/* * arch/sh/mach-cayman/setup.c * * SH5 Cayman support * * Copyright (C) 2002 David J. Mckay & Benedict Gaster * Copyright (C) 2003 - 2007 Paul Mundt * * 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. */ #include <linux/init.h> #include <linux/io.h> #include <linux/kernel.h> #include <cpu/irq.h> /* * Platform Dependent Interrupt Priorities. */ /* Using defaults defined in irq.h */ #define RES NO_PRIORITY /* Disabled */ #define IR0 IRL0_PRIORITY /* IRLs */ #define IR1 IRL1_PRIORITY #define IR2 IRL2_PRIORITY #define IR3 IRL3_PRIORITY #define PCA INTA_PRIORITY /* PCI Ints */ #define PCB INTB_PRIORITY #define PCC INTC_PRIORITY #define PCD INTD_PRIORITY #define SER TOP_PRIORITY #define ERR TOP_PRIORITY #define PW0 TOP_PRIORITY #define PW1 TOP_PRIORITY #define PW2 TOP_PRIORITY #define PW3 TOP_PRIORITY #define DM0 NO_PRIORITY /* DMA Ints */ #define DM1 NO_PRIORITY #define DM2 NO_PRIORITY #define DM3 NO_PRIORITY #define DAE NO_PRIORITY #define TU0 TIMER_PRIORITY /* TMU Ints */ #define TU1 NO_PRIORITY #define TU2 NO_PRIORITY #define TI2 NO_PRIORITY #define ATI NO_PRIORITY /* RTC Ints */ #define PRI NO_PRIORITY #define CUI RTC_PRIORITY #define ERI SCIF_PRIORITY /* SCIF Ints */ #define RXI SCIF_PRIORITY #define BRI SCIF_PRIORITY #define TXI SCIF_PRIORITY #define ITI TOP_PRIORITY /* WDT Ints */ /* Setup for the SMSC FDC37C935 */ #define SMSC_SUPERIO_BASE 0x04000000 #define SMSC_CONFIG_PORT_ADDR 0x3f0 #define SMSC_INDEX_PORT_ADDR SMSC_CONFIG_PORT_ADDR #define SMSC_DATA_PORT_ADDR 0x3f1 #define SMSC_ENTER_CONFIG_KEY 0x55 #define SMSC_EXIT_CONFIG_KEY 0xaa #define SMCS_LOGICAL_DEV_INDEX 0x07 #define SMSC_DEVICE_ID_INDEX 0x20 #define SMSC_DEVICE_REV_INDEX 0x21 #define SMSC_ACTIVATE_INDEX 0x30 #define SMSC_PRIMARY_BASE_INDEX 0x60 #define SMSC_SECONDARY_BASE_INDEX 0x62 #define SMSC_PRIMARY_INT_INDEX 0x70 #define SMSC_SECONDARY_INT_INDEX 0x72 #define SMSC_IDE1_DEVICE 1 #define SMSC_KEYBOARD_DEVICE 7 #define SMSC_CONFIG_REGISTERS 8 #define SMSC_SUPERIO_READ_INDEXED(index) ({ \ outb((index), SMSC_INDEX_PORT_ADDR); \ inb(SMSC_DATA_PORT_ADDR); }) #define SMSC_SUPERIO_WRITE_INDEXED(val, index) ({ \ outb((index), SMSC_INDEX_PORT_ADDR); \ outb((val), SMSC_DATA_PORT_ADDR); }) #define IDE1_PRIMARY_BASE 0x01f0 #define IDE1_SECONDARY_BASE 0x03f6 unsigned long smsc_superio_virt; int platform_int_priority[NR_INTC_IRQS] = { IR0, IR1, IR2, IR3, PCA, PCB, PCC, PCD, /* IRQ 0- 7 */ RES, RES, RES, RES, SER, ERR, PW3, PW2, /* IRQ 8-15 */ PW1, PW0, DM0, DM1, DM2, DM3, DAE, RES, /* IRQ 16-23 */ RES, RES, RES, RES, RES, RES, RES, RES, /* IRQ 24-31 */ TU0, TU1, TU2, TI2, ATI, PRI, CUI, ERI, /* IRQ 32-39 */ RXI, BRI, TXI, RES, RES, RES, RES, RES, /* IRQ 