// Hexchat Plugin API Bindings for Rust
// Copyright (C) 2018, 2021, 2022 Soni L.
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program.  If not, see <https://www.gnu.org/licenses/>.

//! Write hexchat plugins in Rust!
//!
//! This library provides safe API bindings for hexchat, but doesn't attempt to fix hexchat's own
//! bugs. It makes no effort to stop you from unloading your own code while it's still running, for
//! example.
//!
//! When using this library, it's strongly recommended to avoid heap-allocated statics (static
//! mutexes, lazy_static, etc). This is because it's currently impossible to deallocate those on
//! plugin unload. This can be worked around by placing those statics as fields in your plugin
//! struct.
//!
//! This caveat does not apply to static assets (`static FOO: &'static str`, for example), but it
//! does apply to thread-local storage.
//! 
//! # Examples
//!
//! ```no_run
//! #[macro_use]
//! extern crate hexchat_unsafe_plugin;
//!
//! use std::sync::Mutex;
//! use hexchat_unsafe_plugin::{Plugin, PluginHandle, HookHandle};
//!
//! #[derive(Default)]
//! struct MyPlugin<'ph> {
//!     cmd: Mutex<Option<HookHandle<'ph>>>
//! }
//!
//! unsafe impl<'ph> Plugin<'ph> for MyPlugin<'ph> {
//!     fn init(&self, ph: &mut PluginHandle<'ph>, filename: &str, arg: Option<&str>) -> bool {
//!         ph.register("myplugin", "0.1.0", "my simple plugin");
//!         *self.cmd.lock().unwrap() = Some(ph.hook_command("hello-world", hexchat_unsafe_plugin::PRI_NORM, Some("prints 'Hello, World!'"), |ph, arg, arg_eol| {
//!             ph.print("Hello, World!");
//!             hexchat_unsafe_plugin::EAT_ALL
//!         }));
//!         true
//!     }
//! }
//!
//! hexchat_plugin!('ph, MyPlugin<'ph>);
//!
//! # fn main() { } // satisfy the compiler, we can't actually run the code
//! ```

/*
 * Some info about how HexChat does things:
 *
 * All strings passed across the C API are UTF-8.
 * - Except `hexchat_get_info(ph, "libdirfs")`, so we need to be careful with
 *     that one.
 *
 * The pointers
 * `name: *mut *const char, desc: *mut *const char, vers: *mut *const char`
 * point to inside the ph - that is, they're aliased. Thus, we must never
 * convert a ph to an & or &mut except as part of retrieving or setting values
 * in it (e.g. `(*ph).hexchat_get_info` or `(*ph).userdata = value`).
 *
 * `hexchat_plugin_get_info` is never used, so we omit it. It would be
 * impractical not to.
 *
 * These cause UB:
 * - `hexchat_command` may invalidate the plugin context.
 * - `hexchat_find_context` and `hexchat_nickcmp` use the plugin context
 *     without checking it.
 * - `hexchat_get_prefs` uses the plugin context if name == "state_cursor" or
 *     "id" (or anything with the same hash).
 * - `hexchat_list_get` uses the plugin context if name == "notify" (or
 *     anything with the same hash).
 * - `hexchat_list_str`, `hexchat_list_int`, 
 * - `hexchat_emit_print`, `hexchat_emit_print_attrs` use the plugin context.
 * - `hexchat_send_modes` uses the plugin context.
 * We need to wrap them (or, alternatively, hexchat_command). However, there's
 * no (safe) way to get a valid context afterwards.
 * - Actually that's a lie. Hexchat does a trick to give you a context as part
 *     of the channel list.
 *     We can use that to our advantage. I'm not sure if it's better to wrap
 *     hexchat_command or the other functions, tho.
 *     (Do we want to walk a linked list every time we use hexchat_command?
 *     I'd think hexchat_command is the most used API function... Plus,
 *     emit_print could indirectly invalidate the context as well.)
 *
 * `hexchat_send_modes` should only be used with channels; however, it doesn't
 * cause UB - it just doesn't work.
 *
 * `hexchat_pluginpref_get_int`, `hexchat_pluginpref_get_str`,
 * `hexchat_pluginpref_set_int`, `hexchat_pluginpref_set_str` cannot be used
 * while `name`, `desc`, `vers` are null.
 *
 * `hexchat_plugin_init` receives an arg string. it may be null. this isn't
 * documented anywhere.
 *
 * We can add the "close context" hook as the first thing when registering a
 * plugin, and invalidate known contexts from it. this is because hexchat
 * always adds new hooks with the same priority before old hooks.
 */

/*
 * Some info about how we do things:
 *
 * DO NOT CALL printf/commandf/etc FAMILY OF FUNCTIONS. You can't avoid allocations, so just
 * allocate some CStrings on the Rust side. It has the exact same effect, since those functions
 * allocate internally anyway.
 */

/*
 * Big list o' TODO:
 * -[ ] Finish API support. [PRI-HIGH]
 *     -[x] word
 *     -[x] word_eol
 *     -[x] HEXCHAT_PRI_{HIGHEST, HIGH, NORM, LOW, LOWEST}
 *     -[x] HEXCHAT_EAT_{NONE, HEXCHAT, PLUGIN, ALL}
 *     -[ ] HEXCHAT_FD_{READ, WRITE, EXCEPTION, NOTSOCKET}
 *     -[x] hexchat_command (for commandf, use command(&format!("...")), it is equivalent.)
 *     -[x] hexchat_print (for printf, use print(&format!("...")), it is equivalent.)
 *     -[x] hexchat_emit_print
 *     -[x] hexchat_emit_print_attrs
 *     -[x] hexchat_send_modes
 *     -[x] hexchat_nickcmp
 *     -[ ] hexchat_strip
 *     -[x] ~~hexchat_free~~ not available - use Drop impls.
 *     -[x] ~~hexchat_event_attrs_create~~ not available - converted as needed
 *     -[x] ~~hexchat_event_attrs_free~~ not available - use Drop impls.
 *     -[x] hexchat_get_info
 *     -[ ] hexchat_get_prefs
 *     -[ ] hexchat_list_get, hexchat_list_fields, hexchat_list_next, hexchat_list_str,
 *         hexchat_list_int, hexchat_list_time, hexchat_list_free
 *     -[x] hexchat_hook_command
 *     -[ ] hexchat_hook_fd
 *     -[x] hexchat_hook_print
 *     -[x] hexchat_hook_print_attrs
 *     -[#] hexchat_hook_server (implemented through _attrs)
 *     -[x] hexchat_hook_server_attrs
 *     -[x] hexchat_hook_timer
 *     -[x] ~~hexchat_unhook~~ not available - use Drop impls
 *     -[x] hexchat_find_context
 *     -[x] hexchat_get_context
 *     -[x] hexchat_set_context
 *     -[ ] hexchat_pluginpref_set_str
 *     -[ ] hexchat_pluginpref_get_str
 *     -[ ] hexchat_pluginpref_set_int
 *     -[ ] hexchat_pluginpref_get_int
 *     -[ ] hexchat_pluginpref_delete
 *     -[ ] hexchat_pluginpref_list
 *     -[ ] hexchat_plugingui_add
 *     -[x] ~~hexchat_plugingui_remove~~ not available - use Drop impls.
 * -[ ] Wrap contexts within something we keep track of. Mark them invalid when contexts are
 *     closed. [PRI-MAYBE]
 * -[x] Anchor closures on the stack using Rc<T>. Many (most?) hooks are reentrant. As far as I
 *     know, all of them need this.
 *     -[x] Additionally, use a Cell<bool> for timers.
 * -[ ] ???
 */

