Annotation of sys/arch/arm/s3c2xx0/s3c2800reg.h, Revision 1.1.1.1
1.1 nbrk 1: /* $NetBSD: s3c2800reg.h,v 1.6 2005/12/11 12:16:51 christos Exp $ */
2:
3: /*
4: * Copyright (c) 2002, 2003 Fujitsu Component Limited
5: * Copyright (c) 2002, 2003, 2005 Genetec Corporation
6: * All rights reserved.
7: *
8: * Redistribution and use in source and binary forms, with or without
9: * modification, are permitted provided that the following conditions
10: * are met:
11: * 1. Redistributions of source code must retain the above copyright
12: * notice, this list of conditions and the following disclaimer.
13: * 2. Redistributions in binary form must reproduce the above copyright
14: * notice, this list of conditions and the following disclaimer in the
15: * documentation and/or other materials provided with the distribution.
16: * 3. Neither the name of The Fujitsu Component Limited nor the name of
17: * Genetec corporation may not be used to endorse or promote products
18: * derived from this software without specific prior written permission.
19: *
20: * THIS SOFTWARE IS PROVIDED BY FUJITSU COMPONENT LIMITED AND GENETEC
21: * CORPORATION ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
22: * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
23: * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
24: * DISCLAIMED. IN NO EVENT SHALL FUJITSU COMPONENT LIMITED OR GENETEC
25: * CORPORATION BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
26: * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
27: * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
28: * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
29: * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
30: * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
31: * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
32: * SUCH DAMAGE.
33: */
34:
35: /*
36: * Samsung S3C2800 processor is ARM920T based integrated CPU
37: *
38: * Reference:
39: * S3C2800 User's Manual
40: */
41: #ifndef _ARM_S3C2XX0_S3C2800REG_H_
42: #define _ARM_S3C2XX0_S3C2800REG_H_
43:
44: /* common definitions for S3C2800, S3C2400 and S3C2410 */
45: #include <arm/s3c2xx0/s3c2xx0reg.h>
46:
47: /*
48: * Memory Map
49: */
50:
51: /* ROM/SRAM/FLASH */
52: #define S3C2800_SBANK0_START 0x00000000
53: #define S3C2800_SBANK1_START 0x02000000
54: #define S3C2800_SBANK2_START 0x04000000
55: #define S3C2800_SBANK3_START 0x06000000
56: #define S3C2800_SBANK4_START 0x08000000
57:
58: /* DRAM */
59: #define S3C2800_DBANK0_START 0x08000000
60: #define S3C2800_DBANK1_START 0x0a000000
61: #define S3C2800_DBANK2_START 0x0c000000
62: #define S3C2800_DBANK3_START 0x0e000000
63: #define S3C2800_DBANK_SIZE 0x02000000 /* 32MB */
64:
65: /*
66: * Physical address of integrated peripherals
67: */
68: #define S3C2800_PERIPHERALS 0x10000000
