail};
 use core::ops::Deref;
 use edera_sprout_config::{RootConfiguration, latest_version};
 use eficore::platform::tpm::PlatformTpm;
 use log::info;
 use toml::Value;
 use uefi::proto::device_path::LoadedImageDevicePath;
@@ -21,7 +20,7 @@ fn load_raw_config(options: &SproutOptions) -> Result<Vec<u8>> {
    info!("configuration file: {}", options.config);
    // Read the contents of the sprout config file.
-    let content = utils::read_file_contents(Some(&path), &options.config)
+    let content = eficore::path::read_file_contents(Some(&path), &options.config)
        .context("unable to read sprout config file")?;
    // Measure the sprout.toml into the TPM, if needed and possible.
--- a/crates/sprout/src/context.rs
+++ b/crates/sprout/src/context.rs
@@ -1,5 +1,4 @@
 use crate::options::SproutOptions;
 use crate::platform::timer::PlatformTimer;
 use alloc::boxed::Box;
 use alloc::collections::{BTreeMap, BTreeSet};
 use alloc::format;
@@ -10,6 +9,7 @@ use anyhow::anyhow;
 use anyhow::{Result, bail};
 use core::cmp::Reverse;
 use edera_sprout_config::actions::ActionDeclaration;
 use eficore::platform::timer::PlatformTimer;
 use uefi::proto::device_path::DevicePath;
 /// The maximum number of iterations that can be performed in [SproutContext::finalize].
--- a/crates/sprout/src/drivers.rs
+++ b/crates/sprout/src/drivers.rs
@@ -1,12 +1,12 @@
 use crate::context::SproutContext;
 use crate::integrations::shim::{ShimInput, ShimSupport};
 use crate::utils;
 use alloc::collections::BTreeMap;
 use alloc::format;
 use alloc::rc::Rc;
 use alloc::string::String;
 use anyhow::{Context, Result};
 use edera_sprout_config::drivers::DriverDeclaration;
 use eficore::loader::source::ImageSource;
 use eficore::loader::{ImageLoadRequest, ImageLoader};
 use log::info;
 use uefi::boot::SearchType;
@@ -16,20 +16,23 @@ fn load_driver(context: Rc<SproutContext>, driver: &DriverDeclaration) -> Result
    let sprout_image = uefi::boot::image_handle();
    // Resolve the path to the driver image.
-    let resolved = utils::resolve_path(
+    let resolved = eficore::path::resolve_path(
        Some(context.root().loaded_image_path()?),
        &context.stamp(&driver.path),
    )
    .context("unable to resolve path to driver")?;
-    // Load the driver image using the shim support integration.
+    // Create an image load request with the current image and the resolved path.
    let request = ImageLoadRequest::new(sprout_image, ImageSource::ResolvedPath(&resolved));
    // Load the driver image using the image loader support module.
    // It will determine if the image needs to be loaded via the shim or can be loaded directly.
-    let image = ShimSupport::load(sprout_image, ShimInput::ResolvedPath(&resolved))?;
+    let image = ImageLoader::load(request)?;
    // Start the driver image, this is expected to return control to sprout.
    // There is no guarantee that the driver will actually return control as it is
    // just a standard EFI image.
-    uefi::boot::start_image(image).context("unable to start driver image")?;
+    uefi::boot::start_image(*image.handle()).context("unable to start driver image")?;
    Ok(())
 }
--- a/crates/sprout/src/entries.rs
+++ b/crates/sprout/src/entries.rs
@@ -93,7 +93,17 @@ impl BootableEntry {
    }
    /// Determine if this entry matches `needle` by comparing to the name or title of the entry.
    /// If `needle` ends with *, we will match a partial match.
    pub fn is_match(&self, needle: &str) -> bool {
        // If the needle ends with '*', we will accept a partial match.
        if needle.ends_with("*") {
            // Strip off any '*' at the end.
            let partial = needle.trim_end_matches("*");
            // Check if the name or title start with the partial match.
            return self.name.starts_with(partial) || self.title.starts_with(partial);
        }
        // Standard quality matching rules.
        self.name == needle || self.title == needle
    }
--- a/crates/sprout/src/extractors.rs
+++ b/crates/sprout/src/extractors.rs
--- a/crates/sprout/src/extractors/filesystem_device_match.rs
+++ b/crates/sprout/src/extractors/filesystem_device_match.rs
@@ -1,11 +1,11 @@
 use crate::context::SproutContext;
 use crate::utils;
 use alloc::rc::Rc;
 use alloc::string::String;
 use anyhow::{Context, Result, anyhow, bail};
 use core::ops::Deref;
 use core::str::FromStr;
 use edera_sprout_config::extractors::filesystem_device_match::FilesystemDeviceMatchExtractor;
 use eficore::partition::PartitionGuidForm;
 use uefi::fs::{FileSystem, Path};
 use uefi::proto::device_path::DevicePath;
 use uefi::proto::media::file::{File, FileSystemVolumeLabel};
@@ -48,7 +48,8 @@ pub fn extract(
                .to_boxed();
            // Fetch the partition uuid for this filesystem.
-            let partition_uuid = utils::partition_guid(&root, utils::PartitionGuidForm::Partition)
+            let partition_uuid =
                eficore::partition::partition_guid(&root, PartitionGuidForm::Partition)
                    .context("unable to fetch the partition uuid of the filesystem")?;
            // Compare the partition uuid to the parsed uuid.
@@ -73,7 +74,7 @@ pub fn extract(
            // Fetch the partition type uuid for this filesystem.
            let partition_type_uuid =
-                utils::partition_guid(&root, utils::PartitionGuidForm::PartitionType)
+                eficore::partition::partition_guid(&root, PartitionGuidForm::PartitionType)
                    .context("unable to fetch the partition uuid of the filesystem")?;
            // Compare the partition type uuid to the parsed uuid.
            // If it does not match, continue to the next filesystem.
@@ -133,7 +134,7 @@ pub fn extract(
            .context("unable to open filesystem device path")?;
        let path = path.deref();
        // Acquire the device path root as a string.
-        return utils::device_path_root(path).context("unable to get device path root");
+        return eficore::path::device_path_root(path).context("unable to get device path root");
    }
    // If there is a fallback value, use it at this point.
--- a/crates/sprout/src/generators.rs
+++ b/crates/sprout/src/generators.rs
--- a/crates/sprout/src/generators/bls.rs
+++ b/crates/sprout/src/generators/bls.rs
@@ -1,7 +1,6 @@
 use crate::context::SproutContext;
 use crate::entries::BootableEntry;
 use crate::generators::bls::entry::BlsEntry;
 use crate::utils;
 use crate::utils::vercmp;
 use alloc::format;
 use alloc::rc::Rc;
@@ -89,7 +88,8 @@ pub fn generate(context: Rc<SproutContext>, bls: &BlsConfiguration) -> Result<Ve
    let path = context.stamp(&bls.path);
    // Resolve the path to the BLS directory.
-    let bls_resolved = utils::resolve_path(Some(context.root().loaded_image_path()?), &path)
+    let bls_resolved =
        eficore::path::resolve_path(Some(context.root().loaded_image_path()?), &path)
            .context("unable to resolve bls path")?;
    // Construct a filesystem path to the BLS entries directory.
--- a/crates/sprout/src/generators/bls/entry.rs
+++ b/crates/sprout/src/generators/bls/entry.rs
--- a/crates/sprout/src/generators/list.rs
+++ b/crates/sprout/src/generators/list.rs
--- a/crates/sprout/src/generators/matrix.rs
+++ b/crates/sprout/src/generators/matrix.rs
--- a/crates/sprout/src/main.rs
+++ b/crates/sprout/src/main.rs
@@ -1,19 +1,12 @@
 #![doc = include_str!("../README.md")]
 #![no_std]
 #![no_main]
 extern crate alloc;
 use crate::context::{RootContext, SproutContext};
 use crate::entries::BootableEntry;
 use crate::integrations::bootloader_interface::{BootloaderInterface, BootloaderInterfaceTimeout};
 use crate::options::SproutOptions;
 use crate::options::parser::OptionsRepresentable;
 use crate::phases::phase;
 use crate::platform::timer::PlatformTimer;
 use crate::platform::tpm::PlatformTpm;
 use crate::secure::SecureBoot;
 use crate::utils::PartitionGuidForm;
 use alloc::collections::BTreeMap;
 use alloc::format;
 use alloc::string::ToString;
@@ -22,6 +15,12 @@ use anyhow::{Context, Result, bail};
 use core::ops::Deref;
 use core::time::Duration;
 use edera_sprout_config::RootConfiguration;
 use eficore::bootloader_interface::{BootloaderInterface, BootloaderInterfaceTimeout};
 use eficore::partition::PartitionGuidForm;
 use eficore::platform::timer::PlatformTimer;
 use eficore::platform::tpm::PlatformTpm;
 use eficore::secure::SecureBoot;
 use eficore::setup;
 use log::{error, info, warn};
 use uefi::entry;
 use uefi::proto::device_path::LoadedImageDevicePath;
@@ -51,12 +50,6 @@ pub mod extractors;
 /// generators: Runtime code that can generate entries with specific values.
 pub mod generators;
 /// integrations: Code that interacts with other systems.
 pub mod integrations;
 /// logger: Code for the logging mechanism of Sprout.
 pub mod logger;
 /// menu: Display a boot menu to select an entry to boot.
 pub mod menu;
@@ -66,18 +59,9 @@ pub mod options;
 /// phases: Hooks into specific parts of the boot process.
 pub mod phases;
 /// platform: Integration or support code for specific hardware platforms.
 pub mod platform;
 /// sbat: Secure Boot Attestation section.
 pub mod sbat;
 /// secure: Secure Boot support.
 pub mod secure;
 /// setup: Code that initializes the UEFI environment for Sprout.
 pub mod setup;
 /// utils: Utility functions that are used by other parts of Sprout.
 pub mod utils;
@@ -88,7 +72,7 @@ const DELAY_ON_ERROR: Duration = Duration::from_secs(10);
 fn run() -> Result<()> {
    // For safety reasons, we will note that Secure Boot is in beta on Sprout.
    if SecureBoot::enabled().context("unable to determine Secure Boot status")? {
-        warn!("Secure Boot is enabled. Sprout Secure Boot is in beta.");
+        warn!("Sprout Secure Boot is in beta. Some functionality may not work as expected.");
    }
    // Start the platform timer.
@@ -139,7 +123,7 @@ fn run() -> Result<()> {
    // Grab the partition GUID of the ESP that sprout was loaded from.
    let loaded_image_partition_guid =
-        utils::partition_guid(&loaded_image_path, PartitionGuidForm::Partition)
+        eficore::partition::partition_guid(&loaded_image_path, PartitionGuidForm::Partition)
            .context("unable to retrieve loaded image partition guid")?;
    // Set the partition GUID of the ESP that sprout was loaded from in the bootloader interface.
@@ -400,7 +384,7 @@ fn efi_main() -> Status {
    let result = run();
    if let Err(ref error) = result {
        // Print an error trace.
-        error!("sprout encountered an error:");
+        error!("sprout encountered an error: {}", error);
        for (index, stack) in error.chain().enumerate() {
            error!("[{}]: {}", index, stack);
        }
--- a/crates/sprout/src/menu.rs
+++ b/crates/sprout/src/menu.rs
@@ -1,9 +1,9 @@
 use crate::entries::BootableEntry;
 use crate::integrations::bootloader_interface::BootloaderInterface;
 use crate::platform::timer::PlatformTimer;
 use alloc::vec;
 use anyhow::{Context, Result, bail};
 use core::time::Duration;
 use eficore::bootloader_interface::BootloaderInterface;
 use eficore::platform::timer::PlatformTimer;
 use log::{info, warn};
 use uefi::ResultExt;
 use uefi::boot::TimerTrigger;
--- a/crates/boot/src/options.rs
+++ b/crates/boot/src/options.rs
@@ -0,0 +1,132 @@
 use alloc::string::{String, ToString};
 use anyhow::{Context, Result, bail};
 use core::ptr::null_mut;
 use jaarg::alloc::ParseMapResult;
 use jaarg::{
    ErrorUsageWriter, ErrorUsageWriterContext, HelpWriter, HelpWriterContext, Opt, Opts,
    StandardErrorUsageWriter, StandardFullHelpWriter,
 };
 use log::{error, info};
 use uefi_raw::Status;
 /// Default configuration file path.
 const DEFAULT_CONFIG_PATH: &str = "\\sprout.toml";
 /// The parsed options of sprout.
 #[derive(Debug)]
 pub struct SproutOptions {
    /// Configures Sprout automatically based on the environment.
    pub autoconfigure: bool,
    /// Path to a configuration file to load.
    pub config: String,
    /// Entry to boot without showing the boot menu.
    pub boot: Option<String>,
    /// Force display of the boot menu.
    pub force_menu: bool,
    /// The timeout for the boot menu in seconds.
    pub menu_timeout: Option<u64>,
 }
 /// The default Sprout options.
 impl Default for SproutOptions {
    fn default() -> Self {
        Self {
            autoconfigure: false,
            config: DEFAULT_CONFIG_PATH.to_string(),
            boot: None,
            force_menu: false,
            menu_timeout: None,
        }
    }
 }
 /// The options parser mechanism for Sprout.
 impl SproutOptions {
    /// Produces [SproutOptions] from the arguments provided by the UEFI core.