#[doc(hidden)]
pub extern crate libc;

mod eat;
mod infoid;
mod internals;
mod pluginfo;
mod word;

pub use eat::*;
pub use infoid::InfoId;
pub use word::*;

use pluginfo::PluginInfo;
use internals::Ph as RawPh;
use internals::HexchatEventAttrs as RawAttrs;

use std::borrow::Cow;
use std::cell::Cell;
use std::cell::RefCell;
use std::collections::HashSet;
use std::ffi::{CString, CStr};
use std::fmt;
use std::marker::PhantomData;
use std::mem;
use std::mem::ManuallyDrop;
use std::panic::{AssertUnwindSafe, RefUnwindSafe, UnwindSafe, catch_unwind};
use std::ptr;
use std::rc::Rc;
use std::rc::Weak as RcWeak;
use std::str::FromStr;
use std::thread;
use std::time::{SystemTime, UNIX_EPOCH, Duration};

#[doc(hidden)]
pub use libc::{c_char, c_int, c_void, time_t};

// ****** //
// PUBLIC //
// ****** //

// Consts

// PRI_*
/// Equivalent to HEXCHAT_PRI_HIGHEST
pub const PRI_HIGHEST: i32 = 127;
/// Equivalent to HEXCHAT_PRI_HIGH
pub const PRI_HIGH: i32 = 64;
/// Equivalent to HEXCHAT_PRI_NORM
pub const PRI_NORM: i32 = 0;
/// Equivalent to HEXCHAT_PRI_LOW
pub const PRI_LOW: i32 = -64;
/// Equivalent to HEXCHAT_PRI_LOWEST
pub const PRI_LOWEST: i32 = -128;

// Traits

/// A hexchat plugin.
///
/// # Safety
///
/// Modern operating systems cannot deal with dynamic unloading when threads
/// are involved, because we still haven't figured out how to track which code
/// address started a syscall that spawned a thread for some reason, so there's
/// no way for the dynamic loader to stop those threads when unloading.
///
/// *Fortunately* we can just shift that responsibility onto the unsuspecting
/// Rust user. Because Rust is a safe language, this makes writing plugins
/// inherently unsafe!
///
/// At least Unsafe Rust is still safer than writing C. So you have that going.
pub unsafe trait Plugin<'ph> {
    /// Called to initialize the plugin.
    fn init(&self, ph: &mut PluginHandle<'ph>, filename: &str, arg: Option<&str>) -> bool;

    /// Called to deinitialize the plugin.
    ///
    /// This is always called immediately prior to Drop::drop.
    fn deinit(&self, ph: &mut PluginHandle<'ph>) {
        let _ = ph;
    }
}

// Structs

/// A `*mut RawPh` with a lifetime bolted to it.
///
/// This allows us to enforce a non-`'static` lifetime on the `Plugin`.
#[repr(transparent)]
#[doc(hidden)]
#[derive(Copy, Clone, Debug, PartialEq, PartialOrd, Eq, Ord, Hash)]
pub struct LtPhPtr<'ph> {
    ph: *mut RawPh,
    // FIXME we may want a different signature here (&'a Cell<RawPh>?)
    _lt: PhantomData<&'ph RawPh>,
}

/// A hexchat plugin handle, used to register hooks and interact with hexchat.
///
/// # Examples
///
/// ```no_run
/// use hexchat_unsafe_plugin::{PluginHandle};
///
/// fn init(ph: &mut PluginHandle) {
///     ph.register("myplug", "0.1.0", "my awesome plug");
/// }
/// ```
pub struct PluginHandle<'ph> {
    ph: LtPhPtr<'ph>,
    contexts: Contexts,
    // Used for registration
    info: PluginInfo,
}

mod valid_context {
    use crate::PluginHandle;

    /// A PluginHandle operating on a valid context.
    ///
    /// This mechanism attempts to reduce the likelihood of segfaults in
    /// hexchat code.
    ///
    /// See also [`PluginHandle::ensure_valid_context`].
    pub struct ValidContext<'a, 'ph: 'a> {
        pub(crate) ph: &'a mut PluginHandle<'ph>,
        _hidden: (),
    }

    impl<'a, 'ph: 'a> ValidContext<'a, 'ph> {
        /// Wraps a PluginHandle in a ValidContext.
        ///
        /// # Safety
        ///
        /// The PluginHandle's context must be valid.
        pub(crate) unsafe fn new(ph: &'a mut PluginHandle<'ph>) -> Self {
            Self { ph, _hidden: () }
        }
    }
}
pub use valid_context::ValidContext;

/// Event attributes.
// TODO better docs.
#[derive(Clone)]
pub struct EventAttrs<'a> {
    /// Server time.
    pub server_time: Option<SystemTime>,
    _dummy: PhantomData<&'a ()>,
}

/// A hook handle, used to enable unhooking.
#[must_use = "Hooks must be stored somewhere and are automatically unhooked on Drop"]
pub struct HookHandle<'ph> {
    ph: LtPhPtr<'ph>,
    hh: *const internals::HexchatHook,
    freed: Rc<Cell<bool>>,
    // this does actually store an Rc<...>, but on the other side of the FFI.
    _f: PhantomData<Rc<HookUd<'ph>>>,
}

/// A context.
#[derive(Clone)]
pub struct Context<'ph> {
    contexts: Contexts,
    ctx: RcWeak<*const internals::HexchatContext>,
    _ph: PhantomData<&'ph RawPh>,
}

/// The error returned by [`PluginHandle::with_context`] when the context is
/// not valid.
// #[derive(Debug)] // doesn't work
pub struct InvalidContextError<F>(F);

// Enums

// ***** //
// impls //
// ***** //

impl<F> InvalidContextError<F> {
    pub fn get_closure(self) -> F {
        self.0
    }
}

impl<'ph> Drop for HookHandle<'ph> {
    fn drop(&mut self) {
        if self.freed.get() {
            // already free'd.
            return;
        }
        self.freed.set(true);
        unsafe {
            let b = ((*self.ph.ph).hexchat_unhook)(self.ph.ph, self.hh) as *mut HookUd<'ph>;
            // we assume b is not null. this should be safe.
            // just drop it
            drop(Rc::from_raw(b));
        }
    }
}

impl<'ph> Drop for Context<'ph> {
    fn drop(&mut self) {
        // check if we need to clean anything up
        if self.ctx.strong_count() == 1 && self.ctx.weak_count() == 1 {
            let strong = self.ctx.upgrade().unwrap();
            self.contexts.borrow_mut().remove(&strong);
        }
    }
}

/// Handles a hook panic at the C-Rust ABI boundary.
///
/// # Safety
///
/// `ph` must be a valid pointer (see `std::ptr::read`).
unsafe fn call_hook_protected<F: FnOnce() -> Eat + UnwindSafe>(
    ph: *mut RawPh,
    f: F
) -> Eat {
    match catch_unwind(f) {
        Result::Ok(v @ _) => v,
        Result::Err(e @ _) => {
            // if it's a &str or String, just print it
            if let Some(s) = e.downcast_ref::<&str>() {
                hexchat_print_str(ph, s, false);
            } else if let Some(s) = e.downcast_ref::<String>() {
                hexchat_print_str(ph, &s, false);
            } else if let Some(s) = e.downcast_ref::<Cow<'static, str>>() {
                hexchat_print_str(ph, &s, false);
            }
            EAT_NONE
        }
    }
}

impl<'ph> PluginHandle<'ph> {
    /// Wraps the raw handle.
    ///
    /// # Safety
    ///
    /// `ph` must be a valid pointer (see `std::ptr::read`).
    unsafe fn new(ph: LtPhPtr<'ph>, info: PluginInfo, contexts: Contexts) -> PluginHandle<'ph> {
        PluginHandle {
            ph, info, contexts
        }
    }

