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merge into: zxq5/damn_simple_architecture:main
Branches Tags
zxq5/damn_simple_architecture:main zxq5/damn_simple_architecture:dsx-pkg zxq5/damn_simple_architecture:elf
...
pull from: zxq5/damn_simple_architecture:dsx-pkg
Branches Tags
zxq5/damn_simple_architecture:dsx-pkg zxq5/damn_simple_architecture:main zxq5/damn_simple_architecture:elf

11 Commits
main ... dsx-pkg

Author SHA1 Message Date
zxq5 c02ecd58e8 add dsx clone command 2026-02-25 22:16:52 +00:00
zxq5 0d54b319f1 dsx/dsx_server repo system first implementation 2026-02-25 14:52:04 +00:00
zxq5 ba4ced6433 added icon and .desktop file to DSA arch package 2026-02-23 23:52:22 +00:00
zxq5 4bee36eb7f - added support for args in Builder trait 
- added is_lib arg for compiler to produce non-main assembly outputs
- updated templates to use include_str
 2026-02-23 22:06:07 +00:00
zxq5 71b36dc6b5 reoganised project 2026-02-23 20:32:45 +00:00
zxq5 42bc666c11 commented out debug print statements and removed some commented out code that's no longer needed 2026-02-23 19:52:25 +00:00
zxq5 1d38aca523 added serial-out support to emulator + serial lib & command line mode for dsa emulator 2026-02-23 19:51:05 +00:00
zxq5 7ab1ac8842 added logging to builder trait and implemented for compiler and 
assembler crates.
 2026-02-23 09:04:30 +00:00
zxq5 a1d7b54479 - created dsx and dsx_server in place of dsx-build 
- dsx replaces dsx-build and is a build tool/package manager for the DSA
  ecosystem
- dsx_server is the repository/server for dsx packages.

dsx is a WIP.
 2026-02-22 21:44:41 +00:00
zxq5 7117b927f3 - updated common with new compiler/builder trait to provide a common 
interface for build tools
- updated editor and build tooling to use new system
 2026-02-22 21:43:22 +00:00
zxq5 4ed5da259e continued work on new register allocator implementation. 
next commit will have it integrated if it works
 2026-02-14 20:23:20 +00:00
129 changed files with 6401 additions and 1031 deletions
Expand all files Collapse all files
.gitignore
+2
View File
@@ -1,3 +1,5 @@
/target
**/*.env
Cargo.lock
.test/
pkg
.zed/tasks.json
+9
View File
@@ -19,11 +19,20 @@
"command": "cargo run --bin dsx-build",
"use_new_terminal": true,
},
{
"label": "Check All",
"command": "cargo clippy --all-targets",
"use_new_terminal": false,
},
{
"label": "Build All (Release)",
"command": "cargo build --release",
"use_new_terminal": false,
},
{
"label": "Publish Arch Package",
"command": "sh resources/publish.sh",
},
{
"label": "Run Tests",
"command": "cargo test",
Cargo.toml
+5 -1
View File
@@ -1,7 +1,11 @@
cargo-features = ["codegen-backend"]
[workspace]
members = ["emulator", "common", "assembler", "dsa_editor", "compiler", "dsx-build"]
members = [
"core/dsa_common", "core/assembler", "core/compiler",
"emulator", "emulator/dsa_editor",
"dsx/dsx_server", "dsx/dsx_common", "dsx/dsx"
]
resolver = "3"
[workspace.package]
PKGBUILD
+59
View File
@@ -0,0 +1,59 @@
# Maintainer: zxq5 <zxq5@proton.me>
pkgbase='damn-simple-architecture'
pkgname=('dsa' 'dsx' 'dsa-tools' 'dsx-server')
pkgver=0.1.1
pkgrel=1
startdir='.'
pkgdesc="Damn Simple Architecture"
arch=('x86_64')
url="https://git.zxq5.dev/zxq5/damn-simple-architecture"
license=('MIT')
makedepends=('rust' 'cargo' 'sed')
build() {
cargo build --release \
--bin dsa \
--bin dsx \
--bin dsa-a \
--bin dsa-c \
--bin dsx-server
}
package_dsa() {
pkgdesc="DSA core binary"
depends=()
install -Dm755 "$startdir/target/release/dsa" "$pkgdir/usr/bin/dsa"
install -Dm644 "$startdir/resources/dsa.desktop" \
"$pkgdir/usr/share/applications/dsa.desktop"
install -Dm644 "$startdir/resources/dsa.png" \
"$pkgdir/usr/share/icons/hicolor/256x256/apps/dsa.png"
}
package_dsx() {
pkgdesc="DSX client"
depends=('dsa')
install -Dm755 "$startdir/target/release/dsx" "$pkgdir/usr/bin/dsx"
}
package_dsa-tools() {
pkgdesc="DSA assembler and compiler tools"
depends=()
install -Dm755 "$startdir/target/release/dsa-a" "$pkgdir/usr/bin/dsa-a"
install -Dm755 "$startdir/target/release/dsa-c" "$pkgdir/usr/bin/dsa-c"
}
package_dsx-server() {
pkgdesc="DSX server"
depends=()
install -Dm755 "$startdir/target/release/dsx-server" "$pkgdir/usr/bin/dsx-server"
# Example sed usage — patch config paths for system install
sed -i 's|./templates|/usr/share/dsx-server/templates|g' \
"target/release/dsx-server" 2>/dev/null || true
install -Dm644 "$startdir/dsx_server/templates" "$pkgdir/usr/share/dsx-server/templates" 2>/dev/null || true
}
assembler/src/lib.rs
-50
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@@ -1,50 +0,0 @@
#![deny(
clippy::unwrap_used,
clippy::nursery,
clippy::perf,
clippy::pedantic,
clippy::complexity
)]
#![allow(
clippy::cast_possible_truncation,
clippy::missing_panics_doc,
clippy::missing_errors_doc,
clippy::match_wildcard_for_single_variants
)]
pub mod assembler;
pub mod image_builder;
pub mod tooling;
mod util;
pub mod prelude {
pub use crate::assembler::CompilerEngine;
pub use crate::image_builder;
pub use crate::tooling::brainf;
pub use crate::tooling::project;
}
use std::{fs, path::Path};
use num_cpus as _;
use threadpool as _;
use crate::prelude::CompilerEngine;
pub fn assemble_file(input: &str, output: &str) -> Result<(), std::io::Error> {
let mut engine = CompilerEngine::new();
engine.start_compilation(Path::new(input));
let result = engine.wait_for_result().expect("assembler failed.");
let buffer: Vec<u8> = result
.iter()
.flat_map(|instruction| instruction.encode().to_be_bytes())
.collect();
if let Err(e) = fs::write(output, buffer) {
eprintln!("Failed to write to output file: {e}");
std::process::exit(1);
}
Ok(())
}
assembler/src/util/logging.rs
-108
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@@ -1,108 +0,0 @@
#![allow(dead_code)]
#![allow(unused)]
use std::{fmt, sync::mpsc::Sender};
pub struct Logger {}
impl Logger {
pub const fn new() -> Self {
Self {}
}
pub fn log(&self, message: &str) {
_ = self;
println!("\x1b[32mINFO:\x1b[0m {message}");
}
}
// #[derive(Debug)]=
// pub struct Logger {
// pub sender: Sender<Entry>,
// }
// impl Logger {
// pub fn new(sender: Sender<Entry>) -> Self {
// Self { sender }
// }
// pub fn debug<T: fmt::Display>(&self, message: T) {
// self.sender
// .send(Entry {
// etype: EntryType::Debug,
// message: message.to_string(),
// })
// .unwrap();
// }
// pub fn info<T: fmt::Display>(&self, message: T) {
// self.sender
// .send(Entry {
// etype: EntryType::Info,
// message: message.to_string(),
// })
// .unwrap();
// }
// pub fn warn<T: fmt::Display>(&self, message: T) {
// self.sender
// .send(Entry {
// etype: EntryType::Warn,
// message: message.to_string(),
// })
// .unwrap();
// }
// pub fn error<T: fmt::Display>(&self, message: T) {
// self.sender
// .send(Entry {
// etype: EntryType::Error,
// message: message.to_string(),
// })
// .unwrap();
// }
// pub fn fatal<T: fmt::Display>(&self, message: T) {
// self.sender
// .send(Entry {
// etype: EntryType::Fatal,
// message: message.to_string(),
// })
// .unwrap();
// }
// }
pub struct Entry {
etype: EntryType,
pub message: String,
}
#[derive(Copy, Clone, Eq, PartialEq)]
enum EntryType {
Debug,
Info,
Warn,
Error,
Fatal,
}
impl fmt::Display for EntryType {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(
f,
"{:<5}",
match self {
Self::Debug => "DEBUG",
Self::Info => "INFO",
Self::Warn => "WARN",
Self::Error => "ERROR",
Self::Fatal => "FATAL",
}
)
}
}
impl fmt::Display for Entry {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
write!(f, "{}: {}", self.etype, self.message)
}
}
common/src/logging.rs
-4
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@@ -1,4 +0,0 @@
// TODO: Use an actual logging or tracing library for pretty (scoped) output.
pub fn log(message: &str) {
println!("\x1b[32mINFO:\x1b[0m {message}");
}
compiler/src/backend/dsa/mod.rs
-12
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@@ -1,12 +0,0 @@
use crate::model::{CompilerError, Program};
mod codegen;
mod instruction;
mod registers;
mod scope;
mod variable;
pub fn generate_code(ast: &Program) -> Result<String, CompilerError> {
let mut codegen = codegen::CodeGenerator::new(ast.clone());
codegen.generate()
}
compiler/src/backend/dsa/scope.rs
-287
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@@ -1,287 +0,0 @@
use std::{cell::RefCell, collections::HashMap, ops::Deref, rc::Rc};
use uuid::Uuid;
use crate::{
backend::dsa::{
instruction::{InsBlock, Instruction},
registers::{Register, RegisterAllocator},
variable::Variable,
},
model::CompilerError,
};
pub struct Allocator {
stack_offset: i32,
in_use: [(Register, bool); 16],
}
pub struct TempReg(Register);
pub struct AssignedReg(Register);
pub struct StackSlot(i32);
impl Deref for TempReg {
type Target = Register;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl Deref for AssignedReg {
type Target = Register;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl Deref for StackSlot {
type Target = i32;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl Allocator {
pub fn new() -> Self {
let mut in_use = [(Register::Null, false); 16];
in_use.copy_from_slice(&Register::get_gp().map(|r| (r, false))[0..16]);
Self {
stack_offset: 0,
in_use,
}
}
pub fn get_stack_offset(&self) -> i32 {
self.stack_offset
}
pub fn destroy_scope(&mut self, scope: &mut Scope) {
self.stack_offset = scope.entry_stack_offset;
for var in scope.variables.drain() {
if let Some(assigned) = var.1.register {
self.free_assigned(&assigned);
}
}
}
// what we need:
// - create var in register from temporary register. free temp and use it.
//
// - create var on stack from struct/array literal. return stack offset to write to.
//
// - spill var from register to stack. return stack offset to write to.
//
// - read/write var from stack+offset into register to use while preserving the stack
// slot.
//
// - read / write bytes from the stack+offset in a larger variable into a register.
pub fn read_var(&mut self, var: &mut Variable) -> Result<InsBlock, CompilerError> {
if let Some(slot) = &mut var.stack_slot {
if var.register.is_none() {
var.register = Some(self.allocate_var()?);
}
if let Some(reg) = &var.register {
return Ok(InsBlock::from(Instruction::ldw_reg_offset(
**reg,
Register::Spr,
**slot - self.stack_offset,
)));
}
unreachable!()
}
Err(CompilerError::Generic(format!(
"Tried to write var {} to stack but var was not assigned a reg and/or stack slot",
var.name
)))
}
pub fn write_var(&mut self, var: &mut Variable) -> Result<InsBlock, CompilerError> {
if let Some(slot) = &var.stack_slot {
if let Some(reg) = &var.register {
return Ok(InsBlock::from(Instruction::stw_reg_offset(
**reg,
Register::Spr,
**slot - self.stack_offset,
)));
}
}
Err(CompilerError::Generic(format!(
"Tried to write var {} to stack but var was not assigned a reg and/or stack slot",
var.name
)))
}
pub fn spill_var(&mut self, var: &mut Variable) -> Result<InsBlock, CompilerError> {
if let Some(slot) = &var.stack_slot {
let block = self.write_var(var)?;
if let Some(reg) = &var.register {
self.free_assigned(reg);
var.register = None;
}
return Ok(block);
}
// var doesn't have a stack slot so we need to create one
if let Some(reg) = &var.register {
let slot = self.allocate_stack_slot(var.size);
let block = InsBlock::from(Instruction::push(**reg));
self.free_assigned(reg);
var.register = None;
var.stack_slot = Some(slot);
return Ok(block);
}
return Err(CompilerError::Generic(
"spill_var called on a variable without a register".to_string(),
));
}
pub fn allocate_stack_slot(&mut self, size: usize) -> StackSlot {
self.stack_offset -= size as i32;
let offset = self.stack_offset;
StackSlot(offset)
}
pub fn allocate_var(&mut self) -> Result<AssignedReg, CompilerError> {
if let Some(reg) = self.find_free_register() {
Ok(AssignedReg(reg))
} else {
Err(CompilerError::Generic(
"No free registers available".to_string(),
))
}
}
pub fn allocate_temp(&mut self) -> Result<TempReg, CompilerError> {
// allocates a temporary register
if let Some(reg) = self.find_free_register() {
Ok(TempReg(reg))
} else {
todo!("an efficient stack spilling algorithm. needs scope awareness.");
}
}
pub fn free_temp(&mut self, temp: &TempReg) {
// frees a temporary register.
self.in_use[**temp as usize].1 = false;
}
fn free_assigned(&mut self, reg: &AssignedReg) {
// frees a register.
self.in_use[**reg as usize].1 = false;
}
// if we have register(s) free, return the first one.
fn find_free_register(&mut self) -> Option<Register> {
self.in_use.iter_mut().find_map(|(reg, used)| {
if !*used {
*used = true;
Some(*reg)
} else {
None
}
})
}
}
pub struct FunctionContext {
name: String,
allocator: RefCell<Allocator>,
}
impl FunctionContext {
pub fn new(name: String) -> Self {
Self {
name,
allocator: RefCell::new(Allocator::new()),
}
}
pub fn get_stack_offset(&self) -> i32 {
self.allocator.borrow().get_stack_offset()
}
}
/// scope object
pub struct Scope<'a> {
/// outer scope, for a function this will be the global scope.
parent: Option<&'a mut Scope<'a>>,
context: Rc<FunctionContext>,
/// is the scope a function body or just a loop?
/// depending on the type, ending a scope will have different behaviour
r#type: ScopeType,
/// variables
variables: HashMap<Uuid, Variable>,
entry_stack_offset: i32,
}
impl<'a> Scope<'a> {
pub fn new(parent: &'a mut Scope<'a>, r#type: ScopeType) -> Scope<'a> {
Self {
entry_stack_offset: parent.context.get_stack_offset(),
context: Rc::clone(&parent.context),
parent: Some(parent),
r#type,
variables: HashMap::new(),
}
}
pub fn close(&mut self) -> Result<(), CompilerError> {
// closing a scope means we need to drop all variables in scope and free
// registers.
for (name, var) in self.variables.iter() {
todo!()
// if let Some(reg) = var.allocated_register {}
// if let Some(offset) = var.bpr_offset {
// self.stack_offset -= offset;
// }
}
Ok(())
}
pub fn alloc_temp_reg(&mut self) -> Result<(Register, InsBlock), CompilerError> {
todo!()
}
pub fn alloc_var_reg(&mut self) -> Result<(Register, InsBlock), CompilerError> {
todo!()
}
pub fn alloc_var_stack(&mut self) -> Result<(Register, InsBlock), CompilerError> {
todo!()
}
pub fn free_var_stack(&mut self) -> Result<(Register, InsBlock), CompilerError> {
todo!()
}
pub fn free_temp_reg(&mut self) -> Result<(Register, InsBlock), CompilerError> {
todo!()
}
}
#[derive(PartialEq, Copy, Clone, Debug)]
pub enum ScopeType {
Function,
IfBlock,
LoopBlock,
}
compiler/src/backend/dsa/variable.rs
-93
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@@ -1,93 +0,0 @@
use std::{collections::HashMap, hash::Hash, rc::Rc};
use uuid::Uuid;
use crate::{
backend::dsa::{
instruction::InsBlock,
registers::Register,
scope::{AssignedReg, FunctionContext, Scope, StackSlot},
},
model::{CompilerError, TypeId},
};
pub struct Variable {
pub name: String,
pub uuid: Uuid,
/// the type of the variable.
r#type: TypeId,
/// size taken up in bytes.
/// if size > 4, value must be stored on the stack.
pub size: usize,
pub stack_slot: Option<StackSlot>,
pub register: Option<AssignedReg>,
}
impl Variable {
pub fn new_uninit(name: String, r#type: TypeId) -> Self {
Self {
name,
uuid: Uuid::new_v4(),
size: r#type.size(),
r#type,
stack_slot: None,
register: None,
}
}
pub fn new(
name: String,
r#type: TypeId,
scope: &'_ mut Scope,
) -> Result<Self, CompilerError> {
let mut var = Self::new_uninit(name, r#type);
var.alloc_default(scope);
Ok(var)
}
fn alloc_default(&mut self, scope: &'_ mut Scope) {
if self.size > 4 {
self.alloc_stack(scope).unwrap();
} else {
self.alloc_register(scope).unwrap();
}
}
fn alloc_register(
&mut self,
scope: &'_ mut Scope,
) -> Result<Register, CompilerError> {
if self.size > 4 {
return Err(CompilerError::Generic(format!(
"Type {} cannot be allocated a register as it has a size of {} bytes",
self.r#type, self.size
)));
}
todo!("integrate with register alloc logic")
// self.allocated_register = Some(...)
}
fn alloc_stack(&mut self, scope: &'_ mut Scope) -> Result<usize, CompilerError> {
todo!("integrate with stack alloc logic")
// self.bpr_offset = Some(...)
}
pub fn load(&mut self, scope: &'_ mut Scope) -> Result<Register, CompilerError> {
todo!("load var from stack to reg (if possible)")
}
pub fn drop(&mut self, scope: &'_ mut Scope) -> Result<(), CompilerError> {
Ok(())
}
pub fn spill(&mut self, scope: &'_ mut Scope) -> Result<(), CompilerError> {
todo!()
}
}
compiler/src/lib.rs
-72
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@@ -1,72 +0,0 @@
#![feature(try_trait_v2)]
use std::path::Path;
use common::logging::log;
use crate::specialised::build_specialised;
mod backend;
mod frontend;
mod model;
mod specialised;
pub fn compile_file(
input_path: &Path,
output_path: &Path,
) -> Result<(), Box<dyn std::error::Error>> {
let input = std::fs::read_to_string(input_path).expect("Failed to read input file");
let input_ext = input_path
.extension()
.and_then(|s| s.to_str())
.unwrap_or("");
// check if we're using a specialised compiler
if let Some(output) = build_specialised(input_ext, &input) {
let result = match output {
Ok(output) => output,
Err(err) => return Err(format!("Compilation failed: {err:?}").into()),
};
std::fs::write(output_path, &result).expect("Failed to write output");
log(&format!(
"Compilation Successful ✅ \n\tSource: {}\n\tOutput: {}\n",
input_path.display(),
output_path.display(),
));
return Ok(());
}
// Parse the input using the frontend, providing the file extension and data.
let ast = match frontend::compiler_frontend(input_ext, &input) {
Ok(ast) => ast,
Err(err) => return Err(format!("Compilation failed: {err:?}").into()),
};
println!("Parsed AST: {:#?}", ast);
let output_ext = output_path
.extension()
.and_then(|s| s.to_str())
.unwrap_or("");
// Generate the output using the backend with the parsed result.
let result = match backend::compiler_backend(output_ext, &ast) {
Ok(result) => result,
Err(err) => return Err(format!("Compilation failed: {err:?}").into()),
};
// println!("{result}");
std::fs::write(output_path, &result).expect("Failed to write output");
log(&format!(
"Compilation Successful ✅ \n\tSource: {}\n\tOutput: {}\n",
input_path.display(),
output_path.display(),
));
Ok(())
}
compiler/src/main.rs
-19
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@@ -1,19 +0,0 @@
use std::path::Path;
fn main() {
// read from input file: syntax "c_compiler <src.c> [output.dsa]"
let args: Vec<String> = std::env::args().collect();
if args.len() < 2 {
eprintln!("Usage: c_compiler <src.dsc> [output.dsa]");
return;
}
let input_file = &args[1];
let output_file = if args.len() > 2 {
&args[2]
} else {
"output.dsa"
};
compiler::compile_file(Path::new(input_file), Path::new(output_file)).unwrap();
}
assembler/Cargo.toml → core/assembler/Cargo.toml
+2 -2
View File
@@ -5,7 +5,7 @@ edition.workspace = true
authors.workspace = true
[[bin]]
name = "assembler"
name = "dsa-a"
path = "src/main.rs"
[lib]
@@ -13,6 +13,6 @@ name = "assembler"
path = "src/lib.rs"
[dependencies]
common = { path = "../common" }
common = { path = "../dsa_common" }
num_cpus = "1.17.0"
threadpool = "1.8.1"
assembler/brainf.dsb → core/assembler/brainf.dsb
View File
assembler/src/assembler/assembler.rs → core/assembler/src/assembler/assembler.rs
+3 -2
View File
@@ -8,7 +8,7 @@ use std::{
use crate::assembler::{AssembleError, Token, expand_pseudo_ops, lexer, quick_hash};
use crate::assembler::{Node, Parser, resolve_dependencies};
use crate::util::logging::Logger;
// use crate::util::logging::Logger;
// pub fn new_assemble(path: &Path) {
// let program = Program::new();
@@ -144,7 +144,8 @@ impl Module {
}
pub fn build(path: PathBuf, program: ProgramRef) -> Result<Task, AssembleError> {
// Spawn a thread that creates the main function and executes the lexer and parser.
