/* * This file is subject to the terms and conditions of the GNU General Public * License. See the file "COPYING" in the main directory of this archive * for more details. * * Copyright (C) 1995 - 1998 by Andreas Busse and Ralf Baechle */ #ifndef __ASM_JAZZ_H #define __ASM_JAZZ_H /* * The addresses below are virtual address. The mappings are * created on startup via wired entries in the tlb. The Mips * Magnum R3000 and R4000 machines are similar in many aspects, * but many hardware register are accessible at 0xb9000000 in * instead of 0xe0000000. */ #define JAZZ_LOCAL_IO_SPACE 0xe0000000 /* * Revision numbers in PICA_ASIC_REVISION * * 0xf0000000 - Rev1 * 0xf0000001 - Rev2 * 0xf0000002 - Rev3 */ #define PICA_ASIC_REVISION 0xe0000008 /* * The segments of the seven segment LED are mapped * to the control bits as follows: * * (7) * --------- * | | * (2) | | (6) * | (1) | * --------- * | | * (3) | | (5) * | (4) | * --------- . (0) */ #define PICA_LED 0xe000f000 /* * Some characters for the LED control registers * The original Mips machines seem to have a LED display * with integrated decoder while the Acer machines can * control each of the seven segments and the dot independently. * It's only a toy, anyway... */ #define LED_DOT 0x01 #define LED_SPACE 0x00 #define LED_0 0xfc #define LED_1 0x60 #define LED_2 0xda #define LED_3 0xf2 #define LED_4 0x66 #define LED_5 0xb6 #define LED_6 0xbe #define LED_7 0xe0 #define LED_8 0xfe #define LED_9 0xf6 #define LED_A 0xee #define LED_b 0x3e #define LED_C 0x9c #define LED_d 0x7a #define LED_E 0x9e #define LED_F 0x8e #ifndef __ASSEMBLY__ static __inline__ void pica_set_led(unsigned int bits) { volatile unsigned int *led_register = (unsigned int *) PICA_LED; *led_register = bits; } #endif /* !__ASSEMBLY__ */ /* * Base address of the Sonic Ethernet adapter in Jazz machines. */ #define JAZZ_ETHERNET_BASE 0xe0001000 /* * Base address of the 53C94 SCSI hostadapter in Jazz machines. */ #define JAZZ_SCSI_BASE 0xe0002000 /* * i8042 keyboard controller for JAZZ and PICA chipsets. * This address is just a guess and seems to differ from * other mips machines such as RC3xxx... */ #define JAZZ_KEYBOARD_ADDRESS 0xe0005000 #define JAZZ_KEYBOARD_DATA 0xe0005000 #define JAZZ_KEYBOARD_COMMAND 0xe0005001 #ifndef __ASSEMBLY__ typedef struct { unsigned char data; unsigned char command; } jazz_keyboard_hardware; #define jazz_kh ((keyboard_hardware *) JAZZ_KEYBOARD_ADDRESS) typedef struct { unsigned char pad0[3]; unsigned char data; unsigned char pad1[3]; unsigned char command; } mips_keyboard_hardware; /* * For now. Needs to be changed for RC3xxx support. See below. */ #define keyboard_hardware jazz_keyboard_hardware #endif /* !__ASSEMBLY__ */ /* * i8042 keyboard controller for most other Mips machines. */ #define MIPS_KEYBOARD_ADDRESS 0xb9005000 #define MIPS_KEYBOARD_DATA 0xb9005003 #define MIPS_KEYBOARD_COMMAND 0xb9005007 /* * Serial and parallel ports (WD 16C552) on the Mips JAZZ */ #define JAZZ_SERIAL1_BASE (unsigned int)0xe0006000 #define JAZZ_SERIAL2_BASE (unsigned int)0xe0007000 #define JAZZ_PARALLEL_BASE (unsigned int)0xe0008000 /* * Dummy Device Address. Used in jazzdma.c */ #define JAZZ_DUMMY_DEVICE 0xe000d000 /* * JAZZ timer registers and interrupt no. * Note that the hardware timer interrupt is actually on * cpu level 6, but to keep compatibility with PC stuff * it is remapped to vector 0. See arch/mips/kernel/entry.S. */ #define JAZZ_TIMER_INTERVAL 0xe0000228 #define JAZZ_TIMER_REGISTER 0xe0000230 /* * DRAM configuration register */ #ifndef __ASSEMBLY__ #ifdef __MIPSEL__ typedef struct { unsigned int bank2 : 3; unsigned int bank1 : 3; unsigned int mem_bus_width : 1; unsigned int reserved2 : 1; unsigned int page_mode : 1; unsigned int reserved1 : 23; } dram_configuration; #else /* defined (__MIPSEB__) */ typedef struct { unsigned int reserved1 : 23; unsigned int page_mode : 1; unsigned int reserved2 : 1; unsigned int mem_bus_width : 1; unsigned int bank1 : 3; unsigned int bank2 : 3; } dram_configuration; #endif #endif /* !