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62 commits

Author SHA1 Message Date
Erin 23b02b7284 somehow syscalls 2023-03-30 23:06:59 +02:00
Erin e3ab94be87 fixed thing 2023-03-30 21:36:11 +02:00
Erin cef19a8fe4 Formatting, LF and RISC-V kmain 2023-03-19 13:40:08 +01:00
Erin e3ce700295 Merged-in RISC-V memory support. 2023-03-19 13:30:04 +01:00
Erin 70601eb0c5 LLVM tools got a shiny new name 2023-03-16 00:16:23 +01:00
Erin f8630f6471 updated limine-rs 2023-01-20 00:45:19 +01:00
Erin ea7bbacc56 Changed console resolution 2023-01-19 23:30:45 +01:00
Erin eb93deae25 added suggestion when limine is not present 2023-01-15 01:04:14 +01:00
Erin 84d6cc49a1 limine update 2023-01-15 01:01:16 +01:00
Erin fed31617a8 removed useless news 2023-01-15 01:00:43 +01:00
Erin ebd3fe2248 added option to override firmware path 2023-01-09 15:27:10 +01:00
Erin 72c4aabbcc unified naming 2023-01-08 00:48:59 +01:00
Erin 6d2a9c74d4 CRLF before kernel panic msg 2023-01-08 00:45:47 +01:00
Erin 816204cd5b Console logging 2023-01-08 00:44:13 +01:00
Erin b5f75a13f4 added wallpaper for bootloader 2023-01-07 23:44:50 +01:00
Erin c241d839f2 [REPBUILD] fail to run when kernel fails building 2023-01-07 22:32:40 +01:00
Erin 7ac54e5ec8 fixed typo 2023-01-07 22:19:17 +01:00
Erin d3d52c974a clippy and reformat 2023-01-07 22:18:47 +01:00
Erin 7d21956b0a Repbuild now can build kernel on non-POSIX systems and run on non-Linux systems. 2023-01-07 22:11:21 +01:00
Erin b802732acf Rewrote RepBuild 2023-01-07 01:57:20 +01:00
Erin 8d640b6a9b Removed unused code 2022-12-23 23:11:57 +01:00
Erin e33014d000 moved qrcode gen outside the repo 2022-12-23 23:11:39 +01:00
Erin ec5b21292e changed log stuff and removed unnecessary transmute 2022-12-23 22:58:29 +01:00
Erin eae5979921 but 558fc6da59 breaks systems witzh automount! now both should work. 2022-12-23 22:55:38 +01:00
Erin 3414b40da8 Merge pull request 'update limine, fix repbuild on some linux distros, new heap allocator' (#1) from asya/ableos:usermode into usermode
Reviewed-on: https://git.ablecorp.us:443/AbleOS/ableos/pulls/1
2022-12-23 21:51:14 +00:00
Asya 80fd1aaa41 New heap allocator! 2022-12-22 19:22:11 +03:00
Asya 78a5422924 Update limine to v4.x 2022-12-17 10:30:34 +03:00
Asya 558fc6da59 Stop assuming that udisks2 automatically mounted filesystem 2022-12-17 10:24:34 +03:00
Erin e796a05ddf Moved ext2-rs to separate repo 2022-12-10 23:05:48 +01:00
Erin 4c28bfd4d2 uh oh fixed a compilation error 2022-12-09 00:52:28 +01:00
Erin 0249353a6b Added kernel cmdline support and retrieval of initrd 2022-12-08 22:21:21 +01:00
Erin b68984dc7f moved stuff around 2022-12-08 21:31:54 +01:00
Erin 58046c3c7b they don't seem to be used? removing. 2022-12-08 21:25:49 +01:00
Erin e85e5f2ed8 created empty initramfs 2022-12-08 21:12:33 +01:00
Erin 51b084a176 Cleanup 2022-12-08 20:52:20 +01:00
Erin 11b492d6ce fixed segments, timer doesn't double-fault anymore 2022-12-08 20:35:42 +01:00
Erin cc714be94e Moved away from PIC to APIC. 2022-12-08 20:15:10 +01:00
Erin 118c3bb3f0 removed few package from the workspace manifest 2022-12-08 15:54:11 +01:00
Erin a9aa31f087 Added GDT, IDT, sloop and some logging 2022-12-08 01:26:43 +01:00
Erin b3954e3533 Logging 2022-12-08 00:07:02 +01:00
Erin 8fbf7b5a5a Added basic logging support 2022-12-07 01:43:26 +01:00
Erin 7652bbf402 made kernel the system entrypoint. 2022-12-07 01:10:38 +01:00
Erin eae4891071 Skeleton for architecture-specific things 2022-12-06 23:04:28 +01:00
Erin fa82e49dc3 Threw stuff from the microkernel. Start of moving core parts there. 2022-12-06 23:04:26 +01:00
Erin 87fdb2e0bf clippy 2022-12-06 23:04:11 +01:00
Erin aaf840c5b4 removed module that I forgot to remove + 1.65 stuff 2022-12-06 23:04:09 +01:00
Erin 9c2b8573d9 removed sus messaging module 2022-12-06 23:04:04 +01:00
Erin b2cf3621b5 »fixed« scratchpad 2022-12-06 22:39:52 +01:00
Able 82a48f5c98 remove path 2022-12-06 13:24:04 -06:00
Erin 403e410797 repbuild r uses udisks 2022-12-03 17:47:10 +01:00
Able 78a52f7102 Consolidating limine graphics 2022-12-02 08:51:21 -06:00
Able d94e50be39 forgor smp is broked 2022-11-30 01:14:34 -06:00
Able e8712d7c39 framebuffer + smp work 2022-11-24 07:20:16 -06:00
Able 65bb92e02b Ready 2022-11-24 03:35:55 -06:00
Erin 2114b9a346 UNIX fans hate him, he replaced process spawns with IPC!
Doesn't require root permissions now.

TODO: Please replicate BuildImage changes to different places.
2022-11-24 00:22:58 +01:00
Able a2d6d7245a Revert "get ableOS running proper on limine sans graphics"
This reverts commit 1e1d004240.
2022-11-23 06:00:38 -06:00
Able 1e1d004240 get ableOS running proper on limine sans graphics 2022-11-23 05:06:38 -06:00
Able 6e20d33817 limine compiling booting and not panicking 2022-11-23 04:02:02 -06:00
TheOddGarlic 23c355762c progress on porting to limine 2022-08-20 09:28:48 +03:00
TheOddGarlic fe69e31b91 interrupts: page fault handler 2022-08-20 09:26:59 +03:00
TheOddGarlic 346d3a9166 repbuild: generate disk image with limine 2022-08-19 09:22:05 +03:00
TheOddGarlic 643db212ef build: fix rust-toolchain configuration 2022-08-18 09:32:14 +03:00
68 changed files with 767 additions and 6063 deletions

4
.gdbinit Normal file
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set history save on
file target/x86_64-ableos/debug/ableos
target remote localhost:9000
tui enable

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{
"rust-analyzer.checkOnSave.allTargets": false,
"rust-analyzer.showUnlinkedFileNotification": false
"files.associations": {
"stddef.h": "c"
},
"rust-analyzer.checkOnSave.allTargets": false
}

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Cargo.lock generated

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[workspace]
resolver = "2"
members = ["kernel", "repbuild"]

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# AbleOS
An UNIX-unlike micro-kernel written in rust with an embedded bytecode virtual machine.
# ableOS
![Discord](https://img.shields.io/discord/831368967385120810) ![Code Size](https://img.shields.io/github/languages/code-size/abletheabove/ableos)
## Set up
Install [Qemu](https://www.qemu.org/)
# Community
[Discord](https://discord.gg/JrKVukDtgs)
> On Windows be sure to add `C:\Program Files\qemu` to your `PATH` variable
Donations can be made [here on Liberapay](https://liberapay.com/AbleTheAbove) or on [Patreon](https://www.patreon.com/ablecorp)
<img src="https://img.shields.io/liberapay/patrons/AbleTheAbove.svg?logo=liberapay">
`rustup component add rust-src`
# Compiling
AbleOS should be able to be built on any platform which is supported by
[Rustc Tier 1 platform support](https://doc.rust-lang.org/nightly/rustc/platform-support.html#tier-1-with-host-tools).
`rustup component add llvm-tools-preview`
For running AbleOS, `repbuild` uses QEMU.
`cargo install bootimage`
## Steps
1. `git submodule update --init`
2. `cargo repbuild`
## Running
repbuild can be used to run and build docs for able os
`cargo repbuild doc`
`cargo repbuild run`
## Testing on real hardware
I recommend using an old x86_64 computer
* `cargo run --release` to generate a binary image that is bootable
* flash it to a USB device via `dd` or balenaEtcher
* Remove said USB device and plug into test machine
* assure test machine boots from USB devices

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[boot]
# This package must be installed system wide
init = "init_server"
[boot.limine]
default_entry = 1
timeout = 0
verbose = true
interface_resolution = "1024x768x24"
# Terminal related settings
term_wallpaper = "boot:///background.bmp"
term_background = "008080"
[boot.limine.ableos]
comment = "Default AbleOS boot entry."
protocol = "limine"
kernel_path = "boot:///kernel"
kernel_cmdline = "baka=false foobles=true"
resolution = "1024x768x24"
[repositories]
core = "https://git.ablecorp.us/AbleOS/core"
userspace = "https://git.ablecorp.us/AbleOS/ableos_userland"
[packages]
[packages.init_server]
version = "1.0"
hash = ""
repo = "core"

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digraph Drivers {
InitSystem -> VFS;
InitSystem -> Logger;
TCP -> NetworkingStack;
UDP -> NetworkingStack;
NetworkingStack -> PhysLayer;
PhysLayer -> Ethernet;
Ethernet -> Threec90x;
Ethernet -> Intel8254x;
Ethernet -> Ne2000;
Ethernet -> RTL8139;
Ethernet -> RTL8169;
Ethernet -> IntelEtherneti217;
Ethernet -> AMDPCnet;
PhysLayer -> Wifi;
Wifi -> Eight02Dot11;
Audio -> PCSpeaker;
Audio -> SoundBlaster16;
RNG -> CpuRNG;
RNG -> NetworkingStack;
RNG -> GraphicsLibrary;
RNG -> Input;
Slint -> GraphicsLibrary;
GraphicsLibrary -> ShaderCompiler;
ShaderCompiler -> GraphicsDriver;
GraphicsLibrary -> GraphicsDriver;
// Todo: dreak out the GPU into specific drivers
GraphicsDriver -> GPU;
Logger -> Serial;
Logger -> VFS;
Input -> Keyboard;
Input -> GraphicsTablet;
Input -> Mouse;
Input -> Serial;
Input -> Controllers;
Controllers -> Playstation;
Playstation -> DualShock;
Playstation -> DualSense;
DualShock -> DualShock1;
DualShock -> DualShock2;
DualShock -> DualShock3;
DualShock -> DualShock4;
Mouse -> PS2Mouse;
Mouse -> USBMouse;
USBMouse -> GenericUSBMouse;
Mouse -> MouseTrackPad;
Mouse -> MouseTrackPoint;
VFS -> Fat32;
VFS -> TarFS;
VFS -> Ext2;
Ext2 -> VirtualDisk;
TarFS -> VirtualDisk;
Fat32 -> VirtualDisk;
VirtualDisk -> IDEDiskDriver;
VirtualDisk -> ATADiskDriver;
VirtualDisk -> FloppyController;
VirtualDisk -> CDROM;
VirtualDisk -> NVME;
BlueToothStack;
}

