/* ChibiOS/RT - Copyright (C) 2006,2007,2008,2009,2010, 2011 Giovanni Di Sirio. This file is part of ChibiOS/RT. ChibiOS/RT 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 3 of the License, or (at your option) any later version. ChibiOS/RT 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 this program. If not, see . */ /** * @file IAR/ARMCMx/chcore.h * @brief ARM Cortex-Mx port macros and structures. * * @addtogroup IAR_ARMCMx_CORE * @{ */ #ifndef _CHCORE_H_ #define _CHCORE_H_ /*===========================================================================*/ /* Port constants (common). */ /*===========================================================================*/ /* Added to make the header stand-alone when included from asm.*/ #ifndef FALSE #define FALSE 0 #endif #ifndef TRUE #define TRUE (!FALSE) #endif #define CORTEX_M0 0 /**< @brief Cortex-M0 variant. */ #define CORTEX_M1 1 /**< @brief Cortex-M1 variant. */ #define CORTEX_M3 3 /**< @brief Cortex-M3 variant. */ #define CORTEX_M4 4 /**< @brief Cortex-M4 variant. */ /* Inclusion of the Cortex-Mx implementation specific parameters.*/ #include "cmparams.h" /* Cortex model check, only M0 and M3 supported right now.*/ #if (CORTEX_MODEL == CORTEX_M0) || (CORTEX_MODEL == CORTEX_M3) || \ (CORTEX_MODEL == CORTEX_M4) #elif (CORTEX_MODEL == CORTEX_M1) #error "untested Cortex-M model" #else #error "unknown or unsupported Cortex-M model" #endif /** * @brief Total priority levels. */ #define CORTEX_PRIORITY_LEVELS (1 << CORTEX_PRIORITY_BITS) /** * @brief Minimum priority level. * @details This minimum priority level is calculated from the number of * priority bits supported by the specific Cortex-Mx implementation. */ #define CORTEX_MINIMUM_PRIORITY (CORTEX_PRIORITY_LEVELS - 1) /** * @brief Maximum priority level. * @details The maximum allowed priority level is always zero. */ #define CORTEX_MAXIMUM_PRIORITY 0 /*===========================================================================*/ /* Port macros (common). */ /*===========================================================================*/ /** * @brief Priority level verification macro. */ #define CORTEX_IS_VALID_PRIORITY(n) \ (((n) >= 0) && ((n) < CORTEX_PRIORITY_LEVELS)) /** * @brief Priority level to priority mask conversion macro. */ #define CORTEX_PRIORITY_MASK(n) \ ((n) << (8 - CORTEX_PRIORITY_BITS)) /*===========================================================================*/ /* Port configurable parameters (common). */ /*===========================================================================*/ /** * @brief Stack size for the system idle thread. * @details This size depends on the idle thread implementation, usually * the idle thread should take no more space than those reserved * by @p PORT_INT_REQUIRED_STACK. * @note In this port it is set to 16 because the idle thread does have * a stack frame when compiling without optimizations. You may * reduce this value to zero when compiling with optimizations. */ #ifndef PORT_IDLE_THREAD_STACK_SIZE #define PORT_IDLE_THREAD_STACK_SIZE 16 #endif /** * @brief Per-thread stack overhead for interrupts servicing. * @details This constant is used in the calculation of the correct working * area size. * This value can be zero on those architecture where there is a * separate interrupt stack and the stack space between @p intctx and * @p extctx is known to be zero. * @note In this port it is conservatively set to 16 because the function * @p chSchDoReschedule() can have a stack frame, expecially with * compiler optimizations disabled. */ #ifndef PORT_INT_REQUIRED_STACK #define PORT_INT_REQUIRED_STACK 16 #endif /** * @brief Enables the use of the WFI instruction in the idle thread loop. */ #ifndef CORTEX_ENABLE_WFI_IDLE #define CORTEX_ENABLE_WFI_IDLE FALSE #endif /** * @brief SYSTICK handler priority. * @note The default SYSTICK handler priority is calculated as the priority * level in the middle of the numeric priorities range. */ #ifndef CORTEX_PRIORITY_SYSTICK #define CORTEX_PRIORITY_SYSTICK (CORTEX_PRIORITY_LEVELS >> 1) #else /* If it is externally redefined then better perform a validity check on it.