/** * @file * * @ingroup lpc32xx * * @brief Startup code. */ /* * Copyright (c) 2009-2013 embedded brains GmbH. All rights reserved. * * embedded brains GmbH * Dornierstr. 4 * 82178 Puchheim * Germany * * * 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. */ #include #include #include #include #include #include #include #ifdef LPC32XX_DISABLE_READ_WRITE_DATA_CACHE #define LPC32XX_MMU_READ_WRITE_DATA LPC32XX_MMU_READ_WRITE #else #define LPC32XX_MMU_READ_WRITE_DATA LPC32XX_MMU_READ_WRITE_CACHED #endif #ifdef LPC32XX_DISABLE_READ_ONLY_PROTECTION #define LPC32XX_MMU_READ_ONLY_DATA LPC32XX_MMU_READ_WRITE_CACHED #define LPC32XX_MMU_CODE LPC32XX_MMU_READ_WRITE_CACHED #else #define LPC32XX_MMU_READ_ONLY_DATA LPC32XX_MMU_READ_ONLY_CACHED #define LPC32XX_MMU_CODE LPC32XX_MMU_READ_ONLY_CACHED #endif #ifndef LPC32XX_DISABLE_MMU static const BSP_START_DATA_SECTION arm_cp15_start_section_config lpc32xx_mmu_config_table [] = { { .begin = (uint32_t) bsp_section_fast_text_begin, .end = (uint32_t) bsp_section_fast_text_end, .flags = LPC32XX_MMU_CODE }, { .begin = (uint32_t) bsp_section_fast_data_begin, .end = (uint32_t) bsp_section_fast_data_end, .flags = LPC32XX_MMU_READ_WRITE_DATA #ifdef LPC32XX_SCRATCH_AREA_SIZE }, { .begin = (uint32_t) &lpc32xx_scratch_area [0], .end = (uint32_t) &lpc32xx_scratch_area [LPC32XX_SCRATCH_AREA_SIZE], .flags = LPC32XX_MMU_READ_ONLY_DATA #endif }, { .begin = (uint32_t) bsp_section_start_begin, .end = (uint32_t) bsp_section_start_end, .flags = LPC32XX_MMU_CODE }, { .begin = (uint32_t) bsp_section_vector_begin, .end = (uint32_t) bsp_section_vector_end, .flags = LPC32XX_MMU_READ_WRITE_CACHED }, { .begin = (uint32_t) bsp_section_text_begin, .end = (uint32_t) bsp_section_text_end, .flags = LPC32XX_MMU_CODE }, { .begin = (uint32_t) bsp_section_rodata_begin, .end = (uint32_t) bsp_section_rodata_end, .flags = LPC32XX_MMU_READ_ONLY_DATA }, { .begin = (uint32_t) bsp_section_data_begin, .end = (uint32_t) bsp_section_data_end, .flags = LPC32XX_MMU_READ_WRITE_DATA }, { .begin = (uint32_t) bsp_section_bss_begin, .end = (uint32_t) bsp_section_bss_end, .flags = LPC32XX_MMU_READ_WRITE_DATA }, { .begin = (uint32_t) bsp_section_work_begin, .end = (uint32_t) bsp_section_work_end, .flags = LPC32XX_MMU_READ_WRITE_DATA }, { .begin = (uint32_t) bsp_section_stack_begin, .end = (uint32_t) bsp_section_stack_end, .flags = LPC32XX_MMU_READ_WRITE_DATA }, { .begin = 0x0U, .end = 0x100000U, .flags = LPC32XX_MMU_READ_ONLY_CACHED }, { .begin = 0x20000000U, .end = 0x200c0000U, .flags = LPC32XX_MMU_READ_WRITE }, { .begin = 0x30000000U, .end = 0x32000000U, .flags = LPC32XX_MMU_READ_WRITE }, { .begin = 0x40000000U, .end = 0x40100000U, .flags = LPC32XX_MMU_READ_WRITE }, { .begin = (uint32_t) lpc32xx_magic_zero_begin, .end = (uint32_t) lpc32xx_magic_zero_end, .flags = LPC32XX_MMU_READ_WRITE_DATA } }; #endif static BSP_START_TEXT_SECTION void setup_mmu_and_cache(void) { uint32_t ctrl = arm_cp15_start_setup_mmu_and_cache( ARM_CP15_CTRL_I | ARM_CP15_CTRL_R | ARM_CP15_CTRL_C | ARM_CP15_CTRL_V | ARM_CP15_CTRL_M, ARM_CP15_CTRL_S | ARM_CP15_CTRL_A ); arm_cp15_cache_invalidate(); #ifndef LPC32XX_DISABLE_MMU arm_cp15_start_setup_translation_table_and_enable_mmu_and_cache( ctrl, (uint32_t *) bsp_translation_table_base, LPC32XX_MMU_CLIENT_DOMAIN, &lpc32xx_mmu_config_table [0], RTEMS_ARRAY_SIZE(lpc32xx_mmu_config_table) ); #endif } BSP_START_TEXT_SECTION bool lpc32xx_start_pll_setup( uint32_t hclkpll_ctrl, uint32_t hclkdiv_ctrl, bool force ) { uint32_t pwr_ctrl = LPC32XX_PWR_CTRL; bool settings_ok = ((LPC32XX_HCLKPLL_CTRL ^ hclkpll_ctrl) & BSP_MSK32(1, 16)) == 0 && ((LPC32XX_HCLKDIV_CTRL ^ hclkdiv_ctrl) & BSP_MSK32(0, 8)) == 0; if ((pwr_ctrl & PWR_NORMAL_RUN_MODE) == 0 || (!settings_ok && force)) { /* Disable HCLK PLL output */ LPC32XX_PWR_CTRL = pwr_ctrl & ~PWR_NORMAL_RUN_MODE; /* Configure HCLK PLL */ LPC32XX_HCLKPLL_CTRL = hclkpll_ctrl; while ((LPC32XX_HCLKPLL_CTRL & HCLK_PLL_LOCK) == 0) { /* Wait */ } /* Setup HCLK divider */ LPC32XX_HCLKDIV_CTRL = hclkdiv_ctrl; /* Enable HCLK PLL output */ LPC32XX_PWR_CTRL = pwr_ctrl | PWR_NORMAL_RUN_MODE; } return settings_ok; } #if LPC32XX_OSCILLATOR_MAIN != 13000000U #error "unexpected main oscillator frequency" #endif static BSP_START_TEXT_SECTION void setup_pll(void) { uint32_t hclkpll_ctrl = LPC32XX_HCLKPLL_CTRL_INIT_VALUE; uint32_t hclkdiv_ctrl = LPC32XX_HCLKDIV_CTRL_INIT_VALUE; lpc32xx_start_pll_setup(hclkpll_ctrl, hclkdiv_ctrl, false); } BSP_START_TEXT_SECTION void bsp_start_hook_0(void) { setup_pll(); } static BSP_START_TEXT_SECTION void stop_dma_activities(void) { #ifdef LPC32XX_STOP_GPDMA LPC32XX_DO_STOP_GPDMA; #endif #ifdef LPC32XX_STOP_ETHERNET LPC32XX_DO_STOP_ETHERNET; #endif #ifdef LPC32XX_STOP_USB LPC32XX_DO_STOP_USB; #endif } static BSP_START_TEXT_SECTION void setup_uarts(void) { LPC32XX_UART_CTRL = 0x0; LPC32XX_UART_LOOP = 0x0; #ifdef LPC32XX_UART_5_BAUD LPC32XX_UARTCLK_CTRL |= 1U << 2; LPC32XX_U5CLK = LPC32XX_CONFIG_U5CLK; LPC32XX_UART_CLKMODE = BSP_FLD32SET(LPC32XX_UART_CLKMODE, 0x2, 8, 9); BSP_CONSOLE_UART_INIT(0x01); #endif } static BSP_START_TEXT_SECTION void setup_timer(void) { volatile lpc_timer *timer = LPC32XX_STANDARD_TIMER; LPC32XX_TIMCLK_CTRL1 = (1U << 2) | (1U << 3); timer->tcr = LPC_TIMER_TCR_RST; timer->ctcr = 0x0; timer->pr = 0x0; timer->ir = 0xff; timer->mcr = 0x0; timer->ccr = 0x0; timer->tcr = LPC_TIMER_TCR_EN; } BSP_START_TEXT_SECTION void bsp_start_hook_1(void) { stop_dma_activities(); bsp_start_copy_sections(); setup_mmu_and_cache(); setup_uarts(); setup_timer(); bsp_start_clear_bss(); }