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b694045bd9
Every thread receives a startup message from its creator through the initial state of its userland thread-context. The thread-startup code remembers the kernel name of the new thread by reading this message before the userland thread-context gets polluted. This way, Kernel::current_thread_id becomes unnecessary. fix #953
592 lines
16 KiB
C++
592 lines
16 KiB
C++
/*
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* \brief Interface between kernel and userland
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* \author Martin stein
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* \date 2011-11-30
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*/
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/*
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* Copyright (C) 2011-2013 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 General Public License version 2.
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*/
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#ifndef _KERNEL__INTERFACE_H_
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#define _KERNEL__INTERFACE_H_
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/* Genode includes */
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#include <kernel/interface_support.h>
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namespace Genode
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{
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class Native_utcb;
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class Platform_pd;
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class Tlb;
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}
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namespace Kernel
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{
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typedef Genode::Tlb Tlb;
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typedef Genode::addr_t addr_t;
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typedef Genode::size_t size_t;
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typedef Genode::Platform_pd Platform_pd;
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typedef Genode::Native_utcb Native_utcb;
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/**
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* Kernel names of all kernel calls
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*/
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struct Call_id
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{
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enum {
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NEW_THREAD = 0,
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KILL_THREAD = 1,
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START_THREAD = 2,
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PAUSE_THREAD = 3,
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RESUME_THREAD = 4,
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YIELD_THREAD = 5,
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ACCESS_THREAD_REGS = 6,
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ROUTE_THREAD_EVENT = 7,
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UPDATE_PD = 8,
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UPDATE_REGION = 9,
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NEW_PD = 10,
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KILL_PD = 11,
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REQUEST_AND_WAIT = 12,
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REPLY = 13,
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WAIT_FOR_REQUEST = 14,
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NEW_SIGNAL_RECEIVER = 15,
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NEW_SIGNAL_CONTEXT = 16,
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KILL_SIGNAL_CONTEXT = 17,
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KILL_SIGNAL_RECEIVER = 18,
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SUBMIT_SIGNAL = 19,
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AWAIT_SIGNAL = 20,
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SIGNAL_PENDING = 21,
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ACK_SIGNAL = 22,
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NEW_VM = 23,
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RUN_VM = 24,
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PAUSE_VM = 25,
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PRINT_CHAR = 26,
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};
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};
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/*****************************************************************
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** Kernel call with 1 to 6 arguments **
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** **
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** These functions must not be inline to ensure that objects, **
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** wich are referenced by arguments, are tagged as "used" even **
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** though only the pointer gets handled in here. **
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*****************************************************************/
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Call_ret call(Call_arg arg_0);
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Call_ret call(Call_arg arg_0,
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Call_arg arg_1);
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Call_ret call(Call_arg arg_0,
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Call_arg arg_1,
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Call_arg arg_2);
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Call_ret call(Call_arg arg_0,
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Call_arg arg_1,
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Call_arg arg_2,
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Call_arg arg_3);
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Call_ret call(Call_arg arg_0,
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Call_arg arg_1,
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Call_arg arg_2,
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Call_arg arg_3,
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Call_arg arg_4);
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Call_ret call(Call_arg arg_0,
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Call_arg arg_1,
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Call_arg arg_2,
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Call_arg arg_3,
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Call_arg arg_4,
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Call_arg arg_5);
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/**
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* Virtual range of the mode transition region in every PD
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*/
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addr_t mode_transition_virt_base();
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size_t mode_transition_size();
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/**
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* Get sizes of the kernel objects
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*/
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size_t thread_size();
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size_t pd_size();
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size_t signal_context_size();
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size_t signal_receiver_size();
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size_t vm_size();
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/**
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* Get alignment constraints of the kernel objects
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*/
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unsigned kernel_pd_alignm_log2();
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/**
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* Create a protection domain
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*
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* \param p appropriate memory donation for the kernel object
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* \param pd core local Platform_pd object
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*
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* \retval >0 kernel name of the new protection domain
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* \retval 0 failed
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*
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* Restricted to core threads. Regaining of the supplied memory is not
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* supported by now.