69: #define S3C2800_PERIPHERALS_SIZE 0x200000 /* 2MBytes */
70: #define S3C2800_CLKMAN_BASE 0x10000000 /* clock & power management */
71: #define S3C2800_CLKMAN_SIZE 0x18
72: #define S3C2800_MEMCTL_BASE 0x10010000 /* memory controller */
73: #define S3C2800_MEMCTL_SIZE 0x20
74: #define S3C2800_DMA0_BASE 0x10030000
75: #define S3C2800_DMA1_BASE 0x10040000
76: #define S3C2800_DMA2_BASE 0x10050000
77: #define S3C2800_DMA3_BASE 0x10060000
78: #define S3C2800_PCICTL_BASE 0x10080000
79: #define S3C2800_PCICTL_SIZE 0x58
80: #define S3C2800_GPIO_BASE 0x10100000
81: #define S3C2800_GPIO_SIZE 0x50
82: #define S3C2800_TIMER0_BASE 0x10130000
83: #define S3C2800_TIMER1_BASE 0x10140000
84: #define S3C2800_TIMER2_BASE 0x10150000
85: #define S3C2800_TIMER_SIZE 0x10
86: #define S3C2800_UART0_BASE 0x10170000
87: #define S3C2800_UART1_BASE 0x10180000
88: #define S3C2800_UART_SIZE 0x2c
89: #define S3C2800_IIC0_BASE 0x10190000
90: #define S3C2800_IIC1_BASE 0x101a0000
91: #define S3C2800_IIC_SIZE 0x10
92: #define S3C2800_INTCTL_BASE 0x10020000
93: #define S3C2800_INTCTL_SIZE 0x14
94: #define S3C2800_WDT_BASE 0x10120000
95: #define S3C2800_WDT_SIZE 0x0c
96:
97:
98: /* width of interrupt controller */
99: #define ICU_LEN 29
100: #define ICU_INT_HWMASK 0x1fffffff
101:
102: /* Clock & power manager */
103: #define CLKMAN_PLLCON 0x00
104:
105: /* MDIV, PDIV, SDIV */
106: #define PLLCON_MDIV_SHIFT 12
107: #define PLLCON_MDIV_MASK (0xff<<PLLCON_MDIV_SHIFT)
108: #define PLLCON_PDIV_SHIFT 4
109: #define PLLCON_PDIV_MASK (0x3f<<PLLCON_PDIV_SHIFT)
110: #define PLLCON_SDIV_SHIFT 0
111: #define PLLCON_SDIV_MASK (0x03<<PLLCON_SDIV_SHIFT)
112:
113: #define CLKMAN_CLKCON 0x04
114: #define CLKCON_PCLK (1<<12) /* APB clock division ratio */
115: #define CLKCON_HCLK (1<<11) /* AHB clock division ratio */
116: #define CLKCON_PCI (1<<10) /* FCLK into PCI */
117: #define CLKCON_IIC1 (1<<9) /* PCLK to I2C1 */
118: #define CLKCON_IIC0 (1<<8) /* PCLK to I2C0 */
119: #define CLKCON_RTC (1<<7) /* PCLK to RTC */
120: #define CLKCON_UART1 (1<<6) /* PCLK to UART1 */
121: #define CLKCON_UART0 (1<<5) /* PCLK to UART0 */
122: #define CLKCON_DMA23 (1<<4) /* PCLK to DMA2,3 */
123: #define CLKCON_DMA01 (1<<3) /* PCLK to DMA0,1 */
124: #define CLKCON_TIMER (1<<2) /* PCLK to TIMER */
125: #define CLKCON_IDLE (1<<1) /* Enter IDLE Mode */
126:
127: #define CLKMAN_CLKSLOW 0x08 /* slow clock controll */
128: #define CLKSLOW_SLOW (1<<4) /* 1: Enable SLOW mode */
129: #define CLKSLOW_VAL_MASK 0x0f /* divider value for slow clock */
130:
131: #define CLKMAN_LOCKTIME 0x0c /* PLL lock time */
132:
133: #define CLKMAN_SWRCON 0x10 /* Software reset control */
134: #define SWRCON_SWR (1<<0) /* 1: Invoke software reset */
135:
136: #define CLKMAN_RSTSR 0x14 /* Reset status register */
137: #define RSTSR_WDR (1<<2) /* watchdog reset */
