#include #include #include #include #include #include #define GPIO_BASE 0x6000D000 #define APB_MISC_BASE 0x70000000 #define PINMUX_BASE (APB_MISC_BASE + 0x3000) #define PMC_BASE 0x7000E400 #define MAX_GPIOS 0x3D #define MAX_PINMUX 0xA2 extern "C" { extern u32 __start__; u32 __nx_applet_type = AppletType_None; #define INNER_HEAP_SIZE 0x200000 size_t nx_inner_heap_size = INNER_HEAP_SIZE; char nx_inner_heap[INNER_HEAP_SIZE]; void __libnx_initheap(void); void __appInit(void); void __appExit(void); } void __libnx_initheap(void) { void* addr = nx_inner_heap; size_t size = nx_inner_heap_size; /* Newlib */ extern char* fake_heap_start; extern char* fake_heap_end; fake_heap_start = (char*)addr; fake_heap_end = (char*)addr + size; } void __appInit(void) { Result rc; /* Initialize services we need (TODO: NCM) */ rc = smInitialize(); if (R_FAILED(rc)) fatalSimple(MAKERESULT(Module_Libnx, LibnxError_InitFail_SM)); rc = fsInitialize(); if (R_FAILED(rc)) fatalSimple(MAKERESULT(Module_Libnx, LibnxError_InitFail_FS)); rc = splInitialize(); if (R_FAILED(rc)) fatalSimple(0xCAFE << 4 | 1); rc = pmshellInitialize(); if (R_FAILED(rc)) fatalSimple(0xCAFE << 4 | 2); fsdevInit(); } void __appExit(void) { /* Cleanup services. */ fsdevExit(); pmshellExit(); splExit(); fsExit(); smExit(); } static const std::tuple g_gpio_map[] = { /* Icosa, Copper, Hoag and Mariko */ {0xFFFFFFFF, false, false}, /* Invalid */ {0x000000CC, true, false}, /* Port Z, Pin 4 */ {0x00000024, true, false}, /* Port E, Pin 4 */ {0x0000003C, true, false}, /* Port H, Pin 4 */ {0x000000DA, false, true}, /* Port BB, Pin 2 */ {0x000000DB, true, false}, /* Port BB, Pin 3 */ {0x000000DC, false, false}, /* Port BB, Pin 4 */ {0x00000025, true, false}, /* Port E, Pin 5 */ {0x00000090, false, false}, /* Port S, Pin 0 */ {0x00000091, false, false}, /* Port S, Pin 1 */ {0x00000096, true, false}, /* Port S, Pin 6 */ {0x00000097, false, true}, /* Port S, Pin 7 */ {0x00000026, false, false}, /* Port E, Pin 6 */ {0x00000005, true, false}, /* Port A, Pin 5 */ {0x00000078, false, false}, /* Port P, Pin 0 */ {0x00000093, false, true}, /* Port S, Pin 3 */ {0x0000007D, false, false}, /* Port P, Pin 5 */ {0x0000007C, false, false}, /* Port P, Pin 4 */ {0x0000007B, false, false}, /* Port P, Pin 3 */ {0x0000007A, false, false}, /* Port P, Pin 2 */ {0x000000BC, false, true}, /* Port X, Pin 4 */ {0x000000AE, false, false}, /* Port V, Pin 6 */ {0x000000BA, false, false}, /* Port X, Pin 2 */ {0x000000B9, false, true}, /* Port X, Pin 1 */ {0x000000BD, false, false}, /* Port X, Pin 5 */ {0x000000BE, false, true}, /* Port X, Pin 6 */ {0x000000BF, false, true}, /* Port X, Pin 7 */ {0x000000C0, false, true}, /* Port Y, Pin 0 */ {0x000000C1, false, false}, /* Port Y, Pin 1 */ {0x000000A9, true, false}, /* Port V, Pin 1 */ {0x000000AA, true, false}, /* Port V, Pin 2 */ {0x00000055, true, false}, /* Port K, Pin 5 */ {0x000000AD, true, false}, /* Port V, Pin 5 */ {0x000000C8, false, true}, /* Port Z, Pin 0 */ {0x000000CA, false, false}, /* Port Z, Pin 2 */ {0x000000CB, false, true}, /* Port Z, Pin 3 */ {0x0000004F, true, false}, /* Port J, Pin 7 */ {0x00000050, false, false}, /* Port K, Pin 0 */ {0x00000051, false, false}, /* Port K, Pin 1 */ {0x00000052, false, false}, /* Port K, Pin 2 */ {0x00000054, false, true}, /* Port K, Pin 4 */ {0x00000056, false, true}, /* Port K, Pin 6 */ {0x00000057, false, true}, /* Port K, Pin 7 */ {0x00000053, true, false}, /* Port K, Pin 3 */ {0x000000E3, true, false}, /* Port CC, Pin 3 */ {0x00000038, true, false}, /* Port H, Pin 0 */ {0x00000039, true, false}, /* Port H, Pin 1 */ {0x0000003B, true, false}, /* Port H, Pin 3 */ {0x0000003D, false, false}, /* Port H, Pin 5 */ {0x0000003F, true, false}, /* Port H, Pin 7 */ {0x00000040, true, false}, /* Port I, Pin 0 */ {0x00000041, true, false}, /* Port I, Pin 1 */ {0x0000003E, false, false}, /* Port H, Pin 6 */ {0x000000E2, false, true}, /* Port CC, Pin 2 */ {0x000000E4, true, false}, /* Port CC, Pin 4 */ {0x0000003A, false, false}, /* Port H, Pin 2 */ {0x000000C9, false, true}, /* Port Z, Pin 1 */ {0x0000004D, true, false}, /* Port J, Pin 5 */ {0x00000058, true, false}, /* Port L, Pin 0 */ {0x0000003E, false, false}, /* Port H, Pin 6 */ {0x00000026, false, false}, /* Port E, Pin 6 */ /* Copper only */ {0xFFFFFFFF, false, false}, /* Invalid */ {0x00000033, false, false}, /* Port G, Pin 3 */ {0x0000001C, false, false}, /* Port D, Pin 4 */ {0x000000D9, true, false}, /* Port BB, Pin 1 */ {0x0000000C, false, false}, /* Port B, Pin 4 */ {0x0000000D, false, false}, /* Port B, Pin 5 */ {0x00000021, true, false}, /* Port E, Pin 1 */ {0x00000027, false, false}, /* Port E, Pin 7 */ {0x00000092, false, false}, /* Port S, Pin 2 */ {0x00000095, true, false}, /* Port S, Pin 5 */ {0x00000098, true, false}, /* Port T, Pin 0 */ {0x00000010, true, false}, /* Port C, Pin 0 */ {0x00000011, true, false}, /* Port C, Pin 1 */ {0x00000012, true, false}, /* Port C, Pin 2 */ {0x00000042, true, false}, /* Port I, Pin 2 */ {0x000000E6, false, false}, /* Port CC, Pin 6 */ /* 2.0.0+ Copper only */ {0x000000AC, true, false}, /* Port V, Pin 4 */ {0x000000E1, false, false}, /* Port CC, Pin 1 */ /* 5.0.0+ Copper only (unused) */ {0x00000056, false, false}, /* Port K, Pin 6 */ }; static int gpio_configure(u64 gpio_base_vaddr, unsigned