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*/
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inline unsigned new_pd(void * const dst, Platform_pd * const pd)
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{
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return call(Call_id::NEW_PD, (Call_arg)dst, (Call_arg)pd);
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}
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/**
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* Destruct a protection domain
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*
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* \param pd_id kernel name of the targeted protection domain
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*
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* \retval 0 succeeded
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* \retval -1 failed
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*/
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inline int kill_pd(unsigned const pd_id)
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{
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return call(Call_id::KILL_PD, pd_id);
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}
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/**
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* Propagate changes in PD configuration
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*
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* \param pd_id ID of the PD that has been configured
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*
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* It might be, that the kernel and/or the hardware caches parts of PD
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* configurations such as virtual address translations. This function
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* ensures that the current configuration of the targeted PD gets fully
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* applied from the moment it returns to the userland. This function is
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* inappropriate in case that a PD wants to change its own configuration.
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* There's no need for this function after a configuration change that
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* can't affect the kernel- and/or hardware-caches.
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*
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* Restricted to core threads.
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*/
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inline void update_pd(unsigned const pd_id)
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{
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call(Call_id::UPDATE_PD, pd_id);
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}
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/**
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* Propagate memory-updates within a given virtual region
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*
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* \param base virtual base of the region
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* \param size size of the region
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*
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* If one updates a memory region and must ensure that the update
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* gets visible directly to other address spaces, this function does
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* the job.
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*
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* Restricted to core threads.
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*/
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inline void update_region(addr_t const base, size_t const size)
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{
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call(Call_id::UPDATE_REGION, (Call_arg)base, (Call_arg)size);
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}
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/**
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* Create kernel object that acts as thread that isn't executed initially
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*
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* \param p memory donation for the new kernel thread object
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* \param priority scheduling priority of the new thread
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* \param label debugging label of the new thread
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*
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* \retval >0 kernel name of the new thread
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* \retval 0 failed
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*
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* Restricted to core threads.
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*/
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inline int new_thread(void * const p, unsigned const priority,
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char const * const label)
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{
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return call((Call_arg)Call_id::NEW_THREAD, (Call_arg)p, (Call_arg)priority,
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(Call_arg)label);
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}
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/**
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* Destruct kernel thread-object
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*
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* \param thread_id kernel name of the targeted thread
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*
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* Restricted to core threads.
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*/
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inline void kill_thread(unsigned const thread_id)
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{
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call(Call_id::KILL_THREAD, thread_id);
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}
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/**
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* Start executing a thread
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*
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* \param thread_id kernel name of targeted thread
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* \param cpu_id kernel name of targeted processor
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* \param pd_id kernel name of targeted protection domain
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* \param utcb core local pointer to userland thread-context
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*
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* Restricted to core threads.
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*/
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inline Tlb * start_thread(unsigned const thread_id, unsigned const cpu_id,
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unsigned const pd_id, Native_utcb * const utcb)
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{
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return (Tlb *)call(Call_id::START_THREAD, thread_id, cpu_id, pd_id,
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(Call_arg)utcb);
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}
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/**
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* Prevent thread from participating in CPU scheduling
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*
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* \param id ID of the targeted thread. If not set
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* this will target the current thread.
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*
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* \retval 0 succeeded
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* \retval -1 the targeted thread does not exist or is still active
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*
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* If the caller doesn't target itself, this is restricted to core threads.
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*/
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inline int pause_thread(unsigned const id = 0)
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{
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return call(Call_id::PAUSE_THREAD, id);
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}
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/**
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* Let an already started thread participate in CPU scheduling
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*
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* \param id ID of the targeted thread
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*
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* \retval 0 succeeded and thread was paused beforehand
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* \retval 1 succeeded and thread was active beforehand
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* \retval -1 failed
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*
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* If the targeted thread blocks for any event except a 'start_thread'
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* call this call cancels the blocking.
