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|
/*
* Sonics Silicon Backplane
* Broadcom PCI-core driver
*
* Copyright 2005, Broadcom Corporation
* Copyright 2006, 2007, Michael Buesch <m@bues.ch>
*
* Licensed under the GNU/GPL. See COPYING for details.
*/
#include <linux/ssb/ssb.h>
#include <linux/pci.h>
#include <linux/export.h>
#include <linux/delay.h>
#include <linux/ssb/ssb_embedded.h>
#include "ssb_private.h"
static u32 ssb_pcie_read(struct ssb_pcicore *pc, u32 address);
static void ssb_pcie_write(struct ssb_pcicore *pc, u32 address, u32 data);
static u16 ssb_pcie_mdio_read(struct ssb_pcicore *pc, u8 device, u8 address);
static void ssb_pcie_mdio_write(struct ssb_pcicore *pc, u8 device,
u8 address, u16 data);
static inline
u32 pcicore_read32(struct ssb_pcicore *pc, u16 offset)
{
return ssb_read32(pc->dev, offset);
}
static inline
void pcicore_write32(struct ssb_pcicore *pc, u16 offset, u32 value)
{
ssb_write32(pc->dev, offset, value);
}
static inline
u16 pcicore_read16(struct ssb_pcicore *pc, u16 offset)
{
return ssb_read16(pc->dev, offset);
}
static inline
void pcicore_write16(struct ssb_pcicore *pc, u16 offset, u16 value)
{
ssb_write16(pc->dev, offset, value);
}
/**************************************************
* Code for hostmode operation.
**************************************************/
#ifdef CONFIG_SSB_PCICORE_HOSTMODE
#include <asm/paccess.h>
/* Probe a 32bit value on the bus and catch bus exceptions.
* Returns nonzero on a bus exception.
* This is MIPS specific */
#define mips_busprobe32(val, addr) get_dbe((val), ((u32 *)(addr)))
/* Assume one-hot slot wiring */
#define SSB_PCI_SLOT_MAX 16
/* Global lock is OK, as we won't have more than one extpci anyway. */
static DEFINE_SPINLOCK(cfgspace_lock);
/* Core to access the external PCI config space. Can only have one. */
static struct ssb_pcicore *extpci_core;
static u32 get_cfgspace_addr(struct ssb_pcicore *pc,
unsigned int bus, unsigned int dev,
unsigned int func, unsigned int off)
{
u32 addr = 0;
u32 tmp;
/* We do only have one cardbus device behind the bridge. */
if (pc->cardbusmode && (dev > 1))
goto out;
if (bus == 0) {
/* Type 0 transaction */
if (unlikely(dev >= SSB_PCI_SLOT_MAX))
goto out;
/* Slide the window */
tmp = SSB_PCICORE_SBTOPCI_CFG0;
tmp |= ((1 << (dev + 16)) & SSB_PCICORE_SBTOPCI1_MASK);
pcicore_write32(pc, SSB_PCICORE_SBTOPCI1, tmp);
/* Calculate the address */
addr = SSB_PCI_CFG;
addr |= ((1 << (dev + 16)) & ~SSB_PCICORE_SBTOPCI1_MASK);
addr |= (func << 8);
addr |= (off & ~3);
} else {
/* Type 1 transaction */
pcicore_write32(pc, SSB_PCICORE_SBTOPCI1,
SSB_PCICORE_SBTOPCI_CFG1);
/* Calculate the address */
addr = SSB_PCI_CFG;
addr |= (bus << 16);
addr |= (dev << 11);
addr |= (func << 8);
addr |= (off & ~3);
}
out:
return addr;
}
static int ssb_extpci_read_config(struct ssb_pcicore *pc,
unsigned int bus, unsigned int dev,
unsigned int func, unsigned int off,
void *buf, int len)
{
int err = -EINVAL;
u32 addr, val;