// Spawn a thread that creates the main function and executes the lexer and
// parser.
let handle = thread::spawn(move || {
let mut module =
Self::new(path.clone(), quick_hash(&path), Vec::new(), program.clone());
assembler/src/assembler/codegen.rs → core/assembler/src/assembler/codegen.rs
View File
assembler/src/assembler/expand.rs → core/assembler/src/assembler/expand.rs
View File
assembler/src/assembler/lexer.rs → core/assembler/src/assembler/lexer.rs
View File
assembler/src/assembler/macros.rs → core/assembler/src/assembler/macros.rs
View File
assembler/src/assembler/mod.rs → core/assembler/src/assembler/mod.rs
+70 -44
View File
@@ -5,19 +5,25 @@ use std::{
fmt, fs,
hash::{DefaultHasher, Hash, Hasher},
path::{Path, PathBuf},
sync::{Arc, Mutex, mpsc},
sync::{
Arc, Mutex,
mpsc::{self, Receiver, Sender},
},
thread,
};
pub use common::logging::log;
use common::prelude::Instruction;
use common::{
build::{BuildError, Builder},
logging::{LogReceiver, Logger},
prelude::Instruction,
};
// Module declarations
#[macro_use]
pub mod macros;
#[allow(clippy::module_inception)]
pub mod assembler;
// pub mod assembler;
pub mod codegen;
pub mod expand;
pub mod lexer;
@@ -35,45 +41,68 @@ pub use self::{
resolver::{create_sections, resolve_dependencies, resolve_symbols},
};
use crate::util::logging::{Entry, Logger};
pub struct CompilerEngine {
result_tx: mpsc::Sender<Result<Vec<Instruction>, AssembleError>>,
result_rx: Option<mpsc::Receiver<Result<Vec<Instruction>, AssembleError>>>,
pub struct Assembler {
src_path: PathBuf,
result_tx: mpsc::Sender<Result<Vec<u8>, AssembleError>>,
result_rx: Option<mpsc::Receiver<Result<Vec<u8>, AssembleError>>>,
is_running: bool,
logs_rx: LogReceiver,
}
impl CompilerEngine {
impl From<AssembleError> for BuildError {
fn from(err: AssembleError) -> Self {
Self::Generic(err.to_string())
}
}
impl Builder for Assembler {
type Output = Vec<u8>;
type Args = ();
fn logs(&self) -> Vec<String> {
self.logs_rx.logs()
}
#[must_use]
pub fn new() -> Self {
fn new(src_path: impl Into<PathBuf>) -> Self {
let (tx, rx) = mpsc::channel();
Self {
src_path: src_path.into(),
result_tx: tx,
result_rx: Some(rx),
is_running: false,
// for logging
logs_rx: LogReceiver::new(true),
}
}
/// Start the compilation process in a separate thread
pub fn start_compilation(&mut self, src: &Path) {
fn start(&mut self, args: ()) {
if self.is_running {
return;
}
let src = src.to_path_buf();
let src = self.src_path.clone();
let tx = self.result_tx.clone();
let logger = self.logs_rx.logger();
thread::spawn(move || {
let result = assemble(&src);
tx.send(result)
.expect("Failed to send compilation result from worker thread");
if let Ok(res) = assemble(&src, &logger) {
let buffer: Vec<u8> = res
.iter()
.flat_map(|instruction| instruction.encode().to_be_bytes())
.collect();
tx.send(Ok(buffer))
.expect("Failed to send compilation result from worker thread");
}
});
self.is_running = true;
}
/// Check if compilation is complete and get the result
pub fn try_get_result(&mut self) -> Option<Result<Vec<Instruction>, AssembleError>> {
fn poll(&mut self) -> Option<Result<Self::Output, common::build::BuildError>> {
if !self.is_running {
return None;
}
@@ -86,22 +115,20 @@ impl CompilerEngine {
{
Ok(result) => {
self.is_running = false;
Some(result)
Some(result.map_err(std::convert::Into::into))
}
Err(mpsc::TryRecvError::Empty) => None,
Err(mpsc::TryRecvError::Disconnected) => {
self.is_running = false;
Some(Err(AssembleError::Generic))
Some(Err(BuildError::Generic(String::from(
"Compilation terminated before a result was returned",
))))
}
}
}
/// Block until compilation is complete and return the result
pub fn wait_for_result(&mut self) -> Result<Vec<Instruction>, AssembleError> {
if !self.is_running {
return Err(AssembleError::Generic);
}
fn output(&mut self) -> Result<Self::Output, common::build::BuildError> {
if let Ok(result) = self
.result_rx
.take()
@@ -109,15 +136,19 @@ impl CompilerEngine {
.recv()
{
self.is_running = false;
result
result.map_err(std::convert::Into::into)
} else {
self.is_running = false;
Err(AssembleError::Generic)
Err(BuildError::Generic(String::from(
"Compilation terminated before a result was returned",
)))
}
}
}
fn assemble(src: &Path) -> Result<Vec<Instruction>, AssembleError> {
impl Assembler {}
fn assemble(src: &Path, logger: &Logger) -> Result<Vec<Instruction>, AssembleError> {
let mut modules = HashSet::new();
let mut program = Program::new();
@@ -127,31 +158,26 @@ fn assemble(src: &Path) -> Result<Vec<Instruction>, AssembleError> {
return Ok(vec![]);
}
prepare_dependency(src, &mut modules, &mut program)?;
prepare_dependency(src, &mut modules, &mut program, &logger)?;
let mut nodes = program.nodes.clone();
create_sections(&mut nodes)?;
resolve_symbols(&mut nodes)?;
log("Generating assembly output...");
logger.info("Generating assembly output...");
let instructions = codegen(nodes)?;
log("Compilation Successful");
logger.info("Compilation Successful");
Ok(instructions)
}
impl Default for CompilerEngine {
fn default() -> Self {
Self::new()
}
}
fn prepare_dependency(
path: &Path,
modules: &mut HashSet<u64>,
program: &mut Program,
logger: &Logger,
) -> Result<(), AssembleError> {
let filename = path
.file_name()
@@ -159,7 +185,7 @@ fn prepare_dependency(
.expect("Failed to get file name from path");
if let Ok(path) = path.canonicalize() {
log(&format!(
logger.info(&format!(
"{:20} {:20} [{}]",
"Building",
filename,
@@ -171,13 +197,13 @@ fn prepare_dependency(
.map_err(|_| AssembleError::InvalidFile(path.to_path_buf()))?;
let file_hash = quick_hash(path);
log(&format!("{:20} {:20}", "Tokenising", filename));
logger.info(&format!("{:20} {:20}", "Tokenising", filename));
let tokens = lexer::lexer(src, file_hash)?;
log(&format!("{:20} {:20}", "Parsing", filename));
logger.info(&format!("{:20} {:20}", "Parsing", filename));
let parsed = Parser::parse_nodes(tokens)?;
log(&format!("{:20} {:20}", "Resolving Deps", filename));
logger.info(&format!("{:20} {:20}", "Resolving Deps", filename));
// Get the parent directory of the source file to use as the base directory
let base_dir = path
.parent()
@@ -187,7 +213,7 @@ fn prepare_dependency(
let deps = Parser::get_dependencies(&nodes, path)?;
log(&format!("{:20} {:20}", "Expanding Pseudo-ops", filename));
logger.info(&format!("{:20} {:20}", "Expanding Pseudo-ops", filename));
// add a section instruction
nodes.insert(
@@ -202,7 +228,7 @@ fn prepare_dependency(
program.add_module(nodes);
for dep in deps {
log(&format!(
logger.info(&format!(
"{:20} {:20}",
"Including",
dep.file_name()
@@ -212,7 +238,7 @@ fn prepare_dependency(
let dep_hash = quick_hash(&dep);
if modules.insert(dep_hash) {
prepare_dependency(dep.as_path(), modules, program)?;
prepare_dependency(dep.as_path(), modules, program, logger)?;
}
}
assembler/src/assembler/model.rs → core/assembler/src/assembler/model.rs
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assembler/src/assembler/parser.rs → core/assembler/src/assembler/parser.rs
View File
assembler/src/assembler/resolver.rs → core/assembler/src/assembler/resolver.rs
+1 -4
View File
@@ -6,11 +6,8 @@ use std::{
use common::prelude::Register;
use crate::assembler::model::{Module, Node, Opcode, Symbol, Token};
use crate::assembler::quick_hash;
use crate::assembler::{
log,
model::{Module, Node, Opcode, Symbol, Token},
};
use crate::{assembler::AssembleError, node};
pub fn resolve_symbols(nodes: &mut [Node]) -> Result<(), AssembleError> {
assembler/src/image_builder/mod.rs → core/assembler/src/image_builder/mod.rs
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core/assembler/src/lib.rs
+25
View File
@@ -0,0 +1,25 @@
#![deny(
clippy::unwrap_used,
clippy::nursery,
clippy::perf,
clippy::pedantic,
clippy::complexity
)]
#![allow(
clippy::cast_possible_truncation,
clippy::missing_panics_doc,
clippy::missing_errors_doc,
clippy::match_wildcard_for_single_variants
)]
pub mod assembler;
pub mod image_builder;
pub mod tooling;
mod util;
pub mod prelude {
pub use crate::assembler::Assembler;
pub use crate::image_builder;
pub use crate::tooling::brainf;
pub use crate::tooling::project;
}
assembler/src/main.rs → core/assembler/src/main.rs
+10 -5
View File
@@ -1,9 +1,6 @@
use common as _;
use num_cpus as _;
use threadpool as _;
use common::{self as _, build::Builder};
use assembler::{
assemble_file,
prelude::*,
tooling::{brainf, project},
};
@@ -47,5 +44,13 @@ fn main() {
let input_path = &args[2];
let output_path = &args[4];
assemble_file(input_path, output_path).unwrap();
let mut engine = Assembler::new(PathBuf::from(input_path));
engine.start(());
let result = engine.output().expect("assembler failed.");
if let Err(e) = fs::write(output_path, result) {
eprintln!("Failed to write to output file: {e}");
std::process::exit(1);
}
}
assembler/src/tooling/brainf.rs → core/assembler/src/tooling/brainf.rs
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assembler/src/tooling/mod.rs → core/assembler/src/tooling/mod.rs
View File
assembler/src/tooling/project.rs → core/assembler/src/tooling/project.rs
View File
core/assembler/src/util/logging.rs
+39
View File
@@ -0,0 +1,39 @@
#![allow(dead_code)]
#![allow(unused)]
use std::{fmt, sync::mpsc::Sender};
// pub struct Entry {
// etype: EntryType,
// pub message: String,
// }
// #[derive(Copy, Clone, Eq, PartialEq)]
// enum EntryType {
// Debug,
// Info,
// Warn,
// Error,
// Fatal,
// }
// impl fmt::Display for EntryType {
// fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
// write!(
// f,
// "{:<5}",
// match self {
// Self::Debug => "DEBUG",
// Self::Info => "INFO",
// Self::Warn => "WARN",
// Self::Error => "ERROR",
// Self::Fatal => "FATAL",
// }
// )
// }
// }
// impl fmt::Display for Entry {
// fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
// write!(f, "{}: {}", self.etype, self.message)
// }
// }
assembler/src/util/mod.rs → core/assembler/src/util/mod.rs
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compiler/Cargo.toml → core/compiler/Cargo.toml
+6 -1
View File
@@ -4,7 +4,12 @@ version.workspace = true
edition.workspace = true
authors.workspace = true
[[bin]]
name = "dsa-c"
path = "src/main.rs"
[dependencies]
chrono = "0.4.43"
common = { path = "../common" }
common = { path = "../dsa_common" }
uuid = { version = "1.20.0", features = ["v4"] }
compiler/bacon.toml → core/compiler/bacon.toml
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compiler/src/backend/dsa/codegen.rs → core/compiler/src/backend/dsa/codegen.rs
+29 -20
View File
@@ -20,10 +20,11 @@ pub struct CodeGenerator {
functions: Vec<IB>,
symbols: Vec<String>,
allocator: RegisterAllocator,
is_library: bool,
}
impl CodeGenerator {
pub fn new(ast: Program) -> Self {
pub fn new(ast: Program, is_lib: bool) -> Self {
CodeGenerator {
ast,
imports: HashMap::new(),
@@ -31,6 +32,7 @@ impl CodeGenerator {
functions: Vec::new(),
symbols: Vec::new(),
allocator: RegisterAllocator::new(),
is_library: is_lib,
}
}
@@ -46,7 +48,9 @@ impl CodeGenerator {
pub fn generate(&mut self) -> Result<String, CompilerError> {
// always include the print library for debugging!
self.include("print", "./lib/io/print.dsa");
if !self.is_library {
self.include("print", "./lib/print.dsa");
}
for block in self.ast.clone().declarations {
match block {
@@ -101,25 +105,30 @@ impl CodeGenerator {
block.extend(self.globals.values().cloned().collect::<Vec<_>>());
if !self.is_library {
block.extend(vec![
I::Newline,
I::global_comment("Entry Point"),
I::db_word("stack", 0x10000),
I::db_string("message", "Process Exited with code:"),
// init function for stack setup.
I::label("_init"),
I::ldw_label("stack", Register::Bpr),
I::mov(Register::Bpr, Register::Spr),
I::push(Register::Zero),
I::call("main"),
I::call("print::print_newline"),
I::lwi_label("message", Register::Rg0),
I::push(Register::Rg0),
I::call("print::print"),
I::pop(Register::Zero),
I::call("print::print_hex_word"),
I::pop(Register::Zero),
I::Hlt,
]);
}
block.extend(vec![
I::Newline,
I::global_comment("Entry Point"),
I::db_word("stack", 0x10000),
I::db_string("message", "Process Exited with code:"),
// init function for stack setup.
I::label("_init"),
I::ldw_label("stack", Register::Bpr),
I::mov(Register::Bpr, Register::Spr),
I::push(Register::Zero),
I::call("main"),
I::call("print::print_newline"),
I::lwi_label("message", Register::Rg0),
I::push(Register::Rg0),
I::call("print::print"),
I::pop(Register::Zero),
I::call("print::print_hex_word"),
I::pop(Register::Zero),
I::Hlt,
I::Newline,
// default return block boilerplate
I::global_comment("Return"),
compiler/src/backend/dsa/instruction.rs → core/compiler/src/backend/dsa/instruction.rs
View File
core/compiler/src/backend/dsa/mod.rs
+11
View File
@@ -0,0 +1,11 @@
use crate::model::{CompilerError, Program};
mod codegen;
mod instruction;
mod registers;
mod scope;
pub fn generate_code(ast: &Program, is_lib: bool) -> Result<String, CompilerError> {
let mut codegen = codegen::CodeGenerator::new(ast.clone(), is_lib);
codegen.generate()
}
compiler/src/backend/dsa/registers.rs → core/compiler/src/backend/dsa/registers.rs
View File
core/compiler/src/backend/dsa/scope.rs
+394
View File
@@ -0,0 +1,394 @@
use std::{cell::RefCell, collections::HashMap, ops::Deref, rc::Rc};
use crate::{
backend::dsa::{
instruction::{InsBlock, Instruction},
registers::{Register, RegisterAllocator},
},
error,
model::{CompilerError, Name, TypeId},
};
/// scope object
pub struct Scope<'a> {
/// outer scope, for a function this will be the global scope.
parent: Option<&'a mut Scope<'a>>,
alloc: Rc<RefCell<Allocator>>,
/// is the scope a function body or just a loop?
/// depending on the type, ending a scope will have different behaviour
r#type: ScopeType,
/// variables
variables: HashMap<String, Variable>,
entry_stack_offset: i32,
}
impl<'a> Scope<'a> {
pub fn new() -> Scope<'a> {
let alloc = Rc::new(RefCell::new(Allocator::new()));
let entry_stack_offset = alloc.borrow().get_stack_offset();
Self {
alloc,
entry_stack_offset,
parent: None,
r#type: ScopeType::Function,
variables: HashMap::new(),
}
}
pub fn new_from(parent: &'a mut Scope<'a>, r#type: ScopeType) -> Scope<'a> {
let alloc = Rc::clone(&parent.alloc);
let entry_stack_offset = alloc.borrow().get_stack_offset();
Self {
alloc,
entry_stack_offset,
parent: Some(parent),
r#type,
variables: HashMap::new(),
}
}
pub fn create_var(
&mut self,
name: String,
r#type: TypeId,
) -> Result<(), CompilerError> {
let mut var = Variable::new(name, r#type.clone());
if r#type.size() > 4 {
let slot = self.alloc.borrow_mut().allocate_stack_slot(r#type.size());
var.stack_slot = Some(slot);
} else {
let reg = self.alloc.borrow_mut().allocate_var()?;
var.register = Some(reg);
}
self.variables.insert(var.name.clone(), var);
Ok(())
}
pub fn alloc_temp(&mut self) -> Result<TempReg, CompilerError> {
self.alloc.borrow_mut().allocate_temp()
}
pub fn free_temp(&mut self, temp: &TempReg) {
self.alloc.borrow_mut().free_temp(temp)
}
pub fn free_var(&mut self, reg: &AssignedReg) {
self.alloc.borrow_mut().free_var(reg);
}
pub fn close(&mut self) {
// tell the allocator that this scope is closing
// this reverts the stack offset to what it was before this scope was created.
self.alloc.clone().borrow_mut().destroy_scope(self);
for var in self.variables.clone().values() {
if let Some(reg) = var.register {
self.free_var(&reg);
}
}
}
fn get_var(&mut self, var: &str) -> Option<&mut Variable> {
self.variables.get_mut(var)
}
pub fn offset_read(
&mut self,
var: &str,
offset: i32,
) -> Result<(TempReg, Instruction), CompilerError> {
if let Some(var) = self.get_var(var) {
let slot = var.stack_slot.ok_or_else(|| {
error("Attempt to read from a var without a stack slot!")
})?;
return self.alloc.borrow_mut().offset_read(&slot, offset);
}
Err(CompilerError::Undefined(Name::new(var, None)))
}
pub fn offset_write(
&mut self,
reg: &TempReg,
var: &str,
offset: i32,
) -> Result<Instruction, CompilerError> {
if let Some(var) = self.get_var(var) {
let slot = var.stack_slot.ok_or_else(|| {
error("Attempt to write to a var without a stack slot!")
