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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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ea4bbfd004
The current ssb irq setup in ssb_mipscore_init has the problem that it configures some device on some irq without checking that the irq is not taken by an other device. For example in my case PCI host is on irq 0 and IPSEC on irq 3. The current code: - store in dev->irq that IPSEC irq is 3 + 2 - do a set_irq 0->3 on PCI host But now IPSEC irq is not routed anymore to the mips code and dev->irq is wrong. This causes a problem described in [1]. This patch tries to solve the problem by making set_irq configure the device we want to take the irq on the shared irq0. The previous example becomes: - store in dev->irq that IPSEC irq is 3 + 2 - do a set_irq 0->3 on PCI host: - irq 3 is already taken by IPSEC. do a set_irq 3->0 on IPSEC I also added some code to print the irq configuration after irq setup to allow easier debugging. And I add extra checking in ssb_mips_irq to report device without irq or device with not routed irq. [1] http://www.danm.de/files/src/bcm5365p/REPORTED_DEVICES Signed-off-by: Matthieu CASTET <castet.matthieu@free.fr> Acked-by : Michael Buesch <mb@bu3sch.de> Tested-by: Florian Fainelli <florian@openwrt.org> Signed-off-by: Ralf Baechle <ralf@linux-mips.org>
292 lines
6.8 KiB
C
292 lines
6.8 KiB
C
/*
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* Sonics Silicon Backplane
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* Broadcom MIPS core driver
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*
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* Copyright 2005, Broadcom Corporation
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* Copyright 2006, 2007, Michael Buesch <mb@bu3sch.de>
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*
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* Licensed under the GNU/GPL. See COPYING for details.
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*/
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#include <linux/ssb/ssb.h>
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#include <linux/serial.h>
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#include <linux/serial_core.h>
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#include <linux/serial_reg.h>
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#include <linux/time.h>
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#include "ssb_private.h"
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static inline u32 mips_read32(struct ssb_mipscore *mcore,
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u16 offset)
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{
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return ssb_read32(mcore->dev, offset);
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}
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static inline void mips_write32(struct ssb_mipscore *mcore,
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u16 offset,
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u32 value)
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{
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ssb_write32(mcore->dev, offset, value);
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}
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static const u32 ipsflag_irq_mask[] = {
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0,
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SSB_IPSFLAG_IRQ1,
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SSB_IPSFLAG_IRQ2,
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SSB_IPSFLAG_IRQ3,
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SSB_IPSFLAG_IRQ4,
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};
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static const u32 ipsflag_irq_shift[] = {
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0,
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SSB_IPSFLAG_IRQ1_SHIFT,
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SSB_IPSFLAG_IRQ2_SHIFT,
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SSB_IPSFLAG_IRQ3_SHIFT,
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SSB_IPSFLAG_IRQ4_SHIFT,
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};
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static inline u32 ssb_irqflag(struct ssb_device *dev)
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{
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u32 tpsflag = ssb_read32(dev, SSB_TPSFLAG);
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if (tpsflag)
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return ssb_read32(dev, SSB_TPSFLAG) & SSB_TPSFLAG_BPFLAG;
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else
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/* not irq supported */
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return 0x3f;
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}
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static struct ssb_device *find_device(struct ssb_device *rdev, int irqflag)
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{
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struct ssb_bus *bus = rdev->bus;
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int i;
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for (i = 0; i < bus->nr_devices; i++) {
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struct ssb_device *dev;
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dev = &(bus->devices[i]);
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if (ssb_irqflag(dev) == irqflag)
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return dev;
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}
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return NULL;
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}
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/* Get the MIPS IRQ assignment for a specified device.
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* If unassigned, 0 is returned.
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* If disabled, 5 is returned.
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* If not supported, 6 is returned.
