/* Copyright 2023 Dual Tachyon * https://github.com/DualTachyon * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "ARMCM0.h" #include "bsp/dp32g030/pmu.h" #include "bsp/dp32g030/saradc.h" #include "bsp/dp32g030/syscon.h" #include "sram-overlay.h" static volatile uint32_t *pFlash = 0; uint32_t overlay_FLASH_MainClock; uint32_t overlay_FLASH_ClockMultiplier; uint32_t overlay_0x20000478; // Nothing is using this??? void overlay_FLASH_RebootToBootloader(void) { overlay_FLASH_MaskUnlock(); overlay_FLASH_SetMaskSel(FLASH_MASK_SELECTION_NONE); overlay_FLASH_MaskLock(); overlay_SystemReset(); } bool overlay_FLASH_IsBusy(void) { return (FLASH_ST & FLASH_ST_BUSY_MASK) != FLASH_ST_BUSY_BITS_READY; } bool overlay_FLASH_IsInitComplete(void) { return (FLASH_ST & FLASH_ST_INIT_BUSY_MASK) == FLASH_ST_INIT_BUSY_BITS_COMPLETE; } void overlay_FLASH_Start(void) { overlay_FLASH_Unlock(); FLASH_START |= FLASH_START_START_BITS_START; } void overlay_FLASH_Init(FLASH_READ_MODE ReadMode) { overlay_FLASH_WakeFromDeepSleep(); overlay_FLASH_SetMode(FLASH_MODE_READ_AHB); overlay_FLASH_SetReadMode(ReadMode); overlay_FLASH_SetEraseTime(); overlay_FLASH_SetProgramTime(); overlay_FLASH_Lock(); } void overlay_FLASH_MaskLock(void) { FLASH_MASK = (FLASH_MASK & ~FLASH_MASK_LOCK_MASK) | FLASH_MASK_LOCK_BITS_SET; } void overlay_FLASH_SetMaskSel(FLASH_MASK_SELECTION Mask) { FLASH_MASK = (FLASH_MASK & ~FLASH_MASK_SEL_MASK) | ((Mask << FLASH_MASK_SEL_SHIFT) & FLASH_MASK_SEL_MASK); } void overlay_FLASH_MaskUnlock(void) { FLASH_MASK = (FLASH_MASK & ~FLASH_MASK_LOCK_MASK) | FLASH_MASK_LOCK_BITS_NOT_SET; } void overlay_FLASH_Lock(void) { FLASH_LOCK = FLASH_LOCK_LOCK_BITS_LOCK; } void overlay_FLASH_Unlock(void) { FLASH_UNLOCK = FLASH_UNLOCK_UNLOCK_BITS_UNLOCK; } uint32_t overlay_FLASH_ReadByAHB(uint32_t Offset) { return pFlash[(Offset & ~3U) / 4]; } uint32_t overlay_FLASH_ReadByAPB(uint32_t Offset) { uint32_t Data; while (overlay_FLASH_IsBusy()) { } overlay_FLASH_SetMode(FLASH_MODE_READ_APB); FLASH_ADDR = Offset >> 2; overlay_FLASH_Start(); while (overlay_FLASH_IsBusy()) { } Data = FLASH_RDATA; overlay_FLASH_SetMode(FLASH_MODE_READ_AHB); overlay_FLASH_Lock(); return Data; } void overlay_FLASH_SetArea(FLASH_AREA Area) { FLASH_CFG = (FLASH_CFG & ~FLASH_CFG_NVR_SEL_MASK) | ((Area << FLASH_CFG_NVR_SEL_SHIFT) & FLASH_CFG_NVR_SEL_MASK); } void overlay_FLASH_SetReadMode(FLASH_READ_MODE Mode) { if (Mode == FLASH_READ_MODE_1_CYCLE) { FLASH_CFG = (FLASH_CFG & ~FLASH_CFG_READ_MD_MASK) | FLASH_CFG_READ_MD_BITS_1_CYCLE; } else