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<?xml version="1.0" encoding="UTF-8" standalone="no"?>
<!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 1.1//EN" "http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd">
<!-- Generated by graphviz version 2.40.1 (20161225.0304)
-->
<!-- Title: Drivers Pages: 1 -->
<svg width="2629pt" height="404pt" viewBox="0.00 0.00 2628.89 404.00" xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink">
<g id="graph0" class="graph" transform="scale(1 1) rotate(0) translate(4 400)">
<title>Drivers</title>
<polygon fill="#ffffff" stroke="transparent" points="-4,4 -4,-400 2624.8933,-400 2624.8933,4 -4,4"/>
<!-- InitSystem -->
<g id="node1" class="node">
<title>InitSystem</title>
<ellipse fill="none" stroke="#000000" cx="443.0953" cy="-378" rx="52.7642" ry="18"/>
<text text-anchor="middle" x="443.0953" y="-373.8" font-family="Times,serif" font-size="14.00" fill="#000000">InitSystem</text>
</g>
<!-- VFS -->
<g id="node2" class="node">
<title>VFS</title>
<ellipse fill="none" stroke="#000000" cx="409.0953" cy="-234" rx="28.991" ry="18"/>
<text text-anchor="middle" x="409.0953" y="-229.8" font-family="Times,serif" font-size="14.00" fill="#000000">VFS</text>
</g>
<!-- InitSystem&#45;&gt;VFS -->
<g id="edge1" class="edge">
<title>InitSystem-&gt;VFS</title>
<path fill="none" stroke="#000000" d="M437.8111,-360.0742C434.7997,-349.5989 431.0497,-336.0989 428.0953,-324 423.0522,-303.3476 418.1161,-279.8366 414.5395,-262.025"/>
<polygon fill="#000000" stroke="#000000" points="417.9306,-261.1317 412.55,-252.0049 411.0646,-262.4951 417.9306,-261.1317"/>
</g>
<!-- Logger -->
<g id="node3" class="node">
<title>Logger</title>
<ellipse fill="none" stroke="#000000" cx="476.0953" cy="-306" rx="38.8459" ry="18"/>
<text text-anchor="middle" x="476.0953" y="-301.8" font-family="Times,serif" font-size="14.00" fill="#000000">Logger</text>
</g>
<!-- InitSystem&#45;&gt;Logger -->
<g id="edge2" class="edge">
<title>InitSystem-&gt;Logger</title>
<path fill="none" stroke="#000000" d="M451.2526,-360.2022C454.981,-352.0675 459.4807,-342.2501 463.6203,-333.2181"/>
<polygon fill="#000000" stroke="#000000" points="466.9326,-334.3915 467.9175,-323.8425 460.5691,-331.4749 466.9326,-334.3915"/>
</g>
<!-- Fat32 -->
<g id="node46" class="node">
<title>Fat32</title>
<ellipse fill="none" stroke="#000000" cx="282.0953" cy="-162" rx="33.0643" ry="18"/>
<text text-anchor="middle" x="282.0953" y="-157.8" font-family="Times,serif" font-size="14.00" fill="#000000">Fat32</text>
</g>
<!-- VFS&#45;&gt;Fat32 -->
<g id="edge46" class="edge">
<title>VFS-&gt;Fat32</title>
<path fill="none" stroke="#000000" d="M387.5515,-221.7862C367.3094,-210.3103 336.7716,-192.9976 313.7591,-179.9511"/>
<polygon fill="#000000" stroke="#000000" points="315.4597,-176.8919 305.0343,-175.0048 312.0074,-182.9814 315.4597,-176.8919"/>
</g>
<!-- TarFS -->
<g id="node47" class="node">
<title>TarFS</title>
<ellipse fill="none" stroke="#000000" cx="368.0953" cy="-162" rx="35.3489" ry="18"/>
<text text-anchor="middle" x="368.0953" y="-157.8" font-family="Times,serif" font-size="14.00" fill="#000000">TarFS</text>
</g>
<!-- VFS&#45;&gt;TarFS -->
<g id="edge47" class="edge">
<title>VFS-&gt;TarFS</title>
<path fill="none" stroke="#000000" d="M399.3789,-216.937C394.4978,-208.3654 388.4765,-197.7914 383.0242,-188.2165"/>
<polygon fill="#000000" stroke="#000000" points="386.0167,-186.3986 378.0268,-179.4407 379.9338,-189.8625 386.0167,-186.3986"/>
</g>
<!-- Ext2 -->
<g id="node48" class="node">
<title>Ext2</title>
<ellipse fill="none" stroke="#000000" cx="450.0953" cy="-162" rx="29.0548" ry="18"/>
<text text-anchor="middle" x="450.0953" y="-157.8" font-family="Times,serif" font-size="14.00" fill="#000000">Ext2</text>
</g>
<!-- VFS&#45;&gt;Ext2 -->
<g id="edge48" class="edge">
<title>VFS-&gt;Ext2</title>
<path fill="none" stroke="#000000" d="M418.8117,-216.937C423.6928,-208.3654 429.7141,-197.7914 435.1664,-188.2165"/>
<polygon fill="#000000" stroke="#000000" points="438.2568,-189.8625 440.1638,-179.4407 432.1739,-186.3986 438.2568,-189.8625"/>
</g>
<!-- Logger&#45;&gt;VFS -->
<g id="edge28" class="edge">
<title>Logger-&gt;VFS</title>
<path fill="none" stroke="#000000" d="M460.5557,-289.3008C451.6839,-279.7669 440.4261,-267.6689 430.7037,-257.221"/>
<polygon fill="#000000" stroke="#000000" points="433.0079,-254.5593 423.6333,-249.6229 427.8834,-259.328 433.0079,-254.5593"/>
</g>
<!-- Serial -->
<g id="node29" class="node">
<title>Serial</title>
<ellipse fill="none" stroke="#000000" cx="1400.0953" cy="-234" rx="33.6208" ry="18"/>
<text text-anchor="middle" x="1400.0953" y="-229.8" font-family="Times,serif" font-size="14.00" fill="#000000">Serial</text>
</g>
<!-- Logger&#45;&gt;Serial -->
<g id="edge27" class="edge">
<title>Logger-&gt;Serial</title>
<path fill="none" stroke="#000000" d="M515.2345,-305.3369C663.9095,-302.5495 1193.4867,-290.1059 1357.0953,-252 1359.9033,-251.346 1362.7624,-250.5254 1365.6042,-249.5973"/>
<polygon fill="#000000" stroke="#000000" points="1366.9168,-252.844 1375.0991,-246.1134 1364.5054,-246.2724 1366.9168,-252.844"/>
</g>
<!-- TCP -->
<g id="node4" class="node">
<title>TCP</title>
<ellipse fill="none" stroke="#000000" cx="1436.0953" cy="-378" rx="28.991" ry="18"/>
<text text-anchor="middle" x="1436.0953" y="-373.8" font-family="Times,serif" font-size="14.00" fill="#000000">TCP</text>
</g>
<!-- NetworkingStack -->
<g id="node5" class="node">
<title>NetworkingStack</title>
<ellipse fill="none" stroke="#000000" cx="1398.0953" cy="-306" rx="78.7318" ry="18"/>
<text text-anchor="middle" x="1398.0953" y="-301.8" font-family="Times,serif" font-size="14.00" fill="#000000">NetworkingStack</text>
</g>
<!-- TCP&#45;&gt;NetworkingStack -->
<g id="edge3" class="edge">
<title>TCP-&gt;NetworkingStack</title>
<path fill="none" stroke="#000000" d="M1426.8966,-360.5708C1422.5145,-352.2679 1417.1746,-342.1502 1412.2886,-332.8925"/>
<polygon fill="#000000" stroke="#000000" points="1415.3692,-331.2308 1407.6062,-324.0206 1409.1785,-334.4981 1415.3692,-331.2308"/>
</g>
<!-- PhysLayer -->
<g id="node7" class="node">
<title>PhysLayer</title>
<ellipse fill="none" stroke="#000000" cx="1296.0953" cy="-234" rx="52.1675" ry="18"/>
<text text-anchor="middle" x="1296.0953" y="-229.8" font-family="Times,serif" font-size="14.00" fill="#000000">PhysLayer</text>
</g>
<!-- NetworkingStack&#45;&gt;PhysLayer -->
<g id="edge5" class="edge">
<title>NetworkingStack-&gt;PhysLayer</title>
<path fill="none" stroke="#000000" d="M1373.6638,-288.7542C1359.8688,-279.0166 1342.4757,-266.7391 1327.6572,-256.279"/>
<polygon fill="#000000" stroke="#000000" points="1329.4647,-253.2707 1319.2765,-250.3632 1325.4278,-258.9895 1329.4647,-253.2707"/>
</g>
<!-- UDP -->
<g id="node6" class="node">
<title>UDP</title>
<ellipse fill="none" stroke="#000000" cx="1359.0953" cy="-378" rx="30.1958" ry="18"/>
<text text-anchor="middle" x="1359.0953" y="-373.8" font-family="Times,serif" font-size="14.00" fill="#000000">UDP</text>
</g>
<!-- UDP&#45;&gt;NetworkingStack -->
<g id="edge4" class="edge">
<title>UDP-&gt;NetworkingStack</title>
<path fill="none" stroke="#000000" d="M1368.5361,-360.5708C1373.0335,-352.2679 1378.5139,-342.1502 1383.5285,-332.8925"/>
<polygon fill="#000000" stroke="#000000" points="1386.6488,-334.4805 1388.3341,-324.0206 1380.4937,-331.1465 1386.6488,-334.4805"/>
</g>
<!-- Ethernet -->
<g id="node8" class="node">
<title>Ethernet</title>
<ellipse fill="none" stroke="#000000" cx="852.0953" cy="-162" rx="43.9983" ry="18"/>
<text text-anchor="middle" x="852.0953" y="-157.8" font-family="Times,serif" font-size="14.00" fill="#000000">Ethernet</text>
</g>
<!-- PhysLayer&#45;&gt;Ethernet -->
<g id="edge6" class="edge">
<title>PhysLayer-&gt;Ethernet</title>
<path fill="none" stroke="#000000" d="M1248.5795,-226.2947C1164.418,-212.6469 989.8747,-184.3426 903.2098,-170.2888"/>
<polygon fill="#000000" stroke="#000000" points="903.5198,-166.7935 893.0885,-168.6475 902.3993,-173.7032 903.5198,-166.7935"/>
</g>
<!-- Wifi -->
<g id="node16" class="node">
<title>Wifi</title>
<ellipse fill="none" stroke="#000000" cx="1314.0953" cy="-162" rx="28.9696" ry="18"/>
<text text-anchor="middle" x="1314.0953" y="-157.8" font-family="Times,serif" font-size="14.00" fill="#000000">Wifi</text>
</g>
<!-- PhysLayer&#45;&gt;Wifi -->
<g id="edge14" class="edge">
<title>PhysLayer-&gt;Wifi</title>
<path fill="none" stroke="#000000" d="M1300.6375,-215.8314C1302.6137,-207.9266 1304.9735,-198.4872 1307.1612,-189.7365"/>
<polygon fill="#000000" stroke="#000000" points="1310.587,-190.4637 1309.6169,-179.9134 1303.796,-188.7659 1310.587,-190.4637"/>
</g>
<!-- Threec90x -->
<g id="node9" class="node">
<title>Threec90x</title>
<ellipse fill="none" stroke="#000000" cx="452.0953" cy="-90" rx="52.1501" ry="18"/>
<text text-anchor="middle" x="452.0953" y="-85.8" font-family="Times,serif" font-size="14.00" fill="#000000">Threec90x</text>
</g>
<!-- Ethernet&#45;&gt;Threec90x -->
<g id="edge7" class="edge">
<title>Ethernet-&gt;Threec90x</title>
<path fill="none" stroke="#000000" d="M810.0127,-157.0708C745.598,-149.1277 618.8877,-131.9297 513.0953,-108 508.9759,-107.0682 504.7257,-106.013 500.4758,-104.8921"/>
<polygon fill="#000000" stroke="#000000" points="501.1913,-101.4591 490.6213,-102.1845 499.3366,-108.2089 501.1913,-101.4591"/>
</g>
<!-- Intel8254x -->
<g id="node10" class="node">
<title>Intel8254x</title>
<ellipse fill="none" stroke="#000000" cx="575.0953" cy="-90" rx="52.7527" ry="18"/>
<text text-anchor="middle" x="575.0953" y="-85.8" font-family="Times,serif" font-size="14.00" fill="#000000">Intel8254x</text>
</g>
<!-- Ethernet&#45;&gt;Intel8254x -->
<g id="edge8" class="edge">
<title>Ethernet-&gt;Intel8254x</title>
<path fill="none" stroke="#000000" d="M814.1219,-153.017C770.8839,-142.6703 698.1916,-124.9158 636.0953,-108 632.3083,-106.9684 628.3969,-105.8762 624.4686,-104.7602"/>
<polygon fill="#000000" stroke="#000000" points="625.3084,-101.3599 614.7304,-101.9578 623.3725,-108.0868 625.3084,-101.3599"/>
</g>
<!-- Ne2000 -->
<g id="node11" class="node">
<title>Ne2000</title>
<ellipse fill="none" stroke="#000000" cx="687.0953" cy="-90" rx="41.7172" ry="18"/>
<text text-anchor="middle" x="687.0953" y="-85.8" font-family="Times,serif" font-size="14.00" fill="#000000">Ne2000</text>
</g>
<!-- Ethernet&#45;&gt;Ne2000 -->
<g id="edge9" class="edge">
<title>Ethernet-&gt;Ne2000</title>
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<!-- RTL8139 -->
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<title>RTL8139</title>
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<!-- Ethernet&#45;&gt;RTL8139 -->
<g id="edge10" class="edge">
<title>Ethernet-&gt;RTL8139</title>
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<!-- RTL8169 -->
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<title>RTL8169</title>
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<!-- Ethernet&#45;&gt;RTL8169 -->
<g id="edge11" class="edge">
<title>Ethernet-&gt;RTL8169</title>
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<title>IntelEtherneti217</title>
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<!-- Ethernet&#45;&gt;IntelEtherneti217 -->
<g id="edge12" class="edge">
<title>Ethernet-&gt;IntelEtherneti217</title>
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<title>AMDPCnet</title>
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<!-- Ethernet&#45;&gt;AMDPCnet -->
<g id="edge13" class="edge">
<title>Ethernet-&gt;AMDPCnet</title>
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<!-- Wifi&#45;&gt;Eight02Dot11 -->
<g id="edge15" class="edge">
<title>Wifi-&gt;Eight02Dot11</title>
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<title>Audio</title>
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<text text-anchor="middle" x="2420.0953" y="-373.8" font-family="Times,serif" font-size="14.00" fill="#000000">Audio</text>
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<!-- PCSpeaker -->
<g id="node19" class="node">
<title>PCSpeaker</title>
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<!-- Audio&#45;&gt;PCSpeaker -->
<g id="edge16" class="edge">
<title>Audio-&gt;PCSpeaker</title>
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<!-- SoundBlaster16 -->
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<title>SoundBlaster16</title>
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<!-- Audio&#45;&gt;SoundBlaster16 -->
<g id="edge17" class="edge">
<title>Audio-&gt;SoundBlaster16</title>
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<!-- RNG -->
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<title>RNG</title>
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<text text-anchor="middle" x="1676.0953" y="-373.8" font-family="Times,serif" font-size="14.00" fill="#000000">RNG</text>
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<!-- RNG&#45;&gt;NetworkingStack -->
<g id="edge19" class="edge">
<title>RNG-&gt;NetworkingStack</title>
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<!-- CpuRNG -->
<g id="node22" class="node">
<title>CpuRNG</title>
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<!-- RNG&#45;&gt;CpuRNG -->
<g id="edge18" class="edge">
<title>RNG-&gt;CpuRNG</title>
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<title>GraphicsLibrary</title>
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<!-- RNG&#45;&gt;GraphicsLibrary -->
<g id="edge20" class="edge">
<title>RNG-&gt;GraphicsLibrary</title>
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<!-- Input -->
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<title>Input</title>
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<!-- RNG&#45;&gt;Input -->
<g id="edge21" class="edge">
<title>RNG-&gt;Input</title>
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<!-- ShaderCompiler -->
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<title>ShaderCompiler</title>
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</g>
<!-- GraphicsLibrary&#45;&gt;ShaderCompiler -->
<g id="edge23" class="edge">
<title>GraphicsLibrary-&gt;ShaderCompiler</title>
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<!-- GraphicsDriver -->
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<title>GraphicsDriver</title>
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<text text-anchor="middle" x="2303.0953" y="-157.8" font-family="Times,serif" font-size="14.00" fill="#000000">GraphicsDriver</text>
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<!-- GraphicsLibrary&#45;&gt;GraphicsDriver -->
<g id="edge25" class="edge">
<title>GraphicsLibrary-&gt;GraphicsDriver</title>
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<!-- Input&#45;&gt;Serial -->
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<title>Input-&gt;Serial</title>
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<!-- Keyboard -->
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<title>Keyboard</title>
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<!-- Input&#45;&gt;Keyboard -->
<g id="edge29" class="edge">
<title>Input-&gt;Keyboard</title>
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<!-- GraphicsTablet -->
<g id="node31" class="node">
<title>GraphicsTablet</title>
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</g>
<!-- Input&#45;&gt;GraphicsTablet -->
<g id="edge30" class="edge">
<title>Input-&gt;GraphicsTablet</title>
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<!-- Mouse -->
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<title>Mouse</title>
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<text text-anchor="middle" x="1892.0953" y="-229.8" font-family="Times,serif" font-size="14.00" fill="#000000">Mouse</text>
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<!-- Input&#45;&gt;Mouse -->
<g id="edge31" class="edge">
<title>Input-&gt;Mouse</title>
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<title>Controllers</title>
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<!-- Input&#45;&gt;Controllers -->
<g id="edge33" class="edge">
<title>Input-&gt;Controllers</title>
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<title>Slint</title>
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<!-- Slint&#45;&gt;GraphicsLibrary -->
<g id="edge22" class="edge">
<title>Slint-&gt;GraphicsLibrary</title>
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<g id="edge24" class="edge">
<title>ShaderCompiler-&gt;GraphicsDriver</title>
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<title>GPU</title>
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<g id="edge26" class="edge">
<title>GraphicsDriver-&gt;GPU</title>
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<g id="node41" class="node">
<title>PS2Mouse</title>
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<!-- Mouse&#45;&gt;PS2Mouse -->
<g id="edge41" class="edge">
<title>Mouse-&gt;PS2Mouse</title>
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<g id="node42" class="node">
<title>USBMouse</title>
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<!-- Mouse&#45;&gt;USBMouse -->
<g id="edge42" class="edge">
<title>Mouse-&gt;USBMouse</title>
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<title>MouseTrackPad</title>
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<!-- Mouse&#45;&gt;MouseTrackPad -->
<g id="edge44" class="edge">
<title>Mouse-&gt;MouseTrackPad</title>
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<title>MouseTrackPoint</title>
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<!-- Mouse&#45;&gt;MouseTrackPoint -->
<g id="edge45" class="edge">
<title>Mouse-&gt;MouseTrackPoint</title>
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<title>Playstation</title>
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<g id="edge34" class="edge">
<title>Controllers-&gt;Playstation</title>
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<title>DualShock</title>
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<g id="edge35" class="edge">
<title>Playstation-&gt;DualShock</title>
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<title>DualSense</title>
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<g id="edge36" class="edge">
<title>Playstation-&gt;DualSense</title>
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<g id="node37" class="node">
<title>DualShock1</title>
<ellipse fill="none" stroke="#000000" cx="1420.0953" cy="-18" rx="58.5521" ry="18"/>
<text text-anchor="middle" x="1420.0953" y="-13.8" font-family="Times,serif" font-size="14.00" fill="#000000">DualShock1</text>
</g>
<!-- DualShock&#45;&gt;DualShock1 -->
<g id="edge37" class="edge">
<title>DualShock-&gt;DualShock1</title>
<path fill="none" stroke="#000000" d="M1471.6344,-72.5708C1463.2603,-63.7041 1452.9315,-52.7678 1443.7247,-43.0194"/>
<polygon fill="#000000" stroke="#000000" points="1446.0511,-40.3852 1436.6403,-35.5182 1440.962,-45.1916 1446.0511,-40.3852"/>
</g>
<!-- DualShock2 -->
<g id="node38" class="node">
<title>DualShock2</title>
<ellipse fill="none" stroke="#000000" cx="1556.0953" cy="-18" rx="58.5521" ry="18"/>
<text text-anchor="middle" x="1556.0953" y="-13.8" font-family="Times,serif" font-size="14.00" fill="#000000">DualShock2</text>
</g>
<!-- DualShock&#45;&gt;DualShock2 -->
<g id="edge38" class="edge">
<title>DualShock-&gt;DualShock2</title>
<path fill="none" stroke="#000000" d="M1504.5562,-72.5708C1512.9303,-63.7041 1523.2591,-52.7678 1532.4659,-43.0194"/>
<polygon fill="#000000" stroke="#000000" points="1535.2286,-45.1916 1539.5503,-35.5182 1530.1395,-40.3852 1535.2286,-45.1916"/>
</g>
<!-- DualShock3 -->
<g id="node39" class="node">
<title>DualShock3</title>
<ellipse fill="none" stroke="#000000" cx="1692.0953" cy="-18" rx="58.5521" ry="18"/>
<text text-anchor="middle" x="1692.0953" y="-13.8" font-family="Times,serif" font-size="14.00" fill="#000000">DualShock3</text>
</g>
<!-- DualShock&#45;&gt;DualShock3 -->
<g id="edge39" class="edge">
<title>DualShock-&gt;DualShock3</title>
<path fill="none" stroke="#000000" d="M1525.512,-76.7941C1558.7364,-65.0678 1607.4912,-47.8603 1643.6793,-35.088"/>
<polygon fill="#000000" stroke="#000000" points="1645.2646,-38.2401 1653.5296,-31.6114 1642.9348,-31.6392 1645.2646,-38.2401"/>
</g>
<!-- DualShock4 -->
<g id="node40" class="node">
<title>DualShock4</title>
<ellipse fill="none" stroke="#000000" cx="1284.0953" cy="-18" rx="58.5521" ry="18"/>
<text text-anchor="middle" x="1284.0953" y="-13.8" font-family="Times,serif" font-size="14.00" fill="#000000">DualShock4</text>
</g>
<!-- DualShock&#45;&gt;DualShock4 -->
<g id="edge40" class="edge">
<title>DualShock-&gt;DualShock4</title>
<path fill="none" stroke="#000000" d="M1450.6786,-76.7941C1417.4541,-65.0678 1368.6994,-47.8603 1332.5113,-35.088"/>
<polygon fill="#000000" stroke="#000000" points="1333.2558,-31.6392 1322.661,-31.6114 1330.926,-38.2401 1333.2558,-31.6392"/>
</g>
<!-- GenericUSBMouse -->
<g id="node43" class="node">
<title>GenericUSBMouse</title>
<ellipse fill="none" stroke="#000000" cx="1769.0953" cy="-90" rx="86.8165" ry="18"/>
<text text-anchor="middle" x="1769.0953" y="-85.8" font-family="Times,serif" font-size="14.00" fill="#000000">GenericUSBMouse</text>
</g>
<!-- USBMouse&#45;&gt;GenericUSBMouse -->
<g id="edge43" class="edge">
<title>USBMouse-&gt;GenericUSBMouse</title>
<path fill="none" stroke="#000000" d="M1708.0542,-144.937C1718.1905,-135.8144 1730.8468,-124.4237 1742.0028,-114.3833"/>
<polygon fill="#000000" stroke="#000000" points="1744.3455,-116.9836 1749.4371,-107.6924 1739.6627,-111.7806 1744.3455,-116.9836"/>
</g>
<!-- VirtualDisk -->
<g id="node49" class="node">
<title>VirtualDisk</title>
<ellipse fill="none" stroke="#000000" cx="325.0953" cy="-90" rx="56.7561" ry="18"/>
<text text-anchor="middle" x="325.0953" y="-85.8" font-family="Times,serif" font-size="14.00" fill="#000000">VirtualDisk</text>
</g>
<!-- Fat32&#45;&gt;VirtualDisk -->
<g id="edge51" class="edge">
<title>Fat32-&gt;VirtualDisk</title>
<path fill="none" stroke="#000000" d="M292.5044,-144.5708C297.5524,-136.1184 303.7236,-125.7851 309.3328,-116.3931"/>
<polygon fill="#000000" stroke="#000000" points="312.3608,-118.1489 314.4833,-107.7689 306.351,-114.5597 312.3608,-118.1489"/>
</g>
<!-- TarFS&#45;&gt;VirtualDisk -->
<g id="edge50" class="edge">
<title>TarFS-&gt;VirtualDisk</title>
<path fill="none" stroke="#000000" d="M357.6862,-144.5708C352.6382,-136.1184 346.467,-125.7851 340.8578,-116.3931"/>
<polygon fill="#000000" stroke="#000000" points="343.8396,-114.5597 335.7073,-107.7689 337.8298,-118.1489 343.8396,-114.5597"/>
</g>
<!-- Ext2&#45;&gt;VirtualDisk -->
<g id="edge49" class="edge">
<title>Ext2-&gt;VirtualDisk</title>
<path fill="none" stroke="#000000" d="M428.607,-149.6228C410.2018,-139.0214 383.3012,-123.5266 361.5364,-110.9901"/>
<polygon fill="#000000" stroke="#000000" points="363.2806,-107.9557 352.8684,-105.9973 359.7868,-114.0214 363.2806,-107.9557"/>
</g>
<!-- IDEDiskDriver -->
<g id="node50" class="node">
<title>IDEDiskDriver</title>
<ellipse fill="none" stroke="#000000" cx="453.0953" cy="-18" rx="70.622" ry="18"/>
<text text-anchor="middle" x="453.0953" y="-13.8" font-family="Times,serif" font-size="14.00" fill="#000000">IDEDiskDriver</text>
</g>
<!-- VirtualDisk&#45;&gt;IDEDiskDriver -->
<g id="edge52" class="edge">
<title>VirtualDisk-&gt;IDEDiskDriver</title>
<path fill="none" stroke="#000000" d="M353.1854,-74.1993C371.3097,-64.0044 395.1147,-50.6141 414.9419,-39.4613"/>
<polygon fill="#000000" stroke="#000000" points="416.7372,-42.4672 423.737,-34.514 413.3053,-36.3662 416.7372,-42.4672"/>
</g>
<!-- ATADiskDriver -->
<g id="node51" class="node">
<title>ATADiskDriver</title>
<ellipse fill="none" stroke="#000000" cx="616.0953" cy="-18" rx="74.1354" ry="18"/>
<text text-anchor="middle" x="616.0953" y="-13.8" font-family="Times,serif" font-size="14.00" fill="#000000">ATADiskDriver</text>
</g>
<!-- VirtualDisk&#45;&gt;ATADiskDriver -->
<g id="edge53" class="edge">
<title>VirtualDisk-&gt;ATADiskDriver</title>
<path fill="none" stroke="#000000" d="M368.0029,-78.0928C375.6815,-76.0205 383.6171,-73.9167 391.0953,-72 445.1811,-58.1378 506.8603,-43.4105 551.945,-32.8436"/>
<polygon fill="#000000" stroke="#000000" points="552.9392,-36.2055 561.879,-30.5196 551.3446,-29.3896 552.9392,-36.2055"/>
</g>
<!-- FloppyController -->
<g id="node52" class="node">
<title>FloppyController</title>
<ellipse fill="none" stroke="#000000" cx="78.0953" cy="-18" rx="78.1907" ry="18"/>
<text text-anchor="middle" x="78.0953" y="-13.8" font-family="Times,serif" font-size="14.00" fill="#000000">FloppyController</text>
</g>
<!-- VirtualDisk&#45;&gt;FloppyController -->
<g id="edge54" class="edge">
<title>VirtualDisk-&gt;FloppyController</title>
<path fill="none" stroke="#000000" d="M283.1951,-77.7862C242.8032,-66.012 181.3328,-48.0935 136.2175,-34.9425"/>
<polygon fill="#000000" stroke="#000000" points="137.1453,-31.5673 126.5653,-32.1289 135.1863,-38.2877 137.1453,-31.5673"/>
</g>
<!-- CDROM -->
<g id="node53" class="node">
<title>CDROM</title>
<ellipse fill="none" stroke="#000000" cx="221.0953" cy="-18" rx="46.3875" ry="18"/>
<text text-anchor="middle" x="221.0953" y="-13.8" font-family="Times,serif" font-size="14.00" fill="#000000">CDROM</text>
</g>
<!-- VirtualDisk&#45;&gt;CDROM -->
<g id="edge55" class="edge">
<title>VirtualDisk-&gt;CDROM</title>
<path fill="none" stroke="#000000" d="M301.2356,-73.4817C286.7642,-63.4631 268.1319,-50.5638 252.4754,-39.7247"/>
<polygon fill="#000000" stroke="#000000" points="254.3431,-36.7608 244.1289,-33.9463 250.3586,-42.5161 254.3431,-36.7608"/>
</g>
<!-- NVME -->
<g id="node54" class="node">
<title>NVME</title>
<ellipse fill="none" stroke="#000000" cx="325.0953" cy="-18" rx="39.4254" ry="18"/>
<text text-anchor="middle" x="325.0953" y="-13.8" font-family="Times,serif" font-size="14.00" fill="#000000">NVME</text>
</g>
<!-- VirtualDisk&#45;&gt;NVME -->
<g id="edge56" class="edge">
<title>VirtualDisk-&gt;NVME</title>
<path fill="none" stroke="#000000" d="M325.0953,-71.8314C325.0953,-64.131 325.0953,-54.9743 325.0953,-46.4166"/>
<polygon fill="#000000" stroke="#000000" points="328.5954,-46.4132 325.0953,-36.4133 321.5954,-46.4133 328.5954,-46.4132"/>
</g>
<!-- BlueToothStack -->
<g id="node55" class="node">
<title>BlueToothStack</title>
<ellipse fill="none" stroke="#000000" cx="2547.0953" cy="-378" rx="73.5965" ry="18"/>
<text text-anchor="middle" x="2547.0953" y="-373.8" font-family="Times,serif" font-size="14.00" fill="#000000">BlueToothStack</text>
</g>
</g>
</svg>

Before

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@ -1,4 +0,0 @@
# Commit style
`[SCOPE]: [COMMENT]`
SCOPE is what you changed
COMMENT is why you changed that

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@ -1,32 +0,0 @@
# TODO
- Build out the object system
- Build or Find an acceptable IDL
Short List of potentials
- [comline](https://git.ablecorp.us/DOOME1M8Cover/comline)
- Work on a styleguide for commits
Maybe something allong the lines of
[relevant shorthand note] Explination
- Language support on HBVM
- HBVM assembler (with IDL support)
- HBVM Lisp/s-expr Compiler (Also (with (IDL (support))))
- Documentation
- Drivers
- serial driver
- PS/2 mouse driver
- PS/2 Keyboard driver
- VGA driver
- SVGA driver
- File system
- Depends on Disk driver
- TarFS
Pass in a tar file as an initrd and parse it with TarFS
- VFS
Being (written)[https://git.ablecorp.us/bee/ableos-vfs] by Bee
- Disk driver
- IDE Driver
- ATA Driver
- Floppy Driver
- A ton more
- Port (Slint)[https://slint.dev]
- Depends on
- Graphics Driver

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@ -1,50 +0,0 @@
strict graph OS {
layout=dot;
ModelingSoftware -- GraphicsAPI;
ModelingSoftware -- HID;
ModelingSoftware -- VFS;
GameEngine3D -- GraphicsAPI;
GameEngine3D -- VFS;
GameEngine3D -- AudioSubsystem;
GameEngine3D -- HID;
GameEngine3D -- Networking;
Git -- VFS;
Git -- Networking;
ListFile -- VFS;
MakeFile -- VFS;
AudioSubsystem -- AbleOSInterface;
GraphicsAPI -- AbleOSInterface;
HID -- AbleOSInterface;
Networking -- AbleOSInterface;
FatFileSystemProc -- VFS;
NTFSFileSystemProc -- VFS;
EXT2 -- VFS;
FatFileSystemProc -- DriveSystemProc;
NTFSFileSystemProc -- DriveSystemProc;
EXT2 -- DriveSystemProc;
DriveSystemProc -- AbleOSInterface;
AbleOSInterface -- DriveSystemProc;
AbleOSInterface -- Kernel;
Kernel -- x86HAL;
Kernel -- riscvHAL;
Kernel -- aarch64HAL;
x86HAL -- GPU;
riscvHAL -- GPU;
aarch64HAL -- GPU;
x86HAL -- SoundCard;
riscvHAL -- SoundCard;
aarch64HAL -- SoundCard;
}

View file

@ -3,32 +3,19 @@ edition = "2021"
name = "kernel"
version = "0.2.0"
[dependencies]
embedded-graphics = "0.7"
hbvm.git = "https://git.ablecorp.us/ableos/holey-bytes"
log = "0.4"
spin = "0.9"
uart_16550 = "0.2"
slab = { version = "0.4", default-features = false }
xml.git = "https://git.ablecorp.us/ableos/ableos_userland"
versioning.git = "https://git.ablecorp.us/ableos/ableos_userland"
able_graphics_library.git = "https://git.ablecorp.us/ableos/ableos_userland"
hashbrown = "*"
kiam = "0.1.1"
[dependencies.limine]
version = "0.1"
git = "https://github.com/limine-bootloader/limine-rs"
elfloader = "0.16"
error-stack = { version = "0.3", default-features = false}
log = "0.4"
spin = "0.9"
uart_16550 = "0.2"
slab = { version = "0.4", default-features = false }
versioning = { git = "https://git.ablecorp.us/able/aos_userland" }
[dependencies.crossbeam-queue]
version = "0.3"
default-features = false
features = ["alloc"]
[dependencies.clparse]
git = "https://git.ablecorp.us/ableos/ableos_userland"
version = "0.3"
default-features = false
features = ["alloc"]
[dependencies.derive_more]
version = "0.99"
@ -46,14 +33,10 @@ features = [
"sum",
]
[target.'cfg(target_arch = "x86_64")'.dependencies]
limine = { version = "0.1", git = "https://github.com/limine-bootloader/limine-rs" }
x86_64 = "0.14"
x2apic = "0.4"
virtio-drivers = "0.4.0"
# rdrand = "*"
rdrand = { version = "0.8", default-features = false }
[target.'cfg(target_arch = "riscv64")'.dependencies]
sbi = "0.2.0"

33
kernel/data/⑨. バカ Normal file
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@ -0,0 +1,33 @@
.//// *(####
(####((/, (########,
(##%##(###(( ,(#########%#
#%%%%###(###((. *((####%%&%%%%#
.#####%%%%%####((. *(####%&&&&&%%%%#
#(((((((##%%&&%#((/ /#(##%&&%##########
/######%%%%%%%(..........(#%%%%%%#####%%#
,#%%%%%%#/...... ..............,&&&%%###.
,%%#(#(...........................(#&&%%#
.###%...............................%%#(#.
#%&.................................%#
,%&&*.................................&&%(
%%#//........./............*/..,......&&&%#
.......,..............*,*.,,,,,,.
......./....,.........*,,,,.,,,,,,
,...../..(###%,.....&*&%###/..,.,,.
,,..../%(((#(,.....,%%%%###,..,..,.
.,,*.../..,#,.........,(&(,,**.,,,,,
,/((..,*..........,,.,,,,,**.,##((
/(((%%%,,,,,.,,,,,,,,,,,#/##(,(/
.***..(,.#%%%&&#/%,,(%*,,**#
**,...,(#%%%%&#%%%#%%%%,,.,,***.
.....,*,*#%%%%%###%##%%%&,,*,,....
......,*/. (############%%%&&&&#*,,....
...,*,..,(((((((((((#((((((((((((&&&#*,
,##///////(((((((((((((#///#///(##/.
/*/**//... ...**(((((((,. .,*......
....... ......,,/*,. ...........
,..,,,,...... .. .... ,,....... ..,,,
........,.,.,*//////*,......,.
...,,,, ,,,,,,