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*/
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unsigned int ssb_mips_irq(struct ssb_device *dev)
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{
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struct ssb_bus *bus = dev->bus;
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struct ssb_device *mdev = bus->mipscore.dev;
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u32 irqflag;
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u32 ipsflag;
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u32 tmp;
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unsigned int irq;
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irqflag = ssb_irqflag(dev);
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if (irqflag == 0x3f)
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return 6;
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ipsflag = ssb_read32(bus->mipscore.dev, SSB_IPSFLAG);
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for (irq = 1; irq <= 4; irq++) {
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tmp = ((ipsflag & ipsflag_irq_mask[irq]) >> ipsflag_irq_shift[irq]);
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if (tmp == irqflag)
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break;
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}
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if (irq == 5) {
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if ((1 << irqflag) & ssb_read32(mdev, SSB_INTVEC))
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irq = 0;
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}
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return irq;
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}
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static void clear_irq(struct ssb_bus *bus, unsigned int irq)
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{
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struct ssb_device *dev = bus->mipscore.dev;
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/* Clear the IRQ in the MIPScore backplane registers */
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if (irq == 0) {
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ssb_write32(dev, SSB_INTVEC, 0);
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} else {
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ssb_write32(dev, SSB_IPSFLAG,
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ssb_read32(dev, SSB_IPSFLAG) |
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ipsflag_irq_mask[irq]);
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}
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}
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static void set_irq(struct ssb_device *dev, unsigned int irq)
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{
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unsigned int oldirq = ssb_mips_irq(dev);
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struct ssb_bus *bus = dev->bus;
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struct ssb_device *mdev = bus->mipscore.dev;
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u32 irqflag = ssb_irqflag(dev);
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BUG_ON(oldirq == 6);
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dev->irq = irq + 2;
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/* clear the old irq */
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if (oldirq == 0)
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ssb_write32(mdev, SSB_INTVEC, (~(1 << irqflag) & ssb_read32(mdev, SSB_INTVEC)));
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else if (oldirq != 5)
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clear_irq(bus, oldirq);
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/* assign the new one */
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if (irq == 0) {
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ssb_write32(mdev, SSB_INTVEC, ((1 << irqflag) | ssb_read32(mdev, SSB_INTVEC)));
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} else {
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u32 ipsflag = ssb_read32(mdev, SSB_IPSFLAG);
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if ((ipsflag & ipsflag_irq_mask[irq]) != ipsflag_irq_mask[irq]) {
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u32 oldipsflag = (ipsflag & ipsflag_irq_mask[irq]) >> ipsflag_irq_shift[irq];
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struct ssb_device *olddev = find_device(dev, oldipsflag);
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if (olddev)
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set_irq(olddev, 0);
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}
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irqflag <<= ipsflag_irq_shift[irq];
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irqflag |= (ipsflag & ~ipsflag_irq_mask[irq]);
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ssb_write32(mdev, SSB_IPSFLAG, irqflag);
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}
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ssb_dprintk(KERN_INFO PFX
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"set_irq: core 0x%04x, irq %d => %d\n",
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dev->id.coreid, oldirq+2, irq+2);
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}
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static void print_irq(struct ssb_device *dev, unsigned int irq)
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{
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int i;
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static const char *irq_name[] = {"2(S)", "3", "4", "5", "6", "D", "I"};
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ssb_dprintk(KERN_INFO PFX
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"core 0x%04x, irq :", dev->id.coreid);
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for (i = 0; i <= 6; i++) {
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ssb_dprintk(" %s%s", irq_name[i], i==irq?"*":" ");
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}
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ssb_dprintk("\n");
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}
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static void dump_irq(struct ssb_bus *bus)
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{
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int i;
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for (i = 0; i < bus->nr_devices; i++) {
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struct ssb_device *dev;
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dev = &(bus->devices[i]);
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print_irq(dev, ssb_mips_irq(dev));
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}
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}
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static void ssb_mips_serial_init(struct ssb_mipscore *mcore)
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{
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struct ssb_bus *bus = mcore->dev->bus;
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if (bus->extif.dev)
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mcore->nr_serial_ports = ssb_extif_serial_init(&bus->extif, mcore->serial_ports);