    /// Registers this hexchat plugin. This must be called exactly once when the plugin is loaded.
    ///
    /// # Panics
    ///
    /// This function panics if this plugin is already registered.
    ///
    /// # Examples
    ///
    /// ```no_run
    /// use hexchat_unsafe_plugin::PluginHandle;
    ///
    /// fn init(ph: &mut PluginHandle) {
    ///     ph.register("foo", "0.1.0", "my foo plugin");
    /// }
    /// ```
    pub fn register(&mut self, name: &str, desc: &str, ver: &str) {
        unsafe {
            let info = self.info;
            if !(*info.name).is_null() || !(*info.desc).is_null() || !(*info.vers).is_null() {
                panic!("Attempt to re-register a plugin");
            }
            let name = CString::new(name).unwrap();
            let desc = CString::new(desc).unwrap();
            let ver = CString::new(ver).unwrap();
            // these shouldn't panic. if they do, we'll need to free them afterwards.
            (*info.name) = name.into_raw();
            (*info.desc) = desc.into_raw();
            (*info.vers) = ver.into_raw();
        }
    }

    /// Returns this plugin's registered name.
    ///
    /// # Panics
    ///
    /// This function panics if this plugin is not registered.
    pub fn get_name(&self) -> &str {
        unsafe {
            let info = self.info;
            if !(*info.name).is_null() || !(*info.desc).is_null() || !(*info.vers).is_null() {
                std::str::from_utf8_unchecked(CStr::from_ptr(*info.name).to_bytes())
            } else {
                panic!("Attempt to get the name of a plugin that was not yet registered.");
            }
        }
    }

    /// Returns this plugin's registered description.
    ///
    /// # Panics
    ///
    /// This function panics if this plugin is not registered.
    pub fn get_description(&self) -> &str {
        unsafe {
            let info = self.info;
            if !(*info.name).is_null() || !(*info.desc).is_null() || !(*info.vers).is_null() {
                std::str::from_utf8_unchecked(CStr::from_ptr(*info.desc).to_bytes())
            } else {
                panic!("Attempt to get the description of a plugin that was not yet registered.");
            }
        }
    }

    /// Returns this plugin's registered version.
    ///
    /// # Panics
    ///
    /// This function panics if this plugin is not registered.
    pub fn get_version(&self) -> &str {
        unsafe {
            let info = self.info;
            if !(*info.name).is_null() || !(*info.desc).is_null() || !(*info.vers).is_null() {
                std::str::from_utf8_unchecked(CStr::from_ptr(*info.vers).to_bytes())
            } else {
                panic!("Attempt to get the version of a plugin that was not yet registered.");
            }
        }
    }

    /// Ensures the current context is valid.
    ///
    /// # Panics
    ///
    /// This function may panic if it's called while hexchat is closing.
    pub fn ensure_valid_context<F, R>(&mut self, f: F) -> R where F: for<'a> FnOnce(ValidContext<'a, 'ph>) -> R {
        let ctx = self.get_context();
        let res = self.with_context(&ctx, f);
        match res {
            Result::Ok(r @ _) => r,
            Result::Err(e @ _) => {
                let nctx = self.find_valid_context().expect("ensure_valid_context failed (find_valid_context failed), was hexchat closing?");
                self.with_context(&nctx, e.get_closure()).ok().expect("ensure_valid_context failed, was hexchat closing?")
            }
        }
    }

    /// Returns the current context.
    ///
    /// Note: The returned context may be invalid. Use [`set_context`] to
    /// check.
    ///
    /// [`set_context`]: #method.set_context
    pub fn get_context(&mut self) -> Context<'ph> {
        let ctxp = unsafe { ((*self.ph.ph).hexchat_get_context)(self.ph.ph) };
        // This needs to be fixed by hexchat. I cannot make the value become
        // null when it's invalid without invoking UB. This is because I can't
        // set_context to null.
        let ok = unsafe { ((*self.ph.ph).hexchat_set_context)(self.ph.ph, ctxp) };
        unsafe { wrap_context(self, if ok == 0 { ptr::null() } else { ctxp }) }
    }

    /// Sets the current context.
    ///
    /// Returns `true` if the context is valid, `false` otherwise.
    pub fn set_context(&mut self, ctx: &Context<'ph>) -> bool {
        if let Some(ctx) = ctx.ctx.upgrade() {
            unsafe {
                ((*self.ph.ph).hexchat_set_context)(self.ph.ph, *ctx) != 0
            }
        } else {
            false
        }
    }

    /// Do something in a valid context.
    ///
    /// Note that this changes the active context and doesn't change it back
    /// (but that should be fine for most use-cases).
    ///
    /// # Errors
    ///
    /// Returns `Err(InvalidContextError(f))` if the context is invalid. See
    /// [`set_context`]. Otherwise, returns `Ok(f(...))`.
    ///
    /// Note that `InvalidContextError` contains the original closure. This
    /// allows you to retry, if you so wish.
    ///
    /// [`set_context`]: #method.set_context
    #[inline]
    pub fn with_context<F, R>(&mut self, ctx: &Context<'ph>, f: F) -> Result<R, InvalidContextError<F>> where F: for<'a> FnOnce(ValidContext<'a, 'ph>) -> R {
        if !self.set_context(ctx) {
            Err(InvalidContextError(f))
        } else {
            Ok(f(unsafe { ValidContext::new(self) }))
        }
    }

