/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2008 by Marcoen Hirschberg, Bart van Adrichem * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #ifndef __S5L87XX_H__ #define __S5L87XX_H__ #ifndef ASM #include #endif #define REG16_PTR_T volatile uint16_t * #define REG32_PTR_T volatile uint32_t * #define VOID_PTR_PTR_T void* volatile* #define CONST_VOID_PTR_PTR_T const void* volatile* #if CONFIG_CPU==S5L8700 || CONFIG_CPU==S5L8701 #define CACHEALIGN_BITS (4) /* 2^4 = 16 bytes */ #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define CACHEALIGN_BITS (5) /* 2^5 = 32 bytes */ #endif #if CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define DRAM_ORIG 0x08000000 #define IRAM_ORIG 0x22000000 #define IRAM0_ORIG IRAM_ORIG #define IRAM0_SIZE 0x20000 #define IRAM1_ORIG (IRAM0_ORIG + IRAM0_SIZE) #if CONFIG_CPU==S5L8702 #define IRAM1_SIZE 0x20000 #elif CONFIG_CPU==S5L8720 #define IRAM1_SIZE 0x10000 #endif #define DRAM_SIZE (MEMORYSIZE * 0x100000) #define IRAM_SIZE (IRAM0_SIZE + IRAM1_SIZE) #define TTB_SIZE 0x4000 #define TTB_BASE_ADDR (DRAM_ORIG + DRAM_SIZE - TTB_SIZE) #endif /* Base address of the memory-mapped I/O */ #define IO_BASE 0x38000000 /* 04. CALMADM2E */ /* Following registers are mapped on IO Area in data memory area of Calm. */ #define ADM_BASE 0x3F000000 #define CONFIG0 (*(REG16_PTR_T)(ADM_BASE)) /* configuration/control register 0 */ #define CONFIG1 (*(REG16_PTR_T)(ADM_BASE + 0x02)) /* configuration/control register 1*/ #define COMMUN (*(REG16_PTR_T)(ADM_BASE + 0x04)) /* Communication Control Register */ #define DDATA0 (*(REG16_PTR_T)(ADM_BASE + 0x06)) /* Communication data from host to ADM */ #define DDATA1 (*(REG16_PTR_T)(ADM_BASE + 0x08)) /* Communication data from host to ADM */ #define DDATA2 (*(REG16_PTR_T)(ADM_BASE + 0x0A)) /* Communication data from host to ADM */ #define DDATA3 (*(REG16_PTR_T)(ADM_BASE + 0x0C)) /* Communication data from host to ADM */ #define DDATA4 (*(REG16_PTR_T)(ADM_BASE + 0x0E)) /* Communication data from host to ADM */ #define DDATA5 (*(REG16_PTR_T)(ADM_BASE + 0x10)) /* Communication data from host to ADM */ #define DDATA6 (*(REG16_PTR_T)(ADM_BASE + 0x12)) /* Communication data from host to ADM */ #define DDATA7 (*(REG16_PTR_T)(ADM_BASE + 0x14)) /* Communication data from host to ADM */ #define UDATA0 (*(REG16_PTR_T)(ADM_BASE + 0x16)) /* Communication data from ADM to host */ #define UDATA1 (*(REG16_PTR_T)(ADM_BASE + 0x18)) /* Communication data from ADM to host */ #define UDATA2 (*(REG16_PTR_T)(ADM_BASE + 0x1A)) /* Communication data from ADM to host */ #define UDATA3 (*(REG16_PTR_T)(ADM_BASE + 0x1C)) /* Communication data from ADM to host */ #define UDATA4 (*(REG16_PTR_T)(ADM_BASE + 0x1E)) /* Communication data from ADM to host */ #define UDATA5 (*(REG16_PTR_T)(ADM_BASE + 0x20)) /* Communication data from ADM to host */ #define UDATA6 (*(REG16_PTR_T)(ADM_BASE + 0x22)) /* Communication data from ADM to host */ #define UDATA7 (*(REG16_PTR_T)(ADM_BASE + 0x24)) /* Communication data from ADM to host */ #define IBASE_H (*(REG16_PTR_T)(ADM_BASE + 0x26)) /* Higher half of start address for ADM instruction area */ #define IBASE_L (*(REG16_PTR_T)(ADM_BASE + 0x28)) /* Lower half of start address for ADM instruction area */ #define DBASE_H (*(REG16_PTR_T)(ADM_BASE + 0x2A)) /* Higher half of start address for CalmRISC data area */ #define DBASE_L (*(REG16_PTR_T)(ADM_BASE + 0x2C)) /* Lower half of start address for CalmRISC data area */ #define XBASE_H (*(REG16_PTR_T)(ADM_BASE + 0x2E)) /* Higher half of start address for Mac X area */ #define XBASE_L (*(REG16_PTR_T)(ADM_BASE + 0x30)) /* Lower half of start address for Mac X area */ #define YBASE_H (*(REG16_PTR_T)(ADM_BASE + 0x32)) /* Higher half of start address for Mac Y area */ #define YBASE_L (*(REG16_PTR_T)(ADM_BASE + 0x34)) /* Lower half of start address for Mac Y area */ #define S0BASE_H (*(REG16_PTR_T)(ADM_BASE + 0x36)) /* Higher half of start address for sequential buffer 0 area */ #define S0BASE_L (*(REG16_PTR_T)(ADM_BASE + 0x38)) /* Lower half of start address for sequential buffer 0 area */ #define S1BASE_H (*(REG16_PTR_T)(ADM_BASE + 0x3A)) /* Higher half of start address for sequential buffer 1 area */ #define S1BASE_L (*(REG16_PTR_T)(ADM_BASE + 0x3C)) /* Lower half of start address for sequential buffer 1 area */ #define CACHECON (*(REG16_PTR_T)(ADM_BASE + 0x3E)) /* Cache Control Register */ #define CACHESTAT (*(REG16_PTR_T)(ADM_BASE + 0x40)) /* Cache status register */ #define SBFCON (*(REG16_PTR_T)(ADM_BASE + 0x42)) /* Sequential Buffer Control Register */ #define SBFSTAT (*(REG16_PTR_T)(ADM_BASE + 0x44)) /* Sequential Buffer Status Register */ #define SBL0OFF_H (*(REG16_PTR_T)(ADM_BASE + 0x46)) /* Higher bits of Offset register of sequential block 0 area */ #define SBL0OFF_L (*(REG16_PTR_T)(ADM_BASE + 0x48)) /* Lower bits of Offset register of sequential block 0 area */ #define SBL1OFF_H (*(REG16_PTR_T)(ADM_BASE + 0x4A)) /* Higher bits of Offset register of sequential block 1 area */ #define SBL1OFF_L (*(REG16_PTR_T)(ADM_BASE + 0x4C)) /* Lower bits of Offset register of sequential block 1 area */ #define SBL0BEGIN_H (*(REG16_PTR_T)(ADM_BASE + 0x4E)) /* Higher bits of Begin Offset of sequential block 0 area in ring mode */ #define SBL0BEGIN_L (*(REG16_PTR_T)(ADM_BASE + 0x50)) /* Lower bits of Begin Offset of sequential block 0 area in ring mode */ #define SBL1BEGIN_H (*(REG16_PTR_T)(ADM_BASE + 0x52)) /* Higher bits of Begin Offset of sequential block 1 area in ring mode */ #define SBL1BEGIN_L (*(REG16_PTR_T)(ADM_BASE + 0x54)) /* Lower bits of Begin Offset of sequential block 1 area in ring mode */ #define SBL0END_H (*(REG16_PTR_T)(ADM_BASE + 0x56)) /* Lower bits of End Offset of sequential block 0 area in ring mode */ #define SBL0END_L (*(REG16_PTR_T)(ADM_BASE + 0x58)) /* Higher bits of End Offset of sequential block 0 area in ring mode */ #define SBL1END_H (*(REG16_PTR_T)(ADM_BASE + 0x5A)) /* Lower bits of End Offset of sequential block 1 area in ring mode */ #define SBL1END_L (*(REG16_PTR_T)(ADM_BASE + 0x5C)) /* Higher bits of End Offset of sequential block 1 area in ring mode */ /* Following registers are components of SFRS of the target system */ #define ADM_SFR_BASE 0x39000000 #define ADM_CONFIG (*(REG32_PTR_T)(ADM_SFR_BASE)) /* Configuration/Control Register */ #define ADM_COMMUN (*(REG32_PTR_T)(ADM_SFR_BASE + 0x04)) /* Communication Control Register */ #define ADM_DDATA0 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x10)) /* Communication data from host to ADM */ #define ADM_DDATA1 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x14)) /* Communication data from host to ADM */ #define ADM_DDATA2 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x18)) /* Communication data from host to ADM */ #define ADM_DDATA3 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x1C)) /* Communication data from host to ADM */ #define ADM_DDATA4 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x20)) /* Communication data from host to ADM */ #define ADM_DDATA5 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x24)) /* Communication data from host to ADM */ #define ADM_DDATA6 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x28)) /* Communication data from host to ADM */ #define ADM_DDATA7 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x2C)) /* Communication data from host to ADM */ #define ADM_UDATA0 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x30)) /* Communication data from ADM to host */ #define ADM_UDATA1 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x34)) /* Communication data from ADM to host */ #define ADM_UDATA2 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x38)) /* Communication data from ADM to host */ #define ADM_UDATA3 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x3C)) /* Communication data from ADM to host */ #define ADM_UDATA4 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x40)) /* Communication data from ADM to host */ #define ADM_UDATA5 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x44)) /* Communication data from ADM to host */ #define ADM_UDATA6 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x48)) /* Communication data from ADM to host */ #define ADM_UDATA7 (*(REG32_PTR_T)(ADM_SFR_BASE + 0x4C)) /* Communication data from ADM to host */ #define ADM_IBASE (*(REG32_PTR_T)(ADM_SFR_BASE + 0x50)) /* Start Address for ADM Instruction Area */ #define ADM_DBASE (*(REG32_PTR_T)(ADM_SFR_BASE + 0x54)) /* Start Address for CalmRISC Data Area */ #define ADM_XBASE (*(REG32_PTR_T)(ADM_SFR_BASE + 0x58)) /* Start Address for Mac X Area */ #define ADM_YBASE (*(REG32_PTR_T)(ADM_SFR_BASE + 0x5C)) /* Start Address for Mac Y Area */ #define ADM_S0BASE (*(REG32_PTR_T)(ADM_SFR_BASE + 0x60)) /* Start Address for Sequential Block 0 Area */ #define ADM_S1BASE (*(REG32_PTR_T)(ADM_SFR_BASE + 0x64)) /* Start Address for Sequential Block 1 Area */ /* 05. CLOCK & POWER MANAGEMENT */ #define CLK_BASE 0x3C500000 #if CONFIG_CPU==S5L8700 || CONFIG_CPU==S5L8701 #define CLKCON (*(REG32_PTR_T)(CLK_BASE)) /* Clock control register */ #define PLL0PMS (*(REG32_PTR_T)(CLK_BASE + 0x04)) /* PLL PMS value register */ #define PLL1PMS (*(REG32_PTR_T)(CLK_BASE + 0x08)) /* PLL PMS value register */ #define PLL2PMS (*(REG32_PTR_T)(CLK_BASE + 0x0C)) /* PLL PMS value register - S5L8701 only? */ #define CLKCON3 (*(REG32_PTR_T)(CLK_BASE + 0x10)) /* Clock control register 3 */ #define PLL0LCNT (*(REG32_PTR_T)(CLK_BASE + 0x14)) /* PLL0 lock count register */ #define PLL1LCNT (*(REG32_PTR_T)(CLK_BASE + 0x18)) /* PLL1 lock count register */ #define PLL2LCNT (*(REG32_PTR_T)(CLK_BASE + 0x1C)) /* PLL2 lock count register - S5L8701 only? */ #define PLLLOCK (*(REG32_PTR_T)(CLK_BASE + 0x20)) /* PLL lock status register */ #define PLLCON (*(REG32_PTR_T)(CLK_BASE + 0x24)) /* PLL control register */ #define PWRCON (*(REG32_PTR_T)(CLK_BASE + 0x28)) /* Clock power control register */ #define PWRMODE (*(REG32_PTR_T)(CLK_BASE + 0x2C)) /* Power mode control register */ #define SWRCON (*(REG32_PTR_T)(CLK_BASE + 0x30)) /* Software reset control register */ #define RSTSR (*(REG32_PTR_T)(CLK_BASE + 0x34)) /* Reset status register */ #define DSPCLKMD (*(REG32_PTR_T)(CLK_BASE + 0x38)) /* DSP clock mode register */ #define CLKCON2 (*(REG32_PTR_T)(CLK_BASE + 0x3C)) /* Clock control register 2 */ #define PWRCONEXT (*(REG32_PTR_T)(CLK_BASE + 0x40)) /* Clock power control register 2 */ #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define CLKCON0 (*((REG32_PTR_T)(CLK_BASE))) #define CLKCON1 (*((REG32_PTR_T)(CLK_BASE + 0x04))) #define CLKCON2 (*((REG32_PTR_T)(CLK_BASE + 0x08))) #define CLKCON3 (*((REG32_PTR_T)(CLK_BASE + 0x0C))) #define CLKCON4 (*((REG32_PTR_T)(CLK_BASE + 0x10))) #define CLKCON5 (*((REG32_PTR_T)(CLK_BASE + 0x14))) #define CLKCON0_SDR_DISABLE_BIT (1 << 31) #if CONFIG_CPU == S5L8720 #define CLKCON0_UNK30_BIT (1 << 30) #endif /* CPU/AHB/APB real_divisor = xDIV_EN_BIT ? 