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else if (bus->chipco.dev)
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mcore->nr_serial_ports = ssb_chipco_serial_init(&bus->chipco, mcore->serial_ports);
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else
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mcore->nr_serial_ports = 0;
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}
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static void ssb_mips_flash_detect(struct ssb_mipscore *mcore)
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{
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struct ssb_bus *bus = mcore->dev->bus;
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mcore->flash_buswidth = 2;
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if (bus->chipco.dev) {
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mcore->flash_window = 0x1c000000;
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mcore->flash_window_size = 0x02000000;
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if ((ssb_read32(bus->chipco.dev, SSB_CHIPCO_FLASH_CFG)
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& SSB_CHIPCO_CFG_DS16) == 0)
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mcore->flash_buswidth = 1;
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} else {
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mcore->flash_window = 0x1fc00000;
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mcore->flash_window_size = 0x00400000;
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}
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}
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u32 ssb_cpu_clock(struct ssb_mipscore *mcore)
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{
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struct ssb_bus *bus = mcore->dev->bus;
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u32 pll_type, n, m, rate = 0;
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if (bus->extif.dev) {
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ssb_extif_get_clockcontrol(&bus->extif, &pll_type, &n, &m);
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} else if (bus->chipco.dev) {
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ssb_chipco_get_clockcpu(&bus->chipco, &pll_type, &n, &m);
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} else
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return 0;
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if ((pll_type == SSB_PLLTYPE_5) || (bus->chip_id == 0x5365)) {
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rate = 200000000;
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} else {
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rate = ssb_calc_clock_rate(pll_type, n, m);
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}
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if (pll_type == SSB_PLLTYPE_6) {
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rate *= 2;
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}
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return rate;
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}
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void ssb_mipscore_init(struct ssb_mipscore *mcore)
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{
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struct ssb_bus *bus;
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struct ssb_device *dev;
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unsigned long hz, ns;
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unsigned int irq, i;
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if (!mcore->dev)
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return; /* We don't have a MIPS core */
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ssb_dprintk(KERN_INFO PFX "Initializing MIPS core...\n");
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bus = mcore->dev->bus;
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hz = ssb_clockspeed(bus);
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if (!hz)
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hz = 100000000;
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ns = 1000000000 / hz;
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if (bus->extif.dev)
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ssb_extif_timing_init(&bus->extif, ns);
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else if (bus->chipco.dev)
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ssb_chipco_timing_init(&bus->chipco, ns);
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/* Assign IRQs to all cores on the bus, start with irq line 2, because serial usually takes 1 */
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for (irq = 2, i = 0; i < bus->nr_devices; i++) {
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int mips_irq;
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dev = &(bus->devices[i]);
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mips_irq = ssb_mips_irq(dev);
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if (mips_irq > 4)
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dev->irq = 0;
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else
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dev->irq = mips_irq + 2;
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if (dev->irq > 5)
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continue;
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switch (dev->id.coreid) {
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case SSB_DEV_USB11_HOST:
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/* shouldn't need a separate irq line for non-4710, most of them have a proper
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* external usb controller on the pci */
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if ((bus->chip_id == 0x4710) && (irq <= 4)) {
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set_irq(dev, irq++);
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}
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break;
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/* fallthrough */
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case SSB_DEV_PCI:
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case SSB_DEV_ETHERNET:
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case SSB_DEV_ETHERNET_GBIT:
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case SSB_DEV_80211:
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case SSB_DEV_USB20_HOST:
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/* These devices get their own IRQ line if available, the rest goes on IRQ0 */
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if (irq <= 4) {
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set_irq(dev, irq++);
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break;
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}
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}
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}
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ssb_dprintk(KERN_INFO PFX "after irq reconfiguration\n");
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dump_irq(bus);
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ssb_mips_serial_init(mcore);
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ssb_mips_flash_detect(mcore);
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}
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