    /// Internally we utilize the `jaarg` argument parser which has excellent no_std support.
    pub fn parse() -> Result<Self> {
        // All the options for the Sprout executable.
        const OPTIONS: Opts<&str> = Opts::new(&[
            Opt::help_flag("help", &["--help"]).help_text("Display Sprout Help"),
            Opt::flag("autoconfigure", &["--autoconfigure"])
                .help_text("Enable Sprout autoconfiguration"),
            Opt::value("config", &["--config"], "PATH")
                .help_text("Path to Sprout configuration file"),
            Opt::value("boot", &["--boot"], "ENTRY").help_text("Entry to boot, bypassing the menu"),
            Opt::flag("force-menu", &["--force-menu"]).help_text("Force showing the boot menu"),
            Opt::value("menu-timeout", &["--menu-timeout"], "TIMEOUT")
                .help_text("Boot menu timeout, in seconds"),
        ]);
        // Acquire the arguments as determined by the UEFI core.
        let args = eficore::env::args()?;
        // Parse the OPTIONS into a map using jaarg.
        let parsed = match OPTIONS.parse_map(
            "sprout",
            args.iter(),
            |program_name| {
                let ctx = HelpWriterContext {
                    options: &OPTIONS,
                    program_name,
                };
                info!("{}", StandardFullHelpWriter::new(ctx));
            },
            |program_name, error| {
                let ctx = ErrorUsageWriterContext {
                    options: &OPTIONS,
                    program_name,
                    error,
                };
                error!("{}", StandardErrorUsageWriter::new(ctx));
            },
        ) {
            ParseMapResult::Map(map) => map,
            ParseMapResult::ExitSuccess => unsafe {
                uefi::boot::exit(uefi::boot::image_handle(), Status::SUCCESS, 0, null_mut());
            },
            ParseMapResult::ExitFailure => unsafe {
                uefi::boot::exit(uefi::boot::image_handle(), Status::ABORTED, 0, null_mut());
            },
        };
        // Use the default value of sprout options and have the raw options be parsed into it.
        let mut result = Self::default();
        for (key, value) in parsed {
            match key {
                "autoconfigure" => {
                    // Enable autoconfiguration.
                    result.autoconfigure = true;
                }
                "config" => {
                    // The configuration file to load.
                    result.config = value;
                }
                "boot" => {
                    // The entry to boot.
                    result.boot = Some(value);
                }
                "force-menu" => {
                    // Force showing of the boot menu.
                    result.force_menu = true;
                }
                "menu-timeout" => {
                    // The timeout for the boot menu in seconds.
                    let value = value
                        .parse::<u64>()
                        .context("menu-timeout must be a number")?;
                    result.menu_timeout = Some(value);
                }
                _ => bail!("unknown option: --{key}"),
            }
        }
        Ok(result)
    }
 }
--- a/crates/sprout/src/phases.rs
+++ b/crates/sprout/src/phases.rs
--- a/crates/sprout/src/sbat.template.csv
+++ b/crates/sprout/src/sbat.template.csv
--- a/crates/boot/src/sbat.rs
+++ b/crates/boot/src/sbat.rs
@@ -0,0 +1,2 @@
 // Include the generated sbat section in this file.
 include!(concat!(env!("OUT_DIR"), "/sbat.generated.rs"));
--- a/crates/boot/src/utils.rs
+++ b/crates/boot/src/utils.rs
@@ -0,0 +1,26 @@
 use alloc::string::{String, ToString};
 use alloc::vec::Vec;
 use sha2::{Digest, Sha256};
 /// Implements a version comparison algorithm according to the BLS specification.
 pub mod vercmp;
 /// 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 {
    hex::encode(Sha256::digest(input.as_bytes()))
 }
 /// 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())
 }
--- a/crates/sprout/src/utils/vercmp.rs
+++ b/crates/sprout/src/utils/vercmp.rs
--- a/crates/build/Cargo.toml
+++ b/crates/build/Cargo.toml
@@ -0,0 +1,12 @@
 [package]
 name = "edera-sprout-build"
 description = "Sprout Build Tools"
 license.workspace = true
 version.workspace = true
 homepage.workspace = true
 repository.workspace = true
 edition.workspace = true
 [lib]
 name = "edera_sprout_build"
 path = "src/lib.rs"
--- a/crates/build/src/lib.rs
+++ b/crates/build/src/lib.rs
@@ -0,0 +1,76 @@
 use std::path::PathBuf;
 use std::{env, fs};
 /// Block size of the sbat section.
 const SBAT_BLOCK_SIZE: usize = 512;
 /// Template contents for the sbat.generated.rs file.
 const SBAT_RS_TEMPLATE: &str = include_str!("sbat.template.rs");
 /// Pad with zeros the given `data` to a multiple of `block_size`.
 fn block_pad(data: &mut Vec<u8>, block_size: usize) {
    let needed = data.len().div_ceil(block_size).max(1) * block_size;
    if needed != data.len() {
        data.resize(needed, 0);
    }
 }
 /// Generate an .sbat link section module. This should be coupled with including the sbat module in
 /// the crate that intends to embed the sbat section.
 /// We intake a sbat.template.csv file in the calling crate and output a sbat.dat
 /// which is included by a generated sbat.generated.rs file.
 pub fn generate_sbat_module() {
    // Notify Cargo that if the version changes, we need to regenerate the sbat.out file.
    println!("cargo:rerun-if-env-changed=CARGO_PKG_VERSION");
    // The version of the package.
    let version = env::var("CARGO_PKG_VERSION").expect("CARGO_PKG_VERSION not set");
    // The output directory to place the sbat.csv into.
    let output_dir = PathBuf::from(env::var("OUT_DIR").expect("OUT_DIR not set"));
    // The output path to the sbat.out file.
    let out_file = output_dir.join("sbat.out");
    // The output path to the sbat.generated.rs file.
    let rs_file = output_dir.join("sbat.generated.rs");
    // The path to the root of the crate.
    let crate_root =
        PathBuf::from(env::var("CARGO_MANIFEST_DIR").expect("CARGO_MANIFEST_DIR not set"));
    // The path to the sbat.template.tsv file is in the source directory of the crate.
    let sbat_template_file = crate_root.join("src/sbat.csv");
    // Notify Cargo that if sbat.csv changes, we need to regenerate the sbat.out file.
    println!(
        "cargo:rerun-if-changed={}",
        sbat_template_file
            .to_str()
            .expect("unable to convert sbat template path file to a string")
    );
    // Read the sbat.csv template file.
    let sbat_template =
        fs::read_to_string(&sbat_template_file).expect("unable to read sbat.csv file");
    // Replace the version placeholder in the template with the actual version.
    let sbat = sbat_template.replace("{version}", &version);
    // Encode the sbat.csv as bytes.
    let mut encoded = sbat.as_bytes().to_vec();
    // Pad the sbat.csv to the required block size.
    block_pad(&mut encoded, SBAT_BLOCK_SIZE);
    // Write the sbat.out file to the output directory.
    fs::write(&out_file, &encoded).expect("unable to write sbat.out");
    // Generate the contents of the sbat.generated.rs file.
    // The size must tbe size of the encoded sbat.out file.
    let sbat_rs = SBAT_RS_TEMPLATE.replace("{size}", &encoded.len().to_string());
    // Write the sbat.generated.rs file to the output directory.
    fs::write(&rs_file, sbat_rs).expect("unable to write sbat.generated.rs");
 }
--- a/crates/build/src/sbat.template.rs
+++ b/crates/build/src/sbat.template.rs
@@ -0,0 +1,6 @@
 /// Define the SBAT attestation by including the sbat.csv file.
 /// See this document for more details: https://github.com/rhboot/shim/blob/main/SBAT.md
 /// NOTE: This data must be aligned by 512 bytes.
 #[used]
 #[unsafe(link_section = ".sbat")]
 static SBAT: [u8; {size}] = *include_bytes!(concat!(env!("OUT_DIR"), "/sbat.out"));
--- a/crates/config/Cargo.toml
+++ b/crates/config/Cargo.toml
@@ -13,3 +13,4 @@ default-features = false
 [lib]
 name = "edera_sprout_config"
 path = "src/lib.rs"
--- a/crates/config/src/lib.rs
+++ b/crates/config/src/lib.rs
@@ -78,8 +78,7 @@ pub struct RootConfiguration {
 /// Options configuration for Sprout, used when the corresponding options are not specified.
 #[derive(Serialize, Deserialize, Debug, Default, Clone)]
 pub struct OptionsConfiguration {
-    /// The entry to boot without showing the boot menu.
+    /// The entry to mark as the default entry, instead of the first entry.
    /// If not specified, a boot menu is shown.
    #[serde(rename = "default-entry", default)]
    pub default_entry: Option<String>,
    /// The timeout of the boot menu.
--- a/crates/eficore/Cargo.toml
+++ b/crates/eficore/Cargo.toml
@@ -0,0 +1,21 @@
 [package]
 name = "edera-sprout-eficore"
 description = "Sprout EFI Core"
 license.workspace = true
 version.workspace = true
 homepage.workspace = true
 repository.workspace = true
 edition.workspace = true
 [dependencies]
 anyhow.workspace = true
 bitflags.workspace = true
 log.workspace = true
 shlex.workspace = true
 spin.workspace = true
 uefi.workspace = true
 uefi-raw.workspace = true
 [lib]
 name = "eficore"
 path = "src/lib.rs"
--- a/crates/sprout/src/integrations/bootloader_interface.rs
+++ b/crates/sprout/src/integrations/bootloader_interface.rs
@@ -1,7 +1,6 @@
-use crate::integrations::bootloader_interface::bitflags::LoaderFeatures;
+use crate::bootloader_interface::bitflags::LoaderFeatures;
 use crate::platform::timer::PlatformTimer;
-use crate::utils::device_path_subpath;
+use crate::variables::{VariableClass, VariableController};
 use crate::utils::variables::{VariableClass, VariableController};
 use alloc::format;
 use alloc::string::{String, ToString};
 use alloc::vec::Vec;
@@ -103,7 +102,8 @@ impl BootloaderInterface {
    /// Tell the system the relative path to the partition root of the current bootloader.
    pub fn set_loader_path(path: &DevicePath) -> Result<()> {
-        let subpath = device_path_subpath(path).context("unable to get loader path subpath")?;
+        let subpath =
            crate::path::device_path_subpath(path).context("unable to get loader path subpath")?;
        Self::VENDOR.set_cstr16(
            "LoaderImageIdentifier",
            &subpath,
--- a/crates/sprout/src/integrations/bootloader_interface/bitflags.rs
+++ b/crates/sprout/src/integrations/bootloader_interface/bitflags.rs
--- a/crates/sprout/src/options/env.rs
+++ b/crates/sprout/src/options/env.rs
@@ -3,14 +3,14 @@ use alloc::vec::Vec;
 use anyhow::{Context, Result, bail};
 use uefi::proto::loaded_image::{LoadOptionsError, LoadedImage};
-/// Loads the command-line arguments passed to Sprout.
+/// Loads the command-line arguments passed to the current image.
 pub fn args() -> Result<Vec<String>> {
-    // Acquire the image handle of Sprout.
+    // Acquire the current image handle.
    let handle = uefi::boot::image_handle();
-    // Open the LoadedImage protocol for Sprout.
+    // Open the LoadedImage protocol for the current image.
    let loaded_image = uefi::boot::open_protocol_exclusive::<LoadedImage>(handle)
-        .context("unable to open loaded image protocol for sprout")?;
+        .context("unable to open loaded image protocol for current image")?;
    // Load the command-line argument string.
    let options = match loaded_image.load_options_as_cstr16() {
@@ -35,7 +35,7 @@ pub fn args() -> Result<Vec<String>> {
    let options = options.to_string();
    // Use shlex to parse the options.
-    // If shlex fails, we will fall back to a simple whitespace split.
+    // If shlex fails, we will perform a simple whitespace split.
    let mut args = shlex::split(&options).unwrap_or_else(|| {
        options
            .split_ascii_whitespace()
@@ -43,6 +43,20 @@ pub fn args() -> Result<Vec<String>> {
            .collect::<Vec<_>>()
    });
    // Correct firmware that may add invalid arguments at the start.
    // Witnessed this on a Dell Precision 5690 when direct booting.
    args = args
        .into_iter()
        .skip_while(|arg| {
            arg.chars()
                .next()
                // Filter out unprintable characters and backticks.
                // Both of which have been observed in the wild.
                .map(|c| c < 0x1f as char || c == '`')
                .unwrap_or(false)
        })
        .collect();
    // If there is a first argument, check if it is not an option.
    // If it is not, we will assume it is the path to the executable and remove it.
    if let Some(arg) = args.first()
@@ -51,27 +65,5 @@ pub fn args() -> Result<Vec<String>> {
        args.remove(0);
    }
    // Correct firmware that may add invalid arguments at the start.
