/* Copyright (c) 2002,2005,2007 Marek Michalkiewicz Copyright (c) 2007, Dean Camera All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of the copyright holders nor the names of contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* $Id$ */ #ifndef _AVR_INTERRUPT_H_ #define _AVR_INTERRUPT_H_ #include #if !defined(__DOXYGEN__) && !defined(__STRINGIFY) /* Auxiliary macro for ISR_ALIAS(). */ #define __STRINGIFY(x) #x #endif /* !defined(__DOXYGEN__) */ /** \file \@{ */ /** \name Global manipulation of the interrupt flag The global interrupt flag is maintained in the I bit of the status register (SREG). */ #if defined(__DOXYGEN__) /** \def sei() \ingroup avr_interrupts \code #include \endcode Enables interrupts by setting the global interrupt mask. This function actually compiles into a single line of assembly, so there is no function call overhead. */ #define sei() #else /* !DOXYGEN */ # define sei() __asm__ __volatile__ ("sei" ::) #endif /* DOXYGEN */ #if defined(__DOXYGEN__) /** \def cli() \ingroup avr_interrupts \code #include \endcode Disables all interrupts by clearing the global interrupt mask. This function actually compiles into a single line of assembly, so there is no function call overhead. */ #define cli() #else /* !DOXYGEN */ # define cli() __asm__ __volatile__ ("cli" ::) #endif /* DOXYGEN */ /** \name Macros for writing interrupt handler functions */ #if defined(__DOXYGEN__) /** \def ISR(vector [, attributes]) \ingroup avr_interrupts \code #include \endcode Introduces an interrupt handler function (interrupt service routine) that runs with global interrupts initially disabled by default with no attributes specified. The attributes are optional and alter the behaviour and resultant generated code of the interrupt routine. Multiple attributes may be used for a single function, with a space seperating each attribute. Valid attributes are ISR_BLOCK, ISR_NOBLOCK, ISR_NAKED and ISR_ALIASOF(vect). \c vector must be one of the interrupt vector names that are valid for the particular MCU type. */ # define ISR(vector, [attributes]) #else /* real code */ #if (__GNUC__ == 4 && __GNUC_MINOR__ >= 1) || (__GNUC__ > 4) # define __INTR_ATTRS used, externally_visible #else /* GCC < 4.1 */ # define __INTR_ATTRS used #endif #ifdef __cplusplus # define ISR(vector, ...) \ extern "C" void vector (void) __attribute__ ((signal,__INTR_ATTRS)) __VA_ARGS__; \ void vector (void) #else # define ISR(vector, ...) \ void vector (void) __attribute__ ((signal,__INTR_ATTRS)) __VA_ARGS__; \ void vector (void) #endif #endif /* DOXYGEN */ #if defined(__DOXYGEN__) /** \def SIGNAL(vector) \ingroup avr_interrupts \code #include \endcode Introduces an interrupt handler function that runs with global interrupts initially disabled. This is the same as the ISR macro without optional attributes. \deprecated Do not use SIGNAL() in new code. Use ISR() instead. */ # define SIGNAL(vector) #else /* real code */ #ifdef __cplusplus # define SIGNAL(vector) \ extern "C" void vector(void) __attribute__ ((signal, __INTR_ATTRS)); \ void vector (void) #else # define SIGNAL(vector) \ void vector (void) __attribute__ ((signal, __INTR_ATTRS)); \ void vector (void) #endif #endif /* DOXYGEN */ #if defined(__DOXYGEN__) /** \def EMPTY_INTERRUPT(vector) \ingroup avr_interrupts \code #include \endcode Defines an empty interrupt handler function. This will not generate any prolog or epilog code and will only return from the ISR. Do not define a function body as this will define it for you. Example: \code EMPTY_INTERRUPT(ADC_vect);\endcode */ # define EMPTY_INTERRUPT(vector) #else /* real code */ #ifdef __cplusplus # define EMPTY_INTERRUPT(vector) \ extern "C" void vector(void) __attribute__ ((signal,naked,__INTR_ATTRS)); \ void vector (void) { __asm__ __volatile__ ("reti" ::); } #else # define EMPTY_INTERRUPT(vector) \ void vector (void) __attribute__ ((signal,naked,__INTR_ATTRS)); \ void vector (void) { __asm__ __volatile__ ("reti" ::); } #endif #endif /* DOXYGEN */ #if defined(__DOXYGEN__) /** \def ISR_ALIAS(vector, target_vector) \ingroup avr_interrupts \code #include \endcode Aliases a given vector to another one in the same manner as the ISR_ALIASOF attribute for the ISR() macro. Unlike the ISR_ALIASOF attribute macro however, this is compatible