138: #define RSTSR_SWR (1<<1) /* Software reset */
139: #define RSTSR_HWR (1<<0) /* Hardware reset */
140:
141: /* memory controller */
142: #define MEMCTL_ENDIAN 0x00 /* Endian control (read-only) */
143: #define MEMCTL_SMBCON0 0x04 /* SBank0 control register for static */
144: #define MEMCTL_SMBCON1 0x08 /* SBank0 control register for static */
145: #define MEMCTL_SMBCON2 0x0c /* SBank0 control register for static */
146: #define MEMCTL_SMBCON3 0x10 /* SBank0 control register for static */
147: #define SMBCON_WS (1<<20) /* Wait status */
148: #define SMBCON_ST (1<<19) /* use UB/LB */
149: #define SMBCON_TACS_SHIFT 12 /* address setup time before nSCSn */
150: #define SMBCON_TACS (3<<SMBCON_TACS_SHIFT)
151: #define SMBCON_TCOS_SHIFT 10 /* CS setup time before nOE */
152: #define SMBCON_TCOS (3<<SMBCON_TCOS_SHIFT)
153: #define SMBCON_TOCH_SHIFT 8 /* CS hold time after nOE */
154: #define SMBCON_TOCH (3<<SMBCON_TOCH_SHIFT)
155: #define SMBCON_TACC_SHIFT 4 /* Access cycle */
156: #define SMBCON_TACC (0x0f<<SMBCON_TOCH_SHIFT)
157: #define SMBCON_TACC_1CLK (0x00<<SMBCON_TOCH_SHIFT)
158: #define SMBCON_TACC_2CLK (0x01<<SMBCON_TOCH_SHIFT)
159: #define SMBCON_TACC_3CLK (0x02<<SMBCON_TOCH_SHIFT)
160: #define SMBCON_TACC_4CLK (0x03<<SMBCON_TOCH_SHIFT)
161: #define SMBCON_TACC_6CLK (0x04<<SMBCON_TOCH_SHIFT)
162: #define SMBCON_TACC_7CLK (0x05<<SMBCON_TOCH_SHIFT)
163: #define SMBCON_TACC_8CLK (0x06<<SMBCON_TOCH_SHIFT)
164: #define SMBCON_TACC_9CLK (0x07<<SMBCON_TOCH_SHIFT)
165: #define SMBCON_TACC_10CLK (0x08<<SMBCON_TOCH_SHIFT)
166: #define SMBCON_TACC_12CLK (0x09<<SMBCON_TOCH_SHIFT)
167: #define SMBCON_TACC_14CLK (0x0a<<SMBCON_TOCH_SHIFT)
168: #define SMBCON_TCAH_SHIFT 2 /* Address hold time after nSCSn */
169: #define SMBCON_SDW 0x03
170: #define SMBCON_SDW_8BIT 0
171: #define SMBCON_SDW_16BIT 1
172: #define SMBCON_SDW_32BIT 2
173: #define MEMCTL_REFRESH 0x14 /* DRAM/SDRAM refresh control */
174: #define REFRESH_REFEN (1<<23)
175: #define REFRESH_REFMD (1<<22)
176: #define REFRESH_TRP (3<<20)
177: #define REFRESH_TRC (3<<16)
178: #define REFRESH_TCHR (3<<12) /* CAS hold time */
179: #define REFRESH_COUNTER 0x7ff
180: #define MEMCTL_DMTMCON 0x18 /* timing control for dynamic memory */
181: #define DMTMCON_DW_SHIFT 16
182: #define DMTMCON_DW (3<<DMTMCON_DW_SHIFT) /* bus width */
183: #define DMTMCON_MT (3<<10) /* dynamic memory type */
184: #define DMTMCON_TRCD (3<<8) /* DRAM RAS to CAS delay */
185: #define DMTMCON_TCAS (3<<6) /* CAS pulse width */
186: #define DMTMCON_TCP (3<<4) /* CAS pre charge */
187: #define DMTMCON_CAN (3<<2) /* column address number */
188: #define DMTMCON_STRCD (3<<0) /* SDRAM RAS to CAS delay */
189: #define MEMCTL_MRSR 0x1c /* SDRAM mode register */
190: #define MRSR_CL_SHIFT 4
191: #define MRSR_CL (7<<MRSR_CL_SHIFT) /* CAS latency */
192:
193: /* GPIO */
194: #define GPIO_PCONA 0x00 /* port A configuration */
195: #define PCON_INPUT 0 /* Input port */
196: #define PCON_OUTPUT 1 /* Output port */
197: #define PCON_ALTFUN 2 /* Alternate function */
198: #define GPIO_PDATA 0x04 /* port A data */
199: #define GPIO_PUPA 0x08 /* port A pull-up */
200: #define GPIO_PCONB 0x0c
201: #define GPIO_PDATB 0x10
202: #define GPIO_PCONC 0x18
203: #define GPIO_PDATC 0x1c
204: #define GPIO_PUPC 0x20
205: #define GPIO_PCOND 0x24
206: #define GPIO_PDATD 0x28
207: #define GPIO_PUPD 0x2c
208: #define GPIO_PCONE 0x30
209: #define GPIO_PDATE 0x34
210: #define GPIO_PUPE 0x38
211: #define GPIO_PCONF 0x3c
212: #define GPIO_PDATF 0x40
213: #define GPIO_PUPF 0x44
214:
215: #define GPIO_EXTINTR 0x48 /* external interrupt control */
216: #define EXTINTR_LOW 0x00
217: #define EXTINTR_HIGH 0x01
218: #define EXTINTR_FALLING 0x02
219: #define EXTINTR_RISING 0x04
220: #define EXTINTR_BOTH 0x06
221:
222: #define GPIO_SPUCR 0x4c /* special pull-up control */
223: #define SPUCR1 (1<<1) /* pull-up for data[31:16] */
224: #define SPUCR0 (1<<0) /* pull-up for data[15:0] */
225:
226: /* Timer */
227: #define TIMER_TMCON 0x00 /* control register */
228: #define TMCON_MUX (3<<2) /* MUX input */
229: #define TMCON_MUX_DIV4 (0<<2)
230: #define TMCON_MUX_DIV8 (1<<2)
231: #define TMCON_MUX_DIV16 (2<<2)
232: #define TMCON_MUX_DIV32 (3<<2)
233: #define TMCON_INTENA (1<<1) /* Interrupt/DMA enable */
234: #define TMCON_ENABLE (1<<0) /* Count enable */
235: #define TIMER_TMDAT 0x04 /* data register */
236: #define TMDAT_PRESCALER (0xff<<16)
237: #define TMDAT_DATA 0xffff
238: #define TIMER_TMCNT 0x08 /* down counter */
239:
240: /* UART (Small diffs to S3C2400's UART) */
241: #define UMCON_AFC (1<<1) /* auto flow control */
242: #define UMSTAT_DCTS (1<<4) /* CTS change */
243: #define ULCON_IR (1<<7)
244: #define ULCON_PARITY_SHIFT 4
245:
246: /* Interrupt controller */
247: #define INTCTL_IRQPND 0x0c /* IRQ pending */
248: #define INTCTL_FIQPND 0x10 /* FIQ pending */
249:
250: /* Interrupt source */
251: #define S3C2800_INT_RTC 28 /* RTC alarm */
252: #define S3C2800_INT_TICK 27 /* RTC tick */
253: #define S3C2800_INT_FULL 26 /* Remocon data FIFO full */
254: #define S3C2800_INT_RMT 25 /* Remocon data input */
255: #define S3C2800_INT_UERR1 24 /* UART1 error */
256: #define S3C2800_INT_UERR0 23 /* UART0 error */
257: #define S3C2800_INT_TXD1 22 /* UART1 Tx */
258: #define S3C2800_INT_TXD0 21 /* UART0 Tx */
259: #define S3C2800_INT_RXD1 20 /* UART1 Rx */
260: #define S3C2800_INT_RXD0 19 /* UART0 Rx*/
261: #define S3C2800_INT_IIC1 18
262: #define S3C2800_INT_IIC0 17
263: #define S3C2800_INT_TIMER2 16
264: #define S3C2800_INT_TIMER1 15
265: #define S3C2800_INT_TIMER0 14
266: #define S3C2800_INT_DMA3 13
267: #define S3C2800_INT_DMA2 12
268: #define S3C2800_INT_DMA1 11
