/* * Copyright (c) 2014-2015 Wind River Systems, Inc. * Copyright (c) 2016, Freescale Semiconductor, Inc. * Copyright (c) 2017, Phytec Messtechnik GmbH * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include #include #include #include #define PLLFLLSEL_MCGFLLCLK (0) #define PLLFLLSEL_MCGPLLCLK (1) #define PLLFLLSEL_IRC48MHZ (3) #define ER32KSEL_OSC32KCLK (0) #define ER32KSEL_RTC (2) #define ER32KSEL_LPO1KHZ (3) #define TIMESRC_OSCERCLK (2) /* * KW2xD Flash configuration fields * These 16 bytes, which must be loaded to address 0x400, include default * protection and security settings. * They are loaded at reset to various Flash Memory module (FTFE) registers. * * The structure is: * -Backdoor Comparison Key for unsecuring the MCU - 8 bytes * -Program flash protection bytes, 4 bytes, written to FPROT0-3 * -Flash security byte, 1 byte, written to FSEC * -Flash nonvolatile option byte, 1 byte, written to FOPT * -Reserved, 1 byte, (Data flash protection byte for FlexNVM) * -Reserved, 1 byte, (EEPROM protection byte for FlexNVM) * */ uint8_t __kinetis_flash_config_section __kinetis_flash_config[] = { /* Backdoor Comparison Key (unused) */ 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, /* Program flash protection; 1 bit/region - 0=protected, 1=unprotected */ 0xFF, 0xFF, 0xFF, 0xFF, /* * Flash security: Backdoor key disabled, Mass erase enabled, * Factory access enabled, MCU is unsecure */ 0xFE, /* Flash nonvolatile option: NMI enabled, EzPort enabled, Normal boot */ 0xFF, /* Reserved for FlexNVM feature (unsupported by this MCU) */ 0xFF, 0xFF}; static const osc_config_t oscConfig = { .freq = CONFIG_OSC_XTAL0_FREQ, .capLoad = 0, #if defined(CONFIG_OSC_EXTERNAL) .workMode = kOSC_ModeExt, #elif defined(CONFIG_OSC_LOW_POWER) .workMode = kOSC_ModeOscLowPower, #elif defined(CONFIG_OSC_HIGH_GAIN) .workMode = kOSC_ModeOscHighGain, #else #error "An oscillator mode must be defined" #endif .oscerConfig = { .enableMode = kOSC_ErClkEnable | kOSC_ErClkEnableInStop, #if (defined(FSL_FEATURE_OSC_HAS_EXT_REF_CLOCK_DIVIDER) && \ FSL_FEATURE_OSC_HAS_EXT_REF_CLOCK_DIVIDER) .erclkDiv = 0U, #endif }, }; static const mcg_pll_config_t pll0Config = { .enableMode = 0U, .prdiv = CONFIG_MCG_PRDIV0, .vdiv = CONFIG_MCG_VDIV0, }; static const sim_clock_config_t simConfig = { .pllFllSel = PLLFLLSEL_MCGPLLCLK, /* PLLFLLSEL select PLL. */ .er32kSrc = ER32KSEL_RTC, /* ERCLK32K selection, use RTC. */ .clkdiv1 = SIM_CLKDIV1_OUTDIV1(CONFIG_KW2XD_CORE_CLOCK_DIVIDER - 1) | SIM_CLKDIV1_OUTDIV2(CONFIG_KW2XD_BUS_CLOCK_DIVIDER - 1) | SIM_CLKDIV1_OUTDIV4(CONFIG_KW2XD_FLASH_CLOCK_DIVIDER - 1), }; /** * * @brief Initialize radio transceiver clock output * * The clock output of the transceiver can be used as an input clock * for the PLL of the SoC. The clock output (CLK_OUT) is internally connected * to the input pin EXTAL0 of the SoC. This routine will initialize the clock * output of the transceiver at 4 MHz. The default frequency of the CLK_OUT * depends on the state of GPIO5 during transceiver reset. The frequency * will be 4 MHz if the GPIO5 pin is low, otherwise it will be 32.78689 kHz. * * @return N/A * */ static void set_modem_clock(void) { /* Ungate PORTB and PORTC clock */ SIM->SCGC5 |= SIM_SCGC5_PORTB_MASK | SIM_SCGC5_PORTC_MASK; /* Set PORTB.19 as output - modem RESET pin */ GPIOB->PDDR |= 0x00080000u; /* Set PORTC.0 as output - modem GPIO5 pin */ GPIOC->PDDR |= 0x00000001u; /* PORTB.19 as GPIO */ PORTB->PCR[19] = (PORTB->PCR[19] & ~PORT_PCR_MUX_MASK) | PORT_PCR_MUX(0x01u); /* PORTC.0 as GPIO */ PORTC->PCR[0] = (PORTC->PCR[0] & ~PORT_PCR_MUX_MASK) | PORT_PCR_MUX(0x01u); /* Clear modem GPIO5 pin */ GPIOC->PCOR = 0x00000001u; /* Clear modem RESET pin */ GPIOB->PCOR = 0x00080000u; /* Set modem RESET pin */ GPIOB->PSOR = 0x00080000u; } /** * * @brief Initialize the system clock * * This routine will configure the multipurpose clock generator (MCG) to * set up the system clock. * The MCG has nine possible modes, including Stop mode. This routine assumes * that the current MCG mode is FLL Engaged Internal (FEI), as from reset. * It transitions through the FLL Bypassed External (FBE) and * PLL Bypassed External (PBE) modes to get to the desired * PLL Engaged External (PEE) mode and generate the maximum 48 MHz system * clock. * * @return N/A * */ static ALWAYS_INLINE void clkInit(void) { CLOCK_SetSimSafeDivs(); set_modem_clock(); CLOCK_InitOsc0(&oscConfig); CLOCK_SetXtal0Freq(CONFIG_OSC_XTAL0_FREQ); CLOCK_BootToPeeMode(kMCG_OscselOsc, kMCG_PllClkSelPll0, &pll0Config); CLOCK_SetInternalRefClkConfig(kMCG_IrclkEnable, kMCG_IrcSlow, CONFIG_MCG_FCRDIV); CLOCK_SetSimConfig(&simConfig); #if CONFIG_USB_KINETIS CLOCK_EnableUsbfs0Clock(kCLOCK_UsbSrcPll0, DT_ARM_CORTEX_M4_0_CLOCK_FREQUENCY); #endif } /** * * @brief Perform basic hardware initialization * * Initialize the interrupt controller device drivers. * Also initialize the timer device driver, if required. * * @return 0 */ static int kw2xd_init(struct device *arg) { ARG_UNUSED(arg); unsigned int oldLevel; /* old interrupt lock level */ /* disable interrupts */ oldLevel = irq_lock(); /* release I/O power hold to allow normal run state */ PMC->REGSC |= PMC_REGSC_ACKISO_MASK; /* Initialize PLL/system clock to 48 MHz */ clkInit(); /* * install default handler that simply resets the CPU * if configured in the kernel, NOP otherwise */ NMI_INIT(); /* restore interrupt state */ irq_unlock(oldLevel); return 0; } SYS_INIT(kw2xd_init, PRE_KERNEL_1, 0);