*/ #if !CORTEX_IS_VALID_PRIORITY(CORTEX_PRIORITY_SYSTICK) #error "invalid priority level specified for CORTEX_PRIORITY_SYSTICK" #endif #endif /** * @brief Stack alignment enforcement. * @note The default value is 64 in order to comply with EABI, reducing * the value to 32 can save some RAM space if you don't care about * binary compatibility with EABI compiled libraries. * @note Allowed values are 32 or 64. */ #ifndef CORTEX_STACK_ALIGNMENT #define CORTEX_STACK_ALIGNMENT 64 #endif /*===========================================================================*/ /* Port derived parameters (common). */ /*===========================================================================*/ /*===========================================================================*/ /* Port exported info (common). */ /*===========================================================================*/ /** * @brief Macro defining a generic ARM architecture. */ #define CH_ARCHITECTURE_ARM /** * @brief Name of the compiler supported by this port. */ #define CH_COMPILER_NAME "IAR" /*===========================================================================*/ /* Port implementation part (common). */ /*===========================================================================*/ /* Includes the sub-architecture-specific part.*/ #if (CORTEX_MODEL == CORTEX_M0) || (CORTEX_MODEL == CORTEX_M1) #include "chcore_v6m.h" #elif (CORTEX_MODEL == CORTEX_M3) || (CORTEX_MODEL == CORTEX_M4) #include "chcore_v7m.h" #endif #if !defined(_FROM_ASM_) #include #include "nvic.h" /** * @brief Stack and memory alignment enforcement. */ #if (CORTEX_STACK_ALIGNMENT == 64) || defined(__DOXYGEN__) typedef uint64_t stkalign_t; #elif CORTEX_STACK_ALIGNMENT == 32 typedef uint32_t stkalign_t; #else #error "invalid stack alignment selected" #endif #if defined(__DOXYGEN__) /** * @brief Interrupt saved context. * @details This structure represents the stack frame saved during a * preemption-capable interrupt handler. * @note It is implemented to match the Cortex-Mx exception context. */ struct extctx { /* Dummy definition, just for Doxygen.*/ }; /** * @brief System saved context. * @details This structure represents the inner stack frame during a context * switching. */ struct intctx { /* Dummy definition, just for Doxygen.*/ }; #endif /** * @brief Platform dependent part of the @p Thread structure. * @details In this port the structure just holds a pointer to the @p intctx * structure representing the stack pointer at context switch time. */ struct context { struct intctx *r13; }; /** * @brief Platform dependent part of the @p chThdCreateI() API. * @details This code usually setup the context switching frame represented * by an @p intctx structure. */ #define SETUP_CONTEXT(workspace, wsize, pf, arg) { \ tp->p_ctx.r13 = (struct intctx *)((uint8_t *)workspace + \ wsize - \ sizeof(struct intctx)); \ tp->p_ctx.r13->r4 = (void *)pf; \ tp->p_ctx.r13->r5 = (void *)arg; \ tp->p_ctx.r13->lr = (void *)_port_thread_start; \ } /** * @brief Enforces a correct alignment for a stack area size value. */ #define STACK_ALIGN(n) ((((n) - 1) | (sizeof(stkalign_t) - 1)) + 1) /** * @brief Computes the thread working area global size. */ #define THD_WA_SIZE(n) STACK_ALIGN(sizeof(Thread) + \ sizeof(struct intctx) + \ sizeof(struct extctx) + \ (n) + (PORT_INT_REQUIRED_STACK)) /** * @brief Static working area allocation. * @details This macro is used to allocate a static thread working area * aligned as both position and size. */ #define WORKING_AREA(s, n) stkalign_t s[THD_WA_SIZE(n) / sizeof(stkalign_t)] #endif /* _FROM_ASM_ */ #endif /* _CHCORE_H_ */ /** @} */