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|
use crate::RunningJob;
use rlua::prelude::*;
use std::sync::{Arc, Mutex};
use std::path::PathBuf;
pub const DEFAULT_RUST_GOODFILE: &'static [u8] = include_bytes!("../../config/goodfiles/rust.lua");
pub struct BuildEnv {
lua: Lua,
job: Arc<Mutex<RunningJob>>,
}
#[derive(Debug)]
pub struct RunParams {
step: Option<String>,
name: Option<String>,
cwd: Option<String>,
}
pub struct CommandOutput {
pub exit_status: std::process::ExitStatus,
pub stdout: Vec<u8>,
pub stderr: Vec<u8>,
}
mod lua_exports {
use crate::RunningJob;
use crate::lua::{CommandOutput, RunParams};
use std::sync::{Arc, Mutex};
use std::path::PathBuf;
use rlua::prelude::*;
pub fn collect_build_args(command: LuaValue, params: LuaValue) -> Result<(Vec<String>, RunParams), rlua::Error> {
let args = match command {
LuaValue::Table(table) => {
let len = table.len().expect("command table has a length");
let mut command_args = Vec::new();
for i in 0..len {
let value = table.get(i + 1).expect("command arg is gettble");
match value {
LuaValue::String(s) => {
command_args.push(s.to_str().unwrap().to_owned());
},
other => {
return Err(LuaError::RuntimeError(format!("argument {} was not a string, was {:?}", i, other)));
}
};
}
command_args
},
other => {
return Err(LuaError::RuntimeError(format!("argument 1 was not a table: {:?}", other)));
}
};
let params = match params {
LuaValue::Table(table) => {
let step = match table.get("step").expect("can get from table") {
LuaValue::String(v) => {
Some(v.to_str()?.to_owned())
},
LuaValue::Nil => {
None
},
other => {
return Err(LuaError::RuntimeError(format!("params[\"step\"] must be a string")));
}
};
let name = match table.get("name").expect("can get from table") {
LuaValue::String(v) => {
Some(v.to_str()?.to_owned())
},
LuaValue::Nil => {
None
},
other => {
return Err(LuaError::RuntimeError(format!("params[\"name\"] must be a string")));
}
};
let cwd = match table.get("cwd").expect("can get from table") {
LuaValue::String(v) => {
Some(v.to_str()?.to_owned())
},
LuaValue::Nil => {
None
},
other => {
return Err(LuaError::RuntimeError(format!("params[\"cwd\"] must be a string")));
}
};
RunParams {
step,
name,
cwd,
}
},
LuaValue::Nil => {
RunParams {
step: None,
name: None,
cwd: None,
}
}
other => {
return Err(LuaError::RuntimeError(format!("argument 2 was not a table: {:?}", other)));
}
};
Ok((args, params))
}
pub fn build_command_impl(command: LuaValue, params: LuaValue, job_ctx: Arc<Mutex<RunningJob>>) -> Result<(), rlua::Error> {
let (args, params) = collect_build_args(command, params)?;
eprintln!("args: {:?}", args);
eprintln!(" params: {:?}", params);
let rt = tokio::runtime::Builder::new_current_thread()
.enable_all()
.build()
.unwrap();
rt.block_on(async move {
job_ctx.lock().unwrap().run_command(&args, params.cwd.as_ref().map(|x| x.as_str())).await
.map_err(|e| LuaError::RuntimeError(format!("run_command error: {:?}", e)))
})
}
pub fn check_output_impl<'lua>(ctx: rlua::Context<'lua>, command: LuaValue<'lua>, params: LuaValue<'lua>, job_ctx: Arc<Mutex<RunningJob>>) -> Result<rlua::Table<'lua>, rlua::Error> {
let (args, params) = collect_build_args(command, params)?;
eprintln!("args: {:?}", args);
eprintln!(" params: {:?}", params);
let rt = tokio::runtime::Builder::new_current_thread()
.enable_all()
.build()
.unwrap();
let command_output = rt.block_on(async move {
job_ctx.lock().unwrap().run_with_output(&args, params.cwd.as_ref().map(|x| x.as_str())).await
.map_err(|e| LuaError::RuntimeError(format!("run_command error: {:?}", e)))
})?;
let stdout = ctx.create_string(command_output.stdout.as_slice())?;
let stderr = ctx.create_string(command_output.stderr.as_slice())?;
let result = ctx.create_table()?;
result.set("stdout", stdout)?;
result.set("stderr", stderr)?;
result.set("status", command_output.exit_status.code())?;
Ok(result)
}
pub fn check_dependencies(commands: Vec<String>) -> Result<(), rlua::Error> {
let mut missing_deps = Vec::new();
for command in commands.iter() {
if !has_cmd(command)? {
missing_deps.push(command.clone());
}
}
if missing_deps.len() > 0 {
return Err(LuaError::RuntimeError(format!("missing dependencies: {}", missing_deps.join(", "))));
}
Ok(())
}
pub fn metric(name: String, value: String, job_ctx: Arc<Mutex<RunningJob>>) -> Result<(), rlua::Error> {
let rt = tokio::runtime::Builder::new_current_thread()
.enable_all()
.build()
.unwrap();
rt.block_on(async move {
job_ctx.lock().unwrap().send_metric(&name, value).await
.map_err(|e| LuaError::RuntimeError(format!("send_metric error: {:?}", e)))
})
}
pub fn artifact(path: String, name: Option<String>, job_ctx: Arc<Mutex<RunningJob>>) -> Result<(), rlua::Error> {
let path: PathBuf = path.into();
let default_name: String = match (path.file_name(), path.parent()) {
(Some(name), _) => name
.to_str()
.ok_or(LuaError::RuntimeError("artifact name is not a unicode string".to_string()))?