    // Witnessed this on a Dell Precision 5690 when direct booting.
    loop {
        // Grab the first argument or break.
        let Some(arg) = args.first() else {
            break;
        };
        // Check if the argument is a valid character.
        // If it is not, remove it and continue.
        let Some(first_character) = arg.chars().next() else {
            break;
        };
        // If the character is not a printable character or a backtick, remove it and continue.
        if first_character < 0x1f as char || first_character == '`' {
            args.remove(0);
            continue;
        }
        break;
    }
    Ok(args)
 }
--- a/crates/sprout/src/utils/framebuffer.rs
+++ b/crates/sprout/src/utils/framebuffer.rs
--- a/crates/eficore/src/handle.rs
+++ b/crates/eficore/src/handle.rs
@@ -0,0 +1,26 @@
 use anyhow::{Context, Result};
 use uefi::boot::SearchType;
 use uefi::{Guid, Handle};
 use uefi_raw::Status;
 /// Find a handle that provides the specified `protocol`.
 pub fn find_handle(protocol: &Guid) -> Result<Option<Handle>> {
    // Locate the requested protocol handle.
    match uefi::boot::locate_handle_buffer(SearchType::ByProtocol(protocol)) {
        // If a handle is found, the protocol is available.
        Ok(handles) => Ok(if handles.is_empty() {
            None
        } else {
            Some(handles[0])
        }),
        // If an error occurs, check if it is because the protocol is not available.
        // If so, return false. Otherwise, return the error.
        Err(error) => {
            if error.status() == Status::NOT_FOUND {
                Ok(None)
            } else {
                Err(error).context("unable to determine if the protocol is available")
            }
        }
    }
 }
--- a/crates/eficore/src/lib.rs
+++ b/crates/eficore/src/lib.rs
@@ -0,0 +1,44 @@
 //! Sprout EFI Core.
 //! This crate provides tools for working with the EFI environment.
 #![no_std]
 extern crate alloc;
 /// EFI handle helpers.
 pub mod handle;
 /// Load and start EFI images.
 pub mod loader;
 /// Logging support for EFI applications.
 pub mod logger;
 /// Disk partitioning support infrastructure.
 pub mod partition;
 /// Path handling for UEFI.
 pub mod path;
 /// platform: Integration or support code for specific hardware platforms.
 pub mod platform;
 /// Secure Boot support.
 pub mod secure;
 /// Support for the shim loader application that enables Secure Boot.
 pub mod shim;
 /// String utilities.
 pub mod strings;
 /// Implements support for the bootloader interface specification.
 pub mod bootloader_interface;
 /// Acquire arguments from UEFI environment.
 pub mod env;
 /// Support code for the EFI framebuffer.
 pub mod framebuffer;
 /// Support code for the media loader protocol.
 pub mod media_loader;
 /// setup: Code that initializes the UEFI environment for Sprout.
 pub mod setup;
 /// Support code for EFI variables.
 pub mod variables;
--- a/crates/eficore/src/loader.rs
+++ b/crates/eficore/src/loader.rs
@@ -0,0 +1,141 @@
 use crate::loader::source::ImageSource;
 use crate::secure::SecureBoot;
 use crate::shim::hook::SecurityHook;
 use crate::shim::{ShimInput, ShimSupport};
 use anyhow::{Context, Result, bail};
 use log::warn;
 use uefi::Handle;
 use uefi::boot::LoadImageSource;
 /// Represents EFI image sources generically.
 pub mod source;
 /// Handle to a loaded EFI image.
 pub struct ImageHandle {
    /// Handle to the loaded image.
    handle: Handle,
 }
 impl ImageHandle {
    /// Create a new image handle based on a handle from the UEFI stack.
    pub fn new(handle: Handle) -> Self {
        Self { handle }
    }
    /// Retrieve the underlying handle.
    pub fn handle(&self) -> &Handle {
        &self.handle
    }
 }
 /// Request to load an image from a source, with support for additional validation features.
 pub struct ImageLoadRequest<'source> {
    /// Handle to the current image.
    current_image: Handle,
    /// Source of the image to load.
    source: ImageSource<'source>,
 }
 impl<'source> ImageLoadRequest<'source> {
    /// Create a new image load request with a current image and a source.
    pub fn new(current_image: Handle, source: ImageSource<'source>) -> Self {
        Self {
            current_image,
            source,
        }
    }
    /// Retrieve the current image.
    pub fn current_image(&self) -> &Handle {
        &self.current_image
    }
    /// Retrieve the source of the image to load.
    pub fn source(&'source self) -> &'source ImageSource<'source> {
        &self.source
    }
    /// Convert the request into a source.
    pub fn into_source(self) -> ImageSource<'source> {
        self.source
    }
 }
 /// EFI image loader.
 pub struct ImageLoader;
 impl ImageLoader {
    /// Load an image using the image `request` which allows
    pub fn load(request: ImageLoadRequest) -> Result<ImageHandle> {
        // Determine whether Secure Boot is enabled.
        let secure_boot =
            SecureBoot::enabled().context("unable to determine if secure boot is enabled")?;
        // Determine whether the shim is loaded.
        let shim_loaded = ShimSupport::loaded().context("unable to determine if shim is loaded")?;
        // Determine whether the shim loader is available.
        let shim_loader_available = ShimSupport::loader_available()
            .context("unable to determine if shim loader is available")?;
        // Determines whether LoadImage in Boot Services must be patched.
        // Version 16 of the shim doesn't require extra effort to load Secure Boot binaries.
        // If the image loader is installed, we can skip over the security hook.
        let requires_security_hook = secure_boot && shim_loaded && !shim_loader_available;
        // If the security hook is required, we will bail for now.
        if requires_security_hook {
            // Install the security hook, if possible. If it's not, this is necessary to continue,
            // so we should bail.
            let installed = SecurityHook::install().context("unable to install security hook")?;
            if !installed {
                bail!("unable to install security hook required for this platform");
            }
        }
        // If the shim is loaded, we will need to retain the shim protocol to allow
        // loading multiple images.
        if shim_loaded {
            // Retain the shim protocol after loading the image.
            ShimSupport::retain()?;
        }
        // Clone the current image handle to use for loading the image.
        let current_image = *request.current_image();
        // Converts the source to a shim input with an owned data buffer.
        let input = ShimInput::from(request.into_source())
            .into_owned_data_buffer()
            .context("unable to convert input to loaded data buffer")?;
        // Constructs a LoadImageSource from the input.
        let source = LoadImageSource::FromBuffer {
            buffer: input.buffer().context("unable to get buffer from input")?,
            file_path: input.file_path(),
        };
        // Loads the image using Boot Services LoadImage function.
        let result = uefi::boot::load_image(current_image, source).context("unable to load image");
        // If the security override is required, we will uninstall the security hook.
        if requires_security_hook {
            let uninstall_result = crate::shim::hook::SecurityHook::uninstall();
            // Ensure we don't mask load image errors if uninstalling fails.
            if result.is_err()
                && let Err(uninstall_error) = &uninstall_result
            {
                // Warn on the error since the load image error is more important.
                warn!("unable to uninstall security hook: {}", uninstall_error);
            } else {
                // Otherwise, ensure we handle the original uninstallation result.
                uninstall_result?;
            }
        }
        // Assert the result and grab the handle.
        let handle = result?;
        // Retrieve the handle from the result and make a new image handle.
        Ok(ImageHandle::new(handle))
    }
 }
--- a/crates/eficore/src/loader/source.rs
+++ b/crates/eficore/src/loader/source.rs
@@ -0,0 +1,25 @@
 use crate::path::ResolvedPath;
 use crate::shim::ShimInput;
 /// Represents a source of an EFI image.
 pub enum ImageSource<'source> {
    /// The image is located at the specified path that has been resolved.
    ResolvedPath(&'source ResolvedPath),
    /// The image is located in a buffer.
    DataBuffer {
        /// Optional path to the image.
        path: Option<&'source ResolvedPath>,
        /// Buffer containing the image.
        buffer: &'source [u8],
    },
 }
 /// Implement conversion from `ImageSource` to `ShimInput`, which is used by the shim support code.
 impl<'source> From<ImageSource<'source>> for ShimInput<'source> {
    fn from(value: ImageSource<'source>) -> Self {
        match value {
            ImageSource::ResolvedPath(path) => ShimInput::ResolvedPath(path),
            ImageSource::DataBuffer { path, buffer } => ShimInput::DataBuffer(path, buffer),
        }
    }
 }
--- a/crates/eficore/src/logger.rs
+++ b/crates/eficore/src/logger.rs
--- a/crates/sprout/src/utils/media_loader.rs
+++ b/crates/sprout/src/utils/media_loader.rs
@@ -161,14 +161,31 @@ impl MediaLoaderHandle {
        // Install a protocol interface for the device path.
        // This ensures it can be located by other EFI programs.
-        let primary_handle = unsafe {
+        let primary_handle = match unsafe {
            uefi::boot::install_protocol_interface(
                None,
                &DevicePathProtocol::GUID,
                path.as_ffi_ptr() as *mut c_void,
            )
        }
-        .context("unable to install media loader device path handle")?;
+        .context("unable to install media loader device path handle")
        {
            // Acquiring the primary handle succeeded, so we can return the handle.
            Ok(handle) => handle,
            // If acquiring the primary handle failed, we free the device path and return the error.
            Err(error) => {
                // SAFETY: We know that the device path is leaked,
                // so we can safely take a reference to it again.
                // The UEFI stack failed to install the protocol interface
                // if we reach here, so the path is no longer in use.
                let path = unsafe { Box::from_raw(path) };
                // Explicitly drop the path to clarify the lifetime.
                drop(path);
                // Return the original error.
                return Err(error);
            }
        };
        // Leak the data we need to pass to the UEFI stack.
        let data = Box::leak(data);
--- a/crates/sprout/src/utils/media_loader/constants.rs
+++ b/crates/sprout/src/utils/media_loader/constants.rs
--- a/crates/eficore/src/partition.rs
+++ b/crates/eficore/src/partition.rs
@@ -0,0 +1,55 @@
 use anyhow::{Context, Result};
 use uefi::Guid;
 use uefi::proto::device_path::DevicePath;
 use uefi::proto::media::partition::PartitionInfo;
 use uefi_raw::Status;
 /// Represents the type of partition GUID that can be retrieved.
 #[derive(PartialEq, Eq)]
 pub enum PartitionGuidForm {
    /// The partition GUID is the unique partition GUID.
    Partition,
    /// The partition GUID is the partition type GUID.
    PartitionType,
 }
 /// Retrieve the partition / partition type GUID of the device root `path`.
 /// This only works on GPT partitions. If the root is not a GPT partition, None is returned.
 /// If the GUID is all zeros, this will return None.
 pub fn partition_guid(path: &DevicePath, form: PartitionGuidForm) -> Result<Option<Guid>> {
    // Clone the path so we can pass it to the UEFI stack.
    let path = path.to_boxed();
    let result = uefi::boot::locate_device_path::<PartitionInfo>(&mut &*path);
    let handle = match result {
        Ok(handle) => Ok(Some(handle)),
        Err(error) => {
            // If the error is NOT_FOUND or UNSUPPORTED, we can return None.
            // These are non-fatal errors.
            if error.status() == Status::NOT_FOUND || error.status() == Status::UNSUPPORTED {
                Ok(None)
            } else {
                Err(error)
            }
        }
    }
    .context("unable to locate device path")?;
    // If we have the handle, we can try to open the partition info protocol.
    if let Some(handle) = handle {
        // Open the partition info protocol.
        let partition_info = uefi::boot::open_protocol_exclusive::<PartitionInfo>(handle)
            .context("unable to open partition info protocol")?;
        // Find the unique partition GUID.
        // If this is not a GPT partition, this will produce None.
        Ok(partition_info
            .gpt_partition_entry()
            .map(|entry| match form {
                // Match the form of the partition GUID.
                PartitionGuidForm::Partition => entry.unique_partition_guid,
                PartitionGuidForm::PartitionType => entry.partition_type_guid.0,
            })
            .filter(|guid| !guid.is_zero()))
    } else {
        Ok(None)
    }
 }
--- a/crates/eficore/src/path.rs
+++ b/crates/eficore/src/path.rs
@@ -2,29 +2,49 @@ use alloc::borrow::ToOwned;
 use alloc::boxed::Box;
 use alloc::string::{String, ToString};
 use alloc::vec::Vec;
-use anyhow::{Context, Result, bail};
+use anyhow::{Context, Result};
 use core::ops::Deref;
 use sha2::{Digest, Sha256};
 use uefi::boot::SearchType;
 use uefi::fs::{FileSystem, Path};
 use uefi::proto::device_path::text::{AllowShortcuts, DevicePathFromText, DisplayOnly};
 use uefi::proto::device_path::{DevicePath, PoolDevicePath};
 use uefi::proto::media::fs::SimpleFileSystem;
-use uefi::proto::media::partition::PartitionInfo;
+use uefi::{CString16, Handle};
 use uefi::{CString16, Guid, Handle};
 use uefi_raw::Status;
-/// Support code for the EFI framebuffer.