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@ -1,24 +0,0 @@
ENTRY(_kernel_start)
SECTIONS
{
. = 0xffffffff80000000;
.text.boot : { *(.text.boot) }
.text : { *(.text) }
.data : { *(.data) }
.rodata : { *(.rodata) }
.bss : {
*(COMMON)
*(.bss .bss.*)
/* Align initial kernel heap to page boundary */
. = ALIGN(4K);
PROVIDE(_initial_kernel_heap_start = .);
/* PROVIDE(_initial_kernel_heap_size = 1024 * 1024); */
PROVIDE(_initial_kernel_heap_size = 1024 * 4096 * 100);
. += _initial_kernel_heap_size;
} :data
. = ALIGN(8);
. = . + 0x4000;
LD_STACK_PTR = .;
}

View file

@ -47,8 +47,7 @@ SECTIONS
/* Align initial kernel heap to page boundary */
. = ALIGN(4K);
PROVIDE(_initial_kernel_heap_start = .);
/* PROVIDE(_initial_kernel_heap_size = 1024 * 1024); */
PROVIDE(_initial_kernel_heap_size = 1024 * 4096 * 100);
PROVIDE(_initial_kernel_heap_size = 1024 * 1024);
. += _initial_kernel_heap_size;
} :data
}

View file

@ -27,16 +27,14 @@
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
use {
core::{
alloc::{GlobalAlloc, Layout},
mem,
ptr::{self, NonNull},
},
log::trace,
spin::Mutex,
use core::{
alloc::{GlobalAlloc, Layout},
mem,
ptr::{self, NonNull},
};
use spin::Mutex;
struct Allocator(Mutex<Option<Heap>>);
unsafe impl GlobalAlloc for Allocator {
@ -62,7 +60,7 @@ static ALLOCATOR: Allocator = Allocator(Mutex::new(None));
// FIXME: umm is `memory` VirtualAddress or PhysicalAddress? both?
pub fn init(memory: *mut u8, memory_size: usize) {
trace!("Initialising kernel heap allocator");
log::info!("Initialising kernel heap allocator");
*ALLOCATOR.0.lock() = Some(unsafe { Heap::new(memory, memory_size) });
}
@ -146,30 +144,19 @@ impl Heap {
self.allocated_chunks += chunks_needed;
let ptr: *mut u8 = unsafe { mem::transmute(header.add(1)) };
{
#[cfg(debug_assertions)]
trace!("Allocating {:?}", ptr);
}
unsafe { core::ptr::write_bytes(ptr, 0, size) };
// FIXME: zero or scrub memory?
assert!(ptr.is_aligned_to(alignment));
NonNull::new(ptr)
}
fn deallocate(&mut self, ptr: *mut u8) {
{
#[cfg(debug_assertions)]
log::trace!("Deallocating {:?}", ptr);
}
let header = Self::allocation_header(ptr);
let start = (header as usize - self.chunks as usize) / CHUNK_SIZE;
assert!(self.bitmap_get(start));
let size = unsafe { (*header).size_in_chunks };
self.bitmap_set_range(start, size, false);
self.allocated_chunks -= size;
// FIXME: zero out memory to prevent leaking data
// REPLY: When we zero on alloc, do we really need it?
// FIXME: zero or scrub memory?
}
/// Finds first hole that can fit an allocation of `size` chunks, returns the start of the
@ -251,10 +238,7 @@ impl Heap {
return Some(start_of_free_chunks);
}
}
#[cfg(debug_assertions)]
{
trace!("No first fit found");
}
None
}
@ -341,7 +325,5 @@ unsafe impl Send for Heap {}
#[alloc_error_handler]
fn alloc_error_handler(layout: alloc::alloc::Layout) -> ! {
log::error!("allocation error: {:?}", layout);
// Todo: Maybe panic here instead
crate::arch::spin_loop()
crate::arch::sloop()
}

View file

@ -1,49 +0,0 @@
use {
crate::{alloc::string::ToString, device_tree::DeviceTree, kmain::DEVICE_TREE},
alloc::string::String,
core::arch::asm,
xml::XMLElement,
};
pub fn collect_device_info() {
log::trace!("Collecting devices on aarch64");
// Lock device tree
unsafe {
DEVICE_TREE.force_unlock();
}
let device_tree = &mut DEVICE_TREE.lock();
collect_cpu_info(device_tree);
// let dt = DEVICE_TREE.lock();
}
fn collect_cpu_info(device_tree: &mut DeviceTree) {
let mut cpu = XMLElement::new("cpu");
let cpu_id = cpu_id();
cpu.set_attribute("CPU Name", cpu_id.0);
cpu.set_attribute("CPU Id", cpu_id.1);
let cpus = device_tree.devices.get_mut("CPUs").unwrap();
cpus.push(cpu);
}
fn cpu_id() -> (String, u64) {
let mut cpu_id: u64 = 0;
unsafe {
asm!("mrs {cpu_id}, MIDR_EL1",
cpu_id = out(reg) cpu_id,
)
}
let cpu_name = match cpu_id {
// the source of these two was a stackoverflow question
// https://raspberrypi.stackexchange.com/questions/117175/how-do-i-read-the-cpuid-in-aarch64-asm
0x410FD034 => "Cortex-A53".to_string(),
0x410FD083 => "Cortex-A72".to_string(),
_ => "Unknown".to_string(),
};
log::trace!("CPU Name: {cpu_name} - CPU ID: 0x{:X}", cpu_id);
(cpu_name, cpu_id)
}

View file

@ -1,25 +0,0 @@
use {crate::logger::TERMINAL_LOGGER, core::fmt::Write, spin::Mutex};
const SERIAL_CONSOLE: Mutex<SerialConsole> = Mutex::new(SerialConsole {
uart: 0x09000000 as *mut u8,
});
struct SerialConsole {
uart: *mut u8,
}
impl core::fmt::Write for SerialConsole {
fn write_str(&mut self, s: &str) -> core::fmt::Result {
for c in s.chars() {
unsafe { *self.uart = c as u8 }
}
Ok(())
}
}
pub fn log(args: core::fmt::Arguments<'_>) -> core::fmt::Result {
SERIAL_CONSOLE.lock().write_fmt(args)?;
TERMINAL_LOGGER.lock().write_fmt(args)?;
Ok(())
}

View file

@ -1,118 +1 @@
pub use logging::log;
use {
crate::{allocator, bootmodules::BootModule, kmain::kmain},
core::arch::asm,
limine::FramebufferRequest,
};
mod device_info_collector;
use device_info_collector::collect_device_info;
pub mod logging;
use limine::HhdmRequest;
extern "C" {
fn _initial_kernel_heap_start();
fn _initial_kernel_heap_size();
}
const INITIAL_KERNEL_HEAP_START: *mut u8 = _initial_kernel_heap_start as _;
const INITIAL_KERNEL_HEAP_SIZE: *const () = _initial_kernel_heap_size as _;
pub const PAGE_SIZE: usize = 4096;
static FB_REQ: FramebufferRequest = FramebufferRequest::new(0);
#[no_mangle]
unsafe extern "C" fn _kernel_start() -> ! {
crate::logger::init().expect("failed to set logger");
log::info!("Initialising AKern {}", crate::VERSION);
static HDHM_REQ: HhdmRequest = HhdmRequest::new(0);
// memory::init_pt(VirtAddr::new(
// HDHM_REQ
// .get_response()
// .get()
// .expect("tried to get physical memory mapping offset from Limine")
// .offset,
// ));
allocator::init(INITIAL_KERNEL_HEAP_START, INITIAL_KERNEL_HEAP_SIZE as _);
collect_device_info();
let bm = MOD_REQ.get_response().get();
use limine::{KernelFileRequest, ModuleRequest};
static KFILE_REQ: KernelFileRequest = KernelFileRequest::new(0);
static MOD_REQ: ModuleRequest = ModuleRequest::new(0);
let mut bootmodules = alloc::vec::Vec::new();
if bm.is_some() {
let bm = bm.unwrap();
for x in 0..bm.module_count {
let file = bm.modules().get(x as usize);
if file.is_some() {
let file = file.unwrap();
let raw_bytes = core::slice::from_raw_parts(
file.base.as_ptr().expect("invalid initrd"),
file.length as usize,
)
.to_vec();
let file_path = alloc::string::String::from_utf8(
file.path.to_str().unwrap().to_bytes().to_vec(),
);
if file_path.is_err() {
panic!("invalid file path: {:?}", file_path);
}
let file_cmd = alloc::string::String::from_utf8(
file.cmdline.to_str().unwrap().to_bytes().to_vec(),
);
if file_cmd.is_err() {
panic!("invalid module cmd: {:?}", file_cmd);
}
log::trace!("module path: {:?}", file_path);
log::trace!("module cmd: {:?}", file_cmd);
bootmodules.push(BootModule::new(
file_path.unwrap(),
raw_bytes,
file_cmd.unwrap(),
));
} else {
log::error!("You should not be here");
break;
}
}
log::info!("Boot module count: {:?}", bootmodules.len());
assert_eq!(bm.module_count, bootmodules.len() as u64);
}
crate::kmain::kmain(
KFILE_REQ
.get_response()
.get()
.and_then(|r| r.kernel_file.get())
.expect("failed to get kernel file from Limine")
.cmdline
.to_str()
.map(core::ffi::CStr::to_str)
.transpose()
.expect("expected valid cmdline string")
.unwrap_or_default(),
bootmodules,
);
spin_loop();
}
pub fn spin_loop() -> ! {
loop {
unsafe { asm!("wfi") }
}
}
pub fn hardware_random_u64() -> u64 {
0
}
pub fn register_dump() {}
#[no_mangle]
pub fn fmod() {}
//!

View file

@ -1,46 +1,37 @@
mod memory;
use {
alloc::boxed::Box,
core::{
arch::{asm, global_asm},
fmt::Write,
},
sbi::system_reset::{system_reset, ResetReason, ResetType},
spin::{Mutex, Once},
uart_16550::MmioSerialPort,
};
use core::{arch::{asm, global_asm}, fmt::Write};
use alloc::boxed::Box;
use sbi::system_reset::{ResetType, ResetReason, system_reset};
use spin::{Mutex, Once};
use uart_16550::MmioSerialPort;
use crate::{
allocator,
arch::riscv64::memory::{PageEntryFlags, PageSize, PageTable, PAGE_TABLE},
memory::PhysicalAddress,
};
use crate::{allocator, memory::PhysicalAddress, arch::riscv64::memory::{PAGE_TABLE, PageEntryFlags, PageSize, PageTable}};
global_asm!(include_str!("entry.s"));
global_asm!(include_str!("memory_regions.s"));
pub const PAGE_SIZE: usize = 4096;
extern "C" {
extern {
static TEXT_START: PhysicalAddress;
static TEXT_END: PhysicalAddress;
static RODATA_START: PhysicalAddress;
static RODATA_END: PhysicalAddress;
static DATA_START: PhysicalAddress;
static DATA_END: PhysicalAddress;
static SDATA_START: PhysicalAddress;
static SDATA_END: PhysicalAddress;
static BSS_START: PhysicalAddress;
static BSS_END: PhysicalAddress;
static INITIAL_KERNEL_HEAP_START: PhysicalAddress;
static INITIAL_KERNEL_HEAP_SIZE: usize;
static USABLE_MEMORY_START: PhysicalAddress;
static USABLE_MEMORY_SIZE: usize;
}
@ -48,15 +39,12 @@ extern "C" {
static SERIAL_CONSOLE: Once<Mutex<MmioSerialPort>> = Once::new();
#[no_mangle]
unsafe extern "C" fn _kernel_start() -> ! {
unsafe extern fn _kernel_start() -> ! {
SERIAL_CONSOLE.call_once(|| Mutex::new(unsafe { MmioSerialPort::new(0x1000_0000) }));
crate::logger::init().expect("failed to set logger");
log::info!("Initialising AKern {}", crate::VERSION);
allocator::init(
INITIAL_KERNEL_HEAP_START.as_mut_ptr::<u8>(),
INITIAL_KERNEL_HEAP_SIZE,
);
allocator::init(INITIAL_KERNEL_HEAP_START.as_mut_ptr::<u8>(), INITIAL_KERNEL_HEAP_SIZE);
memory::init(USABLE_MEMORY_START.into(), USABLE_MEMORY_SIZE / PAGE_SIZE);
let mut page_table_addr = PAGE_TABLE.get().unwrap().lock();
@ -73,17 +61,9 @@ unsafe extern "C" fn _kernel_start() -> ! {
// Map bss section (includes stack and initial kernel heap)
page_table.identity_map_range(BSS_START, BSS_END, PageEntryFlags::ReadWrite);
// Map usable memory range (as rw so not executable)
page_table.identity_map_range(
USABLE_MEMORY_START,
USABLE_MEMORY_START + USABLE_MEMORY_SIZE.into(),
PageEntryFlags::ReadWrite,
);
page_table.identity_map_range(USABLE_MEMORY_START, USABLE_MEMORY_START + USABLE_MEMORY_SIZE.into(), PageEntryFlags::ReadWrite);
// Map Uart so we can continue using serial
page_table.identity_map(
0x1000_0000_usize.into(),
PageEntryFlags::ReadWrite,
PageSize::Size4KiB,
);
page_table.identity_map(0x1000_0000_usize.into(), PageEntryFlags::ReadWrite, PageSize::Size4KiB);
let table_ppn = page_table_addr.as_addr() as usize >> 12;
let satp_value = 8 << 60 | table_ppn;
@ -99,7 +79,7 @@ unsafe extern "C" fn _kernel_start() -> ! {
}
/// Spin loop
pub fn spin_loop() -> ! {
pub fn sloop() -> ! {
loop {
unsafe { asm!("wfi") }
}

