/* * BSP startup * * This routine starts the application. It includes application, * board, and monitor specific initialization and configuration. * The generic CPU dependent initialization has been performed * before this routine is invoked. * * Author: * David Fiddes, D.J@fiddes.surfaid.org * http://www.calm.hw.ac.uk/davidf/coldfire/ * * COPYRIGHT (c) 1989-1998. * On-Line Applications Research Corporation (OAR). * Copyright assigned to U.S. Government, 1994. * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * * http://www.OARcorp.com/rtems/license.html. * * $Id$ */ #include #include #include #include /* * The original table from the application and our copy of it with * some changes. */ extern rtems_configuration_table Configuration; rtems_configuration_table BSP_Configuration; rtems_cpu_table Cpu_table; char *rtems_progname; /* * Location of 'VME' access */ #define VME_ONE_BASE 0x30000000 #define VME_TWO_BASE 0x31000000 /* * Cacheable areas */ #define SDRAM_BASE 0 #define SDRAM_SIZE (16*1024*1024) #define FLASH_BASE 0xFF800000 #define FLASH_SIZE (8*1024*1024) /* * CPU-space access */ #define m68k_set_cacr(_cacr) asm volatile ("movec %0,%%cacr\n\tnop" : : "d" (_cacr)) #define m68k_set_acr0(_acr0) asm volatile ("movec %0,%%acr0" : : "d" (_acr0)) #define m68k_set_acr1(_acr1) asm volatile ("movec %0,%%acr1" : : "d" (_acr1)) /* * Read/write copy of common cache * Split I/D cache * Allow CPUSHL to invalidate a cache line * Enable buffered writes * No burst transfers on non-cacheable accesses * Default cache mode is *disabled* (cache only ACRx areas) */ static uint32_t cacr_mode = MCF5XXX_CACR_CENB | MCF5XXX_CACR_DBWE | MCF5XXX_CACR_DCM; /* * Cannot be frozen */ void _CPU_cache_freeze_data(void) {} void _CPU_cache_unfreeze_data(void) {} void _CPU_cache_freeze_instruction(void) {} void _CPU_cache_unfreeze_instruction(void) {} /* * Write-through data cache -- flushes are unnecessary */ void _CPU_cache_flush_1_data_line(const void *d_addr) {} void _CPU_cache_flush_entire_data(void) {} void _CPU_cache_enable_instruction(void) { rtems_interrupt_level level; rtems_interrupt_disable(level); cacr_mode &= ~MCF5XXX_CACR_DIDI; m68k_set_cacr(cacr_mode); rtems_interrupt_enable(level); } void _CPU_cache_disable_instruction(void) { rtems_interrupt_level level; rtems_interrupt_disable(level); cacr_mode |= MCF5XXX_CACR_DIDI; m68k_set_cacr(cacr_mode); rtems_interrupt_enable(level); } void _CPU_cache_invalidate_entire_instruction(void) { m68k_set_cacr(cacr_mode | MCF5XXX_CACR_CINV | MCF5XXX_CACR_INVI); } void _CPU_cache_invalidate_1_instruction_line(const void *addr) { /* * Top half of cache is I-space */ addr = (void *)((int)addr | 0x400); asm volatile ("cpushl %%bc,(%0)" :: "a" (addr)); } void _CPU_cache_enable_data(void) { rtems_interrupt_level level; rtems_interrupt_disable(level); cacr_mode &= ~MCF5XXX_CACR_DISD; m68k_set_cacr(cacr_mode); rtems_interrupt_enable(level); } void _CPU_cache_disable_data(void) { rtems_interrupt_level level; rtems_interrupt_disable(level); rtems_interrupt_disable(level); cacr_mode |= MCF5XXX_CACR_DISD; m68k_set_cacr(cacr_mode); rtems_interrupt_enable(level); } void _CPU_cache_invalidate_entire_data(void) { m68k_set_cacr(cacr_mode | MCF5XXX_CACR_CINV | MCF5XXX_CACR_INVD); } void _CPU_cache_invalidate_1_data_line(const void *addr) { /* * Bottom half of cache is D-space */ addr = (void *)((int)addr & ~0x400); asm volatile ("cpushl %%bc,(%0)" :: "a" (addr)); } /* * Use the shared implementations of the following routines */ void bsp_postdriver_hook(void); void bsp_libc_init( void *, uint32_t, int ); void bsp_pretasking_hook(void); /* m68k version */ /* * bsp_start * * This routine does the bulk of the system initialisation. */ void bsp_start( void ) { extern char _WorkspaceBase[]; extern char _RamSize[]; extern unsigned long _M68k_Ramsize; _M68k_Ramsize = (unsigned long)_RamSize; /* RAM size set in linker script */ /* * Allocate the memory for the RTEMS Work Space. This can come from * a variety of places: hard coded address, malloc'ed from outside * RTEMS world (e.g. simulator or primitive memory manager), or (as * typically done by stock BSPs) by subtracting the required amount * of work space from the last physical address on the CPU board. */ /* * Need to "allocate" the memory for the RTEMS Workspace and * tell the RTEMS configuration where it is. This memory is * not malloc'ed. It is just "pulled from the air". */ BSP_Configuration.work_space_start = (void *)_WorkspaceBase; /* * initialize the CPU table for this BSP */ Cpu_table.pretasking_hook = bsp_pretasking_hook; /* init libc, etc. */ Cpu_table.postdriver_hook = bsp_postdriver_hook; Cpu_table.do_zero_of_workspace = TRUE; Cpu_table.interrupt_stack_size = 4096; Cpu_table.interrupt_vector_table = (m68k_isr *)0; /* vectors at start of RAM */ /* * Invalidate the cache and disable it */ m68k_set_acr0(0); m68k_set_acr1(0); m68k_set_cacr(MCF5XXX_CACR_CINV); /* * Cache SDRAM and FLASH */ m68k_set_acr0(MCF5XXX_ACR_AB(SDRAM_BASE) | MCF5XXX_ACR_AM(SDRAM_SIZE-1) | MCF5XXX_ACR_EN | MCF5XXX_ACR_BWE | MCF5XXX_ACR_SM_IGNORE); /* * Enable the cache */ m68k_set_cacr(cacr_mode); } uint32_t get_CPU_clock_speed(void) { extern char _CPUClockSpeed[]; return( (uint32_t)_CPUClockSpeed); }