+/// Represents the components of a resolved path.
-pub mod framebuffer;
+pub struct ResolvedPath {
    /// The root path of the resolved path. This is the device itself.
    /// For example, "PciRoot(0x0)/Pci(0x4,0x0)/NVMe(0x1,00-00-00-00-00-00-00-00)/HD(1,MBR,0xBE1AFDFA,0x3F,0xFBFC1)/"
    pub root_path: Box<DevicePath>,
    /// The subpath of the resolved path. This is the path to the file.
    /// For example, "\EFI\BOOT\BOOTX64.efi"
    pub sub_path: Box<DevicePath>,
    /// The full path of the resolved path. This is the safest path to use.
    /// For example, "PciRoot(0x0)/Pci(0x4,0x0)/NVMe(0x1,00-00-00-00-00-00-00-00)/HD(1,MBR,0xBE1AFDFA,0x3F,0xFBFC1)/\EFI\BOOT\BOOTX64.efi"
    pub full_path: Box<DevicePath>,
    /// The handle of the filesystem containing the path.
    /// This can be used to acquire a [SimpleFileSystem] protocol to read the file.
    pub filesystem_handle: Handle,
 }
-/// Support code for the media loader protocol.
+impl ResolvedPath {
-pub mod media_loader;
+    /// Read the file specified by this path into a buffer and return it.
    pub fn read_file(&self) -> Result<Vec<u8>> {
        let fs = uefi::boot::open_protocol_exclusive::<SimpleFileSystem>(self.filesystem_handle)
            .context("unable to open filesystem protocol")?;
        let mut fs = FileSystem::new(fs);
        let path = self
            .sub_path
            .to_string(DisplayOnly(false), AllowShortcuts(false))?;
        let content = fs.read(Path::new(&path));
        content.context("unable to read file contents")
    }
 }
-/// Support code for EFI variables.
+/// Checks if a [CString16] contains a char `c`.
-pub mod variables;
+/// We need to call to_string() because CString16 doesn't support `contains` with a char.
-
+fn cstring16_contains_char(string: &CString16, c: char) -> bool {
-/// Implements a version comparison algorithm according to the BLS specification.
+    string.to_string().contains(c)
-pub mod vercmp;
+}
 /// Parses the input `path` as a [DevicePath].
 /// Uses the [DevicePathFromText] protocol exclusively, and will fail if it cannot acquire the protocol.
@@ -41,12 +61,6 @@ pub fn text_to_device_path(path: &str) -> Result<PoolDevicePath> {
        .context("unable to convert text to device path")
 }
 /// Checks if a [CString16] contains a char `c`.
 /// We need to call to_string() because CString16 doesn't support `contains` with a char.
 fn cstring16_contains_char(string: &CString16, c: char) -> bool {
    string.to_string().contains(c)
 }
 /// Grabs the root part of the `path`.
 /// For example, given "PciRoot(0x0)/Pci(0x4,0x0)/NVMe(0x1,00-00-00-00-00-00-00-00)/HD(1,MBR,0xBE1AFDFA,0x3F,0xFBFC1)/\EFI\BOOT\BOOTX64.efi"
 /// it will give "PciRoot(0x0)/Pci(0x4,0x0)/NVMe(0x1,00-00-00-00-00-00-00-00)/HD(1,MBR,0xBE1AFDFA,0x3F,0xFBFC1)"
@@ -96,36 +110,6 @@ pub fn device_path_subpath(path: &DevicePath) -> Result<String> {
    Ok(path)
 }
 /// Represents the components of a resolved path.
 pub struct ResolvedPath {
    /// The root path of the resolved path. This is the device itself.
    /// For example, "PciRoot(0x0)/Pci(0x4,0x0)/NVMe(0x1,00-00-00-00-00-00-00-00)/HD(1,MBR,0xBE1AFDFA,0x3F,0xFBFC1)/"
    pub root_path: Box<DevicePath>,
    /// The subpath of the resolved path. This is the path to the file.
    /// For example, "\EFI\BOOT\BOOTX64.efi"
    pub sub_path: Box<DevicePath>,
    /// The full path of the resolved path. This is the safest path to use.
    /// For example, "PciRoot(0x0)/Pci(0x4,0x0)/NVMe(0x1,00-00-00-00-00-00-00-00)/HD(1,MBR,0xBE1AFDFA,0x3F,0xFBFC1)/\EFI\BOOT\BOOTX64.efi"
    pub full_path: Box<DevicePath>,
    /// The handle of the filesystem containing the path.
    /// This can be used to acquire a [SimpleFileSystem] protocol to read the file.
    pub filesystem_handle: Handle,
 }
 impl ResolvedPath {
    /// Read the file specified by this path into a buffer and return it.
    pub fn read_file(&self) -> Result<Vec<u8>> {
        let fs = uefi::boot::open_protocol_exclusive::<SimpleFileSystem>(self.filesystem_handle)
            .context("unable to open filesystem protocol")?;
        let mut fs = FileSystem::new(fs);
        let path = self
            .sub_path
            .to_string(DisplayOnly(false), AllowShortcuts(false))?;
        let content = fs.read(Path::new(&path));
        content.context("unable to read file contents")
    }
 }
 /// Resolve a path specified by `input` to its various components.
 /// Uses `default_root_path` as the base root if one is not specified in the path.
 /// Returns [ResolvedPath] which contains the resolved components.
@@ -188,114 +172,3 @@ pub fn read_file_contents(default_root_path: Option<&DevicePath>, input: &str) -
    let resolved = resolve_path(default_root_path, input)?;
    resolved.read_file()
 }
 /// 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 {
    hex::encode(Sha256::digest(input.as_bytes()))
 }
 /// Represents the type of partition GUID that can be retrieved.
 #[derive(PartialEq, Eq)]
 pub enum PartitionGuidForm {
    /// The partition GUID is the unique partition GUID.
    Partition,
    /// The partition GUID is the partition type GUID.
    PartitionType,
 }
 /// Retrieve the partition / partition type GUID of the device root `path`.
 /// This only works on GPT partitions. If the root is not a GPT partition, None is returned.
 /// If the GUID is all zeros, this will return None.
 pub fn partition_guid(path: &DevicePath, form: PartitionGuidForm) -> Result<Option<Guid>> {
    // Clone the path so we can pass it to the UEFI stack.
    let path = path.to_boxed();
    let result = uefi::boot::locate_device_path::<PartitionInfo>(&mut &*path);
    let handle = match result {
        Ok(handle) => Ok(Some(handle)),
        Err(error) => {
            // If the error is NOT_FOUND or UNSUPPORTED, we can return None.
            // These are non-fatal errors.
            if error.status() == Status::NOT_FOUND || error.status() == Status::UNSUPPORTED {
                Ok(None)
            } else {
                Err(error)
            }
        }
    }
    .context("unable to locate device path")?;
    // If we have the handle, we can try to open the partition info protocol.
    if let Some(handle) = handle {
        // Open the partition info protocol.
        let partition_info = uefi::boot::open_protocol_exclusive::<PartitionInfo>(handle)
            .context("unable to open partition info protocol")?;
        // Find the unique partition GUID.
        // If this is not a GPT partition, this will produce None.
        Ok(partition_info
            .gpt_partition_entry()
            .map(|entry| match form {
                // Match the form of the partition GUID.
                PartitionGuidForm::Partition => entry.unique_partition_guid,
                PartitionGuidForm::PartitionType => entry.partition_type_guid.0,
            })
            .filter(|guid| !guid.is_zero()))
    } else {
        Ok(None)
    }
 }
 /// Find a handle that provides the specified `protocol`.
 pub fn find_handle(protocol: &Guid) -> Result<Option<Handle>> {
    // Locate the requested protocol handle.
    match uefi::boot::locate_handle_buffer(SearchType::ByProtocol(protocol)) {
        // If a handle is found, the protocol is available.
        Ok(handles) => Ok(if handles.is_empty() {
            None
        } else {
            Some(handles[0])
        }),
        // If an error occurs, check if it is because the protocol is not available.
        // If so, return false. Otherwise, return the error.
        Err(error) => {
            if error.status() == Status::NOT_FOUND {
                Ok(None)
            } else {
                Err(error).context("unable to determine if the protocol is available")
            }
        }
    }
 }
 /// Convert a byte slice into a CString16.
 pub fn utf16_bytes_to_cstring16(bytes: &[u8]) -> Result<CString16> {
    // Validate the input bytes are the right length.
    if !bytes.len().is_multiple_of(2) {
        bail!("utf16 bytes must be a multiple of 2");
    }
    // Convert the bytes to UTF-16 data.
    let data = bytes
        // Chunk everything into two bytes.
        .chunks_exact(2)
        // Reinterpret the bytes as u16 little-endian.
        .map(|chunk| u16::from_le_bytes([chunk[0], chunk[1]]))
        // Collect the result into a vector.
        .collect::<Vec<_>>();
    CString16::try_from(data).context("unable to convert utf16 bytes to CString16")
 }
--- a/crates/eficore/src/platform.rs
+++ b/crates/eficore/src/platform.rs
@@ -0,0 +1,4 @@
 /// Timer support.
 pub mod timer;
 /// TPM support.
 pub mod tpm;
--- a/crates/eficore/src/platform/timer.rs
+++ b/crates/eficore/src/platform/timer.rs
--- a/crates/eficore/src/platform/timer/aarch64.rs
+++ b/crates/eficore/src/platform/timer/aarch64.rs
--- a/crates/eficore/src/platform/timer/x86_64.rs
+++ b/crates/eficore/src/platform/timer/x86_64.rs
--- a/crates/eficore/src/platform/tpm.rs
+++ b/crates/eficore/src/platform/tpm.rs
@@ -1,4 +1,3 @@
 use crate::utils;
 use anyhow::{Context, Result};
 use uefi::ResultExt;
 use uefi::boot::ScopedProtocol;
@@ -43,8 +42,8 @@ impl PlatformTpm {
    /// Returns None if TPM is not available.
    fn protocol() -> Result<Option<TpmProtocolHandle>> {
        // Attempt to acquire the TCG2 protocol handle. If it's not available, return None.
-        let Some(handle) =
+        let Some(handle) = crate::handle::find_handle(&Tcg2Protocol::GUID)
-            utils::find_handle(&Tcg2Protocol::GUID).context("unable to determine tpm presence")?
+            .context("unable to determine tpm presence")?
        else {
            return Ok(None);
        };
--- a/crates/eficore/src/secure.rs
+++ b/crates/eficore/src/secure.rs
@@ -1,4 +1,4 @@
-use crate::utils::variables::VariableController;
+use crate::variables::VariableController;
 use anyhow::Result;
 /// Secure boot services.
--- a/crates/eficore/src/setup.rs
+++ b/crates/eficore/src/setup.rs
--- a/crates/sprout/src/integrations/shim.rs
+++ b/crates/sprout/src/integrations/shim.rs
@@ -1,17 +1,11 @@
-use crate::integrations::shim::hook::SecurityHook;
+use crate::path::ResolvedPath;
-use crate::secure::SecureBoot;
+use crate::variables::{VariableClass, VariableController};
 use crate::utils;
 use crate::utils::ResolvedPath;
 use crate::utils::variables::{VariableClass, VariableController};
 use alloc::boxed::Box;
 use alloc::string::ToString;
 use alloc::vec::Vec;
 use anyhow::{Context, Result, anyhow, bail};
 use core::ffi::c_void;
 use core::pin::Pin;
 use log::warn;
 use uefi::Handle;
 use uefi::boot::LoadImageSource;
 use uefi::proto::device_path::text::{AllowShortcuts, DisplayOnly};
 use uefi::proto::device_path::{DevicePath, FfiDevicePath};
 use uefi::proto::unsafe_protocol;
@@ -19,7 +13,7 @@ use uefi_raw::table::runtime::VariableVendor;
 use uefi_raw::{Guid, Status, guid};
 /// Security hook support.
-mod hook;
+pub mod hook;
 /// Support for the shim loader application for Secure Boot.
 pub struct ShimSupport;
@@ -90,7 +84,7 @@ impl<'a> ShimInput<'a> {
                let path = path
                    .to_string(DisplayOnly(false), AllowShortcuts(false))
                    .context("unable to convert device path to string")?;
-                let path = utils::resolve_path(None, &path.to_string())
+                let path = crate::path::resolve_path(None, &path.to_string())
                    .context("unable to resolve path")?;
                // Read the file path.
                let data = path.read_file()?;
@@ -163,14 +157,14 @@ impl ShimSupport {
    /// Determines whether the shim is loaded.
    pub fn loaded() -> Result<bool> {
-        Ok(utils::find_handle(&Self::SHIM_LOCK_GUID)
+        Ok(crate::handle::find_handle(&Self::SHIM_LOCK_GUID)
            .context("unable to find shim lock protocol")?
            .is_some())
    }
    /// Determines whether the shim loader is available.
    pub fn loader_available() -> Result<bool> {
-        Ok(utils::find_handle(&Self::SHIM_IMAGE_LOADER_GUID)
+        Ok(crate::handle::find_handle(&Self::SHIM_IMAGE_LOADER_GUID)
            .context("unable to find shim image loader protocol")?