View file

@ -1,934 +0,0 @@
use crate::cpu_features;
use {
alloc::vec::Vec,
core::{arch::asm, fmt, ops::Deref, slice, str},
};
#[repr(u32)]
pub enum RequestType {
BasicInformation = 0x0000_0000,
VersionInformation = 0x0000_0001,
ThermalPowerManagementInformation = 0x0000_0006,
StructuredExtendedInformation = 0x0000_0007,
ExtendedFunctionInformation = 0x8000_0000,
ExtendedProcessorSignature = 0x8000_0001,
BrandString1 = 0x8000_0002,
BrandString2 = 0x8000_0003,
BrandString3 = 0x8000_0004,
// reserved = 0x80000005,
CacheLine = 0x8000_0006,
TimeStampCounter = 0x8000_0007,
PhysicalAddressSize = 0x8000_0008,
}
#[allow(clippy::similar_names)]
pub fn cpuid(code: RequestType) -> (u32, u32, u32, u32) {
let eax;
let ebx;
let ecx;
let edx;
unsafe {
asm!(
"movq %rbx, {0:r}",
"cpuid",
"xchgq %rbx, {0:r}",
lateout(reg) ebx,
inlateout("eax") code as u32 => eax,
inlateout("ecx") 0 => ecx,
lateout("edx") edx,
options(nostack, preserves_flags, att_syntax),
);
}
(eax, ebx, ecx, edx)
}
/// The main entrypoint to the CPU information
#[cfg(any(target_arch = "x86_64", target_arch = "x86"))]
pub fn master() -> Option<Master> {
Some(Master::new())
}
// This matches the Intel Architecture guide, with bits 31 -> 0.
// The bit positions are inclusive.
fn bits_of(val: u32, start_bit: u8, end_bit: u8) -> u32 {
let mut silly = 0;
for _ in start_bit..end_bit + 1 {
silly <<= 1;
silly |= 1;
}
(val >> start_bit) & silly
}
pub fn as_bytes(v: &u32) -> &[u8] {
let start = v as *const u32 as *const u8;
// TODO: use u32::BYTES
unsafe { slice::from_raw_parts(start, 4) }
}
macro_rules! bit {
($reg:ident, {$($idx:expr => $name:ident),+}) => {
$(pub fn $name(self) -> bool {
((self.$reg >> $idx) & 1) != 0
})+
}
}
macro_rules! dump {
($me:expr, $f: expr, $sname:expr, {$($name:ident),+}) => {
$f.debug_struct($sname)
$(.field(stringify!($name), &$me.$name()))+
.finish()
}
}
macro_rules! delegate_flag {
($item:ident, {$($name:ident),+}) => {
$(pub fn $name(&self) -> bool {
self.$item.map(|i| i.$name()).unwrap_or(false)
})+
}
}
macro_rules! master_attr_reader {
($name:ident, $kind:ty) => {
pub fn $name(&self) -> Option<&$kind> {
self.$name.as_ref()
}
};
}
#[derive(Copy, Clone)]
pub struct VersionInformation {
eax: u32,
ebx: u32,
ecx: u32,
edx: u32,
}
impl VersionInformation {
pub fn new() -> VersionInformation {
let (a, b, c, d) = cpuid(RequestType::VersionInformation);
VersionInformation {
eax: a,
ebx: b,
ecx: c,
edx: d,
}
}
pub fn family_id(self) -> u32 {
let family_id = bits_of(self.eax, 8, 11);
let extended_family_id = bits_of(self.eax, 20, 27);
if family_id != 0x0F {
family_id
} else {
extended_family_id + family_id
}
}
pub fn model_id(self) -> u32 {
let family_id = self.family_id();
let model_id = bits_of(self.eax, 4, 7);
let extended_model_id = bits_of(self.eax, 16, 19);
if family_id == 0x06 || family_id == 0x0F {
(extended_model_id << 4) + model_id
} else {
model_id
}
}
pub fn stepping(self) -> u32 {
bits_of(self.eax, 0, 3)
}
fn processor_signature(self) -> u32 {
self.eax
}
// TODO: Change return type and move this to a file that has the list
pub fn brand_string(self) -> Option<&'static str> {
let brand_index = bits_of(self.ebx, 0, 7);
let processor_signature = self.processor_signature();
match brand_index {
0x00 => None,
0x01 => Some("Intel(R) Celeron(R)"),
0x02 => Some("Intel(R) Pentium(R) III"),
0x03 => {
if processor_signature == 0x06B1 {
Some("Intel(R) Celeron(R)")
} else {
Some("Intel(R) Pentium(R) III Xeon(R)")
}
}
0x04 => Some("Intel(R) Pentium(R) III"),
0x06 => Some("Mobile Intel(R) Pentium(R) III-M"),
0x07 => Some("Mobile Intel(R) Celeron(R)"),
0x08 => Some("Intel(R) Pentium(R) 4"),
0x09 => Some("Intel(R) Pentium(R) 4"),
0x0A => Some("Intel(R) Celeron(R)"),
0x0B => {
if processor_signature == 0x0F13 {
Some("Intel(R) Xeon(R) MP")
} else {
Some("Intel(R) Xeon(R)")
}
}
0x0C => Some("Intel(R) Xeon(R) MP"),
0x0E => {
if processor_signature == 0x0F13 {
Some("Intel(R) Xeon(R)")
} else {
Some("Mobile Intel(R) Pentium(R) 4-M")
}
}
0x0F => Some("Mobile Intel(R) Celeron(R)"),
0x11 => Some("Mobile Genuine Intel(R)"),
0x12 => Some("Intel(R) Celeron(R) M"),
0x13 => Some("Mobile Intel(R) Celeron(R)"),
0x14 => Some("Intel(R) Celeron(R)"),
0x15 => Some("Mobile Genuine Intel(R)"),
0x16 => Some("Intel(R) Pentium(R) M"),
0x17 => Some("Mobile Intel(R) Celeron(R)"),
_ => None,
}
}
bit!(ecx, {
0 => sse3,
1 => pclmulqdq,
2 => dtes64,
3 => monitor,
4 => ds_cpl,
5 => vmx,
6 => smx,
7 => eist,
8 => tm2,
9 => ssse3,
10 => cnxt_id,
11 => sdbg,
12 => fma,
13 => cmpxchg16b,
14 => xtpr_update_control,
15 => pdcm,
// 16 - reserved
17 => pcid,
18 => dca,
19 => sse4_1,
20 => sse4_2,
21 => x2apic,
22 => movbe,
23 => popcnt,
24 => tsc_deadline,
25 => aesni,
26 => xsave,
27 => osxsave,
28 => avx,
29 => f16c,
30 => rdrand
// 31 - unused
});
bit!(edx, {
0 => fpu,
1 => vme,
2 => de,
3 => pse,
4 => tsc,
5 => msr,
6 => pae,
7 => mce,
8 => cx8,
9 => apic,
// 10 - reserved
11 => sep,
12 => mtrr,
13 => pge,
14 => mca,
15 => cmov,
16 => pat,
17 => pse_36,
18 => psn,
19 => clfsh,
// 20 - reserved
21 => ds,
22 => acpi,
23 => mmx,
24 => fxsr,
25 => sse,
26 => sse2,
27 => ss,
28 => htt,
29 => tm,
// 30 -reserved
31 => pbe
});
}
impl fmt::Debug for VersionInformation {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
dump!(self, f, "VersionInformation", {
family_id,
model_id,
stepping,
brand_string,
sse3,
pclmulqdq,
dtes64,
monitor,
ds_cpl,
vmx,
smx,
eist,
tm2,
ssse3,
cnxt_id,
sdbg,
fma,
cmpxchg16b,
xtpr_update_control,
pdcm,
pcid,
dca,
sse4_1,
sse4_2,
x2apic,
movbe,
popcnt,
tsc_deadline,
aesni,
xsave,
osxsave,
avx,
f16c,
rdrand,
fpu,
vme,
de,
pse,
tsc,
msr,
pae,
mce,
cx8,
apic,
sep,
mtrr,
pge,
mca,
cmov,
pat,
pse_36,
psn,
clfsh,
ds,
acpi,
mmx,
fxsr,
sse,
sse2,
ss,
htt,
tm,
pbe
})
}
}
#[derive(Copy, Clone)]
pub struct ExtendedProcessorSignature {
ecx: u32,
edx: u32,
}
impl ExtendedProcessorSignature {
fn new() -> ExtendedProcessorSignature {
let (_, _, c, d) = cpuid(RequestType::ExtendedProcessorSignature);
ExtendedProcessorSignature { ecx: c, edx: d }
}
bit!(ecx, {
0 => lahf_sahf_in_64_bit,
// 1-4 reserved
5 => lzcnt,
// 6-7 reserved
8 => prefetchw
// 9-31 reserved
});
bit!(edx, {
// 0-10 reserved
11 => syscall_sysret_in_64_bit,
// 12-19 reserved
20 => execute_disable,
// 21-25 reserved
26 => gigabyte_pages,
27 => rdtscp_and_ia32_tsc_aux,
// 28 reserved
29 => intel_64_bit_architecture
// 30-31 reserved
});
}
impl fmt::Debug for ExtendedProcessorSignature {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
dump!(self, f, "ThermalPowerManagementInformation", {
lahf_sahf_in_64_bit,
lzcnt,
prefetchw,
syscall_sysret_in_64_bit,
execute_disable,
gigabyte_pages,
rdtscp_and_ia32_tsc_aux,
intel_64_bit_architecture
})
}
}
// 3 calls of 4 registers of 4 bytes
const BRAND_STRING_LENGTH: usize = 3 * 4 * 4;
pub struct BrandString {
bytes: [u8; BRAND_STRING_LENGTH],
}
impl BrandString {
fn new() -> BrandString {
fn append_bytes(a: RequestType, bytes: &mut [u8]) {
let (a, b, c, d) = cpuid(a);
let result_bytes = as_bytes(&a)
.iter()
.chain(as_bytes(&b).iter())
.chain(as_bytes(&c).iter())
.chain(as_bytes(&d).iter());
for (output, input) in bytes.iter_mut().zip(result_bytes) {
*output = *input
}
}
let mut brand_string = BrandString {
bytes: [0; BRAND_STRING_LENGTH],
};
append_bytes(RequestType::BrandString1, &mut brand_string.bytes[0..]);
append_bytes(RequestType::BrandString2, &mut brand_string.bytes[16..]);
append_bytes(RequestType::BrandString3, &mut brand_string.bytes[32..]);
brand_string
}
}
impl Clone for BrandString {
fn clone(&self) -> Self {
let mut bytes = [0; BRAND_STRING_LENGTH];
for (d, s) in bytes.iter_mut().zip(self.bytes.iter()) {
*d = *s;
}
BrandString { bytes }
}
}
impl Deref for BrandString {
type Target = str;
fn deref(&self) -> &str {
let nul_terminator = self.bytes.iter().position(|&b| b == 0).unwrap_or(0);
let usable_bytes = &self.bytes[..nul_terminator];
unsafe { str::from_utf8_unchecked(usable_bytes) }.trim()
}
}
impl fmt::Display for BrandString {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
(self as &str).fmt(f)
}
}
impl fmt::Debug for BrandString {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
(self as &str).fmt(f)
}
}
#[derive(Copy, Clone)]
pub struct ThermalPowerManagementInformation {
eax: u32,
ebx: u32,
ecx: u32,
}
impl ThermalPowerManagementInformation {
fn new() -> ThermalPowerManagementInformation {
let (a, b, c, _) = cpuid(RequestType::ThermalPowerManagementInformation);
ThermalPowerManagementInformation {
eax: a,
ebx: b,
ecx: c,
}
}
bit!(eax, {
0 => digital_temperature_sensor,
1 => intel_turbo_boost,
2 => arat,
// 3 - reserved
4 => pln,
5 => ecmd,
6 => ptm,
7 => hwp,
8 => hwp_notification,
9 => hwp_activity_window,
10 => hwp_energy_performance_preference,
// 12 - reserved
13 => hdc
});
pub fn number_of_interrupt_thresholds(self) -> u32 {
bits_of(self.ebx, 0, 3)
}
bit!(ecx, {
0 => hardware_coordination_feedback,
// 1-2 - reserved
3 => performance_energy_bias
});
}
impl fmt::Debug for ThermalPowerManagementInformation {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
dump!(self, f, "ThermalPowerManagementInformation", {
digital_temperature_sensor,
intel_turbo_boost,
arat,
pln,
ecmd,
ptm,
hwp,
hwp_notification,
hwp_activity_window,
hwp_energy_performance_preference,
hdc,
number_of_interrupt_thresholds,
hardware_coordination_feedback,
performance_energy_bias
})
}
}
#[derive(Copy, Clone)]
pub struct StructuredExtendedInformation {
ebx: u32,
ecx: u32,
}
impl StructuredExtendedInformation {
fn new() -> StructuredExtendedInformation {
let (_, b, c, _) = cpuid(RequestType::StructuredExtendedInformation);
StructuredExtendedInformation { ebx: b, ecx: c }
}
bit!(ebx, {
0 => fsgsbase,
1 => ia32_tsc_adjust_msr,
// 2 - reserved
3 => bmi1,
4 => hle,
5 => avx2,
// 6 - reserved
7 => smep,
8 => bmi2,
9 => enhanced_rep_movsb_stosb,
10 => invpcid,
11 => rtm,
12 => pqm,
13 => deprecates_fpu_cs_ds,
// 14 - reserved
15 => pqe,
// 16-17 - reserved
18 => rdseed,
19 => adx,
20 => smap,
// 21-24 - reserved
25 => intel_processor_trace
// 26-31 - reserved
});
bit!(ecx, {
0 => prefetchwt1
});
}
impl fmt::Debug for StructuredExtendedInformation {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
dump!(self, f, "StructuredExtendedInformation", {
fsgsbase,
ia32_tsc_adjust_msr,
bmi1,
hle,
avx2,
smep,
bmi2,
enhanced_rep_movsb_stosb,
invpcid,
rtm,
pqm,
deprecates_fpu_cs_ds,
pqe,
rdseed,
adx,
smap,
intel_processor_trace,
prefetchwt1
})
}
}
#[derive(Debug, Copy, Clone)]
pub enum CacheLineAssociativity {
Disabled,
DirectMapped,
TwoWay,
FourWay,
EightWay,
SixteenWay,
Full,
}
#[derive(Copy, Clone)]
pub struct CacheLine(u32);
impl CacheLine {
fn new() -> CacheLine {
let (_, _, c, _) = cpuid(RequestType::CacheLine);
CacheLine(c)
}
pub fn cache_line_size(self) -> u32 {
bits_of(self.0, 0, 7)
}
pub fn l2_associativity(self) -> Option<CacheLineAssociativity> {
match bits_of(self.0, 12, 15) {
0x00 => Some(CacheLineAssociativity::Disabled),
0x01 => Some(CacheLineAssociativity::DirectMapped),
0x02 => Some(CacheLineAssociativity::TwoWay),
0x04 => Some(CacheLineAssociativity::FourWay),
0x06 => Some(CacheLineAssociativity::EightWay),
0x08 => Some(CacheLineAssociativity::SixteenWay),
0x0F => Some(CacheLineAssociativity::Full),
_ => None,
}
}
pub fn cache_size(self) -> u32 {
bits_of(self.0, 16, 31)
}
}
impl fmt::Debug for CacheLine {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
dump!(self, f, "CacheLine", {
cache_line_size,
l2_associativity,
cache_size
})
}
}
#[derive(Copy, Clone)]
pub struct TimeStampCounter {
edx: u32,
}
impl TimeStampCounter {
fn new() -> TimeStampCounter {
let (_, _, _, d) = cpuid(RequestType::TimeStampCounter);
TimeStampCounter { edx: d }
}
bit!(edx, {
// 0-7 - reserved
8 => invariant_tsc
// 9-31 - reserved
});
}
impl fmt::Debug for TimeStampCounter {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
dump!(self, f, "TimeStampCounter", { invariant_tsc })
}
}
#[derive(Copy, Clone)]
pub struct PhysicalAddressSize(u32);
impl PhysicalAddressSize {
fn new() -> PhysicalAddressSize {
let (a, _, _, _) = cpuid(RequestType::PhysicalAddressSize);
PhysicalAddressSize(a)
}
pub fn physical_address_bits(self) -> u32 {
bits_of(self.0, 0, 7)
}
pub fn linear_address_bits(self) -> u32 {
bits_of(self.0, 8, 15)
}
}
impl fmt::Debug for PhysicalAddressSize {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
dump!(self, f, "PhysicalAddressSize", {
physical_address_bits,
linear_address_bits
})
}
}
/// Information about the currently running processor
///
/// Feature flags match the feature mnemonic listed in the Intel
/// Instruction Set Reference. This struct provides a facade for flags
/// so the consumer doesn't need to worry about which particular CPUID
/// leaf provides the information.
///
/// For data beyond simple feature flags, you will need to retrieve
/// the nested struct and call the appropriate methods on it.
#[derive(Debug, Clone)]
pub struct Master {
// TODO: Rename struct
version_information: Option<VersionInformation>,
thermal_power_management_information: Option<ThermalPowerManagementInformation>,
structured_extended_information: Option<StructuredExtendedInformation>,
extended_processor_signature: Option<ExtendedProcessorSignature>,
brand_string: Option<BrandString>,
cache_line: Option<CacheLine>,
time_stamp_counter: Option<TimeStampCounter>,
physical_address_size: Option<PhysicalAddressSize>,
}
impl Master {
pub fn new() -> Master {
fn when_supported<F, T>(max: u32, kind: RequestType, then: F) -> Option<T>
where
F: FnOnce() -> T,
{
if max >= kind as u32 {
Some(then())
} else {
None
}
}
let (max_value, _, _, _) = cpuid(RequestType::BasicInformation);
let vi = when_supported(max_value, RequestType::VersionInformation, || {
VersionInformation::new()
});
let tpm = when_supported(
max_value,
RequestType::ThermalPowerManagementInformation,
|| ThermalPowerManagementInformation::new(),
);
let sei = when_supported(
max_value,
RequestType::StructuredExtendedInformation,
|| StructuredExtendedInformation::new(),
);
// Extended information
let (max_value, _, _, _) = cpuid(RequestType::ExtendedFunctionInformation);
let eps = when_supported(max_value, RequestType::ExtendedProcessorSignature, || {
ExtendedProcessorSignature::new()
});
let brand_string =
when_supported(max_value, RequestType::BrandString3, || BrandString::new());
let cache_line = when_supported(max_value, RequestType::CacheLine, || CacheLine::new());
let tsc = when_supported(max_value, RequestType::TimeStampCounter, || {
TimeStampCounter::new()
});
let pas = when_supported(max_value, RequestType::PhysicalAddressSize, || {
PhysicalAddressSize::new()
});
Master {
version_information: vi,
thermal_power_management_information: tpm,
structured_extended_information: sei,
extended_processor_signature: eps,
brand_string,
cache_line,
time_stamp_counter: tsc,
physical_address_size: pas,
}
}
// TODO: Macroify this and also include all of the cpu features from self
pub fn features(&self) -> Vec<(&str, bool)> {
let mut fv = Vec::new();
cpu_features!(self, fv);
return fv;
}
master_attr_reader!(version_information, VersionInformation);
master_attr_reader!(
thermal_power_management_information,
ThermalPowerManagementInformation
);
master_attr_reader!(
structured_extended_information,
StructuredExtendedInformation
);
master_attr_reader!(extended_processor_signature, ExtendedProcessorSignature);
master_attr_reader!(cache_line, CacheLine);
master_attr_reader!(time_stamp_counter, TimeStampCounter);
master_attr_reader!(physical_address_size, PhysicalAddressSize);
pub fn brand_string(&self) -> Option<&str> {
self.brand_string
.as_ref()
.map(|bs| bs as &str)
.or(self.version_information.and_then(|vi| vi.brand_string()))
}
delegate_flag!(version_information, {
sse3,
pclmulqdq,
dtes64,
monitor,
ds_cpl,
vmx,
smx,
eist,
tm2,
ssse3,
cnxt_id,
sdbg,
fma,
cmpxchg16b,
xtpr_update_control,
pdcm,
pcid,
dca,
sse4_1,
sse4_2,
x2apic,
movbe,
popcnt,
tsc_deadline,
aesni,
xsave,
osxsave,
avx,
f16c,
rdrand,
fpu,
vme,
de,
pse,
tsc,
msr,
pae,
mce,
cx8,
apic,
sep,
mtrr,
pge,
mca,
cmov,
pat,
pse_36,
psn,
clfsh,
ds,
acpi,
mmx,
fxsr,
sse,
sse2,
ss,
htt,
tm,
pbe
});
delegate_flag!(thermal_power_management_information, {
digital_temperature_sensor,
intel_turbo_boost,
arat,
pln,
ecmd,
ptm,
hwp,
hwp_notification,
hwp_activity_window,
hwp_energy_performance_preference,
hdc,
hardware_coordination_feedback,
performance_energy_bias
});
delegate_flag!(structured_extended_information, {
fsgsbase,
ia32_tsc_adjust_msr,
bmi1,
hle,
avx2,
smep,
bmi2,
enhanced_rep_movsb_stosb,
invpcid,
rtm,
pqm,
deprecates_fpu_cs_ds,
pqe,
rdseed,
adx,
smap,
intel_processor_trace,
prefetchwt1
});
delegate_flag!(extended_processor_signature, {
lahf_sahf_in_64_bit,
lzcnt,
prefetchw,
syscall_sysret_in_64_bit,
execute_disable,
gigabyte_pages,
rdtscp_and_ia32_tsc_aux,
intel_64_bit_architecture
});
delegate_flag!(time_stamp_counter, { invariant_tsc });
}
/*
cfg_if! {
if #[cfg(any(target_arch = "x86_64", target_arch = "x86"))] {
#[test]
fn basic_genuine_intel() {
let (_, b, c, d) = cpuid(RequestType::BasicInformation);
assert_eq!(b"Genu", as_bytes(&b));
assert_eq!(b"ntel", as_bytes(&c));
assert_eq!(b"ineI", as_bytes(&d));
}
#[test]
fn brand_string_contains_intel() {
assert!(master().unwrap().brand_string().unwrap().contains("Intel(R)"))
}
} else {}
}
*/

View file

@ -1,68 +0,0 @@
use {
crate::{
arch::{pci, x86_64::cpuid},
device_tree::DeviceTree,
kmain::DEVICE_TREE,
},
limine::SmpRequest,
xml::XMLElement,
};
fn collect_cpu_info(device_tree: &mut DeviceTree) {
use crate::alloc::string::ToString;
static SMP: SmpRequest = SmpRequest::new(0);
let smp_response = SMP.get_response().get().unwrap();
let mut cpu = XMLElement::new("cpu");
// Get the amount of cores on the CPU
let core_count = smp_response.cpu_count.to_string();
cpu.set_attribute("core count", core_count);
for x in 0..smp_response.cpu_count {
let core_name = alloc::format!("core_{}", x);
let core = XMLElement::new(core_name);
cpu.set_child(core);
}
let cpu_info = cpuid::master().unwrap();
let brand_string = cpu_info.brand_string().unwrap_or("Unknown").to_string();
cpu.set_attribute("brand string", brand_string);
cpu.set_attribute("speed", "unknown");
// Get CPU features and add them to the device tree entry.
let mut cpu_features = XMLElement::new("CPU Features");
for (feature_key, feature_enabled) in cpu_info.features() {
cpu_features.set_attribute(feature_key, feature_enabled.to_string());
}
cpu.set_child(cpu_features);
// CPU temperature
if cpu_info.digital_temperature_sensor() {
let mut temperature_child = XMLElement::new("Temperature");
temperature_child.set_attribute("degrees", "Unknown");
cpu.set_child(temperature_child);
}
// Add CPU to device tree
let cpus = device_tree.devices.get_mut("CPUs").unwrap();
cpus.push(cpu);
}
pub fn collect_device_info() {
log::trace!("Collecting devices on x86_64");
// Lock device tree
unsafe {
DEVICE_TREE.force_unlock();
}
let device_tree = &mut DEVICE_TREE.lock();
// Generate device tree from PCI enumeration.
pci::init(device_tree);
// Collect CPU info and add it to the device tree
collect_cpu_info(device_tree);
}

View file

@ -1,33 +1,34 @@
use {
spin::Lazy,
x86_64::{
structures::{
gdt::{Descriptor, GlobalDescriptorTable, SegmentSelector},
tss::TaskStateSegment,
},
VirtAddr,
use spin::Lazy;
use x86_64::{
structures::{
gdt::{Descriptor, GlobalDescriptorTable, SegmentSelector},
tss::TaskStateSegment,
},
VirtAddr,
};
pub const DOUBLE_FAULT_IX: u16 = 0;
pub unsafe fn init() {
use x86_64::instructions::{
segmentation::{Segment, CS, SS},
tables::load_tss,
};
use x86_64::instructions::segmentation::{Segment, CS, DS, ES, SS};
use x86_64::instructions::tables::load_tss;
log::trace!("Initialising GDT");
log::info!("Initialising GDT");
GDT.0.load();
CS::set_reg(GDT.1.kcode);
DS::set_reg(GDT.1.kdata);
ES::set_reg(GDT.1.kdata);
SS::set_reg(GDT.1.kdata);
load_tss(GDT.1.tss);
init_syscalls(&GDT.1);
}
struct Selectors {
kcode: SegmentSelector,
kdata: SegmentSelector,
tss: SegmentSelector,
tss: SegmentSelector,
udata: SegmentSelector,
ucode: SegmentSelector,
}
static TSS: Lazy<TaskStateSegment> = Lazy::new(|| {
@ -49,7 +50,27 @@ static GDT: Lazy<(GlobalDescriptorTable, Selectors)> = Lazy::new(|| {
let sels = Selectors {
kcode: gdt.add_entry(Descriptor::kernel_code_segment()),
kdata: gdt.add_entry(Descriptor::kernel_data_segment()),
tss: gdt.add_entry(Descriptor::tss_segment(&TSS)),
tss: gdt.add_entry(Descriptor::tss_segment(&TSS)),
udata: gdt.add_entry(Descriptor::user_data_segment()),
ucode: gdt.add_entry(Descriptor::user_code_segment()),
};
(gdt, sels)
});
/// Initialize syscalls
unsafe fn init_syscalls(sls: &Selectors) {
use x86_64::registers::{
model_specific::{Efer, EferFlags, LStar, SFMask, Star},
rflags::RFlags,
};
Star::write(sls.ucode, sls.udata, sls.kcode, sls.kdata);
SFMask::write(RFlags::from_bits(0x200).expect("Invalid RFlags for SFMask"));
LStar::write(VirtAddr::from_ptr(handle_syscall as *const ()));
Efer::update(|x| *x |= EferFlags::SYSTEM_CALL_EXTENSIONS);
}
extern "C" fn handle_syscall(a: u64) -> ! {
log::info!("called syscall {a}");
todo!("Return from syscall");
}

View file

@ -1 +0,0 @@

View file

@ -1,13 +1,9 @@
// TODO: Turn apic keyboard interrupt into a standard ipc message
use {
log::trace,
spin::{Lazy, Mutex},
x2apic::lapic::{LocalApic, LocalApicBuilder},
x86_64::structures::idt::{InterruptDescriptorTable, InterruptStackFrame, PageFaultErrorCode},
};
use spin::{Lazy, Mutex};
use x2apic::lapic::{LocalApic, LocalApicBuilder};
use x86_64::structures::idt::{InterruptDescriptorTable, InterruptStackFrame, PageFaultErrorCode};
pub unsafe fn init() {
trace!("Initialising IDT");
log::info!("Initialising IDT");
IDT.load();
Lazy::force(&LAPIC);
x86_64::instructions::interrupts::enable();
@ -16,12 +12,11 @@ pub unsafe fn init() {
#[repr(u8)]
enum Interrupt {
Timer = 32,
ApicErr = u8::MAX - 1,
Spurious = u8::MAX,
}
pub(crate) static LAPIC: Lazy<Mutex<LocalApic>> = Lazy::new(|| {
static LAPIC: Lazy<Mutex<LocalApic>> = Lazy::new(|| {
let mut lapic = LocalApicBuilder::new()
.timer_vector(Interrupt::Timer as usize)
.error_vector(Interrupt::ApicErr as usize)
@ -44,11 +39,7 @@ static IDT: Lazy<InterruptDescriptorTable> = Lazy::new(|| {
.set_stack_index(super::gdt::DOUBLE_FAULT_IX);
}
idt.page_fault.set_handler_fn(page_fault);
idt[Interrupt::ApicErr as usize].set_handler_fn(apic_err);
idt[Interrupt::Spurious as usize].set_handler_fn(spurious);
idt[Interrupt::Timer as usize].set_handler_fn(timer);
idt
});
@ -63,7 +54,7 @@ extern "x86-interrupt" fn page_fault(
panic!("Page fault ({error_code:?}): {stack_frame:?}")
}
extern "x86-interrupt" fn timer(_isf: InterruptStackFrame) {
extern "x86-interrupt" fn timer(_: InterruptStackFrame) {
unsafe { LAPIC.lock().end_of_interrupt() };
}

View file

@ -1,22 +1,46 @@
//! Logging (as in terms of console / serial output)
#![allow(deprecated)]
use {
core::fmt::Write,
limine::{TerminalRequest, TerminalResponse},
spin::{Lazy, Mutex},
uart_16550::SerialPort,
};
pub static SERIAL_CONSOLE: Mutex<SerialPort> = Mutex::new(unsafe { SerialPort::new(0x3F8) });
use core::fmt::Write;
use limine::{LimineTerminalRequest, LimineTerminalResponse};
use spin::{Lazy, Mutex};
use uart_16550::SerialPort;
static SERIAL_CONSOLE: Mutex<SerialPort> = Mutex::new(unsafe { SerialPort::new(0x3f8) });
static TERMINAL_LOGGER: Lazy<Mutex<TermLogger>> = Lazy::new(|| Mutex::new(TermLogger::new()));
pub fn init() {
SERIAL_CONSOLE.lock().init();
// Lazy::force(&TERMINAL_LOGGER);
Lazy::force(&TERMINAL_LOGGER);
}
pub fn log(args: core::fmt::Arguments<'_>) -> core::fmt::Result {
x86_64::instructions::interrupts::without_interrupts(|| {
// TERMINAL_LOGGER.lock().write_fmt(args)?;
TERMINAL_LOGGER.lock().write_fmt(args)?;
SERIAL_CONSOLE.lock().write_fmt(args)
})
}
struct TermLogger(&'static LimineTerminalResponse);
unsafe impl Send for TermLogger {}
impl TermLogger {
pub fn new() -> Self {
static TERM_REQ: LimineTerminalRequest = LimineTerminalRequest::new(0);
Self(
TERM_REQ
.get_response()
.get()
.expect("failed to get terminal response"),
)
}
}
impl Write for TermLogger {
fn write_str(&mut self, s: &str) -> core::fmt::Result {
if let (Some(w), ts) = (self.0.write(), self.0.terminals()) {
for term in ts {
w(term, s);
}
}
Ok(())
}
}

View file

@ -1,10 +1,8 @@
use {
crate::memory::{MemoryManager, MAX_ORDER},
core::sync::atomic::AtomicU64,
limine::{MemmapEntry, MemoryMapEntryType, NonNullPtr},
spin::{Mutex, Once},
x86_64::{structures::paging::OffsetPageTable, VirtAddr},
};
use core::sync::atomic::AtomicU64;
use limine::{LimineMemmapEntry, LimineMemoryMapEntryType, NonNullPtr};
use spin::{Mutex, Once};
use x86_64::{structures::paging::OffsetPageTable, VirtAddr};
use crate::memory::{MemoryManager, MAX_ORDER};
pub const PAGE_SIZE: usize = 4096;
@ -14,7 +12,7 @@ static PAGE_TABLE: Once<Mutex<OffsetPageTable>> = Once::new();
/// Initialise page table
pub unsafe fn init_pt(phys_base: VirtAddr) {
log::debug!("Retrieving page table");
log::info!("Retrieving page table");
HHDM_OFFSET.store(phys_base.as_u64(), core::sync::atomic::Ordering::Relaxed);
PAGE_TABLE.call_once(|| {
Mutex::new(OffsetPageTable::new(
@ -30,11 +28,11 @@ pub unsafe fn init_pt(phys_base: VirtAddr) {
}
/// Initialise memory manager
pub fn initialize(mmap: &'static [NonNullPtr<MemmapEntry>]) {
pub fn initialize(mmap: &'static [NonNullPtr<LimineMemmapEntry>]) {
let mut memory_manager = MemoryManager::new();
for entry in mmap {
if entry.typ != MemoryMapEntryType::Usable {
if entry.typ != LimineMemoryMapEntryType::Usable {
continue;
}

