4130a4b206
1) probe_other_fhcs() wants to see only non-central FHC busses, so skip FHCs that don't sit off the root 2) Like SBUS, FHC can lack the appropriate address and size cell count properties, so add an of_busses[] entry and handlers for that. 3) Central FHC irq translator probing was buggy. We were trying to use dp->child in irq_trans_init but that linkage is not setup at this point. So instead, pass in the parent of "dp" and look for the child "fhc" with parent "central". Thanks to the tireless assistence of Ben Collins in tracking down these problems and testing out these fixes. Signed-off-by: David S. Miller <davem@davemloft.net>
460 lines
11 KiB
C
460 lines
11 KiB
C
/* $Id: central.c,v 1.15 2001/12/19 00:29:51 davem Exp $
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* central.c: Central FHC driver for Sunfire/Starfire/Wildfire.
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*
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* Copyright (C) 1997, 1999 David S. Miller (davem@redhat.com)
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*/
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#include <linux/kernel.h>
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#include <linux/types.h>
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#include <linux/string.h>
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#include <linux/timer.h>
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#include <linux/sched.h>
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#include <linux/delay.h>
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#include <linux/init.h>
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#include <linux/bootmem.h>
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#include <asm/page.h>
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#include <asm/fhc.h>
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#include <asm/starfire.h>
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struct linux_central *central_bus = NULL;
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struct linux_fhc *fhc_list = NULL;
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#define IS_CENTRAL_FHC(__fhc) ((__fhc) == central_bus->child)
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static void central_probe_failure(int line)
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{
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prom_printf("CENTRAL: Critical device probe failure at central.c:%d\n",
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line);
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prom_halt();
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}
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static void central_ranges_init(struct linux_central *central)
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{
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struct device_node *dp = central->prom_node;
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void *pval;
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int len;
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central->num_central_ranges = 0;
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pval = of_get_property(dp, "ranges", &len);
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if (pval) {
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memcpy(central->central_ranges, pval, len);
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central->num_central_ranges =
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(len / sizeof(struct linux_prom_ranges));
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}
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}
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static void fhc_ranges_init(struct linux_fhc *fhc)
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{
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struct device_node *dp = fhc->prom_node;
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void *pval;
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int len;
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fhc->num_fhc_ranges = 0;
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pval = of_get_property(dp, "ranges", &len);
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if (pval) {
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memcpy(fhc->fhc_ranges, pval, len);
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fhc->num_fhc_ranges =
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(len / sizeof(struct linux_prom_ranges));
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}
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}
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/* Range application routines are exported to various drivers,
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* so do not __init this.
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*/
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static void adjust_regs(struct linux_prom_registers *regp, int nregs,
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struct linux_prom_ranges *rangep, int nranges)
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{
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int regc, rngc;
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for (regc = 0; regc < nregs; regc++) {
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for (rngc = 0; rngc < nranges; rngc++)
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if (regp[regc].which_io == rangep[rngc].ot_child_space)
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break; /* Fount it */
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if (rngc == nranges) /* oops */
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central_probe_failure(__LINE__);
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regp[regc].which_io = rangep[rngc].ot_parent_space;
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regp[regc].phys_addr -= rangep[rngc].ot_child_base;
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regp[regc].phys_addr += rangep[rngc].ot_parent_base;
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}
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}
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/* Apply probed fhc ranges to registers passed, if no ranges return. */
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void apply_fhc_ranges(struct linux_fhc *fhc,
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struct linux_prom_registers *regs,
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int nregs)
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{
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if (fhc->num_fhc_ranges)
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adjust_regs(regs, nregs, fhc->fhc_ranges,
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fhc->num_fhc_ranges);
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}
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/* Apply probed central ranges to registers passed, if no ranges return. */
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void apply_central_ranges(struct linux_central *central,
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struct linux_prom_registers *regs, int nregs)
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{
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if (central->num_central_ranges)
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adjust_regs(regs, nregs, central->central_ranges,
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central->num_central_ranges);
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}
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void * __init central_alloc_bootmem(unsigned long size)
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{
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void *ret;
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ret = __alloc_bootmem(size, SMP_CACHE_BYTES, 0UL);
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if (ret != NULL)
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memset(ret, 0, size);
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return ret;
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}
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static unsigned long prom_reg_to_paddr(struct linux_prom_registers *r)
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{
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unsigned long ret = ((unsigned long) r->which_io) << 32;
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return ret | (unsigned long) r->phys_addr;
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}
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static void probe_other_fhcs(void)
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{
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struct device_node *dp;
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struct linux_prom64_registers *fpregs;
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for_each_node_by_name(dp, "fhc") {
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struct linux_fhc *fhc;
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int board;
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u32 tmp;
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if (dp->parent &&
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dp->parent->parent != NULL)