})?;
return Ok(self.alloc.borrow_mut().offset_write(reg, &slot, offset));
}
Err(CompilerError::Undefined(Name::new(var, None)))
}
pub fn load_var(
&mut self,
var: &str,
) -> Result<(AssignedReg, Instruction), CompilerError> {
if let Some(v) = self.get_var(var).cloned()
&& let Some(slot) = v.stack_slot
{
let res = self.alloc.borrow_mut().load_var(&slot)?;
self.get_var(var).unwrap().register = Some(res.0);
return Ok(res);
}
panic!("e")
}
pub fn spill_var(&mut self, var: &str) -> Result<Instruction, CompilerError> {
if let Some(v) = self.get_var(var).cloned()
&& let Some(rg) = v.register
{
let mut slot = v.stack_slot;
let res = self.alloc.borrow_mut().spill_var(&rg, &mut slot);
self.get_var(var).unwrap().stack_slot = slot;
return res;
}
Err(CompilerError::Undefined(Name::new(var, None)))
}
}
impl Drop for Scope<'_> {
fn drop(&mut self) {
self.close()
}
}
#[derive(PartialEq, Copy, Clone, Debug)]
pub enum ScopeType {
Function,
IfBlock,
LoopBlock,
}
#[derive(Clone)]
pub struct Variable {
pub name: String,
/// the type of the variable.
r#type: TypeId,
/// size taken up in bytes.
/// if size > 4, value must be stored on the stack.
pub size: usize,
pub stack_slot: Option<StackSlot>,
pub register: Option<AssignedReg>,
}
impl Variable {
pub fn new(name: String, r#type: TypeId) -> Self {
Self {
name,
size: r#type.size(),
r#type,
stack_slot: None,
register: None,
}
}
}
pub struct Allocator {
stack_offset: i32,
in_use: [(Register, bool); 16],
}
impl Allocator {
pub fn new() -> Self {
let mut in_use = [(Register::Null, false); 16];
in_use.copy_from_slice(&Register::get_gp().map(|r| (r, false))[0..16]);
Self {
stack_offset: 0,
in_use,
}
}
pub fn get_stack_offset(&self) -> i32 {
self.stack_offset
}
pub fn destroy_scope(&mut self, scope: &mut Scope) {
self.stack_offset = scope.entry_stack_offset;
for var in scope.variables.drain() {
if let Some(assigned) = var.1.register {
self.free_var(&assigned);
}
}
}
// what we need:
// - create var in register from temporary register. free temp and use it.
//
// - create var on stack from struct/array literal. return stack offset to write to.
//
// - spill var from register to stack. return stack offset to write to.
//
// - read/write var from stack+offset into register to use while preserving the stack
// slot.
//
// - read / write bytes from the stack+offset in a larger variable into a register.
pub fn offset_read(
&mut self,
slot: &StackSlot,
offset: i32,
) -> Result<(TempReg, Instruction), CompilerError> {
let register = self.allocate_temp()?;
// instruction: reg = *(&var + offset)
Ok((
register.clone(),
Instruction::ldw_reg_offset(
Register::Spr,
*register,
(**slot + offset) - self.stack_offset,
),
))
}
pub fn offset_write(
&mut self,
reg: &TempReg,
slot: &StackSlot,
offset: i32,
) -> Instruction {
// instruction: *(&var + offset) = reg
Instruction::stw_reg_offset(
**reg,
Register::Spr,
(**slot + offset) - self.stack_offset,
)
}
pub fn load_var(
&mut self,
slot: &StackSlot,
) -> Result<(AssignedReg, Instruction), CompilerError> {
let reg = self.allocate_var()?;
Ok((
reg.clone(),
Instruction::ldw_reg_offset(Register::Spr, *reg, **slot - self.stack_offset),
))
}
pub fn spill_var(
&mut self,
reg: &AssignedReg,
slot: &mut Option<StackSlot>,
// var: &mut Variable,
) -> Result<Instruction, CompilerError> {
if let Some(slot) = &slot {
let block = Instruction::stw_reg_offset(
**reg,
Register::Spr,
**slot - self.stack_offset,
);
self.free_var(reg);
return Ok(block);
}
// var doesn't have a stack slot so we need to create one
let new_slot = self.allocate_stack_slot(4); // alloc 4 bytes for reg value.
let block = Instruction::push(**reg);
self.free_var(reg);
*slot = Some(new_slot);
Ok(block)
}
pub fn allocate_stack_slot(&mut self, size: usize) -> StackSlot {
self.stack_offset -= size as i32;
let offset = self.stack_offset;
StackSlot(offset)
}
pub fn allocate_var(&mut self) -> Result<AssignedReg, CompilerError> {
if let Some(reg) = self.find_free_register() {
Ok(AssignedReg(reg))
} else {
Err(CompilerError::Generic(
"No free registers available".to_string(),
))
}
}
pub fn allocate_temp(&mut self) -> Result<TempReg, CompilerError> {
// allocates a temporary register
if let Some(reg) = self.find_free_register() {
Ok(TempReg(reg))
} else {
todo!("an efficient stack spilling algorithm. needs scope awareness.");
}
}
pub fn free_temp(&mut self, temp: &TempReg) {
// frees a temporary register.
self.in_use[**temp as usize].1 = false;
}
pub fn free_var(&mut self, reg: &AssignedReg) {
// frees a register.
self.in_use[**reg as usize].1 = false;
}
// if we have register(s) free, return the first one.
fn find_free_register(&mut self) -> Option<Register> {
self.in_use.iter_mut().find_map(|(reg, used)| {
if !*used {
*used = true;
Some(*reg)
} else {
None
}
})
}
}
#[derive(Clone, Copy, Debug)]
pub struct TempReg(Register);
#[derive(Clone, Copy, Debug)]
pub struct AssignedReg(Register);
#[derive(Clone, Copy, Debug)]
pub struct StackSlot(i32);
impl Deref for TempReg {
type Target = Register;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl Deref for AssignedReg {
type Target = Register;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl Deref for StackSlot {
type Target = i32;
fn deref(&self) -> &Self::Target {
&self.0
}
}
compiler/src/backend/mod.rs → core/compiler/src/backend/mod.rs
+6 -2
View File
@@ -2,9 +2,13 @@ use crate::model::{CompilerError, Program};
mod dsa;
pub fn compiler_backend(ext: &str, ast: &Program) -> Result<String, CompilerError> {
pub fn compiler_backend(
ext: &str,
ast: &Program,
is_lib: bool,
) -> Result<String, CompilerError> {
match ext {
"dsa" => Ok(dsa::generate_code(ast)?),
"dsa" => Ok(dsa::generate_code(ast, is_lib)?),
_ => Err(CompilerError::Generic(format!(
"File type {} not supported",
ext
compiler/src/frontend/c/lexer.rs → core/compiler/src/frontend/c/lexer.rs
View File
compiler/src/frontend/c/mod.rs → core/compiler/src/frontend/c/mod.rs
View File
compiler/src/frontend/c/parser.rs → core/compiler/src/frontend/c/parser.rs
View File
compiler/src/frontend/dsc/lexer.rs → core/compiler/src/frontend/dsc/lexer.rs
View File
compiler/src/frontend/dsc/mod.rs → core/compiler/src/frontend/dsc/mod.rs
+9 -9
View File
@@ -1,6 +1,5 @@
use common::logging::log;
use crate::model::{CompilerError, Program};
use common::logging::Logger;
use parser::{ParseResult, Parser};
// use semantic_analyser::Analyser;
@@ -8,14 +7,15 @@ pub mod lexer;
pub mod parser;
// pub mod semantic_analyser;
pub fn generate_ast(input: &str) -> Result<Program, CompilerError> {
log("Tokenising Input...");
pub fn generate_ast(input: &str, logger: &Logger) -> Result<Program, CompilerError> {
logger.info("Tokenising Input...");
let lexer = lexer::Lexer::new(&input);
let tokens = lexer.collect::<Vec<_>>();
println!("{tokens:#?}");
log(&format!("Parsing {} Tokens...", tokens.len()));
// println!("{tokens:#?}");
logger.info(&format!("Parsing {} Tokens...", tokens.len()));
let mut parser = Parser::new(tokens);
let ast = match parser.parse() {
@@ -27,12 +27,12 @@ pub fn generate_ast(input: &str) -> Result<Program, CompilerError> {
};
// println!("{ast:#?}");
log("Analyzing AST...");
log("Checking Type Information...");
logger.info("Analyzing AST...");
logger.info("Checking Type Information...");
// let mut analyser = Analyser::new();
// analyser.analyse(ast.clone()).unwrap();
log("Type Checking Complete...");
logger.info("Type Checking Complete...");
Ok(ast)
}
compiler/src/frontend/dsc/parser.rs → core/compiler/src/frontend/dsc/parser.rs
+34 -31
View File
@@ -722,37 +722,42 @@ impl Parser {
// if the next token isn't the beginning of a struct literal this is just
// an identifier.
if !expect_tt!(self.peek_next()?, LeftBrace).accepted() {
return ParseResult::Accept(Expression::Variable {
name,
expr_type: None,
});
}
let _ = self.next()?;
let mut fields = Vec::new();
while !expect_tt!(self.peek_next()?, RightBrace).accepted() {
let name = expect_value!(self.next()?, Identifier)?;
let _ = expect_tt!(self.next()?, Colon)?;
let expr = self.parse_expression()?;
fields.push((name, expr));
if expect_tt!(self.peek_next()?, Comma).accepted() {
self.next()?;
} else {
break;
}
}
let _ = expect_tt!(self.next()?, RightBrace)?;
ParseResult::Accept(Expression::StructLiteral {
// if !expect_tt!(self.peek_next()?, LeftBrace).accepted() {
// return ParseResult::Accept(Expression::Variable {
// name,
// expr_type: None,
// });
// }
//
ParseResult::Accept(Expression::Variable {
name,
fields,
type_id: None,
expr_type: None,
})
// let _ = self.next()?;
// let mut fields = Vec::new();
// while !expect_tt!(self.peek_next()?, RightBrace).accepted() {
// let name = expect_value!(self.next()?, Identifier)?;
// let _ = expect_tt!(self.next()?, Colon)?;
// let expr = self.parse_expression()?;
// fields.push((name, expr));
// if expect_tt!(self.peek_next()?, Comma).accepted() {
// self.next()?;
// } else {
// break;
// }
// }
// let _ = expect_tt!(self.next()?, RightBrace)?;
// ParseResult::Accept(Expression::StructLiteral {
// name,
// fields,
// type_id: None,
// })
}
Token::LeftBracket => {
self.next()?; // consume '['
@@ -800,8 +805,6 @@ impl Parser {
}
fn parse_type(&mut self) -> ParseResult<TypeId, CompilerError> {
println!("yes {:?}", self.peek_next()?);
// parse primitive or named type
if expect_tt!(self.peek_next()?, Identifier).accepted() {
return self.parse_type_identifier();
compiler/src/frontend/dsc/semantic_analyser.rs → core/compiler/src/frontend/dsc/semantic_analyser.rs
View File
compiler/src/frontend/mod.rs → core/compiler/src/frontend/mod.rs
+8 -2
View File
@@ -1,11 +1,17 @@
use common::logging::Logger;
use crate::model::{CompilerError, Program};
// mod c;
mod dsc;
pub fn compiler_frontend(ext: &str, data: &str) -> Result<Program, CompilerError> {
pub fn compiler_frontend(
ext: &str,
data: &str,
logger: &Logger,
) -> Result<Program, CompilerError> {
match ext {
"dsc" => Ok(dsc::generate_ast(&data)?),
"dsc" => Ok(dsc::generate_ast(&data, &logger)?),
// "c" => Ok(c::generate_ast(&data)?),
_ => Err(CompilerError::Generic(format!(
"File type {} not supported",
core/compiler/src/lib.rs
+94
View File
@@ -0,0 +1,94 @@
#![feature(try_trait_v2)]
use std::path::{Path, PathBuf};
use common::{
build::{BuildError, Builder},
logging::LogReceiver,
};
use crate::{model::CompilerError, specialised::build_specialised};
mod backend;
mod frontend;
mod model;
mod specialised;
pub struct Compiler {
src_path: PathBuf,
result: Option<Result<String, BuildError>>,
logger: LogReceiver,
}
impl Compiler {
fn build(&mut self, is_lib: bool) -> Result<String, Box<dyn std::error::Error>> {
let input =
std::fs::read_to_string(&self.src_path).expect("Failed to read input file");
let input_ext = self
.src_path
.extension()
.and_then(|s| s.to_str())
.unwrap_or("");
// check if we're using a specialised compiler
if let Some(output) = build_specialised(input_ext, &input) {
return output.map_err(|err| format!("Compilation failed: {err:?}").into());
}
// Parse the input using the frontend, providing the file extension and data.
let ast =
match frontend::compiler_frontend(input_ext, &input, &self.logger.logger()) {
Ok(ast) => ast,
Err(err) => return Err(format!("Compilation failed: {err:?}").into()),
};
// println!("Parsed AST: {:#?}", ast);
// Generate the output using the backend with the parsed result.
let result = match backend::compiler_backend("dsa", &ast, is_lib) {
Ok(result) => result,
Err(err) => return Err(format!("Compilation failed: {err:?}").into()),
};
Ok(result)
}
}
impl Builder for Compiler {
type Output = String;
type Args = bool;
fn new(src_path: impl Into<PathBuf>) -> Self {
Self {
src_path: src_path.into(),
result: None,
logger: LogReceiver::new(true),
}
}
fn start(&mut self, args: bool) {
match self.build(args) {
Ok(x) => self.result = Some(Ok(x)),
Err(err) => self.result = Some(Err(err.into())),
}
}
fn poll(&mut self) -> Option<Result<Self::Output, BuildError>> {
self.result.take()
}
fn output(&mut self) -> Result<Self::Output, BuildError> {
self.result.clone().ok_or(BuildError::Generic(String::from(
"Compiler was never started",
)))?
}
fn logs(&self) -> Vec<String> {
todo!()
}
}
pub fn error(msg: impl Into<String>) -> CompilerError {
CompilerError::Generic(msg.into())
}
core/compiler/src/main.rs
+35
View File
@@ -0,0 +1,35 @@
use std::path::{Path, PathBuf};
use common::{build::Builder, logging::info};
use compiler::Compiler;
fn main() {
// read from input file: syntax "c_compiler <src.c> [output.dsa]"
let args: Vec<String> = std::env::args().collect();
if args.len() < 2 {
eprintln!("Usage: c_compiler [--lib | --bin] <src.dsc> [output.dsa]");
return;
}
let input_file = &args[1];
let output_file = if args.len() > 2 {
&args[2]
} else {
"output.dsa"
};
{
let is_lib = args.contains(&"--lib".to_string());
let mut builder = Compiler::new(PathBuf::from(input_file));
builder.start(is_lib);
let result = builder.output().unwrap();
std::fs::write(output_file, &result).expect("Failed to write output");
info(&format!(
"Compilation Successful ✅ \n\tSource: {}\n\tOutput: {}\n",
input_file, output_file,
));
}
}
compiler/src/model.rs → core/compiler/src/model.rs
+8
View File
@@ -1,5 +1,7 @@
use core::fmt;
use common::build::BuildError;
#[allow(unused)]
#[derive(Debug, Clone)]
pub enum CompilerError {
@@ -14,6 +16,12 @@ pub enum CompilerError {
Unimplemented(String),
}
impl From<CompilerError> for BuildError {
fn from(err: CompilerError) -> Self {
BuildError::Generic(format!("{:?}", err))
}
}
#[derive(Debug, PartialEq, Eq, Clone)]
pub struct Name {
pub name: String,
compiler/src/specialised/brainf.rs → core/compiler/src/specialised/brainf.rs
View File
compiler/src/specialised/mod.rs → core/compiler/src/specialised/mod.rs
View File
common/Cargo.toml → core/dsa_common/Cargo.toml
View File
core/dsa_common/src/build.rs
+55
View File
@@ -0,0 +1,55 @@
use std::{
fmt,
path::{Path, PathBuf},
};
#[derive(Debug, Clone)]
pub enum BuildError {
IoError(String),
Generic(String),
}
impl From<std::io::Error> for BuildError {
fn from(err: std::io::Error) -> Self {
Self::IoError(err.to_string())
}
}
impl From<Box<dyn std::error::Error>> for BuildError {
fn from(err: Box<dyn std::error::Error>) -> Self {
Self::Generic(err.to_string())
}
}
impl fmt::Display for BuildError {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::IoError(err) => write!(f, "IO Error: {err}"),
Self::Generic(err) => write!(f, "Generic Error: {err}"),
}
}
}
pub trait Builder {
type Output: Clone + std::convert::AsRef<[u8]>;
type Args: Clone;
fn new(src_path: impl Into<PathBuf>) -> Self;
// starts compilation
fn start(&mut self, args: Self::Args);
// non-blocking function, returns output if completed
fn poll(&mut self) -> Option<Result<Self::Output, BuildError>>;
// blocking function, returns output when completed.
fn output(&mut self) -> Result<Self::Output, BuildError>;
fn write_result(&mut self, path: impl AsRef<Path>) -> Result<(), BuildError> {
let output = self.output()?;
std::fs::write(path.as_ref(), output)
.map_err(|e| BuildError::IoError(e.to_string()))
}
fn logs(&self) -> Vec<String>;
}
common/src/instructions.rs → core/dsa_common/src/instructions.rs
View File
common/src/instructions/args.rs → core/dsa_common/src/instructions/args.rs
View File
common/src/instructions/encode.rs → core/dsa_common/src/instructions/encode.rs
View File
common/src/instructions/encode/tests.rs → core/dsa_common/src/instructions/encode/tests.rs
View File
common/src/instructions/errors.rs → core/dsa_common/src/instructions/errors.rs
View File
common/src/instructions/tests.rs → core/dsa_common/src/instructions/tests.rs
View File
common/src/lib.rs → core/dsa_common/src/lib.rs
+1
View File
@@ -12,6 +12,7 @@
clippy::match_wildcard_for_single_variants
)]
pub mod build;
pub mod instructions;
pub mod logging;
core/dsa_common/src/logging.rs
+65
View File
@@ -0,0 +1,65 @@
use std::sync::{Arc, mpsc};
pub fn info(message: &str) {
println!("\x1b[32mINFO:\x1b[0m {message}");
}
#[derive(Debug)]
pub struct LogReceiver {
logs_rx: mpsc::Receiver<String>,
sender: Logger,
use_stdio: bool,
}
#[derive(Debug, Clone)]
pub struct Logger {
use_stdio: bool,
logs_tx: Arc<mpsc::Sender<String>>,
}
impl Logger {
#[must_use]
pub fn new(logs_tx: mpsc::Sender<String>, use_stdio: bool) -> Self {
Self {
use_stdio,
logs_tx: Arc::new(logs_tx),
}
}
pub fn info(&self, message: &str) {
let res = format!("\x1b[32mINFO:\x1b[0m {message}");
if self.use_stdio {
println!("{res}");
}
self.logs_tx.send(res).expect("Failed to send log message");
}
}
impl LogReceiver {
#[must_use]
pub fn new(use_stdio: bool) -> Self {
let (logs_tx, logs_rx) = mpsc::channel();
Self {
use_stdio,
logs_rx,
sender: Logger::new(logs_tx, use_stdio),
}
}
#[must_use]
pub fn logs(&self) -> Vec<String> {
self.logs_rx.try_iter().collect()
}
#[must_use]
pub fn logger(&self) -> Logger {
self.sender.clone()
}
}
impl Default for LogReceiver {
fn default() -> Self {
Self::new(true)
}
}
dsx-build/Cargo.toml
-10
View File
@@ -1,10 +0,0 @@
[package]
name = "dsx-build"
version.workspace = true
edition.workspace = true
authors.workspace = true
[dependencies]
compiler = { path = "../compiler" }
assembler = { path = "../assembler" }
chrono = "0.4.43"
dsx-build/src/main.rs
-200
View File
@@ -1,200 +0,0 @@
use std::process::{Command, Stdio};
use std::{
env, fs,
path::{Path, PathBuf},
};
use crate::templates::{Dsa, Dsc, Template};
mod templates;
/// Run a command and exit on failure.
fn run(cmd: &mut Command) {
let status = cmd.status().expect("failed to execute command");
if !status.success() {
std::process::exit(1);
}
}
fn main() {
// Very small CLI only three subcommands.
let args: Vec<String> = env::args().collect();
if args.len() < 2 {
eprintln!("Usage: dsx-build <new|build|package> [options]");
std::process::exit(1);
}
match args[1].as_str() {
"new" => cmd_new(&args[2..]),
"build" => cmd_build(),
"package" => todo!("Package manager stub not implemented yet."),
_ => {
eprintln!("Unknown command: {}", args[1]);
std::process::exit(1);
}
}
}
// ---------- new project ----------------------------------------------------
fn cmd_new(args: &[String]) {
let mut lang = "dsa";
for i in 0..args.len() {
if args[i] == "--lang" && i + 1 < args.len() {
lang = &args[i + 1];
}
}
let lib = args.contains(&"--lib".to_string());
// Determine project root: a subdirectory named after the supplied --name argument.