View file

@ -1,25 +1,17 @@
use {
crate::bootmodules::BootModule, core::arch::asm, embedded_graphics::pixelcolor::Rgb888,
log::warn, rdrand::RdSeed,
};
pub mod memory;
mod cpuid;
mod device_info_collector;
mod gdt;
pub mod graphics;
pub(crate) mod interrupts;
pub mod logging;
pub mod pci;
pub mod virtio;
mod interrupts;
mod logging;
pub use {logging::log, memory::PAGE_SIZE};
pub use logging::log;
pub use memory::PAGE_SIZE;
use {
crate::allocator,
limine::{HhdmRequest, KernelFileRequest, MemmapRequest, ModuleRequest},
x86_64::VirtAddr,
use crate::allocator;
use memory::MEMORY_MANAGER;
use limine::{
LimineHhdmRequest, LimineKernelFileRequest, LimineMemmapRequest, LimineModuleRequest,
};
use x86_64::VirtAddr;
extern "C" {
fn _initial_kernel_heap_start();
@ -30,29 +22,12 @@ const INITIAL_KERNEL_HEAP_START: *mut u8 = _initial_kernel_heap_start as _;
const INITIAL_KERNEL_HEAP_SIZE: *const () = _initial_kernel_heap_size as _;
#[no_mangle]
#[naked]
unsafe extern "C" fn _kernel_start() -> ! {
// Initialise SSE and jump to kernel entrypoint
core::arch::asm!(
"mov rax, cr0",
"and ax, 0xfffb",
"or ax, 0x2",
"mov cr0, rax",
"mov rax, cr4",
"or ax, 3 << 9",
"mov cr4, rax",
"jmp {}",
sym start,
options(noreturn),
)
}
unsafe extern "C" fn start() -> ! {
logging::init();
crate::logger::init().expect("failed to set logger");
log::info!("Initialising AKern {}", crate::VERSION);
static HDHM_REQ: HhdmRequest = HhdmRequest::new(0);
static HDHM_REQ: LimineHhdmRequest = LimineHhdmRequest::new(0);
memory::init_pt(VirtAddr::new(
HDHM_REQ
.get_response()
@ -60,9 +35,10 @@ unsafe extern "C" fn start() -> ! {
.expect("tried to get physical memory mapping offset from Limine")
.offset,
));
allocator::init(INITIAL_KERNEL_HEAP_START, INITIAL_KERNEL_HEAP_SIZE as _);
static MMAP_REQ: MemmapRequest = MemmapRequest::new(0);
static MMAP_REQ: LimineMemmapRequest = LimineMemmapRequest::new(0);
memory::initialize(
MMAP_REQ
.get_response()
@ -74,108 +50,24 @@ unsafe extern "C" fn start() -> ! {
gdt::init();
interrupts::init();
static KFILE_REQ: KernelFileRequest = KernelFileRequest::new(0);
static MOD_REQ: ModuleRequest = ModuleRequest::new(0);
device_info_collector::collect_device_info();
// Graphics test
// {
// graphics::init();
// let mut dis = DISPLAY.lock();
// use embedded_graphics::prelude::RgbColor;
// let _ = dis.set_color(Rgb888::YELLOW);
// let thick = 6;
// let p1 = (400, 30);
// let p2 = (200, 150);
// let p3 = (600, 150);
// let p4 = (200, 350);
// let p5 = (600, 350);
// let p6 = (400, 470);
// {
// //HEXAGON
// let _ = dis.line(p1.0, p1.1, p2.0, p2.1, thick);
// let _ = dis.line(p1.0, p1.1, p3.0, p3.1, thick);
// let _ = dis.line(p2.0, p2.1, p4.0, p4.1, thick);
// let _ = dis.line(p3.0, p3.1, p5.0, p5.1, thick);
// let _ = dis.line(p6.0, p6.1, p4.0, p4.1, thick);
// let _ = dis.line(p6.0, p6.1, p5.0, p5.1, thick);
// }
// {
// let _ = dis.line(600, 150, 200, 350, thick);
// let _ = dis.line(600, 350, 400, 250, thick);
// }
// {
// let _ = dis.set_color(Rgb888::WHITE);
// let hp1 = (350, 150);
// let hp2 = (350, 350);
// let hp3 = (450, 250);
// let hp4 = (350, 250);
// let hp5 = (450, 150);
// let hp6 = (450, 350);
// let _ = dis.line(hp1.0, hp1.1, hp2.0, hp2.1, thick);
// let _ = dis.line(hp3.0, hp3.1, hp4.0, hp4.1, thick);
// let _ = dis.line(hp5.0, hp5.1, hp6.0, hp6.1, thick);
// }
// dis.swap_buffers();
// };
// TODO: Add in rdseed and rdrand as sources for randomness
let _rand = xml::XMLElement::new("Random");
log::trace!("Getting boot modules");
let bm = MOD_REQ.get_response().get();
let mut bootmodules = alloc::vec::Vec::new();
if bm.is_some() {
let bm = bm.unwrap();
for x in 0..bm.module_count {
let file = bm.modules().get(x as usize);
if file.is_some() {
let file = file.unwrap();
let raw_bytes = core::slice::from_raw_parts(
file.base.as_ptr().expect("invalid initrd"),
file.length as usize,
)
.to_vec();
let file_path = alloc::string::String::from_utf8(
file.path.to_str().unwrap().to_bytes().to_vec(),
);
if file_path.is_err() {
panic!("invalid file path: {:?}", file_path);
}
let file_cmd = alloc::string::String::from_utf8(
file.cmdline.to_str().unwrap().to_bytes().to_vec(),
);
if file_cmd.is_err() {
panic!("invalid module cmd: {:?}", file_cmd);
}
log::trace!("module path: {:?}", file_path);
log::trace!("module cmd: {:?}", file_cmd);
bootmodules.push(BootModule::new(
file_path.unwrap(),
raw_bytes,
file_cmd.unwrap(),
));
} else {
log::error!("You should not be here");
break;
}
}
log::info!("Boot module count: {:?}", bootmodules.len());
assert_eq!(bm.module_count, bootmodules.len() as u64);
{
let mut mm = MEMORY_MANAGER.get().unwrap().lock();
let alloc_0 = mm.allocate_pages(0).unwrap();
log::debug!("Addr: {alloc_0}");
let alloc_1 = mm.allocate_pages(0).unwrap();
log::debug!("Addr: {alloc_1}");
mm.deallocate_pages(alloc_0, 0);
let alloc_2 = mm.allocate_pages(1).unwrap();
log::debug!("Addr: {alloc_2}");
mm.deallocate_pages(alloc_1, 0);
mm.deallocate_pages(alloc_2, 1);
let alloc_3 = mm.allocate_pages(1).unwrap();
log::debug!("Addr: {alloc_3}");
mm.deallocate_pages(alloc_3, 1);
}
static KFILE_REQ: LimineKernelFileRequest = LimineKernelFileRequest::new(0);
static MOD_REQ: LimineModuleRequest = LimineModuleRequest::new(0);
crate::kmain::kmain(
KFILE_REQ
.get_response()
@ -188,110 +80,22 @@ unsafe extern "C" fn start() -> ! {
.transpose()
.expect("expected valid cmdline string")
.unwrap_or_default(),
bootmodules,
MOD_REQ
.get_response()
.get()
.and_then(|m| m.modules().get(0))
.map(|file| unsafe {
core::slice::from_raw_parts(
file.base.as_ptr().expect("invalid initrd"),
file.length as usize,
)
}),
)
}
/// Spin loop
pub fn spin_loop() -> ! {
pub fn sloop() -> ! {
loop {
x86_64::instructions::hlt();
}
}
pub fn hardware_random_u64() -> u64 {
use {log::trace, rdrand::RdRand};
let gen = RdRand::new();
match gen {
Ok(gen) => {
let ret = gen.try_next_u64().unwrap();
trace!("Random {}", ret);
return ret;
}
Err(err) => {
warn!("RDRand not supported.");
// Try rdseed
let gen = RdSeed::new();
match gen {
Ok(gen) => {
let ret = gen.try_next_u64().unwrap();
trace!("Random {}", ret);
return ret;
}
Err(err) => {
panic!("Neither RDRand or RDSeed are supported")
}
}
}
}
}
pub fn get_edid() {}
pub fn register_dump() {
let rax: u64;
let rbx: u64 = 0;
let rcx: u64;
let rdx: u64;
let si: u64;
let di: u64;
let r8: u64; // TODO: r8-r15
let r9: u64;
let r10: u64;
let r11: u64;
let r12: u64;
let r13: u64;
let r14: u64;
let r15: u64;
unsafe {
asm!("",
out("rax") rax,
out("rcx") rcx,
out("rdx") rdx,
out("si") si,
out("di") di,
out("r8") r8,
out("r9") r9,
out("r10") r10,
out("r11") r11,
out("r12") r12,
out("r13") r13,
out("r14") r14,
out("r15") r15,
)
};
log::error!(
"Kernel Panic!\r
Register Dump\r
rax: {:#x}\r
rbx: {:#x}\r
rcx: {:#x}\r
rdx: {:#x}\r
si : {:#x}\r
di : {:#x}\r
r8 : {:#x}\r
r9 : {:#x}\r
r11: {:#x}\r
r12: {:#x}\r
r13: {:#x}\r
r14: {:#x}\r
r15: {:#x}\r
",
rax,
rbx,
rcx,
rdx,
si,
di,
r8,
r9,
r11,
r12,
r13,
r14,
r15,
);
}

View file

@ -1,501 +0,0 @@
#[derive(Copy, Clone, Debug)]
/// A struct containing info about a PCI device.
pub struct PciDeviceInfo {
pub header_type: u8,
pub device: u8,
pub bus: u8,
pub device_id: DeviceID,
pub full_class: PciFullClass,
pub rev_id: u8,
}
use crate::alloc::string::ToString;
/// Enumerate PCI devices and run initialisation routines on ones we support
pub fn init(device_tree: &mut DeviceTree) {
device_tree.devices
.insert("Unidentified PCI".to_string(), alloc::vec![]);
let mut devices = alloc::vec![];
for bus in 0..=255 {
for device in 0..32 {
if let Some(device_info) = check_device(bus, device) {
let vendor = device_info.device_id.vendor;
let id = device_info.device_id.id;
use Vendor::*;
let (dev_type, dev_name) = match (vendor, id) {
(Qemu, 4369) => ("GPUs", "QEMU VGA"),
(VirtIO, 4176) => ("GPUs", "VirtIO PCI GPU"),
(CirrusLogic, 184) => ("GPUs", "Cirrus SVGA"), //GD 5446?
(_, _) => ("Unidentified PCI", "UNKNOWN DEVICE"),
};
// let (dev_type, dev_name) = match device_info.full_class {
// PciFullClass::Unclassified_NonVgaCompatible => todo!(),
// PciFullClass::Unclassified_VgaCompatible => todo!(),
// PciFullClass::Display_VGA => ("GPUs", "VGA Device"),
// PciFullClass::Display_XGA => ("GPUs", "XGA Device"),
// PciFullClass::Display_3D => ("GPUs", "3D Device"),
// PciFullClass::Display_Other => ("GPUs", "Other"),
// _ => ("Unidentified PCI", "UNKNOWN DEVICE"),
// };
let mut dev = xml::XMLElement::new(dev_name);
let mut pci_info = xml::XMLElement::new("PCI Info");
pci_info.set_attribute("id", id);
pci_info.set_attribute("device", device_info.device);
pci_info.set_attribute("vendor", vendor);
pci_info.set_attribute("class", device_info.full_class.to_string());
dev.set_child(pci_info);
devices.push((dev_type, dev));
}
}
}
for (dev_type, dev) in devices {
if let Some(abc) = device_tree.devices.get_mut(dev_type) {
abc.push(dev);
}
}
}
pub fn check_device(bus: u8, device: u8) -> Option<PciDeviceInfo> {
assert!(device < 32);
let (device_id, vendor_id) = get_ids(bus, device, 0);
if vendor_id == 0xFFFF {
// Device doesn't exist
return None;
}
let reg2 = unsafe { pci_config_read(bus, device, 0, 0x8) };
let class = ((reg2 >> 16) & 0x0000_FFFF) as u16;
let pci_class = PciFullClass::from_u16(class);
let header_type = get_header_type(bus, device, 0);
Some(PciDeviceInfo {
header_type,
device,
bus,
device_id: DeviceID {
vendor: vendor_id.into(),
id: device_id,
},
full_class: pci_class,
rev_id: (reg2 & 0x0000_00FF) as u8,
})
}
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
pub struct DeviceID {
pub vendor: Vendor,
pub id: u16,
}
impl DeviceID {
pub const fn new(vendor: Vendor, id: u16) -> Self {
Self { vendor, id }
}
}
#[derive(PartialEq, Debug, Copy, Clone, Eq)]
#[repr(u16)]
pub enum Vendor {
ThreeDfxInteractiveInc = 0x121A,
ThreeDLabs = 0x3D3D,
AllianceSemiconductorCorp = 0x1142,
ARKLogicInc = 0xEDD8,
ATITechnologiesInc = 0x1002,
AvanceLogicIncALI = 0x1005,
ChipsandTechnologies = 0x102C,
CirrusLogic = 0x1013,
Compaq = 0x0E11,
CyrixCorp = 0x1078,
DiamondMultimediaSystems = 0x1092,
DigitalEquipmentCorp = 0x1011,
Iit = 0x1061,
IntegratedMicroSolutionsInc = 0x10E0,
IntelCorp = 0x8086,
IntergraphicsSystems = 0x10EA,
MacronixInc = 0x10D9,
MatroxGraphicsInc = 0x102B,
MiroComputersProductsAG = 0x1031,
NationalSemiconductorCorp = 0x100B,
NeoMagicCorp = 0x10C8,
Number9ComputerCompany = 0x105D,
NVidiaCorporation = 0x10DE,
NVidiaSgsthomson = 0x12D2,
OakTechnologyInc = 0x104E,
Qemu = 0x1234,
QuantumDesignsHKLtd = 0x1098,
Real3D = 0x003D,
Rendition = 0x1163,
S3Inc = 0x5333,
SierraSemiconductor = 0x10A8,
SiliconIntegratedSystemsSiS = 0x1039,
SiliconMotionInc = 0x126F,
STBSystemsInc = 0x10B4,
TexasInstruments = 0x104C,
ToshibaAmericaInfoSystems = 0x1179,
TridentMicrosystems = 0x1023,
TsengLabsInc = 0x100C,
TundraSemiconductorCorp = 0x10E3,
VIATechnologiesInc = 0x1106,
VirtIO = 0x1AF4,
VMWareInc = 0x15AD,
Weitek = 0x100E,
Unknown(u16),
}
impl From<u16> for Vendor {
fn from(vendor_id: u16) -> Self {
use Vendor::*;
match vendor_id {
0x121A => ThreeDfxInteractiveInc,
0x3D3D => ThreeDLabs,
0x1142 => AllianceSemiconductorCorp,
0xEDD8 => ARKLogicInc,
0x1002 => ATITechnologiesInc,
0x1005 => AvanceLogicIncALI,
0x102C => ChipsandTechnologies,
0x1013 => CirrusLogic,
0x0E11 => Compaq,
0x1078 => CyrixCorp,
0x1092 => DiamondMultimediaSystems,
0x1011 => DigitalEquipmentCorp,
0x1061 => Iit,
0x10E0 => IntegratedMicroSolutionsInc,
0x8086 => IntelCorp,
0x10EA => IntergraphicsSystems,
0x10D9 => MacronixInc,
0x102B => MatroxGraphicsInc,
0x1031 => MiroComputersProductsAG,
0x100B => NationalSemiconductorCorp,
0x10C8 => NeoMagicCorp,
0x105D => Number9ComputerCompany,
0x10DE => NVidiaCorporation,
0x12D2 => NVidiaSgsthomson,
0x104E => OakTechnologyInc,
0x1234 => Qemu,
0x1098 => QuantumDesignsHKLtd,
0x003D => Real3D,
0x1163 => Rendition,
0x5333 => S3Inc,
0x10A8 => SierraSemiconductor,
0x1039 => SiliconIntegratedSystemsSiS,
0x126F => SiliconMotionInc,
0x10B4 => STBSystemsInc,
0x104C => TexasInstruments,
0x1179 => ToshibaAmericaInfoSystems,
0x1023 => TridentMicrosystems,
0x100C => TsengLabsInc,
0x10E3 => TundraSemiconductorCorp,
0x1106 => VIATechnologiesInc,
0x1AF4 => VirtIO,
0x15AD => VMWareInc,
0x100E => Weitek,
id => Unknown(id),
}
}
}
impl Into<u16> for Vendor {
fn into(self) -> u16 {
use Vendor::*;
match self {
ThreeDfxInteractiveInc => 0x121A,
ThreeDLabs => 0x3D3D,
AllianceSemiconductorCorp => 0x1142,
ARKLogicInc => 0xEDD8,
ATITechnologiesInc => 0x1002,
AvanceLogicIncALI => 0x1005,
ChipsandTechnologies => 0x102C,
CirrusLogic => 0x1013,
Compaq => 0x0E11,
CyrixCorp => 0x1078,
DiamondMultimediaSystems => 0x1092,
DigitalEquipmentCorp => 0x1011,
Iit => 0x1061,
IntegratedMicroSolutionsInc => 0x10E0,
IntelCorp => 0x8086,
IntergraphicsSystems => 0x10EA,
MacronixInc => 0x10D9,
MatroxGraphicsInc => 0x102B,
MiroComputersProductsAG => 0x1031,
NationalSemiconductorCorp => 0x100B,
NeoMagicCorp => 0x10C8,
Number9ComputerCompany => 0x105D,
NVidiaCorporation => 0x10DE,
NVidiaSgsthomson => 0x12D2,
OakTechnologyInc => 0x104E,
Qemu => 0x1234,
QuantumDesignsHKLtd => 0x1098,
Real3D => 0x003D,
Rendition => 0x1163,
S3Inc => 0x5333,
SierraSemiconductor => 0x10A8,
SiliconIntegratedSystemsSiS => 0x1039,
SiliconMotionInc => 0x126F,
STBSystemsInc => 0x10B4,
TexasInstruments => 0x104C,
ToshibaAmericaInfoSystems => 0x1179,
TridentMicrosystems => 0x1023,
TsengLabsInc => 0x100C,
TundraSemiconductorCorp => 0x10E3,
VIATechnologiesInc => 0x1106,
VirtIO => 0x1AF4,
VMWareInc => 0x15AD,
Weitek => 0x100E,
Unknown(id) => id,
}
}
}
impl Display for Vendor {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
use Vendor::*;
match self {
Qemu => write!(f, "QEMU (0x1234)"),
VirtIO => write!(f, "VirtIO (0x1AF4)"),
VMWareInc => write!(f, "VMWARE (0x15AD)"),
S3Inc => write!(f, "S3 Incorporated (0x5333)"),
IntelCorp => write!(f, "Intel Corp. (0x8086)"),
ATITechnologiesInc => write!(f, "ATI (0x1002)"),
Unknown(id) => write!(f, "Unknown ({:#6})", id),
other => write!(f, "{other:?}"),
}?;
Ok(())
}
}
use core::fmt::Display;
use x86_64::instructions::port::Port;
use crate::device_tree::DeviceTree;
#[allow(non_camel_case_types, dead_code)]
#[derive(Debug, Clone, Copy, PartialEq)]
#[repr(C)]
/// Class specification for a PCI device
pub enum PciClass {
Unclassified = 0x00,
MassStorage = 0x01,
Network = 0x02,
Display = 0x03,
Multimedia = 0x04,
Memory = 0x05,
Bridge = 0x06,
Unknown = 0xFF,
}
impl From<u8> for PciClass {
/// Convert a u8 into the corresponding PciClass
fn from(n: u8) -> Self {
use PciClass::*;
match n {
0x00 => Unclassified,
0x01 => MassStorage,
0x02 => Network,
0x03 => Display,
0x04 => Multimedia,
0x05 => Memory,
0x06 => Bridge,
_ => Unknown,
}
}
}
#[allow(non_camel_case_types, dead_code)]
#[derive(Debug, Clone, Copy, PartialEq)]
#[repr(C)]
/// Full class specification (type and subtype) for a PCI device.
///
/// Uses non-camel-case types for readability.
pub enum PciFullClass {
Unclassified_NonVgaCompatible = 0x0000,
Unclassified_VgaCompatible = 0x0001,
MassStorage_ScsiBus = 0x0100,
MassStorage_IDE = 0x0101,
MassStorage_Floppy = 0x0102,
MassStorage_IpiBus = 0x0103,
MassStorage_RAID = 0x0104,
MassStorage_ATA = 0x0105,
MassStorage_SATA = 0x0106,
MassStorage_SerialSCSI = 0x0107,
MassStorage_NVM = 0x0108,
MassStorage_Other = 0x0180,
Network_Ethernet = 0x0200,
Network_TokenRing = 0x0201,
Network_FDDI = 0x0202,
Network_ATM = 0x0203,
Network_ISDN = 0x0204,
Network_WorldFlip = 0x0205,
Network_PICMG = 0x0206,
Network_Infiniband = 0x0207,
Network_Fabric = 0x0208,
Network_Other = 0x0280,
Display_VGA = 0x0300,
Display_XGA = 0x0301,
Display_3D = 0x0302,
Display_Other = 0x0380,
Multimedia_Video = 0x0400,
Multimedia_AudioController = 0x0401,
Multimedia_Telephony = 0x0402,
Multimedia_AudioDevice = 0x0403,
Multimedia_Other = 0x0480,
Memory_RAM = 0x0500,
Memory_Flash = 0x0501,
Memory_Other = 0x0580,
Bridge_Host = 0x0600,
Bridge_ISA = 0x0601,
Bridge_EISA = 0x0602,
Bridge_MCA = 0x0603,
Bridge_PciToPci = 0x0604,
Bridge_PCMCIA = 0x0605,
Bridge_NuBus = 0x0606,
Bridge_CardBus = 0x0607,
Bridge_RACEway = 0x0608,
Bridge_PciToPciSemiTransparent = 0x0609,
Bridge_InfinibandToPci = 0x060A,
Bridge_Other = 0x0680,
Unknown = 0xFFFF,
}
impl PciFullClass {
// listen, i know this sucks, but i didn't want to include
// `num`, `num-traits` and `num-derive` as dependencies for
// this crate just for a convenience function
/// Convert a u16 into the corresponding PciFullClass
pub fn from_u16(n: u16) -> PciFullClass {
match n {
0x0000 => PciFullClass::Unclassified_NonVgaCompatible,
0x0001 => PciFullClass::Unclassified_VgaCompatible,
0x0100 => PciFullClass::MassStorage_ScsiBus,
0x0101 => PciFullClass::MassStorage_IDE,
0x0102 => PciFullClass::MassStorage_Floppy,
0x0103 => PciFullClass::MassStorage_IpiBus,
0x0104 => PciFullClass::MassStorage_RAID,
0x0105 => PciFullClass::MassStorage_ATA,
0x0106 => PciFullClass::MassStorage_SATA,
0x0107 => PciFullClass::MassStorage_SerialSCSI,
0x0108 => PciFullClass::MassStorage_NVM,
0x0180 => PciFullClass::MassStorage_Other,
0x0200 => PciFullClass::Network_Ethernet,
0x0201 => PciFullClass::Network_TokenRing,
0x0202 => PciFullClass::Network_FDDI,
0x0203 => PciFullClass::Network_ATM,
0x0204 => PciFullClass::Network_ISDN,
0x0205 => PciFullClass::Network_WorldFlip,
0x0206 => PciFullClass::Network_PICMG,
0x0207 => PciFullClass::Network_Infiniband,
0x0208 => PciFullClass::Network_Fabric,
0x0280 => PciFullClass::Network_Other,
0x0300 => PciFullClass::Display_VGA,
0x0301 => PciFullClass::Display_XGA,
0x0302 => PciFullClass::Display_3D,
0x0380 => PciFullClass::Display_Other,
0x0400 => PciFullClass::Multimedia_Video,
0x0401 => PciFullClass::Multimedia_AudioController,
0x0402 => PciFullClass::Multimedia_Telephony,
0x0403 => PciFullClass::Multimedia_AudioDevice,
0x0480 => PciFullClass::Multimedia_Other,
0x0500 => PciFullClass::Memory_RAM,
0x0501 => PciFullClass::Memory_Flash,
0x0580 => PciFullClass::Memory_Other,
0x0600 => PciFullClass::Bridge_Host,
0x0601 => PciFullClass::Bridge_ISA,
0x0602 => PciFullClass::Bridge_EISA,
0x0603 => PciFullClass::Bridge_MCA,
0x0604 => PciFullClass::Bridge_PciToPci,
0x0605 => PciFullClass::Bridge_PCMCIA,
0x0606 => PciFullClass::Bridge_NuBus,
0x0607 => PciFullClass::Bridge_CardBus,
0x0608 => PciFullClass::Bridge_RACEway,
0x0609 => PciFullClass::Bridge_PciToPciSemiTransparent,
0x060A => PciFullClass::Bridge_InfinibandToPci,
0x0680 => PciFullClass::Bridge_Other,
_ => PciFullClass::Unknown,
}
}
/// Convert a PciFullClass to its u16 representation
pub fn as_u16(&self) -> u16 {
*self as u16
}
}
impl From<u16> for PciFullClass {
/// Convert a u16 into the corresponding PciFullClass
fn from(n: u16) -> Self {
Self::from_u16(n)
}
}
impl Display for PciFullClass {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
write!(f, "{:?} ({:#06X})", self, self.as_u16())?;
Ok(())
}
}
unsafe fn pci_config_read(bus: u8, device: u8, func: u8, offset: u8) -> u32 {
let bus = bus as u32;
let device = device as u32;
let func = func as u32;
let offset = offset as u32;
// construct address param
let address =
((bus << 16) | (device << 11) | (func << 8) | (offset & 0xFC) | 0x8000_0000) as u32;
// write address
Port::new(0xCF8).write(address);
// read data
Port::new(0xCFC).read()
}
unsafe fn pci_config_write(bus: u8, device: u8, func: u8, offset: u8, value: u32) {
let bus = bus as u32;
let device = device as u32;
let func = func as u32;
let offset = offset as u32;
// construct address param
let address =
((bus << 16) | (device << 11) | (func << 8) | (offset & 0xFC) | 0x8000_0000) as u32;
// write address
Port::new(0xCF8).write(address);
// write data
Port::new(0xCFC).write(value);
}
fn get_header_type(bus: u8, device: u8, function: u8) -> u8 {
assert!(device < 32);
assert!(function < 8);
let res = unsafe { pci_config_read(bus, device, function, 0x0C) };
((res >> 16) & 0xFF) as u8
}
fn get_ids(bus: u8, device: u8, function: u8) -> (u16, u16) {
assert!(device < 32);
assert!(function < 8);
let res = unsafe { pci_config_read(bus, device, function, 0) };
let dev_id = ((res >> 16) & 0xFFFF) as u16;
let vnd_id = (res & 0xFFFF) as u16;
(dev_id, vnd_id)
}