void __iomem *mmio;
SSB_WARN_ON(!pc->hostmode);
if (unlikely(len != 1 && len != 2 && len != 4))
goto out;
addr = get_cfgspace_addr(pc, bus, dev, func, off);
if (unlikely(!addr))
goto out;
err = -ENOMEM;
mmio = ioremap_nocache(addr, len);
if (!mmio)
goto out;
if (mips_busprobe32(val, mmio)) {
val = 0xffffffff;
goto unmap;
}
val = readl(mmio);
val >>= (8 * (off & 3));
switch (len) {
case 1:
*((u8 *)buf) = (u8)val;
break;
case 2:
*((u16 *)buf) = (u16)val;
break;
case 4:
*((u32 *)buf) = (u32)val;
break;
}
err = 0;
unmap:
iounmap(mmio);
out:
return err;
}
static int ssb_extpci_write_config(struct ssb_pcicore *pc,
unsigned int bus, unsigned int dev,
unsigned int func, unsigned int off,
const void *buf, int len)
{
int err = -EINVAL;
u32 addr, val = 0;
void __iomem *mmio;
SSB_WARN_ON(!pc->hostmode);
if (unlikely(len != 1 && len != 2 && len != 4))
goto out;
addr = get_cfgspace_addr(pc, bus, dev, func, off);
if (unlikely(!addr))
goto out;
err = -ENOMEM;
mmio = ioremap_nocache(addr, len);
if (!mmio)
goto out;
if (mips_busprobe32(val, mmio)) {
val = 0xffffffff;
goto unmap;
}
switch (len) {
case 1:
val = readl(mmio);
val &= ~(0xFF << (8 * (off & 3)));
val |= *((const u8 *)buf) << (8 * (off & 3));
break;
case 2:
val = readl(mmio);
val &= ~(0xFFFF << (8 * (off & 3)));
val |= *((const u16 *)buf) << (8 * (off & 3));
break;
case 4:
val = *((const u32 *)buf);
break;
}
writel(val, mmio);
err = 0;
unmap:
iounmap(mmio);
out:
return err;
}
static int ssb_pcicore_read_config(struct pci_bus *bus, unsigned int devfn,
int reg, int size, u32 *val)
{
unsigned long flags;
int err;
spin_lock_irqsave(&cfgspace_lock, flags);
err = ssb_extpci_read_config(extpci_core, bus->number, PCI_SLOT(devfn),
PCI_FUNC(devfn), reg, val, size);
spin_unlock_irqrestore(&cfgspace_lock, flags);
return err ? PCIBIOS_DEVICE_NOT_FOUND : PCIBIOS_SUCCESSFUL;
}
static int ssb_pcicore_write_config(struct pci_bus *bus, unsigned int devfn,
int reg, int size, u32 val)
{
unsigned long flags;
int err;
spin_lock_irqsave(&cfgspace_lock, flags);
err = ssb_extpci_write_config(extpci_core, bus->number, PCI_SLOT(devfn),
PCI_FUNC(devfn), reg, &val, size);
spin_unlock_irqrestore(&cfgspace_lock, flags);
return err ? PCIBIOS_DEVICE_NOT_FOUND : PCIBIOS_SUCCESSFUL;
}
static struct pci_ops ssb_pcicore_pciops = {
.read = ssb_pcicore_read_config,
.write = ssb_pcicore_write_config,
};
static struct resource ssb_pcicore_mem_resource = {
.name = "SSB PCIcore external memory",
.start = SSB_PCI_DMA,
.end = SSB_PCI_DMA + SSB_PCI_DMA_SZ - 1,
.flags = IORESOURCE_MEM | IORESOURCE_PCI_FIXED,
};
static struct resource ssb_pcicore_io_resource = {
.name = "SSB PCIcore external I/O",
.start = 0x100,
.end = 0x7FF,
.flags = IORESOURCE_IO | IORESOURCE_PCI_FIXED,
};
static struct pci_controller ssb_pcicore_controller = {
.pci_ops = &ssb_pcicore_pciops,
.io_resource = &ssb_pcicore_io_resource,
.mem_resource = &ssb_pcicore_mem_resource,
};
/* This function is called when doing a pci_enable_device().