            .is_some())
    }
@@ -178,7 +172,7 @@ impl ShimSupport {
    /// Use the shim to validate the `input`, returning [ShimVerificationOutput] when complete.
    pub fn verify(input: ShimInput) -> Result<ShimVerificationOutput> {
        // Acquire the handle to the shim lock protocol.
-        let handle = utils::find_handle(&Self::SHIM_LOCK_GUID)
+        let handle = crate::handle::find_handle(&Self::SHIM_LOCK_GUID)
            .context("unable to find shim lock protocol")?
            .ok_or_else(|| anyhow!("unable to find shim lock protocol"))?;
        // Acquire the protocol exclusively to the shim lock.
@@ -238,72 +232,6 @@ impl ShimSupport {
            .unwrap_or(ShimVerificationOutput::VerifiedDataNotLoaded))
    }
    /// Load the image specified by the `input` and returns an image handle.
    pub fn load(current_image: Handle, input: ShimInput) -> Result<Handle> {
        // Determine whether Secure Boot is enabled.
        let secure_boot =
            SecureBoot::enabled().context("unable to determine if secure boot is enabled")?;
        // Determine whether the shim is loaded.
        let shim_loaded = Self::loaded().context("unable to determine if shim is loaded")?;
        // Determine whether the shim loader is available.
        let shim_loader_available =
            Self::loader_available().context("unable to determine if shim loader is available")?;
        // Determines whether LoadImage in Boot Services must be patched.
        // Version 16 of the shim doesn't require extra effort to load Secure Boot binaries.
        // If the image loader is installed, we can skip over the security hook.
        let requires_security_hook = secure_boot && shim_loaded && !shim_loader_available;
        // If the security hook is required, we will bail for now.
        if requires_security_hook {
            // Install the security hook, if possible. If it's not, this is necessary to continue,
            // so we should bail.
            let installed = SecurityHook::install().context("unable to install security hook")?;
            if !installed {
                bail!("unable to install security hook required for this platform");
            }
        }
        // If the shim is loaded, we will need to retain the shim protocol to allow
        // loading multiple images.
        if shim_loaded {
            // Retain the shim protocol after loading the image.
            Self::retain()?;
        }
        // Converts the shim input to an owned data buffer.
        let input = input
            .into_owned_data_buffer()
            .context("unable to convert input to loaded data buffer")?;
        // Constructs a LoadImageSource from the input.
        let source = LoadImageSource::FromBuffer {
            buffer: input.buffer().context("unable to get buffer from input")?,
            file_path: input.file_path(),
        };
        // Loads the image using Boot Services LoadImage function.
        let result = uefi::boot::load_image(current_image, source).context("unable to load image");
        // If the security override is required, we will uninstall the security hook.
        if requires_security_hook {
            let uninstall_result = SecurityHook::uninstall();
            // Ensure we don't mask load image errors if uninstalling fails.
            if result.is_err()
                && let Err(uninstall_error) = &uninstall_result
            {
                // Warn on the error since the load image error is more important.
                warn!("unable to uninstall security hook: {}", uninstall_error);
            } else {
                // Otherwise, ensure we handle the original uninstallation result.
                uninstall_result?;
            }
        }
        result
    }
    /// Set the ShimRetainProtocol variable to indicate that shim should retain the protocols
    /// for the full lifetime of boot services.
    pub fn retain() -> Result<()> {
--- a/crates/sprout/src/integrations/shim/hook.rs
+++ b/crates/sprout/src/integrations/shim/hook.rs
@@ -1,5 +1,4 @@
-use crate::integrations::shim::{ShimInput, ShimSupport, ShimVerificationOutput};
+use crate::shim::{ShimInput, ShimSupport, ShimVerificationOutput};
 use crate::utils;
 use anyhow::{Context, Result};
 use core::slice;
 use log::warn;
@@ -181,14 +180,14 @@ impl SecurityHook {
    /// Install the security hook if needed.
    pub fn install() -> Result<bool> {
        // Find the security arch protocol. If we can't find it, we will return false.
-        let Some(hook_arch) = utils::find_handle(&SECURITY_ARCH_GUID)
+        let Some(hook_arch) = crate::handle::find_handle(&SECURITY_ARCH_GUID)
            .context("unable to check security arch existence")?
        else {
            return Ok(false);
        };
        // Find the security arch2 protocol. If we can't find it, we will return false.
-        let Some(hook_arch2) = utils::find_handle(&SECURITY_ARCH2_GUID)
+        let Some(hook_arch2) = crate::handle::find_handle(&SECURITY_ARCH2_GUID)
            .context("unable to check security arch2 existence")?
        else {
            return Ok(false);
@@ -228,14 +227,14 @@ impl SecurityHook {
    /// Uninstalls the global security hook, if installed.
    pub fn uninstall() -> Result<()> {
        // Find the security arch protocol. If we can't find it, we will do nothing.
-        let Some(hook_arch) = utils::find_handle(&SECURITY_ARCH_GUID)
+        let Some(hook_arch) = crate::handle::find_handle(&SECURITY_ARCH_GUID)
            .context("unable to check security arch existence")?
        else {
            return Ok(());
        };
        // Find the security arch2 protocol. If we can't find it, we will do nothing.
-        let Some(hook_arch2) = utils::find_handle(&SECURITY_ARCH2_GUID)
+        let Some(hook_arch2) = crate::handle::find_handle(&SECURITY_ARCH2_GUID)
            .context("unable to check security arch2 existence")?
        else {
            return Ok(());
--- a/crates/eficore/src/strings.rs
+++ b/crates/eficore/src/strings.rs
@@ -0,0 +1,22 @@
 use alloc::vec::Vec;
 use anyhow::{Context, Result, bail};
 use uefi::CString16;
 /// Convert a byte slice into a CString16.
 pub fn utf16_bytes_to_cstring16(bytes: &[u8]) -> Result<CString16> {
    // Validate the input bytes are the right length.
    if !bytes.len().is_multiple_of(2) {
        bail!("utf16 bytes must be a multiple of 2");
    }
    // Convert the bytes to UTF-16 data.
    let data = bytes
        // Chunk everything into two bytes.
        .chunks_exact(2)
        // Reinterpret the bytes as u16 little-endian.
        .map(|chunk| u16::from_le_bytes([chunk[0], chunk[1]]))
        // Collect the result into a vector.
        .collect::<Vec<_>>();
    CString16::try_from(data).context("unable to convert utf16 bytes to CString16")
 }
--- a/crates/sprout/src/utils/variables.rs
+++ b/crates/sprout/src/utils/variables.rs
@@ -1,4 +1,4 @@
-use crate::utils;
+use crate::strings;
 use alloc::format;
 use alloc::string::{String, ToString};
 use alloc::vec::Vec;
@@ -59,7 +59,7 @@ impl VariableController {
        match uefi::runtime::get_variable_boxed(&name, &self.vendor) {
            Ok((data, _)) => {
                // Try to decode UTF-16 bytes to a CString16.
-                match utils::utf16_bytes_to_cstring16(&data) {
+                match strings::utf16_bytes_to_cstring16(&data) {
                    Ok(value) => {
                        // We have a value, so return the UTF-8 value.
                        Ok(Some(value.to_string()))
--- a/crates/sprout/build.rs
+++ b/crates/sprout/build.rs
@@ -1,57 +0,0 @@
 use std::path::PathBuf;
 use std::{env, fs};
 /// The size of the sbat.csv file.
 const SBAT_SIZE: usize = 512;
 /// Generate the sbat.csv for the .sbat link section.
 ///
 /// We intake a sbat.template.tsv and output a sbat.csv which is included by src/sbat.rs
 fn generate_sbat_csv() {
    // Notify Cargo that if the Sprout version changes, we need to regenerate the sbat.csv.
    println!("cargo:rerun-if-env-changed=CARGO_PKG_VERSION");
    // The version of the sprout crate.
    let sprout_version = env::var("CARGO_PKG_VERSION").expect("CARGO_PKG_VERSION not set");
    // The output directory to place the sbat.csv into.
    let output_dir = PathBuf::from(env::var("OUT_DIR").expect("OUT_DIR not set"));
    // The output path to the sbat.csv.
    let output_file = output_dir.join("sbat.csv");
    // The path to the root of the sprout crate.
    let sprout_root =
        PathBuf::from(env::var("CARGO_MANIFEST_DIR").expect("CARGO_MANIFEST_DIR not set"));
    // The path to the sbat.template.tsv file is in the source directory of the sprout crate.
    let template_path = sprout_root.join("src/sbat.template.csv");
    // Read the sbat.csv template file.
    let template = fs::read_to_string(&template_path).expect("unable to read template file");
    // Replace the version placeholder in the template with the actual version.
    let sbat = template.replace("{version}", &sprout_version);
    // Encode the sbat.csv as bytes.
    let mut encoded = sbat.as_bytes().to_vec();
    if encoded.len() > SBAT_SIZE {
        panic!("sbat.csv is too large");
    }
    // Pad the sbat.csv to the required size.
    while encoded.len() < SBAT_SIZE {
        encoded.push(0);
    }
    // Write the sbat.csv to the output directory.
    fs::write(&output_file, encoded).expect("unable to write sbat.csv");
 }
 /// Build script entry point.
 /// Right now, all we need to do is generate the sbat.csv file.
 fn main() {
    // Generate the sbat.csv file.
    generate_sbat_csv();
 }
--- a/crates/sprout/src/integrations.rs
+++ b/crates/sprout/src/integrations.rs
@@ -1,4 +0,0 @@
 /// Implements support for the bootloader interface specification.
 pub mod bootloader_interface;
 /// Implements support for the shim loader application for Secure Boot.
 pub mod shim;
--- a/crates/sprout/src/options.rs
+++ b/crates/sprout/src/options.rs
@@ -1,137 +0,0 @@
 use crate::options::parser::{OptionDescription, OptionForm, OptionsRepresentable};
 use alloc::collections::BTreeMap;
 use alloc::string::{String, ToString};
 use anyhow::{Context, Result, bail};
 /// Acquire arguments from UEFI environment.
 pub mod env;
 /// The Sprout options parser.
 pub mod parser;
 /// Default configuration file path.
 const DEFAULT_CONFIG_PATH: &str = "\\sprout.toml";
 /// The parsed options of sprout.
 #[derive(Debug)]
 pub struct SproutOptions {
    /// Configures Sprout automatically based on the environment.
    pub autoconfigure: bool,
    /// Path to a configuration file to load.
    pub config: String,
    /// Entry to boot without showing the boot menu.
    pub boot: Option<String>,
    /// Force display of the boot menu.
    pub force_menu: bool,
    /// The timeout for the boot menu in seconds.
    pub menu_timeout: Option<u64>,
 }
 /// The default Sprout options.
 impl Default for SproutOptions {
    fn default() -> Self {
        Self {
            autoconfigure: false,
            config: DEFAULT_CONFIG_PATH.to_string(),
            boot: None,
            force_menu: false,
            menu_timeout: None,
        }
    }
 }
 /// The options parser mechanism for Sprout.
 impl OptionsRepresentable for SproutOptions {
    /// Produce the [SproutOptions] structure.
    type Output = Self;
    /// All the Sprout options that are defined.
    fn options() -> &'static [(&'static str, OptionDescription<'static>)] {
        &[
            (
                "autoconfigure",
                OptionDescription {
                    description: "Enable Sprout Autoconfiguration",
                    form: OptionForm::Flag,
                },
            ),
            (
                "config",
                OptionDescription {
                    description: "Path to Sprout configuration file",
                    form: OptionForm::Value,
                },
            ),
            (
                "boot",
                OptionDescription {
                    description: "Entry to boot, bypassing the menu",
                    form: OptionForm::Value,
                },
            ),
            (
                "force-menu",
                OptionDescription {
                    description: "Force showing of the boot menu",
                    form: OptionForm::Flag,
                },
            ),
            (
                "menu-timeout",
                OptionDescription {
                    description: "Boot menu timeout, in seconds",
                    form: OptionForm::Value,
                },
            ),
            (
                "help",
                OptionDescription {
                    description: "Display Sprout Help",
                    form: OptionForm::Help,
                },
            ),
        ]
    }
    /// Produces [SproutOptions] from the parsed raw `options` map.
    fn produce(options: BTreeMap<String, Option<String>>) -> Result<Self> {
        // Use the default value of sprout options and have the raw options be parsed into it.
        let mut result = Self::default();
        for (key, value) in options {
            match key.as_str() {
                "autoconfigure" => {
                    // Enable autoconfiguration.
                    result.autoconfigure = true;
                }
                "config" => {
                    // The configuration file to load.
                    result.config = value.context("--config option requires a value")?;
                }
                "boot" => {
                    // The entry to boot.
                    result.boot = Some(value.context("--boot option requires a value")?);
                }
                "force-menu" => {
                    // Force showing of the boot menu.
                    result.force_menu = true;
                }
                "menu-timeout" => {
                    // The timeout for the boot menu in seconds.
                    let value = value.context("--menu-timeout option requires a value")?;
                    let value = value
                        .parse::<u64>()
                        .context("menu-timeout must be a number")?;
                    result.menu_timeout = Some(value);
                }
                _ => bail!("unknown option: --{key}"),
            }
        }
        Ok(result)
    }
 }
--- a/crates/sprout/src/options/parser.rs
+++ b/crates/sprout/src/options/parser.rs
@@ -1,153 +0,0 @@
 use crate::options::env;
 use alloc::collections::BTreeMap;
 use alloc::string::{String, ToString};
 use anyhow::{Context, Result, bail};
 use core::ptr::null_mut;
 use log::info;
 use uefi_raw::Status;
 /// The type of option. This disambiguates different behavior
 /// of how options are handled.