2*(reg_value+1) : 1 */ #define CLKCON1_CDIV_POS 24 #define CLKCON1_CDIV_MSK 0x1f #define CLKCON1_CDIV_EN_BIT (1 << 30) #define CLKCON1_HDIV_POS 16 #define CLKCON1_HDIV_MSK 0x1f #define CLKCON1_HDIV_EN_BIT (1 << 22) #define CLKCON1_PDIV_POS 8 #define CLKCON1_PDIV_MSK 0x1f #define CLKCON1_PDIV_EN_BIT (1 << 14) /* AHB/APB ratio: must be written when HDIV and/or PDIV are modified, real_ratio = reg_value + 1 */ #define CLKCON1_HPRAT_POS 0 #define CLKCON1_HPRAT_MSK 0x3f /* TBC: this bit selects a clock routed (at least) to all I2S modules * (AUDAUX_Clk, see i2s-s5l8702.h), it can be selected as a source * for CODEC_CLK (MCLK), on iPod Classic AUDAUX_Clk is: * 0 -> 12 MHz (TBC: OSC0 ???) * 1 -> 24 MHz (TBC: 2*OSC0 ???) */ #define CLKCON5_AUDAUXCLK_BIT (1 << 31) #define PLLPMS(i) (*((REG32_PTR_T)(CLK_BASE + 0x20 + ((i) * 4)))) #define PLL0PMS PLLPMS(0) #define PLL1PMS PLLPMS(1) #define PLL2PMS PLLPMS(2) /* * PLLnPMS */ #define PLLPMS_PDIV_POS 24 /* pre-divider */ #define PLLPMS_PDIV_MSK 0x3f #define PLLPMS_MDIV_POS 8 /* main divider */ #define PLLPMS_MDIV_MSK 0xff #define PLLPMS_SDIV_POS 0 /* post-divider (2^S) */ #define PLLPMS_SDIV_MSK 0x7 #define PLLCNT(i) (*((REG32_PTR_T)(CLK_BASE + 0x30 + ((i) * 4)))) #define PLLCNT_MSK 0x3fffff #define PLL0LCNT PLLCNT(0) #define PLL1LCNT PLLCNT(1) #define PLL2LCNT PLLCNT(2) #if CONFIG_CPU == S5L8720 #define PLLUNK3C (*((REG32_PTR_T)(CLK_BASE + 0x3C))) #endif #define PLLLOCK (*((REG32_PTR_T)(CLK_BASE + 0x40))) /* Start status: 0 -> in progress, 1 -> locked */ #define PLLLOCK_LCK_BIT(n) (1 << (n)) /* Lock status for Divisor Mode (DM): 0 -> DM unlocked, 1 -> DM locked */ #define PLLLOCK_DMLCK_BIT(n) (1 << (4 + (n))) #define PLLMODE (*((REG32_PTR_T)(CLK_BASE + 0x44))) /* Enable PLL0,1,2: 0 -> turned off, 1 -> turned on */ #define PLLMODE_EN_BIT(n) (1 << (n)) /* Select PMS mode for PLL0,1: 0 -> mutiply mode (MM), 1 -> divide mode (DM) */ #define PLLMODE_PMSMOD_BIT(n) (1 << (4 + (n))) /* Select DMOSC for PLL2: 0 -> DMOSC_STD, 1 -> DMOSC_ALT */ #define PLLMODE_PLL2DMOSC_BIT (1 << 6) /* Select oscilator for CG16_SEL_OSC source: 0 -> S5L8702_OSC0, 1 -> S5L8702_OSC1 */ #define PLLMODE_OSCSEL_BIT (1 << 8) /* Select PLLxClk (a.k.a. "slow mode", see s3c2440-DS) for PLL0,1,2: O -> S5L8702_OSC1, 1 -> PLLxFreq */ #define PLLMODE_PLLOUT_BIT(n) (1 << (16 + (n))) /* s5l8702 only uses PWRCON0 and PWRCON1 */ #define PWRCON(i) (*((REG32_PTR_T)(CLK_BASE \ + ((i) == 4 ? 0x6C : \ ((i) == 3 ? 0x68 : \ ((i) == 2 ? 0x58 : \ ((i) == 1 ? 0x4C : \ 0x48))))))) /* TBC: ATM i am assuming that PWRCON_AHB/APB registers are clockgates * for SoC internal controllers sitting on AHB/APB buses, this is based * on other similar SoC documentation and experimental results for many * (not all) s5l8702 controllers. */ #define PWRCON_AHB PWRCON(0) #define PWRCON_APB PWRCON(1) /* SW Reset Control Register */ #define SWRCON (*((REG32_PTR_T)(CLK_BASE + 0x50))) /* Reset Status Register */ #define RSTSR (*((REG32_PTR_T)(CLK_BASE + 0x54))) #define RSTSR_WDR_BIT (1 << 2) #define RSTSR_SWR_BIT (1 << 1) #define RSTSR_HWR_BIT (1 << 0) #if CONFIG_CPU == S5L8702 #define PLLMOD2 (*((REG32_PTR_T)(CLK_BASE + 0x60))) /* Selects ALTOSCx for PLL0,1,2 when DMOSC == DMOSC_ALT: 0 -> S5L8702_ALTOSC0, 1 -> S5L8702_ALTOSC1 */ #define PLLMOD2_ALTOSC_BIT(n) (1 << (n)) /* Selects DMOSC for PLL0,1: 0 -> DMOSC_STD, 1 -> DMOSC_ALT */ #define PLLMOD2_DMOSC_BIT(n) (1 << (4 + (n))) #elif CONFIG_CPU==S5L8720 #define PLLUNK64 (*((REG32_PTR_T)(CLK_BASE + 0x64))) // used by efi_ClockAndReset #define CLKCON6 (*((REG32_PTR_T)(CLK_BASE + 0x70))) #endif /* CONFIG_CPU==S5L8720 */ #endif /* CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 */ #if CONFIG_CPU==S5L8700 #define CLOCKGATE_UARTC 8 #elif CONFIG_CPU==S5L8701 #define CLOCKGATE_UARTC0 8 #define CLOCKGATE_UARTC1 9 #define CLOCKGATE_UARTC2 13 #elif CONFIG_CPU==S5L8702 #define CLOCKGATE_SHA 0 #define CLOCKGATE_LCD 1 #define CLOCKGATE_USBOTG 2 #define CLOCKGATE_SMx 3 #define CLOCKGATE_SM1 4 #define CLOCKGATE_ATA 5 #define CLOCKGATE_NAND 8 #define CLOCKGATE_SDCI 9 #define CLOCKGATE_AES 10 #define CLOCKGATE_NANDECC 12 #define CLOCKGATE_DMAC0 25 #define CLOCKGATE_DMAC1 26 #define CLOCKGATE_ROM 30 #define CLOCKGATE_RTC 32 #define CLOCKGATE_CWHEEL 33 #define CLOCKGATE_SPI0 34 #define CLOCKGATE_USBPHY 35 #define CLOCKGATE_I2C0 36 #define CLOCKGATE_TIMER 37 #define CLOCKGATE_I2C1 38 #define CLOCKGATE_I2S0 39 #define CLOCKGATE_UARTC 41 #define CLOCKGATE_I2S1 42 #define CLOCKGATE_SPI1 43 #define CLOCKGATE_GPIO 44 #define CLOCKGATE_CHIPID 46 #define CLOCKGATE_I2S2 47 #define CLOCKGATE_SPI2 48 #elif CONFIG_CPU==S5L8720 /* PWRCON0 - 18 gates (0..17) */ #define CLOCKGATE_SHA 0 #define CLOCKGATE_LCD 1 // TBC #define CLOCKGATE_USBOTG 2 #define CLOCKGATE_SMx 3 // TBC #define CLOCKGATE_SM1 4 // TBC #define CLOCKGATE_NAND 5 #define CLOCKGATE_AES 7 #define CLOCKGATE_NANDECC 9 #define CLOCKGATE_DMAC0 11 // TBC #define CLOCKGATE_DMAC1 12 // TBC #define CLOCKGATE_ROM 13 #define CLOCKGATE_UNK14 14 // this could also be DMAC0 // #define CLOCKGATE_UNK15 15 // #define CLOCKGATE_UNK16 16 // #define CLOCKGATE_UNK17 17 /* PWRCON1 - 32 gates (32..63)*/ // #define CLOCKGATE_RTC 32 #define CLOCKGATE_CWHEEL 33 // TBC #define CLOCKGATE_SPI0 34 #define CLOCKGATE_USBPHY 35 #define CLOCKGATE_I2C0 36 #define CLOCKGATE_TIMERA 37 #define CLOCKGATE_I2C1 38 // TBC // #define CLOCKGATE_I2S0 39 #define CLOCKGATE_UARTC 41 // TBC // #define CLOCKGATE_I2S1 42 #define CLOCKGATE_SPI1 43 #define CLOCKGATE_GPIO 44 // TBC #define CLOCKGATE_UNK45 45 // it is used in peicore, also in s5l8702, it is related to 0x3d00_0000 (secure boot ???) #define CLOCKGATE_CHIPID 46 #define CLOCKGATE_SPI2 47 // // #define CLOCKGATE_I2S2 47 // // #define CLOCKGATE_SPI2 48 // #define CLOCKGATE_UNK50 50 // #define CLOCKGATE_UNK52 52 // #define CLOCKGATE_UNK54 54 #define CLOCKGATE_TIMERB 55 #define CLOCKGATE_TIMERE 56 #define CLOCKGATE_TIMERF 57 #define CLOCKGATE_TIMERG 58 #define CLOCKGATE_TIMERH 59 #define CLOCKGATE_TIMERI 60 #define CLOCKGATE_UNK61 61 #define CLOCKGATE_UNK62 62 #define CLOCKGATE_UNK63 63 /* PWRCON2 - 7 gates (64..70) */ #define CLOCKGATE_SPI3 65 // TBC #define CLOCKGATE_UNK66 66 // #define CLOCKGATE_UNK67 67 #define CLOCKGATE_SPI4 68 // TBC #define CLOCKGATE_TIMERC 69 #define CLOCKGATE_TIMERD 70 /* PWRCON3 - 15 gates (96..110) */ #define CLOCKGATE_UNK104 104 // it is used by peicore, related to 0x3880_0000 #define CLOCKGATE_UNK14_2 107 // #define CLOCKGATE_UNK109 109 // it hangs if we disable it /* PWRCON4 - 24 gates (128..151) */ #define CLOCKGATE_TIMERA_2 128 #define CLOCKGATE_TIMERB_2 129 #define CLOCKGATE_TIMERE_2 130 #define CLOCKGATE_TIMERF_2 131 #define CLOCKGATE_TIMERG_2 132 #define CLOCKGATE_TIMERH_2 133 #define CLOCKGATE_TIMERI_2 134 #define CLOCKGATE_UARTC_2 135 // TBC #define CLOCKGATE_UNK61_2 136 #define CLOCKGATE_UNK62_2 137 #define CLOCKGATE_UNK63_2 138 #define CLOCKGATE_I2C0_2 139 #define CLOCKGATE_I2C1_2 140 #define CLOCKGATE_SPI0_2 141 #define CLOCKGATE_SPI1_2 142 #define CLOCKGATE_SPI2_2 143 #define CLOCKGATE_LCD_2 144 // TBC // #define CLOCKGATE_UNK145 145 #define CLOCKGATE_SPI3_2 147 // TBC #define CLOCKGATE_SPI4_2 148 // TBC #define CLOCKGATE_UNK66_2 149 #define CLOCKGATE_TIMERC_2 150 #define CLOCKGATE_TIMERD_2 151 #endif #if CONFIG_CPU == S5L8702 || CONFIG_CPU == S5L8720 /* CG16_x: for readability and debug, these gates are defined as * 16-bit registers, on HW they are really halves of 32-bit registers. * Some functionallity is not available on all CG16 gates (when so, * related bits are read-only and fixed to 0). * * CLKCONx DIV1 DIV2 UNKOSC UNK14 * CG16_SYS 0L + * CG16_2L 2L + +(TBC) +(TBC) * CG16_SVID 2H + +(TBC) * CG16_AUD0 3L + + * CG16_AUD1 3H + + * CG16_AUD2 4L + + * CG16_RTIME 4H + + + * CG16_5L 5L + * * Not all gates are fully tested, this information is mainly based * on experimental test using emCORE: * - CG16_SYS and CG16_RTIME were tested mainly using time benchs. * - EClk is used as a fixed clock (not depending on CPU/AHB/APB * settings) for the timer controller. MIU_Clk is used by the MIU * controller to generate the DRAM refresh signals. * - AUDxClk are a source selection for I2Sx modules, so they can * can be scaled and routed to the I2S GPIO ports, where they * were sampled (using emCORE) to inspect how they behave. * - CG16_SVID seem to be used for external video, this info is * based on OF diagnostics reverse engineering. * - CG16_2L and CG16_5L usage is unknown. */ #define CG16_SYS (*((REG16_PTR_T)(CLK_BASE))) #if CONFIG_CPU == S5L8702 #define CG16_2L (*((REG16_PTR_T)(CLK_BASE + 0x08))) #elif CONFIG_CPU == S5L8720 #define CG16_LCD (*((REG16_PTR_T)(CLK_BASE + 0x08))) #endif #define CG16_SVID (*((REG16_PTR_T)(CLK_BASE + 0x0A))) #define CG16_AUD0 (*((REG16_PTR_T)(CLK_BASE + 0x0C))) #define CG16_AUD1 (*((REG16_PTR_T)(CLK_BASE + 0x0E))) #define CG16_AUD2 (*((REG16_PTR_T)(CLK_BASE + 0x10))) #define CG16_RTIME (*((REG16_PTR_T)(CLK_BASE + 0x12))) #define CG16_5L (*((REG16_PTR_T)(CLK_BASE + 0x14))) #if CONFIG_CPU == S5L8720 #define CG16_6L (*((REG16_PTR_T)(CLK_BASE + 0x70))) #endif /* CG16 output frequency = !DISABLE_BIT * SEL_x frequency / DIV1+1 / DIV2+1 */ #define CG16_DISABLE_BIT (1 << 15) /* mask clock output */ #define CG16_UNK14_BIT (1 << 14) /* writable on CG16_2L */ #define CG16_SEL_POS 12 /* source clock selection */ #define CG16_SEL_MSK 0x3 #define CG16_SEL_OSC 0 #define CG16_SEL_PLL0 1 #define CG16_SEL_PLL1 2 #define CG16_SEL_PLL2 3 #define CG16_UNKOSC_BIT (1 << 11) #define CG16_DIV2_POS 4 /* 2nd divisor */ #define CG16_DIV2_MSK 0xf #define CG16_DIV1_POS 0 /* 1st divisor */ #define CG16_DIV1_MSK 0xf /* SM1 */ #define SM1_BASE 0x38500000 /* TBC: Clk_SM1 = HClk / (SM1_DIV[3:0] + 1) */ #define SM1_DIV (*((REG32_PTR_T)(SM1_BASE + 0x1000))) #endif /* 06. INTERRUPT CONTROLLER UNIT */ #define INT_BASE 0x39C00000 #define SRCPND (*(REG32_PTR_T)(INT_BASE)) /* Indicates the interrupt request status. */ #define INTMOD (*(REG32_PTR_T)(INT_BASE + 0x04)) /* Interrupt mode register. */ #define INTMSK (*(REG32_PTR_T)(INT_BASE + 0x08)) /* Determines which interrupt source is masked. The masked interrupt source will not be serviced. */ #if CONFIG_CPU==S5L8700 #define INTMSK_TIMERA (1<<5) #define INTMSK_TIMERB (1<<7) #define INTMSK_TIMERC (1<<8) #define INTMSK_TIMERD (1<<9) #define INTMSK_UART0 (1<<22) #define INTMSK_UART1 (1<<14) #elif CONFIG_CPU==S5L8701 #define INTMSK_EINTG0 (1<<1) #define INTMSK_EINTG1 (1<<2) #define INTMSK_EINTG2 (1<<3) #define INTMSK_EINTG3 (1<<4) #define INTMSK_TIMERA (1<<5) #define INTMSK_TIMERB (1<<5) #define INTMSK_TIMERC (1<<5) #define INTMSK_TIMERD (1<<5) #define INTMSK_ECC (1<<19) #define INTMSK_USB_OTG (1<<16) #define INTMSK_UART0 (0) /* (AFAIK) no IRQ to ICU, uses EINTG0 */ #define INTMSK_UART1 (1<<12) #define INTMSK_UART2 (1<<7) #endif #define PRIORITY (*(REG32_PTR_T)(INT_BASE + 0x0C)) /* IRQ priority control register */ #define INTPND (*(REG32_PTR_T)(INT_BASE + 0x10)) /* Indicates the interrupt request status. */ #define INTOFFSET (*(REG32_PTR_T)(INT_BASE + 0x14)) /* Indicates the IRQ interrupt request source */ #if CONFIG_CPU==S5L8700 #define EINTPOL (*(REG32_PTR_T)(INT_BASE + 0x18)) /* Indicates external interrupt polarity */ #define EINTPEND (*(REG32_PTR_T)(INT_BASE + 0x1C)) /* Indicates whether external interrupts are pending. */ #define EINTMSK (*(REG32_PTR_T)(INT_BASE + 0x20)) /* Indicates whether external interrupts are masked */ #elif CONFIG_CPU==S5L8701 /* * s5l8701 GPIO (External) Interrupt Controller. * * At first glance it looks very similar to gpio-s5l8702, but * not fully tested, so this information could be wrong. * * Group0[31:10] Not used * [9] UART0 IRQ * [8] VBUS * [7:0] PDAT1 * Group1[31:0] PDAT5:PDAT4:PDAT3:PDAT2 * Group2[31:0] PDAT11:PDAT10:PDAT7:PDAT6 * Group3[31:0] PDAT15:PDAT14:PDAT13:PDAT12 */ #define GPIOIC_INTLEVEL(g) (*(REG32_PTR_T)(INT_BASE + 0x18 + 4*(g))) #define GPIOIC_INTSTAT(g) (*(REG32_PTR_T)(INT_BASE + 0x28 + 4*(g))) #define GPIOIC_INTEN(g) (*(REG32_PTR_T)(INT_BASE + 0x38 + 4*(g))) #define GPIOIC_INTTYPE(g) (*(REG32_PTR_T)(INT_BASE + 0x48 + 4*(g))) #endif /* 07. MEMORY INTERFACE UNIT (MIU) */ #if CONFIG_CPU==S5L8700 || CONFIG_CPU==S5L8701 #define MIU_BASE 0x38200000 #elif CONFIG_CPU==S5L8702 #define MIU_BASE 0x38100000 #elif CONFIG_CPU==S5L8720 #define MIU_BASE 0x3d700000 #endif #define MIU_REG(off) (*((REG32_PTR_T)(MIU_BASE + (off)))) /* SDRAM */ #if CONFIG_CPU==S5L8700 || CONFIG_CPU==S5L8701 || CONFIG_CPU==S5L8702 #define MIUCON (*(REG32_PTR_T)(MIU_BASE)) /* External Memory configuration register */ #define MIUCOM (*(REG32_PTR_T)(MIU_BASE + 0x04)) /* Command and status register */ #define MIUAREF (*(REG32_PTR_T)(MIU_BASE + 0x08)) /* Auto-refresh control register */ #define MIUMRS (*(REG32_PTR_T)(MIU_BASE + 0x0C)) /* SDRAM Mode Register Set Value Register */ #define MIUSDPARA (*(REG32_PTR_T)(MIU_BASE + 0x10)) /* SDRAM parameter register */ #elif CONFIG_CPU==S5L8720 #define MIUCOM (*(REG32_PTR_T)(MIU_BASE + 0x104)) /* Command and status register */ #define MIUMRS (*(REG32_PTR_T)(MIU_BASE + 0x110)) /* SDRAM Mode Register Set Value Register */ #define UNK3E000000_BASE 0x3e000000 #define UNK3E000008 (*(REG32_PTR_T)(UNK3E000000_BASE + 0x08)) #endif /* DDR */ #define MEMCONF (*(REG32_PTR_T)(MIU_BASE + 0x20)) /* External Memory configuration register */ #define USRCMD (*(REG32_PTR_T)(MIU_BASE + 0x24)) /* Command and Status register */ #define AREF (*(REG32_PTR_T)(MIU_BASE + 0x28)) /* Auto-refresh control register */ #define MRS (*(REG32_PTR_T)(MIU_BASE + 0x2C)) /* DRAM mode register set value register */ #define DPARAM (*(REG32_PTR_T)(MIU_BASE + 0x30)) /* DRAM parameter register (Unit of ‘tXXX’ : tCK */ #define SMEMCONF (*(REG32_PTR_T)(MIU_BASE + 0x34)) /* Static memory mode register set value register */ #define MIUS01PARA (*(REG32_PTR_T)(MIU_BASE + 0x38)) /* SRAM0, SRAM1 static memory parameter register (In S5L8700, SRAM0 is Nor Flash) */ #define MIUS23PARA (*(REG32_PTR_T)(MIU_BASE + 0x3C)) /* SRAM2 and SRAM3 static memory parameter register */ #define MIUORG (*(REG32_PTR_T)(MIU_BASE + 0x40)) /* SDR/DDR selection */ #define MIUDLYDQS (*(REG32_PTR_T)(MIU_BASE + 0x44)) /* DQS/DQS-rst delay parameter */ #define MIUDLYCLK (*(REG32_PTR_T)(MIU_BASE + 0x48)) /* SDR/DDR Clock delay parameter */ #define MIU_DSS_SEL_B (*(REG32_PTR_T)(MIU_BASE + 0x4C)) /* SSTL2 Drive Strength parameter for Bi-direction signal */ #define MIU_DSS_SEL_O (*(REG32_PTR_T)(MIU_BASE + 0x50)) /* SSTL2 Drive Strength parameter for Output signal */ #define MIU_DSS_SEL_C (*(REG32_PTR_T)(MIU_BASE + 0x54)) /* SSTL2 Drive Strength parameter for Clock signal */ #define PAD_DSS_SEL_NOR (*(REG32_PTR_T)(MIU_BASE + 0x58)) /* Wide range I/O Drive Strength parameter for NOR interface */ #define PAD_DSS_SEL_ATA (*(REG32_PTR_T)(MIU_BASE + 0x5C)) /* Wide range I/O Drive Strength parameter for ATA interface */ #define SSTL2_PAD_ON (*(REG32_PTR_T)(MIU_BASE + 0x60)) /* SSTL2 pad ON/OFF select */ /* 08. IODMA CONTROLLER */ #define DMA_BASE 0x38400000 #if CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define DMA0_BASE 0x38200000 #endif #if CONFIG_CPU==S5L8702 #define DMA1_BASE 0x39900000 #elif CONFIG_CPU==S5L8720 #define DMA1_BASE 0x38700000 #endif #define DMABASE0 (*(REG32_PTR_T)(DMA_BASE)) /* Base address register for channel 0 */ #define DMACON0 (*(REG32_PTR_T)(DMA_BASE + 0x04)) /* Configuration register for channel 0 */ #define DMATCNT0 (*(REG32_PTR_T)(DMA_BASE + 0x08)) /* Transfer count register for channel 0 */ #define DMACADDR0 (*(REG32_PTR_T)(DMA_BASE + 0x0C)) /* Current memory address register for channel 0 */ #define DMACTCNT0 (*(REG32_PTR_T)(DMA_BASE + 0x10)) /* Current transfer count register for channel 0 */ #define DMACOM0 (*(REG32_PTR_T)(DMA_BASE + 0x14)) /* Channel 0 command register */ #define DMANOFF0 (*(REG32_PTR_T)(DMA_BASE + 0x18)) /* Channel 0 offset2 register */ #define DMABASE1 (*(REG32_PTR_T)(DMA_BASE + 0x20)) /* Base address register for channel 1 */ #define DMACON1 (*(REG32_PTR_T)(DMA_BASE + 0x24)) /* Configuration register for channel 1 */ #define DMATCNT1 (*(REG32_PTR_T)(DMA_BASE + 0x28)) /* Transfer count register for channel 1 */ #define DMACADDR1 (*(REG32_PTR_T)(DMA_BASE + 0x2C)) /* Current memory address register for channel 1 */ #define DMACTCNT1 (*(REG32_PTR_T)(DMA_BASE + 0x30)) /* Current transfer count register for channel 1 */ #define DMACOM1 (*(REG32_PTR_T)(DMA_BASE + 0x34)) /* Channel 1 command register */ #define DMABASE2 (*(REG32_PTR_T)(DMA_BASE + 0x40)) /* Base address register for channel 2 */ #define DMACON2 (*(REG32_PTR_T)(DMA_BASE + 0x44)) /* Configuration register for channel 2 */ #define DMATCNT2 (*(REG32_PTR_T)(DMA_BASE + 0x48)) /* Transfer count register for channel 2 */ #define DMACADDR2 (*(REG32_PTR_T)(DMA_BASE + 0x4C)) /* Current memory address register for channel 2 */ #define DMACTCNT2 (*(REG32_PTR_T)(DMA_BASE + 0x50)) /* Current transfer count register for channel 2 */ #define DMACOM2 (*(REG32_PTR_T)(DMA_BASE + 0x54)) /* Channel 2 command register */ #define DMABASE3 (*(REG32_PTR_T)(DMA_BASE + 0x60)) /* Base address register for channel 3 */ #define DMACON3 (*(REG32_PTR_T)(DMA_BASE + 0x64)) /* Configuration register for channel 3 */ #define DMATCNT3 (*(REG32_PTR_T)(DMA_BASE + 0x68)) /* Transfer count register for channel 3 */ #define DMACADDR3 (*(REG32_PTR_T)(DMA_BASE + 0x6C)) /* Current memory address register for channel 3 */ #define DMACTCNT3 (*(REG32_PTR_T)(DMA_BASE + 0x70)) /* Current transfer count register for channel 3 */ #define DMACOM3 (*(REG32_PTR_T)(DMA_BASE + 0x74)) /* Channel 3 command register */ #if CONFIG_CPU==S5L8700 #define DMAALLST (*(REG32_PTR_T)(DMA_BASE + 0x100)) /* All channel status register */ #elif CONFIG_CPU==S5L8701 #define DMABASE4 (*(REG32_PTR_T)(DMA_BASE + 0x80)) /* Base address register for channel 4 */ #define DMACON4 (*(REG32_PTR_T)(DMA_BASE + 0x84)) /* Configuration register for channel 4 */ #define DMATCNT4 (*(REG32_PTR_T)(DMA_BASE + 0x88)) /* Transfer count register for channel 4 */ #define DMACADDR4 (*(REG32_PTR_T)(DMA_BASE + 0x8C)) /* Current memory address register for channel 4 */ #define DMACTCNT4 (*(REG32_PTR_T)(DMA_BASE + 0x90)) /* Current transfer count register for channel 4 */ #define DMACOM4 (*(REG32_PTR_T)(DMA_BASE + 0x94)) /* Channel 4 command register */ #define DMABASE5 (*(REG32_PTR_T)(DMA_BASE + 0xA0)) /* Base address register for channel 5 */ #define DMACON5 (*(REG32_PTR_T)(DMA_BASE + 0xA4)) /* Configuration register for channel 5 */ #define DMATCNT5 (*(REG32_PTR_T)(DMA_BASE + 0xA8)) /* Transfer count register for channel 5 */ #define DMACADDR5 (*(REG32_PTR_T)(DMA_BASE + 0xAC)) /* Current memory address register for channel 5 */ #define DMACTCNT5 (*(REG32_PTR_T)(DMA_BASE + 0xB0)) /* Current transfer count register for channel 5 */ #define DMACOM5 (*(REG32_PTR_T)(DMA_BASE + 0xB4)) /* Channel 5 command register */ #define DMABASE6 (*(REG32_PTR_T)(DMA_BASE + 0xC0)) /* Base address register for channel 6 */ #define DMACON6 (*(REG32_PTR_T)(DMA_BASE + 0xC4)) /* Configuration register for channel 6 */ #define DMATCNT6 (*(REG32_PTR_T)(DMA_BASE + 0xC8)) /* Transfer count register for channel 6 */ #define DMACADDR6 (*(REG32_PTR_T)(DMA_BASE + 0xCC)) /* Current memory address register for channel 6 */ #define DMACTCNT6 (*(REG32_PTR_T)(DMA_BASE + 0xD0)) /* Current transfer count register for channel 6 */ #define DMACOM6 (*(REG32_PTR_T)(DMA_BASE + 0xD4)) /* Channel 6 command register */ #define DMABASE7 (*(REG32_PTR_T)(DMA_BASE + 0xE0)) /* Base address register for channel 7 */ #define DMACON7 (*(REG32_PTR_T)(DMA_BASE + 0xE4)) /* Configuration register for channel 7 */ #define DMATCNT7 (*(REG32_PTR_T)(DMA_BASE + 0xE8)) /* Transfer count register for channel 7 */ #define DMACADDR7 (*(REG32_PTR_T)(DMA_BASE + 0xEC)) /* Current memory address register for channel 7 */ #define DMACTCNT7 (*(REG32_PTR_T)(DMA_BASE + 0xF0)) /* Current transfer count register for channel 7 */ #define DMACOM7 (*(REG32_PTR_T)(DMA_BASE + 0xF4)) /* Channel 7 command register */ #define DMABASE8 (*(REG32_PTR_T)(DMA_BASE + 0x100)) /* Base address register for channel 8 */ #define DMACON8 (*(REG32_PTR_T)(DMA_BASE + 0x104)) /* Configuration register for channel 8 */ #define DMATCNT8 (*(REG32_PTR_T)(DMA_BASE + 0x108)) /* Transfer count register for channel 8 */ #define DMACADDR8 (*(REG32_PTR_T)(DMA_BASE + 0x10C)) /* Current memory address register for channel 8 */ #define DMACTCNT8 (*(REG32_PTR_T)(DMA_BASE + 0x110)) /* Current transfer count register for channel 8 */ #define DMACOM8 (*(REG32_PTR_T)(DMA_BASE + 0x114)) /* Channel 8 command register */ #define DMAALLST (*(REG32_PTR_T)(DMA_BASE + 0x180)) /* All channel status register */ #endif #define DMACON_DEVICE_SHIFT 30 #define DMACON_DIRECTION_SHIFT 29 #define DMACON_DATA_SIZE_SHIFT 22 #define DMACON_BURST_LEN_SHIFT 19 #define DMACOM_START 4 #define DMACOM_CLEARBOTHDONE 7 #define DMAALLST_WCOM0 (1 << 0) #define DMAALLST_HCOM0 (1 << 1) #define DMAALLST_DMABUSY0 (1 << 2) #define DMAALLST_HOLD_SKIP (1 << 3) #define DMAALLST_WCOM1 (1 << 4) #define DMAALLST_HCOM1 (1 << 5) #define DMAALLST_DMABUSY1 (1 << 6) #define DMAALLST_WCOM2 (1 << 8) #define DMAALLST_HCOM2 (1 << 9) #define DMAALLST_DMABUSY2 (1 << 10) #define DMAALLST_WCOM3 (1 << 12) #define DMAALLST_HCOM3 (1 << 13) #define DMAALLST_DMABUSY3 (1 << 14) #define DMAALLST_CHAN0_MASK (0xF << 0) #define DMAALLST_CHAN1_MASK (0xF << 4) #define DMAALLST_CHAN2_MASK (0xF << 8) #define DMAALLST_CHAN3_MASK (0xF << 12) /* 10. REAL TIMER CLOCK (RTC) */ #define RTC_BASE 0x3D200000 #define RTCCON (*(REG32_PTR_T)(RTC_BASE)) /* RTC Control Register */ #define RTCRST (*(REG32_PTR_T)(RTC_BASE + 0x04)) /* RTC Round Reset Register */ #define RTCALM (*(REG32_PTR_T)(RTC_BASE + 0x08)) /* RTC Alarm Control Register */ #define ALMSEC (*(REG32_PTR_T)(RTC_BASE + 0x0C)) /* Alarm Second Data Register */ #define ALMMIN (*(REG32_PTR_T)(RTC_BASE + 0x10)) /* Alarm Minute Data Register */ #define ALMHOUR (*(REG32_PTR_T)(RTC_BASE + 0x14)) /* Alarm Hour Data Register */ #define ALMDATE (*(REG32_PTR_T)(RTC_BASE + 0x18)) /* Alarm Date Data Register */ #define ALMDAY (*(REG32_PTR_T)(RTC_BASE + 0x1C)) /* Alarm Day of Week Data Register */ #define ALMMON (*(REG32_PTR_T)(RTC_BASE + 0x20)) /* Alarm Month Data Register */ #define ALMYEAR (*(REG32_PTR_T)(RTC_BASE + 0x24)) /* Alarm Year Data Register */ #define BCDSEC (*(REG32_PTR_T)(RTC_BASE + 0x28)) /* BCD Second Register */ #define BCDMIN (*(REG32_PTR_T)(RTC_BASE + 0x2C)) /* BCD Minute Register */ #define BCDHOUR (*(REG32_PTR_T)(RTC_BASE + 0x30)) /* BCD Hour Register */ #define BCDDATE (*(REG32_PTR_T)(RTC_BASE + 0x34)) /* BCD Date Register */ #define BCDDAY (*(REG32_PTR_T)(RTC_BASE + 0x38)) /* BCD Day of Week Register */ #define BCDMON (*(REG32_PTR_T)(RTC_BASE + 0x3C)) /* BCD Month Register */ #define BCDYEAR (*(REG32_PTR_T)(RTC_BASE + 0x40)) /* BCD Year Register */ #define RTCIM (*(REG32_PTR_T)(RTC_BASE + 0x44)) /* RTC Interrupt Mode Register */ #define RTCPEND (*(REG32_PTR_T)(RTC_BASE + 0x48)) /* RTC Interrupt Pending Register */ /* 09. WATCHDOG TIMER*/ #define WDT_BASE 0x3C800000 #define WDTCON (*(REG32_PTR_T)(WDT_BASE)) /* Control Register */ #define WDTCNT (*(REG32_PTR_T)(WDT_BASE + 0x04)) /* 11-bits internal counter */ /* 11. 