int gpio_pad_name) { /* Fetch this GPIO's pad descriptor */ u32 gpio_pad_desc = std::get<0>(g_gpio_map[gpio_pad_name]); /* Convert the GPIO pad descriptor into its register offset */ u32 gpio_reg_offset = (((gpio_pad_desc << 0x03) & 0xFFFFFF00) | ((gpio_pad_desc >> 0x01) & 0x0C)); /* Extract the bit and lock values from the GPIO pad descriptor */ u32 gpio_cnf_val = ((0x01 << ((gpio_pad_desc & 0x07) | 0x08)) | (0x01 << (gpio_pad_desc & 0x07))); /* Write to the appropriate GPIO_CNF_x register (upper offset) */ *((u32 *)gpio_base_vaddr + gpio_reg_offset + 0x80) = gpio_cnf_val; /* Do a dummy read from GPIO_CNF_x register (lower offset) */ gpio_cnf_val = *((u32 *)gpio_base_vaddr + gpio_reg_offset); return gpio_cnf_val; } static int gpio_set_direction(u64 gpio_base_vaddr, unsigned int gpio_pad_name) { /* Fetch this GPIO's pad descriptor */ u32 gpio_pad_desc = std::get<0>(g_gpio_map[gpio_pad_name]); /* Fetch this GPIO's direction */ bool is_out = std::get<1>(g_gpio_map[gpio_pad_name]); /* Convert the GPIO pad descriptor into its register offset */ u32 gpio_reg_offset = (((gpio_pad_desc << 0x03) & 0xFFFFFF00) | ((gpio_pad_desc >> 0x01) & 0x0C)); /* Set the direction bit and lock values */ u32 gpio_oe_val = ((0x01 << ((gpio_pad_desc & 0x07) | 0x08)) | (is_out << (gpio_pad_desc & 0x07))); /* Write to the appropriate GPIO_OE_x register (upper offset) */ *((u32 *)gpio_base_vaddr + gpio_reg_offset + 0x90) = gpio_oe_val; /* Do a dummy read from GPIO_OE_x register (lower offset) */ gpio_oe_val = *((u32 *)gpio_base_vaddr + gpio_reg_offset); return gpio_oe_val; } static int gpio_set_value(u64 gpio_base_vaddr, unsigned int gpio_pad_name) { /* Fetch this GPIO's pad descriptor */ u32 gpio_pad_desc = std::get<0>(g_gpio_map[gpio_pad_name]); /* Fetch this GPIO's output value */ bool is_high = std::get<2>(g_gpio_map[gpio_pad_name]); /* Convert the GPIO pad descriptor into its register offset */ u32 gpio_reg_offset = (((gpio_pad_desc << 0x03) & 0xFFFFFF00) | ((gpio_pad_desc >> 0x01) & 0x0C)); /* Set the output bit and lock values */ u32 gpio_out_val = ((0x01 << ((gpio_pad_desc & 0x07) | 0x08)) | (is_high << (gpio_pad_desc & 0x07))); /* Write to the appropriate GPIO_OUT_x register (upper offset) */ *((u32 *)gpio_base_vaddr + gpio_reg_offset + 0xA0) = gpio_out_val; /* Do a dummy read from GPIO_OUT_x register (lower offset) */ gpio_out_val = *((u32 *)gpio_base_vaddr + gpio_reg_offset); return gpio_out_val; } static const std::tuple g_pinmux_map[] = { {0x00003000, 0x72FF, 0x01}, /* Sdmmc1Clk */ {0x00003004, 0x72FF, 0x02}, /* Sdmmc1Cmd */ {0x00003008, 0x72FF, 0x02}, /* Sdmmc1Dat3 */ {0x0000300C, 0x72FF, 