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hakorune/plugins/nyash-toml-plugin/src/lib.rs

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8.0 KiB
Rust
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//! Nyash TOMLBox Plugin - minimal parse + query + toJson
use once_cell::sync::Lazy;
use std::collections::HashMap;
use std::sync::{
atomic::{AtomicU32, Ordering},
Mutex,
};
const OK: i32 = 0;
const E_SHORT: i32 = -1;
const E_TYPE: i32 = -2;
const E_METHOD: i32 = -3;
const E_ARGS: i32 = -4;
const E_PLUGIN: i32 = -5;
const E_HANDLE: i32 = -8;
const M_BIRTH: u32 = 0; // constructor -> instance
const M_PARSE: u32 = 1; // parse(text) -> bool
const M_GET: u32 = 2; // get(path.dot.segments) -> string (toml-display) or empty
const M_TO_JSON: u32 = 3; // toJson() -> string (JSON)
const M_FINI: u32 = u32::MAX; // fini()
const TYPE_ID_TOML: u32 = 54;
struct TomlInstance {
value: Option<toml::Value>,
}
static INST: Lazy<Mutex<HashMap<u32, TomlInstance>>> = Lazy::new(|| Mutex::new(HashMap::new()));
static NEXT_ID: AtomicU32 = AtomicU32::new(1);
#[no_mangle]
pub extern "C" fn nyash_plugin_abi() -> u32 {
1
}
#[no_mangle]
pub extern "C" fn nyash_plugin_init() -> i32 {
OK
}
#[no_mangle]
pub extern "C" fn nyash_plugin_invoke(
type_id: u32,
method_id: u32,
instance_id: u32,
args: *const u8,
args_len: usize,
result: *mut u8,
result_len: *mut usize,
) -> i32 {
if type_id != TYPE_ID_TOML {
return E_TYPE;
}
unsafe {
match method_id {
M_BIRTH => {
if result_len.is_null() {
return E_ARGS;
}
if preflight(result, result_len, 4) {
return E_SHORT;
}
let id = NEXT_ID.fetch_add(1, Ordering::Relaxed);
if let Ok(mut m) = INST.lock() {
m.insert(id, TomlInstance { value: None });
} else {
return E_PLUGIN;
}
let b = id.to_le_bytes();
std::ptr::copy_nonoverlapping(b.as_ptr(), result, 4);
*result_len = 4;
OK
}
M_FINI => {
if let Ok(mut m) = INST.lock() {
m.remove(&instance_id);
OK
} else {
E_PLUGIN
}
}
M_PARSE => {
let text = match read_arg_string(args, args_len, 0) {
Some(s) => s,
None => return E_ARGS,
};
if let Ok(mut m) = INST.lock() {
if let Some(inst) = m.get_mut(&instance_id) {
inst.value = toml::from_str::<toml::Value>(&text).ok();
return write_tlv_bool(inst.value.is_some(), result, result_len);
} else {
return E_HANDLE;
}
} else {
return E_PLUGIN;
}
}
M_GET => {
let path = match read_arg_string(args, args_len, 0) {
Some(s) => s,
None => return E_ARGS,
};
if let Ok(m) = INST.lock() {
if let Some(inst) = m.get(&instance_id) {
let mut cur = match &inst.value {
Some(v) => v,
None => {
return write_tlv_string("", result, result_len);
}
};
if !path.is_empty() {
for seg in path.split('.') {
match cur.get(seg) {
Some(v) => cur = v,
None => {
return write_tlv_string("", result, result_len);
}
}
}
}
let out = cur.to_string();
return write_tlv_string(&out, result, result_len);
} else {
return E_HANDLE;
}
} else {
return E_PLUGIN;
}
}
M_TO_JSON => {
if let Ok(m) = INST.lock() {
if let Some(inst) = m.get(&instance_id) {
if let Some(v) = &inst.value {
// Convert via serde_json::Value
let sv = toml_to_json(v);
return match serde_json::to_string(&sv) {
Ok(s) => write_tlv_string(&s, result, result_len),
Err(_) => write_tlv_string("{}", result, result_len),
};
} else {
return write_tlv_string("{}", result, result_len);
}
} else {
return E_HANDLE;
}
} else {
return E_PLUGIN;
}
}
_ => E_METHOD,
}
}
}
fn toml_to_json(v: &toml::Value) -> serde_json::Value {
match v {
toml::Value::String(s) => serde_json::Value::String(s.clone()),
toml::Value::Integer(i) => serde_json::Value::from(*i),
toml::Value::Float(f) => serde_json::Value::from(*f),
toml::Value::Boolean(b) => serde_json::Value::from(*b),
toml::Value::Datetime(dt) => serde_json::Value::String(dt.to_string()),
toml::Value::Array(arr) => serde_json::Value::Array(arr.iter().map(toml_to_json).collect()),
toml::Value::Table(map) => {
let mut m = serde_json::Map::new();
for (k, vv) in map.iter() {
m.insert(k.clone(), toml_to_json(vv));
}
serde_json::Value::Object(m)
}
}
}
fn preflight(result: *mut u8, result_len: *mut usize, needed: usize) -> bool {
unsafe {
if result_len.is_null() {
return false;
}
if result.is_null() || *result_len < needed {
*result_len = needed;
return true;
}
}
false
}
fn write_tlv_result(payloads: &[(u8, &[u8])], result: *mut u8, result_len: *mut usize) -> i32 {
if result_len.is_null() {
return E_ARGS;
}
let mut buf: Vec<u8> =
Vec::with_capacity(4 + payloads.iter().map(|(_, p)| 4 + p.len()).sum::<usize>());
buf.extend_from_slice(&1u16.to_le_bytes());
buf.extend_from_slice(&(payloads.len() as u16).to_le_bytes());
for (tag, payload) in payloads {
buf.push(*tag);
buf.push(0);
buf.extend_from_slice(&(payload.len() as u16).to_le_bytes());
buf.extend_from_slice(payload);
}
unsafe {
let needed = buf.len();
if result.is_null() || *result_len < needed {
*result_len = needed;
return E_SHORT;
}
std::ptr::copy_nonoverlapping(buf.as_ptr(), result, needed);
*result_len = needed;
}
OK
}
fn write_tlv_bool(v: bool, result: *mut u8, result_len: *mut usize) -> i32 {
write_tlv_result(&[(1u8, &[if v { 1u8 } else { 0u8 }])], result, result_len)
}
fn write_tlv_string(s: &str, result: *mut u8, result_len: *mut usize) -> i32 {
write_tlv_result(&[(6u8, s.as_bytes())], result, result_len)
}
fn read_arg_string(args: *const u8, args_len: usize, n: usize) -> Option<String> {
if args.is_null() || args_len < 4 {
return None;
}
let buf = unsafe { std::slice::from_raw_parts(args, args_len) };
let mut off = 4usize;
for i in 0..=n {
if buf.len() < off + 4 {
return None;
}
let tag = buf[off];
let size = u16::from_le_bytes([buf[off + 2], buf[off + 3]]) as usize;
if buf.len() < off + 4 + size {
return None;
}
if i == n {
if tag == 6 || tag == 7 {
return Some(String::from_utf8_lossy(&buf[off + 4..off + 4 + size]).to_string());
} else {
return None;
}
}
off += 4 + size;
}
None
}
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