OpenModem/bertos/cpu/frame.h

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2014-04-03 16:21:37 -04:00
/**
* \file
* <!--
* This file is part of BeRTOS.
*
* Bertos 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 of the License, or
* (at your option) any later version.
*
* This program 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, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
* As a special exception, you may use this file as part of a free software
* library without restriction. Specifically, if other files instantiate
* templates or use macros or inline functions from this file, or you compile
* this file and link it with other files to produce an executable, this
* file does not by itself cause the resulting executable to be covered by
* the GNU General Public License. This exception does not however
* invalidate any other reasons why the executable file might be covered by
* the GNU General Public License.
*
* Copyright 2008 Bernie Innocenti <bernie@codewiz.org>
* Copyright 2004, 2005, 2006, 2007, 2008 Develer S.r.l. (http://www.develer.com/)
* Copyright 2004 Giovanni Bajo
*
* -->
*
* \brief CPU-specific stack frame handling macros.
*
* These are mainly used by the portable part of the scheduler
* to work with the process stack frames.
*
* \author Giovanni Bajo <rasky@develer.com>
* \author Bernie Innocenti <bernie@codewiz.org>
* \author Stefano Fedrigo <aleph@develer.com>
* \author Francesco Sacchi <batt@develer.com>
*/
#ifndef CPU_FRAME_H
#define CPU_FRAME_H
#include <cpu/detect.h>
#include "cfg/cfg_arch.h" /* ARCH_EMUL */
#include <cfg/compiler.h> /* for uintXX_t */
#if CPU_X86
#if CPU_X86_32
#define CPU_SAVED_REGS_CNT 2
#elif CPU_X86_64
#define CPU_SAVED_REGS_CNT 8
#else
#error "unknown CPU"
#endif
#define CPU_STACK_GROWS_UPWARD 0
#define CPU_SP_ON_EMPTY_SLOT 0
#elif CPU_ARM
#define CPU_SAVED_REGS_CNT 8
#define CPU_STACK_GROWS_UPWARD 0
#define CPU_SP_ON_EMPTY_SLOT 0
#elif CPU_CM3
#define CPU_SAVED_REGS_CNT 8
#define CPU_STACK_GROWS_UPWARD 0
#define CPU_SP_ON_EMPTY_SLOT 0
#elif CPU_PPC
#define CPU_SAVED_REGS_CNT 1
#define CPU_STACK_GROWS_UPWARD 0
#define CPU_SP_ON_EMPTY_SLOT 1
#elif CPU_DSP56K
#define CPU_SAVED_REGS_CNT 8
#define CPU_STACK_GROWS_UPWARD 1
#define CPU_SP_ON_EMPTY_SLOT 0
#elif CPU_AVR
#define CPU_SAVED_REGS_CNT 18
#define CPU_STACK_GROWS_UPWARD 0
#define CPU_SP_ON_EMPTY_SLOT 1
#elif CPU_MSP430
#define CPU_SAVED_REGS_CNT 16
#define CPU_STACK_GROWS_UPWARD 1
#define CPU_SP_ON_EMPTY_SLOT 0
#else
#error No CPU_... defined.
#endif
#ifndef CPU_STACK_GROWS_UPWARD
#error CPU_STACK_GROWS_UPWARD should have been defined to either 0 or 1
#endif
#ifndef CPU_SP_ON_EMPTY_SLOT
#error CPU_SP_ON_EMPTY_SLOT should have been defined to either 0 or 1
#endif
/// Default for macro not defined in the right arch section
#ifndef CPU_REG_INIT_VALUE
#define CPU_REG_INIT_VALUE(reg) (reg)
#endif
/*
* Support stack handling peculiarities of a few CPUs.
*
* Most processors let their stack grow downward and
* keep SP pointing at the last pushed value.
*/
#if !CPU_STACK_GROWS_UPWARD
#if !CPU_SP_ON_EMPTY_SLOT
/* Most microprocessors (x86, m68k...) */
#define CPU_PUSH_WORD(sp, data) \
do { *--(sp) = (data); } while (0)
#define CPU_POP_WORD(sp) \
(*(sp)++)
#else
/* AVR insanity */
#define CPU_PUSH_WORD(sp, data) \
do { *(sp)-- = (data); } while (0)
#define CPU_POP_WORD(sp) \
(*++(sp))
#endif
#else /* CPU_STACK_GROWS_UPWARD */
#if !CPU_SP_ON_EMPTY_SLOT
/* DSP56K and other weirdos */
#define CPU_PUSH_WORD(sp, data) \
do { *++(sp) = (cpu_stack_t)(data); } while (0)
#define CPU_POP_WORD(sp) \
(*(sp)--)
#else
#error I bet you cannot find a CPU like this
#endif
#endif
#if CPU_DSP56K
/*
* DSP56k pushes both PC and SR to the stack in the JSR instruction, but
* RTS discards SR while returning (it does not restore it). So we push
* 0 to fake the same context.