View file

@ -1,37 +0,0 @@
use {
core::{ptr::NonNull},
virtio_drivers::{BufferDirection, Hal, PhysAddr},
};
pub fn test() {
let _ps = virtio_drivers::PAGE_SIZE;
}
pub struct AbleosHal;
unsafe impl Hal for AbleosHal {
fn dma_alloc(_pages: usize, _direction: BufferDirection) -> (PhysAddr, NonNull<u8>) {
todo!();
}
unsafe fn dma_dealloc(_paddr: PhysAddr, _vaddr: NonNull<u8>, _pages: usize) -> i32 {
todo!()
}
unsafe fn mmio_phys_to_virt(paddr: PhysAddr, _size: usize) -> NonNull<u8> {
NonNull::new(paddr as _).unwrap()
}
unsafe fn share(_buffer: NonNull<[u8]>, _direction: BufferDirection) -> PhysAddr {
todo!()
}
unsafe fn unshare(_paddr: PhysAddr, _buffer: NonNull<[u8]>, _direction: BufferDirection) {
// Nothing to do, as the host already has access to all memory and we didn't copy the buffer
// anywhere else.
todo!()
}
}
fn virt_to_phys(vaddr: usize) -> PhysAddr {
vaddr
}

View file

@ -1,36 +0,0 @@
use {
crate::alloc::string::ToString,
alloc::{string::String, vec::Vec},
clparse::Arguments,
core::fmt::{Debug, Display},
log::trace,
xml::XMLElement,
};
pub type BootModules = Vec<BootModule>;
pub struct BootModule {
pub path: String,
pub bytes: Vec<u8>,
pub cmd: String,
}
impl BootModule {
pub fn new(path: String, bytes: Vec<u8>, cmd: String) -> Self {
Self { path, bytes, cmd }
}
}
pub fn build_cmd<T: Display + Debug>(name: T, cmdline: T) -> XMLElement {
let mut cmdline = cmdline.to_string();
cmdline.pop();
cmdline.remove(0);
let cmd = Arguments::parse(cmdline.to_string()).unwrap();
trace!("Cmdline: {cmd:?}");
let mut clo = XMLElement::new(name);
for (key, value) in cmd.arguments {
clo.set_attribute(key, value);
}
trace!("command line object: {:?}", clo);
clo
}

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@ -1,186 +0,0 @@
//! AbleOS capability tree implementation
use {
crate::{tab, utils::TAB},
alloc::{
string::{String, ToString},
vec,
},
core::fmt,
};
// Seperate
use alloc::vec::Vec;
struct Argument {
name: String,
type_: String,
}
struct Function {
name: String,
args: Vec<Argument>,
ret: String,
}
struct Capability {
name: String,
functions: Vec<Function>,
sub_capabilities: Vec<Capability>,
}
impl Capability {
fn new(name: String) -> Capability {
Capability {
name,
functions: Vec::new(),
sub_capabilities: Vec::new(),
}
}
}
impl fmt::Display for Capability {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "Capability: {}\r\n", self.name)?;
for function in &self.functions {
write!(f, "{}Function: {}\r\n", tab!(1), function.name)?;
for arg in &function.args {
write!(
f,
"{}Argument: {} (Type: {})\r\n",
tab!(2),
arg.name,
arg.type_
)?;
}
write!(f, "{}Return Type: {}\r\n", tab!(2), &function.ret)?;
}
for sub_capability in &self.sub_capabilities {
write!(f, "{}{}\r\n", tab!(1), sub_capability)?;
}
Ok(())
}
}
// impl Capability {
// fn to_string_with_indentation(&self, level: usize) -> String {
// let indent = tab!(level);
// let mut result = format!("{}Capability: {}\n", indent, self.name);
// for function in &self.functions {
// result.push_str(&format!(
// "{}Function: {}\n",
// tab!(indent + 1),
// function.name
// ));
// for arg in &function.args {
// result.push_str(&format!(
// "{}Argument: {} (Type: {})\n",
// tab!(indent + 2),
// arg.name,
// arg.type_
// ));
// }
// result.push_str(&format!(
// "{}Return Type: {}\n",
// tab!(indent + 2),
// &function.ret
// ));
// }
// for sub_capability in &self.sub_capabilities {
// result.push_str(&sub_capability.to_string_with_indentation(level + 1));
// }
// result
// }
// }
struct CapabilityTree {
capabilities: Vec<Capability>,
}
impl CapabilityTree {
fn new() -> CapabilityTree {
CapabilityTree {
capabilities: Vec::new(),
}
}
}
/// A super simple capabilities example
pub fn example() {
let mut capability_tree = Capability::new("VFS".to_string());
let mut file_management_capability = Capability::new("File Management".to_string());
file_management_capability.functions.push(Function {
name: "OpenFile".to_string(),
args: vec![
Argument {
name: "path".to_string(),
type_: "String".to_string(),
},
Argument {
name: "mode".to_string(),
type_: "String".to_string(),
},
],
ret: "FileHandle".to_string(),
});
file_management_capability.functions.push(Function {
name: "ReadFile".to_string(),
args: vec![
Argument {
name: "file".to_string(),
type_: "FileHandle".to_string(),
},
Argument {
name: "buffer".to_string(),
type_: "&mut [u8]".to_string(),
},
Argument {
name: "length".to_string(),
type_: "usize".to_string(),
},
],
ret: "usize".to_string(),
});
file_management_capability.functions.push(Function {
name: "WriteFile".to_string(),
args: vec![
Argument {
name: "file".to_string(),
type_: "FileHandle".to_string(),
},
Argument {
name: "buffer".to_string(),
type_: "&[u8]".to_string(),
},
],
ret: "None".to_string(),
});
let mut directory_management_capability = Capability::new("Directory Management".to_string());
directory_management_capability.functions.push(Function {
name: "CreateDirectory".to_string(),
args: vec![Argument {
name: "path".to_string(),
type_: "String".to_string(),
}],
ret: "bool".to_string(),
});
directory_management_capability.functions.push(Function {
name: "ListDirectory".to_string(),
args: vec![Argument {
name: "path".to_string(),
type_: "String".to_string(),
}],
ret: "Vec<String>".to_string(),
});
capability_tree
.sub_capabilities
.push(file_management_capability);
capability_tree
.sub_capabilities
.push(directory_management_capability);
log::debug!("CapTree\r\n{}", capability_tree);
}

View file

@ -1,73 +0,0 @@
//! A tree of hardware devices
use {
crate::alloc::string::ToString,
alloc::{string::String, vec::Vec},
core::fmt,
hashbrown::HashMap,
};
/// A device object.
/// TODO define device
pub type Device = xml::XMLElement;
/// A tree of devices
// TODO: alphabetize this list
#[derive(Debug)]
pub struct DeviceTree {
/// The device tree
pub devices: HashMap<String, Vec<Device>>,
}
impl DeviceTree {
/// Build the device tree. Does not populate the device tree
pub fn new() -> Self {
let mut dt = Self {
devices: HashMap::new(),
};
device_tree!(dt, [
"Mice",
"Keyboards",
"Controllers",
"Generic HIDs",
"Disk Drives",
"CD Drives",
"Batteries",
"Monitors",
"GPUs",
"CPUs",
"USB",
"Serial Ports",
"Cameras",
"Biometric Devices",
]);
dt
}
}
use crate::{utils::TAB, device_tree};
use crate::tab;
impl fmt::Display for DeviceTree {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
writeln!(f)?;
for (device_type, devices) in &self.devices {
writeln!(f, "\r{}{}/\r", tab!(1), device_type)?;
for device in devices {
writeln!(f, "{}{}/\r", tab!(2), device.name)?;
for attr in &device.attributes {
writeln!(f, "{}{}\r", tab!(3), attr)?;
}
for child in &device.children {
writeln!(f, "{}{}\r", tab!(3), child.name)?;
for attr in &child.attributes {
writeln!(f, "{}{}\r", tab!(4), attr)?;
}
for child in &child.children {
writeln!(f, "{}{}\r", tab!(4), child.name)?;
for attr in &child.attributes {
writeln!(f, "{}{}\r", tab!(5), attr)?;
}
}
}
}
}
Ok(())
}
}

View file

@ -1,66 +0,0 @@
//! A handle module
use {
crate::arch::hardware_random_u64,
core::fmt::{self, Formatter},
};
/// An operating system handle without permissions attached
#[derive(Debug, Eq, Hash, PartialEq, Clone, Copy)]
pub struct OSHandle {
id: u64,
}
impl OSHandle {
/// turn a u64 into an OSHandle
pub fn new_from_u64(id: u64) -> Self {
Self { id }
}
/// Generate a new OSHandle using the HAL random function
pub fn random_new() -> Self {
Self {
id: hardware_random_u64(),
}
}
}
/// A handle for resources
#[derive(Debug, Eq, Hash, PartialEq, Clone, Copy)]
pub struct Handle {
id: OSHandle,
// TODO: Update this to be indexes into the caps
perms: Permissions,
}
impl Handle {
/// make a new handle
pub fn new() -> Handle {
Handle {
id: OSHandle::random_new(),
perms: Permissions::new(),
}
}
/// represent the os handle as a u64
pub fn as_u64(&self) -> u64 {
self.id.id
}
}
impl fmt::Display for Handle {
fn fmt(&self, w: &mut Formatter<'_>) -> Result<(), core::fmt::Error> {
write!(w, "{:?}", self.id)?;
Ok(())
}
}
#[derive(PartialEq, Hash, Eq, Debug, Clone, Copy)]
struct Permissions {
edit_children: bool,
edit_attributes: bool,
}
impl Permissions {
fn new() -> Self {
Self {
edit_children: true,
edit_attributes: true,
}
}
}

View file

@ -1,178 +0,0 @@
//! Environment call handling routines
use {
super::{mem::Memory, Vm},
crate::{arch, holeybytes::mem, ipc::buffer::IpcBuffer, kmain::IPC_BUFFERS},
alloc::string::String,
log::{debug, error, info, trace, warn},
};
pub fn handler(vm: &mut Vm) {
let r1 = vm.registers[1].cast::<u64>();
// debug!("Ecall number {:?}", r1);
// trace!("Register dump: {:?}", vm.registers);
match r1 {
0 => {
// TODO: explode computer
// hello world ecall
for x in 0u64..=255 {
vm.registers[x as usize] = x.into();
}
}
1 => {
// Make buffer
let bounded = match vm.registers[2].cast::<u64>() {
0 => false,
1 => true,
_ => {
panic!("Bad");
}
};
let length = vm.registers[3].cast::<u64>();
let mut buffs = IPC_BUFFERS.lock();
let abc;
match bounded {
false => {
abc = IpcBuffer::new(false, 0);
}
true => {
abc = IpcBuffer::new(true, length);
}
};
let buff_id = arch::hardware_random_u64();
buffs.insert(buff_id, abc);
debug!("Buffer ID: {}", buff_id);
vm.registers[1] = hbvm::value::Value(buff_id);
}
2 => {
// Delete buffer
}
3 => {
// Send a message to a buffer
let r2 = vm.registers[2].cast::<u64>();
let r3 = vm.registers[3].cast::<u64>();
let r4 = vm.registers[4].cast::<u64>();
let buffer_id = r2;
let mem_addr = r3;
let length = r4 as usize;
trace!("IPC address: {:?}", mem_addr);
use alloc::vec::Vec;
match buffer_id {
1 => match log_msg_handler(vm, mem_addr, length) {
Ok(()) => {}
Err(err) => log::error!("Improper log format"),
},
2 => match memory_msg_handler(vm, mem_addr, length) {
Ok(()) => {}
Err(err) => log::error!("Improper log format"),
},
buffer_id => {
let mut buffs = IPC_BUFFERS.lock();
match buffs.get_mut(&buffer_id) {
Some(buff) => {
let mut msg_vec = vec![];
for x in 0..(length as isize) {
let xyz = mem_addr as *const u8;
let value = unsafe { xyz.offset(x).read() };
msg_vec.push(value);
}
buff.push(msg_vec.clone());
info!(
"Message {:?} has been sent to Buffer({})",
msg_vec, buffer_id
);
}
None => {
log::error!("Access of non-existent buffer {}", buffer_id)
}
}
drop(buffs);
}
}
}
4 => {
let r2 = vm.registers[2].cast::<u64>();
let mut buffs = IPC_BUFFERS.lock();
let mut buff = buffs.get_mut(&r2).unwrap();
let msg = buff.pop();
info!("Recieve {:?} from Buffer({})", msg, r2);
}
5 => {
let r2 = vm.registers[2].cast::<u64>();
vm.registers[3] = hbvm::value::Value( unsafe { x86_in(r2 as u16) } as u64);
}
// 5
_ => {
log::error!("Syscall unknown {:?}{:?}", r1, vm.registers);
}
}
}
unsafe fn x86_in(address: u16) -> u32{
x86_64::instructions::port::Port::new(address).read()
}
unsafe fn x86_out(address: u16, value: u32){
x86_64::instructions::port::Port::new(address).write(value);
}
fn log_msg_handler(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), LogError> {
// let message_length = 8 + 8 + 8;
// log::info!("Mem Addr 0x{:x?} length {}", mem_addr, length);
let mut msg_vec = vec![];
for x in 0..(length as isize) {
let xyz = mem_addr as *const u8;
let value = unsafe { xyz.offset(x).read() };
// info!("{} - 0x{:x?} - {}", value, value, value as char);
msg_vec.push(value);
}
let log_level = msg_vec.pop().unwrap();
match String::from_utf8(msg_vec) {
Ok (strr) => {
// use LogLevel::*;
let ll = match log_level {
0 | 48 => error!("{}", strr),
1 | 49 => warn!("{}", strr),
2 | 50 => info!("{}", strr),
3 | 51 => debug!("{}", strr),
4 | 52 => trace!("{}", strr),
_ => {
return Err(LogError::InvalidLogFormat);
}
};
}
Err(e) => {
error!("{:?}", e);
}
}
Ok(())
}
#[derive(Debug)]
pub enum LogError {
InvalidLogFormat,
}
use {alloc::vec, log::Record};
fn memory_msg_handler(vm: &mut Vm, mem_addr: u64, length: usize) -> Result<(), LogError> {
let mut val = alloc::vec::Vec::new();
for _ in 0..4096 {
val.push(0);
}
info!("Block address: {:?}", val.as_ptr());
vm.registers[1] = hbvm::value::Value(val.as_ptr() as u64);
vm.registers[2] = hbvm::value::Value(4096);
Ok(())
}

View file

@ -1,39 +0,0 @@
//! Security? Multiple address spaces? What are you talking about
//! young adventurer. In this temple, we know no such words.
//!
//! Want your program to override other program's data or even the
//! data of the kernel itself? Sure. This right shall not be infringed.
use hbvm::mem::Address;
pub struct Memory;
impl hbvm::mem::Memory for Memory {
#[inline]
unsafe fn load(
&mut self,
addr: Address,
target: *mut u8,
count: usize,
) -> Result<(), hbvm::mem::LoadError> {
core::ptr::copy(addr.get() as *const u8, target, count);
Ok(())
}
#[inline]
unsafe fn store(
&mut self,
addr: Address,
source: *const u8,
count: usize,
) -> Result<(), hbvm::mem::StoreError> {
// log::info!("Storing memory");
core::ptr::copy(source, addr.get() as *mut u8, count);
Ok(())
}
#[inline]
unsafe fn prog_read<T: Copy>(&mut self, addr: Address) -> T {
(addr.get() as *const T).read_unaligned()
}
}

View file

@ -1,122 +0,0 @@
mod ecah;
mod mem;
use {
crate::{arch, ipc::buffer::IpcBuffer, kmain::IPC_BUFFERS},
alloc::boxed::Box,
core::{default, future::Future, marker::PhantomData, ptr::NonNull, task::Poll},
hbvm::{
mem::{
softpaging::{icache::ICache, HandlePageFault, SoftPagedMem},
Address, Memory,
},
VmRunError, VmRunOk,
},
log::{debug, error, info, trace, warn},
};
const STACK_SIZE: usize = 1024 * 1024;
const TIMER_QUOTIENT: usize = 100;
type Vm = hbvm::Vm<mem::Memory, TIMER_QUOTIENT>;
pub struct ExecThread<'p> {
vm: Vm,
stack_bottom: *mut u8,
_phantom: PhantomData<&'p [u8]>,
}
unsafe impl<'p> Send for ExecThread<'p> {}
impl<'p> ExecThread<'p> {
pub fn set_arguments(&mut self, ptr: u64, length: u64) {
self.vm.registers[1] = hbvm::value::Value(ptr);
self.vm.registers[2] = hbvm::value::Value(length);
}
pub unsafe fn new(program: &'p [u8], entrypoint: Address) -> Self {
let mut vm = unsafe {
Vm::new(
mem::Memory,
Address::new(program.as_ptr() as u64 + entrypoint.get()),
)
};
let stack_bottom = unsafe { allocate_stack().as_ptr() };
vm.write_reg(254, (stack_bottom as usize + STACK_SIZE - 1) as u64);
ExecThread {
vm,
stack_bottom,
_phantom: Default::default(),
}
}
}
impl<'p> Drop for ExecThread<'p> {
fn drop(&mut self) {
unsafe { alloc::alloc::dealloc(self.stack_bottom, stack_layout()) };
}
}
impl<'p> Future for ExecThread<'p> {
type Output = Result<(), VmRunError>;
fn poll(
mut self: core::pin::Pin<&mut Self>,
cx: &mut core::task::Context<'_>,
) -> Poll<Self::Output> {
match self.vm.run() {
Err(err) => {
log::error!("HBVM Error\r\nRegister dump: {:?}", self.vm.registers,);
return Poll::Ready(Err(err));
}
Ok(VmRunOk::End) => return Poll::Ready(Ok(())),
Ok(VmRunOk::Ecall) => ecah::handler(&mut self.vm),
Ok(VmRunOk::Timer) => (),
Ok(VmRunOk::Breakpoint) => {
log::error!(
"HBVM Debug breakpoint\r\nRegister dump: {:?}",
self.vm.registers,
);
}
}
cx.waker().wake_by_ref();
Poll::Pending
}
}
struct PageFaultHandler;
impl HandlePageFault for PageFaultHandler {
fn page_fault(
&mut self,
reason: hbvm::mem::MemoryAccessReason,
pagetable: &mut hbvm::mem::softpaging::paging::PageTable,
vaddr: hbvm::mem::Address,
size: hbvm::mem::softpaging::PageSize,
dataptr: *mut u8,
) -> bool
where
Self: Sized,
{
log::error!(
"REASON: {reason} \
vaddr: {vaddr} \
size: {size:?} \
Dataptr {dataptr:p}",
);
false
}
}
const fn stack_layout() -> core::alloc::Layout {
unsafe { alloc::alloc::Layout::from_size_align_unchecked(STACK_SIZE, 4096) }
}
fn allocate_stack() -> NonNull<u8> {
let layout = stack_layout();
match NonNull::new(unsafe { alloc::alloc::alloc_zeroed(layout) }) {
Some(ptr) => ptr,
None => alloc::alloc::handle_alloc_error(layout),
}
}