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continue;
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fhc = (struct linux_fhc *)
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central_alloc_bootmem(sizeof(struct linux_fhc));
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if (fhc == NULL)
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central_probe_failure(__LINE__);
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/* Link it into the FHC chain. */
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fhc->next = fhc_list;
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fhc_list = fhc;
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/* Toplevel FHCs have no parent. */
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fhc->parent = NULL;
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fhc->prom_node = dp;
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fhc_ranges_init(fhc);
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/* Non-central FHC's have 64-bit OBP format registers. */
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fpregs = of_get_property(dp, "reg", NULL);
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if (!fpregs)
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central_probe_failure(__LINE__);
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/* Only central FHC needs special ranges applied. */
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fhc->fhc_regs.pregs = fpregs[0].phys_addr;
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fhc->fhc_regs.ireg = fpregs[1].phys_addr;
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fhc->fhc_regs.ffregs = fpregs[2].phys_addr;
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fhc->fhc_regs.sregs = fpregs[3].phys_addr;
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fhc->fhc_regs.uregs = fpregs[4].phys_addr;
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fhc->fhc_regs.tregs = fpregs[5].phys_addr;
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board = of_getintprop_default(dp, "board#", -1);
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fhc->board = board;
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tmp = upa_readl(fhc->fhc_regs.pregs + FHC_PREGS_JCTRL);
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if ((tmp & FHC_JTAG_CTRL_MENAB) != 0)
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fhc->jtag_master = 1;
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else
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fhc->jtag_master = 0;
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tmp = upa_readl(fhc->fhc_regs.pregs + FHC_PREGS_ID);
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printk("FHC(board %d): Version[%x] PartID[%x] Manuf[%x] %s\n",
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board,
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(tmp & FHC_ID_VERS) >> 28,
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(tmp & FHC_ID_PARTID) >> 12,
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(tmp & FHC_ID_MANUF) >> 1,
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(fhc->jtag_master ? "(JTAG Master)" : ""));
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/* This bit must be set in all non-central FHC's in
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* the system. When it is clear, this identifies
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* the central board.
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*/
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tmp = upa_readl(fhc->fhc_regs.pregs + FHC_PREGS_CTRL);
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tmp |= FHC_CONTROL_IXIST;
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upa_writel(tmp, fhc->fhc_regs.pregs + FHC_PREGS_CTRL);
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}
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}
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static void probe_clock_board(struct linux_central *central,
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struct linux_fhc *fhc,
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struct device_node *fp)
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{
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struct device_node *dp;
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struct linux_prom_registers cregs[3], *pr;
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int nslots, tmp, nregs;
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dp = fp->child;
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while (dp) {
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if (!strcmp(dp->name, "clock-board"))
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break;
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dp = dp->sibling;
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}
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if (!dp)
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central_probe_failure(__LINE__);
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pr = of_get_property(dp, "reg", &nregs);
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if (!pr)
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central_probe_failure(__LINE__);
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memcpy(cregs, pr, nregs);
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nregs /= sizeof(struct linux_prom_registers);
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apply_fhc_ranges(fhc, &cregs[0], nregs);
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apply_central_ranges(central, &cregs[0], nregs);
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central->cfreg = prom_reg_to_paddr(&cregs[0]);
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central->clkregs = prom_reg_to_paddr(&cregs[1]);
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if (nregs == 2)
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central->clkver = 0UL;
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else
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central->clkver = prom_reg_to_paddr(&cregs[2]);
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tmp = upa_readb(central->clkregs + CLOCK_STAT1);
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tmp &= 0xc0;
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switch(tmp) {
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case 0x40:
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nslots = 16;
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break;
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case 0xc0:
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nslots = 8;
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break;
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case 0x80:
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if (central->clkver != 0UL &&
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upa_readb(central->clkver) != 0) {
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if ((upa_readb(central->clkver) & 0x80) != 0)
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nslots = 4;
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else
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nslots = 5;
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break;
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}
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default:
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nslots = 4;
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break;
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};
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central->slots = nslots;
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printk("CENTRAL: Detected %d slot Enterprise system. cfreg[%02x] cver[%02x]\n",
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central->slots, upa_readb(central->cfreg),
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(central->clkver ? upa_readb(central->clkver) : 0x00));
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}
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static void ZAP(unsigned long iclr, unsigned long imap)
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{
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u32 imap_tmp;
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upa_writel(0, iclr);
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upa_readl(iclr);
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imap_tmp = upa_readl(imap);
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imap_tmp &= ~(0x80000000);
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upa_writel(imap_tmp, imap);
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upa_readl(imap);
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}
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static void init_all_fhc_hw(void)
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{
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struct linux_fhc *fhc;
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for (fhc = fhc_list; fhc != NULL; fhc = fhc->next) {
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u32 tmp;
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/* Clear all of the interrupt mapping registers
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* just in case OBP left them in a foul state.