 #[derive(Debug, Clone, Ord, PartialOrd, Eq, PartialEq)]
 pub enum OptionForm {
    /// A flag, like --verbose.
    Flag,
    /// A value, in the form --abc 123 or --abc=123.
    Value,
    /// Help flag, like --help.
    Help,
 }
 /// The description of an option, used in the options parser
 /// to make decisions about how to progress.
 #[derive(Debug, Clone)]
 pub struct OptionDescription<'a> {
    /// The description of the option.
    pub description: &'a str,
    /// The type of option to parse as.
    pub form: OptionForm,
 }
 /// Represents a type that can be parsed from command line arguments.
 /// This is a super minimal options parser mechanism just for Sprout.
 pub trait OptionsRepresentable {
    /// The output type that parsing will produce.
    type Output;
    /// The configured options for this type. This should describe all the options
    /// that are valid to produce the type. The left hand side is the name of the option,
    /// and the right hand side is the description.
    fn options() -> &'static [(&'static str, OptionDescription<'static>)];
    /// Produces the type by taking the `options` and processing it into the output.
    fn produce(options: BTreeMap<String, Option<String>>) -> Result<Self::Output>;
    /// For minimalism, we don't want a full argument parser. Instead, we use
    /// a simple --xyz = xyz: None and --abc 123 = abc: Some("123") format.
    /// We also support --abc=123 = abc: Some("123") format.
    fn parse_raw() -> Result<BTreeMap<String, Option<String>>> {
        // Access the configured options for this type.
        let configured: BTreeMap<_, _> = BTreeMap::from_iter(Self::options().to_vec());
        // Collect all the arguments to Sprout.
        // Skip the first argument, which is the path to our executable.
        let args = env::args()?;
        // Represent options as key-value pairs.
        let mut options = BTreeMap::new();
        // Iterators makes this way easier.
        let mut iterator = args.into_iter().peekable();
        loop {
            // Consume the next option, if any.
            let Some(option) = iterator.next() else {
                break;
            };
            // If the option doesn't start with --, that is invalid.
            if !option.starts_with("--") {
                bail!("invalid option: {option}");
            }
            // Strip the -- prefix off.
            let mut option = option["--".len()..].trim().to_string();
            // An optional value.
            let mut value = None;
            // Check if the option is of the form --abc=123
            if let Some((part_key, part_value)) = option.split_once('=') {
                let part_key = part_key.to_string();
                let part_value = part_value.to_string();
                option = part_key;
                value = Some(part_value);
            }
            // Error on empty option names.
            if option.is_empty() {
                bail!("invalid empty option");
            }
            // Find the description of the configured option, if any.
            let Some(description) = configured.get(option.as_str()) else {
                bail!("invalid option: --{option}");
            };
            // Check if the option requires a value and error if none was provided.
            if description.form == OptionForm::Value && value.is_none() {
                // Check for the next value.
                let maybe_next = iterator.peek();
                // If the next value isn't another option, set the value to the next value.
                // Otherwise, it is None.
                value = if let Some(next) = maybe_next
                    && !next.starts_with("--")
                {
                    iterator.next()
                } else {
                    None
                };
            }
            // If the option form does not support a value and there is a value, error.
            if description.form != OptionForm::Value && value.is_some() {
                bail!("option --{} does not take a value", option);
            }
            // Handle the --help flag case.
            if description.form == OptionForm::Help {
                // Generic configured options output.
                info!("Configured Options:");
                for (name, description) in &configured {
                    info!(
                        "  --{}{}: {}",
                        name,
                        if description.form == OptionForm::Value {
                            " <value>"
                        } else {
                            ""
                        },
                        description.description
                    );
                }
                // Exit because the help has been displayed.
                unsafe {
                    uefi::boot::exit(uefi::boot::image_handle(), Status::SUCCESS, 0, null_mut());
                };
            }
            // Insert the option and the value into the map.
            options.insert(option, value);
        }
        Ok(options)
    }
    /// Parses the program arguments as a [Self::Output], calling [Self::parse_raw] and [Self::produce].
    fn parse() -> Result<Self::Output> {
        // Parse the program arguments into a raw map.
        let options = Self::parse_raw().context("unable to parse options")?;
        // Produce the options from the map.
        Self::produce(options)
    }
 }
--- a/crates/sprout/src/platform.rs
+++ b/crates/sprout/src/platform.rs
@@ -1,4 +0,0 @@
 /// timer: Platform timer support.
 pub mod timer;
 /// tpm: Platform TPM support.
 pub mod tpm;
--- a/crates/sprout/src/sbat.rs
+++ b/crates/sprout/src/sbat.rs
@@ -1,11 +0,0 @@
 /// SBAT must be aligned by 512 bytes.
 const SBAT_SIZE: usize = 512;
 /// Define the SBAT attestation by including the sbat.csv file.
 /// See this document for more details: https://github.com/rhboot/shim/blob/main/SBAT.md
 /// NOTE: Alignment can't be enforced by an attribute, so instead the alignment is currently
 /// enforced by the SBAT_SIZE being 512. The build.rs will ensure that the sbat.csv is padded.
 /// This code will not compile if the sbat.csv is a different size than SBAT_SIZE.
 #[used]
 #[unsafe(link_section = ".sbat")]
 static SBAT: [u8; SBAT_SIZE] = *include_bytes!(concat!(env!("OUT_DIR"), "/sbat.csv"));
--- a/docs/setup/signed/debian.md
+++ b/docs/setup/signed/debian.md
@@ -60,7 +60,7 @@ Copy the downloaded `sprout.efi` file to `/boot/efi/EFI/sprout/sprout.unsigned.e
 ## Step 4: Sign Sprout for Secure Boot
 ```bash
-# For x86_64, sign the unsigned Sprout artifact and name it grubaa64.efi which is what the shim will call.
+# For x86_64, sign the unsigned Sprout artifact and name it grubx64.efi which is what the shim will call.
 $ sbsign \
    --key /etc/sprout/secure-boot/mok.key \
    --cert /etc/sprout/secure-boot/mok.crt \
@@ -120,8 +120,8 @@ path = "\\EFI\\sprout\\ext4.efi"
 # global options.
 [options]
-# enable autoconfiguration by detecting bls enabled
+# enable autoconfiguration by detecting installed kernels
-# filesystems and generating boot entries for them.
+# generating boot entries for them.
 autoconfigure = true
 ```
@@ -130,14 +130,16 @@ If you do not have any drivers, exclude the drivers section entirely.
 ## Step 7: Configure Sprout Boot Entry
-In the following commands, replace /dev/ESP_PARTITION with the actual path to the ESP partition block device.
+In the following commands, replace /dev/BLOCK_DEVICE with the device that houses your GPT partition table,
 and PARTITION_NUMBER with the partition number of the EFI System Partition. For example, if your EFI System Partition is
 `/dev/sda1`, the BLOCK_DEVICE would be `/dev/sda` and the PARTITION_NUMBER would be `1`
 ```bash
 # For x86_64, run this command to add Sprout as the default boot entry.
-$ efibootmgr -d /dev/ESP_PARTITION -c -L 'Sprout' -l '\EFI\sprout\shimx64.efi'
+$ efibootmgr -d /dev/BLOCK_DEVICE -p PARTITION_NUMBER -c -L 'Sprout' -l '\EFI\sprout\shimx64.efi'
 # For aarch64, run this command to add Sprout as the default boot entry.
-$ efibootmgr -d /dev/ESP_PARTITION -c -L 'Sprout' -l '\EFI\sprout\shimaa64.efi'
+$ efibootmgr -d /dev/BLOCK_DEVICE -p PARTITION_NUMBER -c -L 'Sprout' -l '\EFI\sprout\shimaa64.efi'
 ```
 Reboot your machine and it should boot into Sprout.
--- a/docs/setup/signed/fedora.md
+++ b/docs/setup/signed/fedora.md
@@ -0,0 +1,172 @@
 # Setup Sprout for Fedora with Secure Boot
 ## Prerequisites
 - Modern Fedora release: tested on Fedora 43 x86_64.
 - EFI System Partition mounted on `/boot/efi` (the default)
 - You will need the following packages installed: `openssl`, `mokutil`, `sbsigntools`, `efibootmgr`
 **NOTE**: Fedora on ARM64 itself does not support Secure Boot consistently.
 ## Step 1: Generate and Install Secure Boot Key
 ```bash
 # Create a directory to store the Secure Boot MOK key and certificates.
 $ mkdir -p /etc/sprout/secure-boot
 # Change to the created directory.
 $ cd /etc/sprout/secure-boot
 # Generate a MOK key and certificate.
 $ openssl req \
    -newkey rsa:4096 -nodes -keyout mok.key \
    -new -x509 -sha256 -days 3650 -subj '/CN=Sprout Secure Boot/' \
    -out mok.crt
 # Generate a DER encoded certificate for enrollment.
 $ openssl x509 -outform DER -in mok.crt -out mok.cer
 # Import the certificate into the Secure Boot environment.
 # This will ask you to make a password that will be used during enrollment.
 $ mokutil --import mok.cer
 # Reboot your machine.
 # During boot, MOK enrollment should appear. If it doesn't, ensure you are booting into the shim.
 # Press any key to begin MOK management. Select "Enroll MOK".
 # Select "View key 0", and ensure the subject says "CN=Sprout Secure Boot".
 # If the subject does not match, something has gone wrong with MOK enrollment.
 # Press Enter to continue, then select the "Continue" option.
 # When it asks to enroll the key, select the "Yes" option.
 # Enter the password that you created during the mokutil --import step.
 # Select "Reboot" to boot back into your Operating System.
 ```
 ## Step 2: Prepare the Secure Boot Environment
 ```bash
 # Create a directory for Sprout EFI artifacts.
 $ mkdir -p /boot/efi/EFI/sprout
 # For x86_64, copy the following artifacts to the Sprout EFI directory.
 $ cp /boot/efi/EFI/fedora/shimx64.efi /boot/efi/EFI/sprout/shimx64.efi
 $ cp /boot/efi/EFI/fedora/mmx64.efi /boot/efi/EFI/sprout/mmx64.efi
 # For aarch64, copy the following artifacts to the Sprout EFI directory.
 $ cp /boot/efi/EFI/fedora/shimaa64.efi /boot/efi/EFI/sprout/shimaa64.efi
 $ cp /boot/efi/EFI/fedora/mmaa64.efi /boot/efi/EFI/sprout/mmaa64.efi
 ```
 ## Step 3: Install Unsigned Sprout
 Download the latest sprout.efi release from the [GitHub releases page](https://github.com/edera-dev/sprout/releases).
 For x86_64 systems, download the `sprout-x86_64.efi` file, and for ARM64 systems, download the `sprout-aarch64.efi` file.
 Copy the downloaded `sprout.efi` file to `/boot/efi/EFI/sprout/sprout.unsigned.efi` on your EFI System Partition.
 ## Step 4: Sign Sprout for Secure Boot
 ```bash
 # For x86_64, sign the unsigned Sprout artifact and name it grubx64.efi which is what the shim will call.
 $ sbsign \
    --key /etc/sprout/secure-boot/mok.key \
    --cert /etc/sprout/secure-boot/mok.crt \
    --output /boot/efi/EFI/sprout/grubx64.efi \
    /boot/efi/EFI/sprout/sprout.unsigned.efi
 # For aarch64, sign the unsigned Sprout artifact and name it grubaa64.efi which is what the shim will call.
 $ sbsign \
    --key /etc/sprout/secure-boot/mok.key \
    --cert /etc/sprout/secure-boot/mok.crt \
    --output /boot/efi/EFI/sprout/grubaa64.efi \
    /boot/efi/EFI/sprout/sprout.unsigned.efi
 ```
 ## Step 5: Install and Sign EFI Drivers
 You will need a filesystem EFI driver if `/boot` is not FAT32 or ExFAT.