View file

@ -1,88 +0,0 @@
//!
use {
super::message::Message,
crossbeam_queue::{ArrayQueue, SegQueue},
};
pub enum BufferTypes {
Unbound(SegQueue<Message>),
Bound(ArrayQueue<Message>),
}
/// Interproccess buffer
pub struct IpcBuffer {
pub protocol: Protocol,
pub buffer: BufferTypes,
}
impl IpcBuffer {
pub fn new(bounded: bool, length: u64) -> Self {
log::debug!(
"New IPCBuffer\r
bounded: {}\r
length: {:?}\r",
bounded,
length
);
match (bounded, length) {
(false, a) => {
let buftype = BufferTypes::Unbound(SegQueue::new());
Self {
protocol: Protocol {},
buffer: buftype,
}
}
(true, length) => {
let buftype = BufferTypes::Bound(ArrayQueue::new(length as usize));
Self {
protocol: Protocol {},
buffer: buftype,
}
}
}
}
/// Validate a message to match the `IPC.protocol`
pub fn validate_messages(&mut self) -> Result<(), IpcError> {
Ok(())
}
pub fn push(&mut self, msg: Message) {
match &self.buffer {
BufferTypes::Unbound(buff) => buff.push(msg.clone()),
BufferTypes::Bound(buff) => {
let _ = buff.push(msg.clone());
}
};
}
pub fn pop(&mut self) -> Message {
let msg = match &self.buffer {
BufferTypes::Unbound(buff) => buff.pop(),
BufferTypes::Bound(buff) => buff.pop(),
};
match msg {
Some(msg) => return msg,
None => panic!("Recieving msg error. No messages!"),
}
}
}
/// Interprocess Communication Errors
pub enum IpcError {
/// An invalid message error returned to the sender
InvalidMessage,
}
/// TODO: define this, possibly as the binary form of the IDL
/// DEPEND: This depends on an IDL
pub struct Protocol {
// TODO: add in settings
// like `invalid_message_handler` with some options similar to
// `Deny` Drops the message
// `Allow` Allows invalid messages (This disables validators IPC side and relies on programs to handle invalid messages)
// `CustomFunct` a callback
// and `report_invalid_messages_to_sender`
// `True`
// `False`
// settings: PSettings,
}

View file

@ -1,7 +0,0 @@
//! An ipc message structured in a nice convenient way
use alloc::vec::Vec;
/// TODO: Extend this into a full structure
/// DEPEND: This depends on an IDL
pub type Message = Vec<u8>;

View file

@ -1,3 +0,0 @@
//! Interprocess communication
pub mod buffer;
pub mod message;

View file

@ -1,126 +1,15 @@
//! AbleOS Kernel Entrypoint
use {
crate::{
bootmodules::{build_cmd, BootModules},
capabilities,
device_tree::DeviceTree,
holeybytes::ExecThread,
ipc::buffer::{self, IpcBuffer},
},
alloc::format,
hashbrown::HashMap,
hbvm::mem::Address,
limine::{Framebuffer, FramebufferRequest, NonNullPtr},
log::{debug, info, trace},
spin::{Lazy, Mutex},
xml::XMLElement,
};
pub fn kmain(cmdline: &str, bootstrap: Option<&'static [u8]>) -> ! {
log::debug!("Entered kmain");
pub fn kmain(cmdline: &str, boot_modules: BootModules) -> ! {
debug!("Entered kmain");
let kcmd = build_cmd("Kernel Command Line", cmdline);
trace!("Cmdline: {kcmd:?}");
// for (i, bm) in boot_modules.iter().enumerate() {
// let name = format!("module-{}", i);
// let _bmcmd: XMLElement;
// if bm.cmd.len() >= 2 {
// // TODO: pass into the program
// // Pass CMDLine into an IPCBuffer and put the ptr to the IPCBuffer in r200
// _bmcmd = build_cmd(name, bm.cmd.clone());
// log::info!("{:?}", _bmcmd);
// }
// }
let dt = DEVICE_TREE.lock();
// TODO(Able): This line causes a deadlock
info!("Device Tree: {}", dt);
info!("Boot complete. Moving to init_system");
// TODO: schedule the disk driver from the initramfs
// TODO: schedule the filesystem driver from the initramfs
// TODO: Schedule the VFS from initramfs
// TODO: schedule the init system from the initramfs
drop(dt);
let fb1: &NonNullPtr<Framebuffer> = &FB_REQ.get_response().get().unwrap().framebuffers()[0];
{
use crate::alloc::string::ToString;
let mut dt = DEVICE_TREE.lock();
let mut disp = xml::XMLElement::new("display_0");
disp.set_attribute("width", fb1.width);
disp.set_attribute("height", fb1.height);
disp.set_attribute("bits per pixel", fb1.bpp);
disp.set_attribute("pitch", fb1.pitch);
dt.devices.insert("Displays".to_string(), alloc::vec![disp]);
// TODO: Actual cmdline parsing (Serde?)
if cmdline.contains("baka=9") {
let _ = crate::arch::log(format_args!(include_str!("../data/⑨. バカ")));
}
log::info!("Graphics initialised");
log::info!(
"Graphics front ptr {:?}",
fb1.address.as_ptr().unwrap() as *const u8
);
let mut executor = crate::task::Executor::default();
let bm_take = boot_modules.len();
unsafe {
for module in boot_modules.into_iter().take(bm_take) {
let mut cmd = module.cmd;
if cmd.len() > 2 {
// Remove the quotes
cmd.remove(0);
cmd.pop();
}
let cmd_len = cmd.as_bytes().len() as u64;
log::info!("Cmdline: \"{cmdline}\"");
let bootstrap = bootstrap.expect("no bootstrap found");
log::info!("Spawning {} with arguments \"{}\"", module.path, cmd);
executor.spawn(async move {
let mut thr = ExecThread::new(&module.bytes, Address::new(0));
if cmd_len > 0 {
thr.set_arguments(cmd.as_bytes().as_ptr() as u64, cmd_len);
}
if let Err(e) = thr.await {
log::error!("{e:?}");
}
});
}
executor.run();
};
crate::arch::spin_loop()
}
pub static DEVICE_TREE: Lazy<Mutex<DeviceTree>> = Lazy::new(|| {
let dt = DeviceTree::new();
Mutex::new(dt)
});
pub static FB_REQ: FramebufferRequest = FramebufferRequest::new(0);
use alloc::vec::Vec;
pub type IpcBuffers = HashMap<u64, IpcBuffer>;
pub static IPC_BUFFERS: Lazy<Mutex<IpcBuffers>> = Lazy::new(|| {
let mut bufs = HashMap::new();
let log_buffer = IpcBuffer::new(false, 0);
let file_buffer = IpcBuffer::new(false, 0);
bufs.insert(1, log_buffer);
bufs.insert(2, file_buffer);
Mutex::new(bufs)
});
#[test_case]
fn trivial_assertion() {
trace!("trivial assertion... ");
assert_eq!(1, 1);
info!("[ok]");
crate::arch::sloop()
}

View file

@ -1,35 +1,25 @@
//! The ableOS kernel.
//! Named akern.
//! Akern is woefully undersupported at the moment but we are looking to add support improve hardware discovery and make our lives as kernel and operating system developers easier and better
#![no_std]
#![feature(
abi_x86_interrupt,
alloc_error_handler,
inline_const,
panic_info_message,
pointer_is_aligned,
ptr_sub_ptr,
custom_test_frameworks,
naked_functions,
prelude_import,
ptr_sub_ptr
)]
#![allow(dead_code)]
#![test_runner(crate::test_runner)]
#![no_std]
extern crate alloc;
mod allocator;
mod arch;
mod bootmodules;
mod capabilities;
mod device_tree;
mod handle;
mod holeybytes;
mod ipc;
mod kmain;
mod logger;
mod memory;
mod task;
mod utils;
mod ubloader;
use versioning::Version;
@ -42,8 +32,6 @@ pub const VERSION: Version = Version {
#[panic_handler]
fn panic(info: &core::panic::PanicInfo) -> ! {
arch::register_dump();
if let Some(loc) = info.location() {
let _ = crate::arch::log(format_args!(
"Location: {}: {}, {}\r\n",
@ -59,11 +47,3 @@ fn panic(info: &core::panic::PanicInfo) -> ! {
loop {}
}
#[cfg(test)]
fn test_runner(tests: &[&dyn Fn()]) {
println!("Running {} tests", tests.len());
for test in tests {
test();
}
}

View file

@ -1,40 +1,29 @@
// TODO: Add a logger api with logger levels and various outputs
pub static TERMINAL_LOGGER: Lazy<Mutex<TermLogger>> = Lazy::new(|| Mutex::new(TermLogger::new()));
use {
limine::{TerminalRequest, TerminalResponse},
log::{Level, SetLoggerError},
spin::{lazy::Lazy, mutex::Mutex},
};
use log::{Level, SetLoggerError};
pub fn init() -> Result<(), SetLoggerError> {
log::set_logger(&crate::logger::Logger)?;
log::set_max_level(log::LevelFilter::Debug);
Lazy::force(&TERMINAL_LOGGER);
log::set_max_level(log::LevelFilter::Trace);
Ok(())
}
struct Logger;
impl log::Log for Logger {
fn enabled(&self, _metadata: &log::Metadata) -> bool {
fn enabled(&self, metadata: &log::Metadata) -> bool {
true
}
fn log(&self, record: &log::Record) {
let lvl = record.level();
let lvl_color = match lvl {
Level::Error => "160",
Level::Warn => "172",
Level::Info => "47",
Level::Debug => "25",
Level::Trace => "103",
};
let module = record.module_path().unwrap_or_default();
let line = record.line().unwrap_or_default();
crate::arch::log(format_args!(
"\x1b[38;5;{lvl_color}m{lvl}\x1b[0m [{module}:{line}]: {}\r\n",
"\x1b[38;5;{}m{lvl}\x1b[0m [{}]: {}\r\n",
match lvl {
Level::Error => "160",
Level::Warn => "172",
Level::Info => "47",
Level::Debug => "25",
Level::Trace => "103",
},
record.module_path().unwrap_or_default(),
record.args(),
))
.expect("write to serial console");
@ -42,28 +31,3 @@ impl log::Log for Logger {
fn flush(&self) {}
}
pub struct TermLogger(&'static TerminalResponse);
unsafe impl Send for TermLogger {}
impl TermLogger {
pub fn new() -> Self {
static TERM_REQ: TerminalRequest = TerminalRequest::new(0);
Self(
TERM_REQ
.get_response()
.get()
.expect("failed to get terminal response"),
)
}
}
impl core::fmt::Write for TermLogger {
fn write_str(&mut self, s: &str) -> core::fmt::Result {
if let (Some(w), ts) = (self.0.write(), self.0.terminals()) {
for term in ts {
w(term, s);
}
}
Ok(())
}
}

View file

@ -1,19 +1,21 @@
#![allow(unused)]
//! Async task and executor
use {
alloc::{boxed::Box, collections::BTreeMap, sync::Arc, task::Wake},
core::{
future::Future,
pin::Pin,
task::{Context, Poll, Waker},
},
crossbeam_queue::SegQueue,
kiam::when,
slab::Slab,
spin::RwLock,
use alloc::{boxed::Box, collections::BTreeMap, sync::Arc, task::Wake};
use core::{
future::Future,
pin::Pin,
task::{Context, Poll, Waker},
};
use crossbeam_queue::SegQueue;
use slab::Slab;
use spin::RwLock;
type TaskQueue = Arc<SegQueue<TaskId>>;
type SpawnQueue = Arc<SegQueue<Task>>;
static SPAWN_QUEUE: RwLock<Option<SpawnQueue>> = RwLock::new(None);
/// Spawn a new task
pub fn spawn(future: impl Future<Output = ()> + Send + 'static) {
match &*SPAWN_QUEUE.read() {
Some(s) => s.push(Task::new(future)),
@ -21,6 +23,7 @@ pub fn spawn(future: impl Future<Output = ()> + Send + 'static) {
}
}
/// Forcibly yield a task
pub fn yield_now() -> impl Future<Output = ()> {
struct YieldNow(bool);
impl Future for YieldNow {
@ -40,59 +43,68 @@ pub fn yield_now() -> impl Future<Output = ()> {
YieldNow(false)
}
/// Tasks executor
#[derive(Default)]
pub struct Executor {
tasks: Slab<Task>,
queue: TaskQueue,
to_spawn: SpawnQueue,
wakers: BTreeMap<TaskId, Waker>,
/// All spawned tasks' stash
tasks: Slab<Task>,
/// Awake tasks' queue
queue: TaskQueue,
/// Incoming tasks to enqueue
incoming: SpawnQueue,
/// Wakers
wakers: BTreeMap<TaskId, Waker>,
}
impl Executor {
/// Spawn a task
pub fn spawn(&mut self, future: impl Future<Output = ()> + Send + 'static) {
self.queue
.push(TaskId(self.tasks.insert(Task::new(future))));
}
/// Spin poll loop until it runs out of tasks
pub fn run(&mut self) {
// Assign `self.incoming` to global spawn queue to spawn tasks
// from within
{
let mut global_spawner = SPAWN_QUEUE.write();
if global_spawner.is_some() {
panic!("Task executor is already running");
let mut spawner = SPAWN_QUEUE.write();
if spawner.is_some() {
panic!("task executor is already running");
}
*global_spawner = Some(Arc::clone(&self.to_spawn));
*spawner = Some(Arc::clone(&self.incoming));
}
loop {
when! {
let Some(id) = self
.to_spawn
.pop()
.map(|t| TaskId(self.tasks.insert(t)))
.or_else(|| self.queue.pop())
=> {
let Some(task) = self.tasks.get_mut(id.0) else {
panic!("Attempted to get task from empty slot: {}", id.0);
};
// Try to get incoming task, if none available, poll
// enqueued one
while let Some(id) = self
.incoming
.pop()
.map(|t| TaskId(self.tasks.insert(t)))
.or_else(|| self.queue.pop())
{
let Some(task) = self.tasks.get_mut(id.0) else {
panic!("attempted to get non-extant task with id {}", id.0)
};
let mut cx = Context::from_waker(self.wakers.entry(id).or_insert_with(|| {
Waker::from(Arc::new(TaskWaker {
id,
queue: Arc::clone(&self.queue),
}))
}));
let mut cx = Context::from_waker(self.wakers.entry(id).or_insert_with(|| {
Waker::from(Arc::new(TaskWaker {
id,
queue: Arc::clone(&self.queue),
}))
}));
match task.poll(&mut cx) {
Poll::Ready(()) => {
self.tasks.remove(id.0);
self.wakers.remove(&id);
}
Poll::Pending => (),
}
},
self.tasks.is_empty() => break,
_ => (),
match task.poll(&mut cx) {
Poll::Ready(()) => {
// Task done, unregister
self.tasks.remove(id.0);
self.wakers.remove(&id);
}
Poll::Pending => (),
}
}
@ -100,13 +112,17 @@ impl Executor {
}
}
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
struct TaskId(usize);
/// Async task
struct Task {
future: Pin<Box<dyn Future<Output = ()> + Send>>,
}
impl Task {
pub fn new(future: impl Future<Output = ()> + Send + 'static) -> Self {
log::trace!("New task scheduled");
/// Create a new task from a future
fn new(future: impl Future<Output = ()> + Send + 'static) -> Self {
Self {
future: Box::pin(future),
}
@ -117,20 +133,13 @@ impl Task {
}
}
#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
struct TaskId(usize);
type TaskQueue = Arc<SegQueue<TaskId>>;
type SpawnQueue = Arc<SegQueue<Task>>;
struct TaskWaker {
id: TaskId,
id: TaskId,
queue: TaskQueue,
}
impl Wake for TaskWaker {
fn wake(self: Arc<Self>) {
log::trace!("Woke Task-{:?}", self.id);
self.wake_by_ref();
}

0
kernel/src/ubloader.rs Normal file
View file

View file

@ -1,53 +0,0 @@
//! A module for small utilities to be used kernel wide
//! Simple functions and constants
/// Used when tab `\t` in hardware is not known and we will default to two spaces
pub const TAB: &str = " ";
// NOTE: this only reduces the code duplication in source code not in generated code!
// Written by Yours Truly: Munir
/// A simple macro to reduce code duplication when we use TAB internally
#[macro_export]
macro_rules! tab {
($num:expr) => {
TAB.repeat($num)
}
}
// NOTE: this only reduces the code duplication in source code not in generated code!
// Written by Yours Truly: Munir
/// A simple macro to reduce code duplication when we insert device types into the device tree
#[macro_export]
macro_rules! device_tree {
($devtree:expr, $dev_type_vec:expr) => {
for each_device_type in $dev_type_vec {
$devtree.devices.insert(each_device_type.to_string(), Vec::new());
}
};
}
// NOTE: this only reduces the code duplication in source code not in generated code!
// Written by Yours Truly: Munir
/// A simple macro to reduce code duplication when we insert cpu features into the array/vector
#[macro_export]
macro_rules! cpu_features {
($cpu_master_object:expr, $result_vec:expr) => {
// checks for cpu features and returns bool for each feature
let apic = $cpu_master_object.apic();
let avx = $cpu_master_object.avx();
let avx2 = $cpu_master_object.avx2();
let x2 = $cpu_master_object.x2apic();
let gb_pages = $cpu_master_object.gigabyte_pages();
let rdseed = $cpu_master_object.rdseed();
let rdrand = $cpu_master_object.rdrand();
$result_vec.push(("apic", apic));
$result_vec.push(("avx", avx));
$result_vec.push(("avx2", avx2));
$result_vec.push(("gigabyte pages", gb_pages));
$result_vec.push(("rdrand", rdrand));
$result_vec.push(("rdseed", rdseed));
$result_vec.push(("x2apic", x2));
};
}

View file

@ -1,25 +0,0 @@
{
"arch": "aarch64",
"data-layout": "e-m:e-i8:8:32-i16:16:32-i64:64-i128:128-n32:64-S128",
"disable-redzone": true,
"env": "",
"executables": true,
"features": "+strict-align,+neon,+fp-armv8",
"linker": "rust-lld",
"linker-flavor": "ld.lld",
"linker-is-gnu": true,
"pre-link-args": {
"ld.lld": [
"-Tkernel/lds/aarch64-qemu.ld"
]
},
"llvm-target": "aarch64-unknown-none",
"max-atomic-width": 128,
"os": "none",
"panic-strategy": "abort",
"relocation-model": "static",
"target-c-int-width": "32",
"target-endian": "little",
"target-pointer-width": "64",
"vendor": ""
}

View file

@ -11,7 +11,7 @@
"linker": "rust-lld",
"panic-strategy": "abort",
"disable-redzone": true,
"features": "",
"features": "-mmx,-sse,+soft-float",
"code-model": "kernel",
"pre-link-args": {
"ld.lld": [

2
limine

@ -1 +1 @@
Subproject commit 2d3d7b2633b5d95ce404a177ada0d5cbee802721
Subproject commit 83779119f658c8ce337c33492266ecf8300db429

View file

@ -4,12 +4,7 @@ version = "0.2.0"
edition = "2021"
[dependencies]
derive_more = "0.99"
error-stack = "0.4"
fatfs = "0.3"
hbasm.git = "https://git.ablecorp.us/AbleOS/holey-bytes.git"
[dependencies.reqwest]
version = "0.11"
default-features = false
features = ["rustls-tls", "blocking"]
env_logger = "0.10"
error-stack = "0.2"
fatfs = "0.3"
log = "0.4"

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Before

Width:  |  Height:  |  Size: 1.8 MiB

After

Width:  |  Height:  |  Size: 1.8 MiB

21
repbuild/limine.cfg Normal file
View file

@ -0,0 +1,21 @@
${ABLEOS_KERNEL}=boot:///kernel
# TODO: Make a boot background image for ableOS
DEFAULT_ENTRY=1
TIMEOUT=3
VERBOSE=yes
INTERFACE_RESOLUTION=1024x768
# Terminal related settings
TERM_WALLPAPER=boot:///background.bmp
TERM_BACKDROP=008080
:AbleOS
COMMENT=Default AbleOS boot entry.
PROTOCOL=limine
KERNEL_PATH=${ABLEOS_KERNEL}
KERNEL_CMDLINE=
# Setting a default resolution for the framebuffer
RESOLUTION=1024x768x24
# MODULE_PATH=boot:///boot/initrd.tar
# MODULE_CMDLINE=This is the first module.

