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#ifndef CYGONCE_KERNEL_SMP_HXX#define CYGONCE_KERNEL_SMP_HXX//==========================================================================//// smp.hxx//// SMP kernel support////==========================================================================//####ECOSGPLCOPYRIGHTBEGIN####// -------------------------------------------// This file is part of eCos, the Embedded Configurable Operating System.// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.//// eCos is free software; you can redistribute it and/or modify it under// the terms of the GNU General Public License as published by the Free// Software Foundation; either version 2 or (at your option) any later version.//// eCos 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 General Public License// for more details.//// You should have received a copy of the GNU General Public License along// with eCos; if not, write to the Free Software Foundation, Inc.,// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.//// As a special exception, if other files instantiate templates or use macros// or inline functions from this file, or you compile this file and link it// with other works to produce a work based on this file, this file does not// by itself cause the resulting work to be covered by the GNU General Public// License. However the source code for this file must still be made available// in accordance with section (3) of the GNU General Public License.//// This exception does not invalidate any other reasons why a work based on// this file might be covered by the GNU General Public License.//// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.// at http://sources.redhat.com/ecos/ecos-license/// -------------------------------------------//####ECOSGPLCOPYRIGHTEND####//==========================================================================//#####DESCRIPTIONBEGIN####//// Author(s): nickg// Contributors:nickg// Date: 2001-02-10// Purpose: Kernel SMP support// Description: If SMP support is configured into the kernel, then this file// translates HAL defined macros into C and C++ classes and methods// that can be called from the rest of the kernel. If SMP is not// configured in, then the same classes and methods are defined here// to operate correctly in a single CPU configuration.//// Usage: #include <cyg/kernel/smp.hxx>////####DESCRIPTIONEND####////==========================================================================#include <cyg/kernel/ktypes.h>#include <cyg/infra/cyg_ass.h> // assertion macros#include <cyg/hal/hal_intr.h> // HAL_DISABLE_INTERRUPTS() etc.#include <cyg/kernel/instrmnt.h>//==========================================================================#if defined(CYGPKG_KERNEL_SMP_SUPPORT) && (CYGPKG_HAL_SMP_SUPPORT)//==========================================================================// SMP support is included#define CYG_KERNEL_SMP_ENABLED// -------------------------------------------------------------------------// Get HAL support#include <cyg/hal/hal_smp.h>// -------------------------------------------------------------------------// Defined values// These all just map straight through to the HAL.#define CYGNUM_KERNEL_CPU_MAX HAL_SMP_CPU_MAX#define CYG_KERNEL_CPU_COUNT() HAL_SMP_CPU_COUNT()#define CYG_KERNEL_CPU_THIS() HAL_SMP_CPU_THIS()#define CYG_KERNEL_CPU_NONE HAL_SMP_CPU_NONE// -------------------------------------------------------------------------// CPU control#define CYG_KERNEL_CPU_START( __cpu ) HAL_SMP_CPU_START( __cpu )#define CYG_KERNEL_CPU_RESCHEDULE_INTERRUPT( __cpu, __wait ) \HAL_SMP_CPU_RESCHEDULE_INTERRUPT( __cpu, __wait )#define CYG_KERNEL_CPU_TIMESLICE_INTERRUPT( __cpu, __wait ) \HAL_SMP_CPU_TIMESLICE_INTERRUPT( __cpu, __wait )// -------------------------------------------------------------------------// Scheduler lock default implementation.