16 BIT TIMER */ #define TIMER_BASE 0x3C700000 #define TACON (*(REG32_PTR_T)(TIMER_BASE)) /* Control Register for timer A */ #define TACMD (*(REG32_PTR_T)(TIMER_BASE + 0x04)) /* Command Register for timer A */ #define TADATA0 (*(REG32_PTR_T)(TIMER_BASE + 0x08)) /* Data0 Register */ #define TADATA1 (*(REG32_PTR_T)(TIMER_BASE + 0x0C)) /* Data1 Register */ #define TAPRE (*(REG32_PTR_T)(TIMER_BASE + 0x10)) /* Pre-scale register */ #define TACNT (*(REG32_PTR_T)(TIMER_BASE + 0x14)) /* Counter register */ #define TBCON (*(REG32_PTR_T)(TIMER_BASE + 0x20)) /* Control Register for timer B */ #define TBCMD (*(REG32_PTR_T)(TIMER_BASE + 0x24)) /* Command Register for timer B */ #define TBDATA0 (*(REG32_PTR_T)(TIMER_BASE + 0x28)) /* Data0 Register */ #define TBDATA1 (*(REG32_PTR_T)(TIMER_BASE + 0x2C)) /* Data1 Register */ #define TBPRE (*(REG32_PTR_T)(TIMER_BASE + 0x30)) /* Pre-scale register */ #define TBCNT (*(REG32_PTR_T)(TIMER_BASE + 0x34)) /* Counter register */ #define TCCON (*(REG32_PTR_T)(TIMER_BASE + 0x40)) /* Control Register for timer C */ #define TCCMD (*(REG32_PTR_T)(TIMER_BASE + 0x44)) /* Command Register for timer C */ #define TCDATA0 (*(REG32_PTR_T)(TIMER_BASE + 0x48)) /* Data0 Register */ #define TCDATA1 (*(REG32_PTR_T)(TIMER_BASE + 0x4C)) /* Data1 Register */ #define TCPRE (*(REG32_PTR_T)(TIMER_BASE + 0x50)) /* Pre-scale register */ #define TCCNT (*(REG32_PTR_T)(TIMER_BASE + 0x54)) /* Counter register */ #define TDCON (*(REG32_PTR_T)(TIMER_BASE + 0x60)) /* Control Register for timer D */ #define TDCMD (*(REG32_PTR_T)(TIMER_BASE + 0x64)) /* Command Register for timer D */ #define TDDATA0 (*(REG32_PTR_T)(TIMER_BASE + 0x68)) /* Data0 Register */ #define TDDATA1 (*(REG32_PTR_T)(TIMER_BASE + 0x6C)) /* Data1 Register */ #define TDPRE (*(REG32_PTR_T)(TIMER_BASE + 0x70)) /* Pre-scale register */ #define TDCNT (*(REG32_PTR_T)(TIMER_BASE + 0x74)) /* Counter register */ /* Timer I: 64-bit 5usec timer */ #define TICNTH (*(REG32_PTR_T)(TIMER_BASE + 0x80)) #define TICNTL (*(REG32_PTR_T)(TIMER_BASE + 0x84)) #define TIUNK08 (*(REG32_PTR_T)(TIMER_BASE + 0x88)) #define TIUNK0C (*(REG32_PTR_T)(TIMER_BASE + 0x8C)) // TBC: DATA0H #define TIUNK10 (*(REG32_PTR_T)(TIMER_BASE + 0x90)) // DATA0L #define TIUNK14 (*(REG32_PTR_T)(TIMER_BASE + 0x94)) // DATA1H #define TIUNK18 (*(REG32_PTR_T)(TIMER_BASE + 0x98)) // DATA1L #if CONFIG_CPU==S5L8700 || CONFIG_CPU==S5L8701 #define TIMER_FREQ (1843200 * 4 * 26 / 1 / 4) /* 47923200 Hz */ #define FIVE_USEC_TIMER (((uint64_t)TICNTH << 32) | TICNTL) #define USEC_TIMER (FIVE_USEC_TIMER * 5) #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 /* * 16/32-bit timers: * * - Timers A..D: 16-bit counter, very similar to 16-bit timers described * in S5L8700 DS, it seems that the timers C and D are disabled or not * implemented. * * - Timers E..H: 32-bit counter, they are like 16-bit timers, but the * interrupt status for all 32-bit timers is located in TSTAT register. * * TSTAT: * [26]: TIMERE INTOVF * [25]: TIMERE INT1 * [24]: TIMERE INT0 * [18]: TIMERF INTOVF * [17]: TIMERF INT1 * [16]: TIMERF INT0 * [10]: TIMERG INTOVF * [9]: TIMERG INT1 * [8]: TIMERG INT0 * [2]: TIMERH INTOVF * [1]: TIMERH INT1 * [0]: TIMERH INT0 * * - Clock source configuration: * * TCON[10:8] (Tx_CS) TCON[6]=0 TCON[6]=1 * ------------------ --------- --------- * 000 PCLK / 2 ECLK / 2 * 001 PCLK / 4 ECLK / 4 * 010 PCLK / 16 ECLK / 16 * 011 PCLK / 64 ECLK / 64 * 10x (timers E..H) PCLK ECLK * 10x (timers A..D) Ext. Clock 0 Ext. Clock 0 * 11x Ext. Clock 1 Ext. Clock 1 * * On Classic: * Ext. Clock 0: not connected or disabled * Ext. Clock 1: 32768 Hz, external OSC1 * ECLK: 12 MHz, external OSC0 */ #define TIMER_FREQ 12000000 /* ECLK */ #define TECON (*((REG32_PTR_T)(TIMER_BASE + 0xA0))) #define TECMD (*((REG32_PTR_T)(TIMER_BASE + 0xA4))) #define TEDATA0 (*((REG32_PTR_T)(TIMER_BASE + 0xA8))) #define TEDATA1 (*((REG32_PTR_T)(TIMER_BASE + 0xAC))) #define TEPRE (*((REG32_PTR_T)(TIMER_BASE + 0xB0))) #define TECNT (*((REG32_PTR_T)(TIMER_BASE + 0xB4))) #define TFCON (*((REG32_PTR_T)(TIMER_BASE + 0xC0))) #define TFCMD (*((REG32_PTR_T)(TIMER_BASE + 0xC4))) #define TFDATA0 (*((REG32_PTR_T)(TIMER_BASE + 0xC8))) #define TFDATA1 (*((REG32_PTR_T)(TIMER_BASE + 0xCC))) #define TFPRE (*((REG32_PTR_T)(TIMER_BASE + 0xD0))) #define TFCNT (*((REG32_PTR_T)(TIMER_BASE + 0xD4))) #define TGCON (*((REG32_PTR_T)(TIMER_BASE + 0xE0))) #define TGCMD (*((REG32_PTR_T)(TIMER_BASE + 0xE4))) #define TGDATA0 (*((REG32_PTR_T)(TIMER_BASE + 0xE8))) #define TGDATA1 (*((REG32_PTR_T)(TIMER_BASE + 0xEC))) #define TGPRE (*((REG32_PTR_T)(TIMER_BASE + 0xF0))) #define TGCNT (*((REG32_PTR_T)(TIMER_BASE + 0xF4))) #define THCON (*((REG32_PTR_T)(TIMER_BASE + 0x100))) #define THCMD (*((REG32_PTR_T)(TIMER_BASE + 0x104))) #define THDATA0 (*((REG32_PTR_T)(TIMER_BASE + 0x108))) #define THDATA1 (*((REG32_PTR_T)(TIMER_BASE + 0x10C))) #define THPRE (*((REG32_PTR_T)(TIMER_BASE + 0x110))) #define THCNT (*((REG32_PTR_T)(TIMER_BASE + 0x114))) #define TSTAT (*((REG32_PTR_T)(TIMER_BASE + 0x118))) #define USEC_TIMER TECNT #endif /* 12. NAND FLASH CONTROLER */ #if CONFIG_CPU==S5L8700 #define FMC_BASE 0x3C200000 #elif CONFIG_CPU==S5L8701 #define FMC_BASE 0x39400000 #endif #define FMCTRL0 (*(REG32_PTR_T)(FMC_BASE + 0x0000)) /* Control Register0 */ #define FMCTRL1 (*(REG32_PTR_T)(FMC_BASE + 0x0004)) /* Control Register1 */ #define FMCMD (*(REG32_PTR_T)(FMC_BASE + 0x0008)) /* Command Register */ #define FMADDR0 (*(REG32_PTR_T)(FMC_BASE + 0x000C)) /* Address Register0 */ #define FMADDR1 (*(REG32_PTR_T)(FMC_BASE + 0x0010)) /* Address Register1 */ #define FMADDR2 (*(REG32_PTR_T)(FMC_BASE + 0x0014)) /* Address Register2 */ #define FMADDR3 (*(REG32_PTR_T)(FMC_BASE + 0x0018)) /* Address Register3 */ #define FMADDR4 (*(REG32_PTR_T)(FMC_BASE + 0x001C)) /* Address Register4 */ #define FMADDR5 (*(REG32_PTR_T)(FMC_BASE + 0x0020)) /* Address Register5 */ #define FMADDR6 (*(REG32_PTR_T)(FMC_BASE + 0x0024)) /* Address Register6 */ #define FMADDR7 (*(REG32_PTR_T)(FMC_BASE + 0x0028)) /* Address Register7 */ #define FMANUM (*(REG32_PTR_T)(FMC_BASE + 0x002C)) /* Address Counter Register */ #define FMDNUM (*(REG32_PTR_T)(FMC_BASE + 0x0030)) /* Data Counter Register */ #define FMDATAW0 (*(REG32_PTR_T)(FMC_BASE + 0x0034)) /* Write Data Register0 */ #define FMDATAW1 (*(REG32_PTR_T)(FMC_BASE + 0x0038)) /* Write Data Register1 */ #define FMDATAW2 (*(REG32_PTR_T)(FMC_BASE + 0x003C)) /* Write Data Register2 */ #define FMDATAW3 (*(REG32_PTR_T)(FMC_BASE + 0x0040)) /* Write Data Register3 */ #define FMCSTAT (*(REG32_PTR_T)(FMC_BASE + 0x0048)) /* Status Register */ #define FMSYND0 (*(REG32_PTR_T)(FMC_BASE + 0x004C)) /* Hamming Syndrome0 */ #define FMSYND1 (*(REG32_PTR_T)(FMC_BASE + 0x0050)) /* Hamming Syndrome1 */ #define FMSYND2 (*(REG32_PTR_T)(FMC_BASE + 0x0054)) /* Hamming Syndrome2 */ #define FMSYND3 (*(REG32_PTR_T)(FMC_BASE + 0x0058)) /* Hamming Syndrome3 */ #define FMSYND4 (*(REG32_PTR_T)(FMC_BASE + 0x005C)) /* Hamming Syndrome4 */ #define FMSYND5 (*(REG32_PTR_T)(FMC_BASE + 0x0060)) /* Hamming Syndrome5 */ #define FMSYND6 (*(REG32_PTR_T)(FMC_BASE + 0x0064)) /* Hamming Syndrome6 */ #define FMSYND7 (*(REG32_PTR_T)(FMC_BASE + 0x0068)) /* Hamming Syndrome7 */ #define FMFIFO (*(REG32_PTR_T)(FMC_BASE + 0x0080)) /* WRITE/READ FIFO FIXME */ #define RSCRTL (*(REG32_PTR_T)(FMC_BASE + 0x0100)) /* Reed-Solomon Control Register */ #define RSPARITY0_0 (*(REG32_PTR_T)(FMC_BASE + 0x0110)) /* On-the-fly Parity Register0[31:0] */ #define RSPARITY0_1 (*(REG32_PTR_T)(FMC_BASE + 0x0114)) /* On-the-fly Parity Register0[63:32] */ #define RSPARITY0_2 (*(REG32_PTR_T)(FMC_BASE + 0x0118)) /* On-the-fly Parity Register0[71:64] */ #define RSPARITY1_0 (*(REG32_PTR_T)(FMC_BASE + 0x0120)) /* On-the-fly Parity Register1[31:0] */ #define RSPARITY1_1 (*(REG32_PTR_T)(FMC_BASE + 0x0124)) /* On-the-fly Parity Register1[63:32] */ #define RSPARITY1_2 (*(REG32_PTR_T)(FMC_BASE + 0x0128)) /* On-the-fly Parity Register1[71:64] */ #define RSPARITY2_0 (*(REG32_PTR_T)(FMC_BASE + 0x0130)) /* On-the-fly Parity Register2[31:0] */ #define RSPARITY2_1 (*(REG32_PTR_T)(FMC_BASE + 0x0134)) /* On-the-fly Parity Register2[63:32] */ #define RSPARITY2_2 (*(REG32_PTR_T)(FMC_BASE + 0x0138)) /* On-the-fly Parity Register2[71:64] */ #define RSPARITY3_0 (*(REG32_PTR_T)(FMC_BASE + 0x0140)) /* On-the-fly Parity Register3[31:0] */ #define RSPARITY3_1 (*(REG32_PTR_T)(FMC_BASE + 0x0144)) /* On-the-fly Parity Register3[63:32] */ #define RSPARITY3_2 (*(REG32_PTR_T)(FMC_BASE + 0x0148)) /* On-the-fly Parity Register3[71:64] */ #define RSSYND0_0 (*(REG32_PTR_T)(FMC_BASE + 0x0150)) /* On-the-fly Synd Register0[31:0] */ #define RSSYND0_1 (*(REG32_PTR_T)(FMC_BASE + 0x0154)) /* On-the-fly Synd Register0[63:32] */ #define RSSYND0_2 (*(REG32_PTR_T)(FMC_BASE + 0x0158)) /* On-the-fly Synd Register0[71:64] */ #define RSSYND1_0 (*(REG32_PTR_T)(FMC_BASE + 0x0160)) /* On-the-fly Synd Register1[31:0] */ #define RSSYND1_1 (*(REG32_PTR_T)(FMC_BASE + 0x0164)) /* On-the-fly Synd Register1[63:32] */ #define RSSYND1_2 (*(REG32_PTR_T)(FMC_BASE + 0x0168)) /* On-the-fly Synd Register1[71:64] */ #define RSSYND2_0 (*(REG32_PTR_T)(FMC_BASE + 0x0170)) /* On-the-fly Synd Register2[31:0] */ #define RSSYND2_1 (*(REG32_PTR_T)(FMC_BASE + 0x0174)) /* On-the-fly Synd Register2[63:32] */ #define RSSYND2_2 (*(REG32_PTR_T)(FMC_BASE + 0x0178)) /* On-the-fly Synd Register2[71:64] */ #define RSSYND3_0 (*(REG32_PTR_T)(FMC_BASE + 0x0180)) /* On-the-fly Synd Register3[31:0] */ #define RSSYND3_1 (*(REG32_PTR_T)(FMC_BASE + 0x0184)) /* On-the-fly Synd Register3[63:32] */ #define RSSYND3_2 (*(REG32_PTR_T)(FMC_BASE + 0x0188)) /* On-the-fly Synd Register3[71:64] */ #define FLAGSYND (*(REG32_PTR_T)(FMC_BASE + 0x0190)) /* On-the-fly ECC Result Flag */ #define FMCTRL0_ENABLEDMA (1 << 10) #define FMCTRL0_UNK1 (1 << 11) #define FMCTRL1_DOTRANSADDR (1 << 0) #define FMCTRL1_DOREADDATA (1 << 1) #define FMCTRL1_DOWRITEDATA (1 << 2) #define FMCTRL1_CLEARWFIFO (1 << 6) #define FMCTRL1_CLEARRFIFO (1 << 7) #define FMCSTAT_RBBDONE (1 << 0) #define FMCSTAT_CMDDONE (1 << 1) #define FMCSTAT_ADDRDONE (1 << 2) #define FMCSTAT_TRANSDONE (1 << 3) #define FMCSTAT_BANK0READY (1 << 4) #define FMCSTAT_BANK1READY (1 << 5) #define FMCSTAT_BANK2READY (1 << 6) #define FMCSTAT_BANK3READY (1 << 7) /* 13. SECURE DIGITAL CARD INTERFACE (SDCI) */ #if CONFIG_CPU==S5L8700 || CONFIG_CPU==S5L8701 #define SDCI_BASE 0x3C300000 #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define SDCI_BASE 0x38b00000 #endif #define SDCI_CTRL (*(REG32_PTR_T)(SDCI_BASE)) /* Control Register */ #define SDCI_DCTRL (*(REG32_PTR_T)(SDCI_BASE + 0x04)) /* Data Control Register */ #define SDCI_CMD (*(REG32_PTR_T)(SDCI_BASE + 0x08)) /* Command Register */ #define SDCI_ARGU (*(REG32_PTR_T)(SDCI_BASE + 0x0C)) /* Argument Register */ #define SDCI_STATE (*(REG32_PTR_T)(SDCI_BASE + 0x10)) /* State Register */ #define SDCI_STAC (*(REG32_PTR_T)(SDCI_BASE + 0x14)) /* Status Clear Register */ #define SDCI_DSTA (*(REG32_PTR_T)(SDCI_BASE + 0x18)) /* Data Status Register */ #define SDCI_FSTA (*(REG32_PTR_T)(SDCI_BASE + 0x1C)) /* FIFO Status Register */ #define SDCI_RESP0 (*(REG32_PTR_T)(SDCI_BASE + 0x20)) /* Response0 Register */ #define SDCI_RESP1 (*(REG32_PTR_T)(SDCI_BASE + 0x24)) /* Response1 Register */ #define SDCI_RESP2 (*(REG32_PTR_T)(SDCI_BASE + 0x28)) /* Response2 Register */ #define SDCI_RESP3 (*(REG32_PTR_T)(SDCI_BASE + 0x2C)) /* Response3 Register */ #define SDCI_CLKDIV (*(REG32_PTR_T)(SDCI_BASE + 0x30)) /* Clock Divider Register */ #define SDIO_CSR (*(REG32_PTR_T)(SDCI_BASE + 0x34)) /* SDIO Control & Status Register */ #define SDCI_IRQ (*(REG32_PTR_T)(SDCI_BASE + 0x38)) /* Interrupt Source Register */ #define SDCI_IRQ_MASK (*(REG32_PTR_T)(SDCI_BASE + 0x3c)) #if CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define SDCI_DATA (*(REG32_PTR_T)(SDCI_BASE + 0x40)) #define SDCI_DMAADDR (*(VOID_PTR_PTR_T)(SDCI_BASE + 0x44)) #define SDCI_DMASIZE (*(REG32_PTR_T)(SDCI_BASE + 0x48)) #define SDCI_DMACOUNT (*(REG32_PTR_T)(SDCI_BASE + 0x4c)) #define SDCI_RESET (*(REG32_PTR_T)(SDCI_BASE + 0x6c)) #endif #define SDCI_CTRL_SDCIEN BIT(0) #define SDCI_CTRL_CARD_TYPE_MASK BIT(1) #define SDCI_CTRL_CARD_TYPE_SD 0 #define SDCI_CTRL_CARD_TYPE_MMC BIT(1) #define SDCI_CTRL_BUS_WIDTH_MASK BITRANGE(2, 3) #define SDCI_CTRL_BUS_WIDTH_1BIT 0 #define SDCI_CTRL_BUS_WIDTH_4BIT