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*/
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inline int resume_thread(unsigned const id = 0)
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{
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return call(Call_id::RESUME_THREAD, id);
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}
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/**
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* Let the current thread give up its remaining timeslice
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*
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* \param id if this thread ID is set and valid this will resume the
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* targeted thread additionally
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*/
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inline void yield_thread(unsigned const id = 0)
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{
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call(Call_id::YIELD_THREAD, id);
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}
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/**
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* Set or unset the handler of an event a kernel thread-object triggers
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*
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* \param thread_id kernel name of the targeted thread
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* \param event_id kernel name of the targeted thread event
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* \param signal_context_id kernel name of the handlers signal context
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*
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* Restricted to core threads.
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*/
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inline int route_thread_event(unsigned const thread_id,
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unsigned const event_id,
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unsigned const signal_context_id)
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{
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return call(Call_id::ROUTE_THREAD_EVENT, thread_id,
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event_id, signal_context_id);
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}
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/**
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* Send IPC request and await corresponding IPC reply
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*
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* \param id kernel name of the server thread
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*
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* As soon as call returns, callers UTCB provides received message.
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*/
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inline void request_and_wait(unsigned const id)
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{
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call(Call_id::REQUEST_AND_WAIT, id);
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}
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/**
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* Await the receipt of a message
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*
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* \return type of received message
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*
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* As soon as call returns, callers UTCB provides received message.
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*/
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inline void wait_for_request()
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{
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call(Call_id::WAIT_FOR_REQUEST);
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}
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/**
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* Reply to lastly received message
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*
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* \param await_message wether the call shall await receipt of a message
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*
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* If await_request = 1, callers UTCB provides received message
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* as soon as call returns
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*/
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inline void reply(bool const await_message)
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{
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call(Call_id::REPLY, await_message);
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}
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/**
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* Print a char 'c' to the kernels serial ouput
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*/
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inline void print_char(char const c)
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{
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call(Call_id::PRINT_CHAR, c);
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}
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/**
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* Access plain member variables of a kernel thread-object
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*
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* \param thread_id kernel name of the targeted thread
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* \param reads amount of read operations
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* \param writes amount of write operations
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* \param read_values base of value buffer for read operations
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* \param write_values base of value buffer for write operations
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*
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* \retval 0 all operations done
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* \retval >0 amount of undone operations
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* \retval -1 failed to start processing operations
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*
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* Restricted to core threads. Operations are processed in order of the
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* appearance of the register names in the callers UTCB. If reads = 0,
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* read_values is of no relevance. If writes = 0, write_values is of no
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* relevance.
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*
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* Expected structure at the callers UTCB base:
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*
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* 0 * sizeof(addr_t): read register name #1
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* ... ...
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* (reads - 1) * sizeof(addr_t): read register name #reads
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* (reads - 0) * sizeof(addr_t): write register name #1
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* ... ...
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* (reads + writes - 1) * sizeof(addr_t): write register name #writes
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*
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* Expected structure at write_values:
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*
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* 0 * sizeof(addr_t): write value #1
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* ... ...
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* (writes - 1) * sizeof(addr_t): write value #writes
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*/
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inline int access_thread_regs(unsigned const thread_id,
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unsigned const reads,
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unsigned const writes,
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addr_t * const read_values,
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addr_t * const write_values)
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{
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return call(Call_id::ACCESS_THREAD_REGS, thread_id, reads, writes,
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(Call_arg)read_values, (Call_arg)write_values);
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}
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/**
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* Create a kernel object that acts as a signal receiver
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*
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* \param p memory donation for the kernel signal-receiver object
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*
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* \retval >0 kernel name of the new signal receiver
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* \retval 0 failed
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*
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* Restricted to core threads.
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*/
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inline unsigned new_signal_receiver(addr_t const p)
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{
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return call(Call_id::NEW_SIGNAL_RECEIVER, p);
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}
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/**
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* Create kernel object that acts as a signal context and assign it
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*
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* \param p memory donation for the kernel signal-context object
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* \param receiver kernel name of targeted signal receiver
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* \param imprint user label of the signal context
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*
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* \retval >0 kernel name of the new signal context
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* \retval 0 failed
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*
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* Restricted to core threads.