40-47 */ RES, RES, RES, RES, RES, RES, RES, RES, /* IRQ 48-55 */ RES, RES, RES, RES, RES, RES, RES, ITI, /* IRQ 56-63 */ }; static int __init smsc_superio_setup(void) { unsigned char devid, devrev; smsc_superio_virt = (unsigned long)ioremap_nocache(SMSC_SUPERIO_BASE, 1024); if (!smsc_superio_virt) { panic("Unable to remap SMSC SuperIO\n"); } /* Initially the chip is in run state */ /* Put it into configuration state */ outb(SMSC_ENTER_CONFIG_KEY, SMSC_CONFIG_PORT_ADDR); outb(SMSC_ENTER_CONFIG_KEY, SMSC_CONFIG_PORT_ADDR); /* Read device ID info */ devid = SMSC_SUPERIO_READ_INDEXED(SMSC_DEVICE_ID_INDEX); devrev = SMSC_SUPERIO_READ_INDEXED(SMSC_DEVICE_REV_INDEX); printk("SMSC SuperIO devid %02x rev %02x\n", devid, devrev); /* Select the keyboard device */ SMSC_SUPERIO_WRITE_INDEXED(SMSC_KEYBOARD_DEVICE, SMCS_LOGICAL_DEV_INDEX); /* enable it */ SMSC_SUPERIO_WRITE_INDEXED(1, SMSC_ACTIVATE_INDEX); /* Select the interrupts */ /* On a PC keyboard is IRQ1, mouse is IRQ12 */ SMSC_SUPERIO_WRITE_INDEXED(1, SMSC_PRIMARY_INT_INDEX); SMSC_SUPERIO_WRITE_INDEXED(12, SMSC_SECONDARY_INT_INDEX); #ifdef CONFIG_IDE /* * Only IDE1 exists on the Cayman */ /* Power it on */ SMSC_SUPERIO_WRITE_INDEXED(1 << SMSC_IDE1_DEVICE, 0x22); SMSC_SUPERIO_WRITE_INDEXED(SMSC_IDE1_DEVICE, SMCS_LOGICAL_DEV_INDEX); SMSC_SUPERIO_WRITE_INDEXED(1, SMSC_ACTIVATE_INDEX); SMSC_SUPERIO_WRITE_INDEXED(IDE1_PRIMARY_BASE >> 8, SMSC_PRIMARY_BASE_INDEX + 0); SMSC_SUPERIO_WRITE_INDEXED(IDE1_PRIMARY_BASE & 0xff, SMSC_PRIMARY_BASE_INDEX + 1); SMSC_SUPERIO_WRITE_INDEXED(IDE1_SECONDARY_BASE >> 8, SMSC_SECONDARY_BASE_INDEX + 0); SMSC_SUPERIO_WRITE_INDEXED(IDE1_SECONDARY_BASE & 0xff, SMSC_SECONDARY_BASE_INDEX + 1); SMSC_SUPERIO_WRITE_INDEXED(14, SMSC_PRIMARY_INT_INDEX); SMSC_SUPERIO_WRITE_INDEXED(SMSC_CONFIG_REGISTERS, SMCS_LOGICAL_DEV_INDEX); SMSC_SUPERIO_WRITE_INDEXED(0x00, 0xc2); /* GP42 = nIDE1_OE */ SMSC_SUPERIO_WRITE_INDEXED(0x01, 0xc5); /* GP45 = IDE1_IRQ */ SMSC_SUPERIO_WRITE_INDEXED(0x00, 0xc6); /* GP46 = nIOROP */ SMSC_SUPERIO_WRITE_INDEXED(0x00, 0xc7); /* GP47 = nIOWOP */ #endif /* Exit the configuration state */ outb(SMSC_EXIT_CONFIG_KEY, SMSC_CONFIG_PORT_ADDR); return 0; } device_initcall(smsc_superio_setup); static void __iomem *cayman_ioport_map(unsigned long port, unsigned int len) { if (port < 0x400) { extern unsigned long smsc_superio_virt; return (void __iomem *)((port << 2) | smsc_superio_virt); } return (void __iomem *)port; } extern void init_cayman_irq(void); static struct sh_machine_vector mv_cayman __initmv = { .mv_name = "Hitachi Cayman", .mv_nr_irqs = 64, .mv_ioport_map = cayman_ioport_map, .mv_init_irq = init_cayman_irq, };