    /// Sets a command hook.
    ///
    /// # Examples
    ///
    /// ```no_run
    /// use hexchat_unsafe_plugin::{PluginHandle, HookHandle};
    ///
    /// fn register_commands<'ph>(ph: &mut PluginHandle<'ph>) -> Vec<HookHandle<'ph>> {
    ///     vec![
    ///     ph.hook_command("hello-world", hexchat_unsafe_plugin::PRI_NORM, Some("prints 'Hello, World!'"), |ph, arg, arg_eol| {
    ///         ph.print("Hello, World!");
    ///         hexchat_unsafe_plugin::EAT_ALL
    ///     }),
    ///     ]
    /// }
    /// ```
    pub fn hook_command<F>(&mut self, cmd: &str, pri: i32, help: Option<&str>, cb: F) -> HookHandle<'ph> where F: Fn(&mut PluginHandle<'ph>, Word, WordEol) -> Eat + 'ph + RefUnwindSafe {
        unsafe extern "C" fn callback(word: *const *const c_char, word_eol: *const *const c_char, ud: *mut c_void) -> c_int {
            let f: Rc<HookUd> = rc_clone_from_raw(ud as *const HookUd);
            (f)(word, word_eol, ptr::null()).do_eat as c_int
        }
        let b: Rc<HookUd> = {
            let ph = self.ph;
            let info = self.info;
            let contexts = Rc::clone(&self.contexts);
            Rc::new(Box::new(move |word, word_eol, _| {
                let cb = &cb;
                let contexts = Rc::clone(&contexts);
                unsafe {
                    call_hook_protected(ph.ph, move || {
                        let mut ph = PluginHandle::new(ph, info, contexts);
                        let word = Word::new(word);
                        let word_eol = WordEol::new(word_eol);
                        cb(&mut ph, word, word_eol)
                    })
                }
            }))
        };
        let name = CString::new(cmd).unwrap();
        let help_text = help.map(CString::new).map(Result::unwrap);
        let bp = Rc::into_raw(b);
        unsafe {
            let res = ((*self.ph.ph).hexchat_hook_command)(self.ph.ph, name.as_ptr(), pri as c_int, callback, help_text.as_ref().map(|s| s.as_ptr()).unwrap_or(ptr::null()), bp as *mut _);
            assert!(!res.is_null());
            HookHandle { ph: self.ph, hh: res, freed: Default::default(), _f: PhantomData }
        }
    }
    /// Sets a server hook.
    ///
    /// # Examples
    ///
    /// ```no_run
    /// use hexchat_unsafe_plugin::{PluginHandle, HookHandle};
    ///
    /// fn register_server_hooks<'ph>(ph: &mut PluginHandle<'ph>) -> Vec<HookHandle<'ph>> {
    ///     vec![
    ///     ph.hook_server("PRIVMSG", hexchat_unsafe_plugin::PRI_NORM, |ph, word, word_eol| {
    ///         if word.len() > 0 && word[0].starts_with('@') {
    ///             ph.print("We have message tags!?");
    ///         }
    ///         hexchat_unsafe_plugin::EAT_NONE
    ///     }),
    ///     ]
    /// }
    /// ```
    pub fn hook_server<F>(&mut self, cmd: &str, pri: i32, cb: F) -> HookHandle<'ph> where F: Fn(&mut PluginHandle<'ph>, Word, WordEol) -> Eat + 'ph + RefUnwindSafe {
        self.hook_server_attrs(cmd, pri, move |ph, w, we, _| cb(ph, w, we))
    }
    /// Sets a server hook, with attributes.
    pub fn hook_server_attrs<F>(&mut self, cmd: &str, pri: i32, cb: F) -> HookHandle<'ph> where F: Fn(&mut PluginHandle<'ph>, Word, WordEol, EventAttrs) -> Eat + 'ph + RefUnwindSafe {
        unsafe extern "C" fn callback(word: *const *const c_char, word_eol: *const *const c_char, attrs: *const RawAttrs, ud: *mut c_void) -> c_int {
            let f: Rc<HookUd> = rc_clone_from_raw(ud as *const HookUd);
            (f)(word, word_eol, attrs).do_eat as c_int
        }
        let b: Rc<HookUd> = {
            let ph = self.ph;
            let info = self.info;
            let contexts = Rc::clone(&self.contexts);
            Rc::new(Box::new(move |word, word_eol, attrs| {
                let cb = &cb;
                let contexts = Rc::clone(&contexts);
                unsafe {
                    call_hook_protected(ph.ph, move || {
                        let mut ph = PluginHandle::new(ph, info, contexts);
                        let word = Word::new(word);
                        let word_eol = WordEol::new(word_eol);
                        let attrs = (&*attrs).into();
                        cb(&mut ph, word, word_eol, attrs)
                    })
                }
            }))
        };
        let name = CString::new(cmd).unwrap();
        let bp = Rc::into_raw(b);
        unsafe {
            let res = ((*self.ph.ph).hexchat_hook_server_attrs)(self.ph.ph, name.as_ptr(), pri as c_int, callback, bp as *mut _);
            assert!(!res.is_null());
            HookHandle { ph: self.ph, hh: res, freed: Default::default(), _f: PhantomData }
        }
    }
    /// Sets a print hook.
    ///
    /// # Examples
    ///
    /// ```no_run
    /// use hexchat_unsafe_plugin::{PluginHandle, HookHandle};
    ///
    /// fn register_print_hooks<'ph>(ph: &mut PluginHandle<'ph>) -> Vec<HookHandle<'ph>> {
    ///     vec![
    ///     ph.hook_print("Channel Message", hexchat_unsafe_plugin::PRI_NORM, |ph, arg| {
    ///         if let Some(nick) = arg.get(0) {
    ///             if *nick == "KnOwN_SpAmMeR" {
    ///                 return hexchat_unsafe_plugin::EAT_ALL
    ///             }
    ///         }
    ///         hexchat_unsafe_plugin::EAT_NONE
    ///     }),
    ///     ]
    /// }
    /// ```
    pub fn hook_print<F>(&mut self, name: &str, pri: i32, cb: F) -> HookHandle<'ph> where F: Fn(&mut PluginHandle<'ph>, Word) -> Eat + 'ph + RefUnwindSafe {
        // hmm, is there any way to avoid this code duplication?
        // hook_print is special because dummy prints (keypresses, Close Context) are handled
        // through here, but never through hook_print_attrs. :/
        unsafe extern "C" fn callback(word: *const *const c_char, ud: *mut c_void) -> c_int {
            let f: Rc<HookUd> = rc_clone_from_raw(ud as *const HookUd);
            (f)(word, ptr::null(), ptr::null()).do_eat as c_int
        }
        let b: Rc<HookUd> = {
            let ph = self.ph;
            let info = self.info;
            let contexts = Rc::clone(&self.contexts);
            Rc::new(Box::new(move |word, _, _| {
                let cb = &cb;
                let contexts = Rc::clone(&contexts);
                unsafe {
                    call_hook_protected(ph.ph, move || {
                        let mut ph = PluginHandle::new(ph, info, contexts);
                        let word = Word::new(word);
                        cb(&mut ph, word)
                    })
                }
            }))
        };
        let name = CString::new(name).unwrap();
        let bp = Rc::into_raw(b);
        unsafe {
            let res = ((*self.ph.ph).hexchat_hook_print)(self.ph.ph, name.as_ptr(), pri as c_int, callback, bp as *mut _);
            assert!(!res.is_null());
            HookHandle { ph: self.ph, hh: res, freed: Default::default(), _f: PhantomData }
        }
    }
    /// Sets a print hook, with attributes.
    ///
    /// # Examples
    ///
    /// ```no_run
    /// use hexchat_unsafe_plugin::{PluginHandle, HookHandle};
    ///
    /// fn register_print_hooks<'ph>(ph: &mut PluginHandle<'ph>) -> Vec<HookHandle<'ph>> {
    ///     vec![
    ///     ph.hook_print_attrs("Channel Message", hexchat_unsafe_plugin::PRI_NORM, |ph, arg, attrs| {
    ///         if let Some(nick) = arg.get(0) {
    ///             if *nick == "KnOwN_SpAmMeR" {
    ///                 return hexchat_unsafe_plugin::EAT_ALL
    ///             }
    ///         }
    ///         hexchat_unsafe_plugin::EAT_NONE
    ///     }),
    ///     ]
    /// }
    /// ```
    pub fn hook_print_attrs<F>(&mut self, name: &str, pri: i32, cb: F) -> HookHandle<'ph> where F: Fn(&mut PluginHandle<'ph>, Word, EventAttrs) -> Eat + 'ph + RefUnwindSafe {
        unsafe extern "C" fn callback(word: *const *const c_char, attrs: *const RawAttrs, ud: *mut c_void) -> c_int {
            let f: Rc<HookUd> = rc_clone_from_raw(ud as *const HookUd);
            (f)(word, ptr::null(), attrs).do_eat as c_int
        }
        let b: Rc<HookUd> = {
            let ph = self.ph;
            let info = self.info;
            let contexts = Rc::clone(&self.contexts);
            Rc::new(Box::new(move |word, _, attrs| {
                let cb = &cb;
                let contexts = Rc::clone(&contexts);
                unsafe {
                    call_hook_protected(ph.ph, move || {
                        let mut ph = PluginHandle::new(ph, info, contexts);
                        let word = Word::new(word);
                        let attrs = (&*attrs).into();
                        cb(&mut ph, word, attrs)
                    })
                }
            }))
        };
        let name = CString::new(name).unwrap();
        let bp = Rc::into_raw(b);
        unsafe {
            let res = ((*self.ph.ph).hexchat_hook_print_attrs)(self.ph.ph, name.as_ptr(), pri as c_int, callback, bp as *mut _);
            assert!(!res.is_null());
            HookHandle { ph: self.ph, hh: res, freed: Default::default(), _f: PhantomData }
        }
    }
    /// Sets a timer hook
    ///
    /// # Examples
    ///
    /// ```no_run
    /// use hexchat_unsafe_plugin::{PluginHandle, HookHandle};
    ///
    /// fn register_timers<'ph>(ph: &mut PluginHandle<'ph>) -> Vec<HookHandle<'ph>> {
    ///     vec![
    ///     ph.hook_timer(2000, |ph| {
    ///         ph.print("timer up!");
    ///         false
    ///     }),
    ///     ]
    /// }
    /// ```
    pub fn hook_timer<F>(&mut self, timeout: i32, cb: F) -> HookHandle<'ph> where F: Fn(&mut PluginHandle<'ph>) -> bool + 'ph + RefUnwindSafe {
        unsafe extern "C" fn callback(ud: *mut c_void) -> c_int {
            let f: Rc<HookUd> = rc_clone_from_raw(ud as *const HookUd);
            (f)(ptr::null(), ptr::null(), ptr::null()).do_eat as c_int
        }
        let freed = Rc::new(Cell::new(false));
        // helps us clean up the thing when returning false
        let dropper = Rc::new(Cell::new(None));
        let b: Rc<HookUd> = {
            let ph = self.ph;
            let info = self.info;
            let contexts = Rc::clone(&self.contexts);
            let freed = AssertUnwindSafe(Rc::clone(&freed));
            let dropper = AssertUnwindSafe(Rc::clone(&dropper));
            Rc::new(Box::new(move |_, _, _| {
                let cb = &cb;
                let contexts = Rc::clone(&contexts);
                let res = unsafe {
                    call_hook_protected(ph.ph, move || {
                        let mut ph = PluginHandle::new(ph, info, contexts);
                        if cb(&mut ph) {
                            EAT_HEXCHAT
                        } else {
                            EAT_NONE
                        }
                    })
                };
                if res == EAT_NONE && !freed.get() {
                    freed.set(true);
                    unsafe {
                        // drop may panic
                        // and so may unwrap
                        // but we must not panic
                        // (kinda silly to abuse call_hook_protected here
                        // but hey, it works and it helps with stuff)
                        call_hook_protected(ph.ph, || {
                            drop(Rc::from_raw(dropper.take().unwrap()));
                            EAT_NONE
                        });
                    }
                }
                res
            }))
        };
        let bp = Rc::into_raw(b);
        dropper.set(Some(bp));
        unsafe {
            let res = ((*self.ph.ph).hexchat_hook_timer)(self.ph.ph, timeout as c_int, callback, bp as *mut _);
            assert!(!res.is_null());
            HookHandle { ph: self.ph, hh: res, freed: freed, _f: PhantomData }
        }
    }

