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/*
ChibiOS/RT - Copyright (C) 2006,2007,2008,2009,2010 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 <http://www.gnu.org/licenses/>.
*/
/**
* @file ARMCMx/chcore.h
* @brief ARM Cortex-Mx architecture port macros and structures.
*
* @addtogroup ARMCMx_CORE
* @{
*/
#ifndef _CHCORE_H_
#define _CHCORE_H_
/*
* Port-related configuration parameters.
*/
/**
* @brief Enables the use of the WFI ins.
*/
#ifndef ENABLE_WFI_IDLE
#define ENABLE_WFI_IDLE 0
#endif
/**
* @brief Name of the implemented architecture.
*/
#define CH_ARCHITECTURE_NAME "ARM"
/* Inclusion of the Cortex-Mx implementation specific parameters.*/
#include "cmparams.h"
/* Generating model-dependent info.*/
#if (CORTEX_MODEL == CORTEX_M3) || defined(__DOXYGEN__)
/**
* @brief Macro defining the ARM Cortex-M3 architecture.
*/
#define CH_ARCHITECTURE_ARMCM3
/**
* @brief Name of the architecture variant (optional).
*/
#define CH_CORE_VARIANT_NAME "Cortex-M3"
#elif (CORTEX_MODEL == CORTEX_M0)
#define CH_ARCHITECTURE_ARMCM0
#define CH_CORE_VARIANT_NAME "Cortex-M0"
#else
#error "unknown or unsupported Cortex-M model"
#endif
/**
* @brief 32 bits stack and memory alignment enforcement.
*/
typedef uint32_t stkalign_t;
/**
* @brief Generic ARM register.
*/
typedef void *regarm_t;
#if !defined(__DOXYGEN__)
/**
* @brief Interrupt saved context.
* @details This structure represents the stack frame saved during a
* preemption-capable interrupt handler.
* @note This structure is empty in this port.
*/
struct extctx {
};
#endif
#if !defined(__DOXYGEN__)
/**
* @brief System saved context.
* @details This structure represents the inner stack frame during a context
* switching.
*/
struct intctx {
regarm_t basepri;
regarm_t r4;
regarm_t r5;
regarm_t r6;
#ifndef CH_CURRP_REGISTER_CACHE
regarm_t r7;
#endif
regarm_t r8;
regarm_t r9;
regarm_t r10;
regarm_t r11;
regarm_t lr_exc;
/* Start of the hardware saved frame.*/
regarm_t r0;
regarm_t r1;
regarm_t r2;
regarm_t r3;
regarm_t r12;
regarm_t lr_thd;
regarm_t pc;
regarm_t xpsr;
};
#endif
#if !defined(__DOXYGEN__)
/**
* @brief Platform dependent part of the @p Thread structure.
* @details In the Cortex-Mx port this structure just holds a pointer to the
* @p intctx structure representing the stack pointer at the time
* of the context switch.
*/
struct context {
struct intctx *r13;
};
#endif
/**
* @brief Platform dependent part of the @p chThdInit() 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->basepri = CORTEX_BASEPRI_USER; \
tp->p_ctx.r13->lr_exc = (regarm_t)0xFFFFFFFD; \
tp->p_ctx.r13->r0 = arg; \
tp->p_ctx.r13->lr_thd = chThdExit; \
tp->p_ctx.r13->pc = pf; \
tp->p_ctx.r13->xpsr = (regarm_t)0x01000000; \
}
/**
* @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 INT_REQUIRED_STACK.
* @note In this port it is set to 4 because the idle thread does have
* a stack frame when compiling without optimizations.
*/
#ifndef IDLE_THREAD_STACK_SIZE
#define IDLE_THREAD_STACK_SIZE 4
#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 This port requires no extra stack space for interrupt handling.
*/
#ifndef INT_REQUIRED_STACK
#define INT_REQUIRED_STACK 0
#endif
/**
* @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) + (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)];
/**
* @brief IRQ prologue code.
* @details This macro must be inserted at the start of all IRQ handlers
* enabled to invoke system APIs.
*/
#define PORT_IRQ_PROLOGUE()
/**
* @brief IRQ epilogue code.
* @details This macro must be inserted at the end of all IRQ handlers
* enabled to invoke system APIs.
*/
#define PORT_IRQ_EPILOGUE() { \
chSysLockFromIsr(); \
if (chSchIsRescRequiredI()) \
SCB_ICSR = ICSR_PENDSVSET; \
chSysUnlockFromIsr(); \
}
/**
* @brief IRQ handler function declaration.
* @note @p id can be a function name or a vector number depending on the
* port implementation.
*/
#define PORT_IRQ_HANDLER(id) void id(void)
/**
* @brief Port-related initialization code.