BIT(2) #define SDCI_CTRL_BUS_WIDTH_8BIT BIT(3) #define SDCI_CTRL_DMA_EN BIT(4) #define SDCI_CTRL_L_ENDIAN BIT(5) #define SDCI_CTRL_DMA_REQ_CON_MASK BIT(6) #define SDCI_CTRL_DMA_REQ_CON_NEMPTY 0 #define SDCI_CTRL_DMA_REQ_CON_FULL BIT(6) #define SDCI_CTRL_CLK_SEL_MASK BIT(7) #define SDCI_CTRL_CLK_SEL_PCLK 0 #define SDCI_CTRL_CLK_SEL_SDCLK BIT(7) #define SDCI_CTRL_BIT_8 BIT(8) #define SDCI_CTRL_BIT_14 BIT(14) #define SDCI_DCTRL_TXFIFORST BIT(0) #define SDCI_DCTRL_RXFIFORST BIT(1) #define SDCI_DCTRL_TRCONT_MASK BITRANGE(4, 5) #define SDCI_DCTRL_TRCONT_TX BIT(4) #define SDCI_DCTRL_BUS_TEST_MASK BITRANGE(6, 7) #define SDCI_DCTRL_BUS_TEST_TX BIT(6) #define SDCI_DCTRL_BUS_TEST_RX BIT(7) #define SDCI_CDIV_CLKDIV_MASK BITRANGE(0, 7) #define SDCI_CDIV_CLKDIV(x) ((x) >> 1) #define SDCI_CDIV_CLKDIV_2 BIT(0) #define SDCI_CDIV_CLKDIV_4 BIT(1) #define SDCI_CDIV_CLKDIV_8 BIT(2) #define SDCI_CDIV_CLKDIV_16 BIT(3) #define SDCI_CDIV_CLKDIV_32 BIT(4) #define SDCI_CDIV_CLKDIV_64 BIT(5) #define SDCI_CDIV_CLKDIV_128 BIT(6) #define SDCI_CDIV_CLKDIV_256 BIT(7) #define SDCI_CMD_CMD_NUM_MASK BITRANGE(0, 5) #define SDCI_CMD_CMD_NUM_SHIFT 0 #define SDCI_CMD_CMD_NUM(x) (x) #define SDCI_CMD_CMD_TYPE_MASK BITRANGE(6, 7) #define SDCI_CMD_CMD_TYPE_BC 0 #define SDCI_CMD_CMD_TYPE_BCR BIT(6) #define SDCI_CMD_CMD_TYPE_AC BIT(7) #define SDCI_CMD_CMD_TYPE_ADTC (BIT(6) | BIT(7)) #define SDCI_CMD_CMD_RD_WR BIT(8) #define SDCI_CMD_RES_TYPE_MASK BITRANGE(16, 18) #define SDCI_CMD_RES_TYPE_NONE 0 #define SDCI_CMD_RES_TYPE_R1 BIT(16) #define SDCI_CMD_RES_TYPE_R2 BIT(17) #define SDCI_CMD_RES_TYPE_R3 (BIT(16) | BIT(17)) #define SDCI_CMD_RES_TYPE_R4 BIT(18) #define SDCI_CMD_RES_TYPE_R5 (BIT(16) | BIT(18)) #define SDCI_CMD_RES_TYPE_R6 (BIT(17) | BIT(18)) #define SDCI_CMD_RES_BUSY BIT(19) #define SDCI_CMD_RES_SIZE_MASK BIT(20) #define SDCI_CMD_RES_SIZE_48 0 #define SDCI_CMD_RES_SIZE_136 BIT(20) #define SDCI_CMD_NCR_NID_MASK BIT(21) #define SDCI_CMD_NCR_NID_NCR 0 #define SDCI_CMD_NCR_NID_NID BIT(21) #define SDCI_CMD_CMDSTR BIT(31) #define SDCI_STATE_DAT_STATE_MASK BITRANGE(0, 3) #define SDCI_STATE_DAT_STATE_IDLE 0 #define SDCI_STATE_DAT_STATE_DAT_RCV BIT(0) #define SDCI_STATE_DAT_STATE_CRC_RCV BIT(1) #define SDCI_STATE_DAT_STATE_DAT_END (BIT(0) | BIT(1)) #define SDCI_STATE_DAT_STATE_DAT_SET BIT(2) #define SDCI_STATE_DAT_STATE_DAT_OUT (BIT(0) | BIT(2)) #define SDCI_STATE_DAT_STATE_CRC_TIME (BIT(1) | BIT(2)) #define SDCI_STATE_DAT_STATE_CRC_OUT (BIT(0) | BIT(1) | BIT(2)) #define SDCI_STATE_DAT_STATE_ENDB_OUT BIT(3) #define SDCI_STATE_DAT_STATE_ENDB_STOD (BIT(0) | BIT(3)) #define SDCI_STATE_DAT_STATE_DAT_CRCR (BIT(1) | BIT(3)) #define SDCI_STATE_DAT_STATE_CARD_PRG (BIT(0) | BIT(1) | BIT(3)) #define SDCI_STATE_DAT_STATE_DAT_BUSY (BIT(2) | BIT(3)) #define SDCI_STATE_CMD_STATE_MASK (BIT(4) | BIT(5) | BIT(6)) #define SDCI_STATE_CMD_STATE_CMD_IDLE 0 #define SDCI_STATE_CMD_STATE_CMD_CMDO BIT(4) #define SDCI_STATE_CMD_STATE_CMD_CRCO BIT(5) #define SDCI_STATE_CMD_STATE_CMD_TOUT (BIT(4) | BIT(5)) #define SDCI_STATE_CMD_STATE_CMD_RESR BIT(6) #define SDCI_STATE_CMD_STATE_CMD_INTV (BIT(4) | BIT(6)) #define SDCI_STAC_CLR_CMDEND BIT(2) #define SDCI_STAC_CLR_BIT_3 BIT(3) #define SDCI_STAC_CLR_RESEND BIT(4) #define SDCI_STAC_CLR_DATEND BIT(6) #define SDCI_STAC_CLR_DAT_CRCEND BIT(7) #define SDCI_STAC_CLR_CRC_STAEND BIT(8) #define SDCI_STAC_CLR_RESTOUTE BIT(15) #define SDCI_STAC_CLR_RESENDE BIT(16) #define SDCI_STAC_CLR_RESINDE BIT(17) #define SDCI_STAC_CLR_RESCRCE BIT(18) #define SDCI_STAC_CLR_WR_DATCRCE BIT(22) #define SDCI_STAC_CLR_RD_DATCRCE BIT(23) #define SDCI_STAC_CLR_RD_DATENDE0 BIT(24) #define SDCI_STAC_CLR_RD_DATENDE1 BIT(25) #define SDCI_STAC_CLR_RD_DATENDE2 BIT(26) #define SDCI_STAC_CLR_RD_DATENDE3 BIT(27) #define SDCI_STAC_CLR_RD_DATENDE4 BIT(28) #define SDCI_STAC_CLR_RD_DATENDE5 BIT(29) #define SDCI_STAC_CLR_RD_DATENDE6 BIT(30) #define SDCI_STAC_CLR_RD_DATENDE7 BIT(31) #define SDCI_DSTA_CMDRDY BIT(0) #define SDCI_DSTA_CMDPRO BIT(1) #define SDCI_DSTA_CMDEND BIT(2) #define SDCI_DSTA_RESPRO BIT(3) #define SDCI_DSTA_RESEND BIT(4) #define SDCI_DSTA_DATPRO BIT(5) #define SDCI_DSTA_DATEND BIT(6) #define SDCI_DSTA_DAT_CRCEND BIT(7) #define SDCI_DSTA_CRC_STAEND BIT(8) #define SDCI_DSTA_DAT_BUSY BIT(9) #define SDCI_DSTA_SDCLK_HOLD BIT(12) #define SDCI_DSTA_DAT0_STATUS BIT(13) #define SDCI_DSTA_WP_DECT_INPUT BIT(14) #define SDCI_DSTA_RESTOUTE BIT(15) #define SDCI_DSTA_RESENDE BIT(16) #define SDCI_DSTA_RESINDE BIT(17) #define SDCI_DSTA_RESCRCE BIT(18) #define SDCI_DSTA_WR_CRC_STATUS_MASK BITRANGE(19, 21) #define SDCI_DSTA_WR_CRC_STATUS_OK BIT(20) #define SDCI_DSTA_WR_CRC_STATUS_TXERR (BIT(19) | BIT(21)) #define SDCI_DSTA_WR_CRC_STATUS_CARDERR (BIT(19) | BIT(20) | BIT(21)) #define SDCI_DSTA_WR_DATCRCE BIT(22) #define SDCI_DSTA_RD_DATCRCE BIT(23) #define SDCI_DSTA_RD_DATENDE0 BIT(24) #define SDCI_DSTA_RD_DATENDE1 BIT(25) #define SDCI_DSTA_RD_DATENDE2 BIT(26) #define SDCI_DSTA_RD_DATENDE3 BIT(27) #define SDCI_DSTA_RD_DATENDE4 BIT(28) #define SDCI_DSTA_RD_DATENDE5 BIT(29) #define SDCI_DSTA_RD_DATENDE6 BIT(30) #define SDCI_DSTA_RD_DATENDE7 BIT(31) #define SDCI_FSTA_RX_FIFO_EMPTY BIT(0) #define SDCI_FSTA_RX_FIFO_FULL BIT(1) #define SDCI_FSTA_TX_FIFO_EMPTY BIT(2) #define SDCI_FSTA_TX_FIFO_FULL BIT(3) #define SDCI_SDIO_CSR_SDIO_RW_EN BIT(0) #define SDCI_SDIO_CSR_SDIO_INT_EN BIT(1) #define SDCI_SDIO_CSR_SDIO_RW_REQ BIT(2) #define SDCI_SDIO_CSR_SDIO_RW_STOP BIT(3) #define SDCI_SDIO_CSR_SDIO_INT_PERIOD_MASK BIT(4) #define SDCI_SDIO_CSR_SDIO_INT_PERIOD_MORE 0 #define SDCI_SDIO_CSR_SDIO_INT_PERIOD_XACT BIT(4) #define SDCI_IRQ_DAT_DONE_INT BIT(0) #define SDCI_IRQ_IOCARD_IRQ_INT BIT(1) #define SDCI_IRQ_READ_WAIT_INT BIT(2) #define SDCI_IRQ_MASK_MASK_DAT_DONE_INT BIT(0) #define SDCI_IRQ_MASK_MASK_IOCARD_IRQ_INT BIT(1) #define SDCI_IRQ_MASK_MASK_READ_WAIT_INT BIT(2) /* 14. MEMORY STICK HOST CONTROLLER */ #define MS_BASE 0x3C600000 #define MS_CMD_BASE (MS_BASE + 0x1000) #define MSPRE (*(REG32_PTR_T)(MS_BASE)) /* Prescaler Register */ #define MSINTEN (*(REG32_PTR_T)(MS_BASE + 0x04)) /* Interrupt Enable Register */ #define MSCMD (*(REG32_PTR_T)(MS_CMD_BASE)) /* Command Register */ #define MSFIFO (*(REG32_PTR_T)(MS_CMD_BASE + 0x08)) /* Receive/Transmit Register */ #define MSPP (*(REG32_PTR_T)(MS_CMD_BASE + 0x10)) /* Parallel Port Control/Data Register */ #define MSCTRL2 (*(REG32_PTR_T)(MS_CMD_BASE + 0x14)) /* Control Register 2 */ #define MSACD (*(REG32_PTR_T)(MS_CMD_BASE + 0x18)) /* ACD Command Register */ /* 15. SPDIF TRANSMITTER (SPDIFOUT) */ #define SPD_BASE 0x3CB00000 #define SPDCLKCON (*(REG32_PTR_T)(SPD_BASE)) /* Clock Control Register */ #define SPDCON (*(REG32_PTR_T)(SPD_BASE + 0x04)) /* Control Register 0020 */ #define SPDBSTAS (*(REG32_PTR_T)(SPD_BASE + 0x08)) /* Burst Status Register */ #define SPDCSTAS (*(REG32_PTR_T)(SPD_BASE + 0x0C)) /* Channel Status Register 0x2000 8000 */ #define SPDDAT (*(REG32_PTR_T)(SPD_BASE + 0x10)) /* SPDIFOUT Data Buffer */ #define SPDCNT (*(REG32_PTR_T)(SPD_BASE + 0x14)) /* Repetition Count Register */ /* 16. REED-SOLOMON ECC CODEC */ #define ECC_BASE 0x39E00000 #define ECC_DATA_PTR (*(REG32_PTR_T)(ECC_BASE + 0x04)) /* Data Area Start Pointer */ #define ECC_SPARE_PTR (*(REG32_PTR_T)(ECC_BASE + 0x08)) /* Spare Area Start Pointer */ #define ECC_CTRL (*(REG32_PTR_T)(ECC_BASE + 0x0C)) /* ECC Control Register */ #define ECC_RESULT (*(REG32_PTR_T)(ECC_BASE + 0x10)) /* ECC Result */ #define ECC_UNK1 (*(REG32_PTR_T)(ECC_BASE + 0x14)) /* No idea what this is, but the OFW uses it on S5L8701 */ #define ECC_EVAL0 (*(REG32_PTR_T)(ECC_BASE + 0x20)) /* Error Eval0 Poly */ #define ECC_EVAL1 (*(REG32_PTR_T)(ECC_BASE + 0x24)) /* Error Eval1 Poly */ #define ECC_LOC0 (*(REG32_PTR_T)(ECC_BASE + 0x28)) /* Error Loc0 Poly */ #define ECC_LOC1 (*(REG32_PTR_T)(ECC_BASE + 0x2C)) /* Error Loc1 Poly */ #define ECC_PARITY0 (*(REG32_PTR_T)(ECC_BASE + 0x30)) /* Encode Parity0 Poly */ #define ECC_PARITY1 (*(REG32_PTR_T)(ECC_BASE + 0x34)) /* Encode Pariyt1 Poly */ #define ECC_PARITY2 (*(REG32_PTR_T)(ECC_BASE + 0x38)) /* Encode Parity2 Poly */ #define ECC_INT_CLR (*(REG32_PTR_T)(ECC_BASE + 0x40)) /* Interrupt Clear Register */ #define ECC_SYND0 (*(REG32_PTR_T)(ECC_BASE + 0x44)) /* Syndrom0 Poly */ #define ECC_SYND1 (*(REG32_PTR_T)(ECC_BASE + 0x48)) /* Syndrom1 Poly */ #define ECC_SYND2 (*(REG32_PTR_T)(ECC_BASE + 0x4C)) /* Syndrom2 Poly */ #define ECCCTRL_STARTDECODING (1 << 0) #define ECCCTRL_STARTENCODING (1 << 1) #define ECCCTRL_STARTDECNOSYND (1 << 2) /* 17. IIS Tx/Rx INTERFACE */ #define I2S_BASE 0x3CA00000 #define I2S_INTERFACE1_OFFSET 0x300000 #define I2S_INTERFACE2_OFFSET 0xA00000 #define I2SCLKCON (*(REG32_PTR_T)(I2S_BASE)) /* Clock Control Register */ #define I2STXCON (*(REG32_PTR_T)(I2S_BASE + 0x04)) /* Tx configuration Register */ #define I2STXCOM (*(REG32_PTR_T)(I2S_BASE + 0x08)) /* Tx command Register */ #define I2STXDB0 (*(REG32_PTR_T)(I2S_BASE + 0x10)) /* Tx data buffer */ #define I2SRXCON (*(REG32_PTR_T)(I2S_BASE + 0x30)) /* Rx configuration Register */ #define I2SRXCOM (*(REG32_PTR_T)(I2S_BASE + 0x34)) /* Rx command Register */ #define I2SRXDB (*(REG32_PTR_T)(I2S_BASE + 0x38)) /* Rx data buffer */ #define I2SSTATUS (*(REG32_PTR_T)(I2S_BASE + 0x3C)) /* status register */ #if CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define I2SCLKDIV (*(REG32_PTR_T)(I2S_BASE + 0x40)) #define I2SCLKGATE(i) ((i) == 2 ? CLOCKGATE_I2S2 : \ (i) == 1 ? CLOCKGATE_I2S1 : \ CLOCKGATE_I2S0) #endif /* 18. IIC BUS INTERFACE */ #if CONFIG_CPU==S5L8700 || CONFIG_CPU==S5L8701 #define IIC_BASE 0x3C900000 #define IICCON (*(REG32_PTR_T)(IIC_BASE)) /* Control Register */ #define IICSTAT (*(REG32_PTR_T)(IIC_BASE + 0x04)) /* Control/Status Register */ #define IICADD (*(REG32_PTR_T)(IIC_BASE + 0x08)) /* Bus Address Register */ #define IICDS (*(REG32_PTR_T)(IIC_BASE + 0x0C)) #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 /* * s5l8702 I2C controller is similar to s5l8700, known differences are: * * - IICCON[5] is not used in s5l8702. * - IICCON[13:8] are used to enable interrupts. * IICSTA2[13:8] are used to read the status and write-clear interrupts. * Known interrupts: * [13] STOP on bus (TBC) * [12] START on bus (TBC) * [8] byte transmited or received in Master mode (not tested in Slave) * - IICCON[4] does not clear interrupts, it is enabled when a byte is * transmited or received, in Master mode the tx/rx of the next byte * starts when it is written as "1". */ #define IIC_BASE 0x3C600000 #define IICCON(bus) (*((REG32_PTR_T)(IIC_BASE + 0x300000 * (bus)))) #define IICSTAT(bus) (*((REG32_PTR_T)(IIC_BASE + 0x04 + 0x300000 * (bus)))) #define IICADD(bus) (*((REG32_PTR_T)(IIC_BASE + 0x08 + 0x300000 * (bus)))) #define IICDS(bus) (*((REG32_PTR_T)(IIC_BASE + 0x0C + 0x300000 * (bus)))) #define IICUNK10(bus) (*((REG32_PTR_T)(IIC_BASE + 0x10 + 0x300000 * (bus)))) #define IICUNK14(bus) (*((REG32_PTR_T)(IIC_BASE + 0x14 + 0x300000 * (bus)))) #define IICUNK18(bus) (*((REG32_PTR_T)(IIC_BASE + 0x18 + 0x300000 * (bus)))) #define IICSTA2(bus) (*((REG32_PTR_T)(IIC_BASE + 0x20 + 0x300000 * (bus)))) #define I2CCLKGATE(i) ((i) == 1 ? CLOCKGATE_I2C1 : \ CLOCKGATE_I2C0) #endif #if CONFIG_CPU == S5L8720 #define I2CCLKGATE_2(i) ((i) == 1 ? CLOCKGATE_I2C1_2 : \ CLOCKGATE_I2C0_2) #endif /* 19. SPI (SERIAL PERHIPERAL INTERFACE) */ #if CONFIG_CPU==S5L8700 || CONFIG_CPU==S5L8701 #define SPI_BASE 0x3CD00000 #define SPCLKCON (*(REG32_PTR_T)(SPI_BASE)) /* Clock Control Register */ #define SPCON (*(REG32_PTR_T)(SPI_BASE + 0x04)) /* Control Register */ #define SPSTA (*(REG32_PTR_T)(SPI_BASE + 0x08)) /* Status Register */ #define SPPIN (*(REG32_PTR_T)(SPI_BASE + 0x0C)) /* Pin Control Register */ #define SPTDAT (*(REG32_PTR_T)(SPI_BASE + 0x10)) /* Tx Data Register */ #define SPRDAT (*(REG32_PTR_T)(SPI_BASE + 0x14)) /* Rx Data Register */ #define SPPRE (*(REG32_PTR_T)(SPI_BASE + 0x18)) /* Baud Rate Prescaler Register */ #elif CONFIG_CPU==S5L8702 || CONFIG_CPU == S5L8720 #define SPIBASE(i) ((i) == 2 ? 