let mut name_opt = None;
for i in 0..args.len() {
if args[i] == "--name" && i + 1 < args.len() {
name_opt = Some(&args[i + 1]);
break;
}
}
let project_name = match name_opt {
Some(name) => name.to_string(),
None => {
eprintln!("Error: --name argument required");
std::process::exit(1);
}
};
let cwd = env::current_dir().unwrap();
let src_path = cwd.join(&project_name).join("src");
fs::create_dir_all(&src_path).expect("Failed to create project directory");
match lang {
"dsa" => {
// Minimal DSA binary template.
let path = src_path.join(format!("main.dsa"));
let template = Dsa::create(&project_name, lib);
fs::write(path, template).expect("Unable to write DSA file");
}
"dsc" => {
let path = src_path.join(format!("main.dsc"));
let template = Dsc::create(&project_name, lib);
fs::write(path, template).expect("Unable to write DSC file");
}
_ => {
eprintln!("Unsupported language: {}", lang);
std::process::exit(1);
}
}
fs::create_dir_all(src_path.join("lib")).expect("Failed to create lib directory");
fs::write(
src_path.join("lib/print.dsa"),
templates::create_print_lib(),
)
.expect("Failed to create print.dsa");
fs::write(
src_path.join("lib/maths.dsa"),
templates::create_maths_lib(),
)
.expect("Failed to create maths.dsa");
println!(
"Created new {} project in {}.",
lang,
src_path.parent().unwrap().display()
);
}
// ---------- build ----------------------------------------------------------
fn cmd_build() {
let cwd = env::current_dir().unwrap();
// Detect .dsc or .dsa files in current directory.
let mut has_dsc = false;
let mut has_dsa = false;
for entry in fs::read_dir(&cwd.join("src")).expect("unable to read dir") {
if let Ok(entry) = entry {
let path = entry.path();
if path.extension().and_then(|s| s.to_str()) == Some("dsc") {
has_dsc = true;
} else if path.extension().and_then(|s| s.to_str()) == Some("dsa") {
has_dsa = true;
}
}
}
if !has_dsc && !has_dsa {
eprintln!("No .dsc or .dsa source found in src directory.");
std::process::exit(1);
}
// Assemble main.dsa to a dsb binary.
println!("Assembling Project to a DSB binary...");
let build_dir = cwd.join("build");
fs::create_dir_all(&build_dir).expect("Failed to create build directory");
// Copy everything from `cwd/src` to the build directory.
fn copy_recursively(src: &Path, dst: &Path) {
if src.is_file() {
fs::create_dir_all(dst.parent().unwrap())
.expect("Failed to create parent directory");
fs::copy(src, dst).expect("Failed to copy file");
} else if src.is_dir() {
for entry in fs::read_dir(src).expect("Unable to read source dir") {
let entry = entry.expect("Failed to read entry");
let child_src = entry.path();
let child_dst = dst.join(entry.file_name());
copy_recursively(&child_src, &child_dst);
}
}
}
let src_dir = cwd.join("src");
if src_dir.exists() {
copy_recursively(&src_dir, &build_dir);
}
// Change current working directory to the build directory.
env::set_current_dir(&build_dir).expect("Failed to change to build directory");
if has_dsc {
println!("Compiling DSC to DSA...");
fn compile_recursive(path: &Path) {
if path.is_dir() {
for entry in fs::read_dir(path).expect("unable to read dir") {
let entry = entry.expect("failed to read entry");
compile_recursive(&entry.path());
}
} else if path.extension().and_then(|s| s.to_str()) == Some("dsc") {
let input_path = path;
let output_path = path.with_extension("dsa");
compiler::compile_file(&input_path, &output_path).unwrap_or_else(|e| {
eprintln!("Failed to compile {:?}: {}", input_path, e);
std::process::exit(1);
});
}
}
compile_recursive(&build_dir);
}
// Replace .dsc with .dsa only in include statements, recursively for each file.
let mut sed_cmd = Command::new("bash");
sed_cmd.args(&[
"-c",
&format!(
"find \"{}\" -type f -name '*.dsa' -exec sed -i '/^include/ s/\\.dsc/.dsa/g' {{}} +",
build_dir.display()
),
]);
run(&mut sed_cmd);
fs::create_dir_all(&cwd.join("artifacts")).expect("Failed to create build directory");
assembler::assemble_file("./main.dsa", "../artifacts/out.dsb").unwrap_or_else(|e| {
eprintln!("Failed to assemble {:?}: {}", "./main.dsa", e);
std::process::exit(1);
});
println!("Build finished. Binary at {}/main.dsb", build_dir.display());
}
dsx/dsx/Cargo.toml
+20
View File
@@ -0,0 +1,20 @@
[package]
name = "dsx"
version.workspace = true
edition.workspace = true
authors.workspace = true
[[bin]]
name = "dsx"
path = "src/main.rs"
[dependencies]
compiler = { path = "../../core/compiler" }
assembler = { path = "../../core/assembler" }
common = { path = "../../core/dsa_common" }
dsx_common = { path = "../dsx_common" }
toml = "1.0.3"
chrono = "0.4.44"
reqwest = { version = "0.13.2", default-features = false, features = ["blocking", "native-tls"] }
tar = "0.4.44"
flate2 = "1.1.9"
dsx/dsx/src/main.rs
+120
View File
@@ -0,0 +1,120 @@
use std::{env, fs, path::PathBuf, process::Command};
use dsx_common::builder::{self, BuildContext};
use reqwest::Url;
pub mod new;
pub mod repo;
pub mod templates;
fn main() {
// Very small CLI only three subcommands.
let args: Vec<String> = env::args().collect();
if args.len() < 2 {
eprintln!("Usage: dsx-build <new|build|package> [options]");
std::process::exit(1);
}
match args[1].as_str() {
"new" => new::new_project(&args[2..]),
"build" => {
if let Some(dir) = find_project_root() {
let ctx = BuildContext {
project_dir: dir.clone(),
build_dir: dir.join("build"),
artifact_dir: dir.join("artifacts"),
};
builder::build_project(ctx).expect("Build failed!");
} else {
eprintln!("No Dsx.toml found");
std::process::exit(1);
}
}
"clean" => {
if let Some(dir) = find_project_root() {
fs::remove_dir_all(dir.join("build"))
.expect("failed to remove build dir");
println!("Build directory cleaned...");
fs::remove_dir_all(dir.join("artifacts"))
.expect("failed to remove artifacts dir");
println!("Artifacts directory cleaned...");
} else {
eprintln!("No Dsx.toml found");
std::process::exit(1);
}
}
"run" => {
if let Some(dir) = find_project_root() {
let ctx = BuildContext {
project_dir: dir.clone(),
build_dir: dir.join("build"),
artifact_dir: dir.join("artifacts"),
};
builder::build_project(ctx).expect("Run failed!");
// start process and call emulator
let mut child = Command::new("dsa")
.arg("--cli")
.arg("--bin")
.arg(dir.join("./artifacts/out.dsb"))
.spawn()
.expect("Failed to start emulator");
// wait for emulator to finish
child.wait().expect("Failed to wait for emulator");
} else {
eprintln!("No Dsx.toml found");
std::process::exit(1);
}
}
"clone" => {
let url: Url = Url::parse(&args[2]).unwrap();
let name = url.path_segments().unwrap().next_back().unwrap();
let repo = env::current_dir().unwrap().join(name);
fs::create_dir_all(&repo).unwrap();
repo::clone(&repo, &url).expect("Failed to clone repository");
}
"push" => {
if let Some(dir) = find_project_root() {
repo::push(&dir).expect("Failed to push repository");
} else {
eprintln!("No Dsx.toml found");
std::process::exit(1);
}
}
"pull" => {
if let Some(dir) = find_project_root() {
repo::pull(&dir).expect("Failed to pull repository");
} else {
eprintln!("No Dsx.toml found");
std::process::exit(1);
}
}
"package" => todo!("Package manager stub not implemented yet."),
_ => {
eprintln!("Unknown command: {}", args[1]);
std::process::exit(1);
}
}
}
fn find_project_root() -> Option<PathBuf> {
// check if current dir has Dsx.toml otherwise check parent dir recursively
let mut cwd = env::current_dir().unwrap();
loop {
let dsx_toml = cwd.join("Dsx.toml");
if dsx_toml.exists() {
return Some(cwd);
}
if let Some(parent) = cwd.parent() {
cwd = parent.to_path_buf();
} else {
break;
}
}
None
}
dsx/dsx/src/new.rs
+107
View File
@@ -0,0 +1,107 @@
use std::{env, fmt, fs};
use dsx_common::config::DsxConfig;
use crate::templates::{self, Dsa, Dsc, Template};
// ---------- new project ----------------------------------------------------
pub fn new_project(args: &[String]) {
// get project details from args.
let lang = Language::from_args(args);
let lib = args.contains(&"--lib".to_string());
let name = project_name(args).unwrap_or_else(|| {
eprintln!("Error: --name argument required");
std::process::exit(1);
});
let project_path = env::current_dir().unwrap().join(name);
let src_path = project_path.join("src");
fs::create_dir_all(&src_path).expect("Failed to create project directory");
let config_template = DsxConfig::new(name);
fs::write(
project_path.join("Dsx.toml"),
toml::to_string(&config_template).unwrap(),
)
.expect("Unable to write default config");
let (path, template) = match lang {
Language::Unknown | Language::Dsa => {
(src_path.join("main.dsa"), Dsa::create(name, lib))
}
Language::Dsc => (src_path.join("main.dsc"), Dsc::create(name, lib)),
};
fs::write(path, template).expect("Unable to write DSA file");
fs::create_dir_all(src_path.join("lib")).expect("Failed to create lib directory");
fs::write(
src_path.join("./lib/print.dsa"),
include_str!("../templates/dsa/print.dsa"),
)
.expect("Failed to create print.dsa");
fs::write(
src_path.join("./lib/maths.dsa"),
include_str!("../templates/dsa/maths.dsa"),
)
.expect("Failed to create maths.dsa");
fs::write(
src_path.join("./lib/serial.dsa"),
include_str!("../templates/dsa/serial.dsa"),
)
.expect("Failed to create maths.dsa");
println!(
"Created new {} project in {}.",
lang,
src_path.parent().unwrap().display()
);
}
// helpers
enum Language {
Unknown,
Dsa,
Dsc,
}
impl Language {
fn from_args(args: &[String]) -> Self {
let mut lang = Language::Unknown;
for i in 0..args.len() {
if args[i] == "--lang" && i + 1 < args.len() {
match args[i + 1].as_str() {
"dsa" => lang = Language::Dsa,
"dsc" => lang = Language::Dsc,
_ => {
eprintln!("Error: Invalid language argument");
std::process::exit(1);
}
}
}
}
lang
}
}
impl fmt::Display for Language {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::Unknown => write!(f, "Unknown"),
Self::Dsa => write!(f, "Dsa"),
Self::Dsc => write!(f, "Dsc"),
}
}
}
pub fn project_name(args: &[String]) -> Option<&str> {
for i in 0..args.len() {
if args[i] == "--name" && i + 1 < args.len() {
return Some(&args[i + 1]);
}
}
None
}
dsx/dsx/src/repo.rs
+145
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@@ -0,0 +1,145 @@
use dsx_common::config::DsxConfig;
use flate2::read::GzDecoder;
use flate2::{Compression, write::GzEncoder};
use reqwest::Url;
use std::fs::{self, File};
use std::path::Path;
use tar::Builder;
pub fn push(repo_dir: &Path) -> Result<(), DsxError> {
let config_file = fs::read_to_string(repo_dir.join("Dsx.toml"))?;
let config: DsxConfig = toml::from_str(&config_file).expect("Failed to parse config");
let mut repo_url =
Url::parse(&config.remote_url.expect(
"Repository URL is not set in Dsx.toml, set it with the key 'remote'",
))
.unwrap();
repo_url.path_segments_mut().unwrap().push("push");
let client = reqwest::blocking::Client::new();
let response = client
.post(repo_url)
.body(pack_tarball(repo_dir)?)
.header("Content-Type", "application/octet-stream")
.send()
.map_err(|e| {
DsxError::with_context(
format!("failed to stream to client: {}", e),
ErrorType::IoError,
)
})?;
if response.status().is_success() {
Ok(())
} else {
Err(DsxError::with_context(
response.text().unwrap(),
ErrorType::IoError,
))
}
}
pub fn pull(repo_dir: &Path) -> Result<(), DsxError> {
let config_file = fs::read_to_string(repo_dir.join("Dsx.toml"))?;
let config: DsxConfig = toml::from_str(&config_file).expect("Failed to parse config");
let repo_url =
Url::parse(&config.remote_url.expect(
"Repository URL is not set in Dsx.toml, set it with the key 'remote'",
))
.unwrap();
clone(repo_dir, &repo_url)
}
pub fn clone(repo_dir: &Path, url: &Url) -> Result<(), DsxError> {
let mut url = url.clone();
url.path_segments_mut().unwrap().push("pull");
let client = reqwest::blocking::Client::new();
let response = client.get(url).send().map_err(|e| {
DsxError::with_context(
format!("failed to stream from client: {e}"),
ErrorType::IoError,
)
})?;
if !response.status().is_success() {
return Err(DsxError::with_context(
response.text().unwrap(),
ErrorType::IoError,
));
}
let tmp_file = std::env::temp_dir().join("dsx-pull.tar.gz");
std::fs::write(&tmp_file, response.bytes().unwrap())
.map_err(|e| DsxError::with_context(e.to_string(), ErrorType::IoError))?;
unpack_tarball(&tmp_file, repo_dir)?;
fs::remove_file(tmp_file)?;
Ok(())
}
fn unpack_tarball(
archive: &std::path::Path,
dest: &std::path::Path,
) -> Result<(), DsxError> {
let file = File::open(archive)
.map_err(|e| DsxError::with_context(e.to_string(), ErrorType::IoError))?;
fs::create_dir_all(dest)?;
let gz = GzDecoder::new(file);
let mut tar = tar::Archive::new(gz);
tar.unpack(dest)
.map_err(|e| DsxError::with_context(e.to_string(), ErrorType::TarError))?;
Ok(())
}
fn pack_tarball(src_dir: &std::path::Path) -> Result<Vec<u8>, DsxError> {
let buf = Vec::new();
let gz = GzEncoder::new(buf, Compression::default());
let mut tar = Builder::new(gz);
tar.append_dir_all(".", src_dir)?;
let gz = tar.into_inner()?;
Ok(gz.finish()?)
}
#[derive(Debug)]
pub struct DsxError {
pub message: String,
pub r#type: ErrorType,
}
impl DsxError {
pub fn new(message: impl AsRef<str>) -> Self {
DsxError {
message: message.as_ref().to_string(),
r#type: ErrorType::Generic,
}
}
pub fn with_context(message: impl AsRef<str>, r#type: ErrorType) -> Self {
DsxError {
message: message.as_ref().to_string(),
r#type,
}
}
}
impl From<std::io::Error> for DsxError {
fn from(err: std::io::Error) -> Self {
Self::with_context(err.to_string(), ErrorType::IoError)
}
}
#[derive(Default, Debug)]
pub enum ErrorType {
BuildFailed,
IoError,
#[default]
Generic,
TarError,
}
dsx/dsx/src/templates.rs
+142
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@@ -0,0 +1,142 @@
use std::path::PathBuf;
pub trait Template {
fn lib(project: &str) -> String;
fn bin(project: &str) -> String;
fn create(project: &str, lib: bool) -> String {
if lib {
Self::lib(project)
} else {
Self::bin(project)
}
}
}
pub struct Dsa;
pub struct Dsc;
impl Template for Dsa {
fn lib(project: &str) -> String {
format!(
r#"//
lib.dsa
// usage:
//
// include {project} "<relative path>"
//
// usage for {project}_main:
// push (arg1)
// push (arg0)
// call {project}::{project}_main
// pop (arg0)
// pop (arg1)
// Example data declarations
// dw example_data: 0x0000
// Main function template
{project}_main:
// the correct way to start a function as defined by the calling convention
push bpr
mov spr, bpr
// explanation of how to access args
ldw bpr, rg0, 8 // arg 0
ldw bpr, rg0, 12 // arg 1
// your code goes here
// Example: load example_data into rg1
// ldw example_data, rg1
// the correct way to end a function as defined by the calling convention
mov bpr, spr
pop bpr
return
"#,
)
}
fn bin(project: &str) -> String {
format!(
r#"
// GENERATED BY DSX-BUILD
// Generated at: {timestamp}
// Project name: {project}
// Imports
include print: "./lib/print.dsa"
// Globals & Reserved Memory
dw stack: 0x10000
db message: "Process Exited with code:"
// Entry Point
_init:
ldw stack, bpr
mov bpr, spr
push zero
call main
call print::print_newline
lwi message, rg0
push rg0
call print::print
pop zero
call print::print_hex_word
pop zero
hlt
main:
push bpr
mov spr, bpr
// Your code goes here
// Return zero
stw zero, bpr, 8
mov bpr, spr
pop bpr
return"#,
timestamp = chrono::Utc::now().format("%Y-%m-%d %H:%M:%S")
)
}
}
impl Template for Dsc {
fn lib(project: &str) -> String {
format!(
r#"
// GENERATED BY DSX-BUILD
// Generated at: {timestamp}
// Project name: {project}
// Imports
include print: "./lib/print.dsa";
// Main Function
fn {project}_main() -> u32 {{
return 0;
}}"#,
timestamp = chrono::Utc::now().format("%Y-%m-%d %H:%M:%S")
)
}
fn bin(project: &str) -> String {
format!(
r#"
// GENERATED BY DSX-BUILD
// Generated at: {timestamp}
// Project name: {project}
// Imports
include print: "./lib/print.dsa";
// Main Function
fn main() -> u32 {{
return 0;
}}"#,
timestamp = chrono::Utc::now().format("%Y-%m-%d %H:%M:%S")
)
}
}
dsx/dsx/templates/dsa/maths.dsa
+104
View File
@@ -0,0 +1,104 @@
// multiply.dsa
// usage:
//
// include multiply "<relative path>"
//
// usage for multiply:
// push (arg1)
// push (arg0)
// call multiply::multiply
// pop (arg0)
// pop (arg1)
multiply:
push bpr
mov spr, bpr
ldw bpr, rg0, 8 // load op 2
ldw bpr, rg1, 12 // load op 1
lwi 0, rg2 // initialise rg2 to zero
_multiply_loop:
add rg2, rg0, rg2
dec rg1
cmp rg1, zero
jgt _multiply_loop
_multiply_end:
stw rg2, bpr, 8
mov bpr, spr
pop bpr
return
divmod:
push bpr
mov spr, bpr
ldw bpr, rg1, 8 // load op 2
ldw bpr, rg0, 12 // load op 1
lli 0, rg3
_divmod_loop:
cmp rg0, rg1
jlt _divmod_end
sub rg0, rg1, rg0
inc rg3
jmp _divmod_loop
_divmod_end:
// store div in first arg
// store mod in second arg
stw rg3, bpr, 8
stw rg0, bpr, 12
mov bpr, spr
pop bpr
return
// multiply.dsa - improved version
// Multiplies two 32-bit numbers using shift-and-add
//
// Usage:
// push operand2 (multiplier)
// push operand1 (multiplicand)
// call multiply::multiply
// pop result
// pop zero (discard second argument)
new_multiply:
push bpr
mov spr, bpr
ldw bpr, rg0, 8 // rg0 = multiplicand
ldw bpr, rg1, 12 // rg1 = multiplier
lli 0, rg2 // rg2 = result (accumulator)
lli 32, rg3 // rg3 = bit counter
mult_loop:
// Check if lowest bit of multiplier is 1
lli 1, acc
and rg1, acc, acc // acc = rg1 & 1
cmp acc, zero
jeq skip_add // if (rg1 & 1) == 0, skip addition
// Add multiplicand to result
add rg2, rg0, rg2
skip_add:
shl rg0, 1 // shift multiplicand left
shr rg1, 1 // shift multiplier right
dec rg3
cmp rg3, zero
jgt mult_loop
stw rg2, bpr, 8 // store result
mov bpr, spr
pop bpr
return
dsx/dsx/templates/dsa/print.dsa
+331
View File
@@ -0,0 +1,331 @@
// lib:
// print.dsa
// usage:
//
// include print "<relative path>""
//
// usage for print:
// push (register containing address of string)
// push pcx
// jmp print::print
//
// usage for reset:
// push pcx
// jmp print::reset
//
// usage for clear:
// push pcx
// jmp print::clear
//
// usage for print_byte:
// push (register containing byte)
// push pcx
// jmp print::print_byte
//
// usage for print_word:
// push (register containing word)
// push pcx
// jmp print::print_word
//
// usage for print_num:
// push (register containing number to print in decimal)
// push pcx
// jmp print::print_num
//
include maths "./maths.dsa"
dw display: 0x20000
dw current: 0x20000
// ------------------------------------------
// prints the string at addr(arg[0]) to the screen. (no trailing whitespace unless explicitly provided)
print:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
ldw current, rg1
_print_loop:
ldb rg0, acc
cmp acc, zero
jeq _end
stb acc, rg1
addi rg0, 1
addi rg1, 1
jmp _print_loop
// ------------------------------------------
println:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
ldw current, rg1
_println_loop:
ldb rg0, acc
cmp acc, zero
jeq _println_end
stb acc, rg1
addi rg0, 1
addi rg1, 1
jmp _println_loop
_println_end:
call print_newline
jmp _end
// ------------------------------------------
// prints the value of arg[0] to the screen.