.to_string(),
(_, Some(parent)) => format!("{}", parent.display()),
(None, None) => {
// one day using directories for artifacts might work but / is still not going
// to be accepted
return Err(LuaError::RuntimeError(format!("cannot infer a default path name for {}", path.display())));
}
};
let name: String = match name {
Some(name) => name,
None => default_name,
};
let rt = tokio::runtime::Builder::new_current_thread()
.enable_all()
.build()
.unwrap();
rt.block_on(async move {
let mut artifact = job_ctx.lock().unwrap().create_artifact(&name, &format!("{} (from {})", name, path.display())).await
.map_err(|e| LuaError::RuntimeError(format!("create_artifact error: {:?}", e)))
.unwrap();
let mut file = tokio::fs::File::open(&format!("tmpdir/{}", path.display())).await.unwrap();
eprintln!("uploading...");
crate::io::forward_data(&mut file, &mut artifact).await
.map_err(|e| LuaError::RuntimeError(format!("failed uploading data for {}: {:?}", name, e)))?;
std::mem::drop(artifact);
Ok(())
})
}
pub fn has_cmd(name: &str) -> Result<bool, rlua::Error> {
Ok(std::process::Command::new("which")
.arg(name)
.status()
.map_err(|e| LuaError::RuntimeError(format!("could not fork which? {:?}", e)))?
.success())
}
pub fn file_size(path: &str) -> Result<u64, rlua::Error> {
Ok(std::fs::metadata(&format!("tmpdir/{}", path))
.map_err(|e| LuaError::RuntimeError(format!("could not stat {:?}", path)))?
.len())
}
pub mod step {
use crate::RunningJob;
use std::sync::{Arc, Mutex};
pub fn start(job_ref: Arc<Mutex<RunningJob>>, name: String) -> Result<(), rlua::Error> {
let mut job = job_ref.lock().unwrap();
job.current_step.clear();
job.current_step.push(name);
Ok(())
}
pub fn push(job_ref: Arc<Mutex<RunningJob>>, name: String) -> Result<(), rlua::Error> {
let mut job = job_ref.lock().unwrap();
job.current_step.push(name);
Ok(())
}
pub fn advance(job_ref: Arc<Mutex<RunningJob>>, name: String) -> Result<(), rlua::Error> {
let mut job = job_ref.lock().unwrap();
job.current_step.pop();
job.current_step.push(name);
Ok(())
}
}
}
struct DeclEnv<'lua, 'env> {
lua_ctx: &'env rlua::Context<'lua>,
job_ref: &'env Arc<Mutex<RunningJob>>,
}
impl<'lua, 'env> DeclEnv<'lua, 'env> {
fn create_function<A, R, F>(&self, name: &str, f: F) -> Result<rlua::Function<'lua>, String>
where
A: FromLuaMulti<'lua>,
R: ToLuaMulti<'lua>,
F: 'static + Send + Fn(rlua::Context<'lua>, Arc<Mutex<RunningJob>>, A) -> Result<R, rlua::Error> {
let job_ref = Arc::clone(self.job_ref);
self.lua_ctx.create_function(move |ctx, args| {
let job_ref = Arc::clone(&job_ref);
f(ctx, job_ref, args)
})
.map_err(|e| format!("problem defining {} function: {:?}", name, e))
}
}
impl BuildEnv {
pub fn new(job: &Arc<Mutex<RunningJob>>) -> Self {
let env = BuildEnv {
lua: Lua::new(),
job: Arc::clone(job),
};
env.lua.context(|lua_ctx| {
env.define_env(lua_ctx)
}).expect("can define context");
env
}
fn define_env(&self, lua_ctx: rlua::Context) -> Result<(), String> {
let decl_env = DeclEnv {
lua_ctx: &lua_ctx,
job_ref: &self.job,
};
let hello = decl_env.create_function("hello", |_, _, ()| {
eprintln!("hello from lua!!!");
Ok(())
})?;
let check_dependencies = decl_env.create_function("dependencies", move |_, job_ref, commands: Vec<String>| {
