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#ifndef CYGONCE_HAL_HAL_INTR_H #define CYGONCE_HAL_HAL_INTR_H //========================================================================== // // hal_intr.h // // HAL Interrupt and clock 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, jlarmour // Date: 1999-02-18 // Purpose: Define Interrupt support // Description: The macros defined here provide the HAL APIs for handling // interrupts and the clock. // Usage: // #include <cyg/hal/hal_intr.h> // ... // // //####DESCRIPTIONEND#### // //========================================================================== #include <pkgconf/hal.h> #include <cyg/infra/cyg_type.h> #include <cyg/hal/hal_io.h> #include <cyg/hal/var_intr.h> //-------------------------------------------------------------------------- // Static data used by HAL // ISR tables externC volatile CYG_ADDRESS hal_interrupt_handlers[CYGNUM_HAL_ISR_COUNT]; externC volatile CYG_ADDRWORD hal_interrupt_data[CYGNUM_HAL_ISR_COUNT]; externC volatile CYG_ADDRESS hal_interrupt_objects[CYGNUM_HAL_ISR_COUNT]; // VSR table externC volatile CYG_ADDRESS hal_vsr_table[CYGNUM_HAL_VSR_COUNT]; // MN10300 interrupt control registers, mapped by linker script. externC volatile cyg_uint16 mn10300_interrupt_control[]; //-------------------------------------------------------------------------- // Default ISR // The #define is used to test whether this routine exists, and to allow // us to call it. externC cyg_uint32 hal_default_isr(CYG_ADDRWORD vector, CYG_ADDRWORD data); #define HAL_DEFAULT_ISR hal_default_isr //-------------------------------------------------------------------------- // Interrupt state storage typedef cyg_uint32 CYG_INTERRUPT_STATE; //-------------------------------------------------------------------------- #ifdef CYGIMP_HAL_COMMON_INTERRUPTS_USE_INTERRUPT_STACK // Routine to execute DSRs using separate interrupt stack externC void hal_interrupt_stack_call_pending_DSRs(void); #define HAL_INTERRUPT_STACK_CALL_PENDING_DSRS() \ hal_interrupt_stack_call_pending_DSRs() // these are offered solely for stack usage testing // if they are not defined, then there is no interrupt stack. #define HAL_INTERRUPT_STACK_BASE cyg_interrupt_stack_base #define HAL_INTERRUPT_STACK_TOP cyg_interrupt_stack // use them to declare these extern however you want: // extern char HAL_INTERRUPT_STACK_BASE[]; // extern char HAL_INTERRUPT_STACK_TOP[]; // is recommended #endif //-------------------------------------------------------------------------- // Interrupt control macros #define HAL_DISABLE_INTERRUPTS(_old_) \ asm volatile ( \ "mov psw,%0;" \ "mov 0xF7FF,d0;" \ "and %0,d0;" \ "mov d0,psw;" \ "and 0x0800,%0;" \ : "=d"(_old_) \ : \ : "d0" \ ); #define HAL_ENABLE_INTERRUPTS() \ asm volatile ( \ "mov psw,d0;" \ "or 0x0800,d0;" \ "mov d0,psw;" \ : \ : \ : "d0" \ ); #define HAL_RESTORE_INTERRUPTS(_old_) \ asm volatile ( \ "mov psw,d1;" \ "and 0xF7FF,d1;" \ "or %0,d1;" \ "mov d1,psw;" \ : \ : "d"(_old_) \ : "d1" \ ); #define HAL_QUERY_INTERRUPTS(_old_) \ asm volatile ( \ "mov psw,%0;" \ "and 0x0800,%0;" \ : "=d"(_old_) \ ); //-------------------------------------------------------------------------- // Translate a vector number into an ISR table index. // If we have chained interrupts we have just a single ISR per priority // level. On the MN103000 there are several interrupts per controller, // so we have to decode to one of 100 vectors. On the MN103002 there is // only one interrupt per controller, so we can have just one ISR per // controller, except for the NMI vectors which occupy the first 3 slots. #ifndef HAL_TRANSLATE_VECTOR #if defined(CYGIMP_HAL_COMMON_INTERRUPTS_CHAIN) #define HAL_TRANSLATE_VECTOR(_vector_,_index_) \ { \ if( _vector_ <= CYGNUM_HAL_INTERRUPT_SYSTEM_ERROR ) \ (_index_) = (_vector_); \ else \ { \ /* ICRs are 16 bit regs at 32 bit spacing */ \ cyg_ucount16 _ix_ = ((_vector_)>>2)<<1; \ \ /* read the appropriate interrupt control register */ \ cyg_uint16 _icr_ = mn10300_interrupt_control[_ix_]; \ \ /* extract interrupt priority level */ \ _index_ = CYGNUM_HAL_INTERRUPT_RESERVED_3 + ((_icr_ >> 12) & 0x7); \ } \ } #else #define HAL_TRANSLATE_VECTOR(_vector_,_index_) _index_ = (_vector_) #endif #endif //-------------------------------------------------------------------------- // Interrupt and VSR attachment macros #define HAL_INTERRUPT_IN_USE( _vector_, _state_) \ CYG_MACRO_START \ cyg_uint32 _index_; \ HAL_TRANSLATE_VECTOR ((_vector_), _index_); \ \ if( hal_interrupt_handlers[_index_] == (CYG_ADDRESS)HAL_DEFAULT_ISR ) \ (_state_) = 0; \ else \ (_state_) = 1; \ CYG_MACRO_END #define HAL_INTERRUPT_ATTACH( _vector_, _isr_, _data_, _object_ ) \ CYG_MACRO_START \ cyg_uint32 _index_; \ HAL_TRANSLATE_VECTOR(_vector_,_index_); \ \ if( hal_interrupt_handlers[_index_] == (CYG_ADDRESS)HAL_DEFAULT_ISR ) \ { \ hal_interrupt_handlers[_index_] = (CYG_ADDRESS)_isr_; \ hal_interrupt_data[_index_] = (CYG_ADDRWORD)_data_; \ hal_interrupt_objects[_index_] = (CYG_ADDRESS)_object_; \ } \ CYG_MACRO_END #define HAL_INTERRUPT_DETACH( _vector_, _isr_ ) \ CYG_MACRO_START \ cyg_uint32 _index_; \ HAL_TRANSLATE_VECTOR(_vector_,_index_); \ \ if( hal_interrupt_handlers[_index_] == (CYG_ADDRESS)_isr_ ) \ { \ hal_interrupt_handlers[_index_] = (CYG_ADDRESS)HAL_DEFAULT_ISR; \ hal_interrupt_data[_index_] = 0; \ hal_interrupt_objects[_index_] = 0; \ } \ CYG_MACRO_END #define HAL_VSR_GET( _vector_, _pvsr_ ) \ *((CYG_ADDRESS *)_pvsr_) = hal_vsr_table[_vector_]; #define HAL_VSR_SET( _vector_, _vsr_, _poldvsr_ ) \ if( _poldvsr_ != NULL ) \ *(CYG_ADDRESS *)_poldvsr_ = hal_vsr_table[_vector_]; \ hal_vsr_table[_vector_] = (CYG_ADDRESS)_vsr_; //-------------------------------------------------------------------------- // Interrupt controller access // Read interrupt control registers back after writing to them. This // ensures that the written value is not sitting in the store buffers // when interrupts are re-enabled. #define HAL_INTERRUPT_MASK( _vector_ ) \ { \ /* ICRs are 16 bit regs at 32 bit spacing */ \ cyg_ucount16 _index_ = ((_vector_)>>2)<<1; \ \ /* read the appropriate interrupt control register */ \ cyg_uint16 _icr_ = mn10300_interrupt_control[_index_]; \ \ /* clear interrupt enable bit for this vector */ \ _icr_ &= ~(0x0100<<((_vector_)&3)); \ \ /* restore the interrupt control register */ \ mn10300_interrupt_control[_index_] = _icr_; \ _icr_ = mn10300_interrupt_control[_index_]; \ } #define HAL_INTERRUPT_UNMASK( _vector_ ) \ { \ /* ICRs are 16 bit regs at 32 bit spacing */ \ cyg_ucount16 _index_ = (_vector_>>2)<<1; \ \ /* read the appropriate interrupt control register */ \ cyg_uint16 _icr_ = mn10300_interrupt_control[_index_]; \ \ /* set interrupt enable bit for this vector */ \ _icr_ |= (0x0100<<(_vector_&3)); \ \ /* restore the interrupt control register */ \ mn10300_interrupt_control[_index_] = _icr_; \ _icr_ = mn10300_interrupt_control[_index_]; \ } #define HAL_INTERRUPT_ACKNOWLEDGE( _vector_ ) \ { \ /* ICRs are 16 bit regs at 32 bit spacing */ \ cyg_ucount16 _index_ = ((_vector_)>>2)<<1; \ \ /* read the appropriate interrupt control register */ \ cyg_uint16 _icr_ = mn10300_interrupt_control[_index_]; \ \ /* clear interrupt request bit for this vector */ \ _icr_ &= ~(0x0010<<((_vector_)&3)); \ \ /* set interrupt detect bit for this vector */ \ _icr_ |= (0x0001<<((_vector_)&3)); \ \ /* restore the interrupt control register */ \ mn10300_interrupt_control[_index_] = _icr_; \ _icr_ = mn10300_interrupt_control[_index_]; \ } #if !defined(HAL_INTERRUPT_CONFIGURE) #error HAL_INTERRUPT_CONFIGURE not defined by variant #endif #define HAL_INTERRUPT_SET_LEVEL( _vector_, _level_ ) \ { \ /* ICRs are 16 bit regs at 32 bit spacing */ \ cyg_ucount16 _index_ = (_vector_>>2)<<1; \ \ /* read the appropriate interrupt control register */ \ cyg_uint16 _icr_ = mn10300_interrupt_control[_index_]; \ \ /* set interrupt level for this group of vectors */ \ _icr_ &= 0x0FFF; \ _icr_ |= (_level_)<<12; \ \ /* restore the interrupt control register */ \ mn10300_interrupt_control[_index_] = _icr_; \ _icr_ = mn10300_interrupt_control[_index_]; \ } //-------------------------------------------------------------------------- // Clock control. // This is almost all handled in the var_intr.h. #ifdef CYGVAR_KERNEL_COUNTERS_CLOCK_LATENCY #define HAL_CLOCK_LATENCY(_pvalue_) HAL_CLOCK_READ(_pvalue_) #endif //-------------------------------------------------------------------------- // Memory region top // #if CYGINT_HAL_MN10300_MEM_REAL_REGION_TOP externC cyg_uint8 *hal_mn10300_mem_real_region_top( cyg_uint8 *_regionend_ ); # define HAL_MEM_REAL_REGION_TOP( _regionend_ ) \ hal_mn10300_mem_real_region_top( _regionend_ ) #endif //-------------------------------------------------------------------------- #endif // ifndef CYGONCE_HAL_HAL_INTR_H // EOF hal_intr.h
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