print_word:
// initialise
push bpr
mov spr, bpr
// load byte into acc
ldw bpr, rg0, 8
ldw current, rg1
addi rg1, 3
stb rg0, rg1
subi rg1, 1
shr rg0, 8
stb rg0, rg1
subi rg1, 1
shr rg0, 8
stb rg0, rg1
subi rg1, 1
shr rg0, 8
stb rg0, rg1
addi rg1, 4
jmp _end
// ------------------------------------------
// prints the last byte of arg[0] to the screen.
print_byte:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
ldw current, rg1
stb rg0, rg1
addi rg1, 1
jmp _end
// ------------------------------------------
// prints the value of arg[0] to the screen in hex.
print_hex_word:
push bpr
mov spr, bpr
ldw current, rg1
ldb bpr, rg0, 8
push rg0
call _print_hex_byte
addi spr, 4
ldb bpr, rg0, 9
push rg0
call _print_hex_byte
addi spr, 4
ldb bpr, rg0, 10
push rg0
call _print_hex_byte
addi spr, 4
ldb bpr, rg0, 11
push rg0
call _print_hex_byte
addi spr, 4
jmp _end
// ------------------------------------------
// prints the last byte of arg[0] to the screen in hex.
print_hex_byte:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
ldw current, rg1
call _print_hex_byte
jmp _end
// function body
_print_hex_byte:
// mask to get lower nibble
lli 0xF, rg2
// save rg0 state
push rg0
shr rg0, 4
and rg0, rg2, rg0
call _print_hex_nibble
pop rg0
and rg0, rg2, rg0
call _print_hex_nibble
return
// print a hex digit
_print_hex_nibble:
lli 10, rg3
cmp rg0, rg3
jlt _print_hex_nibble_number
addi rg0, 0x37, rg0
stb rg0, rg1
addi rg1, 1
return
// helper function.
_print_hex_nibble_number:
addi rg0, 0x30, rg0
stb rg0, rg1
addi rg1, 1
return
// ------------------------------------------
// print whitespace
print_whitespace:
push bpr
mov spr, bpr
ldw current, rg1
lli 0x20, rg0
stb rg0, rg1
addi rg1, 1
jmp _end
// ------------------------------------------
// print newline
print_newline:
push bpr
mov spr, bpr
// load variables into registers
ldw display, rg0
ldw current, rg1
// get the offset from the display base
sub rg1, rg0, rg0
lwi 80, rg2
pusha 3
push rg0
push rg2
call maths::divmod
pop zero // result
pop rg3 // remainder
popa 3
sub rg1, rg3, rg2
addi rg2, 80, rg1
// _end saves the display state
jmp _end
// ------------------------------------------
// prints arg[0] as a decimal number to the screen.
print_num:
push bpr
mov spr, bpr
ldw bpr, rg0, 8 // load number to print
lli 0, rg5 // rg5 = digit counter
// check if number is zero
cmp rg0, zero
jne _print_num_extract_digits
// special case: print '0' for zero
lli 0x30, rg6
push rg6 // push digit to stack buffer
lli 1, rg5 // we have 1 digit
jmp _print_num_output
_print_num_extract_digits:
// divide by 10 repeatedly to get digits
cmp rg0, zero
jeq _print_num_output
// call divmod(rg0, 10)
push rg0 // dividend
lli 10, rg1
push rg1 // divisor (10)
call maths::divmod
pop rg0 // quotient (continue dividing this)
pop rg1 // remainder (the digit)
// convert digit to ASCII and push to stack buffer
addi rg1, 0x30, rg6 // convert to ASCII
push rg6 // push digit to stack
inc rg5 // increment digit counter
jmp _print_num_extract_digits
_print_num_output:
// now print digits (pop them off in reverse order)
ldw current, rg1 // get display pointer
_print_num_output_loop:
// check if we've printed all digits
cmp rg5, zero
jeq _print_num_done
// pop digit and print it
pop rg6
stb rg6, rg1
addi rg1, 1
dec rg5
jmp _print_num_output_loop
_print_num_done:
jmp _end
// ------------------------------------------
// resets the cursor position on the screen to 0x20000. (0,0)
reset:
push bpr
mov spr, bpr
ldw display, rg1
jmp _end
// ------------------------------------------
// clears the screen
clear:
push bpr
mov spr, bpr
// display size = 2000 bytes / 500 words
lli 500 rg0
ldw display, rg1
_clear_loop:
dec rg0
stw zero, rg1
addi rg1, 4
cmp rg0, zero
jgt _clear_loop
jmp _end
// ------------------------------------------
// return
_end:
stw rg1, current
mov bpr, spr
pop bpr
return
dsx/dsx/templates/dsa/serial.dsa
+244
View File
@@ -0,0 +1,244 @@
// lib:
// print_serial.dsa
// usage:
//
// include print_serial "<relative path>"
//
// usage for print:
// push (register containing address of string)
// push pcx
// jmp print_serial::print
//
// usage for print_byte:
// push (register containing byte)
// push pcx
// jmp print_serial::print_byte
//
// usage for print_word:
// push (register containing word)
// push pcx
// jmp print_serial::print_word
//
// usage for print_hex_byte:
// push (register containing byte)
// push pcx
// jmp print_serial::print_hex_byte
//
// usage for print_hex_word:
// push (register containing word)
// push pcx
// jmp print_serial::print_hex_word
//
// usage for print_num:
// push (register containing number to print in decimal)
// push pcx
// jmp print_serial::print_num
//
// usage for println:
// push (register containing address of string)
// push pcx
// jmp print_serial::println
//
include maths "../maths.dsa"
dw serial: 0x207D0 // 0x20000 + 2000
// ------------------------------------------
// prints the string at addr(arg[0]) to the serial port.
print:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
lwi 0x207D0, rg1
_print_loop:
ldb rg0, acc
cmp acc, zero
jeq _end
stb acc, rg1
addi rg0, 1
jmp _print_loop
// ------------------------------------------
// prints the string at addr(arg[0]) followed by a newline to the serial port.
println:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
lwi 0x207D0, rg1
_println_loop:
ldb rg0, acc
cmp acc, zero
jeq _println_end
stb acc, rg1
addi rg0, 1
jmp _println_loop
_println_end:
lli 0x0A, rg2 // newline character
stb rg2, rg1
jmp _end
// ------------------------------------------
// prints the word in arg[0] as 4 raw bytes to the serial port.
print_word:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
lwi 0x207D0, rg1
stb rg0, rg1
shr rg0, 8
stb rg0, rg1
shr rg0, 8
stb rg0, rg1
shr rg0, 8
stb rg0, rg1
jmp _end
// ------------------------------------------
// prints the last byte of arg[0] to the serial port.
print_byte:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
lwi 0x207D0, rg1
stb rg0, rg1
jmp _end
// ------------------------------------------
// prints the value of arg[0] to the serial port in hex.
print_hex_word:
push bpr
mov spr, bpr
lwi 0x207D0, rg1
ldb bpr, rg0, 8
push rg0
call _print_hex_byte
addi spr, 4
ldb bpr, rg0, 9
push rg0
call _print_hex_byte
addi spr, 4
ldb bpr, rg0, 10
push rg0
call _print_hex_byte
addi spr, 4
ldb bpr, rg0, 11
push rg0
call _print_hex_byte
addi spr, 4
jmp _end
// ------------------------------------------
// prints the last byte of arg[0] to the serial port in hex.
print_hex_byte:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
lwi 0x207D0, rg1
call _print_hex_byte
jmp _end
// function body
_print_hex_byte:
lli 0xF, rg2
push rg0
shr rg0, 4
and rg0, rg2, rg0
call _print_hex_nibble
pop rg0
and rg0, rg2, rg0
call _print_hex_nibble
return
// print a hex digit
_print_hex_nibble:
lli 10, rg3
cmp rg0, rg3
jlt _print_hex_nibble_number
addi rg0, 0x37, rg0
stb rg0, rg1
return
_print_hex_nibble_number:
addi rg0, 0x30, rg0
stb rg0, rg1
return
// ------------------------------------------
// prints arg[0] as a decimal number to the serial port.
print_num:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
lli 0, rg5
cmp rg0, zero
jne _print_num_extract_digits
lli 0x30, rg6
push rg6
lli 1, rg5
jmp _print_num_output
_print_num_extract_digits:
cmp rg0, zero
jeq _print_num_output
push rg0
lli 10, rg1
push rg1
call maths::divmod
pop rg0
pop rg1
addi rg1, 0x30, rg6
push rg6
inc rg5
jmp _print_num_extract_digits
_print_num_output:
lwi 0x207D0, rg1
_print_num_output_loop:
cmp rg5, zero
jeq _print_num_done
pop rg6
stb rg6, rg1
dec rg5
jmp _print_num_output_loop
_print_num_done:
jmp _end
// ------------------------------------------
// return
_end:
mov bpr, spr
pop bpr
return
dsx/dsx_common/Cargo.toml
+15
View File
@@ -0,0 +1,15 @@
[package]
name = "dsx_common"
version.workspace = true
edition.workspace = true
authors.workspace = true
[dependencies]
compiler = { path = "../../core/compiler" }
assembler = { path = "../../core/assembler" }
common = { path = "../../core/dsa_common" }
chrono = "0.4.44"
serde = { version = "1.0.228", features = ["derive"] }
toml = "1.0.3"
walkdir = "2.5.0"
dsx/dsx_common/src/builder.rs
+168
View File
@@ -0,0 +1,168 @@
use std::{
env, fs, io,
path::{Path, PathBuf},
process::Command,
};
use crate::config::DsxConfig;
use assembler::prelude::Assembler;
use common::build::{BuildError, Builder};
use compiler::Compiler;
pub struct BuildContext {
pub project_dir: PathBuf,
pub build_dir: PathBuf,
pub artifact_dir: PathBuf,
}
// ---------- build ----------------------------------------------------------
pub fn build_project(ctx: BuildContext) -> Result<(), BuildError> {
// variables
let binary_path = ctx.artifact_dir.join("out.dsb");
let main_path = ctx.build_dir.join("main.dsa");
let config_path = ctx.project_dir.join("Dsx.toml");
let src_dir = ctx.project_dir.join("src");
let config: DsxConfig =
toml::from_str(&fs::read_to_string(&config_path)?).map_err(|deser_err| {
io::Error::new(io::ErrorKind::InvalidData, deser_err.to_string())
})?;
if !src_dir.exists() {
return Err(BuildError::Generic(String::from(
"Source Directory does not exist",
)));
}
// make sure there's a main file to assemble later.
if !main_exists(&src_dir)? {
return Err(BuildError::Generic(String::from(
"No main.dsa or main.dsc file found in top level of src directory.",
)));
}
// detect src.
let (has_dsa, has_dsc) = detect_source_language(&src_dir);
// create a build dir and copy all files across
fs::create_dir_all(&ctx.build_dir)?;
copy_recursively(&src_dir, &ctx.build_dir)?;
if has_dsc {
build_all_dsc(&ctx.build_dir)?;
}
// Replace .dsc with .dsa only in include statements, recursively for each file.
let status = Command::new("bash").args([
"-c",
&format!(
"find \"{}\" -type f -name '*.dsa' -exec sed -i '/^include/ s/\\.dsc/.dsa/g' {{}} +",
ctx.build_dir.display()
),
]).status()?;
if !status.success() {
return Err(BuildError::IoError(String::from(
"Failed to execute build command command",
)));
}
// assemble result
{
fs::create_dir_all(&ctx.artifact_dir)?;
let mut asm = Assembler::new(&main_path);
asm.start(());
asm.write_result(&binary_path)?;
}
println!("Build finished. Binary at {}", binary_path.display());
Ok(())
}
// ----- Helpers -------------------------------
struct BuildStep;
impl BuildStep {
pub fn compiling(path: &Path) {
println!("Compiling {}", path.display());
}
pub fn assembling(path: &Path) {
println!("Assembling {}", path.display());
}
}
/// Checks what source languages are used in the project.
fn detect_source_language(src_dir: &Path) -> (bool, bool) {
let mut contains_dsc = false;
let mut contains_dsa = false;
for entry in walkdir::WalkDir::new(src_dir).into_iter().flatten() {
match entry.path().extension().and_then(|s| s.to_str()) {
Some("dsc") => contains_dsc = true,
Some("dsa") => contains_dsa = true,
_ => {}
}
}
(contains_dsa, contains_dsc)
}
// Checks if either main.dsa or main.dsc exist in the source directory
fn main_exists(src_dir: &Path) -> Result<bool, std::io::Error> {
for entry in fs::read_dir(src_dir).into_iter().flatten() {
match entry?.path().file_name().and_then(|s| s.to_str()) {
Some("main.dsc") => return Ok(true),
Some("main.dsa") => return Ok(true),
_ => {}
}
}
Ok(false)
}
// Copy contents of one directory to another
fn copy_recursively(src: &Path, dst: &Path) -> Result<(), std::io::Error> {
if src.is_file() {
fs::create_dir_all(dst.parent().unwrap())?;
fs::copy(src, dst)?;
return Ok(());
}
if src.is_dir() {
for entry in fs::read_dir(src)? {
let entry = entry?;
let child_src = entry.path();
let child_dst = dst.join(entry.file_name());
copy_recursively(&child_src, &child_dst)?;
}
}
Ok(())
}
fn build_all_dsc(path: &Path) -> Result<(), BuildError> {
if path.is_dir() {
for entry in fs::read_dir(path)? {
let entry = entry?;
build_all_dsc(&entry.path())?;
}
return Ok(());
}
if path.extension().and_then(|s| s.to_str()) == Some("dsc") {
let input_path = path;
let output_path = path.with_extension("dsa");
let is_lib = !(input_path.file_stem().unwrap().to_str().unwrap() == "main");
let mut compiler = Compiler::new(input_path);
compiler.start(is_lib);
compiler.write_result(output_path.clone())?;
}
Ok(())
}
dsx-build/src/templates.rs → dsx/dsx_common/src/common/templates.rs
+4 -4
View File
@@ -140,7 +140,7 @@ fn main() -> u32 {{
}
pub fn create_print_lib() -> String {
format!(
String::from(
r#"
// lib:
// print.dsa
@@ -473,12 +473,12 @@ _end:
mov bpr, spr
pop bpr
return
"#
"#,
)
}
pub fn create_maths_lib() -> String {
format!(
String::from(
r#"
// multiply.dsa
// usage:
@@ -584,6 +584,6 @@ skip_add:
mov bpr, spr
pop bpr
return
"#
"#,
)
}
dsx/dsx_common/src/config.rs
+45
View File
@@ -0,0 +1,45 @@
use serde::{Deserialize, Serialize};
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct DsxConfig {
pub name: String,
#[serde(default)]
pub description: Option<String>,
#[serde(default)]
#[serde(rename = "remote")]
pub remote_url: Option<String>,
#[serde(default)]
pub binaries: Vec<Binary>,
// todo!
// #[serde(default)]
// pub libraries: Vec<Library>,
}
impl DsxConfig {
pub fn new(name: &str) -> Self {
Self {
name: name.to_string(),
description: None,
remote_url: None,
binaries: Vec::new(),
}
}
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct Binary {
pub name: String,
pub path: String,
}
impl Binary {
pub fn new(name: &str, path: &str) -> Self {
Self {
name: name.to_string(),
path: path.to_string(),
}
}
}
dsx/dsx_common/src/lib.rs
+2
View File
@@ -0,0 +1,2 @@
pub mod builder;
pub mod config;
dsx/dsx_repo_data/repos/test/Package.toml
+4
View File
@@ -0,0 +1,4 @@
id = "test"
latest_build_date = "2026-02-25 14:39:49"
latest_build_status = "success"
latest_build_id = "test"
dsx/dsx_repo_data/repos/test/repo/Dsx.toml
+3
View File
@@ -0,0 +1,3 @@
name = "test"
binaries = []
remote = "http://localhost:8000/api/pkg/test"
dsx/dsx_repo_data/repos/test/repo/src/lib/arena_alloc.dsc
+77
View File
@@ -0,0 +1,77 @@
// Arena Allocator
// Supports multiple arenas that can be destroyed independently
// Much more practical than a simple bump allocator
// Global heap management
static heap_start: u32 = 0x30000;
static heap_end: u32 = 0x40000;
static heap_current: u32 = 0x30000;
// Arena structure (stored at the start of each arena):
// [0-3]: start_address (u32)
// [4-7]: current_position (u32)
// [8-11]: end_address (u32)
// Total header size: 12 bytes
// Create a new arena with given size
// Returns pointer to arena handle (or 0 if failed)
fn new(size: u32) -> u32 {
let total_size: u32 = size + 12;
let arena_ptr: u32 = heap_current;
let new_current: u32 = arena_ptr + total_size;
// Check if we have space
if new_current > heap_end {
return 0;
}
// Calculate arena data region
let data_start: u32 = arena_ptr + 12;
let data_end: u32 = arena_ptr + total_size;
// Initialize arena header
// Note: In real implementation, you'd use pointer writes here
// For now, using placeholder comments:
*arena_ptr = data_start; // start_address
*(arena_ptr + 4) = data_start; // current_position
*(arena_ptr + 8) = data_end; // end_address
heap_current = new_current;
return arena_ptr;
}
// Allocate from an arena
// Returns pointer to allocated memory (or 0 if failed)
fn alloc(arena: u32, size: u32) -> u32 {
// Read current position from arena
let current: u32 = *(arena + 4);
let end: u32 = *(arena + 8);
let new_current: u32 = current + size;
// Check if arena has space
if new_current > end {
return 0;
}
// Update current position in arena
*(arena + 4) = new_current;
return current;
}
// Destroy an arena (in bump allocator, this is a no-op)
// In a real allocator, you'd mark the memory as free
fn destroy(arena: u32) {
// In a true allocator, mark memory as reusable
// For bump allocator, we can't reclaim memory
// unless we destroy ALL arenas and reset
return 0;
}
// Reset entire heap (destroys ALL arenas)
fn reset_all() {
heap_current = heap_start;
return 0;
}
dsx/dsx_repo_data/repos/test/repo/src/lib/maths.dsa
+104
View File
@@ -0,0 +1,104 @@
// multiply.dsa
// usage:
//
// include multiply "<relative path>"
//
// usage for multiply:
// push (arg1)
// push (arg0)
// call multiply::multiply
// pop (arg0)
// pop (arg1)
multiply:
push bpr
mov spr, bpr
ldw bpr, rg0, 8 // load op 2
ldw bpr, rg1, 12 // load op 1
lwi 0, rg2 // initialise rg2 to zero
_multiply_loop:
add rg2, rg0, rg2
dec rg1
cmp rg1, zero
jgt _multiply_loop
_multiply_end:
stw rg2, bpr, 8
mov bpr, spr
pop bpr
return
divmod:
push bpr
mov spr, bpr
ldw bpr, rg1, 8 // load op 2
ldw bpr, rg0, 12 // load op 1
lli 0, rg3
_divmod_loop:
cmp rg0, rg1
jlt _divmod_end
sub rg0, rg1, rg0
inc rg3
jmp _divmod_loop
_divmod_end:
// store div in first arg
// store mod in second arg
stw rg3, bpr, 8
stw rg0, bpr, 12
mov bpr, spr
pop bpr
return
// multiply.dsa - improved version
// Multiplies two 32-bit numbers using shift-and-add
//
// Usage:
// push operand2 (multiplier)
// push operand1 (multiplicand)
// call multiply::multiply
// pop result
// pop zero (discard second argument)
new_multiply:
push bpr
mov spr, bpr
ldw bpr, rg0, 8 // rg0 = multiplicand
ldw bpr, rg1, 12 // rg1 = multiplier
lli 0, rg2 // rg2 = result (accumulator)
lli 32, rg3 // rg3 = bit counter
mult_loop:
// Check if lowest bit of multiplier is 1
lli 1, acc
and rg1, acc, acc // acc = rg1 & 1
cmp acc, zero
jeq skip_add // if (rg1 & 1) == 0, skip addition
// Add multiplicand to result
add rg2, rg0, rg2
skip_add:
shl rg0, 1 // shift multiplicand left
shr rg1, 1 // shift multiplier right
dec rg3
cmp rg3, zero
jgt mult_loop
stw rg2, bpr, 8 // store result
mov bpr, spr
pop bpr
return
dsx/dsx_repo_data/repos/test/repo/src/lib/print.dsa
+331
View File
@@ -0,0 +1,331 @@
// lib:
// print.dsa
// usage:
//
// include print "<relative path>""
//
// usage for print:
// push (register containing address of string)
// push pcx
// jmp print::print
//
// usage for reset:
// push pcx
// jmp print::reset
//
// usage for clear:
// push pcx
// jmp print::clear
//
// usage for print_byte:
// push (register containing byte)
// push pcx
// jmp print::print_byte
//
// usage for print_word:
// push (register containing word)
// push pcx
// jmp print::print_word
//
// usage for print_num:
// push (register containing number to print in decimal)
// push pcx
// jmp print::print_num
//
include maths "./maths.dsa"
dw display: 0x20000
dw current: 0x20000
// ------------------------------------------
// prints the string at addr(arg[0]) to the screen. (no trailing whitespace unless explicitly provided)
print:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
ldw current, rg1
_print_loop:
ldb rg0, acc
cmp acc, zero
jeq _end
stb acc, rg1
addi rg0, 1
addi rg1, 1
jmp _print_loop
// ------------------------------------------
println:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
ldw current, rg1
_println_loop:
ldb rg0, acc
cmp acc, zero
jeq _println_end
stb acc, rg1
addi rg0, 1
addi rg1, 1
jmp _println_loop
_println_end:
call print_newline
jmp _end
// ------------------------------------------
// prints the value of arg[0] to the screen.