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*/
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ZAP(fhc->fhc_regs.ffregs + FHC_FFREGS_ICLR,
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fhc->fhc_regs.ffregs + FHC_FFREGS_IMAP);
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ZAP(fhc->fhc_regs.sregs + FHC_SREGS_ICLR,
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fhc->fhc_regs.sregs + FHC_SREGS_IMAP);
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ZAP(fhc->fhc_regs.uregs + FHC_UREGS_ICLR,
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fhc->fhc_regs.uregs + FHC_UREGS_IMAP);
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ZAP(fhc->fhc_regs.tregs + FHC_TREGS_ICLR,
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fhc->fhc_regs.tregs + FHC_TREGS_IMAP);
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/* Setup FHC control register. */
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tmp = upa_readl(fhc->fhc_regs.pregs + FHC_PREGS_CTRL);
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/* All non-central boards have this bit set. */
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if (! IS_CENTRAL_FHC(fhc))
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tmp |= FHC_CONTROL_IXIST;
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/* For all FHCs, clear the firmware synchronization
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* line and both low power mode enables.
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*/
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tmp &= ~(FHC_CONTROL_AOFF | FHC_CONTROL_BOFF |
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FHC_CONTROL_SLINE);
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upa_writel(tmp, fhc->fhc_regs.pregs + FHC_PREGS_CTRL);
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upa_readl(fhc->fhc_regs.pregs + FHC_PREGS_CTRL);
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}
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}
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void central_probe(void)
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{
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struct linux_prom_registers fpregs[6], *pr;
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struct linux_fhc *fhc;
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struct device_node *dp, *fp;
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int err;
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dp = of_find_node_by_name(NULL, "central");
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if (!dp) {
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if (this_is_starfire)
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starfire_cpu_setup();
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return;
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}
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/* Ok we got one, grab some memory for software state. */
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central_bus = (struct linux_central *)
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central_alloc_bootmem(sizeof(struct linux_central));
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if (central_bus == NULL)
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central_probe_failure(__LINE__);
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fhc = (struct linux_fhc *)
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central_alloc_bootmem(sizeof(struct linux_fhc));
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if (fhc == NULL)
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central_probe_failure(__LINE__);
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/* First init central. */
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central_bus->child = fhc;
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central_bus->prom_node = dp;
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central_ranges_init(central_bus);
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/* And then central's FHC. */
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fhc->next = fhc_list;
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fhc_list = fhc;
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fhc->parent = central_bus;
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fp = dp->child;
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while (fp) {
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if (!strcmp(fp->name, "fhc"))
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break;
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fp = fp->sibling;
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}
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if (!fp)
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central_probe_failure(__LINE__);
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fhc->prom_node = fp;
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fhc_ranges_init(fhc);
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/* Now, map in FHC register set. */
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pr = of_get_property(fp, "reg", NULL);
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if (!pr)
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central_probe_failure(__LINE__);
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memcpy(fpregs, pr, sizeof(fpregs));
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apply_central_ranges(central_bus, &fpregs[0], 6);
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fhc->fhc_regs.pregs = prom_reg_to_paddr(&fpregs[0]);
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fhc->fhc_regs.ireg = prom_reg_to_paddr(&fpregs[1]);
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fhc->fhc_regs.ffregs = prom_reg_to_paddr(&fpregs[2]);
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fhc->fhc_regs.sregs = prom_reg_to_paddr(&fpregs[3]);
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fhc->fhc_regs.uregs = prom_reg_to_paddr(&fpregs[4]);
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fhc->fhc_regs.tregs = prom_reg_to_paddr(&fpregs[5]);
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/* Obtain board number from board status register, Central's
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* FHC lacks "board#" property.
