/* * (C) Copyright 2001 Sysgo Real-Time Solutions, GmbH * Andreas Heppel * * See file CREDITS for list of people who contributed to this * project. * * 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 program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA */ /* * Initialisation of the PCI-to-ISA bridge and disabling the BIOS * write protection (for flash) in function 0 of the chip. * Enabling function 1 (IDE controller of the chip. */ #ifndef CONFIG_ISA_IO #define CONFIG_ISA_IO 0xFE000000 #endif #include #include #include #include #include "w83c553f.h" void initialise_pic(void); void initialise_dma(void); static void w83c553_init(struct device *dev) { printk_info("Configure W83C553F ISA Bridge (Function 0)\n"); #if 0 /* * Set ISA memory space NOT SURE ABOUT THIS??? */ reg8 = pci_read_config8(dev, W83C553F_IPADCR); /* 16 MB ISA memory space */ reg8 |= (W83C553F_IPADCR_IPATOM4 | W83C553F_IPADCR_IPATOM5 | W83C553F_IPADCR_IPATOM6 | W83C553F_IPADCR_IPATOM7); reg8 &= ~W83C553F_IPADCR_MBE512; pci_write_config8(dev, W83C553F_IPADCR, reg8); /* * Chip select: switch off BIOS write protection */ reg8 = pci_read_config8(dev, W83C553F_CSCR); reg8 |= W83C553F_CSCR_UBIOSCSE; reg8 &= ~W83C553F_CSCR_BIOSWP; pci_write_config8(dev, W83C553F_CSCR, reg8); /* * Enable Port 92 */ reg8 = W83C553F_ATSCR_P92E | W83C553F_ATSCR_KRCEE; pci_write_config8(dev, W83C553F_CSCR, reg8); /* * Route IDE interrupts to IRQ 14 & 15 on 8259. */ pci_write_config8(dev, W83C553F_IDEIRCR, 0x90); pci_write_config16(dev, W83C553F_PCIIRCR, 0xABEF); /* * Initialise ISA interrupt controller */ initialise_pic(); /* * Initialise DMA controller */ initialise_dma(); #endif printk_info("W83C553F configuration complete\n"); } void initialise_pic(void) { outb(W83C553F_PIC1_ICW1, 0x11); /* start init sequence, ICW4 needed */ outb(W83C553F_PIC1_ICW2, 0x08); /* base address 00001 */ outb(W83C553F_PIC1_ICW3, 0x04); /* slave on IRQ2 */ outb(W83C553F_PIC1_ICW4, 0x01); /* x86 mode */ outb(W83C553F_PIC1_OCW1, 0xfb); /* enable IRQ 2 */ outb(W83C553F_PIC1_ELC, 0xf8); /* all IRQ's edge sensitive */ outb(W83C553F_PIC2_ICW1, 0x11); /* start init sequence, ICW4 needed */ outb(W83C553F_PIC2_ICW2, 0x08); /* base address 00001 */ outb(W83C553F_PIC2_ICW3, 0x02); /* slave ID 2 */ outb(W83C553F_PIC2_ICW4, 0x01); /* x86 mode */ outb(W83C553F_PIC2_OCW1, 0xff); /* disable all IRQ's */ outb(W83C553F_PIC2_ELC, 0xde); /* all IRQ's edge sensitive */ outb(W83C553F_TMR1_CMOD, 0x74); outb(W83C553F_PIC2_OCW1, 0x20); outb(W83C553F_PIC1_OCW1, 0x20); outb(W83C553F_PIC2_OCW1, 0x2b); outb(W83C553F_PIC1_OCW1, 0x2b); } void initialise_dma(void) { unsigned int channel; unsigned int rvalue1, rvalue2; /* perform a H/W reset of the devices */ outb(W83C553F_DMA1 + W83C553F_DMA1_MC, 0x00); outw(W83C553F_DMA2 + W83C553F_DMA2_MC, 0x0000); /* initialise all channels to a sane state */ for (channel = 0; channel < 4; channel++) { /* * dependent upon the channel, setup the specifics: * * demand * address-increment * autoinitialize-disable * verify-transfer */ switch (channel) { case 0: rvalue1 = (W83C553F_MODE_TM_DEMAND|W83C553F_MODE_CH0SEL|W83C553F_MODE_TT_VERIFY); rvalue2 = (W83C553F_MODE_TM_CASCADE|W83C553F_MODE_CH0SEL); break; case 1: rvalue1 = (W83C553F_MODE_TM_DEMAND|W83C553F_MODE_CH1SEL|W83C553F_MODE_TT_VERIFY); rvalue2 = (W83C553F_MODE_TM_DEMAND|W83C553F_MODE_CH1SEL|W83C553F_MODE_TT_VERIFY); break; case 2: rvalue1 = (W83C553F_MODE_TM_DEMAND|W83C553F_MODE_CH2SEL|W83C553F_MODE_TT_VERIFY); rvalue2 = (W83C553F_MODE_TM_DEMAND|W83C553F_MODE_CH2SEL|W83C553F_MODE_TT_VERIFY); break; case 3: rvalue1 = (W83C553F_MODE_TM_DEMAND|W83C553F_MODE_CH3SEL|W83C553F_MODE_TT_VERIFY); rvalue2 = (W83C553F_MODE_TM_DEMAND|W83C553F_MODE_CH3SEL|W83C553F_MODE_TT_VERIFY); break; default: rvalue1 = 0x00; rvalue2 = 0x00; break; } /* write to write mode registers */ outb(W83C553F_DMA1 + W83C553F_DMA1_WM, rvalue1 & 0xFF); outw(W83C553F_DMA2 + W83C553F_DMA2_WM, rvalue2 & 0x00FF); } /* enable all channels */ outb(W83C553F_DMA1 + W83C553F_DMA1_CM, 0x00); outw(W83C553F_DMA2 + W83C553F_DMA2_CM, 0x0000); /* * initialize the global DMA configuration * * DACK# active low * DREQ active high * fixed priority * channel group enable */ outb(W83C553F_DMA1 + W83C553F_DMA1_CS, 0x00); outw(W83C553F_DMA2 + W83C553F_DMA2_CS, 0x0000); } static void w83c553_enable_resources(device_t dev) { pci_dev_enable_resources(dev); enable_childrens_resources(dev); } struct device_operations w83c553_ops = { .read_resources = pci_dev_read_resources, .set_resources = pci_dev_set_resources, .enable_resources = w83c553_enable_resources, .init = w83c553_init, .scan_bus = scan_static_bus, }; struct pci_driver w83c553f_pci_driver __pci_driver = { /* w83c553f */ .ops = &w83c553_ops, .device = PCI_DEVICE_ID_WINBOND_83C553, .vendor = PCI_VENDOR_ID_WINBOND, };