print_word:
// initialise
push bpr
mov spr, bpr
// load byte into acc
ldw bpr, rg0, 8
ldw current, rg1
addi rg1, 3
stb rg0, rg1
subi rg1, 1
shr rg0, 8
stb rg0, rg1
subi rg1, 1
shr rg0, 8
stb rg0, rg1
subi rg1, 1
shr rg0, 8
stb rg0, rg1
addi rg1, 4
jmp _end
// ------------------------------------------
// prints the last byte of arg[0] to the screen.
print_byte:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
ldw current, rg1
stb rg0, rg1
addi rg1, 1
jmp _end
// ------------------------------------------
// prints the value of arg[0] to the screen in hex.
print_hex_word:
push bpr
mov spr, bpr
ldw current, rg1
ldb bpr, rg0, 8
push rg0
call _print_hex_byte
addi spr, 4
ldb bpr, rg0, 9
push rg0
call _print_hex_byte
addi spr, 4
ldb bpr, rg0, 10
push rg0
call _print_hex_byte
addi spr, 4
ldb bpr, rg0, 11
push rg0
call _print_hex_byte
addi spr, 4
jmp _end
// ------------------------------------------
// prints the last byte of arg[0] to the screen in hex.
print_hex_byte:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
ldw current, rg1
call _print_hex_byte
jmp _end
// function body
_print_hex_byte:
// mask to get lower nibble
lli 0xF, rg2
// save rg0 state
push rg0
shr rg0, 4
and rg0, rg2, rg0
call _print_hex_nibble
pop rg0
and rg0, rg2, rg0
call _print_hex_nibble
return
// print a hex digit
_print_hex_nibble:
lli 10, rg3
cmp rg0, rg3
jlt _print_hex_nibble_number
addi rg0, 0x37, rg0
stb rg0, rg1
addi rg1, 1
return
// helper function.
_print_hex_nibble_number:
addi rg0, 0x30, rg0
stb rg0, rg1
addi rg1, 1
return
// ------------------------------------------
// print whitespace
print_whitespace:
push bpr
mov spr, bpr
ldw current, rg1
lli 0x20, rg0
stb rg0, rg1
addi rg1, 1
jmp _end
// ------------------------------------------
// print newline
print_newline:
push bpr
mov spr, bpr
// load variables into registers
ldw display, rg0
ldw current, rg1
// get the offset from the display base
sub rg1, rg0, rg0
lwi 80, rg2
pusha 3
push rg0
push rg2
call maths::divmod
pop zero // result
pop rg3 // remainder
popa 3
sub rg1, rg3, rg2
addi rg2, 80, rg1
// _end saves the display state
jmp _end
// ------------------------------------------
// prints arg[0] as a decimal number to the screen.
print_num:
push bpr
mov spr, bpr
ldw bpr, rg0, 8 // load number to print
lli 0, rg5 // rg5 = digit counter
// check if number is zero
cmp rg0, zero
jne _print_num_extract_digits
// special case: print '0' for zero
lli 0x30, rg6
push rg6 // push digit to stack buffer
lli 1, rg5 // we have 1 digit
jmp _print_num_output
_print_num_extract_digits:
// divide by 10 repeatedly to get digits
cmp rg0, zero
jeq _print_num_output
// call divmod(rg0, 10)
push rg0 // dividend
lli 10, rg1
push rg1 // divisor (10)
call maths::divmod
pop rg0 // quotient (continue dividing this)
pop rg1 // remainder (the digit)
// convert digit to ASCII and push to stack buffer
addi rg1, 0x30, rg6 // convert to ASCII
push rg6 // push digit to stack
inc rg5 // increment digit counter
jmp _print_num_extract_digits
_print_num_output:
// now print digits (pop them off in reverse order)
ldw current, rg1 // get display pointer
_print_num_output_loop:
// check if we've printed all digits
cmp rg5, zero
jeq _print_num_done
// pop digit and print it
pop rg6
stb rg6, rg1
addi rg1, 1
dec rg5
jmp _print_num_output_loop
_print_num_done:
jmp _end
// ------------------------------------------
// resets the cursor position on the screen to 0x20000. (0,0)
reset:
push bpr
mov spr, bpr
ldw display, rg1
jmp _end
// ------------------------------------------
// clears the screen
clear:
push bpr
mov spr, bpr
// display size = 2000 bytes / 500 words
lli 500 rg0
ldw display, rg1
_clear_loop:
dec rg0
stw zero, rg1
addi rg1, 4
cmp rg0, zero
jgt _clear_loop
jmp _end
// ------------------------------------------
// return
_end:
stw rg1, current
mov bpr, spr
pop bpr
return
dsx/dsx_repo_data/repos/test/repo/src/lib/serial.dsa
+274
View File
@@ -0,0 +1,274 @@
// lib:
// print_serial.dsa
// usage:
//
// include print_serial "<relative path>"
//
// usage for print:
// push (register containing address of string)
// push pcx
// jmp print_serial::print
//
// usage for print_byte:
// push (register containing byte)
// push pcx
// jmp print_serial::print_byte
//
// usage for print_word:
// push (register containing word)
// push pcx
// jmp print_serial::print_word
//
// usage for print_hex_byte:
// push (register containing byte)
// push pcx
// jmp print_serial::print_hex_byte
//
// usage for print_hex_word:
// push (register containing word)
// push pcx
// jmp print_serial::print_hex_word
//
// usage for print_whitespace:
// push pcx
// jmp print_serial::print_whitespace
//
// usage for print_newline:
// push pcx
// jmp print_serial::print_newline
//
// usage for print_num:
// push (register containing number to print in decimal)
// push pcx
// jmp print_serial::print_num
//
// usage for println:
// push (register containing address of string)
// push pcx
// jmp print_serial::println
//
include maths "./maths.dsa"
dw serial: 0x207D0 // 0x20000 + 2000
// ------------------------------------------
// prints the string at addr(arg[0]) to the serial port.
print:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
lwi 0x207D0, rg1
_print_loop:
ldb rg0, acc
cmp acc, zero
jeq _end
stb acc, rg1
addi rg0, 1
jmp _print_loop
// ------------------------------------------
// prints the string at addr(arg[0]) followed by a newline to the serial port.
println:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
lwi 0x207D0, rg1
_println_loop:
ldb rg0, acc
cmp acc, zero
jeq _println_end
stb acc, rg1
addi rg0, 1
jmp _println_loop
_println_end:
lli 0x0A, rg2 // newline character
stb rg2, rg1
jmp _end
// ------------------------------------------
// prints the word in arg[0] as 4 raw bytes to the serial port.
print_word:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
lwi 0x207D0, rg1
stb rg0, rg1
shr rg0, 8
stb rg0, rg1
shr rg0, 8
stb rg0, rg1
shr rg0, 8
stb rg0, rg1
jmp _end
// ------------------------------------------
// prints the last byte of arg[0] to the serial port.
print_byte:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
lwi 0x207D0, rg1
stb rg0, rg1
jmp _end
// ------------------------------------------
// prints the value of arg[0] to the serial port in hex.
print_hex_word:
push bpr
mov spr, bpr
lwi 0x207D0, rg1
ldb bpr, rg0, 8
push rg0
call _print_hex_byte
addi spr, 4
ldb bpr, rg0, 9
push rg0
call _print_hex_byte
addi spr, 4
ldb bpr, rg0, 10
push rg0
call _print_hex_byte
addi spr, 4
ldb bpr, rg0, 11
push rg0
call _print_hex_byte
addi spr, 4
jmp _end
// ------------------------------------------
// prints the last byte of arg[0] to the serial port in hex.
print_hex_byte:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
lwi 0x207D0, rg1
call _print_hex_byte
jmp _end
// function body
_print_hex_byte:
lli 0xF, rg2
push rg0
shr rg0, 4
and rg0, rg2, rg0
call _print_hex_nibble
pop rg0
and rg0, rg2, rg0
call _print_hex_nibble
return
// print a hex digit
_print_hex_nibble:
lli 10, rg3
cmp rg0, rg3
jlt _print_hex_nibble_number
addi rg0, 0x37, rg0
stb rg0, rg1
return
_print_hex_nibble_number:
addi rg0, 0x30, rg0
stb rg0, rg1
return
// print a single space
print_whitespace:
push bpr
mov spr, bpr
lli 0x20, rg0
ldw serial, rg1
stb rg0, rg1
jmp _end
// print a single space
print_newline:
push bpr
mov spr, bpr
lli 0x0A, rg0
ldw serial, rg1
stb rg0, rg1
jmp _end
// ------------------------------------------
// prints arg[0] as a decimal number to the serial port.
print_num:
push bpr
mov spr, bpr
ldw bpr, rg0, 8
lli 0, rg5
cmp rg0, zero
jne _print_num_extract_digits
lli 0x30, rg6
push rg6
lli 1, rg5
jmp _print_num_output
_print_num_extract_digits:
cmp rg0, zero
jeq _print_num_output
push rg0
lli 10, rg1
push rg1
call maths::divmod
pop rg0
pop rg1
addi rg1, 0x30, rg6
push rg6
inc rg5
jmp _print_num_extract_digits
_print_num_output:
lwi 0x207D0, rg1
_print_num_output_loop:
cmp rg5, zero
jeq _print_num_done
pop rg6
stb rg6, rg1
dec rg5
jmp _print_num_output_loop
_print_num_done:
jmp _end
// ------------------------------------------
// return
_end:
mov bpr, spr
pop bpr
return
dsx/dsx_repo_data/repos/test/repo/src/main.dsc
+30
View File
@@ -0,0 +1,30 @@
include serial: "./lib/serial.dsa";
include print: "./lib/print.dsa";
include arena: "./lib/arena_alloc.dsc";
fn main() {
let x: u32 = 0;
let y: u32 = &x;
let alloc: u32 = arena::new(512);
let ptr1: u32 = arena::alloc(alloc, 32);
let ptr2: u32 = arena::alloc(alloc, 32);
serial::print_hex_word(alloc);
serial::print_newline();
serial::print_hex_word(ptr1);
serial::print_newline();
serial::print_hex_word(ptr2);
serial::print_newline();
serial::print_num(*ptr2);
serial::print_newline();
*ptr2 = 42;
serial::print_hex_word(ptr2);
serial::print_whitespace();
serial::print_num(*ptr2);
serial::print_newline();
serial::println("end");
return 0;
}
dsx/dsx_server/Cargo.toml
+28
View File
@@ -0,0 +1,28 @@
[package]
name = "dsx_server"
version.workspace = true
edition.workspace = true
authors.workspace = true
[[bin]]
name = "dsx-server"
path = "src/main.rs"
[dependencies]
compiler = { path = "../../core/compiler" }
assembler = { path = "../../core/assembler" }
common = { path = "../../core/dsa_common" }
dsx_common = { path = "../dsx_common" }
dotenv = "0.15.0"
rocket = { version = "0.5.1", features = ["json"] }
rocket_dyn_templates = { version = "0.2.0", features = ["tera"] }
serde = { version = "1.0.228", features = ["derive"] }
toml = "1.0.3"
tracing = "0.1.44"
tracing-subscriber = { version = "0.3.22", features = ["env-filter"] }
chrono = "0.4.43"
tar = "0.4.44"
flate2 = "1.1.9"
walkdir = "2.5.0"
tokio = { version = "1.49.0", features = ["rt"] }
dsx/dsx_server/bacon.toml
+106
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@@ -0,0 +1,106 @@
default_job = "check"
env.CARGO_TERM_COLOR = "always"
[jobs.check]
command = ["cargo", "check"]
need_stdout = false
[jobs.check-all]
command = ["cargo", "check", "--all-targets"]
need_stdout = false
# Run clippy on the default target
[jobs.clippy]
command = ["cargo", "clippy"]
need_stdout = false
[jobs.clippy-all]
command = ["cargo", "clippy", "--all-targets"]
need_stdout = false
# Run clippy in pedantic mode
# The 'dismiss' feature may come handy
[jobs.pedantic]
command = [
"cargo", "clippy",
"--",
"-W", "clippy::pedantic",
]
need_stdout = false
# This job lets you run
# - all tests: bacon test
# - a specific test: bacon test -- config::test_default_files
# - the tests of a package: bacon test -- -- -p config
[jobs.test]
command = ["cargo", "test"]
need_stdout = true
[jobs.nextest]
command = [
"cargo", "nextest", "run",
"--hide-progress-bar", "--failure-output", "final"
]
need_stdout = true
analyzer = "nextest"
[jobs.doc]
command = ["cargo", "doc", "--no-deps"]
need_stdout = false
# If the doc compiles, then it opens in your browser and bacon switches
# to the previous job
[jobs.doc-open]
command = ["cargo", "doc", "--no-deps", "--open"]
need_stdout = false
on_success = "back" # so that we don't open the browser at each change
# You can run your application and have the result displayed in bacon,
# if it makes sense for this crate.
[jobs.run]
command = [
"cargo", "run", "--bin", "dsx-server"
# put launch parameters for your program behind a `--` separator
]
need_stdout = true
allow_warnings = true
background = true
# Run your long-running application (eg server) and have the result displayed in bacon.
# For programs that never stop (eg a server), `background` is set to false
# to have the cargo run output immediately displayed instead of waiting for
# program's end.
# 'on_change_strategy' is set to `kill_then_restart` to have your program restart
# on every change (an alternative would be to use the 'F5' key manually in bacon).
# If you often use this job, it makes sense to override the 'r' key by adding
# a binding `r = job:run-long` at the end of this file .
# A custom kill command such as the one suggested below is frequently needed to kill
# long running programs (uncomment it if you need it)
[jobs.run-long]
command = [
"cargo", "run",
# put launch parameters for your program behind a `--` separator
]
need_stdout = true
allow_warnings = true
background = false
on_change_strategy = "kill_then_restart"
# kill = ["pkill", "-TERM", "-P"]
# This parameterized job runs the example of your choice, as soon
# as the code compiles.
# Call it as
# bacon ex -- my-example
[jobs.ex]
command = ["cargo", "run", "--example"]
need_stdout = true
allow_warnings = true
# You may define here keybindings that would be specific to
# a project, for example a shortcut to launch a specific job.
# Shortcuts to internal functions (scrolling, toggling, etc.)
# should go in your personal global prefs.toml file instead.
[keybindings]
# alt-m = "job:my-job"
c = "job:clippy-all" # comment this to have 'c' run clippy on only the default target
p = "job:pedantic"
dsx/dsx_server/doc/endpoints.md
+20
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# Endpoints
let n be the repo name.
## Web view
GET /packages/ # home page listing packages - simple search bar.
GET /packages?q=<query> # search for a package
GET /packages/<name> # main page for a repository, shows status, files, name etc.
GET /packages/<name>/~repo/<path> # path for a file within a repo
GET /packages/<name>/~repo?q=<query> # search within a package's files
GET /packages/<name>/~artifact/ # page listing repo artifacts by date
GET /packages/<name>/~artifact/<id> # page for a specific artifact and status/logs
## API
POST /api/pkg # create repo
GET /api/pkg/<name> # repo status/metadata
POST /api/pkg/<name>/push # upload source tarball
GET /api/pkg/<name>/pull # download source tarball
GET /api/pkg/<name>/artifact # download compiled binary
dsx/dsx_server/doc/structure.md
+15
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# Folder structure
data/
repos/
<repo_name>/
repo/
Dsx.toml
README.md
src/
artifacts/
<repo_name>.dsb
<repo_name-lib>.dsb
docs/
<repo_name-lib>.md
index/
dsx/dsx_server/src/error.rs
+82
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@@ -0,0 +1,82 @@
use common::build::BuildError;
use rocket::response::Responder;
use serde::Serialize;
#[derive(Debug, Serialize, Responder)]
pub enum ApiError {
#[response(status = 404)]
NotFound(String),
#[response(status = 500)]
InternalServerError(()),
#[response(status = 500)]
ServerError(String),
#[response(status = 401)]
Unauthorized(String),
#[response(status = 403)]
Forbidden(String),
#[response(status = 400)]
BadRequest(String),
}
impl From<std::io::Error> for ApiError {
fn from(err: std::io::Error) -> Self {
ApiError::InternalServerError(())
}
}
impl From<BuildError> for ApiError {
fn from(err: BuildError) -> Self {
match err {
BuildError::IoError(err) => ApiError::ServerError(err.to_string()),
BuildError::Generic(err) => ApiError::ServerError(err),
}
}
}
impl From<DsxError> for ApiError {
fn from(err: DsxError) -> Self {
ApiError::ServerError(format!("{:?}: {}", err.r#type, err.message))
}
}
#[derive(Debug)]
pub struct DsxError {
pub message: String,
pub r#type: ErrorType,
}
impl DsxError {
pub fn new(message: impl AsRef<str>) -> Self {
DsxError {
message: message.as_ref().to_string(),
r#type: ErrorType::Generic,
}
}
pub fn with_context(message: impl AsRef<str>, r#type: ErrorType) -> Self {
DsxError {
message: message.as_ref().to_string(),
r#type,
}
}
}
impl From<std::io::Error> for DsxError {
fn from(err: std::io::Error) -> Self {
Self::with_context(err.to_string(), ErrorType::IoError)
}
}
#[derive(Default, Debug)]
pub enum ErrorType {
BuildFailed,
IoError,
#[default]
Generic,
TarError,
}
dsx/dsx_server/src/main.rs
+82
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@@ -0,0 +1,82 @@
#[macro_use]
extern crate rocket;
use std::fs;
use std::path::PathBuf;
use std::sync::LazyLock;
use rocket::Data;
use rocket::data::ToByteUnit;
use rocket::serde::json::Json;
use rocket::{fs::FileServer, serde::Deserialize};
use rocket_dyn_templates::tera::{Function, Value};
use rocket_dyn_templates::{Template, context, tera};
use dotenv::dotenv;
use serde::Serialize;
use tracing::warn;
use crate::error::ApiError;
use crate::model::{Package, PackageMeta};
use dsx_common::config::DsxConfig;
mod error;
mod model;
mod routes;
fn language_colour() -> impl Function {
Box::new(
move |args: &std::collections::HashMap<String, Value>| -> tera::Result<Value> {
match args.get("lang") {
Some(Value::String(lang)) => match lang.as_str() {
// language syntax colour
"dsc" => Ok(Value::String("#000000".to_string())),
"dsa" => Ok(Value::String("#3776AB".to_string())),
_ => Ok(Value::String("#FFFFFF".to_string())),
},
Some(_) => Err(tera::Error::msg("Invalid argument type")),
None => Ok(Value::String("#FFFFFF".to_string())),
}
},
)
}
#[launch]
fn rocket() -> _ {
if dotenv().is_err() {
eprintln!("Failed to load .env file");
}
use routes::api;
use routes::pages;
rocket::build()
.mount(
"/packages",
routes![
pages::search_packages,
pages::package_main,
pages::repo_file,
pages::search_repo_files,
pages::list_artifacts,
pages::artifact_detail,
],
)
.mount(
"/api",
routes![
api::create_repo,
api::get_pkg,
api::push_tarball,
api::pull_tarball,
api::download_artifact
],
)
.attach(Template::custom(|tera| {
tera.tera
.register_function("language_colour", language_colour());
}))
.mount("/static", FileServer::from("./static"))
}
dsx/dsx_server/src/model.rs
+316
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use std::fs;
use std::path::{Path, PathBuf};
use std::sync::LazyLock;
use chrono::Utc;
use dsx_common::builder::{self, BuildContext};
use dsx_common::config::DsxConfig;
use serde::{Deserialize, Serialize};
use walkdir::WalkDir;
pub static DATA_DIR: LazyLock<PathBuf> = LazyLock::new(|| {
PathBuf::from(std::env::var("DATA_DIR").unwrap_or("./data".to_string()))
});
use crate::error::{ApiError, DsxError, ErrorType};
// stored as a Package.toml above the repository root.