for all versions of GCC rather than just GCC version 4.2 onwards. \note This macro creates a trampoline function for the aliased macro. This will result in a two cycle penalty for the aliased vector compared to the ISR the vector is aliased to, due to the JMP/RJMP opcode used. \deprecated For new code, the use of ISR(..., ISR_ALIASOF(...)) is recommended. Example: \code ISR(INT0_vect) { PORTB = 42; } ISR_ALIAS(INT1_vect, INT0_vect); \endcode */ # define ISR_ALIAS(vector, target_vector) #else /* real code */ #ifdef __cplusplus # if defined(__AVR_MEGA__) && __AVR_MEGA__ # define ISR_ALIAS(vector, tgt) extern "C" void vector (void) \ __attribute__((signal, naked, __INTR_ATTRS)); \ void vector (void) { asm volatile ("jmp " __STRINGIFY(tgt) ::); } # else /* !__AVR_MEGA */ # define ISR_ALIAS(vector, tgt) extern "C" void vector (void) \ __attribute__((signal, naked, __INTR_ATTRS)); \ void vector (void) { asm volatile ("rjmp " __STRINGIFY(tgt) ::); } # endif /* __AVR_MEGA__ */ #else /* !__cplusplus */ # if defined(__AVR_MEGA__) && __AVR_MEGA__ # define ISR_ALIAS(vector, tgt) void vector (void) \ __attribute__((signal, naked, __INTR_ATTRS)); \ void vector (void) { asm volatile ("jmp " __STRINGIFY(tgt) ::); } # else /* !__AVR_MEGA */ # define ISR_ALIAS(vector, tgt) void vector (void) \ __attribute__((signal, naked, __INTR_ATTRS)); \ void vector (void) { asm volatile ("rjmp " __STRINGIFY(tgt) ::); } # endif /* __AVR_MEGA__ */ #endif /* __cplusplus */ #endif /* DOXYGEN */ #if defined(__DOXYGEN__) /** \def reti() \ingroup avr_interrupts \code #include \endcode Returns from an interrupt routine, enabling global interrupts. This should be the last command executed before leaving an ISR defined with the ISR_NAKED attribute. This macro actually compiles into a single line of assembly, so there is no function call overhead. */ # define reti() #else /* !DOXYGEN */ # define reti() __asm__ __volatile__ ("reti" ::) #endif /* DOXYGEN */ #if defined(__DOXYGEN__) /** \def BADISR_vect \ingroup avr_interrupts \code #include \endcode This is a vector which is aliased to __vector_default, the vector executed when an ISR fires with no accompanying ISR handler. This may be used along with the ISR() macro to create a catch-all for undefined but used ISRs for debugging purposes. */ # define BADISR_vect #else /* !DOXYGEN */ # define BADISR_vect __vector_default #endif /* DOXYGEN */ /** \name ISR attributes */ #if defined(__DOXYGEN__) /** \def ISR_BLOCK \ingroup avr_interrupts \code# include \endcode Identical to an ISR with no attributes specified. Global interrupts are initially disabled by the AVR hardware when entering the ISR, without the compiler modifying this state. Use this attribute in the attributes parameter of the ISR macro. */ # define ISR_BLOCK /** \def ISR_NOBLOCK \ingroup avr_interrupts \code# include \endcode ISR runs with global interrupts initially enabled. The interrupt enable flag is activated by the compiler as early as possible within the ISR to ensure minimal processing delay for nested interrupts. This may be used to create nested ISRs, however care should be taken to avoid stack overflows, or to avoid infinitely entering the ISR for those cases where the AVR hardware does not clear the respective interrupt flag before entering the ISR. Use this attribute in the attributes parameter of the ISR macro. */ # define ISR_NOBLOCK /** \def ISR_NAKED \ingroup avr_interrupts \code# include \endcode ISR is created with no prologue or epilogue code. The user code is responsible for preservation of the machine state including the SREG register, as well as placing a reti() at the end of the interrupt routine. Use this attribute in the attributes parameter of the ISR macro. */ # define ISR_NAKED /** \def ISR_ALIASOF(target_vector) \ingroup avr_interrupts \code#include \endcode The ISR is linked to another ISR, specified by the vect parameter. This is compatible with GCC 4.2 and greater only. Use this attribute in the attributes parameter of the ISR macro. */ # define ISR_ALIASOF(target_vector) #else /* !DOXYGEN */ # define ISR_BLOCK # define ISR_NOBLOCK __attribute__((interrupt)) # define ISR_NAKED __attribute__((naked)) # define ISR_ALIASOF(v) __attribute__((alias(__STRINGIFY(v)))) #endif /* DOXYGEN */ /* \@} */ #endif