* We must first check if the device is a device on the PCI-core bridge. */
int ssb_pcicore_plat_dev_init(struct pci_dev *d)
{
if (d->bus->ops != &ssb_pcicore_pciops) {
/* This is not a device on the PCI-core bridge. */
return -ENODEV;
}
ssb_info("PCI: Fixing up device %s\n", pci_name(d));
/* Fix up interrupt lines */
d->irq = ssb_mips_irq(extpci_core->dev) + 2;
pci_write_config_byte(d, PCI_INTERRUPT_LINE, d->irq);
return 0;
}
/* Early PCI fixup for a device on the PCI-core bridge. */
static void ssb_pcicore_fixup_pcibridge(struct pci_dev *dev)
{
u8 lat;
if (dev->bus->ops != &ssb_pcicore_pciops) {
/* This is not a device on the PCI-core bridge. */
return;
}
if (dev->bus->number != 0 || PCI_SLOT(dev->devfn) != 0)
return;
ssb_info("PCI: Fixing up bridge %s\n", pci_name(dev));
/* Enable PCI bridge bus mastering and memory space */
pci_set_master(dev);
if (pcibios_enable_device(dev, ~0) < 0) {
ssb_err("PCI: SSB bridge enable failed\n");
return;
}
/* Enable PCI bridge BAR1 prefetch and burst */
pci_write_config_dword(dev, SSB_BAR1_CONTROL, 3);
/* Make sure our latency is high enough to handle the devices behind us */
lat = 168;
ssb_info("PCI: Fixing latency timer of device %s to %u\n",
pci_name(dev), lat);
pci_write_config_byte(dev, PCI_LATENCY_TIMER, lat);
}
DECLARE_PCI_FIXUP_EARLY(PCI_ANY_ID, PCI_ANY_ID, ssb_pcicore_fixup_pcibridge);
/* PCI device IRQ mapping. */
int ssb_pcicore_pcibios_map_irq(const struct pci_dev *dev, u8 slot, u8 pin)
{
if (dev->bus->ops != &ssb_pcicore_pciops) {
/* This is not a device on the PCI-core bridge. */
return -ENODEV;
}
return ssb_mips_irq(extpci_core->dev) + 2;
}
static void ssb_pcicore_init_hostmode(struct ssb_pcicore *pc)
{
u32 val;
if (WARN_ON(extpci_core))
return;
extpci_core = pc;
ssb_dbg("PCIcore in host mode found\n");
/* Reset devices on the external PCI bus */
val = SSB_PCICORE_CTL_RST_OE;
val |= SSB_PCICORE_CTL_CLK_OE;
pcicore_write32(pc, SSB_PCICORE_CTL, val);
val |= SSB_PCICORE_CTL_CLK; /* Clock on */
pcicore_write32(pc, SSB_PCICORE_CTL, val);
udelay(150); /* Assertion time demanded by the PCI standard */
val |= SSB_PCICORE_CTL_RST; /* Deassert RST# */
pcicore_write32(pc, SSB_PCICORE_CTL, val);
val = SSB_PCICORE_ARBCTL_INTERN;
pcicore_write32(pc, SSB_PCICORE_ARBCTL, val);
udelay(1); /* Assertion time demanded by the PCI standard */
if (pc->dev->bus->has_cardbus_slot) {
ssb_dbg("CardBus slot detected\n");
pc->cardbusmode = 1;
/* GPIO 1 resets the bridge */
ssb_gpio_out(pc->dev->bus, 1, 1);
ssb_gpio_outen(pc->dev->bus, 1, 1);
pcicore_write16(pc, SSB_PCICORE_SPROM(0),
pcicore_read16(pc, SSB_PCICORE_SPROM(0))
| 0x0400);
}
/* 64MB I/O window */
pcicore_write32(pc, SSB_PCICORE_SBTOPCI0,
SSB_PCICORE_SBTOPCI_IO);
/* 64MB config space */
pcicore_write32(pc, SSB_PCICORE_SBTOPCI1,
SSB_PCICORE_SBTOPCI_CFG0);
/* 1GB memory window */
pcicore_write32(pc, SSB_PCICORE_SBTOPCI2,
SSB_PCICORE_SBTOPCI_MEM | SSB_PCI_DMA);
/*
* Accessing PCI config without a proper delay after devices reset (not
* GPIO reset) was causing reboots on WRT300N v1.0 (BCM4704).
* Tested delay 850 us lowered reboot chance to 50-80%, 1000 us fixed it
* completely. Flushing all writes was also tested but with no luck.
* The same problem was reported for WRT350N v1 (BCM4705), so we just
* sleep here unconditionally.