0x3d200000 : \ (i) == 1 ? 0x3ce00000 : \ 0x3c300000) #define SPICLKGATE(i) ((i) == 2 ? CLOCKGATE_SPI2 : \ (i) == 1 ? CLOCKGATE_SPI1 : \ CLOCKGATE_SPI0) #define SPIDMA(i) ((i) == 2 ? 0xd : \ (i) == 1 ? 0xf : \ 0x5) #define SPICTRL(i) (*((REG32_PTR_T)(SPIBASE(i)))) #define SPISETUP(i) (*((REG32_PTR_T)(SPIBASE(i) + 0x4))) #define SPISTATUS(i) (*((REG32_PTR_T)(SPIBASE(i) + 0x8))) #define SPIPIN(i) (*((REG32_PTR_T)(SPIBASE(i) + 0xc))) #define SPITXDATA(i) (*((REG32_PTR_T)(SPIBASE(i) + 0x10))) #define SPIRXDATA(i) (*((REG32_PTR_T)(SPIBASE(i) + 0x20))) #define SPICLKDIV(i) (*((REG32_PTR_T)(SPIBASE(i) + 0x30))) #define SPIRXLIMIT(i) (*((REG32_PTR_T)(SPIBASE(i) + 0x34))) #define SPIDD(i) (*((REG32_PTR_T)(SPIBASE(i) + 0x38))) /* TBC */ #endif #if CONFIG_CPU == S5L8720 #define SPIUNK3C(i) (*((REG32_PTR_T)(SPIBASE(i) + 0x3c))) #define SPIUNK40(i) (*((REG32_PTR_T)(SPIBASE(i) + 0x40))) #define SPIUNK4C(i) (*((REG32_PTR_T)(SPIBASE(i) + 0x4c))) #define SPICLKGATE_2(i) ((i) == 2 ? CLOCKGATE_SPI2_2 : \ (i) == 1 ? CLOCKGATE_SPI1_2 : \ CLOCKGATE_SPI0_2) #endif /* 20. ADC CONTROLLER */ #define ADC_BASE 0x3CE00000 #define ADCCON (*(REG32_PTR_T)(ADC_BASE)) /* ADC Control Register */ #define ADCTSC (*(REG32_PTR_T)(ADC_BASE + 0x04)) /* ADC Touch Screen Control Register */ #define ADCDLY (*(REG32_PTR_T)(ADC_BASE + 0x08)) /* ADC Start or Interval Delay Register */ #define ADCDAT0 (*(REG32_PTR_T)(ADC_BASE + 0x0C)) /* ADC Conversion Data Register */ #define ADCDAT1 (*(REG32_PTR_T)(ADC_BASE + 0x10)) /* ADC Conversion Data Register */ #define ADCUPDN (*(REG32_PTR_T)(ADC_BASE + 0x14)) /* Stylus Up or Down Interrpt Register */ /* 21. USB 2.0 FUNCTION CONTROLER SPECIAL REGISTER */ #define USB_FC_BASE 0x38800000 #define USB_IR (*(REG32_PTR_T)(USB_FC_BASE)) /* Index Register */ #define USB_EIR (*(REG32_PTR_T)(USB_FC_BASE + 0x04)) /* Endpoint Interrupt Register */ #define USB_EIER (*(REG32_PTR_T)(USB_FC_BASE + 0x08)) /* Endpoint Interrupt Enable Register */ #define USB_FAR (*(REG32_PTR_T)(USB_FC_BASE + 0x0C)) /* Function Address Register */ #define USB_FNR (*(REG32_PTR_T)(USB_FC_BASE + 0x10)) /* Frame Number Register */ #define USB_EDR (*(REG32_PTR_T)(USB_FC_BASE + 0x14)) /* Endpoint Direction Register */ #define USB_TR (*(REG32_PTR_T)(USB_FC_BASE + 0x18)) /* Test Register */ #define USB_SSR (*(REG32_PTR_T)(USB_FC_BASE + 0x1C)) /* System Status Register */ #define USB_SCR (*(REG32_PTR_T)(USB_FC_BASE + 0x20)) /* System Control Register */ #define USB_EP0SR (*(REG32_PTR_T)(USB_FC_BASE + 0x24)) /* EP0 Status Register */ #define USB_EP0CR (*(REG32_PTR_T)(USB_FC_BASE + 0x28)) /* EP0 Control Register */ #define USB_ESR (*(REG32_PTR_T)(USB_FC_BASE + 0x2C)) /* Endpoints Status Register */ #define USB_ECR (*(REG32_PTR_T)(USB_FC_BASE + 0x30)) /* Endpoints Control Register */ #define USB_BRCR (*(REG32_PTR_T)(USB_FC_BASE + 0x34)) /* Byte Read Count Register */ #define USB_BWCR (*(REG32_PTR_T)(USB_FC_BASE + 0x38)) /* Byte Write Count Register */ #define USB_MPR (*(REG32_PTR_T)(USB_FC_BASE + 0x3C)) /* Max Packet Register */ #define USB_MCR (*(REG32_PTR_T)(USB_FC_BASE + 0x40)) /* Master Control Register */ #define USB_MTCR (*(REG32_PTR_T)(USB_FC_BASE + 0x44)) /* Master Transfer Counter Register */ #define USB_MFCR (*(REG32_PTR_T)(USB_FC_BASE + 0x48)) /* Master FIFO Counter Register */ #define USB_MTTCR1 (*(REG32_PTR_T)(USB_FC_BASE + 0x4C)) /* Master Total Transfer Counter1 Register */ #define USB_MTTCR2 (*(REG32_PTR_T)(USB_FC_BASE + 0x50)) /* Master Total Transfer Counter2 Register */ #define USB_EP0BR (*(REG32_PTR_T)(USB_FC_BASE + 0x60)) /* EP0 Buffer Register */ #define USB_EP1BR (*(REG32_PTR_T)(USB_FC_BASE + 0x64)) /* EP1 Buffer Register */ #define USB_EP2BR (*(REG32_PTR_T)(USB_FC_BASE + 0x68)) /* EP2 Buffer Register */ #define USB_EP3BR (*(REG32_PTR_T)(USB_FC_BASE + 0x6C)) /* EP3 Buffer Register */ #define USB_EP4BR (*(REG32_PTR_T)(USB_FC_BASE + 0x70)) /* EP4 Buffer Register */ #define USB_EP5BR (*(REG32_PTR_T)(USB_FC_BASE + 0x74)) /* EP5 Buffer Register */ #define USB_EP6BR (*(REG32_PTR_T)(USB_FC_BASE + 0x78)) /* EP6 Buffer Register */ #define USB_MICR (*(REG32_PTR_T)(USB_FC_BASE + 0x84)) /* Master Interface Counter Register */ #define USB_MBAR1 (*(REG32_PTR_T)(USB_FC_BASE + 0x88)) /* Memory Base Address Register1 */ #define USB_MBAR2 (*(REG32_PTR_T)(USB_FC_BASE + 0x8C)) /* Memory Base Address Register2 */ #define USB_MCAR1 (*(REG32_PTR_T)(USB_FC_BASE + 0x94)) /* Memory Current Address Register1 */ #define USB_MCAR2 (*(REG32_PTR_T)(USB_FC_BASE + 0x98)) /* Memory Current Address Register2 */ /* 22. USB 1.1 HOST CONTROLLER SPECIAL REGISTER */ #define USB_HC_BASE 0x38600000 #define HcRevision (*(REG32_PTR_T)(USB_HC_BASE)) #define HcControl (*(REG32_PTR_T)(USB_HC_BASE + 0x04)) #define HcCommandStatus (*(REG32_PTR_T)(USB_HC_BASE + 0x08)) #define HcInterruptStatus (*(REG32_PTR_T)(USB_HC_BASE + 0x0C)) #define HcInterruptEnable (*(REG32_PTR_T)(USB_HC_BASE + 0x10)) #define HcInterruptDisable (*(REG32_PTR_T)(USB_HC_BASE + 0x14)) #define HcHCCA (*(REG32_PTR_T)(USB_HC_BASE + 0x18)) #define HcPeriodCurrentED (*(REG32_PTR_T)(USB_HC_BASE + 0x1C)) #define HcControlHeadED (*(REG32_PTR_T)(USB_HC_BASE + 0x20)) #define HcControlCurrentED (*(REG32_PTR_T)(USB_HC_BASE + 0x24)) #define HcBulkHeadED (*(REG32_PTR_T)(USB_HC_BASE + 0x28)) #define HcBulkCurrentED (*(REG32_PTR_T)(USB_HC_BASE + 0x2C)) #define HcDoneHead (*(REG32_PTR_T)(USB_HC_BASE + 0x30)) #define HcFmInterval (*(REG32_PTR_T)(USB_HC_BASE + 0x34)) #define HcFmRemaining (*(REG32_PTR_T)(USB_HC_BASE + 0x38)) #define HcFmNumber (*(REG32_PTR_T)(USB_HC_BASE + 0x3C)) #define HcPeriodicStart (*(REG32_PTR_T)(USB_HC_BASE + 0x40)) #define HcLSThreshold (*(REG32_PTR_T)(USB_HC_BASE + 0x44)) #define HcRhDescriptorA (*(REG32_PTR_T)(USB_HC_BASE + 0x48)) #define HcRhDescriptorB (*(REG32_PTR_T)(USB_HC_BASE + 0x4C)) #define HcRhStatus (*(REG32_PTR_T)(USB_HC_BASE + 0x50)) #define HcRhPortStatus (*(REG32_PTR_T)(USB_HC_BASE + 0x54)) /* 23. USB 2.0 PHY CONTROL */ #define USB_PHY_BASE 0x3C400000 #define PHYCTRL (*(REG32_PTR_T)(USB_PHY_BASE)) /* USB2.0 PHY Control Register */ #define PHYPWR (*(REG32_PTR_T)(USB_PHY_BASE + 0x04)) /* USB2.0 PHY Power Control Register */ #define URSTCON (*(REG32_PTR_T)(USB_PHY_BASE + 0x08)) /* USB Reset Control Register */ #define UCLKCON (*(REG32_PTR_T)(USB_PHY_BASE + 0x10)) /* USB Clock Control Register */ /* 24. GPIO PORT CONTROL */ #define GPIO_BASE 0x3CF00000 #if CONFIG_CPU==S5L8700 || CONFIG_CPU==S5L8701 #define GPIO_OFFSET_BITS 4 #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define GPIO_OFFSET_BITS 5 #endif #define PCON(i) (*((REG32_PTR_T)(GPIO_BASE + ((i) << GPIO_OFFSET_BITS)))) #define PDAT(i) (*((REG32_PTR_T)(GPIO_BASE + 0x04 + ((i) << GPIO_OFFSET_BITS)))) #define PUNA(i) (*((REG32_PTR_T)(GPIO_BASE + 0x08 + ((i) << GPIO_OFFSET_BITS)))) #define PUNB(i) (*((REG32_PTR_T)(GPIO_BASE + 0x0c + ((i) << GPIO_OFFSET_BITS)))) #if CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define PUNC(i) (*((REG32_PTR_T)(GPIO_BASE + 0x10 + ((i) << GPIO_OFFSET_BITS)))) #endif #define PCON0 PCON(0) /* Configures the pins of port 0 */ #define PDAT0 PDAT(0) /* The data register for port 0 */ #define PCON1 PCON(1) /* Configures the pins of port 1 */ #define PDAT1 PDAT(1) /* The data register for port 1 */ #define PCON2 PCON(2) /* Configures the pins of port 2 */ #define PDAT2 PDAT(2) /* The data register for port 2 */ #define PCON3 PCON(3) /* Configures the pins of port 3 */ #define PDAT3 PDAT(3) /* The data register for port 3 */ #define PCON4 PCON(4) /* Configures the pins of port 4 */ #define PDAT4 PDAT(4) /* The data register for port 4 */ #define PCON5 PCON(5) /* Configures the pins of port 5 */ #define PDAT5 PDAT(5) /* The data register for port 5 */ #define PUNK5 PUNB(5) /* Unknown thing for port 5 */ #define PCON6 PCON(6) /* Configures the pins of port 6 */ #define PDAT6 PDAT(6) /* The data register for port 6 */ #define PCON7 PCON(7) /* Configures the pins of port 7 */ #define PDAT7 PDAT(7) /* The data register for port 7 */ #define PUNK8 PUNB(8) /* Unknown thing for port 8 */ #define PCON10 PCON(10) /* Configures the pins of port 10 */ #define PDAT10 PDAT(10) /* The data register for port 10 */ #define PCON11 PCON(11) /* Configures the pins of port 11 */ #define PDAT11 PDAT(11) /* The data register for port 11 */ #define PCON12 PCON(12) /* Configures the pins of port 12 */ #define PDAT12 PDAT(12) /* The data register for port 12 */ #define PCON13 PCON(13) /* Configures the pins of port 13 */ #define PDAT13 PDAT(13) /* The data register for port 13 */ #define PCON14 PCON(14) /* Configures the pins of port 14 */ #define PDAT14 PDAT(14) /* The data register for port 14 */ #if CONFIG_CPU==S5L8700 || CONFIG_CPU==S5L8701 || CONFIG_CPU==S5L8702 #define PCON15 PCON(15) /* Configures the pins of port 15 */ #define PDAT15 PDAT(15) /* Configures the pins of port 15 */ #define PUNK15 PUNB(15) /* Unknown thing for port 15 */ #endif #if CONFIG_CPU==S5L8700 || CONFIG_CPU==S5L8701 #define PCON_ASRAM PCON15 /* Configures the pins of port nor flash */ #define PCON_SDRAM PDAT15 /* Configures the pins of port sdram */ #elif CONFIG_CPU==S5L8702 #define GPIO_N_GROUPS 16 #define GPIOCMD (*((REG32_PTR_T)(GPIO_BASE + 0x200))) #define GPIOUNK380 (*((REG32_PTR_T)(GPIO_BASE + 0x380))) #elif CONFIG_CPU==S5L8720 #define GPIO_N_GROUPS 15 #define GPIOCMD (*((REG32_PTR_T)(GPIO_BASE + 0x1e0))) #define GPIOUNK388 (*((REG32_PTR_T)(GPIO_BASE + 0x388))) #define GPIOUNK384 (*((REG32_PTR_T)(GPIO_BASE + 0x384))) #endif /* 25. UART */ #if CONFIG_CPU==S5L8700 /* s5l8700 UC87XX HW: 1 UARTC, 2 ports */ #define S5L8700_N_PORTS 2 #define UARTC_BASE_ADDR 0x3CC00000 #define UARTC_N_PORTS 2 #define UARTC_PORT_OFFSET 0x8000 #elif CONFIG_CPU==S5L8701 /* s5l8701 UC87XX HW: 3 UARTC, 1 port per UARTC */ #define S5L8701_N_UARTC 3 #define UARTC0_BASE_ADDR 0x3CC00000 #define UARTC0_N_PORTS 1 #define UARTC0_PORT_OFFSET 0x0 #define UARTC1_BASE_ADDR 0x3CC08000 #define UARTC1_N_PORTS 1 #define UARTC1_PORT_OFFSET 0x0 #define UARTC2_BASE_ADDR 0x3CC0C000 #define UARTC2_N_PORTS 1 #define UARTC2_PORT_OFFSET 0x0 #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 /* s5l8702/s5l8720 UC87XX HW: 1 UARTC, 4 ports */ #define UARTC_BASE_ADDR 0x3CC00000 #define UARTC_N_PORTS 4 #define UARTC_PORT_OFFSET 0x4000 #if CONFIG_CPU == S5L8720 #define UARTC_DMA_BASE_ADDR 0x3DB00000 #define UARTC_DMA_PORT_OFFSET 0x100000 #endif #endif /* 26. LCD INTERFACE CONTROLLER */ #if CONFIG_CPU==S5L8700 #define LCD_BASE 0x3C100000 #elif CONFIG_CPU==S5L8701 #define LCD_BASE 0x38600000 #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define LCD_BASE 0x38300000 #endif #define LCD_CON (*(REG32_PTR_T)(LCD_BASE)) /* Control register. */ #define LCD_WCMD (*(REG32_PTR_T)(LCD_BASE + 0x04)) /* Write command register. */ #define LCD_RCMD (*(REG32_PTR_T)(LCD_BASE + 0x0C)) /* Read command register. */ #define LCD_RDATA (*(REG32_PTR_T)(LCD_BASE + 0x10)) /* Read data register. */ #define LCD_DBUFF (*(REG32_PTR_T)(LCD_BASE + 0x14)) /* Read Data buffer */ #define LCD_INTCON (*(REG32_PTR_T)(LCD_BASE + 0x18)) /* Interrupt control register */ #define LCD_STATUS (*(REG32_PTR_T)(LCD_BASE + 0x1C)) /* LCD Interface status 0106 */ #define LCD_PHTIME (*(REG32_PTR_T)(LCD_BASE + 0x20)) /* Phase time register 0060 */ #define LCD_RST_TIME (*(REG32_PTR_T)(LCD_BASE + 0x24)) /* Reset