253 lines
7.8 KiB
C++
253 lines
7.8 KiB
C++
/*
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* \brief Parts of the kernel interface that are restricted to core
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* \author Martin stein
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* \date 2014-03-15
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*/
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/*
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* Copyright (C) 2014-2017 Genode Labs GmbH
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*
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* This file is part of the Genode OS framework, which is distributed
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* under the terms of the GNU Affero General Public License version 3.
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*/
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#ifndef _CORE__KERNEL__CORE_INTERFACE_H_
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#define _CORE__KERNEL__CORE_INTERFACE_H_
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/* base-internal includes */
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#include <base/internal/native_utcb.h>
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/* base-hw includes */
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#include <kernel/interface.h>
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namespace Genode { class Native_utcb; }
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namespace Kernel
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{
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class Pd;
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class Thread;
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class Signal_receiver;
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class Signal_context;
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class Vm;
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class User_irq;
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using Native_utcb = Genode::Native_utcb;
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/**
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* Kernel names of the kernel calls
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*/
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constexpr Call_arg call_id_new_thread() { return 100; }
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constexpr Call_arg call_id_delete_thread() { return 101; }
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constexpr Call_arg call_id_start_thread() { return 102; }
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constexpr Call_arg call_id_pause_thread() { return 103; }
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constexpr Call_arg call_id_resume_thread() { return 104; }
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constexpr Call_arg call_id_thread_pager() { return 105; }
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constexpr Call_arg call_id_thread_quota() { return 106; }
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constexpr Call_arg call_id_invalidate_tlb() { return 107; }
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constexpr Call_arg call_id_new_pd() { return 108; }
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constexpr Call_arg call_id_delete_pd() { return 109; }
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constexpr Call_arg call_id_new_signal_receiver() { return 110; }
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constexpr Call_arg call_id_new_signal_context() { return 111; }
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constexpr Call_arg call_id_delete_signal_context() { return 112; }
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constexpr Call_arg call_id_delete_signal_receiver() { return 113; }
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constexpr Call_arg call_id_new_vm() { return 114; }
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constexpr Call_arg call_id_run_vm() { return 115; }
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constexpr Call_arg call_id_pause_vm() { return 116; }
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constexpr Call_arg call_id_delete_vm() { return 117; }
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constexpr Call_arg call_id_new_irq() { return 118; }
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constexpr Call_arg call_id_delete_irq() { return 119; }
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constexpr Call_arg call_id_ack_irq() { return 120; }
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constexpr Call_arg call_id_new_obj() { return 121; }
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constexpr Call_arg call_id_delete_obj() { return 122; }
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constexpr Call_arg call_id_cancel_thread_blocking() { return 123; }
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constexpr Call_arg call_id_new_core_thread() { return 124; }
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/**
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* Invalidate TLB entries for the `pd` in region `addr`, `sz`
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*/
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inline void invalidate_tlb(Pd * const pd, addr_t const addr,
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size_t const sz)
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{
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call(call_id_invalidate_tlb(), (Call_arg)pd, (Call_arg)addr,
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(Call_arg)sz);
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}
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/**
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* Configure the CPU quota of a thread
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*
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* \param thread kernel object of the targeted thread
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* \param quota new CPU quota value
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*/
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inline void thread_quota(Kernel::Thread * const thread, size_t const quota)
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{
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call(call_id_thread_quota(), (Call_arg)thread, (Call_arg)quota);
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}
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/**
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* Pause execution of a thread until 'resume_thread' is called on it
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*
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* \param thread pointer to thread kernel object
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*
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* This doesn't affect the state of the thread (IPC, signalling, etc.) but
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* merely wether the thread is allowed for scheduling or not. The pause
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* state simply masks the thread state when it comes to scheduling. In
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* contrast to the 'stopped' thread state, which is described in the
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* documentation of the 'stop_thread/resume_thread' syscalls, the pause
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* state doesn't freeze the thread state and the UTCB content of a thread.
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* However, the register state of a thread doesn't change while paused.
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* The 'pause' and 'resume' syscalls are both core-restricted and may
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* target any thread. They are used as back end for the CPU session calls
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* 'pause' and 'resume'. The 'pause/resume' feature is made for
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* applications like the GDB monitor that transparently want to stop and
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* continue the execution of a thread no matter what state the thread is
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* in.