View file

@ -1,22 +1,12 @@
use {
derive_more::Display,
error_stack::{bail, report, Context, Report, Result, ResultExt},
fatfs::{FileSystem, FormatVolumeOptions, FsOptions, ReadWriteSeek},
std::{fmt::Display, fs::File, io, path::Path, process::Command},
};
use error_stack::{bail, report, Context, IntoReport, Result, ResultExt};
use fatfs::{FileSystem, FormatVolumeOptions, FsOptions, ReadWriteSeek};
use std::{fmt::Display, fs::File, io, path::Path, process::Command};
fn main() -> Result<(), Error> {
env_logger::init();
let mut args = std::env::args();
args.next();
// let disk_meta = fs::metadata("target/disk.img").unwrap();
// let config_meta = fs::metadata("system.toml").unwrap();
// if disk_meta.modified().unwrap() < config_meta.modified().unwrap() {
// // TODO: work on adding in system.toml support
// // TODO: rebuild the disk
// }
match args.next().as_deref() {
Some("build" | "b") => {
let mut release = false;
@ -24,16 +14,12 @@ fn main() -> Result<(), Error> {
for arg in args {
if arg == "-r" || arg == "--release" {
release = true;
} else if arg == "rv64" || arg == "riscv64" || arg == "riscv64-virt" {
}
if arg == "rv64" || arg == "riscv64" || arg == "riscv64-virt" {
target = Target::Riscv64Virt;
} else if arg == "arm64" || arg == "aarch64" || arg == "aarch64-virt" {
target = Target::Aarch64;
} else {
return Err(report!(Error::InvalidSubCom));
}
}
assemble()?;
build(release, target).change_context(Error::Build)
}
Some("run" | "r") => {
@ -42,16 +28,12 @@ fn main() -> Result<(), Error> {
for arg in args {
if arg == "-r" || arg == "--release" {
release = true;
} else if arg == "rv64" || arg == "riscv64" || arg == "riscv64-virt" {
}
if arg == "rv64" || arg == "riscv64" || arg == "riscv64-virt" {
target = Target::Riscv64Virt;
} else if arg == "arm64" || arg == "aarch64" || arg == "aarch64-virt" {
target = Target::Aarch64;
} else {
return Err(report!(Error::InvalidSubCom));
}
}
assemble()?;
build(release, target)?;
run(release, target)
}
@ -72,55 +54,26 @@ fn main() -> Result<(), Error> {
}
}
fn assemble() -> Result<(), Error> {
match std::fs::create_dir("target/test-programs") {
Ok(_) => (),
Err(e) if e.kind() == std::io::ErrorKind::AlreadyExists => (),
Err(e) => return Err(Report::new(e).change_context(Error::Io)),
}
for entry in std::fs::read_dir("sysdata/test-programs")
.map_err(Report::from)
.change_context(Error::Io)?
{
let entry = entry.map_err(Report::from).change_context(Error::Io)?;
if !entry
.file_type()
.map_err(Report::from)
.change_context(Error::Io)?
.is_file()
{
continue;
}
let name = entry.file_name();
let name = name.to_string_lossy();
let name = name.trim_end_matches(".rhai");
let mut out = File::options()
.write(true)
.create(true)
.open(Path::new("target/test-programs").join(format!("{name}.hbf")))
.map_err(Report::from)
.change_context(Error::Io)?;
out.set_len(0)
.map_err(Report::from)
.change_context(Error::Io)?;
hbasm::assembler(&mut out, |engine| engine.run_file(entry.path()))
.map_err(|e| report!(Error::Assembler).attach_printable(e.to_string()))?;
}
Ok(())
}
fn get_fs() -> Result<FileSystem<impl ReadWriteSeek>, io::Error> {
let path = Path::new("target/disk.img");
match std::fs::metadata(path) {
Err(e) if e.kind() == io::ErrorKind::NotFound => (),
Err(e) => bail!(e),
Ok(_) => {
return FileSystem::new(
File::options().read(true).write(true).open(path)?,
FsOptions::new(),
)
.into_report()
}
}
let mut img = File::options()
.read(true)
.write(true)
.create(true)
.open(Path::new("target/disk.img"))?;
.open(path)?;
img.set_len(1024 * 1024 * 64)?;
@ -131,37 +84,20 @@ fn get_fs() -> Result<FileSystem<impl ReadWriteSeek>, io::Error> {
io::copy(
&mut File::open("limine/BOOTX64.EFI")
.map_err(Report::from)
.attach_printable("Copying Limine (x86_64): have you pulled the submodule?")?,
.into_report()
.attach_printable("copying Limine bootloader (have you pulled the submodule?)")?,
&mut bootdir.create_file("bootx64.efi")?,
)?;
io::copy(
&mut File::open("limine/BOOTAA64.EFI")
.map_err(Report::from)
.attach_printable("Copying Limine (ARM): have you pulled the submodule?")?,
&mut bootdir.create_file("bootaa64.efi")?,
&mut File::open("repbuild/limine.cfg")?,
&mut fs.root_dir().create_file("limine.cfg")?,
)?;
for fpath in [
"sysdata/limine.cfg",
"sysdata/background.bmp",
"target/test-programs/failure.hbf",
"target/test-programs/ecall.hbf",
"target/test-programs/main.hbf",
"target/test-programs/serial_driver.hbf",
"target/test-programs/vfs_test.hbf",
"target/test-programs/limine_framebuffer_driver.hbf",
"target/test-programs/keyboard_driver.hbf",
] {
let path = Path::new(fpath);
io::copy(
&mut File::open(path)?,
&mut fs
.root_dir()
.create_file(&path.file_name().unwrap().to_string_lossy())?,
)?;
}
io::copy(
&mut File::open("repbuild/background.bmp")?,
&mut fs.root_dir().create_file("background.bmp")?,
)?;
drop(bootdir);
Ok(fs)
@ -176,11 +112,11 @@ fn build(release: bool, target: Target) -> Result<(), Error> {
com.arg("-r");
}
if target == Target::Riscv64Virt {
com.args(["--target", "targets/riscv64-virt-ableos.json"]);
}
if target == Target::Aarch64 {
com.args(["--target", "targets/aarch64-virt-ableos.json"]);
match target {
Target::Riscv64Virt => {
com.args(["--target", "targets/riscv64-virt-ableos.json"]);
}
_ => {}
}
match com.status() {
@ -189,31 +125,22 @@ fn build(release: bool, target: Target) -> Result<(), Error> {
_ => (),
}
let mut path: String = "kernel".to_string();
let kernel_dir = match target {
Target::X86_64 => {
path.push_str("_x86-64");
"target/x86_64-ableos"
}
Target::Riscv64Virt => "target/riscv64-virt-ableos",
Target::Aarch64 => {
path.push_str("_aarch64");
"target/aarch64-virt-ableos"
}
};
if target != Target::X86_64 {
return Ok(());
}
(|| -> std::io::Result<_> {
io::copy(
&mut File::open(
Path::new(kernel_dir)
Path::new("target/x86_64-ableos")
.join(if release { "release" } else { "debug" })
.join("kernel"),
)?,
&mut fs.root_dir().create_file(&path)?,
&mut fs.root_dir().create_file("kernel")?,
)
.map(|_| ())
})()
.map_err(Report::from)
.into_report()
.change_context(Error::Io)
}
@ -221,54 +148,45 @@ fn run(release: bool, target: Target) -> Result<(), Error> {
let mut com = match target {
Target::X86_64 => Command::new("qemu-system-x86_64"),
Target::Riscv64Virt => Command::new("qemu-system-riscv64"),
Target::Aarch64 => Command::new("qemu-system-aarch64"),
};
let ovmf_path = fetch_ovmf(target);
match target {
Target::X86_64 => {
#[rustfmt::skip]
com.args([
"-bios", &ovmf_path.change_context(Error::OvmfFetch)?,
"-drive", "file=target/disk.img,format=raw",
"-m", "4G",
"-smp", "cores=4",
// "-enable-kvm",
"-cpu", "Broadwell-v4"
]);
}
Target::Riscv64Virt => {
#[rustfmt::skip]
com.args([
"-M", "virt",
"-m", "128M",
"-serial", "stdio",
"-kernel",
if release {
"target/riscv64-virt-ableos/release/kernel"
} else {
"target/riscv64-virt-ableos/debug/kernel"
}
]);
}
Target::Aarch64 => {
#[rustfmt::skip]
com.args([
"-M", "virt",
"-cpu", "cortex-a72",
"-device", "ramfb",
"-device", "qemu-xhci",
"-device", "usb-kbd",
"-m", "2G",
"-bios", &ovmf_path.change_context(Error::OvmfFetch)?,
"-drive", "file=target/disk.img,format=raw",
]);
if target == Target::X86_64 {
#[rustfmt::skip]
com.args([
"-bios",
std::env::var("REPBUILD_QEMU_FIRMWARE_PATH")
.as_deref()
.unwrap_or("/usr/share/OVMF/OVMF_CODE.fd"),
"-drive", "file=target/disk.img,format=raw",
"-m", "4G",
"-serial", "stdio",
"-smp", "cores=2",
]);
#[cfg(target_os = "linux")]
{
com.args(["-enable-kvm", "-cpu", "host"]);
}
}
if target == Target::Riscv64Virt {
#[rustfmt::skip]
com.args([
"-M", "virt",
"-m", "128M",
"-serial", "stdio",
"-kernel",
if release {
"target/riscv64-virt-ableos/release/kernel"
} else {
"target/riscv64-virt-ableos/debug/kernel"
}
]);
}
match com
.status()
.map_err(Report::from)
.into_report()
.change_context(Error::ProcessSpawn)?
{
s if s.success() => Ok(()),
@ -276,92 +194,33 @@ fn run(release: bool, target: Target) -> Result<(), Error> {
}
}
fn fetch_ovmf(target: Target) -> Result<String, OvmfFetchError> {
let (ovmf_url, ovmf_path) = match target {
Target::X86_64 => (
"https://retrage.github.io/edk2-nightly/bin/RELEASEX64_OVMF.fd",
"target/RELEASEX64_OVMF.fd",
),
Target::Riscv64Virt => return Err(OvmfFetchError::Empty.into()),
Target::Aarch64 => (
"https://retrage.github.io/edk2-nightly/bin/RELEASEAARCH64_QEMU_EFI.fd",
"target/RELEASEAARCH64_QEMU_EFI.fd",
),
};
let mut file = match std::fs::metadata(ovmf_path) {
Err(e) if e.kind() == std::io::ErrorKind::NotFound => std::fs::OpenOptions::new()
.create(true)
.write(true)
.read(true)
.open(ovmf_path)
.map_err(Report::from)
.change_context(OvmfFetchError::Io)?,
Ok(_) => return Ok(ovmf_path.to_owned()),
Err(e) => return Err(report!(e).change_context(OvmfFetchError::Io)),
};
let mut bytes = reqwest::blocking::get(ovmf_url)
.map_err(Report::from)
.change_context(OvmfFetchError::Fetch)?;
bytes
.copy_to(&mut file)
.map_err(Report::from)
.change_context(OvmfFetchError::Io)?;
Ok(ovmf_path.to_owned())
}
#[derive(Debug, Display)]
enum OvmfFetchError {
#[display(fmt = "Failed to fetch OVMF package")]
Fetch,
#[display(fmt = "No OVMF package available")]
Empty,
#[display(fmt = "IO Error")]
Io,
}
impl Context for OvmfFetchError {}
#[derive(Clone, Copy, PartialEq, Eq)]
enum Target {
X86_64,
Riscv64Virt,
Aarch64,
}
#[derive(Debug, Display)]
#[derive(Debug)]
enum Error {
#[display(fmt = "Failed to build the kernel")]
Build,
#[display(fmt = "Missing or invalid subcommand (available: build, run)")]
InvalidSubCom,
#[display(fmt = "IO Error")]
Io,
#[display(fmt = "Failed to spawn a process")]
ProcessSpawn,
#[display(fmt = "Failed to fetch UEFI firmware")]
OvmfFetch,
#[display(fmt = "Failed to assemble Holey Bytes code")]
Assembler,
#[display(fmt = "QEMU Error: {}", "fmt_qemu_err(*_0)")]
Qemu(Option<i32>),
}
impl Context for Error {}
fn fmt_qemu_err(e: Option<i32>) -> impl Display {
struct W(Option<i32>);
impl Display for W {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
if let Some(c) = self.0 {
c.fmt(f)
} else {
f.write_str("Interrupted by signal")
impl Display for Error {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
match self {
Self::Build => f.write_str("failed to build the kernel"),
Self::InvalidSubCom => {
f.write_str("missing or invalid subcommand (available: build, run)")
}
Self::Io => f.write_str("IO error"),
Self::ProcessSpawn => f.write_str("failed to spawn a process"),
Self::Qemu(Some(c)) => write!(f, "QEMU Error: {c}"),
Self::Qemu(None) => write!(f, "QEMU Error: interrupted by signal"),
}
}
W(e)
}

View file

@ -1,3 +1,3 @@
[toolchain]
channel = "nightly"
channel = "nightly"
components = ["rust-src", "llvm-tools"]

View file

@ -1,3 +0,0 @@
hex_literal_case = "Upper"
imports_granularity = "One"
struct_field_align_threshold = 5

View file

@ -1,41 +0,0 @@
{ pkgs ? import <nixpkgs> { } }:
pkgs.mkShell rec {
buildInputs = with pkgs; [
clang
llvmPackages.bintools
rustup
qemu_full
# OMVFFull
# OMVF
];
extraCmds = '''';
RUSTC_VERSION = pkgs.lib.readFile ./rust-toolchain.toml;
# https://github.com/rust-lang/rust-bindgen#environment-variables
LIBCLANG_PATH =
pkgs.lib.makeLibraryPath [ pkgs.llvmPackages_latest.libclang.lib ];
shellHook = ''
export REPBUILD_QEMU_FIRMWARE_PATH=${pkgs.OVMF.fd}/FV/OVMF.fd
export PATH=$PATH:''${CARGO_HOME:-~/.cargo}/bin
export PATH=$PATH:''${RUSTUP_HOME:-~/.rustup}/toolchains/$RUSTC_VERSION-x86_64-unknown-linux-gnu/bin/
'';
# Add precompiled library to rustc search path
RUSTFLAGS = (builtins.map (a: "-L ${a}/lib") [
# add libraries here (e.g. pkgs.libvmi)
]);
# Add glibc, clang, glib and other headers to bindgen search path
BINDGEN_EXTRA_CLANG_ARGS =
# Includes with normal include path
(builtins.map (a: ''-I"${a}/include"'') [
# add dev libraries here (e.g. pkgs.libvmi.dev)
pkgs.glibc.dev
])
# Includes with special directory paths
++ [
''
-I"${pkgs.llvmPackages_latest.libclang.lib}/lib/clang/${pkgs.llvmPackages_latest.libclang.version}/include"''
''-I"${pkgs.glib.dev}/include/glib-2.0"''
"-I${pkgs.glib.out}/lib/glib-2.0/include/"
];
}

View file

@ -1,40 +0,0 @@
${ABLEOS_KERNEL}=boot:///kernel
# TODO: Make a boot background image for ableOS
DEFAULT_ENTRY=1
TIMEOUT=0
VERBOSE=yes
INTERFACE_RESOLUTION=1024x768
# Terminal related settings
TERM_WALLPAPER=boot:///background.bmp
TERM_BACKDROP=008080
:AbleOS
COMMENT=Default AbleOS boot entry.
PROTOCOL=limine
KERNEL_PATH=${ABLEOS_KERNEL}_${ARCH}
# execute is an array of boot modules to execute
KERNEL_CMDLINE=""
# Setting a default resolution for the framebuffer
RESOLUTION=1024x768x24
MODULE_PATH=boot:///failure.hbf
MODULE_CMDLINE=""
MODULE_PATH=boot:///ecall.hbf
MODULE_CMDLINE=""
MODULE_PATH=boot:///main.hbf
MODULE_CMDLINE=""
MODULE_PATH=boot:///keyboard_driver.hbf
MODULE_CMDLINE=""
MODULE_PATH=boot:///vfs_test.hbf
MODULE_CMDLINE=""
MODULE_PATH=boot:///limine_framebuffer_driver.hbf
MODULE_CMDLINE="height=10 width=10 arch=${ARCH}"
MODULE_PATH=boot:///serial_driver.hbf
MODULE_CMDLINE="arch=${ARCH}"

View file

@ -1,3 +0,0 @@
li64 (r1, 2);
eca ();
tx ();

View file

@ -1 +0,0 @@
un();

View file

@ -1 +0,0 @@
A kind of standard library.

View file

@ -1,55 +0,0 @@
fn ipc_send(buffer_id, mem_addr, length){
// set the ecall
li64(r1, 3);
// Set the buffer ID to be the BufferID
li64(r2, buffer_id);
lra(r3, r0, mem_addr);
// set the length
li64(r4, length);
// ecall
eca();
}
fn ipc_recv(buffer_id){
li64(r1, 4);
eca();
}
fn ipc_make_bound_buffer(length) {
li64(r1, 1);
li64(r2, 1);
li64(r3, length);
eca();
// The ipc buffer id is in r1
}
private fn log(log_level, string){
// This is NOT the final format
let str = data::str(string + log_level);
// 1 byte for the log level
// 8 bytes for the length to the message
// 8 bytes for the pointer to the string
ipc_send(1, str, str.len);
}
fn Error(string) {log(0, string);}
fn Warn(string) {log(1, string);}
fn Info(string) {log(2, string);}
// Due to rhai limitations this cannot be debug
// because of this all of the log levels are upper case
fn Debug(string) {log(3, string);}
fn Trace(string) {log(4, string);}
fn open(string_path){
let file_path = data::str(string_path);
ipc_send(2, file_path, file_path.len);
}
fn write(){}
fn read(){}
fn close(){}

View file

@ -1,199 +0,0 @@
import "sysdata/test-programs/hblib/std" as std;
fn print_register(reg){
std::Debug("-----------------");
let c0 = declabel();
let c1 = declabel();
let c2 = declabel();
let c3 = declabel();
let c4 = declabel();
let c5 = declabel();
let c6 = declabel();
let c7 = declabel();
let c8 = declabel();
let c9 = declabel();
let ca = declabel();
let cb = declabel();
let cc = declabel();
let cd = declabel();
let ce = declabel();
let cf = declabel();
let end = declabel();
cp(r32, reg);
li64(r35, 16);
let next_loop = label();
addi64(r35, r35, -1);
li64(r37, 4);
mul64(r36, r35, r37);
sru64(r34, r32, r36);
andi(r34, r34, 0xf);
li64(r33, 0);
jeq(r34, r33, c0);
addi64(r33, r33, 1);
jeq(r34, r33, c1);
addi64(r33, r33, 1);
jeq(r34, r33, c2);
addi64(r33, r33, 1);
jeq(r34, r33, c3);
addi64(r33, r33, 1);
jeq(r34, r33, c4);
addi64(r33, r33, 1);
jeq(r34, r33, c5);
addi64(r33, r33, 1);
jeq(r34, r33, c6);
addi64(r33, r33, 1);
jeq(r34, r33, c7);
addi64(r33, r33, 1);
jeq(r34, r33, c8);
addi64(r33, r33, 1);
jeq(r34, r33, c9);
addi64(r33, r33, 1);
jeq(r34, r33, ca);
addi64(r33, r33, 1);
jeq(r34, r33, cb);
addi64(r33, r33, 1);
jeq(r34, r33, cc);
addi64(r33, r33, 1);
jeq(r34, r33, cd);
addi64(r33, r33, 1);
jeq(r34, r33, ce);
addi64(r33, r33, 1);
jeq(r34, r33, cf);
std::Error("This should be an invalid state");
let next = label();
jne(r0, r35, next_loop);
jeq(r0, r0, end);
here(c0);
std::Debug("0");
jeq(r0, r0, next);
here(c1);
std::Debug("1");
jeq(r0, r0, next);
here(c2);
std::Debug("2");
jeq(r0, r0, next);
here(c3);
std::Debug("3");
jeq(r0, r0, next);
here(c4);
std::Debug("4");
jeq(r0, r0, next);
here(c5);
std::Debug("5");
jeq(r0, r0, next);
here(c6);
std::Debug("6");
jeq(r0, r0, next);
here(c7);
std::Debug("7");
jeq(r0, r0, next);
here(c8);
std::Debug("8");
jeq(r0, r0, next);
here(c9);
std::Debug("9");
jeq(r0, r0, next);
here(ca);
std::Debug("A");
jeq(r0, r0, next);
here(cb);
std::Debug("B");
jeq(r0, r0, next);
here(cc);
std::Debug("C");
jeq(r0, r0, next);
here(cd);
std::Debug("D");
jeq(r0, r0, next);
here(ce);
std::Debug("E");
jeq(r0, r0, next);
here(cf);
std::Debug("F");
jeq(r0, r0, next);
here(end);
std::Debug("-----------------");
}
fn get_keyboard_status(){
li64(r1, 5);
li64(r2, 0x64);
eca();
}
fn get_keyboard_input(){
li64(r1, 5);
li64(r2, 0x60);
eca();
}
fn is_keyup(rb, ra){
li64(rb, 15);
sru64(rb, ra, rb);
andi(rb, rb, 1);
}
fn dump_registers(){
li64(r1, 0xff);
eca();
}
fn to_ascii(rb, ra){
let str = data::str(
" 1234567890-= " +
"qwertyuiop[] " +
"asdfghjkl;'` \\" +
"zxcvbnm,./ " +
"* " +
"789-456+1230. "
);
andi(r33, ra, 0x00ff);
lra(rb, r0, str);
add64(rb, rb, r33);
ld(rb, rb, 0, 1);
}
fn display_key(ra){
andi(r33, ra, 0x00ff);
ori(r33, r33, 0x0200);
let location = 0x20000;
li64(r32, location);
st(r33, r32, 0, 2);
li64(r1, 3);
li64(r2, 1);
li64(r3, location);
li64(r4, 2);
eca();
}
fn main(){
let key_up = declabel();
let main_loop = label();
get_keyboard_status();
andi(r12, r3, 1);
li64(r13, 0x1);
jne(r13, r12, main_loop);
get_keyboard_input();
cp(r12, r3);
is_keyup(r14, r12);
jne(r0, r14, key_up);
to_ascii(r15, r12);
display_key(r15);
jeq(r0, r0, main_loop);
here(key_up);
jeq(r0, r0, main_loop);
tx();
}
main();

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@ -1,163 +0,0 @@
// Change and add to this as you see fit.
// The STD and even syscalls are still in flux.
// Do your best to avoid adding bad design.
// Use std abstractions if they exist like logging functionality
import "sysdata/test-programs/hblib/std" as std;
fn rect(reg_x, reg_y, w, h, color) {
li64(r3, 0);
li64(r4, 0);
li64(r5, w);
li64(r6, h);
let start_y = label();
let start_x = label();
add64(r9, r3, reg_x);
add64(r10, r4, reg_y);
pixel(r9, r10, color);
li64(r1, 1);
add64(r3, r3, r1);
jltu(r3, r5, start_x);
li64(r1, 1);
add64(r4, r4, r1);
li64(r3, 0);
jltu(r4, r6, start_y);
}
fn pixel(reg_x, reg_y, color) {
let BUFFER = 0xFFFF8000C0000000;
let WIDTH = 1024;
// r1 = y * WIDTH
li64(r1, WIDTH);
mul64(r1, reg_y, r1);
// r2 = x + r2
add64(r2, reg_x, r1);
// r2 = r2 * 4
li64(r1, 4);
mul64(r2, r2, r1);
// store pixel value
li64(r1, color);
st(r1, r2, BUFFER, 4);
}
fn clear() {
// rect(r0, r0, 1024, 768, 0xff222222);
let BUFFER = 0xFFFF8000C0000000;
// on arm the FB is at 0xFFFF8000BC430000
// FIXME: get the framebuffer pointer from the starting arguments
li64(r1, 0xff222222);
li64(r2, 0);
li64(r3, 1);
li64(r4, 1024 * 768);
li64(r5, 4);
let start = label();
mul64(r6, r2, r5);
st(r1, r6, BUFFER, 4);
add64(r2, r2, r3);
jltu(r2, r4, start);
}
// Define main
fn main(){
// Log the arguments
{
cp(r3, r1);
cp(r4, r2);
// log level
li8(r6, 2);
add64(r5, r3, r4);
li64(r7, 1);
st(r6, r5, 0, 1);
add64(r4, r4, r7);
li64(r1, 3);
li64(r2, 1);
eca();
// Zero out all used registers
li64(r1, 0);
li64(r2, 0);
li64(r3, 0);
li64(r4, 0);
li64(r5, 0);
li64(r6, 0);
li64(r7, 0);
}
std::Info("Starting the limine framebuffer driver.");
// un();
li64(r100, 300);
li64(r101, 300);
li64(r102, 1);
li64(r103, 1);
li64(r104, 1024 - 20);
li64(r105, 768 - 20);
li64(r106, 0);
li64(r107, 0);
clear();
let start = label();
rect(r100, r101, 20, 20, 0xff222222);
//clear();
add64(r100, r100, r102);
add64(r101, r101, r103);
let after_x_right = declabel();
jltu(r100, r104, after_x_right);
li64(r102, -1);
here(after_x_right);
let after_x_left = declabel();
jgtu(r100, r106, after_x_left);
li64(r102, 1);
li64(r100, 0);
here(after_x_left);
let after_y_right = declabel();
jltu(r101, r105, after_y_right);
li64(r103, -1);
here(after_y_right);
let after_y_left = declabel();
jgtu(r101, r107, after_y_left);
li64(r103, 1);
li64(r101, 0);
here(after_y_left);
rect(r100, r101, 20, 20, 0xffffffff);
li64(r200, 0);
li64(r201, 1);
li64(r202, 10000);
let wait = label();
add64(r200, r200, r201);
jltu(r200, r202, wait);
jeq(r0, r0, start);
//jmp(start);
std::Info("done");
// Terminate execution.
tx();
}
main();

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@ -1,15 +0,0 @@
import "sysdata/test-programs/hblib/std" as std;
fn main(){
std::Error(":+)");
std::Warn("Your mom fell in a well!");
std::Info("Hello, world!");
std::Debug("XYZ");
std::Trace("Trace Deez");
std::ipc_send(2, 0, 0);
tx();
}
main();

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@ -1,27 +0,0 @@
import "sysdata/test-programs/hblib/std" as std;
fn main(){
let ADDR = 0;
// FIXME: Actually check the arch argument
let architecture = "ARM";
if architecture == "ARM" {
std::Info("Arm Serial Driver");
ADDR = 0x09000000;
}
lra(r3, r0, ADDR);
li64(r1, 0);
li8(r1, 65);
st(r1, r0, ADDR, 1);
// New Line
li8(r1, 12);st(r1, r0, ADDR, 1);
tx();
}
main();

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@ -1,11 +0,0 @@
/// Act as a shim of a virtual file system that recieves one message from buffer 2
import "sysdata/test-programs/hblib/std" as std;
fn main() {
std::ipc_recv(2);
un();
}
main();
tx();

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@ -1,15 +0,0 @@
import "sysdata/test-programs/hblib/std" as std;
fn main(){
std::Info("Trying to open a file.");
std::open("/file.hbf");
std::write();
std::read();
std::close();
std::Info("VFS Test done!");
// un();
tx();
}
main();