// not directly modifiable by the user/maintainer.
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct PackageMeta {
pub id: String,
#[serde(default)]
pub latest_build_date: Option<String>,
#[serde(default)]
pub latest_build_status: Option<String>,
#[serde(default)]
pub latest_build_id: Option<String>,
#[serde(default)]
pub detected_languages: Option<Vec<String>>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct Package {
pub config: DsxConfig,
pub language: String,
pub meta: PackageMeta,
pub files: Vec<FileObj>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct FileObj {
pub name: String,
pub path: String,
pub is_dir: bool,
pub size: u64,
pub extension: String,
}
enum BuildStatus {
// if we don't know the build state, or no build has run before.
None,
// waiting for build
Pending,
// build
Building,
// build result
Success,
Failure,
Error,
}
pub struct PackageHandle {
// id of the package
pub package_id: String,
config: Option<DsxConfig>,
meta: Option<PackageMeta>,
// build info
build_state: BuildStatus,
}
impl PackageHandle {
const META_PATH: &'static str = "Package.toml";
const CONFIG_PATH: &'static str = "repo/Dsx.toml";
const ARTIFACTS_DIR: &'static str = "artifacts";
pub fn new(package_id: impl Into<String>) -> Self {
PackageHandle {
package_id: package_id.into(),
config: None,
meta: None,
build_state: BuildStatus::None,
}
}
pub fn load(&mut self) -> Result<&mut Self, DsxError> {
self.get_config()?;
self.get_meta()?;
Ok(self)
}
pub fn tarball(&self) -> Result<Vec<u8>, DsxError> {
let src_dir = self.path().join("repo");
pack_tarball(&src_dir)
}
pub fn unpack(&mut self, archive: &Path) -> Result<&mut Self, DsxError> {
let dest = DATA_DIR.join("repos").join(&self.package_id).join("repo");
unpack_tarball(archive, &dest)?;
self.load()
}
pub fn path(&self) -> PathBuf {
DATA_DIR.join("repos").join(&self.package_id)
}
pub fn build(&mut self) -> Result<&mut Self, DsxError> {
let ctx = BuildContext {
project_dir: self.path().join("repo"),
build_dir: self.path().join("build"),
artifact_dir: self.path().join("artifacts"),
};
self.build_state = BuildStatus::Building;
let id = self.package_id.clone();
tokio::task::spawn_blocking(move || {
let id = id;
let res = match builder::build_project(ctx) {
Ok(_) => "success",
Err(_) => "failure",
};
let mut handle = PackageHandle::new(&id);
let mut meta = handle.get_meta().unwrap();
meta.latest_build_date =
Some(Utc::now().format("%Y-%m-%d %H:%M:%S").to_string());
meta.latest_build_status = Some(res.to_string());
meta.latest_build_id = Some(id);
handle.set_meta(meta)
});
Ok(self)
}
pub fn get_config(&mut self) -> Result<DsxConfig, DsxError> {
let config_path = self.path().join(Self::CONFIG_PATH);
let config = fs::read_to_string(&config_path).map_err(|e| {
warn!("unable to read Dsx.toml, {e}");
DsxError::with_context("Unable to read Dsx.toml", ErrorType::IoError)
})?;
let config: DsxConfig = toml::from_str(&config).map_err(|e| {
warn!("unable to parse Dsx.toml: {e}");
DsxError::new("Unable to parse Dsx.toml")
})?;
self.config = Some(config.clone());
Ok(config)
}
pub fn get_meta(&mut self) -> Result<PackageMeta, DsxError> {
let meta_path = self.path().join(Self::META_PATH);
let meta = fs::read_to_string(&meta_path).map_err(|e| {
warn!("unable to read Package.toml, {e}");
DsxError::with_context("Unable to read Package.toml", ErrorType::IoError)
})?;
let meta: PackageMeta = toml::from_str(&meta).map_err(|e| {
warn!("unable to parse Package.toml: {e}");
DsxError::new("Unable to parse Package.toml")
})?;
self.meta = Some(meta.clone());
Ok(meta)
}
pub fn set_meta(&mut self, meta: PackageMeta) -> Result<(), DsxError> {
self.meta = Some(meta);
self.save_meta()
}
fn save_meta(&self) -> Result<(), DsxError> {
let meta_path = self.path().join(Self::META_PATH);
let str = toml::to_string(&self.meta.as_ref().unwrap()).unwrap();
fs::write(&meta_path, str).map_err(|e| {
warn!("unable to write Package.toml, {e}");
DsxError::with_context("Unable to write Package.toml", ErrorType::IoError)
})?;
Ok(())
}
pub fn get_languages(&mut self) -> Result<Vec<String>, DsxError> {
self.get_meta()?;
if let Some(languages) = &self.meta.as_ref().unwrap().detected_languages {
return Ok(languages.clone());
}
let mut langs = Vec::new();
for entry in WalkDir::new(self.path().join("repo/src"))
.into_iter()
.flatten()
{
if entry.file_type().is_file() {
let path = entry.path();
let extension = path.extension().and_then(|ext| ext.to_str());
if let Some(ext) = extension {
match ext {
"dsa" | "dsc" => langs.push(ext.to_string()),
_ => {}
}
}
}
}
self.meta.as_mut().unwrap().detected_languages = Some(langs.clone());
Ok(langs)
}
pub fn get_artifact(&self) -> Result<Vec<u8>, DsxError> {
println!(
"{}",
self.path()
.join(Self::ARTIFACTS_DIR)
.join("out.dsb")
.display()
);
let artifact_path = self.path().join(Self::ARTIFACTS_DIR).join("out.dsb");
fs::read(artifact_path).map_err(|e| {
warn!("unable to read artifact for repo: {e}");
DsxError::new("Unable to read artifact")
})
}
pub fn file_tree(&self, subpath: impl AsRef<Path>) -> Result<Vec<FileObj>, DsxError> {
let repo = self.path().join("repo").join(subpath);
let dir = fs::read_dir(repo).map_err(|e| {
warn!("unable to read files for repo, {e}");
DsxError::new("Unable to read files in repository")
})?;
let mut files = Vec::new();
// for entry in WalkDir::new(repo_path.join("repo")).max_depth(1) {
for entry in dir {
let entry = entry.map_err(|e| {
warn!("unable to read file entry for repo, {e}");
DsxError::new("Internal error")
})?;
// remove root of DATA_DIR/repos/<name>/repo
let path = entry.path();
let metadata = fs::metadata(&path).map_err(|e| {
warn!("unable to read file metadata for repo, {e}");
DsxError::new("Internal error")
})?;
let is_dir = metadata.is_dir();
let size = metadata.len();
let extension = path
.extension()
.map_or(String::new(), |ext| ext.to_string_lossy().to_string());
files.push(FileObj {
path: path
.strip_prefix(self.path().join("repo"))
.unwrap()
.to_string_lossy()
.to_string(),
name: path.file_name().unwrap().to_string_lossy().to_string(),
is_dir,
size,
extension,
});
}
Ok(files)
}
}
// ── Tar helpers ───────────────────────────────────────────────────────────────
use flate2::read::GzDecoder;
use flate2::{Compression, write::GzEncoder};
use std::fs::File;
use tar::Builder;
fn unpack_tarball(
archive: &std::path::Path,
dest: &std::path::Path,
) -> Result<(), DsxError> {
let file = File::open(archive)
.map_err(|e| DsxError::with_context(e.to_string(), ErrorType::IoError))?;
fs::create_dir_all(dest)?;
let gz = GzDecoder::new(file);
let mut tar = tar::Archive::new(gz);
tar.unpack(dest)
.map_err(|e| DsxError::with_context(e.to_string(), ErrorType::TarError))?;
Ok(())
}
fn pack_tarball(src_dir: &std::path::Path) -> Result<Vec<u8>, DsxError> {
let buf = Vec::new();
let gz = GzEncoder::new(buf, Compression::default());
let mut tar = Builder::new(gz);
tar.append_dir_all(".", src_dir)?;
let gz = tar.into_inner()?;
Ok(gz.finish()?)
}
dsx/dsx_server/src/routes/api.rs
+119
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@@ -0,0 +1,119 @@
use std::fs;
use dsx_common::config::DsxConfig;
use rocket::{Data, data::ToByteUnit, serde::json::Json};
use serde::Deserialize;
use crate::{
error::ApiError,
model::{DATA_DIR, PackageHandle, PackageMeta},
};
#[derive(Deserialize)]
#[serde(crate = "rocket::serde")]
pub struct NewRepo<'r> {
name: &'r str,
}
// Create repo
#[post("/pkg", data = "<repo>")]
pub fn create_repo(repo: Json<NewRepo<'_>>) -> Result<(), &'static str> {
let path = DATA_DIR.join("repos").join(repo.name);
if repo.name.is_empty() {
return Err("Repository name cannot be empty!");
}
if path.exists() {
tracing::info!(
"Attempt to create repository '{}' which already exists.",
repo.name
);
return Err("This repository already exists!");
}
if let Err(e) = fs::create_dir_all(path) {
tracing::error!(
"Attempted to create package with name {} - Error: {e},",
repo.name
);
return Err("Internal server error");
}
Ok(())
}
// Repo status/metadata
#[get("/pkg/<id>")]
pub fn get_pkg(id: &str) -> Result<Json<(PackageMeta, DsxConfig)>, ApiError> {
let mut handle = PackageHandle::new(id);
let meta = handle.get_meta()?;
let config = handle.get_config()?;
Ok(Json((meta, config)))
}
// Upload source tarball
#[post("/pkg/<id>/push", data = "<data>")]
pub async fn push_tarball(id: &str, data: Data<'_>) -> Result<(), ApiError> {
let mut handle = PackageHandle::new(id);
let repo = handle.path();
let tmp_path = repo.join("upload.tar.gz");
let stream = data
.open(256.mebibytes())
.into_file(&tmp_path)
.await
.map_err(|e| ApiError::ServerError(e.to_string()))?;
if !stream.is_complete() {
return Err(ApiError::BadRequest("Incomplete upload".to_string()));
}
// Unpack over the existing repo dir.
// if the repo is already deleted that's fine so ignore err
if handle.path().exists() {
let _ = fs::remove_dir_all(repo.join("repo"));
}
handle.unpack(&tmp_path)?;
fs::remove_file(&tmp_path).ok();
// we don't care if there's an error in the build.
let _ = handle.build();
Ok(())
}
// Download source tarball
#[get("/pkg/<id>/pull")]
pub fn pull_tarball(
id: &str,
) -> Result<(rocket::http::ContentType, Vec<u8>), Json<ApiError>> {
if let Ok(tarball) = PackageHandle::new(id).tarball() {
Ok((
rocket::http::ContentType::new("application", "octet-stream"),
tarball,
))
} else {
Err(Json(ApiError::NotFound(format!(
"repo with id {id} does not exist"
))))
}
}
// Download compiled binary
#[get("/pkg/<id>/artifact")]
pub fn download_artifact(
id: &str,
) -> Result<(rocket::http::ContentType, Vec<u8>), Json<ApiError>> {
if let Ok(artifact) = PackageHandle::new(id).get_artifact() {
Ok((
rocket::http::ContentType::new("application", "octet-stream"),
artifact,
))
} else {
Err(Json(ApiError::NotFound(format!(
"repo with id {id} does not have a valid artifact"
))))
}
}
dsx/dsx_server/src/routes/mod.rs
+2
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@@ -0,0 +1,2 @@
pub mod api;
pub mod pages;
dsx/dsx_server/src/routes/pages.rs
+145
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@@ -0,0 +1,145 @@
use std::{fs, path::Path};
use dsx_common::config::DsxConfig;
use rocket_dyn_templates::{Template, context};
use serde::Serialize;
use crate::{
error::ApiError,
model::{DATA_DIR, PackageHandle},
};
// Search for a package
#[get("/?<q>")]
pub fn search_packages(q: Option<String>) -> Result<Template, ApiError> {
#[derive(Serialize)]
struct Package {
name: String,
description: String,
updated_at: String,
}
let mut packages = Vec::new();
let dir = match fs::read_dir(DATA_DIR.join("repos")) {
Ok(dir) => dir,
Err(e) => {
warn!("failed to read repos directory: {}", e);
return Err(ApiError::InternalServerError(()));
}
};
for entry in dir {
let entry = entry.map_err(|e| {
warn!("failed to read entry: {}", e);
ApiError::InternalServerError(())
})?;
let config_path = entry.path().join("repo").join("Dsx.toml");
if config_path.exists() {
let text = fs::read_to_string(&config_path).map_err(|e| {
warn!("failed to read config file: {}", e);
ApiError::InternalServerError(())
})?;
let config: DsxConfig = toml::from_str(&text).map_err(|e| {
warn!("failed to parse config file: {}", e);
ApiError::InternalServerError(())
})?;
error!("{}", config.description.clone().unwrap_or_default());
// skip repo if it doesnt match query params
if let Some(query) = &q
&& !(config.name.contains(query)
|| config
.description
.clone()
.unwrap_or_default()
.contains(query))
{
continue;
}
packages.push(Package {
name: config.name,
description: config.description.unwrap_or_default(),
updated_at: String::from("0:00"),
})
}
}
Ok(Template::render(
"packages",
context! {
packages,
query: q.clone().unwrap_or_default()
},
))
}
// Main page for a repository, shows status, files, name etc.
#[get("/<id>")]
pub fn package_main(id: &str) -> Result<Template, ApiError> {
// get package info
let mut handle = PackageHandle::new(id);
let meta = handle.get_meta()?;
let config = handle.get_config()?;
let files = handle.file_tree("")?;
let parent_path: Option<String> = None;
let current_path: Option<String> = None;
Ok(Template::render(
"package_home",
context! {
parent_path,
current_path,
meta: meta,
config: config,
files: files,
},
))
}
// Path for a file within a repo
#[get("/<id>/~repo/<path..>", rank = 1)]
pub fn repo_file(id: &str, path: std::path::PathBuf) -> Result<Template, ApiError> {
// get package info
let mut handle = PackageHandle::new(id);
let meta = handle.get_meta()?;
let config = handle.get_config()?;
let files = handle.file_tree(&path)?;
let parent_path = path.parent().unwrap_or(Path::new(""));
let current_path = &path;
Ok(Template::render(
"package_home",
context! {
parent_path,
current_path,
meta: meta,
config: config,
files: files,
},
))
}
// Search within a package's files
#[get("/<name>/~repo?<q>", rank = 2)]
pub fn search_repo_files(name: &str, q: Option<String>) -> String {
format!("Search within {} for {:?}", name, q)
}
// Page listing repo artifacts by date
#[get("/<name>/artifacts")]
pub fn list_artifacts(name: &str) -> String {
format!("Artifacts for package {}", name)
}
// Page for a specific artifact and status/logs
#[get("/<name>/artifacts/<id>")]
pub fn artifact_detail(name: &str, id: u64) -> String {
format!("Artifact {} details for package {}", id, name)
}
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dsx/dsx_server/templates/artifact_detail.html.tera
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{% extends "base" %}
{% block title %}#{{ artifact.id }} · {{ package.name }}{% endblock %}
{% block extra_head %}
<style>
/* ── Artifact layout ────────────────────────── */
.artifact-layout {
display: grid;
grid-template-columns: 1fr 220px;
gap: 24px;
align-items: start;
}
@media (max-width: 768px) {
.artifact-layout { grid-template-columns: 1fr; }
.artifact-sidebar { order: -1; }
}
/* ── Artifact header ────────────────────────── */
.artifact-header {
margin-bottom: 20px;
}
.artifact-header h1 {
font-family: var(--mono);
font-size: 20px;
font-weight: 500;
margin: 0 0 6px;
display: flex;
align-items: center;
gap: 10px;
flex-wrap: wrap;
}
.artifact-trigger-line {
font-size: 13px;
color: var(--text-dim);
}
/* ── Steps list ─────────────────────────────── */
.steps-list {
display: flex;
flex-direction: column;
gap: 8px;
}
.step-card { overflow: hidden; }
.step-header {
display: flex;
align-items: center;
gap: 10px;
padding: 10px 14px;
cursor: pointer;
background: var(--surface);
border-radius: var(--radius);
transition: background .1s;
user-select: none;
}
.step-card.open .step-header {
border-radius: var(--radius) var(--radius) 0 0;
background: var(--surface2);
border-bottom: 1px solid var(--border);
}
.step-header:hover { background: var(--surface2); }
.step-name {
flex: 1;
font-family: var(--mono);
font-size: 13px;
}
.step-duration {
font-family: var(--mono);
font-size: 11px;
color: var(--muted);
}
.step-chevron {
color: var(--muted);
transition: transform .2s;
flex-shrink: 0;
}
.step-card.open .step-chevron { transform: rotate(90deg); }
/* ── Log output ─────────────────────────────── */
.step-log {
display: none;
background: #080808;
border: 1px solid var(--border);
border-top: none;
border-radius: 0 0 var(--radius) var(--radius);
overflow: hidden;
}
.step-card.open .step-log { display: block; }
.log-line {
display: flex;
gap: 0;
font-family: var(--mono);
font-size: 12px;
line-height: 1.7;
}
.log-line:hover { background: rgba(255,255,255,.03); }
.log-num {
min-width: 48px;
padding: 0 12px;
text-align: right;
color: var(--muted);
user-select: none;
border-right: 1px solid #1a1a1a;
flex-shrink: 0;
}
.log-text {
padding: 0 16px;
white-space: pre-wrap;
word-break: break-all;
flex: 1;
}
.log-text.err { color: var(--red); }
.log-text.warn { color: var(--yellow); }
/* ── Sidebar ────────────────────────────────── */
.sidebar-card { overflow: hidden; margin-bottom: 12px; }
.sidebar-card-title {
font-size: 11px;
font-family: var(--mono);
text-transform: uppercase;
letter-spacing: .8px;
color: var(--muted);
padding: 10px 14px 8px;
border-bottom: 1px solid var(--border);
background: var(--surface2);
}
.sidebar-card-body { padding: 12px 14px; }
.sidebar-stat {
display: flex;
justify-content: space-between;
align-items: center;
padding: 4px 0;
font-size: 13px;
}
.sidebar-stat-label { color: var(--text-dim); }
.sidebar-stat-value { font-family: var(--mono); font-size: 12px; }
/* ── Navigation between artifacts ──────────── */
.artifact-nav {
display: flex;
gap: 8px;
margin-top: 20px;
}
.artifact-nav a {
font-family: var(--mono);
font-size: 12px;
padding: 5px 12px;
background: var(--surface);
border: 1px solid var(--border);
border-radius: var(--radius);
color: var(--text-dim);
transition: border-color .15s, color .15s;
}
.artifact-nav a:hover { color: var(--text); border-color: #3a3a3a; text-decoration: none; }
</style>
{% endblock %}
{% block content %}
<div class="container">
<div class="breadcrumb">
<a href="/packages/">packages</a>
<span class="breadcrumb-sep">/</span>
<a href="/packages/{{ package.name }}">{{ package.name }}</a>
<span class="breadcrumb-sep">/</span>
<a href="/packages/{{ package.name }}/~artifact/">artifacts</a>
<span class="breadcrumb-sep">/</span>
<span>#{{ artifact.id }}</span>
</div>
<div class="artifact-header">
<h1>
#{{ artifact.id }}
{% if artifact.status == "success" %}
<span class="badge badge-success"><span class="dot"></span>passed</span>
{% elif artifact.status == "failure" %}
<span class="badge badge-failure"><span class="dot"></span>failed</span>
{% elif artifact.status == "running" %}
<span class="badge badge-running"><span class="dot dot-pulse"></span>running</span>
{% elif artifact.status == "pending" %}
<span class="badge badge-pending"><span class="dot"></span>queued</span>
{% else %}
<span class="badge badge-unknown"><span class="dot"></span>{{ artifact.status }}</span>
{% endif %}
</h1>
<p class="artifact-trigger-line">
{{ artifact.trigger | default(value="Triggered manually") }}
{% if artifact.commit_sha %} · <span class="mono" style="font-size:12px">{{ artifact.commit_sha }}</span>{% endif %}
{% if artifact.branch %} on <strong>{{ artifact.branch }}</strong>{% endif %}
</p>
</div>
<div class="artifact-layout">
<!-- Steps + logs -->
<div>
{% if artifact.steps and artifact.steps | length > 0 %}
<p class="section-title">Steps</p>
<div class="steps-list">
{% for step in artifact.steps %}
<div class="card step-card {% if step.status == 'failure' or loop.first %}open{% endif %}" id="step-{{ loop.index }}">
<div class="step-header" onclick="toggleStep(this)">
<span class="step-status">
{% if step.status == "success" %}
<span style="color:var(--green)">
<svg width="14" height="14" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2.5"><polyline points="20 6 9 17 4 12"/></svg>
</span>
{% elif step.status == "failure" %}
<span style="color:var(--red)">
<svg width="14" height="14" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2.5"><line x1="18" y1="6" x2="6" y2="18"/><line x1="6" y1="6" x2="18" y2="18"/></svg>
</span>
{% elif step.status == "running" %}
<span style="color:var(--accent)" class="dot-pulse">
<svg width="14" height="14" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2"><circle cx="12" cy="12" r="10"/><polyline points="12 6 12 12 16 14"/></svg>
</span>
{% elif step.status == "skipped" %}
<span style="color:var(--muted)">
<svg width="14" height="14" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2"><line x1="5" y1="12" x2="19" y2="12"/></svg>
</span>
{% else %}
<span style="color:var(--muted)">
<svg width="14" height="14" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2"><circle cx="12" cy="12" r="10"/></svg>
</span>
{% endif %}
</span>
<span class="step-name">{{ step.name }}</span>
{% if step.duration %}<span class="step-duration">{{ step.duration }}</span>{% endif %}
<svg class="step-chevron" width="13" height="13" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2"><polyline points="9 18 15 12 9 6"/></svg>
</div>
<div class="step-log">
{% if step.log_lines and step.log_lines | length > 0 %}
{% for line in step.log_lines %}
<div class="log-line">
<span class="log-num">{{ loop.index }}</span>
<span class="log-text {% if line.level == 'error' %}err{% elif line.level == 'warn' %}warn{% endif %}">{{ line.text | default(value=line) | escape }}</span>
</div>
{% endfor %}
{% elif step.log %}
{% for raw_line in step.log | split(pat="\n") %}
<div class="log-line">
<span class="log-num">{{ loop.index }}</span>
<span class="log-text">{{ raw_line | escape }}</span>
</div>
{% endfor %}
{% else %}
<div class="log-line">
<span class="log-num">1</span>
<span class="log-text dim">No output.</span>
</div>
{% endif %}
</div>
</div>
{% endfor %}
</div>
{% else %}
<div class="card" style="padding:32px;text-align:center;color:var(--text-dim);font-size:13px">
No steps recorded for this artifact.