if (Mode == FLASH_READ_MODE_2_CYCLE) { FLASH_CFG = (FLASH_CFG & ~FLASH_CFG_READ_MD_MASK) | FLASH_CFG_READ_MD_BITS_2_CYCLE; } } void overlay_FLASH_SetEraseTime(void) { FLASH_ERASETIME = ((overlay_FLASH_ClockMultiplier & 0xFFFFU) * 0x1A00000U) + (overlay_FLASH_ClockMultiplier * 3600U); } void overlay_FLASH_WakeFromDeepSleep(void) { FLASH_CFG = (FLASH_CFG & ~FLASH_CFG_DEEP_PD_MASK) | FLASH_CFG_DEEP_PD_BITS_NORMAL; while (!overlay_FLASH_IsInitComplete()) { } } void overlay_FLASH_SetMode(FLASH_MODE Mode) { FLASH_CFG = (FLASH_CFG & ~FLASH_CFG_MODE_MASK) | ((Mode << FLASH_CFG_MODE_SHIFT) & FLASH_CFG_MODE_MASK); } void overlay_FLASH_SetProgramTime(void) { FLASH_PROGTIME = overlay_FLASH_ClockMultiplier * 45074; } void overlay_SystemReset(void) { // Lifted from core_cm0.h to preserve function order in the object file. __DSB(); /* Ensure all outstanding memory accesses included buffered write are completed before reset */ SCB->AIRCR = ((0x5FAUL << SCB_AIRCR_VECTKEY_Pos) | SCB_AIRCR_SYSRESETREQ_Msk); __DSB(); /* Ensure completion of memory access */ for(;;) /* wait until reset */ { __NOP(); } } uint32_t overlay_FLASH_ReadNvrWord(uint32_t Offset) { uint32_t Data; overlay_FLASH_SetArea(FLASH_AREA_NVR); Data = overlay_FLASH_ReadByAHB(Offset); overlay_FLASH_SetArea(FLASH_AREA_MAIN); return Data; } void overlay_FLASH_ConfigureTrimValues(void) { uint32_t Data; overlay_FLASH_SetArea(FLASH_AREA_NVR); SYSCON_CHIP_ID0 = overlay_FLASH_ReadByAPB(0xF018); SYSCON_CHIP_ID1 = overlay_FLASH_ReadByAPB(0xF01C); SYSCON_CHIP_ID2 = overlay_FLASH_ReadByAPB(0xF020); SYSCON_CHIP_ID3 = overlay_FLASH_ReadByAPB(0xF024); SYSCON_RC_FREQ_DELTA = overlay_FLASH_ReadByAHB(0x07C8); SYSCON_VREF_VOLT_DELTA = overlay_FLASH_ReadByAHB(0x07C4); PMU_TRIM_POW0 = overlay_FLASH_ReadByAHB(0x07E4); PMU_TRIM_POW1 = overlay_FLASH_ReadByAHB(0x07E0); PMU_TRIM_RCHF = overlay_FLASH_ReadByAHB(0x07D8); PMU_TRIM_RCLF = overlay_FLASH_ReadByAHB(0x07D4); PMU_TRIM_OPA = overlay_FLASH_ReadByAHB(0x07D0); PMU_TRIM_PLL = overlay_FLASH_ReadByAHB(0x07CC); overlay_0x20000478 = overlay_FLASH_ReadByAHB(0x07B8); Data = overlay_FLASH_ReadByAHB(0x07BC); SYSCON_DEV_CLK_GATE = (SYSCON_DEV_CLK_GATE & ~SYSCON_DEV_CLK_GATE_SARADC_MASK) | SYSCON_DEV_CLK_GATE_SARADC_BITS_ENABLE; SARADC_CALIB_OFFSET = ((Data & 0xFFFF) << SARADC_CALIB_OFFSET_OFFSET_SHIFT) & SARADC_CALIB_OFFSET_OFFSET_MASK; SARADC_CALIB_KD = (((Data >> 16) & 0xFFFF) << SARADC_CALIB_KD_KD_SHIFT) & SARADC_CALIB_KD_KD_MASK; overlay_FLASH_SetArea(FLASH_AREA_MAIN); }