1 #include <linux/kernel.h>
2 #include <linux/types.h>
3 #include <linux/init.h>
4 #include <linux/delay.h>
9 int __init pcibios_map_platform_irq(u8 slot, u8 pin)
13 case 1: return 13; /* AMD Ethernet controller */
18 printk("PCI: Bad IRQ mapping request for slot %d\n", slot);
23 #define PCIMCR_MRSET_OFF 0xBFFFFFFF
24 #define PCIMCR_RFSH_OFF 0xFFFFFFFB
27 * Only long word accesses of the PCIC's internal local registers and the
28 * configuration registers from the CPU is supported.
30 #define PCIC_WRITE(x,v) writel((v), PCI_REG(x))
31 #define PCIC_READ(x) readl(PCI_REG(x))
34 * Description: This function sets up and initializes the pcic, sets
35 * up the BARS, maps the DRAM into the address space etc, etc.
37 int pci_fixup_pcic(struct pci_channel *chan)
39 unsigned long bcr1, wcr1, wcr2, wcr3, mcr;
43 * Initialize the slave bus controller on the pcic. The values used
44 * here should not be hardcoded, but they should be taken from the bsc
45 * on the processor, to make this function as generic as possible.
46 * (i.e. Another sbc may usr different SDRAM timing settings -- in order
47 * for the pcic to work, its settings need to be exactly the same.)
49 bcr1 = (*(volatile unsigned long*)(SH7751_BCR1));
50 bcr2 = (*(volatile unsigned short*)(SH7751_BCR2));
51 wcr1 = (*(volatile unsigned long*)(SH7751_WCR1));
52 wcr2 = (*(volatile unsigned long*)(SH7751_WCR2));
53 wcr3 = (*(volatile unsigned long*)(SH7751_WCR3));
54 mcr = (*(volatile unsigned long*)(SH7751_MCR));
56 bcr1 = bcr1 | 0x00080000; /* Enable Bit 19, BREQEN */
57 (*(volatile unsigned long*)(SH7751_BCR1)) = bcr1;
59 bcr1 = bcr1 | 0x40080000; /* Enable Bit 19 BREQEN, set PCIC to slave */
60 PCIC_WRITE(SH7751_PCIBCR1, bcr1); /* PCIC BCR1 */
61 PCIC_WRITE(SH7751_PCIBCR2, bcr2); /* PCIC BCR2 */
62 PCIC_WRITE(SH7751_PCIWCR1, wcr1); /* PCIC WCR1 */
63 PCIC_WRITE(SH7751_PCIWCR2, wcr2); /* PCIC WCR2 */
64 PCIC_WRITE(SH7751_PCIWCR3, wcr3); /* PCIC WCR3 */
65 mcr = (mcr & PCIMCR_MRSET_OFF) & PCIMCR_RFSH_OFF;
66 PCIC_WRITE(SH7751_PCIMCR, mcr); /* PCIC MCR */
69 /* Enable all interrupts, so we know what to fix */
70 PCIC_WRITE(SH7751_PCIINTM, 0x0000c3ff);
71 PCIC_WRITE(SH7751_PCIAINTM, 0x0000380f);
73 /* Set up standard PCI config registers */
74 PCIC_WRITE(SH7751_PCICONF1, 0xF39000C7); /* Bus Master, Mem & I/O access */
75 PCIC_WRITE(SH7751_PCICONF2, 0x00000000); /* PCI Class code & Revision ID */
76 PCIC_WRITE(SH7751_PCICONF4, 0xab000001); /* PCI I/O address (local regs) */
77 PCIC_WRITE(SH7751_PCICONF5, 0x0c000000); /* PCI MEM address (local RAM) */
78 PCIC_WRITE(SH7751_PCICONF6, 0xd0000000); /* PCI MEM address (unused) */
79 PCIC_WRITE(SH7751_PCICONF11, 0x35051054); /* PCI Subsystem ID & Vendor ID */
80 PCIC_WRITE(SH7751_PCILSR0, 0x03f00000); /* MEM (full 64M exposed) */
81 PCIC_WRITE(SH7751_PCILSR1, 0x00000000); /* MEM (unused) */
82 PCIC_WRITE(SH7751_PCILAR0, 0x0c000000); /* MEM (direct map from PCI) */
83 PCIC_WRITE(SH7751_PCILAR1, 0x00000000); /* MEM (unused) */
85 /* Now turn it on... */
86 PCIC_WRITE(SH7751_PCICR, 0xa5000001);
89 * Set PCIMBR and PCIIOBR here, assuming a single window
90 * (16M MEM, 256K IO) is enough. If a larger space is
91 * needed, the readx/writex and inx/outx functions will
92 * have to do more (e.g. setting registers for each call).
96 * Set the MBR so PCI address is one-to-one with window,
97 * meaning all calls go straight through... use BUG_ON to
98 * catch erroneous assumption.
100 BUG_ON(chan->mem_resource->start != SH7751_PCI_MEMORY_BASE);
102 PCIC_WRITE(SH7751_PCIMBR, chan->mem_resource->start);
104 /* Set IOBR for window containing area specified in pci.h */
105 PCIC_WRITE(SH7751_PCIIOBR, (chan->io_resource->start & SH7751_PCIIOBR_MASK));
107 /* All done, may as well say so... */
108 printk("SH7751 PCI: Finished initialization of the PCI controller\n");