    /// Prints to the hexchat buffer.
    // this checks the context internally. if it didn't, it wouldn't be safe to have here.
    pub fn print<T: ToString>(&mut self, s: T) {
        let s = s.to_string();
        unsafe {
            hexchat_print_str(self.ph.ph, &*s, true);
        }
    }

    /// Prints to this hexchat buffer.
    ///
    /// Glue for usage of the [`write!`] macro with hexchat.
    ///
    /// # Panics
    ///
    /// This panics if any broken formatting trait implementations are used in
    /// the format arguments. See also [`format!`].
    pub fn write_fmt(&mut self, fmt: fmt::Arguments<'_>) {
        self.print(fmt);
    }

    /// Returns information on the current context.
    pub fn get_info<'a>(&'a mut self, id: InfoId) -> Option<&'a str> {
        let ph = self.ph;
        let id_cstring = CString::new(&*id.name()).unwrap();
        unsafe {
            let res = ((*ph.ph).hexchat_get_info)(ph.ph, id_cstring.as_ptr());
            if res.is_null() {
                None
            } else {
                let s = CStr::from_ptr(res).to_str();
                Some(s.expect("non-utf8 word - broken hexchat"))
            }
        }
    }

    // ******* //
    // PRIVATE //
    // ******* //

    fn find_valid_context(&mut self) -> Option<Context<'ph>> {
        unsafe {
            let ph = self.ph;
            // TODO wrap this in a safer API, with proper Drop
            #[allow(unused_mut)]
            let mut list = ((*ph.ph).hexchat_list_get)(ph.ph, cstr(b"channels\0"));
            // hexchat does this thing where it puts a context in a list_str.
            // this *is* the proper way to do this
            if ((*ph.ph).hexchat_list_next)(ph.ph, list) != 0 {
                // if this panics we may leak some memory. it's not a big deal tho, as it indicates
                // a bug in hexchat-plugin.rs.
                let ctx = ((*ph.ph).hexchat_list_str)(ph.ph, list, cstr(b"context\0")) as *const internals::HexchatContext;
                ((*ph.ph).hexchat_list_free)(ph.ph, list);
                Some(wrap_context(self, ctx))
            } else {
                ((*ph.ph).hexchat_list_free)(ph.ph, list);
                None
            }
        }
    }
}

impl<'a> EventAttrs<'a> {
    pub fn new() -> EventAttrs<'a> {
        EventAttrs {
            server_time: None,
            _dummy: PhantomData,
        }
    }
}

impl<'a> From<&'a RawAttrs> for EventAttrs<'a> {
    fn from(other: &'a RawAttrs) -> EventAttrs<'a> {
        EventAttrs {
            server_time: if other.server_time_utc > 0 { Some(UNIX_EPOCH + Duration::from_secs(other.server_time_utc as u64)) } else { None },
            _dummy: PhantomData,
        }
    }
}

impl<'a, 'ph: 'a> ValidContext<'a, 'ph> {
/*
 * These cause UB:
 * `hexchat_command` may invalidate the plugin context.
 * `hexchat_find_context` and `hexchat_nickcmp` use the plugin context without checking it.
 * `hexchat_get_prefs` uses the plugin context if name == "state_cursor" or "id" (or anything with
 * the same hash).
 * `hexchat_list_get` uses the plugin context if name == "notify" (or anything with the same hash).
 * `hexchat_list_str`, `hexchat_list_int`, 
 * `hexchat_emit_print`, `hexchat_emit_print_attrs` use the plugin context.
 * `hexchat_send_modes` uses the plugin context.
 * We need to wrap them (or, alternatively, hexchat_command). However, there's no (safe) way to get
 * a valid context afterwards.
 * - Actually that's a lie. Hexchat does a trick to give you a context as part of the channel list.
 *     We can use that to our advantage. I'm not sure if it's better to wrap hexchat_command or the
 *     other functions, tho.
 *     (Do we want to walk a linked list every time we use hexchat_command? I'd think
 *     hexchat_command is the most used API function... Plus, emit_print could indirectly
 *     invalidate the context as well.)
 *
 * For performance we put them behind an ValidContext - things that don't invalidate the
 * context take an `&mut self`, things that do take an `self`.
 */