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*/
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inline void pause_thread(Thread * const thread)
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{
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call(call_id_pause_thread(), (Call_arg)thread);
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}
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/**
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* End blocking of a paused thread
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*
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* \param thread pointer to thread kernel object
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*/
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inline void resume_thread(Thread * const thread)
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{
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call(call_id_resume_thread(), (Call_arg)thread);
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}
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/**
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* Start execution of a thread
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*
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* \param thread pointer to thread kernel object
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* \param cpu_id kernel name of the targeted CPU
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* \param pd pointer to pd kernel object
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* \param utcb core local pointer to userland thread-context
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*
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* \retval 0 suceeded
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* \retval !=0 failed
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*/
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inline int start_thread(Thread * const thread, unsigned const cpu_id,
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Pd * const pd, Native_utcb * const utcb)
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{
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return call(call_id_start_thread(), (Call_arg)thread, cpu_id,
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(Call_arg)pd, (Call_arg)utcb);
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}
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/**
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* Cancel blocking of a thread if it is in a cancelable blocking state
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*
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* \param thread pointer to thread kernel object
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*
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* Does cleanly cancel a cancelable blocking thread state (IPC, signalling,
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* stopped). The thread whose blocking was cancelled goes back to the
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* 'active' thread state. If needed, it receives a syscall return value
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* that reflects the cancellation. This syscall doesn't affect the pause
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* state of the thread (see the 'pause_thread' syscall) which means that
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* the thread may still be not allowed for scheduling. The syscall is
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* core-restricted and may target any thread. It is actually used to
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* limit the time a parent waits for a server when closing a session
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* of one of its children.
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*/
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inline void cancel_thread_blocking(Thread * const thread)
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{
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call(call_id_cancel_thread_blocking(), (Call_arg)thread);
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}
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/**
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* Set or unset the handler of an event that can be triggered by a thread
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*
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* \param thread pointer to thread kernel object
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* \param signal_context_id capability id of the page-fault handler
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*/
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inline void thread_pager(Thread * const thread,
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capid_t const signal_context_id)
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{
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call(call_id_thread_pager(), (Call_arg)thread, signal_context_id);
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}
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/**
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* Execute a virtual-machine (again)
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*
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* \param vm pointer to vm kernel object
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*/
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inline void run_vm(Vm * const vm)
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{
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call(call_id_run_vm(), (Call_arg) vm);
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}
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/**
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* Stop execution of a virtual-machine
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*
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* \param vm pointer to vm kernel object
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*/
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inline void pause_vm(Vm * const vm)
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{
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call(call_id_pause_vm(), (Call_arg) vm);
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}
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/**
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* Create an interrupt object
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*
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* \param p memory donation for the irq object
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* \param irq_nr interrupt number
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* \param signal_context_id capability id of the signal context
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*/
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inline int new_irq(addr_t const p, unsigned irq_nr,
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capid_t signal_context_id)
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{
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return call(call_id_new_irq(), (Call_arg) p, irq_nr, signal_context_id);
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}
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/**
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* Acknowledge interrupt
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*
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* \param irq pointer to interrupt kernel object
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*/
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inline void ack_irq(User_irq * const irq)
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{
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call(call_id_ack_irq(), (Call_arg) irq);
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}
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/**
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* Destruct an interrupt object
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*
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* \param irq pointer to interrupt kernel object
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*/
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inline void delete_irq(User_irq * const irq)
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{
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call(call_id_delete_irq(), (Call_arg) irq);
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}
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/**
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* Create a new object identity for a thread
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*
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* \param dst memory donation for the new object
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* \param cap capability id of the targeted thread
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*/
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inline capid_t new_obj(void * const dst, capid_t const cap)
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{
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return call(call_id_new_obj(), (Call_arg)dst, (Call_arg)cap);
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}
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/**
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* Destroy an object identity
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*
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* \param dst pointer to the object identity object
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*/
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inline void delete_obj(void * const dst)
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{
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call(call_id_delete_obj(), (Call_arg)dst);
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}
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}
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#endif /* _CORE__KERNEL__CORE_INTERFACE_H_ */
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