/* * This file contains the basic algorithms for all assembly code used * in an specific CPU port of RTEMS. These algorithms must be implemented * in assembly language * * NOTE: This port uses a C file with inline assembler instructions * * Authors: Ralf Corsepius (corsepiu@faw.uni-ulm.de) and * Bernd Becker (becker@faw.uni-ulm.de) * * COPYRIGHT (c) 1997-1998, FAW Ulm, Germany * * 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. * * * COPYRIGHT (c) 1998. * On-Line Applications Research Corporation (OAR). * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * http://www.rtems.com/license/LICENSE. * * $Id$ */ /* * This is supposed to be an assembly file. This means that system.h * and cpu.h should not be included in a "real" cpu_asm file. An * implementation in assembly should include "cpu_asm.h" */ #include #include #include #include #include #include #include #include #include /* from cpu_isps.c */ extern proc_ptr _Hardware_isr_Table[]; #if( CPU_HAS_SOFTWARE_INTERRUPT_STACK == TRUE) unsigned long *_old_stack_ptr; #endif register unsigned long *stack_ptr asm("r15"); /* * _CPU_Context_save_fp_context * * This routine is responsible for saving the FP context * at *fp_context_ptr. If the point to load the FP context * from is changed then the pointer is modified by this routine. * * Sometimes a macro implementation of this is in cpu.h which dereferences * the ** and a similarly named routine in this file is passed something * like a (Context_Control_fp *). The general rule on making this decision * is to avoid writing assembly language. */ void _CPU_Context_save_fp( Context_Control_fp **fp_context_ptr /* r4 */ ) { #if SH_HAS_FPU asm volatile("\n\ mov.l @%0,r4 \n\ add %1,r4\n\ sts.l fpscr,@-r4\n\ sts.l fpul,@-r4\n\ lds %2,fpscr\n\ fmov dr14,@-r4\n\ fmov dr12,@-r4\n\ fmov dr10,@-r4\n\ fmov dr8,@-r4\n\ fmov dr6,@-r4\n\ fmov dr4,@-r4\n\ fmov dr2,@-r4\n\ fmov dr0,@-r4\n\ " #ifdef SH4_USE_X_REGISTERS "\ lds %3,fpscr\n\ fmov xd14,@-r4\n\ fmov xd12,@-r4\n\ fmov xd10,@-r4\n\ fmov xd8,@-r4\n\ fmov xd6,@-r4\n\ fmov xd4,@-r4\n\ fmov xd2,@-r4\n\ fmov xd0,@-r4\n\ " #endif "lds %4,fpscr\n\ " : : "r"(fp_context_ptr), "r"(sizeof(Context_Control_fp)), "r"(SH4_FPSCR_SZ), "r"(SH4_FPSCR_PR | SH4_FPSCR_SZ), "r"(SH4_FPSCR_PR) : "r4", "r0"); #endif } /* * _CPU_Context_restore_fp_context * * This routine is responsible for restoring the FP context * at *fp_context_ptr. If the point to load the FP context * from is changed then the pointer is modified by this routine. * * Sometimes a macro implementation of this is in cpu.h which dereferences * the ** and a similarly named routine in this file is passed something * like a (Context_Control_fp *). The general rule on making this decision * is to avoid writing assembly language. */ void _CPU_Context_restore_fp( Context_Control_fp **fp_context_ptr /* r4 */ ) { #if SH_HAS_FPU asm volatile("\n\ mov.l @%0,r4 \n\ " #ifdef SH4_USE_X_REGISTERS "\n\ lds %1,fpscr\n\ fmov @r4+,xd0\n\ fmov @r4+,xd2\n\ fmov @r4+,xd4\n\ fmov @r4+,xd6\n\ fmov @r4+,xd8\n\ fmov @r4+,xd10\n\ fmov @r4+,xd12\n\ fmov @r4+,xd14\n\ " #endif "\n\ lds %2,fpscr\n\ fmov @r4+,dr0\n\ fmov @r4+,dr2\n\ fmov @r4+,dr4\n\ fmov @r4+,dr6\n\ fmov @r4+,dr8\n\ fmov @r4+,dr10\n\ fmov @r4+,dr12\n\ fmov @r4+,dr14\n\ lds.l @r4+,fpul\n\ lds.l @r4+,fpscr\n\ " : : "r"(fp_context_ptr), "r"(SH4_FPSCR_PR | SH4_FPSCR_SZ), "r"(SH4_FPSCR_SZ) : "r4", "r0"); #endif } /* _CPU_Context_switch * * This routine performs a normal non-FP context switch. */ /* within __CPU_Context_switch: * _CPU_Context_switch * _CPU_Context_restore * * This routine is generally used only to restart self in an * efficient manner. It may simply be a label in _CPU_Context_switch. * * NOTE: It should be safe not to store r4, r5 * * NOTE: It is doubtful if r0 is really needed to be stored * * NOTE: gbr is added, but should not be necessary, as it is * only used globally in this port. */ /* * FIXME: This is an ugly hack, but we wanted to avoid recalculating * the offset each time Context_Control is changed */ void __CPU_Context_switch( Context_Control *run, /* r4 */ Context_Control *heir /* r5 */ ) { asm volatile("\n\ .global __CPU_Context_switch\n\ __CPU_Context_switch:\n\ \n\ add %0,r4\n\ \n\ stc.l sr,@-r4\n\ stc.l gbr,@-r4\n\ mov.l r0,@-r4\n\ mov.l r1,@-r4\n\ mov.l r2,@-r4\n\ mov.l r3,@-r4\n\ \n\ mov.l r6,@-r4\n\ mov.l r7,@-r4\n\ mov.l r8,@-r4\n\ mov.l r9,@-r4\n\ mov.l r10,@-r4\n\ mov.l r11,@-r4\n\ mov.l r12,@-r4\n\ mov.l r13,@-r4\n\ mov.l r14,@-r4\n\ sts.l pr,@-r4\n\ sts.l mach,@-r4\n\ sts.l macl,@-r4\n\ mov.l r15,@-r4\n\ \n\ mov r5, r4" :: "i" (sizeof(Context_Control)) ); asm volatile("\n\ .global __CPU_Context_restore\n\ __CPU_Context_restore:\n\ mov.l @r4+,r15\n\ lds.l @r4+,macl\n\ lds.l @r4+,mach\n\ lds.l @r4+,pr\n\ mov.l @r4+,r14\n\ mov.l @r4+,r13\n\ mov.l @r4+,r12\n\ mov.l @r4+,r11\n\ mov.l @r4+,r10\n\ mov.l @r4+,r9\n\ mov.l @r4+,r8\n\ mov.l @r4+,r7\n\ mov.l @r4+,r6\n\ \n\ mov.l @r4+,r3\n\ mov.l @r4+,r2\n\ mov.l @r4+,r1\n\ mov.l @r4+,r0\n\ ldc.l @r4+,gbr\n\ ldc.l @r4+,sr\n\ \n\ rts\n\ nop" ); } /* * This routine provides the RTEMS interrupt management. */ void __ISR_Handler( uint32_t vector) { register uint32_t level; _CPU_ISR_Disable( level ); _Thread_Dispatch_disable_level++; #if( CPU_HAS_SOFTWARE_INTERRUPT_STACK == TRUE) if( _ISR_Nest_level == 0 ) { /* Install irq stack */ _old_stack_ptr = stack_ptr; stack_ptr = _CPU_Interrupt_stack_high; } #endif _ISR_Nest_level++; _CPU_ISR_Enable( level ); /* call isp */ if( _ISR_Vector_table[ vector]) (*_ISR_Vector_table[ vector ])( vector ); _CPU_ISR_Disable( level ); _Thread_Dispatch_disable_level--; _ISR_Nest_level--; #if( CPU_HAS_SOFTWARE_INTERRUPT_STACK == TRUE) if( _ISR_Nest_level == 0 ) /* restore old stack pointer */ stack_ptr = _old_stack_ptr; #endif _CPU_ISR_Enable( level ); if ( _ISR_Nest_level ) return; if ( _Thread_Dispatch_disable_level ) { _ISR_Signals_to_thread_executing = FALSE; return; } if ( _Context_Switch_necessary || _ISR_Signals_to_thread_executing ) { _ISR_Signals_to_thread_executing = FALSE; _Thread_Dispatch(); } }