    /// Finds an open context for the given servname and channel.
    pub fn find_context(&mut self, servname: Option<&str>, channel: Option<&str>) -> Option<Context<'ph>> {
        // this was a mistake but oh well
        let ph = self.ph.ph;
        let servname = servname.map(|x| CString::new(x).unwrap());
        let channel = channel.map(|x| CString::new(x).unwrap());
        let ctx = unsafe {
            let sptr = servname.map(|x| x.as_ptr()).unwrap_or(ptr::null());
            let cptr = channel.map(|x| x.as_ptr()).unwrap_or(ptr::null());
            ((*ph.ph).hexchat_find_context)(ph.ph, sptr, cptr)
        };
        if ctx.is_null() {
            None
        } else {
            Some(unsafe { wrap_context(self.ph, ctx) })
        }
    }

    /// Compares two nicks based on the server's case mapping.
    pub fn nickcmp(&mut self, nick1: &str, nick2: &str) -> ::std::cmp::Ordering {
        use std::cmp::Ordering;
        // this was a mistake but oh well
        let ph = self.ph.ph;
        // need to put this in a more permanent position than temporaries
        let nick1 = CString::new(nick1).unwrap();
        let nick2 = CString::new(nick2).unwrap();
        let res = unsafe {
            ((*ph.ph).hexchat_nickcmp)(ph.ph, nick1.as_ptr(), nick2.as_ptr())
        };
        if res < 0 {
            Ordering::Less
        } else if res > 0 {
            Ordering::Greater
        } else {
            Ordering::Equal
        }
    }

    pub fn send_modes<'b, I: IntoIterator<Item=&'b str>>(&mut self, iter: I, mpl: i32, sign: char, mode: char) {
        // this was a mistake but oh well
        let ph = self.ph.ph;
        assert!(sign == '+' || sign == '-', "sign must be + or -");
        assert!(mode.is_ascii(), "mode must be ascii");
        assert!(mpl >= 0, "mpl must be non-negative");
        let v: Vec<CString> = iter.into_iter().map(|s| CString::new(s).unwrap()).collect();
        let mut v2: Vec<*const c_char> = (&v).iter().map(|x| x.as_ptr()).collect();
        let arr: &mut [*const c_char] = &mut *v2;
        unsafe {
            ((*ph.ph).hexchat_send_modes)(ph.ph, arr.as_mut_ptr(), arr.len() as c_int,
                mpl as c_int, sign as c_char, mode as c_char)
        }
    }

    /// Executes a command.
    pub fn command(self, cmd: &str) {
        // this was a mistake but oh well
        let ph = self.ph.ph;
        // need to put this in a more permanent position than temporaries
        let cmd = CString::new(cmd).unwrap();
        unsafe {
            ((*ph.ph).hexchat_command)(ph.ph, cmd.as_ptr())
        }
    }

    pub fn emit_print<'b, I: IntoIterator<Item=&'b str>>(self, event: &str, args: I) -> bool {
        let ph = self.ph.ph;
        let event = CString::new(event).unwrap();
        let mut args_cs: [Option<CString>; 4] = [None, None, None, None];
        {
            let mut iter = args.into_iter();
            for i in 0..4 {
                args_cs[i] = iter.next().map(|x| CString::new(x).unwrap());
                if args_cs[i].is_none() {
                    break;
                }
            }
            if iter.next().is_some() {
                // it's better to panic so as to get bug reports when we need to increase this
                panic!("too many arguments to emit_print (max 4), or iterator not fused");
            }
        }
        let mut argv: [*const c_char; 5] = [ptr::null(); 5];
        for i in 0..4 {
            argv[i] = args_cs[i].as_ref().map_or(ptr::null(), |s| s.as_ptr());
        }
        unsafe {
            ((*ph.ph).hexchat_emit_print)(ph.ph, event.as_ptr(), argv[0], argv[1], argv[2], argv[3], argv[4]) != 0
        }
    }

    pub fn emit_print_attrs<'b, I: IntoIterator<Item=&'b str>>(self, attrs: EventAttrs, event: &str, args: I) -> bool {
        let ph = self.ph.ph;
        let event = CString::new(event).unwrap();
        let mut args_cs: [Option<CString>; 4] = [None, None, None, None];
        {
            let mut iter = args.into_iter();
            for i in 0..4 {
                args_cs[i] = iter.next().map(|x| CString::new(x).unwrap());
                if args_cs[i].is_none() {
                    break;
                }
            }
            if let Some(_) = iter.next() {
                // it's better to panic so as to get bug reports when we need to increase this
                panic!("too many arguments to emit_print_attrs (max 4), or iterator not fused");
            }
        }
        let mut argv: [*const c_char; 5] = [ptr::null(); 5];
        for i in 0..4 {
            argv[i] = args_cs[i].as_ref().map_or(ptr::null(), |s| s.as_ptr());
        }
        let helper = unsafe { HexchatEventAttrsHelper::new_with(ph.ph, attrs) };
        unsafe {
            ((*ph.ph).hexchat_emit_print_attrs)(ph.ph, helper.0, event.as_ptr(), argv[0], argv[1], argv[2], argv[3], argv[4]) != 0
        }
    }

    // ******** //
    // FORWARDS //
    // ******** //
    // We can't just deref because then you could recursively ensure valid context and then it'd no
    // longer work.

    pub fn get_context(&mut self) -> Context<'ph> {
        self.ph.get_context()
    }

    /// Sets the current context.
    ///
    /// Returns `true` if the context is valid, `false` otherwise.
    pub fn set_context(&mut self, ctx: &Context<'ph>) -> bool {
        self.ph.set_context(ctx)
    }

    /// Prints to the hexchat buffer.
    // as of hexchat 2.14.1, this does not call hooks.
    pub fn print<T: ToString>(&mut self, s: T) {
        self.ph.print(s)
    }

    /// Prints to this hexchat buffer.
    ///
    /// Glue for usage of the [`write!`] macro with hexchat.
    ///
    /// # Panics
    ///
    /// This panics if any broken formatting trait implementations are used in
    /// the format arguments. See also [`format!`].
    pub fn write_fmt(&mut self, fmt: fmt::Arguments<'_>) {
        self.ph.write_fmt(fmt)
    }

    /// Sets a command hook
    pub fn hook_command<F>(&mut self, cmd: &str, pri: i32, help: Option<&str>, cb: F) -> HookHandle<'ph> where F: Fn(&mut PluginHandle<'ph>, Word, WordEol) -> Eat + 'ph + RefUnwindSafe {
        self.ph.hook_command(cmd, pri, help, cb)
    }
    /// Sets a server hook
    pub fn hook_server<F>(&mut self, cmd: &str, pri: i32, cb: F) -> HookHandle<'ph> where F: Fn(&mut PluginHandle<'ph>, Word, WordEol) -> Eat + 'ph + RefUnwindSafe {
        self.ph.hook_server(cmd, pri, cb)
    }
    /// Sets a server hook with attributes
    pub fn hook_server_attrs<F>(&mut self, cmd: &str, pri: i32, cb: F) -> HookHandle<'ph> where F: Fn(&mut PluginHandle<'ph>, Word, WordEol, EventAttrs) -> Eat + 'ph + RefUnwindSafe {
        self.ph.hook_server_attrs(cmd, pri, cb)
    }
    /// Sets a print hook
    pub fn hook_print<F>(&mut self, name: &str, pri: i32, cb: F) -> HookHandle<'ph> where F: Fn(&mut PluginHandle<'ph>, Word) -> Eat + 'ph + RefUnwindSafe {
        self.ph.hook_print(name, pri, cb)
    }
    /// Sets a print hook with attributes
    pub fn hook_print_attrs<F>(&mut self, name: &str, pri: i32, cb: F) -> HookHandle<'ph> where F: Fn(&mut PluginHandle<'ph>, Word, EventAttrs) -> Eat + 'ph + RefUnwindSafe {
        self.ph.hook_print_attrs(name, pri, cb)
    }
    /// Sets a timer hook
    pub fn hook_timer<F>(&mut self, timeout: i32, cb: F) -> HookHandle<'ph> where F: Fn(&mut PluginHandle<'ph>) -> bool + 'ph + RefUnwindSafe {
        self.ph.hook_timer(timeout, cb)
    }
    pub fn get_info<'b>(&'b mut self, id: InfoId) -> Option<&'b str> {
        self.ph.get_info(id)
    }
}