lua_exports::check_dependencies(commands)
})?;
let build = decl_env.create_function("build", move |_, job_ref, (command, params): (LuaValue, LuaValue)| {
lua_exports::build_command_impl(command, params, job_ref)
})?;
let check_output = decl_env.create_function("check_output", move |ctx, job_ref, (command, params): (LuaValue, LuaValue)| {
lua_exports::check_output_impl(ctx, command, params, job_ref)
})?;
let metric = decl_env.create_function("metric", move |_, job_ref, (name, value): (String, String)| {
lua_exports::metric(name, value, job_ref)
})?;
let now_ms = decl_env.create_function("now_ms", move |_, job_ref, ()| Ok(crate::io::now_ms()))?;
let artifact = decl_env.create_function("artifact", move |_, job_ref, (path, name): (String, Option<String>)| {
lua_exports::artifact(path, name, job_ref)
})?;
let error = decl_env.create_function("error", move |_, job_ref, msg: String| {
Err::<(), LuaError>(LuaError::RuntimeError(format!("explicit error: {}", msg)))
})?;
let path_has_cmd = decl_env.create_function("path_has_cmd", move |_, job_ref, name: String| {
lua_exports::has_cmd(&name)
})?;
let size_of_file = decl_env.create_function("size_of_file", move |_, job_ref, name: String| {
lua_exports::file_size(&name)
})?;
let native_rust_triple = match std::env::consts::ARCH {
"x86_64" => "x86_64-unknown-linux-gnu",
"aarch64" => "aarch64-unknown-linux-gnu",
other => { panic!("dunno native rust triple for arch {}", other); }
};
let native_rust_triple = lua_ctx.create_string(native_rust_triple).unwrap();
let build_env_vars = lua_ctx.create_table_from(
vec![
("native_rust_triple", native_rust_triple)
]
).unwrap();
let build_environment = lua_ctx.create_table_from(
vec![
("has", path_has_cmd),
("size", size_of_file),
]
).unwrap();
build_environment.set("vars", build_env_vars).unwrap();
let build_functions = lua_ctx.create_table_from(
vec![
("hello", hello),
("run", build),
("dependencies", check_dependencies),
("metric", metric),
("error", error),
("artifact", artifact),
("now_ms", now_ms),
("check_output", check_output),
]
).unwrap();
build_functions.set("environment", build_environment).unwrap();
let globals = lua_ctx.globals();
globals.set("Build", build_functions).unwrap();
let step_start = decl_env.create_function("step_start", move |_, job_ref, name: String| {
lua_exports::step::start(job_ref, name)
})?;
let step_push = decl_env.create_function("step_push", move |_, job_ref, name: String| {
lua_exports::step::push(job_ref, name)
})?;
let step_advance = decl_env.create_function("step_advance", move |_, job_ref, name: String| {
lua_exports::step::advance(job_ref, name)
})?;
let step_functions = lua_ctx.create_table_from(
vec![
("start", step_start),
("push", step_push),
("advance", step_advance),
]
).unwrap();
globals.set("Step", step_functions).unwrap();
Ok(())
}
pub async fn run_build(self, script: &[u8]) -> Result<(), LuaError> {
let script = script.to_vec();
let res: Result<(), LuaError> = tokio::task::spawn_blocking(|| {
std::thread::spawn(move || {
self.lua.context(|lua_ctx| {
lua_ctx.load(&script)
.set_name("goodfile")?
.exec()
})
}).join().unwrap()
}).await.unwrap();
eprintln!("lua res: {:?}", res);
res
}
}
|