</div>
{% endif %}
<div class="artifact-nav">
{% if artifact.prev_id %}
<a href="/packages/{{ package.name }}/~artifact/{{ artifact.prev_id }}">← #{{ artifact.prev_id }}</a>
{% endif %}
{% if artifact.next_id %}
<a href="/packages/{{ package.name }}/~artifact/{{ artifact.next_id }}">#{{ artifact.next_id }} →</a>
{% endif %}
</div>
</div>
<!-- Sidebar -->
<aside class="artifact-sidebar">
<div class="card sidebar-card">
<div class="sidebar-card-title">Summary</div>
<div class="sidebar-card-body">
<div class="sidebar-stat">
<span class="sidebar-stat-label">Status</span>
<span>
{% if artifact.status == "success" %}
<span class="badge badge-success"><span class="dot"></span>passed</span>
{% elif artifact.status == "failure" %}
<span class="badge badge-failure"><span class="dot"></span>failed</span>
{% elif artifact.status == "running" %}
<span class="badge badge-running"><span class="dot dot-pulse"></span>running</span>
{% else %}
<span class="badge badge-unknown">{{ artifact.status }}</span>
{% endif %}
</span>
</div>
{% if artifact.duration %}
<div class="sidebar-stat">
<span class="sidebar-stat-label">Duration</span>
<span class="sidebar-stat-value">{{ artifact.duration }}</span>
</div>
{% endif %}
{% if artifact.created_at %}
<div class="sidebar-stat">
<span class="sidebar-stat-label">Started</span>
<span class="sidebar-stat-value">{{ artifact.created_at }}</span>
</div>
{% endif %}
{% if artifact.finished_at %}
<div class="sidebar-stat">
<span class="sidebar-stat-label">Finished</span>
<span class="sidebar-stat-value">{{ artifact.finished_at }}</span>
</div>
{% endif %}
{% if artifact.steps %}
<div class="sidebar-stat">
<span class="sidebar-stat-label">Steps</span>
<span class="sidebar-stat-value">{{ artifact.steps | length }}</span>
</div>
{% endif %}
</div>
</div>
{% if artifact.commit_sha or artifact.branch %}
<div class="card sidebar-card">
<div class="sidebar-card-title">Commit</div>
<div class="sidebar-card-body">
{% if artifact.branch %}
<div class="sidebar-stat">
<span class="sidebar-stat-label">Branch</span>
<span class="sidebar-stat-value">{{ artifact.branch }}</span>
</div>
{% endif %}
{% if artifact.commit_sha %}
<div class="sidebar-stat">
<span class="sidebar-stat-label">SHA</span>
<span class="sidebar-stat-value">{{ artifact.commit_sha | truncate(length=8, end="") }}</span>
</div>
{% endif %}
{% if artifact.commit_message %}
<div style="font-size:12px;color:var(--text-dim);margin-top:8px;line-height:1.5">{{ artifact.commit_message }}</div>
{% endif %}
</div>
</div>
{% endif %}
<div style="margin-top:4px">
<a href="/packages/{{ package.name }}/~artifact/" style="font-size:12px;font-family:var(--mono)">← all artifacts</a>
</div>
</aside>
</div>
</div>
<script>
function toggleStep(header) {
const card = header.closest('.step-card');
card.classList.toggle('open');
}
</script>
{% endblock %}
dsx/dsx_server/templates/artifact_list.html.tera
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{% extends "base" %}
{% block title %}Artifacts · {{ package.name }}{% endblock %}
{% block extra_head %}
<style>
.artifacts-header {
display: flex;
align-items: baseline;
justify-content: space-between;
margin-bottom: 20px;
flex-wrap: wrap;
gap: 8px;
}
.artifacts-header h1 {
font-size: 20px;
font-weight: 500;
margin: 0;
font-family: var(--mono);
}
.artifact-list {
display: flex;
flex-direction: column;
gap: 8px;
}
.artifact-row {
display: flex;
align-items: center;
gap: 14px;
padding: 12px 16px;
text-decoration: none;
color: var(--text);
transition: border-color .15s, background .15s;
}
.artifact-row:hover {
background: var(--surface2);
border-color: #3a3a3a;
text-decoration: none;
}
.artifact-id {
font-family: var(--mono);
font-size: 13px;
color: var(--accent);
flex-shrink: 0;
min-width: 48px;
}
.artifact-info { flex: 1; min-width: 0; }
.artifact-trigger {
font-size: 13px;
white-space: nowrap;
overflow: hidden;
text-overflow: ellipsis;
}
.artifact-meta {
font-size: 11px;
color: var(--text-dim);
font-family: var(--mono);
margin-top: 2px;
}
.artifact-status { flex-shrink: 0; }
.artifact-duration {
font-family: var(--mono);
font-size: 11px;
color: var(--muted);
flex-shrink: 0;
min-width: 48px;
text-align: right;
}
.artifact-date {
font-size: 11px;
color: var(--muted);
font-family: var(--mono);
flex-shrink: 0;
min-width: 90px;
text-align: right;
}
.empty-state {
text-align: center;
padding: 64px 0;
color: var(--text-dim);
font-size: 13px;
}
/* Stats strip at top */
.stats-strip {
display: flex;
gap: 8px;
margin-bottom: 20px;
flex-wrap: wrap;
}
.stat-chip {
background: var(--surface);
border: 1px solid var(--border);
border-radius: var(--radius);
padding: 8px 14px;
font-size: 12px;
display: flex;
flex-direction: column;
gap: 2px;
}
.stat-chip-val {
font-family: var(--mono);
font-size: 18px;
font-weight: 500;
}
.stat-chip-label { color: var(--text-dim); }
</style>
{% endblock %}
{% block content %}
<div class="container">
<div class="breadcrumb">
<a href="/packages/">packages</a>
<span class="breadcrumb-sep">/</span>
<a href="/packages/{{ package.name }}">{{ package.name }}</a>
<span class="breadcrumb-sep">/</span>
<span>artifacts</span>
</div>
<div class="artifacts-header">
<h1>{{ package.name }} / artifacts</h1>
</div>
{% if stats is defined %}
<div class="stats-strip">
<div class="stat-chip">
<span class="stat-chip-val">{{ stats.total | default(value=0) }}</span>
<span class="stat-chip-label">Total</span>
</div>
<div class="stat-chip">
<span class="stat-chip-val" style="color:var(--green)">{{ stats.success | default(value=0) }}</span>
<span class="stat-chip-label">Passed</span>
</div>
<div class="stat-chip">
<span class="stat-chip-val" style="color:var(--red)">{{ stats.failure | default(value=0) }}</span>
<span class="stat-chip-label">Failed</span>
</div>
{% if stats.avg_duration is defined %}
<div class="stat-chip">
<span class="stat-chip-val">{{ stats.avg_duration }}</span>
<span class="stat-chip-label">Avg duration</span>
</div>
{% endif %}
</div>
{% endif %}
{% if artifacts and artifacts | length > 0 %}
<div class="artifact-list">
{% for artifact in artifacts %}
<a class="card artifact-row" href="/packages/{{ package.name }}/~artifact/{{ artifact.id }}">
<span class="artifact-id">#{{ artifact.id }}</span>
<div class="artifact-info">
<div class="artifact-trigger">{{ artifact.trigger | default(value="manual") }}</div>
<div class="artifact-meta">{{ artifact.commit_sha | default(value="") }}{% if artifact.branch %} on {{ artifact.branch }}{% endif %}</div>
</div>
<span class="artifact-status">
{% if artifact.status == "success" %}
<span class="badge badge-success"><span class="dot"></span>passed</span>
{% elif artifact.status == "failure" %}
<span class="badge badge-failure"><span class="dot"></span>failed</span>
{% elif artifact.status == "running" %}
<span class="badge badge-running"><span class="dot dot-pulse"></span>running</span>
{% elif artifact.status == "pending" %}
<span class="badge badge-pending"><span class="dot"></span>queued</span>
{% else %}
<span class="badge badge-unknown"><span class="dot"></span>{{ artifact.status }}</span>
{% endif %}
</span>
{% if artifact.duration %}<span class="artifact-duration">{{ artifact.duration }}</span>{% endif %}
<span class="artifact-date">{{ artifact.created_at | default(value="") }}</span>
</a>
{% endfor %}
</div>
{% else %}
<div class="empty-state">
<svg width="32" height="32" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="1.5" style="color:var(--border)"><circle cx="12" cy="12" r="10"/><polyline points="12 6 12 12 16 14"/></svg>
<p style="margin-top:10px">No artifacts yet.</p>
</div>
{% endif %}
</div>
{% endblock %}
dsx/dsx_server/templates/base.html.tera
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<!DOCTYPE html>
<html lang="en">
<head>
<meta charset="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1.0">
<title>{% block title %}Packages{% endblock %} · depot</title>
<link rel="preconnect" href="https://fonts.googleapis.com">
<link href="https://fonts.googleapis.com/css2?family=IBM+Plex+Mono:wght@400;500&family=IBM+Plex+Sans:wght@300;400;500&display=swap" rel="stylesheet">
<style>
:root {
--bg: #0d0d0d;
--surface: #161616;
--surface2: #1f1f1f;
--border: #2a2a2a;
--muted: #555;
--text: #ddd;
--text-dim: #888;
--accent: #4f8ef7;
--green: #3ecf6a;
--yellow: #f0b429;
--red: #f25c5c;
--radius: 6px;
--mono: 'IBM Plex Mono', monospace;
--sans: 'IBM Plex Sans', sans-serif;
}
*, *::before, *::after { box-sizing: border-box; }
body {
margin: 0;
font-family: var(--sans);
font-size: 14px;
background: var(--bg);
color: var(--text);
line-height: 1.5;
}
a { color: var(--accent); text-decoration: none; }
a:hover { text-decoration: underline; }
/* ── Top nav ─────────────────────────────── */
.topbar {
position: fixed;
top: 0; left: 0;
width: 100%;
height: 52px;
background: var(--surface);
border-bottom: 1px solid var(--border);
display: flex;
align-items: center;
gap: 16px;
padding: 0 24px;
z-index: 1000;
}
.topbar-logo {
font-family: var(--mono);
font-size: 15px;
font-weight: 500;
color: var(--text);
letter-spacing: -0.5px;
flex-shrink: 0;
}
.topbar-logo span { color: var(--accent); }
.topbar-search {
flex: 1;
max-width: 420px;
position: relative;
}
.topbar-search input {
width: 100%;
padding: 6px 12px 6px 32px;
background: var(--surface2);
border: 1px solid var(--border);
border-radius: var(--radius);
color: var(--text);
font-family: var(--sans);
font-size: 13px;
outline: none;
transition: border-color .15s;
}
.topbar-search input:focus { border-color: var(--accent); }
.topbar-search input::placeholder { color: var(--muted); }
.topbar-search-icon {
position: absolute;
left: 10px;
top: 50%;
transform: translateY(-50%);
color: var(--muted);
pointer-events: none;
}
/* ── Page wrapper ───────────────────────── */
.page {
padding-top: 52px;
min-height: 100vh;
}
.container {
max-width: 1100px;
margin: 0 auto;
padding: 32px 24px;
width: 100%;
}
/* ── Breadcrumb ─────────────────────────── */
.breadcrumb {
font-family: var(--mono);
font-size: 12px;
color: var(--text-dim);
margin-bottom: 20px;
display: flex;
align-items: center;
gap: 6px;
flex-wrap: wrap;
}
.breadcrumb a { color: var(--text-dim); }
.breadcrumb a:hover { color: var(--text); text-decoration: none; }
.breadcrumb-sep { color: var(--border); }
/* ── Status badges ──────────────────────── */
.badge {
display: inline-flex;
align-items: center;
gap: 5px;
padding: 2px 8px;
border-radius: 20px;
font-family: var(--mono);
font-size: 11px;
font-weight: 500;
text-transform: uppercase;
letter-spacing: .4px;
}
.badge-success { background: rgba(62,207,106,.12); color: var(--green); }
.badge-failure { background: rgba(242,92,92,.12); color: var(--red); }
.badge-running { background: rgba(79,142,247,.12); color: var(--accent); }
.badge-pending { background: rgba(240,180,41,.12); color: var(--yellow); }
.badge-unknown { background: rgba(136,136,136,.12); color: var(--muted); }
.dot {
width: 6px; height: 6px;
border-radius: 50%;
background: currentColor;
flex-shrink: 0;
}
.dot-pulse {
animation: pulse 1.4s ease-in-out infinite;
}
@keyframes pulse {
0%,100% { opacity: 1; }
50% { opacity: .3; }
}
/* ── Generic card ───────────────────────── */
.card {
background: var(--surface);
border: 1px solid var(--border);
border-radius: var(--radius);
}
/* ── Section heading ────────────────────── */
.section-title {
font-size: 11px;
font-family: var(--mono);
text-transform: uppercase;
letter-spacing: .8px;
color: var(--muted);
margin: 0 0 12px;
}
/* ── Utility ────────────────────────────── */
.mono { font-family: var(--mono); }
.dim { color: var(--text-dim); }
.small { font-size: 12px; }
</style>
{% block extra_head %}{% endblock %}
</head>
<body>
<div class="page">
<nav class="topbar">
<a class="topbar-logo" href="/packages/"><span>//</span>DSA Packages</a>
<div class="topbar-search">
<svg class="topbar-search-icon" width="13" height="13" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2"><circle cx="11" cy="11" r="8"/><line x1="21" y1="21" x2="16.65" y2="16.65"/></svg>
<form method="get" action="/packages/">
<input type="text" name="q" placeholder="Search packages…" value="{{ query | default(value='') }}">
</form>
</div>
</nav>
<div class="page">
{% block content %}{% endblock %}
</div>
</div>
</body>
</html>
dsx/dsx_server/templates/components/file.html.tera
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{% macro file_view(package, file) %}
<div class="file-row">
<span class="file-icon">
{% if file.is_dir %}
<svg width="14" height="14" viewBox="0 0 24 24" fill="currentColor" style="color:#4f8ef7" ><path d="M3 7a2 2 0 012-2h4l2 2h8a2 2 0 012 2v9a2 2 0 01-2 2H5a2 2 0 01-2-2V7z"/></svg>
{% else %}
<svg width="14" height="14" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2"><path d="M14 2H6a2 2 0 00-2 2v16a2 2 0 002 2h12a2 2 0 002-2V8z"/><polyline points="14 2 14 8 20 8"/></svg>
{% endif %}
</span>
<span class="file-name">
<a href="/packages/{{ package }}/~repo/{{ file.path }}">{{ file.name }}</a>
</span>
<!--<span class="file-commit">{{ file.last_commit_message | default(value="") }}</span>
<span class="file-age">{{ file.last_modified | default(value="") }}</span>-->
</div>
{% endmacro %}
dsx/dsx_server/templates/components/file_tree.html.tera
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<!-- File tree -->
<div class="pkg-main">
<div class="file-tree">
<div class="file-toolbar">
<div class="file-toolbar-search">
<svg class="file-toolbar-search-icon" width="12" height="12" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2"><circle cx="11" cy="11" r="8"/><line x1="21" y1="21" x2="16.65" y2="16.65"/></svg>
<form method="get" action="/packages/{{ meta.id }}/~repo">
<input type="text" name="q" placeholder="Filter files…" value="{{ query | default(value='') }}">
</form>
</div>
<span class="dim small mono">{{ current_path | default(value="/") }}</span>
</div>
{% if files and files | length > 0 %}
<div class="file-tree-body">
{% if current_path %}
<a class="file-row" href="/packages/{{ meta.id }}/~repo/{{ parent_path | default(value='') }}">
<span class="file-icon">
<svg width="14" height="14" viewBox="0 0 24 24" fill="none" stroke="currentColor" stroke-width="2"><path d="M3 9l9-7 9 7v11a2 2 0 01-2 2H5a2 2 0 01-2-2z"/></svg>
</span>
<span class="file-name" style="color:var(--text-dim)">..</span>
</a>
{% endif %}
{% for file in files %}
{{ files::file_view(package = meta.id, file = file) }}
{% endfor %}
</div>
{% else %}
<div class="file-tree-empty">No files found.</div>
{% endif %}
</div>
</div>

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