* @note This function is empty in this port.
*/
#define port_init()
/**
* @brief Kernel-lock action.
* @details Usually this function just disables interrupts but may perform
* more actions.
* @note In this port this it raises the base priority to kernel level.
*/
#if CH_OPTIMIZE_SPEED
#define port_lock() { \
register uint32_t tmp asm ("r3") = CORTEX_BASEPRI_KERNEL; \
asm volatile ("msr BASEPRI, %0" : : "r" (tmp)); \
}
#else
#define port_lock() { \
asm volatile ("bl _port_lock" : : : "r3", "lr"); \
}
#endif
/**
* @brief Kernel-unlock action.
* @details Usually this function just disables interrupts but may perform
* more actions.
* @note In this port this it lowers the base priority to kernel level.
*/
#if CH_OPTIMIZE_SPEED
#define port_unlock() { \
register uint32_t tmp asm ("r3") = CORTEX_BASEPRI_USER; \
asm volatile ("msr BASEPRI, %0" : : "r" (tmp)); \
}
#else
#define port_unlock() { \
asm volatile ("bl _port_unlock" : : : "r3", "lr"); \
}
#endif
/**
* @brief Kernel-lock action from an interrupt handler.
* @details This function is invoked before invoking I-class APIs from
* interrupt handlers. The implementation is architecture dependent,
* in its simplest form it is void.
* @note Same as @p port_lock() in this port.
*/
#define port_lock_from_isr() port_lock()
/**
* @brief Kernel-unlock action from an interrupt handler.
* @details This function is invoked after invoking I-class APIs from interrupt
* handlers. The implementation is architecture dependent, in its
* simplest form it is void.
* @note Same as @p port_unlock() in this port.
*/
#define port_unlock_from_isr() port_unlock()
/**
* @brief Disables all the interrupt sources.
* @note Of course non maskable interrupt sources are not included.
* @note In this port it disables all the interrupt sources by raising
* the priority mask to level 0.
*/
#define port_disable() asm volatile ("cpsid i")
/**
* @brief Disables the interrupt sources below kernel-level priority.
* @note Interrupt sources above kernel level remains enabled.
* @note In this port it raises/lowers the base priority to kernel level.
*/
#define port_suspend() { \
register uint32_t tmp asm ("r3") = CORTEX_BASEPRI_KERNEL; \
asm volatile ("msr BASEPRI, %0 \n\t" \
"cpsie i" : : "r" (tmp)); \
}
/**
* @brief Enables all the interrupt sources.
* @note In this port it lowers the base priority to user level.
*/
#define port_enable() { \
register uint32_t tmp asm ("r3") = CORTEX_BASEPRI_USER; \
asm volatile ("msr BASEPRI, %0 \n\t" \
"cpsie i" : : "r" (tmp)); \
}
/**
* @brief Enters an architecture-dependent IRQ-waiting mode.
* @details The function is meant to return when an interrupt becomes pending.
* The simplest implementation is an empty function or macro but this
* would not take advantage of architecture-specific power saving
* modes.
* @note Implemented as an inlined @p WFI instruction.
*/
#if ENABLE_WFI_IDLE || defined(__DOXYGEN__)
#define port_wait_for_interrupt() { \
asm volatile ("wfi"); \
}
#else
#define port_wait_for_interrupt()
#endif
/**
* @brief Performs a context switch between two threads.
* @details This is the most critical code in any port, this function
* is responsible for the context switch between 2 threads.
* @note The implementation of this code affects <b>directly</b> the context
* switch performance so optimize here as much as you can.
* @note Implemented as inlined code for performance reasons.
*
* @param[in] ntp the thread to be switched in
* @param[in] otp the thread to be switched out
*/
static INLINE Thread *port_switch(Thread *ntp, Thread *otp) {
register Thread *_ntp asm ("r0") = (ntp);
register Thread *_otp asm ("r1") = (otp);
#if CH_DBG_ENABLE_STACK_CHECK
register char *sp asm ("sp");
if (sp - sizeof(struct intctx) - sizeof(Thread) < (char *)_otp)
asm volatile ("movs r0, #0 \n\t"
"b chDbgPanic");
#endif /* CH_DBG_ENABLE_STACK_CHECK */
asm volatile ("svc #0" : : "r" (_otp), "r" (_ntp) : "memory");
return _otp;
}
#ifdef __cplusplus
extern "C" {
#endif
void port_halt(void);
#if !CH_OPTIMIZE_SPEED
void _port_lock(void);
void _port_unlock(void);
#endif
#ifdef __cplusplus
}
#endif
#endif /* _CHCORE_H_ */
/** @} */
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