// ******* //
// PRIVATE //
// ******* //

// Type aliases, used for safety type checking.
// /// Userdata type used by a command hook.
// We actually do want RefUnwindSafe. This function may be called multiple times, and it's not
// automatically invalidated if it panics, so it may be called again after it panics. If you need
// mutable state, std provides std::sync::Mutex which has poisoning. Other interior mutability with
// poisoning could also be used. std doesn't have anything for single-threaded performance (yet),
// but hexchat isn't particularly performance-critical.
// type CommandHookUd = Box<dyn Fn(Word, WordEol) -> Eat + ::std::panic::RefUnwindSafe>;
// /// Userdata type used by a server hook.
// type ServerHookUd = Box<dyn Fn(Word, WordEol, EventAttrs) -> Eat + ::std::panic::RefUnwindSafe>;
// /// Userdata type used by a print hook.
// type PrintHookUd = Box<dyn Fn(Word, EventAttrs) -> Eat + ::std::panic::RefUnwindSafe>;
// /// Userdata type used by a timer hook.
// type TimerHookUd = Box<dyn Fn() -> bool + ::std::panic::RefUnwindSafe>;
/// Userdata type used by a hook
type HookUd<'ph> = Box<dyn Fn(*const *const c_char, *const *const c_char, *const RawAttrs) -> Eat + RefUnwindSafe + 'ph>;
/// Contexts
type Contexts = Rc<AssertUnwindSafe<RefCell<HashSet<Rc<*const internals::HexchatContext>>>>>;

/// The contents of an empty CStr.
///
/// This is useful where you need a non-null CStr.
// NOTE: MUST BE b"\0"!
const EMPTY_CSTRING_DATA: &[u8] = b"\0";

/// Converts a nul-terminated const bstring to a C string.
///
/// # Panics
///
/// Panics if b contains embedded nuls.
// TODO const fn, once that's possible
fn cstr(b: &'static [u8]) -> *const c_char {
    CStr::from_bytes_with_nul(b).unwrap().as_ptr()
}

/// Clones an Rc straight from a raw pointer.
///
/// # Safety
///
/// This function is unsafe because `ptr` must hame come from `Rc::into_raw`.
unsafe fn rc_clone_from_raw<T>(ptr: *const T) -> Rc<T> {
    let rc = ManuallyDrop::new(Rc::from_raw(ptr));
    Rc::clone(&rc)
}

/// Converts a **valid** context pointer into a Context (Rust-managed) struct.
///
/// # Safety
///
/// This function doesn't validate the context.
unsafe fn wrap_context<'ph>(ph: &mut PluginHandle<'ph>, ctx: *const internals::HexchatContext) -> Context<'ph> {
    let contexts = ph.contexts.clone();
    if ctx.is_null() {
        Context { contexts, ctx: RcWeak::new(), _ph: PhantomData }
    } else {
        let weak_ctxp = (|| {
            // need to drop the borrow(), so use an (|| IIFE)()
            contexts.borrow().get(&ctx).map(|x| {
                Rc::downgrade(x)
            })
        })().unwrap_or_else(|| {
            let ctxp = Rc::new(ctx);
            let weak_ctxp = Rc::downgrade(&ctxp);
            contexts.borrow_mut().insert(ctxp);
            weak_ctxp
        });
        Context { contexts, ctx: weak_ctxp, _ph: PhantomData }
    }
}

/// Prints an &str to hexchat, trying to avoid allocations.
///
/// # Safety
///
/// This function does not check the passed in argument.
///
/// # Panics
///
/// Panics if panic_on_nul is true and the string contains embedded nuls.
unsafe fn hexchat_print_str(ph: *mut RawPh, s: &str, panic_on_nul: bool) {
    match CString::new(s) {
        Result::Ok(cs @ _) => {
            let csr: &CStr = &cs;
            ((*ph).hexchat_print)(ph, csr.as_ptr())
        },
        e @ _ => if panic_on_nul {e.unwrap();}, // TODO nul_position?
    }
}

/// Helper to manage owned RawAttrs
struct HexchatEventAttrsHelper(*mut RawAttrs, *mut RawPh);

impl HexchatEventAttrsHelper {
    /// Creates a new, empty `HexchatEventAttrsHelper`.
    ///
    /// # Safety
    ///
    /// `ph` must be a valid raw plugin handle.
    unsafe fn new(ph: *mut RawPh) -> Self {
        HexchatEventAttrsHelper(((*ph).hexchat_event_attrs_create)(ph), ph)
    }

    /// Creates a new `HexchatEventAttrsHelper` for a given `EventAttrs`.
    ///
    /// # Safety
    ///
    /// `ph` must be a valid raw plugin handle.
    unsafe fn new_with(ph: *mut RawPh, attrs: EventAttrs<'_>) -> Self {
        let helper = Self::new(ph);
        let v = attrs.server_time.or(Some(UNIX_EPOCH)).map(|st| match st.duration_since(UNIX_EPOCH) {
            Ok(n) => n.as_secs(),
            Err(_) => 0
        }).filter(|&st| st < (time_t::max_value() as u64)).unwrap() as time_t;
        (*helper.0).server_time_utc = v;
        helper
    }
}

impl Drop for HexchatEventAttrsHelper {
    fn drop(&mut self) {
        unsafe {
            ((*self.1).hexchat_event_attrs_free)(self.1, self.0)
        }
    }
}

/// Plugin data stored in the hexchat plugin_handle.
struct PhUserdata<'ph> {
    plug: Box<dyn Plugin<'ph> + 'ph>,
    contexts: Contexts,
    // this is never read, but we need to not drop it until we can drop it
    _context_hook: HookHandle<'ph>,
    pluginfo: PluginInfo,
}

/// Puts the userdata in the plugin handle.
///
/// # Safety
///
/// This function is unsafe because it doesn't check if the pointer is valid.
///
/// Improper use of this function can leak memory.
unsafe fn put_userdata<'ph>(ph: LtPhPtr<'ph>, ud: Rc<PhUserdata<'ph>>) {
    (*ph.ph).userdata = Rc::into_raw(ud) as *mut c_void;
}

// /// Clones the userdata from the plugin handle.
// /// 
// /// # Safety
// ///
// /// This function is unsafe because it doesn't check if the pointer is valid.
// unsafe fn clone_userdata(ph: *mut RawPh) -> Option<Rc<PhUserdata>> {
//     let ptr = (*ph).userdata as *const PhUserdata;
//     if ptr.is_null() {
//         None
//     } else {
//         Some(rc_clone_from_raw(ptr))
//     }
// }

/// Pops the userdata from the plugin handle.
///
/// # Safety
///
/// This function is unsafe because it doesn't check if the pointer is valid.
unsafe fn pop_userdata<'ph>(ph: LtPhPtr<'ph>) -> Rc<PhUserdata<'ph>> {
    Rc::from_raw(mem::replace(&mut (*ph.ph).userdata, ptr::null_mut()) as *mut PhUserdata<'ph>)
}