// This implementation should serve for most targets. However, some// targets may have hardware or other features that make simple// spinlocks impossible, or allow us to implement the scheduler lock// in a more efficient manner. If that is the case then the HAL will// implement these macros itself.#ifndef HAL_SMP_SCHEDLOCK_DATA_TYPE#define HAL_SMP_SCHEDLOCK_DATA_TYPE struct hal_smp_schedlock_data_typestruct hal_smp_schedlock_data_type {HAL_SPINLOCK_TYPE spinlock;volatile HAL_SMP_CPU_TYPE holder;};#define HAL_SMP_SCHEDLOCK_INIT( __lock, __data ) \CYG_MACRO_START \{ \__lock = 1; \HAL_SPINLOCK_CLEAR(__data.spinlock); \HAL_SPINLOCK_SPIN(__data.spinlock); \__data.holder = HAL_SMP_CPU_THIS(); \} \CYG_MACRO_END#define HAL_SMP_SCHEDLOCK_INC( __lock, __data ) \CYG_MACRO_START \{ \CYG_INTERRUPT_STATE __state; \HAL_DISABLE_INTERRUPTS(__state); \if( __data.holder == HAL_SMP_CPU_THIS() ) \__lock++; \else \{ \CYG_INSTRUMENT_SMP(LOCK_WAIT,CYG_KERNEL_CPU_THIS(),0); \HAL_SPINLOCK_SPIN(__data.spinlock); \__data.holder = HAL_SMP_CPU_THIS(); \__lock++; \CYG_INSTRUMENT_SMP(LOCK_GOT,CYG_KERNEL_CPU_THIS(),0); \} \HAL_RESTORE_INTERRUPTS(__state); \} \CYG_MACRO_END#define HAL_SMP_SCHEDLOCK_ZERO( __lock, __data ) \CYG_MACRO_START \{ \CYG_INTERRUPT_STATE __state; \HAL_DISABLE_INTERRUPTS(__state); \CYG_ASSERT( __data.holder == HAL_SMP_CPU_THIS(), "Zeroing schedlock not owned by me!"); \__lock = 0; \__data.holder = HAL_SMP_CPU_NONE; \HAL_SPINLOCK_CLEAR(__data.spinlock); \HAL_RESTORE_INTERRUPTS(__state); \} \CYG_MACRO_END#define HAL_SMP_SCHEDLOCK_SET( __lock, __data, __new ) \CYG_MACRO_START \{ \CYG_ASSERT( __data.holder == HAL_SMP_CPU_THIS(), "Setting schedlock not owned by me!"); \__lock = __new; \} \CYG_MACRO_END#endif// -------------------------------------------------------------------------// SpinLock class// This class supplies a C++ wrapper for the HAL spinlock API.#ifdef __cplusplus#ifdef HAL_SPINLOCK_SPINclass Cyg_SpinLock{HAL_SPINLOCK_TYPE lock;public:// Constructor, initialize the lock to clearCyg_SpinLock() { lock = HAL_SPINLOCK_INIT_CLEAR; };~Cyg_SpinLock(){// CYG_ASSERT( !test(), "spinlock still claimed");};// Spin on the lock.void spin(){HAL_SPINLOCK_SPIN(lock);};// Clear the lock.void clear(){HAL_SPINLOCK_CLEAR(lock);};// Try to claim the lock. Return true if successful, false if not.cyg_bool trylock(){cyg_bool testval;HAL_SPINLOCK_TRY(lock,testval);return testval;};// Test the current value of the lockcyg_bool test(){cyg_bool testval;HAL_SPINLOCK_TEST(lock, testval);return testval;};// The following two member functions are only necessary if the// spinlock is to be used in an ISR.// Claim the spinlock, but also mask this CPU's interrupts while// we have it.void spin_intsave(CYG_INTERRUPT_STATE *state){CYG_INTERRUPT_STATE s;HAL_DISABLE_INTERRUPTS(s);*state = s;spin();};// Clear the lock, and restore the interrupt state saved in// spin_intsave().void clear_intsave(CYG_INTERRUPT_STATE state){clear();HAL_RESTORE_INTERRUPTS(state);};};#endif// -------------------------------------------------------------------------// Scheduler lock class// This uses the scheduler lock API defined by the HAL, or the defaults// defined above.class Cyg_Scheduler_SchedLock{static volatile cyg_ucount32 sched_lock // lock counterCYGBLD_ATTRIB_ASM_ALIAS( cyg_scheduler_sched_lock )CYGBLD_ANNOTATE_VARIABLE_SCHED;static HAL_SMP_SCHEDLOCK_DATA_TYPE lock_dataCYGBLD_ANNOTATE_VARIABLE_SCHED;protected:Cyg_Scheduler_SchedLock(){HAL_SMP_SCHEDLOCK_INIT( sched_lock, lock_data );};// Increment the scheduler lock. If this takes the lock from zero// to one then this code must also do whatever is necessary to// serialize CPUs through the scheduler.static void inc_sched_lock(){CYG_INSTRUMENT_SMP(LOCK_INC,CYG_KERNEL_CPU_THIS(),0);HAL_SMP_SCHEDLOCK_INC( sched_lock, lock_data );};// Zero the scheduler lock. This will release the CPU serializing// lock and allow another CPU in.static void zero_sched_lock(){CYG_INSTRUMENT_SMP(LOCK_ZERO,CYG_KERNEL_CPU_THIS(),0);CYG_ASSERT( sched_lock != 0, "Scheduler lock already zero");HAL_SMP_SCHEDLOCK_ZERO( sched_lock, lock_data );};// Set the scheduler lock to a non-zero value. Both the scheduler// lock and the new value must be non-zero.static void set_sched_lock(cyg_uint32 new_lock){CYG_INSTRUMENT_SMP(LOCK_SET,CYG_KERNEL_CPU_THIS(),new_lock);CYG_ASSERT( new_lock > 0, "New scheduler lock value == 0");CYG_ASSERT( sched_lock > 0, "Scheduler lock == 0");HAL_SMP_SCHEDLOCK_SET( sched_lock, lock_data, new_lock );};static cyg_ucount32 get_sched_lock(){return sched_lock;};};#define CYGIMP_KERNEL_SCHED_LOCK_DEFINITIONS \volatile cyg_ucount32 Cyg_Scheduler_SchedLock::sched_lock = 1; \HAL_SMP_SCHEDLOCK_DATA_TYPE Cyg_Scheduler_SchedLock::lock_data;#endif // __cplusplus// -------------------------------------------------------------------------#else // defined(CYGSEM_KERNEL_SMP_SUPPORT) && (CYGSEM_HAL_SMP_SUPPORT)//==========================================================================// SMP support is NOT included.#undef CYG_KERNEL_SMP_ENABLED// -------------------------------------------------------------------------// Defined values// Supply a set of values that describe a single CPU system.#ifndef HAL_SMP_CPU_TYPE#define HAL_SMP_CPU_TYPE cyg_uint32#endif#define CYGNUM_KERNEL_CPU_MAX 1#define CYG_KERNEL_CPU_COUNT() 1#define CYG_KERNEL_CPU_THIS() 0#define CYG_KERNEL_CPU_NONE -1#define CYG_KERNEL_CPU_LOWPRI() CYG_KERNEL_CPU_THIS()// -------------------------------------------------------------------------// SpinLock class// This single CPU version simply goes through the motions of setting// and clearing the lock variable for debugging purposes.#ifdef __cplusplusclass Cyg_SpinLock{volatile cyg_uint32 lock;public:// Constructor, initialize the lock to clearCyg_SpinLock() { lock = 0; };~Cyg_SpinLock(){CYG_ASSERT( lock == 0, "spinlock still claimed");};// Spin on the lock. In this case we just set it to 1 and proceed.void spin(){CYG_ASSERT( lock == 0, "spinlock already claimed!");lock = 1;};// Clear the lock. Again, just set the value.void clear(){CYG_ASSERT( lock != 0, "spinlock already cleared!");lock = 0;};// Try to claim the lock. Return true if successful, false if not.cyg_bool trylock(){if( lock ) return false;else { lock = 1; return true; }};// Test the current value of the lockcyg_bool test() { return lock; };// The following two member functions are only necessary if the// spinlock is to be used in an ISR.// Claim the spinlock, but also mask this CPU's interrupts while// we have it.void spin_intsave(CYG_INTERRUPT_STATE *state){CYG_INTERRUPT_STATE s;HAL_DISABLE_INTERRUPTS(s);*state = s;spin();};// Clear the lock, and restore the interrupt state saved in// spin_intsave().void clear_intsave(CYG_INTERRUPT_STATE state){clear();HAL_RESTORE_INTERRUPTS(state);};};// -------------------------------------------------------------------------// Scheduler lock classclass Cyg_Scheduler_SchedLock{static volatile cyg_ucount32 sched_lock // lock counterCYGBLD_ATTRIB_ASM_ALIAS( cyg_scheduler_sched_lock )CYGBLD_ANNOTATE_VARIABLE_SCHED;// For non-SMP versions, the code here does the basic and obvious things.protected:Cyg_Scheduler_SchedLock(){sched_lock = 1;};// Increment the scheduler lock, possibly taking it from zero to// one.static void inc_sched_lock(){sched_lock++;};static void zero_sched_lock(){CYG_ASSERT( sched_lock != 0, "Scheduler lock already zero");sched_lock = 0;};// Set the scheduler lock to a non-zero value. Both the scheduler// lock and the new value must be non-zero.static void set_sched_lock(cyg_uint32 new_lock){CYG_ASSERT( new_lock > 0, "New scheduler lock value == 0");CYG_ASSERT( sched_lock > 0, "Scheduler lock == 0");sched_lock = new_lock;};static cyg_ucount32 get_sched_lock(){return sched_lock;};};#define CYGIMP_KERNEL_SCHED_LOCK_DEFINITIONS \volatile cyg_ucount32 Cyg_Scheduler_SchedLock::sched_lock = 1;#endif // __cplusplus#endif // defined(CYGSEM_KERNEL_SMP_SUPPORT) && (CYGSEM_HAL_SMP_SUPPORT)// -------------------------------------------------------------------------#endif // ifndef CYGONCE_KERNEL_SMP_HXX// EOF smp.hxx