0x02}, /* Sdmmc1Dat2 */ {0x00003010, 0x72FF, 0x02}, /* Sdmmc1Dat1 */ {0x00003014, 0x72FF, 0x01}, /* Sdmmc1Dat0 */ {0x0000301C, 0x72FF, 0x01}, /* Sdmmc3Clk */ {0x00003020, 0x72FF, 0x01}, /* Sdmmc3Cmd */ {0x00003024, 0x72FF, 0x01}, /* Sdmmc3Dat0 */ {0x00003028, 0x72FF, 0x01}, /* Sdmmc3Dat1 */ {0x0000302C, 0x72FF, 0x01}, /* Sdmmc3Dat2 */ {0x00003030, 0x72FF, 0x01}, /* Sdmmc3Dat3 */ {0x00003038, 0x1DFF, 0x01}, /* PexL0RstN */ {0x0000303C, 0x1DFF, 0x01}, /* PexL0ClkreqN */ {0x00003040, 0x1DFF, 0x01}, /* PexWakeN */ {0x00003044, 0x1DFF, 0x01}, /* PexL1RstN */ {0x00003048, 0x1DFF, 0x01}, /* PexL1ClkreqN */ {0x0000304C, 0x19FF, 0x01}, /* SataLedActive */ {0x00003050, 0x1F2FF, 0x01}, /* Spi1Mosi */ {0x00003054, 0x1F2FF, 0x01}, /* Spi1Miso */ {0x00003058, 0x1F2FF, 0x01}, /* Spi1Sck */ {0x0000305C, 0x1F2FF, 0x01}, /* Spi1Cs0 */ {0x00003060, 0x1F2FF, 0x01}, /* Spi1Cs1 */ {0x00003064, 0x72FF, 0x02}, /* Spi2Mosi */ {0x00003068, 0x72FF, 0x02}, /* Spi2Miso */ {0x0000306C, 0x72FF, 0x02}, /* Spi2Sck */ {0x00003070, 0x72FF, 0x02}, /* Spi2Cs0 */ {0x00003074, 0x72FF, 0x01}, /* Spi2Cs1 */ {0x00003078, 0x1F2FF, 0x01}, /* Spi4Mosi */ {0x0000307C, 0x1F2FF, 0x01}, /* Spi4Miso */ {0x00003080, 0x1F2FF, 0x01}, /* Spi4Sck */ {0x00003084, 0x1F2FF, 0x01}, /* Spi4Cs0 */ {0x00003088, 0x72FF, 0x01}, /* QspiSck */ {0x0000308C, 0x72FF, 0x01}, /* QspiCsN */ {0x00003090, 0x72FF, 0x01}, /* QspiIo0 */ {0x00003094, 0x72FF, 0x01}, /* QspiIo1 */ {0x00003098, 0x72FF, 0x01}, /* QspiIo2 */ {0x0000309C, 0x72FF, 0x01}, /* QspiIo3 */ {0x000030A4, 0x19FF, 0x02}, /* Dmic1Clk */ {0x000030A8, 0x19FF, 0x02}, /* Dmic1Dat */ {0x000030AC, 0x19FF, 0x02}, /* Dmic2Clk */ {0x000030B0, 0x19FF, 0x02}, /* Dmic2Dat */ {0x000030B4, 0x19FF, 0x02}, /* Dmic3Clk */ {0x000030B8, 0x19FF, 0x02}, /* Dmic3Dat */ {0x000030BC, 0x1DFF, 0x01}, /* Gen1I2cScl */ {0x000030C0, 0x1DFF, 0x01}, /* Gen1I2cSda */ {0x000030C4, 0x1DFF, 0x01}, /* Gen2I2cScl */ {0x000030C8, 0x1DFF, 0x01}, /* Gen2I2cSda */ {0x000030CC, 0x1DFF, 0x01}, /* Gen3I2cScl */ {0x000030D0, 0x1DFF, 0x01}, /* Gen3I2cSda */ {0x000030D4, 0x1DFF, 0x02}, /* CamI2cScl */ {0x000030D8, 0x1DFF, 0x02}, /* CamI2cSda */ {0x000030DC, 0x1DFF, 0x01}, /* PwrI2cScl */ {0x000030E0, 0x1DFF, 0x01}, /* PwrI2cSda */ {0x000030E4, 0x19FF, 0x01}, /* Uart1Tx */ {0x000030E8, 0x19FF, 0x01}, /* Uart1Rx */ {0x000030EC, 0x19FF, 0x01}, /* Uart1Rts */ {0x000030F0, 0x19FF, 0x01}, /* Uart1Cts */ {0x000030F4, 0x19FF, 0x00}, /* Uart2Tx */ {0x000030F8, 0x19FF, 0x00}, /* Uart2Rx */ {0x000030FC, 0x19FF, 0x02}, /* Uart2Rts */ {0x00003100, 0x19FF, 0x02}, /* Uart2Cts */ {0x00003104, 0x19FF, 0x02}, /* Uart3Tx */ {0x00003108, 0x19FF, 0x02}, /* Uart3Rx */ {0x0000310C, 