*/
#define CPU_PUSH_CALL_FRAME(sp, func) \
do { \
CPU_PUSH_WORD((sp), (func)); \
CPU_PUSH_WORD((sp), 0x100); \
} while (0);
#elif CPU_CM3
#if CONFIG_KERN_PREEMPT
INLINE void cm3_preempt_switch_context(cpu_stack_t **new_sp, cpu_stack_t **old_sp)
{
register cpu_stack_t **__new_sp asm ("r0") = new_sp;
register cpu_stack_t **__old_sp asm ("r1") = old_sp;
asm volatile ("svc #0"
: : "r"(__new_sp), "r"(__old_sp) : "memory", "cc");
}
#define asm_switch_context cm3_preempt_switch_context
#define CPU_CREATE_NEW_STACK(stack) \
do { \
size_t i; \
/* Initialize process stack frame */ \
CPU_PUSH_WORD((stack), 0x01000000); /* xPSR */ \
CPU_PUSH_WORD((stack), (cpu_stack_t)proc_entry); /* pc */ \
CPU_PUSH_WORD((stack), 0); /* lr */ \
CPU_PUSH_WORD((stack), 0); /* ip */ \
CPU_PUSH_WORD((stack), 0); /* r3 */ \
CPU_PUSH_WORD((stack), 0); /* r2 */ \
CPU_PUSH_WORD((stack), 0); /* r1 */ \
CPU_PUSH_WORD((stack), 0); /* r0 */ \
CPU_PUSH_WORD((stack), 0xfffffffd); /* lr_exc */ \
/* Push a clean set of CPU registers for asm_switch_context() */ \
for (i = 0; i < CPU_SAVED_REGS_CNT; i++) \
CPU_PUSH_WORD(stack, CPU_REG_INIT_VALUE(i)); \
CPU_PUSH_WORD(stack, IRQ_PRIO_DISABLED); \
} while (0)
#endif /* CONFIG_KERN_PREEMPT */
#elif CPU_AVR
/*
* On AVR, addresses are pushed into the stack as little-endian, while
* memory accesses are big-endian (actually, it's a 8-bit CPU, so there is
* no natural endianess).
*/
#define CPU_PUSH_CALL_FRAME(sp, func) \
do { \
uint16_t funcaddr = (uint16_t)(func); \
CPU_PUSH_WORD((sp), funcaddr); \
CPU_PUSH_WORD((sp), funcaddr>>8); \
} while (0)
/*
* If the kernel is in idle-spinning, the processor executes:
*
* IRQ_ENABLE;
* CPU_IDLE;
* IRQ_DISABLE;
*
* IRQ_ENABLE is translated in asm as "sei" and IRQ_DISABLE as "cli".
* We could define CPU_IDLE to expand to none, so the resulting
* asm code would be:
*
* sei;
* cli;
*
* But Atmel datasheet states:
* "When using the SEI instruction to enable interrupts,
* the instruction following SEI will be executed *before*
* any pending interrupts", so "cli" is executed before any
* pending interrupt with the result that IRQs will *NOT*
* be enabled!
* To ensure that IRQ will run a NOP is required.
*/
#define CPU_IDLE NOP
#elif CPU_PPC
#define CPU_PUSH_CALL_FRAME(sp, func) \
do { \
CPU_PUSH_WORD((sp), (cpu_stack_t)(func)); /* LR -> 8(SP) */ \
CPU_PUSH_WORD((sp), 0); /* CR -> 4(SP) */ \
} while (0)
#endif
#ifndef CPU_PUSH_CALL_FRAME
#define CPU_PUSH_CALL_FRAME(sp, func) \
CPU_PUSH_WORD((sp), (cpu_stack_t)(func))
#endif
/**
* \def CPU_IDLE
*
* \brief Invoked by the scheduler to stop the CPU when idle.
*
* This hook can be redefined to put the CPU in low-power mode, or to
* profile system load with an external strobe, or to save CPU cycles
* in hosted environments such as emulators.
*/
#ifndef CPU_IDLE
#define CPU_IDLE PAUSE
#endif /* !CPU_IDLE */
/**
* Default macro for creating a new Process stack
*/
#ifndef CPU_CREATE_NEW_STACK
#define CPU_CREATE_NEW_STACK(stack) \
do { \
size_t i; \
/* Initialize process stack frame */ \
CPU_PUSH_CALL_FRAME(stack, proc_entry); \
/* Push a clean set of CPU registers for asm_switch_context() */ \
for (i = 0; i < CPU_SAVED_REGS_CNT; i++) \
CPU_PUSH_WORD(stack, CPU_REG_INIT_VALUE(i)); \
} while (0)
#endif
#endif /* CPU_ATTR_H */