 ### ext4
 Most Fedora systems use an ext4 filesystem for `/boot`, if that is the case, use the ext4 instructions here:
 Install the necessary `edk2-ext4` package:
 ```bash
 # Install the ext4 driver from the package manager.
 $ dnf install edk2-ext4
 ```
 Copy the ext4 driver to `/boot/efi/EFI/sprout/ext4.unsigned.efi`:
 ```bash
 # For x86_64, copy the ext4x64.efi driver to the Sprout EFI directory.
 $ cp /usr/share/edk2/drivers/ext4x64.efi /boot/efi/EFI/sprout/ext4.unsigned.efi
 # For aarch64, copy the ext4aa64.efi driver to the Sprout EFI directory.
 $ cp /usr/share/edk2/drivers/ext4aa64.efi /boot/efi/EFI/sprout/ext4.unsigned.efi
 ```
 ```bash
 # Sign the ext4 driver at ext4.unsigned.efi, placing it at ext4.efi, which will be used in the configuration.
 $ sbsign \
    --key /etc/sprout/secure-boot/mok.key \
    --cert /etc/sprout/secure-boot/mok.crt \
    --output /boot/efi/EFI/sprout/ext4.efi \
    /boot/efi/EFI/sprout/ext4.unsigned.efi
 ```
 ### Other Filesystems
 If you need another driver, you can download EFI filesystem drivers from [EfiFs releases](https://github.com/pbatard/EfiFs/releases).
 Copy the driver to `/boot/efi/EFI/sprout/DRIVER_NAME.unsigned.efi` for signing, then sign it like this:
 ```bash
 # Sign your driver, placing it at DRIVER_NAME.efi, which will be used in the configuration.
 $ sbsign \
    --key /etc/sprout/secure-boot/mok.key \
    --cert /etc/sprout/secure-boot/mok.crt \
    --output /boot/efi/EFI/sprout/DRIVER_NAME.efi \
    /boot/efi/EFI/sprout/DRIVER_NAME.unsigned.efi
 ```
 You will add the driver in your Sprout configuration below, like this:
 ```toml
 [drivers.DRIVER_NAME]
 path = "\\EFI\\sprout\\DRIVER_NAME.efi"
 ```
 ## Step 6: Create Sprout Configuration
 Write the following to the file `/boot/efi/sprout.toml`:
 ```toml
 # sprout configuration: version 1
 version = 1
 # load an ext4 EFI driver.
 # skip this if you do not have a filesystem driver.
 # if your filesystem driver is not named ext4, change accordingly.
 [drivers.ext4]
 path = "\\EFI\\sprout\\ext4.efi"
 # global options.
 [options]
 # enable autoconfiguration by detecting bls enabled
 # filesystems and generating boot entries for them.
 autoconfigure = true
 ```
 Ensure you add the signed driver paths to the configuration, not the unsigned ones.
 If you do not have any drivers, exclude the drivers section entirely.
 ## Step 7: Configure Sprout Boot Entry
 In the following commands, replace /dev/BLOCK_DEVICE with the device that houses your GPT partition table,
 and PARTITION_NUMBER with the partition number of the EFI System Partition. For example, if your EFI System Partition is
 `/dev/sda1`, the BLOCK_DEVICE would be `/dev/sda` and the PARTITION_NUMBER would be `1`
 ```bash
 # For x86_64, run this command to add Sprout as the default boot entry.
 $ efibootmgr -d /dev/BLOCK_DEVICE -p PARTITION_NUMBER -c -L 'Sprout' -l '\EFI\sprout\shimx64.efi'
 # For aarch64, run this command to add Sprout as the default boot entry.
 $ efibootmgr -d /dev/BLOCK_DEVICE -p PARTITION_NUMBER -c -L 'Sprout' -l '\EFI\sprout\shimaa64.efi'
 ```
 Reboot your machine and it should boot into Sprout.
 If Sprout fails to boot, it should boot into the original bootloader.
--- a/docs/setup/signed/opensuse.md
+++ b/docs/setup/signed/opensuse.md
@@ -128,11 +128,13 @@ If you do not have any drivers, exclude the drivers section entirely.
 ## Step 7: Configure Sprout Boot Entry
-In the following commands, replace /dev/ESP_PARTITION with the actual path to the ESP partition block device.
+In the following commands, replace /dev/BLOCK_DEVICE with the device that houses your GPT partition table,
 and PARTITION_NUMBER with the partition number of the EFI System Partition. For example, if your EFI System Partition is
 `/dev/sda1`, the BLOCK_DEVICE would be `/dev/sda` and the PARTITION_NUMBER would be `1`
 ```bash
 # Run this command to add Sprout as the default boot entry.
-$ efibootmgr -d /dev/ESP_PARTITION -c -L 'Sprout' -l '\EFI\sprout\shim.efi'
+$ efibootmgr -d /dev/BLOCK_DEVICE -p PARTITION_NUMBER -c -L 'Sprout' -l '\EFI\sprout\shim.efi'
 ```
 Reboot your machine and it should boot into Sprout.
--- a/docs/setup/signed/ubuntu.md
+++ b/docs/setup/signed/ubuntu.md
@@ -59,7 +59,7 @@ Copy the downloaded `sprout.efi` file to `/boot/efi/EFI/sprout/sprout.unsigned.e
 ## Step 4: Sign Sprout for Secure Boot
 ```bash
-# For x86_64, sign the unsigned Sprout artifact and name it grubaa64.efi which is what the shim will call.
+# For x86_64, sign the unsigned Sprout artifact and name it grubx64.efi which is what the shim will call.
 $ sbsign \
    --key /etc/sprout/secure-boot/mok.key \
    --cert /etc/sprout/secure-boot/mok.crt \
@@ -119,8 +119,8 @@ path = "\\EFI\\sprout\\ext4.efi"
 # global options.
 [options]
-# enable autoconfiguration by detecting bls enabled
+# enable autoconfiguration by detecting installed kernels
-# filesystems and generating boot entries for them.
+# generating boot entries for them.
 autoconfigure = true
 ```
@@ -129,14 +129,18 @@ If you do not have any drivers, exclude the drivers section entirely.
 ## Step 7: Configure Sprout Boot Entry
-In the following commands, replace /dev/ESP_PARTITION with the actual path to the ESP partition block device.
+## Step 7: Configure Sprout Boot Entry
 In the following commands, replace /dev/BLOCK_DEVICE with the device that houses your GPT partition table,
 and PARTITION_NUMBER with the partition number of the EFI System Partition. For example, if your EFI System Partition is
 `/dev/sda1`, the BLOCK_DEVICE would be `/dev/sda` and the PARTITION_NUMBER would be `1`
 ```bash
 # For x86_64, run this command to add Sprout as the default boot entry.
-$ efibootmgr -d /dev/ESP_PARTITION -c -L 'Sprout' -l '\EFI\sprout\shimx64.efi'
+$ efibootmgr -d /dev/BLOCK_DEVICE -p PARTITION_NUMBER -c -L 'Sprout' -l '\EFI\sprout\shimx64.efi'
 # For aarch64, run this command to add Sprout as the default boot entry.
-$ efibootmgr -d /dev/ESP_PARTITION -c -L 'Sprout' -l '\EFI\sprout\shimaa64.efi'
+$ efibootmgr -d /dev/BLOCK_DEVICE -p PARTITION_NUMBER -c -L 'Sprout' -l '\EFI\sprout\shimaa64.efi'
 ```
 Reboot your machine and it should boot into Sprout.
--- a/hack/dev/boot.sh
+++ b/hack/dev/boot.sh
@@ -30,9 +30,9 @@ if [ "${QEMU_GDB_WAIT}" = "1" ]; then
 	set -- "${@}" "-S"
 fi
-set -- "${@}" -smp 2 -m 4096
+set -- "${@}" -nodefaults -smp 2 -m 4096
-if [ "${NO_GRAPHICAL_BOOT}" = "1" ]; then
+if [ "${NO_GRAPHICAL}" = "1" ]; then
 	set -- "${@}" -nographic
 else
 	if [ "${GRAPHICAL_ONLY}" != "1" ]; then
@@ -41,7 +41,7 @@ else
 		else
 			set -- "${@}" \
 				-device virtio-serial-pci,id=vs0 \
-				-chardev stdio,id=stdio0 \
+				-chardev stdio,id=stdio0,signal=off \
 				-device virtconsole,chardev=stdio0,id=console0
 		fi
 	fi
@@ -62,6 +62,12 @@ if [ "${NO_INPUT}" != "1" ]; then
 		-device usb-mouse
 fi
 if [ "${NO_NETWORK}" != "1" ]; then
 	set -- "${@}" \
 		-netdev user,id=network0 \
 		-device virtio-net-pci,netdev=network0
 fi
 rm -f "${FINAL_DIR}/ovmf-boot.fd"
 cp "${FINAL_DIR}/ovmf.fd" "${FINAL_DIR}/ovmf-boot.fd"
 if [ "${TARGET_ARCH}" = "aarch64" ]; then
--- a/hack/dev/boot/Dockerfile
+++ b/hack/dev/boot/Dockerfile
@@ -1,4 +1,4 @@
-FROM --platform=$BUILDPLATFORM debian:trixie@sha256:fd8f5a1df07b5195613e4b9a0b6a947d3772a151b81975db27d47f093f60c6e6 AS build
+FROM --platform=$BUILDPLATFORM debian:trixie@sha256:01a723bf5bfb21b9dda0c9a33e0538106e4d02cce8f557e118dd61259553d598 AS build
 ARG BUILDPLATFORM
 ARG EFI_NAME
 RUN export DEBIAN_FRONTEND=noninteractive && apt-get update && apt-get install -y \
--- a/hack/dev/build.sh
+++ b/hack/dev/build.sh
@@ -48,7 +48,7 @@ copy_from_image_polyfill() {
 	SOURCE="${2}"
 	TARGET="${3}"
-	docker build -t "${IMAGE}-copy-polyfill:${DOCKER_TAG}" --build-arg "TARGET_IMAGE=${IMAGE}:${DOCKER_TAG}" \
+	docker build --platform="${DOCKER_TARGET}" -t "${IMAGE}-copy-polyfill:${DOCKER_TAG}" --build-arg "TARGET_IMAGE=${IMAGE}:${DOCKER_TAG}" \