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*/
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inline unsigned new_signal_context(addr_t const p,
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unsigned const receiver,
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unsigned const imprint)
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{
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return call(Call_id::NEW_SIGNAL_CONTEXT, p, receiver, imprint);
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}
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/**
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* Await any context of a receiver and optionally ack a context before
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*
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* \param receiver_id kernel name of the targeted signal receiver
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* \param context_id kernel name of a context that shall be acknowledged
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*
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* \retval 0 suceeded
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* \retval -1 failed
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*
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* If context is set to 0, the call doesn't acknowledge any context.
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* If this call returns 0, an instance of 'Signal::Data' is located at the
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* base of the callers UTCB. Every occurence of a signal is provided
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* through this function until it gets delivered through this function or
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* context respectively receiver get destructed. If multiple threads
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* listen at the same receiver, and/or multiple contexts of the receiver
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* trigger simultanously, there is no assertion about wich thread
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* receives, and from wich context. A context that delivered once doesn't
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* deliver again unless its last delivery has been acknowledged via
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* ack_signal.
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*/
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inline int await_signal(unsigned const receiver_id,
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unsigned const context_id)
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{
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return call(Call_id::AWAIT_SIGNAL, receiver_id, context_id);
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}
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/**
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* Return wether any context of a receiver is pending
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*
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* \param receiver kernel name of the targeted signal receiver
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*
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* \retval 0 none of the contexts is pending or the receiver doesn't exist
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* \retval 1 a context of the signal receiver is pending
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*/
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inline bool signal_pending(unsigned const receiver)
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{
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return call(Call_id::SIGNAL_PENDING, receiver);
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}
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/**
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* Trigger a specific signal context
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*
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* \param context kernel name of the targeted signal context
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* \param num how often the context shall be triggered by this call
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*
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* \retval 0 suceeded
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* \retval -1 failed
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*/
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inline int submit_signal(unsigned const context, unsigned const num)
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{
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return call(Call_id::SUBMIT_SIGNAL, context, num);
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}
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/**
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* Acknowledge the processing of the last delivery of a signal context
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*
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* \param context kernel name of the targeted signal context
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*/
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inline void ack_signal(unsigned const context)
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{
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call(Call_id::ACK_SIGNAL, context);
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}
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/**
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* Destruct a signal context
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*
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* \param context kernel name of the targeted signal context
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*
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* \retval 0 suceeded
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* \retval -1 failed
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*
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* Restricted to core threads.
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*/
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inline int kill_signal_context(unsigned const context)
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{
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return call(Call_id::KILL_SIGNAL_CONTEXT, context);
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}
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/**
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* Destruct a signal receiver
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*
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* \param receiver kernel name of the targeted signal receiver
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*
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* \retval 0 suceeded
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* \retval -1 failed
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*
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* Restricted to core threads.
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*/
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inline int kill_signal_receiver(unsigned const receiver)
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{
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return call(Call_id::KILL_SIGNAL_RECEIVER, receiver);
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}
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/**
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* Create a virtual machine that is stopped initially
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*
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* \param dst memory donation for the kernel VM-object
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* \param state location of the CPU state of the VM
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* \param signal_context_id kernel name of the signal context for VM events
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*
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* \retval >0 kernel name of the new VM
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* \retval 0 failed
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*
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* Restricted to core threads. Regaining of the supplied memory is not
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* supported by now.
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*/
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inline int new_vm(void * const dst, void * const state,
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unsigned const signal_context_id)
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{
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return call(Call_id::NEW_VM, (Call_arg)dst, (Call_arg)state,
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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_id kernel name of the targeted VM
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*
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* Restricted to core threads.
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*/
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inline void run_vm(unsigned const vm_id)
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{
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call(Call_id::RUN_VM, vm_id);
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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_id kernel name of the targeted VM
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|
*
|
|
* Restricted to core threads.
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|
*/
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inline void pause_vm(unsigned const vm_id)
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|
{
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|
call(Call_id::PAUSE_VM, vm_id);
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|
}
|
|
}
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|
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#endif /* _KERNEL__INTERFACE_H_ */
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|
|