active period 07FF */ #define LCD_DRV_RST (*(REG32_PTR_T)(LCD_BASE + 0x28)) /* Reset drive signal */ #define LCD_WDATA (*(REG32_PTR_T)(LCD_BASE + 0x40)) /* Write data register (0x40...0x5C) FIXME */ /* 27. CLCD CONTROLLER */ #define LCDBASE 0x39200000 #define LCDCON1 (*(REG32_PTR_T)(LCDBASE)) /* LCD control 1 register */ #define LCDCON2 (*(REG32_PTR_T)(LCDBASE + 0x04)) /* LCD control 2 register */ #define LCDTCON1 (*(REG32_PTR_T)(LCDBASE + 0x08)) /* LCD time control 1 register */ #define LCDTCON2 (*(REG32_PTR_T)(LCDBASE + 0x0C)) /* LCD time control 2 register */ #define LCDTCON3 (*(REG32_PTR_T)(LCDBASE + 0x10)) /* LCD time control 3 register */ #define LCDOSD1 (*(REG32_PTR_T)(LCDBASE + 0x14)) /* LCD OSD control 1 register */ #define LCDOSD2 (*(REG32_PTR_T)(LCDBASE + 0x18)) /* LCD OSD control 2 register */ #define LCDOSD3 (*(REG32_PTR_T)(LCDBASE + 0x1C)) /* LCD OSD control 3 register */ #define LCDB1SADDR1 (*(REG32_PTR_T)(LCDBASE + 0x20)) /* Frame buffer start address register for Back-Ground buffer 1 */ #define LCDB2SADDR1 (*(REG32_PTR_T)(LCDBASE + 0x24)) /* Frame buffer start address register for Back-Ground buffer 2 */ #define LCDF1SADDR1 (*(REG32_PTR_T)(LCDBASE + 0x28)) /* Frame buffer start address register for Fore-Ground (OSD) buffer 1 */ #define LCDF2SADDR1 (*(REG32_PTR_T)(LCDBASE + 0x2C)) /* Frame buffer start address register for Fore-Ground (OSD) buffer 2 */ #define LCDB1SADDR2 (*(REG32_PTR_T)(LCDBASE + 0x30)) /* Frame buffer end address register for Back-Ground buffer 1 */ #define LCDB2SADDR2 (*(REG32_PTR_T)(LCDBASE + 0x34)) /* Frame buffer end address register for Back-Ground buffer 2 */ #define LCDF1SADDR2 (*(REG32_PTR_T)(LCDBASE + 0x38)) /* Frame buffer end address register for Fore-Ground (OSD) buffer 1 */ #define LCDF2SADDR2 (*(REG32_PTR_T)(LCDBASE + 0x3C)) /* Frame buffer end address register for Fore-Ground (OSD) buffer 2 */ #define LCDB1SADDR3 (*(REG32_PTR_T)(LCDBASE + 0x40)) /* Virtual screen address set for Back-Ground buffer 1 */ #define LCDB2SADDR3 (*(REG32_PTR_T)(LCDBASE + 0x44)) /* Virtual screen address set for Back-Ground buffer 2 */ #define LCDF1SADDR3 (*(REG32_PTR_T)(LCDBASE + 0x48)) /* Virtual screen address set for Fore-Ground(OSD) buffer 1 */ #define LCDF2SADDR3 (*(REG32_PTR_T)(LCDBASE + 0x4C)) /* Virtual screen address set for Fore-Ground(OSD) buffer 2 */ #define LCDINTCON (*(REG32_PTR_T)(LCDBASE + 0x50)) /* Indicate the LCD interrupt control register */ #define LCDKEYCON (*(REG32_PTR_T)(LCDBASE + 0x54)) /* Color key control register */ #define LCDCOLVAL (*(REG32_PTR_T)(LCDBASE + 0x58)) /* Color key value ( transparent value) register */ #define LCDBGCON (*(REG32_PTR_T)(LCDBASE + 0x5C)) /* Back-Ground color control */ #define LCDFGCON (*(REG32_PTR_T)(LCDBASE + 0x60)) /* Fore-Ground color control */ #define LCDDITHMODE (*(REG32_PTR_T)(LCDBASE + 0x64)) /* Dithering mode register. */ /* 28. ATA CONTROLLER */ #if CONFIG_CPU==S5L8700 || CONFIG_CPU==S5L8701 #define ATA_BASE 0x38E00000 #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define ATA_BASE 0x38700000 #endif #define ATA_CONTROL (*(REG32_PTR_T)(ATA_BASE)) /* Enable and clock down status */ #define ATA_STATUS (*(REG32_PTR_T)(ATA_BASE + 0x04)) /* Status */ #define ATA_COMMAND (*(REG32_PTR_T)(ATA_BASE + 0x08)) /* Command */ #define ATA_SWRST (*(REG32_PTR_T)(ATA_BASE + 0x0C)) /* Software reset */ #define ATA_IRQ (*(REG32_PTR_T)(ATA_BASE + 0x10)) /* Interrupt sources */ #define ATA_IRQ_MASK (*(REG32_PTR_T)(ATA_BASE + 0x14)) /* Interrupt mask */ #define ATA_CFG (*(REG32_PTR_T)(ATA_BASE + 0x18)) /* Configuration for ATA interface */ #define ATA_MDMA_TIME (*(REG32_PTR_T)(ATA_BASE + 0x28)) #define ATA_PIO_TIME (*(REG32_PTR_T)(ATA_BASE + 0x2C)) /* PIO timing */ #define ATA_UDMA_TIME (*(REG32_PTR_T)(ATA_BASE + 0x30)) /* UDMA timing */ #define ATA_XFR_NUM (*(REG32_PTR_T)(ATA_BASE + 0x34)) /* Transfer number */ #define ATA_XFR_CNT (*(REG32_PTR_T)(ATA_BASE + 0x38)) /* Current transfer count */ #define ATA_TBUF_START (*(VOID_PTR_PTR_T)(ATA_BASE + 0x3C)) /* Start address of track buffer */ #define ATA_TBUF_SIZE (*(REG32_PTR_T)(ATA_BASE + 0x40)) /* Size of track buffer */ #define ATA_SBUF_START (*(VOID_PTR_PTR_T)(ATA_BASE + 0x44)) /* Start address of Source buffer1 */ #define ATA_SBUF_SIZE (*(REG32_PTR_T)(ATA_BASE + 0x48)) /* Size of source buffer1 */ #define ATA_CADR_TBUF (*(VOID_PTR_PTR_T)(ATA_BASE + 0x4C)) /* Current write address of track buffer */ #define ATA_CADR_SBUF (*(VOID_PTR_PTR_T)(ATA_BASE + 0x50)) /* Current read address of source buffer */ #define ATA_PIO_DTR (*(REG32_PTR_T)(ATA_BASE + 0x54)) /* PIO device data register */ #define ATA_PIO_FED (*(REG32_PTR_T)(ATA_BASE + 0x58)) /* PIO device Feature/Error register */ #define ATA_PIO_SCR (*(REG32_PTR_T)(ATA_BASE + 0x5C)) /* PIO sector count register */ #define ATA_PIO_LLR (*(REG32_PTR_T)(ATA_BASE + 0x60)) /* PIO device LBA low register */ #define ATA_PIO_LMR (*(REG32_PTR_T)(ATA_BASE + 0x64)) /* PIO device LBA middle register */ #define ATA_PIO_LHR (*(REG32_PTR_T)(ATA_BASE + 0x68)) /* PIO device LBA high register */ #define ATA_PIO_DVR (*(REG32_PTR_T)(ATA_BASE + 0x6C)) /* PIO device register */ #define ATA_PIO_CSD (*(REG32_PTR_T)(ATA_BASE + 0x70)) /* PIO device command/status register */ #define ATA_PIO_DAD (*(REG32_PTR_T)(ATA_BASE + 0x74)) /* PIO control/alternate status register */ #define ATA_PIO_READY (*(REG32_PTR_T)(ATA_BASE + 0x78)) /* PIO data read/write ready */ #define ATA_PIO_RDATA (*(REG32_PTR_T)(ATA_BASE + 0x7C)) /* PIO read data from device register */ #define ATA_BUS_FIFO_STATUS (*(REG32_PTR_T)(ATA_BASE + 0x80)) /* Reserved */ #define ATA_FIFO_STATUS (*(REG32_PTR_T)(ATA_BASE + 0x84)) /* Reserved */ #define ATA_DMA_ADDR (*(VOID_PTR_PTR_T)(ATA_BASE + 0x88)) /* 29. CHIP ID */ #define CHIPID_BASE 0x3D100000 #define CHIPID_REG_ONE (*(REG32_PTR_T)(CHIPID_BASE)) /* Receive the first 32 bits from a fuse box */ #define CHIPID_REG_TWO (*(REG32_PTR_T)(CHIPID_BASE + 0x04)) /* Receive the other 8 bits from a fuse box */ #if CONFIG_CPU == S5L8720 #define CHIPID_INFO (*(REG32_PTR_T)(CHIPID_BASE + 0x08)) #endif /* The following peripherals are not present in the Samsung S5L8700 datasheet. Information for them was gathered solely by reverse-engineering Apple's firmware. */ /* Hardware AES crypto unit - S5L8701+ */ #if CONFIG_CPU==S5L8701 #define AES_BASE 0x39800000 #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define AES_BASE 0x38c00000 #endif #if CONFIG_CPU==S5L8701 || CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define AESCONTROL (*((REG32_PTR_T)(AES_BASE))) #define AESGO (*((REG32_PTR_T)(AES_BASE + 0x04))) #define AESUNKREG0 (*((REG32_PTR_T)(AES_BASE + 0x08))) #define AESSTATUS (*((REG32_PTR_T)(AES_BASE + 0x0c))) #define AESUNKREG1 (*((REG32_PTR_T)(AES_BASE + 0x10))) #define AESKEYLEN (*((REG32_PTR_T)(AES_BASE + 0x14))) #define AESOUTSIZE (*((REG32_PTR_T)(AES_BASE + 0x18))) #define AESINSIZE (*((REG32_PTR_T)(AES_BASE + 0x24))) #define AESAUXSIZE (*((REG32_PTR_T)(AES_BASE + 0x2c))) #define AESSIZE3 (*((REG32_PTR_T)(AES_BASE + 0x34))) #define AESTYPE (*((REG32_PTR_T)(AES_BASE + 0x6c))) #endif #if CONFIG_CPU==S5L8701 #define AESOUTADDR (*((REG32_PTR_T)(AES_BASE + 0x20))) #define AESINADDR (*((REG32_PTR_T)(AES_BASE + 0x28))) #define AESAUXADDR (*((REG32_PTR_T)(AES_BASE + 0x30))) #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define AESOUTADDR (*((VOID_PTR_PTR_T)(AES_BASE + 0x20))) #define AESINADDR (*((CONST_VOID_PTR_PTR_T)(AES_BASE + 0x28))) #define AESAUXADDR (*((VOID_PTR_PTR_T)(AES_BASE + 0x30))) #define AESKEY ((REG32_PTR_T)(AES_BASE + 0x4c)) #define AESIV ((REG32_PTR_T)(AES_BASE + 0x74)) #define AESTYPE2 (*((REG32_PTR_T)(AES_BASE + 0x88))) #define AESUNKREG2 (*((REG32_PTR_T)(AES_BASE + 0x8c))) #endif /* SHA-1 unit - S5L8701+ */ #if CONFIG_CPU==S5L8701 #define SHA1_BASE 0x3C600000 #elif CONFIG_CPU==S5L8702 || CONFIG_CPU == S5L8720 #define SHA1_BASE 0x38000000 #endif #define SHA1CONFIG (*((REG32_PTR_T)(SHA1_BASE))) #define SHA1RESET (*((REG32_PTR_T)(SHA1_BASE + 0x04))) #if CONFIG_CPU == S5L8720 #define SHA1UNK10 (*((REG32_PTR_T)(SHA1_BASE + 0x10))) #endif #define SHA1RESULT ((REG32_PTR_T)(SHA1_BASE + 0x20)) #define SHA1DATAIN ((REG32_PTR_T)(SHA1_BASE + 0x40)) #if CONFIG_CPU == S5L8720 #define SHA1UNK80 (*((REG32_PTR_T)(SHA1_BASE + 0x80))) #endif /* Clickwheel controller - S5L8701+ */ #if CONFIG_CPU==S5L8701 || CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define WHEEL_BASE 0x3C200000 #define WHEEL00 (*((REG32_PTR_T)(WHEEL_BASE))) #define WHEEL04 (*((REG32_PTR_T)(WHEEL_BASE + 0x04))) #define WHEEL08 (*((REG32_PTR_T)(WHEEL_BASE + 0x08))) #define WHEEL0C (*((REG32_PTR_T)(WHEEL_BASE + 0x0C))) #define WHEEL10 (*((REG32_PTR_T)(WHEEL_BASE + 0x10))) #define WHEELINT (*((REG32_PTR_T)(WHEEL_BASE + 0x14))) #define WHEELRX (*((REG32_PTR_T)(WHEEL_BASE + 0x18))) #define WHEELTX (*((REG32_PTR_T)(WHEEL_BASE + 0x1C))) #endif /* Synopsys OTG - S5L8701 only */ #if CONFIG_CPU==S5L8701 #define OTGBASE 0x38800000 #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define OTGBASE 0x38400000 #endif #if CONFIG_CPU==S5L8701 || CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 #define PHYBASE 0x3C400000 /* OTG PHY control registers */ #define OPHYPWR (*((REG32_PTR_T)(PHYBASE + 0x00))) #define OPHYCLK (*((REG32_PTR_T)(PHYBASE + 0x04))) #define ORSTCON (*((REG32_PTR_T)(PHYBASE + 0x08))) #define OPHYUNK3 (*((REG32_PTR_T)(PHYBASE + 0x18))) #define OPHYUNK1 (*((REG32_PTR_T)(PHYBASE + 0x1c))) #define OPHYUNK2 (*((REG32_PTR_T)(PHYBASE + 0x44))) #endif #if CONFIG_CPU==S5L8701 /* 7 available EPs (0b00000000011101010000000001101011), 6 used */ #define USB_NUM_ENDPOINTS 6 #elif CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 /* 9 available EPs (0b00000001111101010000000111101011), 6 used */ #define USB_NUM_ENDPOINTS 6 #endif #if CONFIG_CPU==S5L8701 /* Define this if the DWC implemented on this SoC does not support dedicated FIFOs. */ #define USB_DW_SHARED_FIFO #endif #if CONFIG_CPU==S5L8701 || CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 /* Define this if the DWC implemented on this SoC does not support DMA or you want to disable it. */ // #define USB_DW_ARCH_SLAVE #endif #if CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 /////INTERRUPT CONTROLLERS///// #define VIC_BASE 0x38E00000 #define VIC_OFFSET 0x1000 #define VICBASE(v) (VIC_BASE + VIC_OFFSET * (v)) #define VICIRQSTATUS(v) (*((REG32_PTR_T)(VICBASE(v)))) #define VICFIQSTATUS(v) (*((REG32_PTR_T)(VICBASE(v) + 0x04))) #define VICRAWINTR(v) (*((REG32_PTR_T)(VICBASE(v) + 0x08))) #define VICINTSELECT(v) (*((REG32_PTR_T)(VICBASE(v) + 0x0C))) #define VICINTENABLE(v) (*((REG32_PTR_T)(VICBASE(v) + 0x10))) #define VICINTENCLEAR(v) (*((REG32_PTR_T)(VICBASE(v) + 0x14))) #define VICSOFTINT(v) (*((REG32_PTR_T)(VICBASE(v) + 0x18))) #define VICSOFTINTCLEAR(v) (*((REG32_PTR_T)(VICBASE(v) + 0x1C))) #define VICPROTECTION(v) (*((REG32_PTR_T)(VICBASE(v) + 0x20))) #define VICSWPRIORITYMASK(v) (*((REG32_PTR_T)(VICBASE(v) + 0x24))) #define VICPRIORITYDAISY(v) (*((REG32_PTR_T)(VICBASE(v) + 0x28))) #define VICVECTADDR(v, i) (*((REG32_PTR_T)(VICBASE(v) + 0x100 + 4 * (i)))) #define VICVECTPRIORITY(v, i) (*((REG32_PTR_T)(VICBASE(v) + 0x200 + 4 * (i)))) #define VICADDRESS(v) (*((CONST_VOID_PTR_PTR_T)(VICBASE(v) + 0xF00))) #define VIC0IRQSTATUS VICIRQSTATUS(0) #define VIC0FIQSTATUS VICFIQSTATUS(0) #define VIC0RAWINTR VICRAWINTR(0) #define VIC0INTSELECT VICINTSELECT(0) #define VIC0INTENABLE VICINTENABLE(0) #define VIC0INTENCLEAR VICINTENCLEAR(0) #define VIC0SOFTINT VICSOFTINT(0) #define VIC0SOFTINTCLEAR VICSOFTINTCLEAR(0) #define VIC0PROTECTION VICPROTECTION(0) #define