 		-f hack/dev/utils/Dockerfile.copy-polyfill hack
 	# note: the -w '//' is a workaround for Git Bash where / is magically rewritten.
 	docker run --rm -i -w '//' "${IMAGE}-copy-polyfill:${DOCKER_TAG}" cat "image/${SOURCE}" >"${TARGET}"
@@ -81,7 +81,7 @@ if [ "${SKIP_VM_BUILD}" != "1" ]; then
 	copy_from_image "${DOCKER_PREFIX}/sprout-ovmf-${TARGET_ARCH}" "ovmf.fd" "${FINAL_DIR}/ovmf.fd"
 	copy_from_image "${DOCKER_PREFIX}/sprout-ovmf-${TARGET_ARCH}" "shell.efi" "${FINAL_DIR}/shell.efi"
 	docker build --platform="${DOCKER_TARGET}" -t "${DOCKER_PREFIX}/sprout-initramfs-${TARGET_ARCH}:${DOCKER_TAG}" \
-		-f hack/dev/vm/Dockerfile.initramfs "${FINAL_DIR}"
+		-f hack/dev/vm/Dockerfile.initramfs "hack/dev/vm"
 	copy_from_image "${DOCKER_PREFIX}/sprout-initramfs-${TARGET_ARCH}" "initramfs" "${FINAL_DIR}/initramfs"
 	if [ -n "${SPROUT_XEN_EFI_OVERRIDE}" ]; then
--- a/hack/dev/configs/all.sprout.toml
+++ b/hack/dev/configs/all.sprout.toml
@@ -8,7 +8,7 @@ has-item = "\\vmlinuz"
 [actions.chainload-kernel]
 chainload.path = "$boot\\vmlinuz"
-chainload.options = ["console=hvc0"]
+chainload.options = ["console=hvc0", "overlaytmpfs=yes"]
 chainload.linux-initrd = "$boot\\initramfs"
 [entries.kernel]
--- a/hack/dev/configs/kernel.sprout.toml
+++ b/hack/dev/configs/kernel.sprout.toml
@@ -9,7 +9,7 @@ has-item = "\\vmlinuz"
 [actions.chainload-kernel]
 chainload.path = "$boot\\vmlinuz"
-chainload.options = ["console=hvc0"]
+chainload.options = ["console=hvc0", "overlaytmpfs=yes"]
 chainload.linux-initrd = "$boot\\initramfs"
 [entries.kernel]
--- a/hack/dev/kernel/Dockerfile
+++ b/hack/dev/kernel/Dockerfile
@@ -1,7 +1,7 @@
-ARG KERNEL_SOURCE_URL=https://cdn.kernel.org/pub/linux/kernel/v6.x/linux-6.17.2.tar.xz
+ARG KERNEL_SOURCE_URL=https://cdn.kernel.org/pub/linux/kernel/v6.x/linux-6.17.8.tar.xz
-ARG KERNEL_CHECKSUM=sha256:fdebcb065065f5c1b8dc68a6fb59cda50cdddbf9103d207c2196d55ea764f57f
+ARG KERNEL_CHECKSUM=sha256:5a8de64a75fca706c01c6c0a77cf75a74618439db195e25f1f0268af6b2fb1da
-FROM --platform=$BUILDPLATFORM debian:trixie@sha256:fd8f5a1df07b5195613e4b9a0b6a947d3772a151b81975db27d47f093f60c6e6 AS buildenv
+FROM --platform=$BUILDPLATFORM debian:trixie@sha256:01a723bf5bfb21b9dda0c9a33e0538106e4d02cce8f557e118dd61259553d598 AS buildenv
 RUN export DEBIAN_FRONTEND=noninteractive && apt-get update && apt-get install -y \
      build-essential squashfs-tools python3-yaml \
      patch diffutils sed mawk findutils zstd \
--- a/hack/dev/kernel/docker-build.sh
+++ b/hack/dev/kernel/docker-build.sh
@@ -36,9 +36,14 @@ if [ "${TARGET_KARCH}" = "x86_64" ]; then
 fi
 make CROSS_COMPILE="${MAYBE_CROSS_COMPILE}" ARCH="${TARGET_KARCH}" mod2yesconfig
 ./scripts/config -e UEVENT_HELPER
 ./scripts/config --set-str UEVENT_HELPER_PATH "/sbin/hotplug"
 ./scripts/config -e DRM_VIRTIO_GPU
 ./scripts/config -e FRAMEBUFFER_CONSOLE
 ./scripts/config -e FRAMEBUFFER_CONSOLE_DETECT_PRIMARY
 ./scripts/config -e LOGO
 ./scripts/config -e XEN_DOM0
 make "-j$(nproc)" CROSS_COMPILE="${MAYBE_CROSS_COMPILE}" ARCH="${TARGET_KARCH}"
--- a/hack/dev/utils/Dockerfile.copy-direct
+++ b/hack/dev/utils/Dockerfile.copy-direct
@@ -1 +1 @@
-FROM --platform=$BUILDPLATFORM debian:trixie@sha256:fd8f5a1df07b5195613e4b9a0b6a947d3772a151b81975db27d47f093f60c6e6
+FROM --platform=$BUILDPLATFORM debian:trixie@sha256:01a723bf5bfb21b9dda0c9a33e0538106e4d02cce8f557e118dd61259553d598
--- a/hack/dev/utils/Dockerfile.copy-polyfill
+++ b/hack/dev/utils/Dockerfile.copy-polyfill
@@ -1,4 +1,4 @@
 ARG TARGET_IMAGE=scratch
 FROM ${TARGET_IMAGE} AS image
-FROM --platform=$BUILDPLATFORM debian:trixie@sha256:fd8f5a1df07b5195613e4b9a0b6a947d3772a151b81975db27d47f093f60c6e6 AS final
+FROM --platform=$BUILDPLATFORM debian:trixie@sha256:01a723bf5bfb21b9dda0c9a33e0538106e4d02cce8f557e118dd61259553d598 AS final
 COPY --from=image / /image
--- a/hack/dev/vm/Dockerfile.initramfs
+++ b/hack/dev/vm/Dockerfile.initramfs
@@ -1,5 +1,5 @@
-FROM alpine:3.22@sha256:4bcff63911fcb4448bd4fdacec207030997caf25e9bea4045fa6c8c44de311d1 AS rootfs
+FROM alpine:3.22@sha256:4b7ce07002c69e8f3d704a9c5d6fd3053be500b7f1c69fc0d80990c2ad8dd412 AS rootfs
-RUN apk --no-cache add alpine-base tzdata
+RUN apk --no-cache add alpine-base tzdata ifupdown-ng agetty
 RUN rc-update add devfs sysinit && \
    rc-update add dmesg sysinit && \
    rc-update add mdev sysinit && \
@@ -7,6 +7,7 @@ RUN rc-update add devfs sysinit && \
    rc-update add sysctl boot && \
    rc-update add hostname boot && \
    rc-update add bootmisc boot && \
    rc-update add networking boot && \
    rc-update add syslog boot && \
    rc-update add mount-ro shutdown && \
    rc-update add killprocs shutdown && \
@@ -14,11 +15,12 @@ RUN rc-update add devfs sysinit && \
    ln -s /sbin/init /init && \
    echo 'root:root' | chpasswd && \
    echo 'sprout' > /etc/hostname && \
-    echo '' > /etc/motd && \
+    rm /etc/motd && \
    ln -s /usr/share/zoneinfo/UTC /etc/localtime && \
-    echo 'hvc0::respawn:/sbin/getty -L hvc0 115200 vt100' >> /etc/inittab
+    echo 'hvc0::respawn:/sbin/agetty --autologin root -L hvc0 115200 vt100' >> /etc/inittab
 COPY files/interfaces /etc/network/interfaces
-FROM alpine:3.22@sha256:4bcff63911fcb4448bd4fdacec207030997caf25e9bea4045fa6c8c44de311d1 AS build
+FROM alpine:3.22@sha256:4b7ce07002c69e8f3d704a9c5d6fd3053be500b7f1c69fc0d80990c2ad8dd412 AS build
 COPY --from=rootfs / /rootfs
 WORKDIR /rootfs
 RUN find . | cpio -R 0:0 --ignore-devno --renumber-inodes -o -H newc --quiet > /initramfs
--- a/hack/dev/vm/Dockerfile.ovmf
+++ b/hack/dev/vm/Dockerfile.ovmf
@@ -1,4 +1,4 @@
-FROM alpine:3.22@sha256:4bcff63911fcb4448bd4fdacec207030997caf25e9bea4045fa6c8c44de311d1 AS build
+FROM alpine:3.22@sha256:4b7ce07002c69e8f3d704a9c5d6fd3053be500b7f1c69fc0d80990c2ad8dd412 AS build
 ARG TARGETPLATFORM
 RUN if [ "${TARGETPLATFORM}" = "linux/amd64" ] || [ "${TARGETPLATFORM}" = "linux/x86_64" ]; then \
      apk --no-cache add ovmf edk2-shell; cp /usr/share/ovmf/bios.bin /ovmf.fd; fi
--- a/hack/dev/vm/Dockerfile.xen
+++ b/hack/dev/vm/Dockerfile.xen
@@ -1,4 +1,4 @@
-FROM alpine:3.22@sha256:4bcff63911fcb4448bd4fdacec207030997caf25e9bea4045fa6c8c44de311d1 AS build
+FROM alpine:3.22@sha256:4b7ce07002c69e8f3d704a9c5d6fd3053be500b7f1c69fc0d80990c2ad8dd412 AS build
 ARG TARGETPLATFORM
 RUN apk add --no-cache xen-hypervisor && cp /usr/lib/efi/xen.efi /xen.efi
--- a/hack/dev/vm/files/interfaces
+++ b/hack/dev/vm/files/interfaces
@@ -0,0 +1,3 @@
 auto eth0
 iface eth0
    use dhcp
--- a/rust-toolchain.toml
+++ b/rust-toolchain.toml
@@ -1,4 +1,4 @@
 [toolchain]
-channel = "1.91.0"
+channel = "1.91.1"
 components = ["rustfmt", "clippy"]
 targets = ["x86_64-unknown-uefi", "aarch64-unknown-uefi"]
Author	SHA1	Message	Date
Alex Zenla	0dbd011648	Merge pull request #40 from edera-dev/chore/release-v0.0.26 chore(release): sprout: version 0.0.26	2025-11-17 10:18:11 -08:00
Alex Zenla	65c392944b	chore(release): sprout: version 0.0.26	2025-11-17 10:14:58 -08:00
Ariadne Conill	2683229bd3	Merge pull request #35 from edera-dev/chore/dev-improve-alpine chore(dev): autologin to alpine and writable rootfs	2025-11-17 10:01:17 -08:00
Alex Zenla	a7a9554875	Merge pull request #38 from edera-dev/feat/partial-match-default feat(entries): support '*' suffix as a partial match to an entry	2025-11-15 21:25:59 -08:00
Alex Zenla	5ad617c54f	feat(entries): support '*' suffix as a partial match to an entry	2025-11-15 20:36:31 -08:00
Alex Zenla	0aa7a46808	Merge pull request #27 from edera-dev/feat/jaarg feat(options): replace options parser with jaarg	2025-11-15 18:02:46 -08:00
Alex Zenla	8711c54074	feat(boot): utilize jaarg for options parsing	2025-11-15 17:31:46 -08:00
Ariadne Conill	c21c140039	Merge pull request #37 from edera-dev/fix/linux-auto-detect-aarch64-images fix(autoconfigure/linux): detect Image as a kernel, which openSUSE uses	2025-11-15 14:50:18 -08:00
Alex Zenla	c053f62b88	fix(autoconfigure/linux): detect Image as a kernel, which openSUSE uses	2025-11-15 13:41:07 -08:00
Alex Zenla	e0bd703511	chore(dev): autologin to alpine and writable rootfs	2025-11-15 13:37:50 -08:00
Alex Zenla	2a9c9f6907	Merge pull request #34 from edera-dev/chore/release-0.0.25 chore(release): sprout: version 0.0.25	2025-11-14 10:49:09 -05:00
Alex Zenla	16755acdfe	chore(release): sprout: version 0.0.25	2025-11-14 10:45:16 -05:00
Alex Zenla	ebb1f0bb44	Merge pull request #33 from edera-dev/chore/upgrade-deps chore(deps): upgrade rust to 1.91.1 and bump cargo and docker deps	2025-11-14 00:30:48 -05:00
Alex Zenla	ecba8a5e02	chore(deps): upgrade rust to 1.91.1 and bump cargo and docker deps	2025-11-14 00:24:09 -05:00
Alex Zenla	0028e3eefc	Merge pull request #32 from rkratky/typo	2025-11-12 10:15:49 -05:00
Robert Krátký	8603794c44	Fix a typo: grubaa64.efi -> grubx64.efi	2025-11-12 16:11:13 +01:00
Alex Zenla	4fae4080a2	Merge pull request #29 from edera-dev/dependabot/github_actions/actions-updates-1be5372544 chore(deps): bump the actions-updates group with 2 updates	2025-11-10 10:09:58 -05:00
dependabot[bot]	da5e0daa51	chore(deps): bump the actions-updates group with 2 updates Bumps the actions-updates group with 2 updates: [astral-sh/setup-uv](https://github.com/astral-sh/setup-uv) and [github/codeql-action](https://github.com/github/codeql-action). Updates `astral-sh/setup-uv` from 7.1.1 to 7.1.2 - [Release notes](https://github.com/astral-sh/setup-uv/releases) - [Commits](`2ddd2b9cb3...85856786d1`) Updates `github/codeql-action` from 4.31.0 to 4.31.2 - [Release notes](https://github.com/github/codeql-action/releases) - [Changelog](https://github.com/github/codeql-action/blob/main/CHANGELOG.md) - [Commits](`4e94bd11f7...0499de31b9`) --- updated-dependencies: - dependency-name: astral-sh/setup-uv dependency-version: 7.1.2 dependency-type: direct:production update-type: version-update:semver-patch dependency-group: actions-updates - dependency-name: github/codeql-action dependency-version: 4.31.2 dependency-type: direct:production update-type: version-update:semver-patch dependency-group: actions-updates ... Signed-off-by: dependabot[bot] <support@github.com>	2025-11-10 12:27:22 +00:00
Alex Zenla	0fb54a948b	chore(doc): add fedora setup guide and tweak existing guides	2025-11-06 23:51:57 -05:00
Alex Zenla	c4475ad42d	fix(boot): ensure top-level error is printed	2025-11-06 13:04:05 -05:00
Alex Zenla	5e4e86857c	sprout: version 0.0.24	2025-11-06 12:03:46 -05:00
Alex Zenla	d3cad25749	chore(deps): upgrade uefi dependencies	2025-11-06 12:03:19 -05:00
Alex Zenla	22780e6102	chore(eficore): decouple the shim support from the image load callsites	2025-11-06 11:52:00 -05:00
Alex Zenla	c52d61b07f	fix(eficore): handle possible leak when the first install protocol interface fails	2025-11-04 14:32:32 -05:00
Alex Zenla	0ce6ffa3da	sprout: version 0.0.23	2025-11-04 12:16:53 -05:00
Alex Zenla	a1028c629d	fix(eficore/env): improve quirk handling for dell systems	2025-11-03 23:58:48 -05:00
Alex Zenla	503a9cba0a	chore(code): move load options parsing to crates/eficore	2025-11-03 23:45:35 -05:00
Alex Zenla	532fb38d5a	chore(code): move crates/sprout to crates/boot and name it edera-sprout-boot	2025-11-03 22:52:54 -05:00
Alex Zenla	9a803ad355	chore(code): sbat section generator build tool	2025-11-03 22:37:06 -05:00
Alex Zenla	632781abbf	chore(code): split much of the efi support code to crates/eficore	2025-11-03 20:47:21 -05:00
Alex Zenla	48497700d8	fix(sprout): make secure boot warning more specific	2025-11-03 15:31:44 -05:00
		`@@ -0,0 +1,2 @@`
							`// Include the generated sbat section in this file.`
							`include!(concat!(env!("OUT_DIR"), "/sbat.generated.rs"));`
`@@ -1 +1 @@`
	`FROM --platform=$BUILDPLATFORM debian:trixie@sha256:fd8f5a1df07b5195613e4b9a0b6a947d3772a151b81975db27d47f093f60c6e6`	`FROM --platform=$BUILDPLATFORM debian:trixie@sha256:01a723bf5bfb21b9dda0c9a33e0538106e4d02cce8f557e118dd61259553d598`