*/
usleep_range(1000, 2000);
/* Enable PCI bridge BAR0 prefetch and burst */
val = PCI_COMMAND_MASTER | PCI_COMMAND_MEMORY;
ssb_extpci_write_config(pc, 0, 0, 0, PCI_COMMAND, &val, 2);
/* Clear error conditions */
val = 0;
ssb_extpci_write_config(pc, 0, 0, 0, PCI_STATUS, &val, 2);
/* Enable PCI interrupts */
pcicore_write32(pc, SSB_PCICORE_IMASK,
SSB_PCICORE_IMASK_INTA);
/* Ok, ready to run, register it to the system.
* The following needs change, if we want to port hostmode
* to non-MIPS platform. */
ssb_pcicore_controller.io_map_base = (unsigned long)ioremap_nocache(SSB_PCI_MEM, 0x04000000);
set_io_port_base(ssb_pcicore_controller.io_map_base);
/* Give some time to the PCI controller to configure itself with the new
* values. Not waiting at this point causes crashes of the machine. */
mdelay(10);
register_pci_controller(&ssb_pcicore_controller);
}
static int pcicore_is_in_hostmode(struct ssb_pcicore *pc)
{
struct ssb_bus *bus = pc->dev->bus;
u16 chipid_top;
u32 tmp;
chipid_top = (bus->chip_id & 0xFF00);
if (chipid_top != 0x4700 &&
chipid_top != 0x5300)
return 0;
if (bus->sprom.boardflags_lo & SSB_PCICORE_BFL_NOPCI)
return 0;
/* The 200-pin BCM4712 package does not bond out PCI. Even when
* PCI is bonded out, some boards may leave the pins floating. */
if (bus->chip_id == 0x4712) {
if (bus->chip_package == SSB_CHIPPACK_BCM4712S)
return 0;
if (bus->chip_package == SSB_CHIPPACK_BCM4712M)
return 0;
}
if (bus->chip_id == 0x5350)
return 0;
return !mips_busprobe32(tmp, (bus->mmio + (pc->dev->core_index * SSB_CORE_SIZE)));
}
#endif /* CONFIG_SSB_PCICORE_HOSTMODE */
/**************************************************
* Workarounds.
**************************************************/
static void ssb_pcicore_fix_sprom_core_index(struct ssb_pcicore *pc)
{
u16 tmp = pcicore_read16(pc, SSB_PCICORE_SPROM(0));
if (((tmp & 0xF000) >> 12) != pc->dev->core_index) {
tmp &= ~0xF000;
tmp |= (pc->dev->core_index << 12);
pcicore_write16(pc, SSB_PCICORE_SPROM(0), tmp);
}
}
static u8 ssb_pcicore_polarity_workaround(struct ssb_pcicore *pc)
{
return (ssb_pcie_read(pc, 0x204) & 0x10) ? 0xC0 : 0x80;
}
static void ssb_pcicore_serdes_workaround(struct ssb_pcicore *pc)
{
const u8 serdes_pll_device = 0x1D;
const u8 serdes_rx_device = 0x1F;
u16 tmp;
ssb_pcie_mdio_write(pc, serdes_rx_device, 1 /* Control */,
ssb_pcicore_polarity_workaround(pc));
tmp = ssb_pcie_mdio_read(pc, serdes_pll_device, 1 /* Control */);
if (tmp & 0x4000)
ssb_pcie_mdio_write(pc, serdes_pll_device, 1, tmp & ~0x4000);
}
static void ssb_pcicore_pci_setup_workarounds(struct ssb_pcicore *pc)
{
struct ssb_device *pdev = pc->dev;
struct ssb_bus *bus = pdev->bus;
u32 tmp;
tmp = pcicore_read32(pc, SSB_PCICORE_SBTOPCI2);
tmp |= SSB_PCICORE_SBTOPCI_PREF;
tmp |= SSB_PCICORE_SBTOPCI_BURST;
pcicore_write32(pc, SSB_PCICORE_SBTOPCI2, tmp);
if (pdev->id.revision < 5) {
tmp = ssb_read32(pdev, SSB_IMCFGLO);
tmp &= ~SSB_IMCFGLO_SERTO;
tmp |= 2;
tmp &= ~SSB_IMCFGLO_REQTO;
tmp |= 3 << SSB_IMCFGLO_REQTO_SHIFT;
ssb_write32(pdev, SSB_IMCFGLO, tmp);
ssb_commit_settings(bus);
} else if (pdev->id.revision >= 11) {