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*/
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err = upa_readl(fhc->fhc_regs.pregs + FHC_PREGS_BSR);
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fhc->board = (((err >> 16) & 0x01) |
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((err >> 12) & 0x0e));
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fhc->jtag_master = 0;
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/* Attach the clock board registers for CENTRAL. */
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probe_clock_board(central_bus, fhc, fp);
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err = upa_readl(fhc->fhc_regs.pregs + FHC_PREGS_ID);
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printk("FHC(board %d): Version[%x] PartID[%x] Manuf[%x] (CENTRAL)\n",
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fhc->board,
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((err & FHC_ID_VERS) >> 28),
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((err & FHC_ID_PARTID) >> 12),
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((err & FHC_ID_MANUF) >> 1));
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probe_other_fhcs();
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init_all_fhc_hw();
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}
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static __inline__ void fhc_ledblink(struct linux_fhc *fhc, int on)
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{
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u32 tmp;
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tmp = upa_readl(fhc->fhc_regs.pregs + FHC_PREGS_CTRL);
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/* NOTE: reverse logic on this bit */
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if (on)
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tmp &= ~(FHC_CONTROL_RLED);
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else
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tmp |= FHC_CONTROL_RLED;
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tmp &= ~(FHC_CONTROL_AOFF | FHC_CONTROL_BOFF | FHC_CONTROL_SLINE);
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upa_writel(tmp, fhc->fhc_regs.pregs + FHC_PREGS_CTRL);
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upa_readl(fhc->fhc_regs.pregs + FHC_PREGS_CTRL);
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}
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static __inline__ void central_ledblink(struct linux_central *central, int on)
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{
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u8 tmp;
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tmp = upa_readb(central->clkregs + CLOCK_CTRL);
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/* NOTE: reverse logic on this bit */
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if (on)
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tmp &= ~(CLOCK_CTRL_RLED);
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else
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tmp |= CLOCK_CTRL_RLED;
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upa_writeb(tmp, central->clkregs + CLOCK_CTRL);
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upa_readb(central->clkregs + CLOCK_CTRL);
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}
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static struct timer_list sftimer;
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static int led_state;
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static void sunfire_timer(unsigned long __ignored)
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{
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struct linux_fhc *fhc;
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central_ledblink(central_bus, led_state);
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for (fhc = fhc_list; fhc != NULL; fhc = fhc->next)
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if (! IS_CENTRAL_FHC(fhc))
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fhc_ledblink(fhc, led_state);
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led_state = ! led_state;
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sftimer.expires = jiffies + (HZ >> 1);
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add_timer(&sftimer);
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}
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/* After PCI/SBUS busses have been probed, this is called to perform
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* final initialization of all FireHose Controllers in the system.
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*/
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void firetruck_init(void)
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{
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struct linux_central *central = central_bus;
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u8 ctrl;
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/* No central bus, nothing to do. */
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if (central == NULL)
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return;
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/* OBP leaves it on, turn it off so clock board timer LED
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* is in sync with FHC ones.
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*/
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ctrl = upa_readb(central->clkregs + CLOCK_CTRL);
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ctrl &= ~(CLOCK_CTRL_RLED);
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upa_writeb(ctrl, central->clkregs + CLOCK_CTRL);
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led_state = 0;
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init_timer(&sftimer);
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sftimer.data = 0;
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sftimer.function = &sunfire_timer;
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sftimer.expires = jiffies + (HZ >> 1);
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add_timer(&sftimer);
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}
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