ladybird/Kernel/Arch/DeferredCallPool.cpp

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/*
* Copyright (c) 2020, Tom <tomut@yahoo.com>
* Copyright (c) 2023, Timon Kruiper <timonkruiper@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <Kernel/Arch/DeferredCallEntry.h>
#include <Kernel/Arch/DeferredCallPool.h>
#include <Kernel/Heap/kmalloc.h>
namespace Kernel {
void DeferredCallPool::init()
{
size_t pool_count = sizeof(m_deferred_call_pool) / sizeof(m_deferred_call_pool[0]);
for (size_t i = 0; i < pool_count; i++) {
auto& entry = m_deferred_call_pool[i];
entry.next = i < pool_count - 1 ? &m_deferred_call_pool[i + 1] : nullptr;
new (entry.handler_storage) DeferredCallEntry::HandlerFunction;
entry.was_allocated = false;
}
m_pending_deferred_calls = nullptr;
m_free_deferred_call_pool_entry = &m_deferred_call_pool[0];
}
void DeferredCallPool::return_to_pool(DeferredCallEntry* entry)
{
VERIFY(!entry->was_allocated);
entry->handler_value() = {};
entry->next = m_free_deferred_call_pool_entry;
m_free_deferred_call_pool_entry = entry;
}
DeferredCallEntry* DeferredCallPool::get_free()
{
if (m_free_deferred_call_pool_entry) {
// Fast path, we have an entry in our pool
auto* entry = m_free_deferred_call_pool_entry;
m_free_deferred_call_pool_entry = entry->next;
VERIFY(!entry->was_allocated);
return entry;
}
auto* entry = new DeferredCallEntry;
new (entry->handler_storage) DeferredCallEntry::HandlerFunction;
entry->was_allocated = true;
return entry;
}
void DeferredCallPool::execute_pending()
{
if (!m_pending_deferred_calls)
return;
auto* pending_list = m_pending_deferred_calls;
m_pending_deferred_calls = nullptr;
// We pulled the stack of pending deferred calls in LIFO order, so we need to reverse the list first
auto reverse_list = [](DeferredCallEntry* list) -> DeferredCallEntry* {
DeferredCallEntry* rev_list = nullptr;
while (list) {
auto next = list->next;
list->next = rev_list;
rev_list = list;
list = next;
}
return rev_list;
};
pending_list = reverse_list(pending_list);
do {
pending_list->invoke_handler();
// Return the entry back to the pool, or free it
auto* next = pending_list->next;
if (pending_list->was_allocated) {
pending_list->handler_value().~Function();
delete pending_list;
} else
return_to_pool(pending_list);
pending_list = next;
} while (pending_list);
}
void DeferredCallPool::queue_entry(DeferredCallEntry* entry)
{
entry->next = m_pending_deferred_calls;
m_pending_deferred_calls = entry;
}
}