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/*
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 *  BRIEF MODULE DESCRIPTION
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 *     PCI initialization for IDT EB434 board
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 *
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 *  Copyright 2004 IDT Inc. ([email protected])
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 *
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 *  This program is free software; you can redistribute  it and/or modify it
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 *  under  the terms of  the GNU General  Public License as published by the
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 *  Free Software Foundation;  either version 2 of the  License, or (at your
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 *  option) any later version.
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 *
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 *  THIS  SOFTWARE  IS PROVIDED   ``AS  IS'' AND   ANY  EXPRESS OR IMPLIED
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 *  WARRANTIES,   INCLUDING, BUT NOT  LIMITED  TO, THE IMPLIED WARRANTIES OF
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 *  MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.  IN
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 *  NO  EVENT  SHALL   THE AUTHOR  BE    LIABLE FOR ANY   DIRECT, INDIRECT,
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 *  INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
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 *  NOT LIMITED   TO, PROCUREMENT OF  SUBSTITUTE GOODS  OR SERVICES; LOSS OF
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 *  USE, DATA,  OR PROFITS; OR  BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
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 *  ANY THEORY OF LIABILITY, WHETHER IN  CONTRACT, STRICT LIABILITY, OR TORT
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 *  (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
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 *  THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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 *
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 *  You should have received a copy of the  GNU General Public License along
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 *  with this program; if not, write  to the Free Software Foundation, Inc.,
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 *  675 Mass Ave, Cambridge, MA 02139, USA.
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 */
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#include <linux/types.h>
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#include <linux/pci.h>
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#include <linux/kernel.h>
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#include <linux/init.h>
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#include <asm/mach-rc32434/rc32434.h>
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#include <asm/mach-rc32434/pci.h>
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#define PCI_ACCESS_READ	 0
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#define PCI_ACCESS_WRITE 1
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/* define an unsigned array for the PCI registers */
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static unsigned int korina_cnfg_regs[25] = {
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	KORINA_CNFG1, KORINA_CNFG2, KORINA_CNFG3, KORINA_CNFG4,
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	KORINA_CNFG5, KORINA_CNFG6, KORINA_CNFG7, KORINA_CNFG8,
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	KORINA_CNFG9, KORINA_CNFG10, KORINA_CNFG11, KORINA_CNFG12,
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	KORINA_CNFG13, KORINA_CNFG14, KORINA_CNFG15, KORINA_CNFG16,
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	KORINA_CNFG17, KORINA_CNFG18, KORINA_CNFG19, KORINA_CNFG20,
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	KORINA_CNFG21, KORINA_CNFG22, KORINA_CNFG23, KORINA_CNFG24
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};
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static struct resource rc32434_res_pci_mem1;
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static struct resource rc32434_res_pci_mem2;
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static struct resource rc32434_res_pci_mem1 = {
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	.name = "PCI MEM1",
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	.start = 0x50000000,
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	.end = 0x5FFFFFFF,
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	.flags = IORESOURCE_MEM,
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	.sibling = NULL,
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	.child = &rc32434_res_pci_mem2
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};
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static struct resource rc32434_res_pci_mem2 = {
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	.name = "PCI Mem2",
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	.start = 0x60000000,
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	.end = 0x6FFFFFFF,
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	.flags = IORESOURCE_MEM,
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	.parent = &rc32434_res_pci_mem1,
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	.sibling = NULL,
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	.child = NULL
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};
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static struct resource rc32434_res_pci_io1 = {
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	.name = "PCI I/O1",
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	.start = 0x18800000,
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	.end = 0x188FFFFF,
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	.flags = IORESOURCE_IO,
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};
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extern struct pci_ops rc32434_pci_ops;
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#define PCI_MEM1_START	PCI_ADDR_START
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#define PCI_MEM1_END	(PCI_ADDR_START + CPUTOPCI_MEM_WIN - 1)
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#define PCI_MEM2_START	(PCI_ADDR_START + CPUTOPCI_MEM_WIN)
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#define PCI_MEM2_END	(PCI_ADDR_START + (2 * CPUTOPCI_MEM_WIN)  - 1)
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#define PCI_IO1_START	(PCI_ADDR_START + (2 * CPUTOPCI_MEM_WIN))
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#define PCI_IO1_END							\
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	(PCI_ADDR_START + (2 * CPUTOPCI_MEM_WIN) + CPUTOPCI_IO_WIN - 1)
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#define PCI_IO2_START							\
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	(PCI_ADDR_START + (2 * CPUTOPCI_MEM_WIN) + CPUTOPCI_IO_WIN)
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#define PCI_IO2_END							\
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	(PCI_ADDR_START + (2 * CPUTOPCI_MEM_WIN) + (2 * CPUTOPCI_IO_WIN) - 1)
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struct pci_controller rc32434_controller2;
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struct pci_controller rc32434_controller = {
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	.pci_ops = &rc32434_pci_ops,
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	.mem_resource = &rc32434_res_pci_mem1,
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	.io_resource = &rc32434_res_pci_io1,
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	.mem_offset = 0,
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	.io_offset = 0,
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};
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#ifdef __MIPSEB__
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#define PCI_ENDIAN_FLAG PCILBAC_sb_m
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#else
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#define PCI_ENDIAN_FLAG 0
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#endif
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static int __init rc32434_pcibridge_init(void)
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{
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	unsigned int pcicvalue, pcicdata = 0;
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	unsigned int dummyread, pcicntlval;