VIC0SWPRIORITYMASK VICSWPRIORITYMASK(0) #define VIC0PRIORITYDAISY VICPRIORITYDAISY(0) #define VIC0VECTADDR(i) VICVECTADDR(0, i) #define VIC0VECTADDR0 VIC0VECTADDR(0) #define VIC0VECTADDR1 VIC0VECTADDR(1) #define VIC0VECTADDR2 VIC0VECTADDR(2) #define VIC0VECTADDR3 VIC0VECTADDR(3) #define VIC0VECTADDR4 VIC0VECTADDR(4) #define VIC0VECTADDR5 VIC0VECTADDR(5) #define VIC0VECTADDR6 VIC0VECTADDR(6) #define VIC0VECTADDR7 VIC0VECTADDR(7) #define VIC0VECTADDR8 VIC0VECTADDR(8) #define VIC0VECTADDR9 VIC0VECTADDR(9) #define VIC0VECTADDR10 VIC0VECTADDR(10) #define VIC0VECTADDR11 VIC0VECTADDR(11) #define VIC0VECTADDR12 VIC0VECTADDR(12) #define VIC0VECTADDR13 VIC0VECTADDR(13) #define VIC0VECTADDR14 VIC0VECTADDR(14) #define VIC0VECTADDR15 VIC0VECTADDR(15) #define VIC0VECTADDR16 VIC0VECTADDR(16) #define VIC0VECTADDR17 VIC0VECTADDR(17) #define VIC0VECTADDR18 VIC0VECTADDR(18) #define VIC0VECTADDR19 VIC0VECTADDR(19) #define VIC0VECTADDR20 VIC0VECTADDR(20) #define VIC0VECTADDR21 VIC0VECTADDR(21) #define VIC0VECTADDR22 VIC0VECTADDR(22) #define VIC0VECTADDR23 VIC0VECTADDR(23) #define VIC0VECTADDR24 VIC0VECTADDR(24) #define VIC0VECTADDR25 VIC0VECTADDR(25) #define VIC0VECTADDR26 VIC0VECTADDR(26) #define VIC0VECTADDR27 VIC0VECTADDR(27) #define VIC0VECTADDR28 VIC0VECTADDR(28) #define VIC0VECTADDR29 VIC0VECTADDR(29) #define VIC0VECTADDR30 VIC0VECTADDR(30) #define VIC0VECTADDR31 VIC0VECTADDR(31) #define VIC0VECTPRIORITY(i) VICVECTPRIORITY(0, i) #define VIC0VECTPRIORITY0 VIC0VECTPRIORITY(0) #define VIC0VECTPRIORITY1 VIC0VECTPRIORITY(1) #define VIC0VECTPRIORITY2 VIC0VECTPRIORITY(2) #define VIC0VECTPRIORITY3 VIC0VECTPRIORITY(3) #define VIC0VECTPRIORITY4 VIC0VECTPRIORITY(4) #define VIC0VECTPRIORITY5 VIC0VECTPRIORITY(5) #define VIC0VECTPRIORITY6 VIC0VECTPRIORITY(6) #define VIC0VECTPRIORITY7 VIC0VECTPRIORITY(7) #define VIC0VECTPRIORITY8 VIC0VECTPRIORITY(8) #define VIC0VECTPRIORITY9 VIC0VECTPRIORITY(9) #define VIC0VECTPRIORITY10 VIC0VECTPRIORITY(10) #define VIC0VECTPRIORITY11 VIC0VECTPRIORITY(11) #define VIC0VECTPRIORITY12 VIC0VECTPRIORITY(12) #define VIC0VECTPRIORITY13 VIC0VECTPRIORITY(13) #define VIC0VECTPRIORITY14 VIC0VECTPRIORITY(14) #define VIC0VECTPRIORITY15 VIC0VECTPRIORITY(15) #define VIC0VECTPRIORITY16 VIC0VECTPRIORITY(16) #define VIC0VECTPRIORITY17 VIC0VECTPRIORITY(17) #define VIC0VECTPRIORITY18 VIC0VECTPRIORITY(18) #define VIC0VECTPRIORITY19 VIC0VECTPRIORITY(19) #define VIC0VECTPRIORITY20 VIC0VECTPRIORITY(20) #define VIC0VECTPRIORITY21 VIC0VECTPRIORITY(21) #define VIC0VECTPRIORITY22 VIC0VECTPRIORITY(22) #define VIC0VECTPRIORITY23 VIC0VECTPRIORITY(23) #define VIC0VECTPRIORITY24 VIC0VECTPRIORITY(24) #define VIC0VECTPRIORITY25 VIC0VECTPRIORITY(25) #define VIC0VECTPRIORITY26 VIC0VECTPRIORITY(26) #define VIC0VECTPRIORITY27 VIC0VECTPRIORITY(27) #define VIC0VECTPRIORITY28 VIC0VECTPRIORITY(28) #define VIC0VECTPRIORITY29 VIC0VECTPRIORITY(29) #define VIC0VECTPRIORITY30 VIC0VECTPRIORITY(30) #define VIC0VECTPRIORITY31 VIC0VECTPRIORITY(31) #define VIC0ADDRESS VICADDRESS(0) #define VIC1IRQSTATUS VICIRQSTATUS(1) #define VIC1FIQSTATUS VICFIQSTATUS(1) #define VIC1RAWINTR VICRAWINTR(1) #define VIC1INTSELECT VICINTSELECT(1) #define VIC1INTENABLE VICINTENABLE(1) #define VIC1INTENCLEAR VICINTENCLEAR(1) #define VIC1SOFTINT VICSOFTINT(1) #define VIC1SOFTINTCLEAR VICSOFTINTCLEAR(1) #define VIC1PROTECTION VICPROTECTION(1) #define VIC1SWPRIORITYMASK VICSWPRIORITYMASK(1) #define VIC1PRIORITYDAISY VICPRIORITYDAISY(1) #define VIC1VECTADDR(i) VICVECTADDR(1, i) #define VIC1VECTADDR0 VIC1VECTADDR(0) #define VIC1VECTADDR1 VIC1VECTADDR(1) #define VIC1VECTADDR2 VIC1VECTADDR(2) #define VIC1VECTADDR3 VIC1VECTADDR(3) #define VIC1VECTADDR4 VIC1VECTADDR(4) #define VIC1VECTADDR5 VIC1VECTADDR(5) #define VIC1VECTADDR6 VIC1VECTADDR(6) #define VIC1VECTADDR7 VIC1VECTADDR(7) #define VIC1VECTADDR8 VIC1VECTADDR(8) #define VIC1VECTADDR9 VIC1VECTADDR(9) #define VIC1VECTADDR10 VIC1VECTADDR(10) #define VIC1VECTADDR11 VIC1VECTADDR(11) #define VIC1VECTADDR12 VIC1VECTADDR(12) #define VIC1VECTADDR13 VIC1VECTADDR(13) #define VIC1VECTADDR14 VIC1VECTADDR(14) #define VIC1VECTADDR15 VIC1VECTADDR(15) #define VIC1VECTADDR16 VIC1VECTADDR(16) #define VIC1VECTADDR17 VIC1VECTADDR(17) #define VIC1VECTADDR18 VIC1VECTADDR(18) #define VIC1VECTADDR19 VIC1VECTADDR(19) #define VIC1VECTADDR20 VIC1VECTADDR(20) #define VIC1VECTADDR21 VIC1VECTADDR(21) #define VIC1VECTADDR22 VIC1VECTADDR(22) #define VIC1VECTADDR23 VIC1VECTADDR(23) #define VIC1VECTADDR24 VIC1VECTADDR(24) #define VIC1VECTADDR25 VIC1VECTADDR(25) #define VIC1VECTADDR26 VIC1VECTADDR(26) #define VIC1VECTADDR27 VIC1VECTADDR(27) #define VIC1VECTADDR28 VIC1VECTADDR(28) #define VIC1VECTADDR29 VIC1VECTADDR(29) #define VIC1VECTADDR30 VIC1VECTADDR(30) #define VIC1VECTADDR31 VIC1VECTADDR(31) #define VIC1VECTPRIORITY(i) VICVECTPRIORITY(1, i) #define VIC1VECTPRIORITY0 VIC1VECTPRIORITY(0) #define VIC1VECTPRIORITY1 VIC1VECTPRIORITY(1) #define VIC1VECTPRIORITY2 VIC1VECTPRIORITY(2) #define VIC1VECTPRIORITY3 VIC1VECTPRIORITY(3) #define VIC1VECTPRIORITY4 VIC1VECTPRIORITY(4) #define VIC1VECTPRIORITY5 VIC1VECTPRIORITY(5) #define VIC1VECTPRIORITY6 VIC1VECTPRIORITY(6) #define VIC1VECTPRIORITY7 VIC1VECTPRIORITY(7) #define VIC1VECTPRIORITY8 VIC1VECTPRIORITY(8) #define VIC1VECTPRIORITY9 VIC1VECTPRIORITY(9) #define VIC1VECTPRIORITY10 VIC1VECTPRIORITY(10) #define VIC1VECTPRIORITY11 VIC1VECTPRIORITY(11) #define VIC1VECTPRIORITY12 VIC1VECTPRIORITY(12) #define VIC1VECTPRIORITY13 VIC1VECTPRIORITY(13) #define VIC1VECTPRIORITY14 VIC1VECTPRIORITY(14) #define VIC1VECTPRIORITY15 VIC1VECTPRIORITY(15) #define VIC1VECTPRIORITY16 VIC1VECTPRIORITY(16) #define VIC1VECTPRIORITY17 VIC1VECTPRIORITY(17) #define VIC1VECTPRIORITY18 VIC1VECTPRIORITY(18) #define VIC1VECTPRIORITY19 VIC1VECTPRIORITY(19) #define VIC1VECTPRIORITY20 VIC1VECTPRIORITY(20) #define VIC1VECTPRIORITY21 VIC1VECTPRIORITY(21) #define VIC1VECTPRIORITY22 VIC1VECTPRIORITY(22) #define VIC1VECTPRIORITY23 VIC1VECTPRIORITY(23) #define VIC1VECTPRIORITY24 VIC1VECTPRIORITY(24) #define VIC1VECTPRIORITY25 VIC1VECTPRIORITY(25) #define VIC1VECTPRIORITY26 VIC1VECTPRIORITY(26) #define VIC1VECTPRIORITY27 VIC1VECTPRIORITY(27) #define VIC1VECTPRIORITY28 VIC1VECTPRIORITY(28) #define VIC1VECTPRIORITY29 VIC1VECTPRIORITY(29) #define VIC1VECTPRIORITY30 VIC1VECTPRIORITY(30) #define VIC1VECTPRIORITY31 VIC1VECTPRIORITY(31) #define VIC1ADDRESS VICADDRESS(1) #define VIC0EDGE0 (*((REG32_PTR_T)(VICBASE(2)))) // TBC: INTENABLE #define VIC1EDGE0 (*((REG32_PTR_T)(VICBASE(2) + 0x04))) #define VIC0EDGE1 (*((REG32_PTR_T)(VICBASE(2) + 0x08))) // TBC: INTENCLEAR #define VIC1EDGE1 (*((REG32_PTR_T)(VICBASE(2) + 0x0C))) /////INTERRUPTS///// // #define IRQ_UNK5 5 #define IRQ_TIMER32 7 #define IRQ_TIMER 8 #define IRQ_SPI(i) (9+(i)) /* TBC */ #define IRQ_SPI0 IRQ_SPI(0) #define IRQ_SPI1 IRQ_SPI(1) #define IRQ_SPI2 IRQ_SPI(2) #define IRQ_LCD 14 #define IRQ_DMAC(d) (16+(d)) #define IRQ_DMAC0 IRQ_DMAC(0) #define IRQ_DMAC1 IRQ_DMAC(1) #define IRQ_USB_FUNC 19 #define IRQ_NAND 20 // TBC: it is so in s5l8900 #define IRQ_I2C(i) (21+(i)) #define IRQ_I2C0 IRQ_I2C(0) #define IRQ_I2C1 IRQ_I2C(1) #define IRQ_WHEEL 23 #define IRQ_UART(i) (24+(i)) #define IRQ_UART0 IRQ_UART(0) #define IRQ_UART1 IRQ_UART(1) #define IRQ_UART2 IRQ_UART(2) #define IRQ_UART3 IRQ_UART(3) #define IRQ_UART4 IRQ_UART(4) /* obsolete/not implemented on s5l8702 ??? */ #define IRQ_ATA 29 #define IRQ_SECBOOT 36 #define IRQ_AES 39 #define IRQ_SHA 40 #define IRQ_NANDECC 43 // TBC: it is so in s5l8900 #define IRQ_MMC 44 #define IRQ_EXT0 0 #define IRQ_EXT1 1 #define IRQ_EXT2 2 #define IRQ_EXT3 3 #define IRQ_EXT4 31 #define IRQ_EXT5 32 #define IRQ_EXT6 33 #endif /* Something related to the ATA controller, needed for HDD power up on ipod6g */ #define ATA_UNKNOWN_BASE 0x38a00000 #if CONFIG_CPU == S5L8702 #define ATA_UNKNOWN (*((REG32_PTR_T)(ATA_UNKNOWN_BASE))) #endif #if CONFIG_CPU==S5L8702 || CONFIG_CPU==S5L8720 /* * s5l8702 External (GPIO) Interrupt Controller * * 7 groups of 32 interrupts, GPIO pins are seen as 'wired' * to groups 6..3 in reverse order. * On group 3, last four bits are dissbled (GPIO 124..127). * All bits in groups 1 and 2 are disabled (not used). * On group 0, all bits are masked except bits 0 and 2: * bit 0: if unmasked, EINT6 is generated when ALVTCNT * reachs ALVTEND. * bit 2: if unmasked, EINT6 is generated when USB cable * is plugged and/or(TBC) unplugged. * * EIC_GROUP0..6 are connected to EINT6..0 of the VIC. */ #define EIC_N_GROUPS 7 /* get EIC group and bit for a given GPIO port */ #define EIC_GROUP(n) (6 - ((n) >> 5)) #define EIC_INDEX(n) ((0x18 - ((n) & 0x18)) | ((n) & 0x7)) /* SoC EINTs uses these 'gpio' numbers */ #define GPIO_EINT_USB 0xd8 #define GPIO_EINT_ALIVE 0xda /* probably a part of the system controller */ #if CONFIG_CPU == S5L8702 #define EIC_BASE 0x39a00000 #elif CONFIG_CPU == S5L8720 #define EIC_BASE 0x39700000 #endif #define EIC_INTLEVEL(g) (*((REG32_PTR_T)(EIC_BASE + 0x80 + 4*(g)))) #define EIC_INTSTAT(g) (*((REG32_PTR_T)(EIC_BASE + 0xA0 + 4*(g)))) #define EIC_INTEN(g) (*((REG32_PTR_T)(EIC_BASE + 0xC0 + 4*(g)))) #define EIC_INTTYPE(g) (*((REG32_PTR_T)(EIC_BASE + 0xE0 + 4*(g)))) #define EIC_INTLEVEL_LOW 0 #define EIC_INTLEVEL_HIGH 1 #define EIC_INTTYPE_EDGE 0 #define EIC_INTTYPE_LEVEL 1 #endif #if CONFIG_CPU == S5L8702 /* * This is very preliminary work in progress, ATM this region is called * system 'alive' because it seems there are similiarities when mixing * concepts from: * - s3c2440 datasheet (figure 7-12, Sleep mode) and * - ARM-DDI-0287B (2.1.8 System Mode Control, Sleep an Doze modes) * * Known components: * - independent clocking * - 32-bit timer * - level/edge configurable interrupt controller * * * OSCSEL * |\ CKSEL * OSC0 -->| | |\ * | |--->| | _________ ___________ * OSC1 -->| | | | | | SClk | | * |/ | |--->| 1/CKDIV |---------->| 1/ALVTDIV |--> Timer * | | |_________| | |___________| counter * PClk --------->| | | ___________ * |/ | | | * +-->| 1/UNKDIV |--> Unknown * |___________| */ #define SYSALV_BASE 0x39a00000 #define ALVCON (*((REG32_PTR_T)(SYSALV_BASE))) #define ALVUNK4 (*((REG32_PTR_T)(SYSALV_BASE + 0x4))) #define ALVUNK100 (*((REG32_PTR_T)(SYSALV_BASE + 0x100))) #define ALVUNK104 (*((REG32_PTR_T)(SYSALV_BASE + 0x104))) /* * System Alive control register */ #define ALVCON_CKSEL_BIT (1 << 25) /* 0 -> S5L8702_OSCx, 1 -> PClk */ #define ALVCON_CKDIVEN_BIT (1 << 24) /* 0 -> CK divider Off, 1 -> On */ #define ALVCON_CKDIV_POS 20 /* real_val = reg_val+1 */ #define ALVCON_CKDIV_MSK 0xf /* UNKDIV: real_val = reg_val+1 (TBC), valid reg_val=0,1,2 */ /* experimental: for registers in this region, read/write speed is * scaled by this divider, so probably it is related with internal * 'working' frequency. */ #define ALVCON_UNKDIV_POS 16 #define ALVCON_UNKDIV_MSK 0x3 /* bits[14:1] are UNKNOWN */ #define ALVCON_OSCSEL_BIT (1 << 0) /* 0 -> OSC0, 1 -> OSC1 */ /* * System Alive timer * * ALVCOM_RUN_BIT starts/stops count on ALVTCNT, counter frequency * is SClk / ALVTDIV. When count reachs ALVTEND then ALVTSTAT[0] * and ALVUNK4[0] are set, optionally an interrupt is generated (see * GPIO_EINT_ALIVE). Writing 1 to ALVTCOM_RST_BIT clears ALVSTAT[0] * and ALVUNK4[0], and initializes ALVTCNT to zero. */ #define ALVTCOM (*((REG32_PTR_T)(SYSALV_BASE + 0x6c))) #define ALVTCOM_RUN_BIT (1 << 0) /* 0 -> Stop, 1 -> Start */ #define ALVTCOM_RST_BIT (1 << 1) /* 1 -> Reset */ #define ALVTEND (*((REG32_PTR_T)(SYSALV_BASE + 0x70))) #define ALVTDIV (*((REG32_PTR_T)(SYSALV_BASE + 0x74))) #define ALVTCNT (*((REG32_PTR_T)(SYSALV_BASE + 0x78))) #define ALVTSTAT (*((REG32_PTR_T)(SYSALV_BASE + 0x7c))) #endif /* CONFIG_CPU == S5L8702 */ #endif /* __S5L87XX_H__ */