__ASSEMBLY__ */ #define PICA_DRAM_CONFIG 0xe00fffe0 /* * JAZZ interrupt control registers */ #define JAZZ_IO_IRQ_SOURCE 0xe0010000 #define JAZZ_IO_IRQ_ENABLE 0xe0010002 /* * JAZZ interrupt enable bits */ #define JAZZ_IE_PARALLEL (1 << 0) #define JAZZ_IE_FLOPPY (1 << 1) #define JAZZ_IE_SOUND (1 << 2) #define JAZZ_IE_VIDEO (1 << 3) #define JAZZ_IE_ETHERNET (1 << 4) #define JAZZ_IE_SCSI (1 << 5) #define JAZZ_IE_KEYBOARD (1 << 6) #define JAZZ_IE_MOUSE (1 << 7) #define JAZZ_IE_SERIAL1 (1 << 8) #define JAZZ_IE_SERIAL2 (1 << 9) /* * JAZZ Interrupt Level definitions * * This is somewhat broken. For reasons which nobody can remember anymore * we remap the Jazz interrupts to the usual ISA style interrupt numbers. */ #define JAZZ_PARALLEL_IRQ 16 #define JAZZ_FLOPPY_IRQ 17 #define JAZZ_SOUND_IRQ 18 #define JAZZ_VIDEO_IRQ 19 #define JAZZ_ETHERNET_IRQ 20 #define JAZZ_SCSI_IRQ 21 #define JAZZ_KEYBOARD_IRQ 22 #define JAZZ_MOUSE_IRQ 23 #define JAZZ_SERIAL1_IRQ 24 #define JAZZ_SERIAL2_IRQ 25 #define JAZZ_TIMER_IRQ 31 /* * JAZZ DMA Channels * Note: Channels 4...7 are not used with respect to the Acer PICA-61 * chipset which does not provide these DMA channels. */ #define JAZZ_SCSI_DMA 0 /* SCSI */ #define JAZZ_FLOPPY_DMA 1 /* FLOPPY */ #define JAZZ_AUDIOL_DMA 2 /* AUDIO L */ #define JAZZ_AUDIOR_DMA 3 /* AUDIO R */ /* * JAZZ R4030 MCT_ADR chip (DMA controller) * Note: Virtual Addresses ! */ #define JAZZ_R4030_CONFIG 0xE0000000 /* R4030 config register */ #define JAZZ_R4030_REVISION 0xE0000008 /* same as PICA_ASIC_REVISION */ #define JAZZ_R4030_INV_ADDR 0xE0000010 /* Invalid Address register */ #define JAZZ_R4030_TRSTBL_BASE 0xE0000018 /* Translation Table Base */ #define JAZZ_R4030_TRSTBL_LIM 0xE0000020 /* Translation Table Limit */ #define JAZZ_R4030_TRSTBL_INV 0xE0000028 /* Translation Table Invalidate */ #define JAZZ_R4030_CACHE_MTNC 0xE0000030 /* Cache Maintenance */ #define JAZZ_R4030_R_FAIL_ADDR 0xE0000038 /* Remote Failed Address */ #define JAZZ_R4030_M_FAIL_ADDR 0xE0000040 /* Memory Failed Address */ #define JAZZ_R4030_CACHE_PTAG 0xE0000048 /* I/O Cache Physical Tag */ #define JAZZ_R4030_CACHE_LTAG 0xE0000050 /* I/O Cache Logical Tag */ #define JAZZ_R4030_CACHE_BMASK 0xE0000058 /* I/O Cache Byte Mask */ #define JAZZ_R4030_CACHE_BWIN 0xE0000060 /* I/O Cache Buffer Window */ /* * Remote Speed Registers. * * 0: free, 1: Ethernet, 2: SCSI, 3: Floppy, * 4: RTC, 5: Kb./Mouse 6: serial 1, 7: serial 2, * 8: parallel, 9: NVRAM, 10: CPU, 11: PROM, * 12: reserved, 13: free, 14: 7seg LED, 15: ??? */ #define JAZZ_R4030_REM_SPEED 0xE0000070 /* 16 Remote Speed Registers */ /* 0xE0000070,78,80... 0xE00000E8 */ #define JAZZ_R4030_IRQ_ENABLE 0xE00000E8 /* Internal Interrupt Enable */ #define JAZZ_R4030_INVAL_ADDR 0xE0000010 /* Invalid address Register */ #define JAZZ_R4030_IRQ_SOURCE 0xE0000200 /* Interrupt Source Register */ #define JAZZ_R4030_I386_ERROR 0xE0000208 /* i386/EISA Bus Error */ /* * Virtual (E)ISA controller address */ #define JAZZ_EISA_IRQ_ACK 0xE0000238 /* EISA interrupt acknowledge */ /* * Access the R4030 DMA and I/O Controller */ #ifndef __ASSEMBLY__ static inline void r4030_delay(void) { __asm__ __volatile__( ".set\tnoreorder\n\t" "nop\n\t" "nop\n\t" "nop\n\t" "nop\n\t" ".set\treorder"); } static inline unsigned short r4030_read_reg16(unsigned long addr) { unsigned short ret = *((volatile unsigned short *)addr); r4030_delay(); return ret; } static inline unsigned int r4030_read_reg32(unsigned long addr) { unsigned int ret = *((volatile unsigned int *)addr); r4030_delay(); return ret; } static inline void r4030_write_reg16(unsigned long addr, unsigned val) { *((volatile unsigned short *)addr) = val; r4030_delay(); } static inline void r4030_write_reg32(unsigned long addr, unsigned val) { *((volatile unsigned int *)addr) = val; r4030_delay(); } #endif /* !__ASSEMBLY__ */ #define JAZZ_FDC_BASE 0xe0003000 #define JAZZ_RTC_BASE 0xe0004000 #define JAZZ_PORT_BASE 0xe2000000 #define JAZZ_EISA_BASE 0xe3000000 #endif /* __ASM_JAZZ_H */