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	int loopCount;
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	unsigned int pci_config_addr;
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	pcicvalue = rc32434_pci->pcic;
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	pcicvalue = (pcicvalue >> PCIM_SHFT) & PCIM_BIT_LEN;
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	if (!((pcicvalue == PCIM_H_EA) ||
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	      (pcicvalue == PCIM_H_IA_FIX) ||
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	      (pcicvalue == PCIM_H_IA_RR))) {
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		pr_err("PCI init error!!!\n");
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		/* Not in Host Mode, return ERROR */
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		return -1;
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	}
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	/* Enables the Idle Grant mode, Arbiter Parking */
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	pcicdata |= (PCI_CTL_IGM | PCI_CTL_EAP | PCI_CTL_EN);
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	rc32434_pci->pcic = pcicdata;	/* Enable the PCI bus Interface */
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	/* Zero out the PCI status & PCI Status Mask */
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	for (;;) {
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		pcicdata = rc32434_pci->pcis;
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		if (!(pcicdata & PCI_STAT_RIP))
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			break;
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	}
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	rc32434_pci->pcis = 0;
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	rc32434_pci->pcism = 0xFFFFFFFF;
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	/* Zero out the PCI decoupled registers */
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	rc32434_pci->pcidac = 0;	/*
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					 * disable PCI decoupled accesses at
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					 * initialization
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					 */
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	rc32434_pci->pcidas = 0;	/* clear the status */
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	rc32434_pci->pcidasm = 0x0000007F;	/* Mask all the interrupts */
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	/* Mask PCI Messaging Interrupts */
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	rc32434_pci_msg->pciiic = 0;
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	rc32434_pci_msg->pciiim = 0xFFFFFFFF;
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	rc32434_pci_msg->pciioic = 0;
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	rc32434_pci_msg->pciioim = 0;
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	/* Setup PCILB0 as Memory Window */
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	rc32434_pci->pcilba[0].address = (unsigned int) (PCI_ADDR_START);
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	/* setup the PCI map address as same as the local address */
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	rc32434_pci->pcilba[0].mapping = (unsigned int) (PCI_ADDR_START);
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	/* Setup PCILBA1 as MEM */
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	rc32434_pci->pcilba[0].control =
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	    (((SIZE_256MB & 0x1f) << PCI_LBAC_SIZE_BIT) | PCI_ENDIAN_FLAG);
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	dummyread = rc32434_pci->pcilba[0].control;	/* flush the CPU write Buffers */
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	rc32434_pci->pcilba[1].address = 0x60000000;
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	rc32434_pci->pcilba[1].mapping = 0x60000000;
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	/* setup PCILBA2 as IO Window */
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	rc32434_pci->pcilba[1].control =
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	    (((SIZE_256MB & 0x1f) << PCI_LBAC_SIZE_BIT) | PCI_ENDIAN_FLAG);
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	dummyread = rc32434_pci->pcilba[1].control;	/* flush the CPU write Buffers */
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	rc32434_pci->pcilba[2].address = 0x18C00000;
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	rc32434_pci->pcilba[2].mapping = 0x18FFFFFF;
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	/* setup PCILBA2 as IO Window */
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	rc32434_pci->pcilba[2].control =
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	    (((SIZE_4MB & 0x1f) << PCI_LBAC_SIZE_BIT) | PCI_ENDIAN_FLAG);
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	dummyread = rc32434_pci->pcilba[2].control;	/* flush the CPU write Buffers */
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	/* Setup PCILBA3 as IO Window */
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	rc32434_pci->pcilba[3].address = 0x18800000;
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	rc32434_pci->pcilba[3].mapping = 0x18800000;
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	rc32434_pci->pcilba[3].control =
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	    ((((SIZE_1MB & 0x1ff) << PCI_LBAC_SIZE_BIT) | PCI_LBAC_MSI) |
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	     PCI_ENDIAN_FLAG);
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	dummyread = rc32434_pci->pcilba[3].control;	/* flush the CPU write Buffers */
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	pci_config_addr = (unsigned int) (0x80000004);
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	for (loopCount = 0; loopCount < 24; loopCount++) {
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		rc32434_pci->pcicfga = pci_config_addr;
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		dummyread = rc32434_pci->pcicfga;
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		rc32434_pci->pcicfgd = korina_cnfg_regs[loopCount];
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		dummyread = rc32434_pci->pcicfgd;
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		pci_config_addr += 4;
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	}
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	rc32434_pci->pcitc =
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	    (unsigned int) ((PCITC_RTIMER_VAL & 0xff) << PCI_TC_RTIMER_BIT) |
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	    ((PCITC_DTIMER_VAL & 0xff) << PCI_TC_DTIMER_BIT);
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	pcicntlval = rc32434_pci->pcic;
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	pcicntlval &= ~PCI_CTL_TNR;
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	rc32434_pci->pcic = pcicntlval;
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	pcicntlval = rc32434_pci->pcic;
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	return 0;
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}
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static int __init rc32434_pci_init(void)
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{
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	void __iomem *io_map_base;
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	pr_info("PCI: Initializing PCI\n");
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	ioport_resource.start = rc32434_res_pci_io1.start;
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	ioport_resource.end = rc32434_res_pci_io1.end;
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	rc32434_pcibridge_init();
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	io_map_base = ioremap(rc32434_res_pci_io1.start,
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			      resource_size(&rc32434_res_pci_io1));
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	if (!io_map_base)
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		return -ENOMEM;
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	rc32434_controller.io_map_base =
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		(unsigned long)io_map_base - rc32434_res_pci_io1.start;
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	register_pci_controller(&rc32434_controller);
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	rc32434_sync();
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	return 0;
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}
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arch_initcall(rc32434_pci_init);
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