tmp = pcicore_read32(pc, SSB_PCICORE_SBTOPCI2);
tmp |= SSB_PCICORE_SBTOPCI_MRM;
pcicore_write32(pc, SSB_PCICORE_SBTOPCI2, tmp);
}
}
static void ssb_pcicore_pcie_setup_workarounds(struct ssb_pcicore *pc)
{
u32 tmp;
u8 rev = pc->dev->id.revision;
if (rev == 0 || rev == 1) {
/* TLP Workaround register. */
tmp = ssb_pcie_read(pc, 0x4);
tmp |= 0x8;
ssb_pcie_write(pc, 0x4, tmp);
}
if (rev == 1) {
/* DLLP Link Control register. */
tmp = ssb_pcie_read(pc, 0x100);
tmp |= 0x40;
ssb_pcie_write(pc, 0x100, tmp);
}
if (rev == 0) {
const u8 serdes_rx_device = 0x1F;
ssb_pcie_mdio_write(pc, serdes_rx_device,
2 /* Timer */, 0x8128);
ssb_pcie_mdio_write(pc, serdes_rx_device,
6 /* CDR */, 0x0100);
ssb_pcie_mdio_write(pc, serdes_rx_device,
7 /* CDR BW */, 0x1466);
} else if (rev == 3 || rev == 4 || rev == 5) {
/* TODO: DLLP Power Management Threshold */
ssb_pcicore_serdes_workaround(pc);
/* TODO: ASPM */
} else if (rev == 7) {
/* TODO: No PLL down */
}
if (rev >= 6) {
/* Miscellaneous Configuration Fixup */
tmp = pcicore_read16(pc, SSB_PCICORE_SPROM(5));
if (!(tmp & 0x8000))
pcicore_write16(pc, SSB_PCICORE_SPROM(5),
tmp | 0x8000);
}
}
/**************************************************
* Generic and Clientmode operation code.
**************************************************/
static void ssb_pcicore_init_clientmode(struct ssb_pcicore *pc)
{
struct ssb_device *pdev = pc->dev;
struct ssb_bus *bus = pdev->bus;
if (bus->bustype == SSB_BUSTYPE_PCI)
ssb_pcicore_fix_sprom_core_index(pc);
/* Disable PCI interrupts. */
ssb_write32(pdev, SSB_INTVEC, 0);
/* Additional PCIe always once-executed workarounds */
if (pc->dev->id.coreid == SSB_DEV_PCIE) {
ssb_pcicore_serdes_workaround(pc);
/* TODO: ASPM */
/* TODO: Clock Request Update */
}
}
void ssb_pcicore_init(struct ssb_pcicore *pc)
{
struct ssb_device *dev = pc->dev;
if (!dev)
return;
if (!ssb_device_is_enabled(dev))
ssb_device_enable(dev, 0);
#ifdef CONFIG_SSB_PCICORE_HOSTMODE
pc->hostmode = pcicore_is_in_hostmode(pc);
if (pc->hostmode)
ssb_pcicore_init_hostmode(pc);
#endif /* CONFIG_SSB_PCICORE_HOSTMODE */
if (!pc->hostmode)
ssb_pcicore_init_clientmode(pc);
}
static u32 ssb_pcie_read(struct ssb_pcicore *pc, u32 address)
{
pcicore_write32(pc, 0x130, address);
return pcicore_read32(pc, 0x134);
}
static void ssb_pcie_write(struct ssb_pcicore *pc, u32 address, u32 data)
{
pcicore_write32(pc, 0x130, address);
pcicore_write32(pc, 0x134, data);
}
static void ssb_pcie_mdio_set_phy(struct ssb_pcicore *pc, u8 phy)
{
const u16 mdio_control = 0x128;
const u16 mdio_data = 0x12C;
u32 v;
int i;
v = (1 << 30); /* Start of Transaction */
v |= (1 << 28); /* Write Transaction */
v |= (1 << 17); /* Turnaround */
v |= (0x1F << 18);
v |= (phy << 4);
pcicore_write32(pc, mdio_data, v);
udelay(10);
for (i = 0; i < 200; i++) {
v = pcicore_read32(pc, mdio_control);
if (v & 0x100 /* Trans complete */)
break;
msleep(1);
}
}
static u16 ssb_pcie_mdio_read(struct ssb_pcicore *pc, u8 device, u8 address)
{
const u16 mdio_control = 0x128;
const u16 mdio_data = 0x12C;
int max_retries = 10;
u16 ret = 0;
u32 v;