// *********************** //
// PUBLIC OUT OF NECESSITY //
// *********************** //

#[doc(hidden)]
pub unsafe fn hexchat_plugin_init<'ph, T>(plugin_handle: LtPhPtr<'ph>,
                                     plugin_name: *mut *const c_char,
                                     plugin_desc: *mut *const c_char,
                                     plugin_version: *mut *const c_char,
                                     arg: *const c_char) -> c_int
                                     where T: Plugin<'ph> + Default + 'ph {
    if plugin_handle.ph.is_null() || plugin_name.is_null() || plugin_desc.is_null() || plugin_version.is_null() {
        // we can't really do anything here.
        eprintln!("hexchat_plugin_init called with a null pointer that shouldn't be null - broken hexchat");
        // TODO maybe call abort.
        return 0;
    }
    let ph = plugin_handle.ph as *mut RawPh;
    // clear the "userdata" field first thing - if the deinit function gets called (wrong hexchat
    // version, other issues), we don't wanna try to drop the hexchat_dummy or hexchat_read_fd
    // function as if it were a Box!
    (*ph).userdata = ptr::null_mut();
    // read the filename so we can pass it on later.
    let filename = if !(*plugin_name).is_null() {
        if let Ok(fname) = CStr::from_ptr(*plugin_name).to_owned().into_string() {
            fname
        } else {
            eprintln!("failed to convert filename to utf8 - broken hexchat");
            return 0;
        }
    } else {
        // no filename specified for some reason, but we can still load
        String::new() // empty string
    };
    // these may be null, unless initialization is successful.
    // we set them to null as markers.
    *plugin_name = ptr::null();
    *plugin_desc = ptr::null();
    *plugin_version = ptr::null();
    // do some version checks for safety
    // NOTE: calling hexchat functions with null plugin_name, plugin_desc, plugin_version is a bit
    // dangerous. this particular case is "ok".
    {
        let ver = ((*ph).hexchat_get_info)(ph, cstr(b"version\0")); // this shouldn't panic
        let cstr = CStr::from_ptr(ver);
        if let Ok(ver) = cstr.to_str() {
            let mut iter = ver.split('.');
            let a = iter.next().map(i32::from_str).and_then(Result::ok).unwrap_or(0);
            let b = iter.next().map(i32::from_str).and_then(Result::ok).unwrap_or(0);
            let c = iter.next().map(i32::from_str).and_then(Result::ok).unwrap_or(0);
            // 2.9.6 or greater
            if !(a > 2 || (a == 2 && (b > 9 || (b == 9 && (c > 6 || (c == 6)))))) {
                return 0;
            }
        } else {
            return 0;
        }
    }
    let mut pluginfo = if let Some(pluginfo) = PluginInfo::new(plugin_name, plugin_desc, plugin_version) {
        pluginfo
    } else {
        return 0;
    };
    let r: thread::Result<Option<Rc<_>>> = {
        catch_unwind(move || {
            // AssertUnwindSafe not Default at the time of writing this
            let contexts = Rc::new(AssertUnwindSafe(Default::default()));
            let mut pluginhandle = PluginHandle::new(plugin_handle, pluginfo, contexts);
            let contexts = Rc::clone(&pluginhandle.contexts);
            // must register this before the plugin registers anything else!
            let context_hook = pluginhandle.hook_print("Close Context", c_int::min_value(), move |ph, _| {
                // just remove the context! it's that simple!
                let ctx = unsafe { ((*ph.ph.ph).hexchat_get_context)(ph.ph.ph) };
                contexts.borrow_mut().remove(&ctx);
                EAT_NONE
            });
            let contexts = Rc::clone(&pluginhandle.contexts);
            let plug = T::default();
            if plug.init(&mut pluginhandle, &filename, if !arg.is_null() { Some(CStr::from_ptr(arg).to_str().expect("arg not valid utf-8 - broken hexchat")) } else { None }) {
                if !(pluginfo.name.is_null() || pluginfo.desc.is_null() || pluginfo.vers.is_null()) {
                    Some(Rc::new(PhUserdata { plug: Box::new(plug), pluginfo, contexts, _context_hook: context_hook }))
                } else {
                    // TODO log: forgot to call register
                    None
                }
            } else {
                if !(pluginfo.name.is_null() || pluginfo.desc.is_null() || pluginfo.vers.is_null()) {
                    pluginfo.drop_info()
                }
                None
            }
        })
    };
    match r {
        Result::Ok(Option::Some(plug @ _)) => {
            put_userdata(plugin_handle, plug);
            1
        },
        r @ _ => {
            if let Err(_) = r {
                // TODO try to log panic?
            }
            0
        },
    }
}

#[doc(hidden)]
pub unsafe fn hexchat_plugin_deinit<'ph, T>(plugin_handle: LtPhPtr<'ph>) -> c_int where T: Plugin<'ph> {
    let mut safe_to_unload = 1;
    // plugin_handle should never be null, but just in case.
    if !plugin_handle.ph.is_null() {
        let ph = plugin_handle.ph as *mut RawPh;
        // userdata should also never be null - unless we already unloaded.
        if !(*ph).userdata.is_null() {
            {
                let mut info: Option<PluginInfo> = None;
                {
                    let mut ausinfo = AssertUnwindSafe(&mut info);
                    safe_to_unload = if catch_unwind(move || {
                        let userdata = pop_userdata(plugin_handle);
                        let pluginfo = userdata.pluginfo;
                        userdata.plug.deinit(&mut PluginHandle::new(plugin_handle, pluginfo, Rc::clone(&userdata.contexts)));
                        drop(userdata);
                        **ausinfo = Some(pluginfo);
                        // we drop the plugin regardless of whether or not
                        // deinit panics, altho it's worth noting that a panic
                        // in deinit followed by a panic in drop will cause an
                        // abort.
                        // we return 0 mostly as a hint that something went
                        // wrong, than anything else.
                        // we do deliberately leak pluginfo on panic, also.
                    }).is_ok() { 1 } else { 0 };
                }
                if let Some(mut info) = info {
                    info.drop_info();
                } else {
                    eprintln!("I have no idea tbh, I didn't know `pop_userdata` could panic!");
                }
            }
        } else {
            // this is completely normal if we've panicked before.
        }
    } else {
        eprintln!("hexchat_plugin_deinit called with a null plugin_handle - broken hexchat");
    }
    safe_to_unload
}

/// Exports a hexchat plugin.
#[macro_export]
macro_rules! hexchat_plugin {
    ($l:lifetime, $t:ty) => {
        #[no_mangle]
        pub unsafe extern "C" fn hexchat_plugin_init<$l>(plugin_handle: $crate::LtPhPtr<$l>,
                                              plugin_name: *mut *const $crate::c_char,
                                              plugin_desc: *mut *const $crate::c_char,
                                              plugin_version: *mut *const $crate::c_char,
                                              arg: *const $crate::c_char) -> $crate::c_int {
            $crate::hexchat_plugin_init::<$l, $t>(plugin_handle, plugin_name, plugin_desc, plugin_version, arg)
        }
        #[no_mangle]
        pub unsafe extern "C" fn hexchat_plugin_deinit<$l>(plugin_handle: $crate::LtPhPtr<$l>) -> $crate::c_int {
            $crate::hexchat_plugin_deinit::<$l, $t>(plugin_handle)
        }
        // unlike what the documentation states, there's no need to define hexchat_plugin_get_info.
        // so we don't. it'd be impossible to make it work well with rust anyway.
    };
}