0x19FF, 0x02}, /* Uart3Rts */ {0x00003110, 0x19FF, 0x02}, /* Uart3Cts */ {0x00003114, 0x19FF, 0x02}, /* Uart4Tx */ {0x00003118, 0x19FF, 0x02}, /* Uart4Rx */ {0x0000311C, 0x19FF, 0x02}, /* Uart4Rts */ {0x00003120, 0x19FF, 0x02}, /* Uart4Cts */ {0x00003124, 0x72FF, 0x01}, /* Dap1Fs */ {0x00003128, 0x72FF, 0x01}, /* Dap1Din */ {0x0000312C, 0x72FF, 0x01}, /* Dap1Dout */ {0x00003130, 0x72FF, 0x01}, /* Dap1Sclk */ {0x00003134, 0x72FF, 0x01}, /* Dap2Fs */ {0x00003138, 0x72FF, 0x01}, /* Dap2Din */ {0x0000313C, 0x72FF, 0x01}, /* Dap2Dout */ {0x00003140, 0x72FF, 0x01}, /* Dap2Sclk */ {0x00003144, 0x72FF, 0x01}, /* Dap4Fs */ {0x00003148, 0x72FF, 0x01}, /* Dap4Din */ {0x0000314C, 0x72FF, 0x01}, /* Dap4Dout */ {0x00003150, 0x72FF, 0x01}, /* Dap4Sclk */ {0x00003154, 0x72FF, 0x01}, /* Cam1Mclk */ {0x00003158, 0x72FF, 0x01}, /* Cam2Mclk */ {0x0000315C, 0x72FF, 0x01}, /* JtagRtck */ {0x00003160, 0x118C, 0xFF}, /* Clk32kIn */ {0x00003164, 0x72FF, 0x02}, /* Clk32kOut */ {0x00003168, 0x1DFF, 0x01}, /* BattBcl */ {0x0000316C, 0x11CC, 0xFF}, /* ClkReq */ {0x00003170, 0x11CC, 0xFF}, /* CpuPwrReq */ {0x00003174, 0x11CC, 0xFF}, /* PwrIntN */ {0x00003178, 0x11CC, 0xFF}, /* Shutdown */ {0x0000317C, 0x11CC, 0xFF}, /* CorePwrReq */ {0x00003180, 0x19FF, 0x01}, /* AudMclk */ {0x00003184, 0x19FF, 0x00}, /* DvfsPwm */ {0x00003188, 0x19FF, 0x00}, /* DvfsClk */ {0x0000318C, 0x19FF, 0x00}, /* GpioX1Aud */ {0x00003190, 0x19FF, 0x00}, /* GpioX3Aud */ {0x00003194, 0x1DFF, 0x00}, /* GpioPcc7 */ {0x00003198, 0x1DFF, 0x01}, /* HdmiCec */ {0x0000319C, 0x1DFF, 0x01}, /* HdmiIntDpHpd */ {0x000031A0, 0x19FF, 0x01}, /* SpdifOut */ {0x000031A4, 0x19FF, 0x01}, /* SpdifIn */ {0x000031A8, 0x1DFF, 0x01}, /* UsbVbusEn0 */ {0x000031AC, 0x1DFF, 0x01}, /* UsbVbusEn1 */ {0x000031B0, 0x19FF, 0x01}, /* DpHpd0 */ {0x000031B4, 0x19FF, 0x00}, /* WifiEn */ {0x000031B8, 0x19FF, 0x00}, /* WifiRst */ {0x000031BC, 0x19FF, 0x00}, /* WifiWakeAp */ {0x000031C0, 0x19FF, 0x00}, /* ApWakeBt */ {0x000031C4, 0x19FF, 0x00}, /* BtRst */ {0x000031C8, 0x19FF, 0x00}, /* BtWakeAp */ {0x000031CC, 0x19FF, 0x00}, /* ApWakeNfc */ {0x000031D0, 0x19FF, 0x00}, /* NfcEn */ {0x000031D4, 0x19FF, 0x00}, /* NfcInt */ {0x000031D8, 0x19FF, 0x00}, /* GpsEn */ {0x000031DC, 0x19FF, 0x00}, /* GpsRst */ {0x000031E0, 0x19FF, 0x01}, /* CamRst */ {0x000031E4, 0x19FF, 0x02}, /* CamAfEn */ {0x000031E8, 0x19FF, 0x02}, /* CamFlashEn */ {0x000031EC, 0x19FF, 0x01}, /* Cam1Pwdn */ {0x000031F0, 0x19FF, 0x01}, /* Cam2Pwdn */ {0x000031F4, 0x19FF, 0x01}, /* Cam1Strobe */ {0x000031F8, 0x19FF, 0x01}, /* LcdTe */ {0x000031FC, 0x19FF, 0x03}, /* LcdBlPwm */ {0x00003200, 0x19FF, 0x00}, /* LcdBlEn */ {0x00003204, 0x19FF, 0x00}, /* LcdRst */ {0x00003208, 0x19FF, 0x01}, /* LcdGpio1 */ {0x0000320C, 0x19FF, 0x02}, /* LcdGpio2 */ {0x00003210, 0x19FF, 0x00}, /* ApReady */ {0x00003214, 0x19FF, 0x00}, /* TouchRst */ {0x00003218, 0x19FF, 0x01}, /* TouchClk */ {0x0000321C, 0x19FF, 0x00}, /* ModemWakeAp */ {0x00003220, 0x19FF, 0x00}, /* TouchInt */ {0x00003224, 0x19FF, 0x00}, /* MotionInt */ {0x00003228, 0x19FF, 0x00}, /* AlsProxInt */ {0x0000322C, 0x19FF, 0x00}, /* TempAlert */ {0x00003230, 0x19FF, 0x00}, /* ButtonPowerOn */ {0x00003234, 0x19FF, 0x00}, /* ButtonVolUp */ {0x00003238, 0x19FF, 0x00}, /* ButtonVolDown */ {0x0000323C, 0x19FF, 0x00}, /* ButtonSlideSw */ {0x00003240, 0x19FF, 0x00}, /* ButtonHome */ {0x00003244, 0x19FF, 0x01}, /* GpioPa6 */ {0x00003248, 0x19FF, 0x00}, /* GpioPe6 */ {0x0000324C, 0x19FF, 0x00}, /* GpioPe7 */ {0x00003250, 0x19FF, 0x00}, /* GpioPh6 */ {0x00003254, 0x72FF, 0x02}, /* GpioPk0 */ {0x00003258, 0x72FF, 0x02}, /* GpioPk1 */ {0x0000325C, 0x72FF, 0x02}, /* GpioPk2 */ {0x00003260, 0x72FF, 0x02}, /* GpioPk3 */ {0x00003264, 0x72FF, 0x01}, /* GpioPk4 */ {0x00003268, 0x72FF, 0x01}, /* GpioPk5 */ {0x0000326C, 0x72FF, 0x01}, /* GpioPk6 */ {0x00003270, 0x72FF, 0x01}, /* GpioPk7 */ {0x00003274, 0x72FF, 0x00}, /* GpioPl0 */ {0x00003278, 0x72FF, 0x01}, /* GpioPl1 */ {0x0000327C, 0x72FF, 0x01}, /* GpioPz0 */ {0x00003280, 0x72FF, 0x02}, /* GpioPz1 */ {0x00003284, 0x72FF, 0x02}, /* GpioPz2 */ {0x00003288, 0x72FF, 0x01}, /* GpioPz3 */ {0x0000328C, 0x72FF, 0x01}, /* GpioPz4 */ {0x00003290, 0x72FF, 0x01}, /* GpioPz5 */ }; static int pinmux_update_park(u64 pinmux_base_vaddr, unsigned int pinmux_idx) { /* Fetch this PINMUX's register offset */ u32 pinmux_reg_offset = std::get<0>(g_pinmux_map[pinmux_idx]); /* Fetch this PINMUX's mask value */ u32 pinmux_mask_val = std::get<1>(g_pinmux_map[pinmux_idx]); /* Read from the PINMUX register */ u32 pinmux_val = *((u32 *)pinmux_base_vaddr + pinmux_reg_offset); /* This PINMUX supports park change */ if (pinmux_mask_val & 0x20) { /* Clear park status if set */ if (pinmux_val & 0x20) { pinmux_val &= ~(0x20); } } /* Write to the appropriate PINMUX register */ *((u32 *)pinmux_base_vaddr + pinmux_reg_offset) = pinmux_val; /* Do a dummy read from the PINMUX register */ pinmux_val = *((u32 *)pinmux_base_vaddr + pinmux_reg_offset); return pinmux_val; } int main(int argc, char **argv) { consoleDebugInit(debugDevice_SVC); Result rc; u64 pinmux_base_vaddr = 0; u64 gpio_base_vaddr = 0; u64 pmc_base_vaddr = 0; /* Map the APB MISC registers for PINMUX */ rc = svcQueryIoMapping(&pinmux_base_vaddr, APB_MISC_BASE, 0x4000); if (R_FAILED(rc)) { return rc; } /* IO mapping