int i;
v = 0x80; /* Enable Preamble Sequence */
v |= 0x2; /* MDIO Clock Divisor */
pcicore_write32(pc, mdio_control, v);
if (pc->dev->id.revision >= 10) {
max_retries = 200;
ssb_pcie_mdio_set_phy(pc, device);
}
v = (1 << 30); /* Start of Transaction */
v |= (1 << 29); /* Read Transaction */
v |= (1 << 17); /* Turnaround */
if (pc->dev->id.revision < 10)
v |= (u32)device << 22;
v |= (u32)address << 18;
pcicore_write32(pc, mdio_data, v);
/* Wait for the device to complete the transaction */
udelay(10);
for (i = 0; i < max_retries; i++) {
v = pcicore_read32(pc, mdio_control);
if (v & 0x100 /* Trans complete */) {
udelay(10);
ret = pcicore_read32(pc, mdio_data);
break;
}
msleep(1);
}
pcicore_write32(pc, mdio_control, 0);
return ret;
}
static void ssb_pcie_mdio_write(struct ssb_pcicore *pc, u8 device,
u8 address, u16 data)
{
const u16 mdio_control = 0x128;
const u16 mdio_data = 0x12C;
int max_retries = 10;
u32 v;
int i;
v = 0x80; /* Enable Preamble Sequence */
v |= 0x2; /* MDIO Clock Divisor */
pcicore_write32(pc, mdio_control, v);
if (pc->dev->id.revision >= 10) {
max_retries = 200;
ssb_pcie_mdio_set_phy(pc, device);
}
v = (1 << 30); /* Start of Transaction */
v |= (1 << 28); /* Write Transaction */
v |= (1 << 17); /* Turnaround */
if (pc->dev->id.revision < 10)
v |= (u32)device << 22;
v |= (u32)address << 18;
v |= data;
pcicore_write32(pc, mdio_data, v);
/* Wait for the device to complete the transaction */
udelay(10);
for (i = 0; i < max_retries; i++) {
v = pcicore_read32(pc, mdio_control);
if (v & 0x100 /* Trans complete */)
break;
msleep(1);
}
pcicore_write32(pc, mdio_control, 0);
}
int ssb_pcicore_dev_irqvecs_enable(struct ssb_pcicore *pc,
struct ssb_device *dev)
{
struct ssb_device *pdev = pc->dev;
struct ssb_bus *bus;
int err = 0;
u32 tmp;
if (dev->bus->bustype != SSB_BUSTYPE_PCI) {
/* This SSB device is not on a PCI host-bus. So the IRQs are
* not routed through the PCI core.
* So we must not enable routing through the PCI core. */
goto out;
}
if (!pdev)
goto out;
bus = pdev->bus;
might_sleep_if(pdev->id.coreid != SSB_DEV_PCI);
/* Enable interrupts for this device. */
if ((pdev->id.revision >= 6) || (pdev->id.coreid == SSB_DEV_PCIE)) {
u32 coremask;
/* Calculate the "coremask" for the device. */
coremask = (1 << dev->core_index);
SSB_WARN_ON(bus->bustype != SSB_BUSTYPE_PCI);
err = pci_read_config_dword(bus->host_pci, SSB_PCI_IRQMASK, &tmp);
if (err)
goto out;
tmp |= coremask << 8;
err = pci_write_config_dword(bus->host_pci, SSB_PCI_IRQMASK, tmp);
if (err)
goto out;
} else {
u32 intvec;
intvec = ssb_read32(pdev, SSB_INTVEC);
tmp = ssb_read32(dev, SSB_TPSFLAG);
tmp &= SSB_TPSFLAG_BPFLAG;
intvec |= (1 << tmp);
ssb_write32(pdev, SSB_INTVEC, intvec);
}
/* Setup PCIcore operation. */
if (pc->setup_done)
goto out;
if (pdev->id.coreid == SSB_DEV_PCI) {
ssb_pcicore_pci_setup_workarounds(pc);
} else {
WARN_ON(pdev->id.coreid != SSB_DEV_PCIE);
ssb_pcicore_pcie_setup_workarounds(pc);
}
pc->setup_done = 1;
out:
return err;
}
EXPORT_SYMBOL(ssb_pcicore_dev_irqvecs_enable);
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