269: #define S3C2800_INT_DMA0 10
270: #define S3C2800_INT_PCI 8 /* PCI interrupt */
271: #define S3C2800_INT_EXT(n) (n) /* External interrupt [7:0] */
272:
273:
274: /* PCI space */
275: #define S3C2800_PCI_BASE 0x20000000
276: #define S3C2800_PCI_MEMSPACE_BASE 0x20000000 /* Memory space */
277: #define S3C2800_PCI_MEMSPACE_SIZE 0x08000000
278: #define S3C2800_PCI_CONF0_BASE 0x28000000 /* Config type 0 space */
279: #define S3C2800_PCI_CONF0_SIZE 0x0000b000
280: #define S3C2800_PCI_CONF1_BASE 0x2a000000 /* Config type 1 space */
281: #define S3C2800_PCI_CONF1_SIZE 0x02000000
282: #define S3C2800_PCI_IOSPACE_BASE 0x2e000000
283: #define S3C2800_PCI_IOSPACE_SIZE 0x00100000
284:
285: #define PCICTL_PCICON 0x0100 /* control and status */
286: #define PCICON_INT (1<<31) /* internal interrupt status */
287: #define PCICON_MBS (1<<29) /* PCI master interface busy */
288: #define PCICON_TBS (1<<28) /* PCI target interface busy */
289: #define PCICON_CRS (1<<27) /* ARM CPU reset status */
290: #define PCICON_RDY (1<<9) /* Enable PCI target read */
291: #define PCICON_CFD (1<<8) /* Configuration done */
292: #define PCICON_ATS (1<<4) /* Enable address translation */
293: #define PCICON_ARB (1<<1) /* Enable internal arbiter */
294: #define PCICON_HST (1<<0) /* bridge/adaptor */
295:
296: #define PCICTL_PCISET 0x104 /* PCI command, read count, DAC */
297: #define PCISET_CMD_SHIFT 17
298: #define PCISET_DAC_MASK 0xff
299:
300: #define PCICTL_PCIINTEN 0x108 /* interrupt enable */
301: #define PCICTL_PCIINTST 0x10c /* interrupt status */
302:
303: #define PCIINTEN_BAP (1<<31) /* INTA# in adapter mode */
304: #define PCIINTST_WDE (1<<31) /* master fatal error in read */
305: #define PCIINTST_RDE (1<<30) /* master fatal error in write */
306: #define PCIINT_INA (1<<10) /* INTA# enable */
307: #define PCIINT_SER (1<<9) /* SERR# interrupt enable */
308: #define PCIINT_TPE (1<<4) /* target parity error */
309: #define PCIINT_MPE (1<<3) /* master parity error */
310: #define PCIINT_MFE (1<<2) /* master fatal error */
311: #define PCIINT_PRA (1<<1) /* reset assert interrupt */
312: #define PCIINT_PRD (1<<0) /* reset de-assert interrupt */
313:
314: #define PCICTL_PCIBATPA0 0x140 /* address translation PCI to AHB BAR0 */
315: #define PCICTL_PCIBAM0 0x144 /* BAR0 mask */
316: #define PCICTL_PCIBATPA1 0x148 /* address translation PCI to AHB BAR1 */
317: #define PCICTL_PCIBAM1 0x14c /* BAR0 mask */
318: #define PCICTL_PCIBATPA2 0x150 /* address translation PCI to AHB BAR2 */
319: #define PCICTL_PCIBAM2 0x154 /* BAR0 mask */
320:
321: /* Watch dog timer */
322: #define WDT_WTPSCLR 0x00
323: #define WDT_WTCON 0x04
324: #define WTCON_WDTSTOP 0xa5
325: #define WDT_WTCNT 0x08
326:
327: #endif /* _ARM_S3C2XX0_S3C2800REG_H_ */
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