failed */ if (!pinmux_base_vaddr) fatalSimple(MAKERESULT(Module_Libnx, LibnxError_IoError)); /* Map the GPIO registers */ rc = svcQueryIoMapping(&gpio_base_vaddr, GPIO_BASE, 0x1000); if (R_FAILED(rc)) { return rc; } /* IO mapping failed */ if (!gpio_base_vaddr) fatalSimple(MAKERESULT(Module_Libnx, LibnxError_IoError)); /* Change GPIO voltage to 1.8v */ if (kernelAbove200()) { u32 rw_reg_val = 0; /* Use svcReadWriteRegister to write APBDEV_PMC_PWR_DET_0 */ rc = svcReadWriteRegister(&rw_reg_val, PMC_BASE + 0x48, 0xA42000, 0xA42000); if (R_FAILED(rc)) { return rc; } /* Use svcReadWriteRegister to write APBDEV_PMC_PWR_DET_VAL_0 */ rc = svcReadWriteRegister(&rw_reg_val, PMC_BASE + 0xE4, 0, 0xA42000); if (R_FAILED(rc)) { return rc; } } else { /* Map the PMC registers directly */ rc = svcQueryIoMapping(&pmc_base_vaddr, PMC_BASE, 0x3000); if (R_FAILED(rc)) { return rc; } /* IO mapping failed */ if (!pmc_base_vaddr) fatalSimple(MAKERESULT(Module_Libnx, LibnxError_IoError)); /* Write to APBDEV_PMC_PWR_DET_0 */ *((u32 *)pmc_base_vaddr + 0x48) |= 0xA42000; /* Write to APBDEV_PMC_PWR_DET_VAL_0 */ *((u32 *)pmc_base_vaddr + 0xE4) &= ~(0xA42000); } /* Wait for changes to take effect */ svcSleepThread(100000); /* Setup all GPIOs from 0x01 to 0x3C */ for (unsigned int i = 1; i < MAX_GPIOS; i++) { gpio_configure(gpio_base_vaddr, i); gpio_set_direction(gpio_base_vaddr, i); gpio_set_value(gpio_base_vaddr, i); } u64 hardware_type = 0; /* Get the hardware type from SPL */ rc = splGetConfig(SplConfigItem_HardwareType, &hardware_type); if (R_FAILED(rc)) { return rc; } /* This is ignored in Copper hardware */ if (hardware_type != 0x01) { /* TODO: Battery charge check */ } /* Update PINMUX park status */ for (unsigned int i = 0; i < MAX_PINMUX; i++) { pinmux_update_park(pinmux_base_vaddr, i); } /* TODO: Set initial PINMUX configuration */ /* TODO: Set initial PINMUX drive pad configuration */ /* TODO: Set initial wake pin configuration */ /* This is ignored in Copper hardware */ if (hardware_type != 0x01) { /* Configure PMC clock out */ if (kernelAbove200()) { u32 rw_reg_val = 0; /* Use svcReadWriteRegister to write APBDEV_PMC_CLK_OUT_CNTRL_0 */ rc = svcReadWriteRegister(&rw_reg_val, PMC_BASE + 0x1A8, 0xC4, 0xC4); if (R_FAILED(rc)) { return rc; } } else { /* Write to APBDEV_PMC_CLK_OUT_CNTRL_0 */ *((u32 *)pmc_base_vaddr + 0x1A8) |= 0xC4; } } /* Setup GPIO 0x4B for Copper hardware only */ if (hardware_type == 0x01) { gpio_configure(gpio_base_vaddr, 0x4B); gpio_set_direction(gpio_base_vaddr, 0x4B); gpio_set_value(gpio_base_vaddr, 0x4B); } /* TODO: NAND repair */ /* pmshellNotifyBootFinished(); */ rc = 0; return rc; }